; --------------------------------------------------------------------------------
; @Title: TDA2x On-Chip Peripherals
; @Props: Released
; @Author: ASK
; @Changelog: 2016-03-29 ASK
; @Manufacturer: TI - Texas Instruments
; @Core: Cortex-A15, Cortex-M4, ARM9, C646X
; @Copyright: 1989-2016 Lauterbach GmbH, licensed for use with TRACE32 only
; --------------------------------------------------------------------------------
; $Id: pertda2x.per 17736 2024-04-08 09:26:07Z kwisniewski $

sif cpuis("TDA2x")
tree "Core Registers (Cortex-A15MPCore)"
; --------------------------------------------------------------------------------
; Identification registers
; --------------------------------------------------------------------------------
width 10.
tree "ID Registers"
group.long c15:0x0++0x0
line.long 0x0 "MIDR,Main ID Register"
hexmask.long.byte 0x0 24.--31. 0x1 " IMPL        ,Implementer code"
bitfld.long 0x0 20.--23. "               VAR        ,Variant" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x0 16.--19. "                    ARCH      , Architecture" "Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,ARMv7"
textline "                   "
hexmask.long.word 0x0 4.--15. 1. " PART        ,Primary Part Number"
bitfld.long 0x0 0.--3. "             REV        ,Revision Number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
if (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE")
rgroup.long c15:0x100++0x0
line.long 0x0 "CTR,Cache Type Register"
bitfld.long 0x0 29.--31. " FORMAT      ,Format" "Reserved,Reserved,Reserved,Reserved,ARMv7,?..."
bitfld.long 0x0 24.--27. "         CWG        ,Cache writeback granule size" "Reserved,Reserved,Reserved,Reserved,16 words,?..."
bitfld.long 0x0 20.--23. "              ERG       ,Exclusives reservation granule size" "Reserved,Reserved,Reserved,Reserved,16 words,?..."
textline "                   "
bitfld.long 0x0 16.--19. " DMINLINE    ,Smallest data cache line size" "Reserved,Reserved,Reserved,Reserved,16 words,?..."
bitfld.long 0x0 14.--15. "         L1POLICY    ,L1 Instruction cache policy" "Reserved,Reserved,Reserved,Physical"
bitfld.long 0x0 0.--3. "              IMINLINE  ,I-Cache Minimum Line Size" "Reserved,Reserved,Reserved,8 words,16 words,?..."
elif (corename()=="CORTEXA7"||corename()=="CORTEXA7MPCORE"||corename()=="CORTEXA17"||corename()=="CORTEXA17MPCORE")
rgroup.long c15:0x100++0x0
line.long 0x0 "CTR,Cache Type Register"
bitfld.long 0x0 29.--31. " FORMAT      ,Format" "Reserved,Reserved,Reserved,Reserved,ARMv7,?..."
bitfld.long 0x0 24.--27. "         CWG        ,Cache writeback granule size" "Reserved,Reserved,Reserved,Reserved,16 words,?..."
bitfld.long 0x0 20.--23. "              ERG       ,Exclusives reservation granule size" "Reserved,Reserved,Reserved,Reserved,16 words,?..."
textline "                   "
bitfld.long 0x0 16.--19. " DMINLINE    ,Smallest data cache line size" "Reserved,Reserved,Reserved,Reserved,16 words,?..."
bitfld.long 0x0 14.--15. "         L1POLICY   ,L1 Instruction cache policy" "Reserved,Reserved,VIPT,?..."
bitfld.long 0x0 0.--3. "              IMINLINE  ,I-Cache Minimum Line Size" "Reserved,Reserved,Reserved,8 words,?..."
endif
rgroup.long c15:0x300++0x0
line.long 0x0 "TLBTR,TLB Type Register"
bitfld.long 0x0 0. " NU          ,Unified or Separate TLBs" "Unified,?..."
rgroup.long c15:0x500++0x0
line.long 0x0 "MPIDR,Multiprocessor Affinity Register"
bitfld.long 0x00 31. " MPERF       ,Multiprocessing Extensions register format" "Not supported,Supported"
bitfld.long 0x00 30. "    U          ,Processor is part of a multiprocessor or uniprocessor system" "Multiprocessor,Uniprocessor"
bitfld.long 0x00 24. "        MT        ,Lowest level of affinity consist of logical processors" "Not implemented,Implemented"
textline "                   "
bitfld.long 0x00 8.--11. " CLUSTERID   ,Value read in CLUSTERID configuration pins" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--1. "               CPUID      ,Value depends on the number of configured CPUs" "1,2,3,4"
rgroup.long c15:0x400++0x0
line.long 0x0 "MIDR2,Main ID Register"
hexmask.long.byte 0x0 24.--31. 0x1 " IMPL        ,Implementer code"
bitfld.long 0x0 20.--23. "               VAR        ,Variant" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x0 16.--19. "                    ARCH      , Architecture" "Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,ARMv7"
textline "                   "
hexmask.long.word 0x0 4.--15. 1. " PART        ,Primary Part Number"
bitfld.long 0x0 0.--3. "             REV        ,Revision Number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long c15:0x600++0x0
line.long 0x0 "REVIDR,Revision ID Register"
rgroup.long c15:0x700++0x0
line.long 0x0 "MIDR3,Main ID Register"
hexmask.long.byte 0x0 24.--31. 0x1 " IMPL        ,Implementer code"
bitfld.long 0x0 20.--23. "               VAR        ,Variant" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x0 16.--19. "                    ARCH      , Architecture" "Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,ARMv7"
textline "                   "
hexmask.long.word 0x0 4.--15. 1. " PART        ,Primary Part Number"
bitfld.long 0x0 0.--3. "             REV        ,Revision Number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
if (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE")
rgroup.long c15:0x0410++0x00
line.long 0x00 "ID_MMFR0,Memory Model Feature Register 0"
bitfld.long 0x00 28.--31. " IS          ,Indicates innermost shareability domain implemented" "Reserved,Implemented,?..."
bitfld.long 0x00 24.--27. "      FCSE       ,Fast Context Switch Memory Mappings Support" "Not supported,?..."
bitfld.long 0x00 20.--23. "         AR        ,Auxiliary Register Support" "Reserved,Supported,?..."
textline "                   "
bitfld.long 0x00 16.--19. " TCM         ,TCM and Associated DMA Support" "Not supported,?..."
bitfld.long 0x00 12.--15. "    SL         ,Shareability levels" "Reserved,Implemented 2 levels,?..."
bitfld.long 0x00 8.--11. "  OSS       ,Outer Shareable Support" "Not supported,?..."
textline "                   "
bitfld.long 0x00 4.--7. " PMSA        ,Physical Memory System Architecture (PMSA) Support" "Not supported,?..."
bitfld.long 0x00 0.--3. "    VMSA       ,Virtual Memory System Architecture (VMSA) Support" "Reserved,Reserved,Reserved,Supported,PXN,64-bit,?..."
elif (corename()=="CORTEXA7"||corename()=="CORTEXA7MPCORE"||corename()=="CORTEXA17"||corename()=="CORTEXA17MPCORE")
rgroup.long c15:0x0410++0x00
line.long 0x00 "ID_MMFR0,Memory Model Feature Register 0"
bitfld.long 0x00 28.--31. " IS          ,Indicates innermost shareability domain implemented" "Reserved,Implemented,?..."
bitfld.long 0x00 24.--27. "      FCSE       ,Fast Context Switch Memory Mappings Support" "Not supported,?..."
bitfld.long 0x00 20.--23. "         AR        ,Auxiliary Register Support" "Reserved,Supported,?..."
textline "                   "
bitfld.long 0x00 16.--19. " TCM         ,TCM and Associated DMA Support" "Not supported,?..."
bitfld.long 0x00 12.--15. "    SL         ,Shareability levels" "Reserved,Implemented 2 levels,?..."
bitfld.long 0x00 8.--11. "  OSS       ,Outer Shareable Support" "Reserved,Supported,?..."
textline "                   "
bitfld.long 0x00 4.--7. " PMSA        ,Physical Memory System Architecture (PMSA) Support" "Not supported,?..."
bitfld.long 0x00 0.--3. "    VMSA       ,Virtual Memory System Architecture (VMSA) Support" "Reserved,Reserved,Reserved,Reserved,Reserved,Supported,?..."
endif
if (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE")
rgroup.long c15:0x0510++0x00
line.long 0x00 "ID_MMFR1,Memory Model Feature Register 1"
bitfld.long 0x00 28.--31. " BTB         ,Branch Predictor" "Reserved,Reserved,Required,?..."
bitfld.long 0x00 24.--27. "         L1TCO      ,Test and Clean Operations on Data Cache/Harvard/Unified Architecture Support" "Not supported,?..."
bitfld.long 0x00 20.--23. "         L1UCMO    ,L1 Cache/All Maintenance Operations/Unified Architecture Support" "Not supported,?..."
textline "                   "
bitfld.long 0x00 16.--19. " L1HCMO      ,L1 Cache/All Maintenance Operations/Harvard Architecture Support" "Not supported,?..."
bitfld.long 0x00 12.--15. "    L1UCLMOSW  ,L1 Cache Line Maintenance Operations by Set and Way/Unified Architecture Support" "Not supported,?..."
bitfld.long 0x00 8.--11. "         L1HCLMOSW ,L1 Cache Line Maintenance Operations by Set and Way/Harvard Architecture Support" "Not supported,?..."
textline "                   "
bitfld.long 0x00 4.--7. " L1UCLMOMVA  ,L1 Cache Line Maintenance Operations by VA/Unified Architecture Support" "Not supported,?..."
bitfld.long 0x00 0.--3. "    L1HCLMOMVA ,L1 Cache Line Maintenance Operations by VA/Harvard Architecture" "Not supported,?..."
elif (corename()=="CORTEXA7"||corename()=="CORTEXA7MPCORE"||corename()=="CORTEXA17"||corename()=="CORTEXA17MPCORE")
rgroup.long c15:0x0510++0x00
line.long 0x00 "ID_MMFR1,Memory Model Feature Register 1"
bitfld.long 0x00 28.--31. " BTB         ,Branch Predictor" "Reserved,Reserved,Reserved,Reserved,Required,?..."
bitfld.long 0x00 24.--27. "         L1TCO      ,Test and Clean Operations on Data Cache/Harvard/Unified Architecture Support" "Not supported,?..."
bitfld.long 0x00 20.--23. "         L1UCMO    ,L1 Cache/All Maintenance Operations/Unified Architecture Support" "Not supported,?..."
textline "                   "
bitfld.long 0x00 16.--19. " L1HCMO      ,L1 Cache/All Maintenance Operations/Harvard Architecture Support" "Not supported,?..."
bitfld.long 0x00 12.--15. "    L1UCLMOSW  ,L1 Cache Line Maintenance Operations by Set and Way/Unified Architecture Support" "Not supported,?..."
bitfld.long 0x00 8.--11. "         L1HCLMOSW ,L1 Cache Line Maintenance Operations by Set and Way/Harvard Architecture Support" "Not supported,?..."
textline "                   "
bitfld.long 0x00 4.--7. " L1UCLMOMVA  ,L1 Cache Line Maintenance Operations by VA/Unified Architecture Support" "Not supported,?..."
bitfld.long 0x00 0.--3. "    L1HCLMOMVA ,L1 Cache Line Maintenance Operations by VA/Harvard Architecture" "Not supported,?..."
endif
rgroup.long c15:0x0610++0x00
line.long 0x00 "ID_MMFR2,Memory Model Feature Register 2"
bitfld.long 0x00 28.--31. " HAF         ,Hardware Access Flag Support" "Not supported,?..."
bitfld.long 0x00 24.--27. "    WFI        ,Wait for Interrupt Stalling Support" "Reserved,Supported,?..."
bitfld.long 0x00 20.--23. "             MBF       ,Memory Barrier Operations Support" "Reserved,Reserved,Supported,?..."
textline "                   "
bitfld.long 0x00 16.--19. " UTLBMO      ,TLB Maintenance Operations/Unified Architecture Support" "Reserved,Reserved,Reserved,Reserved,Supported,?..."
bitfld.long 0x00 12.--15. "        HTLBMO     ,TLB Maintenance Operations/Harvard Architecture Support" "Not supported,?..."
bitfld.long 0x00 8.--11. "         HL1CMRO   ,Cache Maintenance Range Operations/Harvard Architecture Support" "Not supported,?..."
textline "                   "
bitfld.long 0x00 4.--7. " HL1BPCRO    ,Background Prefetch Cache Range Operations/Harvard Architecture Support" "Not supported,?..."
bitfld.long 0x00 0.--3. "    HL1FPCRO   ,Foreground Prefetch Cache Range Operations/Harvard Architecture Support" "Not supported,?..."
rgroup.long c15:0x0710++0x00
line.long 0x00 "ID_MMFR3,Memory Model Feature Register 3"
bitfld.long 0x00 28.--31. " SS          ,Supersection support" "Supported,?..."
bitfld.long 0x00 24.--27. "        PMS        ,Physical memory size supported by processor caches" "Reserved,Reserved,40-bit,?..."
bitfld.long 0x00 20.--23. "              CW        ,Coherent walk" "Reserved,Supported,?..."
textline "                   "
bitfld.long 0x00 12.--15. " MB          ,Maintenance broadcast Support" "Reserved,Reserved,Supported,?..."
bitfld.long 0x00 8.--11. "        BPM        ,Invalidate Branch predictor Support" "Reserved,Reserved,Supported,?..."
bitfld.long 0x00 4.--7. "             HCMOSW    ,Invalidate Cache by Set and Way/Clean by Set and Way/Invalidate and Clean by Set and Way Support" "Reserved,Supported,?..."
textline "                   "
bitfld.long 0x00 0.--3. " HCMOMVA     ,Invalidate Cache MVA Support" "Reserved,Supported,?..."
if (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE"||corename()=="CORTEXA17"||corename()=="CORTEXA17MPCORE")
rgroup.long c15:0x0020++0x00
line.long 0x00 "ID_ISAR0,Instruction Set Attribute Register 0"
bitfld.long 0x00 24.--27. " DIVI        ,Divide Instructions Support" "Reserved,Reserved,Supported,?..."
bitfld.long 0x00 20.--23. "        DEBI       ,Debug Instructions Support" "Reserved,BKPT,?..."
bitfld.long 0x00 16.--19. "              CI        ,Coprocessor Instructions Support" "Not supported,?..."
textline "                   "
bitfld.long 0x00 12.--15. " CBI         ,Combined Compare and Branch Instructions Support" "Reserved,CBNZ/CBZ,?..."
bitfld.long 0x00 8.--11. "         BI         ,Bitfield Instructions Support" "Reserved,BFC/BFI/SBFX/UBFX,?..."
bitfld.long 0x00 4.--7. "     BCI       ,Bit Counting Instructions Support" "Reserved,Supported,?..."
textline "                   "
bitfld.long 0x00 0.--3. " SI          ,Swap Instructions Support" "Not supported,?..."
elif (corename()=="CORTEXA7"||corename()=="CORTEXA7MPCORE")
rgroup.long c15:0x0020++0x00
line.long 0x00 "ID_ISAR0,Instruction Set Attribute Register 0"
bitfld.long 0x00 24.--27. " DIVI        ,Divide Instructions Support" "Reserved,Reserved,Supported,?..."
bitfld.long 0x00 20.--23. "        DEBI       ,Debug Instructions Support" "Reserved,BKPT,?..."
bitfld.long 0x00 16.--19. "              CI        ,Coprocessor Instructions Support" "Not supported,?..."
textline "                   "
bitfld.long 0x00 12.--15. " CBI         ,Combined Compare and Branch Instructions Support" "Reserved,CBNZ/CBZ,?..."
bitfld.long 0x00 8.--11. "         BI         ,Bitfield Instructions Support" "Reserved,BFC/BFI/SBFX/UBFX,?..."
bitfld.long 0x00 4.--7. "     BCI       ,Bit Counting Instructions Support" "Reserved,Supported,?..."
textline "                   "
bitfld.long 0x00 0.--3. " SI          ,Swap Instructions Support" "Supported,?..."
endif
rgroup.long c15:0x0120++0x00
line.long 0x00 "ID_ISAR1,Instruction Set Attribute Register 1"
bitfld.long 0x00 28.--31. " JI          ,Jazelle Instructions Support" "Reserved,Supported,?..."
bitfld.long 0x00 24.--27. "        INTI       ,Interwork Instructions Support" "Reserved,Reserved,Reserved,Supported,?..."
bitfld.long 0x00 20.--23. "             IMMI      ,Immediate Instructions Support" "Reserved,Supported,?..."
textline "                   "
bitfld.long 0x00 16.--19. " ITEI        ,If Then Instructions Support" "Reserved,Supported,?..."
bitfld.long 0x00 12.--15. "        EXTI       ,Extend Instructions Support" "Reserved,Reserved,Supported,?..."
bitfld.long 0x00 8.--11. "             EARI      ,Exception A and R Instructions Support" "Reserved,Supported,?..."
textline "                   "
bitfld.long 0x00 4.--7. " EXIN        ,Exception in ARM Instructions Support" "Reserved,Supported,?..."
bitfld.long 0x00 0.--3. "        ENDI       ,Endian Instructions Support" "Reserved,Supported,?..."
rgroup.long c15:0x0220++0x00
line.long 0x00 "ID_ISAR2,Instruction Set Attribute Register 2"
bitfld.long 0x00 28.--31. " RI          ,Reversal Instructions Support" "Reserved,Reserved,Supported,?..."
bitfld.long 0x00 24.--27. "        PSRI       ,PSR Instructions Support" "Reserved,Supported,?..."
bitfld.long 0x00 20.--23. "             UMI       ,Advanced Unsigned Multiply Instructions Support" "Reserved,Reserved,Supported,?..."
textline "                   "
bitfld.long 0x00 16.--19. " SMI         ,Advanced Signed Multiply Instructions Support" "Reserved,Reserved,Reserved,Supported,?..."
bitfld.long 0x00 12.--15. "        MI         ,Multiply Instructions Support" "Reserved,Reserved,MUL/MLA/MLS,?..."
bitfld.long 0x00 8.--11. "           II        ,Multi-Access Interruptible Instructions Support" "Not supported,?..."
textline "                   "
bitfld.long 0x00 4.--7. " MHI         ,Memory Hint Instructions Support" "Reserved,Reserved,Reserved,Reserved,PLD/PLI/PLWD,?..."
bitfld.long 0x00 0.--3. "     LSI        ,Load and Store Instructions Support" "Reserved,LDRD/STRD,?..."
rgroup.long c15:0x0320++0x00
line.long 0x00 "ID_ISAR3,Instruction Set Attribute Register 3"
bitfld.long 0x00 28.--31. " TEEEI       ,Thumb-EE Extensions Support" "Reserved,Supported,?..."
bitfld.long 0x00 24.--27. "        NOPI       ,True NOP Instructions Support" "Reserved,Supported,?..."
bitfld.long 0x00 20.--23. "             TCI       ,Thumb Copy Instructions Support" "Reserved,Supported,?..."
textline "                   "
bitfld.long 0x00 16.--19. " TBI         ,Table Branch Instructions Support" "Reserved,TBB/TBH,?..."
bitfld.long 0x00 12.--15. "         SPI        ,Synchronization Primitive Instructions Support" "Reserved,Reserved,Supported,?..."
bitfld.long 0x00 8.--11. "             SVCI      ,SVC Instructions Support" "Reserved,Supported,?..."
textline "                   "
bitfld.long 0x00 4.--7. " SIMDI       ,Single Instruction Multiple Data (SIMD) Instructions Support" "Reserved,Reserved,Reserved,Supported,?..."
bitfld.long 0x00 0.--3. "        SI         ,Saturate Instructions Support" "Reserved,Supported,?..."
rgroup.long c15:0x0420++0x00
line.long 0x00 "ID_ISAR4,Instruction Set Attribute Register 4"
bitfld.long 0x00 28.--31. " SWP_FRAC    ,Memory System Locking Support" "Reserved,Supported,?..."
bitfld.long 0x00 24.--27. "        PSR_M_I    ,PSR_M Instructions Support" "Not supported,?..."
bitfld.long 0x00 20.--23. "         SPRI      ,Synchronization Primitive instructions" "Supported,?..."
textline "                   "
bitfld.long 0x00 16.--19. " BI          ,Barrier Instructions Support" "Reserved,DMB/DSB/ISB,?..."
bitfld.long 0x00 12.--15. "      SMCI       ,SMC Instructions Support" "Reserved,Supported,?..."
bitfld.long 0x00 8.--11. "             WBI       ,Write-Back Instructions Support" "Reserved,Supported,?..."
textline "                   "
bitfld.long 0x00 4.--7. " WSI         ,With-Shift Instructions Support" "Reserved,Reserved,Reserved,Reserved,Supported,?..."
bitfld.long 0x00 0.--3. "        UI         ,Unprivileged Instructions Support" "Reserved,Reserved,Supported,?..."
rgroup.long c15:0x0010++0x00
line.long 0x00 "ID_PFR0,Processor Feature Register 0"
bitfld.long 0x00 12.--15. " STATE3      ,Thumb Execution Environment (Thumb-EE) Support" "Reserved,Supported,?..."
bitfld.long 0x00 8.--11. "        STATE2     ,Support for Jazelle extension" "Not supported,?..."
bitfld.long 0x00 4.--7. "         STATE1    ,Thumb Encoding Supported by the Processor Type" "Reserved,Reserved,Reserved,Supported,?..."
textline "                   "
bitfld.long 0x00 0.--3. " STATE0      ,ARM Instruction Set Support" "Reserved,Supported,?..."
rgroup.long c15:0x0110++0x00
line.long 0x00 "ID_PFR1,Processor Feature Register 1"
bitfld.long 0x00 16.--19. " GT          ,Generic Timer Support" "Reserved,Supported,?..."
bitfld.long 0x00 12.--15. "        VE         ,Virtualization Extensions Support" "Reserved,Supported,?..."
bitfld.long 0x00 8.--11. "             MPM       ,Microcontroller Programmer's Model Support" "Not supported,?..."
textline "                   "
bitfld.long 0x00 4.--7. " SE          ,Security Extensions Architecture v1 Support" "Reserved,Supported,?..."
bitfld.long 0x00 0.--3. "        PM         ,Standard ARMv4 Programmer's Model Support" "Reserved,Supported,?..."
rgroup.long c15:0x0210++0x00
line.long 0x00 "ID_DFR0,Debug Feature Register 0"
bitfld.long 0x00 24.--27. " PMM         ,Performance Monitor Model Support" "Reserved,Reserved,ID_DFR0,?..."
bitfld.long 0x00 20.--23. "         MDM_MM     ,Memory-mapped Debug Model for M profile processors Support" "Not supported,?..."
bitfld.long 0x00 16.--19. "         TM_MM     ,Trace Model (Memory-Mapped) Support" "Reserved,Supported,?..."
textline "                   "
bitfld.long 0x00 12.--15. " CTM_CB      ,Coprocessor-Based Trace Debug Model Support" "Not supported,?..."
bitfld.long 0x00 8.--11. "    CDM_MM     ,Memory-Mapped Debug Model Support" "Reserved,Reserved,Reserved,Reserved,Reserved,ARMv7.1,?..."
bitfld.long 0x00 4.--7. "              SDM_CB    ,Secure Debug Model (Coprocessor) Support" "Reserved,Reserved,Reserved,Reserved,Reserved,ARMv7.1/CP14,?..."
textline "                   "
bitfld.long 0x00 0.--3. " CDM_CB      ,Coprocessor Debug Model Support" "Reserved,Reserved,Reserved,Reserved,Reserved,ARMv7.1/CP14,?..."
if (corename()=="CORTEXA7"||corename()=="CORTEXA7MPCORE")
rgroup.long c15:0x6C9++0x0
line.long 0x00 "PMCEID0,Common Event Identification Register 0"
bitfld.long 0x00 29. " PMCEID0[29] ,Bus cycle" "Not implemented,Implemented"
bitfld.long 0x00 28. "  [28]       ,Instruction architecturally executed. Condition code check pass, write to TTBR" "Not implemented,Implemented"
bitfld.long 0x00 27. "       [27]      ,Instruction speculatively executed" "Not implemented,Implemented"
bitfld.long 0x00 26. "  [26]     ,Local memory error" "Not implemented,Implemented"
textline "                   "
bitfld.long 0x00 25. " [25]        ,Bus access" "Not implemented,Implemented"
bitfld.long 0x00 24. "  [24]       ,Level 2 data cache write-back" "Not implemented,Implemented"
bitfld.long 0x00 23. "       [23]      ,Level 2 data cache refill" "Not implemented,Implemented"
bitfld.long 0x00 22. "  [22]     ,Level 2 data cache access" "Not implemented,Implemented"
textline "                   "
bitfld.long 0x00 21. " [21]        ,Level 1 instruction cache access" "Not implemented,Implemented"
bitfld.long 0x00 20. "  [20]       ,Level 1 instruction cache access" "Not implemented,Implemented"
bitfld.long 0x00 19. "       [19]      ,Data memory access" "Not implemented,Implemented"
bitfld.long 0x00 15. "  [15]     ,Instruction architecturally executed, condition code check pass, unaligned load or store" "Not implemented,Implemented"
textline "                   "
bitfld.long 0x00 14. " [14]        ,Instruction architecturally executed, condition code check pass, procedure return" "Not implemented,Implemented"
bitfld.long 0x00 13. "  [13]       ,Instruction architecturally executed, immediate branch" "Not implemented,Implemented"
bitfld.long 0x00 12. "       [12]      ,Instruction architecturally executed, condition code check pass, software change of the PC" "Not implemented,Implemented"
bitfld.long 0x00 11. "  [11]     ,Instruction architecturally executed, condition code check pass, write to CONTEXTIDR" "Not implemented,Implemented"
textline "                   "
bitfld.long 0x00 10. " [10]        ,Instruction architecturally executed, condition code check pass, exception return" "Not implemented,Implemented"
bitfld.long 0x00 9. "  [9]        ,Exception taken" "Not implemented,Implemented"
bitfld.long 0x00 8. "       [8]       ,Instruction architecturally executed" "Not implemented,Implemented"
bitfld.long 0x00 7. "  [7]      ,Instruction architecturally executed, condition code check pass, store" "Not implemented,Implemented"
textline "                   "
bitfld.long 0x00 6. " [6]         ,Instruction architecturally executed, condition code check pass, load" "Not implemented,Implemented"
bitfld.long 0x00 5. "  [5]        ,Level 1 data TLB refill" "Not implemented,Implemented"
bitfld.long 0x00 2. "       [2]       ,Level 1 instruction TLB refill" "Not implemented,Implemented"
bitfld.long 0x00 1. "  [1]      ,Level 1 instruction cache refill" "Not implemented,Implemented"
elif (corename()=="CORTEXA17"||corename()=="CORTEXA17MPCORE")
rgroup.long c15:0x6C9++0x0
line.long 0x00 "PMCEID0,Common Event Identification Register 0"
bitfld.long 0x00 31. " PMCEID0[31] ,Level 1 instruction cache access" "Not implemented,Implemented"
bitfld.long 0x00 30. " [30] ,Level 1 data memory access" "Not implemented,Implemented"
bitfld.long 0x00 29. " [29] ,Level 1 data memory access" "Not implemented,Implemented"
bitfld.long 0x00 28. " [28] ,Level 1 data memory access" "Not implemented,Implemented"
textline "                   "
bitfld.long 0x00 27. " [27]        ,Branches or other change in program flow that could have been predicted by the branch prediction resources of the processor" "Not implemented,Implemented"
bitfld.long 0x00 26. " [26] ,Branch mispredicted or not predicted" "Not implemented,Implemented"
bitfld.long 0x00 25. " [25] ,Unaligned access" "Not implemented,Implemented"
bitfld.long 0x00 24. " [24] ,Unaligned access" "Not implemented,Implemented"
textline "                   "
bitfld.long 0x00 23. " [23]        ,Branch speculatively executed - Procedure return" "Not implemented,Implemented"
bitfld.long 0x00 22. " [22] ,Branch speculatively executed - Immediate branch" "Not implemented,Implemented"
bitfld.long 0x00 21. " [21] ,Instruction speculatively executed - Software change of the PC" "Not implemented,Implemented"
bitfld.long 0x00 20. " [20] ,Write to translation table register (TTBR0 or TTBR1)" "Not implemented,Implemented"
textline "                   "
bitfld.long 0x00 19. " [19]        ,Change to ContextID retired" "Not implemented,Implemented"
bitfld.long 0x00 18. " [18] ,Exception return architecturally executed" "Not implemented,Implemented"
bitfld.long 0x00 17. " [17] ,Exception taken. Counts the number of exceptions architecturally taken" "Not implemented,Implemented"
bitfld.long 0x00 16. " [16] ,Instruction architecturally executed" "Not implemented,Implemented"
textline "                   "
bitfld.long 0x00 15. " [15]        ,Instruction architecturally executed" "Not implemented,Implemented"
bitfld.long 0x00 14. " [14] ,Instruction architecturally executed" "Not implemented,Implemented"
bitfld.long 0x00 13. " [13] ,Instruction architecturally executed" "Not implemented,Implemented"
bitfld.long 0x00 12. " [12] ,Instruction architecturally executed" "Not implemented,Implemented"
textline "                   "
bitfld.long 0x00 11. " [11]        ,Instruction architecturally executed" "Not implemented,Implemented"
bitfld.long 0x00 10. " [10] ,Instruction architecturally executed" "Not implemented,Implemented"
bitfld.long 0x00 9. " [9]  ,Store instruction speculatively executed" "Not implemented,Implemented"
bitfld.long 0x00 8. " [8]  ,Store instruction speculatively executed" "Not implemented,Implemented"
textline "                   "
bitfld.long 0x00 7. " [7]         ,Load instruction speculatively executed" "Not implemented,Implemented"
bitfld.long 0x00 6. " [6]  ,Load instruction speculatively executed" "Not implemented,Implemented"
bitfld.long 0x00 5. " [5]  ,Data read or write operation that causes a TLB refill at (at least) the lowest level of TLB" "Not implemented,Implemented"
bitfld.long 0x00 4. " [4]  ,Data read or write operation that causes a cache access at (at least) the lowest level of data or unified cache" "Not implemented,Implemented"
textline "                   "
bitfld.long 0x00 3. " [3]         ,Data read or write operation that causes a cache access at (at least) the lowest level of data or unified cache" "Not implemented,Implemented"
bitfld.long 0x00 2. " [2]  ,Data read or write operation that causes a refill at (at least) the lowest level of data or unified cache" "Not implemented,Implemented"
bitfld.long 0x00 1. " [1]  ,Instruction fetch that causes a TLB refill at (at least) the lowest level of TLB" "Not implemented,Implemented"
bitfld.long 0x00 0. " [0]  ,Instruction fetch that causes a refill at (at least) the lowest level of instruction or unified cache" "Not implemented,Implemented"
elif (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE")
rgroup.long c15:0x6C9++0x0
line.long 0x00 "PMCEID0,Common Event Identification Register 0"
bitfld.long 0x00 29. " PMCEID0[29] ,Bus cycle" "Not implemented,Implemented"
bitfld.long 0x00 28. "  [28]       ,Instruction architecturally executed. Condition code check pass, write to TTBR" "Not implemented,Implemented"
bitfld.long 0x00 27. "       [27]      ,Instruction speculatively executed" "Not implemented,Implemented"
bitfld.long 0x00 26. "  [26]     ,Local memory error" "Not implemented,Implemented"
textline "                   "
bitfld.long 0x00 25. " [25]        ,Bus access" "Not implemented,Implemented"
bitfld.long 0x00 24. "  [24]       ,Level 2 data cache write-back" "Not implemented,Implemented"
bitfld.long 0x00 23. "       [23]      ,Level 2 data cache refill" "Not implemented,Implemented"
bitfld.long 0x00 22. "  [22]     ,Level 2 data cache access" "Not implemented,Implemented"
textline "                   "
bitfld.long 0x00 21. " [21]        ,Level 1 instruction cache access" "Not implemented,Implemented"
bitfld.long 0x00 20. "  [20]       ,Level 1 instruction cache access" "Not implemented,Implemented"
bitfld.long 0x00 19. "       [19]      ,Data memory access" "Not implemented,Implemented"
bitfld.long 0x00 14. "  [14]     ,Instruction architecturally executed, condition code check pass, procedure return" "Not implemented,Implemented"
textline "                   "
bitfld.long 0x00 11. " [11]        ,Instruction architecturally executed, condition code check pass, write to CONTEXTIDR" "Not implemented,Implemented"
bitfld.long 0x00 10. "  [10]       ,Instruction architecturally executed, condition code check pass, exception return" "Not implemented,Implemented"
bitfld.long 0x00 9. "       [9]       ,Exception taken" "Not implemented,Implemented"
bitfld.long 0x00 5. "  [5]      ,Level 1 data TLB refill" "Not implemented,Implemented"
textline "                   "
bitfld.long 0x00 2. " [2]         ,Level 1 instruction TLB refill" "Not implemented,Implemented"
bitfld.long 0x00 1. "  [1]        ,Level 1 instruction cache refill" "Not implemented,Implemented"
endif
tree.end
width 12.
tree "System Control and Configuration"
if (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE"||corename()=="CORTEXA7"||corename()=="CORTEXA7MPCORE")
group.long c15:0x1++0x0
line.long 0x0 "SCTLR,Control Register"
bitfld.long 0x0 30. " TE      ,Thumb exception enable" "ARM,Thumb"
bitfld.long 0x0 29. "       AFE ,Access Flag Enable" "Disabled,Enabled"
bitfld.long 0x0 28. "    TRE ,TEX remap enable" "Disabled,Enabled"
bitfld.long 0x0 25. "    EE ,Exception endianness" "Little,Big"
textline "                     "
bitfld.long 0x0 20. " UWXN    ,Unprivileged write permission implies PL1 Execute Never" "Not forced,Forced"
bitfld.long 0x0 19. "  WXN ,Write permission implies PL1 Execute Never" "Not forced,Forced"
bitfld.long 0x0 13. "  V   ,Base Location of Exception Registers" "0x00000000,0xFFFF0000"
bitfld.long 0x0 12. "  I  ,Instruction Cache Enable" "Disabled,Enabled"
textline "                     "
bitfld.long 0x0 11. " Z       ,Branch Prediction Enable" "Disabled,Enabled"
bitfld.long 0x0 10. "    SW  ,SWP/SWPB Enable" "Disabled,Enabled"
bitfld.long 0x0 2. "    C   ,Enable unified cache or data cache" "Disabled,Enabled"
bitfld.long 0x0 1. "    A  ,Strict Alignment" "Disabled,Enabled"
textline "                     "
bitfld.long 0x0 0. " M       ,MMU or Protection Unit" "Disabled,Enabled"
elif (corename()=="CORTEXA17"||corename()=="CORTEXA17MPCORE")
group.long c15:0x1++0x0
line.long 0x0 "SCTLR,System Control Register"
bitfld.long 0x0 30. " TE   ,Thumb exception enable" "ARM,Thumb"
bitfld.long 0x0 29. "          AFE  ,Access Flag Enable" "Disabled,Enabled"
bitfld.long 0x0 28. "       TRE  ,TEX remap enable" "Disabled,Enabled"
textline "                     "
bitfld.long 0x0 25. " EE   ,Exception endianness" "Little,Big"
bitfld.long 0x0 20. "         UWXN ,Unprivileged write permission implies PL1 Execute Never" "Not forced,Forced"
bitfld.long 0x0 19. "     WXN  ,Write permission implies PL1 Execute Never" "Not forced,Forced"
textline "                     "
bitfld.long 0x0 13. " V    ,Base Location of Exception Registers" "0x00000000,0xFFFF0000"
bitfld.long 0x0 12. "     I    ,Instruction Cache Enable" "Disabled,Enabled"
bitfld.long 0x0 11. "       Z    ,Branch Prediction Enable" "Disabled,Enabled"
textline "                     "
bitfld.long 0x0 2. " C    ,Enable unified cache or data cache" "Disabled,Enabled"
bitfld.long 0x0 1. "       A    ,Alignment Fault Check enable" "Disabled,Enabled"
bitfld.long 0x0 0. "       M    ,Address translation enable bit" "Disabled,Enabled"
textline "                     "
endif
if (corename()=="CORTEXA17"||corename()=="CORTEXA17MPCORE")
group.long c15:0x0101++0x0
line.long 0x0 "ACTLR,Auxiliary Control Register"
bitfld.long 0x00 6. " SMP  ,Enables coherent requests to the processor" "Disabled,Enabled"
bitfld.long 0x00 3. "       ASSE ,ACE STREX Signalling Enable" "Disabled,Enabled"
bitfld.long 0x00 2. "       L2PF ,Enable L2 prefetch" "Disabled,Enabled"
textline "                     "
bitfld.long 0x00 1. " L1PF ,Enable L1 prefetch" "Disabled,Enabled"
elif (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE")
group.long c15:0x101++0x0
line.long 0x0 "ACTLR,Auxiliary Control Register"
bitfld.long 0x00 31. " SDEH              ,Snoop-delayed exclusive handling" "Normal,Modified"
bitfld.long 0x00 30. "       FMCEA             ,Force main clock processor enable active" "Not prevented,Prevented"
bitfld.long 0x00 29. "  FNVCEA            ,Force NEON/VFP clock enable active" "Not prevented,Prevented"
textline "                     "
bitfld.long 0x00 27.--28. " WSNAT             ,Write streaming no-allocate threshold" "12th,128th,512th,Disabled"
bitfld.long 0x00 25.--26. "       WSNL1AT           ,Write streaming no L1-allocate threshold" "14th,64th,128th,Disabled"
bitfld.long 0x00 24. "       NCSE              ,Non-cacheable streaming enhancement" "Disabled,Enabled"
textline "                     "
bitfld.long 0x00 23. " FIORRTTSSAW       ,Forces in-order requests to the same set and way" "Not forced,Forced"
bitfld.long 0x00 22. "     FIOLI             ,Force in-order load issue" "Not forced,Forced"
bitfld.long 0x00 21. "     DL2TLBP           ,Disabled L2 TLB prefetching" "No,Yes"
textline "                     "
bitfld.long 0x00 20. " DL2TBWIPAPAC      ,Disable L2 TBW IPA PA cache" "No,Yes"
bitfld.long 0x00 19. "            DL2TBWS1WC        ,Disable L2 TBW Stage 1 walk cache" "No,Yes"
bitfld.long 0x00 18. "            DL2TBWS1L2PAC     ,Disable L2 TBW stage 1 L2 PA cache" "No,Yes"
textline "                     "
bitfld.long 0x00 17. " DL2TLBPO          ,Disable L2 TLB Performance Optimization" "No,Yes"
bitfld.long 0x00 16. "            EFSOADLR          ,Enables full Strongly-ordered and Device load replay" "Disabled,Enabled"
bitfld.long 0x00 15. "       FIIBEU            ,Force in-order issue in branch execution unit" "Not forced,Forced"
textline "                     "
bitfld.long 0x00 14. " FLOIGCDPC         ,Force limit of one instruction group commit/de-allocate per cycle" "Not forced,Limited"
bitfld.long 0x00 13. "     FACP14WCP15       ,Flush after CP14 and CP15 writes" "Normal,Flushed"
bitfld.long 0x00 12. "        FPCP14CP15        ,Force push of CP14 and CP15 registers" "Not forced,Pushed"
textline "                     "
bitfld.long 0x00 11. " FOISEG            ,Force one instruction to start and end a group" "Not forced,Forced"
bitfld.long 0x00 10. "     FSAEIG            ,Force serialization after each instruction group" "Not forced,Forced"
bitfld.long 0x00 9. "     DFRO              ,Disable flag renaming optimization" "No,Yes"
textline "                     "
bitfld.long 0x00 8. " EWFIIANOPI        ,Executes WFI instructions as NOP instructions" "Disabled,Enabled"
bitfld.long 0x00 7. "       EWFEIANOPI        ,Executes WFE instructions as NOP instructions" "Disabled,Enabled"
bitfld.long 0x00 6. "       SMP               ,Broadcast of cache and TLB maintenance operations enable" "Disabled,Enabled"
textline "                     "
bitfld.long 0x00 5. " EPLDIANOP         ,Execute PLD and PLDW instructions as a NOP instruction" "Disabled,Enabled"
bitfld.long 0x00 4. "       DIP               ,Disable indirect predictor" "No,Yes"
bitfld.long 0x00 3. "            DMBTB             ,Disable micro-BTB" "No,Yes"
textline "                     "
bitfld.long 0x00 2. " LOLBDPF           ,Limits to one loop buffer detect per flush" "Normal,Limited"
bitfld.long 0x00 1. "        DLB               ,Disable loop buffer" "No,Yes"
bitfld.long 0x00 0. "            EIBTB             ,Enable invalidate of BTB" "Disabled,Enabled"
elif (corename()=="CORTEXA7"||corename()=="CORTEXA7MPCORE")
group.long c15:0x101++0x0
line.long 0x0 "ACTLR,Auxiliary Control Register"
bitfld.long 0x00 28. " DBDI    ,Disable branch dual issue" "No,Yes"
bitfld.long 0x00 15. "         DDVM    ,Disable Distributed Virtual Memory (DVM) transactions" "No,Yes"
bitfld.long 0x00 13.--14. "     L1PCTL ,L1 Data prefetch control" "Disabled,1 pre-fetch,2 pre-fetches,3 pre-fetches"
textline "                     "
bitfld.long 0x00 12. " L1RADIS ,L1 Data Cache read-allocate mode disable" "No,Yes"
bitfld.long 0x00 11. "         L2RADIS ,L2 Data Cache read-allocate mode disable" "No,Yes"
bitfld.long 0x00 10. "     DODMBS ,Disable optimised data memory barrier behaviour" "No,Yes"
textline "                     "
bitfld.long 0x00 6. " SMP     ,Enables coherent requests to the processor" "Disabled,Enabled"
endif
if (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE")
group.long c15:0x140F++0x00
line.long 0x0 "ACTLR2,Auxiliary Control Register 2"
bitfld.long 0x00 31. " ECRCG             ,Enable CPU regional clock gates" "Disabled,Enabled"
bitfld.long 0x00 0. "       EDCCADCCI         ,Execute data cache clean as data cache clean/invalidate" "Disabled,Enabled"
textline "                     "
else
hgroup.long c15:0x140F++0x00
hide.long 0x0 "ACTLR2,Auxiliary Control Register 2"
endif
if (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE"||corename()=="CORTEXA17"||corename()=="CORTEXA17MPCORE")
rgroup.long c15:0x201++0x00
line.long 0x0 "CPACR,Coprocessor Access Control Register"
bitfld.long 0x0 31. " ASEDIS   ,Disable Advanced SIMD Extension functionality" "No,Yes"
bitfld.long 0x0 22.--23. "            CP11      ,Coprocessor access control" "Denied,Privileged,Reserved,Full"
bitfld.long 0x0 20.--21. "     CP10      ,Coprocessor access control" "Denied,Privileged,Reserved,Full"
elif (corename()=="CORTEXA7"||corename()=="CORTEXA7MPCORE")
rgroup.long c15:0x201++0x00
line.long 0x0 "CPACR,Coprocessor Access Control Register"
bitfld.long 0x0 31. " ASEDIS   ,Disable Advanced SIMD Extension functionality" "No,Yes"
bitfld.long 0x0 30. "            D32DIS    ,Disable use of registers D16-D31 of the VFP register file" "No,Yes"
bitfld.long 0x0 22.--23. "            CP11      ,Coprocessor access control" "Denied,Privileged,Reserved,Full"
textline "                     "
bitfld.long 0x0 20.--21. " CP10     ,Coprocessor access control" "Denied,Privileged,Reserved,Full"
endif
group.long c15:0x11++0x0
line.long 0x0 "SCR,Secure Configuration Register"
bitfld.long 0x00 9. " SIF      ,Secure Instruction Fetch" "Permitted,Not permitted"
bitfld.long 0x00 8. "  HCE       ,Hyp Call enable" "Undefined,Enabled"
bitfld.long 0x00 7. "      SCD       ,Secure Monitor Call disable" "No,Yes"
textline "                     "
bitfld.long 0x00 5. " AW       ,Controls whether the Non-secure world can modify the A-bit in the CPSR" "Not allowed,Allowed"
bitfld.long 0x00 4. "    FW        ,Controls whether the Non-secure world can modify the F-bit in the CPSR" "Not allowed,Allowed"
bitfld.long 0x00 3. "    EA        ,External Abort  exceptions handled in Abort mode or Monitor mode" "Abort,Monitor"
textline "                     "
bitfld.long 0x00 2. " FIQ      ,FIQ exceptions handled in Abort mode or Monitor mode" "FIQ,Monitor"
bitfld.long 0x00 1. "        IRQ       ,IRQ exceptions handled in Abort mode or Monitor mode" "IRQ,Monitor"
bitfld.long 0x00 0. "        NS        ,Secure mode " "Secure,Non-secure"
group.long c15:0x0111++0x00
line.long 0x00 "SDER,Secure Debug Enable Register"
bitfld.long 0x00 1. " SUNIDEN  ,Non-Invasive Secure User Debug Enable bit" "Denied,Permitted"
bitfld.long 0x00 0. "      SUIDEN    ,Invasive Secure User Debug Enable bit" "Denied,Permitted"
if (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE")
group.long c15:0x0211++0x00
line.long 0x00 "NSACR,Non-Secure Access Control Register"
bitfld.long 0x00 18. " NS_SMP   ,Determines if the SMP bit of the Auxiliary Control Register is writeable in Non-secure state" "Disabled,Enabled"
bitfld.long 0x00 17. "       NS_L2ERR  ,L2 internal asynchronous error and AXI asynchronous error writeable in Non-secure state" "Disabled,Enabled"
bitfld.long 0x00 15. "       NSASEDIS  ,Disable Non-secure Advanced SIMD Extension functionality" "No,Yes"
textline "                     "
bitfld.long 0x00 11. " CP11     ,Coprocessor 11 in the Non-secure World Access Permission" "Denied,Permitted"
bitfld.long 0x00 10. "      CP10      ,Coprocessor 10 in the Non-secure World Access Permission" "Denied,Permitted"
elif (corename()=="CORTEXA7"||corename()=="CORTEXA7MPCORE")
group.long c15:0x0211++0x00
line.long 0x00 "NSACR,Non-Secure Access Control Register"
bitfld.long 0x00 18. " NS_SMP   ,Determines if the SMP bit of the Auxiliary Control Register is writeable in Non-secure state" "Disabled,Enabled"
bitfld.long 0x00 15. "       NSASEDIS          ,Disable Non-secure Advanced SIMD Extension functionality" "No,Yes"
bitfld.long 0x00 14. "            NSD32DIS          ,Disable the Non-secure use of D16-D31 of the VFP register file" "No,Yes"
textline "                     "
bitfld.long 0x00 11. " CP11     ,Coprocessor 11 in the Non-secure World Access Permission" "Denied,Permitted"
bitfld.long 0x00 10. "      CP10              ,Coprocessor 10 in the Non-secure World Access Permission" "Denied,Permitted"
elif (corename()=="CORTEXA17"||corename()=="CORTEXA17MPCORE")
group.long c15:0x0211++0x00
line.long 0x00 "NSACR,Non-Secure Access Control Register"
bitfld.long 0x00 18. " NS_SMP   ,Determines if the SMP bit of the Auxiliary Control Register is writeable in Non-secure state" "Non-writeable,Writeable"
bitfld.long 0x00 17. "   NS_L2ERR  ,Determines if the L2 Extended Control Register(L2ECTLR), is writeable in Non-secure state" "Non-writeable,Writeable"
bitfld.long 0x00 16. "   NS_ACTLR_PF_WRITE ,Determines if the ACTLR.L1PF and ACTLR.L2PF registers are writeable in Non-secure state" "Non-writeable,Writeable"
textline "                     "
bitfld.long 0x00 15. " NSASEDIS ,Disable Non-secure Advanced SIMD Extension functionality" "No,Yes"
bitfld.long 0x00 14. "            NSD32DIS  ,Disable the Non-secure use of D16-D31 of the VFP register file" "No,Yes"
bitfld.long 0x00 11. "            CP11      ,Coprocessor 11 in the Non-secure World Access Permission" "Denied,Permitted"
textline "                     "
bitfld.long 0x00 10. " CP10     ,Coprocessor 10 in the Non-secure World Access Permission" "Denied,Permitted"
endif
group.long c15:0x000C++0x00
line.long 0x00 "VBAR,Vector Base Address Register"
hexmask.long 0x00 5.--31. 0x20 " VBADDR   ,Vector Base Address"
group.long c15:0x010C++0x00
line.long 0x00 "MVBAR,Monitor Vector Base Address Register"
hexmask.long 0x00 5.--31. 0x20 " MVBADDR  ,Monitor Vector Base Address"
textline "                     "
rgroup.long c15:0x001C++0x00
line.long 0x00 "ISR,Interrupt Status Register"
bitfld.long 0x00 8. " A ,External abort pending flag" "Not pending,Pending"
bitfld.long 0x00 7. " I ,Interrupt pending flag" "Not pending,Pending"
bitfld.long 0x00 6. " F ,Fast interrupt pending flag" "Not pending,Pending"
textline "                     "
if (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE"||corename()=="CORTEXA7"||corename()=="CORTEXA7MPCORE")
rgroup.long c15:0x400F++0x00
line.long 0x00 "CBAR,Configuration Base Address Register"
hexmask.long.tbyte 0x00 15.--31. 1. " PERIPHBASE[31:15] ,Periphbase[31:15]"
hexmask.long.byte 0x00 0.--7. 1. " PERIPHBASE[39:32] ,Periphbase[39:32]"
else
hgroup.long c15:0x400F++0x00
hide.long 0x00 "CBAR,Configuration Base Address Register"
endif
if (corename()=="CORTEXA17"||corename()=="CORTEXA17MPCORE")
if (((d.l(c15:0x1609))&0x3)==0x3)
group.long c15:0x1609++0x00
line.long 0x00 "SCUCTLR,SCU Control Register"
bitfld.long 0x00 30. " PRM3     ,Disable processor 3 retention" "No,Yes"
bitfld.long 0x00 28.--29. "            PPS3      ,Processor 3 power status" "Normal,Not present,Retention,Powerdown"
bitfld.long 0x00 26. "    PRM2      ,Disable processor 2 retention" "No,Yes"
textline "                     "
bitfld.long 0x00 24.--25. " PPS2     ,Processor 2 power status" "Normal,Not present,Retention,Powerdown"
bitfld.long 0x00 22. "    PRM1      ,Disable processor 1 retention" "No,Yes"
bitfld.long 0x00 20.--21. "            PPS1      ,Processor 1 power status" "Normal,Not present,Retention,Powerdown"
textline "                     "
bitfld.long 0x00 18. " PRM0     ,Disable processor 0 retention" "No,Yes"
bitfld.long 0x00 16.--17. "            PPS0      ,Processor 0 power status" "Normal,Not present,Retention,Powerdown"
bitfld.long 0x00 7. "    CPSMP[3]  ,Copy of the ACTLR.SMP for processor 3" "Disabled,Enabled"
textline "                     "
bitfld.long 0x00 6. " CPSMP[2] ,Copy of the ACTLR.SMP for processor 2" "Disabled,Enabled"
bitfld.long 0x00 5. "       CPSMP[1]  ,Copy of the ACTLR.SMP for processor 1" "Disabled,Enabled"
bitfld.long 0x00 4. "       CPSMP[0]  ,Copy of the ACTLR.SMP for processor 0" "Disabled,Enabled"
textline "                     "
bitfld.long 0x00 0.--1. " NP       ,Number of processors" "1,2,3,4"
textline "                     "
elif (((d.l(c15:0x1609))&0x3)==0x2)
group.long c15:0x1609++0x00
line.long 0x00 "SCUCTLR,SCU Control Register"
bitfld.long 0x00 26. " PRM2     ,Disable processor 2 retention" "No,Yes"
bitfld.long 0x00 24.--25. "            PPS2      ,Processor 2 power status" "Normal,Not present,Retention,Powerdown"
bitfld.long 0x00 22. "    PRM1      ,Disable processor 1 retention" "No,Yes"
textline "                     "
bitfld.long 0x00 20.--21. " PPS1     ,Processor 1 power status" "Normal,Not present,Retention,Powerdown"
bitfld.long 0x00 18. "    PRM0      ,Disable processor 0 retention" "No,Yes"
bitfld.long 0x00 16.--17. "            PPS0      ,Processor 0 power status" "Normal,Not present,Retention,Powerdown"
textline "                     "
bitfld.long 0x00 6. " CPSMP[2] ,Copy of the ACTLR.SMP for processor 2" "Disabled,Enabled"
bitfld.long 0x00 5. "       CPSMP[1]  ,Copy of the ACTLR.SMP for processor 1" "Disabled,Enabled"
bitfld.long 0x00 4. "       CPSMP[0]  ,Copy of the ACTLR.SMP for processor 0" "Disabled,Enabled"
textline "                     "
bitfld.long 0x00 0.--1. " NP       ,Number of processors" "1,2,3,4"
textline "                     "
elif (((d.l(c15:0x1609))&0x3)==0x1)
group.long c15:0x1609++0x00
line.long 0x00 "SCUCTLR,SCU Control Register"
bitfld.long 0x00 22. " PRM1     ,Disable processor 1 retention" "No,Yes"
bitfld.long 0x00 20.--21. "            PPS1      ,Processor 1 power status" "Normal,Not present,Retention,Powerdown"
bitfld.long 0x00 18. "    PRM0      ,Disable processor 0 retention" "No,Yes"
textline "                     "
bitfld.long 0x00 16.--17. " PPS0     ,Processor 0 power status" "Normal,Not present,Retention,Powerdown"
bitfld.long 0x00 5. "    CPSMP[1]  ,Copy of the ACTLR.SMP for processor 1" "Disabled,Enabled"
bitfld.long 0x00 4. "       CPSMP[0]  ,Copy of the ACTLR.SMP for processor 0" "Disabled,Enabled"
textline "                     "
bitfld.long 0x00 0.--1. " NP       ,Number of processors" "1,2,3,4"
textline "                     "
elif (((d.l(c15:0x1609))&0x3)==0x0)
group.long c15:0x1609++0x00
line.long 0x00 "SCUCTLR,SCU Control Register"
bitfld.long 0x00 18. " PRM0     ,Disable processor 0 retention" "No,Yes"
bitfld.long 0x00 16.--17. "            PPS0              ,Processor 0 power status" "Normal,Not present,Retention,Powerdown"
bitfld.long 0x00 4. "    CPSMP[0]          ,Copy of the ACTLR.SMP for processor 0" "Disabled,Enabled"
textline "                     "
bitfld.long 0x00 0.--1. " NP       ,Number of processors" "1,2,3,4"
textline "                     "
endif
group.long c15:0x410F++0x00
line.long 0x00 "FILASTARTR,Peripheral port start address register"
hexmask.long.tbyte 0x00 12.--31. 0x10 " FLT_START_ADDR ,Start address of the peripheral port physical memory region"
bitfld.long 0x00 0. "   FILT_EN  ,FLT_START_ADDR and FLT_END_ADDR are valid" "Invalid,Valid"
group.long c15:0x420F++0x00
line.long 0x00 "FILAENDR,Peripheral port end address register"
hexmask.long.tbyte 0x00 12.--31. 0x10 " FLT_END_ADDR   ,End address of the peripheral port physical memory region"
elif (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE"||corename()=="CORTEXA7"||corename()=="CORTEXA7MPCORE")
hgroup.long c15:0x1609++0x00
hide.long 0x00 "SCUCTLR,SCU Control Register"
hgroup.long c15:0x410F++0x00
hide.long 0x00 "FILASTARTR,Peripheral port start address register"
hgroup.long c15:0x420F++0x00
hide.long 0x00 "FILAENDR,Peripheral port end address register"
endif
tree.end
width 12.
tree "Memory Management Unit"
if (corename()=="CORTEXA17"||corename()=="CORTEXA17MPCORE")
group.long c15:0x0001++0x0
line.long 0x0 "SCTLR,System Control Register"
bitfld.long 0x0 30. "         TE        ,Thumb exception enable" "ARM,Thumb"
bitfld.long 0x0 29. "           AFE   ,Access Flag Enable" "Disabled,Enabled"
bitfld.long 0x0 28. "          TRE  ,TEX remap enable" "Disabled,Enabled"
textline "                             "
bitfld.long 0x0 25. " EE        ,Exception endianness" "Little,Big"
bitfld.long 0x0 20. "          UWXN  ,Unprivileged write permission implies PL1 Execute Never" "Not forced,Forced"
bitfld.long 0x0 19. "        WXN  ,Write permission implies PL1 Execute Never" "Not forced,Forced"
textline "                             "
bitfld.long 0x0 13. " V         ,Base Location of Exception Registers" "0x00000000,0xFFFF0000"
bitfld.long 0x0 12. "      I     ,Instruction Cache Enable" "Disabled,Enabled"
bitfld.long 0x0 11. "          Z    ,Branch Prediction Enable" "Disabled,Enabled"
textline "                             "
bitfld.long 0x0 2. " C         ,Enable unified cache or data cache" "Disabled,Enabled"
bitfld.long 0x0 1. "        A     ,Alignment Fault Check enable" "Disabled,Enabled"
bitfld.long 0x0 0. "          M    ,Address translation enable bit" "Disabled,Enabled"
textline "                             "
elif (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE"||corename()=="CORTEXA7"||corename()=="CORTEXA7MPCORE")
group.long c15:0x1++0x0
line.long 0x0 "SCTLR,Control Register"
bitfld.long 0x0 30. "         TE        ,Thumb exception enable" "ARM,Thumb"
bitfld.long 0x0 29. "           AFE   ,Access Flag Enable" "Disabled,Enabled"
bitfld.long 0x0 28. "    TRE  ,TEX remap enable" "Disabled,Enabled"
textline "                             "
bitfld.long 0x0 25. " EE        ,Exception endianness" "Little,Big"
bitfld.long 0x0 20. "          UWXN  ,Unprivileged write permission implies PL1 Execute Never" "Not forced,Forced"
bitfld.long 0x0 19. "  WXN  ,Write permission implies PL1 Execute Never" "Not forced,Forced"
textline "                             "
bitfld.long 0x0 13. " V         ,Base Location of Exception Registers" "0x00000000,0xFFFF0000"
bitfld.long 0x0 12. "      I     ,Instruction Cache Enable" "Disabled,Enabled"
bitfld.long 0x0 11. "    Z    ,Branch Prediction Enable" "Disabled,Enabled"
textline "                             "
bitfld.long 0x0 10. " SW        ,SWP/SWPB Enable" "Disabled,Enabled"
bitfld.long 0x0 2. "        C     ,Enable unified cache or data cache" "Disabled,Enabled"
bitfld.long 0x0 1. "   A    ,Strict Alignment" "Disabled,Enabled"
textline "                             "
bitfld.long 0x0 0. " M         ,MMU or Protection Unit" "Disabled,Enabled"
textline "                             "
endif
if (((d.l(c15:0x0002))&0x2)==0x2)&&(((d.l(c15:0x0202))&0x80000000)==0x00000000)
group.long c15:0x0002++0x00
line.long 0x00 "TTBR0,Translation Table Base Register 0"
hexmask.long.tbyte 0x00 14.--31. 0x40 "         TTB0_ADDR ,Translation table base 0 address"
bitfld.long 0x00 5. "          NOS   ,Not Outer Shareable bit" "Outer,Inner"
bitfld.long 0x00 3.--4. "             RGN  ,Region bits" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable"
textline "                             "
bitfld.long 0x00 2. " IMP       ,Implementation defined" "Low,High"
bitfld.long 0x00 1. "            S     ,Shareable bit" "Non-shareable,Shareable"
bitfld.long 0x00 0. 6. "     IRGN ,Inner region bits for Multiprocessing Extensions" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable"
elif (((d.l(c15:0x0002))&0x2)==0x0)&&(((d.l(c15:0x0202))&0x80000000)==0x00000000)
group.long c15:0x0002++0x00
line.long 0x00 "TTBR0,Translation Table Base Register 0"
hexmask.long.tbyte 0x00 14.--31. 0x40 "         TTB0_ADDR ,Translation table base 0 address"
bitfld.long 0x00 3.--4. "          RGN   ,Region bits" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable"
bitfld.long 0x00 2. "  IMP  ,Implementation defined" "Low,High"
textline "                             "
bitfld.long 0x00 1. " S         ,Shareable bit" "Non-shareable,Shareable"
bitfld.long 0x00 0. 6. "   IRGN  ,Inner region bits for Multiprocessing Extensions" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable"
elif (((d.l(c15:0x0202))&0x80000000)==0x80000000)
group.quad c15:0x10020++0x01
line.quad 0x00 "TTBR0,Translation Table Base Register 0"
hexmask.quad.byte 0x00 48.--55. 1. " ASID      ,ASID for the translation table base address"
hexmask.quad 0x00 0.--39. 1. "              BADDR ,Translation table base address"
endif
if (((d.l(c15:0x0102))&0x2)==0x2)&&(((d.l(c15:0x0202))&0x80000000)==0x00000000)
group.long c15:0x0102++0x00
line.long 0x00 "TTBR1,Translation Table Base Register 1"
hexmask.long.tbyte 0x00 14.--31. 0x40 "         TTB1_ADDR ,Translation table base 1 address"
bitfld.long 0x00 5. "          NOS   ,Not Outer Shareable bit" "Outer,Inner"
bitfld.long 0x00 3.--4. "             RGN  ,Region bits" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable"
textline "                             "
bitfld.long 0x00 2. " IMP       ,Implementation defined" "Low,High"
bitfld.long 0x00 1. "            S     ,Shareable bit" "Non-shareable,Shareable"
bitfld.long 0x00 0. 6. "     IRGN ,Inner region bits for Multiprocessing Extensions" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable"
elif (((d.l(c15:0x0102))&0x2)==0x0)&&(((d.l(c15:0x0202))&0x80000000)==0x00000000)
group.long c15:0x0102++0x00
line.long 0x00 "TTBR1,Translation Table Base Register 1"
hexmask.long.tbyte 0x00 14.--31. 0x40 "         TTB1_ADDR ,Translation table base 1 address"
bitfld.long 0x00 3.--4. "          RGN   ,Region bits" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable"
bitfld.long 0x00 2. "  IMP  ,Implementation defined" "Low,High"
textline "                             "
bitfld.long 0x00 1. " S         ,Shareable bit" "Non-shareable,Shareable"
bitfld.long 0x00 0. 6. "   IRGN  ,Inner region bits for Multiprocessing Extensions" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable"
elif (((d.l(c15:0x0202))&0x80000000)==0x80000000)
group.quad c15:0x11020++0x01
line.quad 0x00 "TTBR1,Translation Table Base Register 1"
hexmask.quad.byte 0x00 48.--55. 1. " ASID      ,ASID for the translation table base address"
hexmask.quad 0x00 0.--39. 1. "              BADDR ,Translation table base address"
endif
if (((d.l(c15:0x0202))&0x80000000)==0x00000000)
group.long c15:0x0202++0x00
line.long 0x00 "TTBCR,Translation Table Base Control Register"
bitfld.long 0x00 31. "         EAE       ,Extended Address Enable" "32-bit,40-bit"
bitfld.long 0x00 5. "          PD1   ,Translation table walk Disable bit for TTBR1" "No,Yes"
bitfld.long 0x00 4. "               PD0  ,Translation table walk Disable bit for TTBR0" "No,Yes"
textline "                             "
bitfld.long 0x00 0.--2. " N         ,Indicate the width of the base address held in TTBR0" "16KB,8KB,4KB,2KB,1KB,512 bytes,256 bytes,128 bytes"
else
group.long c15:0x0202++0x00
line.long 0x00 "TTBCR,Translation Table Base Control Register"
bitfld.long 0x00 31. "         EAE       ,Extended Address Enable" "32-bit,40-bit"
bitfld.long 0x00 30. "          IMP   ,IMPLEMENTATION DEFINED" "Low,High"
bitfld.long 0x00 28.--29. "              SH1   ,Shareability attributes for the memory associated with the translation table walks using TTBR1" "Non-Shareable,Reserved,Outer Shareable,Inner Shareable"
textline "                             "
bitfld.long 0x00 26.--27. " ORGN1     ,Outer Cacheability attributes for the memory associated with the translation table walks using TTBR1" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable"
bitfld.long 0x00 24.--25. "  IRGN1 ,Inner Cacheability attributes for the memory associated with the translation table walks using TTBR1" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable"
bitfld.long 0x00 23. "  EPD1 ,Translation table walk disable for translations using TTBR1" "No,Yes"
textline "                             "
bitfld.long 0x00 22. " A1        ,Selects whether TTBR0 or TTBR1 defines the ASID" "TTBR0,TTBR1"
bitfld.long 0x00 16.--18. "           T1SZ  ,The Size offset of the TTBR1 addressed region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--13. "                 SH0   ,Shareability attributes for the memory associated with the translation table walks using TTBR0" "Non-Shareable,Reserved,Outer Shareable,Inner Shareable"
textline "                             "
bitfld.long 0x00 10.--11. " ORGN0     ,Outer Cacheability attributes for the memory associated with the translation table walks using TTBR0" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable"
bitfld.long 0x00 8.--9. "  IRGN0 ,Inner Cacheability attributes for the memory associated with the translation table walks using TTBR0" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable"
bitfld.long 0x00 7. "  EPD0 ,Translation table walk disable for translations using TTBR0" "No,Yes"
textline "                             "
bitfld.long 0x00 0.--2. " T0SZ      ,The Size offset of the TTBR0 addressed memory region" "0,1,2,3,4,5,6,7"
endif
textline "                             "
group.long c15:0x0003++0x00
line.long 0x00 "DACR,Domain Access Control Register"
bitfld.long 0x0 30.--31. "         D15  ,Domain Access 15" "Denied,Client,Reserved,Manager"
bitfld.long 0x0 28.--29. "   D14 ,Domain Access 14" "Denied,Client,Reserved,Manager"
bitfld.long 0x0 26.--27. "   D13 ,Domain Access 13" "Denied,Client,Reserved,Manager"
textline "                             "
bitfld.long 0x0 24.--25. " D12  ,Domain Access 12" "Denied,Client,Reserved,Manager"
bitfld.long 0x0 22.--23. "   D11 ,Domain Access 11" "Denied,Client,Reserved,Manager"
bitfld.long 0x0 20.--21. "   D10 ,Domain Access 10" "Denied,Client,Reserved,Manager"
textline "                             "
bitfld.long 0x0 18.--19. " D9   ,Domain Access 9" "Denied,Client,Reserved,Manager"
bitfld.long 0x0 16.--17. "   D8  ,Domain Access 8" "Denied,Client,Reserved,Manager"
bitfld.long 0x0 14.--15. "   D7  ,Domain Access 7" "Denied,Client,Reserved,Manager"
textline "                             "
bitfld.long 0x0 12.--13. " D6   ,Domain Access 6" "Denied,Client,Reserved,Manager"
bitfld.long 0x0 10.--11. "   D5  ,Domain Access 5" "Denied,Client,Reserved,Manager"
bitfld.long 0x0 8.--9. "   D4  ,Domain Access 4" "Denied,Client,Reserved,Manager"
textline "                             "
bitfld.long 0x0 6.--7. " D3   ,Domain Access 3" "Denied,Client,Reserved,Manager"
bitfld.long 0x0 4.--5. "   D2  ,Domain Access 2" "Denied,Client,Reserved,Manager"
bitfld.long 0x0 2.--3. "   D1  ,Domain Access 1" "Denied,Client,Reserved,Manager"
textline "                             "
bitfld.long 0x0 0.--1. " D0   ,Domain Access 0" "Denied,Client,Reserved,Manager"
textline "                     "
if (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE")
if (((d.l(c15:0x0202))&0x80000000)==0x80000000)
group.long c15:0x0005++0x00
line.long 0x00 "DFSR,Data Fault Status Register"
bitfld.long 0x00 13. "         CM        ,Cache maintenance fault" "Not aborted,Aborted"
bitfld.long 0x00 12. " EXT    ,External Abort Qualifier" "DECERR,SLVERR"
bitfld.long 0x00 11. "   WNR ,Access Caused an Abort Type" "Read,Write"
textline "                     "
bitfld.long 0x00 0.--5. "         STATUS    ,Fault Status" "Reserved,Reserved,Reserved,Reserved,Reserved,Translation fault/First level,Translation fault/Second level,Translation fault/Third level,Reserved,Access flag fault/First level,Access flag fault/Second level,Access flag fault/Third level,Reserved,Permission fault/First level,Permission fault/Second level,Permission fault/Third level,Synchronous external abort,Asynchronous external abort,Reserved,Reserved,Reserved,Synchronous external abort on translation table walk/First level,Synchronous external abort on translation table walk/Second level,Synchronous external abort on translation table walk/Third level,Synchronous parity error on memory access,Asynchronous parity error on memory access,Reserved,Reserved,Reserved,Synchronous parity error on memory access on translation table walk/First level,Synchronous parity error on memory access on translation table walk/Second level,Synchronous parity error on memory access on translation table walk/Third level,Reserved,Alignment fault,Debug event,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Lockdown Abort,Reserved,Reserved,Reserved,Reserved,Reserved,Coprocessor Abort,?..."
else
group.long c15:0x0005++0x00
line.long 0x00 "DFSR,Data Fault Status Register"
bitfld.long 0x00 13. "         CM        ,Cache maintenance fault" "Not aborted,Aborted"
bitfld.long 0x00 12. " EXT    ,External Abort Qualifier" "DECERR,SLVERR"
bitfld.long 0x00 11. "   WNR ,Access Caused an Abort Type" "Read,Write"
textline "                     "
bitfld.long 0x00 4.--7. "         DOMAIN    ,Domain Accessed When a Data Fault Occurs" "D0,D1,D2,D3,D4,D5,D6,D7,D8,D9,D10,D11,D12,D13,D14,D15"
bitfld.long 0x00 0.--3. 10. "         FS     ,Fault Status" "Reserved,Alignment fault,Reserved,Reserved,Instruction cache maintenance fault,Translation fault/First level,Access flag fault/Second level,Translation fault/Second level,Synchronous external abort,Domain fault/First level,Reserved,Domain fault/Second level,Synchronous external abort/First level,Permission fault/First level,Synchronous external abort/Second level,Permission fault/Second level,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Asynchronous external abort,Reserved,Asynchronous parity error on memory access,Synchronous parity error on memory access,Reserved,Reserved,Synchronous parity error on translation table walk/First level,Reserved,Synchronous parity error on translation table walk/Second level,Reserved"
endif
elif (corename()=="CORTEXA7"||corename()=="CORTEXA7MPCORE")
if (((d.l(c15:0x0202))&0x80000000)==0x80000000)
group.long c15:0x0005++0x00
line.long 0x00 "DFSR,Data Fault Status Register"
bitfld.long 0x00 13. "         CM        ,Cache maintenance fault" "Not aborted,Aborted"
bitfld.long 0x00 12. "  EXT    ,External Abort Qualifier" "DECERR,SLVERR"
bitfld.long 0x00 11. " WNR ,Access Caused an Abort Type" "Read,Write"
textline "                     "
bitfld.long 0x00 0.--5. "         STATUS    ,Fault Status" "Reserved,Reserved,Reserved,Reserved,Reserved,Translation fault/First level,Translation fault/Second level,Translation fault/Third level,Reserved,Access flag fault/First level,Access flag fault/Second level,Access flag fault/Third level,Reserved,Permission fault/First level,Permission fault/Second level,Permission fault/Third level,Synchronous external abort,Asynchronous external abort,Reserved,Reserved,Reserved,Synchronous external abort on translation table walk/First level,Synchronous external abort on translation table walk/Second level,Synchronous external abort on translation table walk/Third level,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Alignment fault,Debug event,?..."
else
group.long c15:0x0005++0x00
line.long 0x00 "DFSR,Data Fault Status Register"
bitfld.long 0x00 13. "         CM        ,Cache maintenance fault" "Not aborted,Aborted"
bitfld.long 0x00 12. "  EXT    ,External Abort Qualifier" "DECERR,SLVERR"
bitfld.long 0x00 11. "   WNR ,Access Caused an Abort Type" "Read,Write"
textline "                     "
bitfld.long 0x00 4.--7. "         DOMAIN    ,Domain Accessed When a Data Fault Occurs" "D0,D1,D2,D3,D4,D5,D6,D7,D8,D9,D10,D11,D12,D13,D14,D15"
bitfld.long 0x00 0.--3. 10. "          FS     ,Generated Exception Type" "Reserved,Alignment,Debug,Access/section,Instruction,Translation/section,Access/page,Translation/page,Non-translation/synchronous external,Domain/section,Reserved,Domain/page,L1/synchronous external,Permission/section,L2/synchronous external,Permission/page,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Asynchronous external,?..."
endif
elif (corename()=="CORTEXA17"||corename()=="CORTEXA17MPCORE")
if (((d.l(c15:0x0202))&0x80000000)==0x00000000)
group.long c15:0x0005++0x00
line.long 0x00 "DFSR,Data Fault Status Register"
bitfld.long 0x00 13. "         CM        ,Cache maintenance fault" "Not aborted,Aborted"
bitfld.long 0x00 12. "     EXT   ,External Abort Qualifier" "DECERR,SLVERR"
bitfld.long 0x00 11. "            WNR  ,Access Caused an Abort Type" "Read,Write"
textline "                     "
bitfld.long 0x00 4.--7. "         DOMAIN    ,Domain Accessed When a Data Fault Occurs" "D0,D1,D2,D3,D4,D5,D6,D7,D8,D9,D10,D11,D12,D13,D14,D15"
bitfld.long 0x00 0.--3. 10. "             FS    ,Generated Exception Type" "Reserved,Alignment,Debug,Access/section,Reserved,Translation/section,Access/page,Translation/page,Reserved,Domain/section,Reserved,Domain/page,L1/external,Permission/section,L2/external,Permission/page,TLB,Reserved,Reserved,Reserved,Reserved,Reserved,Asynchronous external,?..."
else
group.long c15:0x0005++0x00
line.long 0x00 "DFSR,Data Fault Status Register"
bitfld.long 0x00 13. "         CM        ,Cache maintenance fault" "Not aborted,Aborted"
bitfld.long 0x00 12. "     EXT   ,External Abort Qualifier" "DECERR,SLVERR"
bitfld.long 0x00 11. "            WNR  ,Access Caused an Abort Type" "Read,Write"
textline "                     "
bitfld.long 0x00 0.--5. "         STATUS    ,Fault Status" "Reserved,Reserved,Reserved,Reserved,Reserved,Translation fault/1st level,Translation fault/2nd level,Translation fault/3rd level,Reserved,Access flag fault/1st level,Access flag fault/2nd level,Access flag fault/3rd level,Reserved,Permission fault/1st level,Permission fault/2nd level,Permission fault/3rd level,Reserved,Asynchronous external abort,Reserved,Reserved,Reserved,Synchronous external abort on translation table walk/1st level,Synchronous external abort on translation table walk/2nd level,Synchronous external abort on translation table walk/3rd level,TLB,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Alignment fault,Debug event,?..."
endif
endif
if (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE")
group.long c15:0x0015++0x00
line.long 0x00 "ADFSR,Auxiliary Data Fault Status Register"
bitfld.long 0x00 31. "         VALID     ,L1 or L2 ECC double bit error indicator" "No error,Error"
hexmask.long.byte 0x00 24.--30. 1. "    RAMID  ,RAM identifier"
bitfld.long 0x00 23. "       L2E   ,L2 Error" "No error,Error"
textline "                     "
bitfld.long 0x00 18.--22. "         B/W       ,Bank/Way" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.tbyte 0x00 0.--17. 1. "          IND    ,Index"
else
hgroup.long c15:0x0015++0x00
hide.long 0x00 "ADFSR,Auxiliary Data Fault Status Register"
endif
group.long c15:0x0006++0x00
line.long 0x00 "DFAR,Data Fault Address Register"
if (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE")
if (((d.l(c15:0x0202))&0x80000000)==0x80000000)
group.long c15:0x0105++0x00
line.long 0x00 "IFSR,Instruction Fault Status Register"
bitfld.long 0x00 12. "         EXT       ,External Abort Type" "DECERR,SLVERR"
textline "                     "
bitfld.long 0x00 0.--5. "         STATUS    ,Fault Status" "Reserved,Reserved,Reserved,Reserved,Reserved,Translation fault/First level,Translation fault/Second level,Translation fault/Third level,Reserved,Access flag fault/First level,Access flag fault/Second level,Access flag fault/Third level,Reserved,Permission fault/First level,Permission fault/Second level,Permission fault/Third level,Synchronous external abort,Reserved,Reserved,Reserved,Reserved,Synchronous external abort on translation table walk/First level,Synchronous external abort on translation table walk/Second level,Synchronous external abort on translation table walk/Third level,Synchronous parity error on memory access,Reserved,Reserved,Reserved,Reserved,Synchronous parity error on memory access on translation table walk/First level,Synchronous parity error on memory access on translation table walk/Second level,Synchronous parity error on memory access on translation table walk/Third level,?..."
else
group.long c15:0x0105++0x00
line.long 0x00 "IFSR,Instruction Fault Status Register"
bitfld.long 0x00 12. "         EXT       ,External Abort Type" "DECERR,SLVERR"
textline "                     "
bitfld.long 0x00 0.--3. 10. "         FS        ,Generated Exception Type" "Reserved,Reserved,Debug event,Access flag fault/First level,Reserved,Translation fault/First level,Access flag fault/Second level,Translation fault/Second level,Non-translation/synchronous external abort,Domain fault/First level,Reserved,Domain fault/Second level,Synchronous external abort on translation table walk/First level,Permission fault/First level,Synchronous external abort on translation table walk/Second level,Permission fault/Second level,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Synchronous parity error on memory access,Reserved,Reserved,Synchronous parity error on translation table walk,Reserved,Synchronous parity error on translation table walk,Reserved"
endif
elif (corename()=="CORTEXA7"||corename()=="CORTEXA7MPCORE")
if (((d.l(c15:0x0202))&0x80000000)==0x80000000)
group.long c15:0x0105++0x00
line.long 0x00 "IFSR,Instruction Fault Status Register"
bitfld.long 0x00 12. "         EXT       ,External Abort Type" "DECERR,SLVERR"
textline "                     "
bitfld.long 0x00 0.--5. "         STATUS    ,Generated Exception Type" "Reserved,Reserved,Reserved,Reserved,Reserved,Translation fault/First level,Translation fault/Second level,Translation fault/Third level,Reserved,Access fault flag/First level,Access fault flag/Second level,Access fault flag/Third level,Reserved,Permission fault/First level,Permission fault/Second level,Permission fault/Third level,Synchronous external abort,Reserved,Debug event,?..."
else
group.long c15:0x0105++0x00
line.long 0x00 "IFSR,Instruction Fault Status Register"
bitfld.long 0x00 12. "         EXT       ,External Abort Type" "DECERR,SLVERR"
textline "                     "
bitfld.long 0x00 0.--3. 10. "         FS        ,Generated Exception Type" "Reserved,Reserved,Debug,Access/section,Reserved,Translation/section,Access/page,Translation/page,Non-translation/synchronous external,Domain/section,Reserved,Domain/page,L1/external,Permission/section,L2/external,Permission/page,?..."
endif
elif (corename()=="CORTEXA17"||corename()=="CORTEXA17MPCORE")
if (((d.l(c15:0x202))&0x80000000)==0x80000000)
group.long c15:0x0105++0x00
line.long 0x00 "IFSR,Instruction Fault Status Register"
bitfld.long 0x00 12. "         EXT       ,External Abort Type" "DECERR,SLVERR"
bitfld.long 0x00 9. "          LPAE  ,Large physical address extension" "Disabled,Enabled"
textline "                     "
bitfld.long 0x00 0.--5. "         STATUS    ,Fault Status" "Reserved,Reserved,Reserved,Reserved,Reserved,Translation fault/1st level,Translation fault/2nd level,Translation fault/3rd level,Reserved,Access flag fault/1st level,Access flag fault/2nd level,Access flag fault/3rd level,Reserved,Permission fault/1st level,Permission fault/2nd level,Permission fault/3rd level,Reserved,Asynchronous external abort,Reserved,Reserved,Reserved,Synchronous external abort on translation table walk/1st level,Synchronous external abort on translation table walk/2nd level,Synchronous external abort on translation table walk/3rd level,TLB,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Alignment fault,Debug event,?..."
else
group.long c15:0x0105++0x00
line.long 0x00 "IFSR,Instruction Fault Status Register"
bitfld.long 0x00 12. "         EXT       ,External Abort Type" "DECERR,SLVERR"
bitfld.long 0x00 9. "          LPAE  ,Large physical address extension" "Disabled,Enabled"
textline "                     "
bitfld.long 0x00 0.--3. 10. "         FS        ,Generated Exception Type" "Reserved,Alignment,Debug,Access/section,Reserved,Translation/section,Access/page,Translation/page,Reserved,Domain/section,Reserved,Domain/page,L1/external,Permission/section,L2/external,Permission/page,TLB,Reserved,Reserved,Reserved,Reserved,Reserved,Asynchronous external,?..."
endif
endif
group.long c15:0x0206++0x00
line.long 0x00 "IFAR,Instruction Fault Address Register"
if (((d.l(c15:0x202))&0x80000000)==0x80000000&&((d.q(c15:0x0047))&0x1)==0x0)
group.quad c15:0x0047++0x01
line.quad 0x00 "PAR,Physical Address Register"
hexmask.quad.byte 0x00 56.--63. 1. " ATTR      ,Memory attributes for the returned PA"
hexmask.quad 0x00 12.--39. 0x1000 "              PA    ,Physical Address"
bitfld.quad 0x00 11. "  LPAE ,Long-descriptor translation table format use" "Not used,Used"
textline "                             "
bitfld.quad 0x00 9. " NS        ,Non-secure" "Secure,Non-secure"
bitfld.quad 0x00 7.--8. "      SH    ,Shareability attribute" "Non-shareable,Unpredictable,Outer Shareable,Inner Shareable"
bitfld.quad 0x00 0. "   F    ,Conversion completed successfully" "Successful,Unsuccessful"
textline "                             "
elif (((d.l(c15:0x202))&0x80000000)==0x80000000&&((d.q(c15:0x0047))&0x1)==0x1)
group.quad c15:0x0047++0x01
line.quad 0x00 "PAR,Physical Address Register"
bitfld.quad 0x00 11. " LPAE      ,Long-descriptor translation table format use" "Not used,Used"
bitfld.quad 0x00 9. "        FSTAGE ,Translation stage at which the translation aborted" "Stage 1,Stage 2"
bitfld.quad 0x00 8. "          S2WLK ,Stage 2 fault during a stage 1 translation table walk" "Not occurred,Occurred"
textline "                             "
bitfld.quad 0x00 1.--6. " FS        ,Fault status field" "Reserved,Reserved,Reserved,Reserved,Reserved,Translation fault/1st level,Translation fault/2nd level,Translation fault/3rd level,Reserved,Access flag fault/1st level,Access flag fault/2nd level,Access flag fault/3rd level,Reserved,Permission fault/1st level,Permission fault/2nd level,Permission fault/3rd level,Synchronous external abort,Asynchronous external abort,Reserved,Reserved,Reserved,Synchronous external abort on translation table walk/1st level,Synchronous external abort on translation table walk/2nd level,Synchronous external abort on translation table walk/3rd level,Synchronous parity error on memory access, Asynchronous parity error on memory access,Reserved,Reserved,Reserved,Synchronous parity error on memory access on translation table walk/1st lvl,Synchronous parity error on memory access on translation table walk/2nd lvl,Synchronous parity error on memory access on translation table walk/3rd lvl,Reserved,Alignment fault,Debug event,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,TLB conflict abort,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Domain fault/1st lvl,Domain fault/2nd lvl,Reserved"
textline "                             "
bitfld.quad 0x00 0. " F         ,Conversion completed successfully" "Successful,Unsuccessful"
textline "                             "
elif (((d.l(c15:0x202))&0x80000000)==0x00&&((d.q(c15:0x0047))&0x1)==0x0)
group.long c15:0x0047++0x00
line.long 0x00 "PAR,Physical Address Register"
hexmask.long.tbyte 0x00 12.--31. 0x1000 "         PA        ,Physical Address"
bitfld.long 0x00 11. "                           LPAE ,Long-descriptor translation table format use" "Not used,Used"
bitfld.long 0x00 10. "                NOS   ,Not Outer Shareable attribute" "Outer shareable,Not outer shareable"
textline "                             "
bitfld.long 0x00 9. " NS        ,Non-secure" "Secure,Non-secure"
bitfld.long 0x00 7. "                       SH   ,Shareability attribute" "Non-shareable,Shareable"
bitfld.long 0x00 4.--6. "           INNER ,Inner memory attributes" "Non-cacheable,Strongly-ordered,-,Device,-,Write-Back Write-Allocate,Write-Through,Write-Back no Write-Allocate"
textline "                             "
bitfld.long 0x00 2.--3. " OUTER     ,Outer memory attributes" "Non-cacheable,Write-Back Write-Allocate,Write-Through no Write-Allocate,Write-Back no Write-Allocate"
bitfld.long 0x00 1. "  SS   ,Supersection" "Not a Supersection,Supersection"
bitfld.long 0x00 0. "      F     ,Conversion completed successfully" "Successful,Unsuccessful"
textline "                             "
elif (((d.l(c15:0x202))&0x80000000)==0x00&&((d.q(c15:0x0047))&0x1)==0x1)
group.long c15:0x0047++0x00
line.long 0x00 "PAR,Physical Address Register"
bitfld.long 0x00 11. "         LPAE      ,Long-descriptor translation table format use" "Not used,Used"
textline "                             "
bitfld.long 0x00 1.--6. " FS        ,Fault status" "Reserved,Alignment fault,Debug event,Access flag fault/1st lvl,Fault on instruction cache maintenance,Translation fault/1st lvl,Access flag fault/2nd lvl,Translation fault/2nd lvl,Synchronous external abort,Domain fault/1st lvl,Reserved,Domain fault/2nd lvl,Synchronous external abort on translation table walk/1st lvl,Permission fault/1st lvl,Synchronous external abort on translation table walk/2nd lvl,Permission fault/2nd lvl,TLB conflict abort,Reserved,Reserved,Reserved,Reserved,Reserved,Asynchronous external abort,Reserved,Asynchronous parity error on memory access,Synchronous parity error on memory access,,,Synchronous parity error on translation table walk/1st lvl,Reserved,Synchronous parity error on translation table walk/2nd lvl,Reserved,?..."
textline "                             "
bitfld.long 0x00 0. " F         ,Conversion completed successfully" "Successful,Unsuccessful"
textline "                             "
endif
if (((d.l(c15:0x202))&0x80000000)==0x80000000)
group.long c15:0x002A++0x00
line.long 0x00 "MAIR0,Memory Attribute Indirection Register 0"
hexmask.long.byte 0x00 24.--31. 1. "         ATTR3     ,Attribute 3"
hexmask.long.byte 0x00 16.--23. 1. "   ATTR2 ,Attribute 2"
hexmask.long.byte 0x00 8.--15. 1. "   ATTR1  ,Attribute 1"
hexmask.long.byte 0x00 0.--7. 1. " ATTR0     ,Attribute 0"
group.long c15:0x012A++0x00
line.long 0x00 "MAIR1,Memory Attribute Indirection Register 1"
hexmask.long.byte 0x00 24.--31. 1. "         ATTR7     ,Attribute 7"
hexmask.long.byte 0x00 16.--23. 1. "   ATTR6 ,Attribute 6"
hexmask.long.byte 0x00 8.--15. 1. "   ATTR5  ,Attribute 5"
hexmask.long.byte 0x00 0.--7. 1. " ATTR4     ,Attribute 4"
if (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE")
group.long c15:0x003A++0x00
line.long 0x00 "AMAIR0,Auxiliary Memory Attribute Indirection Register 0"
hexmask.long.byte 0x00 24.--31. 1. "         ATTR3             ,Attribute 3"
hexmask.long.byte 0x00 16.--23. 1. "                               ATTR2             ,Attribute 2"
hexmask.long.byte 0x00 8.--15. 1. "                      ATTR1 ,Attribute 1"
textline "                             "
hexmask.long.byte 0x00 0.--7. 1. " ATTR0             ,Attribute 0"
group.long c15:0x013A++0x00
line.long 0x00 "AMAIR1,Auxiliary Memory Attribute Indirection Register 1"
hexmask.long.byte 0x00 24.--31. 1. "         ATTR7             ,Attribute 7"
hexmask.long.byte 0x00 16.--23. 1. "                               ATTR6             ,Attribute 6"
hexmask.long.byte 0x00 8.--15. 1. "                      ATTR5 ,Attribute 5"
textline "                             "
hexmask.long.byte 0x00 0.--7. 1. " ATTR4             ,Attribute 4"
elif (corename()=="CORTEXA7"||corename()=="CORTEXA7MPCORE"||corename()=="CORTEXA17"||corename()=="CORTEXA17MPCORE")
hgroup.long c15:0x003A++0x00
hide.long 0x00 "AMAIR0,Auxiliary Memory Attribute Indirection Register 0"
hgroup.long c15:0x013A++0x00
hide.long 0x00 "AMAIR1,Auxiliary Memory Attribute Indirection Register 1"
endif
else
group.long c15:0x002A++0x0
line.long 0x00 "PRRR,Primary Region Remap Register"
bitfld.long 0x00 31. "         NOS7      ,Outer Shareable property mapping for memory attributes" "Outer,Inner"
bitfld.long 0x00 30. "                       NOS6  ,Outer Shareable property mapping for memory attributes" "Outer,Inner"
bitfld.long 0x00 29. "                      NOS5  ,Outer Shareable property mapping for memory attributes" "Outer,Inner"
textline "                             "
bitfld.long 0x00 28. " NOS4      ,Outer Shareable property mapping for memory attributes" "Outer,Inner"
bitfld.long 0x00 27. "                       NOS3  ,Outer Shareable property mapping for memory attributes" "Outer,Inner"
bitfld.long 0x00 26. "                      NOS2  ,Outer Shareable property mapping for memory attributes" "Outer,Inner"
textline "                             "
bitfld.long 0x00 25. " NOS1      ,Outer Shareable property mapping for memory attributes" "Outer,Inner"
bitfld.long 0x00 24. "                       NOS0  ,Outer Shareable property mapping for memory attributes" "Outer,Inner"
bitfld.long 0x00 19. "                      NS1   ,Shareable Attribute Remap when S=1 for Normal Regions" "Remapped,Not remapped"
textline "                             "
bitfld.long 0x00 18. " NS0       ,Shareable Attribute Remap when S=0 for Normal Regions" "Not remapped,Remapped"
bitfld.long 0x00 17. "                DS1   ,Shareable Attribute Remap when S=1 for Device regions" "Remapped,Not remapped"
bitfld.long 0x00 16. "               DS0   ,Shareable Attribute Remap when S=0 for Device regions" "Not remapped,Remapped"
textline "                             "
bitfld.long 0x00 14.--15. " TR7       ,{TEX[0] C B} = b111 Remap" "Strongly ordered,Device,Normal,UNP"
bitfld.long 0x00 12.--13. "            TR6   ,{TEX[0] C B} = b110 Remap" "Strongly ordered,Device,Normal,UNP"
bitfld.long 0x00 10.--11. "           TR5   ,{TEX[0] C B} = b101 Remap" "Strongly ordered,Device,Normal,UNP"
textline "                             "
bitfld.long 0x00 8.--9. " TR4       ,{TEX[0] C B} = b100 Remap" "Strongly ordered,Device,Normal,UNP"
bitfld.long 0x00 6.--7. "            TR3   ,{TEX[0] C B} = b011 Remap" "Strongly ordered,Device,Normal,UNP"
bitfld.long 0x00 4.--5. "           TR2   ,{TEX[0] C B} = b010 Remap" "Strongly ordered,Device,Normal,UNP"
textline "                             "
bitfld.long 0x00 2.--3. " TR1       ,{TEX[0] C B} = b001 Remap" "Strongly ordered,Device,Normal,UNP"
bitfld.long 0x00 0.--1. "            TR0   ,{TEX[0] C B} = b000 Remap" "Strongly ordered,Device,Normal,UNP"
group.long c15:0x012A++0x0
line.long 0x00 "NMRR,Normal Memory Remap Register"
bitfld.long 0x00 30.--31. "         OR7       ,Outer Attribute for {TEX[0] C B} = b111 Remap" "Noncacheable,Write-back allocate,Write-through no allocate,Write-back no allocate"
bitfld.long 0x00 28.--29. "   OR6   ,Outer Attribute for {TEX[0] C B} = b110 Remap" "Noncacheable,Write-back allocate,Write-through no allocate,Write-back no allocate"
bitfld.long 0x00 26.--27. "  OR5   ,Outer Attribute for {TEX[0] C B} = b101 Remap" "Noncacheable,Write-back allocate,Write-through no allocate,Write-back no allocate"
textline "                             "
bitfld.long 0x00 24.--25. " OR4       ,Outer Attribute for {TEX[0] C B} = b100 Remap" "Noncacheable,Write-back allocate,Write-through no allocate,Write-back no allocate"
bitfld.long 0x00 22.--23. "   OR3   ,Outer Attribute for {TEX[0] C B} = b011 Remap" "Noncacheable,Write-back allocate,Write-through no allocate,Write-back no allocate"
bitfld.long 0x00 20.--21. "  OR2   ,Outer Attribute for {TEX[0] C B} = b010 Remap" "Noncacheable,Write-back allocate,Write-through no allocate,Write-back no allocate"
textline "                             "
bitfld.long 0x00 18.--19. " OR1       ,Outer Attribute for {TEX[0] C B} = b001 Remap" "Noncacheable,Write-back allocate,Write-through no allocate,Write-back no allocate"
bitfld.long 0x00 16.--17. "   OR0   ,Outer Attribute for {TEX[0] C B} = b000 Remap" "Noncacheable,Write-back allocate,Write-through no allocate,Write-back no allocate"
bitfld.long 0x00 14.--15. "  IR7   ,Inner attribute for {TEX[0] C B} = b111 Remap" "Noncacheable,Write-back allocate,Write-through no allocate,Write-back no allocate"
textline "                             "
bitfld.long 0x00 12.--13. " IR6       ,Inner attribute for {TEX[0] C B} = b110 Remap" "Noncacheable,Write-back allocate,Write-through no allocate,Write-back no allocate"
bitfld.long 0x00 10.--11. "   IR5   ,Inner attribute for {TEX[0] C B} = b101 Remap" "Noncacheable,Write-back allocate,Write-through no allocate,Write-back no allocate"
bitfld.long 0x00 8.--9. "  IR4   ,Inner attribute for {TEX[0] C B} = b100 Remap" "Noncacheable,Write-back allocate,Write-through no allocate,Write-back no allocate"
textline "                             "
bitfld.long 0x00 6.--7. " IR3       ,Inner attribute for {TEX[0] C B} = b011 Remap" "Noncacheable,Write-back allocate,Write-through no allocate,Write-back no allocate"
bitfld.long 0x00 4.--5. "   IR2   ,Inner attribute for {TEX[0] C B} = b010 Remap" "Noncacheable,Write-back allocate,Write-through no allocate,Write-back no allocate"
bitfld.long 0x00 2.--3. "  IR1   ,Inner attribute for {TEX[0] C B} = b001 Remap" "Noncacheable,Write-back allocate,Write-through no allocate,Write-back no allocate"
textline "                             "
bitfld.long 0x00 0.--1. " IR0       ,Inner attribute for {TEX[0] C B} = b000 Remap" "Noncacheable,Write-back allocate,Write-through no allocate,Write-back no allocate"
textline "                             "
endif
if (corename()=="CORTEXA7"||corename()=="CORTEXA7MPCORE"||corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE")
group.long c15:0x400F++0x00
line.long 0x00 "CBAR,Configuration Base Address Register"
hexmask.long.tbyte 0x00 15.--31. 0x80 "         PERIPHBASE[31:15] ,Periphbase[31:15]"
hexmask.long.byte 0x00 0.--7. 1. " PERIPHBASE[39:32] ,Periphbase[39:32]"
elif (corename()=="CORTEXA17"||corename()=="CORTEXA17MPCORE")
hgroup.long c15:0x400F++0x00
hide.long 0x00 "CBAR,Configuration Base Address Register"
endif
textline "                             "
if (((d.l(c15:0x202))&0x80000000)==0x80000000)
group.long c15:0x10d++0x00
line.long 0x0 "CONTEXTIDR,Context ID Register"
else
group.long c15:0x10d++0x00
line.long 0x0 "CONTEXTIDR,Context ID Register"
hexmask.long.tbyte 0x00 8.--31. 1. "         PROCID ,Process identifier"
hexmask.long.byte 0x00 0.--7. 1. " ASID ,Address space identifier"
endif
group.long c15:0x020D++0x00
line.long 0x00 "TPIDRURW,User Read/Write Thread ID Register"
group.long c15:0x030D++0x00
line.long 0x00 "TPIDRURO,User Read-Only Thread ID Register"
group.long c15:0x040D++0x00
line.long 0x00 "TPIDRPRW,EL1 only Thread ID Register"
group.long c15:0x420D++0x00
line.long 0x00 "HTPIDR,Hyp Software Thread ID Register"
tree.end
width 15.
tree "Virtualization Extensions"
group.long c15:0x4000++0x00
line.long 0x0 "VPIDR,Virtualization Processor ID Register"
group.long c15:0x4500++0x00
line.long 0x0 "VMPIDR,Virtualization Multiprocessor ID Register"
group.long c15:0x4001++0x00
line.long 0x00 "HSCTLR,System Control Register"
bitfld.long 0x0 30. "         TE    ,Thumb exception enable" "ARM,Thumb"
bitfld.long 0x0 25. "             EE    ,Exception endianness" "Little,Big"
bitfld.long 0x0 19. "            WXN   ,Write permission implies XN" "Not forced,Forced"
textline "                                "
bitfld.long 0x0 12. " I     ,Instruction Cache Enable" "Disabled,Enabled"
bitfld.long 0x0 2. "          C     ,Enable unified cache or data cache" "Disabled,Enabled"
bitfld.long 0x0 1. "          A     ,Strict Alignment" "Disabled,Enabled"
textline "                                "
bitfld.long 0x0 0. " M     ,Enable address translation" "Disabled,Enabled"
group.long c15:0x4011++0x00
line.long 0x00 "HCR,Hyp Configuration Register"
bitfld.long 0x00 27. "         TGE   ,Trap General Exceptions" "Disabled,Enabled"
bitfld.long 0x00 26. "          TVM   ,Trap Virtual Memory Controls" "Disabled,Enabled"
bitfld.long 0x00 25. "          TTLB  ,Trap TLB maintenance instructions" "Disabled,Enabled"
textline "                                "
bitfld.long 0x00 24. " TPU   ,Trap Cache maintenance instructions to point of unification" "Disabled,Enabled"
bitfld.long 0x00 23. "          TPC   ,Trap Data/Unified cache maintenance instructions to point of coherency" "Disabled,Enabled"
bitfld.long 0x00 22. "          TSW   ,Trap Data/Unified cache Set/Way instructions" "Disabled,Enabled"
textline "                                "
bitfld.long 0x00 21. " TAC   ,Trap Auxiliary Control Register Accesses" "Disabled,Enabled"
bitfld.long 0x00 20. "          TIDCP ,Trap Lockdown" "Disabled,Enabled"
bitfld.long 0x00 19. "          TSC   ,Trap SMC" "Disabled,Enabled"
textline "                                "
bitfld.long 0x00 18. " TID3  ,Trap ID Group 3" "Disabled,Enabled"
bitfld.long 0x00 17. "          TID2  ,Trap ID Group 2" "Disabled,Enabled"
bitfld.long 0x00 16. "          TID1  ,Trap ID Group 1" "Disabled,Enabled"
textline "                                "
bitfld.long 0x00 15. " TID0  ,Trap ID Group 0" "Disabled,Enabled"
bitfld.long 0x00 14. "          TWE   ,Trap WFE" "Disabled,Enabled"
bitfld.long 0x00 13. "          TWI   ,Trap WFI" "Disabled,Enabled"
textline "                                "
bitfld.long 0x00 12. " DC    ,Default Cacheable" "Disabled,Enabled"
bitfld.long 0x00 10.--11. "          BSU   ,Barrier Shareability Upgrade" "No effect,Inner,Outer,Full system"
bitfld.long 0x00 9. "       FB    ,Force Broadcast of TLB maintenance BPIALL and ICIALLU instructions" "Disabled,Enabled"
textline "                                "
bitfld.long 0x00 8. " VA    ,Virtual External Asynchronous Abort" "Not aborted,Aborted"
bitfld.long 0x00 7. "       VI    ,Virtual IRQ interrupt" "No interrupt,Interrupt"
bitfld.long 0x00 6. "      VF    ,Virtual FIQ interrupt" "No interrupt,Interrupt"
textline "                                "
bitfld.long 0x00 5. " AMO   ,A-bit Mask Override" "No override,Override"
bitfld.long 0x00 4. "       IMO   ,I-bit Mask Override" "No override,Override"
bitfld.long 0x00 3. "       FMO   ,F-bit Mask Override" "No override,Override"
textline "                                "
bitfld.long 0x00 2. " PTW   ,Protected Table Walk" "Disabled,Enabled"
bitfld.long 0x00 1. "          SWIO  ,Set/Way Invalidation Override" "No override,Override"
bitfld.long 0x00 0. "       VM    ,Second Stage of Translation Enable" "Disabled,Enabled"
group.long c15:0x4111++0x00
line.long 0x00 "HDCR,Hyp Debug Control Register"
bitfld.long 0x00 11. "         TDRA  ,Trap Debug ROM Access" "No effect,Valid"
bitfld.long 0x00 10. "         TDOSA ,Trap Debug OS-related register Access" "No effect,Valid"
bitfld.long 0x00 9. "         TDA   ,Trap Debug Access" "No effect,Valid"
textline "                                "
bitfld.long 0x00 8. " TDE   ,Trap Debug Exceptions" "No effect,Valid"
bitfld.long 0x00 7. "         HPME  ,Hypervisor Performance Monitors Enable" "Disabled,Enabled"
bitfld.long 0x00 6. "          TPM   ,Trap Performance Monitors accesses" "No effect,Valid"
textline "                                "
bitfld.long 0x00 5. " TPMCR ,Trap Performance Monitor Control Register accesses" "No effect,Valid"
bitfld.long 0x00 0.--4. "         HPMN  ,Defines the number of Performance Monitors counters" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long c15:0x4211++0x00
line.long 0x00 "HCPTR,Hyp Coprocessor Trap Register"
bitfld.long 0x0 31. "         TCPAC ,Trap Coprocessor Access Control" "Not trapped,Trapped"
bitfld.long 0x0 15. "       TASE  ,Trap Advanced SIMD extensions" "Not trapped,Trapped"
bitfld.long 0x0 11. "       TCP11 ,Trap coprocessor 11" "Not trapped,Trapped"
textline "                                "
bitfld.long 0x0 10. " TCP10 ,Trap coprocessor 10" "Not trapped,Trapped"
group.long c15:0x4025++0x00
line.long 0x00 "HSR,Hyp Syndrome Register"
bitfld.long 0x00 26.--31. "         EC    ,Exception class" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 25. "                IL    ,Instruction length" "16-bit,32-bit"
hexmask.long 0x00 0.--24. 1. "            ISS   ,Instruction specific syndrome"
group.long c15:0x4311++0x00
line.long 0x00 "HSTR,Hyp System Trap Register"
bitfld.long 0x00 17. "         TJDBX ,Trap Jazelle-DBX" "Disabled,Enabled"
bitfld.long 0x00 16. "          TTEE  ,Trap ThumbEE" "Disabled,Enabled"
bitfld.long 0x00 15. "          T15   ,Trap to Hyp mode Non-secure priv 15" "Not trapped,Trapped"
textline "                                "
bitfld.long 0x00 13. " T13   ,Trap to Hyp mode Non-secure priv 13" "Not trapped,Trapped"
bitfld.long 0x00 12. "       T12   ,Trap to Hyp mode Non-secure priv 12" "Not trapped,Trapped"
bitfld.long 0x00 11. "       T11   ,Trap to Hyp mode Non-secure priv 11" "Not trapped,Trapped"
textline "                                "
bitfld.long 0x00 10. " T10   ,Trap to Hyp mode Non-secure priv 10" "Not trapped,Trapped"
bitfld.long 0x00 9. "       T9    ,Trap to Hyp mode Non-secure priv 9" "Not trapped,Trapped"
bitfld.long 0x00 8. "       T8    ,Trap to Hyp mode Non-secure priv 8" "Not trapped,Trapped"
textline "                                "
bitfld.long 0x00 7. " T7    ,Trap to Hyp mode Non-secure priv 7" "Not trapped,Trapped"
bitfld.long 0x00 6. "       T6    ,Trap to Hyp mode Non-secure priv 6" "Not trapped,Trapped"
bitfld.long 0x00 5. "       T5    ,Trap to Hyp mode Non-secure priv 5" "Not trapped,Trapped"
textline "                                "
bitfld.long 0x00 3. " T3    ,Trap to Hyp mode Non-secure priv 3" "Not trapped,Trapped"
bitfld.long 0x00 2. "       T2    ,Trap to Hyp mode Non-secure priv 2" "Not trapped,Trapped"
bitfld.long 0x00 1. "       T1    ,Trap to Hyp mode Non-secure priv 1" "Not trapped,Trapped"
textline "                                "
bitfld.long 0x00 0. " T0    ,Trap to Hyp mode Non-secure priv 0" "Not trapped,Trapped"
group.quad c15:0x14020++0x01
line.quad 0x00 "HTTBR,Hyp Translation Table Base Register"
hexmask.quad 0x00 0.--39. 1. " BADDR ,Translation table base address"
group.long c15:0x4202++0x00
line.long 0x00 "HTCR,Hyp Translation Control Register"
bitfld.long 0x00 12.--13. "         SH0   ,Shareability attributes for the memory associated with the translation table walks using HTTBR" "Non-shareable,Reserved,Outer Shareable,Inner Shareable"
bitfld.long 0x00 10.--11. "   ORGN0 ,Outer Cacheability attributes for the memory associated with the translation table walks using HTTBR" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable"
textline "                                "
bitfld.long 0x00 8.--9. " IRGN0 ,Inner Cacheability attributes for the memory associated with the translation table walks VTTBR" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable"
textline "                                "
bitfld.long 0x00 0.--3. " T0SZ  ,The Size offset(four-bit signed integer) of the VTCR addressed region" "0,1,2,3,4,5,6,7,-8,-7,-6,-5,-4,-3,-2,-1"
group.quad c15:0x16020++0x01
line.quad 0x00 "VTTBR,Virtualization Translation Table Base Register"
hexmask.quad.byte 0x00 48.--55. 1. " VMID  ,VMID for the translation table"
hexmask.quad 0x00 0.--39. 1. "                BADDR ,Translation table base address"
group.long c15:0x4212++0x00
line.long 0x00 "VTCR,Virtualization Translation Control Register"
bitfld.long 0x00 12.--13. "         SH0   ,Shareability attributes for the memory associated with the translation table walks using VTTBR" "Non-shareable,Reserved,Outer Shareable,Inner Shareable"
bitfld.long 0x00 10.--11. "   ORGN0 ,Outer Cacheability attributes for the memory associated with the translation table walks using VTTBR" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable"
textline "                                "
bitfld.long 0x00 8.--9. " IRGN0 ,Inner Cacheability attributes for the memory associated with the translation table walks VTTBR" "Non-cacheable,Write-Back Write-Allocate Cacheable,Write-Through Cacheable,Write-Back no Write-Allocate Cacheable"
textline "                                "
bitfld.long 0x00 6.--7. " SL0   ,Starting Level for VTCR addressed region" "Second level,First level,Reserved,Reserved"
bitfld.long 0x00 4. "      S     ,Sign extension bit" "0,1"
bitfld.long 0x00 0.--3. "                 T0SZ  ,The Size offset(four-bit signed integer) of the VTCR addressed region" "0,1,2,3,4,5,6,7,-8,-7,-6,-5,-4,-3,-2,-1"
if (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE")
group.long c15:0x4015++0x00
line.long 0x00 "HADFSR,Hyp Auxiliary Data Fault Status Syndrome Register"
bitfld.long 0x00 31. "         VALID ,L1 or L2 ECC double bit error indicator" "No error,Error"
hexmask.long.byte 0x00 24.--30. 1. "          RAMID ,RAM identifier"
bitfld.long 0x00 23. "                                      L2E   ,L2 Error" "No error,Error"
textline "                                "
bitfld.long 0x00 18.--22. " B/W   ,Bank/Way" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.tbyte 0x00 0.--17. 1. "                IND   ,Index"
endif
group.long c15:0x4006++0x00
line.long 0x00 "HDFAR,Hyp Data Fault Address Register"
group.long c15:0x4025++0x00
line.long 0x00 "HSR,Hyp Syndrome Register"
bitfld.long 0x00 26.--31. "         EC    ,Exception class" "Unknown reason,Trapped WFI/WFE,Reserved,Trapped MCR/MRC to CP15,Trapped MCRR/MRRC to CP15,Trapped MCR/MRC to CP14,Trapped LDC/STC to CP14,Trapped Coprocessor Usage,Trapped MRC,Trapped Jazelle instruction,Trapped BXJ,Reserved,Trapped MRRC,Reserved,Reserved,Reserved,Reserved,SVC,HVC,Trapped SMC,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Entry into Hyp mode Instruction Abort,Executing within Hyp mode Instruction Abort,Reserved,Reserved,Entry into Hyp mode Data Abort,Executing within Hyp mode Data Abort,?..."
textline "                                "
bitfld.long 0x00 25. " IL    ,Instruction length" "16-bit,32-bit"
hexmask.long 0x00 0.--24. 1. "            ISS   ,Instruction specific syndrome"
group.long c15:0x4206++0x00
line.long 0x00 "HIFAR,Hyp Instruction Fault Address Register"
group.long c15:0x4406++0x00
line.long 0x00 "HPFAR,Hyp IPA Fault Address Register"
hexmask.long 0x00 4.--31. 1. "         FIPA  ,Faulting IPA bits"
textline "                                "
hgroup.long c15:0x407++0x00
hide.long 0x00 "NOP,No Operation Register"
in
wgroup.long c15:0x17++0x00
line.long 0x00 "ICIALLUIS,Invalidate All Instruction Caches To PoU Inner Shareable Register"
bitfld.long 0x00 30.--31. " WAY ,Cache way to invalidate or clean" "0,1,2,3"
hexmask.long.byte 0x00 5.--10. 1. "         SET   ,Cache set to invalidate or clean"
bitfld.long 0x00 1.--3. "    LEVEL ,Cache level" "0,1,2,3,4,5,6,7"
wgroup.long c15:0x617++0x00
line.long 0x00 "BPIALLIS,Invalidate Entire Branch Predictor Array Inner Shareable Register"
bitfld.long 0x00 30.--31. " WAY ,Cache way to invalidate or clean" "0,1,2,3"
hexmask.long.byte 0x00 5.--10. 1. "         SET   ,Cache set to invalidate or clean"
bitfld.long 0x00 1.--3. "    LEVEL ,Cache level" "0,1,2,3,4,5,6,7"
wgroup.long c15:0x57++0x00
line.long 0x00 "ICIALLU,Invalidate Entire Instruction Cache Register"
bitfld.long 0x00 30.--31. " WAY ,Cache way to invalidate or clean" "0,1,2,3"
hexmask.long.byte 0x00 5.--10. 1. "         SET   ,Cache set to invalidate or clean"
bitfld.long 0x00 1.--3. "    LEVEL ,Cache level" "0,1,2,3,4,5,6,7"
wgroup.long c15:0x157++0x00
line.long 0x00 "ICIMVAU,Invalidate Instruction Cache Line by VA to Point-of-Unification Register"
bitfld.long 0x00 30.--31. " WAY ,Cache way to invalidate or clean" "0,1,2,3"
hexmask.long.byte 0x00 5.--10. 1. "         SET   ,Cache set to invalidate or clean"
bitfld.long 0x00 1.--3. "    LEVEL ,Cache level" "0,1,2,3,4,5,6,7"
wgroup.long c15:0x457++0x00
line.long 0x00 "CP15ISB,Instruction Synchronization Barrier Register"
bitfld.long 0x00 30.--31. " WAY ,Cache way to invalidate or clean" "0,1,2,3"
hexmask.long.byte 0x00 5.--10. 1. "         SET   ,Cache set to invalidate or clean"
bitfld.long 0x00 1.--3. "    LEVEL ,Cache level" "0,1,2,3,4,5,6,7"
wgroup.long c15:0x657++0x00
line.long 0x00 "BPIALL,Invalidate Entire Branch Predictor Array (NOP) Register"
bitfld.long 0x00 30.--31. " WAY ,Cache way to invalidate or clean" "0,1,2,3"
hexmask.long.byte 0x00 5.--10. 1. "         SET   ,Cache set to invalidate or clean"
bitfld.long 0x00 1.--3. "    LEVEL ,Cache level" "0,1,2,3,4,5,6,7"
wgroup.long c15:0x757++0x00
line.long 0x00 "BPIMVA,Invalidate MVA From Branch Predictors Register"
bitfld.long 0x00 30.--31. " WAY ,Cache way to invalidate or clean" "0,1,2,3"
hexmask.long.word 0x00 5.--15. 1. "         SET   ,Cache set to invalidate or clean"
bitfld.long 0x00 1.--3. "  LEVEL ,Cache level" "0,1,2,3,4,5,6,7"
wgroup.long c15:0x167++0x00
line.long 0x00 "DCIMVAC,Invalidate Data Cache Line by VA to PoC Register"
bitfld.long 0x00 30.--31. " WAY ,Cache way to invalidate or clean" "0,1,2,3"
hexmask.long.byte 0x00 5.--10. 1. "         SET   ,Cache set to invalidate or clean"
bitfld.long 0x00 1.--3. "    LEVEL ,Cache level" "0,1,2,3,4,5,6,7"
wgroup.long c15:0x267++0x00
line.long 0x00 "DCISW,Invalidate Data Cache Line by Set/Way Register"
bitfld.long 0x00 30.--31. " WAY ,Cache way to invalidate or clean" "0,1,2,3"
hexmask.long.byte 0x00 5.--10. 1. "         SET   ,Cache set to invalidate or clean"
bitfld.long 0x00 1.--3. "    LEVEL ,Cache level" "0,1,2,3,4,5,6,7"
wgroup.long c15:0x0087++0x00
line.long 0x00 "ATS1CPR,Stage 1 current state PL1 read"
wgroup.long c15:0x0187++0x00
line.long 0x00 "ATS1CPW,Stage 1 current state PL1 write"
wgroup.long c15:0x0287++0x00
line.long 0x00 "ATS1CUR,Stage 1 current state unprivileged (PL0) read"
wgroup.long c15:0x0387++0x00
line.long 0x00 "ATS1CUW,Stage 1 current state unprivileged (PL0) write"
wgroup.long c15:0x0487++0x00
line.long 0x00 "ATS12NSOPR,Stages 1 and 2 Non-secure PL1 read"
wgroup.long c15:0x0587++0x00
line.long 0x00 "ATS12NSOPW,Stages 1 and 2 Non-secure PL1 write"
wgroup.long c15:0x0687++0x00
line.long 0x00 "ATS12NSOUR,Stages 1 and 2 Non-secure unprivileged (PL0) read"
wgroup.long c15:0x0787++0x00
line.long 0x00 "ATS12NSOUW,Stages 1 and 2 Non-secure unprivileged (PL0) write"
wgroup.long c15:0x1a7++0x00
line.long 0x00 "DCCMVAC,Clean Data Cache Line to PoC by VA Register"
bitfld.long 0x00 30.--31. " WAY ,Cache way to invalidate or clean" "0,1,2,3"
hexmask.long.byte 0x00 5.--10. 1. "             SET   ,Cache set to invalidate or clean"
bitfld.long 0x00 1.--3. "    LEVEL ,Cache level" "0,1,2,3,4,5,6,7"
wgroup.long c15:0x2a7++0x00
line.long 0x00 "DCCSW,Clean Data Cache Line by Set/Way Register"
bitfld.long 0x00 30.--31. " WAY ,Cache way to invalidate or clean" "0,1,2,3"
hexmask.long.byte 0x00 5.--10. 1. "             SET   ,Cache set to invalidate or clean"
bitfld.long 0x00 1.--3. "    LEVEL ,Cache level" "0,1,2,3,4,5,6,7"
wgroup.long c15:0x4a7++0x00
line.long 0x00 "CP15DSB,Data Synchronization Barrier Register"
hexmask.long 0x00 5.--31. 0x20 " ADDRESS ,Address to invalidate or clean"
wgroup.long c15:0x5a7++0x00
line.long 0x00 "CP15DMB,Data Memory Barrier Register"
hexmask.long 0x00 5.--31. 0x20 " ADDRESS ,Address to invalidate or clean"
wgroup.long c15:0x1b7++0x00
line.long 0x00 "DCCMVAU,Clean Data Or Unified Cache Line By VA To PoU Register"
bitfld.long 0x00 30.--31. " WAY ,Cache way to invalidate or clean" "0,1,2,3"
hexmask.long.byte 0x00 5.--10. 1. "             SET   ,Cache set to invalidate or clean"
wgroup.long c15:0x1e7++0x00
line.long 0x00 "DCCIMVAC,Clean and Invalidate Data Cache Line by VA to PoC Register"
bitfld.long 0x00 30.--31. " WAY ,Cache way to invalidate or clean" "0,1,2,3"
hexmask.long.byte 0x00 5.--10. 1. "             SET   ,Cache set to invalidate or clean"
wgroup.long c15:0x2e7++0x00
line.long 0x00 "DCCISW,Clean and Invalidate Data Cache Line by Set/Way Register"
bitfld.long 0x00 30.--31. " WAY ,Cache way to invalidate or clean" "0,1,2,3"
hexmask.long.byte 0x00 5.--10. 1. "             SET   ,Cache set to invalidate or clean"
wgroup.long c15:0x4087++0x00
line.long 0x00 "ATS1HR,Address Translate Stage 1 Hyp mode Read"
wgroup.long c15:0x4187++0x00
line.long 0x00 "ATS1HW,Address Translate Stage 1 Hyp mode Write"
wgroup.long c15:0x0038++0x00
line.long 0x00 "TLBIALLIS,Invalidate entire TLB Inner Shareable"
wgroup.long c15:0x0138++0x00
line.long 0x00 "TLBIMVAIS,Invalidate unified TLB entry by MVA Inner Shareable"
wgroup.long c15:0x0238++0x00
line.long 0x00 "TLBIASIDIS,Invalidate unified TLB byASID match Inner Shareable"
wgroup.long c15:0x0338++0x00
line.long 0x00 "TLBIMVAAIS,Invalidate unified TLB by MVA all ASID Inner Shareable"
wgroup.long c15:0x0058++0x00
line.long 0x00 "ITLBIALL,Invalidate instruction TLB"
wgroup.long c15:0x0158++0x00
line.long 0x00 "ITLBIMVA,Invalidate instruction TLB entry by MVA"
wgroup.long c15:0x0258++0x00
line.long 0x00 "ITLBIASID,Invalidate instruction TLB by ASID match"
wgroup.long c15:0x0068++0x00
line.long 0x00 "DTLBIALL,Invalidate data TLB"
wgroup.long c15:0x0168++0x00
line.long 0x00 "DTLBIMVA,Invalidate data TLB entry by MVA"
wgroup.long c15:0x0268++0x00
line.long 0x00 "DTLBIASID,Invalidate data TLB by ASID match"
wgroup.long c15:0x0078++0x00
line.long 0x00 "TLBIALL,Invalidate unified TLB"
wgroup.long c15:0x0178++0x00
line.long 0x00 "TLBIMVA,Invalidate unified TLB entry by MVA"
wgroup.long c15:0x0278++0x00
line.long 0x00 "TLBIASID,Invalidate unified TLB byASID match"
wgroup.long c15:0x0378++0x00
line.long 0x00 "TLBIMVAA,Invalidate unified TLB by MVA all ASID"
wgroup.long c15:0x4038++0x00
line.long 0x00 "TLBIALLHIS,Invalidate entire Hyp unified TLB Inner Shareable"
wgroup.long c15:0x4138++0x00
line.long 0x00 "TLBIMVAHIS,Invalidate Hyp unified TLB entry by MVA Inner Shareable"
wgroup.long c15:0x4438++0x00
line.long 0x00 "TLBIALLNSNHIS,Invalidate entire Non-secure Non-Hyp unified TLB Inner Shareable"
wgroup.long c15:0x4078++0x00
line.long 0x00 "TLBIALLH,Invalidate entire Hyp unified TLB"
wgroup.long c15:0x4178++0x00
line.long 0x00 "TLBIMVAH,Invalidate Hyp unified TLB entry by MVA"
wgroup.long c15:0x4478++0x00
line.long 0x00 "TLBIALLNSNH,Invalidate entire Non-secure Non-Hyp unified TLB"
group.long c15:0x402A++0x00
line.long 0x00 "HMAIR0,Hyp Memory Attribute Indirection Register 0"
hexmask.long.byte 0x00 24.--31. 1. " ATTR3   ,Attribute 3"
hexmask.long.byte 0x00 16.--23. 1. "        ATTR2 ,Attribute 2"
hexmask.long.byte 0x00 8.--15. 1. "    ATTR1 ,Attribute 1"
textline "                        "
hexmask.long.byte 0x00 0.--7. 1. " ATTR0   ,Attribute 0"
group.long c15:0x412A++0x00
line.long 0x00 "HMAIR1,Hyp Memory Attribute Indirection Register 1"
hexmask.long.byte 0x00 24.--31. 1. " ATTR7   ,Attribute 7"
hexmask.long.byte 0x00 16.--23. 1. "        ATTR6 ,Attribute 6"
hexmask.long.byte 0x00 8.--15. 1. "    ATTR5 ,Attribute 5"
textline "                        "
hexmask.long.byte 0x00 0.--7. 1. " ATTR4   ,Attribute 4"
if (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE")
group.long c15:0x403A++0x00
line.long 0x00 "HAMAIR0,Hyp Auxiliary Memory Attribute Indirection Register 0"
hexmask.long.byte 0x00 24.--31. 1. " ATTR3   ,Attribute 3"
hexmask.long.byte 0x00 16.--23. 1. "        ATTR2 ,Attribute 2"
hexmask.long.byte 0x00 8.--15. 1. "    ATTR1 ,Attribute 1"
textline "                        "
hexmask.long.byte 0x00 0.--7. 1. " ATTR0   ,Attribute 0"
group.long c15:0x413A++0x00
line.long 0x00 "HAMAIR1,Hyp Auxiliary Memory Attribute Indirection Register 1"
hexmask.long.byte 0x00 24.--31. 1. " ATTR7   ,Attribute 7"
hexmask.long.byte 0x00 16.--23. 1. "        ATTR6 ,Attribute 6"
hexmask.long.byte 0x00 8.--15. 1. "    ATTR5 ,Attribute 5"
textline "                        "
hexmask.long.byte 0x00 0.--7. 1. " ATTR4   ,Attribute 4"
else
hgroup.long c15:0x403A++0x00
hide.long 0x00 "HAMAIR0,Hyp Auxiliary Memory Attribute Indirection Register 0"
hgroup.long c15:0x413A++0x00
hide.long 0x00 "HAMAIR1,Hyp Auxiliary Memory Attribute Indirection Register 1"
endif
group.long c15:0x400C++0x00
line.long 0x00 "HVBAR,Hyp Vector Base Address Register"
hexmask.long 0x00 5.--31. 0x20 " HVBADDR ,Hyp Vector Base Address"
tree.end
width 12.
tree "Cache Control and Configuration"
if (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE")
rgroup.long c15:0x1100++0x0
line.long 0x0 "CLIDR,Cache Level ID Register"
bitfld.long 0x00 27.--29. " LOUU   ,Level of Unification Uniprocessor" "Reserved,Level 2,?..."
bitfld.long 0x00 24.--26. "         LOC     ,Level of Coherency" "Reserved,Reserved,Level 3,?..."
bitfld.long 0x00 21.--23. "        LOUIS  ,Level of Unification Inner Shareable" "Reserved,Level 2,?..."
bitfld.long 0x00 18.--20. "   CTYPE7  ,Cache type for levels 7" "No cache,?..."
textline "                     "
bitfld.long 0x00 15.--17. " CTYPE6 ,Cache type for levels 6" "No cache,?..."
bitfld.long 0x00 12.--14. "         CTYPE5  ,Cache type for levels 5" "No cache,?..."
bitfld.long 0x00 9.--11. "        CTYPE4 ,Cache type for levels 4" "No cache,?..."
bitfld.long 0x00 6.--8. "   CTYPE3  ,Cache type for levels 3" "No cache,?..."
textline "                     "
bitfld.long 0x00 3.--5. " CTYPE2 ,Cache type for levels 2" "Reserved,Reserved,Reserved,Reserved,Unified,?..."
bitfld.long 0x00 0.--2. "         CTYPE1  ,Cache type for levels 1" "Reserved,Reserved,Reserved,Separate I/D,?..."
elif (corename()=="CORTEXA7"||corename()=="CORTEXA7MPCORE"||corename()=="CORTEXA17"||corename()=="CORTEXA17MPCORE")
rgroup.long c15:0x1100++0x0
line.long 0x0 "CLIDR,Cache Level ID Register"
bitfld.long 0x00 27.--29. " LOUU   ,Level of Unification Uniprocessor" "Reserved,Level 2,?..."
bitfld.long 0x00 24.--26. "         LOC     ,Level of Coherency" "Reserved,Reserved,Level 3,?..."
bitfld.long 0x00 21.--23. "        LOUIS ,Level of Unification Inner Shareable" "Reserved,Level 2,?..."
textline "                     "
bitfld.long 0x00 3.--5. " CTYPE2 ,Cache type for levels 2" "Not implemented,Reserved,Reserved,Reserved,Unified,?..."
bitfld.long 0x00 0.--2. "  CTYPE1  ,Cache type for levels 1" "Reserved,Reserved,Reserved,Separate I/D,?..."
endif
if (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE")
rgroup.long c15:0x1000++0x0
line.long 0x0 "CCSIDR,Current Cache Size ID Register"
bitfld.long 0x00 31. " WT     ,Write-Through" "Not Supported,Supported"
bitfld.long 0x00 30. "    WB      ,Write-Back" "Not Supported,Supported"
bitfld.long 0x00 29. "   RA    ,Read-Allocate" "Not Supported,Supported"
textline "                     "
bitfld.long 0x00 28. " WA     ,Write-Allocate" "Not Supported,Supported"
hexmask.long.word 0x00 13.--27. 1. "    SETS    ,Number of Sets"
hexmask.long.word 0x00 3.--12. 1. "            ASSOC ,Associativity"
textline "                     "
bitfld.long 0x00 0.--2. " LSIZE  ,Line Size" "Reserved,Reserved,16 words,?..."
elif (corename()=="CORTEXA7"||corename()=="CORTEXA7MPCORE"||corename()=="CORTEXA17"||corename()=="CORTEXA17MPCORE")
rgroup.long c15:0x1000++0x0
line.long 0x0 "CCSIDR,Current Cache Size ID Register"
bitfld.long 0x00 31. " WT     ,Write-Through" "Not Supported,Supported"
bitfld.long 0x00 30. "    WB      ,Write-Back" "Not Supported,Supported"
bitfld.long 0x00 29. "   RA    ,Read-Allocate" "Not Supported,Supported"
textline "                     "
bitfld.long 0x00 28. " WA     ,Write-Allocate" "Not Supported,Supported"
hexmask.long.word 0x00 13.--27. 1. "    NUMSETS ,Number of Sets"
hexmask.long.word 0x00 3.--12. 1. "            ASSOC ,Associativity"
textline "                     "
bitfld.long 0x00 0.--2. " LSIZE  ,Line Size" "Reserved,8 words,16 words,?..."
endif
group.long c15:0x2000++0x0
line.long 0x0 "CSSELR,Cache Size Selection Register"
bitfld.long 0x00 1.--3. " LEVEL  ,Cache level of required cache" "Level 1,Level 2,?..."
bitfld.long 0x00 0. "          IND     ,Instruction/Not Data" "Data/Unified,Instruction"
if (corename()=="CORTEXA17"||corename()=="CORTEXA17MPCORE")
wgroup.long c15:0x10EF++0x00
line.long 0x00 "DCCIALL,Data Cache Clean and Invalidate All Register"
bitfld.long 0x00 1.--2. " LEVEL  ,Cache level" "L1,L2,Reserved,Reserved"
else
hgroup.long c15:0x10EF++0x00
hide.long 0x00 "DCCIALL,Data Cache Clean and Invalidate All Register"
endif
tree "Level 1 memory system"
width 10.
if (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE")
group.long c15:0x000F++0x00
line.long 0x00 "IL1DATA0,Instruction L1 Data 0 Register"
group.long c15:0x010F++0x00
line.long 0x00 "IL1DATA1,Instruction L1 Data 1 Register"
group.long c15:0x020F++0x00
line.long 0x00 "IL1DATA2,Instruction L1 Data 2 Register"
group.long c15:0x001F++0x00
line.long 0x00 "DL1DATA0,Data L1 Data 0 Register"
group.long c15:0x011F++0x00
line.long 0x00 "DL1DATA1,Data L1 Data 1 Register"
group.long c15:0x021F++0x00
line.long 0x00 "DL1DATA2,Data L1 Data 2 Register"
group.long c15:0x031F++0x00
line.long 0x00 "DL1DATA3,Data L1 Data 3 Register"
wgroup.long c15:0x004F++0x00
line.long 0x00 "RAMINDEX,RAM Index Register"
hexmask.long.byte 0x00 24.--31. 1. "         RAMID ,RAM identifier"
bitfld.long 0x00 18.--21. " B/W ,Bank/Way" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.tbyte 0x00 0.--17. 1. " IND ,Index"
textline "                           "
group.quad c15:0x100F0++0x01
line.quad 0x00 "CPUMERRSR,CPU Memory Error Syndrome Register"
bitfld.quad 0x00 63. " FATAL ,Fatal bit" "0,1"
hexmask.quad.byte 0x00 40.--47. 1. "  OEC ,Other error count"
hexmask.quad.byte 0x00 32.--39. 1. " REC ,Repeat error count"
bitfld.quad 0x00 31. "    VALID ,Valid bit" "Not valid,Valid"
textline "                           "
hexmask.quad.byte 0x00 24.--30. 1. " RAMID ,RAM Identifier"
bitfld.quad 0x00 18.--22. " B/W ,Bank/Way" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.quad.tbyte 0x00 0.--17. 1. " IND ,Index"
elif (corename()=="CORTEXA7"||corename()=="CORTEXA7MPCORE")
rgroup.long c15:0x300F++0x0
line.long 0x00 "CDBGDR0,Data Register 0"
rgroup.long c15:0x310F++0x0
line.long 0x00 "CDBGDR1,Data Register 1"
rgroup.long c15:0x320F++0x0
line.long 0x00 "CDBGDR2,Data Register 2"
wgroup.long c15:0x302F++0x0
line.long 0x00 "CDBGDCT,Data Cache Tag Read Operation Register"
bitfld.long 0x00 30.--31. " CW ,Cache Way" "0,1,2,3"
hexmask.long.tbyte 0x00 6.--29. 1. "    SI ,Set index"
bitfld.long 0x00 3.--5. "   CWDO ,Cache word data offset" "0,1,2,3,4,5,6,7"
wgroup.long c15:0x312F++0x0
line.long 0x00 "CDBGICT,Instruction Cache Tag Read Operation Register"
bitfld.long 0x00 31. " CW ,Cache Way" "Low,High"
hexmask.long 0x00 5.--30. 1. " SI ,Set index"
bitfld.long 0x00 2.--4. " CDEO ,Cache data element offset" "0,1,2,3,4,5,6,7"
wgroup.long c15:0x304F++0x0
line.long 0x00 "CDBGDCD,Data Cache Data Read Operation Register"
bitfld.long 0x00 30.--31. " CW ,Cache Way" "0,1,2,3"
hexmask.long.tbyte 0x00 6.--29. 1. "    SI ,Set index"
bitfld.long 0x00 3.--5. "   CWDO ,Cache word data offset" "0,1,2,3,4,5,6,7"
wgroup.long c15:0x314F++0x0
line.long 0x00 "CDBGICD,Instruction Cache Data Read Operation Register"
bitfld.long 0x00 31. " CW ,Cache Way" "Low,High"
hexmask.long 0x00 5.--30. 1. " SI ,Set index"
bitfld.long 0x00 2.--4. " CDEO ,Cache data element offset" "0,1,2,3,4,5,6,7"
wgroup.long c15:0x324F++0x0
line.long 0x00 "CDBGTD,TLB Data Read Operation Register"
bitfld.long 0x00 31. " TLB_WAY ,TLB Way" "Low,High"
hexmask.long.byte 0x00 0.--7. 1. " TLB_IND ,TLB index"
elif (corename()=="CORTEXA17"||corename()=="CORTEXA17MPCORE")
rgroup.long c15:0x300F++0x0
line.long 0x00 "CDBGDR0,Data Register 0"
bitfld.long 0x00 31. " PMOESID ,Partial MOESI state / Dirty" "Low,High"
bitfld.long 0x00 30. "  POMA ,Partial Outer memory attribute" "Low,High"
bitfld.long 0x00 29. " PMOESIE ,Partial MOESI state / Exclusive" "Low,High"
textline "                   "
bitfld.long 0x00 28. " PMOESIV ,Partial MOESI state / Valid" "Low,High"
bitfld.long 0x00 27. "  NS   ,Non-Secure state" "Low,High"
hexmask.long 0x00 0.--26. 1. " TA      ,Tag Address"
rgroup.long c15:0x310F++0x0
line.long 0x00 "CDBGDR1,Data Register 1"
bitfld.long 0x00 0. " PMOESID ,Partial MOESI state / Globally shared" "Low,High"
rgroup.long c15:0x320F++0x0
line.long 0x00 "CDBGDR2,Data Register 2"
wgroup.long c15:0x302F++0x0
line.long 0x00 "CDBGDCT,Data Cache Tag Read Operation Register"
bitfld.long 0x00 30.--31. " CW ,Cache Way" "0,1,2,3"
hexmask.long.byte 0x00 6.--12. 1. "   SI ,Set index"
wgroup.long c15:0x312F++0x0
line.long 0x00 "CDBGICT,Instruction Cache Tag Read Operation Register"
bitfld.long 0x00 30.--31. " CW ,Cache Way" "0,1,2,3"
hexmask.long 0x00 6.--30. 1. "   SI ,Set index"
wgroup.long c15:0x304F++0x0
line.long 0x00 "CDBGDCD,Data Cache Data Read Operation Register"
bitfld.long 0x00 30.--31. " CW ,Cache Way" "0,1,2,3"
hexmask.long.byte 0x00 6.--12. 1. "   SI ,Set index"
bitfld.long 0x00 3.--5. "  CDDO ,Cache doubleword data offset" "0,1,2,3,4,5,6,7"
if (((d.l(c15:0x1000))&0xFFFE000)==0x1DE000)
wgroup.long c15:0x314F++0x0
line.long 0x00 "CDBGICD,Instruction Cache Data Read Operation Register"
bitfld.long 0x00 30.--31. " CW ,Cache Way" "0,1,2,3"
hexmask.long.byte 0x00 6.--12. 1. "   SI ,Set index"
bitfld.long 0x00 3.--5. "  CDDO ,Cache doubleword data offset" "0,1,2,3,4,5,6,7"
elif (((d.l(c15:0x1000))&0xFFFE000)==0x1FE000&&((d.l(c15:0x2000))&0x3)==0x1)
wgroup.long c15:0x314F++0x0
line.long 0x00 "CDBGICD,Instruction Cache Data Read Operation Register"
bitfld.long 0x00 30.--31. " CW ,Cache Way" "0,1,2,3"
hexmask.long.byte 0x00 6.--13. 1. "   SI ,Set index"
bitfld.long 0x00 3.--5. "  CDDO ,Cache doubleword data offset" "0,1,2,3,4,5,6,7"
elif (((d.l(c15:0x1000))&0xFFFE000)==0x1FE000&&((d.l(c15:0x2000))&0x3)==0x2)
wgroup.long c15:0x314F++0x0
line.long 0x00 "CDBGICD,Instruction Cache Data Read Operation Register"
bitfld.long 0x00 30.--31. " CW ,Cache Way" "0,1,2,3"
hexmask.long.word 0x00 6.--15. 1. "   SI ,Set index"
bitfld.long 0x00 3.--5. "  CDDO ,Cache doubleword data offset" "0,1,2,3,4,5,6,7"
elif (((d.l(c15:0x1000))&0xFFFE000)==0x3FE000)
wgroup.long c15:0x314F++0x0
line.long 0x00 "CDBGICD,Instruction Cache Data Read Operation Register"
bitfld.long 0x00 30.--31. " CW ,Cache Way" "0,1,2,3"
hexmask.long.word 0x00 6.--16. 1. "   SI ,Set index"
bitfld.long 0x00 3.--5. "  CDDO ,Cache doubleword data offset" "0,1,2,3,4,5,6,7"
elif (((d.l(c15:0x1000))&0xFFFE000)==0x7FE000)
wgroup.long c15:0x314F++0x0
line.long 0x00 "CDBGICD,Instruction Cache Data Read Operation Register"
bitfld.long 0x00 30.--31. " CW ,Cache Way" "0,1,2,3"
hexmask.long.word 0x00 6.--17. 1. "   SI ,Set index"
bitfld.long 0x00 3.--5. "  CDDO ,Cache doubleword data offset" "0,1,2,3,4,5,6,7"
elif (((d.l(c15:0x1000))&0xFFFE000)==0xFFE000)
wgroup.long c15:0x314F++0x0
line.long 0x00 "CDBGICD,Instruction Cache Data Read Operation Register"
bitfld.long 0x00 30.--31. " CW ,Cache Way" "0,1,2,3"
hexmask.long.word 0x00 6.--18. 1. "   SI ,Set index"
bitfld.long 0x00 3.--5. "  CDDO ,Cache doubleword data offset" "0,1,2,3,4,5,6,7"
elif (((d.l(c15:0x1000))&0xFFFE000)==0x1FFE000)
wgroup.long c15:0x314F++0x0
line.long 0x00 "CDBGICD,Instruction Cache Data Read Operation Register"
bitfld.long 0x00 30.--31. " CW ,Cache Way" "0,1,2,3"
hexmask.long.word 0x00 6.--19. 1. "   SI ,Set index"
bitfld.long 0x00 3.--5. "  CDDO ,Cache doubleword data offset" "0,1,2,3,4,5,6,7"
elif (((d.l(c15:0x1000))&0xFFFE000)==0x3FFE000)
wgroup.long c15:0x314F++0x0
line.long 0x00 "CDBGICD,Instruction Cache Data Read Operation Register"
bitfld.long 0x00 30.--31. " CW            ,Cache Way" "0,1,2,3"
hexmask.long.word 0x00 6.--20. 1. "             SI          ,Set index"
bitfld.long 0x00 3.--5. "  CDDO ,Cache doubleword data offset" "0,1,2,3,4,5,6,7"
else
hgroup.long c15:0x314F++0x0
hide.long 0x00 "CDBGICD,Instruction Cache Data Read Operation Register"
endif
if (((d.l(c15:0x324F))&0x100)==0x100)
wgroup.long c15:0x324F++0x0
line.long 0x00 "CDBGTD,TLB Data Read Operation Register"
bitfld.long 0x00 8. " TYPE ,Type" "RAM0,RAM1"
else
wgroup.long c15:0x324F++0x0
line.long 0x00 "CDBGTD,TLB Data Read Operation Register"
bitfld.long 0x00 30.--31. " TLB_WAY ,TLB Way" "0,1,2,3"
bitfld.long 0x00 8. " TYPE ,Type" "RAM0,RAM1"
hexmask.long.byte 0x00 0.--7. 1. " TLB_IND ,TLB index"
endif
endif
tree.end
tree "Level 2 memory system"
width 11.
if (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE")
group.long c15:0x1209++0x0
line.long 0x00 "L2CTLR,L2 Control Register"
rbitfld.long 0x00 31. " L2RSTDISABLE  ,L2 hardware reset disable pin monitor" "No,Yes"
bitfld.long 0x00 24.--25. "        NCPU        , Number of CPU" "1,2,3,4"
bitfld.long 0x00 23. "               IE         ,Interrupt Controller" "Not present,Present"
textline "                    "
bitfld.long 0x00 21. " ECCPE         ,ECC and parity enable" "Disabled,Enabled"
bitfld.long 0x00 12. "   TRAMS       ,L2 Tag RAM setup" "0 cycle,1 cycle"
bitfld.long 0x00 10.--11. "         DRAMSLICE  ,Data RAM slice" "0,1,2,Invalid"
textline "                    "
bitfld.long 0x00 9. " TRAMS         ,L2 Tag RAM setup" "0 cycle,1 cycle"
bitfld.long 0x00 6.--8. "    TRAML       ,L2 Tag RAM latency" "2 cycles,2 cycles,3 cycles,4 cycles,5 cycles,5 cycles,5 cycles,5 cycles"
bitfld.long 0x00 5. "        DRAMS      ,L2 Data RAM setup" "0 cycle,1 cycle"
textline "                    "
bitfld.long 0x00 0.--2. " DRAML         ,L2 Data RAM latency" "2 cycles,2 cycles,3 cycles,4 cycles,5 cycles,6 cycles,7 cycles,8 cycles"
elif (corename()=="CORTEXA7"||corename()=="CORTEXA7MPCORE")
group.long c15:0x1209++0x0
line.long 0x00 "L2CTLR,L2 Control Register"
bitfld.long 0x00 24.--25. " NCPU ,Number of CPU" "1,2,3,4"
bitfld.long 0x00 23. " IE ,Interrupt Controller" "Not present,Present"
bitfld.long 0x00 0. " DRAML ,L2 data RAM latency" "2 cycles,3 cycles"
elif (corename()=="CORTEXA17"||corename()=="CORTEXA17MPCORE")
group.long c15:0x1209++0x0
line.long 0x00 "L2CTLR,L2 Control Register"
rbitfld.long 0x00 31. " L2RSTDISABLE  ,L2 hardware reset disable pin monitor" "No,Yes"
bitfld.long 0x00 27.--30. "      IWINC       ,Controls index incrementation method" "1.,1.,3.,7.,15.,31.,63.,127.,255.,511.,1023.,2047.,4095.,8191.,8191.,8191."
rbitfld.long 0x00 24.--25. "    NCPU       , Number of CPU" "1,2,3,4"
bitfld.long 0x00 20. "        SFEN    , Snoop Filter Enable" "Disabled,Enabled"
textline "                    "
bitfld.long 0x00 19. " L2ECCD        ,L2 ECC Disable" "No,Yes"
bitfld.long 0x00 18. "      L2CD        ,L2 cache disable" "No,Yes"
bitfld.long 0x00 15.--17. "      TRAMSL     ,Tag RAM setup latency" "1 cycle,2 cycles,3 cycles,4 cycles,5 cycles,6 cycles,7 cycles,8 cycles"
bitfld.long 0x00 12.--14. " TRAMRL  ,Tag RAM read latency" "1 cycle,2 cycles,3 cycles,4 cycles,5 cycles,6 cycles,7 cycles,8 cycles"
textline "                    "
bitfld.long 0x00 9.--11. " TRAMWL        ,Tag RAM write latency" "1 cycle,2 cycles,3 cycles,4 cycles,5 cycles,6 cycles,7 cycles,8 cycles"
bitfld.long 0x00 6.--8. " DRAMSL      ,Data RAM setup latency" "1 cycle,2 cycles,3 cycles,4 cycles,5 cycles,6 cycles,7 cycles,8 cycles"
bitfld.long 0x00 3.--5. " DRAMRL     ,Data RAM read latency" "1 cycle,2 cycles,3 cycles,4 cycles,5 cycles,6 cycles,7 cycles,8 cycles"
bitfld.long 0x00 0.--2. " DRAMWL  ,Data RAM write latency" "1 cycle,2 cycles,3 cycles,4 cycles,5 cycles,6 cycles,7 cycles,8 cycles"
endif
if (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE")
group.long c15:0x1309++0x0
line.long 0x00 "L2ECTLR,L2 Extended Control Register"
bitfld.long 0x00 30. " L2INTASYNCERR ,L2 internal asynchronous error" "No error,Error"
bitfld.long 0x00 29. "   AXIASYNCERR ,AXI asynchronous error" "No error,Error"
group.long c15:0x100F++0x00
line.long 0x00 "L2ACTLR,L2 Auxiliary Control Register"
bitfld.long 0x00 28. " FL2TBCEA      ,Forces L2 tag bank clock enable active" "Not forced,Forced"
bitfld.long 0x00 27. " FL2LCEA     ,Forces L2 logic clock enable active" "Not forced,Forced"
bitfld.long 0x00 26. "      EL2GTRCG   ,Enables L2 GIC and Timer regional clock gates" "Disabled,Enabled"
textline "                    "
bitfld.long 0x00 16. " ERTSI         ,Enables replay threshold single issue" "Disabled,Enabled"
bitfld.long 0x00 15. "   ECWRM       ,Enable CPU WFI retention mode" "Disabled,Enabled"
bitfld.long 0x00 14. "        EUCE       ,Enables UniqueClean evictions with data" "Disabled,Enabled"
textline "                    "
bitfld.long 0x00 13. " DSCDT         ,Disables SharedClean data transfers" "No,Yes"
bitfld.long 0x00 12. "        DWCWBE      ,Disable multiple outstanding WriteClean/WriteBack/Evicts using the same AWID" "No,Yes"
bitfld.long 0x00 11. "             DDSB       ,Disables DSB with no DVM synchronization" "No,Yes"
textline "                    "
bitfld.long 0x00 10. " DNSDAR        ,Disables non-secure debug array read" "No,Yes"
bitfld.long 0x00 9. "        EPF         ,Enable use of Prefetch bit in L2 cache replacement algorithm" "Disabled,Enabled"
bitfld.long 0x00 8. "        DDVMCMOMB  ,Disables Distributed Virtual Memory (DVM) transactions and cache maintenance operation message broadcast" "No,Yes"
textline "                    "
bitfld.long 0x00 7. " EHDT          ,Enables hazard detect timeout" "Disabled,Enabled"
bitfld.long 0x00 6. "   DSTFM       ,Disables shared transactions from master" "No,Yes"
bitfld.long 0x00 4. "             DWUAWLUTFM ,Disables WriteUnique and WriteLineUnique transactions from master" "No,Yes"
textline "                    "
bitfld.long 0x00 3. " DCEPTE        ,Disables clean/evict push to external" "No,Yes"
bitfld.long 0x00 2. "        LTORPTB     ,Limit to one request per tag bank" "Disabled,Enabled"
bitfld.long 0x00 1. "        EARTT      ,Enable arbitration replay threshold timeout" "Disabled,Enabled"
textline "                    "
bitfld.long 0x00 0. " DPF           ,Disable prefetch forwarding" "No,Yes"
group.long c15:0x130F++0x00
line.long 0x00 "L2PFR,L2 Prefetch Control Register"
bitfld.long 0x00 12. " DDTOLSPR      ,Disable dynamic throttling of load/store prefetch requests" "No,Yes"
bitfld.long 0x00 11. "        EPRFRUT     ,Enable prefetch request from ReadUnique transactions" "Disabled,Enabled"
bitfld.long 0x00 10. "        DTWDAP     ,Disable table walk descriptor access prefetch" "No,Yes"
textline "                    "
bitfld.long 0x00 7.--8. " L2IFPD        ,L2 instruction fetch prefetch distance" "0 lines,1 line,2 lines,3 lines"
bitfld.long 0x00 4.--5. "    L2LSDPD     ,L2 load/store data prefetch distance" "0 lines,2 lines,4 lines,8 lines"
textline "                            "
group.quad c15:0x110F0++0x01
line.quad 0x00 "L2MERRSR,L2 Memory Error Syndrome Register"
bitfld.quad 0x00 63. " FATAL ,Fatal bit" "0,1"
hexmask.quad.byte 0x00 40.--47. 1. "  OEC ,Other error count"
hexmask.quad.byte 0x00 32.--39. 1. "             REC ,Repeat error count"
bitfld.quad 0x00 31. "     VALID ,Valid bit" "Not valid,Valid"
textline "                    "
hexmask.quad.byte 0x00 24.--30. 1. "         RAMID ,RAM Identifier"
bitfld.quad 0x00 18.--21. " C/W ,CPUID/Way" "CPU0 tag way 0,CPU0 tag way 1,CPU1 tag way 0,CPU1 tag way 1,CPU2 tag way 0,CPU2 tag way 1,CPU3 tag way 0,CPU3 tag way 1,?..."
hexmask.quad.tbyte 0x00 0.--17. 1. " IND ,Index"
elif (corename()=="CORTEXA7"||corename()=="CORTEXA7MPCORE")
group.long c15:0x1309++0x0
line.long 0x00 "L2ECTLR,L2 Extended Control Register"
bitfld.long 0x00 29. " AXIASYNCERR ,AXI asynchronous error" "No error,Error"
hgroup.quad c15:0x110F0++0x01
hide.quad 0x00 "L2MERRSR,L2 Memory Error Syndrome Register"
elif (corename()=="CORTEXA17"||corename()=="CORTEXA17MPCORE")
group.long c15:0x1309++0x0
line.long 0x00 "L2ECTLR,L2 Extended Control Register"
bitfld.long 0x00 30. " ECCUNERR      ,ECC uncorrectable error " "No error,Error"
bitfld.long 0x00 29. " AXIASYNCERR ,AXI asynchronous error" "No error,Error"
bitfld.long 0x00 0. " L2DRC      ,Disable L2 retention" "No,Yes"
rgroup.long c15:0x1609++0x00
line.long 0x00 "L2MRERRSR,L2 Memory Error Syndrome Register"
bitfld.long 0x00 31. " FATAL         ,Fatal bit" "0,1"
bitfld.long 0x00 25.--30. "        OEC         ,Other error count" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 19.--24. "       REC        ,Repeat error count" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.word 0x00 6.--18. 1. "       ERRLIND ,Index Error Location"
textline "                    "
bitfld.long 0x00 2.--5. " ERRLWAY       ,Way Error Location"	"0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 1. "       RAMID       ,RAM Identifier" "TAG,DATA"
bitfld.long 0x00 0. "     VALID      ,Valid bit" "Not valid,Valid"
endif
tree.end
tree.end
width 12.
tree "System Performance Monitor"
group.long c15:0xc9++0x00
line.long 0x0 "PMCR,Performance Monitor Control Register"
hexmask.long.byte 0x00 24.--31. 1. " IMP ,Implementer code"
hexmask.long.byte 0x00 16.--23. 1. "              IDCODE   ,Identification code"
bitfld.long 0x00 11.--15. "           N   ,Number of counters implemented" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                     "
bitfld.long 0x00 5. " DP  ,Disable CCNT when prohibited" "No,Yes"
bitfld.long 0x00 4. "             X        ,Export Enable" "Disabled,Enabled"
bitfld.long 0x00 3. "     D   ,Clock Divider" "Every cycle,64th cycle"
textline "                     "
bitfld.long 0x00 2. " C   ,Clock Counter Reset" "No reset,Reset"
bitfld.long 0x00 1. "        P        ,Performance Counter Reset" "No reset,Reset"
bitfld.long 0x00 0. "     E   ,All Counters Enable" "Disabled,Enabled"
group.long c15:0x1c9++0x00
line.long 0x00 "PMNCNTENSET,Count Enable Set Register "
bitfld.long 0x00 5. " P5  ,Event Counter 5 enable bit" "Disabled,Enabled"
bitfld.long 0x00 4. "        P4       ,Event Counter 4 enable bit" "Disabled,Enabled"
bitfld.long 0x00 3. "     P3  ,Event Counter 3 enable bit" "Disabled,Enabled"
textline "                     "
bitfld.long 0x00 2. " P2  ,Event Counter 2 enable bit" "Disabled,Enabled"
bitfld.long 0x00 1. "        P1       ,Event Counter 1 enable bit" "Disabled,Enabled"
bitfld.long 0x00 0. "     P0  ,Event Counter 0 enable bit" "Disabled,Enabled"
group.long c15:0x2c9++0x00
line.long 0x00 "PMCNTENCLR,Count Enable Clear Register"
eventfld.long 0x00 5. " P5  ,Event Counter 5 clear bit" "Disabled,Enabled"
eventfld.long 0x00 4. "        P4       ,Event Counter 4 clear bit" "Disabled,Enabled"
eventfld.long 0x00 3. "     P3  ,Event Counter 3 clear bit" "Disabled,Enabled"
textline "                     "
eventfld.long 0x00 2. " P2  ,Event Counter 2 clear bit" "Disabled,Enabled"
eventfld.long 0x00 1. "        P1       ,Event Counter 1 clear bit" "Disabled,Enabled"
eventfld.long 0x00 0. "     P0  ,Event Counter 0 clear bit" "Disabled,Enabled"
group.long c15:0x3c9++0x00
line.long 0x00 "PMOVSR,Performance Monitor Overflow Status Register"
eventfld.long 0x00 5. " P5  ,PMN5 overflow" "No overflow,Overflow"
eventfld.long 0x00 4. "     P4       ,PMN4 overflow" "No overflow,Overflow"
eventfld.long 0x00 3. "  P3  ,PMN3 overflow" "No overflow,Overflow"
textline "                     "
eventfld.long 0x00 2. " P2  ,PMN2 overflow" "No overflow,Overflow"
eventfld.long 0x00 1. "     P1       ,PMN1 overflow" "No overflow,Overflow"
eventfld.long 0x00 0. "  P0  ,PMN0 overflow" "No overflow,Overflow"
group.long c15:0x4c9++0x00
line.long 0x00 "PMSWINC,Performance Monitor Software Increment"
bitfld.long 0x00 5. " P5  ,Increment  PMN5" "No action,Increment"
bitfld.long 0x00 4. "       P4       ,Increment  PMN4" "No action,Increment"
bitfld.long 0x00 3. "    P3  ,Increment  PMN3" "No action,Increment"
textline "                     "
bitfld.long 0x00 2. " P2  ,Increment  PMN2" "No action,Increment"
bitfld.long 0x00 1. "       P1       ,Increment  PMN1" "No action,Increment"
bitfld.long 0x00 0. "    P0  ,Increment  PMN0" "No action,Increment"
group.long c15:0x5c9++0x00
line.long 0x00 "PMSELR,Performance Monitor Select Register"
bitfld.long 0x00 0.--4. " SEL ,Current event counter select" "0,1,2,3,4,5,?..."
group.long c15:0xd9++0x00
line.long 0x00 "PMCCNTR,Performance Monitor Cycle Count Register"
group.long c15:0x1d9++0x00
line.long 0x00 "PMXEVTYPER,Performance Monitor Event Type Register"
bitfld.long 0x00 31. " P   ,Execution at PL1 events counting disable" "No,Yes"
bitfld.long 0x00 30. "             U        ,Execution at PL0 events counting disable" "No,Yes"
bitfld.long 0x00 29. "          NSK ,Execution in Non-secure state at PL1 events counting disable" "No,Yes"
bitfld.long 0x00 28. "          NSU ,Execution in Non-secure state at PL0 events counting disable" "No,Yes"
textline "                     "
bitfld.long 0x00 27. " NSH ,Execution in Non-secure state at PL2 events counting enable" "Disabled,Enabled"
hexmask.long.byte 0x00 0.--7. 1. "        EVTCOUNT ,Event to count"
group.long c15:0x2d9++0x00
line.long 0x00 "PMXEVCNTR,Performance Monitor Event Count Register"
group.long c15:0xe9++0x00
line.long 0x00 "PMUSERENR,Performance Monitor User Enable Register"
bitfld.long 0x00 0. " EN  ,User mode access enable" "Disabled,Enabled"
group.long c15:0x1e9++0x00
line.long 0x00 "PMINTENSET,Performance Monitor Interrupt Enable Set"
bitfld.long 0x00 5. " P5  ,PMCNT5 Overflow Interrupt Enable" "Disabled,Enabled"
bitfld.long 0x00 4. "        P4       ,PMCNT4 Overflow Interrupt Enable" "Disabled,Enabled"
bitfld.long 0x00 3. "     P3  ,PMCNT3 Overflow Interrupt Enable" "Disabled,Enabled"
textline "                     "
bitfld.long 0x00 2. " P2  ,PMCNT2 Overflow Interrupt Enable" "Disabled,Enabled"
bitfld.long 0x00 1. "        P1       ,PMCNT1 Overflow Interrupt Enable" "Disabled,Enabled"
bitfld.long 0x00 0. "     P0  ,PMCNT0 Overflow Interrupt Enable" "Disabled,Enabled"
group.long c15:0x2e9++0x00
line.long 0x00 "PMINTENCLR,Performance Monitor Interrupt Enable Clear"
eventfld.long 0x00 5. " P5  ,Overflow Interrupt Clear" "Disabled,Enabled"
textline "                     "
eventfld.long 0x00 4. " P4  ,Overflow Interrupt Clear" "Disabled,Enabled"
eventfld.long 0x00 3. "        P3       ,Overflow Interrupt Clear" "Disabled,Enabled"
eventfld.long 0x00 2. "     P2  ,Overflow Interrupt Clear" "Disabled,Enabled"
textline "                     "
eventfld.long 0x00 1. " P1  ,Overflow Interrupt Clear" "Disabled,Enabled"
eventfld.long 0x00 0. "        P0       ,Overflow Interrupt Clear" "Disabled,Enabled"
group.long c15:0x3e9++0x00
line.long 0x00 "PMOVSSET,Performance Monitor Overflow Flag Status Set Register"
bitfld.long 0x00 31. " C   ,PMCCNTR overflow bit" "Not overflowed,Overflowed"
bitfld.long 0x00 30. "  P30      ,Event Counter Overflow" "Disabled,Enabled"
bitfld.long 0x00 29. "     P29 ,Event Counter Overflow" "Disabled,Enabled"
bitfld.long 0x00 28. "     P28 ,Event Counter Overflow" "Disabled,Enabled"
textline "                     "
bitfld.long 0x00 27. " P27 ,Event Counter Overflow" "Disabled,Enabled"
bitfld.long 0x00 26. "        P26      ,Event Counter Overflow" "Disabled,Enabled"
bitfld.long 0x00 25. "     P25 ,Event Counter Overflow" "Disabled,Enabled"
bitfld.long 0x00 24. "     P24 ,Event Counter Overflow" "Disabled,Enabled"
textline "                     "
bitfld.long 0x00 23. " P23 ,Event Counter Overflow" "Disabled,Enabled"
bitfld.long 0x00 22. "        P22      ,Event Counter Overflow" "Disabled,Enabled"
bitfld.long 0x00 21. "     P21 ,Event Counter Overflow" "Disabled,Enabled"
bitfld.long 0x00 20. "     P20 ,Event Counter Overflow" "Disabled,Enabled"
textline "                     "
bitfld.long 0x00 19. " P19 ,Event Counter Overflow" "Disabled,Enabled"
bitfld.long 0x00 18. "        P18      ,Event Counter Overflow" "Disabled,Enabled"
bitfld.long 0x00 17. "     P17 ,Event Counter Overflow" "Disabled,Enabled"
bitfld.long 0x00 16. "     P16 ,Event Counter Overflow" "Disabled,Enabled"
textline "                     "
bitfld.long 0x00 15. " P15 ,Event Counter Overflow" "Disabled,Enabled"
bitfld.long 0x00 14. "        P14      ,Event Counter Overflow" "Disabled,Enabled"
bitfld.long 0x00 13. "     P13 ,Event Counter Overflow" "Disabled,Enabled"
bitfld.long 0x00 12. "     P12 ,Event Counter Overflow" "Disabled,Enabled"
textline "                     "
bitfld.long 0x00 11. " P11 ,Event Counter Overflow" "Disabled,Enabled"
bitfld.long 0x00 10. "        P10      ,Event Counter Overflow" "Disabled,Enabled"
bitfld.long 0x00 9. "     P9  ,Event Counter Overflow" "Disabled,Enabled"
bitfld.long 0x00 8. "     P8  ,Event Counter Overflow" "Disabled,Enabled"
textline "                     "
bitfld.long 0x00 7. " P7  ,Event Counter Overflow" "Disabled,Enabled"
bitfld.long 0x00 6. "        P6       ,Event Counter Overflow" "Disabled,Enabled"
bitfld.long 0x00 5. "     P5  ,Event Counter Overflow" "Disabled,Enabled"
bitfld.long 0x00 4. "     P4  ,Event Counter Overflow" "Disabled,Enabled"
textline "                     "
bitfld.long 0x00 3. " P3  ,Event Counter Overflow" "Disabled,Enabled"
bitfld.long 0x00 2. "        P2       ,Event Counter Overflow" "Disabled,Enabled"
bitfld.long 0x00 1. "     P1  ,Event Counter Overflow" "Disabled,Enabled"
bitfld.long 0x00 0. "     P0  ,Event Counter Overflow" "Disabled,Enabled"
tree.end
width 12.
tree "System Timer Register"
group.long c15:0x000E++0x00
line.long 0x00 "CNTFRQ,Counter Frequency Register"
group.long c15:0x001E++0x00
line.long 0x00 "CNTKCTL,Timer PL1 Control Register"
bitfld.long 0x00 9. "         PL0PTEN  ,Controls whether the physical timer registers are accessible from PL0 modes" "Not accessible,Accessible"
bitfld.long 0x00 8. "  PL0VTEN  ,Controls whether the virtual timer registers are accessible from PL0 modes" "Not accessible,Accessible"
bitfld.long 0x00 4.--7. "  EVNTI    ,Selects which bit of CNTVCT is the trigger for the event stream generated from the virtual counter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 3. " EVNTDIR  ,Controls which transition of the CNTVCT trigger bit" "0 to 1,1 to 0"
bitfld.long 0x00 2. "          EVNTEN   ,Enables the generation of an event stream from the virtual counter" "Disabled,Enabled"
bitfld.long 0x00 1. "        PL0VCTEN ,Controls whether the virtual counter, CNTVCT, and the frequency register CNTFRQ, are accessible from PL0 modes" "Not accessible,Accessible"
textline "                             "
bitfld.long 0x00 0. " PL0PCTEN ,Controls whether the physical counter, CNTPCT, and the frequency register CNTFRQ, are accessible from PL0 modes" "Not accessible,Accessible"
textline ""
group.quad c15:0x100E0++0x01
line.quad 0x00 "CNTPCT,Counter Physical Count Register"
group.quad c15:0x120E0++0x01
line.quad 0x00 "CNTP_CVAL,Counter PL1 Physical Compare Value Register"
group.long c15:0x002E++0x00
line.long 0x00 "CNTP_TVAL,Counter PL1 Physical Timer Value Register"
group.long c15:0x012E++0x00
line.long 0x00 "CNTP_CTL,Counter PL1 Physical Timer Control Register"
bitfld.long 0x00 2. "         ISTATUS  ,The status of the timer interrupt" "No interrupt,Interrupt"
bitfld.long 0x00 1. "    IMASK    ,Timer interrupt mask bit" "Not masked,Masked"
bitfld.long 0x00 0. "      ENABLE   ,Enables the timer" "Disabled,Enabled"
textline ""
group.quad c15:0x110E0++0x01
line.quad 0x00 "CNTVCT,Counter Virtual Count Register"
group.quad c15:0x130E0++0x01
line.quad 0x00 "CNTV_CVAL,Counter PL1 Virtual Compare Value Register"
group.long c15:0x003E++0x00
line.long 0x00 "CNTV_TVAL,Counter PL1 Virtual Timer Value Register"
group.long c15:0x013E++0x00
line.long 0x00 "CNTV_CTL,Counter PL1 Virtual Timer Control Register"
bitfld.long 0x00 2. "         ISTATUS  ,The status of the timer interrupt" "No interrupt,Interrupt"
bitfld.long 0x00 1. "    IMASK    ,Timer interrupt mask bit" "Not masked,Masked"
bitfld.long 0x00 0. "      ENABLE   ,Enables the timer" "Disabled,Enabled"
group.quad c15:0x140E0++0x01
line.quad 0x00 "CNTVOFF,Counter Virtual Offset Register"
textline ""
group.long c15:0x401E++0x00
line.long 0x00 "CNTHCTL,Counter Non-secure PL2 Control Register"
bitfld.long 0x00 4.--7. "         EVNTI    ,Selects which bit of CNTPCTis the trigger for the event stream generated from the physical counter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 3. "              EVNTDIR  ,Controls which transition of the CNTVCT trigger bit" "0 to 1,1 to 0"
bitfld.long 0x00 2. "          EVNTEN   ,Enables the generation of an event stream from the virtual counter" "Disabled,Enabled"
textline "                             "
bitfld.long 0x00 1. " PL1VCTEN ,Controls whether the virtual counter, CNTVCT, and the frequency register CNTFRQ, are accessible from PL0 modes" "Not accessible,Accessible"
bitfld.long 0x00 0. "  PL1PCTEN ,Controls whether the physical counter, CNTPCT, and the frequency register CNTFRQ, are accessible from PL0 modes" "Not accessible,Accessible"
group.quad c15:0x160E0++0x01
line.quad 0x00 "CNTHP_CVAL,Counter Non-secure PL2 Physical Compare Value Register"
group.long c15:0x402E++0x00
line.long 0x00 "CNTHP_TVAL,Counter Non-secure PL2 Physical Timer Value Register"
group.long c15:0x412E++0x00
line.long 0x00 "CNTHP_CTL,Counter Non-secure PL2 Physical Timer Control Register"
bitfld.long 0x00 2. "         ISTATUS  ,The status of the timer interrupt" "No interrupt,Interrupt"
bitfld.long 0x00 1. "    IMASK    ,Timer interrupt mask bit" "Not masked,Masked"
bitfld.long 0x00 0. "      ENABLE   ,Enables the timer" "Disabled,Enabled"
tree.end
width 11.
width 15.
tree "Debug Registers"
rgroup.long c14:0.++0x0
line.long 0x0 "DBGDIDR,Debug ID Register"
bitfld.long 0x0 28.--31. " WRP      ,Number of Watchpoint Register Pairs" "1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16"
bitfld.long 0x0 24.--27. "               BRP   ,Number of Breakpoint Register Pairs" "1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16"
bitfld.long 0x0 20.--23. "               CTX_CMP ,Number of BRPs with Context ID Comparison Capability" "1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16"
textline "                        "
hexmask.long.byte 0x0 16.--19. 1. " VERSION  ,Debug Architecture Version"
bitfld.long 0x0 15. "               DEVID ,Debug Device ID" "Low,High"
bitfld.long 0x0 14. "             NSUHD   ,Secure User halting debug-mode" "Supported,Not supported"
textline "                        "
bitfld.long 0x0 13. " PCSR     ,PC Sample register implemented" "Not implemented,Implemented"
bitfld.long 0x0 12. "  SE    ,Security Extensions implemented" "Not implemented,Implemented"
hexmask.long.byte 0x0 4.--7. 1. "  VARIANT ,Implementation-defined Variant Number"
textline "                        "
hexmask.long.byte 0x0 0.--3. 1. " REVISION ,Implementation-defined Revision Number"
textline "                        "
if (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE")
wgroup.long c14:6.++0x0
line.long 0x00 "DBGWFAR,Watchpoint Fault Address Register"
elif (corename()=="CORTEXA7"||corename()=="CORTEXA7MPCORE")
rgroup.long c14:1.++0x0
line.long 0x00 "DBGDSCR,Debug Status and Control Register (Internal View)"
bitfld.long 0x00 30. " RXFULL     ,DBGDTRRX Register full" "Empty,Full"
bitfld.long 0x00 29. "                   TXFULL     ,DBGDTRTX Register full" "Empty,Full"
bitfld.long 0x00 27. "       RXFULL_L     ,Latched RXFULL bit" "Not latched,Latched"
textline "                        "
bitfld.long 0x00 26. " TXFULL_L   ,Latched TXFULL bit" "Not latched,Latched"
bitfld.long 0x00 25. "             PIPEADV    ,PIPEADV Processor Idle flag" "Not idle,Idle"
bitfld.long 0x00 24. "    INSTRCOMPL_L ,Latched instruction complete" "Not completed,Completed"
textline "                        "
bitfld.long 0x00 20.--21. " EXTDCCMODE ,External DCC access mode field" "Non-blocking,Stall,Fast,?..."
bitfld.long 0x00 19. "            ADADISCARD ,Asynchronous Data Aborts Discarded bit" "Normal,Abort"
bitfld.long 0x00 18. "      NS           ,Non-secure status bit" "Secure,Non-secure"
textline "                        "
bitfld.long 0x00 17. " SPNIDDIS   ,Secure Privileged Non-Invasive Debug Disable" "No,Yes"
bitfld.long 0x00 16. "                     SPIDDIS    ,Secure Privileged Invasive Debug Disable" "No,Yes"
bitfld.long 0x00 15. "         MDBGEN       ,Monitor debug-mode enable" "Disabled,Enabled"
textline "                        "
bitfld.long 0x00 14. " HDBGEN     ,Halting debug-mode" "Disabled,Enabled"
bitfld.long 0x00 13. "                ITREN      ,Execute ARM instruction enable" "Disabled,Enabled"
bitfld.long 0x00 12. "    UDCCDIS      ,User mode access to Communications Channel disable" "No,Yes"
textline "                        "
bitfld.long 0x00 11. " INTDIS     ,Interrupt disable" "No,Yes"
bitfld.long 0x00 10. "                     DBGACK     ,Force debug acknowledge" "Normal,Forced"
bitfld.long 0x00 9. "      DBGNOPWRDWN  ,Debug no power-down" "Low,High"
textline "                        "
bitfld.long 0x00 8. " UND_L      ,Sticky undefined bit" "Not occurred,Occurred"
bitfld.long 0x00 7. "            ADABORT    ,Asynchronous data abort" "Not aborted,Aborted"
bitfld.long 0x00 6. " SDABORT      ,Synchronous data abort" "Not aborted,Aborted"
textline "                        "
bitfld.long 0x00 2.--5. " MOE        ,Method of debug entry field" "Halt Request,Breakpoint,Asynchronous Watchpoint,BKPT Instruction,External Debug Request,Vector Catch,Reserved,Reserved,OS Unlock Catch,Reserved,Synchronous Watchpoint,?..."
bitfld.long 0x00 1. " RESTARTED  ,Processor restarted" "Pending,Exited"
bitfld.long 0x00 0. "     HALTED       ,Processor halted" "Non-debug,Debug"
wgroup.long c14:5.++0x0
line.long 0x00 "DBGDTRTX,Debug Transmit/Receive Register (Internal View)"
elif (corename()=="CORTEXA17"||corename()=="CORTEXA17MPCORE")
if (((d.l(c14:195.))&0x1)==0x1)
group.long c14:1.++0x0
line.long 0x00 "DBGDSCR,Debug Status and Control Register (Internal View)"
bitfld.long 0x00 30. " RXFULL     ,DBGDTRRX Register full" "Empty,Full"
bitfld.long 0x00 29. "                    TXFULL     ,DBGDTRTX Register full" "Empty,Full"
bitfld.long 0x00 27. "         RXFULL_L     ,Latched RXFULL bit" "Not latched,Latched"
textline "                        "
bitfld.long 0x00 26. " TXFULL_L   ,Latched TXFULL bit" "Not latched,Latched"
rbitfld.long 0x00 25. "              PIPEADV    ,PIPEADV Processor Idle flag" "Not idle,Idle"
rbitfld.long 0x00 24. "      INSTRCOMPL_L ,Latched instruction complete" "Not completed,Completed"
textline "                        "
bitfld.long 0x00 20.--21. " EXTDCCMODE ,External DCC access mode field" "Non-blocking,Stall,Fast,?..."
rbitfld.long 0x00 19. "             ADADISCARD ,Asynchronous Data Aborts Discarded bit" "Normal,Abort"
rbitfld.long 0x00 18. "        NS           ,Non-secure state status" "Secure,Non-secure"
textline "                        "
rbitfld.long 0x00 17. " SPNIDDIS   ,Secure Privileged Non-Invasive Debug Disable" "Enabled,Disabled"
rbitfld.long 0x00 16. "                 SPIDDIS    ,Secure Privileged Invasive Debug Disable" "Enabled,Disabled"
bitfld.long 0x00 15. "      MDBGEN       ,Monitor debug-mode enable" "Disabled,Enabled"
textline "                        "
bitfld.long 0x00 14. " HDBGEN     ,Halting debug-mode" "Disabled,Enabled"
bitfld.long 0x00 13. "                 ITREN      ,Execute ARM instruction enable" "Disabled,Enabled"
bitfld.long 0x00 12. "      UDCCDIS      ,User mode access to Communications Channel disable" "Enabled,Disabled"
textline "                        "
bitfld.long 0x00 11. " INTDIS     ,Interrupt disable" "Enabled,Disabled"
bitfld.long 0x00 10. "                 DBGACK     ,Force debug acknowledge" "Normal,Forced"
rbitfld.long 0x00 9. "        FS           ,Fault status" "No exception,Exception"
textline "                        "
rbitfld.long 0x00 8. " UND_L      ,Sticky undefined bit" "Not occurred,Occurred"
rbitfld.long 0x00 7. "             ADABORT_L  ,Sticky Asynchronous Abort" "Not occurred,Occurred"
rbitfld.long 0x00 6. "  SDABORT_L    ,Sticky Synchronous Data Abort" "Not occurred,Occurred"
textline "                        "
rbitfld.long 0x00 2.--5. " MOE        ,Method of debug entry field" "Halt Request,Breakpoint,Asynchronous Watchpoint,BKPT Instruction,External Debug Request,Vector Catch,Reserved,Reserved,OS Unlock Catch,Reserved,Synchronous Watchpoint,?..."
rbitfld.long 0x00 1. "  RESTARTED  ,Processor restarted" "Pending,Exited"
rbitfld.long 0x00 0. "       HALTED       ,Processor halted" "Non-debug,Debug"
else
rgroup.long c14:1.++0x0
line.long 0x00 "DBGDSCR,Debug Status and Control Register (Internal View)"
rbitfld.long 0x00 30. " RXFULL     ,DBGDTRRX Register full" "Empty,Full"
rbitfld.long 0x00 29. "                    TXFULL     ,DBGDTRTX Register full" "Empty,Full"
rbitfld.long 0x00 27. "         RXFULL_L     ,Latched RXFULL bit" "Not latched,Latched"
textline "                        "
rbitfld.long 0x00 26. " TXFULL_L   ,Latched TXFULL bit" "Not latched,Latched"
rbitfld.long 0x00 25. "              PIPEADV    ,PIPEADV Processor Idle flag" "Not idle,Idle"
rbitfld.long 0x00 24. "      INSTRCOMPL_L ,Latched instruction complete" "Not completed,Completed"
textline "                        "
bitfld.long 0x00 20.--21. " EXTDCCMODE ,External DCC access mode field" "Non-blocking,Stall,Fast,?..."
bitfld.long 0x00 19. "             ADADISCARD ,Asynchronous Data Aborts Discarded bit" "Normal,Abort"
rbitfld.long 0x00 18. "        NS           ,Non-secure state status" "Secure,Non-secure"
textline "                        "
rbitfld.long 0x00 17. " SPNIDDIS   ,Secure Privileged Non-Invasive Debug Disable" "Enabled,Disabled"
rbitfld.long 0x00 16. "                 SPIDDIS    ,Secure Privileged Invasive Debug Disable" "Enabled,Disabled"
bitfld.long 0x00 15. "      MDBGEN       ,Monitor debug-mode enable" "Disabled,Enabled"
textline "                        "
bitfld.long 0x00 14. " HDBGEN     ,Halting debug-mode" "Disabled,Enabled"
bitfld.long 0x00 13. "                 ITREN      ,Execute ARM instruction enable" "Disabled,Enabled"
bitfld.long 0x00 12. "      UDCCDIS      ,User mode access to Communications Channel disable" "Enabled,Disabled"
textline "                        "
bitfld.long 0x00 11. " INTDIS     ,Interrupt disable" "Enabled,Disabled"
bitfld.long 0x00 10. "                 DBGACK     ,Force debug acknowledge" "Normal,Forced"
bitfld.long 0x00 9. "        FS           ,Fault status" "No exception,Exception"
textline "                        "
rbitfld.long 0x00 8. " UND_L      ,Sticky undefined bit" "Not occurred,Occurred"
rbitfld.long 0x00 7. "             ADABORT_L  ,Sticky Asynchronous Abort" "Not occurred,Occurred"
rbitfld.long 0x00 6. "  SDABORT_L    ,Sticky Synchronous Data Abort" "Not occurred,Occurred"
textline "                        "
bitfld.long 0x00 2.--5. " MOE        ,Method of debug entry field" "Halt Request,Breakpoint,Asynchronous Watchpoint,BKPT Instruction,External Debug Request,Vector Catch,Reserved,Reserved,OS Unlock Catch,Reserved,Synchronous Watchpoint,?..."
rbitfld.long 0x00 1. "  RESTARTED  ,Processor restarted" "Pending,Exited"
rbitfld.long 0x00 0. "       HALTED       ,Processor halted" "Non-debug,Debug"
endif
wgroup.long c14:5.++0x0
line.long 0x00 "DBGDTRTX,Debug Transmit/Receive Register (Internal View)"
endif
group.long c14:0x7++0x0
line.long 0x00 "DBGVCR,Debug Vector Catch register"
bitfld.long 0x00 31. " NSF  ,FIQ vector catch in Non-secure state" "Disabled,Enabled"
bitfld.long 0x00 30. "  NSI  ,IRG vector catch in Non-secure state" "Disabled,Enabled"
bitfld.long 0x00 28. "  NSD  ,Data Abort vector catch in Non-secure state" "Disabled,Enabled"
textline "                        "
bitfld.long 0x00 27. " NSP  ,Prefetch Abort vector catch in Non-secure state" "Disabled,Enabled"
bitfld.long 0x00 26. "  NSS  ,SVC vector catch in Non-secure state" "Disabled,Enabled"
bitfld.long 0x00 25. "  NSU  ,Undefined instruction vector catch in Non-secure state" "Disabled,Enabled"
textline "                        "
bitfld.long 0x00 23. " NSHF ,FIQ interrupt exception vector catch enable in Non-secure state" "Disabled,Enabled"
bitfld.long 0x00 22. "  NSHI ,IRQ interrupt exception vector catch enable in Non-secure state" "Disabled,Enabled"
bitfld.long 0x00 21. "  NSHE ,Hyp Trap or Hyp mode entry exception vector catch enable in Non-secure state" "Disabled,Enabled"
textline "                        "
bitfld.long 0x00 20. " NSHD ,Data Abort, from Hyp mode exception vector catch enable in Non-secure state" "Disabled,Enabled"
bitfld.long 0x00 19. "  NSHP ,Prefetch Abort, from Hyp mode exception vector catch enable in Non-secure state" "Disabled,Enabled"
bitfld.long 0x00 18. "  NSHC ,Hypervisor Call. from Hyp mode exception vector catch enable in Non-secure state" "Disabled,Enabled"
textline "                        "
bitfld.long 0x00 17. " NSHU ,Undefined Instruction, from Hyp mode exception vector catch enable in Non-secure state" "Disabled,Enabled"
bitfld.long 0x00 15. "  MF   ,FIQ vector catch enable, in Secure state on Monitor mode vector" "Disabled,Enabled"
bitfld.long 0x00 14. "  MI   ,IRQ vector catch enable in Secure state on Monitor mode vector" "Disabled,Enabled"
textline "                        "
bitfld.long 0x00 12. " MD   ,Data Abort vector catch enable in Secure state on Monitor mode vector" "Disabled,Enabled"
bitfld.long 0x00 11. "  MP   ,Prefetch Abort vector catch enable in Secure state on Monitor mode vector" "Disabled,Enabled"
bitfld.long 0x00 10. "  MS   ,SMC vector catch enable in Secure state" "Disabled,Enabled"
textline "                        "
bitfld.long 0x00 7. " SF   ,FIQ vector catch in Secure state" "Disabled,Enabled"
bitfld.long 0x00 6. "  SI   ,IRQ vector catch in Secure state" "Disabled,Enabled"
bitfld.long 0x00 4. "  SD   ,Data Abort vector catch in Secure state" "Disabled,Enabled"
textline "                        "
bitfld.long 0x00 3. " SP   ,Prefetch Abort vector catch in Secure state" "Disabled,Enabled"
bitfld.long 0x00 2. "  SS   ,SVC vector catch in Secure state" "Disabled,Enabled"
bitfld.long 0x00 1. "  SU   ,Undefined instruction vector catch in Secure state" "Disabled,Enabled"
textline "                        "
bitfld.long 0x00 0. " R    ,Reset vector catch enable" "Disabled,Enabled"
group.long c14:9.++0x0
line.long 0x00 "DBGECR,Debug Event Catch Register"
bitfld.long 0x00 0. " OSUC ,OS Unlock Catch" "Disabled,Enabled"
group.long c14:32.++0x0
line.long 0x00 "DBGDTRRX,Debug Receive Register (External View)"
wgroup.long c14:33.++0x0
line.long 0x00 "DBGITR,Debug Instruction Transfer Register"
rgroup.long c14:33.++0x0
line.long 0x00 "DBGPCSR,Program Counter Sampling Register"
hexmask.long 0x00 2.--31. 1. " PCS        ,Program Counter sample value"
bitfld.long 0x00 0.--1. "                 T          ,Meaning of PC sample value" "ARM,Thumb,Reserved,Thumb"
if (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE")
group.long c14:34.++0x0
line.long 0x00 "DBGDSCR,Debug Status and Control Register (External View)"
bitfld.long 0x00 30. " RXFULL     ,DBGDTRRX Register full" "Empty,Full"
bitfld.long 0x00 29. "                    TXFULL     ,DBGDTRTX Register full" "Empty,Full"
bitfld.long 0x00 27. "        RXFULL_L         ,Latched RXFULL bit" "Not latched,Latched"
textline "                        "
bitfld.long 0x00 26. " TXFULL_L   ,Latched TXFULL bit" "Not latched,Latched"
bitfld.long 0x00 25. "              PIPEADC    ,PIPEADV Processor Idle flag" "Not idle,Idle"
bitfld.long 0x00 24. "     INSTRCOMPL_L     ,Latched instruction complete" "Not completed,Completed"
textline "                        "
bitfld.long 0x00 20.--21. " EXTDCCMODE ,External DCC acces mode field" "Non-blocking,Stall,Fast,?..."
bitfld.long 0x00 19. "             ADADISCARD ,Asynchronous Data Aborts Discarded bit" "Normal,Abort"
bitfld.long 0x00 18. "       NS               ,Non-secure status bit" "Secure,Non-secure"
textline "                        "
bitfld.long 0x00 17. " SPNIDDIS   ,Secure Privileged Non-Invasive Debug Disable" "No,Yes"
bitfld.long 0x00 16. "                      SPIDDIS    ,Secure Privileged Invasive Debug Disable" "No,Yes"
bitfld.long 0x00 15. "          MDBGEN           ,Monitor debug-mode enable" "Disabled,Enabled"
textline "                        "
bitfld.long 0x00 14. " HDBGEN     ,Halting debug-mode" "Disabled,Enabled"
bitfld.long 0x00 13. "                 ITREN      ,Execute ARM instruction enable" "Disabled,Enabled"
bitfld.long 0x00 12. "                     UDCCDIS          ,User mode access to Communications Channel disable" "No,Yes"
textline "                        "
bitfld.long 0x00 11. " INTDIS     ,Interrupt disable" "No,Yes"
bitfld.long 0x00 10. "                      DBGACK     ,Force debug acknowledge" "Normal,Forced"
bitfld.long 0x00 9. "       FS               ,Fault Status" "Not caused,Caused"
textline "                        "
bitfld.long 0x00 8. " UND_L      ,Sticky undefined bit" "Not occurred,Occurred"
bitfld.long 0x00 7. "             ADABORT    ,Asynchronous data abort" "Not aborted,Aborted"
bitfld.long 0x00 6. "  SDABORT          ,Synchronous data abort" "Not aborted,Aborted"
textline "                        "
bitfld.long 0x00 2.--5. " MOE        ,Method of debug entry field" "Halt Request,Breakpoint,Asynchronous Watchpoint,BKPT Instruction,External Debug Request,Vector Catch,Reserved,Reserved,OS Unlock Catch,Reserved,Synchronous Watchpoint,?..."
bitfld.long 0x00 1. "  RESTARTED  ,Processor restarted" "Pending,Exited"
bitfld.long 0x00 0. "      HALTED           ,Processor halted" "Non-debug,Debug"
elif (corename()=="CORTEXA7"||corename()=="CORTEXA7MPCORE")
group.long c14:34.++0x0
line.long 0x00 "DBGDSCR,Debug Status and Control Register (External View)"
bitfld.long 0x00 30. " RXFULL     ,DBGDTRRX Register full" "Empty,Full"
bitfld.long 0x00 29. "                    TXFULL     ,DBGDTRTX Register full" "Empty,Full"
bitfld.long 0x00 27. "       RXFULL_L     ,Latched RXFULL bit" "Not latched,Latched"
textline "                        "
bitfld.long 0x00 26. " TXFULL_L   ,Latched TXFULL bit" "Not latched,Latched"
bitfld.long 0x00 25. "              PIPEADC    ,PIPEADV Processor Idle flag" "Not idle,Idle"
bitfld.long 0x00 24. "    INSTRCOMPL_L ,Latched instruction complete" "Not completed,Completed"
textline "                        "
bitfld.long 0x00 20.--21. " EXTDCCMODE ,External DCC acces mode field" "Non-blocking,Stall,Fast,?..."
bitfld.long 0x00 19. "             ADADISCARD ,Asynchronous Data Aborts Discarded bit" "Normal,Abort"
bitfld.long 0x00 18. "      NS           ,Non-secure status bit" "Secure,Non-secure"
textline "                        "
bitfld.long 0x00 17. " SPNIDDIS   ,Secure Privileged Non-Invasive Debug Disable" "No,Yes"
bitfld.long 0x00 16. "                      SPIDDIS    ,Secure Privileged Invasive Debug Disable" "No,Yes"
bitfld.long 0x00 15. "         MDBGEN       ,Monitor debug-mode enable" "Disabled,Enabled"
textline "                        "
bitfld.long 0x00 14. " HDBGEN     ,Halting debug-mode" "Disabled,Enabled"
bitfld.long 0x00 13. "                 ITREN      ,Execute ARM instruction enable" "Disabled,Enabled"
bitfld.long 0x00 12. "    UDCCDIS      ,User mode access to Communications Channel disable" "No,Yes"
textline "                        "
bitfld.long 0x00 11. " INTDIS     ,Interrupt disable" "No,Yes"
bitfld.long 0x00 10. "                      DBGACK     ,Force debug acknowledge" "Normal,Forced"
bitfld.long 0x00 9. "      DBGNOPWRDWN  ,Debug no power-down" "Low,High"
textline "                        "
bitfld.long 0x00 8. " UND_L      ,Sticky undefined bit" "Not occurred,Occurred"
bitfld.long 0x00 7. "             ADABORT    ,Asynchronous data abort" "Not aborted,Aborted"
bitfld.long 0x00 6. " SDABORT      ,Synchronous data abort" "Not aborted,Aborted"
textline "                        "
bitfld.long 0x00 2.--5. " MOE        ,Method of debug entry field" "Halt Request,Breakpoint,Asynchronous Watchpoint,BKPT Instruction,External Debug Request,Vector Catch,Reserved,Reserved,OS Unlock Catch,Reserved,Synchronous Watchpoint,?..."
bitfld.long 0x00 1. "  RESTARTED  ,Processor restarted" "Pending,Exited"
bitfld.long 0x00 0. "     HALTED       ,Processor halted" "Non-debug,Debug"
elif (corename()=="CORTEXA17"||corename()=="CORTEXA17MPCORE")
if (((d.l(c14:195.))&0x1)==0x1)
group.long c14:34.++0x0
line.long 0x00 "DBGDSCR,Debug Status and Control Register (External View)"
bitfld.long 0x00 30. " RXFULL     ,DBGDTRRX Register full" "Empty,Full"
bitfld.long 0x00 29. "                    TXFULL     ,DBGDTRTX Register full" "Empty,Full"
bitfld.long 0x00 27. "         RXFULL_L     ,Latched RXFULL bit" "Not latched,Latched"
textline "                        "
bitfld.long 0x00 26. " TXFULL_L   ,Latched TXFULL bit" "Not latched,Latched"
rbitfld.long 0x00 25. "              PIPEADV    ,Sticky Pipeline Advance bit" "Not idle,Idle"
rbitfld.long 0x00 24. "      INSTRCOMPL_L ,Latched instruction complete" "Not complete,Complete"
textline "                        "
bitfld.long 0x00 20.--21. " EXTDCCMODE ,External DCC acces mode field" "Non-blocking,Stall,Fast,?..."
bitfld.long 0x00 19. "             ADADISCARD ,Asynchronous Data Aborts Discarded bit" "Normal,Discarded"
bitfld.long 0x00 18. "     NS           ,Non-secure status bit" "Secure,Non-secure"
textline "                        "
rbitfld.long 0x00 17. " SPNIDDIS   ,Secure Privileged Non-Invasive Debug Disable" "Enabled,Disabled"
rbitfld.long 0x00 16. "                 SPIDDIS    ,Secure Privileged Invasive Debug Disable" "Enabled,Disabled"
bitfld.long 0x00 15. "      MDBGEN       ,Monitor debug-mode enable" "Disabled,Enabled"
textline "                        "
bitfld.long 0x00 14. " HDBGEN     ,Halting debug-mode" "Disabled,Enabled"
bitfld.long 0x00 13. "                 ITREN      ,Execute ARM instruction enable" "Disabled,Enabled"
bitfld.long 0x00 12. "      UDCCDIS      ,User mode access to Communications Channel disable" "Enabled,Disabled"
textline "                        "
bitfld.long 0x00 11. " INTDIS     ,Interrupt disable" "Enabled,Disabled"
bitfld.long 0x00 10. "                 DBGACK     ,Force debug acknowledge" "Normal,Forced"
bitfld.long 0x00 9. "        FS           ,Fault status" "Low,High"
textline "                        "
rbitfld.long 0x00 8. " UND_L      ,Sticky undefined bit" "Not occurred,Occurred"
rbitfld.long 0x00 7. "             ADABORT_L  ,Sticky Asynchronous Abort" "Not occurred,Occurred"
rbitfld.long 0x00 6. "  SDABORT_L    ,Sticky Synchronous Data Abort" "Not occurred,Occurred"
textline "                        "
bitfld.long 0x00 2.--5. " MOE        ,Method of debug entry field" "Halt Request,Breakpoint,Asynchronous Watchpoint,BKPT Instruction,External Debug Request,Vector Catch,Reserved,Reserved,OS Unlock Catch,Reserved,Synchronous Watchpoint,?..."
rbitfld.long 0x00 1. "  RESTARTED  ,Processor restarted" "Pending,Exited"
rbitfld.long 0x00 0. "       HALTED       ,Processor halted" "Non-debug,Debug"
else
group.long c14:34.++0x0
line.long 0x00 "DBGDSCR,Debug Status and Control Register (External View)"
rbitfld.long 0x00 30. " RXFULL     ,DBGDTRRX Register full" "Empty,Full"
rbitfld.long 0x00 29. "                    TXFULL     ,DBGDTRTX Register full" "Empty,Full"
rbitfld.long 0x00 27. "         RXFULL_L     ,Latched RXFULL bit" "Not latched,Latched"
textline "                        "
rbitfld.long 0x00 26. " TXFULL_L   ,Latched TXFULL bit" "Not latched,Latched"
rbitfld.long 0x00 25. "              PIPEADV    ,Sticky Pipeline Advance bit" "Not idle,Idle"
rbitfld.long 0x00 24. "      INSTRCOMPL_L ,Latched instruction complete" "Not complete,Complete"
textline "                        "
bitfld.long 0x00 20.--21. " EXTDCCMODE ,External DCC acces mode field" "Non-blocking,Stall,Fast,?..."
bitfld.long 0x00 19. "             ADADISCARD ,Asynchronous Data Aborts Discarded bit" "Normal,Discarded"
bitfld.long 0x00 18. "     NS           ,Non-secure status bit" "Secure,Non-secure"
textline "                        "
rbitfld.long 0x00 17. " SPNIDDIS   ,Secure Privileged Non-Invasive Debug Disable" "Enabled,Disabled"
rbitfld.long 0x00 16. "                 SPIDDIS    ,Secure Privileged Invasive Debug Disable" "Enabled,Disabled"
bitfld.long 0x00 15. "      MDBGEN       ,Monitor debug-mode enable" "Disabled,Enabled"
textline "                        "
bitfld.long 0x00 14. " HDBGEN     ,Halting debug-mode" "Disabled,Enabled"
bitfld.long 0x00 13. "                 ITREN      ,Execute ARM instruction enable" "Disabled,Enabled"
bitfld.long 0x00 12. "      UDCCDIS      ,User mode access to Communications Channel disable" "Enabled,Disabled"
textline "                        "
rbitfld.long 0x00 11. " INTDIS     ,Interrupt disable" "Enabled,Disabled"
bitfld.long 0x00 10. "                 DBGACK     ,Force debug acknowledge" "Normal,Forced"
bitfld.long 0x00 9. "        FS           ,Fault status" "Low,High"
textline "                        "
rbitfld.long 0x00 8. " UND_L      ,Sticky undefined bit" "Not occurred,Occurred"
rbitfld.long 0x00 7. "             ADABORT_L  ,Sticky Asynchronous Abort" "Not occurred,Occurred"
rbitfld.long 0x00 6. "  SDABORT_L    ,Sticky Synchronous Data Abort" "Not occurred,Occurred"
textline "                        "
bitfld.long 0x00 2.--5. " MOE        ,Method of debug entry field" "Halt Request,Breakpoint,Asynchronous Watchpoint,BKPT Instruction,External Debug Request,Vector Catch,Reserved,Reserved,OS Unlock Catch,Reserved,Synchronous Watchpoint,?..."
rbitfld.long 0x00 1. "  RESTARTED  ,Processor restarted" "Pending,Exited"
rbitfld.long 0x00 0. "       HALTED       ,Processor halted" "Non-debug,Debug"
endif
endif
wgroup.long c14:35.++0x0
line.long 0x00 "DBGDTRTX,Debug Transmit Register (External View)"
if (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE"||corename()=="CORTEXA17"||corename()=="CORTEXA17MPCORE")
wgroup.long c14:36.++0x0
line.long 0x00 "DBGDRCR,Debug Run Control Register"
bitfld.long 0x00 3. " CSPA ,Clear Sticky Pipeline Advance bit" "No effect,Clear"
bitfld.long 0x00 2. " CSE ,Clear Sticky Exceptions bits" "No effect,Clear"
bitfld.long 0x00 1. "    RRQ ,Restart request" "No effect,Restart"
bitfld.long 0x00 0. " HRQ ,Halt request" "No effect,Halt"
elif (corename()=="CORTEXA7"||corename()=="CORTEXA7MPCORE")
wgroup.long c14:36.++0x0
line.long 0x00 "DBGDRCR,Debug Run Control Register"
bitfld.long 0x00 4. " CBRRQ ,CBRRQ" "Low,High"
bitfld.long 0x00 3. "                          CSPA ,Clear Sticky Pipeline Advance bit" "No effect,Clear"
bitfld.long 0x00 2. "         CSE ,Clear Sticky Exceptions bits" "No effect,Clear"
textline "                        "
bitfld.long 0x00 1. " RR ,Restart request" "No effect,Restart"
bitfld.long 0x00 0. "                        HR ,Halt request" "No effect,Halt"
endif
if (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE")
group.long c14:37.++0x0
line.long 0x00 "DBGEACR,Debug External Auxiliary Control Register"
bitfld.long 0x00 3. " CDRS ,Core debug reset status" "No reset,Reset"
bitfld.long 0x00 2. "  DECRR ,Debug extend core reset request" "No request,Request"
bitfld.long 0x00 1. " DPDO ,Debug power-down override" "Disabled,Enabled"
bitfld.long 0x00 0. " DCSC ,Debug clock stop control" "Stopped,Running"
textline "                        "
elif (corename()=="CORTEXA7"||corename()=="CORTEXA7MPCORE")
group.long c14:37.++0x0
line.long 0x00 "DBGEACR,Debug External Auxiliary Control Register"
bitfld.long 0x00 3. " CDRS       ,Core debug reset status" "No reset,Reset"
endif
rgroup.long c14:40.++0x0
line.long 0x00 "DBGPCSR,Program Counter Sampling Register"
hexmask.long 0x00 2.--31. 1. " PCS ,Program Counter sample value"
bitfld.long 0x00 0.--1. "    T    ,Meaning of PC sample value" "ARM,Thumb,?..."
rgroup.long c14:41.++0x0
line.long 0x00 "DBGCIDSR,DBGCIDSR"
if (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE"||corename()=="CORTEXA17"||corename()=="CORTEXA17MPCORE")
rgroup.long c14:42.++0x0
line.long 0x00 "DBGVIDSR,Virtualization ID Sampling Register"
bitfld.long 0x00 31. " NS  ,NS state sample" "Secure,Non-secure"
bitfld.long 0x00 30. "  H    ,Hyp mode sample" "Not associated,Associated"
hexmask.long.byte 0x00 0.--7. 1. " VMID ,VMID sample"
elif (corename()=="CORTEXA7"||corename()=="CORTEXA7MPCORE")
rgroup.long c14:42.++0x0
line.long 0x00 "DBGVIDSR,DBGVIDSR"
endif
width 15.
if (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE")
textline "                        "
wgroup.long c14:958.++0x0
line.long 0x00 "DBGITOCTRL,Debug Integration Output Control Register"
bitfld.long 0x00 3. " NPMUIRQ ,Drives the nPMUIRQ output" "Low,High"
bitfld.long 0x00 2. "     CTI_PMUIRQ ,Drives the internal signal equivalent to PMUIRQ that goes from the Performance Monitor Unit (PMU) to the Cross Trigger Interface (CTI)" "Low,High"
bitfld.long 0x00 1. "     CTI_DBGRESTARTED ,Drives the internal signal that goes from the Debug unit to the CTI to acknowledge success of a debug restart command" "Low,High"
bitfld.long 0x00 0. " CTI_DBGTRIGGER ,Drives the internal signal equivalent to DBGTRIGGER that goes from the Debug unit to the CTI" "Low,High"
elif (corename()=="CORTEXA7"||corename()=="CORTEXA7MPCORE")
textline "                                "
wgroup.long c14:958.++0x0
line.long 0x00 "DBGITMISCOUT,Integration Miscellaneous Signals Output Register"
bitfld.long 0x00 9. " DBGRESTARTED ,Value of the DBGRESTARTED output pin" "Low,High"
bitfld.long 0x00 4. " PMUIRQ ,Value of PMUIRQ output pin" "Low,High"
bitfld.long 0x00 0. " DBGACK ,Value of the DBGACK output pin" "Low,High"
endif
if (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE")
rgroup.long c14:959.++0x0
line.long 0x00 "DBGITISR,Debug Integration Input Status Register"
bitfld.long 0x00 3. " DBGSWENABLE ,Reads the state of the DBGSWENABLE input" "Low,High"
bitfld.long 0x00 2. " CTI_DBGRESTART ,CTI debug restart" "Low,High"
bitfld.long 0x00 1. " CTI_EDBGRQ       ,CTI debug request" "Low,High"
bitfld.long 0x00 0. " EDBGRQ ,Reads the state of the EDBGRQ input" "Low,High"
elif (corename()=="CORTEXA7"||corename()=="CORTEXA7MPCORE")
textline "                                "
rgroup.long c14:959.++0x0
line.long 0x00 "DBGITMISCIN,Integration Miscellaneous Signals Input Register"
bitfld.long 0x00 2. " NFIQ ,Read value of nFIQ input pin" "Low,High"
bitfld.long 0x00 1. " NIRQ ,Read value of nIRQ input pin" "Low,High"
bitfld.long 0x00 0. " EDBGRQ ,Read value of EDBGRQ input pin" "Low,High"
endif
if (corename()=="CORTEXA17"||corename()=="CORTEXA17MPCORE")
if (((d.l(c15:0x202))&0x80000000)==0x80000000)
rgroup.quad c14:128.++0x1
line.quad 0x0 "DBGDRAR,Debug ROM Address Register"
hexmask.quad 0x0 12.--39. 0x1000 " ROMADDR    ,ROM physical address"
bitfld.quad 0x0 0.--1. "  VALID ,ROM table address valid" "Not valid,Reserved,Reserved,Valid"
rgroup.quad c14:256.++0x1
line.quad 0x0 "DBGDSAR,Debug Self Address Offset Register"
hexmask.quad 0x0 12.--39. 0x1000 " SELFOFFSET ,Debug bus self-address offset value"
bitfld.quad 0x0 0.--1. "  VALID ,Debug self address offset valid" "Not valid,Reserved,Reserved,Valid"
else
rgroup.long c14:128.++0x0
line.long 0x0 "DBGDRAR,Debug ROM Address Register"
hexmask.long 0x0 12.--31. 0x1000 " ROMADDR    ,ROM physical address"
bitfld.long 0x0 0.--1. "    VALID ,ROM table address valid" "Not valid,Reserved,Reserved,Valid"
rgroup.long c14:256.++0x0
line.long 0x0 "DBGDSAR,Debug Self Address Offset Register"
hexmask.long 0x0 12.--31. 0x1000 " SELFOFFSET ,Debug bus self-address offset value"
bitfld.long 0x0 0.--1. "    VALID ,Debug self address offset valid" "Not valid,Reserved,Reserved,Valid"
endif
group.long c14:195.++0x00
line.long 0x00 "DBGOSDLR,OS Double Lock Register"
bitfld.long 0x00 0. " DLK        ,OS Double Lock control bit" "Unlocked,Locked"
else
hgroup.quad c14:128.++0x1
hide.quad 0x0 "DBGDRAR,Debug ROM Address Register"
hgroup.quad c14:256.++0x1
hide.quad 0x0 "DBGDSAR,Debug Self Address Offset Register"
hgroup.long c14:195.++0x00
hide.long 0x00 "DBGOSDLR,OS Double Lock Register"
endif
wgroup.long c14:192.++0x00
line.long 0x00 "DBGOSLAR,Operating System Lock Access Register"
rgroup.long c14:193.++0x00
line.long 0x00 "DBGOSLSR,Operating System Lock Status Register"
bitfld.long 0x00 1. " OSLK      ,Status of the OS Lock" "Not locked,Locked"
bitfld.long 0x00 0. 3. "  OSLM ,OS Lock Model implemented Bit" "Reserved,Reserved,W/o DBGOSSRR,?..."
group.long c14:196.++0x00
line.long 0x00 "DBGPRCR,Device Power-Down and Reset Control Register"
bitfld.long 0x00 3. " COREPURQ  ,Core Power Up Request" "Low,High"
bitfld.long 0x00 2. "        HCWR ,Hold Core Warm Reset" "No reset,Reset"
bitfld.long 0x00 1. "      CWRR   ,Core Warm Reset Request" "Not requested,Requested"
textline "                        "
bitfld.long 0x00 0. " CORENPDRQ ,Core No Power down Request" "Low,High"
rgroup.long c14:197.++0x0
line.long 0x00 "DBGPRSR,Device Power-down and Reset Status Register"
bitfld.long 0x00 6. " DLK       ,OS Double Lock status" "Low,High"
bitfld.long 0x00 5. "        OSLK ,OS Lock status" "Low,High"
bitfld.long 0x00 4. "          HALTED ,Halted" "Low,High"
textline "                        "
bitfld.long 0x00 3. " SR        ,Sticky Reset Status" "Low,High"
bitfld.long 0x00 2. "        RS   ,Reset Status" "Low,High"
bitfld.long 0x00 1. "          SPD    ,Sticky Power-down Status" "Low,High"
textline "                        "
bitfld.long 0x00 0. " PU        ,Power-up Status" "Low,High"
tree "Processor ID registers"
rgroup.long c14:(832.+0.)++0x00
line.long 0x00 "PIDR0,Processor ID register 0"
rgroup.long c14:(832.+1.)++0x00
line.long 0x00 "PIDR1,Processor ID register 1"
rgroup.long c14:(832.+2.)++0x00
line.long 0x00 "PIDR2,Processor ID register 2"
rgroup.long c14:(832.+3.)++0x00
line.long 0x00 "PIDR3,Processor ID register 3"
rgroup.long c14:(832.+4.)++0x00
line.long 0x00 "PIDR4,Processor ID register 4"
rgroup.long c14:(832.+5.)++0x00
line.long 0x00 "PIDR5,Processor ID register 5"
rgroup.long c14:(832.+6.)++0x00
line.long 0x00 "PIDR6,Processor ID register 6"
rgroup.long c14:(832.+7.)++0x00
line.long 0x00 "PIDR7,Processor ID register 7"
rgroup.long c14:(832.+8.)++0x00
line.long 0x00 "PIDR8,Processor ID register 8"
rgroup.long c14:(832.+9.)++0x00
line.long 0x00 "PIDR9,Processor ID register 9"
rgroup.long c14:(832.+10.)++0x00
line.long 0x00 "PIDR10,Processor ID register 10"
rgroup.long c14:(832.+11.)++0x00
line.long 0x00 "PIDR11,Processor ID register 11"
rgroup.long c14:(832.+12.)++0x00
line.long 0x00 "PIDR12,Processor ID register 12"
rgroup.long c14:(832.+13.)++0x00
line.long 0x00 "PIDR13,Processor ID register 13"
rgroup.long c14:(832.+14.)++0x00
line.long 0x00 "PIDR14,Processor ID register 14"
rgroup.long c14:(832.+15.)++0x00
line.long 0x00 "PIDR15,Processor ID register 15"
rgroup.long c14:(832.+16.)++0x00
line.long 0x00 "PIDR16,Processor ID register 16"
rgroup.long c14:(832.+17.)++0x00
line.long 0x00 "PIDR17,Processor ID register 17"
rgroup.long c14:(832.+18.)++0x00
line.long 0x00 "PIDR18,Processor ID register 18"
rgroup.long c14:(832.+19.)++0x00
line.long 0x00 "PIDR19,Processor ID register 19"
rgroup.long c14:(832.+20.)++0x00
line.long 0x00 "PIDR20,Processor ID register 20"
rgroup.long c14:(832.+21.)++0x00
line.long 0x00 "PIDR21,Processor ID register 21"
rgroup.long c14:(832.+22.)++0x00
line.long 0x00 "PIDR22,Processor ID register 22"
rgroup.long c14:(832.+23.)++0x00
line.long 0x00 "PIDR23,Processor ID register 23"
rgroup.long c14:(832.+24.)++0x00
line.long 0x00 "PIDR24,Processor ID register 24"
rgroup.long c14:(832.+25.)++0x00
line.long 0x00 "PIDR25,Processor ID register 25"
rgroup.long c14:(832.+26.)++0x00
line.long 0x00 "PIDR26,Processor ID register 26"
rgroup.long c14:(832.+27.)++0x00
line.long 0x00 "PIDR27,Processor ID register 27"
rgroup.long c14:(832.+28.)++0x00
line.long 0x00 "PIDR28,Processor ID register 28"
rgroup.long c14:(832.+29.)++0x00
line.long 0x00 "PIDR29,Processor ID register 29"
rgroup.long c14:(832.+30.)++0x00
line.long 0x00 "PIDR30,Processor ID register 30"
rgroup.long c14:(832.+31.)++0x00
line.long 0x00 "PIDR31,Processor ID register 31"
rgroup.long c14:(832.+32.)++0x00
line.long 0x00 "PIDR32,Processor ID register 32"
rgroup.long c14:(832.+33.)++0x00
line.long 0x00 "PIDR33,Processor ID register 33"
rgroup.long c14:(832.+34.)++0x00
line.long 0x00 "PIDR34,Processor ID register 34"
rgroup.long c14:(832.+35.)++0x00
line.long 0x00 "PIDR35,Processor ID register 35"
rgroup.long c14:(832.+36.)++0x00
line.long 0x00 "PIDR36,Processor ID register 36"
rgroup.long c14:(832.+37.)++0x00
line.long 0x00 "PIDR37,Processor ID register 37"
rgroup.long c14:(832.+38.)++0x00
line.long 0x00 "PIDR38,Processor ID register 38"
rgroup.long c14:(832.+39.)++0x00
line.long 0x00 "PIDR39,Processor ID register 39"
rgroup.long c14:(832.+40.)++0x00
line.long 0x00 "PIDR40,Processor ID register 40"
rgroup.long c14:(832.+41.)++0x00
line.long 0x00 "PIDR41,Processor ID register 41"
rgroup.long c14:(832.+42.)++0x00
line.long 0x00 "PIDR42,Processor ID register 42"
rgroup.long c14:(832.+43.)++0x00
line.long 0x00 "PIDR43,Processor ID register 43"
rgroup.long c14:(832.+44.)++0x00
line.long 0x00 "PIDR44,Processor ID register 44"
rgroup.long c14:(832.+45.)++0x00
line.long 0x00 "PIDR45,Processor ID register 45"
rgroup.long c14:(832.+46.)++0x00
line.long 0x00 "PIDR46,Processor ID register 46"
rgroup.long c14:(832.+47.)++0x00
line.long 0x00 "PIDR47,Processor ID register 47"
rgroup.long c14:(832.+48.)++0x00
line.long 0x00 "PIDR48,Processor ID register 48"
rgroup.long c14:(832.+49.)++0x00
line.long 0x00 "PIDR49,Processor ID register 49"
rgroup.long c14:(832.+50.)++0x00
line.long 0x00 "PIDR50,Processor ID register 50"
rgroup.long c14:(832.+51.)++0x00
line.long 0x00 "PIDR51,Processor ID register 51"
rgroup.long c14:(832.+52.)++0x00
line.long 0x00 "PIDR52,Processor ID register 52"
rgroup.long c14:(832.+53.)++0x00
line.long 0x00 "PIDR53,Processor ID register 53"
rgroup.long c14:(832.+54.)++0x00
line.long 0x00 "PIDR54,Processor ID register 54"
rgroup.long c14:(832.+55.)++0x00
line.long 0x00 "PIDR55,Processor ID register 55"
rgroup.long c14:(832.+56.)++0x00
line.long 0x00 "PIDR56,Processor ID register 56"
rgroup.long c14:(832.+57.)++0x00
line.long 0x00 "PIDR57,Processor ID register 57"
rgroup.long c14:(832.+58.)++0x00
line.long 0x00 "PIDR58,Processor ID register 58"
rgroup.long c14:(832.+59.)++0x00
line.long 0x00 "PIDR59,Processor ID register 59"
rgroup.long c14:(832.+60.)++0x00
line.long 0x00 "PIDR60,Processor ID register 60"
rgroup.long c14:(832.+61.)++0x00
line.long 0x00 "PIDR61,Processor ID register 61"
rgroup.long c14:(832.+62.)++0x00
line.long 0x00 "PIDR62,Processor ID register 62"
rgroup.long c14:(832.+63.)++0x00
line.long 0x00 "PIDR63,Processor ID register 63"
tree.end
tree "Coresight Management Registers"
group.long c14:960.++0x0
line.long 0x00 "DBGITCTRL,Debug Integration Mode Control Register"
bitfld.long 0x00 0. " IME ,Integration Mode Enable" "Disabled,Enabled"
group.long c14:1000.++0x0
line.long 0x0 "DBGCLAIMSET,Claim Tag Set Register"
bitfld.long 0x0 7. " CT7 ,Claim Tag 7 Set" "Not set,Set"
bitfld.long 0x0 6. "          CT6  ,Claim Tag 6 Set" "Not set,Set"
bitfld.long 0x0 5. "          CT5  ,Claim Tag 5 Set" "Not set,Set"
textline "                        "
bitfld.long 0x0 4. " CT4 ,Claim Tag 4 Set" "Not set,Set"
bitfld.long 0x0 3. "          CT3  ,Claim Tag 3 Set" "Not set,Set"
bitfld.long 0x0 2. "          CT2  ,Claim Tag 2 Set" "Not set,Set"
textline "                        "
bitfld.long 0x0 1. " CT1 ,Claim Tag 1 Set" "Not set,Set"
bitfld.long 0x0 0. "          CT0  ,Claim Tag 0 Set" "Not set,Set"
group.long c14:1001.++0x0
line.long 0x0 "DBGCLAIMCLR,Claim Tag Clear Register"
bitfld.long 0x0 7. " CT7 ,Claim Tag 7 Clear" "Not cleared,Cleared"
bitfld.long 0x0 6. "      CT6  ,Claim Tag 6 Clear" "Not cleared,Cleared"
bitfld.long 0x0 5. "      CT5  ,Claim Tag 5 Clear" "Not cleared,Cleared"
textline "                        "
bitfld.long 0x0 4. " CT4 ,Claim Tag 4 Clear" "Not cleared,Cleared"
bitfld.long 0x0 3. "      CT3  ,Claim Tag 3 Clear" "Not cleared,Cleared"
bitfld.long 0x0 2. "      CT2  ,Claim Tag 2 Clear" "Not cleared,Cleared"
textline "                        "
bitfld.long 0x0 1. " CT1 ,Claim Tag 1 Clear" "Not cleared,Cleared"
bitfld.long 0x0 0. "      CT0  ,Claim Tag 0 Clear" "Not cleared,Cleared"
wgroup.long c14:1004.++0x00
line.long 0x00 "DBGLAR,Lock Access Register"
rgroup.long c14:1005.++0x00
line.long 0x00 "DBGLSR,Lock Status Register"
bitfld.long 0x00 2. " NTT ,Not 32-bit access" "32-bit,Not 32-bit"
bitfld.long 0x00 1. "       SLK  ,Software Lock status" "Not locked,Locked"
bitfld.long 0x00 0. "       SLI  ,Software Lock Implemented" "Not implemented,Implemented"
textline "                        "
rgroup.long c14:1006.++0x0
line.long 0x0 "DBGAUTHSTATUS,Debug Authentication Status Register"
bitfld.long 0x00 7. " SNI ,Secure non-invasive debug features implementation" "No effect,Implemented"
bitfld.long 0x00 6. "      SNE  ,Secure non-invasive debug enable (DBGEN OR NIDEN) AND (SPIDEN OR SPNIDEN)" "Disabled,Enabled"
bitfld.long 0x00 5. "         SI   ,Secure invasive debug features implementation" "No effect,Implemented"
textline "                        "
bitfld.long 0x00 4. " SE  ,Secure invasive debug enable (DBGEN AND SPIDEN)" "Disabled,Enabled"
bitfld.long 0x00 3. "         NSNI ,Non-secure non-invasive debug features implementation" "Not implemented,Implemented"
bitfld.long 0x00 2. "  NSNE ,Non-secure non-invasive debug enable  (DBGEN OR NIDEN)" "Disabled,Enabled"
textline "                        "
bitfld.long 0x00 1. " NSI ,Non-secure invasive debug features implementation" "Not implemented,Implemented"
bitfld.long 0x00 0. "  NSE  ,Non-secure invasive debug enable (DBGEN)" "Disabled,Enabled"
textline "                        "
if (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE"||corename()=="CORTEXA17"||corename()=="CORTEXA17MPCORE")
rgroup.long c14:1009.++0x0
line.long 0x0 "DBGDEVID1,Debug Device ID Register 1"
bitfld.long 0x00 0.--3. " PCSROFFSET     ,Defines the offset applied to DBGPCSR samples" "Depends on instr set state,No offset,?..."
elif (corename()=="CORTEXA7"||corename()=="CORTEXA7MPCORE")
rgroup.long c14:1009.++0x0
line.long 0x0 "DBGDEVID1,Debug Device ID Register 1"
bitfld.long 0x00 0.--3. " PCSROFFSET ,Defines the offset applied to DBGPCSR samples" "Reserved,No offset,?..."
endif
textline "                        "
rgroup.long c14:1010.++0x0
line.long 0x0 "DBGDEVID0,Debug Device ID Register 0"
bitfld.long 0x0 24.--27. " AR  ,Debug External Auxiliary Control Register support status" "Reserved,Supported,?..."
bitfld.long 0x0 20.--23. "    DL   ,Support for Debug OS Double Lock Register" "Reserved,Supported,?..."
bitfld.long 0x0 16.--19. "        VE   ,Specifies implementation of Virtualization Extension" "Reserved,Implemented,?..."
textline "                        "
bitfld.long 0x0 12.--15. " VC  ,Form of the vector catch event implemented" "Implemented,?..."
bitfld.long 0x0 8.--11. "  BPAM ,Level of support for Immediate Virtual Address matching breakpoint masking capability" "Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Not implemented"
bitfld.long 0x0 4.--7. "  WPAM ,Level of support for the DVA matching watchpoint masking capability" "Reserved,Implemented,?..."
textline "                        "
bitfld.long 0x0 0.--3. " PCS ,Level of support for Program Counter sampling using debug registers 40 and 41" "Reserved,Reserved,Reserved,Implemented,?..."
textline "                        "
rgroup.long c14:1011.++0x00
line.long 0x00 "DBGDEVTYPE,Debug Device Type Register"
bitfld.long 0x00 4.--7. " T          ,Sub type" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  C                ,Main class" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long c14:1016.++0x00
line.long 0x00 "DBGPID0,Debug Peripheral ID 0"
hexmask.long.byte 0x00 0.--7. 1. " PN[7:0]    ,Part Number [7:0]"
rgroup.long c14:1017.++0x00
line.long 0x00 "DBGPID1,Debug Peripheral ID 1"
hexmask.long.byte 0x00 4.--7. 1. " JEPID[3:0] ,JEP Identity Code[3:0]"
hexmask.long.byte 0x00 0.--3. 1. "  PN[11:8]         ,Part Number [11:8]"
rgroup.long c14:1018.++0x00
line.long 0x00 "DBGPID2,Debug Peripheral ID 2"
hexmask.long.byte 0x00 4.--7. 1. " REV        ,Revision"
bitfld.long 0x00 3. "  UJEPCODE         ,Uses JEP Code" "Disabled,Enabled"
hexmask.long.byte 0x00 0.--2. 1. "  JEPID[6:4] ,JEP Identity Code[6:4]"
rgroup.long c14:1019.++0x00
line.long 0x00 "DBGPID3,Debug Peripheral ID 3"
hexmask.long.byte 0x00 4.--7. 1. " REVAND     ,Manufacturing revision"
hexmask.long.byte 0x00 0.--3. 1. "  CM               ,Customer modified"
rgroup.long c14:1012.++0x00
line.long 0x00 "DBGPID4,Debug Peripheral ID 4"
hexmask.long.byte 0x00 4.--7. 1. " 4KB_COUNT  ,4KB count"
hexmask.long.byte 0x00 0.--3. 1. "  JEP106_CONT_CODE ,JEP 106 Continuation code"
rgroup.long c14:1020.++0x00
line.long 0x00 "DBGCID0,Debug Component ID 0"
hexmask.long.byte 0x00 0.--7. 1. " PREAMBLE   ,Preamble byte 0"
rgroup.long c14:1021.++0x00
line.long 0x00 "DBGCID1,Debug Component ID 1"
hexmask.long.byte 0x00 4.--7. 1. " CC         ,Component class"
hexmask.long.byte 0x00 0.--3. 1. "  PREAMBLE         ,Preamble byte 1"
rgroup.long c14:1022.++0x00
line.long 0x00 "DBGCID2,Debug Component ID 2"
hexmask.long.byte 0x00 0.--7. 1. " PREAMBLE   ,Preamble byte 2"
rgroup.long c14:1023.++0x00
line.long 0x00 "DBGCID3,Debug Component ID 3"
hexmask.long.byte 0x00 0.--7. 1. " PREAMBLE   ,Preamble byte 3"
tree.end
tree.end
width 10.
tree "Breakpoint Registers"
if ((d.l(c14:80.+0.)&0x500000)==(0x500000||0x400000||0x100000||0x0))
group.long c14:(64.+0.)++0x0
line.long 0x00 "DBGBVR0,Breakpoint Value Register(Address comparison)"
hexmask.long 0x00 2.--31. 0x4 " INSTADDR ,Address value for comparison. Bits 2-31"
else
group.long c14:(64.+0.)++0x0
line.long 0x00 "DBGBVR0,Breakpoint Value Register(Context matching)"
endif
group.long c14:(80.+0.)++0x0
line.long 0x00 "DBGBCR0,Breakpoint Control Register"
bitfld.long 0x00 20.--23. " BT       ,Breakpoint Type. Match - m / Mismatch - mm" "Unlinked instr addr m,Linked instr addr m,Unlinked Context ID m,Linked Context ID m,Unlinked instr addr mm,Linked instr addr mm,Reserved,Reserved,Unlinked VMID m,Linked VMID m,Unlinked VMID/Context ID m,Linked VMID/Context ID m,?..."
bitfld.long 0x00 16.--19. "  LBN ,Linked Breakpoint Number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 14.--15. "        SSC ,Security state control" "Both,Non-secure,Secure,Non-secure"
textline "                   "
bitfld.long 0x00 13. " HMC      ,Hyp mode control bit" "0,1"
bitfld.long 0x0 8. "                           BAS ,Byte 3 address select" "0,1"
bitfld.long 0x0 7. ",Byte 2 address select" "0,1"
bitfld.long 0x0 6. ",Byte 1 address select" "0,1"
bitfld.long 0x0 5. ",Byte 0 address select" "0,1"
textline "                   "
bitfld.long 0x00 1.--2. " PMC      ,Privileged mode control" "User/System/Supervisor/Hyp,PL1/Hyp,User only,Any mode"
bitfld.long 0x00 0. "  E   ,Breakpoint enable" "Disabled,Enabled"
if ((d.l(c14:80.+1.)&0x500000)==(0x500000||0x400000||0x100000||0x0))
group.long c14:(64.+1.)++0x0
line.long 0x00 "DBGBVR1,Breakpoint Value Register(Address comparison)"
hexmask.long 0x00 2.--31. 0x4 " INSTADDR ,Address value for comparison. Bits 2-31"
else
group.long c14:(64.+1.)++0x0
line.long 0x00 "DBGBVR1,Breakpoint Value Register(Context matching)"
endif
group.long c14:(80.+1.)++0x0
line.long 0x00 "DBGBCR1,Breakpoint Control Register"
bitfld.long 0x00 20.--23. " BT       ,Breakpoint Type. Match - m / Mismatch - mm" "Unlinked instr addr m,Linked instr addr m,Unlinked Context ID m,Linked Context ID m,Unlinked instr addr mm,Linked instr addr mm,Reserved,Reserved,Unlinked VMID m,Linked VMID m,Unlinked VMID/Context ID m,Linked VMID/Context ID m,?..."
bitfld.long 0x00 16.--19. "  LBN ,Linked Breakpoint Number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 14.--15. "        SSC ,Security state control" "Both,Non-secure,Secure,Non-secure"
textline "                   "
bitfld.long 0x00 13. " HMC      ,Hyp mode control bit" "0,1"
bitfld.long 0x0 8. "                           BAS ,Byte 3 address select" "0,1"
bitfld.long 0x0 7. ",Byte 2 address select" "0,1"
bitfld.long 0x0 6. ",Byte 1 address select" "0,1"
bitfld.long 0x0 5. ",Byte 0 address select" "0,1"
textline "                   "
bitfld.long 0x00 1.--2. " PMC      ,Privileged mode control" "User/System/Supervisor/Hyp,PL1/Hyp,User only,Any mode"
bitfld.long 0x00 0. "  E   ,Breakpoint enable" "Disabled,Enabled"
if ((d.l(c14:80.+2.)&0x500000)==(0x500000||0x400000||0x100000||0x0))
group.long c14:(64.+2.)++0x0
line.long 0x00 "DBGBVR2,Breakpoint Value Register(Address comparison)"
hexmask.long 0x00 2.--31. 0x4 " INSTADDR ,Address value for comparison. Bits 2-31"
else
group.long c14:(64.+2.)++0x0
line.long 0x00 "DBGBVR2,Breakpoint Value Register(Context matching)"
endif
group.long c14:(80.+2.)++0x0
line.long 0x00 "DBGBCR2,Breakpoint Control Register"
bitfld.long 0x00 20.--23. " BT       ,Breakpoint Type. Match - m / Mismatch - mm" "Unlinked instr addr m,Linked instr addr m,Unlinked Context ID m,Linked Context ID m,Unlinked instr addr mm,Linked instr addr mm,Reserved,Reserved,Unlinked VMID m,Linked VMID m,Unlinked VMID/Context ID m,Linked VMID/Context ID m,?..."
bitfld.long 0x00 16.--19. "  LBN ,Linked Breakpoint Number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 14.--15. "        SSC ,Security state control" "Both,Non-secure,Secure,Non-secure"
textline "                   "
bitfld.long 0x00 13. " HMC      ,Hyp mode control bit" "0,1"
bitfld.long 0x0 8. "                           BAS ,Byte 3 address select" "0,1"
bitfld.long 0x0 7. ",Byte 2 address select" "0,1"
bitfld.long 0x0 6. ",Byte 1 address select" "0,1"
bitfld.long 0x0 5. ",Byte 0 address select" "0,1"
textline "                   "
bitfld.long 0x00 1.--2. " PMC      ,Privileged mode control" "User/System/Supervisor/Hyp,PL1/Hyp,User only,Any mode"
bitfld.long 0x00 0. "  E   ,Breakpoint enable" "Disabled,Enabled"
if ((d.l(c14:80.+3.)&0x500000)==(0x500000||0x400000||0x100000||0x0))
group.long c14:(64.+3.)++0x0
line.long 0x00 "DBGBVR3,Breakpoint Value Register(Address comparison)"
hexmask.long 0x00 2.--31. 0x4 " INSTADDR ,Address value for comparison. Bits 2-31"
else
group.long c14:(64.+3.)++0x0
line.long 0x00 "DBGBVR3,Breakpoint Value Register(Context matching)"
endif
group.long c14:(80.+3.)++0x0
line.long 0x00 "DBGBCR3,Breakpoint Control Register"
bitfld.long 0x00 20.--23. " BT       ,Breakpoint Type. Match - m / Mismatch - mm" "Unlinked instr addr m,Linked instr addr m,Unlinked Context ID m,Linked Context ID m,Unlinked instr addr mm,Linked instr addr mm,Reserved,Reserved,Unlinked VMID m,Linked VMID m,Unlinked VMID/Context ID m,Linked VMID/Context ID m,?..."
bitfld.long 0x00 16.--19. "  LBN ,Linked Breakpoint Number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 14.--15. "        SSC ,Security state control" "Both,Non-secure,Secure,Non-secure"
textline "                   "
bitfld.long 0x00 13. " HMC      ,Hyp mode control bit" "0,1"
bitfld.long 0x0 8. "                           BAS ,Byte 3 address select" "0,1"
bitfld.long 0x0 7. ",Byte 2 address select" "0,1"
bitfld.long 0x0 6. ",Byte 1 address select" "0,1"
bitfld.long 0x0 5. ",Byte 0 address select" "0,1"
textline "                   "
bitfld.long 0x00 1.--2. " PMC      ,Privileged mode control" "User/System/Supervisor/Hyp,PL1/Hyp,User only,Any mode"
bitfld.long 0x00 0. "  E   ,Breakpoint enable" "Disabled,Enabled"
if ((d.l(c14:80.+4.)&0x500000)==(0x500000||0x400000||0x100000||0x0))
group.long c14:(64.+4.)++0x0
line.long 0x00 "DBGBVR4,Breakpoint Value Register(Address comparison)"
hexmask.long 0x00 2.--31. 0x4 " INSTADDR ,Address value for comparison. Bits 2-31"
else
group.long c14:(64.+4.)++0x0
line.long 0x00 "DBGBVR4,Breakpoint Value Register(Context matching)"
endif
group.long c14:(80.+4.)++0x0
line.long 0x00 "DBGBCR4,Breakpoint Control Register"
bitfld.long 0x00 20.--23. " BT       ,Breakpoint Type. Match - m / Mismatch - mm" "Unlinked instr addr m,Linked instr addr m,Unlinked Context ID m,Linked Context ID m,Unlinked instr addr mm,Linked instr addr mm,Reserved,Reserved,Unlinked VMID m,Linked VMID m,Unlinked VMID/Context ID m,Linked VMID/Context ID m,?..."
bitfld.long 0x00 16.--19. "  LBN ,Linked Breakpoint Number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 14.--15. "        SSC ,Security state control" "Both,Non-secure,Secure,Non-secure"
textline "                   "
bitfld.long 0x00 13. " HMC      ,Hyp mode control bit" "0,1"
bitfld.long 0x0 8. "                           BAS ,Byte 3 address select" "0,1"
bitfld.long 0x0 7. ",Byte 2 address select" "0,1"
bitfld.long 0x0 6. ",Byte 1 address select" "0,1"
bitfld.long 0x0 5. ",Byte 0 address select" "0,1"
textline "                   "
bitfld.long 0x00 1.--2. " PMC      ,Privileged mode control" "User/System/Supervisor/Hyp,PL1/Hyp,User only,Any mode"
bitfld.long 0x00 0. "  E   ,Breakpoint enable" "Disabled,Enabled"
if ((d.l(c14:80.+5.)&0x500000)==(0x500000||0x400000||0x100000||0x0))
group.long c14:(64.+5.)++0x0
line.long 0x00 "DBGBVR5,Breakpoint Value Register(Address comparison)"
hexmask.long 0x00 2.--31. 0x4 " INSTADDR ,Address value for comparison. Bits 2-31"
else
group.long c14:(64.+5.)++0x0
line.long 0x00 "DBGBVR5,Breakpoint Value Register(Context matching)"
endif
group.long c14:(80.+5.)++0x0
line.long 0x00 "DBGBCR5,Breakpoint Control Register"
bitfld.long 0x00 20.--23. " BT       ,Breakpoint Type. Match - m / Mismatch - mm" "Unlinked instr addr m,Linked instr addr m,Unlinked Context ID m,Linked Context ID m,Unlinked instr addr mm,Linked instr addr mm,Reserved,Reserved,Unlinked VMID m,Linked VMID m,Unlinked VMID/Context ID m,Linked VMID/Context ID m,?..."
bitfld.long 0x00 16.--19. "  LBN ,Linked Breakpoint Number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 14.--15. "        SSC ,Security state control" "Both,Non-secure,Secure,Non-secure"
textline "                   "
bitfld.long 0x00 13. " HMC      ,Hyp mode control bit" "0,1"
bitfld.long 0x0 8. "                           BAS ,Byte 3 address select" "0,1"
bitfld.long 0x0 7. ",Byte 2 address select" "0,1"
bitfld.long 0x0 6. ",Byte 1 address select" "0,1"
bitfld.long 0x0 5. ",Byte 0 address select" "0,1"
textline "                   "
bitfld.long 0x00 1.--2. " PMC      ,Privileged mode control" "User/System/Supervisor/Hyp,PL1/Hyp,User only,Any mode"
bitfld.long 0x00 0. "  E   ,Breakpoint enable" "Disabled,Enabled"
group.long c14:148.++0x0
line.long 0x00 "DBGBXVR0,Debug Breakpoint Extended Value Register"
hexmask.long.byte 0x00 0.--7. 1. " VMID     , VMID value"
group.long c14:149.++0x0
line.long 0x00 "DBGBXVR1,Debug Breakpoint Extended Value Register"
hexmask.long.byte 0x00 0.--7. 1. " VMID     , VMID value"
tree.end
width 10.
tree "Watchpoint Control Registers"
group.long c14:(96.+0.)++0x00
line.long 0x00 "DBGWVR0,Watchpoint Value Register"
hexmask.long 0x00 2.--31. 0x4 " DA   ,Data address"
if (corename()=="CORTEXA17"||corename()=="CORTEXA17MPCORE")
group.long c14:(112.+0.)++0x00
line.long 0x00 "DBGWCR0,Watchpoint Control Register"
bitfld.long 0x0 24.--28. " Mask ,Watchpoint address mask" "Not masked,Reserved,Reserved,0x7,0xF,0x1F,0x3F,0x7F,0xFF,0x1FF,0x3FF,0x7FF,0xFFF,0x1FFF,0x3FFF,0x7FFF,0xFFFF,0x1FFFF,0x3FFFF,0x7FFFF,0xFFFFF,0x1FFFFF,0x3FFFFF,0x7FFFFF,0xFFFFFF,0x1FFFFFF,0x3FFFFFF,0x7FFFFFF,0xFFFFFFF,0x1FFFFFFF,0x3FFFFFFF,0x7FFFFFFF"
bitfld.long 0x0 20. "  WT  ,Watchpoint Type" "Unlinked data addr match,Linked data addr match"
bitfld.long 0x0 16.--19. "     LBN ,Linked breakpoint number" "BRP,BRP1,BRP2,BRP3,BRP4,BRP5,BRP6,BRP7,BRP8,BRP9,BRP10,BRP11,BRP12,BRP13,BRP14,BRP15"
textline "                   "
bitfld.long 0x0 14.--15. " SSC  ,Secure state control" "Both,Non-secure,Secure,Non-secure"
bitfld.long 0x0 13. "  HMC ,Hyp Mode Control" "0,1"
bitfld.long 0x0 8. "                            BAS ,Byte 3 address select" "0,1"
bitfld.long 0x0 7. ",Byte 2 address select" "0,1"
bitfld.long 0x0 6. ",Byte 1 address select" "0,1"
bitfld.long 0x0 5. ",Byte 0 address select" "0,1"
textline "                   "
bitfld.long 0x0 3.--4. " LSC  ,Load/store access control" "Reserved,Load,Store,Any"
bitfld.long 0x0 1.--2. "    PAC ,Privileged Access control" "Hyp,Privileged,Unprivileged,Any"
bitfld.long 0x0 0. "                 E   ,Watchpoint enable" "Disabled,Enabled"
elif (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE"||corename()=="CORTEXA7"||corename()=="CORTEXA7MPCORE")
group.long c14:(112.+0.)++0x00
line.long 0x00 "DBGWCR0,Watchpoint Control Register"
bitfld.long 0x0 24.--28. " MASK ,Watchpoint address mask" "Not masked,Reserved,Reserved,0x7,0xF,0x1F,0x3F,0x7F,0xFF,0x1FF,0x3FF,0x7FF,0xFFF,0x1FFF,0x3FFF,0x7FFF,0xFFFF,0x1FFFF,0x3FFFF,0x7FFFF,0xFFFFF,0x1FFFFF,0x3FFFFF,0x7FFFFF,0xFFFFFF,0x1FFFFFF,0x3FFFFFF,0x7FFFFFF,0xFFFFFFF,0x1FFFFFFF,0x3FFFFFFF,0x7FFFFFFF"
bitfld.long 0x0 20. "  WT  ,Watchpoint Type" "Disabled,Enabled"
bitfld.long 0x0 16.--19. " LBN ,Linked BRP number" "BRP,BRP1,BRP2,BRP3,BRP4,BRP5,BRP6,BRP7,BRP8,BRP9,BRP10,BRP11,BRP12,BRP13,BRP14,BRP15"
textline "                   "
bitfld.long 0x0 14.--15. " SSC  ,Secure state control" "Both,Non-secure,Secure,?..."
bitfld.long 0x0 13. "  HMC ,Hyp Mode Control" "Disabled,Enabled"
bitfld.long 0x0 12. " BAS ,Byte 7 address select" "0,1"
bitfld.long 0x0 11. ",Byte 6 address select" "0,1"
bitfld.long 0x0 10. ",Byte 5 address select" "0,1"
bitfld.long 0x0 9. ",Byte 4 address select" "0,1"
bitfld.long 0x0 8. ",Byte 3 address select" "0,1"
bitfld.long 0x0 7. ",Byte 2 address select" "0,1"
bitfld.long 0x0 6. ",Byte 1 address select" "0,1"
bitfld.long 0x0 5. ",Byte 0 address select" "0,1"
textline "                   "
bitfld.long 0x0 3.--4. " LSC  ,Load/Store access control" "Reserved,Load,Store,Any"
bitfld.long 0x0 1.--2. "    PAC ,Privileged Access control" "Reserved,Match privileged accesses,Match unprivileged accesses,Match all accesses"
textline "                   "
bitfld.long 0x0 0. " WE   ,Watchpoint enable" "Disabled,Enabled"
endif
group.long c14:(96.+1.)++0x00
line.long 0x00 "DBGWVR1,Watchpoint Value Register"
hexmask.long 0x00 2.--31. 0x4 " DA   ,Data address"
if (corename()=="CORTEXA17"||corename()=="CORTEXA17MPCORE")
group.long c14:(112.+1.)++0x00
line.long 0x00 "DBGWCR1,Watchpoint Control Register"
bitfld.long 0x0 24.--28. " Mask ,Watchpoint address mask" "Not masked,Reserved,Reserved,0x7,0xF,0x1F,0x3F,0x7F,0xFF,0x1FF,0x3FF,0x7FF,0xFFF,0x1FFF,0x3FFF,0x7FFF,0xFFFF,0x1FFFF,0x3FFFF,0x7FFFF,0xFFFFF,0x1FFFFF,0x3FFFFF,0x7FFFFF,0xFFFFFF,0x1FFFFFF,0x3FFFFFF,0x7FFFFFF,0xFFFFFFF,0x1FFFFFFF,0x3FFFFFFF,0x7FFFFFFF"
bitfld.long 0x0 20. "  WT  ,Watchpoint Type" "Unlinked data addr match,Linked data addr match"
bitfld.long 0x0 16.--19. "     LBN ,Linked breakpoint number" "BRP,BRP1,BRP2,BRP3,BRP4,BRP5,BRP6,BRP7,BRP8,BRP9,BRP10,BRP11,BRP12,BRP13,BRP14,BRP15"
textline "                   "
bitfld.long 0x0 14.--15. " SSC  ,Secure state control" "Both,Non-secure,Secure,Non-secure"
bitfld.long 0x0 13. "  HMC ,Hyp Mode Control" "0,1"
bitfld.long 0x0 8. "                            BAS ,Byte 3 address select" "0,1"
bitfld.long 0x0 7. ",Byte 2 address select" "0,1"
bitfld.long 0x0 6. ",Byte 1 address select" "0,1"
bitfld.long 0x0 5. ",Byte 0 address select" "0,1"
textline "                   "
bitfld.long 0x0 3.--4. " LSC  ,Load/store access control" "Reserved,Load,Store,Any"
bitfld.long 0x0 1.--2. "    PAC ,Privileged Access control" "Hyp,Privileged,Unprivileged,Any"
bitfld.long 0x0 0. "                 E   ,Watchpoint enable" "Disabled,Enabled"
elif (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE"||corename()=="CORTEXA7"||corename()=="CORTEXA7MPCORE")
group.long c14:(112.+1.)++0x00
line.long 0x00 "DBGWCR1,Watchpoint Control Register"
bitfld.long 0x0 24.--28. " MASK ,Watchpoint address mask" "Not masked,Reserved,Reserved,0x7,0xF,0x1F,0x3F,0x7F,0xFF,0x1FF,0x3FF,0x7FF,0xFFF,0x1FFF,0x3FFF,0x7FFF,0xFFFF,0x1FFFF,0x3FFFF,0x7FFFF,0xFFFFF,0x1FFFFF,0x3FFFFF,0x7FFFFF,0xFFFFFF,0x1FFFFFF,0x3FFFFFF,0x7FFFFFF,0xFFFFFFF,0x1FFFFFFF,0x3FFFFFFF,0x7FFFFFFF"
bitfld.long 0x0 20. "  WT  ,Watchpoint Type" "Disabled,Enabled"
bitfld.long 0x0 16.--19. " LBN ,Linked BRP number" "BRP,BRP1,BRP2,BRP3,BRP4,BRP5,BRP6,BRP7,BRP8,BRP9,BRP10,BRP11,BRP12,BRP13,BRP14,BRP15"
textline "                   "
bitfld.long 0x0 14.--15. " SSC  ,Secure state control" "Both,Non-secure,Secure,?..."
bitfld.long 0x0 13. "  HMC ,Hyp Mode Control" "Disabled,Enabled"
bitfld.long 0x0 12. " BAS ,Byte 7 address select" "0,1"
bitfld.long 0x0 11. ",Byte 6 address select" "0,1"
bitfld.long 0x0 10. ",Byte 5 address select" "0,1"
bitfld.long 0x0 9. ",Byte 4 address select" "0,1"
bitfld.long 0x0 8. ",Byte 3 address select" "0,1"
bitfld.long 0x0 7. ",Byte 2 address select" "0,1"
bitfld.long 0x0 6. ",Byte 1 address select" "0,1"
bitfld.long 0x0 5. ",Byte 0 address select" "0,1"
textline "                   "
bitfld.long 0x0 3.--4. " LSC  ,Load/Store access control" "Reserved,Load,Store,Any"
bitfld.long 0x0 1.--2. "    PAC ,Privileged Access control" "Reserved,Match privileged accesses,Match unprivileged accesses,Match all accesses"
textline "                   "
bitfld.long 0x0 0. " WE   ,Watchpoint enable" "Disabled,Enabled"
endif
group.long c14:(96.+2.)++0x00
line.long 0x00 "DBGWVR2,Watchpoint Value Register"
hexmask.long 0x00 2.--31. 0x4 " DA   ,Data address"
if (corename()=="CORTEXA17"||corename()=="CORTEXA17MPCORE")
group.long c14:(112.+2.)++0x00
line.long 0x00 "DBGWCR2,Watchpoint Control Register"
bitfld.long 0x0 24.--28. " Mask ,Watchpoint address mask" "Not masked,Reserved,Reserved,0x7,0xF,0x1F,0x3F,0x7F,0xFF,0x1FF,0x3FF,0x7FF,0xFFF,0x1FFF,0x3FFF,0x7FFF,0xFFFF,0x1FFFF,0x3FFFF,0x7FFFF,0xFFFFF,0x1FFFFF,0x3FFFFF,0x7FFFFF,0xFFFFFF,0x1FFFFFF,0x3FFFFFF,0x7FFFFFF,0xFFFFFFF,0x1FFFFFFF,0x3FFFFFFF,0x7FFFFFFF"
bitfld.long 0x0 20. "  WT  ,Watchpoint Type" "Unlinked data addr match,Linked data addr match"
bitfld.long 0x0 16.--19. "     LBN ,Linked breakpoint number" "BRP,BRP1,BRP2,BRP3,BRP4,BRP5,BRP6,BRP7,BRP8,BRP9,BRP10,BRP11,BRP12,BRP13,BRP14,BRP15"
textline "                   "
bitfld.long 0x0 14.--15. " SSC  ,Secure state control" "Both,Non-secure,Secure,Non-secure"
bitfld.long 0x0 13. "  HMC ,Hyp Mode Control" "0,1"
bitfld.long 0x0 8. "                            BAS ,Byte 3 address select" "0,1"
bitfld.long 0x0 7. ",Byte 2 address select" "0,1"
bitfld.long 0x0 6. ",Byte 1 address select" "0,1"
bitfld.long 0x0 5. ",Byte 0 address select" "0,1"
textline "                   "
bitfld.long 0x0 3.--4. " LSC  ,Load/store access control" "Reserved,Load,Store,Any"
bitfld.long 0x0 1.--2. "    PAC ,Privileged Access control" "Hyp,Privileged,Unprivileged,Any"
bitfld.long 0x0 0. "                 E   ,Watchpoint enable" "Disabled,Enabled"
elif (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE"||corename()=="CORTEXA7"||corename()=="CORTEXA7MPCORE")
group.long c14:(112.+2.)++0x00
line.long 0x00 "DBGWCR2,Watchpoint Control Register"
bitfld.long 0x0 24.--28. " MASK ,Watchpoint address mask" "Not masked,Reserved,Reserved,0x7,0xF,0x1F,0x3F,0x7F,0xFF,0x1FF,0x3FF,0x7FF,0xFFF,0x1FFF,0x3FFF,0x7FFF,0xFFFF,0x1FFFF,0x3FFFF,0x7FFFF,0xFFFFF,0x1FFFFF,0x3FFFFF,0x7FFFFF,0xFFFFFF,0x1FFFFFF,0x3FFFFFF,0x7FFFFFF,0xFFFFFFF,0x1FFFFFFF,0x3FFFFFFF,0x7FFFFFFF"
bitfld.long 0x0 20. "  WT  ,Watchpoint Type" "Disabled,Enabled"
bitfld.long 0x0 16.--19. " LBN ,Linked BRP number" "BRP,BRP1,BRP2,BRP3,BRP4,BRP5,BRP6,BRP7,BRP8,BRP9,BRP10,BRP11,BRP12,BRP13,BRP14,BRP15"
textline "                   "
bitfld.long 0x0 14.--15. " SSC  ,Secure state control" "Both,Non-secure,Secure,?..."
bitfld.long 0x0 13. "  HMC ,Hyp Mode Control" "Disabled,Enabled"
bitfld.long 0x0 12. " BAS ,Byte 7 address select" "0,1"
bitfld.long 0x0 11. ",Byte 6 address select" "0,1"
bitfld.long 0x0 10. ",Byte 5 address select" "0,1"
bitfld.long 0x0 9. ",Byte 4 address select" "0,1"
bitfld.long 0x0 8. ",Byte 3 address select" "0,1"
bitfld.long 0x0 7. ",Byte 2 address select" "0,1"
bitfld.long 0x0 6. ",Byte 1 address select" "0,1"
bitfld.long 0x0 5. ",Byte 0 address select" "0,1"
textline "                   "
bitfld.long 0x0 3.--4. " LSC  ,Load/Store access control" "Reserved,Load,Store,Any"
bitfld.long 0x0 1.--2. "    PAC ,Privileged Access control" "Reserved,Match privileged accesses,Match unprivileged accesses,Match all accesses"
textline "                   "
bitfld.long 0x0 0. " WE   ,Watchpoint enable" "Disabled,Enabled"
endif
group.long c14:(96.+3.)++0x00
line.long 0x00 "DBGWVR3,Watchpoint Value Register"
hexmask.long 0x00 2.--31. 0x4 " DA   ,Data address"
if (corename()=="CORTEXA17"||corename()=="CORTEXA17MPCORE")
group.long c14:(112.+3.)++0x00
line.long 0x00 "DBGWCR3,Watchpoint Control Register"
bitfld.long 0x0 24.--28. " Mask ,Watchpoint address mask" "Not masked,Reserved,Reserved,0x7,0xF,0x1F,0x3F,0x7F,0xFF,0x1FF,0x3FF,0x7FF,0xFFF,0x1FFF,0x3FFF,0x7FFF,0xFFFF,0x1FFFF,0x3FFFF,0x7FFFF,0xFFFFF,0x1FFFFF,0x3FFFFF,0x7FFFFF,0xFFFFFF,0x1FFFFFF,0x3FFFFFF,0x7FFFFFF,0xFFFFFFF,0x1FFFFFFF,0x3FFFFFFF,0x7FFFFFFF"
bitfld.long 0x0 20. "  WT  ,Watchpoint Type" "Unlinked data addr match,Linked data addr match"
bitfld.long 0x0 16.--19. "     LBN ,Linked breakpoint number" "BRP,BRP1,BRP2,BRP3,BRP4,BRP5,BRP6,BRP7,BRP8,BRP9,BRP10,BRP11,BRP12,BRP13,BRP14,BRP15"
textline "                   "
bitfld.long 0x0 14.--15. " SSC  ,Secure state control" "Both,Non-secure,Secure,Non-secure"
bitfld.long 0x0 13. "  HMC ,Hyp Mode Control" "0,1"
bitfld.long 0x0 8. "                            BAS ,Byte 3 address select" "0,1"
bitfld.long 0x0 7. ",Byte 2 address select" "0,1"
bitfld.long 0x0 6. ",Byte 1 address select" "0,1"
bitfld.long 0x0 5. ",Byte 0 address select" "0,1"
textline "                   "
bitfld.long 0x0 3.--4. " LSC  ,Load/store access control" "Reserved,Load,Store,Any"
bitfld.long 0x0 1.--2. "    PAC ,Privileged Access control" "Hyp,Privileged,Unprivileged,Any"
bitfld.long 0x0 0. "                 E   ,Watchpoint enable" "Disabled,Enabled"
elif (corename()=="CORTEXA15"||corename()=="CORTEXA15MPCORE"||corename()=="CORTEXA7"||corename()=="CORTEXA7MPCORE")
group.long c14:(112.+3.)++0x00
line.long 0x00 "DBGWCR3,Watchpoint Control Register"
bitfld.long 0x0 24.--28. " MASK ,Watchpoint address mask" "Not masked,Reserved,Reserved,0x7,0xF,0x1F,0x3F,0x7F,0xFF,0x1FF,0x3FF,0x7FF,0xFFF,0x1FFF,0x3FFF,0x7FFF,0xFFFF,0x1FFFF,0x3FFFF,0x7FFFF,0xFFFFF,0x1FFFFF,0x3FFFFF,0x7FFFFF,0xFFFFFF,0x1FFFFFF,0x3FFFFFF,0x7FFFFFF,0xFFFFFFF,0x1FFFFFFF,0x3FFFFFFF,0x7FFFFFFF"
bitfld.long 0x0 20. "  WT  ,Watchpoint Type" "Disabled,Enabled"
bitfld.long 0x0 16.--19. " LBN ,Linked BRP number" "BRP,BRP1,BRP2,BRP3,BRP4,BRP5,BRP6,BRP7,BRP8,BRP9,BRP10,BRP11,BRP12,BRP13,BRP14,BRP15"
textline "                   "
bitfld.long 0x0 14.--15. " SSC  ,Secure state control" "Both,Non-secure,Secure,?..."
bitfld.long 0x0 13. "  HMC ,Hyp Mode Control" "Disabled,Enabled"
bitfld.long 0x0 12. " BAS ,Byte 7 address select" "0,1"
bitfld.long 0x0 11. ",Byte 6 address select" "0,1"
bitfld.long 0x0 10. ",Byte 5 address select" "0,1"
bitfld.long 0x0 9. ",Byte 4 address select" "0,1"
bitfld.long 0x0 8. ",Byte 3 address select" "0,1"
bitfld.long 0x0 7. ",Byte 2 address select" "0,1"
bitfld.long 0x0 6. ",Byte 1 address select" "0,1"
bitfld.long 0x0 5. ",Byte 0 address select" "0,1"
textline "                   "
bitfld.long 0x0 3.--4. " LSC  ,Load/Store access control" "Reserved,Load,Store,Any"
bitfld.long 0x0 1.--2. "    PAC ,Privileged Access control" "Reserved,Match privileged accesses,Match unprivileged accesses,Match all accesses"
textline "                   "
bitfld.long 0x0 0. " WE   ,Watchpoint enable" "Disabled,Enabled"
endif
tree.end
width 0xb
base AD:(data.long(c15:0x400F)&0xffff8000)
tree "Interrupt Controller"
width 17.
group.long 0x1000++0x03 "Interrupt Controller Distributor"
line.long 0x00 "GICD_CTLR,Distributor Control Register"
bitfld.long 0x00 0. " ENABLE    ,Global Interrupt Enable" "Disabled,Enabled"
rgroup.long 0x1004++0x03
line.long 0x00 "GICD_ICTR,Interrupt Controller Type Register"
bitfld.long 0x00 11.--15. " LSPI      ,Locable Shared Peripheral Interrupts" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        SECURITYEXTN  ,Indicate whether interrupt controller implements the security extensions" "No effect,Implemented"
textline "                          "
bitfld.long 0x00 5.--7. " CPUNUMBER ,Indicates the number of implemented CPU interfaces" "1,2,3,4,?..."
bitfld.long 0x00 0.--4. "         ITLN          ,Indicates the number of interrupts that the interrupt controller supports" "up to 32/0 external,up to 64/32 external,up to 96/64 external,up to 128/96 external,up to 160/128 external,up to 192/160 external,up to 224/192 external,up to 256/224 external,?..."
rgroup.long 0x1008++0x03
line.long 0x00 "GICD_IIDR,Distributor Implementer Identfication Register"
hexmask.long.byte 0x00 24.--31. 1. " PRODID    ,Product ID"
bitfld.long 0x00 16.--19. "        VAR           ,Major revison number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                          "
bitfld.long 0x00 12.--15. " REV       ,Minor revision number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 0.--11. 1. "        IMP           ,Implementer"
tree "Group Registers"
group.long 0x1080++0x03
line.long 0x0 "GICD_IGROUPR0,Interrupt Group Register 0"
bitfld.long 0x00 31. " GSB31     ,Group Status Bit 31" "Group 0,Group 1"
bitfld.long 0x00 30. "       GSB30     ,Group Status Bit 30" "Group 0,Group 1"
bitfld.long 0x00 29. "       GSB29     ,Group Status Bit 29" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 28. " GSB28     ,Group Status Bit 28" "Group 0,Group 1"
bitfld.long 0x00 27. "       GSB27     ,Group Status Bit 27" "Group 0,Group 1"
bitfld.long 0x00 26. "       GSB26     ,Group Status Bit 26" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 25. " GSB25     ,Group Status Bit 25" "Group 0,Group 1"
bitfld.long 0x00 24. "       GSB24     ,Group Status Bit 24" "Group 0,Group 1"
bitfld.long 0x00 23. "       GSB23     ,Group Status Bit 23" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 22. " GSB22     ,Group Status Bit 22" "Group 0,Group 1"
bitfld.long 0x00 21. "       GSB21     ,Group Status Bit 21" "Group 0,Group 1"
bitfld.long 0x00 20. "       GSB20     ,Group Status Bit 20" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 19. " GSB19     ,Group Status Bit 19" "Group 0,Group 1"
bitfld.long 0x00 18. "       GSB18     ,Group Status Bit 18" "Group 0,Group 1"
bitfld.long 0x00 17. "       GSB17     ,Group Status Bit 17" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 16. " GSB16     ,Group Status Bit 16" "Group 0,Group 1"
bitfld.long 0x00 15. "       GSB15     ,Group Status Bit 15" "Group 0,Group 1"
bitfld.long 0x00 14. "       GSB14     ,Group Status Bit 14" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 13. " GSB13     ,Group Status Bit 13" "Group 0,Group 1"
bitfld.long 0x00 12. "       GSB12     ,Group Status Bit 12" "Group 0,Group 1"
bitfld.long 0x00 11. "       GSB11     ,Group Status Bit 11" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 10. " GSB10     ,Group Status Bit 10" "Group 0,Group 1"
bitfld.long 0x00 9. "       GSB9      ,Group Status Bit 9" "Group 0,Group 1"
bitfld.long 0x00 8. "       GSB8      ,Group Status Bit 8" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 7. " GSB7      ,Group Status Bit 7" "Group 0,Group 1"
bitfld.long 0x00 6. "       GSB6      ,Group Status Bit 6" "Group 0,Group 1"
bitfld.long 0x00 5. "       GSB5      ,Group Status Bit 5" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 4. " GSB4      ,Group Status Bit 4" "Group 0,Group 1"
bitfld.long 0x00 3. "       GSB3      ,Group Status Bit 3" "Group 0,Group 1"
bitfld.long 0x00 2. "       GSB2      ,Group Status Bit 2" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 1. " GSB1      ,Group Status Bit 1" "Group 0,Group 1"
bitfld.long 0x00 0. "       GSB0      ,Group Status Bit 0" "Group 0,Group 1"
group.long 0x1084++0x03
line.long 0x0 "GICD_IGROUPR1,Interrupt Group Register 1"
bitfld.long 0x00 31. " GSB63     ,Group Status Bit 63" "Group 0,Group 1"
bitfld.long 0x00 30. "       GSB62     ,Group Status Bit 62" "Group 0,Group 1"
bitfld.long 0x00 29. "       GSB61     ,Group Status Bit 61" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 28. " GSB60     ,Group Status Bit 60" "Group 0,Group 1"
bitfld.long 0x00 27. "       GSB59     ,Group Status Bit 59" "Group 0,Group 1"
bitfld.long 0x00 26. "       GSB58     ,Group Status Bit 58" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 25. " GSB57     ,Group Status Bit 57" "Group 0,Group 1"
bitfld.long 0x00 24. "       GSB56     ,Group Status Bit 56" "Group 0,Group 1"
bitfld.long 0x00 23. "       GSB55     ,Group Status Bit 55" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 22. " GSB54     ,Group Status Bit 54" "Group 0,Group 1"
bitfld.long 0x00 21. "       GSB53     ,Group Status Bit 53" "Group 0,Group 1"
bitfld.long 0x00 20. "       GSB52     ,Group Status Bit 52" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 19. " GSB51     ,Group Status Bit 51" "Group 0,Group 1"
bitfld.long 0x00 18. "       GSB50     ,Group Status Bit 50" "Group 0,Group 1"
bitfld.long 0x00 17. "       GSB49     ,Group Status Bit 49" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 16. " GSB48     ,Group Status Bit 48" "Group 0,Group 1"
bitfld.long 0x00 15. "       GSB47     ,Group Status Bit 47" "Group 0,Group 1"
bitfld.long 0x00 14. "       GSB46     ,Group Status Bit 46" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 13. " GSB45     ,Group Status Bit 45" "Group 0,Group 1"
bitfld.long 0x00 12. "       GSB44     ,Group Status Bit 44" "Group 0,Group 1"
bitfld.long 0x00 11. "       GSB43     ,Group Status Bit 43" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 10. " GSB42     ,Group Status Bit 42" "Group 0,Group 1"
bitfld.long 0x00 9. "       GSB41     ,Group Status Bit 41" "Group 0,Group 1"
bitfld.long 0x00 8. "       GSB40     ,Group Status Bit 40" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 7. " GSB39     ,Group Status Bit 39" "Group 0,Group 1"
bitfld.long 0x00 6. "       GSB38     ,Group Status Bit 38" "Group 0,Group 1"
bitfld.long 0x00 5. "       GSB37     ,Group Status Bit 37" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 4. " GSB36     ,Group Status Bit 36" "Group 0,Group 1"
bitfld.long 0x00 3. "       GSB35     ,Group Status Bit 35" "Group 0,Group 1"
bitfld.long 0x00 2. "       GSB34     ,Group Status Bit 34" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 1. " GSB33     ,Group Status Bit 33" "Group 0,Group 1"
bitfld.long 0x00 0. "       GSB32     ,Group Status Bit 32" "Group 0,Group 1"
group.long 0x1088++0x03
line.long 0x0 "GICD_IGROUPR2,Interrupt Group Register 2"
bitfld.long 0x00 31. " GSB95     ,Group Status Bit 95" "Group 0,Group 1"
bitfld.long 0x00 30. "       GSB94     ,Group Status Bit 94" "Group 0,Group 1"
bitfld.long 0x00 29. "       GSB93     ,Group Status Bit 93" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 28. " GSB92     ,Group Status Bit 92" "Group 0,Group 1"
bitfld.long 0x00 27. "       GSB91     ,Group Status Bit 91" "Group 0,Group 1"
bitfld.long 0x00 26. "       GSB90     ,Group Status Bit 90" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 25. " GSB89     ,Group Status Bit 89" "Group 0,Group 1"
bitfld.long 0x00 24. "       GSB88     ,Group Status Bit 88" "Group 0,Group 1"
bitfld.long 0x00 23. "       GSB87     ,Group Status Bit 87" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 22. " GSB86     ,Group Status Bit 86" "Group 0,Group 1"
bitfld.long 0x00 21. "       GSB85     ,Group Status Bit 85" "Group 0,Group 1"
bitfld.long 0x00 20. "       GSB84     ,Group Status Bit 84" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 19. " GSB83     ,Group Status Bit 83" "Group 0,Group 1"
bitfld.long 0x00 18. "       GSB82     ,Group Status Bit 82" "Group 0,Group 1"
bitfld.long 0x00 17. "       GSB81     ,Group Status Bit 81" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 16. " GSB80     ,Group Status Bit 80" "Group 0,Group 1"
bitfld.long 0x00 15. "       GSB79     ,Group Status Bit 79" "Group 0,Group 1"
bitfld.long 0x00 14. "       GSB78     ,Group Status Bit 78" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 13. " GSB77     ,Group Status Bit 77" "Group 0,Group 1"
bitfld.long 0x00 12. "       GSB76     ,Group Status Bit 76" "Group 0,Group 1"
bitfld.long 0x00 11. "       GSB75     ,Group Status Bit 75" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 10. " GSB74     ,Group Status Bit 74" "Group 0,Group 1"
bitfld.long 0x00 9. "       GSB73     ,Group Status Bit 73" "Group 0,Group 1"
bitfld.long 0x00 8. "       GSB72     ,Group Status Bit 72" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 7. " GSB71     ,Group Status Bit 71" "Group 0,Group 1"
bitfld.long 0x00 6. "       GSB70     ,Group Status Bit 70" "Group 0,Group 1"
bitfld.long 0x00 5. "       GSB69     ,Group Status Bit 69" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 4. " GSB68     ,Group Status Bit 68" "Group 0,Group 1"
bitfld.long 0x00 3. "       GSB67     ,Group Status Bit 67" "Group 0,Group 1"
bitfld.long 0x00 2. "       GSB66     ,Group Status Bit 66" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 1. " GSB65     ,Group Status Bit 65" "Group 0,Group 1"
bitfld.long 0x00 0. "       GSB64     ,Group Status Bit 64" "Group 0,Group 1"
group.long 0x108C++0x03
line.long 0x0 "GICD_IGROUPR3,Interrupt Group Register 3"
bitfld.long 0x00 31. " GSB127    ,Group Status Bit 127" "Group 0,Group 1"
bitfld.long 0x00 30. "       GSB126    ,Group Status Bit 126" "Group 0,Group 1"
bitfld.long 0x00 29. "       GSB125    ,Group Status Bit 125" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 28. " GSB124    ,Group Status Bit 124" "Group 0,Group 1"
bitfld.long 0x00 27. "       GSB123    ,Group Status Bit 123" "Group 0,Group 1"
bitfld.long 0x00 26. "       GSB122    ,Group Status Bit 122" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 25. " GSB121    ,Group Status Bit 121" "Group 0,Group 1"
bitfld.long 0x00 24. "       GSB120    ,Group Status Bit 120" "Group 0,Group 1"
bitfld.long 0x00 23. "       GSB119    ,Group Status Bit 119" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 22. " GSB118    ,Group Status Bit 118" "Group 0,Group 1"
bitfld.long 0x00 21. "       GSB117    ,Group Status Bit 117" "Group 0,Group 1"
bitfld.long 0x00 20. "       GSB116    ,Group Status Bit 116" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 19. " GSB115    ,Group Status Bit 115" "Group 0,Group 1"
bitfld.long 0x00 18. "       GSB114    ,Group Status Bit 114" "Group 0,Group 1"
bitfld.long 0x00 17. "       GSB113    ,Group Status Bit 113" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 16. " GSB112    ,Group Status Bit 112" "Group 0,Group 1"
bitfld.long 0x00 15. "       GSB111    ,Group Status Bit 111" "Group 0,Group 1"
bitfld.long 0x00 14. "       GSB110    ,Group Status Bit 110" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 13. " GSB109    ,Group Status Bit 109" "Group 0,Group 1"
bitfld.long 0x00 12. "       GSB108    ,Group Status Bit 108" "Group 0,Group 1"
bitfld.long 0x00 11. "       GSB107    ,Group Status Bit 107" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 10. " GSB106    ,Group Status Bit 106" "Group 0,Group 1"
bitfld.long 0x00 9. "       GSB105    ,Group Status Bit 105" "Group 0,Group 1"
bitfld.long 0x00 8. "       GSB104    ,Group Status Bit 104" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 7. " GSB103    ,Group Status Bit 103" "Group 0,Group 1"
bitfld.long 0x00 6. "       GSB102    ,Group Status Bit 102" "Group 0,Group 1"
bitfld.long 0x00 5. "       GSB101    ,Group Status Bit 101" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 4. " GSB100    ,Group Status Bit 100" "Group 0,Group 1"
bitfld.long 0x00 3. "       GSB99     ,Group Status Bit 99" "Group 0,Group 1"
bitfld.long 0x00 2. "       GSB98     ,Group Status Bit 98" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 1. " GSB97     ,Group Status Bit 97" "Group 0,Group 1"
bitfld.long 0x00 0. "       GSB96     ,Group Status Bit 96" "Group 0,Group 1"
group.long 0x1090++0x03
line.long 0x0 "GICD_IGROUPR4,Interrupt Group Register 4"
bitfld.long 0x00 31. " GSB159    ,Group Status Bit 159" "Group 0,Group 1"
bitfld.long 0x00 30. "       GSB158    ,Group Status Bit 158" "Group 0,Group 1"
bitfld.long 0x00 29. "       GSB157    ,Group Status Bit 157" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 28. " GSB156    ,Group Status Bit 156" "Group 0,Group 1"
bitfld.long 0x00 27. "       GSB155    ,Group Status Bit 155" "Group 0,Group 1"
bitfld.long 0x00 26. "       GSB154    ,Group Status Bit 154" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 25. " GSB153    ,Group Status Bit 153" "Group 0,Group 1"
bitfld.long 0x00 24. "       GSB152    ,Group Status Bit 152" "Group 0,Group 1"
bitfld.long 0x00 23. "       GSB151    ,Group Status Bit 151" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 22. " GSB150    ,Group Status Bit 150" "Group 0,Group 1"
bitfld.long 0x00 21. "       GSB149    ,Group Status Bit 149" "Group 0,Group 1"
bitfld.long 0x00 20. "       GSB148    ,Group Status Bit 148" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 19. " GSB147    ,Group Status Bit 147" "Group 0,Group 1"
bitfld.long 0x00 18. "       GSB146    ,Group Status Bit 146" "Group 0,Group 1"
bitfld.long 0x00 17. "       GSB145    ,Group Status Bit 145" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 16. " GSB144    ,Group Status Bit 144" "Group 0,Group 1"
bitfld.long 0x00 15. "       GSB143    ,Group Status Bit 143" "Group 0,Group 1"
bitfld.long 0x00 14. "       GSB142    ,Group Status Bit 142" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 13. " GSB141    ,Group Status Bit 141" "Group 0,Group 1"
bitfld.long 0x00 12. "       GSB140    ,Group Status Bit 140" "Group 0,Group 1"
bitfld.long 0x00 11. "       GSB139    ,Group Status Bit 139" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 10. " GSB138    ,Group Status Bit 138" "Group 0,Group 1"
bitfld.long 0x00 9. "       GSB137    ,Group Status Bit 137" "Group 0,Group 1"
bitfld.long 0x00 8. "       GSB136    ,Group Status Bit 136" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 7. " GSB135    ,Group Status Bit 135" "Group 0,Group 1"
bitfld.long 0x00 6. "       GSB134    ,Group Status Bit 134" "Group 0,Group 1"
bitfld.long 0x00 5. "       GSB133    ,Group Status Bit 133" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 4. " GSB132    ,Group Status Bit 132" "Group 0,Group 1"
bitfld.long 0x00 3. "       GSB131    ,Group Status Bit 131" "Group 0,Group 1"
bitfld.long 0x00 2. "       GSB130    ,Group Status Bit 130" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 1. " GSB129    ,Group Status Bit 129" "Group 0,Group 1"
bitfld.long 0x00 0. "       GSB128    ,Group Status Bit 128" "Group 0,Group 1"
group.long 0x1094++0x03
line.long 0x0 "GICD_IGROUPR5,Interrupt Group Register 5"
bitfld.long 0x00 31. " GSB191    ,Group Status Bit 191" "Group 0,Group 1"
bitfld.long 0x00 30. "       GSB190    ,Group Status Bit 190" "Group 0,Group 1"
bitfld.long 0x00 29. "       GSB189    ,Group Status Bit 189" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 28. " GSB188    ,Group Status Bit 188" "Group 0,Group 1"
bitfld.long 0x00 27. "       GSB187    ,Group Status Bit 187" "Group 0,Group 1"
bitfld.long 0x00 26. "       GSB186    ,Group Status Bit 186" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 25. " GSB185    ,Group Status Bit 185" "Group 0,Group 1"
bitfld.long 0x00 24. "       GSB184    ,Group Status Bit 184" "Group 0,Group 1"
bitfld.long 0x00 23. "       GSB183    ,Group Status Bit 183" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 22. " GSB182    ,Group Status Bit 182" "Group 0,Group 1"
bitfld.long 0x00 21. "       GSB181    ,Group Status Bit 181" "Group 0,Group 1"
bitfld.long 0x00 20. "       GSB180    ,Group Status Bit 180" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 19. " GSB179    ,Group Status Bit 179" "Group 0,Group 1"
bitfld.long 0x00 18. "       GSB178    ,Group Status Bit 178" "Group 0,Group 1"
bitfld.long 0x00 17. "       GSB177    ,Group Status Bit 177" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 16. " GSB176    ,Group Status Bit 176" "Group 0,Group 1"
bitfld.long 0x00 15. "       GSB175    ,Group Status Bit 175" "Group 0,Group 1"
bitfld.long 0x00 14. "       GSB174    ,Group Status Bit 174" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 13. " GSB173    ,Group Status Bit 173" "Group 0,Group 1"
bitfld.long 0x00 12. "       GSB172    ,Group Status Bit 172" "Group 0,Group 1"
bitfld.long 0x00 11. "       GSB171    ,Group Status Bit 171" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 10. " GSB170    ,Group Status Bit 170" "Group 0,Group 1"
bitfld.long 0x00 9. "       GSB169    ,Group Status Bit 169" "Group 0,Group 1"
bitfld.long 0x00 8. "       GSB168    ,Group Status Bit 168" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 7. " GSB167    ,Group Status Bit 167" "Group 0,Group 1"
bitfld.long 0x00 6. "       GSB166    ,Group Status Bit 166" "Group 0,Group 1"
bitfld.long 0x00 5. "       GSB165    ,Group Status Bit 165" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 4. " GSB164    ,Group Status Bit 164" "Group 0,Group 1"
bitfld.long 0x00 3. "       GSB163    ,Group Status Bit 163" "Group 0,Group 1"
bitfld.long 0x00 2. "       GSB162    ,Group Status Bit 162" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 1. " GSB161    ,Group Status Bit 161" "Group 0,Group 1"
bitfld.long 0x00 0. "       GSB160    ,Group Status Bit 160" "Group 0,Group 1"
group.long 0x1098++0x03
line.long 0x0 "GICD_IGROUPR6,Interrupt Group Register 6"
bitfld.long 0x00 31. " GSB223    ,Group Status Bit 223" "Group 0,Group 1"
bitfld.long 0x00 30. "       GSB222    ,Group Status Bit 222" "Group 0,Group 1"
bitfld.long 0x00 29. "       GSB221    ,Group Status Bit 221" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 28. " GSB220    ,Group Status Bit 220" "Group 0,Group 1"
bitfld.long 0x00 27. "       GSB219    ,Group Status Bit 219" "Group 0,Group 1"
bitfld.long 0x00 26. "       GSB218    ,Group Status Bit 218" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 25. " GSB217    ,Group Status Bit 217" "Group 0,Group 1"
bitfld.long 0x00 24. "       GSB216    ,Group Status Bit 216" "Group 0,Group 1"
bitfld.long 0x00 23. "       GSB215    ,Group Status Bit 215" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 22. " GSB214    ,Group Status Bit 214" "Group 0,Group 1"
bitfld.long 0x00 21. "       GSB213    ,Group Status Bit 213" "Group 0,Group 1"
bitfld.long 0x00 20. "       GSB212    ,Group Status Bit 212" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 19. " GSB211    ,Group Status Bit 211" "Group 0,Group 1"
bitfld.long 0x00 18. "       GSB210    ,Group Status Bit 210" "Group 0,Group 1"
bitfld.long 0x00 17. "       GSB209    ,Group Status Bit 209" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 16. " GSB208    ,Group Status Bit 208" "Group 0,Group 1"
bitfld.long 0x00 15. "       GSB207    ,Group Status Bit 207" "Group 0,Group 1"
bitfld.long 0x00 14. "       GSB206    ,Group Status Bit 206" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 13. " GSB205    ,Group Status Bit 205" "Group 0,Group 1"
bitfld.long 0x00 12. "       GSB204    ,Group Status Bit 204" "Group 0,Group 1"
bitfld.long 0x00 11. "       GSB203    ,Group Status Bit 203" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 10. " GSB202    ,Group Status Bit 202" "Group 0,Group 1"
bitfld.long 0x00 9. "       GSB201    ,Group Status Bit 201" "Group 0,Group 1"
bitfld.long 0x00 8. "       GSB200    ,Group Status Bit 200" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 7. " GSB199    ,Group Status Bit 199" "Group 0,Group 1"
bitfld.long 0x00 6. "       GSB198    ,Group Status Bit 198" "Group 0,Group 1"
bitfld.long 0x00 5. "       GSB197    ,Group Status Bit 197" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 4. " GSB196    ,Group Status Bit 196" "Group 0,Group 1"
bitfld.long 0x00 3. "       GSB195    ,Group Status Bit 195" "Group 0,Group 1"
bitfld.long 0x00 2. "       GSB194    ,Group Status Bit 194" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 1. " GSB193    ,Group Status Bit 193" "Group 0,Group 1"
bitfld.long 0x00 0. "       GSB192    ,Group Status Bit 192" "Group 0,Group 1"
group.long 0x109C++0x03
line.long 0x0 "GICD_IGROUPR7,Interrupt Group Register 7"
bitfld.long 0x00 31. " GSB255    ,Group Status Bit 255" "Group 0,Group 1"
bitfld.long 0x00 30. "       GSB254    ,Group Status Bit 254" "Group 0,Group 1"
bitfld.long 0x00 29. "       GSB253    ,Group Status Bit 253" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 28. " GSB252    ,Group Status Bit 252" "Group 0,Group 1"
bitfld.long 0x00 27. "       GSB251    ,Group Status Bit 251" "Group 0,Group 1"
bitfld.long 0x00 26. "       GSB250    ,Group Status Bit 250" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 25. " GSB249    ,Group Status Bit 249" "Group 0,Group 1"
bitfld.long 0x00 24. "       GSB248    ,Group Status Bit 248" "Group 0,Group 1"
bitfld.long 0x00 23. "       GSB247    ,Group Status Bit 247" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 22. " GSB246    ,Group Status Bit 246" "Group 0,Group 1"
bitfld.long 0x00 21. "       GSB245    ,Group Status Bit 245" "Group 0,Group 1"
bitfld.long 0x00 20. "       GSB244    ,Group Status Bit 244" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 19. " GSB243    ,Group Status Bit 243" "Group 0,Group 1"
bitfld.long 0x00 18. "       GSB242    ,Group Status Bit 242" "Group 0,Group 1"
bitfld.long 0x00 17. "       GSB241    ,Group Status Bit 241" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 16. " GSB240    ,Group Status Bit 240" "Group 0,Group 1"
bitfld.long 0x00 15. "       GSB239    ,Group Status Bit 239" "Group 0,Group 1"
bitfld.long 0x00 14. "       GSB238    ,Group Status Bit 238" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 13. " GSB237    ,Group Status Bit 237" "Group 0,Group 1"
bitfld.long 0x00 12. "       GSB236    ,Group Status Bit 236" "Group 0,Group 1"
bitfld.long 0x00 11. "       GSB235    ,Group Status Bit 235" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 10. " GSB234    ,Group Status Bit 234" "Group 0,Group 1"
bitfld.long 0x00 9. "       GSB233    ,Group Status Bit 233" "Group 0,Group 1"
bitfld.long 0x00 8. "       GSB232    ,Group Status Bit 232" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 7. " GSB231    ,Group Status Bit 231" "Group 0,Group 1"
bitfld.long 0x00 6. "       GSB230    ,Group Status Bit 230" "Group 0,Group 1"
bitfld.long 0x00 5. "       GSB229    ,Group Status Bit 229" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 4. " GSB228    ,Group Status Bit 228" "Group 0,Group 1"
bitfld.long 0x00 3. "       GSB227    ,Group Status Bit 227" "Group 0,Group 1"
bitfld.long 0x00 2. "       GSB226    ,Group Status Bit 226" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 1. " GSB225    ,Group Status Bit 225" "Group 0,Group 1"
bitfld.long 0x00 0. "       GSB224    ,Group Status Bit 224" "Group 0,Group 1"
tree.end
tree "Set-Enable Registers"
group.long 0x1100++0x03
line.long 0x0 "GICD_ISER0,Interrupt Set Enable Register 0"
bitfld.long 0x00 31. " SEB31  ,Set Enable Bit 31" "Disabled,Enabled"
bitfld.long 0x00 30. "  SEB30  ,Set Enable Bit 30" "Disabled,Enabled"
bitfld.long 0x00 29. "  SEB29  ,Set Enable Bit 29" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 28. " SEB28  ,Set Enable Bit 28" "Disabled,Enabled"
bitfld.long 0x00 27. "  SEB27  ,Set Enable Bit 27" "Disabled,Enabled"
bitfld.long 0x00 26. "  SEB26  ,Set Enable Bit 26" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 25. " SEB25  ,Set Enable Bit 25" "Disabled,Enabled"
bitfld.long 0x00 24. "  SEB24  ,Set Enable Bit 24" "Disabled,Enabled"
bitfld.long 0x00 23. "  SEB23  ,Set Enable Bit 23" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 22. " SEB22  ,Set Enable Bit 22" "Disabled,Enabled"
bitfld.long 0x00 21. "  SEB21  ,Set Enable Bit 21" "Disabled,Enabled"
bitfld.long 0x00 20. "  SEB20  ,Set Enable Bit 20" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 19. " SEB19  ,Set Enable Bit 19" "Disabled,Enabled"
bitfld.long 0x00 18. "  SEB18  ,Set Enable Bit 18" "Disabled,Enabled"
bitfld.long 0x00 17. "  SEB17  ,Set Enable Bit 17" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 16. " SEB16  ,Set Enable Bit 16" "Disabled,Enabled"
bitfld.long 0x00 15. "  SEB15  ,Set Enable Bit 15" "Disabled,Enabled"
bitfld.long 0x00 14. "  SEB14  ,Set Enable Bit 14" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 13. " SEB13  ,Set Enable Bit 13" "Disabled,Enabled"
bitfld.long 0x00 12. "  SEB12  ,Set Enable Bit 12" "Disabled,Enabled"
bitfld.long 0x00 11. "  SEB11  ,Set Enable Bit 11" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 10. " SEB10  ,Set Enable Bit 10" "Disabled,Enabled"
bitfld.long 0x00 9. "  SEB9   ,Set Enable Bit 9" "Disabled,Enabled"
bitfld.long 0x00 8. "  SEB8   ,Set Enable Bit 8" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 7. " SEB7   ,Set Enable Bit 7" "Disabled,Enabled"
bitfld.long 0x00 6. "  SEB6   ,Set Enable Bit 6" "Disabled,Enabled"
bitfld.long 0x00 5. "  SEB5   ,Set Enable Bit 5" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 4. " SEB4   ,Set Enable Bit 4" "Disabled,Enabled"
bitfld.long 0x00 3. "  SEB3   ,Set Enable Bit 3" "Disabled,Enabled"
bitfld.long 0x00 2. "  SEB2   ,Set Enable Bit 2" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 1. " SEB1   ,Set Enable Bit 1" "Disabled,Enabled"
bitfld.long 0x00 0. "  SEB0   ,Set Enable Bit 0" "Disabled,Enabled"
group.long 0x1104++0x03
line.long 0x0 "GICD_ISER1,Interrupt Set Enable Register 1"
bitfld.long 0x00 31. " SEB63  ,Set Enable Bit 63" "Disabled,Enabled"
bitfld.long 0x00 30. "  SEB62  ,Set Enable Bit 62" "Disabled,Enabled"
bitfld.long 0x00 29. "  SEB61  ,Set Enable Bit 61" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 28. " SEB60  ,Set Enable Bit 60" "Disabled,Enabled"
bitfld.long 0x00 27. "  SEB59  ,Set Enable Bit 59" "Disabled,Enabled"
bitfld.long 0x00 26. "  SEB58  ,Set Enable Bit 58" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 25. " SEB57  ,Set Enable Bit 57" "Disabled,Enabled"
bitfld.long 0x00 24. "  SEB56  ,Set Enable Bit 56" "Disabled,Enabled"
bitfld.long 0x00 23. "  SEB55  ,Set Enable Bit 55" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 22. " SEB54  ,Set Enable Bit 54" "Disabled,Enabled"
bitfld.long 0x00 21. "  SEB53  ,Set Enable Bit 53" "Disabled,Enabled"
bitfld.long 0x00 20. "  SEB52  ,Set Enable Bit 52" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 19. " SEB51  ,Set Enable Bit 51" "Disabled,Enabled"
bitfld.long 0x00 18. "  SEB50  ,Set Enable Bit 50" "Disabled,Enabled"
bitfld.long 0x00 17. "  SEB49  ,Set Enable Bit 49" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 16. " SEB48  ,Set Enable Bit 48" "Disabled,Enabled"
bitfld.long 0x00 15. "  SEB47  ,Set Enable Bit 47" "Disabled,Enabled"
bitfld.long 0x00 14. "  SEB46  ,Set Enable Bit 46" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 13. " SEB45  ,Set Enable Bit 45" "Disabled,Enabled"
bitfld.long 0x00 12. "  SEB44  ,Set Enable Bit 44" "Disabled,Enabled"
bitfld.long 0x00 11. "  SEB43  ,Set Enable Bit 43" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 10. " SEB42  ,Set Enable Bit 42" "Disabled,Enabled"
bitfld.long 0x00 9. "  SEB41  ,Set Enable Bit 41" "Disabled,Enabled"
bitfld.long 0x00 8. "  SEB40  ,Set Enable Bit 40" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 7. " SEB39  ,Set Enable Bit 39" "Disabled,Enabled"
bitfld.long 0x00 6. "  SEB38  ,Set Enable Bit 38" "Disabled,Enabled"
bitfld.long 0x00 5. "  SEB37  ,Set Enable Bit 37" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 4. " SEB36  ,Set Enable Bit 36" "Disabled,Enabled"
bitfld.long 0x00 3. "  SEB35  ,Set Enable Bit 35" "Disabled,Enabled"
bitfld.long 0x00 2. "  SEB34  ,Set Enable Bit 34" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 1. " SEB33  ,Set Enable Bit 33" "Disabled,Enabled"
bitfld.long 0x00 0. "  SEB32  ,Set Enable Bit 32" "Disabled,Enabled"
group.long 0x1108++0x03
line.long 0x0 "GICD_ISER2,Interrupt Set Enable Register 2"
bitfld.long 0x00 31. " SEB95  ,Set Enable Bit 95" "Disabled,Enabled"
bitfld.long 0x00 30. "  SEB94  ,Set Enable Bit 94" "Disabled,Enabled"
bitfld.long 0x00 29. "  SEB93  ,Set Enable Bit 93" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 28. " SEB92  ,Set Enable Bit 92" "Disabled,Enabled"
bitfld.long 0x00 27. "  SEB91  ,Set Enable Bit 91" "Disabled,Enabled"
bitfld.long 0x00 26. "  SEB90  ,Set Enable Bit 90" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 25. " SEB89  ,Set Enable Bit 89" "Disabled,Enabled"
bitfld.long 0x00 24. "  SEB88  ,Set Enable Bit 88" "Disabled,Enabled"
bitfld.long 0x00 23. "  SEB87  ,Set Enable Bit 87" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 22. " SEB86  ,Set Enable Bit 86" "Disabled,Enabled"
bitfld.long 0x00 21. "  SEB85  ,Set Enable Bit 85" "Disabled,Enabled"
bitfld.long 0x00 20. "  SEB84  ,Set Enable Bit 84" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 19. " SEB83  ,Set Enable Bit 83" "Disabled,Enabled"
bitfld.long 0x00 18. "  SEB82  ,Set Enable Bit 82" "Disabled,Enabled"
bitfld.long 0x00 17. "  SEB81  ,Set Enable Bit 81" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 16. " SEB80  ,Set Enable Bit 80" "Disabled,Enabled"
bitfld.long 0x00 15. "  SEB79  ,Set Enable Bit 79" "Disabled,Enabled"
bitfld.long 0x00 14. "  SEB78  ,Set Enable Bit 78" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 13. " SEB77  ,Set Enable Bit 77" "Disabled,Enabled"
bitfld.long 0x00 12. "  SEB76  ,Set Enable Bit 76" "Disabled,Enabled"
bitfld.long 0x00 11. "  SEB75  ,Set Enable Bit 75" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 10. " SEB74  ,Set Enable Bit 74" "Disabled,Enabled"
bitfld.long 0x00 9. "  SEB73  ,Set Enable Bit 73" "Disabled,Enabled"
bitfld.long 0x00 8. "  SEB72  ,Set Enable Bit 72" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 7. " SEB71  ,Set Enable Bit 71" "Disabled,Enabled"
bitfld.long 0x00 6. "  SEB70  ,Set Enable Bit 70" "Disabled,Enabled"
bitfld.long 0x00 5. "  SEB69  ,Set Enable Bit 69" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 4. " SEB68  ,Set Enable Bit 68" "Disabled,Enabled"
bitfld.long 0x00 3. "  SEB67  ,Set Enable Bit 67" "Disabled,Enabled"
bitfld.long 0x00 2. "  SEB66  ,Set Enable Bit 66" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 1. " SEB65  ,Set Enable Bit 65" "Disabled,Enabled"
bitfld.long 0x00 0. "  SEB64  ,Set Enable Bit 64" "Disabled,Enabled"
group.long 0x110C++0x03
line.long 0x0 "GICD_ISER3,Interrupt Set Enable Register 3"
bitfld.long 0x00 31. " SEB127 ,Set Enable Bit 127" "Disabled,Enabled"
bitfld.long 0x00 30. "  SEB126 ,Set Enable Bit 126" "Disabled,Enabled"
bitfld.long 0x00 29. "  SEB125 ,Set Enable Bit 125" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 28. " SEB124 ,Set Enable Bit 124" "Disabled,Enabled"
bitfld.long 0x00 27. "  SEB123 ,Set Enable Bit 123" "Disabled,Enabled"
bitfld.long 0x00 26. "  SEB122 ,Set Enable Bit 122" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 25. " SEB121 ,Set Enable Bit 121" "Disabled,Enabled"
bitfld.long 0x00 24. "  SEB120 ,Set Enable Bit 120" "Disabled,Enabled"
bitfld.long 0x00 23. "  SEB119 ,Set Enable Bit 119" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 22. " SEB118 ,Set Enable Bit 118" "Disabled,Enabled"
bitfld.long 0x00 21. "  SEB117 ,Set Enable Bit 117" "Disabled,Enabled"
bitfld.long 0x00 20. "  SEB116 ,Set Enable Bit 116" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 19. " SEB115 ,Set Enable Bit 115" "Disabled,Enabled"
bitfld.long 0x00 18. "  SEB114 ,Set Enable Bit 114" "Disabled,Enabled"
bitfld.long 0x00 17. "  SEB113 ,Set Enable Bit 113" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 16. " SEB112 ,Set Enable Bit 112" "Disabled,Enabled"
bitfld.long 0x00 15. "  SEB111 ,Set Enable Bit 111" "Disabled,Enabled"
bitfld.long 0x00 14. "  SEB110 ,Set Enable Bit 110" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 13. " SEB109 ,Set Enable Bit 109" "Disabled,Enabled"
bitfld.long 0x00 12. "  SEB108 ,Set Enable Bit 108" "Disabled,Enabled"
bitfld.long 0x00 11. "  SEB107 ,Set Enable Bit 107" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 10. " SEB106 ,Set Enable Bit 106" "Disabled,Enabled"
bitfld.long 0x00 9. "  SEB105 ,Set Enable Bit 105" "Disabled,Enabled"
bitfld.long 0x00 8. "  SEB104 ,Set Enable Bit 104" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 7. " SEB103 ,Set Enable Bit 103" "Disabled,Enabled"
bitfld.long 0x00 6. "  SEB102 ,Set Enable Bit 102" "Disabled,Enabled"
bitfld.long 0x00 5. "  SEB101 ,Set Enable Bit 101" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 4. " SEB100 ,Set Enable Bit 100" "Disabled,Enabled"
bitfld.long 0x00 3. "  SEB99  ,Set Enable Bit 99" "Disabled,Enabled"
bitfld.long 0x00 2. "  SEB98  ,Set Enable Bit 98" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 1. " SEB97  ,Set Enable Bit 97" "Disabled,Enabled"
bitfld.long 0x00 0. "  SEB96  ,Set Enable Bit 96" "Disabled,Enabled"
group.long 0x1110++0x03
line.long 0x0 "GICD_ISER4,Interrupt Set Enable Register 4"
bitfld.long 0x00 31. " SEB159 ,Set Enable Bit 159" "Disabled,Enabled"
bitfld.long 0x00 30. "  SEB158 ,Set Enable Bit 158" "Disabled,Enabled"
bitfld.long 0x00 29. "  SEB157 ,Set Enable Bit 157" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 28. " SEB156 ,Set Enable Bit 156" "Disabled,Enabled"
bitfld.long 0x00 27. "  SEB155 ,Set Enable Bit 155" "Disabled,Enabled"
bitfld.long 0x00 26. "  SEB154 ,Set Enable Bit 154" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 25. " SEB153 ,Set Enable Bit 153" "Disabled,Enabled"
bitfld.long 0x00 24. "  SEB152 ,Set Enable Bit 152" "Disabled,Enabled"
bitfld.long 0x00 23. "  SEB151 ,Set Enable Bit 151" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 22. " SEB150 ,Set Enable Bit 150" "Disabled,Enabled"
bitfld.long 0x00 21. "  SEB149 ,Set Enable Bit 149" "Disabled,Enabled"
bitfld.long 0x00 20. "  SEB148 ,Set Enable Bit 148" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 19. " SEB147 ,Set Enable Bit 147" "Disabled,Enabled"
bitfld.long 0x00 18. "  SEB146 ,Set Enable Bit 146" "Disabled,Enabled"
bitfld.long 0x00 17. "  SEB145 ,Set Enable Bit 145" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 16. " SEB144 ,Set Enable Bit 144" "Disabled,Enabled"
bitfld.long 0x00 15. "  SEB143 ,Set Enable Bit 143" "Disabled,Enabled"
bitfld.long 0x00 14. "  SEB142 ,Set Enable Bit 142" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 13. " SEB141 ,Set Enable Bit 141" "Disabled,Enabled"
bitfld.long 0x00 12. "  SEB140 ,Set Enable Bit 140" "Disabled,Enabled"
bitfld.long 0x00 11. "  SEB139 ,Set Enable Bit 139" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 10. " SEB138 ,Set Enable Bit 138" "Disabled,Enabled"
bitfld.long 0x00 9. "  SEB137 ,Set Enable Bit 137" "Disabled,Enabled"
bitfld.long 0x00 8. "  SEB136 ,Set Enable Bit 136" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 7. " SEB135 ,Set Enable Bit 135" "Disabled,Enabled"
bitfld.long 0x00 6. "  SEB134 ,Set Enable Bit 134" "Disabled,Enabled"
bitfld.long 0x00 5. "  SEB133 ,Set Enable Bit 133" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 4. " SEB132 ,Set Enable Bit 132" "Disabled,Enabled"
bitfld.long 0x00 3. "  SEB131 ,Set Enable Bit 131" "Disabled,Enabled"
bitfld.long 0x00 2. "  SEB130 ,Set Enable Bit 130" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 1. " SEB129 ,Set Enable Bit 129" "Disabled,Enabled"
bitfld.long 0x00 0. "  SEB128 ,Set Enable Bit 128" "Disabled,Enabled"
group.long 0x1114++0x03
line.long 0x0 "GICD_ISER5,Interrupt Set Enable Register 5"
bitfld.long 0x00 31. " SEB191 ,Set Enable Bit 191" "Disabled,Enabled"
bitfld.long 0x00 30. "  SEB190 ,Set Enable Bit 190" "Disabled,Enabled"
bitfld.long 0x00 29. "  SEB189 ,Set Enable Bit 189" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 28. " SEB188 ,Set Enable Bit 188" "Disabled,Enabled"
bitfld.long 0x00 27. "  SEB187 ,Set Enable Bit 187" "Disabled,Enabled"
bitfld.long 0x00 26. "  SEB186 ,Set Enable Bit 186" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 25. " SEB185 ,Set Enable Bit 185" "Disabled,Enabled"
bitfld.long 0x00 24. "  SEB184 ,Set Enable Bit 184" "Disabled,Enabled"
bitfld.long 0x00 23. "  SEB183 ,Set Enable Bit 183" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 22. " SEB182 ,Set Enable Bit 182" "Disabled,Enabled"
bitfld.long 0x00 21. "  SEB181 ,Set Enable Bit 181" "Disabled,Enabled"
bitfld.long 0x00 20. "  SEB180 ,Set Enable Bit 180" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 19. " SEB179 ,Set Enable Bit 179" "Disabled,Enabled"
bitfld.long 0x00 18. "  SEB178 ,Set Enable Bit 178" "Disabled,Enabled"
bitfld.long 0x00 17. "  SEB177 ,Set Enable Bit 177" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 16. " SEB176 ,Set Enable Bit 176" "Disabled,Enabled"
bitfld.long 0x00 15. "  SEB175 ,Set Enable Bit 175" "Disabled,Enabled"
bitfld.long 0x00 14. "  SEB174 ,Set Enable Bit 174" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 13. " SEB173 ,Set Enable Bit 173" "Disabled,Enabled"
bitfld.long 0x00 12. "  SEB172 ,Set Enable Bit 172" "Disabled,Enabled"
bitfld.long 0x00 11. "  SEB171 ,Set Enable Bit 171" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 10. " SEB170 ,Set Enable Bit 170" "Disabled,Enabled"
bitfld.long 0x00 9. "  SEB169 ,Set Enable Bit 169" "Disabled,Enabled"
bitfld.long 0x00 8. "  SEB168 ,Set Enable Bit 168" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 7. " SEB167 ,Set Enable Bit 167" "Disabled,Enabled"
bitfld.long 0x00 6. "  SEB166 ,Set Enable Bit 166" "Disabled,Enabled"
bitfld.long 0x00 5. "  SEB165 ,Set Enable Bit 165" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 4. " SEB164 ,Set Enable Bit 164" "Disabled,Enabled"
bitfld.long 0x00 3. "  SEB163 ,Set Enable Bit 163" "Disabled,Enabled"
bitfld.long 0x00 2. "  SEB162 ,Set Enable Bit 162" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 1. " SEB161 ,Set Enable Bit 161" "Disabled,Enabled"
bitfld.long 0x00 0. "  SEB160 ,Set Enable Bit 160" "Disabled,Enabled"
group.long 0x1118++0x03
line.long 0x0 "GICD_ISER6,Interrupt Set Enable Register 6"
bitfld.long 0x00 31. " SEB223 ,Set Enable Bit 223" "Disabled,Enabled"
bitfld.long 0x00 30. "  SEB222 ,Set Enable Bit 222" "Disabled,Enabled"
bitfld.long 0x00 29. "  SEB221 ,Set Enable Bit 221" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 28. " SEB220 ,Set Enable Bit 220" "Disabled,Enabled"
bitfld.long 0x00 27. "  SEB219 ,Set Enable Bit 219" "Disabled,Enabled"
bitfld.long 0x00 26. "  SEB218 ,Set Enable Bit 218" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 25. " SEB217 ,Set Enable Bit 217" "Disabled,Enabled"
bitfld.long 0x00 24. "  SEB216 ,Set Enable Bit 216" "Disabled,Enabled"
bitfld.long 0x00 23. "  SEB215 ,Set Enable Bit 215" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 22. " SEB214 ,Set Enable Bit 214" "Disabled,Enabled"
bitfld.long 0x00 21. "  SEB213 ,Set Enable Bit 213" "Disabled,Enabled"
bitfld.long 0x00 20. "  SEB212 ,Set Enable Bit 212" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 19. " SEB211 ,Set Enable Bit 211" "Disabled,Enabled"
bitfld.long 0x00 18. "  SEB210 ,Set Enable Bit 210" "Disabled,Enabled"
bitfld.long 0x00 17. "  SEB209 ,Set Enable Bit 209" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 16. " SEB208 ,Set Enable Bit 208" "Disabled,Enabled"
bitfld.long 0x00 15. "  SEB207 ,Set Enable Bit 207" "Disabled,Enabled"
bitfld.long 0x00 14. "  SEB206 ,Set Enable Bit 206" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 13. " SEB205 ,Set Enable Bit 205" "Disabled,Enabled"
bitfld.long 0x00 12. "  SEB204 ,Set Enable Bit 204" "Disabled,Enabled"
bitfld.long 0x00 11. "  SEB203 ,Set Enable Bit 203" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 10. " SEB202 ,Set Enable Bit 202" "Disabled,Enabled"
bitfld.long 0x00 9. "  SEB201 ,Set Enable Bit 201" "Disabled,Enabled"
bitfld.long 0x00 8. "  SEB200 ,Set Enable Bit 200" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 7. " SEB199 ,Set Enable Bit 199" "Disabled,Enabled"
bitfld.long 0x00 6. "  SEB198 ,Set Enable Bit 198" "Disabled,Enabled"
bitfld.long 0x00 5. "  SEB197 ,Set Enable Bit 197" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 4. " SEB196 ,Set Enable Bit 196" "Disabled,Enabled"
bitfld.long 0x00 3. "  SEB195 ,Set Enable Bit 195" "Disabled,Enabled"
bitfld.long 0x00 2. "  SEB194 ,Set Enable Bit 194" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 1. " SEB193 ,Set Enable Bit 193" "Disabled,Enabled"
bitfld.long 0x00 0. "  SEB192 ,Set Enable Bit 192" "Disabled,Enabled"
group.long 0x111C++0x03
line.long 0x0 "GICD_ISER7,Interrupt Set Enable Register 7"
bitfld.long 0x00 31. " SEB255 ,Set Enable Bit 255" "Disabled,Enabled"
bitfld.long 0x00 30. "  SEB254 ,Set Enable Bit 254" "Disabled,Enabled"
bitfld.long 0x00 29. "  SEB253 ,Set Enable Bit 253" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 28. " SEB252 ,Set Enable Bit 252" "Disabled,Enabled"
bitfld.long 0x00 27. "  SEB251 ,Set Enable Bit 251" "Disabled,Enabled"
bitfld.long 0x00 26. "  SEB250 ,Set Enable Bit 250" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 25. " SEB249 ,Set Enable Bit 249" "Disabled,Enabled"
bitfld.long 0x00 24. "  SEB248 ,Set Enable Bit 248" "Disabled,Enabled"
bitfld.long 0x00 23. "  SEB247 ,Set Enable Bit 247" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 22. " SEB246 ,Set Enable Bit 246" "Disabled,Enabled"
bitfld.long 0x00 21. "  SEB245 ,Set Enable Bit 245" "Disabled,Enabled"
bitfld.long 0x00 20. "  SEB244 ,Set Enable Bit 244" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 19. " SEB243 ,Set Enable Bit 243" "Disabled,Enabled"
bitfld.long 0x00 18. "  SEB242 ,Set Enable Bit 242" "Disabled,Enabled"
bitfld.long 0x00 17. "  SEB241 ,Set Enable Bit 241" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 16. " SEB240 ,Set Enable Bit 240" "Disabled,Enabled"
bitfld.long 0x00 15. "  SEB239 ,Set Enable Bit 239" "Disabled,Enabled"
bitfld.long 0x00 14. "  SEB238 ,Set Enable Bit 238" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 13. " SEB237 ,Set Enable Bit 237" "Disabled,Enabled"
bitfld.long 0x00 12. "  SEB236 ,Set Enable Bit 236" "Disabled,Enabled"
bitfld.long 0x00 11. "  SEB235 ,Set Enable Bit 235" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 10. " SEB234 ,Set Enable Bit 234" "Disabled,Enabled"
bitfld.long 0x00 9. "  SEB233 ,Set Enable Bit 233" "Disabled,Enabled"
bitfld.long 0x00 8. "  SEB232 ,Set Enable Bit 232" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 7. " SEB231 ,Set Enable Bit 231" "Disabled,Enabled"
bitfld.long 0x00 6. "  SEB230 ,Set Enable Bit 230" "Disabled,Enabled"
bitfld.long 0x00 5. "  SEB229 ,Set Enable Bit 229" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 4. " SEB228 ,Set Enable Bit 228" "Disabled,Enabled"
bitfld.long 0x00 3. "  SEB227 ,Set Enable Bit 227" "Disabled,Enabled"
bitfld.long 0x00 2. "  SEB226 ,Set Enable Bit 226" "Disabled,Enabled"
textline "                          "
bitfld.long 0x00 1. " SEB225 ,Set Enable Bit 225" "Disabled,Enabled"
bitfld.long 0x00 0. "  SEB224 ,Set Enable Bit 224" "Disabled,Enabled"
tree.end
tree "Clear-Enable Registers"
group.long 0x1180++0x03
line.long 0x0 "GICD_ICER0,Interrupt Clear Enable Register 0"
eventfld.long 0x00 31. " CEB31  ,Clear Enable Bit 31" "Disabled,Enabled"
eventfld.long 0x00 30. "  CEB30  ,Clear Enable Bit 30" "Disabled,Enabled"
eventfld.long 0x00 29. "  CEB29  ,Clear Enable Bit 29" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 28. " CEB28  ,Clear Enable Bit 28" "Disabled,Enabled"
eventfld.long 0x00 27. "  CEB27  ,Clear Enable Bit 27" "Disabled,Enabled"
eventfld.long 0x00 26. "  CEB26  ,Clear Enable Bit 26" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 25. " CEB25  ,Clear Enable Bit 25" "Disabled,Enabled"
eventfld.long 0x00 24. "  CEB24  ,Clear Enable Bit 24" "Disabled,Enabled"
eventfld.long 0x00 23. "  CEB23  ,Clear Enable Bit 23" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 22. " CEB22  ,Clear Enable Bit 22" "Disabled,Enabled"
eventfld.long 0x00 21. "  CEB21  ,Clear Enable Bit 21" "Disabled,Enabled"
eventfld.long 0x00 20. "  CEB20  ,Clear Enable Bit 20" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 19. " CEB19  ,Clear Enable Bit 19" "Disabled,Enabled"
eventfld.long 0x00 18. "  CEB18  ,Clear Enable Bit 18" "Disabled,Enabled"
eventfld.long 0x00 17. "  CEB17  ,Clear Enable Bit 17" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 16. " CEB16  ,Clear Enable Bit 16" "Disabled,Enabled"
eventfld.long 0x00 15. "  CEB15  ,Clear Enable Bit 15" "Disabled,Enabled"
eventfld.long 0x00 14. "  CEB14  ,Clear Enable Bit 14" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 13. " CEB13  ,Clear Enable Bit 13" "Disabled,Enabled"
eventfld.long 0x00 12. "  CEB12  ,Clear Enable Bit 12" "Disabled,Enabled"
eventfld.long 0x00 11. "  CEB11  ,Clear Enable Bit 11" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 10. " CEB10  ,Clear Enable Bit 10" "Disabled,Enabled"
eventfld.long 0x00 9. "  CEB9   ,Clear Enable Bit 9" "Disabled,Enabled"
eventfld.long 0x00 8. "  CEB8   ,Clear Enable Bit 8" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 7. " CEB7   ,Clear Enable Bit 7" "Disabled,Enabled"
eventfld.long 0x00 6. "  CEB6   ,Clear Enable Bit 6" "Disabled,Enabled"
eventfld.long 0x00 5. "  CEB5   ,Clear Enable Bit 5" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 4. " CEB4   ,Clear Enable Bit 4" "Disabled,Enabled"
eventfld.long 0x00 3. "  CEB3   ,Clear Enable Bit 3" "Disabled,Enabled"
eventfld.long 0x00 2. "  CEB2   ,Clear Enable Bit 2" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 1. " CEB1   ,Clear Enable Bit 1" "Disabled,Enabled"
eventfld.long 0x00 0. "  CEB0   ,Clear Enable Bit 0" "Disabled,Enabled"
group.long 0x1184++0x03
line.long 0x0 "GICD_ICER1,Interrupt Clear Enable Register 1"
eventfld.long 0x00 31. " CEB63  ,Clear Enable Bit 63" "Disabled,Enabled"
eventfld.long 0x00 30. "  CEB62  ,Clear Enable Bit 62" "Disabled,Enabled"
eventfld.long 0x00 29. "  CEB61  ,Clear Enable Bit 61" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 28. " CEB60  ,Clear Enable Bit 60" "Disabled,Enabled"
eventfld.long 0x00 27. "  CEB59  ,Clear Enable Bit 59" "Disabled,Enabled"
eventfld.long 0x00 26. "  CEB58  ,Clear Enable Bit 58" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 25. " CEB57  ,Clear Enable Bit 57" "Disabled,Enabled"
eventfld.long 0x00 24. "  CEB56  ,Clear Enable Bit 56" "Disabled,Enabled"
eventfld.long 0x00 23. "  CEB55  ,Clear Enable Bit 55" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 22. " CEB54  ,Clear Enable Bit 54" "Disabled,Enabled"
eventfld.long 0x00 21. "  CEB53  ,Clear Enable Bit 53" "Disabled,Enabled"
eventfld.long 0x00 20. "  CEB52  ,Clear Enable Bit 52" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 19. " CEB51  ,Clear Enable Bit 51" "Disabled,Enabled"
eventfld.long 0x00 18. "  CEB50  ,Clear Enable Bit 50" "Disabled,Enabled"
eventfld.long 0x00 17. "  CEB49  ,Clear Enable Bit 49" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 16. " CEB48  ,Clear Enable Bit 48" "Disabled,Enabled"
eventfld.long 0x00 15. "  CEB47  ,Clear Enable Bit 47" "Disabled,Enabled"
eventfld.long 0x00 14. "  CEB46  ,Clear Enable Bit 46" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 13. " CEB45  ,Clear Enable Bit 45" "Disabled,Enabled"
eventfld.long 0x00 12. "  CEB44  ,Clear Enable Bit 44" "Disabled,Enabled"
eventfld.long 0x00 11. "  CEB43  ,Clear Enable Bit 43" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 10. " CEB42  ,Clear Enable Bit 42" "Disabled,Enabled"
eventfld.long 0x00 9. "  CEB41  ,Clear Enable Bit 41" "Disabled,Enabled"
eventfld.long 0x00 8. "  CEB40  ,Clear Enable Bit 40" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 7. " CEB39  ,Clear Enable Bit 39" "Disabled,Enabled"
eventfld.long 0x00 6. "  CEB38  ,Clear Enable Bit 38" "Disabled,Enabled"
eventfld.long 0x00 5. "  CEB37  ,Clear Enable Bit 37" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 4. " CEB36  ,Clear Enable Bit 36" "Disabled,Enabled"
eventfld.long 0x00 3. "  CEB35  ,Clear Enable Bit 35" "Disabled,Enabled"
eventfld.long 0x00 2. "  CEB34  ,Clear Enable Bit 34" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 1. " CEB33  ,Clear Enable Bit 33" "Disabled,Enabled"
eventfld.long 0x00 0. "  CEB32  ,Clear Enable Bit 32" "Disabled,Enabled"
group.long 0x1188++0x03
line.long 0x0 "GICD_ICER2,Interrupt Clear Enable Register 2"
eventfld.long 0x00 31. " CEB95  ,Clear Enable Bit 95" "Disabled,Enabled"
eventfld.long 0x00 30. "  CEB94  ,Clear Enable Bit 94" "Disabled,Enabled"
eventfld.long 0x00 29. "  CEB93  ,Clear Enable Bit 93" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 28. " CEB92  ,Clear Enable Bit 92" "Disabled,Enabled"
eventfld.long 0x00 27. "  CEB91  ,Clear Enable Bit 91" "Disabled,Enabled"
eventfld.long 0x00 26. "  CEB90  ,Clear Enable Bit 90" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 25. " CEB89  ,Clear Enable Bit 89" "Disabled,Enabled"
eventfld.long 0x00 24. "  CEB88  ,Clear Enable Bit 88" "Disabled,Enabled"
eventfld.long 0x00 23. "  CEB87  ,Clear Enable Bit 87" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 22. " CEB86  ,Clear Enable Bit 86" "Disabled,Enabled"
eventfld.long 0x00 21. "  CEB85  ,Clear Enable Bit 85" "Disabled,Enabled"
eventfld.long 0x00 20. "  CEB84  ,Clear Enable Bit 84" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 19. " CEB83  ,Clear Enable Bit 83" "Disabled,Enabled"
eventfld.long 0x00 18. "  CEB82  ,Clear Enable Bit 82" "Disabled,Enabled"
eventfld.long 0x00 17. "  CEB81  ,Clear Enable Bit 81" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 16. " CEB80  ,Clear Enable Bit 80" "Disabled,Enabled"
eventfld.long 0x00 15. "  CEB79  ,Clear Enable Bit 79" "Disabled,Enabled"
eventfld.long 0x00 14. "  CEB78  ,Clear Enable Bit 78" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 13. " CEB77  ,Clear Enable Bit 77" "Disabled,Enabled"
eventfld.long 0x00 12. "  CEB76  ,Clear Enable Bit 76" "Disabled,Enabled"
eventfld.long 0x00 11. "  CEB75  ,Clear Enable Bit 75" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 10. " CEB74  ,Clear Enable Bit 74" "Disabled,Enabled"
eventfld.long 0x00 9. "  CEB73  ,Clear Enable Bit 73" "Disabled,Enabled"
eventfld.long 0x00 8. "  CEB72  ,Clear Enable Bit 72" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 7. " CEB71  ,Clear Enable Bit 71" "Disabled,Enabled"
eventfld.long 0x00 6. "  CEB70  ,Clear Enable Bit 70" "Disabled,Enabled"
eventfld.long 0x00 5. "  CEB69  ,Clear Enable Bit 69" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 4. " CEB68  ,Clear Enable Bit 68" "Disabled,Enabled"
eventfld.long 0x00 3. "  CEB67  ,Clear Enable Bit 67" "Disabled,Enabled"
eventfld.long 0x00 2. "  CEB66  ,Clear Enable Bit 66" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 1. " CEB65  ,Clear Enable Bit 65" "Disabled,Enabled"
eventfld.long 0x00 0. "  CEB64  ,Clear Enable Bit 64" "Disabled,Enabled"
group.long 0x118C++0x03
line.long 0x0 "GICD_ICER3,Interrupt Clear Enable Register 3"
eventfld.long 0x00 31. " CEB127 ,Clear Enable Bit 127" "Disabled,Enabled"
eventfld.long 0x00 30. "  CEB126 ,Clear Enable Bit 126" "Disabled,Enabled"
eventfld.long 0x00 29. "  CEB125 ,Clear Enable Bit 125" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 28. " CEB124 ,Clear Enable Bit 124" "Disabled,Enabled"
eventfld.long 0x00 27. "  CEB123 ,Clear Enable Bit 123" "Disabled,Enabled"
eventfld.long 0x00 26. "  CEB122 ,Clear Enable Bit 122" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 25. " CEB121 ,Clear Enable Bit 121" "Disabled,Enabled"
eventfld.long 0x00 24. "  CEB120 ,Clear Enable Bit 120" "Disabled,Enabled"
eventfld.long 0x00 23. "  CEB119 ,Clear Enable Bit 119" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 22. " CEB118 ,Clear Enable Bit 118" "Disabled,Enabled"
eventfld.long 0x00 21. "  CEB117 ,Clear Enable Bit 117" "Disabled,Enabled"
eventfld.long 0x00 20. "  CEB116 ,Clear Enable Bit 116" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 19. " CEB115 ,Clear Enable Bit 115" "Disabled,Enabled"
eventfld.long 0x00 18. "  CEB114 ,Clear Enable Bit 114" "Disabled,Enabled"
eventfld.long 0x00 17. "  CEB113 ,Clear Enable Bit 113" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 16. " CEB112 ,Clear Enable Bit 112" "Disabled,Enabled"
eventfld.long 0x00 15. "  CEB111 ,Clear Enable Bit 111" "Disabled,Enabled"
eventfld.long 0x00 14. "  CEB110 ,Clear Enable Bit 110" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 13. " CEB109 ,Clear Enable Bit 109" "Disabled,Enabled"
eventfld.long 0x00 12. "  CEB108 ,Clear Enable Bit 108" "Disabled,Enabled"
eventfld.long 0x00 11. "  CEB107 ,Clear Enable Bit 107" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 10. " CEB106 ,Clear Enable Bit 106" "Disabled,Enabled"
eventfld.long 0x00 9. "  CEB105 ,Clear Enable Bit 105" "Disabled,Enabled"
eventfld.long 0x00 8. "  CEB104 ,Clear Enable Bit 104" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 7. " CEB103 ,Clear Enable Bit 103" "Disabled,Enabled"
eventfld.long 0x00 6. "  CEB102 ,Clear Enable Bit 102" "Disabled,Enabled"
eventfld.long 0x00 5. "  CEB101 ,Clear Enable Bit 101" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 4. " CEB100 ,Clear Enable Bit 100" "Disabled,Enabled"
eventfld.long 0x00 3. "  CEB99  ,Clear Enable Bit 99" "Disabled,Enabled"
eventfld.long 0x00 2. "  CEB98  ,Clear Enable Bit 98" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 1. " CEB97  ,Clear Enable Bit 97" "Disabled,Enabled"
eventfld.long 0x00 0. "  CEB96  ,Clear Enable Bit 96" "Disabled,Enabled"
group.long 0x1190++0x03
line.long 0x0 "GICD_ICER4,Interrupt Clear Enable Register 4"
eventfld.long 0x00 31. " CEB159 ,Clear Enable Bit 159" "Disabled,Enabled"
eventfld.long 0x00 30. "  CEB158 ,Clear Enable Bit 158" "Disabled,Enabled"
eventfld.long 0x00 29. "  CEB157 ,Clear Enable Bit 157" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 28. " CEB156 ,Clear Enable Bit 156" "Disabled,Enabled"
eventfld.long 0x00 27. "  CEB155 ,Clear Enable Bit 155" "Disabled,Enabled"
eventfld.long 0x00 26. "  CEB154 ,Clear Enable Bit 154" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 25. " CEB153 ,Clear Enable Bit 153" "Disabled,Enabled"
eventfld.long 0x00 24. "  CEB152 ,Clear Enable Bit 152" "Disabled,Enabled"
eventfld.long 0x00 23. "  CEB151 ,Clear Enable Bit 151" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 22. " CEB150 ,Clear Enable Bit 150" "Disabled,Enabled"
eventfld.long 0x00 21. "  CEB149 ,Clear Enable Bit 149" "Disabled,Enabled"
eventfld.long 0x00 20. "  CEB148 ,Clear Enable Bit 148" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 19. " CEB147 ,Clear Enable Bit 147" "Disabled,Enabled"
eventfld.long 0x00 18. "  CEB146 ,Clear Enable Bit 146" "Disabled,Enabled"
eventfld.long 0x00 17. "  CEB145 ,Clear Enable Bit 145" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 16. " CEB144 ,Clear Enable Bit 144" "Disabled,Enabled"
eventfld.long 0x00 15. "  CEB143 ,Clear Enable Bit 143" "Disabled,Enabled"
eventfld.long 0x00 14. "  CEB142 ,Clear Enable Bit 142" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 13. " CEB141 ,Clear Enable Bit 141" "Disabled,Enabled"
eventfld.long 0x00 12. "  CEB140 ,Clear Enable Bit 140" "Disabled,Enabled"
eventfld.long 0x00 11. "  CEB139 ,Clear Enable Bit 139" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 10. " CEB138 ,Clear Enable Bit 138" "Disabled,Enabled"
eventfld.long 0x00 9. "  CEB137 ,Clear Enable Bit 137" "Disabled,Enabled"
eventfld.long 0x00 8. "  CEB136 ,Clear Enable Bit 136" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 7. " CEB135 ,Clear Enable Bit 135" "Disabled,Enabled"
eventfld.long 0x00 6. "  CEB134 ,Clear Enable Bit 134" "Disabled,Enabled"
eventfld.long 0x00 5. "  CEB133 ,Clear Enable Bit 133" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 4. " CEB132 ,Clear Enable Bit 132" "Disabled,Enabled"
eventfld.long 0x00 3. "  CEB131 ,Clear Enable Bit 131" "Disabled,Enabled"
eventfld.long 0x00 2. "  CEB130 ,Clear Enable Bit 130" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 1. " CEB129 ,Clear Enable Bit 129" "Disabled,Enabled"
eventfld.long 0x00 0. "  CEB128 ,Clear Enable Bit 128" "Disabled,Enabled"
group.long 0x1194++0x03
line.long 0x0 "GICD_ICER5,Interrupt Clear Enable Register 5"
eventfld.long 0x00 31. " CEB191 ,Clear Enable Bit 191" "Disabled,Enabled"
eventfld.long 0x00 30. "  CEB190 ,Clear Enable Bit 190" "Disabled,Enabled"
eventfld.long 0x00 29. "  CEB189 ,Clear Enable Bit 189" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 28. " CEB188 ,Clear Enable Bit 188" "Disabled,Enabled"
eventfld.long 0x00 27. "  CEB187 ,Clear Enable Bit 187" "Disabled,Enabled"
eventfld.long 0x00 26. "  CEB186 ,Clear Enable Bit 186" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 25. " CEB185 ,Clear Enable Bit 185" "Disabled,Enabled"
eventfld.long 0x00 24. "  CEB184 ,Clear Enable Bit 184" "Disabled,Enabled"
eventfld.long 0x00 23. "  CEB183 ,Clear Enable Bit 183" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 22. " CEB182 ,Clear Enable Bit 182" "Disabled,Enabled"
eventfld.long 0x00 21. "  CEB181 ,Clear Enable Bit 181" "Disabled,Enabled"
eventfld.long 0x00 20. "  CEB180 ,Clear Enable Bit 180" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 19. " CEB179 ,Clear Enable Bit 179" "Disabled,Enabled"
eventfld.long 0x00 18. "  CEB178 ,Clear Enable Bit 178" "Disabled,Enabled"
eventfld.long 0x00 17. "  CEB177 ,Clear Enable Bit 177" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 16. " CEB176 ,Clear Enable Bit 176" "Disabled,Enabled"
eventfld.long 0x00 15. "  CEB175 ,Clear Enable Bit 175" "Disabled,Enabled"
eventfld.long 0x00 14. "  CEB174 ,Clear Enable Bit 174" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 13. " CEB173 ,Clear Enable Bit 173" "Disabled,Enabled"
eventfld.long 0x00 12. "  CEB172 ,Clear Enable Bit 172" "Disabled,Enabled"
eventfld.long 0x00 11. "  CEB171 ,Clear Enable Bit 171" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 10. " CEB170 ,Clear Enable Bit 170" "Disabled,Enabled"
eventfld.long 0x00 9. "  CEB169 ,Clear Enable Bit 169" "Disabled,Enabled"
eventfld.long 0x00 8. "  CEB168 ,Clear Enable Bit 168" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 7. " CEB167 ,Clear Enable Bit 167" "Disabled,Enabled"
eventfld.long 0x00 6. "  CEB166 ,Clear Enable Bit 166" "Disabled,Enabled"
eventfld.long 0x00 5. "  CEB165 ,Clear Enable Bit 165" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 4. " CEB164 ,Clear Enable Bit 164" "Disabled,Enabled"
eventfld.long 0x00 3. "  CEB163 ,Clear Enable Bit 163" "Disabled,Enabled"
eventfld.long 0x00 2. "  CEB162 ,Clear Enable Bit 162" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 1. " CEB161 ,Clear Enable Bit 161" "Disabled,Enabled"
eventfld.long 0x00 0. "  CEB160 ,Clear Enable Bit 160" "Disabled,Enabled"
group.long 0x1198++0x03
line.long 0x0 "GICD_ICER6,Interrupt Clear Enable Register 6"
eventfld.long 0x00 31. " CEB223 ,Clear Enable Bit 223" "Disabled,Enabled"
eventfld.long 0x00 30. "  CEB222 ,Clear Enable Bit 222" "Disabled,Enabled"
eventfld.long 0x00 29. "  CEB221 ,Clear Enable Bit 221" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 28. " CEB220 ,Clear Enable Bit 220" "Disabled,Enabled"
eventfld.long 0x00 27. "  CEB219 ,Clear Enable Bit 219" "Disabled,Enabled"
eventfld.long 0x00 26. "  CEB218 ,Clear Enable Bit 218" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 25. " CEB217 ,Clear Enable Bit 217" "Disabled,Enabled"
eventfld.long 0x00 24. "  CEB216 ,Clear Enable Bit 216" "Disabled,Enabled"
eventfld.long 0x00 23. "  CEB215 ,Clear Enable Bit 215" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 22. " CEB214 ,Clear Enable Bit 214" "Disabled,Enabled"
eventfld.long 0x00 21. "  CEB213 ,Clear Enable Bit 213" "Disabled,Enabled"
eventfld.long 0x00 20. "  CEB212 ,Clear Enable Bit 212" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 19. " CEB211 ,Clear Enable Bit 211" "Disabled,Enabled"
eventfld.long 0x00 18. "  CEB210 ,Clear Enable Bit 210" "Disabled,Enabled"
eventfld.long 0x00 17. "  CEB209 ,Clear Enable Bit 209" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 16. " CEB208 ,Clear Enable Bit 208" "Disabled,Enabled"
eventfld.long 0x00 15. "  CEB207 ,Clear Enable Bit 207" "Disabled,Enabled"
eventfld.long 0x00 14. "  CEB206 ,Clear Enable Bit 206" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 13. " CEB205 ,Clear Enable Bit 205" "Disabled,Enabled"
eventfld.long 0x00 12. "  CEB204 ,Clear Enable Bit 204" "Disabled,Enabled"
eventfld.long 0x00 11. "  CEB203 ,Clear Enable Bit 203" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 10. " CEB202 ,Clear Enable Bit 202" "Disabled,Enabled"
eventfld.long 0x00 9. "  CEB201 ,Clear Enable Bit 201" "Disabled,Enabled"
eventfld.long 0x00 8. "  CEB200 ,Clear Enable Bit 200" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 7. " CEB199 ,Clear Enable Bit 199" "Disabled,Enabled"
eventfld.long 0x00 6. "  CEB198 ,Clear Enable Bit 198" "Disabled,Enabled"
eventfld.long 0x00 5. "  CEB197 ,Clear Enable Bit 197" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 4. " CEB196 ,Clear Enable Bit 196" "Disabled,Enabled"
eventfld.long 0x00 3. "  CEB195 ,Clear Enable Bit 195" "Disabled,Enabled"
eventfld.long 0x00 2. "  CEB194 ,Clear Enable Bit 194" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 1. " CEB193 ,Clear Enable Bit 193" "Disabled,Enabled"
eventfld.long 0x00 0. "  CEB192 ,Clear Enable Bit 192" "Disabled,Enabled"
group.long 0x119C++0x03
line.long 0x0 "GICD_ICER7,Interrupt Clear Enable Register 7"
eventfld.long 0x00 31. " CEB255 ,Clear Enable Bit 255" "Disabled,Enabled"
eventfld.long 0x00 30. "  CEB254 ,Clear Enable Bit 254" "Disabled,Enabled"
eventfld.long 0x00 29. "  CEB253 ,Clear Enable Bit 253" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 28. " CEB252 ,Clear Enable Bit 252" "Disabled,Enabled"
eventfld.long 0x00 27. "  CEB251 ,Clear Enable Bit 251" "Disabled,Enabled"
eventfld.long 0x00 26. "  CEB250 ,Clear Enable Bit 250" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 25. " CEB249 ,Clear Enable Bit 249" "Disabled,Enabled"
eventfld.long 0x00 24. "  CEB248 ,Clear Enable Bit 248" "Disabled,Enabled"
eventfld.long 0x00 23. "  CEB247 ,Clear Enable Bit 247" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 22. " CEB246 ,Clear Enable Bit 246" "Disabled,Enabled"
eventfld.long 0x00 21. "  CEB245 ,Clear Enable Bit 245" "Disabled,Enabled"
eventfld.long 0x00 20. "  CEB244 ,Clear Enable Bit 244" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 19. " CEB243 ,Clear Enable Bit 243" "Disabled,Enabled"
eventfld.long 0x00 18. "  CEB242 ,Clear Enable Bit 242" "Disabled,Enabled"
eventfld.long 0x00 17. "  CEB241 ,Clear Enable Bit 241" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 16. " CEB240 ,Clear Enable Bit 240" "Disabled,Enabled"
eventfld.long 0x00 15. "  CEB239 ,Clear Enable Bit 239" "Disabled,Enabled"
eventfld.long 0x00 14. "  CEB238 ,Clear Enable Bit 238" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 13. " CEB237 ,Clear Enable Bit 237" "Disabled,Enabled"
eventfld.long 0x00 12. "  CEB236 ,Clear Enable Bit 236" "Disabled,Enabled"
eventfld.long 0x00 11. "  CEB235 ,Clear Enable Bit 235" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 10. " CEB234 ,Clear Enable Bit 234" "Disabled,Enabled"
eventfld.long 0x00 9. "  CEB233 ,Clear Enable Bit 233" "Disabled,Enabled"
eventfld.long 0x00 8. "  CEB232 ,Clear Enable Bit 232" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 7. " CEB231 ,Clear Enable Bit 231" "Disabled,Enabled"
eventfld.long 0x00 6. "  CEB230 ,Clear Enable Bit 230" "Disabled,Enabled"
eventfld.long 0x00 5. "  CEB229 ,Clear Enable Bit 229" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 4. " CEB228 ,Clear Enable Bit 228" "Disabled,Enabled"
eventfld.long 0x00 3. "  CEB227 ,Clear Enable Bit 227" "Disabled,Enabled"
eventfld.long 0x00 2. "  CEB226 ,Clear Enable Bit 226" "Disabled,Enabled"
textline "                          "
eventfld.long 0x00 1. " CEB225 ,Clear Enable Bit 225" "Disabled,Enabled"
eventfld.long 0x00 0. "  CEB224 ,Clear Enable Bit 224" "Disabled,Enabled"
tree.end
tree "Set-Pending Registers"
group.long 0x1200++0x03
line.long 0x0 "GICD_ISPR0,Interrupt Set Pending Register 0"
bitfld.long 0x00 31. " SPB31  ,Set Pending Bit 31" "Not pending,Pending"
bitfld.long 0x00 30. "  SPB30  ,Set Pending Bit 30" "Not pending,Pending"
bitfld.long 0x00 29. "  SPB29  ,Set Pending Bit 29" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 28. " SPB28  ,Set Pending Bit 28" "Not pending,Pending"
bitfld.long 0x00 27. "  SPB27  ,Set Pending Bit 27" "Not pending,Pending"
bitfld.long 0x00 26. "  SPB26  ,Set Pending Bit 26" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 25. " SPB25  ,Set Pending Bit 25" "Not pending,Pending"
bitfld.long 0x00 24. "  SPB24  ,Set Pending Bit 24" "Not pending,Pending"
bitfld.long 0x00 23. "  SPB23  ,Set Pending Bit 23" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 22. " SPB22  ,Set Pending Bit 22" "Not pending,Pending"
bitfld.long 0x00 21. "  SPB21  ,Set Pending Bit 21" "Not pending,Pending"
bitfld.long 0x00 20. "  SPB20  ,Set Pending Bit 20" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 19. " SPB19  ,Set Pending Bit 19" "Not pending,Pending"
bitfld.long 0x00 18. "  SPB18  ,Set Pending Bit 18" "Not pending,Pending"
bitfld.long 0x00 17. "  SPB17  ,Set Pending Bit 17" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 16. " SPB16  ,Set Pending Bit 16" "Not pending,Pending"
bitfld.long 0x00 15. "  SPB15  ,Set Pending Bit 15" "Not pending,Pending"
bitfld.long 0x00 14. "  SPB14  ,Set Pending Bit 14" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 13. " SPB13  ,Set Pending Bit 13" "Not pending,Pending"
bitfld.long 0x00 12. "  SPB12  ,Set Pending Bit 12" "Not pending,Pending"
bitfld.long 0x00 11. "  SPB11  ,Set Pending Bit 11" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 10. " SPB10  ,Set Pending Bit 10" "Not pending,Pending"
bitfld.long 0x00 9. "  SPB9   ,Set Pending Bit 9" "Not pending,Pending"
bitfld.long 0x00 8. "  SPB8   ,Set Pending Bit 8" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 7. " SPB7   ,Set Pending Bit 7" "Not pending,Pending"
bitfld.long 0x00 6. "  SPB6   ,Set Pending Bit 6" "Not pending,Pending"
bitfld.long 0x00 5. "  SPB5   ,Set Pending Bit 5" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 4. " SPB4   ,Set Pending Bit 4" "Not pending,Pending"
bitfld.long 0x00 3. "  SPB3   ,Set Pending Bit 3" "Not pending,Pending"
bitfld.long 0x00 2. "  SPB2   ,Set Pending Bit 2" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 1. " SPB1   ,Set Pending Bit 1" "Not pending,Pending"
bitfld.long 0x00 0. "  SPB0   ,Set Pending Bit 0" "Not pending,Pending"
group.long 0x1204++0x03
line.long 0x0 "GICD_ISPR1,Interrupt Set Pending Register 1"
bitfld.long 0x00 31. " SPB63  ,Set Pending Bit 63" "Not pending,Pending"
bitfld.long 0x00 30. "  SPB62  ,Set Pending Bit 62" "Not pending,Pending"
bitfld.long 0x00 29. "  SPB61  ,Set Pending Bit 61" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 28. " SPB60  ,Set Pending Bit 60" "Not pending,Pending"
bitfld.long 0x00 27. "  SPB59  ,Set Pending Bit 59" "Not pending,Pending"
bitfld.long 0x00 26. "  SPB58  ,Set Pending Bit 58" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 25. " SPB57  ,Set Pending Bit 57" "Not pending,Pending"
bitfld.long 0x00 24. "  SPB56  ,Set Pending Bit 56" "Not pending,Pending"
bitfld.long 0x00 23. "  SPB55  ,Set Pending Bit 55" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 22. " SPB54  ,Set Pending Bit 54" "Not pending,Pending"
bitfld.long 0x00 21. "  SPB53  ,Set Pending Bit 53" "Not pending,Pending"
bitfld.long 0x00 20. "  SPB52  ,Set Pending Bit 52" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 19. " SPB51  ,Set Pending Bit 51" "Not pending,Pending"
bitfld.long 0x00 18. "  SPB50  ,Set Pending Bit 50" "Not pending,Pending"
bitfld.long 0x00 17. "  SPB49  ,Set Pending Bit 49" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 16. " SPB48  ,Set Pending Bit 48" "Not pending,Pending"
bitfld.long 0x00 15. "  SPB47  ,Set Pending Bit 47" "Not pending,Pending"
bitfld.long 0x00 14. "  SPB46  ,Set Pending Bit 46" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 13. " SPB45  ,Set Pending Bit 45" "Not pending,Pending"
bitfld.long 0x00 12. "  SPB44  ,Set Pending Bit 44" "Not pending,Pending"
bitfld.long 0x00 11. "  SPB43  ,Set Pending Bit 43" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 10. " SPB42  ,Set Pending Bit 42" "Not pending,Pending"
bitfld.long 0x00 9. "  SPB41  ,Set Pending Bit 41" "Not pending,Pending"
bitfld.long 0x00 8. "  SPB40  ,Set Pending Bit 40" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 7. " SPB39  ,Set Pending Bit 39" "Not pending,Pending"
bitfld.long 0x00 6. "  SPB38  ,Set Pending Bit 38" "Not pending,Pending"
bitfld.long 0x00 5. "  SPB37  ,Set Pending Bit 37" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 4. " SPB36  ,Set Pending Bit 36" "Not pending,Pending"
bitfld.long 0x00 3. "  SPB35  ,Set Pending Bit 35" "Not pending,Pending"
bitfld.long 0x00 2. "  SPB34  ,Set Pending Bit 34" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 1. " SPB33  ,Set Pending Bit 33" "Not pending,Pending"
bitfld.long 0x00 0. "  SPB32  ,Set Pending Bit 32" "Not pending,Pending"
group.long 0x1208++0x03
line.long 0x0 "GICD_ISPR2,Interrupt Set Pending Register 2"
bitfld.long 0x00 31. " SPB95  ,Set Pending Bit 95" "Not pending,Pending"
bitfld.long 0x00 30. "  SPB94  ,Set Pending Bit 94" "Not pending,Pending"
bitfld.long 0x00 29. "  SPB93  ,Set Pending Bit 93" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 28. " SPB92  ,Set Pending Bit 92" "Not pending,Pending"
bitfld.long 0x00 27. "  SPB91  ,Set Pending Bit 91" "Not pending,Pending"
bitfld.long 0x00 26. "  SPB90  ,Set Pending Bit 90" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 25. " SPB89  ,Set Pending Bit 89" "Not pending,Pending"
bitfld.long 0x00 24. "  SPB88  ,Set Pending Bit 88" "Not pending,Pending"
bitfld.long 0x00 23. "  SPB87  ,Set Pending Bit 87" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 22. " SPB86  ,Set Pending Bit 86" "Not pending,Pending"
bitfld.long 0x00 21. "  SPB85  ,Set Pending Bit 85" "Not pending,Pending"
bitfld.long 0x00 20. "  SPB84  ,Set Pending Bit 84" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 19. " SPB83  ,Set Pending Bit 83" "Not pending,Pending"
bitfld.long 0x00 18. "  SPB82  ,Set Pending Bit 82" "Not pending,Pending"
bitfld.long 0x00 17. "  SPB81  ,Set Pending Bit 81" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 16. " SPB80  ,Set Pending Bit 80" "Not pending,Pending"
bitfld.long 0x00 15. "  SPB79  ,Set Pending Bit 79" "Not pending,Pending"
bitfld.long 0x00 14. "  SPB78  ,Set Pending Bit 78" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 13. " SPB77  ,Set Pending Bit 77" "Not pending,Pending"
bitfld.long 0x00 12. "  SPB76  ,Set Pending Bit 76" "Not pending,Pending"
bitfld.long 0x00 11. "  SPB75  ,Set Pending Bit 75" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 10. " SPB74  ,Set Pending Bit 74" "Not pending,Pending"
bitfld.long 0x00 9. "  SPB73  ,Set Pending Bit 73" "Not pending,Pending"
bitfld.long 0x00 8. "  SPB72  ,Set Pending Bit 72" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 7. " SPB71  ,Set Pending Bit 71" "Not pending,Pending"
bitfld.long 0x00 6. "  SPB70  ,Set Pending Bit 70" "Not pending,Pending"
bitfld.long 0x00 5. "  SPB69  ,Set Pending Bit 69" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 4. " SPB68  ,Set Pending Bit 68" "Not pending,Pending"
bitfld.long 0x00 3. "  SPB67  ,Set Pending Bit 67" "Not pending,Pending"
bitfld.long 0x00 2. "  SPB66  ,Set Pending Bit 66" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 1. " SPB65  ,Set Pending Bit 65" "Not pending,Pending"
bitfld.long 0x00 0. "  SPB64  ,Set Pending Bit 64" "Not pending,Pending"
group.long 0x120C++0x03
line.long 0x0 "GICD_ISPR3,Interrupt Set Pending Register 3"
bitfld.long 0x00 31. " SPB127 ,Set Pending Bit 127" "Not pending,Pending"
bitfld.long 0x00 30. "  SPB126 ,Set Pending Bit 126" "Not pending,Pending"
bitfld.long 0x00 29. "  SPB125 ,Set Pending Bit 125" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 28. " SPB124 ,Set Pending Bit 124" "Not pending,Pending"
bitfld.long 0x00 27. "  SPB123 ,Set Pending Bit 123" "Not pending,Pending"
bitfld.long 0x00 26. "  SPB122 ,Set Pending Bit 122" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 25. " SPB121 ,Set Pending Bit 121" "Not pending,Pending"
bitfld.long 0x00 24. "  SPB120 ,Set Pending Bit 120" "Not pending,Pending"
bitfld.long 0x00 23. "  SPB119 ,Set Pending Bit 119" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 22. " SPB118 ,Set Pending Bit 118" "Not pending,Pending"
bitfld.long 0x00 21. "  SPB117 ,Set Pending Bit 117" "Not pending,Pending"
bitfld.long 0x00 20. "  SPB116 ,Set Pending Bit 116" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 19. " SPB115 ,Set Pending Bit 115" "Not pending,Pending"
bitfld.long 0x00 18. "  SPB114 ,Set Pending Bit 114" "Not pending,Pending"
bitfld.long 0x00 17. "  SPB113 ,Set Pending Bit 113" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 16. " SPB112 ,Set Pending Bit 112" "Not pending,Pending"
bitfld.long 0x00 15. "  SPB111 ,Set Pending Bit 111" "Not pending,Pending"
bitfld.long 0x00 14. "  SPB110 ,Set Pending Bit 110" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 13. " SPB109 ,Set Pending Bit 109" "Not pending,Pending"
bitfld.long 0x00 12. "  SPB108 ,Set Pending Bit 108" "Not pending,Pending"
bitfld.long 0x00 11. "  SPB107 ,Set Pending Bit 107" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 10. " SPB106 ,Set Pending Bit 106" "Not pending,Pending"
bitfld.long 0x00 9. "  SPB105 ,Set Pending Bit 105" "Not pending,Pending"
bitfld.long 0x00 8. "  SPB104 ,Set Pending Bit 104" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 7. " SPB103 ,Set Pending Bit 103" "Not pending,Pending"
bitfld.long 0x00 6. "  SPB102 ,Set Pending Bit 102" "Not pending,Pending"
bitfld.long 0x00 5. "  SPB101 ,Set Pending Bit 101" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 4. " SPB100 ,Set Pending Bit 100" "Not pending,Pending"
bitfld.long 0x00 3. "  SPB99  ,Set Pending Bit 99" "Not pending,Pending"
bitfld.long 0x00 2. "  SPB98  ,Set Pending Bit 98" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 1. " SPB97  ,Set Pending Bit 97" "Not pending,Pending"
bitfld.long 0x00 0. "  SPB96  ,Set Pending Bit 96" "Not pending,Pending"
group.long 0x1210++0x03
line.long 0x0 "GICD_ISPR4,Interrupt Set Pending Register 4"
bitfld.long 0x00 31. " SPB159 ,Set Pending Bit 159" "Not pending,Pending"
bitfld.long 0x00 30. "  SPB158 ,Set Pending Bit 158" "Not pending,Pending"
bitfld.long 0x00 29. "  SPB157 ,Set Pending Bit 157" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 28. " SPB156 ,Set Pending Bit 156" "Not pending,Pending"
bitfld.long 0x00 27. "  SPB155 ,Set Pending Bit 155" "Not pending,Pending"
bitfld.long 0x00 26. "  SPB154 ,Set Pending Bit 154" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 25. " SPB153 ,Set Pending Bit 153" "Not pending,Pending"
bitfld.long 0x00 24. "  SPB152 ,Set Pending Bit 152" "Not pending,Pending"
bitfld.long 0x00 23. "  SPB151 ,Set Pending Bit 151" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 22. " SPB150 ,Set Pending Bit 150" "Not pending,Pending"
bitfld.long 0x00 21. "  SPB149 ,Set Pending Bit 149" "Not pending,Pending"
bitfld.long 0x00 20. "  SPB148 ,Set Pending Bit 148" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 19. " SPB147 ,Set Pending Bit 147" "Not pending,Pending"
bitfld.long 0x00 18. "  SPB146 ,Set Pending Bit 146" "Not pending,Pending"
bitfld.long 0x00 17. "  SPB145 ,Set Pending Bit 145" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 16. " SPB144 ,Set Pending Bit 144" "Not pending,Pending"
bitfld.long 0x00 15. "  SPB143 ,Set Pending Bit 143" "Not pending,Pending"
bitfld.long 0x00 14. "  SPB142 ,Set Pending Bit 142" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 13. " SPB141 ,Set Pending Bit 141" "Not pending,Pending"
bitfld.long 0x00 12. "  SPB140 ,Set Pending Bit 140" "Not pending,Pending"
bitfld.long 0x00 11. "  SPB139 ,Set Pending Bit 139" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 10. " SPB138 ,Set Pending Bit 138" "Not pending,Pending"
bitfld.long 0x00 9. "  SPB137 ,Set Pending Bit 137" "Not pending,Pending"
bitfld.long 0x00 8. "  SPB136 ,Set Pending Bit 136" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 7. " SPB135 ,Set Pending Bit 135" "Not pending,Pending"
bitfld.long 0x00 6. "  SPB134 ,Set Pending Bit 134" "Not pending,Pending"
bitfld.long 0x00 5. "  SPB133 ,Set Pending Bit 133" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 4. " SPB132 ,Set Pending Bit 132" "Not pending,Pending"
bitfld.long 0x00 3. "  SPB131 ,Set Pending Bit 131" "Not pending,Pending"
bitfld.long 0x00 2. "  SPB130 ,Set Pending Bit 130" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 1. " SPB129 ,Set Pending Bit 129" "Not pending,Pending"
bitfld.long 0x00 0. "  SPB128 ,Set Pending Bit 128" "Not pending,Pending"
group.long 0x1214++0x03
line.long 0x0 "GICD_ISPR5,Interrupt Set Pending Register 5"
bitfld.long 0x00 31. " SPB191 ,Set Pending Bit 191" "Not pending,Pending"
bitfld.long 0x00 30. "  SPB190 ,Set Pending Bit 190" "Not pending,Pending"
bitfld.long 0x00 29. "  SPB189 ,Set Pending Bit 189" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 28. " SPB188 ,Set Pending Bit 188" "Not pending,Pending"
bitfld.long 0x00 27. "  SPB187 ,Set Pending Bit 187" "Not pending,Pending"
bitfld.long 0x00 26. "  SPB186 ,Set Pending Bit 186" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 25. " SPB185 ,Set Pending Bit 185" "Not pending,Pending"
bitfld.long 0x00 24. "  SPB184 ,Set Pending Bit 184" "Not pending,Pending"
bitfld.long 0x00 23. "  SPB183 ,Set Pending Bit 183" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 22. " SPB182 ,Set Pending Bit 182" "Not pending,Pending"
bitfld.long 0x00 21. "  SPB181 ,Set Pending Bit 181" "Not pending,Pending"
bitfld.long 0x00 20. "  SPB180 ,Set Pending Bit 180" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 19. " SPB179 ,Set Pending Bit 179" "Not pending,Pending"
bitfld.long 0x00 18. "  SPB178 ,Set Pending Bit 178" "Not pending,Pending"
bitfld.long 0x00 17. "  SPB177 ,Set Pending Bit 177" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 16. " SPB176 ,Set Pending Bit 176" "Not pending,Pending"
bitfld.long 0x00 15. "  SPB175 ,Set Pending Bit 175" "Not pending,Pending"
bitfld.long 0x00 14. "  SPB174 ,Set Pending Bit 174" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 13. " SPB173 ,Set Pending Bit 173" "Not pending,Pending"
bitfld.long 0x00 12. "  SPB172 ,Set Pending Bit 172" "Not pending,Pending"
bitfld.long 0x00 11. "  SPB171 ,Set Pending Bit 171" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 10. " SPB170 ,Set Pending Bit 170" "Not pending,Pending"
bitfld.long 0x00 9. "  SPB169 ,Set Pending Bit 169" "Not pending,Pending"
bitfld.long 0x00 8. "  SPB168 ,Set Pending Bit 168" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 7. " SPB167 ,Set Pending Bit 167" "Not pending,Pending"
bitfld.long 0x00 6. "  SPB166 ,Set Pending Bit 166" "Not pending,Pending"
bitfld.long 0x00 5. "  SPB165 ,Set Pending Bit 165" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 4. " SPB164 ,Set Pending Bit 164" "Not pending,Pending"
bitfld.long 0x00 3. "  SPB163 ,Set Pending Bit 163" "Not pending,Pending"
bitfld.long 0x00 2. "  SPB162 ,Set Pending Bit 162" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 1. " SPB161 ,Set Pending Bit 161" "Not pending,Pending"
bitfld.long 0x00 0. "  SPB160 ,Set Pending Bit 160" "Not pending,Pending"
group.long 0x1218++0x03
line.long 0x0 "GICD_ISPR6,Interrupt Set Pending Register 6"
bitfld.long 0x00 31. " SPB223 ,Set Pending Bit 223" "Not pending,Pending"
bitfld.long 0x00 30. "  SPB222 ,Set Pending Bit 222" "Not pending,Pending"
bitfld.long 0x00 29. "  SPB221 ,Set Pending Bit 221" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 28. " SPB220 ,Set Pending Bit 220" "Not pending,Pending"
bitfld.long 0x00 27. "  SPB219 ,Set Pending Bit 219" "Not pending,Pending"
bitfld.long 0x00 26. "  SPB218 ,Set Pending Bit 218" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 25. " SPB217 ,Set Pending Bit 217" "Not pending,Pending"
bitfld.long 0x00 24. "  SPB216 ,Set Pending Bit 216" "Not pending,Pending"
bitfld.long 0x00 23. "  SPB215 ,Set Pending Bit 215" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 22. " SPB214 ,Set Pending Bit 214" "Not pending,Pending"
bitfld.long 0x00 21. "  SPB213 ,Set Pending Bit 213" "Not pending,Pending"
bitfld.long 0x00 20. "  SPB212 ,Set Pending Bit 212" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 19. " SPB211 ,Set Pending Bit 211" "Not pending,Pending"
bitfld.long 0x00 18. "  SPB210 ,Set Pending Bit 210" "Not pending,Pending"
bitfld.long 0x00 17. "  SPB209 ,Set Pending Bit 209" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 16. " SPB208 ,Set Pending Bit 208" "Not pending,Pending"
bitfld.long 0x00 15. "  SPB207 ,Set Pending Bit 207" "Not pending,Pending"
bitfld.long 0x00 14. "  SPB206 ,Set Pending Bit 206" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 13. " SPB205 ,Set Pending Bit 205" "Not pending,Pending"
bitfld.long 0x00 12. "  SPB204 ,Set Pending Bit 204" "Not pending,Pending"
bitfld.long 0x00 11. "  SPB203 ,Set Pending Bit 203" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 10. " SPB202 ,Set Pending Bit 202" "Not pending,Pending"
bitfld.long 0x00 9. "  SPB201 ,Set Pending Bit 201" "Not pending,Pending"
bitfld.long 0x00 8. "  SPB200 ,Set Pending Bit 200" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 7. " SPB199 ,Set Pending Bit 199" "Not pending,Pending"
bitfld.long 0x00 6. "  SPB198 ,Set Pending Bit 198" "Not pending,Pending"
bitfld.long 0x00 5. "  SPB197 ,Set Pending Bit 197" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 4. " SPB196 ,Set Pending Bit 196" "Not pending,Pending"
bitfld.long 0x00 3. "  SPB195 ,Set Pending Bit 195" "Not pending,Pending"
bitfld.long 0x00 2. "  SPB194 ,Set Pending Bit 194" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 1. " SPB193 ,Set Pending Bit 193" "Not pending,Pending"
bitfld.long 0x00 0. "  SPB192 ,Set Pending Bit 192" "Not pending,Pending"
group.long 0x121C++0x03
line.long 0x0 "GICD_ISPR7,Interrupt Set Pending Register 7"
bitfld.long 0x00 31. " SPB255 ,Set Pending Bit 255" "Not pending,Pending"
bitfld.long 0x00 30. "  SPB254 ,Set Pending Bit 254" "Not pending,Pending"
bitfld.long 0x00 29. "  SPB253 ,Set Pending Bit 253" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 28. " SPB252 ,Set Pending Bit 252" "Not pending,Pending"
bitfld.long 0x00 27. "  SPB251 ,Set Pending Bit 251" "Not pending,Pending"
bitfld.long 0x00 26. "  SPB250 ,Set Pending Bit 250" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 25. " SPB249 ,Set Pending Bit 249" "Not pending,Pending"
bitfld.long 0x00 24. "  SPB248 ,Set Pending Bit 248" "Not pending,Pending"
bitfld.long 0x00 23. "  SPB247 ,Set Pending Bit 247" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 22. " SPB246 ,Set Pending Bit 246" "Not pending,Pending"
bitfld.long 0x00 21. "  SPB245 ,Set Pending Bit 245" "Not pending,Pending"
bitfld.long 0x00 20. "  SPB244 ,Set Pending Bit 244" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 19. " SPB243 ,Set Pending Bit 243" "Not pending,Pending"
bitfld.long 0x00 18. "  SPB242 ,Set Pending Bit 242" "Not pending,Pending"
bitfld.long 0x00 17. "  SPB241 ,Set Pending Bit 241" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 16. " SPB240 ,Set Pending Bit 240" "Not pending,Pending"
bitfld.long 0x00 15. "  SPB239 ,Set Pending Bit 239" "Not pending,Pending"
bitfld.long 0x00 14. "  SPB238 ,Set Pending Bit 238" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 13. " SPB237 ,Set Pending Bit 237" "Not pending,Pending"
bitfld.long 0x00 12. "  SPB236 ,Set Pending Bit 236" "Not pending,Pending"
bitfld.long 0x00 11. "  SPB235 ,Set Pending Bit 235" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 10. " SPB234 ,Set Pending Bit 234" "Not pending,Pending"
bitfld.long 0x00 9. "  SPB233 ,Set Pending Bit 233" "Not pending,Pending"
bitfld.long 0x00 8. "  SPB232 ,Set Pending Bit 232" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 7. " SPB231 ,Set Pending Bit 231" "Not pending,Pending"
bitfld.long 0x00 6. "  SPB230 ,Set Pending Bit 230" "Not pending,Pending"
bitfld.long 0x00 5. "  SPB229 ,Set Pending Bit 229" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 4. " SPB228 ,Set Pending Bit 228" "Not pending,Pending"
bitfld.long 0x00 3. "  SPB227 ,Set Pending Bit 227" "Not pending,Pending"
bitfld.long 0x00 2. "  SPB226 ,Set Pending Bit 226" "Not pending,Pending"
textline "                          "
bitfld.long 0x00 1. " SPB225 ,Set Pending Bit 225" "Not pending,Pending"
bitfld.long 0x00 0. "  SPB224 ,Set Pending Bit 224" "Not pending,Pending"
textline "                          "
tree.end
tree "Clear-Pending Registers"
group.long 0x1280++0x03
line.long 0x0 "GICD_ICPR0,Interrupt Clear Pending Register 0"
eventfld.long 0x00 31. " CPB31  ,Clear Pending Bit 31" "Not pending,Pending"
eventfld.long 0x00 30. "  CPB30  ,Clear Pending Bit 30" "Not pending,Pending"
eventfld.long 0x00 29. "  CPB29  ,Clear Pending Bit 29" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 28. " CPB28  ,Clear Pending Bit 28" "Not pending,Pending"
eventfld.long 0x00 27. "  CPB27  ,Clear Pending Bit 27" "Not pending,Pending"
eventfld.long 0x00 26. "  CPB26  ,Clear Pending Bit 26" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 25. " CPB25  ,Clear Pending Bit 25" "Not pending,Pending"
eventfld.long 0x00 24. "  CPB24  ,Clear Pending Bit 24" "Not pending,Pending"
eventfld.long 0x00 23. "  CPB23  ,Clear Pending Bit 23" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 22. " CPB22  ,Clear Pending Bit 22" "Not pending,Pending"
eventfld.long 0x00 21. "  CPB21  ,Clear Pending Bit 21" "Not pending,Pending"
eventfld.long 0x00 20. "  CPB20  ,Clear Pending Bit 20" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 19. " CPB19  ,Clear Pending Bit 19" "Not pending,Pending"
eventfld.long 0x00 18. "  CPB18  ,Clear Pending Bit 18" "Not pending,Pending"
eventfld.long 0x00 17. "  CPB17  ,Clear Pending Bit 17" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 16. " CPB16  ,Clear Pending Bit 16" "Not pending,Pending"
eventfld.long 0x00 15. "  CPB15  ,Clear Pending Bit 15" "Not pending,Pending"
eventfld.long 0x00 14. "  CPB14  ,Clear Pending Bit 14" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 13. " CPB13  ,Clear Pending Bit 13" "Not pending,Pending"
eventfld.long 0x00 12. "  CPB12  ,Clear Pending Bit 12" "Not pending,Pending"
eventfld.long 0x00 11. "  CPB11  ,Clear Pending Bit 11" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 10. " CPB10  ,Clear Pending Bit 10" "Not pending,Pending"
eventfld.long 0x00 9. "  CPB9   ,Clear Pending Bit 9" "Not pending,Pending"
eventfld.long 0x00 8. "  CPB8   ,Clear Pending Bit 8" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 7. " CPB7   ,Clear Pending Bit 7" "Not pending,Pending"
eventfld.long 0x00 6. "  CPB6   ,Clear Pending Bit 6" "Not pending,Pending"
eventfld.long 0x00 5. "  CPB5   ,Clear Pending Bit 5" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 4. " CPB4   ,Clear Pending Bit 4" "Not pending,Pending"
eventfld.long 0x00 3. "  CPB3   ,Clear Pending Bit 3" "Not pending,Pending"
eventfld.long 0x00 2. "  CPB2   ,Clear Pending Bit 2" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 1. " CPB1   ,Clear Pending Bit 1" "Not pending,Pending"
eventfld.long 0x00 0. "  CPB0   ,Clear Pending Bit 0" "Not pending,Pending"
group.long 0x1284++0x03
line.long 0x0 "GICD_ICPR1,Interrupt Clear Pending Register 1"
eventfld.long 0x00 31. " CPB63  ,Clear Pending Bit 63" "Not pending,Pending"
eventfld.long 0x00 30. "  CPB62  ,Clear Pending Bit 62" "Not pending,Pending"
eventfld.long 0x00 29. "  CPB61  ,Clear Pending Bit 61" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 28. " CPB60  ,Clear Pending Bit 60" "Not pending,Pending"
eventfld.long 0x00 27. "  CPB59  ,Clear Pending Bit 59" "Not pending,Pending"
eventfld.long 0x00 26. "  CPB58  ,Clear Pending Bit 58" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 25. " CPB57  ,Clear Pending Bit 57" "Not pending,Pending"
eventfld.long 0x00 24. "  CPB56  ,Clear Pending Bit 56" "Not pending,Pending"
eventfld.long 0x00 23. "  CPB55  ,Clear Pending Bit 55" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 22. " CPB54  ,Clear Pending Bit 54" "Not pending,Pending"
eventfld.long 0x00 21. "  CPB53  ,Clear Pending Bit 53" "Not pending,Pending"
eventfld.long 0x00 20. "  CPB52  ,Clear Pending Bit 52" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 19. " CPB51  ,Clear Pending Bit 51" "Not pending,Pending"
eventfld.long 0x00 18. "  CPB50  ,Clear Pending Bit 50" "Not pending,Pending"
eventfld.long 0x00 17. "  CPB49  ,Clear Pending Bit 49" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 16. " CPB48  ,Clear Pending Bit 48" "Not pending,Pending"
eventfld.long 0x00 15. "  CPB47  ,Clear Pending Bit 47" "Not pending,Pending"
eventfld.long 0x00 14. "  CPB46  ,Clear Pending Bit 46" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 13. " CPB45  ,Clear Pending Bit 45" "Not pending,Pending"
eventfld.long 0x00 12. "  CPB44  ,Clear Pending Bit 44" "Not pending,Pending"
eventfld.long 0x00 11. "  CPB43  ,Clear Pending Bit 43" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 10. " CPB42  ,Clear Pending Bit 42" "Not pending,Pending"
eventfld.long 0x00 9. "  CPB41  ,Clear Pending Bit 41" "Not pending,Pending"
eventfld.long 0x00 8. "  CPB40  ,Clear Pending Bit 40" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 7. " CPB39  ,Clear Pending Bit 39" "Not pending,Pending"
eventfld.long 0x00 6. "  CPB38  ,Clear Pending Bit 38" "Not pending,Pending"
eventfld.long 0x00 5. "  CPB37  ,Clear Pending Bit 37" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 4. " CPB36  ,Clear Pending Bit 36" "Not pending,Pending"
eventfld.long 0x00 3. "  CPB35  ,Clear Pending Bit 35" "Not pending,Pending"
eventfld.long 0x00 2. "  CPB34  ,Clear Pending Bit 34" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 1. " CPB33  ,Clear Pending Bit 33" "Not pending,Pending"
eventfld.long 0x00 0. "  CPB32  ,Clear Pending Bit 32" "Not pending,Pending"
group.long 0x1288++0x03
line.long 0x0 "GICD_ICPR2,Interrupt Clear Pending Register 2"
eventfld.long 0x00 31. " CPB95  ,Clear Pending Bit 95" "Not pending,Pending"
eventfld.long 0x00 30. "  CPB94  ,Clear Pending Bit 94" "Not pending,Pending"
eventfld.long 0x00 29. "  CPB93  ,Clear Pending Bit 93" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 28. " CPB92  ,Clear Pending Bit 92" "Not pending,Pending"
eventfld.long 0x00 27. "  CPB91  ,Clear Pending Bit 91" "Not pending,Pending"
eventfld.long 0x00 26. "  CPB90  ,Clear Pending Bit 90" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 25. " CPB89  ,Clear Pending Bit 89" "Not pending,Pending"
eventfld.long 0x00 24. "  CPB88  ,Clear Pending Bit 88" "Not pending,Pending"
eventfld.long 0x00 23. "  CPB87  ,Clear Pending Bit 87" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 22. " CPB86  ,Clear Pending Bit 86" "Not pending,Pending"
eventfld.long 0x00 21. "  CPB85  ,Clear Pending Bit 85" "Not pending,Pending"
eventfld.long 0x00 20. "  CPB84  ,Clear Pending Bit 84" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 19. " CPB83  ,Clear Pending Bit 83" "Not pending,Pending"
eventfld.long 0x00 18. "  CPB82  ,Clear Pending Bit 82" "Not pending,Pending"
eventfld.long 0x00 17. "  CPB81  ,Clear Pending Bit 81" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 16. " CPB80  ,Clear Pending Bit 80" "Not pending,Pending"
eventfld.long 0x00 15. "  CPB79  ,Clear Pending Bit 79" "Not pending,Pending"
eventfld.long 0x00 14. "  CPB78  ,Clear Pending Bit 78" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 13. " CPB77  ,Clear Pending Bit 77" "Not pending,Pending"
eventfld.long 0x00 12. "  CPB76  ,Clear Pending Bit 76" "Not pending,Pending"
eventfld.long 0x00 11. "  CPB75  ,Clear Pending Bit 75" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 10. " CPB74  ,Clear Pending Bit 74" "Not pending,Pending"
eventfld.long 0x00 9. "  CPB73  ,Clear Pending Bit 73" "Not pending,Pending"
eventfld.long 0x00 8. "  CPB72  ,Clear Pending Bit 72" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 7. " CPB71  ,Clear Pending Bit 71" "Not pending,Pending"
eventfld.long 0x00 6. "  CPB70  ,Clear Pending Bit 70" "Not pending,Pending"
eventfld.long 0x00 5. "  CPB69  ,Clear Pending Bit 69" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 4. " CPB68  ,Clear Pending Bit 68" "Not pending,Pending"
eventfld.long 0x00 3. "  CPB67  ,Clear Pending Bit 67" "Not pending,Pending"
eventfld.long 0x00 2. "  CPB66  ,Clear Pending Bit 66" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 1. " CPB65  ,Clear Pending Bit 65" "Not pending,Pending"
eventfld.long 0x00 0. "  CPB64  ,Clear Pending Bit 64" "Not pending,Pending"
group.long 0x128C++0x03
line.long 0x0 "GICD_ICPR3,Interrupt Clear Pending Register 3"
eventfld.long 0x00 31. " CPB127 ,Clear Pending Bit 127" "Not pending,Pending"
eventfld.long 0x00 30. "  CPB126 ,Clear Pending Bit 126" "Not pending,Pending"
eventfld.long 0x00 29. "  CPB125 ,Clear Pending Bit 125" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 28. " CPB124 ,Clear Pending Bit 124" "Not pending,Pending"
eventfld.long 0x00 27. "  CPB123 ,Clear Pending Bit 123" "Not pending,Pending"
eventfld.long 0x00 26. "  CPB122 ,Clear Pending Bit 122" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 25. " CPB121 ,Clear Pending Bit 121" "Not pending,Pending"
eventfld.long 0x00 24. "  CPB120 ,Clear Pending Bit 120" "Not pending,Pending"
eventfld.long 0x00 23. "  CPB119 ,Clear Pending Bit 119" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 22. " CPB118 ,Clear Pending Bit 118" "Not pending,Pending"
eventfld.long 0x00 21. "  CPB117 ,Clear Pending Bit 117" "Not pending,Pending"
eventfld.long 0x00 20. "  CPB116 ,Clear Pending Bit 116" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 19. " CPB115 ,Clear Pending Bit 115" "Not pending,Pending"
eventfld.long 0x00 18. "  CPB114 ,Clear Pending Bit 114" "Not pending,Pending"
eventfld.long 0x00 17. "  CPB113 ,Clear Pending Bit 113" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 16. " CPB112 ,Clear Pending Bit 112" "Not pending,Pending"
eventfld.long 0x00 15. "  CPB111 ,Clear Pending Bit 111" "Not pending,Pending"
eventfld.long 0x00 14. "  CPB110 ,Clear Pending Bit 110" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 13. " CPB109 ,Clear Pending Bit 109" "Not pending,Pending"
eventfld.long 0x00 12. "  CPB108 ,Clear Pending Bit 108" "Not pending,Pending"
eventfld.long 0x00 11. "  CPB107 ,Clear Pending Bit 107" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 10. " CPB106 ,Clear Pending Bit 106" "Not pending,Pending"
eventfld.long 0x00 9. "  CPB105 ,Clear Pending Bit 105" "Not pending,Pending"
eventfld.long 0x00 8. "  CPB104 ,Clear Pending Bit 104" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 7. " CPB103 ,Clear Pending Bit 103" "Not pending,Pending"
eventfld.long 0x00 6. "  CPB102 ,Clear Pending Bit 102" "Not pending,Pending"
eventfld.long 0x00 5. "  CPB101 ,Clear Pending Bit 101" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 4. " CPB100 ,Clear Pending Bit 100" "Not pending,Pending"
eventfld.long 0x00 3. "  CPB99  ,Clear Pending Bit 99" "Not pending,Pending"
eventfld.long 0x00 2. "  CPB98  ,Clear Pending Bit 98" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 1. " CPB97  ,Clear Pending Bit 97" "Not pending,Pending"
eventfld.long 0x00 0. "  CPB96  ,Clear Pending Bit 96" "Not pending,Pending"
group.long 0x1290++0x03
line.long 0x0 "GICD_ICPR4,Interrupt Clear Pending Register 4"
eventfld.long 0x00 31. " CPB159 ,Clear Pending Bit 159" "Not pending,Pending"
eventfld.long 0x00 30. "  CPB158 ,Clear Pending Bit 158" "Not pending,Pending"
eventfld.long 0x00 29. "  CPB157 ,Clear Pending Bit 157" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 28. " CPB156 ,Clear Pending Bit 156" "Not pending,Pending"
eventfld.long 0x00 27. "  CPB155 ,Clear Pending Bit 155" "Not pending,Pending"
eventfld.long 0x00 26. "  CPB154 ,Clear Pending Bit 154" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 25. " CPB153 ,Clear Pending Bit 153" "Not pending,Pending"
eventfld.long 0x00 24. "  CPB152 ,Clear Pending Bit 152" "Not pending,Pending"
eventfld.long 0x00 23. "  CPB151 ,Clear Pending Bit 151" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 22. " CPB150 ,Clear Pending Bit 150" "Not pending,Pending"
eventfld.long 0x00 21. "  CPB149 ,Clear Pending Bit 149" "Not pending,Pending"
eventfld.long 0x00 20. "  CPB148 ,Clear Pending Bit 148" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 19. " CPB147 ,Clear Pending Bit 147" "Not pending,Pending"
eventfld.long 0x00 18. "  CPB146 ,Clear Pending Bit 146" "Not pending,Pending"
eventfld.long 0x00 17. "  CPB145 ,Clear Pending Bit 145" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 16. " CPB144 ,Clear Pending Bit 144" "Not pending,Pending"
eventfld.long 0x00 15. "  CPB143 ,Clear Pending Bit 143" "Not pending,Pending"
eventfld.long 0x00 14. "  CPB142 ,Clear Pending Bit 142" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 13. " CPB141 ,Clear Pending Bit 141" "Not pending,Pending"
eventfld.long 0x00 12. "  CPB140 ,Clear Pending Bit 140" "Not pending,Pending"
eventfld.long 0x00 11. "  CPB139 ,Clear Pending Bit 139" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 10. " CPB138 ,Clear Pending Bit 138" "Not pending,Pending"
eventfld.long 0x00 9. "  CPB137 ,Clear Pending Bit 137" "Not pending,Pending"
eventfld.long 0x00 8. "  CPB136 ,Clear Pending Bit 136" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 7. " CPB135 ,Clear Pending Bit 135" "Not pending,Pending"
eventfld.long 0x00 6. "  CPB134 ,Clear Pending Bit 134" "Not pending,Pending"
eventfld.long 0x00 5. "  CPB133 ,Clear Pending Bit 133" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 4. " CPB132 ,Clear Pending Bit 132" "Not pending,Pending"
eventfld.long 0x00 3. "  CPB131 ,Clear Pending Bit 131" "Not pending,Pending"
eventfld.long 0x00 2. "  CPB130 ,Clear Pending Bit 130" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 1. " CPB129 ,Clear Pending Bit 129" "Not pending,Pending"
eventfld.long 0x00 0. "  CPB128 ,Clear Pending Bit 128" "Not pending,Pending"
group.long 0x1294++0x03
line.long 0x0 "GICD_ICPR5,Interrupt Clear Pending Register 5"
eventfld.long 0x00 31. " CPB191 ,Clear Pending Bit 191" "Not pending,Pending"
eventfld.long 0x00 30. "  CPB190 ,Clear Pending Bit 190" "Not pending,Pending"
eventfld.long 0x00 29. "  CPB189 ,Clear Pending Bit 189" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 28. " CPB188 ,Clear Pending Bit 188" "Not pending,Pending"
eventfld.long 0x00 27. "  CPB187 ,Clear Pending Bit 187" "Not pending,Pending"
eventfld.long 0x00 26. "  CPB186 ,Clear Pending Bit 186" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 25. " CPB185 ,Clear Pending Bit 185" "Not pending,Pending"
eventfld.long 0x00 24. "  CPB184 ,Clear Pending Bit 184" "Not pending,Pending"
eventfld.long 0x00 23. "  CPB183 ,Clear Pending Bit 183" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 22. " CPB182 ,Clear Pending Bit 182" "Not pending,Pending"
eventfld.long 0x00 21. "  CPB181 ,Clear Pending Bit 181" "Not pending,Pending"
eventfld.long 0x00 20. "  CPB180 ,Clear Pending Bit 180" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 19. " CPB179 ,Clear Pending Bit 179" "Not pending,Pending"
eventfld.long 0x00 18. "  CPB178 ,Clear Pending Bit 178" "Not pending,Pending"
eventfld.long 0x00 17. "  CPB177 ,Clear Pending Bit 177" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 16. " CPB176 ,Clear Pending Bit 176" "Not pending,Pending"
eventfld.long 0x00 15. "  CPB175 ,Clear Pending Bit 175" "Not pending,Pending"
eventfld.long 0x00 14. "  CPB174 ,Clear Pending Bit 174" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 13. " CPB173 ,Clear Pending Bit 173" "Not pending,Pending"
eventfld.long 0x00 12. "  CPB172 ,Clear Pending Bit 172" "Not pending,Pending"
eventfld.long 0x00 11. "  CPB171 ,Clear Pending Bit 171" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 10. " CPB170 ,Clear Pending Bit 170" "Not pending,Pending"
eventfld.long 0x00 9. "  CPB169 ,Clear Pending Bit 169" "Not pending,Pending"
eventfld.long 0x00 8. "  CPB168 ,Clear Pending Bit 168" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 7. " CPB167 ,Clear Pending Bit 167" "Not pending,Pending"
eventfld.long 0x00 6. "  CPB166 ,Clear Pending Bit 166" "Not pending,Pending"
eventfld.long 0x00 5. "  CPB165 ,Clear Pending Bit 165" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 4. " CPB164 ,Clear Pending Bit 164" "Not pending,Pending"
eventfld.long 0x00 3. "  CPB163 ,Clear Pending Bit 163" "Not pending,Pending"
eventfld.long 0x00 2. "  CPB162 ,Clear Pending Bit 162" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 1. " CPB161 ,Clear Pending Bit 161" "Not pending,Pending"
eventfld.long 0x00 0. "  CPB160 ,Clear Pending Bit 160" "Not pending,Pending"
group.long 0x1298++0x03
line.long 0x0 "GICD_ICPR6,Interrupt Clear Pending Register 6"
eventfld.long 0x00 31. " CPB223 ,Clear Pending Bit 223" "Not pending,Pending"
eventfld.long 0x00 30. "  CPB222 ,Clear Pending Bit 222" "Not pending,Pending"
eventfld.long 0x00 29. "  CPB221 ,Clear Pending Bit 221" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 28. " CPB220 ,Clear Pending Bit 220" "Not pending,Pending"
eventfld.long 0x00 27. "  CPB219 ,Clear Pending Bit 219" "Not pending,Pending"
eventfld.long 0x00 26. "  CPB218 ,Clear Pending Bit 218" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 25. " CPB217 ,Clear Pending Bit 217" "Not pending,Pending"
eventfld.long 0x00 24. "  CPB216 ,Clear Pending Bit 216" "Not pending,Pending"
eventfld.long 0x00 23. "  CPB215 ,Clear Pending Bit 215" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 22. " CPB214 ,Clear Pending Bit 214" "Not pending,Pending"
eventfld.long 0x00 21. "  CPB213 ,Clear Pending Bit 213" "Not pending,Pending"
eventfld.long 0x00 20. "  CPB212 ,Clear Pending Bit 212" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 19. " CPB211 ,Clear Pending Bit 211" "Not pending,Pending"
eventfld.long 0x00 18. "  CPB210 ,Clear Pending Bit 210" "Not pending,Pending"
eventfld.long 0x00 17. "  CPB209 ,Clear Pending Bit 209" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 16. " CPB208 ,Clear Pending Bit 208" "Not pending,Pending"
eventfld.long 0x00 15. "  CPB207 ,Clear Pending Bit 207" "Not pending,Pending"
eventfld.long 0x00 14. "  CPB206 ,Clear Pending Bit 206" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 13. " CPB205 ,Clear Pending Bit 205" "Not pending,Pending"
eventfld.long 0x00 12. "  CPB204 ,Clear Pending Bit 204" "Not pending,Pending"
eventfld.long 0x00 11. "  CPB203 ,Clear Pending Bit 203" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 10. " CPB202 ,Clear Pending Bit 202" "Not pending,Pending"
eventfld.long 0x00 9. "  CPB201 ,Clear Pending Bit 201" "Not pending,Pending"
eventfld.long 0x00 8. "  CPB200 ,Clear Pending Bit 200" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 7. " CPB199 ,Clear Pending Bit 199" "Not pending,Pending"
eventfld.long 0x00 6. "  CPB198 ,Clear Pending Bit 198" "Not pending,Pending"
eventfld.long 0x00 5. "  CPB197 ,Clear Pending Bit 197" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 4. " CPB196 ,Clear Pending Bit 196" "Not pending,Pending"
eventfld.long 0x00 3. "  CPB195 ,Clear Pending Bit 195" "Not pending,Pending"
eventfld.long 0x00 2. "  CPB194 ,Clear Pending Bit 194" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 1. " CPB193 ,Clear Pending Bit 193" "Not pending,Pending"
eventfld.long 0x00 0. "  CPB192 ,Clear Pending Bit 192" "Not pending,Pending"
group.long 0x129C++0x03
line.long 0x0 "GICD_ICPR7,Interrupt Clear Pending Register 7"
eventfld.long 0x00 31. " CPB255 ,Clear Pending Bit 255" "Not pending,Pending"
eventfld.long 0x00 30. "  CPB254 ,Clear Pending Bit 254" "Not pending,Pending"
eventfld.long 0x00 29. "  CPB253 ,Clear Pending Bit 253" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 28. " CPB252 ,Clear Pending Bit 252" "Not pending,Pending"
eventfld.long 0x00 27. "  CPB251 ,Clear Pending Bit 251" "Not pending,Pending"
eventfld.long 0x00 26. "  CPB250 ,Clear Pending Bit 250" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 25. " CPB249 ,Clear Pending Bit 249" "Not pending,Pending"
eventfld.long 0x00 24. "  CPB248 ,Clear Pending Bit 248" "Not pending,Pending"
eventfld.long 0x00 23. "  CPB247 ,Clear Pending Bit 247" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 22. " CPB246 ,Clear Pending Bit 246" "Not pending,Pending"
eventfld.long 0x00 21. "  CPB245 ,Clear Pending Bit 245" "Not pending,Pending"
eventfld.long 0x00 20. "  CPB244 ,Clear Pending Bit 244" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 19. " CPB243 ,Clear Pending Bit 243" "Not pending,Pending"
eventfld.long 0x00 18. "  CPB242 ,Clear Pending Bit 242" "Not pending,Pending"
eventfld.long 0x00 17. "  CPB241 ,Clear Pending Bit 241" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 16. " CPB240 ,Clear Pending Bit 240" "Not pending,Pending"
eventfld.long 0x00 15. "  CPB239 ,Clear Pending Bit 239" "Not pending,Pending"
eventfld.long 0x00 14. "  CPB238 ,Clear Pending Bit 238" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 13. " CPB237 ,Clear Pending Bit 237" "Not pending,Pending"
eventfld.long 0x00 12. "  CPB236 ,Clear Pending Bit 236" "Not pending,Pending"
eventfld.long 0x00 11. "  CPB235 ,Clear Pending Bit 235" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 10. " CPB234 ,Clear Pending Bit 234" "Not pending,Pending"
eventfld.long 0x00 9. "  CPB233 ,Clear Pending Bit 233" "Not pending,Pending"
eventfld.long 0x00 8. "  CPB232 ,Clear Pending Bit 232" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 7. " CPB231 ,Clear Pending Bit 231" "Not pending,Pending"
eventfld.long 0x00 6. "  CPB230 ,Clear Pending Bit 230" "Not pending,Pending"
eventfld.long 0x00 5. "  CPB229 ,Clear Pending Bit 229" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 4. " CPB228 ,Clear Pending Bit 228" "Not pending,Pending"
eventfld.long 0x00 3. "  CPB227 ,Clear Pending Bit 227" "Not pending,Pending"
eventfld.long 0x00 2. "  CPB226 ,Clear Pending Bit 226" "Not pending,Pending"
textline "                          "
eventfld.long 0x00 1. " CPB225 ,Clear Pending Bit 225" "Not pending,Pending"
eventfld.long 0x00 0. "  CPB224 ,Clear Pending Bit 224" "Not pending,Pending"
textline "                          "
tree.end
tree "Set/Clear Active Registers"
group.long 0x1300++0x03
line.long 0x0 "GICD_ISACTIVER0,Interrupt Set Active Register 0"
group.long 0x1304++0x03
line.long 0x0 "GICD_ISACTIVER1,Interrupt Set Active Register 1"
group.long 0x1308++0x03
line.long 0x0 "GICD_ISACTIVER2,Interrupt Set Active Register 2"
group.long 0x130C++0x03
line.long 0x0 "GICD_ISACTIVER3,Interrupt Set Active Register 3"
group.long 0x1310++0x03
line.long 0x0 "GICD_ISACTIVER4,Interrupt Set Active Register 4"
group.long 0x1314++0x03
line.long 0x0 "GICD_ISACTIVER5,Interrupt Set Active Register 5"
group.long 0x1318++0x03
line.long 0x0 "GICD_ISACTIVER6,Interrupt Set Active Register 6"
group.long 0x131C++0x03
line.long 0x0 "GICD_ISACTIVER7,Interrupt Set Active Register 7"
textline "                          "
group.long 0x1380++0x03
line.long 0x0 "GICD_ICACTIVER0,Interrupt Clear Active Register 0"
group.long 0x1384++0x03
line.long 0x0 "GICD_ICACTIVER1,Interrupt Clear Active Register 1"
group.long 0x1388++0x03
line.long 0x0 "GICD_ICACTIVER2,Interrupt Clear Active Register 2"
group.long 0x138C++0x03
line.long 0x0 "GICD_ICACTIVER3,Interrupt Clear Active Register 3"
group.long 0x1390++0x03
line.long 0x0 "GICD_ICACTIVER4,Interrupt Clear Active Register 4"
group.long 0x1394++0x03
line.long 0x0 "GICD_ICACTIVER5,Interrupt Clear Active Register 5"
group.long 0x1398++0x03
line.long 0x0 "GICD_ICACTIVER6,Interrupt Clear Active Register 6"
group.long 0x139C++0x03
line.long 0x0 "GICD_ICACTIVER7,Interrupt Clear Active Register 7"
textline "                          "
tree.end
tree "Priority Registers"
group.long 0x1400++0x03
line.long 0x0 "GICD_IPR0,Interrupt Priority Register 0"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x1404++0x03
line.long 0x0 "GICD_IPR1,Interrupt Priority Register 1"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x1408++0x03
line.long 0x0 "GICD_IPR2,Interrupt Priority Register 2"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x140C++0x03
line.long 0x0 "GICD_IPR3,Interrupt Priority Register 3"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x1410++0x03
line.long 0x0 "GICD_IPR4,Interrupt Priority Register 4"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x1414++0x03
line.long 0x0 "GICD_IPR5,Interrupt Priority Register 5"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x1418++0x03
line.long 0x0 "GICD_IPR6,Interrupt Priority Register 6"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x141C++0x03
line.long 0x0 "GICD_IPR7,Interrupt Priority Register 7"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x1420++0x03
line.long 0x0 "GICD_IPR8,Interrupt Priority Register 8"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x1424++0x03
line.long 0x0 "GICD_IPR9,Interrupt Priority Register 9"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x1428++0x03
line.long 0x0 "GICD_IPR10,Interrupt Priority Register 10"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x142C++0x03
line.long 0x0 "GICD_IPR11,Interrupt Priority Register 11"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x1430++0x03
line.long 0x0 "GICD_IPR12,Interrupt Priority Register 12"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x1434++0x03
line.long 0x0 "GICD_IPR13,Interrupt Priority Register 13"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x1438++0x03
line.long 0x0 "GICD_IPR14,Interrupt Priority Register 14"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x143C++0x03
line.long 0x0 "GICD_IPR15,Interrupt Priority Register 15"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x1440++0x03
line.long 0x0 "GICD_IPR16,Interrupt Priority Register 16"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x1444++0x03
line.long 0x0 "GICD_IPR17,Interrupt Priority Register 17"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x1448++0x03
line.long 0x0 "GICD_IPR18,Interrupt Priority Register 18"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x144C++0x03
line.long 0x0 "GICD_IPR19,Interrupt Priority Register 19"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x1450++0x03
line.long 0x0 "GICD_IPR20,Interrupt Priority Register 20"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x1454++0x03
line.long 0x0 "GICD_IPR21,Interrupt Priority Register 21"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x1458++0x03
line.long 0x0 "GICD_IPR22,Interrupt Priority Register 22"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x145C++0x03
line.long 0x0 "GICD_IPR23,Interrupt Priority Register 23"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x1460++0x03
line.long 0x0 "GICD_IPR24,Interrupt Priority Register 24"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x1464++0x03
line.long 0x0 "GICD_IPR25,Interrupt Priority Register 25"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x1468++0x03
line.long 0x0 "GICD_IPR26,Interrupt Priority Register 26"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x146C++0x03
line.long 0x0 "GICD_IPR27,Interrupt Priority Register 27"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x1470++0x03
line.long 0x0 "GICD_IPR28,Interrupt Priority Register 28"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x1474++0x03
line.long 0x0 "GICD_IPR29,Interrupt Priority Register 29"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x1478++0x03
line.long 0x0 "GICD_IPR30,Interrupt Priority Register 30"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x147C++0x03
line.long 0x0 "GICD_IPR31,Interrupt Priority Register 31"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x1480++0x03
line.long 0x0 "GICD_IPR32,Interrupt Priority Register 32"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x1484++0x03
line.long 0x0 "GICD_IPR33,Interrupt Priority Register 33"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x1488++0x03
line.long 0x0 "GICD_IPR34,Interrupt Priority Register 34"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x148C++0x03
line.long 0x0 "GICD_IPR35,Interrupt Priority Register 35"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x1490++0x03
line.long 0x0 "GICD_IPR36,Interrupt Priority Register 36"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x1494++0x03
line.long 0x0 "GICD_IPR37,Interrupt Priority Register 37"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x1498++0x03
line.long 0x0 "GICD_IPR38,Interrupt Priority Register 38"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x149C++0x03
line.long 0x0 "GICD_IPR39,Interrupt Priority Register 39"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x14A0++0x03
line.long 0x0 "GICD_IPR40,Interrupt Priority Register 40"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x14A4++0x03
line.long 0x0 "GICD_IPR41,Interrupt Priority Register 41"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x14A8++0x03
line.long 0x0 "GICD_IPR42,Interrupt Priority Register 42"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x14AC++0x03
line.long 0x0 "GICD_IPR43,Interrupt Priority Register 43"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x14B0++0x03
line.long 0x0 "GICD_IPR44,Interrupt Priority Register 44"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x14B4++0x03
line.long 0x0 "GICD_IPR45,Interrupt Priority Register 45"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x14B8++0x03
line.long 0x0 "GICD_IPR46,Interrupt Priority Register 46"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x14BC++0x03
line.long 0x0 "GICD_IPR47,Interrupt Priority Register 47"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x14C0++0x03
line.long 0x0 "GICD_IPR48,Interrupt Priority Register 48"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x14C4++0x03
line.long 0x0 "GICD_IPR49,Interrupt Priority Register 49"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x14C8++0x03
line.long 0x0 "GICD_IPR50,Interrupt Priority Register 50"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x14CC++0x03
line.long 0x0 "GICD_IPR51,Interrupt Priority Register 51"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x14D0++0x03
line.long 0x0 "GICD_IPR52,Interrupt Priority Register 52"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x14D4++0x03
line.long 0x0 "GICD_IPR53,Interrupt Priority Register 53"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x14D8++0x03
line.long 0x0 "GICD_IPR54,Interrupt Priority Register 54"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x14DC++0x03
line.long 0x0 "GICD_IPR55,Interrupt Priority Register 55"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x14E0++0x03
line.long 0x0 "GICD_IPR56,Interrupt Priority Register 56"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x14E4++0x03
line.long 0x0 "GICD_IPR57,Interrupt Priority Register 57"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x14E8++0x03
line.long 0x0 "GICD_IPR58,Interrupt Priority Register 58"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x14EC++0x03
line.long 0x0 "GICD_IPR59,Interrupt Priority Register 59"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x14F0++0x03
line.long 0x0 "GICD_IPR60,Interrupt Priority Register 60"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x14F4++0x03
line.long 0x0 "GICD_IPR61,Interrupt Priority Register 61"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x14F8++0x03
line.long 0x0 "GICD_IPR62,Interrupt Priority Register 62"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
group.long 0x14FC++0x03
line.long 0x0 "GICD_IPR63,Interrupt Priority Register 63"
hexmask.long.byte 0x00 24.--31. 1. " PBO3    ,Priority Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  PBO2    ,Priority Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  PBO1    ,Priority Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  PBO0    ,Priority Byte Offset 0"
textline "                          "
tree.end
tree "Processor Targets Registers"
rgroup.long 0x1800++0x03
line.long 0x0 "GICD_IPTR0,Interrupt Processor Targets Register 0"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
rgroup.long 0x1804++0x03
line.long 0x0 "GICD_IPTR1,Interrupt Processor Targets Register 1"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
rgroup.long 0x1808++0x03
line.long 0x0 "GICD_IPTR2,Interrupt Processor Targets Register 2"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
rgroup.long 0x180C++0x03
line.long 0x0 "GICD_IPTR3,Interrupt Processor Targets Register 3"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
rgroup.long 0x1810++0x03
line.long 0x0 "GICD_IPTR4,Interrupt Processor Targets Register 4"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
rgroup.long 0x1814++0x03
line.long 0x0 "GICD_IPTR5,Interrupt Processor Targets Register 5"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
rgroup.long 0x1818++0x03
line.long 0x0 "GICD_IPTR6,Interrupt Processor Targets Register 6"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
rgroup.long 0x181C++0x03
line.long 0x0 "GICD_IPTR7,Interrupt Processor Targets Register 7"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x1820++0x03
line.long 0x0 "GICD_IPTR8,Interrupt Processor Targets Register 8"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x1824++0x03
line.long 0x0 "GICD_IPTR9,Interrupt Processor Targets Register 9"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x1828++0x03
line.long 0x0 "GICD_IPTR10,Interrupt Processor Targets Register 10"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x182C++0x03
line.long 0x0 "GICD_IPTR11,Interrupt Processor Targets Register 11"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x1830++0x03
line.long 0x0 "GICD_IPTR12,Interrupt Processor Targets Register 12"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x1834++0x03
line.long 0x0 "GICD_IPTR13,Interrupt Processor Targets Register 13"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x1838++0x03
line.long 0x0 "GICD_IPTR14,Interrupt Processor Targets Register 14"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x183C++0x03
line.long 0x0 "GICD_IPTR15,Interrupt Processor Targets Register 15"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x1840++0x03
line.long 0x0 "GICD_IPTR16,Interrupt Processor Targets Register 16"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x1844++0x03
line.long 0x0 "GICD_IPTR17,Interrupt Processor Targets Register 17"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x1848++0x03
line.long 0x0 "GICD_IPTR18,Interrupt Processor Targets Register 18"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x184C++0x03
line.long 0x0 "GICD_IPTR19,Interrupt Processor Targets Register 19"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x1850++0x03
line.long 0x0 "GICD_IPTR20,Interrupt Processor Targets Register 20"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x1854++0x03
line.long 0x0 "GICD_IPTR21,Interrupt Processor Targets Register 21"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x1858++0x03
line.long 0x0 "GICD_IPTR22,Interrupt Processor Targets Register 22"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x185C++0x03
line.long 0x0 "GICD_IPTR23,Interrupt Processor Targets Register 23"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x1860++0x03
line.long 0x0 "GICD_IPTR24,Interrupt Processor Targets Register 24"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x1864++0x03
line.long 0x0 "GICD_IPTR25,Interrupt Processor Targets Register 25"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x1868++0x03
line.long 0x0 "GICD_IPTR26,Interrupt Processor Targets Register 26"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x186C++0x03
line.long 0x0 "GICD_IPTR27,Interrupt Processor Targets Register 27"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x1870++0x03
line.long 0x0 "GICD_IPTR28,Interrupt Processor Targets Register 28"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x1874++0x03
line.long 0x0 "GICD_IPTR29,Interrupt Processor Targets Register 29"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x1878++0x03
line.long 0x0 "GICD_IPTR30,Interrupt Processor Targets Register 30"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x187C++0x03
line.long 0x0 "GICD_IPTR31,Interrupt Processor Targets Register 31"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x1880++0x03
line.long 0x0 "GICD_IPTR32,Interrupt Processor Targets Register 32"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x1884++0x03
line.long 0x0 "GICD_IPTR33,Interrupt Processor Targets Register 33"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x1888++0x03
line.long 0x0 "GICD_IPTR34,Interrupt Processor Targets Register 34"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x188C++0x03
line.long 0x0 "GICD_IPTR35,Interrupt Processor Targets Register 35"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x1890++0x03
line.long 0x0 "GICD_IPTR36,Interrupt Processor Targets Register 36"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x1894++0x03
line.long 0x0 "GICD_IPTR37,Interrupt Processor Targets Register 37"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x1898++0x03
line.long 0x0 "GICD_IPTR38,Interrupt Processor Targets Register 38"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x189C++0x03
line.long 0x0 "GICD_IPTR39,Interrupt Processor Targets Register 39"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x18A0++0x03
line.long 0x0 "GICD_IPTR40,Interrupt Processor Targets Register 40"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x18A4++0x03
line.long 0x0 "GICD_IPTR41,Interrupt Processor Targets Register 41"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x18A8++0x03
line.long 0x0 "GICD_IPTR42,Interrupt Processor Targets Register 42"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x18AC++0x03
line.long 0x0 "GICD_IPTR43,Interrupt Processor Targets Register 43"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x18B0++0x03
line.long 0x0 "GICD_IPTR44,Interrupt Processor Targets Register 44"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x18B4++0x03
line.long 0x0 "GICD_IPTR45,Interrupt Processor Targets Register 45"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x18B8++0x03
line.long 0x0 "GICD_IPTR46,Interrupt Processor Targets Register 46"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x18BC++0x03
line.long 0x0 "GICD_IPTR47,Interrupt Processor Targets Register 47"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x18C0++0x03
line.long 0x0 "GICD_IPTR48,Interrupt Processor Targets Register 48"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x18C4++0x03
line.long 0x0 "GICD_IPTR49,Interrupt Processor Targets Register 49"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x18C8++0x03
line.long 0x0 "GICD_IPTR50,Interrupt Processor Targets Register 50"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x18CC++0x03
line.long 0x0 "GICD_IPTR51,Interrupt Processor Targets Register 51"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x18D0++0x03
line.long 0x0 "GICD_IPTR52,Interrupt Processor Targets Register 52"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x18D4++0x03
line.long 0x0 "GICD_IPTR53,Interrupt Processor Targets Register 53"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x18D8++0x03
line.long 0x0 "GICD_IPTR54,Interrupt Processor Targets Register 54"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x18DC++0x03
line.long 0x0 "GICD_IPTR55,Interrupt Processor Targets Register 55"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x18E0++0x03
line.long 0x0 "GICD_IPTR56,Interrupt Processor Targets Register 56"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x18E4++0x03
line.long 0x0 "GICD_IPTR57,Interrupt Processor Targets Register 57"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x18E8++0x03
line.long 0x0 "GICD_IPTR58,Interrupt Processor Targets Register 58"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x18EC++0x03
line.long 0x0 "GICD_IPTR59,Interrupt Processor Targets Register 59"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x18F0++0x03
line.long 0x0 "GICD_IPTR60,Interrupt Processor Targets Register 60"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x18F4++0x03
line.long 0x0 "GICD_IPTR61,Interrupt Processor Targets Register 61"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x18F8++0x03
line.long 0x0 "GICD_IPTR62,Interrupt Processor Targets Register 62"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
group.long 0x18FC++0x03
line.long 0x0 "GICD_IPTR63,Interrupt Processor Targets Register 63"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO3 ,CPU Targets Byte Offset 3"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO2 ,CPU Targets Byte Offset 2"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1 ,CPU Targets Byte Offset 1"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO0 ,CPU Targets Byte Offset 0"
textline "                          "
tree.end
tree "Configuration Registers"
rgroup.long 0x1C00++0x03
line.long 0x00 "GICD_ICFR0,Interrupt Configuration Register"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Edge,Level"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Edge,Level"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Edge,Level"
textline "                          "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Edge,Level"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Edge,Level"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Edge,Level"
textline "                          "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Edge,Level"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Edge,Level"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Edge,Level"
textline "                          "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Edge,Level"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Edge,Level"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Edge,Level"
textline "                          "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Edge,Level"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Edge,Level"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Edge,Level"
textline "                          "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Edge,Level"
rgroup.long 0x1C04++0x03
line.long 0x00 "GICD_ICFR1,Interrupt Configuration Register"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Edge,Level"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Edge,Level"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Edge,Level"
textline "                          "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Edge,Level"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Edge,Level"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Edge,Level"
textline "                          "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Edge,Level"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Edge,Level"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Edge,Level"
textline "                          "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Edge,Level"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Edge,Level"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Edge,Level"
textline "                          "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Edge,Level"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Edge,Level"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Edge,Level"
textline "                          "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Edge,Level"
textline "                          "
group.long 0x1C08++0x03
line.long 0x00 "GICD_ICFR2,Interrupt Configuration Register 0x1C08"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Edge,Level"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Edge,Level"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Edge,Level"
textline "                          "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Edge,Level"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Edge,Level"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Edge,Level"
textline "                          "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Edge,Level"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Edge,Level"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Edge,Level"
textline "                          "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Edge,Level"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Edge,Level"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Edge,Level"
textline "                          "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Edge,Level"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Edge,Level"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Edge,Level"
textline "                          "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Edge,Level"
textline "                          "
group.long 0x1C0C++0x03
line.long 0x00 "GICD_ICFR3,Interrupt Configuration Register 0x1C0C"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Edge,Level"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Edge,Level"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Edge,Level"
textline "                          "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Edge,Level"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Edge,Level"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Edge,Level"
textline "                          "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Edge,Level"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Edge,Level"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Edge,Level"
textline "                          "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Edge,Level"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Edge,Level"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Edge,Level"
textline "                          "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Edge,Level"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Edge,Level"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Edge,Level"
textline "                          "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Edge,Level"
textline "                          "
group.long 0x1C10++0x03
line.long 0x00 "GICD_ICFR4,Interrupt Configuration Register 0x1C10"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Edge,Level"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Edge,Level"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Edge,Level"
textline "                          "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Edge,Level"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Edge,Level"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Edge,Level"
textline "                          "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Edge,Level"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Edge,Level"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Edge,Level"
textline "                          "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Edge,Level"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Edge,Level"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Edge,Level"
textline "                          "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Edge,Level"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Edge,Level"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Edge,Level"
textline "                          "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Edge,Level"
textline "                          "
group.long 0x1C14++0x03
line.long 0x00 "GICD_ICFR5,Interrupt Configuration Register 0x1C14"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Edge,Level"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Edge,Level"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Edge,Level"
textline "                          "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Edge,Level"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Edge,Level"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Edge,Level"
textline "                          "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Edge,Level"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Edge,Level"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Edge,Level"
textline "                          "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Edge,Level"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Edge,Level"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Edge,Level"
textline "                          "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Edge,Level"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Edge,Level"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Edge,Level"
textline "                          "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Edge,Level"
textline "                          "
group.long 0x1C18++0x03
line.long 0x00 "GICD_ICFR6,Interrupt Configuration Register 0x1C18"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Edge,Level"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Edge,Level"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Edge,Level"
textline "                          "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Edge,Level"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Edge,Level"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Edge,Level"
textline "                          "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Edge,Level"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Edge,Level"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Edge,Level"
textline "                          "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Edge,Level"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Edge,Level"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Edge,Level"
textline "                          "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Edge,Level"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Edge,Level"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Edge,Level"
textline "                          "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Edge,Level"
textline "                          "
group.long 0x1C1C++0x03
line.long 0x00 "GICD_ICFR7,Interrupt Configuration Register 0x1C1C"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Edge,Level"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Edge,Level"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Edge,Level"
textline "                          "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Edge,Level"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Edge,Level"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Edge,Level"
textline "                          "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Edge,Level"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Edge,Level"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Edge,Level"
textline "                          "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Edge,Level"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Edge,Level"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Edge,Level"
textline "                          "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Edge,Level"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Edge,Level"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Edge,Level"
textline "                          "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Edge,Level"
textline "                          "
group.long 0x1C20++0x03
line.long 0x00 "GICD_ICFR8,Interrupt Configuration Register 0x1C20"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Edge,Level"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Edge,Level"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Edge,Level"
textline "                          "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Edge,Level"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Edge,Level"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Edge,Level"
textline "                          "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Edge,Level"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Edge,Level"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Edge,Level"
textline "                          "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Edge,Level"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Edge,Level"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Edge,Level"
textline "                          "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Edge,Level"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Edge,Level"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Edge,Level"
textline "                          "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Edge,Level"
textline "                          "
group.long 0x1C24++0x03
line.long 0x00 "GICD_ICFR9,Interrupt Configuration Register 0x1C24"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Edge,Level"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Edge,Level"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Edge,Level"
textline "                          "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Edge,Level"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Edge,Level"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Edge,Level"
textline "                          "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Edge,Level"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Edge,Level"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Edge,Level"
textline "                          "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Edge,Level"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Edge,Level"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Edge,Level"
textline "                          "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Edge,Level"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Edge,Level"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Edge,Level"
textline "                          "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Edge,Level"
textline "                          "
group.long 0x1C28++0x03
line.long 0x00 "GICD_ICFR10,Interrupt Configuration Register 0x1C28"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Edge,Level"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Edge,Level"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Edge,Level"
textline "                          "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Edge,Level"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Edge,Level"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Edge,Level"
textline "                          "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Edge,Level"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Edge,Level"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Edge,Level"
textline "                          "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Edge,Level"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Edge,Level"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Edge,Level"
textline "                          "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Edge,Level"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Edge,Level"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Edge,Level"
textline "                          "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Edge,Level"
textline "                          "
group.long 0x1C2C++0x03
line.long 0x00 "GICD_ICFR11,Interrupt Configuration Register 0x1C2C"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Edge,Level"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Edge,Level"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Edge,Level"
textline "                          "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Edge,Level"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Edge,Level"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Edge,Level"
textline "                          "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Edge,Level"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Edge,Level"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Edge,Level"
textline "                          "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Edge,Level"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Edge,Level"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Edge,Level"
textline "                          "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Edge,Level"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Edge,Level"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Edge,Level"
textline "                          "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Edge,Level"
textline "                          "
group.long 0x1C30++0x03
line.long 0x00 "GICD_ICFR12,Interrupt Configuration Register 0x1C30"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Edge,Level"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Edge,Level"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Edge,Level"
textline "                          "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Edge,Level"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Edge,Level"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Edge,Level"
textline "                          "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Edge,Level"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Edge,Level"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Edge,Level"
textline "                          "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Edge,Level"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Edge,Level"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Edge,Level"
textline "                          "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Edge,Level"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Edge,Level"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Edge,Level"
textline "                          "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Edge,Level"
textline "                          "
group.long 0x1C34++0x03
line.long 0x00 "GICD_ICFR13,Interrupt Configuration Register 0x1C34"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Edge,Level"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Edge,Level"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Edge,Level"
textline "                          "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Edge,Level"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Edge,Level"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Edge,Level"
textline "                          "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Edge,Level"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Edge,Level"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Edge,Level"
textline "                          "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Edge,Level"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Edge,Level"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Edge,Level"
textline "                          "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Edge,Level"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Edge,Level"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Edge,Level"
textline "                          "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Edge,Level"
textline "                          "
group.long 0x1C38++0x03
line.long 0x00 "GICD_ICFR14,Interrupt Configuration Register 0x1C38"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Edge,Level"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Edge,Level"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Edge,Level"
textline "                          "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Edge,Level"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Edge,Level"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Edge,Level"
textline "                          "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Edge,Level"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Edge,Level"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Edge,Level"
textline "                          "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Edge,Level"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Edge,Level"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Edge,Level"
textline "                          "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Edge,Level"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Edge,Level"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Edge,Level"
textline "                          "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Edge,Level"
textline "                          "
group.long 0x1C3C++0x03
line.long 0x00 "GICD_ICFR15,Interrupt Configuration Register 0x1C3C"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Edge,Level"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Edge,Level"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Edge,Level"
textline "                          "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Edge,Level"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Edge,Level"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Edge,Level"
textline "                          "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Edge,Level"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Edge,Level"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Edge,Level"
textline "                          "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Edge,Level"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Edge,Level"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Edge,Level"
textline "                          "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Edge,Level"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Edge,Level"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Edge,Level"
textline "                          "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Edge,Level"
textline "                          "
tree.end
width 17.
tree "Private/Shared Peripheral Interrupt Status Registers"
rgroup.long 0x1D00++0x03
line.long 0x00 "GICD_PPISR,Private Peripheral Interrupt Status Register"
bitfld.long 0x00 15. " PPI3S     ,nIRQ pin status" "No interrupt,Interrupt"
bitfld.long 0x00 14. "  PPI2S     ,Non-secure Physical Timer event status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 13. " PPI1S     ,Secure Physical Timer event status" "No interrupt,Interrupt"
bitfld.long 0x00 12. "  PPI0S     ,nFIQ pin status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 11. " PPI4S     ,Virtual Timer event status" "No interrupt,Interrupt"
bitfld.long 0x00 10. "  PPI5S     ,Hypervisor Timer event status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 9. " PPI6S     ,Virtual Maintenance Status" "No interrupt,Interrupt"
rgroup.long 0x1D04++0x03
line.long 0x00 "GICD_SPISR0,Shared Peripheral Interrupt Status Register"
bitfld.long 0x00 31. " IRQS[31]  ,IRQS[31] status" "No interrupt,Interrupt"
bitfld.long 0x00 30. "  IRQS[30]  ,IRQS[30] status" "No interrupt,Interrupt"
bitfld.long 0x00 29. "  IRQS[29]  ,IRQS[29] status" "No interrupt,Interrupt"
bitfld.long 0x00 28. "  IRQS[28]  ,IRQS[28] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 27. " IRQS[27]  ,IRQS[27] status" "No interrupt,Interrupt"
bitfld.long 0x00 26. "  IRQS[26]  ,IRQS[26] status" "No interrupt,Interrupt"
bitfld.long 0x00 25. "  IRQS[25]  ,IRQS[25] status" "No interrupt,Interrupt"
bitfld.long 0x00 24. "  IRQS[24]  ,IRQS[24] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 23. " IRQS[23]  ,IRQS[23] status" "No interrupt,Interrupt"
bitfld.long 0x00 22. "  IRQS[22]  ,IRQS[22] status" "No interrupt,Interrupt"
bitfld.long 0x00 21. "  IRQS[21]  ,IRQS[21] status" "No interrupt,Interrupt"
bitfld.long 0x00 20. "  IRQS[20]  ,IRQS[20] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 19. " IRQS[19]  ,IRQS[19] status" "No interrupt,Interrupt"
bitfld.long 0x00 18. "  IRQS[18]  ,IRQS[18] status" "No interrupt,Interrupt"
bitfld.long 0x00 17. "  IRQS[17]  ,IRQS[17] status" "No interrupt,Interrupt"
bitfld.long 0x00 16. "  IRQS[16]  ,IRQS[16] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 15. " IRQS[15]  ,IRQS[15] status" "No interrupt,Interrupt"
bitfld.long 0x00 14. "  IRQS[14]  ,IRQS[14] status" "No interrupt,Interrupt"
bitfld.long 0x00 13. "  IRQS[13]  ,IRQS[13] status" "No interrupt,Interrupt"
bitfld.long 0x00 12. "  IRQS[12]  ,IRQS[12] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 11. " IRQS[11]  ,IRQS[11] status" "No interrupt,Interrupt"
bitfld.long 0x00 10. "  IRQS[10]  ,IRQS[10] status" "No interrupt,Interrupt"
bitfld.long 0x00 9. "  IRQS[9]   ,IRQS[9] status" "No interrupt,Interrupt"
bitfld.long 0x00 8. "  IRQS[8]   ,IRQS[8] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 7. " IRQS[7]   ,IRQS[7] status" "No interrupt,Interrupt"
bitfld.long 0x00 6. "  IRQS[6]   ,IRQS[6] status" "No interrupt,Interrupt"
bitfld.long 0x00 5. "  IRQS[5]   ,IRQS[5] status" "No interrupt,Interrupt"
bitfld.long 0x00 4. "  IRQS[4]   ,IRQS[4] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 3. " IRQS[3]   ,IRQS[3] status" "No interrupt,Interrupt"
bitfld.long 0x00 2. "  IRQS[2]   ,IRQS[2] status" "No interrupt,Interrupt"
bitfld.long 0x00 1. "  IRQS[1]   ,IRQS[1] status" "No interrupt,Interrupt"
bitfld.long 0x00 0. "  IRQS[0]   ,IRQS[0] status" "No interrupt,Interrupt"
rgroup.long 0x1D08++0x03
line.long 0x00 "GICD_SPISR1,Shared Peripheral Interrupt Status Register"
bitfld.long 0x00 31. " IRQS[63]  ,IRQS[63] status" "No interrupt,Interrupt"
bitfld.long 0x00 30. "  IRQS[62]  ,IRQS[62] status" "No interrupt,Interrupt"
bitfld.long 0x00 29. "  IRQS[61]  ,IRQS[61] status" "No interrupt,Interrupt"
bitfld.long 0x00 28. "  IRQS[60]  ,IRQS[60] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 27. " IRQS[59]  ,IRQS[59] status" "No interrupt,Interrupt"
bitfld.long 0x00 26. "  IRQS[58]  ,IRQS[58] status" "No interrupt,Interrupt"
bitfld.long 0x00 25. "  IRQS[57]  ,IRQS[57] status" "No interrupt,Interrupt"
bitfld.long 0x00 24. "  IRQS[56]  ,IRQS[56] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 23. " IRQS[55]  ,IRQS[55] status" "No interrupt,Interrupt"
bitfld.long 0x00 22. "  IRQS[54]  ,IRQS[54] status" "No interrupt,Interrupt"
bitfld.long 0x00 21. "  IRQS[53]  ,IRQS[53] status" "No interrupt,Interrupt"
bitfld.long 0x00 20. "  IRQS[52]  ,IRQS[52] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 19. " IRQS[51]  ,IRQS[51] status" "No interrupt,Interrupt"
bitfld.long 0x00 18. "  IRQS[50]  ,IRQS[50] status" "No interrupt,Interrupt"
bitfld.long 0x00 17. "  IRQS[49]  ,IRQS[49] status" "No interrupt,Interrupt"
bitfld.long 0x00 16. "  IRQS[48]  ,IRQS[48] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 15. " IRQS[47]  ,IRQS[47] status" "No interrupt,Interrupt"
bitfld.long 0x00 14. "  IRQS[46]  ,IRQS[46] status" "No interrupt,Interrupt"
bitfld.long 0x00 13. "  IRQS[45]  ,IRQS[45] status" "No interrupt,Interrupt"
bitfld.long 0x00 12. "  IRQS[44]  ,IRQS[44] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 11. " IRQS[43]  ,IRQS[43] status" "No interrupt,Interrupt"
bitfld.long 0x00 10. "  IRQS[42]  ,IRQS[42] status" "No interrupt,Interrupt"
bitfld.long 0x00 9. "  IRQS[41]  ,IRQS[41] status" "No interrupt,Interrupt"
bitfld.long 0x00 8. "  IRQS[40]  ,IRQS[40] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 7. " IRQS[39]  ,IRQS[39] status" "No interrupt,Interrupt"
bitfld.long 0x00 6. "  IRQS[38]  ,IRQS[38] status" "No interrupt,Interrupt"
bitfld.long 0x00 5. "  IRQS[37]  ,IRQS[37] status" "No interrupt,Interrupt"
bitfld.long 0x00 4. "  IRQS[36]  ,IRQS[36] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 3. " IRQS[35]  ,IRQS[35] status" "No interrupt,Interrupt"
bitfld.long 0x00 2. "  IRQS[34]  ,IRQS[34] status" "No interrupt,Interrupt"
bitfld.long 0x00 1. "  IRQS[33]  ,IRQS[33] status" "No interrupt,Interrupt"
bitfld.long 0x00 0. "  IRQS[32]  ,IRQS[32] status" "No interrupt,Interrupt"
rgroup.long 0x1D0C++0x03
line.long 0x00 "GICD_SPISR2,Shared Peripheral Interrupt Status Register"
bitfld.long 0x00 31. " IRQS[95]  ,IRQS[95] status" "No interrupt,Interrupt"
bitfld.long 0x00 30. "  IRQS[94]  ,IRQS[94] status" "No interrupt,Interrupt"
bitfld.long 0x00 29. "  IRQS[93]  ,IRQS[93] status" "No interrupt,Interrupt"
bitfld.long 0x00 28. "  IRQS[92]  ,IRQS[92] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 27. " IRQS[91]  ,IRQS[91] status" "No interrupt,Interrupt"
bitfld.long 0x00 26. "  IRQS[90]  ,IRQS[90] status" "No interrupt,Interrupt"
bitfld.long 0x00 25. "  IRQS[89]  ,IRQS[89] status" "No interrupt,Interrupt"
bitfld.long 0x00 24. "  IRQS[88]  ,IRQS[88] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 23. " IRQS[87]  ,IRQS[87] status" "No interrupt,Interrupt"
bitfld.long 0x00 22. "  IRQS[86]  ,IRQS[86] status" "No interrupt,Interrupt"
bitfld.long 0x00 21. "  IRQS[85]  ,IRQS[85] status" "No interrupt,Interrupt"
bitfld.long 0x00 20. "  IRQS[84]  ,IRQS[84] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 19. " IRQS[83]  ,IRQS[83] status" "No interrupt,Interrupt"
bitfld.long 0x00 18. "  IRQS[82]  ,IRQS[82] status" "No interrupt,Interrupt"
bitfld.long 0x00 17. "  IRQS[81]  ,IRQS[81] status" "No interrupt,Interrupt"
bitfld.long 0x00 16. "  IRQS[80]  ,IRQS[80] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 15. " IRQS[79]  ,IRQS[79] status" "No interrupt,Interrupt"
bitfld.long 0x00 14. "  IRQS[78]  ,IRQS[78] status" "No interrupt,Interrupt"
bitfld.long 0x00 13. "  IRQS[77]  ,IRQS[77] status" "No interrupt,Interrupt"
bitfld.long 0x00 12. "  IRQS[76]  ,IRQS[76] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 11. " IRQS[75]  ,IRQS[75] status" "No interrupt,Interrupt"
bitfld.long 0x00 10. "  IRQS[74]  ,IRQS[74] status" "No interrupt,Interrupt"
bitfld.long 0x00 9. "  IRQS[73]  ,IRQS[73] status" "No interrupt,Interrupt"
bitfld.long 0x00 8. "  IRQS[72]  ,IRQS[72] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 7. " IRQS[71]  ,IRQS[71] status" "No interrupt,Interrupt"
bitfld.long 0x00 6. "  IRQS[70]  ,IRQS[70] status" "No interrupt,Interrupt"
bitfld.long 0x00 5. "  IRQS[69]  ,IRQS[69] status" "No interrupt,Interrupt"
bitfld.long 0x00 4. "  IRQS[68]  ,IRQS[68] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 3. " IRQS[67]  ,IRQS[67] status" "No interrupt,Interrupt"
bitfld.long 0x00 2. "  IRQS[66]  ,IRQS[66] status" "No interrupt,Interrupt"
bitfld.long 0x00 1. "  IRQS[65]  ,IRQS[65] status" "No interrupt,Interrupt"
bitfld.long 0x00 0. "  IRQS[64]  ,IRQS[64] status" "No interrupt,Interrupt"
rgroup.long 0x1D10++0x03
line.long 0x00 "GICD_SPISR3,Shared Peripheral Interrupt Status Register"
bitfld.long 0x00 31. " IRQS[127] ,IRQS[127] status" "No interrupt,Interrupt"
bitfld.long 0x00 30. "  IRQS[126] ,IRQS[126] status" "No interrupt,Interrupt"
bitfld.long 0x00 29. "  IRQS[125] ,IRQS[125] status" "No interrupt,Interrupt"
bitfld.long 0x00 28. "  IRQS[124] ,IRQS[124] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 27. " IRQS[123] ,IRQS[123] status" "No interrupt,Interrupt"
bitfld.long 0x00 26. "  IRQS[122] ,IRQS[122] status" "No interrupt,Interrupt"
bitfld.long 0x00 25. "  IRQS[121] ,IRQS[121] status" "No interrupt,Interrupt"
bitfld.long 0x00 24. "  IRQS[120] ,IRQS[120] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 23. " IRQS[119] ,IRQS[119] status" "No interrupt,Interrupt"
bitfld.long 0x00 22. "  IRQS[118] ,IRQS[118] status" "No interrupt,Interrupt"
bitfld.long 0x00 21. "  IRQS[117] ,IRQS[117] status" "No interrupt,Interrupt"
bitfld.long 0x00 20. "  IRQS[116] ,IRQS[116] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 19. " IRQS[115] ,IRQS[115] status" "No interrupt,Interrupt"
bitfld.long 0x00 18. "  IRQS[114] ,IRQS[114] status" "No interrupt,Interrupt"
bitfld.long 0x00 17. "  IRQS[113] ,IRQS[113] status" "No interrupt,Interrupt"
bitfld.long 0x00 16. "  IRQS[112] ,IRQS[112] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 15. " IRQS[111] ,IRQS[111] status" "No interrupt,Interrupt"
bitfld.long 0x00 14. "  IRQS[110] ,IRQS[110] status" "No interrupt,Interrupt"
bitfld.long 0x00 13. "  IRQS[109] ,IRQS[109] status" "No interrupt,Interrupt"
bitfld.long 0x00 12. "  IRQS[108] ,IRQS[108] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 11. " IRQS[107] ,IRQS[107] status" "No interrupt,Interrupt"
bitfld.long 0x00 10. "  IRQS[106] ,IRQS[106] status" "No interrupt,Interrupt"
bitfld.long 0x00 9. "  IRQS[105] ,IRQS[105] status" "No interrupt,Interrupt"
bitfld.long 0x00 8. "  IRQS[104] ,IRQS[104] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 7. " IRQS[103] ,IRQS[103] status" "No interrupt,Interrupt"
bitfld.long 0x00 6. "  IRQS[102] ,IRQS[102] status" "No interrupt,Interrupt"
bitfld.long 0x00 5. "  IRQS[101] ,IRQS[101] status" "No interrupt,Interrupt"
bitfld.long 0x00 4. "  IRQS[100] ,IRQS[100] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 3. " IRQS[99]  ,IRQS[99] status" "No interrupt,Interrupt"
bitfld.long 0x00 2. "  IRQS[98]  ,IRQS[98] status" "No interrupt,Interrupt"
bitfld.long 0x00 1. "  IRQS[97]  ,IRQS[97] status" "No interrupt,Interrupt"
bitfld.long 0x00 0. "  IRQS[96]  ,IRQS[96] status" "No interrupt,Interrupt"
rgroup.long 0x1D14++0x03
line.long 0x00 "GICD_SPISR4,Shared Peripheral Interrupt Status Register"
bitfld.long 0x00 31. " IRQS[159] ,IRQS[159] status" "No interrupt,Interrupt"
bitfld.long 0x00 30. "  IRQS[158] ,IRQS[158] status" "No interrupt,Interrupt"
bitfld.long 0x00 29. "  IRQS[157] ,IRQS[157] status" "No interrupt,Interrupt"
bitfld.long 0x00 28. "  IRQS[156] ,IRQS[156] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 27. " IRQS[155] ,IRQS[155] status" "No interrupt,Interrupt"
bitfld.long 0x00 26. "  IRQS[154] ,IRQS[154] status" "No interrupt,Interrupt"
bitfld.long 0x00 25. "  IRQS[153] ,IRQS[153] status" "No interrupt,Interrupt"
bitfld.long 0x00 24. "  IRQS[152] ,IRQS[152] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 23. " IRQS[151] ,IRQS[151] status" "No interrupt,Interrupt"
bitfld.long 0x00 22. "  IRQS[150] ,IRQS[150] status" "No interrupt,Interrupt"
bitfld.long 0x00 21. "  IRQS[149] ,IRQS[149] status" "No interrupt,Interrupt"
bitfld.long 0x00 20. "  IRQS[148] ,IRQS[148] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 19. " IRQS[147] ,IRQS[147] status" "No interrupt,Interrupt"
bitfld.long 0x00 18. "  IRQS[146] ,IRQS[146] status" "No interrupt,Interrupt"
bitfld.long 0x00 17. "  IRQS[145] ,IRQS[145] status" "No interrupt,Interrupt"
bitfld.long 0x00 16. "  IRQS[144] ,IRQS[144] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 15. " IRQS[143] ,IRQS[143] status" "No interrupt,Interrupt"
bitfld.long 0x00 14. "  IRQS[142] ,IRQS[142] status" "No interrupt,Interrupt"
bitfld.long 0x00 13. "  IRQS[141] ,IRQS[141] status" "No interrupt,Interrupt"
bitfld.long 0x00 12. "  IRQS[140] ,IRQS[140] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 11. " IRQS[139] ,IRQS[139] status" "No interrupt,Interrupt"
bitfld.long 0x00 10. "  IRQS[138] ,IRQS[138] status" "No interrupt,Interrupt"
bitfld.long 0x00 9. "  IRQS[137] ,IRQS[137] status" "No interrupt,Interrupt"
bitfld.long 0x00 8. "  IRQS[136] ,IRQS[136] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 7. " IRQS[135] ,IRQS[135] status" "No interrupt,Interrupt"
bitfld.long 0x00 6. "  IRQS[134] ,IRQS[134] status" "No interrupt,Interrupt"
bitfld.long 0x00 5. "  IRQS[133] ,IRQS[133] status" "No interrupt,Interrupt"
bitfld.long 0x00 4. "  IRQS[132] ,IRQS[132] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 3. " IRQS[131] ,IRQS[131] status" "No interrupt,Interrupt"
bitfld.long 0x00 2. "  IRQS[130] ,IRQS[130] status" "No interrupt,Interrupt"
bitfld.long 0x00 1. "  IRQS[129] ,IRQS[129] status" "No interrupt,Interrupt"
bitfld.long 0x00 0. "  IRQS[128] ,IRQS[128] status" "No interrupt,Interrupt"
rgroup.long 0x1D18++0x03
line.long 0x00 "GICD_SPISR5,Shared Peripheral Interrupt Status Register"
bitfld.long 0x00 31. " IRQS[191] ,IRQS[191] status" "No interrupt,Interrupt"
bitfld.long 0x00 30. "  IRQS[190] ,IRQS[190] status" "No interrupt,Interrupt"
bitfld.long 0x00 29. "  IRQS[189] ,IRQS[189] status" "No interrupt,Interrupt"
bitfld.long 0x00 28. "  IRQS[188] ,IRQS[188] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 27. " IRQS[187] ,IRQS[187] status" "No interrupt,Interrupt"
bitfld.long 0x00 26. "  IRQS[186] ,IRQS[186] status" "No interrupt,Interrupt"
bitfld.long 0x00 25. "  IRQS[185] ,IRQS[185] status" "No interrupt,Interrupt"
bitfld.long 0x00 24. "  IRQS[184] ,IRQS[184] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 23. " IRQS[183] ,IRQS[183] status" "No interrupt,Interrupt"
bitfld.long 0x00 22. "  IRQS[182] ,IRQS[182] status" "No interrupt,Interrupt"
bitfld.long 0x00 21. "  IRQS[181] ,IRQS[181] status" "No interrupt,Interrupt"
bitfld.long 0x00 20. "  IRQS[180] ,IRQS[180] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 19. " IRQS[179] ,IRQS[179] status" "No interrupt,Interrupt"
bitfld.long 0x00 18. "  IRQS[178] ,IRQS[178] status" "No interrupt,Interrupt"
bitfld.long 0x00 17. "  IRQS[177] ,IRQS[177] status" "No interrupt,Interrupt"
bitfld.long 0x00 16. "  IRQS[176] ,IRQS[176] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 15. " IRQS[175] ,IRQS[175] status" "No interrupt,Interrupt"
bitfld.long 0x00 14. "  IRQS[174] ,IRQS[174] status" "No interrupt,Interrupt"
bitfld.long 0x00 13. "  IRQS[173] ,IRQS[173] status" "No interrupt,Interrupt"
bitfld.long 0x00 12. "  IRQS[172] ,IRQS[172] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 11. " IRQS[171] ,IRQS[171] status" "No interrupt,Interrupt"
bitfld.long 0x00 10. "  IRQS[170] ,IRQS[170] status" "No interrupt,Interrupt"
bitfld.long 0x00 9. "  IRQS[169] ,IRQS[169] status" "No interrupt,Interrupt"
bitfld.long 0x00 8. "  IRQS[168] ,IRQS[168] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 7. " IRQS[167] ,IRQS[167] status" "No interrupt,Interrupt"
bitfld.long 0x00 6. "  IRQS[166] ,IRQS[166] status" "No interrupt,Interrupt"
bitfld.long 0x00 5. "  IRQS[165] ,IRQS[165] status" "No interrupt,Interrupt"
bitfld.long 0x00 4. "  IRQS[164] ,IRQS[164] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 3. " IRQS[163] ,IRQS[163] status" "No interrupt,Interrupt"
bitfld.long 0x00 2. "  IRQS[162] ,IRQS[162] status" "No interrupt,Interrupt"
bitfld.long 0x00 1. "  IRQS[161] ,IRQS[161] status" "No interrupt,Interrupt"
bitfld.long 0x00 0. "  IRQS[160] ,IRQS[160] status" "No interrupt,Interrupt"
rgroup.long 0x1D1C++0x03
line.long 0x00 "GICD_SPISR6,Shared Peripheral Interrupt Status Register"
bitfld.long 0x00 31. " IRQS[223] ,IRQS[223] status" "No interrupt,Interrupt"
bitfld.long 0x00 30. "  IRQS[222] ,IRQS[222] status" "No interrupt,Interrupt"
bitfld.long 0x00 29. "  IRQS[221] ,IRQS[221] status" "No interrupt,Interrupt"
bitfld.long 0x00 28. "  IRQS[220] ,IRQS[220] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 27. " IRQS[219] ,IRQS[219] status" "No interrupt,Interrupt"
bitfld.long 0x00 26. "  IRQS[218] ,IRQS[218] status" "No interrupt,Interrupt"
bitfld.long 0x00 25. "  IRQS[217] ,IRQS[217] status" "No interrupt,Interrupt"
bitfld.long 0x00 24. "  IRQS[216] ,IRQS[216] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 23. " IRQS[215] ,IRQS[215] status" "No interrupt,Interrupt"
bitfld.long 0x00 22. "  IRQS[214] ,IRQS[214] status" "No interrupt,Interrupt"
bitfld.long 0x00 21. "  IRQS[213] ,IRQS[213] status" "No interrupt,Interrupt"
bitfld.long 0x00 20. "  IRQS[212] ,IRQS[212] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 19. " IRQS[211] ,IRQS[211] status" "No interrupt,Interrupt"
bitfld.long 0x00 18. "  IRQS[210] ,IRQS[210] status" "No interrupt,Interrupt"
bitfld.long 0x00 17. "  IRQS[209] ,IRQS[209] status" "No interrupt,Interrupt"
bitfld.long 0x00 16. "  IRQS[208] ,IRQS[208] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 15. " IRQS[207] ,IRQS[207] status" "No interrupt,Interrupt"
bitfld.long 0x00 14. "  IRQS[206] ,IRQS[206] status" "No interrupt,Interrupt"
bitfld.long 0x00 13. "  IRQS[205] ,IRQS[205] status" "No interrupt,Interrupt"
bitfld.long 0x00 12. "  IRQS[204] ,IRQS[204] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 11. " IRQS[203] ,IRQS[203] status" "No interrupt,Interrupt"
bitfld.long 0x00 10. "  IRQS[202] ,IRQS[202] status" "No interrupt,Interrupt"
bitfld.long 0x00 9. "  IRQS[201] ,IRQS[201] status" "No interrupt,Interrupt"
bitfld.long 0x00 8. "  IRQS[200] ,IRQS[200] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 7. " IRQS[199] ,IRQS[199] status" "No interrupt,Interrupt"
bitfld.long 0x00 6. "  IRQS[198] ,IRQS[198] status" "No interrupt,Interrupt"
bitfld.long 0x00 5. "  IRQS[197] ,IRQS[197] status" "No interrupt,Interrupt"
bitfld.long 0x00 4. "  IRQS[196] ,IRQS[196] status" "No interrupt,Interrupt"
textline "                          "
bitfld.long 0x00 3. " IRQS[195] ,IRQS[195] status" "No interrupt,Interrupt"
bitfld.long 0x00 2. "  IRQS[194] ,IRQS[194] status" "No interrupt,Interrupt"
bitfld.long 0x00 1. "  IRQS[193] ,IRQS[193] status" "No interrupt,Interrupt"
bitfld.long 0x00 0. "  IRQS[192] ,IRQS[192] status" "No interrupt,Interrupt"
tree.end
textline "                          "
width 17.
wgroup.long 0x1F00++0x03
line.long 0x00 "GICD_SGIR,Software Generated Interrupt Register"
bitfld.long 0x00 24.--25. " TLF    ,Target List Filter" "Send to specified,Send to all,Send to interrupt,?..."
hexmask.long.byte 0x00 16.--23. 1. "  CPUTL    ,CPU Target List"
bitfld.long 0x00 15. "    SATT  ,SATT" "Secure,Non-secure"
bitfld.long 0x00 0.--3. "  SGINTID ,SGI Interrupt ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x1F10++0x03
line.long 0x00 "GICD_CPENDSGIR0,SGI Clear Pending Registers"
group.long 0x1F14++0x03
line.long 0x00 "GICD_CPENDSGIR1,SGI Clear Pending Registers"
group.long 0x1F18++0x03
line.long 0x00 "GICD_CPENDSGIR2,SGI Clear Pending Registers"
group.long 0x1F1C++0x03
line.long 0x00 "GICD_CPENDSGIR3,SGI Clear Pending Registers"
textline "                          "
group.long 0x1F20++0x03
line.long 0x00 "GICD_SPENDSGIR0,SGI Set Pending Registers"
group.long 0x1F24++0x03
line.long 0x00 "GICD_SPENDSGIR1,SGI Set Pending Registers"
group.long 0x1F28++0x03
line.long 0x00 "GICD_SPENDSGIR2,SGI Set Pending Registers"
group.long 0x1F2C++0x03
line.long 0x00 "GICD_SPENDSGIR3,SGI Set Pending Registers"
textline "                          "
rgroup.long 0x1FE0++0x03 "Peripheral/Component ID Registers"
line.long 0x00 "GICD_PIDR0,Peripheral ID0 Register"
hexmask.long.byte 0x00 0.--7. 1. " DEVID  ,DevID field"
rgroup.long 0x1FE4++0x03
line.long 0x00 "GICD_PIDR1,Peripheral ID1 Register"
bitfld.long 0x00 4.--7. " ARCHID ,ArchID field" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "   DEVID    ,DevID field" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x1FE8++0x03
line.long 0x00 "GICD_PIDR2,Peripheral ID2 Register"
bitfld.long 0x00 4.--7. " ARCHID ,ArchID field" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 3. "   UJEPCODE ,UsesJEPcode field" "Low,High"
bitfld.long 0x00 0.--2. "  DEVID ,DevID field" "0,1,2,3,4,5,6,7"
rgroup.long 0x1FEC++0x03
line.long 0x00 "GICD_PIDR3,Peripheral ID3 Register"
bitfld.long 0x00 4.--7. " REVID  ,Revision field" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x1FD0++0x03
line.long 0x00 "GICD_PIDR4,Peripheral ID4 Register"
bitfld.long 0x00 0.--3. " CC     ,ContinuationCode field" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hgroup.long 0x1FD4++0x03
hide.long 0x00 "GICD_PIDR5,Peripheral ID5 Register"
hgroup.long 0x1FD8++0x03
hide.long 0x00 "GICD_PIDR6,Peripheral ID6 Register"
hgroup.long 0x1FDC++0x03
hide.long 0x00 "GICD_PIDR7,Peripheral ID7 Register"
textline "                          "
rgroup.long 0x1FF0++0x03
line.long 0x00 "GICD_CIDR0,Component ID0 Register"
hexmask.long.byte 0x00 0.--7. 1. " FIXVAL ,ARM-defined fixed values for the preamble for component discovery"
rgroup.long 0x1FF4++0x03
line.long 0x00 "GICD_CIDR1,Component ID1 Register"
hexmask.long.byte 0x00 0.--7. 1. " FIXVAL ,ARM-defined fixed values for the preamble for component discovery"
rgroup.long 0x1FF8++0x03
line.long 0x00 "GICD_CIDR2,Component ID2 Register"
hexmask.long.byte 0x00 0.--7. 1. " FIXVAL ,ARM-defined fixed values for the preamble for component discovery"
rgroup.long 0x1FFC++0x03
line.long 0x00 "GICD_CIDR3,Component ID3 Register"
hexmask.long.byte 0x00 0.--7. 1. " FIXVAL ,ARM-defined fixed values for the preamble for component discovery"
textline "                          "
width 17.
group.long 0x2000++0x03 "Interrupt Controller Physical CPU Interface"
line.long 0x00 "GICC_ICR,CPU Interface Control Register"
bitfld.long 0x00 4. " SBPR     ,Secure/Non-secure Binary Point Register for preemption control" "SBPR for Secure/Non-SBPR for Non-Secure,SBPR for Both"
textline "                          "
bitfld.long 0x00 3. " FIQEN    ,Indicates using of FIQ or IRQ signal for interrupts" "IRQ,FIQ"
bitfld.long 0x00 2. "       ACKCTL    ,Interrupt acknowledge control" "Not acknowledged,Acknowledged"
textline "                          "
bitfld.long 0x00 1. " ENABLENS ,Global Enable for signalling of Non-secure interrupts" "Disabled,Enabled"
bitfld.long 0x00 0. "  ENABLES   ,Global Enable for signalling of Secure interrupts" "Disabled,Enabled"
group.long 0x2004++0x03
line.long 0x00 "GICC_PMR,Interrupt Priority Mask Register"
hexmask.long.byte 0x00 0.--7. 1. " PRIORITY ,Priority mask level for CPU interface"
group.long 0x2008++0x03
line.long 0x00 "GICC_BPR,Binary Point Register"
bitfld.long 0x00 0.--2. " BP       ,Binary point" "0,1,2,3,4,5,6,7"
hgroup.long 0x200C++0x03
hide.long 0x00 "GICC_IAR,Interrupt Acknowledge Register"
in
wgroup.long 0x2010++0x03
line.long 0x00 "GICC_EOIR,End Of Interrupt Register"
bitfld.long 0x00 10.--12. " CPUID    ,CPU ID" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--9. 1. "         EOIINTID  ,ACKINTID value from the corresponding ICCIAR access"
rgroup.long 0x2014++0x03
line.long 0x00 "GICC_RPR,Running Priority Register"
hexmask.long.byte 0x00 0.--7. 1. " PRIORITY ,Priority value of highest priority interrupt"
rgroup.long 0x2018++0x03
line.long 0x00 "GICC_HPIR,Highest Pending Interrupt Register"
bitfld.long 0x00 10.--12. " CPUID    ,CPU ID" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--9. 1. "         PENDINTID ,Interrupt ID of the highest priority pending interrupt"
group.long 0x201C++0x03
line.long 0x00 "GICC_ABPR,Aliased Binary Point Register"
group.long 0x20D0++0x03
line.long 0x00 "GICC_APR0,Active Priorities Register"
group.long 0x20E0++0x03
line.long 0x00 "GICC_NSAPR0,Non-Secure Active Priorities Register"
rgroup.long 0x20FC++0x03
line.long 0x00 "GICC_IIDR,CPU and Virtual CPU Interface Identification Register"
hexmask.long.word 0x00 20.--31. 1. " PRODID   ,Product ID"
bitfld.long 0x00 12.--15. "      REV       ,Revision" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                          "
hexmask.long.word 0x00 0.--11. 1. " IMP      ,Implementer"
wgroup.long 0x3000++0x03
line.long 0x00 "GICC_DIR,Deactivate Interrupt Register"
width 17.
group.long 0x4000++0x03 "Interrupt Controller Virtual CPU Interface (Hypervisor view)"
line.long 0x00 "GICH_HCR,Hypervisor Control Register"
rgroup.long 0x4004++0x03
line.long 0x00 "GICH_VTR,VGIC Type Register"
bitfld.long 0x00 29.--31. " PRIBITS  ,Number of priority bits" "Reserved,Reserved,Reserved,Reserved,5 bits 32 PRI levels,?..."
textline "                          "
bitfld.long 0x00 26.--28. " PREBITS  ,Number of pre-emption bits" "Reserved,Reserved,Reserved,Reserved,5 bits 32 PRE levels,?..."
textline "                          "
bitfld.long 0x00 0.--5. " LISTREGS ,List regs number" "Reserved,Reserved,Reserved,4 lists,?..."
group.long 0x40F0++0x03
line.long 0x00 "GICH_APR0,Active Priorities Register"
group.long 0x4100++0x03
line.long 0x00 "GICH_LR0,List Register 0"
group.long 0x4104++0x03
line.long 0x00 "GICH_LR1,List Register 1"
group.long 0x4108++0x03
line.long 0x00 "GICH_LR2,List Register 2"
group.long 0x410C++0x03
line.long 0x00 "GICH_LR3,List Register 3"
group.long 0x6000++0x03 "Interrupt Controller Virtual CPU Interface (Virtual Machine View)"
line.long 0x00 "GICV_CTLR,VM Control Register"
group.long 0x6004++0x03
line.long 0x00 "GICV_PMR,VM Priority Mask Register"
group.long 0x6008++0x03
line.long 0x00 "GICV_BPR,VM Binary Point Register"
hgroup.long 0x600C++0x03
hide.long 0x00 "GICV_IAR,VM Interrupt Acknowledge Register"
in
wgroup.long 0x6010++0x03
line.long 0x00 "GICV_EOIR,VM End Of Interrupt Register"
rgroup.long 0x6014++0x03
line.long 0x00 "GICV_RPR,VM Running Priority Register"
rgroup.long 0x6018++0x03
line.long 0x00 "GICV_HPIR,VM Highest Pending Interrupt Register"
group.long 0x601C++0x03
line.long 0x00 "GICV_ABPR,VM Aliased Binary Point Register"
group.long 0x60D0++0x03
line.long 0x00 "GICV_APR0,VM Active Priority Register"
group.long 0x60E0++0x03
line.long 0x00 "GICV_NSAPR0,VM Non-Secure Active Priority Register"
rgroup.long 0x60FC++0x03
line.long 0x00 "GICV_IIDR,Virtual Machine CPU Interface Identification Register"
hexmask.long.word 0x00 20.--31. 1. " PRODID ,Product ID"
bitfld.long 0x00 12.--15. "  REV ,Revision" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                          "
hexmask.long.word 0x00 0.--11. 1. " IMP    ,Implementer"
wgroup.long 0x7000++0x03
line.long 0x00 "GICV_DIR,VM Deactivate Interrupt Register"
tree.end
tree.end
elif cpuis("TDA2XIPU*")
tree.close "Core Registers (Cortex-M4)"
AUTOINDENT.PUSH
AUTOINDENT.OFF
tree "System Control"
sif COMPonent.AVAILABLE("COREDEBUG")
base CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))
width 12.
group.long 0x08++0x03
line.long 0x00 "ACTLR,Auxiliary Control Register"
bitfld.long 0x00 9. " DISFPCA        ,Disables lazy stacking of floating point context" "No,Yes"
bitfld.long 0x00 8. "                   DISOOFP        ,Disables floating point instructions completing" "No,Yes"
bitfld.long 0x00 2. "              DISFOLD         ,Disables folding of IT instructions" "No,Yes"
textline "                     "
bitfld.long 0x00 1. " DISDEFWBUF     ,Disables write buffer use during default memory map accesses" "No,Yes"
bitfld.long 0x00 0. "                   DISMCYCINT     ,Disables interruption of multi-cycle instructions" "No,Yes"
group.long 0x10++0x0B
line.long 0x00 "SYST_CSR,SysTick Control and Status Register"
rbitfld.long 0x00 16. " COUNTFLAG      ,Counter Flag" "Not counted,Counted"
bitfld.long 0x00 2. "           CLKSOURCE      ,SysTick clock source" "External,Core"
bitfld.long 0x00 1. "         TICKINT         ,SysTick Handler" "No SysTick,SysTick"
textline "                     "
bitfld.long 0x00 0. " ENABLE         ,Counter Enable" "Disabled,Enabled"
line.long 0x04 "SYST_RVR,SysTick Reload Value Register"
hexmask.long.tbyte 0x04 0.--23. 1. " RELOAD         ,The value to load into the SYST_CVR when the counter reaches 0"
line.long 0x08 "SYST_CVR,SysTick Current Value Register"
rgroup.long 0x1C++0x03
line.long 0x00 "SYST_CALIB,SysTick Calibration Value Register"
bitfld.long 0x00 31. " NOREF          ,Indicates whether the implementation defined reference clock is implemented" "Implemented,Not implemented"
bitfld.long 0x00 30. "       SKEW           ,Indicates whether the 10ms calibration value is exact" "Exact,Inexact"
hexmask.long.tbyte 0x00 0.--23. 1. "          TENMS           ,Holds a reload value to be used for 10ms (100Hz) timing"
rgroup.long 0xD00++0x03
line.long 0x00 "CPUID,CPU ID Base Register"
hexmask.long.byte 0x00 24.--31. 1. " IMPLEMENTER    ,Implementer Code"
bitfld.long 0x00 20.--23. "                    VARIANT        ,Indicates processor revision" "Revision 0,?..."
bitfld.long 0x00 16.--19. "       ARCHITECTURE    ,Architecture" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                     "
hexmask.long.word 0x00 4.--15. 1. " PARTNO         ,Indicates part number"
bitfld.long 0x00 0.--3. "                  REVISION       ,Indicates patch release" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xD04++0x23
line.long 0x00 "ICSR,Interrupt Control State Register"
bitfld.long 0x00 31. " NMIPENDSET     ,Set Pending NMI Bit" "Inactive,Active"
bitfld.long 0x00 28. "              PENDSVSET      ,Set Pending pendSV Bit" "Not pending,Pending"
bitfld.long 0x00 27. "      PENDSVCLR       ,Removes the pending status of the PendSV exception" "No effect,Removed"
textline "                     "
bitfld.long 0x00 26. " PENDSTSET      ,Set Pending SysTick Bit" "Not pending,Pending"
bitfld.long 0x00 25. "           PENDSTCLR      ,Clear Pending SysTick Bit" "No effect,Removed"
bitfld.long 0x00 23. "        ISRPREEMPT      ,Use Only at Debug Time" "Not active,Active"
textline "                     "
bitfld.long 0x00 22. " ISRPENDING     ,Indicates whether an external interrupt" "Not pending,Pending"
hexmask.long.word 0x00 12.--20. 1. "           VECTPENDING    ,Pending ISR Number Field"
bitfld.long 0x00 11. "             RETTOBASE       ,Interrupt Exception" "Active,Not active"
textline "                     "
hexmask.long.word 0x00 0.--8. 1. " VECTACTIVE     ,The exception number of the current executing exception"
line.long 0x04 "VTOR,Vector Table Offset Register"
hexmask.long 0x04 7.--31. 0x80 " TBLOFF         ,Vector table address"
line.long 0x08 "AIRCR,Application Interrupt and Reset Control Register"
hexmask.long.word 0x08 16.--31. 1. " VECTKEY        ,Register Key"
rbitfld.long 0x08 15. "                  ENDIANESS      ,Data endianness Bit" "Little,Big"
bitfld.long 0x08 8.--10. "           PRIGROUP        ,Interrupt Priority Grouping Field" "[7:1]/[0],[7:2]/[1:0],[7:3]/[2:0],[7:4]/[3:0],[7:5]/[4:0],[7:6]/[5:0],[7]/[6:0],-/[7:0]"
textline "                     "
bitfld.long 0x08 2. " SYSRESETREQ    ,System Reset Request" "Not requested,Requested"
bitfld.long 0x08 1. "         VECTCLRACTIVE  ,Clear Active Vector Bit" "No effect,Clear"
bitfld.long 0x08 0. "        VECTRESET       ,System Reset" "No effect,Reset"
line.long 0x0C "SCR,System Control Register"
bitfld.long 0x0C 4. " SEVONPEND      ,Determines whether an interrupt transition from inactive state to pending state is a wakeup event" "Not wakeup,Wakeup"
bitfld.long 0x0C 2. "            SLEEPDEEP      ,Provides a qualifying hint indicating that waking from sleep might take longer" "Not deep sleep,Deep sleep"
bitfld.long 0x0C 1. "   SLEEPONEXIT     ,Determines whether, on an exit from an ISR that returns to the base level of execution priority, the processor enters a sleep state" "Disabled,Enabled"
line.long 0x10 "CCR,Configuration Control Register"
bitfld.long 0x10 18. " BP             ,Branch prediction enable bit" "Disabled,Enabled"
bitfld.long 0x10 17. "              IC             ,Instruction cache enable bit" "Disabled,Enabled"
bitfld.long 0x10 16. "         DC              ,Cache enable bit" "Disabled,Enabled"
textline "                     "
bitfld.long 0x10 9. " STKALIGN       ,8-byte Stack Frame Alignment" "4-byte/no adjustment,8-byte/adjustment"
bitfld.long 0x10 8. "  BFHFNMIGN      ,Enable NMI and Hard Fault and FAULTMASK to Ignore Bus Fault" "Disabled,Enabled"
bitfld.long 0x10 4. "         DIV_0_TRP       ,Trap Divide by Zero" "Disabled,Enabled"
textline "                     "
bitfld.long 0x10 3. " UNALIGN_TRP    ,Trap for Unaligned Access" "Disabled,Enabled"
bitfld.long 0x10 1. "              USERSETMPEND   ,Controls whether unprivileged software can access the STIR" "Denied,Allowed"
bitfld.long 0x10 0. "          NONEBASETHRDENA ,Control Entry to Thread Mode" "Only from last exception,Any level"
line.long 0x14 "SHPR1,SSystem Handler Priority Register 1"
hexmask.long.byte 0x14 24.--31. 1. " PRI_7          ,Priority of System Handler 7"
hexmask.long.byte 0x14 16.--23. 1. "                    PRI_6          ,Priority of system handler 6(UsageFault)"
hexmask.long.byte 0x14 8.--15. 1. "               PRI_5           ,Priority of system handler 5(BusFault)"
textline "                     "
hexmask.long.byte 0x14 0.--7. 1. " PRI_4          ,Priority of system handler 4(MemManage)"
line.long 0x18 "SHPR2,System Handler Priority Register 2"
hexmask.long.byte 0x18 24.--31. 1. " PRI_11         ,Priority of system handler 11(SVCall)"
hexmask.long.byte 0x18 16.--23. 1. "                    PRI_10         ,Priority of System Handler 10"
hexmask.long.byte 0x18 8.--15. 1. "               PRI_9           ,Priority of System Handler 9"
textline "                     "
hexmask.long.byte 0x18 0.--7. 1. " PRI_8          ,Priority of System Handler 8"
line.long 0x1C "SHPR3,System Handler Priority Register 3"
hexmask.long.byte 0x1C 24.--31. 1. " PRI_15         ,Priority of System Handler 15(SysTick)"
hexmask.long.byte 0x1C 16.--23. 1. "                    PRI_14         ,Priority of System Handler 14(PendSV)"
hexmask.long.byte 0x1C 8.--15. 1. "               PRI_13          ,Priority of System Handler 13"
textline "                     "
hexmask.long.byte 0x1C 0.--7. 1. " PRI_12         ,Priority of System Handler 12(DebugMonitor)"
line.long 0x20 "SHCSR,System Handler Control and State Register"
bitfld.long 0x20 18. " USGFAULTENA    ,Enable UsageFault" "Disabled,Enabled"
bitfld.long 0x20 17. "              BUSFAULTENA    ,Enable BusFault" "Disabled,Enabled"
bitfld.long 0x20 16. "         MEMFAULTENA     ,Enable MemManage fault" "Disabled,Enabled"
textline "                     "
bitfld.long 0x20 15. " SVCALLPENDED   ,SVCall is pending" "Not pending,Pending"
bitfld.long 0x20 14. "           BUSFAULTPENDED ,BusFault is pending" "Not pending,Pending"
bitfld.long 0x20 13. "      MEMFAULTPENDED  ,MemManage is pending" "Not pending,Pending"
textline "                     "
bitfld.long 0x20 12. " USGFAULTPENDED ,UsageFault is pending" "Not pending,Pending"
bitfld.long 0x20 11. "           SYSTICKACT     ,SysTick is Active" "Not active,Active"
bitfld.long 0x20 10. "       PENDSVACT       ,PendSV is Active" "Not active,Active"
textline "                     "
bitfld.long 0x20 8. " MONITORACT     ,Monitor is Active" "Not active,Active"
bitfld.long 0x20 7. "            SVCALLACT      ,SVCall is Active" "Not active,Active"
bitfld.long 0x20 3. "       USGFAULTACT     ,UsageFault is Active" "Not active,Active"
textline "                     "
bitfld.long 0x20 1. " BUSFAULTACT    ,BusFault is Active" "Not active,Active"
bitfld.long 0x20 0. "            MEMFAULTACT    ,MemManage is Active" "Not active,Active"
group.byte 0xD28++0x1
line.byte 0x00 "MMFSR,MemManage Status Register"
bitfld.byte 0x00 7. "       MMARVALID      ,Address Valid Flag" "Not valid,Valid"
bitfld.byte 0x00 5. "             MLSPERR        ,A MemManage fault occurred during FP lazy state preservation" "Not occurred,Occurred"
bitfld.byte 0x00 4. "     MSTKERR         ,tacking Access Violations" "Not occurred,Occurred"
textline "                     "
bitfld.byte 0x00 3. " MUNSTKERR      ,Unstack Access Violations" "Not occurred,Occurred"
bitfld.byte 0x00 1. "          DACCVIOL       ,Data Access Violation" "Not occurred,Occurred"
bitfld.byte 0x00 0. "     IACCVIOL        ,Instruction Access Violation" "Not occurred,Occurred"
line.byte 0x01 "BFSR,Bus Fault Status Register"
bitfld.byte 0x01 7. "       BFARVALID      ,Address Valid Flag" "Not valid,Valid"
bitfld.byte 0x01 5. "             LSPERR         ,A bus fault occurred during FP lazy state preservation" "Not occurred,Occurred"
bitfld.byte 0x01 4. "     STKERR          ,Derived bus fault(exception entry)" "Not occurred,Occurred"
textline "                     "
bitfld.byte 0x01 3. " UNSTKERR       ,Derived bus fault(exception return)" "Not occurred,Occurred"
bitfld.byte 0x01 2. "          IMPRECISERR    ,Imprecise data access error" "Not occurred,Occurred"
bitfld.byte 0x01 1. "     PRECISERR       ,Precise data access error" "Not occurred,Occurred"
textline "                     "
bitfld.byte 0x01 0. " IBUSERR        ,Bus fault on an instruction prefetch" "Not occurred,Occurred"
group.word 0xD2A++0x1
line.word 0x00 "USAFAULT,Usage Fault Status Register"
bitfld.word 0x00 9. "     DIVBYZERO      ,Divide by zero error" "No error,Error"
bitfld.word 0x00 8. "              UNALIGNED      ,Unaligned access error" "No error,Error"
bitfld.word 0x00 3. "         NOCP            ,A coprocessor access error" "No error,Error"
textline "                     "
bitfld.word 0x00 2. " INVPC          ,An integrity check error" "No error,Error"
bitfld.word 0x00 1. "              INVSTATE       ,Invalid Combination of EPSR and Instruction" "No error,Error"
bitfld.word 0x00 0. "         UNDEFINSTR      ,Undefined instruction error" "No error,Error"
group.long 0xD2C++0x07
line.long 0x00 "HFSR,Hard Fault Status Register"
bitfld.long 0x00 31. " DEBUGEVT       ,Indicates when a Debug event has occurred" "Not occurred,Occurred"
bitfld.long 0x00 30. "          FORCED         ,Indicates that a fault with configurable priority" "Not occurred,Occurred"
bitfld.long 0x00 1. "     VECTTBL         ,Indicates when a fault has occurred because of a vector table read error on exception processing" "Not occurred,Occurred"
line.long 0x04 "DFSR,Debug Fault Status Register"
bitfld.long 0x04 4. " EXTERNAL       ,Indicates a debug event generated because of the assertion of EDBGRQ" "Not asserted,Asserted"
bitfld.long 0x04 3. "          VCATCH         ,Vector Catch Flag" "Not occurred,Occurred"
bitfld.long 0x04 2. "     DWTTRAP         ,Indicates a debug event generated by the DWT" "Not occurred,Occurred"
textline "                     "
bitfld.long 0x04 1. " BKPT           ,BKPT Flag" "Not executed,Executed"
bitfld.long 0x04 0. "          HALTED         ,Indicates a debug event generated by either" "Not requested,Requested"
group.long 0xD34++0x0B
line.long 0x00 "MMFAR,MemManage Fault Address Register"
line.long 0x04 "BFAR,BusFault Address Register"
line.long 0x08 "AFSR,Auxiliary Fault Status Register"
group.long 0xD88++0x03
line.long 0x00 "CPACR,Coprocessor Access Control Register"
bitfld.long 0x00 22.--23. " CP11           ,Access privileges for coprocessor 11" "Access denied,Privileged only,Reserved,Full access"
bitfld.long 0x00 20.--21. "       CP10           ,Access privileges for coprocessor 10" "Access denied,Privileged only,Reserved,Full access"
bitfld.long 0x00 14.--15. "  CP7             ,Access privileges for coprocessor 7" "Access denied,Privileged only,Reserved,Full access"
textline "                     "
bitfld.long 0x00 12.--13. " CP6            ,Access privileges for coprocessor 6" "Access denied,Privileged only,Reserved,Full access"
bitfld.long 0x00 10.--11. "       CP5            ,Access privileges for coprocessor 5" "Access denied,Privileged only,Reserved,Full access"
bitfld.long 0x00 8.--9. "  CP4             ,Access privileges for coprocessor 4" "Access denied,Privileged only,Reserved,Full access"
textline "                     "
bitfld.long 0x00 6.--7. " CP3            ,Access privileges for coprocessor 3" "Access denied,Privileged only,Reserved,Full access"
bitfld.long 0x00 4.--5. "       CP2            ,Access privileges for coprocessor 2" "Access denied,Privileged only,Reserved,Full access"
bitfld.long 0x00 2.--3. "  CP1             ,Access privileges for coprocessor 1" "Access denied,Privileged only,Reserved,Full access"
textline "                     "
bitfld.long 0x00 0.--1. " CP0            ,Access privileges for coprocessor 0" "Access denied,Privileged only,Reserved,Full access"
wgroup.long 0xF00++0x03
line.long 0x00 "STIR,Software Trigger Interrupt Register"
hexmask.long.word 0x00 0.--8. 1. " INTID          ,Indicates the interrupt to be triggered"
width 10.
tree "Feature Registers"
rgroup.long 0xD40++0x0B
line.long 0x00 "ID_PFR0,Processor Feature Register 0"
bitfld.long 0x00 4.--7. " STATE1    ,Thumb instruction set support" ",,,Supported,?..."
bitfld.long 0x00 0.--3. "              STATE0         ,ARM instruction set support" "Not supported,?..."
line.long 0x04 "ID_PFR1,Processor Feature Register 1"
bitfld.long 0x04 8.--11. " MPROF     ,M profile programmers' model" ",,2-stack,?..."
line.long 0x08 "ID_DFR0,Debug Feature Register 0"
bitfld.long 0x08 20.--23. " DBGMOD    ,Support for memory-mapped debug model for M profile processors" "Not supported,Supported,?..."
hgroup.long 0xD4C++0x03
hide.long 0x00 "ID_AFR0,Auxiliary Feature Register 0"
rgroup.long 0xD50++0x03
line.long 0x00 "ID_MMFR0,Memory Model Feature Register 0"
bitfld.long 0x00 20.--23. " AUXREG    ,Indicates the support for Auxiliary registers" "Not supported,ACTLR only,?..."
bitfld.long 0x00 16.--19. "          TCMSUP         ,Indicates the support for Tightly Coupled Memory (TCM)" "Not supported,Supported,?..."
bitfld.long 0x00 12.--15. "        SHRLEV    ,Indicates the number of shareability levels implemented" "Level 1,?..."
textline "                   "
bitfld.long 0x00 8.--11. " OUTMSHR   ,Indicates the outermost shareability domain implemented" "Non-cacheable,,,,,,,,,,,,,,,Ignored"
bitfld.long 0x00 4.--7. "          PMSASUP        ,Indicates support for a PMSA" "Not supported,,,PMSAv7,?..."
hgroup.long 0xD54++0x03
hide.long 0x00 "ID_MMFR1,Memory Model Feature Register 1"
rgroup.long 0xD58++0x03
line.long 0x00 "ID_MMFR2,Memory Model Feature Register 2"
bitfld.long 0x00 24.--27. " WFISTALL  ,Indicates the support for Wait For Interrupt (WFI) stalling" "Not supported,Supported,?..."
rgroup.long 0xD60++0x13
line.long 0x00 "ID_ISAR0,Instruction Set Attributes Register 0"
bitfld.long 0x00 24.--27. " DIVIDE    ,Indicates the supported divide instructions" "Not supported,SDIV/UDIV,?..."
bitfld.long 0x00 20.--23. "          DEBUG          ,Indicates the supported debug instructions" "Not supported,BKPT,?..."
bitfld.long 0x00 16.--19. "        COPROC    ,Indicates the supported coprocessor instructions" "Not supported,CDP/LDC/MCR/STC,CDP2/LDC2/MCR2/STC2,MCRR/MRRC,MCRR2/MRRC2,?..."
textline "                   "
bitfld.long 0x00 12.--15. " CMPBRANCH ,Indicates the supported combined compare and branch instructions" "Not supported,CBNZ/CBZ,?..."
bitfld.long 0x00 8.--11. "          BITFIELD       ,Indicates the supported bitfield instructions" "Not supported,BFC/BFI/SBFX/UBFX,?..."
bitfld.long 0x00 4.--7. "    BITCOUNT  ,Indicates the supported bit counting instructions" "Not supported,CLZ,?..."
line.long 0x04 "ID_ISAR1,Instruction Set Attributes Register 1"
bitfld.long 0x04 24.--27. " INTERWORK ,Indicates the supported Interworking instructions" "Not supported,BX,BX/BLX,?..."
bitfld.long 0x04 20.--23. "          IMMEDIATE      ,Indicates the support for data-processing instructions with long immediates" "Not supported,ADDW/MOVW/MOVT/SUBW,?..."
bitfld.long 0x04 16.--19. "  IFTHEN    ,Indicates the supported IfThen instructions" "Not supported,IT,?..."
textline "                   "
bitfld.long 0x04 12.--15. " EXTEND    ,Indicates the supported Extend instructions" "Not supported,Supported,Supported,?..."
line.long 0x08 "ID_ISAR2,Instruction Set Attributes Register 2"
bitfld.long 0x08 24.--27. " REVERSAL  ,Indicates the supported reversal instructions" "Not supported,REV/REV16/REVSH,REV/REV16/REVSH/RBIT,?..."
bitfld.long 0x08 20.--23. "   MULTU          ,Indicates the supported advanced unsigned multiply instructions" "Not supported,UMULL/UMLAL,UMULL/UMLAL/UMAAL,?..."
bitfld.long 0x08 16.--19. "    MULTS     ,Indicates the supported advanced signed multiply instructions" "Not supported,Supported,Supported,Supported,?..."
textline "                   "
bitfld.long 0x08 12.--15. " MULT      ,Indicates the supported additional multiply instructions" "Not supported,MLA,MLA/MLS,?..."
bitfld.long 0x08 8.--11. "          MULTIACCESSINT ,Indicates the support for multi-access interruptible instructions" "Not supported,LDM/STM restartable,LDM/STM continuable,?..."
bitfld.long 0x08 4.--7. "  MEMHINT   ,Indicates the supported memory hint instructions" "Not supported,,,PLD/PLI,?..."
textline "                   "
bitfld.long 0x08 0.--3. " LOADSTORE ,Indicates the supported additional load and store instructions" "Not supported,LDRD/STRD,?..."
line.long 0x0C "ID_ISAR3,Instruction Set Attributes Register 3"
bitfld.long 0x0C 24.--27. " TRUENOP   ,Indicates the support for a true  NOP instruction" "Not supported,Supported,?..."
bitfld.long 0x0C 20.--23. "          THUMBCOPY      ,Indicates the supported non flag-setting MOV instructions" "Not supported,Supported,?..."
bitfld.long 0x0C 16.--19. "        TABBRANCH ,Indicates the supported Table Branch instructions" "Not supported,TBB/TBH,?..."
textline "                   "
bitfld.long 0x0C 12.--15. " SYNCHPRIM ,Indicates the supported Table Branch instructions" "Not supported,Supported,Supported,Supported,?..."
bitfld.long 0x0C 8.--11. "          SVC            ,Indicates the supported SVC instructions" "Not supported,SVC,?..."
bitfld.long 0x0C 4.--7. "        SIMD      ,Indicates the supported SIMD instructions" "Not supported,Supported,,Supported,?..."
textline "                   "
bitfld.long 0x0C 0.--3. " SATURATE  ,Indicates the supported Saturate instructions" "Not supported,QADD/QDADD/QDSUB/QSUB,?..."
line.long 0x10 "ID_ISAR4,Instruction Set Attributes Register 4"
bitfld.long 0x10 24.--27. " PSR_M     ,Indicates the supported M profile instructions to modify the PSRs" "Not supported,Supported,?..."
bitfld.long 0x10 20.--23. "          SYNCHPRIMFRAC  ,Indicates the supported M profile instructions to modify the PSRs" "Not supported,Supported,Supported,Supported,?..."
bitfld.long 0x10 16.--19. "        BARRIER   ,Indicates the supported Barrier instructions" "Not supported,DMB/DSB/ISB,?..."
textline "                   "
bitfld.long 0x10 8.--11. " WRITEBACK ,Indicates the support for writeback addressing modes" "Basic support,Full support,?..."
bitfld.long 0x10 4.--7. "          WITHSHIFTS     ,Indicates the support for instructions with shifts" "MOV/shift,Shift LSL 0-3,,Shift other,?..."
bitfld.long 0x10 0.--3. "        UNPRIV    ,Indicates the supported unprivileged instructions" "Not supported,LDRBT/LDRT/STRBT/STRT,LDRBT/LDRT/STRBT/STRT/LDRHT/LDRSBT/LDRSHTSTRHT,?..."
tree.end
width 6.
tree "CoreSight Identification Registers"
rgroup.long 0xFE0++0x0F
line.long 0x00 "PID0,Peripheral ID0"
hexmask.long.byte 0x00 0.--7. 1. " Part_Num[7:0] ,Part Number bits[7:0]"
line.long 0x04 "PID1,Peripheral ID1"
hexmask.long.byte 0x04 4.--7. 1. " JEP106ID[3:0] ,JEP106 ID code bits[3:0]"
hexmask.long.byte 0x04 0.--3. 1. "  Part_Num[11:8] ,Part Number bits[11:8]"
line.long 0x08 "PID2,Peripheral ID2"
hexmask.long.byte 0x08 4.--7. 1. " Revision      ,Revision"
bitfld.long 0x08 3. "  JEDEC          ,JEDEC assigned ID fields" "0,JEDEC"
hexmask.long.byte 0x08 0.--2. 1. "  JEP106ID[6:4] ,JEP106 ID code bits[6:4]"
line.long 0x0C "PID3,Peripheral ID3"
hexmask.long.byte 0x0C 4.--7. 1. " RevAnd        ,Minor revision field"
hexmask.long.byte 0x0C 0.--3. 1. "  CMB            ,Customer-modified block"
rgroup.long 0xFD0++0x03
line.long 0x00 "PID4,Peripheral Identification Register 4"
hexmask.long.byte 0x00 4.--7. 1. " Count         ,4KB count"
hexmask.long.byte 0x00 0.--3. 1. "  JEP106_CC      ,JEP106 continuation code"
rgroup.long 0xFF0++0x0F
line.long 0x00 "CID0,Component ID0 (Preamble)"
line.long 0x04 "CID1,Component ID1"
hexmask.long.byte 0x04 4.--7. 1. " CC            ,Component Class"
hexmask.long.byte 0x04 0.--3. 1. "  Preamble       ,Preamble"
line.long 0x08 "CID2,Component ID2"
line.long 0x0C "CID3,Component ID3"
tree.end
width 0x0B
else
newline
textline "COREDEBUG component base address not specified"
newline
endif
tree.end
tree "Memory Protection Unit"
sif COMPonent.AVAILABLE("COREDEBUG")
base CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))
width 15.
rgroup.long 0xD90++0x03
line.long 0x00 "MPU_TYPE,MPU Type Register"
bitfld.long 0x00 16.--23. " IREGION    ,Instruction region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,?..."
bitfld.long 0x00 8.--15. "               DREGION   ,Number of regions supported by the MPU" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,?..."
bitfld.long 0x00 0. "                    SEPARATE ,Indicates support for separate instruction and data address maps" "Not supported,Supported"
group.long 0xD94++0x03
line.long 0x00 "MPU_CTRL,MPU Control Register"
bitfld.long 0x00 2. " PRIVDEFENA ,Enables the default memory map as a background region for privileged access" "Disabled,Enabled"
bitfld.long 0x00 1. "         HFNMIENA  ,Handlers executing with priority less than 0 access memory with the MPU enabled or with the MPU disabled" "MPU disabled,MPU enabled"
bitfld.long 0x00 0. "          ENABLE   ,Enables the MPU" "Disabled,Enabled"
group.long 0xD98++0x03
line.long 0x00 "MPU_RNR,MPU Region Number Register"
hexmask.long.byte 0x00 0.--7. 1. " REGION     ,Indicates the memory region accessed by MPU_RBAR and MPU_RASR"
tree.close "MPU regions"
if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0x0
group.long 0xD9C++0x03 "Region 0"
saveout 0xD98 %l 0x0
line.long 0x00 "MPU_RBAR0,MPU Region Base Address Register 0"
hexmask.long 0x00 5.--31. 0x20 " ADDR       ,Base address of the region"
group.long 0xDA0++0x03
saveout 0xD98 %l 0x0
line.long 0x00 "MPU_RASR0,MPU Region Attribute and Size Register 0"
bitfld.long 0x00 28. " XN         ,eXecute Never" "Execute,Not execute"
bitfld.long 0x00 24.--26. "      AP        ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-"
bitfld.long 0x00 19.--21. "             TEX      ,Type Extension Field" "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 18. " S          ,Shareable Bit" "Not shareable,Shareable"
bitfld.long 0x00 17. "    C         ,Cacheable Bit" "Not cacheable,Cacheable"
bitfld.long 0x00 16. "         B        ,Bufferable Bit" "Not bufferable,Bufferable"
textline "                        "
bitfld.long 0x00 15. " SRD[7..0]  ,Subregion 7 Disable" "0,1"
bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1"
bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1"
bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1"
bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1"
bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1"
bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1"
bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1"
bitfld.long 0x00 1.--5. "         SIZE      ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB"
bitfld.long 0x00 0. "                ENABLE   ,Enables this region" "Disabled,Enabled"
else
hgroup.long 0xD9C++0x03 "Region 0 (not implemented)"
saveout 0xD98 %l 0x0
hide.long 0x00 "MPU_RBAR0,MPU Region Base Address Register 0"
hgroup.long 0xDA0++0x03
saveout 0xD98 %l 0x0
hide.long 0x00 "MPU_RASR0,MPU Region Attribute and Size Register 0"
textline "                        "
textline "                        "
endif
if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0x1
group.long 0xD9C++0x03 "Region 1"
saveout 0xD98 %l 0x1
line.long 0x00 "MPU_RBAR1,MPU Region Base Address Register 1"
hexmask.long 0x00 5.--31. 0x20 " ADDR       ,Base address of the region"
group.long 0xDA0++0x03
saveout 0xD98 %l 0x1
line.long 0x00 "MPU_RASR1,MPU Region Attribute and Size Register 1"
bitfld.long 0x00 28. " XN         ,eXecute Never" "Execute,Not execute"
bitfld.long 0x00 24.--26. "      AP        ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-"
bitfld.long 0x00 19.--21. "             TEX      ,Type Extension Field" "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 18. " S          ,Shareable Bit" "Not shareable,Shareable"
bitfld.long 0x00 17. "    C         ,Cacheable Bit" "Not cacheable,Cacheable"
bitfld.long 0x00 16. "         B        ,Bufferable Bit" "Not bufferable,Bufferable"
textline "                        "
bitfld.long 0x00 15. " SRD[7..0]  ,Subregion 7 Disable" "0,1"
bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1"
bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1"
bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1"
bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1"
bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1"
bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1"
bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1"
bitfld.long 0x00 1.--5. "         SIZE      ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB"
bitfld.long 0x00 0. "                ENABLE   ,Enables this region" "Disabled,Enabled"
else
hgroup.long 0xD9C++0x03 "Region 1 (not implemented)"
saveout 0xD98 %l 0x1
hide.long 0x00 "MPU_RBAR1,MPU Region Base Address Register 1"
hgroup.long 0xDA0++0x03
saveout 0xD98 %l 0x1
hide.long 0x00 "MPU_RASR1,MPU Region Attribute and Size Register 1"
textline "                        "
textline "                        "
endif
if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0x2
group.long 0xD9C++0x03 "Region 2"
saveout 0xD98 %l 0x2
line.long 0x00 "MPU_RBAR2,MPU Region Base Address Register 2"
hexmask.long 0x00 5.--31. 0x20 " ADDR       ,Base address of the region"
group.long 0xDA0++0x03
saveout 0xD98 %l 0x2
line.long 0x00 "MPU_RASR2,MPU Region Attribute and Size Register 2"
bitfld.long 0x00 28. " XN         ,eXecute Never" "Execute,Not execute"
bitfld.long 0x00 24.--26. "      AP        ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-"
bitfld.long 0x00 19.--21. "             TEX      ,Type Extension Field" "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 18. " S          ,Shareable Bit" "Not shareable,Shareable"
bitfld.long 0x00 17. "    C         ,Cacheable Bit" "Not cacheable,Cacheable"
bitfld.long 0x00 16. "         B        ,Bufferable Bit" "Not bufferable,Bufferable"
textline "                        "
bitfld.long 0x00 15. " SRD[7..0]  ,Subregion 7 Disable" "0,1"
bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1"
bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1"
bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1"
bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1"
bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1"
bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1"
bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1"
bitfld.long 0x00 1.--5. "         SIZE      ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB"
bitfld.long 0x00 0. "                ENABLE   ,Enables this region" "Disabled,Enabled"
else
hgroup.long 0xD9C++0x03 "Region 2 (not implemented)"
saveout 0xD98 %l 0x2
hide.long 0x00 "MPU_RBAR2,MPU Region Base Address Register 2"
hgroup.long 0xDA0++0x03
saveout 0xD98 %l 0x2
hide.long 0x00 "MPU_RASR2,MPU Region Attribute and Size Register 2"
textline "                        "
textline "                        "
endif
if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0x3
group.long 0xD9C++0x03 "Region 3"
saveout 0xD98 %l 0x3
line.long 0x00 "MPU_RBAR3,MPU Region Base Address Register 3"
hexmask.long 0x00 5.--31. 0x20 " ADDR       ,Base address of the region"
group.long 0xDA0++0x03
saveout 0xD98 %l 0x3
line.long 0x00 "MPU_RASR3,MPU Region Attribute and Size Register 3"
bitfld.long 0x00 28. " XN         ,eXecute Never" "Execute,Not execute"
bitfld.long 0x00 24.--26. "      AP        ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-"
bitfld.long 0x00 19.--21. "             TEX      ,Type Extension Field" "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 18. " S          ,Shareable Bit" "Not shareable,Shareable"
bitfld.long 0x00 17. "    C         ,Cacheable Bit" "Not cacheable,Cacheable"
bitfld.long 0x00 16. "         B        ,Bufferable Bit" "Not bufferable,Bufferable"
textline "                        "
bitfld.long 0x00 15. " SRD[7..0]  ,Subregion 7 Disable" "0,1"
bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1"
bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1"
bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1"
bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1"
bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1"
bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1"
bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1"
bitfld.long 0x00 1.--5. "         SIZE      ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB"
bitfld.long 0x00 0. "                ENABLE   ,Enables this region" "Disabled,Enabled"
else
hgroup.long 0xD9C++0x03 "Region 3 (not implemented)"
saveout 0xD98 %l 0x3
hide.long 0x00 "MPU_RBAR3,MPU Region Base Address Register 3"
hgroup.long 0xDA0++0x03
saveout 0xD98 %l 0x3
hide.long 0x00 "MPU_RASR3,MPU Region Attribute and Size Register 3"
textline "                        "
textline "                        "
endif
if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0x4
group.long 0xD9C++0x03 "Region 4"
saveout 0xD98 %l 0x4
line.long 0x00 "MPU_RBAR4,MPU Region Base Address Register 4"
hexmask.long 0x00 5.--31. 0x20 " ADDR       ,Base address of the region"
group.long 0xDA0++0x03
saveout 0xD98 %l 0x4
line.long 0x00 "MPU_RASR4,MPU Region Attribute and Size Register 4"
bitfld.long 0x00 28. " XN         ,eXecute Never" "Execute,Not execute"
bitfld.long 0x00 24.--26. "      AP        ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-"
bitfld.long 0x00 19.--21. "             TEX      ,Type Extension Field" "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 18. " S          ,Shareable Bit" "Not shareable,Shareable"
bitfld.long 0x00 17. "    C         ,Cacheable Bit" "Not cacheable,Cacheable"
bitfld.long 0x00 16. "         B        ,Bufferable Bit" "Not bufferable,Bufferable"
textline "                        "
bitfld.long 0x00 15. " SRD[7..0]  ,Subregion 7 Disable" "0,1"
bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1"
bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1"
bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1"
bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1"
bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1"
bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1"
bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1"
bitfld.long 0x00 1.--5. "         SIZE      ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB"
bitfld.long 0x00 0. "                ENABLE   ,Enables this region" "Disabled,Enabled"
else
hgroup.long 0xD9C++0x03 "Region 4 (not implemented)"
saveout 0xD98 %l 0x4
hide.long 0x00 "MPU_RBAR4,MPU Region Base Address Register 4"
hgroup.long 0xDA0++0x03
saveout 0xD98 %l 0x4
hide.long 0x00 "MPU_RASR4,MPU Region Attribute and Size Register 4"
textline "                        "
textline "                        "
endif
if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0x5
group.long 0xD9C++0x03 "Region 5"
saveout 0xD98 %l 0x5
line.long 0x00 "MPU_RBAR5,MPU Region Base Address Register 5"
hexmask.long 0x00 5.--31. 0x20 " ADDR       ,Base address of the region"
group.long 0xDA0++0x03
saveout 0xD98 %l 0x5
line.long 0x00 "MPU_RASR5,MPU Region Attribute and Size Register 5"
bitfld.long 0x00 28. " XN         ,eXecute Never" "Execute,Not execute"
bitfld.long 0x00 24.--26. "      AP        ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-"
bitfld.long 0x00 19.--21. "             TEX      ,Type Extension Field" "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 18. " S          ,Shareable Bit" "Not shareable,Shareable"
bitfld.long 0x00 17. "    C         ,Cacheable Bit" "Not cacheable,Cacheable"
bitfld.long 0x00 16. "         B        ,Bufferable Bit" "Not bufferable,Bufferable"
textline "                        "
bitfld.long 0x00 15. " SRD[7..0]  ,Subregion 7 Disable" "0,1"
bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1"
bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1"
bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1"
bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1"
bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1"
bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1"
bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1"
bitfld.long 0x00 1.--5. "         SIZE      ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB"
bitfld.long 0x00 0. "                ENABLE   ,Enables this region" "Disabled,Enabled"
else
hgroup.long 0xD9C++0x03 "Region 5 (not implemented)"
saveout 0xD98 %l 0x5
hide.long 0x00 "MPU_RBAR5,MPU Region Base Address Register 5"
hgroup.long 0xDA0++0x03
saveout 0xD98 %l 0x5
hide.long 0x00 "MPU_RASR5,MPU Region Attribute and Size Register 5"
textline "                        "
textline "                        "
endif
if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0x6
group.long 0xD9C++0x03 "Region 6"
saveout 0xD98 %l 0x6
line.long 0x00 "MPU_RBAR6,MPU Region Base Address Register 6"
hexmask.long 0x00 5.--31. 0x20 " ADDR       ,Base address of the region"
group.long 0xDA0++0x03
saveout 0xD98 %l 0x6
line.long 0x00 "MPU_RASR6,MPU Region Attribute and Size Register 6"
bitfld.long 0x00 28. " XN         ,eXecute Never" "Execute,Not execute"
bitfld.long 0x00 24.--26. "      AP        ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-"
bitfld.long 0x00 19.--21. "             TEX      ,Type Extension Field" "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 18. " S          ,Shareable Bit" "Not shareable,Shareable"
bitfld.long 0x00 17. "    C         ,Cacheable Bit" "Not cacheable,Cacheable"
bitfld.long 0x00 16. "         B        ,Bufferable Bit" "Not bufferable,Bufferable"
textline "                        "
bitfld.long 0x00 15. " SRD[7..0]  ,Subregion 7 Disable" "0,1"
bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1"
bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1"
bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1"
bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1"
bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1"
bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1"
bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1"
bitfld.long 0x00 1.--5. "         SIZE      ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB"
bitfld.long 0x00 0. "                ENABLE   ,Enables this region" "Disabled,Enabled"
else
hgroup.long 0xD9C++0x03 "Region 6 (not implemented)"
saveout 0xD98 %l 0x6
hide.long 0x00 "MPU_RBAR6,MPU Region Base Address Register 6"
hgroup.long 0xDA0++0x03
saveout 0xD98 %l 0x6
hide.long 0x00 "MPU_RASR6,MPU Region Attribute and Size Register 6"
textline "                        "
textline "                        "
endif
if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0x7
group.long 0xD9C++0x03 "Region 7"
saveout 0xD98 %l 0x7
line.long 0x00 "MPU_RBAR7,MPU Region Base Address Register 7"
hexmask.long 0x00 5.--31. 0x20 " ADDR       ,Base address of the region"
group.long 0xDA0++0x03
saveout 0xD98 %l 0x7
line.long 0x00 "MPU_RASR7,MPU Region Attribute and Size Register 7"
bitfld.long 0x00 28. " XN         ,eXecute Never" "Execute,Not execute"
bitfld.long 0x00 24.--26. "      AP        ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-"
bitfld.long 0x00 19.--21. "             TEX      ,Type Extension Field" "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 18. " S          ,Shareable Bit" "Not shareable,Shareable"
bitfld.long 0x00 17. "    C         ,Cacheable Bit" "Not cacheable,Cacheable"
bitfld.long 0x00 16. "         B        ,Bufferable Bit" "Not bufferable,Bufferable"
textline "                        "
bitfld.long 0x00 15. " SRD[7..0]  ,Subregion 7 Disable" "0,1"
bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1"
bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1"
bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1"
bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1"
bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1"
bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1"
bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1"
bitfld.long 0x00 1.--5. "         SIZE      ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB"
bitfld.long 0x00 0. "                ENABLE   ,Enables this region" "Disabled,Enabled"
else
hgroup.long 0xD9C++0x03 "Region 7 (not implemented)"
saveout 0xD98 %l 0x7
hide.long 0x00 "MPU_RBAR7,MPU Region Base Address Register 7"
hgroup.long 0xDA0++0x03
saveout 0xD98 %l 0x7
hide.long 0x00 "MPU_RASR7,MPU Region Attribute and Size Register 7"
textline "                        "
textline "                        "
endif
if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0x8
group.long 0xD9C++0x03 "Region 8"
saveout 0xD98 %l 0x8
line.long 0x00 "MPU_RBAR8,MPU Region Base Address Register 8"
hexmask.long 0x00 5.--31. 0x20 " ADDR       ,Base address of the region"
group.long 0xDA0++0x03
saveout 0xD98 %l 0x8
line.long 0x00 "MPU_RASR8,MPU Region Attribute and Size Register 8"
bitfld.long 0x00 28. " XN         ,eXecute Never" "Execute,Not execute"
bitfld.long 0x00 24.--26. "      AP        ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-"
bitfld.long 0x00 19.--21. "             TEX      ,Type Extension Field" "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 18. " S          ,Shareable Bit" "Not shareable,Shareable"
bitfld.long 0x00 17. "    C         ,Cacheable Bit" "Not cacheable,Cacheable"
bitfld.long 0x00 16. "         B        ,Bufferable Bit" "Not bufferable,Bufferable"
textline "                        "
bitfld.long 0x00 15. " SRD[7..0]  ,Subregion 7 Disable" "0,1"
bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1"
bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1"
bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1"
bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1"
bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1"
bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1"
bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1"
bitfld.long 0x00 1.--5. "         SIZE      ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB"
bitfld.long 0x00 0. "                ENABLE   ,Enables this region" "Disabled,Enabled"
else
hgroup.long 0xD9C++0x03 "Region 8 (not implemented)"
saveout 0xD98 %l 0x8
hide.long 0x00 "MPU_RBAR8,MPU Region Base Address Register 8"
hgroup.long 0xDA0++0x03
saveout 0xD98 %l 0x8
hide.long 0x00 "MPU_RASR8,MPU Region Attribute and Size Register 8"
textline "                        "
textline "                        "
endif
if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0x9
group.long 0xD9C++0x03 "Region 9"
saveout 0xD98 %l 0x9
line.long 0x00 "MPU_RBAR9,MPU Region Base Address Register 9"
hexmask.long 0x00 5.--31. 0x20 " ADDR       ,Base address of the region"
group.long 0xDA0++0x03
saveout 0xD98 %l 0x9
line.long 0x00 "MPU_RASR9,MPU Region Attribute and Size Register 9"
bitfld.long 0x00 28. " XN         ,eXecute Never" "Execute,Not execute"
bitfld.long 0x00 24.--26. "      AP        ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-"
bitfld.long 0x00 19.--21. "             TEX      ,Type Extension Field" "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 18. " S          ,Shareable Bit" "Not shareable,Shareable"
bitfld.long 0x00 17. "    C         ,Cacheable Bit" "Not cacheable,Cacheable"
bitfld.long 0x00 16. "         B        ,Bufferable Bit" "Not bufferable,Bufferable"
textline "                        "
bitfld.long 0x00 15. " SRD[7..0]  ,Subregion 7 Disable" "0,1"
bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1"
bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1"
bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1"
bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1"
bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1"
bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1"
bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1"
bitfld.long 0x00 1.--5. "         SIZE      ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB"
bitfld.long 0x00 0. "                ENABLE   ,Enables this region" "Disabled,Enabled"
else
hgroup.long 0xD9C++0x03 "Region 9 (not implemented)"
saveout 0xD98 %l 0x9
hide.long 0x00 "MPU_RBAR9,MPU Region Base Address Register 9"
hgroup.long 0xDA0++0x03
saveout 0xD98 %l 0x9
hide.long 0x00 "MPU_RASR9,MPU Region Attribute and Size Register 9"
textline "                        "
textline "                        "
endif
if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0xA
group.long 0xD9C++0x03 "Region 10"
saveout 0xD98 %l 0xA
line.long 0x00 "MPU_RBAR10,MPU Region Base Address Register 10"
hexmask.long 0x00 5.--31. 0x20 " ADDR       ,Base address of the region"
group.long 0xDA0++0x03
saveout 0xD98 %l 0xA
line.long 0x00 "MPU_RASR10,MPU Region Attribute and Size Register 10"
bitfld.long 0x00 28. " XN         ,eXecute Never" "Execute,Not execute"
bitfld.long 0x00 24.--26. "      AP        ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-"
bitfld.long 0x00 19.--21. "             TEX      ,Type Extension Field" "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 18. " S          ,Shareable Bit" "Not shareable,Shareable"
bitfld.long 0x00 17. "    C         ,Cacheable Bit" "Not cacheable,Cacheable"
bitfld.long 0x00 16. "         B        ,Bufferable Bit" "Not bufferable,Bufferable"
textline "                        "
bitfld.long 0x00 15. " SRD[7..0]  ,Subregion 7 Disable" "0,1"
bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1"
bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1"
bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1"
bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1"
bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1"
bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1"
bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1"
bitfld.long 0x00 1.--5. "         SIZE      ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB"
bitfld.long 0x00 0. "                ENABLE   ,Enables this region" "Disabled,Enabled"
else
hgroup.long 0xD9C++0x03 "Region 10 (not implemented)"
saveout 0xD98 %l 0xA
hide.long 0x00 "MPU_RBAR10,MPU Region Base Address Register 10"
hgroup.long 0xDA0++0x03
saveout 0xD98 %l 0xA
hide.long 0x00 "MPU_RASR10,MPU Region Attribute and Size Register 10"
textline "                        "
textline "                        "
endif
if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0xB
group.long 0xD9C++0x03 "Region 11"
saveout 0xD98 %l 0xB
line.long 0x00 "MPU_RBAR11,MPU Region Base Address Register 11"
hexmask.long 0x00 5.--31. 0x20 " ADDR       ,Base address of the region"
group.long 0xDA0++0x03
saveout 0xD98 %l 0xB
line.long 0x00 "MPU_RASR11,MPU Region Attribute and Size Register 11"
bitfld.long 0x00 28. " XN         ,eXecute Never" "Execute,Not execute"
bitfld.long 0x00 24.--26. "      AP        ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-"
bitfld.long 0x00 19.--21. "             TEX      ,Type Extension Field" "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 18. " S          ,Shareable Bit" "Not shareable,Shareable"
bitfld.long 0x00 17. "    C         ,Cacheable Bit" "Not cacheable,Cacheable"
bitfld.long 0x00 16. "         B        ,Bufferable Bit" "Not bufferable,Bufferable"
textline "                        "
bitfld.long 0x00 15. " SRD[7..0]  ,Subregion 7 Disable" "0,1"
bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1"
bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1"
bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1"
bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1"
bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1"
bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1"
bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1"
bitfld.long 0x00 1.--5. "         SIZE      ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB"
bitfld.long 0x00 0. "                ENABLE   ,Enables this region" "Disabled,Enabled"
else
hgroup.long 0xD9C++0x03 "Region 11 (not implemented)"
saveout 0xD98 %l 0xB
hide.long 0x00 "MPU_RBAR11,MPU Region Base Address Register 11"
hgroup.long 0xDA0++0x03
saveout 0xD98 %l 0xB
hide.long 0x00 "MPU_RASR11,MPU Region Attribute and Size Register 11"
textline "                        "
textline "                        "
endif
if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0xC
group.long 0xD9C++0x03 "Region 12"
saveout 0xD98 %l 0xC
line.long 0x00 "MPU_RBAR12,MPU Region Base Address Register 12"
hexmask.long 0x00 5.--31. 0x20 " ADDR       ,Base address of the region"
group.long 0xDA0++0x03
saveout 0xD98 %l 0xC
line.long 0x00 "MPU_RASR12,MPU Region Attribute and Size Register 12"
bitfld.long 0x00 28. " XN         ,eXecute Never" "Execute,Not execute"
bitfld.long 0x00 24.--26. "      AP        ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-"
bitfld.long 0x00 19.--21. "             TEX      ,Type Extension Field" "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 18. " S          ,Shareable Bit" "Not shareable,Shareable"
bitfld.long 0x00 17. "    C         ,Cacheable Bit" "Not cacheable,Cacheable"
bitfld.long 0x00 16. "         B        ,Bufferable Bit" "Not bufferable,Bufferable"
textline "                        "
bitfld.long 0x00 15. " SRD[7..0]  ,Subregion 7 Disable" "0,1"
bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1"
bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1"
bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1"
bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1"
bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1"
bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1"
bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1"
bitfld.long 0x00 1.--5. "         SIZE      ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB"
bitfld.long 0x00 0. "                ENABLE   ,Enables this region" "Disabled,Enabled"
else
hgroup.long 0xD9C++0x03 "Region 12 (not implemented)"
saveout 0xD98 %l 0xC
hide.long 0x00 "MPU_RBAR12,MPU Region Base Address Register 12"
hgroup.long 0xDA0++0x03
saveout 0xD98 %l 0xC
hide.long 0x00 "MPU_RASR12,MPU Region Attribute and Size Register 12"
textline "                        "
textline "                        "
endif
if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0xD
group.long 0xD9C++0x03 "Region 13"
saveout 0xD98 %l 0xD
line.long 0x00 "MPU_RBAR13,MPU Region Base Address Register 13"
hexmask.long 0x00 5.--31. 0x20 " ADDR       ,Base address of the region"
group.long 0xDA0++0x03
saveout 0xD98 %l 0xD
line.long 0x00 "MPU_RASR13,MPU Region Attribute and Size Register 13"
bitfld.long 0x00 28. " XN         ,eXecute Never" "Execute,Not execute"
bitfld.long 0x00 24.--26. "      AP        ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-"
bitfld.long 0x00 19.--21. "             TEX      ,Type Extension Field" "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 18. " S          ,Shareable Bit" "Not shareable,Shareable"
bitfld.long 0x00 17. "    C         ,Cacheable Bit" "Not cacheable,Cacheable"
bitfld.long 0x00 16. "         B        ,Bufferable Bit" "Not bufferable,Bufferable"
textline "                        "
bitfld.long 0x00 15. " SRD[7..0]  ,Subregion 7 Disable" "0,1"
bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1"
bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1"
bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1"
bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1"
bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1"
bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1"
bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1"
bitfld.long 0x00 1.--5. "         SIZE      ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB"
bitfld.long 0x00 0. "                ENABLE   ,Enables this region" "Disabled,Enabled"
else
hgroup.long 0xD9C++0x03 "Region 13 (not implemented)"
saveout 0xD98 %l 0xD
hide.long 0x00 "MPU_RBAR13,MPU Region Base Address Register 13"
hgroup.long 0xDA0++0x03
saveout 0xD98 %l 0xD
hide.long 0x00 "MPU_RASR13,MPU Region Attribute and Size Register 13"
textline "                        "
textline "                        "
endif
if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0xE
group.long 0xD9C++0x03 "Region 14"
saveout 0xD98 %l 0xE
line.long 0x00 "MPU_RBAR14,MPU Region Base Address Register 14"
hexmask.long 0x00 5.--31. 0x20 " ADDR       ,Base address of the region"
group.long 0xDA0++0x03
saveout 0xD98 %l 0xE
line.long 0x00 "MPU_RASR14,MPU Region Attribute and Size Register 14"
bitfld.long 0x00 28. " XN         ,eXecute Never" "Execute,Not execute"
bitfld.long 0x00 24.--26. "      AP        ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-"
bitfld.long 0x00 19.--21. "             TEX      ,Type Extension Field" "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 18. " S          ,Shareable Bit" "Not shareable,Shareable"
bitfld.long 0x00 17. "    C         ,Cacheable Bit" "Not cacheable,Cacheable"
bitfld.long 0x00 16. "         B        ,Bufferable Bit" "Not bufferable,Bufferable"
textline "                        "
bitfld.long 0x00 15. " SRD[7..0]  ,Subregion 7 Disable" "0,1"
bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1"
bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1"
bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1"
bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1"
bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1"
bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1"
bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1"
bitfld.long 0x00 1.--5. "         SIZE      ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB"
bitfld.long 0x00 0. "                ENABLE   ,Enables this region" "Disabled,Enabled"
else
hgroup.long 0xD9C++0x03 "Region 14 (not implemented)"
saveout 0xD98 %l 0xE
hide.long 0x00 "MPU_RBAR14,MPU Region Base Address Register 14"
hgroup.long 0xDA0++0x03
saveout 0xD98 %l 0xE
hide.long 0x00 "MPU_RASR14,MPU Region Attribute and Size Register 14"
textline "                        "
textline "                        "
endif
if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0xF
group.long 0xD9C++0x03 "Region 15"
saveout 0xD98 %l 0xF
line.long 0x00 "MPU_RBAR15,MPU Region Base Address Register 15"
hexmask.long 0x00 5.--31. 0x20 " ADDR       ,Base address of the region"
group.long 0xDA0++0x03
saveout 0xD98 %l 0xF
line.long 0x00 "MPU_RASR15,MPU Region Attribute and Size Register 15"
bitfld.long 0x00 28. " XN         ,eXecute Never" "Execute,Not execute"
bitfld.long 0x00 24.--26. "      AP        ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-"
bitfld.long 0x00 19.--21. "             TEX      ,Type Extension Field" "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 18. " S          ,Shareable Bit" "Not shareable,Shareable"
bitfld.long 0x00 17. "    C         ,Cacheable Bit" "Not cacheable,Cacheable"
bitfld.long 0x00 16. "         B        ,Bufferable Bit" "Not bufferable,Bufferable"
textline "                        "
bitfld.long 0x00 15. " SRD[7..0]  ,Subregion 7 Disable" "0,1"
bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1"
bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1"
bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1"
bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1"
bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1"
bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1"
bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1"
bitfld.long 0x00 1.--5. "         SIZE      ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB"
bitfld.long 0x00 0. "                ENABLE   ,Enables this region" "Disabled,Enabled"
else
hgroup.long 0xD9C++0x03 "Region 15 (not implemented)"
saveout 0xD98 %l 0xF
hide.long 0x00 "MPU_RBAR15,MPU Region Base Address Register 15"
hgroup.long 0xDA0++0x03
saveout 0xD98 %l 0xF
hide.long 0x00 "MPU_RASR15,MPU Region Attribute and Size Register 15"
textline "                        "
textline "                        "
endif
tree.end
width 0x0b
else
newline
textline "COREDEBUG component base address not specified"
newline
endif
tree.end
tree "Nested Vectored Interrupt Controller"
sif COMPonent.AVAILABLE("COREDEBUG")
base CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))
width 6.
rgroup.long 0x04++0x03
line.long 0x00 "ICTR,Interrupt Controller Type Register"
bitfld.long 0x00 0.--3. " INTLINESNUM ,Total Number of Interrupt" "0-32,33-64,65-96,97-128,129-160,161-192,193-224,225-240,?..."
tree "Interrupt Enable Registers"
width 23.
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x00)
group.long 0x100++0x03
line.long 0x00 "IRQ0_31_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " ENA31  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  ENA30  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  ENA29  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 28. 0x00 28. 0x80 28. "  ENA28  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  ENA27  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  ENA26  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " ENA25  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  ENA24  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  ENA23  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 22. 0x00 22. 0x80 22. "  ENA22  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  ENA21  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  ENA20  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " ENA19  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  ENA18  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  ENA17  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 16. 0x00 16. 0x80 16. "  ENA16  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  ENA15  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  ENA14  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " ENA13  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  ENA12  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  ENA11  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 10. 0x00 10. 0x80 10. "  ENA10  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  ENA9   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  ENA8   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " ENA7   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  ENA6   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  ENA5   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 4. 0x00 4. 0x80 4. "  ENA4   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  ENA3   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  ENA2   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " ENA1   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  ENA0   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x01)
group.long 0x100++0x7
line.long 0x00 "IRQ0_31_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " ENA31  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  ENA30  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  ENA29  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 28. 0x00 28. 0x80 28. "  ENA28  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  ENA27  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  ENA26  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " ENA25  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  ENA24  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  ENA23  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 22. 0x00 22. 0x80 22. "  ENA22  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  ENA21  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  ENA20  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " ENA19  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  ENA18  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  ENA17  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 16. 0x00 16. 0x80 16. "  ENA16  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  ENA15  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  ENA14  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " ENA13  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  ENA12  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  ENA11  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 10. 0x00 10. 0x80 10. "  ENA10  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  ENA9   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  ENA8   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " ENA7   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  ENA6   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  ENA5   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 4. 0x00 4. 0x80 4. "  ENA4   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  ENA3   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  ENA2   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " ENA1   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  ENA0   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x04 "IRQ32_63_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x04 31. 0x04 31. 0x84 31. " ENA63  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 30. 0x04 30. 0x84 30. "  ENA62  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 29. 0x04 29. 0x84 29. "  ENA61  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 28. 0x04 28. 0x84 28. "  ENA60  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 27. 0x04 27. 0x84 27. "  ENA59  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 26. 0x04 26. 0x84 26. "  ENA58  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 25. 0x04 25. 0x84 25. " ENA57  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 24. 0x04 24. 0x84 24. "  ENA56  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 23. 0x04 23. 0x84 23. "  ENA55  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 22. 0x04 22. 0x84 22. "  ENA54  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 21. 0x04 21. 0x84 21. "  ENA53  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 20. 0x04 20. 0x84 20. "  ENA52  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 19. 0x04 19. 0x84 19. " ENA51  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 18. 0x04 18. 0x84 18. "  ENA50  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 17. 0x04 17. 0x84 17. "  ENA49  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 16. 0x04 16. 0x84 16. "  ENA48  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 15. 0x04 15. 0x84 15. "  ENA47  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 14. 0x04 14. 0x84 14. "  ENA46  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 13. 0x04 13. 0x84 13. " ENA45  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 12. 0x04 12. 0x84 12. "  ENA44  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 11. 0x04 11. 0x84 11. "  ENA43  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 10. 0x04 10. 0x84 10. "  ENA42  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 9. 0x04 9. 0x84 9. "  ENA41  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 8. 0x04 8. 0x84 8. "  ENA40  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 7. 0x04 7. 0x84 7. " ENA39  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 6. 0x04 6. 0x84 6. "  ENA38  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 5. 0x04 5. 0x84 5. "  ENA37  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 4. 0x04 4. 0x84 4. "  ENA36  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 3. 0x04 3. 0x84 3. "  ENA35  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 2. 0x04 2. 0x84 2. "  ENA34  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 1. 0x04 1. 0x84 1. " ENA33  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 0. 0x04 0. 0x84 0. "  ENA32  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x02)
group.long 0x100++0x0B
line.long 0x00 "IRQ0_31_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " ENA31  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  ENA30  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  ENA29  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 28. 0x00 28. 0x80 28. "  ENA28  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  ENA27  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  ENA26  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " ENA25  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  ENA24  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  ENA23  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 22. 0x00 22. 0x80 22. "  ENA22  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  ENA21  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  ENA20  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " ENA19  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  ENA18  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  ENA17  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 16. 0x00 16. 0x80 16. "  ENA16  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  ENA15  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  ENA14  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " ENA13  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  ENA12  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  ENA11  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 10. 0x00 10. 0x80 10. "  ENA10  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  ENA9   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  ENA8   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " ENA7   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  ENA6   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  ENA5   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 4. 0x00 4. 0x80 4. "  ENA4   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  ENA3   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  ENA2   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " ENA1   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  ENA0   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x04 "IRQ32_63_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x04 31. 0x04 31. 0x84 31. " ENA63  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 30. 0x04 30. 0x84 30. "  ENA62  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 29. 0x04 29. 0x84 29. "  ENA61  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 28. 0x04 28. 0x84 28. "  ENA60  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 27. 0x04 27. 0x84 27. "  ENA59  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 26. 0x04 26. 0x84 26. "  ENA58  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 25. 0x04 25. 0x84 25. " ENA57  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 24. 0x04 24. 0x84 24. "  ENA56  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 23. 0x04 23. 0x84 23. "  ENA55  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 22. 0x04 22. 0x84 22. "  ENA54  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 21. 0x04 21. 0x84 21. "  ENA53  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 20. 0x04 20. 0x84 20. "  ENA52  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 19. 0x04 19. 0x84 19. " ENA51  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 18. 0x04 18. 0x84 18. "  ENA50  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 17. 0x04 17. 0x84 17. "  ENA49  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 16. 0x04 16. 0x84 16. "  ENA48  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 15. 0x04 15. 0x84 15. "  ENA47  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 14. 0x04 14. 0x84 14. "  ENA46  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 13. 0x04 13. 0x84 13. " ENA45  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 12. 0x04 12. 0x84 12. "  ENA44  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 11. 0x04 11. 0x84 11. "  ENA43  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 10. 0x04 10. 0x84 10. "  ENA42  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 9. 0x04 9. 0x84 9. "  ENA41  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 8. 0x04 8. 0x84 8. "  ENA40  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 7. 0x04 7. 0x84 7. " ENA39  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 6. 0x04 6. 0x84 6. "  ENA38  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 5. 0x04 5. 0x84 5. "  ENA37  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 4. 0x04 4. 0x84 4. "  ENA36  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 3. 0x04 3. 0x84 3. "  ENA35  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 2. 0x04 2. 0x84 2. "  ENA34  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 1. 0x04 1. 0x84 1. " ENA33  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 0. 0x04 0. 0x84 0. "  ENA32  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x08 "IRQ64_95_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x08 31. 0x08 31. 0x88 31. " ENA95  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 30. 0x08 30. 0x88 30. "  ENA94  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 29. 0x08 29. 0x88 29. "  ENA93  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 28. 0x08 28. 0x88 28. "  ENA92  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 27. 0x08 27. 0x88 27. "  ENA91  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 26. 0x08 26. 0x88 26. "  ENA90  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x08 25. 0x08 25. 0x88 25. " ENA89  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 24. 0x08 24. 0x88 24. "  ENA88  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 23. 0x08 23. 0x88 23. "  ENA87  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 22. 0x08 22. 0x88 22. "  ENA86  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 21. 0x08 21. 0x88 21. "  ENA85  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 20. 0x08 20. 0x88 20. "  ENA84  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x08 19. 0x08 19. 0x88 19. " ENA83  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 18. 0x08 18. 0x88 18. "  ENA82  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 17. 0x08 17. 0x88 17. "  ENA81  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 16. 0x08 16. 0x88 16. "  ENA80  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 15. 0x08 15. 0x88 15. "  ENA79  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 14. 0x08 14. 0x88 14. "  ENA78  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x08 13. 0x08 13. 0x88 13. " ENA77  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 12. 0x08 12. 0x88 12. "  ENA76  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 11. 0x08 11. 0x88 11. "  ENA75  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 10. 0x08 10. 0x88 10. "  ENA74  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 9. 0x08 9. 0x88 9. "  ENA73  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 8. 0x08 8. 0x88 8. "  ENA72  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x08 7. 0x08 7. 0x88 7. " ENA71  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 6. 0x08 6. 0x88 6. "  ENA70  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 5. 0x08 5. 0x88 5. "  ENA69  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 4. 0x08 4. 0x88 4. "  ENA68  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 3. 0x08 3. 0x88 3. "  ENA67  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 2. 0x08 2. 0x88 2. "  ENA66  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x08 1. 0x08 1. 0x88 1. " ENA65  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 0. 0x08 0. 0x88 0. "  ENA64  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x03)
group.long 0x100++0x0F
line.long 0x00 "IRQ0_31_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " ENA31  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  ENA30  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  ENA29  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 28. 0x00 28. 0x80 28. "  ENA28  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  ENA27  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  ENA26  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " ENA25  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  ENA24  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  ENA23  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 22. 0x00 22. 0x80 22. "  ENA22  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  ENA21  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  ENA20  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " ENA19  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  ENA18  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  ENA17  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 16. 0x00 16. 0x80 16. "  ENA16  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  ENA15  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  ENA14  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " ENA13  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  ENA12  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  ENA11  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 10. 0x00 10. 0x80 10. "  ENA10  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  ENA9   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  ENA8   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " ENA7   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  ENA6   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  ENA5   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 4. 0x00 4. 0x80 4. "  ENA4   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  ENA3   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  ENA2   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " ENA1   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  ENA0   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x04 "IRQ32_63_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x04 31. 0x04 31. 0x84 31. " ENA63  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 30. 0x04 30. 0x84 30. "  ENA62  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 29. 0x04 29. 0x84 29. "  ENA61  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 28. 0x04 28. 0x84 28. "  ENA60  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 27. 0x04 27. 0x84 27. "  ENA59  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 26. 0x04 26. 0x84 26. "  ENA58  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 25. 0x04 25. 0x84 25. " ENA57  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 24. 0x04 24. 0x84 24. "  ENA56  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 23. 0x04 23. 0x84 23. "  ENA55  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 22. 0x04 22. 0x84 22. "  ENA54  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 21. 0x04 21. 0x84 21. "  ENA53  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 20. 0x04 20. 0x84 20. "  ENA52  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 19. 0x04 19. 0x84 19. " ENA51  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 18. 0x04 18. 0x84 18. "  ENA50  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 17. 0x04 17. 0x84 17. "  ENA49  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 16. 0x04 16. 0x84 16. "  ENA48  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 15. 0x04 15. 0x84 15. "  ENA47  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 14. 0x04 14. 0x84 14. "  ENA46  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 13. 0x04 13. 0x84 13. " ENA45  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 12. 0x04 12. 0x84 12. "  ENA44  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 11. 0x04 11. 0x84 11. "  ENA43  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 10. 0x04 10. 0x84 10. "  ENA42  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 9. 0x04 9. 0x84 9. "  ENA41  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 8. 0x04 8. 0x84 8. "  ENA40  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 7. 0x04 7. 0x84 7. " ENA39  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 6. 0x04 6. 0x84 6. "  ENA38  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 5. 0x04 5. 0x84 5. "  ENA37  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 4. 0x04 4. 0x84 4. "  ENA36  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 3. 0x04 3. 0x84 3. "  ENA35  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 2. 0x04 2. 0x84 2. "  ENA34  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 1. 0x04 1. 0x84 1. " ENA33  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 0. 0x04 0. 0x84 0. "  ENA32  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x08 "IRQ64_95_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x08 31. 0x08 31. 0x88 31. " ENA95  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 30. 0x08 30. 0x88 30. "  ENA94  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 29. 0x08 29. 0x88 29. "  ENA93  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 28. 0x08 28. 0x88 28. "  ENA92  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 27. 0x08 27. 0x88 27. "  ENA91  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 26. 0x08 26. 0x88 26. "  ENA90  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x08 25. 0x08 25. 0x88 25. " ENA89  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 24. 0x08 24. 0x88 24. "  ENA88  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 23. 0x08 23. 0x88 23. "  ENA87  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 22. 0x08 22. 0x88 22. "  ENA86  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 21. 0x08 21. 0x88 21. "  ENA85  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 20. 0x08 20. 0x88 20. "  ENA84  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x08 19. 0x08 19. 0x88 19. " ENA83  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 18. 0x08 18. 0x88 18. "  ENA82  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 17. 0x08 17. 0x88 17. "  ENA81  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 16. 0x08 16. 0x88 16. "  ENA80  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 15. 0x08 15. 0x88 15. "  ENA79  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 14. 0x08 14. 0x88 14. "  ENA78  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x08 13. 0x08 13. 0x88 13. " ENA77  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 12. 0x08 12. 0x88 12. "  ENA76  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 11. 0x08 11. 0x88 11. "  ENA75  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 10. 0x08 10. 0x88 10. "  ENA74  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 9. 0x08 9. 0x88 9. "  ENA73  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 8. 0x08 8. 0x88 8. "  ENA72  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x08 7. 0x08 7. 0x88 7. " ENA71  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 6. 0x08 6. 0x88 6. "  ENA70  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 5. 0x08 5. 0x88 5. "  ENA69  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 4. 0x08 4. 0x88 4. "  ENA68  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 3. 0x08 3. 0x88 3. "  ENA67  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 2. 0x08 2. 0x88 2. "  ENA66  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x08 1. 0x08 1. 0x88 1. " ENA65  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 0. 0x08 0. 0x88 0. "  ENA64  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x0c "IRQ96_127_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x0c 31. 0x0c 31. 0x8c 31. " ENA127 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 30. 0x0c 30. 0x8c 30. "  ENA126 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 29. 0x0c 29. 0x8c 29. "  ENA125 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 28. 0x0c 28. 0x8c 28. "  ENA124 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 27. 0x0c 27. 0x8c 27. "  ENA123 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 26. 0x0c 26. 0x8c 26. "  ENA122 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x0c 25. 0x0c 25. 0x8c 25. " ENA121 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 24. 0x0c 24. 0x8c 24. "  ENA120 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 23. 0x0c 23. 0x8c 23. "  ENA119 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 22. 0x0c 22. 0x8c 22. "  ENA118 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 21. 0x0c 21. 0x8c 21. "  ENA117 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 20. 0x0c 20. 0x8c 20. "  ENA116 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x0c 19. 0x0c 19. 0x8c 19. " ENA115 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 18. 0x0c 18. 0x8c 18. "  ENA114 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 17. 0x0c 17. 0x8c 17. "  ENA113 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 16. 0x0c 16. 0x8c 16. "  ENA112 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 15. 0x0c 15. 0x8c 15. "  ENA111 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 14. 0x0c 14. 0x8c 14. "  ENA110 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x0c 13. 0x0c 13. 0x8c 13. " ENA109 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 12. 0x0c 12. 0x8c 12. "  ENA108 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 11. 0x0c 11. 0x8c 11. "  ENA107 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 10. 0x0c 10. 0x8c 10. "  ENA106 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 9. 0x0c 9. 0x8c 9. "  ENA105 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 8. 0x0c 8. 0x8c 8. "  ENA104 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x0c 7. 0x0c 7. 0x8c 7. " ENA103 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 6. 0x0c 6. 0x8c 6. "  ENA102 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 5. 0x0c 5. 0x8c 5. "  ENA101 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 4. 0x0c 4. 0x8c 4. "  ENA100 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 3. 0x0c 3. 0x8c 3. "  ENA99  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 2. 0x0c 2. 0x8c 2. "  ENA98  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x0c 1. 0x0c 1. 0x8c 1. " ENA97  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 0. 0x0c 0. 0x8c 0. "  ENA96  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x04)
group.long 0x100++0x13
line.long 0x00 "IRQ0_31_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " ENA31  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  ENA30  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  ENA29  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 28. 0x00 28. 0x80 28. "  ENA28  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  ENA27  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  ENA26  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " ENA25  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  ENA24  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  ENA23  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 22. 0x00 22. 0x80 22. "  ENA22  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  ENA21  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  ENA20  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " ENA19  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  ENA18  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  ENA17  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 16. 0x00 16. 0x80 16. "  ENA16  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  ENA15  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  ENA14  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " ENA13  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  ENA12  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  ENA11  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 10. 0x00 10. 0x80 10. "  ENA10  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  ENA9   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  ENA8   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " ENA7   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  ENA6   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  ENA5   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 4. 0x00 4. 0x80 4. "  ENA4   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  ENA3   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  ENA2   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " ENA1   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  ENA0   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x04 "IRQ32_63_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x04 31. 0x04 31. 0x84 31. " ENA63  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 30. 0x04 30. 0x84 30. "  ENA62  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 29. 0x04 29. 0x84 29. "  ENA61  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 28. 0x04 28. 0x84 28. "  ENA60  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 27. 0x04 27. 0x84 27. "  ENA59  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 26. 0x04 26. 0x84 26. "  ENA58  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 25. 0x04 25. 0x84 25. " ENA57  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 24. 0x04 24. 0x84 24. "  ENA56  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 23. 0x04 23. 0x84 23. "  ENA55  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 22. 0x04 22. 0x84 22. "  ENA54  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 21. 0x04 21. 0x84 21. "  ENA53  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 20. 0x04 20. 0x84 20. "  ENA52  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 19. 0x04 19. 0x84 19. " ENA51  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 18. 0x04 18. 0x84 18. "  ENA50  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 17. 0x04 17. 0x84 17. "  ENA49  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 16. 0x04 16. 0x84 16. "  ENA48  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 15. 0x04 15. 0x84 15. "  ENA47  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 14. 0x04 14. 0x84 14. "  ENA46  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 13. 0x04 13. 0x84 13. " ENA45  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 12. 0x04 12. 0x84 12. "  ENA44  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 11. 0x04 11. 0x84 11. "  ENA43  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 10. 0x04 10. 0x84 10. "  ENA42  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 9. 0x04 9. 0x84 9. "  ENA41  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 8. 0x04 8. 0x84 8. "  ENA40  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 7. 0x04 7. 0x84 7. " ENA39  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 6. 0x04 6. 0x84 6. "  ENA38  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 5. 0x04 5. 0x84 5. "  ENA37  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 4. 0x04 4. 0x84 4. "  ENA36  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 3. 0x04 3. 0x84 3. "  ENA35  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 2. 0x04 2. 0x84 2. "  ENA34  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 1. 0x04 1. 0x84 1. " ENA33  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 0. 0x04 0. 0x84 0. "  ENA32  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x08 "IRQ64_95_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x08 31. 0x08 31. 0x88 31. " ENA95  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 30. 0x08 30. 0x88 30. "  ENA94  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 29. 0x08 29. 0x88 29. "  ENA93  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 28. 0x08 28. 0x88 28. "  ENA92  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 27. 0x08 27. 0x88 27. "  ENA91  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 26. 0x08 26. 0x88 26. "  ENA90  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x08 25. 0x08 25. 0x88 25. " ENA89  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 24. 0x08 24. 0x88 24. "  ENA88  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 23. 0x08 23. 0x88 23. "  ENA87  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 22. 0x08 22. 0x88 22. "  ENA86  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 21. 0x08 21. 0x88 21. "  ENA85  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 20. 0x08 20. 0x88 20. "  ENA84  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x08 19. 0x08 19. 0x88 19. " ENA83  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 18. 0x08 18. 0x88 18. "  ENA82  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 17. 0x08 17. 0x88 17. "  ENA81  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 16. 0x08 16. 0x88 16. "  ENA80  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 15. 0x08 15. 0x88 15. "  ENA79  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 14. 0x08 14. 0x88 14. "  ENA78  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x08 13. 0x08 13. 0x88 13. " ENA77  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 12. 0x08 12. 0x88 12. "  ENA76  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 11. 0x08 11. 0x88 11. "  ENA75  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 10. 0x08 10. 0x88 10. "  ENA74  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 9. 0x08 9. 0x88 9. "  ENA73  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 8. 0x08 8. 0x88 8. "  ENA72  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x08 7. 0x08 7. 0x88 7. " ENA71  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 6. 0x08 6. 0x88 6. "  ENA70  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 5. 0x08 5. 0x88 5. "  ENA69  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 4. 0x08 4. 0x88 4. "  ENA68  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 3. 0x08 3. 0x88 3. "  ENA67  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 2. 0x08 2. 0x88 2. "  ENA66  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x08 1. 0x08 1. 0x88 1. " ENA65  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 0. 0x08 0. 0x88 0. "  ENA64  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x0c "IRQ96_127_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x0c 31. 0x0c 31. 0x8c 31. " ENA127 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 30. 0x0c 30. 0x8c 30. "  ENA126 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 29. 0x0c 29. 0x8c 29. "  ENA125 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 28. 0x0c 28. 0x8c 28. "  ENA124 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 27. 0x0c 27. 0x8c 27. "  ENA123 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 26. 0x0c 26. 0x8c 26. "  ENA122 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x0c 25. 0x0c 25. 0x8c 25. " ENA121 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 24. 0x0c 24. 0x8c 24. "  ENA120 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 23. 0x0c 23. 0x8c 23. "  ENA119 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 22. 0x0c 22. 0x8c 22. "  ENA118 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 21. 0x0c 21. 0x8c 21. "  ENA117 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 20. 0x0c 20. 0x8c 20. "  ENA116 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x0c 19. 0x0c 19. 0x8c 19. " ENA115 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 18. 0x0c 18. 0x8c 18. "  ENA114 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 17. 0x0c 17. 0x8c 17. "  ENA113 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 16. 0x0c 16. 0x8c 16. "  ENA112 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 15. 0x0c 15. 0x8c 15. "  ENA111 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 14. 0x0c 14. 0x8c 14. "  ENA110 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x0c 13. 0x0c 13. 0x8c 13. " ENA109 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 12. 0x0c 12. 0x8c 12. "  ENA108 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 11. 0x0c 11. 0x8c 11. "  ENA107 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 10. 0x0c 10. 0x8c 10. "  ENA106 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 9. 0x0c 9. 0x8c 9. "  ENA105 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 8. 0x0c 8. 0x8c 8. "  ENA104 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x0c 7. 0x0c 7. 0x8c 7. " ENA103 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 6. 0x0c 6. 0x8c 6. "  ENA102 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 5. 0x0c 5. 0x8c 5. "  ENA101 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 4. 0x0c 4. 0x8c 4. "  ENA100 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 3. 0x0c 3. 0x8c 3. "  ENA99  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 2. 0x0c 2. 0x8c 2. "  ENA98  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x0c 1. 0x0c 1. 0x8c 1. " ENA97  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 0. 0x0c 0. 0x8c 0. "  ENA96  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x10 "IRQ128_159_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x10 31. 0x10 31. 0x90 31. " ENA159 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 30. 0x10 30. 0x90 30. "  ENA158 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 29. 0x10 29. 0x90 29. "  ENA157 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 28. 0x10 28. 0x90 28. "  ENA156 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 27. 0x10 27. 0x90 27. "  ENA155 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 26. 0x10 26. 0x90 26. "  ENA154 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x10 25. 0x10 25. 0x90 25. " ENA153 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 24. 0x10 24. 0x90 24. "  ENA152 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 23. 0x10 23. 0x90 23. "  ENA151 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 22. 0x10 22. 0x90 22. "  ENA150 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 21. 0x10 21. 0x90 21. "  ENA149 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 20. 0x10 20. 0x90 20. "  ENA148 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x10 19. 0x10 19. 0x90 19. " ENA147 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 18. 0x10 18. 0x90 18. "  ENA146 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 17. 0x10 17. 0x90 17. "  ENA145 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 16. 0x10 16. 0x90 16. "  ENA144 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 15. 0x10 15. 0x90 15. "  ENA143 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 14. 0x10 14. 0x90 14. "  ENA142 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x10 13. 0x10 13. 0x90 13. " ENA141 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 12. 0x10 12. 0x90 12. "  ENA140 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 11. 0x10 11. 0x90 11. "  ENA139 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 10. 0x10 10. 0x90 10. "  ENA138 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 9. 0x10 9. 0x90 9. "  ENA137 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 8. 0x10 8. 0x90 8. "  ENA136 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x10 7. 0x10 7. 0x90 7. " ENA135 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 6. 0x10 6. 0x90 6. "  ENA134 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 5. 0x10 5. 0x90 5. "  ENA133 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 4. 0x10 4. 0x90 4. "  ENA132 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 3. 0x10 3. 0x90 3. "  ENA131 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 2. 0x10 2. 0x90 2. "  ENA130 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x10 1. 0x10 1. 0x90 1. " ENA129 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 0. 0x10 0. 0x90 0. "  ENA128 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x05)
group.long 0x100++0x17
line.long 0x00 "IRQ0_31_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " ENA31  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  ENA30  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  ENA29  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 28. 0x00 28. 0x80 28. "  ENA28  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  ENA27  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  ENA26  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " ENA25  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  ENA24  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  ENA23  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 22. 0x00 22. 0x80 22. "  ENA22  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  ENA21  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  ENA20  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " ENA19  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  ENA18  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  ENA17  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 16. 0x00 16. 0x80 16. "  ENA16  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  ENA15  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  ENA14  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " ENA13  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  ENA12  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  ENA11  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 10. 0x00 10. 0x80 10. "  ENA10  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  ENA9   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  ENA8   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " ENA7   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  ENA6   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  ENA5   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 4. 0x00 4. 0x80 4. "  ENA4   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  ENA3   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  ENA2   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " ENA1   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  ENA0   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x04 "IRQ32_63_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x04 31. 0x04 31. 0x84 31. " ENA63  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 30. 0x04 30. 0x84 30. "  ENA62  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 29. 0x04 29. 0x84 29. "  ENA61  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 28. 0x04 28. 0x84 28. "  ENA60  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 27. 0x04 27. 0x84 27. "  ENA59  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 26. 0x04 26. 0x84 26. "  ENA58  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 25. 0x04 25. 0x84 25. " ENA57  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 24. 0x04 24. 0x84 24. "  ENA56  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 23. 0x04 23. 0x84 23. "  ENA55  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 22. 0x04 22. 0x84 22. "  ENA54  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 21. 0x04 21. 0x84 21. "  ENA53  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 20. 0x04 20. 0x84 20. "  ENA52  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 19. 0x04 19. 0x84 19. " ENA51  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 18. 0x04 18. 0x84 18. "  ENA50  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 17. 0x04 17. 0x84 17. "  ENA49  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 16. 0x04 16. 0x84 16. "  ENA48  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 15. 0x04 15. 0x84 15. "  ENA47  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 14. 0x04 14. 0x84 14. "  ENA46  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 13. 0x04 13. 0x84 13. " ENA45  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 12. 0x04 12. 0x84 12. "  ENA44  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 11. 0x04 11. 0x84 11. "  ENA43  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 10. 0x04 10. 0x84 10. "  ENA42  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 9. 0x04 9. 0x84 9. "  ENA41  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 8. 0x04 8. 0x84 8. "  ENA40  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 7. 0x04 7. 0x84 7. " ENA39  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 6. 0x04 6. 0x84 6. "  ENA38  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 5. 0x04 5. 0x84 5. "  ENA37  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 4. 0x04 4. 0x84 4. "  ENA36  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 3. 0x04 3. 0x84 3. "  ENA35  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 2. 0x04 2. 0x84 2. "  ENA34  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 1. 0x04 1. 0x84 1. " ENA33  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 0. 0x04 0. 0x84 0. "  ENA32  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x08 "IRQ64_95_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x08 31. 0x08 31. 0x88 31. " ENA95  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 30. 0x08 30. 0x88 30. "  ENA94  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 29. 0x08 29. 0x88 29. "  ENA93  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 28. 0x08 28. 0x88 28. "  ENA92  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 27. 0x08 27. 0x88 27. "  ENA91  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 26. 0x08 26. 0x88 26. "  ENA90  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x08 25. 0x08 25. 0x88 25. " ENA89  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 24. 0x08 24. 0x88 24. "  ENA88  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 23. 0x08 23. 0x88 23. "  ENA87  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 22. 0x08 22. 0x88 22. "  ENA86  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 21. 0x08 21. 0x88 21. "  ENA85  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 20. 0x08 20. 0x88 20. "  ENA84  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x08 19. 0x08 19. 0x88 19. " ENA83  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 18. 0x08 18. 0x88 18. "  ENA82  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 17. 0x08 17. 0x88 17. "  ENA81  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 16. 0x08 16. 0x88 16. "  ENA80  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 15. 0x08 15. 0x88 15. "  ENA79  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 14. 0x08 14. 0x88 14. "  ENA78  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x08 13. 0x08 13. 0x88 13. " ENA77  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 12. 0x08 12. 0x88 12. "  ENA76  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 11. 0x08 11. 0x88 11. "  ENA75  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 10. 0x08 10. 0x88 10. "  ENA74  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 9. 0x08 9. 0x88 9. "  ENA73  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 8. 0x08 8. 0x88 8. "  ENA72  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x08 7. 0x08 7. 0x88 7. " ENA71  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 6. 0x08 6. 0x88 6. "  ENA70  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 5. 0x08 5. 0x88 5. "  ENA69  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 4. 0x08 4. 0x88 4. "  ENA68  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 3. 0x08 3. 0x88 3. "  ENA67  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 2. 0x08 2. 0x88 2. "  ENA66  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x08 1. 0x08 1. 0x88 1. " ENA65  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 0. 0x08 0. 0x88 0. "  ENA64  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x0c "IRQ96_127_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x0c 31. 0x0c 31. 0x8c 31. " ENA127 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 30. 0x0c 30. 0x8c 30. "  ENA126 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 29. 0x0c 29. 0x8c 29. "  ENA125 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 28. 0x0c 28. 0x8c 28. "  ENA124 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 27. 0x0c 27. 0x8c 27. "  ENA123 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 26. 0x0c 26. 0x8c 26. "  ENA122 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x0c 25. 0x0c 25. 0x8c 25. " ENA121 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 24. 0x0c 24. 0x8c 24. "  ENA120 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 23. 0x0c 23. 0x8c 23. "  ENA119 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 22. 0x0c 22. 0x8c 22. "  ENA118 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 21. 0x0c 21. 0x8c 21. "  ENA117 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 20. 0x0c 20. 0x8c 20. "  ENA116 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x0c 19. 0x0c 19. 0x8c 19. " ENA115 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 18. 0x0c 18. 0x8c 18. "  ENA114 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 17. 0x0c 17. 0x8c 17. "  ENA113 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 16. 0x0c 16. 0x8c 16. "  ENA112 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 15. 0x0c 15. 0x8c 15. "  ENA111 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 14. 0x0c 14. 0x8c 14. "  ENA110 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x0c 13. 0x0c 13. 0x8c 13. " ENA109 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 12. 0x0c 12. 0x8c 12. "  ENA108 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 11. 0x0c 11. 0x8c 11. "  ENA107 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 10. 0x0c 10. 0x8c 10. "  ENA106 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 9. 0x0c 9. 0x8c 9. "  ENA105 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 8. 0x0c 8. 0x8c 8. "  ENA104 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x0c 7. 0x0c 7. 0x8c 7. " ENA103 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 6. 0x0c 6. 0x8c 6. "  ENA102 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 5. 0x0c 5. 0x8c 5. "  ENA101 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 4. 0x0c 4. 0x8c 4. "  ENA100 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 3. 0x0c 3. 0x8c 3. "  ENA99  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 2. 0x0c 2. 0x8c 2. "  ENA98  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x0c 1. 0x0c 1. 0x8c 1. " ENA97  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 0. 0x0c 0. 0x8c 0. "  ENA96  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x10 "IRQ128_159_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x10 31. 0x10 31. 0x90 31. " ENA159 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 30. 0x10 30. 0x90 30. "  ENA158 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 29. 0x10 29. 0x90 29. "  ENA157 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 28. 0x10 28. 0x90 28. "  ENA156 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 27. 0x10 27. 0x90 27. "  ENA155 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 26. 0x10 26. 0x90 26. "  ENA154 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x10 25. 0x10 25. 0x90 25. " ENA153 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 24. 0x10 24. 0x90 24. "  ENA152 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 23. 0x10 23. 0x90 23. "  ENA151 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 22. 0x10 22. 0x90 22. "  ENA150 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 21. 0x10 21. 0x90 21. "  ENA149 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 20. 0x10 20. 0x90 20. "  ENA148 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x10 19. 0x10 19. 0x90 19. " ENA147 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 18. 0x10 18. 0x90 18. "  ENA146 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 17. 0x10 17. 0x90 17. "  ENA145 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 16. 0x10 16. 0x90 16. "  ENA144 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 15. 0x10 15. 0x90 15. "  ENA143 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 14. 0x10 14. 0x90 14. "  ENA142 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x10 13. 0x10 13. 0x90 13. " ENA141 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 12. 0x10 12. 0x90 12. "  ENA140 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 11. 0x10 11. 0x90 11. "  ENA139 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 10. 0x10 10. 0x90 10. "  ENA138 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 9. 0x10 9. 0x90 9. "  ENA137 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 8. 0x10 8. 0x90 8. "  ENA136 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x10 7. 0x10 7. 0x90 7. " ENA135 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 6. 0x10 6. 0x90 6. "  ENA134 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 5. 0x10 5. 0x90 5. "  ENA133 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 4. 0x10 4. 0x90 4. "  ENA132 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 3. 0x10 3. 0x90 3. "  ENA131 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 2. 0x10 2. 0x90 2. "  ENA130 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x10 1. 0x10 1. 0x90 1. " ENA129 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 0. 0x10 0. 0x90 0. "  ENA128 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x14 "IRQ160_191_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x14 31. 0x14 31. 0x94 31. " ENA191 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 30. 0x14 30. 0x94 30. "  ENA190 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 29. 0x14 29. 0x94 29. "  ENA189 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 28. 0x14 28. 0x94 28. "  ENA188 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 27. 0x14 27. 0x94 27. "  ENA187 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 26. 0x14 26. 0x94 26. "  ENA186 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x14 25. 0x14 25. 0x94 25. " ENA185 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 24. 0x14 24. 0x94 24. "  ENA184 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 23. 0x14 23. 0x94 23. "  ENA183 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 22. 0x14 22. 0x94 22. "  ENA182 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 21. 0x14 21. 0x94 21. "  ENA181 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 20. 0x14 20. 0x94 20. "  ENA180 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x14 19. 0x14 19. 0x94 19. " ENA179 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 18. 0x14 18. 0x94 18. "  ENA178 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 17. 0x14 17. 0x94 17. "  ENA177 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 16. 0x14 16. 0x94 16. "  ENA176 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 15. 0x14 15. 0x94 15. "  ENA175 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 14. 0x14 14. 0x94 14. "  ENA174 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x14 13. 0x14 13. 0x94 13. " ENA173 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 12. 0x14 12. 0x94 12. "  ENA172 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 11. 0x14 11. 0x94 11. "  ENA171 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 10. 0x14 10. 0x94 10. "  ENA170 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 9. 0x14 9. 0x94 9. "  ENA169 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 8. 0x14 8. 0x94 8. "  ENA168 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x14 7. 0x14 7. 0x94 7. " ENA167 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 6. 0x14 6. 0x94 6. "  ENA166 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 5. 0x14 5. 0x94 5. "  ENA165 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 4. 0x14 4. 0x94 4. "  ENA164 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 3. 0x14 3. 0x94 3. "  ENA163 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 2. 0x14 2. 0x94 2. "  ENA162 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x14 1. 0x14 1. 0x94 1. " ENA161 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 0. 0x14 0. 0x94 0. "  ENA160 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x06)
group.long 0x100++0x1B
line.long 0x00 "IRQ0_31_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " ENA31  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  ENA30  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  ENA29  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 28. 0x00 28. 0x80 28. "  ENA28  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  ENA27  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  ENA26  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " ENA25  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  ENA24  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  ENA23  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 22. 0x00 22. 0x80 22. "  ENA22  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  ENA21  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  ENA20  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " ENA19  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  ENA18  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  ENA17  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 16. 0x00 16. 0x80 16. "  ENA16  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  ENA15  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  ENA14  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " ENA13  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  ENA12  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  ENA11  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 10. 0x00 10. 0x80 10. "  ENA10  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  ENA9   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  ENA8   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " ENA7   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  ENA6   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  ENA5   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 4. 0x00 4. 0x80 4. "  ENA4   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  ENA3   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  ENA2   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " ENA1   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  ENA0   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x04 "IRQ32_63_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x04 31. 0x04 31. 0x84 31. " ENA63  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 30. 0x04 30. 0x84 30. "  ENA62  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 29. 0x04 29. 0x84 29. "  ENA61  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 28. 0x04 28. 0x84 28. "  ENA60  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 27. 0x04 27. 0x84 27. "  ENA59  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 26. 0x04 26. 0x84 26. "  ENA58  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 25. 0x04 25. 0x84 25. " ENA57  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 24. 0x04 24. 0x84 24. "  ENA56  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 23. 0x04 23. 0x84 23. "  ENA55  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 22. 0x04 22. 0x84 22. "  ENA54  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 21. 0x04 21. 0x84 21. "  ENA53  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 20. 0x04 20. 0x84 20. "  ENA52  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 19. 0x04 19. 0x84 19. " ENA51  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 18. 0x04 18. 0x84 18. "  ENA50  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 17. 0x04 17. 0x84 17. "  ENA49  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 16. 0x04 16. 0x84 16. "  ENA48  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 15. 0x04 15. 0x84 15. "  ENA47  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 14. 0x04 14. 0x84 14. "  ENA46  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 13. 0x04 13. 0x84 13. " ENA45  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 12. 0x04 12. 0x84 12. "  ENA44  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 11. 0x04 11. 0x84 11. "  ENA43  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 10. 0x04 10. 0x84 10. "  ENA42  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 9. 0x04 9. 0x84 9. "  ENA41  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 8. 0x04 8. 0x84 8. "  ENA40  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 7. 0x04 7. 0x84 7. " ENA39  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 6. 0x04 6. 0x84 6. "  ENA38  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 5. 0x04 5. 0x84 5. "  ENA37  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 4. 0x04 4. 0x84 4. "  ENA36  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 3. 0x04 3. 0x84 3. "  ENA35  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 2. 0x04 2. 0x84 2. "  ENA34  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 1. 0x04 1. 0x84 1. " ENA33  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 0. 0x04 0. 0x84 0. "  ENA32  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x08 "IRQ64_95_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x08 31. 0x08 31. 0x88 31. " ENA95  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 30. 0x08 30. 0x88 30. "  ENA94  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 29. 0x08 29. 0x88 29. "  ENA93  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 28. 0x08 28. 0x88 28. "  ENA92  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 27. 0x08 27. 0x88 27. "  ENA91  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 26. 0x08 26. 0x88 26. "  ENA90  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x08 25. 0x08 25. 0x88 25. " ENA89  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 24. 0x08 24. 0x88 24. "  ENA88  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 23. 0x08 23. 0x88 23. "  ENA87  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 22. 0x08 22. 0x88 22. "  ENA86  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 21. 0x08 21. 0x88 21. "  ENA85  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 20. 0x08 20. 0x88 20. "  ENA84  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x08 19. 0x08 19. 0x88 19. " ENA83  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 18. 0x08 18. 0x88 18. "  ENA82  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 17. 0x08 17. 0x88 17. "  ENA81  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 16. 0x08 16. 0x88 16. "  ENA80  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 15. 0x08 15. 0x88 15. "  ENA79  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 14. 0x08 14. 0x88 14. "  ENA78  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x08 13. 0x08 13. 0x88 13. " ENA77  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 12. 0x08 12. 0x88 12. "  ENA76  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 11. 0x08 11. 0x88 11. "  ENA75  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 10. 0x08 10. 0x88 10. "  ENA74  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 9. 0x08 9. 0x88 9. "  ENA73  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 8. 0x08 8. 0x88 8. "  ENA72  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x08 7. 0x08 7. 0x88 7. " ENA71  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 6. 0x08 6. 0x88 6. "  ENA70  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 5. 0x08 5. 0x88 5. "  ENA69  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 4. 0x08 4. 0x88 4. "  ENA68  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 3. 0x08 3. 0x88 3. "  ENA67  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 2. 0x08 2. 0x88 2. "  ENA66  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x08 1. 0x08 1. 0x88 1. " ENA65  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 0. 0x08 0. 0x88 0. "  ENA64  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x0c "IRQ96_127_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x0c 31. 0x0c 31. 0x8c 31. " ENA127 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 30. 0x0c 30. 0x8c 30. "  ENA126 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 29. 0x0c 29. 0x8c 29. "  ENA125 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 28. 0x0c 28. 0x8c 28. "  ENA124 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 27. 0x0c 27. 0x8c 27. "  ENA123 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 26. 0x0c 26. 0x8c 26. "  ENA122 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x0c 25. 0x0c 25. 0x8c 25. " ENA121 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 24. 0x0c 24. 0x8c 24. "  ENA120 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 23. 0x0c 23. 0x8c 23. "  ENA119 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 22. 0x0c 22. 0x8c 22. "  ENA118 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 21. 0x0c 21. 0x8c 21. "  ENA117 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 20. 0x0c 20. 0x8c 20. "  ENA116 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x0c 19. 0x0c 19. 0x8c 19. " ENA115 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 18. 0x0c 18. 0x8c 18. "  ENA114 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 17. 0x0c 17. 0x8c 17. "  ENA113 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 16. 0x0c 16. 0x8c 16. "  ENA112 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 15. 0x0c 15. 0x8c 15. "  ENA111 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 14. 0x0c 14. 0x8c 14. "  ENA110 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x0c 13. 0x0c 13. 0x8c 13. " ENA109 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 12. 0x0c 12. 0x8c 12. "  ENA108 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 11. 0x0c 11. 0x8c 11. "  ENA107 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 10. 0x0c 10. 0x8c 10. "  ENA106 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 9. 0x0c 9. 0x8c 9. "  ENA105 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 8. 0x0c 8. 0x8c 8. "  ENA104 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x0c 7. 0x0c 7. 0x8c 7. " ENA103 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 6. 0x0c 6. 0x8c 6. "  ENA102 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 5. 0x0c 5. 0x8c 5. "  ENA101 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 4. 0x0c 4. 0x8c 4. "  ENA100 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 3. 0x0c 3. 0x8c 3. "  ENA99  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 2. 0x0c 2. 0x8c 2. "  ENA98  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x0c 1. 0x0c 1. 0x8c 1. " ENA97  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 0. 0x0c 0. 0x8c 0. "  ENA96  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x10 "IRQ128_159_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x10 31. 0x10 31. 0x90 31. " ENA159 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 30. 0x10 30. 0x90 30. "  ENA158 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 29. 0x10 29. 0x90 29. "  ENA157 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 28. 0x10 28. 0x90 28. "  ENA156 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 27. 0x10 27. 0x90 27. "  ENA155 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 26. 0x10 26. 0x90 26. "  ENA154 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x10 25. 0x10 25. 0x90 25. " ENA153 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 24. 0x10 24. 0x90 24. "  ENA152 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 23. 0x10 23. 0x90 23. "  ENA151 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 22. 0x10 22. 0x90 22. "  ENA150 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 21. 0x10 21. 0x90 21. "  ENA149 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 20. 0x10 20. 0x90 20. "  ENA148 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x10 19. 0x10 19. 0x90 19. " ENA147 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 18. 0x10 18. 0x90 18. "  ENA146 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 17. 0x10 17. 0x90 17. "  ENA145 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 16. 0x10 16. 0x90 16. "  ENA144 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 15. 0x10 15. 0x90 15. "  ENA143 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 14. 0x10 14. 0x90 14. "  ENA142 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x10 13. 0x10 13. 0x90 13. " ENA141 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 12. 0x10 12. 0x90 12. "  ENA140 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 11. 0x10 11. 0x90 11. "  ENA139 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 10. 0x10 10. 0x90 10. "  ENA138 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 9. 0x10 9. 0x90 9. "  ENA137 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 8. 0x10 8. 0x90 8. "  ENA136 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x10 7. 0x10 7. 0x90 7. " ENA135 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 6. 0x10 6. 0x90 6. "  ENA134 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 5. 0x10 5. 0x90 5. "  ENA133 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 4. 0x10 4. 0x90 4. "  ENA132 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 3. 0x10 3. 0x90 3. "  ENA131 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 2. 0x10 2. 0x90 2. "  ENA130 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x10 1. 0x10 1. 0x90 1. " ENA129 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 0. 0x10 0. 0x90 0. "  ENA128 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x14 "IRQ160_191_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x14 31. 0x14 31. 0x94 31. " ENA191 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 30. 0x14 30. 0x94 30. "  ENA190 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 29. 0x14 29. 0x94 29. "  ENA189 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 28. 0x14 28. 0x94 28. "  ENA188 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 27. 0x14 27. 0x94 27. "  ENA187 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 26. 0x14 26. 0x94 26. "  ENA186 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x14 25. 0x14 25. 0x94 25. " ENA185 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 24. 0x14 24. 0x94 24. "  ENA184 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 23. 0x14 23. 0x94 23. "  ENA183 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 22. 0x14 22. 0x94 22. "  ENA182 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 21. 0x14 21. 0x94 21. "  ENA181 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 20. 0x14 20. 0x94 20. "  ENA180 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x14 19. 0x14 19. 0x94 19. " ENA179 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 18. 0x14 18. 0x94 18. "  ENA178 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 17. 0x14 17. 0x94 17. "  ENA177 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 16. 0x14 16. 0x94 16. "  ENA176 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 15. 0x14 15. 0x94 15. "  ENA175 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 14. 0x14 14. 0x94 14. "  ENA174 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x14 13. 0x14 13. 0x94 13. " ENA173 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 12. 0x14 12. 0x94 12. "  ENA172 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 11. 0x14 11. 0x94 11. "  ENA171 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 10. 0x14 10. 0x94 10. "  ENA170 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 9. 0x14 9. 0x94 9. "  ENA169 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 8. 0x14 8. 0x94 8. "  ENA168 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x14 7. 0x14 7. 0x94 7. " ENA167 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 6. 0x14 6. 0x94 6. "  ENA166 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 5. 0x14 5. 0x94 5. "  ENA165 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 4. 0x14 4. 0x94 4. "  ENA164 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 3. 0x14 3. 0x94 3. "  ENA163 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 2. 0x14 2. 0x94 2. "  ENA162 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x14 1. 0x14 1. 0x94 1. " ENA161 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 0. 0x14 0. 0x94 0. "  ENA160 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x18 "IRQ192_223_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x18 31. 0x18 31. 0x98 31. " ENA223 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 30. 0x18 30. 0x98 30. "  ENA222 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 29. 0x18 29. 0x98 29. "  ENA221 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 28. 0x18 28. 0x98 28. "  ENA220 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 27. 0x18 27. 0x98 27. "  ENA219 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 26. 0x18 26. 0x98 26. "  ENA218 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x18 25. 0x18 25. 0x98 25. " ENA217 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 24. 0x18 24. 0x98 24. "  ENA216 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 23. 0x18 23. 0x98 23. "  ENA215 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 22. 0x18 22. 0x98 22. "  ENA214 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 21. 0x18 21. 0x98 21. "  ENA213 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 20. 0x18 20. 0x98 20. "  ENA212 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x18 19. 0x18 19. 0x98 19. " ENA211 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 18. 0x18 18. 0x98 18. "  ENA210 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 17. 0x18 17. 0x98 17. "  ENA209 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 16. 0x18 16. 0x98 16. "  ENA208 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 15. 0x18 15. 0x98 15. "  ENA207 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 14. 0x18 14. 0x98 14. "  ENA206 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x18 13. 0x18 13. 0x98 13. " ENA205 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 12. 0x18 12. 0x98 12. "  ENA204 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 11. 0x18 11. 0x98 11. "  ENA203 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 10. 0x18 10. 0x98 10. "  ENA202 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 9. 0x18 9. 0x98 9. "  ENA201 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 8. 0x18 8. 0x98 8. "  ENA200 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x18 7. 0x18 7. 0x98 7. " ENA199 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 6. 0x18 6. 0x98 6. "  ENA198 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 5. 0x18 5. 0x98 5. "  ENA197 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 4. 0x18 4. 0x98 4. "  ENA196 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 3. 0x18 3. 0x98 3. "  ENA195 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 2. 0x18 2. 0x98 2. "  ENA194 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x18 1. 0x18 1. 0x98 1. " ENA193 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 0. 0x18 0. 0x98 0. "  ENA192 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x07)
group.long 0x100++0x1F
line.long 0x00 "IRQ0_31_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " ENA31  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  ENA30  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  ENA29  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 28. 0x00 28. 0x80 28. "  ENA28  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  ENA27  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  ENA26  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " ENA25  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  ENA24  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  ENA23  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 22. 0x00 22. 0x80 22. "  ENA22  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  ENA21  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  ENA20  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " ENA19  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  ENA18  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  ENA17  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 16. 0x00 16. 0x80 16. "  ENA16  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  ENA15  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  ENA14  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " ENA13  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  ENA12  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  ENA11  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 10. 0x00 10. 0x80 10. "  ENA10  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  ENA9   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  ENA8   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " ENA7   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  ENA6   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  ENA5   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 4. 0x00 4. 0x80 4. "  ENA4   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  ENA3   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  ENA2   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " ENA1   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  ENA0   ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x04 "IRQ32_63_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x04 31. 0x04 31. 0x84 31. " ENA63  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 30. 0x04 30. 0x84 30. "  ENA62  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 29. 0x04 29. 0x84 29. "  ENA61  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 28. 0x04 28. 0x84 28. "  ENA60  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 27. 0x04 27. 0x84 27. "  ENA59  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 26. 0x04 26. 0x84 26. "  ENA58  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 25. 0x04 25. 0x84 25. " ENA57  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 24. 0x04 24. 0x84 24. "  ENA56  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 23. 0x04 23. 0x84 23. "  ENA55  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 22. 0x04 22. 0x84 22. "  ENA54  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 21. 0x04 21. 0x84 21. "  ENA53  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 20. 0x04 20. 0x84 20. "  ENA52  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 19. 0x04 19. 0x84 19. " ENA51  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 18. 0x04 18. 0x84 18. "  ENA50  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 17. 0x04 17. 0x84 17. "  ENA49  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 16. 0x04 16. 0x84 16. "  ENA48  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 15. 0x04 15. 0x84 15. "  ENA47  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 14. 0x04 14. 0x84 14. "  ENA46  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 13. 0x04 13. 0x84 13. " ENA45  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 12. 0x04 12. 0x84 12. "  ENA44  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 11. 0x04 11. 0x84 11. "  ENA43  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 10. 0x04 10. 0x84 10. "  ENA42  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 9. 0x04 9. 0x84 9. "  ENA41  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 8. 0x04 8. 0x84 8. "  ENA40  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 7. 0x04 7. 0x84 7. " ENA39  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 6. 0x04 6. 0x84 6. "  ENA38  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 5. 0x04 5. 0x84 5. "  ENA37  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 4. 0x04 4. 0x84 4. "  ENA36  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 3. 0x04 3. 0x84 3. "  ENA35  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 2. 0x04 2. 0x84 2. "  ENA34  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x04 1. 0x04 1. 0x84 1. " ENA33  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 0. 0x04 0. 0x84 0. "  ENA32  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x08 "IRQ64_95_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x08 31. 0x08 31. 0x88 31. " ENA95  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 30. 0x08 30. 0x88 30. "  ENA94  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 29. 0x08 29. 0x88 29. "  ENA93  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 28. 0x08 28. 0x88 28. "  ENA92  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 27. 0x08 27. 0x88 27. "  ENA91  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 26. 0x08 26. 0x88 26. "  ENA90  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x08 25. 0x08 25. 0x88 25. " ENA89  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 24. 0x08 24. 0x88 24. "  ENA88  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 23. 0x08 23. 0x88 23. "  ENA87  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 22. 0x08 22. 0x88 22. "  ENA86  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 21. 0x08 21. 0x88 21. "  ENA85  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 20. 0x08 20. 0x88 20. "  ENA84  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x08 19. 0x08 19. 0x88 19. " ENA83  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 18. 0x08 18. 0x88 18. "  ENA82  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 17. 0x08 17. 0x88 17. "  ENA81  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 16. 0x08 16. 0x88 16. "  ENA80  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 15. 0x08 15. 0x88 15. "  ENA79  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 14. 0x08 14. 0x88 14. "  ENA78  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x08 13. 0x08 13. 0x88 13. " ENA77  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 12. 0x08 12. 0x88 12. "  ENA76  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 11. 0x08 11. 0x88 11. "  ENA75  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 10. 0x08 10. 0x88 10. "  ENA74  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 9. 0x08 9. 0x88 9. "  ENA73  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 8. 0x08 8. 0x88 8. "  ENA72  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x08 7. 0x08 7. 0x88 7. " ENA71  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 6. 0x08 6. 0x88 6. "  ENA70  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 5. 0x08 5. 0x88 5. "  ENA69  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 4. 0x08 4. 0x88 4. "  ENA68  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 3. 0x08 3. 0x88 3. "  ENA67  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 2. 0x08 2. 0x88 2. "  ENA66  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x08 1. 0x08 1. 0x88 1. " ENA65  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 0. 0x08 0. 0x88 0. "  ENA64  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x0c "IRQ96_127_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x0c 31. 0x0c 31. 0x8c 31. " ENA127 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 30. 0x0c 30. 0x8c 30. "  ENA126 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 29. 0x0c 29. 0x8c 29. "  ENA125 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 28. 0x0c 28. 0x8c 28. "  ENA124 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 27. 0x0c 27. 0x8c 27. "  ENA123 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 26. 0x0c 26. 0x8c 26. "  ENA122 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x0c 25. 0x0c 25. 0x8c 25. " ENA121 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 24. 0x0c 24. 0x8c 24. "  ENA120 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 23. 0x0c 23. 0x8c 23. "  ENA119 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 22. 0x0c 22. 0x8c 22. "  ENA118 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 21. 0x0c 21. 0x8c 21. "  ENA117 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 20. 0x0c 20. 0x8c 20. "  ENA116 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x0c 19. 0x0c 19. 0x8c 19. " ENA115 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 18. 0x0c 18. 0x8c 18. "  ENA114 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 17. 0x0c 17. 0x8c 17. "  ENA113 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 16. 0x0c 16. 0x8c 16. "  ENA112 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 15. 0x0c 15. 0x8c 15. "  ENA111 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 14. 0x0c 14. 0x8c 14. "  ENA110 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x0c 13. 0x0c 13. 0x8c 13. " ENA109 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 12. 0x0c 12. 0x8c 12. "  ENA108 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 11. 0x0c 11. 0x8c 11. "  ENA107 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 10. 0x0c 10. 0x8c 10. "  ENA106 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 9. 0x0c 9. 0x8c 9. "  ENA105 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 8. 0x0c 8. 0x8c 8. "  ENA104 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x0c 7. 0x0c 7. 0x8c 7. " ENA103 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 6. 0x0c 6. 0x8c 6. "  ENA102 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 5. 0x0c 5. 0x8c 5. "  ENA101 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 4. 0x0c 4. 0x8c 4. "  ENA100 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 3. 0x0c 3. 0x8c 3. "  ENA99  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 2. 0x0c 2. 0x8c 2. "  ENA98  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x0c 1. 0x0c 1. 0x8c 1. " ENA97  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 0. 0x0c 0. 0x8c 0. "  ENA96  ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x10 "IRQ128_159_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x10 31. 0x10 31. 0x90 31. " ENA159 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 30. 0x10 30. 0x90 30. "  ENA158 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 29. 0x10 29. 0x90 29. "  ENA157 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 28. 0x10 28. 0x90 28. "  ENA156 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 27. 0x10 27. 0x90 27. "  ENA155 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 26. 0x10 26. 0x90 26. "  ENA154 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x10 25. 0x10 25. 0x90 25. " ENA153 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 24. 0x10 24. 0x90 24. "  ENA152 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 23. 0x10 23. 0x90 23. "  ENA151 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 22. 0x10 22. 0x90 22. "  ENA150 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 21. 0x10 21. 0x90 21. "  ENA149 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 20. 0x10 20. 0x90 20. "  ENA148 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x10 19. 0x10 19. 0x90 19. " ENA147 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 18. 0x10 18. 0x90 18. "  ENA146 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 17. 0x10 17. 0x90 17. "  ENA145 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 16. 0x10 16. 0x90 16. "  ENA144 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 15. 0x10 15. 0x90 15. "  ENA143 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 14. 0x10 14. 0x90 14. "  ENA142 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x10 13. 0x10 13. 0x90 13. " ENA141 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 12. 0x10 12. 0x90 12. "  ENA140 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 11. 0x10 11. 0x90 11. "  ENA139 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 10. 0x10 10. 0x90 10. "  ENA138 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 9. 0x10 9. 0x90 9. "  ENA137 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 8. 0x10 8. 0x90 8. "  ENA136 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x10 7. 0x10 7. 0x90 7. " ENA135 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 6. 0x10 6. 0x90 6. "  ENA134 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 5. 0x10 5. 0x90 5. "  ENA133 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 4. 0x10 4. 0x90 4. "  ENA132 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 3. 0x10 3. 0x90 3. "  ENA131 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 2. 0x10 2. 0x90 2. "  ENA130 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x10 1. 0x10 1. 0x90 1. " ENA129 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 0. 0x10 0. 0x90 0. "  ENA128 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x14 "IRQ160_191_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x14 31. 0x14 31. 0x94 31. " ENA191 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 30. 0x14 30. 0x94 30. "  ENA190 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 29. 0x14 29. 0x94 29. "  ENA189 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 28. 0x14 28. 0x94 28. "  ENA188 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 27. 0x14 27. 0x94 27. "  ENA187 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 26. 0x14 26. 0x94 26. "  ENA186 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x14 25. 0x14 25. 0x94 25. " ENA185 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 24. 0x14 24. 0x94 24. "  ENA184 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 23. 0x14 23. 0x94 23. "  ENA183 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 22. 0x14 22. 0x94 22. "  ENA182 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 21. 0x14 21. 0x94 21. "  ENA181 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 20. 0x14 20. 0x94 20. "  ENA180 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x14 19. 0x14 19. 0x94 19. " ENA179 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 18. 0x14 18. 0x94 18. "  ENA178 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 17. 0x14 17. 0x94 17. "  ENA177 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 16. 0x14 16. 0x94 16. "  ENA176 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 15. 0x14 15. 0x94 15. "  ENA175 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 14. 0x14 14. 0x94 14. "  ENA174 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x14 13. 0x14 13. 0x94 13. " ENA173 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 12. 0x14 12. 0x94 12. "  ENA172 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 11. 0x14 11. 0x94 11. "  ENA171 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 10. 0x14 10. 0x94 10. "  ENA170 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 9. 0x14 9. 0x94 9. "  ENA169 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 8. 0x14 8. 0x94 8. "  ENA168 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x14 7. 0x14 7. 0x94 7. " ENA167 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 6. 0x14 6. 0x94 6. "  ENA166 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 5. 0x14 5. 0x94 5. "  ENA165 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 4. 0x14 4. 0x94 4. "  ENA164 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 3. 0x14 3. 0x94 3. "  ENA163 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 2. 0x14 2. 0x94 2. "  ENA162 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x14 1. 0x14 1. 0x94 1. " ENA161 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 0. 0x14 0. 0x94 0. "  ENA160 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x18 "IRQ192_223_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x18 31. 0x18 31. 0x98 31. " ENA223 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 30. 0x18 30. 0x98 30. "  ENA222 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 29. 0x18 29. 0x98 29. "  ENA221 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 28. 0x18 28. 0x98 28. "  ENA220 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 27. 0x18 27. 0x98 27. "  ENA219 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 26. 0x18 26. 0x98 26. "  ENA218 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x18 25. 0x18 25. 0x98 25. " ENA217 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 24. 0x18 24. 0x98 24. "  ENA216 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 23. 0x18 23. 0x98 23. "  ENA215 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 22. 0x18 22. 0x98 22. "  ENA214 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 21. 0x18 21. 0x98 21. "  ENA213 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 20. 0x18 20. 0x98 20. "  ENA212 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x18 19. 0x18 19. 0x98 19. " ENA211 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 18. 0x18 18. 0x98 18. "  ENA210 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 17. 0x18 17. 0x98 17. "  ENA209 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 16. 0x18 16. 0x98 16. "  ENA208 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 15. 0x18 15. 0x98 15. "  ENA207 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 14. 0x18 14. 0x98 14. "  ENA206 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x18 13. 0x18 13. 0x98 13. " ENA205 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 12. 0x18 12. 0x98 12. "  ENA204 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 11. 0x18 11. 0x98 11. "  ENA203 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 10. 0x18 10. 0x98 10. "  ENA202 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 9. 0x18 9. 0x98 9. "  ENA201 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 8. 0x18 8. 0x98 8. "  ENA200 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x18 7. 0x18 7. 0x98 7. " ENA199 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 6. 0x18 6. 0x98 6. "  ENA198 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 5. 0x18 5. 0x98 5. "  ENA197 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 4. 0x18 4. 0x98 4. "  ENA196 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 3. 0x18 3. 0x98 3. "  ENA195 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 2. 0x18 2. 0x98 2. "  ENA194 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x18 1. 0x18 1. 0x98 1. " ENA193 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 0. 0x18 0. 0x98 0. "  ENA192 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x1c "IRQ224_239_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x1c 15. 0x1c 15. 0x9c 15. " ENA239 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x1c 14. 0x1c 14. 0x9c 14. "  ENA238 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x1c 13. 0x1c 13. 0x9c 13. "  ENA237 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x1c 12. 0x1c 12. 0x9c 12. "  ENA236 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x1c 11. 0x1c 11. 0x9c 11. "  ENA235 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x1c 10. 0x1c 10. 0x9c 10. "  ENA234 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x1c 9. 0x1c 9. 0x9c 9. " ENA233 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x1c 8. 0x1c 8. 0x9c 8. "  ENA232 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x1c 7. 0x1c 7. 0x9c 7. "  ENA231 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x1c 6. 0x1c 6. 0x9c 6. "  ENA230 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x1c 5. 0x1c 5. 0x9c 5. "  ENA229 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x1c 4. 0x1c 4. 0x9c 4. "  ENA228 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline "                                "
setclrfld.long 0x1c 3. 0x1c 3. 0x9c 3. " ENA227 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x1c 2. 0x1c 2. 0x9c 2. "  ENA226 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x1c 1. 0x1c 1. 0x9c 1. "  ENA225 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x1c 0. 0x1c 0. 0x9c 0. "  ENA224 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
else
hgroup.long 0x100++0x1F
hide.long 0x00 "IRQ0_31_EN_SET/CLR,Interrupt Enable Register"
hide.long 0x04 "IRQ32_63_EN_SET/CLR,Interrupt Enable Register"
hide.long 0x08 "IRQ64_95_EN_SET/CLR,Interrupt Enable Register"
hide.long 0x0c "IRQ96_127_EN_SET/CLR,Interrupt Enable Register"
hide.long 0x10 "IRQ128_159_EN_SET/CLR,Interrupt Enable Register"
hide.long 0x14 "IRQ160_191_EN_SET/CLR,Interrupt Enable Register"
hide.long 0x18 "IRQ192_223_EN_SET/CLR,Interrupt Enable Register"
hide.long 0x1c "IRQ224_239_EN_SET/CLR,Interrupt Enable Register"
endif
tree.end
tree "Interrupt Pending Registers"
width 23.
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x00)
group.long 0x200++0x03
line.long 0x00 "IRQ0_31_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " PEN31  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  PEN30  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  PEN29  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 28. 0x00 28. 0x80 28. "  PEN28  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  PEN27  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  PEN26  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " PEN25  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  PEN24  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  PEN23  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 22. 0x00 22. 0x80 22. "  PEN22  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  PEN21  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  PEN20  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " PEN19  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  PEN18  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  PEN17  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 16. 0x00 16. 0x80 16. "  PEN16  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  PEN15  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  PEN14  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " PEN13  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  PEN12  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  PEN11  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 10. 0x00 10. 0x80 10. "  PEN10  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  PEN9   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  PEN8   ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " PEN7   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  PEN6   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  PEN5   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 4. 0x00 4. 0x80 4. "  PEN4   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  PEN3   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  PEN2   ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " PEN1   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  PEN0   ,Interrupt Set/Clear Pending" "Not pending,Pending"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x01)
group.long 0x200++0x07
line.long 0x00 "IRQ0_31_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " PEN31  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  PEN30  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  PEN29  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 28. 0x00 28. 0x80 28. "  PEN28  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  PEN27  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  PEN26  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " PEN25  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  PEN24  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  PEN23  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 22. 0x00 22. 0x80 22. "  PEN22  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  PEN21  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  PEN20  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " PEN19  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  PEN18  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  PEN17  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 16. 0x00 16. 0x80 16. "  PEN16  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  PEN15  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  PEN14  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " PEN13  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  PEN12  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  PEN11  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 10. 0x00 10. 0x80 10. "  PEN10  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  PEN9   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  PEN8   ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " PEN7   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  PEN6   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  PEN5   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 4. 0x00 4. 0x80 4. "  PEN4   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  PEN3   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  PEN2   ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " PEN1   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  PEN0   ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x04 "IRQ32_63_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x04 31. 0x04 31. 0x84 31. " PEN63  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 30. 0x04 30. 0x84 30. "  PEN62  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 29. 0x04 29. 0x84 29. "  PEN61  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 28. 0x04 28. 0x84 28. "  PEN60  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 27. 0x04 27. 0x84 27. "  PEN59  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 26. 0x04 26. 0x84 26. "  PEN58  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 25. 0x04 25. 0x84 25. " PEN57  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 24. 0x04 24. 0x84 24. "  PEN56  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 23. 0x04 23. 0x84 23. "  PEN55  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 22. 0x04 22. 0x84 22. "  PEN54  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 21. 0x04 21. 0x84 21. "  PEN53  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 20. 0x04 20. 0x84 20. "  PEN52  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 19. 0x04 19. 0x84 19. " PEN51  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 18. 0x04 18. 0x84 18. "  PEN50  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 17. 0x04 17. 0x84 17. "  PEN49  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 16. 0x04 16. 0x84 16. "  PEN48  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 15. 0x04 15. 0x84 15. "  PEN47  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 14. 0x04 14. 0x84 14. "  PEN46  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 13. 0x04 13. 0x84 13. " PEN45  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 12. 0x04 12. 0x84 12. "  PEN44  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 11. 0x04 11. 0x84 11. "  PEN43  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 10. 0x04 10. 0x84 10. "  PEN42  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 9. 0x04 9. 0x84 9. "  PEN41  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 8. 0x04 8. 0x84 8. "  PEN40  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 7. 0x04 7. 0x84 7. " PEN39  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 6. 0x04 6. 0x84 6. "  PEN38  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 5. 0x04 5. 0x84 5. "  PEN37  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 4. 0x04 4. 0x84 4. "  PEN36  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 3. 0x04 3. 0x84 3. "  PEN35  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 2. 0x04 2. 0x84 2. "  PEN34  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 1. 0x04 1. 0x84 1. " PEN33  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 0. 0x04 0. 0x84 0. "  PEN32  ,Interrupt Set/Clear Pending" "Not pending,Pending"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x02)
group.long 0x200++0x0B
line.long 0x00 "IRQ0_31_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " PEN31  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  PEN30  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  PEN29  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 28. 0x00 28. 0x80 28. "  PEN28  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  PEN27  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  PEN26  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " PEN25  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  PEN24  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  PEN23  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 22. 0x00 22. 0x80 22. "  PEN22  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  PEN21  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  PEN20  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " PEN19  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  PEN18  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  PEN17  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 16. 0x00 16. 0x80 16. "  PEN16  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  PEN15  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  PEN14  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " PEN13  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  PEN12  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  PEN11  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 10. 0x00 10. 0x80 10. "  PEN10  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  PEN9   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  PEN8   ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " PEN7   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  PEN6   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  PEN5   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 4. 0x00 4. 0x80 4. "  PEN4   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  PEN3   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  PEN2   ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " PEN1   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  PEN0   ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x04 "IRQ32_63_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x04 31. 0x04 31. 0x84 31. " PEN63  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 30. 0x04 30. 0x84 30. "  PEN62  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 29. 0x04 29. 0x84 29. "  PEN61  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 28. 0x04 28. 0x84 28. "  PEN60  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 27. 0x04 27. 0x84 27. "  PEN59  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 26. 0x04 26. 0x84 26. "  PEN58  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 25. 0x04 25. 0x84 25. " PEN57  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 24. 0x04 24. 0x84 24. "  PEN56  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 23. 0x04 23. 0x84 23. "  PEN55  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 22. 0x04 22. 0x84 22. "  PEN54  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 21. 0x04 21. 0x84 21. "  PEN53  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 20. 0x04 20. 0x84 20. "  PEN52  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 19. 0x04 19. 0x84 19. " PEN51  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 18. 0x04 18. 0x84 18. "  PEN50  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 17. 0x04 17. 0x84 17. "  PEN49  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 16. 0x04 16. 0x84 16. "  PEN48  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 15. 0x04 15. 0x84 15. "  PEN47  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 14. 0x04 14. 0x84 14. "  PEN46  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 13. 0x04 13. 0x84 13. " PEN45  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 12. 0x04 12. 0x84 12. "  PEN44  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 11. 0x04 11. 0x84 11. "  PEN43  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 10. 0x04 10. 0x84 10. "  PEN42  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 9. 0x04 9. 0x84 9. "  PEN41  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 8. 0x04 8. 0x84 8. "  PEN40  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 7. 0x04 7. 0x84 7. " PEN39  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 6. 0x04 6. 0x84 6. "  PEN38  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 5. 0x04 5. 0x84 5. "  PEN37  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 4. 0x04 4. 0x84 4. "  PEN36  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 3. 0x04 3. 0x84 3. "  PEN35  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 2. 0x04 2. 0x84 2. "  PEN34  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 1. 0x04 1. 0x84 1. " PEN33  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 0. 0x04 0. 0x84 0. "  PEN32  ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x08 "IRQ64_95_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x08 31. 0x08 31. 0x88 31. " PEN95  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 30. 0x08 30. 0x88 30. "  PEN94  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 29. 0x08 29. 0x88 29. "  PEN93  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 28. 0x08 28. 0x88 28. "  PEN92  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 27. 0x08 27. 0x88 27. "  PEN91  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 26. 0x08 26. 0x88 26. "  PEN90  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x08 25. 0x08 25. 0x88 25. " PEN89  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 24. 0x08 24. 0x88 24. "  PEN88  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 23. 0x08 23. 0x88 23. "  PEN87  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 22. 0x08 22. 0x88 22. "  PEN86  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 21. 0x08 21. 0x88 21. "  PEN85  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 20. 0x08 20. 0x88 20. "  PEN84  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x08 19. 0x08 19. 0x88 19. " PEN83  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 18. 0x08 18. 0x88 18. "  PEN82  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 17. 0x08 17. 0x88 17. "  PEN81  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 16. 0x08 16. 0x88 16. "  PEN80  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 15. 0x08 15. 0x88 15. "  PEN79  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 14. 0x08 14. 0x88 14. "  PEN78  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x08 13. 0x08 13. 0x88 13. " PEN77  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 12. 0x08 12. 0x88 12. "  PEN76  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 11. 0x08 11. 0x88 11. "  PEN75  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 10. 0x08 10. 0x88 10. "  PEN74  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 9. 0x08 9. 0x88 9. "  PEN73  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 8. 0x08 8. 0x88 8. "  PEN72  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x08 7. 0x08 7. 0x88 7. " PEN71  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 6. 0x08 6. 0x88 6. "  PEN70  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 5. 0x08 5. 0x88 5. "  PEN69  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 4. 0x08 4. 0x88 4. "  PEN68  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 3. 0x08 3. 0x88 3. "  PEN67  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 2. 0x08 2. 0x88 2. "  PEN66  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x08 1. 0x08 1. 0x88 1. " PEN65  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 0. 0x08 0. 0x88 0. "  PEN64  ,Interrupt Set/Clear Pending" "Not pending,Pending"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x03)
group.long 0x200++0x0F
line.long 0x00 "IRQ0_31_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " PEN31  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  PEN30  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  PEN29  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 28. 0x00 28. 0x80 28. "  PEN28  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  PEN27  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  PEN26  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " PEN25  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  PEN24  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  PEN23  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 22. 0x00 22. 0x80 22. "  PEN22  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  PEN21  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  PEN20  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " PEN19  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  PEN18  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  PEN17  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 16. 0x00 16. 0x80 16. "  PEN16  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  PEN15  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  PEN14  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " PEN13  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  PEN12  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  PEN11  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 10. 0x00 10. 0x80 10. "  PEN10  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  PEN9   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  PEN8   ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " PEN7   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  PEN6   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  PEN5   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 4. 0x00 4. 0x80 4. "  PEN4   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  PEN3   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  PEN2   ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " PEN1   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  PEN0   ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x04 "IRQ32_63_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x04 31. 0x04 31. 0x84 31. " PEN63  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 30. 0x04 30. 0x84 30. "  PEN62  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 29. 0x04 29. 0x84 29. "  PEN61  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 28. 0x04 28. 0x84 28. "  PEN60  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 27. 0x04 27. 0x84 27. "  PEN59  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 26. 0x04 26. 0x84 26. "  PEN58  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 25. 0x04 25. 0x84 25. " PEN57  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 24. 0x04 24. 0x84 24. "  PEN56  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 23. 0x04 23. 0x84 23. "  PEN55  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 22. 0x04 22. 0x84 22. "  PEN54  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 21. 0x04 21. 0x84 21. "  PEN53  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 20. 0x04 20. 0x84 20. "  PEN52  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 19. 0x04 19. 0x84 19. " PEN51  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 18. 0x04 18. 0x84 18. "  PEN50  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 17. 0x04 17. 0x84 17. "  PEN49  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 16. 0x04 16. 0x84 16. "  PEN48  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 15. 0x04 15. 0x84 15. "  PEN47  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 14. 0x04 14. 0x84 14. "  PEN46  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 13. 0x04 13. 0x84 13. " PEN45  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 12. 0x04 12. 0x84 12. "  PEN44  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 11. 0x04 11. 0x84 11. "  PEN43  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 10. 0x04 10. 0x84 10. "  PEN42  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 9. 0x04 9. 0x84 9. "  PEN41  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 8. 0x04 8. 0x84 8. "  PEN40  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 7. 0x04 7. 0x84 7. " PEN39  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 6. 0x04 6. 0x84 6. "  PEN38  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 5. 0x04 5. 0x84 5. "  PEN37  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 4. 0x04 4. 0x84 4. "  PEN36  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 3. 0x04 3. 0x84 3. "  PEN35  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 2. 0x04 2. 0x84 2. "  PEN34  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 1. 0x04 1. 0x84 1. " PEN33  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 0. 0x04 0. 0x84 0. "  PEN32  ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x08 "IRQ64_95_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x08 31. 0x08 31. 0x88 31. " PEN95  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 30. 0x08 30. 0x88 30. "  PEN94  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 29. 0x08 29. 0x88 29. "  PEN93  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 28. 0x08 28. 0x88 28. "  PEN92  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 27. 0x08 27. 0x88 27. "  PEN91  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 26. 0x08 26. 0x88 26. "  PEN90  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x08 25. 0x08 25. 0x88 25. " PEN89  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 24. 0x08 24. 0x88 24. "  PEN88  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 23. 0x08 23. 0x88 23. "  PEN87  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 22. 0x08 22. 0x88 22. "  PEN86  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 21. 0x08 21. 0x88 21. "  PEN85  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 20. 0x08 20. 0x88 20. "  PEN84  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x08 19. 0x08 19. 0x88 19. " PEN83  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 18. 0x08 18. 0x88 18. "  PEN82  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 17. 0x08 17. 0x88 17. "  PEN81  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 16. 0x08 16. 0x88 16. "  PEN80  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 15. 0x08 15. 0x88 15. "  PEN79  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 14. 0x08 14. 0x88 14. "  PEN78  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x08 13. 0x08 13. 0x88 13. " PEN77  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 12. 0x08 12. 0x88 12. "  PEN76  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 11. 0x08 11. 0x88 11. "  PEN75  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 10. 0x08 10. 0x88 10. "  PEN74  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 9. 0x08 9. 0x88 9. "  PEN73  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 8. 0x08 8. 0x88 8. "  PEN72  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x08 7. 0x08 7. 0x88 7. " PEN71  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 6. 0x08 6. 0x88 6. "  PEN70  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 5. 0x08 5. 0x88 5. "  PEN69  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 4. 0x08 4. 0x88 4. "  PEN68  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 3. 0x08 3. 0x88 3. "  PEN67  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 2. 0x08 2. 0x88 2. "  PEN66  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x08 1. 0x08 1. 0x88 1. " PEN65  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 0. 0x08 0. 0x88 0. "  PEN64  ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x0c "IRQ96_127_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x0c 31. 0x0c 31. 0x8c 31. " PEN127 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 30. 0x0c 30. 0x8c 30. "  PEN126 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 29. 0x0c 29. 0x8c 29. "  PEN125 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 28. 0x0c 28. 0x8c 28. "  PEN124 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 27. 0x0c 27. 0x8c 27. "  PEN123 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 26. 0x0c 26. 0x8c 26. "  PEN122 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x0c 25. 0x0c 25. 0x8c 25. " PEN121 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 24. 0x0c 24. 0x8c 24. "  PEN120 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 23. 0x0c 23. 0x8c 23. "  PEN119 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 22. 0x0c 22. 0x8c 22. "  PEN118 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 21. 0x0c 21. 0x8c 21. "  PEN117 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 20. 0x0c 20. 0x8c 20. "  PEN116 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x0c 19. 0x0c 19. 0x8c 19. " PEN115 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 18. 0x0c 18. 0x8c 18. "  PEN114 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 17. 0x0c 17. 0x8c 17. "  PEN113 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 16. 0x0c 16. 0x8c 16. "  PEN112 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 15. 0x0c 15. 0x8c 15. "  PEN111 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 14. 0x0c 14. 0x8c 14. "  PEN110 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x0c 13. 0x0c 13. 0x8c 13. " PEN109 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 12. 0x0c 12. 0x8c 12. "  PEN108 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 11. 0x0c 11. 0x8c 11. "  PEN107 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 10. 0x0c 10. 0x8c 10. "  PEN106 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 9. 0x0c 9. 0x8c 9. "  PEN105 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 8. 0x0c 8. 0x8c 8. "  PEN104 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x0c 7. 0x0c 7. 0x8c 7. " PEN103 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 6. 0x0c 6. 0x8c 6. "  PEN102 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 5. 0x0c 5. 0x8c 5. "  PEN101 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 4. 0x0c 4. 0x8c 4. "  PEN100 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 3. 0x0c 3. 0x8c 3. "  PEN99  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 2. 0x0c 2. 0x8c 2. "  PEN98  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x0c 1. 0x0c 1. 0x8c 1. " PEN97  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 0. 0x0c 0. 0x8c 0. "  PEN96  ,Interrupt Set/Clear Pending" "Not pending,Pending"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x04)
group.long 0x200++0x13
line.long 0x00 "IRQ0_31_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " PEN31  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  PEN30  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  PEN29  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 28. 0x00 28. 0x80 28. "  PEN28  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  PEN27  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  PEN26  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " PEN25  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  PEN24  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  PEN23  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 22. 0x00 22. 0x80 22. "  PEN22  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  PEN21  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  PEN20  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " PEN19  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  PEN18  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  PEN17  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 16. 0x00 16. 0x80 16. "  PEN16  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  PEN15  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  PEN14  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " PEN13  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  PEN12  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  PEN11  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 10. 0x00 10. 0x80 10. "  PEN10  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  PEN9   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  PEN8   ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " PEN7   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  PEN6   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  PEN5   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 4. 0x00 4. 0x80 4. "  PEN4   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  PEN3   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  PEN2   ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " PEN1   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  PEN0   ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x04 "IRQ32_63_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x04 31. 0x04 31. 0x84 31. " PEN63  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 30. 0x04 30. 0x84 30. "  PEN62  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 29. 0x04 29. 0x84 29. "  PEN61  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 28. 0x04 28. 0x84 28. "  PEN60  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 27. 0x04 27. 0x84 27. "  PEN59  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 26. 0x04 26. 0x84 26. "  PEN58  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 25. 0x04 25. 0x84 25. " PEN57  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 24. 0x04 24. 0x84 24. "  PEN56  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 23. 0x04 23. 0x84 23. "  PEN55  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 22. 0x04 22. 0x84 22. "  PEN54  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 21. 0x04 21. 0x84 21. "  PEN53  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 20. 0x04 20. 0x84 20. "  PEN52  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 19. 0x04 19. 0x84 19. " PEN51  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 18. 0x04 18. 0x84 18. "  PEN50  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 17. 0x04 17. 0x84 17. "  PEN49  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 16. 0x04 16. 0x84 16. "  PEN48  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 15. 0x04 15. 0x84 15. "  PEN47  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 14. 0x04 14. 0x84 14. "  PEN46  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 13. 0x04 13. 0x84 13. " PEN45  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 12. 0x04 12. 0x84 12. "  PEN44  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 11. 0x04 11. 0x84 11. "  PEN43  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 10. 0x04 10. 0x84 10. "  PEN42  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 9. 0x04 9. 0x84 9. "  PEN41  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 8. 0x04 8. 0x84 8. "  PEN40  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 7. 0x04 7. 0x84 7. " PEN39  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 6. 0x04 6. 0x84 6. "  PEN38  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 5. 0x04 5. 0x84 5. "  PEN37  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 4. 0x04 4. 0x84 4. "  PEN36  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 3. 0x04 3. 0x84 3. "  PEN35  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 2. 0x04 2. 0x84 2. "  PEN34  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 1. 0x04 1. 0x84 1. " PEN33  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 0. 0x04 0. 0x84 0. "  PEN32  ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x08 "IRQ64_95_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x08 31. 0x08 31. 0x88 31. " PEN95  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 30. 0x08 30. 0x88 30. "  PEN94  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 29. 0x08 29. 0x88 29. "  PEN93  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 28. 0x08 28. 0x88 28. "  PEN92  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 27. 0x08 27. 0x88 27. "  PEN91  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 26. 0x08 26. 0x88 26. "  PEN90  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x08 25. 0x08 25. 0x88 25. " PEN89  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 24. 0x08 24. 0x88 24. "  PEN88  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 23. 0x08 23. 0x88 23. "  PEN87  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 22. 0x08 22. 0x88 22. "  PEN86  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 21. 0x08 21. 0x88 21. "  PEN85  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 20. 0x08 20. 0x88 20. "  PEN84  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x08 19. 0x08 19. 0x88 19. " PEN83  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 18. 0x08 18. 0x88 18. "  PEN82  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 17. 0x08 17. 0x88 17. "  PEN81  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 16. 0x08 16. 0x88 16. "  PEN80  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 15. 0x08 15. 0x88 15. "  PEN79  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 14. 0x08 14. 0x88 14. "  PEN78  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x08 13. 0x08 13. 0x88 13. " PEN77  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 12. 0x08 12. 0x88 12. "  PEN76  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 11. 0x08 11. 0x88 11. "  PEN75  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 10. 0x08 10. 0x88 10. "  PEN74  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 9. 0x08 9. 0x88 9. "  PEN73  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 8. 0x08 8. 0x88 8. "  PEN72  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x08 7. 0x08 7. 0x88 7. " PEN71  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 6. 0x08 6. 0x88 6. "  PEN70  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 5. 0x08 5. 0x88 5. "  PEN69  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 4. 0x08 4. 0x88 4. "  PEN68  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 3. 0x08 3. 0x88 3. "  PEN67  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 2. 0x08 2. 0x88 2. "  PEN66  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x08 1. 0x08 1. 0x88 1. " PEN65  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 0. 0x08 0. 0x88 0. "  PEN64  ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x0c "IRQ96_127_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x0c 31. 0x0c 31. 0x8c 31. " PEN127 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 30. 0x0c 30. 0x8c 30. "  PEN126 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 29. 0x0c 29. 0x8c 29. "  PEN125 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 28. 0x0c 28. 0x8c 28. "  PEN124 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 27. 0x0c 27. 0x8c 27. "  PEN123 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 26. 0x0c 26. 0x8c 26. "  PEN122 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x0c 25. 0x0c 25. 0x8c 25. " PEN121 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 24. 0x0c 24. 0x8c 24. "  PEN120 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 23. 0x0c 23. 0x8c 23. "  PEN119 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 22. 0x0c 22. 0x8c 22. "  PEN118 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 21. 0x0c 21. 0x8c 21. "  PEN117 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 20. 0x0c 20. 0x8c 20. "  PEN116 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x0c 19. 0x0c 19. 0x8c 19. " PEN115 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 18. 0x0c 18. 0x8c 18. "  PEN114 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 17. 0x0c 17. 0x8c 17. "  PEN113 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 16. 0x0c 16. 0x8c 16. "  PEN112 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 15. 0x0c 15. 0x8c 15. "  PEN111 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 14. 0x0c 14. 0x8c 14. "  PEN110 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x0c 13. 0x0c 13. 0x8c 13. " PEN109 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 12. 0x0c 12. 0x8c 12. "  PEN108 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 11. 0x0c 11. 0x8c 11. "  PEN107 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 10. 0x0c 10. 0x8c 10. "  PEN106 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 9. 0x0c 9. 0x8c 9. "  PEN105 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 8. 0x0c 8. 0x8c 8. "  PEN104 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x0c 7. 0x0c 7. 0x8c 7. " PEN103 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 6. 0x0c 6. 0x8c 6. "  PEN102 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 5. 0x0c 5. 0x8c 5. "  PEN101 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 4. 0x0c 4. 0x8c 4. "  PEN100 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 3. 0x0c 3. 0x8c 3. "  PEN99  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 2. 0x0c 2. 0x8c 2. "  PEN98  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x0c 1. 0x0c 1. 0x8c 1. " PEN97  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 0. 0x0c 0. 0x8c 0. "  PEN96  ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x10 "IRQ128_159_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x10 31. 0x10 31. 0x90 31. " PEN159 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 30. 0x10 30. 0x90 30. "  PEN158 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 29. 0x10 29. 0x90 29. "  PEN157 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 28. 0x10 28. 0x90 28. "  PEN156 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 27. 0x10 27. 0x90 27. "  PEN155 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 26. 0x10 26. 0x90 26. "  PEN154 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x10 25. 0x10 25. 0x90 25. " PEN153 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 24. 0x10 24. 0x90 24. "  PEN152 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 23. 0x10 23. 0x90 23. "  PEN151 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 22. 0x10 22. 0x90 22. "  PEN150 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 21. 0x10 21. 0x90 21. "  PEN149 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 20. 0x10 20. 0x90 20. "  PEN148 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x10 19. 0x10 19. 0x90 19. " PEN147 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 18. 0x10 18. 0x90 18. "  PEN146 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 17. 0x10 17. 0x90 17. "  PEN145 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 16. 0x10 16. 0x90 16. "  PEN144 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 15. 0x10 15. 0x90 15. "  PEN143 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 14. 0x10 14. 0x90 14. "  PEN142 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x10 13. 0x10 13. 0x90 13. " PEN141 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 12. 0x10 12. 0x90 12. "  PEN140 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 11. 0x10 11. 0x90 11. "  PEN139 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 10. 0x10 10. 0x90 10. "  PEN138 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 9. 0x10 9. 0x90 9. "  PEN137 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 8. 0x10 8. 0x90 8. "  PEN136 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x10 7. 0x10 7. 0x90 7. " PEN135 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 6. 0x10 6. 0x90 6. "  PEN134 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 5. 0x10 5. 0x90 5. "  PEN133 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 4. 0x10 4. 0x90 4. "  PEN132 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 3. 0x10 3. 0x90 3. "  PEN131 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 2. 0x10 2. 0x90 2. "  PEN130 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x10 1. 0x10 1. 0x90 1. " PEN129 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 0. 0x10 0. 0x90 0. "  PEN128 ,Interrupt Set/Clear Pending" "Not pending,Pending"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x05)
group.long 0x200++0x17
line.long 0x00 "IRQ0_31_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " PEN31  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  PEN30  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  PEN29  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 28. 0x00 28. 0x80 28. "  PEN28  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  PEN27  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  PEN26  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " PEN25  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  PEN24  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  PEN23  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 22. 0x00 22. 0x80 22. "  PEN22  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  PEN21  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  PEN20  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " PEN19  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  PEN18  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  PEN17  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 16. 0x00 16. 0x80 16. "  PEN16  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  PEN15  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  PEN14  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " PEN13  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  PEN12  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  PEN11  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 10. 0x00 10. 0x80 10. "  PEN10  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  PEN9   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  PEN8   ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " PEN7   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  PEN6   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  PEN5   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 4. 0x00 4. 0x80 4. "  PEN4   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  PEN3   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  PEN2   ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " PEN1   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  PEN0   ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x04 "IRQ32_63_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x04 31. 0x04 31. 0x84 31. " PEN63  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 30. 0x04 30. 0x84 30. "  PEN62  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 29. 0x04 29. 0x84 29. "  PEN61  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 28. 0x04 28. 0x84 28. "  PEN60  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 27. 0x04 27. 0x84 27. "  PEN59  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 26. 0x04 26. 0x84 26. "  PEN58  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 25. 0x04 25. 0x84 25. " PEN57  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 24. 0x04 24. 0x84 24. "  PEN56  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 23. 0x04 23. 0x84 23. "  PEN55  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 22. 0x04 22. 0x84 22. "  PEN54  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 21. 0x04 21. 0x84 21. "  PEN53  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 20. 0x04 20. 0x84 20. "  PEN52  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 19. 0x04 19. 0x84 19. " PEN51  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 18. 0x04 18. 0x84 18. "  PEN50  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 17. 0x04 17. 0x84 17. "  PEN49  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 16. 0x04 16. 0x84 16. "  PEN48  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 15. 0x04 15. 0x84 15. "  PEN47  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 14. 0x04 14. 0x84 14. "  PEN46  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 13. 0x04 13. 0x84 13. " PEN45  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 12. 0x04 12. 0x84 12. "  PEN44  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 11. 0x04 11. 0x84 11. "  PEN43  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 10. 0x04 10. 0x84 10. "  PEN42  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 9. 0x04 9. 0x84 9. "  PEN41  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 8. 0x04 8. 0x84 8. "  PEN40  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 7. 0x04 7. 0x84 7. " PEN39  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 6. 0x04 6. 0x84 6. "  PEN38  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 5. 0x04 5. 0x84 5. "  PEN37  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 4. 0x04 4. 0x84 4. "  PEN36  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 3. 0x04 3. 0x84 3. "  PEN35  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 2. 0x04 2. 0x84 2. "  PEN34  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 1. 0x04 1. 0x84 1. " PEN33  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 0. 0x04 0. 0x84 0. "  PEN32  ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x08 "IRQ64_95_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x08 31. 0x08 31. 0x88 31. " PEN95  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 30. 0x08 30. 0x88 30. "  PEN94  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 29. 0x08 29. 0x88 29. "  PEN93  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 28. 0x08 28. 0x88 28. "  PEN92  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 27. 0x08 27. 0x88 27. "  PEN91  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 26. 0x08 26. 0x88 26. "  PEN90  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x08 25. 0x08 25. 0x88 25. " PEN89  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 24. 0x08 24. 0x88 24. "  PEN88  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 23. 0x08 23. 0x88 23. "  PEN87  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 22. 0x08 22. 0x88 22. "  PEN86  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 21. 0x08 21. 0x88 21. "  PEN85  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 20. 0x08 20. 0x88 20. "  PEN84  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x08 19. 0x08 19. 0x88 19. " PEN83  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 18. 0x08 18. 0x88 18. "  PEN82  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 17. 0x08 17. 0x88 17. "  PEN81  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 16. 0x08 16. 0x88 16. "  PEN80  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 15. 0x08 15. 0x88 15. "  PEN79  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 14. 0x08 14. 0x88 14. "  PEN78  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x08 13. 0x08 13. 0x88 13. " PEN77  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 12. 0x08 12. 0x88 12. "  PEN76  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 11. 0x08 11. 0x88 11. "  PEN75  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 10. 0x08 10. 0x88 10. "  PEN74  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 9. 0x08 9. 0x88 9. "  PEN73  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 8. 0x08 8. 0x88 8. "  PEN72  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x08 7. 0x08 7. 0x88 7. " PEN71  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 6. 0x08 6. 0x88 6. "  PEN70  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 5. 0x08 5. 0x88 5. "  PEN69  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 4. 0x08 4. 0x88 4. "  PEN68  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 3. 0x08 3. 0x88 3. "  PEN67  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 2. 0x08 2. 0x88 2. "  PEN66  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x08 1. 0x08 1. 0x88 1. " PEN65  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 0. 0x08 0. 0x88 0. "  PEN64  ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x0c "IRQ96_127_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x0c 31. 0x0c 31. 0x8c 31. " PEN127 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 30. 0x0c 30. 0x8c 30. "  PEN126 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 29. 0x0c 29. 0x8c 29. "  PEN125 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 28. 0x0c 28. 0x8c 28. "  PEN124 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 27. 0x0c 27. 0x8c 27. "  PEN123 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 26. 0x0c 26. 0x8c 26. "  PEN122 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x0c 25. 0x0c 25. 0x8c 25. " PEN121 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 24. 0x0c 24. 0x8c 24. "  PEN120 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 23. 0x0c 23. 0x8c 23. "  PEN119 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 22. 0x0c 22. 0x8c 22. "  PEN118 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 21. 0x0c 21. 0x8c 21. "  PEN117 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 20. 0x0c 20. 0x8c 20. "  PEN116 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x0c 19. 0x0c 19. 0x8c 19. " PEN115 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 18. 0x0c 18. 0x8c 18. "  PEN114 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 17. 0x0c 17. 0x8c 17. "  PEN113 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 16. 0x0c 16. 0x8c 16. "  PEN112 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 15. 0x0c 15. 0x8c 15. "  PEN111 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 14. 0x0c 14. 0x8c 14. "  PEN110 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x0c 13. 0x0c 13. 0x8c 13. " PEN109 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 12. 0x0c 12. 0x8c 12. "  PEN108 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 11. 0x0c 11. 0x8c 11. "  PEN107 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 10. 0x0c 10. 0x8c 10. "  PEN106 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 9. 0x0c 9. 0x8c 9. "  PEN105 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 8. 0x0c 8. 0x8c 8. "  PEN104 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x0c 7. 0x0c 7. 0x8c 7. " PEN103 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 6. 0x0c 6. 0x8c 6. "  PEN102 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 5. 0x0c 5. 0x8c 5. "  PEN101 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 4. 0x0c 4. 0x8c 4. "  PEN100 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 3. 0x0c 3. 0x8c 3. "  PEN99  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 2. 0x0c 2. 0x8c 2. "  PEN98  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x0c 1. 0x0c 1. 0x8c 1. " PEN97  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 0. 0x0c 0. 0x8c 0. "  PEN96  ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x10 "IRQ128_159_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x10 31. 0x10 31. 0x90 31. " PEN159 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 30. 0x10 30. 0x90 30. "  PEN158 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 29. 0x10 29. 0x90 29. "  PEN157 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 28. 0x10 28. 0x90 28. "  PEN156 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 27. 0x10 27. 0x90 27. "  PEN155 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 26. 0x10 26. 0x90 26. "  PEN154 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x10 25. 0x10 25. 0x90 25. " PEN153 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 24. 0x10 24. 0x90 24. "  PEN152 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 23. 0x10 23. 0x90 23. "  PEN151 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 22. 0x10 22. 0x90 22. "  PEN150 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 21. 0x10 21. 0x90 21. "  PEN149 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 20. 0x10 20. 0x90 20. "  PEN148 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x10 19. 0x10 19. 0x90 19. " PEN147 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 18. 0x10 18. 0x90 18. "  PEN146 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 17. 0x10 17. 0x90 17. "  PEN145 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 16. 0x10 16. 0x90 16. "  PEN144 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 15. 0x10 15. 0x90 15. "  PEN143 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 14. 0x10 14. 0x90 14. "  PEN142 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x10 13. 0x10 13. 0x90 13. " PEN141 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 12. 0x10 12. 0x90 12. "  PEN140 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 11. 0x10 11. 0x90 11. "  PEN139 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 10. 0x10 10. 0x90 10. "  PEN138 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 9. 0x10 9. 0x90 9. "  PEN137 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 8. 0x10 8. 0x90 8. "  PEN136 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x10 7. 0x10 7. 0x90 7. " PEN135 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 6. 0x10 6. 0x90 6. "  PEN134 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 5. 0x10 5. 0x90 5. "  PEN133 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 4. 0x10 4. 0x90 4. "  PEN132 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 3. 0x10 3. 0x90 3. "  PEN131 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 2. 0x10 2. 0x90 2. "  PEN130 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x10 1. 0x10 1. 0x90 1. " PEN129 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 0. 0x10 0. 0x90 0. "  PEN128 ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x14 "IRQ160_191_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x14 31. 0x14 31. 0x94 31. " PEN191 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 30. 0x14 30. 0x94 30. "  PEN190 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 29. 0x14 29. 0x94 29. "  PEN189 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 28. 0x14 28. 0x94 28. "  PEN188 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 27. 0x14 27. 0x94 27. "  PEN187 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 26. 0x14 26. 0x94 26. "  PEN186 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x14 25. 0x14 25. 0x94 25. " PEN185 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 24. 0x14 24. 0x94 24. "  PEN184 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 23. 0x14 23. 0x94 23. "  PEN183 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 22. 0x14 22. 0x94 22. "  PEN182 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 21. 0x14 21. 0x94 21. "  PEN181 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 20. 0x14 20. 0x94 20. "  PEN180 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x14 19. 0x14 19. 0x94 19. " PEN179 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 18. 0x14 18. 0x94 18. "  PEN178 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 17. 0x14 17. 0x94 17. "  PEN177 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 16. 0x14 16. 0x94 16. "  PEN176 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 15. 0x14 15. 0x94 15. "  PEN175 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 14. 0x14 14. 0x94 14. "  PEN174 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x14 13. 0x14 13. 0x94 13. " PEN173 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 12. 0x14 12. 0x94 12. "  PEN172 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 11. 0x14 11. 0x94 11. "  PEN171 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 10. 0x14 10. 0x94 10. "  PEN170 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 9. 0x14 9. 0x94 9. "  PEN169 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 8. 0x14 8. 0x94 8. "  PEN168 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x14 7. 0x14 7. 0x94 7. " PEN167 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 6. 0x14 6. 0x94 6. "  PEN166 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 5. 0x14 5. 0x94 5. "  PEN165 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 4. 0x14 4. 0x94 4. "  PEN164 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 3. 0x14 3. 0x94 3. "  PEN163 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 2. 0x14 2. 0x94 2. "  PEN162 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x14 1. 0x14 1. 0x94 1. " PEN161 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 0. 0x14 0. 0x94 0. "  PEN160 ,Interrupt Set/Clear Pending" "Not pending,Pending"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x06)
group.long 0x200++0x1B
line.long 0x00 "IRQ0_31_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " PEN31  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  PEN30  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  PEN29  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 28. 0x00 28. 0x80 28. "  PEN28  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  PEN27  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  PEN26  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " PEN25  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  PEN24  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  PEN23  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 22. 0x00 22. 0x80 22. "  PEN22  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  PEN21  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  PEN20  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " PEN19  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  PEN18  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  PEN17  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 16. 0x00 16. 0x80 16. "  PEN16  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  PEN15  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  PEN14  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " PEN13  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  PEN12  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  PEN11  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 10. 0x00 10. 0x80 10. "  PEN10  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  PEN9   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  PEN8   ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " PEN7   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  PEN6   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  PEN5   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 4. 0x00 4. 0x80 4. "  PEN4   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  PEN3   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  PEN2   ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " PEN1   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  PEN0   ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x04 "IRQ32_63_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x04 31. 0x04 31. 0x84 31. " PEN63  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 30. 0x04 30. 0x84 30. "  PEN62  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 29. 0x04 29. 0x84 29. "  PEN61  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 28. 0x04 28. 0x84 28. "  PEN60  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 27. 0x04 27. 0x84 27. "  PEN59  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 26. 0x04 26. 0x84 26. "  PEN58  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 25. 0x04 25. 0x84 25. " PEN57  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 24. 0x04 24. 0x84 24. "  PEN56  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 23. 0x04 23. 0x84 23. "  PEN55  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 22. 0x04 22. 0x84 22. "  PEN54  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 21. 0x04 21. 0x84 21. "  PEN53  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 20. 0x04 20. 0x84 20. "  PEN52  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 19. 0x04 19. 0x84 19. " PEN51  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 18. 0x04 18. 0x84 18. "  PEN50  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 17. 0x04 17. 0x84 17. "  PEN49  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 16. 0x04 16. 0x84 16. "  PEN48  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 15. 0x04 15. 0x84 15. "  PEN47  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 14. 0x04 14. 0x84 14. "  PEN46  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 13. 0x04 13. 0x84 13. " PEN45  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 12. 0x04 12. 0x84 12. "  PEN44  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 11. 0x04 11. 0x84 11. "  PEN43  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 10. 0x04 10. 0x84 10. "  PEN42  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 9. 0x04 9. 0x84 9. "  PEN41  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 8. 0x04 8. 0x84 8. "  PEN40  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 7. 0x04 7. 0x84 7. " PEN39  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 6. 0x04 6. 0x84 6. "  PEN38  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 5. 0x04 5. 0x84 5. "  PEN37  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 4. 0x04 4. 0x84 4. "  PEN36  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 3. 0x04 3. 0x84 3. "  PEN35  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 2. 0x04 2. 0x84 2. "  PEN34  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 1. 0x04 1. 0x84 1. " PEN33  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 0. 0x04 0. 0x84 0. "  PEN32  ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x08 "IRQ64_95_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x08 31. 0x08 31. 0x88 31. " PEN95  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 30. 0x08 30. 0x88 30. "  PEN94  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 29. 0x08 29. 0x88 29. "  PEN93  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 28. 0x08 28. 0x88 28. "  PEN92  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 27. 0x08 27. 0x88 27. "  PEN91  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 26. 0x08 26. 0x88 26. "  PEN90  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x08 25. 0x08 25. 0x88 25. " PEN89  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 24. 0x08 24. 0x88 24. "  PEN88  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 23. 0x08 23. 0x88 23. "  PEN87  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 22. 0x08 22. 0x88 22. "  PEN86  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 21. 0x08 21. 0x88 21. "  PEN85  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 20. 0x08 20. 0x88 20. "  PEN84  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x08 19. 0x08 19. 0x88 19. " PEN83  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 18. 0x08 18. 0x88 18. "  PEN82  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 17. 0x08 17. 0x88 17. "  PEN81  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 16. 0x08 16. 0x88 16. "  PEN80  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 15. 0x08 15. 0x88 15. "  PEN79  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 14. 0x08 14. 0x88 14. "  PEN78  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x08 13. 0x08 13. 0x88 13. " PEN77  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 12. 0x08 12. 0x88 12. "  PEN76  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 11. 0x08 11. 0x88 11. "  PEN75  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 10. 0x08 10. 0x88 10. "  PEN74  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 9. 0x08 9. 0x88 9. "  PEN73  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 8. 0x08 8. 0x88 8. "  PEN72  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x08 7. 0x08 7. 0x88 7. " PEN71  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 6. 0x08 6. 0x88 6. "  PEN70  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 5. 0x08 5. 0x88 5. "  PEN69  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 4. 0x08 4. 0x88 4. "  PEN68  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 3. 0x08 3. 0x88 3. "  PEN67  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 2. 0x08 2. 0x88 2. "  PEN66  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x08 1. 0x08 1. 0x88 1. " PEN65  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 0. 0x08 0. 0x88 0. "  PEN64  ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x0c "IRQ96_127_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x0c 31. 0x0c 31. 0x8c 31. " PEN127 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 30. 0x0c 30. 0x8c 30. "  PEN126 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 29. 0x0c 29. 0x8c 29. "  PEN125 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 28. 0x0c 28. 0x8c 28. "  PEN124 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 27. 0x0c 27. 0x8c 27. "  PEN123 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 26. 0x0c 26. 0x8c 26. "  PEN122 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x0c 25. 0x0c 25. 0x8c 25. " PEN121 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 24. 0x0c 24. 0x8c 24. "  PEN120 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 23. 0x0c 23. 0x8c 23. "  PEN119 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 22. 0x0c 22. 0x8c 22. "  PEN118 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 21. 0x0c 21. 0x8c 21. "  PEN117 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 20. 0x0c 20. 0x8c 20. "  PEN116 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x0c 19. 0x0c 19. 0x8c 19. " PEN115 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 18. 0x0c 18. 0x8c 18. "  PEN114 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 17. 0x0c 17. 0x8c 17. "  PEN113 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 16. 0x0c 16. 0x8c 16. "  PEN112 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 15. 0x0c 15. 0x8c 15. "  PEN111 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 14. 0x0c 14. 0x8c 14. "  PEN110 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x0c 13. 0x0c 13. 0x8c 13. " PEN109 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 12. 0x0c 12. 0x8c 12. "  PEN108 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 11. 0x0c 11. 0x8c 11. "  PEN107 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 10. 0x0c 10. 0x8c 10. "  PEN106 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 9. 0x0c 9. 0x8c 9. "  PEN105 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 8. 0x0c 8. 0x8c 8. "  PEN104 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x0c 7. 0x0c 7. 0x8c 7. " PEN103 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 6. 0x0c 6. 0x8c 6. "  PEN102 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 5. 0x0c 5. 0x8c 5. "  PEN101 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 4. 0x0c 4. 0x8c 4. "  PEN100 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 3. 0x0c 3. 0x8c 3. "  PEN99  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 2. 0x0c 2. 0x8c 2. "  PEN98  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x0c 1. 0x0c 1. 0x8c 1. " PEN97  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 0. 0x0c 0. 0x8c 0. "  PEN96  ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x10 "IRQ128_159_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x10 31. 0x10 31. 0x90 31. " PEN159 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 30. 0x10 30. 0x90 30. "  PEN158 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 29. 0x10 29. 0x90 29. "  PEN157 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 28. 0x10 28. 0x90 28. "  PEN156 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 27. 0x10 27. 0x90 27. "  PEN155 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 26. 0x10 26. 0x90 26. "  PEN154 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x10 25. 0x10 25. 0x90 25. " PEN153 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 24. 0x10 24. 0x90 24. "  PEN152 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 23. 0x10 23. 0x90 23. "  PEN151 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 22. 0x10 22. 0x90 22. "  PEN150 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 21. 0x10 21. 0x90 21. "  PEN149 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 20. 0x10 20. 0x90 20. "  PEN148 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x10 19. 0x10 19. 0x90 19. " PEN147 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 18. 0x10 18. 0x90 18. "  PEN146 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 17. 0x10 17. 0x90 17. "  PEN145 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 16. 0x10 16. 0x90 16. "  PEN144 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 15. 0x10 15. 0x90 15. "  PEN143 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 14. 0x10 14. 0x90 14. "  PEN142 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x10 13. 0x10 13. 0x90 13. " PEN141 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 12. 0x10 12. 0x90 12. "  PEN140 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 11. 0x10 11. 0x90 11. "  PEN139 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 10. 0x10 10. 0x90 10. "  PEN138 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 9. 0x10 9. 0x90 9. "  PEN137 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 8. 0x10 8. 0x90 8. "  PEN136 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x10 7. 0x10 7. 0x90 7. " PEN135 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 6. 0x10 6. 0x90 6. "  PEN134 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 5. 0x10 5. 0x90 5. "  PEN133 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 4. 0x10 4. 0x90 4. "  PEN132 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 3. 0x10 3. 0x90 3. "  PEN131 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 2. 0x10 2. 0x90 2. "  PEN130 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x10 1. 0x10 1. 0x90 1. " PEN129 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 0. 0x10 0. 0x90 0. "  PEN128 ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x14 "IRQ160_191_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x14 31. 0x14 31. 0x94 31. " PEN191 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 30. 0x14 30. 0x94 30. "  PEN190 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 29. 0x14 29. 0x94 29. "  PEN189 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 28. 0x14 28. 0x94 28. "  PEN188 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 27. 0x14 27. 0x94 27. "  PEN187 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 26. 0x14 26. 0x94 26. "  PEN186 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x14 25. 0x14 25. 0x94 25. " PEN185 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 24. 0x14 24. 0x94 24. "  PEN184 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 23. 0x14 23. 0x94 23. "  PEN183 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 22. 0x14 22. 0x94 22. "  PEN182 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 21. 0x14 21. 0x94 21. "  PEN181 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 20. 0x14 20. 0x94 20. "  PEN180 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x14 19. 0x14 19. 0x94 19. " PEN179 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 18. 0x14 18. 0x94 18. "  PEN178 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 17. 0x14 17. 0x94 17. "  PEN177 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 16. 0x14 16. 0x94 16. "  PEN176 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 15. 0x14 15. 0x94 15. "  PEN175 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 14. 0x14 14. 0x94 14. "  PEN174 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x14 13. 0x14 13. 0x94 13. " PEN173 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 12. 0x14 12. 0x94 12. "  PEN172 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 11. 0x14 11. 0x94 11. "  PEN171 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 10. 0x14 10. 0x94 10. "  PEN170 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 9. 0x14 9. 0x94 9. "  PEN169 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 8. 0x14 8. 0x94 8. "  PEN168 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x14 7. 0x14 7. 0x94 7. " PEN167 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 6. 0x14 6. 0x94 6. "  PEN166 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 5. 0x14 5. 0x94 5. "  PEN165 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 4. 0x14 4. 0x94 4. "  PEN164 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 3. 0x14 3. 0x94 3. "  PEN163 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 2. 0x14 2. 0x94 2. "  PEN162 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x14 1. 0x14 1. 0x94 1. " PEN161 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 0. 0x14 0. 0x94 0. "  PEN160 ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x18 "IRQ192_223_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x18 31. 0x18 31. 0x98 31. " PEN223 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 30. 0x18 30. 0x98 30. "  PEN222 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 29. 0x18 29. 0x98 29. "  PEN221 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 28. 0x18 28. 0x98 28. "  PEN220 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 27. 0x18 27. 0x98 27. "  PEN219 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 26. 0x18 26. 0x98 26. "  PEN218 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x18 25. 0x18 25. 0x98 25. " PEN217 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 24. 0x18 24. 0x98 24. "  PEN216 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 23. 0x18 23. 0x98 23. "  PEN215 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 22. 0x18 22. 0x98 22. "  PEN214 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 21. 0x18 21. 0x98 21. "  PEN213 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 20. 0x18 20. 0x98 20. "  PEN212 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x18 19. 0x18 19. 0x98 19. " PEN211 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 18. 0x18 18. 0x98 18. "  PEN210 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 17. 0x18 17. 0x98 17. "  PEN209 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 16. 0x18 16. 0x98 16. "  PEN208 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 15. 0x18 15. 0x98 15. "  PEN207 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 14. 0x18 14. 0x98 14. "  PEN206 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x18 13. 0x18 13. 0x98 13. " PEN205 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 12. 0x18 12. 0x98 12. "  PEN204 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 11. 0x18 11. 0x98 11. "  PEN203 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 10. 0x18 10. 0x98 10. "  PEN202 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 9. 0x18 9. 0x98 9. "  PEN201 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 8. 0x18 8. 0x98 8. "  PEN200 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x18 7. 0x18 7. 0x98 7. " PEN199 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 6. 0x18 6. 0x98 6. "  PEN198 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 5. 0x18 5. 0x98 5. "  PEN197 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 4. 0x18 4. 0x98 4. "  PEN196 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 3. 0x18 3. 0x98 3. "  PEN195 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 2. 0x18 2. 0x98 2. "  PEN194 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x18 1. 0x18 1. 0x98 1. " PEN193 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 0. 0x18 0. 0x98 0. "  PEN192 ,Interrupt Set/Clear Pending" "Not pending,Pending"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x07)
group.long 0x200++0x1F
line.long 0x00 "IRQ0_31_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " PEN31  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  PEN30  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  PEN29  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 28. 0x00 28. 0x80 28. "  PEN28  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  PEN27  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  PEN26  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " PEN25  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  PEN24  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  PEN23  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 22. 0x00 22. 0x80 22. "  PEN22  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  PEN21  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  PEN20  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " PEN19  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  PEN18  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  PEN17  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 16. 0x00 16. 0x80 16. "  PEN16  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  PEN15  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  PEN14  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " PEN13  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  PEN12  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  PEN11  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 10. 0x00 10. 0x80 10. "  PEN10  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  PEN9   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  PEN8   ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " PEN7   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  PEN6   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  PEN5   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 4. 0x00 4. 0x80 4. "  PEN4   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  PEN3   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  PEN2   ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " PEN1   ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  PEN0   ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x04 "IRQ32_63_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x04 31. 0x04 31. 0x84 31. " PEN63  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 30. 0x04 30. 0x84 30. "  PEN62  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 29. 0x04 29. 0x84 29. "  PEN61  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 28. 0x04 28. 0x84 28. "  PEN60  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 27. 0x04 27. 0x84 27. "  PEN59  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 26. 0x04 26. 0x84 26. "  PEN58  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 25. 0x04 25. 0x84 25. " PEN57  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 24. 0x04 24. 0x84 24. "  PEN56  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 23. 0x04 23. 0x84 23. "  PEN55  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 22. 0x04 22. 0x84 22. "  PEN54  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 21. 0x04 21. 0x84 21. "  PEN53  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 20. 0x04 20. 0x84 20. "  PEN52  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 19. 0x04 19. 0x84 19. " PEN51  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 18. 0x04 18. 0x84 18. "  PEN50  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 17. 0x04 17. 0x84 17. "  PEN49  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 16. 0x04 16. 0x84 16. "  PEN48  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 15. 0x04 15. 0x84 15. "  PEN47  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 14. 0x04 14. 0x84 14. "  PEN46  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 13. 0x04 13. 0x84 13. " PEN45  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 12. 0x04 12. 0x84 12. "  PEN44  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 11. 0x04 11. 0x84 11. "  PEN43  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 10. 0x04 10. 0x84 10. "  PEN42  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 9. 0x04 9. 0x84 9. "  PEN41  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 8. 0x04 8. 0x84 8. "  PEN40  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 7. 0x04 7. 0x84 7. " PEN39  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 6. 0x04 6. 0x84 6. "  PEN38  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 5. 0x04 5. 0x84 5. "  PEN37  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 4. 0x04 4. 0x84 4. "  PEN36  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 3. 0x04 3. 0x84 3. "  PEN35  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 2. 0x04 2. 0x84 2. "  PEN34  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x04 1. 0x04 1. 0x84 1. " PEN33  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 0. 0x04 0. 0x84 0. "  PEN32  ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x08 "IRQ64_95_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x08 31. 0x08 31. 0x88 31. " PEN95  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 30. 0x08 30. 0x88 30. "  PEN94  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 29. 0x08 29. 0x88 29. "  PEN93  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 28. 0x08 28. 0x88 28. "  PEN92  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 27. 0x08 27. 0x88 27. "  PEN91  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 26. 0x08 26. 0x88 26. "  PEN90  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x08 25. 0x08 25. 0x88 25. " PEN89  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 24. 0x08 24. 0x88 24. "  PEN88  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 23. 0x08 23. 0x88 23. "  PEN87  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 22. 0x08 22. 0x88 22. "  PEN86  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 21. 0x08 21. 0x88 21. "  PEN85  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 20. 0x08 20. 0x88 20. "  PEN84  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x08 19. 0x08 19. 0x88 19. " PEN83  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 18. 0x08 18. 0x88 18. "  PEN82  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 17. 0x08 17. 0x88 17. "  PEN81  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 16. 0x08 16. 0x88 16. "  PEN80  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 15. 0x08 15. 0x88 15. "  PEN79  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 14. 0x08 14. 0x88 14. "  PEN78  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x08 13. 0x08 13. 0x88 13. " PEN77  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 12. 0x08 12. 0x88 12. "  PEN76  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 11. 0x08 11. 0x88 11. "  PEN75  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 10. 0x08 10. 0x88 10. "  PEN74  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 9. 0x08 9. 0x88 9. "  PEN73  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 8. 0x08 8. 0x88 8. "  PEN72  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x08 7. 0x08 7. 0x88 7. " PEN71  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 6. 0x08 6. 0x88 6. "  PEN70  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 5. 0x08 5. 0x88 5. "  PEN69  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 4. 0x08 4. 0x88 4. "  PEN68  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 3. 0x08 3. 0x88 3. "  PEN67  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 2. 0x08 2. 0x88 2. "  PEN66  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x08 1. 0x08 1. 0x88 1. " PEN65  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 0. 0x08 0. 0x88 0. "  PEN64  ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x0c "IRQ96_127_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x0c 31. 0x0c 31. 0x8c 31. " PEN127 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 30. 0x0c 30. 0x8c 30. "  PEN126 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 29. 0x0c 29. 0x8c 29. "  PEN125 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 28. 0x0c 28. 0x8c 28. "  PEN124 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 27. 0x0c 27. 0x8c 27. "  PEN123 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 26. 0x0c 26. 0x8c 26. "  PEN122 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x0c 25. 0x0c 25. 0x8c 25. " PEN121 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 24. 0x0c 24. 0x8c 24. "  PEN120 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 23. 0x0c 23. 0x8c 23. "  PEN119 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 22. 0x0c 22. 0x8c 22. "  PEN118 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 21. 0x0c 21. 0x8c 21. "  PEN117 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 20. 0x0c 20. 0x8c 20. "  PEN116 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x0c 19. 0x0c 19. 0x8c 19. " PEN115 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 18. 0x0c 18. 0x8c 18. "  PEN114 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 17. 0x0c 17. 0x8c 17. "  PEN113 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 16. 0x0c 16. 0x8c 16. "  PEN112 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 15. 0x0c 15. 0x8c 15. "  PEN111 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 14. 0x0c 14. 0x8c 14. "  PEN110 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x0c 13. 0x0c 13. 0x8c 13. " PEN109 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 12. 0x0c 12. 0x8c 12. "  PEN108 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 11. 0x0c 11. 0x8c 11. "  PEN107 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 10. 0x0c 10. 0x8c 10. "  PEN106 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 9. 0x0c 9. 0x8c 9. "  PEN105 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 8. 0x0c 8. 0x8c 8. "  PEN104 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x0c 7. 0x0c 7. 0x8c 7. " PEN103 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 6. 0x0c 6. 0x8c 6. "  PEN102 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 5. 0x0c 5. 0x8c 5. "  PEN101 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 4. 0x0c 4. 0x8c 4. "  PEN100 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 3. 0x0c 3. 0x8c 3. "  PEN99  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 2. 0x0c 2. 0x8c 2. "  PEN98  ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x0c 1. 0x0c 1. 0x8c 1. " PEN97  ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 0. 0x0c 0. 0x8c 0. "  PEN96  ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x10 "IRQ128_159_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x10 31. 0x10 31. 0x90 31. " PEN159 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 30. 0x10 30. 0x90 30. "  PEN158 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 29. 0x10 29. 0x90 29. "  PEN157 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 28. 0x10 28. 0x90 28. "  PEN156 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 27. 0x10 27. 0x90 27. "  PEN155 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 26. 0x10 26. 0x90 26. "  PEN154 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x10 25. 0x10 25. 0x90 25. " PEN153 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 24. 0x10 24. 0x90 24. "  PEN152 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 23. 0x10 23. 0x90 23. "  PEN151 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 22. 0x10 22. 0x90 22. "  PEN150 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 21. 0x10 21. 0x90 21. "  PEN149 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 20. 0x10 20. 0x90 20. "  PEN148 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x10 19. 0x10 19. 0x90 19. " PEN147 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 18. 0x10 18. 0x90 18. "  PEN146 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 17. 0x10 17. 0x90 17. "  PEN145 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 16. 0x10 16. 0x90 16. "  PEN144 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 15. 0x10 15. 0x90 15. "  PEN143 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 14. 0x10 14. 0x90 14. "  PEN142 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x10 13. 0x10 13. 0x90 13. " PEN141 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 12. 0x10 12. 0x90 12. "  PEN140 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 11. 0x10 11. 0x90 11. "  PEN139 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 10. 0x10 10. 0x90 10. "  PEN138 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 9. 0x10 9. 0x90 9. "  PEN137 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 8. 0x10 8. 0x90 8. "  PEN136 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x10 7. 0x10 7. 0x90 7. " PEN135 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 6. 0x10 6. 0x90 6. "  PEN134 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 5. 0x10 5. 0x90 5. "  PEN133 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 4. 0x10 4. 0x90 4. "  PEN132 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 3. 0x10 3. 0x90 3. "  PEN131 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 2. 0x10 2. 0x90 2. "  PEN130 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x10 1. 0x10 1. 0x90 1. " PEN129 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 0. 0x10 0. 0x90 0. "  PEN128 ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x14 "IRQ160_191_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x14 31. 0x14 31. 0x94 31. " PEN191 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 30. 0x14 30. 0x94 30. "  PEN190 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 29. 0x14 29. 0x94 29. "  PEN189 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 28. 0x14 28. 0x94 28. "  PEN188 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 27. 0x14 27. 0x94 27. "  PEN187 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 26. 0x14 26. 0x94 26. "  PEN186 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x14 25. 0x14 25. 0x94 25. " PEN185 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 24. 0x14 24. 0x94 24. "  PEN184 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 23. 0x14 23. 0x94 23. "  PEN183 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 22. 0x14 22. 0x94 22. "  PEN182 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 21. 0x14 21. 0x94 21. "  PEN181 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 20. 0x14 20. 0x94 20. "  PEN180 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x14 19. 0x14 19. 0x94 19. " PEN179 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 18. 0x14 18. 0x94 18. "  PEN178 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 17. 0x14 17. 0x94 17. "  PEN177 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 16. 0x14 16. 0x94 16. "  PEN176 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 15. 0x14 15. 0x94 15. "  PEN175 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 14. 0x14 14. 0x94 14. "  PEN174 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x14 13. 0x14 13. 0x94 13. " PEN173 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 12. 0x14 12. 0x94 12. "  PEN172 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 11. 0x14 11. 0x94 11. "  PEN171 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 10. 0x14 10. 0x94 10. "  PEN170 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 9. 0x14 9. 0x94 9. "  PEN169 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 8. 0x14 8. 0x94 8. "  PEN168 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x14 7. 0x14 7. 0x94 7. " PEN167 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 6. 0x14 6. 0x94 6. "  PEN166 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 5. 0x14 5. 0x94 5. "  PEN165 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 4. 0x14 4. 0x94 4. "  PEN164 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 3. 0x14 3. 0x94 3. "  PEN163 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 2. 0x14 2. 0x94 2. "  PEN162 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x14 1. 0x14 1. 0x94 1. " PEN161 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 0. 0x14 0. 0x94 0. "  PEN160 ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x18 "IRQ192_223_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x18 31. 0x18 31. 0x98 31. " PEN223 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 30. 0x18 30. 0x98 30. "  PEN222 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 29. 0x18 29. 0x98 29. "  PEN221 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 28. 0x18 28. 0x98 28. "  PEN220 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 27. 0x18 27. 0x98 27. "  PEN219 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 26. 0x18 26. 0x98 26. "  PEN218 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x18 25. 0x18 25. 0x98 25. " PEN217 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 24. 0x18 24. 0x98 24. "  PEN216 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 23. 0x18 23. 0x98 23. "  PEN215 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 22. 0x18 22. 0x98 22. "  PEN214 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 21. 0x18 21. 0x98 21. "  PEN213 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 20. 0x18 20. 0x98 20. "  PEN212 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x18 19. 0x18 19. 0x98 19. " PEN211 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 18. 0x18 18. 0x98 18. "  PEN210 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 17. 0x18 17. 0x98 17. "  PEN209 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 16. 0x18 16. 0x98 16. "  PEN208 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 15. 0x18 15. 0x98 15. "  PEN207 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 14. 0x18 14. 0x98 14. "  PEN206 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x18 13. 0x18 13. 0x98 13. " PEN205 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 12. 0x18 12. 0x98 12. "  PEN204 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 11. 0x18 11. 0x98 11. "  PEN203 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 10. 0x18 10. 0x98 10. "  PEN202 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 9. 0x18 9. 0x98 9. "  PEN201 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 8. 0x18 8. 0x98 8. "  PEN200 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x18 7. 0x18 7. 0x98 7. " PEN199 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 6. 0x18 6. 0x98 6. "  PEN198 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 5. 0x18 5. 0x98 5. "  PEN197 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 4. 0x18 4. 0x98 4. "  PEN196 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 3. 0x18 3. 0x98 3. "  PEN195 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 2. 0x18 2. 0x98 2. "  PEN194 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x18 1. 0x18 1. 0x98 1. " PEN193 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 0. 0x18 0. 0x98 0. "  PEN192 ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x1c "IRQ224_239_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x1c 15. 0x1c 15. 0x9c 15. " PEN239 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x1c 14. 0x1c 14. 0x9c 14. "  PEN238 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x1c 13. 0x1c 13. 0x9c 13. "  PEN237 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x1c 12. 0x1c 12. 0x9c 12. "  PEN236 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x1c 11. 0x1c 11. 0x9c 11. "  PEN235 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x1c 10. 0x1c 10. 0x9c 10. "  PEN234 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x1c 9. 0x1c 9. 0x9c 9. " PEN233 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x1c 8. 0x1c 8. 0x9c 8. "  PEN232 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x1c 7. 0x1c 7. 0x9c 7. "  PEN231 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x1c 6. 0x1c 6. 0x9c 6. "  PEN230 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x1c 5. 0x1c 5. 0x9c 5. "  PEN229 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x1c 4. 0x1c 4. 0x9c 4. "  PEN228 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline "                                "
setclrfld.long 0x1c 3. 0x1c 3. 0x9c 3. " PEN227 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x1c 2. 0x1c 2. 0x9c 2. "  PEN226 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x1c 1. 0x1c 1. 0x9c 1. "  PEN225 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x1c 0. 0x1c 0. 0x9c 0. "  PEN224 ,Interrupt Set/Clear Pending" "Not pending,Pending"
else
hgroup.long 0x200++0x1F
hide.long 0x00 "IRQ0_31_PEN_SET/CLR,Interrupt Pending Register"
hide.long 0x04 "IRQ32_63_PEN_SET/CLR,Interrupt Pending Register"
hide.long 0x08 "IRQ64_95_PEN_SET/CLR,Interrupt Pending Register"
hide.long 0x0c "IRQ96_127_PEN_SET/CLR,Interrupt Pending Register"
hide.long 0x10 "IRQ128_159_PEN_SET/CLR,Interrupt Pending Register"
hide.long 0x14 "IRQ160_191_PEN_SET/CLR,Interrupt Pending Register"
hide.long 0x18 "IRQ192_223_PEN_SET/CLR,Interrupt Pending Register"
hide.long 0x1c "IRQ224_239_PEN_SET/CLR,Interrupt Pending Register"
endif
tree.end
tree "Interrupt Active Bit Registers"
width 9.
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x00)
rgroup.long 0x300++0x03
line.long 0x00 "ACTIVE1,Active Bit Register 1"
bitfld.long 0x00 31. " ACTIVE31  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 30. "  ACTIVE30  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 29. "  ACTIVE29  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 28. "  ACTIVE28  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 27. "  ACTIVE27  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 26. "  ACTIVE26  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 25. " ACTIVE25  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 24. "  ACTIVE24  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 23. "  ACTIVE23  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 22. "  ACTIVE22  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 21. "  ACTIVE21  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 20. "  ACTIVE20  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 19. " ACTIVE19  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 18. "  ACTIVE18  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 17. "  ACTIVE17  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 16. "  ACTIVE16  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 15. "  ACTIVE15  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 14. "  ACTIVE14  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 13. " ACTIVE13  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 12. "  ACTIVE12  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 11. "  ACTIVE11  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 10. "  ACTIVE10  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 9. "  ACTIVE9   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 8. "  ACTIVE8   ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 7. " ACTIVE7   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 6. "  ACTIVE6   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 5. "  ACTIVE5   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 4. "  ACTIVE4   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 3. "  ACTIVE3   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 2. "  ACTIVE2   ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 1. " ACTIVE1   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 0. "  ACTIVE0   ,Interrupt Active Flag" "Not active,Active"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x01)
rgroup.long 0x300++0x07
line.long 0x00 "ACTIVE1,Active Bit Register 1"
bitfld.long 0x00 31. " ACTIVE31  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 30. "  ACTIVE30  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 29. "  ACTIVE29  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 28. "  ACTIVE28  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 27. "  ACTIVE27  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 26. "  ACTIVE26  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 25. " ACTIVE25  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 24. "  ACTIVE24  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 23. "  ACTIVE23  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 22. "  ACTIVE22  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 21. "  ACTIVE21  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 20. "  ACTIVE20  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 19. " ACTIVE19  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 18. "  ACTIVE18  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 17. "  ACTIVE17  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 16. "  ACTIVE16  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 15. "  ACTIVE15  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 14. "  ACTIVE14  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 13. " ACTIVE13  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 12. "  ACTIVE12  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 11. "  ACTIVE11  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 10. "  ACTIVE10  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 9. "  ACTIVE9   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 8. "  ACTIVE8   ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 7. " ACTIVE7   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 6. "  ACTIVE6   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 5. "  ACTIVE5   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 4. "  ACTIVE4   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 3. "  ACTIVE3   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 2. "  ACTIVE2   ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 1. " ACTIVE1   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 0. "  ACTIVE0   ,Interrupt Active Flag" "Not active,Active"
line.long 0x04 "ACTIVE2,Active Bit Register 2"
bitfld.long 0x04 31. " ACTIVE63  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 30. "  ACTIVE62  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 29. "  ACTIVE61  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 28. "  ACTIVE60  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 27. "  ACTIVE59  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 26. "  ACTIVE58  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 25. " ACTIVE57  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 24. "  ACTIVE56  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 23. "  ACTIVE55  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 22. "  ACTIVE54  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 21. "  ACTIVE53  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 20. "  ACTIVE52  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 19. " ACTIVE51  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 18. "  ACTIVE50  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 17. "  ACTIVE49  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 16. "  ACTIVE48  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 15. "  ACTIVE47  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 14. "  ACTIVE46  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 13. " ACTIVE45  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 12. "  ACTIVE44  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 11. "  ACTIVE43  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 10. "  ACTIVE42  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 9. "  ACTIVE41  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 8. "  ACTIVE40  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 7. " ACTIVE39  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 6. "  ACTIVE38  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 5. "  ACTIVE37  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 4. "  ACTIVE36  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 3. "  ACTIVE35  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 2. "  ACTIVE34  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 1. " ACTIVE33  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 0. "  ACTIVE32  ,Interrupt Active Flag" "Not active,Active"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x02)
rgroup.long 0x300++0x0B
line.long 0x00 "ACTIVE1,Active Bit Register 1"
bitfld.long 0x00 31. " ACTIVE31  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 30. "  ACTIVE30  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 29. "  ACTIVE29  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 28. "  ACTIVE28  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 27. "  ACTIVE27  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 26. "  ACTIVE26  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 25. " ACTIVE25  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 24. "  ACTIVE24  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 23. "  ACTIVE23  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 22. "  ACTIVE22  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 21. "  ACTIVE21  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 20. "  ACTIVE20  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 19. " ACTIVE19  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 18. "  ACTIVE18  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 17. "  ACTIVE17  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 16. "  ACTIVE16  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 15. "  ACTIVE15  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 14. "  ACTIVE14  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 13. " ACTIVE13  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 12. "  ACTIVE12  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 11. "  ACTIVE11  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 10. "  ACTIVE10  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 9. "  ACTIVE9   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 8. "  ACTIVE8   ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 7. " ACTIVE7   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 6. "  ACTIVE6   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 5. "  ACTIVE5   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 4. "  ACTIVE4   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 3. "  ACTIVE3   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 2. "  ACTIVE2   ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 1. " ACTIVE1   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 0. "  ACTIVE0   ,Interrupt Active Flag" "Not active,Active"
line.long 0x04 "ACTIVE2,Active Bit Register 2"
bitfld.long 0x04 31. " ACTIVE63  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 30. "  ACTIVE62  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 29. "  ACTIVE61  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 28. "  ACTIVE60  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 27. "  ACTIVE59  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 26. "  ACTIVE58  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 25. " ACTIVE57  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 24. "  ACTIVE56  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 23. "  ACTIVE55  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 22. "  ACTIVE54  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 21. "  ACTIVE53  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 20. "  ACTIVE52  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 19. " ACTIVE51  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 18. "  ACTIVE50  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 17. "  ACTIVE49  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 16. "  ACTIVE48  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 15. "  ACTIVE47  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 14. "  ACTIVE46  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 13. " ACTIVE45  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 12. "  ACTIVE44  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 11. "  ACTIVE43  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 10. "  ACTIVE42  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 9. "  ACTIVE41  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 8. "  ACTIVE40  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 7. " ACTIVE39  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 6. "  ACTIVE38  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 5. "  ACTIVE37  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 4. "  ACTIVE36  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 3. "  ACTIVE35  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 2. "  ACTIVE34  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 1. " ACTIVE33  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 0. "  ACTIVE32  ,Interrupt Active Flag" "Not active,Active"
line.long 0x08 "ACTIVE3,Active Bit Register 3"
bitfld.long 0x08 31. " ACTIVE95  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 30. "  ACTIVE94  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 29. "  ACTIVE93  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 28. "  ACTIVE92  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 27. "  ACTIVE91  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 26. "  ACTIVE90  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x08 25. " ACTIVE89  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 24. "  ACTIVE88  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 23. "  ACTIVE87  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 22. "  ACTIVE86  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 21. "  ACTIVE85  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 20. "  ACTIVE84  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x08 19. " ACTIVE83  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 18. "  ACTIVE82  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 17. "  ACTIVE81  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 16. "  ACTIVE80  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 15. "  ACTIVE79  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 14. "  ACTIVE78  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x08 13. " ACTIVE77  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 12. "  ACTIVE76  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 11. "  ACTIVE75  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 10. "  ACTIVE74  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 9. "  ACTIVE73  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 8. "  ACTIVE72  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x08 7. " ACTIVE71  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 6. "  ACTIVE70  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 5. "  ACTIVE69  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 4. "  ACTIVE68  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 3. "  ACTIVE67  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 2. "  ACTIVE66  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x08 1. " ACTIVE65  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 0. "  ACTIVE64  ,Interrupt Active Flag" "Not active,Active"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x03)
rgroup.long 0x300++0x0F
line.long 0x00 "ACTIVE1,Active Bit Register 1"
bitfld.long 0x00 31. " ACTIVE31  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 30. "  ACTIVE30  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 29. "  ACTIVE29  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 28. "  ACTIVE28  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 27. "  ACTIVE27  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 26. "  ACTIVE26  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 25. " ACTIVE25  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 24. "  ACTIVE24  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 23. "  ACTIVE23  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 22. "  ACTIVE22  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 21. "  ACTIVE21  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 20. "  ACTIVE20  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 19. " ACTIVE19  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 18. "  ACTIVE18  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 17. "  ACTIVE17  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 16. "  ACTIVE16  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 15. "  ACTIVE15  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 14. "  ACTIVE14  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 13. " ACTIVE13  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 12. "  ACTIVE12  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 11. "  ACTIVE11  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 10. "  ACTIVE10  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 9. "  ACTIVE9   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 8. "  ACTIVE8   ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 7. " ACTIVE7   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 6. "  ACTIVE6   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 5. "  ACTIVE5   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 4. "  ACTIVE4   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 3. "  ACTIVE3   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 2. "  ACTIVE2   ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 1. " ACTIVE1   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 0. "  ACTIVE0   ,Interrupt Active Flag" "Not active,Active"
line.long 0x04 "ACTIVE2,Active Bit Register 2"
bitfld.long 0x04 31. " ACTIVE63  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 30. "  ACTIVE62  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 29. "  ACTIVE61  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 28. "  ACTIVE60  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 27. "  ACTIVE59  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 26. "  ACTIVE58  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 25. " ACTIVE57  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 24. "  ACTIVE56  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 23. "  ACTIVE55  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 22. "  ACTIVE54  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 21. "  ACTIVE53  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 20. "  ACTIVE52  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 19. " ACTIVE51  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 18. "  ACTIVE50  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 17. "  ACTIVE49  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 16. "  ACTIVE48  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 15. "  ACTIVE47  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 14. "  ACTIVE46  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 13. " ACTIVE45  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 12. "  ACTIVE44  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 11. "  ACTIVE43  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 10. "  ACTIVE42  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 9. "  ACTIVE41  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 8. "  ACTIVE40  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 7. " ACTIVE39  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 6. "  ACTIVE38  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 5. "  ACTIVE37  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 4. "  ACTIVE36  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 3. "  ACTIVE35  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 2. "  ACTIVE34  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 1. " ACTIVE33  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 0. "  ACTIVE32  ,Interrupt Active Flag" "Not active,Active"
line.long 0x08 "ACTIVE3,Active Bit Register 3"
bitfld.long 0x08 31. " ACTIVE95  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 30. "  ACTIVE94  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 29. "  ACTIVE93  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 28. "  ACTIVE92  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 27. "  ACTIVE91  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 26. "  ACTIVE90  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x08 25. " ACTIVE89  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 24. "  ACTIVE88  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 23. "  ACTIVE87  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 22. "  ACTIVE86  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 21. "  ACTIVE85  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 20. "  ACTIVE84  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x08 19. " ACTIVE83  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 18. "  ACTIVE82  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 17. "  ACTIVE81  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 16. "  ACTIVE80  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 15. "  ACTIVE79  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 14. "  ACTIVE78  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x08 13. " ACTIVE77  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 12. "  ACTIVE76  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 11. "  ACTIVE75  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 10. "  ACTIVE74  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 9. "  ACTIVE73  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 8. "  ACTIVE72  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x08 7. " ACTIVE71  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 6. "  ACTIVE70  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 5. "  ACTIVE69  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 4. "  ACTIVE68  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 3. "  ACTIVE67  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 2. "  ACTIVE66  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x08 1. " ACTIVE65  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 0. "  ACTIVE64  ,Interrupt Active Flag" "Not active,Active"
line.long 0x0c "ACTIVE4,Active Bit Register 4"
bitfld.long 0x0c 31. " ACTIVE127 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 30. "  ACTIVE126 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 29. "  ACTIVE125 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 28. "  ACTIVE124 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 27. "  ACTIVE123 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 26. "  ACTIVE122 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x0c 25. " ACTIVE121 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 24. "  ACTIVE120 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 23. "  ACTIVE119 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 22. "  ACTIVE118 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 21. "  ACTIVE117 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 20. "  ACTIVE116 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x0c 19. " ACTIVE115 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 18. "  ACTIVE114 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 17. "  ACTIVE113 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 16. "  ACTIVE112 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 15. "  ACTIVE111 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 14. "  ACTIVE110 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x0c 13. " ACTIVE109 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 12. "  ACTIVE108 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 11. "  ACTIVE107 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 10. "  ACTIVE106 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 9. "  ACTIVE105 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 8. "  ACTIVE104 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x0c 7. " ACTIVE103 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 6. "  ACTIVE102 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 5. "  ACTIVE101 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 4. "  ACTIVE100 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 3. "  ACTIVE99  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 2. "  ACTIVE98  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x0c 1. " ACTIVE97  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 0. "  ACTIVE96  ,Interrupt Active Flag" "Not active,Active"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x04)
rgroup.long 0x300++0x13
line.long 0x00 "ACTIVE1,Active Bit Register 1"
bitfld.long 0x00 31. " ACTIVE31  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 30. "  ACTIVE30  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 29. "  ACTIVE29  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 28. "  ACTIVE28  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 27. "  ACTIVE27  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 26. "  ACTIVE26  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 25. " ACTIVE25  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 24. "  ACTIVE24  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 23. "  ACTIVE23  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 22. "  ACTIVE22  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 21. "  ACTIVE21  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 20. "  ACTIVE20  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 19. " ACTIVE19  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 18. "  ACTIVE18  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 17. "  ACTIVE17  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 16. "  ACTIVE16  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 15. "  ACTIVE15  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 14. "  ACTIVE14  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 13. " ACTIVE13  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 12. "  ACTIVE12  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 11. "  ACTIVE11  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 10. "  ACTIVE10  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 9. "  ACTIVE9   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 8. "  ACTIVE8   ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 7. " ACTIVE7   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 6. "  ACTIVE6   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 5. "  ACTIVE5   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 4. "  ACTIVE4   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 3. "  ACTIVE3   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 2. "  ACTIVE2   ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 1. " ACTIVE1   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 0. "  ACTIVE0   ,Interrupt Active Flag" "Not active,Active"
line.long 0x04 "ACTIVE2,Active Bit Register 2"
bitfld.long 0x04 31. " ACTIVE63  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 30. "  ACTIVE62  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 29. "  ACTIVE61  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 28. "  ACTIVE60  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 27. "  ACTIVE59  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 26. "  ACTIVE58  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 25. " ACTIVE57  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 24. "  ACTIVE56  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 23. "  ACTIVE55  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 22. "  ACTIVE54  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 21. "  ACTIVE53  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 20. "  ACTIVE52  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 19. " ACTIVE51  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 18. "  ACTIVE50  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 17. "  ACTIVE49  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 16. "  ACTIVE48  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 15. "  ACTIVE47  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 14. "  ACTIVE46  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 13. " ACTIVE45  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 12. "  ACTIVE44  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 11. "  ACTIVE43  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 10. "  ACTIVE42  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 9. "  ACTIVE41  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 8. "  ACTIVE40  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 7. " ACTIVE39  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 6. "  ACTIVE38  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 5. "  ACTIVE37  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 4. "  ACTIVE36  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 3. "  ACTIVE35  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 2. "  ACTIVE34  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 1. " ACTIVE33  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 0. "  ACTIVE32  ,Interrupt Active Flag" "Not active,Active"
line.long 0x08 "ACTIVE3,Active Bit Register 3"
bitfld.long 0x08 31. " ACTIVE95  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 30. "  ACTIVE94  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 29. "  ACTIVE93  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 28. "  ACTIVE92  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 27. "  ACTIVE91  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 26. "  ACTIVE90  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x08 25. " ACTIVE89  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 24. "  ACTIVE88  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 23. "  ACTIVE87  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 22. "  ACTIVE86  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 21. "  ACTIVE85  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 20. "  ACTIVE84  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x08 19. " ACTIVE83  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 18. "  ACTIVE82  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 17. "  ACTIVE81  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 16. "  ACTIVE80  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 15. "  ACTIVE79  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 14. "  ACTIVE78  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x08 13. " ACTIVE77  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 12. "  ACTIVE76  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 11. "  ACTIVE75  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 10. "  ACTIVE74  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 9. "  ACTIVE73  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 8. "  ACTIVE72  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x08 7. " ACTIVE71  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 6. "  ACTIVE70  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 5. "  ACTIVE69  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 4. "  ACTIVE68  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 3. "  ACTIVE67  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 2. "  ACTIVE66  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x08 1. " ACTIVE65  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 0. "  ACTIVE64  ,Interrupt Active Flag" "Not active,Active"
line.long 0x0c "ACTIVE4,Active Bit Register 4"
bitfld.long 0x0c 31. " ACTIVE127 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 30. "  ACTIVE126 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 29. "  ACTIVE125 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 28. "  ACTIVE124 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 27. "  ACTIVE123 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 26. "  ACTIVE122 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x0c 25. " ACTIVE121 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 24. "  ACTIVE120 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 23. "  ACTIVE119 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 22. "  ACTIVE118 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 21. "  ACTIVE117 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 20. "  ACTIVE116 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x0c 19. " ACTIVE115 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 18. "  ACTIVE114 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 17. "  ACTIVE113 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 16. "  ACTIVE112 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 15. "  ACTIVE111 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 14. "  ACTIVE110 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x0c 13. " ACTIVE109 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 12. "  ACTIVE108 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 11. "  ACTIVE107 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 10. "  ACTIVE106 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 9. "  ACTIVE105 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 8. "  ACTIVE104 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x0c 7. " ACTIVE103 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 6. "  ACTIVE102 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 5. "  ACTIVE101 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 4. "  ACTIVE100 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 3. "  ACTIVE99  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 2. "  ACTIVE98  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x0c 1. " ACTIVE97  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 0. "  ACTIVE96  ,Interrupt Active Flag" "Not active,Active"
line.long 0x10 "ACTIVE5,Active Bit Register 5"
bitfld.long 0x10 31. " ACTIVE159 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 30. "  ACTIVE158 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 29. "  ACTIVE157 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 28. "  ACTIVE156 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 27. "  ACTIVE155 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 26. "  ACTIVE154 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x10 25. " ACTIVE153 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 24. "  ACTIVE152 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 23. "  ACTIVE151 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 22. "  ACTIVE150 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 21. "  ACTIVE149 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 20. "  ACTIVE148 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x10 19. " ACTIVE147 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 18. "  ACTIVE146 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 17. "  ACTIVE145 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 16. "  ACTIVE144 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 15. "  ACTIVE143 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 14. "  ACTIVE142 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x10 13. " ACTIVE141 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 12. "  ACTIVE140 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 11. "  ACTIVE139 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 10. "  ACTIVE138 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 9. "  ACTIVE137 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 8. "  ACTIVE136 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x10 7. " ACTIVE135 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 6. "  ACTIVE134 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 5. "  ACTIVE133 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 4. "  ACTIVE132 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 3. "  ACTIVE131 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 2. "  ACTIVE130 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x10 1. " ACTIVE129 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 0. "  ACTIVE128 ,Interrupt Active Flag" "Not active,Active"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x05)
rgroup.long 0x300++0x17
line.long 0x00 "ACTIVE1,Active Bit Register 1"
bitfld.long 0x00 31. " ACTIVE31  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 30. "  ACTIVE30  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 29. "  ACTIVE29  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 28. "  ACTIVE28  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 27. "  ACTIVE27  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 26. "  ACTIVE26  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 25. " ACTIVE25  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 24. "  ACTIVE24  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 23. "  ACTIVE23  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 22. "  ACTIVE22  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 21. "  ACTIVE21  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 20. "  ACTIVE20  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 19. " ACTIVE19  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 18. "  ACTIVE18  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 17. "  ACTIVE17  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 16. "  ACTIVE16  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 15. "  ACTIVE15  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 14. "  ACTIVE14  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 13. " ACTIVE13  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 12. "  ACTIVE12  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 11. "  ACTIVE11  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 10. "  ACTIVE10  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 9. "  ACTIVE9   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 8. "  ACTIVE8   ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 7. " ACTIVE7   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 6. "  ACTIVE6   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 5. "  ACTIVE5   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 4. "  ACTIVE4   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 3. "  ACTIVE3   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 2. "  ACTIVE2   ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 1. " ACTIVE1   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 0. "  ACTIVE0   ,Interrupt Active Flag" "Not active,Active"
line.long 0x04 "ACTIVE2,Active Bit Register 2"
bitfld.long 0x04 31. " ACTIVE63  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 30. "  ACTIVE62  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 29. "  ACTIVE61  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 28. "  ACTIVE60  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 27. "  ACTIVE59  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 26. "  ACTIVE58  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 25. " ACTIVE57  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 24. "  ACTIVE56  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 23. "  ACTIVE55  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 22. "  ACTIVE54  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 21. "  ACTIVE53  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 20. "  ACTIVE52  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 19. " ACTIVE51  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 18. "  ACTIVE50  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 17. "  ACTIVE49  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 16. "  ACTIVE48  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 15. "  ACTIVE47  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 14. "  ACTIVE46  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 13. " ACTIVE45  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 12. "  ACTIVE44  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 11. "  ACTIVE43  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 10. "  ACTIVE42  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 9. "  ACTIVE41  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 8. "  ACTIVE40  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 7. " ACTIVE39  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 6. "  ACTIVE38  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 5. "  ACTIVE37  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 4. "  ACTIVE36  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 3. "  ACTIVE35  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 2. "  ACTIVE34  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 1. " ACTIVE33  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 0. "  ACTIVE32  ,Interrupt Active Flag" "Not active,Active"
line.long 0x08 "ACTIVE3,Active Bit Register 3"
bitfld.long 0x08 31. " ACTIVE95  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 30. "  ACTIVE94  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 29. "  ACTIVE93  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 28. "  ACTIVE92  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 27. "  ACTIVE91  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 26. "  ACTIVE90  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x08 25. " ACTIVE89  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 24. "  ACTIVE88  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 23. "  ACTIVE87  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 22. "  ACTIVE86  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 21. "  ACTIVE85  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 20. "  ACTIVE84  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x08 19. " ACTIVE83  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 18. "  ACTIVE82  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 17. "  ACTIVE81  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 16. "  ACTIVE80  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 15. "  ACTIVE79  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 14. "  ACTIVE78  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x08 13. " ACTIVE77  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 12. "  ACTIVE76  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 11. "  ACTIVE75  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 10. "  ACTIVE74  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 9. "  ACTIVE73  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 8. "  ACTIVE72  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x08 7. " ACTIVE71  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 6. "  ACTIVE70  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 5. "  ACTIVE69  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 4. "  ACTIVE68  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 3. "  ACTIVE67  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 2. "  ACTIVE66  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x08 1. " ACTIVE65  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 0. "  ACTIVE64  ,Interrupt Active Flag" "Not active,Active"
line.long 0x0c "ACTIVE4,Active Bit Register 4"
bitfld.long 0x0c 31. " ACTIVE127 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 30. "  ACTIVE126 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 29. "  ACTIVE125 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 28. "  ACTIVE124 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 27. "  ACTIVE123 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 26. "  ACTIVE122 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x0c 25. " ACTIVE121 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 24. "  ACTIVE120 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 23. "  ACTIVE119 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 22. "  ACTIVE118 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 21. "  ACTIVE117 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 20. "  ACTIVE116 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x0c 19. " ACTIVE115 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 18. "  ACTIVE114 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 17. "  ACTIVE113 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 16. "  ACTIVE112 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 15. "  ACTIVE111 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 14. "  ACTIVE110 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x0c 13. " ACTIVE109 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 12. "  ACTIVE108 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 11. "  ACTIVE107 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 10. "  ACTIVE106 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 9. "  ACTIVE105 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 8. "  ACTIVE104 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x0c 7. " ACTIVE103 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 6. "  ACTIVE102 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 5. "  ACTIVE101 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 4. "  ACTIVE100 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 3. "  ACTIVE99  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 2. "  ACTIVE98  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x0c 1. " ACTIVE97  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 0. "  ACTIVE96  ,Interrupt Active Flag" "Not active,Active"
line.long 0x10 "ACTIVE5,Active Bit Register 5"
bitfld.long 0x10 31. " ACTIVE159 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 30. "  ACTIVE158 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 29. "  ACTIVE157 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 28. "  ACTIVE156 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 27. "  ACTIVE155 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 26. "  ACTIVE154 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x10 25. " ACTIVE153 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 24. "  ACTIVE152 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 23. "  ACTIVE151 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 22. "  ACTIVE150 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 21. "  ACTIVE149 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 20. "  ACTIVE148 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x10 19. " ACTIVE147 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 18. "  ACTIVE146 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 17. "  ACTIVE145 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 16. "  ACTIVE144 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 15. "  ACTIVE143 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 14. "  ACTIVE142 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x10 13. " ACTIVE141 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 12. "  ACTIVE140 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 11. "  ACTIVE139 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 10. "  ACTIVE138 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 9. "  ACTIVE137 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 8. "  ACTIVE136 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x10 7. " ACTIVE135 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 6. "  ACTIVE134 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 5. "  ACTIVE133 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 4. "  ACTIVE132 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 3. "  ACTIVE131 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 2. "  ACTIVE130 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x10 1. " ACTIVE129 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 0. "  ACTIVE128 ,Interrupt Active Flag" "Not active,Active"
line.long 0x14 "ACTIVE6,Active Bit Register 6"
bitfld.long 0x14 31. " ACTIVE191 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 30. "  ACTIVE190 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 29. "  ACTIVE189 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 28. "  ACTIVE188 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 27. "  ACTIVE187 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 26. "  ACTIVE186 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x14 25. " ACTIVE185 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 24. "  ACTIVE184 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 23. "  ACTIVE183 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 22. "  ACTIVE182 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 21. "  ACTIVE181 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 20. "  ACTIVE180 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x14 19. " ACTIVE179 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 18. "  ACTIVE178 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 17. "  ACTIVE177 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 16. "  ACTIVE176 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 15. "  ACTIVE175 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 14. "  ACTIVE174 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x14 13. " ACTIVE173 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 12. "  ACTIVE172 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 11. "  ACTIVE171 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 10. "  ACTIVE170 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 9. "  ACTIVE169 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 8. "  ACTIVE168 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x14 7. " ACTIVE167 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 6. "  ACTIVE166 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 5. "  ACTIVE165 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 4. "  ACTIVE164 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 3. "  ACTIVE163 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 2. "  ACTIVE162 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x14 1. " ACTIVE161 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 0. "  ACTIVE160 ,Interrupt Active Flag" "Not active,Active"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x06)
rgroup.long 0x300++0x1B
line.long 0x00 "ACTIVE1,Active Bit Register 1"
bitfld.long 0x00 31. " ACTIVE31  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 30. "  ACTIVE30  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 29. "  ACTIVE29  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 28. "  ACTIVE28  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 27. "  ACTIVE27  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 26. "  ACTIVE26  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 25. " ACTIVE25  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 24. "  ACTIVE24  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 23. "  ACTIVE23  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 22. "  ACTIVE22  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 21. "  ACTIVE21  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 20. "  ACTIVE20  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 19. " ACTIVE19  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 18. "  ACTIVE18  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 17. "  ACTIVE17  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 16. "  ACTIVE16  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 15. "  ACTIVE15  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 14. "  ACTIVE14  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 13. " ACTIVE13  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 12. "  ACTIVE12  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 11. "  ACTIVE11  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 10. "  ACTIVE10  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 9. "  ACTIVE9   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 8. "  ACTIVE8   ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 7. " ACTIVE7   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 6. "  ACTIVE6   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 5. "  ACTIVE5   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 4. "  ACTIVE4   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 3. "  ACTIVE3   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 2. "  ACTIVE2   ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 1. " ACTIVE1   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 0. "  ACTIVE0   ,Interrupt Active Flag" "Not active,Active"
line.long 0x04 "ACTIVE2,Active Bit Register 2"
bitfld.long 0x04 31. " ACTIVE63  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 30. "  ACTIVE62  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 29. "  ACTIVE61  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 28. "  ACTIVE60  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 27. "  ACTIVE59  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 26. "  ACTIVE58  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 25. " ACTIVE57  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 24. "  ACTIVE56  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 23. "  ACTIVE55  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 22. "  ACTIVE54  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 21. "  ACTIVE53  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 20. "  ACTIVE52  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 19. " ACTIVE51  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 18. "  ACTIVE50  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 17. "  ACTIVE49  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 16. "  ACTIVE48  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 15. "  ACTIVE47  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 14. "  ACTIVE46  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 13. " ACTIVE45  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 12. "  ACTIVE44  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 11. "  ACTIVE43  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 10. "  ACTIVE42  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 9. "  ACTIVE41  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 8. "  ACTIVE40  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 7. " ACTIVE39  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 6. "  ACTIVE38  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 5. "  ACTIVE37  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 4. "  ACTIVE36  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 3. "  ACTIVE35  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 2. "  ACTIVE34  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 1. " ACTIVE33  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 0. "  ACTIVE32  ,Interrupt Active Flag" "Not active,Active"
line.long 0x08 "ACTIVE3,Active Bit Register 3"
bitfld.long 0x08 31. " ACTIVE95  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 30. "  ACTIVE94  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 29. "  ACTIVE93  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 28. "  ACTIVE92  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 27. "  ACTIVE91  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 26. "  ACTIVE90  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x08 25. " ACTIVE89  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 24. "  ACTIVE88  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 23. "  ACTIVE87  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 22. "  ACTIVE86  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 21. "  ACTIVE85  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 20. "  ACTIVE84  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x08 19. " ACTIVE83  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 18. "  ACTIVE82  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 17. "  ACTIVE81  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 16. "  ACTIVE80  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 15. "  ACTIVE79  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 14. "  ACTIVE78  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x08 13. " ACTIVE77  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 12. "  ACTIVE76  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 11. "  ACTIVE75  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 10. "  ACTIVE74  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 9. "  ACTIVE73  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 8. "  ACTIVE72  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x08 7. " ACTIVE71  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 6. "  ACTIVE70  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 5. "  ACTIVE69  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 4. "  ACTIVE68  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 3. "  ACTIVE67  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 2. "  ACTIVE66  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x08 1. " ACTIVE65  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 0. "  ACTIVE64  ,Interrupt Active Flag" "Not active,Active"
line.long 0x0c "ACTIVE4,Active Bit Register 4"
bitfld.long 0x0c 31. " ACTIVE127 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 30. "  ACTIVE126 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 29. "  ACTIVE125 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 28. "  ACTIVE124 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 27. "  ACTIVE123 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 26. "  ACTIVE122 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x0c 25. " ACTIVE121 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 24. "  ACTIVE120 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 23. "  ACTIVE119 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 22. "  ACTIVE118 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 21. "  ACTIVE117 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 20. "  ACTIVE116 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x0c 19. " ACTIVE115 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 18. "  ACTIVE114 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 17. "  ACTIVE113 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 16. "  ACTIVE112 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 15. "  ACTIVE111 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 14. "  ACTIVE110 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x0c 13. " ACTIVE109 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 12. "  ACTIVE108 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 11. "  ACTIVE107 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 10. "  ACTIVE106 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 9. "  ACTIVE105 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 8. "  ACTIVE104 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x0c 7. " ACTIVE103 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 6. "  ACTIVE102 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 5. "  ACTIVE101 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 4. "  ACTIVE100 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 3. "  ACTIVE99  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 2. "  ACTIVE98  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x0c 1. " ACTIVE97  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 0. "  ACTIVE96  ,Interrupt Active Flag" "Not active,Active"
line.long 0x10 "ACTIVE5,Active Bit Register 5"
bitfld.long 0x10 31. " ACTIVE159 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 30. "  ACTIVE158 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 29. "  ACTIVE157 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 28. "  ACTIVE156 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 27. "  ACTIVE155 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 26. "  ACTIVE154 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x10 25. " ACTIVE153 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 24. "  ACTIVE152 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 23. "  ACTIVE151 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 22. "  ACTIVE150 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 21. "  ACTIVE149 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 20. "  ACTIVE148 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x10 19. " ACTIVE147 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 18. "  ACTIVE146 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 17. "  ACTIVE145 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 16. "  ACTIVE144 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 15. "  ACTIVE143 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 14. "  ACTIVE142 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x10 13. " ACTIVE141 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 12. "  ACTIVE140 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 11. "  ACTIVE139 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 10. "  ACTIVE138 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 9. "  ACTIVE137 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 8. "  ACTIVE136 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x10 7. " ACTIVE135 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 6. "  ACTIVE134 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 5. "  ACTIVE133 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 4. "  ACTIVE132 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 3. "  ACTIVE131 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 2. "  ACTIVE130 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x10 1. " ACTIVE129 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 0. "  ACTIVE128 ,Interrupt Active Flag" "Not active,Active"
line.long 0x14 "ACTIVE6,Active Bit Register 6"
bitfld.long 0x14 31. " ACTIVE191 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 30. "  ACTIVE190 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 29. "  ACTIVE189 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 28. "  ACTIVE188 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 27. "  ACTIVE187 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 26. "  ACTIVE186 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x14 25. " ACTIVE185 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 24. "  ACTIVE184 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 23. "  ACTIVE183 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 22. "  ACTIVE182 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 21. "  ACTIVE181 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 20. "  ACTIVE180 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x14 19. " ACTIVE179 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 18. "  ACTIVE178 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 17. "  ACTIVE177 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 16. "  ACTIVE176 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 15. "  ACTIVE175 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 14. "  ACTIVE174 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x14 13. " ACTIVE173 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 12. "  ACTIVE172 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 11. "  ACTIVE171 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 10. "  ACTIVE170 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 9. "  ACTIVE169 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 8. "  ACTIVE168 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x14 7. " ACTIVE167 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 6. "  ACTIVE166 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 5. "  ACTIVE165 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 4. "  ACTIVE164 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 3. "  ACTIVE163 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 2. "  ACTIVE162 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x14 1. " ACTIVE161 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 0. "  ACTIVE160 ,Interrupt Active Flag" "Not active,Active"
line.long 0x18 "ACTIVE7,Active Bit Register 7"
bitfld.long 0x18 31. " ACTIVE223 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 30. "  ACTIVE222 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 29. "  ACTIVE221 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 28. "  ACTIVE220 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 27. "  ACTIVE219 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 26. "  ACTIVE218 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x18 25. " ACTIVE217 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 24. "  ACTIVE216 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 23. "  ACTIVE215 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 22. "  ACTIVE214 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 21. "  ACTIVE213 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 20. "  ACTIVE212 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x18 19. " ACTIVE211 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 18. "  ACTIVE210 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 17. "  ACTIVE209 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 16. "  ACTIVE208 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 15. "  ACTIVE207 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 14. "  ACTIVE206 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x18 13. " ACTIVE205 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 12. "  ACTIVE204 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 11. "  ACTIVE203 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 10. "  ACTIVE202 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 9. "  ACTIVE201 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 8. "  ACTIVE200 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x18 7. " ACTIVE199 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 6. "  ACTIVE198 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 5. "  ACTIVE197 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 4. "  ACTIVE196 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 3. "  ACTIVE195 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 2. "  ACTIVE194 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x18 1. " ACTIVE193 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 0. "  ACTIVE192 ,Interrupt Active Flag" "Not active,Active"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x07)
rgroup.long 0x300++0x1F
line.long 0x00 "ACTIVE1,Active Bit Register 1"
bitfld.long 0x00 31. " ACTIVE31  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 30. "  ACTIVE30  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 29. "  ACTIVE29  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 28. "  ACTIVE28  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 27. "  ACTIVE27  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 26. "  ACTIVE26  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 25. " ACTIVE25  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 24. "  ACTIVE24  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 23. "  ACTIVE23  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 22. "  ACTIVE22  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 21. "  ACTIVE21  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 20. "  ACTIVE20  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 19. " ACTIVE19  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 18. "  ACTIVE18  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 17. "  ACTIVE17  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 16. "  ACTIVE16  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 15. "  ACTIVE15  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 14. "  ACTIVE14  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 13. " ACTIVE13  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 12. "  ACTIVE12  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 11. "  ACTIVE11  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 10. "  ACTIVE10  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 9. "  ACTIVE9   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 8. "  ACTIVE8   ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 7. " ACTIVE7   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 6. "  ACTIVE6   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 5. "  ACTIVE5   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 4. "  ACTIVE4   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 3. "  ACTIVE3   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 2. "  ACTIVE2   ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x00 1. " ACTIVE1   ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 0. "  ACTIVE0   ,Interrupt Active Flag" "Not active,Active"
line.long 0x04 "ACTIVE2,Active Bit Register 2"
bitfld.long 0x04 31. " ACTIVE63  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 30. "  ACTIVE62  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 29. "  ACTIVE61  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 28. "  ACTIVE60  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 27. "  ACTIVE59  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 26. "  ACTIVE58  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 25. " ACTIVE57  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 24. "  ACTIVE56  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 23. "  ACTIVE55  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 22. "  ACTIVE54  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 21. "  ACTIVE53  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 20. "  ACTIVE52  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 19. " ACTIVE51  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 18. "  ACTIVE50  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 17. "  ACTIVE49  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 16. "  ACTIVE48  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 15. "  ACTIVE47  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 14. "  ACTIVE46  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 13. " ACTIVE45  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 12. "  ACTIVE44  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 11. "  ACTIVE43  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 10. "  ACTIVE42  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 9. "  ACTIVE41  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 8. "  ACTIVE40  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 7. " ACTIVE39  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 6. "  ACTIVE38  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 5. "  ACTIVE37  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 4. "  ACTIVE36  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 3. "  ACTIVE35  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 2. "  ACTIVE34  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x04 1. " ACTIVE33  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 0. "  ACTIVE32  ,Interrupt Active Flag" "Not active,Active"
line.long 0x08 "ACTIVE3,Active Bit Register 3"
bitfld.long 0x08 31. " ACTIVE95  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 30. "  ACTIVE94  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 29. "  ACTIVE93  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 28. "  ACTIVE92  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 27. "  ACTIVE91  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 26. "  ACTIVE90  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x08 25. " ACTIVE89  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 24. "  ACTIVE88  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 23. "  ACTIVE87  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 22. "  ACTIVE86  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 21. "  ACTIVE85  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 20. "  ACTIVE84  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x08 19. " ACTIVE83  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 18. "  ACTIVE82  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 17. "  ACTIVE81  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 16. "  ACTIVE80  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 15. "  ACTIVE79  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 14. "  ACTIVE78  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x08 13. " ACTIVE77  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 12. "  ACTIVE76  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 11. "  ACTIVE75  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 10. "  ACTIVE74  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 9. "  ACTIVE73  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 8. "  ACTIVE72  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x08 7. " ACTIVE71  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 6. "  ACTIVE70  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 5. "  ACTIVE69  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 4. "  ACTIVE68  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 3. "  ACTIVE67  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 2. "  ACTIVE66  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x08 1. " ACTIVE65  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 0. "  ACTIVE64  ,Interrupt Active Flag" "Not active,Active"
line.long 0x0c "ACTIVE4,Active Bit Register 4"
bitfld.long 0x0c 31. " ACTIVE127 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 30. "  ACTIVE126 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 29. "  ACTIVE125 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 28. "  ACTIVE124 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 27. "  ACTIVE123 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 26. "  ACTIVE122 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x0c 25. " ACTIVE121 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 24. "  ACTIVE120 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 23. "  ACTIVE119 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 22. "  ACTIVE118 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 21. "  ACTIVE117 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 20. "  ACTIVE116 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x0c 19. " ACTIVE115 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 18. "  ACTIVE114 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 17. "  ACTIVE113 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 16. "  ACTIVE112 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 15. "  ACTIVE111 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 14. "  ACTIVE110 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x0c 13. " ACTIVE109 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 12. "  ACTIVE108 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 11. "  ACTIVE107 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 10. "  ACTIVE106 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 9. "  ACTIVE105 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 8. "  ACTIVE104 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x0c 7. " ACTIVE103 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 6. "  ACTIVE102 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 5. "  ACTIVE101 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 4. "  ACTIVE100 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 3. "  ACTIVE99  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 2. "  ACTIVE98  ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x0c 1. " ACTIVE97  ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 0. "  ACTIVE96  ,Interrupt Active Flag" "Not active,Active"
line.long 0x10 "ACTIVE5,Active Bit Register 5"
bitfld.long 0x10 31. " ACTIVE159 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 30. "  ACTIVE158 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 29. "  ACTIVE157 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 28. "  ACTIVE156 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 27. "  ACTIVE155 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 26. "  ACTIVE154 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x10 25. " ACTIVE153 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 24. "  ACTIVE152 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 23. "  ACTIVE151 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 22. "  ACTIVE150 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 21. "  ACTIVE149 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 20. "  ACTIVE148 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x10 19. " ACTIVE147 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 18. "  ACTIVE146 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 17. "  ACTIVE145 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 16. "  ACTIVE144 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 15. "  ACTIVE143 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 14. "  ACTIVE142 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x10 13. " ACTIVE141 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 12. "  ACTIVE140 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 11. "  ACTIVE139 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 10. "  ACTIVE138 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 9. "  ACTIVE137 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 8. "  ACTIVE136 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x10 7. " ACTIVE135 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 6. "  ACTIVE134 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 5. "  ACTIVE133 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 4. "  ACTIVE132 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 3. "  ACTIVE131 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 2. "  ACTIVE130 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x10 1. " ACTIVE129 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 0. "  ACTIVE128 ,Interrupt Active Flag" "Not active,Active"
line.long 0x14 "ACTIVE6,Active Bit Register 6"
bitfld.long 0x14 31. " ACTIVE191 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 30. "  ACTIVE190 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 29. "  ACTIVE189 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 28. "  ACTIVE188 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 27. "  ACTIVE187 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 26. "  ACTIVE186 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x14 25. " ACTIVE185 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 24. "  ACTIVE184 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 23. "  ACTIVE183 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 22. "  ACTIVE182 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 21. "  ACTIVE181 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 20. "  ACTIVE180 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x14 19. " ACTIVE179 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 18. "  ACTIVE178 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 17. "  ACTIVE177 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 16. "  ACTIVE176 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 15. "  ACTIVE175 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 14. "  ACTIVE174 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x14 13. " ACTIVE173 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 12. "  ACTIVE172 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 11. "  ACTIVE171 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 10. "  ACTIVE170 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 9. "  ACTIVE169 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 8. "  ACTIVE168 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x14 7. " ACTIVE167 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 6. "  ACTIVE166 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 5. "  ACTIVE165 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 4. "  ACTIVE164 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 3. "  ACTIVE163 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 2. "  ACTIVE162 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x14 1. " ACTIVE161 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 0. "  ACTIVE160 ,Interrupt Active Flag" "Not active,Active"
line.long 0x18 "ACTIVE7,Active Bit Register 7"
bitfld.long 0x18 31. " ACTIVE223 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 30. "  ACTIVE222 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 29. "  ACTIVE221 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 28. "  ACTIVE220 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 27. "  ACTIVE219 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 26. "  ACTIVE218 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x18 25. " ACTIVE217 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 24. "  ACTIVE216 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 23. "  ACTIVE215 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 22. "  ACTIVE214 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 21. "  ACTIVE213 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 20. "  ACTIVE212 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x18 19. " ACTIVE211 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 18. "  ACTIVE210 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 17. "  ACTIVE209 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 16. "  ACTIVE208 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 15. "  ACTIVE207 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 14. "  ACTIVE206 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x18 13. " ACTIVE205 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 12. "  ACTIVE204 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 11. "  ACTIVE203 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 10. "  ACTIVE202 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 9. "  ACTIVE201 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 8. "  ACTIVE200 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x18 7. " ACTIVE199 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 6. "  ACTIVE198 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 5. "  ACTIVE197 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 4. "  ACTIVE196 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 3. "  ACTIVE195 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 2. "  ACTIVE194 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x18 1. " ACTIVE193 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 0. "  ACTIVE192 ,Interrupt Active Flag" "Not active,Active"
line.long 0x1c "ACTIVE8,Active Bit Register 8"
bitfld.long 0x1c 15. " ACTIVE239 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x1c 14. "  ACTIVE238 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x1c 13. "  ACTIVE237 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x1c 12. "  ACTIVE236 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x1c 11. "  ACTIVE235 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x1c 10. "  ACTIVE234 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x1c 9. " ACTIVE233 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x1c 8. "  ACTIVE232 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x1c 7. "  ACTIVE231 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x1c 6. "  ACTIVE230 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x1c 5. "  ACTIVE229 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x1c 4. "  ACTIVE228 ,Interrupt Active Flag" "Not active,Active"
textline "                  "
bitfld.long 0x1c 3. " ACTIVE227 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x1c 2. "  ACTIVE226 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x1c 1. "  ACTIVE225 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x1c 0. "  ACTIVE224 ,Interrupt Active Flag" "Not active,Active"
else
hgroup.long 0x300++0x1F
hide.long 0x00 "ACTIVE1,Active Bit Register 1"
hide.long 0x04 "ACTIVE2,Active Bit Register 2"
hide.long 0x08 "ACTIVE3,Active Bit Register 3"
hide.long 0x0c "ACTIVE4,Active Bit Register 4"
hide.long 0x10 "ACTIVE5,Active Bit Register 5"
hide.long 0x14 "ACTIVE6,Active Bit Register 6"
hide.long 0x18 "ACTIVE7,Active Bit Register 7"
hide.long 0x1c "ACTIVE8,Active Bit Register 8"
endif
tree.end
tree "Interrupt Priority Registers"
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x00)
group.long 0x400++0x1F
line.long 0x0 "IPR0,Interrupt Priority Register"
hexmask.long.byte 0x0 24.--31. 1. " PRI_3   ,Interrupt 3   Priority"
hexmask.long.byte 0x0 16.--23. 1. "  PRI_2   ,Interrupt 2   Priority"
hexmask.long.byte 0x0 8.--15. 1. "  PRI_1   ,Interrupt 1   Priority"
hexmask.long.byte 0x0 0.--7. 1. "  PRI_0   ,Interrupt 0   Priority"
line.long 0x4 "IPR1,Interrupt Priority Register"
hexmask.long.byte 0x4 24.--31. 1. " PRI_7   ,Interrupt 7   Priority"
hexmask.long.byte 0x4 16.--23. 1. "  PRI_6   ,Interrupt 6   Priority"
hexmask.long.byte 0x4 8.--15. 1. "  PRI_5   ,Interrupt 5   Priority"
hexmask.long.byte 0x4 0.--7. 1. "  PRI_4   ,Interrupt 4   Priority"
line.long 0x8 "IPR2,Interrupt Priority Register"
hexmask.long.byte 0x8 24.--31. 1. " PRI_11  ,Interrupt 11  Priority"
hexmask.long.byte 0x8 16.--23. 1. "  PRI_10  ,Interrupt 10  Priority"
hexmask.long.byte 0x8 8.--15. 1. "  PRI_9   ,Interrupt 9   Priority"
hexmask.long.byte 0x8 0.--7. 1. "  PRI_8   ,Interrupt 8   Priority"
line.long 0xC "IPR3,Interrupt Priority Register"
hexmask.long.byte 0xC 24.--31. 1. " PRI_15  ,Interrupt 15  Priority"
hexmask.long.byte 0xC 16.--23. 1. "  PRI_14  ,Interrupt 14  Priority"
hexmask.long.byte 0xC 8.--15. 1. "  PRI_13  ,Interrupt 13  Priority"
hexmask.long.byte 0xC 0.--7. 1. "  PRI_12  ,Interrupt 12  Priority"
line.long 0x10 "IPR4,Interrupt Priority Register"
hexmask.long.byte 0x10 24.--31. 1. " PRI_19  ,Interrupt 19  Priority"
hexmask.long.byte 0x10 16.--23. 1. "  PRI_18  ,Interrupt 18  Priority"
hexmask.long.byte 0x10 8.--15. 1. "  PRI_17  ,Interrupt 17  Priority"
hexmask.long.byte 0x10 0.--7. 1. "  PRI_16  ,Interrupt 16  Priority"
line.long 0x14 "IPR5,Interrupt Priority Register"
hexmask.long.byte 0x14 24.--31. 1. " PRI_23  ,Interrupt 23  Priority"
hexmask.long.byte 0x14 16.--23. 1. "  PRI_22  ,Interrupt 22  Priority"
hexmask.long.byte 0x14 8.--15. 1. "  PRI_21  ,Interrupt 21  Priority"
hexmask.long.byte 0x14 0.--7. 1. "  PRI_20  ,Interrupt 20  Priority"
line.long 0x18 "IPR6,Interrupt Priority Register"
hexmask.long.byte 0x18 24.--31. 1. " PRI_27  ,Interrupt 27  Priority"
hexmask.long.byte 0x18 16.--23. 1. "  PRI_26  ,Interrupt 26  Priority"
hexmask.long.byte 0x18 8.--15. 1. "  PRI_25  ,Interrupt 25  Priority"
hexmask.long.byte 0x18 0.--7. 1. "  PRI_24  ,Interrupt 24  Priority"
line.long 0x1C "IPR7,Interrupt Priority Register"
hexmask.long.byte 0x1C 24.--31. 1. " PRI_31  ,Interrupt 31  Priority"
hexmask.long.byte 0x1C 16.--23. 1. "  PRI_30  ,Interrupt 30  Priority"
hexmask.long.byte 0x1C 8.--15. 1. "  PRI_29  ,Interrupt 29  Priority"
hexmask.long.byte 0x1C 0.--7. 1. "  PRI_28  ,Interrupt 28  Priority"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x01)
group.long 0x400++0x3F
line.long 0x0 "IPR0,Interrupt Priority Register"
hexmask.long.byte 0x0 24.--31. 1. " PRI_3   ,Interrupt 3   Priority"
hexmask.long.byte 0x0 16.--23. 1. "  PRI_2   ,Interrupt 2   Priority"
hexmask.long.byte 0x0 8.--15. 1. "  PRI_1   ,Interrupt 1   Priority"
hexmask.long.byte 0x0 0.--7. 1. "  PRI_0   ,Interrupt 0   Priority"
line.long 0x4 "IPR1,Interrupt Priority Register"
hexmask.long.byte 0x4 24.--31. 1. " PRI_7   ,Interrupt 7   Priority"
hexmask.long.byte 0x4 16.--23. 1. "  PRI_6   ,Interrupt 6   Priority"
hexmask.long.byte 0x4 8.--15. 1. "  PRI_5   ,Interrupt 5   Priority"
hexmask.long.byte 0x4 0.--7. 1. "  PRI_4   ,Interrupt 4   Priority"
line.long 0x8 "IPR2,Interrupt Priority Register"
hexmask.long.byte 0x8 24.--31. 1. " PRI_11  ,Interrupt 11  Priority"
hexmask.long.byte 0x8 16.--23. 1. "  PRI_10  ,Interrupt 10  Priority"
hexmask.long.byte 0x8 8.--15. 1. "  PRI_9   ,Interrupt 9   Priority"
hexmask.long.byte 0x8 0.--7. 1. "  PRI_8   ,Interrupt 8   Priority"
line.long 0xC "IPR3,Interrupt Priority Register"
hexmask.long.byte 0xC 24.--31. 1. " PRI_15  ,Interrupt 15  Priority"
hexmask.long.byte 0xC 16.--23. 1. "  PRI_14  ,Interrupt 14  Priority"
hexmask.long.byte 0xC 8.--15. 1. "  PRI_13  ,Interrupt 13  Priority"
hexmask.long.byte 0xC 0.--7. 1. "  PRI_12  ,Interrupt 12  Priority"
line.long 0x10 "IPR4,Interrupt Priority Register"
hexmask.long.byte 0x10 24.--31. 1. " PRI_19  ,Interrupt 19  Priority"
hexmask.long.byte 0x10 16.--23. 1. "  PRI_18  ,Interrupt 18  Priority"
hexmask.long.byte 0x10 8.--15. 1. "  PRI_17  ,Interrupt 17  Priority"
hexmask.long.byte 0x10 0.--7. 1. "  PRI_16  ,Interrupt 16  Priority"
line.long 0x14 "IPR5,Interrupt Priority Register"
hexmask.long.byte 0x14 24.--31. 1. " PRI_23  ,Interrupt 23  Priority"
hexmask.long.byte 0x14 16.--23. 1. "  PRI_22  ,Interrupt 22  Priority"
hexmask.long.byte 0x14 8.--15. 1. "  PRI_21  ,Interrupt 21  Priority"
hexmask.long.byte 0x14 0.--7. 1. "  PRI_20  ,Interrupt 20  Priority"
line.long 0x18 "IPR6,Interrupt Priority Register"
hexmask.long.byte 0x18 24.--31. 1. " PRI_27  ,Interrupt 27  Priority"
hexmask.long.byte 0x18 16.--23. 1. "  PRI_26  ,Interrupt 26  Priority"
hexmask.long.byte 0x18 8.--15. 1. "  PRI_25  ,Interrupt 25  Priority"
hexmask.long.byte 0x18 0.--7. 1. "  PRI_24  ,Interrupt 24  Priority"
line.long 0x1C "IPR7,Interrupt Priority Register"
hexmask.long.byte 0x1C 24.--31. 1. " PRI_31  ,Interrupt 31  Priority"
hexmask.long.byte 0x1C 16.--23. 1. "  PRI_30  ,Interrupt 30  Priority"
hexmask.long.byte 0x1C 8.--15. 1. "  PRI_29  ,Interrupt 29  Priority"
hexmask.long.byte 0x1C 0.--7. 1. "  PRI_28  ,Interrupt 28  Priority"
line.long 0x20 "IPR8,Interrupt Priority Register"
hexmask.long.byte 0x20 24.--31. 1. " PRI_35  ,Interrupt 35  Priority"
hexmask.long.byte 0x20 16.--23. 1. "  PRI_34  ,Interrupt 34  Priority"
hexmask.long.byte 0x20 8.--15. 1. "  PRI_33  ,Interrupt 33  Priority"
hexmask.long.byte 0x20 0.--7. 1. "  PRI_32  ,Interrupt 32  Priority"
line.long 0x24 "IPR9,Interrupt Priority Register"
hexmask.long.byte 0x24 24.--31. 1. " PRI_39  ,Interrupt 39  Priority"
hexmask.long.byte 0x24 16.--23. 1. "  PRI_38  ,Interrupt 38  Priority"
hexmask.long.byte 0x24 8.--15. 1. "  PRI_37  ,Interrupt 37  Priority"
hexmask.long.byte 0x24 0.--7. 1. "  PRI_36  ,Interrupt 36  Priority"
line.long 0x28 "IPR10,Interrupt Priority Register"
hexmask.long.byte 0x28 24.--31. 1. " PRI_43  ,Interrupt 43  Priority"
hexmask.long.byte 0x28 16.--23. 1. "  PRI_42  ,Interrupt 42  Priority"
hexmask.long.byte 0x28 8.--15. 1. "  PRI_41  ,Interrupt 41  Priority"
hexmask.long.byte 0x28 0.--7. 1. "  PRI_40  ,Interrupt 40  Priority"
line.long 0x2C "IPR11,Interrupt Priority Register"
hexmask.long.byte 0x2C 24.--31. 1. " PRI_47  ,Interrupt 47  Priority"
hexmask.long.byte 0x2C 16.--23. 1. "  PRI_46  ,Interrupt 46  Priority"
hexmask.long.byte 0x2C 8.--15. 1. "  PRI_45  ,Interrupt 45  Priority"
hexmask.long.byte 0x2C 0.--7. 1. "  PRI_44  ,Interrupt 44  Priority"
line.long 0x30 "IPR12,Interrupt Priority Register"
hexmask.long.byte 0x30 24.--31. 1. " PRI_51  ,Interrupt 51  Priority"
hexmask.long.byte 0x30 16.--23. 1. "  PRI_50  ,Interrupt 50  Priority"
hexmask.long.byte 0x30 8.--15. 1. "  PRI_49  ,Interrupt 49  Priority"
hexmask.long.byte 0x30 0.--7. 1. "  PRI_48  ,Interrupt 48  Priority"
line.long 0x34 "IPR13,Interrupt Priority Register"
hexmask.long.byte 0x34 24.--31. 1. " PRI_55  ,Interrupt 55  Priority"
hexmask.long.byte 0x34 16.--23. 1. "  PRI_54  ,Interrupt 54  Priority"
hexmask.long.byte 0x34 8.--15. 1. "  PRI_53  ,Interrupt 53  Priority"
hexmask.long.byte 0x34 0.--7. 1. "  PRI_52  ,Interrupt 52  Priority"
line.long 0x38 "IPR14,Interrupt Priority Register"
hexmask.long.byte 0x38 24.--31. 1. " PRI_59  ,Interrupt 59  Priority"
hexmask.long.byte 0x38 16.--23. 1. "  PRI_58  ,Interrupt 58  Priority"
hexmask.long.byte 0x38 8.--15. 1. "  PRI_57  ,Interrupt 57  Priority"
hexmask.long.byte 0x38 0.--7. 1. "  PRI_56  ,Interrupt 56  Priority"
line.long 0x3C "IPR15,Interrupt Priority Register"
hexmask.long.byte 0x3C 24.--31. 1. " PRI_63  ,Interrupt 63  Priority"
hexmask.long.byte 0x3C 16.--23. 1. "  PRI_62  ,Interrupt 62  Priority"
hexmask.long.byte 0x3C 8.--15. 1. "  PRI_61  ,Interrupt 61  Priority"
hexmask.long.byte 0x3C 0.--7. 1. "  PRI_60  ,Interrupt 60  Priority"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x02)
group.long 0x400++0x5F
line.long 0x0 "IPR0,Interrupt Priority Register"
hexmask.long.byte 0x0 24.--31. 1. " PRI_3   ,Interrupt 3   Priority"
hexmask.long.byte 0x0 16.--23. 1. "  PRI_2   ,Interrupt 2   Priority"
hexmask.long.byte 0x0 8.--15. 1. "  PRI_1   ,Interrupt 1   Priority"
hexmask.long.byte 0x0 0.--7. 1. "  PRI_0   ,Interrupt 0   Priority"
line.long 0x4 "IPR1,Interrupt Priority Register"
hexmask.long.byte 0x4 24.--31. 1. " PRI_7   ,Interrupt 7   Priority"
hexmask.long.byte 0x4 16.--23. 1. "  PRI_6   ,Interrupt 6   Priority"
hexmask.long.byte 0x4 8.--15. 1. "  PRI_5   ,Interrupt 5   Priority"
hexmask.long.byte 0x4 0.--7. 1. "  PRI_4   ,Interrupt 4   Priority"
line.long 0x8 "IPR2,Interrupt Priority Register"
hexmask.long.byte 0x8 24.--31. 1. " PRI_11  ,Interrupt 11  Priority"
hexmask.long.byte 0x8 16.--23. 1. "  PRI_10  ,Interrupt 10  Priority"
hexmask.long.byte 0x8 8.--15. 1. "  PRI_9   ,Interrupt 9   Priority"
hexmask.long.byte 0x8 0.--7. 1. "  PRI_8   ,Interrupt 8   Priority"
line.long 0xC "IPR3,Interrupt Priority Register"
hexmask.long.byte 0xC 24.--31. 1. " PRI_15  ,Interrupt 15  Priority"
hexmask.long.byte 0xC 16.--23. 1. "  PRI_14  ,Interrupt 14  Priority"
hexmask.long.byte 0xC 8.--15. 1. "  PRI_13  ,Interrupt 13  Priority"
hexmask.long.byte 0xC 0.--7. 1. "  PRI_12  ,Interrupt 12  Priority"
line.long 0x10 "IPR4,Interrupt Priority Register"
hexmask.long.byte 0x10 24.--31. 1. " PRI_19  ,Interrupt 19  Priority"
hexmask.long.byte 0x10 16.--23. 1. "  PRI_18  ,Interrupt 18  Priority"
hexmask.long.byte 0x10 8.--15. 1. "  PRI_17  ,Interrupt 17  Priority"
hexmask.long.byte 0x10 0.--7. 1. "  PRI_16  ,Interrupt 16  Priority"
line.long 0x14 "IPR5,Interrupt Priority Register"
hexmask.long.byte 0x14 24.--31. 1. " PRI_23  ,Interrupt 23  Priority"
hexmask.long.byte 0x14 16.--23. 1. "  PRI_22  ,Interrupt 22  Priority"
hexmask.long.byte 0x14 8.--15. 1. "  PRI_21  ,Interrupt 21  Priority"
hexmask.long.byte 0x14 0.--7. 1. "  PRI_20  ,Interrupt 20  Priority"
line.long 0x18 "IPR6,Interrupt Priority Register"
hexmask.long.byte 0x18 24.--31. 1. " PRI_27  ,Interrupt 27  Priority"
hexmask.long.byte 0x18 16.--23. 1. "  PRI_26  ,Interrupt 26  Priority"
hexmask.long.byte 0x18 8.--15. 1. "  PRI_25  ,Interrupt 25  Priority"
hexmask.long.byte 0x18 0.--7. 1. "  PRI_24  ,Interrupt 24  Priority"
line.long 0x1C "IPR7,Interrupt Priority Register"
hexmask.long.byte 0x1C 24.--31. 1. " PRI_31  ,Interrupt 31  Priority"
hexmask.long.byte 0x1C 16.--23. 1. "  PRI_30  ,Interrupt 30  Priority"
hexmask.long.byte 0x1C 8.--15. 1. "  PRI_29  ,Interrupt 29  Priority"
hexmask.long.byte 0x1C 0.--7. 1. "  PRI_28  ,Interrupt 28  Priority"
line.long 0x20 "IPR8,Interrupt Priority Register"
hexmask.long.byte 0x20 24.--31. 1. " PRI_35  ,Interrupt 35  Priority"
hexmask.long.byte 0x20 16.--23. 1. "  PRI_34  ,Interrupt 34  Priority"
hexmask.long.byte 0x20 8.--15. 1. "  PRI_33  ,Interrupt 33  Priority"
hexmask.long.byte 0x20 0.--7. 1. "  PRI_32  ,Interrupt 32  Priority"
line.long 0x24 "IPR9,Interrupt Priority Register"
hexmask.long.byte 0x24 24.--31. 1. " PRI_39  ,Interrupt 39  Priority"
hexmask.long.byte 0x24 16.--23. 1. "  PRI_38  ,Interrupt 38  Priority"
hexmask.long.byte 0x24 8.--15. 1. "  PRI_37  ,Interrupt 37  Priority"
hexmask.long.byte 0x24 0.--7. 1. "  PRI_36  ,Interrupt 36  Priority"
line.long 0x28 "IPR10,Interrupt Priority Register"
hexmask.long.byte 0x28 24.--31. 1. " PRI_43  ,Interrupt 43  Priority"
hexmask.long.byte 0x28 16.--23. 1. "  PRI_42  ,Interrupt 42  Priority"
hexmask.long.byte 0x28 8.--15. 1. "  PRI_41  ,Interrupt 41  Priority"
hexmask.long.byte 0x28 0.--7. 1. "  PRI_40  ,Interrupt 40  Priority"
line.long 0x2C "IPR11,Interrupt Priority Register"
hexmask.long.byte 0x2C 24.--31. 1. " PRI_47  ,Interrupt 47  Priority"
hexmask.long.byte 0x2C 16.--23. 1. "  PRI_46  ,Interrupt 46  Priority"
hexmask.long.byte 0x2C 8.--15. 1. "  PRI_45  ,Interrupt 45  Priority"
hexmask.long.byte 0x2C 0.--7. 1. "  PRI_44  ,Interrupt 44  Priority"
line.long 0x30 "IPR12,Interrupt Priority Register"
hexmask.long.byte 0x30 24.--31. 1. " PRI_51  ,Interrupt 51  Priority"
hexmask.long.byte 0x30 16.--23. 1. "  PRI_50  ,Interrupt 50  Priority"
hexmask.long.byte 0x30 8.--15. 1. "  PRI_49  ,Interrupt 49  Priority"
hexmask.long.byte 0x30 0.--7. 1. "  PRI_48  ,Interrupt 48  Priority"
line.long 0x34 "IPR13,Interrupt Priority Register"
hexmask.long.byte 0x34 24.--31. 1. " PRI_55  ,Interrupt 55  Priority"
hexmask.long.byte 0x34 16.--23. 1. "  PRI_54  ,Interrupt 54  Priority"
hexmask.long.byte 0x34 8.--15. 1. "  PRI_53  ,Interrupt 53  Priority"
hexmask.long.byte 0x34 0.--7. 1. "  PRI_52  ,Interrupt 52  Priority"
line.long 0x38 "IPR14,Interrupt Priority Register"
hexmask.long.byte 0x38 24.--31. 1. " PRI_59  ,Interrupt 59  Priority"
hexmask.long.byte 0x38 16.--23. 1. "  PRI_58  ,Interrupt 58  Priority"
hexmask.long.byte 0x38 8.--15. 1. "  PRI_57  ,Interrupt 57  Priority"
hexmask.long.byte 0x38 0.--7. 1. "  PRI_56  ,Interrupt 56  Priority"
line.long 0x3C "IPR15,Interrupt Priority Register"
hexmask.long.byte 0x3C 24.--31. 1. " PRI_63  ,Interrupt 63  Priority"
hexmask.long.byte 0x3C 16.--23. 1. "  PRI_62  ,Interrupt 62  Priority"
hexmask.long.byte 0x3C 8.--15. 1. "  PRI_61  ,Interrupt 61  Priority"
hexmask.long.byte 0x3C 0.--7. 1. "  PRI_60  ,Interrupt 60  Priority"
line.long 0x40 "IPR16,Interrupt Priority Register"
hexmask.long.byte 0x40 24.--31. 1. " PRI_67  ,Interrupt 67  Priority"
hexmask.long.byte 0x40 16.--23. 1. "  PRI_66  ,Interrupt 66  Priority"
hexmask.long.byte 0x40 8.--15. 1. "  PRI_65  ,Interrupt 65  Priority"
hexmask.long.byte 0x40 0.--7. 1. "  PRI_64  ,Interrupt 64  Priority"
line.long 0x44 "IPR17,Interrupt Priority Register"
hexmask.long.byte 0x44 24.--31. 1. " PRI_71  ,Interrupt 71  Priority"
hexmask.long.byte 0x44 16.--23. 1. "  PRI_70  ,Interrupt 70  Priority"
hexmask.long.byte 0x44 8.--15. 1. "  PRI_69  ,Interrupt 69  Priority"
hexmask.long.byte 0x44 0.--7. 1. "  PRI_68  ,Interrupt 68  Priority"
line.long 0x48 "IPR18,Interrupt Priority Register"
hexmask.long.byte 0x48 24.--31. 1. " PRI_75  ,Interrupt 75  Priority"
hexmask.long.byte 0x48 16.--23. 1. "  PRI_74  ,Interrupt 74  Priority"
hexmask.long.byte 0x48 8.--15. 1. "  PRI_73  ,Interrupt 73  Priority"
hexmask.long.byte 0x48 0.--7. 1. "  PRI_72  ,Interrupt 72  Priority"
line.long 0x4C "IPR19,Interrupt Priority Register"
hexmask.long.byte 0x4C 24.--31. 1. " PRI_79  ,Interrupt 79  Priority"
hexmask.long.byte 0x4C 16.--23. 1. "  PRI_78  ,Interrupt 78  Priority"
hexmask.long.byte 0x4C 8.--15. 1. "  PRI_77  ,Interrupt 77  Priority"
hexmask.long.byte 0x4C 0.--7. 1. "  PRI_76  ,Interrupt 76  Priority"
line.long 0x50 "IPR20,Interrupt Priority Register"
hexmask.long.byte 0x50 24.--31. 1. " PRI_83  ,Interrupt 83  Priority"
hexmask.long.byte 0x50 16.--23. 1. "  PRI_82  ,Interrupt 82  Priority"
hexmask.long.byte 0x50 8.--15. 1. "  PRI_81  ,Interrupt 81  Priority"
hexmask.long.byte 0x50 0.--7. 1. "  PRI_80  ,Interrupt 80  Priority"
line.long 0x54 "IPR21,Interrupt Priority Register"
hexmask.long.byte 0x54 24.--31. 1. " PRI_87  ,Interrupt 87  Priority"
hexmask.long.byte 0x54 16.--23. 1. "  PRI_86  ,Interrupt 86  Priority"
hexmask.long.byte 0x54 8.--15. 1. "  PRI_85  ,Interrupt 85  Priority"
hexmask.long.byte 0x54 0.--7. 1. "  PRI_84  ,Interrupt 84  Priority"
line.long 0x58 "IPR22,Interrupt Priority Register"
hexmask.long.byte 0x58 24.--31. 1. " PRI_91  ,Interrupt 91  Priority"
hexmask.long.byte 0x58 16.--23. 1. "  PRI_90  ,Interrupt 90  Priority"
hexmask.long.byte 0x58 8.--15. 1. "  PRI_89  ,Interrupt 89  Priority"
hexmask.long.byte 0x58 0.--7. 1. "  PRI_88  ,Interrupt 88  Priority"
line.long 0x5C "IPR23,Interrupt Priority Register"
hexmask.long.byte 0x5C 24.--31. 1. " PRI_95  ,Interrupt 95  Priority"
hexmask.long.byte 0x5C 16.--23. 1. "  PRI_94  ,Interrupt 94  Priority"
hexmask.long.byte 0x5C 8.--15. 1. "  PRI_93  ,Interrupt 93  Priority"
hexmask.long.byte 0x5C 0.--7. 1. "  PRI_92  ,Interrupt 92  Priority"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x03)
group.long 0x400++0x7F
line.long 0x0 "IPR0,Interrupt Priority Register"
hexmask.long.byte 0x0 24.--31. 1. " PRI_3   ,Interrupt 3   Priority"
hexmask.long.byte 0x0 16.--23. 1. "  PRI_2   ,Interrupt 2   Priority"
hexmask.long.byte 0x0 8.--15. 1. "  PRI_1   ,Interrupt 1   Priority"
hexmask.long.byte 0x0 0.--7. 1. "  PRI_0   ,Interrupt 0   Priority"
line.long 0x4 "IPR1,Interrupt Priority Register"
hexmask.long.byte 0x4 24.--31. 1. " PRI_7   ,Interrupt 7   Priority"
hexmask.long.byte 0x4 16.--23. 1. "  PRI_6   ,Interrupt 6   Priority"
hexmask.long.byte 0x4 8.--15. 1. "  PRI_5   ,Interrupt 5   Priority"
hexmask.long.byte 0x4 0.--7. 1. "  PRI_4   ,Interrupt 4   Priority"
line.long 0x8 "IPR2,Interrupt Priority Register"
hexmask.long.byte 0x8 24.--31. 1. " PRI_11  ,Interrupt 11  Priority"
hexmask.long.byte 0x8 16.--23. 1. "  PRI_10  ,Interrupt 10  Priority"
hexmask.long.byte 0x8 8.--15. 1. "  PRI_9   ,Interrupt 9   Priority"
hexmask.long.byte 0x8 0.--7. 1. "  PRI_8   ,Interrupt 8   Priority"
line.long 0xC "IPR3,Interrupt Priority Register"
hexmask.long.byte 0xC 24.--31. 1. " PRI_15  ,Interrupt 15  Priority"
hexmask.long.byte 0xC 16.--23. 1. "  PRI_14  ,Interrupt 14  Priority"
hexmask.long.byte 0xC 8.--15. 1. "  PRI_13  ,Interrupt 13  Priority"
hexmask.long.byte 0xC 0.--7. 1. "  PRI_12  ,Interrupt 12  Priority"
line.long 0x10 "IPR4,Interrupt Priority Register"
hexmask.long.byte 0x10 24.--31. 1. " PRI_19  ,Interrupt 19  Priority"
hexmask.long.byte 0x10 16.--23. 1. "  PRI_18  ,Interrupt 18  Priority"
hexmask.long.byte 0x10 8.--15. 1. "  PRI_17  ,Interrupt 17  Priority"
hexmask.long.byte 0x10 0.--7. 1. "  PRI_16  ,Interrupt 16  Priority"
line.long 0x14 "IPR5,Interrupt Priority Register"
hexmask.long.byte 0x14 24.--31. 1. " PRI_23  ,Interrupt 23  Priority"
hexmask.long.byte 0x14 16.--23. 1. "  PRI_22  ,Interrupt 22  Priority"
hexmask.long.byte 0x14 8.--15. 1. "  PRI_21  ,Interrupt 21  Priority"
hexmask.long.byte 0x14 0.--7. 1. "  PRI_20  ,Interrupt 20  Priority"
line.long 0x18 "IPR6,Interrupt Priority Register"
hexmask.long.byte 0x18 24.--31. 1. " PRI_27  ,Interrupt 27  Priority"
hexmask.long.byte 0x18 16.--23. 1. "  PRI_26  ,Interrupt 26  Priority"
hexmask.long.byte 0x18 8.--15. 1. "  PRI_25  ,Interrupt 25  Priority"
hexmask.long.byte 0x18 0.--7. 1. "  PRI_24  ,Interrupt 24  Priority"
line.long 0x1C "IPR7,Interrupt Priority Register"
hexmask.long.byte 0x1C 24.--31. 1. " PRI_31  ,Interrupt 31  Priority"
hexmask.long.byte 0x1C 16.--23. 1. "  PRI_30  ,Interrupt 30  Priority"
hexmask.long.byte 0x1C 8.--15. 1. "  PRI_29  ,Interrupt 29  Priority"
hexmask.long.byte 0x1C 0.--7. 1. "  PRI_28  ,Interrupt 28  Priority"
line.long 0x20 "IPR8,Interrupt Priority Register"
hexmask.long.byte 0x20 24.--31. 1. " PRI_35  ,Interrupt 35  Priority"
hexmask.long.byte 0x20 16.--23. 1. "  PRI_34  ,Interrupt 34  Priority"
hexmask.long.byte 0x20 8.--15. 1. "  PRI_33  ,Interrupt 33  Priority"
hexmask.long.byte 0x20 0.--7. 1. "  PRI_32  ,Interrupt 32  Priority"
line.long 0x24 "IPR9,Interrupt Priority Register"
hexmask.long.byte 0x24 24.--31. 1. " PRI_39  ,Interrupt 39  Priority"
hexmask.long.byte 0x24 16.--23. 1. "  PRI_38  ,Interrupt 38  Priority"
hexmask.long.byte 0x24 8.--15. 1. "  PRI_37  ,Interrupt 37  Priority"
hexmask.long.byte 0x24 0.--7. 1. "  PRI_36  ,Interrupt 36  Priority"
line.long 0x28 "IPR10,Interrupt Priority Register"
hexmask.long.byte 0x28 24.--31. 1. " PRI_43  ,Interrupt 43  Priority"
hexmask.long.byte 0x28 16.--23. 1. "  PRI_42  ,Interrupt 42  Priority"
hexmask.long.byte 0x28 8.--15. 1. "  PRI_41  ,Interrupt 41  Priority"
hexmask.long.byte 0x28 0.--7. 1. "  PRI_40  ,Interrupt 40  Priority"
line.long 0x2C "IPR11,Interrupt Priority Register"
hexmask.long.byte 0x2C 24.--31. 1. " PRI_47  ,Interrupt 47  Priority"
hexmask.long.byte 0x2C 16.--23. 1. "  PRI_46  ,Interrupt 46  Priority"
hexmask.long.byte 0x2C 8.--15. 1. "  PRI_45  ,Interrupt 45  Priority"
hexmask.long.byte 0x2C 0.--7. 1. "  PRI_44  ,Interrupt 44  Priority"
line.long 0x30 "IPR12,Interrupt Priority Register"
hexmask.long.byte 0x30 24.--31. 1. " PRI_51  ,Interrupt 51  Priority"
hexmask.long.byte 0x30 16.--23. 1. "  PRI_50  ,Interrupt 50  Priority"
hexmask.long.byte 0x30 8.--15. 1. "  PRI_49  ,Interrupt 49  Priority"
hexmask.long.byte 0x30 0.--7. 1. "  PRI_48  ,Interrupt 48  Priority"
line.long 0x34 "IPR13,Interrupt Priority Register"
hexmask.long.byte 0x34 24.--31. 1. " PRI_55  ,Interrupt 55  Priority"
hexmask.long.byte 0x34 16.--23. 1. "  PRI_54  ,Interrupt 54  Priority"
hexmask.long.byte 0x34 8.--15. 1. "  PRI_53  ,Interrupt 53  Priority"
hexmask.long.byte 0x34 0.--7. 1. "  PRI_52  ,Interrupt 52  Priority"
line.long 0x38 "IPR14,Interrupt Priority Register"
hexmask.long.byte 0x38 24.--31. 1. " PRI_59  ,Interrupt 59  Priority"
hexmask.long.byte 0x38 16.--23. 1. "  PRI_58  ,Interrupt 58  Priority"
hexmask.long.byte 0x38 8.--15. 1. "  PRI_57  ,Interrupt 57  Priority"
hexmask.long.byte 0x38 0.--7. 1. "  PRI_56  ,Interrupt 56  Priority"
line.long 0x3C "IPR15,Interrupt Priority Register"
hexmask.long.byte 0x3C 24.--31. 1. " PRI_63  ,Interrupt 63  Priority"
hexmask.long.byte 0x3C 16.--23. 1. "  PRI_62  ,Interrupt 62  Priority"
hexmask.long.byte 0x3C 8.--15. 1. "  PRI_61  ,Interrupt 61  Priority"
hexmask.long.byte 0x3C 0.--7. 1. "  PRI_60  ,Interrupt 60  Priority"
line.long 0x40 "IPR16,Interrupt Priority Register"
hexmask.long.byte 0x40 24.--31. 1. " PRI_67  ,Interrupt 67  Priority"
hexmask.long.byte 0x40 16.--23. 1. "  PRI_66  ,Interrupt 66  Priority"
hexmask.long.byte 0x40 8.--15. 1. "  PRI_65  ,Interrupt 65  Priority"
hexmask.long.byte 0x40 0.--7. 1. "  PRI_64  ,Interrupt 64  Priority"
line.long 0x44 "IPR17,Interrupt Priority Register"
hexmask.long.byte 0x44 24.--31. 1. " PRI_71  ,Interrupt 71  Priority"
hexmask.long.byte 0x44 16.--23. 1. "  PRI_70  ,Interrupt 70  Priority"
hexmask.long.byte 0x44 8.--15. 1. "  PRI_69  ,Interrupt 69  Priority"
hexmask.long.byte 0x44 0.--7. 1. "  PRI_68  ,Interrupt 68  Priority"
line.long 0x48 "IPR18,Interrupt Priority Register"
hexmask.long.byte 0x48 24.--31. 1. " PRI_75  ,Interrupt 75  Priority"
hexmask.long.byte 0x48 16.--23. 1. "  PRI_74  ,Interrupt 74  Priority"
hexmask.long.byte 0x48 8.--15. 1. "  PRI_73  ,Interrupt 73  Priority"
hexmask.long.byte 0x48 0.--7. 1. "  PRI_72  ,Interrupt 72  Priority"
line.long 0x4C "IPR19,Interrupt Priority Register"
hexmask.long.byte 0x4C 24.--31. 1. " PRI_79  ,Interrupt 79  Priority"
hexmask.long.byte 0x4C 16.--23. 1. "  PRI_78  ,Interrupt 78  Priority"
hexmask.long.byte 0x4C 8.--15. 1. "  PRI_77  ,Interrupt 77  Priority"
hexmask.long.byte 0x4C 0.--7. 1. "  PRI_76  ,Interrupt 76  Priority"
line.long 0x50 "IPR20,Interrupt Priority Register"
hexmask.long.byte 0x50 24.--31. 1. " PRI_83  ,Interrupt 83  Priority"
hexmask.long.byte 0x50 16.--23. 1. "  PRI_82  ,Interrupt 82  Priority"
hexmask.long.byte 0x50 8.--15. 1. "  PRI_81  ,Interrupt 81  Priority"
hexmask.long.byte 0x50 0.--7. 1. "  PRI_80  ,Interrupt 80  Priority"
line.long 0x54 "IPR21,Interrupt Priority Register"
hexmask.long.byte 0x54 24.--31. 1. " PRI_87  ,Interrupt 87  Priority"
hexmask.long.byte 0x54 16.--23. 1. "  PRI_86  ,Interrupt 86  Priority"
hexmask.long.byte 0x54 8.--15. 1. "  PRI_85  ,Interrupt 85  Priority"
hexmask.long.byte 0x54 0.--7. 1. "  PRI_84  ,Interrupt 84  Priority"
line.long 0x58 "IPR22,Interrupt Priority Register"
hexmask.long.byte 0x58 24.--31. 1. " PRI_91  ,Interrupt 91  Priority"
hexmask.long.byte 0x58 16.--23. 1. "  PRI_90  ,Interrupt 90  Priority"
hexmask.long.byte 0x58 8.--15. 1. "  PRI_89  ,Interrupt 89  Priority"
hexmask.long.byte 0x58 0.--7. 1. "  PRI_88  ,Interrupt 88  Priority"
line.long 0x5C "IPR23,Interrupt Priority Register"
hexmask.long.byte 0x5C 24.--31. 1. " PRI_95  ,Interrupt 95  Priority"
hexmask.long.byte 0x5C 16.--23. 1. "  PRI_94  ,Interrupt 94  Priority"
hexmask.long.byte 0x5C 8.--15. 1. "  PRI_93  ,Interrupt 93  Priority"
hexmask.long.byte 0x5C 0.--7. 1. "  PRI_92  ,Interrupt 92  Priority"
line.long 0x60 "IPR24,Interrupt Priority Register"
hexmask.long.byte 0x60 24.--31. 1. " PRI_99  ,Interrupt 99  Priority"
hexmask.long.byte 0x60 16.--23. 1. "  PRI_98  ,Interrupt 98  Priority"
hexmask.long.byte 0x60 8.--15. 1. "  PRI_97  ,Interrupt 97  Priority"
hexmask.long.byte 0x60 0.--7. 1. "  PRI_96  ,Interrupt 96  Priority"
line.long 0x64 "IPR25,Interrupt Priority Register"
hexmask.long.byte 0x64 24.--31. 1. " PRI_103 ,Interrupt 103 Priority"
hexmask.long.byte 0x64 16.--23. 1. "  PRI_102 ,Interrupt 102 Priority"
hexmask.long.byte 0x64 8.--15. 1. "  PRI_101 ,Interrupt 101 Priority"
hexmask.long.byte 0x64 0.--7. 1. "  PRI_100 ,Interrupt 100 Priority"
line.long 0x68 "IPR26,Interrupt Priority Register"
hexmask.long.byte 0x68 24.--31. 1. " PRI_107 ,Interrupt 107 Priority"
hexmask.long.byte 0x68 16.--23. 1. "  PRI_106 ,Interrupt 106 Priority"
hexmask.long.byte 0x68 8.--15. 1. "  PRI_105 ,Interrupt 105 Priority"
hexmask.long.byte 0x68 0.--7. 1. "  PRI_104 ,Interrupt 104 Priority"
line.long 0x6C "IPR27,Interrupt Priority Register"
hexmask.long.byte 0x6C 24.--31. 1. " PRI_111 ,Interrupt 111 Priority"
hexmask.long.byte 0x6C 16.--23. 1. "  PRI_110 ,Interrupt 110 Priority"
hexmask.long.byte 0x6C 8.--15. 1. "  PRI_109 ,Interrupt 109 Priority"
hexmask.long.byte 0x6C 0.--7. 1. "  PRI_108 ,Interrupt 108 Priority"
line.long 0x70 "IPR28,Interrupt Priority Register"
hexmask.long.byte 0x70 24.--31. 1. " PRI_115 ,Interrupt 115 Priority"
hexmask.long.byte 0x70 16.--23. 1. "  PRI_114 ,Interrupt 114 Priority"
hexmask.long.byte 0x70 8.--15. 1. "  PRI_113 ,Interrupt 113 Priority"
hexmask.long.byte 0x70 0.--7. 1. "  PRI_112 ,Interrupt 112 Priority"
line.long 0x74 "IPR29,Interrupt Priority Register"
hexmask.long.byte 0x74 24.--31. 1. " PRI_119 ,Interrupt 119 Priority"
hexmask.long.byte 0x74 16.--23. 1. "  PRI_118 ,Interrupt 118 Priority"
hexmask.long.byte 0x74 8.--15. 1. "  PRI_117 ,Interrupt 117 Priority"
hexmask.long.byte 0x74 0.--7. 1. "  PRI_116 ,Interrupt 116 Priority"
line.long 0x78 "IPR30,Interrupt Priority Register"
hexmask.long.byte 0x78 24.--31. 1. " PRI_123 ,Interrupt 123 Priority"
hexmask.long.byte 0x78 16.--23. 1. "  PRI_122 ,Interrupt 122 Priority"
hexmask.long.byte 0x78 8.--15. 1. "  PRI_121 ,Interrupt 121 Priority"
hexmask.long.byte 0x78 0.--7. 1. "  PRI_120 ,Interrupt 120 Priority"
line.long 0x7C "IPR31,Interrupt Priority Register"
hexmask.long.byte 0x7C 24.--31. 1. " PRI_127 ,Interrupt 127 Priority"
hexmask.long.byte 0x7C 16.--23. 1. "  PRI_126 ,Interrupt 126 Priority"
hexmask.long.byte 0x7C 8.--15. 1. "  PRI_125 ,Interrupt 125 Priority"
hexmask.long.byte 0x7C 0.--7. 1. "  PRI_124 ,Interrupt 124 Priority"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x04)
group.long 0x400++0x9F
line.long 0x0 "IPR0,Interrupt Priority Register"
hexmask.long.byte 0x0 24.--31. 1. " PRI_3   ,Interrupt 3   Priority"
hexmask.long.byte 0x0 16.--23. 1. "  PRI_2   ,Interrupt 2   Priority"
hexmask.long.byte 0x0 8.--15. 1. "  PRI_1   ,Interrupt 1   Priority"
hexmask.long.byte 0x0 0.--7. 1. "  PRI_0   ,Interrupt 0   Priority"
line.long 0x4 "IPR1,Interrupt Priority Register"
hexmask.long.byte 0x4 24.--31. 1. " PRI_7   ,Interrupt 7   Priority"
hexmask.long.byte 0x4 16.--23. 1. "  PRI_6   ,Interrupt 6   Priority"
hexmask.long.byte 0x4 8.--15. 1. "  PRI_5   ,Interrupt 5   Priority"
hexmask.long.byte 0x4 0.--7. 1. "  PRI_4   ,Interrupt 4   Priority"
line.long 0x8 "IPR2,Interrupt Priority Register"
hexmask.long.byte 0x8 24.--31. 1. " PRI_11  ,Interrupt 11  Priority"
hexmask.long.byte 0x8 16.--23. 1. "  PRI_10  ,Interrupt 10  Priority"
hexmask.long.byte 0x8 8.--15. 1. "  PRI_9   ,Interrupt 9   Priority"
hexmask.long.byte 0x8 0.--7. 1. "  PRI_8   ,Interrupt 8   Priority"
line.long 0xC "IPR3,Interrupt Priority Register"
hexmask.long.byte 0xC 24.--31. 1. " PRI_15  ,Interrupt 15  Priority"
hexmask.long.byte 0xC 16.--23. 1. "  PRI_14  ,Interrupt 14  Priority"
hexmask.long.byte 0xC 8.--15. 1. "  PRI_13  ,Interrupt 13  Priority"
hexmask.long.byte 0xC 0.--7. 1. "  PRI_12  ,Interrupt 12  Priority"
line.long 0x10 "IPR4,Interrupt Priority Register"
hexmask.long.byte 0x10 24.--31. 1. " PRI_19  ,Interrupt 19  Priority"
hexmask.long.byte 0x10 16.--23. 1. "  PRI_18  ,Interrupt 18  Priority"
hexmask.long.byte 0x10 8.--15. 1. "  PRI_17  ,Interrupt 17  Priority"
hexmask.long.byte 0x10 0.--7. 1. "  PRI_16  ,Interrupt 16  Priority"
line.long 0x14 "IPR5,Interrupt Priority Register"
hexmask.long.byte 0x14 24.--31. 1. " PRI_23  ,Interrupt 23  Priority"
hexmask.long.byte 0x14 16.--23. 1. "  PRI_22  ,Interrupt 22  Priority"
hexmask.long.byte 0x14 8.--15. 1. "  PRI_21  ,Interrupt 21  Priority"
hexmask.long.byte 0x14 0.--7. 1. "  PRI_20  ,Interrupt 20  Priority"
line.long 0x18 "IPR6,Interrupt Priority Register"
hexmask.long.byte 0x18 24.--31. 1. " PRI_27  ,Interrupt 27  Priority"
hexmask.long.byte 0x18 16.--23. 1. "  PRI_26  ,Interrupt 26  Priority"
hexmask.long.byte 0x18 8.--15. 1. "  PRI_25  ,Interrupt 25  Priority"
hexmask.long.byte 0x18 0.--7. 1. "  PRI_24  ,Interrupt 24  Priority"
line.long 0x1C "IPR7,Interrupt Priority Register"
hexmask.long.byte 0x1C 24.--31. 1. " PRI_31  ,Interrupt 31  Priority"
hexmask.long.byte 0x1C 16.--23. 1. "  PRI_30  ,Interrupt 30  Priority"
hexmask.long.byte 0x1C 8.--15. 1. "  PRI_29  ,Interrupt 29  Priority"
hexmask.long.byte 0x1C 0.--7. 1. "  PRI_28  ,Interrupt 28  Priority"
line.long 0x20 "IPR8,Interrupt Priority Register"
hexmask.long.byte 0x20 24.--31. 1. " PRI_35  ,Interrupt 35  Priority"
hexmask.long.byte 0x20 16.--23. 1. "  PRI_34  ,Interrupt 34  Priority"
hexmask.long.byte 0x20 8.--15. 1. "  PRI_33  ,Interrupt 33  Priority"
hexmask.long.byte 0x20 0.--7. 1. "  PRI_32  ,Interrupt 32  Priority"
line.long 0x24 "IPR9,Interrupt Priority Register"
hexmask.long.byte 0x24 24.--31. 1. " PRI_39  ,Interrupt 39  Priority"
hexmask.long.byte 0x24 16.--23. 1. "  PRI_38  ,Interrupt 38  Priority"
hexmask.long.byte 0x24 8.--15. 1. "  PRI_37  ,Interrupt 37  Priority"
hexmask.long.byte 0x24 0.--7. 1. "  PRI_36  ,Interrupt 36  Priority"
line.long 0x28 "IPR10,Interrupt Priority Register"
hexmask.long.byte 0x28 24.--31. 1. " PRI_43  ,Interrupt 43  Priority"
hexmask.long.byte 0x28 16.--23. 1. "  PRI_42  ,Interrupt 42  Priority"
hexmask.long.byte 0x28 8.--15. 1. "  PRI_41  ,Interrupt 41  Priority"
hexmask.long.byte 0x28 0.--7. 1. "  PRI_40  ,Interrupt 40  Priority"
line.long 0x2C "IPR11,Interrupt Priority Register"
hexmask.long.byte 0x2C 24.--31. 1. " PRI_47  ,Interrupt 47  Priority"
hexmask.long.byte 0x2C 16.--23. 1. "  PRI_46  ,Interrupt 46  Priority"
hexmask.long.byte 0x2C 8.--15. 1. "  PRI_45  ,Interrupt 45  Priority"
hexmask.long.byte 0x2C 0.--7. 1. "  PRI_44  ,Interrupt 44  Priority"
line.long 0x30 "IPR12,Interrupt Priority Register"
hexmask.long.byte 0x30 24.--31. 1. " PRI_51  ,Interrupt 51  Priority"
hexmask.long.byte 0x30 16.--23. 1. "  PRI_50  ,Interrupt 50  Priority"
hexmask.long.byte 0x30 8.--15. 1. "  PRI_49  ,Interrupt 49  Priority"
hexmask.long.byte 0x30 0.--7. 1. "  PRI_48  ,Interrupt 48  Priority"
line.long 0x34 "IPR13,Interrupt Priority Register"
hexmask.long.byte 0x34 24.--31. 1. " PRI_55  ,Interrupt 55  Priority"
hexmask.long.byte 0x34 16.--23. 1. "  PRI_54  ,Interrupt 54  Priority"
hexmask.long.byte 0x34 8.--15. 1. "  PRI_53  ,Interrupt 53  Priority"
hexmask.long.byte 0x34 0.--7. 1. "  PRI_52  ,Interrupt 52  Priority"
line.long 0x38 "IPR14,Interrupt Priority Register"
hexmask.long.byte 0x38 24.--31. 1. " PRI_59  ,Interrupt 59  Priority"
hexmask.long.byte 0x38 16.--23. 1. "  PRI_58  ,Interrupt 58  Priority"
hexmask.long.byte 0x38 8.--15. 1. "  PRI_57  ,Interrupt 57  Priority"
hexmask.long.byte 0x38 0.--7. 1. "  PRI_56  ,Interrupt 56  Priority"
line.long 0x3C "IPR15,Interrupt Priority Register"
hexmask.long.byte 0x3C 24.--31. 1. " PRI_63  ,Interrupt 63  Priority"
hexmask.long.byte 0x3C 16.--23. 1. "  PRI_62  ,Interrupt 62  Priority"
hexmask.long.byte 0x3C 8.--15. 1. "  PRI_61  ,Interrupt 61  Priority"
hexmask.long.byte 0x3C 0.--7. 1. "  PRI_60  ,Interrupt 60  Priority"
line.long 0x40 "IPR16,Interrupt Priority Register"
hexmask.long.byte 0x40 24.--31. 1. " PRI_67  ,Interrupt 67  Priority"
hexmask.long.byte 0x40 16.--23. 1. "  PRI_66  ,Interrupt 66  Priority"
hexmask.long.byte 0x40 8.--15. 1. "  PRI_65  ,Interrupt 65  Priority"
hexmask.long.byte 0x40 0.--7. 1. "  PRI_64  ,Interrupt 64  Priority"
line.long 0x44 "IPR17,Interrupt Priority Register"
hexmask.long.byte 0x44 24.--31. 1. " PRI_71  ,Interrupt 71  Priority"
hexmask.long.byte 0x44 16.--23. 1. "  PRI_70  ,Interrupt 70  Priority"
hexmask.long.byte 0x44 8.--15. 1. "  PRI_69  ,Interrupt 69  Priority"
hexmask.long.byte 0x44 0.--7. 1. "  PRI_68  ,Interrupt 68  Priority"
line.long 0x48 "IPR18,Interrupt Priority Register"
hexmask.long.byte 0x48 24.--31. 1. " PRI_75  ,Interrupt 75  Priority"
hexmask.long.byte 0x48 16.--23. 1. "  PRI_74  ,Interrupt 74  Priority"
hexmask.long.byte 0x48 8.--15. 1. "  PRI_73  ,Interrupt 73  Priority"
hexmask.long.byte 0x48 0.--7. 1. "  PRI_72  ,Interrupt 72  Priority"
line.long 0x4C "IPR19,Interrupt Priority Register"
hexmask.long.byte 0x4C 24.--31. 1. " PRI_79  ,Interrupt 79  Priority"
hexmask.long.byte 0x4C 16.--23. 1. "  PRI_78  ,Interrupt 78  Priority"
hexmask.long.byte 0x4C 8.--15. 1. "  PRI_77  ,Interrupt 77  Priority"
hexmask.long.byte 0x4C 0.--7. 1. "  PRI_76  ,Interrupt 76  Priority"
line.long 0x50 "IPR20,Interrupt Priority Register"
hexmask.long.byte 0x50 24.--31. 1. " PRI_83  ,Interrupt 83  Priority"
hexmask.long.byte 0x50 16.--23. 1. "  PRI_82  ,Interrupt 82  Priority"
hexmask.long.byte 0x50 8.--15. 1. "  PRI_81  ,Interrupt 81  Priority"
hexmask.long.byte 0x50 0.--7. 1. "  PRI_80  ,Interrupt 80  Priority"
line.long 0x54 "IPR21,Interrupt Priority Register"
hexmask.long.byte 0x54 24.--31. 1. " PRI_87  ,Interrupt 87  Priority"
hexmask.long.byte 0x54 16.--23. 1. "  PRI_86  ,Interrupt 86  Priority"
hexmask.long.byte 0x54 8.--15. 1. "  PRI_85  ,Interrupt 85  Priority"
hexmask.long.byte 0x54 0.--7. 1. "  PRI_84  ,Interrupt 84  Priority"
line.long 0x58 "IPR22,Interrupt Priority Register"
hexmask.long.byte 0x58 24.--31. 1. " PRI_91  ,Interrupt 91  Priority"
hexmask.long.byte 0x58 16.--23. 1. "  PRI_90  ,Interrupt 90  Priority"
hexmask.long.byte 0x58 8.--15. 1. "  PRI_89  ,Interrupt 89  Priority"
hexmask.long.byte 0x58 0.--7. 1. "  PRI_88  ,Interrupt 88  Priority"
line.long 0x5C "IPR23,Interrupt Priority Register"
hexmask.long.byte 0x5C 24.--31. 1. " PRI_95  ,Interrupt 95  Priority"
hexmask.long.byte 0x5C 16.--23. 1. "  PRI_94  ,Interrupt 94  Priority"
hexmask.long.byte 0x5C 8.--15. 1. "  PRI_93  ,Interrupt 93  Priority"
hexmask.long.byte 0x5C 0.--7. 1. "  PRI_92  ,Interrupt 92  Priority"
line.long 0x60 "IPR24,Interrupt Priority Register"
hexmask.long.byte 0x60 24.--31. 1. " PRI_99  ,Interrupt 99  Priority"
hexmask.long.byte 0x60 16.--23. 1. "  PRI_98  ,Interrupt 98  Priority"
hexmask.long.byte 0x60 8.--15. 1. "  PRI_97  ,Interrupt 97  Priority"
hexmask.long.byte 0x60 0.--7. 1. "  PRI_96  ,Interrupt 96  Priority"
line.long 0x64 "IPR25,Interrupt Priority Register"
hexmask.long.byte 0x64 24.--31. 1. " PRI_103 ,Interrupt 103 Priority"
hexmask.long.byte 0x64 16.--23. 1. "  PRI_102 ,Interrupt 102 Priority"
hexmask.long.byte 0x64 8.--15. 1. "  PRI_101 ,Interrupt 101 Priority"
hexmask.long.byte 0x64 0.--7. 1. "  PRI_100 ,Interrupt 100 Priority"
line.long 0x68 "IPR26,Interrupt Priority Register"
hexmask.long.byte 0x68 24.--31. 1. " PRI_107 ,Interrupt 107 Priority"
hexmask.long.byte 0x68 16.--23. 1. "  PRI_106 ,Interrupt 106 Priority"
hexmask.long.byte 0x68 8.--15. 1. "  PRI_105 ,Interrupt 105 Priority"
hexmask.long.byte 0x68 0.--7. 1. "  PRI_104 ,Interrupt 104 Priority"
line.long 0x6C "IPR27,Interrupt Priority Register"
hexmask.long.byte 0x6C 24.--31. 1. " PRI_111 ,Interrupt 111 Priority"
hexmask.long.byte 0x6C 16.--23. 1. "  PRI_110 ,Interrupt 110 Priority"
hexmask.long.byte 0x6C 8.--15. 1. "  PRI_109 ,Interrupt 109 Priority"
hexmask.long.byte 0x6C 0.--7. 1. "  PRI_108 ,Interrupt 108 Priority"
line.long 0x70 "IPR28,Interrupt Priority Register"
hexmask.long.byte 0x70 24.--31. 1. " PRI_115 ,Interrupt 115 Priority"
hexmask.long.byte 0x70 16.--23. 1. "  PRI_114 ,Interrupt 114 Priority"
hexmask.long.byte 0x70 8.--15. 1. "  PRI_113 ,Interrupt 113 Priority"
hexmask.long.byte 0x70 0.--7. 1. "  PRI_112 ,Interrupt 112 Priority"
line.long 0x74 "IPR29,Interrupt Priority Register"
hexmask.long.byte 0x74 24.--31. 1. " PRI_119 ,Interrupt 119 Priority"
hexmask.long.byte 0x74 16.--23. 1. "  PRI_118 ,Interrupt 118 Priority"
hexmask.long.byte 0x74 8.--15. 1. "  PRI_117 ,Interrupt 117 Priority"
hexmask.long.byte 0x74 0.--7. 1. "  PRI_116 ,Interrupt 116 Priority"
line.long 0x78 "IPR30,Interrupt Priority Register"
hexmask.long.byte 0x78 24.--31. 1. " PRI_123 ,Interrupt 123 Priority"
hexmask.long.byte 0x78 16.--23. 1. "  PRI_122 ,Interrupt 122 Priority"
hexmask.long.byte 0x78 8.--15. 1. "  PRI_121 ,Interrupt 121 Priority"
hexmask.long.byte 0x78 0.--7. 1. "  PRI_120 ,Interrupt 120 Priority"
line.long 0x7C "IPR31,Interrupt Priority Register"
hexmask.long.byte 0x7C 24.--31. 1. " PRI_127 ,Interrupt 127 Priority"
hexmask.long.byte 0x7C 16.--23. 1. "  PRI_126 ,Interrupt 126 Priority"
hexmask.long.byte 0x7C 8.--15. 1. "  PRI_125 ,Interrupt 125 Priority"
hexmask.long.byte 0x7C 0.--7. 1. "  PRI_124 ,Interrupt 124 Priority"
line.long 0x80 "IPR32,Interrupt Priority Register"
hexmask.long.byte 0x80 24.--31. 1. " PRI_131 ,Interrupt 131 Priority"
hexmask.long.byte 0x80 16.--23. 1. "  PRI_130 ,Interrupt 130 Priority"
hexmask.long.byte 0x80 8.--15. 1. "  PRI_129 ,Interrupt 129 Priority"
hexmask.long.byte 0x80 0.--7. 1. "  PRI_128 ,Interrupt 128 Priority"
line.long 0x84 "IPR33,Interrupt Priority Register"
hexmask.long.byte 0x84 24.--31. 1. " PRI_135 ,Interrupt 135 Priority"
hexmask.long.byte 0x84 16.--23. 1. "  PRI_134 ,Interrupt 134 Priority"
hexmask.long.byte 0x84 8.--15. 1. "  PRI_133 ,Interrupt 133 Priority"
hexmask.long.byte 0x84 0.--7. 1. "  PRI_132 ,Interrupt 132 Priority"
line.long 0x88 "IPR34,Interrupt Priority Register"
hexmask.long.byte 0x88 24.--31. 1. " PRI_139 ,Interrupt 139 Priority"
hexmask.long.byte 0x88 16.--23. 1. "  PRI_138 ,Interrupt 138 Priority"
hexmask.long.byte 0x88 8.--15. 1. "  PRI_137 ,Interrupt 137 Priority"
hexmask.long.byte 0x88 0.--7. 1. "  PRI_136 ,Interrupt 136 Priority"
line.long 0x8C "IPR35,Interrupt Priority Register"
hexmask.long.byte 0x8C 24.--31. 1. " PRI_143 ,Interrupt 143 Priority"
hexmask.long.byte 0x8C 16.--23. 1. "  PRI_142 ,Interrupt 142 Priority"
hexmask.long.byte 0x8C 8.--15. 1. "  PRI_141 ,Interrupt 141 Priority"
hexmask.long.byte 0x8C 0.--7. 1. "  PRI_140 ,Interrupt 140 Priority"
line.long 0x90 "IPR36,Interrupt Priority Register"
hexmask.long.byte 0x90 24.--31. 1. " PRI_147 ,Interrupt 147 Priority"
hexmask.long.byte 0x90 16.--23. 1. "  PRI_146 ,Interrupt 146 Priority"
hexmask.long.byte 0x90 8.--15. 1. "  PRI_145 ,Interrupt 145 Priority"
hexmask.long.byte 0x90 0.--7. 1. "  PRI_144 ,Interrupt 144 Priority"
line.long 0x94 "IPR37,Interrupt Priority Register"
hexmask.long.byte 0x94 24.--31. 1. " PRI_151 ,Interrupt 151 Priority"
hexmask.long.byte 0x94 16.--23. 1. "  PRI_150 ,Interrupt 150 Priority"
hexmask.long.byte 0x94 8.--15. 1. "  PRI_149 ,Interrupt 149 Priority"
hexmask.long.byte 0x94 0.--7. 1. "  PRI_148 ,Interrupt 148 Priority"
line.long 0x98 "IPR38,Interrupt Priority Register"
hexmask.long.byte 0x98 24.--31. 1. " PRI_155 ,Interrupt 155 Priority"
hexmask.long.byte 0x98 16.--23. 1. "  PRI_154 ,Interrupt 154 Priority"
hexmask.long.byte 0x98 8.--15. 1. "  PRI_153 ,Interrupt 153 Priority"
hexmask.long.byte 0x98 0.--7. 1. "  PRI_152 ,Interrupt 152 Priority"
line.long 0x9C "IPR39,Interrupt Priority Register"
hexmask.long.byte 0x9C 24.--31. 1. " PRI_159 ,Interrupt 159 Priority"
hexmask.long.byte 0x9C 16.--23. 1. "  PRI_158 ,Interrupt 158 Priority"
hexmask.long.byte 0x9C 8.--15. 1. "  PRI_157 ,Interrupt 157 Priority"
hexmask.long.byte 0x9C 0.--7. 1. "  PRI_156 ,Interrupt 156 Priority"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x05)
group.long 0x400++0xBF
line.long 0x0 "IPR0,Interrupt Priority Register"
hexmask.long.byte 0x0 24.--31. 1. " PRI_3   ,Interrupt 3   Priority"
hexmask.long.byte 0x0 16.--23. 1. "  PRI_2   ,Interrupt 2   Priority"
hexmask.long.byte 0x0 8.--15. 1. "  PRI_1   ,Interrupt 1   Priority"
hexmask.long.byte 0x0 0.--7. 1. "  PRI_0   ,Interrupt 0   Priority"
line.long 0x4 "IPR1,Interrupt Priority Register"
hexmask.long.byte 0x4 24.--31. 1. " PRI_7   ,Interrupt 7   Priority"
hexmask.long.byte 0x4 16.--23. 1. "  PRI_6   ,Interrupt 6   Priority"
hexmask.long.byte 0x4 8.--15. 1. "  PRI_5   ,Interrupt 5   Priority"
hexmask.long.byte 0x4 0.--7. 1. "  PRI_4   ,Interrupt 4   Priority"
line.long 0x8 "IPR2,Interrupt Priority Register"
hexmask.long.byte 0x8 24.--31. 1. " PRI_11  ,Interrupt 11  Priority"
hexmask.long.byte 0x8 16.--23. 1. "  PRI_10  ,Interrupt 10  Priority"
hexmask.long.byte 0x8 8.--15. 1. "  PRI_9   ,Interrupt 9   Priority"
hexmask.long.byte 0x8 0.--7. 1. "  PRI_8   ,Interrupt 8   Priority"
line.long 0xC "IPR3,Interrupt Priority Register"
hexmask.long.byte 0xC 24.--31. 1. " PRI_15  ,Interrupt 15  Priority"
hexmask.long.byte 0xC 16.--23. 1. "  PRI_14  ,Interrupt 14  Priority"
hexmask.long.byte 0xC 8.--15. 1. "  PRI_13  ,Interrupt 13  Priority"
hexmask.long.byte 0xC 0.--7. 1. "  PRI_12  ,Interrupt 12  Priority"
line.long 0x10 "IPR4,Interrupt Priority Register"
hexmask.long.byte 0x10 24.--31. 1. " PRI_19  ,Interrupt 19  Priority"
hexmask.long.byte 0x10 16.--23. 1. "  PRI_18  ,Interrupt 18  Priority"
hexmask.long.byte 0x10 8.--15. 1. "  PRI_17  ,Interrupt 17  Priority"
hexmask.long.byte 0x10 0.--7. 1. "  PRI_16  ,Interrupt 16  Priority"
line.long 0x14 "IPR5,Interrupt Priority Register"
hexmask.long.byte 0x14 24.--31. 1. " PRI_23  ,Interrupt 23  Priority"
hexmask.long.byte 0x14 16.--23. 1. "  PRI_22  ,Interrupt 22  Priority"
hexmask.long.byte 0x14 8.--15. 1. "  PRI_21  ,Interrupt 21  Priority"
hexmask.long.byte 0x14 0.--7. 1. "  PRI_20  ,Interrupt 20  Priority"
line.long 0x18 "IPR6,Interrupt Priority Register"
hexmask.long.byte 0x18 24.--31. 1. " PRI_27  ,Interrupt 27  Priority"
hexmask.long.byte 0x18 16.--23. 1. "  PRI_26  ,Interrupt 26  Priority"
hexmask.long.byte 0x18 8.--15. 1. "  PRI_25  ,Interrupt 25  Priority"
hexmask.long.byte 0x18 0.--7. 1. "  PRI_24  ,Interrupt 24  Priority"
line.long 0x1C "IPR7,Interrupt Priority Register"
hexmask.long.byte 0x1C 24.--31. 1. " PRI_31  ,Interrupt 31  Priority"
hexmask.long.byte 0x1C 16.--23. 1. "  PRI_30  ,Interrupt 30  Priority"
hexmask.long.byte 0x1C 8.--15. 1. "  PRI_29  ,Interrupt 29  Priority"
hexmask.long.byte 0x1C 0.--7. 1. "  PRI_28  ,Interrupt 28  Priority"
line.long 0x20 "IPR8,Interrupt Priority Register"
hexmask.long.byte 0x20 24.--31. 1. " PRI_35  ,Interrupt 35  Priority"
hexmask.long.byte 0x20 16.--23. 1. "  PRI_34  ,Interrupt 34  Priority"
hexmask.long.byte 0x20 8.--15. 1. "  PRI_33  ,Interrupt 33  Priority"
hexmask.long.byte 0x20 0.--7. 1. "  PRI_32  ,Interrupt 32  Priority"
line.long 0x24 "IPR9,Interrupt Priority Register"
hexmask.long.byte 0x24 24.--31. 1. " PRI_39  ,Interrupt 39  Priority"
hexmask.long.byte 0x24 16.--23. 1. "  PRI_38  ,Interrupt 38  Priority"
hexmask.long.byte 0x24 8.--15. 1. "  PRI_37  ,Interrupt 37  Priority"
hexmask.long.byte 0x24 0.--7. 1. "  PRI_36  ,Interrupt 36  Priority"
line.long 0x28 "IPR10,Interrupt Priority Register"
hexmask.long.byte 0x28 24.--31. 1. " PRI_43  ,Interrupt 43  Priority"
hexmask.long.byte 0x28 16.--23. 1. "  PRI_42  ,Interrupt 42  Priority"
hexmask.long.byte 0x28 8.--15. 1. "  PRI_41  ,Interrupt 41  Priority"
hexmask.long.byte 0x28 0.--7. 1. "  PRI_40  ,Interrupt 40  Priority"
line.long 0x2C "IPR11,Interrupt Priority Register"
hexmask.long.byte 0x2C 24.--31. 1. " PRI_47  ,Interrupt 47  Priority"
hexmask.long.byte 0x2C 16.--23. 1. "  PRI_46  ,Interrupt 46  Priority"
hexmask.long.byte 0x2C 8.--15. 1. "  PRI_45  ,Interrupt 45  Priority"
hexmask.long.byte 0x2C 0.--7. 1. "  PRI_44  ,Interrupt 44  Priority"
line.long 0x30 "IPR12,Interrupt Priority Register"
hexmask.long.byte 0x30 24.--31. 1. " PRI_51  ,Interrupt 51  Priority"
hexmask.long.byte 0x30 16.--23. 1. "  PRI_50  ,Interrupt 50  Priority"
hexmask.long.byte 0x30 8.--15. 1. "  PRI_49  ,Interrupt 49  Priority"
hexmask.long.byte 0x30 0.--7. 1. "  PRI_48  ,Interrupt 48  Priority"
line.long 0x34 "IPR13,Interrupt Priority Register"
hexmask.long.byte 0x34 24.--31. 1. " PRI_55  ,Interrupt 55  Priority"
hexmask.long.byte 0x34 16.--23. 1. "  PRI_54  ,Interrupt 54  Priority"
hexmask.long.byte 0x34 8.--15. 1. "  PRI_53  ,Interrupt 53  Priority"
hexmask.long.byte 0x34 0.--7. 1. "  PRI_52  ,Interrupt 52  Priority"
line.long 0x38 "IPR14,Interrupt Priority Register"
hexmask.long.byte 0x38 24.--31. 1. " PRI_59  ,Interrupt 59  Priority"
hexmask.long.byte 0x38 16.--23. 1. "  PRI_58  ,Interrupt 58  Priority"
hexmask.long.byte 0x38 8.--15. 1. "  PRI_57  ,Interrupt 57  Priority"
hexmask.long.byte 0x38 0.--7. 1. "  PRI_56  ,Interrupt 56  Priority"
line.long 0x3C "IPR15,Interrupt Priority Register"
hexmask.long.byte 0x3C 24.--31. 1. " PRI_63  ,Interrupt 63  Priority"
hexmask.long.byte 0x3C 16.--23. 1. "  PRI_62  ,Interrupt 62  Priority"
hexmask.long.byte 0x3C 8.--15. 1. "  PRI_61  ,Interrupt 61  Priority"
hexmask.long.byte 0x3C 0.--7. 1. "  PRI_60  ,Interrupt 60  Priority"
line.long 0x40 "IPR16,Interrupt Priority Register"
hexmask.long.byte 0x40 24.--31. 1. " PRI_67  ,Interrupt 67  Priority"
hexmask.long.byte 0x40 16.--23. 1. "  PRI_66  ,Interrupt 66  Priority"
hexmask.long.byte 0x40 8.--15. 1. "  PRI_65  ,Interrupt 65  Priority"
hexmask.long.byte 0x40 0.--7. 1. "  PRI_64  ,Interrupt 64  Priority"
line.long 0x44 "IPR17,Interrupt Priority Register"
hexmask.long.byte 0x44 24.--31. 1. " PRI_71  ,Interrupt 71  Priority"
hexmask.long.byte 0x44 16.--23. 1. "  PRI_70  ,Interrupt 70  Priority"
hexmask.long.byte 0x44 8.--15. 1. "  PRI_69  ,Interrupt 69  Priority"
hexmask.long.byte 0x44 0.--7. 1. "  PRI_68  ,Interrupt 68  Priority"
line.long 0x48 "IPR18,Interrupt Priority Register"
hexmask.long.byte 0x48 24.--31. 1. " PRI_75  ,Interrupt 75  Priority"
hexmask.long.byte 0x48 16.--23. 1. "  PRI_74  ,Interrupt 74  Priority"
hexmask.long.byte 0x48 8.--15. 1. "  PRI_73  ,Interrupt 73  Priority"
hexmask.long.byte 0x48 0.--7. 1. "  PRI_72  ,Interrupt 72  Priority"
line.long 0x4C "IPR19,Interrupt Priority Register"
hexmask.long.byte 0x4C 24.--31. 1. " PRI_79  ,Interrupt 79  Priority"
hexmask.long.byte 0x4C 16.--23. 1. "  PRI_78  ,Interrupt 78  Priority"
hexmask.long.byte 0x4C 8.--15. 1. "  PRI_77  ,Interrupt 77  Priority"
hexmask.long.byte 0x4C 0.--7. 1. "  PRI_76  ,Interrupt 76  Priority"
line.long 0x50 "IPR20,Interrupt Priority Register"
hexmask.long.byte 0x50 24.--31. 1. " PRI_83  ,Interrupt 83  Priority"
hexmask.long.byte 0x50 16.--23. 1. "  PRI_82  ,Interrupt 82  Priority"
hexmask.long.byte 0x50 8.--15. 1. "  PRI_81  ,Interrupt 81  Priority"
hexmask.long.byte 0x50 0.--7. 1. "  PRI_80  ,Interrupt 80  Priority"
line.long 0x54 "IPR21,Interrupt Priority Register"
hexmask.long.byte 0x54 24.--31. 1. " PRI_87  ,Interrupt 87  Priority"
hexmask.long.byte 0x54 16.--23. 1. "  PRI_86  ,Interrupt 86  Priority"
hexmask.long.byte 0x54 8.--15. 1. "  PRI_85  ,Interrupt 85  Priority"
hexmask.long.byte 0x54 0.--7. 1. "  PRI_84  ,Interrupt 84  Priority"
line.long 0x58 "IPR22,Interrupt Priority Register"
hexmask.long.byte 0x58 24.--31. 1. " PRI_91  ,Interrupt 91  Priority"
hexmask.long.byte 0x58 16.--23. 1. "  PRI_90  ,Interrupt 90  Priority"
hexmask.long.byte 0x58 8.--15. 1. "  PRI_89  ,Interrupt 89  Priority"
hexmask.long.byte 0x58 0.--7. 1. "  PRI_88  ,Interrupt 88  Priority"
line.long 0x5C "IPR23,Interrupt Priority Register"
hexmask.long.byte 0x5C 24.--31. 1. " PRI_95  ,Interrupt 95  Priority"
hexmask.long.byte 0x5C 16.--23. 1. "  PRI_94  ,Interrupt 94  Priority"
hexmask.long.byte 0x5C 8.--15. 1. "  PRI_93  ,Interrupt 93  Priority"
hexmask.long.byte 0x5C 0.--7. 1. "  PRI_92  ,Interrupt 92  Priority"
line.long 0x60 "IPR24,Interrupt Priority Register"
hexmask.long.byte 0x60 24.--31. 1. " PRI_99  ,Interrupt 99  Priority"
hexmask.long.byte 0x60 16.--23. 1. "  PRI_98  ,Interrupt 98  Priority"
hexmask.long.byte 0x60 8.--15. 1. "  PRI_97  ,Interrupt 97  Priority"
hexmask.long.byte 0x60 0.--7. 1. "  PRI_96  ,Interrupt 96  Priority"
line.long 0x64 "IPR25,Interrupt Priority Register"
hexmask.long.byte 0x64 24.--31. 1. " PRI_103 ,Interrupt 103 Priority"
hexmask.long.byte 0x64 16.--23. 1. "  PRI_102 ,Interrupt 102 Priority"
hexmask.long.byte 0x64 8.--15. 1. "  PRI_101 ,Interrupt 101 Priority"
hexmask.long.byte 0x64 0.--7. 1. "  PRI_100 ,Interrupt 100 Priority"
line.long 0x68 "IPR26,Interrupt Priority Register"
hexmask.long.byte 0x68 24.--31. 1. " PRI_107 ,Interrupt 107 Priority"
hexmask.long.byte 0x68 16.--23. 1. "  PRI_106 ,Interrupt 106 Priority"
hexmask.long.byte 0x68 8.--15. 1. "  PRI_105 ,Interrupt 105 Priority"
hexmask.long.byte 0x68 0.--7. 1. "  PRI_104 ,Interrupt 104 Priority"
line.long 0x6C "IPR27,Interrupt Priority Register"
hexmask.long.byte 0x6C 24.--31. 1. " PRI_111 ,Interrupt 111 Priority"
hexmask.long.byte 0x6C 16.--23. 1. "  PRI_110 ,Interrupt 110 Priority"
hexmask.long.byte 0x6C 8.--15. 1. "  PRI_109 ,Interrupt 109 Priority"
hexmask.long.byte 0x6C 0.--7. 1. "  PRI_108 ,Interrupt 108 Priority"
line.long 0x70 "IPR28,Interrupt Priority Register"
hexmask.long.byte 0x70 24.--31. 1. " PRI_115 ,Interrupt 115 Priority"
hexmask.long.byte 0x70 16.--23. 1. "  PRI_114 ,Interrupt 114 Priority"
hexmask.long.byte 0x70 8.--15. 1. "  PRI_113 ,Interrupt 113 Priority"
hexmask.long.byte 0x70 0.--7. 1. "  PRI_112 ,Interrupt 112 Priority"
line.long 0x74 "IPR29,Interrupt Priority Register"
hexmask.long.byte 0x74 24.--31. 1. " PRI_119 ,Interrupt 119 Priority"
hexmask.long.byte 0x74 16.--23. 1. "  PRI_118 ,Interrupt 118 Priority"
hexmask.long.byte 0x74 8.--15. 1. "  PRI_117 ,Interrupt 117 Priority"
hexmask.long.byte 0x74 0.--7. 1. "  PRI_116 ,Interrupt 116 Priority"
line.long 0x78 "IPR30,Interrupt Priority Register"
hexmask.long.byte 0x78 24.--31. 1. " PRI_123 ,Interrupt 123 Priority"
hexmask.long.byte 0x78 16.--23. 1. "  PRI_122 ,Interrupt 122 Priority"
hexmask.long.byte 0x78 8.--15. 1. "  PRI_121 ,Interrupt 121 Priority"
hexmask.long.byte 0x78 0.--7. 1. "  PRI_120 ,Interrupt 120 Priority"
line.long 0x7C "IPR31,Interrupt Priority Register"
hexmask.long.byte 0x7C 24.--31. 1. " PRI_127 ,Interrupt 127 Priority"
hexmask.long.byte 0x7C 16.--23. 1. "  PRI_126 ,Interrupt 126 Priority"
hexmask.long.byte 0x7C 8.--15. 1. "  PRI_125 ,Interrupt 125 Priority"
hexmask.long.byte 0x7C 0.--7. 1. "  PRI_124 ,Interrupt 124 Priority"
line.long 0x80 "IPR32,Interrupt Priority Register"
hexmask.long.byte 0x80 24.--31. 1. " PRI_131 ,Interrupt 131 Priority"
hexmask.long.byte 0x80 16.--23. 1. "  PRI_130 ,Interrupt 130 Priority"
hexmask.long.byte 0x80 8.--15. 1. "  PRI_129 ,Interrupt 129 Priority"
hexmask.long.byte 0x80 0.--7. 1. "  PRI_128 ,Interrupt 128 Priority"
line.long 0x84 "IPR33,Interrupt Priority Register"
hexmask.long.byte 0x84 24.--31. 1. " PRI_135 ,Interrupt 135 Priority"
hexmask.long.byte 0x84 16.--23. 1. "  PRI_134 ,Interrupt 134 Priority"
hexmask.long.byte 0x84 8.--15. 1. "  PRI_133 ,Interrupt 133 Priority"
hexmask.long.byte 0x84 0.--7. 1. "  PRI_132 ,Interrupt 132 Priority"
line.long 0x88 "IPR34,Interrupt Priority Register"
hexmask.long.byte 0x88 24.--31. 1. " PRI_139 ,Interrupt 139 Priority"
hexmask.long.byte 0x88 16.--23. 1. "  PRI_138 ,Interrupt 138 Priority"
hexmask.long.byte 0x88 8.--15. 1. "  PRI_137 ,Interrupt 137 Priority"
hexmask.long.byte 0x88 0.--7. 1. "  PRI_136 ,Interrupt 136 Priority"
line.long 0x8C "IPR35,Interrupt Priority Register"
hexmask.long.byte 0x8C 24.--31. 1. " PRI_143 ,Interrupt 143 Priority"
hexmask.long.byte 0x8C 16.--23. 1. "  PRI_142 ,Interrupt 142 Priority"
hexmask.long.byte 0x8C 8.--15. 1. "  PRI_141 ,Interrupt 141 Priority"
hexmask.long.byte 0x8C 0.--7. 1. "  PRI_140 ,Interrupt 140 Priority"
line.long 0x90 "IPR36,Interrupt Priority Register"
hexmask.long.byte 0x90 24.--31. 1. " PRI_147 ,Interrupt 147 Priority"
hexmask.long.byte 0x90 16.--23. 1. "  PRI_146 ,Interrupt 146 Priority"
hexmask.long.byte 0x90 8.--15. 1. "  PRI_145 ,Interrupt 145 Priority"
hexmask.long.byte 0x90 0.--7. 1. "  PRI_144 ,Interrupt 144 Priority"
line.long 0x94 "IPR37,Interrupt Priority Register"
hexmask.long.byte 0x94 24.--31. 1. " PRI_151 ,Interrupt 151 Priority"
hexmask.long.byte 0x94 16.--23. 1. "  PRI_150 ,Interrupt 150 Priority"
hexmask.long.byte 0x94 8.--15. 1. "  PRI_149 ,Interrupt 149 Priority"
hexmask.long.byte 0x94 0.--7. 1. "  PRI_148 ,Interrupt 148 Priority"
line.long 0x98 "IPR38,Interrupt Priority Register"
hexmask.long.byte 0x98 24.--31. 1. " PRI_155 ,Interrupt 155 Priority"
hexmask.long.byte 0x98 16.--23. 1. "  PRI_154 ,Interrupt 154 Priority"
hexmask.long.byte 0x98 8.--15. 1. "  PRI_153 ,Interrupt 153 Priority"
hexmask.long.byte 0x98 0.--7. 1. "  PRI_152 ,Interrupt 152 Priority"
line.long 0x9C "IPR39,Interrupt Priority Register"
hexmask.long.byte 0x9C 24.--31. 1. " PRI_159 ,Interrupt 159 Priority"
hexmask.long.byte 0x9C 16.--23. 1. "  PRI_158 ,Interrupt 158 Priority"
hexmask.long.byte 0x9C 8.--15. 1. "  PRI_157 ,Interrupt 157 Priority"
hexmask.long.byte 0x9C 0.--7. 1. "  PRI_156 ,Interrupt 156 Priority"
line.long 0xA0 "IPR40,Interrupt Priority Register"
hexmask.long.byte 0xA0 24.--31. 1. " PRI_163 ,Interrupt 163 Priority"
hexmask.long.byte 0xA0 16.--23. 1. "  PRI_162 ,Interrupt 162 Priority"
hexmask.long.byte 0xA0 8.--15. 1. "  PRI_161 ,Interrupt 161 Priority"
hexmask.long.byte 0xA0 0.--7. 1. "  PRI_160 ,Interrupt 160 Priority"
line.long 0xA4 "IPR41,Interrupt Priority Register"
hexmask.long.byte 0xA4 24.--31. 1. " PRI_167 ,Interrupt 167 Priority"
hexmask.long.byte 0xA4 16.--23. 1. "  PRI_166 ,Interrupt 166 Priority"
hexmask.long.byte 0xA4 8.--15. 1. "  PRI_165 ,Interrupt 165 Priority"
hexmask.long.byte 0xA4 0.--7. 1. "  PRI_164 ,Interrupt 164 Priority"
line.long 0xA8 "IPR42,Interrupt Priority Register"
hexmask.long.byte 0xA8 24.--31. 1. " PRI_171 ,Interrupt 171 Priority"
hexmask.long.byte 0xA8 16.--23. 1. "  PRI_170 ,Interrupt 170 Priority"
hexmask.long.byte 0xA8 8.--15. 1. "  PRI_169 ,Interrupt 169 Priority"
hexmask.long.byte 0xA8 0.--7. 1. "  PRI_168 ,Interrupt 168 Priority"
line.long 0xAC "IPR43,Interrupt Priority Register"
hexmask.long.byte 0xAC 24.--31. 1. " PRI_175 ,Interrupt 175 Priority"
hexmask.long.byte 0xAC 16.--23. 1. "  PRI_174 ,Interrupt 174 Priority"
hexmask.long.byte 0xAC 8.--15. 1. "  PRI_173 ,Interrupt 173 Priority"
hexmask.long.byte 0xAC 0.--7. 1. "  PRI_172 ,Interrupt 172 Priority"
line.long 0xB0 "IPR44,Interrupt Priority Register"
hexmask.long.byte 0xB0 24.--31. 1. " PRI_179 ,Interrupt 179 Priority"
hexmask.long.byte 0xB0 16.--23. 1. "  PRI_178 ,Interrupt 178 Priority"
hexmask.long.byte 0xB0 8.--15. 1. "  PRI_177 ,Interrupt 177 Priority"
hexmask.long.byte 0xB0 0.--7. 1. "  PRI_176 ,Interrupt 176 Priority"
line.long 0xB4 "IPR45,Interrupt Priority Register"
hexmask.long.byte 0xB4 24.--31. 1. " PRI_183 ,Interrupt 183 Priority"
hexmask.long.byte 0xB4 16.--23. 1. "  PRI_182 ,Interrupt 182 Priority"
hexmask.long.byte 0xB4 8.--15. 1. "  PRI_181 ,Interrupt 181 Priority"
hexmask.long.byte 0xB4 0.--7. 1. "  PRI_180 ,Interrupt 180 Priority"
line.long 0xB8 "IPR46,Interrupt Priority Register"
hexmask.long.byte 0xB8 24.--31. 1. " PRI_187 ,Interrupt 187 Priority"
hexmask.long.byte 0xB8 16.--23. 1. "  PRI_186 ,Interrupt 186 Priority"
hexmask.long.byte 0xB8 8.--15. 1. "  PRI_185 ,Interrupt 185 Priority"
hexmask.long.byte 0xB8 0.--7. 1. "  PRI_184 ,Interrupt 184 Priority"
line.long 0xBC "IPR47,Interrupt Priority Register"
hexmask.long.byte 0xBC 24.--31. 1. " PRI_191 ,Interrupt 191 Priority"
hexmask.long.byte 0xBC 16.--23. 1. "  PRI_190 ,Interrupt 190 Priority"
hexmask.long.byte 0xBC 8.--15. 1. "  PRI_189 ,Interrupt 189 Priority"
hexmask.long.byte 0xBC 0.--7. 1. "  PRI_188 ,Interrupt 188 Priority"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x06)
group.long 0x400++0xDF
line.long 0x0 "IPR0,Interrupt Priority Register"
hexmask.long.byte 0x0 24.--31. 1. " PRI_3   ,Interrupt 3   Priority"
hexmask.long.byte 0x0 16.--23. 1. "  PRI_2   ,Interrupt 2   Priority"
hexmask.long.byte 0x0 8.--15. 1. "  PRI_1   ,Interrupt 1   Priority"
hexmask.long.byte 0x0 0.--7. 1. "  PRI_0   ,Interrupt 0   Priority"
line.long 0x4 "IPR1,Interrupt Priority Register"
hexmask.long.byte 0x4 24.--31. 1. " PRI_7   ,Interrupt 7   Priority"
hexmask.long.byte 0x4 16.--23. 1. "  PRI_6   ,Interrupt 6   Priority"
hexmask.long.byte 0x4 8.--15. 1. "  PRI_5   ,Interrupt 5   Priority"
hexmask.long.byte 0x4 0.--7. 1. "  PRI_4   ,Interrupt 4   Priority"
line.long 0x8 "IPR2,Interrupt Priority Register"
hexmask.long.byte 0x8 24.--31. 1. " PRI_11  ,Interrupt 11  Priority"
hexmask.long.byte 0x8 16.--23. 1. "  PRI_10  ,Interrupt 10  Priority"
hexmask.long.byte 0x8 8.--15. 1. "  PRI_9   ,Interrupt 9   Priority"
hexmask.long.byte 0x8 0.--7. 1. "  PRI_8   ,Interrupt 8   Priority"
line.long 0xC "IPR3,Interrupt Priority Register"
hexmask.long.byte 0xC 24.--31. 1. " PRI_15  ,Interrupt 15  Priority"
hexmask.long.byte 0xC 16.--23. 1. "  PRI_14  ,Interrupt 14  Priority"
hexmask.long.byte 0xC 8.--15. 1. "  PRI_13  ,Interrupt 13  Priority"
hexmask.long.byte 0xC 0.--7. 1. "  PRI_12  ,Interrupt 12  Priority"
line.long 0x10 "IPR4,Interrupt Priority Register"
hexmask.long.byte 0x10 24.--31. 1. " PRI_19  ,Interrupt 19  Priority"
hexmask.long.byte 0x10 16.--23. 1. "  PRI_18  ,Interrupt 18  Priority"
hexmask.long.byte 0x10 8.--15. 1. "  PRI_17  ,Interrupt 17  Priority"
hexmask.long.byte 0x10 0.--7. 1. "  PRI_16  ,Interrupt 16  Priority"
line.long 0x14 "IPR5,Interrupt Priority Register"
hexmask.long.byte 0x14 24.--31. 1. " PRI_23  ,Interrupt 23  Priority"
hexmask.long.byte 0x14 16.--23. 1. "  PRI_22  ,Interrupt 22  Priority"
hexmask.long.byte 0x14 8.--15. 1. "  PRI_21  ,Interrupt 21  Priority"
hexmask.long.byte 0x14 0.--7. 1. "  PRI_20  ,Interrupt 20  Priority"
line.long 0x18 "IPR6,Interrupt Priority Register"
hexmask.long.byte 0x18 24.--31. 1. " PRI_27  ,Interrupt 27  Priority"
hexmask.long.byte 0x18 16.--23. 1. "  PRI_26  ,Interrupt 26  Priority"
hexmask.long.byte 0x18 8.--15. 1. "  PRI_25  ,Interrupt 25  Priority"
hexmask.long.byte 0x18 0.--7. 1. "  PRI_24  ,Interrupt 24  Priority"
line.long 0x1C "IPR7,Interrupt Priority Register"
hexmask.long.byte 0x1C 24.--31. 1. " PRI_31  ,Interrupt 31  Priority"
hexmask.long.byte 0x1C 16.--23. 1. "  PRI_30  ,Interrupt 30  Priority"
hexmask.long.byte 0x1C 8.--15. 1. "  PRI_29  ,Interrupt 29  Priority"
hexmask.long.byte 0x1C 0.--7. 1. "  PRI_28  ,Interrupt 28  Priority"
line.long 0x20 "IPR8,Interrupt Priority Register"
hexmask.long.byte 0x20 24.--31. 1. " PRI_35  ,Interrupt 35  Priority"
hexmask.long.byte 0x20 16.--23. 1. "  PRI_34  ,Interrupt 34  Priority"
hexmask.long.byte 0x20 8.--15. 1. "  PRI_33  ,Interrupt 33  Priority"
hexmask.long.byte 0x20 0.--7. 1. "  PRI_32  ,Interrupt 32  Priority"
line.long 0x24 "IPR9,Interrupt Priority Register"
hexmask.long.byte 0x24 24.--31. 1. " PRI_39  ,Interrupt 39  Priority"
hexmask.long.byte 0x24 16.--23. 1. "  PRI_38  ,Interrupt 38  Priority"
hexmask.long.byte 0x24 8.--15. 1. "  PRI_37  ,Interrupt 37  Priority"
hexmask.long.byte 0x24 0.--7. 1. "  PRI_36  ,Interrupt 36  Priority"
line.long 0x28 "IPR10,Interrupt Priority Register"
hexmask.long.byte 0x28 24.--31. 1. " PRI_43  ,Interrupt 43  Priority"
hexmask.long.byte 0x28 16.--23. 1. "  PRI_42  ,Interrupt 42  Priority"
hexmask.long.byte 0x28 8.--15. 1. "  PRI_41  ,Interrupt 41  Priority"
hexmask.long.byte 0x28 0.--7. 1. "  PRI_40  ,Interrupt 40  Priority"
line.long 0x2C "IPR11,Interrupt Priority Register"
hexmask.long.byte 0x2C 24.--31. 1. " PRI_47  ,Interrupt 47  Priority"
hexmask.long.byte 0x2C 16.--23. 1. "  PRI_46  ,Interrupt 46  Priority"
hexmask.long.byte 0x2C 8.--15. 1. "  PRI_45  ,Interrupt 45  Priority"
hexmask.long.byte 0x2C 0.--7. 1. "  PRI_44  ,Interrupt 44  Priority"
line.long 0x30 "IPR12,Interrupt Priority Register"
hexmask.long.byte 0x30 24.--31. 1. " PRI_51  ,Interrupt 51  Priority"
hexmask.long.byte 0x30 16.--23. 1. "  PRI_50  ,Interrupt 50  Priority"
hexmask.long.byte 0x30 8.--15. 1. "  PRI_49  ,Interrupt 49  Priority"
hexmask.long.byte 0x30 0.--7. 1. "  PRI_48  ,Interrupt 48  Priority"
line.long 0x34 "IPR13,Interrupt Priority Register"
hexmask.long.byte 0x34 24.--31. 1. " PRI_55  ,Interrupt 55  Priority"
hexmask.long.byte 0x34 16.--23. 1. "  PRI_54  ,Interrupt 54  Priority"
hexmask.long.byte 0x34 8.--15. 1. "  PRI_53  ,Interrupt 53  Priority"
hexmask.long.byte 0x34 0.--7. 1. "  PRI_52  ,Interrupt 52  Priority"
line.long 0x38 "IPR14,Interrupt Priority Register"
hexmask.long.byte 0x38 24.--31. 1. " PRI_59  ,Interrupt 59  Priority"
hexmask.long.byte 0x38 16.--23. 1. "  PRI_58  ,Interrupt 58  Priority"
hexmask.long.byte 0x38 8.--15. 1. "  PRI_57  ,Interrupt 57  Priority"
hexmask.long.byte 0x38 0.--7. 1. "  PRI_56  ,Interrupt 56  Priority"
line.long 0x3C "IPR15,Interrupt Priority Register"
hexmask.long.byte 0x3C 24.--31. 1. " PRI_63  ,Interrupt 63  Priority"
hexmask.long.byte 0x3C 16.--23. 1. "  PRI_62  ,Interrupt 62  Priority"
hexmask.long.byte 0x3C 8.--15. 1. "  PRI_61  ,Interrupt 61  Priority"
hexmask.long.byte 0x3C 0.--7. 1. "  PRI_60  ,Interrupt 60  Priority"
line.long 0x40 "IPR16,Interrupt Priority Register"
hexmask.long.byte 0x40 24.--31. 1. " PRI_67  ,Interrupt 67  Priority"
hexmask.long.byte 0x40 16.--23. 1. "  PRI_66  ,Interrupt 66  Priority"
hexmask.long.byte 0x40 8.--15. 1. "  PRI_65  ,Interrupt 65  Priority"
hexmask.long.byte 0x40 0.--7. 1. "  PRI_64  ,Interrupt 64  Priority"
line.long 0x44 "IPR17,Interrupt Priority Register"
hexmask.long.byte 0x44 24.--31. 1. " PRI_71  ,Interrupt 71  Priority"
hexmask.long.byte 0x44 16.--23. 1. "  PRI_70  ,Interrupt 70  Priority"
hexmask.long.byte 0x44 8.--15. 1. "  PRI_69  ,Interrupt 69  Priority"
hexmask.long.byte 0x44 0.--7. 1. "  PRI_68  ,Interrupt 68  Priority"
line.long 0x48 "IPR18,Interrupt Priority Register"
hexmask.long.byte 0x48 24.--31. 1. " PRI_75  ,Interrupt 75  Priority"
hexmask.long.byte 0x48 16.--23. 1. "  PRI_74  ,Interrupt 74  Priority"
hexmask.long.byte 0x48 8.--15. 1. "  PRI_73  ,Interrupt 73  Priority"
hexmask.long.byte 0x48 0.--7. 1. "  PRI_72  ,Interrupt 72  Priority"
line.long 0x4C "IPR19,Interrupt Priority Register"
hexmask.long.byte 0x4C 24.--31. 1. " PRI_79  ,Interrupt 79  Priority"
hexmask.long.byte 0x4C 16.--23. 1. "  PRI_78  ,Interrupt 78  Priority"
hexmask.long.byte 0x4C 8.--15. 1. "  PRI_77  ,Interrupt 77  Priority"
hexmask.long.byte 0x4C 0.--7. 1. "  PRI_76  ,Interrupt 76  Priority"
line.long 0x50 "IPR20,Interrupt Priority Register"
hexmask.long.byte 0x50 24.--31. 1. " PRI_83  ,Interrupt 83  Priority"
hexmask.long.byte 0x50 16.--23. 1. "  PRI_82  ,Interrupt 82  Priority"
hexmask.long.byte 0x50 8.--15. 1. "  PRI_81  ,Interrupt 81  Priority"
hexmask.long.byte 0x50 0.--7. 1. "  PRI_80  ,Interrupt 80  Priority"
line.long 0x54 "IPR21,Interrupt Priority Register"
hexmask.long.byte 0x54 24.--31. 1. " PRI_87  ,Interrupt 87  Priority"
hexmask.long.byte 0x54 16.--23. 1. "  PRI_86  ,Interrupt 86  Priority"
hexmask.long.byte 0x54 8.--15. 1. "  PRI_85  ,Interrupt 85  Priority"
hexmask.long.byte 0x54 0.--7. 1. "  PRI_84  ,Interrupt 84  Priority"
line.long 0x58 "IPR22,Interrupt Priority Register"
hexmask.long.byte 0x58 24.--31. 1. " PRI_91  ,Interrupt 91  Priority"
hexmask.long.byte 0x58 16.--23. 1. "  PRI_90  ,Interrupt 90  Priority"
hexmask.long.byte 0x58 8.--15. 1. "  PRI_89  ,Interrupt 89  Priority"
hexmask.long.byte 0x58 0.--7. 1. "  PRI_88  ,Interrupt 88  Priority"
line.long 0x5C "IPR23,Interrupt Priority Register"
hexmask.long.byte 0x5C 24.--31. 1. " PRI_95  ,Interrupt 95  Priority"
hexmask.long.byte 0x5C 16.--23. 1. "  PRI_94  ,Interrupt 94  Priority"
hexmask.long.byte 0x5C 8.--15. 1. "  PRI_93  ,Interrupt 93  Priority"
hexmask.long.byte 0x5C 0.--7. 1. "  PRI_92  ,Interrupt 92  Priority"
line.long 0x60 "IPR24,Interrupt Priority Register"
hexmask.long.byte 0x60 24.--31. 1. " PRI_99  ,Interrupt 99  Priority"
hexmask.long.byte 0x60 16.--23. 1. "  PRI_98  ,Interrupt 98  Priority"
hexmask.long.byte 0x60 8.--15. 1. "  PRI_97  ,Interrupt 97  Priority"
hexmask.long.byte 0x60 0.--7. 1. "  PRI_96  ,Interrupt 96  Priority"
line.long 0x64 "IPR25,Interrupt Priority Register"
hexmask.long.byte 0x64 24.--31. 1. " PRI_103 ,Interrupt 103 Priority"
hexmask.long.byte 0x64 16.--23. 1. "  PRI_102 ,Interrupt 102 Priority"
hexmask.long.byte 0x64 8.--15. 1. "  PRI_101 ,Interrupt 101 Priority"
hexmask.long.byte 0x64 0.--7. 1. "  PRI_100 ,Interrupt 100 Priority"
line.long 0x68 "IPR26,Interrupt Priority Register"
hexmask.long.byte 0x68 24.--31. 1. " PRI_107 ,Interrupt 107 Priority"
hexmask.long.byte 0x68 16.--23. 1. "  PRI_106 ,Interrupt 106 Priority"
hexmask.long.byte 0x68 8.--15. 1. "  PRI_105 ,Interrupt 105 Priority"
hexmask.long.byte 0x68 0.--7. 1. "  PRI_104 ,Interrupt 104 Priority"
line.long 0x6C "IPR27,Interrupt Priority Register"
hexmask.long.byte 0x6C 24.--31. 1. " PRI_111 ,Interrupt 111 Priority"
hexmask.long.byte 0x6C 16.--23. 1. "  PRI_110 ,Interrupt 110 Priority"
hexmask.long.byte 0x6C 8.--15. 1. "  PRI_109 ,Interrupt 109 Priority"
hexmask.long.byte 0x6C 0.--7. 1. "  PRI_108 ,Interrupt 108 Priority"
line.long 0x70 "IPR28,Interrupt Priority Register"
hexmask.long.byte 0x70 24.--31. 1. " PRI_115 ,Interrupt 115 Priority"
hexmask.long.byte 0x70 16.--23. 1. "  PRI_114 ,Interrupt 114 Priority"
hexmask.long.byte 0x70 8.--15. 1. "  PRI_113 ,Interrupt 113 Priority"
hexmask.long.byte 0x70 0.--7. 1. "  PRI_112 ,Interrupt 112 Priority"
line.long 0x74 "IPR29,Interrupt Priority Register"
hexmask.long.byte 0x74 24.--31. 1. " PRI_119 ,Interrupt 119 Priority"
hexmask.long.byte 0x74 16.--23. 1. "  PRI_118 ,Interrupt 118 Priority"
hexmask.long.byte 0x74 8.--15. 1. "  PRI_117 ,Interrupt 117 Priority"
hexmask.long.byte 0x74 0.--7. 1. "  PRI_116 ,Interrupt 116 Priority"
line.long 0x78 "IPR30,Interrupt Priority Register"
hexmask.long.byte 0x78 24.--31. 1. " PRI_123 ,Interrupt 123 Priority"
hexmask.long.byte 0x78 16.--23. 1. "  PRI_122 ,Interrupt 122 Priority"
hexmask.long.byte 0x78 8.--15. 1. "  PRI_121 ,Interrupt 121 Priority"
hexmask.long.byte 0x78 0.--7. 1. "  PRI_120 ,Interrupt 120 Priority"
line.long 0x7C "IPR31,Interrupt Priority Register"
hexmask.long.byte 0x7C 24.--31. 1. " PRI_127 ,Interrupt 127 Priority"
hexmask.long.byte 0x7C 16.--23. 1. "  PRI_126 ,Interrupt 126 Priority"
hexmask.long.byte 0x7C 8.--15. 1. "  PRI_125 ,Interrupt 125 Priority"
hexmask.long.byte 0x7C 0.--7. 1. "  PRI_124 ,Interrupt 124 Priority"
line.long 0x80 "IPR32,Interrupt Priority Register"
hexmask.long.byte 0x80 24.--31. 1. " PRI_131 ,Interrupt 131 Priority"
hexmask.long.byte 0x80 16.--23. 1. "  PRI_130 ,Interrupt 130 Priority"
hexmask.long.byte 0x80 8.--15. 1. "  PRI_129 ,Interrupt 129 Priority"
hexmask.long.byte 0x80 0.--7. 1. "  PRI_128 ,Interrupt 128 Priority"
line.long 0x84 "IPR33,Interrupt Priority Register"
hexmask.long.byte 0x84 24.--31. 1. " PRI_135 ,Interrupt 135 Priority"
hexmask.long.byte 0x84 16.--23. 1. "  PRI_134 ,Interrupt 134 Priority"
hexmask.long.byte 0x84 8.--15. 1. "  PRI_133 ,Interrupt 133 Priority"
hexmask.long.byte 0x84 0.--7. 1. "  PRI_132 ,Interrupt 132 Priority"
line.long 0x88 "IPR34,Interrupt Priority Register"
hexmask.long.byte 0x88 24.--31. 1. " PRI_139 ,Interrupt 139 Priority"
hexmask.long.byte 0x88 16.--23. 1. "  PRI_138 ,Interrupt 138 Priority"
hexmask.long.byte 0x88 8.--15. 1. "  PRI_137 ,Interrupt 137 Priority"
hexmask.long.byte 0x88 0.--7. 1. "  PRI_136 ,Interrupt 136 Priority"
line.long 0x8C "IPR35,Interrupt Priority Register"
hexmask.long.byte 0x8C 24.--31. 1. " PRI_143 ,Interrupt 143 Priority"
hexmask.long.byte 0x8C 16.--23. 1. "  PRI_142 ,Interrupt 142 Priority"
hexmask.long.byte 0x8C 8.--15. 1. "  PRI_141 ,Interrupt 141 Priority"
hexmask.long.byte 0x8C 0.--7. 1. "  PRI_140 ,Interrupt 140 Priority"
line.long 0x90 "IPR36,Interrupt Priority Register"
hexmask.long.byte 0x90 24.--31. 1. " PRI_147 ,Interrupt 147 Priority"
hexmask.long.byte 0x90 16.--23. 1. "  PRI_146 ,Interrupt 146 Priority"
hexmask.long.byte 0x90 8.--15. 1. "  PRI_145 ,Interrupt 145 Priority"
hexmask.long.byte 0x90 0.--7. 1. "  PRI_144 ,Interrupt 144 Priority"
line.long 0x94 "IPR37,Interrupt Priority Register"
hexmask.long.byte 0x94 24.--31. 1. " PRI_151 ,Interrupt 151 Priority"
hexmask.long.byte 0x94 16.--23. 1. "  PRI_150 ,Interrupt 150 Priority"
hexmask.long.byte 0x94 8.--15. 1. "  PRI_149 ,Interrupt 149 Priority"
hexmask.long.byte 0x94 0.--7. 1. "  PRI_148 ,Interrupt 148 Priority"
line.long 0x98 "IPR38,Interrupt Priority Register"
hexmask.long.byte 0x98 24.--31. 1. " PRI_155 ,Interrupt 155 Priority"
hexmask.long.byte 0x98 16.--23. 1. "  PRI_154 ,Interrupt 154 Priority"
hexmask.long.byte 0x98 8.--15. 1. "  PRI_153 ,Interrupt 153 Priority"
hexmask.long.byte 0x98 0.--7. 1. "  PRI_152 ,Interrupt 152 Priority"
line.long 0x9C "IPR39,Interrupt Priority Register"
hexmask.long.byte 0x9C 24.--31. 1. " PRI_159 ,Interrupt 159 Priority"
hexmask.long.byte 0x9C 16.--23. 1. "  PRI_158 ,Interrupt 158 Priority"
hexmask.long.byte 0x9C 8.--15. 1. "  PRI_157 ,Interrupt 157 Priority"
hexmask.long.byte 0x9C 0.--7. 1. "  PRI_156 ,Interrupt 156 Priority"
line.long 0xA0 "IPR40,Interrupt Priority Register"
hexmask.long.byte 0xA0 24.--31. 1. " PRI_163 ,Interrupt 163 Priority"
hexmask.long.byte 0xA0 16.--23. 1. "  PRI_162 ,Interrupt 162 Priority"
hexmask.long.byte 0xA0 8.--15. 1. "  PRI_161 ,Interrupt 161 Priority"
hexmask.long.byte 0xA0 0.--7. 1. "  PRI_160 ,Interrupt 160 Priority"
line.long 0xA4 "IPR41,Interrupt Priority Register"
hexmask.long.byte 0xA4 24.--31. 1. " PRI_167 ,Interrupt 167 Priority"
hexmask.long.byte 0xA4 16.--23. 1. "  PRI_166 ,Interrupt 166 Priority"
hexmask.long.byte 0xA4 8.--15. 1. "  PRI_165 ,Interrupt 165 Priority"
hexmask.long.byte 0xA4 0.--7. 1. "  PRI_164 ,Interrupt 164 Priority"
line.long 0xA8 "IPR42,Interrupt Priority Register"
hexmask.long.byte 0xA8 24.--31. 1. " PRI_171 ,Interrupt 171 Priority"
hexmask.long.byte 0xA8 16.--23. 1. "  PRI_170 ,Interrupt 170 Priority"
hexmask.long.byte 0xA8 8.--15. 1. "  PRI_169 ,Interrupt 169 Priority"
hexmask.long.byte 0xA8 0.--7. 1. "  PRI_168 ,Interrupt 168 Priority"
line.long 0xAC "IPR43,Interrupt Priority Register"
hexmask.long.byte 0xAC 24.--31. 1. " PRI_175 ,Interrupt 175 Priority"
hexmask.long.byte 0xAC 16.--23. 1. "  PRI_174 ,Interrupt 174 Priority"
hexmask.long.byte 0xAC 8.--15. 1. "  PRI_173 ,Interrupt 173 Priority"
hexmask.long.byte 0xAC 0.--7. 1. "  PRI_172 ,Interrupt 172 Priority"
line.long 0xB0 "IPR44,Interrupt Priority Register"
hexmask.long.byte 0xB0 24.--31. 1. " PRI_179 ,Interrupt 179 Priority"
hexmask.long.byte 0xB0 16.--23. 1. "  PRI_178 ,Interrupt 178 Priority"
hexmask.long.byte 0xB0 8.--15. 1. "  PRI_177 ,Interrupt 177 Priority"
hexmask.long.byte 0xB0 0.--7. 1. "  PRI_176 ,Interrupt 176 Priority"
line.long 0xB4 "IPR45,Interrupt Priority Register"
hexmask.long.byte 0xB4 24.--31. 1. " PRI_183 ,Interrupt 183 Priority"
hexmask.long.byte 0xB4 16.--23. 1. "  PRI_182 ,Interrupt 182 Priority"
hexmask.long.byte 0xB4 8.--15. 1. "  PRI_181 ,Interrupt 181 Priority"
hexmask.long.byte 0xB4 0.--7. 1. "  PRI_180 ,Interrupt 180 Priority"
line.long 0xB8 "IPR46,Interrupt Priority Register"
hexmask.long.byte 0xB8 24.--31. 1. " PRI_187 ,Interrupt 187 Priority"
hexmask.long.byte 0xB8 16.--23. 1. "  PRI_186 ,Interrupt 186 Priority"
hexmask.long.byte 0xB8 8.--15. 1. "  PRI_185 ,Interrupt 185 Priority"
hexmask.long.byte 0xB8 0.--7. 1. "  PRI_184 ,Interrupt 184 Priority"
line.long 0xBC "IPR47,Interrupt Priority Register"
hexmask.long.byte 0xBC 24.--31. 1. " PRI_191 ,Interrupt 191 Priority"
hexmask.long.byte 0xBC 16.--23. 1. "  PRI_190 ,Interrupt 190 Priority"
hexmask.long.byte 0xBC 8.--15. 1. "  PRI_189 ,Interrupt 189 Priority"
hexmask.long.byte 0xBC 0.--7. 1. "  PRI_188 ,Interrupt 188 Priority"
line.long 0xC0 "IPR48,Interrupt Priority Register"
hexmask.long.byte 0xC0 24.--31. 1. " PRI_195 ,Interrupt 195 Priority"
hexmask.long.byte 0xC0 16.--23. 1. "  PRI_194 ,Interrupt 194 Priority"
hexmask.long.byte 0xC0 8.--15. 1. "  PRI_193 ,Interrupt 193 Priority"
hexmask.long.byte 0xC0 0.--7. 1. "  PRI_192 ,Interrupt 192 Priority"
line.long 0xC4 "IPR49,Interrupt Priority Register"
hexmask.long.byte 0xC4 24.--31. 1. " PRI_199 ,Interrupt 199 Priority"
hexmask.long.byte 0xC4 16.--23. 1. "  PRI_198 ,Interrupt 198 Priority"
hexmask.long.byte 0xC4 8.--15. 1. "  PRI_197 ,Interrupt 197 Priority"
hexmask.long.byte 0xC4 0.--7. 1. "  PRI_196 ,Interrupt 196 Priority"
line.long 0xC8 "IPR50,Interrupt Priority Register"
hexmask.long.byte 0xC8 24.--31. 1. " PRI_203 ,Interrupt 203 Priority"
hexmask.long.byte 0xC8 16.--23. 1. "  PRI_202 ,Interrupt 202 Priority"
hexmask.long.byte 0xC8 8.--15. 1. "  PRI_201 ,Interrupt 201 Priority"
hexmask.long.byte 0xC8 0.--7. 1. "  PRI_200 ,Interrupt 200 Priority"
line.long 0xCC "IPR51,Interrupt Priority Register"
hexmask.long.byte 0xCC 24.--31. 1. " PRI_207 ,Interrupt 207 Priority"
hexmask.long.byte 0xCC 16.--23. 1. "  PRI_206 ,Interrupt 206 Priority"
hexmask.long.byte 0xCC 8.--15. 1. "  PRI_205 ,Interrupt 205 Priority"
hexmask.long.byte 0xCC 0.--7. 1. "  PRI_204 ,Interrupt 204 Priority"
line.long 0xD0 "IPR52,Interrupt Priority Register"
hexmask.long.byte 0xD0 24.--31. 1. " PRI_211 ,Interrupt 211 Priority"
hexmask.long.byte 0xD0 16.--23. 1. "  PRI_210 ,Interrupt 210 Priority"
hexmask.long.byte 0xD0 8.--15. 1. "  PRI_209 ,Interrupt 209 Priority"
hexmask.long.byte 0xD0 0.--7. 1. "  PRI_208 ,Interrupt 208 Priority"
line.long 0xD4 "IPR53,Interrupt Priority Register"
hexmask.long.byte 0xD4 24.--31. 1. " PRI_215 ,Interrupt 215 Priority"
hexmask.long.byte 0xD4 16.--23. 1. "  PRI_214 ,Interrupt 214 Priority"
hexmask.long.byte 0xD4 8.--15. 1. "  PRI_213 ,Interrupt 213 Priority"
hexmask.long.byte 0xD4 0.--7. 1. "  PRI_212 ,Interrupt 212 Priority"
line.long 0xD8 "IPR54,Interrupt Priority Register"
hexmask.long.byte 0xD8 24.--31. 1. " PRI_219 ,Interrupt 219 Priority"
hexmask.long.byte 0xD8 16.--23. 1. "  PRI_218 ,Interrupt 218 Priority"
hexmask.long.byte 0xD8 8.--15. 1. "  PRI_217 ,Interrupt 217 Priority"
hexmask.long.byte 0xD8 0.--7. 1. "  PRI_216 ,Interrupt 216 Priority"
line.long 0xDC "IPR55,Interrupt Priority Register"
hexmask.long.byte 0xDC 24.--31. 1. " PRI_223 ,Interrupt 223 Priority"
hexmask.long.byte 0xDC 16.--23. 1. "  PRI_222 ,Interrupt 222 Priority"
hexmask.long.byte 0xDC 8.--15. 1. "  PRI_221 ,Interrupt 221 Priority"
hexmask.long.byte 0xDC 0.--7. 1. "  PRI_220 ,Interrupt 220 Priority"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x07)
group.long 0x400++0xEF
line.long 0x0 "IPR0,Interrupt Priority Register"
hexmask.long.byte 0x0 24.--31. 1. " PRI_3 ,Interrupt 3 Priority"
hexmask.long.byte 0x0 16.--23. 1. "  PRI_2 ,Interrupt 2 Priority"
hexmask.long.byte 0x0 8.--15. 1. "  PRI_1 ,Interrupt 1 Priority"
hexmask.long.byte 0x0 0.--7. 1. "  PRI_0 ,Interrupt 0 Priority"
line.long 0x4 "IPR1,Interrupt Priority Register"
hexmask.long.byte 0x4 24.--31. 1. " PRI_7 ,Interrupt 7 Priority"
hexmask.long.byte 0x4 16.--23. 1. "  PRI_6 ,Interrupt 6 Priority"
hexmask.long.byte 0x4 8.--15. 1. "  PRI_5 ,Interrupt 5 Priority"
hexmask.long.byte 0x4 0.--7. 1. "  PRI_4 ,Interrupt 4 Priority"
line.long 0x8 "IPR2,Interrupt Priority Register"
hexmask.long.byte 0x8 24.--31. 1. " PRI_11 ,Interrupt 11 Priority"
hexmask.long.byte 0x8 16.--23. 1. "  PRI_10 ,Interrupt 10 Priority"
hexmask.long.byte 0x8 8.--15. 1. "  PRI_9 ,Interrupt 9 Priority"
hexmask.long.byte 0x8 0.--7. 1. "  PRI_8 ,Interrupt 8 Priority"
line.long 0xC "IPR3,Interrupt Priority Register"
hexmask.long.byte 0xC 24.--31. 1. " PRI_15 ,Interrupt 15 Priority"
hexmask.long.byte 0xC 16.--23. 1. "  PRI_14 ,Interrupt 14 Priority"
hexmask.long.byte 0xC 8.--15. 1. "  PRI_13 ,Interrupt 13 Priority"
hexmask.long.byte 0xC 0.--7. 1. "  PRI_12 ,Interrupt 12 Priority"
line.long 0x10 "IPR4,Interrupt Priority Register"
hexmask.long.byte 0x10 24.--31. 1. " PRI_19 ,Interrupt 19 Priority"
hexmask.long.byte 0x10 16.--23. 1. "  PRI_18 ,Interrupt 18 Priority"
hexmask.long.byte 0x10 8.--15. 1. "  PRI_17 ,Interrupt 17 Priority"
hexmask.long.byte 0x10 0.--7. 1. "  PRI_16 ,Interrupt 16 Priority"
line.long 0x14 "IPR5,Interrupt Priority Register"
hexmask.long.byte 0x14 24.--31. 1. " PRI_23 ,Interrupt 23 Priority"
hexmask.long.byte 0x14 16.--23. 1. "  PRI_22 ,Interrupt 22 Priority"
hexmask.long.byte 0x14 8.--15. 1. "  PRI_21 ,Interrupt 21 Priority"
hexmask.long.byte 0x14 0.--7. 1. "  PRI_20 ,Interrupt 20 Priority"
line.long 0x18 "IPR6,Interrupt Priority Register"
hexmask.long.byte 0x18 24.--31. 1. " PRI_27 ,Interrupt 27 Priority"
hexmask.long.byte 0x18 16.--23. 1. "  PRI_26 ,Interrupt 26 Priority"
hexmask.long.byte 0x18 8.--15. 1. "  PRI_25 ,Interrupt 25 Priority"
hexmask.long.byte 0x18 0.--7. 1. "  PRI_24 ,Interrupt 24 Priority"
line.long 0x1C "IPR7,Interrupt Priority Register"
hexmask.long.byte 0x1C 24.--31. 1. " PRI_31 ,Interrupt 31 Priority"
hexmask.long.byte 0x1C 16.--23. 1. "  PRI_30 ,Interrupt 30 Priority"
hexmask.long.byte 0x1C 8.--15. 1. "  PRI_29 ,Interrupt 29 Priority"
hexmask.long.byte 0x1C 0.--7. 1. "  PRI_28 ,Interrupt 28 Priority"
line.long 0x20 "IPR8,Interrupt Priority Register"
hexmask.long.byte 0x20 24.--31. 1. " PRI_35 ,Interrupt 35 Priority"
hexmask.long.byte 0x20 16.--23. 1. "  PRI_34 ,Interrupt 34 Priority"
hexmask.long.byte 0x20 8.--15. 1. "  PRI_33 ,Interrupt 33 Priority"
hexmask.long.byte 0x20 0.--7. 1. "  PRI_32 ,Interrupt 32 Priority"
line.long 0x24 "IPR9,Interrupt Priority Register"
hexmask.long.byte 0x24 24.--31. 1. " PRI_39 ,Interrupt 39 Priority"
hexmask.long.byte 0x24 16.--23. 1. "  PRI_38 ,Interrupt 38 Priority"
hexmask.long.byte 0x24 8.--15. 1. "  PRI_37 ,Interrupt 37 Priority"
hexmask.long.byte 0x24 0.--7. 1. "  PRI_36 ,Interrupt 36 Priority"
line.long 0x28 "IPR10,Interrupt Priority Register"
hexmask.long.byte 0x28 24.--31. 1. " PRI_43 ,Interrupt 43 Priority"
hexmask.long.byte 0x28 16.--23. 1. "  PRI_42 ,Interrupt 42 Priority"
hexmask.long.byte 0x28 8.--15. 1. "  PRI_41 ,Interrupt 41 Priority"
hexmask.long.byte 0x28 0.--7. 1. "  PRI_40 ,Interrupt 40 Priority"
line.long 0x2C "IPR11,Interrupt Priority Register"
hexmask.long.byte 0x2C 24.--31. 1. " PRI_47 ,Interrupt 47 Priority"
hexmask.long.byte 0x2C 16.--23. 1. "  PRI_46 ,Interrupt 46 Priority"
hexmask.long.byte 0x2C 8.--15. 1. "  PRI_45 ,Interrupt 45 Priority"
hexmask.long.byte 0x2C 0.--7. 1. "  PRI_44 ,Interrupt 44 Priority"
line.long 0x30 "IPR12,Interrupt Priority Register"
hexmask.long.byte 0x30 24.--31. 1. " PRI_51 ,Interrupt 51 Priority"
hexmask.long.byte 0x30 16.--23. 1. "  PRI_50 ,Interrupt 50 Priority"
hexmask.long.byte 0x30 8.--15. 1. "  PRI_49 ,Interrupt 49 Priority"
hexmask.long.byte 0x30 0.--7. 1. "  PRI_48 ,Interrupt 48 Priority"
line.long 0x34 "IPR13,Interrupt Priority Register"
hexmask.long.byte 0x34 24.--31. 1. " PRI_55 ,Interrupt 55 Priority"
hexmask.long.byte 0x34 16.--23. 1. "  PRI_54 ,Interrupt 54 Priority"
hexmask.long.byte 0x34 8.--15. 1. "  PRI_53 ,Interrupt 53 Priority"
hexmask.long.byte 0x34 0.--7. 1. "  PRI_52 ,Interrupt 52 Priority"
line.long 0x38 "IPR14,Interrupt Priority Register"
hexmask.long.byte 0x38 24.--31. 1. " PRI_59 ,Interrupt 59 Priority"
hexmask.long.byte 0x38 16.--23. 1. "  PRI_58 ,Interrupt 58 Priority"
hexmask.long.byte 0x38 8.--15. 1. "  PRI_57 ,Interrupt 57 Priority"
hexmask.long.byte 0x38 0.--7. 1. "  PRI_56 ,Interrupt 56 Priority"
line.long 0x3C "IPR15,Interrupt Priority Register"
hexmask.long.byte 0x3C 24.--31. 1. " PRI_63 ,Interrupt 63 Priority"
hexmask.long.byte 0x3C 16.--23. 1. "  PRI_62 ,Interrupt 62 Priority"
hexmask.long.byte 0x3C 8.--15. 1. "  PRI_61 ,Interrupt 61 Priority"
hexmask.long.byte 0x3C 0.--7. 1. "  PRI_60 ,Interrupt 60 Priority"
line.long 0x40 "IPR16,Interrupt Priority Register"
hexmask.long.byte 0x40 24.--31. 1. " PRI_67 ,Interrupt 67 Priority"
hexmask.long.byte 0x40 16.--23. 1. "  PRI_66 ,Interrupt 66 Priority"
hexmask.long.byte 0x40 8.--15. 1. "  PRI_65 ,Interrupt 65 Priority"
hexmask.long.byte 0x40 0.--7. 1. "  PRI_64 ,Interrupt 64 Priority"
line.long 0x44 "IPR17,Interrupt Priority Register"
hexmask.long.byte 0x44 24.--31. 1. " PRI_71 ,Interrupt 71 Priority"
hexmask.long.byte 0x44 16.--23. 1. "  PRI_70 ,Interrupt 70 Priority"
hexmask.long.byte 0x44 8.--15. 1. "  PRI_69 ,Interrupt 69 Priority"
hexmask.long.byte 0x44 0.--7. 1. "  PRI_68 ,Interrupt 68 Priority"
line.long 0x48 "IPR18,Interrupt Priority Register"
hexmask.long.byte 0x48 24.--31. 1. " PRI_75 ,Interrupt 75 Priority"
hexmask.long.byte 0x48 16.--23. 1. "  PRI_74 ,Interrupt 74 Priority"
hexmask.long.byte 0x48 8.--15. 1. "  PRI_73 ,Interrupt 73 Priority"
hexmask.long.byte 0x48 0.--7. 1. "  PRI_72 ,Interrupt 72 Priority"
line.long 0x4C "IPR19,Interrupt Priority Register"
hexmask.long.byte 0x4C 24.--31. 1. " PRI_79 ,Interrupt 79 Priority"
hexmask.long.byte 0x4C 16.--23. 1. "  PRI_78 ,Interrupt 78 Priority"
hexmask.long.byte 0x4C 8.--15. 1. "  PRI_77 ,Interrupt 77 Priority"
hexmask.long.byte 0x4C 0.--7. 1. "  PRI_76 ,Interrupt 76 Priority"
line.long 0x50 "IPR20,Interrupt Priority Register"
hexmask.long.byte 0x50 24.--31. 1. " PRI_83 ,Interrupt 83 Priority"
hexmask.long.byte 0x50 16.--23. 1. "  PRI_82 ,Interrupt 82 Priority"
hexmask.long.byte 0x50 8.--15. 1. "  PRI_81 ,Interrupt 81 Priority"
hexmask.long.byte 0x50 0.--7. 1. "  PRI_80 ,Interrupt 80 Priority"
line.long 0x54 "IPR21,Interrupt Priority Register"
hexmask.long.byte 0x54 24.--31. 1. " PRI_87 ,Interrupt 87 Priority"
hexmask.long.byte 0x54 16.--23. 1. "  PRI_86 ,Interrupt 86 Priority"
hexmask.long.byte 0x54 8.--15. 1. "  PRI_85 ,Interrupt 85 Priority"
hexmask.long.byte 0x54 0.--7. 1. "  PRI_84 ,Interrupt 84 Priority"
line.long 0x58 "IPR22,Interrupt Priority Register"
hexmask.long.byte 0x58 24.--31. 1. " PRI_91 ,Interrupt 91 Priority"
hexmask.long.byte 0x58 16.--23. 1. "  PRI_90 ,Interrupt 90 Priority"
hexmask.long.byte 0x58 8.--15. 1. "  PRI_89 ,Interrupt 89 Priority"
hexmask.long.byte 0x58 0.--7. 1. "  PRI_88 ,Interrupt 88 Priority"
line.long 0x5C "IPR23,Interrupt Priority Register"
hexmask.long.byte 0x5C 24.--31. 1. " PRI_95 ,Interrupt 95 Priority"
hexmask.long.byte 0x5C 16.--23. 1. "  PRI_94 ,Interrupt 94 Priority"
hexmask.long.byte 0x5C 8.--15. 1. "  PRI_93 ,Interrupt 93 Priority"
hexmask.long.byte 0x5C 0.--7. 1. "  PRI_92 ,Interrupt 92 Priority"
line.long 0x60 "IPR24,Interrupt Priority Register"
hexmask.long.byte 0x60 24.--31. 1. " PRI_99 ,Interrupt 99 Priority"
hexmask.long.byte 0x60 16.--23. 1. "  PRI_98 ,Interrupt 98 Priority"
hexmask.long.byte 0x60 8.--15. 1. "  PRI_97 ,Interrupt 97 Priority"
hexmask.long.byte 0x60 0.--7. 1. "  PRI_96 ,Interrupt 96 Priority"
line.long 0x64 "IPR25,Interrupt Priority Register"
hexmask.long.byte 0x64 24.--31. 1. " PRI_103 ,Interrupt 103 Priority"
hexmask.long.byte 0x64 16.--23. 1. "  PRI_102 ,Interrupt 102 Priority"
hexmask.long.byte 0x64 8.--15. 1. "  PRI_101 ,Interrupt 101 Priority"
hexmask.long.byte 0x64 0.--7. 1. "  PRI_100 ,Interrupt 100 Priority"
line.long 0x68 "IPR26,Interrupt Priority Register"
hexmask.long.byte 0x68 24.--31. 1. " PRI_107 ,Interrupt 107 Priority"
hexmask.long.byte 0x68 16.--23. 1. "  PRI_106 ,Interrupt 106 Priority"
hexmask.long.byte 0x68 8.--15. 1. "  PRI_105 ,Interrupt 105 Priority"
hexmask.long.byte 0x68 0.--7. 1. "  PRI_104 ,Interrupt 104 Priority"
line.long 0x6C "IPR27,Interrupt Priority Register"
hexmask.long.byte 0x6C 24.--31. 1. " PRI_111 ,Interrupt 111 Priority"
hexmask.long.byte 0x6C 16.--23. 1. "  PRI_110 ,Interrupt 110 Priority"
hexmask.long.byte 0x6C 8.--15. 1. "  PRI_109 ,Interrupt 109 Priority"
hexmask.long.byte 0x6C 0.--7. 1. "  PRI_108 ,Interrupt 108 Priority"
line.long 0x70 "IPR28,Interrupt Priority Register"
hexmask.long.byte 0x70 24.--31. 1. " PRI_115 ,Interrupt 115 Priority"
hexmask.long.byte 0x70 16.--23. 1. "  PRI_114 ,Interrupt 114 Priority"
hexmask.long.byte 0x70 8.--15. 1. "  PRI_113 ,Interrupt 113 Priority"
hexmask.long.byte 0x70 0.--7. 1. "  PRI_112 ,Interrupt 112 Priority"
line.long 0x74 "IPR29,Interrupt Priority Register"
hexmask.long.byte 0x74 24.--31. 1. " PRI_119 ,Interrupt 119 Priority"
hexmask.long.byte 0x74 16.--23. 1. "  PRI_118 ,Interrupt 118 Priority"
hexmask.long.byte 0x74 8.--15. 1. "  PRI_117 ,Interrupt 117 Priority"
hexmask.long.byte 0x74 0.--7. 1. "  PRI_116 ,Interrupt 116 Priority"
line.long 0x78 "IPR30,Interrupt Priority Register"
hexmask.long.byte 0x78 24.--31. 1. " PRI_123 ,Interrupt 123 Priority"
hexmask.long.byte 0x78 16.--23. 1. "  PRI_122 ,Interrupt 122 Priority"
hexmask.long.byte 0x78 8.--15. 1. "  PRI_121 ,Interrupt 121 Priority"
hexmask.long.byte 0x78 0.--7. 1. "  PRI_120 ,Interrupt 120 Priority"
line.long 0x7C "IPR31,Interrupt Priority Register"
hexmask.long.byte 0x7C 24.--31. 1. " PRI_127 ,Interrupt 127 Priority"
hexmask.long.byte 0x7C 16.--23. 1. "  PRI_126 ,Interrupt 126 Priority"
hexmask.long.byte 0x7C 8.--15. 1. "  PRI_125 ,Interrupt 125 Priority"
hexmask.long.byte 0x7C 0.--7. 1. "  PRI_124 ,Interrupt 124 Priority"
line.long 0x80 "IPR32,Interrupt Priority Register"
hexmask.long.byte 0x80 24.--31. 1. " PRI_131 ,Interrupt 131 Priority"
hexmask.long.byte 0x80 16.--23. 1. "  PRI_130 ,Interrupt 130 Priority"
hexmask.long.byte 0x80 8.--15. 1. "  PRI_129 ,Interrupt 129 Priority"
hexmask.long.byte 0x80 0.--7. 1. "  PRI_128 ,Interrupt 128 Priority"
line.long 0x84 "IPR33,Interrupt Priority Register"
hexmask.long.byte 0x84 24.--31. 1. " PRI_135 ,Interrupt 135 Priority"
hexmask.long.byte 0x84 16.--23. 1. "  PRI_134 ,Interrupt 134 Priority"
hexmask.long.byte 0x84 8.--15. 1. "  PRI_133 ,Interrupt 133 Priority"
hexmask.long.byte 0x84 0.--7. 1. "  PRI_132 ,Interrupt 132 Priority"
line.long 0x88 "IPR34,Interrupt Priority Register"
hexmask.long.byte 0x88 24.--31. 1. " PRI_139 ,Interrupt 139 Priority"
hexmask.long.byte 0x88 16.--23. 1. "  PRI_138 ,Interrupt 138 Priority"
hexmask.long.byte 0x88 8.--15. 1. "  PRI_137 ,Interrupt 137 Priority"
hexmask.long.byte 0x88 0.--7. 1. "  PRI_136 ,Interrupt 136 Priority"
line.long 0x8C "IPR35,Interrupt Priority Register"
hexmask.long.byte 0x8C 24.--31. 1. " PRI_143 ,Interrupt 143 Priority"
hexmask.long.byte 0x8C 16.--23. 1. "  PRI_142 ,Interrupt 142 Priority"
hexmask.long.byte 0x8C 8.--15. 1. "  PRI_141 ,Interrupt 141 Priority"
hexmask.long.byte 0x8C 0.--7. 1. "  PRI_140 ,Interrupt 140 Priority"
line.long 0x90 "IPR36,Interrupt Priority Register"
hexmask.long.byte 0x90 24.--31. 1. " PRI_147 ,Interrupt 147 Priority"
hexmask.long.byte 0x90 16.--23. 1. "  PRI_146 ,Interrupt 146 Priority"
hexmask.long.byte 0x90 8.--15. 1. "  PRI_145 ,Interrupt 145 Priority"
hexmask.long.byte 0x90 0.--7. 1. "  PRI_144 ,Interrupt 144 Priority"
line.long 0x94 "IPR37,Interrupt Priority Register"
hexmask.long.byte 0x94 24.--31. 1. " PRI_151 ,Interrupt 151 Priority"
hexmask.long.byte 0x94 16.--23. 1. "  PRI_150 ,Interrupt 150 Priority"
hexmask.long.byte 0x94 8.--15. 1. "  PRI_149 ,Interrupt 149 Priority"
hexmask.long.byte 0x94 0.--7. 1. "  PRI_148 ,Interrupt 148 Priority"
line.long 0x98 "IPR38,Interrupt Priority Register"
hexmask.long.byte 0x98 24.--31. 1. " PRI_155 ,Interrupt 155 Priority"
hexmask.long.byte 0x98 16.--23. 1. "  PRI_154 ,Interrupt 154 Priority"
hexmask.long.byte 0x98 8.--15. 1. "  PRI_153 ,Interrupt 153 Priority"
hexmask.long.byte 0x98 0.--7. 1. "  PRI_152 ,Interrupt 152 Priority"
line.long 0x9C "IPR39,Interrupt Priority Register"
hexmask.long.byte 0x9C 24.--31. 1. " PRI_159 ,Interrupt 159 Priority"
hexmask.long.byte 0x9C 16.--23. 1. "  PRI_158 ,Interrupt 158 Priority"
hexmask.long.byte 0x9C 8.--15. 1. "  PRI_157 ,Interrupt 157 Priority"
hexmask.long.byte 0x9C 0.--7. 1. "  PRI_156 ,Interrupt 156 Priority"
line.long 0xA0 "IPR40,Interrupt Priority Register"
hexmask.long.byte 0xA0 24.--31. 1. " PRI_163 ,Interrupt 163 Priority"
hexmask.long.byte 0xA0 16.--23. 1. "  PRI_162 ,Interrupt 162 Priority"
hexmask.long.byte 0xA0 8.--15. 1. "  PRI_161 ,Interrupt 161 Priority"
hexmask.long.byte 0xA0 0.--7. 1. "  PRI_160 ,Interrupt 160 Priority"
line.long 0xA4 "IPR41,Interrupt Priority Register"
hexmask.long.byte 0xA4 24.--31. 1. " PRI_167 ,Interrupt 167 Priority"
hexmask.long.byte 0xA4 16.--23. 1. "  PRI_166 ,Interrupt 166 Priority"
hexmask.long.byte 0xA4 8.--15. 1. "  PRI_165 ,Interrupt 165 Priority"
hexmask.long.byte 0xA4 0.--7. 1. "  PRI_164 ,Interrupt 164 Priority"
line.long 0xA8 "IPR42,Interrupt Priority Register"
hexmask.long.byte 0xA8 24.--31. 1. " PRI_171 ,Interrupt 171 Priority"
hexmask.long.byte 0xA8 16.--23. 1. "  PRI_170 ,Interrupt 170 Priority"
hexmask.long.byte 0xA8 8.--15. 1. "  PRI_169 ,Interrupt 169 Priority"
hexmask.long.byte 0xA8 0.--7. 1. "  PRI_168 ,Interrupt 168 Priority"
line.long 0xAC "IPR43,Interrupt Priority Register"
hexmask.long.byte 0xAC 24.--31. 1. " PRI_175 ,Interrupt 175 Priority"
hexmask.long.byte 0xAC 16.--23. 1. "  PRI_174 ,Interrupt 174 Priority"
hexmask.long.byte 0xAC 8.--15. 1. "  PRI_173 ,Interrupt 173 Priority"
hexmask.long.byte 0xAC 0.--7. 1. "  PRI_172 ,Interrupt 172 Priority"
line.long 0xB0 "IPR44,Interrupt Priority Register"
hexmask.long.byte 0xB0 24.--31. 1. " PRI_179 ,Interrupt 179 Priority"
hexmask.long.byte 0xB0 16.--23. 1. "  PRI_178 ,Interrupt 178 Priority"
hexmask.long.byte 0xB0 8.--15. 1. "  PRI_177 ,Interrupt 177 Priority"
hexmask.long.byte 0xB0 0.--7. 1. "  PRI_176 ,Interrupt 176 Priority"
line.long 0xB4 "IPR45,Interrupt Priority Register"
hexmask.long.byte 0xB4 24.--31. 1. " PRI_183 ,Interrupt 183 Priority"
hexmask.long.byte 0xB4 16.--23. 1. "  PRI_182 ,Interrupt 182 Priority"
hexmask.long.byte 0xB4 8.--15. 1. "  PRI_181 ,Interrupt 181 Priority"
hexmask.long.byte 0xB4 0.--7. 1. "  PRI_180 ,Interrupt 180 Priority"
line.long 0xB8 "IPR46,Interrupt Priority Register"
hexmask.long.byte 0xB8 24.--31. 1. " PRI_187 ,Interrupt 187 Priority"
hexmask.long.byte 0xB8 16.--23. 1. "  PRI_186 ,Interrupt 186 Priority"
hexmask.long.byte 0xB8 8.--15. 1. "  PRI_185 ,Interrupt 185 Priority"
hexmask.long.byte 0xB8 0.--7. 1. "  PRI_184 ,Interrupt 184 Priority"
line.long 0xBC "IPR47,Interrupt Priority Register"
hexmask.long.byte 0xBC 24.--31. 1. " PRI_191 ,Interrupt 191 Priority"
hexmask.long.byte 0xBC 16.--23. 1. "  PRI_190 ,Interrupt 190 Priority"
hexmask.long.byte 0xBC 8.--15. 1. "  PRI_189 ,Interrupt 189 Priority"
hexmask.long.byte 0xBC 0.--7. 1. "  PRI_188 ,Interrupt 188 Priority"
line.long 0xC0 "IPR48,Interrupt Priority Register"
hexmask.long.byte 0xC0 24.--31. 1. " PRI_195 ,Interrupt 195 Priority"
hexmask.long.byte 0xC0 16.--23. 1. "  PRI_194 ,Interrupt 194 Priority"
hexmask.long.byte 0xC0 8.--15. 1. "  PRI_193 ,Interrupt 193 Priority"
hexmask.long.byte 0xC0 0.--7. 1. "  PRI_192 ,Interrupt 192 Priority"
line.long 0xC4 "IPR49,Interrupt Priority Register"
hexmask.long.byte 0xC4 24.--31. 1. " PRI_199 ,Interrupt 199 Priority"
hexmask.long.byte 0xC4 16.--23. 1. "  PRI_198 ,Interrupt 198 Priority"
hexmask.long.byte 0xC4 8.--15. 1. "  PRI_197 ,Interrupt 197 Priority"
hexmask.long.byte 0xC4 0.--7. 1. "  PRI_196 ,Interrupt 196 Priority"
line.long 0xC8 "IPR50,Interrupt Priority Register"
hexmask.long.byte 0xC8 24.--31. 1. " PRI_203 ,Interrupt 203 Priority"
hexmask.long.byte 0xC8 16.--23. 1. "  PRI_202 ,Interrupt 202 Priority"
hexmask.long.byte 0xC8 8.--15. 1. "  PRI_201 ,Interrupt 201 Priority"
hexmask.long.byte 0xC8 0.--7. 1. "  PRI_200 ,Interrupt 200 Priority"
line.long 0xCC "IPR51,Interrupt Priority Register"
hexmask.long.byte 0xCC 24.--31. 1. " PRI_207 ,Interrupt 207 Priority"
hexmask.long.byte 0xCC 16.--23. 1. "  PRI_206 ,Interrupt 206 Priority"
hexmask.long.byte 0xCC 8.--15. 1. "  PRI_205 ,Interrupt 205 Priority"
hexmask.long.byte 0xCC 0.--7. 1. "  PRI_204 ,Interrupt 204 Priority"
line.long 0xD0 "IPR52,Interrupt Priority Register"
hexmask.long.byte 0xD0 24.--31. 1. " PRI_211 ,Interrupt 211 Priority"
hexmask.long.byte 0xD0 16.--23. 1. "  PRI_210 ,Interrupt 210 Priority"
hexmask.long.byte 0xD0 8.--15. 1. "  PRI_209 ,Interrupt 209 Priority"
hexmask.long.byte 0xD0 0.--7. 1. "  PRI_208 ,Interrupt 208 Priority"
line.long 0xD4 "IPR53,Interrupt Priority Register"
hexmask.long.byte 0xD4 24.--31. 1. " PRI_215 ,Interrupt 215 Priority"
hexmask.long.byte 0xD4 16.--23. 1. "  PRI_214 ,Interrupt 214 Priority"
hexmask.long.byte 0xD4 8.--15. 1. "  PRI_213 ,Interrupt 213 Priority"
hexmask.long.byte 0xD4 0.--7. 1. "  PRI_212 ,Interrupt 212 Priority"
line.long 0xD8 "IPR54,Interrupt Priority Register"
hexmask.long.byte 0xD8 24.--31. 1. " PRI_219 ,Interrupt 219 Priority"
hexmask.long.byte 0xD8 16.--23. 1. "  PRI_218 ,Interrupt 218 Priority"
hexmask.long.byte 0xD8 8.--15. 1. "  PRI_217 ,Interrupt 217 Priority"
hexmask.long.byte 0xD8 0.--7. 1. "  PRI_216 ,Interrupt 216 Priority"
line.long 0xDC "IPR55,Interrupt Priority Register"
hexmask.long.byte 0xDC 24.--31. 1. " PRI_223 ,Interrupt 223 Priority"
hexmask.long.byte 0xDC 16.--23. 1. "  PRI_222 ,Interrupt 222 Priority"
hexmask.long.byte 0xDC 8.--15. 1. "  PRI_221 ,Interrupt 221 Priority"
hexmask.long.byte 0xDC 0.--7. 1. "  PRI_220 ,Interrupt 220 Priority"
line.long 0xE0 "IPR56,Interrupt Priority Register"
hexmask.long.byte 0xE0 24.--31. 1. " PRI_227 ,Interrupt 227 Priority"
hexmask.long.byte 0xE0 16.--23. 1. "  PRI_226 ,Interrupt 226 Priority"
hexmask.long.byte 0xE0 8.--15. 1. "  PRI_225 ,Interrupt 225 Priority"
hexmask.long.byte 0xE0 0.--7. 1. "  PRI_224 ,Interrupt 224 Priority"
line.long 0xE4 "IPR57,Interrupt Priority Register"
hexmask.long.byte 0xE4 24.--31. 1. " PRI_231 ,Interrupt 231 Priority"
hexmask.long.byte 0xE4 16.--23. 1. "  PRI_230 ,Interrupt 230 Priority"
hexmask.long.byte 0xE4 8.--15. 1. "  PRI_229 ,Interrupt 229 Priority"
hexmask.long.byte 0xE4 0.--7. 1. "  PRI_228 ,Interrupt 228 Priority"
line.long 0xE8 "IPR58,Interrupt Priority Register"
hexmask.long.byte 0xE8 24.--31. 1. " PRI_235 ,Interrupt 235 Priority"
hexmask.long.byte 0xE8 16.--23. 1. "  PRI_234 ,Interrupt 234 Priority"
hexmask.long.byte 0xE8 8.--15. 1. "  PRI_233 ,Interrupt 233 Priority"
hexmask.long.byte 0xE8 0.--7. 1. "  PRI_232 ,Interrupt 232 Priority"
line.long 0xEC "IPR59,Interrupt Priority Register"
hexmask.long.byte 0xEC 24.--31. 1. " PRI_239 ,Interrupt 239 Priority"
hexmask.long.byte 0xEC 16.--23. 1. "  PRI_238 ,Interrupt 238 Priority"
hexmask.long.byte 0xEC 8.--15. 1. "  PRI_237 ,Interrupt 237 Priority"
hexmask.long.byte 0xEC 0.--7. 1. "  PRI_236 ,Interrupt 236 Priority"
else
hgroup.long 0x400++0xEF
hide.long 0x0 "IPR0,Interrupt Priority Register"
hide.long 0x4 "IPR1,Interrupt Priority Register"
hide.long 0x8 "IPR2,Interrupt Priority Register"
hide.long 0xC "IPR3,Interrupt Priority Register"
hide.long 0x10 "IPR4,Interrupt Priority Register"
hide.long 0x14 "IPR5,Interrupt Priority Register"
hide.long 0x18 "IPR6,Interrupt Priority Register"
hide.long 0x1C "IPR7,Interrupt Priority Register"
hide.long 0x20 "IPR8,Interrupt Priority Register"
hide.long 0x24 "IPR9,Interrupt Priority Register"
hide.long 0x28 "IPR10,Interrupt Priority Register"
hide.long 0x2C "IPR11,Interrupt Priority Register"
hide.long 0x30 "IPR12,Interrupt Priority Register"
hide.long 0x34 "IPR13,Interrupt Priority Register"
hide.long 0x38 "IPR14,Interrupt Priority Register"
hide.long 0x3C "IPR15,Interrupt Priority Register"
hide.long 0x40 "IPR16,Interrupt Priority Register"
hide.long 0x44 "IPR17,Interrupt Priority Register"
hide.long 0x48 "IPR18,Interrupt Priority Register"
hide.long 0x4C "IPR19,Interrupt Priority Register"
hide.long 0x50 "IPR20,Interrupt Priority Register"
hide.long 0x54 "IPR21,Interrupt Priority Register"
hide.long 0x58 "IPR22,Interrupt Priority Register"
hide.long 0x5C "IPR23,Interrupt Priority Register"
hide.long 0x60 "IPR24,Interrupt Priority Register"
hide.long 0x64 "IPR25,Interrupt Priority Register"
hide.long 0x68 "IPR26,Interrupt Priority Register"
hide.long 0x6C "IPR27,Interrupt Priority Register"
hide.long 0x70 "IPR28,Interrupt Priority Register"
hide.long 0x74 "IPR29,Interrupt Priority Register"
hide.long 0x78 "IPR30,Interrupt Priority Register"
hide.long 0x7C "IPR31,Interrupt Priority Register"
hide.long 0x80 "IPR32,Interrupt Priority Register"
hide.long 0x84 "IPR33,Interrupt Priority Register"
hide.long 0x88 "IPR34,Interrupt Priority Register"
hide.long 0x8C "IPR35,Interrupt Priority Register"
hide.long 0x90 "IPR36,Interrupt Priority Register"
hide.long 0x94 "IPR37,Interrupt Priority Register"
hide.long 0x98 "IPR38,Interrupt Priority Register"
hide.long 0x9C "IPR39,Interrupt Priority Register"
hide.long 0xA0 "IPR40,Interrupt Priority Register"
hide.long 0xA4 "IPR41,Interrupt Priority Register"
hide.long 0xA8 "IPR42,Interrupt Priority Register"
hide.long 0xAC "IPR43,Interrupt Priority Register"
hide.long 0xB0 "IPR44,Interrupt Priority Register"
hide.long 0xB4 "IPR45,Interrupt Priority Register"
hide.long 0xB8 "IPR46,Interrupt Priority Register"
hide.long 0xBC "IPR47,Interrupt Priority Register"
hide.long 0xC0 "IPR48,Interrupt Priority Register"
hide.long 0xC4 "IPR49,Interrupt Priority Register"
hide.long 0xC8 "IPR50,Interrupt Priority Register"
hide.long 0xCC "IPR51,Interrupt Priority Register"
hide.long 0xD0 "IPR52,Interrupt Priority Register"
hide.long 0xD4 "IPR53,Interrupt Priority Register"
hide.long 0xD8 "IPR54,Interrupt Priority Register"
hide.long 0xDC "IPR55,Interrupt Priority Register"
hide.long 0xE0 "IPR56,Interrupt Priority Register"
hide.long 0xE4 "IPR57,Interrupt Priority Register"
hide.long 0xE8 "IPR58,Interrupt Priority Register"
hide.long 0xEC "IPR59,Interrupt Priority Register"
endif
tree.end
width 0x0b
else
newline
textline "COREDEBUG component base address not specified"
newline
endif
tree.end
sif CORENAME()=="CORTEXM4F"
tree "Floating-point Unit (FPU)"
sif COMPonent.AVAILABLE("COREDEBUG")
base CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))
width 8.
group.long 0xF34++0x0B
line.long 0x00 "FPCCR,Floating-Point Context Control Register"
bitfld.long 0x00 31. " ASPEN        ,Execution of a floating-point instruction sets the CONTROL.FPCA bit to 1" "Disabled,Enabled"
bitfld.long 0x00 30. "                      LSPEN    ,Enables lazy context save of FP state" "Disabled,Enabled"
bitfld.long 0x00 8. "       MONRDY  ,Indicates whether the software executing when the processor allocated the FP stack frame was able to set the DebugMonitor exception to pending" "Not able,Able"
textline "                 "
bitfld.long 0x00 6. " BFRDY        ,Indicates whether the software executing when the processor allocated the FP stack frame was able to set the BusFault exception to pending" "Not able,Able"
bitfld.long 0x00 5. "                      MMRDY    ,Indicates whether the software executing when the processor allocated the FP stack frame was able to set the MemManage exception to pending" "Not able,Able"
bitfld.long 0x00 4. "       HFRDY   ,Indicates whether the software executing when the processor allocated the FP stack frame was able to set the HardFault exception to pending" "Not able,Able"
textline "                 "
bitfld.long 0x00 3. " THREAD       ,Indicates the processor mode when it allocated the FP stack frame" "Handler,Thread"
bitfld.long 0x00 1. "                       USER     ,Indicates the privilege level of the software executing" "Privileged,Unprivileged"
bitfld.long 0x00 0. "   LSPACT  ,Indicates whether Lazy preservation of the FP state is active" "Not active,Active"
line.long 0x04 "FPCAR,Floating-Point Context Address Register"
hexmask.long 0x04 3.--31. 0x8 " ADDRESS      ,The location of the unpopulated floating-point register space allocated on an exception stack frame"
line.long 0x08 "FPDSCR,Floating-Point Default Status Control Register"
bitfld.long 0x08 26. " AHP          ,Default value for FPSCR.AHP" "IEEE 754-2008,Alternative"
bitfld.long 0x08 25. "                 DN       ,Default value for FPSCR.DN" "NaN operands,Any operation"
bitfld.long 0x08 24. "  FZ      ,Default value for FPSCR.FZ" "No Flush mode,Flush mode"
textline "                 "
bitfld.long 0x08 22.--23. " RMODE        ,Default value for FPSCR.RMode" "Round to Nearest,Round towards Plus Infinity,Round towards Minus Infinity,Round towards Zero"
rgroup.long 0xF40++0x07
line.long 0x00 "MVFR0,Media and FP Feature Register 0"
bitfld.long 0x00 28.--31. " FPRNDMOD     ,Indicates the rounding modes supported by the FP floating-point hardware" ",All supported,?..."
bitfld.long 0x00 24.--27. "                 SRTERR   ,Indicates the hardware support for FP short vectors" "Not supported,?..."
bitfld.long 0x00 20.--23. "  SQRROOT ,Indicates the hardware support for FP square root operations" ",Supported,?..."
textline "                 "
bitfld.long 0x00 16.--19. " DIV          ,Indicates the hardware support for FP divide operations" ",Supported,?..."
bitfld.long 0x00 12.--15. "                     FPEXTRP  ,Indicates whether the FP hardware implementation supports exception trapping" "Not supported,?..."
bitfld.long 0x00 8.--11. "  DBLPREC ,Indicates the hardware support for FP double_precision operations" "Not supported,,Supported,?..."
textline "                 "
bitfld.long 0x00 4.--7. " SNGLPREC     ,Indicates the hardware support for FP single-precision operations" ",,Supported,?..."
bitfld.long 0x00 0.--3. "                     A_SIMD   ,Indicates the size of the FP register bank" ",Supported-16x64-bit,?..."
line.long 0x04 "MVFR1,Media and FP Feature Register 1"
bitfld.long 0x04 28.--31. " FP_FUSED_MAC ,Indicates whether the FP supports fused multiply accumulate operations" ",Supported,?..."
bitfld.long 0x04 24.--27. "                     FP_HPFP  ,Indicates whether the FP supports half-precision and double-precision floating-point conversion instructions" ",Half-single,Half-single and half-double,?..."
textline "                 "
bitfld.long 0x04 4.--7. " D_NAN        ,Indicates whether the FP hardware implementation supports only the Default NaN mode" ",NaN propagation,?..."
bitfld.long 0x04 0.--3. "               FTZ_MODE ,Indicates whether the FP hardware implementation supports only the Flush-to-Zero mode of operation" ",Full denorm. num. arit.,?..."
width 0xB
else
newline
textline "COREDEBUG component base address not specified"
newline
endif
tree.end
endif
tree "Debug"
tree "Core Debug"
sif COMPonent.AVAILABLE("COREDEBUG")
base CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))
width 7.
group.long 0xD30++0x03
line.long 0x00 "DFSR,Debug Fault Status Register"
eventfld.long 0x00 4. " EXTERNAL     ,Indicates a debug event generated because of the assertion of an external debug request" "Not generated,Generated"
eventfld.long 0x00 3. "  VCATCH     ,Indicates triggering of a Vector catch" "Not triggered,Triggered"
eventfld.long 0x00 2. "  DWTTRAP    ,Indicates a debug event generated by the DWT" "Not generated,Generated"
newline
eventfld.long 0x00 1. " BKPT         ,Indicates a debug event generated by BKPT instruction execution or a breakpoint match in FPB" "Not generated,Generated"
eventfld.long 0x00 0. "  HALTED     ,Indicates a debug event generated by either a C_HALT or C_STEP request, triggered by a write to the DHCSR or a step request triggered by setting DEMCR.MON_STEP to 1" "Not generated,Generated"
newline
hgroup.long 0xDF0++0x03
hide.long 0x00 "DHCSR,Debug Halting Control and Status Register"
in
newline
wgroup.long 0xDF4++0x03
line.long 0x00 "DCRSR,Debug Core Register Selector Register"
bitfld.long 0x00 16. " REGWNR       ,Register Read/Write" "Read,Write"
hexmask.long.byte 0x00 0.--6. 1. "          REGSEL     ,Specifies the ARM core register or special-purpose register or Floating-point extension register"
group.long 0xDF8++0x03
line.long 0x00 "DCRDR,Debug Core Register Data Register"
if (((per.long(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xDFC))&0x10000)==0x10000)
group.long 0xDFC++0x03
line.long 0x00 "DEMCR,Debug Exception and Monitor Control Register"
bitfld.long 0x00 24. " TRCENA       ,Global enable for all DWT and ITM features" "Disabled,Enabled"
bitfld.long 0x00 19. "       MON_REQ    ,DebugMonitor semaphore bit" "0,1"
bitfld.long 0x00 18. "              MON_STEP   ,Setting this bit to 1 makes the step request pending" "No step,Step"
newline
bitfld.long 0x00 17. " MON_PEND     ,Sets or clears the pending state of the DebugMonitor exception" "Not pending,Pending"
bitfld.long 0x00 16. "    MON_EN     ,Enable the DebugMonitor exception" "Disabled,Enabled"
bitfld.long 0x00 10. "       VC_HARDERR ,Enable halting debug trap on a HardFault exception" "Disabled,Enabled"
newline
bitfld.long 0x00 9. " VC_INTERR    ,Enable halting debug trap" "Disabled,Enabled"
bitfld.long 0x00 8. "       VC_BUSERR  ,Enable halting debug trap on a BusFault exception" "Disabled,Enabled"
bitfld.long 0x00 7. "       VC_STATERR ,Enable halting debug trap on a UsageFault exception" "Disabled,Enabled"
newline
bitfld.long 0x00 6. " VC_CHKERR    ,Enable halting debug trap on a UsageFault exception" "Disabled,Enabled"
bitfld.long 0x00 5. "       VC_NOCPERR ,Enable halting debug trap on a UsageFault caused by an access to a Coprocessor" "Disabled,Enabled"
bitfld.long 0x00 4. "       VC_MMERR   ,Enable halting debug trap on a MemManage exception" "Disabled,Enabled"
newline
bitfld.long 0x00 0. " VC_CORERESET ,Enable Reset Vector Catch" "Disabled,Enabled"
else
group.long 0xDFC++0x03
line.long 0x00 "DEMCR,Debug Exception and Monitor Control Register"
bitfld.long 0x00 24. " TRCENA       ,Global enable for all DWT and ITM features" "Disabled,Enabled"
bitfld.long 0x00 19. "       MON_REQ    ,DebugMonitor semaphore bit" "0,1"
newline
bitfld.long 0x00 17. " MON_PEND     ,Sets or clears the pending state of the DebugMonitor exception" "Not pending,Pending"
bitfld.long 0x00 16. "    MON_EN     ,Enable the DebugMonitor exception" "Disabled,Enabled"
bitfld.long 0x00 10. "       VC_HARDERR ,Enable halting debug trap on a HardFault exception" "Disabled,Enabled"
newline
bitfld.long 0x00 9. " VC_INTERR    ,Enable halting debug trap" "Disabled,Enabled"
bitfld.long 0x00 8. "       VC_BUSERR  ,Enable halting debug trap on a BusFault exception" "Disabled,Enabled"
bitfld.long 0x00 7. "       VC_STATERR ,Enable halting debug trap on a UsageFault exception" "Disabled,Enabled"
newline
bitfld.long 0x00 6. " VC_CHKERR    ,Enable halting debug trap on a UsageFault exception" "Disabled,Enabled"
bitfld.long 0x00 5. "       VC_NOCPERR ,Enable halting debug trap on a UsageFault caused by an access to a Coprocessor" "Disabled,Enabled"
bitfld.long 0x00 4. "       VC_MMERR   ,Enable halting debug trap on a MemManage exception" "Disabled,Enabled"
newline
bitfld.long 0x00 0. " VC_CORERESET ,Enable Reset Vector Catch" "Disabled,Enabled"
endif
width 0x0B
else
newline
textline "COREDEBUG component base address not specified"
newline
endif
tree.end
tree "Flash Patch and Breakpoint Unit (FPB)"
sif COMPonent.AVAILABLE("FPB")
base CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))
width 10.
group.long 0x00++0x07
line.long 0x00 "FP_CTRL,Flash Patch Control Register"
bitfld.long 0x00 28.--31. " REV     ,Flash Patch Breakpoint architecture revision" "Version 1,Version 2,?..."
rbitfld.long 0x00 4.--7. 12.--14. "     NUM_CODE ,The number of instruction address comparators" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63,64,65,66,67,68,69,70,71,72,73,74,75,76,77,78,79,80,81,82,83,84,85,86,87,88,89,90,91,92,93,94,95,96,97,98,99,100,101,102,103,104,105,106,107,108,109,110,111,112,113,114,115,116,117,118,119,120,121,122,123,124,125,126,127"
bitfld.long 0x00 1. "  KEY   ,Key Field" "Low,High"
bitfld.long 0x00 0. "      ENABLE ,Flash Patch Unit Enable" "Disabled,Enabled"
textline ""
line.long 0x04 "FP_REMAP,Flash Patch Remap Register"
bitfld.long 0x04 29. " RMPSPT  ,Indicates whether the FPB unit supports flash patch remap" "Not supported,SRAM region"
hexmask.long.tbyte 0x04 5.--28. 0x20 "               REMAP ,Remap Base Address Field"
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x00)
group.long 0x8++0x03
line.long 0x00 "FP_COMP0,Flash Patch Comparator Register 0"
bitfld.long 0x00 30.--31. " REPLACE ,Defines the behaviour when the COMP address is matched" ",Set BKPT on lower halfword,Set BKPT on upper halfword,Set BKPT on both"
hexmask.long 0x00 2.--28. 0x04 "  COMP  ,Comparison Address"
bitfld.long 0x00 0. "  ENABLE ,Compare and Remap Enable" "Disabled,Enabled"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x10000000)
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))+0x8))&0x01)==0x00)
group.long 0x8++0x03
line.long 0x00 "FP_COMP0,Flash Patch Comparator Register 0"
bitfld.long 0x00 0. " BE      ,Enable bit for Breakpoint" "Disabled,Enabled"
else
group.long 0x8++0x03
line.long 0x00 "FP_COMP0,Flash Patch Comparator Register 0"
hexmask.long 0x00 1.--31. 0x02 " BPADDR  ,Breakpoint address"
bitfld.long 0x00 0. "                    BE    ,Enable bit for Breakpoint" "Disabled,Enabled"
endif
endif
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x00)
group.long 0xC++0x03
line.long 0x00 "FP_COMP1,Flash Patch Comparator Register 1"
bitfld.long 0x00 30.--31. " REPLACE ,Defines the behaviour when the COMP address is matched" ",Set BKPT on lower halfword,Set BKPT on upper halfword,Set BKPT on both"
hexmask.long 0x00 2.--28. 0x04 "  COMP  ,Comparison Address"
bitfld.long 0x00 0. "  ENABLE ,Compare and Remap Enable" "Disabled,Enabled"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x10000000)
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))+0xC))&0x01)==0x00)
group.long 0xC++0x03
line.long 0x00 "FP_COMP1,Flash Patch Comparator Register 1"
bitfld.long 0x00 0. " BE      ,Enable bit for Breakpoint" "Disabled,Enabled"
else
group.long 0xC++0x03
line.long 0x00 "FP_COMP1,Flash Patch Comparator Register 1"
hexmask.long 0x00 1.--31. 0x02 " BPADDR  ,Breakpoint address"
bitfld.long 0x00 0. "                    BE    ,Enable bit for Breakpoint" "Disabled,Enabled"
endif
endif
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x00)
group.long 0x10++0x03
line.long 0x00 "FP_COMP2,Flash Patch Comparator Register 2"
bitfld.long 0x00 30.--31. " REPLACE ,Defines the behaviour when the COMP address is matched" ",Set BKPT on lower halfword,Set BKPT on upper halfword,Set BKPT on both"
hexmask.long 0x00 2.--28. 0x04 "  COMP  ,Comparison Address"
bitfld.long 0x00 0. "  ENABLE ,Compare and Remap Enable" "Disabled,Enabled"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x10000000)
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))+0x10))&0x01)==0x00)
group.long 0x10++0x03
line.long 0x00 "FP_COMP2,Flash Patch Comparator Register 2"
bitfld.long 0x00 0. " BE      ,Enable bit for Breakpoint" "Disabled,Enabled"
else
group.long 0x10++0x03
line.long 0x00 "FP_COMP2,Flash Patch Comparator Register 2"
hexmask.long 0x00 1.--31. 0x02 " BPADDR  ,Breakpoint address"
bitfld.long 0x00 0. "                    BE    ,Enable bit for Breakpoint" "Disabled,Enabled"
endif
endif
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x00)
group.long 0x14++0x03
line.long 0x00 "FP_COMP3,Flash Patch Comparator Register 3"
bitfld.long 0x00 30.--31. " REPLACE ,Defines the behaviour when the COMP address is matched" ",Set BKPT on lower halfword,Set BKPT on upper halfword,Set BKPT on both"
hexmask.long 0x00 2.--28. 0x04 "  COMP  ,Comparison Address"
bitfld.long 0x00 0. "  ENABLE ,Compare and Remap Enable" "Disabled,Enabled"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x10000000)
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))+0x14))&0x01)==0x00)
group.long 0x14++0x03
line.long 0x00 "FP_COMP3,Flash Patch Comparator Register 3"
bitfld.long 0x00 0. " BE      ,Enable bit for Breakpoint" "Disabled,Enabled"
else
group.long 0x14++0x03
line.long 0x00 "FP_COMP3,Flash Patch Comparator Register 3"
hexmask.long 0x00 1.--31. 0x02 " BPADDR  ,Breakpoint address"
bitfld.long 0x00 0. "                    BE    ,Enable bit for Breakpoint" "Disabled,Enabled"
endif
endif
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x00)
group.long 0x18++0x03
line.long 0x00 "FP_COMP4,Flash Patch Comparator Register 4"
bitfld.long 0x00 30.--31. " REPLACE ,Defines the behaviour when the COMP address is matched" ",Set BKPT on lower halfword,Set BKPT on upper halfword,Set BKPT on both"
hexmask.long 0x00 2.--28. 0x04 "  COMP  ,Comparison Address"
bitfld.long 0x00 0. "  ENABLE ,Compare and Remap Enable" "Disabled,Enabled"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x10000000)
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))+0x18))&0x01)==0x00)
group.long 0x18++0x03
line.long 0x00 "FP_COMP4,Flash Patch Comparator Register 4"
bitfld.long 0x00 0. " BE      ,Enable bit for Breakpoint" "Disabled,Enabled"
else
group.long 0x18++0x03
line.long 0x00 "FP_COMP4,Flash Patch Comparator Register 4"
hexmask.long 0x00 1.--31. 0x02 " BPADDR  ,Breakpoint address"
bitfld.long 0x00 0. "                    BE    ,Enable bit for Breakpoint" "Disabled,Enabled"
endif
endif
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x00)
group.long 0x1C++0x03
line.long 0x00 "FP_COMP5,Flash Patch Comparator Register 5"
bitfld.long 0x00 30.--31. " REPLACE ,Defines the behaviour when the COMP address is matched" ",Set BKPT on lower halfword,Set BKPT on upper halfword,Set BKPT on both"
hexmask.long 0x00 2.--28. 0x04 "  COMP  ,Comparison Address"
bitfld.long 0x00 0. "  ENABLE ,Compare and Remap Enable" "Disabled,Enabled"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x10000000)
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))+0x1C))&0x01)==0x00)
group.long 0x1C++0x03
line.long 0x00 "FP_COMP5,Flash Patch Comparator Register 5"
bitfld.long 0x00 0. " BE      ,Enable bit for Breakpoint" "Disabled,Enabled"
else
group.long 0x1C++0x03
line.long 0x00 "FP_COMP5,Flash Patch Comparator Register 5"
hexmask.long 0x00 1.--31. 0x02 " BPADDR  ,Breakpoint address"
bitfld.long 0x00 0. "                    BE    ,Enable bit for Breakpoint" "Disabled,Enabled"
endif
endif
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x00)
group.long 0x20++0x03
line.long 0x00 "FP_COMP6,Flash Patch Comparator Register 6"
bitfld.long 0x00 30.--31. " REPLACE ,Defines the behaviour when the COMP address is matched" ",Set BKPT on lower halfword,Set BKPT on upper halfword,Set BKPT on both"
hexmask.long 0x00 2.--28. 0x04 "  COMP  ,Comparison Address"
bitfld.long 0x00 0. "  ENABLE ,Compare and Remap Enable" "Disabled,Enabled"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x10000000)
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))+0x20))&0x01)==0x00)
group.long 0x20++0x03
line.long 0x00 "FP_COMP6,Flash Patch Comparator Register 6"
bitfld.long 0x00 0. " BE      ,Enable bit for Breakpoint" "Disabled,Enabled"
else
group.long 0x20++0x03
line.long 0x00 "FP_COMP6,Flash Patch Comparator Register 6"
hexmask.long 0x00 1.--31. 0x02 " BPADDR  ,Breakpoint address"
bitfld.long 0x00 0. "                    BE    ,Enable bit for Breakpoint" "Disabled,Enabled"
endif
endif
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x00)
group.long 0x24++0x03
line.long 0x00 "FP_COMP7,Flash Patch Comparator Register 7"
bitfld.long 0x00 30.--31. " REPLACE ,Defines the behaviour when the COMP address is matched" ",Set BKPT on lower halfword,Set BKPT on upper halfword,Set BKPT on both"
hexmask.long 0x00 2.--28. 0x04 "  COMP  ,Comparison Address"
bitfld.long 0x00 0. "  ENABLE ,Compare and Remap Enable" "Disabled,Enabled"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x10000000)
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))+0x24))&0x01)==0x00)
group.long 0x24++0x03
line.long 0x00 "FP_COMP7,Flash Patch Comparator Register 7"
bitfld.long 0x00 0. " BE      ,Enable bit for Breakpoint" "Disabled,Enabled"
else
group.long 0x24++0x03
line.long 0x00 "FP_COMP7,Flash Patch Comparator Register 7"
hexmask.long 0x00 1.--31. 0x02 " BPADDR  ,Breakpoint address"
bitfld.long 0x00 0. "                    BE    ,Enable bit for Breakpoint" "Disabled,Enabled"
endif
endif
width 6.
tree "CoreSight Identification Registers"
rgroup.long 0xFE0++0x0F
line.long 0x00 "PID0,Peripheral ID0"
hexmask.long.byte 0x00 0.--7. 1. " Part_Num[7:0] ,Part Number bits[7:0]"
line.long 0x04 "PID1,Peripheral ID1"
hexmask.long.byte 0x04 4.--7. 1. " JEP106ID[3:0] ,JEP106 ID code bits[3:0]"
hexmask.long.byte 0x04 0.--3. 1. "  Part_Num[11:8] ,Part Number bits[11:8]"
line.long 0x08 "PID2,Peripheral ID2"
hexmask.long.byte 0x08 4.--7. 1. " Revision      ,Revision"
bitfld.long 0x08 3. "  JEDEC          ,JEDEC assigned ID fields" "0,JEDEC"
hexmask.long.byte 0x08 0.--2. 1. "  JEP106ID[6:4] ,JEP106 ID code bits[6:4]"
line.long 0x0c "PID3,Peripheral ID3"
hexmask.long.byte 0x0C 4.--7. 1. " RevAnd        ,Minor revision field"
hexmask.long.byte 0x0C 0.--3. 1. "  CMB            ,Customer-modified block"
rgroup.long 0xFD0++0x03
line.long 0x00 "PID4,Peripheral Identification Register 4"
hexmask.long.byte 0x00 4.--7. 1. " Count         ,4KB count"
hexmask.long.byte 0x00 0.--3. 1. "  JEP106_CC      ,JEP106 continuation code"
rgroup.long 0xFF0++0x0F
line.long 0x00 "CID0,Component ID0 (Preamble)"
line.long 0x04 "CID1,Component ID1"
hexmask.long.byte 0x04 4.--7. 1. " CC            ,Component Class"
hexmask.long.byte 0x04 0.--3. 1. "  Preamble       ,Preamble"
line.long 0x08 "CID2,Component ID2"
line.long 0x0c "CID3,Component ID3"
tree.end
width 0xB
else
newline
textline "FPB component base address not specified"
newline
endif
tree.end
tree "Data Watchpoint and Trace Unit (DWT)"
sif COMPonent.AVAILABLE("DWT")
base CONvert.ADDRESSTODUALPORT(COMPonent.BASE("DWT",-1))
width 15.
group.long 0x00++0x1B
line.long 0x00 "DWT_CTRL,Control Register"
rbitfld.long 0x00 28.--31. " NUMCOMP     ,Number of comparators implemented" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 27. "             NOTRCPKT   ,Shows whether the implementation supports trace sampling and exception tracing" "Supported,Not supported"
rbitfld.long 0x00 26. "  NOEXTTRIG   ,Shows whether the implementation includes external match signals" "Supported,Not supported"
textline "                        "
rbitfld.long 0x00 25. " NOCYCCNT    ,Shows whether the implementation supports a cycle counter" "Supported,Not supported"
rbitfld.long 0x00 24. "  NOPRFCNT   ,Shows whether the implementation supports the profiling counters" "Supported,Not supported"
bitfld.long 0x00 22. "  CYCEVTENA   ,Enables POSTCNT underflow Event counter packets generation" "Disabled,Enabled"
textline "                        "
bitfld.long 0x00 21. " FOLDEVTENA  ,Enables generation of the Folded-instruction counter overflow event" "Disabled,Enabled"
bitfld.long 0x00 20. "       LSUEVTENA  ,Enables generation of the LSU counter overflow event" "Disabled,Enabled"
bitfld.long 0x00 19. "       SLEEPEVTENA ,Enables generation of the Sleep counter overflow event" "Disabled,Enabled"
textline "                        "
bitfld.long 0x00 18. " EXCEVTENA   ,Enables generation of the Exception overhead counter overflow event" "Disabled,Enabled"
bitfld.long 0x00 17. "       CPIEVTENA  ,Enables generation of the CPI counter overflow event" "Disabled,Enabled"
bitfld.long 0x00 16. "       EXCTRCENA   ,Enables generation of exception trace" "Disabled,Enabled"
textline "                        "
bitfld.long 0x00 12. " PCSAMPLEENA ,Enables use of POSTCNT counter as a timer for Periodic PC sample packet generation" "Disabled,Enabled"
bitfld.long 0x00 10.--11. "       SYNCTAP    ,Selects the position of the synchronization packet counter tap on the CYCCNT counter" "Disabled,CYCCNT[24],CYCCNT[26],CYCCNT[28]"
bitfld.long 0x00 9. "     CYCTAP      ,Selects the position of the POSTCNT tap on the CYCCNT counter" "CYCCNT[6],CYCCNT[10]"
textline "                        "
bitfld.long 0x00 5.--8. " POSTINIT    ,Initial value for the POSTCNT counter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 1.--4. "             POSTPRESET ,Reload value for the POSTCNT counter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0. "             CYCCNTENA   ,Enables CYCCNT" "Disabled,Enabled"
line.long 0x04 "DWT_CYCCNT,Cycle Count Register"
line.long 0x08 "DWT_CPICNT,CPI Count Register"
hexmask.long.byte 0x08 0.--7. 1. " CPICNT      ,The base CPI counter"
line.long 0x0c "DWT_EXCCNT,Exception Overhead Count Register"
hexmask.long.byte 0x0c 0.--7. 1. " EXCCNT      ,The exception overhead counter"
line.long 0x10 "DWT_SLEEPCNT,Sleep Count Register"
hexmask.long.byte 0x10 0.--7. 1. " SLEEPCNT    ,Sleep Counter"
line.long 0x14 "DWT_LSUCNT,LSU Count Register"
hexmask.long.byte 0x14 0.--7. 1. " LSUCNT      ,Load-store counter"
line.long 0x18 "DWT_FOLDCNT,Folded-instruction Count Register"
hexmask.long.byte 0x18 0.--7. 1. " FOLDCNT     ,Folded-instruction counter"
rgroup.long 0x1C++0x03
line.long 0x00 "DWT_PCSR,Program Counter Sample register"
textline "                        "
group.long 0x20++0x07
line.long 0x00 "DWT_COMP0,DWT Comparator Register 0"
line.long 0x04 "DWT_MASK0,DWT Mask Registers 0"
bitfld.long 0x04 0.--4. " MASK        ,The size of the ignore mask" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
if (((per.long(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("DWT",-1))+0x28))&0x1A0)==0x20)
group.long 0x28++0x03
line.long 0x00 "DWT_FUNCTION0,DWT Function Registers 0"
bitfld.long 0x00 24. " MATCHED     ,Comparator match" "No matched,Matched"
bitfld.long 0x00 16.--19. "  DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "             DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                        "
bitfld.long 0x00 10.--11. " DATAVSIZE   ,Data Value Size" "8-bit,16-bit,32-bit,Reserved"
bitfld.long 0x00 9. "    LNK1ENA    ,Supports use of a second linked comparator" "Not Supported,Supported"
bitfld.long 0x00 8. "  DATAVMATCH ,Data value compare" "Disabled,Enabled"
textline "                        "
bitfld.long 0x00 7. " CYCMATCH    ,Enable cycle count comparison for comparator 0" "Disabled,Enabled"
bitfld.long 0x00 5. "    EMITRANGE  ,enables generation of Data trace address offset packets" "Disabled,Enabled"
bitfld.long 0x00 0.--3. "       FUNCTION   ,Selects action taken on comparator match" "Disabled,Send address trace packet on READ/WRITE,Send data value + address packet on READ/WRITE,Send data value + address packet on READ/WRITE,Watchpoint debug event on PC match,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,CMPMATCH[N] event on PC match,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ/WRITE,Send data address trace packet on READ,Send data address trace packet on WRITE,Send data address + PC value on READ,Send data address + PC value on WRITE"
elif (((per.long(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("DWT",-1))+0x28))&0x1A0)==0x00)
group.long 0x28++0x03
line.long 0x00 "DWT_FUNCTION0,DWT Function Registers 0"
bitfld.long 0x00 24. " MATCHED     ,Comparator match" "No matched,Matched"
bitfld.long 0x00 16.--19. "  DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "             DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                        "
bitfld.long 0x00 10.--11. " DATAVSIZE   ,Data Value Size" "8-bit,16-bit,32-bit,Reserved"
bitfld.long 0x00 9. "    LNK1ENA    ,Supports use of a second linked comparator" "Not Supported,Supported"
bitfld.long 0x00 8. "  DATAVMATCH ,Data value compare" "Disabled,Enabled"
textline "                        "
bitfld.long 0x00 7. " CYCMATCH    ,Enable cycle count comparison for comparator 0" "Disabled,Enabled"
bitfld.long 0x00 5. "    EMITRANGE  ,enables generation of Data trace address offset packets" "Disabled,Enabled"
bitfld.long 0x00 0.--3. "       FUNCTION   ,Selects action taken on comparator match" "Disabled,Send PC value trace packet on READ/WRITE,Send data value trace packet on READ/WRITE,Send data value + PC value on READ/WRITE,Watchpoint debug event on PC match,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,CMPMATCH[N] event on PC match,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ/WRITE,Send data value trace packet on READ,Send data value trace packet on WRITE,Send data value + PC value on READ,Send data value + PC value on WRITE"
elif (((per.long(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("DWT",-1))+0x28))&0x180)==0x80)
group.long 0x28++0x03
line.long 0x00 "DWT_FUNCTION0,DWT Function Registers 0"
bitfld.long 0x00 24. " MATCHED     ,Comparator match" "No matched,Matched"
bitfld.long 0x00 16.--19. "  DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "             DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                        "
bitfld.long 0x00 10.--11. " DATAVSIZE   ,Data Value Size" "8-bit,16-bit,32-bit,Reserved"
bitfld.long 0x00 9. "    LNK1ENA    ,Supports use of a second linked comparator" "Not Supported,Supported"
bitfld.long 0x00 8. "  DATAVMATCH ,Data value compare" "Disabled,Enabled"
textline "                        "
bitfld.long 0x00 7. " CYCMATCH    ,Enable cycle count comparison for comparator 0" "Disabled,Enabled"
bitfld.long 0x00 5. "    EMITRANGE  ,enables generation of Data trace address offset packets" "Disabled,Enabled"
bitfld.long 0x00 0.--3. "       FUNCTION   ,Selects action taken on comparator match" "Disabled,Send PC value trace packet,UNPREDICTABLE,UNPREDICTABLE,Generate watchpoint debug event,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,CMPMATCH[N] event,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE"
else
group.long 0x28++0x03
line.long 0x00 "DWT_FUNCTION0,DWT Function Registers 0"
bitfld.long 0x00 24. " MATCHED     ,Comparator match" "No matched,Matched"
bitfld.long 0x00 16.--19. "  DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "             DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                        "
bitfld.long 0x00 10.--11. " DATAVSIZE   ,Data Value Size" "8-bit,16-bit,32-bit,Reserved"
bitfld.long 0x00 9. "    LNK1ENA    ,Supports use of a second linked comparator" "Not Supported,Supported"
bitfld.long 0x00 8. "  DATAVMATCH ,Data value compare" "Disabled,Enabled"
textline "                        "
bitfld.long 0x00 7. " CYCMATCH    ,Enable cycle count comparison for comparator 0" "Disabled,Enabled"
bitfld.long 0x00 5. "    EMITRANGE  ,enables generation of Data trace address offset packets" "Disabled,Enabled"
bitfld.long 0x00 0.--3. "       FUNCTION   ,Selects action taken on comparator match" "Disabled,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,UNPREDICTABLE,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE"
endif
group.long (0x30)++0x07
line.long 0x00 "DWT_COMP1,DWT Comparator Register 1"
line.long 0x04 "DWT_MASK1,DWT Mask Registers 1"
bitfld.long 0x04 0.--4. " MASK        ,The size of the ignore mask" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
if (((per.long(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("DWT",-1))+0x30+0x08))&0x120)==0x20)
group.long (0x30+0x08)++0x03
line.long 0x00 "DWT_FUNCTION1,DWT Function Registers 1"
bitfld.long 0x00 24. " MATCHED     ,Comparator match" "No matched,Matched"
bitfld.long 0x00 16.--19. "  DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "             DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                        "
bitfld.long 0x00 10.--11. " DATAVSIZE   ,Data Value Size" "8-bit,16-bit,32-bit,Reserved"
bitfld.long 0x00 9. "    LNK1ENA    ,Supports use of a second linked comparator" "Not Supported,Supported"
bitfld.long 0x00 8. "  DATAVMATCH ,Data value compare" "Disabled,Enabled"
textline "                        "
bitfld.long 0x00 5. " EMITRANGE   ,enables generation of Data trace address offset packets" "Disabled,Enabled"
bitfld.long 0x00 0.--3. "    FUNCTION   ,Selects action taken on comparator match" "Disabled,Send address trace packet on READ/WRITE,Send data value + address packet on READ/WRITE,Send data value + address packet on READ/WRITE,Watchpoint debug event on PC match,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,CMPMATCH[N] event on PC match,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ/WRITE,Send data address trace packet on READ,Send data address trace packet on WRITE,Send data address + PC value on READ,Send data address + PC value on WRITE"
elif (((per.long(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("DWT",-1))+0x30+0x08))&0x120)==0x00)
group.long (0x30+0x08)++0x03
line.long 0x00 "DWT_FUNCTION1,DWT Function Registers 1"
bitfld.long 0x00 24. " MATCHED     ,Comparator match" "No matched,Matched"
bitfld.long 0x00 16.--19. "  DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "             DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                        "
bitfld.long 0x00 10.--11. " DATAVSIZE   ,Data Value Size" "8-bit,16-bit,32-bit,Reserved"
bitfld.long 0x00 9. "    LNK1ENA    ,Supports use of a second linked comparator" "Not Supported,Supported"
bitfld.long 0x00 8. "  DATAVMATCH ,Data value compare" "Disabled,Enabled"
textline "                        "
bitfld.long 0x00 5. " EMITRANGE   ,enables generation of Data trace address offset packets" "Disabled,Enabled"
bitfld.long 0x00 0.--3. "    FUNCTION   ,Selects action taken on comparator match" "Disabled,Send PC value trace packet on READ/WRITE,Send data value trace packet on READ/WRITE,Send data value + PC value on READ/WRITE,Watchpoint debug event on PC match,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,CMPMATCH[N] event on PC match,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ/WRITE,Send data value trace packet on READ,Send data value trace packet on WRITE,Send data value + PC value on READ,Send data value + PC value on WRITE"
else
group.long (0x30+0x08)++0x03
line.long 0x00 "DWT_FUNCTION1,DWT Function Registers 1"
bitfld.long 0x00 24. " MATCHED     ,Comparator match" "No matched,Matched"
bitfld.long 0x00 16.--19. "  DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "             DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                        "
bitfld.long 0x00 10.--11. " DATAVSIZE   ,Data Value Size" "8-bit,16-bit,32-bit,Reserved"
bitfld.long 0x00 9. "    LNK1ENA    ,Supports use of a second linked comparator" "Not Supported,Supported"
bitfld.long 0x00 8. "  DATAVMATCH ,Data value compare" "Disabled,Enabled"
textline "                        "
bitfld.long 0x00 5. " EMITRANGE   ,Enables generation of Data trace address offset packets" "Disabled,Enabled"
bitfld.long 0x00 0.--3. "    FUNCTION   ,Selects action taken on comparator match" "Disabled,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,UNPREDICTABLE,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE"
endif
group.long (0x40)++0x07
line.long 0x00 "DWT_COMP2,DWT Comparator Register 2"
line.long 0x04 "DWT_MASK2,DWT Mask Registers 2"
bitfld.long 0x04 0.--4. " MASK        ,The size of the ignore mask" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
if (((per.long(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("DWT",-1))+0x40+0x08))&0x120)==0x20)
group.long (0x40+0x08)++0x03
line.long 0x00 "DWT_FUNCTION2,DWT Function Registers 2"
bitfld.long 0x00 24. " MATCHED     ,Comparator match" "No matched,Matched"
bitfld.long 0x00 16.--19. "  DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "             DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                        "
bitfld.long 0x00 10.--11. " DATAVSIZE   ,Data Value Size" "8-bit,16-bit,32-bit,Reserved"
bitfld.long 0x00 9. "    LNK1ENA    ,Supports use of a second linked comparator" "Not Supported,Supported"
bitfld.long 0x00 8. "  DATAVMATCH ,Data value compare" "Disabled,Enabled"
textline "                        "
bitfld.long 0x00 5. " EMITRANGE   ,enables generation of Data trace address offset packets" "Disabled,Enabled"
bitfld.long 0x00 0.--3. "    FUNCTION   ,Selects action taken on comparator match" "Disabled,Send address trace packet on READ/WRITE,Send data value + address packet on READ/WRITE,Send data value + address packet on READ/WRITE,Watchpoint debug event on PC match,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,CMPMATCH[N] event on PC match,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ/WRITE,Send data address trace packet on READ,Send data address trace packet on WRITE,Send data address + PC value on READ,Send data address + PC value on WRITE"
elif (((per.long(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("DWT",-1))+0x40+0x08))&0x120)==0x00)
group.long (0x40+0x08)++0x03
line.long 0x00 "DWT_FUNCTION2,DWT Function Registers 2"
bitfld.long 0x00 24. " MATCHED     ,Comparator match" "No matched,Matched"
bitfld.long 0x00 16.--19. "  DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "             DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                        "
bitfld.long 0x00 10.--11. " DATAVSIZE   ,Data Value Size" "8-bit,16-bit,32-bit,Reserved"
bitfld.long 0x00 9. "    LNK1ENA    ,Supports use of a second linked comparator" "Not Supported,Supported"
bitfld.long 0x00 8. "  DATAVMATCH ,Data value compare" "Disabled,Enabled"
textline "                        "
bitfld.long 0x00 5. " EMITRANGE   ,enables generation of Data trace address offset packets" "Disabled,Enabled"
bitfld.long 0x00 0.--3. "    FUNCTION   ,Selects action taken on comparator match" "Disabled,Send PC value trace packet on READ/WRITE,Send data value trace packet on READ/WRITE,Send data value + PC value on READ/WRITE,Watchpoint debug event on PC match,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,CMPMATCH[N] event on PC match,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ/WRITE,Send data value trace packet on READ,Send data value trace packet on WRITE,Send data value + PC value on READ,Send data value + PC value on WRITE"
else
group.long (0x40+0x08)++0x03
line.long 0x00 "DWT_FUNCTION2,DWT Function Registers 2"
bitfld.long 0x00 24. " MATCHED     ,Comparator match" "No matched,Matched"
bitfld.long 0x00 16.--19. "  DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "             DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                        "
bitfld.long 0x00 10.--11. " DATAVSIZE   ,Data Value Size" "8-bit,16-bit,32-bit,Reserved"
bitfld.long 0x00 9. "    LNK1ENA    ,Supports use of a second linked comparator" "Not Supported,Supported"
bitfld.long 0x00 8. "  DATAVMATCH ,Data value compare" "Disabled,Enabled"
textline "                        "
bitfld.long 0x00 5. " EMITRANGE   ,Enables generation of Data trace address offset packets" "Disabled,Enabled"
bitfld.long 0x00 0.--3. "    FUNCTION   ,Selects action taken on comparator match" "Disabled,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,UNPREDICTABLE,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE"
endif
group.long (0x50)++0x07
line.long 0x00 "DWT_COMP3,DWT Comparator Register 3"
line.long 0x04 "DWT_MASK3,DWT Mask Registers 3"
bitfld.long 0x04 0.--4. " MASK        ,The size of the ignore mask" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
if (((per.long(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("DWT",-1))+0x50+0x08))&0x120)==0x20)
group.long (0x50+0x08)++0x03
line.long 0x00 "DWT_FUNCTION3,DWT Function Registers 3"
bitfld.long 0x00 24. " MATCHED     ,Comparator match" "No matched,Matched"
bitfld.long 0x00 16.--19. "  DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "             DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                        "
bitfld.long 0x00 10.--11. " DATAVSIZE   ,Data Value Size" "8-bit,16-bit,32-bit,Reserved"
bitfld.long 0x00 9. "    LNK1ENA    ,Supports use of a second linked comparator" "Not Supported,Supported"
bitfld.long 0x00 8. "  DATAVMATCH ,Data value compare" "Disabled,Enabled"
textline "                        "
bitfld.long 0x00 5. " EMITRANGE   ,enables generation of Data trace address offset packets" "Disabled,Enabled"
bitfld.long 0x00 0.--3. "    FUNCTION   ,Selects action taken on comparator match" "Disabled,Send address trace packet on READ/WRITE,Send data value + address packet on READ/WRITE,Send data value + address packet on READ/WRITE,Watchpoint debug event on PC match,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,CMPMATCH[N] event on PC match,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ/WRITE,Send data address trace packet on READ,Send data address trace packet on WRITE,Send data address + PC value on READ,Send data address + PC value on WRITE"
elif (((per.long(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("DWT",-1))+0x50+0x08))&0x120)==0x00)
group.long (0x50+0x08)++0x03
line.long 0x00 "DWT_FUNCTION3,DWT Function Registers 3"
bitfld.long 0x00 24. " MATCHED     ,Comparator match" "No matched,Matched"
bitfld.long 0x00 16.--19. "  DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "             DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                        "
bitfld.long 0x00 10.--11. " DATAVSIZE   ,Data Value Size" "8-bit,16-bit,32-bit,Reserved"
bitfld.long 0x00 9. "    LNK1ENA    ,Supports use of a second linked comparator" "Not Supported,Supported"
bitfld.long 0x00 8. "  DATAVMATCH ,Data value compare" "Disabled,Enabled"
textline "                        "
bitfld.long 0x00 5. " EMITRANGE   ,enables generation of Data trace address offset packets" "Disabled,Enabled"
bitfld.long 0x00 0.--3. "    FUNCTION   ,Selects action taken on comparator match" "Disabled,Send PC value trace packet on READ/WRITE,Send data value trace packet on READ/WRITE,Send data value + PC value on READ/WRITE,Watchpoint debug event on PC match,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,CMPMATCH[N] event on PC match,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ/WRITE,Send data value trace packet on READ,Send data value trace packet on WRITE,Send data value + PC value on READ,Send data value + PC value on WRITE"
else
group.long (0x50+0x08)++0x03
line.long 0x00 "DWT_FUNCTION3,DWT Function Registers 3"
bitfld.long 0x00 24. " MATCHED     ,Comparator match" "No matched,Matched"
bitfld.long 0x00 16.--19. "  DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "             DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                        "
bitfld.long 0x00 10.--11. " DATAVSIZE   ,Data Value Size" "8-bit,16-bit,32-bit,Reserved"
bitfld.long 0x00 9. "    LNK1ENA    ,Supports use of a second linked comparator" "Not Supported,Supported"
bitfld.long 0x00 8. "  DATAVMATCH ,Data value compare" "Disabled,Enabled"
textline "                        "
bitfld.long 0x00 5. " EMITRANGE   ,Enables generation of Data trace address offset packets" "Disabled,Enabled"
bitfld.long 0x00 0.--3. "    FUNCTION   ,Selects action taken on comparator match" "Disabled,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,UNPREDICTABLE,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE"
endif
width 6.
tree "CoreSight Identification Registers"
rgroup.long 0xFE0++0x0F
line.long 0x00 "PID0,Peripheral ID0"
hexmask.long.byte 0x00 0.--7. 1. " Part_Num[7:0] ,Part Number bits[7:0]"
line.long 0x04 "PID1,Peripheral ID1"
hexmask.long.byte 0x04 4.--7. 1. " JEP106ID[3:0] ,JEP106 ID code bits[3:0]"
hexmask.long.byte 0x04 0.--3. 1. "  Part_Num[11:8] ,Part Number bits[11:8]"
line.long 0x08 "PID2,Peripheral ID2"
hexmask.long.byte 0x08 4.--7. 1. " Revision      ,Revision"
bitfld.long 0x08 3. "  JEDEC          ,JEDEC assigned ID fields" "0,JEDEC"
hexmask.long.byte 0x08 0.--2. 1. "  JEP106ID[6:4] ,JEP106 ID code bits[6:4]"
line.long 0x0c "PID3,Peripheral ID3"
hexmask.long.byte 0x0C 4.--7. 1. " RevAnd        ,Minor revision field"
hexmask.long.byte 0x0C 0.--3. 1. "  CMB            ,Customer-modified block"
rgroup.long 0xFD0++0x03
line.long 0x00 "PID4,Peripheral Identification Register 4"
hexmask.long.byte 0x00 4.--7. 1. " Count         ,4KB count"
hexmask.long.byte 0x00 0.--3. 1. "  JEP106_CC      ,JEP106 continuation code"
rgroup.long 0xFF0++0x0F
line.long 0x00 "CID0,Component ID0 (Preamble)"
line.long 0x04 "CID1,Component ID1"
hexmask.long.byte 0x04 4.--7. 1. " CC            ,Component Class"
hexmask.long.byte 0x04 0.--3. 1. "  Preamble       ,Preamble"
line.long 0x08 "CID2,Component ID2"
line.long 0x0c "CID3,Component ID3"
tree.end
width 0x0B
else
newline
textline "DWT component base address not specified"
newline
endif
tree.end
tree.end
AUTOINDENT.POP
tree.end
elif cpuis("TDA2XIVA")
tree "Core Registers (ARM966)"
width 8.
tree "ID Registers"
rgroup c15:0x0000--0x0000
line.long 0x0 "MIDR,Identity Code"
hexmask.long.byte 0x0 24.--31. 0x1 " IMPL  ,Implementer"
hexmask.long.byte 0x0 20.--23. 0x1 "  SPEC ,Specification Revision"
hexmask.long.byte 0x0 16.--19. 0x1 "  ARCH ,Architecture Version"
hexmask.long.word 0x0 4.--15. 0x1 "  PARTNUM ,Part Number"
hexmask.long.byte 0x0 0.--3. 0x01 "  REV ,Layout Revision"
tree.end
tree "System Configuration and Control"
width 8.
group c15:0x1--0x1
line.long 0x0 "CR,Control Register"
bitfld.long 0x0 15. " L4 ,Configure Loading TBIT" "Enable,Disable"
bitfld.long 0x0 13. "  V  ,Location of Exception Vectors" "0x00000000,0xFFFF0000"
textline "                 "
bitfld.long 0x0 12. " I  ,Instruction SRAM Enable" "Disable,Enable"
bitfld.long 0x0 7. "  B  ,Endianism" "Little,Big"
bitfld.long 0x0 3. "   W  ,Write Buffer" "Disable,Enable"
bitfld.long 0x0 2. "  D  ,Data SRAM Enable" "Disable,Enable"
tree.end
tree "ICEbreaker"
width 8.
group ice:0x0--0x5 "Debug Control"
line.long 0x0 "DBGCTRL,Debug Control Register"
bitfld.long 0x0 0x5 " ICE ,EmbeddedICE Disable" "enabled,disabled"
bitfld.long 0x0 0x4 "  MONITOR ,Monitor Mode Enable" "disabled,enabled"
textline "                 "
bitfld.long 0x0 0x3 " STEP ,Single Step" "disabled,enabled"
bitfld.long 0x0 0x2 "  INTDIS ,Interrupts Disable" "enabled,disabled"
bitfld.long 0x0 0x1 "  DBGRQ ,Debug Request" "no,yes"
bitfld.long 0x0 0x0 "  DBGACK ,Debug Acknowledge" "no,yes"
line.long 0x4 "DBGSTAT,Debug Status Register"
bitfld.long 0x4 0x4 " ITBIT ,ITBIT" "0,1"
bitfld.long 0x4 0x3 "  SYSCOMP ,SYSCOMP" "0,1"
bitfld.long 0x4 0x2 "  IFEN ,Interrupts Enable" "disabled,enabled"
bitfld.long 0x4 0x1 "  DBGRQ ,Debug Request" "no,yes"
bitfld.long 0x4 0x0 "  DBGACK ,Debug Acknowledge" "no,yes"
line.long 0x8 "VECTOR,Vector Catch Register"
bitfld.long 0x8 0x7 " FIQ ,FIQ" "dis,ena"
bitfld.long 0x8 0x6 "  IRQ ,IRQ" "dis,ena"
bitfld.long 0x8 0x4 "  D_ABO ,D_ABORT" "dis,ena"
bitfld.long 0x8 0x3 "  P_ABO ,P_ABORT" "dis,ena"
bitfld.long 0x8 0x2 "  SWI ,SWI" "dis,ena"
bitfld.long 0x8 0x1 "  UND ,UNDEF" "dis,ena"
bitfld.long 0x8 0x0 "  RES ,RESET" "dis,ena"
line.long 0x10 "COMCTRL,Debug Communication Control Register"
bitfld.long 0x10 28.--31. " VERSION ,Version Number" "0000,0001,0010,0011,0100,0101,0110,0111,1000,1001,1010,1011,1100,1101,1110,1111"
bitfld.long 0x10 0x1 "  WRITE ,Write Register Free" "idle,pend"
bitfld.long 0x10 0x0 "  READ ,Read Register Free" "idle,pend"
line.long 0x14 "COMDATA,Debug Communication Data Register"
group ice:0x8--0x0d "Watchpoint 0"
line.long 0x0 "AV,Address Value"
line.long 0x4 "AM,Address Mask"
line.long 0x8 "DV,Data Value"
line.long 0x0c "DM,Data Mask"
line.long 0x10 "CV,Control Value"
bitfld.long 0x10 0x8 " ENABLE ,Global Enable for Watchpoint 1" "DIS,ENA"
bitfld.long 0x10 0x7 "  RANGE ,Assert RANGEOUT Signal" "0  ,1"
bitfld.long 0x10 0x6 "  CHAIN ,Connect to Watchpoint 0" "0  ,1"
bitfld.long 0x10 0x5 "  EXTERN ,Depentend from EXTERN Signal" "0  ,1"
bitfld.long 0x10 0x4 "  nTRANS ,CPU Mode" "User,no User"
bitfld.long 0x10 0x3 "  nOPC ,Op Fetch" "Inst,Data"
bitfld.long 0x10 0x1--0x2 "  MAS ,Access Size" "Byte,Word,Long,Res"
bitfld.long 0x10 0x0 "  nRW ,Read/Write" "R  ,W"
line.long 0x14 "CM,Control Mask"
bitfld.long 0x14 0x7 "             RANGE ,Assert RANGEOUT Signal" "ENA,DIS"
bitfld.long 0x14 0x6 "  CHAIN ,Connect to Watchpoint 0" "ENA,DIS"
bitfld.long 0x14 0x5 "  EXTERN ,Depentend from EXTERN Signal" "ENA,DIS"
bitfld.long 0x14 0x4 "  nTRANS ,CPU Mode" "ENA,DIS    "
bitfld.long 0x14 0x3 "  nOPC ,Op Fetch" "ENA ,DIS"
bitfld.long 0x14 0x1--0x2 "  MAS ,Access Size" "ENA ,Res,Res,DIS"
bitfld.long 0x14 0x0 "  nRW ,Read/Write" "ENA,DIS"
group ice:0x10--0x15 "Watchpoint 1"
line.long 0x0 "AV,Address Value"
line.long 0x4 "AM,Address Mask"
line.long 0x8 "DV,Data Value"
line.long 0x0c "DM,Data Mask"
line.long 0x10 "CV,Control Value"
bitfld.long 0x10 0x8 " ENABLE ,Global Enable for Watchpoint 1" "DIS,ENA"
bitfld.long 0x10 0x7 "  RANGE ,Assert RANGEOUT Signal" "0  ,1"
bitfld.long 0x10 0x6 "  CHAIN ,Connect to Watchpoint 0" "0  ,1"
bitfld.long 0x10 0x5 "  EXTERN ,Depentend from EXTERN Signal" "0  ,1"
bitfld.long 0x10 0x4 "  nTRANS ,CPU Mode" "User,no User"
bitfld.long 0x10 0x3 "  nOPC ,Op Fetch" "Inst,Data"
bitfld.long 0x10 0x1--0x2 "  MAS ,Access Size" "Byte,Word,Long,Res"
bitfld.long 0x10 0x0 "  nRW ,Read/Write" "R  ,w"
line.long 0x14 "CM,Control Mask"
bitfld.long 0x14 0x7 "             RANGE ,Assert RANGEOUT Signal" "ENA,DIS"
bitfld.long 0x14 0x6 "  CHAIN ,Connect to Watchpoint 0" "ENA,DIS"
bitfld.long 0x14 0x5 "  EXTERN ,Depentend from EXTERN Signal" "ENA,DIS"
bitfld.long 0x14 0x4 "  nTRANS ,CPU Mode" "ENA,DIS    "
bitfld.long 0x14 0x3 "  nOPC ,Op Fetch" "ENA ,DIS"
bitfld.long 0x14 0x1--0x2 "  MAS ,Access Size" "ENA ,Res,Res,DIS"
bitfld.long 0x14 0x0 "  nRW ,Read/Write" "ENA,DIS"
tree.end
tree.end
elif cpuis("TDA2XDSP?")
AUTOINDENT.PUSH
AUTOINDENT.OFF
tree "Core Registers (c66x)"
config 16. 8.
width 0x0b
tree.open "Cache"
tree "L1P Cache"
base d:0x01840000
width 9.
group.long 0x20++0x7 "L1P Cache Control Registers"
line.long 0x00 "L1PCFG,L1P Configuration Register"
bitfld.long 0x00 0.--2. " L1PMODE ,Size of the L1P cache" "Disabled,4K,8K,16K,32K,Maximal,Maximal,Maximal"
line.long 0x04 "L1PCC,L1P Cache Control Register"
bitfld.long 0x04 16. " POPER   ,Holds the previous value of the OPER field" "0,1"
bitfld.long 0x04 0. "            OPER ,Controls the L1P freeze mode" "Disabled,Enabled"
wgroup.long 0x4020++0x3
line.long 0x00 "L1PIBAR,L1P Invalidate Base Address Register"
hexmask.long 0x00 0.--31. 1. " L1PIBAR ,32-bit base address for block invalidation"
group.long 0x4024++0x3
line.long 0x00 "L1PIWC,L1P Invalidate Word Count"
hexmask.long.word 0x00 0.--15. 1. " L1PIWC  ,Word count for block invalidation"
group.long 0x5028++0x3
line.long 0x00 "L1PINV,L1P Invalidate Register"
bitfld.long 0x00 0. " I       ,Controls the global invalidation of L1P cache" "Normal,Invalidate"
//width 13.
//wgroup.long 0xD00++0x13 "Memory Protection Lock Registers"
//    line.long 0x00 "L1PMPLK0,Memory Protection Lock Register 0"
//        hexmask.long 0x00 0.--31. 1. " LB   ,Lock Bits 31:0"
//    line.long 0x04 "L1PMPLK1,Memory Protection Lock Register 1"
//        hexmask.long 0x04 0.--31. 1. " LB   ,Lock Bits 63:32"
//    line.long 0x08 "L1PMPLK2,Memory Protection Lock Register 2"
//        hexmask.long 0x08 0.--31. 1. " LB   ,Lock Bits 95:64"
//    line.long 0x0c "L1PMPLK3,Memory Protection Lock Register 3"
//        hexmask.long 0x0c 0.--31. 1. " LB   ,Lock Bits 127:96"
//    line.long 0x10 "L1PMPLKCMD,Memory Protection Lock Command Register"
//        bitfld.long 0x10 2. " KEYR ,Reset status" "No effect,Reset"
//        bitfld.long 0x10 1. "   LOCK ,Interface to complete a lock sequence" "No effect,Locked"
//        bitfld.long 0x10 0. "  UNLOCK ,Interface to complete an unlock sequence" "No effect,Unlocked"
//rgroup.long 0xD14++0x3
//    line.long 0x00 "L1PMPLKSTAT,Memory Protection Lock Status Register"
//        bitfld.long 0x00 0. " LK   ,Indicates the lock's current status" "Disengaged,Engaged"
base d:0x0184a000
width 12.
tree "Memory Page Protection Attribute Registers"
group.long 0x640++0x3f
line.long 0x0 "L1PMPPA16,Level 1 Memory Page Protection Attribute Register 16"
bitfld.long 0x0 15. " AID5    ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x0 14. "      AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x0 13. "     AID3   ,Controls access from ID = 3" "Denied,Granted"
textline "                     "
bitfld.long 0x0 12. " AID2    ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x0 11. "      AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x0 10. "     AID0   ,Controls access from ID = 0" "Denied,Granted"
textline "                     "
bitfld.long 0x0 9. " AIDX    ,Controls access from ID>=6" "Denied,Granted"
bitfld.long 0x0 8. "      LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                     "
bitfld.long 0x0 5. " SR      ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x0 4. "   SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x0 3. "  SX     ,Supervisor execute access type" "Normal,Supervisor"
textline "                     "
bitfld.long 0x0 2. " UR      ,User read access type" "Normal,User"
bitfld.long 0x0 1. "       UW    ,User write access type" "Normal,User"
bitfld.long 0x0 0. "      UX     ,User execute access type" "Normal,User"
line.long 0x4 "L1PMPPA17,Level 1 Memory Page Protection Attribute Register 17"
bitfld.long 0x4 15. " AID5    ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x4 14. "      AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x4 13. "     AID3   ,Controls access from ID = 3" "Denied,Granted"
textline "                     "
bitfld.long 0x4 12. " AID2    ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x4 11. "      AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x4 10. "     AID0   ,Controls access from ID = 0" "Denied,Granted"
textline "                     "
bitfld.long 0x4 9. " AIDX    ,Controls access from ID>=6" "Denied,Granted"
bitfld.long 0x4 8. "      LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                     "
bitfld.long 0x4 5. " SR      ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x4 4. "   SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x4 3. "  SX     ,Supervisor execute access type" "Normal,Supervisor"
textline "                     "
bitfld.long 0x4 2. " UR      ,User read access type" "Normal,User"
bitfld.long 0x4 1. "       UW    ,User write access type" "Normal,User"
bitfld.long 0x4 0. "      UX     ,User execute access type" "Normal,User"
line.long 0x8 "L1PMPPA18,Level 1 Memory Page Protection Attribute Register 18"
bitfld.long 0x8 15. " AID5    ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x8 14. "      AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x8 13. "     AID3   ,Controls access from ID = 3" "Denied,Granted"
textline "                     "
bitfld.long 0x8 12. " AID2    ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x8 11. "      AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x8 10. "     AID0   ,Controls access from ID = 0" "Denied,Granted"
textline "                     "
bitfld.long 0x8 9. " AIDX    ,Controls access from ID>=6" "Denied,Granted"
bitfld.long 0x8 8. "      LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                     "
bitfld.long 0x8 5. " SR      ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x8 4. "   SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x8 3. "  SX     ,Supervisor execute access type" "Normal,Supervisor"
textline "                     "
bitfld.long 0x8 2. " UR      ,User read access type" "Normal,User"
bitfld.long 0x8 1. "       UW    ,User write access type" "Normal,User"
bitfld.long 0x8 0. "      UX     ,User execute access type" "Normal,User"
line.long 0xC "L1PMPPA19,Level 1 Memory Page Protection Attribute Register 19"
bitfld.long 0xC 15. " AID5    ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0xC 14. "      AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0xC 13. "     AID3   ,Controls access from ID = 3" "Denied,Granted"
textline "                     "
bitfld.long 0xC 12. " AID2    ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0xC 11. "      AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0xC 10. "     AID0   ,Controls access from ID = 0" "Denied,Granted"
textline "                     "
bitfld.long 0xC 9. " AIDX    ,Controls access from ID>=6" "Denied,Granted"
bitfld.long 0xC 8. "      LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                     "
bitfld.long 0xC 5. " SR      ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0xC 4. "   SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0xC 3. "  SX     ,Supervisor execute access type" "Normal,Supervisor"
textline "                     "
bitfld.long 0xC 2. " UR      ,User read access type" "Normal,User"
bitfld.long 0xC 1. "       UW    ,User write access type" "Normal,User"
bitfld.long 0xC 0. "      UX     ,User execute access type" "Normal,User"
line.long 0x10 "L1PMPPA20,Level 1 Memory Page Protection Attribute Register 20"
bitfld.long 0x10 15. " AID5    ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x10 14. "      AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x10 13. "     AID3   ,Controls access from ID = 3" "Denied,Granted"
textline "                     "
bitfld.long 0x10 12. " AID2    ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x10 11. "      AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x10 10. "     AID0   ,Controls access from ID = 0" "Denied,Granted"
textline "                     "
bitfld.long 0x10 9. " AIDX    ,Controls access from ID>=6" "Denied,Granted"
bitfld.long 0x10 8. "      LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                     "
bitfld.long 0x10 5. " SR      ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x10 4. "   SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x10 3. "  SX     ,Supervisor execute access type" "Normal,Supervisor"
textline "                     "
bitfld.long 0x10 2. " UR      ,User read access type" "Normal,User"
bitfld.long 0x10 1. "       UW    ,User write access type" "Normal,User"
bitfld.long 0x10 0. "      UX     ,User execute access type" "Normal,User"
line.long 0x14 "L1PMPPA21,Level 1 Memory Page Protection Attribute Register 21"
bitfld.long 0x14 15. " AID5    ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x14 14. "      AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x14 13. "     AID3   ,Controls access from ID = 3" "Denied,Granted"
textline "                     "
bitfld.long 0x14 12. " AID2    ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x14 11. "      AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x14 10. "     AID0   ,Controls access from ID = 0" "Denied,Granted"
textline "                     "
bitfld.long 0x14 9. " AIDX    ,Controls access from ID>=6" "Denied,Granted"
bitfld.long 0x14 8. "      LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                     "
bitfld.long 0x14 5. " SR      ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x14 4. "   SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x14 3. "  SX     ,Supervisor execute access type" "Normal,Supervisor"
textline "                     "
bitfld.long 0x14 2. " UR      ,User read access type" "Normal,User"
bitfld.long 0x14 1. "       UW    ,User write access type" "Normal,User"
bitfld.long 0x14 0. "      UX     ,User execute access type" "Normal,User"
line.long 0x18 "L1PMPPA22,Level 1 Memory Page Protection Attribute Register 22"
bitfld.long 0x18 15. " AID5    ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x18 14. "      AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x18 13. "     AID3   ,Controls access from ID = 3" "Denied,Granted"
textline "                     "
bitfld.long 0x18 12. " AID2    ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x18 11. "      AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x18 10. "     AID0   ,Controls access from ID = 0" "Denied,Granted"
textline "                     "
bitfld.long 0x18 9. " AIDX    ,Controls access from ID>=6" "Denied,Granted"
bitfld.long 0x18 8. "      LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                     "
bitfld.long 0x18 5. " SR      ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x18 4. "   SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x18 3. "  SX     ,Supervisor execute access type" "Normal,Supervisor"
textline "                     "
bitfld.long 0x18 2. " UR      ,User read access type" "Normal,User"
bitfld.long 0x18 1. "       UW    ,User write access type" "Normal,User"
bitfld.long 0x18 0. "      UX     ,User execute access type" "Normal,User"
line.long 0x1C "L1PMPPA23,Level 1 Memory Page Protection Attribute Register 23"
bitfld.long 0x1C 15. " AID5    ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x1C 14. "      AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x1C 13. "     AID3   ,Controls access from ID = 3" "Denied,Granted"
textline "                     "
bitfld.long 0x1C 12. " AID2    ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x1C 11. "      AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x1C 10. "     AID0   ,Controls access from ID = 0" "Denied,Granted"
textline "                     "
bitfld.long 0x1C 9. " AIDX    ,Controls access from ID>=6" "Denied,Granted"
bitfld.long 0x1C 8. "      LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                     "
bitfld.long 0x1C 5. " SR      ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x1C 4. "   SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x1C 3. "  SX     ,Supervisor execute access type" "Normal,Supervisor"
textline "                     "
bitfld.long 0x1C 2. " UR      ,User read access type" "Normal,User"
bitfld.long 0x1C 1. "       UW    ,User write access type" "Normal,User"
bitfld.long 0x1C 0. "      UX     ,User execute access type" "Normal,User"
line.long 0x20 "L1PMPPA24,Level 1 Memory Page Protection Attribute Register 24"
bitfld.long 0x20 15. " AID5    ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x20 14. "      AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x20 13. "     AID3   ,Controls access from ID = 3" "Denied,Granted"
textline "                     "
bitfld.long 0x20 12. " AID2    ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x20 11. "      AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x20 10. "     AID0   ,Controls access from ID = 0" "Denied,Granted"
textline "                     "
bitfld.long 0x20 9. " AIDX    ,Controls access from ID>=6" "Denied,Granted"
bitfld.long 0x20 8. "      LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                     "
bitfld.long 0x20 5. " SR      ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x20 4. "   SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x20 3. "  SX     ,Supervisor execute access type" "Normal,Supervisor"
textline "                     "
bitfld.long 0x20 2. " UR      ,User read access type" "Normal,User"
bitfld.long 0x20 1. "       UW    ,User write access type" "Normal,User"
bitfld.long 0x20 0. "      UX     ,User execute access type" "Normal,User"
line.long 0x24 "L1PMPPA25,Level 1 Memory Page Protection Attribute Register 25"
bitfld.long 0x24 15. " AID5    ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x24 14. "      AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x24 13. "     AID3   ,Controls access from ID = 3" "Denied,Granted"
textline "                     "
bitfld.long 0x24 12. " AID2    ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x24 11. "      AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x24 10. "     AID0   ,Controls access from ID = 0" "Denied,Granted"
textline "                     "
bitfld.long 0x24 9. " AIDX    ,Controls access from ID>=6" "Denied,Granted"
bitfld.long 0x24 8. "      LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                     "
bitfld.long 0x24 5. " SR      ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x24 4. "   SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x24 3. "  SX     ,Supervisor execute access type" "Normal,Supervisor"
textline "                     "
bitfld.long 0x24 2. " UR      ,User read access type" "Normal,User"
bitfld.long 0x24 1. "       UW    ,User write access type" "Normal,User"
bitfld.long 0x24 0. "      UX     ,User execute access type" "Normal,User"
line.long 0x28 "L1PMPPA26,Level 1 Memory Page Protection Attribute Register 26"
bitfld.long 0x28 15. " AID5    ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x28 14. "      AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x28 13. "     AID3   ,Controls access from ID = 3" "Denied,Granted"
textline "                     "
bitfld.long 0x28 12. " AID2    ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x28 11. "      AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x28 10. "     AID0   ,Controls access from ID = 0" "Denied,Granted"
textline "                     "
bitfld.long 0x28 9. " AIDX    ,Controls access from ID>=6" "Denied,Granted"
bitfld.long 0x28 8. "      LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                     "
bitfld.long 0x28 5. " SR      ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x28 4. "   SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x28 3. "  SX     ,Supervisor execute access type" "Normal,Supervisor"
textline "                     "
bitfld.long 0x28 2. " UR      ,User read access type" "Normal,User"
bitfld.long 0x28 1. "       UW    ,User write access type" "Normal,User"
bitfld.long 0x28 0. "      UX     ,User execute access type" "Normal,User"
line.long 0x2C "L1PMPPA27,Level 1 Memory Page Protection Attribute Register 27"
bitfld.long 0x2C 15. " AID5    ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x2C 14. "      AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x2C 13. "     AID3   ,Controls access from ID = 3" "Denied,Granted"
textline "                     "
bitfld.long 0x2C 12. " AID2    ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x2C 11. "      AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x2C 10. "     AID0   ,Controls access from ID = 0" "Denied,Granted"
textline "                     "
bitfld.long 0x2C 9. " AIDX    ,Controls access from ID>=6" "Denied,Granted"
bitfld.long 0x2C 8. "      LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                     "
bitfld.long 0x2C 5. " SR      ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x2C 4. "   SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x2C 3. "  SX     ,Supervisor execute access type" "Normal,Supervisor"
textline "                     "
bitfld.long 0x2C 2. " UR      ,User read access type" "Normal,User"
bitfld.long 0x2C 1. "       UW    ,User write access type" "Normal,User"
bitfld.long 0x2C 0. "      UX     ,User execute access type" "Normal,User"
line.long 0x30 "L1PMPPA28,Level 1 Memory Page Protection Attribute Register 28"
bitfld.long 0x30 15. " AID5    ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x30 14. "      AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x30 13. "     AID3   ,Controls access from ID = 3" "Denied,Granted"
textline "                     "
bitfld.long 0x30 12. " AID2    ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x30 11. "      AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x30 10. "     AID0   ,Controls access from ID = 0" "Denied,Granted"
textline "                     "
bitfld.long 0x30 9. " AIDX    ,Controls access from ID>=6" "Denied,Granted"
bitfld.long 0x30 8. "      LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                     "
bitfld.long 0x30 5. " SR      ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x30 4. "   SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x30 3. "  SX     ,Supervisor execute access type" "Normal,Supervisor"
textline "                     "
bitfld.long 0x30 2. " UR      ,User read access type" "Normal,User"
bitfld.long 0x30 1. "       UW    ,User write access type" "Normal,User"
bitfld.long 0x30 0. "      UX     ,User execute access type" "Normal,User"
line.long 0x34 "L1PMPPA29,Level 1 Memory Page Protection Attribute Register 29"
bitfld.long 0x34 15. " AID5    ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x34 14. "      AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x34 13. "     AID3   ,Controls access from ID = 3" "Denied,Granted"
textline "                     "
bitfld.long 0x34 12. " AID2    ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x34 11. "      AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x34 10. "     AID0   ,Controls access from ID = 0" "Denied,Granted"
textline "                     "
bitfld.long 0x34 9. " AIDX    ,Controls access from ID>=6" "Denied,Granted"
bitfld.long 0x34 8. "      LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                     "
bitfld.long 0x34 5. " SR      ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x34 4. "   SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x34 3. "  SX     ,Supervisor execute access type" "Normal,Supervisor"
textline "                     "
bitfld.long 0x34 2. " UR      ,User read access type" "Normal,User"
bitfld.long 0x34 1. "       UW    ,User write access type" "Normal,User"
bitfld.long 0x34 0. "      UX     ,User execute access type" "Normal,User"
line.long 0x38 "L1PMPPA30,Level 1 Memory Page Protection Attribute Register 30"
bitfld.long 0x38 15. " AID5    ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x38 14. "      AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x38 13. "     AID3   ,Controls access from ID = 3" "Denied,Granted"
textline "                     "
bitfld.long 0x38 12. " AID2    ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x38 11. "      AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x38 10. "     AID0   ,Controls access from ID = 0" "Denied,Granted"
textline "                     "
bitfld.long 0x38 9. " AIDX    ,Controls access from ID>=6" "Denied,Granted"
bitfld.long 0x38 8. "      LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                     "
bitfld.long 0x38 5. " SR      ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x38 4. "   SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x38 3. "  SX     ,Supervisor execute access type" "Normal,Supervisor"
textline "                     "
bitfld.long 0x38 2. " UR      ,User read access type" "Normal,User"
bitfld.long 0x38 1. "       UW    ,User write access type" "Normal,User"
bitfld.long 0x38 0. "      UX     ,User execute access type" "Normal,User"
line.long 0x3C "L1PMPPA31,Level 1 Memory Page Protection Attribute Register 31"
bitfld.long 0x3C 15. " AID5    ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x3C 14. "      AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x3C 13. "     AID3   ,Controls access from ID = 3" "Denied,Granted"
textline "                     "
bitfld.long 0x3C 12. " AID2    ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x3C 11. "      AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x3C 10. "     AID0   ,Controls access from ID = 0" "Denied,Granted"
textline "                     "
bitfld.long 0x3C 9. " AIDX    ,Controls access from ID>=6" "Denied,Granted"
bitfld.long 0x3C 8. "      LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                     "
bitfld.long 0x3C 5. " SR      ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x3C 4. "   SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x3C 3. "  SX     ,Supervisor execute access type" "Normal,Supervisor"
textline "                     "
bitfld.long 0x3C 2. " UR      ,User read access type" "Normal,User"
bitfld.long 0x3C 1. "       UW    ,User write access type" "Normal,User"
bitfld.long 0x3C 0. "      UX     ,User execute access type" "Normal,User"
tree.end
width 11.
rgroup.long 0x400++0x7 "Memory Protection Fault Registers"
line.long 0x00 "L1PMPFAR,L1P Memory Protection Fault Address"
hexmask.long 0x00 0.--31. 1. " FA     ,Fault Address"
line.long 0x04 "L1PMPFSR,L1P Memory Protection Fault Set Register"
hexmask.long.byte 0x04 9.--15. 1. " FID    ,Bit 6:0 of faulting requestor"
bitfld.long 0x04 8. "         LOCAL ,Local access" "Normal,Local"
bitfld.long 0x04 5. "  SR ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x04 4. "  SW ,Supervisor write access type" "Normal,Supervisor"
textline "                    "
bitfld.long 0x04 2. " UR     ,User read access type" "Normal,User"
bitfld.long 0x04 1. "     UW    ,User write access type" "Normal,User"
group.long 0x408++0x3
line.long 0x00 "L1PMPFCLR,L1P Memory Protection Fault Clear"
bitfld.long 0x00 0. " MPFCLR ,Command to clear the L1DMPFAR and L1DMPFCR" "No effect,Clear"
AUTOINDENT.ON right tree
rgroup.long 0x6404++0x3 "Error Detection Registers"
line.long 0x0 "L1PEDSTAT,L1P Error Detection Status Register"
bitfld.long 0x0  6. "DMAERR,DMA/IDMA access to L1P memory resulted in parity check error" "False,True"
bitfld.long 0x0  5. "PERR,Program fetch resulted in parity check error" "False,True"
bitfld.long 0x0  3. "SUSP,Error detection logic is suspended" "False,True"
bitfld.long 0x0  2. "DIS,Error detection logic is disabled" "False,True"
bitfld.long 0x0  0. "EN,Error detection logic is enabled" "False,True"
group.long 0x6408++0x3
line.long 0x0 "L1PEDCMD, L1P Error Detection Command Register"
bitfld.long 0x0  6. "DMACLR,Clears the DMA/IDMA read parity error status" "No effect,Clear"
bitfld.long 0x0  5. "PCLR,Clears the program fetch parity error status" "No effect,Clear"
bitfld.long 0x0  3. "SUSP,Suspends the error detection logic" "No effect,Suspend"
bitfld.long 0x0  2. "DIS,Disables the error detection logic" "No effect,Disable"
bitfld.long 0x0  0. "EN,Enables the error detection logic" "No effect,Enable"
rgroup.long 0x640C++0x3
line.long 0x0 "L1PEDADDR, L1P Error Detection Address Register"
hexmask.long.long 0x0   5.--31. 32. "ADDR,Contains the upper 27 bit of error location"
bitfld.long       0x0        0.     "RAM,Location where error was detected" "L1P cache,L1P RAM"
AUTOINDENT.OFF
width 0xb
tree.end
tree "L1D Cache"
base d:0x01840000
width 10.
group.long 0x40++0x7 "L1D Cache Control Registers"
line.long 0x00 "L1DCFG,L1D Cache Configuration"
bitfld.long 0x00 0.--2. " L1DMODE  ,Size of the L1D cache" "Disabled,4K,8K,16K,32K,Maximal,Maximal,Maximal"
line.long 0x04 "L1DCC,L1D Cache Control Register"
bitfld.long 0x04 16. " POPER    ,Holds the previous value of the OPER field" "0,1"
bitfld.long 0x04 0. "             OPER ,Controls the L1D freeze mode" "Disabled,Enabled"
wgroup.long 0x4030++0x3
line.long 0x00 "L1DWIBAR,L1D Writeback-Invalidated Base Address"
hexmask.long 0x00 0.--31. 1. " L1DWIBAR ,L1D Writeback-Invalidated Base Address"
group.long 0x4034++0x3
line.long 0x00 "L1DWIWC,L1D Writeback-Invalidated Word Count"
hexmask.long.word 0x00 0.--15. 1. " L1DWIWC  ,L1D Writeback-Invalidated Word Count"
wgroup.long 0x4040++0x3
line.long 0x00 "L1DWBAR,L1D Writeback Base Address"
hexmask.long 0x00 0.--31. 1. " L1DWBAR  ,L1D Writeback Base Address"
group.long 0x4044++0x3
line.long 0x00 "L1DWWC,L1D Writeback Word Count"
hexmask.long.word 0x00 0.--15. 1. " L1DWWC   ,L1D Writeback Word Count"
wgroup.long 0x4048++0x3
line.long 0x00 "L1DIBAR,L1D Invalidate Base Address"
hexmask.long 0x00 0.--31. 1. " L1DIBAR  ,L1D Invalidate Base Address"
group.long 0x404c++0x3
line.long 0x00 "L1DIWC,L1D Invalidate Word Count"
hexmask.long.word 0x00 0.--15. 1. " L1DIWC   ,L1D Invalidate Word Count"
group.long 0x5048++0x3
line.long 0x00 "L1DINV,L1D Invalidate Register"
bitfld.long 0x00 0. " I        ,Controls the global invalidation of L1D cache" "Normal,Invalidate"
group.long 0x5040++0x3
line.long 0x00 "L1DWB,L1P Writeback Register"
bitfld.long 0x00 0. " C        ,Controls the global writeback operation of L1D cache" "Normal,Write back"
group.long 0x5044++0x3
line.long 0x00 "L1DWBINV,L1D Writeback-Invalidate Register"
bitfld.long 0x00 0. " C        ,Controls the global writeback-invalidate operation of L1D cache" "Normal,Invalidate"
width 11.
base d:0x0184a000
tree "Memory Protection Attribute Registers"
group.long 0xe40++0x3f
line.long 0x0 "MPPA16,Memory Protection Attribute Register"
bitfld.long 0x0 15. " AID5     ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x0 14. "       AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x0 13. "     AID3   ,Controls access from ID = 3 " "Denied,Granted"
textline "                    "
bitfld.long 0x0 12. " AID2     ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x0 11. "       AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x0 10. "     AID0   ,Controls access from ID = 0" "Denied,Granted"
textline "                    "
bitfld.long 0x0 9. " AIDX     ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x0 8. "       LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                    "
bitfld.long 0x0 4. " SW       ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x0 5. "    SR    ,Supervisor read access type" "Normal,Supervisor"
textline "                    "
bitfld.long 0x0 2. " UR       ,User read access type" "Normal,User"
bitfld.long 0x0 1. "        UW    ,User write access type" "Normal,User"
line.long 0x4 "MPPA17,Memory Protection Attribute Register"
bitfld.long 0x4 15. " AID5     ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x4 14. "       AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x4 13. "     AID3   ,Controls access from ID = 3 " "Denied,Granted"
textline "                    "
bitfld.long 0x4 12. " AID2     ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x4 11. "       AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x4 10. "     AID0   ,Controls access from ID = 0" "Denied,Granted"
textline "                    "
bitfld.long 0x4 9. " AIDX     ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x4 8. "       LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                    "
bitfld.long 0x4 4. " SW       ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x4 5. "    SR    ,Supervisor read access type" "Normal,Supervisor"
textline "                    "
bitfld.long 0x4 2. " UR       ,User read access type" "Normal,User"
bitfld.long 0x4 1. "        UW    ,User write access type" "Normal,User"
line.long 0x8 "MPPA18,Memory Protection Attribute Register"
bitfld.long 0x8 15. " AID5     ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x8 14. "       AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x8 13. "     AID3   ,Controls access from ID = 3 " "Denied,Granted"
textline "                    "
bitfld.long 0x8 12. " AID2     ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x8 11. "       AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x8 10. "     AID0   ,Controls access from ID = 0" "Denied,Granted"
textline "                    "
bitfld.long 0x8 9. " AIDX     ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x8 8. "       LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                    "
bitfld.long 0x8 4. " SW       ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x8 5. "    SR    ,Supervisor read access type" "Normal,Supervisor"
textline "                    "
bitfld.long 0x8 2. " UR       ,User read access type" "Normal,User"
bitfld.long 0x8 1. "        UW    ,User write access type" "Normal,User"
line.long 0xC "MPPA19,Memory Protection Attribute Register"
bitfld.long 0xC 15. " AID5     ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0xC 14. "       AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0xC 13. "     AID3   ,Controls access from ID = 3 " "Denied,Granted"
textline "                    "
bitfld.long 0xC 12. " AID2     ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0xC 11. "       AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0xC 10. "     AID0   ,Controls access from ID = 0" "Denied,Granted"
textline "                    "
bitfld.long 0xC 9. " AIDX     ,Controls ID >=6" "Denied,Granted"
bitfld.long 0xC 8. "       LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                    "
bitfld.long 0xC 4. " SW       ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0xC 5. "    SR    ,Supervisor read access type" "Normal,Supervisor"
textline "                    "
bitfld.long 0xC 2. " UR       ,User read access type" "Normal,User"
bitfld.long 0xC 1. "        UW    ,User write access type" "Normal,User"
line.long 0x10 "MPPA20,Memory Protection Attribute Register"
bitfld.long 0x10 15. " AID5     ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x10 14. "       AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x10 13. "     AID3   ,Controls access from ID = 3 " "Denied,Granted"
textline "                    "
bitfld.long 0x10 12. " AID2     ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x10 11. "       AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x10 10. "     AID0   ,Controls access from ID = 0" "Denied,Granted"
textline "                    "
bitfld.long 0x10 9. " AIDX     ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x10 8. "       LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                    "
bitfld.long 0x10 4. " SW       ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x10 5. "    SR    ,Supervisor read access type" "Normal,Supervisor"
textline "                    "
bitfld.long 0x10 2. " UR       ,User read access type" "Normal,User"
bitfld.long 0x10 1. "        UW    ,User write access type" "Normal,User"
line.long 0x14 "MPPA21,Memory Protection Attribute Register"
bitfld.long 0x14 15. " AID5     ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x14 14. "       AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x14 13. "     AID3   ,Controls access from ID = 3 " "Denied,Granted"
textline "                    "
bitfld.long 0x14 12. " AID2     ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x14 11. "       AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x14 10. "     AID0   ,Controls access from ID = 0" "Denied,Granted"
textline "                    "
bitfld.long 0x14 9. " AIDX     ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x14 8. "       LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                    "
bitfld.long 0x14 4. " SW       ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x14 5. "    SR    ,Supervisor read access type" "Normal,Supervisor"
textline "                    "
bitfld.long 0x14 2. " UR       ,User read access type" "Normal,User"
bitfld.long 0x14 1. "        UW    ,User write access type" "Normal,User"
line.long 0x18 "MPPA22,Memory Protection Attribute Register"
bitfld.long 0x18 15. " AID5     ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x18 14. "       AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x18 13. "     AID3   ,Controls access from ID = 3 " "Denied,Granted"
textline "                    "
bitfld.long 0x18 12. " AID2     ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x18 11. "       AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x18 10. "     AID0   ,Controls access from ID = 0" "Denied,Granted"
textline "                    "
bitfld.long 0x18 9. " AIDX     ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x18 8. "       LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                    "
bitfld.long 0x18 4. " SW       ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x18 5. "    SR    ,Supervisor read access type" "Normal,Supervisor"
textline "                    "
bitfld.long 0x18 2. " UR       ,User read access type" "Normal,User"
bitfld.long 0x18 1. "        UW    ,User write access type" "Normal,User"
line.long 0x1C "MPPA23,Memory Protection Attribute Register"
bitfld.long 0x1C 15. " AID5     ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x1C 14. "       AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x1C 13. "     AID3   ,Controls access from ID = 3 " "Denied,Granted"
textline "                    "
bitfld.long 0x1C 12. " AID2     ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x1C 11. "       AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x1C 10. "     AID0   ,Controls access from ID = 0" "Denied,Granted"
textline "                    "
bitfld.long 0x1C 9. " AIDX     ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x1C 8. "       LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                    "
bitfld.long 0x1C 4. " SW       ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x1C 5. "    SR    ,Supervisor read access type" "Normal,Supervisor"
textline "                    "
bitfld.long 0x1C 2. " UR       ,User read access type" "Normal,User"
bitfld.long 0x1C 1. "        UW    ,User write access type" "Normal,User"
line.long 0x20 "MPPA24,Memory Protection Attribute Register"
bitfld.long 0x20 15. " AID5     ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x20 14. "       AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x20 13. "     AID3   ,Controls access from ID = 3 " "Denied,Granted"
textline "                    "
bitfld.long 0x20 12. " AID2     ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x20 11. "       AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x20 10. "     AID0   ,Controls access from ID = 0" "Denied,Granted"
textline "                    "
bitfld.long 0x20 9. " AIDX     ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x20 8. "       LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                    "
bitfld.long 0x20 4. " SW       ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x20 5. "    SR    ,Supervisor read access type" "Normal,Supervisor"
textline "                    "
bitfld.long 0x20 2. " UR       ,User read access type" "Normal,User"
bitfld.long 0x20 1. "        UW    ,User write access type" "Normal,User"
line.long 0x24 "MPPA25,Memory Protection Attribute Register"
bitfld.long 0x24 15. " AID5     ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x24 14. "       AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x24 13. "     AID3   ,Controls access from ID = 3 " "Denied,Granted"
textline "                    "
bitfld.long 0x24 12. " AID2     ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x24 11. "       AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x24 10. "     AID0   ,Controls access from ID = 0" "Denied,Granted"
textline "                    "
bitfld.long 0x24 9. " AIDX     ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x24 8. "       LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                    "
bitfld.long 0x24 4. " SW       ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x24 5. "    SR    ,Supervisor read access type" "Normal,Supervisor"
textline "                    "
bitfld.long 0x24 2. " UR       ,User read access type" "Normal,User"
bitfld.long 0x24 1. "        UW    ,User write access type" "Normal,User"
line.long 0x28 "MPPA26,Memory Protection Attribute Register"
bitfld.long 0x28 15. " AID5     ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x28 14. "       AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x28 13. "     AID3   ,Controls access from ID = 3 " "Denied,Granted"
textline "                    "
bitfld.long 0x28 12. " AID2     ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x28 11. "       AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x28 10. "     AID0   ,Controls access from ID = 0" "Denied,Granted"
textline "                    "
bitfld.long 0x28 9. " AIDX     ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x28 8. "       LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                    "
bitfld.long 0x28 4. " SW       ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x28 5. "    SR    ,Supervisor read access type" "Normal,Supervisor"
textline "                    "
bitfld.long 0x28 2. " UR       ,User read access type" "Normal,User"
bitfld.long 0x28 1. "        UW    ,User write access type" "Normal,User"
line.long 0x2C "MPPA27,Memory Protection Attribute Register"
bitfld.long 0x2C 15. " AID5     ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x2C 14. "       AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x2C 13. "     AID3   ,Controls access from ID = 3 " "Denied,Granted"
textline "                    "
bitfld.long 0x2C 12. " AID2     ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x2C 11. "       AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x2C 10. "     AID0   ,Controls access from ID = 0" "Denied,Granted"
textline "                    "
bitfld.long 0x2C 9. " AIDX     ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x2C 8. "       LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                    "
bitfld.long 0x2C 4. " SW       ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x2C 5. "    SR    ,Supervisor read access type" "Normal,Supervisor"
textline "                    "
bitfld.long 0x2C 2. " UR       ,User read access type" "Normal,User"
bitfld.long 0x2C 1. "        UW    ,User write access type" "Normal,User"
line.long 0x30 "MPPA28,Memory Protection Attribute Register"
bitfld.long 0x30 15. " AID5     ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x30 14. "       AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x30 13. "     AID3   ,Controls access from ID = 3 " "Denied,Granted"
textline "                    "
bitfld.long 0x30 12. " AID2     ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x30 11. "       AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x30 10. "     AID0   ,Controls access from ID = 0" "Denied,Granted"
textline "                    "
bitfld.long 0x30 9. " AIDX     ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x30 8. "       LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                    "
bitfld.long 0x30 4. " SW       ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x30 5. "    SR    ,Supervisor read access type" "Normal,Supervisor"
textline "                    "
bitfld.long 0x30 2. " UR       ,User read access type" "Normal,User"
bitfld.long 0x30 1. "        UW    ,User write access type" "Normal,User"
line.long 0x34 "MPPA29,Memory Protection Attribute Register"
bitfld.long 0x34 15. " AID5     ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x34 14. "       AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x34 13. "     AID3   ,Controls access from ID = 3 " "Denied,Granted"
textline "                    "
bitfld.long 0x34 12. " AID2     ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x34 11. "       AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x34 10. "     AID0   ,Controls access from ID = 0" "Denied,Granted"
textline "                    "
bitfld.long 0x34 9. " AIDX     ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x34 8. "       LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                    "
bitfld.long 0x34 4. " SW       ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x34 5. "    SR    ,Supervisor read access type" "Normal,Supervisor"
textline "                    "
bitfld.long 0x34 2. " UR       ,User read access type" "Normal,User"
bitfld.long 0x34 1. "        UW    ,User write access type" "Normal,User"
line.long 0x38 "MPPA30,Memory Protection Attribute Register"
bitfld.long 0x38 15. " AID5     ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x38 14. "       AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x38 13. "     AID3   ,Controls access from ID = 3 " "Denied,Granted"
textline "                    "
bitfld.long 0x38 12. " AID2     ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x38 11. "       AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x38 10. "     AID0   ,Controls access from ID = 0" "Denied,Granted"
textline "                    "
bitfld.long 0x38 9. " AIDX     ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x38 8. "       LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                    "
bitfld.long 0x38 4. " SW       ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x38 5. "    SR    ,Supervisor read access type" "Normal,Supervisor"
textline "                    "
bitfld.long 0x38 2. " UR       ,User read access type" "Normal,User"
bitfld.long 0x38 1. "        UW    ,User write access type" "Normal,User"
line.long 0x3C "MPPA31,Memory Protection Attribute Register"
bitfld.long 0x3C 15. " AID5     ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x3C 14. "       AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x3C 13. "     AID3   ,Controls access from ID = 3 " "Denied,Granted"
textline "                    "
bitfld.long 0x3C 12. " AID2     ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x3C 11. "       AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x3C 10. "     AID0   ,Controls access from ID = 0" "Denied,Granted"
textline "                    "
bitfld.long 0x3C 9. " AIDX     ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x3C 8. "       LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                    "
bitfld.long 0x3C 4. " SW       ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x3C 5. "    SR    ,Supervisor read access type" "Normal,Supervisor"
textline "                    "
bitfld.long 0x3C 2. " UR       ,User read access type" "Normal,User"
bitfld.long 0x3C 1. "        UW    ,User write access type" "Normal,User"
tree.end
base d:0x0184a000
width 10.
rgroup.long 0xc00++0x7 "Memory Protection Fault Registers"
line.long 0x00 "L1DMPFAR,Memory Protection Fault Address Register"
hexmask.long 0x00 0.--31. 1. " FA     ,Fault Address"
line.long 0x04 "L1DMPFSR,Memory Protection Fault Set Register"
hexmask.long.byte 0x04 9.--15. 1. " FID    ,Bit 6:0 of ID of faulting requestor"
bitfld.long 0x04 8. "          LOCAL ,Local access" "Normal,Supervisor"
bitfld.long 0x04 5. "  SR ,Supervisor read access type" "Normal,Supervisor"
textline "                   "
bitfld.long 0x04 4. " SW     ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x04 2. "  UR    ,User read access type" "Normal,User"
bitfld.long 0x04 1. "      UW ,User write access type" "Normal,User"
group.long 0xc08++0x3
line.long 0x00 "L1DMPFCR,Memory Protection Fault Clear Register"
eventfld.long 0x00 0. " MPFCLR ,Clear L1DMPFAR and L1DMPFCR" "No effect,Cleared"
width 13.
wgroup.long 0xd00++0xf "Memory Protection Lock Registers"
line.long 0x00 "L1DMPLK0,Level 1 Data Memory Protection Lock Register 0"
hexmask.long 0x00 0.--31. 1. " LB   ,Lock Bits 31:0"
line.long 0x04 "L1DMPLK1,Level 1 Data Memory Protection Lock Register 1"
hexmask.long 0x04 0.--31. 1. " LB   ,Lock Bits 63:32"
line.long 0x08 "L1DMPLK2,Level 1 Data Memory Protection Lock Register 2"
line.long 0x0c "L1DMPLK3,Level 1 Data Memory Protection Lock Register 3"
wgroup.long 0xd10++0x3
line.long 0x00 "L1DMPLKCMD,Level 1 Data Memory Protection Lock Command Register"
bitfld.long 0x00 2. " KEYR ,Reset status" "No effect,Reset"
bitfld.long 0x00 1. "   LOCK ,Interface to complete a lock sequence" "No effect,Locked"
bitfld.long 0x00 0. "  UNLOCK ,Interface to complete an unlock sequence" "No effect,Unlocked"
rgroup.long 0xd14++0x3
line.long 0x00 "L1DMPLKSTAT,Level 1 Data Memory Protection Lock Status Register"
bitfld.long 0x00 0. " LK   ,Indicates the lock's current status" "Disengaged,Engaged"
width 0xb
tree.end
tree "L2 Cache"
base d:0x01840000
width 9.
group.long 0x00++0x3 "L2 Cache Control Registers"
line.long 0x00 "L2CFG,L2 Configuration Register"
hexmask.long.byte 0x00 24.--27. 1. " NUM_MM  ,Number of megamodules minus one"
hexmask.long.byte 0x00 16.--19. 1. "           MMID  ,Contains the Megamodule ID number"
bitfld.long 0x00 9. "          IP     ,L1P global invalidate bit" "Normal,Invalidate"
textline "                  "
bitfld.long 0x00 8. " ID      ,L1D global invalidate bit" "Normal,Invalidate"
bitfld.long 0x00 3. "   L2CC  ,Freeze mode" "Normal,Frozen"
bitfld.long 0x00 0.--2. "      L2MODE ,Size of L2 cache" "Disabled,32K,64K,128K,256K,512K,1024K,Maximum"
wgroup.long 0x4000++0x3
line.long 0x00 "L2WBAR,L2 Writeback Base Address Register"
hexmask.long 0x00 0.--31. 1. " L2WBAR  ,L2 Writeback Base Address"
group.long 0x4004++0x3
line.long 0x00 "L2WWC,L2 Writeback Word Count Register"
hexmask.long.word 0x00 0.--15. 1. " L2WWC   ,L2 Writeback Word Count"
wgroup.long 0x4010++0x3
line.long 0x00 "L2WIBAR,L2 Writeback-Invalidate Base Address"
hexmask.long 0x00 0.--31. 1. " L2WIBAR ,L2 Writeback Invalidate Base Address"
group.long 0x4014++0x3
line.long 0x00 "L2WIWC,L2 Writeback Invalidate Word Count Register"
hexmask.long.word 0x00 0.--15. 1. " L2WIWC  ,L2 Writeback Invalidate Word Count"
wgroup.long 0x4018++0x3
line.long 0x00 "L2IBAR,L2 Invalidate Base Address Register"
hexmask.long 0x00 0.--31. 1. " L2IBAR  ,L2 Invalidate Base Address"
group.long 0x401c++0x3
line.long 0x00 "L2IWC,L2 Invalidate Word Count Register"
hexmask.long.word 0x00 0.--15. 1. " L2IWC   ,L2 Invalidate Word Count"
group.long 0x5000++0xb
line.long 0x00 "L2WB,L2 Writeback Register"
bitfld.long 0x00 0. " C       ,Controls the global writeback operation of L2 cache" "Normal,Writeback"
line.long 0x04 "L2WBINV,L2 Writeback-Invalidate Register"
bitfld.long 0x04 0. " C       ,Controls the global writeback-invalidate operation of L2 cache" "Normal,Writeback"
line.long 0x08 "L2INV,L2 Invalidate Register"
bitfld.long 0x08 0. " I       ,Controls the global invalidation of L2 cache" "Normal,Invalidate"
tree "Memory Attribute Registers"
width 8.
base d:0x01848000
rgroup.long 0x00++0x2f
line.long 0x0 "MAR0,Memory Attribute Register 0"
bitfld.long 0x0 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x0 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x4 "MAR1,Memory Attribute Register 1"
bitfld.long 0x4 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x4 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x8 "MAR2,Memory Attribute Register 2"
bitfld.long 0x8 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x8 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0xC "MAR3,Memory Attribute Register 3"
bitfld.long 0xC 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0xC 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x10 "MAR4,Memory Attribute Register 4"
bitfld.long 0x10 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x10 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x14 "MAR5,Memory Attribute Register 5"
bitfld.long 0x14 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x14 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x18 "MAR6,Memory Attribute Register 6"
bitfld.long 0x18 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x18 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x1C "MAR7,Memory Attribute Register 7"
bitfld.long 0x1C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x1C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x20 "MAR8,Memory Attribute Register 8"
bitfld.long 0x20 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x20 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x24 "MAR9,Memory Attribute Register 9"
bitfld.long 0x24 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x24 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x28 "MAR10,Memory Attribute Register 10"
bitfld.long 0x28 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x28 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x2C "MAR11,Memory Attribute Register 11"
bitfld.long 0x2C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x2C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
group.long 0x30++0x3cf
line.long 0x0 "MAR12,Memory Attribute Register 12"
bitfld.long 0x0 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x0 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x4 "MAR13,Memory Attribute Register 13"
bitfld.long 0x4 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x4 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x8 "MAR14,Memory Attribute Register 14"
bitfld.long 0x8 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x8 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0xC "MAR15,Memory Attribute Register 15"
bitfld.long 0xC 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0xC 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x10 "MAR16,Memory Attribute Register 16"
bitfld.long 0x10 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x10 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x14 "MAR17,Memory Attribute Register 17"
bitfld.long 0x14 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x14 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x18 "MAR18,Memory Attribute Register 18"
bitfld.long 0x18 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x18 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x1C "MAR19,Memory Attribute Register 19"
bitfld.long 0x1C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x1C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x20 "MAR20,Memory Attribute Register 20"
bitfld.long 0x20 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x20 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x24 "MAR21,Memory Attribute Register 21"
bitfld.long 0x24 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x24 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x28 "MAR22,Memory Attribute Register 22"
bitfld.long 0x28 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x28 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x2C "MAR23,Memory Attribute Register 23"
bitfld.long 0x2C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x2C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x30 "MAR24,Memory Attribute Register 24"
bitfld.long 0x30 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x30 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x34 "MAR25,Memory Attribute Register 25"
bitfld.long 0x34 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x34 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x38 "MAR26,Memory Attribute Register 26"
bitfld.long 0x38 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x38 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x3C "MAR27,Memory Attribute Register 27"
bitfld.long 0x3C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x3C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x40 "MAR28,Memory Attribute Register 28"
bitfld.long 0x40 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x40 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x44 "MAR29,Memory Attribute Register 29"
bitfld.long 0x44 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x44 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x48 "MAR30,Memory Attribute Register 30"
bitfld.long 0x48 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x48 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x4C "MAR31,Memory Attribute Register 31"
bitfld.long 0x4C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x4C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x50 "MAR32,Memory Attribute Register 32"
bitfld.long 0x50 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x50 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x54 "MAR33,Memory Attribute Register 33"
bitfld.long 0x54 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x54 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x58 "MAR34,Memory Attribute Register 34"
bitfld.long 0x58 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x58 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x5C "MAR35,Memory Attribute Register 35"
bitfld.long 0x5C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x5C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x60 "MAR36,Memory Attribute Register 36"
bitfld.long 0x60 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x60 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x64 "MAR37,Memory Attribute Register 37"
bitfld.long 0x64 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x64 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x68 "MAR38,Memory Attribute Register 38"
bitfld.long 0x68 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x68 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x6C "MAR39,Memory Attribute Register 39"
bitfld.long 0x6C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x6C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x70 "MAR40,Memory Attribute Register 40"
bitfld.long 0x70 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x70 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x74 "MAR41,Memory Attribute Register 41"
bitfld.long 0x74 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x74 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x78 "MAR42,Memory Attribute Register 42"
bitfld.long 0x78 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x78 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x7C "MAR43,Memory Attribute Register 43"
bitfld.long 0x7C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x7C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x80 "MAR44,Memory Attribute Register 44"
bitfld.long 0x80 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x80 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x84 "MAR45,Memory Attribute Register 45"
bitfld.long 0x84 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x84 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x88 "MAR46,Memory Attribute Register 46"
bitfld.long 0x88 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x88 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x8C "MAR47,Memory Attribute Register 47"
bitfld.long 0x8C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x8C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x90 "MAR48,Memory Attribute Register 48"
bitfld.long 0x90 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x90 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x94 "MAR49,Memory Attribute Register 49"
bitfld.long 0x94 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x94 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x98 "MAR50,Memory Attribute Register 50"
bitfld.long 0x98 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x98 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x9C "MAR51,Memory Attribute Register 51"
bitfld.long 0x9C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x9C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0xA0 "MAR52,Memory Attribute Register 52"
bitfld.long 0xA0 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0xA0 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0xA4 "MAR53,Memory Attribute Register 53"
bitfld.long 0xA4 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0xA4 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0xA8 "MAR54,Memory Attribute Register 54"
bitfld.long 0xA8 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0xA8 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0xAC "MAR55,Memory Attribute Register 55"
bitfld.long 0xAC 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0xAC 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0xB0 "MAR56,Memory Attribute Register 56"
bitfld.long 0xB0 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0xB0 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0xB4 "MAR57,Memory Attribute Register 57"
bitfld.long 0xB4 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0xB4 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0xB8 "MAR58,Memory Attribute Register 58"
bitfld.long 0xB8 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0xB8 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0xBC "MAR59,Memory Attribute Register 59"
bitfld.long 0xBC 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0xBC 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0xC0 "MAR60,Memory Attribute Register 60"
bitfld.long 0xC0 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0xC0 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0xC4 "MAR61,Memory Attribute Register 61"
bitfld.long 0xC4 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0xC4 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0xC8 "MAR62,Memory Attribute Register 62"
bitfld.long 0xC8 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0xC8 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0xCC "MAR63,Memory Attribute Register 63"
bitfld.long 0xCC 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0xCC 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0xD0 "MAR64,Memory Attribute Register 64"
bitfld.long 0xD0 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0xD0 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0xD4 "MAR65,Memory Attribute Register 65"
bitfld.long 0xD4 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0xD4 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0xD8 "MAR66,Memory Attribute Register 66"
bitfld.long 0xD8 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0xD8 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0xDC "MAR67,Memory Attribute Register 67"
bitfld.long 0xDC 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0xDC 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0xE0 "MAR68,Memory Attribute Register 68"
bitfld.long 0xE0 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0xE0 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0xE4 "MAR69,Memory Attribute Register 69"
bitfld.long 0xE4 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0xE4 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0xE8 "MAR70,Memory Attribute Register 70"
bitfld.long 0xE8 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0xE8 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0xEC "MAR71,Memory Attribute Register 71"
bitfld.long 0xEC 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0xEC 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0xF0 "MAR72,Memory Attribute Register 72"
bitfld.long 0xF0 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0xF0 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0xF4 "MAR73,Memory Attribute Register 73"
bitfld.long 0xF4 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0xF4 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0xF8 "MAR74,Memory Attribute Register 74"
bitfld.long 0xF8 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0xF8 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0xFC "MAR75,Memory Attribute Register 75"
bitfld.long 0xFC 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0xFC 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x100 "MAR76,Memory Attribute Register 76"
bitfld.long 0x100 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x100 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x104 "MAR77,Memory Attribute Register 77"
bitfld.long 0x104 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x104 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x108 "MAR78,Memory Attribute Register 78"
bitfld.long 0x108 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x108 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x10C "MAR79,Memory Attribute Register 79"
bitfld.long 0x10C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x10C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x110 "MAR80,Memory Attribute Register 80"
bitfld.long 0x110 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x110 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x114 "MAR81,Memory Attribute Register 81"
bitfld.long 0x114 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x114 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x118 "MAR82,Memory Attribute Register 82"
bitfld.long 0x118 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x118 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x11C "MAR83,Memory Attribute Register 83"
bitfld.long 0x11C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x11C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x120 "MAR84,Memory Attribute Register 84"
bitfld.long 0x120 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x120 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x124 "MAR85,Memory Attribute Register 85"
bitfld.long 0x124 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x124 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x128 "MAR86,Memory Attribute Register 86"
bitfld.long 0x128 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x128 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x12C "MAR87,Memory Attribute Register 87"
bitfld.long 0x12C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x12C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x130 "MAR88,Memory Attribute Register 88"
bitfld.long 0x130 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x130 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x134 "MAR89,Memory Attribute Register 89"
bitfld.long 0x134 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x134 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x138 "MAR90,Memory Attribute Register 90"
bitfld.long 0x138 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x138 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x13C "MAR91,Memory Attribute Register 91"
bitfld.long 0x13C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x13C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x140 "MAR92,Memory Attribute Register 92"
bitfld.long 0x140 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x140 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x144 "MAR93,Memory Attribute Register 93"
bitfld.long 0x144 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x144 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x148 "MAR94,Memory Attribute Register 94"
bitfld.long 0x148 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x148 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x14C "MAR95,Memory Attribute Register 95"
bitfld.long 0x14C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x14C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x150 "MAR96,Memory Attribute Register 96"
bitfld.long 0x150 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x150 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x154 "MAR97,Memory Attribute Register 97"
bitfld.long 0x154 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x154 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x158 "MAR98,Memory Attribute Register 98"
bitfld.long 0x158 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x158 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x15C "MAR99,Memory Attribute Register 99"
bitfld.long 0x15C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x15C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x160 "MAR100,Memory Attribute Register 100"
bitfld.long 0x160 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x160 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x164 "MAR101,Memory Attribute Register 101"
bitfld.long 0x164 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x164 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x168 "MAR102,Memory Attribute Register 102"
bitfld.long 0x168 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x168 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x16C "MAR103,Memory Attribute Register 103"
bitfld.long 0x16C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x16C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x170 "MAR104,Memory Attribute Register 104"
bitfld.long 0x170 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x170 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x174 "MAR105,Memory Attribute Register 105"
bitfld.long 0x174 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x174 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x178 "MAR106,Memory Attribute Register 106"
bitfld.long 0x178 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x178 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x17C "MAR107,Memory Attribute Register 107"
bitfld.long 0x17C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x17C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x180 "MAR108,Memory Attribute Register 108"
bitfld.long 0x180 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x180 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x184 "MAR109,Memory Attribute Register 109"
bitfld.long 0x184 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x184 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x188 "MAR110,Memory Attribute Register 110"
bitfld.long 0x188 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x188 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x18C "MAR111,Memory Attribute Register 111"
bitfld.long 0x18C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x18C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x190 "MAR112,Memory Attribute Register 112"
bitfld.long 0x190 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x190 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x194 "MAR113,Memory Attribute Register 113"
bitfld.long 0x194 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x194 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x198 "MAR114,Memory Attribute Register 114"
bitfld.long 0x198 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x198 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x19C "MAR115,Memory Attribute Register 115"
bitfld.long 0x19C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x19C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x1A0 "MAR116,Memory Attribute Register 116"
bitfld.long 0x1A0 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x1A0 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x1A4 "MAR117,Memory Attribute Register 117"
bitfld.long 0x1A4 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x1A4 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x1A8 "MAR118,Memory Attribute Register 118"
bitfld.long 0x1A8 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x1A8 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x1AC "MAR119,Memory Attribute Register 119"
bitfld.long 0x1AC 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x1AC 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x1B0 "MAR120,Memory Attribute Register 120"
bitfld.long 0x1B0 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x1B0 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x1B4 "MAR121,Memory Attribute Register 121"
bitfld.long 0x1B4 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x1B4 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x1B8 "MAR122,Memory Attribute Register 122"
bitfld.long 0x1B8 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x1B8 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x1BC "MAR123,Memory Attribute Register 123"
bitfld.long 0x1BC 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x1BC 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x1C0 "MAR124,Memory Attribute Register 124"
bitfld.long 0x1C0 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x1C0 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x1C4 "MAR125,Memory Attribute Register 125"
bitfld.long 0x1C4 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x1C4 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x1C8 "MAR126,Memory Attribute Register 126"
bitfld.long 0x1C8 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x1C8 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x1CC "MAR127,Memory Attribute Register 127"
bitfld.long 0x1CC 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x1CC 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x1D0 "MAR128,Memory Attribute Register 128"
bitfld.long 0x1D0 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x1D0 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x1D4 "MAR129,Memory Attribute Register 129"
bitfld.long 0x1D4 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x1D4 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x1D8 "MAR130,Memory Attribute Register 130"
bitfld.long 0x1D8 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x1D8 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x1DC "MAR131,Memory Attribute Register 131"
bitfld.long 0x1DC 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x1DC 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x1E0 "MAR132,Memory Attribute Register 132"
bitfld.long 0x1E0 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x1E0 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x1E4 "MAR133,Memory Attribute Register 133"
bitfld.long 0x1E4 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x1E4 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x1E8 "MAR134,Memory Attribute Register 134"
bitfld.long 0x1E8 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x1E8 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x1EC "MAR135,Memory Attribute Register 135"
bitfld.long 0x1EC 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x1EC 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x1F0 "MAR136,Memory Attribute Register 136"
bitfld.long 0x1F0 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x1F0 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x1F4 "MAR137,Memory Attribute Register 137"
bitfld.long 0x1F4 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x1F4 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x1F8 "MAR138,Memory Attribute Register 138"
bitfld.long 0x1F8 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x1F8 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x1FC "MAR139,Memory Attribute Register 139"
bitfld.long 0x1FC 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x1FC 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x200 "MAR140,Memory Attribute Register 140"
bitfld.long 0x200 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x200 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x204 "MAR141,Memory Attribute Register 141"
bitfld.long 0x204 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x204 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x208 "MAR142,Memory Attribute Register 142"
bitfld.long 0x208 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x208 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x20C "MAR143,Memory Attribute Register 143"
bitfld.long 0x20C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x20C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x210 "MAR144,Memory Attribute Register 144"
bitfld.long 0x210 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x210 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x214 "MAR145,Memory Attribute Register 145"
bitfld.long 0x214 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x214 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x218 "MAR146,Memory Attribute Register 146"
bitfld.long 0x218 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x218 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x21C "MAR147,Memory Attribute Register 147"
bitfld.long 0x21C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x21C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x220 "MAR148,Memory Attribute Register 148"
bitfld.long 0x220 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x220 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x224 "MAR149,Memory Attribute Register 149"
bitfld.long 0x224 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x224 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x228 "MAR150,Memory Attribute Register 150"
bitfld.long 0x228 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x228 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x22C "MAR151,Memory Attribute Register 151"
bitfld.long 0x22C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x22C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x230 "MAR152,Memory Attribute Register 152"
bitfld.long 0x230 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x230 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x234 "MAR153,Memory Attribute Register 153"
bitfld.long 0x234 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x234 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x238 "MAR154,Memory Attribute Register 154"
bitfld.long 0x238 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x238 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x23C "MAR155,Memory Attribute Register 155"
bitfld.long 0x23C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x23C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x240 "MAR156,Memory Attribute Register 156"
bitfld.long 0x240 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x240 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x244 "MAR157,Memory Attribute Register 157"
bitfld.long 0x244 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x244 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x248 "MAR158,Memory Attribute Register 158"
bitfld.long 0x248 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x248 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x24C "MAR159,Memory Attribute Register 159"
bitfld.long 0x24C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x24C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x250 "MAR160,Memory Attribute Register 160"
bitfld.long 0x250 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x250 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x254 "MAR161,Memory Attribute Register 161"
bitfld.long 0x254 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x254 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x258 "MAR162,Memory Attribute Register 162"
bitfld.long 0x258 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x258 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x25C "MAR163,Memory Attribute Register 163"
bitfld.long 0x25C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x25C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x260 "MAR164,Memory Attribute Register 164"
bitfld.long 0x260 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x260 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x264 "MAR165,Memory Attribute Register 165"
bitfld.long 0x264 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x264 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x268 "MAR166,Memory Attribute Register 166"
bitfld.long 0x268 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x268 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x26C "MAR167,Memory Attribute Register 167"
bitfld.long 0x26C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x26C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x270 "MAR168,Memory Attribute Register 168"
bitfld.long 0x270 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x270 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x274 "MAR169,Memory Attribute Register 169"
bitfld.long 0x274 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x274 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x278 "MAR170,Memory Attribute Register 170"
bitfld.long 0x278 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x278 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x27C "MAR171,Memory Attribute Register 171"
bitfld.long 0x27C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x27C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x280 "MAR172,Memory Attribute Register 172"
bitfld.long 0x280 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x280 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x284 "MAR173,Memory Attribute Register 173"
bitfld.long 0x284 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x284 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x288 "MAR174,Memory Attribute Register 174"
bitfld.long 0x288 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x288 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x28C "MAR175,Memory Attribute Register 175"
bitfld.long 0x28C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x28C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x290 "MAR176,Memory Attribute Register 176"
bitfld.long 0x290 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x290 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x294 "MAR177,Memory Attribute Register 177"
bitfld.long 0x294 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x294 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x298 "MAR178,Memory Attribute Register 178"
bitfld.long 0x298 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x298 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x29C "MAR179,Memory Attribute Register 179"
bitfld.long 0x29C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x29C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x2A0 "MAR180,Memory Attribute Register 180"
bitfld.long 0x2A0 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x2A0 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x2A4 "MAR181,Memory Attribute Register 181"
bitfld.long 0x2A4 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x2A4 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x2A8 "MAR182,Memory Attribute Register 182"
bitfld.long 0x2A8 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x2A8 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x2AC "MAR183,Memory Attribute Register 183"
bitfld.long 0x2AC 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x2AC 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x2B0 "MAR184,Memory Attribute Register 184"
bitfld.long 0x2B0 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x2B0 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x2B4 "MAR185,Memory Attribute Register 185"
bitfld.long 0x2B4 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x2B4 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x2B8 "MAR186,Memory Attribute Register 186"
bitfld.long 0x2B8 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x2B8 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x2BC "MAR187,Memory Attribute Register 187"
bitfld.long 0x2BC 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x2BC 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x2C0 "MAR188,Memory Attribute Register 188"
bitfld.long 0x2C0 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x2C0 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x2C4 "MAR189,Memory Attribute Register 189"
bitfld.long 0x2C4 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x2C4 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x2C8 "MAR190,Memory Attribute Register 190"
bitfld.long 0x2C8 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x2C8 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x2CC "MAR191,Memory Attribute Register 191"
bitfld.long 0x2CC 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x2CC 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x2D0 "MAR192,Memory Attribute Register 192"
bitfld.long 0x2D0 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x2D0 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x2D4 "MAR193,Memory Attribute Register 193"
bitfld.long 0x2D4 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x2D4 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x2D8 "MAR194,Memory Attribute Register 194"
bitfld.long 0x2D8 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x2D8 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x2DC "MAR195,Memory Attribute Register 195"
bitfld.long 0x2DC 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x2DC 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x2E0 "MAR196,Memory Attribute Register 196"
bitfld.long 0x2E0 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x2E0 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x2E4 "MAR197,Memory Attribute Register 197"
bitfld.long 0x2E4 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x2E4 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x2E8 "MAR198,Memory Attribute Register 198"
bitfld.long 0x2E8 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x2E8 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x2EC "MAR199,Memory Attribute Register 199"
bitfld.long 0x2EC 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x2EC 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x2F0 "MAR200,Memory Attribute Register 200"
bitfld.long 0x2F0 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x2F0 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x2F4 "MAR201,Memory Attribute Register 201"
bitfld.long 0x2F4 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x2F4 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x2F8 "MAR202,Memory Attribute Register 202"
bitfld.long 0x2F8 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x2F8 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x2FC "MAR203,Memory Attribute Register 203"
bitfld.long 0x2FC 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x2FC 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x300 "MAR204,Memory Attribute Register 204"
bitfld.long 0x300 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x300 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x304 "MAR205,Memory Attribute Register 205"
bitfld.long 0x304 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x304 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x308 "MAR206,Memory Attribute Register 206"
bitfld.long 0x308 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x308 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x30C "MAR207,Memory Attribute Register 207"
bitfld.long 0x30C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x30C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x310 "MAR208,Memory Attribute Register 208"
bitfld.long 0x310 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x310 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x314 "MAR209,Memory Attribute Register 209"
bitfld.long 0x314 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x314 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x318 "MAR210,Memory Attribute Register 210"
bitfld.long 0x318 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x318 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x31C "MAR211,Memory Attribute Register 211"
bitfld.long 0x31C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x31C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x320 "MAR212,Memory Attribute Register 212"
bitfld.long 0x320 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x320 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x324 "MAR213,Memory Attribute Register 213"
bitfld.long 0x324 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x324 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x328 "MAR214,Memory Attribute Register 214"
bitfld.long 0x328 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x328 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x32C "MAR215,Memory Attribute Register 215"
bitfld.long 0x32C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x32C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x330 "MAR216,Memory Attribute Register 216"
bitfld.long 0x330 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x330 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x334 "MAR217,Memory Attribute Register 217"
bitfld.long 0x334 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x334 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x338 "MAR218,Memory Attribute Register 218"
bitfld.long 0x338 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x338 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x33C "MAR219,Memory Attribute Register 219"
bitfld.long 0x33C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x33C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x340 "MAR220,Memory Attribute Register 220"
bitfld.long 0x340 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x340 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x344 "MAR221,Memory Attribute Register 221"
bitfld.long 0x344 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x344 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x348 "MAR222,Memory Attribute Register 222"
bitfld.long 0x348 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x348 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x34C "MAR223,Memory Attribute Register 223"
bitfld.long 0x34C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x34C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x350 "MAR224,Memory Attribute Register 224"
bitfld.long 0x350 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x350 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x354 "MAR225,Memory Attribute Register 225"
bitfld.long 0x354 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x354 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x358 "MAR226,Memory Attribute Register 226"
bitfld.long 0x358 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x358 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x35C "MAR227,Memory Attribute Register 227"
bitfld.long 0x35C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x35C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x360 "MAR228,Memory Attribute Register 228"
bitfld.long 0x360 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x360 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x364 "MAR229,Memory Attribute Register 229"
bitfld.long 0x364 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x364 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x368 "MAR230,Memory Attribute Register 230"
bitfld.long 0x368 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x368 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x36C "MAR231,Memory Attribute Register 231"
bitfld.long 0x36C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x36C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x370 "MAR232,Memory Attribute Register 232"
bitfld.long 0x370 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x370 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x374 "MAR233,Memory Attribute Register 233"
bitfld.long 0x374 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x374 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x378 "MAR234,Memory Attribute Register 234"
bitfld.long 0x378 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x378 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x37C "MAR235,Memory Attribute Register 235"
bitfld.long 0x37C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x37C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x380 "MAR236,Memory Attribute Register 236"
bitfld.long 0x380 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x380 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x384 "MAR237,Memory Attribute Register 237"
bitfld.long 0x384 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x384 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x388 "MAR238,Memory Attribute Register 238"
bitfld.long 0x388 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x388 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x38C "MAR239,Memory Attribute Register 239"
bitfld.long 0x38C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x38C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x390 "MAR240,Memory Attribute Register 240"
bitfld.long 0x390 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x390 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x394 "MAR241,Memory Attribute Register 241"
bitfld.long 0x394 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x394 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x398 "MAR242,Memory Attribute Register 242"
bitfld.long 0x398 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x398 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x39C "MAR243,Memory Attribute Register 243"
bitfld.long 0x39C 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x39C 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x3A0 "MAR244,Memory Attribute Register 244"
bitfld.long 0x3A0 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x3A0 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x3A4 "MAR245,Memory Attribute Register 245"
bitfld.long 0x3A4 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x3A4 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x3A8 "MAR246,Memory Attribute Register 246"
bitfld.long 0x3A8 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x3A8 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x3AC "MAR247,Memory Attribute Register 247"
bitfld.long 0x3AC 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x3AC 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x3B0 "MAR248,Memory Attribute Register 248"
bitfld.long 0x3B0 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x3B0 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x3B4 "MAR249,Memory Attribute Register 249"
bitfld.long 0x3B4 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x3B4 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x3B8 "MAR250,Memory Attribute Register 250"
bitfld.long 0x3B8 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x3B8 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x3BC "MAR251,Memory Attribute Register 251"
bitfld.long 0x3BC 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x3BC 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x3C0 "MAR252,Memory Attribute Register 252"
bitfld.long 0x3C0 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x3C0 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x3C4 "MAR253,Memory Attribute Register 253"
bitfld.long 0x3C4 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x3C4 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x3C8 "MAR254,Memory Attribute Register 254"
bitfld.long 0x3C8 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x3C8 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
line.long 0x3CC "MAR255,Memory Attribute Register 255"
bitfld.long 0x3CC 3. " PFS ,Enables/disables the prefetchability of the affected address range" "Not prefetchable,Prefetchable"
bitfld.long 0x3CC 0. "   PC ,Permit Copies field enables/disables the cacheability of the affected address range" "Not cacheable,Cacheable"
tree.end
width 10.
base d:0x0184a000
tree "Memory Protection Page Attribute Registers"
group.long 0x200++0x7f
line.long 0x0 "L2MPPA0,Level 2 Memory Protection Page Attribute Register 0"
bitfld.long 0x0 15. " AID5 ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x0 14. "     AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x0 13. "    AID3 ,Controls access from ID = 3 " "Denied,Granted"
textline "                   "
bitfld.long 0x0 12. " AID2 ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x0 11. "     AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x0 10. "    AID0 ,Controls access from ID = 0" "Denied,Granted"
textline "                   "
bitfld.long 0x0 9. " AIDX ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x0 8. "     LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                   "
bitfld.long 0x0 5. " SR   ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x0 4. "  SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x0 3. " SX   ,Supervisor execute access type" "Normal,Supervisor"
textline "                   "
bitfld.long 0x0 2. " UR   ,User read access type" "Normal,User"
bitfld.long 0x0 1. "      UW    ,User write access type" "Normal,User"
bitfld.long 0x0 0. "     UX   ,User execute access type" "Normal,User"
line.long 0x4 "L2MPPA1,Level 2 Memory Protection Page Attribute Register 1"
bitfld.long 0x4 15. " AID5 ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x4 14. "     AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x4 13. "    AID3 ,Controls access from ID = 3 " "Denied,Granted"
textline "                   "
bitfld.long 0x4 12. " AID2 ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x4 11. "     AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x4 10. "    AID0 ,Controls access from ID = 0" "Denied,Granted"
textline "                   "
bitfld.long 0x4 9. " AIDX ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x4 8. "     LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                   "
bitfld.long 0x4 5. " SR   ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x4 4. "  SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x4 3. " SX   ,Supervisor execute access type" "Normal,Supervisor"
textline "                   "
bitfld.long 0x4 2. " UR   ,User read access type" "Normal,User"
bitfld.long 0x4 1. "      UW    ,User write access type" "Normal,User"
bitfld.long 0x4 0. "     UX   ,User execute access type" "Normal,User"
line.long 0x8 "L2MPPA2,Level 2 Memory Protection Page Attribute Register 2"
bitfld.long 0x8 15. " AID5 ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x8 14. "     AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x8 13. "    AID3 ,Controls access from ID = 3 " "Denied,Granted"
textline "                   "
bitfld.long 0x8 12. " AID2 ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x8 11. "     AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x8 10. "    AID0 ,Controls access from ID = 0" "Denied,Granted"
textline "                   "
bitfld.long 0x8 9. " AIDX ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x8 8. "     LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                   "
bitfld.long 0x8 5. " SR   ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x8 4. "  SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x8 3. " SX   ,Supervisor execute access type" "Normal,Supervisor"
textline "                   "
bitfld.long 0x8 2. " UR   ,User read access type" "Normal,User"
bitfld.long 0x8 1. "      UW    ,User write access type" "Normal,User"
bitfld.long 0x8 0. "     UX   ,User execute access type" "Normal,User"
line.long 0xC "L2MPPA3,Level 2 Memory Protection Page Attribute Register 3"
bitfld.long 0xC 15. " AID5 ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0xC 14. "     AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0xC 13. "    AID3 ,Controls access from ID = 3 " "Denied,Granted"
textline "                   "
bitfld.long 0xC 12. " AID2 ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0xC 11. "     AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0xC 10. "    AID0 ,Controls access from ID = 0" "Denied,Granted"
textline "                   "
bitfld.long 0xC 9. " AIDX ,Controls ID >=6" "Denied,Granted"
bitfld.long 0xC 8. "     LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                   "
bitfld.long 0xC 5. " SR   ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0xC 4. "  SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0xC 3. " SX   ,Supervisor execute access type" "Normal,Supervisor"
textline "                   "
bitfld.long 0xC 2. " UR   ,User read access type" "Normal,User"
bitfld.long 0xC 1. "      UW    ,User write access type" "Normal,User"
bitfld.long 0xC 0. "     UX   ,User execute access type" "Normal,User"
line.long 0x10 "L2MPPA4,Level 2 Memory Protection Page Attribute Register 4"
bitfld.long 0x10 15. " AID5 ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x10 14. "     AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x10 13. "    AID3 ,Controls access from ID = 3 " "Denied,Granted"
textline "                   "
bitfld.long 0x10 12. " AID2 ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x10 11. "     AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x10 10. "    AID0 ,Controls access from ID = 0" "Denied,Granted"
textline "                   "
bitfld.long 0x10 9. " AIDX ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x10 8. "     LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                   "
bitfld.long 0x10 5. " SR   ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x10 4. "  SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x10 3. " SX   ,Supervisor execute access type" "Normal,Supervisor"
textline "                   "
bitfld.long 0x10 2. " UR   ,User read access type" "Normal,User"
bitfld.long 0x10 1. "      UW    ,User write access type" "Normal,User"
bitfld.long 0x10 0. "     UX   ,User execute access type" "Normal,User"
line.long 0x14 "L2MPPA5,Level 2 Memory Protection Page Attribute Register 5"
bitfld.long 0x14 15. " AID5 ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x14 14. "     AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x14 13. "    AID3 ,Controls access from ID = 3 " "Denied,Granted"
textline "                   "
bitfld.long 0x14 12. " AID2 ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x14 11. "     AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x14 10. "    AID0 ,Controls access from ID = 0" "Denied,Granted"
textline "                   "
bitfld.long 0x14 9. " AIDX ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x14 8. "     LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                   "
bitfld.long 0x14 5. " SR   ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x14 4. "  SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x14 3. " SX   ,Supervisor execute access type" "Normal,Supervisor"
textline "                   "
bitfld.long 0x14 2. " UR   ,User read access type" "Normal,User"
bitfld.long 0x14 1. "      UW    ,User write access type" "Normal,User"
bitfld.long 0x14 0. "     UX   ,User execute access type" "Normal,User"
line.long 0x18 "L2MPPA6,Level 2 Memory Protection Page Attribute Register 6"
bitfld.long 0x18 15. " AID5 ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x18 14. "     AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x18 13. "    AID3 ,Controls access from ID = 3 " "Denied,Granted"
textline "                   "
bitfld.long 0x18 12. " AID2 ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x18 11. "     AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x18 10. "    AID0 ,Controls access from ID = 0" "Denied,Granted"
textline "                   "
bitfld.long 0x18 9. " AIDX ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x18 8. "     LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                   "
bitfld.long 0x18 5. " SR   ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x18 4. "  SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x18 3. " SX   ,Supervisor execute access type" "Normal,Supervisor"
textline "                   "
bitfld.long 0x18 2. " UR   ,User read access type" "Normal,User"
bitfld.long 0x18 1. "      UW    ,User write access type" "Normal,User"
bitfld.long 0x18 0. "     UX   ,User execute access type" "Normal,User"
line.long 0x1C "L2MPPA7,Level 2 Memory Protection Page Attribute Register 7"
bitfld.long 0x1C 15. " AID5 ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x1C 14. "     AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x1C 13. "    AID3 ,Controls access from ID = 3 " "Denied,Granted"
textline "                   "
bitfld.long 0x1C 12. " AID2 ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x1C 11. "     AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x1C 10. "    AID0 ,Controls access from ID = 0" "Denied,Granted"
textline "                   "
bitfld.long 0x1C 9. " AIDX ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x1C 8. "     LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                   "
bitfld.long 0x1C 5. " SR   ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x1C 4. "  SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x1C 3. " SX   ,Supervisor execute access type" "Normal,Supervisor"
textline "                   "
bitfld.long 0x1C 2. " UR   ,User read access type" "Normal,User"
bitfld.long 0x1C 1. "      UW    ,User write access type" "Normal,User"
bitfld.long 0x1C 0. "     UX   ,User execute access type" "Normal,User"
line.long 0x20 "L2MPPA8,Level 2 Memory Protection Page Attribute Register 8"
bitfld.long 0x20 15. " AID5 ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x20 14. "     AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x20 13. "    AID3 ,Controls access from ID = 3 " "Denied,Granted"
textline "                   "
bitfld.long 0x20 12. " AID2 ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x20 11. "     AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x20 10. "    AID0 ,Controls access from ID = 0" "Denied,Granted"
textline "                   "
bitfld.long 0x20 9. " AIDX ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x20 8. "     LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                   "
bitfld.long 0x20 5. " SR   ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x20 4. "  SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x20 3. " SX   ,Supervisor execute access type" "Normal,Supervisor"
textline "                   "
bitfld.long 0x20 2. " UR   ,User read access type" "Normal,User"
bitfld.long 0x20 1. "      UW    ,User write access type" "Normal,User"
bitfld.long 0x20 0. "     UX   ,User execute access type" "Normal,User"
line.long 0x24 "L2MPPA9,Level 2 Memory Protection Page Attribute Register 9"
bitfld.long 0x24 15. " AID5 ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x24 14. "     AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x24 13. "    AID3 ,Controls access from ID = 3 " "Denied,Granted"
textline "                   "
bitfld.long 0x24 12. " AID2 ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x24 11. "     AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x24 10. "    AID0 ,Controls access from ID = 0" "Denied,Granted"
textline "                   "
bitfld.long 0x24 9. " AIDX ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x24 8. "     LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                   "
bitfld.long 0x24 5. " SR   ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x24 4. "  SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x24 3. " SX   ,Supervisor execute access type" "Normal,Supervisor"
textline "                   "
bitfld.long 0x24 2. " UR   ,User read access type" "Normal,User"
bitfld.long 0x24 1. "      UW    ,User write access type" "Normal,User"
bitfld.long 0x24 0. "     UX   ,User execute access type" "Normal,User"
line.long 0x28 "L2MPPA10,Level 2 Memory Protection Page Attribute Register 10"
bitfld.long 0x28 15. " AID5 ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x28 14. "     AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x28 13. "    AID3 ,Controls access from ID = 3 " "Denied,Granted"
textline "                   "
bitfld.long 0x28 12. " AID2 ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x28 11. "     AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x28 10. "    AID0 ,Controls access from ID = 0" "Denied,Granted"
textline "                   "
bitfld.long 0x28 9. " AIDX ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x28 8. "     LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                   "
bitfld.long 0x28 5. " SR   ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x28 4. "  SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x28 3. " SX   ,Supervisor execute access type" "Normal,Supervisor"
textline "                   "
bitfld.long 0x28 2. " UR   ,User read access type" "Normal,User"
bitfld.long 0x28 1. "      UW    ,User write access type" "Normal,User"
bitfld.long 0x28 0. "     UX   ,User execute access type" "Normal,User"
line.long 0x2C "L2MPPA11,Level 2 Memory Protection Page Attribute Register 11"
bitfld.long 0x2C 15. " AID5 ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x2C 14. "     AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x2C 13. "    AID3 ,Controls access from ID = 3 " "Denied,Granted"
textline "                   "
bitfld.long 0x2C 12. " AID2 ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x2C 11. "     AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x2C 10. "    AID0 ,Controls access from ID = 0" "Denied,Granted"
textline "                   "
bitfld.long 0x2C 9. " AIDX ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x2C 8. "     LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                   "
bitfld.long 0x2C 5. " SR   ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x2C 4. "  SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x2C 3. " SX   ,Supervisor execute access type" "Normal,Supervisor"
textline "                   "
bitfld.long 0x2C 2. " UR   ,User read access type" "Normal,User"
bitfld.long 0x2C 1. "      UW    ,User write access type" "Normal,User"
bitfld.long 0x2C 0. "     UX   ,User execute access type" "Normal,User"
line.long 0x30 "L2MPPA12,Level 2 Memory Protection Page Attribute Register 12"
bitfld.long 0x30 15. " AID5 ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x30 14. "     AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x30 13. "    AID3 ,Controls access from ID = 3 " "Denied,Granted"
textline "                   "
bitfld.long 0x30 12. " AID2 ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x30 11. "     AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x30 10. "    AID0 ,Controls access from ID = 0" "Denied,Granted"
textline "                   "
bitfld.long 0x30 9. " AIDX ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x30 8. "     LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                   "
bitfld.long 0x30 5. " SR   ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x30 4. "  SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x30 3. " SX   ,Supervisor execute access type" "Normal,Supervisor"
textline "                   "
bitfld.long 0x30 2. " UR   ,User read access type" "Normal,User"
bitfld.long 0x30 1. "      UW    ,User write access type" "Normal,User"
bitfld.long 0x30 0. "     UX   ,User execute access type" "Normal,User"
line.long 0x34 "L2MPPA13,Level 2 Memory Protection Page Attribute Register 13"
bitfld.long 0x34 15. " AID5 ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x34 14. "     AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x34 13. "    AID3 ,Controls access from ID = 3 " "Denied,Granted"
textline "                   "
bitfld.long 0x34 12. " AID2 ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x34 11. "     AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x34 10. "    AID0 ,Controls access from ID = 0" "Denied,Granted"
textline "                   "
bitfld.long 0x34 9. " AIDX ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x34 8. "     LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                   "
bitfld.long 0x34 5. " SR   ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x34 4. "  SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x34 3. " SX   ,Supervisor execute access type" "Normal,Supervisor"
textline "                   "
bitfld.long 0x34 2. " UR   ,User read access type" "Normal,User"
bitfld.long 0x34 1. "      UW    ,User write access type" "Normal,User"
bitfld.long 0x34 0. "     UX   ,User execute access type" "Normal,User"
line.long 0x38 "L2MPPA14,Level 2 Memory Protection Page Attribute Register 14"
bitfld.long 0x38 15. " AID5 ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x38 14. "     AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x38 13. "    AID3 ,Controls access from ID = 3 " "Denied,Granted"
textline "                   "
bitfld.long 0x38 12. " AID2 ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x38 11. "     AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x38 10. "    AID0 ,Controls access from ID = 0" "Denied,Granted"
textline "                   "
bitfld.long 0x38 9. " AIDX ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x38 8. "     LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                   "
bitfld.long 0x38 5. " SR   ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x38 4. "  SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x38 3. " SX   ,Supervisor execute access type" "Normal,Supervisor"
textline "                   "
bitfld.long 0x38 2. " UR   ,User read access type" "Normal,User"
bitfld.long 0x38 1. "      UW    ,User write access type" "Normal,User"
bitfld.long 0x38 0. "     UX   ,User execute access type" "Normal,User"
line.long 0x3C "L2MPPA15,Level 2 Memory Protection Page Attribute Register 15"
bitfld.long 0x3C 15. " AID5 ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x3C 14. "     AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x3C 13. "    AID3 ,Controls access from ID = 3 " "Denied,Granted"
textline "                   "
bitfld.long 0x3C 12. " AID2 ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x3C 11. "     AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x3C 10. "    AID0 ,Controls access from ID = 0" "Denied,Granted"
textline "                   "
bitfld.long 0x3C 9. " AIDX ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x3C 8. "     LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                   "
bitfld.long 0x3C 5. " SR   ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x3C 4. "  SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x3C 3. " SX   ,Supervisor execute access type" "Normal,Supervisor"
textline "                   "
bitfld.long 0x3C 2. " UR   ,User read access type" "Normal,User"
bitfld.long 0x3C 1. "      UW    ,User write access type" "Normal,User"
bitfld.long 0x3C 0. "     UX   ,User execute access type" "Normal,User"
line.long 0x40 "L2MPPA16,Level 2 Memory Protection Page Attribute Register 16"
bitfld.long 0x40 15. " AID5 ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x40 14. "     AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x40 13. "    AID3 ,Controls access from ID = 3 " "Denied,Granted"
textline "                   "
bitfld.long 0x40 12. " AID2 ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x40 11. "     AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x40 10. "    AID0 ,Controls access from ID = 0" "Denied,Granted"
textline "                   "
bitfld.long 0x40 9. " AIDX ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x40 8. "     LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                   "
bitfld.long 0x40 5. " SR   ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x40 4. "  SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x40 3. " SX   ,Supervisor execute access type" "Normal,Supervisor"
textline "                   "
bitfld.long 0x40 2. " UR   ,User read access type" "Normal,User"
bitfld.long 0x40 1. "      UW    ,User write access type" "Normal,User"
bitfld.long 0x40 0. "     UX   ,User execute access type" "Normal,User"
line.long 0x44 "L2MPPA17,Level 2 Memory Protection Page Attribute Register 17"
bitfld.long 0x44 15. " AID5 ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x44 14. "     AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x44 13. "    AID3 ,Controls access from ID = 3 " "Denied,Granted"
textline "                   "
bitfld.long 0x44 12. " AID2 ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x44 11. "     AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x44 10. "    AID0 ,Controls access from ID = 0" "Denied,Granted"
textline "                   "
bitfld.long 0x44 9. " AIDX ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x44 8. "     LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                   "
bitfld.long 0x44 5. " SR   ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x44 4. "  SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x44 3. " SX   ,Supervisor execute access type" "Normal,Supervisor"
textline "                   "
bitfld.long 0x44 2. " UR   ,User read access type" "Normal,User"
bitfld.long 0x44 1. "      UW    ,User write access type" "Normal,User"
bitfld.long 0x44 0. "     UX   ,User execute access type" "Normal,User"
line.long 0x48 "L2MPPA18,Level 2 Memory Protection Page Attribute Register 18"
bitfld.long 0x48 15. " AID5 ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x48 14. "     AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x48 13. "    AID3 ,Controls access from ID = 3 " "Denied,Granted"
textline "                   "
bitfld.long 0x48 12. " AID2 ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x48 11. "     AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x48 10. "    AID0 ,Controls access from ID = 0" "Denied,Granted"
textline "                   "
bitfld.long 0x48 9. " AIDX ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x48 8. "     LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                   "
bitfld.long 0x48 5. " SR   ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x48 4. "  SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x48 3. " SX   ,Supervisor execute access type" "Normal,Supervisor"
textline "                   "
bitfld.long 0x48 2. " UR   ,User read access type" "Normal,User"
bitfld.long 0x48 1. "      UW    ,User write access type" "Normal,User"
bitfld.long 0x48 0. "     UX   ,User execute access type" "Normal,User"
line.long 0x4C "L2MPPA19,Level 2 Memory Protection Page Attribute Register 19"
bitfld.long 0x4C 15. " AID5 ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x4C 14. "     AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x4C 13. "    AID3 ,Controls access from ID = 3 " "Denied,Granted"
textline "                   "
bitfld.long 0x4C 12. " AID2 ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x4C 11. "     AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x4C 10. "    AID0 ,Controls access from ID = 0" "Denied,Granted"
textline "                   "
bitfld.long 0x4C 9. " AIDX ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x4C 8. "     LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                   "
bitfld.long 0x4C 5. " SR   ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x4C 4. "  SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x4C 3. " SX   ,Supervisor execute access type" "Normal,Supervisor"
textline "                   "
bitfld.long 0x4C 2. " UR   ,User read access type" "Normal,User"
bitfld.long 0x4C 1. "      UW    ,User write access type" "Normal,User"
bitfld.long 0x4C 0. "     UX   ,User execute access type" "Normal,User"
line.long 0x50 "L2MPPA20,Level 2 Memory Protection Page Attribute Register 20"
bitfld.long 0x50 15. " AID5 ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x50 14. "     AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x50 13. "    AID3 ,Controls access from ID = 3 " "Denied,Granted"
textline "                   "
bitfld.long 0x50 12. " AID2 ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x50 11. "     AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x50 10. "    AID0 ,Controls access from ID = 0" "Denied,Granted"
textline "                   "
bitfld.long 0x50 9. " AIDX ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x50 8. "     LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                   "
bitfld.long 0x50 5. " SR   ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x50 4. "  SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x50 3. " SX   ,Supervisor execute access type" "Normal,Supervisor"
textline "                   "
bitfld.long 0x50 2. " UR   ,User read access type" "Normal,User"
bitfld.long 0x50 1. "      UW    ,User write access type" "Normal,User"
bitfld.long 0x50 0. "     UX   ,User execute access type" "Normal,User"
line.long 0x54 "L2MPPA21,Level 2 Memory Protection Page Attribute Register 21"
bitfld.long 0x54 15. " AID5 ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x54 14. "     AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x54 13. "    AID3 ,Controls access from ID = 3 " "Denied,Granted"
textline "                   "
bitfld.long 0x54 12. " AID2 ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x54 11. "     AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x54 10. "    AID0 ,Controls access from ID = 0" "Denied,Granted"
textline "                   "
bitfld.long 0x54 9. " AIDX ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x54 8. "     LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                   "
bitfld.long 0x54 5. " SR   ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x54 4. "  SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x54 3. " SX   ,Supervisor execute access type" "Normal,Supervisor"
textline "                   "
bitfld.long 0x54 2. " UR   ,User read access type" "Normal,User"
bitfld.long 0x54 1. "      UW    ,User write access type" "Normal,User"
bitfld.long 0x54 0. "     UX   ,User execute access type" "Normal,User"
line.long 0x58 "L2MPPA22,Level 2 Memory Protection Page Attribute Register 22"
bitfld.long 0x58 15. " AID5 ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x58 14. "     AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x58 13. "    AID3 ,Controls access from ID = 3 " "Denied,Granted"
textline "                   "
bitfld.long 0x58 12. " AID2 ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x58 11. "     AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x58 10. "    AID0 ,Controls access from ID = 0" "Denied,Granted"
textline "                   "
bitfld.long 0x58 9. " AIDX ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x58 8. "     LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                   "
bitfld.long 0x58 5. " SR   ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x58 4. "  SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x58 3. " SX   ,Supervisor execute access type" "Normal,Supervisor"
textline "                   "
bitfld.long 0x58 2. " UR   ,User read access type" "Normal,User"
bitfld.long 0x58 1. "      UW    ,User write access type" "Normal,User"
bitfld.long 0x58 0. "     UX   ,User execute access type" "Normal,User"
line.long 0x5C "L2MPPA23,Level 2 Memory Protection Page Attribute Register 23"
bitfld.long 0x5C 15. " AID5 ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x5C 14. "     AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x5C 13. "    AID3 ,Controls access from ID = 3 " "Denied,Granted"
textline "                   "
bitfld.long 0x5C 12. " AID2 ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x5C 11. "     AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x5C 10. "    AID0 ,Controls access from ID = 0" "Denied,Granted"
textline "                   "
bitfld.long 0x5C 9. " AIDX ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x5C 8. "     LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                   "
bitfld.long 0x5C 5. " SR   ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x5C 4. "  SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x5C 3. " SX   ,Supervisor execute access type" "Normal,Supervisor"
textline "                   "
bitfld.long 0x5C 2. " UR   ,User read access type" "Normal,User"
bitfld.long 0x5C 1. "      UW    ,User write access type" "Normal,User"
bitfld.long 0x5C 0. "     UX   ,User execute access type" "Normal,User"
line.long 0x60 "L2MPPA24,Level 2 Memory Protection Page Attribute Register 24"
bitfld.long 0x60 15. " AID5 ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x60 14. "     AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x60 13. "    AID3 ,Controls access from ID = 3 " "Denied,Granted"
textline "                   "
bitfld.long 0x60 12. " AID2 ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x60 11. "     AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x60 10. "    AID0 ,Controls access from ID = 0" "Denied,Granted"
textline "                   "
bitfld.long 0x60 9. " AIDX ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x60 8. "     LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                   "
bitfld.long 0x60 5. " SR   ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x60 4. "  SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x60 3. " SX   ,Supervisor execute access type" "Normal,Supervisor"
textline "                   "
bitfld.long 0x60 2. " UR   ,User read access type" "Normal,User"
bitfld.long 0x60 1. "      UW    ,User write access type" "Normal,User"
bitfld.long 0x60 0. "     UX   ,User execute access type" "Normal,User"
line.long 0x64 "L2MPPA25,Level 2 Memory Protection Page Attribute Register 25"
bitfld.long 0x64 15. " AID5 ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x64 14. "     AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x64 13. "    AID3 ,Controls access from ID = 3 " "Denied,Granted"
textline "                   "
bitfld.long 0x64 12. " AID2 ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x64 11. "     AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x64 10. "    AID0 ,Controls access from ID = 0" "Denied,Granted"
textline "                   "
bitfld.long 0x64 9. " AIDX ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x64 8. "     LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                   "
bitfld.long 0x64 5. " SR   ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x64 4. "  SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x64 3. " SX   ,Supervisor execute access type" "Normal,Supervisor"
textline "                   "
bitfld.long 0x64 2. " UR   ,User read access type" "Normal,User"
bitfld.long 0x64 1. "      UW    ,User write access type" "Normal,User"
bitfld.long 0x64 0. "     UX   ,User execute access type" "Normal,User"
line.long 0x68 "L2MPPA26,Level 2 Memory Protection Page Attribute Register 26"
bitfld.long 0x68 15. " AID5 ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x68 14. "     AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x68 13. "    AID3 ,Controls access from ID = 3 " "Denied,Granted"
textline "                   "
bitfld.long 0x68 12. " AID2 ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x68 11. "     AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x68 10. "    AID0 ,Controls access from ID = 0" "Denied,Granted"
textline "                   "
bitfld.long 0x68 9. " AIDX ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x68 8. "     LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                   "
bitfld.long 0x68 5. " SR   ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x68 4. "  SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x68 3. " SX   ,Supervisor execute access type" "Normal,Supervisor"
textline "                   "
bitfld.long 0x68 2. " UR   ,User read access type" "Normal,User"
bitfld.long 0x68 1. "      UW    ,User write access type" "Normal,User"
bitfld.long 0x68 0. "     UX   ,User execute access type" "Normal,User"
line.long 0x6C "L2MPPA27,Level 2 Memory Protection Page Attribute Register 27"
bitfld.long 0x6C 15. " AID5 ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x6C 14. "     AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x6C 13. "    AID3 ,Controls access from ID = 3 " "Denied,Granted"
textline "                   "
bitfld.long 0x6C 12. " AID2 ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x6C 11. "     AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x6C 10. "    AID0 ,Controls access from ID = 0" "Denied,Granted"
textline "                   "
bitfld.long 0x6C 9. " AIDX ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x6C 8. "     LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                   "
bitfld.long 0x6C 5. " SR   ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x6C 4. "  SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x6C 3. " SX   ,Supervisor execute access type" "Normal,Supervisor"
textline "                   "
bitfld.long 0x6C 2. " UR   ,User read access type" "Normal,User"
bitfld.long 0x6C 1. "      UW    ,User write access type" "Normal,User"
bitfld.long 0x6C 0. "     UX   ,User execute access type" "Normal,User"
line.long 0x70 "L2MPPA28,Level 2 Memory Protection Page Attribute Register 28"
bitfld.long 0x70 15. " AID5 ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x70 14. "     AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x70 13. "    AID3 ,Controls access from ID = 3 " "Denied,Granted"
textline "                   "
bitfld.long 0x70 12. " AID2 ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x70 11. "     AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x70 10. "    AID0 ,Controls access from ID = 0" "Denied,Granted"
textline "                   "
bitfld.long 0x70 9. " AIDX ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x70 8. "     LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                   "
bitfld.long 0x70 5. " SR   ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x70 4. "  SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x70 3. " SX   ,Supervisor execute access type" "Normal,Supervisor"
textline "                   "
bitfld.long 0x70 2. " UR   ,User read access type" "Normal,User"
bitfld.long 0x70 1. "      UW    ,User write access type" "Normal,User"
bitfld.long 0x70 0. "     UX   ,User execute access type" "Normal,User"
line.long 0x74 "L2MPPA29,Level 2 Memory Protection Page Attribute Register 29"
bitfld.long 0x74 15. " AID5 ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x74 14. "     AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x74 13. "    AID3 ,Controls access from ID = 3 " "Denied,Granted"
textline "                   "
bitfld.long 0x74 12. " AID2 ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x74 11. "     AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x74 10. "    AID0 ,Controls access from ID = 0" "Denied,Granted"
textline "                   "
bitfld.long 0x74 9. " AIDX ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x74 8. "     LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                   "
bitfld.long 0x74 5. " SR   ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x74 4. "  SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x74 3. " SX   ,Supervisor execute access type" "Normal,Supervisor"
textline "                   "
bitfld.long 0x74 2. " UR   ,User read access type" "Normal,User"
bitfld.long 0x74 1. "      UW    ,User write access type" "Normal,User"
bitfld.long 0x74 0. "     UX   ,User execute access type" "Normal,User"
line.long 0x78 "L2MPPA30,Level 2 Memory Protection Page Attribute Register 30"
bitfld.long 0x78 15. " AID5 ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x78 14. "     AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x78 13. "    AID3 ,Controls access from ID = 3 " "Denied,Granted"
textline "                   "
bitfld.long 0x78 12. " AID2 ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x78 11. "     AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x78 10. "    AID0 ,Controls access from ID = 0" "Denied,Granted"
textline "                   "
bitfld.long 0x78 9. " AIDX ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x78 8. "     LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                   "
bitfld.long 0x78 5. " SR   ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x78 4. "  SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x78 3. " SX   ,Supervisor execute access type" "Normal,Supervisor"
textline "                   "
bitfld.long 0x78 2. " UR   ,User read access type" "Normal,User"
bitfld.long 0x78 1. "      UW    ,User write access type" "Normal,User"
bitfld.long 0x78 0. "     UX   ,User execute access type" "Normal,User"
line.long 0x7C "L2MPPA31,Level 2 Memory Protection Page Attribute Register 31"
bitfld.long 0x7C 15. " AID5 ,Controls access from ID = 5" "Denied,Granted"
bitfld.long 0x7C 14. "     AID4  ,Controls access from ID = 4" "Denied,Granted"
bitfld.long 0x7C 13. "    AID3 ,Controls access from ID = 3 " "Denied,Granted"
textline "                   "
bitfld.long 0x7C 12. " AID2 ,Controls access from ID = 2" "Denied,Granted"
bitfld.long 0x7C 11. "     AID1  ,Controls access from ID = 1" "Denied,Granted"
bitfld.long 0x7C 10. "    AID0 ,Controls access from ID = 0" "Denied,Granted"
textline "                   "
bitfld.long 0x7C 9. " AIDX ,Controls ID >=6" "Denied,Granted"
bitfld.long 0x7C 8. "     LOCAL ,Controls access from CPU to local memories" "Denied,Granted"
textline "                   "
bitfld.long 0x7C 5. " SR   ,Supervisor read access type" "Normal,Supervisor"
bitfld.long 0x7C 4. "  SW    ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x7C 3. " SX   ,Supervisor execute access type" "Normal,Supervisor"
textline "                   "
bitfld.long 0x7C 2. " UR   ,User read access type" "Normal,User"
bitfld.long 0x7C 1. "      UW    ,User write access type" "Normal,User"
bitfld.long 0x7C 0. "     UX   ,User execute access type" "Normal,User"
tree.end
width 9.
rgroup.long 0x000++0x7 "Memory Protection Fault Registers"
line.long 0x00 "L2MPFAR,Level 2 Memory Protection Fault Address Register"
hexmask.long 0x00 0.--31. 1. " FA     ,Fault Address"
line.long 0x04 "L2MPFSR,Level 2 Memory Protection Fault Set Register"
hexmask.long.byte 0x04 9.--15. 1. " FID    ,Bit 6:0 of ID of faulting requestor"
bitfld.long 0x04 8. "          LOCAL ,Local access" "Normal,Supervisor"
bitfld.long 0x04 5. "  SR ,Supervisor read access type" "Normal,Supervisor"
textline "                  "
bitfld.long 0x04 4. " SW     ,Supervisor write access type" "Normal,Supervisor"
bitfld.long 0x04 2. "  UR    ,User read access type" "Normal,User"
bitfld.long 0x04 1. "      UW ,User write access type" "Normal,User"
group.long 0x008++0x3
line.long 0x00 "L2MPFCR,Level 2 Memory Protection Fault Clear Register"
eventfld.long 0x00 0. " MPFCLR ,Clear L1DMPFAR and L1DMPFCR" "No effect,Clear"
width 12.
wgroup.long 0x100++0xf "Memory Protection Lock Registers"
line.long 0x00 "L2MPLK0,Level 2 Memory Protection Lock 0"
hexmask.long 0x00 0.--31. 1. " LB   ,Lock Bits 31:0"
line.long 0x04 "L2MPLK1,Level 2 Memory Protection Lock 1"
hexmask.long 0x04 0.--31. 1. " LB   ,Lock Bits 63:32"
line.long 0x08 "L2MPLK2,Level 2 Memory Protection Lock 2"
hexmask.long 0x08 0.--31. 1. " LB   ,Lock Bits 95:64"
line.long 0x0c "L2MPLK3,Level 2 Memory Protection Lock 3"
hexmask.long 0x0c 0.--31. 1. " LB   ,Lock Bits 127:96"
wgroup.long 0x110++0x3
line.long 0x00 "L2MPLKCMD,Level 2 Memory Protection Lock Command Register"
bitfld.long 0x00 2. " KEYR ,Reset status" "No effect,Reset"
bitfld.long 0x00 1. "   LOCK ,Interface to complete a lock sequence" "No effect,Locked"
bitfld.long 0x00 0. "  UNLOCK ,Interface to complete an unlock sequence" "No effect,Unlocked"
rgroup.long 0x114++0x3
line.long 0x00 "L2MPLKSTAT,Level 2 Memory Protection Lock Status Register"
bitfld.long 0x00 0. " LK   ,Indicates the lock's current status" "Disengaged,Engaged"
AUTOINDENT.ON right tree
base d:0x01846000
rgroup.long 0x4++0x3 "Error Detection Registers"
line.long 0x0 "L2EDSTAT,L2 Error Detection Status Register"
decmask.long.byte 0x0  16.--23. "BITPOS,Single Bit error position"
bitfld.long       0x0    8.--9. "NERR" "Single Bit error,Double Bit error,,Error in parity value"
newline
bitfld.long       0x0        7. "VERR,Error occurred on L2 victims" "False,True"
bitfld.long       0x0        6. "DMAERR,DMA/IDMA access to L1P memory resulted in parity check error" "False,True"
bitfld.long       0x0        5. "PERR,Program fetch resulted in parity check error" "False,True"
newline
bitfld.long       0x0        3. "SUSP,Error detection logic is suspended" "False,True"
bitfld.long       0x0        2. "DIS,Error detection logic is disabled" "False,True"
bitfld.long       0x0        0. "EN,Error detection logic is enabled" "False,True"
group.long 0x8++0x3
line.long 0x0 "L2EDCMD, L2 Error Detection Command Register"
bitfld.long 0x0  7. "VCLR,Clears the victim parity error status" "No effect,Clear"
bitfld.long 0x0  6. "DMACLR,Clears the DMA/IDMA read parity error status" "No effect,Clear"
bitfld.long 0x0  5. "PCLR,Clears the program fetch parity error status" "No effect,Clear"
bitfld.long 0x0  4. "DCLR,Clears the data fetch parity error status" "No effect,Clear"
newline
bitfld.long 0x0  3. "SUSP,Suspends the error detection logic" "No effect,Suspend"
bitfld.long 0x0  2. "DIS,Disables the error detection logic" "No effect,Disable"
bitfld.long 0x0  0. "EN,Enables the error detection logic" "No effect,Enable"
rgroup.long 0xC++0x3
line.long 0x0 "L2EDADDR,L2 Error Detection Address Register"
hexmask.long.long 0x0   5.--31. 32. "ADDR,Address of parity error (5 LSBs assumed to be 00000b)"
bitfld.long       0x0    8.--9.     "L2WAY,Error detected in Way" "Way 0,Way 1,Way 2,Way 3"
bitfld.long       0x0        0.     "RAM,Location where error was detected" "L2,RAM"
rgroup.long 0x18++0x3
line.long 0x0 "L2EDCPEC,L2 Error Detection Correctable Parity Error Counter Register"
hexmask.long.byte 0x0    0.--7.     "CNT,Counter value"
rgroup.long 0x1C++0x3
line.long 0x0 "L2EDNPEC,L2 Error Detection Non-correctable Parity Error Counter Register"
hexmask.long.byte 0x0    0.--7.     "CNT,Counter value"
group.long 0x30++0x3
line.long 0x0 "L2EDCEN,L2 Error Detection and Correction Enable Register"
bitfld.long       0x0        0. "SDMAEN,EDC on SDMA read from L2 RAM" "Disabled,Enabled"
bitfld.long       0x0        0. "PL2SEN,EDC on L1P memory controller read from L2 RAM" "Disabled,Enabled"
bitfld.long       0x0        0. "DL2SEN,EDC on L1D memory controller read from L2 RAM" "Disabled,Enabled"
bitfld.long       0x0        0. "PL2CEN,EDC on L1P memory controller reads from an external address (Hits L2 cache)" "Disabled,Enabled"
bitfld.long       0x0        0. "DL2CEN,EDC on L1D memory controller reads from an external address (Hits L2 cache)" "Disabled,Enabled"
AUTOINDENT.OFF
width 0xb
tree.end
tree.end
tree "IDMA (Internal Direct Memory Access Controller)"
width 14.
base d:0x01820000
rgroup.long 0x00++0x3 "Channel 0"
line.long 0x00 "IDMA0_STAT,IDMA Channel 0 Status Register"
bitfld.long 0x00 1. " PEND       ,Pending transfer" "Not pending,Pending"
bitfld.long 0x00 0. "  ACTV  ,Active transfer" "Not active,Active"
group.long 0x04++0xf
line.long 0x00 "IDMA0_MASK,IDMA Channel 0 Mask Register"
bitfld.long 0x00 31. " M31        ,Mask bit 31" "Not masked,Masked"
bitfld.long 0x00 30. "   M30   ,Mask bit 30" "Not masked,Masked"
bitfld.long 0x00 29. "  M29  ,Mask bit 29" "Not masked,Masked"
textline "                       "
bitfld.long 0x00 28. " M28        ,Mask bit 28" "Not masked,Masked"
bitfld.long 0x00 27. "   M27   ,Mask bit 27" "Not masked,Masked"
bitfld.long 0x00 26. "  M26  ,Mask bit 26" "Not masked,Masked"
textline "                       "
bitfld.long 0x00 25. " M25        ,Mask bit 25" "Not masked,Masked"
bitfld.long 0x00 24. "   M24   ,Mask bit 24" "Not masked,Masked"
bitfld.long 0x00 23. "  M23  ,Mask bit 23" "Not masked,Masked"
textline "                       "
bitfld.long 0x00 22. " M22        ,Mask bit 22" "Not masked,Masked"
bitfld.long 0x00 21. "   M21   ,Mask bit 21" "Not masked,Masked"
bitfld.long 0x00 20. "  M20  ,Mask bit 20" "Not masked,Masked"
textline "                       "
bitfld.long 0x00 19. " M19        ,Mask bit 19" "Not masked,Masked"
bitfld.long 0x00 18. "   M18   ,Mask bit 18" "Not masked,Masked"
bitfld.long 0x00 17. "  M17  ,Mask bit 17" "Not masked,Masked"
textline "                       "
bitfld.long 0x00 16. " M16        ,Mask bit 16" "Not masked,Masked"
bitfld.long 0x00 15. "   M15   ,Mask bit 15" "Not masked,Masked"
bitfld.long 0x00 14. "  M14  ,Mask bit 14" "Not masked,Masked"
textline "                       "
bitfld.long 0x00 13. " M13        ,Mask bit 13" "Not masked,Masked"
bitfld.long 0x00 12. "   M12   ,Mask bit 12" "Not masked,Masked"
bitfld.long 0x00 11. "  M11  ,Mask bit 11" "Not masked,Masked"
textline "                       "
bitfld.long 0x00 10. " M10        ,Mask bit 10" "Not masked,Masked"
bitfld.long 0x00 9. "   M9    ,Mask bit 9" "Not masked,Masked"
bitfld.long 0x00 8. "  M8   ,Mask bit 8" "Not masked,Masked"
textline "                       "
bitfld.long 0x00 7. " M7         ,Mask bit 7" "Not masked,Masked"
bitfld.long 0x00 6. "   M6    ,Mask bit 6" "Not masked,Masked"
bitfld.long 0x00 5. "  M5   ,Mask bit 5" "Not masked,Masked"
textline "                       "
bitfld.long 0x00 4. " M4         ,Mask bit 4" "Not masked,Masked"
bitfld.long 0x00 3. "   M3    ,Mask bit 3" "Not masked,Masked"
bitfld.long 0x00 2. "  M2   ,Mask bit 2" "Not masked,Masked"
textline "                       "
bitfld.long 0x00 1. " M1         ,Mask bit 1" "Not masked,Masked"
bitfld.long 0x00 0. "   M0    ,Mask bit 0" "Not masked,Masked"
line.long 0x04 "IDMA0_SOURCE,IDMA Channel 0 Source Address Register"
hexmask.long 0x04 5.--31. 0x20 " SOURCEADDR ,Source address"
line.long 0x08 "IDMA0_DEST,IDMA Channel 0 Destination Address Register"
hexmask.long 0x08 5.--31. 0x20 " DESTADDR   ,Destination address"
line.long 0x0c "IDMA0_COUNT,IDMA Channel 0 Count Register"
bitfld.long 0x0c 28. " INT        ,CPU interrupt enable" "Disabled,Enabled"
bitfld.long 0x0c 0.--3. "     COUNT ,4-bit block count" "1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16"
rgroup.long 0x100++0x3 "Channel 1"
line.long 0x00 "IDMA1_STAT,IDMA Channel 1 Status Register"
bitfld.long 0x00 1. " PEND       ,Pending transfer" "Not pending,Pending"
bitfld.long 0x00 0. "  ACTV  ,Active transfer" "Not active,Active"
group.long 0x108++0xb
line.long 0x00 "IDMA1_SOURCE,IDMA Channel 1 Source Address Register"
hexmask.long 0x00 0.--31. 1. " SOURCEADDR ,Source address"
line.long 0x04 "IDMA1_DEST,IDMA Channel 1 Destination Address Register"
hexmask.long 0x04 2.--31. 0x4 " DESTADDR   ,Destination address"
line.long 0x08 "IDMA1_COUNT,IDMA Channel 1 Count Register"
bitfld.long 0x08 29.--31. " PRI        ,Transfer priority" "Highest,1,2,3,4,5,6,Lowest"
bitfld.long 0x08 28. "      INT   ,CPU interrupt enable" "Disabled,Enabled"
bitfld.long 0x08 16. "    FILL ,Block fill" "0,1"
textline "                       "
hexmask.long.word 0x08 0.--15. 1. " COUNT      ,Byte count"
width 0xb
tree.end
tree "XMC (Extended Memory Controller)"
width 14.
AUTOINDENT.ON right tree
base d:0x08000000
group.long 0x00++0x7F "XMC MPAX Segment Registers"
line.long 0x0 "XMPAXL0,MPAX segment 0 low register"
hexmask.long 0x0 8.--31.    "RADDR,Bits that replace and extend the upper address bits matched by BADDR"
bitfld.long  0x0       5.    "SR,Supervisor mode may read from segment" "False,True"
bitfld.long  0x0       4.    "SW,Supervisor mode may write to segment" "False,True"
bitfld.long  0x0       3.    "SX,Supervisor mode may execute from segment" "False,True"
bitfld.long  0x0       2.    "UR,User mode may read from segment" "False,True"
bitfld.long  0x0       1.    "UW,User mode may write to segment" "False,True"
bitfld.long  0x0       0.    "UX,User mode may execute from segment" "False,True"
line.long 0x0+0x4 "XMPAXH0,MPAX segment 0 high register"
hexmask.long 0x0  12.--31.    "BADDR,Base Address"
bitfld.long   0x0    0.--4.    "SEGSZ,Segment size" "Disabled,,,,,,,,,,,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16MB,32MB,64MB,128MB,256MB,512MB,1GB,2GB,4GB"
line.long 0x8 "XMPAXL1,MPAX segment 1 low register"
hexmask.long 0x0 8.--31.    "RADDR,Bits that replace and extend the upper address bits matched by BADDR"
bitfld.long  0x8       5.    "SR,Supervisor mode may read from segment" "False,True"
bitfld.long  0x8       4.    "SW,Supervisor mode may write to segment" "False,True"
bitfld.long  0x8       3.    "SX,Supervisor mode may execute from segment" "False,True"
bitfld.long  0x8       2.    "UR,User mode may read from segment" "False,True"
bitfld.long  0x8       1.    "UW,User mode may write to segment" "False,True"
bitfld.long  0x8       0.    "UX,User mode may execute from segment" "False,True"
line.long 0x8+0x4 "XMPAXH1,MPAX segment 1 high register"
hexmask.long 0x0  12.--31.    "BADDR,Base Address"
bitfld.long   0x8    0.--4.    "SEGSZ,Segment size" "Disabled,,,,,,,,,,,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16MB,32MB,64MB,128MB,256MB,512MB,1GB,2GB,4GB"
line.long 0x10 "XMPAXL2,MPAX segment 2 low register"
hexmask.long 0x0 8.--31.    "RADDR,Bits that replace and extend the upper address bits matched by BADDR"
bitfld.long  0x10       5.    "SR,Supervisor mode may read from segment" "False,True"
bitfld.long  0x10       4.    "SW,Supervisor mode may write to segment" "False,True"
bitfld.long  0x10       3.    "SX,Supervisor mode may execute from segment" "False,True"
bitfld.long  0x10       2.    "UR,User mode may read from segment" "False,True"
bitfld.long  0x10       1.    "UW,User mode may write to segment" "False,True"
bitfld.long  0x10       0.    "UX,User mode may execute from segment" "False,True"
line.long 0x10+0x4 "XMPAXH2,MPAX segment 2 high register"
hexmask.long 0x0  12.--31.    "BADDR,Base Address"
bitfld.long   0x10    0.--4.    "SEGSZ,Segment size" "Disabled,,,,,,,,,,,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16MB,32MB,64MB,128MB,256MB,512MB,1GB,2GB,4GB"
line.long 0x18 "XMPAXL3,MPAX segment 3 low register"
hexmask.long 0x0 8.--31.    "RADDR,Bits that replace and extend the upper address bits matched by BADDR"
bitfld.long  0x18       5.    "SR,Supervisor mode may read from segment" "False,True"
bitfld.long  0x18       4.    "SW,Supervisor mode may write to segment" "False,True"
bitfld.long  0x18       3.    "SX,Supervisor mode may execute from segment" "False,True"
bitfld.long  0x18       2.    "UR,User mode may read from segment" "False,True"
bitfld.long  0x18       1.    "UW,User mode may write to segment" "False,True"
bitfld.long  0x18       0.    "UX,User mode may execute from segment" "False,True"
line.long 0x18+0x4 "XMPAXH3,MPAX segment 3 high register"
hexmask.long 0x0  12.--31.    "BADDR,Base Address"
bitfld.long   0x18    0.--4.    "SEGSZ,Segment size" "Disabled,,,,,,,,,,,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16MB,32MB,64MB,128MB,256MB,512MB,1GB,2GB,4GB"
line.long 0x20 "XMPAXL4,MPAX segment 4 low register"
hexmask.long 0x0 8.--31.    "RADDR,Bits that replace and extend the upper address bits matched by BADDR"
bitfld.long  0x20       5.    "SR,Supervisor mode may read from segment" "False,True"
bitfld.long  0x20       4.    "SW,Supervisor mode may write to segment" "False,True"
bitfld.long  0x20       3.    "SX,Supervisor mode may execute from segment" "False,True"
bitfld.long  0x20       2.    "UR,User mode may read from segment" "False,True"
bitfld.long  0x20       1.    "UW,User mode may write to segment" "False,True"
bitfld.long  0x20       0.    "UX,User mode may execute from segment" "False,True"
line.long 0x20+0x4 "XMPAXH4,MPAX segment 4 high register"
hexmask.long 0x0  12.--31.    "BADDR,Base Address"
bitfld.long   0x20    0.--4.    "SEGSZ,Segment size" "Disabled,,,,,,,,,,,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16MB,32MB,64MB,128MB,256MB,512MB,1GB,2GB,4GB"
line.long 0x28 "XMPAXL5,MPAX segment 5 low register"
hexmask.long 0x0 8.--31.    "RADDR,Bits that replace and extend the upper address bits matched by BADDR"
bitfld.long  0x28       5.    "SR,Supervisor mode may read from segment" "False,True"
bitfld.long  0x28       4.    "SW,Supervisor mode may write to segment" "False,True"
bitfld.long  0x28       3.    "SX,Supervisor mode may execute from segment" "False,True"
bitfld.long  0x28       2.    "UR,User mode may read from segment" "False,True"
bitfld.long  0x28       1.    "UW,User mode may write to segment" "False,True"
bitfld.long  0x28       0.    "UX,User mode may execute from segment" "False,True"
line.long 0x28+0x4 "XMPAXH5,MPAX segment 5 high register"
hexmask.long 0x0  12.--31.    "BADDR,Base Address"
bitfld.long   0x28    0.--4.    "SEGSZ,Segment size" "Disabled,,,,,,,,,,,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16MB,32MB,64MB,128MB,256MB,512MB,1GB,2GB,4GB"
line.long 0x30 "XMPAXL6,MPAX segment 6 low register"
hexmask.long 0x0 8.--31.    "RADDR,Bits that replace and extend the upper address bits matched by BADDR"
bitfld.long  0x30       5.    "SR,Supervisor mode may read from segment" "False,True"
bitfld.long  0x30       4.    "SW,Supervisor mode may write to segment" "False,True"
bitfld.long  0x30       3.    "SX,Supervisor mode may execute from segment" "False,True"
bitfld.long  0x30       2.    "UR,User mode may read from segment" "False,True"
bitfld.long  0x30       1.    "UW,User mode may write to segment" "False,True"
bitfld.long  0x30       0.    "UX,User mode may execute from segment" "False,True"
line.long 0x30+0x4 "XMPAXH6,MPAX segment 6 high register"
hexmask.long 0x0  12.--31.    "BADDR,Base Address"
bitfld.long   0x30    0.--4.    "SEGSZ,Segment size" "Disabled,,,,,,,,,,,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16MB,32MB,64MB,128MB,256MB,512MB,1GB,2GB,4GB"
line.long 0x38 "XMPAXL7,MPAX segment 7 low register"
hexmask.long 0x0 8.--31.    "RADDR,Bits that replace and extend the upper address bits matched by BADDR"
bitfld.long  0x38       5.    "SR,Supervisor mode may read from segment" "False,True"
bitfld.long  0x38       4.    "SW,Supervisor mode may write to segment" "False,True"
bitfld.long  0x38       3.    "SX,Supervisor mode may execute from segment" "False,True"
bitfld.long  0x38       2.    "UR,User mode may read from segment" "False,True"
bitfld.long  0x38       1.    "UW,User mode may write to segment" "False,True"
bitfld.long  0x38       0.    "UX,User mode may execute from segment" "False,True"
line.long 0x38+0x4 "XMPAXH7,MPAX segment 7 high register"
hexmask.long 0x0  12.--31.    "BADDR,Base Address"
bitfld.long   0x38    0.--4.    "SEGSZ,Segment size" "Disabled,,,,,,,,,,,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16MB,32MB,64MB,128MB,256MB,512MB,1GB,2GB,4GB"
line.long 0x40 "XMPAXL8,MPAX segment 8 low register"
hexmask.long 0x0 8.--31.    "RADDR,Bits that replace and extend the upper address bits matched by BADDR"
bitfld.long  0x40       5.    "SR,Supervisor mode may read from segment" "False,True"
bitfld.long  0x40       4.    "SW,Supervisor mode may write to segment" "False,True"
bitfld.long  0x40       3.    "SX,Supervisor mode may execute from segment" "False,True"
bitfld.long  0x40       2.    "UR,User mode may read from segment" "False,True"
bitfld.long  0x40       1.    "UW,User mode may write to segment" "False,True"
bitfld.long  0x40       0.    "UX,User mode may execute from segment" "False,True"
line.long 0x40+0x4 "XMPAXH8,MPAX segment 8 high register"
hexmask.long 0x0  12.--31.    "BADDR,Base Address"
bitfld.long   0x40    0.--4.    "SEGSZ,Segment size" "Disabled,,,,,,,,,,,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16MB,32MB,64MB,128MB,256MB,512MB,1GB,2GB,4GB"
line.long 0x48 "XMPAXL9,MPAX segment 9 low register"
hexmask.long 0x0 8.--31.    "RADDR,Bits that replace and extend the upper address bits matched by BADDR"
bitfld.long  0x48       5.    "SR,Supervisor mode may read from segment" "False,True"
bitfld.long  0x48       4.    "SW,Supervisor mode may write to segment" "False,True"
bitfld.long  0x48       3.    "SX,Supervisor mode may execute from segment" "False,True"
bitfld.long  0x48       2.    "UR,User mode may read from segment" "False,True"
bitfld.long  0x48       1.    "UW,User mode may write to segment" "False,True"
bitfld.long  0x48       0.    "UX,User mode may execute from segment" "False,True"
line.long 0x48+0x4 "XMPAXH9,MPAX segment 9 high register"
hexmask.long 0x0  12.--31.    "BADDR,Base Address"
bitfld.long   0x48    0.--4.    "SEGSZ,Segment size" "Disabled,,,,,,,,,,,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16MB,32MB,64MB,128MB,256MB,512MB,1GB,2GB,4GB"
line.long 0x50 "XMPAXL10,MPAX segment 10 low register"
hexmask.long 0x0 8.--31.    "RADDR,Bits that replace and extend the upper address bits matched by BADDR"
bitfld.long  0x50       5.    "SR,Supervisor mode may read from segment" "False,True"
bitfld.long  0x50       4.    "SW,Supervisor mode may write to segment" "False,True"
bitfld.long  0x50       3.    "SX,Supervisor mode may execute from segment" "False,True"
bitfld.long  0x50       2.    "UR,User mode may read from segment" "False,True"
bitfld.long  0x50       1.    "UW,User mode may write to segment" "False,True"
bitfld.long  0x50       0.    "UX,User mode may execute from segment" "False,True"
line.long 0x50+0x4 "XMPAXH10,MPAX segment 10 high register"
hexmask.long 0x0  12.--31.    "BADDR,Base Address"
bitfld.long   0x50    0.--4.    "SEGSZ,Segment size" "Disabled,,,,,,,,,,,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16MB,32MB,64MB,128MB,256MB,512MB,1GB,2GB,4GB"
line.long 0x58 "XMPAXL11,MPAX segment 11 low register"
hexmask.long 0x0 8.--31.    "RADDR,Bits that replace and extend the upper address bits matched by BADDR"
bitfld.long  0x58       5.    "SR,Supervisor mode may read from segment" "False,True"
bitfld.long  0x58       4.    "SW,Supervisor mode may write to segment" "False,True"
bitfld.long  0x58       3.    "SX,Supervisor mode may execute from segment" "False,True"
bitfld.long  0x58       2.    "UR,User mode may read from segment" "False,True"
bitfld.long  0x58       1.    "UW,User mode may write to segment" "False,True"
bitfld.long  0x58       0.    "UX,User mode may execute from segment" "False,True"
line.long 0x58+0x4 "XMPAXH11,MPAX segment 11 high register"
hexmask.long 0x0  12.--31.    "BADDR,Base Address"
bitfld.long   0x58    0.--4.    "SEGSZ,Segment size" "Disabled,,,,,,,,,,,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16MB,32MB,64MB,128MB,256MB,512MB,1GB,2GB,4GB"
line.long 0x60 "XMPAXL12,MPAX segment 12 low register"
hexmask.long 0x0 8.--31.    "RADDR,Bits that replace and extend the upper address bits matched by BADDR"
bitfld.long  0x60       5.    "SR,Supervisor mode may read from segment" "False,True"
bitfld.long  0x60       4.    "SW,Supervisor mode may write to segment" "False,True"
bitfld.long  0x60       3.    "SX,Supervisor mode may execute from segment" "False,True"
bitfld.long  0x60       2.    "UR,User mode may read from segment" "False,True"
bitfld.long  0x60       1.    "UW,User mode may write to segment" "False,True"
bitfld.long  0x60       0.    "UX,User mode may execute from segment" "False,True"
line.long 0x60+0x4 "XMPAXH12,MPAX segment 12 high register"
hexmask.long 0x0  12.--31.    "BADDR,Base Address"
bitfld.long   0x60    0.--4.    "SEGSZ,Segment size" "Disabled,,,,,,,,,,,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16MB,32MB,64MB,128MB,256MB,512MB,1GB,2GB,4GB"
line.long 0x68 "XMPAXL13,MPAX segment 13 low register"
hexmask.long 0x0 8.--31.    "RADDR,Bits that replace and extend the upper address bits matched by BADDR"
bitfld.long  0x68       5.    "SR,Supervisor mode may read from segment" "False,True"
bitfld.long  0x68       4.    "SW,Supervisor mode may write to segment" "False,True"
bitfld.long  0x68       3.    "SX,Supervisor mode may execute from segment" "False,True"
bitfld.long  0x68       2.    "UR,User mode may read from segment" "False,True"
bitfld.long  0x68       1.    "UW,User mode may write to segment" "False,True"
bitfld.long  0x68       0.    "UX,User mode may execute from segment" "False,True"
line.long 0x68+0x4 "XMPAXH13,MPAX segment 13 high register"
hexmask.long 0x0  12.--31.    "BADDR,Base Address"
bitfld.long   0x68    0.--4.    "SEGSZ,Segment size" "Disabled,,,,,,,,,,,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16MB,32MB,64MB,128MB,256MB,512MB,1GB,2GB,4GB"
line.long 0x70 "XMPAXL14,MPAX segment 14 low register"
hexmask.long 0x0 8.--31.    "RADDR,Bits that replace and extend the upper address bits matched by BADDR"
bitfld.long  0x70       5.    "SR,Supervisor mode may read from segment" "False,True"
bitfld.long  0x70       4.    "SW,Supervisor mode may write to segment" "False,True"
bitfld.long  0x70       3.    "SX,Supervisor mode may execute from segment" "False,True"
bitfld.long  0x70       2.    "UR,User mode may read from segment" "False,True"
bitfld.long  0x70       1.    "UW,User mode may write to segment" "False,True"
bitfld.long  0x70       0.    "UX,User mode may execute from segment" "False,True"
line.long 0x70+0x4 "XMPAXH14,MPAX segment 14 high register"
hexmask.long 0x0  12.--31.    "BADDR,Base Address"
bitfld.long   0x70    0.--4.    "SEGSZ,Segment size" "Disabled,,,,,,,,,,,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16MB,32MB,64MB,128MB,256MB,512MB,1GB,2GB,4GB"
line.long 0x78 "XMPAXL15,MPAX segment 15 low register"
hexmask.long 0x0 8.--31.    "RADDR,Bits that replace and extend the upper address bits matched by BADDR"
bitfld.long  0x78       5.    "SR,Supervisor mode may read from segment" "False,True"
bitfld.long  0x78       4.    "SW,Supervisor mode may write to segment" "False,True"
bitfld.long  0x78       3.    "SX,Supervisor mode may execute from segment" "False,True"
bitfld.long  0x78       2.    "UR,User mode may read from segment" "False,True"
bitfld.long  0x78       1.    "UW,User mode may write to segment" "False,True"
bitfld.long  0x78       0.    "UX,User mode may execute from segment" "False,True"
line.long 0x78+0x4 "XMPAXH15,MPAX segment 15 high register"
hexmask.long 0x0  12.--31.    "BADDR,Base Address"
bitfld.long   0x78    0.--4.    "SEGSZ,Segment size" "Disabled,,,,,,,,,,,4KB,8KB,16KB,32KB,64KB,128KB,256KB,512KB,1MB,2MB,4MB,8MB,16MB,32MB,64MB,128MB,256MB,512MB,1GB,2GB,4GB"
textline ""
rgroup.long 0x200++0x3 "Memory Protection Fault Reporting Registers"
line.long 0. "XMPFAR,Memory Protection Fault Address Register"
hexmask.long 0x0   0.--31.    "Fault Address,Fault Address"
rgroup.long 0x204++0x3
line.long 0. "XMPFSR,Memory Protection Fault Status Register"
bitfld.long  0.         8.    "LOCAL,Access was a LOCAL access" "False,True"
bitfld.long  0.         5.    "SR,When set, indicates a supervisor read request" "False,True"
bitfld.long  0.         4.    "SW,When set, indicates a supervisor write request" "False,True"
bitfld.long  0.         3.    "SX,When set, indicates a supervisor program fetch request" "False,True"
bitfld.long  0.         2.    "UR,When set, indicates a user read request" "False,True"
bitfld.long  0.         1.    "UW,When set, indicates a user write request" "False,True"
bitfld.long  0.         0.    "UX,When set, indicates a user program fetch request" "False,True"
group.long 0x208++0x3
line.long 0. "XMPFCR,Memory Protection Fault Clear Register"
bitfld.long  0.         0.    "MPFCLR,Clear fault" "No effect,Clear"
group.long 0x280++0x3 "Prefetch Priority Register"
line.long 0. "MDMAARBX,MDMA Arbitration Priority Register"
bitfld.long  0.  16.--18.    "PRI,Priority" "0 (highest),1,2,3,4,5,6,7 (lowest)"
rgroup.long 0x300++0x3 "Prefetch Buffer Registers"
line.long 0. "XPFCMD,Prefetch Command Register"
bitfld.long        0.      4.    "ACRST,Analysis Counter Reset" "No effect,Reset"
hexmask.long.byte  0.  2.--3.    "ACEN,Analysis Counter Enable"
bitfld.long        0.      1.    "ACENL,Analysis Counter ENable (ACEN) Load" "False,True"
bitfld.long        0.      0.    "INV,Invalidate prefetch buffer contents" "No effect,Invalidate"
rgroup.long 0x304++0x3 "Prefetch Buffer Performance Analysis Registers"
line.long 0. "XPFACS,Prefetch Analysis Counter Status"
rgroup.long 0x310++0xF
line.long 0x0 "XPFAC0,Prefetch Analysis Counter 0"
line.long 0x4 "XPFAC1,Prefetch Analysis Counter 1"
line.long 0x8 "XPFAC2,Prefetch Analysis Counter 2"
line.long 0xC "XPFAC3,Prefetch Analysis Counter 3"
rgroup.long 0x400++0x1F
line.long 0x0 "XPFADDR0,Prefetch Address for Slot 0"
line.long 0x4 "XPFADDR1,Prefetch Address for Slot 1"
line.long 0x8 "XPFADDR2,Prefetch Address for Slot 2"
line.long 0xC "XPFADDR3,Prefetch Address for Slot 3"
line.long 0x10 "XPFADDR4,Prefetch Address for Slot 4"
line.long 0x14 "XPFADDR5,Prefetch Address for Slot 5"
line.long 0x18 "XPFADDR6,Prefetch Address for Slot 6"
line.long 0x1C "XPFADDR7,Prefetch Address for Slot 7"
AUTOINDENT.OFF
width 0xb
tree.end
tree "Bandwith Management"
width 13.
base d:0x01841000
group.long 0x40++0xf "L1D"
line.long 0x00 "CPUARBD,L1D CPU Arbitration Control Register"
bitfld.long 0x00 16.--18. " PRI     ,Priority field" "Highest,Priority 1,Priority 2,Priority 3,Priority 4,Priority 5,Priority 6,Lowest"
bitfld.long 0x00 0.--5. "  MAXWAIT ,Maximum wait time in EMC cycles" "Highest,1 cycle,2 cycles,,4 cycles,,,,8 cycles,,,,,,,,16 cycles,,,,,,,,,,,,,,,,32 cycles,..."
line.long 0x04 "IDMAARBD,L1D IDMA Arbitration Control Register"
bitfld.long 0x04 0.--5. " MAXWAIT ,Maximum wait time in EMC cycles" "Highest,1 cycle,2 cycles,,4 cycles,,,,8 cycles,,,,,,,,16 cycles,,,,,,,,,,,,,,,,32 cycles,..."
line.long 0x08 "SDMAARBD,L1D Slave DMA Arbitration Control Register"
bitfld.long 0x08 0.--5. " MAXWAIT ,Maximum wait time in EMC cycles" "Highest,1 cycle,2 cycles,,4 cycles,,,,8 cycles,,,,,,,,16 cycles,,,,,,,,,,,,,,,,32 cycles,..."
line.long 0x0c "UCARBD,L1D User Coherence Arbitration Control Register"
bitfld.long 0x0c 0.--5. " MAXWAIT ,Maximum wait time in EMC cycles" "Highest,1 cycle,2 cycles,,4 cycles,,,,8 cycles,,,,,,,,16 cycles,,,,,,,,,,,,,,,,32 cycles,..."
width 13.
group.long 0x00++0xf "L2"
line.long 0x00 "CPUARBU,L2D CPU Arbitration Control Register"
bitfld.long 0x00 16.--18. " PRI     ,Priority field" "Highest,Priority 1,Priority 2,Priority 3,Priority 4,Priority 5,Priority 6,Lowest"
bitfld.long 0x00 0.--5. "  MAXWAIT ,Maximum wait time in EMC cycles" "Highest,1 cycle,2 cycles,,4 cycles,,,,8 cycles,,,,,,,,16 cycles,,,,,,,,,,,,,,,,32 cycles,..."
line.long 0x04 "IDMAARBU,L1D IDMA Arbitration Control Register"
bitfld.long 0x04 0.--5. " MAXWAIT ,Maximum wait time in EMC cycles" "Highest,1 cycle,2 cycles,,4 cycles,,,,8 cycles,,,,,,,,16 cycles,,,,,,,,,,,,,,,,32 cycles,..."
line.long 0x08 "SDMAARBU,L1D Slave DMA Arbitration Control Register"
bitfld.long 0x08 0.--5. " MAXWAIT ,Maximum wait time in EMC cycles" "Highest,1 cycle,2 cycles,,4 cycles,,,,8 cycles,,,,,,,,16 cycles,,,,,,,,,,,,,,,,32 cycles,..."
line.long 0x0c "UCARBU,L1D User Coherence Arbitration Control Register"
bitfld.long 0x0c 0.--5. " MAXWAIT ,Maximum wait time in EMC cycles" "Highest,1 cycle,2 cycles,,4 cycles,,,,8 cycles,,,,,,,,16 cycles,,,,,,,,,,,,,,,,32 cycles,..."
width 13.
base d:0x01820000
group.long 0x200++0xf "EMC"
line.long 0x00 "CPUARBE,EMC CPU Arbitration Control Register"
bitfld.long 0x00 16.--18. " PRI     ,Priority field" "Highest,Priority 1,Priority 2,Priority 3,Priority 4,Priority 5,Priority 6,Lowest"
bitfld.long 0x00 0.--5. "  MAXWAIT ,Maximum wait time in EMC cycles" "Highest,1 cycle,2 cycles,,4 cycles,,,,8 cycles,,,,,,,,16 cycles,,,,,,,,,,,,,,,,32 cycles,..."
line.long 0x04 "IDMAARBE,EMC IDMA Arbitration Control Register"
bitfld.long 0x04 0.--5. " MAXWAIT ,Maximum wait time in EMC cycles" "Highest,1 cycle,2 cycles,,4 cycles,,,,8 cycles,,,,,,,,16 cycles,,,,,,,,,,,,,,,,32 cycles,..."
line.long 0x08 "SDMAARBE,EMC Slave DMA Arbitration Control Register"
bitfld.long 0x08 0.--5. " MAXWAIT ,Maximum wait time in EMC cycles" "Highest,1 cycle,2 cycles,,4 cycles,,,,8 cycles,,,,,,,,16 cycles,,,,,,,,,,,,,,,,32 cycles,..."
line.long 0x0c "MDMAARBE,EMC Master DMA Arbitration Control Register"
bitfld.long 0x0c 16.--18. " PRI     ,Priority field" "Highest,Priority 1,Priority 2,Priority 3,Priority 4,Priority 5,Priority 6,Lowest"
width 0xb
tree.end
tree "Interrupt Controller"
width 11.
base d:0x01800000
group.long 0x00++0xf
line.long 0x00 "EVTFLAG0,Event Flag Register 0"
setclrfld.long 0x00 14. 0x20 14. 0x40 14. " EF14_set/clr  ,State of event EVT14" "Not occurred,Occurred"
setclrfld.long 0x00 13. 0x20 13. 0x40 13. "  EF13_set/clr  ,State of event EVT13" "Not occurred,Occurred"
textline "                    "
setclrfld.long 0x00 12. 0x20 12. 0x40 12. " EF12_set/clr  ,State of event EVT12" "Not occurred,Occurred"
setclrfld.long 0x00 11. 0x20 11. 0x40 11. "  EF11_set/clr  ,State of event EVT11" "Not occurred,Occurred"
textline "                    "
setclrfld.long 0x00 9. 0x20 9. 0x40 9. " EF9_set/clr   ,State of event EVT9" "Not occurred,Occurred"
setclrfld.long 0x00 8. 0x20 8. 0x40 8. "  EF8_set/clr   ,State of event EVT8" "Not occurred,Occurred"
textline "                    "
setclrfld.long 0x00 7. 0x20 7. 0x40 7. " EF7_set/clr   ,State of event EVT7" "Not occurred,Occurred"
setclrfld.long 0x00 6. 0x20 6. 0x40 6. "  EF6_set/clr   ,State of event EVT6" "Not occurred,Occurred"
textline "                    "
setclrfld.long 0x00 5. 0x20 5. 0x40 5. " EF5_set/clr   ,State of event EVT5" "Not occurred,Occurred"
setclrfld.long 0x00 4. 0x20 4. 0x40 4. "  EF4_set/clr   ,State of event EVT4" "Not occurred,Occurred"
textline "                    "
setclrfld.long 0x00 3. 0x20 3. 0x40 3. " EF3_set/clr   ,State of event EVT3" "Not occurred,Occurred"
setclrfld.long 0x00 2. 0x20 2. 0x40 2. "  EF2_set/clr   ,State of event EVT2" "Not occurred,Occurred"
textline "                    "
setclrfld.long 0x00 1. 0x20 1. 0x40 1. " EF1_set/clr   ,State of event EVT1" "Not occurred,Occurred"
setclrfld.long 0x00 0. 0x20 0. 0x40 0. "  EF0_set/clr   ,State of event EVT0" "Not occurred,Occurred"
line.long 0x04 "EVTFLAG1,Event Flag Register 1"
setclrfld.long 0x04 28. 0x24 28. 0x44 28. " EF60_set/clr  ,State of event EVT60" "Not occurred,Occurred"
setclrfld.long 0x04 27. 0x24 27. 0x44 27. "  EF59_set/clr  ,State of event EVT59" "Not occurred,Occurred"
textline "                    "
setclrfld.long 0x04 24. 0x24 24. 0x44 24. " EF56_set/clr  ,State of event EVT56" "Not occurred,Occurred"
setclrfld.long 0x04 23. 0x24 23. 0x44 23. "  EF55_set/clr  ,State of event EVT55" "Not occurred,Occurred"
textline "                    "
setclrfld.long 0x04 22. 0x24 22. 0x44 22. " EF54_set/clr  ,State of event EVT54" "Not occurred,Occurred"
setclrfld.long 0x04 21. 0x24 21. 0x44 21. "  EF53_set/clr  ,State of event EVT53" "Not occurred,Occurred"
textline "                    "
setclrfld.long 0x04 19. 0x24 19. 0x44 19. " EF51_set/clr  ,State of event EVT51" "Not occurred,Occurred"
setclrfld.long 0x04 18. 0x24 18. 0x44 18. "  EF50_set/clr  ,State of event EVT50" "Not occurred,Occurred"
textline "                    "
setclrfld.long 0x04 17. 0x24 17. 0x44 17. " EF49_set/clr  ,State of event EVT49" "Not occurred,Occurred"
setclrfld.long 0x04 16. 0x24 16. 0x44 16. "  EF48_set/clr  ,State of event EVT48" "Not occurred,Occurred"
textline "                    "
setclrfld.long 0x04 15. 0x24 15. 0x44 15. " EF47_set/clr  ,State of event EVT47" "Not occurred,Occurred"
setclrfld.long 0x04 11. 0x24 11. 0x44 11. "  EF43_set/clr  ,State of event EVT43" "Not occurred,Occurred"
textline "                    "
setclrfld.long 0x04 9. 0x24 9. 0x44 9. " EF41_set/clr  ,State of event EVT41" "Not occurred,Occurred"
setclrfld.long 0x04 8. 0x24 8. 0x44 8. "  EF40_set/clr  ,State of event EVT40" "Not occurred,Occurred"
textline "                    "
setclrfld.long 0x04 7. 0x24 7. 0x44 7. " EF39_set/clr  ,State of event EVT39" "Not occurred,Occurred"
setclrfld.long 0x04 6. 0x24 6. 0x44 6. "  EF38_set/clr  ,State of event EVT38" "Not occurred,Occurred"
textline "                    "
setclrfld.long 0x04 5. 0x24 5. 0x44 5. " EF37_set/clr  ,State of event EVT37" "Not occurred,Occurred"
setclrfld.long 0x04 4. 0x24 4. 0x44 4. "  EF36_set/clr  ,State of event EVT36" "Not occurred,Occurred"
textline "                    "
setclrfld.long 0x04 3. 0x24 3. 0x44 3. " EF35_set/clr  ,State of event EVT35" "Not occurred,Occurred"
setclrfld.long 0x04 2. 0x24 2. 0x44 2. "  EF34_set/clr  ,State of event EVT34" "Not occurred,Occurred"
line.long 0x08 "EVTFLAG2,Event Flag Register 2"
setclrfld.long 0x08 21. 0x28 21. 0x48 21. " EF85_set/clr  ,State of event EVT85" "Not occurred,Occurred"
setclrfld.long 0x08 20. 0x28 20. 0x48 20. "  EF84_set/clr  ,State of event EVT84" "Not occurred,Occurred"
textline "                    "
setclrfld.long 0x08 19. 0x28 19. 0x48 19. " EF83_set/clr  ,State of event EVT83" "Not occurred,Occurred"
setclrfld.long 0x08 18. 0x28 18. 0x48 18. "  EF82_set/clr  ,State of event EVT82" "Not occurred,Occurred"
textline "                    "
setclrfld.long 0x08 17. 0x28 17. 0x48 17. " EF81_set/clr  ,State of event EVT81" "Not occurred,Occurred"
setclrfld.long 0x08 16. 0x28 16. 0x48 16. "  EF80_set/clr  ,State of event EVT80" "Not occurred,Occurred"
textline "                    "
setclrfld.long 0x08 14. 0x28 14. 0x48 14. " EF78_set/clr  ,State of event EVT78" "Not occurred,Occurred"
setclrfld.long 0x08 13. 0x28 13. 0x48 13. "  EF77_set/clr  ,State of event EVT77" "Not occurred,Occurred"
textline "                    "
setclrfld.long 0x08 12. 0x28 12. 0x48 12. " EF76_set/clr  ,State of event EVT76" "Not occurred,Occurred"
setclrfld.long 0x08 11. 0x28 11. 0x48 11. "  EF75_set/clr  ,State of event EVT75" "Not occurred,Occurred"
textline "                    "
setclrfld.long 0x08 10. 0x28 10. 0x48 10. " EF74_set/clr  ,State of event EVT74" "Not occurred,Occurred"
setclrfld.long 0x08 9. 0x28 9. 0x48 9. "  EF73_set/clr  ,State of event EVT73" "Not occurred,Occurred"
textline "                    "
setclrfld.long 0x08 8. 0x28 8. 0x48 8. " EF72_set/clr  ,State of event EVT72" "Not occurred,Occurred"
setclrfld.long 0x08 7. 0x28 7. 0x48 7. "  EF71_set/clr  ,State of event EVT71" "Not occurred,Occurred"
textline "                    "
setclrfld.long 0x08 6. 0x28 6. 0x48 6. " EF70_set/clr  ,State of event EVT70" "Not occurred,Occurred"
setclrfld.long 0x08 5. 0x28 5. 0x48 5. "  EF69_set/clr  ,State of event EVT69" "Not occurred,Occurred"
textline "                    "
setclrfld.long 0x08 4. 0x28 4. 0x48 4. " EF68_set/clr  ,State of event EVT68" "Not occurred,Occurred"
setclrfld.long 0x08 3. 0x28 3. 0x48 3. "  EF67_set/clr  ,State of event EVT67" "Not occurred,Occurred"
textline "                    "
setclrfld.long 0x08 2. 0x28 2. 0x48 2. " EF66_set/clr  ,State of event EVT66" "Not occurred,Occurred"
setclrfld.long 0x08 1. 0x28 1. 0x48 1. "  EF65_set/clr  ,State of event EVT65" "Not occurred,Occurred"
textline "                    "
setclrfld.long 0x08 0. 0x28 0. 0x48 0. " EF64_set/clr  ,State of event EVT64" "Not occurred,Occurred"
line.long 0x0c "EVTFLAG3,Event Flag Register 3"
setclrfld.long 0x0c 31. 0x2c 31. 0x4c 31. " EF127_set/clr ,State of event EVT127" "Not occurred,Occurred"
setclrfld.long 0x0c 30. 0x2c 30. 0x4c 30. "  EF126_set/clr ,State of event EVT126" "Not occurred,Occurred"
textline "                    "
setclrfld.long 0x0c 29. 0x2c 29. 0x4c 29. " EF125_set/clr ,State of event EVT125" "Not occurred,Occurred"
setclrfld.long 0x0c 28. 0x2c 28. 0x4c 28. "  EF124_set/clr ,State of event EVT124" "Not occurred,Occurred"
textline "                    "
setclrfld.long 0x0c 27. 0x2c 27. 0x4c 27. " EF123_set/clr ,State of event EVT123" "Not occurred,Occurred"
setclrfld.long 0x0c 26. 0x2c 26. 0x4c 26. "  EF122_set/clr ,State of event EVT122" "Not occurred,Occurred"
textline "                    "
setclrfld.long 0x0c 25. 0x2c 25. 0x4c 25. " EF121_set/clr ,State of event EVT121" "Not occurred,Occurred"
setclrfld.long 0x0c 24. 0x2c 24. 0x4c 24. "  EF120_set/clr ,State of event EVT120" "Not occurred,Occurred"
textline "                    "
setclrfld.long 0x0c 23. 0x2c 23. 0x4c 23. " EF119_set/clr ,State of event EVT119" "Not occurred,Occurred"
setclrfld.long 0x0c 22. 0x2c 22. 0x4c 22. "  EF118_set/clr ,State of event EVT118" "Not occurred,Occurred"
textline "                    "
setclrfld.long 0x0c 21. 0x2c 21. 0x4c 21. " EF117_set/clr ,State of event EVT117" "Not occurred,Occurred"
setclrfld.long 0x0c 20. 0x2c 20. 0x4c 20. "  EF116_set/clr ,State of event EVT116" "Not occurred,Occurred"
textline "                    "
setclrfld.long 0x0c 17. 0x2c 17. 0x4c 17. " EF113_set/clr ,State of event EVT113" "Not occurred,Occurred"
setclrfld.long 0x0c 1. 0x2c 1. 0x4c 1. "  EF97_set/clr  ,State of event EVT97" "Not occurred,Occurred"
textline "                    "
setclrfld.long 0x0c 0. 0x2c 0. 0x4c 0. " EF96_set/clr  ,State of event EVT96" "Not occurred,Occurred"
width 11.
group.long 0x80++0xf
line.long 0x00 "EVTMASK0,Event Mask Register 0"
bitfld.long 0x00 14. " EM14  ,Disables event EVT14 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x00 13. "  EM13  ,Disables event EVT13 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x00 12. "  EM12  ,Disables event EVT12 from being used as input to the event combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x00 11. " EM11  ,Disables event EVT11 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x00 9. "  EM9   ,Disables event EVT9 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x00 8. "  EM8   ,Disables event EVT8 from being used as input to the event combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x00 7. " EM7   ,Disables event EVT7 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x00 6. "  EM6   ,Disables event EVT6 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x00 5. "  EM5   ,Disables event EVT5 from being used as input to the event combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x00 4. " EM4   ,Disables event EVT4 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x00 3. "  EM3   ,Disables event EVT3 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x00 2. "  EM2   ,Disables event EVT2 from being used as input to the event combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x00 1. " EM1   ,Disables event EVT1 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x00 0. "  EM0   ,Disables event EVT0 from being used as input to the event combiner" "Combined,Disabled"
line.long 0x04 "EVTMASK1,Event Mask Register 1"
bitfld.long 0x04 28. " EM60  ,Disables event EVT60 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x04 27. "  EM59  ,Disables event EVT59 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x04 24. "  EM56  ,Disables event EVT56 from being used as input to the event combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x04 23. " EM55  ,Disables event EVT55 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x04 22. "  EM54  ,Disables event EVT54 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x04 21. "  EM53  ,Disables event EVT53 from being used as input to the event combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x04 19. " EM51  ,Disables event EVT51 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x04 18. "  EM50  ,Disables event EVT50 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x04 17. "  EM49  ,Disables event EVT49 from being used as input to the event combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x04 16. " EM48  ,Disables event EVT48 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x04 15. "  EM47  ,Disables event EVT47 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x04 11. "  EM43  ,Disables event EVT43 from being used as input to the event combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x04 9. " EM41  ,Disables event EVT41 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x04 8. "  EM40  ,Disables event EVT40 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x04 7. "  EM39  ,Disables event EVT39 from being used as input to the event combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x04 6. " EM38  ,Disables event EVT38 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x04 5. "  EM37  ,Disables event EVT37 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x04 4. "  EM36  ,Disables event EVT36 from being used as input to the event combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x04 3. " EM35  ,Disables event EVT35 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x04 2. "  EM34  ,Disables event EVT34 from being used as input to the event combiner" "Combined,Disabled"
line.long 0x08 "EVTMASK2,Event Mask Register 2"
bitfld.long 0x08 21. " EM85  ,Disables event EVT85 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x08 20. "  EM84  ,Disables event EVT84 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x08 19. "  EM83  ,Disables event EVT83 from being used as input to the event combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x08 18. " EM82  ,Disables event EVT82 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x08 17. "  EM81  ,Disables event EVT81 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x08 16. "  EM80  ,Disables event EVT80 from being used as input to the event combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x08 14. " EM78  ,Disables event EVT78 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x08 13. "  EM77  ,Disables event EVT77 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x08 12. "  EM76  ,Disables event EVT76 from being used as input to the event combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x08 11. " EM75  ,Disables event EVT75 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x08 10. "  EM74  ,Disables event EVT74 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x08 9. "  EM73  ,Disables event EVT73 from being used as input to the event combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x08 8. " EM72  ,Disables event EVT72 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x08 7. "  EM71  ,Disables event EVT71 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x08 6. "  EM70  ,Disables event EVT70 from being used as input to the event combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x08 5. " EM69  ,Disables event EVT69 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x08 4. "  EM68  ,Disables event EVT68 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x08 3. "  EM67  ,Disables event EVT67 from being used as input to the event combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x08 2. " EM66  ,Disables event EVT66 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x08 1. "  EM65  ,Disables event EVT65 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x08 0. "  EM64  ,Disables event EVT64 from being used as input to the event combiner" "Combined,Disabled"
line.long 0x0c "EVTMASK3,Event Mask Register 3"
bitfld.long 0x0c 31. " EM127 ,Disables event EVT127 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x0c 30. "  EM126 ,Disables event EVT126 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x0c 29. "  EM125 ,Disables event EVT125 from being used as input to the event combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x0c 28. " EM124 ,Disables event EVT124 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x0c 27. "  EM123 ,Disables event EVT123 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x0c 26. "  EM122 ,Disables event EVT122 from being used as input to the event combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x0c 25. " EM121 ,Disables event EVT121 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x0c 24. "  EM120 ,Disables event EVT120 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x0c 23. "  EM119 ,Disables event EVT119 from being used as input to the event combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x0c 22. " EM118 ,Disables event EVT118 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x0c 21. "  EM117 ,Disables event EVT117 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x0c 20. "  EM116 ,Disables event EVT116 from being used as input to the event combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x0c 17. " EM113 ,Disables event EVT113 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x0c 1. "  EM97  ,Disables event EVT97 from being used as input to the event combiner" "Combined,Disabled"
bitfld.long 0x0c 0. "  EM96  ,Disables event EVT96 from being used as input to the event combiner" "Combined,Disabled"
group.long 0xc0++0xf
line.long 0x00 "EXPMASK0,Exception Mask Register 0"
bitfld.long 0x00 14. " XM14  ,Event EVT14 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x00 13. "  XM13  ,Event EVT13 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x00 12. "  XM12  ,Event EVT12 disabled from being used in the exception combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x00 11. " XM11  ,Event EVT11 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x00 9. "  XM9   ,Event EVT9 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x00 8. "  XM8   ,Event EVT8 disabled from being used in the exception combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x00 7. " XM7   ,Event EVT7 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x00 6. "  XM6   ,Event EVT6 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x00 5. "  XM5   ,Event EVT5 disabled from being used in the exception combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x00 4. " XM4   ,Event EVT4 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x00 3. "  XM3   ,Event EVT3 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x00 2. "  XM2   ,Event EVT2 disabled from being used in the exception combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x00 1. " XM1   ,Event EVT1 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x00 0. "  XM0   ,Event EVT0 disabled from being used in the exception combiner" "Combined,Disabled"
line.long 0x04 "EXPMASK1,Exception Mask Register 1"
bitfld.long 0x04 28. " XM60  ,Event EVT60 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x04 27. "  XM59  ,Event EVT59 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x04 24. "  XM56  ,Event EVT56 disabled from being used in the exception combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x04 23. " XM55  ,Event EVT55 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x04 22. "  XM54  ,Event EVT54 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x04 21. "  XM53  ,Event EVT53 disabled from being used in the exception combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x04 19. " XM51  ,Event EVT51 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x04 18. "  XM50  ,Event EVT50 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x04 17. "  XM49  ,Event EVT49 disabled from being used in the exception combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x04 16. " XM48  ,Event EVT48 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x04 15. "  XM47  ,Event EVT47 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x04 11. "  XM43  ,Event EVT43 disabled from being used in the exception combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x04 9. " XM41  ,Event EVT41 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x04 8. "  XM40  ,Event EVT40 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x04 7. "  XM39  ,Event EVT39 disabled from being used in the exception combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x04 6. " XM38  ,Event EVT38 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x04 5. "  XM37  ,Event EVT37 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x04 4. "  XM36  ,Event EVT36 disabled from being used in the exception combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x04 3. " XM35  ,Event EVT35 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x04 2. "  XM34  ,Event EVT34 disabled from being used in the exception combiner" "Combined,Disabled"
line.long 0x08 "EXPMASK2,Exception Mask Register 2"
bitfld.long 0x08 21. " XM85  ,Event EVT85 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x08 20. "  XM84  ,Event EVT84 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x08 19. "  XM83  ,Event EVT83 disabled from being used in the exception combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x08 18. " XM82  ,Event EVT82 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x08 17. "  XM81  ,Event EVT81 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x08 16. "  XM80  ,Event EVT80 disabled from being used in the exception combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x08 14. " XM78  ,Event EVT78 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x08 13. "  XM77  ,Event EVT77 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x08 12. "  XM76  ,Event EVT76 disabled from being used in the exception combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x08 11. " XM75  ,Event EVT75 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x08 10. "  XM74  ,Event EVT74 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x08 9. "  XM73  ,Event EVT73 disabled from being used in the exception combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x08 8. " XM72  ,Event EVT72 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x08 7. "  XM71  ,Event EVT71 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x08 6. "  XM70  ,Event EVT70 disabled from being used in the exception combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x08 5. " XM69  ,Event EVT69 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x08 4. "  XM68  ,Event EVT68 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x08 3. "  XM67  ,Event EVT67 disabled from being used in the exception combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x08 2. " XM66  ,Event EVT66 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x08 1. "  XM65  ,Event EVT65 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x08 0. "  XM64  ,Event EVT64 disabled from being used in the exception combiner" "Combined,Disabled"
line.long 0x0c "EXPMASK3,Exception Mask Register 3"
bitfld.long 0x0c 31. " XM127 ,Event EVT127 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x0c 30. "  XM126 ,Event EVT126 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x0c 29. "  XM125 ,Event EVT125 disabled from being used in the exception combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x0c 28. " XM124 ,Event EVT124 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x0c 27. "  XM123 ,Event EVT123 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x0c 26. "  XM122 ,Event EVT122 disabled from being used in the exception combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x0c 25. " XM121 ,Event EVT121 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x0c 24. "  XM120 ,Event EVT120 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x0c 23. "  XM119 ,Event EVT119 disabled from being used in the exception combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x0c 22. " XM118 ,Event EVT118 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x0c 21. "  XM117 ,Event EVT117 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x0c 20. "  XM116 ,Event EVT116 disabled from being used in the exception combiner" "Combined,Disabled"
textline "                    "
bitfld.long 0x0c 17. " XM113 ,Event EVT113 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x0c 1. "  XM97  ,Event EVT97 disabled from being used in the exception combiner" "Combined,Disabled"
bitfld.long 0x0c 0. "  XM96  ,Event EVT96 disabled from being used in the exception combiner" "Combined,Disabled"
width 11.
rgroup.long 0xa0++0xf
line.long 0x00 "MEVTFLAG0,Masked Event Flag Register 0"
hexmask.long 0x00 0.--31. 1. " MEF[31:0]   ,Displays content of EF when EM=0"
line.long 0x04 "MEVTFLAG1,Masked Event Flag Register 1"
hexmask.long 0x04 0.--31. 1. " MEF[63:32]  ,Displays content of EF when EM=0"
line.long 0x08 "MEVTFLAG2,Masked Event Flag Register 2"
hexmask.long 0x08 0.--31. 1. " MEF[95:64]  ,Displays content of EF when EM=0"
line.long 0x0c "MEVTFLAG3,Masked Event Flag Register 3"
hexmask.long 0x0c 0.--31. 1. " MEF[127:96] ,Displays content of EF when EM=0"
rgroup.long 0xe0++0xf
line.long 0x00 "MEXPFLAG0,Masked Exception Flag Register 0"
line.long 0x04 "MEXPFLAG1,Masked ExceptionFlag Register 1"
line.long 0x08 "MEXPFLAG2,Masked Exception Flag Register 2"
line.long 0x0c "MEXPFLAG3,Masked Exception Flag Register 3"
width 11.
group.long 0x104++0xb
line.long 0x00 "INTMUX1,Interrupt Mux Register 1"
hexmask.long.byte 0x00 24.--30. 1. " INTSEL7  ,Number of the event that maps to CPUINT7"
hexmask.long.byte 0x00 16.--22. 1. "  INTSEL6  ,Number of the event that maps to CPUINT6"
hexmask.long.byte 0x00 8.--14. 1. "  INTSEL5  ,Number of the event that maps to CPUINT5"
hexmask.long.byte 0x00 0.--6. 1. "  INTSEL4  ,Number of the event that maps to CPUINT4"
line.long 0x04 "INTMUX2,Interrupt Mux Register 2"
hexmask.long.byte 0x04 24.--30. 1. " INTSEL11 ,Number of the event that maps to CPUINT11"
hexmask.long.byte 0x04 16.--22. 1. "  INTSEL10 ,Number of the event that maps to CPUINT10"
hexmask.long.byte 0x04 8.--14. 1. "  INTSEL9  ,Number of the event that maps to CPUINT9"
hexmask.long.byte 0x04 0.--6. 1. "  INTSEL8  ,Number of the event that maps to CPUINT8"
line.long 0x08 "INTMUX3,Interrupt Mux Register 3"
hexmask.long.byte 0x08 24.--30. 1. " INTSEL15 ,Number of the event that maps to CPUINT15"
hexmask.long.byte 0x08 16.--22. 1. "  INTSEL14 ,Number of the event that maps to CPUINT14"
hexmask.long.byte 0x08 8.--14. 1. "  INTSEL13 ,Number of the event that maps to CPUINT13"
hexmask.long.byte 0x08 0.--6. 1. "  INTSEL12 ,Number of the event that maps to CPUINT12"
rgroup.long 0x180++0x3
line.long 0x00 "INTXSTAT,Interrupt Exception Status Register"
hexmask.long.byte 0x00 24.--31. 1. " SYSINT   ,System Event number"
hexmask.long.byte 0x00 16.--23. 1. "  CPUINT   ,CPU interrupt number"
bitfld.long 0x00 0. "  DROP     ,Dropped event flag" "No event dropped,Event dropped"
width 11.
wgroup.long 0x184++0x3
line.long 0x00 "INTXCLR,Interrupt Exception Clear Register"
bitfld.long 0x00 0. " CLEAR ,Clears the interrupt exception status" "No effect,Cleared"
rgroup.long 0x188++0x3
line.long 0x00 "INTDMASK,Dropped Interrupt Mask Register"
bitfld.long 0x00 15. " IDM15 ,Disables CPUINT15 from being detected by the drop detection hardware" "No effect,Ignored"
bitfld.long 0x00 14. "  IDM14 ,Disables CPUINT14 from being detected by the drop detection hardware" "No effect,Ignored"
bitfld.long 0x00 13. "  IDM13 ,Disables CPUINT13 from being detected by the drop detection hardware" "No effect,Ignored"
textline "                    "
bitfld.long 0x00 12. " IDM12 ,Disables CPUINT12 from being detected by the drop detection hardware" "No effect,Ignored"
bitfld.long 0x00 11. "  IDM11 ,Disables CPUINT11 from being detected by the drop detection hardware" "No effect,Ignored"
bitfld.long 0x00 10. "  IDM10 ,Disables CPUINT10 from being detected by the drop detection hardware" "No effect,Ignored"
textline "                    "
bitfld.long 0x00 9. " IDM9  ,Disables CPUINT9 from being detected by the drop detection hardware" "No effect,Ignored"
bitfld.long 0x00 8. "  IDM8  ,Disables CPUINT8 from being detected by the drop detection hardware" "No effect,Ignored"
bitfld.long 0x00 7. "  IDM7  ,Disables CPUINT7 from being detected by the drop detection hardware" "No effect,Ignored"
textline "                    "
bitfld.long 0x00 6. " IDM6  ,Disables CPUINT6 from being detected by the drop detection hardware" "No effect,Ignored"
bitfld.long 0x00 5. "  IDM5  ,Disables CPUINT5 from being detected by the drop detection hardware" "No effect,Ignored"
bitfld.long 0x00 4. "  IDM4  ,Disables CPUINT4 from being detected by the drop detection hardware" "No effect,Ignored"
width 11.
group.long 0x140++0x07
line.long 0x00 "AEGMUX0,Advanced Event Generator Mux Registers"
hexmask.long.byte 0x00 24.--31. 1. " AEGSEL3 ,Advanced Event Generator Select"
hexmask.long.byte 0x00 16.--23. 1. "  AEGSEL2 ,Advanced Event Generator Select"
hexmask.long.byte 0x00 8.--15. 1. "  AEGSEL1 ,Advanced Event Generator Select"
hexmask.long.byte 0x00 0.--7. 1. "  AEGSEL0 ,Advanced Event Generator Select"
line.long 0x04 "AEGMUX1,Advanced Event Generator Mux Registers"
hexmask.long.byte 0x04 24.--31. 1. " AEGSEL7 ,Advanced Event Generator Select"
hexmask.long.byte 0x04 16.--23. 1. "  AEGSEL6 ,Advanced Event Generator Select"
hexmask.long.byte 0x04 8.--15. 1. "  AEGSEL5 ,Advanced Event Generator Select"
hexmask.long.byte 0x04 0.--7. 1. "  AEGSEL4 ,Advanced Event Generator Select"
width 0xb
tree.end
tree "Power-Down Controller"
width 8.
base d:0x01810000
group.long 0x00++0x3
line.long 0x00 "PDCCMD,Power-Down Controller Command Register"
bitfld.long 0x00 16. " MEGPD ,Power-down during IDLE" "Normal,Sleep mode"
width 0xb
tree.end
tree.end
AUTOINDENT.POP
endif
tree.open "PRCM"
tree "CM_CORE_AON__MPU"
base ad:0x4A005300
width 28.
group.long 0x0++0x3
line.long 0x00 "CM_MPU_CLKSTCTRL,This register enables the MPU domain power state transition. It controls the HW supervised domain power state transition between ON-ACTIVE and ON-INACTIVE states. It also hold one status bit per clock input of the domain."
bitfld.long 0x00 8. " CLKACTIVITY_MPU_GCLK ,This field indicates the state of the MPU_DPLL_CLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 0.--1. "                   CLKTRCTRL            ,Controls the clock state transition of the MPU clock domain. - NO_SLEEP. - RESERVED_1. - SW_WKUP. - HW_AUTO." "NO_SLEEP,RESERVED_1,SW_WKUP,HW_AUTO"
group.long 0x4++0x3
line.long 0x00 "CM_MPU_STATICDEP,This register controls the static domain depedencies from MPU domain towards 'target' domains. It is relevant only for domain having system initiator(s)."
bitfld.long 0x00 29. " PCIE_STATDEP         ,Static dependency towards PCIE clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 28. "                VPE_STATDEP          ,Static dependency towards VPE clock domain - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 27. "  L4PER3_STATDEP  ,Static dependency towards L4PER3 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                     "
bitfld.long 0x00 26. " L4PER2_STATDEP       ,Static dependency towards L4PER2 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 25. "                GMAC_STATDEP         ,Static dependency towards GMAC clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 24. "                IPU_STATDEP     ,Static dependency towards IPU clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                     "
bitfld.long 0x00 23. " IPU1_STATDEP         ,Static dependency towards IPU1 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 22. "                EVE4_STATDEP         ,Static dependency towards EVE4 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 21. "                EVE3_STATDEP    ,Static dependency towards EVE3 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                     "
bitfld.long 0x00 20. " EVE2_STATDEP         ,Static dependency towards EVE2 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 19. "                EVE1_STATDEP         ,Static dependency towards EVE1 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 18. "                DSP2_STATDEP    ,Static dependency towards DSP2 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                     "
bitfld.long 0x00 17. " CUSTEFUSE_STATDEP    ,Static dependency towards CUSTEFUSE clock domain - DISABLED." "DISABLED,1"
bitfld.long 0x00 16. "                COREAON_STATDEP      ,Static dependency towards COREAON clock domain - DISABLED." "DISABLED,1"
bitfld.long 0x00 15. "                WKUPAON_STATDEP ,Static dependency towards WKUPAON clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                     "
bitfld.long 0x00 14. " L4SEC_STATDEP        ,Static dependency towards L4SEC clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 13. "                L4PER_STATDEP        ,Static dependency towards L4PER clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 12. "                L4CFG_STATDEP   ,Static dependency towards L4CFG clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                     "
bitfld.long 0x00 11. " SDMA_STATDEP         ,Static dependency towards SDMA clock domain - ." "Disabled,1"
bitfld.long 0x00 10. "                GPU_STATDEP          ,Static dependency towards GPU clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 9. "                CAM_STATDEP     ,Static dependency towards CAM clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                     "
bitfld.long 0x00 8. " DSS_STATDEP          ,Static dependency towards DSS clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                L3INIT_STATDEP       ,Static dependency towards L3INIT clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                L3MAIN1_STATDEP ,Static dependency towards L3MAIN clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                     "
bitfld.long 0x00 4. " EMIF_STATDEP         ,Static dependency towards EMIF clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 2. "                IVA_STATDEP          ,Static dependency towards IVA clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                DSP1_STATDEP    ,Static dependency towards DSP1 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                     "
bitfld.long 0x00 0. " IPU2_STATDEP         ,Static dependency towards IPU2 clock domain - . - ." "Dependency_is_disabled,Dependency_is_enabled"
group.long 0x8++0x3
line.long 0x00 "CM_MPU_DYNAMICDEP,This register controls the dynamic domain depedencies from MPU domain towards 'target' domains. It is relevant only for domain having OCP master port(s)."
bitfld.long 0x00 24.--27. " WINDOWSIZE           ,Size of sliding window used to monitor OCP interface activity for determination of auto-sleep feature. Time unit defined byCM_DYN_DEP_PRESCAL register." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 5. "                      L3MAIN1_DYNDEP       ,Dynamic dependency towards L3MAIN1 clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 4. "                 EMIF_DYNDEP     ,Dynamic dependency towards EMIF clock domain - ENABLED." "0,ENABLED"
group.long 0x20++0x3
line.long 0x00 "CM_MPU_MPU_CLKCTRL,This register manages the MPU clocks."
bitfld.long 0x00 26. " CLKSEL_ABE_DIV_MODE  ,Selects the ratio for MPU - ABE async bridge versus MPU DPLL clock - DIV8. - DIV16." "DIV8,DIV16"
bitfld.long 0x00 24.--25. "                   CLKSEL_EMIF_DIV_MODE ,Selects the ratio for MPU - L3 async bridge versus MPU DPLL clock - DIV4A. - DIV4. - DIV8. - DIV8B." "DIV4A,DIV4,DIV8,DIV8B"
bitfld.long 0x00 18. "                   STBYST          ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
textline "                                     "
bitfld.long 0x00 16.--17. " IDLEST               ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                 MODULEMODE           ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
rgroup.long 0x28++0x3
line.long 0x00 "CM_MPU_MPU_MPU_DBG_CLKCTRL,This register manages the MPU_MPU_DBG clocks. [warm reset insensitive]"
bitfld.long 0x00 16.--17. " IDLEST               ,Module idle status - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                 MODULEMODE           ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
width 0x0B
tree.end
tree "DSP2_PRM"
base ad:0x4AE07B00
width 22.
group.long 0x0++0x3
line.long 0x00 "PM_DSP2_PWRSTCTRL,This register controls the DSP power state to reach upon a domain sleep transition"
bitfld.long 0x00 20.--21. " DSP2_EDMA_ONSTATE     ,DSP_EDMA state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
bitfld.long 0x00 18.--19. "      DSP2_L2_ONSTATE ,DSP_L2 state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
bitfld.long 0x00 16.--17. "      DSP2_L1_ONSTATE   ,DSP_L1 state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
textline "                               "
bitfld.long 0x00 4. " LOWPOWERSTATECHANGE   ,Power state change request when domain has already performed a sleep transition. Allows going into deeper low power state without waking up the power domain. - DIS. - EN." "DIS,EN"
bitfld.long 0x00 0.--1. "         POWERSTATE      ,Power state control - OFF. - RET. - INACT. - ON." "OFF,RET,INACT,ON"
group.long 0x4++0x3
line.long 0x00 "PM_DSP2_PWRSTST,This register provides a status on the DSP domain current power state. [warm reset insensitive]"
bitfld.long 0x00 24.--25. " LASTPOWERSTATEENTERED ,Last low power state entered. Set to 0x3 upon write of the same only. This register is intended for debug purpose only. - OFF. - RET. - INACTIVE. - ON." "OFF,RET,INACTIVE,ON"
bitfld.long 0x00 20. "    INTRANSITION    ,Domain transition status - NO. - ONGOING." "NO,ONGOING"
bitfld.long 0x00 8.--9. "     DSP2_EDMA_STATEST ,RSERVED - MEM_OFF. - MEM_RET. - RESERVED. - MEM_ON." "MEM_OFF,MEM_RET,RESERVED,MEM_ON"
textline "                               "
bitfld.long 0x00 6.--7. " DSP2_L2_STATEST       ,DSP_L2 memory state status - MEM_OFF. - MEM_RET. - RESERVED. - MEM_ON." "MEM_OFF,MEM_RET,RESERVED,MEM_ON"
bitfld.long 0x00 4.--5. "    DSP2_L1_STATEST ,DSP_L1 memory state status - MEM_OFF. - MEM_RET. - RESERVED. - MEM_ON." "MEM_OFF,MEM_RET,RESERVED,MEM_ON"
bitfld.long 0x00 2. "    LOGICSTATEST      ,Logic state status - OFF. - ON." "OFF,ON"
textline "                               "
bitfld.long 0x00 0.--1. " POWERSTATEST          ,Current power state status - OFF. - RET. - INACTIVE. - ON." "OFF,RET,INACTIVE,ON"
group.long 0x10++0x3
line.long 0x00 "RM_DSP2_RSTCTRL,This register controls the release of the DSP sub-system resets."
bitfld.long 0x00 1. " RST_DSP2              ,DSP SW reset control - CLEAR. - ASSERT." "CLEAR,ASSERT"
bitfld.long 0x00 0. "      RST_DSP2_LRST   ,DSP Local reset control - CLEAR. - ASSERT." "CLEAR,ASSERT"
group.long 0x14++0x3
line.long 0x00 "RM_DSP2_RSTST,This register logs the different reset sources of the DSP domain. Each bit is set upon release of the domain reset signal. Must be cleared by software. [warm reset insensitive]"
bitfld.long 0x00 3. " RST_DSP2_EMU_REQ      ,DSP processor has been reset due to DSP emulation reset request driven from DSP-SS - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
bitfld.long 0x00 2. "   RST_DSP2_EMU    ,DSP domain has been reset due to emulation reset source e.g. assert reset command initiated by the icepick module - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
bitfld.long 0x00 1. "   RST_DSP2          ,DSP SW reset status - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
textline "                               "
bitfld.long 0x00 0. " RST_DSP2_LRST         ,DSP Local SW reset - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
group.long 0x24++0x3
line.long 0x00 "RM_DSP2_DSP2_CONTEXT,This register contains dedicated DSP context statuses. [warm reset insensitive]"
bitfld.long 0x00 10. " LOSTMEM_DSP_EDMA      ,Specify if memory-based context in DSP_EDMA memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 9. "  LOSTMEM_DSP_L2  ,Specify if memory-based context in DSP_L2 memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 8. "  LOSTMEM_DSP_L1    ,Specify if memory-based context in DSP_L1 memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
textline "                               "
bitfld.long 0x00 0. " LOSTCONTEXT_DFF       ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of DSP_SYS_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
width 0x0B
tree.end
tree "WKUPAON_PRM"
base ad:0x4AE07700
width 32.
group.long 0x24++0x3
line.long 0x00 "RM_WKUPAON_L4_WKUP_CONTEXT,This register contains dedicated L4_WKUP context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF         ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of WKUPAON_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x30++0x3
line.long 0x00 "PM_WKUPAON_WD_TIMER2_WKDEP,This register controls wakeup dependency based on WD_TIMER2 service requests."
bitfld.long 0x00 9. " WKUPDEP_WD_TIMER2_EVE4  ,Wakeup dependency from TIMER module (SWakeup IRQ signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_WD_TIMER2_EVE3  ,Wakeup dependency from TIMER module (SWakeup IRQ signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_WD_TIMER2_EVE2  ,Wakeup dependency from TIMER module (SWakeup IRQ signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                         "
bitfld.long 0x00 6. " WKUPDEP_WD_TIMER2_EVE1  ,Wakeup dependency from TIMER module (SWakeup IRQ signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_WD_TIMER2_DSP2  ,Wakeup dependency from TIMER module (SWakeup IRQ signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_WD_TIMER2_IPU1  ,Wakeup dependency from TIMER module (SWakeup IRQ signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                         "
bitfld.long 0x00 2. " WKUPDEP_WD_TIMER2_DSP1  ,Wakeup dependency from TIMER module (SWakeup IRQ signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_WD_TIMER2_IPU2  ,Wakeup dependency from TIMER module (SWakeup IRQ signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_WD_TIMER2_MPU   ,Wakeup dependency from WDT2 module (SWakeup signal) towards MPU + L3MAIN1 + L4CFG domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x34++0x3
line.long 0x00 "RM_WKUPAON_WD_TIMER2_CONTEXT,This register contains dedicated WD_TIMER2 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF         ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of WKUPAON_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x38++0x3
line.long 0x00 "PM_WKUPAON_GPIO1_WKDEP,This register controls wakeup dependency based on GPIO1 service requests."
bitfld.long 0x00 19. " WKUPDEP_GPIO1_IRQ2_EVE4 ,Wakeup dependency from GPIO1 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 18. "                WKUPDEP_GPIO1_IRQ2_EVE3 ,Wakeup dependency from GPIO1 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 17. "                WKUPDEP_GPIO1_IRQ2_EVE2 ,Wakeup dependency from GPIO1 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                         "
bitfld.long 0x00 16. " WKUPDEP_GPIO1_IRQ2_EVE1 ,Wakeup dependency from GPIO1 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 15. "                WKUPDEP_GPIO1_IRQ2_DSP2 ,Wakeup dependency from GPIO1 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 14. "                WKUPDEP_GPIO1_IRQ2_IPU1 ,Wakeup dependency from GPIO1 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                         "
bitfld.long 0x00 12. " WKUPDEP_GPIO1_IRQ2_DSP1 ,Wakeup dependency from GPIO1 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 11. "                WKUPDEP_GPIO1_IRQ2_IPU2 ,Wakeup dependency from GPIO1 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 10. "  WKUPDEP_GPIO1_IRQ2_MPU  ,Wakeup dependency from GPIO1 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                         "
bitfld.long 0x00 9. " WKUPDEP_GPIO1_IRQ1_EVE4 ,Wakeup dependency from GPIO1 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_GPIO1_IRQ1_EVE3 ,Wakeup dependency from GPIO1 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_GPIO1_IRQ1_EVE2 ,Wakeup dependency from GPIO1 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                         "
bitfld.long 0x00 6. " WKUPDEP_GPIO1_IRQ1_EVE1 ,Wakeup dependency from GPIO1 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_GPIO1_IRQ1_DSP2 ,Wakeup dependency from GPIO1 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_GPIO1_IRQ1_IPU1 ,Wakeup dependency from GPIO1 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                         "
bitfld.long 0x00 2. " WKUPDEP_GPIO1_IRQ1_DSP1 ,Wakeup dependency from GPIO1 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_GPIO1_IRQ1_IPU2 ,Wakeup dependency from GPIO1 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_GPIO1_IRQ1_MPU  ,Wakeup dependency from GPIO1 module (SWakeup signal for POROCPSINTERRUPT1 ) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x3C++0x3
line.long 0x00 "RM_WKUPAON_GPIO1_CONTEXT,This register contains dedicated GPIO1 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF         ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of WKUPAON_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x40++0x3
line.long 0x00 "PM_WKUPAON_TIMER1_WKDEP,This register controls wakeup dependency based on TIMER1 service requests."
bitfld.long 0x00 9. " WKUPDEP_TIMER1_EVE4     ,Wakeup dependency from TIMER1 module (SWakeup IRQ signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_TIMER1_EVE3     ,Wakeup dependency from TIMER1 module (SWakeup IRQ signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_TIMER1_EVE2     ,Wakeup dependency from TIMER1 module (SWakeup IRQ signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                         "
bitfld.long 0x00 6. " WKUPDEP_TIMER1_EVE1     ,Wakeup dependency from TIMER1 module (SWakeup IRQ signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_TIMER1_DSP2     ,Wakeup dependency from TIMER1 module (SWakeup IRQ signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_TIMER1_IPU1     ,Wakeup dependency from TIMER1 module (SWakeup IRQ signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                         "
bitfld.long 0x00 2. " WKUPDEP_TIMER1_DSP1     ,Wakeup dependency from TIMER1 module (SWakeup IRQ signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_TIMER1_IPU2     ,Wakeup dependency from TIMER4 module (SWakeup IRQ signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_TIMER1_MPU      ,Wakeup dependency from TIMER1 module (SWakeup IRQ signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x44++0x3
line.long 0x00 "RM_WKUPAON_TIMER1_CONTEXT,This register contains dedicated TIMER1 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF         ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of WKUPAON_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x48++0x3
line.long 0x00 "PM_WKUPAON_TIMER12_WKDEP,This register controls wakeup dependency based on TIMER12 service requests."
bitfld.long 0x00 9. " WKUPDEP_TIMER12_EVE4    ,Wakeup dependency from TIMER12 module (SWakeup IRQ signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_TIMER12_EVE3    ,Wakeup dependency from TIMER12 module (SWakeup IRQ signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_TIMER12_EVE2    ,Wakeup dependency from TIMER12 module (SWakeup IRQ signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                         "
bitfld.long 0x00 6. " WKUPDEP_TIMER12_EVE1    ,Wakeup dependency from TIMER12 module (SWakeup IRQ signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_TIMER12_DSP2    ,Wakeup dependency from TIMER12 module (SWakeup IRQ signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_TIMER12_IPU1    ,Wakeup dependency from TIMER12 module (SWakeup IRQ signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                         "
bitfld.long 0x00 2. " WKUPDEP_TIMER12_DSP1    ,Wakeup dependency from TIMER12 module (SWakeup IRQ signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_TIMER12_IPU2    ,Wakeup dependency from TIMER12 module (SWakeup IRQ signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_TIMER12_MPU     ,Wakeup dependency from TIMER12 module (SWakeup IRQ signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x4C++0x3
line.long 0x00 "RM_WKUPAON_TIMER12_CONTEXT,This register contains dedicated TIMER12 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF         ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of WKUPAON_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x54++0x3
line.long 0x00 "RM_WKUPAON_COUNTER_32K_CONTEXT,This register contains dedicated COUNTER_32K context statuses. This bit-field is only sensitive to the external power-on reset (SYS_PWRON_RST reset line)"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF         ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of WKUPAON_SYS_PWRON_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x80++0x3
line.long 0x00 "PM_WKUPAON_UART10_WKDEP,This register controls wakeup dependency based on UART10 service requests."
bitfld.long 0x00 9. " WKUPDEP_UART10_EVE4     ,Wakeup dependency from UART10 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_UART10_EVE3     ,Wakeup dependency from UART10 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_UART10_EVE2     ,Wakeup dependency from UART10 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                         "
bitfld.long 0x00 6. " WKUPDEP_UART10_EVE1     ,Wakeup dependency from UART10 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_UART10_DSP2     ,Wakeup dependency from UART10 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_UART10_IPU1     ,Wakeup dependency from UART10 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                         "
bitfld.long 0x00 3. " WKUPDEP_UART10_SDMA     ,Wakeup dependency from UART10 module (SWakeup signal) towards SDMA + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 2. "  WKUPDEP_UART10_DSP1     ,Wakeup dependency from UART10 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_UART10_IPU2     ,Wakeup dependency from UART10 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
textline "                                         "
bitfld.long 0x00 0. " WKUPDEP_UART10_MPU      ,Wakeup dependency from UART10 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x84++0x3
line.long 0x00 "RM_WKUPAON_UART10_CONTEXT,This register contains dedicated UART10 context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_RETAINED_BANK   ,Specify if memory-based context in UART memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "              LOSTCONTEXT_DFF         ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of WKUPAON_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x88++0x3
line.long 0x00 "PM_WKUPAON_DCAN1_WKDEP,This register controls wakeup dependency based on DCAN1 service requests."
bitfld.long 0x00 9. " WKUPDEP_DCAN1_EVE4      ,Wakeup dependency from DCAN1 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_DCAN1_EVE3      ,Wakeup dependency from DCAN1 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_DCAN1_EVE2      ,Wakeup dependency from DCAN1 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                         "
bitfld.long 0x00 6. " WKUPDEP_DCAN1_EVE1      ,Wakeup dependency from DCAN1 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_DCAN1_DSP2      ,Wakeup dependency from DCAN1 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_DCAN1_IPU1      ,Wakeup dependency from DCAN1 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                         "
bitfld.long 0x00 3. " WKUPDEP_DCAN1_SDMA      ,Wakeup dependency from DCAN1 module (SWakeup signal) towards SDMA + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 2. "  WKUPDEP_DCAN1_DSP1      ,Wakeup dependency from DCAN1 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_DCAN1_IPU2      ,Wakeup dependency from DCAN1 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
textline "                                         "
bitfld.long 0x00 0. " WKUPDEP_DCAN1_MPU       ,Wakeup dependency from DCAN1 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x8C++0x3
line.long 0x00 "RM_WKUPAON_DCAN1_CONTEXT,This register contains dedicated DCAN1 context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_DCAN_MEM        ,Specify if memory-based context in DCAN memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "              LOSTCONTEXT_DFF         ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of WKUPAON_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
width 0x0B
tree.end
tree "OCP_SOCKET_PRM"
base ad:0x4AE06000
width 26.
rgroup.long 0x0++0x3
line.long 0x00 "REVISION_PRM,This register contains the IP revision code for the PRM part of the PRCM"
hexmask.long 0x00 0.--31. 1. " REVISION           ,IP Revision number"
group.long 0x10++0x3
line.long 0x00 "PRM_IRQSTATUS_MPU,This register provides status on MPU interrupt events. Any event is logged independently of the corresponding IRQENABLE value. SW is required to clear a set bit by writing a '1' into the bit-position to be cleared."
bitfld.long 0x00 30. " ABB_IVA_DONE_ST    ,IVA ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is cleared by SW. - I..." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 29. "   ABB_DSPEVE_DONE_ST ,DSPEVE ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is cleared by SW..." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 28. "               ABB_GPU_DONE_ST    ,GPU ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is clea..." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 12. " DPLL_EVE_RECAL_ST  ,EVE DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 11. "   DPLL_DSP_RECAL_ST  ,DSP DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 9. "               IO_ST              ,IO pad event interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 8. " TRANSITION_ST      ,Software supervised transition completed event interrupt status (any domain). Asserted upon completion of any clock domain force wakeup transition or upon completion of any power domain sleep transition with at least one enclosed c..." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 7. "   DPLL_DDR_RECAL_ST  ,DDR DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 6. "               DPLL_GPU_RECAL_ST  ,GPU DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 5. " DPLL_GMAC_RECAL_ST ,GMAC DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 4. "   DPLL_ABE_RECAL_ST  ,ABE DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 3. "               DPLL_PER_RECAL_ST  ,PER DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 2. " DPLL_IVA_RECAL_ST  ,IVA DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 1. "   DPLL_MPU_RECAL_ST  ,MPU DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 0. "               DPLL_CORE_RECAL_ST ,CORE DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
group.long 0x14++0x3
line.long 0x00 "PRM_IRQSTATUS_MPU_2,This register provides status on MPU interrupt events. Any event is logged independently of the corresponding IRQENABLE value. SW is required to clear a set bit by writing a '1' into the bit-position to be cleared."
bitfld.long 0x00 7. " ABB_MPU_DONE_ST    ,MPU ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware inPRM_ABBLDO_MPU_CTRL register). It is cleared by SW. - I..." "IRQ_FAL,IRQ_TRU"
group.long 0x18++0x3
line.long 0x00 "PRM_IRQENABLE_MPU,This register is used to enable or disable MPU interrupt activation."
bitfld.long 0x00 31. " ABB_IVA_DONE_EN    ,IVA ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 30. "   ABB_DSPEVE_DONE_EN ,DSPEVE ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 29. "               ABB_GPU_DONE_EN    ,GPU ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 11. " DPLL_EVE_RECAL_EN  ,EVE DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 10. "   DPLL_DSP_RECAL_EN  ,DSP DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 9. "               IO_EN              ,IO pad event interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 8. " TRANSITION_EN      ,Software supervised transition completed event interrupt enable (any domain) - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 7. "   DPLL_DDR_RECAL_EN  ,DDR DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 6. "               DPLL_GPU_RECAL_EN  ,GPU DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 5. " DPLL_GMAC_RECAL_EN ,GMAC DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 4. "   DPLL_ABE_RECAL_EN  ,ABEDPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 3. "               DPLL_PER_RECAL_EN  ,PER DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 2. " DPLL_IVA_RECAL_EN  ,IVA DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 1. "   DPLL_MPU_RECAL_EN  ,MPU DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 0. "               DPLL_CORE_RECAL_EN ,CORE DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
group.long 0x1C++0x3
line.long 0x00 "PRM_IRQENABLE_MPU_2,This register is used to enable or disable MPU interrupt activation."
bitfld.long 0x00 7. " ABB_MPU_DONE_EN    ,MPU ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
group.long 0x20++0x3
line.long 0x00 "PRM_IRQSTATUS_IPU2,This register provides status on IPU2 interrupt events. Any event is logged independently of the corresponding IRQENABLE value. SW is required to clear a set bit by writing a '1' into the bit-position to be cleared."
bitfld.long 0x00 31. " ABB_MPU_DONE_ST    ,MPU ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is cleared by SW. - I..." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 30. "   ABB_IVA_DONE_ST    ,IVA ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is cleared by SW. -..." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 29. "               ABB_DSPEVE_DONE_ST ,DSPEVE ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is c..." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 28. " ABB_GPU_DONE_ST    ,GPU ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is cleared by SW. - I..." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 12. "   DPLL_EVE_RECAL_ST  ,EVE DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 11. "               DPLL_DSP_RECAL_ST  ,DSP DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 10. " FORCEWKUP_ST       ,IPU domain software supervised wakeup transition completed event interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 9. "   IO_ST              ,IO pad event interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 8. "               TRANSITION_ST      ,Software supervised transition completed event interrupt status (any domain). Asserted upon completion of any clock domain force wakeup transition or upon completion of any power domain sleep transition with at least ..." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 7. " DPLL_DDR_RECAL_ST  ,DDR DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 6. "   DPLL_GPU_RECAL_ST  ,GPU DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 5. "               DPLL_GMAC_RECAL_ST ,GMAC DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 4. " DPLL_ABE_RECAL_ST  ,ABE DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 3. "   DPLL_PER_RECAL_ST  ,PER DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 2. "               DPLL_IVA_RECAL_ST  ,IVA DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 1. " DPLL_MPU_RECAL_ST  ,MPU DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 0. "   DPLL_CORE_RECAL_ST ,CORE DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
group.long 0x28++0x3
line.long 0x00 "PRM_IRQENABLE_IPU2,This register is used to enable or disable IPU2 interrupt activationt."
bitfld.long 0x00 31. " ABB_MPU_DONE_EN    ,MPU ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 30. "   ABB_IVA_DONE_EN    ,IVA ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 29. "               ABB_DSPEVE_DONE_EN ,DSPEVE ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 28. " ABB_GPU_DONE_EN    ,GPU ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 12. "   DPLL_EVE_RECAL_EN  ,EVE DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 11. "               DPLL_DSP_RECAL_EN  ,DSP DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 10. " FORCEWKUP_EN       ,IPU domain software supervised wakeup transition completed event interrupt enable. - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 9. "   IO_EN              ,IO pad event interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 8. "               TRANSITION_EN      ,Software supervised transition completed event interrupt enable (any domain) - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 7. " DPLL_DDR_RECAL_EN  ,DDR DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 6. "   DPLL_GPU_RECAL_EN  ,GPU DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 5. "               DPLL_GMAC_RECAL_EN ,GMAC DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 4. " DPLL_ABE_RECAL_EN  ,ABEDPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 3. "   DPLL_PER_RECAL_EN  ,PER DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 2. "               DPLL_IVA_RECAL_EN  ,IVA DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 1. " DPLL_MPU_RECAL_EN  ,MPU DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 0. "   DPLL_CORE_RECAL_EN ,CORE DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
group.long 0x30++0x3
line.long 0x00 "PRM_IRQSTATUS_DSP1,This register provides status on DSP1 interrupt events. Any event is logged independently of the corresponding IRQENABLE value. SW is required to clear a set bit by writing a '1' into the bit-position to be cleared."
bitfld.long 0x00 31. " ABB_MPU_DONE_ST    ,MPU ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is cleared by SW. - I..." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 30. "   ABB_IVA_DONE_ST    ,IVA ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is cleared by SW. -..." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 29. "               ABB_DSPEVE_DONE_ST ,DSPEVE ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is c..." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 28. " ABB_GPU_DONE_ST    ,GPU ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is cleared by SW. - I..." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 12. "   DPLL_EVE_RECAL_ST  ,EVE DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 11. "               DPLL_DSP_RECAL_ST  ,DSP DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 10. " FORCEWKUP_ST       ,IPU domain software supervised wakeup transition completed event interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 9. "   IO_ST              ,IO pad event interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 7. "               DPLL_DDR_RECAL_ST  ,DDR DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 6. " DPLL_GPU_RECAL_ST  ,GPU DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 5. "   DPLL_GMAC_RECAL_ST ,GMAC DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 4. "               DPLL_ABE_RECAL_ST  ,ABE DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 3. " DPLL_PER_RECAL_ST  ,PER DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 2. "   DPLL_IVA_RECAL_ST  ,IVA DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 1. "               DPLL_MPU_RECAL_ST  ,MPU DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 0. " DPLL_CORE_RECAL_ST ,CORE DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
group.long 0x38++0x3
line.long 0x00 "PRM_IRQENABLE_DSP1,This register is used to enable or disable DSP1 interrupt activation."
bitfld.long 0x00 31. " ABB_MPU_DONE_EN    ,MPU ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 30. "   ABB_IVA_DONE_EN    ,IVA ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 29. "               ABB_DSPEVE_DONE_EN ,DSPEVE ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 28. " ABB_GPU_DONE_EN    ,GPU ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 13. "   DPLL_USB_RECAL_EN  ,USB DPLL recalibration interrupt enable - . - ." "Interrupt_is_masked,Interrupt_is_enabled"
bitfld.long 0x00 12. "  DPLL_EVE_RECAL_EN  ,EVE DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 11. " DPLL_DSP_RECAL_EN  ,DSP DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 10. "   FORCEWKUP_EN       ,IPU domain software supervised wakeup transition completed event interrupt enable. - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 9. "               IO_EN              ,IO pad event interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 7. " DPLL_DDR_RECAL_EN  ,DDR DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 6. "   DPLL_GPU_RECAL_EN  ,GPU DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 5. "               DPLL_GMAC_RECAL_EN ,GMAC DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 4. " DPLL_ABE_RECAL_EN  ,ABEDPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 3. "   DPLL_PER_RECAL_EN  ,PER DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 2. "               DPLL_IVA_RECAL_EN  ,IVA DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 1. " DPLL_MPU_RECAL_EN  ,MPU DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 0. "   DPLL_CORE_RECAL_EN ,CORE DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
group.long 0x40++0x3
line.long 0x00 "CM_PRM_PROFILING_CLKCTRL,This register manages the PRM_PROFILING clock. [warm reset insensitive]"
bitfld.long 0x00 16.--17. " IDLEST             ,Module idle status - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "   MODULEMODE         ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
group.long 0x44++0x3
line.long 0x00 "PRM_IRQENABLE_DSP2,This register is used to enable or disable DSP2 interrupt activation."
bitfld.long 0x00 31. " ABB_MPU_DONE_EN    ,MPU ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 30. "   ABB_IVA_DONE_EN    ,IVA ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 29. "               ABB_DSPEVE_DONE_EN ,DSPEVE ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 28. " ABB_GPU_DONE_EN    ,GPU ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 12. "   DPLL_EVE_RECAL_EN  ,EVE DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 11. "               DPLL_DSP_RECAL_EN  ,DSP DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 10. " FORCEWKUP_EN       ,IPU domain software supervised wakeup transition completed event interrupt enable. - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 9. "   IO_EN              ,IO pad event interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 7. "               DPLL_DDR_RECAL_EN  ,DDR DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 6. " DPLL_GPU_RECAL_EN  ,GPU DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 5. "   DPLL_GMAC_RECAL_EN ,GMAC DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 4. "               DPLL_ABE_RECAL_EN  ,ABEDPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 3. " DPLL_PER_RECAL_EN  ,PER DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 2. "   DPLL_IVA_RECAL_EN  ,IVA DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 1. "               DPLL_MPU_RECAL_EN  ,MPU DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 0. " DPLL_CORE_RECAL_EN ,CORE DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
group.long 0x48++0x3
line.long 0x00 "PRM_IRQENABLE_EVE1,This register is used to enable or disable EVE1 interrupt activation."
bitfld.long 0x00 31. " ABB_MPU_DONE_EN    ,MPU ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 30. "   ABB_IVA_DONE_EN    ,IVA ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 29. "               ABB_DSPEVE_DONE_EN ,DSPEVE ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 28. " ABB_GPU_DONE_EN    ,GPU ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 12. "   DPLL_EVE_RECAL_EN  ,EVE DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 11. "               DPLL_DSP_RECAL_EN  ,DSP DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 10. " FORCEWKUP_EN       ,IPU domain software supervised wakeup transition completed event interrupt enable. - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 9. "   IO_EN              ,IO pad event interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 7. "               DPLL_DDR_RECAL_EN  ,DDR DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 6. " DPLL_GPU_RECAL_EN  ,GPU DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 5. "   DPLL_GMAC_RECAL_EN ,GMAC DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 4. "               DPLL_ABE_RECAL_EN  ,ABEDPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 3. " DPLL_PER_RECAL_EN  ,PER DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 2. "   DPLL_IVA_RECAL_EN  ,IVA DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 1. "               DPLL_MPU_RECAL_EN  ,MPU DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 0. " DPLL_CORE_RECAL_EN ,CORE DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
group.long 0x4C++0x3
line.long 0x00 "PRM_IRQENABLE_EVE2,This register is used to enable or disable EVE2 interrupt activation."
bitfld.long 0x00 31. " ABB_MPU_DONE_EN    ,MPU ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 30. "   ABB_IVA_DONE_EN    ,IVA ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 29. "               ABB_DSPEVE_DONE_EN ,DSPEVE ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 28. " ABB_GPU_DONE_EN    ,GPU ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 12. "   DPLL_EVE_RECAL_EN  ,EVE DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 11. "               DPLL_DSP_RECAL_EN  ,DSP DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 10. " FORCEWKUP_EN       ,IPU domain software supervised wakeup transition completed event interrupt enable. - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 9. "   IO_EN              ,IO pad event interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 7. "               DPLL_DDR_RECAL_EN  ,DDR DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 6. " DPLL_GPU_RECAL_EN  ,GPU DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 5. "   DPLL_GMAC_RECAL_EN ,GMAC DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 4. "               DPLL_ABE_RECAL_EN  ,ABEDPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 3. " DPLL_PER_RECAL_EN  ,PER DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 2. "   DPLL_IVA_RECAL_EN  ,IVA DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 1. "               DPLL_MPU_RECAL_EN  ,MPU DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 0. " DPLL_CORE_RECAL_EN ,CORE DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
group.long 0x50++0x3
line.long 0x00 "PRM_IRQENABLE_EVE3,This register is used to enable or disable EVE3 interrupt activation."
bitfld.long 0x00 31. " ABB_MPU_DONE_EN    ,MPU ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 30. "   ABB_IVA_DONE_EN    ,IVA ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 29. "               ABB_DSPEVE_DONE_EN ,DSPEVE ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 28. " ABB_GPU_DONE_EN    ,GPU ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 12. "   DPLL_EVE_RECAL_EN  ,EVE DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 11. "               DPLL_DSP_RECAL_EN  ,DSP DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 10. " FORCEWKUP_EN       ,IPU domain software supervised wakeup transition completed event interrupt enable. - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 9. "   IO_EN              ,IO pad event interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 7. "               DPLL_DDR_RECAL_EN  ,DDR DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 6. " DPLL_GPU_RECAL_EN  ,GPU DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 5. "   DPLL_GMAC_RECAL_EN ,GMAC DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 4. "               DPLL_ABE_RECAL_EN  ,ABEDPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 3. " DPLL_PER_RECAL_EN  ,PER DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 2. "   DPLL_IVA_RECAL_EN  ,IVA DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 1. "               DPLL_MPU_RECAL_EN  ,MPU DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 0. " DPLL_CORE_RECAL_EN ,CORE DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
group.long 0x54++0x3
line.long 0x00 "PRM_IRQENABLE_EVE4,This register is used to enable or disable EVE4 interrupt activation."
bitfld.long 0x00 31. " ABB_MPU_DONE_EN    ,MPU ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 30. "   ABB_IVA_DONE_EN    ,IVA ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 29. "               ABB_DSPEVE_DONE_EN ,DSPEVE ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 28. " ABB_GPU_DONE_EN    ,GPU ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 12. "   DPLL_EVE_RECAL_EN  ,EVE DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 11. "               DPLL_DSP_RECAL_EN  ,DSP DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 10. " FORCEWKUP_EN       ,IPU domain software supervised wakeup transition completed event interrupt enable. - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 9. "   IO_EN              ,IO pad event interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 7. "               DPLL_DDR_RECAL_EN  ,DDR DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 6. " DPLL_GPU_RECAL_EN  ,GPU DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 5. "   DPLL_GMAC_RECAL_EN ,GMAC DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 4. "               DPLL_ABE_RECAL_EN  ,ABEDPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 3. " DPLL_PER_RECAL_EN  ,PER DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 2. "   DPLL_IVA_RECAL_EN  ,IVA DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 1. "               DPLL_MPU_RECAL_EN  ,MPU DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 0. " DPLL_CORE_RECAL_EN ,CORE DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
group.long 0x58++0x3
line.long 0x00 "PRM_IRQENABLE_IPU1,This register is used to enable or disable IPU1 interrupt activation."
bitfld.long 0x00 31. " ABB_MPU_DONE_EN    ,MPU ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 30. "   ABB_IVA_DONE_EN    ,IVA ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 29. "               ABB_DSPEVE_DONE_EN ,DSPEVE ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 28. " ABB_GPU_DONE_EN    ,GPU ABB mode change done enable - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 12. "   DPLL_EVE_RECAL_EN  ,EVE DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 11. "               DPLL_DSP_RECAL_EN  ,DSP DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 10. " FORCEWKUP_EN       ,IPU domain software supervised wakeup transition completed event interrupt enable. - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 9. "   IO_EN              ,IO pad event interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 8. "               TRANSITION_EN      ,Software supervised transition completed event interrupt enable (any domain) - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 7. " DPLL_DDR_RECAL_EN  ,DDR DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 6. "   DPLL_GPU_RECAL_EN  ,GPU DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 5. "               DPLL_GMAC_RECAL_EN ,GMAC DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 4. " DPLL_ABE_RECAL_EN  ,ABEDPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 3. "   DPLL_PER_RECAL_EN  ,PER DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 2. "               DPLL_IVA_RECAL_EN  ,IVA DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
textline "                                   "
bitfld.long 0x00 1. " DPLL_MPU_RECAL_EN  ,MPU DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
bitfld.long 0x00 0. "   DPLL_CORE_RECAL_EN ,CORE DPLL recalibration interrupt enable - IRQ_MSK. - IRQ_EN." "IRQ_MSK,IRQ_EN"
group.long 0x5C++0x3
line.long 0x00 "PRM_IRQSTATUS_DSP2,This register provides status on DSP interrupt events. Any event is logged independently of the corresponding IRQENABLE value. SW is required to clear a set bit by writing a '1' into the bit-position to be cleared."
bitfld.long 0x00 31. " ABB_MPU_DONE_ST    ,MPU ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is cleared by SW. - I..." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 30. "   ABB_IVA_DONE_ST    ,IVA ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is cleared by SW. -..." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 29. "               ABB_DSPEVE_DONE_ST ,DSPEVE ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is c..." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 28. " ABB_GPU_DONE_ST    ,GPU ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is cleared by SW. - I..." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 12. "   DPLL_EVE_RECAL_ST  ,EVE DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 11. "               DPLL_DSP_RECAL_ST  ,DSP DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 10. " FORCEWKUP_ST       ,IPU domain software supervised wakeup transition completed event interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 9. "   IO_ST              ,IO pad event interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 7. "               DPLL_DDR_RECAL_ST  ,DDR DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 6. " DPLL_GPU_RECAL_ST  ,GPU DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 5. "   DPLL_GMAC_RECAL_ST ,GMAC DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 4. "               DPLL_ABE_RECAL_ST  ,ABE DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 3. " DPLL_PER_RECAL_ST  ,PER DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 2. "   DPLL_IVA_RECAL_ST  ,IVA DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 1. "               DPLL_MPU_RECAL_ST  ,MPU DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 0. " DPLL_CORE_RECAL_ST ,CORE DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
group.long 0x60++0x3
line.long 0x00 "PRM_IRQSTATUS_EVE1,This register provides status on EVE interrupt events. Any event is logged independently of the corresponding IRQENABLE value. SW is required to clear a set bit by writing a '1' into the bit-position to be cleared."
bitfld.long 0x00 31. " ABB_MPU_DONE_ST    ,MPU ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is cleared by SW. - I..." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 30. "   ABB_IVA_DONE_ST    ,IVA ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is cleared by SW. -..." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 29. "               ABB_DSPEVE_DONE_ST ,DSPEVE ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is c..." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 28. " ABB_GPU_DONE_ST    ,GPU ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is cleared by SW. - I..." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 12. "   DPLL_EVE_RECAL_ST  ,EVE DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 11. "               DPLL_DSP_RECAL_ST  ,DSP DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 10. " FORCEWKUP_ST       ,IPU domain software supervised wakeup transition completed event interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 9. "   IO_ST              ,IO pad event interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 7. "               DPLL_DDR_RECAL_ST  ,DDR DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 6. " DPLL_GPU_RECAL_ST  ,GPU DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 5. "   DPLL_GMAC_RECAL_ST ,GMAC DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 4. "               DPLL_ABE_RECAL_ST  ,ABE DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 3. " DPLL_PER_RECAL_ST  ,PER DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 2. "   DPLL_IVA_RECAL_ST  ,IVA DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 1. "               DPLL_MPU_RECAL_ST  ,MPU DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 0. " DPLL_CORE_RECAL_ST ,CORE DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
group.long 0x64++0x3
line.long 0x00 "PRM_IRQSTATUS_EVE2,This register provides status on EVE interrupt events. Any event is logged independently of the corresponding IRQENABLE value. SW is required to clear a set bit by writing a '1' into the bit-position to be cleared."
bitfld.long 0x00 31. " ABB_MPU_DONE_ST    ,MPU ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is cleared by SW. - I..." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 30. "   ABB_IVA_DONE_ST    ,IVA ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is cleared by SW. -..." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 29. "               ABB_DSPEVE_DONE_ST ,DSPEVE ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is c..." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 28. " ABB_GPU_DONE_ST    ,GPU ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is cleared by SW. - I..." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 12. "   DPLL_EVE_RECAL_ST  ,EVE DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 11. "               DPLL_DSP_RECAL_ST  ,DSP DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 10. " FORCEWKUP_ST       ,IPU domain software supervised wakeup transition completed event interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 9. "   IO_ST              ,IO pad event interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 7. "               DPLL_DDR_RECAL_ST  ,DDR DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 6. " DPLL_GPU_RECAL_ST  ,GPU DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 5. "   DPLL_GMAC_RECAL_ST ,GMAC DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 4. "               DPLL_ABE_RECAL_ST  ,ABE DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 3. " DPLL_PER_RECAL_ST  ,PER DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 2. "   DPLL_IVA_RECAL_ST  ,IVA DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 1. "               DPLL_MPU_RECAL_ST  ,MPU DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 0. " DPLL_CORE_RECAL_ST ,CORE DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
group.long 0x68++0x3
line.long 0x00 "PRM_IRQSTATUS_EVE3,This register provides status on EVE interrupt events. Any event is logged independently of the corresponding IRQENABLE value. SW is required to clear a set bit by writing a '1' into the bit-position to be cleared."
bitfld.long 0x00 31. " ABB_MPU_DONE_ST    ,MPU ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is cleared by SW. - I..." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 30. "   ABB_IVA_DONE_ST    ,IVA ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is cleared by SW. -..." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 29. "               ABB_DSPEVE_DONE_ST ,DSPEVE ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is c..." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 28. " ABB_GPU_DONE_ST    ,GPU ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is cleared by SW. - I..." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 12. "   DPLL_EVE_RECAL_ST  ,EVE DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 11. "               DPLL_DSP_RECAL_ST  ,DSP DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 10. " FORCEWKUP_ST       ,IPU domain software supervised wakeup transition completed event interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 9. "   IO_ST              ,IO pad event interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 7. "               DPLL_DDR_RECAL_ST  ,DDR DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 6. " DPLL_GPU_RECAL_ST  ,GPU DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 5. "   DPLL_GMAC_RECAL_ST ,GMAC DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 4. "               DPLL_ABE_RECAL_ST  ,ABE DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 3. " DPLL_PER_RECAL_ST  ,PER DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 2. "   DPLL_IVA_RECAL_ST  ,IVA DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 1. "               DPLL_MPU_RECAL_ST  ,MPU DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 0. " DPLL_CORE_RECAL_ST ,CORE DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
group.long 0x6C++0x3
line.long 0x00 "PRM_IRQSTATUS_EVE4,This register provides status on EVE interrupt events. Any event is logged independently of the corresponding IRQENABLE value. SW is required to clear a set bit by writing a '1' into the bit-position to be cleared."
bitfld.long 0x00 31. " ABB_MPU_DONE_ST    ,MPU ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is cleared by SW. - I..." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 30. "   ABB_IVA_DONE_ST    ,IVA ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is cleared by SW. -..." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 29. "               ABB_DSPEVE_DONE_ST ,DSPEVE ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is c..." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 28. " ABB_GPU_DONE_ST    ,GPU ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is cleared by SW. - I..." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 12. "   DPLL_EVE_RECAL_ST  ,EVE DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 11. "               DPLL_DSP_RECAL_ST  ,DSP DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 10. " FORCEWKUP_ST       ,IPU domain software supervised wakeup transition completed event interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 9. "   IO_ST              ,IO pad event interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 7. "               DPLL_DDR_RECAL_ST  ,DDR DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 6. " DPLL_GPU_RECAL_ST  ,GPU DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 5. "   DPLL_GMAC_RECAL_ST ,GMAC DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 4. "               DPLL_ABE_RECAL_ST  ,ABE DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 3. " DPLL_PER_RECAL_ST  ,PER DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 2. "   DPLL_IVA_RECAL_ST  ,IVA DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 1. "               DPLL_MPU_RECAL_ST  ,MPU DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 0. " DPLL_CORE_RECAL_ST ,CORE DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
group.long 0x70++0x3
line.long 0x00 "PRM_IRQSTATUS_IPU1,This register provides status on IPU1 interrupt events. Any event is logged independently of the corresponding IRQENABLE value. SW is required to clear a set bit by writing a '1' into the bit-position to be cleared."
bitfld.long 0x00 31. " ABB_MPU_DONE_ST    ,MPU ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is cleared by SW. - I..." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 30. "   ABB_IVA_DONE_ST    ,IVA ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is cleared by SW. -..." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 29. "               ABB_DSPEVE_DONE_ST ,DSPEVE ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is c..." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 28. " ABB_GPU_DONE_ST    ,GPU ABB mode change completion status. This status is set for both automatic transition upon a voltage transition, and OPP change (when OPP_CHANGE bit is cleared by hardware in PRM_ABBLDO_MM_CTRL register). It is cleared by SW. - I..." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 12. "   DPLL_EVE_RECAL_ST  ,EVE DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 11. "               DPLL_DSP_RECAL_ST  ,DSP DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 10. " FORCEWKUP_ST       ,IPU domain software supervised wakeup transition completed event interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 9. "   IO_ST              ,IO pad event interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 8. "               TRANSITION_ST      ,Software supervised transition completed event interrupt status (any domain). Asserted upon completion of any clock domain force wakeup transition or upon completion of any power domain sleep transition with at least ..." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 7. " DPLL_DDR_RECAL_ST  ,DDR DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 6. "   DPLL_GPU_RECAL_ST  ,GPU DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 5. "               DPLL_GMAC_RECAL_ST ,GMAC DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 4. " DPLL_ABE_RECAL_ST  ,ABE DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 3. "   DPLL_PER_RECAL_ST  ,PER DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 2. "               DPLL_IVA_RECAL_ST  ,IVA DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
textline "                                   "
bitfld.long 0x00 1. " DPLL_MPU_RECAL_ST  ,MPU DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
bitfld.long 0x00 0. "   DPLL_CORE_RECAL_ST ,CORE DPLL recalibration interrupt status. - IRQ_FAL. - IRQ_TRU." "IRQ_FAL,IRQ_TRU"
group.long 0xE4++0x3
line.long 0x00 "PRM_DEBUG_CFG1,This register is used to configure the PRM's 32-bit debug output. There is one 7-bit source select field for selecting from a shared set of 8-bit internal signal blocks per byte. The signals included in each block are specified in the PR..."
hexmask.long.word 0x00 0.--8. 1. " SEL1               ,Internal signal block select for debug word byte-1"
group.long 0xE8++0x3
line.long 0x00 "PRM_DEBUG_CFG2,This register is used to configure the PRM's 32-bit debug output. There is one 7-bit source select field for selecting from a shared set of 8-bit internal signal blocks per byte. The signals included in each block are specified in the PR..."
hexmask.long.word 0x00 0.--8. 1. " SEL2               ,Internal signal block select for debug word byte-2"
group.long 0xEC++0x3
line.long 0x00 "PRM_DEBUG_CFG3,This register is used to configure the PRM's 32-bit debug output. There is one 7-bit source select field for selecting from a shared set of 8-bit internal signal blocks per byte. The signals included in each block are specified in the PR..."
hexmask.long.word 0x00 0.--8. 1. " SEL3               ,Internal signal block select for debug word byte-3"
group.long 0xF0++0x3
line.long 0x00 "PRM_DEBUG_CFG,This register is used to configure the PRM's 32-bit debug output. There is one 7-bit source select field for selecting from a shared set of 8-bit internal signal blocks per byte. The signals included in each block are specified in the PRC..."
hexmask.long.word 0x00 0.--8. 1. " SEL0               ,Internal signal block select for debug word byte-0"
rgroup.long 0xF4++0x3
line.long 0x00 "PRM_DEBUG_OUT,This register is used to monitor the PRM's 32 bit HEDEBUG BUS [warm reset insensitive]"
hexmask.long 0x00 0.--31. 1. " OUTPUT             ,HW DEBUG OUTPUT"
width 0x0B
tree.end
tree "IPU_PRM"
base ad:0x4AE06500
width 23.
group.long 0x0++0x3
line.long 0x00 "PM_IPU_PWRSTCTRL,This register controls the IPU domain power state to reach upon a domain sleep transition"
bitfld.long 0x00 20.--21. " PERIPHMEM_ONSTATE       ,PERIPHMEM memory state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
bitfld.long 0x00 16.--17. "                  AESSMEM_ONSTATE         ,AESSMEM memory state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
bitfld.long 0x00 10. "                  PERIPHMEM_RETSTATE      ,PERIPHMEM memory state when domain is RETENTION. - MEM_OFF. - MEM_RET." "MEM_OFF,MEM_RET"
textline "                                "
bitfld.long 0x00 8. " AESSMEM_RETSTATE        ,AESSMEM memory state when domain is RETENTION. - MEM_OFF. - MEM_RET." "MEM_OFF,MEM_RET"
bitfld.long 0x00 4. "                 LOWPOWERSTATECHANGE     ,Power state change request when domain has already performed a sleep transition. Allows going into deeper low power state without waking up the power domain. - DIS. - EN." "DIS,EN"
bitfld.long 0x00 2. "                     LOGICRETSTATE           ,Logic state when power domain is RETENTION - LOGIC_OFF." "LOGIC_OFF,1"
textline "                                "
bitfld.long 0x00 0.--1. " POWERSTATE              ,Power state control - OFF. - RET. - INACT. - ON." "OFF,RET,INACT,ON"
group.long 0x4++0x3
line.long 0x00 "PM_IPU_PWRSTST,This register provides a status on the IPU domain current power domain state. [warm reset insensitive]"
bitfld.long 0x00 24.--25. " LASTPOWERSTATEENTERED   ,Last low power state entered. Set to 0x3 upon write of the same only. This register is intended for debug purpose only. - OFF. - RET. - INACTIVE. - ON." "OFF,RET,INACTIVE,ON"
bitfld.long 0x00 20. "                INTRANSITION            ,Domain transition status - NO. - ONGOING." "NO,ONGOING"
bitfld.long 0x00 8.--9. "                 PERIPHMEM_STATEST       ,PERIPHMEM memory state status - MEM_OFF. - RESERVED1. - RESERVED. - MEM_ON." "MEM_OFF,RESERVED1,RESERVED,MEM_ON"
textline "                                "
bitfld.long 0x00 4.--5. " AESSMEM_STATEST         ,AESSMEM memory state status - MEM_OFF. - MEM_RET. - RESERVED. - MEM_ON." "MEM_OFF,MEM_RET,RESERVED,MEM_ON"
bitfld.long 0x00 2. "                LOGICSTATEST            ,Logic state status - OFF. - ON." "OFF,ON"
bitfld.long 0x00 0.--1. "                     POWERSTATEST            ,Current power state status - OFF. - RET. - INACTIVE. - ON." "OFF,RET,INACTIVE,ON"
group.long 0x10++0x3
line.long 0x00 "RM_IPU1_RSTCTRL,This register controls the release of the IPU1 sub-system resets."
bitfld.long 0x00 2. " RST_IPU                 ,IPU system reset control. - CLEAR. - ASSERT." "CLEAR,ASSERT"
bitfld.long 0x00 1. "                  RST_CPU1                ,IPU Cortex M4 CPU1 reset control - CLEAR. - ASSERT." "CLEAR,ASSERT"
bitfld.long 0x00 0. "                  RST_CPU0                ,IPU Cortex M4 CPU0 reset control. - CLEAR. - ASSERT." "CLEAR,ASSERT"
group.long 0x14++0x3
line.long 0x00 "RM_IPU1_RSTST,This register logs the different reset sources of the IPU1 SS. Each bit is set upon release of the domain reset signal. Must be cleared by software. [warm reset insensitive]"
bitfld.long 0x00 6. " RST_ICECRUSHER_CPU1     ,Cortex M4 CPU1 has been reset due to IPU ICECRUSHER1 reset source - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
bitfld.long 0x00 5. "               RST_ICECRUSHER_CPU0     ,Cortex M4 CPU0 has been reset due to IPU ICECRUSHER0 reset source - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
bitfld.long 0x00 4. "               RST_EMULATION_CPU1      ,Cortex M4 CPU1 has been reset due to emulation reset source, for example, assert reset command initiated by the icepick module - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
textline "                                "
bitfld.long 0x00 3. " RST_EMULATION_CPU0      ,Cortex M4 CPU0 has been reset due to emulation reset source, for example, assert reset command initiated by the icepick module - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
bitfld.long 0x00 2. "               RST_IPU                 ,IPU system software reset status - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
bitfld.long 0x00 1. "               RST_CPU1                ,IPU Cortex-M4 CPU1 software reset status - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
textline "                                "
bitfld.long 0x00 0. " RST_CPU0                ,IPU Cortex-M4 CPU0 software reset status - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
group.long 0x24++0x3
line.long 0x00 "RM_IPU1_IPU1_CONTEXT,This register contains dedicated IPU1 context statuses. [warm reset insensitive]"
bitfld.long 0x00 9. " LOSTMEM_IPU_L2RAM       ,Specify if memory-based context in IPU_L2RAM memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 8. "              LOSTMEM_IPU_UNICACHE    ,Specify if memory-based context in IPU_UNICACHE memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 1. "              LOSTCONTEXT_RFF         ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of IPU_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
textline "                                "
bitfld.long 0x00 0. " LOSTCONTEXT_DFF         ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of IPU_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x50++0x3
line.long 0x00 "PM_IPU_MCASP1_WKDEP,This register controls wakeup dependency based on MCASP1 service requests."
bitfld.long 0x00 15. " WKUPDEP_MCASP1_DMA_DSP2 ,Wakeup dependency from MCASP1 module (SWakeup_dma signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 13. "                WKUPDEP_MCASP1_DMA_SDMA ,Wakeup dependency from MCASP1 module (SWakeup_dma signal) towards SDMA + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 12. "  WKUPDEP_MCASP1_DMA_DSP1 ,Wakeup dependency from MCASP1 module (SWakeup_dma signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                "
bitfld.long 0x00 9. " WKUPDEP_MCASP1_IRQ_EVE4 ,Wakeup dependency from MCASP1 module (SWakeup IRQ signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_MCASP1_IRQ_EVE3 ,Wakeup dependency from MCASP1 module (SWakeup IRQ signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_MCASP1_IRQ_EVE2 ,Wakeup dependency from MCASP1 module (SWakeup IRQ signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                "
bitfld.long 0x00 6. " WKUPDEP_MCASP1_IRQ_EVE1 ,Wakeup dependency from MCASP1 module (SWakeup IRQ signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_MCASP1_IRQ_DSP2 ,Wakeup dependency from MCASP1 module (SWakeup IRQ signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_MCASP1_IRQ_IPU1 ,Wakeup dependency from MCASP1 module (SWakeup IRQ signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                "
bitfld.long 0x00 2. " WKUPDEP_MCASP1_IRQ_DSP1 ,Wakeup dependency from MCASP1 module (SWakeup IRQ signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_MCASP1_IRQ_IPU2 ,Wakeup dependency from MCASP1 module (SWakeup IRQ signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_MCASP1_IRQ_MPU  ,Wakeup dependency from MCASP1 module (SWakeup IRQ signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x54++0x3
line.long 0x00 "RM_IPU_MCASP1_CONTEXT,This register contains dedicated MCASP context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF         ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of ABE_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x58++0x3
line.long 0x00 "PM_IPU_TIMER5_WKDEP,This register controls wakeup dependency based on TIMER5 service requests."
bitfld.long 0x00 9. " WKUPDEP_TIMER5_EVE4     ,Wakeup dependency from TIMER5 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_TIMER5_EVE3     ,Wakeup dependency from TIMER5 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_TIMER5_EVE2     ,Wakeup dependency from TIMER5 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                "
bitfld.long 0x00 6. " WKUPDEP_TIMER5_EVE1     ,Wakeup dependency from TIMER5 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_TIMER5_DSP2     ,Wakeup dependency from TIMER5 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_TIMER5_IPU1     ,Wakeup dependency from TIMER5 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                "
bitfld.long 0x00 2. " WKUPDEP_TIMER5_DSP1     ,Wakeup dependency from TIMER5 module (SWakeup signal) towards DSP + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_TIMER5_IPU2     ,Wakeup dependency from TIMER5 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_TIMER5_MPU      ,Wakeup dependency from TIMER5 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x5C++0x3
line.long 0x00 "RM_IPU_TIMER5_CONTEXT,This register contains dedicated TIMER5 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF         ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of ABE_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x60++0x3
line.long 0x00 "PM_IPU_TIMER6_WKDEP,This register controls wakeup dependency based on TIMER6 service requests."
bitfld.long 0x00 9. " WKUPDEP_TIMER6_EVE4     ,Wakeup dependency from TIMER6 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_TIMER6_EVE3     ,Wakeup dependency from TIMER6 (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_TIMER6_EVE2     ,Wakeup dependency from TIMER6 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                "
bitfld.long 0x00 6. " WKUPDEP_TIMER6_EVE1     ,Wakeup dependency from TIMER6 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_TIMER6_DSP2     ,Wakeup dependency from TIMER6 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_TIMER6_IPU1     ,Wakeup dependency from TIMER6 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                "
bitfld.long 0x00 2. " WKUPDEP_TIMER6_DSP1     ,Wakeup dependency from TIMER6 module (SWakeup signal) towards DSP + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_TIMER6_IPU2     ,Wakeup dependency from TIMER6 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_TIMER6_MPU      ,Wakeup dependency from TIMER6 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x64++0x3
line.long 0x00 "RM_IPU_TIMER6_CONTEXT,This register contains dedicated TIMER6 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF         ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of ABE_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x68++0x3
line.long 0x00 "PM_IPU_TIMER7_WKDEP,This register controls wakeup dependency based on TIMER7 service requests."
bitfld.long 0x00 9. " WKUPDEP_TIMER7_EVE4     ,Wakeup dependency from TIMER7 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_TIMER7_EVE3     ,Wakeup dependency from TIMER7 (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_TIMER7_EVE2     ,Wakeup dependency from TIMER7 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                "
bitfld.long 0x00 6. " WKUPDEP_TIMER7_EVE1     ,Wakeup dependency from TIMER7 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_TIMER7_DSP2     ,Wakeup dependency from TIMER7 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_TIMER7_IPU1     ,Wakeup dependency from TIMER7 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                "
bitfld.long 0x00 2. " WKUPDEP_TIMER7_DSP1     ,Wakeup dependency from TIMER7 module (SWakeup signal) towards DSP + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_TIMER7_IPU2     ,Wakeup dependency from TIMER7 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_TIMER7_MPU      ,Wakeup dependency from TIMER7 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x6C++0x3
line.long 0x00 "RM_IPU_TIMER7_CONTEXT,This register contains dedicated TIMER7 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF         ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of ABE_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x70++0x3
line.long 0x00 "PM_IPU_TIMER8_WKDEP,This register controls wakeup dependency based on TIMER8 service requests."
bitfld.long 0x00 9. " WKUPDEP_TIMER8_EVE4     ,Wakeup dependency from TIMER8 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_TIMER8_EVE3     ,Wakeup dependency from TIMER8 (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_TIMER8_EVE2     ,Wakeup dependency from TIMER8 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                "
bitfld.long 0x00 6. " WKUPDEP_TIMER8_EVE1     ,Wakeup dependency from TIMER8 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_TIMER8_DSP2     ,Wakeup dependency from TIMER8 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_TIMER8_IPU1     ,Wakeup dependency from TIMER8 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                "
bitfld.long 0x00 2. " WKUPDEP_TIMER8_DSP1     ,Wakeup dependency from TIMER8 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_TIMER8_IPU2     ,Wakeup dependency from TIMER8 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_TIMER8_MPU      ,Wakeup dependency from TIMER8 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x74++0x3
line.long 0x00 "RM_IPU_TIMER8_CONTEXT,This register contains dedicated TIMER8 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF         ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of ABE_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x78++0x3
line.long 0x00 "PM_IPU_I2C5_WKDEP,This register controls wakeup dependency based on I2C5 service requests."
bitfld.long 0x00 15. " WKUPDEP_I2C5_DMA_DSP2   ,Wakeup dependency from I2C5 module (SWakeup_dma signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 13. "                WKUPDEP_I2C5_DMA_SDMA   ,Wakeup dependency from I2C5 module (SWakeup_dma signal) towards SDMA + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 12. "  WKUPDEP_I2C5_DMA_DSP1   ,Wakeup dependency from I2C5 module (SWakeup_dma signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                "
bitfld.long 0x00 9. " WKUPDEP_I2C5_IRQ_EVE4   ,Wakeup dependency from I2C5 module (SWakeup IRQ signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_I2C5_IRQ_EVE3   ,Wakeup dependency from I2C5 module (SWakeup IRQ signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_I2C5_IRQ_EVE2   ,Wakeup dependency from I2C5 module (SWakeup IRQ signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                "
bitfld.long 0x00 6. " WKUPDEP_I2C5_IRQ_EVE1   ,Wakeup dependency from I2C5 module (SWakeup IRQ signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_I2C5_IRQ_DSP2   ,Wakeup dependency from I2C5 module (SWakeup IRQ signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_I2C5_IRQ_IPU1   ,Wakeup dependency from I2C5 module (SWakeup IRQ signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                "
bitfld.long 0x00 2. " WKUPDEP_I2C5_IRQ_DSP1   ,Wakeup dependency from I2C5 module (SWakeup IRQ signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_I2C5_IRQ_IPU2   ,Wakeup dependency from I2C5 module (SWakeup IRQ signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_I2C5_IRQ_MPU    ,Wakeup dependency from I2C5 module (SWakeup IRQ signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x7C++0x3
line.long 0x00 "RM_IPU_I2C5_CONTEXT,This register contains dedicated I2C5 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF         ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x80++0x3
line.long 0x00 "PM_IPU_UART6_WKDEP,This register controls wakeup dependency based on UART6 service requests."
bitfld.long 0x00 9. " WKUPDEP_UART6_EVE4      ,Wakeup dependency from UART6 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_UART6_EVE3      ,Wakeup dependency from UART6 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_UART6_EVE2      ,Wakeup dependency from UART6 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                "
bitfld.long 0x00 6. " WKUPDEP_UART6_EVE1      ,Wakeup dependency from UART6 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_UART6_DSP2      ,Wakeup dependency from UART6 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_UART6_IPU1      ,Wakeup dependency from UART6 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                "
bitfld.long 0x00 3. " WKUPDEP_UART6_SDMA      ,Wakeup dependency from UART6 module (SWakeup signal) towards SDMA + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 2. "  WKUPDEP_UART6_DSP1      ,Wakeup dependency from UART6 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_UART6_IPU2      ,Wakeup dependency from UART6 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
textline "                                "
bitfld.long 0x00 0. " WKUPDEP_UART6_MPU       ,Wakeup dependency from UART6 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x84++0x3
line.long 0x00 "RM_IPU_UART6_CONTEXT,This register contains dedicated UART6 context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_RETAINED_BANK   ,Specify if memory-based context in RETAINED_BANK memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 1. "              LOSTCONTEXT_RFF         ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
width 0x0B
tree.end
tree "CM_CORE__DSS"
base ad:0x4A009100
width 21.
group.long 0x0++0x3
line.long 0x00 "CM_DSS_CLKSTCTRL,This register enables the DSS domain power state transition. It controls the HW supervised domain power state transition between ON-ACTIVE and ON-INACTIVE states. It also hold one status bit per clock input of the domain."
bitfld.long 0x00 18. " CLKACTIVITY_HDMI_PHY_GFCLK  ,This field indicates the state of the HDMI_PHY_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 17. "     CLKACTIVITY_HDMI_CEC_GFCLK  ,This field indicates the state of the HDMI_CEC_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 15. "     CLKACTIVITY_DSS_L4_GICLK  ,This field indicates the state of the DSS_L4_GICLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                              "
bitfld.long 0x00 13. " CLKACTIVITY_BB2D_GFCLK      ,This field indicates the state of the BB2D_GFCLK clock in the domain. [warm reset insensitive] - . - ." "0,1"
bitfld.long 0x00 12. "         CLKACTIVITY_VIDEO2_DPLL_CLK ,This field indicates the state of the VIDEO2_DPLL_CLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 11. "     CLKACTIVITY_HDMI_DPLL_CLK ,This field indicates the state of the HDMI_DPLL_CLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                              "
bitfld.long 0x00 10. " CLKACTIVITY_VIDEO1_DPLL_CLK ,This field indicates the state of the VIDEO1_DPLL_CLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 9. "     CLKACTIVITY_DSS_GFCLK       ,This field indicates the state of the DSS_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 8. "     CLKACTIVITY_DSS_L3_GICLK  ,This field indicates the state of the DSS_L3_GICLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                              "
bitfld.long 0x00 0.--1. " CLKTRCTRL                   ,Controls the clock state transition of the DSS clock domain. - NO_SLEEP. - SW_SLEEP. - SW_WKUP. - HW_AUTO." "NO_SLEEP,SW_SLEEP,SW_WKUP,HW_AUTO"
group.long 0x4++0x3
line.long 0x00 "CM_DSS_STATICDEP,This register controls the static domain depedencies from DSS domain towards 'target' domains. It is relevant only for domain having system initiator(s)."
bitfld.long 0x00 5. " L3MAIN1_STATDEP             ,Static dependency towards L3MAIN1 clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 4. "   EMIF_STATDEP                ,Static dependency towards EMIF clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 2. "  IVA_STATDEP               ,Static dependency towards IVA clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
rgroup.long 0x8++0x3
line.long 0x00 "CM_DSS_DYNAMICDEP,This register controls the dynamic domain depedencies from DSS domain towards 'target' domains. It is relevant only for domain having OCP master port(s)."
bitfld.long 0x00 5. " L3MAIN1_DYNDEP              ,Dynamic dependency towards L3MAIN1 domain - DISABLED." "DISABLED,1"
group.long 0x20++0x3
line.long 0x00 "CM_DSS_DSS_CLKCTRL,This register manages the DSS clocks."
bitfld.long 0x00 18. " STBYST                      ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
bitfld.long 0x00 16.--17. "   IDLEST                      ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 13. "   OPTFCLKEN_VIDEO2_CLK      ,Optional functional clock control. - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
textline "                              "
bitfld.long 0x00 12. " OPTFCLKEN_VIDEO1_CLK        ,Optional functional clock control. - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
bitfld.long 0x00 11. "  OPTFCLKEN_32KHZ_CLK         ,Optional functional clock control. - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
bitfld.long 0x00 10. "  OPTFCLKEN_HDMI_CLK        ,Optional functional clock control. - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
textline "                              "
bitfld.long 0x00 9. " OPTFCLKEN_48MHZ_CLK         ,Optional functional clock control. - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
bitfld.long 0x00 8. "  OPTFCLKEN_DSSCLK            ,Optional functional clock control. - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
bitfld.long 0x00 0.--1. "  MODULEMODE                ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLED. - RESERVED." "DISABLED,RESERVED_1,ENABLED,RESERVED"
group.long 0x30++0x3
line.long 0x00 "CM_DSS_BB2D_CLKCTRL,This register manages the BB2D clocks."
bitfld.long 0x00 18. " STBYST                      ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
bitfld.long 0x00 16.--17. "   IDLEST                      ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "   MODULEMODE                ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLED. - RESERVED." "DISABLED,RESERVED_1,ENABLED,RESERVED"
width 0x0B
tree.end
tree "CM_CORE_AON__CKGEN"
base ad:0x4A005100
width 24.
group.long 0x0++0x3
line.long 0x00 "CM_CLKSEL_CORE,CORE module clock selection."
bitfld.long 0x00 8. " CLKSEL_L4          ,Selects L4 interconnect clock (L4_clk) - L3_CLK_DIV_1. - L3_CLK_DIV_2." "L3_CLK_DIV_1,L3_CLK_DIV_2"
bitfld.long 0x00 4. "       CLKSEL_L3       ,Selects L3 interconnect clock (L3_clk) - CORE_CLK_DIV_1. - CORE_CLK_DIV_2." "CORE_CLK_DIV_1,CORE_CLK_DIV_2"
group.long 0x8++0x3
line.long 0x00 "CM_CLKSEL_ABE,ABE module clock selection."
bitfld.long 0x00 0.--1. " CLKSEL_OPP         ,Selects the OPP divider ABE domain - DIV_1. - DIV_2. - DIV_4. - RESERVED." "DIV_1,DIV_2,DIV_4,RESERVED"
group.long 0x10++0x3
line.long 0x00 "CM_DLL_CTRL,Special register for DLL control"
bitfld.long 0x00 0. " DLL_OVERRIDE       ,Control if DLL lock and code outputs are overriden or not - NO_OVR. - OVR." "NO_OVR,OVR"
group.long 0x20++0x3
line.long 0x00 "CM_CLKMODE_DPLL_CORE,This register allows controlling the DPLL modes."
bitfld.long 0x00 11. " DPLL_REGM4XEN      ,Enable the REGM4XEN mode of the DPLL. Please check the DPLL documentation to check when this mode can be enabled. - DISABLED." "DISABLED,1"
bitfld.long 0x00 10. "           DPLL_LPMODE_EN  ,Set the DPLL in Low Power mode. Check the DPLL documentation to see when this can be enabled. - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 9. "        DPLL_RELOCK_RAMP_EN   ,If enabled, the clock ramping feature is used applied during the lock process, as well as the relock process. If disabled, the clock ramping feature is used only during the first lock." "Disabled,Enabled"
textline "                                 "
bitfld.long 0x00 8. " DPLL_DRIFTGUARD_EN ,This bit allows to enable or disable the automatic recalibration feature of the DPLL. The DPLL will automatically start a recalibration process upon assertion of the DPLL's RECAL flag if this bit is set. - DIASBLED. - ENABLED." "DIASBLED,ENABLED"
bitfld.long 0x00 5.--7. "           DPLL_RAMP_RATE  ,Selects the time in terms of DPLL REFCLKs spent at each stage of the clock ramping process - REFCLKX2. - REFCLKX4. - REFCLKX8. - REFCLKX16. - REFCLKX32. - REFCLKX64. - REFCLKX128. - REFCLKX512." "REFCLKX2,REFCLKX4,REFCLKX8,REFCLKX16,REFCLKX32,REFCLKX64,REFCLKX128,REFCLKX512"
bitfld.long 0x00 3.--4. "      DPLL_RAMP_LEVEL       ,The DPLL provides an output clock frequency ramping feature when switching from bypass clock to normal clock during lock and re-lock. The frequency ramping will happen in a maximum of 4 steps in frequency before the DPLL's ..." "RAMP_DISABLE,RAMP_ALGO1,RAMP_ALGO2,RESERVED"
textline "                                 "
bitfld.long 0x00 0.--2. " DPLL_EN            ,DPLL control. - RESERVED. - RESERVED1. - RESERVED2. - RESERVED3. - RESERVED4. - DPLL_LP_BYP_MODE. - DPLL_FR_BYP_MODE. - DPLL_LOCK_MODE." "RESERVED,RESERVED1,RESERVED2,RESERVED3,RESERVED4,DPLL_LP_BYP_MODE,DPLL_FR_BYP_MODE,DPLL_LOCK_MODE"
rgroup.long 0x24++0x3
line.long 0x00 "CM_IDLEST_DPLL_CORE,This register allows monitoring DPLL activity. This register is read only and automatically updated. [warm reset insensitive]"
bitfld.long 0x00 4. " ST_DPLL_INIT       ,DPLL init status (for debug purpose). - DPLL_NOTINIT. - DPLL_INIT." "DPLL_NOTINIT,DPLL_INIT"
bitfld.long 0x00 1.--3. "       ST_DPLL_MODE    ,DPLL mode status (for debug purpose). - TRANSIENT. - LP_STOP. - FR_STOP. - RESERVED1. - RESERVED2. - LP_BYP. - FR_BYP. - RESERVED3." "TRANSIENT,LP_STOP,FR_STOP,RESERVED1,RESERVED2,LP_BYP,FR_BYP,RESERVED3"
bitfld.long 0x00 0. "       ST_DPLL_CLK           ,DPLL lock status - DPLL_UNLOCKED. - DPLL_LOCKED." "DPLL_UNLOCKED,DPLL_LOCKED"
group.long 0x28++0x3
line.long 0x00 "CM_AUTOIDLE_DPLL_CORE,This register provides automatic control over the DPLL activity."
bitfld.long 0x00 0.--2. " AUTO_DPLL_MODE     ,DPLL automatic control. - AUTO_CTL_DISABLE. - AUTO_LP_STOP. - AUTO_FR_STOP. - RESERVED. - RESERVED1. - AUTO_LP_BYP. - AUTO_FR_BYP. - RESERVED2." "AUTO_CTL_DISABLE,AUTO_LP_STOP,AUTO_FR_STOP,RESERVED,RESERVED1,AUTO_LP_BYP,AUTO_FR_BYP,RESERVED2"
group.long 0x2C++0x3
line.long 0x00 "CM_CLKSEL_DPLL_CORE,This register provides controls over the DPLL."
bitfld.long 0x00 23. " DPLL_BYP_CLKSEL    ,Allows control of the BYPASS clock of the PLL and the associated HSDIVIDER. Same as ULOWCLKEN on DPLL. In DPLL Locked mode, 0 - No impact 1 - No impact In DPLL Bypass mode, 0 - CLKINP is selected as the BYPASS clock for CLKOUT/CLKO..." "CLKINP,CLKINPULOW"
bitfld.long 0x00 22. "         DCC_EN          ,Duty-cycle corrector for high frequency clock - DISABLED." "DISABLED,1"
bitfld.long 0x00 20. "        DPLL_CLKOUTHIF_CLKSEL ,Selects the source of the DPLL CLKOUTHIF clock. Same as CLKINPHIFSEL pin on the DPLL - SEL_DCO. - SEL_CLKINPHIF." "SEL_DCO,SEL_CLKINPHIF"
textline "                                 "
hexmask.long.word 0x00 8.--18. 1. " DPLL_MULT          ,DPLL multiplier factor (2 to 2047). (equal to input M of DPLL; M=2 to 2047 = DPLL multiplies by M). [warm reset insensitive] - RESERVED_0. - RESERVED_1."
hexmask.long.byte 0x00 0.--6. 1. "               DPLL_DIV        ,DPLL divider factor (0 to 127) (equal to input N of DPLL; actual division factor is N+1). [warm reset insensitive]"
group.long 0x30++0x3
line.long 0x00 "CM_DIV_M2_DPLL_CORE,This register provides controls over the M2 divider of the DPLL."
bitfld.long 0x00 9. " CLKST              ,DPLL CLKOUT status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
bitfld.long 0x00 0.--4. "        DIVHS           ,DPLL M2 post-divider factor (1 to 31). - RESERVED." "RESERVED,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x3C++0x3
line.long 0x00 "CM_DIV_H12_DPLL_CORE,This register provides controls over the CLKOUT2 o/p of the HSDIVIDER1."
bitfld.long 0x00 9. " CLKST              ,HSDIVIDER1 CLKOUT2 status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
bitfld.long 0x00 0.--5. "        DIVHS           ,DPLL (H12+1) post-divider factor (1 to 63). - RESERVED." "RESERVED,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x40++0x3
line.long 0x00 "CM_DIV_H13_DPLL_CORE,This register provides controls over the CLKOUT3 o/p of the HSDIVIDER1."
bitfld.long 0x00 9. " CLKST              ,HSDIVIDER1 CLKOUT3 status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
bitfld.long 0x00 0.--5. "        DIVHS           ,DPLL (H13+1) post-divider factor (1 to 63). - RESERVED." "RESERVED,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x44++0x3
line.long 0x00 "CM_DIV_H14_DPLL_CORE,This register provides controls over the CLKOUT4 o/p of the HSDIVIDER1."
bitfld.long 0x00 9. " CLKST              ,HSDIVIDER1 CLKOUT4 status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
bitfld.long 0x00 0.--5. "        DIVHS           ,DPLL (H14+1) post-divider factor (1 to 63). When a value of 63 is programmed in this register, HS divider will perform division by 2.5 that is divided by 2 at top level. - RESERVED." "RESERVED,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x54++0x3
line.long 0x00 "CM_DIV_H22_DPLL_CORE,This register provides controls over the CLKOUT2 o/p of the 2nd HSDIVIDER."
bitfld.long 0x00 9. " CLKST              ,HSDIVIDER2 CLKOUT2 status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
bitfld.long 0x00 0.--5. "        DIVHS           ,DPLL (H22+1) post-divider factor (1 to 63). - RESERVED." "RESERVED,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x58++0x3
line.long 0x00 "CM_DIV_H23_DPLL_CORE,This register provides controls over the CLKOUT3 o/p of the 2nd HSDIVIDER."
bitfld.long 0x00 9. " CLKST              ,HSDIVIDER2 CLKOUT3 status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
bitfld.long 0x00 0.--5. "        DIVHS           ,DPLL (H23+1) post-divider factor (1 to 63). - RESERVED." "RESERVED,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x5C++0x3
line.long 0x00 "CM_DIV_H24_DPLL_CORE,This register provides controls over the CLKOUT4 o/p of the 2nd HSDIVIDER."
bitfld.long 0x00 9. " CLKST              ,HSDIVIDER2 CLKOUT4 status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
bitfld.long 0x00 0.--5. "        DIVHS           ,DPLL (H24+1) post-divider factor (1 to 63). - RESERVED." "RESERVED,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x60++0x3
line.long 0x00 "CM_CLKMODE_DPLL_MPU,This register allows controlling the DPLL modes."
bitfld.long 0x00 11. " DPLL_REGM4XEN      ,Enable the REGM4XEN mode of the DPLL. Please check the DPLL documentation to check when this mode can be enabled. - DISABLED." "DISABLED,1"
bitfld.long 0x00 10. "           DPLL_LPMODE_EN  ,Set the DPLL in Low Power mode. Check the DPLL documentation to see when this can be enabled. - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 9. "        DPLL_RELOCK_RAMP_EN   ,If enabled, the clock ramping feature is used applied during the lock process, as well as the relock process. If disabled, the clock ramping feature is used only during the first lock." "Disabled,Enabled"
textline "                                 "
bitfld.long 0x00 8. " DPLL_DRIFTGUARD_EN ,This bit allows to enable or disable the automatic recalibration feature of the DPLL. The DPLL will automatically start a recalibration process upon assertion of the DPLL's RECAL flag if this bit is set. - DIASBLED. - ENABLED." "DIASBLED,ENABLED"
bitfld.long 0x00 5.--7. "           DPLL_RAMP_RATE  ,Selects the time in terms of DPLL REFCLKs spent at each stage of the clock ramping process - REFCLKX2. - REFCLKX4. - REFCLKX8. - REFCLKX16. - REFCLKX32. - REFCLKX64. - REFCLKX128. - REFCLKX512." "REFCLKX2,REFCLKX4,REFCLKX8,REFCLKX16,REFCLKX32,REFCLKX64,REFCLKX128,REFCLKX512"
bitfld.long 0x00 3.--4. "      DPLL_RAMP_LEVEL       ,The DPLL provides an output clock frequency ramping feature when switching from bypass clock to normal clock during lock and re-lock. The frequency ramping will happen in a maximum of 4 steps in frequency before the DPLL's ..." "RAMP_DISABLE,RAMP_ALGO1,RAMP_ALGO2,RESERVED"
textline "                                 "
bitfld.long 0x00 0.--2. " DPLL_EN            ,DPLL control. - RESERVED. - RESERVED1. - RESERVED2. - RESERVED3. - RESERVED4. - DPLL_LP_BYP_MODE. - DPLL_FR_BYP_MODE. - DPLL_LOCK_MODE." "RESERVED,RESERVED1,RESERVED2,RESERVED3,RESERVED4,DPLL_LP_BYP_MODE,DPLL_FR_BYP_MODE,DPLL_LOCK_MODE"
rgroup.long 0x64++0x3
line.long 0x00 "CM_IDLEST_DPLL_MPU,This register allows monitoring DPLL activity. This register is read only and automatically updated. [warm reset insensitive]"
bitfld.long 0x00 4. " ST_DPLL_INIT       ,DPLL init status (for debug purpose). - DPLL_NOTINIT. - DPLL_INIT." "DPLL_NOTINIT,DPLL_INIT"
bitfld.long 0x00 1.--3. "       ST_DPLL_MODE    ,DPLL mode status (for debug purpose). - TRANSIENT. - LP_STOP. - FR_STOP. - RESERVED1. - RESERVED2. - LP_BYP. - FR_BYP. - RESERVED3." "TRANSIENT,LP_STOP,FR_STOP,RESERVED1,RESERVED2,LP_BYP,FR_BYP,RESERVED3"
bitfld.long 0x00 0. "       ST_DPLL_CLK           ,DPLL lock status - DPLL_UNLOCKED. - DPLL_LOCKED." "DPLL_UNLOCKED,DPLL_LOCKED"
group.long 0x68++0x3
line.long 0x00 "CM_AUTOIDLE_DPLL_MPU,This register provides automatic control over the DPLL activity."
bitfld.long 0x00 0.--2. " AUTO_DPLL_MODE     ,DPLL automatic control; - AUTO_CTL_DISABLE. - AUTO_LP_STOP. - AUTO_FR_STOP. - RESERVED3. - RESERVED4. - AUTO_LP_BYP. - AUTO_FR_BYP. - RESERVED7." "AUTO_CTL_DISABLE,AUTO_LP_STOP,AUTO_FR_STOP,RESERVED3,RESERVED4,AUTO_LP_BYP,AUTO_FR_BYP,RESERVED7"
group.long 0x6C++0x3
line.long 0x00 "CM_CLKSEL_DPLL_MPU,This register provides controls over the DPLL."
bitfld.long 0x00 23. " DPLL_BYP_CLKSEL    ,Only CLKINPULOW bypass clock supported for this PLL" "Not_supported,Supported"
bitfld.long 0x00 22. "      DCC_EN          ,Duty-cycle corrector for high frequency clock - DISABLED. - ENABLED." "DISABLED,ENABLED"
hexmask.long.word 0x00 8.--18. 1. "        DPLL_MULT             ,DPLL multiplier factor (2 to 2047). (equal to input M of DPLL; M=2 to 2047 = DPLL multiplies by M). [warm reset insensitive] - RESERVED_0. - RESERVED_1."
textline "                                 "
hexmask.long.byte 0x00 0.--6. 1. " DPLL_DIV           ,DPLL divider factor (0 to 127) (equal to input N of DPLL; actual division factor is N+1). [warm reset insensitive]"
group.long 0x70++0x3
line.long 0x00 "CM_DIV_M2_DPLL_MPU,This register provides controls over the M2 divider of the DPLL."
bitfld.long 0x00 9. " CLKST              ,DPLL CLKOUT status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
bitfld.long 0x00 0.--4. "        DIVHS           ,DPLL M2 post-divider factor (1 to 31). - RESERVED." "RESERVED,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x9C++0x3
line.long 0x00 "CM_BYPCLK_DPLL_MPU,Control MPU PLL BYPASS clock. [warm reset insensitive]"
bitfld.long 0x00 0.--1. " CLKSEL             ,Select the DPLL MPU bypass clock - CORE_X2_CLK_DIV_1. - CORE_X2_CLK_DIV_2. - CORE_X2_CLK_DIV_4. - CORE_X2_CLK_DIV_8." "CORE_X2_CLK_DIV_1,CORE_X2_CLK_DIV_2,CORE_X2_CLK_DIV_4,CORE_X2_CLK_DIV_8"
group.long 0xA0++0x3
line.long 0x00 "CM_CLKMODE_DPLL_IVA,This register allows controlling the DPLL modes."
bitfld.long 0x00 11. " DPLL_REGM4XEN      ,Enable the REGM4XEN mode of the DPLL. Please check the DPLL documentation to check when this mode can be enabled. - DISABLED." "DISABLED,1"
bitfld.long 0x00 10. "           DPLL_LPMODE_EN  ,Set the DPLL in Low Power mode. Check the DPLL documentation to see when this can be enabled. - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 9. "        DPLL_RELOCK_RAMP_EN   ,If enabled, the clock ramping feature is used applied during the lock process, as well as the relock process. If disabled, the clock ramping feature is used only during the first lock." "Disabled,Enabled"
textline "                                 "
bitfld.long 0x00 8. " DPLL_DRIFTGUARD_EN ,This bit allows to enable or disable the automatic recalibration feature of the DPLL. The DPLL will automatically start a recalibration process upon assertion of the DPLL's RECAL flag if this bit is set. - DIASBLED. - ENABLED." "DIASBLED,ENABLED"
bitfld.long 0x00 5.--7. "           DPLL_RAMP_RATE  ,Selects the time in terms of DPLL REFCLKs spent at each stage of the clock ramping process - REFCLKX2. - REFCLKX4. - REFCLKX8. - REFCLKX16. - REFCLKX32. - REFCLKX64. - REFCLKX128. - REFCLKX512." "REFCLKX2,REFCLKX4,REFCLKX8,REFCLKX16,REFCLKX32,REFCLKX64,REFCLKX128,REFCLKX512"
bitfld.long 0x00 3.--4. "      DPLL_RAMP_LEVEL       ,The DPLL provides an output clock frequency ramping feature when switching from bypass clock to normal clock during lock and re-lock. The frequency ramping will happen in a maximum of 4 steps in frequency before the DPLL's ..." "RAMP_DISABLE,RAMP_ALGO1,RAMP_ALGO2,RESERVED"
textline "                                 "
bitfld.long 0x00 0.--2. " DPLL_EN            ,DPLL control. - RESERVED. - RESERVED1. - RESERVED2. - RESERVED3. - RESERVED4. - DPLL_LP_BYP_MODE. - DPLL_FR_BYP_MODE. - DPLL_LOCK_MODE." "RESERVED,RESERVED1,RESERVED2,RESERVED3,RESERVED4,DPLL_LP_BYP_MODE,DPLL_FR_BYP_MODE,DPLL_LOCK_MODE"
rgroup.long 0xA4++0x3
line.long 0x00 "CM_IDLEST_DPLL_IVA,This register allows monitoring DPLL activity. This register is read only and automatically updated. [warm reset insensitive]"
bitfld.long 0x00 4. " ST_DPLL_INIT       ,DPLL init status (for debug purpose) - DPLL_NOTINIT. - DPLL_INIT." "DPLL_NOTINIT,DPLL_INIT"
bitfld.long 0x00 1.--3. "       ST_DPLL_MODE    ,DPLL mode status (for debug purpose). - TRANSIENT. - LP_STOP. - FR_STOP. - RESERVED1. - RESERVED2. - LP_BYP. - FR_BYP. - RESERVED3." "TRANSIENT,LP_STOP,FR_STOP,RESERVED1,RESERVED2,LP_BYP,FR_BYP,RESERVED3"
bitfld.long 0x00 0. "       ST_DPLL_CLK           ,DPLL lock status - DPLL_UNLOCKED. - DPLL_LOCKED." "DPLL_UNLOCKED,DPLL_LOCKED"
group.long 0xA8++0x3
line.long 0x00 "CM_AUTOIDLE_DPLL_IVA,This register provides automatic control over the DPLL activity."
bitfld.long 0x00 0.--2. " AUTO_DPLL_MODE     ,DPLL automatic control; - AUTO_CTL_DISABLE. - AUTO_LP_STOP. - AUTO_FR_STOP. - RESERVED3. - RESERVED4. - AUTO_LP_BYP. - AUTO_FR_BYP. - RESERVED7." "AUTO_CTL_DISABLE,AUTO_LP_STOP,AUTO_FR_STOP,RESERVED3,RESERVED4,AUTO_LP_BYP,AUTO_FR_BYP,RESERVED7"
group.long 0xAC++0x3
line.long 0x00 "CM_CLKSEL_DPLL_IVA,This register provides controls over the DPLL."
bitfld.long 0x00 23. " DPLL_BYP_CLKSEL    ,Allows control of the BYPASS clock of the PLL and the associated HSDIVIDER. Same as ULOWCLKEN on DPLL. In DPLL Locked mode, 0 - No impact 1 - No impact In DPLL Bypass mode, 0 - CLKINP is selected as the BYPASS clock for CLKOUT/CLKO..." "Not_supported,Supported"
bitfld.long 0x00 22. "      DCC_EN          ,Duty-cycle corrector for high frequency clock - DISABLED." "DISABLED,1"
hexmask.long.word 0x00 8.--18. 1. "        DPLL_MULT             ,DPLL multiplier factor (2 to 2047). (equal to input M of DPLL; M=2 to 2047 = DPLL multiplies by M). [warm reset insensitive] - RESERVED_0. - RESERVED_1."
textline "                                 "
hexmask.long.byte 0x00 0.--6. 1. " DPLL_DIV           ,DPLL divider factor (0 to 127) (equal to input N of DPLL; actual division factor is N+1). [warm reset insensitive]"
group.long 0xB0++0x3
line.long 0x00 "CM_DIV_M2_DPLL_IVA,This register provides controls over the M2 divider of the DPLL."
bitfld.long 0x00 9. " CLKST              ,DPLL CLKOUT status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
bitfld.long 0x00 0.--4. "        DIVHS           ,DPLL M2 post-divider factor (1 to 31). - RESERVED." "RESERVED,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xDC++0x3
line.long 0x00 "CM_BYPCLK_DPLL_IVA,Control IVA PLL BYPASS clock. [warm reset insensitive]"
bitfld.long 0x00 0.--1. " CLKSEL             ,Select the DPLL IVA bypass clock - CORE_X2_CLK_DIV_1. - CORE_X2_CLK_DIV_2. - CORE_X2_CLK_DIV_4. - CORE_X2_CLK_DIV_8." "CORE_X2_CLK_DIV_1,CORE_X2_CLK_DIV_2,CORE_X2_CLK_DIV_4,CORE_X2_CLK_DIV_8"
group.long 0xE0++0x3
line.long 0x00 "CM_CLKMODE_DPLL_ABE,This register allows controlling the DPLL modes."
bitfld.long 0x00 11. " DPLL_REGM4XEN      ,Enable the REGM4XEN mode of the DPLL. Please check the DPLL documentation to check when this mode can be enabled. - DISABLED. - ENABLE." "DISABLED,ENABLE"
bitfld.long 0x00 10. "           DPLL_LPMODE_EN  ,Set the DPLL in Low Power mode. Check the DPLL documentation to see when this can be enabled. - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 9. "        DPLL_RELOCK_RAMP_EN   ,If enabled, the clock ramping feature is used applied during the lock process, as well as the relock process. If disabled, the clock ramping feature is used only during the first lock." "Disabled,Enabled"
textline "                                 "
bitfld.long 0x00 8. " DPLL_DRIFTGUARD_EN ,This bit allows to enable or disable the automatic recalibration feature of the DPLL. The DPLL will automatically start a recalibration process upon assertion of the DPLL's RECAL flag if this bit is set. - DIASBLED. - ENABLED." "DIASBLED,ENABLED"
bitfld.long 0x00 5.--7. "           DPLL_RAMP_RATE  ,Selects the time in terms of DPLL REFCLKs spent at each stage of the clock ramping process - REFCLKX2. - REFCLKX4. - REFCLKX8. - REFCLKX16. - REFCLKX32. - REFCLKX64. - REFCLKX128. - REFCLKX512." "REFCLKX2,REFCLKX4,REFCLKX8,REFCLKX16,REFCLKX32,REFCLKX64,REFCLKX128,REFCLKX512"
bitfld.long 0x00 3.--4. "      DPLL_RAMP_LEVEL       ,The DPLL provides an output clock frequency ramping feature when switching from bypass clock to normal clock during lock and re-lock. The frequency ramping will happen in a maximum of 4 steps in frequency before the DPLL's ..." "RAMP_DISABLE,RAMP_ALGO1,RAMP_ALGO2,RESERVED"
textline "                                 "
bitfld.long 0x00 0.--2. " DPLL_EN            ,DPLL control. - RESERVED. - RESERVED1. - RESERVED2. - RESERVED3. - RESERVED4. - DPLL_LP_BYP_MODE. - DPLL_FR_BYP_MODE. - DPLL_LOCK_MODE." "RESERVED,RESERVED1,RESERVED2,RESERVED3,RESERVED4,DPLL_LP_BYP_MODE,DPLL_FR_BYP_MODE,DPLL_LOCK_MODE"
rgroup.long 0xE4++0x3
line.long 0x00 "CM_IDLEST_DPLL_ABE,This register allows monitoring DPLL activity. This register is read only and automatically updated. [warm reset insensitive]"
bitfld.long 0x00 4. " ST_DPLL_INIT       ,DPLL init status (for debug purpose). - DPLL_NOTINIT. - DPLL_INIT." "DPLL_NOTINIT,DPLL_INIT"
bitfld.long 0x00 1.--3. "       ST_DPLL_MODE    ,DPLL mode status (for debug purpose). - TRANSIENT. - LP_STOP. - FR_STOP. - RESERVED1. - RESERVED2. - LP_BYP. - FR_BYP. - RESERVED3." "TRANSIENT,LP_STOP,FR_STOP,RESERVED1,RESERVED2,LP_BYP,FR_BYP,RESERVED3"
bitfld.long 0x00 0. "       ST_DPLL_CLK           ,DPLL lock status - DPLL_UNLOCKED. - DPLL_LOCKED." "DPLL_UNLOCKED,DPLL_LOCKED"
group.long 0xE8++0x3
line.long 0x00 "CM_AUTOIDLE_DPLL_ABE,This register provides automatic control over the DPLL activity."
bitfld.long 0x00 0.--2. " AUTO_DPLL_MODE     ,DPLL automatic control; - AUTO_CTL_DISABLE. - AUTO_LP_STOP. - AUTO_FR_STOP. - RESERVED3. - RESERVED4. - AUTO_LP_BYP. - AUTO_FR_BYP. - RESERVED7." "AUTO_CTL_DISABLE,AUTO_LP_STOP,AUTO_FR_STOP,RESERVED3,RESERVED4,AUTO_LP_BYP,AUTO_FR_BYP,RESERVED7"
group.long 0xEC++0x3
line.long 0x00 "CM_CLKSEL_DPLL_ABE,This register provides controls over the DPLL."
bitfld.long 0x00 23. " DPLL_BYP_CLKSEL    ,Only CLKINPULOW bypass clock supported for this PLL" "Not_supported,Supported"
bitfld.long 0x00 22. "      DCC_EN          ,Duty-cycle corrector for high frequency clock - DISABLED." "DISABLED,1"
hexmask.long.word 0x00 8.--18. 1. "        DPLL_MULT             ,DPLL multiplier factor (2 to 2047). (equal to input M of DPLL; M=2 to 2047 = DPLL multiplies by M). [warm reset insensitive] - RESERVED_0. - RESERVED_1."
textline "                                 "
hexmask.long.byte 0x00 0.--6. 1. " DPLL_DIV           ,DPLL divider factor (0 to 127) (equal to input N of DPLL; actual division factor is N+1). [warm reset insensitive]"
group.long 0xF0++0x3
line.long 0x00 "CM_DIV_M2_DPLL_ABE,This register provides controls over the M2 divider of the DPLL."
bitfld.long 0x00 11. " CLKX2ST            ,DPLL CLKOUTX2 status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
bitfld.long 0x00 9. "        CLKST           ,DPLL CLKOUT status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
bitfld.long 0x00 0.--4. "     DIVHS                 ,DPLL M2 post-divider factor (1 to 31). - RESERVED." "RESERVED,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xF4++0x3
line.long 0x00 "CM_DIV_M3_DPLL_ABE,This register provides controls over the M3 divider of the DPLL."
bitfld.long 0x00 9. " CLKST              ,DPLL CLKOUTHIF status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
bitfld.long 0x00 0.--4. "        DIVHS           ,DPLL M3 post-divider factor (1 to 31). - RESERVED." "RESERVED,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x110++0x3
line.long 0x00 "CM_CLKMODE_DPLL_DDR,This register allows controlling the DPLL modes."
bitfld.long 0x00 11. " DPLL_REGM4XEN      ,Enable the REGM4XEN mode of the DPLL. Please check the DPLL documentation to check when this mode can be enabled. - DISABLED." "DISABLED,1"
bitfld.long 0x00 10. "           DPLL_LPMODE_EN  ,Set the DPLL in Low Power mode. Check the DPLL documentation to see when this can be enabled. - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 9. "        DPLL_RELOCK_RAMP_EN   ,If enabled, the clock ramping feature is used applied during the lock process, as well as the relock process. If disabled, the clock ramping feature is used only during the first lock." "0,1"
textline "                                 "
bitfld.long 0x00 8. " DPLL_DRIFTGUARD_EN ,This bit allows to enable or disable the automatic recalibration feature of the DPLL. The DPLL will automatically start a recalibration process upon assertion of the DPLL's RECAL flag if this bit is set. - DIASBLED. - ENABLED." "DIASBLED,ENABLED"
bitfld.long 0x00 5.--7. "           DPLL_RAMP_RATE  ,Selects the time in terms of DPLL REFCLKs spent at each stage of the clock ramping process - REFCLKX2. - REFCLKX4. - REFCLKX8. - REFCLKX16. - REFCLKX32. - REFCLKX64. - REFCLKX128. - REFCLKX512." "REFCLKX2,REFCLKX4,REFCLKX8,REFCLKX16,REFCLKX32,REFCLKX64,REFCLKX128,REFCLKX512"
bitfld.long 0x00 3.--4. "      DPLL_RAMP_LEVEL       ,The DPLL provides an output clock frequency ramping feature when switching from bypass clock to normal clock during lock and re-lock. The frequency ramping will happen in a maximum of 4 steps in frequency before the DPLL's ..." "RAMP_DISABLE,RAMP_ALGO1,RAMP_ALGO2,RESERVED"
textline "                                 "
bitfld.long 0x00 0.--2. " DPLL_EN            ,DPLL control. - RESERVED. - RESERVED1. - RESERVED2. - RESERVED3. - RESERVED4. - DPLL_LP_BYP_MODE. - DPLL_FR_BYP_MODE. - DPLL_LOCK_MODE." "RESERVED,RESERVED1,RESERVED2,RESERVED3,RESERVED4,DPLL_LP_BYP_MODE,DPLL_FR_BYP_MODE,DPLL_LOCK_MODE"
rgroup.long 0x114++0x3
line.long 0x00 "CM_IDLEST_DPLL_DDR,This register allows monitoring DPLL activity. This register is read only and automatically updated. [warm reset insensitive]"
bitfld.long 0x00 4. " ST_DPLL_INIT       ,DPLL init status (for debug purpose). - DPLL_NOTINIT. - DPLL_INIT." "DPLL_NOTINIT,DPLL_INIT"
bitfld.long 0x00 1.--3. "       ST_DPLL_MODE    ,DPLL mode status (for debug purpose). - TRANSIENT. - LP_STOP. - FR_STOP. - RESERVED1. - RESERVED2. - LP_BYP. - FR_BYP. - RESERVED3." "TRANSIENT,LP_STOP,FR_STOP,RESERVED1,RESERVED2,LP_BYP,FR_BYP,RESERVED3"
bitfld.long 0x00 0. "       ST_DPLL_CLK           ,DPLL lock status - DPLL_UNLOCKED. - DPLL_LOCKED." "DPLL_UNLOCKED,DPLL_LOCKED"
group.long 0x118++0x3
line.long 0x00 "CM_AUTOIDLE_DPLL_DDR,This register provides automatic control over the DPLL activity."
bitfld.long 0x00 0.--2. " AUTO_DPLL_MODE     ,DPLL automatic control; - AUTO_CTL_DISABLE. - AUTO_LP_STOP. - AUTO_FR_STOP. - RESERVED3. - RESERVED4. - AUTO_LP_BYP. - AUTO_FR_BYP. - RESERVED7." "AUTO_CTL_DISABLE,AUTO_LP_STOP,AUTO_FR_STOP,RESERVED3,RESERVED4,AUTO_LP_BYP,AUTO_FR_BYP,RESERVED7"
group.long 0x11C++0x3
line.long 0x00 "CM_CLKSEL_DPLL_DDR,This register provides controls over the DPLL."
bitfld.long 0x00 23. " DPLL_BYP_CLKSEL    ,Allows control of the BYPASS clock of the PLL and the associated HSDIVIDER. Same as ULOWCLKEN on DPLL. In DPLL Locked mode, 0 - No impact 1 - No impact In DPLL Bypass mode, 0 - CLKINP is selected as the BYPASS clock for CLKOUT/CLKO..." "0,1"
bitfld.long 0x00 22. "                  DCC_EN          ,Duty-cycle corrector for high frequency clock - DISABLED. - ENABLED." "DISABLED,ENABLED"
hexmask.long.word 0x00 8.--18. 1. "        DPLL_MULT             ,DPLL multiplier factor (2 to 2047). (equal to input M of DPLL; M=2 to 2047 = DPLL multiplies by M). [warm reset insensitive] - RESERVED_0. - RESERVED_1."
textline "                                 "
hexmask.long.byte 0x00 0.--6. 1. " DPLL_DIV           ,DPLL divider factor (0 to 127) (equal to input N of DPLL; actual division factor is N+1). [warm reset insensitive]"
group.long 0x120++0x3
line.long 0x00 "CM_DIV_M2_DPLL_DDR,This register provides controls over the M2 divider of the DPLL."
bitfld.long 0x00 9. " CLKST              ,DPLL CLKOUT status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
bitfld.long 0x00 0.--4. "        DIVHS           ,DPLL M2 post-divider factor (1 to 31). - RESERVED." "RESERVED,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x128++0x3
line.long 0x00 "CM_DIV_H11_DPLL_DDR,This register provides controls over the CLKOUT1 o/p of the HSDIVIDER1."
bitfld.long 0x00 9. " CLKST              ,HSDIVIDER1 CLKOUT1 status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
bitfld.long 0x00 0.--5. "        DIVHS           ,DPLL (H11+1) post-divider factor (1 to 63). - RESERVED." "RESERVED,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x134++0x3
line.long 0x00 "CM_CLKMODE_DPLL_DSP,This register allows controlling the DPLL modes."
bitfld.long 0x00 11. " DPLL_REGM4XEN      ,Enable the REGM4XEN mode of the DPLL. Please check the DPLL documentation to check when this mode can be enabled. - DISABLED." "DISABLED,1"
bitfld.long 0x00 10. "           DPLL_LPMODE_EN  ,Set the DPLL in Low Power mode. Check the DPLL documentation to see when this can be enabled. - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 9. "        DPLL_RELOCK_RAMP_EN   ,If enabled, the clock ramping feature is used applied during the lock process, as well as the relock process. If disabled, the clock ramping feature is used only during the first lock." "0,1"
textline "                                 "
bitfld.long 0x00 8. " DPLL_DRIFTGUARD_EN ,This bit allows to enable or disable the automatic recalibration feature of the DPLL. The DPLL will automatically start a recalibration process upon assertion of the DPLL's RECAL flag if this bit is set. - DIASBLED. - ENABLED." "DIASBLED,ENABLED"
bitfld.long 0x00 5.--7. "           DPLL_RAMP_RATE  ,Selects the time in terms of DPLL REFCLKs spent at each stage of the clock ramping process - REFCLKX2. - REFCLKX4. - REFCLKX8. - REFCLKX16. - REFCLKX32. - REFCLKX64. - REFCLKX128. - REFCLKX512." "REFCLKX2,REFCLKX4,REFCLKX8,REFCLKX16,REFCLKX32,REFCLKX64,REFCLKX128,REFCLKX512"
bitfld.long 0x00 3.--4. "      DPLL_RAMP_LEVEL       ,The DPLL provides an output clock frequency ramping feature when switching from bypass clock to normal clock during lock and re-lock. The frequency ramping will happen in a maximum of 4 steps in frequency before the DPLL's ..." "RAMP_DISABLE,RAMP_ALGO1,RAMP_ALGO2,RESERVED"
textline "                                 "
bitfld.long 0x00 0.--2. " DPLL_EN            ,DPLL control. - RESERVED. - RESERVED1. - RESERVED2. - RESERVED3. - RESERVED4. - DPLL_LP_BYP_MODE. - DPLL_FR_BYP_MODE. - DPLL_LOCK_MODE." "RESERVED,RESERVED1,RESERVED2,RESERVED3,RESERVED4,DPLL_LP_BYP_MODE,DPLL_FR_BYP_MODE,DPLL_LOCK_MODE"
rgroup.long 0x138++0x3
line.long 0x00 "CM_IDLEST_DPLL_DSP,This register allows monitoring DPLL activity. This register is read only and automatically updated. [warm reset insensitive]"
bitfld.long 0x00 4. " ST_DPLL_INIT       ,DPLL init status (for debug purpose) - DPLL_NOTINIT. - DPLL_INIT." "DPLL_NOTINIT,DPLL_INIT"
bitfld.long 0x00 1.--3. "       ST_DPLL_MODE    ,DPLL mode status (for debug purpose). - TRANSIENT. - LP_STOP. - FR_STOP. - RESERVED1. - RESERVED2. - LP_BYP. - FR_BYP. - RESERVED3." "TRANSIENT,LP_STOP,FR_STOP,RESERVED1,RESERVED2,LP_BYP,FR_BYP,RESERVED3"
bitfld.long 0x00 0. "       ST_DPLL_CLK           ,DPLL lock status - DPLL_UNLOCKED. - DPLL_LOCKED." "DPLL_UNLOCKED,DPLL_LOCKED"
group.long 0x13C++0x3
line.long 0x00 "CM_AUTOIDLE_DPLL_DSP,This register provides automatic control over the DPLL activity."
bitfld.long 0x00 0.--2. " AUTO_DPLL_MODE     ,DPLL automatic control; - AUTO_CTL_DISABLE. - AUTO_LP_STOP. - AUTO_FR_STOP. - RESERVED3. - RESERVED4. - AUTO_LP_BYP. - AUTO_FR_BYP. - RESERVED7." "AUTO_CTL_DISABLE,AUTO_LP_STOP,AUTO_FR_STOP,RESERVED3,RESERVED4,AUTO_LP_BYP,AUTO_FR_BYP,RESERVED7"
group.long 0x140++0x3
line.long 0x00 "CM_CLKSEL_DPLL_DSP,This register provides controls over the DPLL."
bitfld.long 0x00 23. " DPLL_BYP_CLKSEL    ,Allows control of the BYPASS clock of the PLL and the associated HSDIVIDER. Same as ULOWCLKEN on DPLL. In DPLL Locked mode, 0 - No impact 1 - No impact In DPLL Bypass mode, 0 - CLKINP is selected as the BYPASS clock for CLKOUT/CLKO..." "0,1"
bitfld.long 0x00 22. "                  DCC_EN          ,Duty-cycle corrector for high frequency clock - DISABLED." "DISABLED,1"
hexmask.long.word 0x00 8.--18. 1. "        DPLL_MULT             ,DPLL multiplier factor (2 to 2047). (equal to input M of DPLL; M=2 to 2047 = DPLL multiplies by M). [warm reset insensitive] - RESERVED_0. - RESERVED_1."
textline "                                 "
hexmask.long.byte 0x00 0.--6. 1. " DPLL_DIV           ,DPLL divider factor (0 to 127) (equal to input N of DPLL; actual division factor is N+1). [warm reset insensitive]"
group.long 0x144++0x3
line.long 0x00 "CM_DIV_M2_DPLL_DSP,This register provides controls over the M2 divider of the DPLL."
bitfld.long 0x00 9. " CLKST              ,DPLL CLKOUT status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
bitfld.long 0x00 0.--4. "        DIVHS           ,DPLL M2 post-divider factor (1 to 31). - RESERVED." "RESERVED,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x148++0x3
line.long 0x00 "CM_DIV_M3_DPLL_DSP,This register provides controls over the M3 divider of the DPLL."
bitfld.long 0x00 9. " CLKST              ,DPLL CLKOUTHIF status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
bitfld.long 0x00 0.--4. "        DIVHS           ,DPLL M3 post-divider factor (1 to 31). - RESERVED." "RESERVED,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x154++0x3
line.long 0x00 "CM_BYPCLK_DPLL_DSP,Control IVA PLL BYPASS clock. [warm reset insensitive]"
bitfld.long 0x00 0.--1. " CLKSEL             ,Select the DPLL IVA bypass clock - CORE_X2_CLK_DIV_1. - CORE_X2_CLK_DIV_2. - CORE_X2_CLK_DIV_4. - CORE_X2_CLK_DIV_8." "CORE_X2_CLK_DIV_1,CORE_X2_CLK_DIV_2,CORE_X2_CLK_DIV_4,CORE_X2_CLK_DIV_8"
group.long 0x160++0x3
line.long 0x00 "CM_SHADOW_FREQ_CONFIG1,Shadow register to program new DPLL configuration affecting EMIF and GPMC (L3 clock) functional frequency during DVFS. The PRCM h/w automatically applies the new configuration after EMIF/GPMC have been put in idle state."
bitfld.long 0x00 16.--18. " DPLL_DDR_DPLL_EN   ,Shadow register forCM_CLKMODE_DPLL_DDR.DPLL_EN. The main register is automatically loaded with the shadow register value after EMIF IDLE if the FREQ_UPDATE field is set to '1'. - RESERVED. - RESERVED1. - RESERVED2. - RESERVED3. - R..." "RESERVED,RESERVED1,RESERVED2,RESERVED3,RESERVED4,DPLL_LP_BYP_MODE,DPLL_FR_BYP_MODE,DPLL_LOCK_MODE"
bitfld.long 0x00 11.--15. "   DPLL_DDR_M2_DIV ,Shadow register forCM_DIV_M2_DPLL_DDR.DIVHS. The main register is automatically loaded with the shadow register value after EMIF IDLE if the FREQ_UPDATE field is set to '1'. Divide value from 1 to 31. - RESERVED." "RESERVED,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "        DLL_RESET             ,Specify if DLL should be reset or not during the frequency change hardware sequence. - NO_RESET. - RESET." "NO_RESET,RESET"
textline "                                 "
bitfld.long 0x00 2. " DLL_OVERRIDE       ,Shadow register forCM_DLL_CTRL.DLL_OVERRIDE.The main register is automatically loaded with the shadow register value after EMIF IDLE if the FREQ_UPDATE field is set to '1'. - NO_OVR. - OVR." "NO_OVR,OVR"
bitfld.long 0x00 0. "             FREQ_UPDATE     ,Writing '1' indicates that a new configuration is available. It is automatically cleared by h/w after the configuration has been applied." "Not_updated,Updated"
group.long 0x164++0x3
line.long 0x00 "CM_SHADOW_FREQ_CONFIG2,Shadow register to program new DPLL configuration affecting GPMC (L3 clock) functional frequency during DVFS. The PRCM h/w automatically applies the new configuration after EMIF/GPMC have been put in idle state."
bitfld.long 0x00 2.--7. " DPLL_CORE_H12_DIV  ,Shadow register forCM_DIV_H12_DPLL_CORE.DIVHS. The main register is automatically loaded with the shadow register value after GPMC IDLE if the CM_SHADOW_FREQ_CONFIG1.FREQ_UPDATE field is set to '1' and GPMC_FREQ_UPDATE is set to '1..." "RESERVED,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 1. "           CLKSEL_L3       ,Shadow register forCM_CLKSEL_CORE.CLKSEL_L3. The main register is automatically loaded with the shadow register value after GPMC IDLE if the CM_SHADOW_FREQ_CONFIG1.FREQ_UPDATE field is set to '1' and GPMC_FREQ_UPDATE is set ..." "CORE_CLK_DIV_1,CORE_CLK_DIV_2"
bitfld.long 0x00 0. "  GPMC_FREQ_UPDATE      ,Controls whether or not GPMC has to be put automatically into idle during the frequency change operation. - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x170++0x3
line.long 0x00 "CM_DYN_DEP_PRESCAL,Control the time unit of the sliding window for dynamic dependencies (auto-sleep feature)."
bitfld.long 0x00 0.--5. " PRESCAL            ,Time unit is equal to (PRESCAL + 1) L4 clock cycles." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x184++0x3
line.long 0x00 "CM_CLKMODE_DPLL_EVE,This register allows controlling the DPLL modes."
bitfld.long 0x00 11. " DPLL_REGM4XEN      ,Enable the REGM4XEN mode of the DPLL. Please check the DPLL documentation to check when this mode can be enabled. - DISABLED." "DISABLED,1"
bitfld.long 0x00 10. "           DPLL_LPMODE_EN  ,Set the DPLL in Low Power mode. Check the DPLL documentation to see when this can be enabled. - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 9. "        DPLL_RELOCK_RAMP_EN   ,If enabled, the clock ramping feature is used applied during the lock process, as well as the relock process. If disabled, the clock ramping feature is used only during the first lock." "0,1"
textline "                                 "
bitfld.long 0x00 8. " DPLL_DRIFTGUARD_EN ,This bit allows to enable or disable the automatic recalibration feature of the DPLL. The DPLL will automatically start a recalibration process upon assertion of the DPLL's RECAL flag if this bit is set. - DIASBLED. - ENABLED." "DIASBLED,ENABLED"
bitfld.long 0x00 5.--7. "           DPLL_RAMP_RATE  ,Selects the time in terms of DPLL REFCLKs spent at each stage of the clock ramping process - REFCLKX2. - REFCLKX4. - REFCLKX8. - REFCLKX16. - REFCLKX32. - REFCLKX64. - REFCLKX128. - REFCLKX512." "REFCLKX2,REFCLKX4,REFCLKX8,REFCLKX16,REFCLKX32,REFCLKX64,REFCLKX128,REFCLKX512"
bitfld.long 0x00 3.--4. "      DPLL_RAMP_LEVEL       ,The DPLL provides an output clock frequency ramping feature when switching from bypass clock to normal clock during lock and re-lock. The frequency ramping will happen in a maximum of 4 steps in frequency before the DPLL's ..." "RAMP_DISABLE,RAMP_ALGO1,RAMP_ALGO2,RESERVED"
textline "                                 "
bitfld.long 0x00 0.--2. " DPLL_EN            ,DPLL control. - RESERVED. - RESERVED1. - RESERVED2. - RESERVED3. - RESERVED4. - DPLL_LP_BYP_MODE. - DPLL_FR_BYP_MODE. - DPLL_LOCK_MODE." "RESERVED,RESERVED1,RESERVED2,RESERVED3,RESERVED4,DPLL_LP_BYP_MODE,DPLL_FR_BYP_MODE,DPLL_LOCK_MODE"
rgroup.long 0x188++0x3
line.long 0x00 "CM_IDLEST_DPLL_EVE,This register allows monitoring DPLL activity. This register is read only and automatically updated. [warm reset insensitive]"
bitfld.long 0x00 4. " ST_DPLL_INIT       ,DPLL init status (for debug purpose) - DPLL_NOTINIT. - DPLL_INIT." "DPLL_NOTINIT,DPLL_INIT"
bitfld.long 0x00 1.--3. "       ST_DPLL_MODE    ,DPLL mode status (for debug purpose). - TRANSIENT. - LP_STOP. - FR_STOP. - RESERVED1. - RESERVED2. - LP_BYP. - FR_BYP. - RESERVED3." "TRANSIENT,LP_STOP,FR_STOP,RESERVED1,RESERVED2,LP_BYP,FR_BYP,RESERVED3"
bitfld.long 0x00 0. "       ST_DPLL_CLK           ,DPLL lock status - DPLL_UNLOCKED. - DPLL_LOCKED." "DPLL_UNLOCKED,DPLL_LOCKED"
group.long 0x18C++0x3
line.long 0x00 "CM_AUTOIDLE_DPLL_EVE,This register provides automatic control over the DPLL activity."
bitfld.long 0x00 0.--2. " AUTO_DPLL_MODE     ,DPLL automatic control; - AUTO_CTL_DISABLE. - AUTO_LP_STOP. - AUTO_FR_STOP. - RESERVED3. - RESERVED4. - AUTO_LP_BYP. - AUTO_FR_BYP. - RESERVED7." "AUTO_CTL_DISABLE,AUTO_LP_STOP,AUTO_FR_STOP,RESERVED3,RESERVED4,AUTO_LP_BYP,AUTO_FR_BYP,RESERVED7"
group.long 0x190++0x3
line.long 0x00 "CM_CLKSEL_DPLL_EVE,This register provides controls over the DPLL."
bitfld.long 0x00 23. " DPLL_BYP_CLKSEL    ,Allows control of the BYPASS clock of the PLL and the associated HSDIVIDER. Same as ULOWCLKEN on DPLL. In DPLL Locked mode, 0 - No impact 1 - No impact In DPLL Bypass mode, 0 - CLKINP is selected as the BYPASS clock for CLKOUT/CLKO..." "0,1"
bitfld.long 0x00 22. "                  DCC_EN          ,Duty-cycle corrector for high frequency clock - DISABLED." "DISABLED,1"
hexmask.long.word 0x00 8.--18. 1. "        DPLL_MULT             ,DPLL multiplier factor (2 to 2047). (equal to input M of DPLL; M=2 to 2047 = DPLL multiplies by M). [warm reset insensitive] - RESERVED_0. - RESERVED_1."
textline "                                 "
hexmask.long.byte 0x00 0.--6. 1. " DPLL_DIV           ,DPLL divider factor (0 to 127) (equal to input N of DPLL; actual division factor is N+1). [warm reset insensitive]"
group.long 0x194++0x3
line.long 0x00 "CM_DIV_M2_DPLL_EVE,This register provides controls over the M2 divider of the DPLL."
bitfld.long 0x00 9. " CLKST              ,DPLL CLKOUT status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
bitfld.long 0x00 0.--4. "        DIVHS           ,DPLL M2 post-divider factor (1 to 31). - RESERVED." "RESERVED,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x1A4++0x3
line.long 0x00 "CM_BYPCLK_DPLL_EVE,Control IVA PLL BYPASS clock. [warm reset insensitive]"
bitfld.long 0x00 0.--1. " CLKSEL             ,Select the DPLL IVA bypass clock - CORE_X2_CLK_DIV_1. - CORE_X2_CLK_DIV_2. - CORE_X2_CLK_DIV_4. - CORE_X2_CLK_DIV_8." "CORE_X2_CLK_DIV_1,CORE_X2_CLK_DIV_2,CORE_X2_CLK_DIV_4,CORE_X2_CLK_DIV_8"
group.long 0x1A8++0x3
line.long 0x00 "CM_CLKMODE_DPLL_GMAC,This register allows controlling the DPLL modes."
bitfld.long 0x00 11. " DPLL_REGM4XEN      ,Enable the REGM4XEN mode of the DPLL. Please check the DPLL documentation to check when this mode can be enabled. - DISABLED." "DISABLED,1"
bitfld.long 0x00 10. "           DPLL_LPMODE_EN  ,Set the DPLL in Low Power mode. Check the DPLL documentation to see when this can be enabled. - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 9. "        DPLL_RELOCK_RAMP_EN   ,If enabled, the clock ramping feature is used applied during the lock process, as well as the relock process. If disabled, the clock ramping feature is used only during the first lock." "0,1"
textline "                                 "
bitfld.long 0x00 8. " DPLL_DRIFTGUARD_EN ,This bit allows to enable or disable the automatic recalibration feature of the DPLL. The DPLL will automatically start a recalibration process upon assertion of the DPLL's RECAL flag if this bit is set. - DIASBLED. - ENABLED." "DIASBLED,ENABLED"
bitfld.long 0x00 5.--7. "           DPLL_RAMP_RATE  ,Selects the time in terms of DPLL REFCLKs spent at each stage of the clock ramping process - REFCLKX2. - REFCLKX4. - REFCLKX8. - REFCLKX16. - REFCLKX32. - REFCLKX64. - REFCLKX128. - REFCLKX512." "REFCLKX2,REFCLKX4,REFCLKX8,REFCLKX16,REFCLKX32,REFCLKX64,REFCLKX128,REFCLKX512"
bitfld.long 0x00 3.--4. "      DPLL_RAMP_LEVEL       ,The DPLL provides an output clock frequency ramping feature when switching from bypass clock to normal clock during lock and re-lock. The frequency ramping will happen in a maximum of 4 steps in frequency before the DPLL's ..." "RAMP_DISABLE,RAMP_ALGO1,RAMP_ALGO2,RESERVED"
textline "                                 "
bitfld.long 0x00 0.--2. " DPLL_EN            ,DPLL control. - RESERVED. - RESERVED1. - RESERVED2. - RESERVED3. - RESERVED4. - DPLL_LP_BYP_MODE. - DPLL_FR_BYP_MODE. - DPLL_LOCK_MODE." "RESERVED,RESERVED1,RESERVED2,RESERVED3,RESERVED4,DPLL_LP_BYP_MODE,DPLL_FR_BYP_MODE,DPLL_LOCK_MODE"
rgroup.long 0x1AC++0x3
line.long 0x00 "CM_IDLEST_DPLL_GMAC,This register allows monitoring DPLL activity. This register is read only and automatically updated. [warm reset insensitive]"
bitfld.long 0x00 4. " ST_DPLL_INIT       ,DPLL init status (for debug purpose). - DPLL_NOTINIT. - DPLL_INIT." "DPLL_NOTINIT,DPLL_INIT"
bitfld.long 0x00 1.--3. "       ST_DPLL_MODE    ,DPLL mode status (for debug purpose). - TRANSIENT. - LP_STOP. - FR_STOP. - RESERVED1. - RESERVED2. - LP_BYP. - FR_BYP. - RESERVED3." "TRANSIENT,LP_STOP,FR_STOP,RESERVED1,RESERVED2,LP_BYP,FR_BYP,RESERVED3"
bitfld.long 0x00 0. "       ST_DPLL_CLK           ,DPLL lock status - DPLL_UNLOCKED. - DPLL_LOCKED." "DPLL_UNLOCKED,DPLL_LOCKED"
group.long 0x1B0++0x3
line.long 0x00 "CM_AUTOIDLE_DPLL_GMAC,This register provides automatic control over the DPLL activity."
bitfld.long 0x00 0.--2. " AUTO_DPLL_MODE     ,DPLL automatic control; - AUTO_CTL_DISABLE. - AUTO_LP_STOP. - AUTO_FR_STOP. - RESERVED3. - RESERVED4. - AUTO_LP_BYP. - AUTO_FR_BYP. - RESERVED7." "AUTO_CTL_DISABLE,AUTO_LP_STOP,AUTO_FR_STOP,RESERVED3,RESERVED4,AUTO_LP_BYP,AUTO_FR_BYP,RESERVED7"
group.long 0x1B4++0x3
line.long 0x00 "CM_CLKSEL_DPLL_GMAC,This register provides controls over the DPLL."
bitfld.long 0x00 23. " DPLL_BYP_CLKSEL    ,Allows control of the BYPASS clock of the PLL and the associated HSDIVIDER. Same as ULOWCLKEN on DPLL. In DPLL Locked mode, 0 - No impact 1 - No impact In DPLL Bypass mode, 0 - CLKINP is selected as the BYPASS clock for CLKOUT/CLKO..." "0,1"
bitfld.long 0x00 22. "                  DCC_EN          ,Duty-cycle corrector for high frequency clock - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 20. "        DPLL_CLKOUTHIF_CLKSEL ,Selects the source of the DPLL CLKOUTHIF clock. Same as CLKINPHIFSEL pin on the DPLL - SEL_DCO. - SEL_CLKINPHIF." "SEL_DCO,SEL_CLKINPHIF"
textline "                                 "
hexmask.long.word 0x00 8.--18. 1. " DPLL_MULT          ,DPLL multiplier factor (2 to 2047). (equal to input M of DPLL; M=2 to 2047 = DPLL multiplies by M). [warm reset insensitive] - RESERVED_0. - RESERVED_1."
hexmask.long.byte 0x00 0.--6. 1. "               DPLL_DIV        ,DPLL divider factor (0 to 127) (equal to input N of DPLL; actual division factor is N+1). [warm reset insensitive]"
group.long 0x1B8++0x3
line.long 0x00 "CM_DIV_M2_DPLL_GMAC,This register provides controls over the M2 divider of the DPLL."
bitfld.long 0x00 9. " CLKST              ,DPLL CLKOUT status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
bitfld.long 0x00 0.--4. "        DIVHS           ,DPLL M2 post-divider factor (1 to 31). - RESERVED." "RESERVED,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x1BC++0x3
line.long 0x00 "CM_DIV_M3_DPLL_GMAC,This register provides controls over the M3 divider of the DPLL."
bitfld.long 0x00 9. " CLKST              ,DPLL CLKOUTHIF status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
bitfld.long 0x00 0.--4. "        DIVHS           ,DPLL M3 post-divider factor (1 to 31). - RESERVED." "RESERVED,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x1C0++0x3
line.long 0x00 "CM_DIV_H11_DPLL_GMAC,This register provides controls over the CLKOUT1 o/p of the HSDIVIDER1."
bitfld.long 0x00 9. " CLKST              ,HSDIVIDER1 CLKOUT1 status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
bitfld.long 0x00 0.--5. "        DIVHS           ,DPLL (H11+1) post-divider factor (1 to 63). - RESERVED." "RESERVED,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x1C4++0x3
line.long 0x00 "CM_DIV_H12_DPLL_GMAC,This register provides controls over the CLKOUT2 o/p of the HSDIVIDER1."
bitfld.long 0x00 9. " CLKST              ,HSDIVIDER1 CLKOUT2 status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
bitfld.long 0x00 0.--5. "        DIVHS           ,DPLL (H12+1) post-divider factor (1 to 63). - RESERVED." "RESERVED,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x1C8++0x3
line.long 0x00 "CM_DIV_H13_DPLL_GMAC,This register provides controls over the CLKOUT3 o/p of the HSDIVIDER1."
bitfld.long 0x00 9. " CLKST              ,HSDIVIDER1 CLKOUT3 status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
bitfld.long 0x00 0.--5. "        DIVHS           ,DPLL (H13+1) post-divider factor (1 to 63). - RESERVED." "RESERVED,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x1D8++0x3
line.long 0x00 "CM_CLKMODE_DPLL_GPU,This register allows controlling the DPLL modes."
bitfld.long 0x00 11. " DPLL_REGM4XEN      ,Enable the REGM4XEN mode of the DPLL. Please check the DPLL documentation to check when this mode can be enabled. - DISABLED." "DISABLED,1"
bitfld.long 0x00 10. "           DPLL_LPMODE_EN  ,Set the DPLL in Low Power mode. Check the DPLL documentation to see when this can be enabled. - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 9. "        DPLL_RELOCK_RAMP_EN   ,If enabled, the clock ramping feature is used applied during the lock process, as well as the relock process. If disabled, the clock ramping feature is used only during the first lock." "0,1"
textline "                                 "
bitfld.long 0x00 8. " DPLL_DRIFTGUARD_EN ,This bit allows to enable or disable the automatic recalibration feature of the DPLL. The DPLL will automatically start a recalibration process upon assertion of the DPLL's RECAL flag if this bit is set. - DIASBLED. - ENABLED." "DIASBLED,ENABLED"
bitfld.long 0x00 5.--7. "           DPLL_RAMP_RATE  ,Selects the time in terms of DPLL REFCLKs spent at each stage of the clock ramping process - REFCLKX2. - REFCLKX4. - REFCLKX8. - REFCLKX16. - REFCLKX32. - REFCLKX64. - REFCLKX128. - REFCLKX512." "REFCLKX2,REFCLKX4,REFCLKX8,REFCLKX16,REFCLKX32,REFCLKX64,REFCLKX128,REFCLKX512"
bitfld.long 0x00 3.--4. "      DPLL_RAMP_LEVEL       ,The DPLL provides an output clock frequency ramping feature when switching from bypass clock to normal clock during lock and re-lock. The frequency ramping will happen in a maximum of 4 steps in frequency before the DPLL's ..." "RAMP_DISABLE,RAMP_ALGO1,RAMP_ALGO2,RESERVED"
textline "                                 "
bitfld.long 0x00 0.--2. " DPLL_EN            ,DPLL control. - RESERVED. - RESERVED1. - RESERVED2. - RESERVED3. - RESERVED4. - DPLL_LP_BYP_MODE. - DPLL_FR_BYP_MODE. - DPLL_LOCK_MODE." "RESERVED,RESERVED1,RESERVED2,RESERVED3,RESERVED4,DPLL_LP_BYP_MODE,DPLL_FR_BYP_MODE,DPLL_LOCK_MODE"
rgroup.long 0x1DC++0x3
line.long 0x00 "CM_IDLEST_DPLL_GPU,This register allows monitoring DPLL activity. This register is read only and automatically updated. [warm reset insensitive]"
bitfld.long 0x00 4. " ST_DPLL_INIT       ,DPLL init status (for debug purpose). - DPLL_NOTINIT. - DPLL_INIT." "DPLL_NOTINIT,DPLL_INIT"
bitfld.long 0x00 1.--3. "       ST_DPLL_MODE    ,DPLL mode status (for debug purpose). - TRANSIENT. - LP_STOP. - FR_STOP. - RESERVED1. - RESERVED2. - LP_BYP. - FR_BYP. - RESERVED3." "TRANSIENT,LP_STOP,FR_STOP,RESERVED1,RESERVED2,LP_BYP,FR_BYP,RESERVED3"
bitfld.long 0x00 0. "       ST_DPLL_CLK           ,DPLL lock status - DPLL_UNLOCKED. - DPLL_LOCKED." "DPLL_UNLOCKED,DPLL_LOCKED"
group.long 0x1E0++0x3
line.long 0x00 "CM_AUTOIDLE_DPLL_GPU,This register provides automatic control over the DPLL activity."
bitfld.long 0x00 0.--2. " AUTO_DPLL_MODE     ,DPLL automatic control. - AUTO_CTL_DISABLE. - AUTO_LP_STOP. - AUTO_FR_STOP. - RESERVED. - RESERVED1. - AUTO_LP_BYP. - AUTO_FR_BYP. - RESERVED2." "AUTO_CTL_DISABLE,AUTO_LP_STOP,AUTO_FR_STOP,RESERVED,RESERVED1,AUTO_LP_BYP,AUTO_FR_BYP,RESERVED2"
group.long 0x1E4++0x3
line.long 0x00 "CM_CLKSEL_DPLL_GPU,This register provides controls over the DPLL."
bitfld.long 0x00 23. " DPLL_BYP_CLKSEL    ,Allows control of the BYPASS clock of the PLL and the associated HSDIVIDER. Same as ULOWCLKEN on DPLL. In DPLL Locked mode, 0 - No impact 1 - No impact In DPLL Bypass mode, 0 - CLKINP is selected as the BYPASS clock for CLKOUT/CLKO..." "0,1"
bitfld.long 0x00 22. "                  DCC_EN          ,Duty-cycle corrector for high frequency clock - DISABLED." "DISABLED,1"
bitfld.long 0x00 20. "        DPLL_CLKOUTHIF_CLKSEL ,Selects the source of the DPLL CLKOUTHIF clock. Same as CLKINPHIFSEL pin on the DPLL - SEL_DCO. - SEL_CLKINPHIF." "SEL_DCO,SEL_CLKINPHIF"
textline "                                 "
hexmask.long.word 0x00 8.--18. 1. " DPLL_MULT          ,DPLL multiplier factor (2 to 2047). (equal to input M of DPLL; M=2 to 2047 = DPLL multiplies by M). [warm reset insensitive] - RESERVED_0. - RESERVED_1."
hexmask.long.byte 0x00 0.--6. 1. "               DPLL_DIV        ,DPLL divider factor (0 to 127) (equal to input N of DPLL; actual division factor is N+1). [warm reset insensitive]"
group.long 0x1E8++0x3
line.long 0x00 "CM_DIV_M2_DPLL_GPU,This register provides controls over the M2 divider of the DPLL."
bitfld.long 0x00 9. " CLKST              ,DPLL CLKOUT status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
bitfld.long 0x00 0.--4. "        DIVHS           ,DPLL M2 post-divider factor (1 to 31). - RESERVED." "RESERVED,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "CM_CORE_AON__RTC"
base ad:0x4A005740
width 22.
group.long 0x0++0x3
line.long 0x00 "CM_RTC_CLKSTCTRL,This register enables the domain power state transition. It controls the HW supervised domain power state transition between ON-ACTIVE and ON-INACTIVE states. It also hold one status bit per clock input of the domain."
bitfld.long 0x00 10. " CLKACTIVITY_RTC_AUX_CLK ,This field indicates the state of the RTC_AUX_CLK in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 8. "    CLKACTIVITY_RTC_L4_GICLK ,This field indicates the state of the RTC_L4_GICLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 0.--1. "       CLKTRCTRL ,Controls the clock state transition of the WKUPAON clock domain. - NO_SLEEP. - RESERVED_1. - SW_WKUP. - HW_AUTO." "NO_SLEEP,RESERVED_1,SW_WKUP,HW_AUTO"
group.long 0x4++0x3
line.long 0x00 "CM_RTC_RTCSS_CLKCTRL,This register manages the RTC clocks."
bitfld.long 0x00 16.--17. " IDLEST                  ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "  MODULEMODE               ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLED. - RESERVED." "DISABLED,RESERVED_1,ENABLED,RESERVED"
width 0x0B
tree.end
tree "INSTR_PRM"
base ad:0x4AE07F00
width 21.
rgroup.long 0x0++0x3
line.long 0x00 "PMI_IDENTICATION,PM profiling identification register"
hexmask.long 0x00 0.--31. 1. " REVISION        ,IP revision"
group.long 0x10++0x3
line.long 0x00 "PMI_SYS_CONFIG,PM profiling system configuartion register"
bitfld.long 0x00 2.--3. " IDLEMODE        ,Configuration of the local tartget state management mode" "0,1,2,3"
bitfld.long 0x00 0. "         SOFTRESET       ,Software reset" "0,1"
rgroup.long 0x14++0x3
line.long 0x00 "PMI_STATUS,PM profiling status register"
bitfld.long 0x00 8. " FIFOEMPTY       ,PM Profiling buffer empty" "0,1"
group.long 0x24++0x3
line.long 0x00 "PMI_CONFIGURATION,PM profiling configuration register"
bitfld.long 0x00 30.--31. " CLAIM_3         ,Ownership" "0,1,2,3"
bitfld.long 0x00 29. "         CLAIM_2         ,Debugger override qualifier" "0,1"
bitfld.long 0x00 28. "   CLAIM_1         ,Current owner" "0,1"
textline "                              "
bitfld.long 0x00 7. " EVT_CAPT_EN     ,When HIGH the PM events capture is enabled" "0,1"
group.long 0x28++0x3
line.long 0x00 "PMI_CLASS_FILTERING,PM profiling class filtering register"
bitfld.long 0x00 3. " SNAP_CAPT_EN_03 ,Snapshot capture enable - Class-ID = 0x03" "0,1"
bitfld.long 0x00 2. "         SNAP_CAPT_EN_02 ,Snapshot capture enable - Class-ID = 0x02" "0,1"
bitfld.long 0x00 1. "   SNAP_CAPT_EN_01 ,Snapshot capture enable - Class-ID = 0x01" "0,1"
textline "                              "
bitfld.long 0x00 0. " SNAP_CAPT_EN_00 ,Snapshot capture enable - Class-ID = 0x00" "0,1"
group.long 0x2C++0x3
line.long 0x00 "PMI_TRIGGERING,PM profiling triggering control register"
bitfld.long 0x00 1. " TRIG_STOP_EN    ,Enable stop capturing PM events from external trigger detection" "0,1"
bitfld.long 0x00 0. "         TRIG_START_EN   ,Enable start capturing PM events from external trigger detection" "0,1"
group.long 0x30++0x3
line.long 0x00 "PMI_SAMPLING,PM profiling sampling window register"
bitfld.long 0x00 16.--19. " FCLK_DIV_FACOR  ,FunClk divide factor ranging from 1 to 16" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 0.--7. 1. "        SAMP_WIND_SIZE  ,PM events sampling window size"
width 0x0B
tree.end
tree "CM_CORE__CORE"
base ad:0x4A008700
width 40.
group.long 0x0++0x3
line.long 0x00 "CM_L3MAIN1_CLKSTCTRL,This register enables the domain power state transition. It controls the HW supervised domain power state transition between ON-ACTIVE and ON-INACTIVE states. It also hold one status bit per clock input of the domain."
bitfld.long 0x00 9. " CLKACTIVITY_L3MAIN1_L4_GICLK ,This field indicates the state of the L3MAIN1_L4_GICLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 8. "       CLKACTIVITY_L3MAIN1_L3_GICLK       ,This field indicates the state of the L3MAIN1_L3_GICLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 0.--1. "       CLKTRCTRL                    ,Controls the clock state transition of the L3MAIN1 clock domain. - NO_SLEEP. - RESERVED_1. - RESERVED_2. - HW_AUTO." "NO_SLEEP,RESERVED_1,RESERVED_2,HW_AUTO"
group.long 0x8++0x3
line.long 0x00 "CM_L3MAIN1_DYNAMICDEP,This register controls the dynamic domain depedencies from L3MAIN1 domain towards 'target' domains. It is relevant only for domain having OCP master port(s)."
bitfld.long 0x00 31. " EVE4_DYNDEP                  ,Dynamic dependency towards EVE4 clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 30. "     EVE3_DYNDEP                        ,Dynamic dependency towards EVE3 clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 29. "     EVE2_DYNDEP                  ,Dynamic dependency towards EVE2 clock domain - ENABLED." "0,ENABLED"
textline "                                                 "
bitfld.long 0x00 28. " EVE1_DYNDEP                  ,Dynamic dependency towards EVE1 clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 24.--27. "     WINDOWSIZE                         ,Size of sliding window used to monitor OCP interface activity for determination of auto-sleep feature. Time unit defined byCM_DYN_DEP_PRESCAL register." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "          L4PER3_DYNDEP                ,Dynamic dependency towards L4PER3 clock domain - ENABLED." "0,ENABLED"
textline "                                                 "
bitfld.long 0x00 22. " L4PER2_DYNDEP                ,Dynamic dependency towards L4PER2 clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 21. "     PCIE_DYNDEP                        ,Dynamic dependency towards PCIE clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 20. "     DSP2_DYNDEP                  ,Dynamic dependency towards DSP2 clock domain - ENABLED." "0,ENABLED"
textline "                                                 "
bitfld.long 0x00 18. " IPU1_DYNDEP                  ,Dynamic dependency towards IPU1 clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 15. "     WKUPAON_DYNDEP                     ,Dynamic dependency towards WKUPAON clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 14. "     L4SEC_DYNDEP                 ,Dynamic dependency towards L4SEC clock domain - ENABLED." "0,ENABLED"
textline "                                                 "
bitfld.long 0x00 13. " L4PER_DYNDEP                 ,Dynamic dependency towards L4PER1 clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 12. "     L4CFG_DYNDEP                       ,Dynamic dependency towards L4CFG clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 10. "     GPU_DYNDEP                   ,Dynamic dependency towards GPU clock domain - ENABLED." "0,ENABLED"
textline "                                                 "
bitfld.long 0x00 8. " DSS_DYNDEP                   ,Dynamic dependency towards DSS clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 4. "     EMIF_DYNDEP                        ,Dynamic dependency towards EMIF clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 3. "     IPU_DYNDEP                   ,Dynamic dependency towards IPU clock domain - ENABLED." "0,ENABLED"
textline "                                                 "
bitfld.long 0x00 2. " IVA_DYNDEP                   ,Dynamic dependency towards IVA clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 1. "     DSP1_DYNDEP                        ,Dynamic dependency towards DSP1 clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 0. "     IPU2_DYNDEP                  ,Dynamic dependency towards IPU2 clock domain - ." "0,Dependency_is_enabled"
rgroup.long 0x20++0x3
line.long 0x00 "CM_L3MAIN1_L3_MAIN_1_CLKCTRL,This register manages the L3_MAIN_1 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                         ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
group.long 0x28++0x3
line.long 0x00 "CM_L3MAIN1_GPMC_CLKCTRL,This register manages the GPMC clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                         ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
rgroup.long 0x30++0x3
line.long 0x00 "CM_L3MAIN1_MMU_EDMA_CLKCTRL,This register manages the MMU_L4_EDMA clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                         ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
rgroup.long 0x48++0x3
line.long 0x00 "CM_L3MAIN1_MMU_PCIESS_CLKCTRL,This register manages the MMU_L4_PCIESS clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                         ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
rgroup.long 0x50++0x3
line.long 0x00 "CM_L3MAIN1_OCMC_RAM1_CLKCTRL,This register manages the OCMC_RAM1 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                         ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
rgroup.long 0x58++0x3
line.long 0x00 "CM_L3MAIN1_OCMC_RAM2_CLKCTRL,This register manages the OCMC_RAM2 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                         ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
rgroup.long 0x60++0x3
line.long 0x00 "CM_L3MAIN1_OCMC_RAM3_CLKCTRL,This register manages the OCMC_RAM3 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                         ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
rgroup.long 0x70++0x3
line.long 0x00 "CM_L3MAIN1_TPCC_CLKCTRL,This register manages the TPCC clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                         ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
group.long 0x78++0x3
line.long 0x00 "CM_L3MAIN1_TPTC1_CLKCTRL,This register manages the TPTC1 clocks."
bitfld.long 0x00 18. " STBYST                       ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
bitfld.long 0x00 16.--17. "     IDLEST                             ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
group.long 0x80++0x3
line.long 0x00 "CM_L3MAIN1_TPTC2_CLKCTRL,This register manages the TPTC2 clocks."
bitfld.long 0x00 18. " STBYST                       ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
bitfld.long 0x00 16.--17. "     IDLEST                             ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
group.long 0x200++0x3
line.long 0x00 "CM_IPU2_CLKSTCTRL,This register enables the domain power state transition. It controls the HW supervised domain power state transition between ON-ACTIVE and ON-INACTIVE states. It also hold one status bit per clock input of the domain."
bitfld.long 0x00 8. " CLKACTIVITY_IPU2_GFCLK       ,This field indicates the state of the IPU2_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 0.--1. "       CLKTRCTRL                          ,Controls the clock state transition of the IPU2 clock domain. - NO_SLEEP. - SW_SLEEP. - HW_AUTO. - SW_WKUP." "NO_SLEEP,SW_SLEEP,HW_AUTO,SW_WKUP"
group.long 0x204++0x3
line.long 0x00 "CM_IPU2_STATICDEP,This register controls the static domain depedencies from IPU domain towards 'target' domains. It is relevant only for domain having system initiator(s)."
bitfld.long 0x00 29. " PCIE_STATDEP                 ,Static dependency towards PCIE clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 28. "    VPE_STATDEP                        ,Static dependency towards VPE clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 27. "    L4PER3_STATDEP               ,Static dependency towards L4PER3 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                                 "
bitfld.long 0x00 26. " L4PER2_STATDEP               ,Static dependency towards L4PER2 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 25. "    GMAC_STATDEP                       ,Static dependency towards GMAC clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 24. "    IPU_STATDEP                  ,Static dependency towards IPU clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                                 "
bitfld.long 0x00 23. " IPU1_STATDEP                 ,Static dependency towards IPU1 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 22. "    EVE4_STATDEP                       ,Static dependency towards EVE4 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 21. "    EVE3_STATDEP                 ,Static dependency towards EVE3 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                                 "
bitfld.long 0x00 20. " EVE2_STATDEP                 ,Static dependency towards EVE2 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 19. "    EVE1_STATDEP                       ,Static dependency towards EVE1 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 18. "    DSP2_STATDEP                 ,Static dependency towards DSP2 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                                 "
bitfld.long 0x00 17. " CUSTEFUSE_STATDEP            ,Static dependency towards CUSTEFUSE clock domain - DISABLED." "DISABLED,1"
bitfld.long 0x00 16. "    COREAON_STATDEP                    ,Static dependency towards COREAON clock domain - DISABLED." "DISABLED,1"
bitfld.long 0x00 15. "    WKUPAON_STATDEP              ,Static dependency towards WKUPAON clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                                 "
bitfld.long 0x00 14. " L4SEC_STATDEP                ,Static dependency towards L4SEC clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 13. "    L4PER_STATDEP                      ,Static dependency towards L4PER1 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 12. "    L4CFG_STATDEP                ,Static dependency towards L4CFG clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                                 "
bitfld.long 0x00 11. " SDMA_STATDEP                 ,Static dependency towards DMA clock domain - DISABLED." "DISABLED,1"
bitfld.long 0x00 10. "    GPU_STATDEP                        ,Static dependency towards GPU clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 9. "    CAM_STATDEP                  ,Static dependency towards CAM clock domain - DISABLED." "DISABLED,1"
textline "                                                 "
bitfld.long 0x00 8. " DSS_STATDEP                  ,Static dependency towards DSS clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "    L3INIT_STATDEP                     ,Static dependency towards L3INIT clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "    L3MAIN1_STATDEP              ,Static dependency towards L3MAIN1 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                                 "
bitfld.long 0x00 4. " EMIF_STATDEP                 ,Static dependency towards EMIF clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 2. "    IVA_STATDEP                        ,Static dependency towards IVA clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "    DSP1_STATDEP                 ,Static dependency towards DSP clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x208++0x3
line.long 0x00 "CM_IPU2_DYNAMICDEP,This register controls the dynamic domain depedencies from IPU domain towards 'target' domains. It is relevant only for domain having OCP master port(s)."
bitfld.long 0x00 24.--27. " WINDOWSIZE                   ,Size of sliding window used to monitor OCP interface activity for determination of auto-sleep feature. Time unit defined byCM_DYN_DEP_PRESCAL register." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 9. "          CAM_DYNDEP                         ,Dynamic dependency towards CAM clock domain - DISABLED." "DISABLED,1"
bitfld.long 0x00 5. "    L3MAIN1_DYNDEP               ,Dynamic dependency towards L3MAIN1 clock domain - ENABLED." "0,ENABLED"
group.long 0x220++0x3
line.long 0x00 "CM_IPU2_IPU2_CLKCTRL,This register manages the IPU2 clocks."
bitfld.long 0x00 18. " STBYST                       ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
bitfld.long 0x00 16.--17. "     IDLEST                             ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - DISABLE. - IDLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED. - RESERVED_2." "DISABLED,AUTO,RESERVED,RESERVED_2"
group.long 0x300++0x3
line.long 0x00 "CM_DMA_CLKSTCTRL,This register enables the domain power state transition. It controls the HW supervised domain power state transition between ON-ACTIVE and ON-INACTIVE states. It also hold one status bit per clock input of the domain."
bitfld.long 0x00 8. " CLKACTIVITY_DMA_L3_GICLK     ,This field indicates the state of the DMA_L3_GICLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 0.--1. "       CLKTRCTRL                          ,Controls the clock state transition of the DMA clock domain. - NO_SLEEP. - RESERVED_1. - HW_AUTO. - SW_WKUP." "NO_SLEEP,RESERVED_1,HW_AUTO,SW_WKUP"
group.long 0x304++0x3
line.long 0x00 "CM_DMA_STATICDEP,This register controls the static domain depedencies from DMA domain towards 'target' domains. It is relevant only for domain having system initiator(s)."
bitfld.long 0x00 29. " PCIE_STATDEP                 ,Static dependency towards PCIE clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 27. "    L4PER3_STATDEP                     ,Static dependency towards L4PER3 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 26. "    L4PER2_STATDEP               ,Static dependency towards L4PER2 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                                 "
bitfld.long 0x00 24. " IPU_STATDEP                  ,Static dependency towards IPU clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 23. "    IPU1_STATDEP                       ,Static dependency towards IPU1 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 15. "    WKUPAON_STATDEP              ,Static dependency towards WKUPAON clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                                 "
bitfld.long 0x00 14. " L4SEC_STATDEP                ,Static dependency towards L4SEC clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 13. "    L4PER_STATDEP                      ,Static dependency towards L4PER1 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 12. "    L4CFG_STATDEP                ,Static dependency towards L4CFG clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                                 "
bitfld.long 0x00 9. " CAM_STATDEP                  ,Static dependency towards CAM clock domain - DISABLED." "DISABLED,1"
bitfld.long 0x00 8. "    DSS_STATDEP                        ,Static dependency towards DSS clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "    L3INIT_STATDEP               ,Static dependency towards L3INIT clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                                 "
bitfld.long 0x00 5. " L3MAIN1_STATDEP              ,Static dependency towards L3MAIN1 clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 4. "     EMIF_STATDEP                       ,Static dependency towards EMIF clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 2. "    IVA_STATDEP                  ,Static dependency towards IVA clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                                 "
bitfld.long 0x00 0. " IPU2_STATDEP                 ,Static dependency towards IPU2 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
rgroup.long 0x308++0x3
line.long 0x00 "CM_DMA_DYNAMICDEP,This register controls the dynamic domain depedencies from SDMA domain towards 'target' domains. It is relevant only for domain having OCP master port(s)."
bitfld.long 0x00 5. " L3MAIN1_DYNDEP               ,Dynamic dependency towards L3MAIN1 clock domain - DISABLED." "DISABLED,1"
rgroup.long 0x320++0x3
line.long 0x00 "CM_DMA_DMA_SYSTEM_CLKCTRL,This register manages the DMA_SYSTEM clocks."
bitfld.long 0x00 18. " STBYST                       ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
bitfld.long 0x00 16.--17. "     IDLEST                             ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - DISABLE. - IDLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                   ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
group.long 0x400++0x3
line.long 0x00 "CM_EMIF_CLKSTCTRL,This register enables the domain power state transition. It controls the HW supervised domain power state transition between ON-ACTIVE and ON-INACTIVE states. It also hold one status bit per clock input of the domain."
bitfld.long 0x00 10. " CLKACTIVITY_EMIF_PHY_GCLK    ,This field indicates the state of the EMIF_PHY_GCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 9. "       CLKACTIVITY_EMIF_DLL_GCLK          ,This field indicates the state of the DLL_GCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 8. "       CLKACTIVITY_EMIF_L3_GICLK    ,This field indicates the state of the EMIF_L3_GICLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                                                 "
bitfld.long 0x00 0.--1. " CLKTRCTRL                    ,Controls the clock state transition of the EMIF clock domain. - NO_SLEEP. - RESERVED_1. - SW_WKUP. - HW_AUTO." "NO_SLEEP,RESERVED_1,SW_WKUP,HW_AUTO"
rgroup.long 0x420++0x3
line.long 0x00 "CM_EMIF_DMM_CLKCTRL,This register manages the DMM clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                         ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
rgroup.long 0x428++0x3
line.long 0x00 "CM_EMIF_EMIF_OCP_FW_CLKCTRL,This register manages the EMIF_OCP_FW clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                         ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
group.long 0x430++0x3
line.long 0x00 "CM_EMIF_EMIF1_CLKCTRL,This register manages the EMIF1 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                         ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
group.long 0x438++0x3
line.long 0x00 "CM_EMIF_EMIF2_CLKCTRL,This register manages the EMIF2 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                         ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
group.long 0x440++0x3
line.long 0x00 "CM_EMIF_EMIF_DLL_CLKCTRL,This register manages the DLL clock."
bitfld.long 0x00 8. " OPTFCLKEN_DLL_CLK            ,Optional functional clock control. - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
group.long 0x600++0x3
line.long 0x00 "CM_L4CFG_CLKSTCTRL,This register enables the domain power state transition. It controls the HW supervised domain power state transition between ON-ACTIVE and ON-INACTIVE states. It also hold one status bit per clock input of the domain."
bitfld.long 0x00 9. " CLKACTIVITY_L4CFG_L3_GICLK   ,This field indicates the state of the L4CFG_L3_GICLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 8. "       CLKACTIVITY_L4CFG_L4_GICLK         ,This field indicates the state of the L4CFG_L4_GICLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 0.--1. "       CLKTRCTRL                    ,Controls the clock state transition of the L4CFG clock domain. - NO_SLEEP. - RESERVED_1. - RESERVED_2. - HW_AUTO." "NO_SLEEP,RESERVED_1,RESERVED_2,HW_AUTO"
group.long 0x608++0x3
line.long 0x00 "CM_L4CFG_DYNAMICDEP,This register controls the dynamic domain depedencies from L4CFG domain towards 'target' domains. It is relevant only for domain having OCP master port(s)."
bitfld.long 0x00 24.--27. " WINDOWSIZE                   ,Size of sliding window used to monitor OCP interface activity for determination of auto-sleep feature. Time unit defined byCM_DYN_DEP_PRESCAL register." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 19. "          MPU_DYNDEP                         ,Dynamic dependency towards MPU clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 17. "     CUSTEFUSE_DYNDEP             ,Dynamic dependency towards CUSTEFUSE clock domain - ENABLED." "0,ENABLED"
textline "                                                 "
bitfld.long 0x00 16. " COREAON_DYNDEP               ,Dynamic dependency towards COREAON clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 11. "     SDMA_DYNDEP                        ,Dynamic dependency towards DMA clock domain - ." "0,Enabled"
bitfld.long 0x00 7. "     L3INIT_DYNDEP                ,Dynamic dependency towards L3INIT clock domain - ENABLED." "0,ENABLED"
textline "                                                 "
bitfld.long 0x00 5. " L3MAIN1_DYNDEP               ,Dynamic dependency towards L3MAIN1 clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 4. "     EMIF_DYNDEP                        ,Dynamic dependency towards EMIF clock domain - ENABLED." "0,ENABLED"
rgroup.long 0x620++0x3
line.long 0x00 "CM_L4CFG_L4_CFG_CLKCTRL,This register manages the L4_CFG clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                         ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
rgroup.long 0x628++0x3
line.long 0x00 "CM_L4CFG_SPINLOCK_CLKCTRL,This register manages the SPINLOCK clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                         ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
rgroup.long 0x630++0x3
line.long 0x00 "CM_L4CFG_MAILBOX1_CLKCTRL,This register manages the MAILBOX1 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                         ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
rgroup.long 0x638++0x3
line.long 0x00 "CM_L4CFG_SAR_ROM_CLKCTRL,This register manages the SAR_ROM clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                         ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
rgroup.long 0x640++0x3
line.long 0x00 "CM_L4CFG_OCP2SCP2_CLKCTRL,This register manages the OCP2SCP2 clocks and the optional clock of USB PHY."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                         ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
rgroup.long 0x648++0x3
line.long 0x00 "CM_L4CFG_MAILBOX2_CLKCTRL,This register manages the MAILBOX2 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                         ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
rgroup.long 0x650++0x3
line.long 0x00 "CM_L4CFG_MAILBOX3_CLKCTRL,This register manages the MAILBOX3 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                         ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
rgroup.long 0x658++0x3
line.long 0x00 "CM_L4CFG_MAILBOX4_CLKCTRL,This register manages the MAILBOX4 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                         ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
rgroup.long 0x660++0x3
line.long 0x00 "CM_L4CFG_MAILBOX5_CLKCTRL,This register manages the MAILBOX5 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                         ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
rgroup.long 0x668++0x3
line.long 0x00 "CM_L4CFG_MAILBOX6_CLKCTRL,This register manages the MAILBOX6 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                         ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
rgroup.long 0x670++0x3
line.long 0x00 "CM_L4CFG_MAILBOX7_CLKCTRL,This register manages the MAILBOX7 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                         ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
rgroup.long 0x678++0x3
line.long 0x00 "CM_L4CFG_MAILBOX8_CLKCTRL,This register manages the MAILBOX8 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                         ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
rgroup.long 0x680++0x3
line.long 0x00 "CM_L4CFG_MAILBOX9_CLKCTRL,This register manages the MAILBOX9 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                         ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
rgroup.long 0x688++0x3
line.long 0x00 "CM_L4CFG_MAILBOX10_CLKCTRL,This register manages the MAILBOX10 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                         ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
rgroup.long 0x690++0x3
line.long 0x00 "CM_L4CFG_MAILBOX11_CLKCTRL,This register manages the MAILBOX11 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                         ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
rgroup.long 0x698++0x3
line.long 0x00 "CM_L4CFG_MAILBOX12_CLKCTRL,This register manages the MAILBOX12 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                         ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
rgroup.long 0x6A0++0x3
line.long 0x00 "CM_L4CFG_MAILBOX13_CLKCTRL,This register manages the MAILBOX13 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                         ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
rgroup.long 0x700++0x3
line.long 0x00 "CM_L3INSTR_CLKSTCTRL,This register enables the domain power state transition. It controls the HW supervised domain power state transition between ON-ACTIVE and ON-INACTIVE states. It also hold one status bit per clock input of the domain."
bitfld.long 0x00 10. " CLKACTIVITY_L3INSTR_TS_GCLK  ,This field indicates the state of the L3INSTR_TS_GCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 9. "       CLKACTIVITY_L3INSTR_DLL_AGING_GCLK ,This field indicates the state of the L3INSTR_DLL_AGING_GCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 8. "       CLKACTIVITY_L3INSTR_L3_GICLK ,This field indicates the state of the L3INSTR_L3_GICLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                                                 "
bitfld.long 0x00 0.--1. " CLKTRCTRL                    ,Controls the clock state transition of the L3INSTR clock domain. - HW_AUTO." "0,1,2,HW_AUTO"
group.long 0x720++0x3
line.long 0x00 "CM_L3INSTR_L3_MAIN_2_CLKCTRL,This register manages the L3_MAIN_2 clocks. [warm reset insensitive]"
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                         ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
group.long 0x728++0x3
line.long 0x00 "CM_L3INSTR_L3_INSTR_CLKCTRL,This register manages the L3 INSTRUMENTATION clocks. [warm reset insensitive]"
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                         ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
group.long 0x740++0x3
line.long 0x00 "CM_L3INSTR_OCP_WP_NOC_CLKCTRL,This register manages the OCP_WP_NOC clocks. [warm reset insensitive]"
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                         ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
rgroup.long 0x748++0x3
line.long 0x00 "CM_L3INSTR_DLL_AGING_CLKCTRL,This register manages the DLL_AGING clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                         ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
group.long 0x750++0x3
line.long 0x00 "CM_L3INSTR_CTRL_MODULE_BANDGAP_CLKCTRL,This register manages the CTRL_MODULE_BANDGAP clock."
bitfld.long 0x00 24.--25. " CLKSEL                       ,Selects the divider value for generating the Thermal Sensor clock from WKUPAON_ICLK source. The divider has to be selected so as to guarantee a frequency between 1MHz and 2MHz. - DIV8. - DIV16. - DIV32. - RESERVED." "DIV8,DIV16,DIV32,RESERVED"
bitfld.long 0x00 16.--17. "    IDLEST                             ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                   ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
width 0x0B
tree.end
tree "CM_CORE__L3INIT"
base ad:0x4A009300
width 34.
group.long 0x0++0x3
line.long 0x00 "CM_L3INIT_CLKSTCTRL,This register enables the domain power state transition. It controls the HW supervised domain power state transition between ON-ACTIVE and ON-INACTIVE states. It also hold one status bit per clock input of the domain."
bitfld.long 0x00 24. " CLKACTIVITY_SATA_REF_GFCLK    ,This field indicates the state of the SATA_REF_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 23. "                   CLKACTIVITY_L3INIT_32K_GFCLK         ,This field indicates the state of the L3INIT_32K_FCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 22. "                   CLKACTIVITY_L3INIT_960M_GFCLK ,This field indicates the state of the L3INIT_960M_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                                           "
bitfld.long 0x00 21. " CLKACTIVITY_L3INIT_480M_GFCLK ,This field indicates the state of the L3INIT_480M_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 20. "                   CLKACTIVITY_USB_OTG_SS_REF_CLK       ,This field indicates the state of the USB_OTG_SS_REF_CLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 16. "                   CLKACTIVITY_MMC2_GFCLK        ,This field indicates the state of the MMC2 clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                                           "
bitfld.long 0x00 15. " CLKACTIVITY_MMC1_GFCLK        ,This field indicates the state of the MMC1_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 13. "                   CLKACTIVITY_USB_DPLL_HS_CLK          ,This field indicates the state of the USB_DPLL_HS_CLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 12. "                   CLKACTIVITY_USB_DPLL_CLK      ,This field indicates the state of the USB_DPLL_CLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                                           "
bitfld.long 0x00 11. " CLKACTIVITY_L3INIT_48M_GFCLK  ,This field indicates the state of the INIT_48M_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 10. "                   CLKACTIVITY_L3INIT_USB_LFPS_TX_GFCLK ,This field indicates the state of the L3INIT_USB_LFPS_TX_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 9. "                   CLKACTIVITY_L3INIT_L4_GICLK   ,This field indicates the state of the L3INIT_L4_GICLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                                           "
bitfld.long 0x00 8. " CLKACTIVITY_L3INIT_L3_GICLK   ,This field indicates the state of the L3INIT_L3_GICLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 0.--1. "                   CLKTRCTRL                            ,Controls the clock state transition of the L3INIT clock domain. - NO_SLEEP. - SW_SLEEP. - SW_WKUP. - HW_AUTO." "NO_SLEEP,SW_SLEEP,SW_WKUP,HW_AUTO"
group.long 0x4++0x3
line.long 0x00 "CM_L3INIT_STATICDEP,This register controls the static domain depedencies from L3INIT domain towards 'target' domains. It is relevant only for domain having system initiator(s)."
bitfld.long 0x00 27. " L4PER3_STATDEP                ,Static dependency towards L4PER3 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 15. "                WKUPAON_STATDEP                      ,Static dependency towards WKUPAON clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 14. "                L4SEC_STATDEP                 ,Static dependency towards L4SEC clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                           "
bitfld.long 0x00 13. " L4PER_STATDEP                 ,Static dependency towards L4PER1 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 12. "                L4CFG_STATDEP                        ,Static dependency towards L4CFG clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                L3MAIN1_STATDEP               ,Static dependency towards L3MAIN1 clock domain - ENABLED." "0,ENABLED"
textline "                                           "
bitfld.long 0x00 4. " EMIF_STATDEP                  ,Static dependency towards EMIF clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 2. "                IVA_STATDEP                          ,Static dependency towards IVA clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
rgroup.long 0x8++0x3
line.long 0x00 "CM_L3INIT_DYNAMICDEP,This register controls the dynamic domain depedencies from L3INIT domain towards 'target' domains. It is relevant only for domain having OCP master port(s)."
bitfld.long 0x00 5. " L3MAIN1_DYNDEP                ,Dynamic dependency towards L3MAIN1 clock domain - DISABLED." "DISABLED,1"
group.long 0x28++0x3
line.long 0x00 "CM_L3INIT_MMC1_CLKCTRL,This register manages the MMC1 clocks."
bitfld.long 0x00 25.--26. " CLKSEL_DIV                    ,MMC1 clock divide ratio. - DIV1. - DIV2. - DIV4. - RESERVED." "DIV1,DIV2,DIV4,RESERVED"
bitfld.long 0x00 24. "                CLKSEL_SOURCE                        ,Selects the source of the functional clock. - SEL_128M. - SEL_192M." "SEL_128M,SEL_192M"
bitfld.long 0x00 18. "                STBYST                        ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
textline "                                           "
bitfld.long 0x00 16.--17. " IDLEST                        ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 8. "                 OPTFCLKEN_CLK32K                     ,MMC optional clock control: 32K CLK - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
bitfld.long 0x00 0.--1. "                MODULEMODE                    ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLED. - RESERVED." "DISABLED,RESERVED_1,ENABLED,RESERVED"
group.long 0x30++0x3
line.long 0x00 "CM_L3INIT_MMC2_CLKCTRL,This register manages the MMC2 clocks."
bitfld.long 0x00 25.--26. " CLKSEL_DIV                    ,MMC2 clock divide ratio - DIV1. - DIV2. - DIV4. - RESERVED." "DIV1,DIV2,DIV4,RESERVED"
bitfld.long 0x00 24. "                CLKSEL_SOURCE                        ,Selects the source of the functional clock. - SEL_128M. - SEL_192M." "SEL_128M,SEL_192M"
bitfld.long 0x00 18. "                STBYST                        ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
textline "                                           "
bitfld.long 0x00 16.--17. " IDLEST                        ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 8. "                 OPTFCLKEN_CLK32K                     ,MMC optional clock control: 32K CLK - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
bitfld.long 0x00 0.--1. "                MODULEMODE                    ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLED. - RESERVED." "DISABLED,RESERVED_1,ENABLED,RESERVED"
group.long 0x40++0x3
line.long 0x00 "CM_L3INIT_USB_OTG_SS2_CLKCTRL,This register manages the USB_OTG_SS2 clocks."
bitfld.long 0x00 18. " STBYST                        ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
bitfld.long 0x00 16.--17. "                 IDLEST                               ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 8. "                 OPTFCLKEN_REFCLK960M          ,USB_OTG_SS optional clock control: REFCLK960M (960MHz clock) - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
textline "                                           "
bitfld.long 0x00 0.--1. " MODULEMODE                    ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
group.long 0x48++0x3
line.long 0x00 "CM_L3INIT_USB_OTG_SS3_CLKCTRL,This register manages the USB_OTG_SS3 clocks."
bitfld.long 0x00 18. " STBYST                        ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
bitfld.long 0x00 16.--17. "                 IDLEST                               ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                 MODULEMODE                    ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
group.long 0x50++0x3
line.long 0x00 "CM_L3INIT_USB_OTG_SS4_CLKCTRL,This register manages the USB_OTG_SS4 clocks."
bitfld.long 0x00 18. " STBYST                        ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
bitfld.long 0x00 16.--17. "                 IDLEST                               ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                 MODULEMODE                    ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
rgroup.long 0x78++0x3
line.long 0x00 "CM_L3INIT_IEEE1500_2_OCP_CLKCTRL,This register manages the IEE1500_2_OCP clocks."
bitfld.long 0x00 18. " STBYST                        ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
bitfld.long 0x00 16.--17. "                 IDLEST                               ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                 MODULEMODE                    ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
group.long 0x88++0x3
line.long 0x00 "CM_L3INIT_SATA_CLKCTRL,This register manages the SATA clocks."
bitfld.long 0x00 18. " STBYST                        ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
bitfld.long 0x00 16.--17. "                 IDLEST                               ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 8. "                 OPTFCLKEN_REF_CLK             ,SATA optional clock control: REF_CLK (from SYS_CLK clock) - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
textline "                                           "
bitfld.long 0x00 0.--1. " MODULEMODE                    ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLED. - RESERVED." "DISABLED,RESERVED_1,ENABLED,RESERVED"
group.long 0xA0++0x3
line.long 0x00 "CM_PCIE_CLKSTCTRL,This register enables the domain power state transition. It controls the HW supervised domain power state transition between ON-ACTIVE and ON-INACTIVE states. It also hold one status bit per clock input of the domain."
bitfld.long 0x00 13. " CLKACTIVITY_PCIE_32K_GFCLK    ,This field indicates the state of the PCIE_32K_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 12. "                   CLKACTIVITY_PCIE_SYS_GFCLK           ,This field indicates the state of the PCIE_SYS_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 11. "                   CLKACTIVITY_PCIE_REF_GFCLK    ,This field indicates the state of the PCIE_REF_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                                           "
bitfld.long 0x00 10. " CLKACTIVITY_PCIE_PHY_DIV_GCLK ,This field indicates the state of the PCIE_PHY_DIV_GCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 9. "                   CLKACTIVITY_PCIE_PHY_GCLK            ,This field indicates the state of the PCIE_PHY_GCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 8. "                   CLKACTIVITY_PCIE_L3_GICLK     ,This field indicates the state of the PCIE_L3_GICLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                                           "
bitfld.long 0x00 0.--1. " CLKTRCTRL                     ,Controls the clock state transition of the L3INIT clock domain. - NO_SLEEP. - SW_SLEEP. - SW_WKUP. - HW_AUTO." "NO_SLEEP,SW_SLEEP,SW_WKUP,HW_AUTO"
group.long 0xA4++0x3
line.long 0x00 "CM_PCIE_STATICDEP,This register controls the static domain depedencies from PCIE domain towards 'target' domains. It is relevant only for domain having system initiator(s)."
bitfld.long 0x00 28. " VPE_STATDEP                   ,Static dependency towards VPE clock domain - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 27. "  L4PER3_STATDEP                       ,Static dependency towards L4PER3 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 26. "                L4PER2_STATDEP                ,Static dependency towards L4PER2 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                           "
bitfld.long 0x00 25. " GMAC_STATDEP                  ,Static dependency towards GMAC clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 24. "                IPU_STATDEP                          ,Static dependency towards IPU clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 23. "                IPU1_STATDEP                  ,Static dependency towards IPU1 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                           "
bitfld.long 0x00 22. " EVE4_STATDEP                  ,Static dependency towards EVE4 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 21. "                EVE3_STATDEP                         ,Static dependency towards EVE3 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 20. "                EVE2_STATDEP                  ,Static dependency towards EVE2 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                           "
bitfld.long 0x00 19. " EVE1_STATDEP                  ,Static dependency towards EVE1 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 18. "                DSP2_STATDEP                         ,Static dependency towards DSP2 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 17. "                CUSTEFUSE_STATDEP             ,Static dependency towards CUSTEFUSE clock domain - DISABLED." "DISABLED,1"
textline "                                           "
bitfld.long 0x00 16. " COREAON_STATDEP               ,Static dependency towards COREAON clock domain - DISABLED." "DISABLED,1"
bitfld.long 0x00 14. "                L4SEC_STATDEP                        ,Static dependency towards L4SEC clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 13. "                L4PER_STATDEP                 ,Static dependency towards L4PER clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                           "
bitfld.long 0x00 12. " L4CFG_STATDEP                 ,Static dependency towards L4CFG clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 11. "                SDMA_STATDEP                         ,Static dependency towards SDMA clock domain - ." "Dependency_is_disabled,1"
bitfld.long 0x00 10. "  GPU_STATDEP                   ,Static dependency towards GPU clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                           "
bitfld.long 0x00 9. " CAM_STATDEP                   ,Static dependency towards CAM clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                DSS_STATDEP                          ,Static dependency towards DSS clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                L3INIT_STATDEP                ,Static dependency towards L3INIT clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                           "
bitfld.long 0x00 4. " EMIF_STATDEP                  ,Static dependency towards EMIF clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 2. "                IVA_STATDEP                          ,Static dependency towards IVA clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                DSP1_STATDEP                  ,Static dependency towards DSP1 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0xB0++0x3
line.long 0x00 "CM_PCIE_PCIESS1_CLKCTRL,This register manages the PCESS1 clocks."
bitfld.long 0x00 18. " STBYST                        ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
bitfld.long 0x00 16.--17. "                 IDLEST                               ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 10. "                 OPTFCLKEN_PCIEPHY_CLK_DIV     ,PCIE PHY optional clock control - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
textline "                                           "
bitfld.long 0x00 9. " OPTFCLKEN_PCIEPHY_CLK         ,PCIE PHY optional clock control - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
bitfld.long 0x00 8. "                OPTFCLKEN_32KHZ                      ,PCIE PHY optional clock control - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
bitfld.long 0x00 0.--1. "                MODULEMODE                    ,Control the way mandatory clocks are managed.Note: In order to disable the APLL_PCIE, the user needs to disable PCIe_SSx (where x = 1 or 2) using the CM_PCIE_ PCIESSx_CLKCTRL[1:0] MODULEMODE registers. Whe..." "DISABLED,RESERVED_1,ENABLED,RESERVED"
group.long 0xB8++0x3
line.long 0x00 "CM_PCIE_PCIESS2_CLKCTRL,This register manages the PCESS2 clocks."
bitfld.long 0x00 18. " STBYST                        ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
bitfld.long 0x00 16.--17. "                 IDLEST                               ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 10. "                 OPTFCLKEN_PCIEPHY_CLK_DIV     ,PCIE PHY optional clock control - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
textline "                                           "
bitfld.long 0x00 9. " OPTFCLKEN_PCIEPHY_CLK         ,PCIE PHY optional clock control - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
bitfld.long 0x00 8. "                OPTFCLKEN_32KHZ                      ,PCIE PHY optional clock control - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
bitfld.long 0x00 0.--1. "                MODULEMODE                    ,Control the way mandatory clocks are managed.Note: In order to disable the APLL_PCIE, the user needs to disable PCIe_SSx (where x = 1 or 2) using the CM_PCIE_ PCIESSx_CLKCTRL[1:0] MODULEMODE registers. Whe..." "DISABLED,RESERVED_1,ENABLED,RESERVED"
group.long 0xC0++0x3
line.long 0x00 "CM_GMAC_CLKSTCTRL,This register enables the domain power state transition. It controls the HW supervised domain power state transition between ON-ACTIVE and ON-INACTIVE states. It also hold one status bit per clock input of the domain."
bitfld.long 0x00 12. " CLKACTIVITY_GMAC_MAIN_CLK     ,This field indicates the state of the GMAC_MAIN_CLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 11. "                   CLKACTIVITY_GMAC_RFT_CLK             ,This field indicates the state of the GMAC_RFT_CLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 10. "                   CLKACTIVITY_RMII_50MHZ_CLK    ,This field indicates the state of the RMII_50MHZ_CLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                                           "
bitfld.long 0x00 9. " CLKACTIVITY_RGMII_5MHZ_CLK    ,This field indicates the state of the RGMII_5MHZ_CLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 8. "                   CLKACTIVITY_GMII_250MHZ_CLK          ,This field indicates the state of the GMII_250MHZ_CLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 0.--1. "                   CLKTRCTRL                     ,: This bit field must not be programmed for SW_SLEEP or HW_AUTO for EEE mode. Controls the clock state transition of the GMAC clock domain. - NO_SLEEP. - SW_SLEEP. - SW_WKUP. - HW_AUTO." "NO_SLEEP,SW_SLEEP,SW_WKUP,HW_AUTO"
group.long 0xC4++0x3
line.long 0x00 "CM_GMAC_STATICDEP,This register controls the static domain depedencies from GMAC domain towards 'target' domains. It is relevant only for domain having system initiator(s)."
bitfld.long 0x00 26. " L4PER2_STATDEP                ,Static dependency towards L4PER2 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                L3MAIN1_STATDEP                      ,Static dependency towards L3MAIN1 clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 4. "                 EMIF_STATDEP                  ,Static dependency towards EMIF clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
rgroup.long 0xC8++0x3
line.long 0x00 "CM_GMAC_DYNAMICDEP,This register controls the dynamic domain depedencies from GMAC domain towards 'target' domains. It is relevant only for domain having OCP master port(s)."
bitfld.long 0x00 5. " L3MAIN1_DYNDEP                ,Dynamic dependency towards L3MAIN1 clock domain - DISABLED." "DISABLED,1"
group.long 0xD0++0x3
line.long 0x00 "CM_GMAC_GMAC_CLKCTRL,This register manages the GMAC clocks."
bitfld.long 0x00 25.--27. " CLKSEL_RFT                    ,Selects the source of the GMAC_RFT_CLK. [warm reset insensitive] - SEL_VIDEO1_CLK. - SEL_VIDEO2_CLK. - SEL_PER_ABE_X1_GFCLK. - SEL_HDMI_CLK. - SEL_L3_ICLK. - RESERVED. - RESERVED1. - RESERVED2." "SEL_VIDEO1_CLK,SEL_VIDEO2_CLK,SEL_PER_ABE_X1_GFCLK,SEL_HDMI_CLK,SEL_L3_ICLK,RESERVED,RESERVED1,RESERVED2"
bitfld.long 0x00 24. "    CLKSEL_REF                           ,Selects the source of the RMII_50MHZ_CLK functional clock. [warm reset insensitive] - SEL_GMAC_RMII_HS_CLK. - SEL_GMAC_RMII_CLK." "SEL_GMAC_RMII_HS_CLK,SEL_GMAC_RMII_CLK"
bitfld.long 0x00 18. "    STBYST                        ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
textline "                                           "
bitfld.long 0x00 16.--17. " IDLEST                        ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                 MODULEMODE                           ,Control the way mandatory clocks are managed. [warm reset insensitive] - DISABLED. - RESERVED_1. - ENABLED. - RESERVED." "DISABLED,RESERVED_1,ENABLED,RESERVED"
group.long 0xE0++0x3
line.long 0x00 "CM_L3INIT_OCP2SCP1_CLKCTRL,This register manages the OCP2SCP1 clocks and the optional clock of USB PHY."
bitfld.long 0x00 16.--17. " IDLEST                        ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                 MODULEMODE                           ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
group.long 0xE8++0x3
line.long 0x00 "CM_L3INIT_OCP2SCP3_CLKCTRL,This register manages the OCP2SCP3 clocks and the optional clock of USB PHY."
bitfld.long 0x00 16.--17. " IDLEST                        ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                 MODULEMODE                           ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
group.long 0xF0++0x3
line.long 0x00 "CM_L3INIT_USB_OTG_SS1_CLKCTRL,This register manages the USB_OTG_SS1 clocks."
bitfld.long 0x00 18. " STBYST                        ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
bitfld.long 0x00 16.--17. "                 IDLEST                               ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 8. "                 OPTFCLKEN_REFCLK960M          ,USB_OTG_SS optional clock control: REFCLK960M (960MHz clock) - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
textline "                                           "
bitfld.long 0x00 0.--1. " MODULEMODE                    ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
width 0x0B
tree.end
tree "EMU_CM"
base ad:0x4AE07A00
width 28.
group.long 0x0++0x3
line.long 0x00 "CM_EMU_CLKSTCTRL,This register enables the EMU domain power state transition. It controls the HW supervised domain power state transition between ON-ACTIVE and ON-INACTIVE states. It also hold one status bit per clock input of the domain. [warm reset i..."
bitfld.long 0x00 8. " CLKACTIVITY_EMU_SYS_CLK ,This field indicates the state of the EMU_SYS_CLK clock in the domain. - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 0.--1. "    CLKTRCTRL      ,Controls the clock state transition of the EMU clock domain. - RESERVED. - RESERVED_1. - SW_WKUP. - HW_AUTO." "RESERVED,RESERVED_1,SW_WKUP,HW_AUTO"
rgroup.long 0x4++0x3
line.long 0x00 "CM_EMU_DEBUGSS_CLKCTRL,This register manages the DEBUGSS clocks. [warm reset insensitive]"
bitfld.long 0x00 18. " STBYST                  ,Module standby status - FUNC. - STANDBY." "FUNC,STANDBY"
bitfld.long 0x00 16.--17. "  IDLEST         ,Module idle status - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
group.long 0x8++0x3
line.long 0x00 "CM_EMU_DYNAMICDEP,This register controls the dynamic domain depedencies from EMU domain towards 'target' domains. It is relevant only for domain having OCP master port(s)."
bitfld.long 0x00 24.--27. " WINDOWSIZE              ,Size of sliding window used to monitor OCP interface activity for determination of auto-sleep feature. Time unit defined byCM_DYN_DEP_PRESCAL register." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 5. "       L3MAIN1_DYNDEP ,Dynamic dependency towards L3MAIN1 clock domain - ENABLED." "0,ENABLED"
rgroup.long 0xC++0x3
line.long 0x00 "CM_EMU_MPU_EMU_DBG_CLKCTRL,This register manages the MPU_EMU_DBG clocks. [warm reset insensitive]"
bitfld.long 0x00 16.--17. " IDLEST                  ,Module idle status - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "  MODULEMODE     ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
width 0x0B
tree.end
tree "CM_CORE__OCP_SOCKET"
base ad:0x4A008000
width 30.
rgroup.long 0x0++0x3
line.long 0x00 "REVISION_CM_CORE,This register contains the IP revision code for the CM_CORE part of the PRCM"
hexmask.long 0x00 0.--31. 1. " REVISION ,IP Revision number"
group.long 0x40++0x3
line.long 0x00 "CM_CM_CORE_PROFILING_CLKCTRL,This register manages the CM_CORE_PROFILING clocks. [warm reset insensitive]"
bitfld.long 0x00 16.--17. " IDLEST   ,Module idle status - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "   MODULEMODE ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
group.long 0xF0++0x3
line.long 0x00 "CM_CORE_DEBUG_CFG,This register is used to configure the CM_CORE's 32-bit debug output. There is one 8-bit source select field for selecting from a shared set of 8-bit internal signal blocks per byte. The signals included in each block are specified in..."
hexmask.long.byte 0x00 24.--31. 1. " SEL3     ,Internal signal block select for debug word byte-3"
hexmask.long.byte 0x00 16.--23. 1. "        SEL2       ,Internal signal block select for debug word byte-2"
hexmask.long.byte 0x00 8.--15. 1. "          SEL1 ,Internal signal block select for debug word byte-1"
textline "                                       "
hexmask.long.byte 0x00 0.--7. 1. " SEL0     ,Internal signal block select for debug word byte-0"
width 0x0B
tree.end
tree "EVE1_PRM"
base ad:0x4AE07B40
width 22.
group.long 0x0++0x3
line.long 0x00 "PM_EVE1_PWRSTCTRL,This register controls the EVE power state to reach upon a domain sleep transition"
bitfld.long 0x00 16.--17. " EVE1_BANK_ONSTATE     ,EVE1 state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
bitfld.long 0x00 4. "      LOWPOWERSTATECHANGE ,Power state change request when domain has already performed a sleep transition. Allows going into deeper low power state without waking up the power domain. - DIS. - EN." "DIS,EN"
bitfld.long 0x00 0.--1. "                     POWERSTATE        ,Power state control - OFF. - RESERVED. - INACT. - ON." "OFF,RESERVED,INACT,ON"
group.long 0x4++0x3
line.long 0x00 "PM_EVE1_PWRSTST,This register provides a status on the EVE domain current power state. [warm reset insensitive]"
bitfld.long 0x00 24.--25. " LASTPOWERSTATEENTERED ,Last low power state entered. Set to 0x3 upon write of the same only. This register is intended for debug purpose only. - OFF. - RET. - INACTIVE. - ON." "OFF,RET,INACTIVE,ON"
bitfld.long 0x00 20. "    INTRANSITION        ,Domain transition status - NO. - ONGOING." "NO,ONGOING"
bitfld.long 0x00 4.--5. "                 EVE1_BANK_STATEST ,EVE0 memory state status - MEM_OFF. - RESEREVD1. - RESERVED. - MEM_ON." "MEM_OFF,RESEREVD1,RESERVED,MEM_ON"
textline "                               "
bitfld.long 0x00 2. " LOGICSTATEST          ,Logic state status - OFF. - ON." "OFF,ON"
bitfld.long 0x00 0.--1. "         POWERSTATEST        ,Current power state status - OFF. - RET. - INACTIVE. - ON." "OFF,RET,INACTIVE,ON"
group.long 0x10++0x3
line.long 0x00 "RM_EVE1_RSTCTRL,This register controls the release of the EVE sub-system resets."
bitfld.long 0x00 1. " RST_EVE1              ,EVE reset control - CLEAR. - ASSERT." "CLEAR,ASSERT"
bitfld.long 0x00 0. "      RST_EVE1_LRST       ,EVE Local reset control - CLEAR. - ASSERT." "CLEAR,ASSERT"
group.long 0x14++0x3
line.long 0x00 "RM_EVE1_RSTST,This register logs the different reset sources of the EVE domain. Each bit is set upon release of the domain reset signal. Must be cleared by software. [warm reset insensitive]"
bitfld.long 0x00 3. " RST_EVE1_EMU_REQ      ,EVE1 processor has been reset due to EVE emulation reset request driven from EVE1-SS - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
bitfld.long 0x00 2. "   RST_EVE1_EMU        ,EVE1 domain has been reset due to emulation reset source e.g. assert reset command initiated by the icepick module - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
bitfld.long 0x00 1. "               RST_EVE1          ,EVE0 SW reset status - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
textline "                               "
bitfld.long 0x00 0. " RST_EVE1_LRST         ,EVE0 Local SW reset - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
group.long 0x20++0x3
line.long 0x00 "PM_EVE1_EVE1_WKDEP,This register controls wakeup dependency based on EVE1 service requests."
bitfld.long 0x00 9. " WKUPDEP_EVE1_EVE4     ,Wakeup dependency from EVE1 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "    WKUPDEP_EVE1_EVE3   ,Wakeup dependency from EVE1 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_EVE1_EVE2 ,Wakeup dependency from EVE1 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                               "
bitfld.long 0x00 5. " WKUPDEP_EVE1_DSP2     ,Wakeup dependency from EVE1 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "    WKUPDEP_EVE1_IPU1   ,Wakeup dependency from EVE1 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 3. "                WKUPDEP_EVE1_SDMA ,Wakeup dependency from EVE1 module (SWakeup signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
textline "                               "
bitfld.long 0x00 2. " WKUPDEP_EVE1_DSP1     ,Wakeup dependency from EVE1 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "    WKUPDEP_EVE1_IPU2   ,Wakeup dependency from EVE1 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_EVE1_MPU  ,Wakeup dependency from EVE1 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x24++0x3
line.long 0x00 "RM_EVE1_EVE1_CONTEXT,This register contains dedicated EVE context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_EVE_BANK      ,Specify if memory-based context in EVE1 memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "  LOSTCONTEXT_DFF     ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of EVE0_SYS_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
width 0x0B
tree.end
tree "CM_CORE_AON__VPE"
base ad:0x4A005760
width 20.
group.long 0x0++0x3
line.long 0x00 "CM_VPE_CLKSTCTRL,This register enables the VPE domain power state transition. It controls the HW supervised domain power state transition between ON-ACTIVE and ON-INACTIVE states. It also hold one status bit per clock input of the domain."
bitfld.long 0x00 8. " CLKACTIVITY_VPE_GCLK ,This field indicates the state of the VPE_GCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 0.--1. "     CLKTRCTRL       ,Controls the clock state transition of the DSP clock domain. - NO_SLEEP. - SW_SLEEP. - SW_WKUP. - HW_AUTO." "NO_SLEEP,SW_SLEEP,SW_WKUP,HW_AUTO"
group.long 0x4++0x3
line.long 0x00 "CM_VPE_VPE_CLKCTRL,This register manages the VPE clocks."
bitfld.long 0x00 18. " STBYST               ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
bitfld.long 0x00 16.--17. "   IDLEST          ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "   MODULEMODE   ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
group.long 0x8++0x3
line.long 0x00 "CM_VPE_STATICDEP,This register controls the static domain depedencies from VPE domain towards 'target' domains. It is relevant only for domain having system initiator(s)."
bitfld.long 0x00 27. " L4PER3_STATDEP       ,Static dependency towards L4PER3 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "  L3MAIN1_STATDEP ,Static dependency towards L3MAIN1 clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 4. "   EMIF_STATDEP ,Static dependency towards EMIF clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
width 0x0B
tree.end
tree "CM_CORE__CUSTEFUSE"
base ad:0x4A009600
width 38.
group.long 0x0++0x3
line.long 0x00 "CM_CUSTEFUSE_CLKSTCTRL,This register enables the domain power state transition. It controls the HW supervised domain power state transition between ON-ACTIVE and ON-INACTIVE states. It also hold one status bit per clock input of the domain."
bitfld.long 0x00 9. " CLKACTIVITY_CUSTEFUSE_SYS_GFCLK ,This field indicates the state of the Cust_Efuse_SYS_CLK clock input of the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 8. "    CLKACTIVITY_CUSTEFUSE_L4_GICLK ,This field indicates the state of the L4_CUSTEFUSE_GICLK clock input of the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 0.--1. "       CLKTRCTRL ,Controls the clock state transition of the CUSTEFUSE clock domain. - NO_SLEEP. - RESERVED. - SW_WKUP. - HW_AUTO." "NO_SLEEP,RESERVED,SW_WKUP,HW_AUTO"
group.long 0x20++0x3
line.long 0x00 "CM_CUSTEFUSE_EFUSE_CTRL_CUST_CLKCTRL,This register manages the CUSTEFUSE clocks."
bitfld.long 0x00 16.--17. " IDLEST                          ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "  MODULEMODE                     ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
width 0x0B
tree.end
tree "CM_CORE_AON__EVE1"
base ad:0x4A005640
width 22.
group.long 0x0++0x3
line.long 0x00 "CM_EVE1_CLKSTCTRL,This register enables the EVE domain power state transition. It controls the HW supervised domain power state transition between ON-ACTIVE and ON-INACTIVE states. It also hold one status bit per clock input of the domain."
bitfld.long 0x00 8. " CLKACTIVITY_EVE1_GFCLK ,This field indicates the state of the EVE1_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 0.--1. "     CLKTRCTRL    ,Controls the clock state transition of the DSP clock domain. - NO_SLEEP. - SW_SLEEP. - SW_WKUP. - HW_AUTO." "NO_SLEEP,SW_SLEEP,SW_WKUP,HW_AUTO"
group.long 0x4++0x3
line.long 0x00 "CM_EVE1_STATICDEP,This register controls the static domain depedencies from EVE1 domain towards 'target' domains. It is relevant only for domain having system initiator(s)."
bitfld.long 0x00 22. " EVE4_STATDEP           ,Static dependency towards EVE4 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 21. "  EVE3_STATDEP ,Static dependency towards EVE3 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 20. "  EVE2_STATDEP ,Static dependency towards EVE2 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                               "
bitfld.long 0x00 5. " L3MAIN1_STATDEP        ,Static dependency towards L3MAIN1 clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 4. "   EMIF_STATDEP ,Static dependency towards EMIF clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 2. "  IVA_STATDEP  ,Static dependency towards IVA clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x20++0x3
line.long 0x00 "CM_EVE1_EVE1_CLKCTRL,This register manages the EVE clocks."
bitfld.long 0x00 18. " STBYST                 ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
bitfld.long 0x00 16.--17. "   IDLEST       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "   MODULEMODE   ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
width 0x0B
tree.end
tree "CM_CORE_AON__EVE2"
base ad:0x4A005680
width 22.
group.long 0x0++0x3
line.long 0x00 "CM_EVE2_CLKSTCTRL,This register enables the EVE domain power state transition. It controls the HW supervised domain power state transition between ON-ACTIVE and ON-INACTIVE states. It also hold one status bit per clock input of the domain."
bitfld.long 0x00 8. " CLKACTIVITY_EVE2_GFCLK ,This field indicates the state of the EVE2_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 0.--1. "     CLKTRCTRL    ,Controls the clock state transition of the DSP clock domain. - NO_SLEEP. - SW_SLEEP. - SW_WKUP. - HW_AUTO." "NO_SLEEP,SW_SLEEP,SW_WKUP,HW_AUTO"
group.long 0x4++0x3
line.long 0x00 "CM_EVE2_STATICDEP,This register controls the static domain depedencies from EVE2 domain towards 'target' domains. It is relevant only for domain having system initiator(s)."
bitfld.long 0x00 22. " EVE4_STATDEP           ,Static dependency towards EVE4 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 21. "  EVE3_STATDEP ,Static dependency towards EVE3 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 19. "  EVE1_STATDEP ,Static dependency towards EVE1 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                               "
bitfld.long 0x00 5. " L3MAIN1_STATDEP        ,Static dependency towards L3MAIN1 clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 4. "   EMIF_STATDEP ,Static dependency towards EMIF clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 2. "  IVA_STATDEP  ,Static dependency towards IVA clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x20++0x3
line.long 0x00 "CM_EVE2_EVE2_CLKCTRL,This register manages the EVE clocks."
bitfld.long 0x00 18. " STBYST                 ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
bitfld.long 0x00 16.--17. "   IDLEST       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "   MODULEMODE   ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
width 0x0B
tree.end
tree "CM_CORE_AON__EVE3"
base ad:0x4A0056C0
width 22.
group.long 0x0++0x3
line.long 0x00 "CM_EVE3_CLKSTCTRL,This register enables the EVE domain power state transition. It controls the HW supervised domain power state transition between ON-ACTIVE and ON-INACTIVE states. It also hold one status bit per clock input of the domain."
bitfld.long 0x00 8. " CLKACTIVITY_EVE3_GFCLK ,This field indicates the state of the EVE3_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 0.--1. "     CLKTRCTRL    ,Controls the clock state transition of the DSP clock domain. - NO_SLEEP. - SW_SLEEP. - SW_WKUP. - HW_AUTO." "NO_SLEEP,SW_SLEEP,SW_WKUP,HW_AUTO"
group.long 0x4++0x3
line.long 0x00 "CM_EVE3_STATICDEP,This register controls the static domain depedencies from EVE3 domain towards 'target' domains. It is relevant only for domain having system initiator(s)."
bitfld.long 0x00 22. " EVE4_STATDEP           ,Static dependency towards EVE4 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 20. "  EVE2_STATDEP ,Static dependency towards EVE2 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 19. "  EVE1_STATDEP ,Static dependency towards EVE1 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                               "
bitfld.long 0x00 5. " L3MAIN1_STATDEP        ,Static dependency towards L3MAIN1 clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 4. "   EMIF_STATDEP ,Static dependency towards EMIF clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 2. "  IVA_STATDEP  ,Static dependency towards IVA clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x20++0x3
line.long 0x00 "CM_EVE3_EVE3_CLKCTRL,This register manages the EVE clocks."
bitfld.long 0x00 18. " STBYST                 ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
bitfld.long 0x00 16.--17. "   IDLEST       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "   MODULEMODE   ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
width 0x0B
tree.end
tree "CM_CORE_AON__EVE4"
base ad:0x4A005700
width 22.
group.long 0x0++0x3
line.long 0x00 "CM_EVE4_CLKSTCTRL,This register enables the EVE domain power state transition. It controls the HW supervised domain power state transition between ON-ACTIVE and ON-INACTIVE states. It also hold one status bit per clock input of the domain."
bitfld.long 0x00 8. " CLKACTIVITY_EVE4_GFCLK ,This field indicates the state of the EVE3_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 0.--1. "     CLKTRCTRL    ,Controls the clock state transition of the DSP clock domain. - NO_SLEEP. - SW_SLEEP. - SW_WKUP. - HW_AUTO." "NO_SLEEP,SW_SLEEP,SW_WKUP,HW_AUTO"
group.long 0x4++0x3
line.long 0x00 "CM_EVE4_STATICDEP,This register controls the static domain depedencies from EVE4 domain towards 'target' domains. It is relevant only for domain having system initiator(s)."
bitfld.long 0x00 21. " EVE3_STATDEP           ,Static dependency towards EVE3 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 20. "  EVE2_STATDEP ,Static dependency towards EVE2 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 19. "  EVE1_STATDEP ,Static dependency towards EVE1 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                               "
bitfld.long 0x00 5. " L3MAIN1_STATDEP        ,Static dependency towards L3MAIN1 clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 4. "   EMIF_STATDEP ,Static dependency towards EMIF clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 2. "  IVA_STATDEP  ,Static dependency towards IVA clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x20++0x3
line.long 0x00 "CM_EVE4_EVE4_CLKCTRL,This register manages the EVE clocks."
bitfld.long 0x00 18. " STBYST                 ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
bitfld.long 0x00 16.--17. "   IDLEST       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "   MODULEMODE   ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
width 0x0B
tree.end
tree "L3INIT_PRM"
base ad:0x4AE07300
width 34.
group.long 0x0++0x3
line.long 0x00 "PM_L3INIT_PWRSTCTRL,This register controls the L3INIT power state to reach upon a domain sleep transition"
bitfld.long 0x00 18.--19. " GMAC_BANK_ONSTATE        ,GMAC BANK state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
bitfld.long 0x00 16.--17. "      L3INIT_BANK2_ONSTATE     ,L3INIT BANK2 state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
bitfld.long 0x00 14.--15. "                  L3INIT_BANK1_ONSTATE     ,L3INIT BANK1 state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
textline "                                           "
bitfld.long 0x00 10. " GMAC_BANK_RETSTATE       ,GMAC BANK state when domain is RETENTION. - MEM_RET." "0,MEM_RET"
bitfld.long 0x00 9. "     L3INIT_BANK2_RETSTATE    ,L3INIT BANK2 state when domain is RETENTION. - ." "0,1"
bitfld.long 0x00 8. "                       L3INIT_BANK1_RETSTATE    ,L3INIT BANK1 state when domain is RETENTION. - MEM_OFF." "MEM_OFF,1"
textline "                                           "
bitfld.long 0x00 4. " LOWPOWERSTATECHANGE      ,Power state change request when domain has already performed a sleep transition. Allows going into deeper low power state without waking up the power domain. - DIS. - EN." "DIS,EN"
bitfld.long 0x00 2. "         LOGICRETSTATE            ,Logic state when power domain is RETENTION - LOGIC_OFF. - LOGIC_RET." "LOGIC_OFF,LOGIC_RET"
bitfld.long 0x00 0.--1. "               POWERSTATE               ,Power state control - OFF. - RET. - INACT. - ON." "OFF,RET,INACT,ON"
group.long 0x4++0x3
line.long 0x00 "PM_L3INIT_PWRSTST,This register provides a status on the current L3INIT power domain state. [warm reset insensitive]"
bitfld.long 0x00 24.--25. " LASTPOWERSTATEENTERED    ,Last low power state entered. Set to 0x3 upon write of the same only. This register is intended for debug purpose only. - OFF. - RET. - INACTIVE. - ON." "OFF,RET,INACTIVE,ON"
bitfld.long 0x00 20. "    INTRANSITION             ,Domain transition status - NO. - ONGOING." "NO,ONGOING"
bitfld.long 0x00 8.--9. "                 L3INIT_GMAC_STATEST      ,L3INIT GMAC state status - MEM_OFF. - RESERVED1. - RESERVED. - MEM_ON." "MEM_OFF,RESERVED1,RESERVED,MEM_ON"
textline "                                           "
bitfld.long 0x00 6.--7. " L3INIT_BANK2_STATEST     ,L3INIT BANK2 state status - MEM_OFF. - MEM_RET. - RESERVED. - MEM_ON." "MEM_OFF,MEM_RET,RESERVED,MEM_ON"
bitfld.long 0x00 4.--5. "    L3INIT_BANK1_STATEST     ,L3INIT BANK1 state status - MEM_OFF. - RESERVED1. - RESERVED. - MEM_ON." "MEM_OFF,RESERVED1,RESERVED,MEM_ON"
bitfld.long 0x00 2. "               LOGICSTATEST             ,Logic state status - OFF. - ON." "OFF,ON"
textline "                                           "
bitfld.long 0x00 0.--1. " POWERSTATEST             ,Current power state status - OFF. - RET. - INACTIVE. - ON." "OFF,RET,INACTIVE,ON"
group.long 0x10++0x3
line.long 0x00 "RM_PCIESS_RSTCTRL,This register controls the release of the PCIESS local reset."
bitfld.long 0x00 0. " RST_LOCAL_PCIE1          ,PCIESS1 local reset control - CLEAR. - ASSERT." "CLEAR,ASSERT"
group.long 0x14++0x3
line.long 0x00 "RM_PCIESS_RSTST,This register logs the different reset sources of the PCIESS domain. Each bit is set upon release of the domain reset signal. Must be cleared by software. [warm reset insensitive]"
bitfld.long 0x00 0. " RST_LOCAL_PCIE1          ,PCIESS1 local SW reset - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
group.long 0x28++0x3
line.long 0x00 "PM_L3INIT_MMC1_WKDEP,This register controls wakeup dependency based on MMC1 service requests."
bitfld.long 0x00 9. " WKUPDEP_MMC1_EVE4        ,Wakeup dependency from MMC1 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "    WKUPDEP_MMC1_EVE3        ,Wakeup dependency from MMC1 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_MMC1_EVE2        ,Wakeup dependency from MMC1 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                           "
bitfld.long 0x00 6. " WKUPDEP_MMC1_EVE1        ,Wakeup dependency from MMC1 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "    WKUPDEP_MMC1_DSP2        ,Wakeup dependency from MMC1 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_MMC1_IPU1        ,Wakeup dependency from MMC1 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                           "
bitfld.long 0x00 3. " WKUPDEP_MMC1_SDMA        ,Wakeup dependency from MMC1 module (SWakeup signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 2. "    WKUPDEP_MMC1_DSP1        ,Wakeup dependency from MMC1 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_MMC1_IPU2        ,Wakeup dependency from MMC1 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                           "
bitfld.long 0x00 0. " WKUPDEP_MMC1_MPU         ,Wakeup dependency from MMC1 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x2C++0x3
line.long 0x00 "RM_L3INIT_MMC1_CONTEXT,This register contains dedicated MMC1 context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_L3INIT_BANK1     ,Specify if memory-based context in L3INIT_BANK1 memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 1. "  LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L3INIT_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x30++0x3
line.long 0x00 "PM_L3INIT_MMC2_WKDEP,This register controls wakeup dependency based on MMC2 service requests."
bitfld.long 0x00 9. " WKUPDEP_MMC2_EVE4        ,Wakeup dependency from MMC2 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "    WKUPDEP_MMC2_EVE3        ,Wakeup dependency from MMC2 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_MMC2_EVE2        ,Wakeup dependency from MMC2 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                           "
bitfld.long 0x00 6. " WKUPDEP_MMC2_EVE1        ,Wakeup dependency from MMC2 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "    WKUPDEP_MMC2_DSP2        ,Wakeup dependency from MMC2 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_MMC2_IPU1        ,Wakeup dependency from MMC2 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                           "
bitfld.long 0x00 3. " WKUPDEP_MMC2_SDMA        ,Wakeup dependency from MMC2 module (SWakeup signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 2. "    WKUPDEP_MMC2_DSP1        ,Wakeup dependency from MMC2 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_MMC2_IPU2        ,Wakeup dependency from MMC2 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                           "
bitfld.long 0x00 0. " WKUPDEP_MMC2_MPU         ,Wakeup dependency from MMC2 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x34++0x3
line.long 0x00 "RM_L3INIT_MMC2_CONTEXT,This register contains dedicated MMC2 context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_L3INIT_BANK1     ,Specify if memory-based context in L3INIT_BANK1 memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 1. "  LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L3INIT_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x40++0x3
line.long 0x00 "PM_L3INIT_USB_OTG_SS2_WKDEP,This register controls wakeup dependency based on USB_OTG_SS2 service requests."
bitfld.long 0x00 9. " WKUPDEP_USB_OTG_SS2_EVE4 ,Wakeup dependency from USB2 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "    WKUPDEP_USB_OTG_SS2_EVE3 ,Wakeup dependency from USB2 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_USB_OTG_SS2_EVE2 ,Wakeup dependency from USB2 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                           "
bitfld.long 0x00 6. " WKUPDEP_USB_OTG_SS2_EVE1 ,Wakeup dependency from USB2 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "    WKUPDEP_USB_OTG_SS2_DSP2 ,Wakeup dependency from USB2 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_USB_OTG_SS2_IPU1 ,Wakeup dependency from USB2 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                           "
bitfld.long 0x00 2. " WKUPDEP_USB_OTG_SS2_DSP1 ,Wakeup dependency from USB2 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "    WKUPDEP_USB_OTG_SS2_IPU2 ,Wakeup dependency from USB2 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 0. "                WKUPDEP_USB_OTG_SS2_MPU  ,Wakeup dependency from USB2 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x44++0x3
line.long 0x00 "RM_L3INIT_USB_OTG_SS2_CONTEXT,This register contains dedicated USB_OTG_SS2 context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_L3INIT_BANK1     ,Specify if memory-based context in L3INIT_BANK1 memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 1. "  LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L3INIT_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x48++0x3
line.long 0x00 "PM_L3INIT_USB_OTG_SS3_WKDEP,This register controls wakeup dependency based on USB_OTG_SS3 service requests."
bitfld.long 0x00 9. " WKUPDEP_USB_OTG_SS3_EVE4 ,Wakeup dependency from USB3 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "    WKUPDEP_USB_OTG_SS3_EVE3 ,Wakeup dependency from USB3 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_USB_OTG_SS3_EVE2 ,Wakeup dependency from USB3 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                           "
bitfld.long 0x00 6. " WKUPDEP_USB_OTG_SS3_EVE1 ,Wakeup dependency from USB3 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "    WKUPDEP_USB_OTG_SS3_DSP2 ,Wakeup dependency from USB3 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_USB_OTG_SS3_IPU1 ,Wakeup dependency from USB3 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                           "
bitfld.long 0x00 2. " WKUPDEP_USB_OTG_SS3_DSP1 ,Wakeup dependency from USB3 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "    WKUPDEP_USB_OTG_SS3_IPU2 ,Wakeup dependency from USB3 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 0. "                WKUPDEP_USB_OTG_SS3_MPU  ,Wakeup dependency from USB3 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x4C++0x3
line.long 0x00 "RM_L3INIT_USB_OTG_SS3_CONTEXT,This register contains dedicated USB_OTG_SS3 context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_L3INIT_BANK1     ,Specify if memory-based context in L3INIT_BANK1 memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 1. "  LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L3INIT_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x50++0x3
line.long 0x00 "PM_L3INIT_USB_OTG_SS4_WKDEP,This register controls wakeup dependency based on USB_OTG_SS4 service requests."
bitfld.long 0x00 9. " WKUPDEP_USB_OTG_SS4_EVE4 ,Wakeup dependency from USB4 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "    WKUPDEP_USB_OTG_SS4_EVE3 ,Wakeup dependency from USB4 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_USB_OTG_SS4_EVE2 ,Wakeup dependency from USB4 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                           "
bitfld.long 0x00 6. " WKUPDEP_USB_OTG_SS4_EVE1 ,Wakeup dependency from USB4 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "    WKUPDEP_USB_OTG_SS4_DSP2 ,Wakeup dependency from USB4 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_USB_OTG_SS4_IPU1 ,Wakeup dependency from USB4 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                           "
bitfld.long 0x00 2. " WKUPDEP_USB_OTG_SS4_DSP1 ,Wakeup dependency from USB4 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "    WKUPDEP_USB_OTG_SS4_IPU2 ,Wakeup dependency from USB4 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 0. "                WKUPDEP_USB_OTG_SS4_MPU  ,Wakeup dependency from USB4 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x54++0x3
line.long 0x00 "RM_L3INIT_USB_OTG_SS4_CONTEXT,This register contains dedicated USB_OTG_SS4 context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_L3INIT_BANK1     ,Specify if memory-based context in L3INIT_BANK1 memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 1. "  LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L3INIT_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x7C++0x3
line.long 0x00 "RM_L3INIT_IEEE1500_2_OCP_CONTEXT,This register contains dedicated IEEE1500_2_OCP context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L3INIT_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x88++0x3
line.long 0x00 "PM_L3INIT_SATA_WKDEP,This register controls wakeup dependency based on SATA service requests."
bitfld.long 0x00 9. " WKUPDEP_SATA_EVE4        ,Wakeup dependency from SATA module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "    WKUPDEP_SATA_EVE3        ,Wakeup dependency from SATA module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_SATA_EVE2        ,Wakeup dependency from SATA module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                           "
bitfld.long 0x00 6. " WKUPDEP_SATA_EVE1        ,Wakeup dependency from SATA module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "    WKUPDEP_SATA_DSP2        ,Wakeup dependency from SATA module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_SATA_IPU1        ,Wakeup dependency from SATA module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                           "
bitfld.long 0x00 2. " WKUPDEP_SATA_DSP1        ,Wakeup dependency from SATA module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "    WKUPDEP_SATA_IPU2        ,Wakeup dependency from SATA module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 0. "                WKUPDEP_SATA_MPU         ,Wakeup dependency from SATA module (SWakeup signal) towards MPU + L3MAIN1 + L4CFG domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x8C++0x3
line.long 0x00 "RM_L3INIT_SATA_CONTEXT,This register contains dedicated SATA context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_L3INIT_BANK1     ,Specify if memory-based context in L3INIT_BANK1 memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "  LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L3INIT_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0xB0++0x3
line.long 0x00 "PM_PCIE_PCIESS1_WKDEP,This register controls wakeup dependency based on PCIESS1 service requests."
bitfld.long 0x00 9. " WKUPDEP_PCIESS1_EVE4     ,Wakeup dependency from PCIESS1 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "    WKUPDEP_PCIESS1_EVE3     ,Wakeup dependency from PCIESS1 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_PCIESS1_EVE2     ,Wakeup dependency from PCIESS1 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                           "
bitfld.long 0x00 6. " WKUPDEP_PCIESS1_EVE1     ,Wakeup dependency from PCIESS1 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "    WKUPDEP_PCIESS1_DSP2     ,Wakeup dependency from PCIESS1 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_PCIESS1_IPU1     ,Wakeup dependency from PCIESS1 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                           "
bitfld.long 0x00 2. " WKUPDEP_PCIESS1_DSP1     ,Wakeup dependency from PCIESS1 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "    WKUPDEP_PCIESS1_IPU2     ,Wakeup dependency from PCIESS1 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_PCIESS1_MPU      ,Wakeup dependency from PCIESS1 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0xB4++0x3
line.long 0x00 "RM_PCIE_PCIESS1_CONTEXT,This register contains dedicated PCIESS1 context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_L3INIT_BANK1     ,Specify if memory-based context in PCIESS1_BANK memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "  LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L3INIT_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0xB8++0x3
line.long 0x00 "PM_PCIE_PCIESS2_WKDEP,This register controls wakeup dependency based on PCIESS2 service requests."
bitfld.long 0x00 9. " WKUPDEP_PCIESS2_EVE4     ,Wakeup dependency from PCIESS2 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "    WKUPDEP_PCIESS2_EVE3     ,Wakeup dependency from PCIESS2 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_PCIESS2_EVE2     ,Wakeup dependency from PCIESS2 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                           "
bitfld.long 0x00 6. " WKUPDEP_PCIESS2_EVE1     ,Wakeup dependency from PCIESS2 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "    WKUPDEP_PCIESS2_DSP2     ,Wakeup dependency from PCIESS2 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_PCIESS2_IPU1     ,Wakeup dependency from PCIESS2 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                           "
bitfld.long 0x00 2. " WKUPDEP_PCIESS2_DSP1     ,Wakeup dependency from PCIESS2 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "    WKUPDEP_PCIESS2_IPU2     ,Wakeup dependency from PCIESS2 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 0. "                WKUPDEP_PCIESS2_MPU      ,Wakeup dependency from PCIESS2 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0xBC++0x3
line.long 0x00 "RM_PCIE_PCIESS2_CONTEXT,This register contains dedicated PCIESS2 context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_L3INIT_BANK1     ,Specify if memory-based context in PCIESS1_BANK memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "  LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L3INIT_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0xD4++0x3
line.long 0x00 "RM_GMAC_GMAC_CONTEXT,This register contains dedicated GMAC context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_GMAC_BANK        ,Specify if memory-based context in GMAC_BANK memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "  LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L3INIT_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0xE4++0x3
line.long 0x00 "RM_L3INIT_OCP2SCP1_CONTEXT,This register contains dedicated OCP2SCP1 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L3INIT_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0xEC++0x3
line.long 0x00 "RM_L3INIT_OCP2SCP3_CONTEXT,This register contains dedicated OCP2SCP3 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L3INIT_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0xF0++0x3
line.long 0x00 "PM_L3INIT_USB_OTG_SS1_WKDEP,This register controls wakeup dependency based on USB_OTG_SS1 service requests."
bitfld.long 0x00 9. " WKUPDEP_USB_OTG_SS1_EVE4 ,Wakeup dependency from USB1 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "    WKUPDEP_USB_OTG_SS1_EVE3 ,Wakeup dependency from USB1 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_USB_OTG_SS1_EVE2 ,Wakeup dependency from USB1 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                           "
bitfld.long 0x00 6. " WKUPDEP_USB_OTG_SS1_EVE1 ,Wakeup dependency from USB1 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "    WKUPDEP_USB_OTG_SS1_DSP2 ,Wakeup dependency from USB1 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_USB_OTG_SS1_IPU1 ,Wakeup dependency from USB1 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                           "
bitfld.long 0x00 2. " WKUPDEP_USB_OTG_SS1_DSP1 ,Wakeup dependency from USB1 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "    WKUPDEP_USB_OTG_SS1_IPU2 ,Wakeup dependency from USB1 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 0. "                WKUPDEP_USB_OTG_SS1_MPU  ,Wakeup dependency from USB1 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0xF4++0x3
line.long 0x00 "RM_L3INIT_USB_OTG_SS1_CONTEXT,This register contains dedicated USB_OTG_SS1 context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_L3INIT_BANK1     ,Specify if memory-based context in L3INIT_BANK1 memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 1. "  LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L3INIT_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
width 0x0B
tree.end
tree "CM_CORE__CAM"
base ad:0x4A009000
width 21.
group.long 0x0++0x3
line.long 0x00 "CM_CAM_CLKSTCTRL,This register enables the domain power state transition. It controls the HW supervised domain power state transition between ON-ACTIVE and ON-INACTIVE states. It also hold one status bit per clock input of the domain."
bitfld.long 0x00 10. " CLKACTIVITY_VIP3_GCLK ,This field indicates the state of the VIP3_GCLK clock input of the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 9. "                   CLKACTIVITY_VIP2_GCLK ,This field indicates the state of the VIP2_GCLK clock input of the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 8. "     CLKACTIVITY_VIP1_GCLK ,This field indicates the state of the VIP1_GCLK clock input of the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                              "
bitfld.long 0x00 0.--1. " CLKTRCTRL             ,Controls the clock state transition of the CAM clock domain. - NO_SLEEP. - SW_SLEEP. - SW_WKUP. - HW_AUTO." "NO_SLEEP,SW_SLEEP,SW_WKUP,HW_AUTO"
group.long 0x4++0x3
line.long 0x00 "CM_CAM_STATICDEP,This register controls the static domain depedencies from CAM domain towards 'target' domains. It is relevant only for domain having system initiator(s)."
bitfld.long 0x00 28. " VPE_STATDEP           ,Static dependency towards VPE clock domain - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 27. "  L4PER3_STATDEP        ,Static dependency towards L4PER3 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 25. "  GMAC_STATDEP          ,Static dependency towards GMAC clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                              "
bitfld.long 0x00 22. " EVE4_STATDEP          ,Static dependency towards EVE4 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 21. "                EVE3_STATDEP          ,Static dependency towards EVE3 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 20. "  EVE2_STATDEP          ,Static dependency towards EVE2 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                              "
bitfld.long 0x00 19. " EVE1_STATDEP          ,Static dependency towards EVE1 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 12. "                L4CFG_STATDEP         ,Static dependency towards L4CFG clock domain - DISABLED." "DISABLED,1"
bitfld.long 0x00 5. "  L3MAIN1_STATDEP       ,Static dependency towards L3MAIN1 clock domain - ENABLED." "0,ENABLED"
textline "                              "
bitfld.long 0x00 4. " EMIF_STATDEP          ,Static dependency towards EMIF clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 2. "                IVA_STATDEP           ,Static dependency towards IVA clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x20++0x3
line.long 0x00 "CM_CAM_VIP1_CLKCTRL,This register manages the VIP1 clocks."
bitfld.long 0x00 24. " CLKSEL                ,Selects functional clock for VIP between L3_ICLK and CORE_ISS_MAIN_CLK - SEL_L3_ICLK. - SEL_CORE_ISS_MAIN_CLK." "SEL_L3_ICLK,SEL_CORE_ISS_MAIN_CLK"
bitfld.long 0x00 18. "   STBYST                ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
bitfld.long 0x00 16.--17. "   IDLEST                ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
textline "                              "
bitfld.long 0x00 0.--1. " MODULEMODE            ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
group.long 0x28++0x3
line.long 0x00 "CM_CAM_VIP2_CLKCTRL,This register manages the VIP2 clocks."
bitfld.long 0x00 24. " CLKSEL                ,Selects functional clock for VIP between L3_ICLK and CORE_ISS_MAIN_CLK - SEL_L3_ICLK. - SEL_CORE_ISS_MAIN_CLK." "SEL_L3_ICLK,SEL_CORE_ISS_MAIN_CLK"
bitfld.long 0x00 18. "   STBYST                ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
bitfld.long 0x00 16.--17. "   IDLEST                ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
textline "                              "
bitfld.long 0x00 0.--1. " MODULEMODE            ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
group.long 0x30++0x3
line.long 0x00 "CM_CAM_VIP3_CLKCTRL,This register manages the VIP3 clocks."
bitfld.long 0x00 24. " CLKSEL                ,Selects functional clock for VIP between L3_ICLK and CORE_ISS_MAIN_CLK - SEL_L3_ICLK. - SEL_CORE_ISS_MAIN_CLK." "SEL_L3_ICLK,SEL_CORE_ISS_MAIN_CLK"
bitfld.long 0x00 18. "   STBYST                ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
bitfld.long 0x00 16.--17. "   IDLEST                ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
textline "                              "
bitfld.long 0x00 0.--1. " MODULEMODE            ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
width 0x0B
tree.end
tree "DSS_PRM"
base ad:0x4AE07100
width 21.
group.long 0x0++0x3
line.long 0x00 "PM_DSS_PWRSTCTRL,This register controls the DSS power state to reach upon a domain sleep transition"
bitfld.long 0x00 16.--17. " DSS_MEM_ONSTATE       ,DSS_MEM state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
bitfld.long 0x00 8. "                  DSS_MEM_RETSTATE     ,DSS_MEM state when domain is RETENTION. - MEM_OFF." "MEM_OFF,1"
bitfld.long 0x00 4. "                 LOWPOWERSTATECHANGE  ,Power state change request when domain has already performed a sleep transition. Allows going into deeper low power state without waking up the power domain. - DIS. - EN." "DIS,EN"
textline "                              "
bitfld.long 0x00 2. " LOGICRETSTATE         ,Logic state when power domain is RETENTION - LOGIC_OFF." "LOGIC_OFF,1"
bitfld.long 0x00 0.--1. "               POWERSTATE           ,Power state control - OFF. - RET. - INACT. - ON." "OFF,RET,INACT,ON"
group.long 0x4++0x3
line.long 0x00 "PM_DSS_PWRSTST,This register provides a status on the current DSS power domain state. [warm reset insensitive]"
bitfld.long 0x00 24.--25. " LASTPOWERSTATEENTERED ,Last low power state entered. Set to 0x3 upon write of the same only. This register is intended for debug purpose only. - OFF. - RET. - INACTIVE. - ON." "OFF,RET,INACTIVE,ON"
bitfld.long 0x00 20. "                INTRANSITION         ,Domain transition status - NO. - ONGOING." "NO,ONGOING"
bitfld.long 0x00 4.--5. "                 DSS_MEM_STATEST      ,DSS_MEM state status - MEM_OFF. - RESERVED1. - RESERVED. - MEM_ON." "MEM_OFF,RESERVED1,RESERVED,MEM_ON"
textline "                              "
bitfld.long 0x00 2. " LOGICSTATEST          ,Logic state status - OFF. - ON." "OFF,ON"
bitfld.long 0x00 0.--1. "                     POWERSTATEST         ,Current power state status - OFF. - RET. - INACTIVE. - ON." "OFF,RET,INACTIVE,ON"
group.long 0x20++0x3
line.long 0x00 "PM_DSS_DSS_WKDEP,This register controls wakeup dependency based on DSS service requests."
bitfld.long 0x00 29. " WKUPDEP_DSI1_B_EVE4   ,Wakeup dependency from DSS module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 28. "                WKUPDEP_DSI1_B_EVE3  ,Wakeup dependency from DSS module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 27. "                WKUPDEP_DSI1_B_EVE2  ,Wakeup dependency from DSS module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                              "
bitfld.long 0x00 26. " WKUPDEP_DSI1_B_EVE1   ,Wakeup dependency from DSS module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 25. "                WKUPDEP_DSI1_B_DSP2  ,Wakeup dependency from DSS module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 24. "                WKUPDEP_DSI1_B_IPU1  ,Wakeup dependency from DSS module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                              "
bitfld.long 0x00 23. " WKUPDEP_DSI1_B_SDMA   ,Wakeup dependency from DSS module (SWakeup signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 22. "  WKUPDEP_DSI1_B_DSP1  ,Wakeup dependency from DSS module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 21. "                WKUPDEP_DSI1_B_IPU2  ,Wakeup dependency from DSS module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
textline "                              "
bitfld.long 0x00 20. " WKUPDEP_DSI1_B_MPU    ,Wakeup dependency from DSS module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 19. "                WKUPDEP_DSI1_A_EVE4  ,Wakeup dependency from DSS module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 18. "                WKUPDEP_DSI1_A_EVE3  ,Wakeup dependency from DSS module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                              "
bitfld.long 0x00 17. " WKUPDEP_DSI1_A_EVE2   ,Wakeup dependency from DSS module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 16. "                WKUPDEP_DSI1_A_EVE1  ,Wakeup dependency from DSS module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 15. "                WKUPDEP_DSI1_A_DSP2  ,Wakeup dependency from DSS module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                              "
bitfld.long 0x00 14. " WKUPDEP_DSI1_A_IPU1   ,Wakeup dependency from DSS module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 13. "                WKUPDEP_DSI1_A_SDMA  ,Wakeup dependency from DSS module (SWakeup signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 12. "  WKUPDEP_DSI1_A_DSP1  ,Wakeup dependency from DSS module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                              "
bitfld.long 0x00 11. " WKUPDEP_DSI1_A_IPU2   ,Wakeup dependency from DSS module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 10. "  WKUPDEP_DSI1_A_MPU   ,Wakeup dependency from DSS module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 9. "                WKUPDEP_DISPC_EVE4   ,Wakeup dependency from DSS module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                              "
bitfld.long 0x00 8. " WKUPDEP_DISPC_EVE3    ,Wakeup dependency from DSS module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_DISPC_EVE2   ,Wakeup dependency from DSS module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 6. "                WKUPDEP_DISPC_EVE1   ,Wakeup dependency from DSS module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                              "
bitfld.long 0x00 5. " WKUPDEP_DISPC_DSP2    ,Wakeup dependency from DSS module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_DISPC_IPU1   ,Wakeup dependency from DSS module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 3. "                WKUPDEP_DISPC_SDMA   ,Wakeup dependency from DSS module (SWakeup signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Disabled,Enabled"
textline "                              "
bitfld.long 0x00 2. " WKUPDEP_DISPC_DSP1    ,Wakeup dependency from DSS module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_DISPC_IPU2   ,Wakeup dependency from DSS module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_DISPC_MPU    ,Wakeup dependency from DSS module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x24++0x3
line.long 0x00 "RM_DSS_DSS_CONTEXT,This register contains dedicated DSS context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_DSS_MEM       ,Specify if memory-based context in DSS_MEM memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 1. "              LOSTCONTEXT_RFF      ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of DSS_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "              LOSTCONTEXT_DFF      ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of DSS_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x28++0x3
line.long 0x00 "PM_DSS_DSS2_WKDEP,This register controls wakeup dependency based on DSS service requests."
bitfld.long 0x00 25. " WKUPDEP_HDMIDMA_DSP2  ,Wakeup dependency from DSS module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 23. "                WKUPDEP_HDMIDMA_SDMA ,Wakeup dependency from DSS module (SWakeup signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 22. "  WKUPDEP_HDMIDMA_DSP1 ,Wakeup dependency from DSS module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                              "
bitfld.long 0x00 19. " WKUPDEP_DSI1_C_EVE4   ,Wakeup dependency from DSS module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 18. "                WKUPDEP_DSI1_C_EVE3  ,Wakeup dependency from DSS module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 17. "                WKUPDEP_DSI1_C_EVE2  ,Wakeup dependency from DSS module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                              "
bitfld.long 0x00 16. " WKUPDEP_DSI1_C_EVE1   ,Wakeup dependency from DSS module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 15. "                WKUPDEP_DSI1_C_DSP2  ,Wakeup dependency from DSS module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 14. "                WKUPDEP_DSI1_C_IPU1  ,Wakeup dependency from DSS module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                              "
bitfld.long 0x00 13. " WKUPDEP_DSI1_C_SDMA   ,Wakeup dependency from DSS module (SWakeup signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 12. "  WKUPDEP_DSI1_C_DSP1  ,Wakeup dependency from DSS module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 11. "                WKUPDEP_DSI1_C_IPU2  ,Wakeup dependency from DSS module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
textline "                              "
bitfld.long 0x00 10. " WKUPDEP_DSI1_C_MPU    ,Wakeup dependency from DSS module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 9. "                WKUPDEP_HDMIIRQ_EVE4 ,Wakeup dependency from DSS module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_HDMIIRQ_EVE3 ,Wakeup dependency from DSS module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                              "
bitfld.long 0x00 7. " WKUPDEP_HDMIIRQ_EVE2  ,Wakeup dependency from DSS module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 6. "                WKUPDEP_HDMIIRQ_EVE1 ,Wakeup dependency from DSS module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_HDMIIRQ_DSP2 ,Wakeup dependency from DSS module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                              "
bitfld.long 0x00 4. " WKUPDEP_HDMIIRQ_IPU1  ,Wakeup dependency from DSS module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 2. "                WKUPDEP_HDMIIRQ_DSP1 ,Wakeup dependency from DSS module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_HDMIIRQ_IPU2 ,Wakeup dependency from DSS module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
textline "                              "
bitfld.long 0x00 0. " WKUPDEP_HDMIIRQ_MPU   ,Wakeup dependency from DSS module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x34++0x3
line.long 0x00 "RM_DSS_BB2D_CONTEXT,This register contains dedicated BB2B context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_DSS_MEM       ,Specify if memory-based context in DSS_MEM memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "              LOSTCONTEXT_DFF      ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of DSS_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
width 0x0B
tree.end
tree "EVE3_PRM"
base ad:0x4AE07BC0
width 22.
group.long 0x0++0x3
line.long 0x00 "PM_EVE3_PWRSTCTRL,This register controls the EVE power state to reach upon a domain sleep transition"
bitfld.long 0x00 16.--17. " EVE3_BANK_ONSTATE     ,EVE3 state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
bitfld.long 0x00 4. "      LOWPOWERSTATECHANGE ,Power state change request when domain has already performed a sleep transition. Allows going into deeper low power state without waking up the power domain. - DIS. - EN." "DIS,EN"
bitfld.long 0x00 0.--1. "                     POWERSTATE        ,Power state control - OFF. - RESERVED. - INACT. - ON." "OFF,RESERVED,INACT,ON"
group.long 0x4++0x3
line.long 0x00 "PM_EVE3_PWRSTST,This register provides a status on the EVE domain current power state. [warm reset insensitive]"
bitfld.long 0x00 24.--25. " LASTPOWERSTATEENTERED ,Last low power state entered. Set to 0x3 upon write of the same only. This register is intended for debug purpose only. - OFF. - RET. - INACTIVE. - ON." "OFF,RET,INACTIVE,ON"
bitfld.long 0x00 20. "    INTRANSITION        ,Domain transition status - NO. - ONGOING." "NO,ONGOING"
bitfld.long 0x00 4.--5. "                 EVE3_BANK_STATEST ,EVE3 memory state status - MEM_OFF. - RESERVED1. - RESERVED. - MEM_ON." "MEM_OFF,RESERVED1,RESERVED,MEM_ON"
textline "                               "
bitfld.long 0x00 2. " LOGICSTATEST          ,Logic state status - OFF. - ON." "OFF,ON"
bitfld.long 0x00 0.--1. "         POWERSTATEST        ,Current power state status - OFF. - RET. - INACTIVE. - ON." "OFF,RET,INACTIVE,ON"
group.long 0x10++0x3
line.long 0x00 "RM_EVE3_RSTCTRL,This register controls the release of the EVE sub-system resets."
bitfld.long 0x00 1. " RST_EVE3              ,EVE SW reset control - CLEAR. - ASSERT." "CLEAR,ASSERT"
bitfld.long 0x00 0. "      RST_EVE3_LRST       ,EVE3 Local reset control - CLEAR. - ASSERT." "CLEAR,ASSERT"
group.long 0x14++0x3
line.long 0x00 "RM_EVE3_RSTST,This register logs the different reset sources of the EVE domain. Each bit is set upon release of the domain reset signal. Must be cleared by software. [warm reset insensitive]"
bitfld.long 0x00 3. " RST_EVE3_EMU_REQ      ,EVE3 processor has been reset due to EVE emulation reset request driven from EVE3-SS - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
bitfld.long 0x00 2. "   RST_EVE3_EMU        ,EVE3 domain has been reset due to emulation reset source e.g. assert reset command initiated by the icepick module - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
bitfld.long 0x00 1. "               RST_EVE3          ,EVE3 SW reset status - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
textline "                               "
bitfld.long 0x00 0. " RST_EVE3_LRST         ,EVE3 Local SW reset - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
group.long 0x20++0x3
line.long 0x00 "PM_EVE3_EVE3_WKDEP,This register controls wakeup dependency based on EVE3 service requests."
bitfld.long 0x00 9. " WKUPDEP_EVE3_EVE4     ,Wakeup dependency from EVE3 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "    WKUPDEP_EVE3_EVE2   ,Wakeup dependency from EVE3 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 6. "                WKUPDEP_EVE3_EVE1 ,Wakeup dependency from EVE3 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                               "
bitfld.long 0x00 5. " WKUPDEP_EVE3_DSP2     ,Wakeup dependency from EVE3 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "    WKUPDEP_EVE3_IPU1   ,Wakeup dependency from EVE3 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 3. "                WKUPDEP_EVE3_SDMA ,Wakeup dependency from EVE3 module (SWakeup signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
textline "                               "
bitfld.long 0x00 2. " WKUPDEP_EVE3_DSP1     ,Wakeup dependency from EVE3 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "    WKUPDEP_EVE3_IPU2   ,Wakeup dependency from EVE3 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_EVE3_MPU  ,Wakeup dependency from EVE3 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x24++0x3
line.long 0x00 "RM_EVE3_EVE3_CONTEXT,This register contains dedicated EVE context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_EVE_BANK      ,Specify if memory-based context in EVE3 memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "  LOSTCONTEXT_DFF     ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of EVE1_SYS_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
width 0x0B
tree.end
tree "GPU_PRM"
base ad:0x4AE07200
width 20.
group.long 0x0++0x3
line.long 0x00 "PM_GPU_PWRSTCTRL,This register controls the GPU power state to reach upon a domain sleep transition"
bitfld.long 0x00 16.--17. " GPU_MEM_ONSTATE       ,GPU_MEM memory bank state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
bitfld.long 0x00 4. "      LOWPOWERSTATECHANGE ,Power state change request when domain has already performed a sleep transition. Allows going into deeper low power state without waking up the power domain. - DIS. - EN." "DIS,EN"
bitfld.long 0x00 0.--1. "         POWERSTATE      ,Power state control - OFF. - RESERVED. - INACT. - ON." "OFF,RESERVED,INACT,ON"
group.long 0x4++0x3
line.long 0x00 "PM_GPU_PWRSTST,This register provides a status on the current GPU power domain state. [warm reset insensitive]"
bitfld.long 0x00 24.--25. " LASTPOWERSTATEENTERED ,Last low power state entered. Set to 0x3 upon write of the same only. This register is intended for debug purpose only. - OFF. - RET. - INACTIVE. - ON." "OFF,RET,INACTIVE,ON"
bitfld.long 0x00 20. "    INTRANSITION        ,Domain transition status - NO. - ONGOING." "NO,ONGOING"
bitfld.long 0x00 4.--5. "     GPU_MEM_STATEST ,GPU_MEM memory bank state status - MEM_OFF. - RESERVED1. - RESERVED. - MEM_ON." "MEM_OFF,RESERVED1,RESERVED,MEM_ON"
textline "                             "
bitfld.long 0x00 2. " LOGICSTATEST          ,Logic state status - OFF. - ON." "OFF,ON"
bitfld.long 0x00 0.--1. "         POWERSTATEST        ,Current power state status - OFF. - RET. - INACTIVE. - ON." "OFF,RET,INACTIVE,ON"
group.long 0x24++0x3
line.long 0x00 "RM_GPU_GPU_CONTEXT,This register contains dedicated GPU context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_GPU_MEM       ,Specify if memory-based context in GPU_MEM memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "  LOSTCONTEXT_DFF     ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of GPU_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
width 0x0B
tree.end
tree "RTC_PRM"
base ad:0x4AE07C40
width 22.
group.long 0x20++0x3
line.long 0x00 "PM_RTC_RTCSS_WKDEP,This register controls wakeup dependency based on RTCSS service requests."
bitfld.long 0x00 19. " WKUPDEP_RTC_IRQ2_EVE4 ,Wakeup dependency from RTCSS module (timer_swakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 18. "    WKUPDEP_RTC_IRQ2_EVE3 ,Wakeup dependency from RTCSS module (timer_swakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 17. "  WKUPDEP_RTC_IRQ2_EVE2 ,Wakeup dependency from RTCSS module (timer_swakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                               "
bitfld.long 0x00 16. " WKUPDEP_RTC_IRQ2_EVE1 ,Wakeup dependency from RTCSS module (timer_swakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 15. "    WKUPDEP_RTC_IRQ2_DSP2 ,Wakeup dependency from RTCSS module (timer_swakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 14. "  WKUPDEP_RTC_IRQ2_IPU1 ,Wakeup dependency from RTCSS module (timer_swakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                               "
bitfld.long 0x00 12. " WKUPDEP_RTC_IRQ2_DSP1 ,Wakeup dependency from RTCSS module (timer_swakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 11. "    WKUPDEP_RTC_IRQ2_IPU2 ,Wakeup dependency from RTCSS module (timer_swakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 10. "  WKUPDEP_RTC_IRQ2_MPU  ,Wakeup dependency from RTCSS module (timer_swakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                               "
bitfld.long 0x00 9. " WKUPDEP_RTC_IRQ1_EVE4 ,Wakeup dependency from RTCSS module (alarm_swakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "    WKUPDEP_RTC_IRQ1_EVE3 ,Wakeup dependency from RTCSS module (alarm_swakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "  WKUPDEP_RTC_IRQ1_EVE2 ,Wakeup dependency from RTCSS module (alarm_swakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                               "
bitfld.long 0x00 6. " WKUPDEP_RTC_IRQ1_EVE1 ,Wakeup dependency from RTCSS module ( alarm_swakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "    WKUPDEP_RTC_IRQ1_DSP2 ,Wakeup dependency from RTCSS module (alarm_swakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "  WKUPDEP_RTC_IRQ1_IPU1 ,Wakeup dependency from RTCSS module (alarm_swakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                               "
bitfld.long 0x00 2. " WKUPDEP_RTC_IRQ1_DSP1 ,Wakeup dependency from RTCSS module (alarm_swakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "    WKUPDEP_RTC_IRQ1_IPU2 ,Wakeup dependency from RTCSS module ( alarm_swakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 0. "  WKUPDEP_RTC_IRQ1_MPU  ,Wakeup dependency from RTCSS module (alarm_swakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x24++0x3
line.long 0x00 "RM_RTC_RTCSS_CONTEXT,This register contains dedicated RTCSS context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF       ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
width 0x0B
tree.end
tree "CM_CORE__RESTORE"
base ad:0x4A009E00
width 39.
group.long 0x18++0x3
line.long 0x00 "CM_L3MAIN1_CLKSTCTRL_RESTORE,Second address map for register. Used only by automatic restore upon wakeup from device OFF mode."
hexmask.long 0x00 0.--31. 1. " RESTORE ,SeeCM_L3MAIN1_CLKSTCTRL register."
group.long 0x20++0x3
line.long 0x00 "CM_L4CFG_CLKSTCTRL_RESTORE,Second address map for register. Used only by automatic restore upon wakeup from device OFF mode."
hexmask.long 0x00 0.--31. 1. " RESTORE ,SeeCM_L4CFG_CLKSTCTRL register."
group.long 0x28++0x3
line.long 0x00 "CM_L4PER_CLKSTCTRL_RESTORE,Second address map for register. Used only by automatic restore upon wakeup from device OFF mode."
hexmask.long 0x00 0.--31. 1. " RESTORE ,SeeCM_L4PER_CLKSTCTRL register."
group.long 0x2C++0x3
line.long 0x00 "CM_L3INIT_CLKSTCTRL_RESTORE,Second address map for register. Used only by automatic restore upon wakeup from device OFF mode."
hexmask.long 0x00 0.--31. 1. " RESTORE ,SeeCM_L3INIT_CLKSTCTRL register."
group.long 0x30++0x3
line.long 0x00 "CM_L3INSTR_L3_MAIN_2_CLKCTRL_RESTORE,Second address map for register. Used only by automatic restore upon wakeup from device OFF mode. [warm reset insensitive]"
hexmask.long 0x00 0.--31. 1. " RESTORE ,See CM_L3INSTR_L3_MAIN_3_CLKCTRL register."
group.long 0x34++0x3
line.long 0x00 "CM_L3INSTR_L3_INSTR_CLKCTRL_RESTORE,Second address map for register. Used only by automatic restore upon wakeup from device OFF mode. [warm reset insensitive]"
hexmask.long 0x00 0.--31. 1. " RESTORE ,SeeCM_L3INSTR_L3_INSTR_CLKCTRL register."
group.long 0x38++0x3
line.long 0x00 "CM_L3INSTR_OCP_WP_NOC_CLKCTRL_RESTORE,Second address map for register. Used only by automatic restore upon wakeup from device OFF mode. [warm reset insensitive]"
hexmask.long 0x00 0.--31. 1. " RESTORE ,SeeCM_L3INSTR_OCP_WP_NOC_CLKCTRL register."
group.long 0x3C++0x3
line.long 0x00 "CM_CM_CORE_PROFILING_CLKCTRL_RESTORE,Second address map for register. Used only by automatic restore upon wakeup from device OFF mode. [warm reset insensitive]"
hexmask.long 0x00 0.--31. 1. " RESTORE ,SeeCM_CM_CORE_PROFILING_CLKCTRL register."
group.long 0x48++0x3
line.long 0x00 "CM_L3MAIN1_DYNAMICDEP_RESTORE,Second address map for register. Used only by automatic restore upon wakeup from device OFF mode."
hexmask.long 0x00 0.--31. 1. " RESTORE ,SeeCM_L3MAIN1_DYNAMICDEP register."
group.long 0x58++0x3
line.long 0x00 "CM_L4CFG_DYNAMICDEP_RESTORE,Second address map for register. Used only by automatic restore upon wakeup from device OFF mode."
hexmask.long 0x00 0.--31. 1. " RESTORE ,SeeCM_L4CFG_DYNAMICDEP register."
group.long 0x5C++0x3
line.long 0x00 "CM_L4PER_DYNAMICDEP_RESTORE,Second address map for register. Used only by automatic restore upon wakeup from device OFF mode."
hexmask.long 0x00 0.--31. 1. " RESTORE ,SeeCM_L4PER_DYNAMICDEP register."
width 0x0B
tree.end
tree "EVE2_PRM"
base ad:0x4AE07B80
width 22.
group.long 0x0++0x3
line.long 0x00 "PM_EVE2_PWRSTCTRL,This register controls the EVE power state to reach upon a domain sleep transition"
bitfld.long 0x00 16.--17. " EVE2_BANK_ONSTATE     ,EVE2 state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
bitfld.long 0x00 4. "      LOWPOWERSTATECHANGE ,Power state change request when domain has already performed a sleep transition. Allows going into deeper low power state without waking up the power domain. - DIS. - EN." "DIS,EN"
bitfld.long 0x00 0.--1. "                     POWERSTATE        ,Power state control - OFF. - RESERVED. - INACT. - ON." "OFF,RESERVED,INACT,ON"
group.long 0x4++0x3
line.long 0x00 "PM_EVE2_PWRSTST,This register provides a status on the EVE domain current power state. [warm reset insensitive]"
bitfld.long 0x00 24.--25. " LASTPOWERSTATEENTERED ,Last low power state entered. Set to 0x3 upon write of the same only. This register is intended for debug purpose only. - OFF. - RET. - INACTIVE. - ON." "OFF,RET,INACTIVE,ON"
bitfld.long 0x00 20. "    INTRANSITION        ,Domain transition status - NO. - ONGOING." "NO,ONGOING"
bitfld.long 0x00 4.--5. "                 EVE2_BANK_STATEST ,EVE2 memory state status - MEM_OFF. - RESERVED1. - RESERVED. - MEM_ON." "MEM_OFF,RESERVED1,RESERVED,MEM_ON"
textline "                               "
bitfld.long 0x00 2. " LOGICSTATEST          ,Logic state status - OFF. - ON." "OFF,ON"
bitfld.long 0x00 0.--1. "         POWERSTATEST        ,Current power state status - OFF. - RET. - INACTIVE. - ON." "OFF,RET,INACTIVE,ON"
group.long 0x10++0x3
line.long 0x00 "RM_EVE2_RSTCTRL,This register controls the release of the EVE sub-system resets."
bitfld.long 0x00 1. " RST_EVE2              ,EVE SW reset control - CLEAR. - ASSERT." "CLEAR,ASSERT"
bitfld.long 0x00 0. "      RST_EVE2_LRST       ,EVE Local reset control - CLEAR. - ASSERT." "CLEAR,ASSERT"
group.long 0x14++0x3
line.long 0x00 "RM_EVE2_RSTST,This register logs the different reset sources of the EVE domain. Each bit is set upon release of the domain reset signal. Must be cleared by software. [warm reset insensitive]"
bitfld.long 0x00 3. " RST_EVE2_EMU_REQ      ,EVE2 processor has been reset due to EVE emulation reset request driven from EVE2-SS - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
bitfld.long 0x00 2. "   RST_EVE2_EMU        ,EVE2 domain has been reset due to emulation reset source e.g. assert reset command initiated by the icepick module - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
bitfld.long 0x00 1. "               RST_EVE2          ,EVE SW reset status - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
textline "                               "
bitfld.long 0x00 0. " RST_EVE2_LRST         ,EVE Local SW reset - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
group.long 0x20++0x3
line.long 0x00 "PM_EVE2_EVE2_WKDEP,This register controls wakeup dependency based on EVE2 service requests."
bitfld.long 0x00 9. " WKUPDEP_EVE2_EVE4     ,Wakeup dependency from EVE2 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "    WKUPDEP_EVE2_EVE3   ,Wakeup dependency from EVE2 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 6. "                WKUPDEP_EVE2_EVE1 ,Wakeup dependency from EVE2 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                               "
bitfld.long 0x00 5. " WKUPDEP_EVE2_DSP2     ,Wakeup dependency from EVE2 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "    WKUPDEP_EVE2_IPU1   ,Wakeup dependency from EVE2 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 3. "                WKUPDEP_EVE2_SDMA ,Wakeup dependency from EVE2 module (SWakeup signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
textline "                               "
bitfld.long 0x00 2. " WKUPDEP_EVE2_DSP1     ,Wakeup dependency from EVE2 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "    WKUPDEP_EVE2_IPU2   ,Wakeup dependency from EVE2 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_EVE2_MPU  ,Wakeup dependency from EVE2 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x24++0x3
line.long 0x00 "RM_EVE2_EVE2_CONTEXT,This register contains dedicated EVE context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_EVE_BANK      ,Specify if memory-based context in EVE2 memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "  LOSTCONTEXT_DFF     ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of EVE1_SYS_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
width 0x0B
tree.end
tree "CKGEN_PRM"
base ad:0x4AE06100
width 39.
group.long 0x0++0x3
line.long 0x00 "CM_CLKSEL_SYSCLK1,Select the SYS CLK for SYSCLK1_32K_CLK. [warm reset insensitive]"
bitfld.long 0x00 0. " CLKSEL     ,Selects the divider value - SYSCLK_DIV_6. - SYSCLK_DIV_10." "SYSCLK_DIV_6,SYSCLK_DIV_10"
group.long 0x8++0x3
line.long 0x00 "CM_CLKSEL_WKUPAON,Control the functional clock source of WKUPAON, PRM and Smart Reflex functional clock."
bitfld.long 0x00 0. " CLKSEL     ,Select the clock source for WKUPAON_ICLK clock - SEL_SYS_CLK. - SEL_ABE_X1_LP_CLK." "SEL_SYS_CLK,SEL_ABE_X1_LP_CLK"
group.long 0xC++0x3
line.long 0x00 "CM_CLKSEL_ABE_PLL_REF,Control the source of the reference clock for DPLL_ABE"
bitfld.long 0x00 0. " CLKSEL     ,Select the source for the DPLL_ABE reference clock. - SEL_SYS_CLK. - SEL_SYS_32K." "SEL_SYS_CLK,SEL_SYS_32K"
group.long 0x10++0x3
line.long 0x00 "CM_CLKSEL_SYS,ROM code sets the SYS_CLK configuration corresponding to the frequency of SYS_CLK. [warm reset insensitive]"
bitfld.long 0x00 0.--2. " SYS_CLKSEL ,System clock input selection. - RESERVED1. - _12_MHZ. - _38_4_MHZ. - UNSET. - RESERVED. - _19_2_MHZ. - _26_MHZ. - _16_8_MHZ." "RESERVED1,_12_MHZ,_38_4_MHZ,UNSET,RESERVED,_19_2_MHZ,_26_MHZ,_16_8_MHZ"
group.long 0x14++0x3
line.long 0x00 "CM_CLKSEL_ABE_PLL_BYPAS,Control the source of the bypass clock for DPLL_ABE"
bitfld.long 0x00 0. " CLKSEL     ,Control the source of the bypass clock for DPLL_ABE - SEL_SYS_CLK. - SEL_ABE_X1_LP_CLK." "SEL_SYS_CLK,SEL_ABE_X1_LP_CLK"
group.long 0x18++0x3
line.long 0x00 "CM_CLKSEL_ABE_PLL_SYS,Control the source of the SYS clock for DPLL_ABE"
bitfld.long 0x00 0. " CLKSEL     ,Select the SYS clock for the DPLL_ABE reference and bypass clock. - SEL_SYS_CLK1. - SEL_SYS_CLK2." "SEL_SYS_CLK1,SEL_SYS_CLK2"
group.long 0x1C++0x3
line.long 0x00 "CM_CLKSEL_ABE_24M,Select the ABE_24M_FCLK for TIMERS subsystems. [warm reset insensitive]"
bitfld.long 0x00 0. " CLKSEL     ,Selects the divider value - SYSCLK_DIV_8. - SYSCLK_DIV_16." "SYSCLK_DIV_8,SYSCLK_DIV_16"
group.long 0x20++0x3
line.long 0x00 "CM_CLKSEL_ABE_SYS,Select the SYS CLK for IPU subsystems. [warm reset insensitive]"
bitfld.long 0x00 0. " CLKSEL     ,Selects the divider value - SYSCLK_DIV_1. - SYSCLK_DIV_2." "SYSCLK_DIV_1,SYSCLK_DIV_2"
group.long 0x24++0x3
line.long 0x00 "CM_CLKSEL_HDMI_MCASP_AUX,Select the HDMI_CLK for MCASP subsystems. [warm reset insensitive]"
bitfld.long 0x00 0.--2. " CLKSEL     ,Selects the divider value - CLK_DIV_1. - CLK_DIV_2. - CLK_DIV_4. - CLK_DIV_8. - CLK_DIV_16. - RESERVED. - RESERVED1. - RESERVED2." "CLK_DIV_1,CLK_DIV_2,CLK_DIV_4,CLK_DIV_8,CLK_DIV_16,RESERVED,RESERVED1,RESERVED2"
group.long 0x28++0x3
line.long 0x00 "CM_CLKSEL_HDMI_TIMER,Select the HDMI_CLK for TIMER subsystems. [warm reset insensitive]"
bitfld.long 0x00 0.--2. " CLKSEL     ,Selects the divider value - CLK_DIV_1. - CLK_DIV_2. - CLK_DIV_4. - CLK_DIV_8. - CLK_DIV_16. - CLK_DIV_22. - CLK_DIV_32. - RESERVED." "CLK_DIV_1,CLK_DIV_2,CLK_DIV_4,CLK_DIV_8,CLK_DIV_16,CLK_DIV_22,CLK_DIV_32,RESERVED"
group.long 0x2C++0x3
line.long 0x00 "CM_CLKSEL_MCASP_SYS,Select the SYS CLK for ABE_24M_FCLK. [warm reset insensitive]"
bitfld.long 0x00 0. " CLKSEL     ,Selects the divider value - SYSCLK_DIV_8. - SYSCLK_DIV_16." "SYSCLK_DIV_8,SYSCLK_DIV_16"
group.long 0x38++0x3
line.long 0x00 "CM_CLKSEL_PER_ABE_X1_GFCLK_MCASP_AUX,Select the PER_ABE_X1_GFCLK_CLK for MCASP subsystems. [warm reset insensitive]"
bitfld.long 0x00 0.--2. " CLKSEL     ,Selects the divider value - CLK_DIV_1. - CLK_DIV_2. - CLK_DIV_4. - CLK_DIV_8. - CLK_DIV_16. - RESERVED. - RESERVED1. - RESERVED2." "CLK_DIV_1,CLK_DIV_2,CLK_DIV_4,CLK_DIV_8,CLK_DIV_16,RESERVED,RESERVED1,RESERVED2"
group.long 0x44++0x3
line.long 0x00 "CM_CLKSEL_TIMER_SYS,Select the SYS CLK for TIMERS subsystems. [warm reset insensitive]"
bitfld.long 0x00 0. " CLKSEL     ,Selects the divider value - SYSCLK_DIV_1. - SYSCLK_DIV_2." "SYSCLK_DIV_1,SYSCLK_DIV_2"
group.long 0x48++0x3
line.long 0x00 "CM_CLKSEL_VIDEO1_MCASP_AUX,Select the VIDEO1_CLK for MCASP subsystems. [warm reset insensitive]"
bitfld.long 0x00 0.--2. " CLKSEL     ,Selects the divider value - CLK_DIV_1. - CLK_DIV_2. - CLK_DIV_4. - CLK_DIV_8. - CLK_DIV_16. - RESERVED. - RESERVED1. - RESERVED2." "CLK_DIV_1,CLK_DIV_2,CLK_DIV_4,CLK_DIV_8,CLK_DIV_16,RESERVED,RESERVED1,RESERVED2"
group.long 0x4C++0x3
line.long 0x00 "CM_CLKSEL_VIDEO1_TIMER,Select the VIDEO1_CLK for TIMER subsystems. [warm reset insensitive]"
bitfld.long 0x00 0.--2. " CLKSEL     ,Selects the divider value - CLK_DIV_1. - CLK_DIV_2. - CLK_DIV_4. - CLK_DIV_8. - CLK_DIV_16. - CLK_DIV_22. - CLK_DIV_32. - RESERVED." "CLK_DIV_1,CLK_DIV_2,CLK_DIV_4,CLK_DIV_8,CLK_DIV_16,CLK_DIV_22,CLK_DIV_32,RESERVED"
group.long 0x50++0x3
line.long 0x00 "CM_CLKSEL_VIDEO2_MCASP_AUX,Select the VIDEO2_CLK for MCASP subsystems. [warm reset insensitive]"
bitfld.long 0x00 0.--2. " CLKSEL     ,Selects the divider value - CLK_DIV_1. - CLK_DIV_2. - CLK_DIV_4. - CLK_DIV_8. - CLK_DIV_16. - RESERVED. - RESERVED1. - RESERVED2." "CLK_DIV_1,CLK_DIV_2,CLK_DIV_4,CLK_DIV_8,CLK_DIV_16,RESERVED,RESERVED1,RESERVED2"
group.long 0x54++0x3
line.long 0x00 "CM_CLKSEL_VIDEO2_TIMER,Select the VIDEO2_CLK for TIMER subsystems. [warm reset insensitive]"
bitfld.long 0x00 0.--2. " CLKSEL     ,Selects the divider value - CLK_DIV_1. - CLK_DIV_2. - CLK_DIV_4. - CLK_DIV_8. - CLK_DIV_16. - CLK_DIV_22. - CLK_DIV_32. - RESERVED." "CLK_DIV_1,CLK_DIV_2,CLK_DIV_4,CLK_DIV_8,CLK_DIV_16,CLK_DIV_22,CLK_DIV_32,RESERVED"
group.long 0x58++0x3
line.long 0x00 "CM_CLKSEL_CLKOUTMUX0,Control the source of the CLKOUTMUX0_CLK."
bitfld.long 0x00 0.--4. " CLKSEL     ,Select the source clock for CLKOUTMUX0_CLK. - SEL_SYS_CLK1. - SEL_SYS_CLK2. - SEL_DPLL_ABE_CLKOUT. - SEL_DPLL_MPU_CLKOUT. - SEL_DPLL_DSP_CLKOUT. - SEL_DPLL_IVA_CLKOUT. - SEL_DPLL_GPU_CLKOUT. - SEL_DPLL_CORE_CLKOUT. - SEL_DPLL_DDR_CLKOUT. -..." "SEL_SYS_CLK1,SEL_SYS_CLK2,SEL_DPLL_ABE_CLKOUT,SEL_DPLL_MPU_CLKOUT,SEL_DPLL_DSP_CLKOUT,SEL_DPLL_IVA_CLKOUT,SEL_DPLL_GPU_CLKOUT,SEL_DPLL_CORE_CLKOUT,SEL_DPLL_DDR_CLKOUT,SEL_DPLL_GMAC_CLKOUT,SEL_VIDEO2_CLKOUT,SEL_VIDEO1_CLKOUT,SEL_HDMI_CLKOUT,SEL_DPLL_PER_CLKOUT,SEL_DPLL_USB_CLKOUT,SEL_DPLL_USB_OTG_CLKOUT,SEL_DPLL_SATA_CLKOUT,SEL_DPLL_PCIE2_CLKOUT,SEL_DPLL_PCIE1_CLKOUT,SEL_DPLL_DEBUG_CLKOUT,SEL_RC_CLK,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x5C++0x3
line.long 0x00 "CM_CLKSEL_CLKOUTMUX1,Control the source of the CLKOUTMUX1_CLK."
bitfld.long 0x00 0.--4. " CLKSEL     ,Select the source clock for CLKOUTMUX1_CLK. - SEL_SYS_CLK1. - SEL_SYS_CLK2. - SEL_DPLL_ABE_CLKOUT. - SEL_DPLL_MPU_CLKOUT. - SEL_DPLL_DSP_CLKOUT. - SEL_DPLL_IVA_CLKOUT. - SEL_DPLL_GPU_CLKOUT. - SEL_DPLL_CORE_CLKOUT. - SEL_DPLL_DDR_CLKOUT. -..." "SEL_SYS_CLK1,SEL_SYS_CLK2,SEL_DPLL_ABE_CLKOUT,SEL_DPLL_MPU_CLKOUT,SEL_DPLL_DSP_CLKOUT,SEL_DPLL_IVA_CLKOUT,SEL_DPLL_GPU_CLKOUT,SEL_DPLL_CORE_CLKOUT,SEL_DPLL_DDR_CLKOUT,SEL_DPLL_GMAC_CLKOUT,SEL_VIDEO2_CLKOUT,SEL_VIDEO1_CLKOUT,SEL_HDMI_CLKOUT,SEL_DPLL_PER_CLKOUT,SEL_DPLL_USB_CLKOUT,SEL_DPLL_USB_OTG_CLKOUT,SEL_DPLL_SATA_CLKOUT,SEL_DPLL_PCIE2_CLKOUT,SEL_DPLL_PCIE1_CLKOUT,SEL_DPLL_DEBUG_CLKOUT,SEL_RC_CLK,SEL_DPLL_EVE_CLKOUT,22,23,24,25,26,27,28,29,30,31"
group.long 0x60++0x3
line.long 0x00 "CM_CLKSEL_CLKOUTMUX2,Control the source of the CLKOUTMUX2_CLK."
bitfld.long 0x00 0.--4. " CLKSEL     ,Select the source clock for CLKOUTMUX2_CLK. - SEL_SYS_CLK1. - SEL_SYS_CLK2. - SEL_DPLL_ABE_CLKOUT. - SEL_DPLL_MPU_CLKOUT. - SEL_DPLL_DSP_CLKOUT. - SEL_DPLL_IVA_CLKOUT. - SEL_DPLL_GPU_CLKOUT. - SEL_DPLL_CORE_CLKOUT. - SEL_DPLL_DDR_CLKOUT. -..." "SEL_SYS_CLK1,SEL_SYS_CLK2,SEL_DPLL_ABE_CLKOUT,SEL_DPLL_MPU_CLKOUT,SEL_DPLL_DSP_CLKOUT,SEL_DPLL_IVA_CLKOUT,SEL_DPLL_GPU_CLKOUT,SEL_DPLL_CORE_CLKOUT,SEL_DPLL_DDR_CLKOUT,SEL_DPLL_GMAC_CLKOUT,SEL_VIDEO2_CLKOUT,SEL_VIDEO1_CLKOUT,SEL_HDMI_CLKOUT,SEL_DPLL_PER_CLKOUT,SEL_DPLL_USB_CLKOUT,SEL_DPLL_USB_OTG_CLKOUT,SEL_DPLL_SATA_CLKOUT,SEL_DPLL_PCIE2_CLKOUT,SEL_DPLL_PCIE1_CLKOUT,SEL_DPLL_DEBUG_CLKOUT,SEL_RC_CLK,SEL_DPLL_EVE_CLKOUT,22,23,24,25,26,27,28,29,30,31"
group.long 0x64++0x3
line.long 0x00 "CM_CLKSEL_HDMI_PLL_SYS,Control the source of the SYS clock for DPLL_HDMI"
bitfld.long 0x00 0. " CLKSEL     ,Select the SYS clock for the DPLL_HDMI - SEL_SYS_CLK1. - SEL_SYS_CLK2." "SEL_SYS_CLK1,SEL_SYS_CLK2"
group.long 0x68++0x3
line.long 0x00 "CM_CLKSEL_VIDEO1_PLL_SYS,Control the source of the SYS clock for DPLL_VIDEO1"
bitfld.long 0x00 0. " CLKSEL     ,Select the SYS clock for the DPLL_VIDEO1. - SEL_SYS_CLK1. - SEL_SYS_CLK2." "SEL_SYS_CLK1,SEL_SYS_CLK2"
group.long 0x6C++0x3
line.long 0x00 "CM_CLKSEL_VIDEO2_PLL_SYS,Control the source of the SYS clock for DPLL_VIDEO1"
bitfld.long 0x00 0. " CLKSEL     ,Select the SYS clock for the DPLL_VIDEO2. - SEL_SYS_CLK1. - SEL_SYS_CLK2." "SEL_SYS_CLK1,SEL_SYS_CLK2"
group.long 0x70++0x3
line.long 0x00 "CM_CLKSEL_ABE_CLK_DIV,Select the ABE_CLK. [warm reset insensitive]"
bitfld.long 0x00 0.--2. " CLKSEL     ,Selects the divider value - CLK_DIV_1. - CLK_DIV_2. - CLK_DIV_4. - CLK_DIV_8. - CLK_DIV_16. - RESERVED. - RESERVED1. - RESERVED2." "CLK_DIV_1,CLK_DIV_2,CLK_DIV_4,CLK_DIV_8,CLK_DIV_16,RESERVED,RESERVED1,RESERVED2"
group.long 0x74++0x3
line.long 0x00 "CM_CLKSEL_ABE_GICLK_DIV,Select the ABE_GICLK. [warm reset insensitive]"
bitfld.long 0x00 0. " CLKSEL     ,Selects the divider value - CLK_DIV_1. - CLK_DIV_2." "CLK_DIV_1,CLK_DIV_2"
group.long 0x78++0x3
line.long 0x00 "CM_CLKSEL_AESS_FCLK_DIV,Select the AESS_FCLK. [warm reset insensitive]"
bitfld.long 0x00 0. " CLKSEL     ,Selects the divider value - CLK_DIV_1. - CLK_DIV_2." "CLK_DIV_1,CLK_DIV_2"
group.long 0x80++0x3
line.long 0x00 "CM_CLKSEL_EVE_CLK,Control the source of the EVE_CLK for EVE1, EVE2, EVE3, EVE4"
bitfld.long 0x00 0. " CLKSEL     ,Select the EVE_CLK for EVE1, EVE2, EVE3, EVE4 - SEL_EVE_GFCLK. - SEL_EVE_GCLK." "SEL_EVE_GFCLK,SEL_EVE_GCLK"
group.long 0x84++0x3
line.long 0x00 "CM_CLKSEL_USB_OTG_CLK_CLKOUTMUX,Select the USB_OTG_CLK. [warm reset insensitive]"
bitfld.long 0x00 0.--2. " CLKSEL     ,Selects the divider value - CLK_DIV_1. - CLK_DIV_2. - CLK_DIV_4. - CLK_DIV_8. - CLK_DIV_16. - CLK_DIV_32. - RESERVED. - RESERVED1." "CLK_DIV_1,CLK_DIV_2,CLK_DIV_4,CLK_DIV_8,CLK_DIV_16,CLK_DIV_32,RESERVED,RESERVED1"
group.long 0x88++0x3
line.long 0x00 "CM_CLKSEL_CORE_DPLL_OUT_CLK_CLKOUTMUX,Select the CORE_DPLL_OUT_CLK. [warm reset insensitive]"
bitfld.long 0x00 0.--2. " CLKSEL     ,Selects the divider value - CLK_DIV_1. - CLK_DIV_2. - CLK_DIV_4. - CLK_DIV_8. - CLK_DIV_16. - CLK_DIV_32. - RESERVED. - RESERVED1." "CLK_DIV_1,CLK_DIV_2,CLK_DIV_4,CLK_DIV_8,CLK_DIV_16,CLK_DIV_32,RESERVED,RESERVED1"
group.long 0x8C++0x3
line.long 0x00 "CM_CLKSEL_DSP_GFCLK_CLKOUTMUX,Select the DSP_GFCLK. [warm reset insensitive]"
bitfld.long 0x00 0.--2. " CLKSEL     ,Selects the divider value - CLK_DIV_1. - CLK_DIV_2. - CLK_DIV_4. - CLK_DIV_8. - CLK_DIV_16. - CLK_DIV_32. - RESERVED. - RESERVED1." "CLK_DIV_1,CLK_DIV_2,CLK_DIV_4,CLK_DIV_8,CLK_DIV_16,CLK_DIV_32,RESERVED,RESERVED1"
group.long 0x90++0x3
line.long 0x00 "CM_CLKSEL_EMIF_PHY_GCLK_CLKOUTMUX,Select the EMIF_PHY_GCLK. [warm reset insensitive]"
bitfld.long 0x00 0.--2. " CLKSEL     ,Selects the divider value - CLK_DIV_1. - CLK_DIV_2. - CLK_DIV_4. - CLK_DIV_8. - CLK_DIV_16. - CLK_DIV_32. - RESERVED. - RESERVED1." "CLK_DIV_1,CLK_DIV_2,CLK_DIV_4,CLK_DIV_8,CLK_DIV_16,CLK_DIV_32,RESERVED,RESERVED1"
group.long 0x94++0x3
line.long 0x00 "CM_CLKSEL_EMU_CLK_CLKOUTMUX,Select the EMU_CLK. [warm reset insensitive]"
bitfld.long 0x00 0.--2. " CLKSEL     ,Selects the divider value - CLK_DIV_1. - CLK_DIV_2. - CLK_DIV_4. - CLK_DIV_8. - CLK_DIV_16. - CLK_DIV_32. - RESERVED. - RESERVED1." "CLK_DIV_1,CLK_DIV_2,CLK_DIV_4,CLK_DIV_8,CLK_DIV_16,CLK_DIV_32,RESERVED,RESERVED1"
group.long 0x98++0x3
line.long 0x00 "CM_CLKSEL_FUNC_96M_AON_CLK_CLKOUTMUX,Select the FUNC_96M_AON_CLK. [warm reset insensitive]"
bitfld.long 0x00 0.--2. " CLKSEL     ,Selects the divider value - CLK_DIV_1. - CLK_DIV_2. - CLK_DIV_4. - CLK_DIV_8. - CLK_DIV_16. - CLK_DIV_32. - RESERVED. - RESERVED1." "CLK_DIV_1,CLK_DIV_2,CLK_DIV_4,CLK_DIV_8,CLK_DIV_16,CLK_DIV_32,RESERVED,RESERVED1"
group.long 0x9C++0x3
line.long 0x00 "CM_CLKSEL_GMAC_250M_CLK_CLKOUTMUX,Select the GMAC_250M_CLK. [warm reset insensitive]"
bitfld.long 0x00 0.--2. " CLKSEL     ,Selects the divider value - CLK_DIV_1. - CLK_DIV_2. - CLK_DIV_4. - CLK_DIV_8. - CLK_DIV_16. - CLK_DIV_32. - RESERVED. - RESERVED1." "CLK_DIV_1,CLK_DIV_2,CLK_DIV_4,CLK_DIV_8,CLK_DIV_16,CLK_DIV_32,RESERVED,RESERVED1"
group.long 0xA0++0x3
line.long 0x00 "CM_CLKSEL_GPU_GCLK_CLKOUTMUX,Select the GPU_GCLK. [warm reset insensitive]"
bitfld.long 0x00 0.--2. " CLKSEL     ,Selects the divider value - CLK_DIV_1. - CLK_DIV_2. - CLK_DIV_4. - CLK_DIV_8. - CLK_DIV_16. - CLK_DIV_32. - RESERVED. - RESERVED1." "CLK_DIV_1,CLK_DIV_2,CLK_DIV_4,CLK_DIV_8,CLK_DIV_16,CLK_DIV_32,RESERVED,RESERVED1"
group.long 0xA4++0x3
line.long 0x00 "CM_CLKSEL_HDMI_CLK_CLKOUTMUX,Select the HDMI_CLK. [warm reset insensitive]"
bitfld.long 0x00 0.--2. " CLKSEL     ,Selects the divider value - CLK_DIV_1. - CLK_DIV_2. - CLK_DIV_4. - CLK_DIV_8. - CLK_DIV_16. - CLK_DIV_32. - RESERVED. - RESERVED1." "CLK_DIV_1,CLK_DIV_2,CLK_DIV_4,CLK_DIV_8,CLK_DIV_16,CLK_DIV_32,RESERVED,RESERVED1"
group.long 0xA8++0x3
line.long 0x00 "CM_CLKSEL_IVA_GCLK_CLKOUTMUX,Select the IVA_GCLK. [warm reset insensitive]"
bitfld.long 0x00 0.--2. " CLKSEL     ,Selects the divider value - CLK_DIV_1. - CLK_DIV_2. - CLK_DIV_4. - CLK_DIV_8. - CLK_DIV_16. - CLK_DIV_32. - RESERVED. - RESERVED1." "CLK_DIV_1,CLK_DIV_2,CLK_DIV_4,CLK_DIV_8,CLK_DIV_16,CLK_DIV_32,RESERVED,RESERVED1"
group.long 0xAC++0x3
line.long 0x00 "CM_CLKSEL_L3INIT_480M_GFCLK_CLKOUTMUX,Select the L3INIT_480M_GFCLK. [warm reset insensitive]"
bitfld.long 0x00 0.--2. " CLKSEL     ,Selects the divider value - CLK_DIV_1. - CLK_DIV_2. - CLK_DIV_4. - CLK_DIV_8. - CLK_DIV_16. - CLK_DIV_32. - RESERVED. - RESERVED1." "CLK_DIV_1,CLK_DIV_2,CLK_DIV_4,CLK_DIV_8,CLK_DIV_16,CLK_DIV_32,RESERVED,RESERVED1"
group.long 0xB0++0x3
line.long 0x00 "CM_CLKSEL_MPU_GCLK_CLKOUTMUX,Select the MPU_GCLK. [warm reset insensitive]"
bitfld.long 0x00 0.--2. " CLKSEL     ,Selects the divider value - CLK_DIV_1. - CLK_DIV_2. - CLK_DIV_4. - CLK_DIV_8. - CLK_DIV_16. - CLK_DIV_32. - RESERVED. - RESERVED1." "CLK_DIV_1,CLK_DIV_2,CLK_DIV_4,CLK_DIV_8,CLK_DIV_16,CLK_DIV_32,RESERVED,RESERVED1"
group.long 0xB4++0x3
line.long 0x00 "CM_CLKSEL_PCIE1_CLK_CLKOUTMUX,Select the PCIE1_DCLK, where APLL_PCIE_M2_CLK is the source clock of PCIE1_DCLK. [warm reset insensitive]"
bitfld.long 0x00 0.--2. " CLKSEL     ,Selects the divider value - CLK_DIV_1. - CLK_DIV_2. - CLK_DIV_4. - CLK_DIV_8. - CLK_DIV_16. - CLK_DIV_32. - RESERVED. - RESERVED1." "CLK_DIV_1,CLK_DIV_2,CLK_DIV_4,CLK_DIV_8,CLK_DIV_16,CLK_DIV_32,RESERVED,RESERVED1"
group.long 0xB8++0x3
line.long 0x00 "CM_CLKSEL_PCIE2_CLK_CLKOUTMUX,Select the PCIE2_DCLK, where PCIE_M2_CLK is the source clock of PCIE2_DCLK. [warm reset insensitive]"
bitfld.long 0x00 0.--2. " CLKSEL     ,Selects the divider value - CLK_DIV_1. - CLK_DIV_2. - CLK_DIV_4. - CLK_DIV_8. - CLK_DIV_16. - CLK_DIV_32. - RESERVED. - RESERVED1." "CLK_DIV_1,CLK_DIV_2,CLK_DIV_4,CLK_DIV_8,CLK_DIV_16,CLK_DIV_32,RESERVED,RESERVED1"
group.long 0xBC++0x3
line.long 0x00 "CM_CLKSEL_PER_ABE_X1_CLK_CLKOUTMUX,Select the PER_ABE_X1_CLK. [warm reset insensitive]"
bitfld.long 0x00 0.--2. " CLKSEL     ,Selects the divider value - CLK_DIV_1. - CLK_DIV_2. - CLK_DIV_4. - CLK_DIV_8. - CLK_DIV_16. - CLK_DIV_32. - RESERVED. - RESERVED1." "CLK_DIV_1,CLK_DIV_2,CLK_DIV_4,CLK_DIV_8,CLK_DIV_16,CLK_DIV_32,RESERVED,RESERVED1"
group.long 0xC0++0x3
line.long 0x00 "CM_CLKSEL_SATA_CLK_CLKOUTMUX,Select the SATA_CLK. [warm reset insensitive]"
bitfld.long 0x00 0.--2. " CLKSEL     ,Selects the divider value - CLK_DIV_1. - CLK_DIV_2. - CLK_DIV_4. - CLK_DIV_8. - CLK_DIV_16. - CLK_DIV_32. - RESERVED. - RESERVED1." "CLK_DIV_1,CLK_DIV_2,CLK_DIV_4,CLK_DIV_8,CLK_DIV_16,CLK_DIV_32,RESERVED,RESERVED1"
group.long 0xC4++0x3
line.long 0x00 "CM_CLKSEL_OSC_32K_CLK_CLKOUTMUX,Select the OSC_32K_CLK [warm reset insensitive]"
bitfld.long 0x00 0.--2. " CLKSEL     ,Selects the divider value - RESERVED. - CLK_DIV_2. - RESERVED1. - CLK_DIV_1. - CLK_DIV_4. - CLK_DIV_16. - CLK_DIV_32. - CLK_DIV_8." "RESERVED,CLK_DIV_2,RESERVED1,CLK_DIV_1,CLK_DIV_4,CLK_DIV_16,CLK_DIV_32,CLK_DIV_8"
group.long 0xC8++0x3
line.long 0x00 "CM_CLKSEL_SYS_CLK1_CLKOUTMUX,Select the SYS_CLK1. [warm reset insensitive]"
bitfld.long 0x00 0.--2. " CLKSEL     ,Selects the divider value - CLK_DIV_1. - CLK_DIV_2. - CLK_DIV_4. - CLK_DIV_8. - CLK_DIV_16. - CLK_DIV_32. - RESERVED. - RESERVED1." "CLK_DIV_1,CLK_DIV_2,CLK_DIV_4,CLK_DIV_8,CLK_DIV_16,CLK_DIV_32,RESERVED,RESERVED1"
group.long 0xCC++0x3
line.long 0x00 "CM_CLKSEL_SYS_CLK2_CLKOUTMUX,Select the SYS_CLK2. [warm reset insensitive]"
bitfld.long 0x00 0.--2. " CLKSEL     ,Selects the divider value - CLK_DIV_1. - CLK_DIV_2. - CLK_DIV_4. - CLK_DIV_8. - CLK_DIV_16. - CLK_DIV_32. - RESERVED. - RESERVED1." "CLK_DIV_1,CLK_DIV_2,CLK_DIV_4,CLK_DIV_8,CLK_DIV_16,CLK_DIV_32,RESERVED,RESERVED1"
group.long 0xD0++0x3
line.long 0x00 "CM_CLKSEL_VIDEO1_CLK_CLKOUTMUX,Select the VIDEO1_CLK. [warm reset insensitive]"
bitfld.long 0x00 0.--2. " CLKSEL     ,Selects the divider value - CLK_DIV_1. - CLK_DIV_2. - CLK_DIV_4. - CLK_DIV_8. - CLK_DIV_16. - CLK_DIV_32. - RESERVED. - RESERVED1." "CLK_DIV_1,CLK_DIV_2,CLK_DIV_4,CLK_DIV_8,CLK_DIV_16,CLK_DIV_32,RESERVED,RESERVED1"
group.long 0xD4++0x3
line.long 0x00 "CM_CLKSEL_VIDEO2_CLK_CLKOUTMUX,Select the VIDEO2_CLK. [warm reset insensitive]"
bitfld.long 0x00 0.--2. " CLKSEL     ,Selects the divider value - CLK_DIV_1. - CLK_DIV_2. - CLK_DIV_4. - CLK_DIV_8. - CLK_DIV_16. - CLK_DIV_32. - RESERVED. - RESERVED1." "CLK_DIV_1,CLK_DIV_2,CLK_DIV_4,CLK_DIV_8,CLK_DIV_16,CLK_DIV_32,RESERVED,RESERVED1"
group.long 0xD8++0x3
line.long 0x00 "CM_CLKSEL_ABE_LP_CLK,Select the ABE_LP_CLK. [warm reset insensitive]"
bitfld.long 0x00 0. " CLKSEL     ,Selects the divider value - CLK_DIV_16. - CLK_DIV_32." "CLK_DIV_16,CLK_DIV_32"
group.long 0xE0++0x3
line.long 0x00 "CM_CLKSEL_EVE_GFCLK_CLKOUTMUX,Select the EVE_GFCLK. [warm reset insensitive]"
bitfld.long 0x00 0.--2. " CLKSEL     ,Selects the divider value - CLK_DIV_1. - CLK_DIV_2. - CLK_DIV_4. - CLK_DIV_8. - CLK_DIV_16. - CLK_DIV_32. - RESERVED. - RESERVED1." "CLK_DIV_1,CLK_DIV_2,CLK_DIV_4,CLK_DIV_8,CLK_DIV_16,CLK_DIV_32,RESERVED,RESERVED1"
width 0x0B
tree.end
tree "CAM_PRM"
base ad:0x4AE07000
width 21.
group.long 0x0++0x3
line.long 0x00 "PM_CAM_PWRSTCTRL,This register controls the CAM power state to reach upon a domain sleep transition"
bitfld.long 0x00 16.--17. " VIP_BANK_ONSTATE      ,VIP_BANK memory state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
bitfld.long 0x00 4. "      LOWPOWERSTATECHANGE ,Power state change request when domain has already performed a sleep transition. Allows going into deeper low power state without waking up the power domain. - DIS. - EN." "DIS,EN"
bitfld.long 0x00 0.--1. "                     POWERSTATE        ,Power state control - OFF. - RESERVED. - INACT. - ON." "OFF,RESERVED,INACT,ON"
group.long 0x4++0x3
line.long 0x00 "PM_CAM_PWRSTST,This register provides a status on the current CAM power domain state. [warm reset insensitive]"
bitfld.long 0x00 24.--25. " LASTPOWERSTATEENTERED ,Last low power state entered. Set to 0x3 upon write of the same only. This register is intended for debug purpose only. - OFF. - RET. - INACTIVE. - ON." "OFF,RET,INACTIVE,ON"
bitfld.long 0x00 20. "    INTRANSITION        ,Domain transition status - NO. - ONGOING." "NO,ONGOING"
bitfld.long 0x00 4.--5. "                 VIP_BANK_STATEST  ,VIP_BANK memory state status - MEM_OFF. - RESERVED1. - RESERVED. - MEM_ON." "MEM_OFF,RESERVED1,RESERVED,MEM_ON"
textline "                              "
bitfld.long 0x00 2. " LOGICSTATEST          ,Logic state status - OFF. - ON." "OFF,ON"
bitfld.long 0x00 0.--1. "         POWERSTATEST        ,Current power state status - OFF. - RESERVED. - INACTIVE. - ON." "OFF,RESERVED,INACTIVE,ON"
group.long 0x20++0x3
line.long 0x00 "PM_CAM_VIP1_WKDEP,This register controls wakeup dependency based on VIP1 service requests."
bitfld.long 0x00 9. " WKUPDEP_VIP1_EVE4     ,Wakeup dependency from VIP1 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "    WKUPDEP_VIP1_EVE3   ,Wakeup dependency from VIP1 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_VIP1_EVE2 ,Wakeup dependency from VIP1 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                              "
bitfld.long 0x00 6. " WKUPDEP_VIP1_EVE1     ,Wakeup dependency from VIP1 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "    WKUPDEP_VIP1_DSP2   ,Wakeup dependency from VIP1 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_VIP1_IPU1 ,Wakeup dependency from VIP1 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                              "
bitfld.long 0x00 2. " WKUPDEP_VIP1_DSP1     ,Wakeup dependency from VIP1 module (SWakeup signal) towards DSP + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "    WKUPDEP_VIP1_IPU2   ,Wakeup dependency from VIP1 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_VIP1_MPU  ,Wakeup dependency from VIP1 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x24++0x3
line.long 0x00 "RM_CAM_VIP1_CONTEXT,This register contains dedicated VIP1 context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_VIP_BANK      ,Specify if memory-based context in VIP_MEM memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "  LOSTCONTEXT_DFF     ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CAM_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x28++0x3
line.long 0x00 "PM_CAM_VIP2_WKDEP,This register controls wakeup dependency based on VIP2 service requests."
bitfld.long 0x00 9. " WKUPDEP_VIP2_EVE4     ,Wakeup dependency from VIP2 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "    WKUPDEP_VIP2_EVE3   ,Wakeup dependency from VIP2 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_VIP2_EVE2 ,Wakeup dependency from VIP2 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                              "
bitfld.long 0x00 6. " WKUPDEP_VIP2_EVE1     ,Wakeup dependency from VIP2 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "    WKUPDEP_VIP2_DSP2   ,Wakeup dependency from VIP2 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_VIP2_IPU1 ,Wakeup dependency from VIP2 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                              "
bitfld.long 0x00 2. " WKUPDEP_VIP2_DSP1     ,Wakeup dependency from VIP2 module (SWakeup signal) towards DSP + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "    WKUPDEP_VIP2_IPU2   ,Wakeup dependency from VIP2 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_VIP2_MPU  ,Wakeup dependency from VIP2 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x2C++0x3
line.long 0x00 "RM_CAM_VIP2_CONTEXT,This register contains dedicated VIP2 context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_VIP_BANK      ,Specify if memory-based context in VIP_MEM memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "  LOSTCONTEXT_DFF     ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CAM_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x30++0x3
line.long 0x00 "PM_CAM_VIP3_WKDEP,This register controls wakeup dependency based on VIP3 service requests."
bitfld.long 0x00 9. " WKUPDEP_VIP3_EVE4     ,Wakeup dependency from VIP3 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "    WKUPDEP_VIP3_EVE3   ,Wakeup dependency from VIP3 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_VIP3_EVE2 ,Wakeup dependency from VIP3 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                              "
bitfld.long 0x00 6. " WKUPDEP_VIP3_EVE1     ,Wakeup dependency from VIP3 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "    WKUPDEP_VIP3_DSP2   ,Wakeup dependency from VIP3 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_VIP3_IPU1 ,Wakeup dependency from VIP3 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                              "
bitfld.long 0x00 2. " WKUPDEP_VIP3_DSP1     ,Wakeup dependency from VIP3 module (SWakeup signal) towards DSP + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "    WKUPDEP_VIP3_IPU2   ,Wakeup dependency from VIP3 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_VIP3_MPU  ,Wakeup dependency from VIP3 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x34++0x3
line.long 0x00 "RM_CAM_VIP3_CONTEXT,This register contains dedicated VIP3 context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_VIP_BANK      ,Specify if memory-based context in VIP_MEM memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "  LOSTCONTEXT_DFF     ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CAM_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
width 0x0B
tree.end
tree "CM_CORE__L4PER"
base ad:0x4A009700
width 29.
group.long 0x0++0x3
line.long 0x00 "CM_L4PER_CLKSTCTRL,This register enables the domain power state transition. It controls the HW supervised domain power state transition between ON-ACTIVE and ON-INACTIVE states. It also hold one status bit per clock input of the domain."
bitfld.long 0x00 27. " CLKACTIVITY_L4PER_32K_GFCLK  ,This field indicates the state of the L4PER_32K_FCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 26. "                  CLKACTIVITY_UART5_GFCLK      ,This field indicates the state of the UART5_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 24. "                   CLKACTIVITY_GPIO_GFCLK       ,This field indicates the state of the GPIO_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                                      "
bitfld.long 0x00 23. " CLKACTIVITY_MMC4_GFCLK       ,This field indicates the state of the MMC4_GFCLK clock in the domain. [warm reset insensitive] - . - ." "0,1"
bitfld.long 0x00 22. "                      CLKACTIVITY_MMC3_GFCLK       ,This field indicates the state of the MMC3_GFCLK clock in the domain. [warm reset insensitive] - . - ." "0,1"
bitfld.long 0x00 21. "                       CLKACTIVITY_PER_96M_GFCLK    ,This field indicates the state of the PER_96M_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                                      "
bitfld.long 0x00 20. " CLKACTIVITY_PER_48M_GFCLK    ,This field indicates the state of the PER_48M_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 18. "                  CLKACTIVITY_UART4_GFCLK      ,This field indicates the state of the UART4_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 17. "                   CLKACTIVITY_UART3_GFCLK      ,This field indicates the state of the UART3_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                                      "
bitfld.long 0x00 16. " CLKACTIVITY_UART2_GFCLK      ,This field indicates the state of the UART2_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 15. "                  CLKACTIVITY_UART1_GFCLK      ,This field indicates the state of the UART1_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 14. "                   CLKACTIVITY_TIMER9_GFCLK     ,This field indicates the state of the DMT9_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                                      "
bitfld.long 0x00 13. " CLKACTIVITY_TIMER4_GFCLK     ,This field indicates the state of the DMT4_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 12. "                  CLKACTIVITY_TIMER3_GFCLK     ,This field indicates the state of the DMT3_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 11. "                   CLKACTIVITY_TIMER2_GFCLK     ,This field indicates the state of the DMT2_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                                      "
bitfld.long 0x00 10. " CLKACTIVITY_TIMER11_GFCLK    ,This field indicates the state of the DMT11_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 9. "                  CLKACTIVITY_TIMER10_GFCLK    ,This field indicates the state of the DMT10_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 8. "                   CLKACTIVITY_L4PER_L3_GICLK   ,This field indicates the state of the L4PER_L3_GICLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                                      "
bitfld.long 0x00 0.--1. " CLKTRCTRL                    ,Controls the clock state transition of the L4PER clock domain. - NO_SLEEP. - SW_SLEEP. - SW_WKUP. - HW_AUTO." "NO_SLEEP,SW_SLEEP,SW_WKUP,HW_AUTO"
group.long 0x8++0x3
line.long 0x00 "CM_L4PER_DYNAMICDEP,This register controls the dynamic domain depedencies from L4PER domain towards 'target' domains. It is relevant only for domain having OCP master port(s)."
bitfld.long 0x00 24.--27. " WINDOWSIZE                   ,Size of sliding window used to monitor OCP interface activity for determination of auto-sleep feature. Time unit defined byCM_DYN_DEP_PRESCAL register." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 14. "                     L4SEC_DYNDEP                 ,Dynamic dependency towards L4SEC clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 8. "                 DSS_DYNDEP                   ,Dynamic dependency towards DSS clock domain - ENABLED." "0,ENABLED"
textline "                                      "
bitfld.long 0x00 7. " L3INIT_DYNDEP                ,Dynamic dependency towards L3INIT clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 3. "                IPU_DYNDEP                   ,Dynamic dependency towards IPU clock domain - ENABLED." "0,ENABLED"
rgroup.long 0xC++0x3
line.long 0x00 "CM_L4PER2_L4_PER2_CLKCTRL,This register manages the L4_PER2 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                MODULEMODE                   ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
rgroup.long 0x14++0x3
line.long 0x00 "CM_L4PER3_L4_PER3_CLKCTRL,This register manages the L4_PER3 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                MODULEMODE                   ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
group.long 0x18++0x3
line.long 0x00 "CM_L4PER2_PRUSS1_CLKCTRL,This register manages the PRU-ICSS clocks."
bitfld.long 0x00 18. " STBYST                       ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
bitfld.long 0x00 16.--17. "                IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                 MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x28++0x3
line.long 0x00 "CM_L4PER_TIMER10_CLKCTRL,This register manages the TIMER10 clocks."
bitfld.long 0x00 24.--27. " CLKSEL                       ,Select the source of the functional clock - SEL_TIMER_SYS_CLK. - SEL_SYS_CLK1_32K_CLK. - SEL_SYS_CLK2. - SEL_XREF_CLK0. - SEL_XREF_CLK1. - SEL_XREF_CLK2. - SEL_XREF_CLK3. - SEL_ABE_GICLK. - SEL_VIDEO1_CLK. - SEL_VIDEO2_CL..." "SEL_TIMER_SYS_CLK,SEL_SYS_CLK1_32K_CLK,SEL_SYS_CLK2,SEL_XREF_CLK0,SEL_XREF_CLK1,SEL_XREF_CLK2,SEL_XREF_CLK3,SEL_ABE_GICLK,SEL_VIDEO1_CLK,SEL_VIDEO2_CLK,SEL_HDMI_CLK,11,12,13,14,15"
bitfld.long 0x00 16.--17. "   IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                 MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x30++0x3
line.long 0x00 "CM_L4PER_TIMER11_CLKCTRL,This register manages the TIMER11 clocks."
bitfld.long 0x00 24.--27. " CLKSEL                       ,Select the source of the functional clock - SEL_TIMER_SYS_CLK. - SEL_SYS_CLK1_32K_CLK. - SEL_SYS_CLK2. - SEL_XREF_CLK0. - SEL_XREF_CLK1. - SEL_XREF_CLK2. - SEL_XREF_CLK3. - SEL_ABE_GICLK. - SEL_VIDEO1_CLK. - SEL_VIDEO2_CL..." "SEL_TIMER_SYS_CLK,SEL_SYS_CLK1_32K_CLK,SEL_SYS_CLK2,SEL_XREF_CLK0,SEL_XREF_CLK1,SEL_XREF_CLK2,SEL_XREF_CLK3,SEL_ABE_GICLK,SEL_VIDEO1_CLK,SEL_VIDEO2_CLK,SEL_HDMI_CLK,11,12,13,14,15"
bitfld.long 0x00 16.--17. "   IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                 MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x38++0x3
line.long 0x00 "CM_L4PER_TIMER2_CLKCTRL,This register manages the TIMER2 clocks."
bitfld.long 0x00 24.--27. " CLKSEL                       ,Select the source of the functional clock - SEL_TIMER_SYS_CLK. - SEL_SYS_CLK1_32K_CLK. - SEL_SYS_CLK2. - SEL_XREF_CLK0. - SEL_XREF_CLK1. - SEL_XREF_CLK2. - SEL_XREF_CLK3. - SEL_ABE_GICLK. - SEL_VIDEO1_CLK. - SEL_VIDEO2_CL..." "SEL_TIMER_SYS_CLK,SEL_SYS_CLK1_32K_CLK,SEL_SYS_CLK2,SEL_XREF_CLK0,SEL_XREF_CLK1,SEL_XREF_CLK2,SEL_XREF_CLK3,SEL_ABE_GICLK,SEL_VIDEO1_CLK,SEL_VIDEO2_CLK,SEL_HDMI_CLK,11,12,13,14,15"
bitfld.long 0x00 16.--17. "   IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                 MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x40++0x3
line.long 0x00 "CM_L4PER_TIMER3_CLKCTRL,This register manages the TIMER3 clocks."
bitfld.long 0x00 24.--27. " CLKSEL                       ,Select the source of the functional clock - SEL_TIMER_SYS_CLK. - SEL_SYS_CLK1_32K_CLK. - SEL_SYS_CLK2. - SEL_XREF_CLK0. - SEL_XREF_CLK1. - SEL_XREF_CLK2. - SEL_XREF_CLK3. - SEL_PER_ABE_X1_GFCLK. - SEL_VIDEO1_CLK. - SEL_VI..." "SEL_TIMER_SYS_CLK,SEL_SYS_CLK1_32K_CLK,SEL_SYS_CLK2,SEL_XREF_CLK0,SEL_XREF_CLK1,SEL_XREF_CLK2,SEL_XREF_CLK3,SEL_PER_ABE_X1_GFCLK,SEL_VIDEO1_CLK,SEL_VIDEO2_CLK,SEL_HDMI_CLK,11,12,13,14,15"
bitfld.long 0x00 16.--17. "   IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                 MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x48++0x3
line.long 0x00 "CM_L4PER_TIMER4_CLKCTRL,This register manages the TIMER4 clocks."
bitfld.long 0x00 24.--27. " CLKSEL                       ,Select the source of the functional clock - SEL_TIMER_SYS_CLK. - SEL_SYS_CLK1_32K_CLK. - SEL_SYS_CLK2. - SEL_XREF_CLK0. - SEL_XREF_CLK1. - SEL_XREF_CLK2. - SEL_XREF_CLK3. - SEL_PER_ABE_X1_GFCLK. - SEL_VIDEO1_CLK. - SEL_VI..." "SEL_TIMER_SYS_CLK,SEL_SYS_CLK1_32K_CLK,SEL_SYS_CLK2,SEL_XREF_CLK0,SEL_XREF_CLK1,SEL_XREF_CLK2,SEL_XREF_CLK3,SEL_PER_ABE_X1_GFCLK,SEL_VIDEO1_CLK,SEL_VIDEO2_CLK,SEL_HDMI_CLK,11,12,13,14,15"
bitfld.long 0x00 16.--17. "   IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                 MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x50++0x3
line.long 0x00 "CM_L4PER_TIMER9_CLKCTRL,This register manages the TIMER9 clocks."
bitfld.long 0x00 24.--27. " CLKSEL                       ,Select the source of the functional clock - SEL_TIMER_SYS_CLK. - SEL_SYS_CLK1_32K_CLK. - SEL_SYS_CLK2. - SEL_XREF_CLK0. - SEL_XREF_CLK1. - SEL_XREF_CLK2. - SEL_XREF_CLK3. - SEL_PER_ABE_X1_GFCLK. - SEL_VIDEO1_CLK. - SEL_VI..." "SEL_TIMER_SYS_CLK,SEL_SYS_CLK1_32K_CLK,SEL_SYS_CLK2,SEL_XREF_CLK0,SEL_XREF_CLK1,SEL_XREF_CLK2,SEL_XREF_CLK3,SEL_PER_ABE_X1_GFCLK,SEL_VIDEO1_CLK,SEL_VIDEO2_CLK,SEL_HDMI_CLK,11,12,13,14,15"
bitfld.long 0x00 16.--17. "   IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                 MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
rgroup.long 0x58++0x3
line.long 0x00 "CM_L4PER_ELM_CLKCTRL,This register manages the ELM clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                MODULEMODE                   ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
group.long 0x60++0x3
line.long 0x00 "CM_L4PER_GPIO2_CLKCTRL,This register manages the GPIO2 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 8. "                OPTFCLKEN_DBCLK              ,Optional functional clock control. - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
bitfld.long 0x00 0.--1. "                MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
group.long 0x68++0x3
line.long 0x00 "CM_L4PER_GPIO3_CLKCTRL,This register manages the GPIO3 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 8. "                OPTFCLKEN_DBCLK              ,Optional functional clock control. - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
bitfld.long 0x00 0.--1. "                MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
group.long 0x70++0x3
line.long 0x00 "CM_L4PER_GPIO4_CLKCTRL,This register manages the GPIO4 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 8. "                OPTFCLKEN_DBCLK              ,Optional functional clock control. - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
bitfld.long 0x00 0.--1. "                MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
group.long 0x78++0x3
line.long 0x00 "CM_L4PER_GPIO5_CLKCTRL,This register manages the GPIO5 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 8. "                OPTFCLKEN_DBCLK              ,Optional functional clock control. - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
bitfld.long 0x00 0.--1. "                MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
group.long 0x80++0x3
line.long 0x00 "CM_L4PER_GPIO6_CLKCTRL,This register manages the GPIO6 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 8. "                OPTFCLKEN_DBCLK              ,Optional functional clock control. - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
bitfld.long 0x00 0.--1. "                MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
group.long 0x90++0x3
line.long 0x00 "CM_L4PER2_PWMSS2_CLKCTRL,This register manages the PWMSS2 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x98++0x3
line.long 0x00 "CM_L4PER2_PWMSS3_CLKCTRL,This register manages the PWMSS3 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0xA0++0x3
line.long 0x00 "CM_L4PER_I2C1_CLKCTRL,This register manages the I2C1 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0xA8++0x3
line.long 0x00 "CM_L4PER_I2C2_CLKCTRL,This register manages the I2C2 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0xB0++0x3
line.long 0x00 "CM_L4PER_I2C3_CLKCTRL,This register manages the I2C3 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0xB8++0x3
line.long 0x00 "CM_L4PER_I2C4_CLKCTRL,This register manages the I2C4 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
rgroup.long 0xC0++0x3
line.long 0x00 "CM_L4PER_L4_PER1_CLKCTRL,This register manages the L4_PER1 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                MODULEMODE                   ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
group.long 0xC4++0x3
line.long 0x00 "CM_L4PER2_PWMSS1_CLKCTRL,This register manages the PWMSS1 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0xC8++0x3
line.long 0x00 "CM_L4PER3_TIMER13_CLKCTRL,This register manages the TIMER13 clocks."
bitfld.long 0x00 24.--27. " CLKSEL                       ,Select the source of the functional clock - SEL_TIMER_SYS_CLK. - SEL_SYS_CLK1_32K_CLK. - SEL_SYS_CLK2. - SEL_XREF_CLK0. - SEL_XREF_CLK1. - SEL_XREF_CLK2. - SEL_XREF_CLK3. - SEL_PER_ABE_X1_GFCLK. - SEL_VIDEO1_CLK. - SEL_VI..." "SEL_TIMER_SYS_CLK,SEL_SYS_CLK1_32K_CLK,SEL_SYS_CLK2,SEL_XREF_CLK0,SEL_XREF_CLK1,SEL_XREF_CLK2,SEL_XREF_CLK3,SEL_PER_ABE_X1_GFCLK,SEL_VIDEO1_CLK,SEL_VIDEO2_CLK,SEL_HDMI_CLK,11,12,13,14,15"
bitfld.long 0x00 16.--17. "   IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                 MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0xD0++0x3
line.long 0x00 "CM_L4PER3_TIMER14_CLKCTRL,This register manages the TIMER14 clocks."
bitfld.long 0x00 24.--27. " CLKSEL                       ,Select the source of the functional clock - SEL_TIMER_SYS_CLK. - SEL_SYS_CLK1_32K_CLK. - SEL_SYS_CLK2. - SEL_XREF_CLK0. - SEL_XREF_CLK1. - SEL_XREF_CLK2. - SEL_XREF_CLK3. - SEL_PER_ABE_X1_GFCLK. - SEL_VIDEO1_CLK. - SEL_VI..." "SEL_TIMER_SYS_CLK,SEL_SYS_CLK1_32K_CLK,SEL_SYS_CLK2,SEL_XREF_CLK0,SEL_XREF_CLK1,SEL_XREF_CLK2,SEL_XREF_CLK3,SEL_PER_ABE_X1_GFCLK,SEL_VIDEO1_CLK,SEL_VIDEO2_CLK,SEL_HDMI_CLK,11,12,13,14,15"
bitfld.long 0x00 16.--17. "   IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                 MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0xD8++0x3
line.long 0x00 "CM_L4PER3_TIMER15_CLKCTRL,This register manages the TIMER15 clocks."
bitfld.long 0x00 24.--27. " CLKSEL                       ,Select the source of the functional clock - SEL_TIMER_SYS_CLK. - SEL_SYS_CLK1_32K_CLK. - SEL_SYS_CLK2. - SEL_XREF_CLK0. - SEL_XREF_CLK1. - SEL_XREF_CLK2. - SEL_XREF_CLK3. - SEL_PER_ABE_X1_GFCLK. - SEL_VIDEO1_CLK. - SEL_VI..." "SEL_TIMER_SYS_CLK,SEL_SYS_CLK1_32K_CLK,SEL_SYS_CLK2,SEL_XREF_CLK0,SEL_XREF_CLK1,SEL_XREF_CLK2,SEL_XREF_CLK3,SEL_PER_ABE_X1_GFCLK,SEL_VIDEO1_CLK,SEL_VIDEO2_CLK,SEL_HDMI_CLK,11,12,13,14,15"
bitfld.long 0x00 16.--17. "   IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                 MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0xF0++0x3
line.long 0x00 "CM_L4PER_MCSPI1_CLKCTRL,This register manages the MCSPI1 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0xF8++0x3
line.long 0x00 "CM_L4PER_MCSPI2_CLKCTRL,This register manages the MCSPI2 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x100++0x3
line.long 0x00 "CM_L4PER_MCSPI3_CLKCTRL,This register manages the MCSPI3 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x108++0x3
line.long 0x00 "CM_L4PER_MCSPI4_CLKCTRL,This register manages the MCSPI4 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x110++0x3
line.long 0x00 "CM_L4PER_GPIO7_CLKCTRL,This register manages the GPIO7 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 8. "                OPTFCLKEN_DBCLK              ,Optional functional clock control. - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
bitfld.long 0x00 0.--1. "                MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
group.long 0x118++0x3
line.long 0x00 "CM_L4PER_GPIO8_CLKCTRL,This register manages the GPIO8 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 8. "                OPTFCLKEN_DBCLK              ,Optional functional clock control. - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
bitfld.long 0x00 0.--1. "                MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
group.long 0x120++0x3
line.long 0x00 "CM_L4PER_MMC3_CLKCTRL,This register manages the MMC3 clocks."
bitfld.long 0x00 25.--26. " CLKSEL_DIV                   ,Selects the divider value - MMCCLK_DIV_1. - MMCCLK_DIV_2. - MMCCLK_DIV_4. - RESERVED." "MMCCLK_DIV_1,MMCCLK_DIV_2,MMCCLK_DIV_4,RESERVED"
bitfld.long 0x00 24. "           CLKSEL_MUX                   ,Select the clock for the MMC from DPLL_PER. - SEL_FUNC_48M_CLK. - SEL_FUNC_192M_CLK." "SEL_FUNC_48M_CLK,SEL_FUNC_192M_CLK"
bitfld.long 0x00 16.--17. "       IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
textline "                                      "
bitfld.long 0x00 8. " OPTFCLKEN_CLK32K             ,MMC optional clock control: 32K CLK - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
bitfld.long 0x00 0.--1. "               MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x128++0x3
line.long 0x00 "CM_L4PER_MMC4_CLKCTRL,This register manages the MMC4 clocks."
bitfld.long 0x00 25.--26. " CLKSEL_DIV                   ,Selects the divider value - MMCCLK_DIV_1. - MMCCLK_DIV_2. - MMCCLK_DIV_4. - RESERVED." "MMCCLK_DIV_1,MMCCLK_DIV_2,MMCCLK_DIV_4,RESERVED"
bitfld.long 0x00 24. "           CLKSEL_MUX                   ,Select the clock for the MMC from DPLL_PER. - SEL_FUNC_48M_CLK. - SEL_FUNC_192M_CLK." "SEL_FUNC_48M_CLK,SEL_FUNC_192M_CLK"
bitfld.long 0x00 16.--17. "       IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
textline "                                      "
bitfld.long 0x00 8. " OPTFCLKEN_CLK32K             ,MMC optional clock control: 32K CLK - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
bitfld.long 0x00 0.--1. "               MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x130++0x3
line.long 0x00 "CM_L4PER3_TIMER16_CLKCTRL,This register manages the TIMER16 clocks."
bitfld.long 0x00 24.--27. " CLKSEL                       ,Select the source of the functional clock - SEL_TIMER_SYS_CLK. - SEL_SYS_CLK1_32K_CLK. - SEL_SYS_CLK2. - SEL_XREF_CLK0. - SEL_XREF_CLK1. - SEL_XREF_CLK2. - SEL_XREF_CLK3. - SEL_PER_ABE_X1_GFCLK. - SEL_VIDEO1_CLK. - SEL_VI..." "SEL_TIMER_SYS_CLK,SEL_SYS_CLK1_32K_CLK,SEL_SYS_CLK2,SEL_XREF_CLK0,SEL_XREF_CLK1,SEL_XREF_CLK2,SEL_XREF_CLK3,SEL_PER_ABE_X1_GFCLK,SEL_VIDEO1_CLK,SEL_VIDEO2_CLK,SEL_HDMI_CLK,11,12,13,14,15"
bitfld.long 0x00 16.--17. "   IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                 MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x138++0x3
line.long 0x00 "CM_L4PER2_QSPI_CLKCTRL,This register manages the QSPI clocks."
bitfld.long 0x00 25.--26. " CLKSEL_DIV                   ,QSPI clock divide ratio. - DIV1. - DIV2. - DIV4. - RESERVED." "DIV1,DIV2,DIV4,RESERVED"
bitfld.long 0x00 24. "               CLKSEL_SOURCE                ,Selects the source of the functional clock. - SEL_FUNC_128M_CLK. - SEL_PER_QSPI_CLK." "SEL_FUNC_128M_CLK,SEL_PER_QSPI_CLK"
bitfld.long 0x00 16.--17. "       IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
textline "                                      "
bitfld.long 0x00 0.--1. " MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLED. - RESERVED." "DISABLED,RESERVED_1,ENABLED,RESERVED"
group.long 0x140++0x3
line.long 0x00 "CM_L4PER_UART1_CLKCTRL,This register manages the UART1 clocks."
bitfld.long 0x00 24. " CLKSEL                       ,Selects functional clock for UART between FUNC_48M_FCLK and FUNC_192M_CLK - SEL_FUNC_48M_CLK. - SEL_FUNC_192M_CLK." "SEL_FUNC_48M_CLK,SEL_FUNC_192M_CLK"
bitfld.long 0x00 16.--17. "      IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                 MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x148++0x3
line.long 0x00 "CM_L4PER_UART2_CLKCTRL,This register manages the UART2 clocks."
bitfld.long 0x00 24. " CLKSEL                       ,Selects functional clock for UART between FUNC_48M_FCLK and FUNC_192M_CLK - SEL_FUNC_48M_CLK. - SEL_FUNC_192M_CLK." "SEL_FUNC_48M_CLK,SEL_FUNC_192M_CLK"
bitfld.long 0x00 16.--17. "      IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                 MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x150++0x3
line.long 0x00 "CM_L4PER_UART3_CLKCTRL,This register manages the UART3 clocks."
bitfld.long 0x00 24. " CLKSEL                       ,Selects functional clock for UART between FUNC_48M_FCLK and FUNC_192M_CLK - SEL_FUNC_48M_CLK. - SEL_FUNC_192M_CLK." "SEL_FUNC_48M_CLK,SEL_FUNC_192M_CLK"
bitfld.long 0x00 16.--17. "      IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                 MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x158++0x3
line.long 0x00 "CM_L4PER_UART4_CLKCTRL,This register manages the UART4 clocks."
bitfld.long 0x00 24. " CLKSEL                       ,Selects functional clock for UART between FUNC_48M_FCLK and FUNC_192M_CLK - SEL_FUNC_48M_CLK. - SEL_FUNC_192M_CLK." "SEL_FUNC_48M_CLK,SEL_FUNC_192M_CLK"
bitfld.long 0x00 16.--17. "      IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                 MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x160++0x3
line.long 0x00 "CM_L4PER2_MCASP2_CLKCTRL,This register manages the MCASP2 clocks."
bitfld.long 0x00 28.--31. " CLKSEL_AHCLKR                ,Selects reference clock for AHCLKR - SEL_ABE_24M_GFCLK. - SEL_ABE_SYS_CLK. - SEL_FUNC_24M_GFCLK. - SEL_ATL_CLK3. - SEL_ATL_CLK2. - SEL_ATL_CLK1. - SEL_ATL_CLK0. - SEL_SYS_SLK2. - SEL_XREF_CLK0. - SEL_XREF_CLK1. - SEL_XREF..." "SEL_ABE_24M_GFCLK,SEL_ABE_SYS_CLK,SEL_FUNC_24M_GFCLK,SEL_ATL_CLK3,SEL_ATL_CLK2,SEL_ATL_CLK1,SEL_ATL_CLK0,SEL_SYS_SLK2,SEL_XREF_CLK0,SEL_XREF_CLK1,SEL_XREF_CLK2,SEL_XREF_CLK3,SEL_MLB_CLK,SEL_MLBP_CLK,RESERVED,RESERVED1"
bitfld.long 0x00 24.--27. "     CLKSEL_AHCLKX                ,Selects reference clock for AHCLKX - SEL_ABE_24M_GFCLK. - SEL_ABE_SYS_CLK. - SEL_FUNC_24M_GFCLK. - SEL_ATL_CLK3. - SEL_ATL_CLK2. - SEL_ATL_CLK1. - SEL_ATL_CLK0. - SEL_SYS_SLK2. - SEL_XREF_CLK0. - SEL_XREF_CLK1. - SEL_..." "SEL_ABE_24M_GFCLK,SEL_ABE_SYS_CLK,SEL_FUNC_24M_GFCLK,SEL_ATL_CLK3,SEL_ATL_CLK2,SEL_ATL_CLK1,SEL_ATL_CLK0,SEL_SYS_SLK2,SEL_XREF_CLK0,SEL_XREF_CLK1,SEL_XREF_CLK2,SEL_XREF_CLK3,SEL_MLB_CLK,SEL_MLBP_CLK,RESERVED,RESERVED1"
bitfld.long 0x00 22.--23. "      CLKSEL_AUX_CLK               ,Selects the source of the AUX clock - SEL_PER_ABE_X1_GFCLK. - SEL_VIDEO1_CLK. - SEL_VIDEO2_CLK. - SEL_HDMI_CLK." "SEL_PER_ABE_X1_GFCLK,SEL_VIDEO1_CLK,SEL_VIDEO2_CLK,SEL_HDMI_CLK"
textline "                                      "
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x168++0x3
line.long 0x00 "CM_L4PER2_MCASP3_CLKCTRL,This register manages the MCASP3 clocks."
bitfld.long 0x00 24.--27. " CLKSEL_AHCLKX                ,Selects reference clock for AHCLKX - SEL_ABE_24M_GFCLK. - SEL_ABE_SYS_CLK. - SEL_FUNC_24M_GFCLK. - SEL_ATL_CLK3. - SEL_ATL_CLK2. - SEL_ATL_CLK1. - SEL_ATL_CLK0. - SEL_SYS_SLK2. - SEL_XREF_CLK0. - SEL_XREF_CLK1. - SEL_XREF..." "SEL_ABE_24M_GFCLK,SEL_ABE_SYS_CLK,SEL_FUNC_24M_GFCLK,SEL_ATL_CLK3,SEL_ATL_CLK2,SEL_ATL_CLK1,SEL_ATL_CLK0,SEL_SYS_SLK2,SEL_XREF_CLK0,SEL_XREF_CLK1,SEL_XREF_CLK2,SEL_XREF_CLK3,SEL_MLB_CLK,SEL_MLBP_CLK,RESERVED,RESERVED1"
bitfld.long 0x00 22.--23. "     CLKSEL_AUX_CLK               ,Selects the source of the AUX clock - SEL_PER_ABE_X1_GFCLK. - SEL_VIDEO1_CLK. - SEL_VIDEO2_CLK. - SEL_HDMI_CLK." "SEL_PER_ABE_X1_GFCLK,SEL_VIDEO1_CLK,SEL_VIDEO2_CLK,SEL_HDMI_CLK"
bitfld.long 0x00 16.--17. "    IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
textline "                                      "
bitfld.long 0x00 0.--1. " MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x170++0x3
line.long 0x00 "CM_L4PER_UART5_CLKCTRL,This register manages the UART5 clocks."
bitfld.long 0x00 24. " CLKSEL                       ,Selects functional clock for UART between FUNC_48M_FCLK and FUNC_192M_CLK - SEL_FUNC_48M_CLK. - SEL_FUNC_192M_CLK." "SEL_FUNC_48M_CLK,SEL_FUNC_192M_CLK"
bitfld.long 0x00 16.--17. "      IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                 MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x178++0x3
line.long 0x00 "CM_L4PER2_MCASP5_CLKCTRL,This register manages the MCASP5 clocks."
bitfld.long 0x00 24.--27. " CLKSEL_AHCLKX                ,Selects reference clock for AHCLKX - SEL_ABE_24M_GFCLK. - SEL_ABE_SYS_CLK. - SEL_FUNC_24M_GFCLK. - SEL_ATL_CLK3. - SEL_ATL_CLK2. - SEL_ATL_CLK1. - SEL_ATL_CLK0. - SEL_SYS_SLK2. - SEL_XREF_CLK0. - SEL_XREF_CLK1. - SEL_XREF..." "SEL_ABE_24M_GFCLK,SEL_ABE_SYS_CLK,SEL_FUNC_24M_GFCLK,SEL_ATL_CLK3,SEL_ATL_CLK2,SEL_ATL_CLK1,SEL_ATL_CLK0,SEL_SYS_SLK2,SEL_XREF_CLK0,SEL_XREF_CLK1,SEL_XREF_CLK2,SEL_XREF_CLK3,SEL_MLB_CLK,SEL_MLBP_CLK,RESERVED,RESERVED1"
bitfld.long 0x00 22.--23. "     CLKSEL_AUX_CLK               ,Selects the source of the AUX clock - SEL_PER_ABE_X1_GFCLK. - SEL_VIDEO1_CLK. - SEL_VIDEO2_CLK. - SEL_HDMI_CLK." "SEL_PER_ABE_X1_GFCLK,SEL_VIDEO1_CLK,SEL_VIDEO2_CLK,SEL_HDMI_CLK"
bitfld.long 0x00 16.--17. "    IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
textline "                                      "
bitfld.long 0x00 0.--1. " MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x180++0x3
line.long 0x00 "CM_L4SEC_CLKSTCTRL,This register enables the domain power state transition. It controls the HW supervised domain power state transition between ON-ACTIVE and ON-INACTIVE states. It also hold one status bit per clock input of the domain."
bitfld.long 0x00 8. " CLKACTIVITY_L4SEC_L3_GICLK   ,This field indicates the state of the L3_SECURE_GICLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 0.--1. "                  CLKTRCTRL                    ,Controls the clock state transition of the L4PER clock domain. - NO_SLEEP. - SW_SLEEP. - SW_WKUP. - HW_AUTO." "NO_SLEEP,SW_SLEEP,SW_WKUP,HW_AUTO"
group.long 0x184++0x3
line.long 0x00 "CM_L4SEC_STATICDEP,This register controls the static domain depedencies from L4SEC domain towards 'target' domains. It is relevant only for domain having system initiator(s)."
bitfld.long 0x00 13. " L4PER_STATDEP                ,Static dependency towards L4PER1 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "               L3MAIN1_STATDEP              ,Static dependency towards L3MAIN1 clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 4. "                 EMIF_STATDEP                 ,Static dependency towards EMIF clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
rgroup.long 0x188++0x3
line.long 0x00 "CM_L4SEC_DYNAMICDEP,This register controls the dynamic domain depedencies from L4SEC domain towards 'target' domains. It is relevant only for domain having OCP master port(s)."
bitfld.long 0x00 5. " L3MAIN1_DYNDEP               ,Dynamic dependency towards L3MAIN1 clock domain - DISABLED." "DISABLED,1"
group.long 0x190++0x3
line.long 0x00 "CM_L4PER2_MCASP8_CLKCTRL,This register manages the MCASP8 clocks."
bitfld.long 0x00 24.--27. " CLKSEL_AHCLKX                ,Selects reference clock for AHCLKX - SEL_ABE_24M_GFCLK. - SEL_ABE_SYS_CLK. - SEL_FUNC_24M_GFCLK. - SEL_ATL_CLK3. - SEL_ATL_CLK2. - SEL_ATL_CLK1. - SEL_ATL_CLK0. - SEL_SYS_SLK2. - SEL_XREF_CLK0. - SEL_XREF_CLK1. - SEL_XREF..." "SEL_ABE_24M_GFCLK,SEL_ABE_SYS_CLK,SEL_FUNC_24M_GFCLK,SEL_ATL_CLK3,SEL_ATL_CLK2,SEL_ATL_CLK1,SEL_ATL_CLK0,SEL_SYS_SLK2,SEL_XREF_CLK0,SEL_XREF_CLK1,SEL_XREF_CLK2,SEL_XREF_CLK3,SEL_MLB_CLK,SEL_MLBP_CLK,RESERVED,RESERVED1"
bitfld.long 0x00 22.--23. "     CLKSEL_AUX_CLK               ,Selects the source of the AUX clock - SEL_PER_ABE_X1_GFCLK. - SEL_VIDEO1_CLK. - SEL_VIDEO2_CLK. - SEL_HDMI_CLK." "SEL_PER_ABE_X1_GFCLK,SEL_VIDEO1_CLK,SEL_VIDEO2_CLK,SEL_HDMI_CLK"
bitfld.long 0x00 16.--17. "    IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
textline "                                      "
bitfld.long 0x00 0.--1. " MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x198++0x3
line.long 0x00 "CM_L4PER2_MCASP4_CLKCTRL,This register manages the MCASP4 clocks."
bitfld.long 0x00 24.--27. " CLKSEL_AHCLKX                ,Selects reference clock for AHCLKX - SEL_ABE_24M_GFCLK. - SEL_ABE_SYS_CLK. - SEL_FUNC_24M_GFCLK. - SEL_ATL_CLK3. - SEL_ATL_CLK2. - SEL_ATL_CLK1. - SEL_ATL_CLK0. - SEL_SYS_SLK2. - SEL_XREF_CLK0. - SEL_XREF_CLK1. - SEL_XREF..." "SEL_ABE_24M_GFCLK,SEL_ABE_SYS_CLK,SEL_FUNC_24M_GFCLK,SEL_ATL_CLK3,SEL_ATL_CLK2,SEL_ATL_CLK1,SEL_ATL_CLK0,SEL_SYS_SLK2,SEL_XREF_CLK0,SEL_XREF_CLK1,SEL_XREF_CLK2,SEL_XREF_CLK3,SEL_MLB_CLK,SEL_MLBP_CLK,RESERVED,RESERVED1"
bitfld.long 0x00 22.--23. "     CLKSEL_AUX_CLK               ,Selects the source of the AUX clock - SEL_PER_ABE_X1_GFCLK. - SEL_VIDEO1_CLK. - SEL_VIDEO2_CLK. - SEL_HDMI_CLK." "SEL_PER_ABE_X1_GFCLK,SEL_VIDEO1_CLK,SEL_VIDEO2_CLK,SEL_HDMI_CLK"
bitfld.long 0x00 16.--17. "    IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
textline "                                      "
bitfld.long 0x00 0.--1. " MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x1A0++0x3
line.long 0x00 "CM_L4SEC_AES1_CLKCTRL,This register manages the AES1 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
group.long 0x1A8++0x3
line.long 0x00 "CM_L4SEC_AES2_CLKCTRL,This register manages the AES2 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
group.long 0x1B0++0x3
line.long 0x00 "CM_L4SEC_DES3DES_CLKCTRL,This register manages the DES3DES clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
group.long 0x1B8++0x3
line.long 0x00 "CM_L4SEC_FPKA_CLKCTRL,This register manages the FPKA clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x1C0++0x3
line.long 0x00 "CM_L4SEC_RNG_CLKCTRL,This register manages the RNG clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
group.long 0x1C8++0x3
line.long 0x00 "CM_L4SEC_SHA2MD51_CLKCTRL,This register manages the SHA2MD51 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
group.long 0x1D0++0x3
line.long 0x00 "CM_L4PER2_UART7_CLKCTRL,This register manages the UART7 clocks."
bitfld.long 0x00 24. " CLKSEL                       ,Selects functional clock for UART between FUNC_48M_FCLK and FUNC_192M_CLK - SEL_FUNC_48M_CLK. - SEL_FUNC_192M_CLK." "SEL_FUNC_48M_CLK,SEL_FUNC_192M_CLK"
bitfld.long 0x00 16.--17. "      IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                 MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
rgroup.long 0x1D8++0x3
line.long 0x00 "CM_L4SEC_DMA_CRYPTO_CLKCTRL,This register manages the DMA_CRYPTO clocks."
bitfld.long 0x00 18. " STBYST                       ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
bitfld.long 0x00 16.--17. "                IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                 MODULEMODE                   ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
group.long 0x1E0++0x3
line.long 0x00 "CM_L4PER2_UART8_CLKCTRL,This register manages the UART8 clocks."
bitfld.long 0x00 24. " CLKSEL                       ,Selects functional clock for UART between FUNC_48M_FCLK and FUNC_192M_CLK - SEL_FUNC_48M_CLK. - SEL_FUNC_192M_CLK." "SEL_FUNC_48M_CLK,SEL_FUNC_192M_CLK"
bitfld.long 0x00 16.--17. "      IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                 MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x1E8++0x3
line.long 0x00 "CM_L4PER2_UART9_CLKCTRL,This register manages the UART9 clocks."
bitfld.long 0x00 24. " CLKSEL                       ,Selects functional clock for UART between FUNC_48M_FCLK and FUNC_192M_CLK - SEL_FUNC_48M_CLK. - SEL_FUNC_192M_CLK." "SEL_FUNC_48M_CLK,SEL_FUNC_192M_CLK"
bitfld.long 0x00 16.--17. "      IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                 MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x1F0++0x3
line.long 0x00 "CM_L4PER2_DCAN2_CLKCTRL,This register manages the DCAN2 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x1F8++0x3
line.long 0x00 "CM_L4SEC_SHA2MD52_CLKCTRL,This register manages the SHA2MD52 clocks."
bitfld.long 0x00 16.--17. " IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
group.long 0x1FC++0x3
line.long 0x00 "CM_L4PER2_CLKSTCTRL,This register enables the domain power state transition. It controls the HW supervised domain power state transition between ON-ACTIVE and ON-INACTIVE states. It also hold one status bit per clock input of the domain."
bitfld.long 0x00 31. " CLKACTIVITY_MCASP8_AUX_GFCLK ,This field indicates the state of the MCASP8_AUX_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 30. "                  CLKACTIVITY_MCASP8_AHCLKX    ,This field indicates the state of the MCASP8_AHCLKX clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 29. "                   CLKACTIVITY_MCASP7_AUX_GFCLK ,This field indicates the state of the MCASP7_AUX_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                                      "
bitfld.long 0x00 28. " CLKACTIVITY_MCASP7_AHCLKX    ,This field indicates the state of the MCASP7_AHCLKX clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 27. "                  CLKACTIVITY_MCASP6_AUX_GFCLK ,This field indicates the state of the MCASP6_AUX_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 26. "                   CLKACTIVITY_MCASP6_AHCLKX    ,This field indicates the state of the MCASP6_AUX_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                                      "
bitfld.long 0x00 25. " CLKACTIVITY_MCASP5_AHCLKX    ,This field indicates the state of the MCASP5_AHCLKX clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 24. "                  CLKACTIVITY_MCASP5_AUX_GFCLK ,This field indicates the state of the MCASP5_AUX_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 23. "                   CLKACTIVITY_MCASP4_AUX_GFCLK ,This field indicates the state of the MCASP4_AUX_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                                      "
bitfld.long 0x00 22. " CLKACTIVITY_MCASP4_AHCLKX    ,This field indicates the state of the MCASP4_AHCLKX clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 21. "                  CLKACTIVITY_MCASP3_AUX_GFCLK ,This field indicates the state of the MCASP3_AUX_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 20. "                   CLKACTIVITY_MCASP3_AHCLKX    ,This field indicates the state of the MCASP3_AHCLKX clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                                      "
bitfld.long 0x00 19. " CLKACTIVITY_MCASP2_AUX_GFCLK ,This field indicates the state of the MCASP2_AUX_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 18. "                  CLKACTIVITY_MCASP2_AHCLKR    ,This field indicates the state of the MCASP2_AHCLKR clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 17. "                   CLKACTIVITY_MCASP2_AHCLKX    ,This field indicates the state of the MCASP2_AHCLKX clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                                      "
bitfld.long 0x00 16. " CLKACTIVITY_L4PER2_L3_GICLK  ,This field indicates the state of the L4PER2_L3_GICLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 15. "                  CLKACTIVITY_DCAN2_SYS_CLK    ,This field indicates the state of the DCAN2_SYS_CLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 14. "                   CLKACTIVITY_ICSS_IEP_CLK     ,This field indicates the state of the ICSS_IEP_CLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                                      "
bitfld.long 0x00 13. " CLKACTIVITY_PER_192M_GFCLK   ,This field indicates the state of the PER_192M_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 12. "                  CLKACTIVITY_QSPI_GFCLK       ,This field indicates the state of the QSPI_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 11. "                   CLKACTIVITY_UART9_GFCLK      ,This field indicates the state of the UART9_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                                      "
bitfld.long 0x00 10. " CLKACTIVITY_UART8_GFCLK      ,This field indicates the state of the UART8_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 9. "                  CLKACTIVITY_UART7_GFCLK      ,This field indicates the state of the UART7_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 8. "                   CLKACTIVITY_ICSS_CLK         ,This field indicates the state of the ICSS_CLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                                      "
bitfld.long 0x00 0.--1. " CLKTRCTRL                    ,Controls the clock state transition of the L4PER clock domain. - NO_SLEEP. - SW_SLEEP. - SW_WKUP. - HW_AUTO." "NO_SLEEP,SW_SLEEP,SW_WKUP,HW_AUTO"
group.long 0x200++0x3
line.long 0x00 "CM_L4PER2_DYNAMICDEP,This register controls the dynamic domain depedencies from L4PER2 domain towards 'target' domains. It is relevant only for domain having OCP master port(s)."
bitfld.long 0x00 24.--27. " WINDOWSIZE                   ,Size of sliding window used to monitor OCP interface activity for determination of auto-sleep feature. Time unit defined byCM_DYN_DEP_PRESCAL register." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 22. "                     GMAC_DYNDEP                  ,Dynamic dependency towards GMAC clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 12. "                 L4CFG_DYNDEP                 ,Dynamic dependency towards L4CFG clock domain - ENABLED." "0,ENABLED"
textline "                                      "
bitfld.long 0x00 7. " L3INIT_DYNDEP                ,Dynamic dependency towards L3INIT clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 3. "                IPU_DYNDEP                   ,Dynamic dependency towards IPU clock domain - ENABLED." "0,ENABLED"
group.long 0x204++0x3
line.long 0x00 "CM_L4PER2_MCASP6_CLKCTRL,This register manages the MCASP6 clocks."
bitfld.long 0x00 24.--27. " CLKSEL_AHCLKX                ,Selects reference clock for AHCLKX - SEL_ABE_24M_GFCLK. - SEL_ABE_SYS_CLK. - SEL_FUNC_24M_GFCLK. - SEL_ATL_CLK3. - SEL_ATL_CLK2. - SEL_ATL_CLK1. - SEL_ATL_CLK0. - SEL_SYS_SLK2. - SEL_XREF_CLK0. - SEL_XREF_CLK1. - SEL_XREF..." "SEL_ABE_24M_GFCLK,SEL_ABE_SYS_CLK,SEL_FUNC_24M_GFCLK,SEL_ATL_CLK3,SEL_ATL_CLK2,SEL_ATL_CLK1,SEL_ATL_CLK0,SEL_SYS_SLK2,SEL_XREF_CLK0,SEL_XREF_CLK1,SEL_XREF_CLK2,SEL_XREF_CLK3,SEL_MLB_CLK,SEL_MLBP_CLK,RESERVED,RESERVED1"
bitfld.long 0x00 22.--23. "     CLKSEL_AUX_CLK               ,Selects the source of the AUX clock - SEL_PER_ABE_X1_GFCLK. - SEL_VIDEO1_CLK. - SEL_VIDEO2_CLK. - SEL_HDMI_CLK." "SEL_PER_ABE_X1_GFCLK,SEL_VIDEO1_CLK,SEL_VIDEO2_CLK,SEL_HDMI_CLK"
bitfld.long 0x00 16.--17. "    IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
textline "                                      "
bitfld.long 0x00 0.--1. " MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x208++0x3
line.long 0x00 "CM_L4PER2_MCASP7_CLKCTRL,This register manages the MCASP7 clocks."
bitfld.long 0x00 24.--27. " CLKSEL_AHCLKX                ,Selects reference clock for AHCLKX - SEL_ABE_24M_GFCLK. - SEL_ABE_SYS_CLK. - SEL_FUNC_24M_GFCLK. - SEL_ATL_CLK3. - SEL_ATL_CLK2. - SEL_ATL_CLK1. - SEL_ATL_CLK0. - SEL_SYS_SLK2. - SEL_XREF_CLK0. - SEL_XREF_CLK1. - SEL_XREF..." "SEL_ABE_24M_GFCLK,SEL_ABE_SYS_CLK,SEL_FUNC_24M_GFCLK,SEL_ATL_CLK3,SEL_ATL_CLK2,SEL_ATL_CLK1,SEL_ATL_CLK0,SEL_SYS_SLK2,SEL_XREF_CLK0,SEL_XREF_CLK1,SEL_XREF_CLK2,SEL_XREF_CLK3,SEL_MLB_CLK,SEL_MLBP_CLK,RESERVED,RESERVED1"
bitfld.long 0x00 22.--23. "     CLKSEL_AUX_CLK               ,Selects the source of the AUX clock - SEL_PER_ABE_X1_GFCLK. - SEL_VIDEO1_CLK. - SEL_VIDEO2_CLK. - SEL_HDMI_CLK." "SEL_PER_ABE_X1_GFCLK,SEL_VIDEO1_CLK,SEL_VIDEO2_CLK,SEL_HDMI_CLK"
bitfld.long 0x00 16.--17. "    IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
textline "                                      "
bitfld.long 0x00 0.--1. " MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x20C++0x3
line.long 0x00 "CM_L4PER2_STATICDEP,This register controls the static domain depedencies from L4PER2 domain towards 'target' domains. It is relevant only for domain having system initiator(s)."
bitfld.long 0x00 23. " IPU1_STATDEP                 ,Static dependency towards IPU1 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 18. "               DSP2_STATDEP                 ,Static dependency towards DSP2 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                L3MAIN1_STATDEP              ,Static dependency towards L3MAIN1 clock domain - ENABLED." "0,ENABLED"
textline "                                      "
bitfld.long 0x00 1. " DSP1_STATDEP                 ,Static dependency towards DSP1 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 0. "               IPU2_STATDEP                 ,Static dependency towards IPU2 clock domain - . - ." "Dependency_is_disabled,Dependency_is_enabled"
group.long 0x210++0x3
line.long 0x00 "CM_L4PER3_CLKSTCTRL,This register enables the domain power state transition. It controls the HW supervised domain power state transition between ON-ACTIVE and ON-INACTIVE states. It also hold one status bit per clock input of the domain."
bitfld.long 0x00 12. " CLKACTIVITY_TIMER16_GFCLK    ,This field indicates the state of the DMT16_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 11. "                  CLKACTIVITY_TIMER15_GFCLK    ,This field indicates the state of the DMT15_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 10. "                   CLKACTIVITY_TIMER14_GFCLK    ,This field indicates the state of the DMT14_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                                      "
bitfld.long 0x00 9. " CLKACTIVITY_TIMER13_GFCLK    ,This field indicates the state of the DMT13_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 8. "                  CLKACTIVITY_L4PER3_L3_GICLK  ,This field indicates the state of the L4PER2_L3_GICLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 0.--1. "                   CLKTRCTRL                    ,Controls the clock state transition of the L4PER clock domain. - NO_SLEEP. - SW_SLEEP. - SW_WKUP. - HW_AUTO." "NO_SLEEP,SW_SLEEP,SW_WKUP,HW_AUTO"
group.long 0x214++0x3
line.long 0x00 "CM_L4PER3_DYNAMICDEP,This register controls the dynamic domain depedencies from L4PER3 domain towards 'target' domains. It is relevant only for domain having OCP master port(s)."
bitfld.long 0x00 31. " VPE_DYNDEP                   ,Dynamic dependency towards VPE clock domain - ." "0,Dependency_is_enabled"
bitfld.long 0x00 24.--27. "  WINDOWSIZE                   ,Size of sliding window used to monitor OCP interface activity for determination of auto-sleep feature. Time unit defined byCM_DYN_DEP_PRESCAL register." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "                      RTC_DYNDEP                   ,Dynamic dependency towards RTC clock domain - ." "0,Dependency_is_enabled"
textline "                                      "
bitfld.long 0x00 12. " L4CFG_DYNDEP                 ,Dynamic dependency towards L4CFG clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 9. "                CAM_DYNDEP                   ,Dynamic dependency towards CAM clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 7. "                 L3INIT_DYNDEP                ,Dynamic dependency towards L3INIT clock domain - ENABLED." "0,ENABLED"
textline "                                      "
bitfld.long 0x00 5. " L3MAIN1_DYNDEP               ,Dynamic dependency towards L3MAIN1 clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 3. "                IPU_DYNDEP                   ,Dynamic dependency towards IPU clock domain - ENABLED." "0,ENABLED"
width 0x0B
tree.end
tree "CM_CORE_AON__INSTR"
base ad:0x4A005F00
width 21.
rgroup.long 0x0++0x3
line.long 0x00 "CMI_IDENTICATION,CM profiling identification register"
hexmask.long 0x00 0.--31. 1. " REVISION        ,IP revision"
group.long 0x10++0x3
line.long 0x00 "CMI_SYS_CONFIG,CM profiling system configuartion register"
bitfld.long 0x00 2.--3. " IDLEMODE        ,Configuration of the local tartget state management mode" "0,1,2,3"
bitfld.long 0x00 0. "         SOFTRESET       ,Software reset" "0,1"
rgroup.long 0x14++0x3
line.long 0x00 "CMI_STATUS,CM profiling status register"
bitfld.long 0x00 8. " FIFOEMPTY       ,PM Profiling buffer empty" "0,1"
group.long 0x24++0x3
line.long 0x00 "CMI_CONFIGURATION,CM profiling configuration register"
bitfld.long 0x00 30.--31. " CLAIM_3         ,Ownership" "0,1,2,3"
bitfld.long 0x00 29. "         CLAIM_2         ,Debugger override qualifier" "0,1"
bitfld.long 0x00 28. "   CLAIM_1         ,Current owner" "0,1"
textline "                              "
bitfld.long 0x00 15. " MOD_ACT_EN      ,When HIGH the CM Module Activity collection is enabled" "0,1"
bitfld.long 0x00 7. "         EVT_CAPT_EN     ,When HIGH the CM events capture is enabled" "0,1"
group.long 0x28++0x3
line.long 0x00 "CMI_CLASS_FILTERING,CM profiling class filtering register"
bitfld.long 0x00 31. " SNAP_CAPT_EN_1F ,Snapshot capture enable - Class-ID = 0x1F" "0,1"
bitfld.long 0x00 30. "         SNAP_CAPT_EN_1E ," "0,1"
bitfld.long 0x00 29. "   SNAP_CAPT_EN_1D ," "0,1"
textline "                              "
bitfld.long 0x00 28. " SNAP_CAPT_EN_1C ," "0,1"
bitfld.long 0x00 27. "         SNAP_CAPT_EN_1B ," "0,1"
bitfld.long 0x00 26. "   SNAP_CAPT_EN_1A ," "0,1"
textline "                              "
bitfld.long 0x00 25. " SNAP_CAPT_EN_19 ," "0,1"
bitfld.long 0x00 24. "         SNAP_CAPT_EN_18 ," "0,1"
bitfld.long 0x00 23. "   SNAP_CAPT_EN_17 ," "0,1"
textline "                              "
bitfld.long 0x00 22. " SNAP_CAPT_EN_16 ," "0,1"
bitfld.long 0x00 21. "         SNAP_CAPT_EN_15 ," "0,1"
bitfld.long 0x00 20. "   SNAP_CAPT_EN_14 ," "0,1"
textline "                              "
bitfld.long 0x00 19. " SNAP_CAPT_EN_13 ," "0,1"
bitfld.long 0x00 18. "         SNAP_CAPT_EN_12 ," "0,1"
bitfld.long 0x00 17. "   SNAP_CAPT_EN_11 ," "0,1"
textline "                              "
bitfld.long 0x00 16. " SNAP_CAPT_EN_10 ,Snapshot capture enable - Class-ID = 0x10" "0,1"
bitfld.long 0x00 3. "         SNAP_CAPT_EN_03 ,Snapshot capture enable - Class-ID = 0x03 [0x23]" "0,1"
bitfld.long 0x00 2. "   SNAP_CAPT_EN_02 ,Snapshot capture enable - Class-ID = 0x02 [0x22]" "0,1"
textline "                              "
bitfld.long 0x00 1. " SNAP_CAPT_EN_01 ,Snapshot capture enable - Class-ID = 0x01 [0x21]" "0,1"
bitfld.long 0x00 0. "         SNAP_CAPT_EN_00 ,Snapshot capture enable - Class-ID = 0x00 [0x20]" "0,1"
group.long 0x2C++0x3
line.long 0x00 "CMI_TRIGGERING,CM profiling triggering control register"
bitfld.long 0x00 1. " TRIG_STOP_EN    ,Enable stop capturing CM events from external trigger detection" "0,1"
bitfld.long 0x00 0. "         TRIG_START_EN   ,Enable start capturing CM events from external trigger detection" "0,1"
group.long 0x30++0x3
line.long 0x00 "CMI_SAMPLING,CM profiling sampling window register"
bitfld.long 0x00 16.--19. " FCLK_DIV_FACOR  ,FunClk divide factor ranging from 1 to 16" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 0.--7. 1. "        SAMP_WIND_SIZE  ,CM events sampling window size"
width 0x0B
tree.end
tree "IVA_PRM"
base ad:0x4AE06F00
width 20.
group.long 0x0++0x3
line.long 0x00 "PM_IVA_PWRSTCTRL,This register controls the IVA power state to reach upon a domain sleep transition"
bitfld.long 0x00 22.--23. " TCM2_MEM_ONSTATE      ,TCM_CORE memory state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
bitfld.long 0x00 20.--21. "      TCM1_MEM_ONSTATE    ,TCM1 memory state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
bitfld.long 0x00 18.--19. "      SL2_MEM_ONSTATE     ,SL2 memory state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
textline "                             "
bitfld.long 0x00 16.--17. " HWA_MEM_ONSTATE       ,HWA memory state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
bitfld.long 0x00 11. "      TCM2_MEM_RETSTATE   ,TCM2 memory state when domain is RETENTION. - MEM_OFF. - MEM_RET." "MEM_OFF,MEM_RET"
bitfld.long 0x00 10. "     TCM1_MEM_RETSTATE   ,TCM1 memory state when domain is RETENTION. - MEM_OFF. - MEM_RET." "MEM_OFF,MEM_RET"
textline "                             "
bitfld.long 0x00 9. " SL2_MEM_RETSTATE      ,SL2 memory state when domain is RETENTION. - MEM_OFF. - MEM_RET." "MEM_OFF,MEM_RET"
bitfld.long 0x00 8. "     HWA_MEM_RETSTATE    ,HWA memory state when domain is RETENTION. - MEM_OFF." "MEM_OFF,1"
bitfld.long 0x00 4. "     LOWPOWERSTATECHANGE ,Power state change request when domain has already performed a sleep transition. Allows going into deeper low power state without waking up the power domain. - DIS. - EN." "DIS,EN"
textline "                             "
bitfld.long 0x00 2. " LOGICRETSTATE         ,Logic state when power domain is RETENTION - LOGIC_OFF." "LOGIC_OFF,1"
bitfld.long 0x00 0.--1. "   POWERSTATE          ,Power state control - OFF. - RET. - INACT. - ON." "OFF,RET,INACT,ON"
group.long 0x4++0x3
line.long 0x00 "PM_IVA_PWRSTST,This register provides a status on the current IVA power domain state. [warm reset insensitive]"
bitfld.long 0x00 24.--25. " LASTPOWERSTATEENTERED ,Last low power state entered. Set to 0x3 upon write of the same only. This register is intended for debug purpose only. - OFF. - RET. - INACTIVE. - ON." "OFF,RET,INACTIVE,ON"
bitfld.long 0x00 20. "    INTRANSITION        ,Domain transition status - NO. - ONGOING." "NO,ONGOING"
bitfld.long 0x00 10.--11. "     TCM2_MEM_STATEST    ,TCM2 memory state status - MEM_OFF. - MEM_RET. - RESERVED. - MEM_ON." "MEM_OFF,MEM_RET,RESERVED,MEM_ON"
textline "                             "
bitfld.long 0x00 8.--9. " TCM1_MEM_STATEST      ,TCM1 memory state status - MEM_OFF. - MEM_RET. - RESERVED. - MEM_ON." "MEM_OFF,MEM_RET,RESERVED,MEM_ON"
bitfld.long 0x00 6.--7. "    SL2_MEM_STATEST     ,SL2 memory state status - MEM_OFF. - MEM_RET. - RESERVED. - MEM_ON." "MEM_OFF,MEM_RET,RESERVED,MEM_ON"
bitfld.long 0x00 4.--5. "    HWA_MEM_STATEST     ,HWA memory state status - MEM_OFF. - MEM_RET. - RESERVED. - MEM_ON." "MEM_OFF,MEM_RET,RESERVED,MEM_ON"
textline "                             "
bitfld.long 0x00 2. " LOGICSTATEST          ,Logic state status - OFF. - ON." "OFF,ON"
bitfld.long 0x00 0.--1. "         POWERSTATEST        ,Current power state status - OFF. - RET. - INACTIVE. - ON." "OFF,RET,INACTIVE,ON"
group.long 0x10++0x3
line.long 0x00 "RM_IVA_RSTCTRL,This register controls the release of the IVA sub-system resets."
bitfld.long 0x00 2. " RST_LOGIC             ,IVA logic and SL2 reset control - CLEAR. - ASSERT." "CLEAR,ASSERT"
bitfld.long 0x00 1. "      RST_SEQ2            ,IVA Sequencer2 reset control - CLEAR. - ASSERT." "CLEAR,ASSERT"
bitfld.long 0x00 0. "      RST_SEQ1            ,IVA sequencer1 reset control - CLEAR. - ASSERT." "CLEAR,ASSERT"
group.long 0x14++0x3
line.long 0x00 "RM_IVA_RSTST,This register logs the different reset sources of the IVA domain. Each bit is set upon release of the domain reset signal. Must be cleared by software. [warm reset insensitive]"
bitfld.long 0x00 6. " RST_ICECRUSHER_SEQ2   ,Sequencer2 CPU has been reset due to IVA ICECRUSHER2 reset event - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
bitfld.long 0x00 5. "   RST_ICECRUSHER_SEQ1 ,Sequencer1 CPU has been reset due to IVA ICECRUSHER1 reset event - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
bitfld.long 0x00 4. "   RST_EMULATION_SEQ2  ,Sequencer2 CPU has been reset due to emulation reset source e.g. assert reset command initiated by the icepick module - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
textline "                             "
bitfld.long 0x00 3. " RST_EMULATION_SEQ1    ,Sequencer1 CPU has been reset due to emulation reset source e.g. assert reset command initiated by the icepick module - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
bitfld.long 0x00 2. "   RST_LOGIC           ,IVA logic and SL2 SW reset - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
bitfld.long 0x00 1. "   RST_SEQ2            ,IVA Sequencer2 CPU SW reset - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
textline "                             "
bitfld.long 0x00 0. " RST_SEQ1              ,IVA Sequencer1 CPU SW reset - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
group.long 0x24++0x3
line.long 0x00 "RM_IVA_IVA_CONTEXT,This register contains dedicated IVA context statuses. [warm reset insensitive]"
bitfld.long 0x00 10. " LOSTMEM_HWA_MEM       ,Specify if memory-based context in HWA_MEM memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 9. "  LOSTMEM_TCM2_MEM    ,Specify if memory-based context in TCM2_MEM memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 8. "  LOSTMEM_TCM1_MEM    ,Specify if memory-based context in TCM1_MEM memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
textline "                             "
bitfld.long 0x00 0. " LOSTCONTEXT_DFF       ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of IVA_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x2C++0x3
line.long 0x00 "RM_IVA_SL2_CONTEXT,This register contains dedicated SL2 context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_SL2_MEM       ,Specify if memory-based context in SL2_MEM memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "  LOSTCONTEXT_DFF     ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of IVA_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
width 0x0B
tree.end
tree "DSP1_PRM"
base ad:0x4AE06400
width 22.
group.long 0x0++0x3
line.long 0x00 "PM_DSP1_PWRSTCTRL,This register controls the DSP power state to reach upon a domain sleep transition"
bitfld.long 0x00 20.--21. " DSP1_EDMA_ONSTATE     ,DSP_EDMA state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
bitfld.long 0x00 18.--19. "      DSP1_L2_ONSTATE ,DSP_L2 state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
bitfld.long 0x00 16.--17. "      DSP1_L1_ONSTATE   ,DSP_L1 state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
textline "                               "
bitfld.long 0x00 4. " LOWPOWERSTATECHANGE   ,Power state change request when domain has already performed a sleep transition. Allows going into deeper low power state without waking up the power domain. - DIS. - EN." "DIS,EN"
bitfld.long 0x00 0.--1. "         POWERSTATE      ,Power state control - OFF. - RET. - INACT. - ON." "OFF,RET,INACT,ON"
group.long 0x4++0x3
line.long 0x00 "PM_DSP1_PWRSTST,This register provides a status on the DSP domain current power state. [warm reset insensitive]"
bitfld.long 0x00 24.--25. " LASTPOWERSTATEENTERED ,Last low power state entered. Set to 0x3 upon write of the same only. This register is intended for debug purpose only. - OFF. - RET. - INACTIVE. - ON." "OFF,RET,INACTIVE,ON"
bitfld.long 0x00 20. "    INTRANSITION    ,Domain transition status - NO. - ONGOING." "NO,ONGOING"
bitfld.long 0x00 8.--9. "     DSP1_EDMA_STATEST ,DSP_EDMA memory state status - MEM_OFF. - MEM_RET. - RESERVED. - MEM_ON." "MEM_OFF,MEM_RET,RESERVED,MEM_ON"
textline "                               "
bitfld.long 0x00 6.--7. " DSP1_L2_STATEST       ,DSP_L2 memory state status - MEM_OFF. - MEM_RET. - RESERVED. - MEM_ON." "MEM_OFF,MEM_RET,RESERVED,MEM_ON"
bitfld.long 0x00 4.--5. "    DSP1_L1_STATEST ,DSP_L1 memory state status - MEM_OFF. - MEM_RET. - RESERVED. - MEM_ON." "MEM_OFF,MEM_RET,RESERVED,MEM_ON"
bitfld.long 0x00 2. "    LOGICSTATEST      ,Logic state status - OFF. - ON." "OFF,ON"
textline "                               "
bitfld.long 0x00 0.--1. " POWERSTATEST          ,Current power state status - OFF. - RET. - INACTIVE. - ON." "OFF,RET,INACTIVE,ON"
group.long 0x10++0x3
line.long 0x00 "RM_DSP1_RSTCTRL,This register controls the release of the DSP sub-system resets."
bitfld.long 0x00 1. " RST_DSP1              ,DSP reset control - CLEAR. - ASSERT." "CLEAR,ASSERT"
bitfld.long 0x00 0. "      RST_DSP1_LRST   ,DSP Local reset control - CLEAR. - ASSERT." "CLEAR,ASSERT"
group.long 0x14++0x3
line.long 0x00 "RM_DSP1_RSTST,This register logs the different reset sources of the DSP domain. Each bit is set upon release of the domain reset signal. Must be cleared by software. [warm reset insensitive]"
bitfld.long 0x00 3. " RST_DSP1_EMU_REQ      ,DSP processor has been reset due to DSP emulation reset request driven from DSP-SS - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
bitfld.long 0x00 2. "   RST_DSP1_EMU    ,DSP domain has been reset due to emulation reset source e.g. assert reset command initiated by the icepick module - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
bitfld.long 0x00 1. "   RST_DSP1          ,DSP SW reset status - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
textline "                               "
bitfld.long 0x00 0. " RST_DSP1_LRST         ,DSP Local SW reset - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
group.long 0x24++0x3
line.long 0x00 "RM_DSP1_DSP1_CONTEXT,This register contains dedicated DSP context statuses. [warm reset insensitive]"
bitfld.long 0x00 10. " LOSTMEM_DSP_EDMA      ,Specify if memory-based context in DSP_EDMA memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 9. "  LOSTMEM_DSP_L2  ,Specify if memory-based context in DSP_L2 memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 8. "  LOSTMEM_DSP_L1    ,Specify if memory-based context in DSP_L1 memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
textline "                               "
bitfld.long 0x00 0. " LOSTCONTEXT_DFF       ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of DSP_SYS_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
width 0x0B
tree.end
tree "CORE_PRM"
base ad:0x4AE06700
width 31.
group.long 0x0++0x3
line.long 0x00 "PM_CORE_PWRSTCTRL,This register controls the CORE power state to reach upon a domain sleep transition"
bitfld.long 0x00 24.--25. " OCP_NRET_BANK_ONSTATE    ,OCP_WP bank and DMM bank2 state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
bitfld.long 0x00 22.--23. "      IPU_UNICACHE_ONSTATE    ,IPU UNICACHE bank state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
bitfld.long 0x00 20.--21. "                  IPU_L2RAM_ONSTATE      ,IPU L2 bank state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
textline "                                        "
bitfld.long 0x00 18.--19. " CORE_OCMRAM_ONSTATE      ,OCMRAM bank state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
bitfld.long 0x00 16.--17. "      CORE_OTHER_BANK_ONSTATE ,DMA/ICR bank and DMM bank1 state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
bitfld.long 0x00 12. "                  OCP_NRET_BANK_RETSTATE ,OCP_WP bank and DMM bank2 state when domain is RETENTION. - MEM_OFF." "MEM_OFF,1"
textline "                                        "
bitfld.long 0x00 11. " IPU_UNICACHE_RETSTATE    ,IPU UNICACHE bank state when domain is RETENTION. - MEM_OFF. - MEM_RET." "MEM_OFF,MEM_RET"
bitfld.long 0x00 10. "     IPU_L2RAM_RETSTATE      ,IPU L2 bank state when domain is RETENTION. - MEM_OFF. - MEM_RET." "MEM_OFF,MEM_RET"
bitfld.long 0x00 9. "                 CORE_OCMRAM_RETSTATE   ,OCMRAM bank state when domain is RETENTION. - MEM_RET." "0,MEM_RET"
textline "                                        "
bitfld.long 0x00 8. " CORE_OTHER_BANK_RETSTATE ,DMA/ICR bank and DMM bank1 state when domain is RETENTION. - MEM_RET." "0,MEM_RET"
bitfld.long 0x00 4. "     LOWPOWERSTATECHANGE     ,Power state change request when domain has already performed a sleep transition. Allows going into deeper low power state without waking up the power domain. - DIS. - EN." "DIS,EN"
bitfld.long 0x00 2. "                     LOGICRETSTATE          ,Logic state when power domain is RETENTION - LOGIC_OFF. - LOGIC_RET." "LOGIC_OFF,LOGIC_RET"
textline "                                        "
bitfld.long 0x00 0.--1. " POWERSTATE               ,Power state control - RESERVED. - RET. - INACT. - ON." "RESERVED,RET,INACT,ON"
group.long 0x4++0x3
line.long 0x00 "PM_CORE_PWRSTST,This register provides a status on the current CORE power domain state. [warm reset insensitive]"
bitfld.long 0x00 24.--25. " LASTPOWERSTATEENTERED    ,Last low power state entered. Set to 0x3 upon write of the same only. This register is intended for debug purpose only. - OFF. - RET. - INACTIVE. - ON." "OFF,RET,INACTIVE,ON"
bitfld.long 0x00 20. "    INTRANSITION            ,Domain transition status - NO. - ONGOING." "NO,ONGOING"
bitfld.long 0x00 12.--13. "                 OCP_NRET_BANK_STATEST  ,OCP_WP bank and DMM bank2 state status - MEM_OFF. - RESERVED1. - RESERVED. - MEM_ON." "MEM_OFF,RESERVED1,RESERVED,MEM_ON"
textline "                                        "
bitfld.long 0x00 10.--11. " IPU_UNICACHE_STATEST     ,IPU UNICACHE bank state status - MEM_OFF. - MEM_RET. - RESERVED. - MEM_ON." "MEM_OFF,MEM_RET,RESERVED,MEM_ON"
bitfld.long 0x00 8.--9. "    IPU_L2RAM_STATEST       ,IPU L2 bank state status - MEM_OFF. - MEM_RET. - RESERVED. - MEM_ON." "MEM_OFF,MEM_RET,RESERVED,MEM_ON"
bitfld.long 0x00 6.--7. "                CORE_OCMRAM_STATEST    ,OCMRAM bank state status - MEM_OFF. - MEM_RET. - RESERVED. - MEM_ON." "MEM_OFF,MEM_RET,RESERVED,MEM_ON"
textline "                                        "
bitfld.long 0x00 4.--5. " CORE_OTHER_BANK_STATEST  ,DMA/ICR bank and DMM bank1 state status - MEM_OFF. - MEM_RET. - RESERVED. - MEM_ON." "MEM_OFF,MEM_RET,RESERVED,MEM_ON"
bitfld.long 0x00 2. "    LOGICSTATEST            ,Logic state status - OFF. - ON." "OFF,ON"
bitfld.long 0x00 0.--1. "                     POWERSTATEST           ,Current power state status - RESERVED. - RET. - INACTIVE. - ON." "RESERVED,RET,INACTIVE,ON"
group.long 0x24++0x3
line.long 0x00 "RM_L3MAIN1_L3_MAIN_1_CONTEXT,This register contains dedicated L3_MAIN_1 context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_PWRON_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "  LOSTCONTEXT_DFF         ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x2C++0x3
line.long 0x00 "RM_L3MAIN1_GPMC_CONTEXT,This register contains dedicated GPMC context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x34++0x3
line.long 0x00 "RM_L3MAIN1_MMU_EDMA_CONTEXT,This register contains dedicated MMU context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_PWRON_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x4C++0x3
line.long 0x00 "RM_L3MAIN1_MMU_PCIESS_CONTEXT,This register contains dedicated MMU context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_PWRON_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x50++0x3
line.long 0x00 "PM_L3MAIN1_OCMC_RAM1_WKDEP,This register controls wakeup dependency based on OCMC_RAM1 service requests."
bitfld.long 0x00 9. " WKUPDEP_OCMC_RAM1_EVE4   ,Wakeup dependency from OCMC_RAM1 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "    WKUPDEP_OCMC_RAM1_EVE3  ,Wakeup dependency from OCMC_RAM1 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_OCMC_RAM1_EVE2 ,Wakeup dependency from OCMC_RAM1 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                        "
bitfld.long 0x00 6. " WKUPDEP_OCMC_RAM1_EVE1   ,Wakeup dependency from OCMC_RAM1 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "    WKUPDEP_OCMC_RAM1_DSP2  ,Wakeup dependency from OCMC_RAM1 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_OCMC_RAM1_IPU1 ,Wakeup dependency from OCMC_RAM1 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                        "
bitfld.long 0x00 2. " WKUPDEP_OCMC_RAM1_DSP1   ,Wakeup dependency from OCMC_RAM1 module (SWakeup signal) towards DSP + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "    WKUPDEP_OCMC_RAM1_IPU2  ,Wakeup dependency from OCMC_RAM1 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_OCMC_RAM1_MPU  ,Wakeup dependency from OCMC_RAM1 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x54++0x3
line.long 0x00 "RM_L3MAIN1_OCMC_RAM1_CONTEXT,This register contains dedicated OCMC_RAM context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_CORE_OCMRAM      ,Specify if memory-based context in CORE_OCMRAM memory bank has been lost due to a previous power transition or other reset source (not affected by a global warm reset). - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "  LOSTCONTEXT_DFF         ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x58++0x3
line.long 0x00 "PM_L3MAIN1_OCMC_RAM2_WKDEP,This register controls wakeup dependency based on OCMC_RAM2 service requests."
bitfld.long 0x00 9. " WKUPDEP_OCMC_RAM2_EVE4   ,Wakeup dependency from OCMC_RAM2 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "    WKUPDEP_OCMC_RAM2_EVE3  ,Wakeup dependency from OCMC_RAM2 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_OCMC_RAM2_EVE2 ,Wakeup dependency from OCMC_RAM2 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                        "
bitfld.long 0x00 6. " WKUPDEP_OCMC_RAM2_EVE1   ,Wakeup dependency from OCMC_RAM2 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "    WKUPDEP_OCMC_RAM2_DSP2  ,Wakeup dependency from OCMC_RAM2 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_OCMC_RAM2_IPU1 ,Wakeup dependency from OCMC_RAM2 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                        "
bitfld.long 0x00 2. " WKUPDEP_OCMC_RAM2_DSP1   ,Wakeup dependency from OCMC_RAM2 module (SWakeup signal) towards DSP + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "    WKUPDEP_OCMC_RAM2_IPU2  ,Wakeup dependency from OCMC_RAM2 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_OCMC_RAM2_MPU  ,Wakeup dependency from OCMC_RAM2 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x5C++0x3
line.long 0x00 "RM_L3MAIN1_OCMC_RAM2_CONTEXT,This register contains dedicated OCMC_RAM2 context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_CORE_OCMRAM      ,Specify if memory-based context in CORE_OCMRAM memory bank has been lost due to a previous power transition or other reset source (not affected by a global warm reset). - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "  LOSTCONTEXT_DFF         ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x60++0x3
line.long 0x00 "PM_L3MAIN1_OCMC_RAM3_WKDEP,This register controls wakeup dependency based on OCMC_RAM3 service requests."
bitfld.long 0x00 9. " WKUPDEP_OCMC_RAM3_EVE4   ,Wakeup dependency from OCMC_RAM3 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "    WKUPDEP_OCMC_RAM3_EVE3  ,Wakeup dependency from OCMC_RAM3 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_OCMC_RAM3_EVE2 ,Wakeup dependency from OCMC_RAM3 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                        "
bitfld.long 0x00 6. " WKUPDEP_OCMC_RAM3_EVE1   ,Wakeup dependency from OCMC_RAM3 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "    WKUPDEP_OCMC_RAM3_DSP2  ,Wakeup dependency from OCMC_RAM3 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_OCMC_RAM3_IPU1 ,Wakeup dependency from OCMC_RAM3 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                        "
bitfld.long 0x00 2. " WKUPDEP_OCMC_RAM3_DSP1   ,Wakeup dependency from OCMC_RAM3 module (SWakeup signal) towards DSP + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "    WKUPDEP_OCMC_RAM3_IPU2  ,Wakeup dependency from OCMC_RAM3 module RW 0x0 (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_OCMC_RAM3_MPU  ,Wakeup dependency from OCMC_RAM3 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x64++0x3
line.long 0x00 "RM_L3MAIN1_OCMC_RAM3_CONTEXT,This register contains dedicated OCMC_RAM3 context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_CORE_OCMRAM      ,Specify if memory-based context in CORE_OCMRAM memory bank has been lost due to a previous power transition or other reset source (not affected by a global warm reset). - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "  LOSTCONTEXT_DFF         ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x70++0x3
line.long 0x00 "PM_L3MAIN1_TPCC_WKDEP,This register controls wakeup dependency based on TPCC service requests."
bitfld.long 0x00 9. " WKUPDEP_TPCC_EVE4        ,Wakeup dependency from TPCC module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "    WKUPDEP_TPCC_EVE3       ,Wakeup dependency from TPCC module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_TPCC_EVE2      ,Wakeup dependency from TPCC module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                        "
bitfld.long 0x00 6. " WKUPDEP_TPCC_EVE1        ,Wakeup dependency from TPCC module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "    WKUPDEP_TPCC_DSP2       ,Wakeup dependency from TPCC module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_TPCC_IPU1      ,Wakeup dependency from TPCC module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                        "
bitfld.long 0x00 2. " WKUPDEP_TPCC_DSP1        ,Wakeup dependency from TPCC module (SWakeup signal) towards DSP + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "    WKUPDEP_TPCC_IPU2       ,Wakeup dependency from TPCC module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_TPCC_MPU       ,Wakeup dependency from TPCC module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x74++0x3
line.long 0x00 "RM_L3MAIN1_TPCC_CONTEXT,This register contains dedicated TPCC context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_TPCC_BANK        ,Specify if memory-based context in TPCC_MEM memory bank has been lost due to a previous power transition or other reset source (not affected by a global warm reset). - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 1. "  LOSTCONTEXT_RFF         ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x78++0x3
line.long 0x00 "PM_L3MAIN1_TPTC1_WKDEP,This register controls wakeup dependency based on TPTC service requests."
bitfld.long 0x00 9. " WKUPDEP_TPTC1_EVE4       ,Wakeup dependency from TPTC module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "    WKUPDEP_TPTC1_EVE3      ,Wakeup dependency from TPTC module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_TPTC1_EVE2     ,Wakeup dependency from TPTC module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                        "
bitfld.long 0x00 6. " WKUPDEP_TPTC1_EVE1       ,Wakeup dependency from TPTC module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "    WKUPDEP_TPTC1_DSP2      ,Wakeup dependency from TPTC module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_TPTC1_IPU1     ,Wakeup dependency from TPTC module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                        "
bitfld.long 0x00 2. " WKUPDEP_TPTC1_DSP1       ,Wakeup dependency from TPTC module (SWakeup signal) towards DSP + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "    WKUPDEP_TPTC1_IPU2      ,Wakeup dependency from TPTC module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_TPTC1_MPU      ,Wakeup dependency from TPTC module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x7C++0x3
line.long 0x00 "RM_L3MAIN1_TPTC1_CONTEXT,This register contains dedicated TPTC1 context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_TPTC_BANK        ,Specify if memory-based context in TPTC_MEM memory bank has been lost due to a previous power transition or other reset source (not affected by a global warm reset). - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 1. "  LOSTCONTEXT_RFF         ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x80++0x3
line.long 0x00 "PM_L3MAIN1_TPTC2_WKDEP,This register controls wakeup dependency based on TPTC service requests."
bitfld.long 0x00 9. " WKUPDEP_TPTC2_EVE4       ,Wakeup dependency from TPTC module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "    WKUPDEP_TPTC2_EVE3      ,Wakeup dependency from TPTC module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_TPTC2_EVE2     ,Wakeup dependency from TPTC module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                        "
bitfld.long 0x00 6. " WKUPDEP_TPTC2_EVE1       ,Wakeup dependency from TPTC module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "    WKUPDEP_TPTC2_DSP2      ,Wakeup dependency from TPTC module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_TPTC2_IPU1     ,Wakeup dependency from TPTC module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                        "
bitfld.long 0x00 2. " WKUPDEP_TPTC2_DSP1       ,Wakeup dependency from TPTC module (SWakeup signal) towards DSP + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "    WKUPDEP_TPTC2_IPU2      ,Wakeup dependency from TPTC module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_TPTC2_MPU      ,Wakeup dependency from TPTC module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x84++0x3
line.long 0x00 "RM_L3MAIN1_TPTC2_CONTEXT,This register contains dedicated TPTC2 context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_TPTC_BANK        ,Specify if memory-based context in TPTC_MEM memory bank has been lost due to a previous power transition or other reset source (not affected by a global warm reset). - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 1. "  LOSTCONTEXT_RFF         ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x210++0x3
line.long 0x00 "RM_IPU2_RSTCTRL,This register controls the release of the IPU2 sub-system resets."
bitfld.long 0x00 2. " RST_IPU                  ,IPU system reset control. - CLEAR. - ASSERT." "CLEAR,ASSERT"
bitfld.long 0x00 1. "      RST_CPU1                ,IPU Cortex M4 CPU1 reset control - CLEAR. - ASSERT." "CLEAR,ASSERT"
bitfld.long 0x00 0. "                  RST_CPU0               ,IPU Cortex M4 CPU0 reset control. - CLEAR. - ASSERT." "CLEAR,ASSERT"
group.long 0x214++0x3
line.long 0x00 "RM_IPU2_RSTST,This register logs the different reset sources of the IPU2 SS. Each bit is set upon release of the domain reset signal. Must be cleared by software. [warm reset insensitive]"
bitfld.long 0x00 6. " RST_ICECRUSHER_CPU1      ,Cortex M4 CPU1 has been reset due to IPU ICECRUSHER1 reset source - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
bitfld.long 0x00 5. "   RST_ICECRUSHER_CPU0     ,Cortex M4 CPU0 has been reset due to IPU ICECRUSHER0 reset source - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
bitfld.long 0x00 4. "               RST_EMULATION_CPU1     ,Cortex M4 CPU1 has been reset due to emulation reset source e.g. assert reset command initiated by the icepick module - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
textline "                                        "
bitfld.long 0x00 3. " RST_EMULATION_CPU0       ,Cortex M4 CPU0 has been reset due to emulation reset source e.g. assert reset command initiated by the icepick module - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
bitfld.long 0x00 2. "   RST_IPU                 ,IPU system SW reset status - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
bitfld.long 0x00 1. "               RST_CPU1               ,IPU Cortex-M4 CPU1 SW reset status - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
textline "                                        "
bitfld.long 0x00 0. " RST_CPU0                 ,IPU Cortex-M4 CPU0 SW reset status - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
group.long 0x224++0x3
line.long 0x00 "RM_IPU2_IPU2_CONTEXT,This register contains dedicated IPU2 context statuses. [warm reset insensitive]"
bitfld.long 0x00 9. " LOSTMEM_IPU_L2RAM        ,Specify if memory-based context in IPU_L2RAM memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 8. "  LOSTMEM_IPU_UNICACHE    ,Specify if memory-based context in IPU_UNICACHE memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 1. "              LOSTCONTEXT_RFF        ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of IPU_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
textline "                                        "
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of IPU_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x324++0x3
line.long 0x00 "RM_DMA_DMA_SYSTEM_CONTEXT,This register contains dedicated SDMA context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_CORE_OTHER_BANK  ,Specify if memory-based context in CORE_OTHER_BANK memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 1. "  LOSTCONTEXT_RFF         ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of DMA_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x424++0x3
line.long 0x00 "RM_EMIF_DMM_CONTEXT,This register contains dedicated DMM context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_PWRON_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "  LOSTCONTEXT_DFF         ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_PWRON_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x42C++0x3
line.long 0x00 "RM_EMIF_EMIF_OCP_FW_CONTEXT,This register contains dedicated EMIF_OCP_FW context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_PWRON_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "  LOSTCONTEXT_DFF         ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x434++0x3
line.long 0x00 "RM_EMIF_EMIF1_CONTEXT,This register contains dedicated EMIF_1 context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_PWRON_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "  LOSTCONTEXT_DFF         ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_PWRON_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x43C++0x3
line.long 0x00 "RM_EMIF_EMIF2_CONTEXT,This register contains dedicated EMIF_2 context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_PWRON_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "  LOSTCONTEXT_DFF         ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_PWRON_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x444++0x3
line.long 0x00 "RM_EMIF_EMIF_DLL_CONTEXT,This register contains dedicated DLL context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of DLL_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x624++0x3
line.long 0x00 "RM_L4CFG_L4_CFG_CONTEXT,This register contains dedicated L4_CFG context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_PWRON_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "  LOSTCONTEXT_DFF         ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x62C++0x3
line.long 0x00 "RM_L4CFG_SPINLOCK_CONTEXT,This register contains dedicated HW_SEM context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x634++0x3
line.long 0x00 "RM_L4CFG_MAILBOX1_CONTEXT,This register contains dedicated MAILBOX1 context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x63C++0x3
line.long 0x00 "RM_L4CFG_SAR_ROM_CONTEXT,This register contains dedicated SAR_ROM context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x644++0x3
line.long 0x00 "RM_L4CFG_OCP2SCP2_CONTEXT,This register contains dedicated OCP2SCP2 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x64C++0x3
line.long 0x00 "RM_L4CFG_MAILBOX2_CONTEXT,This register contains dedicated MAILBOX2 context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x654++0x3
line.long 0x00 "RM_L4CFG_MAILBOX3_CONTEXT,This register contains dedicated MAILBOX3 context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x65C++0x3
line.long 0x00 "RM_L4CFG_MAILBOX4_CONTEXT,This register contains dedicated MAILBOX4 context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x664++0x3
line.long 0x00 "RM_L4CFG_MAILBOX5_CONTEXT,This register contains dedicated MAILBOX5 context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x66C++0x3
line.long 0x00 "RM_L4CFG_MAILBOX6_CONTEXT,This register contains dedicated MAILBOX6 context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x674++0x3
line.long 0x00 "RM_L4CFG_MAILBOX7_CONTEXT,This register contains dedicated MAILBOX7 context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x67C++0x3
line.long 0x00 "RM_L4CFG_MAILBOX8_CONTEXT,This register contains dedicated MAILBOX8 context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x684++0x3
line.long 0x00 "RM_L4CFG_MAILBOX9_CONTEXT,This register contains dedicated MAILBOX9 context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x68C++0x3
line.long 0x00 "RM_L4CFG_MAILBOX10_CONTEXT,This register contains dedicated MAILBOX10 context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x694++0x3
line.long 0x00 "RM_L4CFG_MAILBOX11_CONTEXT,This register contains dedicated MAILBOX11 context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x69C++0x3
line.long 0x00 "RM_L4CFG_MAILBOX12_CONTEXT,This register contains dedicated MAILBOX12 context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x6A4++0x3
line.long 0x00 "RM_L4CFG_MAILBOX13_CONTEXT,This register contains dedicated MAILBOX13 context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x724++0x3
line.long 0x00 "RM_L3INSTR_L3_MAIN_2_CONTEXT,This register contains dedicated L3_3 context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_PWRON_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "  LOSTCONTEXT_DFF         ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x72C++0x3
line.long 0x00 "RM_L3INSTR_L3_INSTR_CONTEXT,This register contains dedicated L3_INSTR context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x744++0x3
line.long 0x00 "RM_L3INSTR_OCP_WP_NOC_CONTEXT,This register contains dedicated OCP_WP1 context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_CORE_NRET_BANK   ,Specify if memory-based context in CORE_NRET_BANK memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 1. "  LOSTCONTEXT_RFF         ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_PWRON_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "              LOSTCONTEXT_DFF        ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
width 0x0B
tree.end
tree "EMU_PRM"
base ad:0x4AE07900
width 24.
rgroup.long 0x0++0x3
line.long 0x00 "PM_EMU_PWRSTCTRL,This register controls the EMU power state to reach upon a domain sleep transition"
bitfld.long 0x00 16.--17. " EMU_BANK_ONSTATE      ,EMU memory state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
bitfld.long 0x00 0.--1. "      POWERSTATE      ,Power state control - OFF." "OFF,1,2,3"
group.long 0x4++0x3
line.long 0x00 "PM_EMU_PWRSTST,This register provides a status on the EMU domain current power state. [warm reset insensitive]"
bitfld.long 0x00 24.--25. " LASTPOWERSTATEENTERED ,Last low power state entered. Set to 0x3 upon write of the same only. This register is intended for debug purpose only. - OFF. - RET. - INACTIVE. - ON." "OFF,RET,INACTIVE,ON"
bitfld.long 0x00 20. "    INTRANSITION    ,Domain transition status - NO. - ONGOING." "NO,ONGOING"
bitfld.long 0x00 4.--5. "     EMU_BANK_STATEST ,EMU memory bank state status - MEM_OFF. - RESERVED1. - RESERVED2. - MEM_ON." "MEM_OFF,RESERVED1,RESERVED2,MEM_ON"
textline "                                 "
bitfld.long 0x00 2. " LOGICSTATEST          ,Logic state status - OFF. - ON." "OFF,ON"
bitfld.long 0x00 0.--1. "         POWERSTATEST    ,Current power state status - OFF. - ON." "OFF,1,2,ON"
group.long 0x24++0x3
line.long 0x00 "RM_EMU_DEBUGSS_CONTEXT,This register contains dedicated DEBUGSS context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_EMU_BANK      ,Specify if memory-based context in EMU_BANK memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "  LOSTCONTEXT_DFF ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of EMU_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
width 0x0B
tree.end
tree "CM_CORE__CKGEN"
base ad:0x4A008100
width 27.
group.long 0x4++0x3
line.long 0x00 "CM_CLKSEL_USB_60MHZ,Selects the configuration of the divider generating 60MHz clock for USB from the DPLL_USB o/p."
bitfld.long 0x00 0. " CLKSEL             ,Select the configuration of the divider - SEL_DIV_1. - SEL_DIV_8." "SEL_DIV_1,SEL_DIV_8"
group.long 0x40++0x3
line.long 0x00 "CM_CLKMODE_DPLL_PER,This register allows controlling the DPLL modes."
bitfld.long 0x00 11. " DPLL_REGM4XEN      ,Enable the REGM4XEN mode of the DPLL. Please check the DPLL documentation to check when this mode can be enabled. - DISABLED." "DISABLED,1"
bitfld.long 0x00 10. "             DPLL_LPMODE_EN      ,Set the DPLL in Low Power mode. Check the DPLL documentation to see when this can be enabled. - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 9. "              DPLL_RELOCK_RAMP_EN ,If enabled, the clock ramping feature is used applied during the lock process, as well as the relock process. If disabled, the clock ramping feature is used only during the first lock." "Disabled,Enabled"
textline "                                    "
bitfld.long 0x00 8. " DPLL_DRIFTGUARD_EN ,This bit allows to enable or disable the automatic recalibration feature of the DPLL. The DPLL will automatically start a recalibration process upon assertion of the DPLL's RECAL flag if this bit is set. - DIASBLED. - ENABLED." "DIASBLED,ENABLED"
bitfld.long 0x00 5.--7. "             DPLL_RAMP_RATE      ,Selects the time in terms of DPLL REFCLKs spent at each stage of the clock ramping process - REFCLKX2. - REFCLKX4. - REFCLKX8. - REFCLKX16. - REFCLKX32. - REFCLKX64. - REFCLKX128. - REFCLKX512." "REFCLKX2,REFCLKX4,REFCLKX8,REFCLKX16,REFCLKX32,REFCLKX64,REFCLKX128,REFCLKX512"
bitfld.long 0x00 3.--4. "            DPLL_RAMP_LEVEL     ,The DPLL provides an output clock frequency ramping feature when switching from bypass clock to normal clock during lock and re-lock. The frequency ramping will happen in a maximum of 4 steps in frequency before the DPL..." "RAMP_DISABLE,RAMP_ALGO1,RAMP_ALGO2,RESERVED"
textline "                                    "
bitfld.long 0x00 0.--2. " DPLL_EN            ,DPLL control. - RESERVED. - RESERVED1. - RESERVED2. - RESERVED3. - RESERVED4. - DPLL_LP_BYP_MODE. - DPLL_FR_BYP_MODE. - DPLL_LOCK_MODE." "RESERVED,RESERVED1,RESERVED2,RESERVED3,RESERVED4,DPLL_LP_BYP_MODE,DPLL_FR_BYP_MODE,DPLL_LOCK_MODE"
rgroup.long 0x44++0x3
line.long 0x00 "CM_IDLEST_DPLL_PER,This register allows monitoring DPLL activity. This register is read only and automatically updated. [warm reset insensitive]"
bitfld.long 0x00 4. " ST_DPLL_INIT       ,DPLL init status (for debug purpose). - DPLL_NOTINIT. - DPLL_INIT." "DPLL_NOTINIT,DPLL_INIT"
bitfld.long 0x00 1.--3. "         ST_DPLL_MODE        ,DPLL mode status (for debug purpose). - TRANSIENT. - LP_STOP. - FR_STOP. - RESERVED1. - RESERVED2. - LP_BYP. - FR_BYP. - RESERVED3." "TRANSIENT,LP_STOP,FR_STOP,RESERVED1,RESERVED2,LP_BYP,FR_BYP,RESERVED3"
bitfld.long 0x00 0. "             ST_DPLL_CLK         ,DPLL lock status - DPLL_UNLOCKED. - DPLL_LOCKED." "DPLL_UNLOCKED,DPLL_LOCKED"
group.long 0x48++0x3
line.long 0x00 "CM_AUTOIDLE_DPLL_PER,This register provides automatic control over the DPLL activity."
bitfld.long 0x00 0.--2. " AUTO_DPLL_MODE     ,DPLL automatic control; - AUTO_CTL_DISABLE. - AUTO_LP_STOP. - AUTO_FR_STOP. - RESERVED3. - RESERVED4. - AUTO_LP_BYP. - AUTO_FR_BYP. - RESERVED7." "AUTO_CTL_DISABLE,AUTO_LP_STOP,AUTO_FR_STOP,RESERVED3,RESERVED4,AUTO_LP_BYP,AUTO_FR_BYP,RESERVED7"
group.long 0x4C++0x3
line.long 0x00 "CM_CLKSEL_DPLL_PER,This register provides controls over the DPLL."
bitfld.long 0x00 23. " DPLL_BYP_CLKSEL    ,Allows control of the BYPASS clock of the PLL and the associated HSDIVIDER. Same as ULOWCLKEN on DPLL. In DPLL Locked mode, 0 - No impact 1 - No impact In DPLL Bypass mode, 0 - CLKINP is selected as the BYPASS clock for CLKOUT/CLKO..." "CLKINP,CLKINPULOW"
bitfld.long 0x00 22. "           DCC_EN              ,Duty-cycle corrector for high frequency clock - DISABLED." "DISABLED,1"
hexmask.long.word 0x00 8.--18. 1. "              DPLL_MULT           ,DPLL multiplier factor (2 to 2047). (equal to input M of DPLL; M=2 to 2047 = DPLL multiplies by M). [warm reset insensitive] - RESERVED_0. - RESERVED_1."
textline "                                    "
hexmask.long.byte 0x00 0.--6. 1. " DPLL_DIV           ,DPLL divider factor (0 to 127) (equal to input N of DPLL; actual division factor is N+1). [warm reset insensitive]"
group.long 0x50++0x3
line.long 0x00 "CM_DIV_M2_DPLL_PER,This register provides controls over the M2 divider of the DPLL."
bitfld.long 0x00 11. " CLKX2ST            ,DPLL CLKOUTX2 status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
bitfld.long 0x00 9. "          CLKST               ,DPLL CLKOUT status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
bitfld.long 0x00 0.--4. "           DIVHS               ,DPLL M2 post-divider factor (1 to 31). - RESERVED." "RESERVED,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x58++0x3
line.long 0x00 "CM_DIV_H11_DPLL_PER,This register provides controls over the CLKOUT1 o/p of the HSDIVIDER1."
bitfld.long 0x00 9. " CLKST              ,HSDIVIDER1 CLKOUT1 status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
bitfld.long 0x00 0.--5. "          DIVHS               ,DPLL (H11+1) post-divider factor (1 to 63). - RESERVED." "RESERVED,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x5C++0x3
line.long 0x00 "CM_DIV_H12_DPLL_PER,This register provides controls over the CLKOUT2 o/p of the HSDIVIDER1."
bitfld.long 0x00 9. " CLKST              ,HSDIVIDER1 CLKOUT2 status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
bitfld.long 0x00 0.--5. "          DIVHS               ,DPLL (H12+1) post-divider factor (1 to 63). - RESERVED." "RESERVED,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x60++0x3
line.long 0x00 "CM_DIV_H13_DPLL_PER,This register provides controls over the CLKOUT3 o/p of the HSDIVIDER1."
bitfld.long 0x00 9. " CLKST              ,HSDIVIDER1 CLKOUT3 status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
bitfld.long 0x00 0.--5. "          DIVHS               ,DPLL (H13+1) post-divider factor (1 to 63). - RESERVED." "RESERVED,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x64++0x3
line.long 0x00 "CM_DIV_H14_DPLL_PER,This register provides controls over the CLKOUT4 o/p of the HSDIVIDER1."
bitfld.long 0x00 9. " CLKST              ,HSDIVIDER1 CLKOUT4 status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
bitfld.long 0x00 0.--5. "          DIVHS               ,DPLL (H14+1) post-divider factor (1 to 63). When a value of 63 is programmed in this register, HS divider will perform division by 2.5 that is divided by 2 at top level. - RESERVED. - . - ." "RESERVED,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x80++0x3
line.long 0x00 "CM_CLKMODE_DPLL_USB,This register allows controlling the DPLL modes."
bitfld.long 0x00 15. " DPLL_SSC_TYPE      ,Select between Triangular and SquareWave Spread Spectrum Clocking - TRIANGULAR. - SQUARE." "TRIANGULAR,SQUARE"
bitfld.long 0x00 14. "           DPLL_SSC_DOWNSPREAD ,Control if only low frequency spread is required - FULL_SPREAD. - LOW_SPREAD." "FULL_SPREAD,LOW_SPREAD"
bitfld.long 0x00 13. "           DPLL_SSC_ACK        ,Acknowledgement from the DPLL regarding start and stop of Spread Spectrum Clocking feature - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                    "
bitfld.long 0x00 12. " DPLL_SSC_EN        ,Enable or disable Spread Spectrum Clocking - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 0.--2. "             DPLL_EN             ,DPLL control. - RESERVED. - DPLL_LP_STP_MODE. - RESERVED2. - RESERVED3. - RESERVED4. - DPLL_LP_BYP_MODE. - RESERVED6. - DPLL_LOCK_MODE." "RESERVED,DPLL_LP_STP_MODE,RESERVED2,RESERVED3,RESERVED4,DPLL_LP_BYP_MODE,RESERVED6,DPLL_LOCK_MODE"
rgroup.long 0x84++0x3
line.long 0x00 "CM_IDLEST_DPLL_USB,This register allows monitoring DPLL activity. This register is read only and automatically updated. [warm reset insensitive]"
bitfld.long 0x00 4. " ST_DPLL_INIT       ,DPLL init status (for debug purpose). - DPLL_NOTINIT. - DPLL_INIT." "DPLL_NOTINIT,DPLL_INIT"
bitfld.long 0x00 1.--3. "         ST_DPLL_MODE        ,DPLL mode status (for debug purpose). - TRANSIENT. - LP_STOP. - RESERVED2. - RESERVED3. - RESERVED4. - LP_BYP. - RESERVED6. - RESERVED7." "TRANSIENT,LP_STOP,RESERVED2,RESERVED3,RESERVED4,LP_BYP,RESERVED6,RESERVED7"
bitfld.long 0x00 0. "             ST_DPLL_CLK         ,DPLL lock status - DPLL_UNLOCKED. - DPLL_LOCKED." "DPLL_UNLOCKED,DPLL_LOCKED"
group.long 0x88++0x3
line.long 0x00 "CM_AUTOIDLE_DPLL_USB,This register provides automatic control over the DPLL activity."
bitfld.long 0x00 0.--2. " AUTO_DPLL_MODE     ,DPLL automatic control; - AUTO_CTL_DISABLE. - AUTO_LP_STOP. - RESERVED2. - RESERVED3. - RESERVED4. - AUTO_LP_BYP. - RESERVED6. - RESERVED7." "AUTO_CTL_DISABLE,AUTO_LP_STOP,RESERVED2,RESERVED3,RESERVED4,AUTO_LP_BYP,RESERVED6,RESERVED7"
group.long 0x8C++0x3
line.long 0x00 "CM_CLKSEL_DPLL_USB,This register provides controls over the DPLL."
hexmask.long.byte 0x00 24.--31. 1. " DPLL_SD_DIV        ,Sigma-Delta divider select (2-255). This factor must be set by s/w to ensure optimum jitter performance. DPLL_SD_DIV = CEILING ([DPLL_MULT/(DPLL_DIV+1)] * CLKINP / 250), where CLKINP is the input clock of the DPLL in MHz). Must be ..."
bitfld.long 0x00 23. "                   DPLL_BYP_CLKSEL     ,Allows control of the BYPASS clock of the PLL and the associated HSDIVIDER. Same as ULOWCLKEN on DPLL. In DPLL Locked mode, 0 - No impact 1 - No impact In DPLL Bypass mode, 0 - CLKINP is selected as the BYPASS cl..." "CLKINP,CLKINPULOW"
bitfld.long 0x00 22. "            DCC_EN              ,Duty-cycle corrector for high frequency clock - DISABLED." "DISABLED,1"
textline "                                    "
bitfld.long 0x00 21. " DPLL_SELFREQDCO    ,select DCO output according to required frequency. - LS_CLK. - HS_CLK." "LS_CLK,HS_CLK"
hexmask.long.word 0x00 8.--19. 1. "               DPLL_MULT           ,DPLL multiplier factor (2 to 4095). (equal to input M of DPLL; M=2 to 4095 = DPLL multiplies by M). [warm reset insensitive] - RESERVED_0. - RESERVED_1."
hexmask.long.byte 0x00 0.--7. 1. "                  DPLL_DIV            ,DPLL divider factor (0 to 255) (equal to input N of DPLL; actual division factor is N+1). [warm reset insensitive]"
group.long 0x90++0x3
line.long 0x00 "CM_DIV_M2_DPLL_USB,This register provides controls over the M2 divider of the DPLL."
bitfld.long 0x00 9. " CLKST              ,DPLL CLKOUT status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
hexmask.long.byte 0x00 0.--6. 1. "          DIVHS               ,DPLL M2 post-divider factor (1 to 127). - RESERVED."
rgroup.long 0xB4++0x3
line.long 0x00 "CM_CLKDCOLDO_DPLL_USB,This register provides status over CLKDCOLDO output of the DPLL."
bitfld.long 0x00 9. " ST_DPLL_CLKDCOLDO  ,DPLL CLKDCOLDO status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
group.long 0x100++0x3
line.long 0x00 "CM_CLKMODE_DPLL_PCIE_REF,This register allows controlling the DPLL modes."
bitfld.long 0x00 0.--2. " DPLL_EN            ,DPLL control. - RESERVED. - DPLL_LP_STP_MODE. - RESERVED2. - RESERVED3. - RESERVED4. - DPLL_LP_BYP_MODE. - RESERVED6. - DPLL_LOCK_MODE." "RESERVED,DPLL_LP_STP_MODE,RESERVED2,RESERVED3,RESERVED4,DPLL_LP_BYP_MODE,RESERVED6,DPLL_LOCK_MODE"
rgroup.long 0x104++0x3
line.long 0x00 "CM_IDLEST_DPLL_PCIE_REF,This register allows monitoring DPLL activity. This register is read only and automatically updated. [warm reset insensitive]"
bitfld.long 0x00 4. " ST_DPLL_INIT       ,DPLL init status (for debug purpose). - DPLL_NOTINIT. - DPLL_INIT." "DPLL_NOTINIT,DPLL_INIT"
bitfld.long 0x00 1.--3. "         ST_DPLL_MODE        ,DPLL mode status (for debug purpose). - TRANSIENT. - LP_STOP. - RESERVED2. - RESERVED3. - RESERVED4. - LP_BYP. - RESERVED6. - RESERVED7." "TRANSIENT,LP_STOP,RESERVED2,RESERVED3,RESERVED4,LP_BYP,RESERVED6,RESERVED7"
bitfld.long 0x00 0. "             ST_DPLL_CLK         ,DPLL lock status - DPLL_UNLOCKED. - DPLL_LOCKED." "DPLL_UNLOCKED,DPLL_LOCKED"
group.long 0x108++0x3
line.long 0x00 "CM_AUTOIDLE_DPLL_PCIE_REF,This register provides automatic control over the DPLL activity."
bitfld.long 0x00 0.--2. " AUTO_DPLL_MODE     ,DPLL automatic control; - AUTO_CTL_DISABLE. - AUTO_LP_STOP. - RESERVED2. - RESERVED3. - RESERVED4. - AUTO_LP_BYP. - RESERVED6. - RESERVED7." "AUTO_CTL_DISABLE,AUTO_LP_STOP,RESERVED2,RESERVED3,RESERVED4,AUTO_LP_BYP,RESERVED6,RESERVED7"
group.long 0x10C++0x3
line.long 0x00 "CM_CLKSEL_DPLL_PCIE_REF,This register provides controls over the DPLL."
hexmask.long.byte 0x00 24.--31. 1. " DPLL_SD_DIV        ,Sigma-Delta divider select (2-255). This factor must be set by s/w to ensure optimum jitter performance. DPLL_SD_DIV = CEILING ([DPLL_MULT/(DPLL_DIV+1)] * CLKINP / 250), where CLKINP is the input clock of the DPLL in MHz). Must be ..."
bitfld.long 0x00 23. "                   DPLL_BYP_CLKSEL     ,Allows control of the BYPASS clock of the PLL and the associated HSDIVIDER. Same as ULOWCLKEN on DPLL. In DPLL Locked mode, 0 - No impact 1 - No impact In DPLL Bypass mode, 0 - CLKINP is selected as the BYPASS cl..." "0,1"
bitfld.long 0x00 22. "                     DCC_EN              ,Duty-cycle corrector for high frequency clock - DISABLED." "DISABLED,1"
textline "                                    "
bitfld.long 0x00 21. " DPLL_SELFREQDCO    ,select DCO output according to required frequency. - LS_CLK. - HS_CLK." "LS_CLK,HS_CLK"
hexmask.long.word 0x00 8.--19. 1. "               DPLL_MULT           ,DPLL multiplier factor (2 to 4095). (equal to input M of DPLL; M=2 to 4095 = DPLL multiplies by M). [warm reset insensitive] - RESERVED_0. - RESERVED_1."
hexmask.long.byte 0x00 0.--7. 1. "                  DPLL_DIV            ,DPLL divider factor (0 to 255) (equal to input N of DPLL; actual division factor is N+1). [warm reset insensitive]"
group.long 0x110++0x3
line.long 0x00 "CM_DIV_M2_DPLL_PCIE_REF,This register provides controls over the M2 divider of the DPLL."
bitfld.long 0x00 10. " CLKLDOST           ,DPLL CLKOUTLDO status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
bitfld.long 0x00 9. "          CLKST               ,DPLL CLKOUT status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
hexmask.long.byte 0x00 0.--6. 1. "           DIVHS               ,DPLL M2 post-divider factor (1 to 127). - RESERVED."
group.long 0x11C++0x3
line.long 0x00 "CM_CLKMODE_APLL_PCIE,This register allows controlling the APLL modes."
bitfld.long 0x00 8. " CLKDIV_BYPASS      ,- PCIEDIVBY2_BYPASS_0. - PCIEDIVBY2_BYPASS_1." "PCIEDIVBY2_BYPASS_0,PCIEDIVBY2_BYPASS_1"
bitfld.long 0x00 7. "  REFSEL              ,Select source of reference input clock - CLKREF_ADPLL. - CLKREF_ACSPCIE." "CLKREF_ADPLL,CLKREF_ACSPCIE"
bitfld.long 0x00 3.--5. "        INPSEL              ,Reference clock is 100MHz." "0,1,2,3,4,5,6,7"
textline "                                    "
bitfld.long 0x00 2. " MODE               ,APLLPCIE Mode Status - PCIE." "PCIE,1"
bitfld.long 0x00 0.--1. "                 MODE_SELECT         ,Control APLL mode.Note:Please note that setting CM_CLKMODE_APLL_PCIE [1:0] MODE_SELECT bitfield to 0x0 does not disable the APLL_PCIE. In order to disable the APLL_PCIE, the user needs to disable PCIe_SSx (where x ..." "RESERVED,APLL_FORCE_LOCK_MODE,APLL_FORCE_IDLE_MODE,RESERVED1"
rgroup.long 0x120++0x3
line.long 0x00 "CM_IDLEST_APLL_PCIE,This register allows monitoring APLL activity. This register is read only and automatically updated. [warm reset insensitive]"
bitfld.long 0x00 0. " ST_APLL_CLK        ,APLL lock status - APLL_UNLOCKED. - APLL_LOCKED." "APLL_UNLOCKED,APLL_LOCKED"
rgroup.long 0x124++0x3
line.long 0x00 "CM_DIV_M2_APLL_PCIE,This register provides controls over the M2 divider of the DPLL."
bitfld.long 0x00 9. " CLKST              ,DPLL CLKOUT status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
hexmask.long.byte 0x00 0.--6. 1. "          DIVHS               ,DPLL M2 post-divider factor (1 to 127). (RESERVED) - RESERVED."
rgroup.long 0x128++0x3
line.long 0x00 "CM_CLKVCOLDO_APLL_PCIE,This register provides status over CLKVCOLDO and CLKVCOLDO_DIV outputs of the APLL."
bitfld.long 0x00 10. " CLK_DIVST          ,APLL CLKVCOLDO_DIV status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
bitfld.long 0x00 9. "          CLKST               ,APLL CLKVCOLDO status - CLK_GATED. - CLK_ENABLED." "CLK_GATED,CLK_ENABLED"
width 0x0B
tree.end
tree "WKUPAON_CM"
base ad:0x4AE07800
width 32.
group.long 0x0++0x3
line.long 0x00 "CM_WKUPAON_CLKSTCTRL,This register enables the domain power state transition. It controls the HW supervised domain power state transition between ON-ACTIVE and ON-INACTIVE states. It also hold one status bit per clock input of the domain."
bitfld.long 0x00 19. " CLKACTIVITY_ADC_L3_GICLK      ,This field indicates the state of the ADC_L3_GICLK clock in the domain(it includes profiling, EMU_SYS_GCLK and all functional SYS_CLK. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 18. "                 CLKACTIVITY_UART10_GFCLK ,This field indicates the state of the UART10_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 17. "       CLKACTIVITY_TIMER1_GFCLK  ,This field indicates the state of the TIMER1_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                                         "
bitfld.long 0x00 16. " CLKACTIVITY_DCAN1_SYS_CLK     ,This field indicates the state of the DCAN1_SYS_CLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 14. "                 CLKACTIVITY_SYS_CLK_FUNC ,This field indicates the state of the functional SYS_CLK clocks in the domain (this exclude activity of EMU_GCLK clock). [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 12. "       CLKACTIVITY_WKUPAON_GICLK ,This field indicates the state of the WKUPAON_GICLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                                         "
bitfld.long 0x00 11. " CLKACTIVITY_WKUPAON_SYS_GFCLK ,This field indicates the state of the WKUPAON_SYS_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 9. "                 CLKACTIVITY_ABE_LP_CLK   ,This field indicates the state of the ABE_LP_CLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 8. "       CLKACTIVITY_SYS_CLK       ,This field indicates the state of the SYS_CLK clock in the domain(it includes profiling, EMU_SYS_GCLK and all functional SYS_CLK. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                                         "
bitfld.long 0x00 0.--1. " CLKTRCTRL                     ,Controls the clock state transition of the WKUPAON clock domain. - NO_SLEEP. - RESERVED_1. - SW_WKUP. - HW_AUTO." "NO_SLEEP,RESERVED_1,SW_WKUP,HW_AUTO"
rgroup.long 0x20++0x3
line.long 0x00 "CM_WKUPAON_L4_WKUP_CLKCTRL,This register manages the WKUPAON clocks."
bitfld.long 0x00 16.--17. " IDLEST                        ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "               MODULEMODE               ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
group.long 0x30++0x3
line.long 0x00 "CM_WKUPAON_WD_TIMER2_CLKCTRL,This register manages the WD_TIMER2 clocks."
bitfld.long 0x00 16.--17. " IDLEST                        ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "               MODULEMODE               ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x38++0x3
line.long 0x00 "CM_WKUPAON_GPIO1_CLKCTRL,This register manages the GPIO1 clocks."
bitfld.long 0x00 16.--17. " IDLEST                        ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 8. "               OPTFCLKEN_DBCLK          ,Optional functional clock control. - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
bitfld.long 0x00 0.--1. "    MODULEMODE                ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
group.long 0x40++0x3
line.long 0x00 "CM_WKUPAON_TIMER1_CLKCTRL,This register manages the TIMER1 clocks."
bitfld.long 0x00 24.--27. " CLKSEL                        ,Select the source of the functional clock - SEL_TIMER_SYS_CLK. - SEL_SYS_CLK1_32K_CLK. - SEL_SYS_CLK2. - SEL_XREF_CLK0. - SEL_XREF_CLK1. - SEL_XREF_CLK2. - SEL_XREF_CLK3. - SEL_PER_ABE_X1_GFCLK. - SEL_VIDEO1_CLK. - SEL_V..." "SEL_TIMER_SYS_CLK,SEL_SYS_CLK1_32K_CLK,SEL_SYS_CLK2,SEL_XREF_CLK0,SEL_XREF_CLK1,SEL_XREF_CLK2,SEL_XREF_CLK3,SEL_PER_ABE_X1_GFCLK,SEL_VIDEO1_CLK,SEL_VIDEO2_CLK,SEL_HDMI_CLK,11,12,13,14,15"
bitfld.long 0x00 16.--17. "  IDLEST                   ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
rgroup.long 0x48++0x3
line.long 0x00 "CM_WKUPAON_TIMER12_CLKCTRL,This register manages the TIMER12 clocks."
bitfld.long 0x00 16.--17. " IDLEST                        ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "               MODULEMODE               ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
rgroup.long 0x50++0x3
line.long 0x00 "CM_WKUPAON_COUNTER_32K_CLKCTRL,This register manages the COUNTER_32K clocks."
bitfld.long 0x00 16.--17. " IDLEST                        ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "               MODULEMODE               ,Control the way mandatory clocks are managed. - AUTO." "0,AUTO,2,3"
group.long 0x80++0x3
line.long 0x00 "CM_WKUPAON_UART10_CLKCTRL,This register manages the UART10 clocks."
bitfld.long 0x00 24. " CLKSEL                        ,Selects functional clock for UART between FUNC_48M_FCLK and FUNC_192M_CLK - SEL_FUNC_48M_CLK. - SEL_FUNC_192M_CLK." "SEL_FUNC_48M_CLK,SEL_FUNC_192M_CLK"
bitfld.long 0x00 16.--17. "     IDLEST                   ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x88++0x3
line.long 0x00 "CM_WKUPAON_DCAN1_CLKCTRL,This register manages the DCAN1 clocks."
bitfld.long 0x00 24. " CLKSEL                        ,Selects SYS clock for DCAN1 between SYS_CLK1 and SYS_CLK2 - SEL_SYS_CLK1. - SEL_SYS_CLK2." "SEL_SYS_CLK1,SEL_SYS_CLK2"
bitfld.long 0x00 16.--17. "          IDLEST                   ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE                ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
width 0x0B
tree.end
tree "CM_CORE_AON__OCP_SOCKET"
base ad:0x4A005000
width 34.
rgroup.long 0x0++0x3
line.long 0x00 "REVISION_CM_CORE_AON,This register contains the IP revision code for the CM_CORE_AON part of the PRCM"
hexmask.long 0x00 0.--31. 1. " REVISION ,IP Revision number"
group.long 0x40++0x3
line.long 0x00 "CM_CM_CORE_AON_PROFILING_CLKCTRL,This register manages the CM_CORE_AON_PROFILING clock. [warm reset insensitive]"
bitfld.long 0x00 16.--17. " IDLEST   ,Module idle status - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "   MODULEMODE ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
rgroup.long 0xEC++0x3
line.long 0x00 "CM_CORE_AON_DEBUG_OUT,This register is used to monitor the CM_COREAON's 32 bit HEDEBUG BUS [warm reset insensitive]"
hexmask.long 0x00 0.--31. 1. " OUTPUT   ,HW DEBUG OUTPUT"
group.long 0xF0++0x3
line.long 0x00 "CM_CORE_AON_DEBUG_CFG0,This register is used to configure the CM_CORE_AON's 32-bit debug output. There is one 7-bit source select field for selecting from a shared set of 8-bit internal signal blocks per byte. The signals included in each block are spe..."
hexmask.long.word 0x00 0.--9. 1. " SEL0     ,Internal signal block select for debug word byte-0"
group.long 0xF4++0x3
line.long 0x00 "CM_CORE_AON_DEBUG_CFG1,This register is used to configure the CM_CORE_AON's 32-bit debug output. There is one 7-bit source select field for selecting from a shared set of 8-bit internal signal blocks per byte. The signals included in each block are spe..."
hexmask.long.word 0x00 0.--9. 1. " SEL1     ,Internal signal block select for debug word byte-1"
group.long 0xF8++0x3
line.long 0x00 "CM_CORE_AON_DEBUG_CFG2,This register is used to configure the CM_CORE_AON's 32-bit debug output. There is one 7-bit source select field for selecting from a shared set of 8-bit internal signal blocks per byte. The signals included in each block are spe..."
hexmask.long.word 0x00 0.--9. 1. " SEL2     ,Internal signal block select for debug word byte-2"
group.long 0xFC++0x3
line.long 0x00 "CM_CORE_AON_DEBUG_CFG3,This register is used to configure the CM_CORE_AON's 32-bit debug output. There is one 7-bit source select field for selecting from a shared set of 8-bit internal signal blocks per byte. The signals included in each block are spe..."
hexmask.long.word 0x00 0.--9. 1. " SEL3     ,Internal signal block select for debug word byte-3"
width 0x0B
tree.end
tree "MPU_PRM"
base ad:0x4AE06300
width 20.
group.long 0x0++0x3
line.long 0x00 "PM_MPU_PWRSTCTRL,This register controls the MPU domain power state to reach upon a domain sleep transition. If the value programmed in this register correspond to a lower power state than the one programmed in MPU-SS for CPU0 and/or CPU1, then value of..."
bitfld.long 0x00 20.--21. " MPU_RAM_ONSTATE       ,MPU_RAM memory state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
bitfld.long 0x00 18.--19. "      MPU_L2_ONSTATE      ,MPU_L2 memory state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
bitfld.long 0x00 10. "      MPU_RAM_RETSTATE ,MPU_RAM memory state when domain is RETENTION. - MEM_RET." "0,MEM_RET"
textline "                             "
bitfld.long 0x00 9. " MPU_L2_RETSTATE       ,MPU_L2 memory state when domain is RETENTION. Should always be same as or higher than LogicRETState bit-field. - MEM_OFF. - MEM_RET." "MEM_OFF,MEM_RET"
bitfld.long 0x00 4. "     LOWPOWERSTATECHANGE ,Power state change request when domain has already performed a sleep transition. Allows going into deeper low power state without waking up the power domain. - DIS." "DIS,1"
bitfld.long 0x00 2. "         LOGICRETSTATE    ,Logic state when power domain is RETENTION - LOGIC_OFF. - LOGIC_RET." "LOGIC_OFF,LOGIC_RET"
textline "                             "
bitfld.long 0x00 0.--1. " POWERSTATE            ,Power state control - RESERVED. - RET. - INACT. - ON." "RESERVED,RET,INACT,ON"
group.long 0x4++0x3
line.long 0x00 "PM_MPU_PWRSTST,This register provides a status on the MPU domain current power state. [warm reset insensitive]"
bitfld.long 0x00 24.--25. " LASTPOWERSTATEENTERED ,Last low power state entered. Set to 0x3 upon write of the same only. This register is intended for debug purpose only. - OFF. - RET. - INACTIVE. - ON." "OFF,RET,INACTIVE,ON"
bitfld.long 0x00 20. "    INTRANSITION        ,Domain transition status - NO. - ONGOING." "NO,ONGOING"
bitfld.long 0x00 8.--9. "     MPU_RAM_STATEST  ,MPU_RAM memory state status - MEM_OFF. - MEM_RET. - RESERVED. - MEM_ON." "MEM_OFF,MEM_RET,RESERVED,MEM_ON"
textline "                             "
bitfld.long 0x00 6.--7. " MPU_L2_STATEST        ,MPU_L2 memory state status - MEM_OFF. - MEM_RET. - RESERVED. - MEM_ON." "MEM_OFF,MEM_RET,RESERVED,MEM_ON"
bitfld.long 0x00 2. "    LOGICSTATEST        ,Logic state status - OFF. - ON." "OFF,ON"
bitfld.long 0x00 0.--1. "         POWERSTATEST     ,Current power state status - OFF. - RET. - INACTIVE. - ON." "OFF,RET,INACTIVE,ON"
group.long 0x24++0x3
line.long 0x00 "RM_MPU_MPU_CONTEXT,This register contains dedicated MPU context statuses. [warm reset insensitive]"
bitfld.long 0x00 10. " LOSTMEM_MPU_RAM       ,Specify if memory-based context in MPU_RAM memory bank has been lost due to a previous power transition or other reset source (not affected by a global warm reset). - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 9. "  LOSTMEM_MPU_L2      ,Specify if memory-based context in MPU_L2 memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 1. "  LOSTCONTEXT_RFF  ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of MPU_MA_PWRON_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
textline "                             "
bitfld.long 0x00 0. " LOSTCONTEXT_DFF       ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of MPU_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
width 0x0B
tree.end
tree "CM_CORE__IVA"
base ad:0x4A008F00
width 20.
group.long 0x0++0x3
line.long 0x00 "CM_IVA_CLKSTCTRL,This register enables the IVA domain power state transition. It controls the HW supervised domain power state transition between ON-ACTIVE and ON-INACTIVE states. It also hold one status bit per clock input of the domain."
bitfld.long 0x00 8. " CLKACTIVITY_IVA_GCLK ,This field indicates the state of the IVA_ROOT_CLK clock input of the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 0.--1. "     CLKTRCTRL    ,Controls the clock state transition of the IVA clock domain. - NO_SLEEP. - SW_SLEEP. - SW_WKUP. - HW_AUTO." "NO_SLEEP,SW_SLEEP,SW_WKUP,HW_AUTO"
group.long 0x4++0x3
line.long 0x00 "CM_IVA_STATICDEP,This register controls the static domain depedencies from IVA domain towards 'target' domains. It is relevant only for domain having system initiator(s)."
bitfld.long 0x00 5. " L3MAIN1_STATDEP      ,Static dependency towards L3MAIN1 clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 4. "   EMIF_STATDEP ,Static dependency towards EMIF clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
rgroup.long 0x8++0x3
line.long 0x00 "CM_IVA_DYNAMICDEP,This register controls the dynamic domain depedencies from IVA domain towards 'target' domains. It is relevant only for domain having OCP master port(s)."
bitfld.long 0x00 5. " L3MAIN1_DYNDEP       ,Dynamic dependency towards L3MAIN1 clock domain - DISABLED." "DISABLED,1"
group.long 0x20++0x3
line.long 0x00 "CM_IVA_IVA_CLKCTRL,This register manages the IVA clocks."
bitfld.long 0x00 18. " STBYST               ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
bitfld.long 0x00 16.--17. "   IDLEST       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "     MODULEMODE ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
group.long 0x28++0x3
line.long 0x00 "CM_IVA_SL2_CLKCTRL,This register manages the SL2 clocks."
bitfld.long 0x00 16.--17. " IDLEST               ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "   MODULEMODE   ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
width 0x0B
tree.end
tree "CM_CORE_AON__IPU"
base ad:0x4A005500
width 23.
group.long 0x0++0x3
line.long 0x00 "CM_IPU1_CLKSTCTRL,This register enables the domain power state transition. It controls the HW supervised domain power state transition between ON-ACTIVE and ON-INACTIVE states. It also hold one status bit per clock input of the domain."
bitfld.long 0x00 8. " CLKACTIVITY_IPU1_GFCLK    ,This field indicates the state of the IPU1_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 0.--1. "                       CLKTRCTRL                 ,Controls the clock state transition of the IPU1 clock domain. - NO_SLEEP. - SW_SLEEP. - SW_WKUP. - HW_AUTO." "NO_SLEEP,SW_SLEEP,SW_WKUP,HW_AUTO"
group.long 0x4++0x3
line.long 0x00 "CM_IPU1_STATICDEP,This register controls the static domain depedencies from IPU domain towards 'target' domains. It is relevant only for domain having system initiator(s)."
bitfld.long 0x00 29. " PCIE_STATDEP              ,Static dependency towards PCIE clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 28. "                    VPE_STATDEP               ,Static dependency towards VPE clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 27. "            L4PER3_STATDEP               ,Static dependency towards L4PER3 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                "
bitfld.long 0x00 26. " L4PER2_STATDEP            ,Static dependency towards L4PER2 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 25. "                    GMAC_STATDEP              ,Static dependency towards GMAC clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 24. "            IPU_STATDEP                  ,Static dependency towards IPU clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                "
bitfld.long 0x00 22. " EVE4_STATDEP              ,Static dependency towards EVE4 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 21. "                    EVE3_STATDEP              ,Static dependency towards EVE3 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 20. "            EVE2_STATDEP                 ,Static dependency towards EVE2 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                "
bitfld.long 0x00 19. " EVE1_STATDEP              ,Static dependency towards EVE1 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 18. "                    DSP2_STATDEP              ,Static dependency towards DSP2 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 17. "            CUSTEFUSE_STATDEP            ,Static dependency towards CUSTEFUSE clock domain - DISABLED." "DISABLED,1"
textline "                                "
bitfld.long 0x00 16. " COREAON_STATDEP           ,Static dependency towards COREAON clock domain - DISABLED." "DISABLED,1"
bitfld.long 0x00 15. "                    WKUPAON_STATDEP           ,Static dependency towards WKUPAON clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 14. "            L4SEC_STATDEP                ,Static dependency towards L4SEC clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                "
bitfld.long 0x00 13. " L4PER_STATDEP             ,Static dependency towards L4PER1 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 12. "                    L4CFG_STATDEP             ,Static dependency towards L4CFG clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 11. "            SDMA_STATDEP                 ,Static dependency towards DMA clock domain - ." "Dependency_is_disabled,1"
textline "                                "
bitfld.long 0x00 10. " GPU_STATDEP               ,Static dependency towards GPU clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 9. "                    CAM_STATDEP               ,Static dependency towards CAM clock domain - DISABLED." "DISABLED,1"
bitfld.long 0x00 8. "            DSS_STATDEP                  ,Static dependency towards DSS clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                "
bitfld.long 0x00 7. " L3INIT_STATDEP            ,Static dependency towards L3INIT clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                    L3MAIN1_STATDEP           ,Static dependency towards L3MAIN1 clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "            EMIF_STATDEP                 ,Static dependency towards EMIF clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                "
bitfld.long 0x00 2. " IVA_STATDEP               ,Static dependency towards IVA clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                    DSP1_STATDEP              ,Static dependency towards DSP clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 0. "            IPU2_STATDEP                 ,Static dependency towards IPU2 clock domain - . - ." "Dependency_is_disabled,Dependency_is_enabled"
group.long 0x8++0x3
line.long 0x00 "CM_IPU1_DYNAMICDEP,This register controls the dynamic domain depedencies from IPU domain towards 'target' domains. It is relevant only for domain having OCP master port(s)."
bitfld.long 0x00 24.--27. " WINDOWSIZE                ,Size of sliding window used to monitor OCP interface activity for determination of auto-sleep feature. Time unit defined byCM_DYN_DEP_PRESCAL register." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 5. "                          L3MAIN1_DYNDEP            ,Dynamic dependency towards L3MAIN1 clock domain - ENABLED." "0,ENABLED"
group.long 0x20++0x3
line.long 0x00 "CM_IPU1_IPU1_CLKCTRL,This register manages the IPU1 clocks."
bitfld.long 0x00 24. " CLKSEL                    ,Selects the timer functional clock - SEL_DPLL_ABE_X2_CLK. - SEL_CORE_IPU_ISS_BOOST_CLK." "SEL_DPLL_ABE_X2_CLK,SEL_CORE_IPU_ISS_BOOST_CLK"
bitfld.long 0x00 18. "  STBYST                    ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
bitfld.long 0x00 16.--17. "             IDLEST                       ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
textline "                                "
bitfld.long 0x00 0.--1. " MODULEMODE                ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
group.long 0x40++0x3
line.long 0x00 "CM_IPU_CLKSTCTRL,This register enables the ABE domain power state transition. It controls the HW supervised domain power state transition between ON-ACTIVE and ON-INACTIVE states. It also hold one status bit per clock input of the domain."
bitfld.long 0x00 18. " CLKACTIVITY_MCASP1_AHCLKR ,This field indicates the state of the MCASP1_AHCLKR clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 17. "                       CLKACTIVITY_MCASP1_AHCLKX ,This field indicates the state of the MCASP1_AHCLKX clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 16. "               CLKACTIVITY_MCASP1_AUX_GFCLK ,This field indicates the state of the MCASP1_AUX_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                                "
bitfld.long 0x00 14. " CLKACTIVITY_UART6_GFCLK   ,This field indicates the state of the UART6_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 13. "                       CLKACTIVITY_IPU_96M_GFCLK ,This field indicates the state of the IPU_96M_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 12. "               CLKACTIVITY_TIMER8_GFCLK     ,This field indicates the state of the TIMER8_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                                "
bitfld.long 0x00 11. " CLKACTIVITY_TIMER7_GFCLK  ,This field indicates the state of the TIMER7_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 10. "                       CLKACTIVITY_TIMER6_GFCLK  ,This field indicates the state of the TIMER6_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 9. "               CLKACTIVITY_TIMER5_GFCLK     ,This field indicates the state of the TIMER5_GFCLK functional clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                                "
bitfld.long 0x00 8. " CLKACTIVITY_IPU_L3_GICLK  ,This field indicates the state of the IPU_L3_GICLK interface clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 0.--1. "                       CLKTRCTRL                 ,Controls the clock state transition of the ABE clock domain. - NO_SLEEP. - SW_SLEEP. - SW_WKUP. - HW_AUTO." "NO_SLEEP,SW_SLEEP,SW_WKUP,HW_AUTO"
group.long 0x50++0x3
line.long 0x00 "CM_IPU_MCASP1_CLKCTRL,This register manages the MCASP clocks."
bitfld.long 0x00 28.--31. " CLKSEL_AHCLKR             ,Selects reference clock for AHCLKR - SEL_ABE_24M_GFCLK. - SEL_ABE_SYS_CLK. - SEL_FUNC_24M_GFCLK. - SEL_ATL_CLK3. - SEL_ATL_CLK2. - SEL_ATL_CLK1. - SEL_ATL_CLK0. - SEL_SYS_SLK2. - SEL_XREF_CLK0. - SEL_XREF_CLK1. - SEL_XREF_CL..." "SEL_ABE_24M_GFCLK,SEL_ABE_SYS_CLK,SEL_FUNC_24M_GFCLK,SEL_ATL_CLK3,SEL_ATL_CLK2,SEL_ATL_CLK1,SEL_ATL_CLK0,SEL_SYS_SLK2,SEL_XREF_CLK0,SEL_XREF_CLK1,SEL_XREF_CLK2,SEL_XREF_CLK3,SEL_MLB_CLK,SEL_MLBP_CLK,RESERVED,RESERVED1"
bitfld.long 0x00 24.--27. "          CLKSEL_AHCLKX             ,Selects reference clock for AHCLKX - SEL_ABE_24M_GFCLK. - SEL_ABE_SYS_CLK. - SEL_FUNC_24M_GFCLK. - SEL_ATL_CLK3. - SEL_ATL_CLK2. - SEL_ATL_CLK1. - SEL_ATL_CLK0. - SEL_SYS_SLK2. - SEL_XREF_CLK0. - SEL_XREF_CLK1. - SE..." "SEL_ABE_24M_GFCLK,SEL_ABE_SYS_CLK,SEL_FUNC_24M_GFCLK,SEL_ATL_CLK3,SEL_ATL_CLK2,SEL_ATL_CLK1,SEL_ATL_CLK0,SEL_SYS_SLK2,SEL_XREF_CLK0,SEL_XREF_CLK1,SEL_XREF_CLK2,SEL_XREF_CLK3,SEL_MLB_CLK,SEL_MLBP_CLK,RESERVED,RESERVED1"
bitfld.long 0x00 22.--23. "  CLKSEL_AUX_CLK               ,Selects the source of the AUX clock - SEL_PER_ABE_X1_GFCLK. - SEL_VIDEO1_CLK. - SEL_VIDEO2_CLK. - SEL_HDMI_CLK." "SEL_PER_ABE_X1_GFCLK,SEL_VIDEO1_CLK,SEL_VIDEO2_CLK,SEL_HDMI_CLK"
textline "                                "
bitfld.long 0x00 16.--17. " IDLEST                    ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                     MODULEMODE                ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x58++0x3
line.long 0x00 "CM_IPU_TIMER5_CLKCTRL,This register manages the TIMER5 clocks."
bitfld.long 0x00 24.--27. " CLKSEL                    ,Selects the timer functional clock - SEL_TIMER_SYS_CLK. - SEL_SYS_CLK1_32K_CLK. - SEL_SYS_CLK2. - SEL_XREF_CLK0. - SEL_XREF_CLK1. - SEL_XREF_CLK2. - SEL_XREF_CLK3. - SEL_ABE_GICLK. - SEL_VIDEO1_CLK. - SEL_VIDEO2_CLK. - SEL_H..." "SEL_TIMER_SYS_CLK,SEL_SYS_CLK1_32K_CLK,SEL_SYS_CLK2,SEL_XREF_CLK0,SEL_XREF_CLK1,SEL_XREF_CLK2,SEL_XREF_CLK3,SEL_ABE_GICLK,SEL_VIDEO1_CLK,SEL_VIDEO2_CLK,SEL_HDMI_CLK,SEL_CLKOUTMUX_CLK,12,13,14,15"
bitfld.long 0x00 16.--17. "        IDLEST                    ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "             MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x60++0x3
line.long 0x00 "CM_IPU_TIMER6_CLKCTRL,This register manages the TIMER6 clocks."
bitfld.long 0x00 24.--27. " CLKSEL                    ,Selects the timer functional clock - SEL_TIMER_SYS_CLK. - SEL_SYS_CLK1_32K_CLK. - SEL_SYS_CLK2. - SEL_XREF_CLK0. - SEL_XREF_CLK1. - SEL_XREF_CLK2. - SEL_XREF_CLK3. - SEL_ABE_GICLK. - SEL_VIDEO1_CLK. - SEL_VIDEO2_CLK. - SEL_H..." "SEL_TIMER_SYS_CLK,SEL_SYS_CLK1_32K_CLK,SEL_SYS_CLK2,SEL_XREF_CLK0,SEL_XREF_CLK1,SEL_XREF_CLK2,SEL_XREF_CLK3,SEL_ABE_GICLK,SEL_VIDEO1_CLK,SEL_VIDEO2_CLK,SEL_HDMI_CLK,SEL_CLKOUTMUX_CLK,12,13,14,15"
bitfld.long 0x00 16.--17. "        IDLEST                    ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "             MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x68++0x3
line.long 0x00 "CM_IPU_TIMER7_CLKCTRL,This register manages the TIMER7 clocks."
bitfld.long 0x00 24.--27. " CLKSEL                    ,Selects the timer functional clock - SEL_TIMER_SYS_CLK. - SEL_SYS_CLK1_32K_CLK. - SEL_SYS_CLK2. - SEL_XREF_CLK0. - SEL_XREF_CLK1. - SEL_XREF_CLK2. - SEL_XREF_CLK3. - SEL_ABE_GICLK. - SEL_VIDEO1_CLK. - SEL_VIDEO2_CLK. - SEL_H..." "SEL_TIMER_SYS_CLK,SEL_SYS_CLK1_32K_CLK,SEL_SYS_CLK2,SEL_XREF_CLK0,SEL_XREF_CLK1,SEL_XREF_CLK2,SEL_XREF_CLK3,SEL_ABE_GICLK,SEL_VIDEO1_CLK,SEL_VIDEO2_CLK,SEL_HDMI_CLK,SEL_CLKOUTMUX_CLK,12,13,14,15"
bitfld.long 0x00 16.--17. "        IDLEST                    ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "             MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x70++0x3
line.long 0x00 "CM_IPU_TIMER8_CLKCTRL,This register manages the TIMER8 clocks."
bitfld.long 0x00 24.--27. " CLKSEL                    ,Selects the timer functional clock - SEL_TIMER_SYS_CLK. - SEL_SYS_CLK1_32K_CLK. - SEL_SYS_CLK2. - SEL_XREF_CLK0. - SEL_XREF_CLK1. - SEL_XREF_CLK2. - SEL_XREF_CLK3. - SEL_ABE_GICLK. - SEL_VIDEO1_CLK. - SEL_VIDEO2_CLK. - SEL_H..." "SEL_TIMER_SYS_CLK,SEL_SYS_CLK1_32K_CLK,SEL_SYS_CLK2,SEL_XREF_CLK0,SEL_XREF_CLK1,SEL_XREF_CLK2,SEL_XREF_CLK3,SEL_ABE_GICLK,SEL_VIDEO1_CLK,SEL_VIDEO2_CLK,SEL_HDMI_CLK,SEL_CLKOUTMUX_CLK,12,13,14,15"
bitfld.long 0x00 16.--17. "        IDLEST                    ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "             MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x78++0x3
line.long 0x00 "CM_IPU_I2C5_CLKCTRL,This register manages the I2C5 clocks."
bitfld.long 0x00 16.--17. " IDLEST                    ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                     MODULEMODE                ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
group.long 0x80++0x3
line.long 0x00 "CM_IPU_UART6_CLKCTRL,This register manages the UART6 clocks."
bitfld.long 0x00 24. " CLKSEL                    ,Selects functional clock for UART between FUNC_48M_FCLK and FUNC_192M_CLK - SEL_FUNC_48M_CLK. - SEL_FUNC_192M_CLK." "SEL_FUNC_48M_CLK,SEL_FUNC_192M_CLK"
bitfld.long 0x00 16.--17. "           IDLEST                    ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "             MODULEMODE                   ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
width 0x0B
tree.end
tree "EVE4_PRM"
base ad:0x4AE07C00
width 22.
group.long 0x0++0x3
line.long 0x00 "PM_EVE4_PWRSTCTRL,This register controls the EVE power state to reach upon a domain sleep transition"
bitfld.long 0x00 16.--17. " EVE4_BANK_ONSTATE     ,EVE4 state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
bitfld.long 0x00 4. "      LOWPOWERSTATECHANGE ,Power state change request when domain has already performed a sleep transition. Allows going into deeper low power state without waking up the power domain. - DIS. - EN." "DIS,EN"
bitfld.long 0x00 0.--1. "                     POWERSTATE        ,Power state control - OFF. - RESERVED. - INACT. - ON." "OFF,RESERVED,INACT,ON"
group.long 0x4++0x3
line.long 0x00 "PM_EVE4_PWRSTST,This register provides a status on the EVE domain current power state. [warm reset insensitive]"
bitfld.long 0x00 24.--25. " LASTPOWERSTATEENTERED ,Last low power state entered. Set to 0x3 upon write of the same only. This register is intended for debug purpose only. - OFF. - RET. - INACTIVE. - ON." "OFF,RET,INACTIVE,ON"
bitfld.long 0x00 20. "    INTRANSITION        ,Domain transition status - NO. - ONGOING." "NO,ONGOING"
bitfld.long 0x00 4.--5. "                 EVE4_BANK_STATEST ,EVE4 memory state status - MEM_OFF. - RESERVED1. - RESERVED. - MEM_ON." "MEM_OFF,RESERVED1,RESERVED,MEM_ON"
textline "                               "
bitfld.long 0x00 2. " LOGICSTATEST          ,Logic state status - OFF. - ON." "OFF,ON"
bitfld.long 0x00 0.--1. "         POWERSTATEST        ,Current power state status - OFF. - RET. - INACTIVE. - ON." "OFF,RET,INACTIVE,ON"
group.long 0x10++0x3
line.long 0x00 "RM_EVE4_RSTCTRL,This register controls the release of the EVE sub-system resets."
bitfld.long 0x00 1. " RST_EVE4              ,EVE SW reset control - CLEAR. - ASSERT." "CLEAR,ASSERT"
bitfld.long 0x00 0. "      RST_EVE4_LRST       ,EVE4 Local reset control - CLEAR. - ASSERT." "CLEAR,ASSERT"
group.long 0x14++0x3
line.long 0x00 "RM_EVE4_RSTST,This register logs the different reset sources of the EVE domain. Each bit is set upon release of the domain reset signal. Must be cleared by software. [warm reset insensitive]"
bitfld.long 0x00 3. " RST_EVE4_EMU_REQ      ,EVE4 processor has been reset due to EVE emulation reset request driven from EVE4-SS - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
bitfld.long 0x00 2. "   RST_EVE4_EMU        ,EVE4 domain has been reset due to emulation reset source e.g. assert reset command initiated by the icepick module - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
bitfld.long 0x00 1. "               RST_EVE4          ,EVE4 SW reset status - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
textline "                               "
bitfld.long 0x00 0. " RST_EVE4_LRST         ,EVE4 Local SW reset - RESET_NO. - RESET_YES." "RESET_NO,RESET_YES"
group.long 0x20++0x3
line.long 0x00 "PM_EVE4_EVE4_WKDEP,This register controls wakeup dependency based on EVE4 service requests."
bitfld.long 0x00 8. " WKUPDEP_EVE4_EVE3     ,Wakeup dependency from EVE4 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "    WKUPDEP_EVE4_EVE2   ,Wakeup dependency from EVE4 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 6. "                WKUPDEP_EVE4_EVE1 ,Wakeup dependency from EVE4 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                               "
bitfld.long 0x00 5. " WKUPDEP_EVE4_DSP2     ,Wakeup dependency from EVE4 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "    WKUPDEP_EVE4_IPU1   ,Wakeup dependency from EVE4 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 3. "                WKUPDEP_EVE4_SDMA ,Wakeup dependency from EVE4 module (SWakeup signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
textline "                               "
bitfld.long 0x00 2. " WKUPDEP_EVE4_DSP1     ,Wakeup dependency from EVE4 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "    WKUPDEP_EVE4_IPU2   ,Wakeup dependency from EVE4 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_EVE4_MPU  ,Wakeup dependency from EVE4 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x24++0x3
line.long 0x00 "RM_EVE4_EVE4_CONTEXT,This register contains dedicated EVE context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_EVE_BANK      ,Specify if memory-based context in EVE4 memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "  LOSTCONTEXT_DFF     ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of EVE1_SYS_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
width 0x0B
tree.end
tree "CM_CORE_AON__DSP1"
base ad:0x4A005400
width 22.
group.long 0x0++0x3
line.long 0x00 "CM_DSP1_CLKSTCTRL,This register enables the DSP domain power state transition. It controls the HW supervised domain power state transition between ON-ACTIVE and ON-INACTIVE states. It also hold one status bit per clock input of the domain."
bitfld.long 0x00 8. " CLKACTIVITY_DSP1_GFCLK ,This field indicates the state of the DSP_ROOT_CLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 0.--1. "     CLKTRCTRL       ,Controls the clock state transition of the DSP clock domain. - NO_SLEEP. - SW_SLEEP. - SW_WKUP. - HW_AUTO." "NO_SLEEP,SW_SLEEP,SW_WKUP,HW_AUTO"
group.long 0x4++0x3
line.long 0x00 "CM_DSP1_STATICDEP,This register controls the static domain depedencies from DSP domain towards 'target' domains. It is relevant only for domain having system initiator(s)."
bitfld.long 0x00 29. " PCIE_STATDEP           ,Static dependency towards PCIE Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 28. "  VPE_STATDEP     ,Static dependency towards VPE Clock Domain - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 27. "  L4PER3_STATDEP  ,Static dependency towards L4PER3 Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                               "
bitfld.long 0x00 26. " L4PER2_STATDEP         ,Static dependency towards L4PER2 Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 25. "  GMAC_STATDEP    ,Static dependency towards GMAC Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 24. "                IPU_STATDEP     ,Static dependency towards IPU Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                               "
bitfld.long 0x00 23. " IPU1_STATDEP           ,Static dependency towards IPU1 Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 22. "  EVE4_STATDEP    ,Static dependency towards EVE4 Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 21. "                EVE3_STATDEP    ,Static dependency towards EVE3 Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                               "
bitfld.long 0x00 20. " EVE2_STATDEP           ,Static dependency towards EVE2 Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 19. "  EVE1_STATDEP    ,Static dependency towards EVE1 Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 18. "                DSP2_STATDEP    ,Static dependency towards DSP2 Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                               "
bitfld.long 0x00 17. " CUSTEFUSE_STATDEP      ,Static dependency towards CUSTEFUSE Clock Domain - DISABLED." "DISABLED,1"
bitfld.long 0x00 16. "  COREAON_STATDEP ,Static dependency towards COREAON Clock Domain - DISABLED." "DISABLED,1"
bitfld.long 0x00 15. "                WKUPAON_STATDEP ,Static dependency towards WKUPAON Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                               "
bitfld.long 0x00 14. " L4SEC_STATDEP          ,Static dependency towards L4SEC Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 13. "  L4PER_STATDEP   ,Static dependency towards L4PER1Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 12. "                L4CFG_STATDEP   ,Static dependency towards L4CFG Clock Domain - DISABLED." "DISABLED,1"
textline "                               "
bitfld.long 0x00 10. " GPU_STATDEP            ,Static dependency towards GPU Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 9. "  CAM_STATDEP     ,Static dependency towards CAM Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                DSS_STATDEP     ,Static dependency towards DSS Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                               "
bitfld.long 0x00 7. " L3INIT_STATDEP         ,Static dependency towards L3INIT Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "  L3MAIN1_STATDEP ,Static dependency towards L3MAIN1 Clock Domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 4. "                 EMIF_STATDEP    ,Static dependency towards EMIF Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                               "
bitfld.long 0x00 2. " IVA_STATDEP            ,Static dependency towards IVA Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 0. "  IPU2_STATDEP    ,Static dependency towards IPU2 Clock Domain - . - ." "Dependency_is_disabled,Dependency_is_enabled"
group.long 0x8++0x3
line.long 0x00 "CM_DSP1_DYNAMICDEP,This register controls the dynamic domain depedencies from DSP domain towards 'target' domains. It is relevant only for domain having OCP master port(s)."
bitfld.long 0x00 24.--27. " WINDOWSIZE             ,Size of sliding window used to monitor OCP interface activity for determination of auto-sleep feature. Time unit defined byCM_DYN_DEP_PRESCAL register." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 5. "        L3MAIN1_DYNDEP  ,Dynamic dependency towards L3MAIN1 clock domain - ENABLED." "0,ENABLED"
group.long 0x20++0x3
line.long 0x00 "CM_DSP1_DSP1_CLKCTRL,This register manages the DSP clocks."
bitfld.long 0x00 18. " STBYST                 ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
bitfld.long 0x00 16.--17. "   IDLEST          ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                 MODULEMODE      ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
width 0x0B
tree.end
tree "CUSTEFUSE_PRM"
base ad:0x4AE07600
width 38.
group.long 0x0++0x3
line.long 0x00 "PM_CUSTEFUSE_PWRSTCTRL,This register controls the CUSTEFUSE power state to reach upon a domain sleep transition"
bitfld.long 0x00 4. " LOWPOWERSTATECHANGE   ,Power state change request when domain has already performed a sleep transition. Allows going into deeper low power state without waking up the power domain. - DIS. - EN." "DIS,EN"
bitfld.long 0x00 0.--1. "         POWERSTATE   ,Power state control - OFF. - RESERVED. - INACT. - ON." "OFF,RESERVED,INACT,ON"
group.long 0x4++0x3
line.long 0x00 "PM_CUSTEFUSE_PWRSTST,This register provides a status on the current CUSTEFUSE power domain state. [warm reset insensitive]"
bitfld.long 0x00 24.--25. " LASTPOWERSTATEENTERED ,Last low power state entered. Set to 0x3 upon write of the same only. This register is intended for debug purpose only. - OFF. - RET. - INACTIVE. - ON." "OFF,RET,INACTIVE,ON"
bitfld.long 0x00 20. "    INTRANSITION ,Domain transition status - NO. - ONGOING." "NO,ONGOING"
bitfld.long 0x00 2. "   LOGICSTATEST ,Logic state status - OFF. - ON." "OFF,ON"
textline "                                               "
bitfld.long 0x00 0.--1. " POWERSTATEST          ,Current power state status - OFF. - RET. - INACTIVE. - ON." "OFF,RET,INACTIVE,ON"
group.long 0x24++0x3
line.long 0x00 "RM_CUSTEFUSE_EFUSE_CTRL_CUST_CONTEXT,This register contains dedicated CUSTEFUSE module context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF       ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CUSTEFUSE_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
width 0x0B
tree.end
tree "VPE_PRM"
base ad:0x4AE07C80
width 20.
group.long 0x0++0x3
line.long 0x00 "PM_VPE_PWRSTCTRL,This register controls the VPE power state to reach upon a domain sleep transition"
bitfld.long 0x00 16.--17. " VPE_BANK_ONSTATE      ,DSP_L1 state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
bitfld.long 0x00 8. "      VPE_BANK_RETSTATE ,VPE_BANK state when domain is RETENTION. - MEM_OFF. - MEM_RET." "MEM_OFF,MEM_RET"
bitfld.long 0x00 4. "                 LOWPOWERSTATECHANGE ,Power state change request when domain has already performed a sleep transition. Allows going into deeper low power state without waking up the power domain. - DIS. - EN." "DIS,EN"
textline "                             "
bitfld.long 0x00 2. " LOGICRETSTATE         ,Logic state when power domain is RETENTION - LOGIC_OFF. - LOGIC_RET." "LOGIC_OFF,LOGIC_RET"
bitfld.long 0x00 0.--1. "   POWERSTATE        ,Power state control - OFF. - RET. - INACT. - ON." "OFF,RET,INACT,ON"
group.long 0x4++0x3
line.long 0x00 "PM_VPE_PWRSTST,This register provides a status on the VPE domain current power state. [warm reset insensitive]"
bitfld.long 0x00 24.--25. " LASTPOWERSTATEENTERED ,Last low power state entered. Set to 0x3 upon write of the same only. This register is intended for debug purpose only. - OFF. - RET. - INACTIVE. - ON." "OFF,RET,INACTIVE,ON"
bitfld.long 0x00 20. "    INTRANSITION      ,Domain transition status - NO. - ONGOING." "NO,ONGOING"
bitfld.long 0x00 4.--5. "                 VPE_BANK_STATEST    ,VPE_BANK memory state status - MEM_OFF. - MEM_RET. - RESERVED. - MEM_ON." "MEM_OFF,MEM_RET,RESERVED,MEM_ON"
textline "                             "
bitfld.long 0x00 2. " LOGICSTATEST          ,Logic state status - OFF. - ON." "OFF,ON"
bitfld.long 0x00 0.--1. "         POWERSTATEST      ,Current power state status - OFF. - RET. - INACTIVE. - ON." "OFF,RET,INACTIVE,ON"
group.long 0x20++0x3
line.long 0x00 "PM_VPE_VPE_WKDEP,This register controls wakeup dependency based on VPE service requests."
bitfld.long 0x00 9. " WKUPDEP_VPE_EVE4      ,Wakeup dependency from VPE module (Swakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "    WKUPDEP_VPE_EVE3  ,Wakeup dependency from VPE module (Swakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_VPE_EVE2    ,Wakeup dependency from VPE module (Swakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                             "
bitfld.long 0x00 6. " WKUPDEP_VPE_EVE1      ,Wakeup dependency from VPE module ( Swakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "    WKUPDEP_VPE_DSP2  ,Wakeup dependency from VPE module (Swakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_VPE_IPU1    ,Wakeup dependency from VPE module (Swakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                             "
bitfld.long 0x00 2. " WKUPDEP_VPE_DSP1      ,Wakeup dependency from VPE module (Swakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "    WKUPDEP_VPE_IPU2  ,Wakeup dependency from VPE module ( Swakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_VPE_MPU     ,Wakeup dependency from VPE module (Swakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x24++0x3
line.long 0x00 "RM_VPE_VPE_CONTEXT,This register contains dedicated VPE context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_VPE_BANK      ,Specify if memory-based context in VPE memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "  LOSTCONTEXT_DFF   ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of VPE_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
width 0x0B
tree.end
tree "CM_CORE_AON__DSP2"
base ad:0x4A005600
width 22.
group.long 0x0++0x3
line.long 0x00 "CM_DSP2_CLKSTCTRL,This register enables the DSP domain power state transition. It controls the HW supervised domain power state transition between ON-ACTIVE and ON-INACTIVE states. It also hold one status bit per clock input of the domain."
bitfld.long 0x00 8. " CLKACTIVITY_DSP2_GFCLK ,This field indicates the state of the DSP_ROOT_CLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 0.--1. "     CLKTRCTRL       ,Controls the clock state transition of the DSP clock domain. - NO_SLEEP. - SW_SLEEP. - SW_WKUP. - HW_AUTO." "NO_SLEEP,SW_SLEEP,SW_WKUP,HW_AUTO"
group.long 0x4++0x3
line.long 0x00 "CM_DSP2_STATICDEP,This register controls the static domain depedencies from DSP domain towards 'target' domains. It is relevant only for domain having system initiator(s)."
bitfld.long 0x00 29. " PCIE_STATDEP           ,Static dependency towards PCIE Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 28. "  VPE_STATDEP     ,Static dependency towards VPE Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 27. "                L4PER3_STATDEP    ,Static dependency towards L4PER3 Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                               "
bitfld.long 0x00 26. " L4PER2_STATDEP         ,Static dependency towards L4PER2 Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 25. "  GMAC_STATDEP    ,Static dependency towards GMAC Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 24. "                IPU_STATDEP       ,Static dependency towards IPU Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                               "
bitfld.long 0x00 23. " IPU1_STATDEP           ,Static dependency towards IPU1 Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 22. "  EVE4_STATDEP    ,Static dependency towards EVE4 Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 21. "                EVE3_STATDEP      ,Static dependency towards EVE3 Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                               "
bitfld.long 0x00 20. " EVE2_STATDEP           ,Static dependency towards EVE2 Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 19. "  EVE1_STATDEP    ,Static dependency towards EVE1 Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 17. "                CUSTEFUSE_STATDEP ,Static dependency towards CUSTEFUSE Clock Domain - DISABLED." "DISABLED,1"
textline "                               "
bitfld.long 0x00 16. " COREAON_STATDEP        ,Static dependency towards COREAON Clock Domain - DISABLED." "DISABLED,1"
bitfld.long 0x00 15. "  WKUPAON_STATDEP ,Static dependency towards WKUPAON Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 14. "                L4SEC_STATDEP     ,Static dependency towards L4SEC Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                               "
bitfld.long 0x00 13. " L4PER_STATDEP          ,Static dependency towards L4PER1 Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 12. "  L4CFG_STATDEP   ,Static dependency towards L4CFG Clock Domain - DISABLED." "DISABLED,1"
bitfld.long 0x00 10. "                GPU_STATDEP       ,Static dependency towards GPU Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                               "
bitfld.long 0x00 9. " CAM_STATDEP            ,Static dependency towards CAM Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "  DSS_STATDEP     ,Static dependency towards DSS Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                L3INIT_STATDEP    ,Static dependency towards L3INIT Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                               "
bitfld.long 0x00 5. " L3MAIN1_STATDEP        ,Static dependency towards L3MAIN1 Clock Domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 4. "   EMIF_STATDEP    ,Static dependency towards EMIF Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 2. "                IVA_STATDEP       ,Static dependency towards IVA clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                               "
bitfld.long 0x00 1. " DSP1_STATDEP           ,Static dependency towards DSP1 Clock Domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 0. "  IPU2_STATDEP    ,Static dependency towards IPU2 clock domain - . - ." "Dependency_is_disabled,Dependency_is_enabled"
group.long 0x8++0x3
line.long 0x00 "CM_DSP2_DYNAMICDEP,This register controls the dynamic domain depedencies from DSP domain towards 'target' domains. It is relevant only for domain having OCP master port(s)."
bitfld.long 0x00 24.--27. " WINDOWSIZE             ,Size of sliding window used to monitor OCP interface activity for determination of auto-sleep feature. Time unit defined byCM_DYN_DEP_PRESCAL register." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 5. "        L3MAIN1_DYNDEP  ,Dynamic dependency towards L3MAIN1 clock domain - ENABLED." "0,ENABLED"
group.long 0x20++0x3
line.long 0x00 "CM_DSP2_DSP2_CLKCTRL,This register manages the DSP clocks."
bitfld.long 0x00 18. " STBYST                 ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
bitfld.long 0x00 16.--17. "   IDLEST          ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "                 MODULEMODE        ,Control the way mandatory clocks are managed. - DISABLED. - AUTO. - RESERVED_2. - RESERVED." "DISABLED,AUTO,RESERVED_2,RESERVED"
width 0x0B
tree.end
tree "CM_CORE__COREAON"
base ad:0x4A008600
width 37.
group.long 0x0++0x3
line.long 0x00 "CM_COREAON_CLKSTCTRL,This register enables the domain power state transition. It controls the HW supervised domain power state transition between ON-ACTIVE and ON-INACTIVE states. It also hold one status bit per clock input of the domain."
bitfld.long 0x00 16. " CLKACTIVITY_ABE_GICLK      ,This field indicates the state of the ABE_GICLK clock input of the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 12. "     CLKACTIVITY_COREAON_32K_GFCLK ,This field indicates the state of the COREAON_32K_GFCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 0.--1. "  CLKTRCTRL ,Controls the clock state transition of the COREAON clock domain. - NO_SLEEP. - RESERVED. - SW_WKUP. - HW_AUTO." "NO_SLEEP,RESERVED,SW_WKUP,HW_AUTO"
group.long 0x40++0x3
line.long 0x00 "CM_COREAON_USB_PHY1_CORE_CLKCTRL,This register manages the USB PHY 32KHz clock."
bitfld.long 0x00 8. " OPTFCLKEN_CLK32K           ,Optional functional clock control. - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
group.long 0x88++0x3
line.long 0x00 "CM_COREAON_USB_PHY2_CORE_CLKCTRL,This register manages the USB PHY 32KHz clock."
bitfld.long 0x00 8. " OPTFCLKEN_CLK32K           ,Optional functional clock control. - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
group.long 0x98++0x3
line.long 0x00 "CM_COREAON_USB_PHY3_CORE_CLKCTRL,This register manages the USB PHY 32KHz clock."
bitfld.long 0x00 8. " OPTFCLKEN_CLK32K           ,Optional functional clock control. - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
group.long 0xA0++0x3
line.long 0x00 "CM_COREAON_CLKOUTMUX1_CLKCTRL,Used for controlling the CLKOUTMUX 1 gate."
bitfld.long 0x00 8. " OPTFCLKEN_CLKOUTMUX1_CLK   ,Optional functional clock control. - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
group.long 0xB0++0x3
line.long 0x00 "CM_COREAON_CLKOUTMUX2_CLKCTRL,Used for controlling the CLKOUTMUX 2 gate."
bitfld.long 0x00 8. " OPTFCLKEN_CLKOUTMUX2_CLK   ,Optional functional clock control. - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
group.long 0xC0++0x3
line.long 0x00 "CM_COREAON_L3INIT_60M_GFCLK_CLKCTRL,Used for controlling the L3INIT_60M_GFCLK gate."
bitfld.long 0x00 8. " OPTFCLKEN_L3INIT_60M_GFCLK ,Optional functional clock control; used to control the clock of USB2PHY2. - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
group.long 0xD0++0x3
line.long 0x00 "CM_COREAON_ABE_GICLK_CLKCTRL,Used for controlling ABE_GICLK gate."
bitfld.long 0x00 8. " OPTFCLKEN_ABE_GICLK        ,Optional functional clock control. - FCLK_DIS. - FCLK_EN." "FCLK_DIS,FCLK_EN"
width 0x0B
tree.end
tree "L4PER_PRM"
base ad:0x4AE07400
width 29.
group.long 0x0++0x3
line.long 0x00 "PM_L4PER_PWRSTCTRL,This register controls the L4PER power state to reach upon a domain sleep transition"
bitfld.long 0x00 18.--19. " NONRETAINED_BANK_ONSTATE ,NONRETAINED_BANK state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
bitfld.long 0x00 16.--17. "                  RETAINED_BANK_ONSTATE   ,RETAINED_BANK state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
bitfld.long 0x00 9. "                  NONRETAINED_BANK_RETSTATE ,NONRETAINED_BANK state when domain is RETENTION. - MEM_OFF." "MEM_OFF,1"
textline "                                      "
bitfld.long 0x00 8. " RETAINED_BANK_RETSTATE   ,RETAINED_BANK state when domain is RETENTION. - MEM_RET." "0,MEM_RET"
bitfld.long 0x00 4. "                 LOWPOWERSTATECHANGE     ,Power state change request when domain has already performed a sleep transition. Allows going into deeper low power state without waking up the power domain. - DIS. - EN." "DIS,EN"
bitfld.long 0x00 2. "                     LOGICRETSTATE             ,Logic state when power domain is RETENTION - LOGIC_OFF. - LOGIC_RET." "LOGIC_OFF,LOGIC_RET"
textline "                                      "
bitfld.long 0x00 0.--1. " POWERSTATE               ,Power state control - RESERVED. - RET. - INACT. - ON." "RESERVED,RET,INACT,ON"
group.long 0x4++0x3
line.long 0x00 "PM_L4PER_PWRSTST,This register provides a status on the current L4PER power domain state. [warm reset insensitive]"
bitfld.long 0x00 24.--25. " LASTPOWERSTATEENTERED    ,Last low power state entered. Set to 0x3 upon write of the same only. This register is intended for debug purpose only. - OFF. - RET. - INACTIVE. - ON." "OFF,RET,INACTIVE,ON"
bitfld.long 0x00 20. "                INTRANSITION            ,Domain transition status - NO. - ONGOING." "NO,ONGOING"
bitfld.long 0x00 6.--7. "                 NONRETAINED_BANK_STATEST  ,NONRETAINED_BANK state status - MEM_OFF. - RESERVED1. - RESERVED. - MEM_ON." "MEM_OFF,RESERVED1,RESERVED,MEM_ON"
textline "                                      "
bitfld.long 0x00 4.--5. " RETAINED_BANK_STATEST    ,RETAINED_BANK state status - MEM_OFF. - MEM_RET. - RESERVED. - MEM_ON." "MEM_OFF,MEM_RET,RESERVED,MEM_ON"
bitfld.long 0x00 2. "                LOGICSTATEST            ,Logic state status - OFF. - ON." "OFF,ON"
bitfld.long 0x00 0.--1. "                     POWERSTATEST              ,Current power state status - RESERVED. - RET. - INACTIVE. - ON." "RESERVED,RET,INACTIVE,ON"
group.long 0xC++0x3
line.long 0x00 "RM_L4PER2_L4PER2_CONTEXT,This register contains dedicated L4_PER2 context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_PWRON_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "              LOSTCONTEXT_DFF         ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x14++0x3
line.long 0x00 "RM_L4PER3_L4PER3_CONTEXT,This register contains dedicated L4_PER3 context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_PWRON_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "              LOSTCONTEXT_DFF         ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x1C++0x3
line.long 0x00 "RM_L4PER2_PRUSS1_CONTEXT,This register contains dedicated PRU-ICSS1 context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_PRUSS1_BANK      ,Specify if memory-based context in PRU-ICSS memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "              LOSTCONTEXT_DFF         ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L3INIT_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x28++0x3
line.long 0x00 "PM_L4PER_TIMER10_WKDEP,This register controls wakeup dependency based on TIMER10 service requests."
bitfld.long 0x00 9. " WKUPDEP_TIMER10_EVE4     ,Wakeup dependency from TIMER10 module (SWakeup IRQ signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_TIMER10_EVE3    ,Wakeup dependency from TIMER10 module (SWakeup IRQ signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_TIMER10_EVE2      ,Wakeup dependency from TIMER10 module (SWakeup IRQ signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_TIMER10_EVE1     ,Wakeup dependency from TIMER10 module (SWakeup IRQ signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_TIMER10_DSP2    ,Wakeup dependency from TIMER10 module (SWakeup IRQ signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_TIMER10_IPU1      ,Wakeup dependency from TIMER10 module (SWakeup IRQ signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 2. " WKUPDEP_TIMER10_DSP1     ,Wakeup dependency from TIMER10 module (SWakeup IRQ signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_TIMER10_IPU2    ,Wakeup dependency from TIMER10 module (SWakeup IRQ signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_TIMER10_MPU       ,Wakeup dependency from TIMER10 module (SWakeup IRQ signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x2C++0x3
line.long 0x00 "RM_L4PER_TIMER10_CONTEXT,This register contains dedicated TIMER10 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x30++0x3
line.long 0x00 "PM_L4PER_TIMER11_WKDEP,This register controls wakeup dependency based on TIMER11 service requests."
bitfld.long 0x00 9. " WKUPDEP_TIMER11_EVE4     ,Wakeup dependency from TIMER11 module (SWakeup IRQ signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_TIMER11_EVE3    ,Wakeup dependency from TIMER11 module (SWakeup IRQ signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_TIMER11_EVE2      ,Wakeup dependency from TIMER11 module (SWakeup IRQ signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_TIMER11_EVE1     ,Wakeup dependency from TIMER11 module (SWakeup IRQ signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_TIMER11_DSP2    ,Wakeup dependency from TIMER11 module (SWakeup IRQ signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_TIMER11_IPU1      ,Wakeup dependency from TIMER11 module (SWakeup IRQ signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 2. " WKUPDEP_TIMER11_DSP1     ,Wakeup dependency from TIMER11 module (SWakeup IRQ signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_TIMER11_IPU2    ,Wakeup dependency from TIMER11 module (SWakeup IRQ signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_TIMER11_MPU       ,Wakeup dependency from TIMER11 module (SWakeup IRQ signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x34++0x3
line.long 0x00 "RM_L4PER_TIMER11_CONTEXT,This register contains dedicated TIMER11 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x38++0x3
line.long 0x00 "PM_L4PER_TIMER2_WKDEP,This register controls wakeup dependency based on TIMER2 service requests."
bitfld.long 0x00 9. " WKUPDEP_TIMER2_EVE4      ,Wakeup dependency from TIMER2 module (SWakeup IRQ signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_TIMER2_EVE3     ,Wakeup dependency from TIMER2 module (SWakeup IRQ signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_TIMER2_EVE2       ,Wakeup dependency from TIMER2 module (SWakeup IRQ signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_TIMER2_EVE1      ,Wakeup dependency from TIMER2 module (SWakeup IRQ signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_TIMER2_DSP2     ,Wakeup dependency from TIMER2 module (SWakeup IRQ signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_TIMER2_IPU1       ,Wakeup dependency from TIMER2 module (SWakeup IRQ signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 2. " WKUPDEP_TIMER2_DSP1      ,Wakeup dependency from TIMER2 module (SWakeup IRQ signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_TIMER2_IPU2     ,Wakeup dependency from TIMER2 module (SWakeup IRQ signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_TIMER2_MPU        ,Wakeup dependency from TIMER2 module (SWakeup IRQ signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x3C++0x3
line.long 0x00 "RM_L4PER_TIMER2_CONTEXT,This register contains dedicated TIMER2 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x40++0x3
line.long 0x00 "PM_L4PER_TIMER3_WKDEP,This register controls wakeup dependency based on TIMER3 service requests."
bitfld.long 0x00 9. " WKUPDEP_TIMER3_EVE4      ,Wakeup dependency from TIMER3 module (SWakeup IRQ signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_TIMER3_EVE3     ,Wakeup dependency from TIMER3 module (SWakeup IRQ signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_TIMER3_EVE2       ,Wakeup dependency from TIMER3 module (SWakeup IRQ signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_TIMER3_EVE1      ,Wakeup dependency from TIMER3 module (SWakeup IRQ signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_TIMER3_DSP2     ,Wakeup dependency from TIMER3 module (SWakeup IRQ signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_TIMER3_IPU1       ,Wakeup dependency from TIMER3 module (SWakeup IRQ signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 2. " WKUPDEP_TIMER3_DSP1      ,Wakeup dependency from TIMER3 module (SWakeup IRQ signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_TIMER3_IPU2     ,Wakeup dependency from TIMER3 module (SWakeup IRQ signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_TIMER3_MPU        ,Wakeup dependency from TIMER3 module (SWakeup IRQ signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x44++0x3
line.long 0x00 "RM_L4PER_TIMER3_CONTEXT,This register contains dedicated TIMER3 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x48++0x3
line.long 0x00 "PM_L4PER_TIMER4_WKDEP,This register controls wakeup dependency based on TIMER4 service requests."
bitfld.long 0x00 9. " WKUPDEP_TIMER4_EVE4      ,Wakeup dependency from TIMER4 module (SWakeup IRQ signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_TIMER4_EVE3     ,Wakeup dependency from TIMER4 module (SWakeup IRQ signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_TIMER4_EVE2       ,Wakeup dependency from TIMER4 module (SWakeup IRQ signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_TIMER4_EVE1      ,Wakeup dependency from TIMER4 module (SWakeup IRQ signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_TIMER4_DSP2     ,Wakeup dependency from TIMER4 module (SWakeup IRQ signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_TIMER4_IPU1       ,Wakeup dependency from TIMER4 module (SWakeup IRQ signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 2. " WKUPDEP_TIMER4_DSP1      ,Wakeup dependency from TIMER4 module (SWakeup IRQ signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_TIMER4_IPU2     ,Wakeup dependency from TIMER4 module (SWakeup IRQ signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_TIMER4_MPU        ,Wakeup dependency from TIMER4 module (SWakeup IRQ signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x4C++0x3
line.long 0x00 "RM_L4PER_TIMER4_CONTEXT,This register contains dedicated TIMER4 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x50++0x3
line.long 0x00 "PM_L4PER_TIMER9_WKDEP,This register controls wakeup dependency based on TIMER9 service requests."
bitfld.long 0x00 9. " WKUPDEP_TIMER9_EVE4      ,Wakeup dependency from TIMER9 module (SWakeup IRQ signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_TIMER9_EVE3     ,Wakeup dependency from TIMER4 module (SWakeup IRQ signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_TIMER9_EVE2       ,Wakeup dependency from TIMER9 module (SWakeup IRQ signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_TIMER9_EVE1      ,Wakeup dependency from TIMER9 module (SWakeup IRQ signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_TIMER9_DSP2     ,Wakeup dependency from TIMER4 module (SWakeup IRQ signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_TIMER9_IPU1       ,Wakeup dependency from TIMER9 module (SWakeup IRQ signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 2. " WKUPDEP_TIMER9_DSP1      ,Wakeup dependency from TIMER4 module (SWakeup IRQ signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_TIMER9_IPU2     ,Wakeup dependency from TIMER9 module (SWakeup IRQ signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_TIMER9_MPU        ,Wakeup dependency from TIMER4 module (SWakeup IRQ signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x54++0x3
line.long 0x00 "RM_L4PER_TIMER9_CONTEXT,This register contains dedicated TIMER9 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x5C++0x3
line.long 0x00 "RM_L4PER_ELM_CONTEXT,This register contains dedicated ELM context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x60++0x3
line.long 0x00 "PM_L4PER_GPIO2_WKDEP,This register controls wakeup dependency based on GPIO2 service requests."
bitfld.long 0x00 19. " WKUPDEP_GPIO2_IRQ2_EVE4  ,Wakeup dependency from GPIO2 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 18. "                WKUPDEP_GPIO2_IRQ2_EVE3 ,Wakeup dependency from GPIO2 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 17. "                WKUPDEP_GPIO2_IRQ2_EVE2   ,Wakeup dependency from GPIO2 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 16. " WKUPDEP_GPIO2_IRQ2_EVE1  ,Wakeup dependency from GPIO2 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 15. "                WKUPDEP_GPIO2_IRQ2_DSP2 ,Wakeup dependency from GPIO2 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 14. "                WKUPDEP_GPIO2_IRQ2_IPU1   ,Wakeup dependency from GPIO2 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 12. " WKUPDEP_GPIO2_IRQ2_DSP1  ,Wakeup dependency from GPIO2 module (SWakeup signal) towards DSP1 + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 11. "                WKUPDEP_GPIO2_IRQ2_IPU2 ,Wakeup dependency from GPIO2 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 10. "  WKUPDEP_GPIO2_IRQ2_MPU    ,Wakeup dependency from GPIO2 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 9. " WKUPDEP_GPIO2_IRQ1_EVE4  ,Wakeup dependency from GPIO2 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_GPIO2_IRQ1_EVE3 ,Wakeup dependency from GPIO2 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_GPIO2_IRQ1_EVE2   ,Wakeup dependency from GPIO2 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_GPIO2_IRQ1_EVE1  ,Wakeup dependency from GPIO2 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_GPIO2_IRQ1_DSP2 ,Wakeup dependency from GPIO2 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_GPIO2_IRQ1_IPU1   ,Wakeup dependency from GPIO2 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 2. " WKUPDEP_GPIO2_IRQ1_DSP1  ,Wakeup dependency from GPIO2 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_GPIO2_IRQ1_IPU2 ,Wakeup dependency from GPIO2 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_GPIO2_IRQ1_MPU    ,Wakeup dependency from GPIO2 module (SWakeup signal for POROCPSINTERRUPT1) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x64++0x3
line.long 0x00 "RM_L4PER_GPIO2_CONTEXT,This register contains dedicated GPIO2 context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x68++0x3
line.long 0x00 "PM_L4PER_GPIO3_WKDEP,This register controls wakeup dependency based on GPIO3 service requests."
bitfld.long 0x00 19. " WKUPDEP_GPIO3_IRQ2_EVE4  ,Wakeup dependency from GPIO3 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 18. "                WKUPDEP_GPIO3_IRQ2_EVE3 ,Wakeup dependency from GPIO3 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 17. "                WKUPDEP_GPIO3_IRQ2_EVE2   ,Wakeup dependency from GPIO3 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 16. " WKUPDEP_GPIO3_IRQ2_EVE1  ,Wakeup dependency from GPIO3 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 15. "                WKUPDEP_GPIO3_IRQ2_DSP2 ,Wakeup dependency from GPIO3 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 14. "                WKUPDEP_GPIO3_IRQ2_IPU1   ,Wakeup dependency from GPIO3 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 12. " WKUPDEP_GPIO3_IRQ2_DSP1  ,Wakeup dependency from GPIO3 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 11. "                WKUPDEP_GPIO3_IRQ2_IPU2 ,Wakeup dependency from GPIO3 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 10. "  WKUPDEP_GPIO3_IRQ2_MPU    ,Wakeup dependency from GPIO3 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 9. " WKUPDEP_GPIO3_IRQ1_EVE4  ,Wakeup dependency from GPIO3 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_GPIO3_IRQ1_EVE3 ,Wakeup dependency from GPIO3 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_GPIO3_IRQ1_EVE2   ,Wakeup dependency from GPIO3 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_GPIO3_IRQ1_EVE1  ,Wakeup dependency from GPIO3 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_GPIO3_IRQ1_DSP2 ,Wakeup dependency from GPIO3 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_GPIO3_IRQ1_IPU1   ,Wakeup dependency from GPIO3 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 2. " WKUPDEP_GPIO3_IRQ1_DSP1  ,Wakeup dependency from GPIO3 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_GPIO3_IRQ1_IPU2 ,Wakeup dependency from GPIO3 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_GPIO3_IRQ1_MPU    ,Wakeup dependency from GPIO3 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x6C++0x3
line.long 0x00 "RM_L4PER_GPIO3_CONTEXT,This register contains dedicated GPIO3 context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x70++0x3
line.long 0x00 "PM_L4PER_GPIO4_WKDEP,This register controls wakeup dependency based on GPIO4 service requests."
bitfld.long 0x00 19. " WKUPDEP_GPIO4_IRQ2_EVE4  ,Wakeup dependency from GPIO4 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 18. "                WKUPDEP_GPIO4_IRQ2_EVE3 ,Wakeup dependency from GPIO4 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 17. "                WKUPDEP_GPIO4_IRQ2_EVE2   ,Wakeup dependency from GPIO4 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 16. " WKUPDEP_GPIO4_IRQ2_EVE1  ,Wakeup dependency from GPIO4 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 15. "                WKUPDEP_GPIO4_IRQ2_DSP2 ,Wakeup dependency from GPIO4 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 14. "                WKUPDEP_GPIO4_IRQ2_IPU1   ,Wakeup dependency from GPIO4 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 12. " WKUPDEP_GPIO4_IRQ2_DSP1  ,Wakeup dependency from GPIO4 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 11. "                WKUPDEP_GPIO4_IRQ2_IPU2 ,Wakeup dependency from GPIO4 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 10. "  WKUPDEP_GPIO4_IRQ2_MPU    ,Wakeup dependency from GPIO4 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 9. " WKUPDEP_GPIO4_IRQ1_EVE4  ,Wakeup dependency from GPIO4 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_GPIO4_IRQ1_EVE3 ,Wakeup dependency from GPIO4 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_GPIO4_IRQ1_EVE2   ,Wakeup dependency from GPIO4 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_GPIO4_IRQ1_EVE1  ,Wakeup dependency from GPIO4 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_GPIO4_IRQ1_DSP2 ,Wakeup dependency from GPIO4 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_GPIO4_IRQ1_IPU1   ,Wakeup dependency from GPIO4 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 2. " WKUPDEP_GPIO4_IRQ1_DSP1  ,Wakeup dependency from GPIO4 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_GPIO4_IRQ1_IPU2 ,Wakeup dependency from GPIO4 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_GPIO4_IRQ1_MPU    ,Wakeup dependency from GPIO4 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x74++0x3
line.long 0x00 "RM_L4PER_GPIO4_CONTEXT,This register contains dedicated GPIO4 context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x78++0x3
line.long 0x00 "PM_L4PER_GPIO5_WKDEP,This register controls wakeup dependency based on GPIO5 service requests."
bitfld.long 0x00 19. " WKUPDEP_GPIO5_IRQ2_EVE4  ,Wakeup dependency from GPIO5 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 18. "                WKUPDEP_GPIO5_IRQ2_EVE3 ,Wakeup dependency from GPIO5 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 17. "                WKUPDEP_GPIO5_IRQ2_EVE2   ,Wakeup dependency from GPIO5 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 16. " WKUPDEP_GPIO5_IRQ2_EVE1  ,Wakeup dependency from GPIO5 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 15. "                WKUPDEP_GPIO5_IRQ2_DSP2 ,Wakeup dependency from GPIO5 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 14. "                WKUPDEP_GPIO5_IRQ2_IPU1   ,Wakeup dependency from GPIO5 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 12. " WKUPDEP_GPIO5_IRQ2_DSP1  ,Wakeup dependency from GPIO5 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 11. "                WKUPDEP_GPIO5_IRQ2_IPU2 ,Wakeup dependency from GPIO5 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 10. "  WKUPDEP_GPIO5_IRQ2_MPU    ,Wakeup dependency from GPIO5 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 9. " WKUPDEP_GPIO5_IRQ1_EVE4  ,Wakeup dependency from GPIO5 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_GPIO5_IRQ1_EVE3 ,Wakeup dependency from GPIO5 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_GPIO5_IRQ1_EVE2   ,Wakeup dependency from GPIO5 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_GPIO5_IRQ1_EVE1  ,Wakeup dependency from GPIO5 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_GPIO5_IRQ1_DSP2 ,Wakeup dependency from GPIO5 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_GPIO5_IRQ1_IPU1   ,Wakeup dependency from GPIO5 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 2. " WKUPDEP_GPIO5_IRQ1_DSP1  ,Wakeup dependency from GPIO5 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_GPIO5_IRQ1_IPU2 ,Wakeup dependency from GPIO5 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_GPIO5_IRQ1_MPU    ,Wakeup dependency from GPIO5 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x7C++0x3
line.long 0x00 "RM_L4PER_GPIO5_CONTEXT,This register contains dedicated GPIO5 context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x80++0x3
line.long 0x00 "PM_L4PER_GPIO6_WKDEP,This register controls wakeup dependency based on GPIO6 service requests."
bitfld.long 0x00 19. " WKUPDEP_GPIO6_IRQ2_EVE4  ,Wakeup dependency from GPIO6 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 18. "                WKUPDEP_GPIO6_IRQ2_EVE3 ,Wakeup dependency from GPIO6 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 17. "                WKUPDEP_GPIO6_IRQ2_EVE2   ,Wakeup dependency from GPIO6 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 16. " WKUPDEP_GPIO6_IRQ2_EVE1  ,Wakeup dependency from GPIO6 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 15. "                WKUPDEP_GPIO6_IRQ2_DSP2 ,Wakeup dependency from GPIO6 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 14. "                WKUPDEP_GPIO6_IRQ2_IPU1   ,Wakeup dependency from GPIO6 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 12. " WKUPDEP_GPIO6_IRQ2_DSP1  ,Wakeup dependency from GPIO6 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 11. "                WKUPDEP_GPIO6_IRQ2_IPU2 ,Wakeup dependency from GPIO6 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 10. "  WKUPDEP_GPIO6_IRQ2_MPU    ,Wakeup dependency from GPIO6 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 9. " WKUPDEP_GPIO6_IRQ1_EVE4  ,Wakeup dependency from GPIO6 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_GPIO6_IRQ1_EVE3 ,Wakeup dependency from GPIO6 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_GPIO6_IRQ1_EVE2   ,Wakeup dependency from GPIO6 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_GPIO6_IRQ1_EVE1  ,Wakeup dependency from GPIO6 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_GPIO6_IRQ1_DSP2 ,Wakeup dependency from GPIO6 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_GPIO6_IRQ1_IPU1   ,Wakeup dependency from GPIO6 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 2. " WKUPDEP_GPIO6_IRQ1_DSP1  ,Wakeup dependency from GPIO6 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_GPIO6_IRQ1_IPU2 ,Wakeup dependency from GPIO6 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_GPIO6_IRQ1_MPU    ,Wakeup dependency from GPIO6 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x84++0x3
line.long 0x00 "RM_L4PER_GPIO6_CONTEXT,This register contains dedicated GPIO6 context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x94++0x3
line.long 0x00 "RM_L4PER2_PWMSS2_CONTEXT,This register contains dedicated PWMSS2 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x9C++0x3
line.long 0x00 "RM_L4PER2_PWMSS3_CONTEXT,This register contains dedicated PWMSS3 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0xA0++0x3
line.long 0x00 "PM_L4PER_I2C1_WKDEP,This register controls wakeup dependency based on I2C1 service requests."
bitfld.long 0x00 15. " WKUPDEP_I2C1_DMA_DSP2    ,Wakeup dependency from I2C1 module (SWakeup_dma signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 13. "                WKUPDEP_I2C1_DMA_SDMA   ,Wakeup dependency from I2C1 module (SWakeup_dma signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Disabled,Enabled"
bitfld.long 0x00 12. "                WKUPDEP_I2C1_DMA_DSP1     ,Wakeup dependency from I2C1 module (SWakeup_dma signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 9. " WKUPDEP_I2C1_IRQ_EVE4    ,Wakeup dependency from I2C1 module (SWakeup IRQ signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_I2C1_IRQ_EVE3   ,Wakeup dependency from I2C1 module (SWakeup IRQ signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_I2C1_IRQ_EVE2     ,Wakeup dependency from I2C1 module (SWakeup IRQ signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_I2C1_IRQ_EVE1    ,Wakeup dependency from I2C1 module (SWakeup IRQ signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_I2C1_IRQ_DSP2   ,Wakeup dependency from I2C1 module (SWakeup IRQ signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_I2C1_IRQ_IPU1     ,Wakeup dependency from I2C1 module (SWakeup IRQ signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 2. " WKUPDEP_I2C1_IRQ_DSP1    ,Wakeup dependency from I2C1 module (SWakeup IRQ signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_I2C1_IRQ_IPU2   ,Wakeup dependency from I2C1 module (SWakeup IRQ signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_I2C1_IRQ_MPU      ,Wakeup dependency from I2C1 module (SWakeup IRQ signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0xA4++0x3
line.long 0x00 "RM_L4PER_I2C1_CONTEXT,This register contains dedicated I2C1 context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0xA8++0x3
line.long 0x00 "PM_L4PER_I2C2_WKDEP,This register controls wakeup dependency based on I2C2 service requests."
bitfld.long 0x00 15. " WKUPDEP_I2C2_DMA_DSP2    ,Wakeup dependency from I2C2 module (SWakeup_dma signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 13. "                WKUPDEP_I2C2_DMA_SDMA   ,Wakeup dependency from I2C2 module (SWakeup_dma signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Disabled,Enabled"
bitfld.long 0x00 12. "                WKUPDEP_I2C2_DMA_DSP1     ,Wakeup dependency from I2C2 module (SWakeup_dma signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 9. " WKUPDEP_I2C2_IRQ_EVE4    ,Wakeup dependency from I2C2 module (SWakeup IRQ signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_I2C2_IRQ_EVE3   ,Wakeup dependency from I2C2 module (SWakeup IRQ signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_I2C2_IRQ_EVE2     ,Wakeup dependency from I2C2 module (SWakeup IRQ signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_I2C2_IRQ_EVE1    ,Wakeup dependency from I2C2 module (SWakeup IRQ signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_I2C2_IRQ_DSP2   ,Wakeup dependency from I2C2 module (SWakeup IRQ signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_I2C2_IRQ_IPU1     ,Wakeup dependency from I2C2 module (SWakeup IRQ signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 2. " WKUPDEP_I2C2_IRQ_DSP1    ,Wakeup dependency from I2C2 module (SWakeup IRQ signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_I2C2_IRQ_IPU2   ,Wakeup dependency from I2C2 module (SWakeup IRQ signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_I2C2_IRQ_MPU      ,Wakeup dependency from I2C2 module (SWakeup IRQ signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0xAC++0x3
line.long 0x00 "RM_L4PER_I2C2_CONTEXT,This register contains dedicated I2C2 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0xB0++0x3
line.long 0x00 "PM_L4PER_I2C3_WKDEP,This register controls wakeup dependency based on I2C3 service requests."
bitfld.long 0x00 15. " WKUPDEP_I2C3_DMA_DSP2    ,Wakeup dependency from I2C3 module (SWakeup_dma signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 13. "                WKUPDEP_I2C3_DMA_SDMA   ,Wakeup dependency from I2C3 module (SWakeup_dma signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Disabled,Enabled"
bitfld.long 0x00 12. "                WKUPDEP_I2C3_DMA_DSP1     ,Wakeup dependency from I2C3 module (SWakeup_dma signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 9. " WKUPDEP_I2C3_IRQ_EVE4    ,Wakeup dependency from I2C3 module (SWakeup IRQ signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_I2C3_IRQ_EVE3   ,Wakeup dependency from I2C3 module (SWakeup IRQ signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_I2C3_IRQ_EVE2     ,Wakeup dependency from I2C3 module (SWakeup IRQ signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_I2C3_IRQ_EVE1    ,Wakeup dependency from I2C3 module (SWakeup IRQ signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_I2C3_IRQ_DSP2   ,Wakeup dependency from I2C3 module (SWakeup IRQ signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_I2C3_IRQ_IPU1     ,Wakeup dependency from I2C3 module (SWakeup IRQ signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 2. " WKUPDEP_I2C3_IRQ_DSP1    ,Wakeup dependency from I2C3 module (SWakeup IRQ signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_I2C3_IRQ_IPU2   ,Wakeup dependency from I2C3 module (SWakeup IRQ signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_I2C3_IRQ_MPU      ,Wakeup dependency from I2C3 module (SWakeup IRQ signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0xB4++0x3
line.long 0x00 "RM_L4PER_I2C3_CONTEXT,This register contains dedicated I2C3 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0xB8++0x3
line.long 0x00 "PM_L4PER_I2C4_WKDEP,This register controls wakeup dependency based on I2C4 service requests."
bitfld.long 0x00 15. " WKUPDEP_I2C4_DMA_DSP2    ,Wakeup dependency from I2C4 module (SWakeup_dma signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 13. "                WKUPDEP_I2C4_DMA_SDMA   ,Wakeup dependency from I2C4 module (SWakeup_dma signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Disabled,Enabled"
bitfld.long 0x00 12. "                WKUPDEP_I2C4_DMA_DSP1     ,Wakeup dependency from I2C4 module (SWakeup_dma signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 9. " WKUPDEP_I2C4_IRQ_EVE4    ,Wakeup dependency from I2C4 module (SWakeup IRQ signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_I2C4_IRQ_EVE3   ,Wakeup dependency from I2C4 module (SWakeup IRQ signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_I2C4_IRQ_EVE2     ,Wakeup dependency from I2C4 module (SWakeup IRQ signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_I2C4_IRQ_EVE1    ,Wakeup dependency from I2C4 module (SWakeup IRQ signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_I2C4_IRQ_DSP2   ,Wakeup dependency from I2C4 module (SWakeup IRQ signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_I2C4_IRQ_IPU1     ,Wakeup dependency from I2C4 module (SWakeup IRQ signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 2. " WKUPDEP_I2C4_IRQ_DSP1    ,Wakeup dependency from I2C4 module (SWakeup IRQ signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_I2C4_IRQ_IPU2   ,Wakeup dependency from I2C4 module (SWakeup IRQ signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_I2C4_IRQ_MPU      ,Wakeup dependency from I2C4 module (SWakeup IRQ signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0xBC++0x3
line.long 0x00 "RM_L4PER_I2C4_CONTEXT,This register contains dedicated I2C4 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0xC0++0x3
line.long 0x00 "RM_L4PER_L4PER1_CONTEXT,This register contains dedicated L4_PER1 context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_PWRON_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "              LOSTCONTEXT_DFF         ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0xC4++0x3
line.long 0x00 "RM_L4PER2_PWMSS1_CONTEXT,This register contains dedicated PWMSS1 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0xC8++0x3
line.long 0x00 "PM_L4PER_TIMER13_WKDEP,This register controls wakeup dependency based on TIMER13 service requests."
bitfld.long 0x00 9. " WKUPDEP_TIMER13_EVE4     ,Wakeup dependency from TIMER13 module (SWakeup IRQ signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_TIMER13_EVE3    ,Wakeup dependency from TIMER13 module (SWakeup IRQ signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_TIMER13_EVE2      ,Wakeup dependency from TIMER13 module (SWakeup IRQ signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_TIMER13_EVE1     ,Wakeup dependency from TIMER13 module (SWakeup IRQ signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_TIMER13_DSP2    ,Wakeup dependency from TIMER13 module (SWakeup IRQ signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_TIMER13_IPU1      ,Wakeup dependency from TIMER13 module (SWakeup IRQ signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 2. " WKUPDEP_TIMER13_DSP1     ,Wakeup dependency from TIMER13 module (SWakeup IRQ signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_TIMER13_IPU2    ,Wakeup dependency from TIMER13 module (SWakeup IRQ signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_TIMER13_MPU       ,Wakeup dependency from TIMER13 module (SWakeup IRQ signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0xCC++0x3
line.long 0x00 "RM_L4PER3_TIMER13_CONTEXT,This register contains dedicated TIMER13 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0xD0++0x3
line.long 0x00 "PM_L4PER_TIMER14_WKDEP,This register controls wakeup dependency based on TIMER14 service requests."
bitfld.long 0x00 9. " WKUPDEP_TIMER14_EVE4     ,Wakeup dependency from TIMER14 module (SWakeup IRQ signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_TIMER14_EVE3    ,Wakeup dependency from TIMER14 module (SWakeup IRQ signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_TIMER14_EVE2      ,Wakeup dependency from TIMER14 module (SWakeup IRQ signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_TIMER14_EVE1     ,Wakeup dependency from TIMER14 module (SWakeup IRQ signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_TIMER14_DSP2    ,Wakeup dependency from TIMER14 module (SWakeup IRQ signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_TIMER14_IPU1      ,Wakeup dependency from TIMER14 module (SWakeup IRQ signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 2. " WKUPDEP_TIMER14_DSP1     ,Wakeup dependency from TIMER14 module (SWakeup IRQ signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_TIMER14_IPU2    ,Wakeup dependency from TIMER14 module (SWakeup IRQ signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_TIMER14_MPU       ,Wakeup dependency from TIMER14 module (SWakeup IRQ signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0xD4++0x3
line.long 0x00 "RM_L4PER3_TIMER14_CONTEXT,This register contains dedicated TIMER14 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0xD8++0x3
line.long 0x00 "PM_L4PER_TIMER15_WKDEP,This register controls wakeup dependency based on TIMER15 service requests."
bitfld.long 0x00 9. " WKUPDEP_TIMER15_EVE4     ,5Wakeup dependency from TIMER15 module (SWakeup IRQ signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_TIMER15_EVE3    ,Wakeup dependency from TIMER15 module (SWakeup IRQ signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_TIMER15_EVE2      ,Wakeup dependency from TIMER15 module (SWakeup IRQ signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_TIMER15_EVE1     ,Wakeup dependency from TIMER15 module (SWakeup IRQ signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_TIMER15_DSP2    ,Wakeup dependency from TIMER15 module (SWakeup IRQ signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_TIMER15_IPU1      ,Wakeup dependency from TIMER15 module (SWakeup IRQ signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 2. " WKUPDEP_TIMER15_DSP1     ,Wakeup dependency from TIMER15 module (SWakeup IRQ signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_TIMER15_IPU2    ,Wakeup dependency from TIMER15 module (SWakeup IRQ signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_TIMER15_MPU       ,Wakeup dependency from TIMER15 module (SWakeup IRQ signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0xDC++0x3
line.long 0x00 "RM_L4PER3_TIMER15_CONTEXT,This register contains dedicated TIMER15 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0xF0++0x3
line.long 0x00 "PM_L4PER_MCSPI1_WKDEP,This register controls wakeup dependency based on MCSPI1 service requests."
bitfld.long 0x00 9. " WKUPDEP_MCSPI1_EVE4      ,Wakeup dependency from MCSPI1 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_MCSPI1_EVE3     ,Wakeup dependency from MCSPI1 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_MCSPI1_EVE2       ,Wakeup dependency from MCSPI1 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_MCSPI1_EVE1      ,Wakeup dependency from MCSPI1 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_MCSPI1_DSP2     ,Wakeup dependency from MCSPI1 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_MCSPI1_IPU1       ,Wakeup dependency from MCSPI1 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 3. " WKUPDEP_MCSPI1_SDMA      ,Wakeup dependency from MCSPI1 module (SWakeup signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Disabled,Enabled"
bitfld.long 0x00 2. "                WKUPDEP_MCSPI1_DSP1     ,Wakeup dependency from MCSPI1 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_MCSPI1_IPU2       ,Wakeup dependency from MCSPI1 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
textline "                                      "
bitfld.long 0x00 0. " WKUPDEP_MCSPI1_MPU       ,Wakeup dependency from MCSPI1 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0xF4++0x3
line.long 0x00 "RM_L4PER_MCSPI1_CONTEXT,This register contains dedicated MCSPI1 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0xF8++0x3
line.long 0x00 "PM_L4PER_MCSPI2_WKDEP,This register controls wakeup dependency based on MCSPI2 service requests."
bitfld.long 0x00 9. " WKUPDEP_MCSPI2_EVE4      ,Wakeup dependency from MCSPI2 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_MCSPI2_EVE3     ,Wakeup dependency from MCSPI2 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_MCSPI2_EVE2       ,Wakeup dependency from MCSPI2 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_MCSPI2_EVE1      ,Wakeup dependency from MCSPI2 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_MCSPI2_DSP2     ,Wakeup dependency from MCSPI2 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_MCSPI2_IPU1       ,Wakeup dependency from MCSPI2 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 3. " WKUPDEP_MCSPI2_SDMA      ,Wakeup dependency from MCSPI2 module (SWakeup signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Disabled,Enabled"
bitfld.long 0x00 2. "                WKUPDEP_MCSPI2_DSP1     ,Wakeup dependency from MCSPI2 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_MCSPI2_IPU2       ,Wakeup dependency from MCSPI2 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
textline "                                      "
bitfld.long 0x00 0. " WKUPDEP_MCSPI2_MPU       ,Wakeup dependency from MCSPI2 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0xFC++0x3
line.long 0x00 "RM_L4PER_MCSPI2_CONTEXT,This register contains dedicated MCSPI2 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x100++0x3
line.long 0x00 "PM_L4PER_MCSPI3_WKDEP,This register controls wakeup dependency based on MCSPI3 service requests."
bitfld.long 0x00 9. " WKUPDEP_MCSPI3_EVE4      ,Wakeup dependency from MCSPI3 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_MCSPI3_EVE3     ,Wakeup dependency from MCSPI3 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_MCSPI3_EVE2       ,Wakeup dependency from MCSPI3 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_MCSPI3_EVE1      ,Wakeup dependency from MCSPI3 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_MCSPI3_DSP2     ,Wakeup dependency from MCSPI3 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_MCSPI3_IPU1       ,Wakeup dependency from MCSPI3 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 3. " WKUPDEP_MCSPI3_SDMA      ,Wakeup dependency from MCSPI3 module (SWakeup signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Disabled,Enabled"
bitfld.long 0x00 2. "                WKUPDEP_MCSPI3_DSP1     ,Wakeup dependency from MCSPI3 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_MCSPI3_IPU2       ,Wakeup dependency from MCSPI3 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
textline "                                      "
bitfld.long 0x00 0. " WKUPDEP_MCSPI3_MPU       ,Wakeup dependency from MCSPI3 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x104++0x3
line.long 0x00 "RM_L4PER_MCSPI3_CONTEXT,This register contains dedicated MCSPI3 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x108++0x3
line.long 0x00 "PM_L4PER_MCSPI4_WKDEP,This register controls wakeup dependency based on MCSPI4 service requests."
bitfld.long 0x00 9. " WKUPDEP_MCSPI4_EVE4      ,Wakeup dependency from MCSPI4 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_MCSPI4_EVE3     ,Wakeup dependency from MCSPI4 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_MCSPI4_EVE2       ,Wakeup dependency from MCSPI4 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_MCSPI4_EVE1      ,Wakeup dependency from MCSPI4 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_MCSPI4_DSP2     ,Wakeup dependency from MCSPI4 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_MCSPI4_IPU1       ,Wakeup dependency from MCSPI4 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 3. " WKUPDEP_MCSPI4_SDMA      ,Wakeup dependency from MCSPI4 module (SWakeup signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Disabled,Enabled"
bitfld.long 0x00 2. "                WKUPDEP_MCSPI4_DSP1     ,Wakeup dependency from MCSPI4 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_MCSPI4_IPU2       ,Wakeup dependency from MCSPI4 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
textline "                                      "
bitfld.long 0x00 0. " WKUPDEP_MCSPI4_MPU       ,Wakeup dependency from MCSPI4 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x10C++0x3
line.long 0x00 "RM_L4PER_MCSPI4_CONTEXT,This register contains dedicated MCSPI4 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x110++0x3
line.long 0x00 "PM_L4PER_GPIO7_WKDEP,This register controls wakeup dependency based on GPIO7 service requests."
bitfld.long 0x00 19. " WKUPDEP_GPIO7_IRQ2_EVE4  ,Wakeup dependency from GPIO7 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 18. "                WKUPDEP_GPIO7_IRQ2_EVE3 ,Wakeup dependency from GPIO7 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 17. "                WKUPDEP_GPIO7_IRQ2_EVE2   ,Wakeup dependency from GPIO7 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 16. " WKUPDEP_GPIO7_IRQ2_EVE1  ,Wakeup dependency from GPIO7 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 15. "                WKUPDEP_GPIO7_IRQ2_DSP2 ,Wakeup dependency from GPIO7 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 14. "                WKUPDEP_GPIO7_IRQ2_IPU1   ,Wakeup dependency from GPIO7 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 12. " WKUPDEP_GPIO7_IRQ2_DSP1  ,Wakeup dependency from GPIO7 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 11. "                WKUPDEP_GPIO7_IRQ2_IPU2 ,Wakeup dependency from GPIO7 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 10. "  WKUPDEP_GPIO7_IRQ2_MPU    ,Wakeup dependency from GPIO7 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 9. " WKUPDEP_GPIO7_IRQ1_EVE4  ,Wakeup dependency from GPIO7 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_GPIO7_IRQ1_EVE3 ,Wakeup dependency from GPIO7 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_GPIO7_IRQ1_EVE2   ,Wakeup dependency from GPIO7 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_GPIO7_IRQ1_EVE1  ,Wakeup dependency from GPIO7 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_GPIO7_IRQ1_DSP2 ,Wakeup dependency from GPIO7 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_GPIO7_IRQ1_IPU1   ,Wakeup dependency from GPIO7 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 2. " WKUPDEP_GPIO7_IRQ1_DSP1  ,Wakeup dependency from GPIO7 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_GPIO7_IRQ1_IPU2 ,Wakeup dependency from GPIO7 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_GPIO7_IRQ1_MPU    ,Wakeup dependency from GPIO7 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x114++0x3
line.long 0x00 "RM_L4PER_GPIO7_CONTEXT,This register contains dedicated GPIO7 context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x118++0x3
line.long 0x00 "PM_L4PER_GPIO8_WKDEP,This register controls wakeup dependency based on GPIO8 service requests."
bitfld.long 0x00 19. " WKUPDEP_GPIO8_IRQ2_EVE4  ,Wakeup dependency from GPIO8 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 18. "                WKUPDEP_GPIO8_IRQ2_EVE3 ,Wakeup dependency from GPIO8 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 17. "                WKUPDEP_GPIO8_IRQ2_EVE2   ,Wakeup dependency from GPIO8 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 16. " WKUPDEP_GPIO8_IRQ2_EVE1  ,Wakeup dependency from GPIO8 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 15. "                WKUPDEP_GPIO8_IRQ2_DSP2 ,Wakeup dependency from GPIO8 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 14. "                WKUPDEP_GPIO8_IRQ2_IPU1   ,Wakeup dependency from GPIO8 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 12. " WKUPDEP_GPIO8_IRQ2_DSP1  ,Wakeup dependency from GPIO8 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 11. "                WKUPDEP_GPIO8_IRQ2_IPU2 ,Wakeup dependency from GPIO8 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 10. "  WKUPDEP_GPIO8_IRQ2_MPU    ,Wakeup dependency from GPIO8 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 9. " WKUPDEP_GPIO8_IRQ1_EVE4  ,Wakeup dependency from GPIO8 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_GPIO8_IRQ1_EVE3 ,Wakeup dependency from GPIO8 (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_GPIO8_IRQ1_EVE2   ,Wakeup dependency from GPIO8 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_GPIO8_IRQ1_EVE1  ,Wakeup dependency from GPIO8 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_GPIO8_IRQ1_DSP2 ,Wakeup dependency from GPIO8 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_GPIO8_IRQ1_IPU1   ,Wakeup dependency from GPIO8 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 2. " WKUPDEP_GPIO8_IRQ1_DSP1  ,Wakeup dependency from GPIO8 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_GPIO8_IRQ1_IPU2 ,Wakeup dependency from GPIO8 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_GPIO8_IRQ1_MPU    ,Wakeup dependency from GPIO8 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x11C++0x3
line.long 0x00 "RM_L4PER_GPIO8_CONTEXT,This register contains dedicated GPIO8 context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x120++0x3
line.long 0x00 "PM_L4PER_MMC3_WKDEP,This register controls wakeup dependency based on MMC3 service requests."
bitfld.long 0x00 9. " WKUPDEP_MMC3_EVE4        ,Wakeup dependency from MMC3 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_MMC3_EVE3       ,Wakeup dependency from MMC3 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_MMC3_EVE2         ,Wakeup dependency from MMC3 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_MMC3_EVE1        ,Wakeup dependency from MMC3 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_MMC3_DSP2       ,Wakeup dependency from MMC3 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_MMC3_IPU1         ,Wakeup dependency from MMC3 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 3. " WKUPDEP_MMC3_SDMA        ,Wakeup dependency from MMC3 module (SWakeup signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 2. "                WKUPDEP_MMC3_DSP1       ,Wakeup dependency from MMC3 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_MMC3_IPU2         ,Wakeup dependency from MMC3 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 0. " WKUPDEP_MMC3_MPU         ,Wakeup dependency from MMC3 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x124++0x3
line.long 0x00 "RM_L4PER_MMC3_CONTEXT,This register contains dedicated MMC3 context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_NONRETAINED_BANK ,Specify if memory-based context in NONRETAINED_BANK memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "              LOSTCONTEXT_DFF         ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x128++0x3
line.long 0x00 "PM_L4PER_MMC4_WKDEP,This register controls wakeup dependency based on MMC4 service requests."
bitfld.long 0x00 9. " WKUPDEP_MMC4_EVE4        ,Wakeup dependency from MMC4 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_MMC4_EVE3       ,Wakeup dependency from MMC4 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_MMC4_EVE2         ,Wakeup dependency from MMC4 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_MMC4_EVE1        ,Wakeup dependency from MMC4 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_MMC4_DSP2       ,Wakeup dependency from MMC4 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_MMC4_IPU1         ,Wakeup dependency from MMC4 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 3. " WKUPDEP_MMC4_SDMA        ,Wakeup dependency from MMC4 module (SWakeup signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 2. "                WKUPDEP_MMC4_DSP1       ,Wakeup dependency from MMC4 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_MMC4_IPU2         ,Wakeup dependency from MMC4 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 0. " WKUPDEP_MMC4_MPU         ,Wakeup dependency from MMC4 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x12C++0x3
line.long 0x00 "RM_L4PER_MMC4_CONTEXT,This register contains dedicated MMC4 context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_NONRETAINED_BANK ,Specify if memory-based context in NONRETAINED_BANK memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "              LOSTCONTEXT_DFF         ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x130++0x3
line.long 0x00 "PM_L4PER_TIMER16_WKDEP,This register controls wakeup dependency based on TIMER16 service requests."
bitfld.long 0x00 9. " WKUPDEP_TIMER16_EVE4     ,Wakeup dependency from TIMER16 module (SWakeup IRQ signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_TIMER16_EVE3    ,Wakeup dependency from TIMER16 module (SWakeup IRQ signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_TIMER16_EVE2      ,Wakeup dependency from TIMER16 module (SWakeup IRQ signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_TIMER16_EVE1     ,Wakeup dependency from TIMER16 module (SWakeup IRQ signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_TIMER16_DSP2    ,Wakeup dependency from TIMER16 module (SWakeup IRQ signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_TIMER16_IPU1      ,Wakeup dependency from TIMER16 module (SWakeup IRQ signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 2. " WKUPDEP_TIMER16_DSP1     ,Wakeup dependency from TIMER16 module (SWakeup IRQ signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_TIMER16_IPU2    ,Wakeup dependency from TIMER16 module (SWakeup IRQ signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_TIMER16_MPU       ,6Wakeup dependency from TIMER13 module (SWakeup IRQ signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x134++0x3
line.long 0x00 "RM_L4PER3_TIMER16_CONTEXT,This register contains dedicated TIMER16 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x138++0x3
line.long 0x00 "PM_L4PER2_QSPI_WKDEP,This register controls wakeup dependency based on QSPI service requests."
bitfld.long 0x00 9. " WKUPDEP_QSPI_EVE4        ,Wakeup dependency from QSPI module (SWakeup IRQ signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_QSPI_EVE3       ,Wakeup dependency from QSPI module (SWakeup IRQ signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_QSPI_EVE2         ,Wakeup dependency from QSPI module (SWakeup IRQ signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_QSPI_EVE1        ,Wakeup dependency from QSPI module (SWakeup IRQ signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_QSPI_DSP2       ,Wakeup dependency from QSPI module (SWakeup IRQ signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_QSPI_IPU1         ,Wakeup dependency from QSPI module (SWakeup IRQ signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 2. " WKUPDEP_QSPI_DSP1        ,Wakeup dependency from QSPI module (SWakeup IRQ signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_QSPI_IPU2       ,Wakeup dependency from QSPI module (SWakeup IRQ signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 0. "  WKUPDEP_QSPI_MPU          ,Wakeup dependency from QSPI module (SWakeup IRQ signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x13C++0x3
line.long 0x00 "RM_L4PER2_QSPI_CONTEXT,This register contains dedicated QSPI context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of CORE_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x140++0x3
line.long 0x00 "PM_L4PER_UART1_WKDEP,This register controls wakeup dependency based on UART1 service requests."
bitfld.long 0x00 9. " WKUPDEP_UART1_EVE4       ,Wakeup dependency from UART1 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_UART1_EVE3      ,Wakeup dependency from UART1 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_UART1_EVE2        ,Wakeup dependency from UART1 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_UART1_EVE1       ,Wakeup dependency from UART1 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_UART1_DSP2      ,Wakeup dependency from UART1 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_UART1_IPU1        ,Wakeup dependency from UART1 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 3. " WKUPDEP_UART1_SDMA       ,Wakeup dependency from UART1 module (SWakeup signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Disabled,Enabled"
bitfld.long 0x00 2. "                WKUPDEP_UART1_DSP1      ,Wakeup dependency from UART1 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_UART1_IPU2        ,Wakeup dependency from UART1 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
textline "                                      "
bitfld.long 0x00 0. " WKUPDEP_UART1_MPU        ,Wakeup dependency from UART1 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x144++0x3
line.long 0x00 "RM_L4PER_UART1_CONTEXT,This register contains dedicated UART1 context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_RETAINED_BANK    ,Specify if memory-based context in RETAINED_BANK memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 1. "              LOSTCONTEXT_RFF         ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x148++0x3
line.long 0x00 "PM_L4PER_UART2_WKDEP,This register controls wakeup dependency based on UART2 service requests."
bitfld.long 0x00 9. " WKUPDEP_UART2_EVE4       ,Wakeup dependency from UART2 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_UART2_EVE3      ,Wakeup dependency from UART2 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_UART2_EVE2        ,Wakeup dependency from UART2 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_UART2_EVE1       ,Wakeup dependency from UART2 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_UART2_DSP2      ,Wakeup dependency from UART2 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_UART2_IPU1        ,Wakeup dependency from UART2 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 3. " WKUPDEP_UART2_SDMA       ,Wakeup dependency from UART2 module (SWakeup signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Disabled,Enabled"
bitfld.long 0x00 2. "                WKUPDEP_UART2_DSP1      ,Wakeup dependency from UART2 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_UART2_IPU2        ,Wakeup dependency from UART2 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
textline "                                      "
bitfld.long 0x00 0. " WKUPDEP_UART2_MPU        ,Wakeup dependency from UART2 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x14C++0x3
line.long 0x00 "RM_L4PER_UART2_CONTEXT,This register contains dedicated UART2 context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_RETAINED_BANK    ,Specify if memory-based context in RETAINED_BANK memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 1. "              LOSTCONTEXT_RFF         ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x150++0x3
line.long 0x00 "PM_L4PER_UART3_WKDEP,This register controls wakeup dependency based on UART3 service requests."
bitfld.long 0x00 9. " WKUPDEP_UART3_EVE4       ,Wakeup dependency from UART3 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_UART3_EVE3      ,Wakeup dependency from UART3 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_UART3_EVE2        ,Wakeup dependency from UART3 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_UART3_EVE1       ,Wakeup dependency from UART3 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_UART3_DSP2      ,Wakeup dependency from UART3 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_UART3_IPU1        ,Wakeup dependency from UART3 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 3. " WKUPDEP_UART3_SDMA       ,Wakeup dependency from UART3 module (SWakeup signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Disabled,Enabled"
bitfld.long 0x00 2. "                WKUPDEP_UART3_DSP1      ,Wakeup dependency from UART3 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_UART3_IPU2        ,Wakeup dependency from UART3 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
textline "                                      "
bitfld.long 0x00 0. " WKUPDEP_UART3_MPU        ,Wakeup dependency from UART3 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x154++0x3
line.long 0x00 "RM_L4PER_UART3_CONTEXT,This register contains dedicated UART3 context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_RETAINED_BANK    ,Specify if memory-based context in RETAINED_BANK memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 1. "              LOSTCONTEXT_RFF         ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x158++0x3
line.long 0x00 "PM_L4PER_UART4_WKDEP,This register controls wakeup dependency based on UART4 service requests."
bitfld.long 0x00 9. " WKUPDEP_UART4_EVE4       ,Wakeup dependency from UART4 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_UART4_EVE3      ,Wakeup dependency from UART4 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_UART4_EVE2        ,Wakeup dependency from UART4 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_UART4_EVE1       ,Wakeup dependency from UART4 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_UART4_DSP2      ,Wakeup dependency from UART4 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_UART4_IPU1        ,Wakeup dependency from UART4 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 3. " WKUPDEP_UART4_SDMA       ,Wakeup dependency from UART4 module (SWakeup signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Disabled,Enabled"
bitfld.long 0x00 2. "                WKUPDEP_UART4_DSP1      ,Wakeup dependency from UART4 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_UART4_IPU2        ,Wakeup dependency from UART4 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
textline "                                      "
bitfld.long 0x00 0. " WKUPDEP_UART4_MPU        ,Wakeup dependency from UART4 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x15C++0x3
line.long 0x00 "RM_L4PER_UART4_CONTEXT,This register contains dedicated UART4 context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_RETAINED_BANK    ,Specify if memory-based context in RETAINED_BANK memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 1. "              LOSTCONTEXT_RFF         ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x160++0x3
line.long 0x00 "PM_L4PER2_MCASP2_WKDEP,This register controls wakeup dependency based on MCASP2 service requests."
bitfld.long 0x00 15. " WKUPDEP_MCASP2_DMA_DSP2  ,Wakeup dependency from MCASP2 module (SWakeup_dma signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 13. "                WKUPDEP_MCASP2_DMA_SDMA ,Wakeup dependency from MCASP2 module (SWakeup_dma signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 12. "                WKUPDEP_MCASP2_DMA_DSP1   ,Wakeup dependency from MCASP2 module (SWakeup_dma signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 9. " WKUPDEP_MCASP2_IRQ_EVE4  ,Wakeup dependency from MCASP2 module (SWakeup IRQ signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_MCASP2_IRQ_EVE3 ,Wakeup dependency from MCASP2 module (SWakeup IRQ signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_MCASP2_IRQ_EVE2   ,Wakeup dependency from MCASP2 module (SWakeup IRQ signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_MCASP2_IRQ_EVE1  ,Wakeup dependency from MCASP2 module (SWakeup IRQ signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_MCASP2_IRQ_DSP2 ,Wakeup dependency from MCASP2 module (SWakeup IRQ signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_MCASP2_IRQ_IPU1   ,Wakeup dependency from MCASP2 module (SWakeup IRQ signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 2. " WKUPDEP_MCASP2_IRQ_DSP1  ,Wakeup dependency from MCASP2 module (SWakeup IRQ signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_MCASP2_IRQ_IPU2 ,Wakeup dependency from MCASP2 module (SWakeup IRQ signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 0. "                WKUPDEP_MCASP2_IRQ_MPU    ,Wakeup dependency from MCASP2 module (SWakeup IRQ signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x164++0x3
line.long 0x00 "RM_L4PER2_MCASP2_CONTEXT,This register contains dedicated MCASP2 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x168++0x3
line.long 0x00 "PM_L4PER2_MCASP3_WKDEP,This register controls wakeup dependency based on MCASP3 service requests."
bitfld.long 0x00 15. " WKUPDEP_MCASP3_DMA_DSP2  ,Wakeup dependency from MCASP3 module (SWakeup_dma signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 13. "                WKUPDEP_MCASP3_DMA_SDMA ,Wakeup dependency from MCASP3 module (SWakeup_dma signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 12. "                WKUPDEP_MCASP3_DMA_DSP1   ,3Wakeup dependency from MCASP2 module (SWakeup_dma signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 9. " WKUPDEP_MCASP3_IRQ_EVE4  ,Wakeup dependency from MCASP3 module (SWakeup IRQ signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_MCASP3_IRQ_EVE3 ,Wakeup dependency from MCASP3 module (SWakeup IRQ signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_MCASP3_IRQ_EVE2   ,Wakeup dependency from MCASP3 module (SWakeup IRQ signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_MCASP3_IRQ_EVE1  ,Wakeup dependency from MCASP3 module (SWakeup IRQ signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_MCASP3_IRQ_DSP2 ,Wakeup dependency from MCASP3 module (SWakeup IRQ signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_MCASP3_IRQ_IPU1   ,Wakeup dependency from MCASP3 module (SWakeup IRQ signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 2. " WKUPDEP_MCASP3_IRQ_DSP1  ,Wakeup dependency from MCASP3 module (SWakeup IRQ signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_MCASP3_IRQ_IPU2 ,Wakeup dependency from MCASP3 module (SWakeup IRQ signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 0. "                WKUPDEP_MCASP3_IRQ_MPU    ,Wakeup dependency from MCASP3 module (SWakeup IRQ signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x16C++0x3
line.long 0x00 "RM_L4PER2_MCASP3_CONTEXT,This register contains dedicated MCASP3 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x170++0x3
line.long 0x00 "PM_L4PER_UART5_WKDEP,This register controls wakeup dependency based on UART5 service requests."
bitfld.long 0x00 9. " WKUPDEP_UART5_EVE4       ,Wakeup dependency from UART5 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_UART5_EVE3      ,Wakeup dependency from UART5 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_UART5_EVE2        ,Wakeup dependency from UART5 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_UART5_EVE1       ,Wakeup dependency from UART5 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_UART5_DSP2      ,Wakeup dependency from UART5 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_UART5_IPU1        ,Wakeup dependency from UART5 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 3. " WKUPDEP_UART5_SDMA       ,Wakeup dependency from UART5 module (SWakeup signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 2. "  WKUPDEP_UART5_DSP1      ,Wakeup dependency from UART5 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_UART5_IPU2        ,Wakeup dependency from UART5 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
textline "                                      "
bitfld.long 0x00 0. " WKUPDEP_UART5_MPU        ,Wakeup dependency from UART5 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x174++0x3
line.long 0x00 "RM_L4PER_UART5_CONTEXT,This register contains dedicated UART5 context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_RETAINED_BANK    ,Specify if memory-based context in RETAINED_BANK memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 1. "              LOSTCONTEXT_RFF         ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x178++0x3
line.long 0x00 "PM_L4PER2_MCASP5_WKDEP,This register controls wakeup dependency based on MCASP5 service requests."
bitfld.long 0x00 15. " WKUPDEP_MCASP5_DMA_DSP2  ,Wakeup dependency from MCASP5 module (SWakeup_dma signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 13. "                WKUPDEP_MCASP5_DMA_SDMA ,Wakeup dependency from MCASP5 module (SWakeup_dma signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 12. "                WKUPDEP_MCASP5_DMA_DSP1   ,Wakeup dependency from MCASP5 module (SWakeup_dma signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 9. " WKUPDEP_MCASP5_IRQ_EVE4  ,Wakeup dependency from MCASP5 module (SWakeup IRQ signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_MCASP5_IRQ_EVE3 ,Wakeup dependency from MCASP5 module (SWakeup IRQ signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_MCASP5_IRQ_EVE2   ,Wakeup dependency from MCASP5 module (SWakeup IRQ signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_MCASP5_IRQ_EVE1  ,Wakeup dependency from MCASP5 module (SWakeup IRQ signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_MCASP5_IRQ_DSP2 ,Wakeup dependency from MCASP5 module (SWakeup IRQ signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_MCASP5_IRQ_IPU1   ,Wakeup dependency from MCASP5 module (SWakeup IRQ signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 2. " WKUPDEP_MCASP5_IRQ_DSP1  ,Wakeup dependency from MCASP5 module (SWakeup IRQ signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_MCASP5_IRQ_IPU2 ,Wakeup dependency from MCASP2 module (SWakeup IRQ signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 0. "                WKUPDEP_MCASP5_IRQ_MPU    ,Wakeup dependency from MCASP5 module (SWakeup IRQ signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x17C++0x3
line.long 0x00 "RM_L4PER2_MCASP5_CONTEXT,This register contains dedicated MCASP5 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x180++0x3
line.long 0x00 "PM_L4PER2_MCASP6_WKDEP,This register controls wakeup dependency based on MCASP6 service requests."
bitfld.long 0x00 15. " WKUPDEP_MCASP6_DMA_DSP2  ,Wakeup dependency from MCASP6 module (SWakeup_dma signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 13. "                WKUPDEP_MCASP6_DMA_SDMA ,Wakeup dependency from MCASP6 module (SWakeup_dma signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 12. "                WKUPDEP_MCASP6_DMA_DSP1   ,Wakeup dependency from MCASP6 module (SWakeup_dma signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 9. " WKUPDEP_MCASP6_IRQ_EVE4  ,Wakeup dependency from MCASP6 module (SWakeup IRQ signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_MCASP6_IRQ_EVE3 ,Wakeup dependency from MCASP6 module (SWakeup IRQ signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_MCASP6_IRQ_EVE2   ,Wakeup dependency from MCASP6 module (SWakeup IRQ signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_MCASP6_IRQ_EVE1  ,Wakeup dependency from MCASP6 module (SWakeup IRQ signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_MCASP6_IRQ_DSP2 ,Wakeup dependency from MCASP6 module (SWakeup IRQ signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_MCASP6_IRQ_IPU1   ,Wakeup dependency from MCASP6 module (SWakeup IRQ signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 2. " WKUPDEP_MCASP6_IRQ_DSP1  ,Wakeup dependency from MCASP6 module (SWakeup IRQ signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_MCASP6_IRQ_IPU2 ,Wakeup dependency from MCASP6 (SWakeup IRQ signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 0. "                WKUPDEP_MCASP6_IRQ_MPU    ,Wakeup dependency from MCASP6 module (SWakeup IRQ signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x184++0x3
line.long 0x00 "RM_L4PER2_MCASP6_CONTEXT,This register contains dedicated MCASP6 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x188++0x3
line.long 0x00 "PM_L4PER2_MCASP7_WKDEP,This register controls wakeup dependency based on MCASP7 service requests."
bitfld.long 0x00 15. " WKUPDEP_MCASP7_DMA_DSP2  ,Wakeup dependency from MCASP7 module (SWakeup_dma signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 13. "                WKUPDEP_MCASP7_DMA_SDMA ,Wakeup dependency from MCASP7 module (SWakeup_dma signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 12. "                WKUPDEP_MCASP7_DMA_DSP1   ,Wakeup dependency from MCASP7 module (SWakeup_dma signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 9. " WKUPDEP_MCASP7_IRQ_EVE4  ,Wakeup dependency from MCASP7 module (SWakeup IRQ signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_MCASP7_IRQ_EVE3 ,Wakeup dependency from MCASP7 module (SWakeup IRQ signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_MCASP7_IRQ_EVE2   ,Wakeup dependency from MCASP7 module (SWakeup IRQ signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_MCASP7_IRQ_EVE1  ,Wakeup dependency from MCASP7 module (SWakeup IRQ signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_MCASP7_IRQ_DSP2 ,Wakeup dependency from MCASP7 module (SWakeup IRQ signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_MCASP7_IRQ_IPU1   ,Wakeup dependency from MCASP7 module (SWakeup IRQ signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 2. " WKUPDEP_MCASP7_IRQ_DSP1  ,Wakeup dependency from MCASP7 module (SWakeup IRQ signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_MCASP7_IRQ_IPU2 ,Wakeup dependency from MCASP7 module (SWakeup IRQ signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 0. "                WKUPDEP_MCASP7_IRQ_MPU    ,Wakeup dependency from MCASP7 module (SWakeup IRQ signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x18C++0x3
line.long 0x00 "RM_L4PER2_MCASP7_CONTEXT,This register contains dedicated MCASP7 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x190++0x3
line.long 0x00 "PM_L4PER2_MCASP8_WKDEP,This register controls wakeup dependency based on MCASP8 service requests."
bitfld.long 0x00 15. " WKUPDEP_MCASP8_DMA_DSP2  ,Wakeup dependency from MCASP8 module (SWakeup_dma signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 13. "                WKUPDEP_MCASP8_DMA_SDMA ,Wakeup dependency from MCASP8 module (SWakeup_dma signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 12. "                WKUPDEP_MCASP8_DMA_DSP1   ,Wakeup dependency from MCASP8 module (SWakeup_dma signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 9. " WKUPDEP_MCASP8_IRQ_EVE4  ,Wakeup dependency from MCASP8 module (SWakeup IRQ signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_MCASP8_IRQ_EVE3 ,Wakeup dependency from MCASP8 module (SWakeup IRQ signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_MCASP8_IRQ_EVE2   ,Wakeup dependency from MCASP8 module (SWakeup IRQ signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_MCASP8_IRQ_EVE1  ,Wakeup dependency from MCASP8 module (SWakeup IRQ signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_MCASP8_IRQ_DSP2 ,Wakeup dependency from MCASP8 module (SWakeup IRQ signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_MCASP8_IRQ_IPU1   ,Wakeup dependency from MCASP8 module (SWakeup IRQ signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 2. " WKUPDEP_MCASP8_IRQ_DSP1  ,Wakeup dependency from MCASP8 module (SWakeup IRQ signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_MCASP8_IRQ_IPU2 ,Wakeup dependency from MCASP8 module (SWakeup IRQ signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 0. "                WKUPDEP_MCASP8_IRQ_MPU    ,Wakeup dependency from MCASP8 module (SWakeup IRQ signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x194++0x3
line.long 0x00 "RM_L4PER2_MCASP8_CONTEXT,This register contains dedicated MCASP8 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of ABE_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x198++0x3
line.long 0x00 "PM_L4PER2_MCASP4_WKDEP,This register controls wakeup dependency based on MCASP4 service requests."
bitfld.long 0x00 15. " WKUPDEP_MCASP4_DMA_DSP2  ,Wakeup dependency from MCASP4 module (SWakeup_dma signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 13. "                WKUPDEP_MCASP4_DMA_SDMA ,Wakeup dependency from MCASP4 module (SWakeup_dma signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 12. "                WKUPDEP_MCASP4_DMA_DSP1   ,Wakeup dependency from MCASP4 module (SWakeup_dma signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 9. " WKUPDEP_MCASP4_IRQ_EVE4  ,Wakeup dependency from MCASP4 module (SWakeup IRQ signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_MCASP4_IRQ_EVE3 ,Wakeup dependency from MCASP4 module (SWakeup IRQ signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_MCASP4_IRQ_EVE2   ,Wakeup dependency from MCASP4 module (SWakeup IRQ signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_MCASP4_IRQ_EVE1  ,Wakeup dependency from MCASP4 module (SWakeup IRQ signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_MCASP4_IRQ_DSP2 ,Wakeup dependency from MCASP4 module (SWakeup IRQ signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_MCASP4_IRQ_IPU1   ,Wakeup dependency from MCASP4 module (SWakeup IRQ signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 2. " WKUPDEP_MCASP4_IRQ_DSP1  ,Wakeup dependency from MCASP4 module (SWakeup IRQ signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_MCASP4_IRQ_IPU2 ,Wakeup dependency from MCASP4 module (SWakeup IRQ signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 0. "                WKUPDEP_MCASP4_IRQ_MPU    ,Wakeup dependency from MCASP4 module (SWakeup IRQ signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x19C++0x3
line.long 0x00 "RM_L4PER2_MCASP4_CONTEXT,This register contains dedicated MCASP4 context statuses. [warm reset insensitive]"
bitfld.long 0x00 0. " LOSTCONTEXT_DFF          ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x1A4++0x3
line.long 0x00 "RM_L4SEC_AES1_CONTEXT,This register contains dedicated AES1 context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x1AC++0x3
line.long 0x00 "RM_L4SEC_AES2_CONTEXT,This register contains dedicated AES2 context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x1B4++0x3
line.long 0x00 "RM_L4SEC_DES3DES_CONTEXT,This register contains dedicated DES3DES context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x1BC++0x3
line.long 0x00 "RM_L4SEC_FPKA_CONTEXT,This register contains dedicated FPKA context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_NONRETAINED_BANK ,Specify if memory-based context in NONRETAINED_BANK memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "              LOSTCONTEXT_DFF         ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x1C4++0x3
line.long 0x00 "RM_L4SEC_RNG_CONTEXT,This register contains dedicated RNG context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x1CC++0x3
line.long 0x00 "RM_L4SEC_SHA2MD51_CONTEXT,This register contains dedicated SHA2MD51 context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x1D0++0x3
line.long 0x00 "PM_L4PER2_UART7_WKDEP,This register controls wakeup dependency based on UART7 service requests."
bitfld.long 0x00 9. " WKUPDEP_UART7_EVE4       ,Wakeup dependency from UART7 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_UART7_EVE3      ,Wakeup dependency from UART7 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_UART7_EVE2        ,Wakeup dependency from UART7 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_UART7_EVE1       ,Wakeup dependency from UART7 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_UART7_DSP2      ,Wakeup dependency from UART7 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_UART7_IPU1        ,Wakeup dependency from UART7 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 3. " WKUPDEP_UART7_SDMA       ,Wakeup dependency from UART7 module (SWakeup signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 2. "  WKUPDEP_UART7_DSP1      ,Wakeup dependency from UART7 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_UART7_IPU2        ,Wakeup dependency from UART7 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
textline "                                      "
bitfld.long 0x00 0. " WKUPDEP_UART7_MPU        ,Wakeup dependency from UART7 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x1D4++0x3
line.long 0x00 "RM_L4PER2_UART7_CONTEXT,This register contains dedicated UART7 context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_RETAINED_BANK    ,Specify if memory-based context in RETAINED_BANK memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 1. "              LOSTCONTEXT_RFF         ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x1DC++0x3
line.long 0x00 "RM_L4SEC_DMA_CRYPTO_CONTEXT,This register contains dedicated DMA_CRYPTO context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_RETAINED_BANK    ,Specify if memory-based context in RETAINED_BANK memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 1. "              LOSTCONTEXT_RFF         ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x1E0++0x3
line.long 0x00 "PM_L4PER2_UART8_WKDEP,This register controls wakeup dependency based on UART8 service requests."
bitfld.long 0x00 9. " WKUPDEP_UART8_EVE4       ,Wakeup dependency from UART8 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_UART8_EVE3      ,Wakeup dependency from UART8 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_UART8_EVE2        ,Wakeup dependency from UART8 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_UART8_EVE1       ,Wakeup dependency from UART8 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_UART8_DSP2      ,Wakeup dependency from UART8 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_UART8_IPU1        ,Wakeup dependency from UART8 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 3. " WKUPDEP_UART8_SDMA       ,Wakeup dependency from UART8 module (SWakeup signal) towards SDMA + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 2. "  WKUPDEP_UART8_DSP1      ,Wakeup dependency from UART8 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_UART8_IPU2        ,Wakeup dependency from UART8 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
textline "                                      "
bitfld.long 0x00 0. " WKUPDEP_UART8_MPU        ,Wakeup dependency from UART8 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x1E4++0x3
line.long 0x00 "RM_L4PER2_UART8_CONTEXT,This register contains dedicated UART8 context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_RETAINED_BANK    ,Specify if memory-based context in RETAINED_BANK memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 1. "              LOSTCONTEXT_RFF         ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x1E8++0x3
line.long 0x00 "PM_L4PER2_UART9_WKDEP,This register controls wakeup dependency based on UART9 service requests."
bitfld.long 0x00 9. " WKUPDEP_UART9_EVE4       ,Wakeup dependency from UART9 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_UART9_EVE3      ,Wakeup dependency from UART9 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_UART9_EVE2        ,Wakeup dependency from UART9 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_UART9_EVE1       ,Wakeup dependency from UART9 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_UART9_DSP2      ,Wakeup dependency from UART9 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_UART9_IPU1        ,Wakeup dependency from UART9 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 3. " WKUPDEP_UART9_SDMA       ,Wakeup dependency from UART9 module (SWakeup signal) towards SDMA + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 2. "  WKUPDEP_UART9_DSP1      ,Wakeup dependency from UART4 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_UART9_IPU2        ,Wakeup dependency from UART9 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
textline "                                      "
bitfld.long 0x00 0. " WKUPDEP_UART9_MPU        ,Wakeup dependency from UART9 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x1EC++0x3
line.long 0x00 "RM_L4PER2_UART9_CONTEXT,This register contains dedicated UART9 context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_RETAINED_BANK    ,Specify if memory-based context in RETAINED_BANK memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 1. "              LOSTCONTEXT_RFF         ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x1F0++0x3
line.long 0x00 "PM_L4PER2_DCAN2_WKDEP,This register controls wakeup dependency based on DCAN2 service requests."
bitfld.long 0x00 9. " WKUPDEP_DCAN2_EVE4       ,Wakeup dependency from DCAN2 module (SWakeup signal) towards EVE4 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 8. "                WKUPDEP_DCAN2_EVE3      ,Wakeup dependency from DCAN2 module (SWakeup signal) towards EVE3 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 7. "                WKUPDEP_DCAN2_EVE2        ,Wakeup dependency from DCAN2 module (SWakeup signal) towards EVE2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 6. " WKUPDEP_DCAN2_EVE1       ,Wakeup dependency from DCAN2 module (SWakeup signal) towards EVE1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 5. "                WKUPDEP_DCAN2_DSP2      ,Wakeup dependency from DCAN2 module (SWakeup signal) towards DSP2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 4. "                WKUPDEP_DCAN2_IPU1        ,Wakeup dependency from DCAN2 module (SWakeup signal) towards IPU1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                      "
bitfld.long 0x00 3. " WKUPDEP_DCAN2_SDMA       ,Wakeup dependency from DCAN2 module (SWakeup signal) towards SDMA + L3MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
bitfld.long 0x00 2. "  WKUPDEP_DCAN2_DSP1      ,Wakeup dependency from DCAN2 module (SWakeup signal) towards DSP1 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 1. "                WKUPDEP_DCAN2_IPU2        ,Wakeup dependency from DCAN2 module (SWakeup signal) towards IPU2 + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - . - ." "Dependency_is_disabled,Dependency_is_enabled"
textline "                                      "
bitfld.long 0x00 0. " WKUPDEP_DCAN2_MPU        ,Wakeup dependency from DCAN2 module (SWakeup signal) towards MPU + L3_MAIN1 + L4PER1 + L4PER2 + L4PER3 domains - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x1F4++0x3
line.long 0x00 "RM_L4PER2_DCAN2_CONTEXT,This register contains dedicated DCAN2 context statuses. [warm reset insensitive]"
bitfld.long 0x00 8. " LOSTMEM_DCAN_BANK        ,Specify if memory-based context in DCAN memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
bitfld.long 0x00 0. "              LOSTCONTEXT_DFF         ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L3INIT_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
group.long 0x1FC++0x3
line.long 0x00 "RM_L4SEC_SHA2MD52_CONTEXT,This register contains dedicated SHA2MD52 context statuses. [warm reset insensitive]"
bitfld.long 0x00 1. " LOSTCONTEXT_RFF          ,Specify if RFF-based context has been lost due to a previous power transition or other reset source. (set upon assertion of L4PER_RET_RST signal) - MAINTAINED. - LOST." "MAINTAINED,LOST"
width 0x0B
tree.end
tree "CM_CORE_AON__RESTORE"
base ad:0x4A005E00
width 42.
group.long 0x0++0x3
line.long 0x00 "CM_CLKSEL_CORE_RESTORE,Second address map for register. Used only by automatic restore upon wakeup from device OFF mode."
hexmask.long 0x00 0.--31. 1. " RESTORE ,SeeCM_CLKSEL_CORE register."
group.long 0x4++0x3
line.long 0x00 "CM_DIV_M2_DPLL_CORE_RESTORE,Second address map for register. Used only by automatic restore upon wakeup from device OFF mode."
hexmask.long 0x00 0.--31. 1. " RESTORE ,SeeCM_DIV_M2_DPLL_CORE register."
group.long 0x10++0x3
line.long 0x00 "CM_DIV_H12_DPLL_CORE_RESTORE,Second address map for register. Used only by automatic restore upon wakeup from device OFF mode."
hexmask.long 0x00 0.--31. 1. " RESTORE ,SeeCM_DIV_H12_DPLL_CORE register."
group.long 0x14++0x3
line.long 0x00 "CM_DIV_H13_DPLL_CORE_RESTORE,Second address map for register. Used only by automatic restore upon wakeup from device OFF mode."
hexmask.long 0x00 0.--31. 1. " RESTORE ,SeeCM_DIV_H12_DPLL_CORE register."
group.long 0x18++0x3
line.long 0x00 "CM_DIV_H14_DPLL_CORE_RESTORE,Second address map for register. Used only by automatic restore upon wakeup from device OFF mode."
hexmask.long 0x00 0.--31. 1. " RESTORE ,SeeCM_DIV_H14_DPLL_CORE register."
group.long 0x20++0x3
line.long 0x00 "CM_DIV_H22_DPLL_CORE_RESTORE,Second address map for register. Used only by automatic restore upon wakeup from device OFF mode."
hexmask.long 0x00 0.--31. 1. " RESTORE ,SeeCM_DIV_H22_DPLL_CORE register."
group.long 0x24++0x3
line.long 0x00 "CM_DIV_H23_DPLL_CORE_RESTORE,Second address map for register. Used only by automatic restore upon wakeup from device OFF mode."
hexmask.long 0x00 0.--31. 1. " RESTORE ,SeeCM_DIV_H23_DPLL_CORE register."
group.long 0x28++0x3
line.long 0x00 "CM_DIV_H24_DPLL_CORE_RESTORE,Second address map for register. Used only by automatic restore upon wakeup from device OFF mode."
hexmask.long 0x00 0.--31. 1. " RESTORE ,SeeCM_DIV_H24_DPLL_CORE register."
group.long 0x2C++0x3
line.long 0x00 "CM_CLKSEL_DPLL_CORE_RESTORE,Second address map for register. Used only by automatic restore upon wakeup from device OFF mode."
hexmask.long 0x00 0.--31. 1. " RESTORE ,SeeCM_CLKSEL_DPLL_CORE register."
group.long 0x38++0x3
line.long 0x00 "CM_CLKMODE_DPLL_CORE_RESTORE,Second address map for register. Used only by automatic restore upon wakeup from device OFF mode."
hexmask.long 0x00 0.--31. 1. " RESTORE ,SeeCM_CLKMODE_DPLL_CORE register."
group.long 0x3C++0x3
line.long 0x00 "CM_SHADOW_FREQ_CONFIG2_RESTORE,Second address map for register. Used only by automatic restore upon wakeup from device OFF mode."
hexmask.long 0x00 0.--31. 1. " RESTORE ,SeeCM_SHADOW_FREQ_CONFIG2 register."
group.long 0x40++0x3
line.long 0x00 "CM_SHADOW_FREQ_CONFIG1_RESTORE,Second address map for register. Used only by automatic restore upon wakeup from device OFF mode."
hexmask.long 0x00 0.--31. 1. " RESTORE ,SeeCM_SHADOW_FREQ_CONFIG1 register."
group.long 0x44++0x3
line.long 0x00 "CM_AUTOIDLE_DPLL_CORE_RESTORE,Second address map for register. Used only by automatic restore upon wakeup from device OFF mode."
hexmask.long 0x00 0.--31. 1. " RESTORE ,SeeCM_AUTOIDLE_DPLL_CORE register."
group.long 0x48++0x3
line.long 0x00 "CM_MPU_CLKSTCTRL_RESTORE,Second address map for register. Used only by automatic restore upon wakeup from device OFF mode."
hexmask.long 0x00 0.--31. 1. " RESTORE ,SeeCM_MPU_CLKSTCTRL register."
group.long 0x4C++0x3
line.long 0x00 "CM_CM_CORE_AON_PROFILING_CLKCTRL_RESTORE,Second address map for register. Used only by automatic restore upon wakeup from device OFF mode. [warm reset insensitive]"
hexmask.long 0x00 0.--31. 1. " RESTORE ,SeeCM_CM_CORE_AON_PROFILING_CLKCTRL register."
group.long 0x50++0x3
line.long 0x00 "CM_DYN_DEP_PRESCAL_RESTORE,Second address map for register. Used only by automatic restore upon wakeup from device OFF mode."
hexmask.long 0x00 0.--31. 1. " RESTORE ,See CCM_DYN_DEP_PRESCAL register."
width 0x0B
tree.end
tree "DEVICE_PRM"
base ad:0x4AE07D00
width 25.
group.long 0x0++0x3
line.long 0x00 "PRM_RSTCTRL,Global software cold and warm reset control. This register is auto-cleared. Only write 1 is possible. A read returns 0 only."
bitfld.long 0x00 1. " RST_GLOBAL_COLD_SW       ,Global COLD software reset control. This bit is reset only upon a global cold source of reset. - _0X0. - _0X1." "_0X0,_0X1"
bitfld.long 0x00 0. "                RST_GLOBAL_WARM_SW    ,Global WARM software reset control. This bit is reset upon any global source of reset (warm and cold). - _0X0. - _0X1." "_0X0,_0X1"
group.long 0x4++0x3
line.long 0x00 "PRM_RSTST,This register logs the global reset sources. Each bit is set upon release of the domain reset signal. Must be cleared by software. [warm reset insensitive]"
bitfld.long 0x00 16. " TSHUT_IVA_RST            ,TSHUT_IVA warm reset event. This is a source of global WARM reset. - _0X0. - _0X1." "_0X0,_0X1"
bitfld.long 0x00 15. "                TSHUT_DSPEVE_RST      ,TSHUT_DSPEVE warm reset event. This is a source of global WARM reset. - _0X0. - _0X1." "_0X0,_0X1"
bitfld.long 0x00 13. "              TSHUT_CORE_RST     ,TSHUT_CORE warm reset event. This is a source of global WARM reset. - _0X0. - _0X1." "_0X0,_0X1"
textline "                                  "
bitfld.long 0x00 12. " TSHUT_MM_RST             ,TSHUT_GPU warm reset event. This is a source of global WARM reset. - _0X0. - _0X1." "_0X0,_0X1"
bitfld.long 0x00 11. "                TSHUT_MPU_RST         ,TSHUT_MPU warm reset event. This is a source of global WARM reset. - _0X0. - _0X1." "_0X0,_0X1"
bitfld.long 0x00 9. "              ICEPICK_RST        ,IcePick reset event. This is a source of global warm reset initiated by the emulation. - _0X0. - _0X1." "_0X0,_0X1"
textline "                                  "
bitfld.long 0x00 5. " EXTERNAL_WARM_RST        ,External warm reset event - _0X0. - _0X1." "_0X0,_0X1"
bitfld.long 0x00 3. "                MPU_WDT_RST           ,WD_TIMER2 and MPU subsystem watchdog reset event. This is a source of global WARM reset. - _0X0. - _0X1." "_0X0,_0X1"
bitfld.long 0x00 1. "              GLOBAL_WARM_SW_RST ,Global warm software reset event - _0X0. - _0X1." "_0X0,_0X1"
textline "                                  "
bitfld.long 0x00 0. " GLOBAL_COLD_RST          ,Power-on (cold) reset event - _0X0. - _0X1." "_0X0,_0X1"
group.long 0x8++0x3
line.long 0x00 "PRM_RSTTIME,Reset duration control. [warm reset insensitive]"
bitfld.long 0x00 10.--14. " RSTTIME2                 ,Power domain reset duration 2 in number of RM.SYSCLK clock cycles. - RESERVED." "RESERVED,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.word 0x00 0.--9. 1. "            RSTTIME1              ,Global reset duration 1 in number of Func_32k_clk clock cycles. This bit-field is only sensitive to the external power-on reset (WKUPAON_SYS_PWRON_RST reset line) - RESERVED."
group.long 0x18++0x3
line.long 0x00 "PRM_PSCON_COUNT,This register allows controlling 2 parameters for power state controller. [warm reset insensitive]"
hexmask.long.byte 0x00 16.--23. 1. " HG_PONOUT_2_PGOODIN_TIME ,The value 'NbCycles' set in this field determines the duration of the PONOUT to PGOODIN transition for power domain without DPS. The duration is computed as 8 x NbCycles of system clock cycles. Target is 10us."
hexmask.long.byte 0x00 8.--15. 1. "                  PONOUT_2_PGOODIN_TIME ,The value 'NbCycles' set in this field determines the duration of the PONOUT to PGOODIN transition for power domain without DPS. The duration is computed as 8 x NbCycles of system clock cycles. Target is 10us."
hexmask.long.byte 0x00 0.--7. 1. "                PCHARGE_TIME       ,Number of system clock cycles for the SRAM pre-charge duration. Target is 600ns."
group.long 0x1C++0x3
line.long 0x00 "PRM_IO_COUNT,This register allows controlling DDR IO isolation removal setup. [warm reset insensitive]"
hexmask.long.byte 0x00 0.--7. 1. " ISO_2_ON_TIME            ,Determines the setup time of the DDR IOs going out of isolation. Counting on the system clock. Target is 1.5us."
group.long 0x20++0x3
line.long 0x00 "PRM_IO_PMCTRL,This register allows controlling power management features of the IOs."
bitfld.long 0x00 16. " GLOBAL_WUEN              ,Global IO wakeup enable. This is a gating condition to all individual IO WUEN coming from control module. Gating is done in the Spinner logic. - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 9. "            WUCLK_STATUS          ,Gives value of WUCLKOUT signal coming back from IO pad ring." "0,1"
bitfld.long 0x00 8. "                 WUCLK_CTRL         ,Direct control on WUCLKIN signal to IO pad ring. - LOW. - HIGH." "LOW,HIGH"
textline "                                  "
bitfld.long 0x00 5. " IO_ON_STATUS             ,Gives the functional status of the IO ring. - LOW. - HIGH." "LOW,HIGH"
bitfld.long 0x00 4. "                ISOOVR_EXTEND         ,Control non-EMIF IO isolation extension upon a device wakeup from OFF mode. - NOOVERRIDE. - OVERRIDE." "NOOVERRIDE,OVERRIDE"
bitfld.long 0x00 1. "        ISOCLK_STATUS      ,Gives value of ISOCLKOUT signal coming back from IO pad ring." "0,1"
textline "                                  "
bitfld.long 0x00 0. " ISOCLK_OVERRIDE          ,Override control on ISOCLKIN signal to IO pad ring. Used at boot time when it is needed to change the mode of an IO from 1.8V default mode to 1.2V mode. When not overriden, this signal is controlled by hardware only. - NOOVER..." "NOOVERRIDE,OVERRIDE"
group.long 0xBC++0x3
line.long 0x00 "PRM_SRAM_COUNT,Common setup for SRAM LDO transition counters. Applies to all voltage domains. [warm reset insensitive]"
hexmask.long.byte 0x00 24.--31. 1. " STARTUP_COUNT            ,Determines the start-up duration of SRAM and ABB LDO. The duration is computed as 16 x NbCycles of system clock cycles. Target is 50us."
hexmask.long.byte 0x00 16.--23. 1. "                  SLPCNT_VALUE          ,Delay between retention/off assertion of last SRAM bank and SRAMALLRET signal to LDO is driven high. Counting on system clock. Target is 2us."
hexmask.long.byte 0x00 8.--15. 1. "                VSETUPCNT_VALUE    ,SRAM LDO rampup time from retention to active mode. The duration is computed as 8 x NbCycles of system clock cycles. Target is 30us."
textline "                                  "
bitfld.long 0x00 0.--5. " PCHARGECNT_VALUE         ,Delay between de-assertion of standby_rta_ret_on and standby_rta_ret_good. Counting on system clock. Target is 600ns." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0xC4++0x3
line.long 0x00 "PRM_SLDO_CORE_SETUP,Setup of the SRAM LDO for CORE voltage domain. [warm reset insensitive]"
bitfld.long 0x00 8. " AIPOFF                   ,Override on AIPOFF input of SRAM LDO. - NO_OVERRIDE. - OVERRIDE." "NO_OVERRIDE,OVERRIDE"
bitfld.long 0x00 7. "         ENFUNC5               ,ENFUNC5 input of SRAM LDO. - ONE_STEP. - TWO_STEP." "ONE_STEP,TWO_STEP"
bitfld.long 0x00 6. "          ENFUNC4            ,ENFUNC4 input of SRAM LDO. - EXT_CLOCK. - NO_EXT_CLOCK." "EXT_CLOCK,NO_EXT_CLOCK"
textline "                                  "
bitfld.long 0x00 5. " ENFUNC3                  ,ENFUNC3 input of SRAM LDO. After PowerOn reset and Efuse sensing, this bitfield is automatically loaded with an Efuse value from control module. Bitfield remains writable after this. - SUB_REGUL_DISABLED. - SUB_REGUL_ENABLED." "SUB_REGUL_DISABLED,SUB_REGUL_ENABLED"
bitfld.long 0x00 4. "  ENFUNC2               ,ENFUNC2 input of SRAM LDO. After PowerOn reset and Efuse sensing, this bitfield is automatically loaded with an Efuse value from control module. Bitfield remains writable after this. - EXT_CAP. - NO_EXT_CAP." "EXT_CAP,NO_EXT_CAP"
bitfld.long 0x00 3. "        ENFUNC1            ,ENFUNC1 input of SRAM LDO. After PowerOn reset and Efuse sensing, this bitfield is automatically loaded with an Efuse value from control module. Bitfield remains writable after this. - SHORT_PROT_DISABLED. - SHORT_PROT_ENABLED." "SHORT_PROT_DISABLED,SHORT_PROT_ENABLED"
textline "                                  "
bitfld.long 0x00 2. " ABBOFF_SLEEP             ,Determines whether SRAMNWA is supplied by VDDS or VDDAR during deep-sleep. After PowerOn reset and Efuse sensing, this bitfield is automatically loaded with an Efuse value from control module. Bitfield remains writable after ..." "SRAMNW_SLP_VDDS,SRAMNW_SLP_VDDAR"
bitfld.long 0x00 1. "    ABBOFF_ACT            ,Determines whether SRAMNWA is supplied by VDDS or VDDAR during active mode. After PowerOn reset and Efuse sensing, this bitfield is automatically loaded with an Efuse value from control module. Bitfield remains writable after..." "SRAMNW_ACT_VDDS,SRAMNW_ACT_VDDAR"
bitfld.long 0x00 0. "  ENABLE_RTA         ,Control for HD memory RTA feature. After PowerOn reset and Efuse sensing, this bitfield is automatically loaded with an Efuse value from control module. Bitfield remains writable after this. - RTA_DISABLED. - RTA_ENABLED." "RTA_DISABLED,RTA_ENABLED"
rgroup.long 0xC8++0x3
line.long 0x00 "PRM_SLDO_CORE_CTRL,Control and status of the SRAM LDO for CORE voltage domain. [warm reset insensitive]"
bitfld.long 0x00 9. " SRAM_IN_TRANSITION       ,Status indicating SRAM LDO state machine state. - IDLE. - IN_TRANSITION." "IDLE,IN_TRANSITION"
bitfld.long 0x00 8. "       SRAMLDO_STATUS        ,SRAMLDO status - ACTIVE. - RETENTION." "ACTIVE,RETENTION"
bitfld.long 0x00 0. "         RETMODE_ENABLE     ,Control if the SRAM LDO retention mode is used or not. - DISABLED." "DISABLED,1"
group.long 0xCC++0x3
line.long 0x00 "PRM_SLDO_MPU_SETUP,Setup of the SRAM LDO for MPU voltage domain. [warm reset insensitive]"
bitfld.long 0x00 8. " AIPOFF                   ,Override on AIPOFF input of SRAM LDO. - NO_OVERRIDE. - OVERRIDE." "NO_OVERRIDE,OVERRIDE"
bitfld.long 0x00 7. "         ENFUNC5               ,ENFUNC5 input of SRAM LDO. - ONE_STEP. - TWO_STEP." "ONE_STEP,TWO_STEP"
bitfld.long 0x00 6. "          ENFUNC4            ,ENFUNC4 input of SRAM LDO. - EXT_CLOCK. - NO_EXT_CLOCK." "EXT_CLOCK,NO_EXT_CLOCK"
textline "                                  "
bitfld.long 0x00 5. " ENFUNC3                  ,ENFUNC3 input of SRAM LDO. After PowerOn reset and Efuse sensing, this bitfield is automatically loaded with an Efuse value from control module. Bitfield remains writable after this. - SUB_REGUL_DISABLED. - SUB_REGUL_ENABLED." "SUB_REGUL_DISABLED,SUB_REGUL_ENABLED"
bitfld.long 0x00 4. "  ENFUNC2               ,ENFUNC2 input of SRAM LDO. After PowerOn reset and Efuse sensing, this bitfield is automatically loaded with an Efuse value from control module. Bitfield remains writable after this. - EXT_CAP. - NO_EXT_CAP." "EXT_CAP,NO_EXT_CAP"
bitfld.long 0x00 3. "        ENFUNC1            ,ENFUNC1 input of SRAM LDO. After PowerOn reset and Efuse sensing, this bitfield is automatically loaded with an Efuse value from control module. Bitfield remains writable after this. - SHORT_PROT_DISABLED. - SHORT_PROT_ENABLED." "SHORT_PROT_DISABLED,SHORT_PROT_ENABLED"
textline "                                  "
bitfld.long 0x00 2. " ABBOFF_SLEEP             ,Determines whether SRAMNWA is supplied by VDDS or VDDAR during deep-sleep. After PowerOn reset and Efuse sensing, this bitfield is automatically loaded with an Efuse value from control module. Bitfield remains writable after ..." "SRAMNW_SLP_VDDS,SRAMNW_SLP_VDDAR"
bitfld.long 0x00 1. "    ABBOFF_ACT            ,Determines whether SRAMNWA is supplied by VDDS or VDDAR during active mode. After PowerOn reset and Efuse sensing, this bitfield is automatically loaded with an Efuse value from control module. Bitfield remains writable after..." "SRAMNW_ACT_VDDS,SRAMNW_ACT_VDDAR"
bitfld.long 0x00 0. "  ENABLE_RTA         ,Control for HD memory RTA feature. After PowerOn reset and Efuse sensing, this bitfield is automatically loaded with an Efuse value from control module. Bitfield remains writable after this. - RTA_DISABLED. - RTA_ENABLED." "RTA_DISABLED,RTA_ENABLED"
group.long 0xD0++0x3
line.long 0x00 "PRM_SLDO_MPU_CTRL,Control and status of the SRAM LDO for MPU voltage domain. [warm reset insensitive]"
bitfld.long 0x00 9. " SRAM_IN_TRANSITION       ,Status indicating SRAM LDO state machine state. - IDLE. - IN_TRANSITION." "IDLE,IN_TRANSITION"
bitfld.long 0x00 8. "       SRAMLDO_STATUS        ,SRAMLDO status - ACTIVE. - RETENTION." "ACTIVE,RETENTION"
bitfld.long 0x00 0. "         RETMODE_ENABLE     ,Control if the SRAM LDO retention mode is used or not. - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0xD4++0x3
line.long 0x00 "PRM_SLDO_GPU_SETUP,Setup of the SRAM LDO for GPU voltage domain. [warm reset insensitive]"
bitfld.long 0x00 8. " AIPOFF                   ,Override on AIPOFF input of SRAM LDO. - NO_OVERRIDE. - OVERRIDE." "NO_OVERRIDE,OVERRIDE"
bitfld.long 0x00 7. "         ENFUNC5               ,ENFUNC5 input of SRAM LDO. - ONE_STEP. - TWO_STEP." "ONE_STEP,TWO_STEP"
bitfld.long 0x00 6. "          ENFUNC4            ,ENFUNC4 input of SRAM LDO. - EXT_CLOCK. - NO_EXT_CLOCK." "EXT_CLOCK,NO_EXT_CLOCK"
textline "                                  "
bitfld.long 0x00 5. " ENFUNC3                  ,ENFUNC3 input of SRAM LDO. After PowerOn reset and Efuse sensing, this bitfield is automatically loaded with an Efuse value from control module. Bitfield remains writable after this. - SUB_REGUL_DISABLED. - SUB_REGUL_ENABLED." "SUB_REGUL_DISABLED,SUB_REGUL_ENABLED"
bitfld.long 0x00 4. "  ENFUNC2               ,ENFUNC2 input of SRAM LDO. After PowerOn reset and Efuse sensing, this bitfield is automatically loaded with an Efuse value from control module. Bitfield remains writable after this. - EXT_CAP. - NO_EXT_CAP." "EXT_CAP,NO_EXT_CAP"
bitfld.long 0x00 3. "        ENFUNC1            ,ENFUNC1 input of SRAM LDO. After PowerOn reset and Efuse sensing, this bitfield is automatically loaded with an Efuse value from control module. Bitfield remains writable after this. - SHORT_PROT_DISABLED. - SHORT_PROT_ENABLED." "SHORT_PROT_DISABLED,SHORT_PROT_ENABLED"
textline "                                  "
bitfld.long 0x00 2. " ABBOFF_SLEEP             ,Determines whether SRAMNWA is supplied by VDDS or VDDAR during deep-sleep. After PowerOn reset and Efuse sensing, this bitfield is automatically loaded with an Efuse value from control module. Bitfield remains writable after ..." "SRAMNW_SLP_VDDS,SRAMNW_SLP_VDDAR"
bitfld.long 0x00 1. "    ABBOFF_ACT            ,Determines whether SRAMNWA is supplied by VDDS or VDDAR during active mode. After PowerOn reset and Efuse sensing, this bitfield is automatically loaded with an Efuse value from control module. Bitfield remains writable after..." "SRAMNW_ACT_VDDS,SRAMNW_ACT_VDDAR"
bitfld.long 0x00 0. "  ENABLE_RTA         ,Control for HD memory RTA feature. After PowerOn reset and Efuse sensing, this bitfield is automatically loaded with an Efuse value from control module. Bitfield remains writable after this. - RTA_DISABLED. - RTA_ENABLED." "RTA_DISABLED,RTA_ENABLED"
group.long 0xD8++0x3
line.long 0x00 "PRM_SLDO_GPU_CTRL,Control and status of the SRAM LDO for GPU voltage domain. [warm reset insensitive]"
bitfld.long 0x00 9. " SRAM_IN_TRANSITION       ,Status indicating SRAM LDO state machine state. - IDLE. - IN_TRANSITION." "IDLE,IN_TRANSITION"
bitfld.long 0x00 8. "       SRAMLDO_STATUS        ,SRAMLDO status - ACTIVE. - RETENTION." "ACTIVE,RETENTION"
bitfld.long 0x00 0. "         RETMODE_ENABLE     ,Control if the SRAM LDO retention mode is used or not. - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0xDC++0x3
line.long 0x00 "PRM_ABBLDO_MPU_SETUP,Selects the MPU_ABB LDO mode."
hexmask.long.byte 0x00 8.--15. 1. " SR2_WTCNT_VALUE          ,LDO settling time for active-mode OPP change. Counting at a 16 system clock cycles rate. Target is 50us. [warm reset insensitive]"
bitfld.long 0x00 4. "                  NOCAP                 ,Defines whether ABB LDO is cap-less or not. After PowerOn reset and Efuse sensing, this bitfield is automatically loaded with an Efuse value from control module. Bitfield remains writable after this. [warm reset..." "CAP,NOCAP"
bitfld.long 0x00 2. "             ACTIVE_FBB_SEL     ,Defines ABB LDO mode when voltage is in slow fast OPP. [warm reset insensitive] - BYPASS. - FBB." "BYPASS,FBB"
textline "                                  "
bitfld.long 0x00 0. " SR2EN                    ,Enable ABB power management - BYPASS. - FUNCTIONAL." "BYPASS,FUNCTIONAL"
group.long 0xE0++0x3
line.long 0x00 "PRM_ABBLDO_MPU_CTRL,Control and Status of ABB on MPU voltage domain. [warm reset insensitive]"
bitfld.long 0x00 6. " SR2_IN_TRANSITION        ,Indicates VBBLDO_CON is or is not in transition state. This output should be used by programming interface to clear OPP_CHANGE bit as an indication of OPP change completion. - IDLE. - INTRANSITION." "IDLE,INTRANSITION"
bitfld.long 0x00 3.--4. "        SR2_STATUS            ,Indicate ABB LDO current operation status - BYPASS. - RESERVED1. - FBB. - RESERVED." "BYPASS,RESERVED1,FBB,RESERVED"
bitfld.long 0x00 2. "         OPP_CHANGE         ,When OPP_CHANGE is set to 1, VBBLDO_CON samples OPP_SEL ACTIVE_FBB_SEL upon detecting rising edge. VBBLDO_CON asserts signal SR2_IN_TRANSITION in response to OPP_CHANGE. OPP_CHANGE should be cleared to 0 when SR2_IN_TRANSIT..." "0,1"
textline "                                  "
bitfld.long 0x00 0.--1. " OPP_SEL                  ,To control the ABB LDO (FBB/RBB) at a given OPP, set to 0x1. Refer to section ABB LDO Programming sequence. - DEFAULT_NOMINAL. - FASTOPP." "DEFAULT_NOMINAL,FASTOPP,2,3"
group.long 0xE4++0x3
line.long 0x00 "PRM_ABBLDO_GPU_SETUP,Selects the GPU_ABB LDO mode."
hexmask.long.byte 0x00 8.--15. 1. " SR2_WTCNT_VALUE          ,LDO settling time for active-mode OPP change. Counting at a 16 system clock cycles rate. Target is 50us. [warm reset insensitive]"
bitfld.long 0x00 4. "                  NOCAP                 ,Defines whether ABB LDO is cap-less or not. After PowerOn reset and Efuse sensing, this bitfield is automatically loaded with an Efuse value from control module. Bitfield remains writable after this. [warm reset..." "CAP,NOCAP"
bitfld.long 0x00 2. "             ACTIVE_FBB_SEL     ,Defines ABB LDO mode when voltage is in slow fast OPP. [warm reset insensitive] - BYPASS. - FBB." "BYPASS,FBB"
textline "                                  "
bitfld.long 0x00 0. " SR2EN                    ,Enable ABB power management - BYPASS. - FUNCTIONAL." "BYPASS,FUNCTIONAL"
group.long 0xE8++0x3
line.long 0x00 "PRM_ABBLDO_GPU_CTRL,Control and Status of ABB on GPU voltage domain. [warm reset insensitive]"
bitfld.long 0x00 6. " SR2_IN_TRANSITION        ,Indicates VBBLDO_CON is or is not in transition state. This output should be used by programming interface to clear OPP_CHANGE bit as an indication of OPP change completion. - IDLE. - INTRANSITION." "IDLE,INTRANSITION"
bitfld.long 0x00 3.--4. "        SR2_STATUS            ,Indicate ABB LDO current operation status - BYPASS. - RESERVED1. - FBB. - RESERVED." "BYPASS,RESERVED1,FBB,RESERVED"
bitfld.long 0x00 2. "         OPP_CHANGE         ,When OPP_CHANGE is set to 1, VBBLDO_CON samples OPP_SEL ACTIVE_FBB_SEL upon detecting rising edge. VBBLDO_CON asserts signal SR2_IN_TRANSITION in response to OPP_CHANGE. OPP_CHANGE should be cleared to 0 when SR2_IN_TRANSIT..." "0,1"
textline "                                  "
bitfld.long 0x00 0.--1. " OPP_SEL                  ,To control the ABB LDO (FBB/RBB) at a given OPP, set to 0x1. Refer to section ABB LDO Programming sequence. - DEFAULT_NOMINAL. - FASTOPP." "DEFAULT_NOMINAL,FASTOPP,2,3"
group.long 0xEC++0x3
line.long 0x00 "PRM_BANDGAP_SETUP,Setup of the bandgap. [warm reset insensitive]"
hexmask.long.byte 0x00 0.--7. 1. " STARTUP_COUNT            ,Determines the start-up duration of BANDGAP. The duration is computed as 32 x NbCycles of system clock cycles. Target is 100us."
group.long 0xF0++0x3
line.long 0x00 "PRM_DEVICE_OFF_CTRL,This register is used to control device OFF transition."
bitfld.long 0x00 9. " EMIF2_OFFWKUP_DISABLE    ,Controls the EMIF2_DEVICE_OFFWKUP_CORESRTACTST notifier sent to EMIF1 upon a device wakeup from OFF mode. [warm reset insensitive] - ENABLED. - DISABLED." "ENABLED,DISABLED"
bitfld.long 0x00 8. "            EMIF1_OFFWKUP_DISABLE ,Controls the EMIF1_DEVICE_OFFWKUP_CORESRTACTST notifier sent to EMIF2 upon a device wakeup from OFF mode. [warm reset insensitive] - ENABLED. - DISABLED." "ENABLED,DISABLED"
bitfld.long 0x00 0. "          DEVICE_OFF_ENABLE  ,Controls transition to device OFF mode. - DISABLED. - ENABLED." "DISABLED,ENABLED"
rgroup.long 0xF4++0x3
line.long 0x00 "PRM_PHASE1_CNDP,This register stores the start descriptor address of automatic restore phase1. [warm reset insensitive]"
hexmask.long 0x00 0.--31. 1. " PHASE1_CNDP              ,Start descriptor address of automatic restore phase1. Hard-coded to SAR_ROM base address."
rgroup.long 0xF8++0x3
line.long 0x00 "PRM_PHASE2A_CNDP,This register stores the start descriptor address of automatic restore phase2A. [warm reset insensitive]"
hexmask.long 0x00 0.--31. 1. " PHASE2A_CNDP             ,Start descriptor address of automatic restore phase2A. Hard-coded to SAR_ROM base address + 0x30."
rgroup.long 0xFC++0x3
line.long 0x00 "PRM_PHASE2B_CNDP,This register stores the start descriptor address of automatic restore phase2B. [warm reset insensitive]"
hexmask.long 0x00 0.--31. 1. " PHASE2B_CNDP             ,Start descriptor address of automatic restore phase2B. Hard-coded to SAR_ROM base address + 0x60."
group.long 0x118++0x3
line.long 0x00 "PRM_SLDO_DSPEVE_SETUP,Setup of the SRAM LDO for DSPEVE voltage domain. [warm reset insensitive]"
bitfld.long 0x00 8. " AIPOFF                   ,Override on AIPOFF input of SRAM LDO. - NO_OVERRIDE. - OVERRIDE." "NO_OVERRIDE,OVERRIDE"
bitfld.long 0x00 7. "         ENFUNC5               ,ENFUNC5 input of SRAM LDO. - ONE_STEP. - TWO_STEP." "ONE_STEP,TWO_STEP"
bitfld.long 0x00 6. "          ENFUNC4            ,ENFUNC4 input of SRAM LDO. - EXT_CLOCK. - NO_EXT_CLOCK." "EXT_CLOCK,NO_EXT_CLOCK"
textline "                                  "
bitfld.long 0x00 5. " ENFUNC3                  ,ENFUNC3 input of SRAM LDO. After PowerOn reset and Efuse sensing, this bitfield is automatically loaded with an Efuse value from control module. Bitfield remains writable after this. - SUB_REGUL_DISABLED. - SUB_REGUL_ENABLED." "SUB_REGUL_DISABLED,SUB_REGUL_ENABLED"
bitfld.long 0x00 4. "  ENFUNC2               ,ENFUNC2 input of SRAM LDO. After PowerOn reset and Efuse sensing, this bitfield is automatically loaded with an Efuse value from control module. Bitfield remains writable after this. - EXT_CAP. - NO_EXT_CAP." "EXT_CAP,NO_EXT_CAP"
bitfld.long 0x00 3. "        ENFUNC1            ,ENFUNC1 input of SRAM LDO. After PowerOn reset and Efuse sensing, this bitfield is automatically loaded with an Efuse value from control module. Bitfield remains writable after this. - SHORT_PROT_DISABLED. - SHORT_PROT_ENABLED." "SHORT_PROT_DISABLED,SHORT_PROT_ENABLED"
textline "                                  "
bitfld.long 0x00 2. " ABBOFF_SLEEP             ,Determines whether SRAMNWA is supplied by VDDS or VDDAR during deep-sleep. After PowerOn reset and Efuse sensing, this bitfield is automatically loaded with an Efuse value from control module. Bitfield remains writable after ..." "SRAMNW_SLP_VDDS,SRAMNW_SLP_VDDAR"
bitfld.long 0x00 1. "    ABBOFF_ACT            ,Determines whether SRAMNWA is supplied by VDDS or VDDAR during active mode. After PowerOn reset and Efuse sensing, this bitfield is automatically loaded with an Efuse value from control module. Bitfield remains writable after..." "SRAMNW_ACT_VDDS,SRAMNW_ACT_VDDAR"
bitfld.long 0x00 0. "  ENABLE_RTA         ,Control for HD memory RTA feature. After PowerOn reset and Efuse sensing, this bitfield is automatically loaded with an Efuse value from control module. Bitfield remains writable after this. - RTA_DISABLED. - RTA_ENABLED." "RTA_DISABLED,RTA_ENABLED"
group.long 0x11C++0x3
line.long 0x00 "PRM_SLDO_IVA_SETUP,Setup of the SRAM LDO for IVA voltage domain. [warm reset insensitive]"
bitfld.long 0x00 8. " AIPOFF                   ,Override on AIPOFF input of SRAM LDO. - NO_OVERRIDE. - OVERRIDE." "NO_OVERRIDE,OVERRIDE"
bitfld.long 0x00 7. "         ENFUNC5               ,ENFUNC5 input of SRAM LDO. - ONE_STEP. - TWO_STEP." "ONE_STEP,TWO_STEP"
bitfld.long 0x00 6. "          ENFUNC4            ,ENFUNC4 input of SRAM LDO. - EXT_CLOCK. - NO_EXT_CLOCK." "EXT_CLOCK,NO_EXT_CLOCK"
textline "                                  "
bitfld.long 0x00 5. " ENFUNC3                  ,ENFUNC3 input of SRAM LDO. After PowerOn reset and Efuse sensing, this bitfield is automatically loaded with an Efuse value from control module. Bitfield remains writable after this. - SUB_REGUL_DISABLED. - SUB_REGUL_ENABLED." "SUB_REGUL_DISABLED,SUB_REGUL_ENABLED"
bitfld.long 0x00 4. "  ENFUNC2               ,ENFUNC2 input of SRAM LDO. After PowerOn reset and Efuse sensing, this bitfield is automatically loaded with an Efuse value from control module. Bitfield remains writable after this. - EXT_CAP. - NO_EXT_CAP." "EXT_CAP,NO_EXT_CAP"
bitfld.long 0x00 3. "        ENFUNC1            ,ENFUNC1 input of SRAM LDO. After PowerOn reset and Efuse sensing, this bitfield is automatically loaded with an Efuse value from control module. Bitfield remains writable after this. - SHORT_PROT_DISABLED. - SHORT_PROT_ENABLED." "SHORT_PROT_DISABLED,SHORT_PROT_ENABLED"
textline "                                  "
bitfld.long 0x00 2. " ABBOFF_SLEEP             ,Determines whether SRAMNWA is supplied by VDDS or VDDAR during deep-sleep. After PowerOn reset and Efuse sensing, this bitfield is automatically loaded with an Efuse value from control module. Bitfield remains writable after ..." "SRAMNW_SLP_VDDS,SRAMNW_SLP_VDDAR"
bitfld.long 0x00 1. "    ABBOFF_ACT            ,Determines whether SRAMNWA is supplied by VDDS or VDDAR during active mode. After PowerOn reset and Efuse sensing, this bitfield is automatically loaded with an Efuse value from control module. Bitfield remains writable after..." "SRAMNW_ACT_VDDS,SRAMNW_ACT_VDDAR"
bitfld.long 0x00 0. "  ENABLE_RTA         ,Control for HD memory RTA feature. After PowerOn reset and Efuse sensing, this bitfield is automatically loaded with an Efuse value from control module. Bitfield remains writable after this. - RTA_DISABLED. - RTA_ENABLED." "RTA_DISABLED,RTA_ENABLED"
group.long 0x120++0x3
line.long 0x00 "PRM_ABBLDO_DSPEVE_CTRL,Control and Status of ABB on DSPEVE voltage domain. [warm reset insensitive]"
bitfld.long 0x00 6. " SR2_IN_TRANSITION        ,Indicates VBBLDO_CON is or is not in transition state. This output should be used by programming interface to clear OPP_CHANGE bit as an indication of OPP change completion. - IDLE. - INTRANSITION." "IDLE,INTRANSITION"
bitfld.long 0x00 3.--4. "        SR2_STATUS            ,Indicate ABB LDO current operation status - BYPASS. - RESERVED1. - FBB. - RESERVED." "BYPASS,RESERVED1,FBB,RESERVED"
bitfld.long 0x00 2. "         OPP_CHANGE         ,When OPP_CHANGE is set to 1, VBBLDO_CON samples OPP_SEL ACTIVE_FBB_SEL upon detecting rising edge. VBBLDO_CON asserts signal SR2_IN_TRANSITION in response to OPP_CHANGE. OPP_CHANGE should be cleared to 0 when SR2_IN_TRANSIT..." "0,1"
textline "                                  "
bitfld.long 0x00 0.--1. " OPP_SEL                  ,To control the ABB LDO (FBB/RBB) at a given OPP, set to 0x1. Refer to section ABB LDO Programming sequence. - DEFAULT_NOMINAL. - FASTOPP." "DEFAULT_NOMINAL,FASTOPP,2,3"
group.long 0x124++0x3
line.long 0x00 "PRM_ABBLDO_IVA_CTRL,Control and Status of ABB on IVA voltage domain. [warm reset insensitive]"
bitfld.long 0x00 6. " SR2_IN_TRANSITION        ,Indicates VBBLDO_CON is or is not in transition state. This output should be used by programming interface to clear OPP_CHANGE bit as an indication of OPP change completion. - IDLE. - INTRANSITION." "IDLE,INTRANSITION"
bitfld.long 0x00 3.--4. "        SR2_STATUS            ,Indicate ABB LDO current operation status - BYPASS. - RESERVED1. - FBB. - RESERVED." "BYPASS,RESERVED1,FBB,RESERVED"
bitfld.long 0x00 2. "         OPP_CHANGE         ,When OPP_CHANGE is set to 1, VBBLDO_CON samples OPP_SEL ACTIVE_FBB_SEL upon detecting rising edge. VBBLDO_CON asserts signal SR2_IN_TRANSITION in response to OPP_CHANGE. OPP_CHANGE should be cleared to 0 when SR2_IN_TRANSIT..." "0,1"
textline "                                  "
bitfld.long 0x00 0.--1. " OPP_SEL                  ,To control the ABB LDO (FBB/RBB) at a given OPP, set to 0x1. Refer to section ABB LDO Programming sequence. - DEFAULT_NOMINAL. - FASTOPP." "DEFAULT_NOMINAL,FASTOPP,2,3"
group.long 0x128++0x3
line.long 0x00 "PRM_SLDO_DSPEVE_CTRL,Control and status of the SRAM LDO for CORE voltage domain. [warm reset insensitive]"
bitfld.long 0x00 9. " SRAM_IN_TRANSITION       ,Status indicating SRAM LDO state machine state. - IDLE. - IN_TRANSITION." "IDLE,IN_TRANSITION"
bitfld.long 0x00 8. "       SRAMLDO_STATUS        ,SRAMLDO status - ACTIVE. - RETENTION." "ACTIVE,RETENTION"
bitfld.long 0x00 0. "         RETMODE_ENABLE     ,Control if the SRAM LDO retention mode is used or not. - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x12C++0x3
line.long 0x00 "PRM_SLDO_IVA_CTRL,Control and status of the SRAM LDO for CORE voltage domain. [warm reset insensitive]"
bitfld.long 0x00 9. " SRAM_IN_TRANSITION       ,Status indicating SRAM LDO state machine state. - IDLE. - IN_TRANSITION." "IDLE,IN_TRANSITION"
bitfld.long 0x00 8. "       SRAMLDO_STATUS        ,SRAMLDO status - ACTIVE. - RETENTION." "ACTIVE,RETENTION"
bitfld.long 0x00 0. "         RETMODE_ENABLE     ,Control if the SRAM LDO retention mode is used or not. - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x130++0x3
line.long 0x00 "PRM_ABBLDO_DSPEVE_SETUP,Selects the GPU_ABB LDO mode."
hexmask.long.byte 0x00 8.--15. 1. " SR2_WTCNT_VALUE          ,LDO settling time for active-mode OPP change. Counting at a 16 system clock cycles rate. Target is 50us. [warm reset insensitive]"
bitfld.long 0x00 4. "                  NOCAP                 ,Defines whether ABB LDO is cap-less or not. After PowerOn reset and Efuse sensing, this bitfield is automatically loaded with an Efuse value from control module. Bitfield remains writable after this. [warm reset..." "CAP,NOCAP"
bitfld.long 0x00 2. "             ACTIVE_FBB_SEL     ,Defines ABB LDO mode when voltage is in slow fast OPP. [warm reset insensitive] - BYPASS. - FBB." "BYPASS,FBB"
textline "                                  "
bitfld.long 0x00 0. " SR2EN                    ,Enable ABB power management - BYPASS. - FUNCTIONAL." "BYPASS,FUNCTIONAL"
group.long 0x134++0x3
line.long 0x00 "PRM_ABBLDO_IVA_SETUP,Selects the GPU_ABB LDO mode."
hexmask.long.byte 0x00 8.--15. 1. " SR2_WTCNT_VALUE          ,LDO settling time for active-mode OPP change. Counting at a 16 system clock cycles rate. Target is 50us. [warm reset insensitive]"
bitfld.long 0x00 4. "                  NOCAP                 ,Defines whether ABB LDO is cap-less or not. After PowerOn reset and Efuse sensing, this bitfield is automatically loaded with an Efuse value from control module. Bitfield remains writable after this. [warm reset..." "CAP,NOCAP"
bitfld.long 0x00 2. "             ACTIVE_FBB_SEL     ,Defines ABB LDO mode when voltage is in slow fast OPP. [warm reset insensitive] - BYPASS. - FBB." "BYPASS,FBB"
textline "                                  "
bitfld.long 0x00 0. " SR2EN                    ,Enable ABB power management - BYPASS. - FUNCTIONAL." "BYPASS,FUNCTIONAL"
width 0x0B
tree.end
tree "CM_CORE__GPU"
base ad:0x4A009200
width 20.
group.long 0x0++0x3
line.long 0x00 "CM_GPU_CLKSTCTRL,This register enables the GPU domain power state transition. It controls the HW supervised domain power state transition between ON-ACTIVE and ON-INACTIVE states. It also hold one status bit per clock input of the domain."
bitfld.long 0x00 10. " CLKACTIVITY_GPU_HYD_GCLK ,This field indicates the state of the GPU_HYD_GCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 9. "             CLKACTIVITY_GPU_CORE_GCLK ,This field indicates the state of the GPU_CORE_GCLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
bitfld.long 0x00 8. "             CLKACTIVITY_GPU_L3_GICLK ,This field indicates the state of the GPU_L3_GICLK clock in the domain. [warm reset insensitive] - INACT. - ACT." "INACT,ACT"
textline "                             "
bitfld.long 0x00 0.--1. " CLKTRCTRL                ,Controls the clock state transition of the GPU clock domain. - NO_SLEEP. - SW_SLEEP. - SW_WKUP. - HW_AUTO." "NO_SLEEP,SW_SLEEP,SW_WKUP,HW_AUTO"
group.long 0x4++0x3
line.long 0x00 "CM_GPU_STATICDEP,This register controls the static domain depedencies from GPU domain towards 'target' domains. It is relevant only for domain having system initiator(s)."
bitfld.long 0x00 5. " L3MAIN1_STATDEP          ,Static dependency towards L3MAIN1 clock domain - ENABLED." "0,ENABLED"
bitfld.long 0x00 4. "           EMIF_STATDEP              ,Static dependency towards EMIF clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 2. "          IVA_STATDEP              ,Static dependency towards IVA clock domain - DISABLED. - ENABLED." "DISABLED,ENABLED"
rgroup.long 0x8++0x3
line.long 0x00 "CM_GPU_DYNAMICDEP,This register controls the dynamic domain depedencies from GPU domain towards 'target' domains. It is relevant only for domain having OCP master port(s)."
bitfld.long 0x00 6. " L3MAIN1_DYNDEP           ,Dynamic dependency towards L3MAIN1 clock domain - DISABLED." "DISABLED,1"
group.long 0x20++0x3
line.long 0x00 "CM_GPU_GPU_CLKCTRL,This register manages the GPU clocks."
bitfld.long 0x00 26.--27. " CLKSEL_HYD_CLK           ,Select the source of the functional clock - SEL_CORE_GPU_CLK. - SEL_PER_GPU_CLK. - SEL_GPU_GCLK. - RESERVED." "SEL_CORE_GPU_CLK,SEL_PER_GPU_CLK,SEL_GPU_GCLK,RESERVED"
bitfld.long 0x00 24.--25. "  CLKSEL_CORE_CLK           ,Select the source of the functional clock - SEL_CORE_GPU_CLK. - SEL_PER_GPU_CLK. - SEL_GPU_GCLK. - RESERVED." "SEL_CORE_GPU_CLK,SEL_PER_GPU_CLK,SEL_GPU_GCLK,RESERVED"
bitfld.long 0x00 18. "  STBYST                   ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
textline "                             "
bitfld.long 0x00 16.--17. " IDLEST                   ,Module idle status. [warm reset insensitive] - FUNC. - TRANS. - IDLE. - DISABLE." "FUNC,TRANS,IDLE,DISABLE"
bitfld.long 0x00 0.--1. "           MODULEMODE                ,Control the way mandatory clocks are managed. - DISABLED. - RESERVED_1. - ENABLE. - RESERVED." "DISABLED,RESERVED_1,ENABLE,RESERVED"
width 0x0B
tree.end
tree.end
tree.open "Dual_Cortex_A15_MPU_Subsystem"
tree "MPU_PRCM_OCP_SOCKET"
base ad:0x48243000
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "REVISION_PRCM_MPU,IP Revision register"
hexmask.long 0x00 0.--31. 1. " REVISION ,IP revision"
width 0x0B
tree.end
tree "MPU_PRCM_CM_C0"
base ad:0x48243600
width 22.
group.long 0x0++0x3
line.long 0x00 "CM_CPU0_CLKSTCTRL,This register enables the CPU domain power state transition. It controls the HW supervised domain power state transition between ON-ACTIVE and ON-INACTIVE states. It also holds 1 status bit per clock input of the domain."
bitfld.long 0x00 0.--1. " CLKTRCTRL ,Controls the full domain transition of the CPU domain. - NO_SLEEP. - RESERVED. - SW_WKUP. - HW_AUTO." "NO_SLEEP,RESERVED,SW_WKUP,HW_AUTO"
rgroup.long 0x20++0x3
line.long 0x00 "CM_CPU0_CPU0_CLKCTRL,This register manages the CPU clocks."
bitfld.long 0x00 0. " STBYST    ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
width 0x0B
tree.end
tree "MPU_PRCM_CM_C1"
base ad:0x48243A00
width 22.
group.long 0x0++0x3
line.long 0x00 "CM_CPU1_CLKSTCTRL,This register enables the MPU domain power state transition. It controls the HW supervised domain power state transition between ON-ACTIVE and ON-INACTIVE states. It also holds 1 status bit per clock input of the domain."
bitfld.long 0x00 0.--1. " CLKTRCTRL ,Controls the full domain transition of the CPU domain. - NO_SLEEP. - RESERVED. - SW_WKUP. - HW_AUTO." "NO_SLEEP,RESERVED,SW_WKUP,HW_AUTO"
rgroup.long 0x20++0x3
line.long 0x00 "CM_CPU1_CPU1_CLKCTRL,This register manages the MPU clocks."
bitfld.long 0x00 0. " STBYST    ,Module standby status. [warm reset insensitive] - FUNC. - STANDBY." "FUNC,STANDBY"
width 0x0B
tree.end
tree "MPU_AXI2OCP_MISC"
base ad:0x482A2000
width 13.
group.long 0x0++0x3
line.long 0x00 "MA_PRIORITY,Memory adapter priority register. This register indicates the priority of memory access from MPU_MA to EMIF. This priority is used by EMIF in scheduling MPU_MA access to EMIF. 0x0 is lowest priority and 0x7 is highest priority."
bitfld.long 0x00 8. " HIMEM_INTERLEAVE_UN ,HIMEM_INTERLEAVE_UN" "0,1"
bitfld.long 0x00 0.--2. "  PRIORITY ,MPU_MA priority value" "0,1,2,3,4,5,6,7"
width 0x0B
tree.end
tree "MPU_MA_WP"
base ad:0x482AF200
width 32.
rgroup.long 0x0++0x3
line.long 0x00 "DBG_HWWP_CAP,Debug Watchpoint Capabilities Register"
bitfld.long 0x00 15. " HWWP_MEM_CHAIN_REG_PRESENT ,Memory Barrier Chain Control Register implementation0x0: Not present 0x1: Present" "0,1"
bitfld.long 0x00 14. "         HWWP_TRANS_ATTR1_REG_PRESENT ,Transaction Attribute 1 Register implementation0x0: Not present 0x1: Present" "0,1"
bitfld.long 0x00 13. "   HWWP_TRANS_ATTR0_REG_PRESENT ,Transaction Attribute 0 Register implementation0x0: Not present 0x1: Present" "0,1"
textline "                                         "
bitfld.long 0x00 12. " HWWP_AUX_CNTL_REG_PRESENT  ,Auxillary Control Register implementation0x0: Not present 0x1: Present" "0,1"
bitfld.long 0x00 8.--10. "         DATA_WIDTH                   ,Data Bus Width 0x0: 8 bits 0x1: 16 bits 0x2: 32 bits 0x3: 64 bits 0x4: 128 bits All other values: Reserved" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "   ADDR_WIDTH                   ,Address Bus Width0x0: 8 bits 0x1: 16 bits 0x2: 24 bits 0x3: 32 bits 0x4: 36 bits 0x5: 40 bits 0x6: 64 bits 0x7: Reserved" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 0.--3. " NUM_WP                     ,Number of Watchpoints supported (0-15)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4++0x3
line.long 0x00 "TRIG_CTRL,Trigger Control Register"
bitfld.long 0x00 0. " TRIG_EN                    ,0x0: Trigger disabled. Trigger output (MA_WP_TRIGGER) will not fire0x1: Trigger enabled. Trigger output (MA_WP_TRIGGER) will fire" "0,1"
group.long 0x8++0x3
line.long 0x00 "DBG_HWWP0_LW_ADDR0,Debug Watchpoint Addr0 Register (lower order bits 31:0).This register should be written only when WP_EN=0."
hexmask.long 0x00 0.--31. 1. " LOWER_ORDER_WP_ADDR        ,The byte-addressable lower order AXI-4 physical watchpoint address to monitor"
group.long 0xC++0x3
line.long 0x00 "DBG_HWWP0_HG_ADDR0,Debug Watchpoint Addr0 Register (higher order bits 39:32).This register should be written only when WP_EN=0."
hexmask.long.byte 0x00 0.--7. 1. " HIGHER_ORDER_WP_ADDR       ,The byte-addressable higher order AXI-4 physical watchpoint address to monitor"
group.long 0x10++0x3
line.long 0x00 "DBG_HWWP0_MAIN_CNTL,Debug Watchpoint Main Control Register"
bitfld.long 0x00 31. " TRIG                       ,Watchpoint trigger0x0: Watchpoint not triggered0x1: Watchpoint has triggered (Reset upon 0->1 transition of WP_EN)" "0,1"
bitfld.long 0x00 20.--23. "         BEAT_SEL                     ,Beat Select(This parameter decides upon for which beat of the burst the data byte lanes should be captured data)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 14.--15. "  SUPERVISOR_USER_ACCESS       ,Supervisor/User access0x0: Reserved 0x1: User 0x2: Supervisor 0x3: No preference" "0,1,2,3"
textline "                                         "
bitfld.long 0x00 12.--13. " SECURE_ACCESS              ,Secure/Non-secure access0x0: Reserved 0x1: Non-secure 0x2: Secure. Not supported on GP device0x3: No preference" "0,1,2,3"
bitfld.long 0x00 5.--10. "         WP_ADDR_MASK                 ,Watchpoint address mask (bits to ignore)0x0: Ignore address bit 0.....0x27: Ignore address bit 390x28 ? 0x3F: Reserved" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 4. "  WP_MATCH_CRITERIA            ,Watchpoint match criteria0x0: Match if access within address range to include MIN and MAX 0x1: Match if access outside address range" "0,1"
textline "                                         "
bitfld.long 0x00 1.--3. " WP_LS_ACCESS               ,Watchpoint Load/Store access0x0: (Load) Load exclusive or swap 0x1: (Store) Store exclusive or swap (non-posted) 0x2: (Store) Store exclusive or swap (posted) 0x3: Any type of store 0x4, 0x5, 0x6: Reserved 0x7: No preferenc..." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "         WP_EN                        ,Watchpoint enable0x0: Disable the watchpoint0x1: Enable the watchpoint" "0,1"
group.long 0x14++0x3
line.long 0x00 "DBG_HWWP0_AUX_CNTL,Debug Watchpoint Auxilliary Control Register.This register should be written only when WP_EN=0."
bitfld.long 0x00 14.--15. " MA_SPLIT_TARG              ,MA splitter target0x0: Reserved 0x1: AXI2OCP bridge 0x2: EMIF 0x3: No preference" "0,1,2,3"
bitfld.long 0x00 4.--6. "         INITIATOR_ID                 ,Initiator ID0x0: CPU_0 0x1: CPU_1 0x2: CPU_2. Not supported on this device0x3: CPU_3. Not supported on this device0x4: Unknown source (ACP, FEQ, etc) 0x5: CMU. Not supported on this device 0x6: Reserved 0x7: No pr..." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--1. "   ACCESS_TYPE                  ,Access type0x0: Reserved 0x1: Instructions 0x2: Data/others 0x3: No preference" "0,1,2,3"
group.long 0x18++0x3
line.long 0x00 "DBG_HWWP0_MEM_CNTL,Debug Watchpoint Memory Barrier Control Register.This register should be written only when WP_EN=0."
bitfld.long 0x00 31. " MEM_BAR_TRIG               ,Memory barrier trigger0x0: Memory Barrier Watchpoint not triggered 0x1: Memory Barrier Watchpoint has triggered(Reset upon 0->1 transition of MEM_BAR_WP_EN)" "0,1"
bitfld.long 0x00 3.--4. "         MEM_BAR_ACCESS_TYPE          ,Type of memory barrier access0x0: Reserved 0x1: Read 0x2: Write 0x3: Don't care (only if CHAIN_WP_EN=0; otherwise, reserved) Note: In the case of CHAIN_WP_EN=1, both memory barrier and data watchpoint must have th..." "0,1,2,3"
bitfld.long 0x00 1.--2. "   MEM_BAR_TYPE                 ,Memory barrier type0x0: Reserved 0x1: DSB 0x2: DMB 0x3: No preference" "0,1,2,3"
textline "                                         "
bitfld.long 0x00 0. " MEM_BAR_WP_EN              ,Memory barrier watchpoint enable0x0: Disable the watchpoint0x1: Enable the watchpoint" "0,1"
group.long 0x1C++0x3
line.long 0x00 "DBG_HWWP0_CHAIN_CNTL,Debug Watchpoint Data/Memory Barrier Chain Control Register.This register should be written only when WP_EN=0."
bitfld.long 0x00 31. " CHAIN_WP_TRIG              ,Chained watchpoints (memory barrier and data watchpoint) trigger0x0: Chained Watchpoints not triggered 0x1: Chained Watchpoints have triggered (Reset upon 0->1 transition of CHAIN_WP_EN)" "0,1"
bitfld.long 0x00 1. "         CHAIN_TYPE                   ,Chain type0x0: Watchpoint match then memory barrier match 0x1: Memory barrier match then watchpoint match" "0,1"
bitfld.long 0x00 0. "   CHAIN_WP_EN                  ,Chained watchpoints (memory barrier and data watchpoint) enable0x0: Disable the chained watchpoints0x1: Enable the chained watchpointsNote: Both the memory barrier and data watchpoint should be enabled subsequent to thi..." "0,1"
rgroup.long 0x20++0x3
line.long 0x00 "DBG_HWWP0_LW_ADDR0_LOG,Debug Watchpoint Addr0 Log Register (lower order bits 31:0).This register should be read only when TRIG=1 or WP_EN=0.This register is reset upon 0->1 transition of WP_EN."
hexmask.long 0x00 0.--31. 1. " WP_ADDR_LOWER_ORDER_BITS   ,Watchpoint address lower order bits (bits 31:0)(The byte-addressable lower order AXI-4 physical watchpoint address bits which results in a match)"
rgroup.long 0x24++0x3
line.long 0x00 "DBG_HWWP0_HG_ADDR0_LOG,Debug Watchpoint Addr0 Log Register (higher order bits 39:32).This register should be read only when TRIG=1 or WP_EN=0.This register is reset upon 0->1 transition of WP_EN."
hexmask.long.byte 0x00 0.--7. 1. " WP_ADDR_HIGHER_ORDER_BITS  ,Watchpoint address higher order bits (bits 39:32)(The byte-addressable higher order AXI-4 physical watchpoint address bits which results in a match)"
rgroup.long 0x28++0x3
line.long 0x00 "DBG_HWWP0_DATA0_LOG,Debug Watchpoint Data Log Register (bits 31:0).This register should be read only when TRIG=1 or WP_EN=0.This register is reset upon 0->1 transition of WP_EN."
hexmask.long 0x00 0.--31. 1. " DATA0_CAPTURE              ,Data capture (bits 31:0)(32-bit data associated with the access which results in a watchpoint match)"
rgroup.long 0x2C++0x3
line.long 0x00 "DBG_HWWP0_DATA1_LOG,Debug Watchpoint Data Log Register (bits 63:32).This register should be read only when TRIG=1 or WP_EN=0.This register is reset upon 0->1 transition of WP_EN."
hexmask.long 0x00 0.--31. 1. " DATA1_CAPTURE              ,Data capture (bits 63:32)(32-bit data associated with the access which results in a watchpoint match)"
rgroup.long 0x30++0x3
line.long 0x00 "DBG_HWWP0_DATA2_LOG,Debug Watchpoint Data Log Register (bits 95:64).This register should be read only when TRIG=1 or WP_EN=0.This register is reset upon 0->1 transition of WP_EN."
hexmask.long 0x00 0.--31. 1. " DATA2_CAPTURE              ,Data capture (bits 95:64)(32-bit data associated with the access which results in a watchpoint match)"
rgroup.long 0x34++0x3
line.long 0x00 "DBG_HWWP0_DATA3_LOG,Debug Watchpoint Data Log Register (bits 127:96).This register should be read only when TRIG=1 or WP_EN=0.This register is reset upon 0->1 transition of WP_EN."
hexmask.long 0x00 0.--31. 1. " DATA3_CAPTURE              ,Data capture (bits 127:96) (32-bit data associated with the access which results in a watchpoint match)"
rgroup.long 0x38++0x3
line.long 0x00 "DBG_HWWP0_TRANS_ATTR0_LOG,Debug Watchpoint Transaction Attributes 0 Log Register.This register should be read only when TRIG=1 or WP_EN=0.This register is reset upon 0->1 transition of WP_EN."
bitfld.long 0x00 24.--25. " RESP_INFO                  ,Response info0x0: Reserved 0x1: Okay 0x2: Request failed 0x3: Request error" "0,1,2,3"
bitfld.long 0x00 20.--22. "         INIT_INFO                    ,Initiator info0x0: CPU_0 0x1: CPU_1 0x2: CPU_2. Not supported on this device0x3: CPU_3. Not supported on this device0x4: Unknown source (ACP, FEQ, etc) 0x5: CMU. Not supported on this device 0x6, 0x7: Reserved" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 16.--18. "   TARGET_INFO                  ,Target info0x0: AXI2OCP 0x1: EMIF All other values: Reserved" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 10.--12. " TRANS_TYPE                 ,Transaction type(The type of transaction which results in a watchpoint match and is protocol independent. Not all protocols support all transaction types)0x0: Reserved 0x1: Write posted 0x2: Read 0x3: Read exclusive 0x4: Re..." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--9. "         BURST_LENGTH                 ,Burst length(The length of the burst which results in a watchpoint match) 0x1: Burst length = 1 (min value)0x2: Burst length = 2.....0x3F: Burst length = 63 (max value)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--2. "  BURST_TYPE                   ,Burst type0x0: Incrementing 0x1: Wrapping 0x3: Fixed (streaming) All other values: Reserved" "0,1,2,3,4,5,6,7"
rgroup.long 0x3C++0x3
line.long 0x00 "DBG_HWWP0_TRANS_ATTR1_LOG,Debug Watchpoint Transaction Attributes 1 Log Register.This register should be read only when TRIG=1 or WP_EN=0.This register is reset upon 0->1 transition of WP_EN."
bitfld.long 0x00 2. " DATA                       ,Data access/Instruction fetch0x0: Other, data, PLE, eviction 0x1: Instruction" "0,1"
bitfld.long 0x00 1. "         SUPERVISOR                   ,Supervisor/User access0x0: User 0x1: Supervisor" "0,1"
bitfld.long 0x00 0. "   SECURE                       ,Secure/Non-secure access0x0: Non-secure 0x1: Secure. Not supported on GP device" "0,1"
rgroup.long 0x40++0x3
line.long 0x00 "DBG_HWWP0_DATA_TRANS_ATTR0_LOG,Debug Watchpoint Data Transaction Attributes 0 Log Register.This register should be read only when TRIG=1 or WP_EN=0.This register is reset upon 0->1 transition of WP_EN."
hexmask.long.word 0x00 0.--15. 1. " BYTE_EN                    ,Byte enable(Byte enables for the 128-bit of data captured for the transaction match)"
width 0x0B
tree.end
tree "MPU_PRCM_PRM_C0"
base ad:0x48243400
width 22.
group.long 0x0++0x3
line.long 0x00 "PM_CPU0_PWRSTCTRL,This register controls the CPU domain power state to reach upon a domain sleep transition"
bitfld.long 0x00 16.--17. " L1_BANK_ONSTATE       ,CPU_L1 memory state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
bitfld.long 0x00 8. "      L1_BANK_RETSTATE ,CPU_L1 memory state when domain is RETENTION. - MEM_RET." "0,MEM_RET"
bitfld.long 0x00 2. "     LOGICRETSTATE   ,Logic state when power domain is RETENTION - LOGIC_RET." "0,LOGIC_RET"
textline "                               "
bitfld.long 0x00 0.--1. " POWERSTATE            ,Power state control - OFF. - RET. - INACT. - ON." "OFF,RET,INACT,ON"
group.long 0x4++0x3
line.long 0x00 "PM_CPU0_PWRSTST,This register provides a status on the CPU domain current power state. [warm reset insensitive]"
bitfld.long 0x00 24.--25. " LASTPOWERSTATEENTERED ,Last low power state entered - OFF. - RET. - INACT. - ON." "OFF,RET,INACT,ON"
bitfld.long 0x00 20. "       INTRANSITION     ,Domain transition status - NO. - ONGOING." "NO,ONGOING"
bitfld.long 0x00 4.--5. "     L1_BANK_STATEST ,CPU_L1 memory state status - MEM_OFF. - MEM_RET. - RESERVED. - MEM_ON." "MEM_OFF,MEM_RET,RESERVED,MEM_ON"
textline "                               "
bitfld.long 0x00 2. " LOGICSTATEST          ,Logic state status - OFF. - ON." "OFF,ON"
bitfld.long 0x00 0.--1. "         POWERSTATEST     ,Current power state status - OFF. - RET. - INACTIVE. - ON." "OFF,RET,INACTIVE,ON"
group.long 0x10++0x3
line.long 0x00 "RM_CPU0_CPU0_RSTCTRL,This register controls the assertion/release of the CPU CORE reset."
bitfld.long 0x00 0. " RST                   ,CPU warm local reset control - CLEAR. - ASSERT." "CLEAR,ASSERT"
group.long 0x14++0x3
line.long 0x00 "RM_CPU0_CPU0_RSTST,This register logs the different reset sources of the MPU domain. Each bit is set upon release of the domain reset signal. Must be cleared by software. [warm reset insensitive]"
eventfld.long 0x00 1. " DBGRST_REQ_RSTST      ,MPU_C0 processor has been reset due to MPU_C0 emulation reset request driven from MPUSS. - CLEAR. - ASSERT." "CLEAR,ASSERT"
eventfld.long 0x00 0. "      RSTST            ,MPU_C0 software reset - CLEAR. - ASSERT." "CLEAR,ASSERT"
group.long 0x24++0x3
line.long 0x00 "RM_CPU0_CPU0_CONTEXT,This register contains dedicated CPU context statuses. [warm reset insensitive]"
eventfld.long 0x00 8. " LOSTMEM_CPU_L1        ,Specify if memory-based context in CPU_L1 memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
eventfld.long 0x00 0. "  LOSTCONTEXT_DFF  ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
width 0x0B
tree.end
tree "MPU_PRCM_PRM_C1"
base ad:0x48243800
width 22.
group.long 0x0++0x3
line.long 0x00 "PM_CPU1_PWRSTCTRL,This register controls the CPU domain power state to reach upon a domain sleep transition"
bitfld.long 0x00 16.--17. " L1_BANK_ONSTATE       ,CPU_L1 memory state when domain is ON. - MEM_ON." "0,1,2,MEM_ON"
bitfld.long 0x00 8. "      L1_BANK_RETSTATE ,CPU L1 memory state when domain is RETENTION. - MEM_RET." "0,MEM_RET"
bitfld.long 0x00 7. "     FORCED_OFF      ,Selects if logic must be forced in OFF state. - OFF_NOT_FORCED. - OFF_FORCED." "OFF_NOT_FORCED,OFF_FORCED"
textline "                               "
bitfld.long 0x00 2. " LOGICRETSTATE         ,Logic state when power domain is RETENTION - LOGIC_RET." "0,LOGIC_RET"
bitfld.long 0x00 0.--1. "   POWERSTATE       ,Power state control - OFF. - RET. - INACT. - ON." "OFF,RET,INACT,ON"
group.long 0x4++0x3
line.long 0x00 "PM_CPU1_PWRSTST,This register provides a status on the CPU domain current power state. [warm reset insensitive]"
bitfld.long 0x00 24.--25. " LASTPOWERSTATEENTERED ,Last low-power state entered - OFF. - RET. - INACT. - ON." "OFF,RET,INACT,ON"
bitfld.long 0x00 20. "       INTRANSITION     ,Domain transition status - NO. - ONGOING." "NO,ONGOING"
bitfld.long 0x00 4.--5. "     L1_BANK_STATEST ,CPU_L1 memory state status - MEM_OFF. - MEM_RET. - RESERVED. - MEM_ON." "MEM_OFF,MEM_RET,RESERVED,MEM_ON"
textline "                               "
bitfld.long 0x00 2. " LOGICSTATEST          ,Logic state status - OFF. - ON." "OFF,ON"
bitfld.long 0x00 0.--1. "         POWERSTATEST     ,Current power state status - OFF. - RET. - INACTIVE. - ON." "OFF,RET,INACTIVE,ON"
group.long 0x10++0x3
line.long 0x00 "RM_CPU1_CPU1_RSTCTRL,This register controls the assertion/release of the CPU CORE reset."
bitfld.long 0x00 0. " RST                   ,CPU warm local reset control - CLEAR. - ASSERT." "CLEAR,ASSERT"
group.long 0x14++0x3
line.long 0x00 "RM_CPU1_CPU1_RSTST,This register logs the different reset sources of the MPU domain. Each bit is set upon release of the domain reset signal. Must be cleared by software. [warm reset insensitive]"
eventfld.long 0x00 1. " DBGRST_REQ_RSTST      ,MPU_C1 processor has been reset due to MPU_C0 emulation reset request driven from MPUSS - CLEAR. - ASSERT." "CLEAR,ASSERT"
eventfld.long 0x00 0. "      RSTST            ,MPU_C1 software reset - CLEAR. - ASSERT." "CLEAR,ASSERT"
group.long 0x24++0x3
line.long 0x00 "RM_CPU1_CPU1_CONTEXT,This register contains dedicated CPU context statuses. [warm reset insensitive]"
eventfld.long 0x00 8. " LOSTMEM_CPU_L1        ,Specify if memory-based context in CPU_L1 memory bank has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
eventfld.long 0x00 0. "  LOSTCONTEXT_DFF  ,Specify if DFF-based context has been lost due to a previous power transition or other reset source. - MAINTAINED. - LOST." "MAINTAINED,LOST"
width 0x0B
tree.end
tree "MPU_WUGEN"
base ad:0x48281000
width 18.
group.long 0x0++0x3
line.long 0x00 "WKG_CONTROL_0,Wake-up generator control and status register for MPU_C0"
bitfld.long 0x00 15. " DOMAINRESET         ,MPU always-on power domain (PD_MPUAON) reset status bit. It shows if the reset occurred previously. 0x0: no reset occur 0x1: reset occur" "0,1"
bitfld.long 0x00 14. "         MPU_WARM_RESET      ,This bit is set when the MPU_WARM_RESET signal is asserted. 0x0: MPU_WARM_RESET reset signal has not been asserted 0x1: MPU_WARM_RESET reset request has been asserted" "0,1"
bitfld.long 0x00 13. "  MPU_COLD_RESET      ,This bit is set when the MPU_COLD_RESET signal is asserted. 0x0: MPU_COLD_RESET reset signal has not been asserted 0x1: MPU_COLD_RESET reset request has been asserted" "0,1"
textline "                           "
bitfld.long 0x00 10. " EVENTO              ,EVENTO status bit. The event output signal is active, when one SEV instruction is executed. This bit is set when a rising edge of EVENTO from CPU is detected. 0x0: Rising edge of EVENTO is not detected 0x1: Rising edge of EVENTO i..." "0,1"
bitfld.long 0x00 9. "         STANDBYWFE          ,This bit gives software the visibility to track whether WFE mode have been entered. 0x0: WFE mode has not been entered 0x1: WFE mode has been entered" "0,1"
bitfld.long 0x00 8. "  STANDBYWFI          ,This bit gives software the visibility to track whether WFI mode have been entered. 0x0: WFI mode has not been entered 0x1: WFI mode has been entered" "0,1"
group.long 0x10++0x3
line.long 0x00 "WKG_ENB_A_0,Wake-up interrupt enable register for MPU_C0 (interrupts MPU_IRQ_0 to MPU_IRQ_31). Write 0x0: Disable interrupt. Write 0x1: Enable interrupt."
bitfld.long 0x00 31. " WKG_ENB_FOR_INTR31  ,Wakeup enable for interrupt line MPU_IRQ_31" "0,1"
bitfld.long 0x00 30. "         WKG_ENB_FOR_INTR30  ,Wakeup enable for interrupt line MPU_IRQ_30" "0,1"
bitfld.long 0x00 29. "  WKG_ENB_FOR_INTR29  ,Wakeup enable for interrupt line MPU_IRQ_29" "0,1"
textline "                           "
bitfld.long 0x00 28. " WKG_ENB_FOR_INTR28  ,Wakeup enable for interrupt line MPU_IRQ_28" "0,1"
bitfld.long 0x00 27. "         WKG_ENB_FOR_INTR27  ,Wakeup enable for interrupt line MPU_IRQ_27" "0,1"
bitfld.long 0x00 26. "  WKG_ENB_FOR_INTR26  ,Wakeup enable for interrupt line MPU_IRQ_26" "0,1"
textline "                           "
bitfld.long 0x00 25. " WKG_ENB_FOR_INTR25  ,Wakeup enable for interrupt line MPU_IRQ_25" "0,1"
bitfld.long 0x00 24. "         WKG_ENB_FOR_INTR24  ,Wakeup enable for interrupt line MPU_IRQ_24" "0,1"
bitfld.long 0x00 23. "  WKG_ENB_FOR_INTR23  ,Wakeup enable for interrupt line MPU_IRQ_23" "0,1"
textline "                           "
bitfld.long 0x00 22. " WKG_ENB_FOR_INTR22  ,Wakeup enable for interrupt line MPU_IRQ_22" "0,1"
bitfld.long 0x00 21. "         WKG_ENB_FOR_INTR21  ,Wakeup enable for interrupt line MPU_IRQ_21" "0,1"
bitfld.long 0x00 20. "  WKG_ENB_FOR_INTR20  ,Wakeup enable for interrupt line MPU_IRQ_20" "0,1"
textline "                           "
bitfld.long 0x00 19. " WKG_ENB_FOR_INTR19  ,Wakeup enable for interrupt line MPU_IRQ_19" "0,1"
bitfld.long 0x00 18. "         WKG_ENB_FOR_INTR18  ,Wakeup enable for interrupt line MPU_IRQ_18" "0,1"
bitfld.long 0x00 17. "  WKG_ENB_FOR_INTR17  ,Wakeup enable for interrupt line MPU_IRQ_17" "0,1"
textline "                           "
bitfld.long 0x00 16. " WKG_ENB_FOR_INTR16  ,Wakeup enable for interrupt line MPU_IRQ_16" "0,1"
bitfld.long 0x00 15. "         WKG_ENB_FOR_INTR15  ,Wakeup enable for interrupt line MPU_IRQ_15" "0,1"
bitfld.long 0x00 14. "  WKG_ENB_FOR_INTR14  ,Wakeup enable for interrupt line MPU_IRQ_14" "0,1"
textline "                           "
bitfld.long 0x00 13. " WKG_ENB_FOR_INTR13  ,Wakeup enable for interrupt line MPU_IRQ_13" "0,1"
bitfld.long 0x00 12. "         WKG_ENB_FOR_INTR12  ,Wakeup enable for interrupt line MPU_IRQ_12" "0,1"
bitfld.long 0x00 11. "  WKG_ENB_FOR_INTR11  ,Wakeup enable for interrupt line MPU_IRQ_11" "0,1"
textline "                           "
bitfld.long 0x00 10. " WKG_ENB_FOR_INTR10  ,Wakeup enable for interrupt line MPU_IRQ_10" "0,1"
bitfld.long 0x00 9. "         WKG_ENB_FOR_INTR9   ,Wakeup enable for interrupt line MPU_IRQ_9" "0,1"
bitfld.long 0x00 8. "  WKG_ENB_FOR_INTR8   ,Wakeup enable for interrupt line MPU_IRQ_8" "0,1"
textline "                           "
bitfld.long 0x00 7. " WKG_ENB_FOR_INTR7   ,Wakeup enable for interrupt line MPU_IRQ_7" "0,1"
bitfld.long 0x00 6. "         WKG_ENB_FOR_INTR6   ,Wakeup enable for interrupt line MPU_IRQ_6" "0,1"
bitfld.long 0x00 5. "  WKG_ENB_FOR_INTR5   ,Wakeup enable for interrupt line MPU_IRQ_5" "0,1"
textline "                           "
bitfld.long 0x00 4. " WKG_ENB_FOR_INTR4   ,Wakeup enable for interrupt line MPU_IRQ_4" "0,1"
bitfld.long 0x00 3. "         WKG_ENB_FOR_INTR3   ,Wakeup enable for interrupt line MPU_IRQ_3" "0,1"
bitfld.long 0x00 2. "  WKG_ENB_FOR_INTR2   ,Wakeup enable for interrupt line MPU_IRQ_2" "0,1"
textline "                           "
bitfld.long 0x00 1. " WKG_ENB_FOR_INTR1   ,Wakeup enable for interrupt line MPU_IRQ_1" "0,1"
bitfld.long 0x00 0. "         WKG_ENB_FOR_INTR0   ,Wakeup enable for interrupt line MPU_IRQ_0" "0,1"
group.long 0x14++0x3
line.long 0x00 "WKG_ENB_B_0,Wake-up interrupt enable register for MPU_C0 (interrupts MPU_IRQ_32 to MPU_IRQ_63). Write 0x0: Disable interrupt. Write 0x1: Enable interrupt."
bitfld.long 0x00 31. " WKG_ENB_FOR_INTR63  ,Wakeup enable for interrupt line MPU_IRQ_63" "0,1"
bitfld.long 0x00 30. "         WKG_ENB_FOR_INTR62  ,Wakeup enable for interrupt line MPU_IRQ_62" "0,1"
bitfld.long 0x00 29. "  WKG_ENB_FOR_INTR61  ,Wakeup enable for interrupt line MPU_IRQ_61" "0,1"
textline "                           "
bitfld.long 0x00 28. " WKG_ENB_FOR_INTR60  ,Wakeup enable for interrupt line MPU_IRQ_60" "0,1"
bitfld.long 0x00 27. "         WKG_ENB_FOR_INTR59  ,Wakeup enable for interrupt line MPU_IRQ_59" "0,1"
bitfld.long 0x00 26. "  WKG_ENB_FOR_INTR58  ,Wakeup enable for interrupt line MPU_IRQ_58" "0,1"
textline "                           "
bitfld.long 0x00 25. " WKG_ENB_FOR_INTR57  ,Wakeup enable for interrupt line MPU_IRQ_57" "0,1"
bitfld.long 0x00 24. "         WKG_ENB_FOR_INTR56  ,Wakeup enable for interrupt line MPU_IRQ_56" "0,1"
bitfld.long 0x00 23. "  WKG_ENB_FOR_INTR55  ,Wakeup enable for interrupt line MPU_IRQ_55" "0,1"
textline "                           "
bitfld.long 0x00 22. " WKG_ENB_FOR_INTR54  ,Wakeup enable for interrupt line MPU_IRQ_54" "0,1"
bitfld.long 0x00 21. "         WKG_ENB_FOR_INTR53  ,Wakeup enable for interrupt line MPU_IRQ_53" "0,1"
bitfld.long 0x00 20. "  WKG_ENB_FOR_INTR52  ,Wakeup enable for interrupt line MPU_IRQ_52" "0,1"
textline "                           "
bitfld.long 0x00 19. " WKG_ENB_FOR_INTR51  ,Wakeup enable for interrupt line MPU_IRQ_51" "0,1"
bitfld.long 0x00 18. "         WKG_ENB_FOR_INTR50  ,Wakeup enable for interrupt line MPU_IRQ_50" "0,1"
bitfld.long 0x00 17. "  WKG_ENB_FOR_INTR49  ,Wakeup enable for interrupt line MPU_IRQ_49" "0,1"
textline "                           "
bitfld.long 0x00 16. " WKG_ENB_FOR_INTR48  ,Wakeup enable for interrupt line MPU_IRQ_48" "0,1"
bitfld.long 0x00 15. "         WKG_ENB_FOR_INTR47  ,Wakeup enable for interrupt line MPU_IRQ_47" "0,1"
bitfld.long 0x00 14. "  WKG_ENB_FOR_INTR46  ,Wakeup enable for interrupt line MPU_IRQ_46" "0,1"
textline "                           "
bitfld.long 0x00 13. " WKG_ENB_FOR_INTR45  ,Wakeup enable for interrupt line MPU_IRQ_45" "0,1"
bitfld.long 0x00 12. "         WKG_ENB_FOR_INTR44  ,Wakeup enable for interrupt line MPU_IRQ_44" "0,1"
bitfld.long 0x00 11. "  WKG_ENB_FOR_INTR43  ,Wakeup enable for interrupt line MPU_IRQ_43" "0,1"
textline "                           "
bitfld.long 0x00 10. " WKG_ENB_FOR_INTR42  ,Wakeup enable for interrupt line MPU_IRQ_42" "0,1"
bitfld.long 0x00 9. "         WKG_ENB_FOR_INTR41  ,Wakeup enable for interrupt line MPU_IRQ_41" "0,1"
bitfld.long 0x00 8. "  WKG_ENB_FOR_INTR40  ,Wakeup enable for interrupt line MPU_IRQ_40" "0,1"
textline "                           "
bitfld.long 0x00 7. " WKG_ENB_FOR_INTR39  ,Wakeup enable for interrupt line MPU_IRQ_39" "0,1"
bitfld.long 0x00 6. "         WKG_ENB_FOR_INTR38  ,Wakeup enable for interrupt line MPU_IRQ_38" "0,1"
bitfld.long 0x00 5. "  WKG_ENB_FOR_INTR37  ,Wakeup enable for interrupt line MPU_IRQ_37" "0,1"
textline "                           "
bitfld.long 0x00 4. " WKG_ENB_FOR_INTR36  ,Wakeup enable for interrupt line MPU_IRQ_36" "0,1"
bitfld.long 0x00 3. "         WKG_ENB_FOR_INTR35  ,Wakeup enable for interrupt line MPU_IRQ_35" "0,1"
bitfld.long 0x00 2. "  WKG_ENB_FOR_INTR34  ,Wakeup enable for interrupt line MPU_IRQ_34" "0,1"
textline "                           "
bitfld.long 0x00 1. " WKG_ENB_FOR_INTR33  ,Wakeup enable for interrupt line MPU_IRQ_33" "0,1"
bitfld.long 0x00 0. "         WKG_ENB_FOR_INTR32  ,Wakeup enable for interrupt line MPU_IRQ_32" "0,1"
group.long 0x18++0x3
line.long 0x00 "WKG_ENB_C_0,Wake-up interrupt enable register for MPU_C0 (interrupts MPU_IRQ_64 to MPU_IRQ_95). Write 0x0: Disable interrupt. Write 0x1: Enable interrupt."
bitfld.long 0x00 31. " WKG_ENB_FOR_INTR95  ,Wakeup enable for interrupt line MPU_IRQ_95" "0,1"
bitfld.long 0x00 30. "         WKG_ENB_FOR_INTR94  ,Wakeup enable for interrupt line MPU_IRQ_94" "0,1"
bitfld.long 0x00 29. "  WKG_ENB_FOR_INTR93  ,Wakeup enable for interrupt line MPU_IRQ_93" "0,1"
textline "                           "
bitfld.long 0x00 28. " WKG_ENB_FOR_INTR92  ,Wakeup enable for interrupt line MPU_IRQ_92" "0,1"
bitfld.long 0x00 27. "         WKG_ENB_FOR_INTR91  ,Wakeup enable for interrupt line MPU_IRQ_91" "0,1"
bitfld.long 0x00 26. "  WKG_ENB_FOR_INTR90  ,Wakeup enable for interrupt line MPU_IRQ_90" "0,1"
textline "                           "
bitfld.long 0x00 25. " WKG_ENB_FOR_INTR89  ,Wakeup enable for interrupt line MPU_IRQ_89" "0,1"
bitfld.long 0x00 24. "         WKG_ENB_FOR_INTR88  ,Wakeup enable for interrupt line MPU_IRQ_88" "0,1"
bitfld.long 0x00 23. "  WKG_ENB_FOR_INTR87  ,Wakeup enable for interrupt line MPU_IRQ_87" "0,1"
textline "                           "
bitfld.long 0x00 22. " WKG_ENB_FOR_INTR86  ,Wakeup enable for interrupt line MPU_IRQ_86" "0,1"
bitfld.long 0x00 21. "         WKG_ENB_FOR_INTR85  ,Wakeup enable for interrupt line MPU_IRQ_85" "0,1"
bitfld.long 0x00 20. "  WKG_ENB_FOR_INTR84  ,Wakeup enable for interrupt line MPU_IRQ_84" "0,1"
textline "                           "
bitfld.long 0x00 19. " WKG_ENB_FOR_INTR83  ,Wakeup enable for interrupt line MPU_IRQ_83" "0,1"
bitfld.long 0x00 18. "         WKG_ENB_FOR_INTR82  ,Wakeup enable for interrupt line MPU_IRQ_82" "0,1"
bitfld.long 0x00 17. "  WKG_ENB_FOR_INTR81  ,Wakeup enable for interrupt line MPU_IRQ_81" "0,1"
textline "                           "
bitfld.long 0x00 16. " WKG_ENB_FOR_INTR80  ,Wakeup enable for interrupt line MPU_IRQ_80" "0,1"
bitfld.long 0x00 15. "         WKG_ENB_FOR_INTR79  ,Wakeup enable for interrupt line MPU_IRQ_79" "0,1"
bitfld.long 0x00 14. "  WKG_ENB_FOR_INTR78  ,Wakeup enable for interrupt line MPU_IRQ_78" "0,1"
textline "                           "
bitfld.long 0x00 13. " WKG_ENB_FOR_INTR77  ,Wakeup enable for interrupt line MPU_IRQ_77" "0,1"
bitfld.long 0x00 12. "         WKG_ENB_FOR_INTR76  ,Wakeup enable for interrupt line MPU_IRQ_76" "0,1"
bitfld.long 0x00 11. "  WKG_ENB_FOR_INTR75  ,Wakeup enable for interrupt line MPU_IRQ_75" "0,1"
textline "                           "
bitfld.long 0x00 10. " WKG_ENB_FOR_INTR74  ,Wakeup enable for interrupt line MPU_IRQ_74" "0,1"
bitfld.long 0x00 9. "         WKG_ENB_FOR_INTR73  ,Wakeup enable for interrupt line MPU_IRQ_73" "0,1"
bitfld.long 0x00 8. "  WKG_ENB_FOR_INTR72  ,Wakeup enable for interrupt line MPU_IRQ_72" "0,1"
textline "                           "
bitfld.long 0x00 7. " WKG_ENB_FOR_INTR71  ,Wakeup enable for interrupt line MPU_IRQ_71" "0,1"
bitfld.long 0x00 6. "         WKG_ENB_FOR_INTR70  ,Wakeup enable for interrupt line MPU_IRQ_70" "0,1"
bitfld.long 0x00 5. "  WKG_ENB_FOR_INTR69  ,Wakeup enable for interrupt line MPU_IRQ_69" "0,1"
textline "                           "
bitfld.long 0x00 4. " WKG_ENB_FOR_INTR68  ,Wakeup enable for interrupt line MPU_IRQ_68" "0,1"
bitfld.long 0x00 3. "         WKG_ENB_FOR_INTR67  ,Wakeup enable for interrupt line MPU_IRQ_67" "0,1"
bitfld.long 0x00 2. "  WKG_ENB_FOR_INTR66  ,Wakeup enable for interrupt line MPU_IRQ_66" "0,1"
textline "                           "
bitfld.long 0x00 1. " WKG_ENB_FOR_INTR65  ,Wakeup enable for interrupt line MPU_IRQ_65" "0,1"
bitfld.long 0x00 0. "         WKG_ENB_FOR_INTR64  ,Wakeup enable for interrupt line MPU_IRQ_64" "0,1"
group.long 0x1C++0x3
line.long 0x00 "WKG_ENB_D_0,Wake-up interrupt enable register for MPU_C0 (interrupts MPU_IRQ_96 to MPU_IRQ_127). Write 0x0: Disable interrupt. Write 0x1: Enable interrupt."
bitfld.long 0x00 31. " WKG_ENB_FOR_INTR127 ,Wakeup enable for interrupt line MPU_IRQ_127" "0,1"
bitfld.long 0x00 30. "         WKG_ENB_FOR_INTR126 ,Wakeup enable for interrupt line MPU_IRQ_126" "0,1"
bitfld.long 0x00 29. "  WKG_ENB_FOR_INTR125 ,Wakeup enable for interrupt line MPU_IRQ_125" "0,1"
textline "                           "
bitfld.long 0x00 28. " WKG_ENB_FOR_INTR124 ,Wakeup enable for interrupt line MPU_IRQ_124" "0,1"
bitfld.long 0x00 27. "         WKG_ENB_FOR_INTR123 ,Wakeup enable for interrupt line MPU_IRQ_123" "0,1"
bitfld.long 0x00 26. "  WKG_ENB_FOR_INTR122 ,Wakeup enable for interrupt line MPU_IRQ_122" "0,1"
textline "                           "
bitfld.long 0x00 25. " WKG_ENB_FOR_INTR121 ,Wakeup enable for interrupt line MPU_IRQ_121" "0,1"
bitfld.long 0x00 24. "         WKG_ENB_FOR_INTR120 ,Wakeup enable for interrupt line MPU_IRQ_120" "0,1"
bitfld.long 0x00 23. "  WKG_ENB_FOR_INTR119 ,Wakeup enable for interrupt line MPU_IRQ_119" "0,1"
textline "                           "
bitfld.long 0x00 22. " WKG_ENB_FOR_INTR118 ,Wakeup enable for interrupt line MPU_IRQ_118" "0,1"
bitfld.long 0x00 21. "         WKG_ENB_FOR_INTR117 ,Wakeup enable for interrupt line MPU_IRQ_117" "0,1"
bitfld.long 0x00 20. "  WKG_ENB_FOR_INTR116 ,Wakeup enable for interrupt line MPU_IRQ_116" "0,1"
textline "                           "
bitfld.long 0x00 19. " WKG_ENB_FOR_INTR115 ,Wakeup enable for interrupt line MPU_IRQ_115" "0,1"
bitfld.long 0x00 18. "         WKG_ENB_FOR_INTR114 ,Wakeup enable for interrupt line MPU_IRQ_114" "0,1"
bitfld.long 0x00 17. "  WKG_ENB_FOR_INTR113 ,Wakeup enable for interrupt line MPU_IRQ_113" "0,1"
textline "                           "
bitfld.long 0x00 16. " WKG_ENB_FOR_INTR112 ,Wakeup enable for interrupt line MPU_IRQ_112" "0,1"
bitfld.long 0x00 15. "         WKG_ENB_FOR_INTR111 ,Wakeup enable for interrupt line MPU_IRQ_111" "0,1"
bitfld.long 0x00 14. "  WKG_ENB_FOR_INTR110 ,Wakeup enable for interrupt line MPU_IRQ_110" "0,1"
textline "                           "
bitfld.long 0x00 13. " WKG_ENB_FOR_INTR109 ,Wakeup enable for interrupt line MPU_IRQ_109" "0,1"
bitfld.long 0x00 12. "         WKG_ENB_FOR_INTR108 ,Wakeup enable for interrupt line MPU_IRQ_108" "0,1"
bitfld.long 0x00 11. "  WKG_ENB_FOR_INTR107 ,Wakeup enable for interrupt line MPU_IRQ_107" "0,1"
textline "                           "
bitfld.long 0x00 10. " WKG_ENB_FOR_INTR106 ,Wakeup enable for interrupt line MPU_IRQ_106" "0,1"
bitfld.long 0x00 9. "         WKG_ENB_FOR_INTR105 ,Wakeup enable for interrupt line MPU_IRQ_105" "0,1"
bitfld.long 0x00 8. "  WKG_ENB_FOR_INTR104 ,Wakeup enable for interrupt line MPU_IRQ_104" "0,1"
textline "                           "
bitfld.long 0x00 7. " WKG_ENB_FOR_INTR103 ,Wakeup enable for interrupt line MPU_IRQ_103" "0,1"
bitfld.long 0x00 6. "         WKG_ENB_FOR_INTR102 ,Wakeup enable for interrupt line MPU_IRQ_102" "0,1"
bitfld.long 0x00 5. "  WKG_ENB_FOR_INTR101 ,Wakeup enable for interrupt line MPU_IRQ_101" "0,1"
textline "                           "
bitfld.long 0x00 4. " WKG_ENB_FOR_INTR100 ,Wakeup enable for interrupt line MPU_IRQ_100" "0,1"
bitfld.long 0x00 3. "         WKG_ENB_FOR_INTR99  ,Wakeup enable for interrupt line MPU_IRQ_99" "0,1"
bitfld.long 0x00 2. "  WKG_ENB_FOR_INTR98  ,Wakeup enable for interrupt line MPU_IRQ_98" "0,1"
textline "                           "
bitfld.long 0x00 1. " WKG_ENB_FOR_INTR97  ,Wakeup enable for interrupt line MPU_IRQ_97" "0,1"
bitfld.long 0x00 0. "         WKG_ENB_FOR_INTR96  ,Wakeup enable for interrupt line MPU_IRQ_96" "0,1"
group.long 0x20++0x3
line.long 0x00 "WKG_ENB_E_0,Wake-up interrupt enable register for MPU_C0 (interrupts MPU_IRQ_128 to MPU_IRQ_159). Write 0x0: Disable interrupt. Write 0x1: Enable interrupt."
bitfld.long 0x00 31. " WKG_ENB_FOR_INTR159 ,Wakeup enable for interrupt line MPU_IRQ_159" "0,1"
bitfld.long 0x00 30. "         WKG_ENB_FOR_INTR158 ,Wakeup enable for interrupt line MPU_IRQ_158" "0,1"
bitfld.long 0x00 29. "  WKG_ENB_FOR_INTR157 ,Wakeup enable for interrupt line MPU_IRQ_157" "0,1"
textline "                           "
bitfld.long 0x00 28. " WKG_ENB_FOR_INTR156 ,Wakeup enable for interrupt line MPU_IRQ_156" "0,1"
bitfld.long 0x00 27. "         WKG_ENB_FOR_INTR155 ,Wakeup enable for interrupt line MPU_IRQ_155" "0,1"
bitfld.long 0x00 26. "  WKG_ENB_FOR_INTR154 ,Wakeup enable for interrupt line MPU_IRQ_154" "0,1"
textline "                           "
bitfld.long 0x00 25. " WKG_ENB_FOR_INTR153 ,Wakeup enable for interrupt line MPU_IRQ_153" "0,1"
bitfld.long 0x00 24. "         WKG_ENB_FOR_INTR152 ,Wakeup enable for interrupt line MPU_IRQ_152" "0,1"
bitfld.long 0x00 23. "  WKG_ENB_FOR_INTR151 ,Wakeup enable for interrupt line MPU_IRQ_151" "0,1"
textline "                           "
bitfld.long 0x00 22. " WKG_ENB_FOR_INTR150 ,Wakeup enable for interrupt line MPU_IRQ_150" "0,1"
bitfld.long 0x00 21. "         WKG_ENB_FOR_INTR149 ,Wakeup enable for interrupt line MPU_IRQ_149" "0,1"
bitfld.long 0x00 20. "  WKG_ENB_FOR_INTR148 ,Wakeup enable for interrupt line MPU_IRQ_148" "0,1"
textline "                           "
bitfld.long 0x00 19. " WKG_ENB_FOR_INTR147 ,Wakeup enable for interrupt line MPU_IRQ_147" "0,1"
bitfld.long 0x00 18. "         WKG_ENB_FOR_INTR146 ,Wakeup enable for interrupt line MPU_IRQ_146" "0,1"
bitfld.long 0x00 17. "  WKG_ENB_FOR_INTR145 ,Wakeup enable for interrupt line MPU_IRQ_145" "0,1"
textline "                           "
bitfld.long 0x00 16. " WKG_ENB_FOR_INTR144 ,Wakeup enable for interrupt line MPU_IRQ_144" "0,1"
bitfld.long 0x00 15. "         WKG_ENB_FOR_INTR143 ,Wakeup enable for interrupt line MPU_IRQ_143" "0,1"
bitfld.long 0x00 14. "  WKG_ENB_FOR_INTR142 ,Wakeup enable for interrupt line MPU_IRQ_142" "0,1"
textline "                           "
bitfld.long 0x00 13. " WKG_ENB_FOR_INTR141 ,Wakeup enable for interrupt line MPU_IRQ_141" "0,1"
bitfld.long 0x00 12. "         WKG_ENB_FOR_INTR140 ,Wakeup enable for interrupt line MPU_IRQ_140" "0,1"
bitfld.long 0x00 11. "  WKG_ENB_FOR_INTR139 ,Wakeup enable for interrupt line MPU_IRQ_139" "0,1"
textline "                           "
bitfld.long 0x00 10. " WKG_ENB_FOR_INTR138 ,Wakeup enable for interrupt line MPU_IRQ_138" "0,1"
bitfld.long 0x00 9. "         WKG_ENB_FOR_INTR137 ,Wakeup enable for interrupt line MPU_IRQ_137" "0,1"
bitfld.long 0x00 8. "  WKG_ENB_FOR_INTR136 ,Wakeup enable for interrupt line MPU_IRQ_136" "0,1"
textline "                           "
bitfld.long 0x00 7. " WKG_ENB_FOR_INTR135 ,Wakeup enable for interrupt line MPU_IRQ_135" "0,1"
bitfld.long 0x00 6. "         WKG_ENB_FOR_INTR134 ,Wakeup enable for interrupt line MPU_IRQ_134" "0,1"
bitfld.long 0x00 5. "  WKG_ENB_FOR_INTR133 ,Wakeup enable for interrupt line MPU_IRQ_133" "0,1"
textline "                           "
bitfld.long 0x00 4. " WKG_ENB_FOR_INTR132 ,Wakeup enable for interrupt line MPU_IRQ_132" "0,1"
bitfld.long 0x00 3. "         WKG_ENB_FOR_INTR131 ,Wakeup enable for interrupt line MPU_IRQ_131" "0,1"
bitfld.long 0x00 2. "  WKG_ENB_FOR_INTR130 ,Wakeup enable for interrupt line MPU_IRQ_130" "0,1"
textline "                           "
bitfld.long 0x00 1. " WKG_ENB_FOR_INTR129 ,Wakeup enable for interrupt line MPU_IRQ_129" "0,1"
bitfld.long 0x00 0. "         WKG_ENB_FOR_INTR128 ,Wakeup enable for interrupt line MPU_IRQ_128" "0,1"
group.long 0x400++0x3
line.long 0x00 "WKG_CONTROL_1,Wake-up generator control and status register for MPU_C1"
bitfld.long 0x00 15. " DOMAINRESET         ,MPU always-on power domain (PD_MPUAON) reset status bit. It shows if the reset occurred previously. 0x0: No reset occurred. 0x1: Reset occurred." "0,1"
bitfld.long 0x00 14. "         MPU_WARM_RESET      ,This bit is set when the MPU_WARM_RESET signal is asserted. 0x0: MPU_WARM_RESET reset signal has not been asserted. 0x1: MPU_WARM_RESET reset request has been asserted." "0,1"
bitfld.long 0x00 13. "  MPU_COLD_RESET      ,This bit is set when the MPU_COLD_RESET signal is asserted. 0x0: MPU_COLD_RESET reset signal has not been asserted. 0x1: MPU_COLD_RESET reset request has been asserted." "0,1"
textline "                           "
bitfld.long 0x00 10. " EVENTO              ,EVENTO status bit. The event output signal is active, when one SEV instruction is executed. This bit is set when a rising edge of EVENTO from CPU is detected. 0x0: Rising edge of EVENTO is not detected. 0x1: Rising edge of EVENTO ..." "0,1"
bitfld.long 0x00 9. "         STANDBYWFE          ,This bit gives software the visibility to track whether WFE mode have been entered. 0x0: WFE mode has not been entered. 0x1: WFE mode has been entered." "0,1"
bitfld.long 0x00 8. "  STANDBYWFI          ,This bit gives software the visibility to track whether WFI mode have been entered. 0x0: WFI mode has not been entered. 0x1: WFI mode has been entered." "0,1"
group.long 0x410++0x3
line.long 0x00 "WKG_ENB_A_1,Wake-up interrupt enable register for MPU_C1 (interrupts MPU_IRQ_0 to MPU_IRQ_31). Write 0x0: Disable interrupt. Write 0x1: Enable interrupt."
bitfld.long 0x00 31. " WKG_ENB_FOR_INTR31  ,Wakeup enable for interrupt line MPU_IRQ_31" "0,1"
bitfld.long 0x00 30. "         WKG_ENB_FOR_INTR30  ,Wakeup enable for interrupt line MPU_IRQ_30" "0,1"
bitfld.long 0x00 29. "  WKG_ENB_FOR_INTR29  ,Wakeup enable for interrupt line MPU_IRQ_29" "0,1"
textline "                           "
bitfld.long 0x00 28. " WKG_ENB_FOR_INTR28  ,Wakeup enable for interrupt line MPU_IRQ_28" "0,1"
bitfld.long 0x00 27. "         WKG_ENB_FOR_INTR27  ,Wakeup enable for interrupt line MPU_IRQ_27" "0,1"
bitfld.long 0x00 26. "  WKG_ENB_FOR_INTR26  ,Wakeup enable for interrupt line MPU_IRQ_26" "0,1"
textline "                           "
bitfld.long 0x00 25. " WKG_ENB_FOR_INTR25  ,Wakeup enable for interrupt line MPU_IRQ_25" "0,1"
bitfld.long 0x00 24. "         WKG_ENB_FOR_INTR24  ,Wakeup enable for interrupt line MPU_IRQ_24" "0,1"
bitfld.long 0x00 23. "  WKG_ENB_FOR_INTR23  ,Wakeup enable for interrupt line MPU_IRQ_23" "0,1"
textline "                           "
bitfld.long 0x00 22. " WKG_ENB_FOR_INTR22  ,Wakeup enable for interrupt line MPU_IRQ_22" "0,1"
bitfld.long 0x00 21. "         WKG_ENB_FOR_INTR21  ,Wakeup enable for interrupt line MPU_IRQ_21" "0,1"
bitfld.long 0x00 20. "  WKG_ENB_FOR_INTR20  ,Wakeup enable for interrupt line MPU_IRQ_20" "0,1"
textline "                           "
bitfld.long 0x00 19. " WKG_ENB_FOR_INTR19  ,Wakeup enable for interrupt line MPU_IRQ_19" "0,1"
bitfld.long 0x00 18. "         WKG_ENB_FOR_INTR18  ,Wakeup enable for interrupt line MPU_IRQ_18" "0,1"
bitfld.long 0x00 17. "  WKG_ENB_FOR_INTR17  ,Wakeup enable for interrupt line MPU_IRQ_17" "0,1"
textline "                           "
bitfld.long 0x00 16. " WKG_ENB_FOR_INTR16  ,Wakeup enable for interrupt line MPU_IRQ_16" "0,1"
bitfld.long 0x00 15. "         WKG_ENB_FOR_INTR15  ,Wakeup enable for interrupt line MPU_IRQ_15" "0,1"
bitfld.long 0x00 14. "  WKG_ENB_FOR_INTR14  ,Wakeup enable for interrupt line MPU_IRQ_14" "0,1"
textline "                           "
bitfld.long 0x00 13. " WKG_ENB_FOR_INTR13  ,Wakeup enable for interrupt line MPU_IRQ_13" "0,1"
bitfld.long 0x00 12. "         WKG_ENB_FOR_INTR12  ,Wakeup enable for interrupt line MPU_IRQ_12" "0,1"
bitfld.long 0x00 11. "  WKG_ENB_FOR_INTR11  ,Wakeup enable for interrupt line MPU_IRQ_11" "0,1"
textline "                           "
bitfld.long 0x00 10. " WKG_ENB_FOR_INTR10  ,Wakeup enable for interrupt line MPU_IRQ_10" "0,1"
bitfld.long 0x00 9. "         WKG_ENB_FOR_INTR9   ,Wakeup enable for interrupt line MPU_IRQ_9" "0,1"
bitfld.long 0x00 8. "  WKG_ENB_FOR_INTR8   ,Wakeup enable for interrupt line MPU_IRQ_8" "0,1"
textline "                           "
bitfld.long 0x00 7. " WKG_ENB_FOR_INTR7   ,Wakeup enable for interrupt line MPU_IRQ_7" "0,1"
bitfld.long 0x00 6. "         WKG_ENB_FOR_INTR6   ,Wakeup enable for interrupt line MPU_IRQ_6" "0,1"
bitfld.long 0x00 5. "  WKG_ENB_FOR_INTR5   ,Wakeup enable for interrupt line MPU_IRQ_5" "0,1"
textline "                           "
bitfld.long 0x00 4. " WKG_ENB_FOR_INTR4   ,Wakeup enable for interrupt line MPU_IRQ_4" "0,1"
bitfld.long 0x00 3. "         WKG_ENB_FOR_INTR3   ,Wakeup enable for interrupt line MPU_IRQ_3" "0,1"
bitfld.long 0x00 2. "  WKG_ENB_FOR_INTR2   ,Wakeup enable for interrupt line MPU_IRQ_2" "0,1"
textline "                           "
bitfld.long 0x00 1. " WKG_ENB_FOR_INTR1   ,Wakeup enable for interrupt line MPU_IRQ_1" "0,1"
bitfld.long 0x00 0. "         WKG_ENB_FOR_INTR0   ,Wakeup enable for interrupt line MPU_IRQ_0" "0,1"
group.long 0x414++0x3
line.long 0x00 "WKG_ENB_B_1,Wake-up interrupt enable register for MPU_C1 (interrupts MPU_IRQ_32 to MPU_IRQ_63). Write 0x0: Disable interrupt. Write 0x1: Enable interrupt."
bitfld.long 0x00 31. " WKG_ENB_FOR_INTR63  ,Wakeup enable for interrupt line MPU_IRQ_63" "0,1"
bitfld.long 0x00 30. "         WKG_ENB_FOR_INTR62  ,Wakeup enable for interrupt line MPU_IRQ_62" "0,1"
bitfld.long 0x00 29. "  WKG_ENB_FOR_INTR61  ,Wakeup enable for interrupt line MPU_IRQ_61" "0,1"
textline "                           "
bitfld.long 0x00 28. " WKG_ENB_FOR_INTR60  ,Wakeup enable for interrupt line MPU_IRQ_60" "0,1"
bitfld.long 0x00 27. "         WKG_ENB_FOR_INTR59  ,Wakeup enable for interrupt line MPU_IRQ_59" "0,1"
bitfld.long 0x00 26. "  WKG_ENB_FOR_INTR58  ,Wakeup enable for interrupt line MPU_IRQ_58" "0,1"
textline "                           "
bitfld.long 0x00 25. " WKG_ENB_FOR_INTR57  ,Wakeup enable for interrupt line MPU_IRQ_57" "0,1"
bitfld.long 0x00 24. "         WKG_ENB_FOR_INTR56  ,Wakeup enable for interrupt line MPU_IRQ_56" "0,1"
bitfld.long 0x00 23. "  WKG_ENB_FOR_INTR55  ,Wakeup enable for interrupt line MPU_IRQ_55" "0,1"
textline "                           "
bitfld.long 0x00 22. " WKG_ENB_FOR_INTR54  ,Wakeup enable for interrupt line MPU_IRQ_54" "0,1"
bitfld.long 0x00 21. "         WKG_ENB_FOR_INTR53  ,Wakeup enable for interrupt line MPU_IRQ_53" "0,1"
bitfld.long 0x00 20. "  WKG_ENB_FOR_INTR52  ,Wakeup enable for interrupt line MPU_IRQ_52" "0,1"
textline "                           "
bitfld.long 0x00 19. " WKG_ENB_FOR_INTR51  ,Wakeup enable for interrupt line MPU_IRQ_51" "0,1"
bitfld.long 0x00 18. "         WKG_ENB_FOR_INTR50  ,Wakeup enable for interrupt line MPU_IRQ_50" "0,1"
bitfld.long 0x00 17. "  WKG_ENB_FOR_INTR49  ,Wakeup enable for interrupt line MPU_IRQ_49" "0,1"
textline "                           "
bitfld.long 0x00 16. " WKG_ENB_FOR_INTR48  ,Wakeup enable for interrupt line MPU_IRQ_48" "0,1"
bitfld.long 0x00 15. "         WKG_ENB_FOR_INTR47  ,Wakeup enable for interrupt line MPU_IRQ_47" "0,1"
bitfld.long 0x00 14. "  WKG_ENB_FOR_INTR46  ,Wakeup enable for interrupt line MPU_IRQ_46" "0,1"
textline "                           "
bitfld.long 0x00 13. " WKG_ENB_FOR_INTR45  ,Wakeup enable for interrupt line MPU_IRQ_45" "0,1"
bitfld.long 0x00 12. "         WKG_ENB_FOR_INTR44  ,Wakeup enable for interrupt line MPU_IRQ_44" "0,1"
bitfld.long 0x00 11. "  WKG_ENB_FOR_INTR43  ,Wakeup enable for interrupt line MPU_IRQ_43" "0,1"
textline "                           "
bitfld.long 0x00 10. " WKG_ENB_FOR_INTR42  ,Wakeup enable for interrupt line MPU_IRQ_42" "0,1"
bitfld.long 0x00 9. "         WKG_ENB_FOR_INTR41  ,Wakeup enable for interrupt line MPU_IRQ_41" "0,1"
bitfld.long 0x00 8. "  WKG_ENB_FOR_INTR40  ,Wakeup enable for interrupt line MPU_IRQ_40" "0,1"
textline "                           "
bitfld.long 0x00 7. " WKG_ENB_FOR_INTR39  ,Wakeup enable for interrupt line MPU_IRQ_39" "0,1"
bitfld.long 0x00 6. "         WKG_ENB_FOR_INTR38  ,Wakeup enable for interrupt line MPU_IRQ_38" "0,1"
bitfld.long 0x00 5. "  WKG_ENB_FOR_INTR37  ,Wakeup enable for interrupt line MPU_IRQ_37" "0,1"
textline "                           "
bitfld.long 0x00 4. " WKG_ENB_FOR_INTR36  ,Wakeup enable for interrupt line MPU_IRQ_36" "0,1"
bitfld.long 0x00 3. "         WKG_ENB_FOR_INTR35  ,Wakeup enable for interrupt line MPU_IRQ_35" "0,1"
bitfld.long 0x00 2. "  WKG_ENB_FOR_INTR34  ,Wakeup enable for interrupt line MPU_IRQ_34" "0,1"
textline "                           "
bitfld.long 0x00 1. " WKG_ENB_FOR_INTR33  ,Wakeup enable for interrupt line MPU_IRQ_33" "0,1"
bitfld.long 0x00 0. "         WKG_ENB_FOR_INTR32  ,Wakeup enable for interrupt line MPU_IRQ_32" "0,1"
group.long 0x418++0x3
line.long 0x00 "WKG_ENB_C_1,Wake-up interrupt enable register for MPU_C1 (interrupts MPU_IRQ_64 to MPU_IRQ_95). Write 0x0: Disable interrupt. Write 0x1: Enable interrupt."
bitfld.long 0x00 31. " WKG_ENB_FOR_INTR95  ,Wakeup enable for interrupt line MPU_IRQ_95" "0,1"
bitfld.long 0x00 30. "         WKG_ENB_FOR_INTR94  ,Wakeup enable for interrupt line MPU_IRQ_94" "0,1"
bitfld.long 0x00 29. "  WKG_ENB_FOR_INTR93  ,Wakeup enable for interrupt line MPU_IRQ_93" "0,1"
textline "                           "
bitfld.long 0x00 28. " WKG_ENB_FOR_INTR92  ,Wakeup enable for interrupt line MPU_IRQ_92" "0,1"
bitfld.long 0x00 27. "         WKG_ENB_FOR_INTR91  ,Wakeup enable for interrupt line MPU_IRQ_91" "0,1"
bitfld.long 0x00 26. "  WKG_ENB_FOR_INTR90  ,Wakeup enable for interrupt line MPU_IRQ_90" "0,1"
textline "                           "
bitfld.long 0x00 25. " WKG_ENB_FOR_INTR89  ,Wakeup enable for interrupt line MPU_IRQ_89" "0,1"
bitfld.long 0x00 24. "         WKG_ENB_FOR_INTR88  ,Wakeup enable for interrupt line MPU_IRQ_88" "0,1"
bitfld.long 0x00 23. "  WKG_ENB_FOR_INTR87  ,Wakeup enable for interrupt line MPU_IRQ_87" "0,1"
textline "                           "
bitfld.long 0x00 22. " WKG_ENB_FOR_INTR86  ,Wakeup enable for interrupt line MPU_IRQ_86" "0,1"
bitfld.long 0x00 21. "         WKG_ENB_FOR_INTR85  ,Wakeup enable for interrupt line MPU_IRQ_85" "0,1"
bitfld.long 0x00 20. "  WKG_ENB_FOR_INTR84  ,Wakeup enable for interrupt line MPU_IRQ_84" "0,1"
textline "                           "
bitfld.long 0x00 19. " WKG_ENB_FOR_INTR83  ,Wakeup enable for interrupt line MPU_IRQ_83" "0,1"
bitfld.long 0x00 18. "         WKG_ENB_FOR_INTR82  ,Wakeup enable for interrupt line MPU_IRQ_82" "0,1"
bitfld.long 0x00 17. "  WKG_ENB_FOR_INTR81  ,Wakeup enable for interrupt line MPU_IRQ_81" "0,1"
textline "                           "
bitfld.long 0x00 16. " WKG_ENB_FOR_INTR80  ,Wakeup enable for interrupt line MPU_IRQ_80" "0,1"
bitfld.long 0x00 15. "         WKG_ENB_FOR_INTR79  ,Wakeup enable for interrupt line MPU_IRQ_79" "0,1"
bitfld.long 0x00 14. "  WKG_ENB_FOR_INTR78  ,Wakeup enable for interrupt line MPU_IRQ_78" "0,1"
textline "                           "
bitfld.long 0x00 13. " WKG_ENB_FOR_INTR77  ,Wakeup enable for interrupt line MPU_IRQ_77" "0,1"
bitfld.long 0x00 12. "         WKG_ENB_FOR_INTR76  ,Wakeup enable for interrupt line MPU_IRQ_76" "0,1"
bitfld.long 0x00 11. "  WKG_ENB_FOR_INTR75  ,Wakeup enable for interrupt line MPU_IRQ_75" "0,1"
textline "                           "
bitfld.long 0x00 10. " WKG_ENB_FOR_INTR74  ,Wakeup enable for interrupt line MPU_IRQ_74" "0,1"
bitfld.long 0x00 9. "         WKG_ENB_FOR_INTR73  ,Wakeup enable for interrupt line MPU_IRQ_73" "0,1"
bitfld.long 0x00 8. "  WKG_ENB_FOR_INTR72  ,Wakeup enable for interrupt line MPU_IRQ_72" "0,1"
textline "                           "
bitfld.long 0x00 7. " WKG_ENB_FOR_INTR71  ,Wakeup enable for interrupt line MPU_IRQ_71" "0,1"
bitfld.long 0x00 6. "         WKG_ENB_FOR_INTR70  ,Wakeup enable for interrupt line MPU_IRQ_70" "0,1"
bitfld.long 0x00 5. "  WKG_ENB_FOR_INTR69  ,Wakeup enable for interrupt line MPU_IRQ_69" "0,1"
textline "                           "
bitfld.long 0x00 4. " WKG_ENB_FOR_INTR68  ,Wakeup enable for interrupt line MPU_IRQ_68" "0,1"
bitfld.long 0x00 3. "         WKG_ENB_FOR_INTR67  ,Wakeup enable for interrupt line MPU_IRQ_67" "0,1"
bitfld.long 0x00 2. "  WKG_ENB_FOR_INTR66  ,Wakeup enable for interrupt line MPU_IRQ_66" "0,1"
textline "                           "
bitfld.long 0x00 1. " WKG_ENB_FOR_INTR65  ,Wakeup enable for interrupt line MPU_IRQ_65" "0,1"
bitfld.long 0x00 0. "         WKG_ENB_FOR_INTR64  ,Wakeup enable for interrupt line MPU_IRQ_64" "0,1"
group.long 0x41C++0x3
line.long 0x00 "WKG_ENB_D_1,Wake-up interrupt enable register for MPU_C1 (interrupts MPU_IRQ_96 to MPU_IRQ_127). Write 0x0: Disable interrupt. Write 0x1: Enable interrupt."
bitfld.long 0x00 31. " WKG_ENB_FOR_INTR127 ,Wakeup enable for interrupt line MPU_IRQ_127" "0,1"
bitfld.long 0x00 30. "         WKG_ENB_FOR_INTR126 ,Wakeup enable for interrupt line MPU_IRQ_126" "0,1"
bitfld.long 0x00 29. "  WKG_ENB_FOR_INTR125 ,Wakeup enable for interrupt line MPU_IRQ_125" "0,1"
textline "                           "
bitfld.long 0x00 28. " WKG_ENB_FOR_INTR124 ,Wakeup enable for interrupt line MPU_IRQ_124" "0,1"
bitfld.long 0x00 27. "         WKG_ENB_FOR_INTR123 ,Wakeup enable for interrupt line MPU_IRQ_123" "0,1"
bitfld.long 0x00 26. "  WKG_ENB_FOR_INTR122 ,Wakeup enable for interrupt line MPU_IRQ_122" "0,1"
textline "                           "
bitfld.long 0x00 25. " WKG_ENB_FOR_INTR121 ,Wakeup enable for interrupt line MPU_IRQ_121" "0,1"
bitfld.long 0x00 24. "         WKG_ENB_FOR_INTR120 ,Wakeup enable for interrupt line MPU_IRQ_120" "0,1"
bitfld.long 0x00 23. "  WKG_ENB_FOR_INTR119 ,Wakeup enable for interrupt line MPU_IRQ_119" "0,1"
textline "                           "
bitfld.long 0x00 22. " WKG_ENB_FOR_INTR118 ,Wakeup enable for interrupt line MPU_IRQ_118" "0,1"
bitfld.long 0x00 21. "         WKG_ENB_FOR_INTR117 ,Wakeup enable for interrupt line MPU_IRQ_117" "0,1"
bitfld.long 0x00 20. "  WKG_ENB_FOR_INTR116 ,Wakeup enable for interrupt line MPU_IRQ_116" "0,1"
textline "                           "
bitfld.long 0x00 19. " WKG_ENB_FOR_INTR115 ,Wakeup enable for interrupt line MPU_IRQ_115" "0,1"
bitfld.long 0x00 18. "         WKG_ENB_FOR_INTR114 ,Wakeup enable for interrupt line MPU_IRQ_114" "0,1"
bitfld.long 0x00 17. "  WKG_ENB_FOR_INTR113 ,Wakeup enable for interrupt line MPU_IRQ_113" "0,1"
textline "                           "
bitfld.long 0x00 16. " WKG_ENB_FOR_INTR112 ,Wakeup enable for interrupt line MPU_IRQ_112" "0,1"
bitfld.long 0x00 15. "         WKG_ENB_FOR_INTR111 ,Wakeup enable for interrupt line MPU_IRQ_111" "0,1"
bitfld.long 0x00 14. "  WKG_ENB_FOR_INTR110 ,Wakeup enable for interrupt line MPU_IRQ_110" "0,1"
textline "                           "
bitfld.long 0x00 13. " WKG_ENB_FOR_INTR109 ,Wakeup enable for interrupt line MPU_IRQ_109" "0,1"
bitfld.long 0x00 12. "         WKG_ENB_FOR_INTR108 ,Wakeup enable for interrupt line MPU_IRQ_108" "0,1"
bitfld.long 0x00 11. "  WKG_ENB_FOR_INTR107 ,Wakeup enable for interrupt line MPU_IRQ_107" "0,1"
textline "                           "
bitfld.long 0x00 10. " WKG_ENB_FOR_INTR106 ,Wakeup enable for interrupt line MPU_IRQ_106" "0,1"
bitfld.long 0x00 9. "         WKG_ENB_FOR_INTR105 ,Wakeup enable for interrupt line MPU_IRQ_105" "0,1"
bitfld.long 0x00 8. "  WKG_ENB_FOR_INTR104 ,Wakeup enable for interrupt line MPU_IRQ_104" "0,1"
textline "                           "
bitfld.long 0x00 7. " WKG_ENB_FOR_INTR103 ,Wakeup enable for interrupt line MPU_IRQ_103" "0,1"
bitfld.long 0x00 6. "         WKG_ENB_FOR_INTR102 ,Wakeup enable for interrupt line MPU_IRQ_102" "0,1"
bitfld.long 0x00 5. "  WKG_ENB_FOR_INTR101 ,Wakeup enable for interrupt line MPU_IRQ_101" "0,1"
textline "                           "
bitfld.long 0x00 4. " WKG_ENB_FOR_INTR100 ,Wakeup enable for interrupt line MPU_IRQ_100" "0,1"
bitfld.long 0x00 3. "         WKG_ENB_FOR_INTR99  ,Wakeup enable for interrupt line MPU_IRQ_99" "0,1"
bitfld.long 0x00 2. "  WKG_ENB_FOR_INTR98  ,Wakeup enable for interrupt line MPU_IRQ_98" "0,1"
textline "                           "
bitfld.long 0x00 1. " WKG_ENB_FOR_INTR97  ,Wakeup enable for interrupt line MPU_IRQ_97" "0,1"
bitfld.long 0x00 0. "         WKG_ENB_FOR_INTR96  ,Wakeup enable for interrupt line MPU_IRQ_96" "0,1"
group.long 0x420++0x3
line.long 0x00 "WKG_ENB_E_1,Wake-up interrupt enable register for MPU_C1 (interrupts MPU_IRQ_128 to MPU_IRQ_159). Write 0x0: Disable interrupt. Write 0x1: Enable interrupt."
bitfld.long 0x00 31. " WKG_ENB_FOR_INTR159 ,Wakeup enable for interrupt line MPU_IRQ_159" "0,1"
bitfld.long 0x00 30. "         WKG_ENB_FOR_INTR158 ,Wakeup enable for interrupt line MPU_IRQ_158" "0,1"
bitfld.long 0x00 29. "  WKG_ENB_FOR_INTR157 ,Wakeup enable for interrupt line MPU_IRQ_157" "0,1"
textline "                           "
bitfld.long 0x00 28. " WKG_ENB_FOR_INTR156 ,Wakeup enable for interrupt line MPU_IRQ_156" "0,1"
bitfld.long 0x00 27. "         WKG_ENB_FOR_INTR155 ,Wakeup enable for interrupt line MPU_IRQ_155" "0,1"
bitfld.long 0x00 26. "  WKG_ENB_FOR_INTR154 ,Wakeup enable for interrupt line MPU_IRQ_154" "0,1"
textline "                           "
bitfld.long 0x00 25. " WKG_ENB_FOR_INTR153 ,Wakeup enable for interrupt line MPU_IRQ_153" "0,1"
bitfld.long 0x00 24. "         WKG_ENB_FOR_INTR152 ,Wakeup enable for interrupt line MPU_IRQ_152" "0,1"
bitfld.long 0x00 23. "  WKG_ENB_FOR_INTR151 ,Wakeup enable for interrupt line MPU_IRQ_151" "0,1"
textline "                           "
bitfld.long 0x00 22. " WKG_ENB_FOR_INTR150 ,Wakeup enable for interrupt line MPU_IRQ_150" "0,1"
bitfld.long 0x00 21. "         WKG_ENB_FOR_INTR149 ,Wakeup enable for interrupt line MPU_IRQ_149" "0,1"
bitfld.long 0x00 20. "  WKG_ENB_FOR_INTR148 ,Wakeup enable for interrupt line MPU_IRQ_148" "0,1"
textline "                           "
bitfld.long 0x00 19. " WKG_ENB_FOR_INTR147 ,Wakeup enable for interrupt line MPU_IRQ_147" "0,1"
bitfld.long 0x00 18. "         WKG_ENB_FOR_INTR146 ,Wakeup enable for interrupt line MPU_IRQ_146" "0,1"
bitfld.long 0x00 17. "  WKG_ENB_FOR_INTR145 ,Wakeup enable for interrupt line MPU_IRQ_145" "0,1"
textline "                           "
bitfld.long 0x00 16. " WKG_ENB_FOR_INTR144 ,Wakeup enable for interrupt line MPU_IRQ_144" "0,1"
bitfld.long 0x00 15. "         WKG_ENB_FOR_INTR143 ,Wakeup enable for interrupt line MPU_IRQ_143" "0,1"
bitfld.long 0x00 14. "  WKG_ENB_FOR_INTR142 ,Wakeup enable for interrupt line MPU_IRQ_142" "0,1"
textline "                           "
bitfld.long 0x00 13. " WKG_ENB_FOR_INTR141 ,Wakeup enable for interrupt line MPU_IRQ_141" "0,1"
bitfld.long 0x00 12. "         WKG_ENB_FOR_INTR140 ,Wakeup enable for interrupt line MPU_IRQ_140" "0,1"
bitfld.long 0x00 11. "  WKG_ENB_FOR_INTR139 ,Wakeup enable for interrupt line MPU_IRQ_139" "0,1"
textline "                           "
bitfld.long 0x00 10. " WKG_ENB_FOR_INTR138 ,Wakeup enable for interrupt line MPU_IRQ_138" "0,1"
bitfld.long 0x00 9. "         WKG_ENB_FOR_INTR137 ,Wakeup enable for interrupt line MPU_IRQ_137" "0,1"
bitfld.long 0x00 8. "  WKG_ENB_FOR_INTR136 ,Wakeup enable for interrupt line MPU_IRQ_136" "0,1"
textline "                           "
bitfld.long 0x00 7. " WKG_ENB_FOR_INTR135 ,Wakeup enable for interrupt line MPU_IRQ_135" "0,1"
bitfld.long 0x00 6. "         WKG_ENB_FOR_INTR134 ,Wakeup enable for interrupt line MPU_IRQ_134" "0,1"
bitfld.long 0x00 5. "  WKG_ENB_FOR_INTR133 ,Wakeup enable for interrupt line MPU_IRQ_133" "0,1"
textline "                           "
bitfld.long 0x00 4. " WKG_ENB_FOR_INTR132 ,Wakeup enable for interrupt line MPU_IRQ_132" "0,1"
bitfld.long 0x00 3. "         WKG_ENB_FOR_INTR131 ,Wakeup enable for interrupt line MPU_IRQ_131" "0,1"
bitfld.long 0x00 2. "  WKG_ENB_FOR_INTR130 ,Wakeup enable for interrupt line MPU_IRQ_130" "0,1"
textline "                           "
bitfld.long 0x00 1. " WKG_ENB_FOR_INTR129 ,Wakeup enable for interrupt line MPU_IRQ_129" "0,1"
bitfld.long 0x00 0. "         WKG_ENB_FOR_INTR128 ,Wakeup enable for interrupt line MPU_IRQ_128" "0,1"
group.long 0x800++0x3
line.long 0x00 "AUX_CORE_BOOT_0,This register is used by the ROM code and OS during SMP boot. It is used to indicate the boot status to MPU_C1."
bitfld.long 0x00 4.--7. " MPU_C1_STATUS       ,MPU_C1 boot status. If ? 0x0, branch at the address specified inAUX_CORE_BOOT_1." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x804++0x3
line.long 0x00 "AUX_CORE_BOOT_1,This register is used by the ROM code and OS during SMP boot. It is intended to store the execution start address of MPU_C1. When needed, the SMP OS (executing on MPU_C0) stores the execution start address of MPU_C1 in, and then wakes u..."
hexmask.long 0x00 0.--31. 1. " AUX_CORE_BOOT_1     ,SMP boot register"
group.long 0x808++0x3
line.long 0x00 "STM_HWEVENTS_INV,Gives programmable control of inverting or not inverting MPUHWDBGOUT[31:0] going to HWEVENTS[31:0] input of CS_STM"
bitfld.long 0x00 31. " STM_HWEVENT_INV__31 ,Polarity inversion control for MPUHWDBGOUT31 signal." "0,1"
bitfld.long 0x00 30. "         STM_HWEVENT_INV__30 ,Polarity inversion control for MPUHWDBGOUT30 signal." "0,1"
bitfld.long 0x00 29. "  STM_HWEVENT_INV__29 ,Polarity inversion control for MPUHWDBGOUT29 signal." "0,1"
textline "                           "
bitfld.long 0x00 28. " STM_HWEVENT_INV__28 ,Polarity inversion control for MPUHWDBGOUT28 signal." "0,1"
bitfld.long 0x00 27. "         STM_HWEVENT_INV__27 ,Polarity inversion control for MPUHWDBGOUT27 signal." "0,1"
bitfld.long 0x00 26. "  STM_HWEVENT_INV__26 ,Polarity inversion control for MPUHWDBGOUT26 signal." "0,1"
textline "                           "
bitfld.long 0x00 25. " STM_HWEVENT_INV__25 ,Polarity inversion control for MPUHWDBGOUT25 signal." "0,1"
bitfld.long 0x00 24. "         STM_HWEVENT_INV__24 ,Polarity inversion control for MPUHWDBGOUT24 signal." "0,1"
bitfld.long 0x00 23. "  STM_HWEVENT_INV__23 ,Polarity inversion control for MPUHWDBGOUT23 signal." "0,1"
textline "                           "
bitfld.long 0x00 22. " STM_HWEVENT_INV__22 ,Polarity inversion control for MPUHWDBGOUT22 signal." "0,1"
bitfld.long 0x00 21. "         STM_HWEVENT_INV__21 ,Polarity inversion control for MPUHWDBGOUT21 signal." "0,1"
bitfld.long 0x00 20. "  STM_HWEVENT_INV__20 ,Polarity inversion control for MPUHWDBGOUT20 signal." "0,1"
textline "                           "
bitfld.long 0x00 19. " STM_HWEVENT_INV__19 ,Polarity inversion control for MPUHWDBGOUT19 signal." "0,1"
bitfld.long 0x00 18. "         STM_HWEVENT_INV__18 ,Polarity inversion control for MPUHWDBGOUT18 signal." "0,1"
bitfld.long 0x00 17. "  STM_HWEVENT_INV__17 ,Polarity inversion control for MPUHWDBGOUT17 signal." "0,1"
textline "                           "
bitfld.long 0x00 16. " STM_HWEVENT_INV__16 ,Polarity inversion control for MPUHWDBGOUT16 signal." "0,1"
bitfld.long 0x00 15. "         STM_HWEVENT_INV__15 ,Polarity inversion control for MPUHWDBGOUT15 signal." "0,1"
bitfld.long 0x00 14. "  STM_HWEVENT_INV__14 ,Polarity inversion control for MPUHWDBGOUT14 signal." "0,1"
textline "                           "
bitfld.long 0x00 13. " STM_HWEVENT_INV__13 ,Polarity inversion control for MPUHWDBGOUT13 signal." "0,1"
bitfld.long 0x00 12. "         STM_HWEVENT_INV__12 ,Polarity inversion control for MPUHWDBGOUT12 signal." "0,1"
bitfld.long 0x00 11. "  STM_HWEVENT_INV__11 ,Polarity inversion control for MPUHWDBGOUT11 signal." "0,1"
textline "                           "
bitfld.long 0x00 10. " STM_HWEVENT_INV__10 ,Polarity inversion control for MPUHWDBGOUT10 signal." "0,1"
bitfld.long 0x00 9. "         STM_HWEVENT_INV__9  ,Polarity inversion control for MPUHWDBGOUT9 signal." "0,1"
bitfld.long 0x00 8. "  STM_HWEVENT_INV__8  ,Polarity inversion control for MPUHWDBGOUT8 signal." "0,1"
textline "                           "
bitfld.long 0x00 7. " STM_HWEVENT_INV__7  ,Polarity inversion control for MPUHWDBGOUT7 signal." "0,1"
bitfld.long 0x00 6. "         STM_HWEVENT_INV__6  ,Polarity inversion control for MPUHWDBGOUT6 signal." "0,1"
bitfld.long 0x00 5. "  STM_HWEVENT_INV__5  ,Polarity inversion control for MPUHWDBGOUT5 signal." "0,1"
textline "                           "
bitfld.long 0x00 4. " STM_HWEVENT_INV__4  ,Polarity inversion control for MPUHWDBGOUT4 signal." "0,1"
bitfld.long 0x00 3. "         STM_HWEVENT_INV__3  ,Polarity inversion control for MPUHWDBGOUT3 signal." "0,1"
bitfld.long 0x00 2. "  STM_HWEVENT_INV__2  ,Polarity inversion control for MPUHWDBGOUT2 signal." "0,1"
textline "                           "
bitfld.long 0x00 1. " STM_HWEVENT_INV__1  ,Polarity inversion control for MPUHWDBGOUT1 signal." "0,1"
bitfld.long 0x00 0. "         STM_HWEVENT_INV_0   ,Polarity inversion control for MPUHWDBGOUT0 signal." "0,1"
group.long 0x80C++0x3
line.long 0x00 "AMBA_IF_MODE,This register controls the MPU core interface tie-off values for BI, BO, BCM and SBD. This register is located in MPU always-on domain and is reset by MPUAON_RST."
bitfld.long 0x00 5. " ES2_PM_MODE         ,Enables OFF mode behavior. 0x0 : OFF Mode 1, CPUs would enter and exit OFF mode together. 0x1 : OFF Mode 2, CPUs are allowed to enter/exit OFF mode independently." "0,1"
bitfld.long 0x00 4. "         APB_FENCE_EN        ,Enables APB fencing logic." "0,1"
bitfld.long 0x00 3. "  BI                  ,BROADCASTINNER input of MPU core." "0,1"
textline "                           "
bitfld.long 0x00 2. " BO                  ,BROADCASTOUTER input of MPU core." "0,1"
bitfld.long 0x00 1. "         BCM                 ,BROADCASTMAINTENANCE input of MPU core." "0,1"
bitfld.long 0x00 0. "  SBD                 ,SYSBARDISABLE input of MPU core." "0,1"
rgroup.long 0xC08++0x3
line.long 0x00 "TIMESTAMPCYCLELO,Lower 32 bits of the 48-bit timestamp counter value"
hexmask.long 0x00 0.--31. 1. " COUNTER_31_0        ,Lower 32 bits of the 48-bit timestamp counter value."
rgroup.long 0xC0C++0x3
line.long 0x00 "TIMESTAMPCYCLEHI,Higher 16 bits of the 48-bit timestamp counter value"
hexmask.long.word 0x00 0.--15. 1. " COUNTER_47_32       ,Higher 16 bits of the timestamp counter value."
width 0x0B
tree.end
tree "MPU_WD_TIMER"
base ad:0x482A0000
tree "REG_Bundle_0"
width 31.
group.long 0x10++0x3
line.long 0x00 "WDT_CONTROL_REGISTER_i_0,This register controls the behavior of the MPU_WD_TIMER_Cx. This register is reset by warm reset of the corresponding MPU core."
bitfld.long 0x00 8. " WARNEN            ,Warning Interrupt Enable. If this bit is set and the warning watermark test is true, a warning interrupt is generated to the MPU_INTC." "0,1"
bitfld.long 0x00 3. "         MPUSSRSTEN ,MPUSS Reset Enable. If this field is 0b1 when the timer reaches zero, a request is sent to the global PRCM to begin a global warm reset." "0,1"
bitfld.long 0x00 1. "  INTREN ,Interrupt Enable. If this field is 0b1 when the timer reaches zero, an interrupt request is sent to the MPU_INTC." "0,1"
textline "                                        "
bitfld.long 0x00 0. " ENABLE            ,Enable for MPU_WD_TIMER_Cx. 0: MPU_WD_TIMER_Cx is disabled. It will not count down and it will not generate a reset request. All MPU_WD_TIMER_Cx registers may be accessed. 1: MPU_WD_TIMER_Cx is enabled. It will count down and genera..." "0,1"
rgroup.long 0x4++0x3
line.long 0x00 "WDT_COUNT_REGISTER_i_0,This register is a 32-bit decrementing counter. The decrement rate is programmed in the. The can be read to get the current count. It decrements if the MPU_WD_TIMER_Cx is enabled ([0] ENABLE = 0x1). If the processor related to th..."
hexmask.long 0x00 0.--31. 1. " CURRENTCOUNT      ,Current count of the MPU_WD_TIMER."
group.long 0x0++0x3
line.long 0x00 "WDT_LOAD_REGISTER_i_0,When a new value is stored in this register, the is immediately loaded with this value and the prescaler state is cleared. This register is reset by warm reset of the corresponding CPU."
hexmask.long 0x00 0.--31. 1. " NEWCOUNT          ,New value to load intoWDT_COUNT_REGISTER_i."
group.long 0xC++0x3
line.long 0x00 "WDT_PRESCALER_REGISTER_i_0,This register is used to set the count rate of the MPU_WD_TIMER_Cx counter."
hexmask.long.word 0x00 0.--9. 1. " PRESCALER         ,Sets the prescaler ratio.WDT_COUNT_REGISTER_i decrements every (PRESCALER + 1) MPU_DPLL_CLK clocks. Note: If the prescaler is set to (MPU_DPLL_CLK [in MHz] - 1), the MPU_WD_TIMER_Cx counter counts at a 1 microsecond rate."
group.long 0x14++0x3
line.long 0x00 "WDT_RESET_STATUS_REGISTER_i_0,The TO bit indicated that this MPU_WD_TIMER_Cx has timed out. This might be used to figure out which MPU_WD_TIMER_Cx signalled a reset. This register is not reset by warm reset, but only by cold reset."
eventfld.long 0x00 1. " WARN              ,Warning. Indicates that the count has passed the warning watermark level while theWDT_CONTROL_REGISTER_i[8] WARNEN bit was set. Write a '1' to this bit to reset it." "0,1"
eventfld.long 0x00 0. "         TO         ,Timeout. Indicates theWDT_COUNT_REGISTER_i has reached zero (timed out) and the signalling enabled in the WDT_CONTROL_REGISTER_i has occurred. Can be used to determine which MPU_WD_TIMER_Cx instance caused a reset. Write a '1' to t..." "0,1"
group.long 0x8++0x3
line.long 0x00 "WDT_WARNING_REGISTER_i_0,The is compared to the . If is less than or equal to the and [8] WARNEN = 0b1, a warning interrupt is signalled to the MPU_INTC. The warning condition can be used to signal an interrupt that gives software a notice that the MPU..."
hexmask.long 0x00 0.--31. 1. " WARNING_WATERMARK ,A warning condition occurs when theWDT_COUNT_REGISTER_i value is less than or equal to the WDT_WARNING_REGISTER_i."
tree.end
tree "REG_Bundle_1"
width 31.
group.long 0x30++0x3
line.long 0x00 "WDT_CONTROL_REGISTER_i_1,This register controls the behavior of the MPU_WD_TIMER_Cx. This register is reset by warm reset of the corresponding MPU core."
bitfld.long 0x00 8. " WARNEN            ,Warning Interrupt Enable. If this bit is set and the warning watermark test is true, a warning interrupt is generated to the MPU_INTC." "0,1"
bitfld.long 0x00 3. "         MPUSSRSTEN ,MPUSS Reset Enable. If this field is 0b1 when the timer reaches zero, a request is sent to the global PRCM to begin a global warm reset." "0,1"
bitfld.long 0x00 1. "  INTREN ,Interrupt Enable. If this field is 0b1 when the timer reaches zero, an interrupt request is sent to the MPU_INTC." "0,1"
textline "                                        "
bitfld.long 0x00 0. " ENABLE            ,Enable for MPU_WD_TIMER_Cx. 0: MPU_WD_TIMER_Cx is disabled. It will not count down and it will not generate a reset request. All MPU_WD_TIMER_Cx registers may be accessed. 1: MPU_WD_TIMER_Cx is enabled. It will count down and genera..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "WDT_COUNT_REGISTER_i_1,This register is a 32-bit decrementing counter. The decrement rate is programmed in the. The can be read to get the current count. It decrements if the MPU_WD_TIMER_Cx is enabled ([0] ENABLE = 0x1). If the processor related to th..."
hexmask.long 0x00 0.--31. 1. " CURRENTCOUNT      ,Current count of the MPU_WD_TIMER."
group.long 0x20++0x3
line.long 0x00 "WDT_LOAD_REGISTER_i_1,When a new value is stored in this register, the is immediately loaded with this value and the prescaler state is cleared. This register is reset by warm reset of the corresponding CPU."
hexmask.long 0x00 0.--31. 1. " NEWCOUNT          ,New value to load intoWDT_COUNT_REGISTER_i."
group.long 0x2C++0x3
line.long 0x00 "WDT_PRESCALER_REGISTER_i_1,This register is used to set the count rate of the MPU_WD_TIMER_Cx counter."
hexmask.long.word 0x00 0.--9. 1. " PRESCALER         ,Sets the prescaler ratio.WDT_COUNT_REGISTER_i decrements every (PRESCALER + 1) MPU_DPLL_CLK clocks. Note: If the prescaler is set to (MPU_DPLL_CLK [in MHz] - 1), the MPU_WD_TIMER_Cx counter counts at a 1 microsecond rate."
group.long 0x34++0x3
line.long 0x00 "WDT_RESET_STATUS_REGISTER_i_1,The TO bit indicated that this MPU_WD_TIMER_Cx has timed out. This might be used to figure out which MPU_WD_TIMER_Cx signalled a reset. This register is not reset by warm reset, but only by cold reset."
eventfld.long 0x00 1. " WARN              ,Warning. Indicates that the count has passed the warning watermark level while theWDT_CONTROL_REGISTER_i[8] WARNEN bit was set. Write a '1' to this bit to reset it." "0,1"
eventfld.long 0x00 0. "         TO         ,Timeout. Indicates theWDT_COUNT_REGISTER_i has reached zero (timed out) and the signalling enabled in the WDT_CONTROL_REGISTER_i has occurred. Can be used to determine which MPU_WD_TIMER_Cx instance caused a reset. Write a '1' to t..." "0,1"
group.long 0x28++0x3
line.long 0x00 "WDT_WARNING_REGISTER_i_1,The is compared to the . If is less than or equal to the and [8] WARNEN = 0b1, a warning interrupt is signalled to the MPU_INTC. The warning condition can be used to signal an interrupt that gives software a notice that the MPU..."
hexmask.long 0x00 0.--31. 1. " WARNING_WATERMARK ,A warning condition occurs when theWDT_COUNT_REGISTER_i value is less than or equal to the WDT_WARNING_REGISTER_i."
tree.end
width 0x0B
tree.end
tree "MPU_PRCM_DEVICE"
base ad:0x48243200
width 41.
group.long 0x0++0x3
line.long 0x00 "PRM_RSTST,This register logs the global reset sources, thus contains information regarding the cold/warm reset events generated by global PRCM. Each bit is set upon release of the domain reset signal. Must be cleared by software. This register is insen..."
eventfld.long 0x00 1. " GLOBAL_WARM_RST       ,Global warm reset event generated by global PRCM - _0x0. - _0x1." "_0x0,_0x1"
eventfld.long 0x00 0. "  GLOBAL_COLD_RST    ,Power-on (cold) reset event generated by global PRCM - _0x0. - _0x1." "_0x0,_0x1"
group.long 0x4++0x3
line.long 0x00 "PRM_PSCON_COUNT,Programmable precharge count for L1cache"
bitfld.long 0x00 25. " HG_RAMPUP             ,Ramp-up mode selection of HG power chain switch - SLOW. - FAST." "SLOW,FAST"
bitfld.long 0x00 24. "  HG_EN              ,HG power chain switch enable - HG_DISABLE. - HG_ENABLE." "HG_DISABLE,HG_ENABLE"
hexmask.long.byte 0x00 16.--23. 1. "  HG_PONOUT_2_PGDOODIN_TIME ,The value set in this field determines the slow ramp-up time and the duration (number of cycles) of the PONOUTHG to PGOODINHG (transition for power domain without DPS). The duration is computed as 8 x HG_PONOUT_2_PGDOODIN_T..."
textline "                                                  "
hexmask.long.byte 0x00 0.--7. 1. " PCHARGE_TIME          ,Programmable precharge count during retention"
group.long 0x10++0x3
line.long 0x00 "PRM_FRAC_INCREMENTER_NUMERATOR,Fractional incrementor"
hexmask.long.word 0x00 16.--27. 1. " ABE_LP_MODE_NUMERATOR ,Numerator to be used in fractional incrementor when ABE_LP_CLK clock is used as PRCM clock. Reset value corresponds to ABE_LP_CLK clock = 12.288 MHz."
hexmask.long.word 0x00 0.--11. 1. "  SYS_MODE_NUMERATOR ,Numerator to be used in fractional incrementor when SYS_CLK1 is used as PRCM clock.NOTE: The reset value corresponds to SYS_CLK1 = 38.4 MHz. Because the device does not support such SYS_CLK1 frequency, it is SW responsibility to s..."
group.long 0x14++0x3
line.long 0x00 "PRM_FRAC_INCREMENTER_DENUMERATOR_RELOAD,Reload command and denominator to be used in fractional incrementor"
bitfld.long 0x00 16. " RELOAD                ,Reload counter value from coarse counter. 0->1 transition in this field is used to load the coarse counter into counter." "0,1"
hexmask.long.word 0x00 0.--11. 1. "     DENOMINATOR        ,Denominator to be used in fractional incrementor when when SYS_CLK1 is used as PRCM clock.NOTE: The reset value corresponds to SYS_CLK1 = 38.4 MHz. Because the device does not support such SYS_CLK1 frequency, it is SW responsib..."
width 0x0B
tree.end
tree.end
tree.open "DSP_Subsystem"
tree.open "DSP_SYSTEM"
tree "DSP_SYSTEM"
base ad:0x1D00000
width 33.
rgroup.long 0x0++0x3
line.long 0x00 "DSP_SYS_REVISION,"
hexmask.long 0x00 0.--31. 1. " REVISION       ,IP Revision"
rgroup.long 0x4++0x3
line.long 0x00 "DSP_SYS_HWINFO,"
hexmask.long 0x00 4.--31. 1. " INFO           ,0x0: No configurable options in subsystem."
bitfld.long 0x00 0.--3. "    NUM            ,Instance Number Set by subsystem input. In a multi-DSP system, provides a unique/incrementing values for each DSP." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x8++0x3
line.long 0x00 "DSP_SYS_SYSCONFIG,"
bitfld.long 0x00 4.--5. " STANDBYMODE    ,0x0: FORCE_STANDBY This mode is a backup mode intended to be used only if the smart-idle mode is bugged. When in this mode, the SAF asserts with minimal hardware condition the 'STANDBY' status. It is the responsibility of the software ..." "0,1,2,3"
bitfld.long 0x00 2.--3. "           IDLEMODE       ,0x0: FORCE_IDLE This mode is a backup mode intended to be used only if the smart-idle mode is bugged. When in this mode, the IAF acknowledges a request to go idle from the power manager with minimal hardware condition. It is ..." "0,1,2,3"
rgroup.long 0xC++0x3
line.long 0x00 "DSP_SYS_STAT,This register is intended to provide indication to software (including a remote host) as to whether the DSP is able to enter a low power mode."
bitfld.long 0x00 4.--5. " OCPI_DISC_STAT ,L3_MAIN (OCP) Initiator(s) Disconnect Status - . - . - ." "0,1,2,3"
bitfld.long 0x00 2. "           TC1_STAT       ,EDMA TC1 Status - IDLE. - ACTIVE." "IDLE,ACTIVE"
bitfld.long 0x00 1. "    TC0_STAT    ,EDMA TC0 Status - IDLE. - ACTIVE." "IDLE,ACTIVE"
textline "                                          "
bitfld.long 0x00 0. " C66X_STAT      ,C66x Status - IDLE. - ACTIVE." "IDLE,ACTIVE"
group.long 0x10++0x3
line.long 0x00 "DSP_SYS_DISC_CONFIG,This register is used to manually disconnect the OCP busses."
bitfld.long 0x00 0. " OCPI_DISC      ,OCP Initiator (on L3_MAIN) Disconnect request - . - . - . - ." "No_effect.,1"
group.long 0x14++0x3
line.long 0x00 "DSP_SYS_BUS_CONFIG,This register controls the burst and priority settings for the internal initiators."
bitfld.long 0x00 28.--30. " SDMA_PRI       ,Sets the CBA/VBusM Priority for the DSP C66x CorePac SDMA port. Can typically be left at default value. 0x0 is highest, ..., 0x7 is lowest priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24. "           NOPOSTOVERRIDE ,OCP Posted Write vs Non-Posted Write override - MIX. - NOPOST." "MIX,NOPOST"
bitfld.long 0x00 20.--21. "    SDMA_L2PRES ,OCP Target port L2 Interconnect Pressure. Driven on ocp mflag to control arbitration within the L2 interconnect. - . - . - . - ." "0,1,Reserved,3"
textline "                                          "
bitfld.long 0x00 16.--17. " CFG_L2PRES     ,DSP CFG L2 Interconnect Pressure. Driven on ocp mflag to control arbitration within the L2 interconnect - . - . - . - ." "0,1,Reserved,3"
bitfld.long 0x00 12.--13. "    TC1_L2PRES     ,TC1 L2 Interconnect Pressure. Driven on ocp mflag to control arbitration within the L2 interconnect - . - . - . - ." "0,1,Reserved,3"
bitfld.long 0x00 8.--9. "  TC0_L2PRES  ,TC0 L2 Interconnect Pressure. Driven on ocp mflag to control arbitration within the L2 interconnect. - . - . - . - ." "0,1,Reserved,3"
textline "                                          "
bitfld.long 0x00 4.--5. " TC1_DBS        ,TC1 Default Burst size. - . - . - . - ." "0,1,2,3"
bitfld.long 0x00 0.--1. "           TC0_DBS        ,TC0 Default Burst size - . - . - . - ." "0,1,2,3"
group.long 0x18++0x3
line.long 0x00 "DSP_SYS_MMU_CONFIG,This register is used to enable the subsystem MMUs."
bitfld.long 0x00 12. " MMU1_ABORT     ,MU1 Abort - NOABORT. - ABORT." "NOABORT,ABORT"
bitfld.long 0x00 8. "     MMU0_ABORT     ,MU0 Abort - NOABORT. - ABORT." "NOABORT,ABORT"
bitfld.long 0x00 4. "   MMU1_EN     ,MU1 Enable - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                          "
bitfld.long 0x00 0. " MMU0_EN        ,MU1 Enable - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x20++0x3
line.long 0x00 "DSP_SYS_IRQWAKEEN0,The register provides a global interrupt wakeup enable bit vector that defines which input interrupts are used to cause a wake from powerdown state (via the slave idle protocol). IRQWAKEEN0 is for interrupt inputs 63 thru 32, and IRQ..."
hexmask.long 0x00 0.--31. 1. " ENABLE         ,Wakeup Enable bit vector for interrupt #n+32 - DISABLE. - ENABLE."
group.long 0x24++0x3
line.long 0x00 "DSP_SYS_IRQWAKEEN1,The register provides a global interrupt wakeup enable bit vector that defines which input interrupts are used to cause a wake from powerdown state (via the slave idle protocol). IRQWAKEEN0 is for interrupt inputs 63 thru 32, and IRQ..."
hexmask.long 0x00 0.--31. 1. " ENABLE         ,Wakeup Enable bit vector for interrupt #n+64 - DISABLE. - ENABLE."
group.long 0x30++0x3
line.long 0x00 "DSP_SYS_DMAWAKEEN0,The register provides a global dma event wakeup enable bit vector that defines which input dma events are used to cause a wake from powerdown state (via the slave idle protocol). DMAWAKEEN0 is for dma event inputs 31 thru 0, and DMAW..."
hexmask.long 0x00 0.--31. 1. " ENABLE         ,Wakeup Enable for event #n - DISABLE. - ENABLE."
group.long 0x34++0x3
line.long 0x00 "DSP_SYS_DMAWAKEEN1,The register provides a global dma event wakeup enable bit vector that defines which input dma events are used to cause a wake from powerdown state (via the slave idle protocol). DMAWAKEEN0 is for dma event inputs 31 thru 0, and DMAW..."
hexmask.long 0x00 0.--31. 1. " ENABLE         ,Wakeup Enable for event #n+32 - DISABLE. - ENABLE."
group.long 0x40++0x3
line.long 0x00 "DSP_SYS_EVTOUT_SET,These registers can be used to drive event outputs from the DSP subsystem to a desired state."
hexmask.long 0x00 0.--31. 1. " EVENT          ,Output Event for event #n - . - . - . - ."
group.long 0x44++0x3
line.long 0x00 "DSP_SYS_EVTOUT_CLR,These registers can be used to drive event outputs from the DSP subsystem to a desired state."
hexmask.long 0x00 0.--31. 1. " EVENT          ,Output Event for event #n - . - . - . - ."
group.long 0x50++0x3
line.long 0x00 "DSP_SYS_ERRINT_IRQSTATUS_RAW,This register provides a per-event raw interrupt status vector"
hexmask.long.tbyte 0x00 0.--18. 1. " EVENT          ,Settable raw status for event #n - . - . - . - ."
group.long 0x54++0x3
line.long 0x00 "DSP_SYS_ERRINT_IRQSTATUS,This register provides a per-event enabled interrupt status vector."
hexmask.long.tbyte 0x00 0.--18. 1. " EVENT          ,Clearable, enabled status for event #n - . - . - . - ."
group.long 0x58++0x3
line.long 0x00 "DSP_SYS_ERRINT_IRQENABLE_SET,This register provides a per-event interrupt enable bit vector."
hexmask.long.tbyte 0x00 0.--18. 1. " ENABLE         ,Enable for event #n - . - . - . - ."
group.long 0x5C++0x3
line.long 0x00 "DSP_SYS_ERRINT_IRQENABLE_CLR,This register provides a per-event interrupt enable bit vector."
hexmask.long.tbyte 0x00 0.--18. 1. " ENABLE         ,Enable for event #n - . - . - . - ."
group.long 0x60++0x3
line.long 0x00 "DSP_SYS_EDMAWAKE0_IRQSTATUS_RAW,This register provides a per-event raw interrupt status vector"
hexmask.long 0x00 0.--31. 1. " EVENT          ,Settable raw status for event #n - . - . - . - ."
group.long 0x64++0x3
line.long 0x00 "DSP_SYS_EDMAWAKE0_IRQSTATUS,This register provides a per-event enabled interrupt status vector."
hexmask.long 0x00 0.--31. 1. " EVENT          ,Clearable, enabled status for event #n - . - . - . - ."
group.long 0x68++0x3
line.long 0x00 "DSP_SYS_EDMAWAKE0_IRQENABLE_SET,This register provides a per-event interrupt enable bit vector."
hexmask.long 0x00 0.--31. 1. " ENABLE         ,Enable for event #n - . - . - . - ."
group.long 0x6C++0x3
line.long 0x00 "DSP_SYS_EDMAWAKE0_IRQENABLE_CLR,This register provides a per-event interrupt enable bit vector."
hexmask.long 0x00 0.--31. 1. " ENABLE         ,Enable for event #n - . - . - . - ."
group.long 0x70++0x3
line.long 0x00 "DSP_SYS_EDMAWAKE1_IRQSTATUS_RAW,This register provides a per-event raw interrupt status vector"
hexmask.long 0x00 0.--31. 1. " EVENT          ,Settable raw status for event #n+32 - . - . - . - ."
group.long 0x74++0x3
line.long 0x00 "DSP_SYS_EDMAWAKE1_IRQSTATUS,This register provides a per-event enabled interrupt status vector."
hexmask.long 0x00 0.--31. 1. " EVENT          ,Clearable, enabled status for event #n+32 - . - . - . - ."
group.long 0x78++0x3
line.long 0x00 "DSP_SYS_EDMAWAKE1_IRQENABLE_SET,This register provides a per-event interrupt enable bit vector."
hexmask.long 0x00 0.--31. 1. " ENABLE         ,Enable for event #n+32 - . - . - . - ."
group.long 0x7C++0x3
line.long 0x00 "DSP_SYS_EDMAWAKE1_IRQENABLE_CLR,This register provides a per-event interrupt enable bit vector."
hexmask.long 0x00 0.--31. 1. " ENABLE         ,Enable for event #n+32 - . - . - . - ."
group.long 0xF8++0x3
line.long 0x00 "DSP_SYS_HW_DBGOUT_SEL,THis register is used to select which group of internal signals are mapped to the hw_dbgout output bus."
bitfld.long 0x00 0.--3. " GROUP          ,Debug Group output control mux select - . - . - . N: GN = select output group N. - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0xFC++0x3
line.long 0x00 "DSP_SYS_HW_DBGOUT_VAL,This register is used to read the value of the currently selected debug output group."
hexmask.long 0x00 0.--31. 1. " VALUE          ,Read returns state of hw_dbgout bus"
width 0x0B
tree.end
tree "DSP1_SYSTEM"
base ad:0x40D00000
width 33.
rgroup.long 0x0++0x3
line.long 0x00 "DSP_SYS_REVISION,"
hexmask.long 0x00 0.--31. 1. " REVISION       ,IP Revision"
rgroup.long 0x4++0x3
line.long 0x00 "DSP_SYS_HWINFO,"
hexmask.long 0x00 4.--31. 1. " INFO           ,0x0: No configurable options in subsystem."
bitfld.long 0x00 0.--3. "    NUM            ,Instance Number Set by subsystem input. In a multi-DSP system, provides a unique/incrementing values for each DSP." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x8++0x3
line.long 0x00 "DSP_SYS_SYSCONFIG,"
bitfld.long 0x00 4.--5. " STANDBYMODE    ,0x0: FORCE_STANDBY This mode is a backup mode intended to be used only if the smart-idle mode is bugged. When in this mode, the SAF asserts with minimal hardware condition the 'STANDBY' status. It is the responsibility of the software ..." "0,1,2,3"
bitfld.long 0x00 2.--3. "           IDLEMODE       ,0x0: FORCE_IDLE This mode is a backup mode intended to be used only if the smart-idle mode is bugged. When in this mode, the IAF acknowledges a request to go idle from the power manager with minimal hardware condition. It is ..." "0,1,2,3"
rgroup.long 0xC++0x3
line.long 0x00 "DSP_SYS_STAT,This register is intended to provide indication to software (including a remote host) as to whether the DSP is able to enter a low power mode."
bitfld.long 0x00 4.--5. " OCPI_DISC_STAT ,L3_MAIN (OCP) Initiator(s) Disconnect Status - . - . - ." "0,1,2,3"
bitfld.long 0x00 2. "           TC1_STAT       ,EDMA TC1 Status - IDLE. - ACTIVE." "IDLE,ACTIVE"
bitfld.long 0x00 1. "    TC0_STAT    ,EDMA TC0 Status - IDLE. - ACTIVE." "IDLE,ACTIVE"
textline "                                          "
bitfld.long 0x00 0. " C66X_STAT      ,C66x Status - IDLE. - ACTIVE." "IDLE,ACTIVE"
group.long 0x10++0x3
line.long 0x00 "DSP_SYS_DISC_CONFIG,This register is used to manually disconnect the OCP busses."
bitfld.long 0x00 0. " OCPI_DISC      ,OCP Initiator (on L3_MAIN) Disconnect request - . - . - . - ." "No_effect.,1"
group.long 0x14++0x3
line.long 0x00 "DSP_SYS_BUS_CONFIG,This register controls the burst and priority settings for the internal initiators."
bitfld.long 0x00 28.--30. " SDMA_PRI       ,Sets the CBA/VBusM Priority for the DSP C66x CorePac SDMA port. Can typically be left at default value. 0x0 is highest, ..., 0x7 is lowest priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24. "           NOPOSTOVERRIDE ,OCP Posted Write vs Non-Posted Write override - MIX. - NOPOST." "MIX,NOPOST"
bitfld.long 0x00 20.--21. "    SDMA_L2PRES ,OCP Target port L2 Interconnect Pressure. Driven on ocp mflag to control arbitration within the L2 interconnect. - . - . - . - ." "0,1,Reserved,3"
textline "                                          "
bitfld.long 0x00 16.--17. " CFG_L2PRES     ,DSP CFG L2 Interconnect Pressure. Driven on ocp mflag to control arbitration within the L2 interconnect - . - . - . - ." "0,1,Reserved,3"
bitfld.long 0x00 12.--13. "    TC1_L2PRES     ,TC1 L2 Interconnect Pressure. Driven on ocp mflag to control arbitration within the L2 interconnect - . - . - . - ." "0,1,Reserved,3"
bitfld.long 0x00 8.--9. "  TC0_L2PRES  ,TC0 L2 Interconnect Pressure. Driven on ocp mflag to control arbitration within the L2 interconnect. - . - . - . - ." "0,1,Reserved,3"
textline "                                          "
bitfld.long 0x00 4.--5. " TC1_DBS        ,TC1 Default Burst size. - . - . - . - ." "0,1,2,3"
bitfld.long 0x00 0.--1. "           TC0_DBS        ,TC0 Default Burst size - . - . - . - ." "0,1,2,3"
group.long 0x18++0x3
line.long 0x00 "DSP_SYS_MMU_CONFIG,This register is used to enable the subsystem MMUs."
bitfld.long 0x00 12. " MMU1_ABORT     ,MU1 Abort - NOABORT. - ABORT." "NOABORT,ABORT"
bitfld.long 0x00 8. "     MMU0_ABORT     ,MU0 Abort - NOABORT. - ABORT." "NOABORT,ABORT"
bitfld.long 0x00 4. "   MMU1_EN     ,MU1 Enable - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                          "
bitfld.long 0x00 0. " MMU0_EN        ,MU1 Enable - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x20++0x3
line.long 0x00 "DSP_SYS_IRQWAKEEN0,The register provides a global interrupt wakeup enable bit vector that defines which input interrupts are used to cause a wake from powerdown state (via the slave idle protocol). IRQWAKEEN0 is for interrupt inputs 63 thru 32, and IRQ..."
hexmask.long 0x00 0.--31. 1. " ENABLE         ,Wakeup Enable bit vector for interrupt #n+32 - DISABLE. - ENABLE."
group.long 0x24++0x3
line.long 0x00 "DSP_SYS_IRQWAKEEN1,The register provides a global interrupt wakeup enable bit vector that defines which input interrupts are used to cause a wake from powerdown state (via the slave idle protocol). IRQWAKEEN0 is for interrupt inputs 63 thru 32, and IRQ..."
hexmask.long 0x00 0.--31. 1. " ENABLE         ,Wakeup Enable bit vector for interrupt #n+64 - DISABLE. - ENABLE."
group.long 0x30++0x3
line.long 0x00 "DSP_SYS_DMAWAKEEN0,The register provides a global dma event wakeup enable bit vector that defines which input dma events are used to cause a wake from powerdown state (via the slave idle protocol). DMAWAKEEN0 is for dma event inputs 31 thru 0, and DMAW..."
hexmask.long 0x00 0.--31. 1. " ENABLE         ,Wakeup Enable for event #n - DISABLE. - ENABLE."
group.long 0x34++0x3
line.long 0x00 "DSP_SYS_DMAWAKEEN1,The register provides a global dma event wakeup enable bit vector that defines which input dma events are used to cause a wake from powerdown state (via the slave idle protocol). DMAWAKEEN0 is for dma event inputs 31 thru 0, and DMAW..."
hexmask.long 0x00 0.--31. 1. " ENABLE         ,Wakeup Enable for event #n+32 - DISABLE. - ENABLE."
group.long 0x40++0x3
line.long 0x00 "DSP_SYS_EVTOUT_SET,These registers can be used to drive event outputs from the DSP subsystem to a desired state."
hexmask.long 0x00 0.--31. 1. " EVENT          ,Output Event for event #n - . - . - . - ."
group.long 0x44++0x3
line.long 0x00 "DSP_SYS_EVTOUT_CLR,These registers can be used to drive event outputs from the DSP subsystem to a desired state."
hexmask.long 0x00 0.--31. 1. " EVENT          ,Output Event for event #n - . - . - . - ."
group.long 0x50++0x3
line.long 0x00 "DSP_SYS_ERRINT_IRQSTATUS_RAW,This register provides a per-event raw interrupt status vector"
hexmask.long.tbyte 0x00 0.--18. 1. " EVENT          ,Settable raw status for event #n - . - . - . - ."
group.long 0x54++0x3
line.long 0x00 "DSP_SYS_ERRINT_IRQSTATUS,This register provides a per-event enabled interrupt status vector."
hexmask.long.tbyte 0x00 0.--18. 1. " EVENT          ,Clearable, enabled status for event #n - . - . - . - ."
group.long 0x58++0x3
line.long 0x00 "DSP_SYS_ERRINT_IRQENABLE_SET,This register provides a per-event interrupt enable bit vector."
hexmask.long.tbyte 0x00 0.--18. 1. " ENABLE         ,Enable for event #n - . - . - . - ."
group.long 0x5C++0x3
line.long 0x00 "DSP_SYS_ERRINT_IRQENABLE_CLR,This register provides a per-event interrupt enable bit vector."
hexmask.long.tbyte 0x00 0.--18. 1. " ENABLE         ,Enable for event #n - . - . - . - ."
group.long 0x60++0x3
line.long 0x00 "DSP_SYS_EDMAWAKE0_IRQSTATUS_RAW,This register provides a per-event raw interrupt status vector"
hexmask.long 0x00 0.--31. 1. " EVENT          ,Settable raw status for event #n - . - . - . - ."
group.long 0x64++0x3
line.long 0x00 "DSP_SYS_EDMAWAKE0_IRQSTATUS,This register provides a per-event enabled interrupt status vector."
hexmask.long 0x00 0.--31. 1. " EVENT          ,Clearable, enabled status for event #n - . - . - . - ."
group.long 0x68++0x3
line.long 0x00 "DSP_SYS_EDMAWAKE0_IRQENABLE_SET,This register provides a per-event interrupt enable bit vector."
hexmask.long 0x00 0.--31. 1. " ENABLE         ,Enable for event #n - . - . - . - ."
group.long 0x6C++0x3
line.long 0x00 "DSP_SYS_EDMAWAKE0_IRQENABLE_CLR,This register provides a per-event interrupt enable bit vector."
hexmask.long 0x00 0.--31. 1. " ENABLE         ,Enable for event #n - . - . - . - ."
group.long 0x70++0x3
line.long 0x00 "DSP_SYS_EDMAWAKE1_IRQSTATUS_RAW,This register provides a per-event raw interrupt status vector"
hexmask.long 0x00 0.--31. 1. " EVENT          ,Settable raw status for event #n+32 - . - . - . - ."
group.long 0x74++0x3
line.long 0x00 "DSP_SYS_EDMAWAKE1_IRQSTATUS,This register provides a per-event enabled interrupt status vector."
hexmask.long 0x00 0.--31. 1. " EVENT          ,Clearable, enabled status for event #n+32 - . - . - . - ."
group.long 0x78++0x3
line.long 0x00 "DSP_SYS_EDMAWAKE1_IRQENABLE_SET,This register provides a per-event interrupt enable bit vector."
hexmask.long 0x00 0.--31. 1. " ENABLE         ,Enable for event #n+32 - . - . - . - ."
group.long 0x7C++0x3
line.long 0x00 "DSP_SYS_EDMAWAKE1_IRQENABLE_CLR,This register provides a per-event interrupt enable bit vector."
hexmask.long 0x00 0.--31. 1. " ENABLE         ,Enable for event #n+32 - . - . - . - ."
group.long 0xF8++0x3
line.long 0x00 "DSP_SYS_HW_DBGOUT_SEL,THis register is used to select which group of internal signals are mapped to the hw_dbgout output bus."
bitfld.long 0x00 0.--3. " GROUP          ,Debug Group output control mux select - . - . - . N: GN = select output group N. - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0xFC++0x3
line.long 0x00 "DSP_SYS_HW_DBGOUT_VAL,This register is used to read the value of the currently selected debug output group."
hexmask.long 0x00 0.--31. 1. " VALUE          ,Read returns state of hw_dbgout bus"
width 0x0B
tree.end
tree "DSP2_SYSTEM"
base ad:0x41500000
width 33.
rgroup.long 0x0++0x3
line.long 0x00 "DSP_SYS_REVISION,"
hexmask.long 0x00 0.--31. 1. " REVISION       ,IP Revision"
rgroup.long 0x4++0x3
line.long 0x00 "DSP_SYS_HWINFO,"
hexmask.long 0x00 4.--31. 1. " INFO           ,0x0: No configurable options in subsystem."
bitfld.long 0x00 0.--3. "    NUM            ,Instance Number Set by subsystem input. In a multi-DSP system, provides a unique/incrementing values for each DSP." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x8++0x3
line.long 0x00 "DSP_SYS_SYSCONFIG,"
bitfld.long 0x00 4.--5. " STANDBYMODE    ,0x0: FORCE_STANDBY This mode is a backup mode intended to be used only if the smart-idle mode is bugged. When in this mode, the SAF asserts with minimal hardware condition the 'STANDBY' status. It is the responsibility of the software ..." "0,1,2,3"
bitfld.long 0x00 2.--3. "           IDLEMODE       ,0x0: FORCE_IDLE This mode is a backup mode intended to be used only if the smart-idle mode is bugged. When in this mode, the IAF acknowledges a request to go idle from the power manager with minimal hardware condition. It is ..." "0,1,2,3"
rgroup.long 0xC++0x3
line.long 0x00 "DSP_SYS_STAT,This register is intended to provide indication to software (including a remote host) as to whether the DSP is able to enter a low power mode."
bitfld.long 0x00 4.--5. " OCPI_DISC_STAT ,L3_MAIN (OCP) Initiator(s) Disconnect Status - . - . - ." "0,1,2,3"
bitfld.long 0x00 2. "           TC1_STAT       ,EDMA TC1 Status - IDLE. - ACTIVE." "IDLE,ACTIVE"
bitfld.long 0x00 1. "    TC0_STAT    ,EDMA TC0 Status - IDLE. - ACTIVE." "IDLE,ACTIVE"
textline "                                          "
bitfld.long 0x00 0. " C66X_STAT      ,C66x Status - IDLE. - ACTIVE." "IDLE,ACTIVE"
group.long 0x10++0x3
line.long 0x00 "DSP_SYS_DISC_CONFIG,This register is used to manually disconnect the OCP busses."
bitfld.long 0x00 0. " OCPI_DISC      ,OCP Initiator (on L3_MAIN) Disconnect request - . - . - . - ." "No_effect.,1"
group.long 0x14++0x3
line.long 0x00 "DSP_SYS_BUS_CONFIG,This register controls the burst and priority settings for the internal initiators."
bitfld.long 0x00 28.--30. " SDMA_PRI       ,Sets the CBA/VBusM Priority for the DSP C66x CorePac SDMA port. Can typically be left at default value. 0x0 is highest, ..., 0x7 is lowest priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24. "           NOPOSTOVERRIDE ,OCP Posted Write vs Non-Posted Write override - MIX. - NOPOST." "MIX,NOPOST"
bitfld.long 0x00 20.--21. "    SDMA_L2PRES ,OCP Target port L2 Interconnect Pressure. Driven on ocp mflag to control arbitration within the L2 interconnect. - . - . - . - ." "0,1,Reserved,3"
textline "                                          "
bitfld.long 0x00 16.--17. " CFG_L2PRES     ,DSP CFG L2 Interconnect Pressure. Driven on ocp mflag to control arbitration within the L2 interconnect - . - . - . - ." "0,1,Reserved,3"
bitfld.long 0x00 12.--13. "    TC1_L2PRES     ,TC1 L2 Interconnect Pressure. Driven on ocp mflag to control arbitration within the L2 interconnect - . - . - . - ." "0,1,Reserved,3"
bitfld.long 0x00 8.--9. "  TC0_L2PRES  ,TC0 L2 Interconnect Pressure. Driven on ocp mflag to control arbitration within the L2 interconnect. - . - . - . - ." "0,1,Reserved,3"
textline "                                          "
bitfld.long 0x00 4.--5. " TC1_DBS        ,TC1 Default Burst size. - . - . - . - ." "0,1,2,3"
bitfld.long 0x00 0.--1. "           TC0_DBS        ,TC0 Default Burst size - . - . - . - ." "0,1,2,3"
group.long 0x18++0x3
line.long 0x00 "DSP_SYS_MMU_CONFIG,This register is used to enable the subsystem MMUs."
bitfld.long 0x00 12. " MMU1_ABORT     ,MU1 Abort - NOABORT. - ABORT." "NOABORT,ABORT"
bitfld.long 0x00 8. "     MMU0_ABORT     ,MU0 Abort - NOABORT. - ABORT." "NOABORT,ABORT"
bitfld.long 0x00 4. "   MMU1_EN     ,MU1 Enable - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                          "
bitfld.long 0x00 0. " MMU0_EN        ,MU1 Enable - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x20++0x3
line.long 0x00 "DSP_SYS_IRQWAKEEN0,The register provides a global interrupt wakeup enable bit vector that defines which input interrupts are used to cause a wake from powerdown state (via the slave idle protocol). IRQWAKEEN0 is for interrupt inputs 63 thru 32, and IRQ..."
hexmask.long 0x00 0.--31. 1. " ENABLE         ,Wakeup Enable bit vector for interrupt #n+32 - DISABLE. - ENABLE."
group.long 0x24++0x3
line.long 0x00 "DSP_SYS_IRQWAKEEN1,The register provides a global interrupt wakeup enable bit vector that defines which input interrupts are used to cause a wake from powerdown state (via the slave idle protocol). IRQWAKEEN0 is for interrupt inputs 63 thru 32, and IRQ..."
hexmask.long 0x00 0.--31. 1. " ENABLE         ,Wakeup Enable bit vector for interrupt #n+64 - DISABLE. - ENABLE."
group.long 0x30++0x3
line.long 0x00 "DSP_SYS_DMAWAKEEN0,The register provides a global dma event wakeup enable bit vector that defines which input dma events are used to cause a wake from powerdown state (via the slave idle protocol). DMAWAKEEN0 is for dma event inputs 31 thru 0, and DMAW..."
hexmask.long 0x00 0.--31. 1. " ENABLE         ,Wakeup Enable for event #n - DISABLE. - ENABLE."
group.long 0x34++0x3
line.long 0x00 "DSP_SYS_DMAWAKEEN1,The register provides a global dma event wakeup enable bit vector that defines which input dma events are used to cause a wake from powerdown state (via the slave idle protocol). DMAWAKEEN0 is for dma event inputs 31 thru 0, and DMAW..."
hexmask.long 0x00 0.--31. 1. " ENABLE         ,Wakeup Enable for event #n+32 - DISABLE. - ENABLE."
group.long 0x40++0x3
line.long 0x00 "DSP_SYS_EVTOUT_SET,These registers can be used to drive event outputs from the DSP subsystem to a desired state."
hexmask.long 0x00 0.--31. 1. " EVENT          ,Output Event for event #n - . - . - . - ."
group.long 0x44++0x3
line.long 0x00 "DSP_SYS_EVTOUT_CLR,These registers can be used to drive event outputs from the DSP subsystem to a desired state."
hexmask.long 0x00 0.--31. 1. " EVENT          ,Output Event for event #n - . - . - . - ."
group.long 0x50++0x3
line.long 0x00 "DSP_SYS_ERRINT_IRQSTATUS_RAW,This register provides a per-event raw interrupt status vector"
hexmask.long.tbyte 0x00 0.--18. 1. " EVENT          ,Settable raw status for event #n - . - . - . - ."
group.long 0x54++0x3
line.long 0x00 "DSP_SYS_ERRINT_IRQSTATUS,This register provides a per-event enabled interrupt status vector."
hexmask.long.tbyte 0x00 0.--18. 1. " EVENT          ,Clearable, enabled status for event #n - . - . - . - ."
group.long 0x58++0x3
line.long 0x00 "DSP_SYS_ERRINT_IRQENABLE_SET,This register provides a per-event interrupt enable bit vector."
hexmask.long.tbyte 0x00 0.--18. 1. " ENABLE         ,Enable for event #n - . - . - . - ."
group.long 0x5C++0x3
line.long 0x00 "DSP_SYS_ERRINT_IRQENABLE_CLR,This register provides a per-event interrupt enable bit vector."
hexmask.long.tbyte 0x00 0.--18. 1. " ENABLE         ,Enable for event #n - . - . - . - ."
group.long 0x60++0x3
line.long 0x00 "DSP_SYS_EDMAWAKE0_IRQSTATUS_RAW,This register provides a per-event raw interrupt status vector"
hexmask.long 0x00 0.--31. 1. " EVENT          ,Settable raw status for event #n - . - . - . - ."
group.long 0x64++0x3
line.long 0x00 "DSP_SYS_EDMAWAKE0_IRQSTATUS,This register provides a per-event enabled interrupt status vector."
hexmask.long 0x00 0.--31. 1. " EVENT          ,Clearable, enabled status for event #n - . - . - . - ."
group.long 0x68++0x3
line.long 0x00 "DSP_SYS_EDMAWAKE0_IRQENABLE_SET,This register provides a per-event interrupt enable bit vector."
hexmask.long 0x00 0.--31. 1. " ENABLE         ,Enable for event #n - . - . - . - ."
group.long 0x6C++0x3
line.long 0x00 "DSP_SYS_EDMAWAKE0_IRQENABLE_CLR,This register provides a per-event interrupt enable bit vector."
hexmask.long 0x00 0.--31. 1. " ENABLE         ,Enable for event #n - . - . - . - ."
group.long 0x70++0x3
line.long 0x00 "DSP_SYS_EDMAWAKE1_IRQSTATUS_RAW,This register provides a per-event raw interrupt status vector"
hexmask.long 0x00 0.--31. 1. " EVENT          ,Settable raw status for event #n+32 - . - . - . - ."
group.long 0x74++0x3
line.long 0x00 "DSP_SYS_EDMAWAKE1_IRQSTATUS,This register provides a per-event enabled interrupt status vector."
hexmask.long 0x00 0.--31. 1. " EVENT          ,Clearable, enabled status for event #n+32 - . - . - . - ."
group.long 0x78++0x3
line.long 0x00 "DSP_SYS_EDMAWAKE1_IRQENABLE_SET,This register provides a per-event interrupt enable bit vector."
hexmask.long 0x00 0.--31. 1. " ENABLE         ,Enable for event #n+32 - . - . - . - ."
group.long 0x7C++0x3
line.long 0x00 "DSP_SYS_EDMAWAKE1_IRQENABLE_CLR,This register provides a per-event interrupt enable bit vector."
hexmask.long 0x00 0.--31. 1. " ENABLE         ,Enable for event #n+32 - . - . - . - ."
group.long 0xF8++0x3
line.long 0x00 "DSP_SYS_HW_DBGOUT_SEL,THis register is used to select which group of internal signals are mapped to the hw_dbgout output bus."
bitfld.long 0x00 0.--3. " GROUP          ,Debug Group output control mux select - . - . - . N: GN = select output group N. - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0xFC++0x3
line.long 0x00 "DSP_SYS_HW_DBGOUT_VAL,This register is used to read the value of the currently selected debug output group."
hexmask.long 0x00 0.--31. 1. " VALUE          ,Read returns state of hw_dbgout bus"
width 0x0B
tree.end
tree.end
tree.open "DSP_FW_L2_NOC_CFG"
tree "DSP_FW_L2_NOC_CFG"
base ad:0x1D03000
width 77.
group.long 0x0++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU0_CTRL_TARG_OCP_FW_503000_ERROR_LOG_0,Core 0 Error log register"
bitfld.long 0x00 27. " BLK_BURST_VIOLATION ,2D burst not allowed or exceeding allowed size" "0,1"
bitfld.long 0x00 21.--25. "         REGION_START_ERRLOG ,Wrong access hit this region number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "    REGION_END_ERRLOG ,Wrong access hit this region number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                                                                      "
hexmask.long.word 0x00 0.--15. 1. " REQINFO_ERRLOG      ,Error in reqinfo vector"
rgroup.long 0x4++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU0_CTRL_TARG_OCP_FW_503000_LOGICAL_ADDR_ERRLOG_0,Core 0 Logical Physical Address Error log register"
hexmask.long 0x00 0.--27. 1. " SLVOFS_LOGICAL      ,Address generated by the ARM before being translated"
group.long 0x40++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU0_CTRL_TARG_OCP_FW_503000_REGUPDATE_CONTROL,Register update control register"
bitfld.long 0x00 1. " FW_LOAD_REQ         ,HW set/SW clear" "0,1"
bitfld.long 0x00 0. "         FW_UPDATE_REQ       ,HW set/SW clear" "0,1"
group.long 0x88++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU0_CTRL_TARG_OCP_FW_503000_MRM_PERMISSION_REGION_LOW_0,RM_PERMISSION_REGION_0_LOW register"
bitfld.long 0x00 15. " PUB_PRV_DEBUG       ,Public Privilege Domain Debug Allowed" "0,1"
bitfld.long 0x00 14. "         PUB_USR_DEBUG       ,Public User Domain Debug Allowed" "0,1"
bitfld.long 0x00 11. "     PUB_PRV_READ      ,Public Privilege Read Allowed" "0,1"
textline "                                                                                      "
bitfld.long 0x00 10. " PUB_PRV_WRITE       ,Public Privilege Write Allowed" "0,1"
bitfld.long 0x00 9. "         PUB_PRV_EXE         ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "     PUB_USR_READ      ,Public User Read Access Allowed" "0,1"
textline "                                                                                      "
bitfld.long 0x00 7. " PUB_USR_WRITE       ,Public User Write Access Allowed" "0,1"
bitfld.long 0x00 6. "         PUB_USR_EXE         ,Public User Exe Access Allowed" "0,1"
group.long 0x8C++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU0_CTRL_TARG_OCP_FW_503000_MRM_PERMISSION_REGION_HIGH_0,RM_PERMISSION_REGION_0_HIGH register"
bitfld.long 0x00 31. " W15                 ,Initiator ID15 permission" "0,1"
bitfld.long 0x00 30. "         R15                 ,Initiator ID15 permission" "0,1"
bitfld.long 0x00 29. "     W14               ,Initiator ID14 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 28. " R14                 ,Initiator ID14 permission" "0,1"
bitfld.long 0x00 27. "         W13                 ,Initiator ID13 permission" "0,1"
bitfld.long 0x00 26. "     R13               ,Initiator ID13 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 25. " W12                 ,Initiator ID12 permission" "0,1"
bitfld.long 0x00 24. "         R12                 ,Initiator ID12 permission" "0,1"
bitfld.long 0x00 23. "     W11               ,Initiator ID11 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 22. " R11                 ,Initiator ID11 permission" "0,1"
bitfld.long 0x00 21. "         W10                 ,Initiator ID10 permission" "0,1"
bitfld.long 0x00 20. "     R10               ,Initiator ID10 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 19. " W9                  ,Initiator ID9 permission" "0,1"
bitfld.long 0x00 18. "         R9                  ,Initiator ID9 permission" "0,1"
bitfld.long 0x00 17. "     W8                ,Initiator ID8 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 16. " R8                  ,Initiator ID8 permission" "0,1"
bitfld.long 0x00 15. "         W7                  ,Initiator ID7 permission" "0,1"
bitfld.long 0x00 14. "     R7                ,Initiator ID7 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 13. " W6                  ,Initiator ID6 permission" "0,1"
bitfld.long 0x00 12. "         R6                  ,Initiator ID6 permission" "0,1"
bitfld.long 0x00 11. "     W5                ,Initiator ID5 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 10. " R5                  ,Initiator ID5 permission" "0,1"
bitfld.long 0x00 9. "         W4                  ,Initiator ID4 permission" "0,1"
bitfld.long 0x00 8. "     R4                ,Initiator ID4 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 7. " W3                  ,Initiator ID3 permission" "0,1"
bitfld.long 0x00 6. "         R3                  ,Initiator ID3 permission" "0,1"
bitfld.long 0x00 5. "     W2                ,Initiator ID2 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 4. " R2                  ,Initiator ID2 permission" "0,1"
bitfld.long 0x00 3. "         W1                  ,Initiator ID1 permission" "0,1"
bitfld.long 0x00 2. "     R1                ,Initiator ID1 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 1. " W0                  ,Initiator ID0 permission" "0,1"
bitfld.long 0x00 0. "         R0                  ,Initiator ID0 permission" "0,1"
group.long 0x90++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU0_CTRL_TARG_OCP_FW_503000_START_REGION_1,Start physical address of region 1"
bitfld.long 0x00 0.--3. " START_REGION_1      ,Physical target start address of firewall region 1" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x94++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU0_CTRL_TARG_OCP_FW_503000_END_REGION_1,End physical address of region 1"
bitfld.long 0x00 31. " END_REGION_1_ENABLE ,End Region 1 enable" "0,1"
bitfld.long 0x00 0.--3. "         END_REGION_1        ,Physical target end address of firewall region 1" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x98++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU0_CTRL_TARG_OCP_FW_503000_MRM_PERMISSION_REGION_LOW_1,RM_PERMISSION_REGION_1_LOW register"
bitfld.long 0x00 15. " PUB_PRV_DEBUG       ,Public Privilege Domain Debug Allowed" "0,1"
bitfld.long 0x00 14. "         PUB_USR_DEBUG       ,Public User Domain Debug Allowed" "0,1"
bitfld.long 0x00 11. "     PUB_PRV_READ      ,Public Privilege Read Allowed" "0,1"
textline "                                                                                      "
bitfld.long 0x00 10. " PUB_PRV_WRITE       ,Public Privilege Write Allowed" "0,1"
bitfld.long 0x00 9. "         PUB_PRV_EXE         ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "     PUB_USR_READ      ,Public User Read Access Allowed" "0,1"
textline "                                                                                      "
bitfld.long 0x00 7. " PUB_USR_WRITE       ,Public User Write Access Allowed" "0,1"
bitfld.long 0x00 6. "         PUB_USR_EXE         ,Public User Exe Access Allowed" "0,1"
group.long 0x9C++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU0_CTRL_TARG_OCP_FW_503000_MRM_PERMISSION_REGION_HIGH_1,RM_PERMISSION_REGION_1_HIGH register"
bitfld.long 0x00 31. " W15                 ,Initiator ID15 permission" "0,1"
bitfld.long 0x00 30. "         R15                 ,Initiator ID15 permission" "0,1"
bitfld.long 0x00 29. "     W14               ,Initiator ID14 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 28. " R14                 ,Initiator ID14 permission" "0,1"
bitfld.long 0x00 27. "         W13                 ,Initiator ID13 permission" "0,1"
bitfld.long 0x00 26. "     R13               ,Initiator ID13 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 25. " W12                 ,Initiator ID12 permission" "0,1"
bitfld.long 0x00 24. "         R12                 ,Initiator ID12 permission" "0,1"
bitfld.long 0x00 23. "     W11               ,Initiator ID11 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 22. " R11                 ,Initiator ID11 permission" "0,1"
bitfld.long 0x00 21. "         W10                 ,Initiator ID10 permission" "0,1"
bitfld.long 0x00 20. "     R10               ,Initiator ID10 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 19. " W9                  ,Initiator ID9 permission" "0,1"
bitfld.long 0x00 18. "         R9                  ,Initiator ID9 permission" "0,1"
bitfld.long 0x00 17. "     W8                ,Initiator ID8 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 16. " R8                  ,Initiator ID8 permission" "0,1"
bitfld.long 0x00 15. "         W7                  ,Initiator ID7 permission" "0,1"
bitfld.long 0x00 14. "     R7                ,Initiator ID7 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 13. " W6                  ,Initiator ID6 permission" "0,1"
bitfld.long 0x00 12. "         R6                  ,Initiator ID6 permission" "0,1"
bitfld.long 0x00 11. "     W5                ,Initiator ID5 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 10. " R5                  ,Initiator ID5 permission" "0,1"
bitfld.long 0x00 9. "         W4                  ,Initiator ID4 permission" "0,1"
bitfld.long 0x00 8. "     R4                ,Initiator ID4 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 7. " W3                  ,Initiator ID3 permission" "0,1"
bitfld.long 0x00 6. "         R3                  ,Initiator ID3 permission" "0,1"
bitfld.long 0x00 5. "     W2                ,Initiator ID2 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 4. " R2                  ,Initiator ID2 permission" "0,1"
bitfld.long 0x00 3. "         W1                  ,Initiator ID1 permission" "0,1"
bitfld.long 0x00 2. "     R1                ,Initiator ID1 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 1. " W0                  ,Initiator ID0 permission" "0,1"
bitfld.long 0x00 0. "         R0                  ,Initiator ID0 permission" "0,1"
group.long 0x1000++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU1_CTRL_TARG_OCP_FW_504000_ERROR_LOG_0,Core 0 Error log register"
bitfld.long 0x00 27. " BLK_BURST_VIOLATION ,2D burst not allowed or exceeding allowed size" "0,1"
bitfld.long 0x00 21.--25. "         REGION_START_ERRLOG ,Wrong access hit this region number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "    REGION_END_ERRLOG ,Wrong access hit this region number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                                                                      "
hexmask.long.word 0x00 0.--15. 1. " REQINFO_ERRLOG      ,Error in reqinfo vector"
rgroup.long 0x1004++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU1_CTRL_TARG_OCP_FW_504000_LOGICAL_ADDR_ERRLOG_0,Core 0 Logical Physical Address Error log register"
hexmask.long 0x00 0.--27. 1. " SLVOFS_LOGICAL      ,Address generated by the ARM before being translated"
group.long 0x1040++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU1_CTRL_TARG_OCP_FW_504000_REGUPDATE_CONTROL,Register update control register"
bitfld.long 0x00 1. " FW_LOAD_REQ         ,HW set/SW clear" "0,1"
bitfld.long 0x00 0. "         FW_UPDATE_REQ       ,HW set/SW clear" "0,1"
group.long 0x1088++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU1_CTRL_TARG_OCP_FW_504000_MRM_PERMISSION_REGION_LOW_0,RM_PERMISSION_REGION_0_LOW register"
bitfld.long 0x00 15. " PUB_PRV_DEBUG       ,Public Privilege Domain Debug Allowed" "0,1"
bitfld.long 0x00 14. "         PUB_USR_DEBUG       ,Public User Domain Debug Allowed" "0,1"
bitfld.long 0x00 11. "     PUB_PRV_READ      ,Public Privilege Read Allowed" "0,1"
textline "                                                                                      "
bitfld.long 0x00 10. " PUB_PRV_WRITE       ,Public Privilege Write Allowed" "0,1"
bitfld.long 0x00 9. "         PUB_PRV_EXE         ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "     PUB_USR_READ      ,Public User Read Access Allowed" "0,1"
textline "                                                                                      "
bitfld.long 0x00 7. " PUB_USR_WRITE       ,Public User Write Access Allowed" "0,1"
bitfld.long 0x00 6. "         PUB_USR_EXE         ,Public User Exe Access Allowed" "0,1"
group.long 0x108C++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU1_CTRL_TARG_OCP_FW_504000_MRM_PERMISSION_REGION_HIGH_0,RM_PERMISSION_REGION_0_HIGH register"
bitfld.long 0x00 31. " W15                 ,Initiator ID15 permission" "0,1"
bitfld.long 0x00 30. "         R15                 ,Initiator ID15 permission" "0,1"
bitfld.long 0x00 29. "     W14               ,Initiator ID14 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 28. " R14                 ,Initiator ID14 permission" "0,1"
bitfld.long 0x00 27. "         W13                 ,Initiator ID13 permission" "0,1"
bitfld.long 0x00 26. "     R13               ,Initiator ID13 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 25. " W12                 ,Initiator ID12 permission" "0,1"
bitfld.long 0x00 24. "         R12                 ,Initiator ID12 permission" "0,1"
bitfld.long 0x00 23. "     W11               ,Initiator ID11 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 22. " R11                 ,Initiator ID11 permission" "0,1"
bitfld.long 0x00 21. "         W10                 ,Initiator ID10 permission" "0,1"
bitfld.long 0x00 20. "     R10               ,Initiator ID10 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 19. " W9                  ,Initiator ID9 permission" "0,1"
bitfld.long 0x00 18. "         R9                  ,Initiator ID9 permission" "0,1"
bitfld.long 0x00 17. "     W8                ,Initiator ID8 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 16. " R8                  ,Initiator ID8 permission" "0,1"
bitfld.long 0x00 15. "         W7                  ,Initiator ID7 permission" "0,1"
bitfld.long 0x00 14. "     R7                ,Initiator ID7 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 13. " W6                  ,Initiator ID6 permission" "0,1"
bitfld.long 0x00 12. "         R6                  ,Initiator ID6 permission" "0,1"
bitfld.long 0x00 11. "     W5                ,Initiator ID5 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 10. " R5                  ,Initiator ID5 permission" "0,1"
bitfld.long 0x00 9. "         W4                  ,Initiator ID4 permission" "0,1"
bitfld.long 0x00 8. "     R4                ,Initiator ID4 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 7. " W3                  ,Initiator ID3 permission" "0,1"
bitfld.long 0x00 6. "         R3                  ,Initiator ID3 permission" "0,1"
bitfld.long 0x00 5. "     W2                ,Initiator ID2 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 4. " R2                  ,Initiator ID2 permission" "0,1"
bitfld.long 0x00 3. "         W1                  ,Initiator ID1 permission" "0,1"
bitfld.long 0x00 2. "     R1                ,Initiator ID1 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 1. " W0                  ,Initiator ID0 permission" "0,1"
bitfld.long 0x00 0. "         R0                  ,Initiator ID0 permission" "0,1"
rgroup.long 0x4000++0x3
line.long 0x00 "DSPNOC_FLAGMUX_ID_COREID,"
hexmask.long.tbyte 0x00 8.--31. 1. " CORECHECKSUM        ,Field containing a checksum of the parameters of the IP."
hexmask.long.byte 0x00 0.--7. 1. "    CORETYPEID          ,Field identifying the type of IP."
rgroup.long 0x4004++0x3
line.long 0x00 "DSPNOC_FLAGMUX_ID_REVISIONID,"
hexmask.long 0x00 0.--31. 1. " REVISION            ,IP Revision."
group.long 0x4008++0x3
line.long 0x00 "DSPNOC_FLAGMUX_FAULTEN,"
bitfld.long 0x00 0. " FAULTEN             ,Global Fault Enable register" "0,1"
rgroup.long 0x400C++0x3
line.long 0x00 "DSPNOC_FLAGMUX_FAULTSTATUS,"
bitfld.long 0x00 0. " FAULTSTATUS         ,Global Fault Status register" "0,1"
group.long 0x4010++0x3
line.long 0x00 "DSPNOC_FLAGMUX_FLAGINEN0,"
bitfld.long 0x00 0. " FLAGINEN0           ,FlagIn Enable register #0" "0,1"
rgroup.long 0x4014++0x3
line.long 0x00 "DSPNOC_FLAGMUX_FLAGINSTATUS0,"
bitfld.long 0x00 0. " FLAGINSTATUS0       ,FlagIn Status register #0" "0,1"
rgroup.long 0x4200++0x3
line.long 0x00 "DSPNOC_ERRORLOG_ID_COREID,"
hexmask.long.tbyte 0x00 8.--31. 1. " CORECHECKSUM        ,Field containing a checksum of the parameters of the IP."
hexmask.long.byte 0x00 0.--7. 1. "    CORETYPEID          ,Field identifying the type of IP."
rgroup.long 0x4204++0x3
line.long 0x00 "DSPNOC_ERRORLOG_ID_REVISIONID,"
hexmask.long 0x00 0.--31. 1. " REVISION            ,IP Revision."
group.long 0x4208++0x3
line.long 0x00 "DSPNOC_ERRORLOG_FAULTEN,"
bitfld.long 0x00 0. " FAULTEN             ,Enable Fault output" "0,1"
rgroup.long 0x420C++0x3
line.long 0x00 "DSPNOC_ERRORLOG_ERRVLD,"
bitfld.long 0x00 0. " ERRVLD              ,Error logged Valid" "0,1"
group.long 0x4210++0x3
line.long 0x00 "DSPNOC_ERRORLOG_ERRCLR,"
bitfld.long 0x00 0. " ERRCLR              ,Clr ErrVld status" "0,1"
rgroup.long 0x4214++0x3
line.long 0x00 "DSPNOC_ERRORLOG_ERRLOG0,Header: Lock, Opcode, Len1, ErrCode values"
bitfld.long 0x00 31. " FORMAT              ,Format of ErrLog0 register" "0,1"
hexmask.long.word 0x00 16.--27. 1. "         LEN1                ,Header: Len1 value"
bitfld.long 0x00 8.--10. "  ERRCODE           ,Header: Error Code value" "0,1,2,3,4,5,6,7"
textline "                                                                                      "
bitfld.long 0x00 1.--4. " OPC                 ,Header: Opcode value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0. "        LOCK                ,Header: Lock bit value" "0,1"
rgroup.long 0x4218++0x3
line.long 0x00 "DSPNOC_ERRORLOG_ERRLOG1,"
hexmask.long.word 0x00 0.--14. 1. " ERRLOG1             ,Header: RouteId lsb value"
rgroup.long 0x4220++0x3
line.long 0x00 "DSPNOC_ERRORLOG_ERRLOG3,"
hexmask.long 0x00 0.--30. 1. " ERRLOG3             ,Header: Addr lsb value"
rgroup.long 0x4228++0x3
line.long 0x00 "DSPNOC_ERRORLOG_ERRLOG5,"
hexmask.long.tbyte 0x00 0.--21. 1. " ERRLOG5             ,Header: User lsb value"
width 0x0B
tree.end
tree "DSP1_FW_L2_NOC_CFG"
base ad:0x40D03000
width 77.
group.long 0x0++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU0_CTRL_TARG_OCP_FW_503000_ERROR_LOG_0,Core 0 Error log register"
bitfld.long 0x00 27. " BLK_BURST_VIOLATION ,2D burst not allowed or exceeding allowed size" "0,1"
bitfld.long 0x00 21.--25. "         REGION_START_ERRLOG ,Wrong access hit this region number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "    REGION_END_ERRLOG ,Wrong access hit this region number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                                                                      "
hexmask.long.word 0x00 0.--15. 1. " REQINFO_ERRLOG      ,Error in reqinfo vector"
rgroup.long 0x4++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU0_CTRL_TARG_OCP_FW_503000_LOGICAL_ADDR_ERRLOG_0,Core 0 Logical Physical Address Error log register"
hexmask.long 0x00 0.--27. 1. " SLVOFS_LOGICAL      ,Address generated by the ARM before being translated"
group.long 0x40++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU0_CTRL_TARG_OCP_FW_503000_REGUPDATE_CONTROL,Register update control register"
bitfld.long 0x00 1. " FW_LOAD_REQ         ,HW set/SW clear" "0,1"
bitfld.long 0x00 0. "         FW_UPDATE_REQ       ,HW set/SW clear" "0,1"
group.long 0x88++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU0_CTRL_TARG_OCP_FW_503000_MRM_PERMISSION_REGION_LOW_0,RM_PERMISSION_REGION_0_LOW register"
bitfld.long 0x00 15. " PUB_PRV_DEBUG       ,Public Privilege Domain Debug Allowed" "0,1"
bitfld.long 0x00 14. "         PUB_USR_DEBUG       ,Public User Domain Debug Allowed" "0,1"
bitfld.long 0x00 11. "     PUB_PRV_READ      ,Public Privilege Read Allowed" "0,1"
textline "                                                                                      "
bitfld.long 0x00 10. " PUB_PRV_WRITE       ,Public Privilege Write Allowed" "0,1"
bitfld.long 0x00 9. "         PUB_PRV_EXE         ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "     PUB_USR_READ      ,Public User Read Access Allowed" "0,1"
textline "                                                                                      "
bitfld.long 0x00 7. " PUB_USR_WRITE       ,Public User Write Access Allowed" "0,1"
bitfld.long 0x00 6. "         PUB_USR_EXE         ,Public User Exe Access Allowed" "0,1"
group.long 0x8C++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU0_CTRL_TARG_OCP_FW_503000_MRM_PERMISSION_REGION_HIGH_0,RM_PERMISSION_REGION_0_HIGH register"
bitfld.long 0x00 31. " W15                 ,Initiator ID15 permission" "0,1"
bitfld.long 0x00 30. "         R15                 ,Initiator ID15 permission" "0,1"
bitfld.long 0x00 29. "     W14               ,Initiator ID14 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 28. " R14                 ,Initiator ID14 permission" "0,1"
bitfld.long 0x00 27. "         W13                 ,Initiator ID13 permission" "0,1"
bitfld.long 0x00 26. "     R13               ,Initiator ID13 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 25. " W12                 ,Initiator ID12 permission" "0,1"
bitfld.long 0x00 24. "         R12                 ,Initiator ID12 permission" "0,1"
bitfld.long 0x00 23. "     W11               ,Initiator ID11 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 22. " R11                 ,Initiator ID11 permission" "0,1"
bitfld.long 0x00 21. "         W10                 ,Initiator ID10 permission" "0,1"
bitfld.long 0x00 20. "     R10               ,Initiator ID10 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 19. " W9                  ,Initiator ID9 permission" "0,1"
bitfld.long 0x00 18. "         R9                  ,Initiator ID9 permission" "0,1"
bitfld.long 0x00 17. "     W8                ,Initiator ID8 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 16. " R8                  ,Initiator ID8 permission" "0,1"
bitfld.long 0x00 15. "         W7                  ,Initiator ID7 permission" "0,1"
bitfld.long 0x00 14. "     R7                ,Initiator ID7 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 13. " W6                  ,Initiator ID6 permission" "0,1"
bitfld.long 0x00 12. "         R6                  ,Initiator ID6 permission" "0,1"
bitfld.long 0x00 11. "     W5                ,Initiator ID5 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 10. " R5                  ,Initiator ID5 permission" "0,1"
bitfld.long 0x00 9. "         W4                  ,Initiator ID4 permission" "0,1"
bitfld.long 0x00 8. "     R4                ,Initiator ID4 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 7. " W3                  ,Initiator ID3 permission" "0,1"
bitfld.long 0x00 6. "         R3                  ,Initiator ID3 permission" "0,1"
bitfld.long 0x00 5. "     W2                ,Initiator ID2 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 4. " R2                  ,Initiator ID2 permission" "0,1"
bitfld.long 0x00 3. "         W1                  ,Initiator ID1 permission" "0,1"
bitfld.long 0x00 2. "     R1                ,Initiator ID1 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 1. " W0                  ,Initiator ID0 permission" "0,1"
bitfld.long 0x00 0. "         R0                  ,Initiator ID0 permission" "0,1"
group.long 0x90++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU0_CTRL_TARG_OCP_FW_503000_START_REGION_1,Start physical address of region 1"
bitfld.long 0x00 0.--3. " START_REGION_1      ,Physical target start address of firewall region 1" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x94++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU0_CTRL_TARG_OCP_FW_503000_END_REGION_1,End physical address of region 1"
bitfld.long 0x00 31. " END_REGION_1_ENABLE ,End Region 1 enable" "0,1"
bitfld.long 0x00 0.--3. "         END_REGION_1        ,Physical target end address of firewall region 1" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x98++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU0_CTRL_TARG_OCP_FW_503000_MRM_PERMISSION_REGION_LOW_1,RM_PERMISSION_REGION_1_LOW register"
bitfld.long 0x00 15. " PUB_PRV_DEBUG       ,Public Privilege Domain Debug Allowed" "0,1"
bitfld.long 0x00 14. "         PUB_USR_DEBUG       ,Public User Domain Debug Allowed" "0,1"
bitfld.long 0x00 11. "     PUB_PRV_READ      ,Public Privilege Read Allowed" "0,1"
textline "                                                                                      "
bitfld.long 0x00 10. " PUB_PRV_WRITE       ,Public Privilege Write Allowed" "0,1"
bitfld.long 0x00 9. "         PUB_PRV_EXE         ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "     PUB_USR_READ      ,Public User Read Access Allowed" "0,1"
textline "                                                                                      "
bitfld.long 0x00 7. " PUB_USR_WRITE       ,Public User Write Access Allowed" "0,1"
bitfld.long 0x00 6. "         PUB_USR_EXE         ,Public User Exe Access Allowed" "0,1"
group.long 0x9C++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU0_CTRL_TARG_OCP_FW_503000_MRM_PERMISSION_REGION_HIGH_1,RM_PERMISSION_REGION_1_HIGH register"
bitfld.long 0x00 31. " W15                 ,Initiator ID15 permission" "0,1"
bitfld.long 0x00 30. "         R15                 ,Initiator ID15 permission" "0,1"
bitfld.long 0x00 29. "     W14               ,Initiator ID14 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 28. " R14                 ,Initiator ID14 permission" "0,1"
bitfld.long 0x00 27. "         W13                 ,Initiator ID13 permission" "0,1"
bitfld.long 0x00 26. "     R13               ,Initiator ID13 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 25. " W12                 ,Initiator ID12 permission" "0,1"
bitfld.long 0x00 24. "         R12                 ,Initiator ID12 permission" "0,1"
bitfld.long 0x00 23. "     W11               ,Initiator ID11 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 22. " R11                 ,Initiator ID11 permission" "0,1"
bitfld.long 0x00 21. "         W10                 ,Initiator ID10 permission" "0,1"
bitfld.long 0x00 20. "     R10               ,Initiator ID10 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 19. " W9                  ,Initiator ID9 permission" "0,1"
bitfld.long 0x00 18. "         R9                  ,Initiator ID9 permission" "0,1"
bitfld.long 0x00 17. "     W8                ,Initiator ID8 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 16. " R8                  ,Initiator ID8 permission" "0,1"
bitfld.long 0x00 15. "         W7                  ,Initiator ID7 permission" "0,1"
bitfld.long 0x00 14. "     R7                ,Initiator ID7 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 13. " W6                  ,Initiator ID6 permission" "0,1"
bitfld.long 0x00 12. "         R6                  ,Initiator ID6 permission" "0,1"
bitfld.long 0x00 11. "     W5                ,Initiator ID5 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 10. " R5                  ,Initiator ID5 permission" "0,1"
bitfld.long 0x00 9. "         W4                  ,Initiator ID4 permission" "0,1"
bitfld.long 0x00 8. "     R4                ,Initiator ID4 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 7. " W3                  ,Initiator ID3 permission" "0,1"
bitfld.long 0x00 6. "         R3                  ,Initiator ID3 permission" "0,1"
bitfld.long 0x00 5. "     W2                ,Initiator ID2 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 4. " R2                  ,Initiator ID2 permission" "0,1"
bitfld.long 0x00 3. "         W1                  ,Initiator ID1 permission" "0,1"
bitfld.long 0x00 2. "     R1                ,Initiator ID1 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 1. " W0                  ,Initiator ID0 permission" "0,1"
bitfld.long 0x00 0. "         R0                  ,Initiator ID0 permission" "0,1"
group.long 0x1000++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU1_CTRL_TARG_OCP_FW_504000_ERROR_LOG_0,Core 0 Error log register"
bitfld.long 0x00 27. " BLK_BURST_VIOLATION ,2D burst not allowed or exceeding allowed size" "0,1"
bitfld.long 0x00 21.--25. "         REGION_START_ERRLOG ,Wrong access hit this region number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "    REGION_END_ERRLOG ,Wrong access hit this region number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                                                                      "
hexmask.long.word 0x00 0.--15. 1. " REQINFO_ERRLOG      ,Error in reqinfo vector"
rgroup.long 0x1004++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU1_CTRL_TARG_OCP_FW_504000_LOGICAL_ADDR_ERRLOG_0,Core 0 Logical Physical Address Error log register"
hexmask.long 0x00 0.--27. 1. " SLVOFS_LOGICAL      ,Address generated by the ARM before being translated"
group.long 0x1040++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU1_CTRL_TARG_OCP_FW_504000_REGUPDATE_CONTROL,Register update control register"
bitfld.long 0x00 1. " FW_LOAD_REQ         ,HW set/SW clear" "0,1"
bitfld.long 0x00 0. "         FW_UPDATE_REQ       ,HW set/SW clear" "0,1"
group.long 0x1088++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU1_CTRL_TARG_OCP_FW_504000_MRM_PERMISSION_REGION_LOW_0,RM_PERMISSION_REGION_0_LOW register"
bitfld.long 0x00 15. " PUB_PRV_DEBUG       ,Public Privilege Domain Debug Allowed" "0,1"
bitfld.long 0x00 14. "         PUB_USR_DEBUG       ,Public User Domain Debug Allowed" "0,1"
bitfld.long 0x00 11. "     PUB_PRV_READ      ,Public Privilege Read Allowed" "0,1"
textline "                                                                                      "
bitfld.long 0x00 10. " PUB_PRV_WRITE       ,Public Privilege Write Allowed" "0,1"
bitfld.long 0x00 9. "         PUB_PRV_EXE         ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "     PUB_USR_READ      ,Public User Read Access Allowed" "0,1"
textline "                                                                                      "
bitfld.long 0x00 7. " PUB_USR_WRITE       ,Public User Write Access Allowed" "0,1"
bitfld.long 0x00 6. "         PUB_USR_EXE         ,Public User Exe Access Allowed" "0,1"
group.long 0x108C++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU1_CTRL_TARG_OCP_FW_504000_MRM_PERMISSION_REGION_HIGH_0,RM_PERMISSION_REGION_0_HIGH register"
bitfld.long 0x00 31. " W15                 ,Initiator ID15 permission" "0,1"
bitfld.long 0x00 30. "         R15                 ,Initiator ID15 permission" "0,1"
bitfld.long 0x00 29. "     W14               ,Initiator ID14 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 28. " R14                 ,Initiator ID14 permission" "0,1"
bitfld.long 0x00 27. "         W13                 ,Initiator ID13 permission" "0,1"
bitfld.long 0x00 26. "     R13               ,Initiator ID13 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 25. " W12                 ,Initiator ID12 permission" "0,1"
bitfld.long 0x00 24. "         R12                 ,Initiator ID12 permission" "0,1"
bitfld.long 0x00 23. "     W11               ,Initiator ID11 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 22. " R11                 ,Initiator ID11 permission" "0,1"
bitfld.long 0x00 21. "         W10                 ,Initiator ID10 permission" "0,1"
bitfld.long 0x00 20. "     R10               ,Initiator ID10 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 19. " W9                  ,Initiator ID9 permission" "0,1"
bitfld.long 0x00 18. "         R9                  ,Initiator ID9 permission" "0,1"
bitfld.long 0x00 17. "     W8                ,Initiator ID8 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 16. " R8                  ,Initiator ID8 permission" "0,1"
bitfld.long 0x00 15. "         W7                  ,Initiator ID7 permission" "0,1"
bitfld.long 0x00 14. "     R7                ,Initiator ID7 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 13. " W6                  ,Initiator ID6 permission" "0,1"
bitfld.long 0x00 12. "         R6                  ,Initiator ID6 permission" "0,1"
bitfld.long 0x00 11. "     W5                ,Initiator ID5 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 10. " R5                  ,Initiator ID5 permission" "0,1"
bitfld.long 0x00 9. "         W4                  ,Initiator ID4 permission" "0,1"
bitfld.long 0x00 8. "     R4                ,Initiator ID4 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 7. " W3                  ,Initiator ID3 permission" "0,1"
bitfld.long 0x00 6. "         R3                  ,Initiator ID3 permission" "0,1"
bitfld.long 0x00 5. "     W2                ,Initiator ID2 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 4. " R2                  ,Initiator ID2 permission" "0,1"
bitfld.long 0x00 3. "         W1                  ,Initiator ID1 permission" "0,1"
bitfld.long 0x00 2. "     R1                ,Initiator ID1 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 1. " W0                  ,Initiator ID0 permission" "0,1"
bitfld.long 0x00 0. "         R0                  ,Initiator ID0 permission" "0,1"
rgroup.long 0x4000++0x3
line.long 0x00 "DSPNOC_FLAGMUX_ID_COREID,"
hexmask.long.tbyte 0x00 8.--31. 1. " CORECHECKSUM        ,Field containing a checksum of the parameters of the IP."
hexmask.long.byte 0x00 0.--7. 1. "    CORETYPEID          ,Field identifying the type of IP."
rgroup.long 0x4004++0x3
line.long 0x00 "DSPNOC_FLAGMUX_ID_REVISIONID,"
hexmask.long 0x00 0.--31. 1. " REVISION            ,IP Revision."
group.long 0x4008++0x3
line.long 0x00 "DSPNOC_FLAGMUX_FAULTEN,"
bitfld.long 0x00 0. " FAULTEN             ,Global Fault Enable register" "0,1"
rgroup.long 0x400C++0x3
line.long 0x00 "DSPNOC_FLAGMUX_FAULTSTATUS,"
bitfld.long 0x00 0. " FAULTSTATUS         ,Global Fault Status register" "0,1"
group.long 0x4010++0x3
line.long 0x00 "DSPNOC_FLAGMUX_FLAGINEN0,"
bitfld.long 0x00 0. " FLAGINEN0           ,FlagIn Enable register #0" "0,1"
rgroup.long 0x4014++0x3
line.long 0x00 "DSPNOC_FLAGMUX_FLAGINSTATUS0,"
bitfld.long 0x00 0. " FLAGINSTATUS0       ,FlagIn Status register #0" "0,1"
rgroup.long 0x4200++0x3
line.long 0x00 "DSPNOC_ERRORLOG_ID_COREID,"
hexmask.long.tbyte 0x00 8.--31. 1. " CORECHECKSUM        ,Field containing a checksum of the parameters of the IP."
hexmask.long.byte 0x00 0.--7. 1. "    CORETYPEID          ,Field identifying the type of IP."
rgroup.long 0x4204++0x3
line.long 0x00 "DSPNOC_ERRORLOG_ID_REVISIONID,"
hexmask.long 0x00 0.--31. 1. " REVISION            ,IP Revision."
group.long 0x4208++0x3
line.long 0x00 "DSPNOC_ERRORLOG_FAULTEN,"
bitfld.long 0x00 0. " FAULTEN             ,Enable Fault output" "0,1"
rgroup.long 0x420C++0x3
line.long 0x00 "DSPNOC_ERRORLOG_ERRVLD,"
bitfld.long 0x00 0. " ERRVLD              ,Error logged Valid" "0,1"
group.long 0x4210++0x3
line.long 0x00 "DSPNOC_ERRORLOG_ERRCLR,"
bitfld.long 0x00 0. " ERRCLR              ,Clr ErrVld status" "0,1"
rgroup.long 0x4214++0x3
line.long 0x00 "DSPNOC_ERRORLOG_ERRLOG0,Header: Lock, Opcode, Len1, ErrCode values"
bitfld.long 0x00 31. " FORMAT              ,Format of ErrLog0 register" "0,1"
hexmask.long.word 0x00 16.--27. 1. "         LEN1                ,Header: Len1 value"
bitfld.long 0x00 8.--10. "  ERRCODE           ,Header: Error Code value" "0,1,2,3,4,5,6,7"
textline "                                                                                      "
bitfld.long 0x00 1.--4. " OPC                 ,Header: Opcode value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0. "        LOCK                ,Header: Lock bit value" "0,1"
rgroup.long 0x4218++0x3
line.long 0x00 "DSPNOC_ERRORLOG_ERRLOG1,"
hexmask.long.word 0x00 0.--14. 1. " ERRLOG1             ,Header: RouteId lsb value"
rgroup.long 0x4220++0x3
line.long 0x00 "DSPNOC_ERRORLOG_ERRLOG3,"
hexmask.long 0x00 0.--30. 1. " ERRLOG3             ,Header: Addr lsb value"
rgroup.long 0x4228++0x3
line.long 0x00 "DSPNOC_ERRORLOG_ERRLOG5,"
hexmask.long.tbyte 0x00 0.--21. 1. " ERRLOG5             ,Header: User lsb value"
width 0x0B
tree.end
tree "DSP2_FW_L2_NOC_CFG"
base ad:0x41503000
width 77.
group.long 0x0++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU0_CTRL_TARG_OCP_FW_503000_ERROR_LOG_0,Core 0 Error log register"
bitfld.long 0x00 27. " BLK_BURST_VIOLATION ,2D burst not allowed or exceeding allowed size" "0,1"
bitfld.long 0x00 21.--25. "         REGION_START_ERRLOG ,Wrong access hit this region number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "    REGION_END_ERRLOG ,Wrong access hit this region number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                                                                      "
hexmask.long.word 0x00 0.--15. 1. " REQINFO_ERRLOG      ,Error in reqinfo vector"
rgroup.long 0x4++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU0_CTRL_TARG_OCP_FW_503000_LOGICAL_ADDR_ERRLOG_0,Core 0 Logical Physical Address Error log register"
hexmask.long 0x00 0.--27. 1. " SLVOFS_LOGICAL      ,Address generated by the ARM before being translated"
group.long 0x40++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU0_CTRL_TARG_OCP_FW_503000_REGUPDATE_CONTROL,Register update control register"
bitfld.long 0x00 1. " FW_LOAD_REQ         ,HW set/SW clear" "0,1"
bitfld.long 0x00 0. "         FW_UPDATE_REQ       ,HW set/SW clear" "0,1"
group.long 0x88++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU0_CTRL_TARG_OCP_FW_503000_MRM_PERMISSION_REGION_LOW_0,RM_PERMISSION_REGION_0_LOW register"
bitfld.long 0x00 15. " PUB_PRV_DEBUG       ,Public Privilege Domain Debug Allowed" "0,1"
bitfld.long 0x00 14. "         PUB_USR_DEBUG       ,Public User Domain Debug Allowed" "0,1"
bitfld.long 0x00 11. "     PUB_PRV_READ      ,Public Privilege Read Allowed" "0,1"
textline "                                                                                      "
bitfld.long 0x00 10. " PUB_PRV_WRITE       ,Public Privilege Write Allowed" "0,1"
bitfld.long 0x00 9. "         PUB_PRV_EXE         ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "     PUB_USR_READ      ,Public User Read Access Allowed" "0,1"
textline "                                                                                      "
bitfld.long 0x00 7. " PUB_USR_WRITE       ,Public User Write Access Allowed" "0,1"
bitfld.long 0x00 6. "         PUB_USR_EXE         ,Public User Exe Access Allowed" "0,1"
group.long 0x8C++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU0_CTRL_TARG_OCP_FW_503000_MRM_PERMISSION_REGION_HIGH_0,RM_PERMISSION_REGION_0_HIGH register"
bitfld.long 0x00 31. " W15                 ,Initiator ID15 permission" "0,1"
bitfld.long 0x00 30. "         R15                 ,Initiator ID15 permission" "0,1"
bitfld.long 0x00 29. "     W14               ,Initiator ID14 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 28. " R14                 ,Initiator ID14 permission" "0,1"
bitfld.long 0x00 27. "         W13                 ,Initiator ID13 permission" "0,1"
bitfld.long 0x00 26. "     R13               ,Initiator ID13 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 25. " W12                 ,Initiator ID12 permission" "0,1"
bitfld.long 0x00 24. "         R12                 ,Initiator ID12 permission" "0,1"
bitfld.long 0x00 23. "     W11               ,Initiator ID11 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 22. " R11                 ,Initiator ID11 permission" "0,1"
bitfld.long 0x00 21. "         W10                 ,Initiator ID10 permission" "0,1"
bitfld.long 0x00 20. "     R10               ,Initiator ID10 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 19. " W9                  ,Initiator ID9 permission" "0,1"
bitfld.long 0x00 18. "         R9                  ,Initiator ID9 permission" "0,1"
bitfld.long 0x00 17. "     W8                ,Initiator ID8 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 16. " R8                  ,Initiator ID8 permission" "0,1"
bitfld.long 0x00 15. "         W7                  ,Initiator ID7 permission" "0,1"
bitfld.long 0x00 14. "     R7                ,Initiator ID7 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 13. " W6                  ,Initiator ID6 permission" "0,1"
bitfld.long 0x00 12. "         R6                  ,Initiator ID6 permission" "0,1"
bitfld.long 0x00 11. "     W5                ,Initiator ID5 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 10. " R5                  ,Initiator ID5 permission" "0,1"
bitfld.long 0x00 9. "         W4                  ,Initiator ID4 permission" "0,1"
bitfld.long 0x00 8. "     R4                ,Initiator ID4 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 7. " W3                  ,Initiator ID3 permission" "0,1"
bitfld.long 0x00 6. "         R3                  ,Initiator ID3 permission" "0,1"
bitfld.long 0x00 5. "     W2                ,Initiator ID2 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 4. " R2                  ,Initiator ID2 permission" "0,1"
bitfld.long 0x00 3. "         W1                  ,Initiator ID1 permission" "0,1"
bitfld.long 0x00 2. "     R1                ,Initiator ID1 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 1. " W0                  ,Initiator ID0 permission" "0,1"
bitfld.long 0x00 0. "         R0                  ,Initiator ID0 permission" "0,1"
group.long 0x90++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU0_CTRL_TARG_OCP_FW_503000_START_REGION_1,Start physical address of region 1"
bitfld.long 0x00 0.--3. " START_REGION_1      ,Physical target start address of firewall region 1" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x94++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU0_CTRL_TARG_OCP_FW_503000_END_REGION_1,End physical address of region 1"
bitfld.long 0x00 31. " END_REGION_1_ENABLE ,End Region 1 enable" "0,1"
bitfld.long 0x00 0.--3. "         END_REGION_1        ,Physical target end address of firewall region 1" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x98++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU0_CTRL_TARG_OCP_FW_503000_MRM_PERMISSION_REGION_LOW_1,RM_PERMISSION_REGION_1_LOW register"
bitfld.long 0x00 15. " PUB_PRV_DEBUG       ,Public Privilege Domain Debug Allowed" "0,1"
bitfld.long 0x00 14. "         PUB_USR_DEBUG       ,Public User Domain Debug Allowed" "0,1"
bitfld.long 0x00 11. "     PUB_PRV_READ      ,Public Privilege Read Allowed" "0,1"
textline "                                                                                      "
bitfld.long 0x00 10. " PUB_PRV_WRITE       ,Public Privilege Write Allowed" "0,1"
bitfld.long 0x00 9. "         PUB_PRV_EXE         ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "     PUB_USR_READ      ,Public User Read Access Allowed" "0,1"
textline "                                                                                      "
bitfld.long 0x00 7. " PUB_USR_WRITE       ,Public User Write Access Allowed" "0,1"
bitfld.long 0x00 6. "         PUB_USR_EXE         ,Public User Exe Access Allowed" "0,1"
group.long 0x9C++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU0_CTRL_TARG_OCP_FW_503000_MRM_PERMISSION_REGION_HIGH_1,RM_PERMISSION_REGION_1_HIGH register"
bitfld.long 0x00 31. " W15                 ,Initiator ID15 permission" "0,1"
bitfld.long 0x00 30. "         R15                 ,Initiator ID15 permission" "0,1"
bitfld.long 0x00 29. "     W14               ,Initiator ID14 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 28. " R14                 ,Initiator ID14 permission" "0,1"
bitfld.long 0x00 27. "         W13                 ,Initiator ID13 permission" "0,1"
bitfld.long 0x00 26. "     R13               ,Initiator ID13 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 25. " W12                 ,Initiator ID12 permission" "0,1"
bitfld.long 0x00 24. "         R12                 ,Initiator ID12 permission" "0,1"
bitfld.long 0x00 23. "     W11               ,Initiator ID11 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 22. " R11                 ,Initiator ID11 permission" "0,1"
bitfld.long 0x00 21. "         W10                 ,Initiator ID10 permission" "0,1"
bitfld.long 0x00 20. "     R10               ,Initiator ID10 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 19. " W9                  ,Initiator ID9 permission" "0,1"
bitfld.long 0x00 18. "         R9                  ,Initiator ID9 permission" "0,1"
bitfld.long 0x00 17. "     W8                ,Initiator ID8 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 16. " R8                  ,Initiator ID8 permission" "0,1"
bitfld.long 0x00 15. "         W7                  ,Initiator ID7 permission" "0,1"
bitfld.long 0x00 14. "     R7                ,Initiator ID7 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 13. " W6                  ,Initiator ID6 permission" "0,1"
bitfld.long 0x00 12. "         R6                  ,Initiator ID6 permission" "0,1"
bitfld.long 0x00 11. "     W5                ,Initiator ID5 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 10. " R5                  ,Initiator ID5 permission" "0,1"
bitfld.long 0x00 9. "         W4                  ,Initiator ID4 permission" "0,1"
bitfld.long 0x00 8. "     R4                ,Initiator ID4 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 7. " W3                  ,Initiator ID3 permission" "0,1"
bitfld.long 0x00 6. "         R3                  ,Initiator ID3 permission" "0,1"
bitfld.long 0x00 5. "     W2                ,Initiator ID2 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 4. " R2                  ,Initiator ID2 permission" "0,1"
bitfld.long 0x00 3. "         W1                  ,Initiator ID1 permission" "0,1"
bitfld.long 0x00 2. "     R1                ,Initiator ID1 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 1. " W0                  ,Initiator ID0 permission" "0,1"
bitfld.long 0x00 0. "         R0                  ,Initiator ID0 permission" "0,1"
group.long 0x1000++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU1_CTRL_TARG_OCP_FW_504000_ERROR_LOG_0,Core 0 Error log register"
bitfld.long 0x00 27. " BLK_BURST_VIOLATION ,2D burst not allowed or exceeding allowed size" "0,1"
bitfld.long 0x00 21.--25. "         REGION_START_ERRLOG ,Wrong access hit this region number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "    REGION_END_ERRLOG ,Wrong access hit this region number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                                                                      "
hexmask.long.word 0x00 0.--15. 1. " REQINFO_ERRLOG      ,Error in reqinfo vector"
rgroup.long 0x1004++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU1_CTRL_TARG_OCP_FW_504000_LOGICAL_ADDR_ERRLOG_0,Core 0 Logical Physical Address Error log register"
hexmask.long 0x00 0.--27. 1. " SLVOFS_LOGICAL      ,Address generated by the ARM before being translated"
group.long 0x1040++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU1_CTRL_TARG_OCP_FW_504000_REGUPDATE_CONTROL,Register update control register"
bitfld.long 0x00 1. " FW_LOAD_REQ         ,HW set/SW clear" "0,1"
bitfld.long 0x00 0. "         FW_UPDATE_REQ       ,HW set/SW clear" "0,1"
group.long 0x1088++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU1_CTRL_TARG_OCP_FW_504000_MRM_PERMISSION_REGION_LOW_0,RM_PERMISSION_REGION_0_LOW register"
bitfld.long 0x00 15. " PUB_PRV_DEBUG       ,Public Privilege Domain Debug Allowed" "0,1"
bitfld.long 0x00 14. "         PUB_USR_DEBUG       ,Public User Domain Debug Allowed" "0,1"
bitfld.long 0x00 11. "     PUB_PRV_READ      ,Public Privilege Read Allowed" "0,1"
textline "                                                                                      "
bitfld.long 0x00 10. " PUB_PRV_WRITE       ,Public Privilege Write Allowed" "0,1"
bitfld.long 0x00 9. "         PUB_PRV_EXE         ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "     PUB_USR_READ      ,Public User Read Access Allowed" "0,1"
textline "                                                                                      "
bitfld.long 0x00 7. " PUB_USR_WRITE       ,Public User Write Access Allowed" "0,1"
bitfld.long 0x00 6. "         PUB_USR_EXE         ,Public User Exe Access Allowed" "0,1"
group.long 0x108C++0x3
line.long 0x00 "L3_DSPSS_INIT_OCP_MMU1_CTRL_TARG_OCP_FW_504000_MRM_PERMISSION_REGION_HIGH_0,RM_PERMISSION_REGION_0_HIGH register"
bitfld.long 0x00 31. " W15                 ,Initiator ID15 permission" "0,1"
bitfld.long 0x00 30. "         R15                 ,Initiator ID15 permission" "0,1"
bitfld.long 0x00 29. "     W14               ,Initiator ID14 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 28. " R14                 ,Initiator ID14 permission" "0,1"
bitfld.long 0x00 27. "         W13                 ,Initiator ID13 permission" "0,1"
bitfld.long 0x00 26. "     R13               ,Initiator ID13 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 25. " W12                 ,Initiator ID12 permission" "0,1"
bitfld.long 0x00 24. "         R12                 ,Initiator ID12 permission" "0,1"
bitfld.long 0x00 23. "     W11               ,Initiator ID11 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 22. " R11                 ,Initiator ID11 permission" "0,1"
bitfld.long 0x00 21. "         W10                 ,Initiator ID10 permission" "0,1"
bitfld.long 0x00 20. "     R10               ,Initiator ID10 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 19. " W9                  ,Initiator ID9 permission" "0,1"
bitfld.long 0x00 18. "         R9                  ,Initiator ID9 permission" "0,1"
bitfld.long 0x00 17. "     W8                ,Initiator ID8 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 16. " R8                  ,Initiator ID8 permission" "0,1"
bitfld.long 0x00 15. "         W7                  ,Initiator ID7 permission" "0,1"
bitfld.long 0x00 14. "     R7                ,Initiator ID7 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 13. " W6                  ,Initiator ID6 permission" "0,1"
bitfld.long 0x00 12. "         R6                  ,Initiator ID6 permission" "0,1"
bitfld.long 0x00 11. "     W5                ,Initiator ID5 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 10. " R5                  ,Initiator ID5 permission" "0,1"
bitfld.long 0x00 9. "         W4                  ,Initiator ID4 permission" "0,1"
bitfld.long 0x00 8. "     R4                ,Initiator ID4 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 7. " W3                  ,Initiator ID3 permission" "0,1"
bitfld.long 0x00 6. "         R3                  ,Initiator ID3 permission" "0,1"
bitfld.long 0x00 5. "     W2                ,Initiator ID2 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 4. " R2                  ,Initiator ID2 permission" "0,1"
bitfld.long 0x00 3. "         W1                  ,Initiator ID1 permission" "0,1"
bitfld.long 0x00 2. "     R1                ,Initiator ID1 permission" "0,1"
textline "                                                                                      "
bitfld.long 0x00 1. " W0                  ,Initiator ID0 permission" "0,1"
bitfld.long 0x00 0. "         R0                  ,Initiator ID0 permission" "0,1"
rgroup.long 0x4000++0x3
line.long 0x00 "DSPNOC_FLAGMUX_ID_COREID,"
hexmask.long.tbyte 0x00 8.--31. 1. " CORECHECKSUM        ,Field containing a checksum of the parameters of the IP."
hexmask.long.byte 0x00 0.--7. 1. "    CORETYPEID          ,Field identifying the type of IP."
rgroup.long 0x4004++0x3
line.long 0x00 "DSPNOC_FLAGMUX_ID_REVISIONID,"
hexmask.long 0x00 0.--31. 1. " REVISION            ,IP Revision."
group.long 0x4008++0x3
line.long 0x00 "DSPNOC_FLAGMUX_FAULTEN,"
bitfld.long 0x00 0. " FAULTEN             ,Global Fault Enable register" "0,1"
rgroup.long 0x400C++0x3
line.long 0x00 "DSPNOC_FLAGMUX_FAULTSTATUS,"
bitfld.long 0x00 0. " FAULTSTATUS         ,Global Fault Status register" "0,1"
group.long 0x4010++0x3
line.long 0x00 "DSPNOC_FLAGMUX_FLAGINEN0,"
bitfld.long 0x00 0. " FLAGINEN0           ,FlagIn Enable register #0" "0,1"
rgroup.long 0x4014++0x3
line.long 0x00 "DSPNOC_FLAGMUX_FLAGINSTATUS0,"
bitfld.long 0x00 0. " FLAGINSTATUS0       ,FlagIn Status register #0" "0,1"
rgroup.long 0x4200++0x3
line.long 0x00 "DSPNOC_ERRORLOG_ID_COREID,"
hexmask.long.tbyte 0x00 8.--31. 1. " CORECHECKSUM        ,Field containing a checksum of the parameters of the IP."
hexmask.long.byte 0x00 0.--7. 1. "    CORETYPEID          ,Field identifying the type of IP."
rgroup.long 0x4204++0x3
line.long 0x00 "DSPNOC_ERRORLOG_ID_REVISIONID,"
hexmask.long 0x00 0.--31. 1. " REVISION            ,IP Revision."
group.long 0x4208++0x3
line.long 0x00 "DSPNOC_ERRORLOG_FAULTEN,"
bitfld.long 0x00 0. " FAULTEN             ,Enable Fault output" "0,1"
rgroup.long 0x420C++0x3
line.long 0x00 "DSPNOC_ERRORLOG_ERRVLD,"
bitfld.long 0x00 0. " ERRVLD              ,Error logged Valid" "0,1"
group.long 0x4210++0x3
line.long 0x00 "DSPNOC_ERRORLOG_ERRCLR,"
bitfld.long 0x00 0. " ERRCLR              ,Clr ErrVld status" "0,1"
rgroup.long 0x4214++0x3
line.long 0x00 "DSPNOC_ERRORLOG_ERRLOG0,Header: Lock, Opcode, Len1, ErrCode values"
bitfld.long 0x00 31. " FORMAT              ,Format of ErrLog0 register" "0,1"
hexmask.long.word 0x00 16.--27. 1. "         LEN1                ,Header: Len1 value"
bitfld.long 0x00 8.--10. "  ERRCODE           ,Header: Error Code value" "0,1,2,3,4,5,6,7"
textline "                                                                                      "
bitfld.long 0x00 1.--4. " OPC                 ,Header: Opcode value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0. "        LOCK                ,Header: Lock bit value" "0,1"
rgroup.long 0x4218++0x3
line.long 0x00 "DSPNOC_ERRORLOG_ERRLOG1,"
hexmask.long.word 0x00 0.--14. 1. " ERRLOG1             ,Header: RouteId lsb value"
rgroup.long 0x4220++0x3
line.long 0x00 "DSPNOC_ERRORLOG_ERRLOG3,"
hexmask.long 0x00 0.--30. 1. " ERRLOG3             ,Header: Addr lsb value"
rgroup.long 0x4228++0x3
line.long 0x00 "DSPNOC_ERRORLOG_ERRLOG5,"
hexmask.long.tbyte 0x00 0.--21. 1. " ERRLOG5             ,Header: User lsb value"
width 0x0B
tree.end
tree.end
tree.end
sif (cpuis("TDA2XIVA"))
tree.open "IVA_Imaging_Controller"
tree.open "ICONT1_CFG_ICONT"
tree "ICONT1_CFG_ICONT"
base ad:0xF0000
width 17.
rgroup.long 0x0++0x3
line.long 0x00 "ICONT_REVISION,ICONT Revision Identifier (X.Y.R) Used by software to track features, bugs, and compatibility"
hexmask.long 0x00 0.--31. 1. " VERSION     ,Module Version"
rgroup.long 0x4++0x3
line.long 0x00 "ICONT_HWINFO,Information about the IP module's hardware configuration."
bitfld.long 0x00 20.--23. " NB_LCH      ,Number of Data Mover Logical channel" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "        NB_TASK  ,Number of SYNCBOX tasks" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 8.--15. 1. "     DTCM_SIZE ,Size of DTCM (in kBytes)"
textline "                          "
hexmask.long.byte 0x00 0.--7. 1. " ICTM_SIZE   ,Size of ITCM (in kBytes)"
group.long 0x10++0x3
line.long 0x00 "ICONT_SYSCONFIG,Clock management configuration"
bitfld.long 0x00 4.--5. " STANDBYMODE ,Configuration of the local initiator state management mode. By definition, initiator may generate read/write transaction as long as it is out of STANDBY state. - . - . - ." "force,no,smart,3"
bitfld.long 0x00 2.--3. "     IDLEMODE ,Configuration of the local target state management mode. By definition, target can handle read/write transaction as long as it is out of IDLE state. - . - . - ." "force,no,smart,3"
width 0x0B
tree.end
tree "ICONT2_CFG_ICONT"
base ad:0xF1000
width 17.
rgroup.long 0x0++0x3
line.long 0x00 "ICONT_REVISION,ICONT Revision Identifier (X.Y.R) Used by software to track features, bugs, and compatibility"
hexmask.long 0x00 0.--31. 1. " VERSION     ,Module Version"
rgroup.long 0x4++0x3
line.long 0x00 "ICONT_HWINFO,Information about the IP module's hardware configuration."
bitfld.long 0x00 20.--23. " NB_LCH      ,Number of Data Mover Logical channel" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "        NB_TASK  ,Number of SYNCBOX tasks" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 8.--15. 1. "     DTCM_SIZE ,Size of DTCM (in kBytes)"
textline "                          "
hexmask.long.byte 0x00 0.--7. 1. " ICTM_SIZE   ,Size of ITCM (in kBytes)"
group.long 0x10++0x3
line.long 0x00 "ICONT_SYSCONFIG,Clock management configuration"
bitfld.long 0x00 4.--5. " STANDBYMODE ,Configuration of the local initiator state management mode. By definition, initiator may generate read/write transaction as long as it is out of STANDBY state. - . - . - ." "force,no,smart,3"
bitfld.long 0x00 2.--3. "     IDLEMODE ,Configuration of the local target state management mode. By definition, target can handle read/write transaction as long as it is out of IDLE state. - . - . - ." "force,no,smart,3"
width 0x0B
tree.end
tree "ICONT1_CFG_L3_MAINInterconnect"
base ad:0x5A070000
width 17.
rgroup.long 0x0++0x3
line.long 0x00 "ICONT_REVISION,ICONT Revision Identifier (X.Y.R) Used by software to track features, bugs, and compatibility"
hexmask.long 0x00 0.--31. 1. " VERSION     ,Module Version"
rgroup.long 0x4++0x3
line.long 0x00 "ICONT_HWINFO,Information about the IP module's hardware configuration."
bitfld.long 0x00 20.--23. " NB_LCH      ,Number of Data Mover Logical channel" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "        NB_TASK  ,Number of SYNCBOX tasks" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 8.--15. 1. "     DTCM_SIZE ,Size of DTCM (in kBytes)"
textline "                          "
hexmask.long.byte 0x00 0.--7. 1. " ICTM_SIZE   ,Size of ITCM (in kBytes)"
group.long 0x10++0x3
line.long 0x00 "ICONT_SYSCONFIG,Clock management configuration"
bitfld.long 0x00 4.--5. " STANDBYMODE ,Configuration of the local initiator state management mode. By definition, initiator may generate read/write transaction as long as it is out of STANDBY state. - . - . - ." "force,no,smart,3"
bitfld.long 0x00 2.--3. "     IDLEMODE ,Configuration of the local target state management mode. By definition, target can handle read/write transaction as long as it is out of IDLE state. - . - . - ." "force,no,smart,3"
width 0x0B
tree.end
tree "ICONT2_CFG_L3_MAINInterconnect"
base ad:0x5A071000
width 17.
rgroup.long 0x0++0x3
line.long 0x00 "ICONT_REVISION,ICONT Revision Identifier (X.Y.R) Used by software to track features, bugs, and compatibility"
hexmask.long 0x00 0.--31. 1. " VERSION     ,Module Version"
rgroup.long 0x4++0x3
line.long 0x00 "ICONT_HWINFO,Information about the IP module's hardware configuration."
bitfld.long 0x00 20.--23. " NB_LCH      ,Number of Data Mover Logical channel" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "        NB_TASK  ,Number of SYNCBOX tasks" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 8.--15. 1. "     DTCM_SIZE ,Size of DTCM (in kBytes)"
textline "                          "
hexmask.long.byte 0x00 0.--7. 1. " ICTM_SIZE   ,Size of ITCM (in kBytes)"
group.long 0x10++0x3
line.long 0x00 "ICONT_SYSCONFIG,Clock management configuration"
bitfld.long 0x00 4.--5. " STANDBYMODE ,Configuration of the local initiator state management mode. By definition, initiator may generate read/write transaction as long as it is out of STANDBY state. - . - . - ." "force,no,smart,3"
bitfld.long 0x00 2.--3. "     IDLEMODE ,Configuration of the local target state management mode. By definition, target can handle read/write transaction as long as it is out of IDLE state. - . - . - ." "force,no,smart,3"
width 0x0B
tree.end
tree.end
tree.open "ICONT1_DM_ICONT"
tree "ICONT1_DM_ICONT"
base ad:0xF0800
tree "Channel_0"
width 23.
group.long 0x48++0x3
line.long 0x00 "ICONT_DMCONTEXT_i_0,Data Mover Context n. A new DM transfer can be scheduled only if this register has been writen by SW."
bitfld.long 0x00 20. " END_TYPE   ,1: Send End Of Logical channel notification on transfer completion 0: Do not send End Of Task notification on transfer completion" "0,1"
bitfld.long 0x00 19. "       START_TYPE ,1: Transfer is scheduled on logical channel start notification 0: Transfer is scheduled on write to ICONT_DMCONTEXT register" "0,1"
bitfld.long 0x00 16.--18. "  CMD_TYPE ,Type of transfer - . - . - . - . - . - . - . - ." "SL2toDTCM,SL2toITCM,DTCMtoTDMA,SL2toTDMA,DTCMtoSL2,reserved,reserved1,reserved2"
textline "                                "
hexmask.long.word 0x00 0.--15. 1. " NB_BYTE    ,Number of bytes to transfer (must be a multiple of 128b)"
group.long 0x44++0x3
line.long 0x00 "ICONT_DMDESTADD_i_0,Data mover destination address for context n (byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " DESTADDR   ,Destination address of transfer"
group.long 0x40++0x3
line.long 0x00 "ICONT_DMSOURCEADD_i_0,Data mover source address for context n (Byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " SOURCEADDR ,Source address of transfer"
rgroup.long 0x4C++0x3
line.long 0x00 "ICONT_DMSTATUS_i_0,Data Mover status register for context n."
bitfld.long 0x00 0.--1. " STATUS     ,00: LCHn is in IDLE state. Descriptor is free to be programmed (or transfer completed). 01: LCHn is in WAIT FOR HW EVENT state. Descriptor is programmed and is waiting for a hardware event in order to be queued. 10 : LCHn is in either QUEU..." "0,1,2,3"
tree.end
tree "Channel_1"
width 23.
group.long 0x68++0x3
line.long 0x00 "ICONT_DMCONTEXT_i_1,Data Mover Context n. A new DM transfer can be scheduled only if this register has been writen by SW."
bitfld.long 0x00 20. " END_TYPE   ,1: Send End Of Logical channel notification on transfer completion 0: Do not send End Of Task notification on transfer completion" "0,1"
bitfld.long 0x00 19. "       START_TYPE ,1: Transfer is scheduled on logical channel start notification 0: Transfer is scheduled on write to ICONT_DMCONTEXT register" "0,1"
bitfld.long 0x00 16.--18. "  CMD_TYPE ,Type of transfer - . - . - . - . - . - . - . - ." "SL2toDTCM,SL2toITCM,DTCMtoTDMA,SL2toTDMA,DTCMtoSL2,reserved,reserved1,reserved2"
textline "                                "
hexmask.long.word 0x00 0.--15. 1. " NB_BYTE    ,Number of bytes to transfer (must be a multiple of 128b)"
group.long 0x64++0x3
line.long 0x00 "ICONT_DMDESTADD_i_1,Data mover destination address for context n (byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " DESTADDR   ,Destination address of transfer"
group.long 0x60++0x3
line.long 0x00 "ICONT_DMSOURCEADD_i_1,Data mover source address for context n (Byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " SOURCEADDR ,Source address of transfer"
rgroup.long 0x6C++0x3
line.long 0x00 "ICONT_DMSTATUS_i_1,Data Mover status register for context n."
bitfld.long 0x00 0.--1. " STATUS     ,00: LCHn is in IDLE state. Descriptor is free to be programmed (or transfer completed). 01: LCHn is in WAIT FOR HW EVENT state. Descriptor is programmed and is waiting for a hardware event in order to be queued. 10 : LCHn is in either QUEU..." "0,1,2,3"
tree.end
tree "Channel_2"
width 23.
group.long 0x88++0x3
line.long 0x00 "ICONT_DMCONTEXT_i_2,Data Mover Context n. A new DM transfer can be scheduled only if this register has been writen by SW."
bitfld.long 0x00 20. " END_TYPE   ,1: Send End Of Logical channel notification on transfer completion 0: Do not send End Of Task notification on transfer completion" "0,1"
bitfld.long 0x00 19. "       START_TYPE ,1: Transfer is scheduled on logical channel start notification 0: Transfer is scheduled on write to ICONT_DMCONTEXT register" "0,1"
bitfld.long 0x00 16.--18. "  CMD_TYPE ,Type of transfer - . - . - . - . - . - . - . - ." "SL2toDTCM,SL2toITCM,DTCMtoTDMA,SL2toTDMA,DTCMtoSL2,reserved,reserved1,reserved2"
textline "                                "
hexmask.long.word 0x00 0.--15. 1. " NB_BYTE    ,Number of bytes to transfer (must be a multiple of 128b)"
group.long 0x84++0x3
line.long 0x00 "ICONT_DMDESTADD_i_2,Data mover destination address for context n (byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " DESTADDR   ,Destination address of transfer"
group.long 0x80++0x3
line.long 0x00 "ICONT_DMSOURCEADD_i_2,Data mover source address for context n (Byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " SOURCEADDR ,Source address of transfer"
rgroup.long 0x8C++0x3
line.long 0x00 "ICONT_DMSTATUS_i_2,Data Mover status register for context n."
bitfld.long 0x00 0.--1. " STATUS     ,00: LCHn is in IDLE state. Descriptor is free to be programmed (or transfer completed). 01: LCHn is in WAIT FOR HW EVENT state. Descriptor is programmed and is waiting for a hardware event in order to be queued. 10 : LCHn is in either QUEU..." "0,1,2,3"
tree.end
tree "Channel_3"
width 23.
group.long 0xA8++0x3
line.long 0x00 "ICONT_DMCONTEXT_i_3,Data Mover Context n. A new DM transfer can be scheduled only if this register has been writen by SW."
bitfld.long 0x00 20. " END_TYPE   ,1: Send End Of Logical channel notification on transfer completion 0: Do not send End Of Task notification on transfer completion" "0,1"
bitfld.long 0x00 19. "       START_TYPE ,1: Transfer is scheduled on logical channel start notification 0: Transfer is scheduled on write to ICONT_DMCONTEXT register" "0,1"
bitfld.long 0x00 16.--18. "  CMD_TYPE ,Type of transfer - . - . - . - . - . - . - . - ." "SL2toDTCM,SL2toITCM,DTCMtoTDMA,SL2toTDMA,DTCMtoSL2,reserved,reserved1,reserved2"
textline "                                "
hexmask.long.word 0x00 0.--15. 1. " NB_BYTE    ,Number of bytes to transfer (must be a multiple of 128b)"
group.long 0xA4++0x3
line.long 0x00 "ICONT_DMDESTADD_i_3,Data mover destination address for context n (byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " DESTADDR   ,Destination address of transfer"
group.long 0xA0++0x3
line.long 0x00 "ICONT_DMSOURCEADD_i_3,Data mover source address for context n (Byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " SOURCEADDR ,Source address of transfer"
rgroup.long 0xAC++0x3
line.long 0x00 "ICONT_DMSTATUS_i_3,Data Mover status register for context n."
bitfld.long 0x00 0.--1. " STATUS     ,00: LCHn is in IDLE state. Descriptor is free to be programmed (or transfer completed). 01: LCHn is in WAIT FOR HW EVENT state. Descriptor is programmed and is waiting for a hardware event in order to be queued. 10 : LCHn is in either QUEU..." "0,1,2,3"
tree.end
textline ""
width 24.
group.long 0x20++0x3
line.long 0x00 "ICONT_DM_IRQ_EOI,End Of Interrupt number specification"
bitfld.long 0x00 0. " LINE_NUMBER ,Software End Of Interrupt (EOI) control. Write number of interrupt output. - EOI0. - READ0." "EOI0,1"
group.long 0x24++0x3
line.long 0x00 "ICONT_DM_IRQSTATUS_RAW,Per-event raw interrupt status vector (DM interrupt). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0.--3. " LCHN_0      ,Settable raw status for Logical Channel n to 0 (n=NB_DM_LCH-1) For each bit of the bit field: Read 0: No event pending Read 1: Event pending Write 0: No action Write 1: Set event (debug)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x28++0x3
line.long 0x00 "ICONT_DM_IRQSTATUS,Per-event 'enabled' interrupt status vector (DM interrupt). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
bitfld.long 0x00 0.--3. " LCHN_0      ,Clearable, enabled status for Logical Channel n to 0 (n=NB_DM_LCH-1) For each bit of the bit field: Read 0: No (enabled) event pending Read 1: Event pending Write 0: No action Write 1: Clear (raw) event" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x2C++0x3
line.long 0x00 "ICONT_DM_IRQENABLE_SET,Per-event interrupt enable bit vector (DM interrupt). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0.--3. " LCHN_0      ,Enable for Logical Channel n to 0 (n=NB_DM_LCH-1) For each bit of the bit field: Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 0: No action Write 1: Enable interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x30++0x3
line.long 0x00 "ICONT_DM_IRQENABLE_CLR,Per-event interrupt enable bit vector (DM interrupt). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
bitfld.long 0x00 0.--3. " LCHN_0      ,Enable for Logical Channel n to 0 (n=NB_DM_LCH-1) For each bit of the bitfiled: Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 0: No action Write 1: Disable interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree "ICONT2_DM_ICONT"
base ad:0xF1800
tree "Channel_0"
width 23.
group.long 0x48++0x3
line.long 0x00 "ICONT_DMCONTEXT_i_0,Data Mover Context n. A new DM transfer can be scheduled only if this register has been writen by SW."
bitfld.long 0x00 20. " END_TYPE   ,1: Send End Of Logical channel notification on transfer completion 0: Do not send End Of Task notification on transfer completion" "0,1"
bitfld.long 0x00 19. "       START_TYPE ,1: Transfer is scheduled on logical channel start notification 0: Transfer is scheduled on write to ICONT_DMCONTEXT register" "0,1"
bitfld.long 0x00 16.--18. "  CMD_TYPE ,Type of transfer - . - . - . - . - . - . - . - ." "SL2toDTCM,SL2toITCM,DTCMtoTDMA,SL2toTDMA,DTCMtoSL2,reserved,reserved1,reserved2"
textline "                                "
hexmask.long.word 0x00 0.--15. 1. " NB_BYTE    ,Number of bytes to transfer (must be a multiple of 128b)"
group.long 0x44++0x3
line.long 0x00 "ICONT_DMDESTADD_i_0,Data mover destination address for context n (byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " DESTADDR   ,Destination address of transfer"
group.long 0x40++0x3
line.long 0x00 "ICONT_DMSOURCEADD_i_0,Data mover source address for context n (Byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " SOURCEADDR ,Source address of transfer"
rgroup.long 0x4C++0x3
line.long 0x00 "ICONT_DMSTATUS_i_0,Data Mover status register for context n."
bitfld.long 0x00 0.--1. " STATUS     ,00: LCHn is in IDLE state. Descriptor is free to be programmed (or transfer completed). 01: LCHn is in WAIT FOR HW EVENT state. Descriptor is programmed and is waiting for a hardware event in order to be queued. 10 : LCHn is in either QUEU..." "0,1,2,3"
tree.end
tree "Channel_1"
width 23.
group.long 0x68++0x3
line.long 0x00 "ICONT_DMCONTEXT_i_1,Data Mover Context n. A new DM transfer can be scheduled only if this register has been writen by SW."
bitfld.long 0x00 20. " END_TYPE   ,1: Send End Of Logical channel notification on transfer completion 0: Do not send End Of Task notification on transfer completion" "0,1"
bitfld.long 0x00 19. "       START_TYPE ,1: Transfer is scheduled on logical channel start notification 0: Transfer is scheduled on write to ICONT_DMCONTEXT register" "0,1"
bitfld.long 0x00 16.--18. "  CMD_TYPE ,Type of transfer - . - . - . - . - . - . - . - ." "SL2toDTCM,SL2toITCM,DTCMtoTDMA,SL2toTDMA,DTCMtoSL2,reserved,reserved1,reserved2"
textline "                                "
hexmask.long.word 0x00 0.--15. 1. " NB_BYTE    ,Number of bytes to transfer (must be a multiple of 128b)"
group.long 0x64++0x3
line.long 0x00 "ICONT_DMDESTADD_i_1,Data mover destination address for context n (byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " DESTADDR   ,Destination address of transfer"
group.long 0x60++0x3
line.long 0x00 "ICONT_DMSOURCEADD_i_1,Data mover source address for context n (Byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " SOURCEADDR ,Source address of transfer"
rgroup.long 0x6C++0x3
line.long 0x00 "ICONT_DMSTATUS_i_1,Data Mover status register for context n."
bitfld.long 0x00 0.--1. " STATUS     ,00: LCHn is in IDLE state. Descriptor is free to be programmed (or transfer completed). 01: LCHn is in WAIT FOR HW EVENT state. Descriptor is programmed and is waiting for a hardware event in order to be queued. 10 : LCHn is in either QUEU..." "0,1,2,3"
tree.end
tree "Channel_2"
width 23.
group.long 0x88++0x3
line.long 0x00 "ICONT_DMCONTEXT_i_2,Data Mover Context n. A new DM transfer can be scheduled only if this register has been writen by SW."
bitfld.long 0x00 20. " END_TYPE   ,1: Send End Of Logical channel notification on transfer completion 0: Do not send End Of Task notification on transfer completion" "0,1"
bitfld.long 0x00 19. "       START_TYPE ,1: Transfer is scheduled on logical channel start notification 0: Transfer is scheduled on write to ICONT_DMCONTEXT register" "0,1"
bitfld.long 0x00 16.--18. "  CMD_TYPE ,Type of transfer - . - . - . - . - . - . - . - ." "SL2toDTCM,SL2toITCM,DTCMtoTDMA,SL2toTDMA,DTCMtoSL2,reserved,reserved1,reserved2"
textline "                                "
hexmask.long.word 0x00 0.--15. 1. " NB_BYTE    ,Number of bytes to transfer (must be a multiple of 128b)"
group.long 0x84++0x3
line.long 0x00 "ICONT_DMDESTADD_i_2,Data mover destination address for context n (byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " DESTADDR   ,Destination address of transfer"
group.long 0x80++0x3
line.long 0x00 "ICONT_DMSOURCEADD_i_2,Data mover source address for context n (Byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " SOURCEADDR ,Source address of transfer"
rgroup.long 0x8C++0x3
line.long 0x00 "ICONT_DMSTATUS_i_2,Data Mover status register for context n."
bitfld.long 0x00 0.--1. " STATUS     ,00: LCHn is in IDLE state. Descriptor is free to be programmed (or transfer completed). 01: LCHn is in WAIT FOR HW EVENT state. Descriptor is programmed and is waiting for a hardware event in order to be queued. 10 : LCHn is in either QUEU..." "0,1,2,3"
tree.end
tree "Channel_3"
width 23.
group.long 0xA8++0x3
line.long 0x00 "ICONT_DMCONTEXT_i_3,Data Mover Context n. A new DM transfer can be scheduled only if this register has been writen by SW."
bitfld.long 0x00 20. " END_TYPE   ,1: Send End Of Logical channel notification on transfer completion 0: Do not send End Of Task notification on transfer completion" "0,1"
bitfld.long 0x00 19. "       START_TYPE ,1: Transfer is scheduled on logical channel start notification 0: Transfer is scheduled on write to ICONT_DMCONTEXT register" "0,1"
bitfld.long 0x00 16.--18. "  CMD_TYPE ,Type of transfer - . - . - . - . - . - . - . - ." "SL2toDTCM,SL2toITCM,DTCMtoTDMA,SL2toTDMA,DTCMtoSL2,reserved,reserved1,reserved2"
textline "                                "
hexmask.long.word 0x00 0.--15. 1. " NB_BYTE    ,Number of bytes to transfer (must be a multiple of 128b)"
group.long 0xA4++0x3
line.long 0x00 "ICONT_DMDESTADD_i_3,Data mover destination address for context n (byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " DESTADDR   ,Destination address of transfer"
group.long 0xA0++0x3
line.long 0x00 "ICONT_DMSOURCEADD_i_3,Data mover source address for context n (Byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " SOURCEADDR ,Source address of transfer"
rgroup.long 0xAC++0x3
line.long 0x00 "ICONT_DMSTATUS_i_3,Data Mover status register for context n."
bitfld.long 0x00 0.--1. " STATUS     ,00: LCHn is in IDLE state. Descriptor is free to be programmed (or transfer completed). 01: LCHn is in WAIT FOR HW EVENT state. Descriptor is programmed and is waiting for a hardware event in order to be queued. 10 : LCHn is in either QUEU..." "0,1,2,3"
tree.end
textline ""
width 24.
group.long 0x20++0x3
line.long 0x00 "ICONT_DM_IRQ_EOI,End Of Interrupt number specification"
bitfld.long 0x00 0. " LINE_NUMBER ,Software End Of Interrupt (EOI) control. Write number of interrupt output. - EOI0. - READ0." "EOI0,1"
group.long 0x24++0x3
line.long 0x00 "ICONT_DM_IRQSTATUS_RAW,Per-event raw interrupt status vector (DM interrupt). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0.--3. " LCHN_0      ,Settable raw status for Logical Channel n to 0 (n=NB_DM_LCH-1) For each bit of the bit field: Read 0: No event pending Read 1: Event pending Write 0: No action Write 1: Set event (debug)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x28++0x3
line.long 0x00 "ICONT_DM_IRQSTATUS,Per-event 'enabled' interrupt status vector (DM interrupt). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
bitfld.long 0x00 0.--3. " LCHN_0      ,Clearable, enabled status for Logical Channel n to 0 (n=NB_DM_LCH-1) For each bit of the bit field: Read 0: No (enabled) event pending Read 1: Event pending Write 0: No action Write 1: Clear (raw) event" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x2C++0x3
line.long 0x00 "ICONT_DM_IRQENABLE_SET,Per-event interrupt enable bit vector (DM interrupt). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0.--3. " LCHN_0      ,Enable for Logical Channel n to 0 (n=NB_DM_LCH-1) For each bit of the bit field: Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 0: No action Write 1: Enable interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x30++0x3
line.long 0x00 "ICONT_DM_IRQENABLE_CLR,Per-event interrupt enable bit vector (DM interrupt). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
bitfld.long 0x00 0.--3. " LCHN_0      ,Enable for Logical Channel n to 0 (n=NB_DM_LCH-1) For each bit of the bitfiled: Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 0: No action Write 1: Disable interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree "ICONT1_DM_ICONTSelf_Access"
base ad:0xF2800
tree "Channel_0"
width 23.
group.long 0x48++0x3
line.long 0x00 "ICONT_DMCONTEXT_i_0,Data Mover Context n. A new DM transfer can be scheduled only if this register has been writen by SW."
bitfld.long 0x00 20. " END_TYPE   ,1: Send End Of Logical channel notification on transfer completion 0: Do not send End Of Task notification on transfer completion" "0,1"
bitfld.long 0x00 19. "       START_TYPE ,1: Transfer is scheduled on logical channel start notification 0: Transfer is scheduled on write to ICONT_DMCONTEXT register" "0,1"
bitfld.long 0x00 16.--18. "  CMD_TYPE ,Type of transfer - . - . - . - . - . - . - . - ." "SL2toDTCM,SL2toITCM,DTCMtoTDMA,SL2toTDMA,DTCMtoSL2,reserved,reserved1,reserved2"
textline "                                "
hexmask.long.word 0x00 0.--15. 1. " NB_BYTE    ,Number of bytes to transfer (must be a multiple of 128b)"
group.long 0x44++0x3
line.long 0x00 "ICONT_DMDESTADD_i_0,Data mover destination address for context n (byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " DESTADDR   ,Destination address of transfer"
group.long 0x40++0x3
line.long 0x00 "ICONT_DMSOURCEADD_i_0,Data mover source address for context n (Byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " SOURCEADDR ,Source address of transfer"
rgroup.long 0x4C++0x3
line.long 0x00 "ICONT_DMSTATUS_i_0,Data Mover status register for context n."
bitfld.long 0x00 0.--1. " STATUS     ,00: LCHn is in IDLE state. Descriptor is free to be programmed (or transfer completed). 01: LCHn is in WAIT FOR HW EVENT state. Descriptor is programmed and is waiting for a hardware event in order to be queued. 10 : LCHn is in either QUEU..." "0,1,2,3"
tree.end
tree "Channel_1"
width 23.
group.long 0x68++0x3
line.long 0x00 "ICONT_DMCONTEXT_i_1,Data Mover Context n. A new DM transfer can be scheduled only if this register has been writen by SW."
bitfld.long 0x00 20. " END_TYPE   ,1: Send End Of Logical channel notification on transfer completion 0: Do not send End Of Task notification on transfer completion" "0,1"
bitfld.long 0x00 19. "       START_TYPE ,1: Transfer is scheduled on logical channel start notification 0: Transfer is scheduled on write to ICONT_DMCONTEXT register" "0,1"
bitfld.long 0x00 16.--18. "  CMD_TYPE ,Type of transfer - . - . - . - . - . - . - . - ." "SL2toDTCM,SL2toITCM,DTCMtoTDMA,SL2toTDMA,DTCMtoSL2,reserved,reserved1,reserved2"
textline "                                "
hexmask.long.word 0x00 0.--15. 1. " NB_BYTE    ,Number of bytes to transfer (must be a multiple of 128b)"
group.long 0x64++0x3
line.long 0x00 "ICONT_DMDESTADD_i_1,Data mover destination address for context n (byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " DESTADDR   ,Destination address of transfer"
group.long 0x60++0x3
line.long 0x00 "ICONT_DMSOURCEADD_i_1,Data mover source address for context n (Byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " SOURCEADDR ,Source address of transfer"
rgroup.long 0x6C++0x3
line.long 0x00 "ICONT_DMSTATUS_i_1,Data Mover status register for context n."
bitfld.long 0x00 0.--1. " STATUS     ,00: LCHn is in IDLE state. Descriptor is free to be programmed (or transfer completed). 01: LCHn is in WAIT FOR HW EVENT state. Descriptor is programmed and is waiting for a hardware event in order to be queued. 10 : LCHn is in either QUEU..." "0,1,2,3"
tree.end
tree "Channel_2"
width 23.
group.long 0x88++0x3
line.long 0x00 "ICONT_DMCONTEXT_i_2,Data Mover Context n. A new DM transfer can be scheduled only if this register has been writen by SW."
bitfld.long 0x00 20. " END_TYPE   ,1: Send End Of Logical channel notification on transfer completion 0: Do not send End Of Task notification on transfer completion" "0,1"
bitfld.long 0x00 19. "       START_TYPE ,1: Transfer is scheduled on logical channel start notification 0: Transfer is scheduled on write to ICONT_DMCONTEXT register" "0,1"
bitfld.long 0x00 16.--18. "  CMD_TYPE ,Type of transfer - . - . - . - . - . - . - . - ." "SL2toDTCM,SL2toITCM,DTCMtoTDMA,SL2toTDMA,DTCMtoSL2,reserved,reserved1,reserved2"
textline "                                "
hexmask.long.word 0x00 0.--15. 1. " NB_BYTE    ,Number of bytes to transfer (must be a multiple of 128b)"
group.long 0x84++0x3
line.long 0x00 "ICONT_DMDESTADD_i_2,Data mover destination address for context n (byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " DESTADDR   ,Destination address of transfer"
group.long 0x80++0x3
line.long 0x00 "ICONT_DMSOURCEADD_i_2,Data mover source address for context n (Byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " SOURCEADDR ,Source address of transfer"
rgroup.long 0x8C++0x3
line.long 0x00 "ICONT_DMSTATUS_i_2,Data Mover status register for context n."
bitfld.long 0x00 0.--1. " STATUS     ,00: LCHn is in IDLE state. Descriptor is free to be programmed (or transfer completed). 01: LCHn is in WAIT FOR HW EVENT state. Descriptor is programmed and is waiting for a hardware event in order to be queued. 10 : LCHn is in either QUEU..." "0,1,2,3"
tree.end
tree "Channel_3"
width 23.
group.long 0xA8++0x3
line.long 0x00 "ICONT_DMCONTEXT_i_3,Data Mover Context n. A new DM transfer can be scheduled only if this register has been writen by SW."
bitfld.long 0x00 20. " END_TYPE   ,1: Send End Of Logical channel notification on transfer completion 0: Do not send End Of Task notification on transfer completion" "0,1"
bitfld.long 0x00 19. "       START_TYPE ,1: Transfer is scheduled on logical channel start notification 0: Transfer is scheduled on write to ICONT_DMCONTEXT register" "0,1"
bitfld.long 0x00 16.--18. "  CMD_TYPE ,Type of transfer - . - . - . - . - . - . - . - ." "SL2toDTCM,SL2toITCM,DTCMtoTDMA,SL2toTDMA,DTCMtoSL2,reserved,reserved1,reserved2"
textline "                                "
hexmask.long.word 0x00 0.--15. 1. " NB_BYTE    ,Number of bytes to transfer (must be a multiple of 128b)"
group.long 0xA4++0x3
line.long 0x00 "ICONT_DMDESTADD_i_3,Data mover destination address for context n (byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " DESTADDR   ,Destination address of transfer"
group.long 0xA0++0x3
line.long 0x00 "ICONT_DMSOURCEADD_i_3,Data mover source address for context n (Byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " SOURCEADDR ,Source address of transfer"
rgroup.long 0xAC++0x3
line.long 0x00 "ICONT_DMSTATUS_i_3,Data Mover status register for context n."
bitfld.long 0x00 0.--1. " STATUS     ,00: LCHn is in IDLE state. Descriptor is free to be programmed (or transfer completed). 01: LCHn is in WAIT FOR HW EVENT state. Descriptor is programmed and is waiting for a hardware event in order to be queued. 10 : LCHn is in either QUEU..." "0,1,2,3"
tree.end
textline ""
width 24.
group.long 0x20++0x3
line.long 0x00 "ICONT_DM_IRQ_EOI,End Of Interrupt number specification"
bitfld.long 0x00 0. " LINE_NUMBER ,Software End Of Interrupt (EOI) control. Write number of interrupt output. - EOI0. - READ0." "EOI0,1"
group.long 0x24++0x3
line.long 0x00 "ICONT_DM_IRQSTATUS_RAW,Per-event raw interrupt status vector (DM interrupt). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0.--3. " LCHN_0      ,Settable raw status for Logical Channel n to 0 (n=NB_DM_LCH-1) For each bit of the bit field: Read 0: No event pending Read 1: Event pending Write 0: No action Write 1: Set event (debug)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x28++0x3
line.long 0x00 "ICONT_DM_IRQSTATUS,Per-event 'enabled' interrupt status vector (DM interrupt). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
bitfld.long 0x00 0.--3. " LCHN_0      ,Clearable, enabled status for Logical Channel n to 0 (n=NB_DM_LCH-1) For each bit of the bit field: Read 0: No (enabled) event pending Read 1: Event pending Write 0: No action Write 1: Clear (raw) event" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x2C++0x3
line.long 0x00 "ICONT_DM_IRQENABLE_SET,Per-event interrupt enable bit vector (DM interrupt). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0.--3. " LCHN_0      ,Enable for Logical Channel n to 0 (n=NB_DM_LCH-1) For each bit of the bit field: Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 0: No action Write 1: Enable interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x30++0x3
line.long 0x00 "ICONT_DM_IRQENABLE_CLR,Per-event interrupt enable bit vector (DM interrupt). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
bitfld.long 0x00 0.--3. " LCHN_0      ,Enable for Logical Channel n to 0 (n=NB_DM_LCH-1) For each bit of the bitfiled: Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 0: No action Write 1: Disable interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree "ICONT2_DM_ICONTSelf_Access"
base ad:0xF3800
tree "Channel_0"
width 23.
group.long 0x48++0x3
line.long 0x00 "ICONT_DMCONTEXT_i_0,Data Mover Context n. A new DM transfer can be scheduled only if this register has been writen by SW."
bitfld.long 0x00 20. " END_TYPE   ,1: Send End Of Logical channel notification on transfer completion 0: Do not send End Of Task notification on transfer completion" "0,1"
bitfld.long 0x00 19. "       START_TYPE ,1: Transfer is scheduled on logical channel start notification 0: Transfer is scheduled on write to ICONT_DMCONTEXT register" "0,1"
bitfld.long 0x00 16.--18. "  CMD_TYPE ,Type of transfer - . - . - . - . - . - . - . - ." "SL2toDTCM,SL2toITCM,DTCMtoTDMA,SL2toTDMA,DTCMtoSL2,reserved,reserved1,reserved2"
textline "                                "
hexmask.long.word 0x00 0.--15. 1. " NB_BYTE    ,Number of bytes to transfer (must be a multiple of 128b)"
group.long 0x44++0x3
line.long 0x00 "ICONT_DMDESTADD_i_0,Data mover destination address for context n (byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " DESTADDR   ,Destination address of transfer"
group.long 0x40++0x3
line.long 0x00 "ICONT_DMSOURCEADD_i_0,Data mover source address for context n (Byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " SOURCEADDR ,Source address of transfer"
rgroup.long 0x4C++0x3
line.long 0x00 "ICONT_DMSTATUS_i_0,Data Mover status register for context n."
bitfld.long 0x00 0.--1. " STATUS     ,00: LCHn is in IDLE state. Descriptor is free to be programmed (or transfer completed). 01: LCHn is in WAIT FOR HW EVENT state. Descriptor is programmed and is waiting for a hardware event in order to be queued. 10 : LCHn is in either QUEU..." "0,1,2,3"
tree.end
tree "Channel_1"
width 23.
group.long 0x68++0x3
line.long 0x00 "ICONT_DMCONTEXT_i_1,Data Mover Context n. A new DM transfer can be scheduled only if this register has been writen by SW."
bitfld.long 0x00 20. " END_TYPE   ,1: Send End Of Logical channel notification on transfer completion 0: Do not send End Of Task notification on transfer completion" "0,1"
bitfld.long 0x00 19. "       START_TYPE ,1: Transfer is scheduled on logical channel start notification 0: Transfer is scheduled on write to ICONT_DMCONTEXT register" "0,1"
bitfld.long 0x00 16.--18. "  CMD_TYPE ,Type of transfer - . - . - . - . - . - . - . - ." "SL2toDTCM,SL2toITCM,DTCMtoTDMA,SL2toTDMA,DTCMtoSL2,reserved,reserved1,reserved2"
textline "                                "
hexmask.long.word 0x00 0.--15. 1. " NB_BYTE    ,Number of bytes to transfer (must be a multiple of 128b)"
group.long 0x64++0x3
line.long 0x00 "ICONT_DMDESTADD_i_1,Data mover destination address for context n (byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " DESTADDR   ,Destination address of transfer"
group.long 0x60++0x3
line.long 0x00 "ICONT_DMSOURCEADD_i_1,Data mover source address for context n (Byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " SOURCEADDR ,Source address of transfer"
rgroup.long 0x6C++0x3
line.long 0x00 "ICONT_DMSTATUS_i_1,Data Mover status register for context n."
bitfld.long 0x00 0.--1. " STATUS     ,00: LCHn is in IDLE state. Descriptor is free to be programmed (or transfer completed). 01: LCHn is in WAIT FOR HW EVENT state. Descriptor is programmed and is waiting for a hardware event in order to be queued. 10 : LCHn is in either QUEU..." "0,1,2,3"
tree.end
tree "Channel_2"
width 23.
group.long 0x88++0x3
line.long 0x00 "ICONT_DMCONTEXT_i_2,Data Mover Context n. A new DM transfer can be scheduled only if this register has been writen by SW."
bitfld.long 0x00 20. " END_TYPE   ,1: Send End Of Logical channel notification on transfer completion 0: Do not send End Of Task notification on transfer completion" "0,1"
bitfld.long 0x00 19. "       START_TYPE ,1: Transfer is scheduled on logical channel start notification 0: Transfer is scheduled on write to ICONT_DMCONTEXT register" "0,1"
bitfld.long 0x00 16.--18. "  CMD_TYPE ,Type of transfer - . - . - . - . - . - . - . - ." "SL2toDTCM,SL2toITCM,DTCMtoTDMA,SL2toTDMA,DTCMtoSL2,reserved,reserved1,reserved2"
textline "                                "
hexmask.long.word 0x00 0.--15. 1. " NB_BYTE    ,Number of bytes to transfer (must be a multiple of 128b)"
group.long 0x84++0x3
line.long 0x00 "ICONT_DMDESTADD_i_2,Data mover destination address for context n (byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " DESTADDR   ,Destination address of transfer"
group.long 0x80++0x3
line.long 0x00 "ICONT_DMSOURCEADD_i_2,Data mover source address for context n (Byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " SOURCEADDR ,Source address of transfer"
rgroup.long 0x8C++0x3
line.long 0x00 "ICONT_DMSTATUS_i_2,Data Mover status register for context n."
bitfld.long 0x00 0.--1. " STATUS     ,00: LCHn is in IDLE state. Descriptor is free to be programmed (or transfer completed). 01: LCHn is in WAIT FOR HW EVENT state. Descriptor is programmed and is waiting for a hardware event in order to be queued. 10 : LCHn is in either QUEU..." "0,1,2,3"
tree.end
tree "Channel_3"
width 23.
group.long 0xA8++0x3
line.long 0x00 "ICONT_DMCONTEXT_i_3,Data Mover Context n. A new DM transfer can be scheduled only if this register has been writen by SW."
bitfld.long 0x00 20. " END_TYPE   ,1: Send End Of Logical channel notification on transfer completion 0: Do not send End Of Task notification on transfer completion" "0,1"
bitfld.long 0x00 19. "       START_TYPE ,1: Transfer is scheduled on logical channel start notification 0: Transfer is scheduled on write to ICONT_DMCONTEXT register" "0,1"
bitfld.long 0x00 16.--18. "  CMD_TYPE ,Type of transfer - . - . - . - . - . - . - . - ." "SL2toDTCM,SL2toITCM,DTCMtoTDMA,SL2toTDMA,DTCMtoSL2,reserved,reserved1,reserved2"
textline "                                "
hexmask.long.word 0x00 0.--15. 1. " NB_BYTE    ,Number of bytes to transfer (must be a multiple of 128b)"
group.long 0xA4++0x3
line.long 0x00 "ICONT_DMDESTADD_i_3,Data mover destination address for context n (byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " DESTADDR   ,Destination address of transfer"
group.long 0xA0++0x3
line.long 0x00 "ICONT_DMSOURCEADD_i_3,Data mover source address for context n (Byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " SOURCEADDR ,Source address of transfer"
rgroup.long 0xAC++0x3
line.long 0x00 "ICONT_DMSTATUS_i_3,Data Mover status register for context n."
bitfld.long 0x00 0.--1. " STATUS     ,00: LCHn is in IDLE state. Descriptor is free to be programmed (or transfer completed). 01: LCHn is in WAIT FOR HW EVENT state. Descriptor is programmed and is waiting for a hardware event in order to be queued. 10 : LCHn is in either QUEU..." "0,1,2,3"
tree.end
textline ""
width 24.
group.long 0x20++0x3
line.long 0x00 "ICONT_DM_IRQ_EOI,End Of Interrupt number specification"
bitfld.long 0x00 0. " LINE_NUMBER ,Software End Of Interrupt (EOI) control. Write number of interrupt output. - EOI0. - READ0." "EOI0,1"
group.long 0x24++0x3
line.long 0x00 "ICONT_DM_IRQSTATUS_RAW,Per-event raw interrupt status vector (DM interrupt). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0.--3. " LCHN_0      ,Settable raw status for Logical Channel n to 0 (n=NB_DM_LCH-1) For each bit of the bit field: Read 0: No event pending Read 1: Event pending Write 0: No action Write 1: Set event (debug)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x28++0x3
line.long 0x00 "ICONT_DM_IRQSTATUS,Per-event 'enabled' interrupt status vector (DM interrupt). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
bitfld.long 0x00 0.--3. " LCHN_0      ,Clearable, enabled status for Logical Channel n to 0 (n=NB_DM_LCH-1) For each bit of the bit field: Read 0: No (enabled) event pending Read 1: Event pending Write 0: No action Write 1: Clear (raw) event" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x2C++0x3
line.long 0x00 "ICONT_DM_IRQENABLE_SET,Per-event interrupt enable bit vector (DM interrupt). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0.--3. " LCHN_0      ,Enable for Logical Channel n to 0 (n=NB_DM_LCH-1) For each bit of the bit field: Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 0: No action Write 1: Enable interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x30++0x3
line.long 0x00 "ICONT_DM_IRQENABLE_CLR,Per-event interrupt enable bit vector (DM interrupt). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
bitfld.long 0x00 0.--3. " LCHN_0      ,Enable for Logical Channel n to 0 (n=NB_DM_LCH-1) For each bit of the bitfiled: Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 0: No action Write 1: Disable interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree "ICONT1_DM_L3_MAINInterconnect"
base ad:0x5A070800
tree "Channel_0"
width 23.
group.long 0x48++0x3
line.long 0x00 "ICONT_DMCONTEXT_i_0,Data Mover Context n. A new DM transfer can be scheduled only if this register has been writen by SW."
bitfld.long 0x00 20. " END_TYPE   ,1: Send End Of Logical channel notification on transfer completion 0: Do not send End Of Task notification on transfer completion" "0,1"
bitfld.long 0x00 19. "       START_TYPE ,1: Transfer is scheduled on logical channel start notification 0: Transfer is scheduled on write to ICONT_DMCONTEXT register" "0,1"
bitfld.long 0x00 16.--18. "  CMD_TYPE ,Type of transfer - . - . - . - . - . - . - . - ." "SL2toDTCM,SL2toITCM,DTCMtoTDMA,SL2toTDMA,DTCMtoSL2,reserved,reserved1,reserved2"
textline "                                "
hexmask.long.word 0x00 0.--15. 1. " NB_BYTE    ,Number of bytes to transfer (must be a multiple of 128b)"
group.long 0x44++0x3
line.long 0x00 "ICONT_DMDESTADD_i_0,Data mover destination address for context n (byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " DESTADDR   ,Destination address of transfer"
group.long 0x40++0x3
line.long 0x00 "ICONT_DMSOURCEADD_i_0,Data mover source address for context n (Byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " SOURCEADDR ,Source address of transfer"
rgroup.long 0x4C++0x3
line.long 0x00 "ICONT_DMSTATUS_i_0,Data Mover status register for context n."
bitfld.long 0x00 0.--1. " STATUS     ,00: LCHn is in IDLE state. Descriptor is free to be programmed (or transfer completed). 01: LCHn is in WAIT FOR HW EVENT state. Descriptor is programmed and is waiting for a hardware event in order to be queued. 10 : LCHn is in either QUEU..." "0,1,2,3"
tree.end
tree "Channel_1"
width 23.
group.long 0x68++0x3
line.long 0x00 "ICONT_DMCONTEXT_i_1,Data Mover Context n. A new DM transfer can be scheduled only if this register has been writen by SW."
bitfld.long 0x00 20. " END_TYPE   ,1: Send End Of Logical channel notification on transfer completion 0: Do not send End Of Task notification on transfer completion" "0,1"
bitfld.long 0x00 19. "       START_TYPE ,1: Transfer is scheduled on logical channel start notification 0: Transfer is scheduled on write to ICONT_DMCONTEXT register" "0,1"
bitfld.long 0x00 16.--18. "  CMD_TYPE ,Type of transfer - . - . - . - . - . - . - . - ." "SL2toDTCM,SL2toITCM,DTCMtoTDMA,SL2toTDMA,DTCMtoSL2,reserved,reserved1,reserved2"
textline "                                "
hexmask.long.word 0x00 0.--15. 1. " NB_BYTE    ,Number of bytes to transfer (must be a multiple of 128b)"
group.long 0x64++0x3
line.long 0x00 "ICONT_DMDESTADD_i_1,Data mover destination address for context n (byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " DESTADDR   ,Destination address of transfer"
group.long 0x60++0x3
line.long 0x00 "ICONT_DMSOURCEADD_i_1,Data mover source address for context n (Byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " SOURCEADDR ,Source address of transfer"
rgroup.long 0x6C++0x3
line.long 0x00 "ICONT_DMSTATUS_i_1,Data Mover status register for context n."
bitfld.long 0x00 0.--1. " STATUS     ,00: LCHn is in IDLE state. Descriptor is free to be programmed (or transfer completed). 01: LCHn is in WAIT FOR HW EVENT state. Descriptor is programmed and is waiting for a hardware event in order to be queued. 10 : LCHn is in either QUEU..." "0,1,2,3"
tree.end
tree "Channel_2"
width 23.
group.long 0x88++0x3
line.long 0x00 "ICONT_DMCONTEXT_i_2,Data Mover Context n. A new DM transfer can be scheduled only if this register has been writen by SW."
bitfld.long 0x00 20. " END_TYPE   ,1: Send End Of Logical channel notification on transfer completion 0: Do not send End Of Task notification on transfer completion" "0,1"
bitfld.long 0x00 19. "       START_TYPE ,1: Transfer is scheduled on logical channel start notification 0: Transfer is scheduled on write to ICONT_DMCONTEXT register" "0,1"
bitfld.long 0x00 16.--18. "  CMD_TYPE ,Type of transfer - . - . - . - . - . - . - . - ." "SL2toDTCM,SL2toITCM,DTCMtoTDMA,SL2toTDMA,DTCMtoSL2,reserved,reserved1,reserved2"
textline "                                "
hexmask.long.word 0x00 0.--15. 1. " NB_BYTE    ,Number of bytes to transfer (must be a multiple of 128b)"
group.long 0x84++0x3
line.long 0x00 "ICONT_DMDESTADD_i_2,Data mover destination address for context n (byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " DESTADDR   ,Destination address of transfer"
group.long 0x80++0x3
line.long 0x00 "ICONT_DMSOURCEADD_i_2,Data mover source address for context n (Byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " SOURCEADDR ,Source address of transfer"
rgroup.long 0x8C++0x3
line.long 0x00 "ICONT_DMSTATUS_i_2,Data Mover status register for context n."
bitfld.long 0x00 0.--1. " STATUS     ,00: LCHn is in IDLE state. Descriptor is free to be programmed (or transfer completed). 01: LCHn is in WAIT FOR HW EVENT state. Descriptor is programmed and is waiting for a hardware event in order to be queued. 10 : LCHn is in either QUEU..." "0,1,2,3"
tree.end
tree "Channel_3"
width 23.
group.long 0xA8++0x3
line.long 0x00 "ICONT_DMCONTEXT_i_3,Data Mover Context n. A new DM transfer can be scheduled only if this register has been writen by SW."
bitfld.long 0x00 20. " END_TYPE   ,1: Send End Of Logical channel notification on transfer completion 0: Do not send End Of Task notification on transfer completion" "0,1"
bitfld.long 0x00 19. "       START_TYPE ,1: Transfer is scheduled on logical channel start notification 0: Transfer is scheduled on write to ICONT_DMCONTEXT register" "0,1"
bitfld.long 0x00 16.--18. "  CMD_TYPE ,Type of transfer - . - . - . - . - . - . - . - ." "SL2toDTCM,SL2toITCM,DTCMtoTDMA,SL2toTDMA,DTCMtoSL2,reserved,reserved1,reserved2"
textline "                                "
hexmask.long.word 0x00 0.--15. 1. " NB_BYTE    ,Number of bytes to transfer (must be a multiple of 128b)"
group.long 0xA4++0x3
line.long 0x00 "ICONT_DMDESTADD_i_3,Data mover destination address for context n (byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " DESTADDR   ,Destination address of transfer"
group.long 0xA0++0x3
line.long 0x00 "ICONT_DMSOURCEADD_i_3,Data mover source address for context n (Byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " SOURCEADDR ,Source address of transfer"
rgroup.long 0xAC++0x3
line.long 0x00 "ICONT_DMSTATUS_i_3,Data Mover status register for context n."
bitfld.long 0x00 0.--1. " STATUS     ,00: LCHn is in IDLE state. Descriptor is free to be programmed (or transfer completed). 01: LCHn is in WAIT FOR HW EVENT state. Descriptor is programmed and is waiting for a hardware event in order to be queued. 10 : LCHn is in either QUEU..." "0,1,2,3"
tree.end
textline ""
width 24.
group.long 0x20++0x3
line.long 0x00 "ICONT_DM_IRQ_EOI,End Of Interrupt number specification"
bitfld.long 0x00 0. " LINE_NUMBER ,Software End Of Interrupt (EOI) control. Write number of interrupt output. - EOI0. - READ0." "EOI0,1"
group.long 0x24++0x3
line.long 0x00 "ICONT_DM_IRQSTATUS_RAW,Per-event raw interrupt status vector (DM interrupt). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0.--3. " LCHN_0      ,Settable raw status for Logical Channel n to 0 (n=NB_DM_LCH-1) For each bit of the bit field: Read 0: No event pending Read 1: Event pending Write 0: No action Write 1: Set event (debug)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x28++0x3
line.long 0x00 "ICONT_DM_IRQSTATUS,Per-event 'enabled' interrupt status vector (DM interrupt). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
bitfld.long 0x00 0.--3. " LCHN_0      ,Clearable, enabled status for Logical Channel n to 0 (n=NB_DM_LCH-1) For each bit of the bit field: Read 0: No (enabled) event pending Read 1: Event pending Write 0: No action Write 1: Clear (raw) event" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x2C++0x3
line.long 0x00 "ICONT_DM_IRQENABLE_SET,Per-event interrupt enable bit vector (DM interrupt). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0.--3. " LCHN_0      ,Enable for Logical Channel n to 0 (n=NB_DM_LCH-1) For each bit of the bit field: Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 0: No action Write 1: Enable interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x30++0x3
line.long 0x00 "ICONT_DM_IRQENABLE_CLR,Per-event interrupt enable bit vector (DM interrupt). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
bitfld.long 0x00 0.--3. " LCHN_0      ,Enable for Logical Channel n to 0 (n=NB_DM_LCH-1) For each bit of the bitfiled: Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 0: No action Write 1: Disable interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree "ICONT2_DM_L3_MAINInterconnect"
base ad:0x5A071800
tree "Channel_0"
width 23.
group.long 0x48++0x3
line.long 0x00 "ICONT_DMCONTEXT_i_0,Data Mover Context n. A new DM transfer can be scheduled only if this register has been writen by SW."
bitfld.long 0x00 20. " END_TYPE   ,1: Send End Of Logical channel notification on transfer completion 0: Do not send End Of Task notification on transfer completion" "0,1"
bitfld.long 0x00 19. "       START_TYPE ,1: Transfer is scheduled on logical channel start notification 0: Transfer is scheduled on write to ICONT_DMCONTEXT register" "0,1"
bitfld.long 0x00 16.--18. "  CMD_TYPE ,Type of transfer - . - . - . - . - . - . - . - ." "SL2toDTCM,SL2toITCM,DTCMtoTDMA,SL2toTDMA,DTCMtoSL2,reserved,reserved1,reserved2"
textline "                                "
hexmask.long.word 0x00 0.--15. 1. " NB_BYTE    ,Number of bytes to transfer (must be a multiple of 128b)"
group.long 0x44++0x3
line.long 0x00 "ICONT_DMDESTADD_i_0,Data mover destination address for context n (byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " DESTADDR   ,Destination address of transfer"
group.long 0x40++0x3
line.long 0x00 "ICONT_DMSOURCEADD_i_0,Data mover source address for context n (Byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " SOURCEADDR ,Source address of transfer"
rgroup.long 0x4C++0x3
line.long 0x00 "ICONT_DMSTATUS_i_0,Data Mover status register for context n."
bitfld.long 0x00 0.--1. " STATUS     ,00: LCHn is in IDLE state. Descriptor is free to be programmed (or transfer completed). 01: LCHn is in WAIT FOR HW EVENT state. Descriptor is programmed and is waiting for a hardware event in order to be queued. 10 : LCHn is in either QUEU..." "0,1,2,3"
tree.end
tree "Channel_1"
width 23.
group.long 0x68++0x3
line.long 0x00 "ICONT_DMCONTEXT_i_1,Data Mover Context n. A new DM transfer can be scheduled only if this register has been writen by SW."
bitfld.long 0x00 20. " END_TYPE   ,1: Send End Of Logical channel notification on transfer completion 0: Do not send End Of Task notification on transfer completion" "0,1"
bitfld.long 0x00 19. "       START_TYPE ,1: Transfer is scheduled on logical channel start notification 0: Transfer is scheduled on write to ICONT_DMCONTEXT register" "0,1"
bitfld.long 0x00 16.--18. "  CMD_TYPE ,Type of transfer - . - . - . - . - . - . - . - ." "SL2toDTCM,SL2toITCM,DTCMtoTDMA,SL2toTDMA,DTCMtoSL2,reserved,reserved1,reserved2"
textline "                                "
hexmask.long.word 0x00 0.--15. 1. " NB_BYTE    ,Number of bytes to transfer (must be a multiple of 128b)"
group.long 0x64++0x3
line.long 0x00 "ICONT_DMDESTADD_i_1,Data mover destination address for context n (byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " DESTADDR   ,Destination address of transfer"
group.long 0x60++0x3
line.long 0x00 "ICONT_DMSOURCEADD_i_1,Data mover source address for context n (Byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " SOURCEADDR ,Source address of transfer"
rgroup.long 0x6C++0x3
line.long 0x00 "ICONT_DMSTATUS_i_1,Data Mover status register for context n."
bitfld.long 0x00 0.--1. " STATUS     ,00: LCHn is in IDLE state. Descriptor is free to be programmed (or transfer completed). 01: LCHn is in WAIT FOR HW EVENT state. Descriptor is programmed and is waiting for a hardware event in order to be queued. 10 : LCHn is in either QUEU..." "0,1,2,3"
tree.end
tree "Channel_2"
width 23.
group.long 0x88++0x3
line.long 0x00 "ICONT_DMCONTEXT_i_2,Data Mover Context n. A new DM transfer can be scheduled only if this register has been writen by SW."
bitfld.long 0x00 20. " END_TYPE   ,1: Send End Of Logical channel notification on transfer completion 0: Do not send End Of Task notification on transfer completion" "0,1"
bitfld.long 0x00 19. "       START_TYPE ,1: Transfer is scheduled on logical channel start notification 0: Transfer is scheduled on write to ICONT_DMCONTEXT register" "0,1"
bitfld.long 0x00 16.--18. "  CMD_TYPE ,Type of transfer - . - . - . - . - . - . - . - ." "SL2toDTCM,SL2toITCM,DTCMtoTDMA,SL2toTDMA,DTCMtoSL2,reserved,reserved1,reserved2"
textline "                                "
hexmask.long.word 0x00 0.--15. 1. " NB_BYTE    ,Number of bytes to transfer (must be a multiple of 128b)"
group.long 0x84++0x3
line.long 0x00 "ICONT_DMDESTADD_i_2,Data mover destination address for context n (byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " DESTADDR   ,Destination address of transfer"
group.long 0x80++0x3
line.long 0x00 "ICONT_DMSOURCEADD_i_2,Data mover source address for context n (Byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " SOURCEADDR ,Source address of transfer"
rgroup.long 0x8C++0x3
line.long 0x00 "ICONT_DMSTATUS_i_2,Data Mover status register for context n."
bitfld.long 0x00 0.--1. " STATUS     ,00: LCHn is in IDLE state. Descriptor is free to be programmed (or transfer completed). 01: LCHn is in WAIT FOR HW EVENT state. Descriptor is programmed and is waiting for a hardware event in order to be queued. 10 : LCHn is in either QUEU..." "0,1,2,3"
tree.end
tree "Channel_3"
width 23.
group.long 0xA8++0x3
line.long 0x00 "ICONT_DMCONTEXT_i_3,Data Mover Context n. A new DM transfer can be scheduled only if this register has been writen by SW."
bitfld.long 0x00 20. " END_TYPE   ,1: Send End Of Logical channel notification on transfer completion 0: Do not send End Of Task notification on transfer completion" "0,1"
bitfld.long 0x00 19. "       START_TYPE ,1: Transfer is scheduled on logical channel start notification 0: Transfer is scheduled on write to ICONT_DMCONTEXT register" "0,1"
bitfld.long 0x00 16.--18. "  CMD_TYPE ,Type of transfer - . - . - . - . - . - . - . - ." "SL2toDTCM,SL2toITCM,DTCMtoTDMA,SL2toTDMA,DTCMtoSL2,reserved,reserved1,reserved2"
textline "                                "
hexmask.long.word 0x00 0.--15. 1. " NB_BYTE    ,Number of bytes to transfer (must be a multiple of 128b)"
group.long 0xA4++0x3
line.long 0x00 "ICONT_DMDESTADD_i_3,Data mover destination address for context n (byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " DESTADDR   ,Destination address of transfer"
group.long 0xA0++0x3
line.long 0x00 "ICONT_DMSOURCEADD_i_3,Data mover source address for context n (Byte address, must be aligned on 128-bit boundary)"
hexmask.long.tbyte 0x00 0.--17. 1. " SOURCEADDR ,Source address of transfer"
rgroup.long 0xAC++0x3
line.long 0x00 "ICONT_DMSTATUS_i_3,Data Mover status register for context n."
bitfld.long 0x00 0.--1. " STATUS     ,00: LCHn is in IDLE state. Descriptor is free to be programmed (or transfer completed). 01: LCHn is in WAIT FOR HW EVENT state. Descriptor is programmed and is waiting for a hardware event in order to be queued. 10 : LCHn is in either QUEU..." "0,1,2,3"
tree.end
textline ""
width 24.
group.long 0x20++0x3
line.long 0x00 "ICONT_DM_IRQ_EOI,End Of Interrupt number specification"
bitfld.long 0x00 0. " LINE_NUMBER ,Software End Of Interrupt (EOI) control. Write number of interrupt output. - EOI0. - READ0." "EOI0,1"
group.long 0x24++0x3
line.long 0x00 "ICONT_DM_IRQSTATUS_RAW,Per-event raw interrupt status vector (DM interrupt). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0.--3. " LCHN_0      ,Settable raw status for Logical Channel n to 0 (n=NB_DM_LCH-1) For each bit of the bit field: Read 0: No event pending Read 1: Event pending Write 0: No action Write 1: Set event (debug)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x28++0x3
line.long 0x00 "ICONT_DM_IRQSTATUS,Per-event 'enabled' interrupt status vector (DM interrupt). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
bitfld.long 0x00 0.--3. " LCHN_0      ,Clearable, enabled status for Logical Channel n to 0 (n=NB_DM_LCH-1) For each bit of the bit field: Read 0: No (enabled) event pending Read 1: Event pending Write 0: No action Write 1: Clear (raw) event" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x2C++0x3
line.long 0x00 "ICONT_DM_IRQENABLE_SET,Per-event interrupt enable bit vector (DM interrupt). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0.--3. " LCHN_0      ,Enable for Logical Channel n to 0 (n=NB_DM_LCH-1) For each bit of the bit field: Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 0: No action Write 1: Enable interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x30++0x3
line.long 0x00 "ICONT_DM_IRQENABLE_CLR,Per-event interrupt enable bit vector (DM interrupt). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
bitfld.long 0x00 0.--3. " LCHN_0      ,Enable for Logical Channel n to 0 (n=NB_DM_LCH-1) For each bit of the bitfiled: Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 0: No action Write 1: Disable interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree.end
tree.open "ICONT1_SBH_ICONT"
tree "ICONT1_SBH_ICONT"
base ad:0xF0C00
tree "Channel_0"
width 25.
group.long 0x90++0x3
line.long 0x00 "ICONT_SBH_COUNTER_j_0,Initialization value of SYNCBOX Handler Counter n"
hexmask.long.byte 0x00 0.--7. 1. " COUNT          ,Value to preload on counter"
group.long 0xB0++0x3
line.long 0x00 "ICONT_SBH_DMLCH_CFG_j_0,This register defines which DMA_IVA group is associated to the Data Mover Logical Chanel n."
bitfld.long 0x00 0.--4. " VDMA_GROUP_ID  ,DMA_IVA group identifier." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x50++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_0,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
tree.end
tree "Channel_1"
width 25.
group.long 0x94++0x3
line.long 0x00 "ICONT_SBH_COUNTER_j_1,Initialization value of SYNCBOX Handler Counter n"
hexmask.long.byte 0x00 0.--7. 1. " COUNT          ,Value to preload on counter"
group.long 0xB4++0x3
line.long 0x00 "ICONT_SBH_DMLCH_CFG_j_1,This register defines which DMA_IVA group is associated to the Data Mover Logical Chanel n."
bitfld.long 0x00 0.--4. " VDMA_GROUP_ID  ,DMA_IVA group identifier." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x54++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_1,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
tree.end
tree "Channel_2"
width 25.
group.long 0x98++0x3
line.long 0x00 "ICONT_SBH_COUNTER_j_2,Initialization value of SYNCBOX Handler Counter n"
hexmask.long.byte 0x00 0.--7. 1. " COUNT          ,Value to preload on counter"
group.long 0xB8++0x3
line.long 0x00 "ICONT_SBH_DMLCH_CFG_j_2,This register defines which DMA_IVA group is associated to the Data Mover Logical Chanel n."
bitfld.long 0x00 0.--4. " VDMA_GROUP_ID  ,DMA_IVA group identifier." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x58++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_2,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
tree.end
tree "Channel_3"
width 25.
group.long 0x9C++0x3
line.long 0x00 "ICONT_SBH_COUNTER_j_3,Initialization value of SYNCBOX Handler Counter n"
hexmask.long.byte 0x00 0.--7. 1. " COUNT          ,Value to preload on counter"
group.long 0xBC++0x3
line.long 0x00 "ICONT_SBH_DMLCH_CFG_j_3,This register defines which DMA_IVA group is associated to the Data Mover Logical Chanel n."
bitfld.long 0x00 0.--4. " VDMA_GROUP_ID  ,DMA_IVA group identifier." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x5C++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_3,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
group.long 0x60++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_4,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
group.long 0x64++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_5,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
tree.end
textline ""
width 27.
group.long 0x0++0x3
line.long 0x00 "ICONT_SBH_CTRL,SYNCBOX Handler control register"
bitfld.long 0x00 0. " BYPASS      ,Control SYNCBOX bypass mode. This bit defines if SYNCBOX is used to synchronize Task between the different HWAs. - . - ." "DISABLE,ENABLE"
rgroup.long 0x4++0x3
line.long 0x00 "ICONT_SBH_ATLR,Activation Task List register. It logs reference of the task interrupting CPU. When bit field x of TX_0 field is 1, Task x has generated an interrupt to the CPU. Bit field n of this register is cleared when writing 1 in bitfiled x of reg..."
bitfld.long 0x00 0.--5. " TX_0        ,Task x to 0 (x=SYNCBOX_NB_TASK-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
wgroup.long 0x8++0x3
line.long 0x00 "ICONT_SBH_ACK,Acknowledge Task register. Task x is automatically acknowledged on writing 1 into bit field x of this register. Register is automatically cleared."
bitfld.long 0x00 0.--5. " TX_0        ,Task x to 0 (x=SYNCBOX_NB_TASK-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
wgroup.long 0xC++0x3
line.long 0x00 "ICONT_SBH_EOT,End Of Task register. SBH notify to the SB that Task x is ended on writing 1 to this register. Register is automatically cleared."
bitfld.long 0x00 0.--5. " TX_0        ,Task x to 0 (x=SYNCBOX_NB_TASK-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x20++0x3
line.long 0x00 "ICONT_SBH_IRQ_EOI,End Of Interrupt number specification"
bitfld.long 0x00 0. " LINE_NUMBER ,Software End Of Interrupt (EOI) control. Write number of interrupt output. - EOI0. - EOI1. - EOI1." "EOI0,EOI1"
group.long 0x24++0x3
line.long 0x00 "ICONT_SBH_IRQSTATUS_RAW_0,Per-event raw interrupt status vector, line #0 (end of transfer). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " VDMAG_END   ,settable raw status for end of transfer interrupt event - . - . - . - ." "noaction_/_noevent,set_/_pending"
group.long 0x28++0x3
line.long 0x00 "ICONT_SBH_IRQSTATUS_0,Per-event 'enabled' interrupt status vector, line #0 (end of transfer). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if no..."
eventfld.long 0x00 0. " VDMAG_END   ,clearable, enabled status for end of transfer interrupt event - . - . - . - ." "noaction_/_noevent,clear_/_pending"
group.long 0x2C++0x3
line.long 0x00 "ICONT_SBH_IRQENABLE_SET_0,Per-event interrupt enable bit vector, line #0 (end of transfer). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " VDMAG_END   ,enable for end of transfer interrupt event - . - . - . - ." "noaction_/_disabled,enable_/_enabled"
group.long 0x30++0x3
line.long 0x00 "ICONT_SBH_IRQENABLE_CLR_0,Per-event interrupt enable bit vector, line #0 (end of transfer). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " VDMAG_END   ,enable for end of transfer interrupt event - . - . - . - ." "noaction_/_disabled,disable_/_enabled"
group.long 0x34++0x3
line.long 0x00 "ICONT_SBH_IRQSTATUS_RAW_1,Per-event raw interrupt status vector, line #0 (error). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " SBH_ERR     ,settable raw status for SBH error event - . - . - . - ." "noaction_/_noevent,set_/_pending"
group.long 0x38++0x3
line.long 0x00 "ICONT_SBH_IRQSTATUS_1,Per-event 'enabled' interrupt status vector, line #1 (error). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " SBH_ERR     ,clearable, enabled status for SBH error event - . - . - . - ." "noaction_/_noevent,clear_/_pending"
group.long 0x3C++0x3
line.long 0x00 "ICONT_SBH_IRQENABLE_SET_1,Per-event interrupt enable bit vector, line #1 (error). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " SBH_ERR     ,enable for SBH error event - . - . - . - ." "noaction_/_disabled,enable_/_enabled"
group.long 0x40++0x3
line.long 0x00 "ICONT_SBH_IRQENABLE_CLR_1,Per-event interrupt enable bit vector, line #1 (error). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " SBH_ERR     ,enable for SBH error event - . - . - . - ." "noaction_/_disabled,disable_/_enabled"
wgroup.long 0xD0++0x3
line.long 0x00 "ICONT_SBH_BYP_VDMAG_START,SYNCBOX Bypass mode DMA_IVA group Start register. Register is cleared when ICONT_SBHCTRL.BYPASS bit is writen to 1. Writing to this register is allowed only when ICONT_SBHCTRL.BYPASS bit is 1. Writing 1 into bitfiel n will STA..."
hexmask.long 0x00 0.--31. 1. " VDMAG31_0   ,Start DMA_IVA Group"
rgroup.long 0xD4++0x3
line.long 0x00 "ICONT_SBH_BYP_VDMAG_END,SYNCBOX Bypass mode DMA_IVA group End register status. This register is cleared when ICONT_SBHCTRL.BYPASS bit is writen to 1. It is updated every time a DMA_IVA group is completed, that is, on DMA_IVA End of Group detection, onl..."
hexmask.long 0x00 0.--31. 1. " VDMAG31_0   ,DMA_IVA Group is ended"
width 0x0B
tree.end
tree "ICONT2_SBH_ICONT"
base ad:0xF1C00
tree "Channel_0"
width 25.
group.long 0x90++0x3
line.long 0x00 "ICONT_SBH_COUNTER_j_0,Initialization value of SYNCBOX Handler Counter n"
hexmask.long.byte 0x00 0.--7. 1. " COUNT          ,Value to preload on counter"
group.long 0xB0++0x3
line.long 0x00 "ICONT_SBH_DMLCH_CFG_j_0,This register defines which DMA_IVA group is associated to the Data Mover Logical Chanel n."
bitfld.long 0x00 0.--4. " VDMA_GROUP_ID  ,DMA_IVA group identifier." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x50++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_0,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
tree.end
tree "Channel_1"
width 25.
group.long 0x94++0x3
line.long 0x00 "ICONT_SBH_COUNTER_j_1,Initialization value of SYNCBOX Handler Counter n"
hexmask.long.byte 0x00 0.--7. 1. " COUNT          ,Value to preload on counter"
group.long 0xB4++0x3
line.long 0x00 "ICONT_SBH_DMLCH_CFG_j_1,This register defines which DMA_IVA group is associated to the Data Mover Logical Chanel n."
bitfld.long 0x00 0.--4. " VDMA_GROUP_ID  ,DMA_IVA group identifier." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x54++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_1,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
tree.end
tree "Channel_2"
width 25.
group.long 0x98++0x3
line.long 0x00 "ICONT_SBH_COUNTER_j_2,Initialization value of SYNCBOX Handler Counter n"
hexmask.long.byte 0x00 0.--7. 1. " COUNT          ,Value to preload on counter"
group.long 0xB8++0x3
line.long 0x00 "ICONT_SBH_DMLCH_CFG_j_2,This register defines which DMA_IVA group is associated to the Data Mover Logical Chanel n."
bitfld.long 0x00 0.--4. " VDMA_GROUP_ID  ,DMA_IVA group identifier." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x58++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_2,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
tree.end
tree "Channel_3"
width 25.
group.long 0x9C++0x3
line.long 0x00 "ICONT_SBH_COUNTER_j_3,Initialization value of SYNCBOX Handler Counter n"
hexmask.long.byte 0x00 0.--7. 1. " COUNT          ,Value to preload on counter"
group.long 0xBC++0x3
line.long 0x00 "ICONT_SBH_DMLCH_CFG_j_3,This register defines which DMA_IVA group is associated to the Data Mover Logical Chanel n."
bitfld.long 0x00 0.--4. " VDMA_GROUP_ID  ,DMA_IVA group identifier." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x5C++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_3,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
group.long 0x60++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_4,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
group.long 0x64++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_5,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
tree.end
textline ""
width 27.
group.long 0x0++0x3
line.long 0x00 "ICONT_SBH_CTRL,SYNCBOX Handler control register"
bitfld.long 0x00 0. " BYPASS      ,Control SYNCBOX bypass mode. This bit defines if SYNCBOX is used to synchronize Task between the different HWAs. - . - ." "DISABLE,ENABLE"
rgroup.long 0x4++0x3
line.long 0x00 "ICONT_SBH_ATLR,Activation Task List register. It logs reference of the task interrupting CPU. When bit field x of TX_0 field is 1, Task x has generated an interrupt to the CPU. Bit field n of this register is cleared when writing 1 in bitfiled x of reg..."
bitfld.long 0x00 0.--5. " TX_0        ,Task x to 0 (x=SYNCBOX_NB_TASK-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
wgroup.long 0x8++0x3
line.long 0x00 "ICONT_SBH_ACK,Acknowledge Task register. Task x is automatically acknowledged on writing 1 into bit field x of this register. Register is automatically cleared."
bitfld.long 0x00 0.--5. " TX_0        ,Task x to 0 (x=SYNCBOX_NB_TASK-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
wgroup.long 0xC++0x3
line.long 0x00 "ICONT_SBH_EOT,End Of Task register. SBH notify to the SB that Task x is ended on writing 1 to this register. Register is automatically cleared."
bitfld.long 0x00 0.--5. " TX_0        ,Task x to 0 (x=SYNCBOX_NB_TASK-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x20++0x3
line.long 0x00 "ICONT_SBH_IRQ_EOI,End Of Interrupt number specification"
bitfld.long 0x00 0. " LINE_NUMBER ,Software End Of Interrupt (EOI) control. Write number of interrupt output. - EOI0. - EOI1. - EOI1." "EOI0,EOI1"
group.long 0x24++0x3
line.long 0x00 "ICONT_SBH_IRQSTATUS_RAW_0,Per-event raw interrupt status vector, line #0 (end of transfer). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " VDMAG_END   ,settable raw status for end of transfer interrupt event - . - . - . - ." "noaction_/_noevent,set_/_pending"
group.long 0x28++0x3
line.long 0x00 "ICONT_SBH_IRQSTATUS_0,Per-event 'enabled' interrupt status vector, line #0 (end of transfer). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if no..."
eventfld.long 0x00 0. " VDMAG_END   ,clearable, enabled status for end of transfer interrupt event - . - . - . - ." "noaction_/_noevent,clear_/_pending"
group.long 0x2C++0x3
line.long 0x00 "ICONT_SBH_IRQENABLE_SET_0,Per-event interrupt enable bit vector, line #0 (end of transfer). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " VDMAG_END   ,enable for end of transfer interrupt event - . - . - . - ." "noaction_/_disabled,enable_/_enabled"
group.long 0x30++0x3
line.long 0x00 "ICONT_SBH_IRQENABLE_CLR_0,Per-event interrupt enable bit vector, line #0 (end of transfer). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " VDMAG_END   ,enable for end of transfer interrupt event - . - . - . - ." "noaction_/_disabled,disable_/_enabled"
group.long 0x34++0x3
line.long 0x00 "ICONT_SBH_IRQSTATUS_RAW_1,Per-event raw interrupt status vector, line #0 (error). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " SBH_ERR     ,settable raw status for SBH error event - . - . - . - ." "noaction_/_noevent,set_/_pending"
group.long 0x38++0x3
line.long 0x00 "ICONT_SBH_IRQSTATUS_1,Per-event 'enabled' interrupt status vector, line #1 (error). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " SBH_ERR     ,clearable, enabled status for SBH error event - . - . - . - ." "noaction_/_noevent,clear_/_pending"
group.long 0x3C++0x3
line.long 0x00 "ICONT_SBH_IRQENABLE_SET_1,Per-event interrupt enable bit vector, line #1 (error). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " SBH_ERR     ,enable for SBH error event - . - . - . - ." "noaction_/_disabled,enable_/_enabled"
group.long 0x40++0x3
line.long 0x00 "ICONT_SBH_IRQENABLE_CLR_1,Per-event interrupt enable bit vector, line #1 (error). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " SBH_ERR     ,enable for SBH error event - . - . - . - ." "noaction_/_disabled,disable_/_enabled"
wgroup.long 0xD0++0x3
line.long 0x00 "ICONT_SBH_BYP_VDMAG_START,SYNCBOX Bypass mode DMA_IVA group Start register. Register is cleared when ICONT_SBHCTRL.BYPASS bit is writen to 1. Writing to this register is allowed only when ICONT_SBHCTRL.BYPASS bit is 1. Writing 1 into bitfiel n will STA..."
hexmask.long 0x00 0.--31. 1. " VDMAG31_0   ,Start DMA_IVA Group"
rgroup.long 0xD4++0x3
line.long 0x00 "ICONT_SBH_BYP_VDMAG_END,SYNCBOX Bypass mode DMA_IVA group End register status. This register is cleared when ICONT_SBHCTRL.BYPASS bit is writen to 1. It is updated every time a DMA_IVA group is completed, that is, on DMA_IVA End of Group detection, onl..."
hexmask.long 0x00 0.--31. 1. " VDMAG31_0   ,DMA_IVA Group is ended"
width 0x0B
tree.end
tree "ICONT1_SBH_ICONTSelf_Access"
base ad:0xF2C00
tree "Channel_0"
width 25.
group.long 0x90++0x3
line.long 0x00 "ICONT_SBH_COUNTER_j_0,Initialization value of SYNCBOX Handler Counter n"
hexmask.long.byte 0x00 0.--7. 1. " COUNT          ,Value to preload on counter"
group.long 0xB0++0x3
line.long 0x00 "ICONT_SBH_DMLCH_CFG_j_0,This register defines which DMA_IVA group is associated to the Data Mover Logical Chanel n."
bitfld.long 0x00 0.--4. " VDMA_GROUP_ID  ,DMA_IVA group identifier." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x50++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_0,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
tree.end
tree "Channel_1"
width 25.
group.long 0x94++0x3
line.long 0x00 "ICONT_SBH_COUNTER_j_1,Initialization value of SYNCBOX Handler Counter n"
hexmask.long.byte 0x00 0.--7. 1. " COUNT          ,Value to preload on counter"
group.long 0xB4++0x3
line.long 0x00 "ICONT_SBH_DMLCH_CFG_j_1,This register defines which DMA_IVA group is associated to the Data Mover Logical Chanel n."
bitfld.long 0x00 0.--4. " VDMA_GROUP_ID  ,DMA_IVA group identifier." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x54++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_1,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
tree.end
tree "Channel_2"
width 25.
group.long 0x98++0x3
line.long 0x00 "ICONT_SBH_COUNTER_j_2,Initialization value of SYNCBOX Handler Counter n"
hexmask.long.byte 0x00 0.--7. 1. " COUNT          ,Value to preload on counter"
group.long 0xB8++0x3
line.long 0x00 "ICONT_SBH_DMLCH_CFG_j_2,This register defines which DMA_IVA group is associated to the Data Mover Logical Chanel n."
bitfld.long 0x00 0.--4. " VDMA_GROUP_ID  ,DMA_IVA group identifier." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x58++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_2,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
tree.end
tree "Channel_3"
width 25.
group.long 0x9C++0x3
line.long 0x00 "ICONT_SBH_COUNTER_j_3,Initialization value of SYNCBOX Handler Counter n"
hexmask.long.byte 0x00 0.--7. 1. " COUNT          ,Value to preload on counter"
group.long 0xBC++0x3
line.long 0x00 "ICONT_SBH_DMLCH_CFG_j_3,This register defines which DMA_IVA group is associated to the Data Mover Logical Chanel n."
bitfld.long 0x00 0.--4. " VDMA_GROUP_ID  ,DMA_IVA group identifier." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x5C++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_3,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
group.long 0x60++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_4,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
group.long 0x64++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_5,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
tree.end
textline ""
width 27.
group.long 0x0++0x3
line.long 0x00 "ICONT_SBH_CTRL,SYNCBOX Handler control register"
bitfld.long 0x00 0. " BYPASS      ,Control SYNCBOX bypass mode. This bit defines if SYNCBOX is used to synchronize Task between the different HWAs. - . - ." "DISABLE,ENABLE"
rgroup.long 0x4++0x3
line.long 0x00 "ICONT_SBH_ATLR,Activation Task List register. It logs reference of the task interrupting CPU. When bit field x of TX_0 field is 1, Task x has generated an interrupt to the CPU. Bit field n of this register is cleared when writing 1 in bitfiled x of reg..."
bitfld.long 0x00 0.--5. " TX_0        ,Task x to 0 (x=SYNCBOX_NB_TASK-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
wgroup.long 0x8++0x3
line.long 0x00 "ICONT_SBH_ACK,Acknowledge Task register. Task x is automatically acknowledged on writing 1 into bit field x of this register. Register is automatically cleared."
bitfld.long 0x00 0.--5. " TX_0        ,Task x to 0 (x=SYNCBOX_NB_TASK-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
wgroup.long 0xC++0x3
line.long 0x00 "ICONT_SBH_EOT,End Of Task register. SBH notify to the SB that Task x is ended on writing 1 to this register. Register is automatically cleared."
bitfld.long 0x00 0.--5. " TX_0        ,Task x to 0 (x=SYNCBOX_NB_TASK-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x20++0x3
line.long 0x00 "ICONT_SBH_IRQ_EOI,End Of Interrupt number specification"
bitfld.long 0x00 0. " LINE_NUMBER ,Software End Of Interrupt (EOI) control. Write number of interrupt output. - EOI0. - EOI1. - EOI1." "EOI0,EOI1"
group.long 0x24++0x3
line.long 0x00 "ICONT_SBH_IRQSTATUS_RAW_0,Per-event raw interrupt status vector, line #0 (end of transfer). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " VDMAG_END   ,settable raw status for end of transfer interrupt event - . - . - . - ." "noaction_/_noevent,set_/_pending"
group.long 0x28++0x3
line.long 0x00 "ICONT_SBH_IRQSTATUS_0,Per-event 'enabled' interrupt status vector, line #0 (end of transfer). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if no..."
eventfld.long 0x00 0. " VDMAG_END   ,clearable, enabled status for end of transfer interrupt event - . - . - . - ." "noaction_/_noevent,clear_/_pending"
group.long 0x2C++0x3
line.long 0x00 "ICONT_SBH_IRQENABLE_SET_0,Per-event interrupt enable bit vector, line #0 (end of transfer). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " VDMAG_END   ,enable for end of transfer interrupt event - . - . - . - ." "noaction_/_disabled,enable_/_enabled"
group.long 0x30++0x3
line.long 0x00 "ICONT_SBH_IRQENABLE_CLR_0,Per-event interrupt enable bit vector, line #0 (end of transfer). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " VDMAG_END   ,enable for end of transfer interrupt event - . - . - . - ." "noaction_/_disabled,disable_/_enabled"
group.long 0x34++0x3
line.long 0x00 "ICONT_SBH_IRQSTATUS_RAW_1,Per-event raw interrupt status vector, line #0 (error). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " SBH_ERR     ,settable raw status for SBH error event - . - . - . - ." "noaction_/_noevent,set_/_pending"
group.long 0x38++0x3
line.long 0x00 "ICONT_SBH_IRQSTATUS_1,Per-event 'enabled' interrupt status vector, line #1 (error). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " SBH_ERR     ,clearable, enabled status for SBH error event - . - . - . - ." "noaction_/_noevent,clear_/_pending"
group.long 0x3C++0x3
line.long 0x00 "ICONT_SBH_IRQENABLE_SET_1,Per-event interrupt enable bit vector, line #1 (error). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " SBH_ERR     ,enable for SBH error event - . - . - . - ." "noaction_/_disabled,enable_/_enabled"
group.long 0x40++0x3
line.long 0x00 "ICONT_SBH_IRQENABLE_CLR_1,Per-event interrupt enable bit vector, line #1 (error). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " SBH_ERR     ,enable for SBH error event - . - . - . - ." "noaction_/_disabled,disable_/_enabled"
wgroup.long 0xD0++0x3
line.long 0x00 "ICONT_SBH_BYP_VDMAG_START,SYNCBOX Bypass mode DMA_IVA group Start register. Register is cleared when ICONT_SBHCTRL.BYPASS bit is writen to 1. Writing to this register is allowed only when ICONT_SBHCTRL.BYPASS bit is 1. Writing 1 into bitfiel n will STA..."
hexmask.long 0x00 0.--31. 1. " VDMAG31_0   ,Start DMA_IVA Group"
rgroup.long 0xD4++0x3
line.long 0x00 "ICONT_SBH_BYP_VDMAG_END,SYNCBOX Bypass mode DMA_IVA group End register status. This register is cleared when ICONT_SBHCTRL.BYPASS bit is writen to 1. It is updated every time a DMA_IVA group is completed, that is, on DMA_IVA End of Group detection, onl..."
hexmask.long 0x00 0.--31. 1. " VDMAG31_0   ,DMA_IVA Group is ended"
width 0x0B
tree.end
tree "ICONT2_SBH_ICONTSelf_Access"
base ad:0xF3C00
tree "Channel_0"
width 25.
group.long 0x90++0x3
line.long 0x00 "ICONT_SBH_COUNTER_j_0,Initialization value of SYNCBOX Handler Counter n"
hexmask.long.byte 0x00 0.--7. 1. " COUNT          ,Value to preload on counter"
group.long 0xB0++0x3
line.long 0x00 "ICONT_SBH_DMLCH_CFG_j_0,This register defines which DMA_IVA group is associated to the Data Mover Logical Chanel n."
bitfld.long 0x00 0.--4. " VDMA_GROUP_ID  ,DMA_IVA group identifier." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x50++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_0,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
tree.end
tree "Channel_1"
width 25.
group.long 0x94++0x3
line.long 0x00 "ICONT_SBH_COUNTER_j_1,Initialization value of SYNCBOX Handler Counter n"
hexmask.long.byte 0x00 0.--7. 1. " COUNT          ,Value to preload on counter"
group.long 0xB4++0x3
line.long 0x00 "ICONT_SBH_DMLCH_CFG_j_1,This register defines which DMA_IVA group is associated to the Data Mover Logical Chanel n."
bitfld.long 0x00 0.--4. " VDMA_GROUP_ID  ,DMA_IVA group identifier." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x54++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_1,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
tree.end
tree "Channel_2"
width 25.
group.long 0x98++0x3
line.long 0x00 "ICONT_SBH_COUNTER_j_2,Initialization value of SYNCBOX Handler Counter n"
hexmask.long.byte 0x00 0.--7. 1. " COUNT          ,Value to preload on counter"
group.long 0xB8++0x3
line.long 0x00 "ICONT_SBH_DMLCH_CFG_j_2,This register defines which DMA_IVA group is associated to the Data Mover Logical Chanel n."
bitfld.long 0x00 0.--4. " VDMA_GROUP_ID  ,DMA_IVA group identifier." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x58++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_2,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
tree.end
tree "Channel_3"
width 25.
group.long 0x9C++0x3
line.long 0x00 "ICONT_SBH_COUNTER_j_3,Initialization value of SYNCBOX Handler Counter n"
hexmask.long.byte 0x00 0.--7. 1. " COUNT          ,Value to preload on counter"
group.long 0xBC++0x3
line.long 0x00 "ICONT_SBH_DMLCH_CFG_j_3,This register defines which DMA_IVA group is associated to the Data Mover Logical Chanel n."
bitfld.long 0x00 0.--4. " VDMA_GROUP_ID  ,DMA_IVA group identifier." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x5C++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_3,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
group.long 0x60++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_4,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
group.long 0x64++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_5,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
tree.end
textline ""
width 27.
group.long 0x0++0x3
line.long 0x00 "ICONT_SBH_CTRL,SYNCBOX Handler control register"
bitfld.long 0x00 0. " BYPASS      ,Control SYNCBOX bypass mode. This bit defines if SYNCBOX is used to synchronize Task between the different HWAs. - . - ." "DISABLE,ENABLE"
rgroup.long 0x4++0x3
line.long 0x00 "ICONT_SBH_ATLR,Activation Task List register. It logs reference of the task interrupting CPU. When bit field x of TX_0 field is 1, Task x has generated an interrupt to the CPU. Bit field n of this register is cleared when writing 1 in bitfiled x of reg..."
bitfld.long 0x00 0.--5. " TX_0        ,Task x to 0 (x=SYNCBOX_NB_TASK-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
wgroup.long 0x8++0x3
line.long 0x00 "ICONT_SBH_ACK,Acknowledge Task register. Task x is automatically acknowledged on writing 1 into bit field x of this register. Register is automatically cleared."
bitfld.long 0x00 0.--5. " TX_0        ,Task x to 0 (x=SYNCBOX_NB_TASK-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
wgroup.long 0xC++0x3
line.long 0x00 "ICONT_SBH_EOT,End Of Task register. SBH notify to the SB that Task x is ended on writing 1 to this register. Register is automatically cleared."
bitfld.long 0x00 0.--5. " TX_0        ,Task x to 0 (x=SYNCBOX_NB_TASK-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x20++0x3
line.long 0x00 "ICONT_SBH_IRQ_EOI,End Of Interrupt number specification"
bitfld.long 0x00 0. " LINE_NUMBER ,Software End Of Interrupt (EOI) control. Write number of interrupt output. - EOI0. - EOI1. - EOI1." "EOI0,EOI1"
group.long 0x24++0x3
line.long 0x00 "ICONT_SBH_IRQSTATUS_RAW_0,Per-event raw interrupt status vector, line #0 (end of transfer). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " VDMAG_END   ,settable raw status for end of transfer interrupt event - . - . - . - ." "noaction_/_noevent,set_/_pending"
group.long 0x28++0x3
line.long 0x00 "ICONT_SBH_IRQSTATUS_0,Per-event 'enabled' interrupt status vector, line #0 (end of transfer). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if no..."
eventfld.long 0x00 0. " VDMAG_END   ,clearable, enabled status for end of transfer interrupt event - . - . - . - ." "noaction_/_noevent,clear_/_pending"
group.long 0x2C++0x3
line.long 0x00 "ICONT_SBH_IRQENABLE_SET_0,Per-event interrupt enable bit vector, line #0 (end of transfer). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " VDMAG_END   ,enable for end of transfer interrupt event - . - . - . - ." "noaction_/_disabled,enable_/_enabled"
group.long 0x30++0x3
line.long 0x00 "ICONT_SBH_IRQENABLE_CLR_0,Per-event interrupt enable bit vector, line #0 (end of transfer). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " VDMAG_END   ,enable for end of transfer interrupt event - . - . - . - ." "noaction_/_disabled,disable_/_enabled"
group.long 0x34++0x3
line.long 0x00 "ICONT_SBH_IRQSTATUS_RAW_1,Per-event raw interrupt status vector, line #0 (error). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " SBH_ERR     ,settable raw status for SBH error event - . - . - . - ." "noaction_/_noevent,set_/_pending"
group.long 0x38++0x3
line.long 0x00 "ICONT_SBH_IRQSTATUS_1,Per-event 'enabled' interrupt status vector, line #1 (error). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " SBH_ERR     ,clearable, enabled status for SBH error event - . - . - . - ." "noaction_/_noevent,clear_/_pending"
group.long 0x3C++0x3
line.long 0x00 "ICONT_SBH_IRQENABLE_SET_1,Per-event interrupt enable bit vector, line #1 (error). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " SBH_ERR     ,enable for SBH error event - . - . - . - ." "noaction_/_disabled,enable_/_enabled"
group.long 0x40++0x3
line.long 0x00 "ICONT_SBH_IRQENABLE_CLR_1,Per-event interrupt enable bit vector, line #1 (error). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " SBH_ERR     ,enable for SBH error event - . - . - . - ." "noaction_/_disabled,disable_/_enabled"
wgroup.long 0xD0++0x3
line.long 0x00 "ICONT_SBH_BYP_VDMAG_START,SYNCBOX Bypass mode DMA_IVA group Start register. Register is cleared when ICONT_SBHCTRL.BYPASS bit is writen to 1. Writing to this register is allowed only when ICONT_SBHCTRL.BYPASS bit is 1. Writing 1 into bitfiel n will STA..."
hexmask.long 0x00 0.--31. 1. " VDMAG31_0   ,Start DMA_IVA Group"
rgroup.long 0xD4++0x3
line.long 0x00 "ICONT_SBH_BYP_VDMAG_END,SYNCBOX Bypass mode DMA_IVA group End register status. This register is cleared when ICONT_SBHCTRL.BYPASS bit is writen to 1. It is updated every time a DMA_IVA group is completed, that is, on DMA_IVA End of Group detection, onl..."
hexmask.long 0x00 0.--31. 1. " VDMAG31_0   ,DMA_IVA Group is ended"
width 0x0B
tree.end
tree "ICONT1_SBH_L3_MAINInterconnect"
base ad:0x5A070C00
tree "Channel_0"
width 25.
group.long 0x90++0x3
line.long 0x00 "ICONT_SBH_COUNTER_j_0,Initialization value of SYNCBOX Handler Counter n"
hexmask.long.byte 0x00 0.--7. 1. " COUNT          ,Value to preload on counter"
group.long 0xB0++0x3
line.long 0x00 "ICONT_SBH_DMLCH_CFG_j_0,This register defines which DMA_IVA group is associated to the Data Mover Logical Chanel n."
bitfld.long 0x00 0.--4. " VDMA_GROUP_ID  ,DMA_IVA group identifier." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x50++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_0,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
tree.end
tree "Channel_1"
width 25.
group.long 0x94++0x3
line.long 0x00 "ICONT_SBH_COUNTER_j_1,Initialization value of SYNCBOX Handler Counter n"
hexmask.long.byte 0x00 0.--7. 1. " COUNT          ,Value to preload on counter"
group.long 0xB4++0x3
line.long 0x00 "ICONT_SBH_DMLCH_CFG_j_1,This register defines which DMA_IVA group is associated to the Data Mover Logical Chanel n."
bitfld.long 0x00 0.--4. " VDMA_GROUP_ID  ,DMA_IVA group identifier." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x54++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_1,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
tree.end
tree "Channel_2"
width 25.
group.long 0x98++0x3
line.long 0x00 "ICONT_SBH_COUNTER_j_2,Initialization value of SYNCBOX Handler Counter n"
hexmask.long.byte 0x00 0.--7. 1. " COUNT          ,Value to preload on counter"
group.long 0xB8++0x3
line.long 0x00 "ICONT_SBH_DMLCH_CFG_j_2,This register defines which DMA_IVA group is associated to the Data Mover Logical Chanel n."
bitfld.long 0x00 0.--4. " VDMA_GROUP_ID  ,DMA_IVA group identifier." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x58++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_2,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
tree.end
tree "Channel_3"
width 25.
group.long 0x9C++0x3
line.long 0x00 "ICONT_SBH_COUNTER_j_3,Initialization value of SYNCBOX Handler Counter n"
hexmask.long.byte 0x00 0.--7. 1. " COUNT          ,Value to preload on counter"
group.long 0xBC++0x3
line.long 0x00 "ICONT_SBH_DMLCH_CFG_j_3,This register defines which DMA_IVA group is associated to the Data Mover Logical Chanel n."
bitfld.long 0x00 0.--4. " VDMA_GROUP_ID  ,DMA_IVA group identifier." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x5C++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_3,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
group.long 0x60++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_4,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
group.long 0x64++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_5,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
tree.end
textline ""
width 27.
group.long 0x0++0x3
line.long 0x00 "ICONT_SBH_CTRL,SYNCBOX Handler control register"
bitfld.long 0x00 0. " BYPASS      ,Control SYNCBOX bypass mode. This bit defines if SYNCBOX is used to synchronize Task between the different HWAs. - . - ." "DISABLE,ENABLE"
rgroup.long 0x4++0x3
line.long 0x00 "ICONT_SBH_ATLR,Activation Task List register. It logs reference of the task interrupting CPU. When bit field x of TX_0 field is 1, Task x has generated an interrupt to the CPU. Bit field n of this register is cleared when writing 1 in bitfiled x of reg..."
bitfld.long 0x00 0.--5. " TX_0        ,Task x to 0 (x=SYNCBOX_NB_TASK-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
wgroup.long 0x8++0x3
line.long 0x00 "ICONT_SBH_ACK,Acknowledge Task register. Task x is automatically acknowledged on writing 1 into bit field x of this register. Register is automatically cleared."
bitfld.long 0x00 0.--5. " TX_0        ,Task x to 0 (x=SYNCBOX_NB_TASK-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
wgroup.long 0xC++0x3
line.long 0x00 "ICONT_SBH_EOT,End Of Task register. SBH notify to the SB that Task x is ended on writing 1 to this register. Register is automatically cleared."
bitfld.long 0x00 0.--5. " TX_0        ,Task x to 0 (x=SYNCBOX_NB_TASK-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x20++0x3
line.long 0x00 "ICONT_SBH_IRQ_EOI,End Of Interrupt number specification"
bitfld.long 0x00 0. " LINE_NUMBER ,Software End Of Interrupt (EOI) control. Write number of interrupt output. - EOI0. - EOI1. - EOI1." "EOI0,EOI1"
group.long 0x24++0x3
line.long 0x00 "ICONT_SBH_IRQSTATUS_RAW_0,Per-event raw interrupt status vector, line #0 (end of transfer). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " VDMAG_END   ,settable raw status for end of transfer interrupt event - . - . - . - ." "noaction_/_noevent,set_/_pending"
group.long 0x28++0x3
line.long 0x00 "ICONT_SBH_IRQSTATUS_0,Per-event 'enabled' interrupt status vector, line #0 (end of transfer). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if no..."
eventfld.long 0x00 0. " VDMAG_END   ,clearable, enabled status for end of transfer interrupt event - . - . - . - ." "noaction_/_noevent,clear_/_pending"
group.long 0x2C++0x3
line.long 0x00 "ICONT_SBH_IRQENABLE_SET_0,Per-event interrupt enable bit vector, line #0 (end of transfer). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " VDMAG_END   ,enable for end of transfer interrupt event - . - . - . - ." "noaction_/_disabled,enable_/_enabled"
group.long 0x30++0x3
line.long 0x00 "ICONT_SBH_IRQENABLE_CLR_0,Per-event interrupt enable bit vector, line #0 (end of transfer). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " VDMAG_END   ,enable for end of transfer interrupt event - . - . - . - ." "noaction_/_disabled,disable_/_enabled"
group.long 0x34++0x3
line.long 0x00 "ICONT_SBH_IRQSTATUS_RAW_1,Per-event raw interrupt status vector, line #0 (error). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " SBH_ERR     ,settable raw status for SBH error event - . - . - . - ." "noaction_/_noevent,set_/_pending"
group.long 0x38++0x3
line.long 0x00 "ICONT_SBH_IRQSTATUS_1,Per-event 'enabled' interrupt status vector, line #1 (error). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " SBH_ERR     ,clearable, enabled status for SBH error event - . - . - . - ." "noaction_/_noevent,clear_/_pending"
group.long 0x3C++0x3
line.long 0x00 "ICONT_SBH_IRQENABLE_SET_1,Per-event interrupt enable bit vector, line #1 (error). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " SBH_ERR     ,enable for SBH error event - . - . - . - ." "noaction_/_disabled,enable_/_enabled"
group.long 0x40++0x3
line.long 0x00 "ICONT_SBH_IRQENABLE_CLR_1,Per-event interrupt enable bit vector, line #1 (error). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " SBH_ERR     ,enable for SBH error event - . - . - . - ." "noaction_/_disabled,disable_/_enabled"
wgroup.long 0xD0++0x3
line.long 0x00 "ICONT_SBH_BYP_VDMAG_START,SYNCBOX Bypass mode DMA_IVA group Start register. Register is cleared when ICONT_SBHCTRL.BYPASS bit is writen to 1. Writing to this register is allowed only when ICONT_SBHCTRL.BYPASS bit is 1. Writing 1 into bitfiel n will STA..."
hexmask.long 0x00 0.--31. 1. " VDMAG31_0   ,Start DMA_IVA Group"
rgroup.long 0xD4++0x3
line.long 0x00 "ICONT_SBH_BYP_VDMAG_END,SYNCBOX Bypass mode DMA_IVA group End register status. This register is cleared when ICONT_SBHCTRL.BYPASS bit is writen to 1. It is updated every time a DMA_IVA group is completed, that is, on DMA_IVA End of Group detection, onl..."
hexmask.long 0x00 0.--31. 1. " VDMAG31_0   ,DMA_IVA Group is ended"
width 0x0B
tree.end
tree "ICONT2_SBH_L3_MAINInterconnect"
base ad:0x5A071C00
tree "Channel_0"
width 25.
group.long 0x90++0x3
line.long 0x00 "ICONT_SBH_COUNTER_j_0,Initialization value of SYNCBOX Handler Counter n"
hexmask.long.byte 0x00 0.--7. 1. " COUNT          ,Value to preload on counter"
group.long 0xB0++0x3
line.long 0x00 "ICONT_SBH_DMLCH_CFG_j_0,This register defines which DMA_IVA group is associated to the Data Mover Logical Chanel n."
bitfld.long 0x00 0.--4. " VDMA_GROUP_ID  ,DMA_IVA group identifier." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x50++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_0,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
tree.end
tree "Channel_1"
width 25.
group.long 0x94++0x3
line.long 0x00 "ICONT_SBH_COUNTER_j_1,Initialization value of SYNCBOX Handler Counter n"
hexmask.long.byte 0x00 0.--7. 1. " COUNT          ,Value to preload on counter"
group.long 0xB4++0x3
line.long 0x00 "ICONT_SBH_DMLCH_CFG_j_1,This register defines which DMA_IVA group is associated to the Data Mover Logical Chanel n."
bitfld.long 0x00 0.--4. " VDMA_GROUP_ID  ,DMA_IVA group identifier." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x54++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_1,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
tree.end
tree "Channel_2"
width 25.
group.long 0x98++0x3
line.long 0x00 "ICONT_SBH_COUNTER_j_2,Initialization value of SYNCBOX Handler Counter n"
hexmask.long.byte 0x00 0.--7. 1. " COUNT          ,Value to preload on counter"
group.long 0xB8++0x3
line.long 0x00 "ICONT_SBH_DMLCH_CFG_j_2,This register defines which DMA_IVA group is associated to the Data Mover Logical Chanel n."
bitfld.long 0x00 0.--4. " VDMA_GROUP_ID  ,DMA_IVA group identifier." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x58++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_2,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
tree.end
tree "Channel_3"
width 25.
group.long 0x9C++0x3
line.long 0x00 "ICONT_SBH_COUNTER_j_3,Initialization value of SYNCBOX Handler Counter n"
hexmask.long.byte 0x00 0.--7. 1. " COUNT          ,Value to preload on counter"
group.long 0xBC++0x3
line.long 0x00 "ICONT_SBH_DMLCH_CFG_j_3,This register defines which DMA_IVA group is associated to the Data Mover Logical Chanel n."
bitfld.long 0x00 0.--4. " VDMA_GROUP_ID  ,DMA_IVA group identifier." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x5C++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_3,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
group.long 0x60++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_4,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
group.long 0x64++0x3
line.long 0x00 "ICONT_SBH_TCCR_i_5,Task n Configuration Control Register"
bitfld.long 0x00 24.--25. " COUNTER_ID     ,Counter Identifier" "0,1,2,3"
bitfld.long 0x00 22. "   COUNTER_EN   ,Counter Enable Bit" "0,1"
hexmask.long.byte 0x00 13.--20. 1. "   VDMA_G_SELECT ,DMA_IVA Group Selector"
textline "                                  "
bitfld.long 0x00 10.--11. " VDMA_SG_SELECT ,DMA_IVA Super Group Enable - . - . - . - ." "00,01,10,11"
bitfld.long 0x00 4.--7. "  DM_LCHN_0_EN ,Enable Data Mover Logical channel n to 0 (n=NB_DM_LCH-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--2. "  TASK_TYPE     ,Task Type - . - . - . - . - . - . - . - ." "000,001,010,011,100,101,110,111"
tree.end
textline ""
width 27.
group.long 0x0++0x3
line.long 0x00 "ICONT_SBH_CTRL,SYNCBOX Handler control register"
bitfld.long 0x00 0. " BYPASS      ,Control SYNCBOX bypass mode. This bit defines if SYNCBOX is used to synchronize Task between the different HWAs. - . - ." "DISABLE,ENABLE"
rgroup.long 0x4++0x3
line.long 0x00 "ICONT_SBH_ATLR,Activation Task List register. It logs reference of the task interrupting CPU. When bit field x of TX_0 field is 1, Task x has generated an interrupt to the CPU. Bit field n of this register is cleared when writing 1 in bitfiled x of reg..."
bitfld.long 0x00 0.--5. " TX_0        ,Task x to 0 (x=SYNCBOX_NB_TASK-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
wgroup.long 0x8++0x3
line.long 0x00 "ICONT_SBH_ACK,Acknowledge Task register. Task x is automatically acknowledged on writing 1 into bit field x of this register. Register is automatically cleared."
bitfld.long 0x00 0.--5. " TX_0        ,Task x to 0 (x=SYNCBOX_NB_TASK-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
wgroup.long 0xC++0x3
line.long 0x00 "ICONT_SBH_EOT,End Of Task register. SBH notify to the SB that Task x is ended on writing 1 to this register. Register is automatically cleared."
bitfld.long 0x00 0.--5. " TX_0        ,Task x to 0 (x=SYNCBOX_NB_TASK-1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x20++0x3
line.long 0x00 "ICONT_SBH_IRQ_EOI,End Of Interrupt number specification"
bitfld.long 0x00 0. " LINE_NUMBER ,Software End Of Interrupt (EOI) control. Write number of interrupt output. - EOI0. - EOI1. - EOI1." "EOI0,EOI1"
group.long 0x24++0x3
line.long 0x00 "ICONT_SBH_IRQSTATUS_RAW_0,Per-event raw interrupt status vector, line #0 (end of transfer). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " VDMAG_END   ,settable raw status for end of transfer interrupt event - . - . - . - ." "noaction_/_noevent,set_/_pending"
group.long 0x28++0x3
line.long 0x00 "ICONT_SBH_IRQSTATUS_0,Per-event 'enabled' interrupt status vector, line #0 (end of transfer). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if no..."
eventfld.long 0x00 0. " VDMAG_END   ,clearable, enabled status for end of transfer interrupt event - . - . - . - ." "noaction_/_noevent,clear_/_pending"
group.long 0x2C++0x3
line.long 0x00 "ICONT_SBH_IRQENABLE_SET_0,Per-event interrupt enable bit vector, line #0 (end of transfer). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " VDMAG_END   ,enable for end of transfer interrupt event - . - . - . - ." "noaction_/_disabled,enable_/_enabled"
group.long 0x30++0x3
line.long 0x00 "ICONT_SBH_IRQENABLE_CLR_0,Per-event interrupt enable bit vector, line #0 (end of transfer). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " VDMAG_END   ,enable for end of transfer interrupt event - . - . - . - ." "noaction_/_disabled,disable_/_enabled"
group.long 0x34++0x3
line.long 0x00 "ICONT_SBH_IRQSTATUS_RAW_1,Per-event raw interrupt status vector, line #0 (error). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " SBH_ERR     ,settable raw status for SBH error event - . - . - . - ." "noaction_/_noevent,set_/_pending"
group.long 0x38++0x3
line.long 0x00 "ICONT_SBH_IRQSTATUS_1,Per-event 'enabled' interrupt status vector, line #1 (error). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " SBH_ERR     ,clearable, enabled status for SBH error event - . - . - . - ." "noaction_/_noevent,clear_/_pending"
group.long 0x3C++0x3
line.long 0x00 "ICONT_SBH_IRQENABLE_SET_1,Per-event interrupt enable bit vector, line #1 (error). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " SBH_ERR     ,enable for SBH error event - . - . - . - ." "noaction_/_disabled,enable_/_enabled"
group.long 0x40++0x3
line.long 0x00 "ICONT_SBH_IRQENABLE_CLR_1,Per-event interrupt enable bit vector, line #1 (error). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " SBH_ERR     ,enable for SBH error event - . - . - . - ." "noaction_/_disabled,disable_/_enabled"
wgroup.long 0xD0++0x3
line.long 0x00 "ICONT_SBH_BYP_VDMAG_START,SYNCBOX Bypass mode DMA_IVA group Start register. Register is cleared when ICONT_SBHCTRL.BYPASS bit is writen to 1. Writing to this register is allowed only when ICONT_SBHCTRL.BYPASS bit is 1. Writing 1 into bitfiel n will STA..."
hexmask.long 0x00 0.--31. 1. " VDMAG31_0   ,Start DMA_IVA Group"
rgroup.long 0xD4++0x3
line.long 0x00 "ICONT_SBH_BYP_VDMAG_END,SYNCBOX Bypass mode DMA_IVA group End register status. This register is cleared when ICONT_SBHCTRL.BYPASS bit is writen to 1. It is updated every time a DMA_IVA group is completed, that is, on DMA_IVA End of Group detection, onl..."
hexmask.long 0x00 0.--31. 1. " VDMAG31_0   ,DMA_IVA Group is ended"
width 0x0B
tree.end
tree.end
tree.open "ICONT1_IRQ_ICONT"
tree "ICONT1_IRQ_ICONT"
base ad:0xF0400
width 26.
group.long 0x20++0x3
line.long 0x00 "ICONT_IRQ_EOI,End Of Interrupt register - Interrupt handler"
bitfld.long 0x00 0. " LINE_NUMBER  ,End Of Interrupt (EOI) control. Write number of interrupt output. - EOI0. - READ0." "EOI0,1"
group.long 0x24++0x3
line.long 0x00 "ICONT_IRQSTATUS_RAW,Per-event raw interrupt status vector (interrupt handler). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
hexmask.long 0x00 0.--31. 1. " IRQ31_1      ,Settable raw status for interrupt event. For each bit of the bit field: Read 0: No event pending Read 1: Event pending Write 0: No action Write 1: Set event (debug)"
group.long 0x28++0x3
line.long 0x00 "ICONT_IRQSTATUS,Per-event 'enabled' interrupt status vector (interrupt handler). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
hexmask.long 0x00 0.--31. 1. " IRQ31_0      ,Clearable, enabled status for interrupt event. For each bit of the bit field: Read 0: No (enabled) event pending Read 1: Event pending Write 0: No action Write 1: Clear (raw) event"
group.long 0x2C++0x3
line.long 0x00 "ICONT_IRQENABLE_SET,Per-event interrupt enable bit vector (interrupt handler). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
hexmask.long 0x00 0.--31. 1. " IRQ31_0      ,Enable for interrupt event. For each bit of the bit field: Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 0: No action Write 1: Enable interrupt"
group.long 0x30++0x3
line.long 0x00 "ICONT_IRQENABLE_CLR,Per-event interrupt enable bit vector (interrupt handler). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
hexmask.long 0x00 0.--31. 1. " IRQ31_0      ,Enable for interrupt event. For each bit of the bitfiled: Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 0: No action Write 1: Disable interrupt"
group.long 0x40++0x3
line.long 0x00 "ICONT_SWI_EOI,End Of Interrupt register - Software interrupt"
bitfld.long 0x00 0. " LINE_NUMBER  ,End Of Interrupt (EOI) control. Write number of interrupt output. - EOI0. - READ0." "EOI0,1"
group.long 0x44++0x3
line.long 0x00 "ICONT_SWISTATUS_RAW,Per-event raw interrupt status vector (software interrupt). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " SWI_IRQ      ,Settable raw status for software interrupt event - . - . - . - ." "noaction_/_noevent,set_/_pending"
group.long 0x48++0x3
line.long 0x00 "ICONT_SWISTATUS,Per-event 'enabled' interrupt status vector (software interrupt). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " SWI_IRQ      ,Clearable, enabled status for software interrupt event - . - . - . - ." "noaction_/_noevent,clear_/_pending"
group.long 0x4C++0x3
line.long 0x00 "ICONT_SWIENABLE_SET,Per-event interrupt enable bit vector (software interrupt). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " SWI_IRQ      ,Enable for software interrupt event - . - . - . - ." "noaction_/_disabled,enable_/_enabled"
group.long 0x50++0x3
line.long 0x00 "ICONT_SWIENABLE_CLR,Per-event interrupt enable bit vector (software interrupt). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " SWI_IRQ      ,Enable for software interrupt event - . - . - . - ." "noaction_/_disabled,disable_/_enabled"
group.long 0x60++0x3
line.long 0x00 "ICONT_SYNCMASK,This register allow to mask each input of Sync logic. When.SYN_IRQn is set, input event n is disabled When .SYNC_IRQn is cleared, input event n is enabled"
hexmask.long 0x00 0.--31. 1. " SYNC_IRQ31_0 ,Sync IRQ mask"
wgroup.long 0x64++0x3
line.long 0x00 "ICONT_SYNCCLR,Clear Interrupt line This register is used to clear status bit of interrupt n. write 0: no effect write 1: clears corresponding bit in IRQ_SYNCSTATUS and IRQ_SYNCRAWSTATUS registers"
hexmask.long 0x00 0.--31. 1. " SYNC_IRQ31_0 ,Sync IRQ clear"
rgroup.long 0x68++0x3
line.long 0x00 "ICONT_SYNCSTATUS,Status of masked Sync interrupt input n 0: Interrupt n has not occured or masked 1: Interrupt n is enabled and has occured"
hexmask.long 0x00 0.--31. 1. " SYNC_IRQ31_0 ,Sync IRQ status"
rgroup.long 0x70++0x3
line.long 0x00 "ICONT_SYNCRAWSTATUS,Status of Sync interrupt n input before mask 0: Interrupt n has not occured 1: Interrupt n has occured"
hexmask.long 0x00 0.--31. 1. " SYNC_IRQ31_0 ,Sync IRQ raw status"
group.long 0x80++0x3
line.long 0x00 "ICONT_SYNC_IRQ_EOI,End Of Interrupt - SYNC interrupt"
bitfld.long 0x00 0. " LINE_NUMBER  ,Software End Of Interrupt (EOI) control. Write number of interrupt output. - EOI0. - READ0." "EOI0,1"
group.long 0x84++0x3
line.long 0x00 "ICONT_SYNC_IRQSTATUS_RAW,Per-event raw interrupt status vector. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " SYNC_IRQ     ,Settable raw status for outgoing Sync IRQ event - . - . - . - ." "noaction_/_noevent,set_/_pending"
group.long 0x88++0x3
line.long 0x00 "ICONT_SYNC_IRQSTATUS,Per-event 'enabled' interrupt status vector, line #0. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " SYNC_IRQ     ,Clearable, enabled status for outgoing Sync IRQ event - . - . - . - ." "noaction_/_noevent,clear_/_pending"
group.long 0x8C++0x3
line.long 0x00 "ICONT_SYNC_IRQENABLE_SET,Per-event interrupt enable bit vector. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " SYNC_IRQ     ,Enable for Outgoing Sync IRQ event - . - . - . - ." "noaction_/_disabled,enable_/_enabled"
group.long 0x90++0x3
line.long 0x00 "ICONT_SYNC_IRQENABLE_CLR,Per-event interrupt enable bit vector. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " SYNC_IRQ     ,Enable for Outgoing Sync IRQ event - . - . - . - ." "noaction_/_disabled,disable_/_enabled"
width 0x0B
tree.end
tree "ICONT2_IRQ_ICONT"
base ad:0xF1400
width 26.
group.long 0x20++0x3
line.long 0x00 "ICONT_IRQ_EOI,End Of Interrupt register - Interrupt handler"
bitfld.long 0x00 0. " LINE_NUMBER  ,End Of Interrupt (EOI) control. Write number of interrupt output. - EOI0. - READ0." "EOI0,1"
group.long 0x24++0x3
line.long 0x00 "ICONT_IRQSTATUS_RAW,Per-event raw interrupt status vector (interrupt handler). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
hexmask.long 0x00 0.--31. 1. " IRQ31_1      ,Settable raw status for interrupt event. For each bit of the bit field: Read 0: No event pending Read 1: Event pending Write 0: No action Write 1: Set event (debug)"
group.long 0x28++0x3
line.long 0x00 "ICONT_IRQSTATUS,Per-event 'enabled' interrupt status vector (interrupt handler). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
hexmask.long 0x00 0.--31. 1. " IRQ31_0      ,Clearable, enabled status for interrupt event. For each bit of the bit field: Read 0: No (enabled) event pending Read 1: Event pending Write 0: No action Write 1: Clear (raw) event"
group.long 0x2C++0x3
line.long 0x00 "ICONT_IRQENABLE_SET,Per-event interrupt enable bit vector (interrupt handler). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
hexmask.long 0x00 0.--31. 1. " IRQ31_0      ,Enable for interrupt event. For each bit of the bit field: Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 0: No action Write 1: Enable interrupt"
group.long 0x30++0x3
line.long 0x00 "ICONT_IRQENABLE_CLR,Per-event interrupt enable bit vector (interrupt handler). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
hexmask.long 0x00 0.--31. 1. " IRQ31_0      ,Enable for interrupt event. For each bit of the bitfiled: Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 0: No action Write 1: Disable interrupt"
group.long 0x40++0x3
line.long 0x00 "ICONT_SWI_EOI,End Of Interrupt register - Software interrupt"
bitfld.long 0x00 0. " LINE_NUMBER  ,End Of Interrupt (EOI) control. Write number of interrupt output. - EOI0. - READ0." "EOI0,1"
group.long 0x44++0x3
line.long 0x00 "ICONT_SWISTATUS_RAW,Per-event raw interrupt status vector (software interrupt). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " SWI_IRQ      ,Settable raw status for software interrupt event - . - . - . - ." "noaction_/_noevent,set_/_pending"
group.long 0x48++0x3
line.long 0x00 "ICONT_SWISTATUS,Per-event 'enabled' interrupt status vector (software interrupt). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " SWI_IRQ      ,Clearable, enabled status for software interrupt event - . - . - . - ." "noaction_/_noevent,clear_/_pending"
group.long 0x4C++0x3
line.long 0x00 "ICONT_SWIENABLE_SET,Per-event interrupt enable bit vector (software interrupt). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " SWI_IRQ      ,Enable for software interrupt event - . - . - . - ." "noaction_/_disabled,enable_/_enabled"
group.long 0x50++0x3
line.long 0x00 "ICONT_SWIENABLE_CLR,Per-event interrupt enable bit vector (software interrupt). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " SWI_IRQ      ,Enable for software interrupt event - . - . - . - ." "noaction_/_disabled,disable_/_enabled"
group.long 0x60++0x3
line.long 0x00 "ICONT_SYNCMASK,This register allow to mask each input of Sync logic. When.SYN_IRQn is set, input event n is disabled When .SYNC_IRQn is cleared, input event n is enabled"
hexmask.long 0x00 0.--31. 1. " SYNC_IRQ31_0 ,Sync IRQ mask"
wgroup.long 0x64++0x3
line.long 0x00 "ICONT_SYNCCLR,Clear Interrupt line This register is used to clear status bit of interrupt n. write 0: no effect write 1: clears corresponding bit in IRQ_SYNCSTATUS and IRQ_SYNCRAWSTATUS registers"
hexmask.long 0x00 0.--31. 1. " SYNC_IRQ31_0 ,Sync IRQ clear"
rgroup.long 0x68++0x3
line.long 0x00 "ICONT_SYNCSTATUS,Status of masked Sync interrupt input n 0: Interrupt n has not occured or masked 1: Interrupt n is enabled and has occured"
hexmask.long 0x00 0.--31. 1. " SYNC_IRQ31_0 ,Sync IRQ status"
rgroup.long 0x70++0x3
line.long 0x00 "ICONT_SYNCRAWSTATUS,Status of Sync interrupt n input before mask 0: Interrupt n has not occured 1: Interrupt n has occured"
hexmask.long 0x00 0.--31. 1. " SYNC_IRQ31_0 ,Sync IRQ raw status"
group.long 0x80++0x3
line.long 0x00 "ICONT_SYNC_IRQ_EOI,End Of Interrupt - SYNC interrupt"
bitfld.long 0x00 0. " LINE_NUMBER  ,Software End Of Interrupt (EOI) control. Write number of interrupt output. - EOI0. - READ0." "EOI0,1"
group.long 0x84++0x3
line.long 0x00 "ICONT_SYNC_IRQSTATUS_RAW,Per-event raw interrupt status vector. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " SYNC_IRQ     ,Settable raw status for outgoing Sync IRQ event - . - . - . - ." "noaction_/_noevent,set_/_pending"
group.long 0x88++0x3
line.long 0x00 "ICONT_SYNC_IRQSTATUS,Per-event 'enabled' interrupt status vector, line #0. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " SYNC_IRQ     ,Clearable, enabled status for outgoing Sync IRQ event - . - . - . - ." "noaction_/_noevent,clear_/_pending"
group.long 0x8C++0x3
line.long 0x00 "ICONT_SYNC_IRQENABLE_SET,Per-event interrupt enable bit vector. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " SYNC_IRQ     ,Enable for Outgoing Sync IRQ event - . - . - . - ." "noaction_/_disabled,enable_/_enabled"
group.long 0x90++0x3
line.long 0x00 "ICONT_SYNC_IRQENABLE_CLR,Per-event interrupt enable bit vector. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " SYNC_IRQ     ,Enable for Outgoing Sync IRQ event - . - . - . - ." "noaction_/_disabled,disable_/_enabled"
width 0x0B
tree.end
tree "ICONT1_IRQ_ICONTSelf_Access"
base ad:0xF2400
width 26.
group.long 0x20++0x3
line.long 0x00 "ICONT_IRQ_EOI,End Of Interrupt register - Interrupt handler"
bitfld.long 0x00 0. " LINE_NUMBER  ,End Of Interrupt (EOI) control. Write number of interrupt output. - EOI0. - READ0." "EOI0,1"
group.long 0x24++0x3
line.long 0x00 "ICONT_IRQSTATUS_RAW,Per-event raw interrupt status vector (interrupt handler). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
hexmask.long 0x00 0.--31. 1. " IRQ31_1      ,Settable raw status for interrupt event. For each bit of the bit field: Read 0: No event pending Read 1: Event pending Write 0: No action Write 1: Set event (debug)"
group.long 0x28++0x3
line.long 0x00 "ICONT_IRQSTATUS,Per-event 'enabled' interrupt status vector (interrupt handler). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
hexmask.long 0x00 0.--31. 1. " IRQ31_0      ,Clearable, enabled status for interrupt event. For each bit of the bit field: Read 0: No (enabled) event pending Read 1: Event pending Write 0: No action Write 1: Clear (raw) event"
group.long 0x2C++0x3
line.long 0x00 "ICONT_IRQENABLE_SET,Per-event interrupt enable bit vector (interrupt handler). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
hexmask.long 0x00 0.--31. 1. " IRQ31_0      ,Enable for interrupt event. For each bit of the bit field: Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 0: No action Write 1: Enable interrupt"
group.long 0x30++0x3
line.long 0x00 "ICONT_IRQENABLE_CLR,Per-event interrupt enable bit vector (interrupt handler). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
hexmask.long 0x00 0.--31. 1. " IRQ31_0      ,Enable for interrupt event. For each bit of the bitfiled: Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 0: No action Write 1: Disable interrupt"
group.long 0x40++0x3
line.long 0x00 "ICONT_SWI_EOI,End Of Interrupt register - Software interrupt"
bitfld.long 0x00 0. " LINE_NUMBER  ,End Of Interrupt (EOI) control. Write number of interrupt output. - EOI0. - READ0." "EOI0,1"
group.long 0x44++0x3
line.long 0x00 "ICONT_SWISTATUS_RAW,Per-event raw interrupt status vector (software interrupt). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " SWI_IRQ      ,Settable raw status for software interrupt event - . - . - . - ." "noaction_/_noevent,set_/_pending"
group.long 0x48++0x3
line.long 0x00 "ICONT_SWISTATUS,Per-event 'enabled' interrupt status vector (software interrupt). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " SWI_IRQ      ,Clearable, enabled status for software interrupt event - . - . - . - ." "noaction_/_noevent,clear_/_pending"
group.long 0x4C++0x3
line.long 0x00 "ICONT_SWIENABLE_SET,Per-event interrupt enable bit vector (software interrupt). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " SWI_IRQ      ,Enable for software interrupt event - . - . - . - ." "noaction_/_disabled,enable_/_enabled"
group.long 0x50++0x3
line.long 0x00 "ICONT_SWIENABLE_CLR,Per-event interrupt enable bit vector (software interrupt). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " SWI_IRQ      ,Enable for software interrupt event - . - . - . - ." "noaction_/_disabled,disable_/_enabled"
group.long 0x60++0x3
line.long 0x00 "ICONT_SYNCMASK,This register allow to mask each input of Sync logic. When.SYN_IRQn is set, input event n is disabled When .SYNC_IRQn is cleared, input event n is enabled"
hexmask.long 0x00 0.--31. 1. " SYNC_IRQ31_0 ,Sync IRQ mask"
wgroup.long 0x64++0x3
line.long 0x00 "ICONT_SYNCCLR,Clear Interrupt line This register is used to clear status bit of interrupt n. write 0: no effect write 1: clears corresponding bit in IRQ_SYNCSTATUS and IRQ_SYNCRAWSTATUS registers"
hexmask.long 0x00 0.--31. 1. " SYNC_IRQ31_0 ,Sync IRQ clear"
rgroup.long 0x68++0x3
line.long 0x00 "ICONT_SYNCSTATUS,Status of masked Sync interrupt input n 0: Interrupt n has not occured or masked 1: Interrupt n is enabled and has occured"
hexmask.long 0x00 0.--31. 1. " SYNC_IRQ31_0 ,Sync IRQ status"
rgroup.long 0x70++0x3
line.long 0x00 "ICONT_SYNCRAWSTATUS,Status of Sync interrupt n input before mask 0: Interrupt n has not occured 1: Interrupt n has occured"
hexmask.long 0x00 0.--31. 1. " SYNC_IRQ31_0 ,Sync IRQ raw status"
group.long 0x80++0x3
line.long 0x00 "ICONT_SYNC_IRQ_EOI,End Of Interrupt - SYNC interrupt"
bitfld.long 0x00 0. " LINE_NUMBER  ,Software End Of Interrupt (EOI) control. Write number of interrupt output. - EOI0. - READ0." "EOI0,1"
group.long 0x84++0x3
line.long 0x00 "ICONT_SYNC_IRQSTATUS_RAW,Per-event raw interrupt status vector. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " SYNC_IRQ     ,Settable raw status for outgoing Sync IRQ event - . - . - . - ." "noaction_/_noevent,set_/_pending"
group.long 0x88++0x3
line.long 0x00 "ICONT_SYNC_IRQSTATUS,Per-event 'enabled' interrupt status vector, line #0. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " SYNC_IRQ     ,Clearable, enabled status for outgoing Sync IRQ event - . - . - . - ." "noaction_/_noevent,clear_/_pending"
group.long 0x8C++0x3
line.long 0x00 "ICONT_SYNC_IRQENABLE_SET,Per-event interrupt enable bit vector. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " SYNC_IRQ     ,Enable for Outgoing Sync IRQ event - . - . - . - ." "noaction_/_disabled,enable_/_enabled"
group.long 0x90++0x3
line.long 0x00 "ICONT_SYNC_IRQENABLE_CLR,Per-event interrupt enable bit vector. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " SYNC_IRQ     ,Enable for Outgoing Sync IRQ event - . - . - . - ." "noaction_/_disabled,disable_/_enabled"
width 0x0B
tree.end
tree "ICONT2_IRQ_ICONTSelf_Access"
base ad:0xF3400
width 26.
group.long 0x20++0x3
line.long 0x00 "ICONT_IRQ_EOI,End Of Interrupt register - Interrupt handler"
bitfld.long 0x00 0. " LINE_NUMBER  ,End Of Interrupt (EOI) control. Write number of interrupt output. - EOI0. - READ0." "EOI0,1"
group.long 0x24++0x3
line.long 0x00 "ICONT_IRQSTATUS_RAW,Per-event raw interrupt status vector (interrupt handler). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
hexmask.long 0x00 0.--31. 1. " IRQ31_1      ,Settable raw status for interrupt event. For each bit of the bit field: Read 0: No event pending Read 1: Event pending Write 0: No action Write 1: Set event (debug)"
group.long 0x28++0x3
line.long 0x00 "ICONT_IRQSTATUS,Per-event 'enabled' interrupt status vector (interrupt handler). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
hexmask.long 0x00 0.--31. 1. " IRQ31_0      ,Clearable, enabled status for interrupt event. For each bit of the bit field: Read 0: No (enabled) event pending Read 1: Event pending Write 0: No action Write 1: Clear (raw) event"
group.long 0x2C++0x3
line.long 0x00 "ICONT_IRQENABLE_SET,Per-event interrupt enable bit vector (interrupt handler). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
hexmask.long 0x00 0.--31. 1. " IRQ31_0      ,Enable for interrupt event. For each bit of the bit field: Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 0: No action Write 1: Enable interrupt"
group.long 0x30++0x3
line.long 0x00 "ICONT_IRQENABLE_CLR,Per-event interrupt enable bit vector (interrupt handler). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
hexmask.long 0x00 0.--31. 1. " IRQ31_0      ,Enable for interrupt event. For each bit of the bitfiled: Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 0: No action Write 1: Disable interrupt"
group.long 0x40++0x3
line.long 0x00 "ICONT_SWI_EOI,End Of Interrupt register - Software interrupt"
bitfld.long 0x00 0. " LINE_NUMBER  ,End Of Interrupt (EOI) control. Write number of interrupt output. - EOI0. - READ0." "EOI0,1"
group.long 0x44++0x3
line.long 0x00 "ICONT_SWISTATUS_RAW,Per-event raw interrupt status vector (software interrupt). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " SWI_IRQ      ,Settable raw status for software interrupt event - . - . - . - ." "noaction_/_noevent,set_/_pending"
group.long 0x48++0x3
line.long 0x00 "ICONT_SWISTATUS,Per-event 'enabled' interrupt status vector (software interrupt). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " SWI_IRQ      ,Clearable, enabled status for software interrupt event - . - . - . - ." "noaction_/_noevent,clear_/_pending"
group.long 0x4C++0x3
line.long 0x00 "ICONT_SWIENABLE_SET,Per-event interrupt enable bit vector (software interrupt). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " SWI_IRQ      ,Enable for software interrupt event - . - . - . - ." "noaction_/_disabled,enable_/_enabled"
group.long 0x50++0x3
line.long 0x00 "ICONT_SWIENABLE_CLR,Per-event interrupt enable bit vector (software interrupt). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " SWI_IRQ      ,Enable for software interrupt event - . - . - . - ." "noaction_/_disabled,disable_/_enabled"
group.long 0x60++0x3
line.long 0x00 "ICONT_SYNCMASK,This register allow to mask each input of Sync logic. When.SYN_IRQn is set, input event n is disabled When .SYNC_IRQn is cleared, input event n is enabled"
hexmask.long 0x00 0.--31. 1. " SYNC_IRQ31_0 ,Sync IRQ mask"
wgroup.long 0x64++0x3
line.long 0x00 "ICONT_SYNCCLR,Clear Interrupt line This register is used to clear status bit of interrupt n. write 0: no effect write 1: clears corresponding bit in IRQ_SYNCSTATUS and IRQ_SYNCRAWSTATUS registers"
hexmask.long 0x00 0.--31. 1. " SYNC_IRQ31_0 ,Sync IRQ clear"
rgroup.long 0x68++0x3
line.long 0x00 "ICONT_SYNCSTATUS,Status of masked Sync interrupt input n 0: Interrupt n has not occured or masked 1: Interrupt n is enabled and has occured"
hexmask.long 0x00 0.--31. 1. " SYNC_IRQ31_0 ,Sync IRQ status"
rgroup.long 0x70++0x3
line.long 0x00 "ICONT_SYNCRAWSTATUS,Status of Sync interrupt n input before mask 0: Interrupt n has not occured 1: Interrupt n has occured"
hexmask.long 0x00 0.--31. 1. " SYNC_IRQ31_0 ,Sync IRQ raw status"
group.long 0x80++0x3
line.long 0x00 "ICONT_SYNC_IRQ_EOI,End Of Interrupt - SYNC interrupt"
bitfld.long 0x00 0. " LINE_NUMBER  ,Software End Of Interrupt (EOI) control. Write number of interrupt output. - EOI0. - READ0." "EOI0,1"
group.long 0x84++0x3
line.long 0x00 "ICONT_SYNC_IRQSTATUS_RAW,Per-event raw interrupt status vector. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " SYNC_IRQ     ,Settable raw status for outgoing Sync IRQ event - . - . - . - ." "noaction_/_noevent,set_/_pending"
group.long 0x88++0x3
line.long 0x00 "ICONT_SYNC_IRQSTATUS,Per-event 'enabled' interrupt status vector, line #0. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " SYNC_IRQ     ,Clearable, enabled status for outgoing Sync IRQ event - . - . - . - ." "noaction_/_noevent,clear_/_pending"
group.long 0x8C++0x3
line.long 0x00 "ICONT_SYNC_IRQENABLE_SET,Per-event interrupt enable bit vector. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " SYNC_IRQ     ,Enable for Outgoing Sync IRQ event - . - . - . - ." "noaction_/_disabled,enable_/_enabled"
group.long 0x90++0x3
line.long 0x00 "ICONT_SYNC_IRQENABLE_CLR,Per-event interrupt enable bit vector. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " SYNC_IRQ     ,Enable for Outgoing Sync IRQ event - . - . - . - ." "noaction_/_disabled,disable_/_enabled"
width 0x0B
tree.end
tree "ICONT1_IRQ_L3_MAINInterconnect"
base ad:0x5A070400
width 26.
group.long 0x20++0x3
line.long 0x00 "ICONT_IRQ_EOI,End Of Interrupt register - Interrupt handler"
bitfld.long 0x00 0. " LINE_NUMBER  ,End Of Interrupt (EOI) control. Write number of interrupt output. - EOI0. - READ0." "EOI0,1"
group.long 0x24++0x3
line.long 0x00 "ICONT_IRQSTATUS_RAW,Per-event raw interrupt status vector (interrupt handler). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
hexmask.long 0x00 0.--31. 1. " IRQ31_1      ,Settable raw status for interrupt event. For each bit of the bit field: Read 0: No event pending Read 1: Event pending Write 0: No action Write 1: Set event (debug)"
group.long 0x28++0x3
line.long 0x00 "ICONT_IRQSTATUS,Per-event 'enabled' interrupt status vector (interrupt handler). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
hexmask.long 0x00 0.--31. 1. " IRQ31_0      ,Clearable, enabled status for interrupt event. For each bit of the bit field: Read 0: No (enabled) event pending Read 1: Event pending Write 0: No action Write 1: Clear (raw) event"
group.long 0x2C++0x3
line.long 0x00 "ICONT_IRQENABLE_SET,Per-event interrupt enable bit vector (interrupt handler). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
hexmask.long 0x00 0.--31. 1. " IRQ31_0      ,Enable for interrupt event. For each bit of the bit field: Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 0: No action Write 1: Enable interrupt"
group.long 0x30++0x3
line.long 0x00 "ICONT_IRQENABLE_CLR,Per-event interrupt enable bit vector (interrupt handler). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
hexmask.long 0x00 0.--31. 1. " IRQ31_0      ,Enable for interrupt event. For each bit of the bitfiled: Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 0: No action Write 1: Disable interrupt"
group.long 0x40++0x3
line.long 0x00 "ICONT_SWI_EOI,End Of Interrupt register - Software interrupt"
bitfld.long 0x00 0. " LINE_NUMBER  ,End Of Interrupt (EOI) control. Write number of interrupt output. - EOI0. - READ0." "EOI0,1"
group.long 0x44++0x3
line.long 0x00 "ICONT_SWISTATUS_RAW,Per-event raw interrupt status vector (software interrupt). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " SWI_IRQ      ,Settable raw status for software interrupt event - . - . - . - ." "noaction_/_noevent,set_/_pending"
group.long 0x48++0x3
line.long 0x00 "ICONT_SWISTATUS,Per-event 'enabled' interrupt status vector (software interrupt). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " SWI_IRQ      ,Clearable, enabled status for software interrupt event - . - . - . - ." "noaction_/_noevent,clear_/_pending"
group.long 0x4C++0x3
line.long 0x00 "ICONT_SWIENABLE_SET,Per-event interrupt enable bit vector (software interrupt). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " SWI_IRQ      ,Enable for software interrupt event - . - . - . - ." "noaction_/_disabled,enable_/_enabled"
group.long 0x50++0x3
line.long 0x00 "ICONT_SWIENABLE_CLR,Per-event interrupt enable bit vector (software interrupt). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " SWI_IRQ      ,Enable for software interrupt event - . - . - . - ." "noaction_/_disabled,disable_/_enabled"
group.long 0x60++0x3
line.long 0x00 "ICONT_SYNCMASK,This register allow to mask each input of Sync logic. When.SYN_IRQn is set, input event n is disabled When .SYNC_IRQn is cleared, input event n is enabled"
hexmask.long 0x00 0.--31. 1. " SYNC_IRQ31_0 ,Sync IRQ mask"
wgroup.long 0x64++0x3
line.long 0x00 "ICONT_SYNCCLR,Clear Interrupt line This register is used to clear status bit of interrupt n. write 0: no effect write 1: clears corresponding bit in IRQ_SYNCSTATUS and IRQ_SYNCRAWSTATUS registers"
hexmask.long 0x00 0.--31. 1. " SYNC_IRQ31_0 ,Sync IRQ clear"
rgroup.long 0x68++0x3
line.long 0x00 "ICONT_SYNCSTATUS,Status of masked Sync interrupt input n 0: Interrupt n has not occured or masked 1: Interrupt n is enabled and has occured"
hexmask.long 0x00 0.--31. 1. " SYNC_IRQ31_0 ,Sync IRQ status"
rgroup.long 0x70++0x3
line.long 0x00 "ICONT_SYNCRAWSTATUS,Status of Sync interrupt n input before mask 0: Interrupt n has not occured 1: Interrupt n has occured"
hexmask.long 0x00 0.--31. 1. " SYNC_IRQ31_0 ,Sync IRQ raw status"
group.long 0x80++0x3
line.long 0x00 "ICONT_SYNC_IRQ_EOI,End Of Interrupt - SYNC interrupt"
bitfld.long 0x00 0. " LINE_NUMBER  ,Software End Of Interrupt (EOI) control. Write number of interrupt output. - EOI0. - READ0." "EOI0,1"
group.long 0x84++0x3
line.long 0x00 "ICONT_SYNC_IRQSTATUS_RAW,Per-event raw interrupt status vector. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " SYNC_IRQ     ,Settable raw status for outgoing Sync IRQ event - . - . - . - ." "noaction_/_noevent,set_/_pending"
group.long 0x88++0x3
line.long 0x00 "ICONT_SYNC_IRQSTATUS,Per-event 'enabled' interrupt status vector, line #0. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " SYNC_IRQ     ,Clearable, enabled status for outgoing Sync IRQ event - . - . - . - ." "noaction_/_noevent,clear_/_pending"
group.long 0x8C++0x3
line.long 0x00 "ICONT_SYNC_IRQENABLE_SET,Per-event interrupt enable bit vector. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " SYNC_IRQ     ,Enable for Outgoing Sync IRQ event - . - . - . - ." "noaction_/_disabled,enable_/_enabled"
group.long 0x90++0x3
line.long 0x00 "ICONT_SYNC_IRQENABLE_CLR,Per-event interrupt enable bit vector. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " SYNC_IRQ     ,Enable for Outgoing Sync IRQ event - . - . - . - ." "noaction_/_disabled,disable_/_enabled"
width 0x0B
tree.end
tree "ICONT2_IRQ_L3_MAINInterconnect"
base ad:0x5A071400
width 26.
group.long 0x20++0x3
line.long 0x00 "ICONT_IRQ_EOI,End Of Interrupt register - Interrupt handler"
bitfld.long 0x00 0. " LINE_NUMBER  ,End Of Interrupt (EOI) control. Write number of interrupt output. - EOI0. - READ0." "EOI0,1"
group.long 0x24++0x3
line.long 0x00 "ICONT_IRQSTATUS_RAW,Per-event raw interrupt status vector (interrupt handler). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
hexmask.long 0x00 0.--31. 1. " IRQ31_1      ,Settable raw status for interrupt event. For each bit of the bit field: Read 0: No event pending Read 1: Event pending Write 0: No action Write 1: Set event (debug)"
group.long 0x28++0x3
line.long 0x00 "ICONT_IRQSTATUS,Per-event 'enabled' interrupt status vector (interrupt handler). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
hexmask.long 0x00 0.--31. 1. " IRQ31_0      ,Clearable, enabled status for interrupt event. For each bit of the bit field: Read 0: No (enabled) event pending Read 1: Event pending Write 0: No action Write 1: Clear (raw) event"
group.long 0x2C++0x3
line.long 0x00 "ICONT_IRQENABLE_SET,Per-event interrupt enable bit vector (interrupt handler). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
hexmask.long 0x00 0.--31. 1. " IRQ31_0      ,Enable for interrupt event. For each bit of the bit field: Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 0: No action Write 1: Enable interrupt"
group.long 0x30++0x3
line.long 0x00 "ICONT_IRQENABLE_CLR,Per-event interrupt enable bit vector (interrupt handler). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
hexmask.long 0x00 0.--31. 1. " IRQ31_0      ,Enable for interrupt event. For each bit of the bitfiled: Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 0: No action Write 1: Disable interrupt"
group.long 0x40++0x3
line.long 0x00 "ICONT_SWI_EOI,End Of Interrupt register - Software interrupt"
bitfld.long 0x00 0. " LINE_NUMBER  ,End Of Interrupt (EOI) control. Write number of interrupt output. - EOI0. - READ0." "EOI0,1"
group.long 0x44++0x3
line.long 0x00 "ICONT_SWISTATUS_RAW,Per-event raw interrupt status vector (software interrupt). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " SWI_IRQ      ,Settable raw status for software interrupt event - . - . - . - ." "noaction_/_noevent,set_/_pending"
group.long 0x48++0x3
line.long 0x00 "ICONT_SWISTATUS,Per-event 'enabled' interrupt status vector (software interrupt). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " SWI_IRQ      ,Clearable, enabled status for software interrupt event - . - . - . - ." "noaction_/_noevent,clear_/_pending"
group.long 0x4C++0x3
line.long 0x00 "ICONT_SWIENABLE_SET,Per-event interrupt enable bit vector (software interrupt). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " SWI_IRQ      ,Enable for software interrupt event - . - . - . - ." "noaction_/_disabled,enable_/_enabled"
group.long 0x50++0x3
line.long 0x00 "ICONT_SWIENABLE_CLR,Per-event interrupt enable bit vector (software interrupt). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " SWI_IRQ      ,Enable for software interrupt event - . - . - . - ." "noaction_/_disabled,disable_/_enabled"
group.long 0x60++0x3
line.long 0x00 "ICONT_SYNCMASK,This register allow to mask each input of Sync logic. When.SYN_IRQn is set, input event n is disabled When .SYNC_IRQn is cleared, input event n is enabled"
hexmask.long 0x00 0.--31. 1. " SYNC_IRQ31_0 ,Sync IRQ mask"
wgroup.long 0x64++0x3
line.long 0x00 "ICONT_SYNCCLR,Clear Interrupt line This register is used to clear status bit of interrupt n. write 0: no effect write 1: clears corresponding bit in IRQ_SYNCSTATUS and IRQ_SYNCRAWSTATUS registers"
hexmask.long 0x00 0.--31. 1. " SYNC_IRQ31_0 ,Sync IRQ clear"
rgroup.long 0x68++0x3
line.long 0x00 "ICONT_SYNCSTATUS,Status of masked Sync interrupt input n 0: Interrupt n has not occured or masked 1: Interrupt n is enabled and has occured"
hexmask.long 0x00 0.--31. 1. " SYNC_IRQ31_0 ,Sync IRQ status"
rgroup.long 0x70++0x3
line.long 0x00 "ICONT_SYNCRAWSTATUS,Status of Sync interrupt n input before mask 0: Interrupt n has not occured 1: Interrupt n has occured"
hexmask.long 0x00 0.--31. 1. " SYNC_IRQ31_0 ,Sync IRQ raw status"
group.long 0x80++0x3
line.long 0x00 "ICONT_SYNC_IRQ_EOI,End Of Interrupt - SYNC interrupt"
bitfld.long 0x00 0. " LINE_NUMBER  ,Software End Of Interrupt (EOI) control. Write number of interrupt output. - EOI0. - READ0." "EOI0,1"
group.long 0x84++0x3
line.long 0x00 "ICONT_SYNC_IRQSTATUS_RAW,Per-event raw interrupt status vector. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " SYNC_IRQ     ,Settable raw status for outgoing Sync IRQ event - . - . - . - ." "noaction_/_noevent,set_/_pending"
group.long 0x88++0x3
line.long 0x00 "ICONT_SYNC_IRQSTATUS,Per-event 'enabled' interrupt status vector, line #0. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " SYNC_IRQ     ,Clearable, enabled status for outgoing Sync IRQ event - . - . - . - ." "noaction_/_noevent,clear_/_pending"
group.long 0x8C++0x3
line.long 0x00 "ICONT_SYNC_IRQENABLE_SET,Per-event interrupt enable bit vector. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " SYNC_IRQ     ,Enable for Outgoing Sync IRQ event - . - . - . - ." "noaction_/_disabled,enable_/_enabled"
group.long 0x90++0x3
line.long 0x00 "ICONT_SYNC_IRQENABLE_CLR,Per-event interrupt enable bit vector. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " SYNC_IRQ     ,Enable for Outgoing Sync IRQ event - . - . - . - ." "noaction_/_disabled,disable_/_enabled"
width 0x0B
tree.end
tree.end
tree.end
endif
tree.open "IVA_Video_Direct_Memory_Access"
tree.open "VDMA_ICONT"
sif (cpuis("TDA2XIVA"))
tree "VDMA_ICONT"
base ad:0xD0000
tree "DMA_Channel_0"
width 27.
group.long 0xF8++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_0,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or deter..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one amon..."
rgroup.long 0x78++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_0,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                    "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x101C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_0,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1010++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_0,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1014++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_0,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1018++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_0,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x100C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_0,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1000++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_0,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1004++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_0,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1008++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_0,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x178++0x3
line.long 0x00 "VDMA_NON_DETERM_k_0,Non deterministic descriptor FIFO width being 128b and configuration port width being 32b, four OCP write commands into four different (incremental) addresses to create one (short) nondeterministic descriptor. Least significant 32b ..."
hexmask.long 0x00 0.--31. 1. " ONE_OUT_OF_FOUR_32B_WORD   ,if address offset is 0x0178h data will be mapped into descriptor entry bits [31..0] if address offset is 0x017Ch data will be mapped into descriptor entry bits [63..32] if address offset is 0x0180h data will be mapped into ..."
wgroup.long 0x800++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_0,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_1"
width 27.
group.long 0xFC++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_1,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or deter..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one amon..."
rgroup.long 0x7C++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_1,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                    "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x103C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_1,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1030++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_1,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1034++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_1,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1038++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_1,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x102C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_1,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1020++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_1,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1024++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_1,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1028++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_1,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x17C++0x3
line.long 0x00 "VDMA_NON_DETERM_k_1,Non deterministic descriptor FIFO width being 128b and configuration port width being 32b, four OCP write commands into four different (incremental) addresses to create one (short) nondeterministic descriptor. Least significant 32b ..."
hexmask.long 0x00 0.--31. 1. " ONE_OUT_OF_FOUR_32B_WORD   ,if address offset is 0x0178h data will be mapped into descriptor entry bits [31..0] if address offset is 0x017Ch data will be mapped into descriptor entry bits [63..32] if address offset is 0x0180h data will be mapped into ..."
wgroup.long 0x804++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_1,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_2"
width 27.
group.long 0x100++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_2,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or deter..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one amon..."
rgroup.long 0x80++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_2,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                    "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x105C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_2,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1050++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_2,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1054++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_2,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1058++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_2,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x104C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_2,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1040++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_2,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1044++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_2,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1048++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_2,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x180++0x3
line.long 0x00 "VDMA_NON_DETERM_k_2,Non deterministic descriptor FIFO width being 128b and configuration port width being 32b, four OCP write commands into four different (incremental) addresses to create one (short) nondeterministic descriptor. Least significant 32b ..."
hexmask.long 0x00 0.--31. 1. " ONE_OUT_OF_FOUR_32B_WORD   ,if address offset is 0x0178h data will be mapped into descriptor entry bits [31..0] if address offset is 0x017Ch data will be mapped into descriptor entry bits [63..32] if address offset is 0x0180h data will be mapped into ..."
wgroup.long 0x808++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_2,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_3"
width 27.
group.long 0x104++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_3,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or deter..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one amon..."
rgroup.long 0x84++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_3,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                    "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x107C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_3,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1070++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_3,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1074++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_3,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1078++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_3,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x106C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_3,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1060++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_3,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1064++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_3,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1068++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_3,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x184++0x3
line.long 0x00 "VDMA_NON_DETERM_k_3,Non deterministic descriptor FIFO width being 128b and configuration port width being 32b, four OCP write commands into four different (incremental) addresses to create one (short) nondeterministic descriptor. Least significant 32b ..."
hexmask.long 0x00 0.--31. 1. " ONE_OUT_OF_FOUR_32B_WORD   ,if address offset is 0x0178h data will be mapped into descriptor entry bits [31..0] if address offset is 0x017Ch data will be mapped into descriptor entry bits [63..32] if address offset is 0x0180h data will be mapped into ..."
wgroup.long 0x80C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_3,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_4"
width 27.
group.long 0x108++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_4,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or deter..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one amon..."
rgroup.long 0x88++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_4,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                    "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x109C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_4,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1090++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_4,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1094++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_4,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1098++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_4,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x108C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_4,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1080++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_4,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1084++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_4,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1088++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_4,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x810++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_4,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_5"
width 27.
group.long 0x10C++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_5,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or deter..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one amon..."
rgroup.long 0x8C++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_5,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                    "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x10BC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_5,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x10B0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_5,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x10B4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_5,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x10B8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_5,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x10AC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_5,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x10A0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_5,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x10A4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_5,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x10A8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_5,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x814++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_5,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_6"
width 27.
group.long 0x110++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_6,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or deter..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one amon..."
rgroup.long 0x90++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_6,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                    "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x10DC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_6,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x10D0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_6,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x10D4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_6,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x10D8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_6,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x10CC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_6,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x10C0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_6,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x10C4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_6,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x10C8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_6,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x818++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_6,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_7"
width 27.
group.long 0x114++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_7,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or deter..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one amon..."
rgroup.long 0x94++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_7,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                    "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x10FC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_7,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x10F0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_7,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x10F4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_7,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x10F8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_7,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x10EC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_7,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x10E0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_7,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x10E4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_7,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x10E8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_7,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x81C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_7,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_8"
width 27.
group.long 0x118++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_8,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or deter..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one amon..."
rgroup.long 0x98++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_8,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                    "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x111C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_8,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1110++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_8,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1114++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_8,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1118++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_8,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x110C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_8,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1100++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_8,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1104++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_8,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1108++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_8,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x820++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_8,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_9"
width 27.
group.long 0x11C++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_9,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or deter..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one amon..."
rgroup.long 0x9C++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_9,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                    "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x113C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_9,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1130++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_9,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1134++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_9,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1138++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_9,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x112C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_9,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1120++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_9,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1124++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_9,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1128++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_9,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x824++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_9,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_10"
width 28.
group.long 0x120++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_10,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one amon..."
rgroup.long 0xA0++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_10,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x115C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_10,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1150++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_10,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1154++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_10,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1158++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_10,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x114C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_10,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1140++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_10,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1144++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_10,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1148++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_10,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x828++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_10,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_11"
width 28.
group.long 0x124++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_11,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one amon..."
rgroup.long 0xA4++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_11,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x117C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_11,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1170++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_11,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1174++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_11,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1178++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_11,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x116C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_11,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1160++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_11,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1164++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_11,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1168++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_11,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x82C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_11,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_12"
width 28.
group.long 0x128++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_12,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one amon..."
rgroup.long 0xA8++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_12,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x119C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_12,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1190++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_12,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1194++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_12,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1198++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_12,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x118C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_12,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1180++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_12,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1184++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_12,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1188++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_12,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x830++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_12,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_13"
width 28.
group.long 0x12C++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_13,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one amon..."
rgroup.long 0xAC++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_13,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x11BC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_13,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x11B0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_13,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x11B4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_13,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x11B8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_13,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x11AC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_13,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x11A0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_13,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x11A4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_13,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x11A8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_13,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x834++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_13,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_14"
width 28.
group.long 0x130++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_14,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one amon..."
rgroup.long 0xB0++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_14,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x11DC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_14,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x11D0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_14,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x11D4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_14,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x11D8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_14,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x11CC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_14,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x11C0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_14,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x11C4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_14,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x11C8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_14,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x838++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_14,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_15"
width 28.
group.long 0x134++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_15,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one amon..."
rgroup.long 0xB4++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_15,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x11FC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_15,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x11F0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_15,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x11F4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_15,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x11F8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_15,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x11EC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_15,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x11E0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_15,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x11E4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_15,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x11E8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_15,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x83C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_15,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_16"
width 28.
group.long 0x138++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_16,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one amon..."
rgroup.long 0xB8++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_16,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x121C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_16,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1210++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_16,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1214++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_16,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1218++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_16,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x120C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_16,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1200++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_16,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1204++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_16,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1208++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_16,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x840++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_16,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_17"
width 28.
group.long 0x13C++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_17,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one amon..."
rgroup.long 0xBC++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_17,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x123C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_17,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1230++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_17,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1234++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_17,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1238++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_17,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x122C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_17,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1220++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_17,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1224++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_17,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1228++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_17,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x844++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_17,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_18"
width 28.
group.long 0x140++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_18,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one amon..."
rgroup.long 0xC0++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_18,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x125C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_18,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1250++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_18,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1254++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_18,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1258++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_18,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x124C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_18,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1240++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_18,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1244++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_18,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1248++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_18,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x848++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_18,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_19"
width 28.
group.long 0x144++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_19,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one amon..."
rgroup.long 0xC4++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_19,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x127C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_19,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1270++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_19,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1274++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_19,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1278++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_19,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x126C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_19,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1260++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_19,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1264++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_19,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1268++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_19,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x84C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_19,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_20"
width 28.
group.long 0x148++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_20,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one amon..."
rgroup.long 0xC8++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_20,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x129C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_20,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1290++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_20,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1294++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_20,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1298++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_20,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x128C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_20,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1280++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_20,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1284++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_20,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1288++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_20,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x850++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_20,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_21"
width 28.
group.long 0x14C++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_21,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one amon..."
rgroup.long 0xCC++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_21,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x12BC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_21,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x12B0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_21,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x12B4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_21,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x12B8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_21,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x12AC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_21,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x12A0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_21,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x12A4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_21,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x12A8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_21,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x854++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_21,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_22"
width 28.
group.long 0x150++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_22,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one amon..."
rgroup.long 0xD0++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_22,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x12DC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_22,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x12D0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_22,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x12D4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_22,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x12D8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_22,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x12CC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_22,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x12C0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_22,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x12C4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_22,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x12C8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_22,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x858++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_22,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_23"
width 28.
group.long 0x154++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_23,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one amon..."
rgroup.long 0xD4++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_23,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x12FC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_23,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x12F0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_23,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x12F4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_23,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x12F8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_23,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x12EC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_23,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x12E0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_23,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x12E4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_23,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x12E8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_23,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x85C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_23,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_24"
width 28.
group.long 0x158++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_24,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one amon..."
rgroup.long 0xD8++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_24,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x131C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_24,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1310++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_24,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1314++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_24,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1318++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_24,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x130C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_24,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1300++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_24,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1304++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_24,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1308++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_24,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x860++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_24,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_25"
width 28.
group.long 0x15C++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_25,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one amon..."
rgroup.long 0xDC++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_25,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x133C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_25,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1330++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_25,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1334++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_25,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1338++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_25,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x132C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_25,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1320++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_25,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1324++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_25,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1328++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_25,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x864++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_25,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_26"
width 28.
group.long 0x160++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_26,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one amon..."
rgroup.long 0xE0++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_26,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x135C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_26,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1350++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_26,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1354++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_26,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1358++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_26,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x134C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_26,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1340++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_26,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1344++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_26,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1348++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_26,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x868++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_26,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_27"
width 28.
group.long 0x164++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_27,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one amon..."
rgroup.long 0xE4++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_27,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x137C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_27,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1370++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_27,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1374++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_27,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1378++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_27,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x136C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_27,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1360++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_27,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1364++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_27,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1368++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_27,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x86C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_27,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_28"
width 28.
group.long 0x168++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_28,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one amon..."
rgroup.long 0xE8++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_28,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x139C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_28,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1390++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_28,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1394++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_28,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1398++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_28,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x138C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_28,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1380++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_28,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1384++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_28,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1388++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_28,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x870++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_28,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_29"
width 28.
group.long 0x16C++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_29,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one amon..."
rgroup.long 0xEC++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_29,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x13BC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_29,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x13B0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_29,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x13B4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_29,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x13B8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_29,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x13AC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_29,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x13A0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_29,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x13A4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_29,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x13A8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_29,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x874++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_29,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_30"
width 28.
group.long 0x170++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_30,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one amon..."
rgroup.long 0xF0++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_30,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x13DC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_30,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x13D0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_30,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x13D4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_30,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x13D8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_30,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x13CC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_30,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x13C0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_30,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x13C4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_30,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x13C8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_30,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x878++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_30,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_31"
width 28.
group.long 0x174++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_31,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one amon..."
rgroup.long 0xF4++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_31,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x13FC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_31,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x13F0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_31,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x13F4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_31,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x13F8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_31,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x13EC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_31,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x13E0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_31,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x13E4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_31,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x13E8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_31,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x87C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_31,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_32"
width 27.
group.long 0x141C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_32,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1410++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_32,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1414++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_32,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1418++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_32,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x140C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_32,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1400++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_32,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1404++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_32,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1408++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_32,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x880++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_32,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_33"
width 27.
group.long 0x143C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_33,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1430++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_33,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1434++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_33,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1438++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_33,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x142C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_33,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1420++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_33,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1424++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_33,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1428++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_33,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x884++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_33,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_34"
width 27.
group.long 0x145C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_34,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1450++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_34,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1454++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_34,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1458++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_34,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x144C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_34,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1440++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_34,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1444++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_34,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1448++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_34,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x888++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_34,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_35"
width 27.
group.long 0x147C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_35,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1470++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_35,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1474++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_35,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1478++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_35,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x146C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_35,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1460++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_35,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1464++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_35,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1468++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_35,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x88C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_35,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_36"
width 27.
group.long 0x149C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_36,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1490++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_36,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1494++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_36,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1498++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_36,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x148C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_36,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1480++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_36,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1484++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_36,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1488++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_36,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x890++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_36,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_37"
width 27.
group.long 0x14BC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_37,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x14B0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_37,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x14B4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_37,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x14B8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_37,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x14AC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_37,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x14A0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_37,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x14A4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_37,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x14A8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_37,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x894++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_37,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_38"
width 27.
group.long 0x14DC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_38,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x14D0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_38,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x14D4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_38,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x14D8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_38,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x14CC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_38,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x14C0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_38,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x14C4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_38,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x14C8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_38,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x898++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_38,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_39"
width 27.
group.long 0x14FC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_39,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x14F0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_39,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x14F4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_39,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x14F8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_39,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x14EC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_39,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x14E0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_39,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x14E4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_39,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x14E8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_39,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x89C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_39,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_40"
width 27.
group.long 0x151C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_40,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1510++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_40,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1514++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_40,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1518++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_40,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x150C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_40,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1500++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_40,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1504++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_40,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1508++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_40,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8A0++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_40,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_41"
width 27.
group.long 0x153C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_41,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1530++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_41,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1534++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_41,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1538++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_41,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x152C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_41,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1520++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_41,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1524++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_41,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1528++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_41,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8A4++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_41,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_42"
width 27.
group.long 0x155C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_42,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1550++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_42,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1554++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_42,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1558++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_42,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x154C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_42,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1540++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_42,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1544++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_42,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1548++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_42,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8A8++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_42,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_43"
width 27.
group.long 0x157C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_43,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1570++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_43,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1574++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_43,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1578++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_43,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x156C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_43,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1560++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_43,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1564++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_43,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1568++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_43,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8AC++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_43,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_44"
width 27.
group.long 0x159C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_44,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1590++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_44,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1594++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_44,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1598++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_44,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x158C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_44,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1580++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_44,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1584++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_44,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1588++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_44,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8B0++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_44,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_45"
width 27.
group.long 0x15BC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_45,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x15B0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_45,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x15B4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_45,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x15B8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_45,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x15AC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_45,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x15A0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_45,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x15A4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_45,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x15A8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_45,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8B4++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_45,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_46"
width 27.
group.long 0x15DC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_46,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x15D0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_46,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x15D4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_46,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x15D8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_46,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x15CC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_46,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x15C0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_46,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x15C4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_46,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x15C8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_46,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8B8++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_46,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_47"
width 27.
group.long 0x15FC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_47,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x15F0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_47,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x15F4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_47,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x15F8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_47,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x15EC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_47,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x15E0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_47,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x15E4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_47,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x15E8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_47,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8BC++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_47,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_48"
width 27.
group.long 0x161C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_48,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1610++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_48,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1614++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_48,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1618++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_48,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x160C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_48,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1600++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_48,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1604++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_48,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1608++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_48,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8C0++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_48,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_49"
width 27.
group.long 0x163C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_49,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1630++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_49,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1634++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_49,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1638++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_49,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x162C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_49,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1620++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_49,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1624++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_49,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1628++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_49,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8C4++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_49,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_50"
width 27.
group.long 0x165C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_50,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1650++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_50,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1654++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_50,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1658++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_50,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x164C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_50,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1640++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_50,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1644++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_50,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1648++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_50,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8C8++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_50,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_51"
width 27.
group.long 0x167C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_51,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1670++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_51,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1674++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_51,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1678++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_51,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x166C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_51,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1660++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_51,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1664++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_51,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1668++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_51,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8CC++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_51,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_52"
width 27.
group.long 0x169C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_52,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1690++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_52,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1694++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_52,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1698++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_52,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x168C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_52,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1680++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_52,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1684++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_52,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1688++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_52,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8D0++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_52,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_53"
width 27.
group.long 0x16BC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_53,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x16B0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_53,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x16B4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_53,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x16B8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_53,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x16AC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_53,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x16A0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_53,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x16A4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_53,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x16A8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_53,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8D4++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_53,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_54"
width 27.
group.long 0x16DC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_54,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x16D0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_54,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x16D4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_54,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x16D8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_54,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x16CC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_54,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x16C0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_54,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x16C4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_54,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x16C8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_54,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8D8++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_54,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_55"
width 27.
group.long 0x16FC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_55,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x16F0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_55,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x16F4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_55,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x16F8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_55,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x16EC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_55,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x16E0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_55,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x16E4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_55,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x16E8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_55,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8DC++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_55,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_56"
width 27.
group.long 0x171C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_56,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1710++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_56,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1714++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_56,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1718++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_56,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x170C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_56,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1700++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_56,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1704++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_56,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1708++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_56,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8E0++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_56,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_57"
width 27.
group.long 0x173C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_57,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1730++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_57,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1734++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_57,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1738++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_57,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x172C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_57,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1720++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_57,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1724++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_57,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1728++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_57,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8E4++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_57,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_58"
width 27.
group.long 0x175C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_58,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1750++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_58,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1754++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_58,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1758++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_58,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x174C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_58,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1740++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_58,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1744++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_58,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1748++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_58,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8E8++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_58,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_59"
width 27.
group.long 0x177C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_59,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1770++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_59,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1774++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_59,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1778++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_59,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x176C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_59,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1760++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_59,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1764++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_59,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1768++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_59,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8EC++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_59,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_60"
width 27.
group.long 0x179C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_60,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1790++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_60,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1794++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_60,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1798++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_60,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x178C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_60,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1780++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_60,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1784++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_60,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1788++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_60,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8F0++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_60,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_61"
width 27.
group.long 0x17BC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_61,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x17B0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_61,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x17B4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_61,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x17B8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_61,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x17AC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_61,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x17A0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_61,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x17A4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_61,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x17A8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_61,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8F4++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_61,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_62"
width 27.
group.long 0x17DC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_62,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x17D0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_62,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x17D4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_62,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x17D8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_62,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x17CC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_62,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x17C0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_62,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x17C4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_62,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x17C8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_62,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8F8++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_62,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_63"
width 27.
group.long 0x17FC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_63,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x17F0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_63,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x17F4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_63,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x17F8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_63,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x17EC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_63,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x17E0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_63,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x17E4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_63,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x17E8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_63,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8FC++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_63,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_64"
width 27.
group.long 0x181C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_64,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1810++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_64,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1814++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_64,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1818++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_64,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x180C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_64,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1800++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_64,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1804++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_64,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1808++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_64,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x900++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_64,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_65"
width 27.
group.long 0x183C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_65,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1830++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_65,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1834++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_65,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1838++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_65,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x182C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_65,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1820++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_65,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1824++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_65,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1828++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_65,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x904++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_65,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_66"
width 27.
group.long 0x185C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_66,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1850++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_66,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1854++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_66,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1858++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_66,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x184C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_66,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1840++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_66,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1844++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_66,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1848++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_66,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x908++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_66,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_67"
width 27.
group.long 0x187C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_67,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1870++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_67,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1874++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_67,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1878++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_67,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x186C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_67,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1860++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_67,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1864++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_67,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1868++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_67,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x90C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_67,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_68"
width 27.
group.long 0x189C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_68,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1890++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_68,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1894++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_68,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1898++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_68,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x188C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_68,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1880++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_68,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1884++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_68,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1888++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_68,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x910++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_68,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_69"
width 27.
group.long 0x18BC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_69,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x18B0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_69,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x18B4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_69,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x18B8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_69,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x18AC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_69,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x18A0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_69,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x18A4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_69,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x18A8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_69,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x914++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_69,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_70"
width 27.
group.long 0x18DC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_70,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x18D0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_70,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x18D4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_70,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x18D8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_70,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x18CC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_70,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x18C0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_70,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x18C4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_70,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x18C8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_70,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x918++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_70,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_71"
width 27.
group.long 0x18FC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_71,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x18F0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_71,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x18F4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_71,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x18F8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_71,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x18EC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_71,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x18E0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_71,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x18E4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_71,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x18E8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_71,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x91C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_71,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_72"
width 27.
group.long 0x191C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_72,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1910++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_72,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1914++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_72,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1918++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_72,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x190C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_72,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1900++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_72,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1904++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_72,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1908++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_72,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x920++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_72,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_73"
width 27.
group.long 0x193C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_73,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1930++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_73,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1934++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_73,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1938++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_73,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x192C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_73,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1920++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_73,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1924++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_73,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1928++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_73,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x924++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_73,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_74"
width 27.
group.long 0x195C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_74,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1950++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_74,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1954++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_74,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1958++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_74,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x194C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_74,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1940++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_74,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1944++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_74,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1948++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_74,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x928++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_74,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_75"
width 27.
group.long 0x197C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_75,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1970++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_75,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1974++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_75,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1978++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_75,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x196C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_75,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1960++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_75,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1964++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_75,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1968++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_75,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x92C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_75,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_76"
width 27.
group.long 0x199C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_76,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1990++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_76,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1994++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_76,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1998++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_76,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x198C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_76,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1980++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_76,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1984++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_76,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1988++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_76,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x930++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_76,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_77"
width 27.
group.long 0x19BC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_77,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x19B0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_77,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x19B4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_77,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x19B8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_77,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x19AC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_77,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x19A0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_77,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x19A4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_77,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x19A8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_77,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x934++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_77,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_78"
width 27.
group.long 0x19DC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_78,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x19D0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_78,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x19D4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_78,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x19D8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_78,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x19CC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_78,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x19C0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_78,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x19C4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_78,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x19C8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_78,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x938++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_78,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_79"
width 27.
group.long 0x19FC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_79,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x19F0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_79,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x19F4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_79,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x19F8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_79,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x19EC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_79,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x19E0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_79,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x19E4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_79,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x19E8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_79,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x93C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_79,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_80"
width 27.
group.long 0x1A1C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_80,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1A10++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_80,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1A14++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_80,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1A18++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_80,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1A0C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_80,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1A00++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_80,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1A04++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_80,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1A08++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_80,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x940++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_80,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_81"
width 27.
group.long 0x1A3C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_81,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1A30++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_81,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1A34++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_81,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1A38++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_81,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1A2C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_81,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1A20++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_81,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1A24++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_81,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1A28++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_81,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x944++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_81,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_82"
width 27.
group.long 0x1A5C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_82,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1A50++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_82,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1A54++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_82,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1A58++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_82,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1A4C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_82,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1A40++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_82,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1A44++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_82,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1A48++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_82,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x948++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_82,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_83"
width 27.
group.long 0x1A7C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_83,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1A70++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_83,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1A74++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_83,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1A78++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_83,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1A6C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_83,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1A60++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_83,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1A64++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_83,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1A68++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_83,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x94C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_83,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_84"
width 27.
group.long 0x1A9C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_84,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1A90++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_84,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1A94++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_84,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1A98++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_84,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1A8C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_84,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1A80++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_84,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1A84++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_84,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1A88++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_84,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x950++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_84,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_85"
width 27.
group.long 0x1ABC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_85,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1AB0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_85,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1AB4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_85,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1AB8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_85,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1AAC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_85,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1AA0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_85,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1AA4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_85,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1AA8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_85,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x954++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_85,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_86"
width 27.
group.long 0x1ADC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_86,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1AD0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_86,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1AD4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_86,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1AD8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_86,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1ACC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_86,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1AC0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_86,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1AC4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_86,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1AC8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_86,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x958++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_86,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_87"
width 27.
group.long 0x1AFC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_87,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1AF0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_87,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1AF4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_87,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1AF8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_87,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1AEC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_87,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1AE0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_87,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1AE4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_87,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1AE8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_87,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x95C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_87,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_88"
width 27.
group.long 0x1B1C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_88,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1B10++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_88,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1B14++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_88,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1B18++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_88,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1B0C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_88,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1B00++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_88,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1B04++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_88,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1B08++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_88,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x960++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_88,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_89"
width 27.
group.long 0x1B3C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_89,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1B30++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_89,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1B34++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_89,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1B38++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_89,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1B2C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_89,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1B20++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_89,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1B24++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_89,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1B28++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_89,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x964++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_89,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_90"
width 27.
group.long 0x1B5C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_90,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1B50++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_90,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1B54++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_90,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1B58++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_90,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1B4C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_90,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1B40++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_90,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1B44++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_90,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1B48++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_90,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x968++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_90,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_91"
width 27.
group.long 0x1B7C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_91,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1B70++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_91,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1B74++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_91,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1B78++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_91,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1B6C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_91,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1B60++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_91,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1B64++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_91,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1B68++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_91,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x96C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_91,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_92"
width 27.
group.long 0x1B9C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_92,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1B90++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_92,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1B94++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_92,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1B98++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_92,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1B8C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_92,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1B80++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_92,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1B84++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_92,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1B88++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_92,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x970++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_92,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_93"
width 27.
group.long 0x1BBC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_93,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1BB0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_93,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1BB4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_93,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1BB8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_93,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1BAC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_93,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1BA0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_93,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1BA4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_93,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1BA8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_93,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x974++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_93,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_94"
width 27.
group.long 0x1BDC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_94,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1BD0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_94,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1BD4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_94,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1BD8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_94,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1BCC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_94,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1BC0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_94,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1BC4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_94,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1BC8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_94,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x978++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_94,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_95"
width 27.
group.long 0x1BFC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_95,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1BF0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_95,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1BF4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_95,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1BF8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_95,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1BEC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_95,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1BE0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_95,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1BE4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_95,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1BE8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_95,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x97C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_95,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_96"
width 27.
group.long 0x1C1C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_96,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1C10++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_96,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1C14++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_96,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1C18++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_96,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1C0C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_96,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1C00++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_96,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1C04++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_96,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1C08++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_96,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x980++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_96,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_97"
width 27.
group.long 0x1C3C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_97,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1C30++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_97,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1C34++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_97,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1C38++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_97,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1C2C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_97,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1C20++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_97,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1C24++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_97,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1C28++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_97,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x984++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_97,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_98"
width 27.
group.long 0x1C5C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_98,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1C50++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_98,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1C54++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_98,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1C58++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_98,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1C4C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_98,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1C40++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_98,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1C44++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_98,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1C48++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_98,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x988++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_98,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_99"
width 27.
group.long 0x1C7C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_99,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1C70++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_99,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1C74++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_99,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1C78++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_99,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1C6C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_99,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1C60++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_99,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1C64++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_99,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1C68++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_99,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x98C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_99,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_100"
width 28.
group.long 0x1C9C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_100,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1C90++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_100,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1C94++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_100,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1C98++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_100,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1C8C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_100,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1C80++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_100,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1C84++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_100,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1C88++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_100,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x990++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_100,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_101"
width 28.
group.long 0x1CBC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_101,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1CB0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_101,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1CB4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_101,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1CB8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_101,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1CAC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_101,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1CA0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_101,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1CA4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_101,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1CA8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_101,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x994++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_101,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_102"
width 28.
group.long 0x1CDC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_102,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1CD0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_102,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1CD4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_102,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1CD8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_102,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1CCC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_102,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1CC0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_102,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1CC4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_102,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1CC8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_102,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x998++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_102,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_103"
width 28.
group.long 0x1CFC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_103,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1CF0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_103,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1CF4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_103,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1CF8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_103,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1CEC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_103,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1CE0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_103,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1CE4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_103,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1CE8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_103,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x99C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_103,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_104"
width 28.
group.long 0x1D1C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_104,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1D10++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_104,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1D14++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_104,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1D18++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_104,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1D0C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_104,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1D00++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_104,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1D04++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_104,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1D08++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_104,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9A0++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_104,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_105"
width 28.
group.long 0x1D3C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_105,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1D30++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_105,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1D34++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_105,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1D38++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_105,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1D2C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_105,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1D20++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_105,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1D24++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_105,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1D28++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_105,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9A4++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_105,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_106"
width 28.
group.long 0x1D5C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_106,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1D50++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_106,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1D54++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_106,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1D58++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_106,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1D4C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_106,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1D40++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_106,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1D44++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_106,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1D48++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_106,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9A8++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_106,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_107"
width 28.
group.long 0x1D7C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_107,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1D70++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_107,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1D74++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_107,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1D78++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_107,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1D6C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_107,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1D60++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_107,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1D64++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_107,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1D68++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_107,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9AC++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_107,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_108"
width 28.
group.long 0x1D9C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_108,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1D90++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_108,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1D94++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_108,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1D98++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_108,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1D8C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_108,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1D80++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_108,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1D84++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_108,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1D88++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_108,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9B0++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_108,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_109"
width 28.
group.long 0x1DBC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_109,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1DB0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_109,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1DB4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_109,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1DB8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_109,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1DAC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_109,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1DA0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_109,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1DA4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_109,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1DA8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_109,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9B4++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_109,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_110"
width 28.
group.long 0x1DDC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_110,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1DD0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_110,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1DD4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_110,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1DD8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_110,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1DCC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_110,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1DC0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_110,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1DC4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_110,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1DC8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_110,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9B8++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_110,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_111"
width 28.
group.long 0x1DFC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_111,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1DF0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_111,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1DF4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_111,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1DF8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_111,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1DEC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_111,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1DE0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_111,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1DE4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_111,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1DE8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_111,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9BC++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_111,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_112"
width 28.
group.long 0x1E1C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_112,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1E10++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_112,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1E14++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_112,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1E18++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_112,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1E0C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_112,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1E00++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_112,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1E04++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_112,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1E08++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_112,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9C0++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_112,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_113"
width 28.
group.long 0x1E3C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_113,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1E30++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_113,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1E34++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_113,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1E38++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_113,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1E2C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_113,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1E20++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_113,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1E24++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_113,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1E28++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_113,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9C4++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_113,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_114"
width 28.
group.long 0x1E5C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_114,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1E50++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_114,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1E54++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_114,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1E58++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_114,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1E4C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_114,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1E40++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_114,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1E44++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_114,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1E48++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_114,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9C8++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_114,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_115"
width 28.
group.long 0x1E7C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_115,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1E70++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_115,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1E74++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_115,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1E78++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_115,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1E6C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_115,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1E60++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_115,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1E64++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_115,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1E68++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_115,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9CC++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_115,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_116"
width 28.
group.long 0x1E9C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_116,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1E90++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_116,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1E94++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_116,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1E98++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_116,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1E8C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_116,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1E80++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_116,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1E84++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_116,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1E88++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_116,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9D0++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_116,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_117"
width 28.
group.long 0x1EBC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_117,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1EB0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_117,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1EB4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_117,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1EB8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_117,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1EAC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_117,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1EA0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_117,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1EA4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_117,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1EA8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_117,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9D4++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_117,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_118"
width 28.
group.long 0x1EDC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_118,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1ED0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_118,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1ED4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_118,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1ED8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_118,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1ECC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_118,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1EC0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_118,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1EC4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_118,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1EC8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_118,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9D8++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_118,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_119"
width 28.
group.long 0x1EFC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_119,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1EF0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_119,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1EF4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_119,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1EF8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_119,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1EEC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_119,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1EE0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_119,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1EE4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_119,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1EE8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_119,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9DC++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_119,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_120"
width 28.
group.long 0x1F1C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_120,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1F10++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_120,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1F14++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_120,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1F18++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_120,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1F0C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_120,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1F00++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_120,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1F04++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_120,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1F08++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_120,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9E0++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_120,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_121"
width 28.
group.long 0x1F3C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_121,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1F30++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_121,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1F34++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_121,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1F38++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_121,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1F2C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_121,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1F20++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_121,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1F24++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_121,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1F28++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_121,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9E4++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_121,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_122"
width 28.
group.long 0x1F5C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_122,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1F50++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_122,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1F54++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_122,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1F58++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_122,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1F4C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_122,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1F40++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_122,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1F44++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_122,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1F48++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_122,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9E8++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_122,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_123"
width 28.
group.long 0x1F7C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_123,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1F70++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_123,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1F74++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_123,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1F78++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_123,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1F6C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_123,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1F60++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_123,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1F64++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_123,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1F68++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_123,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9EC++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_123,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_124"
width 28.
group.long 0x1F9C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_124,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1F90++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_124,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1F94++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_124,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1F98++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_124,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1F8C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_124,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1F80++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_124,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1F84++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_124,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1F88++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_124,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9F0++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_124,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_125"
width 28.
group.long 0x1FBC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_125,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1FB0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_125,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1FB4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_125,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1FB8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_125,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1FAC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_125,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1FA0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_125,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1FA4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_125,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1FA8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_125,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9F4++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_125,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_126"
width 28.
group.long 0x1FDC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_126,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1FD0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_126,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1FD4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_126,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1FD8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_126,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1FCC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_126,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1FC0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_126,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1FC4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_126,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1FC8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_126,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9F8++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_126,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_127"
width 28.
group.long 0x1FFC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_127,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1FF0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_127,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1FF4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_127,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1FF8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_127,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1FEC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_127,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1FE0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_127,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1FE4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_127,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1FE8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_127,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9FC++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_127,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination (and the sourc..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
textline ""
width 28.
rgroup.long 0x0++0x3
line.long 0x00 "VDMA_REVISION,IP revision identifier."
hexmask.long 0x00 0.--31. 1. " REVISION                    ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "VDMA_SYSCONFIG,Clock management configuration"
bitfld.long 0x00 4.--5. " STANDBYMODE                 ,Configuration of the local initiator state management mode. By definition, initiator can generate read/write transaction as long as it is out of STANDBY state. - 0x0. - 0x1. - 0x2. - 0x3." "0x0,0x1,0x2,0x3"
bitfld.long 0x00 2.--3. "       IDLEMODE       ,Configuration of the local target state management mode. By definition, target can handle read/write transaction as long as it is out of IDLE state. - 0x3. - . - 0x2. - ." "0x3,0x1,0x2,0x3"
bitfld.long 0x00 0. "  SOFTRESET     ,Software reset. Read 0: Software reset done, no pending action Write 0: No action Write 1: Initiate software reset Read 1: Software reset ongoing" "0,1"
wgroup.long 0x20++0x3
line.long 0x00 "VDMA_IRQ_EOI,End Of Interrupt number specification"
hexmask.long.byte 0x00 0.--7. 1. " LINE_NUMBER                 ,Software End Of Interrupt (EOI) control. Write number of interrupt output. Write 0x0: EOI for interrupt output line #0 Write 0x1: EOI for interrupt output line #1 Write 0x2: EOI for interrupt output line #2 Write 0x3: N/A ..."
group.long 0x24++0x3
line.long 0x00 "VDMA_IRQSTATUS_RAW_0,Per-end of group (31 down to 0) internal signaling raw interrupt status vector, line #0. Raw status is set even if end of group (31 down to 0) interrupt is not enabled. Write 1 to set the (raw) status, mostly for debug."
hexmask.long 0x00 0.--31. 1. " ICONT1_END_GROUP31_0        ,Settable raw status for port1 end of group 31 to 0 Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (debug)"
group.long 0x28++0x3
line.long 0x00 "VDMA_IRQSTATUS_0,Per-end of group (31 down to 0) internal signaling 'enabled' interrupt status vector, line #0. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, t..."
hexmask.long 0x00 0.--31. 1. " ICONT1_END_GROUP31_0        ,Write 0: No action Read 0: No (enabled) event pending Read 1: Event pending Write 1: Clear (raw) event"
group.long 0x2C++0x3
line.long 0x00 "VDMA_IRQENABLE_SET_0,Per-end of group (31 down to 0) internal event interrupt enable bit vector, line #0. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
hexmask.long 0x00 0.--31. 1. " ENABLE_SET_ICONT1_GROUP31_0 ,Enable for end_of_port1_group31 to 0 interrupts Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x30++0x3
line.long 0x00 "VDMA_IRQENABLE_CLR_0,Per-end of group (31 down to 0) internal event interrupt enable bit vector, line #0. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
hexmask.long 0x00 0.--31. 1. " ENABLE_CLR_ICONT1_GROUP31_0 ,Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Disable interrupt"
group.long 0x34++0x3
line.long 0x00 "VDMA_IRQSTATUS_RAW_1,Per-end of group (31 down to 0) internal signaling raw interrupt status vector, line #1. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
hexmask.long 0x00 0.--31. 1. " ICONT2_END_GROUP31_0        ,Settable raw status for port2 end of group 31 to 0 Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (debug)"
group.long 0x38++0x3
line.long 0x00 "VDMA_IRQSTATUS_1,Per-end of group (31 down to 0) internal signaling 'enabled' interrupt status vector, line #1. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, t..."
hexmask.long 0x00 0.--31. 1. " ICONT2_END_GROUP31_0        ,Write 0: No action Read 0: No (enabled) event pending Read 1: Event pending Write 1: Clear (raw) event"
group.long 0x3C++0x3
line.long 0x00 "VDMA_IRQENABLE_SET_1,Per-end of group (31 down to 0) internal event interrupt enable bit vector, line #1. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
hexmask.long 0x00 0.--31. 1. " ENABLE_SET_ICONT2_GROUP31_0 ,Enable for end_of_group31 to 0 interrupts Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x40++0x3
line.long 0x00 "VDMA_IRQENABLE_CLR_1,Per-end of group (31 down to 0) internal event interrupt enable bit vector, line #1. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
hexmask.long 0x00 0.--31. 1. " ENABLE_CLR_ICONT2_GROUP31_0 ,Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Disable interrupt"
group.long 0x44++0x3
line.long 0x00 "VDMA_IRQSTATUS_RAW_2,Per-error event raw interrupt status vector, line #2. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug. Write 0: No action Read 0: No evt pend. Read 1: Event pend. Write 1: Set event"
bitfld.long 0x00 3. " MASTER_SRESPERR             ,Interrupt fires when one VDMA OCP master port (SL2R, SL2W, or L3_MAIN) received Sresp=ERR from platform. Note that corresponding context does (did) not abort corresponding transaction neither corresponding group transfer a..." "0,1"
bitfld.long 0x00 2. "         DIR_INTERLEAVE ,Interrupt fires (if enabled) in case U/V bit is set and DIR field is different from 0b10." "0,1"
bitfld.long 0x00 1. "    TRIGGER_TWICE ,From software user perspective: interrupt fires when same group has been triggered twice without having received end of corresponding group signaling in between. From hardware design perspective the actual condition for this interrup..." "0,1"
textline "                                     "
bitfld.long 0x00 0. " COHERENCY_ERROR             ,Interrupt fires (if enabled) in case descriptors pushed into lists (either asynchronous or synchronous) do not match with current group being scheduled. Reasons that can generate such a situation are: - several hosts 'conc..." "0,1"
group.long 0x48++0x3
line.long 0x00 "VDMA_IRQSTATUS_2,Per-error event 'enabled' interrupt status vector, line #2. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, ithat is, even if not enabled). Writ..."
eventfld.long 0x00 3. " MASTER_SRESPERR             ,Interrupt fires when one VDMA OCP master port (SL2R, SL2W, or L3_MAIN) received Sresp=ERR from platform. Note that corresponding context does (did) not abort corresponding transaction neither corresponding group transfer a..." "0,1"
eventfld.long 0x00 2. "         DIR_INTERLEAVE ,Interrupt fires (if enabled) in case U/V bit is set and DIR field is different from 0b10." "0,1"
eventfld.long 0x00 1. "    TRIGGER_TWICE ,From software user perspective: interrupt fires when same group has been triggered twice without having received end of corresponding group signaling in between. From hardware design perspective the actual condition for this interrup..." "0,1"
textline "                                     "
eventfld.long 0x00 0. " COHERENCY_ERROR             ,Interrupt fires (if enabled) in case descriptors pushed into lists (either asynchronous or synchronous) do not match with current group being scheduled. Reasons that can generate such a situation are: - several hosts 'conc..." "0,1"
group.long 0x4C++0x3
line.long 0x00 "VDMA_IRQENABLE_SET_2,Per-error event interrupt enable bit vector, line #2. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register. Enable for end_of_group31 to 0 interrupts Write 0: No action Read 0: Interrupt disabled (masked)..."
bitfld.long 0x00 3. " MASTER_SRESPERR             ," "0,1"
bitfld.long 0x00 2. "         DIR_INTERLEAVE ," "0,1"
bitfld.long 0x00 1. "    TRIGGER_TWICE ," "0,1"
textline "                                     "
bitfld.long 0x00 0. " COHERENCY_ERROR             ," "0,1"
group.long 0x50++0x3
line.long 0x00 "VDMA_IRQENABLE_CLR_2,Per-error event interrupt enable bit vector, line #2. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register. Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Dis..."
eventfld.long 0x00 3. " MASTER_SRESPERR             ," "0,1"
eventfld.long 0x00 2. "         DIR_INTERLEAVE ," "0,1"
eventfld.long 0x00 1. "    TRIGGER_TWICE ," "0,1"
textline "                                     "
eventfld.long 0x00 0. " COHERENCY_ERROR             ," "0,1"
rgroup.long 0x54++0x3
line.long 0x00 "VDMA_SYNCHR_LIST_LEVEL,"
bitfld.long 0x00 0.--3. " LEVEL                       ,Indicates number of pending (that is, which have been pushed into and wait for breakdown logic to pick them from list) entries of synchronous transfer list. One entry contains one uniquified format descriptor." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x58++0x3
line.long 0x00 "VDMA_ASYNCHR_LIST_LEVEL,"
bitfld.long 0x00 0.--3. " LEVEL                       ,Indicates number of pending (that is, which have been pushed into and wait for breakdown logic to pick them from list) entries of asynchronous transfer list. One entry contains one uniquified format descriptor." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x5C++0x3
line.long 0x00 "VDMA_NON_DETERM_FIFO_LEVEL,"
hexmask.long.byte 0x00 0.--7. 1. " LEVEL                       ,Indicates number of pending (that is, which have been pushed into and wait for read address generator to pick them from list) entries of nondeterministic object descriptor FIFO. Note that it does not reflect the number of ..."
group.long 0x60++0x3
line.long 0x00 "VDMA_TBA,TILER address mapping. This register shall only be set statically, that is, at early VDMA configuration time, before any transfer is ever triggered."
bitfld.long 0x00 0.--2. " OCP_3MSB                    ," "0,1,2,3,4,5,6,7"
rgroup.long 0x64++0x3
line.long 0x00 "VDMA_CONTEXT_STATUS,When individual bit is reset, corresponding context is available. When individual bit is set, corresponding context is allocated."
bitfld.long 0x00 15. " CONTEXT15                   ," "0,1"
bitfld.long 0x00 14. "         CONTEXT14      ," "0,1"
bitfld.long 0x00 13. "    CONTEXT13     ," "0,1"
textline "                                     "
bitfld.long 0x00 12. " CONTEXT12                   ," "0,1"
bitfld.long 0x00 11. "         CONTEXT11      ," "0,1"
bitfld.long 0x00 10. "    CONTEXT10     ," "0,1"
textline "                                     "
bitfld.long 0x00 9. " CONTEXT9                    ," "0,1"
bitfld.long 0x00 8. "         CONTEXT8       ," "0,1"
bitfld.long 0x00 7. "    CONTEXT7      ," "0,1"
textline "                                     "
bitfld.long 0x00 6. " CONTEXT6                    ," "0,1"
bitfld.long 0x00 5. "         CONTEXT5       ," "0,1"
bitfld.long 0x00 4. "    CONTEXT4      ," "0,1"
textline "                                     "
bitfld.long 0x00 3. " CONTEXT3                    ," "0,1"
bitfld.long 0x00 2. "         CONTEXT2       ," "0,1"
bitfld.long 0x00 1. "    CONTEXT1      ," "0,1"
textline "                                     "
bitfld.long 0x00 0. " CONTEXT0                    ," "0,1"
wgroup.long 0x68++0x3
line.long 0x00 "VDMA_GROUP_TRIGGER,Register entry for software user to trigger deterministic (only) groups through CPU writes. Write '1' to desired bit triggers corresponding group (which SHALL be defined as deterministic through GROUP_DEFINITION register set). Writin..."
hexmask.long 0x00 0.--31. 1. " CPU_TRIGGER_GROUP0_31       ,MS bit applies to group 31 LS bit applies to Group 0"
group.long 0x6C++0x3
line.long 0x00 "VDMA_MAX_CONTEXT_SYNCHR,Software user configurable maximum number of context synchronous list can get benefit of. This register should only be set statically, that is, at early VDMA configuration time, before any transfer is ever triggered. Should it b..."
bitfld.long 0x00 0.--3. " MAX_VALUE                   ,(max_value + 1) is the actual number of context allocatable to synchronous list." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x70++0x3
line.long 0x00 "VDMA_MAX_CONTEXT_ASYNCHR,Software user configurable maximum number of context asynchronous list can get benefit of. This register should only be set statically, that is, at early VDMA configuration time, before any transfer is ever triggered. Should it..."
bitfld.long 0x00 0.--3. " MAX_VALUE                   ,(max_value + 1) is the actual number of context allocatable to asynchronous list." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x74++0x3
line.long 0x00 "VDMA_IRQ_NEOG,Sets whether end of group signaling should be set through external hardware lines (like the deterministic group triggers) or wrap into interrupt line."
hexmask.long 0x00 0.--31. 1. " IRQ_NEOG_GROUP31_0          ,when set, corresponding end of group signaling is propagated as interrupt source to both interrupt line 0 and 1. Software user is expected in that case to enable corresponding interrupt. When reset, corresponding end of gr..."
width 0x0B
tree.end
endif
tree "VDMA_L3_MAINInterconnect"
base ad:0x5A050000
tree "DMA_Channel_0"
width 27.
group.long 0xF8++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_0,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one..."
rgroup.long 0x78++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_0,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                    "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x101C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_0,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1010++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_0,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1014++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_0,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1018++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_0,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x100C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_0,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1000++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_0,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1004++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_0,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1008++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_0,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x178++0x3
line.long 0x00 "VDMA_NON_DETERM_k_0,Non deterministic descriptor FIFO width being 128b and configuration port width being 32b, four OCP write commands into four different (incremental) addresses to create one (short) nondeterministic descriptor. Least significant 32b..."
hexmask.long 0x00 0.--31. 1. " ONE_OUT_OF_FOUR_32B_WORD   ,if address offset is 0x0178h data will be mapped into descriptor entry bits [31..0] if address offset is 0x017Ch data will be mapped into descriptor entry bits [63..32] if address offset is 0x0180h data will be mapped into..."
wgroup.long 0x800++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_0,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_1"
width 27.
group.long 0xFC++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_1,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one..."
rgroup.long 0x7C++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_1,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                    "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x103C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_1,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1030++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_1,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1034++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_1,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1038++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_1,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x102C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_1,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1020++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_1,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1024++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_1,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1028++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_1,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x17C++0x3
line.long 0x00 "VDMA_NON_DETERM_k_1,Non deterministic descriptor FIFO width being 128b and configuration port width being 32b, four OCP write commands into four different (incremental) addresses to create one (short) nondeterministic descriptor. Least significant 32b..."
hexmask.long 0x00 0.--31. 1. " ONE_OUT_OF_FOUR_32B_WORD   ,if address offset is 0x0178h data will be mapped into descriptor entry bits [31..0] if address offset is 0x017Ch data will be mapped into descriptor entry bits [63..32] if address offset is 0x0180h data will be mapped into..."
wgroup.long 0x804++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_1,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_2"
width 27.
group.long 0x100++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_2,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one..."
rgroup.long 0x80++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_2,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                    "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x105C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_2,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1050++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_2,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1054++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_2,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1058++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_2,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x104C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_2,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1040++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_2,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1044++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_2,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1048++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_2,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x180++0x3
line.long 0x00 "VDMA_NON_DETERM_k_2,Non deterministic descriptor FIFO width being 128b and configuration port width being 32b, four OCP write commands into four different (incremental) addresses to create one (short) nondeterministic descriptor. Least significant 32b..."
hexmask.long 0x00 0.--31. 1. " ONE_OUT_OF_FOUR_32B_WORD   ,if address offset is 0x0178h data will be mapped into descriptor entry bits [31..0] if address offset is 0x017Ch data will be mapped into descriptor entry bits [63..32] if address offset is 0x0180h data will be mapped into..."
wgroup.long 0x808++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_2,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_3"
width 27.
group.long 0x104++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_3,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one..."
rgroup.long 0x84++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_3,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                    "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x107C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_3,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1070++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_3,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1074++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_3,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1078++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_3,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x106C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_3,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1060++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_3,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1064++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_3,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1068++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_3,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x184++0x3
line.long 0x00 "VDMA_NON_DETERM_k_3,Non deterministic descriptor FIFO width being 128b and configuration port width being 32b, four OCP write commands into four different (incremental) addresses to create one (short) nondeterministic descriptor. Least significant 32b..."
hexmask.long 0x00 0.--31. 1. " ONE_OUT_OF_FOUR_32B_WORD   ,if address offset is 0x0178h data will be mapped into descriptor entry bits [31..0] if address offset is 0x017Ch data will be mapped into descriptor entry bits [63..32] if address offset is 0x0180h data will be mapped into..."
wgroup.long 0x80C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_3,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_4"
width 27.
group.long 0x108++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_4,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one..."
rgroup.long 0x88++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_4,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                    "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x109C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_4,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1090++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_4,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1094++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_4,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1098++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_4,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x108C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_4,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1080++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_4,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1084++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_4,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1088++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_4,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x810++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_4,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_5"
width 27.
group.long 0x10C++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_5,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one..."
rgroup.long 0x8C++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_5,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                    "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x10BC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_5,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x10B0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_5,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x10B4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_5,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x10B8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_5,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x10AC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_5,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x10A0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_5,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x10A4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_5,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x10A8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_5,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x814++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_5,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_6"
width 27.
group.long 0x110++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_6,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one..."
rgroup.long 0x90++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_6,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                    "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x10DC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_6,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x10D0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_6,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x10D4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_6,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x10D8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_6,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x10CC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_6,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x10C0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_6,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x10C4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_6,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x10C8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_6,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x818++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_6,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_7"
width 27.
group.long 0x114++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_7,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one..."
rgroup.long 0x94++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_7,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                    "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x10FC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_7,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x10F0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_7,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x10F4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_7,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x10F8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_7,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x10EC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_7,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x10E0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_7,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x10E4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_7,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x10E8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_7,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x81C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_7,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_8"
width 27.
group.long 0x118++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_8,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one..."
rgroup.long 0x98++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_8,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                    "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x111C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_8,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1110++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_8,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1114++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_8,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1118++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_8,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x110C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_8,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1100++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_8,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1104++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_8,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1108++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_8,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x820++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_8,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_9"
width 27.
group.long 0x11C++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_9,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one..."
rgroup.long 0x9C++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_9,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                    "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x113C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_9,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1130++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_9,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1134++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_9,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1138++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_9,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x112C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_9,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1120++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_9,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1124++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_9,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1128++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_9,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x824++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_9,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_10"
width 28.
group.long 0x120++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_10,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one..."
rgroup.long 0xA0++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_10,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x115C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_10,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1150++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_10,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1154++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_10,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1158++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_10,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x114C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_10,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1140++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_10,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1144++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_10,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1148++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_10,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x828++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_10,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_11"
width 28.
group.long 0x124++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_11,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one..."
rgroup.long 0xA4++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_11,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x117C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_11,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1170++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_11,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1174++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_11,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1178++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_11,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x116C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_11,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1160++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_11,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1164++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_11,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1168++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_11,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x82C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_11,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_12"
width 28.
group.long 0x128++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_12,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one..."
rgroup.long 0xA8++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_12,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x119C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_12,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1190++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_12,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1194++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_12,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1198++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_12,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x118C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_12,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1180++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_12,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1184++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_12,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1188++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_12,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x830++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_12,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_13"
width 28.
group.long 0x12C++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_13,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one..."
rgroup.long 0xAC++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_13,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x11BC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_13,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x11B0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_13,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x11B4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_13,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x11B8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_13,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x11AC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_13,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x11A0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_13,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x11A4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_13,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x11A8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_13,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x834++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_13,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_14"
width 28.
group.long 0x130++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_14,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one..."
rgroup.long 0xB0++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_14,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x11DC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_14,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x11D0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_14,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x11D4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_14,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x11D8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_14,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x11CC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_14,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x11C0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_14,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x11C4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_14,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x11C8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_14,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x838++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_14,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_15"
width 28.
group.long 0x134++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_15,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one..."
rgroup.long 0xB4++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_15,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x11FC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_15,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x11F0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_15,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x11F4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_15,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x11F8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_15,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x11EC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_15,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x11E0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_15,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x11E4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_15,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x11E8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_15,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x83C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_15,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_16"
width 28.
group.long 0x138++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_16,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one..."
rgroup.long 0xB8++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_16,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x121C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_16,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1210++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_16,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1214++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_16,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1218++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_16,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x120C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_16,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1200++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_16,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1204++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_16,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1208++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_16,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x840++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_16,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_17"
width 28.
group.long 0x13C++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_17,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one..."
rgroup.long 0xBC++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_17,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x123C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_17,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1230++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_17,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1234++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_17,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1238++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_17,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x122C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_17,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1220++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_17,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1224++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_17,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1228++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_17,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x844++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_17,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_18"
width 28.
group.long 0x140++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_18,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one..."
rgroup.long 0xC0++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_18,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x125C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_18,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1250++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_18,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1254++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_18,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1258++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_18,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x124C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_18,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1240++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_18,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1244++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_18,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1248++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_18,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x848++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_18,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_19"
width 28.
group.long 0x144++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_19,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one..."
rgroup.long 0xC4++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_19,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x127C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_19,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1270++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_19,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1274++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_19,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1278++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_19,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x126C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_19,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1260++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_19,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1264++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_19,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1268++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_19,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x84C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_19,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_20"
width 28.
group.long 0x148++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_20,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one..."
rgroup.long 0xC8++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_20,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x129C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_20,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1290++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_20,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1294++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_20,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1298++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_20,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x128C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_20,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1280++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_20,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1284++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_20,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1288++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_20,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x850++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_20,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_21"
width 28.
group.long 0x14C++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_21,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one..."
rgroup.long 0xCC++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_21,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x12BC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_21,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x12B0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_21,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x12B4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_21,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x12B8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_21,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x12AC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_21,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x12A0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_21,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x12A4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_21,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x12A8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_21,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x854++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_21,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_22"
width 28.
group.long 0x150++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_22,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one..."
rgroup.long 0xD0++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_22,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x12DC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_22,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x12D0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_22,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x12D4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_22,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x12D8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_22,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x12CC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_22,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x12C0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_22,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x12C4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_22,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x12C8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_22,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x858++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_22,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_23"
width 28.
group.long 0x154++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_23,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one..."
rgroup.long 0xD4++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_23,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x12FC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_23,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x12F0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_23,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x12F4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_23,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x12F8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_23,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x12EC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_23,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x12E0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_23,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x12E4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_23,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x12E8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_23,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x85C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_23,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_24"
width 28.
group.long 0x158++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_24,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one..."
rgroup.long 0xD8++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_24,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x131C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_24,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1310++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_24,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1314++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_24,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1318++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_24,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x130C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_24,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1300++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_24,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1304++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_24,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1308++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_24,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x860++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_24,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_25"
width 28.
group.long 0x15C++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_25,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one..."
rgroup.long 0xDC++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_25,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x133C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_25,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1330++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_25,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1334++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_25,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1338++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_25,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x132C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_25,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1320++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_25,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1324++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_25,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1328++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_25,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x864++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_25,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_26"
width 28.
group.long 0x160++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_26,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one..."
rgroup.long 0xE0++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_26,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x135C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_26,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1350++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_26,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1354++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_26,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1358++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_26,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x134C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_26,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1340++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_26,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1344++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_26,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1348++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_26,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x868++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_26,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_27"
width 28.
group.long 0x164++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_27,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one..."
rgroup.long 0xE4++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_27,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x137C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_27,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1370++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_27,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1374++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_27,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1378++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_27,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x136C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_27,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1360++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_27,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1364++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_27,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1368++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_27,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x86C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_27,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_28"
width 28.
group.long 0x168++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_28,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one..."
rgroup.long 0xE8++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_28,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x139C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_28,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1390++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_28,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1394++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_28,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1398++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_28,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x138C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_28,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1380++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_28,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1384++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_28,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1388++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_28,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x870++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_28,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_29"
width 28.
group.long 0x16C++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_29,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one..."
rgroup.long 0xEC++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_29,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x13BC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_29,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x13B0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_29,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x13B4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_29,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x13B8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_29,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x13AC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_29,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x13A0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_29,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x13A4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_29,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x13A8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_29,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x874++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_29,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_30"
width 28.
group.long 0x170++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_30,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one..."
rgroup.long 0xF0++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_30,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x13DC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_30,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x13D0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_30,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x13D4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_30,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x13D8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_30,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x13CC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_30,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x13C0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_30,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x13C4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_30,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x13C8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_30,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x878++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_30,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_31"
width 28.
group.long 0x174++0x3
line.long 0x00 "VDMA_GROUP_DEFINITION_j_31,Group_definition register set is the software user entry to define groups mapping and routing into and through event engine: - throw group into synchronous or asynchronous list - pick descriptors from nondeterministic or dete..."
bitfld.long 0x00 13. " NON_DETERM_DETERM          ,Group is made of nondeterministic object descriptors when reset, and of deterministic object descriptors when set." "0,1"
bitfld.long 0x00 12. "         ASYNCHR_SYNCHR ,When reset indicates that this (these) group descriptor(s) are to be pushed into asynchronous transfer queue, when set into synchronous transfer queue." "0,1"
hexmask.long.word 0x00 0.--11. 1. "   START_ADDRESS           ,In case of deterministic transfers shall be the very first descriptor address of group. Note that this field shall be filled-in with the 12 least significant bits of VDMA_L_DETERM_31_0_i address offsets (X being the one..."
rgroup.long 0xF4++0x3
line.long 0x00 "VDMA_GROUP_STATUS_j_31,"
bitfld.long 0x00 11. " LAST                       ,When set, means that last breakdown of last descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 10. "         FIRST          ,When set, means that first breakdown of first descriptor of group has been attributed to one context. Bit is automatically cleared by hardware when group transfer completes." "0,1"
bitfld.long 0x00 5.--9. "   PENDING_DATA_PROCESSING ,Current number of data chunks (each of 128bytes max) that will require some data processing. Which kind of processing is not reflected." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 0.--4. " SERVICING_CONTEXTS         ,Number of contexts currently allocated to service this group." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x13FC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_31,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x13F0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_31,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x13F4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_31,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x13F8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_31,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x13EC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_31,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x13E0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_31,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x13E4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_31,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x13E8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_31,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x87C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_31,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE         ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger..."
tree.end
tree "DMA_Channel_32"
width 27.
group.long 0x141C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_32,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1410++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_32,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1414++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_32,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1418++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_32,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x140C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_32,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1400++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_32,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1404++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_32,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1408++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_32,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x880++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_32,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_33"
width 27.
group.long 0x143C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_33,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1430++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_33,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1434++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_33,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1438++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_33,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x142C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_33,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1420++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_33,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1424++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_33,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1428++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_33,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x884++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_33,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_34"
width 27.
group.long 0x145C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_34,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1450++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_34,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1454++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_34,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1458++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_34,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x144C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_34,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1440++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_34,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1444++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_34,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1448++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_34,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x888++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_34,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_35"
width 27.
group.long 0x147C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_35,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1470++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_35,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1474++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_35,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1478++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_35,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x146C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_35,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1460++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_35,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1464++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_35,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1468++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_35,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x88C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_35,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_36"
width 27.
group.long 0x149C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_36,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1490++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_36,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1494++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_36,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1498++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_36,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x148C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_36,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1480++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_36,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1484++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_36,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1488++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_36,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x890++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_36,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_37"
width 27.
group.long 0x14BC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_37,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x14B0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_37,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x14B4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_37,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x14B8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_37,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x14AC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_37,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x14A0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_37,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x14A4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_37,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x14A8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_37,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x894++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_37,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_38"
width 27.
group.long 0x14DC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_38,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x14D0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_38,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x14D4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_38,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x14D8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_38,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x14CC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_38,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x14C0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_38,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x14C4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_38,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x14C8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_38,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x898++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_38,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_39"
width 27.
group.long 0x14FC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_39,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x14F0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_39,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x14F4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_39,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x14F8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_39,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x14EC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_39,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x14E0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_39,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x14E4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_39,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x14E8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_39,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x89C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_39,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_40"
width 27.
group.long 0x151C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_40,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1510++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_40,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1514++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_40,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1518++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_40,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x150C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_40,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1500++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_40,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1504++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_40,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1508++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_40,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8A0++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_40,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_41"
width 27.
group.long 0x153C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_41,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1530++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_41,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1534++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_41,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1538++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_41,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x152C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_41,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1520++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_41,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1524++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_41,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1528++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_41,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8A4++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_41,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_42"
width 27.
group.long 0x155C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_42,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1550++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_42,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1554++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_42,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1558++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_42,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x154C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_42,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1540++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_42,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1544++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_42,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1548++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_42,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8A8++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_42,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_43"
width 27.
group.long 0x157C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_43,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1570++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_43,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1574++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_43,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1578++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_43,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x156C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_43,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1560++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_43,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1564++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_43,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1568++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_43,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8AC++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_43,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_44"
width 27.
group.long 0x159C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_44,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1590++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_44,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1594++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_44,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1598++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_44,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x158C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_44,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1580++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_44,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1584++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_44,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1588++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_44,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8B0++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_44,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_45"
width 27.
group.long 0x15BC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_45,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x15B0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_45,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x15B4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_45,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x15B8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_45,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x15AC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_45,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x15A0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_45,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x15A4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_45,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x15A8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_45,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8B4++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_45,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_46"
width 27.
group.long 0x15DC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_46,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x15D0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_46,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x15D4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_46,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x15D8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_46,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x15CC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_46,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x15C0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_46,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x15C4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_46,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x15C8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_46,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8B8++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_46,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_47"
width 27.
group.long 0x15FC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_47,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x15F0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_47,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x15F4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_47,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x15F8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_47,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x15EC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_47,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x15E0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_47,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x15E4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_47,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x15E8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_47,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8BC++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_47,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_48"
width 27.
group.long 0x161C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_48,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1610++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_48,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1614++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_48,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1618++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_48,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x160C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_48,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1600++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_48,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1604++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_48,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1608++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_48,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8C0++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_48,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_49"
width 27.
group.long 0x163C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_49,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1630++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_49,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1634++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_49,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1638++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_49,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x162C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_49,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1620++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_49,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1624++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_49,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1628++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_49,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8C4++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_49,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_50"
width 27.
group.long 0x165C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_50,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1650++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_50,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1654++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_50,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1658++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_50,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x164C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_50,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1640++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_50,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1644++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_50,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1648++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_50,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8C8++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_50,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_51"
width 27.
group.long 0x167C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_51,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1670++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_51,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1674++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_51,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1678++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_51,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x166C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_51,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1660++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_51,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1664++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_51,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1668++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_51,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8CC++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_51,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_52"
width 27.
group.long 0x169C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_52,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1690++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_52,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1694++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_52,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1698++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_52,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x168C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_52,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1680++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_52,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1684++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_52,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1688++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_52,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8D0++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_52,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_53"
width 27.
group.long 0x16BC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_53,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x16B0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_53,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x16B4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_53,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x16B8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_53,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x16AC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_53,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x16A0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_53,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x16A4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_53,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x16A8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_53,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8D4++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_53,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_54"
width 27.
group.long 0x16DC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_54,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x16D0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_54,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x16D4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_54,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x16D8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_54,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x16CC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_54,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x16C0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_54,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x16C4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_54,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x16C8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_54,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8D8++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_54,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_55"
width 27.
group.long 0x16FC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_55,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x16F0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_55,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x16F4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_55,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x16F8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_55,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x16EC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_55,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x16E0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_55,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x16E4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_55,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x16E8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_55,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8DC++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_55,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_56"
width 27.
group.long 0x171C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_56,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1710++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_56,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1714++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_56,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1718++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_56,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x170C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_56,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1700++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_56,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1704++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_56,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1708++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_56,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8E0++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_56,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_57"
width 27.
group.long 0x173C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_57,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1730++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_57,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1734++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_57,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1738++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_57,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x172C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_57,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1720++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_57,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1724++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_57,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1728++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_57,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8E4++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_57,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_58"
width 27.
group.long 0x175C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_58,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1750++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_58,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1754++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_58,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1758++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_58,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x174C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_58,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1740++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_58,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1744++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_58,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1748++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_58,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8E8++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_58,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_59"
width 27.
group.long 0x177C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_59,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1770++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_59,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1774++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_59,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1778++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_59,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x176C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_59,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1760++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_59,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1764++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_59,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1768++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_59,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8EC++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_59,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_60"
width 27.
group.long 0x179C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_60,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1790++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_60,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1794++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_60,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1798++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_60,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x178C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_60,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1780++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_60,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1784++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_60,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1788++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_60,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8F0++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_60,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_61"
width 27.
group.long 0x17BC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_61,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x17B0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_61,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x17B4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_61,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x17B8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_61,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x17AC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_61,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x17A0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_61,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x17A4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_61,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x17A8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_61,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8F4++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_61,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_62"
width 27.
group.long 0x17DC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_62,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x17D0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_62,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x17D4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_62,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x17D8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_62,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x17CC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_62,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x17C0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_62,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x17C4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_62,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x17C8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_62,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8F8++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_62,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_63"
width 27.
group.long 0x17FC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_63,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x17F0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_63,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x17F4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_63,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x17F8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_63,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x17EC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_63,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x17E0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_63,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x17E4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_63,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x17E8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_63,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x8FC++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_63,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_64"
width 27.
group.long 0x181C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_64,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1810++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_64,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1814++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_64,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1818++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_64,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x180C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_64,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1800++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_64,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1804++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_64,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1808++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_64,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x900++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_64,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_65"
width 27.
group.long 0x183C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_65,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1830++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_65,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1834++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_65,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1838++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_65,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x182C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_65,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1820++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_65,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1824++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_65,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1828++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_65,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x904++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_65,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_66"
width 27.
group.long 0x185C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_66,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1850++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_66,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1854++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_66,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1858++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_66,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x184C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_66,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1840++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_66,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1844++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_66,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1848++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_66,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x908++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_66,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_67"
width 27.
group.long 0x187C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_67,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1870++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_67,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1874++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_67,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1878++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_67,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x186C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_67,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1860++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_67,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1864++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_67,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1868++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_67,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x90C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_67,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_68"
width 27.
group.long 0x189C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_68,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1890++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_68,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1894++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_68,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1898++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_68,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x188C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_68,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1880++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_68,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1884++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_68,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1888++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_68,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x910++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_68,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_69"
width 27.
group.long 0x18BC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_69,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x18B0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_69,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x18B4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_69,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x18B8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_69,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x18AC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_69,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x18A0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_69,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x18A4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_69,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x18A8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_69,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x914++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_69,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_70"
width 27.
group.long 0x18DC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_70,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x18D0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_70,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x18D4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_70,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x18D8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_70,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x18CC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_70,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x18C0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_70,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x18C4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_70,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x18C8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_70,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x918++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_70,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_71"
width 27.
group.long 0x18FC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_71,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x18F0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_71,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x18F4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_71,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x18F8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_71,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x18EC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_71,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x18E0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_71,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x18E4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_71,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x18E8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_71,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x91C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_71,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_72"
width 27.
group.long 0x191C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_72,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1910++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_72,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1914++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_72,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1918++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_72,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x190C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_72,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1900++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_72,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1904++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_72,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1908++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_72,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x920++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_72,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_73"
width 27.
group.long 0x193C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_73,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1930++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_73,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1934++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_73,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1938++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_73,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x192C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_73,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1920++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_73,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1924++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_73,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1928++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_73,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x924++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_73,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_74"
width 27.
group.long 0x195C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_74,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1950++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_74,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1954++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_74,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1958++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_74,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x194C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_74,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1940++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_74,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1944++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_74,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1948++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_74,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x928++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_74,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_75"
width 27.
group.long 0x197C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_75,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1970++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_75,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1974++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_75,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1978++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_75,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x196C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_75,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1960++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_75,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1964++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_75,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1968++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_75,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x92C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_75,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_76"
width 27.
group.long 0x199C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_76,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1990++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_76,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1994++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_76,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1998++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_76,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x198C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_76,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1980++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_76,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1984++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_76,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1988++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_76,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x930++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_76,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_77"
width 27.
group.long 0x19BC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_77,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x19B0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_77,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x19B4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_77,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x19B8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_77,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x19AC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_77,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x19A0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_77,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x19A4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_77,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x19A8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_77,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x934++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_77,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_78"
width 27.
group.long 0x19DC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_78,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x19D0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_78,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x19D4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_78,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x19D8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_78,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x19CC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_78,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x19C0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_78,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x19C4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_78,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x19C8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_78,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x938++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_78,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_79"
width 27.
group.long 0x19FC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_79,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x19F0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_79,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x19F4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_79,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x19F8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_79,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x19EC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_79,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x19E0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_79,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x19E4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_79,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x19E8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_79,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x93C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_79,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_80"
width 27.
group.long 0x1A1C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_80,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1A10++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_80,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1A14++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_80,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1A18++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_80,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1A0C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_80,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1A00++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_80,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1A04++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_80,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1A08++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_80,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x940++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_80,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_81"
width 27.
group.long 0x1A3C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_81,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1A30++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_81,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1A34++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_81,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1A38++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_81,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1A2C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_81,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1A20++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_81,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1A24++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_81,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1A28++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_81,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x944++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_81,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_82"
width 27.
group.long 0x1A5C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_82,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1A50++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_82,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1A54++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_82,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1A58++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_82,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1A4C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_82,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1A40++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_82,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1A44++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_82,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1A48++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_82,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x948++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_82,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_83"
width 27.
group.long 0x1A7C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_83,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1A70++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_83,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1A74++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_83,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1A78++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_83,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1A6C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_83,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1A60++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_83,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1A64++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_83,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1A68++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_83,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x94C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_83,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_84"
width 27.
group.long 0x1A9C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_84,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1A90++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_84,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1A94++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_84,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1A98++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_84,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1A8C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_84,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1A80++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_84,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1A84++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_84,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1A88++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_84,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x950++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_84,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_85"
width 27.
group.long 0x1ABC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_85,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1AB0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_85,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1AB4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_85,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1AB8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_85,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1AAC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_85,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1AA0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_85,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1AA4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_85,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1AA8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_85,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x954++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_85,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_86"
width 27.
group.long 0x1ADC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_86,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1AD0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_86,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1AD4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_86,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1AD8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_86,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1ACC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_86,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1AC0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_86,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1AC4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_86,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1AC8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_86,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x958++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_86,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_87"
width 27.
group.long 0x1AFC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_87,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1AF0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_87,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1AF4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_87,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1AF8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_87,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1AEC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_87,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1AE0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_87,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1AE4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_87,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1AE8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_87,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x95C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_87,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_88"
width 27.
group.long 0x1B1C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_88,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1B10++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_88,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1B14++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_88,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1B18++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_88,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1B0C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_88,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1B00++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_88,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1B04++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_88,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1B08++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_88,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x960++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_88,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_89"
width 27.
group.long 0x1B3C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_89,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1B30++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_89,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1B34++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_89,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1B38++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_89,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1B2C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_89,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1B20++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_89,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1B24++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_89,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1B28++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_89,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x964++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_89,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_90"
width 27.
group.long 0x1B5C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_90,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1B50++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_90,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1B54++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_90,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1B58++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_90,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1B4C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_90,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1B40++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_90,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1B44++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_90,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1B48++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_90,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x968++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_90,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_91"
width 27.
group.long 0x1B7C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_91,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1B70++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_91,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1B74++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_91,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1B78++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_91,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1B6C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_91,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1B60++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_91,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1B64++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_91,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1B68++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_91,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x96C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_91,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_92"
width 27.
group.long 0x1B9C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_92,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1B90++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_92,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1B94++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_92,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1B98++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_92,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1B8C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_92,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1B80++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_92,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1B84++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_92,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1B88++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_92,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x970++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_92,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_93"
width 27.
group.long 0x1BBC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_93,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1BB0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_93,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1BB4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_93,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1BB8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_93,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1BAC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_93,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1BA0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_93,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1BA4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_93,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1BA8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_93,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x974++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_93,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_94"
width 27.
group.long 0x1BDC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_94,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1BD0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_94,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1BD4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_94,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1BD8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_94,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1BCC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_94,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1BC0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_94,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1BC4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_94,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1BC8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_94,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x978++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_94,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_95"
width 27.
group.long 0x1BFC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_95,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1BF0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_95,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1BF4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_95,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1BF8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_95,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1BEC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_95,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1BE0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_95,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1BE4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_95,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1BE8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_95,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x97C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_95,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_96"
width 27.
group.long 0x1C1C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_96,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1C10++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_96,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1C14++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_96,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1C18++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_96,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1C0C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_96,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1C00++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_96,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1C04++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_96,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1C08++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_96,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x980++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_96,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_97"
width 27.
group.long 0x1C3C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_97,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1C30++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_97,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1C34++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_97,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1C38++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_97,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1C2C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_97,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1C20++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_97,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1C24++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_97,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1C28++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_97,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x984++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_97,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_98"
width 27.
group.long 0x1C5C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_98,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1C50++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_98,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1C54++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_98,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1C58++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_98,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1C4C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_98,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1C40++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_98,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1C44++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_98,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1C48++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_98,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x988++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_98,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_99"
width 27.
group.long 0x1C7C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_99,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1C70++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_99,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1C74++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_99,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1C78++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_99,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1C6C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_99,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1C60++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_99,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1C64++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_99,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1C68++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_99,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x98C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_99,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_100"
width 28.
group.long 0x1C9C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_100,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1C90++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_100,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1C94++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_100,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1C98++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_100,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1C8C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_100,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1C80++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_100,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1C84++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_100,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1C88++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_100,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x990++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_100,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_101"
width 28.
group.long 0x1CBC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_101,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1CB0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_101,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1CB4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_101,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1CB8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_101,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1CAC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_101,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1CA0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_101,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1CA4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_101,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1CA8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_101,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x994++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_101,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_102"
width 28.
group.long 0x1CDC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_102,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1CD0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_102,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1CD4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_102,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1CD8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_102,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1CCC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_102,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1CC0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_102,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1CC4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_102,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1CC8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_102,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x998++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_102,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_103"
width 28.
group.long 0x1CFC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_103,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1CF0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_103,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1CF4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_103,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1CF8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_103,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1CEC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_103,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1CE0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_103,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1CE4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_103,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1CE8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_103,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x99C++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_103,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_104"
width 28.
group.long 0x1D1C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_104,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1D10++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_104,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1D14++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_104,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1D18++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_104,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1D0C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_104,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1D00++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_104,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1D04++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_104,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1D08++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_104,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9A0++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_104,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_105"
width 28.
group.long 0x1D3C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_105,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1D30++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_105,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1D34++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_105,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1D38++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_105,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1D2C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_105,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1D20++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_105,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1D24++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_105,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1D28++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_105,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9A4++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_105,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_106"
width 28.
group.long 0x1D5C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_106,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1D50++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_106,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1D54++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_106,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1D58++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_106,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1D4C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_106,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1D40++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_106,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1D44++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_106,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1D48++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_106,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9A8++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_106,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_107"
width 28.
group.long 0x1D7C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_107,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1D70++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_107,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1D74++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_107,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1D78++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_107,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1D6C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_107,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1D60++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_107,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1D64++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_107,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1D68++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_107,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9AC++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_107,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_108"
width 28.
group.long 0x1D9C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_108,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1D90++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_108,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1D94++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_108,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1D98++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_108,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1D8C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_108,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1D80++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_108,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1D84++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_108,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1D88++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_108,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9B0++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_108,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_109"
width 28.
group.long 0x1DBC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_109,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1DB0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_109,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1DB4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_109,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1DB8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_109,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1DAC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_109,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1DA0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_109,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1DA4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_109,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1DA8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_109,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9B4++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_109,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_110"
width 28.
group.long 0x1DDC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_110,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1DD0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_110,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1DD4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_110,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1DD8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_110,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1DCC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_110,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1DC0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_110,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1DC4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_110,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1DC8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_110,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9B8++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_110,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_111"
width 28.
group.long 0x1DFC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_111,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1DF0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_111,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1DF4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_111,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1DF8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_111,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1DEC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_111,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1DE0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_111,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1DE4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_111,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1DE8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_111,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9BC++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_111,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_112"
width 28.
group.long 0x1E1C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_112,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1E10++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_112,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1E14++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_112,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1E18++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_112,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1E0C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_112,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1E00++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_112,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1E04++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_112,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1E08++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_112,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9C0++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_112,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_113"
width 28.
group.long 0x1E3C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_113,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1E30++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_113,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1E34++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_113,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1E38++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_113,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1E2C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_113,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1E20++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_113,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1E24++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_113,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1E28++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_113,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9C4++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_113,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_114"
width 28.
group.long 0x1E5C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_114,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1E50++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_114,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1E54++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_114,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1E58++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_114,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1E4C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_114,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1E40++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_114,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1E44++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_114,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1E48++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_114,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9C8++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_114,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_115"
width 28.
group.long 0x1E7C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_115,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1E70++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_115,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1E74++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_115,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1E78++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_115,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1E6C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_115,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1E60++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_115,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1E64++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_115,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1E68++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_115,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9CC++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_115,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_116"
width 28.
group.long 0x1E9C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_116,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1E90++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_116,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1E94++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_116,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1E98++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_116,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1E8C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_116,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1E80++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_116,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1E84++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_116,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1E88++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_116,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9D0++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_116,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_117"
width 28.
group.long 0x1EBC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_117,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1EB0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_117,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1EB4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_117,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1EB8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_117,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1EAC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_117,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1EA0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_117,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1EA4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_117,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1EA8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_117,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9D4++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_117,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_118"
width 28.
group.long 0x1EDC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_118,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1ED0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_118,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1ED4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_118,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1ED8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_118,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1ECC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_118,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1EC0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_118,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1EC4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_118,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1EC8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_118,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9D8++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_118,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_119"
width 28.
group.long 0x1EFC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_119,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1EF0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_119,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1EF4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_119,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1EF8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_119,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1EEC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_119,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1EE0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_119,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1EE4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_119,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1EE8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_119,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9DC++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_119,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_120"
width 28.
group.long 0x1F1C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_120,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1F10++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_120,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1F14++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_120,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1F18++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_120,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1F0C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_120,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1F00++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_120,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1F04++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_120,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1F08++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_120,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9E0++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_120,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_121"
width 28.
group.long 0x1F3C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_121,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1F30++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_121,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1F34++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_121,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1F38++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_121,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1F2C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_121,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1F20++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_121,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1F24++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_121,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1F28++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_121,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9E4++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_121,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_122"
width 28.
group.long 0x1F5C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_122,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1F50++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_122,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1F54++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_122,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1F58++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_122,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1F4C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_122,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1F40++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_122,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1F44++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_122,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1F48++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_122,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9E8++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_122,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_123"
width 28.
group.long 0x1F7C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_123,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1F70++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_123,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1F74++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_123,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1F78++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_123,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1F6C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_123,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1F60++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_123,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1F64++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_123,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1F68++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_123,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9EC++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_123,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_124"
width 28.
group.long 0x1F9C++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_124,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1F90++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_124,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1F94++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_124,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1F98++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_124,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1F8C++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_124,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1F80++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_124,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1F84++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_124,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1F88++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_124,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9F0++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_124,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_125"
width 28.
group.long 0x1FBC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_125,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1FB0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_125,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1FB4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_125,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1FB8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_125,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1FAC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_125,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1FA0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_125,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1FA4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_125,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1FA8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_125,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9F4++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_125,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_126"
width 28.
group.long 0x1FDC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_126,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1FD0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_126,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1FD4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_126,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1FD8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_126,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1FCC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_126,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1FC0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_126,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1FC4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_126,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1FC8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_126,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9F8++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_126,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
tree "DMA_Channel_127"
width 28.
group.long 0x1FFC++0x3
line.long 0x00 "VDMA_H_DETERM_127_96_i_127,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_255_TO_224 ,bits [255..224] of 256b word deterministic descriptor"
group.long 0x1FF0++0x3
line.long 0x00 "VDMA_H_DETERM_31_0_i_127,Least significant 32b word of deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_159_TO_128 ,bits [159..128] of 256b word deterministic descriptor"
group.long 0x1FF4++0x3
line.long 0x00 "VDMA_H_DETERM_63_32_i_127,32b word positioned at bits [63..32] in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_191_TO_160 ,bits [191..160] of 256b word deterministic descriptor"
group.long 0x1FF8++0x3
line.long 0x00 "VDMA_H_DETERM_95_64_i_127,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of most significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_223_TO_192 ,bits [223..192] of 256b word deterministic descriptor"
group.long 0x1FEC++0x3
line.long 0x00 "VDMA_L_DETERM_127_96_i_127,32b word positioned at bits 127 to 96 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_127_TO_96  ,bits [127..96] of 256b word deterministic descriptor"
group.long 0x1FE0++0x3
line.long 0x00 "VDMA_L_DETERM_31_0_i_127,Least significant 32b word of deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_31_TO_0    ,Least significant 32b word of 256b word deterministic descriptor"
group.long 0x1FE4++0x3
line.long 0x00 "VDMA_L_DETERM_63_32_i_127,32b word positioned at bits [63..32] in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_63_TO_32   ,bits [63..32] of 256b word deterministic descriptor"
group.long 0x1FE8++0x3
line.long 0x00 "VDMA_L_DETERM_95_64_i_127,32b word positioned at bits 95 to 64 in deterministic memory 128b word entry of least significant 128b word of 256b descriptor"
hexmask.long 0x00 0.--31. 1. " DESCRIPTOR_BITS_95_TO_64   ,bits [95..64] of 256b word deterministic descriptor"
wgroup.long 0x9FC++0x3
line.long 0x00 "VDMA_TRIGGER_COUNTER_i_127,"
hexmask.long.byte 0x00 8.--15. 1. " DESTINATION                ,Byte slot to write intended counter value to start with for the destination side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the destination..."
hexmask.long.byte 0x00 0.--7. 1. "        SOURCE ,Byte slot to write intended counter value to start with for the source side of the transfer. Note that when corresponding (same index) deterministic descriptor is written (even partially) the source (and the destination) trigger counter..."
tree.end
textline ""
width 28.
rgroup.long 0x0++0x3
line.long 0x00 "VDMA_REVISION,IP revision identifier."
hexmask.long 0x00 0.--31. 1. " REVISION                    ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "VDMA_SYSCONFIG,Clock management configuration"
bitfld.long 0x00 4.--5. " STANDBYMODE                 ,Configuration of the local initiator state management mode. By definition, initiator can generate read/write transaction as long as it is out of STANDBY state. - 0x0. - 0x1. - 0x2. - 0x3." "0x0,0x1,0x2,0x3"
bitfld.long 0x00 2.--3. "       IDLEMODE       ,Configuration of the local target state management mode. By definition, target can handle read/write transaction as long as it is out of IDLE state. - 0x3. - . - 0x2. - ." "0x3,0x1,0x2,0x3"
bitfld.long 0x00 0. "  SOFTRESET     ,Software reset. Read 0: Software reset done, no pending action Write 0: No action Write 1: Initiate software reset Read 1: Software reset ongoing" "0,1"
wgroup.long 0x20++0x3
line.long 0x00 "VDMA_IRQ_EOI,End Of Interrupt number specification"
hexmask.long.byte 0x00 0.--7. 1. " LINE_NUMBER                 ,Software End Of Interrupt (EOI) control. Write number of interrupt output. Write 0x0: EOI for interrupt output line #0 Write 0x1: EOI for interrupt output line #1 Write 0x2: EOI for interrupt output line #2 Write 0x3: N/A..."
group.long 0x24++0x3
line.long 0x00 "VDMA_IRQSTATUS_RAW_0,Per-end of group (31 down to 0) internal signaling raw interrupt status vector, line #0. Raw status is set even if end of group (31 down to 0) interrupt is not enabled. Write 1 to set the (raw) status, mostly for debug."
hexmask.long 0x00 0.--31. 1. " ICONT1_END_GROUP31_0        ,Settable raw status for port1 end of group 31 to 0 Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (debug)"
group.long 0x28++0x3
line.long 0x00 "VDMA_IRQSTATUS_0,Per-end of group (31 down to 0) internal signaling 'enabled' interrupt status vector, line #0. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared..."
hexmask.long 0x00 0.--31. 1. " ICONT1_END_GROUP31_0        ,Write 0: No action Read 0: No (enabled) event pending Read 1: Event pending Write 1: Clear (raw) event"
group.long 0x2C++0x3
line.long 0x00 "VDMA_IRQENABLE_SET_0,Per-end of group (31 down to 0) internal event interrupt enable bit vector, line #0. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
hexmask.long 0x00 0.--31. 1. " ENABLE_SET_ICONT1_GROUP31_0 ,Enable for end_of_port1_group31 to 0 interrupts Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x30++0x3
line.long 0x00 "VDMA_IRQENABLE_CLR_0,Per-end of group (31 down to 0) internal event interrupt enable bit vector, line #0. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
hexmask.long 0x00 0.--31. 1. " ENABLE_CLR_ICONT1_GROUP31_0 ,Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Disable interrupt"
group.long 0x34++0x3
line.long 0x00 "VDMA_IRQSTATUS_RAW_1,Per-end of group (31 down to 0) internal signaling raw interrupt status vector, line #1. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
hexmask.long 0x00 0.--31. 1. " ICONT2_END_GROUP31_0        ,Settable raw status for port2 end of group 31 to 0 Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (debug)"
group.long 0x38++0x3
line.long 0x00 "VDMA_IRQSTATUS_1,Per-end of group (31 down to 0) internal signaling 'enabled' interrupt status vector, line #1. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared..."
hexmask.long 0x00 0.--31. 1. " ICONT2_END_GROUP31_0        ,Write 0: No action Read 0: No (enabled) event pending Read 1: Event pending Write 1: Clear (raw) event"
group.long 0x3C++0x3
line.long 0x00 "VDMA_IRQENABLE_SET_1,Per-end of group (31 down to 0) internal event interrupt enable bit vector, line #1. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
hexmask.long 0x00 0.--31. 1. " ENABLE_SET_ICONT2_GROUP31_0 ,Enable for end_of_group31 to 0 interrupts Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x40++0x3
line.long 0x00 "VDMA_IRQENABLE_CLR_1,Per-end of group (31 down to 0) internal event interrupt enable bit vector, line #1. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
hexmask.long 0x00 0.--31. 1. " ENABLE_CLR_ICONT2_GROUP31_0 ,Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Disable interrupt"
group.long 0x44++0x3
line.long 0x00 "VDMA_IRQSTATUS_RAW_2,Per-error event raw interrupt status vector, line #2. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug. Write 0: No action Read 0: No evt pend. Read 1: Event pend. Write 1: Set event"
bitfld.long 0x00 3. " MASTER_SRESPERR             ,Interrupt fires when one VDMA OCP master port (SL2R, SL2W, or L3_MAIN) received Sresp=ERR from platform. Note that corresponding context does (did) not abort corresponding transaction neither corresponding group transfer a..." "0,1"
bitfld.long 0x00 2. "         DIR_INTERLEAVE ,Interrupt fires (if enabled) in case U/V bit is set and DIR field is different from 0b10." "0,1"
bitfld.long 0x00 1. "    TRIGGER_TWICE ,From software user perspective: interrupt fires when same group has been triggered twice without having received end of corresponding group signaling in between. From hardware design perspective the actual condition for this interrup..." "0,1"
textline "                                     "
bitfld.long 0x00 0. " COHERENCY_ERROR             ,Interrupt fires (if enabled) in case descriptors pushed into lists (either asynchronous or synchronous) do not match with current group being scheduled. Reasons that can generate such a situation are: - several hosts 'conc..." "0,1"
group.long 0x48++0x3
line.long 0x00 "VDMA_IRQSTATUS_2,Per-error event 'enabled' interrupt status vector, line #2. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, ithat is, even if not enabled)..."
eventfld.long 0x00 3. " MASTER_SRESPERR             ,Interrupt fires when one VDMA OCP master port (SL2R, SL2W, or L3_MAIN) received Sresp=ERR from platform. Note that corresponding context does (did) not abort corresponding transaction neither corresponding group transfer a..." "0,1"
eventfld.long 0x00 2. "         DIR_INTERLEAVE ,Interrupt fires (if enabled) in case U/V bit is set and DIR field is different from 0b10." "0,1"
eventfld.long 0x00 1. "    TRIGGER_TWICE ,From software user perspective: interrupt fires when same group has been triggered twice without having received end of corresponding group signaling in between. From hardware design perspective the actual condition for this interrup..." "0,1"
textline "                                     "
eventfld.long 0x00 0. " COHERENCY_ERROR             ,Interrupt fires (if enabled) in case descriptors pushed into lists (either asynchronous or synchronous) do not match with current group being scheduled. Reasons that can generate such a situation are: - several hosts 'conc..." "0,1"
group.long 0x4C++0x3
line.long 0x00 "VDMA_IRQENABLE_SET_2,Per-error event interrupt enable bit vector, line #2. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register. Enable for end_of_group31 to 0 interrupts Write 0: No action Read 0: Interrupt disabled (masked)..."
bitfld.long 0x00 3. " MASTER_SRESPERR             ," "0,1"
bitfld.long 0x00 2. "         DIR_INTERLEAVE ," "0,1"
bitfld.long 0x00 1. "    TRIGGER_TWICE ," "0,1"
textline "                                     "
bitfld.long 0x00 0. " COHERENCY_ERROR             ," "0,1"
group.long 0x50++0x3
line.long 0x00 "VDMA_IRQENABLE_CLR_2,Per-error event interrupt enable bit vector, line #2. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register. Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled..."
eventfld.long 0x00 3. " MASTER_SRESPERR             ," "0,1"
eventfld.long 0x00 2. "         DIR_INTERLEAVE ," "0,1"
eventfld.long 0x00 1. "    TRIGGER_TWICE ," "0,1"
textline "                                     "
eventfld.long 0x00 0. " COHERENCY_ERROR             ," "0,1"
rgroup.long 0x54++0x3
line.long 0x00 "VDMA_SYNCHR_LIST_LEVEL,"
bitfld.long 0x00 0.--3. " LEVEL                       ,Indicates number of pending (that is, which have been pushed into and wait for breakdown logic to pick them from list) entries of synchronous transfer list. One entry contains one uniquified format descriptor." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x58++0x3
line.long 0x00 "VDMA_ASYNCHR_LIST_LEVEL,"
bitfld.long 0x00 0.--3. " LEVEL                       ,Indicates number of pending (that is, which have been pushed into and wait for breakdown logic to pick them from list) entries of asynchronous transfer list. One entry contains one uniquified format descriptor." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x5C++0x3
line.long 0x00 "VDMA_NON_DETERM_FIFO_LEVEL,"
hexmask.long.byte 0x00 0.--7. 1. " LEVEL                       ,Indicates number of pending (that is, which have been pushed into and wait for read address generator to pick them from list) entries of nondeterministic object descriptor FIFO. Note that it does not reflect the number of..."
group.long 0x60++0x3
line.long 0x00 "VDMA_TBA,TILER address mapping. This register shall only be set statically, that is, at early VDMA configuration time, before any transfer is ever triggered."
bitfld.long 0x00 0.--2. " OCP_3MSB                    ," "0,1,2,3,4,5,6,7"
rgroup.long 0x64++0x3
line.long 0x00 "VDMA_CONTEXT_STATUS,When individual bit is reset, corresponding context is available. When individual bit is set, corresponding context is allocated."
bitfld.long 0x00 15. " CONTEXT15                   ," "0,1"
bitfld.long 0x00 14. "         CONTEXT14      ," "0,1"
bitfld.long 0x00 13. "    CONTEXT13     ," "0,1"
textline "                                     "
bitfld.long 0x00 12. " CONTEXT12                   ," "0,1"
bitfld.long 0x00 11. "         CONTEXT11      ," "0,1"
bitfld.long 0x00 10. "    CONTEXT10     ," "0,1"
textline "                                     "
bitfld.long 0x00 9. " CONTEXT9                    ," "0,1"
bitfld.long 0x00 8. "         CONTEXT8       ," "0,1"
bitfld.long 0x00 7. "    CONTEXT7      ," "0,1"
textline "                                     "
bitfld.long 0x00 6. " CONTEXT6                    ," "0,1"
bitfld.long 0x00 5. "         CONTEXT5       ," "0,1"
bitfld.long 0x00 4. "    CONTEXT4      ," "0,1"
textline "                                     "
bitfld.long 0x00 3. " CONTEXT3                    ," "0,1"
bitfld.long 0x00 2. "         CONTEXT2       ," "0,1"
bitfld.long 0x00 1. "    CONTEXT1      ," "0,1"
textline "                                     "
bitfld.long 0x00 0. " CONTEXT0                    ," "0,1"
wgroup.long 0x68++0x3
line.long 0x00 "VDMA_GROUP_TRIGGER,Register entry for software user to trigger deterministic (only) groups through CPU writes. Write '1' to desired bit triggers corresponding group (which SHALL be defined as deterministic through GROUP_DEFINITION register set). Writin..."
hexmask.long 0x00 0.--31. 1. " CPU_TRIGGER_GROUP0_31       ,MS bit applies to group 31 LS bit applies to Group 0"
group.long 0x6C++0x3
line.long 0x00 "VDMA_MAX_CONTEXT_SYNCHR,Software user configurable maximum number of context synchronous list can get benefit of. This register should only be set statically, that is, at early VDMA configuration time, before any transfer is ever triggered. Should it..."
bitfld.long 0x00 0.--3. " MAX_VALUE                   ,(max_value + 1) is the actual number of context allocatable to synchronous list." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x70++0x3
line.long 0x00 "VDMA_MAX_CONTEXT_ASYNCHR,Software user configurable maximum number of context asynchronous list can get benefit of. This register should only be set statically, that is, at early VDMA configuration time, before any transfer is ever triggered. Should..."
bitfld.long 0x00 0.--3. " MAX_VALUE                   ,(max_value + 1) is the actual number of context allocatable to asynchronous list." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x74++0x3
line.long 0x00 "VDMA_IRQ_NEOG,Sets whether end of group signaling should be set through external hardware lines (like the deterministic group triggers) or wrap into interrupt line."
hexmask.long 0x00 0.--31. 1. " IRQ_NEOG_GROUP31_0          ,when set, corresponding end of group signaling is propagated as interrupt source to both interrupt line 0 and 1. Software user is expected in that case to enable corresponding interrupt. When reset, corresponding end of..."
width 0x0B
tree.end
tree.end
tree.end
tree.open "IVA_Synchronization_Box"
tree.open "SYNCBOX_CALC3_ICONT"
sif (cpuis("TDA2XIVA"))
tree.open "SYNCBOX_CALC3_ICONT"
tree "SYNCBOX_CALC3_ICONT"
base ad:0xE2000
tree "Channel_0"
width 34.
rgroup.long 0x114++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_0,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x110++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_0,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x118++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_0,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x120++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_BASE_i_0,Base address for the node configuration parameters"
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,128-bit address"
rgroup.long 0x128++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_IF_i_0,Interface register containing the current value of the MB configuration parameters. This register is read by the node core."
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,16-bit value containing a 128-bit pointer"
group.long 0x124++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_INC_i_0,Contains the parameter address increment to be added to the current parameter address pointer"
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,Value of the increment"
group.long 0xC0++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j_0,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x100++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x104++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x108++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_1"
width 34.
rgroup.long 0x194++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_1,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x190++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_1,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x198++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_1,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x1A0++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_BASE_i_1,Base address for the node configuration parameters"
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,128-bit address"
rgroup.long 0x1A8++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_IF_i_1,Interface register containing the current value of the MB configuration parameters. This register is read by the node core."
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,16-bit value containing a 128-bit pointer"
group.long 0x1A4++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_INC_i_1,Contains the parameter address increment to be added to the current parameter address pointer"
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,Value of the increment"
group.long 0xC4++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j_1,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x180++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x184++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x188++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x18C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xC8++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j_2,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xCC++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j_3,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
textline ""
width 26.
rgroup.long 0x0++0x3
line.long 0x00 "SYNCBOX_REVISION,IP revision identifier"
hexmask.long 0x00 0.--31. 1. " REVISION     ,IP revision"
group.long 0x10++0x3
line.long 0x00 "SYNCBOX_SYSCONFIG,This register allows controlling various parameters of the OCP interface."
bitfld.long 0x00 1. " CLEARSTATUS  ,Set to 1 to clear dynamic registers - . - . - . - ." "No_action,Initiate_Clear_status"
bitfld.long 0x00 0. "  AUTOIDLE   ,Internal OCP clock gating strategy: - . - ." "0,1"
wgroup.long 0x40++0x3
line.long 0x00 "SYNCBOX_RXMESSAGE,Register containing the received message, from the CTL_IN interface or MSG_IN interface"
bitfld.long 0x00 15. " RECONFIG     ,Bit to allow dynamic reconfiguration ? not used" "0,1"
bitfld.long 0x00 14. "                      ACK_REQ    ,Bit set to 1 in input message if an acknowledge message must be returned." "0,1"
bitfld.long 0x00 13. "   MSG_TYPE     ,Message type 0: Acknowledge message 1: Activation message" "0,1"
textline "                                   "
bitfld.long 0x00 12. " SYNCMODE     ,Synchronous message type: 0 Synchronous 1: Asynchronous" "0,1"
bitfld.long 0x00 8.--11. "                      DESTTASKID ,Task identifier of the destination node" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 4.--7. "  SOURCETASKID ,Task identifier of the message sender" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                   "
bitfld.long 0x00 0.--3. " SOURCENODEID ,Node identifier of the message sender" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x44++0x3
line.long 0x00 "SYNCBOX_NODEIDENTIFIER,Contains the node identifier. Initialized by default to the tie-off value."
bitfld.long 0x00 0.--3. " VALUE        ,Node identifier value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x48++0x3
line.long 0x00 "SYNCBOX_ERRORMSGDEST,Register containing the node and task identifier to send an activation message when an error is detected"
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit use to send or not the error message to a CPU based node" "0,1"
bitfld.long 0x00 4.--7. "                      TASK_ID    ,Identifier for the task in charge of recovering error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  NODE_ID      ,Identifier for the node in charge of recovering error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4C++0x3
line.long 0x00 "SYNCBOX_ERRORLOG,Contains the different errors latched during message decoding. Any write to the register resets the current value."
bitfld.long 0x00 4.--7. " TASK_ID      ,Identifier of the task (or event line) to which error is attached." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "                     ERR_CODE   ,4 bits coding the error code" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x50++0x3
line.long 0x00 "SYNCBOX_ASYNCEVENTACKREQ,Each bit in this register defines whether the corresponding asynchronous line event need an acknowledge upon task completion or directly when the line is raised."
bitfld.long 0x00 5. " ACKTASK5     ,- . - ." "0,1"
bitfld.long 0x00 4. "                      ACKTASK4   ,- . - ." "0,1"
bitfld.long 0x00 3. "   ACKTASK3     ,- . - ." "0,1"
textline "                                   "
bitfld.long 0x00 2. " ACKTASK2     ,- . - ." "0,1"
bitfld.long 0x00 1. "                      ACKTASK1   ,- . - ." "0,1"
bitfld.long 0x00 0. "   ACKTASK0     ,- . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_MOD,Modulo value for the configuration parameter pointer computed by SYNCBOX"
hexmask.long.byte 0x00 0.--7. 1. " VALUE        ,Number of macroblock configuration arrays in pipeline"
rgroup.long 0x60++0x3
line.long 0x00 "SYNCBOX_STATUS,"
bitfld.long 0x00 11. " EOTFIFO_5    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 10. "                      COREFSM_5  ,Status bit for task 5" "0,1"
bitfld.long 0x00 9. "   EOTFIFO_4    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
textline "                                   "
bitfld.long 0x00 8. " COREFSM_4    ,Status bit for task 4" "0,1"
bitfld.long 0x00 7. "                      EOTFIFO_3  ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 6. "   COREFSM_3    ,Status bit for task 3" "0,1"
textline "                                   "
bitfld.long 0x00 5. " EOTFIFO_2    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 4. "                      COREFSM_2  ,Status bit for task 2" "0,1"
bitfld.long 0x00 3. "   EOTFIFO_1    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
textline "                                   "
bitfld.long 0x00 2. " COREFSM_1    ,Status bit for task 1" "0,1"
bitfld.long 0x00 1. "                      EOTFIFO_0  ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 0. "   COREFSM_0    ,Status bit for task 0" "0,1"
width 0x0B
tree.end
tree "SYNCBOX_IPE3_ICONT"
base ad:0xE2800
tree "Channel_0"
width 34.
rgroup.long 0x114++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_0,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x110++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_0,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x118++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_0,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x120++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_BASE_i_0,Base address for the node configuration parameters"
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,128-bit address"
rgroup.long 0x128++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_IF_i_0,Interface register containing the current value of the MB configuration parameters. This register is read by the node core."
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,16-bit value containing a 128-bit pointer"
group.long 0x124++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_INC_i_0,Contains the parameter address increment to be added to the current parameter address pointer"
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,Value of the increment"
group.long 0xC0++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j_0,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x100++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x104++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x108++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_1"
width 34.
rgroup.long 0x194++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_1,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x190++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_1,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x198++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_1,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x1A0++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_BASE_i_1,Base address for the node configuration parameters"
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,128-bit address"
rgroup.long 0x1A8++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_IF_i_1,Interface register containing the current value of the MB configuration parameters. This register is read by the node core."
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,16-bit value containing a 128-bit pointer"
group.long 0x1A4++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_INC_i_1,Contains the parameter address increment to be added to the current parameter address pointer"
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,Value of the increment"
group.long 0xC4++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j_1,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x180++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x184++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x188++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x18C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xC8++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j_2,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xCC++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j_3,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
textline ""
width 26.
rgroup.long 0x0++0x3
line.long 0x00 "SYNCBOX_REVISION,IP revision identifier"
hexmask.long 0x00 0.--31. 1. " REVISION     ,IP revision"
group.long 0x10++0x3
line.long 0x00 "SYNCBOX_SYSCONFIG,This register allows controlling various parameters of the OCP interface."
bitfld.long 0x00 1. " CLEARSTATUS  ,Set to 1 to clear dynamic registers - . - . - . - ." "No_action,Initiate_Clear_status"
bitfld.long 0x00 0. "  AUTOIDLE   ,Internal OCP clock gating strategy: - . - ." "0,1"
wgroup.long 0x40++0x3
line.long 0x00 "SYNCBOX_RXMESSAGE,Register containing the received message, from the CTL_IN interface or MSG_IN interface"
bitfld.long 0x00 15. " RECONFIG     ,Bit to allow dynamic reconfiguration ? not used" "0,1"
bitfld.long 0x00 14. "                      ACK_REQ    ,Bit set to 1 in input message if an acknowledge message must be returned." "0,1"
bitfld.long 0x00 13. "   MSG_TYPE     ,Message type 0: Acknowledge message 1: Activation message" "0,1"
textline "                                   "
bitfld.long 0x00 12. " SYNCMODE     ,Synchronous message type: 0 Synchronous 1: Asynchronous" "0,1"
bitfld.long 0x00 8.--11. "                      DESTTASKID ,Task identifier of the destination node" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 4.--7. "  SOURCETASKID ,Task identifier of the message sender" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                   "
bitfld.long 0x00 0.--3. " SOURCENODEID ,Node identifier of the message sender" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x44++0x3
line.long 0x00 "SYNCBOX_NODEIDENTIFIER,Contains the node identifier. Initialized by default to the tie-off value."
bitfld.long 0x00 0.--3. " VALUE        ,Node identifier value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x48++0x3
line.long 0x00 "SYNCBOX_ERRORMSGDEST,Register containing the node and task identifier to send an activation message when an error is detected"
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit use to send or not the error message to a CPU based node" "0,1"
bitfld.long 0x00 4.--7. "                      TASK_ID    ,Identifier for the task in charge of recovering error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  NODE_ID      ,Identifier for the node in charge of recovering error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4C++0x3
line.long 0x00 "SYNCBOX_ERRORLOG,Contains the different errors latched during message decoding. Any write to the register resets the current value."
bitfld.long 0x00 4.--7. " TASK_ID      ,Identifier of the task (or event line) to which error is attached." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "                     ERR_CODE   ,4 bits coding the error code" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x50++0x3
line.long 0x00 "SYNCBOX_ASYNCEVENTACKREQ,Each bit in this register defines whether the corresponding asynchronous line event need an acknowledge upon task completion or directly when the line is raised."
bitfld.long 0x00 5. " ACKTASK5     ,- . - ." "0,1"
bitfld.long 0x00 4. "                      ACKTASK4   ,- . - ." "0,1"
bitfld.long 0x00 3. "   ACKTASK3     ,- . - ." "0,1"
textline "                                   "
bitfld.long 0x00 2. " ACKTASK2     ,- . - ." "0,1"
bitfld.long 0x00 1. "                      ACKTASK1   ,- . - ." "0,1"
bitfld.long 0x00 0. "   ACKTASK0     ,- . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_MOD,Modulo value for the configuration parameter pointer computed by SYNCBOX"
hexmask.long.byte 0x00 0.--7. 1. " VALUE        ,Number of macroblock configuration arrays in pipeline"
rgroup.long 0x60++0x3
line.long 0x00 "SYNCBOX_STATUS,"
bitfld.long 0x00 11. " EOTFIFO_5    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 10. "                      COREFSM_5  ,Status bit for task 5" "0,1"
bitfld.long 0x00 9. "   EOTFIFO_4    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
textline "                                   "
bitfld.long 0x00 8. " COREFSM_4    ,Status bit for task 4" "0,1"
bitfld.long 0x00 7. "                      EOTFIFO_3  ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 6. "   COREFSM_3    ,Status bit for task 3" "0,1"
textline "                                   "
bitfld.long 0x00 5. " EOTFIFO_2    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 4. "                      COREFSM_2  ,Status bit for task 2" "0,1"
bitfld.long 0x00 3. "   EOTFIFO_1    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
textline "                                   "
bitfld.long 0x00 2. " COREFSM_1    ,Status bit for task 1" "0,1"
bitfld.long 0x00 1. "                      EOTFIFO_0  ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 0. "   COREFSM_0    ,Status bit for task 0" "0,1"
width 0x0B
tree.end
tree "SYNCBOX_MC3_ICONT"
base ad:0xE3000
tree "Channel_0"
width 34.
rgroup.long 0x114++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_0,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x110++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_0,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x118++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_0,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x120++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_BASE_i_0,Base address for the node configuration parameters"
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,128-bit address"
rgroup.long 0x128++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_IF_i_0,Interface register containing the current value of the MB configuration parameters. This register is read by the node core."
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,16-bit value containing a 128-bit pointer"
group.long 0x124++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_INC_i_0,Contains the parameter address increment to be added to the current parameter address pointer"
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,Value of the increment"
group.long 0xC0++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j_0,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x100++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x104++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x108++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_1"
width 34.
rgroup.long 0x194++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_1,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x190++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_1,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x198++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_1,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x1A0++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_BASE_i_1,Base address for the node configuration parameters"
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,128-bit address"
rgroup.long 0x1A8++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_IF_i_1,Interface register containing the current value of the MB configuration parameters. This register is read by the node core."
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,16-bit value containing a 128-bit pointer"
group.long 0x1A4++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_INC_i_1,Contains the parameter address increment to be added to the current parameter address pointer"
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,Value of the increment"
group.long 0xC4++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j_1,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x180++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x184++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x188++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x18C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xC8++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j_2,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xCC++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j_3,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
textline ""
width 26.
rgroup.long 0x0++0x3
line.long 0x00 "SYNCBOX_REVISION,IP revision identifier"
hexmask.long 0x00 0.--31. 1. " REVISION     ,IP revision"
group.long 0x10++0x3
line.long 0x00 "SYNCBOX_SYSCONFIG,This register allows controlling various parameters of the OCP interface."
bitfld.long 0x00 1. " CLEARSTATUS  ,Set to 1 to clear dynamic registers - . - . - . - ." "No_action,Initiate_Clear_status"
bitfld.long 0x00 0. "  AUTOIDLE   ,Internal OCP clock gating strategy: - . - ." "0,1"
wgroup.long 0x40++0x3
line.long 0x00 "SYNCBOX_RXMESSAGE,Register containing the received message, from the CTL_IN interface or MSG_IN interface"
bitfld.long 0x00 15. " RECONFIG     ,Bit to allow dynamic reconfiguration ? not used" "0,1"
bitfld.long 0x00 14. "                      ACK_REQ    ,Bit set to 1 in input message if an acknowledge message must be returned." "0,1"
bitfld.long 0x00 13. "   MSG_TYPE     ,Message type 0: Acknowledge message 1: Activation message" "0,1"
textline "                                   "
bitfld.long 0x00 12. " SYNCMODE     ,Synchronous message type: 0 Synchronous 1: Asynchronous" "0,1"
bitfld.long 0x00 8.--11. "                      DESTTASKID ,Task identifier of the destination node" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 4.--7. "  SOURCETASKID ,Task identifier of the message sender" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                   "
bitfld.long 0x00 0.--3. " SOURCENODEID ,Node identifier of the message sender" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x44++0x3
line.long 0x00 "SYNCBOX_NODEIDENTIFIER,Contains the node identifier. Initialized by default to the tie-off value."
bitfld.long 0x00 0.--3. " VALUE        ,Node identifier value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x48++0x3
line.long 0x00 "SYNCBOX_ERRORMSGDEST,Register containing the node and task identifier to send an activation message when an error is detected"
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit use to send or not the error message to a CPU based node" "0,1"
bitfld.long 0x00 4.--7. "                      TASK_ID    ,Identifier for the task in charge of recovering error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  NODE_ID      ,Identifier for the node in charge of recovering error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4C++0x3
line.long 0x00 "SYNCBOX_ERRORLOG,Contains the different errors latched during message decoding. Any write to the register resets the current value."
bitfld.long 0x00 4.--7. " TASK_ID      ,Identifier of the task (or event line) to which error is attached." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "                     ERR_CODE   ,4 bits coding the error code" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x50++0x3
line.long 0x00 "SYNCBOX_ASYNCEVENTACKREQ,Each bit in this register defines whether the corresponding asynchronous line event need an acknowledge upon task completion or directly when the line is raised."
bitfld.long 0x00 5. " ACKTASK5     ,- . - ." "0,1"
bitfld.long 0x00 4. "                      ACKTASK4   ,- . - ." "0,1"
bitfld.long 0x00 3. "   ACKTASK3     ,- . - ." "0,1"
textline "                                   "
bitfld.long 0x00 2. " ACKTASK2     ,- . - ." "0,1"
bitfld.long 0x00 1. "                      ACKTASK1   ,- . - ." "0,1"
bitfld.long 0x00 0. "   ACKTASK0     ,- . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_MOD,Modulo value for the configuration parameter pointer computed by SYNCBOX"
hexmask.long.byte 0x00 0.--7. 1. " VALUE        ,Number of macroblock configuration arrays in pipeline"
rgroup.long 0x60++0x3
line.long 0x00 "SYNCBOX_STATUS,"
bitfld.long 0x00 11. " EOTFIFO_5    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 10. "                      COREFSM_5  ,Status bit for task 5" "0,1"
bitfld.long 0x00 9. "   EOTFIFO_4    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
textline "                                   "
bitfld.long 0x00 8. " COREFSM_4    ,Status bit for task 4" "0,1"
bitfld.long 0x00 7. "                      EOTFIFO_3  ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 6. "   COREFSM_3    ,Status bit for task 3" "0,1"
textline "                                   "
bitfld.long 0x00 5. " EOTFIFO_2    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 4. "                      COREFSM_2  ,Status bit for task 2" "0,1"
bitfld.long 0x00 3. "   EOTFIFO_1    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
textline "                                   "
bitfld.long 0x00 2. " COREFSM_1    ,Status bit for task 1" "0,1"
bitfld.long 0x00 1. "                      EOTFIFO_0  ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 0. "   COREFSM_0    ,Status bit for task 0" "0,1"
width 0x0B
tree.end
tree "SYNCBOX_ECD3_ICONT"
base ad:0xE3800
tree "Channel_0"
width 34.
rgroup.long 0x114++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_0,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x110++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_0,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x118++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_0,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x120++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_BASE_i_0,Base address for the node configuration parameters"
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,128-bit address"
rgroup.long 0x128++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_IF_i_0,Interface register containing the current value of the MB configuration parameters. This register is read by the node core."
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,16-bit value containing a 128-bit pointer"
group.long 0x124++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_INC_i_0,Contains the parameter address increment to be added to the current parameter address pointer"
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,Value of the increment"
group.long 0xC0++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j_0,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x100++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x104++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x108++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_1"
width 34.
rgroup.long 0x194++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_1,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x190++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_1,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x198++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_1,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x1A0++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_BASE_i_1,Base address for the node configuration parameters"
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,128-bit address"
rgroup.long 0x1A8++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_IF_i_1,Interface register containing the current value of the MB configuration parameters. This register is read by the node core."
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,16-bit value containing a 128-bit pointer"
group.long 0x1A4++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_INC_i_1,Contains the parameter address increment to be added to the current parameter address pointer"
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,Value of the increment"
group.long 0xC4++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j_1,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x180++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x184++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x188++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x18C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xC8++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j_2,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xCC++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j_3,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
textline ""
width 26.
rgroup.long 0x0++0x3
line.long 0x00 "SYNCBOX_REVISION,IP revision identifier"
hexmask.long 0x00 0.--31. 1. " REVISION     ,IP revision"
group.long 0x10++0x3
line.long 0x00 "SYNCBOX_SYSCONFIG,This register allows controlling various parameters of the OCP interface."
bitfld.long 0x00 1. " CLEARSTATUS  ,Set to 1 to clear dynamic registers - . - . - . - ." "No_action,Initiate_Clear_status"
bitfld.long 0x00 0. "  AUTOIDLE   ,Internal OCP clock gating strategy: - . - ." "0,1"
wgroup.long 0x40++0x3
line.long 0x00 "SYNCBOX_RXMESSAGE,Register containing the received message, from the CTL_IN interface or MSG_IN interface"
bitfld.long 0x00 15. " RECONFIG     ,Bit to allow dynamic reconfiguration ? not used" "0,1"
bitfld.long 0x00 14. "                      ACK_REQ    ,Bit set to 1 in input message if an acknowledge message must be returned." "0,1"
bitfld.long 0x00 13. "   MSG_TYPE     ,Message type 0: Acknowledge message 1: Activation message" "0,1"
textline "                                   "
bitfld.long 0x00 12. " SYNCMODE     ,Synchronous message type: 0 Synchronous 1: Asynchronous" "0,1"
bitfld.long 0x00 8.--11. "                      DESTTASKID ,Task identifier of the destination node" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 4.--7. "  SOURCETASKID ,Task identifier of the message sender" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                   "
bitfld.long 0x00 0.--3. " SOURCENODEID ,Node identifier of the message sender" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x44++0x3
line.long 0x00 "SYNCBOX_NODEIDENTIFIER,Contains the node identifier. Initialized by default to the tie-off value."
bitfld.long 0x00 0.--3. " VALUE        ,Node identifier value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x48++0x3
line.long 0x00 "SYNCBOX_ERRORMSGDEST,Register containing the node and task identifier to send an activation message when an error is detected"
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit use to send or not the error message to a CPU based node" "0,1"
bitfld.long 0x00 4.--7. "                      TASK_ID    ,Identifier for the task in charge of recovering error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  NODE_ID      ,Identifier for the node in charge of recovering error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4C++0x3
line.long 0x00 "SYNCBOX_ERRORLOG,Contains the different errors latched during message decoding. Any write to the register resets the current value."
bitfld.long 0x00 4.--7. " TASK_ID      ,Identifier of the task (or event line) to which error is attached." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "                     ERR_CODE   ,4 bits coding the error code" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x50++0x3
line.long 0x00 "SYNCBOX_ASYNCEVENTACKREQ,Each bit in this register defines whether the corresponding asynchronous line event need an acknowledge upon task completion or directly when the line is raised."
bitfld.long 0x00 5. " ACKTASK5     ,- . - ." "0,1"
bitfld.long 0x00 4. "                      ACKTASK4   ,- . - ." "0,1"
bitfld.long 0x00 3. "   ACKTASK3     ,- . - ." "0,1"
textline "                                   "
bitfld.long 0x00 2. " ACKTASK2     ,- . - ." "0,1"
bitfld.long 0x00 1. "                      ACKTASK1   ,- . - ." "0,1"
bitfld.long 0x00 0. "   ACKTASK0     ,- . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_MOD,Modulo value for the configuration parameter pointer computed by SYNCBOX"
hexmask.long.byte 0x00 0.--7. 1. " VALUE        ,Number of macroblock configuration arrays in pipeline"
rgroup.long 0x60++0x3
line.long 0x00 "SYNCBOX_STATUS,"
bitfld.long 0x00 11. " EOTFIFO_5    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 10. "                      COREFSM_5  ,Status bit for task 5" "0,1"
bitfld.long 0x00 9. "   EOTFIFO_4    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
textline "                                   "
bitfld.long 0x00 8. " COREFSM_4    ,Status bit for task 4" "0,1"
bitfld.long 0x00 7. "                      EOTFIFO_3  ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 6. "   COREFSM_3    ,Status bit for task 3" "0,1"
textline "                                   "
bitfld.long 0x00 5. " EOTFIFO_2    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 4. "                      COREFSM_2  ,Status bit for task 2" "0,1"
bitfld.long 0x00 3. "   EOTFIFO_1    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
textline "                                   "
bitfld.long 0x00 2. " COREFSM_1    ,Status bit for task 1" "0,1"
bitfld.long 0x00 1. "                      EOTFIFO_0  ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 0. "   COREFSM_0    ,Status bit for task 0" "0,1"
width 0x0B
tree.end
tree.end
endif
tree "SYNCBOX_CALC3_L3_MAINInterconnect"
base ad:0x5A062000
tree "Channel_0"
width 34.
rgroup.long 0x114++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_0,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x110++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_0,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x118++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_0,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x120++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_BASE_i_0,Base address for the node configuration parameters"
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,128-bit address"
rgroup.long 0x128++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_IF_i_0,Interface register containing the current value of the MB configuration parameters. This register is read by the node core."
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,16-bit value containing a 128-bit pointer"
group.long 0x124++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_INC_i_0,Contains the parameter address increment to be added to the current parameter address pointer"
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,Value of the increment"
group.long 0xC0++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j_0,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x100++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x104++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x108++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_1"
width 34.
rgroup.long 0x194++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_1,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x190++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_1,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x198++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_1,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x1A0++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_BASE_i_1,Base address for the node configuration parameters"
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,128-bit address"
rgroup.long 0x1A8++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_IF_i_1,Interface register containing the current value of the MB configuration parameters. This register is read by the node core."
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,16-bit value containing a 128-bit pointer"
group.long 0x1A4++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_INC_i_1,Contains the parameter address increment to be added to the current parameter address pointer"
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,Value of the increment"
group.long 0xC4++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j_1,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x180++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x184++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x188++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x18C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xC8++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j_2,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xCC++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j_3,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
textline ""
width 26.
rgroup.long 0x0++0x3
line.long 0x00 "SYNCBOX_REVISION,IP revision identifier"
hexmask.long 0x00 0.--31. 1. " REVISION     ,IP revision"
group.long 0x10++0x3
line.long 0x00 "SYNCBOX_SYSCONFIG,This register allows controlling various parameters of the OCP interface."
bitfld.long 0x00 1. " CLEARSTATUS  ,Set to 1 to clear dynamic registers - . - . - . - ." "No_action,Initiate_Clear_status"
bitfld.long 0x00 0. "  AUTOIDLE   ,Internal OCP clock gating strategy: - . - ." "0,1"
wgroup.long 0x40++0x3
line.long 0x00 "SYNCBOX_RXMESSAGE,Register containing the received message, from the CTL_IN interface or MSG_IN interface"
bitfld.long 0x00 15. " RECONFIG     ,Bit to allow dynamic reconfiguration ? not used" "0,1"
bitfld.long 0x00 14. "                      ACK_REQ    ,Bit set to 1 in input message if an acknowledge message must be returned." "0,1"
bitfld.long 0x00 13. "   MSG_TYPE     ,Message type 0: Acknowledge message 1: Activation message" "0,1"
textline "                                   "
bitfld.long 0x00 12. " SYNCMODE     ,Synchronous message type: 0 Synchronous 1: Asynchronous" "0,1"
bitfld.long 0x00 8.--11. "                      DESTTASKID ,Task identifier of the destination node" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 4.--7. "  SOURCETASKID ,Task identifier of the message sender" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                   "
bitfld.long 0x00 0.--3. " SOURCENODEID ,Node identifier of the message sender" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x44++0x3
line.long 0x00 "SYNCBOX_NODEIDENTIFIER,Contains the node identifier. Initialized by default to the tie-off value."
bitfld.long 0x00 0.--3. " VALUE        ,Node identifier value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x48++0x3
line.long 0x00 "SYNCBOX_ERRORMSGDEST,Register containing the node and task identifier to send an activation message when an error is detected"
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit use to send or not the error message to a CPU based node" "0,1"
bitfld.long 0x00 4.--7. "                      TASK_ID    ,Identifier for the task in charge of recovering error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  NODE_ID      ,Identifier for the node in charge of recovering error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4C++0x3
line.long 0x00 "SYNCBOX_ERRORLOG,Contains the different errors latched during message decoding. Any write to the register resets the current value."
bitfld.long 0x00 4.--7. " TASK_ID      ,Identifier of the task (or event line) to which error is attached." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "                     ERR_CODE   ,4 bits coding the error code" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x50++0x3
line.long 0x00 "SYNCBOX_ASYNCEVENTACKREQ,Each bit in this register defines whether the corresponding asynchronous line event need an acknowledge upon task completion or directly when the line is raised."
bitfld.long 0x00 5. " ACKTASK5     ,- . - ." "0,1"
bitfld.long 0x00 4. "                      ACKTASK4   ,- . - ." "0,1"
bitfld.long 0x00 3. "   ACKTASK3     ,- . - ." "0,1"
textline "                                   "
bitfld.long 0x00 2. " ACKTASK2     ,- . - ." "0,1"
bitfld.long 0x00 1. "                      ACKTASK1   ,- . - ." "0,1"
bitfld.long 0x00 0. "   ACKTASK0     ,- . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_MOD,Modulo value for the configuration parameter pointer computed by SYNCBOX"
hexmask.long.byte 0x00 0.--7. 1. " VALUE        ,Number of macroblock configuration arrays in pipeline"
rgroup.long 0x60++0x3
line.long 0x00 "SYNCBOX_STATUS,"
bitfld.long 0x00 11. " EOTFIFO_5    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 10. "                      COREFSM_5  ,Status bit for task 5" "0,1"
bitfld.long 0x00 9. "   EOTFIFO_4    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
textline "                                   "
bitfld.long 0x00 8. " COREFSM_4    ,Status bit for task 4" "0,1"
bitfld.long 0x00 7. "                      EOTFIFO_3  ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 6. "   COREFSM_3    ,Status bit for task 3" "0,1"
textline "                                   "
bitfld.long 0x00 5. " EOTFIFO_2    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 4. "                      COREFSM_2  ,Status bit for task 2" "0,1"
bitfld.long 0x00 3. "   EOTFIFO_1    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
textline "                                   "
bitfld.long 0x00 2. " COREFSM_1    ,Status bit for task 1" "0,1"
bitfld.long 0x00 1. "                      EOTFIFO_0  ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 0. "   COREFSM_0    ,Status bit for task 0" "0,1"
width 0x0B
tree.end
tree "SYNCBOX_IPE3_L3_MAINInterconnect"
base ad:0x5A062800
tree "Channel_0"
width 34.
rgroup.long 0x114++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_0,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x110++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_0,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x118++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_0,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x120++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_BASE_i_0,Base address for the node configuration parameters"
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,128-bit address"
rgroup.long 0x128++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_IF_i_0,Interface register containing the current value of the MB configuration parameters. This register is read by the node core."
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,16-bit value containing a 128-bit pointer"
group.long 0x124++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_INC_i_0,Contains the parameter address increment to be added to the current parameter address pointer"
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,Value of the increment"
group.long 0xC0++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j_0,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x100++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x104++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x108++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_1"
width 34.
rgroup.long 0x194++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_1,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x190++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_1,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x198++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_1,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x1A0++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_BASE_i_1,Base address for the node configuration parameters"
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,128-bit address"
rgroup.long 0x1A8++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_IF_i_1,Interface register containing the current value of the MB configuration parameters. This register is read by the node core."
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,16-bit value containing a 128-bit pointer"
group.long 0x1A4++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_INC_i_1,Contains the parameter address increment to be added to the current parameter address pointer"
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,Value of the increment"
group.long 0xC4++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j_1,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x180++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x184++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x188++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x18C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xC8++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j_2,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xCC++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j_3,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
textline ""
width 26.
rgroup.long 0x0++0x3
line.long 0x00 "SYNCBOX_REVISION,IP revision identifier"
hexmask.long 0x00 0.--31. 1. " REVISION     ,IP revision"
group.long 0x10++0x3
line.long 0x00 "SYNCBOX_SYSCONFIG,This register allows controlling various parameters of the OCP interface."
bitfld.long 0x00 1. " CLEARSTATUS  ,Set to 1 to clear dynamic registers - . - . - . - ." "No_action,Initiate_Clear_status"
bitfld.long 0x00 0. "  AUTOIDLE   ,Internal OCP clock gating strategy: - . - ." "0,1"
wgroup.long 0x40++0x3
line.long 0x00 "SYNCBOX_RXMESSAGE,Register containing the received message, from the CTL_IN interface or MSG_IN interface"
bitfld.long 0x00 15. " RECONFIG     ,Bit to allow dynamic reconfiguration ? not used" "0,1"
bitfld.long 0x00 14. "                      ACK_REQ    ,Bit set to 1 in input message if an acknowledge message must be returned." "0,1"
bitfld.long 0x00 13. "   MSG_TYPE     ,Message type 0: Acknowledge message 1: Activation message" "0,1"
textline "                                   "
bitfld.long 0x00 12. " SYNCMODE     ,Synchronous message type: 0 Synchronous 1: Asynchronous" "0,1"
bitfld.long 0x00 8.--11. "                      DESTTASKID ,Task identifier of the destination node" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 4.--7. "  SOURCETASKID ,Task identifier of the message sender" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                   "
bitfld.long 0x00 0.--3. " SOURCENODEID ,Node identifier of the message sender" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x44++0x3
line.long 0x00 "SYNCBOX_NODEIDENTIFIER,Contains the node identifier. Initialized by default to the tie-off value."
bitfld.long 0x00 0.--3. " VALUE        ,Node identifier value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x48++0x3
line.long 0x00 "SYNCBOX_ERRORMSGDEST,Register containing the node and task identifier to send an activation message when an error is detected"
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit use to send or not the error message to a CPU based node" "0,1"
bitfld.long 0x00 4.--7. "                      TASK_ID    ,Identifier for the task in charge of recovering error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  NODE_ID      ,Identifier for the node in charge of recovering error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4C++0x3
line.long 0x00 "SYNCBOX_ERRORLOG,Contains the different errors latched during message decoding. Any write to the register resets the current value."
bitfld.long 0x00 4.--7. " TASK_ID      ,Identifier of the task (or event line) to which error is attached." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "                     ERR_CODE   ,4 bits coding the error code" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x50++0x3
line.long 0x00 "SYNCBOX_ASYNCEVENTACKREQ,Each bit in this register defines whether the corresponding asynchronous line event need an acknowledge upon task completion or directly when the line is raised."
bitfld.long 0x00 5. " ACKTASK5     ,- . - ." "0,1"
bitfld.long 0x00 4. "                      ACKTASK4   ,- . - ." "0,1"
bitfld.long 0x00 3. "   ACKTASK3     ,- . - ." "0,1"
textline "                                   "
bitfld.long 0x00 2. " ACKTASK2     ,- . - ." "0,1"
bitfld.long 0x00 1. "                      ACKTASK1   ,- . - ." "0,1"
bitfld.long 0x00 0. "   ACKTASK0     ,- . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_MOD,Modulo value for the configuration parameter pointer computed by SYNCBOX"
hexmask.long.byte 0x00 0.--7. 1. " VALUE        ,Number of macroblock configuration arrays in pipeline"
rgroup.long 0x60++0x3
line.long 0x00 "SYNCBOX_STATUS,"
bitfld.long 0x00 11. " EOTFIFO_5    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 10. "                      COREFSM_5  ,Status bit for task 5" "0,1"
bitfld.long 0x00 9. "   EOTFIFO_4    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
textline "                                   "
bitfld.long 0x00 8. " COREFSM_4    ,Status bit for task 4" "0,1"
bitfld.long 0x00 7. "                      EOTFIFO_3  ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 6. "   COREFSM_3    ,Status bit for task 3" "0,1"
textline "                                   "
bitfld.long 0x00 5. " EOTFIFO_2    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 4. "                      COREFSM_2  ,Status bit for task 2" "0,1"
bitfld.long 0x00 3. "   EOTFIFO_1    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
textline "                                   "
bitfld.long 0x00 2. " COREFSM_1    ,Status bit for task 1" "0,1"
bitfld.long 0x00 1. "                      EOTFIFO_0  ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 0. "   COREFSM_0    ,Status bit for task 0" "0,1"
width 0x0B
tree.end
tree "SYNCBOX_MC3_L3_MAINInterconnect"
base ad:0x5A063000
tree "Channel_0"
width 34.
rgroup.long 0x114++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_0,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x110++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_0,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x118++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_0,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x120++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_BASE_i_0,Base address for the node configuration parameters"
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,128-bit address"
rgroup.long 0x128++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_IF_i_0,Interface register containing the current value of the MB configuration parameters. This register is read by the node core."
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,16-bit value containing a 128-bit pointer"
group.long 0x124++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_INC_i_0,Contains the parameter address increment to be added to the current parameter address pointer"
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,Value of the increment"
group.long 0xC0++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j_0,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x100++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x104++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x108++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_1"
width 34.
rgroup.long 0x194++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_1,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x190++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_1,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x198++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_1,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x1A0++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_BASE_i_1,Base address for the node configuration parameters"
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,128-bit address"
rgroup.long 0x1A8++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_IF_i_1,Interface register containing the current value of the MB configuration parameters. This register is read by the node core."
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,16-bit value containing a 128-bit pointer"
group.long 0x1A4++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_INC_i_1,Contains the parameter address increment to be added to the current parameter address pointer"
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,Value of the increment"
group.long 0xC4++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j_1,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x180++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x184++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x188++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x18C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xC8++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j_2,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xCC++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j_3,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
textline ""
width 26.
rgroup.long 0x0++0x3
line.long 0x00 "SYNCBOX_REVISION,IP revision identifier"
hexmask.long 0x00 0.--31. 1. " REVISION     ,IP revision"
group.long 0x10++0x3
line.long 0x00 "SYNCBOX_SYSCONFIG,This register allows controlling various parameters of the OCP interface."
bitfld.long 0x00 1. " CLEARSTATUS  ,Set to 1 to clear dynamic registers - . - . - . - ." "No_action,Initiate_Clear_status"
bitfld.long 0x00 0. "  AUTOIDLE   ,Internal OCP clock gating strategy: - . - ." "0,1"
wgroup.long 0x40++0x3
line.long 0x00 "SYNCBOX_RXMESSAGE,Register containing the received message, from the CTL_IN interface or MSG_IN interface"
bitfld.long 0x00 15. " RECONFIG     ,Bit to allow dynamic reconfiguration ? not used" "0,1"
bitfld.long 0x00 14. "                      ACK_REQ    ,Bit set to 1 in input message if an acknowledge message must be returned." "0,1"
bitfld.long 0x00 13. "   MSG_TYPE     ,Message type 0: Acknowledge message 1: Activation message" "0,1"
textline "                                   "
bitfld.long 0x00 12. " SYNCMODE     ,Synchronous message type: 0 Synchronous 1: Asynchronous" "0,1"
bitfld.long 0x00 8.--11. "                      DESTTASKID ,Task identifier of the destination node" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 4.--7. "  SOURCETASKID ,Task identifier of the message sender" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                   "
bitfld.long 0x00 0.--3. " SOURCENODEID ,Node identifier of the message sender" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x44++0x3
line.long 0x00 "SYNCBOX_NODEIDENTIFIER,Contains the node identifier. Initialized by default to the tie-off value."
bitfld.long 0x00 0.--3. " VALUE        ,Node identifier value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x48++0x3
line.long 0x00 "SYNCBOX_ERRORMSGDEST,Register containing the node and task identifier to send an activation message when an error is detected"
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit use to send or not the error message to a CPU based node" "0,1"
bitfld.long 0x00 4.--7. "                      TASK_ID    ,Identifier for the task in charge of recovering error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  NODE_ID      ,Identifier for the node in charge of recovering error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4C++0x3
line.long 0x00 "SYNCBOX_ERRORLOG,Contains the different errors latched during message decoding. Any write to the register resets the current value."
bitfld.long 0x00 4.--7. " TASK_ID      ,Identifier of the task (or event line) to which error is attached." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "                     ERR_CODE   ,4 bits coding the error code" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x50++0x3
line.long 0x00 "SYNCBOX_ASYNCEVENTACKREQ,Each bit in this register defines whether the corresponding asynchronous line event need an acknowledge upon task completion or directly when the line is raised."
bitfld.long 0x00 5. " ACKTASK5     ,- . - ." "0,1"
bitfld.long 0x00 4. "                      ACKTASK4   ,- . - ." "0,1"
bitfld.long 0x00 3. "   ACKTASK3     ,- . - ." "0,1"
textline "                                   "
bitfld.long 0x00 2. " ACKTASK2     ,- . - ." "0,1"
bitfld.long 0x00 1. "                      ACKTASK1   ,- . - ." "0,1"
bitfld.long 0x00 0. "   ACKTASK0     ,- . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_MOD,Modulo value for the configuration parameter pointer computed by SYNCBOX"
hexmask.long.byte 0x00 0.--7. 1. " VALUE        ,Number of macroblock configuration arrays in pipeline"
rgroup.long 0x60++0x3
line.long 0x00 "SYNCBOX_STATUS,"
bitfld.long 0x00 11. " EOTFIFO_5    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 10. "                      COREFSM_5  ,Status bit for task 5" "0,1"
bitfld.long 0x00 9. "   EOTFIFO_4    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
textline "                                   "
bitfld.long 0x00 8. " COREFSM_4    ,Status bit for task 4" "0,1"
bitfld.long 0x00 7. "                      EOTFIFO_3  ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 6. "   COREFSM_3    ,Status bit for task 3" "0,1"
textline "                                   "
bitfld.long 0x00 5. " EOTFIFO_2    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 4. "                      COREFSM_2  ,Status bit for task 2" "0,1"
bitfld.long 0x00 3. "   EOTFIFO_1    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
textline "                                   "
bitfld.long 0x00 2. " COREFSM_1    ,Status bit for task 1" "0,1"
bitfld.long 0x00 1. "                      EOTFIFO_0  ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 0. "   COREFSM_0    ,Status bit for task 0" "0,1"
width 0x0B
tree.end
tree "SYNCBOX_ECD3_L3_MAINInterconnect"
base ad:0x5A063800
tree "Channel_0"
width 34.
rgroup.long 0x114++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_0,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x110++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_0,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x118++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_0,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x120++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_BASE_i_0,Base address for the node configuration parameters"
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,128-bit address"
rgroup.long 0x128++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_IF_i_0,Interface register containing the current value of the MB configuration parameters. This register is read by the node core."
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,16-bit value containing a 128-bit pointer"
group.long 0x124++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_INC_i_0,Contains the parameter address increment to be added to the current parameter address pointer"
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,Value of the increment"
group.long 0xC0++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j_0,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x100++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x104++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x108++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_1"
width 34.
rgroup.long 0x194++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_1,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x190++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_1,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x198++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_1,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x1A0++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_BASE_i_1,Base address for the node configuration parameters"
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,128-bit address"
rgroup.long 0x1A8++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_IF_i_1,Interface register containing the current value of the MB configuration parameters. This register is read by the node core."
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,16-bit value containing a 128-bit pointer"
group.long 0x1A4++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_INC_i_1,Contains the parameter address increment to be added to the current parameter address pointer"
hexmask.long.word 0x00 0.--15. 1. " VALUE     ,Value of the increment"
group.long 0xC4++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j_1,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x180++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x184++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x188++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x18C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xC8++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j_2,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xCC++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j_3,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
textline ""
width 26.
rgroup.long 0x0++0x3
line.long 0x00 "SYNCBOX_REVISION,IP revision identifier"
hexmask.long 0x00 0.--31. 1. " REVISION     ,IP revision"
group.long 0x10++0x3
line.long 0x00 "SYNCBOX_SYSCONFIG,This register allows controlling various parameters of the OCP interface."
bitfld.long 0x00 1. " CLEARSTATUS  ,Set to 1 to clear dynamic registers - . - . - . - ." "No_action,Initiate_Clear_status"
bitfld.long 0x00 0. "  AUTOIDLE   ,Internal OCP clock gating strategy: - . - ." "0,1"
wgroup.long 0x40++0x3
line.long 0x00 "SYNCBOX_RXMESSAGE,Register containing the received message, from the CTL_IN interface or MSG_IN interface"
bitfld.long 0x00 15. " RECONFIG     ,Bit to allow dynamic reconfiguration ? not used" "0,1"
bitfld.long 0x00 14. "                      ACK_REQ    ,Bit set to 1 in input message if an acknowledge message must be returned." "0,1"
bitfld.long 0x00 13. "   MSG_TYPE     ,Message type 0: Acknowledge message 1: Activation message" "0,1"
textline "                                   "
bitfld.long 0x00 12. " SYNCMODE     ,Synchronous message type: 0 Synchronous 1: Asynchronous" "0,1"
bitfld.long 0x00 8.--11. "                      DESTTASKID ,Task identifier of the destination node" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 4.--7. "  SOURCETASKID ,Task identifier of the message sender" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                   "
bitfld.long 0x00 0.--3. " SOURCENODEID ,Node identifier of the message sender" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x44++0x3
line.long 0x00 "SYNCBOX_NODEIDENTIFIER,Contains the node identifier. Initialized by default to the tie-off value."
bitfld.long 0x00 0.--3. " VALUE        ,Node identifier value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x48++0x3
line.long 0x00 "SYNCBOX_ERRORMSGDEST,Register containing the node and task identifier to send an activation message when an error is detected"
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit use to send or not the error message to a CPU based node" "0,1"
bitfld.long 0x00 4.--7. "                      TASK_ID    ,Identifier for the task in charge of recovering error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  NODE_ID      ,Identifier for the node in charge of recovering error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4C++0x3
line.long 0x00 "SYNCBOX_ERRORLOG,Contains the different errors latched during message decoding. Any write to the register resets the current value."
bitfld.long 0x00 4.--7. " TASK_ID      ,Identifier of the task (or event line) to which error is attached." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "                     ERR_CODE   ,4 bits coding the error code" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x50++0x3
line.long 0x00 "SYNCBOX_ASYNCEVENTACKREQ,Each bit in this register defines whether the corresponding asynchronous line event need an acknowledge upon task completion or directly when the line is raised."
bitfld.long 0x00 5. " ACKTASK5     ,- . - ." "0,1"
bitfld.long 0x00 4. "                      ACKTASK4   ,- . - ." "0,1"
bitfld.long 0x00 3. "   ACKTASK3     ,- . - ." "0,1"
textline "                                   "
bitfld.long 0x00 2. " ACKTASK2     ,- . - ." "0,1"
bitfld.long 0x00 1. "                      ACKTASK1   ,- . - ." "0,1"
bitfld.long 0x00 0. "   ACKTASK0     ,- . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_MOD,Modulo value for the configuration parameter pointer computed by SYNCBOX"
hexmask.long.byte 0x00 0.--7. 1. " VALUE        ,Number of macroblock configuration arrays in pipeline"
rgroup.long 0x60++0x3
line.long 0x00 "SYNCBOX_STATUS,"
bitfld.long 0x00 11. " EOTFIFO_5    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 10. "                      COREFSM_5  ,Status bit for task 5" "0,1"
bitfld.long 0x00 9. "   EOTFIFO_4    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
textline "                                   "
bitfld.long 0x00 8. " COREFSM_4    ,Status bit for task 4" "0,1"
bitfld.long 0x00 7. "                      EOTFIFO_3  ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 6. "   COREFSM_3    ,Status bit for task 3" "0,1"
textline "                                   "
bitfld.long 0x00 5. " EOTFIFO_2    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 4. "                      COREFSM_2  ,Status bit for task 2" "0,1"
bitfld.long 0x00 3. "   EOTFIFO_1    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
textline "                                   "
bitfld.long 0x00 2. " COREFSM_1    ,Status bit for task 1" "0,1"
bitfld.long 0x00 1. "                      EOTFIFO_0  ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 0. "   COREFSM_0    ,Status bit for task 0" "0,1"
width 0x0B
tree.end
tree.end
sif (cpuis("TDA2XIVA"))
tree.open "SYNCBOX_ICONT1_ICONT"
tree "SYNCBOX_ICONT1_ICONT"
base ad:0xE0000
tree "Channel_0"
width 34.
rgroup.long 0x114++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_0,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x110++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_0,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x118++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_0,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x100++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x104++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x108++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_1"
width 34.
rgroup.long 0x194++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_1,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x190++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_1,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x198++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_1,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x180++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x184++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x188++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x18C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_2"
width 34.
rgroup.long 0x214++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_2,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x210++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_2,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x218++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_2,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x200++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_2,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x204++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_2,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x208++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_2,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x20C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_2,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_3"
width 34.
rgroup.long 0x294++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_3,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x290++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_3,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x298++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_3,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x280++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_3,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x284++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_3,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x288++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_3,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x28C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_3,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_4"
width 34.
rgroup.long 0x314++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_4,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x310++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_4,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x318++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_4,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x300++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_4,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x304++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_4,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x308++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_4,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x30C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_4,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_5"
width 34.
rgroup.long 0x394++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_5,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x390++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_5,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x398++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_5,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x380++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_5,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x384++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_5,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x388++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_5,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x38C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_5,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
textline ""
width 24.
rgroup.long 0x0++0x3
line.long 0x00 "SYNCBOX_REVISION,IP revision identifier"
hexmask.long 0x00 0.--31. 1. " REVISION     ,IP revision"
group.long 0x10++0x3
line.long 0x00 "SYNCBOX_SYSCONFIG,This register allows controlling various parameters of the OCP interface."
bitfld.long 0x00 1. " CLEARSTATUS  ,Set to 1 to clear dynamic registers - . - . - . - ." "No_action,Initiate_Clear_status"
bitfld.long 0x00 0. "  AUTOIDLE   ,Internal OCP clock gating strategy: - . - ." "0,1"
wgroup.long 0x40++0x3
line.long 0x00 "SYNCBOX_RXMESSAGE,Register containing the received message, from the CTL_IN interface or MSG_IN interface"
bitfld.long 0x00 15. " RECONFIG     ,Bit to allow dynamic reconfiguration ? not used" "0,1"
bitfld.long 0x00 14. "                      ACK_REQ    ,Bit set to 1 in input message if an acknowledge message must be returned." "0,1"
bitfld.long 0x00 13. "                  MSG_TYPE     ,Message type 0: Acknowledge message 1: Activation message" "0,1"
textline "                                 "
bitfld.long 0x00 12. " SYNCMODE     ,Synchronous message type: 0 Synchronous 1: Asynchronous" "0,1"
bitfld.long 0x00 8.--11. "                      DESTTASKID ,Task identifier of the destination node" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 4.--7. "                 SOURCETASKID ,Task identifier of the message sender" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                 "
bitfld.long 0x00 0.--3. " SOURCENODEID ,Node identifier of the message sender" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x44++0x3
line.long 0x00 "SYNCBOX_NODEIDENTIFIER,Contains the node identifier. Initialized by default to the tie-off value."
bitfld.long 0x00 0.--3. " VALUE        ,Node identifier value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x48++0x3
line.long 0x00 "SYNCBOX_ERRORMSGDEST,Register containing the node and task identifier to send an activation message when an error is detected"
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit use to send or not the error message to a CPU based node" "0,1"
bitfld.long 0x00 4.--7. "                      TASK_ID    ,Identifier for the task in charge of recovering error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "                 NODE_ID      ,Identifier for the node in charge of recovering error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4C++0x3
line.long 0x00 "SYNCBOX_ERRORLOG,Contains the different errors latched during message decoding. Any write to the register resets the current value."
bitfld.long 0x00 4.--7. " TASK_ID      ,Identifier of the task (or event line) to which error is attached." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "                     ERR_CODE   ,4 bits coding the error code" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x58++0x3
line.long 0x00 "SYNCBOX_TASKSYNCTYPE,This register is used to code the task synchronous type: Bit = 0: Synchronous task; Bit = 1: Asynchronous task"
bitfld.long 0x00 5. " T5           ,Task synchronous or asynchronous - . - ." "Synchronous_task,Asynchronous_task"
bitfld.long 0x00 4. "      T4         ,Task synchronous or asynchronous - . - ." "Synchronous_task,Asynchronous_task"
bitfld.long 0x00 3. "  T3           ,Task synchronous or asynchronous - . - ." "Synchronous_task,Asynchronous_task"
textline "                                 "
bitfld.long 0x00 2. " T2           ,Task synchronous or asynchronous - . - ." "Synchronous_task,Asynchronous_task"
bitfld.long 0x00 1. "      T1         ,Task synchronous or asynchronous - . - ." "Synchronous_task,Asynchronous_task"
bitfld.long 0x00 0. "  T0           ,Task synchronous or asynchronous - . - ." "Synchronous_task,Asynchronous_task"
rgroup.long 0x60++0x3
line.long 0x00 "SYNCBOX_STATUS,"
bitfld.long 0x00 11. " EOTFIFO_5    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 10. "                      COREFSM_5  ,Status bit for task 5" "0,1"
bitfld.long 0x00 9. "                  EOTFIFO_4    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
textline "                                 "
bitfld.long 0x00 8. " COREFSM_4    ,Status bit for task 4" "0,1"
bitfld.long 0x00 7. "                      EOTFIFO_3  ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 6. "                  COREFSM_3    ,Status bit for task 3" "0,1"
textline "                                 "
bitfld.long 0x00 5. " EOTFIFO_2    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 4. "                      COREFSM_2  ,Status bit for task 2" "0,1"
bitfld.long 0x00 3. "                  EOTFIFO_1    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
textline "                                 "
bitfld.long 0x00 2. " COREFSM_1    ,Status bit for task 1" "0,1"
bitfld.long 0x00 1. "                      EOTFIFO_0  ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 0. "                  COREFSM_0    ,Status bit for task 0" "0,1"
width 0x0B
tree.end
tree "SYNCBOX_ICONT2_ICONT"
base ad:0xE0800
tree "Channel_0"
width 34.
rgroup.long 0x114++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_0,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x110++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_0,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x118++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_0,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x100++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x104++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x108++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_1"
width 34.
rgroup.long 0x194++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_1,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x190++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_1,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x198++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_1,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x180++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x184++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x188++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x18C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_2"
width 34.
rgroup.long 0x214++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_2,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x210++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_2,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x218++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_2,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x200++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_2,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x204++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_2,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x208++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_2,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x20C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_2,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_3"
width 34.
rgroup.long 0x294++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_3,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x290++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_3,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x298++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_3,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x280++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_3,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x284++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_3,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x288++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_3,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x28C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_3,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_4"
width 34.
rgroup.long 0x314++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_4,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x310++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_4,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x318++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_4,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x300++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_4,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x304++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_4,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x308++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_4,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x30C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_4,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_5"
width 34.
rgroup.long 0x394++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_5,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x390++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_5,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x398++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_5,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x380++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_5,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x384++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_5,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x388++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_5,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x38C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_5,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
textline ""
width 24.
rgroup.long 0x0++0x3
line.long 0x00 "SYNCBOX_REVISION,IP revision identifier"
hexmask.long 0x00 0.--31. 1. " REVISION     ,IP revision"
group.long 0x10++0x3
line.long 0x00 "SYNCBOX_SYSCONFIG,This register allows controlling various parameters of the OCP interface."
bitfld.long 0x00 1. " CLEARSTATUS  ,Set to 1 to clear dynamic registers - . - . - . - ." "No_action,Initiate_Clear_status"
bitfld.long 0x00 0. "  AUTOIDLE   ,Internal OCP clock gating strategy: - . - ." "0,1"
wgroup.long 0x40++0x3
line.long 0x00 "SYNCBOX_RXMESSAGE,Register containing the received message, from the CTL_IN interface or MSG_IN interface"
bitfld.long 0x00 15. " RECONFIG     ,Bit to allow dynamic reconfiguration ? not used" "0,1"
bitfld.long 0x00 14. "                      ACK_REQ    ,Bit set to 1 in input message if an acknowledge message must be returned." "0,1"
bitfld.long 0x00 13. "                  MSG_TYPE     ,Message type 0: Acknowledge message 1: Activation message" "0,1"
textline "                                 "
bitfld.long 0x00 12. " SYNCMODE     ,Synchronous message type: 0 Synchronous 1: Asynchronous" "0,1"
bitfld.long 0x00 8.--11. "                      DESTTASKID ,Task identifier of the destination node" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 4.--7. "                 SOURCETASKID ,Task identifier of the message sender" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                 "
bitfld.long 0x00 0.--3. " SOURCENODEID ,Node identifier of the message sender" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x44++0x3
line.long 0x00 "SYNCBOX_NODEIDENTIFIER,Contains the node identifier. Initialized by default to the tie-off value."
bitfld.long 0x00 0.--3. " VALUE        ,Node identifier value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x48++0x3
line.long 0x00 "SYNCBOX_ERRORMSGDEST,Register containing the node and task identifier to send an activation message when an error is detected"
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit use to send or not the error message to a CPU based node" "0,1"
bitfld.long 0x00 4.--7. "                      TASK_ID    ,Identifier for the task in charge of recovering error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "                 NODE_ID      ,Identifier for the node in charge of recovering error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4C++0x3
line.long 0x00 "SYNCBOX_ERRORLOG,Contains the different errors latched during message decoding. Any write to the register resets the current value."
bitfld.long 0x00 4.--7. " TASK_ID      ,Identifier of the task (or event line) to which error is attached." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "                     ERR_CODE   ,4 bits coding the error code" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x58++0x3
line.long 0x00 "SYNCBOX_TASKSYNCTYPE,This register is used to code the task synchronous type: Bit = 0: Synchronous task; Bit = 1: Asynchronous task"
bitfld.long 0x00 5. " T5           ,Task synchronous or asynchronous - . - ." "Synchronous_task,Asynchronous_task"
bitfld.long 0x00 4. "      T4         ,Task synchronous or asynchronous - . - ." "Synchronous_task,Asynchronous_task"
bitfld.long 0x00 3. "  T3           ,Task synchronous or asynchronous - . - ." "Synchronous_task,Asynchronous_task"
textline "                                 "
bitfld.long 0x00 2. " T2           ,Task synchronous or asynchronous - . - ." "Synchronous_task,Asynchronous_task"
bitfld.long 0x00 1. "      T1         ,Task synchronous or asynchronous - . - ." "Synchronous_task,Asynchronous_task"
bitfld.long 0x00 0. "  T0           ,Task synchronous or asynchronous - . - ." "Synchronous_task,Asynchronous_task"
rgroup.long 0x60++0x3
line.long 0x00 "SYNCBOX_STATUS,"
bitfld.long 0x00 11. " EOTFIFO_5    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 10. "                      COREFSM_5  ,Status bit for task 5" "0,1"
bitfld.long 0x00 9. "                  EOTFIFO_4    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
textline "                                 "
bitfld.long 0x00 8. " COREFSM_4    ,Status bit for task 4" "0,1"
bitfld.long 0x00 7. "                      EOTFIFO_3  ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 6. "                  COREFSM_3    ,Status bit for task 3" "0,1"
textline "                                 "
bitfld.long 0x00 5. " EOTFIFO_2    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 4. "                      COREFSM_2  ,Status bit for task 2" "0,1"
bitfld.long 0x00 3. "                  EOTFIFO_1    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
textline "                                 "
bitfld.long 0x00 2. " COREFSM_1    ,Status bit for task 1" "0,1"
bitfld.long 0x00 1. "                      EOTFIFO_0  ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 0. "                  COREFSM_0    ,Status bit for task 0" "0,1"
width 0x0B
tree.end
tree "SYNCBOX_ICONT1_L3_MAINInterconnect"
base ad:0x5A060000
tree "Channel_0"
width 34.
rgroup.long 0x114++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_0,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x110++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_0,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x118++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_0,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x100++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x104++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x108++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_1"
width 34.
rgroup.long 0x194++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_1,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x190++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_1,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x198++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_1,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x180++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x184++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x188++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x18C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_2"
width 34.
rgroup.long 0x214++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_2,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x210++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_2,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x218++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_2,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x200++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_2,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x204++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_2,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x208++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_2,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x20C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_2,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_3"
width 34.
rgroup.long 0x294++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_3,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x290++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_3,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x298++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_3,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x280++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_3,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x284++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_3,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x288++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_3,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x28C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_3,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_4"
width 34.
rgroup.long 0x314++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_4,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x310++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_4,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x318++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_4,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x300++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_4,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x304++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_4,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x308++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_4,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x30C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_4,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_5"
width 34.
rgroup.long 0x394++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_5,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x390++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_5,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x398++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_5,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x380++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_5,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x384++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_5,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x388++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_5,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x38C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_5,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
textline ""
width 24.
rgroup.long 0x0++0x3
line.long 0x00 "SYNCBOX_REVISION,IP revision identifier"
hexmask.long 0x00 0.--31. 1. " REVISION     ,IP revision"
group.long 0x10++0x3
line.long 0x00 "SYNCBOX_SYSCONFIG,This register allows controlling various parameters of the OCP interface."
bitfld.long 0x00 1. " CLEARSTATUS  ,Set to 1 to clear dynamic registers - . - . - . - ." "No_action,Initiate_Clear_status"
bitfld.long 0x00 0. "  AUTOIDLE   ,Internal OCP clock gating strategy: - . - ." "0,1"
wgroup.long 0x40++0x3
line.long 0x00 "SYNCBOX_RXMESSAGE,Register containing the received message, from the CTL_IN interface or MSG_IN interface"
bitfld.long 0x00 15. " RECONFIG     ,Bit to allow dynamic reconfiguration ? not used" "0,1"
bitfld.long 0x00 14. "                      ACK_REQ    ,Bit set to 1 in input message if an acknowledge message must be returned." "0,1"
bitfld.long 0x00 13. "                  MSG_TYPE     ,Message type 0: Acknowledge message 1: Activation message" "0,1"
textline "                                 "
bitfld.long 0x00 12. " SYNCMODE     ,Synchronous message type: 0 Synchronous 1: Asynchronous" "0,1"
bitfld.long 0x00 8.--11. "                      DESTTASKID ,Task identifier of the destination node" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 4.--7. "                 SOURCETASKID ,Task identifier of the message sender" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                 "
bitfld.long 0x00 0.--3. " SOURCENODEID ,Node identifier of the message sender" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x44++0x3
line.long 0x00 "SYNCBOX_NODEIDENTIFIER,Contains the node identifier. Initialized by default to the tie-off value."
bitfld.long 0x00 0.--3. " VALUE        ,Node identifier value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x48++0x3
line.long 0x00 "SYNCBOX_ERRORMSGDEST,Register containing the node and task identifier to send an activation message when an error is detected"
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit use to send or not the error message to a CPU based node" "0,1"
bitfld.long 0x00 4.--7. "                      TASK_ID    ,Identifier for the task in charge of recovering error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "                 NODE_ID      ,Identifier for the node in charge of recovering error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4C++0x3
line.long 0x00 "SYNCBOX_ERRORLOG,Contains the different errors latched during message decoding. Any write to the register resets the current value."
bitfld.long 0x00 4.--7. " TASK_ID      ,Identifier of the task (or event line) to which error is attached." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "                     ERR_CODE   ,4 bits coding the error code" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x58++0x3
line.long 0x00 "SYNCBOX_TASKSYNCTYPE,This register is used to code the task synchronous type: Bit = 0: Synchronous task; Bit = 1: Asynchronous task"
bitfld.long 0x00 5. " T5           ,Task synchronous or asynchronous - . - ." "Synchronous_task,Asynchronous_task"
bitfld.long 0x00 4. "      T4         ,Task synchronous or asynchronous - . - ." "Synchronous_task,Asynchronous_task"
bitfld.long 0x00 3. "  T3           ,Task synchronous or asynchronous - . - ." "Synchronous_task,Asynchronous_task"
textline "                                 "
bitfld.long 0x00 2. " T2           ,Task synchronous or asynchronous - . - ." "Synchronous_task,Asynchronous_task"
bitfld.long 0x00 1. "      T1         ,Task synchronous or asynchronous - . - ." "Synchronous_task,Asynchronous_task"
bitfld.long 0x00 0. "  T0           ,Task synchronous or asynchronous - . - ." "Synchronous_task,Asynchronous_task"
rgroup.long 0x60++0x3
line.long 0x00 "SYNCBOX_STATUS,"
bitfld.long 0x00 11. " EOTFIFO_5    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 10. "                      COREFSM_5  ,Status bit for task 5" "0,1"
bitfld.long 0x00 9. "                  EOTFIFO_4    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
textline "                                 "
bitfld.long 0x00 8. " COREFSM_4    ,Status bit for task 4" "0,1"
bitfld.long 0x00 7. "                      EOTFIFO_3  ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 6. "                  COREFSM_3    ,Status bit for task 3" "0,1"
textline "                                 "
bitfld.long 0x00 5. " EOTFIFO_2    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 4. "                      COREFSM_2  ,Status bit for task 2" "0,1"
bitfld.long 0x00 3. "                  EOTFIFO_1    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
textline "                                 "
bitfld.long 0x00 2. " COREFSM_1    ,Status bit for task 1" "0,1"
bitfld.long 0x00 1. "                      EOTFIFO_0  ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 0. "                  COREFSM_0    ,Status bit for task 0" "0,1"
width 0x0B
tree.end
tree "SYNCBOX_ICONT2_L3_MAINInterconnect"
base ad:0x5A060800
tree "Channel_0"
width 34.
rgroup.long 0x114++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_0,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x110++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_0,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x118++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_0,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x100++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x104++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x108++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_0,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_1"
width 34.
rgroup.long 0x194++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_1,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x190++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_1,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x198++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_1,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x180++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x184++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x188++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x18C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_1,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_2"
width 34.
rgroup.long 0x214++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_2,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x210++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_2,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x218++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_2,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x200++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_2,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x204++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_2,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x208++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_2,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x20C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_2,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_3"
width 34.
rgroup.long 0x294++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_3,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x290++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_3,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x298++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_3,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x280++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_3,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x284++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_3,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x288++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_3,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x28C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_3,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_4"
width 34.
rgroup.long 0x314++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_4,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x310++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_4,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x318++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_4,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x300++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_4,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x304++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_4,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x308++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_4,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x30C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_4,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_5"
width 34.
rgroup.long 0x394++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i_5,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "     COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 5.--9. " COUNTER1  ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x390++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i_5,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is ..."
bitfld.long 0x00 28.--31. " TASK_ID3  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "    TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 16.--19. " TASK_ID0  ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "    NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 4.--7. " NODE_ID1  ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "    NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x398++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i_5,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE     ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x380++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i_5,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x384++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i_5,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x388++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i_5,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x38C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i_5,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "     DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
textline ""
width 24.
rgroup.long 0x0++0x3
line.long 0x00 "SYNCBOX_REVISION,IP revision identifier"
hexmask.long 0x00 0.--31. 1. " REVISION     ,IP revision"
group.long 0x10++0x3
line.long 0x00 "SYNCBOX_SYSCONFIG,This register allows controlling various parameters of the OCP interface."
bitfld.long 0x00 1. " CLEARSTATUS  ,Set to 1 to clear dynamic registers - . - . - . - ." "No_action,Initiate_Clear_status"
bitfld.long 0x00 0. "  AUTOIDLE   ,Internal OCP clock gating strategy: - . - ." "0,1"
wgroup.long 0x40++0x3
line.long 0x00 "SYNCBOX_RXMESSAGE,Register containing the received message, from the CTL_IN interface or MSG_IN interface"
bitfld.long 0x00 15. " RECONFIG     ,Bit to allow dynamic reconfiguration ? not used" "0,1"
bitfld.long 0x00 14. "                      ACK_REQ    ,Bit set to 1 in input message if an acknowledge message must be returned." "0,1"
bitfld.long 0x00 13. "                  MSG_TYPE     ,Message type 0: Acknowledge message 1: Activation message" "0,1"
textline "                                 "
bitfld.long 0x00 12. " SYNCMODE     ,Synchronous message type: 0 Synchronous 1: Asynchronous" "0,1"
bitfld.long 0x00 8.--11. "                      DESTTASKID ,Task identifier of the destination node" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 4.--7. "                 SOURCETASKID ,Task identifier of the message sender" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                 "
bitfld.long 0x00 0.--3. " SOURCENODEID ,Node identifier of the message sender" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x44++0x3
line.long 0x00 "SYNCBOX_NODEIDENTIFIER,Contains the node identifier. Initialized by default to the tie-off value."
bitfld.long 0x00 0.--3. " VALUE        ,Node identifier value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x48++0x3
line.long 0x00 "SYNCBOX_ERRORMSGDEST,Register containing the node and task identifier to send an activation message when an error is detected"
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit use to send or not the error message to a CPU based node" "0,1"
bitfld.long 0x00 4.--7. "                      TASK_ID    ,Identifier for the task in charge of recovering error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "                 NODE_ID      ,Identifier for the node in charge of recovering error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4C++0x3
line.long 0x00 "SYNCBOX_ERRORLOG,Contains the different errors latched during message decoding. Any write to the register resets the current value."
bitfld.long 0x00 4.--7. " TASK_ID      ,Identifier of the task (or event line) to which error is attached." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "                     ERR_CODE   ,4 bits coding the error code" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x58++0x3
line.long 0x00 "SYNCBOX_TASKSYNCTYPE,This register is used to code the task synchronous type: Bit = 0: Synchronous task; Bit = 1: Asynchronous task"
bitfld.long 0x00 5. " T5           ,Task synchronous or asynchronous - . - ." "Synchronous_task,Asynchronous_task"
bitfld.long 0x00 4. "      T4         ,Task synchronous or asynchronous - . - ." "Synchronous_task,Asynchronous_task"
bitfld.long 0x00 3. "  T3           ,Task synchronous or asynchronous - . - ." "Synchronous_task,Asynchronous_task"
textline "                                 "
bitfld.long 0x00 2. " T2           ,Task synchronous or asynchronous - . - ." "Synchronous_task,Asynchronous_task"
bitfld.long 0x00 1. "      T1         ,Task synchronous or asynchronous - . - ." "Synchronous_task,Asynchronous_task"
bitfld.long 0x00 0. "  T0           ,Task synchronous or asynchronous - . - ." "Synchronous_task,Asynchronous_task"
rgroup.long 0x60++0x3
line.long 0x00 "SYNCBOX_STATUS,"
bitfld.long 0x00 11. " EOTFIFO_5    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 10. "                      COREFSM_5  ,Status bit for task 5" "0,1"
bitfld.long 0x00 9. "                  EOTFIFO_4    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
textline "                                 "
bitfld.long 0x00 8. " COREFSM_4    ,Status bit for task 4" "0,1"
bitfld.long 0x00 7. "                      EOTFIFO_3  ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 6. "                  COREFSM_3    ,Status bit for task 3" "0,1"
textline "                                 "
bitfld.long 0x00 5. " EOTFIFO_2    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 4. "                      COREFSM_2  ,Status bit for task 2" "0,1"
bitfld.long 0x00 3. "                  EOTFIFO_1    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
textline "                                 "
bitfld.long 0x00 2. " COREFSM_1    ,Status bit for task 1" "0,1"
bitfld.long 0x00 1. "                      EOTFIFO_0  ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 0. "                  COREFSM_0    ,Status bit for task 0" "0,1"
width 0x0B
tree.end
tree.end
endif
tree.open "SYNCBOX_ILF3_ICONT"
sif (cpuis("TDA2XIVA"))
tree "SYNCBOX_ILF3_ICONT"
base ad:0xE1000
width 32.
rgroup.long 0x0++0x3
line.long 0x00 "SYNCBOX_REVISION,IP revision identifier"
hexmask.long 0x00 0.--31. 1. " REVISION     ,IP revision"
group.long 0x10++0x3
line.long 0x00 "SYNCBOX_SYSCONFIG,This register allows controlling various parameters of the OCP interface."
bitfld.long 0x00 1. " CLEARSTATUS  ,Set to 1 to clear dynamic registers - . - . - . - ." "No_action,Initiate_Clear_status"
bitfld.long 0x00 0. "  AUTOIDLE     ,Internal OCP clock gating strategy: - . - ." "0,1"
wgroup.long 0x40++0x3
line.long 0x00 "SYNCBOX_RXMESSAGE,Register containing the received message, from the CTL_IN interface or MSG_IN interface"
bitfld.long 0x00 15. " RECONFIG     ,Bit to allow dynamic reconfiguration ? not used" "0,1"
bitfld.long 0x00 14. "                      ACK_REQ      ,Bit set to 1 in input message if an acknowledge message must be returned." "0,1"
bitfld.long 0x00 13. "   MSG_TYPE     ,Message type 0: Acknowledge message 1: Activation message" "0,1"
textline "                                         "
bitfld.long 0x00 12. " SYNCMODE     ,Synchronous message type: 0 Synchronous 1: Asynchronous" "0,1"
bitfld.long 0x00 8.--11. "                      DESTTASKID   ,Task identifier of the destination node" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 4.--7. "  SOURCETASKID ,Task identifier of the message sender" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                         "
bitfld.long 0x00 0.--3. " SOURCENODEID ,Node identifier of the message sender" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x44++0x3
line.long 0x00 "SYNCBOX_NODEIDENTIFIER,Contains the node identifier. Initialized by default to the tie-off value."
bitfld.long 0x00 0.--3. " VALUE        ,Node identifier value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x48++0x3
line.long 0x00 "SYNCBOX_ERRORMSGDEST,Register containing the node and task identifier to send an activation message when an error is detected"
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit use to send or not the error message to a CPU based node" "0,1"
bitfld.long 0x00 4.--7. "                      TASK_ID      ,Identifier for the task in charge of recovering error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  NODE_ID      ,Identifier for the node in charge of recovering error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4C++0x3
line.long 0x00 "SYNCBOX_ERRORLOG,Contains the different errors latched during message decoding. Any write to the register resets the current value."
bitfld.long 0x00 4.--7. " TASK_ID      ,Identifier of the task (or event line) to which error is attached." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "                     ERR_CODE     ,4 bits coding the error code" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x50++0x3
line.long 0x00 "SYNCBOX_ASYNCEVENTACKREQ,Each bit in this register defines whether the corresponding asynchronous line event need an acknowledge upon task completion or directly when the line is raised."
bitfld.long 0x00 5. " ACKTASK5     ,- . - ." "0,1"
bitfld.long 0x00 4. "                      ACKTASK4     ,- . - ." "0,1"
bitfld.long 0x00 3. "   ACKTASK3     ,- . - ." "0,1"
textline "                                         "
bitfld.long 0x00 2. " ACKTASK2     ,- . - ." "0,1"
bitfld.long 0x00 1. "                      ACKTASK1     ,- . - ." "0,1"
bitfld.long 0x00 0. "   ACKTASK0     ,- . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_MOD,Modulo value for the configuration parameter pointer computed by SYNCBOX"
hexmask.long.byte 0x00 0.--7. 1. " VALUE        ,Number of macroblock configuration arrays in pipeline"
rgroup.long 0x60++0x3
line.long 0x00 "SYNCBOX_STATUS,"
bitfld.long 0x00 11. " EOTFIFO_5    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 10. "                      COREFSM_5    ,Status bit for task 5" "0,1"
bitfld.long 0x00 9. "   EOTFIFO_4    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
textline "                                         "
bitfld.long 0x00 8. " COREFSM_4    ,Status bit for task 4" "0,1"
bitfld.long 0x00 7. "                      EOTFIFO_3    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 6. "   COREFSM_3    ,Status bit for task 3" "0,1"
textline "                                         "
bitfld.long 0x00 5. " EOTFIFO_2    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 4. "                      COREFSM_2    ,Status bit for task 2" "0,1"
bitfld.long 0x00 3. "   EOTFIFO_1    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
textline "                                         "
bitfld.long 0x00 2. " COREFSM_1    ,Status bit for task 1" "0,1"
bitfld.long 0x00 1. "                      EOTFIFO_0    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 0. "   COREFSM_0    ,Status bit for task 0" "0,1"
group.long 0xC0++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "                      DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x100++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "                      DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x104++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "                      DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x108++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "                      DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "                      DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x110++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is pr..."
bitfld.long 0x00 28.--31. " TASK_ID3     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "                     TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                         "
bitfld.long 0x00 16.--19. " TASK_ID0     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "                     NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                         "
bitfld.long 0x00 4.--7. " NODE_ID1     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "                     NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x114++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG    ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "                      COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                         "
bitfld.long 0x00 5.--9. " COUNTER1     ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "                     COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rgroup.long 0x118++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE        ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x120++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_BASE_i,Base address for the node configuration parameters"
hexmask.long.word 0x00 0.--15. 1. " VALUE        ,128-bit address"
group.long 0x124++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_INC_i,Contains the parameter address increment to be added to the current parameter address pointer"
hexmask.long.word 0x00 0.--15. 1. " VALUE        ,Value of the increment"
rgroup.long 0x128++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_IF_i,Interface register containing the current value of the MB configuration parameters. This register is read by the node core."
hexmask.long.word 0x00 0.--15. 1. " VALUE        ,16-bit value containing a 128-bit pointer"
width 0x0B
tree.end
tree "SYNCBOX_IME3_ICONT"
base ad:0xE1800
width 32.
rgroup.long 0x0++0x3
line.long 0x00 "SYNCBOX_REVISION,IP revision identifier"
hexmask.long 0x00 0.--31. 1. " REVISION     ,IP revision"
group.long 0x10++0x3
line.long 0x00 "SYNCBOX_SYSCONFIG,This register allows controlling various parameters of the OCP interface."
bitfld.long 0x00 1. " CLEARSTATUS  ,Set to 1 to clear dynamic registers - . - . - . - ." "No_action,Initiate_Clear_status"
bitfld.long 0x00 0. "  AUTOIDLE     ,Internal OCP clock gating strategy: - . - ." "0,1"
wgroup.long 0x40++0x3
line.long 0x00 "SYNCBOX_RXMESSAGE,Register containing the received message, from the CTL_IN interface or MSG_IN interface"
bitfld.long 0x00 15. " RECONFIG     ,Bit to allow dynamic reconfiguration ? not used" "0,1"
bitfld.long 0x00 14. "                      ACK_REQ      ,Bit set to 1 in input message if an acknowledge message must be returned." "0,1"
bitfld.long 0x00 13. "   MSG_TYPE     ,Message type 0: Acknowledge message 1: Activation message" "0,1"
textline "                                         "
bitfld.long 0x00 12. " SYNCMODE     ,Synchronous message type: 0 Synchronous 1: Asynchronous" "0,1"
bitfld.long 0x00 8.--11. "                      DESTTASKID   ,Task identifier of the destination node" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 4.--7. "  SOURCETASKID ,Task identifier of the message sender" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                         "
bitfld.long 0x00 0.--3. " SOURCENODEID ,Node identifier of the message sender" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x44++0x3
line.long 0x00 "SYNCBOX_NODEIDENTIFIER,Contains the node identifier. Initialized by default to the tie-off value."
bitfld.long 0x00 0.--3. " VALUE        ,Node identifier value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x48++0x3
line.long 0x00 "SYNCBOX_ERRORMSGDEST,Register containing the node and task identifier to send an activation message when an error is detected"
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit use to send or not the error message to a CPU based node" "0,1"
bitfld.long 0x00 4.--7. "                      TASK_ID      ,Identifier for the task in charge of recovering error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  NODE_ID      ,Identifier for the node in charge of recovering error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4C++0x3
line.long 0x00 "SYNCBOX_ERRORLOG,Contains the different errors latched during message decoding. Any write to the register resets the current value."
bitfld.long 0x00 4.--7. " TASK_ID      ,Identifier of the task (or event line) to which error is attached." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "                     ERR_CODE     ,4 bits coding the error code" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x50++0x3
line.long 0x00 "SYNCBOX_ASYNCEVENTACKREQ,Each bit in this register defines whether the corresponding asynchronous line event need an acknowledge upon task completion or directly when the line is raised."
bitfld.long 0x00 5. " ACKTASK5     ,- . - ." "0,1"
bitfld.long 0x00 4. "                      ACKTASK4     ,- . - ." "0,1"
bitfld.long 0x00 3. "   ACKTASK3     ,- . - ." "0,1"
textline "                                         "
bitfld.long 0x00 2. " ACKTASK2     ,- . - ." "0,1"
bitfld.long 0x00 1. "                      ACKTASK1     ,- . - ." "0,1"
bitfld.long 0x00 0. "   ACKTASK0     ,- . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_MOD,Modulo value for the configuration parameter pointer computed by SYNCBOX"
hexmask.long.byte 0x00 0.--7. 1. " VALUE        ,Number of macroblock configuration arrays in pipeline"
rgroup.long 0x60++0x3
line.long 0x00 "SYNCBOX_STATUS,"
bitfld.long 0x00 11. " EOTFIFO_5    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 10. "                      COREFSM_5    ,Status bit for task 5" "0,1"
bitfld.long 0x00 9. "   EOTFIFO_4    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
textline "                                         "
bitfld.long 0x00 8. " COREFSM_4    ,Status bit for task 4" "0,1"
bitfld.long 0x00 7. "                      EOTFIFO_3    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 6. "   COREFSM_3    ,Status bit for task 3" "0,1"
textline "                                         "
bitfld.long 0x00 5. " EOTFIFO_2    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 4. "                      COREFSM_2    ,Status bit for task 2" "0,1"
bitfld.long 0x00 3. "   EOTFIFO_1    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
textline "                                         "
bitfld.long 0x00 2. " COREFSM_1    ,Status bit for task 1" "0,1"
bitfld.long 0x00 1. "                      EOTFIFO_0    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 0. "   COREFSM_0    ,Status bit for task 0" "0,1"
group.long 0xC0++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "                      DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x100++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "                      DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x104++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "                      DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x108++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "                      DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "                      DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x110++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is pr..."
bitfld.long 0x00 28.--31. " TASK_ID3     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "                     TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                         "
bitfld.long 0x00 16.--19. " TASK_ID0     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "                     NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                         "
bitfld.long 0x00 4.--7. " NODE_ID1     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "                     NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x114++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG    ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "                      COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                         "
bitfld.long 0x00 5.--9. " COUNTER1     ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "                     COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rgroup.long 0x118++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE        ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x120++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_BASE_i,Base address for the node configuration parameters"
hexmask.long.word 0x00 0.--15. 1. " VALUE        ,128-bit address"
group.long 0x124++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_INC_i,Contains the parameter address increment to be added to the current parameter address pointer"
hexmask.long.word 0x00 0.--15. 1. " VALUE        ,Value of the increment"
rgroup.long 0x128++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_IF_i,Interface register containing the current value of the MB configuration parameters. This register is read by the node core."
hexmask.long.word 0x00 0.--15. 1. " VALUE        ,16-bit value containing a 128-bit pointer"
width 0x0B
tree.end
endif
tree "SYNCBOX_ILF3_L3_MAINInterconnect"
base ad:0x5A061000
width 32.
rgroup.long 0x0++0x3
line.long 0x00 "SYNCBOX_REVISION,IP revision identifier"
hexmask.long 0x00 0.--31. 1. " REVISION     ,IP revision"
group.long 0x10++0x3
line.long 0x00 "SYNCBOX_SYSCONFIG,This register allows controlling various parameters of the OCP interface."
bitfld.long 0x00 1. " CLEARSTATUS  ,Set to 1 to clear dynamic registers - . - . - . - ." "No_action,Initiate_Clear_status"
bitfld.long 0x00 0. "  AUTOIDLE     ,Internal OCP clock gating strategy: - . - ." "0,1"
wgroup.long 0x40++0x3
line.long 0x00 "SYNCBOX_RXMESSAGE,Register containing the received message, from the CTL_IN interface or MSG_IN interface"
bitfld.long 0x00 15. " RECONFIG     ,Bit to allow dynamic reconfiguration ? not used" "0,1"
bitfld.long 0x00 14. "                      ACK_REQ      ,Bit set to 1 in input message if an acknowledge message must be returned." "0,1"
bitfld.long 0x00 13. "   MSG_TYPE     ,Message type 0: Acknowledge message 1: Activation message" "0,1"
textline "                                         "
bitfld.long 0x00 12. " SYNCMODE     ,Synchronous message type: 0 Synchronous 1: Asynchronous" "0,1"
bitfld.long 0x00 8.--11. "                      DESTTASKID   ,Task identifier of the destination node" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 4.--7. "  SOURCETASKID ,Task identifier of the message sender" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                         "
bitfld.long 0x00 0.--3. " SOURCENODEID ,Node identifier of the message sender" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x44++0x3
line.long 0x00 "SYNCBOX_NODEIDENTIFIER,Contains the node identifier. Initialized by default to the tie-off value."
bitfld.long 0x00 0.--3. " VALUE        ,Node identifier value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x48++0x3
line.long 0x00 "SYNCBOX_ERRORMSGDEST,Register containing the node and task identifier to send an activation message when an error is detected"
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit use to send or not the error message to a CPU based node" "0,1"
bitfld.long 0x00 4.--7. "                      TASK_ID      ,Identifier for the task in charge of recovering error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  NODE_ID      ,Identifier for the node in charge of recovering error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4C++0x3
line.long 0x00 "SYNCBOX_ERRORLOG,Contains the different errors latched during message decoding. Any write to the register resets the current value."
bitfld.long 0x00 4.--7. " TASK_ID      ,Identifier of the task (or event line) to which error is attached." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "                     ERR_CODE     ,4 bits coding the error code" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x50++0x3
line.long 0x00 "SYNCBOX_ASYNCEVENTACKREQ,Each bit in this register defines whether the corresponding asynchronous line event need an acknowledge upon task completion or directly when the line is raised."
bitfld.long 0x00 5. " ACKTASK5     ,- . - ." "0,1"
bitfld.long 0x00 4. "                      ACKTASK4     ,- . - ." "0,1"
bitfld.long 0x00 3. "   ACKTASK3     ,- . - ." "0,1"
textline "                                         "
bitfld.long 0x00 2. " ACKTASK2     ,- . - ." "0,1"
bitfld.long 0x00 1. "                      ACKTASK1     ,- . - ." "0,1"
bitfld.long 0x00 0. "   ACKTASK0     ,- . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_MOD,Modulo value for the configuration parameter pointer computed by SYNCBOX"
hexmask.long.byte 0x00 0.--7. 1. " VALUE        ,Number of macroblock configuration arrays in pipeline"
rgroup.long 0x60++0x3
line.long 0x00 "SYNCBOX_STATUS,"
bitfld.long 0x00 11. " EOTFIFO_5    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 10. "                      COREFSM_5    ,Status bit for task 5" "0,1"
bitfld.long 0x00 9. "   EOTFIFO_4    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
textline "                                         "
bitfld.long 0x00 8. " COREFSM_4    ,Status bit for task 4" "0,1"
bitfld.long 0x00 7. "                      EOTFIFO_3    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 6. "   COREFSM_3    ,Status bit for task 3" "0,1"
textline "                                         "
bitfld.long 0x00 5. " EOTFIFO_2    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 4. "                      COREFSM_2    ,Status bit for task 2" "0,1"
bitfld.long 0x00 3. "   EOTFIFO_1    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
textline "                                         "
bitfld.long 0x00 2. " COREFSM_1    ,Status bit for task 1" "0,1"
bitfld.long 0x00 1. "                      EOTFIFO_0    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 0. "   COREFSM_0    ,Status bit for task 0" "0,1"
group.long 0xC0++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "                      DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x100++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "                      DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x104++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "                      DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x108++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "                      DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "                      DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x110++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is pr..."
bitfld.long 0x00 28.--31. " TASK_ID3     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "                     TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                         "
bitfld.long 0x00 16.--19. " TASK_ID0     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "                     NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                         "
bitfld.long 0x00 4.--7. " NODE_ID1     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "                     NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x114++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG    ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "                      COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                         "
bitfld.long 0x00 5.--9. " COUNTER1     ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "                     COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rgroup.long 0x118++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE        ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x120++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_BASE_i,Base address for the node configuration parameters"
hexmask.long.word 0x00 0.--15. 1. " VALUE        ,128-bit address"
group.long 0x124++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_INC_i,Contains the parameter address increment to be added to the current parameter address pointer"
hexmask.long.word 0x00 0.--15. 1. " VALUE        ,Value of the increment"
rgroup.long 0x128++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_IF_i,Interface register containing the current value of the MB configuration parameters. This register is read by the node core."
hexmask.long.word 0x00 0.--15. 1. " VALUE        ,16-bit value containing a 128-bit pointer"
width 0x0B
tree.end
tree "SYNCBOX_IME3_L3_MAINInterconnect"
base ad:0x5A061800
width 32.
rgroup.long 0x0++0x3
line.long 0x00 "SYNCBOX_REVISION,IP revision identifier"
hexmask.long 0x00 0.--31. 1. " REVISION     ,IP revision"
group.long 0x10++0x3
line.long 0x00 "SYNCBOX_SYSCONFIG,This register allows controlling various parameters of the OCP interface."
bitfld.long 0x00 1. " CLEARSTATUS  ,Set to 1 to clear dynamic registers - . - . - . - ." "No_action,Initiate_Clear_status"
bitfld.long 0x00 0. "  AUTOIDLE     ,Internal OCP clock gating strategy: - . - ." "0,1"
wgroup.long 0x40++0x3
line.long 0x00 "SYNCBOX_RXMESSAGE,Register containing the received message, from the CTL_IN interface or MSG_IN interface"
bitfld.long 0x00 15. " RECONFIG     ,Bit to allow dynamic reconfiguration ? not used" "0,1"
bitfld.long 0x00 14. "                      ACK_REQ      ,Bit set to 1 in input message if an acknowledge message must be returned." "0,1"
bitfld.long 0x00 13. "   MSG_TYPE     ,Message type 0: Acknowledge message 1: Activation message" "0,1"
textline "                                         "
bitfld.long 0x00 12. " SYNCMODE     ,Synchronous message type: 0 Synchronous 1: Asynchronous" "0,1"
bitfld.long 0x00 8.--11. "                      DESTTASKID   ,Task identifier of the destination node" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 4.--7. "  SOURCETASKID ,Task identifier of the message sender" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                         "
bitfld.long 0x00 0.--3. " SOURCENODEID ,Node identifier of the message sender" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x44++0x3
line.long 0x00 "SYNCBOX_NODEIDENTIFIER,Contains the node identifier. Initialized by default to the tie-off value."
bitfld.long 0x00 0.--3. " VALUE        ,Node identifier value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x48++0x3
line.long 0x00 "SYNCBOX_ERRORMSGDEST,Register containing the node and task identifier to send an activation message when an error is detected"
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit use to send or not the error message to a CPU based node" "0,1"
bitfld.long 0x00 4.--7. "                      TASK_ID      ,Identifier for the task in charge of recovering error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  NODE_ID      ,Identifier for the node in charge of recovering error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4C++0x3
line.long 0x00 "SYNCBOX_ERRORLOG,Contains the different errors latched during message decoding. Any write to the register resets the current value."
bitfld.long 0x00 4.--7. " TASK_ID      ,Identifier of the task (or event line) to which error is attached." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "                     ERR_CODE     ,4 bits coding the error code" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x50++0x3
line.long 0x00 "SYNCBOX_ASYNCEVENTACKREQ,Each bit in this register defines whether the corresponding asynchronous line event need an acknowledge upon task completion or directly when the line is raised."
bitfld.long 0x00 5. " ACKTASK5     ,- . - ." "0,1"
bitfld.long 0x00 4. "                      ACKTASK4     ,- . - ." "0,1"
bitfld.long 0x00 3. "   ACKTASK3     ,- . - ." "0,1"
textline "                                         "
bitfld.long 0x00 2. " ACKTASK2     ,- . - ." "0,1"
bitfld.long 0x00 1. "                      ACKTASK1     ,- . - ." "0,1"
bitfld.long 0x00 0. "   ACKTASK0     ,- . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_MOD,Modulo value for the configuration parameter pointer computed by SYNCBOX"
hexmask.long.byte 0x00 0.--7. 1. " VALUE        ,Number of macroblock configuration arrays in pipeline"
rgroup.long 0x60++0x3
line.long 0x00 "SYNCBOX_STATUS,"
bitfld.long 0x00 11. " EOTFIFO_5    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 10. "                      COREFSM_5    ,Status bit for task 5" "0,1"
bitfld.long 0x00 9. "   EOTFIFO_4    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
textline "                                         "
bitfld.long 0x00 8. " COREFSM_4    ,Status bit for task 4" "0,1"
bitfld.long 0x00 7. "                      EOTFIFO_3    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 6. "   COREFSM_3    ,Status bit for task 3" "0,1"
textline "                                         "
bitfld.long 0x00 5. " EOTFIFO_2    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 4. "                      COREFSM_2    ,Status bit for task 2" "0,1"
bitfld.long 0x00 3. "   EOTFIFO_1    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
textline "                                         "
bitfld.long 0x00 2. " COREFSM_1    ,Status bit for task 1" "0,1"
bitfld.long 0x00 1. "                      EOTFIFO_0    ,EndOfTask FIFO empty (0) or not empty (1)" "0,1"
bitfld.long 0x00 0. "   COREFSM_0    ,Status bit for task 0" "0,1"
group.long 0xC0++0x3
line.long 0x00 "SYNCBOX_REMOTEASYNCACTMSG_j,Contains the task and node identifier to send the activation message to, upon detection of an asynchronous event"
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "                      DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x100++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG1_i,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "                      DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x104++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG2_i,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if f set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "                      DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x108++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG3_i,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle."
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message" "0,1"
bitfld.long 0x00 4.--7. "                      DEST_TASK_ID ,Destination task identifier telling at which task in destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10C++0x3
line.long 0x00 "SYNCBOX_REMOTESYNCACTMSGREG4_i,Contains destination task identifier and destination node identifier for activation messages to be sent upon task completion. Valid bit is used to loop on all registers of the bundle"
bitfld.long 0x00 8. " VALID_BIT    ,Validity bit of current register content: If set to 0, the two fields dest_node_id and dest_task_id can be ignored; if set to 1, the two fields dest_node_id and dest_task_id are used to send activation message." "0,1"
bitfld.long 0x00 4.--7. "                      DEST_TASK_ID ,Destination task identifier telling at which task in the destination node the activation message must be sent upon task completion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "  DEST_NODE_ID ,Destination node identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x110++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONMASK_i,Applies for synchronous task description of bit fields given below. For asynchronous task, only the 16 LSBs are used. Each of the 16 LSBs corresponds to a 1 hot encoding value for the node identifier. 16 MSBs write access is pr..."
bitfld.long 0x00 28.--31. " TASK_ID3     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "                     TASK_ID2     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  TASK_ID1     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the task ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                         "
bitfld.long 0x00 16.--19. " TASK_ID0     ,For synchronous message: Each quad bit contains the task ID of a potential activator for asynchronous message. This quad bit contains the node ID to which the ack message must be sent at end of processing." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "                     NODE_ID3     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  NODE_ID2     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                         "
bitfld.long 0x00 4.--7. " NODE_ID1     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "                     NODE_ID0     ,For synchronous message: Each quad bit contains the node ID of a potential activator for asynchronous message. Bit i set to 1 means an activation message is awaited from node i." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x114++0x3
line.long 0x00 "SYNCBOX_ACTIVATIONCONTROL_i,Contains the four activation counters"
bitfld.long 0x00 20. " MATCHFLAG    ,Bit set to 1 when all activation messages received" "0,1"
bitfld.long 0x00 15.--19. "                      COUNTER3     ,Associated counter with the fourth activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--14. "  COUNTER2     ,Associated counter with the third activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                         "
bitfld.long 0x00 5.--9. " COUNTER1     ,Associated counter with the second activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "                     COUNTER0     ,Associated counter with the first activator" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rgroup.long 0x118++0x3
line.long 0x00 "SYNCBOX_NEWTASKCOUNTER_i,NewTask counter"
hexmask.long.word 0x00 0.--12. 1. " VALUE        ,Counter of the number of times the NewTask signal has been activated. This is not a macroblock counter because N MB can be processed every call."
group.long 0x120++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_BASE_i,Base address for the node configuration parameters"
hexmask.long.word 0x00 0.--15. 1. " VALUE        ,128-bit address"
group.long 0x124++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_INC_i,Contains the parameter address increment to be added to the current parameter address pointer"
hexmask.long.word 0x00 0.--15. 1. " VALUE        ,Value of the increment"
rgroup.long 0x128++0x3
line.long 0x00 "SYNCBOX_PARAMADDR_IF_i,Interface register containing the current value of the MB configuration parameters. This register is read by the node core."
hexmask.long.word 0x00 0.--15. 1. " VALUE        ,16-bit value containing a 128-bit pointer"
width 0x0B
tree.end
tree.end
tree.end
tree.open "IVA_Load_and_Store_Engine"
tree.open "CALC3_LSE_ICONT"
sif (cpuis("TDA2XIVA"))
tree "CALC3_LSE_ICONT"
base ad:0xD8300
width 11.
group.long 0x0++0x3
line.long 0x00 "LSE_CTRL,Controller"
bitfld.long 0x00 12. " INT_EOS_THRU      ,int_eos through bit 0 : LSE does the process for slice boundary after receiving int_eos. 1: int_eos is passed through to SYNCBOX_CALC3 without the process for slice boundary" "0,1"
bitfld.long 0x00 9.--11. "     OCP_ERR           ,OCP error status bit. Writing 0 is ignored. These bits remain 1 until RESET or until the host sets to 1. - . - . [11]: OCP DMA IP_CORE side. - . [10]: OCP DMA SL2 side. - . [9]: OCP CFG IP_CORE side. - ." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8. "     ADPTV_VALUE  ,Status Adaptv_add() value This signal is cleared, if Token_clr=1." "0,1"
textline "                    "
bitfld.long 0x00 7. " TOKEN_CLR         ,LSE internal signals will be initialized to understand prologue(1st MB) as below: . -token status signal -token start/end signal -DMA pointer Writing 0 is ignored. Writing 1 clears some internal signal. This is a self-clearing bit. ..." "0,1"
bitfld.long 0x00 6. "     SSM               ,Single Step Mode - . - ." "0,1"
bitfld.long 0x00 5. "     BFSW_CHG_DIS ,Disabled internal BFSW change - . - ." "0,1"
textline "                    "
bitfld.long 0x00 4. " CSB               ,Command Status Bit ? These bits remain 1 until RESET or Token_clr or until the host sets to 1. - . - ." "0,1"
bitfld.long 0x00 3. "     LD_GO             ,Execute LOAD task on Byps mode Target ParamAddr_ld_byps must be set before this bit is set. This bit is cleared after LD Task finishes. - . - ." "0,1"
bitfld.long 0x00 2. "     COMP_GO      ,Execute Comp task on Byps mode ? In the single step mode, LSE access to ParamAddr_ld_byps and execute the command for Comp task. In the normal mode, LSE executes COMP commands followed by LD commands. This bit is cleared after Comp T..." "0,1"
textline "                    "
bitfld.long 0x00 1. " ST_GO             ,Execute Store task on Byps mode Target ParamAddr_st_byps must be set before this bit is set. This bit is cleared after ST Task finishes. - . - ." "0,1"
bitfld.long 0x00 0. "     SB_BYPS           ,SyncBox Byps mode - . - ." "0,1"
group.long 0x4++0x3
line.long 0x00 "LSE_PARAM,Parameter address for SB Bypass mode"
hexmask.long.word 0x00 16.--31. 1. " PARAMADDR_LD_BYPS ,Only used in the bypass mode. Address of the first command of LD and COMP sequence (128-bit word unit). This is 128-bit word address, not byte address. The conversion from byte address to 128-bit word address should be done by CPU. ..."
hexmask.long.word 0x00 0.--15. 1. "  PARAMADDR_ST_BYPS ,Only used in the bypass mode. Address of the first command of ST sequence (128-bit word unit). This is 128-bit word address, not byte address. The conversion from byte address to 128-bit word address should be done by CPU. IfLSE_CT..."
width 0x0B
tree.end
tree "IPE3_LSE_ICONT"
base ad:0xD8B00
width 11.
group.long 0x0++0x3
line.long 0x00 "LSE_CTRL,Controller"
bitfld.long 0x00 12. " INT_EOS_THRU      ,int_eos through bit 0 : LSE does the process for slice boundary after receiving int_eos. 1: int_eos is passed through to SYNCBOX_CALC3 without the process for slice boundary" "0,1"
bitfld.long 0x00 9.--11. "     OCP_ERR           ,OCP error status bit. Writing 0 is ignored. These bits remain 1 until RESET or until the host sets to 1. - . - . [11]: OCP DMA IP_CORE side. - . [10]: OCP DMA SL2 side. - . [9]: OCP CFG IP_CORE side. - ." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8. "     ADPTV_VALUE  ,Status Adaptv_add() value This signal is cleared, if Token_clr=1." "0,1"
textline "                    "
bitfld.long 0x00 7. " TOKEN_CLR         ,LSE internal signals will be initialized to understand prologue(1st MB) as below: . -token status signal -token start/end signal -DMA pointer Writing 0 is ignored. Writing 1 clears some internal signal. This is a self-clearing bit. ..." "0,1"
bitfld.long 0x00 6. "     SSM               ,Single Step Mode - . - ." "0,1"
bitfld.long 0x00 5. "     BFSW_CHG_DIS ,Disabled internal BFSW change - . - ." "0,1"
textline "                    "
bitfld.long 0x00 4. " CSB               ,Command Status Bit ? These bits remain 1 until RESET or Token_clr or until the host sets to 1. - . - ." "0,1"
bitfld.long 0x00 3. "     LD_GO             ,Execute LOAD task on Byps mode Target ParamAddr_ld_byps must be set before this bit is set. This bit is cleared after LD Task finishes. - . - ." "0,1"
bitfld.long 0x00 2. "     COMP_GO      ,Execute Comp task on Byps mode ? In the single step mode, LSE access to ParamAddr_ld_byps and execute the command for Comp task. In the normal mode, LSE executes COMP commands followed by LD commands. This bit is cleared after Comp T..." "0,1"
textline "                    "
bitfld.long 0x00 1. " ST_GO             ,Execute Store task on Byps mode Target ParamAddr_st_byps must be set before this bit is set. This bit is cleared after ST Task finishes. - . - ." "0,1"
bitfld.long 0x00 0. "     SB_BYPS           ,SyncBox Byps mode - . - ." "0,1"
group.long 0x4++0x3
line.long 0x00 "LSE_PARAM,Parameter address for SB Bypass mode"
hexmask.long.word 0x00 16.--31. 1. " PARAMADDR_LD_BYPS ,Only used in the bypass mode. Address of the first command of LD and COMP sequence (128-bit word unit). This is 128-bit word address, not byte address. The conversion from byte address to 128-bit word address should be done by CPU. ..."
hexmask.long.word 0x00 0.--15. 1. "  PARAMADDR_ST_BYPS ,Only used in the bypass mode. Address of the first command of ST sequence (128-bit word unit). This is 128-bit word address, not byte address. The conversion from byte address to 128-bit word address should be done by CPU. IfLSE_CT..."
width 0x0B
tree.end
tree "MC3_LSE_ICONT"
base ad:0xD9300
width 11.
group.long 0x0++0x3
line.long 0x00 "LSE_CTRL,Controller"
bitfld.long 0x00 12. " INT_EOS_THRU      ,int_eos through bit 0 : LSE does the process for slice boundary after receiving int_eos. 1: int_eos is passed through to SYNCBOX_CALC3 without the process for slice boundary" "0,1"
bitfld.long 0x00 9.--11. "     OCP_ERR           ,OCP error status bit. Writing 0 is ignored. These bits remain 1 until RESET or until the host sets to 1. - . - . [11]: OCP DMA IP_CORE side. - . [10]: OCP DMA SL2 side. - . [9]: OCP CFG IP_CORE side. - ." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8. "     ADPTV_VALUE  ,Status Adaptv_add() value This signal is cleared, if Token_clr=1." "0,1"
textline "                    "
bitfld.long 0x00 7. " TOKEN_CLR         ,LSE internal signals will be initialized to understand prologue(1st MB) as below: . -token status signal -token start/end signal -DMA pointer Writing 0 is ignored. Writing 1 clears some internal signal. This is a self-clearing bit. ..." "0,1"
bitfld.long 0x00 6. "     SSM               ,Single Step Mode - . - ." "0,1"
bitfld.long 0x00 5. "     BFSW_CHG_DIS ,Disabled internal BFSW change - . - ." "0,1"
textline "                    "
bitfld.long 0x00 4. " CSB               ,Command Status Bit ? These bits remain 1 until RESET or Token_clr or until the host sets to 1. - . - ." "0,1"
bitfld.long 0x00 3. "     LD_GO             ,Execute LOAD task on Byps mode Target ParamAddr_ld_byps must be set before this bit is set. This bit is cleared after LD Task finishes. - . - ." "0,1"
bitfld.long 0x00 2. "     COMP_GO      ,Execute Comp task on Byps mode ? In the single step mode, LSE access to ParamAddr_ld_byps and execute the command for Comp task. In the normal mode, LSE executes COMP commands followed by LD commands. This bit is cleared after Comp T..." "0,1"
textline "                    "
bitfld.long 0x00 1. " ST_GO             ,Execute Store task on Byps mode Target ParamAddr_st_byps must be set before this bit is set. This bit is cleared after ST Task finishes. - . - ." "0,1"
bitfld.long 0x00 0. "     SB_BYPS           ,SyncBox Byps mode - . - ." "0,1"
group.long 0x4++0x3
line.long 0x00 "LSE_PARAM,Parameter address for SB Bypass mode"
hexmask.long.word 0x00 16.--31. 1. " PARAMADDR_LD_BYPS ,Only used in the bypass mode. Address of the first command of LD and COMP sequence (128-bit word unit). This is 128-bit word address, not byte address. The conversion from byte address to 128-bit word address should be done by CPU. ..."
hexmask.long.word 0x00 0.--15. 1. "  PARAMADDR_ST_BYPS ,Only used in the bypass mode. Address of the first command of ST sequence (128-bit word unit). This is 128-bit word address, not byte address. The conversion from byte address to 128-bit word address should be done by CPU. IfLSE_CT..."
width 0x0B
tree.end
tree "ECD3_LSE_ICONT"
base ad:0xD9B00
width 11.
group.long 0x0++0x3
line.long 0x00 "LSE_CTRL,Controller"
bitfld.long 0x00 12. " INT_EOS_THRU      ,int_eos through bit 0 : LSE does the process for slice boundary after receiving int_eos. 1: int_eos is passed through to SYNCBOX_CALC3 without the process for slice boundary" "0,1"
bitfld.long 0x00 9.--11. "     OCP_ERR           ,OCP error status bit. Writing 0 is ignored. These bits remain 1 until RESET or until the host sets to 1. - . - . [11]: OCP DMA IP_CORE side. - . [10]: OCP DMA SL2 side. - . [9]: OCP CFG IP_CORE side. - ." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8. "     ADPTV_VALUE  ,Status Adaptv_add() value This signal is cleared, if Token_clr=1." "0,1"
textline "                    "
bitfld.long 0x00 7. " TOKEN_CLR         ,LSE internal signals will be initialized to understand prologue(1st MB) as below: . -token status signal -token start/end signal -DMA pointer Writing 0 is ignored. Writing 1 clears some internal signal. This is a self-clearing bit. ..." "0,1"
bitfld.long 0x00 6. "     SSM               ,Single Step Mode - . - ." "0,1"
bitfld.long 0x00 5. "     BFSW_CHG_DIS ,Disabled internal BFSW change - . - ." "0,1"
textline "                    "
bitfld.long 0x00 4. " CSB               ,Command Status Bit ? These bits remain 1 until RESET or Token_clr or until the host sets to 1. - . - ." "0,1"
bitfld.long 0x00 3. "     LD_GO             ,Execute LOAD task on Byps mode Target ParamAddr_ld_byps must be set before this bit is set. This bit is cleared after LD Task finishes. - . - ." "0,1"
bitfld.long 0x00 2. "     COMP_GO      ,Execute Comp task on Byps mode ? In the single step mode, LSE access to ParamAddr_ld_byps and execute the command for Comp task. In the normal mode, LSE executes COMP commands followed by LD commands. This bit is cleared after Comp T..." "0,1"
textline "                    "
bitfld.long 0x00 1. " ST_GO             ,Execute Store task on Byps mode Target ParamAddr_st_byps must be set before this bit is set. This bit is cleared after ST Task finishes. - . - ." "0,1"
bitfld.long 0x00 0. "     SB_BYPS           ,SyncBox Byps mode - . - ." "0,1"
group.long 0x4++0x3
line.long 0x00 "LSE_PARAM,Parameter address for SB Bypass mode"
hexmask.long.word 0x00 16.--31. 1. " PARAMADDR_LD_BYPS ,Only used in the bypass mode. Address of the first command of LD and COMP sequence (128-bit word unit). This is 128-bit word address, not byte address. The conversion from byte address to 128-bit word address should be done by CPU. ..."
hexmask.long.word 0x00 0.--15. 1. "  PARAMADDR_ST_BYPS ,Only used in the bypass mode. Address of the first command of ST sequence (128-bit word unit). This is 128-bit word address, not byte address. The conversion from byte address to 128-bit word address should be done by CPU. IfLSE_CT..."
width 0x0B
tree.end
endif
tree "CALC3_LSE_L3_MAINInterconnect"
base ad:0x5A058300
width 11.
group.long 0x0++0x3
line.long 0x00 "LSE_CTRL,Controller"
bitfld.long 0x00 12. " INT_EOS_THRU      ,int_eos through bit 0 : LSE does the process for slice boundary after receiving int_eos. 1: int_eos is passed through to SYNCBOX_CALC3 without the process for slice boundary" "0,1"
bitfld.long 0x00 9.--11. "     OCP_ERR           ,OCP error status bit. Writing 0 is ignored. These bits remain 1 until RESET or until the host sets to 1. - . - . [11]: OCP DMA IP_CORE side. - . [10]: OCP DMA SL2 side. - . [9]: OCP CFG IP_CORE side. - ." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8. "     ADPTV_VALUE  ,Status Adaptv_add() value This signal is cleared, if Token_clr=1." "0,1"
textline "                    "
bitfld.long 0x00 7. " TOKEN_CLR         ,LSE internal signals will be initialized to understand prologue(1st MB) as below: . -token status signal -token start/end signal -DMA pointer Writing 0 is ignored. Writing 1 clears some internal signal. This is a self-clearing bit. ..." "0,1"
bitfld.long 0x00 6. "     SSM               ,Single Step Mode - . - ." "0,1"
bitfld.long 0x00 5. "     BFSW_CHG_DIS ,Disabled internal BFSW change - . - ." "0,1"
textline "                    "
bitfld.long 0x00 4. " CSB               ,Command Status Bit ? These bits remain 1 until RESET or Token_clr or until the host sets to 1. - . - ." "0,1"
bitfld.long 0x00 3. "     LD_GO             ,Execute LOAD task on Byps mode Target ParamAddr_ld_byps must be set before this bit is set. This bit is cleared after LD Task finishes. - . - ." "0,1"
bitfld.long 0x00 2. "     COMP_GO      ,Execute Comp task on Byps mode ? In the single step mode, LSE access to ParamAddr_ld_byps and execute the command for Comp task. In the normal mode, LSE executes COMP commands followed by LD commands. This bit is cleared after Comp T..." "0,1"
textline "                    "
bitfld.long 0x00 1. " ST_GO             ,Execute Store task on Byps mode Target ParamAddr_st_byps must be set before this bit is set. This bit is cleared after ST Task finishes. - . - ." "0,1"
bitfld.long 0x00 0. "     SB_BYPS           ,SyncBox Byps mode - . - ." "0,1"
group.long 0x4++0x3
line.long 0x00 "LSE_PARAM,Parameter address for SB Bypass mode"
hexmask.long.word 0x00 16.--31. 1. " PARAMADDR_LD_BYPS ,Only used in the bypass mode. Address of the first command of LD and COMP sequence (128-bit word unit). This is 128-bit word address, not byte address. The conversion from byte address to 128-bit word address should be done by CPU. ..."
hexmask.long.word 0x00 0.--15. 1. "  PARAMADDR_ST_BYPS ,Only used in the bypass mode. Address of the first command of ST sequence (128-bit word unit). This is 128-bit word address, not byte address. The conversion from byte address to 128-bit word address should be done by CPU. IfLSE_CT..."
width 0x0B
tree.end
tree "IPE3_LSE_L3_MAINInterconnect"
base ad:0x5A058B00
width 11.
group.long 0x0++0x3
line.long 0x00 "LSE_CTRL,Controller"
bitfld.long 0x00 12. " INT_EOS_THRU      ,int_eos through bit 0 : LSE does the process for slice boundary after receiving int_eos. 1: int_eos is passed through to SYNCBOX_CALC3 without the process for slice boundary" "0,1"
bitfld.long 0x00 9.--11. "     OCP_ERR           ,OCP error status bit. Writing 0 is ignored. These bits remain 1 until RESET or until the host sets to 1. - . - . [11]: OCP DMA IP_CORE side. - . [10]: OCP DMA SL2 side. - . [9]: OCP CFG IP_CORE side. - ." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8. "     ADPTV_VALUE  ,Status Adaptv_add() value This signal is cleared, if Token_clr=1." "0,1"
textline "                    "
bitfld.long 0x00 7. " TOKEN_CLR         ,LSE internal signals will be initialized to understand prologue(1st MB) as below: . -token status signal -token start/end signal -DMA pointer Writing 0 is ignored. Writing 1 clears some internal signal. This is a self-clearing bit. ..." "0,1"
bitfld.long 0x00 6. "     SSM               ,Single Step Mode - . - ." "0,1"
bitfld.long 0x00 5. "     BFSW_CHG_DIS ,Disabled internal BFSW change - . - ." "0,1"
textline "                    "
bitfld.long 0x00 4. " CSB               ,Command Status Bit ? These bits remain 1 until RESET or Token_clr or until the host sets to 1. - . - ." "0,1"
bitfld.long 0x00 3. "     LD_GO             ,Execute LOAD task on Byps mode Target ParamAddr_ld_byps must be set before this bit is set. This bit is cleared after LD Task finishes. - . - ." "0,1"
bitfld.long 0x00 2. "     COMP_GO      ,Execute Comp task on Byps mode ? In the single step mode, LSE access to ParamAddr_ld_byps and execute the command for Comp task. In the normal mode, LSE executes COMP commands followed by LD commands. This bit is cleared after Comp T..." "0,1"
textline "                    "
bitfld.long 0x00 1. " ST_GO             ,Execute Store task on Byps mode Target ParamAddr_st_byps must be set before this bit is set. This bit is cleared after ST Task finishes. - . - ." "0,1"
bitfld.long 0x00 0. "     SB_BYPS           ,SyncBox Byps mode - . - ." "0,1"
group.long 0x4++0x3
line.long 0x00 "LSE_PARAM,Parameter address for SB Bypass mode"
hexmask.long.word 0x00 16.--31. 1. " PARAMADDR_LD_BYPS ,Only used in the bypass mode. Address of the first command of LD and COMP sequence (128-bit word unit). This is 128-bit word address, not byte address. The conversion from byte address to 128-bit word address should be done by CPU. ..."
hexmask.long.word 0x00 0.--15. 1. "  PARAMADDR_ST_BYPS ,Only used in the bypass mode. Address of the first command of ST sequence (128-bit word unit). This is 128-bit word address, not byte address. The conversion from byte address to 128-bit word address should be done by CPU. IfLSE_CT..."
width 0x0B
tree.end
tree "MC3_LSE_L3_MAINInterconnect"
base ad:0x5A059300
width 11.
group.long 0x0++0x3
line.long 0x00 "LSE_CTRL,Controller"
bitfld.long 0x00 12. " INT_EOS_THRU      ,int_eos through bit 0 : LSE does the process for slice boundary after receiving int_eos. 1: int_eos is passed through to SYNCBOX_CALC3 without the process for slice boundary" "0,1"
bitfld.long 0x00 9.--11. "     OCP_ERR           ,OCP error status bit. Writing 0 is ignored. These bits remain 1 until RESET or until the host sets to 1. - . - . [11]: OCP DMA IP_CORE side. - . [10]: OCP DMA SL2 side. - . [9]: OCP CFG IP_CORE side. - ." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8. "     ADPTV_VALUE  ,Status Adaptv_add() value This signal is cleared, if Token_clr=1." "0,1"
textline "                    "
bitfld.long 0x00 7. " TOKEN_CLR         ,LSE internal signals will be initialized to understand prologue(1st MB) as below: . -token status signal -token start/end signal -DMA pointer Writing 0 is ignored. Writing 1 clears some internal signal. This is a self-clearing bit. ..." "0,1"
bitfld.long 0x00 6. "     SSM               ,Single Step Mode - . - ." "0,1"
bitfld.long 0x00 5. "     BFSW_CHG_DIS ,Disabled internal BFSW change - . - ." "0,1"
textline "                    "
bitfld.long 0x00 4. " CSB               ,Command Status Bit ? These bits remain 1 until RESET or Token_clr or until the host sets to 1. - . - ." "0,1"
bitfld.long 0x00 3. "     LD_GO             ,Execute LOAD task on Byps mode Target ParamAddr_ld_byps must be set before this bit is set. This bit is cleared after LD Task finishes. - . - ." "0,1"
bitfld.long 0x00 2. "     COMP_GO      ,Execute Comp task on Byps mode ? In the single step mode, LSE access to ParamAddr_ld_byps and execute the command for Comp task. In the normal mode, LSE executes COMP commands followed by LD commands. This bit is cleared after Comp T..." "0,1"
textline "                    "
bitfld.long 0x00 1. " ST_GO             ,Execute Store task on Byps mode Target ParamAddr_st_byps must be set before this bit is set. This bit is cleared after ST Task finishes. - . - ." "0,1"
bitfld.long 0x00 0. "     SB_BYPS           ,SyncBox Byps mode - . - ." "0,1"
group.long 0x4++0x3
line.long 0x00 "LSE_PARAM,Parameter address for SB Bypass mode"
hexmask.long.word 0x00 16.--31. 1. " PARAMADDR_LD_BYPS ,Only used in the bypass mode. Address of the first command of LD and COMP sequence (128-bit word unit). This is 128-bit word address, not byte address. The conversion from byte address to 128-bit word address should be done by CPU. ..."
hexmask.long.word 0x00 0.--15. 1. "  PARAMADDR_ST_BYPS ,Only used in the bypass mode. Address of the first command of ST sequence (128-bit word unit). This is 128-bit word address, not byte address. The conversion from byte address to 128-bit word address should be done by CPU. IfLSE_CT..."
width 0x0B
tree.end
tree "ECD3_LSE_L3_MAINInterconnect"
base ad:0x5A059B00
width 11.
group.long 0x0++0x3
line.long 0x00 "LSE_CTRL,Controller"
bitfld.long 0x00 12. " INT_EOS_THRU      ,int_eos through bit 0 : LSE does the process for slice boundary after receiving int_eos. 1: int_eos is passed through to SYNCBOX_CALC3 without the process for slice boundary" "0,1"
bitfld.long 0x00 9.--11. "     OCP_ERR           ,OCP error status bit. Writing 0 is ignored. These bits remain 1 until RESET or until the host sets to 1. - . - . [11]: OCP DMA IP_CORE side. - . [10]: OCP DMA SL2 side. - . [9]: OCP CFG IP_CORE side. - ." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8. "     ADPTV_VALUE  ,Status Adaptv_add() value This signal is cleared, if Token_clr=1." "0,1"
textline "                    "
bitfld.long 0x00 7. " TOKEN_CLR         ,LSE internal signals will be initialized to understand prologue(1st MB) as below: . -token status signal -token start/end signal -DMA pointer Writing 0 is ignored. Writing 1 clears some internal signal. This is a self-clearing bit. ..." "0,1"
bitfld.long 0x00 6. "     SSM               ,Single Step Mode - . - ." "0,1"
bitfld.long 0x00 5. "     BFSW_CHG_DIS ,Disabled internal BFSW change - . - ." "0,1"
textline "                    "
bitfld.long 0x00 4. " CSB               ,Command Status Bit ? These bits remain 1 until RESET or Token_clr or until the host sets to 1. - . - ." "0,1"
bitfld.long 0x00 3. "     LD_GO             ,Execute LOAD task on Byps mode Target ParamAddr_ld_byps must be set before this bit is set. This bit is cleared after LD Task finishes. - . - ." "0,1"
bitfld.long 0x00 2. "     COMP_GO      ,Execute Comp task on Byps mode ? In the single step mode, LSE access to ParamAddr_ld_byps and execute the command for Comp task. In the normal mode, LSE executes COMP commands followed by LD commands. This bit is cleared after Comp T..." "0,1"
textline "                    "
bitfld.long 0x00 1. " ST_GO             ,Execute Store task on Byps mode Target ParamAddr_st_byps must be set before this bit is set. This bit is cleared after ST Task finishes. - . - ." "0,1"
bitfld.long 0x00 0. "     SB_BYPS           ,SyncBox Byps mode - . - ." "0,1"
group.long 0x4++0x3
line.long 0x00 "LSE_PARAM,Parameter address for SB Bypass mode"
hexmask.long.word 0x00 16.--31. 1. " PARAMADDR_LD_BYPS ,Only used in the bypass mode. Address of the first command of LD and COMP sequence (128-bit word unit). This is 128-bit word address, not byte address. The conversion from byte address to 128-bit word address should be done by CPU. ..."
hexmask.long.word 0x00 0.--15. 1. "  PARAMADDR_ST_BYPS ,Only used in the bypass mode. Address of the first command of ST sequence (128-bit word unit). This is 128-bit word address, not byte address. The conversion from byte address to 128-bit word address should be done by CPU. IfLSE_CT..."
width 0x0B
tree.end
tree.end
tree.end
tree.open "IVA_Motion_Estimation"
tree.open "IME3_ICONT"
sif (cpuis("TDA2XIVA"))
tree "IME3_ICONT"
base ad:0xD4000
tree "Channel_0"
width 35.
group.long 0x300++0x3
line.long 0x00 "IME3_BMTABLELSB0_j_0,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 30.--31. " L0_L1_BI            ,-" "0,1,2,3"
hexmask.long.word 0x00 16.--29. 1. "         DY                         ,dy coordinate field"
bitfld.long 0x00 14.--15. "  FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
textline "                                            "
hexmask.long.word 0x00 0.--13. 1. " DX                  ,dx coordinate field"
group.long 0x380++0x3
line.long 0x00 "IME3_BMTABLELSB1_j_0,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELBOTOM   ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x304++0x3
line.long 0x00 "IME3_BMTABLEMSB0_j_0,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x384++0x3
line.long 0x00 "IME3_BMTABLEMSB1_j_0,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x100++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_0,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x200++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_0,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x204++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_0,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0x40++0x3
line.long 0x00 "IME3_INTERPOL_PARAMETER_STACK_k_0,Interpolation Filter Pass Configuration"
bitfld.long 0x00 26.--31. " COEFF0              ,Coefficient vector" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 20.--25. "        COEFF1                     ,Coefficient vector" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 14.--19. "    COEFF2                     ,Coefficient vector" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                            "
bitfld.long 0x00 11.--13. " ROUND_EXPONENT      ,Rounding value - shift part" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 5.--10. "         ROUND_MANTISSA             ,Rounding value - data part" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--4. "    SHIFT                      ,Shift value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x80++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_0,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2000++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_0,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_1"
width 35.
group.long 0x308++0x3
line.long 0x00 "IME3_BMTABLELSB0_j_1,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 30.--31. " L0_L1_BI            ,-" "0,1,2,3"
hexmask.long.word 0x00 16.--29. 1. "         DY                         ,dy coordinate field"
bitfld.long 0x00 14.--15. "  FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
textline "                                            "
hexmask.long.word 0x00 0.--13. 1. " DX                  ,dx coordinate field"
group.long 0x388++0x3
line.long 0x00 "IME3_BMTABLELSB1_j_1,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELBOTOM   ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x30C++0x3
line.long 0x00 "IME3_BMTABLEMSB0_j_1,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x38C++0x3
line.long 0x00 "IME3_BMTABLEMSB1_j_1,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x104++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_1,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x208++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_1,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x20C++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_1,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0x44++0x3
line.long 0x00 "IME3_INTERPOL_PARAMETER_STACK_k_1,Interpolation Filter Pass Configuration"
bitfld.long 0x00 26.--31. " COEFF0              ,Coefficient vector" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 20.--25. "        COEFF1                     ,Coefficient vector" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 14.--19. "    COEFF2                     ,Coefficient vector" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                            "
bitfld.long 0x00 11.--13. " ROUND_EXPONENT      ,Rounding value - shift part" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 5.--10. "         ROUND_MANTISSA             ,Rounding value - data part" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--4. "    SHIFT                      ,Shift value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x84++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_1,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2004++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_2"
width 35.
group.long 0x310++0x3
line.long 0x00 "IME3_BMTABLELSB0_j_2,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 30.--31. " L0_L1_BI            ,-" "0,1,2,3"
hexmask.long.word 0x00 16.--29. 1. "         DY                         ,dy coordinate field"
bitfld.long 0x00 14.--15. "  FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
textline "                                            "
hexmask.long.word 0x00 0.--13. 1. " DX                  ,dx coordinate field"
group.long 0x390++0x3
line.long 0x00 "IME3_BMTABLELSB1_j_2,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELBOTOM   ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x314++0x3
line.long 0x00 "IME3_BMTABLEMSB0_j_2,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x394++0x3
line.long 0x00 "IME3_BMTABLEMSB1_j_2,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x108++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_2,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x210++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_2,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x214++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_2,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0x48++0x3
line.long 0x00 "IME3_INTERPOL_PARAMETER_STACK_k_2,Interpolation Filter Pass Configuration"
bitfld.long 0x00 26.--31. " COEFF0              ,Coefficient vector" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 20.--25. "        COEFF1                     ,Coefficient vector" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 14.--19. "    COEFF2                     ,Coefficient vector" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                            "
bitfld.long 0x00 11.--13. " ROUND_EXPONENT      ,Rounding value - shift part" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 5.--10. "         ROUND_MANTISSA             ,Rounding value - data part" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--4. "    SHIFT                      ,Shift value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x88++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_2,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2008++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_3"
width 35.
group.long 0x318++0x3
line.long 0x00 "IME3_BMTABLELSB0_j_3,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 30.--31. " L0_L1_BI            ,-" "0,1,2,3"
hexmask.long.word 0x00 16.--29. 1. "         DY                         ,dy coordinate field"
bitfld.long 0x00 14.--15. "  FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
textline "                                            "
hexmask.long.word 0x00 0.--13. 1. " DX                  ,dx coordinate field"
group.long 0x398++0x3
line.long 0x00 "IME3_BMTABLELSB1_j_3,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELBOTOM   ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x31C++0x3
line.long 0x00 "IME3_BMTABLEMSB0_j_3,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x39C++0x3
line.long 0x00 "IME3_BMTABLEMSB1_j_3,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x10C++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_3,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x218++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_3,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x21C++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_3,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0x4C++0x3
line.long 0x00 "IME3_INTERPOL_PARAMETER_STACK_k_3,Interpolation Filter Pass Configuration"
bitfld.long 0x00 26.--31. " COEFF0              ,Coefficient vector" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 20.--25. "        COEFF1                     ,Coefficient vector" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 14.--19. "    COEFF2                     ,Coefficient vector" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                            "
bitfld.long 0x00 11.--13. " ROUND_EXPONENT      ,Rounding value - shift part" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 5.--10. "         ROUND_MANTISSA             ,Rounding value - data part" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--4. "    SHIFT                      ,Shift value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x8C++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_3,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x200C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_3,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_4"
width 25.
group.long 0x320++0x3
line.long 0x00 "IME3_BMTABLELSB0_j_4,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 30.--31. " L0_L1_BI            ,-" "0,1,2,3"
hexmask.long.word 0x00 16.--29. 1. "         DY                         ,dy coordinate field"
bitfld.long 0x00 14.--15. "  FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
textline "                                  "
hexmask.long.word 0x00 0.--13. 1. " DX                  ,dx coordinate field"
group.long 0x3A0++0x3
line.long 0x00 "IME3_BMTABLELSB1_j_4,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELBOTOM   ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x324++0x3
line.long 0x00 "IME3_BMTABLEMSB0_j_4,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x3A4++0x3
line.long 0x00 "IME3_BMTABLEMSB1_j_4,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x110++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_4,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x220++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_4,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x224++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_4,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0x90++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_4,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2010++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_4,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_5"
width 25.
group.long 0x328++0x3
line.long 0x00 "IME3_BMTABLELSB0_j_5,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 30.--31. " L0_L1_BI            ,-" "0,1,2,3"
hexmask.long.word 0x00 16.--29. 1. "         DY                         ,dy coordinate field"
bitfld.long 0x00 14.--15. "  FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
textline "                                  "
hexmask.long.word 0x00 0.--13. 1. " DX                  ,dx coordinate field"
group.long 0x3A8++0x3
line.long 0x00 "IME3_BMTABLELSB1_j_5,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELBOTOM   ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x32C++0x3
line.long 0x00 "IME3_BMTABLEMSB0_j_5,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x3AC++0x3
line.long 0x00 "IME3_BMTABLEMSB1_j_5,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x114++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_5,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x228++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_5,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x22C++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_5,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0x94++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_5,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2014++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_5,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_6"
width 25.
group.long 0x330++0x3
line.long 0x00 "IME3_BMTABLELSB0_j_6,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 30.--31. " L0_L1_BI            ,-" "0,1,2,3"
hexmask.long.word 0x00 16.--29. 1. "         DY                         ,dy coordinate field"
bitfld.long 0x00 14.--15. "  FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
textline "                                  "
hexmask.long.word 0x00 0.--13. 1. " DX                  ,dx coordinate field"
group.long 0x3B0++0x3
line.long 0x00 "IME3_BMTABLELSB1_j_6,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELBOTOM   ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x334++0x3
line.long 0x00 "IME3_BMTABLEMSB0_j_6,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x3B4++0x3
line.long 0x00 "IME3_BMTABLEMSB1_j_6,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x118++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_6,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x230++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_6,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x234++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_6,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0x98++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_6,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2018++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_6,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_7"
width 25.
group.long 0x338++0x3
line.long 0x00 "IME3_BMTABLELSB0_j_7,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 30.--31. " L0_L1_BI            ,-" "0,1,2,3"
hexmask.long.word 0x00 16.--29. 1. "         DY                         ,dy coordinate field"
bitfld.long 0x00 14.--15. "  FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
textline "                                  "
hexmask.long.word 0x00 0.--13. 1. " DX                  ,dx coordinate field"
group.long 0x3B8++0x3
line.long 0x00 "IME3_BMTABLELSB1_j_7,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELBOTOM   ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x33C++0x3
line.long 0x00 "IME3_BMTABLEMSB0_j_7,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x3BC++0x3
line.long 0x00 "IME3_BMTABLEMSB1_j_7,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x11C++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_7,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x238++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_7,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x23C++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_7,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0x9C++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_7,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x201C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_7,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_8"
width 25.
group.long 0x340++0x3
line.long 0x00 "IME3_BMTABLELSB0_j_8,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 30.--31. " L0_L1_BI            ,-" "0,1,2,3"
hexmask.long.word 0x00 16.--29. 1. "         DY                         ,dy coordinate field"
bitfld.long 0x00 14.--15. "  FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
textline "                                  "
hexmask.long.word 0x00 0.--13. 1. " DX                  ,dx coordinate field"
group.long 0x3C0++0x3
line.long 0x00 "IME3_BMTABLELSB1_j_8,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELBOTOM   ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x344++0x3
line.long 0x00 "IME3_BMTABLEMSB0_j_8,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x3C4++0x3
line.long 0x00 "IME3_BMTABLEMSB1_j_8,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x120++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_8,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x240++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_8,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x244++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_8,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xA0++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_8,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2020++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_8,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_9"
width 25.
group.long 0x348++0x3
line.long 0x00 "IME3_BMTABLELSB0_j_9,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 30.--31. " L0_L1_BI            ,-" "0,1,2,3"
hexmask.long.word 0x00 16.--29. 1. "         DY                         ,dy coordinate field"
bitfld.long 0x00 14.--15. "  FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
textline "                                  "
hexmask.long.word 0x00 0.--13. 1. " DX                  ,dx coordinate field"
group.long 0x3C8++0x3
line.long 0x00 "IME3_BMTABLELSB1_j_9,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELBOTOM   ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x34C++0x3
line.long 0x00 "IME3_BMTABLEMSB0_j_9,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x3CC++0x3
line.long 0x00 "IME3_BMTABLEMSB1_j_9,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x124++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_9,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x248++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_9,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x24C++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_9,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xA4++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_9,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2024++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_9,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_10"
width 26.
group.long 0x350++0x3
line.long 0x00 "IME3_BMTABLELSB0_j_10,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 30.--31. " L0_L1_BI            ,-" "0,1,2,3"
hexmask.long.word 0x00 16.--29. 1. "         DY                         ,dy coordinate field"
bitfld.long 0x00 14.--15. "  FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
textline "                                   "
hexmask.long.word 0x00 0.--13. 1. " DX                  ,dx coordinate field"
group.long 0x3D0++0x3
line.long 0x00 "IME3_BMTABLELSB1_j_10,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELBOTOM   ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x354++0x3
line.long 0x00 "IME3_BMTABLEMSB0_j_10,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x3D4++0x3
line.long 0x00 "IME3_BMTABLEMSB1_j_10,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x128++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_10,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x250++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_10,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x254++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_10,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xA8++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_10,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2028++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_10,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_11"
width 26.
group.long 0x358++0x3
line.long 0x00 "IME3_BMTABLELSB0_j_11,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 30.--31. " L0_L1_BI            ,-" "0,1,2,3"
hexmask.long.word 0x00 16.--29. 1. "         DY                         ,dy coordinate field"
bitfld.long 0x00 14.--15. "  FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
textline "                                   "
hexmask.long.word 0x00 0.--13. 1. " DX                  ,dx coordinate field"
group.long 0x3D8++0x3
line.long 0x00 "IME3_BMTABLELSB1_j_11,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELBOTOM   ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x35C++0x3
line.long 0x00 "IME3_BMTABLEMSB0_j_11,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x3DC++0x3
line.long 0x00 "IME3_BMTABLEMSB1_j_11,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x12C++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_11,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x258++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_11,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x25C++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_11,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xAC++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_11,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x202C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_11,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_12"
width 26.
group.long 0x360++0x3
line.long 0x00 "IME3_BMTABLELSB0_j_12,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 30.--31. " L0_L1_BI            ,-" "0,1,2,3"
hexmask.long.word 0x00 16.--29. 1. "         DY                         ,dy coordinate field"
bitfld.long 0x00 14.--15. "  FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
textline "                                   "
hexmask.long.word 0x00 0.--13. 1. " DX                  ,dx coordinate field"
group.long 0x3E0++0x3
line.long 0x00 "IME3_BMTABLELSB1_j_12,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELBOTOM   ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x364++0x3
line.long 0x00 "IME3_BMTABLEMSB0_j_12,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x3E4++0x3
line.long 0x00 "IME3_BMTABLEMSB1_j_12,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x130++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_12,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x260++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_12,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x264++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_12,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xB0++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_12,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2030++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_12,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_13"
width 26.
group.long 0x368++0x3
line.long 0x00 "IME3_BMTABLELSB0_j_13,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 30.--31. " L0_L1_BI            ,-" "0,1,2,3"
hexmask.long.word 0x00 16.--29. 1. "         DY                         ,dy coordinate field"
bitfld.long 0x00 14.--15. "  FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
textline "                                   "
hexmask.long.word 0x00 0.--13. 1. " DX                  ,dx coordinate field"
group.long 0x3E8++0x3
line.long 0x00 "IME3_BMTABLELSB1_j_13,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELBOTOM   ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x36C++0x3
line.long 0x00 "IME3_BMTABLEMSB0_j_13,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x3EC++0x3
line.long 0x00 "IME3_BMTABLEMSB1_j_13,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x134++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_13,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x268++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_13,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x26C++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_13,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xB4++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_13,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2034++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_13,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_14"
width 26.
group.long 0x370++0x3
line.long 0x00 "IME3_BMTABLELSB0_j_14,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 30.--31. " L0_L1_BI            ,-" "0,1,2,3"
hexmask.long.word 0x00 16.--29. 1. "         DY                         ,dy coordinate field"
bitfld.long 0x00 14.--15. "  FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
textline "                                   "
hexmask.long.word 0x00 0.--13. 1. " DX                  ,dx coordinate field"
group.long 0x3F0++0x3
line.long 0x00 "IME3_BMTABLELSB1_j_14,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELBOTOM   ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x374++0x3
line.long 0x00 "IME3_BMTABLEMSB0_j_14,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x3F4++0x3
line.long 0x00 "IME3_BMTABLEMSB1_j_14,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x138++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_14,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x270++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_14,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x274++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_14,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xB8++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_14,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2038++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_14,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_15"
width 26.
group.long 0x378++0x3
line.long 0x00 "IME3_BMTABLELSB0_j_15,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 30.--31. " L0_L1_BI            ,-" "0,1,2,3"
hexmask.long.word 0x00 16.--29. 1. "         DY                         ,dy coordinate field"
bitfld.long 0x00 14.--15. "  FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
textline "                                   "
hexmask.long.word 0x00 0.--13. 1. " DX                  ,dx coordinate field"
group.long 0x3F8++0x3
line.long 0x00 "IME3_BMTABLELSB1_j_15,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELBOTOM   ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x37C++0x3
line.long 0x00 "IME3_BMTABLEMSB0_j_15,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x3FC++0x3
line.long 0x00 "IME3_BMTABLEMSB1_j_15,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x13C++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_15,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x278++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_15,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x27C++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_15,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xBC++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_15,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x203C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_15,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_16"
width 26.
group.long 0x140++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_16,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x280++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_16,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX ,dx coordinate field"
group.long 0x284++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_16,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xC0++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_16,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2040++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_16,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_17"
width 26.
group.long 0x144++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_17,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x288++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_17,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX ,dx coordinate field"
group.long 0x28C++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_17,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xC4++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_17,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2044++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_17,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_18"
width 26.
group.long 0x148++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_18,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x290++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_18,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX ,dx coordinate field"
group.long 0x294++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_18,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xC8++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_18,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2048++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_18,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_19"
width 26.
group.long 0x14C++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_19,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x298++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_19,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX ,dx coordinate field"
group.long 0x29C++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_19,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xCC++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_19,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x204C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_19,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_20"
width 26.
group.long 0x150++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_20,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2A0++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_20,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX ,dx coordinate field"
group.long 0x2A4++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_20,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xD0++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_20,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2050++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_20,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_21"
width 26.
group.long 0x154++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_21,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2A8++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_21,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX ,dx coordinate field"
group.long 0x2AC++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_21,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xD4++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_21,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2054++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_21,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_22"
width 26.
group.long 0x158++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_22,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2B0++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_22,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX ,dx coordinate field"
group.long 0x2B4++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_22,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xD8++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_22,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2058++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_22,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_23"
width 26.
group.long 0x15C++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_23,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2B8++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_23,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX ,dx coordinate field"
group.long 0x2BC++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_23,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xDC++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_23,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x205C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_23,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_24"
width 26.
group.long 0x160++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_24,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2C0++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_24,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX ,dx coordinate field"
group.long 0x2C4++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_24,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xE0++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_24,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2060++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_24,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_25"
width 26.
group.long 0x164++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_25,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2C8++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_25,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX ,dx coordinate field"
group.long 0x2CC++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_25,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xE4++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_25,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2064++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_25,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_26"
width 26.
group.long 0x168++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_26,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2D0++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_26,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX ,dx coordinate field"
group.long 0x2D4++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_26,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xE8++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_26,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2068++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_26,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_27"
width 26.
group.long 0x16C++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_27,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2D8++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_27,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX ,dx coordinate field"
group.long 0x2DC++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_27,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xEC++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_27,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x206C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_27,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_28"
width 26.
group.long 0x170++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_28,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2E0++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_28,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX ,dx coordinate field"
group.long 0x2E4++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_28,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xF0++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_28,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2070++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_28,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_29"
width 26.
group.long 0x174++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_29,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2E8++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_29,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX ,dx coordinate field"
group.long 0x2EC++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_29,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xF4++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_29,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2074++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_29,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_30"
width 26.
group.long 0x178++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_30,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2F0++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_30,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX ,dx coordinate field"
group.long 0x2F4++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_30,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xF8++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_30,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2078++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_30,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_31"
width 26.
group.long 0x17C++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_31,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2F8++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_31,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX ,dx coordinate field"
group.long 0x2FC++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_31,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xFC++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_31,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x207C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_31,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_32"
width 25.
group.long 0x180++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_32,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2080++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_32,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_33"
width 25.
group.long 0x184++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_33,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2084++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_33,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_34"
width 25.
group.long 0x188++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_34,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2088++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_34,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_35"
width 25.
group.long 0x18C++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_35,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x208C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_35,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_36"
width 25.
group.long 0x190++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_36,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2090++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_36,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_37"
width 25.
group.long 0x194++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_37,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2094++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_37,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_38"
width 25.
group.long 0x198++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_38,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2098++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_38,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_39"
width 25.
group.long 0x19C++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_39,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x209C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_39,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_40"
width 25.
group.long 0x1A0++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_40,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_40,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_41"
width 25.
group.long 0x1A4++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_41,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_41,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_42"
width 25.
group.long 0x1A8++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_42,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_42,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_43"
width 25.
group.long 0x1AC++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_43,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_43,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_44"
width 25.
group.long 0x1B0++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_44,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_44,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_45"
width 25.
group.long 0x1B4++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_45,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_45,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_46"
width 25.
group.long 0x1B8++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_46,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_46,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_47"
width 25.
group.long 0x1BC++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_47,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_47,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_48"
width 25.
group.long 0x1C0++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_48,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_48,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_49"
width 25.
group.long 0x1C4++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_49,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_49,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_50"
width 25.
group.long 0x1C8++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_50,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_50,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_51"
width 25.
group.long 0x1CC++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_51,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_51,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_52"
width 25.
group.long 0x1D0++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_52,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_52,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_53"
width 25.
group.long 0x1D4++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_53,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_53,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_54"
width 25.
group.long 0x1D8++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_54,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_54,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_55"
width 25.
group.long 0x1DC++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_55,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_55,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_56"
width 25.
group.long 0x1E0++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_56,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_56,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_57"
width 25.
group.long 0x1E4++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_57,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_57,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_58"
width 25.
group.long 0x1E8++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_58,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_58,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_59"
width 25.
group.long 0x1EC++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_59,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_59,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_60"
width 25.
group.long 0x1F0++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_60,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_60,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_61"
width 25.
group.long 0x1F4++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_61,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_61,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_62"
width 25.
group.long 0x1F8++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_62,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_62,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_63"
width 27.
group.long 0x1FC++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_63,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_63,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2100++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_64,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2104++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_65,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2108++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_66,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x210C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_67,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2110++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_68,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2114++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_69,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2118++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_70,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x211C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_71,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2120++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_72,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2124++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_73,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2128++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_74,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x212C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_75,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2130++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_76,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2134++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_77,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2138++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_78,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x213C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_79,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2140++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_80,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2144++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_81,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2148++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_82,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x214C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_83,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2150++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_84,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2154++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_85,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2158++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_86,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x215C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_87,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2160++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_88,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2164++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_89,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2168++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_90,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x216C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_91,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2170++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_92,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2174++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_93,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2178++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_94,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x217C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_95,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2180++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_96,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2184++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_97,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2188++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_98,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x218C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_99,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2190++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_100,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2194++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_101,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2198++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_102,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x219C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_103,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_104,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_105,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_106,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_107,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_108,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_109,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_110,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_111,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_112,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_113,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_114,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_115,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_116,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_117,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_118,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_119,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_120,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_121,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_122,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_123,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_124,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_125,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_126,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_127,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2200++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_128,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2204++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_129,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2208++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_130,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x220C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_131,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2210++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_132,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2214++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_133,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2218++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_134,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x221C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_135,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2220++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_136,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2224++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_137,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2228++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_138,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x222C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_139,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2230++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_140,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2234++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_141,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2238++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_142,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x223C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_143,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2240++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_144,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2244++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_145,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2248++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_146,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x224C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_147,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2250++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_148,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2254++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_149,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2258++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_150,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x225C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_151,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2260++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_152,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2264++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_153,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2268++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_154,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x226C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_155,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2270++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_156,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2274++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_157,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2278++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_158,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x227C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_159,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2280++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_160,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2284++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_161,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2288++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_162,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x228C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_163,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2290++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_164,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2294++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_165,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2298++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_166,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x229C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_167,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_168,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_169,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_170,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_171,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_172,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_173,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_174,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_175,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_176,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_177,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_178,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_179,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_180,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_181,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_182,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_183,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_184,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_185,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_186,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_187,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_188,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_189,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_190,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_191,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2300++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_192,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2304++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_193,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2308++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_194,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x230C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_195,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2310++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_196,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2314++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_197,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2318++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_198,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x231C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_199,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2320++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_200,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2324++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_201,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2328++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_202,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x232C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_203,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2330++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_204,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2334++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_205,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2338++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_206,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x233C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_207,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2340++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_208,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2344++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_209,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2348++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_210,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x234C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_211,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2350++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_212,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2354++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_213,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2358++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_214,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x235C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_215,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2360++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_216,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2364++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_217,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2368++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_218,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x236C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_219,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2370++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_220,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2374++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_221,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2378++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_222,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x237C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_223,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2380++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_224,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2384++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_225,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2388++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_226,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x238C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_227,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2390++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_228,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2394++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_229,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2398++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_230,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x239C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_231,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_232,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_233,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_234,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_235,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_236,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_237,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_238,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_239,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_240,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_241,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_242,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_243,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_244,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_245,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_246,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_247,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_248,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_249,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_250,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_251,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_252,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_253,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_254,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_255,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2400++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_256,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2404++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_257,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2408++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_258,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x240C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_259,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2410++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_260,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2414++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_261,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2418++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_262,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x241C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_263,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2420++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_264,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2424++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_265,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2428++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_266,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x242C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_267,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2430++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_268,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2434++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_269,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2438++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_270,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x243C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_271,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2440++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_272,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2444++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_273,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2448++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_274,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x244C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_275,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2450++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_276,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2454++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_277,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2458++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_278,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x245C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_279,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2460++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_280,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2464++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_281,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2468++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_282,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x246C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_283,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2470++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_284,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2474++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_285,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2478++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_286,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x247C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_287,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2480++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_288,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2484++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_289,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2488++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_290,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x248C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_291,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2490++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_292,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2494++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_293,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2498++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_294,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x249C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_295,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_296,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_297,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_298,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_299,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_300,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_301,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_302,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_303,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_304,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_305,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_306,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_307,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_308,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_309,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_310,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_311,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_312,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_313,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_314,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_315,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_316,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_317,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_318,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_319,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2500++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_320,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2504++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_321,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2508++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_322,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x250C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_323,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2510++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_324,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2514++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_325,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2518++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_326,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x251C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_327,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2520++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_328,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2524++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_329,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2528++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_330,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x252C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_331,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2530++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_332,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2534++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_333,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2538++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_334,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x253C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_335,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2540++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_336,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2544++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_337,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2548++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_338,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x254C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_339,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2550++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_340,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2554++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_341,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2558++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_342,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x255C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_343,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2560++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_344,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2564++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_345,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2568++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_346,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x256C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_347,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2570++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_348,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2574++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_349,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2578++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_350,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x257C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_351,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2580++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_352,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2584++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_353,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2588++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_354,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x258C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_355,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2590++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_356,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2594++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_357,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2598++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_358,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x259C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_359,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_360,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_361,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_362,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_363,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_364,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_365,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_366,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_367,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_368,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_369,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_370,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_371,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_372,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_373,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_374,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_375,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_376,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_377,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_378,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_379,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_380,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_381,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_382,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_383,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2600++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_384,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2604++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_385,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2608++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_386,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x260C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_387,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2610++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_388,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2614++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_389,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2618++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_390,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x261C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_391,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2620++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_392,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2624++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_393,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2628++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_394,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x262C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_395,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2630++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_396,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2634++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_397,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2638++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_398,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x263C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_399,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2640++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_400,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2644++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_401,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2648++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_402,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x264C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_403,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2650++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_404,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2654++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_405,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2658++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_406,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x265C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_407,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2660++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_408,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2664++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_409,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2668++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_410,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x266C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_411,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2670++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_412,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2674++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_413,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2678++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_414,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x267C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_415,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2680++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_416,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2684++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_417,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2688++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_418,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x268C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_419,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2690++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_420,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2694++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_421,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2698++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_422,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x269C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_423,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_424,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_425,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_426,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_427,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_428,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_429,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_430,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_431,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_432,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_433,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_434,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_435,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_436,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_437,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_438,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_439,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_440,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_441,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_442,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_443,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_444,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_445,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_446,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_447,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2700++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_448,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2704++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_449,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2708++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_450,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x270C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_451,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2710++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_452,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2714++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_453,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2718++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_454,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x271C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_455,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2720++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_456,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2724++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_457,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2728++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_458,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x272C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_459,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2730++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_460,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2734++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_461,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2738++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_462,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x273C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_463,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2740++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_464,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2744++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_465,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2748++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_466,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x274C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_467,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2750++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_468,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2754++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_469,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2758++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_470,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x275C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_471,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2760++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_472,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2764++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_473,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2768++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_474,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x276C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_475,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2770++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_476,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2774++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_477,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2778++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_478,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x277C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_479,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2780++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_480,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2784++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_481,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2788++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_482,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x278C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_483,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2790++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_484,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2794++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_485,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2798++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_486,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x279C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_487,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_488,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_489,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_490,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_491,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_492,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_493,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_494,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_495,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_496,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_497,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_498,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_499,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_500,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_501,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_502,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_503,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_504,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_505,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_506,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_507,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_508,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_509,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_510,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_511,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2800++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_512,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2804++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_513,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2808++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_514,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x280C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_515,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2810++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_516,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2814++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_517,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2818++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_518,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x281C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_519,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2820++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_520,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2824++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_521,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2828++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_522,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x282C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_523,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2830++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_524,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2834++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_525,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2838++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_526,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x283C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_527,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2840++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_528,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2844++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_529,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2848++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_530,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x284C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_531,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2850++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_532,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2854++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_533,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2858++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_534,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x285C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_535,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2860++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_536,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2864++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_537,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2868++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_538,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x286C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_539,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2870++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_540,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2874++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_541,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2878++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_542,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x287C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_543,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2880++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_544,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2884++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_545,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2888++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_546,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x288C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_547,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2890++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_548,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2894++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_549,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2898++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_550,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x289C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_551,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_552,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_553,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_554,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_555,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_556,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_557,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_558,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_559,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_560,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_561,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_562,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_563,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_564,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_565,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_566,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_567,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_568,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_569,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_570,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_571,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_572,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_573,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_574,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_575,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2900++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_576,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2904++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_577,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2908++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_578,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x290C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_579,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2910++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_580,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2914++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_581,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2918++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_582,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x291C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_583,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2920++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_584,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2924++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_585,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2928++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_586,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x292C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_587,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2930++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_588,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2934++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_589,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2938++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_590,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x293C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_591,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2940++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_592,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2944++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_593,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2948++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_594,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x294C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_595,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2950++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_596,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2954++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_597,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2958++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_598,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x295C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_599,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2960++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_600,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2964++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_601,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2968++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_602,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x296C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_603,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2970++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_604,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2974++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_605,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2978++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_606,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x297C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_607,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2980++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_608,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2984++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_609,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2988++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_610,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x298C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_611,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2990++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_612,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2994++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_613,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2998++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_614,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x299C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_615,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_616,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_617,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_618,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_619,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_620,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_621,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_622,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_623,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_624,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_625,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_626,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_627,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_628,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_629,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_630,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_631,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_632,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_633,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_634,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_635,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_636,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_637,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_638,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_639,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A00++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_640,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A04++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_641,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A08++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_642,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A0C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_643,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A10++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_644,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A14++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_645,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A18++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_646,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A1C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_647,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A20++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_648,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A24++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_649,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A28++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_650,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A2C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_651,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A30++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_652,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A34++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_653,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A38++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_654,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A3C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_655,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A40++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_656,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A44++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_657,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A48++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_658,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A4C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_659,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A50++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_660,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A54++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_661,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A58++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_662,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A5C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_663,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A60++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_664,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A64++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_665,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A68++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_666,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A6C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_667,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A70++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_668,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A74++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_669,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A78++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_670,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A7C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_671,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A80++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_672,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A84++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_673,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A88++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_674,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A8C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_675,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A90++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_676,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A94++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_677,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A98++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_678,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A9C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_679,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AA0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_680,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AA4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_681,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AA8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_682,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AAC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_683,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AB0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_684,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AB4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_685,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AB8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_686,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2ABC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_687,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AC0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_688,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AC4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_689,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AC8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_690,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2ACC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_691,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AD0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_692,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AD4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_693,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AD8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_694,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2ADC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_695,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AE0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_696,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AE4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_697,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AE8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_698,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AEC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_699,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AF0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_700,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AF4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_701,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AF8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_702,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AFC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_703,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B00++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_704,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B04++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_705,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B08++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_706,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B0C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_707,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B10++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_708,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B14++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_709,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B18++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_710,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B1C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_711,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B20++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_712,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B24++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_713,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B28++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_714,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B2C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_715,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B30++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_716,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B34++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_717,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B38++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_718,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B3C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_719,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B40++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_720,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B44++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_721,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B48++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_722,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B4C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_723,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B50++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_724,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B54++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_725,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B58++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_726,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B5C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_727,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B60++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_728,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B64++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_729,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B68++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_730,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B6C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_731,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B70++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_732,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B74++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_733,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B78++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_734,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B7C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_735,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B80++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_736,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B84++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_737,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B88++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_738,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B8C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_739,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B90++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_740,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B94++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_741,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B98++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_742,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B9C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_743,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BA0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_744,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BA4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_745,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BA8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_746,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BAC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_747,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BB0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_748,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BB4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_749,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BB8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_750,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BBC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_751,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BC0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_752,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BC4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_753,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BC8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_754,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BCC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_755,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BD0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_756,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BD4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_757,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BD8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_758,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BDC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_759,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BE0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_760,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BE4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_761,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BE8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_762,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BEC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_763,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BF0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_764,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BF4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_765,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BF8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_766,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BFC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_767,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C00++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_768,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C04++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_769,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C08++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_770,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C0C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_771,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C10++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_772,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C14++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_773,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C18++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_774,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C1C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_775,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C20++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_776,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C24++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_777,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C28++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_778,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C2C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_779,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C30++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_780,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C34++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_781,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C38++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_782,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C3C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_783,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C40++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_784,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C44++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_785,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C48++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_786,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C4C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_787,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C50++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_788,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C54++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_789,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C58++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_790,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C5C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_791,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C60++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_792,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C64++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_793,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C68++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_794,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C6C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_795,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C70++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_796,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C74++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_797,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C78++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_798,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C7C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_799,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C80++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_800,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C84++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_801,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C88++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_802,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C8C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_803,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C90++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_804,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C94++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_805,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C98++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_806,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C9C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_807,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CA0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_808,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CA4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_809,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CA8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_810,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CAC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_811,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CB0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_812,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CB4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_813,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CB8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_814,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CBC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_815,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CC0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_816,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CC4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_817,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CC8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_818,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CCC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_819,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CD0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_820,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CD4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_821,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CD8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_822,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CDC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_823,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CE0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_824,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CE4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_825,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CE8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_826,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CEC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_827,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CF0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_828,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CF4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_829,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CF8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_830,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CFC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_831,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D00++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_832,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D04++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_833,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D08++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_834,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D0C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_835,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D10++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_836,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D14++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_837,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D18++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_838,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D1C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_839,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D20++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_840,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D24++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_841,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D28++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_842,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D2C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_843,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D30++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_844,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D34++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_845,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D38++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_846,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D3C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_847,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D40++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_848,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D44++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_849,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D48++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_850,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D4C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_851,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D50++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_852,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D54++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_853,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D58++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_854,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D5C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_855,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D60++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_856,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D64++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_857,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D68++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_858,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D6C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_859,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D70++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_860,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D74++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_861,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D78++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_862,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D7C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_863,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D80++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_864,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D84++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_865,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D88++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_866,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D8C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_867,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D90++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_868,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D94++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_869,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D98++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_870,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D9C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_871,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DA0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_872,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DA4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_873,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DA8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_874,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DAC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_875,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DB0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_876,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DB4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_877,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DB8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_878,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DBC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_879,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DC0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_880,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DC4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_881,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DC8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_882,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DCC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_883,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DD0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_884,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DD4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_885,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DD8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_886,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DDC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_887,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DE0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_888,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DE4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_889,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DE8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_890,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DEC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_891,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DF0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_892,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DF4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_893,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DF8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_894,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DFC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_895,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E00++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_896,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E04++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_897,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E08++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_898,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E0C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_899,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E10++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_900,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E14++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_901,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E18++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_902,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E1C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_903,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E20++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_904,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E24++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_905,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E28++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_906,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E2C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_907,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E30++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_908,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E34++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_909,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E38++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_910,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E3C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_911,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E40++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_912,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E44++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_913,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E48++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_914,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E4C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_915,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E50++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_916,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E54++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_917,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E58++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_918,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E5C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_919,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E60++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_920,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E64++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_921,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E68++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_922,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E6C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_923,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E70++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_924,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E74++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_925,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E78++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_926,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E7C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_927,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E80++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_928,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E84++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_929,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E88++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_930,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E8C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_931,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E90++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_932,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E94++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_933,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E98++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_934,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E9C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_935,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EA0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_936,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EA4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_937,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EA8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_938,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EAC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_939,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EB0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_940,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EB4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_941,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EB8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_942,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EBC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_943,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EC0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_944,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EC4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_945,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EC8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_946,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2ECC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_947,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2ED0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_948,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2ED4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_949,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2ED8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_950,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EDC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_951,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EE0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_952,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EE4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_953,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EE8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_954,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EEC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_955,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EF0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_956,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EF4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_957,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EF8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_958,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EFC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_959,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F00++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_960,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F04++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_961,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F08++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_962,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F0C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_963,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F10++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_964,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F14++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_965,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F18++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_966,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F1C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_967,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F20++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_968,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F24++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_969,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F28++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_970,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F2C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_971,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F30++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_972,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F34++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_973,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F38++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_974,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F3C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_975,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F40++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_976,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F44++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_977,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F48++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_978,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F4C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_979,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F50++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_980,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F54++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_981,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F58++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_982,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F5C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_983,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F60++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_984,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F64++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_985,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F68++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_986,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F6C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_987,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F70++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_988,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F74++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_989,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F78++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_990,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F7C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_991,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F80++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_992,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F84++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_993,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F88++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_994,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F8C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_995,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F90++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_996,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F94++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_997,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F98++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_998,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F9C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_999,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FA0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1000,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FA4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1001,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FA8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1002,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FAC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1003,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FB0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1004,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FB4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1005,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FB8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1006,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FBC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1007,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FC0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1008,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FC4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1009,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FC8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1010,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FCC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1011,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FD0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1012,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FD4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1013,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FD8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1014,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FDC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1015,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FE0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1016,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FE4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1017,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FE8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1018,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FEC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1019,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FF0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1020,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FF4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1021,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FF8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1022,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FFC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1023,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3000++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1024,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3004++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1025,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3008++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1026,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x300C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1027,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3010++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1028,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3014++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1029,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3018++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1030,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x301C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1031,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3020++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1032,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3024++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1033,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3028++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1034,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x302C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1035,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3030++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1036,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3034++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1037,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3038++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1038,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x303C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1039,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3040++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1040,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3044++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1041,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3048++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1042,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x304C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1043,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3050++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1044,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3054++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1045,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3058++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1046,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x305C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1047,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3060++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1048,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3064++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1049,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3068++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1050,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x306C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1051,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3070++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1052,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3074++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1053,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3078++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1054,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x307C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1055,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3080++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1056,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3084++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1057,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3088++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1058,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x308C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1059,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3090++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1060,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3094++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1061,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3098++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1062,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x309C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1063,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1064,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1065,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1066,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1067,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1068,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1069,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1070,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1071,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1072,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1073,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1074,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1075,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1076,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1077,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1078,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1079,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1080,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1081,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1082,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1083,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1084,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1085,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1086,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1087,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3100++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1088,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3104++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1089,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3108++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1090,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x310C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1091,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3110++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1092,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3114++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1093,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3118++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1094,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x311C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1095,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3120++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1096,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3124++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1097,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3128++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1098,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x312C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1099,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3130++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1100,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3134++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1101,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3138++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1102,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x313C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1103,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3140++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1104,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3144++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1105,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3148++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1106,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x314C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1107,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3150++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1108,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3154++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1109,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3158++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1110,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x315C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1111,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3160++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1112,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3164++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1113,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3168++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1114,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x316C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1115,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3170++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1116,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3174++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1117,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3178++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1118,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x317C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1119,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3180++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1120,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3184++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1121,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3188++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1122,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x318C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1123,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3190++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1124,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3194++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1125,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3198++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1126,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x319C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1127,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1128,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1129,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1130,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1131,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1132,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1133,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1134,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1135,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1136,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1137,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1138,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1139,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1140,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1141,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1142,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1143,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1144,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1145,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1146,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1147,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1148,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1149,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1150,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1151,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3200++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1152,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3204++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1153,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3208++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1154,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x320C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1155,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3210++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1156,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3214++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1157,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3218++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1158,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x321C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1159,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3220++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1160,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3224++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1161,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3228++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1162,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x322C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1163,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3230++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1164,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3234++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1165,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3238++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1166,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x323C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1167,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3240++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1168,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3244++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1169,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3248++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1170,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x324C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1171,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3250++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1172,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3254++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1173,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3258++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1174,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x325C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1175,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3260++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1176,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3264++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1177,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3268++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1178,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x326C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1179,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3270++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1180,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3274++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1181,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3278++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1182,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x327C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1183,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3280++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1184,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3284++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1185,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3288++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1186,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x328C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1187,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3290++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1188,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3294++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1189,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3298++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1190,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x329C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1191,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1192,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1193,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1194,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1195,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1196,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1197,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1198,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1199,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1200,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1201,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1202,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1203,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1204,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1205,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1206,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1207,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1208,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1209,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1210,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1211,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1212,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1213,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1214,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1215,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3300++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1216,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3304++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1217,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3308++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1218,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x330C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1219,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3310++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1220,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3314++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1221,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3318++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1222,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x331C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1223,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3320++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1224,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3324++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1225,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3328++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1226,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x332C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1227,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3330++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1228,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3334++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1229,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3338++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1230,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x333C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1231,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3340++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1232,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3344++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1233,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3348++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1234,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x334C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1235,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3350++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1236,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3354++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1237,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3358++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1238,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x335C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1239,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3360++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1240,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3364++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1241,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3368++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1242,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x336C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1243,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3370++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1244,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3374++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1245,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3378++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1246,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x337C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1247,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3380++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1248,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3384++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1249,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3388++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1250,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x338C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1251,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3390++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1252,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3394++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1253,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3398++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1254,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x339C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1255,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1256,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1257,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1258,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1259,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1260,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1261,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1262,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1263,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1264,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1265,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1266,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1267,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1268,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1269,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1270,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1271,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1272,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1273,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1274,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1275,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1276,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1277,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1278,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1279,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3400++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1280,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3404++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1281,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3408++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1282,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x340C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1283,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3410++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1284,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3414++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1285,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3418++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1286,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x341C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1287,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3420++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1288,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3424++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1289,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3428++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1290,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x342C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1291,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3430++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1292,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3434++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1293,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3438++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1294,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x343C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1295,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3440++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1296,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3444++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1297,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3448++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1298,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x344C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1299,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3450++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1300,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3454++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1301,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3458++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1302,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x345C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1303,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3460++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1304,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3464++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1305,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3468++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1306,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x346C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1307,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3470++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1308,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3474++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1309,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3478++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1310,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x347C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1311,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3480++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1312,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3484++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1313,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3488++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1314,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x348C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1315,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3490++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1316,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3494++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1317,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3498++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1318,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x349C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1319,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1320,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1321,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1322,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1323,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1324,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1325,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1326,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1327,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1328,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1329,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1330,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1331,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1332,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1333,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1334,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1335,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1336,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1337,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1338,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1339,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1340,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1341,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1342,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1343,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3500++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1344,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3504++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1345,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3508++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1346,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x350C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1347,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3510++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1348,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3514++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1349,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3518++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1350,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x351C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1351,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3520++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1352,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3524++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1353,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3528++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1354,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x352C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1355,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3530++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1356,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3534++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1357,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3538++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1358,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x353C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1359,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3540++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1360,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3544++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1361,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3548++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1362,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x354C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1363,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3550++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1364,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3554++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1365,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3558++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1366,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x355C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1367,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3560++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1368,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3564++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1369,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3568++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1370,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x356C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1371,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3570++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1372,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3574++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1373,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3578++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1374,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x357C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1375,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3580++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1376,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3584++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1377,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3588++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1378,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x358C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1379,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3590++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1380,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3594++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1381,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3598++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1382,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x359C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1383,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1384,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1385,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1386,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1387,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1388,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1389,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1390,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1391,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1392,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1393,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1394,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1395,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1396,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1397,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1398,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1399,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1400,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1401,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1402,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1403,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1404,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1405,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1406,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1407,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3600++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1408,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3604++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1409,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3608++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1410,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x360C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1411,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3610++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1412,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3614++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1413,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3618++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1414,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x361C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1415,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3620++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1416,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3624++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1417,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3628++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1418,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x362C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1419,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3630++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1420,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3634++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1421,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3638++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1422,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x363C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1423,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3640++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1424,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3644++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1425,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3648++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1426,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x364C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1427,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3650++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1428,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3654++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1429,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3658++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1430,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x365C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1431,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3660++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1432,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3664++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1433,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3668++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1434,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x366C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1435,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3670++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1436,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3674++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1437,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3678++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1438,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x367C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1439,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3680++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1440,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3684++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1441,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3688++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1442,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x368C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1443,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3690++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1444,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3694++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1445,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3698++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1446,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x369C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1447,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1448,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1449,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1450,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1451,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1452,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1453,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1454,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1455,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1456,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1457,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1458,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1459,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1460,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1461,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1462,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1463,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1464,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1465,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1466,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1467,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1468,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1469,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1470,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1471,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3700++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1472,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3704++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1473,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3708++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1474,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x370C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1475,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3710++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1476,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3714++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1477,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3718++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1478,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x371C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1479,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3720++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1480,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3724++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1481,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3728++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1482,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x372C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1483,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3730++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1484,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3734++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1485,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3738++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1486,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x373C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1487,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3740++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1488,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3744++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1489,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3748++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1490,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x374C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1491,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3750++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1492,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3754++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1493,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3758++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1494,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x375C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1495,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3760++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1496,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3764++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1497,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3768++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1498,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x376C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1499,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3770++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1500,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3774++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1501,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3778++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1502,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x377C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1503,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3780++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1504,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3784++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1505,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3788++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1506,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x378C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1507,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3790++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1508,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3794++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1509,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3798++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1510,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x379C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1511,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1512,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1513,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1514,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1515,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1516,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1517,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1518,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1519,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1520,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1521,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1522,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1523,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1524,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1525,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1526,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1527,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1528,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1529,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1530,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1531,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1532,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1533,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1534,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1535,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3800++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1536,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3804++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1537,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3808++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1538,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x380C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1539,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3810++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1540,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3814++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1541,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3818++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1542,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x381C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1543,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3820++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1544,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3824++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1545,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3828++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1546,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x382C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1547,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3830++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1548,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3834++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1549,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3838++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1550,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x383C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1551,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3840++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1552,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3844++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1553,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3848++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1554,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x384C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1555,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3850++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1556,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3854++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1557,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3858++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1558,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x385C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1559,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3860++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1560,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3864++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1561,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3868++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1562,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x386C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1563,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3870++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1564,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3874++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1565,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3878++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1566,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x387C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1567,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3880++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1568,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3884++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1569,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3888++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1570,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x388C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1571,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3890++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1572,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3894++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1573,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3898++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1574,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x389C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1575,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1576,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1577,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1578,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1579,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1580,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1581,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1582,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1583,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1584,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1585,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1586,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1587,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1588,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1589,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1590,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1591,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1592,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1593,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1594,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1595,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1596,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1597,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1598,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1599,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3900++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1600,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3904++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1601,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3908++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1602,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x390C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1603,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3910++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1604,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3914++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1605,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3918++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1606,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x391C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1607,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3920++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1608,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3924++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1609,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3928++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1610,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x392C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1611,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3930++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1612,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3934++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1613,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3938++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1614,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x393C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1615,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3940++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1616,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3944++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1617,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3948++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1618,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x394C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1619,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3950++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1620,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3954++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1621,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3958++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1622,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x395C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1623,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3960++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1624,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3964++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1625,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3968++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1626,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x396C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1627,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3970++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1628,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3974++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1629,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3978++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1630,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x397C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1631,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3980++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1632,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3984++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1633,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3988++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1634,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x398C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1635,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3990++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1636,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3994++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1637,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3998++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1638,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x399C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1639,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1640,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1641,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1642,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1643,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1644,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1645,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1646,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1647,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1648,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1649,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1650,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1651,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1652,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1653,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1654,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1655,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1656,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1657,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1658,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1659,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1660,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1661,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1662,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1663,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A00++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1664,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A04++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1665,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A08++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1666,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A0C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1667,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A10++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1668,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A14++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1669,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A18++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1670,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A1C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1671,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A20++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1672,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A24++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1673,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A28++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1674,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A2C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1675,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A30++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1676,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A34++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1677,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A38++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1678,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A3C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1679,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A40++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1680,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A44++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1681,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A48++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1682,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A4C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1683,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A50++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1684,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A54++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1685,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A58++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1686,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A5C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1687,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A60++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1688,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A64++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1689,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A68++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1690,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A6C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1691,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A70++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1692,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A74++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1693,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A78++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1694,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A7C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1695,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A80++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1696,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A84++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1697,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A88++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1698,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A8C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1699,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A90++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1700,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A94++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1701,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A98++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1702,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A9C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1703,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AA0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1704,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AA4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1705,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AA8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1706,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AAC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1707,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AB0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1708,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AB4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1709,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AB8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1710,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3ABC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1711,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AC0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1712,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AC4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1713,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AC8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1714,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3ACC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1715,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AD0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1716,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AD4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1717,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AD8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1718,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3ADC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1719,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AE0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1720,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AE4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1721,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AE8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1722,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AEC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1723,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AF0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1724,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AF4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1725,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AF8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1726,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AFC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1727,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B00++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1728,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B04++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1729,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B08++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1730,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B0C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1731,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B10++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1732,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B14++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1733,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B18++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1734,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B1C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1735,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B20++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1736,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B24++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1737,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B28++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1738,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B2C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1739,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B30++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1740,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B34++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1741,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B38++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1742,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B3C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1743,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B40++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1744,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B44++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1745,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B48++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1746,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B4C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1747,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B50++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1748,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B54++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1749,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B58++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1750,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B5C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1751,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B60++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1752,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B64++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1753,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B68++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1754,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B6C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1755,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B70++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1756,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B74++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1757,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B78++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1758,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B7C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1759,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B80++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1760,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B84++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1761,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B88++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1762,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B8C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1763,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B90++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1764,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B94++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1765,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B98++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1766,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B9C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1767,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BA0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1768,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BA4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1769,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BA8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1770,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BAC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1771,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BB0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1772,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BB4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1773,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BB8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1774,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BBC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1775,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BC0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1776,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BC4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1777,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BC8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1778,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BCC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1779,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BD0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1780,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BD4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1781,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BD8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1782,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BDC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1783,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BE0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1784,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BE4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1785,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BE8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1786,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BEC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1787,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BF0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1788,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BF4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1789,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BF8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1790,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BFC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1791,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C00++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1792,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C04++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1793,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C08++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1794,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C0C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1795,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C10++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1796,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C14++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1797,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C18++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1798,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C1C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1799,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C20++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1800,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C24++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1801,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C28++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1802,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C2C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1803,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C30++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1804,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C34++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1805,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C38++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1806,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C3C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1807,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C40++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1808,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C44++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1809,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C48++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1810,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C4C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1811,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C50++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1812,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C54++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1813,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C58++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1814,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C5C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1815,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C60++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1816,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C64++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1817,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C68++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1818,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C6C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1819,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C70++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1820,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C74++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1821,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C78++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1822,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C7C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1823,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C80++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1824,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C84++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1825,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C88++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1826,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C8C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1827,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C90++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1828,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C94++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1829,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C98++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1830,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C9C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1831,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CA0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1832,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CA4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1833,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CA8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1834,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CAC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1835,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CB0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1836,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CB4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1837,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CB8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1838,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CBC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1839,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CC0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1840,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CC4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1841,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CC8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1842,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CCC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1843,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CD0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1844,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CD4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1845,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CD8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1846,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CDC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1847,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CE0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1848,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CE4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1849,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CE8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1850,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CEC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1851,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CF0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1852,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CF4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1853,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CF8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1854,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CFC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1855,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D00++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1856,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D04++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1857,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D08++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1858,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D0C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1859,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D10++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1860,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D14++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1861,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D18++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1862,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D1C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1863,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D20++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1864,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D24++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1865,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D28++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1866,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D2C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1867,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D30++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1868,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D34++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1869,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D38++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1870,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D3C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1871,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D40++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1872,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D44++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1873,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D48++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1874,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D4C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1875,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D50++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1876,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D54++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1877,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D58++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1878,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D5C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1879,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D60++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1880,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D64++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1881,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D68++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1882,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D6C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1883,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D70++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1884,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D74++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1885,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D78++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1886,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D7C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1887,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D80++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1888,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D84++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1889,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D88++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1890,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D8C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1891,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D90++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1892,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D94++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1893,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D98++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1894,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D9C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1895,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DA0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1896,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DA4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1897,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DA8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1898,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DAC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1899,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DB0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1900,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DB4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1901,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DB8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1902,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DBC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1903,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DC0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1904,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DC4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1905,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DC8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1906,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DCC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1907,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DD0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1908,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DD4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1909,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DD8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1910,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DDC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1911,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DE0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1912,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DE4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1913,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DE8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1914,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DEC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1915,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DF0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1916,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DF4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1917,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DF8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1918,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DFC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1919,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E00++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1920,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E04++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1921,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E08++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1922,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E0C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1923,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E10++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1924,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E14++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1925,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E18++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1926,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E1C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1927,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E20++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1928,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E24++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1929,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E28++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1930,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E2C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1931,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E30++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1932,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E34++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1933,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E38++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1934,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E3C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1935,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E40++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1936,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E44++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1937,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E48++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1938,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E4C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1939,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E50++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1940,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E54++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1941,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E58++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1942,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E5C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1943,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E60++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1944,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E64++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1945,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E68++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1946,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E6C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1947,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E70++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1948,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E74++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1949,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E78++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1950,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E7C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1951,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E80++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1952,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E84++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1953,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E88++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1954,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E8C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1955,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E90++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1956,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E94++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1957,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E98++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1958,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E9C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1959,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EA0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1960,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EA4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1961,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EA8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1962,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EAC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1963,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EB0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1964,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EB4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1965,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EB8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1966,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EBC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1967,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EC0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1968,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EC4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1969,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EC8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1970,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3ECC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1971,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3ED0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1972,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3ED4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1973,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3ED8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1974,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EDC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1975,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EE0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1976,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EE4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1977,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EE8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1978,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EEC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1979,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EF0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1980,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EF4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1981,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EF8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1982,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EFC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1983,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F00++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1984,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F04++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1985,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F08++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1986,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F0C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1987,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F10++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1988,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F14++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1989,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F18++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1990,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F1C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1991,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F20++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1992,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F24++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1993,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F28++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1994,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F2C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1995,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F30++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1996,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F34++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1997,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F38++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1998,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F3C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1999,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F40++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2000,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F44++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2001,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F48++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2002,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F4C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2003,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F50++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2004,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F54++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2005,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F58++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2006,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F5C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2007,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F60++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2008,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F64++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2009,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F68++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2010,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F6C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2011,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F70++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2012,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F74++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2013,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F78++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2014,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F7C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2015,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F80++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2016,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F84++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2017,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F88++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2018,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F8C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2019,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F90++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2020,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F94++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2021,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F98++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2022,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F9C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2023,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FA0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2024,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FA4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2025,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FA8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2026,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FAC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2027,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FB0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2028,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FB4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2029,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FB8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2030,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FBC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2031,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FC0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2032,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FC4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2033,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FC8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2034,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FCC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2035,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FD0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2036,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FD4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2037,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FD8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2038,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FDC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2039,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FE0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2040,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FE4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2041,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FE8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2042,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FEC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2043,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FF0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2044,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FF4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2045,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FF8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2046,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FFC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2047,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
textline ""
width 43.
rgroup.long 0x0++0x3
line.long 0x00 "IME3_REVISION,IP Revision Identifier (X.Y.R) Used by software to track features, bugs, and compatibility"
hexmask.long 0x00 0.--31. 1. " REVISION             ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "IME3_SYSCONFIG,Clock management configuration"
bitfld.long 0x00 4.--5. " STANDBYMODE          ,Configuration of the local initiator state management mode. By definition, initiator may generate read/write transaction as long as it is out of STANDBY state. - force." "force,1,2,3"
bitfld.long 0x00 2.--3. "     IDLEMODE            ,Configuration of the local target state management mode. By definition, target can handle read/write transaction as long as it is out of IDLE state. - force. - no. - smart. - smartwakeup." "force,no,smart,smartwakeup"
bitfld.long 0x00 1. "  FREEEMU           ,Sensitivity to emulation (debug) suspend input signal. - insensitive." "0,insensitive"
textline "                                                    "
bitfld.long 0x00 0. " SOFTRESET            ,Software reset. (Optional) - done. - . - pending. - ." "done,pending"
group.long 0x20++0x3
line.long 0x00 "IME3_IRQ_EOI,End Of Interrupt number specification"
group.long 0x24++0x3
line.long 0x00 "IME3_IRQSTATUS_RAW,Per-event raw interrupt status vector, line #0. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 1. " EVENT1               ,Settable raw status for event #1 (Gen_It) - noevent. - pending. - set. - ." "noevent,set"
bitfld.long 0x00 0. "   EVENT0              ,Settable raw status for event #0 (End_Pgm) - noevent. - pending. - set. - ." "noevent,set"
group.long 0x28++0x3
line.long 0x00 "IME3_IRQSTATUS,Per-event 'enabled' interrupt status vector, line #0. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 1. " EVENT1               ,Clearable, enabled status for event #1 (Gen_it) - noevent. - pending. - clear. - ." "noevent,clear"
eventfld.long 0x00 0. "   EVENT0              ,Clearable, enabled status for event #0 (End_Pgm) - noevent. - pending. - clear. - ." "noevent,clear"
group.long 0x2C++0x3
line.long 0x00 "IME3_IRQENABLE_SET,Per-event interrupt enable bit vector, line #0. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 1. " ENABLE1              ,Enable for event #1 (Gen_It) - disabled. - . - enabled. - ." "disabled,enabled"
bitfld.long 0x00 0. "  ENABLE0             ,Enable for event #0 (End_Pgm) - disabled. - . - enabled. - ." "disabled,enabled"
group.long 0x30++0x3
line.long 0x00 "IME3_IRQENABLE_CLR,Per-event interrupt enable bit vector, line #0. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 1. " ENABLE1              ,Enable for event #1 (Gen_It) - disabled. - . - enabled. - ." "disabled,enabled"
eventfld.long 0x00 0. "  ENABLE0             ,Enable for event #0 (End_Pgm) - disabled. - . - enabled. - ." "disabled,enabled"
group.long 0x400++0x3
line.long 0x00 "IME3_MVCT0_3,MV Cost Table"
bitfld.long 0x00 24.--28. " MVCT_3               ,MV Cost Table 3" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "        MVCT_2              ,MV Cost Table 2" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "           MVCT_1            ,MV Cost Table 1" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                                    "
bitfld.long 0x00 0.--4. " MVCT_0               ,MV Cost Table 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x404++0x3
line.long 0x00 "IME3_MVCT4_7,MV Cost Table"
bitfld.long 0x00 24.--28. " MVCT_7               ,MV Cost Table 7" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "        MVCT_6              ,MV Cost Table 6" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "           MVCT_5            ,MV Cost Table 5" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                                    "
bitfld.long 0x00 0.--4. " MVCT_4               ,MV Cost Table 4" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x408++0x3
line.long 0x00 "IME3_MVCT8_11,MV Cost Table"
bitfld.long 0x00 24.--28. " MVCT_11              ,MV Cost Table 3" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "        MVCT_10             ,MV Cost Table 2" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "           MVCT_9            ,MV Cost Table 1" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                                    "
bitfld.long 0x00 0.--4. " MVCT_8               ,MV Cost Table 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x40C++0x3
line.long 0x00 "IME3_MVCT12_14,MV Cost Table"
bitfld.long 0x00 16.--20. " MVCT_14              ,MV Cost Table 14" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "        MVCT_13             ,MV Cost Table 13" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "           MVCT_12           ,MV Cost Table 12" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x410++0x3
line.long 0x00 "IME3_VEC_VAR_HOR_LO,horizontal vector variable (lower bits)"
hexmask.long 0x00 0.--31. 1. " VEC_VAR_LO           ,"
group.long 0x414++0x3
line.long 0x00 "IME3_VEC_VAR_HOR_HI,horizontal vector variable (higher bits)"
hexmask.long.byte 0x00 0.--6. 1. " VEC_VAR_HI           ,"
group.long 0x418++0x3
line.long 0x00 "IME3_VEC_VAR_VER_LO,vertical vector variable (lower bits)"
hexmask.long 0x00 0.--31. 1. " VEC_VAR_LO           ,"
group.long 0x41C++0x3
line.long 0x00 "IME3_VEC_VAR_VER_HI,vertical vector variable (higher bits)"
hexmask.long.byte 0x00 0.--6. 1. " VEC_VAR_HI           ,"
group.long 0x420++0x3
line.long 0x00 "IME3_VECABSMEANHOR,"
hexmask.long 0x00 0.--28. 1. " VEC_ABS_MEAN_HOR     ,Accumulates |BMT0[0].dx|"
group.long 0x424++0x3
line.long 0x00 "IME3_VECABSMEANVER,"
hexmask.long 0x00 0.--28. 1. " VEC_ABS_MEAN_VER     ,Accumulates |BMT0[0].dy|"
group.long 0x428++0x3
line.long 0x00 "IME3_CIRCULAR_BUFFER_DESC0,Circular Buffer 0"
bitfld.long 0x00 24. " DIRECTION            ,Horizontal or Vertical Circularity" "0,1"
hexmask.long.byte 0x00 16.--23. 1. "         OFFSET              ,In MBs"
hexmask.long.byte 0x00 8.--15. 1. "           CBW               ,Circular Buffer Width, in MBs"
textline "                                                    "
hexmask.long.byte 0x00 0.--7. 1. " CBH                  ,Circular Buffer Height, in MBs"
group.long 0x42C++0x3
line.long 0x00 "IME3_CIRCULAR_BUFFER_DESC1,Circular Buffer 1"
bitfld.long 0x00 24. " DIRECTION            ,Horizontal or Vertical Circularity" "0,1"
hexmask.long.byte 0x00 16.--23. 1. "         OFFSET              ,In MBs"
hexmask.long.byte 0x00 8.--15. 1. "           CBW               ,Circular Buffer Width, in MBs"
textline "                                                    "
hexmask.long.byte 0x00 0.--7. 1. " CBH                  ,Circular Buffer Height, in MBs"
group.long 0x430++0x3
line.long 0x00 "IME3_CPUSTATUSREG,CPU Status Register provides information on the progress of the CPU execution"
bitfld.long 0x00 31. " START_OR_STEP_TAKEN  ,Set to 1 when Step() Local Interconnect command is received. Set to 1 when SyncBox new task command is received. Set to 0 when Local Interconnect writes 0 to this bit field." "0,1"
bitfld.long 0x00 30. "         DETECTEDENDOFPGM    ,This bit is set to '1' when in Debug mode, an EndOfPgm instruction or the last instruction of ProgramBuffer has been reached." "0,1"
bitfld.long 0x00 29. "            DETECTEDSTOP      ,This bit is set to '1' when a Stop() command is received. This bit is set to '0' when a Step() command is received." "0,1"
textline "                                                    "
bitfld.long 0x00 28. " REJECTED_ACCESS      ,Set when a Local Interconnect read to the Program Memory, or an Local Interconnect write are perfromed while the IME3 is still in the EXECUTING state. Reset when the IME3 is is the INITIALIZED or COMPLETED state and a step comman..." "0,1"
bitfld.long 0x00 24.--25. "         EXECSTATE           ,0x0 => Initialized 0x1 => Halted 0x2 => Exectuting 0x3 => Completed" "0,1,2,3"
bitfld.long 0x00 19. "            RECEIVEDSIGNAL1   ,Indicates that module has received a Local Interconnect Signal1 Command. Reset by Wait_On_Signal_1() api." "0,1"
textline "                                                    "
bitfld.long 0x00 18. " WAITINGONSIGNAL1     ,Indicates that module is waiting for Local Interconnect Signal1 Command. Set by Wait_On_Signal_1() api. Reset when ReceivedSignal0 is set (by Signal1 Local Interconnect command)." "0,1"
bitfld.long 0x00 17. "         RECEIVEDSIGNAL0     ,Indicates that module has received a Local Interconnect Signal0 Command. Reset by Wait_On_Signal_0() api." "0,1"
bitfld.long 0x00 16. "            WAITINGONSIGNAL0  ,Indicates that module is waiting for Local Interconnect Signal0 Command. Set by Wait_On_Signal_0() api. Reset when ReceivedSignal0 is set (by Signal0 Local Interconnect command)." "0,1"
textline "                                                    "
hexmask.long.word 0x00 0.--15. 1. " PC                   ,Address of the instruction currently issued."
group.long 0x434++0x3
line.long 0x00 "IME3_CYCLECOUNT,Cycle count register"
bitfld.long 0x00 31. " CYCLECOUNTENABLE     ,When set to 1, cycle counting is enabled. When set to 0, cycle counting is disabled." "0,1"
bitfld.long 0x00 30. "         CYCLECOUNTRESET     ,Writing 0 results in no effect. Writing 1 results in clearing CycleCount to 0. Always read as 0." "0,1"
hexmask.long.word 0x00 0.--15. 1. "            CYCLECOUNT        ,Incremets at each cycle if cycleCountEnable equals 1 and if CpuState is EXECUTING. Reset when writing 1 to bit 30 (CycleCountReset) Reset upon receiving a Stop() Local Interconnect command."
group.long 0x440++0x3
line.long 0x00 "IME3_CONDITIONREGISTER,Absolute Minimum Reached bit register, used in Mcomp() operator."
hexmask.long.byte 0x00 24.--31. 1. " APPLICATIONCOUNTER1  ,Counter 1"
hexmask.long.byte 0x00 16.--23. 1. "        APPLICATIONCOUNTER0 ,Counter 0"
bitfld.long 0x00 11. "           PARTITIONVALID    ,Reset by ClearStatus()" "0,1"
textline "                                                    "
bitfld.long 0x00 9.--10. " BOTTOMRIGHTREFERENCE ,L0, L1, Bi" "0,1,2,3"
bitfld.long 0x00 7.--8. "         BOTTOMLEFTREFERENCE ,L0, L1, Bi" "0,1,2,3"
bitfld.long 0x00 5.--6. "            TOPRIGHTREFERENCE ,L0, L1, Bi" "0,1,2,3"
textline "                                                    "
bitfld.long 0x00 3.--4. " TOPLEFTREFERENCE     ,L0, L1, Bi" "0,1,2,3"
bitfld.long 0x00 1.--2. "         PARTITIONTYPE       ,16x16, 16x8, 8x16, 8x8" "0,1,2,3"
bitfld.long 0x00 0. "            ABSMINREACHED     ,Abs Min Reached bit, in Mcomp block." "0,1"
group.long 0x44C++0x3
line.long 0x00 "IME3_MINERRORTHRESHOLD,Minimum Error Threshold register, used in Mcomp() operator."
hexmask.long.word 0x00 0.--15. 1. " MINTHRESHOLD         ,Min Threshold value in Mcomp() block."
group.long 0x450++0x3
line.long 0x00 "IME3_CIRCULAR_BUFFER_CURRENT_POSITION0,Current position in the circular buffer"
hexmask.long.word 0x00 18.--31. 1. " Y0                   ,Position of colocated MB in the circular buffer when origin is taken at top left corner of circular buffer (Y coordinate, pixel precision)."
hexmask.long.word 0x00 2.--15. 1. "      X0                  ,Position of colocated MB in the circular buffer when origin is taken at top left corner of circular buffer (X coordinate, pixel precision)."
group.long 0x454++0x3
line.long 0x00 "IME3_CIRCULAR_BUFFER_CURRENT_POSITION1,"
hexmask.long.word 0x00 18.--31. 1. " Y0                   ,Position of colocated MB in the circular buffer when origin is taken at top left corner of circular buffer (Y coordinate, pixel precision)"
hexmask.long.word 0x00 2.--15. 1. "      X0                  ,Position of colocated MB in the circular buffer when origin is taken at top left corner of circular buffer (X coordinate, pixel precision)"
group.long 0x458++0x3
line.long 0x00 "IME3_VALID_AREA0_TOP_LEFT_COORDINATES,Top left coordinates"
hexmask.long.word 0x00 16.--31. 1. " Y                    ,Valid area top left limit in the circular buffer (Y coordinate, quarter pixel precision)"
hexmask.long.word 0x00 0.--15. 1. "      X                   ,Valid area top left limit in the circular buffer (X coordinate, quarter pixel precision)"
group.long 0x45C++0x3
line.long 0x00 "IME3_VALID_AREA0_BOTTOM_RIGHT_COORDINATES,Bottom right coordinates"
hexmask.long.word 0x00 16.--31. 1. " Y                    ,Valid area bottom right limit in the circular buffer (Y coordinate, quarter pixel precision)"
hexmask.long.word 0x00 0.--15. 1. "      X                   ,Valid area top left limit in the circular buffer (X coordinate, quarter pixel precision)"
group.long 0x460++0x3
line.long 0x00 "IME3_VALID_AREA1_TOP_LEFT_COORDINATES,Top left coordinates"
hexmask.long.word 0x00 16.--31. 1. " Y                    ,Valid area bottom right limit in the circular buffer (Y coordinate, quarter pixel precision)"
hexmask.long.word 0x00 0.--15. 1. "      X                   ,Valid area top left limit in the circular buffer (X coordinate, quarter pixel precision)"
group.long 0x468++0x3
line.long 0x00 "IME3_VECMEANHOR,"
hexmask.long 0x00 0.--28. 1. " VEC_MEAN_HOR         ,Accumulates BMT0[0].dx"
group.long 0x46C++0x3
line.long 0x00 "IME3_VECMEANVER,"
hexmask.long 0x00 0.--28. 1. " VEC_MEAN_VER         ,Accumulates BMT0[0].dy"
group.long 0x470++0x3
line.long 0x00 "IME3_INTERPOLATION_REFERENCE,The Interpol Reference is the MV based on which the last interpolation has been performed. This register is updated by the Interpol APIs, and is later used for computing the MVCost and addresses when manipulating pixels fro..."
hexmask.long.word 0x00 16.--31. 1. " Y                    ,This is the 'y' coordinate of the {0,0} point of the interpol planes."
hexmask.long.word 0x00 0.--15. 1. "      X                   ,x coordinate for the origin point of the interpolation. This is the 'x' coordinate of the {0,0} point of the interpol planes. The Interpol planes contain points starting at {-1,-1} and ending at {i, j} with i=7 or i=15 and j=..."
group.long 0x474++0x3
line.long 0x00 "IME3_CIRCULAR_BUFFER_SLIDING_POSITION0,"
hexmask.long.word 0x00 18.--31. 1. " Y0                   ,Position of colocated MB in the circular buffer (Y coordinate, pixel precision)"
hexmask.long.word 0x00 2.--15. 1. "      X0                  ,Position of colocated MB in the circular buffer (X coordinate, pixel precision)"
group.long 0x478++0x3
line.long 0x00 "IME3_CIRCULAR_BUFFER_SLIDING_POSITION1,"
hexmask.long.word 0x00 18.--31. 1. " Y0                   ,Position of colocated MB in the circular buffer (Y coordinate, pixel precision)"
hexmask.long.word 0x00 2.--15. 1. "      X0                  ,Position of colocated MB in the circular buffer (X coordinate, pixel precision)"
wgroup.long 0x1FFC++0x3
line.long 0x00 "IME3_COMMANDREG,IME3 command register: a write to this register decodes a command, a read returns 0."
hexmask.long 0x00 0.--31. 1. " COMMAND              ,A write decodes a command, a read returns 0. 0x1 -> Step() 0x2 -> StopSeq() 0x3 -> DbgEnable() 0x4 -> DbgDisable()"
width 0x0B
tree.end
endif
tree "IME3_L3Interconnect"
base ad:0x5A054000
tree "Channel_0"
width 35.
group.long 0x300++0x3
line.long 0x00 "IME3_BMTABLELSB0_j_0,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 30.--31. " L0_L1_BI            ,-" "0,1,2,3"
hexmask.long.word 0x00 16.--29. 1. "         DY                         ,dy coordinate field"
bitfld.long 0x00 14.--15. "  FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
textline "                                            "
hexmask.long.word 0x00 0.--13. 1. " DX                  ,dx coordinate field"
group.long 0x380++0x3
line.long 0x00 "IME3_BMTABLELSB1_j_0,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELBOTOM   ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x304++0x3
line.long 0x00 "IME3_BMTABLEMSB0_j_0,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x384++0x3
line.long 0x00 "IME3_BMTABLEMSB1_j_0,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x100++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_0,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x200++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_0,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x204++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_0,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0x40++0x3
line.long 0x00 "IME3_INTERPOL_PARAMETER_STACK_k_0,Interpolation Filter Pass Configuration"
bitfld.long 0x00 26.--31. " COEFF0              ,Coefficient vector" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 20.--25. "        COEFF1                     ,Coefficient vector" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 14.--19. "    COEFF2                     ,Coefficient vector" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                            "
bitfld.long 0x00 11.--13. " ROUND_EXPONENT      ,Rounding value - shift part" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 5.--10. "         ROUND_MANTISSA             ,Rounding value - data part" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--4. "    SHIFT                      ,Shift value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x80++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_0,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2000++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_0,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_1"
width 35.
group.long 0x308++0x3
line.long 0x00 "IME3_BMTABLELSB0_j_1,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 30.--31. " L0_L1_BI            ,-" "0,1,2,3"
hexmask.long.word 0x00 16.--29. 1. "         DY                         ,dy coordinate field"
bitfld.long 0x00 14.--15. "  FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
textline "                                            "
hexmask.long.word 0x00 0.--13. 1. " DX                  ,dx coordinate field"
group.long 0x388++0x3
line.long 0x00 "IME3_BMTABLELSB1_j_1,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELBOTOM   ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x30C++0x3
line.long 0x00 "IME3_BMTABLEMSB0_j_1,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x38C++0x3
line.long 0x00 "IME3_BMTABLEMSB1_j_1,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x104++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_1,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x208++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_1,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x20C++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_1,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0x44++0x3
line.long 0x00 "IME3_INTERPOL_PARAMETER_STACK_k_1,Interpolation Filter Pass Configuration"
bitfld.long 0x00 26.--31. " COEFF0              ,Coefficient vector" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 20.--25. "        COEFF1                     ,Coefficient vector" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 14.--19. "    COEFF2                     ,Coefficient vector" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                            "
bitfld.long 0x00 11.--13. " ROUND_EXPONENT      ,Rounding value - shift part" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 5.--10. "         ROUND_MANTISSA             ,Rounding value - data part" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--4. "    SHIFT                      ,Shift value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x84++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_1,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2004++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_2"
width 35.
group.long 0x310++0x3
line.long 0x00 "IME3_BMTABLELSB0_j_2,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 30.--31. " L0_L1_BI            ,-" "0,1,2,3"
hexmask.long.word 0x00 16.--29. 1. "         DY                         ,dy coordinate field"
bitfld.long 0x00 14.--15. "  FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
textline "                                            "
hexmask.long.word 0x00 0.--13. 1. " DX                  ,dx coordinate field"
group.long 0x390++0x3
line.long 0x00 "IME3_BMTABLELSB1_j_2,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELBOTOM   ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x314++0x3
line.long 0x00 "IME3_BMTABLEMSB0_j_2,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x394++0x3
line.long 0x00 "IME3_BMTABLEMSB1_j_2,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x108++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_2,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x210++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_2,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x214++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_2,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0x48++0x3
line.long 0x00 "IME3_INTERPOL_PARAMETER_STACK_k_2,Interpolation Filter Pass Configuration"
bitfld.long 0x00 26.--31. " COEFF0              ,Coefficient vector" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 20.--25. "        COEFF1                     ,Coefficient vector" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 14.--19. "    COEFF2                     ,Coefficient vector" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                            "
bitfld.long 0x00 11.--13. " ROUND_EXPONENT      ,Rounding value - shift part" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 5.--10. "         ROUND_MANTISSA             ,Rounding value - data part" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--4. "    SHIFT                      ,Shift value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x88++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_2,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2008++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_3"
width 35.
group.long 0x318++0x3
line.long 0x00 "IME3_BMTABLELSB0_j_3,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 30.--31. " L0_L1_BI            ,-" "0,1,2,3"
hexmask.long.word 0x00 16.--29. 1. "         DY                         ,dy coordinate field"
bitfld.long 0x00 14.--15. "  FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
textline "                                            "
hexmask.long.word 0x00 0.--13. 1. " DX                  ,dx coordinate field"
group.long 0x398++0x3
line.long 0x00 "IME3_BMTABLELSB1_j_3,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELBOTOM   ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x31C++0x3
line.long 0x00 "IME3_BMTABLEMSB0_j_3,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x39C++0x3
line.long 0x00 "IME3_BMTABLEMSB1_j_3,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x10C++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_3,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x218++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_3,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x21C++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_3,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0x4C++0x3
line.long 0x00 "IME3_INTERPOL_PARAMETER_STACK_k_3,Interpolation Filter Pass Configuration"
bitfld.long 0x00 26.--31. " COEFF0              ,Coefficient vector" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 20.--25. "        COEFF1                     ,Coefficient vector" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 14.--19. "    COEFF2                     ,Coefficient vector" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                            "
bitfld.long 0x00 11.--13. " ROUND_EXPONENT      ,Rounding value - shift part" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 5.--10. "         ROUND_MANTISSA             ,Rounding value - data part" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--4. "    SHIFT                      ,Shift value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x8C++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_3,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x200C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_3,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_4"
width 25.
group.long 0x320++0x3
line.long 0x00 "IME3_BMTABLELSB0_j_4,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 30.--31. " L0_L1_BI            ,-" "0,1,2,3"
hexmask.long.word 0x00 16.--29. 1. "         DY                         ,dy coordinate field"
bitfld.long 0x00 14.--15. "  FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
textline "                                  "
hexmask.long.word 0x00 0.--13. 1. " DX                  ,dx coordinate field"
group.long 0x3A0++0x3
line.long 0x00 "IME3_BMTABLELSB1_j_4,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELBOTOM   ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x324++0x3
line.long 0x00 "IME3_BMTABLEMSB0_j_4,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x3A4++0x3
line.long 0x00 "IME3_BMTABLEMSB1_j_4,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x110++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_4,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x220++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_4,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x224++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_4,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0x90++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_4,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2010++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_4,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_5"
width 25.
group.long 0x328++0x3
line.long 0x00 "IME3_BMTABLELSB0_j_5,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 30.--31. " L0_L1_BI            ,-" "0,1,2,3"
hexmask.long.word 0x00 16.--29. 1. "         DY                         ,dy coordinate field"
bitfld.long 0x00 14.--15. "  FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
textline "                                  "
hexmask.long.word 0x00 0.--13. 1. " DX                  ,dx coordinate field"
group.long 0x3A8++0x3
line.long 0x00 "IME3_BMTABLELSB1_j_5,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELBOTOM   ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x32C++0x3
line.long 0x00 "IME3_BMTABLEMSB0_j_5,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x3AC++0x3
line.long 0x00 "IME3_BMTABLEMSB1_j_5,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x114++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_5,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x228++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_5,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x22C++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_5,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0x94++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_5,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2014++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_5,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_6"
width 25.
group.long 0x330++0x3
line.long 0x00 "IME3_BMTABLELSB0_j_6,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 30.--31. " L0_L1_BI            ,-" "0,1,2,3"
hexmask.long.word 0x00 16.--29. 1. "         DY                         ,dy coordinate field"
bitfld.long 0x00 14.--15. "  FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
textline "                                  "
hexmask.long.word 0x00 0.--13. 1. " DX                  ,dx coordinate field"
group.long 0x3B0++0x3
line.long 0x00 "IME3_BMTABLELSB1_j_6,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELBOTOM   ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x334++0x3
line.long 0x00 "IME3_BMTABLEMSB0_j_6,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x3B4++0x3
line.long 0x00 "IME3_BMTABLEMSB1_j_6,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x118++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_6,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x230++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_6,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x234++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_6,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0x98++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_6,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2018++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_6,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_7"
width 25.
group.long 0x338++0x3
line.long 0x00 "IME3_BMTABLELSB0_j_7,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 30.--31. " L0_L1_BI            ,-" "0,1,2,3"
hexmask.long.word 0x00 16.--29. 1. "         DY                         ,dy coordinate field"
bitfld.long 0x00 14.--15. "  FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
textline "                                  "
hexmask.long.word 0x00 0.--13. 1. " DX                  ,dx coordinate field"
group.long 0x3B8++0x3
line.long 0x00 "IME3_BMTABLELSB1_j_7,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELBOTOM   ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x33C++0x3
line.long 0x00 "IME3_BMTABLEMSB0_j_7,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x3BC++0x3
line.long 0x00 "IME3_BMTABLEMSB1_j_7,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x11C++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_7,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x238++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_7,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x23C++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_7,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0x9C++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_7,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x201C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_7,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_8"
width 25.
group.long 0x340++0x3
line.long 0x00 "IME3_BMTABLELSB0_j_8,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 30.--31. " L0_L1_BI            ,-" "0,1,2,3"
hexmask.long.word 0x00 16.--29. 1. "         DY                         ,dy coordinate field"
bitfld.long 0x00 14.--15. "  FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
textline "                                  "
hexmask.long.word 0x00 0.--13. 1. " DX                  ,dx coordinate field"
group.long 0x3C0++0x3
line.long 0x00 "IME3_BMTABLELSB1_j_8,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELBOTOM   ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x344++0x3
line.long 0x00 "IME3_BMTABLEMSB0_j_8,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x3C4++0x3
line.long 0x00 "IME3_BMTABLEMSB1_j_8,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x120++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_8,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x240++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_8,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x244++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_8,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xA0++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_8,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2020++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_8,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_9"
width 25.
group.long 0x348++0x3
line.long 0x00 "IME3_BMTABLELSB0_j_9,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 30.--31. " L0_L1_BI            ,-" "0,1,2,3"
hexmask.long.word 0x00 16.--29. 1. "         DY                         ,dy coordinate field"
bitfld.long 0x00 14.--15. "  FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
textline "                                  "
hexmask.long.word 0x00 0.--13. 1. " DX                  ,dx coordinate field"
group.long 0x3C8++0x3
line.long 0x00 "IME3_BMTABLELSB1_j_9,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELBOTOM   ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x34C++0x3
line.long 0x00 "IME3_BMTABLEMSB0_j_9,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x3CC++0x3
line.long 0x00 "IME3_BMTABLEMSB1_j_9,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the 1..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x124++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_9,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x248++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_9,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x24C++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_9,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xA4++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_9,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2024++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_9,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_10"
width 26.
group.long 0x350++0x3
line.long 0x00 "IME3_BMTABLELSB0_j_10,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 30.--31. " L0_L1_BI            ,-" "0,1,2,3"
hexmask.long.word 0x00 16.--29. 1. "         DY                         ,dy coordinate field"
bitfld.long 0x00 14.--15. "  FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
textline "                                   "
hexmask.long.word 0x00 0.--13. 1. " DX                  ,dx coordinate field"
group.long 0x3D0++0x3
line.long 0x00 "IME3_BMTABLELSB1_j_10,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELBOTOM   ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x354++0x3
line.long 0x00 "IME3_BMTABLEMSB0_j_10,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x3D4++0x3
line.long 0x00 "IME3_BMTABLEMSB1_j_10,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x128++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_10,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x250++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_10,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x254++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_10,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xA8++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_10,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2028++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_10,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_11"
width 26.
group.long 0x358++0x3
line.long 0x00 "IME3_BMTABLELSB0_j_11,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 30.--31. " L0_L1_BI            ,-" "0,1,2,3"
hexmask.long.word 0x00 16.--29. 1. "         DY                         ,dy coordinate field"
bitfld.long 0x00 14.--15. "  FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
textline "                                   "
hexmask.long.word 0x00 0.--13. 1. " DX                  ,dx coordinate field"
group.long 0x3D8++0x3
line.long 0x00 "IME3_BMTABLELSB1_j_11,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELBOTOM   ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x35C++0x3
line.long 0x00 "IME3_BMTABLEMSB0_j_11,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x3DC++0x3
line.long 0x00 "IME3_BMTABLEMSB1_j_11,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x12C++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_11,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x258++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_11,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x25C++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_11,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xAC++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_11,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x202C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_11,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_12"
width 26.
group.long 0x360++0x3
line.long 0x00 "IME3_BMTABLELSB0_j_12,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 30.--31. " L0_L1_BI            ,-" "0,1,2,3"
hexmask.long.word 0x00 16.--29. 1. "         DY                         ,dy coordinate field"
bitfld.long 0x00 14.--15. "  FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
textline "                                   "
hexmask.long.word 0x00 0.--13. 1. " DX                  ,dx coordinate field"
group.long 0x3E0++0x3
line.long 0x00 "IME3_BMTABLELSB1_j_12,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELBOTOM   ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x364++0x3
line.long 0x00 "IME3_BMTABLEMSB0_j_12,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x3E4++0x3
line.long 0x00 "IME3_BMTABLEMSB1_j_12,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x130++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_12,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x260++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_12,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x264++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_12,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xB0++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_12,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2030++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_12,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_13"
width 26.
group.long 0x368++0x3
line.long 0x00 "IME3_BMTABLELSB0_j_13,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 30.--31. " L0_L1_BI            ,-" "0,1,2,3"
hexmask.long.word 0x00 16.--29. 1. "         DY                         ,dy coordinate field"
bitfld.long 0x00 14.--15. "  FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
textline "                                   "
hexmask.long.word 0x00 0.--13. 1. " DX                  ,dx coordinate field"
group.long 0x3E8++0x3
line.long 0x00 "IME3_BMTABLELSB1_j_13,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELBOTOM   ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x36C++0x3
line.long 0x00 "IME3_BMTABLEMSB0_j_13,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x3EC++0x3
line.long 0x00 "IME3_BMTABLEMSB1_j_13,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x134++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_13,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x268++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_13,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x26C++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_13,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xB4++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_13,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2034++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_13,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_14"
width 26.
group.long 0x370++0x3
line.long 0x00 "IME3_BMTABLELSB0_j_14,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 30.--31. " L0_L1_BI            ,-" "0,1,2,3"
hexmask.long.word 0x00 16.--29. 1. "         DY                         ,dy coordinate field"
bitfld.long 0x00 14.--15. "  FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
textline "                                   "
hexmask.long.word 0x00 0.--13. 1. " DX                  ,dx coordinate field"
group.long 0x3F0++0x3
line.long 0x00 "IME3_BMTABLELSB1_j_14,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELBOTOM   ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x374++0x3
line.long 0x00 "IME3_BMTABLEMSB0_j_14,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x3F4++0x3
line.long 0x00 "IME3_BMTABLEMSB1_j_14,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x138++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_14,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x270++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_14,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x274++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_14,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xB8++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_14,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2038++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_14,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_15"
width 26.
group.long 0x378++0x3
line.long 0x00 "IME3_BMTABLELSB0_j_15,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 30.--31. " L0_L1_BI            ,-" "0,1,2,3"
hexmask.long.word 0x00 16.--29. 1. "         DY                         ,dy coordinate field"
bitfld.long 0x00 14.--15. "  FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
textline "                                   "
hexmask.long.word 0x00 0.--13. 1. " DX                  ,dx coordinate field"
group.long 0x3F8++0x3
line.long 0x00 "IME3_BMTABLELSB1_j_15,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELBOTOM   ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x37C++0x3
line.long 0x00 "IME3_BMTABLEMSB0_j_15,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x3FC++0x3
line.long 0x00 "IME3_BMTABLEMSB1_j_15,Best Match Table : register file contain result of Error Table comparisson. BestMatchTable0 is for List0 computation. BestMatchTable1 is for List1 computation. Each Best Match Table position correspond to one sub-partition of the ..."
bitfld.long 0x00 29.--31. " REF_IDX             ,Reference Frame Idx, provided by software" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--28. 1. "         MV_COST                    ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "  ERRORVALUE                 ,error field"
group.long 0x13C++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_15,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x278++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_15,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX                         ,dx coordinate field"
group.long 0x27C++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_15,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xBC++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_15,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x203C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_15,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_16"
width 26.
group.long 0x140++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_16,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x280++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_16,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX ,dx coordinate field"
group.long 0x284++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_16,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xC0++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_16,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2040++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_16,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_17"
width 26.
group.long 0x144++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_17,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x288++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_17,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX ,dx coordinate field"
group.long 0x28C++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_17,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xC4++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_17,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2044++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_17,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_18"
width 26.
group.long 0x148++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_18,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x290++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_18,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX ,dx coordinate field"
group.long 0x294++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_18,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xC8++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_18,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2048++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_18,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_19"
width 26.
group.long 0x14C++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_19,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x298++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_19,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX ,dx coordinate field"
group.long 0x29C++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_19,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xCC++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_19,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x204C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_19,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_20"
width 26.
group.long 0x150++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_20,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2A0++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_20,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX ,dx coordinate field"
group.long 0x2A4++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_20,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xD0++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_20,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2050++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_20,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_21"
width 26.
group.long 0x154++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_21,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2A8++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_21,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX ,dx coordinate field"
group.long 0x2AC++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_21,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xD4++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_21,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2054++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_21,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_22"
width 26.
group.long 0x158++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_22,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2B0++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_22,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX ,dx coordinate field"
group.long 0x2B4++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_22,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xD8++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_22,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2058++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_22,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_23"
width 26.
group.long 0x15C++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_23,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2B8++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_23,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX ,dx coordinate field"
group.long 0x2BC++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_23,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xDC++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_23,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x205C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_23,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_24"
width 26.
group.long 0x160++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_24,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2C0++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_24,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX ,dx coordinate field"
group.long 0x2C4++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_24,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xE0++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_24,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2060++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_24,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_25"
width 26.
group.long 0x164++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_25,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2C8++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_25,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX ,dx coordinate field"
group.long 0x2CC++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_25,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xE4++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_25,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2064++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_25,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_26"
width 26.
group.long 0x168++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_26,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2D0++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_26,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX ,dx coordinate field"
group.long 0x2D4++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_26,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xE8++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_26,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2068++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_26,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_27"
width 26.
group.long 0x16C++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_27,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2D8++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_27,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX ,dx coordinate field"
group.long 0x2DC++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_27,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xEC++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_27,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x206C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_27,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_28"
width 26.
group.long 0x170++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_28,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2E0++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_28,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX ,dx coordinate field"
group.long 0x2E4++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_28,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xF0++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_28,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2070++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_28,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_29"
width 26.
group.long 0x174++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_29,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2E8++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_29,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX ,dx coordinate field"
group.long 0x2EC++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_29,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xF4++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_29,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2074++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_29,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_30"
width 26.
group.long 0x178++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_30,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2F0++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_30,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX ,dx coordinate field"
group.long 0x2F4++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_30,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xF8++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_30,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x2078++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_30,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_31"
width 26.
group.long 0x17C++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_31,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2F8++0x3
line.long 0x00 "IME3_ERRTABLELSB_i_31,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--29. 1. " DY                  ,dy coordinate field"
bitfld.long 0x00 14.--15. "      FRAME_FIELDTOP_FIELDBOTTOM ,Read returns 0" "0,1,2,3"
hexmask.long.word 0x00 0.--13. 1. "     DX ,dx coordinate field"
group.long 0x2FC++0x3
line.long 0x00 "IME3_ERRTABLEMSB_i_31,Error Table : Register File for SAD computation final errors. Each entry comprises a 16-bit error field, and 2 14-bit coordinate fields (dx and dy)."
hexmask.long.word 0x00 16.--28. 1. " MV_COST             ,MV cost"
hexmask.long.word 0x00 0.--15. 1. "      ERRORVALUE                 ,error field"
group.long 0xFC++0x3
line.long 0x00 "IME3_PARAMETERSTACK_i_31,Parameter Stack register 0 to 31 (32-bit wide). Contains parameters used by program to control the IME3 units."
hexmask.long 0x00 0.--31. 1. " PARAMSTACKN         ,Parameter N of 0 to 31"
group.long 0x207C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_31,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_32"
width 25.
group.long 0x180++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_32,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2080++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_32,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_33"
width 25.
group.long 0x184++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_33,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2084++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_33,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_34"
width 25.
group.long 0x188++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_34,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2088++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_34,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_35"
width 25.
group.long 0x18C++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_35,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x208C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_35,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_36"
width 25.
group.long 0x190++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_36,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2090++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_36,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_37"
width 25.
group.long 0x194++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_37,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2094++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_37,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_38"
width 25.
group.long 0x198++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_38,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x2098++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_38,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_39"
width 25.
group.long 0x19C++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_39,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x209C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_39,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_40"
width 25.
group.long 0x1A0++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_40,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_40,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_41"
width 25.
group.long 0x1A4++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_41,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_41,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_42"
width 25.
group.long 0x1A8++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_42,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_42,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_43"
width 25.
group.long 0x1AC++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_43,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_43,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_44"
width 25.
group.long 0x1B0++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_44,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_44,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_45"
width 25.
group.long 0x1B4++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_45,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_45,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_46"
width 25.
group.long 0x1B8++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_46,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_46,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_47"
width 25.
group.long 0x1BC++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_47,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_47,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_48"
width 25.
group.long 0x1C0++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_48,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_48,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_49"
width 25.
group.long 0x1C4++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_49,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_49,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_50"
width 25.
group.long 0x1C8++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_50,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_50,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_51"
width 25.
group.long 0x1CC++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_51,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_51,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_52"
width 25.
group.long 0x1D0++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_52,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_52,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_53"
width 25.
group.long 0x1D4++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_53,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_53,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_54"
width 25.
group.long 0x1D8++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_54,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_54,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_55"
width 25.
group.long 0x1DC++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_55,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_55,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_56"
width 25.
group.long 0x1E0++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_56,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_56,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_57"
width 25.
group.long 0x1E4++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_57,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_57,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_58"
width 25.
group.long 0x1E8++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_58,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_58,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_59"
width 25.
group.long 0x1EC++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_59,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_59,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_60"
width 25.
group.long 0x1F0++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_60,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_60,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_61"
width 25.
group.long 0x1F4++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_61,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_61,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_62"
width 25.
group.long 0x1F8++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_62,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_62,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
tree "Channel_63"
width 27.
group.long 0x1FC++0x3
line.long 0x00 "IME3_CURRENTBLOCK_l_63,Current Macroblock : 16 lines of 16 bytes containing the Current MacroBlock for SAD computation."
hexmask.long 0x00 0.--31. 1. " CURRENTBLOCKWORD    ,Current MacroBlock for SAD calculation"
group.long 0x20FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_63,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2100++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_64,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2104++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_65,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2108++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_66,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x210C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_67,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2110++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_68,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2114++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_69,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2118++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_70,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x211C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_71,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2120++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_72,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2124++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_73,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2128++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_74,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x212C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_75,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2130++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_76,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2134++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_77,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2138++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_78,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x213C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_79,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2140++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_80,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2144++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_81,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2148++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_82,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x214C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_83,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2150++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_84,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2154++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_85,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2158++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_86,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x215C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_87,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2160++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_88,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2164++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_89,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2168++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_90,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x216C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_91,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2170++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_92,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2174++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_93,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2178++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_94,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x217C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_95,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2180++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_96,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2184++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_97,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2188++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_98,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x218C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_99,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2190++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_100,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2194++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_101,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2198++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_102,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x219C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_103,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_104,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_105,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_106,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_107,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_108,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_109,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_110,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_111,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_112,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_113,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_114,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_115,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_116,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_117,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_118,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_119,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_120,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_121,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_122,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_123,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_124,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_125,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_126,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x21FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_127,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2200++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_128,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2204++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_129,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2208++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_130,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x220C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_131,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2210++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_132,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2214++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_133,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2218++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_134,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x221C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_135,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2220++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_136,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2224++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_137,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2228++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_138,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x222C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_139,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2230++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_140,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2234++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_141,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2238++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_142,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x223C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_143,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2240++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_144,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2244++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_145,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2248++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_146,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x224C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_147,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2250++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_148,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2254++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_149,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2258++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_150,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x225C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_151,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2260++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_152,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2264++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_153,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2268++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_154,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x226C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_155,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2270++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_156,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2274++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_157,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2278++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_158,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x227C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_159,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2280++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_160,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2284++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_161,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2288++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_162,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x228C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_163,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2290++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_164,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2294++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_165,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2298++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_166,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x229C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_167,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_168,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_169,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_170,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_171,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_172,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_173,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_174,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_175,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_176,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_177,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_178,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_179,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_180,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_181,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_182,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_183,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_184,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_185,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_186,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_187,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_188,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_189,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_190,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x22FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_191,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2300++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_192,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2304++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_193,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2308++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_194,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x230C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_195,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2310++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_196,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2314++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_197,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2318++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_198,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x231C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_199,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2320++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_200,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2324++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_201,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2328++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_202,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x232C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_203,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2330++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_204,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2334++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_205,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2338++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_206,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x233C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_207,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2340++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_208,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2344++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_209,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2348++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_210,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x234C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_211,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2350++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_212,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2354++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_213,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2358++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_214,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x235C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_215,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2360++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_216,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2364++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_217,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2368++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_218,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x236C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_219,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2370++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_220,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2374++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_221,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2378++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_222,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x237C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_223,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2380++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_224,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2384++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_225,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2388++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_226,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x238C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_227,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2390++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_228,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2394++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_229,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2398++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_230,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x239C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_231,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_232,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_233,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_234,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_235,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_236,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_237,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_238,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_239,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_240,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_241,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_242,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_243,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_244,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_245,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_246,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_247,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_248,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_249,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_250,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_251,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_252,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_253,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_254,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x23FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_255,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2400++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_256,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2404++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_257,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2408++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_258,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x240C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_259,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2410++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_260,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2414++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_261,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2418++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_262,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x241C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_263,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2420++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_264,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2424++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_265,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2428++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_266,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x242C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_267,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2430++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_268,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2434++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_269,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2438++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_270,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x243C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_271,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2440++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_272,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2444++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_273,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2448++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_274,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x244C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_275,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2450++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_276,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2454++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_277,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2458++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_278,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x245C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_279,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2460++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_280,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2464++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_281,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2468++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_282,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x246C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_283,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2470++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_284,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2474++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_285,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2478++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_286,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x247C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_287,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2480++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_288,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2484++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_289,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2488++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_290,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x248C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_291,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2490++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_292,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2494++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_293,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2498++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_294,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x249C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_295,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_296,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_297,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_298,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_299,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_300,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_301,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_302,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_303,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_304,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_305,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_306,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_307,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_308,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_309,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_310,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_311,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_312,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_313,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_314,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_315,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_316,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_317,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_318,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x24FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_319,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2500++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_320,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2504++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_321,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2508++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_322,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x250C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_323,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2510++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_324,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2514++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_325,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2518++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_326,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x251C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_327,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2520++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_328,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2524++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_329,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2528++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_330,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x252C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_331,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2530++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_332,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2534++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_333,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2538++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_334,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x253C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_335,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2540++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_336,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2544++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_337,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2548++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_338,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x254C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_339,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2550++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_340,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2554++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_341,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2558++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_342,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x255C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_343,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2560++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_344,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2564++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_345,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2568++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_346,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x256C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_347,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2570++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_348,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2574++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_349,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2578++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_350,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x257C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_351,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2580++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_352,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2584++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_353,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2588++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_354,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x258C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_355,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2590++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_356,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2594++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_357,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2598++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_358,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x259C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_359,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_360,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_361,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_362,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_363,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_364,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_365,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_366,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_367,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_368,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_369,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_370,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_371,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_372,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_373,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_374,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_375,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_376,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_377,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_378,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_379,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_380,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_381,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_382,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x25FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_383,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2600++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_384,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2604++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_385,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2608++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_386,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x260C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_387,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2610++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_388,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2614++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_389,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2618++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_390,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x261C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_391,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2620++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_392,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2624++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_393,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2628++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_394,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x262C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_395,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2630++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_396,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2634++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_397,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2638++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_398,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x263C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_399,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2640++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_400,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2644++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_401,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2648++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_402,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x264C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_403,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2650++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_404,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2654++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_405,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2658++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_406,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x265C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_407,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2660++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_408,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2664++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_409,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2668++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_410,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x266C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_411,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2670++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_412,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2674++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_413,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2678++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_414,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x267C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_415,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2680++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_416,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2684++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_417,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2688++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_418,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x268C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_419,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2690++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_420,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2694++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_421,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2698++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_422,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x269C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_423,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_424,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_425,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_426,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_427,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_428,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_429,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_430,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_431,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_432,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_433,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_434,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_435,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_436,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_437,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_438,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_439,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_440,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_441,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_442,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_443,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_444,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_445,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_446,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x26FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_447,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2700++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_448,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2704++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_449,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2708++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_450,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x270C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_451,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2710++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_452,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2714++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_453,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2718++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_454,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x271C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_455,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2720++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_456,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2724++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_457,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2728++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_458,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x272C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_459,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2730++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_460,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2734++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_461,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2738++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_462,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x273C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_463,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2740++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_464,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2744++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_465,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2748++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_466,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x274C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_467,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2750++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_468,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2754++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_469,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2758++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_470,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x275C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_471,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2760++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_472,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2764++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_473,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2768++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_474,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x276C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_475,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2770++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_476,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2774++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_477,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2778++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_478,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x277C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_479,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2780++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_480,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2784++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_481,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2788++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_482,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x278C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_483,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2790++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_484,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2794++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_485,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2798++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_486,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x279C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_487,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_488,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_489,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_490,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_491,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_492,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_493,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_494,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_495,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_496,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_497,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_498,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_499,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_500,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_501,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_502,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_503,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_504,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_505,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_506,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_507,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_508,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_509,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_510,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x27FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_511,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2800++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_512,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2804++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_513,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2808++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_514,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x280C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_515,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2810++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_516,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2814++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_517,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2818++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_518,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x281C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_519,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2820++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_520,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2824++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_521,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2828++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_522,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x282C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_523,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2830++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_524,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2834++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_525,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2838++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_526,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x283C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_527,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2840++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_528,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2844++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_529,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2848++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_530,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x284C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_531,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2850++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_532,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2854++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_533,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2858++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_534,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x285C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_535,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2860++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_536,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2864++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_537,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2868++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_538,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x286C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_539,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2870++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_540,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2874++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_541,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2878++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_542,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x287C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_543,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2880++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_544,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2884++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_545,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2888++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_546,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x288C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_547,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2890++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_548,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2894++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_549,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2898++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_550,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x289C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_551,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_552,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_553,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_554,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_555,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_556,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_557,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_558,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_559,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_560,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_561,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_562,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_563,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_564,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_565,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_566,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_567,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_568,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_569,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_570,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_571,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_572,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_573,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_574,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x28FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_575,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2900++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_576,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2904++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_577,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2908++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_578,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x290C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_579,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2910++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_580,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2914++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_581,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2918++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_582,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x291C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_583,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2920++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_584,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2924++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_585,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2928++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_586,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x292C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_587,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2930++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_588,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2934++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_589,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2938++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_590,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x293C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_591,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2940++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_592,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2944++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_593,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2948++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_594,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x294C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_595,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2950++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_596,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2954++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_597,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2958++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_598,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x295C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_599,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2960++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_600,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2964++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_601,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2968++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_602,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x296C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_603,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2970++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_604,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2974++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_605,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2978++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_606,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x297C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_607,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2980++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_608,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2984++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_609,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2988++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_610,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x298C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_611,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2990++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_612,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2994++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_613,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2998++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_614,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x299C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_615,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_616,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_617,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_618,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_619,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_620,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_621,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_622,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_623,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_624,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_625,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_626,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_627,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_628,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_629,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_630,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_631,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_632,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_633,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_634,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_635,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_636,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_637,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_638,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x29FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_639,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A00++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_640,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A04++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_641,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A08++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_642,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A0C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_643,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A10++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_644,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A14++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_645,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A18++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_646,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A1C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_647,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A20++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_648,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A24++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_649,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A28++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_650,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A2C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_651,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A30++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_652,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A34++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_653,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A38++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_654,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A3C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_655,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A40++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_656,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A44++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_657,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A48++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_658,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A4C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_659,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A50++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_660,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A54++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_661,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A58++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_662,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A5C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_663,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A60++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_664,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A64++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_665,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A68++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_666,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A6C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_667,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A70++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_668,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A74++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_669,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A78++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_670,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A7C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_671,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A80++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_672,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A84++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_673,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A88++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_674,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A8C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_675,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A90++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_676,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A94++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_677,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A98++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_678,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2A9C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_679,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AA0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_680,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AA4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_681,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AA8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_682,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AAC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_683,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AB0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_684,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AB4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_685,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AB8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_686,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2ABC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_687,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AC0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_688,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AC4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_689,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AC8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_690,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2ACC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_691,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AD0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_692,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AD4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_693,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AD8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_694,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2ADC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_695,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AE0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_696,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AE4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_697,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AE8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_698,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AEC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_699,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AF0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_700,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AF4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_701,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AF8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_702,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2AFC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_703,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B00++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_704,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B04++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_705,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B08++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_706,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B0C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_707,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B10++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_708,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B14++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_709,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B18++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_710,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B1C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_711,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B20++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_712,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B24++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_713,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B28++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_714,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B2C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_715,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B30++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_716,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B34++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_717,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B38++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_718,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B3C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_719,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B40++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_720,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B44++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_721,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B48++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_722,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B4C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_723,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B50++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_724,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B54++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_725,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B58++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_726,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B5C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_727,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B60++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_728,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B64++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_729,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B68++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_730,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B6C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_731,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B70++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_732,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B74++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_733,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B78++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_734,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B7C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_735,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B80++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_736,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B84++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_737,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B88++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_738,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B8C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_739,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B90++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_740,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B94++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_741,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B98++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_742,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2B9C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_743,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BA0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_744,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BA4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_745,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BA8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_746,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BAC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_747,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BB0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_748,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BB4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_749,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BB8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_750,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BBC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_751,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BC0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_752,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BC4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_753,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BC8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_754,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BCC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_755,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BD0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_756,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BD4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_757,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BD8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_758,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BDC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_759,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BE0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_760,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BE4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_761,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BE8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_762,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BEC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_763,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BF0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_764,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BF4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_765,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BF8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_766,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2BFC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_767,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C00++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_768,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C04++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_769,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C08++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_770,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C0C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_771,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C10++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_772,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C14++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_773,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C18++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_774,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C1C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_775,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C20++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_776,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C24++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_777,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C28++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_778,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C2C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_779,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C30++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_780,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C34++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_781,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C38++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_782,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C3C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_783,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C40++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_784,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C44++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_785,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C48++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_786,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C4C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_787,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C50++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_788,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C54++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_789,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C58++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_790,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C5C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_791,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C60++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_792,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C64++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_793,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C68++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_794,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C6C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_795,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C70++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_796,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C74++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_797,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C78++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_798,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C7C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_799,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C80++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_800,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C84++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_801,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C88++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_802,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C8C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_803,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C90++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_804,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C94++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_805,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C98++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_806,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2C9C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_807,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CA0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_808,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CA4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_809,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CA8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_810,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CAC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_811,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CB0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_812,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CB4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_813,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CB8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_814,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CBC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_815,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CC0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_816,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CC4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_817,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CC8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_818,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CCC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_819,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CD0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_820,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CD4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_821,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CD8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_822,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CDC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_823,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CE0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_824,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CE4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_825,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CE8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_826,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CEC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_827,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CF0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_828,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CF4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_829,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CF8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_830,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2CFC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_831,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D00++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_832,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D04++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_833,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D08++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_834,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D0C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_835,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D10++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_836,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D14++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_837,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D18++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_838,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D1C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_839,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D20++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_840,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D24++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_841,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D28++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_842,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D2C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_843,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D30++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_844,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D34++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_845,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D38++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_846,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D3C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_847,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D40++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_848,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D44++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_849,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D48++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_850,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D4C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_851,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D50++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_852,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D54++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_853,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D58++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_854,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D5C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_855,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D60++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_856,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D64++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_857,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D68++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_858,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D6C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_859,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D70++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_860,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D74++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_861,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D78++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_862,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D7C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_863,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D80++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_864,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D84++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_865,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D88++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_866,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D8C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_867,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D90++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_868,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D94++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_869,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D98++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_870,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2D9C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_871,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DA0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_872,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DA4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_873,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DA8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_874,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DAC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_875,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DB0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_876,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DB4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_877,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DB8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_878,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DBC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_879,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DC0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_880,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DC4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_881,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DC8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_882,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DCC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_883,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DD0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_884,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DD4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_885,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DD8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_886,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DDC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_887,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DE0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_888,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DE4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_889,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DE8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_890,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DEC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_891,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DF0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_892,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DF4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_893,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DF8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_894,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2DFC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_895,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E00++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_896,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E04++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_897,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E08++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_898,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E0C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_899,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E10++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_900,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E14++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_901,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E18++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_902,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E1C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_903,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E20++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_904,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E24++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_905,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E28++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_906,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E2C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_907,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E30++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_908,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E34++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_909,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E38++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_910,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E3C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_911,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E40++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_912,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E44++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_913,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E48++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_914,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E4C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_915,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E50++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_916,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E54++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_917,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E58++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_918,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E5C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_919,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E60++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_920,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E64++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_921,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E68++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_922,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E6C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_923,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E70++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_924,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E74++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_925,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E78++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_926,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E7C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_927,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E80++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_928,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E84++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_929,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E88++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_930,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E8C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_931,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E90++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_932,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E94++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_933,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E98++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_934,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2E9C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_935,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EA0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_936,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EA4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_937,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EA8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_938,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EAC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_939,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EB0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_940,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EB4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_941,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EB8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_942,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EBC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_943,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EC0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_944,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EC4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_945,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EC8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_946,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2ECC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_947,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2ED0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_948,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2ED4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_949,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2ED8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_950,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EDC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_951,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EE0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_952,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EE4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_953,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EE8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_954,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EEC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_955,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EF0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_956,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EF4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_957,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EF8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_958,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2EFC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_959,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F00++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_960,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F04++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_961,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F08++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_962,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F0C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_963,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F10++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_964,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F14++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_965,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F18++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_966,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F1C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_967,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F20++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_968,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F24++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_969,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F28++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_970,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F2C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_971,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F30++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_972,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F34++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_973,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F38++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_974,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F3C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_975,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F40++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_976,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F44++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_977,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F48++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_978,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F4C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_979,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F50++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_980,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F54++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_981,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F58++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_982,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F5C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_983,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F60++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_984,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F64++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_985,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F68++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_986,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F6C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_987,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F70++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_988,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F74++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_989,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F78++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_990,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F7C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_991,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F80++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_992,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F84++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_993,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F88++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_994,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F8C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_995,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F90++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_996,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F94++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_997,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F98++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_998,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2F9C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_999,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FA0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1000,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FA4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1001,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FA8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1002,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FAC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1003,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FB0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1004,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FB4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1005,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FB8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1006,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FBC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1007,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FC0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1008,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FC4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1009,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FC8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1010,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FCC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1011,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FD0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1012,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FD4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1013,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FD8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1014,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FDC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1015,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FE0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1016,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FE4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1017,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FE8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1018,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FEC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1019,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FF0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1020,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FF4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1021,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FF8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1022,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x2FFC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1023,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3000++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1024,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3004++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1025,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3008++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1026,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x300C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1027,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3010++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1028,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3014++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1029,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3018++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1030,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x301C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1031,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3020++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1032,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3024++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1033,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3028++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1034,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x302C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1035,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3030++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1036,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3034++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1037,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3038++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1038,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x303C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1039,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3040++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1040,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3044++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1041,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3048++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1042,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x304C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1043,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3050++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1044,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3054++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1045,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3058++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1046,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x305C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1047,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3060++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1048,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3064++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1049,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3068++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1050,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x306C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1051,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3070++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1052,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3074++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1053,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3078++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1054,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x307C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1055,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3080++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1056,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3084++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1057,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3088++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1058,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x308C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1059,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3090++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1060,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3094++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1061,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3098++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1062,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x309C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1063,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1064,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1065,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1066,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1067,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1068,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1069,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1070,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1071,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1072,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1073,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1074,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1075,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1076,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1077,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1078,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1079,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1080,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1081,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1082,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1083,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1084,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1085,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1086,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x30FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1087,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3100++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1088,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3104++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1089,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3108++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1090,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x310C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1091,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3110++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1092,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3114++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1093,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3118++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1094,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x311C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1095,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3120++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1096,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3124++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1097,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3128++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1098,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x312C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1099,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3130++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1100,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3134++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1101,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3138++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1102,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x313C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1103,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3140++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1104,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3144++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1105,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3148++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1106,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x314C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1107,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3150++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1108,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3154++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1109,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3158++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1110,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x315C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1111,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3160++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1112,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3164++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1113,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3168++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1114,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x316C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1115,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3170++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1116,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3174++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1117,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3178++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1118,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x317C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1119,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3180++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1120,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3184++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1121,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3188++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1122,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x318C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1123,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3190++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1124,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3194++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1125,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3198++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1126,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x319C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1127,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1128,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1129,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1130,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1131,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1132,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1133,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1134,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1135,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1136,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1137,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1138,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1139,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1140,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1141,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1142,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1143,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1144,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1145,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1146,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1147,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1148,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1149,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1150,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x31FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1151,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3200++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1152,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3204++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1153,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3208++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1154,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x320C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1155,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3210++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1156,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3214++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1157,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3218++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1158,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x321C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1159,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3220++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1160,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3224++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1161,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3228++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1162,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x322C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1163,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3230++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1164,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3234++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1165,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3238++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1166,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x323C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1167,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3240++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1168,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3244++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1169,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3248++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1170,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x324C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1171,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3250++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1172,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3254++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1173,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3258++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1174,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x325C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1175,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3260++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1176,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3264++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1177,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3268++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1178,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x326C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1179,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3270++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1180,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3274++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1181,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3278++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1182,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x327C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1183,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3280++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1184,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3284++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1185,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3288++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1186,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x328C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1187,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3290++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1188,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3294++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1189,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3298++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1190,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x329C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1191,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1192,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1193,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1194,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1195,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1196,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1197,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1198,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1199,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1200,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1201,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1202,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1203,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1204,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1205,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1206,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1207,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1208,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1209,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1210,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1211,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1212,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1213,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1214,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x32FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1215,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3300++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1216,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3304++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1217,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3308++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1218,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x330C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1219,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3310++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1220,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3314++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1221,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3318++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1222,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x331C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1223,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3320++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1224,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3324++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1225,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3328++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1226,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x332C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1227,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3330++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1228,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3334++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1229,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3338++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1230,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x333C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1231,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3340++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1232,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3344++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1233,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3348++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1234,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x334C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1235,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3350++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1236,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3354++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1237,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3358++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1238,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x335C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1239,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3360++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1240,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3364++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1241,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3368++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1242,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x336C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1243,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3370++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1244,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3374++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1245,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3378++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1246,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x337C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1247,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3380++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1248,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3384++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1249,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3388++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1250,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x338C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1251,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3390++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1252,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3394++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1253,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3398++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1254,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x339C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1255,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1256,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1257,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1258,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1259,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1260,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1261,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1262,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1263,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1264,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1265,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1266,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1267,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1268,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1269,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1270,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1271,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1272,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1273,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1274,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1275,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1276,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1277,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1278,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x33FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1279,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3400++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1280,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3404++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1281,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3408++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1282,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x340C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1283,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3410++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1284,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3414++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1285,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3418++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1286,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x341C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1287,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3420++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1288,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3424++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1289,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3428++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1290,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x342C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1291,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3430++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1292,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3434++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1293,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3438++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1294,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x343C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1295,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3440++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1296,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3444++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1297,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3448++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1298,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x344C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1299,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3450++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1300,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3454++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1301,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3458++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1302,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x345C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1303,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3460++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1304,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3464++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1305,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3468++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1306,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x346C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1307,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3470++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1308,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3474++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1309,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3478++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1310,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x347C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1311,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3480++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1312,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3484++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1313,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3488++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1314,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x348C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1315,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3490++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1316,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3494++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1317,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3498++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1318,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x349C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1319,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1320,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1321,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1322,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1323,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1324,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1325,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1326,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1327,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1328,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1329,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1330,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1331,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1332,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1333,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1334,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1335,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1336,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1337,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1338,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1339,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1340,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1341,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1342,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x34FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1343,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3500++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1344,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3504++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1345,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3508++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1346,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x350C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1347,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3510++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1348,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3514++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1349,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3518++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1350,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x351C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1351,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3520++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1352,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3524++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1353,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3528++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1354,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x352C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1355,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3530++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1356,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3534++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1357,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3538++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1358,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x353C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1359,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3540++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1360,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3544++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1361,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3548++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1362,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x354C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1363,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3550++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1364,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3554++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1365,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3558++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1366,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x355C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1367,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3560++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1368,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3564++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1369,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3568++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1370,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x356C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1371,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3570++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1372,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3574++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1373,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3578++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1374,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x357C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1375,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3580++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1376,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3584++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1377,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3588++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1378,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x358C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1379,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3590++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1380,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3594++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1381,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3598++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1382,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x359C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1383,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1384,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1385,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1386,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1387,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1388,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1389,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1390,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1391,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1392,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1393,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1394,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1395,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1396,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1397,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1398,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1399,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1400,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1401,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1402,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1403,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1404,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1405,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1406,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x35FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1407,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3600++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1408,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3604++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1409,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3608++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1410,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x360C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1411,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3610++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1412,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3614++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1413,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3618++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1414,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x361C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1415,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3620++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1416,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3624++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1417,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3628++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1418,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x362C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1419,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3630++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1420,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3634++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1421,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3638++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1422,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x363C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1423,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3640++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1424,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3644++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1425,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3648++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1426,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x364C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1427,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3650++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1428,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3654++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1429,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3658++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1430,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x365C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1431,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3660++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1432,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3664++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1433,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3668++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1434,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x366C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1435,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3670++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1436,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3674++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1437,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3678++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1438,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x367C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1439,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3680++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1440,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3684++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1441,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3688++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1442,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x368C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1443,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3690++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1444,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3694++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1445,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3698++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1446,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x369C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1447,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1448,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1449,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1450,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1451,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1452,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1453,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1454,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1455,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1456,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1457,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1458,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1459,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1460,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1461,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1462,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1463,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1464,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1465,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1466,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1467,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1468,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1469,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1470,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x36FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1471,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3700++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1472,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3704++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1473,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3708++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1474,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x370C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1475,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3710++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1476,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3714++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1477,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3718++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1478,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x371C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1479,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3720++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1480,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3724++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1481,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3728++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1482,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x372C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1483,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3730++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1484,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3734++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1485,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3738++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1486,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x373C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1487,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3740++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1488,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3744++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1489,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3748++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1490,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x374C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1491,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3750++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1492,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3754++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1493,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3758++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1494,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x375C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1495,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3760++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1496,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3764++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1497,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3768++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1498,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x376C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1499,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3770++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1500,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3774++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1501,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3778++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1502,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x377C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1503,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3780++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1504,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3784++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1505,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3788++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1506,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x378C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1507,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3790++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1508,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3794++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1509,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3798++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1510,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x379C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1511,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1512,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1513,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1514,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1515,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1516,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1517,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1518,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1519,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1520,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1521,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1522,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1523,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1524,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1525,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1526,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1527,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1528,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1529,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1530,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1531,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1532,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1533,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1534,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x37FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1535,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3800++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1536,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3804++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1537,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3808++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1538,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x380C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1539,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3810++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1540,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3814++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1541,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3818++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1542,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x381C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1543,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3820++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1544,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3824++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1545,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3828++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1546,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x382C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1547,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3830++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1548,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3834++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1549,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3838++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1550,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x383C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1551,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3840++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1552,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3844++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1553,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3848++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1554,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x384C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1555,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3850++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1556,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3854++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1557,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3858++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1558,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x385C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1559,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3860++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1560,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3864++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1561,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3868++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1562,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x386C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1563,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3870++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1564,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3874++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1565,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3878++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1566,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x387C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1567,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3880++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1568,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3884++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1569,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3888++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1570,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x388C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1571,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3890++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1572,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3894++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1573,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3898++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1574,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x389C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1575,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1576,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1577,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1578,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1579,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1580,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1581,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1582,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1583,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1584,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1585,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1586,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1587,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1588,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1589,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1590,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1591,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1592,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1593,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1594,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1595,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1596,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1597,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1598,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x38FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1599,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3900++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1600,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3904++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1601,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3908++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1602,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x390C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1603,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3910++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1604,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3914++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1605,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3918++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1606,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x391C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1607,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3920++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1608,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3924++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1609,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3928++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1610,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x392C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1611,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3930++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1612,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3934++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1613,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3938++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1614,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x393C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1615,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3940++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1616,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3944++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1617,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3948++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1618,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x394C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1619,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3950++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1620,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3954++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1621,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3958++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1622,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x395C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1623,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3960++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1624,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3964++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1625,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3968++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1626,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x396C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1627,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3970++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1628,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3974++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1629,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3978++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1630,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x397C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1631,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3980++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1632,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3984++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1633,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3988++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1634,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x398C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1635,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3990++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1636,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3994++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1637,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3998++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1638,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x399C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1639,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39A0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1640,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39A4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1641,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39A8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1642,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39AC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1643,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39B0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1644,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39B4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1645,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39B8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1646,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39BC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1647,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39C0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1648,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39C4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1649,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39C8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1650,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39CC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1651,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39D0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1652,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39D4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1653,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39D8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1654,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39DC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1655,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39E0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1656,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39E4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1657,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39E8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1658,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39EC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1659,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39F0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1660,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39F4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1661,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39F8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1662,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x39FC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1663,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A00++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1664,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A04++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1665,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A08++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1666,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A0C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1667,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A10++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1668,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A14++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1669,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A18++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1670,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A1C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1671,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A20++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1672,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A24++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1673,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A28++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1674,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A2C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1675,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A30++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1676,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A34++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1677,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A38++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1678,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A3C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1679,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A40++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1680,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A44++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1681,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A48++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1682,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A4C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1683,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A50++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1684,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A54++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1685,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A58++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1686,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A5C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1687,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A60++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1688,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A64++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1689,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A68++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1690,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A6C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1691,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A70++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1692,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A74++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1693,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A78++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1694,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A7C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1695,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A80++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1696,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A84++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1697,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A88++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1698,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A8C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1699,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A90++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1700,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A94++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1701,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A98++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1702,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3A9C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1703,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AA0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1704,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AA4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1705,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AA8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1706,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AAC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1707,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AB0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1708,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AB4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1709,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AB8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1710,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3ABC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1711,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AC0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1712,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AC4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1713,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AC8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1714,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3ACC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1715,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AD0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1716,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AD4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1717,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AD8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1718,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3ADC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1719,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AE0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1720,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AE4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1721,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AE8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1722,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AEC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1723,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AF0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1724,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AF4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1725,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AF8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1726,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3AFC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1727,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B00++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1728,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B04++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1729,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B08++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1730,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B0C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1731,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B10++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1732,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B14++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1733,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B18++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1734,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B1C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1735,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B20++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1736,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B24++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1737,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B28++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1738,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B2C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1739,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B30++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1740,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B34++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1741,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B38++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1742,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B3C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1743,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B40++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1744,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B44++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1745,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B48++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1746,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B4C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1747,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B50++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1748,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B54++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1749,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B58++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1750,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B5C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1751,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B60++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1752,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B64++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1753,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B68++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1754,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B6C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1755,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B70++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1756,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B74++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1757,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B78++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1758,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B7C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1759,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B80++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1760,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B84++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1761,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B88++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1762,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B8C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1763,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B90++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1764,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B94++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1765,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B98++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1766,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3B9C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1767,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BA0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1768,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BA4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1769,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BA8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1770,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BAC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1771,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BB0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1772,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BB4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1773,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BB8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1774,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BBC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1775,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BC0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1776,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BC4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1777,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BC8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1778,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BCC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1779,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BD0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1780,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BD4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1781,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BD8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1782,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BDC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1783,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BE0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1784,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BE4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1785,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BE8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1786,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BEC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1787,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BF0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1788,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BF4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1789,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BF8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1790,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3BFC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1791,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C00++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1792,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C04++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1793,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C08++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1794,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C0C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1795,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C10++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1796,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C14++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1797,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C18++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1798,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C1C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1799,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C20++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1800,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C24++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1801,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C28++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1802,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C2C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1803,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C30++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1804,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C34++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1805,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C38++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1806,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C3C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1807,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C40++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1808,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C44++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1809,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C48++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1810,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C4C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1811,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C50++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1812,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C54++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1813,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C58++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1814,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C5C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1815,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C60++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1816,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C64++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1817,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C68++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1818,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C6C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1819,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C70++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1820,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C74++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1821,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C78++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1822,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C7C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1823,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C80++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1824,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C84++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1825,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C88++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1826,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C8C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1827,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C90++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1828,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C94++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1829,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C98++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1830,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3C9C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1831,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CA0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1832,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CA4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1833,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CA8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1834,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CAC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1835,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CB0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1836,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CB4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1837,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CB8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1838,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CBC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1839,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CC0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1840,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CC4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1841,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CC8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1842,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CCC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1843,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CD0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1844,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CD4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1845,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CD8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1846,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CDC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1847,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CE0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1848,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CE4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1849,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CE8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1850,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CEC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1851,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CF0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1852,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CF4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1853,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CF8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1854,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3CFC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1855,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D00++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1856,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D04++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1857,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D08++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1858,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D0C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1859,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D10++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1860,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D14++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1861,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D18++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1862,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D1C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1863,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D20++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1864,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D24++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1865,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D28++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1866,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D2C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1867,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D30++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1868,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D34++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1869,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D38++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1870,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D3C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1871,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D40++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1872,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D44++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1873,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D48++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1874,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D4C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1875,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D50++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1876,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D54++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1877,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D58++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1878,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D5C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1879,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D60++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1880,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D64++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1881,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D68++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1882,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D6C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1883,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D70++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1884,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D74++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1885,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D78++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1886,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D7C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1887,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D80++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1888,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D84++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1889,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D88++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1890,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D8C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1891,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D90++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1892,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D94++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1893,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D98++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1894,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3D9C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1895,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DA0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1896,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DA4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1897,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DA8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1898,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DAC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1899,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DB0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1900,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DB4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1901,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DB8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1902,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DBC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1903,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DC0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1904,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DC4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1905,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DC8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1906,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DCC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1907,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DD0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1908,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DD4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1909,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DD8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1910,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DDC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1911,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DE0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1912,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DE4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1913,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DE8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1914,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DEC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1915,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DF0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1916,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DF4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1917,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DF8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1918,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3DFC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1919,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E00++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1920,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E04++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1921,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E08++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1922,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E0C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1923,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E10++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1924,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E14++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1925,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E18++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1926,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E1C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1927,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E20++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1928,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E24++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1929,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E28++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1930,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E2C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1931,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E30++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1932,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E34++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1933,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E38++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1934,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E3C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1935,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E40++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1936,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E44++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1937,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E48++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1938,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E4C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1939,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E50++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1940,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E54++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1941,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E58++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1942,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E5C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1943,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E60++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1944,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E64++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1945,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E68++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1946,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E6C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1947,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E70++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1948,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E74++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1949,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E78++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1950,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E7C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1951,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E80++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1952,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E84++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1953,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E88++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1954,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E8C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1955,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E90++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1956,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E94++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1957,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E98++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1958,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3E9C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1959,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EA0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1960,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EA4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1961,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EA8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1962,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EAC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1963,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EB0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1964,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EB4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1965,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EB8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1966,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EBC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1967,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EC0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1968,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EC4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1969,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EC8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1970,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3ECC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1971,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3ED0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1972,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3ED4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1973,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3ED8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1974,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EDC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1975,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EE0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1976,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EE4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1977,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EE8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1978,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EEC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1979,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EF0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1980,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EF4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1981,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EF8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1982,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3EFC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1983,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F00++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1984,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F04++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1985,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F08++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1986,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F0C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1987,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F10++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1988,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F14++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1989,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F18++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1990,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F1C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1991,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F20++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1992,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F24++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1993,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F28++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1994,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F2C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1995,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F30++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1996,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F34++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1997,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F38++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1998,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F3C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_1999,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F40++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2000,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F44++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2001,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F48++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2002,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F4C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2003,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F50++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2004,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F54++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2005,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F58++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2006,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F5C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2007,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F60++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2008,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F64++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2009,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F68++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2010,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F6C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2011,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F70++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2012,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F74++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2013,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F78++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2014,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F7C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2015,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F80++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2016,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F84++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2017,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F88++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2018,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F8C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2019,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F90++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2020,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F94++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2021,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F98++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2022,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3F9C++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2023,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FA0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2024,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FA4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2025,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FA8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2026,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FAC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2027,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FB0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2028,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FB4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2029,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FB8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2030,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FBC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2031,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FC0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2032,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FC4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2033,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FC8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2034,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FCC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2035,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FD0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2036,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FD4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2037,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FD8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2038,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FDC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2039,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FE0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2040,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FE4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2041,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FE8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2042,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FEC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2043,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FF0++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2044,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FF4++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2045,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FF8++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2046,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
group.long 0x3FFC++0x3
line.long 0x00 "IME3_PROGRAMBUFFER_m_2047,Program Memory 32-bit word"
hexmask.long 0x00 0.--31. 1. " PROGRAM_MEMORY_WORD ,Word N of 1024"
tree.end
textline ""
width 43.
rgroup.long 0x0++0x3
line.long 0x00 "IME3_REVISION,IP Revision Identifier (X.Y.R) Used by software to track features, bugs, and compatibility"
hexmask.long 0x00 0.--31. 1. " REVISION             ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "IME3_SYSCONFIG,Clock management configuration"
bitfld.long 0x00 4.--5. " STANDBYMODE          ,Configuration of the local initiator state management mode. By definition, initiator may generate read/write transaction as long as it is out of STANDBY state. - force." "force,1,2,3"
bitfld.long 0x00 2.--3. "     IDLEMODE            ,Configuration of the local target state management mode. By definition, target can handle read/write transaction as long as it is out of IDLE state. - force. - no. - smart. - smartwakeup." "force,no,smart,smartwakeup"
bitfld.long 0x00 1. "  FREEEMU           ,Sensitivity to emulation (debug) suspend input signal. - insensitive." "0,insensitive"
textline "                                                    "
bitfld.long 0x00 0. " SOFTRESET            ,Software reset. (Optional) - done. - . - pending. - ." "done,pending"
group.long 0x20++0x3
line.long 0x00 "IME3_IRQ_EOI,End Of Interrupt number specification"
group.long 0x24++0x3
line.long 0x00 "IME3_IRQSTATUS_RAW,Per-event raw interrupt status vector, line #0. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 1. " EVENT1               ,Settable raw status for event #1 (Gen_It) - noevent. - pending. - set. - ." "noevent,set"
bitfld.long 0x00 0. "   EVENT0              ,Settable raw status for event #0 (End_Pgm) - noevent. - pending. - set. - ." "noevent,set"
group.long 0x28++0x3
line.long 0x00 "IME3_IRQSTATUS,Per-event 'enabled' interrupt status vector, line #0. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 1. " EVENT1               ,Clearable, enabled status for event #1 (Gen_it) - noevent. - pending. - clear. - ." "noevent,clear"
eventfld.long 0x00 0. "   EVENT0              ,Clearable, enabled status for event #0 (End_Pgm) - noevent. - pending. - clear. - ." "noevent,clear"
group.long 0x2C++0x3
line.long 0x00 "IME3_IRQENABLE_SET,Per-event interrupt enable bit vector, line #0. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 1. " ENABLE1              ,Enable for event #1 (Gen_It) - disabled. - . - enabled. - ." "disabled,enabled"
bitfld.long 0x00 0. "  ENABLE0             ,Enable for event #0 (End_Pgm) - disabled. - . - enabled. - ." "disabled,enabled"
group.long 0x30++0x3
line.long 0x00 "IME3_IRQENABLE_CLR,Per-event interrupt enable bit vector, line #0. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 1. " ENABLE1              ,Enable for event #1 (Gen_It) - disabled. - . - enabled. - ." "disabled,enabled"
eventfld.long 0x00 0. "  ENABLE0             ,Enable for event #0 (End_Pgm) - disabled. - . - enabled. - ." "disabled,enabled"
group.long 0x400++0x3
line.long 0x00 "IME3_MVCT0_3,MV Cost Table"
bitfld.long 0x00 24.--28. " MVCT_3               ,MV Cost Table 3" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "        MVCT_2              ,MV Cost Table 2" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "           MVCT_1            ,MV Cost Table 1" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                                    "
bitfld.long 0x00 0.--4. " MVCT_0               ,MV Cost Table 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x404++0x3
line.long 0x00 "IME3_MVCT4_7,MV Cost Table"
bitfld.long 0x00 24.--28. " MVCT_7               ,MV Cost Table 7" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "        MVCT_6              ,MV Cost Table 6" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "           MVCT_5            ,MV Cost Table 5" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                                    "
bitfld.long 0x00 0.--4. " MVCT_4               ,MV Cost Table 4" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x408++0x3
line.long 0x00 "IME3_MVCT8_11,MV Cost Table"
bitfld.long 0x00 24.--28. " MVCT_11              ,MV Cost Table 3" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "        MVCT_10             ,MV Cost Table 2" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "           MVCT_9            ,MV Cost Table 1" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                                    "
bitfld.long 0x00 0.--4. " MVCT_8               ,MV Cost Table 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x40C++0x3
line.long 0x00 "IME3_MVCT12_14,MV Cost Table"
bitfld.long 0x00 16.--20. " MVCT_14              ,MV Cost Table 14" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "        MVCT_13             ,MV Cost Table 13" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "           MVCT_12           ,MV Cost Table 12" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x410++0x3
line.long 0x00 "IME3_VEC_VAR_HOR_LO,horizontal vector variable (lower bits)"
hexmask.long 0x00 0.--31. 1. " VEC_VAR_LO           ,"
group.long 0x414++0x3
line.long 0x00 "IME3_VEC_VAR_HOR_HI,horizontal vector variable (higher bits)"
hexmask.long.byte 0x00 0.--6. 1. " VEC_VAR_HI           ,"
group.long 0x418++0x3
line.long 0x00 "IME3_VEC_VAR_VER_LO,vertical vector variable (lower bits)"
hexmask.long 0x00 0.--31. 1. " VEC_VAR_LO           ,"
group.long 0x41C++0x3
line.long 0x00 "IME3_VEC_VAR_VER_HI,vertical vector variable (higher bits)"
hexmask.long.byte 0x00 0.--6. 1. " VEC_VAR_HI           ,"
group.long 0x420++0x3
line.long 0x00 "IME3_VECABSMEANHOR,"
hexmask.long 0x00 0.--28. 1. " VEC_ABS_MEAN_HOR     ,Accumulates |BMT0[0].dx|"
group.long 0x424++0x3
line.long 0x00 "IME3_VECABSMEANVER,"
hexmask.long 0x00 0.--28. 1. " VEC_ABS_MEAN_VER     ,Accumulates |BMT0[0].dy|"
group.long 0x428++0x3
line.long 0x00 "IME3_CIRCULAR_BUFFER_DESC0,Circular Buffer 0"
bitfld.long 0x00 24. " DIRECTION            ,Horizontal or Vertical Circularity" "0,1"
hexmask.long.byte 0x00 16.--23. 1. "         OFFSET              ,In MBs"
hexmask.long.byte 0x00 8.--15. 1. "           CBW               ,Circular Buffer Width, in MBs"
textline "                                                    "
hexmask.long.byte 0x00 0.--7. 1. " CBH                  ,Circular Buffer Height, in MBs"
group.long 0x42C++0x3
line.long 0x00 "IME3_CIRCULAR_BUFFER_DESC1,Circular Buffer 1"
bitfld.long 0x00 24. " DIRECTION            ,Horizontal or Vertical Circularity" "0,1"
hexmask.long.byte 0x00 16.--23. 1. "         OFFSET              ,In MBs"
hexmask.long.byte 0x00 8.--15. 1. "           CBW               ,Circular Buffer Width, in MBs"
textline "                                                    "
hexmask.long.byte 0x00 0.--7. 1. " CBH                  ,Circular Buffer Height, in MBs"
group.long 0x430++0x3
line.long 0x00 "IME3_CPUSTATUSREG,CPU Status Register provides information on the progress of the CPU execution"
bitfld.long 0x00 31. " START_OR_STEP_TAKEN  ,Set to 1 when Step() Local Interconnect command is received. Set to 1 when SyncBox new task command is received. Set to 0 when Local Interconnect writes 0 to this bit field." "0,1"
bitfld.long 0x00 30. "         DETECTEDENDOFPGM    ,This bit is set to '1' when in Debug mode, an EndOfPgm instruction or the last instruction of ProgramBuffer has been reached." "0,1"
bitfld.long 0x00 29. "            DETECTEDSTOP      ,This bit is set to '1' when a Stop() command is received. This bit is set to '0' when a Step() command is received." "0,1"
textline "                                                    "
bitfld.long 0x00 28. " REJECTED_ACCESS      ,Set when a Local Interconnect read to the Program Memory, or an Local Interconnect write are perfromed while the IME3 is still in the EXECUTING state. Reset when the IME3 is is the INITIALIZED or COMPLETED state and a step comman..." "0,1"
bitfld.long 0x00 24.--25. "         EXECSTATE           ,0x0 => Initialized 0x1 => Halted 0x2 => Exectuting 0x3 => Completed" "0,1,2,3"
bitfld.long 0x00 19. "            RECEIVEDSIGNAL1   ,Indicates that module has received a Local Interconnect Signal1 Command. Reset by Wait_On_Signal_1() api." "0,1"
textline "                                                    "
bitfld.long 0x00 18. " WAITINGONSIGNAL1     ,Indicates that module is waiting for Local Interconnect Signal1 Command. Set by Wait_On_Signal_1() api. Reset when ReceivedSignal0 is set (by Signal1 Local Interconnect command)." "0,1"
bitfld.long 0x00 17. "         RECEIVEDSIGNAL0     ,Indicates that module has received a Local Interconnect Signal0 Command. Reset by Wait_On_Signal_0() api." "0,1"
bitfld.long 0x00 16. "            WAITINGONSIGNAL0  ,Indicates that module is waiting for Local Interconnect Signal0 Command. Set by Wait_On_Signal_0() api. Reset when ReceivedSignal0 is set (by Signal0 Local Interconnect command)." "0,1"
textline "                                                    "
hexmask.long.word 0x00 0.--15. 1. " PC                   ,Address of the instruction currently issued."
group.long 0x434++0x3
line.long 0x00 "IME3_CYCLECOUNT,Cycle count register"
bitfld.long 0x00 31. " CYCLECOUNTENABLE     ,When set to 1, cycle counting is enabled. When set to 0, cycle counting is disabled." "0,1"
bitfld.long 0x00 30. "         CYCLECOUNTRESET     ,Writing 0 results in no effect. Writing 1 results in clearing CycleCount to 0. Always read as 0." "0,1"
hexmask.long.word 0x00 0.--15. 1. "            CYCLECOUNT        ,Incremets at each cycle if cycleCountEnable equals 1 and if CpuState is EXECUTING. Reset when writing 1 to bit 30 (CycleCountReset) Reset upon receiving a Stop() Local Interconnect command."
group.long 0x440++0x3
line.long 0x00 "IME3_CONDITIONREGISTER,Absolute Minimum Reached bit register, used in Mcomp() operator."
hexmask.long.byte 0x00 24.--31. 1. " APPLICATIONCOUNTER1  ,Counter 1"
hexmask.long.byte 0x00 16.--23. 1. "        APPLICATIONCOUNTER0 ,Counter 0"
bitfld.long 0x00 11. "           PARTITIONVALID    ,Reset by ClearStatus()" "0,1"
textline "                                                    "
bitfld.long 0x00 9.--10. " BOTTOMRIGHTREFERENCE ,L0, L1, Bi" "0,1,2,3"
bitfld.long 0x00 7.--8. "         BOTTOMLEFTREFERENCE ,L0, L1, Bi" "0,1,2,3"
bitfld.long 0x00 5.--6. "            TOPRIGHTREFERENCE ,L0, L1, Bi" "0,1,2,3"
textline "                                                    "
bitfld.long 0x00 3.--4. " TOPLEFTREFERENCE     ,L0, L1, Bi" "0,1,2,3"
bitfld.long 0x00 1.--2. "         PARTITIONTYPE       ,16x16, 16x8, 8x16, 8x8" "0,1,2,3"
bitfld.long 0x00 0. "            ABSMINREACHED     ,Abs Min Reached bit, in Mcomp block." "0,1"
group.long 0x44C++0x3
line.long 0x00 "IME3_MINERRORTHRESHOLD,Minimum Error Threshold register, used in Mcomp() operator."
hexmask.long.word 0x00 0.--15. 1. " MINTHRESHOLD         ,Min Threshold value in Mcomp() block."
group.long 0x450++0x3
line.long 0x00 "IME3_CIRCULAR_BUFFER_CURRENT_POSITION0,Current position in the circular buffer"
hexmask.long.word 0x00 18.--31. 1. " Y0                   ,Position of colocated MB in the circular buffer when origin is taken at top left corner of circular buffer (Y coordinate, pixel precision)."
hexmask.long.word 0x00 2.--15. 1. "      X0                  ,Position of colocated MB in the circular buffer when origin is taken at top left corner of circular buffer (X coordinate, pixel precision)."
group.long 0x454++0x3
line.long 0x00 "IME3_CIRCULAR_BUFFER_CURRENT_POSITION1,"
hexmask.long.word 0x00 18.--31. 1. " Y0                   ,Position of colocated MB in the circular buffer when origin is taken at top left corner of circular buffer (Y coordinate, pixel precision)"
hexmask.long.word 0x00 2.--15. 1. "      X0                  ,Position of colocated MB in the circular buffer when origin is taken at top left corner of circular buffer (X coordinate, pixel precision)"
group.long 0x458++0x3
line.long 0x00 "IME3_VALID_AREA0_TOP_LEFT_COORDINATES,Top left coordinates"
hexmask.long.word 0x00 16.--31. 1. " Y                    ,Valid area top left limit in the circular buffer (Y coordinate, quarter pixel precision)"
hexmask.long.word 0x00 0.--15. 1. "      X                   ,Valid area top left limit in the circular buffer (X coordinate, quarter pixel precision)"
group.long 0x45C++0x3
line.long 0x00 "IME3_VALID_AREA0_BOTTOM_RIGHT_COORDINATES,Bottom right coordinates"
hexmask.long.word 0x00 16.--31. 1. " Y                    ,Valid area bottom right limit in the circular buffer (Y coordinate, quarter pixel precision)"
hexmask.long.word 0x00 0.--15. 1. "      X                   ,Valid area top left limit in the circular buffer (X coordinate, quarter pixel precision)"
group.long 0x460++0x3
line.long 0x00 "IME3_VALID_AREA1_TOP_LEFT_COORDINATES,Top left coordinates"
hexmask.long.word 0x00 16.--31. 1. " Y                    ,Valid area bottom right limit in the circular buffer (Y coordinate, quarter pixel precision)"
hexmask.long.word 0x00 0.--15. 1. "      X                   ,Valid area top left limit in the circular buffer (X coordinate, quarter pixel precision)"
group.long 0x468++0x3
line.long 0x00 "IME3_VECMEANHOR,"
hexmask.long 0x00 0.--28. 1. " VEC_MEAN_HOR         ,Accumulates BMT0[0].dx"
group.long 0x46C++0x3
line.long 0x00 "IME3_VECMEANVER,"
hexmask.long 0x00 0.--28. 1. " VEC_MEAN_VER         ,Accumulates BMT0[0].dy"
group.long 0x470++0x3
line.long 0x00 "IME3_INTERPOLATION_REFERENCE,The Interpol Reference is the MV based on which the last interpolation has been performed. This register is updated by the Interpol APIs, and is later used for computing the MVCost and addresses when manipulating pixels fro..."
hexmask.long.word 0x00 16.--31. 1. " Y                    ,This is the 'y' coordinate of the {0,0} point of the interpol planes."
hexmask.long.word 0x00 0.--15. 1. "      X                   ,x coordinate for the origin point of the interpolation. This is the 'x' coordinate of the {0,0} point of the interpol planes. The Interpol planes contain points starting at {-1,-1} and ending at {i, j} with i=7 or i=15 and j=..."
group.long 0x474++0x3
line.long 0x00 "IME3_CIRCULAR_BUFFER_SLIDING_POSITION0,"
hexmask.long.word 0x00 18.--31. 1. " Y0                   ,Position of colocated MB in the circular buffer (Y coordinate, pixel precision)"
hexmask.long.word 0x00 2.--15. 1. "      X0                  ,Position of colocated MB in the circular buffer (X coordinate, pixel precision)"
group.long 0x478++0x3
line.long 0x00 "IME3_CIRCULAR_BUFFER_SLIDING_POSITION1,"
hexmask.long.word 0x00 18.--31. 1. " Y0                   ,Position of colocated MB in the circular buffer (Y coordinate, pixel precision)"
hexmask.long.word 0x00 2.--15. 1. "      X0                  ,Position of colocated MB in the circular buffer (X coordinate, pixel precision)"
wgroup.long 0x1FFC++0x3
line.long 0x00 "IME3_COMMANDREG,IME3 command register: a write to this register decodes a command, a read returns 0."
hexmask.long 0x00 0.--31. 1. " COMMAND              ,A write decodes a command, a read returns 0. 0x1 -> Step() 0x2 -> StopSeq() 0x3 -> DbgEnable() 0x4 -> DbgDisable()"
width 0x0B
tree.end
tree.end
tree.end
tree.open "IVA_Intra_Prediction_Estimation"
tree.open "IPE3_LSE_ICONT"
sif (cpuis("TDA2XIVA"))
tree "IPE3_LSE_ICONT"
base ad:0xD8B00
width 11.
group.long 0x0++0x3
line.long 0x00 "LSE_CTRL,Controller"
bitfld.long 0x00 12. " INT_EOS_THRU       ,int_eos through bit 0: LSE processes for the slice boundary after receiving int_eos. 1: int_eos is passed through to SYNCBOX_IPE3 without the process for the slice boundary." "0,1"
bitfld.long 0x00 9.--11. "     ERR                ,Error status bit [11]: DMA IP_CORE side [10]: DMA SL2 side [9]: CFG IP_CORE side 0: Sresp is not ERR. 1: Sresp is ERR. Writing 0 is ignored. These bits remain 1 until reset or until the host sets to 1." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8. "     ADPTV_VALUE  ,Status Adaptv_add() value. This signal is cleared if Token_clr = 1." "0,1"
textline "                    "
bitfld.long 0x00 7. " TOKEN_CLR          ,LSE internal signals are initialized to recognize the prologue (first MB): -Token status signal -Token start/end signal -DMA pointer Writing 0 is ignored. Writing 1 clears some internal signals. This is a self-clearing bit. The hos..." "0,1"
bitfld.long 0x00 6. "     SSM                ,Single-step mode 1: Enable Single-step mode 0: Normal mode" "0,1"
bitfld.long 0x00 5. "     BFSW_CHG_DIS ,Disabled internal BFSW change 0: Enable internal BFSW change (default) Then, LSE controls BFSW after LD task completes. 1: Disable BFSW change (for host to control BFSW with each task step by step with LD_GO, Comp_GO and ST_GO)." "0,1"
textline "                    "
bitfld.long 0x00 4. " CSB                ,Command status bit 0: LSE command is defined. 1: LSE command is undefined. Writing 0 is ignored . These bits remain 1 until reset or Token_clr or until host sets to 1." "0,1"
bitfld.long 0x00 3. "     LD_GO              ,Execute LOAD task in bypass mode. Target ParamAddr_ld_byps must be set before this bit is set. 1: Execute LD task. LSE accesses ParamAddr_ld_byps and executes the command for the LOAD task. 0: Idle Writing 0 is ignored. This bi..." "0,1"
bitfld.long 0x00 2. "     COMP_GO      ,Execute Comp task in bypass mode. 1: Execute Comp task. In single-step mode, LSE accesses ParamAddr_ld_byps and executes the command for the Comp task. In normal mode, LSE executes COMP commands followed by LD commands. 0: Idle Writi..." "0,1"
textline "                    "
bitfld.long 0x00 1. " ST_GO              ,Execute Store task in bypass mode. Target ParamAddr_st_byps must be set before this bit is set. 1: Execute Store task. LSE accesses ParamAddr_st_byps and executes the command for the Store task. 0: Idle Writing 0 is ignored. This b..." "0,1"
bitfld.long 0x00 0. "     SB_BYPS            ,Sync-Box bypass mode 1: LSE functions in SYNCBOX_IPE3 bypass mode and executes the task of the go_bit. 0: LSE functions in normal SYNCBOX_IPE3 mode and waits for NewTaskSignal. This value must not change during execution." "0,1"
group.long 0x4++0x3
line.long 0x00 "LSE_PARAM,Parameter address for SB bypass mode"
hexmask.long.word 0x00 16.--31. 1. " PARAMADDR__LD_BYPS ,Bypass mode only. Address of the first command of LD and COMP sequence (128-bit word unit). This is a 128-bit word address, not a byte address. The conversion from byte address to 128-bit word address must be done by CPU. IfLSE_CTR..."
hexmask.long.word 0x00 0.--15. 1. "  PARAMADDR__ST_BYPS ,Bypass mode only. Address of the first command of ST sequence (128-bit word unit). This is a 128-bit word address, not a byte address. The byte address is converted to a 128-bit word address by the CPU. IfLSE_CTRL SB_BYPS is 1, th..."
width 0x0B
tree.end
endif
tree "IPE3_LSE_L3_MAINInterconnect"
base ad:0x5A058B00
width 11.
group.long 0x0++0x3
line.long 0x00 "LSE_CTRL,Controller"
bitfld.long 0x00 12. " INT_EOS_THRU       ,int_eos through bit 0: LSE processes for the slice boundary after receiving int_eos. 1: int_eos is passed through to SYNCBOX_IPE3 without the process for the slice boundary." "0,1"
bitfld.long 0x00 9.--11. "     ERR                ,Error status bit [11]: DMA IP_CORE side [10]: DMA SL2 side [9]: CFG IP_CORE side 0: Sresp is not ERR. 1: Sresp is ERR. Writing 0 is ignored. These bits remain 1 until reset or until the host sets to 1." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8. "     ADPTV_VALUE  ,Status Adaptv_add() value. This signal is cleared if Token_clr = 1." "0,1"
textline "                    "
bitfld.long 0x00 7. " TOKEN_CLR          ,LSE internal signals are initialized to recognize the prologue (first MB): -Token status signal -Token start/end signal -DMA pointer Writing 0 is ignored. Writing 1 clears some internal signals. This is a self-clearing bit. The hos..." "0,1"
bitfld.long 0x00 6. "     SSM                ,Single-step mode 1: Enable Single-step mode 0: Normal mode" "0,1"
bitfld.long 0x00 5. "     BFSW_CHG_DIS ,Disabled internal BFSW change 0: Enable internal BFSW change (default) Then, LSE controls BFSW after LD task completes. 1: Disable BFSW change (for host to control BFSW with each task step by step with LD_GO, Comp_GO and ST_GO)." "0,1"
textline "                    "
bitfld.long 0x00 4. " CSB                ,Command status bit 0: LSE command is defined. 1: LSE command is undefined. Writing 0 is ignored . These bits remain 1 until reset or Token_clr or until host sets to 1." "0,1"
bitfld.long 0x00 3. "     LD_GO              ,Execute LOAD task in bypass mode. Target ParamAddr_ld_byps must be set before this bit is set. 1: Execute LD task. LSE accesses ParamAddr_ld_byps and executes the command for the LOAD task. 0: Idle Writing 0 is ignored. This bi..." "0,1"
bitfld.long 0x00 2. "     COMP_GO      ,Execute Comp task in bypass mode. 1: Execute Comp task. In single-step mode, LSE accesses ParamAddr_ld_byps and executes the command for the Comp task. In normal mode, LSE executes COMP commands followed by LD commands. 0: Idle Writi..." "0,1"
textline "                    "
bitfld.long 0x00 1. " ST_GO              ,Execute Store task in bypass mode. Target ParamAddr_st_byps must be set before this bit is set. 1: Execute Store task. LSE accesses ParamAddr_st_byps and executes the command for the Store task. 0: Idle Writing 0 is ignored. This b..." "0,1"
bitfld.long 0x00 0. "     SB_BYPS            ,Sync-Box bypass mode 1: LSE functions in SYNCBOX_IPE3 bypass mode and executes the task of the go_bit. 0: LSE functions in normal SYNCBOX_IPE3 mode and waits for NewTaskSignal. This value must not change during execution." "0,1"
group.long 0x4++0x3
line.long 0x00 "LSE_PARAM,Parameter address for SB bypass mode"
hexmask.long.word 0x00 16.--31. 1. " PARAMADDR__LD_BYPS ,Bypass mode only. Address of the first command of LD and COMP sequence (128-bit word unit). This is a 128-bit word address, not a byte address. The conversion from byte address to 128-bit word address must be done by CPU. IfLSE_CTR..."
hexmask.long.word 0x00 0.--15. 1. "  PARAMADDR__ST_BYPS ,Bypass mode only. Address of the first command of ST sequence (128-bit word unit). This is a 128-bit word address, not a byte address. The byte address is converted to a 128-bit word address by the CPU. IfLSE_CTRL SB_BYPS is 1, th..."
width 0x0B
tree.end
tree.end
tree.open "IPE3_IPGW_ICONT"
sif (cpuis("TDA2XIVA"))
tree "IPE3_IPGW_ICONT"
base ad:0xD8C00
width 23.
group.long 0x8++0x3
line.long 0x00 "IPE3_SYSCONFIG,Clock management configuration"
bitfld.long 0x00 2.--3. " IDLEMODE    ,Configuration of the local target state management mode. The target can handle read/write transactions as long as it is not in IDLE state. 0: Force-idle mode: Local target IDLE state acknowledges IDLE requests unconditionally (regardless ..." "0,1,2,3"
bitfld.long 0x00 0. "  SOFTRESET ,Software reset Read 0: Reset done, no pending action Read 1: Reset (software or other) on going Write 0: No action Write 1: Initiate software reset." "0,1"
group.long 0xC++0x3
line.long 0x00 "IPE3_IRQ_EOI,End Of Interrupt number specification"
bitfld.long 0x00 0.--1. " LINE_NUMBER ,Software End Of Interrupt (EOI) control. Write number of interrupt output. - . - . - . - . - ." "0,1,2,3"
group.long 0x14++0x3
line.long 0x00 "IPE3_IRQSTATUS_RAW_0,Per-event raw interrupt status vector, line 0. Raw status is set even if event is not enabled."
bitfld.long 0x00 0. " EVENT0      ,Programmable raw status for event 0 Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Reserved" "0,1"
group.long 0x18++0x3
line.long 0x00 "IPE3_IRQSTATUS_RAW_1,Per-event raw interrupt status vector, line 1. Raw status is set even if event is not enabled."
bitfld.long 0x00 0. " EVENT0      ,Programmable raw status for event 0 Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Reserved" "0,1"
group.long 0x1C++0x3
line.long 0x00 "IPE3_IRQSTATUS_RAW_2,Per-event raw interrupt status vector, line 2. Raw status is set even if event is not enabled."
bitfld.long 0x00 0. " EVENT0      ,Programmable raw status for event 0 Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Reserved" "0,1"
group.long 0x20++0x3
line.long 0x00 "IPE3_IRQSTATUS_RAW_3,Per-event raw interrupt status vector, line 3. Raw status is set even if event is not enabled."
bitfld.long 0x00 0. " EVENT0      ,Programmable raw status for event 0 Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Reserved" "0,1"
group.long 0x30++0x3
line.long 0x00 "IPE3_IRQSTATUS_0,Per-event enabled interrupt status vector, line 0. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared (even if not enabled)."
eventfld.long 0x00 0. " EVENT0      ,Clearable, enabled status for event 0 Write 0: No action Read 0: No (enabled) event pending Read 1: Event pending Write 1: Clear (raw) event" "0,1"
group.long 0x34++0x3
line.long 0x00 "IPE3_IRQSTATUS_1,Per-event enabled interrupt status vector, line 1. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared (even if not enabled)."
eventfld.long 0x00 0. " EVENT0      ,Clearable, enabled status for event 0 Write 0: No action Read 0: No (enabled) event pending Read 1: Event pending Write 1: Clear (raw) event" "0,1"
group.long 0x38++0x3
line.long 0x00 "IPE3_IRQSTATUS_2,Per-event enabled interrupt status vector, line 2. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared (even if not enabled)."
eventfld.long 0x00 0. " EVENT0      ,Clearable, enabled status for event 0 Write 0: No action Read 0: No (enabled) event pending Read 1: Event pending Write 1: Clear (raw) event" "0,1"
group.long 0x3C++0x3
line.long 0x00 "IPE3_IRQSTATUS_3,Per-event enabled interrupt status vector, line 3. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared (even if not enabled)."
eventfld.long 0x00 0. " EVENT0      ,Clearable, enabled status for event 0 Write 0: No action Read 0: No (enabled) event pending Read 1: Event pending Write 1: Clear (raw) event" "0,1"
group.long 0x4C++0x3
line.long 0x00 "IPE3_IRQENABLE_SET_0,Per-event interrupt enable bit vector, line 0. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0     ,Enable for event 0 Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Enable interrupt" "0,1"
group.long 0x50++0x3
line.long 0x00 "IPE3_IRQENABLE_SET_1,Per-event interrupt enable bit vector, line 1. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0     ,Enable for event 0 Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Enable interrupt" "0,1"
group.long 0x54++0x3
line.long 0x00 "IPE3_IRQENABLE_SET_2,Per-event interrupt enable bit vector, line 2. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0     ,Enable for event 0 Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Enable interrupt" "0,1"
group.long 0x58++0x3
line.long 0x00 "IPE3_IRQENABLE_SET_3,Per-event interrupt enable bit vector, line 0. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0     ,Enable for event 0 Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Enable interrupt" "0,1"
group.long 0x68++0x3
line.long 0x00 "IPE3_IRQENABLE_CLR_0,Per-event interrupt enable bit vector, line 0. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0     ,Enable for event 0 Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Disable interrupt" "0,1"
group.long 0x6C++0x3
line.long 0x00 "IPE3_IRQENABLE_CLR_1,Per-event interrupt enable bit vector, line 1. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0     ,Enable for event 0 Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Disable interrupt" "0,1"
group.long 0x70++0x3
line.long 0x00 "IPE3_IRQENABLE_CLR_2,Per-event interrupt enable bit vector, line 2. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0     ,Enable for event 0 Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Disable interrupt" "0,1"
group.long 0x74++0x3
line.long 0x00 "IPE3_IRQENABLE_CLR_3,Per-event interrupt enable bit vector, line 2. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0     ,Enable for event 0 Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Disable interrupt" "0,1"
group.long 0xC0++0x3
line.long 0x00 "IPE3_IRQSTATUS_ACLREN,Auto clear enable"
bitfld.long 0x00 3. " ACLREN3     ,Auto clear enable for line 3" "0,1"
bitfld.long 0x00 2. "  ACLREN2   ,Auto clear enable for line 2" "0,1"
bitfld.long 0x00 1. "  ACLREN1 ,Auto clear enable for line 1" "0,1"
textline "                                "
bitfld.long 0x00 0. " ACLREN0     ,Auto clear enable for line 0" "0,1"
width 0x0B
tree.end
endif
tree "IPE3_IPGW_L3_MAINInterconnect"
base ad:0x5A058C00
width 23.
group.long 0x8++0x3
line.long 0x00 "IPE3_SYSCONFIG,Clock management configuration"
bitfld.long 0x00 2.--3. " IDLEMODE    ,Configuration of the local target state management mode. The target can handle read/write transactions as long as it is not in IDLE state. 0: Force-idle mode: Local target IDLE state acknowledges IDLE requests unconditionally (regardless ..." "0,1,2,3"
bitfld.long 0x00 0. "  SOFTRESET ,Software reset Read 0: Reset done, no pending action Read 1: Reset (software or other) on going Write 0: No action Write 1: Initiate software reset." "0,1"
group.long 0xC++0x3
line.long 0x00 "IPE3_IRQ_EOI,End Of Interrupt number specification"
bitfld.long 0x00 0.--1. " LINE_NUMBER ,Software End Of Interrupt (EOI) control. Write number of interrupt output. - . - . - . - . - ." "0,1,2,3"
group.long 0x14++0x3
line.long 0x00 "IPE3_IRQSTATUS_RAW_0,Per-event raw interrupt status vector, line 0. Raw status is set even if event is not enabled."
bitfld.long 0x00 0. " EVENT0      ,Programmable raw status for event 0 Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Reserved" "0,1"
group.long 0x18++0x3
line.long 0x00 "IPE3_IRQSTATUS_RAW_1,Per-event raw interrupt status vector, line 1. Raw status is set even if event is not enabled."
bitfld.long 0x00 0. " EVENT0      ,Programmable raw status for event 0 Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Reserved" "0,1"
group.long 0x1C++0x3
line.long 0x00 "IPE3_IRQSTATUS_RAW_2,Per-event raw interrupt status vector, line 2. Raw status is set even if event is not enabled."
bitfld.long 0x00 0. " EVENT0      ,Programmable raw status for event 0 Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Reserved" "0,1"
group.long 0x20++0x3
line.long 0x00 "IPE3_IRQSTATUS_RAW_3,Per-event raw interrupt status vector, line 3. Raw status is set even if event is not enabled."
bitfld.long 0x00 0. " EVENT0      ,Programmable raw status for event 0 Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Reserved" "0,1"
group.long 0x30++0x3
line.long 0x00 "IPE3_IRQSTATUS_0,Per-event enabled interrupt status vector, line 0. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared (even if not enabled)."
eventfld.long 0x00 0. " EVENT0      ,Clearable, enabled status for event 0 Write 0: No action Read 0: No (enabled) event pending Read 1: Event pending Write 1: Clear (raw) event" "0,1"
group.long 0x34++0x3
line.long 0x00 "IPE3_IRQSTATUS_1,Per-event enabled interrupt status vector, line 1. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared (even if not enabled)."
eventfld.long 0x00 0. " EVENT0      ,Clearable, enabled status for event 0 Write 0: No action Read 0: No (enabled) event pending Read 1: Event pending Write 1: Clear (raw) event" "0,1"
group.long 0x38++0x3
line.long 0x00 "IPE3_IRQSTATUS_2,Per-event enabled interrupt status vector, line 2. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared (even if not enabled)."
eventfld.long 0x00 0. " EVENT0      ,Clearable, enabled status for event 0 Write 0: No action Read 0: No (enabled) event pending Read 1: Event pending Write 1: Clear (raw) event" "0,1"
group.long 0x3C++0x3
line.long 0x00 "IPE3_IRQSTATUS_3,Per-event enabled interrupt status vector, line 3. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared (even if not enabled)."
eventfld.long 0x00 0. " EVENT0      ,Clearable, enabled status for event 0 Write 0: No action Read 0: No (enabled) event pending Read 1: Event pending Write 1: Clear (raw) event" "0,1"
group.long 0x4C++0x3
line.long 0x00 "IPE3_IRQENABLE_SET_0,Per-event interrupt enable bit vector, line 0. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0     ,Enable for event 0 Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Enable interrupt" "0,1"
group.long 0x50++0x3
line.long 0x00 "IPE3_IRQENABLE_SET_1,Per-event interrupt enable bit vector, line 1. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0     ,Enable for event 0 Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Enable interrupt" "0,1"
group.long 0x54++0x3
line.long 0x00 "IPE3_IRQENABLE_SET_2,Per-event interrupt enable bit vector, line 2. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0     ,Enable for event 0 Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Enable interrupt" "0,1"
group.long 0x58++0x3
line.long 0x00 "IPE3_IRQENABLE_SET_3,Per-event interrupt enable bit vector, line 0. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0     ,Enable for event 0 Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Enable interrupt" "0,1"
group.long 0x68++0x3
line.long 0x00 "IPE3_IRQENABLE_CLR_0,Per-event interrupt enable bit vector, line 0. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0     ,Enable for event 0 Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Disable interrupt" "0,1"
group.long 0x6C++0x3
line.long 0x00 "IPE3_IRQENABLE_CLR_1,Per-event interrupt enable bit vector, line 1. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0     ,Enable for event 0 Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Disable interrupt" "0,1"
group.long 0x70++0x3
line.long 0x00 "IPE3_IRQENABLE_CLR_2,Per-event interrupt enable bit vector, line 2. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0     ,Enable for event 0 Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Disable interrupt" "0,1"
group.long 0x74++0x3
line.long 0x00 "IPE3_IRQENABLE_CLR_3,Per-event interrupt enable bit vector, line 2. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0     ,Enable for event 0 Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Disable interrupt" "0,1"
group.long 0xC0++0x3
line.long 0x00 "IPE3_IRQSTATUS_ACLREN,Auto clear enable"
bitfld.long 0x00 3. " ACLREN3     ,Auto clear enable for line 3" "0,1"
bitfld.long 0x00 2. "  ACLREN2   ,Auto clear enable for line 2" "0,1"
bitfld.long 0x00 1. "  ACLREN1 ,Auto clear enable for line 1" "0,1"
textline "                                "
bitfld.long 0x00 0. " ACLREN0     ,Auto clear enable for line 0" "0,1"
width 0x0B
tree.end
tree.end
tree.open "IPE3_BFSW_ICONT"
sif (cpuis("TDA2XIVA"))
tree "IPE3_BFSW_ICONT"
base ad:0xD8A00
width 20.
group.long 0x0++0x3
line.long 0x00 "IPE3_BFSW_VIEWMODE,"
bitfld.long 0x00 0. " VIEW_IPORGBUF  ,View mode selection for iporgbuf 0: Full view mode is selected. 1: Ping-pong view mode is selected." "0,1"
group.long 0x4++0x3
line.long 0x00 "IPE3_BFSW_MSTID,Master ID 1 register. Selects master (HWA or DMA bus). This register is used in both full view and ping-pong view mode. This register is for buffers that have two physical memories. This register is affected by direct_switch_pi input port."
bitfld.long 0x00 1. " MST_IPORGBUF_B ,Master selection for iporgbuf B. This bit is used only in ping-pong view mode. 0: Buffer B is assigned to DMA. 1: Buffer B is assigned to HWA This bit has no effect in full-view mode. If direct_switch_pi is high, the value of this bit ..." "0,1"
bitfld.long 0x00 0. "  MST_IPORGBUF_A ,Master selection for iporgbuf A. This bit is used in full-view mode and ping-pong view mode. In full-view mode: 0: Buffers A and B are assigned to DMA. 1: Buffers A and B are assigned to HWA. In ping-pong view mode: 0: Buffer A is ass..." "0,1"
width 0x0B
tree.end
endif
tree "IPE3_BFSW_L3_MAINInterconnect"
base ad:0x5A058A00
width 20.
group.long 0x0++0x3
line.long 0x00 "IPE3_BFSW_VIEWMODE,"
bitfld.long 0x00 0. " VIEW_IPORGBUF  ,View mode selection for iporgbuf 0: Full view mode is selected. 1: Ping-pong view mode is selected." "0,1"
group.long 0x4++0x3
line.long 0x00 "IPE3_BFSW_MSTID,Master ID 1 register. Selects master (HWA or DMA bus). This register is used in both full view and ping-pong view mode. This register is for buffers that have two physical memories. This register is affected by direct_switch_pi input port."
bitfld.long 0x00 1. " MST_IPORGBUF_B ,Master selection for iporgbuf B. This bit is used only in ping-pong view mode. 0: Buffer B is assigned to DMA. 1: Buffer B is assigned to HWA This bit has no effect in full-view mode. If direct_switch_pi is high, the value of this bit ..." "0,1"
bitfld.long 0x00 0. "  MST_IPORGBUF_A ,Master selection for iporgbuf A. This bit is used in full-view mode and ping-pong view mode. In full-view mode: 0: Buffers A and B are assigned to DMA. 1: Buffers A and B are assigned to HWA. In ping-pong view mode: 0: Buffer A is ass..." "0,1"
width 0x0B
tree.end
tree.end
tree.open "IPE3_MMR_ICONT"
sif (cpuis("TDA2XIVA"))
tree "IPE3_MMR_ICONT"
base ad:0xD8800
width 14.
rgroup.long 0x0++0x3
line.long 0x00 "IPE3_PID,Peripheral ID register"
hexmask.long 0x00 0.--31. 1. " IPE_PID        ,Peripheral ID register"
group.long 0x4++0x3
line.long 0x00 "IPE3_COUNT,IPE3 cycle counter register Determines the cycle number between start of IPE3 core and end (interrupt generation). Can be used for debugging."
bitfld.long 0x00 31. " CNT_EN         ,Counter enable 0: Benchmark counter is disabled. 1: Benchmark counter is enabled." "0,1"
bitfld.long 0x00 30. "         CNT_RST        ,Counter reset 0: No effect 1: Clear the benchmark counter to 0." "0,1"
hexmask.long.word 0x00 0.--15. 1. "   CNT_VALUE      ,Current value of the benchmark counter. When CNT_EN is 1 and IP is busy (IPE3_EN==1), the benchmark counter counts up based on clk. Write access has no effect."
group.long 0x8++0x3
line.long 0x00 "IPE3_CTRL,IPE3 control register"
bitfld.long 0x00 18.--19. " IPE_ADDR       ,Address of parameter set. Parameter set can have 4 positions in full-view mode and 2 positions for ping-pong view mode. User must set the position to be processed. 0x0: Process first MB. 0x1: Process second MB. 0x2: Process third MB ( ..." "0,1,2,3"
bitfld.long 0x00 2. "         IPE_SSM        ,Single-step mode. Stops processing even if continuous mode is set. 0: Normal mode 1: Single-step mode. Do not write any value while IPE3 is running (while IPE3_EN is 1)." "0,1"
bitfld.long 0x00 0. "   IPE_EN         ,IPE3 start and status Setting this bit to 1 makes IPE3 start processing. This bit remains 1 while IPE3 is running and is cleared to 0 automatically after processing completes. Writing 0 to this bit has no effect." "0,1"
group.long 0xC++0x3
line.long 0x00 "IPE3_NS,Horizontal noise suppression register Do not write any value while IPE3 is running (while IPE3_EN is 1)."
bitfld.long 0x00 1. " NS1            ,Bottom block status for horizontal noise suppression 0: Activity is not higher than H_threshold 1: Activity is higher than H_threshold. User can update the value. IPE3 module uses the value to process the next parameter set. No update ..." "0,1"
bitfld.long 0x00 0. "         NS0            ,Top block status for horizontal noise suppression 0: Activity is not higher than H_threshold. 1: Activity is higher than H_threshold. User can update the value. IPE3 module uses the value to process the next parameter set. No u..." "0,1"
group.long 0x10++0x3
line.long 0x00 "IPE3_NA,nA mode register Do not write any value while IPE3 is running (while IPE3_EN is 1)."
bitfld.long 0x00 28.--31. " PRED_NA7       ,Intraprediction mode of 4 x 4 block 15 of bottom MB in the previous MB pair. IPE3 does not update in SACT mode." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "        PRED_NA6       ,Intraprediction mode of 4 x 4 block 13 of bottom MB in the previous MB pair. IPE3 does not update in SACT mode." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  PRED_NA5       ,Intraprediction mode of 4 x 4 block 7 of bottom MB in the previous MB pair. IPE3 does not update in SACT mode." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                       "
bitfld.long 0x00 16.--19. " PRED_NA4       ,Intraprediction mode of 4 x 4 block 5 of bottom MB in the previous MB pair. IPE3 does not update in SACT mode." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "        PRED_NA3       ,Intraprediction mode of 4 x 4 block 15 of left MB (or top MB in the previous MB pair in case of MBAFF). IPE3 does not update in SACT mode." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  PRED_NA2       ,Intraprediction mode of 4 x 4 block 13 of left MB (or top MB in the previous MB pair in case of MBAFF). IPE3 does not update in SACT mode." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                       "
bitfld.long 0x00 4.--7. " PRED_NA1       ,Intraprediction mode of 4 x 4 block 7 of left MB (or top MB in the previous MB pair in case of MBAFF). IPE3 does not update in SACT mode." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "        PRED_NA0       ,Intraprediction mode of 4 x 4 block 5 of left MB (or top MB in the previous MB pair in case of MBAFF). IPE3 does not update in SACT mode." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x14++0x3
line.long 0x00 "IPE3_L_LF_T0,Luma left neighboring data IPE3 reads this register value as Luma left samples at the beginning of estimation. Right-most current pixels are written at the end of estimation to use data as the left sample of the next MB. Do not write any v..."
hexmask.long.byte 0x00 24.--31. 1. " IPE_L_LF_TOP3  ,Luma left sample for top MB line 3. The right-most luminance pixel of top MB line 3 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 16.--23. 1. "        IPE_L_LF_TOP2  ,Luma left sample for top MB line 2. The right-most luminance pixel of top MB line 2 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 8.--15. 1. "  IPE_L_LF_TOP1  ,Luma left sample for top MB line 1. The right-most luminance pixel of top MB line 1 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " IPE_L_LF_TOP0  ,Luma left sample for top MB line 0. The right-most luminance pixel of top MB line 0 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
group.long 0x18++0x3
line.long 0x00 "IPE3_L_LF_T1,Luma left neighboring data IPE3 reads this register value as Luma left samples at the beginning of estimation. Right-most current pixels are written at the end of estimation to use data as the left sample of the next MB. Do not write any v..."
hexmask.long.byte 0x00 24.--31. 1. " IPE_L_LF_TOP7  ,Luma left sample for top MB line 7. The right-most luminance pixel of top MB line 7 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 16.--23. 1. "        IPE_L_LF_TOP6  ,Luma left sample for top MB line 6. The right-most luminance pixel of top MB line 6 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 8.--15. 1. "  IPE_L_LF_TOP5  ,Luma left sample for top MB line 5. The right-most luminance pixel of top MB line 5 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " IPE_L_LF_TOP4  ,Luma left sample for top MB line 4. The right-most luminance pixel of top MB line 4 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
group.long 0x1C++0x3
line.long 0x00 "IPE3_L_LF_T2,Luma left neighboring data IPE3 reads this register value as Luma left samples at the beginning of estimation. Right-most current pixels are written at the end of estimation to use data as the left sample of the next MB. Do not write any v..."
hexmask.long.byte 0x00 24.--31. 1. " IPE_L_LF_TOP11 ,Luma left sample for top MB line 11. The right-most luminance pixel of top MB line 11 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 16.--23. 1. "        IPE_L_LF_TOP10 ,Luma left sample for top MB line 10. The right-most luminance pixel of top MB line 10 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 8.--15. 1. "  IPE_L_LF_TOP9  ,Luma left sample for top MB line 9 The right-most luminance pixel of top MB line 9 in the left MB. IPE3 always updates at the end of estimation automatically for the next MB."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " IPE_L_LF_TOP8  ,Luma left sample for top MB line 8 The right-most luminance pixel of top MB line 8 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
group.long 0x20++0x3
line.long 0x00 "IPE3_L_LF_T3,Luma left neighboring data IPE3 reads this register value as Luma left samples at the beginning of estimation. Right-most current pixels are written at the end of estimation to use data as the left sample of the next MB. Do not write any v..."
hexmask.long.byte 0x00 24.--31. 1. " IPE_L_LF_TOP15 ,Luma left sample for top MB line 15. The right-most luminance pixel of top MB line 15 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 16.--23. 1. "        IPE_L_LF_TOP14 ,Luma left sample for top MB line 14. The right-most luminance pixel of top MB line 14 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 8.--15. 1. "  IPE_L_LF_TOP13 ,Luma left sample for top MB line 13. The right-most luminance pixel of top MB line 13 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " IPE_L_LF_TOP12 ,Luma left sample for top MB line 12. The right-most luminance pixel of top MB line 12 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
group.long 0x24++0x3
line.long 0x00 "IPE3_L_LF_B0,Luma left neighboring data IPE3 reads this register value as Luma left samples at the beginning of estimation. Right-most current pixels are written at the end of estimation to use data as the left sample of the next MB. Do not write any v..."
hexmask.long.byte 0x00 24.--31. 1. " IPE_L_LF_BOT3  ,Luma left sample for bottom MB line 3. The right-most luminance pixel of bottom MB line 3 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 16.--23. 1. "        IPE_L_LF_BOT2  ,Luma left sample for bottom MB line 2. The right-most luminance pixel of bottom MB line 2 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 8.--15. 1. "  IPE_L_LF_BOT1  ,Luma left sample for bottom MB line 1. The right-most luminance pixel of bottom MB line 1 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " IPE_L_LF_BOT0  ,Luma left sample for bottom MB line 0. The right-most luminance pixel of bottom MB line 0 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
group.long 0x28++0x3
line.long 0x00 "IPE3_L_LF_B1,Luma left neighboring data IPE3 reads this register value as Luma left samples at the beginning of estimation. Right-most current pixels are written at the end of estimation to use data as the left sample of the next MB. Do not write any v..."
hexmask.long.byte 0x00 24.--31. 1. " IPE_L_LF_BOT7  ,Luma left sample for bottom MB line 7. The right-most luminance pixel of bottom MB line 7 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 16.--23. 1. "        IPE_L_LF_BOT6  ,Luma left sample for bottom MB line 6. The right-most luminance pixel of bottom MB line 6 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 8.--15. 1. "  IPE_L_LF_BOT5  ,Luma left sample for bottom MB line 5. The right-most luminance pixel of bottom MB line 5 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " IPE_L_LF_BOT4  ,Luma left sample for bottom MB line 4. The right-most luminance pixel of bottom MB line 4 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
group.long 0x2C++0x3
line.long 0x00 "IPE3_L_LF_B2,Luma left neighboring data IPE3 reads this register value as Luma left samples at the beginning of estimation. Right-most current pixels are written at the end of estimation to use data as the left sample of the next MB. Do not write any v..."
hexmask.long.byte 0x00 24.--31. 1. " IPE_L_LF_BOT11 ,Luma left sample for bottom MB line 11. The right-most luminance pixel of bottom MB line 11 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 16.--23. 1. "        IPE_L_LF_BOT10 ,Luma left sample for bottom MB line 10. The right-most luminance pixel of bottom MB lin10 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 8.--15. 1. "  IPE_L_LF_BOT9  ,Luma left sample for bottom MB line 9. The right-most luminance pixel of bottom MB line 9 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " IPE_L_LF_BOT8  ,Luma left sample for bottom MB line 8. The right-most luminance pixel of bottom MB line 8 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
group.long 0x30++0x3
line.long 0x00 "IPE3_L_LF_B3,Luma left neighboring data IPE3 reads this register value as Luma left samples at the beginning of estimation. Right-most current pixels are written at the end of estimation to use data as the left sample of the next MB. Do not write any v..."
hexmask.long.byte 0x00 24.--31. 1. " IPE_L_LF_BOT15 ,Luma left sample for bottom MB line 15. The right-most luminance pixel of bottom MB line 15 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 16.--23. 1. "        IPE_L_LF_BOT14 ,Luma left sample for bottom MB line 14. The right-most luminance pixel of bottom MB line 14 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 8.--15. 1. "  IPE_L_LF_BOT13 ,Luma left sample for bottom MB line 13. The right-most luminance pixel of bottom MB line 13 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " IPE_L_LF_BOT12 ,Luma left sample for bottom MB line 12. The right-most luminance pixel of bottom MB line 12 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
group.long 0x34++0x3
line.long 0x00 "IPE3_C_LF_T0,Chroma left neighboring data IPE3 reads this register value as Chroma left samples at the beginning of estimation. Right-most current pixels are written at the end of estimation to use data as the left sample of the next MB. Do not write a..."
hexmask.long.byte 0x00 24.--31. 1. " IPE_CR_LF_TOP1 ,Left Cr sample of top MB line .1 The right-most Cr pixel of top MB line 1 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 16.--23. 1. "        IPE_CB_LF_TOP1 ,Left Cb sample of top MB line 1. The right-most Cb pixel of top MB line 1 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 8.--15. 1. "  IPE_CR_LF_TOP0 ,Left Cr sample of top MB line 0. The right-most Cr pixel of top MB line 0 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " IPE_CB_LF_TOP0 ,Left Cb sample of top MB line 0. The right-most Cb pixel of top MB line 0 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
group.long 0x38++0x3
line.long 0x00 "IPE3_C_LF_T1,Chroma left neighboring data IPE3 reads this register value as Chroma left samples at the beginning of estimation. Right-most current pixels are written at the end of estimation to use data as the left sample of the next MB. Do not write a..."
hexmask.long.byte 0x00 24.--31. 1. " IPE_CR_LF_TOP3 ,Left Cr sample of top MB line 3. The right-most Cr pixel of top MB line 3 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 16.--23. 1. "        IPE_CB_LF_TOP3 ,Left Cb sample of top MB line 3. The right-most Cb pixel of top MB line 3 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 8.--15. 1. "  IPE_CR_LF_TOP2 ,Left Cr sample of top MB line 2. The right-most Cr pixel of top MB line 2 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " IPE_CB_LF_TOP2 ,Left Cb sample of top MB line 2. The right-most Cb pixel of top MB line 2 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
group.long 0x3C++0x3
line.long 0x00 "IPE3_C_LF_T2,Chroma left neighboring data IPE3 reads this register value as chroma left samples at the beginning of estimation. Right-most current pixels are written at the end of estimation to use data as the left sample of the next MB. Do not write a..."
hexmask.long.byte 0x00 24.--31. 1. " IPE_CR_LF_TOP5 ,Left Cr sample of top MB line 5. The right-most Cr pixel of top MB line 5 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 16.--23. 1. "        IPE_CB_LF_TOP5 ,Left Cb sample of top MB line 5. The right-most Cb pixel of top MB line 5 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 8.--15. 1. "  IPE_CR_LF_TOP4 ,Left Cr sample of top MB line 4. The right-most Cr pixel of top MB line 4 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " IPE_CB_LF_TOP4 ,Left Cb sample of top MB line 4. The right-most Cb pixel of top MB line 4 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
group.long 0x40++0x3
line.long 0x00 "IPE3_C_LF_T3,Chroma left neighboring data IPE3 reads this register value as chroma left samples at the beginning of estimation. Right-most current pixels are written at the end of estimation to use data as the left sample of the next MB. Do not write a..."
hexmask.long.byte 0x00 24.--31. 1. " IPE_CR_LF_TOP7 ,Left Cr sample of top MB line 7. The right-most Cr pixel of top MB line 7 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 16.--23. 1. "        IPE_CB_LF_TOP7 ,Left Cb sample of top MB line 7. The right-most Cb pixel of top MB line 7 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 8.--15. 1. "  IPE_CR_LF_TOP6 ,Left Cr sample of top MB line 6. The right-most Cr pixel of top line 6 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " IPE_CB_LF_TOP6 ,Left Cb sample of top MB line 6. The right-most Cb pixel of top MB line 6 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
group.long 0x44++0x3
line.long 0x00 "IPE3_C_LF_B0,Chroma left neighboring data IPE3 reads this register value as chroma left samples at the beginning of estimation. Right-most current pixels are written at the end of estimation to use data as the left sample of the next MB. Do not write a..."
hexmask.long.byte 0x00 24.--31. 1. " IPE_CR_LF_BOT1 ,Left Cr sample of bottom MB line 1. The right-most Cr pixel of bottom MB line 11 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 16.--23. 1. "        IPE_CB_LF_BOT1 ,Left Cb sample of bottom MB line 1. The right-most Cb pixel of bottom MB line 1 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 8.--15. 1. "  IPE_CR_LF_BOT0 ,Left Cr sample of bottom MB line 0. The right-most Cr pixel of bottom MB line 0 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " IPE_CB_LF_BOT0 ,Left Cb sample of bottom MB line 0. The right-most Cb pixel of bottom MB line 0 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
group.long 0x48++0x3
line.long 0x00 "IPE3_C_LF_B1,Chroma left neighboring data IPE3 reads this register value as chroma left samples at the beginning of estimation. Right-most current pixels are written at the end of estimation to use data as the left sample of the next MB. Do not write a..."
hexmask.long.byte 0x00 24.--31. 1. " IPE_CR_LF_BOT3 ,Left Cr sample of bottom MB line 3. The right-most Cr pixel of bottom MB line 3 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 16.--23. 1. "        IPE_CB_LF_BOT3 ,Left Cb sample of bottom MB line 3. The right-most Cb pixel of bottom MB line 3 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 8.--15. 1. "  IPE_CR_LF_BOT2 ,Left Cr sample of bottom MB line 2. The right-most Cr pixel of bottom MB line 2 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " IPE_CB_LF_BOT2 ,Left Cb sample of bottom MB line 2. The right-most Cb pixel of bottom MB line 2 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
group.long 0x4C++0x3
line.long 0x00 "IPE3_C_LF_B2,Chroma left neighboring data IPE3 reads this register value as chroma left samples at the beginning of estimation. Right-most current pixels are written at the end of estimation to use data as the left sample of the next MB. Do not write a..."
hexmask.long.byte 0x00 24.--31. 1. " IPE_CR_LF_BOT5 ,Left Cr sample of bottom MB line 5. The right-most Cr pixel of bottom MB line 5 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 16.--23. 1. "        IPE_CB_LF_BOT5 ,Left Cb sample of bottom MB line 5. The right-most Cb pixel of bottom MB line 5 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 8.--15. 1. "  IPE_CR_LF_BOT4 ,Left Cr sample of bottom MB line 4. The right-most Cr pixel of bottom MB line 4 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " IPE_CB_LF_BOT4 ,Left Cb sample of bottom MB line 4. The right-most Cb pixel of bottom MB line 4 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
group.long 0x50++0x3
line.long 0x00 "IPE3_C_LF_B3,Chroma left neighboring data IPE3 reads this register value as chroma left samples at the beginning of estimation. Right-most current pixels are written at the end of estimation to use data as the left sample of the next MB. Do not write a..."
hexmask.long.byte 0x00 24.--31. 1. " IPE_CR_LF_BOT7 ,Left Cr sample of bottom MB line 7. The right-most Cr pixel of bottom MB line 7 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 16.--23. 1. "        IPE_CB_LF_BOT7 ,Left Cb sample of bottom MB line 7. The right-most Cb pixel of bottom MB line 7 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 8.--15. 1. "  IPE_CR_LF_BOT6 ,Left Cr sample of bottom MB line 6. The right-most Cr pixel of bottom MB line 6 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " IPE_CB_LF_BOT6 ,Left Cb sample of bottom MB line 6. The right-most Cb pixel of bottom MB line 6 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
width 0x0B
tree.end
endif
tree "IPE3_MMR_L3_MAINInterconnect"
base ad:0x5A058800
width 14.
rgroup.long 0x0++0x3
line.long 0x00 "IPE3_PID,Peripheral ID register"
hexmask.long 0x00 0.--31. 1. " IPE_PID        ,Peripheral ID register"
group.long 0x4++0x3
line.long 0x00 "IPE3_COUNT,IPE3 cycle counter register Determines the cycle number between start of IPE3 core and end (interrupt generation). Can be used for debugging."
bitfld.long 0x00 31. " CNT_EN         ,Counter enable 0: Benchmark counter is disabled. 1: Benchmark counter is enabled." "0,1"
bitfld.long 0x00 30. "         CNT_RST        ,Counter reset 0: No effect 1: Clear the benchmark counter to 0." "0,1"
hexmask.long.word 0x00 0.--15. 1. "   CNT_VALUE      ,Current value of the benchmark counter. When CNT_EN is 1 and IP is busy (IPE3_EN==1), the benchmark counter counts up based on clk. Write access has no effect."
group.long 0x8++0x3
line.long 0x00 "IPE3_CTRL,IPE3 control register"
bitfld.long 0x00 18.--19. " IPE_ADDR       ,Address of parameter set. Parameter set can have 4 positions in full-view mode and 2 positions for ping-pong view mode. User must set the position to be processed. 0x0: Process first MB. 0x1: Process second MB. 0x2: Process third MB ( ..." "0,1,2,3"
bitfld.long 0x00 2. "         IPE_SSM        ,Single-step mode. Stops processing even if continuous mode is set. 0: Normal mode 1: Single-step mode. Do not write any value while IPE3 is running (while IPE3_EN is 1)." "0,1"
bitfld.long 0x00 0. "   IPE_EN         ,IPE3 start and status Setting this bit to 1 makes IPE3 start processing. This bit remains 1 while IPE3 is running and is cleared to 0 automatically after processing completes. Writing 0 to this bit has no effect." "0,1"
group.long 0xC++0x3
line.long 0x00 "IPE3_NS,Horizontal noise suppression register Do not write any value while IPE3 is running (while IPE3_EN is 1)."
bitfld.long 0x00 1. " NS1            ,Bottom block status for horizontal noise suppression 0: Activity is not higher than H_threshold 1: Activity is higher than H_threshold. User can update the value. IPE3 module uses the value to process the next parameter set. No update ..." "0,1"
bitfld.long 0x00 0. "         NS0            ,Top block status for horizontal noise suppression 0: Activity is not higher than H_threshold. 1: Activity is higher than H_threshold. User can update the value. IPE3 module uses the value to process the next parameter set. No u..." "0,1"
group.long 0x10++0x3
line.long 0x00 "IPE3_NA,nA mode register Do not write any value while IPE3 is running (while IPE3_EN is 1)."
bitfld.long 0x00 28.--31. " PRED_NA7       ,Intraprediction mode of 4 x 4 block 15 of bottom MB in the previous MB pair. IPE3 does not update in SACT mode." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "        PRED_NA6       ,Intraprediction mode of 4 x 4 block 13 of bottom MB in the previous MB pair. IPE3 does not update in SACT mode." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "  PRED_NA5       ,Intraprediction mode of 4 x 4 block 7 of bottom MB in the previous MB pair. IPE3 does not update in SACT mode." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                       "
bitfld.long 0x00 16.--19. " PRED_NA4       ,Intraprediction mode of 4 x 4 block 5 of bottom MB in the previous MB pair. IPE3 does not update in SACT mode." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "        PRED_NA3       ,Intraprediction mode of 4 x 4 block 15 of left MB (or top MB in the previous MB pair in case of MBAFF). IPE3 does not update in SACT mode." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "  PRED_NA2       ,Intraprediction mode of 4 x 4 block 13 of left MB (or top MB in the previous MB pair in case of MBAFF). IPE3 does not update in SACT mode." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                       "
bitfld.long 0x00 4.--7. " PRED_NA1       ,Intraprediction mode of 4 x 4 block 7 of left MB (or top MB in the previous MB pair in case of MBAFF). IPE3 does not update in SACT mode." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "        PRED_NA0       ,Intraprediction mode of 4 x 4 block 5 of left MB (or top MB in the previous MB pair in case of MBAFF). IPE3 does not update in SACT mode." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x14++0x3
line.long 0x00 "IPE3_L_LF_T0,Luma left neighboring data IPE3 reads this register value as Luma left samples at the beginning of estimation. Right-most current pixels are written at the end of estimation to use data as the left sample of the next MB. Do not write any v..."
hexmask.long.byte 0x00 24.--31. 1. " IPE_L_LF_TOP3  ,Luma left sample for top MB line 3. The right-most luminance pixel of top MB line 3 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 16.--23. 1. "        IPE_L_LF_TOP2  ,Luma left sample for top MB line 2. The right-most luminance pixel of top MB line 2 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 8.--15. 1. "  IPE_L_LF_TOP1  ,Luma left sample for top MB line 1. The right-most luminance pixel of top MB line 1 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " IPE_L_LF_TOP0  ,Luma left sample for top MB line 0. The right-most luminance pixel of top MB line 0 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
group.long 0x18++0x3
line.long 0x00 "IPE3_L_LF_T1,Luma left neighboring data IPE3 reads this register value as Luma left samples at the beginning of estimation. Right-most current pixels are written at the end of estimation to use data as the left sample of the next MB. Do not write any v..."
hexmask.long.byte 0x00 24.--31. 1. " IPE_L_LF_TOP7  ,Luma left sample for top MB line 7. The right-most luminance pixel of top MB line 7 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 16.--23. 1. "        IPE_L_LF_TOP6  ,Luma left sample for top MB line 6. The right-most luminance pixel of top MB line 6 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 8.--15. 1. "  IPE_L_LF_TOP5  ,Luma left sample for top MB line 5. The right-most luminance pixel of top MB line 5 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " IPE_L_LF_TOP4  ,Luma left sample for top MB line 4. The right-most luminance pixel of top MB line 4 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
group.long 0x1C++0x3
line.long 0x00 "IPE3_L_LF_T2,Luma left neighboring data IPE3 reads this register value as Luma left samples at the beginning of estimation. Right-most current pixels are written at the end of estimation to use data as the left sample of the next MB. Do not write any v..."
hexmask.long.byte 0x00 24.--31. 1. " IPE_L_LF_TOP11 ,Luma left sample for top MB line 11. The right-most luminance pixel of top MB line 11 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 16.--23. 1. "        IPE_L_LF_TOP10 ,Luma left sample for top MB line 10. The right-most luminance pixel of top MB line 10 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 8.--15. 1. "  IPE_L_LF_TOP9  ,Luma left sample for top MB line 9 The right-most luminance pixel of top MB line 9 in the left MB. IPE3 always updates at the end of estimation automatically for the next MB."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " IPE_L_LF_TOP8  ,Luma left sample for top MB line 8 The right-most luminance pixel of top MB line 8 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
group.long 0x20++0x3
line.long 0x00 "IPE3_L_LF_T3,Luma left neighboring data IPE3 reads this register value as Luma left samples at the beginning of estimation. Right-most current pixels are written at the end of estimation to use data as the left sample of the next MB. Do not write any v..."
hexmask.long.byte 0x00 24.--31. 1. " IPE_L_LF_TOP15 ,Luma left sample for top MB line 15. The right-most luminance pixel of top MB line 15 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 16.--23. 1. "        IPE_L_LF_TOP14 ,Luma left sample for top MB line 14. The right-most luminance pixel of top MB line 14 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 8.--15. 1. "  IPE_L_LF_TOP13 ,Luma left sample for top MB line 13. The right-most luminance pixel of top MB line 13 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " IPE_L_LF_TOP12 ,Luma left sample for top MB line 12. The right-most luminance pixel of top MB line 12 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
group.long 0x24++0x3
line.long 0x00 "IPE3_L_LF_B0,Luma left neighboring data IPE3 reads this register value as Luma left samples at the beginning of estimation. Right-most current pixels are written at the end of estimation to use data as the left sample of the next MB. Do not write any v..."
hexmask.long.byte 0x00 24.--31. 1. " IPE_L_LF_BOT3  ,Luma left sample for bottom MB line 3. The right-most luminance pixel of bottom MB line 3 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 16.--23. 1. "        IPE_L_LF_BOT2  ,Luma left sample for bottom MB line 2. The right-most luminance pixel of bottom MB line 2 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 8.--15. 1. "  IPE_L_LF_BOT1  ,Luma left sample for bottom MB line 1. The right-most luminance pixel of bottom MB line 1 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " IPE_L_LF_BOT0  ,Luma left sample for bottom MB line 0. The right-most luminance pixel of bottom MB line 0 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
group.long 0x28++0x3
line.long 0x00 "IPE3_L_LF_B1,Luma left neighboring data IPE3 reads this register value as Luma left samples at the beginning of estimation. Right-most current pixels are written at the end of estimation to use data as the left sample of the next MB. Do not write any v..."
hexmask.long.byte 0x00 24.--31. 1. " IPE_L_LF_BOT7  ,Luma left sample for bottom MB line 7. The right-most luminance pixel of bottom MB line 7 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 16.--23. 1. "        IPE_L_LF_BOT6  ,Luma left sample for bottom MB line 6. The right-most luminance pixel of bottom MB line 6 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 8.--15. 1. "  IPE_L_LF_BOT5  ,Luma left sample for bottom MB line 5. The right-most luminance pixel of bottom MB line 5 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " IPE_L_LF_BOT4  ,Luma left sample for bottom MB line 4. The right-most luminance pixel of bottom MB line 4 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
group.long 0x2C++0x3
line.long 0x00 "IPE3_L_LF_B2,Luma left neighboring data IPE3 reads this register value as Luma left samples at the beginning of estimation. Right-most current pixels are written at the end of estimation to use data as the left sample of the next MB. Do not write any v..."
hexmask.long.byte 0x00 24.--31. 1. " IPE_L_LF_BOT11 ,Luma left sample for bottom MB line 11. The right-most luminance pixel of bottom MB line 11 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 16.--23. 1. "        IPE_L_LF_BOT10 ,Luma left sample for bottom MB line 10. The right-most luminance pixel of bottom MB lin10 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 8.--15. 1. "  IPE_L_LF_BOT9  ,Luma left sample for bottom MB line 9. The right-most luminance pixel of bottom MB line 9 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " IPE_L_LF_BOT8  ,Luma left sample for bottom MB line 8. The right-most luminance pixel of bottom MB line 8 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
group.long 0x30++0x3
line.long 0x00 "IPE3_L_LF_B3,Luma left neighboring data IPE3 reads this register value as Luma left samples at the beginning of estimation. Right-most current pixels are written at the end of estimation to use data as the left sample of the next MB. Do not write any v..."
hexmask.long.byte 0x00 24.--31. 1. " IPE_L_LF_BOT15 ,Luma left sample for bottom MB line 15. The right-most luminance pixel of bottom MB line 15 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 16.--23. 1. "        IPE_L_LF_BOT14 ,Luma left sample for bottom MB line 14. The right-most luminance pixel of bottom MB line 14 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 8.--15. 1. "  IPE_L_LF_BOT13 ,Luma left sample for bottom MB line 13. The right-most luminance pixel of bottom MB line 13 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " IPE_L_LF_BOT12 ,Luma left sample for bottom MB line 12. The right-most luminance pixel of bottom MB line 12 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
group.long 0x34++0x3
line.long 0x00 "IPE3_C_LF_T0,Chroma left neighboring data IPE3 reads this register value as Chroma left samples at the beginning of estimation. Right-most current pixels are written at the end of estimation to use data as the left sample of the next MB. Do not write a..."
hexmask.long.byte 0x00 24.--31. 1. " IPE_CR_LF_TOP1 ,Left Cr sample of top MB line .1 The right-most Cr pixel of top MB line 1 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 16.--23. 1. "        IPE_CB_LF_TOP1 ,Left Cb sample of top MB line 1. The right-most Cb pixel of top MB line 1 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 8.--15. 1. "  IPE_CR_LF_TOP0 ,Left Cr sample of top MB line 0. The right-most Cr pixel of top MB line 0 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " IPE_CB_LF_TOP0 ,Left Cb sample of top MB line 0. The right-most Cb pixel of top MB line 0 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
group.long 0x38++0x3
line.long 0x00 "IPE3_C_LF_T1,Chroma left neighboring data IPE3 reads this register value as Chroma left samples at the beginning of estimation. Right-most current pixels are written at the end of estimation to use data as the left sample of the next MB. Do not write a..."
hexmask.long.byte 0x00 24.--31. 1. " IPE_CR_LF_TOP3 ,Left Cr sample of top MB line 3. The right-most Cr pixel of top MB line 3 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 16.--23. 1. "        IPE_CB_LF_TOP3 ,Left Cb sample of top MB line 3. The right-most Cb pixel of top MB line 3 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 8.--15. 1. "  IPE_CR_LF_TOP2 ,Left Cr sample of top MB line 2. The right-most Cr pixel of top MB line 2 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " IPE_CB_LF_TOP2 ,Left Cb sample of top MB line 2. The right-most Cb pixel of top MB line 2 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
group.long 0x3C++0x3
line.long 0x00 "IPE3_C_LF_T2,Chroma left neighboring data IPE3 reads this register value as chroma left samples at the beginning of estimation. Right-most current pixels are written at the end of estimation to use data as the left sample of the next MB. Do not write a..."
hexmask.long.byte 0x00 24.--31. 1. " IPE_CR_LF_TOP5 ,Left Cr sample of top MB line 5. The right-most Cr pixel of top MB line 5 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 16.--23. 1. "        IPE_CB_LF_TOP5 ,Left Cb sample of top MB line 5. The right-most Cb pixel of top MB line 5 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 8.--15. 1. "  IPE_CR_LF_TOP4 ,Left Cr sample of top MB line 4. The right-most Cr pixel of top MB line 4 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " IPE_CB_LF_TOP4 ,Left Cb sample of top MB line 4. The right-most Cb pixel of top MB line 4 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
group.long 0x40++0x3
line.long 0x00 "IPE3_C_LF_T3,Chroma left neighboring data IPE3 reads this register value as chroma left samples at the beginning of estimation. Right-most current pixels are written at the end of estimation to use data as the left sample of the next MB. Do not write a..."
hexmask.long.byte 0x00 24.--31. 1. " IPE_CR_LF_TOP7 ,Left Cr sample of top MB line 7. The right-most Cr pixel of top MB line 7 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 16.--23. 1. "        IPE_CB_LF_TOP7 ,Left Cb sample of top MB line 7. The right-most Cb pixel of top MB line 7 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 8.--15. 1. "  IPE_CR_LF_TOP6 ,Left Cr sample of top MB line 6. The right-most Cr pixel of top line 6 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " IPE_CB_LF_TOP6 ,Left Cb sample of top MB line 6. The right-most Cb pixel of top MB line 6 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
group.long 0x44++0x3
line.long 0x00 "IPE3_C_LF_B0,Chroma left neighboring data IPE3 reads this register value as chroma left samples at the beginning of estimation. Right-most current pixels are written at the end of estimation to use data as the left sample of the next MB. Do not write a..."
hexmask.long.byte 0x00 24.--31. 1. " IPE_CR_LF_BOT1 ,Left Cr sample of bottom MB line 1. The right-most Cr pixel of bottom MB line 11 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 16.--23. 1. "        IPE_CB_LF_BOT1 ,Left Cb sample of bottom MB line 1. The right-most Cb pixel of bottom MB line 1 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 8.--15. 1. "  IPE_CR_LF_BOT0 ,Left Cr sample of bottom MB line 0. The right-most Cr pixel of bottom MB line 0 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " IPE_CB_LF_BOT0 ,Left Cb sample of bottom MB line 0. The right-most Cb pixel of bottom MB line 0 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
group.long 0x48++0x3
line.long 0x00 "IPE3_C_LF_B1,Chroma left neighboring data IPE3 reads this register value as chroma left samples at the beginning of estimation. Right-most current pixels are written at the end of estimation to use data as the left sample of the next MB. Do not write a..."
hexmask.long.byte 0x00 24.--31. 1. " IPE_CR_LF_BOT3 ,Left Cr sample of bottom MB line 3. The right-most Cr pixel of bottom MB line 3 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 16.--23. 1. "        IPE_CB_LF_BOT3 ,Left Cb sample of bottom MB line 3. The right-most Cb pixel of bottom MB line 3 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 8.--15. 1. "  IPE_CR_LF_BOT2 ,Left Cr sample of bottom MB line 2. The right-most Cr pixel of bottom MB line 2 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " IPE_CB_LF_BOT2 ,Left Cb sample of bottom MB line 2. The right-most Cb pixel of bottom MB line 2 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
group.long 0x4C++0x3
line.long 0x00 "IPE3_C_LF_B2,Chroma left neighboring data IPE3 reads this register value as chroma left samples at the beginning of estimation. Right-most current pixels are written at the end of estimation to use data as the left sample of the next MB. Do not write a..."
hexmask.long.byte 0x00 24.--31. 1. " IPE_CR_LF_BOT5 ,Left Cr sample of bottom MB line 5. The right-most Cr pixel of bottom MB line 5 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 16.--23. 1. "        IPE_CB_LF_BOT5 ,Left Cb sample of bottom MB line 5. The right-most Cb pixel of bottom MB line 5 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 8.--15. 1. "  IPE_CR_LF_BOT4 ,Left Cr sample of bottom MB line 4. The right-most Cr pixel of bottom MB line 4 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " IPE_CB_LF_BOT4 ,Left Cb sample of bottom MB line 4. The right-most Cb pixel of bottom MB line 4 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
group.long 0x50++0x3
line.long 0x00 "IPE3_C_LF_B3,Chroma left neighboring data IPE3 reads this register value as chroma left samples at the beginning of estimation. Right-most current pixels are written at the end of estimation to use data as the left sample of the next MB. Do not write a..."
hexmask.long.byte 0x00 24.--31. 1. " IPE_CR_LF_BOT7 ,Left Cr sample of bottom MB line 7. The right-most Cr pixel of bottom MB line 7 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 16.--23. 1. "        IPE_CB_LF_BOT7 ,Left Cb sample of bottom MB line 7. The right-most Cb pixel of bottom MB line 7 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
hexmask.long.byte 0x00 8.--15. 1. "  IPE_CR_LF_BOT6 ,Left Cr sample of bottom MB line 6. The right-most Cr pixel of bottom MB line 6 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " IPE_CB_LF_BOT6 ,Left Cb sample of bottom MB line 6. The right-most Cb pixel of bottom MB line 6 in the left MB. The IPE3 always updates at the end of estimation automatically for the next MB."
width 0x0B
tree.end
tree.end
tree.end
tree.open "IVA_Loop_Filter"
tree.open "ILF3_ICONT"
sif (cpuis("TDA2XIVA"))
tree "ILF3_ICONT"
base ad:0xD2000
tree "Channel_0"
width 29.
group.long 0x1C8++0x3
line.long 0x00 "ILF3_BS_l_0,Boundary strength"
bitfld.long 0x00 0.--3. " BS                    ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x41C++0x3
line.long 0x00 "ILF3_IPB_n_0,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT          ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "         IPB_BYTE             ,Byte element of IPB"
group.long 0x94++0x3
line.long 0x00 "ILF3_MBCONFIG_GDPCONFIG_i_0,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 27.--30. " RND                   ,Rounding selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        RIGHT_SHIFT          ,Shift right value" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 21.--23. "     SELC7               ,Coefficient selection for GDP, P7 multiplication" "0,1,2,3,4,5,6,7"
textline "                                      "
bitfld.long 0x00 18.--20. " SELC6                 ,Coefficient selection for GDP, P6 multiplication" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 15.--17. "         SELC5                ,Coefficient selection for GDP, P5 multiplication" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "     SELC4               ,Coefficient selection for GDP, P4 multiplication" "0,1,2,3,4,5,6,7"
textline "                                      "
bitfld.long 0x00 9.--11. " SELC3                 ,Coefficient selection for GDP, P3 multiplication" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6.--8. "         SELC2                ,Coefficient selection for GDP, P2 multiplication" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3.--5. "     SELC1               ,Coefficient selection for GDP, P1 multiplication" "0,1,2,3,4,5,6,7"
textline "                                      "
bitfld.long 0x00 0.--2. " SELC0                 ,Coefficient selection for GDP, P0 multiplication" "0,1,2,3,4,5,6,7"
group.long 0x40++0x3
line.long 0x00 "ILF3_MBCONFIG_MBINFO_k_0,MBConfig table contains pointers used by program to control the ILF3 units"
hexmask.long.word 0x00 16.--31. 1. " MBCONFIG_ADDRESS_HIGH ,Parameter"
hexmask.long.word 0x00 0.--15. 1. "      MBCONFIG_ADDRESS_LOW ,Parameter"
group.long 0x4C++0x3
line.long 0x00 "ILF3_MBCONFIG_MB_o_0,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 23.--26. " SHIFT_OR_WE           ,Parameter, see and ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--22. 1. "        STRIDE               ,This field allows to increment the base address with the stride value at each iteration."
hexmask.long.word 0x00 0.--15. 1. "    LUMA_CHROMA_ADDRESS ,SL2 address pointer"
group.long 0x128++0x3
line.long 0x00 "ILF3_QP_IDX_j_0,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX                ,QP index" "0,1,2,3,4,5,6,7"
group.long 0xE0++0x3
line.long 0x00 "ILF3_QP_m_0,Quantization parameter"
bitfld.long 0x00 0.--5. " QP                    ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0xBC++0x3
line.long 0x00 "ILF3_SLICESTATUS_k_0,MBConfig table contains pointers used by program to control the ILF3 units"
hexmask.long 0x00 0.--31. 1. " SLICEINFO             ,Slice information register. - See, Load SLICEINFO. . - ."
tree.end
tree "Channel_1"
width 29.
group.long 0x1CC++0x3
line.long 0x00 "ILF3_BS_l_1,Boundary strength"
bitfld.long 0x00 0.--3. " BS                    ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x420++0x3
line.long 0x00 "ILF3_IPB_n_1,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT          ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "         IPB_BYTE             ,Byte element of IPB"
group.long 0x98++0x3
line.long 0x00 "ILF3_MBCONFIG_GDPCONFIG_i_1,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 27.--30. " RND                   ,Rounding selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        RIGHT_SHIFT          ,Shift right value" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 21.--23. "     SELC7               ,Coefficient selection for GDP, P7 multiplication" "0,1,2,3,4,5,6,7"
textline "                                      "
bitfld.long 0x00 18.--20. " SELC6                 ,Coefficient selection for GDP, P6 multiplication" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 15.--17. "         SELC5                ,Coefficient selection for GDP, P5 multiplication" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "     SELC4               ,Coefficient selection for GDP, P4 multiplication" "0,1,2,3,4,5,6,7"
textline "                                      "
bitfld.long 0x00 9.--11. " SELC3                 ,Coefficient selection for GDP, P3 multiplication" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6.--8. "         SELC2                ,Coefficient selection for GDP, P2 multiplication" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3.--5. "     SELC1               ,Coefficient selection for GDP, P1 multiplication" "0,1,2,3,4,5,6,7"
textline "                                      "
bitfld.long 0x00 0.--2. " SELC0                 ,Coefficient selection for GDP, P0 multiplication" "0,1,2,3,4,5,6,7"
group.long 0x44++0x3
line.long 0x00 "ILF3_MBCONFIG_MBINFO_k_1,MBConfig table contains pointers used by program to control the ILF3 units"
hexmask.long.word 0x00 16.--31. 1. " MBCONFIG_ADDRESS_HIGH ,Parameter"
hexmask.long.word 0x00 0.--15. 1. "      MBCONFIG_ADDRESS_LOW ,Parameter"
group.long 0x50++0x3
line.long 0x00 "ILF3_MBCONFIG_MB_o_1,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 23.--26. " SHIFT_OR_WE           ,Parameter, see and ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--22. 1. "        STRIDE               ,This field allows to increment the base address with the stride value at each iteration."
hexmask.long.word 0x00 0.--15. 1. "    LUMA_CHROMA_ADDRESS ,SL2 address pointer"
group.long 0x12C++0x3
line.long 0x00 "ILF3_QP_IDX_j_1,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX                ,QP index" "0,1,2,3,4,5,6,7"
group.long 0xE4++0x3
line.long 0x00 "ILF3_QP_m_1,Quantization parameter"
bitfld.long 0x00 0.--5. " QP                    ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0xC0++0x3
line.long 0x00 "ILF3_SLICESTATUS_k_1,MBConfig table contains pointers used by program to control the ILF3 units"
hexmask.long 0x00 0.--31. 1. " SLICEINFO             ,Slice information register. - See, Load SLICEINFO. . - ."
tree.end
tree "Channel_2"
width 29.
group.long 0x1D0++0x3
line.long 0x00 "ILF3_BS_l_2,Boundary strength"
bitfld.long 0x00 0.--3. " BS                    ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x424++0x3
line.long 0x00 "ILF3_IPB_n_2,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT          ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "         IPB_BYTE             ,Byte element of IPB"
group.long 0x9C++0x3
line.long 0x00 "ILF3_MBCONFIG_GDPCONFIG_i_2,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 27.--30. " RND                   ,Rounding selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        RIGHT_SHIFT          ,Shift right value" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 21.--23. "     SELC7               ,Coefficient selection for GDP, P7 multiplication" "0,1,2,3,4,5,6,7"
textline "                                      "
bitfld.long 0x00 18.--20. " SELC6                 ,Coefficient selection for GDP, P6 multiplication" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 15.--17. "         SELC5                ,Coefficient selection for GDP, P5 multiplication" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "     SELC4               ,Coefficient selection for GDP, P4 multiplication" "0,1,2,3,4,5,6,7"
textline "                                      "
bitfld.long 0x00 9.--11. " SELC3                 ,Coefficient selection for GDP, P3 multiplication" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6.--8. "         SELC2                ,Coefficient selection for GDP, P2 multiplication" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3.--5. "     SELC1               ,Coefficient selection for GDP, P1 multiplication" "0,1,2,3,4,5,6,7"
textline "                                      "
bitfld.long 0x00 0.--2. " SELC0                 ,Coefficient selection for GDP, P0 multiplication" "0,1,2,3,4,5,6,7"
group.long 0x48++0x3
line.long 0x00 "ILF3_MBCONFIG_MBINFO_k_2,MBConfig table contains pointers used by program to control the ILF3 units"
hexmask.long.word 0x00 16.--31. 1. " MBCONFIG_ADDRESS_HIGH ,Parameter"
hexmask.long.word 0x00 0.--15. 1. "      MBCONFIG_ADDRESS_LOW ,Parameter"
group.long 0x54++0x3
line.long 0x00 "ILF3_MBCONFIG_MB_o_2,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 23.--26. " SHIFT_OR_WE           ,Parameter, see and ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--22. 1. "        STRIDE               ,This field allows to increment the base address with the stride value at each iteration."
hexmask.long.word 0x00 0.--15. 1. "    LUMA_CHROMA_ADDRESS ,SL2 address pointer"
group.long 0x130++0x3
line.long 0x00 "ILF3_QP_IDX_j_2,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX                ,QP index" "0,1,2,3,4,5,6,7"
group.long 0xE8++0x3
line.long 0x00 "ILF3_QP_m_2,Quantization parameter"
bitfld.long 0x00 0.--5. " QP                    ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0xC4++0x3
line.long 0x00 "ILF3_SLICESTATUS_k_2,MBConfig table contains pointers used by program to control the ILF3 units"
hexmask.long 0x00 0.--31. 1. " SLICEINFO             ,Slice information register. - See, Load SLICEINFO. . - ."
tree.end
tree "Channel_3"
width 29.
group.long 0x1D4++0x3
line.long 0x00 "ILF3_BS_l_3,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x428++0x3
line.long 0x00 "ILF3_IPB_n_3,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE    ,Byte element of IPB"
group.long 0xA0++0x3
line.long 0x00 "ILF3_MBCONFIG_GDPCONFIG_i_3,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 27.--30. " RND          ,Rounding selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "  RIGHT_SHIFT ,Shift right value" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 21.--23. "   SELC7               ,Coefficient selection for GDP, P7 multiplication" "0,1,2,3,4,5,6,7"
textline "                                      "
bitfld.long 0x00 18.--20. " SELC6        ,Coefficient selection for GDP, P6 multiplication" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 15.--17. "   SELC5       ,Coefficient selection for GDP, P5 multiplication" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "   SELC4               ,Coefficient selection for GDP, P4 multiplication" "0,1,2,3,4,5,6,7"
textline "                                      "
bitfld.long 0x00 9.--11. " SELC3        ,Coefficient selection for GDP, P3 multiplication" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6.--8. "   SELC2       ,Coefficient selection for GDP, P2 multiplication" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3.--5. "   SELC1               ,Coefficient selection for GDP, P1 multiplication" "0,1,2,3,4,5,6,7"
textline "                                      "
bitfld.long 0x00 0.--2. " SELC0        ,Coefficient selection for GDP, P0 multiplication" "0,1,2,3,4,5,6,7"
group.long 0x58++0x3
line.long 0x00 "ILF3_MBCONFIG_MB_o_3,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 23.--26. " SHIFT_OR_WE  ,Parameter, see and ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--22. 1. "  STRIDE      ,This field allows to increment the base address with the stride value at each iteration."
hexmask.long.word 0x00 0.--15. 1. "  LUMA_CHROMA_ADDRESS ,SL2 address pointer"
group.long 0x134++0x3
line.long 0x00 "ILF3_QP_IDX_j_3,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
group.long 0xEC++0x3
line.long 0x00 "ILF3_QP_m_3,Quantization parameter"
bitfld.long 0x00 0.--5. " QP           ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
tree.end
tree "Channel_4"
width 22.
group.long 0x1D8++0x3
line.long 0x00 "ILF3_BS_l_4,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x42C++0x3
line.long 0x00 "ILF3_IPB_n_4,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x5C++0x3
line.long 0x00 "ILF3_MBCONFIG_MB_o_4,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 23.--26. " SHIFT_OR_WE  ,Parameter, see and ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--22. 1. "  STRIDE   ,This field allows to increment the base address with the stride value at each iteration."
hexmask.long.word 0x00 0.--15. 1. "  LUMA_CHROMA_ADDRESS ,SL2 address pointer"
group.long 0x138++0x3
line.long 0x00 "ILF3_QP_IDX_j_4,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
group.long 0xF0++0x3
line.long 0x00 "ILF3_QP_m_4,Quantization parameter"
bitfld.long 0x00 0.--5. " QP           ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
tree.end
tree "Channel_5"
width 22.
group.long 0x1DC++0x3
line.long 0x00 "ILF3_BS_l_5,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x430++0x3
line.long 0x00 "ILF3_IPB_n_5,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x60++0x3
line.long 0x00 "ILF3_MBCONFIG_MB_o_5,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 23.--26. " SHIFT_OR_WE  ,Parameter, see and ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--22. 1. "  STRIDE   ,This field allows to increment the base address with the stride value at each iteration."
hexmask.long.word 0x00 0.--15. 1. "  LUMA_CHROMA_ADDRESS ,SL2 address pointer"
group.long 0x13C++0x3
line.long 0x00 "ILF3_QP_IDX_j_5,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
group.long 0xF4++0x3
line.long 0x00 "ILF3_QP_m_5,Quantization parameter"
bitfld.long 0x00 0.--5. " QP           ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
tree.end
tree "Channel_6"
width 22.
group.long 0x1E0++0x3
line.long 0x00 "ILF3_BS_l_6,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x434++0x3
line.long 0x00 "ILF3_IPB_n_6,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x64++0x3
line.long 0x00 "ILF3_MBCONFIG_MB_o_6,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 23.--26. " SHIFT_OR_WE  ,Parameter, see and ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--22. 1. "  STRIDE   ,This field allows to increment the base address with the stride value at each iteration."
hexmask.long.word 0x00 0.--15. 1. "  LUMA_CHROMA_ADDRESS ,SL2 address pointer"
group.long 0x140++0x3
line.long 0x00 "ILF3_QP_IDX_j_6,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
group.long 0xF8++0x3
line.long 0x00 "ILF3_QP_m_6,Quantization parameter"
bitfld.long 0x00 0.--5. " QP           ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
tree.end
tree "Channel_7"
width 22.
group.long 0x1E4++0x3
line.long 0x00 "ILF3_BS_l_7,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x438++0x3
line.long 0x00 "ILF3_IPB_n_7,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x68++0x3
line.long 0x00 "ILF3_MBCONFIG_MB_o_7,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 23.--26. " SHIFT_OR_WE  ,Parameter, see and ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--22. 1. "  STRIDE   ,This field allows to increment the base address with the stride value at each iteration."
hexmask.long.word 0x00 0.--15. 1. "  LUMA_CHROMA_ADDRESS ,SL2 address pointer"
group.long 0x144++0x3
line.long 0x00 "ILF3_QP_IDX_j_7,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
group.long 0xFC++0x3
line.long 0x00 "ILF3_QP_m_7,Quantization parameter"
bitfld.long 0x00 0.--5. " QP           ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
tree.end
tree "Channel_8"
width 22.
group.long 0x1E8++0x3
line.long 0x00 "ILF3_BS_l_8,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x43C++0x3
line.long 0x00 "ILF3_IPB_n_8,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6C++0x3
line.long 0x00 "ILF3_MBCONFIG_MB_o_8,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 23.--26. " SHIFT_OR_WE  ,Parameter, see and ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--22. 1. "  STRIDE   ,This field allows to increment the base address with the stride value at each iteration."
hexmask.long.word 0x00 0.--15. 1. "  LUMA_CHROMA_ADDRESS ,SL2 address pointer"
group.long 0x148++0x3
line.long 0x00 "ILF3_QP_IDX_j_8,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
group.long 0x100++0x3
line.long 0x00 "ILF3_QP_m_8,Quantization parameter"
bitfld.long 0x00 0.--5. " QP           ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
tree.end
tree "Channel_9"
width 22.
group.long 0x1EC++0x3
line.long 0x00 "ILF3_BS_l_9,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x440++0x3
line.long 0x00 "ILF3_IPB_n_9,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x70++0x3
line.long 0x00 "ILF3_MBCONFIG_MB_o_9,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 23.--26. " SHIFT_OR_WE  ,Parameter, see and ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--22. 1. "  STRIDE   ,This field allows to increment the base address with the stride value at each iteration."
hexmask.long.word 0x00 0.--15. 1. "  LUMA_CHROMA_ADDRESS ,SL2 address pointer"
group.long 0x14C++0x3
line.long 0x00 "ILF3_QP_IDX_j_9,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
group.long 0x104++0x3
line.long 0x00 "ILF3_QP_m_9,Quantization parameter"
bitfld.long 0x00 0.--5. " QP           ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
tree.end
tree "Channel_10"
width 23.
group.long 0x1F0++0x3
line.long 0x00 "ILF3_BS_l_10,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x444++0x3
line.long 0x00 "ILF3_IPB_n_10,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x74++0x3
line.long 0x00 "ILF3_MBCONFIG_MB_o_10,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 23.--26. " SHIFT_OR_WE  ,Parameter, see and ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--22. 1. "  STRIDE   ,This field allows to increment the base address with the stride value at each iteration."
hexmask.long.word 0x00 0.--15. 1. "  LUMA_CHROMA_ADDRESS ,SL2 address pointer"
group.long 0x150++0x3
line.long 0x00 "ILF3_QP_IDX_j_10,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
group.long 0x108++0x3
line.long 0x00 "ILF3_QP_m_10,Quantization parameter"
bitfld.long 0x00 0.--5. " QP           ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
tree.end
tree "Channel_11"
width 23.
group.long 0x1F4++0x3
line.long 0x00 "ILF3_BS_l_11,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x448++0x3
line.long 0x00 "ILF3_IPB_n_11,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x78++0x3
line.long 0x00 "ILF3_MBCONFIG_MB_o_11,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 23.--26. " SHIFT_OR_WE  ,Parameter, see and ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--22. 1. "  STRIDE   ,This field allows to increment the base address with the stride value at each iteration."
hexmask.long.word 0x00 0.--15. 1. "  LUMA_CHROMA_ADDRESS ,SL2 address pointer"
group.long 0x154++0x3
line.long 0x00 "ILF3_QP_IDX_j_11,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
group.long 0x10C++0x3
line.long 0x00 "ILF3_QP_m_11,Quantization parameter"
bitfld.long 0x00 0.--5. " QP           ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
tree.end
tree "Channel_12"
width 23.
group.long 0x1F8++0x3
line.long 0x00 "ILF3_BS_l_12,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x44C++0x3
line.long 0x00 "ILF3_IPB_n_12,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7C++0x3
line.long 0x00 "ILF3_MBCONFIG_MB_o_12,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 23.--26. " SHIFT_OR_WE  ,Parameter, see and ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--22. 1. "  STRIDE   ,This field allows to increment the base address with the stride value at each iteration."
hexmask.long.word 0x00 0.--15. 1. "  LUMA_CHROMA_ADDRESS ,SL2 address pointer"
group.long 0x158++0x3
line.long 0x00 "ILF3_QP_IDX_j_12,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
group.long 0x110++0x3
line.long 0x00 "ILF3_QP_m_12,Quantization parameter"
bitfld.long 0x00 0.--5. " QP           ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
tree.end
tree "Channel_13"
width 23.
group.long 0x1FC++0x3
line.long 0x00 "ILF3_BS_l_13,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x450++0x3
line.long 0x00 "ILF3_IPB_n_13,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x80++0x3
line.long 0x00 "ILF3_MBCONFIG_MB_o_13,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 23.--26. " SHIFT_OR_WE  ,Parameter, see and ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--22. 1. "  STRIDE   ,This field allows to increment the base address with the stride value at each iteration."
hexmask.long.word 0x00 0.--15. 1. "  LUMA_CHROMA_ADDRESS ,SL2 address pointer"
group.long 0x15C++0x3
line.long 0x00 "ILF3_QP_IDX_j_13,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
group.long 0x114++0x3
line.long 0x00 "ILF3_QP_m_13,Quantization parameter"
bitfld.long 0x00 0.--5. " QP           ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
tree.end
tree "Channel_14"
width 23.
group.long 0x200++0x3
line.long 0x00 "ILF3_BS_l_14,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x454++0x3
line.long 0x00 "ILF3_IPB_n_14,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x84++0x3
line.long 0x00 "ILF3_MBCONFIG_MB_o_14,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 23.--26. " SHIFT_OR_WE  ,Parameter, see and ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--22. 1. "  STRIDE   ,This field allows to increment the base address with the stride value at each iteration."
hexmask.long.word 0x00 0.--15. 1. "  LUMA_CHROMA_ADDRESS ,SL2 address pointer"
group.long 0x160++0x3
line.long 0x00 "ILF3_QP_IDX_j_14,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
group.long 0x118++0x3
line.long 0x00 "ILF3_QP_m_14,Quantization parameter"
bitfld.long 0x00 0.--5. " QP           ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
tree.end
tree "Channel_15"
width 23.
group.long 0x204++0x3
line.long 0x00 "ILF3_BS_l_15,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x458++0x3
line.long 0x00 "ILF3_IPB_n_15,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x88++0x3
line.long 0x00 "ILF3_MBCONFIG_MB_o_15,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 23.--26. " SHIFT_OR_WE  ,Parameter, see and ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--22. 1. "  STRIDE   ,This field allows to increment the base address with the stride value at each iteration."
hexmask.long.word 0x00 0.--15. 1. "  LUMA_CHROMA_ADDRESS ,SL2 address pointer"
group.long 0x164++0x3
line.long 0x00 "ILF3_QP_IDX_j_15,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
group.long 0x11C++0x3
line.long 0x00 "ILF3_QP_m_15,Quantization parameter"
bitfld.long 0x00 0.--5. " QP           ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
tree.end
tree "Channel_16"
width 18.
group.long 0x208++0x3
line.long 0x00 "ILF3_BS_l_16,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x45C++0x3
line.long 0x00 "ILF3_IPB_n_16,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x168++0x3
line.long 0x00 "ILF3_QP_IDX_j_16,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
group.long 0x120++0x3
line.long 0x00 "ILF3_QP_m_16,Quantization parameter"
bitfld.long 0x00 0.--5. " QP           ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
tree.end
tree "Channel_17"
width 18.
group.long 0x20C++0x3
line.long 0x00 "ILF3_BS_l_17,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x460++0x3
line.long 0x00 "ILF3_IPB_n_17,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x16C++0x3
line.long 0x00 "ILF3_QP_IDX_j_17,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
group.long 0x124++0x3
line.long 0x00 "ILF3_QP_m_17,Quantization parameter"
bitfld.long 0x00 0.--5. " QP           ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
tree.end
tree "Channel_18"
width 18.
group.long 0x210++0x3
line.long 0x00 "ILF3_BS_l_18,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x464++0x3
line.long 0x00 "ILF3_IPB_n_18,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x170++0x3
line.long 0x00 "ILF3_QP_IDX_j_18,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_19"
width 18.
group.long 0x214++0x3
line.long 0x00 "ILF3_BS_l_19,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x468++0x3
line.long 0x00 "ILF3_IPB_n_19,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x174++0x3
line.long 0x00 "ILF3_QP_IDX_j_19,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_20"
width 18.
group.long 0x218++0x3
line.long 0x00 "ILF3_BS_l_20,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x46C++0x3
line.long 0x00 "ILF3_IPB_n_20,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x178++0x3
line.long 0x00 "ILF3_QP_IDX_j_20,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_21"
width 18.
group.long 0x21C++0x3
line.long 0x00 "ILF3_BS_l_21,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x470++0x3
line.long 0x00 "ILF3_IPB_n_21,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x17C++0x3
line.long 0x00 "ILF3_QP_IDX_j_21,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_22"
width 18.
group.long 0x220++0x3
line.long 0x00 "ILF3_BS_l_22,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x474++0x3
line.long 0x00 "ILF3_IPB_n_22,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x180++0x3
line.long 0x00 "ILF3_QP_IDX_j_22,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_23"
width 18.
group.long 0x224++0x3
line.long 0x00 "ILF3_BS_l_23,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x478++0x3
line.long 0x00 "ILF3_IPB_n_23,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x184++0x3
line.long 0x00 "ILF3_QP_IDX_j_23,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_24"
width 18.
group.long 0x228++0x3
line.long 0x00 "ILF3_BS_l_24,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x47C++0x3
line.long 0x00 "ILF3_IPB_n_24,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x188++0x3
line.long 0x00 "ILF3_QP_IDX_j_24,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_25"
width 18.
group.long 0x22C++0x3
line.long 0x00 "ILF3_BS_l_25,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x480++0x3
line.long 0x00 "ILF3_IPB_n_25,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x18C++0x3
line.long 0x00 "ILF3_QP_IDX_j_25,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_26"
width 18.
group.long 0x230++0x3
line.long 0x00 "ILF3_BS_l_26,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x484++0x3
line.long 0x00 "ILF3_IPB_n_26,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x190++0x3
line.long 0x00 "ILF3_QP_IDX_j_26,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_27"
width 18.
group.long 0x234++0x3
line.long 0x00 "ILF3_BS_l_27,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x488++0x3
line.long 0x00 "ILF3_IPB_n_27,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x194++0x3
line.long 0x00 "ILF3_QP_IDX_j_27,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_28"
width 18.
group.long 0x238++0x3
line.long 0x00 "ILF3_BS_l_28,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x48C++0x3
line.long 0x00 "ILF3_IPB_n_28,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x198++0x3
line.long 0x00 "ILF3_QP_IDX_j_28,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_29"
width 18.
group.long 0x23C++0x3
line.long 0x00 "ILF3_BS_l_29,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x490++0x3
line.long 0x00 "ILF3_IPB_n_29,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x19C++0x3
line.long 0x00 "ILF3_QP_IDX_j_29,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_30"
width 18.
group.long 0x240++0x3
line.long 0x00 "ILF3_BS_l_30,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x494++0x3
line.long 0x00 "ILF3_IPB_n_30,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x1A0++0x3
line.long 0x00 "ILF3_QP_IDX_j_30,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_31"
width 18.
group.long 0x244++0x3
line.long 0x00 "ILF3_BS_l_31,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x498++0x3
line.long 0x00 "ILF3_IPB_n_31,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x1A4++0x3
line.long 0x00 "ILF3_QP_IDX_j_31,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_32"
width 18.
group.long 0x248++0x3
line.long 0x00 "ILF3_BS_l_32,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x49C++0x3
line.long 0x00 "ILF3_IPB_n_32,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x1A8++0x3
line.long 0x00 "ILF3_QP_IDX_j_32,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_33"
width 18.
group.long 0x24C++0x3
line.long 0x00 "ILF3_BS_l_33,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4A0++0x3
line.long 0x00 "ILF3_IPB_n_33,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x1AC++0x3
line.long 0x00 "ILF3_QP_IDX_j_33,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_34"
width 18.
group.long 0x250++0x3
line.long 0x00 "ILF3_BS_l_34,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4A4++0x3
line.long 0x00 "ILF3_IPB_n_34,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x1B0++0x3
line.long 0x00 "ILF3_QP_IDX_j_34,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_35"
width 18.
group.long 0x254++0x3
line.long 0x00 "ILF3_BS_l_35,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4A8++0x3
line.long 0x00 "ILF3_IPB_n_35,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x1B4++0x3
line.long 0x00 "ILF3_QP_IDX_j_35,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_36"
width 18.
group.long 0x258++0x3
line.long 0x00 "ILF3_BS_l_36,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4AC++0x3
line.long 0x00 "ILF3_IPB_n_36,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x1B8++0x3
line.long 0x00 "ILF3_QP_IDX_j_36,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_37"
width 18.
group.long 0x25C++0x3
line.long 0x00 "ILF3_BS_l_37,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4B0++0x3
line.long 0x00 "ILF3_IPB_n_37,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x1BC++0x3
line.long 0x00 "ILF3_QP_IDX_j_37,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_38"
width 18.
group.long 0x260++0x3
line.long 0x00 "ILF3_BS_l_38,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4B4++0x3
line.long 0x00 "ILF3_IPB_n_38,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x1C0++0x3
line.long 0x00 "ILF3_QP_IDX_j_38,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_39"
width 18.
group.long 0x264++0x3
line.long 0x00 "ILF3_BS_l_39,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4B8++0x3
line.long 0x00 "ILF3_IPB_n_39,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x1C4++0x3
line.long 0x00 "ILF3_QP_IDX_j_39,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_40"
width 15.
group.long 0x268++0x3
line.long 0x00 "ILF3_BS_l_40,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4BC++0x3
line.long 0x00 "ILF3_IPB_n_40,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_41"
width 15.
group.long 0x26C++0x3
line.long 0x00 "ILF3_BS_l_41,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4C0++0x3
line.long 0x00 "ILF3_IPB_n_41,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_42"
width 15.
group.long 0x270++0x3
line.long 0x00 "ILF3_BS_l_42,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4C4++0x3
line.long 0x00 "ILF3_IPB_n_42,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_43"
width 15.
group.long 0x274++0x3
line.long 0x00 "ILF3_BS_l_43,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4C8++0x3
line.long 0x00 "ILF3_IPB_n_43,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_44"
width 15.
group.long 0x278++0x3
line.long 0x00 "ILF3_BS_l_44,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4CC++0x3
line.long 0x00 "ILF3_IPB_n_44,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_45"
width 15.
group.long 0x27C++0x3
line.long 0x00 "ILF3_BS_l_45,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4D0++0x3
line.long 0x00 "ILF3_IPB_n_45,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_46"
width 15.
group.long 0x280++0x3
line.long 0x00 "ILF3_BS_l_46,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4D4++0x3
line.long 0x00 "ILF3_IPB_n_46,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_47"
width 15.
group.long 0x284++0x3
line.long 0x00 "ILF3_BS_l_47,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4D8++0x3
line.long 0x00 "ILF3_IPB_n_47,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_48"
width 15.
group.long 0x288++0x3
line.long 0x00 "ILF3_BS_l_48,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4DC++0x3
line.long 0x00 "ILF3_IPB_n_48,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_49"
width 15.
group.long 0x28C++0x3
line.long 0x00 "ILF3_BS_l_49,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4E0++0x3
line.long 0x00 "ILF3_IPB_n_49,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_50"
width 15.
group.long 0x290++0x3
line.long 0x00 "ILF3_BS_l_50,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4E4++0x3
line.long 0x00 "ILF3_IPB_n_50,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_51"
width 15.
group.long 0x294++0x3
line.long 0x00 "ILF3_BS_l_51,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4E8++0x3
line.long 0x00 "ILF3_IPB_n_51,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_52"
width 15.
group.long 0x298++0x3
line.long 0x00 "ILF3_BS_l_52,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4EC++0x3
line.long 0x00 "ILF3_IPB_n_52,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_53"
width 15.
group.long 0x29C++0x3
line.long 0x00 "ILF3_BS_l_53,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4F0++0x3
line.long 0x00 "ILF3_IPB_n_53,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_54"
width 15.
group.long 0x2A0++0x3
line.long 0x00 "ILF3_BS_l_54,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4F4++0x3
line.long 0x00 "ILF3_IPB_n_54,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_55"
width 15.
group.long 0x2A4++0x3
line.long 0x00 "ILF3_BS_l_55,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4F8++0x3
line.long 0x00 "ILF3_IPB_n_55,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_56"
width 15.
group.long 0x2A8++0x3
line.long 0x00 "ILF3_BS_l_56,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4FC++0x3
line.long 0x00 "ILF3_IPB_n_56,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_57"
width 15.
group.long 0x2AC++0x3
line.long 0x00 "ILF3_BS_l_57,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x500++0x3
line.long 0x00 "ILF3_IPB_n_57,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_58"
width 15.
group.long 0x2B0++0x3
line.long 0x00 "ILF3_BS_l_58,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x504++0x3
line.long 0x00 "ILF3_IPB_n_58,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_59"
width 15.
group.long 0x2B4++0x3
line.long 0x00 "ILF3_BS_l_59,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x508++0x3
line.long 0x00 "ILF3_IPB_n_59,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_60"
width 15.
group.long 0x2B8++0x3
line.long 0x00 "ILF3_BS_l_60,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x50C++0x3
line.long 0x00 "ILF3_IPB_n_60,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_61"
width 15.
group.long 0x2BC++0x3
line.long 0x00 "ILF3_BS_l_61,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x510++0x3
line.long 0x00 "ILF3_IPB_n_61,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_62"
width 15.
group.long 0x2C0++0x3
line.long 0x00 "ILF3_BS_l_62,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x514++0x3
line.long 0x00 "ILF3_IPB_n_62,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_63"
width 15.
group.long 0x2C4++0x3
line.long 0x00 "ILF3_BS_l_63,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x518++0x3
line.long 0x00 "ILF3_IPB_n_63,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_64"
width 15.
group.long 0x2C8++0x3
line.long 0x00 "ILF3_BS_l_64,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x51C++0x3
line.long 0x00 "ILF3_IPB_n_64,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_65"
width 15.
group.long 0x2CC++0x3
line.long 0x00 "ILF3_BS_l_65,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x520++0x3
line.long 0x00 "ILF3_IPB_n_65,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_66"
width 15.
group.long 0x2D0++0x3
line.long 0x00 "ILF3_BS_l_66,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x524++0x3
line.long 0x00 "ILF3_IPB_n_66,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_67"
width 15.
group.long 0x2D4++0x3
line.long 0x00 "ILF3_BS_l_67,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x528++0x3
line.long 0x00 "ILF3_IPB_n_67,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_68"
width 15.
group.long 0x2D8++0x3
line.long 0x00 "ILF3_BS_l_68,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x52C++0x3
line.long 0x00 "ILF3_IPB_n_68,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_69"
width 15.
group.long 0x2DC++0x3
line.long 0x00 "ILF3_BS_l_69,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x530++0x3
line.long 0x00 "ILF3_IPB_n_69,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_70"
width 15.
group.long 0x2E0++0x3
line.long 0x00 "ILF3_BS_l_70,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x534++0x3
line.long 0x00 "ILF3_IPB_n_70,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_71"
width 15.
group.long 0x2E4++0x3
line.long 0x00 "ILF3_BS_l_71,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x538++0x3
line.long 0x00 "ILF3_IPB_n_71,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_72"
width 15.
group.long 0x2E8++0x3
line.long 0x00 "ILF3_BS_l_72,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x53C++0x3
line.long 0x00 "ILF3_IPB_n_72,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_73"
width 15.
group.long 0x2EC++0x3
line.long 0x00 "ILF3_BS_l_73,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x540++0x3
line.long 0x00 "ILF3_IPB_n_73,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_74"
width 15.
group.long 0x2F0++0x3
line.long 0x00 "ILF3_BS_l_74,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x544++0x3
line.long 0x00 "ILF3_IPB_n_74,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_75"
width 15.
group.long 0x2F4++0x3
line.long 0x00 "ILF3_BS_l_75,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x548++0x3
line.long 0x00 "ILF3_IPB_n_75,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_76"
width 15.
group.long 0x2F8++0x3
line.long 0x00 "ILF3_BS_l_76,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x54C++0x3
line.long 0x00 "ILF3_IPB_n_76,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_77"
width 15.
group.long 0x2FC++0x3
line.long 0x00 "ILF3_BS_l_77,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x550++0x3
line.long 0x00 "ILF3_IPB_n_77,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_78"
width 15.
group.long 0x300++0x3
line.long 0x00 "ILF3_BS_l_78,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x554++0x3
line.long 0x00 "ILF3_IPB_n_78,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_79"
width 15.
group.long 0x304++0x3
line.long 0x00 "ILF3_BS_l_79,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x558++0x3
line.long 0x00 "ILF3_IPB_n_79,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_80"
width 15.
group.long 0x308++0x3
line.long 0x00 "ILF3_BS_l_80,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x55C++0x3
line.long 0x00 "ILF3_IPB_n_80,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_81"
width 15.
group.long 0x30C++0x3
line.long 0x00 "ILF3_BS_l_81,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x560++0x3
line.long 0x00 "ILF3_IPB_n_81,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_82"
width 15.
group.long 0x310++0x3
line.long 0x00 "ILF3_BS_l_82,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x564++0x3
line.long 0x00 "ILF3_IPB_n_82,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_83"
width 15.
group.long 0x314++0x3
line.long 0x00 "ILF3_BS_l_83,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x568++0x3
line.long 0x00 "ILF3_IPB_n_83,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_84"
width 15.
group.long 0x318++0x3
line.long 0x00 "ILF3_BS_l_84,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x56C++0x3
line.long 0x00 "ILF3_IPB_n_84,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_85"
width 15.
group.long 0x31C++0x3
line.long 0x00 "ILF3_BS_l_85,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x570++0x3
line.long 0x00 "ILF3_IPB_n_85,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_86"
width 15.
group.long 0x320++0x3
line.long 0x00 "ILF3_BS_l_86,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x574++0x3
line.long 0x00 "ILF3_IPB_n_86,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_87"
width 15.
group.long 0x324++0x3
line.long 0x00 "ILF3_BS_l_87,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x578++0x3
line.long 0x00 "ILF3_IPB_n_87,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_88"
width 15.
group.long 0x328++0x3
line.long 0x00 "ILF3_BS_l_88,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x57C++0x3
line.long 0x00 "ILF3_IPB_n_88,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_89"
width 15.
group.long 0x32C++0x3
line.long 0x00 "ILF3_BS_l_89,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x580++0x3
line.long 0x00 "ILF3_IPB_n_89,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_90"
width 15.
group.long 0x330++0x3
line.long 0x00 "ILF3_BS_l_90,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x584++0x3
line.long 0x00 "ILF3_IPB_n_90,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_91"
width 15.
group.long 0x334++0x3
line.long 0x00 "ILF3_BS_l_91,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x588++0x3
line.long 0x00 "ILF3_IPB_n_91,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_92"
width 15.
group.long 0x338++0x3
line.long 0x00 "ILF3_BS_l_92,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x58C++0x3
line.long 0x00 "ILF3_IPB_n_92,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_93"
width 15.
group.long 0x33C++0x3
line.long 0x00 "ILF3_BS_l_93,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x590++0x3
line.long 0x00 "ILF3_IPB_n_93,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_94"
width 15.
group.long 0x340++0x3
line.long 0x00 "ILF3_BS_l_94,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x594++0x3
line.long 0x00 "ILF3_IPB_n_94,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_95"
width 15.
group.long 0x344++0x3
line.long 0x00 "ILF3_BS_l_95,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x598++0x3
line.long 0x00 "ILF3_IPB_n_95,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_96"
width 15.
group.long 0x348++0x3
line.long 0x00 "ILF3_BS_l_96,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x59C++0x3
line.long 0x00 "ILF3_IPB_n_96,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_97"
width 15.
group.long 0x34C++0x3
line.long 0x00 "ILF3_BS_l_97,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5A0++0x3
line.long 0x00 "ILF3_IPB_n_97,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_98"
width 15.
group.long 0x350++0x3
line.long 0x00 "ILF3_BS_l_98,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5A4++0x3
line.long 0x00 "ILF3_IPB_n_98,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_99"
width 15.
group.long 0x354++0x3
line.long 0x00 "ILF3_BS_l_99,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5A8++0x3
line.long 0x00 "ILF3_IPB_n_99,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_100"
width 16.
group.long 0x358++0x3
line.long 0x00 "ILF3_BS_l_100,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5AC++0x3
line.long 0x00 "ILF3_IPB_n_100,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_101"
width 16.
group.long 0x35C++0x3
line.long 0x00 "ILF3_BS_l_101,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5B0++0x3
line.long 0x00 "ILF3_IPB_n_101,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_102"
width 16.
group.long 0x360++0x3
line.long 0x00 "ILF3_BS_l_102,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5B4++0x3
line.long 0x00 "ILF3_IPB_n_102,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_103"
width 16.
group.long 0x364++0x3
line.long 0x00 "ILF3_BS_l_103,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5B8++0x3
line.long 0x00 "ILF3_IPB_n_103,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_104"
width 16.
group.long 0x368++0x3
line.long 0x00 "ILF3_BS_l_104,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5BC++0x3
line.long 0x00 "ILF3_IPB_n_104,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_105"
width 16.
group.long 0x36C++0x3
line.long 0x00 "ILF3_BS_l_105,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5C0++0x3
line.long 0x00 "ILF3_IPB_n_105,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_106"
width 16.
group.long 0x370++0x3
line.long 0x00 "ILF3_BS_l_106,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5C4++0x3
line.long 0x00 "ILF3_IPB_n_106,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_107"
width 16.
group.long 0x374++0x3
line.long 0x00 "ILF3_BS_l_107,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5C8++0x3
line.long 0x00 "ILF3_IPB_n_107,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_108"
width 16.
group.long 0x378++0x3
line.long 0x00 "ILF3_BS_l_108,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5CC++0x3
line.long 0x00 "ILF3_IPB_n_108,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_109"
width 16.
group.long 0x37C++0x3
line.long 0x00 "ILF3_BS_l_109,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5D0++0x3
line.long 0x00 "ILF3_IPB_n_109,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_110"
width 16.
group.long 0x380++0x3
line.long 0x00 "ILF3_BS_l_110,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5D4++0x3
line.long 0x00 "ILF3_IPB_n_110,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_111"
width 16.
group.long 0x384++0x3
line.long 0x00 "ILF3_BS_l_111,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5D8++0x3
line.long 0x00 "ILF3_IPB_n_111,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_112"
width 16.
group.long 0x388++0x3
line.long 0x00 "ILF3_BS_l_112,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5DC++0x3
line.long 0x00 "ILF3_IPB_n_112,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_113"
width 16.
group.long 0x38C++0x3
line.long 0x00 "ILF3_BS_l_113,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5E0++0x3
line.long 0x00 "ILF3_IPB_n_113,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_114"
width 16.
group.long 0x390++0x3
line.long 0x00 "ILF3_BS_l_114,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5E4++0x3
line.long 0x00 "ILF3_IPB_n_114,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_115"
width 16.
group.long 0x394++0x3
line.long 0x00 "ILF3_BS_l_115,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5E8++0x3
line.long 0x00 "ILF3_IPB_n_115,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_116"
width 16.
group.long 0x398++0x3
line.long 0x00 "ILF3_BS_l_116,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5EC++0x3
line.long 0x00 "ILF3_IPB_n_116,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_117"
width 16.
group.long 0x39C++0x3
line.long 0x00 "ILF3_BS_l_117,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5F0++0x3
line.long 0x00 "ILF3_IPB_n_117,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_118"
width 16.
group.long 0x3A0++0x3
line.long 0x00 "ILF3_BS_l_118,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5F4++0x3
line.long 0x00 "ILF3_IPB_n_118,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_119"
width 16.
group.long 0x3A4++0x3
line.long 0x00 "ILF3_BS_l_119,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5F8++0x3
line.long 0x00 "ILF3_IPB_n_119,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_120"
width 16.
group.long 0x3A8++0x3
line.long 0x00 "ILF3_BS_l_120,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5FC++0x3
line.long 0x00 "ILF3_IPB_n_120,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_121"
width 16.
group.long 0x3AC++0x3
line.long 0x00 "ILF3_BS_l_121,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x600++0x3
line.long 0x00 "ILF3_IPB_n_121,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_122"
width 16.
group.long 0x3B0++0x3
line.long 0x00 "ILF3_BS_l_122,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x604++0x3
line.long 0x00 "ILF3_IPB_n_122,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_123"
width 16.
group.long 0x3B4++0x3
line.long 0x00 "ILF3_BS_l_123,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x608++0x3
line.long 0x00 "ILF3_IPB_n_123,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_124"
width 16.
group.long 0x3B8++0x3
line.long 0x00 "ILF3_BS_l_124,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x60C++0x3
line.long 0x00 "ILF3_IPB_n_124,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_125"
width 16.
group.long 0x3BC++0x3
line.long 0x00 "ILF3_BS_l_125,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x610++0x3
line.long 0x00 "ILF3_IPB_n_125,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_126"
width 16.
group.long 0x3C0++0x3
line.long 0x00 "ILF3_BS_l_126,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x614++0x3
line.long 0x00 "ILF3_IPB_n_126,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_127"
width 16.
group.long 0x3C4++0x3
line.long 0x00 "ILF3_BS_l_127,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x618++0x3
line.long 0x00 "ILF3_IPB_n_127,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_128"
width 16.
group.long 0x3C8++0x3
line.long 0x00 "ILF3_BS_l_128,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x61C++0x3
line.long 0x00 "ILF3_IPB_n_128,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_129"
width 16.
group.long 0x3CC++0x3
line.long 0x00 "ILF3_BS_l_129,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x620++0x3
line.long 0x00 "ILF3_IPB_n_129,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_130"
width 16.
group.long 0x3D0++0x3
line.long 0x00 "ILF3_BS_l_130,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x624++0x3
line.long 0x00 "ILF3_IPB_n_130,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_131"
width 16.
group.long 0x3D4++0x3
line.long 0x00 "ILF3_BS_l_131,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x628++0x3
line.long 0x00 "ILF3_IPB_n_131,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_132"
width 16.
group.long 0x3D8++0x3
line.long 0x00 "ILF3_BS_l_132,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x62C++0x3
line.long 0x00 "ILF3_IPB_n_132,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_133"
width 16.
group.long 0x3DC++0x3
line.long 0x00 "ILF3_BS_l_133,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x630++0x3
line.long 0x00 "ILF3_IPB_n_133,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_134"
width 16.
group.long 0x3E0++0x3
line.long 0x00 "ILF3_BS_l_134,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x634++0x3
line.long 0x00 "ILF3_IPB_n_134,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_135"
width 16.
group.long 0x3E4++0x3
line.long 0x00 "ILF3_BS_l_135,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x638++0x3
line.long 0x00 "ILF3_IPB_n_135,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_136"
width 16.
group.long 0x3E8++0x3
line.long 0x00 "ILF3_BS_l_136,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x63C++0x3
line.long 0x00 "ILF3_IPB_n_136,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_137"
width 16.
group.long 0x3EC++0x3
line.long 0x00 "ILF3_BS_l_137,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x640++0x3
line.long 0x00 "ILF3_IPB_n_137,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_138"
width 16.
group.long 0x3F0++0x3
line.long 0x00 "ILF3_BS_l_138,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x644++0x3
line.long 0x00 "ILF3_IPB_n_138,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_139"
width 16.
group.long 0x3F4++0x3
line.long 0x00 "ILF3_BS_l_139,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x648++0x3
line.long 0x00 "ILF3_IPB_n_139,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_140"
width 16.
group.long 0x3F8++0x3
line.long 0x00 "ILF3_BS_l_140,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x64C++0x3
line.long 0x00 "ILF3_IPB_n_140,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_141"
width 16.
group.long 0x3FC++0x3
line.long 0x00 "ILF3_BS_l_141,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x650++0x3
line.long 0x00 "ILF3_IPB_n_141,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_142"
width 16.
group.long 0x400++0x3
line.long 0x00 "ILF3_BS_l_142,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x654++0x3
line.long 0x00 "ILF3_IPB_n_142,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_143"
width 16.
group.long 0x404++0x3
line.long 0x00 "ILF3_BS_l_143,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x658++0x3
line.long 0x00 "ILF3_IPB_n_143,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_144"
width 16.
group.long 0x408++0x3
line.long 0x00 "ILF3_BS_l_144,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x65C++0x3
line.long 0x00 "ILF3_IPB_n_144,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_145"
width 16.
group.long 0x40C++0x3
line.long 0x00 "ILF3_BS_l_145,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x660++0x3
line.long 0x00 "ILF3_IPB_n_145,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_146"
width 16.
group.long 0x410++0x3
line.long 0x00 "ILF3_BS_l_146,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x664++0x3
line.long 0x00 "ILF3_IPB_n_146,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_147"
width 16.
group.long 0x414++0x3
line.long 0x00 "ILF3_BS_l_147,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x668++0x3
line.long 0x00 "ILF3_IPB_n_147,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_148"
width 16.
group.long 0x418++0x3
line.long 0x00 "ILF3_BS_l_148,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x66C++0x3
line.long 0x00 "ILF3_IPB_n_148,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x670++0x3
line.long 0x00 "ILF3_IPB_n_149,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x674++0x3
line.long 0x00 "ILF3_IPB_n_150,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x678++0x3
line.long 0x00 "ILF3_IPB_n_151,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x67C++0x3
line.long 0x00 "ILF3_IPB_n_152,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x680++0x3
line.long 0x00 "ILF3_IPB_n_153,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x684++0x3
line.long 0x00 "ILF3_IPB_n_154,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x688++0x3
line.long 0x00 "ILF3_IPB_n_155,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x68C++0x3
line.long 0x00 "ILF3_IPB_n_156,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x690++0x3
line.long 0x00 "ILF3_IPB_n_157,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x694++0x3
line.long 0x00 "ILF3_IPB_n_158,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x698++0x3
line.long 0x00 "ILF3_IPB_n_159,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x69C++0x3
line.long 0x00 "ILF3_IPB_n_160,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6A0++0x3
line.long 0x00 "ILF3_IPB_n_161,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6A4++0x3
line.long 0x00 "ILF3_IPB_n_162,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6A8++0x3
line.long 0x00 "ILF3_IPB_n_163,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6AC++0x3
line.long 0x00 "ILF3_IPB_n_164,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6B0++0x3
line.long 0x00 "ILF3_IPB_n_165,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6B4++0x3
line.long 0x00 "ILF3_IPB_n_166,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6B8++0x3
line.long 0x00 "ILF3_IPB_n_167,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6BC++0x3
line.long 0x00 "ILF3_IPB_n_168,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6C0++0x3
line.long 0x00 "ILF3_IPB_n_169,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6C4++0x3
line.long 0x00 "ILF3_IPB_n_170,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6C8++0x3
line.long 0x00 "ILF3_IPB_n_171,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6CC++0x3
line.long 0x00 "ILF3_IPB_n_172,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6D0++0x3
line.long 0x00 "ILF3_IPB_n_173,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6D4++0x3
line.long 0x00 "ILF3_IPB_n_174,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6D8++0x3
line.long 0x00 "ILF3_IPB_n_175,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6DC++0x3
line.long 0x00 "ILF3_IPB_n_176,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6E0++0x3
line.long 0x00 "ILF3_IPB_n_177,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6E4++0x3
line.long 0x00 "ILF3_IPB_n_178,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6E8++0x3
line.long 0x00 "ILF3_IPB_n_179,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6EC++0x3
line.long 0x00 "ILF3_IPB_n_180,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6F0++0x3
line.long 0x00 "ILF3_IPB_n_181,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6F4++0x3
line.long 0x00 "ILF3_IPB_n_182,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6F8++0x3
line.long 0x00 "ILF3_IPB_n_183,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6FC++0x3
line.long 0x00 "ILF3_IPB_n_184,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x700++0x3
line.long 0x00 "ILF3_IPB_n_185,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x704++0x3
line.long 0x00 "ILF3_IPB_n_186,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x708++0x3
line.long 0x00 "ILF3_IPB_n_187,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x70C++0x3
line.long 0x00 "ILF3_IPB_n_188,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x710++0x3
line.long 0x00 "ILF3_IPB_n_189,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x714++0x3
line.long 0x00 "ILF3_IPB_n_190,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x718++0x3
line.long 0x00 "ILF3_IPB_n_191,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x71C++0x3
line.long 0x00 "ILF3_IPB_n_192,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x720++0x3
line.long 0x00 "ILF3_IPB_n_193,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x724++0x3
line.long 0x00 "ILF3_IPB_n_194,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x728++0x3
line.long 0x00 "ILF3_IPB_n_195,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x72C++0x3
line.long 0x00 "ILF3_IPB_n_196,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x730++0x3
line.long 0x00 "ILF3_IPB_n_197,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x734++0x3
line.long 0x00 "ILF3_IPB_n_198,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x738++0x3
line.long 0x00 "ILF3_IPB_n_199,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x73C++0x3
line.long 0x00 "ILF3_IPB_n_200,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x740++0x3
line.long 0x00 "ILF3_IPB_n_201,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x744++0x3
line.long 0x00 "ILF3_IPB_n_202,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x748++0x3
line.long 0x00 "ILF3_IPB_n_203,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x74C++0x3
line.long 0x00 "ILF3_IPB_n_204,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x750++0x3
line.long 0x00 "ILF3_IPB_n_205,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x754++0x3
line.long 0x00 "ILF3_IPB_n_206,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x758++0x3
line.long 0x00 "ILF3_IPB_n_207,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x75C++0x3
line.long 0x00 "ILF3_IPB_n_208,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x760++0x3
line.long 0x00 "ILF3_IPB_n_209,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x764++0x3
line.long 0x00 "ILF3_IPB_n_210,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x768++0x3
line.long 0x00 "ILF3_IPB_n_211,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x76C++0x3
line.long 0x00 "ILF3_IPB_n_212,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x770++0x3
line.long 0x00 "ILF3_IPB_n_213,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x774++0x3
line.long 0x00 "ILF3_IPB_n_214,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x778++0x3
line.long 0x00 "ILF3_IPB_n_215,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x77C++0x3
line.long 0x00 "ILF3_IPB_n_216,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x780++0x3
line.long 0x00 "ILF3_IPB_n_217,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x784++0x3
line.long 0x00 "ILF3_IPB_n_218,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x788++0x3
line.long 0x00 "ILF3_IPB_n_219,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x78C++0x3
line.long 0x00 "ILF3_IPB_n_220,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x790++0x3
line.long 0x00 "ILF3_IPB_n_221,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x794++0x3
line.long 0x00 "ILF3_IPB_n_222,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x798++0x3
line.long 0x00 "ILF3_IPB_n_223,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x79C++0x3
line.long 0x00 "ILF3_IPB_n_224,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7A0++0x3
line.long 0x00 "ILF3_IPB_n_225,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7A4++0x3
line.long 0x00 "ILF3_IPB_n_226,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7A8++0x3
line.long 0x00 "ILF3_IPB_n_227,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7AC++0x3
line.long 0x00 "ILF3_IPB_n_228,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7B0++0x3
line.long 0x00 "ILF3_IPB_n_229,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7B4++0x3
line.long 0x00 "ILF3_IPB_n_230,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7B8++0x3
line.long 0x00 "ILF3_IPB_n_231,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7BC++0x3
line.long 0x00 "ILF3_IPB_n_232,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7C0++0x3
line.long 0x00 "ILF3_IPB_n_233,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7C4++0x3
line.long 0x00 "ILF3_IPB_n_234,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7C8++0x3
line.long 0x00 "ILF3_IPB_n_235,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7CC++0x3
line.long 0x00 "ILF3_IPB_n_236,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7D0++0x3
line.long 0x00 "ILF3_IPB_n_237,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7D4++0x3
line.long 0x00 "ILF3_IPB_n_238,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7D8++0x3
line.long 0x00 "ILF3_IPB_n_239,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7DC++0x3
line.long 0x00 "ILF3_IPB_n_240,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7E0++0x3
line.long 0x00 "ILF3_IPB_n_241,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7E4++0x3
line.long 0x00 "ILF3_IPB_n_242,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7E8++0x3
line.long 0x00 "ILF3_IPB_n_243,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7EC++0x3
line.long 0x00 "ILF3_IPB_n_244,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7F0++0x3
line.long 0x00 "ILF3_IPB_n_245,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7F4++0x3
line.long 0x00 "ILF3_IPB_n_246,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7F8++0x3
line.long 0x00 "ILF3_IPB_n_247,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7FC++0x3
line.long 0x00 "ILF3_IPB_n_248,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x800++0x3
line.long 0x00 "ILF3_IPB_n_249,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x804++0x3
line.long 0x00 "ILF3_IPB_n_250,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x808++0x3
line.long 0x00 "ILF3_IPB_n_251,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x80C++0x3
line.long 0x00 "ILF3_IPB_n_252,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x810++0x3
line.long 0x00 "ILF3_IPB_n_253,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x814++0x3
line.long 0x00 "ILF3_IPB_n_254,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x818++0x3
line.long 0x00 "ILF3_IPB_n_255,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x81C++0x3
line.long 0x00 "ILF3_IPB_n_256,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x820++0x3
line.long 0x00 "ILF3_IPB_n_257,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x824++0x3
line.long 0x00 "ILF3_IPB_n_258,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x828++0x3
line.long 0x00 "ILF3_IPB_n_259,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x82C++0x3
line.long 0x00 "ILF3_IPB_n_260,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x830++0x3
line.long 0x00 "ILF3_IPB_n_261,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x834++0x3
line.long 0x00 "ILF3_IPB_n_262,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x838++0x3
line.long 0x00 "ILF3_IPB_n_263,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x83C++0x3
line.long 0x00 "ILF3_IPB_n_264,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x840++0x3
line.long 0x00 "ILF3_IPB_n_265,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x844++0x3
line.long 0x00 "ILF3_IPB_n_266,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x848++0x3
line.long 0x00 "ILF3_IPB_n_267,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x84C++0x3
line.long 0x00 "ILF3_IPB_n_268,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x850++0x3
line.long 0x00 "ILF3_IPB_n_269,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x854++0x3
line.long 0x00 "ILF3_IPB_n_270,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x858++0x3
line.long 0x00 "ILF3_IPB_n_271,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x85C++0x3
line.long 0x00 "ILF3_IPB_n_272,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x860++0x3
line.long 0x00 "ILF3_IPB_n_273,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x864++0x3
line.long 0x00 "ILF3_IPB_n_274,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x868++0x3
line.long 0x00 "ILF3_IPB_n_275,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x86C++0x3
line.long 0x00 "ILF3_IPB_n_276,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x870++0x3
line.long 0x00 "ILF3_IPB_n_277,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x874++0x3
line.long 0x00 "ILF3_IPB_n_278,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x878++0x3
line.long 0x00 "ILF3_IPB_n_279,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x87C++0x3
line.long 0x00 "ILF3_IPB_n_280,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x880++0x3
line.long 0x00 "ILF3_IPB_n_281,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x884++0x3
line.long 0x00 "ILF3_IPB_n_282,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x888++0x3
line.long 0x00 "ILF3_IPB_n_283,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x88C++0x3
line.long 0x00 "ILF3_IPB_n_284,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x890++0x3
line.long 0x00 "ILF3_IPB_n_285,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x894++0x3
line.long 0x00 "ILF3_IPB_n_286,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x898++0x3
line.long 0x00 "ILF3_IPB_n_287,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x89C++0x3
line.long 0x00 "ILF3_IPB_n_288,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8A0++0x3
line.long 0x00 "ILF3_IPB_n_289,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8A4++0x3
line.long 0x00 "ILF3_IPB_n_290,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8A8++0x3
line.long 0x00 "ILF3_IPB_n_291,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8AC++0x3
line.long 0x00 "ILF3_IPB_n_292,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8B0++0x3
line.long 0x00 "ILF3_IPB_n_293,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8B4++0x3
line.long 0x00 "ILF3_IPB_n_294,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8B8++0x3
line.long 0x00 "ILF3_IPB_n_295,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8BC++0x3
line.long 0x00 "ILF3_IPB_n_296,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8C0++0x3
line.long 0x00 "ILF3_IPB_n_297,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8C4++0x3
line.long 0x00 "ILF3_IPB_n_298,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8C8++0x3
line.long 0x00 "ILF3_IPB_n_299,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8CC++0x3
line.long 0x00 "ILF3_IPB_n_300,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8D0++0x3
line.long 0x00 "ILF3_IPB_n_301,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8D4++0x3
line.long 0x00 "ILF3_IPB_n_302,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8D8++0x3
line.long 0x00 "ILF3_IPB_n_303,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8DC++0x3
line.long 0x00 "ILF3_IPB_n_304,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8E0++0x3
line.long 0x00 "ILF3_IPB_n_305,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8E4++0x3
line.long 0x00 "ILF3_IPB_n_306,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8E8++0x3
line.long 0x00 "ILF3_IPB_n_307,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8EC++0x3
line.long 0x00 "ILF3_IPB_n_308,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8F0++0x3
line.long 0x00 "ILF3_IPB_n_309,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8F4++0x3
line.long 0x00 "ILF3_IPB_n_310,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8F8++0x3
line.long 0x00 "ILF3_IPB_n_311,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8FC++0x3
line.long 0x00 "ILF3_IPB_n_312,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x900++0x3
line.long 0x00 "ILF3_IPB_n_313,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x904++0x3
line.long 0x00 "ILF3_IPB_n_314,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x908++0x3
line.long 0x00 "ILF3_IPB_n_315,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x90C++0x3
line.long 0x00 "ILF3_IPB_n_316,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x910++0x3
line.long 0x00 "ILF3_IPB_n_317,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x914++0x3
line.long 0x00 "ILF3_IPB_n_318,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x918++0x3
line.long 0x00 "ILF3_IPB_n_319,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x91C++0x3
line.long 0x00 "ILF3_IPB_n_320,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x920++0x3
line.long 0x00 "ILF3_IPB_n_321,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x924++0x3
line.long 0x00 "ILF3_IPB_n_322,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x928++0x3
line.long 0x00 "ILF3_IPB_n_323,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x92C++0x3
line.long 0x00 "ILF3_IPB_n_324,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x930++0x3
line.long 0x00 "ILF3_IPB_n_325,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x934++0x3
line.long 0x00 "ILF3_IPB_n_326,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x938++0x3
line.long 0x00 "ILF3_IPB_n_327,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x93C++0x3
line.long 0x00 "ILF3_IPB_n_328,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x940++0x3
line.long 0x00 "ILF3_IPB_n_329,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x944++0x3
line.long 0x00 "ILF3_IPB_n_330,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x948++0x3
line.long 0x00 "ILF3_IPB_n_331,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x94C++0x3
line.long 0x00 "ILF3_IPB_n_332,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x950++0x3
line.long 0x00 "ILF3_IPB_n_333,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x954++0x3
line.long 0x00 "ILF3_IPB_n_334,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x958++0x3
line.long 0x00 "ILF3_IPB_n_335,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x95C++0x3
line.long 0x00 "ILF3_IPB_n_336,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x960++0x3
line.long 0x00 "ILF3_IPB_n_337,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x964++0x3
line.long 0x00 "ILF3_IPB_n_338,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x968++0x3
line.long 0x00 "ILF3_IPB_n_339,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x96C++0x3
line.long 0x00 "ILF3_IPB_n_340,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x970++0x3
line.long 0x00 "ILF3_IPB_n_341,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x974++0x3
line.long 0x00 "ILF3_IPB_n_342,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x978++0x3
line.long 0x00 "ILF3_IPB_n_343,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x97C++0x3
line.long 0x00 "ILF3_IPB_n_344,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x980++0x3
line.long 0x00 "ILF3_IPB_n_345,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x984++0x3
line.long 0x00 "ILF3_IPB_n_346,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x988++0x3
line.long 0x00 "ILF3_IPB_n_347,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x98C++0x3
line.long 0x00 "ILF3_IPB_n_348,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x990++0x3
line.long 0x00 "ILF3_IPB_n_349,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x994++0x3
line.long 0x00 "ILF3_IPB_n_350,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x998++0x3
line.long 0x00 "ILF3_IPB_n_351,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x99C++0x3
line.long 0x00 "ILF3_IPB_n_352,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9A0++0x3
line.long 0x00 "ILF3_IPB_n_353,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9A4++0x3
line.long 0x00 "ILF3_IPB_n_354,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9A8++0x3
line.long 0x00 "ILF3_IPB_n_355,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9AC++0x3
line.long 0x00 "ILF3_IPB_n_356,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9B0++0x3
line.long 0x00 "ILF3_IPB_n_357,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9B4++0x3
line.long 0x00 "ILF3_IPB_n_358,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9B8++0x3
line.long 0x00 "ILF3_IPB_n_359,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9BC++0x3
line.long 0x00 "ILF3_IPB_n_360,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9C0++0x3
line.long 0x00 "ILF3_IPB_n_361,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9C4++0x3
line.long 0x00 "ILF3_IPB_n_362,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9C8++0x3
line.long 0x00 "ILF3_IPB_n_363,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9CC++0x3
line.long 0x00 "ILF3_IPB_n_364,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9D0++0x3
line.long 0x00 "ILF3_IPB_n_365,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9D4++0x3
line.long 0x00 "ILF3_IPB_n_366,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9D8++0x3
line.long 0x00 "ILF3_IPB_n_367,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9DC++0x3
line.long 0x00 "ILF3_IPB_n_368,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9E0++0x3
line.long 0x00 "ILF3_IPB_n_369,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9E4++0x3
line.long 0x00 "ILF3_IPB_n_370,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9E8++0x3
line.long 0x00 "ILF3_IPB_n_371,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9EC++0x3
line.long 0x00 "ILF3_IPB_n_372,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9F0++0x3
line.long 0x00 "ILF3_IPB_n_373,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9F4++0x3
line.long 0x00 "ILF3_IPB_n_374,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9F8++0x3
line.long 0x00 "ILF3_IPB_n_375,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9FC++0x3
line.long 0x00 "ILF3_IPB_n_376,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA00++0x3
line.long 0x00 "ILF3_IPB_n_377,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA04++0x3
line.long 0x00 "ILF3_IPB_n_378,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA08++0x3
line.long 0x00 "ILF3_IPB_n_379,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA0C++0x3
line.long 0x00 "ILF3_IPB_n_380,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA10++0x3
line.long 0x00 "ILF3_IPB_n_381,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA14++0x3
line.long 0x00 "ILF3_IPB_n_382,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA18++0x3
line.long 0x00 "ILF3_IPB_n_383,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA1C++0x3
line.long 0x00 "ILF3_IPB_n_384,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA20++0x3
line.long 0x00 "ILF3_IPB_n_385,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA24++0x3
line.long 0x00 "ILF3_IPB_n_386,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA28++0x3
line.long 0x00 "ILF3_IPB_n_387,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA2C++0x3
line.long 0x00 "ILF3_IPB_n_388,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA30++0x3
line.long 0x00 "ILF3_IPB_n_389,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA34++0x3
line.long 0x00 "ILF3_IPB_n_390,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA38++0x3
line.long 0x00 "ILF3_IPB_n_391,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA3C++0x3
line.long 0x00 "ILF3_IPB_n_392,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA40++0x3
line.long 0x00 "ILF3_IPB_n_393,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA44++0x3
line.long 0x00 "ILF3_IPB_n_394,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA48++0x3
line.long 0x00 "ILF3_IPB_n_395,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA4C++0x3
line.long 0x00 "ILF3_IPB_n_396,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA50++0x3
line.long 0x00 "ILF3_IPB_n_397,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA54++0x3
line.long 0x00 "ILF3_IPB_n_398,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA58++0x3
line.long 0x00 "ILF3_IPB_n_399,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA5C++0x3
line.long 0x00 "ILF3_IPB_n_400,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA60++0x3
line.long 0x00 "ILF3_IPB_n_401,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA64++0x3
line.long 0x00 "ILF3_IPB_n_402,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA68++0x3
line.long 0x00 "ILF3_IPB_n_403,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA6C++0x3
line.long 0x00 "ILF3_IPB_n_404,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA70++0x3
line.long 0x00 "ILF3_IPB_n_405,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA74++0x3
line.long 0x00 "ILF3_IPB_n_406,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA78++0x3
line.long 0x00 "ILF3_IPB_n_407,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA7C++0x3
line.long 0x00 "ILF3_IPB_n_408,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA80++0x3
line.long 0x00 "ILF3_IPB_n_409,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA84++0x3
line.long 0x00 "ILF3_IPB_n_410,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA88++0x3
line.long 0x00 "ILF3_IPB_n_411,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA8C++0x3
line.long 0x00 "ILF3_IPB_n_412,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA90++0x3
line.long 0x00 "ILF3_IPB_n_413,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA94++0x3
line.long 0x00 "ILF3_IPB_n_414,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA98++0x3
line.long 0x00 "ILF3_IPB_n_415,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA9C++0x3
line.long 0x00 "ILF3_IPB_n_416,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAA0++0x3
line.long 0x00 "ILF3_IPB_n_417,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAA4++0x3
line.long 0x00 "ILF3_IPB_n_418,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAA8++0x3
line.long 0x00 "ILF3_IPB_n_419,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAAC++0x3
line.long 0x00 "ILF3_IPB_n_420,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAB0++0x3
line.long 0x00 "ILF3_IPB_n_421,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAB4++0x3
line.long 0x00 "ILF3_IPB_n_422,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAB8++0x3
line.long 0x00 "ILF3_IPB_n_423,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xABC++0x3
line.long 0x00 "ILF3_IPB_n_424,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAC0++0x3
line.long 0x00 "ILF3_IPB_n_425,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAC4++0x3
line.long 0x00 "ILF3_IPB_n_426,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAC8++0x3
line.long 0x00 "ILF3_IPB_n_427,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xACC++0x3
line.long 0x00 "ILF3_IPB_n_428,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAD0++0x3
line.long 0x00 "ILF3_IPB_n_429,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAD4++0x3
line.long 0x00 "ILF3_IPB_n_430,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAD8++0x3
line.long 0x00 "ILF3_IPB_n_431,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xADC++0x3
line.long 0x00 "ILF3_IPB_n_432,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAE0++0x3
line.long 0x00 "ILF3_IPB_n_433,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAE4++0x3
line.long 0x00 "ILF3_IPB_n_434,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAE8++0x3
line.long 0x00 "ILF3_IPB_n_435,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAEC++0x3
line.long 0x00 "ILF3_IPB_n_436,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAF0++0x3
line.long 0x00 "ILF3_IPB_n_437,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAF4++0x3
line.long 0x00 "ILF3_IPB_n_438,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAF8++0x3
line.long 0x00 "ILF3_IPB_n_439,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAFC++0x3
line.long 0x00 "ILF3_IPB_n_440,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB00++0x3
line.long 0x00 "ILF3_IPB_n_441,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB04++0x3
line.long 0x00 "ILF3_IPB_n_442,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB08++0x3
line.long 0x00 "ILF3_IPB_n_443,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB0C++0x3
line.long 0x00 "ILF3_IPB_n_444,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB10++0x3
line.long 0x00 "ILF3_IPB_n_445,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB14++0x3
line.long 0x00 "ILF3_IPB_n_446,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB18++0x3
line.long 0x00 "ILF3_IPB_n_447,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB1C++0x3
line.long 0x00 "ILF3_IPB_n_448,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB20++0x3
line.long 0x00 "ILF3_IPB_n_449,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB24++0x3
line.long 0x00 "ILF3_IPB_n_450,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB28++0x3
line.long 0x00 "ILF3_IPB_n_451,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB2C++0x3
line.long 0x00 "ILF3_IPB_n_452,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB30++0x3
line.long 0x00 "ILF3_IPB_n_453,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB34++0x3
line.long 0x00 "ILF3_IPB_n_454,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB38++0x3
line.long 0x00 "ILF3_IPB_n_455,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB3C++0x3
line.long 0x00 "ILF3_IPB_n_456,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB40++0x3
line.long 0x00 "ILF3_IPB_n_457,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB44++0x3
line.long 0x00 "ILF3_IPB_n_458,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB48++0x3
line.long 0x00 "ILF3_IPB_n_459,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB4C++0x3
line.long 0x00 "ILF3_IPB_n_460,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB50++0x3
line.long 0x00 "ILF3_IPB_n_461,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB54++0x3
line.long 0x00 "ILF3_IPB_n_462,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB58++0x3
line.long 0x00 "ILF3_IPB_n_463,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB5C++0x3
line.long 0x00 "ILF3_IPB_n_464,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB60++0x3
line.long 0x00 "ILF3_IPB_n_465,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB64++0x3
line.long 0x00 "ILF3_IPB_n_466,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB68++0x3
line.long 0x00 "ILF3_IPB_n_467,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB6C++0x3
line.long 0x00 "ILF3_IPB_n_468,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB70++0x3
line.long 0x00 "ILF3_IPB_n_469,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB74++0x3
line.long 0x00 "ILF3_IPB_n_470,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB78++0x3
line.long 0x00 "ILF3_IPB_n_471,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB7C++0x3
line.long 0x00 "ILF3_IPB_n_472,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB80++0x3
line.long 0x00 "ILF3_IPB_n_473,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB84++0x3
line.long 0x00 "ILF3_IPB_n_474,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB88++0x3
line.long 0x00 "ILF3_IPB_n_475,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB8C++0x3
line.long 0x00 "ILF3_IPB_n_476,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB90++0x3
line.long 0x00 "ILF3_IPB_n_477,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB94++0x3
line.long 0x00 "ILF3_IPB_n_478,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB98++0x3
line.long 0x00 "ILF3_IPB_n_479,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB9C++0x3
line.long 0x00 "ILF3_IPB_n_480,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBA0++0x3
line.long 0x00 "ILF3_IPB_n_481,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBA4++0x3
line.long 0x00 "ILF3_IPB_n_482,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBA8++0x3
line.long 0x00 "ILF3_IPB_n_483,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBAC++0x3
line.long 0x00 "ILF3_IPB_n_484,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBB0++0x3
line.long 0x00 "ILF3_IPB_n_485,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBB4++0x3
line.long 0x00 "ILF3_IPB_n_486,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBB8++0x3
line.long 0x00 "ILF3_IPB_n_487,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBBC++0x3
line.long 0x00 "ILF3_IPB_n_488,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBC0++0x3
line.long 0x00 "ILF3_IPB_n_489,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBC4++0x3
line.long 0x00 "ILF3_IPB_n_490,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBC8++0x3
line.long 0x00 "ILF3_IPB_n_491,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBCC++0x3
line.long 0x00 "ILF3_IPB_n_492,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBD0++0x3
line.long 0x00 "ILF3_IPB_n_493,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBD4++0x3
line.long 0x00 "ILF3_IPB_n_494,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBD8++0x3
line.long 0x00 "ILF3_IPB_n_495,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBDC++0x3
line.long 0x00 "ILF3_IPB_n_496,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBE0++0x3
line.long 0x00 "ILF3_IPB_n_497,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBE4++0x3
line.long 0x00 "ILF3_IPB_n_498,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBE8++0x3
line.long 0x00 "ILF3_IPB_n_499,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBEC++0x3
line.long 0x00 "ILF3_IPB_n_500,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBF0++0x3
line.long 0x00 "ILF3_IPB_n_501,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBF4++0x3
line.long 0x00 "ILF3_IPB_n_502,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBF8++0x3
line.long 0x00 "ILF3_IPB_n_503,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBFC++0x3
line.long 0x00 "ILF3_IPB_n_504,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC00++0x3
line.long 0x00 "ILF3_IPB_n_505,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC04++0x3
line.long 0x00 "ILF3_IPB_n_506,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC08++0x3
line.long 0x00 "ILF3_IPB_n_507,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC0C++0x3
line.long 0x00 "ILF3_IPB_n_508,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC10++0x3
line.long 0x00 "ILF3_IPB_n_509,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC14++0x3
line.long 0x00 "ILF3_IPB_n_510,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC18++0x3
line.long 0x00 "ILF3_IPB_n_511,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC1C++0x3
line.long 0x00 "ILF3_IPB_n_512,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC20++0x3
line.long 0x00 "ILF3_IPB_n_513,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC24++0x3
line.long 0x00 "ILF3_IPB_n_514,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC28++0x3
line.long 0x00 "ILF3_IPB_n_515,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC2C++0x3
line.long 0x00 "ILF3_IPB_n_516,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC30++0x3
line.long 0x00 "ILF3_IPB_n_517,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC34++0x3
line.long 0x00 "ILF3_IPB_n_518,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC38++0x3
line.long 0x00 "ILF3_IPB_n_519,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC3C++0x3
line.long 0x00 "ILF3_IPB_n_520,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC40++0x3
line.long 0x00 "ILF3_IPB_n_521,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC44++0x3
line.long 0x00 "ILF3_IPB_n_522,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC48++0x3
line.long 0x00 "ILF3_IPB_n_523,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC4C++0x3
line.long 0x00 "ILF3_IPB_n_524,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC50++0x3
line.long 0x00 "ILF3_IPB_n_525,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC54++0x3
line.long 0x00 "ILF3_IPB_n_526,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC58++0x3
line.long 0x00 "ILF3_IPB_n_527,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC5C++0x3
line.long 0x00 "ILF3_IPB_n_528,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC60++0x3
line.long 0x00 "ILF3_IPB_n_529,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC64++0x3
line.long 0x00 "ILF3_IPB_n_530,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC68++0x3
line.long 0x00 "ILF3_IPB_n_531,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC6C++0x3
line.long 0x00 "ILF3_IPB_n_532,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC70++0x3
line.long 0x00 "ILF3_IPB_n_533,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC74++0x3
line.long 0x00 "ILF3_IPB_n_534,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC78++0x3
line.long 0x00 "ILF3_IPB_n_535,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC7C++0x3
line.long 0x00 "ILF3_IPB_n_536,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC80++0x3
line.long 0x00 "ILF3_IPB_n_537,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC84++0x3
line.long 0x00 "ILF3_IPB_n_538,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC88++0x3
line.long 0x00 "ILF3_IPB_n_539,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC8C++0x3
line.long 0x00 "ILF3_IPB_n_540,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC90++0x3
line.long 0x00 "ILF3_IPB_n_541,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC94++0x3
line.long 0x00 "ILF3_IPB_n_542,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC98++0x3
line.long 0x00 "ILF3_IPB_n_543,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC9C++0x3
line.long 0x00 "ILF3_IPB_n_544,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCA0++0x3
line.long 0x00 "ILF3_IPB_n_545,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCA4++0x3
line.long 0x00 "ILF3_IPB_n_546,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCA8++0x3
line.long 0x00 "ILF3_IPB_n_547,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCAC++0x3
line.long 0x00 "ILF3_IPB_n_548,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCB0++0x3
line.long 0x00 "ILF3_IPB_n_549,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCB4++0x3
line.long 0x00 "ILF3_IPB_n_550,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCB8++0x3
line.long 0x00 "ILF3_IPB_n_551,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCBC++0x3
line.long 0x00 "ILF3_IPB_n_552,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCC0++0x3
line.long 0x00 "ILF3_IPB_n_553,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCC4++0x3
line.long 0x00 "ILF3_IPB_n_554,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCC8++0x3
line.long 0x00 "ILF3_IPB_n_555,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCCC++0x3
line.long 0x00 "ILF3_IPB_n_556,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCD0++0x3
line.long 0x00 "ILF3_IPB_n_557,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCD4++0x3
line.long 0x00 "ILF3_IPB_n_558,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCD8++0x3
line.long 0x00 "ILF3_IPB_n_559,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCDC++0x3
line.long 0x00 "ILF3_IPB_n_560,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCE0++0x3
line.long 0x00 "ILF3_IPB_n_561,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCE4++0x3
line.long 0x00 "ILF3_IPB_n_562,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCE8++0x3
line.long 0x00 "ILF3_IPB_n_563,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCEC++0x3
line.long 0x00 "ILF3_IPB_n_564,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCF0++0x3
line.long 0x00 "ILF3_IPB_n_565,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCF4++0x3
line.long 0x00 "ILF3_IPB_n_566,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCF8++0x3
line.long 0x00 "ILF3_IPB_n_567,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCFC++0x3
line.long 0x00 "ILF3_IPB_n_568,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD00++0x3
line.long 0x00 "ILF3_IPB_n_569,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD04++0x3
line.long 0x00 "ILF3_IPB_n_570,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD08++0x3
line.long 0x00 "ILF3_IPB_n_571,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD0C++0x3
line.long 0x00 "ILF3_IPB_n_572,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD10++0x3
line.long 0x00 "ILF3_IPB_n_573,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD14++0x3
line.long 0x00 "ILF3_IPB_n_574,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD18++0x3
line.long 0x00 "ILF3_IPB_n_575,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD1C++0x3
line.long 0x00 "ILF3_IPB_n_576,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD20++0x3
line.long 0x00 "ILF3_IPB_n_577,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD24++0x3
line.long 0x00 "ILF3_IPB_n_578,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD28++0x3
line.long 0x00 "ILF3_IPB_n_579,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD2C++0x3
line.long 0x00 "ILF3_IPB_n_580,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD30++0x3
line.long 0x00 "ILF3_IPB_n_581,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD34++0x3
line.long 0x00 "ILF3_IPB_n_582,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD38++0x3
line.long 0x00 "ILF3_IPB_n_583,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD3C++0x3
line.long 0x00 "ILF3_IPB_n_584,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD40++0x3
line.long 0x00 "ILF3_IPB_n_585,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD44++0x3
line.long 0x00 "ILF3_IPB_n_586,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD48++0x3
line.long 0x00 "ILF3_IPB_n_587,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD4C++0x3
line.long 0x00 "ILF3_IPB_n_588,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD50++0x3
line.long 0x00 "ILF3_IPB_n_589,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD54++0x3
line.long 0x00 "ILF3_IPB_n_590,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD58++0x3
line.long 0x00 "ILF3_IPB_n_591,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD5C++0x3
line.long 0x00 "ILF3_IPB_n_592,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD60++0x3
line.long 0x00 "ILF3_IPB_n_593,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD64++0x3
line.long 0x00 "ILF3_IPB_n_594,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD68++0x3
line.long 0x00 "ILF3_IPB_n_595,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD6C++0x3
line.long 0x00 "ILF3_IPB_n_596,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD70++0x3
line.long 0x00 "ILF3_IPB_n_597,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD74++0x3
line.long 0x00 "ILF3_IPB_n_598,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD78++0x3
line.long 0x00 "ILF3_IPB_n_599,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD7C++0x3
line.long 0x00 "ILF3_IPB_n_600,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD80++0x3
line.long 0x00 "ILF3_IPB_n_601,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD84++0x3
line.long 0x00 "ILF3_IPB_n_602,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD88++0x3
line.long 0x00 "ILF3_IPB_n_603,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD8C++0x3
line.long 0x00 "ILF3_IPB_n_604,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD90++0x3
line.long 0x00 "ILF3_IPB_n_605,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD94++0x3
line.long 0x00 "ILF3_IPB_n_606,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD98++0x3
line.long 0x00 "ILF3_IPB_n_607,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD9C++0x3
line.long 0x00 "ILF3_IPB_n_608,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDA0++0x3
line.long 0x00 "ILF3_IPB_n_609,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDA4++0x3
line.long 0x00 "ILF3_IPB_n_610,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDA8++0x3
line.long 0x00 "ILF3_IPB_n_611,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDAC++0x3
line.long 0x00 "ILF3_IPB_n_612,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDB0++0x3
line.long 0x00 "ILF3_IPB_n_613,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDB4++0x3
line.long 0x00 "ILF3_IPB_n_614,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDB8++0x3
line.long 0x00 "ILF3_IPB_n_615,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDBC++0x3
line.long 0x00 "ILF3_IPB_n_616,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDC0++0x3
line.long 0x00 "ILF3_IPB_n_617,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDC4++0x3
line.long 0x00 "ILF3_IPB_n_618,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDC8++0x3
line.long 0x00 "ILF3_IPB_n_619,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDCC++0x3
line.long 0x00 "ILF3_IPB_n_620,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDD0++0x3
line.long 0x00 "ILF3_IPB_n_621,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDD4++0x3
line.long 0x00 "ILF3_IPB_n_622,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDD8++0x3
line.long 0x00 "ILF3_IPB_n_623,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDDC++0x3
line.long 0x00 "ILF3_IPB_n_624,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDE0++0x3
line.long 0x00 "ILF3_IPB_n_625,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDE4++0x3
line.long 0x00 "ILF3_IPB_n_626,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDE8++0x3
line.long 0x00 "ILF3_IPB_n_627,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDEC++0x3
line.long 0x00 "ILF3_IPB_n_628,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDF0++0x3
line.long 0x00 "ILF3_IPB_n_629,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDF4++0x3
line.long 0x00 "ILF3_IPB_n_630,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDF8++0x3
line.long 0x00 "ILF3_IPB_n_631,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDFC++0x3
line.long 0x00 "ILF3_IPB_n_632,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE00++0x3
line.long 0x00 "ILF3_IPB_n_633,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE04++0x3
line.long 0x00 "ILF3_IPB_n_634,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE08++0x3
line.long 0x00 "ILF3_IPB_n_635,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE0C++0x3
line.long 0x00 "ILF3_IPB_n_636,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE10++0x3
line.long 0x00 "ILF3_IPB_n_637,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE14++0x3
line.long 0x00 "ILF3_IPB_n_638,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE18++0x3
line.long 0x00 "ILF3_IPB_n_639,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE1C++0x3
line.long 0x00 "ILF3_IPB_n_640,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE20++0x3
line.long 0x00 "ILF3_IPB_n_641,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE24++0x3
line.long 0x00 "ILF3_IPB_n_642,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE28++0x3
line.long 0x00 "ILF3_IPB_n_643,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE2C++0x3
line.long 0x00 "ILF3_IPB_n_644,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE30++0x3
line.long 0x00 "ILF3_IPB_n_645,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE34++0x3
line.long 0x00 "ILF3_IPB_n_646,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE38++0x3
line.long 0x00 "ILF3_IPB_n_647,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE3C++0x3
line.long 0x00 "ILF3_IPB_n_648,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE40++0x3
line.long 0x00 "ILF3_IPB_n_649,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE44++0x3
line.long 0x00 "ILF3_IPB_n_650,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE48++0x3
line.long 0x00 "ILF3_IPB_n_651,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE4C++0x3
line.long 0x00 "ILF3_IPB_n_652,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE50++0x3
line.long 0x00 "ILF3_IPB_n_653,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE54++0x3
line.long 0x00 "ILF3_IPB_n_654,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE58++0x3
line.long 0x00 "ILF3_IPB_n_655,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE5C++0x3
line.long 0x00 "ILF3_IPB_n_656,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE60++0x3
line.long 0x00 "ILF3_IPB_n_657,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE64++0x3
line.long 0x00 "ILF3_IPB_n_658,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE68++0x3
line.long 0x00 "ILF3_IPB_n_659,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE6C++0x3
line.long 0x00 "ILF3_IPB_n_660,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE70++0x3
line.long 0x00 "ILF3_IPB_n_661,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE74++0x3
line.long 0x00 "ILF3_IPB_n_662,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE78++0x3
line.long 0x00 "ILF3_IPB_n_663,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE7C++0x3
line.long 0x00 "ILF3_IPB_n_664,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE80++0x3
line.long 0x00 "ILF3_IPB_n_665,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE84++0x3
line.long 0x00 "ILF3_IPB_n_666,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE88++0x3
line.long 0x00 "ILF3_IPB_n_667,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE8C++0x3
line.long 0x00 "ILF3_IPB_n_668,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE90++0x3
line.long 0x00 "ILF3_IPB_n_669,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE94++0x3
line.long 0x00 "ILF3_IPB_n_670,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE98++0x3
line.long 0x00 "ILF3_IPB_n_671,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE9C++0x3
line.long 0x00 "ILF3_IPB_n_672,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEA0++0x3
line.long 0x00 "ILF3_IPB_n_673,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEA4++0x3
line.long 0x00 "ILF3_IPB_n_674,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEA8++0x3
line.long 0x00 "ILF3_IPB_n_675,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEAC++0x3
line.long 0x00 "ILF3_IPB_n_676,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEB0++0x3
line.long 0x00 "ILF3_IPB_n_677,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEB4++0x3
line.long 0x00 "ILF3_IPB_n_678,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEB8++0x3
line.long 0x00 "ILF3_IPB_n_679,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEBC++0x3
line.long 0x00 "ILF3_IPB_n_680,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEC0++0x3
line.long 0x00 "ILF3_IPB_n_681,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEC4++0x3
line.long 0x00 "ILF3_IPB_n_682,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEC8++0x3
line.long 0x00 "ILF3_IPB_n_683,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xECC++0x3
line.long 0x00 "ILF3_IPB_n_684,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xED0++0x3
line.long 0x00 "ILF3_IPB_n_685,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xED4++0x3
line.long 0x00 "ILF3_IPB_n_686,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xED8++0x3
line.long 0x00 "ILF3_IPB_n_687,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEDC++0x3
line.long 0x00 "ILF3_IPB_n_688,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEE0++0x3
line.long 0x00 "ILF3_IPB_n_689,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEE4++0x3
line.long 0x00 "ILF3_IPB_n_690,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEE8++0x3
line.long 0x00 "ILF3_IPB_n_691,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEEC++0x3
line.long 0x00 "ILF3_IPB_n_692,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEF0++0x3
line.long 0x00 "ILF3_IPB_n_693,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEF4++0x3
line.long 0x00 "ILF3_IPB_n_694,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEF8++0x3
line.long 0x00 "ILF3_IPB_n_695,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEFC++0x3
line.long 0x00 "ILF3_IPB_n_696,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xF00++0x3
line.long 0x00 "ILF3_IPB_n_697,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xF04++0x3
line.long 0x00 "ILF3_IPB_n_698,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xF08++0x3
line.long 0x00 "ILF3_IPB_n_699,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xF0C++0x3
line.long 0x00 "ILF3_IPB_n_700,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xF10++0x3
line.long 0x00 "ILF3_IPB_n_701,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xF14++0x3
line.long 0x00 "ILF3_IPB_n_702,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xF18++0x3
line.long 0x00 "ILF3_IPB_n_703,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
textline ""
width 32.
rgroup.long 0x0++0x3
line.long 0x00 "ILF3_REVISION,IP revision identifier (X.Y.R) Used by software to track features, bugs, and compatibility"
hexmask.long 0x00 0.--31. 1. " REVISION                    ,IP revision"
group.long 0x10++0x3
line.long 0x00 "ILF3_SYSCONFIG,Clock management configuration"
bitfld.long 0x00 4.--5. " STANDBYMODE                 ,Configuration of the local initiator state management mode. By definition, initiator may generate read/write transaction as long as it is out of STANDBY state. - . - . - . - ." "0,1,2,3"
bitfld.long 0x00 2.--3. "                        IDLEMODE     ,Configuration of the local target state management mode. By definition, target can handle read/write transaction as long as it is out of IDLE state. - . - . - . - ." "0,1,2,3"
bitfld.long 0x00 0. "            SOFTRESET       ,Software reset (optional) - . - . - . - ." "No_action,Initiate_software_reset"
group.long 0x18++0x3
line.long 0x00 "ILF3_IRQ_EOI,End Of Interrupt number specification"
bitfld.long 0x00 0. " LINE_NUMBER                 ,Software End Of Interrupt (EOI) control. Write number of interrupt output. - READ0. - EOI1. - EOI1." "READ0,EOI1"
group.long 0x1C++0x3
line.long 0x00 "ILF3_IRQSTATUS_RAW_0,Per-event raw interrupt status vector, line 0. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " EVENT0                      ,Settable raw status for event 0 - . - . - . - ." "No_action,Event_pending"
group.long 0x20++0x3
line.long 0x00 "ILF3_IRQSTATUS_0,Per-event 'enabled' interrupt status vector, line 0. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " EVENT0                      ,Clearable, enabled status for event 0 - . - . - . - ." "No_action,Event_pending"
group.long 0x24++0x3
line.long 0x00 "ILF3_IRQENABLE_SET_0,Per-event interrupt enable bit vector, line 0. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0                     ,Enable for event 0 - . - . - . - ." "No_action,Interrupt_enabled"
group.long 0x28++0x3
line.long 0x00 "ILF3_IRQENABLE_CLR_0,Per-event interrupt enable bit vector, line 0. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0                     ,Enable for event 0 - . - . - . - ." "No_action,Interrupt_enabled"
group.long 0x30++0x3
line.long 0x00 "ILF3_CONFIG,Configuration register"
hexmask.long.byte 0x00 24.--31. 1. " AUTOINCCOUNTER              ,This field indicates the current increment in MB for the auto-increment mechanism. The value at reset is 0 and it is incremented at the end of each MB (or MBPair in MBAFF) process. When it reaches the MAX_COUNT value in MB..."
bitfld.long 0x00 17.--18. "                       MBINFO_SIZE  ,Selects one of the three different MBinfo sizes to be loaded. - . - . - . - ." "0,1,2,3"
bitfld.long 0x00 16. "            IRQAUTOCLEAR_EN ,0x0: IRQ auto clear disabled, 0x1: IRQ auto clear enabled" "0,1"
textline "                                         "
hexmask.long.byte 0x00 8.--15. 1. " CODEC                       ,Indicates the codec to be used. - . - . - . - . - . - . - . - . - . - . - . - . - ."
bitfld.long 0x00 0.--4. "                       PPA_TASK     ,Bit 0: Load MB info Bit 1: Compute BS. Bit 2: Load MB. Bit 3: Filter MB. Bit 4: Store MB." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rgroup.long 0x34++0x3
line.long 0x00 "ILF3_STATUS,Provides information on the progress of the ILF3 execution."
bitfld.long 0x00 27. " WRITEREGERROR               ,This bit is cleared by a Start() command when in INITIALIZED or COMPLETED state. - . - ." "Normal_mode.,1"
bitfld.long 0x00 24.--25. "             EXECSTATE    ,Execution states. - . - . - . - ." "INITIALIZED,HALTED,EXECUTING,COMPLETED"
hexmask.long.word 0x00 0.--15. 1. "  CYCLECOUNT      ,Total number of cycles executed"
group.long 0x38++0x3
line.long 0x00 "ILF3_MBCONFIG_SLICEINFO01,MBConfig table contains pointers used by program to control the ILF3 units."
hexmask.long.word 0x00 16.--31. 1. " SLICEINFO1                  ,Parameter"
hexmask.long.word 0x00 0.--15. 1. "                     SLICEINFO0   ,Parameter"
group.long 0x3C++0x3
line.long 0x00 "ILF3_MBCONFIG_SLICEINFO2,MBConfig table contains pointers used by program to control the ILF3 units."
hexmask.long.word 0x00 0.--15. 1. " MBCONFIG_ADDRESS_SLICEINFO2 ,Parameter"
group.long 0x8C++0x3
line.long 0x00 "ILF3_MBCONFIG_COEFFICIENTS0123,MBConfig table contains pointers used by program to control the ILF3 units."
hexmask.long.byte 0x00 24.--31. 1. " COEFF3                      ,GDP coefficient 3"
hexmask.long.byte 0x00 16.--23. 1. "                       COEFF2       ,GDP coefficient 2"
hexmask.long.byte 0x00 8.--15. 1. "           COEFF1          ,GDP coefficient 1"
textline "                                         "
hexmask.long.byte 0x00 0.--7. 1. " COEFF0                      ,GDP coefficient 0"
group.long 0x90++0x3
line.long 0x00 "ILF3_MBCONFIG_COEFFICIENTS4567,MBConfig table contains pointers used by program to control the ILF3 units."
hexmask.long.byte 0x00 24.--31. 1. " COEFF7                      ,GDP coefficient 7"
hexmask.long.byte 0x00 16.--23. 1. "                       COEFF6       ,GDP coefficient 6"
hexmask.long.byte 0x00 8.--15. 1. "           COEFF5          ,GDP coefficient 5"
textline "                                         "
hexmask.long.byte 0x00 0.--7. 1. " COEFF4                      ,GDP coefficient 4"
group.long 0xB0++0x3
line.long 0x00 "ILF3_MBCONFIG_AUTOINC,MBConfig table contains pointers used by program to control the ILF3 units."
bitfld.long 0x00 11. " AUTOINC                     ,This bit must set to 1 to activate the auto-increment scheme." "0,1"
bitfld.long 0x00 8.--10. "                        PIXEL_FORMAT ,This field indicates the number of pixel rows in the top-row buffer and also the number of rows of 8-bit pixels and 16-bit pixels (VC-1 case with OVT activated)." "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "            MAX_COUNT       ,Maximum value of Counter for auto-increment. Usually corresponds to the number of MB in one row."
group.long 0xB4++0x3
line.long 0x00 "ILF3_MBCONFIG_NEXTMBCONFIG,MBConfig table contains pointers used by program to control the ILF3 units."
hexmask.long.word 0x00 0.--15. 1. " NEXTMBCONFIGADDRESS         ,Contains the next MB address"
group.long 0xB8++0x3
line.long 0x00 "ILF3_MBSTATUS,Provides MB properties"
bitfld.long 0x00 25. " ISFIRSTMB                   ,Indicates which MB of the MB pair is being processed. - . - ." "0,1"
bitfld.long 0x00 23.--24. "                        COMPONENT    ,Indicates if IPB contains Luma or Chroma pixels. Ex: in H.264 0: Luma pixels 1: Chroma pixels" "0,1,2,3"
bitfld.long 0x00 22. "            TOP_LEFT_FIELD  ,Indicates the type of the top-left MB pair. - . - ." "0,1"
textline "                                         "
bitfld.long 0x00 21. " TOP_FIELD                   ,Indicates the type of the top MB pair. - . - ." "0,1"
bitfld.long 0x00 20. "                        LEFT_FIELD   ,Indicates the type of the left MB pair. - . - ." "0,1"
bitfld.long 0x00 19. "            CUR_FIELD       ,Indicates the type of the current MB. - . - ." "0,1"
textline "                                         "
bitfld.long 0x00 17.--18. " ALT_V                       ,Indicates the type of left edge. - . - . - . - ." "0,1,2,Forbiden/not_functional"
bitfld.long 0x00 16. "  ALT_H        ,Indicates the type of the top horizontal edge. - . - ." "0,1"
bitfld.long 0x00 8. "            LOAD_SLICEINFO  ,This flag indicates if the slice information must be updated or not. - . - ." "0,1"
textline "                                         "
bitfld.long 0x00 0.--4. " PPA_TASK_STATUS             ,1 means which elementary task has been executed. Bit 0: Load MB info Bit 1: Compute BS Bit 2: Load MB Bit 3: Filter MB Bit 4: Store MB" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
wgroup.long 0xFFC++0x3
line.long 0x00 "ILF3_COMMAND,ILF3 command register: A write to this register decodes a command. DATA/COMMAND 0x1 -> Start() 0x2 -> Stop() 0x3 -> DbgEn() 0x4 -> DbgDis() 0x5 -> DbgStep()."
bitfld.long 0x00 0.--2. " CMD                         ,DATA/COMMAND 0x1 -> Start() 0x2 -> Stop() 0x3 -> DbgEn() 0x4 -> DbgDis() 0x5 -> DbgStep()" "0,1,2,3,4,5,6,7"
width 0x0B
tree.end
endif
tree "ILF3_L3_MAINInterconnect"
base ad:0x5A052000
tree "Channel_0"
width 29.
group.long 0x1C8++0x3
line.long 0x00 "ILF3_BS_l_0,Boundary strength"
bitfld.long 0x00 0.--3. " BS                    ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x41C++0x3
line.long 0x00 "ILF3_IPB_n_0,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT          ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "         IPB_BYTE             ,Byte element of IPB"
group.long 0x94++0x3
line.long 0x00 "ILF3_MBCONFIG_GDPCONFIG_i_0,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 27.--30. " RND                   ,Rounding selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        RIGHT_SHIFT          ,Shift right value" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 21.--23. "     SELC7               ,Coefficient selection for GDP, P7 multiplication" "0,1,2,3,4,5,6,7"
textline "                                      "
bitfld.long 0x00 18.--20. " SELC6                 ,Coefficient selection for GDP, P6 multiplication" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 15.--17. "         SELC5                ,Coefficient selection for GDP, P5 multiplication" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "     SELC4               ,Coefficient selection for GDP, P4 multiplication" "0,1,2,3,4,5,6,7"
textline "                                      "
bitfld.long 0x00 9.--11. " SELC3                 ,Coefficient selection for GDP, P3 multiplication" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6.--8. "         SELC2                ,Coefficient selection for GDP, P2 multiplication" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3.--5. "     SELC1               ,Coefficient selection for GDP, P1 multiplication" "0,1,2,3,4,5,6,7"
textline "                                      "
bitfld.long 0x00 0.--2. " SELC0                 ,Coefficient selection for GDP, P0 multiplication" "0,1,2,3,4,5,6,7"
group.long 0x40++0x3
line.long 0x00 "ILF3_MBCONFIG_MBINFO_k_0,MBConfig table contains pointers used by program to control the ILF3 units"
hexmask.long.word 0x00 16.--31. 1. " MBCONFIG_ADDRESS_HIGH ,Parameter"
hexmask.long.word 0x00 0.--15. 1. "      MBCONFIG_ADDRESS_LOW ,Parameter"
group.long 0x4C++0x3
line.long 0x00 "ILF3_MBCONFIG_MB_o_0,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 23.--26. " SHIFT_OR_WE           ,Parameter, see and ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--22. 1. "        STRIDE               ,This field allows to increment the base address with the stride value at each iteration."
hexmask.long.word 0x00 0.--15. 1. "    LUMA_CHROMA_ADDRESS ,SL2 address pointer"
group.long 0x128++0x3
line.long 0x00 "ILF3_QP_IDX_j_0,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX                ,QP index" "0,1,2,3,4,5,6,7"
group.long 0xE0++0x3
line.long 0x00 "ILF3_QP_m_0,Quantization parameter"
bitfld.long 0x00 0.--5. " QP                    ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0xBC++0x3
line.long 0x00 "ILF3_SLICESTATUS_k_0,MBConfig table contains pointers used by program to control the ILF3 units"
hexmask.long 0x00 0.--31. 1. " SLICEINFO             ,Slice information register. - See, Load SLICEINFO. . - ."
tree.end
tree "Channel_1"
width 29.
group.long 0x1CC++0x3
line.long 0x00 "ILF3_BS_l_1,Boundary strength"
bitfld.long 0x00 0.--3. " BS                    ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x420++0x3
line.long 0x00 "ILF3_IPB_n_1,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT          ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "         IPB_BYTE             ,Byte element of IPB"
group.long 0x98++0x3
line.long 0x00 "ILF3_MBCONFIG_GDPCONFIG_i_1,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 27.--30. " RND                   ,Rounding selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        RIGHT_SHIFT          ,Shift right value" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 21.--23. "     SELC7               ,Coefficient selection for GDP, P7 multiplication" "0,1,2,3,4,5,6,7"
textline "                                      "
bitfld.long 0x00 18.--20. " SELC6                 ,Coefficient selection for GDP, P6 multiplication" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 15.--17. "         SELC5                ,Coefficient selection for GDP, P5 multiplication" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "     SELC4               ,Coefficient selection for GDP, P4 multiplication" "0,1,2,3,4,5,6,7"
textline "                                      "
bitfld.long 0x00 9.--11. " SELC3                 ,Coefficient selection for GDP, P3 multiplication" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6.--8. "         SELC2                ,Coefficient selection for GDP, P2 multiplication" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3.--5. "     SELC1               ,Coefficient selection for GDP, P1 multiplication" "0,1,2,3,4,5,6,7"
textline "                                      "
bitfld.long 0x00 0.--2. " SELC0                 ,Coefficient selection for GDP, P0 multiplication" "0,1,2,3,4,5,6,7"
group.long 0x44++0x3
line.long 0x00 "ILF3_MBCONFIG_MBINFO_k_1,MBConfig table contains pointers used by program to control the ILF3 units"
hexmask.long.word 0x00 16.--31. 1. " MBCONFIG_ADDRESS_HIGH ,Parameter"
hexmask.long.word 0x00 0.--15. 1. "      MBCONFIG_ADDRESS_LOW ,Parameter"
group.long 0x50++0x3
line.long 0x00 "ILF3_MBCONFIG_MB_o_1,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 23.--26. " SHIFT_OR_WE           ,Parameter, see and ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--22. 1. "        STRIDE               ,This field allows to increment the base address with the stride value at each iteration."
hexmask.long.word 0x00 0.--15. 1. "    LUMA_CHROMA_ADDRESS ,SL2 address pointer"
group.long 0x12C++0x3
line.long 0x00 "ILF3_QP_IDX_j_1,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX                ,QP index" "0,1,2,3,4,5,6,7"
group.long 0xE4++0x3
line.long 0x00 "ILF3_QP_m_1,Quantization parameter"
bitfld.long 0x00 0.--5. " QP                    ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0xC0++0x3
line.long 0x00 "ILF3_SLICESTATUS_k_1,MBConfig table contains pointers used by program to control the ILF3 units"
hexmask.long 0x00 0.--31. 1. " SLICEINFO             ,Slice information register. - See, Load SLICEINFO. . - ."
tree.end
tree "Channel_2"
width 29.
group.long 0x1D0++0x3
line.long 0x00 "ILF3_BS_l_2,Boundary strength"
bitfld.long 0x00 0.--3. " BS                    ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x424++0x3
line.long 0x00 "ILF3_IPB_n_2,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT          ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "         IPB_BYTE             ,Byte element of IPB"
group.long 0x9C++0x3
line.long 0x00 "ILF3_MBCONFIG_GDPCONFIG_i_2,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 27.--30. " RND                   ,Rounding selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        RIGHT_SHIFT          ,Shift right value" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 21.--23. "     SELC7               ,Coefficient selection for GDP, P7 multiplication" "0,1,2,3,4,5,6,7"
textline "                                      "
bitfld.long 0x00 18.--20. " SELC6                 ,Coefficient selection for GDP, P6 multiplication" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 15.--17. "         SELC5                ,Coefficient selection for GDP, P5 multiplication" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "     SELC4               ,Coefficient selection for GDP, P4 multiplication" "0,1,2,3,4,5,6,7"
textline "                                      "
bitfld.long 0x00 9.--11. " SELC3                 ,Coefficient selection for GDP, P3 multiplication" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6.--8. "         SELC2                ,Coefficient selection for GDP, P2 multiplication" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3.--5. "     SELC1               ,Coefficient selection for GDP, P1 multiplication" "0,1,2,3,4,5,6,7"
textline "                                      "
bitfld.long 0x00 0.--2. " SELC0                 ,Coefficient selection for GDP, P0 multiplication" "0,1,2,3,4,5,6,7"
group.long 0x48++0x3
line.long 0x00 "ILF3_MBCONFIG_MBINFO_k_2,MBConfig table contains pointers used by program to control the ILF3 units"
hexmask.long.word 0x00 16.--31. 1. " MBCONFIG_ADDRESS_HIGH ,Parameter"
hexmask.long.word 0x00 0.--15. 1. "      MBCONFIG_ADDRESS_LOW ,Parameter"
group.long 0x54++0x3
line.long 0x00 "ILF3_MBCONFIG_MB_o_2,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 23.--26. " SHIFT_OR_WE           ,Parameter, see and ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--22. 1. "        STRIDE               ,This field allows to increment the base address with the stride value at each iteration."
hexmask.long.word 0x00 0.--15. 1. "    LUMA_CHROMA_ADDRESS ,SL2 address pointer"
group.long 0x130++0x3
line.long 0x00 "ILF3_QP_IDX_j_2,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX                ,QP index" "0,1,2,3,4,5,6,7"
group.long 0xE8++0x3
line.long 0x00 "ILF3_QP_m_2,Quantization parameter"
bitfld.long 0x00 0.--5. " QP                    ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0xC4++0x3
line.long 0x00 "ILF3_SLICESTATUS_k_2,MBConfig table contains pointers used by program to control the ILF3 units"
hexmask.long 0x00 0.--31. 1. " SLICEINFO             ,Slice information register. - See, Load SLICEINFO. . - ."
tree.end
tree "Channel_3"
width 29.
group.long 0x1D4++0x3
line.long 0x00 "ILF3_BS_l_3,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x428++0x3
line.long 0x00 "ILF3_IPB_n_3,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE    ,Byte element of IPB"
group.long 0xA0++0x3
line.long 0x00 "ILF3_MBCONFIG_GDPCONFIG_i_3,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 27.--30. " RND          ,Rounding selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "  RIGHT_SHIFT ,Shift right value" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 21.--23. "   SELC7               ,Coefficient selection for GDP, P7 multiplication" "0,1,2,3,4,5,6,7"
textline "                                      "
bitfld.long 0x00 18.--20. " SELC6        ,Coefficient selection for GDP, P6 multiplication" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 15.--17. "   SELC5       ,Coefficient selection for GDP, P5 multiplication" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "   SELC4               ,Coefficient selection for GDP, P4 multiplication" "0,1,2,3,4,5,6,7"
textline "                                      "
bitfld.long 0x00 9.--11. " SELC3        ,Coefficient selection for GDP, P3 multiplication" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6.--8. "   SELC2       ,Coefficient selection for GDP, P2 multiplication" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3.--5. "   SELC1               ,Coefficient selection for GDP, P1 multiplication" "0,1,2,3,4,5,6,7"
textline "                                      "
bitfld.long 0x00 0.--2. " SELC0        ,Coefficient selection for GDP, P0 multiplication" "0,1,2,3,4,5,6,7"
group.long 0x58++0x3
line.long 0x00 "ILF3_MBCONFIG_MB_o_3,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 23.--26. " SHIFT_OR_WE  ,Parameter, see and ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--22. 1. "  STRIDE      ,This field allows to increment the base address with the stride value at each iteration."
hexmask.long.word 0x00 0.--15. 1. "  LUMA_CHROMA_ADDRESS ,SL2 address pointer"
group.long 0x134++0x3
line.long 0x00 "ILF3_QP_IDX_j_3,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
group.long 0xEC++0x3
line.long 0x00 "ILF3_QP_m_3,Quantization parameter"
bitfld.long 0x00 0.--5. " QP           ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
tree.end
tree "Channel_4"
width 22.
group.long 0x1D8++0x3
line.long 0x00 "ILF3_BS_l_4,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x42C++0x3
line.long 0x00 "ILF3_IPB_n_4,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x5C++0x3
line.long 0x00 "ILF3_MBCONFIG_MB_o_4,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 23.--26. " SHIFT_OR_WE  ,Parameter, see and ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--22. 1. "  STRIDE   ,This field allows to increment the base address with the stride value at each iteration."
hexmask.long.word 0x00 0.--15. 1. "  LUMA_CHROMA_ADDRESS ,SL2 address pointer"
group.long 0x138++0x3
line.long 0x00 "ILF3_QP_IDX_j_4,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
group.long 0xF0++0x3
line.long 0x00 "ILF3_QP_m_4,Quantization parameter"
bitfld.long 0x00 0.--5. " QP           ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
tree.end
tree "Channel_5"
width 22.
group.long 0x1DC++0x3
line.long 0x00 "ILF3_BS_l_5,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x430++0x3
line.long 0x00 "ILF3_IPB_n_5,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x60++0x3
line.long 0x00 "ILF3_MBCONFIG_MB_o_5,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 23.--26. " SHIFT_OR_WE  ,Parameter, see and ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--22. 1. "  STRIDE   ,This field allows to increment the base address with the stride value at each iteration."
hexmask.long.word 0x00 0.--15. 1. "  LUMA_CHROMA_ADDRESS ,SL2 address pointer"
group.long 0x13C++0x3
line.long 0x00 "ILF3_QP_IDX_j_5,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
group.long 0xF4++0x3
line.long 0x00 "ILF3_QP_m_5,Quantization parameter"
bitfld.long 0x00 0.--5. " QP           ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
tree.end
tree "Channel_6"
width 22.
group.long 0x1E0++0x3
line.long 0x00 "ILF3_BS_l_6,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x434++0x3
line.long 0x00 "ILF3_IPB_n_6,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x64++0x3
line.long 0x00 "ILF3_MBCONFIG_MB_o_6,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 23.--26. " SHIFT_OR_WE  ,Parameter, see and ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--22. 1. "  STRIDE   ,This field allows to increment the base address with the stride value at each iteration."
hexmask.long.word 0x00 0.--15. 1. "  LUMA_CHROMA_ADDRESS ,SL2 address pointer"
group.long 0x140++0x3
line.long 0x00 "ILF3_QP_IDX_j_6,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
group.long 0xF8++0x3
line.long 0x00 "ILF3_QP_m_6,Quantization parameter"
bitfld.long 0x00 0.--5. " QP           ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
tree.end
tree "Channel_7"
width 22.
group.long 0x1E4++0x3
line.long 0x00 "ILF3_BS_l_7,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x438++0x3
line.long 0x00 "ILF3_IPB_n_7,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x68++0x3
line.long 0x00 "ILF3_MBCONFIG_MB_o_7,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 23.--26. " SHIFT_OR_WE  ,Parameter, see and ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--22. 1. "  STRIDE   ,This field allows to increment the base address with the stride value at each iteration."
hexmask.long.word 0x00 0.--15. 1. "  LUMA_CHROMA_ADDRESS ,SL2 address pointer"
group.long 0x144++0x3
line.long 0x00 "ILF3_QP_IDX_j_7,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
group.long 0xFC++0x3
line.long 0x00 "ILF3_QP_m_7,Quantization parameter"
bitfld.long 0x00 0.--5. " QP           ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
tree.end
tree "Channel_8"
width 22.
group.long 0x1E8++0x3
line.long 0x00 "ILF3_BS_l_8,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x43C++0x3
line.long 0x00 "ILF3_IPB_n_8,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6C++0x3
line.long 0x00 "ILF3_MBCONFIG_MB_o_8,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 23.--26. " SHIFT_OR_WE  ,Parameter, see and ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--22. 1. "  STRIDE   ,This field allows to increment the base address with the stride value at each iteration."
hexmask.long.word 0x00 0.--15. 1. "  LUMA_CHROMA_ADDRESS ,SL2 address pointer"
group.long 0x148++0x3
line.long 0x00 "ILF3_QP_IDX_j_8,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
group.long 0x100++0x3
line.long 0x00 "ILF3_QP_m_8,Quantization parameter"
bitfld.long 0x00 0.--5. " QP           ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
tree.end
tree "Channel_9"
width 22.
group.long 0x1EC++0x3
line.long 0x00 "ILF3_BS_l_9,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x440++0x3
line.long 0x00 "ILF3_IPB_n_9,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x70++0x3
line.long 0x00 "ILF3_MBCONFIG_MB_o_9,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 23.--26. " SHIFT_OR_WE  ,Parameter, see and ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--22. 1. "  STRIDE   ,This field allows to increment the base address with the stride value at each iteration."
hexmask.long.word 0x00 0.--15. 1. "  LUMA_CHROMA_ADDRESS ,SL2 address pointer"
group.long 0x14C++0x3
line.long 0x00 "ILF3_QP_IDX_j_9,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
group.long 0x104++0x3
line.long 0x00 "ILF3_QP_m_9,Quantization parameter"
bitfld.long 0x00 0.--5. " QP           ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
tree.end
tree "Channel_10"
width 23.
group.long 0x1F0++0x3
line.long 0x00 "ILF3_BS_l_10,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x444++0x3
line.long 0x00 "ILF3_IPB_n_10,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x74++0x3
line.long 0x00 "ILF3_MBCONFIG_MB_o_10,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 23.--26. " SHIFT_OR_WE  ,Parameter, see and ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--22. 1. "  STRIDE   ,This field allows to increment the base address with the stride value at each iteration."
hexmask.long.word 0x00 0.--15. 1. "  LUMA_CHROMA_ADDRESS ,SL2 address pointer"
group.long 0x150++0x3
line.long 0x00 "ILF3_QP_IDX_j_10,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
group.long 0x108++0x3
line.long 0x00 "ILF3_QP_m_10,Quantization parameter"
bitfld.long 0x00 0.--5. " QP           ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
tree.end
tree "Channel_11"
width 23.
group.long 0x1F4++0x3
line.long 0x00 "ILF3_BS_l_11,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x448++0x3
line.long 0x00 "ILF3_IPB_n_11,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x78++0x3
line.long 0x00 "ILF3_MBCONFIG_MB_o_11,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 23.--26. " SHIFT_OR_WE  ,Parameter, see and ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--22. 1. "  STRIDE   ,This field allows to increment the base address with the stride value at each iteration."
hexmask.long.word 0x00 0.--15. 1. "  LUMA_CHROMA_ADDRESS ,SL2 address pointer"
group.long 0x154++0x3
line.long 0x00 "ILF3_QP_IDX_j_11,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
group.long 0x10C++0x3
line.long 0x00 "ILF3_QP_m_11,Quantization parameter"
bitfld.long 0x00 0.--5. " QP           ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
tree.end
tree "Channel_12"
width 23.
group.long 0x1F8++0x3
line.long 0x00 "ILF3_BS_l_12,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x44C++0x3
line.long 0x00 "ILF3_IPB_n_12,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7C++0x3
line.long 0x00 "ILF3_MBCONFIG_MB_o_12,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 23.--26. " SHIFT_OR_WE  ,Parameter, see and ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--22. 1. "  STRIDE   ,This field allows to increment the base address with the stride value at each iteration."
hexmask.long.word 0x00 0.--15. 1. "  LUMA_CHROMA_ADDRESS ,SL2 address pointer"
group.long 0x158++0x3
line.long 0x00 "ILF3_QP_IDX_j_12,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
group.long 0x110++0x3
line.long 0x00 "ILF3_QP_m_12,Quantization parameter"
bitfld.long 0x00 0.--5. " QP           ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
tree.end
tree "Channel_13"
width 23.
group.long 0x1FC++0x3
line.long 0x00 "ILF3_BS_l_13,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x450++0x3
line.long 0x00 "ILF3_IPB_n_13,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x80++0x3
line.long 0x00 "ILF3_MBCONFIG_MB_o_13,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 23.--26. " SHIFT_OR_WE  ,Parameter, see and ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--22. 1. "  STRIDE   ,This field allows to increment the base address with the stride value at each iteration."
hexmask.long.word 0x00 0.--15. 1. "  LUMA_CHROMA_ADDRESS ,SL2 address pointer"
group.long 0x15C++0x3
line.long 0x00 "ILF3_QP_IDX_j_13,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
group.long 0x114++0x3
line.long 0x00 "ILF3_QP_m_13,Quantization parameter"
bitfld.long 0x00 0.--5. " QP           ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
tree.end
tree "Channel_14"
width 23.
group.long 0x200++0x3
line.long 0x00 "ILF3_BS_l_14,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x454++0x3
line.long 0x00 "ILF3_IPB_n_14,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x84++0x3
line.long 0x00 "ILF3_MBCONFIG_MB_o_14,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 23.--26. " SHIFT_OR_WE  ,Parameter, see and ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--22. 1. "  STRIDE   ,This field allows to increment the base address with the stride value at each iteration."
hexmask.long.word 0x00 0.--15. 1. "  LUMA_CHROMA_ADDRESS ,SL2 address pointer"
group.long 0x160++0x3
line.long 0x00 "ILF3_QP_IDX_j_14,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
group.long 0x118++0x3
line.long 0x00 "ILF3_QP_m_14,Quantization parameter"
bitfld.long 0x00 0.--5. " QP           ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
tree.end
tree "Channel_15"
width 23.
group.long 0x204++0x3
line.long 0x00 "ILF3_BS_l_15,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x458++0x3
line.long 0x00 "ILF3_IPB_n_15,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x88++0x3
line.long 0x00 "ILF3_MBCONFIG_MB_o_15,MBConfig table contains pointers used by program to control the ILF3 units"
bitfld.long 0x00 23.--26. " SHIFT_OR_WE  ,Parameter, see and ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--22. 1. "  STRIDE   ,This field allows to increment the base address with the stride value at each iteration."
hexmask.long.word 0x00 0.--15. 1. "  LUMA_CHROMA_ADDRESS ,SL2 address pointer"
group.long 0x164++0x3
line.long 0x00 "ILF3_QP_IDX_j_15,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
group.long 0x11C++0x3
line.long 0x00 "ILF3_QP_m_15,Quantization parameter"
bitfld.long 0x00 0.--5. " QP           ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
tree.end
tree "Channel_16"
width 18.
group.long 0x208++0x3
line.long 0x00 "ILF3_BS_l_16,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x45C++0x3
line.long 0x00 "ILF3_IPB_n_16,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x168++0x3
line.long 0x00 "ILF3_QP_IDX_j_16,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
group.long 0x120++0x3
line.long 0x00 "ILF3_QP_m_16,Quantization parameter"
bitfld.long 0x00 0.--5. " QP           ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
tree.end
tree "Channel_17"
width 18.
group.long 0x20C++0x3
line.long 0x00 "ILF3_BS_l_17,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x460++0x3
line.long 0x00 "ILF3_IPB_n_17,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x16C++0x3
line.long 0x00 "ILF3_QP_IDX_j_17,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
group.long 0x124++0x3
line.long 0x00 "ILF3_QP_m_17,Quantization parameter"
bitfld.long 0x00 0.--5. " QP           ,Quantization parameter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
tree.end
tree "Channel_18"
width 18.
group.long 0x210++0x3
line.long 0x00 "ILF3_BS_l_18,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x464++0x3
line.long 0x00 "ILF3_IPB_n_18,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x170++0x3
line.long 0x00 "ILF3_QP_IDX_j_18,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_19"
width 18.
group.long 0x214++0x3
line.long 0x00 "ILF3_BS_l_19,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x468++0x3
line.long 0x00 "ILF3_IPB_n_19,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x174++0x3
line.long 0x00 "ILF3_QP_IDX_j_19,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_20"
width 18.
group.long 0x218++0x3
line.long 0x00 "ILF3_BS_l_20,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x46C++0x3
line.long 0x00 "ILF3_IPB_n_20,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x178++0x3
line.long 0x00 "ILF3_QP_IDX_j_20,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_21"
width 18.
group.long 0x21C++0x3
line.long 0x00 "ILF3_BS_l_21,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x470++0x3
line.long 0x00 "ILF3_IPB_n_21,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x17C++0x3
line.long 0x00 "ILF3_QP_IDX_j_21,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_22"
width 18.
group.long 0x220++0x3
line.long 0x00 "ILF3_BS_l_22,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x474++0x3
line.long 0x00 "ILF3_IPB_n_22,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x180++0x3
line.long 0x00 "ILF3_QP_IDX_j_22,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_23"
width 18.
group.long 0x224++0x3
line.long 0x00 "ILF3_BS_l_23,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x478++0x3
line.long 0x00 "ILF3_IPB_n_23,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x184++0x3
line.long 0x00 "ILF3_QP_IDX_j_23,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_24"
width 18.
group.long 0x228++0x3
line.long 0x00 "ILF3_BS_l_24,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x47C++0x3
line.long 0x00 "ILF3_IPB_n_24,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x188++0x3
line.long 0x00 "ILF3_QP_IDX_j_24,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_25"
width 18.
group.long 0x22C++0x3
line.long 0x00 "ILF3_BS_l_25,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x480++0x3
line.long 0x00 "ILF3_IPB_n_25,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x18C++0x3
line.long 0x00 "ILF3_QP_IDX_j_25,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_26"
width 18.
group.long 0x230++0x3
line.long 0x00 "ILF3_BS_l_26,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x484++0x3
line.long 0x00 "ILF3_IPB_n_26,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x190++0x3
line.long 0x00 "ILF3_QP_IDX_j_26,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_27"
width 18.
group.long 0x234++0x3
line.long 0x00 "ILF3_BS_l_27,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x488++0x3
line.long 0x00 "ILF3_IPB_n_27,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x194++0x3
line.long 0x00 "ILF3_QP_IDX_j_27,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_28"
width 18.
group.long 0x238++0x3
line.long 0x00 "ILF3_BS_l_28,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x48C++0x3
line.long 0x00 "ILF3_IPB_n_28,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x198++0x3
line.long 0x00 "ILF3_QP_IDX_j_28,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_29"
width 18.
group.long 0x23C++0x3
line.long 0x00 "ILF3_BS_l_29,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x490++0x3
line.long 0x00 "ILF3_IPB_n_29,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x19C++0x3
line.long 0x00 "ILF3_QP_IDX_j_29,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_30"
width 18.
group.long 0x240++0x3
line.long 0x00 "ILF3_BS_l_30,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x494++0x3
line.long 0x00 "ILF3_IPB_n_30,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x1A0++0x3
line.long 0x00 "ILF3_QP_IDX_j_30,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_31"
width 18.
group.long 0x244++0x3
line.long 0x00 "ILF3_BS_l_31,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x498++0x3
line.long 0x00 "ILF3_IPB_n_31,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x1A4++0x3
line.long 0x00 "ILF3_QP_IDX_j_31,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_32"
width 18.
group.long 0x248++0x3
line.long 0x00 "ILF3_BS_l_32,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x49C++0x3
line.long 0x00 "ILF3_IPB_n_32,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x1A8++0x3
line.long 0x00 "ILF3_QP_IDX_j_32,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_33"
width 18.
group.long 0x24C++0x3
line.long 0x00 "ILF3_BS_l_33,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4A0++0x3
line.long 0x00 "ILF3_IPB_n_33,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x1AC++0x3
line.long 0x00 "ILF3_QP_IDX_j_33,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_34"
width 18.
group.long 0x250++0x3
line.long 0x00 "ILF3_BS_l_34,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4A4++0x3
line.long 0x00 "ILF3_IPB_n_34,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x1B0++0x3
line.long 0x00 "ILF3_QP_IDX_j_34,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_35"
width 18.
group.long 0x254++0x3
line.long 0x00 "ILF3_BS_l_35,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4A8++0x3
line.long 0x00 "ILF3_IPB_n_35,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x1B4++0x3
line.long 0x00 "ILF3_QP_IDX_j_35,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_36"
width 18.
group.long 0x258++0x3
line.long 0x00 "ILF3_BS_l_36,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4AC++0x3
line.long 0x00 "ILF3_IPB_n_36,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x1B8++0x3
line.long 0x00 "ILF3_QP_IDX_j_36,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_37"
width 18.
group.long 0x25C++0x3
line.long 0x00 "ILF3_BS_l_37,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4B0++0x3
line.long 0x00 "ILF3_IPB_n_37,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x1BC++0x3
line.long 0x00 "ILF3_QP_IDX_j_37,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_38"
width 18.
group.long 0x260++0x3
line.long 0x00 "ILF3_BS_l_38,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4B4++0x3
line.long 0x00 "ILF3_IPB_n_38,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x1C0++0x3
line.long 0x00 "ILF3_QP_IDX_j_38,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_39"
width 18.
group.long 0x264++0x3
line.long 0x00 "ILF3_BS_l_39,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4B8++0x3
line.long 0x00 "ILF3_IPB_n_39,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x1C4++0x3
line.long 0x00 "ILF3_QP_IDX_j_39,Quantization parameter index"
bitfld.long 0x00 0.--2. " QP_IDX       ,QP index" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_40"
width 15.
group.long 0x268++0x3
line.long 0x00 "ILF3_BS_l_40,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4BC++0x3
line.long 0x00 "ILF3_IPB_n_40,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_41"
width 15.
group.long 0x26C++0x3
line.long 0x00 "ILF3_BS_l_41,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4C0++0x3
line.long 0x00 "ILF3_IPB_n_41,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_42"
width 15.
group.long 0x270++0x3
line.long 0x00 "ILF3_BS_l_42,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4C4++0x3
line.long 0x00 "ILF3_IPB_n_42,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_43"
width 15.
group.long 0x274++0x3
line.long 0x00 "ILF3_BS_l_43,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4C8++0x3
line.long 0x00 "ILF3_IPB_n_43,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_44"
width 15.
group.long 0x278++0x3
line.long 0x00 "ILF3_BS_l_44,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4CC++0x3
line.long 0x00 "ILF3_IPB_n_44,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_45"
width 15.
group.long 0x27C++0x3
line.long 0x00 "ILF3_BS_l_45,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4D0++0x3
line.long 0x00 "ILF3_IPB_n_45,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_46"
width 15.
group.long 0x280++0x3
line.long 0x00 "ILF3_BS_l_46,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4D4++0x3
line.long 0x00 "ILF3_IPB_n_46,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_47"
width 15.
group.long 0x284++0x3
line.long 0x00 "ILF3_BS_l_47,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4D8++0x3
line.long 0x00 "ILF3_IPB_n_47,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_48"
width 15.
group.long 0x288++0x3
line.long 0x00 "ILF3_BS_l_48,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4DC++0x3
line.long 0x00 "ILF3_IPB_n_48,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_49"
width 15.
group.long 0x28C++0x3
line.long 0x00 "ILF3_BS_l_49,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4E0++0x3
line.long 0x00 "ILF3_IPB_n_49,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_50"
width 15.
group.long 0x290++0x3
line.long 0x00 "ILF3_BS_l_50,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4E4++0x3
line.long 0x00 "ILF3_IPB_n_50,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_51"
width 15.
group.long 0x294++0x3
line.long 0x00 "ILF3_BS_l_51,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4E8++0x3
line.long 0x00 "ILF3_IPB_n_51,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_52"
width 15.
group.long 0x298++0x3
line.long 0x00 "ILF3_BS_l_52,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4EC++0x3
line.long 0x00 "ILF3_IPB_n_52,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_53"
width 15.
group.long 0x29C++0x3
line.long 0x00 "ILF3_BS_l_53,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4F0++0x3
line.long 0x00 "ILF3_IPB_n_53,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_54"
width 15.
group.long 0x2A0++0x3
line.long 0x00 "ILF3_BS_l_54,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4F4++0x3
line.long 0x00 "ILF3_IPB_n_54,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_55"
width 15.
group.long 0x2A4++0x3
line.long 0x00 "ILF3_BS_l_55,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4F8++0x3
line.long 0x00 "ILF3_IPB_n_55,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_56"
width 15.
group.long 0x2A8++0x3
line.long 0x00 "ILF3_BS_l_56,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4FC++0x3
line.long 0x00 "ILF3_IPB_n_56,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_57"
width 15.
group.long 0x2AC++0x3
line.long 0x00 "ILF3_BS_l_57,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x500++0x3
line.long 0x00 "ILF3_IPB_n_57,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_58"
width 15.
group.long 0x2B0++0x3
line.long 0x00 "ILF3_BS_l_58,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x504++0x3
line.long 0x00 "ILF3_IPB_n_58,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_59"
width 15.
group.long 0x2B4++0x3
line.long 0x00 "ILF3_BS_l_59,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x508++0x3
line.long 0x00 "ILF3_IPB_n_59,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_60"
width 15.
group.long 0x2B8++0x3
line.long 0x00 "ILF3_BS_l_60,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x50C++0x3
line.long 0x00 "ILF3_IPB_n_60,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_61"
width 15.
group.long 0x2BC++0x3
line.long 0x00 "ILF3_BS_l_61,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x510++0x3
line.long 0x00 "ILF3_IPB_n_61,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_62"
width 15.
group.long 0x2C0++0x3
line.long 0x00 "ILF3_BS_l_62,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x514++0x3
line.long 0x00 "ILF3_IPB_n_62,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_63"
width 15.
group.long 0x2C4++0x3
line.long 0x00 "ILF3_BS_l_63,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x518++0x3
line.long 0x00 "ILF3_IPB_n_63,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_64"
width 15.
group.long 0x2C8++0x3
line.long 0x00 "ILF3_BS_l_64,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x51C++0x3
line.long 0x00 "ILF3_IPB_n_64,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_65"
width 15.
group.long 0x2CC++0x3
line.long 0x00 "ILF3_BS_l_65,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x520++0x3
line.long 0x00 "ILF3_IPB_n_65,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_66"
width 15.
group.long 0x2D0++0x3
line.long 0x00 "ILF3_BS_l_66,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x524++0x3
line.long 0x00 "ILF3_IPB_n_66,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_67"
width 15.
group.long 0x2D4++0x3
line.long 0x00 "ILF3_BS_l_67,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x528++0x3
line.long 0x00 "ILF3_IPB_n_67,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_68"
width 15.
group.long 0x2D8++0x3
line.long 0x00 "ILF3_BS_l_68,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x52C++0x3
line.long 0x00 "ILF3_IPB_n_68,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_69"
width 15.
group.long 0x2DC++0x3
line.long 0x00 "ILF3_BS_l_69,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x530++0x3
line.long 0x00 "ILF3_IPB_n_69,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_70"
width 15.
group.long 0x2E0++0x3
line.long 0x00 "ILF3_BS_l_70,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x534++0x3
line.long 0x00 "ILF3_IPB_n_70,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_71"
width 15.
group.long 0x2E4++0x3
line.long 0x00 "ILF3_BS_l_71,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x538++0x3
line.long 0x00 "ILF3_IPB_n_71,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_72"
width 15.
group.long 0x2E8++0x3
line.long 0x00 "ILF3_BS_l_72,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x53C++0x3
line.long 0x00 "ILF3_IPB_n_72,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_73"
width 15.
group.long 0x2EC++0x3
line.long 0x00 "ILF3_BS_l_73,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x540++0x3
line.long 0x00 "ILF3_IPB_n_73,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_74"
width 15.
group.long 0x2F0++0x3
line.long 0x00 "ILF3_BS_l_74,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x544++0x3
line.long 0x00 "ILF3_IPB_n_74,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_75"
width 15.
group.long 0x2F4++0x3
line.long 0x00 "ILF3_BS_l_75,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x548++0x3
line.long 0x00 "ILF3_IPB_n_75,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_76"
width 15.
group.long 0x2F8++0x3
line.long 0x00 "ILF3_BS_l_76,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x54C++0x3
line.long 0x00 "ILF3_IPB_n_76,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_77"
width 15.
group.long 0x2FC++0x3
line.long 0x00 "ILF3_BS_l_77,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x550++0x3
line.long 0x00 "ILF3_IPB_n_77,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_78"
width 15.
group.long 0x300++0x3
line.long 0x00 "ILF3_BS_l_78,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x554++0x3
line.long 0x00 "ILF3_IPB_n_78,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_79"
width 15.
group.long 0x304++0x3
line.long 0x00 "ILF3_BS_l_79,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x558++0x3
line.long 0x00 "ILF3_IPB_n_79,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_80"
width 15.
group.long 0x308++0x3
line.long 0x00 "ILF3_BS_l_80,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x55C++0x3
line.long 0x00 "ILF3_IPB_n_80,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_81"
width 15.
group.long 0x30C++0x3
line.long 0x00 "ILF3_BS_l_81,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x560++0x3
line.long 0x00 "ILF3_IPB_n_81,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_82"
width 15.
group.long 0x310++0x3
line.long 0x00 "ILF3_BS_l_82,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x564++0x3
line.long 0x00 "ILF3_IPB_n_82,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_83"
width 15.
group.long 0x314++0x3
line.long 0x00 "ILF3_BS_l_83,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x568++0x3
line.long 0x00 "ILF3_IPB_n_83,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_84"
width 15.
group.long 0x318++0x3
line.long 0x00 "ILF3_BS_l_84,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x56C++0x3
line.long 0x00 "ILF3_IPB_n_84,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_85"
width 15.
group.long 0x31C++0x3
line.long 0x00 "ILF3_BS_l_85,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x570++0x3
line.long 0x00 "ILF3_IPB_n_85,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_86"
width 15.
group.long 0x320++0x3
line.long 0x00 "ILF3_BS_l_86,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x574++0x3
line.long 0x00 "ILF3_IPB_n_86,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_87"
width 15.
group.long 0x324++0x3
line.long 0x00 "ILF3_BS_l_87,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x578++0x3
line.long 0x00 "ILF3_IPB_n_87,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_88"
width 15.
group.long 0x328++0x3
line.long 0x00 "ILF3_BS_l_88,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x57C++0x3
line.long 0x00 "ILF3_IPB_n_88,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_89"
width 15.
group.long 0x32C++0x3
line.long 0x00 "ILF3_BS_l_89,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x580++0x3
line.long 0x00 "ILF3_IPB_n_89,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_90"
width 15.
group.long 0x330++0x3
line.long 0x00 "ILF3_BS_l_90,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x584++0x3
line.long 0x00 "ILF3_IPB_n_90,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_91"
width 15.
group.long 0x334++0x3
line.long 0x00 "ILF3_BS_l_91,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x588++0x3
line.long 0x00 "ILF3_IPB_n_91,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_92"
width 15.
group.long 0x338++0x3
line.long 0x00 "ILF3_BS_l_92,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x58C++0x3
line.long 0x00 "ILF3_IPB_n_92,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_93"
width 15.
group.long 0x33C++0x3
line.long 0x00 "ILF3_BS_l_93,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x590++0x3
line.long 0x00 "ILF3_IPB_n_93,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_94"
width 15.
group.long 0x340++0x3
line.long 0x00 "ILF3_BS_l_94,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x594++0x3
line.long 0x00 "ILF3_IPB_n_94,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_95"
width 15.
group.long 0x344++0x3
line.long 0x00 "ILF3_BS_l_95,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x598++0x3
line.long 0x00 "ILF3_IPB_n_95,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_96"
width 15.
group.long 0x348++0x3
line.long 0x00 "ILF3_BS_l_96,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x59C++0x3
line.long 0x00 "ILF3_IPB_n_96,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_97"
width 15.
group.long 0x34C++0x3
line.long 0x00 "ILF3_BS_l_97,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5A0++0x3
line.long 0x00 "ILF3_IPB_n_97,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_98"
width 15.
group.long 0x350++0x3
line.long 0x00 "ILF3_BS_l_98,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5A4++0x3
line.long 0x00 "ILF3_IPB_n_98,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_99"
width 15.
group.long 0x354++0x3
line.long 0x00 "ILF3_BS_l_99,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5A8++0x3
line.long 0x00 "ILF3_IPB_n_99,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_100"
width 16.
group.long 0x358++0x3
line.long 0x00 "ILF3_BS_l_100,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5AC++0x3
line.long 0x00 "ILF3_IPB_n_100,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_101"
width 16.
group.long 0x35C++0x3
line.long 0x00 "ILF3_BS_l_101,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5B0++0x3
line.long 0x00 "ILF3_IPB_n_101,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_102"
width 16.
group.long 0x360++0x3
line.long 0x00 "ILF3_BS_l_102,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5B4++0x3
line.long 0x00 "ILF3_IPB_n_102,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_103"
width 16.
group.long 0x364++0x3
line.long 0x00 "ILF3_BS_l_103,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5B8++0x3
line.long 0x00 "ILF3_IPB_n_103,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_104"
width 16.
group.long 0x368++0x3
line.long 0x00 "ILF3_BS_l_104,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5BC++0x3
line.long 0x00 "ILF3_IPB_n_104,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_105"
width 16.
group.long 0x36C++0x3
line.long 0x00 "ILF3_BS_l_105,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5C0++0x3
line.long 0x00 "ILF3_IPB_n_105,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_106"
width 16.
group.long 0x370++0x3
line.long 0x00 "ILF3_BS_l_106,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5C4++0x3
line.long 0x00 "ILF3_IPB_n_106,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_107"
width 16.
group.long 0x374++0x3
line.long 0x00 "ILF3_BS_l_107,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5C8++0x3
line.long 0x00 "ILF3_IPB_n_107,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_108"
width 16.
group.long 0x378++0x3
line.long 0x00 "ILF3_BS_l_108,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5CC++0x3
line.long 0x00 "ILF3_IPB_n_108,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_109"
width 16.
group.long 0x37C++0x3
line.long 0x00 "ILF3_BS_l_109,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5D0++0x3
line.long 0x00 "ILF3_IPB_n_109,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_110"
width 16.
group.long 0x380++0x3
line.long 0x00 "ILF3_BS_l_110,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5D4++0x3
line.long 0x00 "ILF3_IPB_n_110,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_111"
width 16.
group.long 0x384++0x3
line.long 0x00 "ILF3_BS_l_111,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5D8++0x3
line.long 0x00 "ILF3_IPB_n_111,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_112"
width 16.
group.long 0x388++0x3
line.long 0x00 "ILF3_BS_l_112,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5DC++0x3
line.long 0x00 "ILF3_IPB_n_112,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_113"
width 16.
group.long 0x38C++0x3
line.long 0x00 "ILF3_BS_l_113,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5E0++0x3
line.long 0x00 "ILF3_IPB_n_113,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_114"
width 16.
group.long 0x390++0x3
line.long 0x00 "ILF3_BS_l_114,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5E4++0x3
line.long 0x00 "ILF3_IPB_n_114,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_115"
width 16.
group.long 0x394++0x3
line.long 0x00 "ILF3_BS_l_115,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5E8++0x3
line.long 0x00 "ILF3_IPB_n_115,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_116"
width 16.
group.long 0x398++0x3
line.long 0x00 "ILF3_BS_l_116,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5EC++0x3
line.long 0x00 "ILF3_IPB_n_116,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_117"
width 16.
group.long 0x39C++0x3
line.long 0x00 "ILF3_BS_l_117,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5F0++0x3
line.long 0x00 "ILF3_IPB_n_117,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_118"
width 16.
group.long 0x3A0++0x3
line.long 0x00 "ILF3_BS_l_118,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5F4++0x3
line.long 0x00 "ILF3_IPB_n_118,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_119"
width 16.
group.long 0x3A4++0x3
line.long 0x00 "ILF3_BS_l_119,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5F8++0x3
line.long 0x00 "ILF3_IPB_n_119,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_120"
width 16.
group.long 0x3A8++0x3
line.long 0x00 "ILF3_BS_l_120,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5FC++0x3
line.long 0x00 "ILF3_IPB_n_120,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_121"
width 16.
group.long 0x3AC++0x3
line.long 0x00 "ILF3_BS_l_121,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x600++0x3
line.long 0x00 "ILF3_IPB_n_121,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_122"
width 16.
group.long 0x3B0++0x3
line.long 0x00 "ILF3_BS_l_122,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x604++0x3
line.long 0x00 "ILF3_IPB_n_122,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_123"
width 16.
group.long 0x3B4++0x3
line.long 0x00 "ILF3_BS_l_123,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x608++0x3
line.long 0x00 "ILF3_IPB_n_123,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_124"
width 16.
group.long 0x3B8++0x3
line.long 0x00 "ILF3_BS_l_124,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x60C++0x3
line.long 0x00 "ILF3_IPB_n_124,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_125"
width 16.
group.long 0x3BC++0x3
line.long 0x00 "ILF3_BS_l_125,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x610++0x3
line.long 0x00 "ILF3_IPB_n_125,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_126"
width 16.
group.long 0x3C0++0x3
line.long 0x00 "ILF3_BS_l_126,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x614++0x3
line.long 0x00 "ILF3_IPB_n_126,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_127"
width 16.
group.long 0x3C4++0x3
line.long 0x00 "ILF3_BS_l_127,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x618++0x3
line.long 0x00 "ILF3_IPB_n_127,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_128"
width 16.
group.long 0x3C8++0x3
line.long 0x00 "ILF3_BS_l_128,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x61C++0x3
line.long 0x00 "ILF3_IPB_n_128,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_129"
width 16.
group.long 0x3CC++0x3
line.long 0x00 "ILF3_BS_l_129,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x620++0x3
line.long 0x00 "ILF3_IPB_n_129,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_130"
width 16.
group.long 0x3D0++0x3
line.long 0x00 "ILF3_BS_l_130,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x624++0x3
line.long 0x00 "ILF3_IPB_n_130,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_131"
width 16.
group.long 0x3D4++0x3
line.long 0x00 "ILF3_BS_l_131,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x628++0x3
line.long 0x00 "ILF3_IPB_n_131,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_132"
width 16.
group.long 0x3D8++0x3
line.long 0x00 "ILF3_BS_l_132,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x62C++0x3
line.long 0x00 "ILF3_IPB_n_132,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_133"
width 16.
group.long 0x3DC++0x3
line.long 0x00 "ILF3_BS_l_133,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x630++0x3
line.long 0x00 "ILF3_IPB_n_133,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_134"
width 16.
group.long 0x3E0++0x3
line.long 0x00 "ILF3_BS_l_134,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x634++0x3
line.long 0x00 "ILF3_IPB_n_134,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_135"
width 16.
group.long 0x3E4++0x3
line.long 0x00 "ILF3_BS_l_135,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x638++0x3
line.long 0x00 "ILF3_IPB_n_135,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_136"
width 16.
group.long 0x3E8++0x3
line.long 0x00 "ILF3_BS_l_136,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x63C++0x3
line.long 0x00 "ILF3_IPB_n_136,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_137"
width 16.
group.long 0x3EC++0x3
line.long 0x00 "ILF3_BS_l_137,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x640++0x3
line.long 0x00 "ILF3_IPB_n_137,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_138"
width 16.
group.long 0x3F0++0x3
line.long 0x00 "ILF3_BS_l_138,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x644++0x3
line.long 0x00 "ILF3_IPB_n_138,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_139"
width 16.
group.long 0x3F4++0x3
line.long 0x00 "ILF3_BS_l_139,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x648++0x3
line.long 0x00 "ILF3_IPB_n_139,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_140"
width 16.
group.long 0x3F8++0x3
line.long 0x00 "ILF3_BS_l_140,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x64C++0x3
line.long 0x00 "ILF3_IPB_n_140,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_141"
width 16.
group.long 0x3FC++0x3
line.long 0x00 "ILF3_BS_l_141,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x650++0x3
line.long 0x00 "ILF3_IPB_n_141,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_142"
width 16.
group.long 0x400++0x3
line.long 0x00 "ILF3_BS_l_142,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x654++0x3
line.long 0x00 "ILF3_IPB_n_142,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_143"
width 16.
group.long 0x404++0x3
line.long 0x00 "ILF3_BS_l_143,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x658++0x3
line.long 0x00 "ILF3_IPB_n_143,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_144"
width 16.
group.long 0x408++0x3
line.long 0x00 "ILF3_BS_l_144,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x65C++0x3
line.long 0x00 "ILF3_IPB_n_144,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_145"
width 16.
group.long 0x40C++0x3
line.long 0x00 "ILF3_BS_l_145,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x660++0x3
line.long 0x00 "ILF3_IPB_n_145,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_146"
width 16.
group.long 0x410++0x3
line.long 0x00 "ILF3_BS_l_146,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x664++0x3
line.long 0x00 "ILF3_IPB_n_146,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_147"
width 16.
group.long 0x414++0x3
line.long 0x00 "ILF3_BS_l_147,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x668++0x3
line.long 0x00 "ILF3_IPB_n_147,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
tree "Channel_148"
width 16.
group.long 0x418++0x3
line.long 0x00 "ILF3_BS_l_148,Boundary strength"
bitfld.long 0x00 0.--3. " BS           ,Boundary strength for H.264, but those fields are also used for filter flag for other codecs, such as V1 and OVT, Luma, and Chroma, when they are different. This lead currently leads in the worst case up to 149 BS values." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x66C++0x3
line.long 0x00 "ILF3_IPB_n_148,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x670++0x3
line.long 0x00 "ILF3_IPB_n_149,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x674++0x3
line.long 0x00 "ILF3_IPB_n_150,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x678++0x3
line.long 0x00 "ILF3_IPB_n_151,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x67C++0x3
line.long 0x00 "ILF3_IPB_n_152,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x680++0x3
line.long 0x00 "ILF3_IPB_n_153,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x684++0x3
line.long 0x00 "ILF3_IPB_n_154,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x688++0x3
line.long 0x00 "ILF3_IPB_n_155,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x68C++0x3
line.long 0x00 "ILF3_IPB_n_156,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x690++0x3
line.long 0x00 "ILF3_IPB_n_157,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x694++0x3
line.long 0x00 "ILF3_IPB_n_158,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x698++0x3
line.long 0x00 "ILF3_IPB_n_159,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x69C++0x3
line.long 0x00 "ILF3_IPB_n_160,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6A0++0x3
line.long 0x00 "ILF3_IPB_n_161,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6A4++0x3
line.long 0x00 "ILF3_IPB_n_162,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6A8++0x3
line.long 0x00 "ILF3_IPB_n_163,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6AC++0x3
line.long 0x00 "ILF3_IPB_n_164,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6B0++0x3
line.long 0x00 "ILF3_IPB_n_165,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6B4++0x3
line.long 0x00 "ILF3_IPB_n_166,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6B8++0x3
line.long 0x00 "ILF3_IPB_n_167,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6BC++0x3
line.long 0x00 "ILF3_IPB_n_168,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6C0++0x3
line.long 0x00 "ILF3_IPB_n_169,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6C4++0x3
line.long 0x00 "ILF3_IPB_n_170,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6C8++0x3
line.long 0x00 "ILF3_IPB_n_171,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6CC++0x3
line.long 0x00 "ILF3_IPB_n_172,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6D0++0x3
line.long 0x00 "ILF3_IPB_n_173,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6D4++0x3
line.long 0x00 "ILF3_IPB_n_174,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6D8++0x3
line.long 0x00 "ILF3_IPB_n_175,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6DC++0x3
line.long 0x00 "ILF3_IPB_n_176,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6E0++0x3
line.long 0x00 "ILF3_IPB_n_177,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6E4++0x3
line.long 0x00 "ILF3_IPB_n_178,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6E8++0x3
line.long 0x00 "ILF3_IPB_n_179,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6EC++0x3
line.long 0x00 "ILF3_IPB_n_180,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6F0++0x3
line.long 0x00 "ILF3_IPB_n_181,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6F4++0x3
line.long 0x00 "ILF3_IPB_n_182,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6F8++0x3
line.long 0x00 "ILF3_IPB_n_183,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x6FC++0x3
line.long 0x00 "ILF3_IPB_n_184,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x700++0x3
line.long 0x00 "ILF3_IPB_n_185,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x704++0x3
line.long 0x00 "ILF3_IPB_n_186,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x708++0x3
line.long 0x00 "ILF3_IPB_n_187,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x70C++0x3
line.long 0x00 "ILF3_IPB_n_188,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x710++0x3
line.long 0x00 "ILF3_IPB_n_189,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x714++0x3
line.long 0x00 "ILF3_IPB_n_190,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x718++0x3
line.long 0x00 "ILF3_IPB_n_191,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x71C++0x3
line.long 0x00 "ILF3_IPB_n_192,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x720++0x3
line.long 0x00 "ILF3_IPB_n_193,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x724++0x3
line.long 0x00 "ILF3_IPB_n_194,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x728++0x3
line.long 0x00 "ILF3_IPB_n_195,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x72C++0x3
line.long 0x00 "ILF3_IPB_n_196,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x730++0x3
line.long 0x00 "ILF3_IPB_n_197,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x734++0x3
line.long 0x00 "ILF3_IPB_n_198,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x738++0x3
line.long 0x00 "ILF3_IPB_n_199,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x73C++0x3
line.long 0x00 "ILF3_IPB_n_200,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x740++0x3
line.long 0x00 "ILF3_IPB_n_201,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x744++0x3
line.long 0x00 "ILF3_IPB_n_202,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x748++0x3
line.long 0x00 "ILF3_IPB_n_203,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x74C++0x3
line.long 0x00 "ILF3_IPB_n_204,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x750++0x3
line.long 0x00 "ILF3_IPB_n_205,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x754++0x3
line.long 0x00 "ILF3_IPB_n_206,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x758++0x3
line.long 0x00 "ILF3_IPB_n_207,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x75C++0x3
line.long 0x00 "ILF3_IPB_n_208,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x760++0x3
line.long 0x00 "ILF3_IPB_n_209,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x764++0x3
line.long 0x00 "ILF3_IPB_n_210,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x768++0x3
line.long 0x00 "ILF3_IPB_n_211,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x76C++0x3
line.long 0x00 "ILF3_IPB_n_212,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x770++0x3
line.long 0x00 "ILF3_IPB_n_213,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x774++0x3
line.long 0x00 "ILF3_IPB_n_214,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x778++0x3
line.long 0x00 "ILF3_IPB_n_215,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x77C++0x3
line.long 0x00 "ILF3_IPB_n_216,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x780++0x3
line.long 0x00 "ILF3_IPB_n_217,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x784++0x3
line.long 0x00 "ILF3_IPB_n_218,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x788++0x3
line.long 0x00 "ILF3_IPB_n_219,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x78C++0x3
line.long 0x00 "ILF3_IPB_n_220,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x790++0x3
line.long 0x00 "ILF3_IPB_n_221,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x794++0x3
line.long 0x00 "ILF3_IPB_n_222,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x798++0x3
line.long 0x00 "ILF3_IPB_n_223,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x79C++0x3
line.long 0x00 "ILF3_IPB_n_224,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7A0++0x3
line.long 0x00 "ILF3_IPB_n_225,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7A4++0x3
line.long 0x00 "ILF3_IPB_n_226,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7A8++0x3
line.long 0x00 "ILF3_IPB_n_227,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7AC++0x3
line.long 0x00 "ILF3_IPB_n_228,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7B0++0x3
line.long 0x00 "ILF3_IPB_n_229,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7B4++0x3
line.long 0x00 "ILF3_IPB_n_230,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7B8++0x3
line.long 0x00 "ILF3_IPB_n_231,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7BC++0x3
line.long 0x00 "ILF3_IPB_n_232,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7C0++0x3
line.long 0x00 "ILF3_IPB_n_233,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7C4++0x3
line.long 0x00 "ILF3_IPB_n_234,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7C8++0x3
line.long 0x00 "ILF3_IPB_n_235,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7CC++0x3
line.long 0x00 "ILF3_IPB_n_236,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7D0++0x3
line.long 0x00 "ILF3_IPB_n_237,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7D4++0x3
line.long 0x00 "ILF3_IPB_n_238,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7D8++0x3
line.long 0x00 "ILF3_IPB_n_239,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7DC++0x3
line.long 0x00 "ILF3_IPB_n_240,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7E0++0x3
line.long 0x00 "ILF3_IPB_n_241,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7E4++0x3
line.long 0x00 "ILF3_IPB_n_242,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7E8++0x3
line.long 0x00 "ILF3_IPB_n_243,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7EC++0x3
line.long 0x00 "ILF3_IPB_n_244,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7F0++0x3
line.long 0x00 "ILF3_IPB_n_245,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7F4++0x3
line.long 0x00 "ILF3_IPB_n_246,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7F8++0x3
line.long 0x00 "ILF3_IPB_n_247,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x7FC++0x3
line.long 0x00 "ILF3_IPB_n_248,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x800++0x3
line.long 0x00 "ILF3_IPB_n_249,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x804++0x3
line.long 0x00 "ILF3_IPB_n_250,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x808++0x3
line.long 0x00 "ILF3_IPB_n_251,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x80C++0x3
line.long 0x00 "ILF3_IPB_n_252,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x810++0x3
line.long 0x00 "ILF3_IPB_n_253,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x814++0x3
line.long 0x00 "ILF3_IPB_n_254,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x818++0x3
line.long 0x00 "ILF3_IPB_n_255,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x81C++0x3
line.long 0x00 "ILF3_IPB_n_256,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x820++0x3
line.long 0x00 "ILF3_IPB_n_257,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x824++0x3
line.long 0x00 "ILF3_IPB_n_258,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x828++0x3
line.long 0x00 "ILF3_IPB_n_259,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x82C++0x3
line.long 0x00 "ILF3_IPB_n_260,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x830++0x3
line.long 0x00 "ILF3_IPB_n_261,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x834++0x3
line.long 0x00 "ILF3_IPB_n_262,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x838++0x3
line.long 0x00 "ILF3_IPB_n_263,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x83C++0x3
line.long 0x00 "ILF3_IPB_n_264,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x840++0x3
line.long 0x00 "ILF3_IPB_n_265,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x844++0x3
line.long 0x00 "ILF3_IPB_n_266,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x848++0x3
line.long 0x00 "ILF3_IPB_n_267,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x84C++0x3
line.long 0x00 "ILF3_IPB_n_268,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x850++0x3
line.long 0x00 "ILF3_IPB_n_269,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x854++0x3
line.long 0x00 "ILF3_IPB_n_270,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x858++0x3
line.long 0x00 "ILF3_IPB_n_271,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x85C++0x3
line.long 0x00 "ILF3_IPB_n_272,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x860++0x3
line.long 0x00 "ILF3_IPB_n_273,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x864++0x3
line.long 0x00 "ILF3_IPB_n_274,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x868++0x3
line.long 0x00 "ILF3_IPB_n_275,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x86C++0x3
line.long 0x00 "ILF3_IPB_n_276,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x870++0x3
line.long 0x00 "ILF3_IPB_n_277,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x874++0x3
line.long 0x00 "ILF3_IPB_n_278,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x878++0x3
line.long 0x00 "ILF3_IPB_n_279,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x87C++0x3
line.long 0x00 "ILF3_IPB_n_280,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x880++0x3
line.long 0x00 "ILF3_IPB_n_281,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x884++0x3
line.long 0x00 "ILF3_IPB_n_282,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x888++0x3
line.long 0x00 "ILF3_IPB_n_283,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x88C++0x3
line.long 0x00 "ILF3_IPB_n_284,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x890++0x3
line.long 0x00 "ILF3_IPB_n_285,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x894++0x3
line.long 0x00 "ILF3_IPB_n_286,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x898++0x3
line.long 0x00 "ILF3_IPB_n_287,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x89C++0x3
line.long 0x00 "ILF3_IPB_n_288,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8A0++0x3
line.long 0x00 "ILF3_IPB_n_289,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8A4++0x3
line.long 0x00 "ILF3_IPB_n_290,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8A8++0x3
line.long 0x00 "ILF3_IPB_n_291,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8AC++0x3
line.long 0x00 "ILF3_IPB_n_292,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8B0++0x3
line.long 0x00 "ILF3_IPB_n_293,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8B4++0x3
line.long 0x00 "ILF3_IPB_n_294,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8B8++0x3
line.long 0x00 "ILF3_IPB_n_295,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8BC++0x3
line.long 0x00 "ILF3_IPB_n_296,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8C0++0x3
line.long 0x00 "ILF3_IPB_n_297,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8C4++0x3
line.long 0x00 "ILF3_IPB_n_298,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8C8++0x3
line.long 0x00 "ILF3_IPB_n_299,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8CC++0x3
line.long 0x00 "ILF3_IPB_n_300,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8D0++0x3
line.long 0x00 "ILF3_IPB_n_301,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8D4++0x3
line.long 0x00 "ILF3_IPB_n_302,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8D8++0x3
line.long 0x00 "ILF3_IPB_n_303,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8DC++0x3
line.long 0x00 "ILF3_IPB_n_304,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8E0++0x3
line.long 0x00 "ILF3_IPB_n_305,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8E4++0x3
line.long 0x00 "ILF3_IPB_n_306,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8E8++0x3
line.long 0x00 "ILF3_IPB_n_307,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8EC++0x3
line.long 0x00 "ILF3_IPB_n_308,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8F0++0x3
line.long 0x00 "ILF3_IPB_n_309,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8F4++0x3
line.long 0x00 "ILF3_IPB_n_310,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8F8++0x3
line.long 0x00 "ILF3_IPB_n_311,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x8FC++0x3
line.long 0x00 "ILF3_IPB_n_312,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x900++0x3
line.long 0x00 "ILF3_IPB_n_313,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x904++0x3
line.long 0x00 "ILF3_IPB_n_314,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x908++0x3
line.long 0x00 "ILF3_IPB_n_315,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x90C++0x3
line.long 0x00 "ILF3_IPB_n_316,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x910++0x3
line.long 0x00 "ILF3_IPB_n_317,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x914++0x3
line.long 0x00 "ILF3_IPB_n_318,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x918++0x3
line.long 0x00 "ILF3_IPB_n_319,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x91C++0x3
line.long 0x00 "ILF3_IPB_n_320,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x920++0x3
line.long 0x00 "ILF3_IPB_n_321,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x924++0x3
line.long 0x00 "ILF3_IPB_n_322,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x928++0x3
line.long 0x00 "ILF3_IPB_n_323,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x92C++0x3
line.long 0x00 "ILF3_IPB_n_324,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x930++0x3
line.long 0x00 "ILF3_IPB_n_325,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x934++0x3
line.long 0x00 "ILF3_IPB_n_326,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x938++0x3
line.long 0x00 "ILF3_IPB_n_327,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x93C++0x3
line.long 0x00 "ILF3_IPB_n_328,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x940++0x3
line.long 0x00 "ILF3_IPB_n_329,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x944++0x3
line.long 0x00 "ILF3_IPB_n_330,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x948++0x3
line.long 0x00 "ILF3_IPB_n_331,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x94C++0x3
line.long 0x00 "ILF3_IPB_n_332,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x950++0x3
line.long 0x00 "ILF3_IPB_n_333,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x954++0x3
line.long 0x00 "ILF3_IPB_n_334,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x958++0x3
line.long 0x00 "ILF3_IPB_n_335,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x95C++0x3
line.long 0x00 "ILF3_IPB_n_336,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x960++0x3
line.long 0x00 "ILF3_IPB_n_337,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x964++0x3
line.long 0x00 "ILF3_IPB_n_338,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x968++0x3
line.long 0x00 "ILF3_IPB_n_339,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x96C++0x3
line.long 0x00 "ILF3_IPB_n_340,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x970++0x3
line.long 0x00 "ILF3_IPB_n_341,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x974++0x3
line.long 0x00 "ILF3_IPB_n_342,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x978++0x3
line.long 0x00 "ILF3_IPB_n_343,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x97C++0x3
line.long 0x00 "ILF3_IPB_n_344,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x980++0x3
line.long 0x00 "ILF3_IPB_n_345,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x984++0x3
line.long 0x00 "ILF3_IPB_n_346,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x988++0x3
line.long 0x00 "ILF3_IPB_n_347,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x98C++0x3
line.long 0x00 "ILF3_IPB_n_348,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x990++0x3
line.long 0x00 "ILF3_IPB_n_349,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x994++0x3
line.long 0x00 "ILF3_IPB_n_350,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x998++0x3
line.long 0x00 "ILF3_IPB_n_351,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x99C++0x3
line.long 0x00 "ILF3_IPB_n_352,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9A0++0x3
line.long 0x00 "ILF3_IPB_n_353,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9A4++0x3
line.long 0x00 "ILF3_IPB_n_354,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9A8++0x3
line.long 0x00 "ILF3_IPB_n_355,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9AC++0x3
line.long 0x00 "ILF3_IPB_n_356,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9B0++0x3
line.long 0x00 "ILF3_IPB_n_357,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9B4++0x3
line.long 0x00 "ILF3_IPB_n_358,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9B8++0x3
line.long 0x00 "ILF3_IPB_n_359,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9BC++0x3
line.long 0x00 "ILF3_IPB_n_360,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9C0++0x3
line.long 0x00 "ILF3_IPB_n_361,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9C4++0x3
line.long 0x00 "ILF3_IPB_n_362,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9C8++0x3
line.long 0x00 "ILF3_IPB_n_363,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9CC++0x3
line.long 0x00 "ILF3_IPB_n_364,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9D0++0x3
line.long 0x00 "ILF3_IPB_n_365,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9D4++0x3
line.long 0x00 "ILF3_IPB_n_366,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9D8++0x3
line.long 0x00 "ILF3_IPB_n_367,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9DC++0x3
line.long 0x00 "ILF3_IPB_n_368,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9E0++0x3
line.long 0x00 "ILF3_IPB_n_369,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9E4++0x3
line.long 0x00 "ILF3_IPB_n_370,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9E8++0x3
line.long 0x00 "ILF3_IPB_n_371,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9EC++0x3
line.long 0x00 "ILF3_IPB_n_372,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9F0++0x3
line.long 0x00 "ILF3_IPB_n_373,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9F4++0x3
line.long 0x00 "ILF3_IPB_n_374,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9F8++0x3
line.long 0x00 "ILF3_IPB_n_375,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0x9FC++0x3
line.long 0x00 "ILF3_IPB_n_376,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA00++0x3
line.long 0x00 "ILF3_IPB_n_377,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA04++0x3
line.long 0x00 "ILF3_IPB_n_378,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA08++0x3
line.long 0x00 "ILF3_IPB_n_379,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA0C++0x3
line.long 0x00 "ILF3_IPB_n_380,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA10++0x3
line.long 0x00 "ILF3_IPB_n_381,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA14++0x3
line.long 0x00 "ILF3_IPB_n_382,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA18++0x3
line.long 0x00 "ILF3_IPB_n_383,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA1C++0x3
line.long 0x00 "ILF3_IPB_n_384,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA20++0x3
line.long 0x00 "ILF3_IPB_n_385,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA24++0x3
line.long 0x00 "ILF3_IPB_n_386,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA28++0x3
line.long 0x00 "ILF3_IPB_n_387,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA2C++0x3
line.long 0x00 "ILF3_IPB_n_388,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA30++0x3
line.long 0x00 "ILF3_IPB_n_389,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA34++0x3
line.long 0x00 "ILF3_IPB_n_390,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA38++0x3
line.long 0x00 "ILF3_IPB_n_391,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA3C++0x3
line.long 0x00 "ILF3_IPB_n_392,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA40++0x3
line.long 0x00 "ILF3_IPB_n_393,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA44++0x3
line.long 0x00 "ILF3_IPB_n_394,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA48++0x3
line.long 0x00 "ILF3_IPB_n_395,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA4C++0x3
line.long 0x00 "ILF3_IPB_n_396,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA50++0x3
line.long 0x00 "ILF3_IPB_n_397,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA54++0x3
line.long 0x00 "ILF3_IPB_n_398,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA58++0x3
line.long 0x00 "ILF3_IPB_n_399,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA5C++0x3
line.long 0x00 "ILF3_IPB_n_400,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA60++0x3
line.long 0x00 "ILF3_IPB_n_401,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA64++0x3
line.long 0x00 "ILF3_IPB_n_402,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA68++0x3
line.long 0x00 "ILF3_IPB_n_403,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA6C++0x3
line.long 0x00 "ILF3_IPB_n_404,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA70++0x3
line.long 0x00 "ILF3_IPB_n_405,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA74++0x3
line.long 0x00 "ILF3_IPB_n_406,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA78++0x3
line.long 0x00 "ILF3_IPB_n_407,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA7C++0x3
line.long 0x00 "ILF3_IPB_n_408,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA80++0x3
line.long 0x00 "ILF3_IPB_n_409,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA84++0x3
line.long 0x00 "ILF3_IPB_n_410,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA88++0x3
line.long 0x00 "ILF3_IPB_n_411,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA8C++0x3
line.long 0x00 "ILF3_IPB_n_412,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA90++0x3
line.long 0x00 "ILF3_IPB_n_413,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA94++0x3
line.long 0x00 "ILF3_IPB_n_414,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA98++0x3
line.long 0x00 "ILF3_IPB_n_415,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xA9C++0x3
line.long 0x00 "ILF3_IPB_n_416,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAA0++0x3
line.long 0x00 "ILF3_IPB_n_417,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAA4++0x3
line.long 0x00 "ILF3_IPB_n_418,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAA8++0x3
line.long 0x00 "ILF3_IPB_n_419,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAAC++0x3
line.long 0x00 "ILF3_IPB_n_420,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAB0++0x3
line.long 0x00 "ILF3_IPB_n_421,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAB4++0x3
line.long 0x00 "ILF3_IPB_n_422,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAB8++0x3
line.long 0x00 "ILF3_IPB_n_423,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xABC++0x3
line.long 0x00 "ILF3_IPB_n_424,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAC0++0x3
line.long 0x00 "ILF3_IPB_n_425,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAC4++0x3
line.long 0x00 "ILF3_IPB_n_426,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAC8++0x3
line.long 0x00 "ILF3_IPB_n_427,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xACC++0x3
line.long 0x00 "ILF3_IPB_n_428,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAD0++0x3
line.long 0x00 "ILF3_IPB_n_429,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAD4++0x3
line.long 0x00 "ILF3_IPB_n_430,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAD8++0x3
line.long 0x00 "ILF3_IPB_n_431,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xADC++0x3
line.long 0x00 "ILF3_IPB_n_432,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAE0++0x3
line.long 0x00 "ILF3_IPB_n_433,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAE4++0x3
line.long 0x00 "ILF3_IPB_n_434,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAE8++0x3
line.long 0x00 "ILF3_IPB_n_435,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAEC++0x3
line.long 0x00 "ILF3_IPB_n_436,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAF0++0x3
line.long 0x00 "ILF3_IPB_n_437,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAF4++0x3
line.long 0x00 "ILF3_IPB_n_438,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAF8++0x3
line.long 0x00 "ILF3_IPB_n_439,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xAFC++0x3
line.long 0x00 "ILF3_IPB_n_440,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB00++0x3
line.long 0x00 "ILF3_IPB_n_441,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB04++0x3
line.long 0x00 "ILF3_IPB_n_442,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB08++0x3
line.long 0x00 "ILF3_IPB_n_443,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB0C++0x3
line.long 0x00 "ILF3_IPB_n_444,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB10++0x3
line.long 0x00 "ILF3_IPB_n_445,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB14++0x3
line.long 0x00 "ILF3_IPB_n_446,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB18++0x3
line.long 0x00 "ILF3_IPB_n_447,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB1C++0x3
line.long 0x00 "ILF3_IPB_n_448,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB20++0x3
line.long 0x00 "ILF3_IPB_n_449,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB24++0x3
line.long 0x00 "ILF3_IPB_n_450,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB28++0x3
line.long 0x00 "ILF3_IPB_n_451,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB2C++0x3
line.long 0x00 "ILF3_IPB_n_452,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB30++0x3
line.long 0x00 "ILF3_IPB_n_453,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB34++0x3
line.long 0x00 "ILF3_IPB_n_454,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB38++0x3
line.long 0x00 "ILF3_IPB_n_455,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB3C++0x3
line.long 0x00 "ILF3_IPB_n_456,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB40++0x3
line.long 0x00 "ILF3_IPB_n_457,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB44++0x3
line.long 0x00 "ILF3_IPB_n_458,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB48++0x3
line.long 0x00 "ILF3_IPB_n_459,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB4C++0x3
line.long 0x00 "ILF3_IPB_n_460,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB50++0x3
line.long 0x00 "ILF3_IPB_n_461,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB54++0x3
line.long 0x00 "ILF3_IPB_n_462,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB58++0x3
line.long 0x00 "ILF3_IPB_n_463,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB5C++0x3
line.long 0x00 "ILF3_IPB_n_464,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB60++0x3
line.long 0x00 "ILF3_IPB_n_465,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB64++0x3
line.long 0x00 "ILF3_IPB_n_466,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB68++0x3
line.long 0x00 "ILF3_IPB_n_467,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB6C++0x3
line.long 0x00 "ILF3_IPB_n_468,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB70++0x3
line.long 0x00 "ILF3_IPB_n_469,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB74++0x3
line.long 0x00 "ILF3_IPB_n_470,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB78++0x3
line.long 0x00 "ILF3_IPB_n_471,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB7C++0x3
line.long 0x00 "ILF3_IPB_n_472,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB80++0x3
line.long 0x00 "ILF3_IPB_n_473,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB84++0x3
line.long 0x00 "ILF3_IPB_n_474,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB88++0x3
line.long 0x00 "ILF3_IPB_n_475,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB8C++0x3
line.long 0x00 "ILF3_IPB_n_476,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB90++0x3
line.long 0x00 "ILF3_IPB_n_477,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB94++0x3
line.long 0x00 "ILF3_IPB_n_478,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB98++0x3
line.long 0x00 "ILF3_IPB_n_479,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xB9C++0x3
line.long 0x00 "ILF3_IPB_n_480,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBA0++0x3
line.long 0x00 "ILF3_IPB_n_481,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBA4++0x3
line.long 0x00 "ILF3_IPB_n_482,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBA8++0x3
line.long 0x00 "ILF3_IPB_n_483,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBAC++0x3
line.long 0x00 "ILF3_IPB_n_484,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBB0++0x3
line.long 0x00 "ILF3_IPB_n_485,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBB4++0x3
line.long 0x00 "ILF3_IPB_n_486,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBB8++0x3
line.long 0x00 "ILF3_IPB_n_487,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBBC++0x3
line.long 0x00 "ILF3_IPB_n_488,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBC0++0x3
line.long 0x00 "ILF3_IPB_n_489,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBC4++0x3
line.long 0x00 "ILF3_IPB_n_490,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBC8++0x3
line.long 0x00 "ILF3_IPB_n_491,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBCC++0x3
line.long 0x00 "ILF3_IPB_n_492,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBD0++0x3
line.long 0x00 "ILF3_IPB_n_493,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBD4++0x3
line.long 0x00 "ILF3_IPB_n_494,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBD8++0x3
line.long 0x00 "ILF3_IPB_n_495,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBDC++0x3
line.long 0x00 "ILF3_IPB_n_496,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBE0++0x3
line.long 0x00 "ILF3_IPB_n_497,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBE4++0x3
line.long 0x00 "ILF3_IPB_n_498,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBE8++0x3
line.long 0x00 "ILF3_IPB_n_499,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBEC++0x3
line.long 0x00 "ILF3_IPB_n_500,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBF0++0x3
line.long 0x00 "ILF3_IPB_n_501,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBF4++0x3
line.long 0x00 "ILF3_IPB_n_502,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBF8++0x3
line.long 0x00 "ILF3_IPB_n_503,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xBFC++0x3
line.long 0x00 "ILF3_IPB_n_504,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC00++0x3
line.long 0x00 "ILF3_IPB_n_505,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC04++0x3
line.long 0x00 "ILF3_IPB_n_506,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC08++0x3
line.long 0x00 "ILF3_IPB_n_507,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC0C++0x3
line.long 0x00 "ILF3_IPB_n_508,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC10++0x3
line.long 0x00 "ILF3_IPB_n_509,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC14++0x3
line.long 0x00 "ILF3_IPB_n_510,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC18++0x3
line.long 0x00 "ILF3_IPB_n_511,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC1C++0x3
line.long 0x00 "ILF3_IPB_n_512,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC20++0x3
line.long 0x00 "ILF3_IPB_n_513,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC24++0x3
line.long 0x00 "ILF3_IPB_n_514,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC28++0x3
line.long 0x00 "ILF3_IPB_n_515,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC2C++0x3
line.long 0x00 "ILF3_IPB_n_516,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC30++0x3
line.long 0x00 "ILF3_IPB_n_517,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC34++0x3
line.long 0x00 "ILF3_IPB_n_518,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC38++0x3
line.long 0x00 "ILF3_IPB_n_519,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC3C++0x3
line.long 0x00 "ILF3_IPB_n_520,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC40++0x3
line.long 0x00 "ILF3_IPB_n_521,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC44++0x3
line.long 0x00 "ILF3_IPB_n_522,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC48++0x3
line.long 0x00 "ILF3_IPB_n_523,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC4C++0x3
line.long 0x00 "ILF3_IPB_n_524,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC50++0x3
line.long 0x00 "ILF3_IPB_n_525,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC54++0x3
line.long 0x00 "ILF3_IPB_n_526,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC58++0x3
line.long 0x00 "ILF3_IPB_n_527,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC5C++0x3
line.long 0x00 "ILF3_IPB_n_528,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC60++0x3
line.long 0x00 "ILF3_IPB_n_529,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC64++0x3
line.long 0x00 "ILF3_IPB_n_530,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC68++0x3
line.long 0x00 "ILF3_IPB_n_531,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC6C++0x3
line.long 0x00 "ILF3_IPB_n_532,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC70++0x3
line.long 0x00 "ILF3_IPB_n_533,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC74++0x3
line.long 0x00 "ILF3_IPB_n_534,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC78++0x3
line.long 0x00 "ILF3_IPB_n_535,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC7C++0x3
line.long 0x00 "ILF3_IPB_n_536,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC80++0x3
line.long 0x00 "ILF3_IPB_n_537,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC84++0x3
line.long 0x00 "ILF3_IPB_n_538,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC88++0x3
line.long 0x00 "ILF3_IPB_n_539,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC8C++0x3
line.long 0x00 "ILF3_IPB_n_540,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC90++0x3
line.long 0x00 "ILF3_IPB_n_541,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC94++0x3
line.long 0x00 "ILF3_IPB_n_542,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC98++0x3
line.long 0x00 "ILF3_IPB_n_543,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xC9C++0x3
line.long 0x00 "ILF3_IPB_n_544,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCA0++0x3
line.long 0x00 "ILF3_IPB_n_545,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCA4++0x3
line.long 0x00 "ILF3_IPB_n_546,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCA8++0x3
line.long 0x00 "ILF3_IPB_n_547,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCAC++0x3
line.long 0x00 "ILF3_IPB_n_548,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCB0++0x3
line.long 0x00 "ILF3_IPB_n_549,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCB4++0x3
line.long 0x00 "ILF3_IPB_n_550,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCB8++0x3
line.long 0x00 "ILF3_IPB_n_551,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCBC++0x3
line.long 0x00 "ILF3_IPB_n_552,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCC0++0x3
line.long 0x00 "ILF3_IPB_n_553,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCC4++0x3
line.long 0x00 "ILF3_IPB_n_554,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCC8++0x3
line.long 0x00 "ILF3_IPB_n_555,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCCC++0x3
line.long 0x00 "ILF3_IPB_n_556,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCD0++0x3
line.long 0x00 "ILF3_IPB_n_557,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCD4++0x3
line.long 0x00 "ILF3_IPB_n_558,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCD8++0x3
line.long 0x00 "ILF3_IPB_n_559,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCDC++0x3
line.long 0x00 "ILF3_IPB_n_560,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCE0++0x3
line.long 0x00 "ILF3_IPB_n_561,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCE4++0x3
line.long 0x00 "ILF3_IPB_n_562,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCE8++0x3
line.long 0x00 "ILF3_IPB_n_563,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCEC++0x3
line.long 0x00 "ILF3_IPB_n_564,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCF0++0x3
line.long 0x00 "ILF3_IPB_n_565,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCF4++0x3
line.long 0x00 "ILF3_IPB_n_566,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCF8++0x3
line.long 0x00 "ILF3_IPB_n_567,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xCFC++0x3
line.long 0x00 "ILF3_IPB_n_568,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD00++0x3
line.long 0x00 "ILF3_IPB_n_569,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD04++0x3
line.long 0x00 "ILF3_IPB_n_570,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD08++0x3
line.long 0x00 "ILF3_IPB_n_571,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD0C++0x3
line.long 0x00 "ILF3_IPB_n_572,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD10++0x3
line.long 0x00 "ILF3_IPB_n_573,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD14++0x3
line.long 0x00 "ILF3_IPB_n_574,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD18++0x3
line.long 0x00 "ILF3_IPB_n_575,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD1C++0x3
line.long 0x00 "ILF3_IPB_n_576,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD20++0x3
line.long 0x00 "ILF3_IPB_n_577,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD24++0x3
line.long 0x00 "ILF3_IPB_n_578,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD28++0x3
line.long 0x00 "ILF3_IPB_n_579,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD2C++0x3
line.long 0x00 "ILF3_IPB_n_580,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD30++0x3
line.long 0x00 "ILF3_IPB_n_581,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD34++0x3
line.long 0x00 "ILF3_IPB_n_582,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD38++0x3
line.long 0x00 "ILF3_IPB_n_583,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD3C++0x3
line.long 0x00 "ILF3_IPB_n_584,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD40++0x3
line.long 0x00 "ILF3_IPB_n_585,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD44++0x3
line.long 0x00 "ILF3_IPB_n_586,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD48++0x3
line.long 0x00 "ILF3_IPB_n_587,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD4C++0x3
line.long 0x00 "ILF3_IPB_n_588,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD50++0x3
line.long 0x00 "ILF3_IPB_n_589,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD54++0x3
line.long 0x00 "ILF3_IPB_n_590,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD58++0x3
line.long 0x00 "ILF3_IPB_n_591,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD5C++0x3
line.long 0x00 "ILF3_IPB_n_592,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD60++0x3
line.long 0x00 "ILF3_IPB_n_593,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD64++0x3
line.long 0x00 "ILF3_IPB_n_594,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD68++0x3
line.long 0x00 "ILF3_IPB_n_595,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD6C++0x3
line.long 0x00 "ILF3_IPB_n_596,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD70++0x3
line.long 0x00 "ILF3_IPB_n_597,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD74++0x3
line.long 0x00 "ILF3_IPB_n_598,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD78++0x3
line.long 0x00 "ILF3_IPB_n_599,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD7C++0x3
line.long 0x00 "ILF3_IPB_n_600,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD80++0x3
line.long 0x00 "ILF3_IPB_n_601,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD84++0x3
line.long 0x00 "ILF3_IPB_n_602,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD88++0x3
line.long 0x00 "ILF3_IPB_n_603,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD8C++0x3
line.long 0x00 "ILF3_IPB_n_604,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD90++0x3
line.long 0x00 "ILF3_IPB_n_605,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD94++0x3
line.long 0x00 "ILF3_IPB_n_606,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD98++0x3
line.long 0x00 "ILF3_IPB_n_607,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xD9C++0x3
line.long 0x00 "ILF3_IPB_n_608,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDA0++0x3
line.long 0x00 "ILF3_IPB_n_609,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDA4++0x3
line.long 0x00 "ILF3_IPB_n_610,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDA8++0x3
line.long 0x00 "ILF3_IPB_n_611,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDAC++0x3
line.long 0x00 "ILF3_IPB_n_612,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDB0++0x3
line.long 0x00 "ILF3_IPB_n_613,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDB4++0x3
line.long 0x00 "ILF3_IPB_n_614,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDB8++0x3
line.long 0x00 "ILF3_IPB_n_615,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDBC++0x3
line.long 0x00 "ILF3_IPB_n_616,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDC0++0x3
line.long 0x00 "ILF3_IPB_n_617,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDC4++0x3
line.long 0x00 "ILF3_IPB_n_618,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDC8++0x3
line.long 0x00 "ILF3_IPB_n_619,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDCC++0x3
line.long 0x00 "ILF3_IPB_n_620,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDD0++0x3
line.long 0x00 "ILF3_IPB_n_621,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDD4++0x3
line.long 0x00 "ILF3_IPB_n_622,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDD8++0x3
line.long 0x00 "ILF3_IPB_n_623,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDDC++0x3
line.long 0x00 "ILF3_IPB_n_624,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDE0++0x3
line.long 0x00 "ILF3_IPB_n_625,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDE4++0x3
line.long 0x00 "ILF3_IPB_n_626,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDE8++0x3
line.long 0x00 "ILF3_IPB_n_627,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDEC++0x3
line.long 0x00 "ILF3_IPB_n_628,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDF0++0x3
line.long 0x00 "ILF3_IPB_n_629,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDF4++0x3
line.long 0x00 "ILF3_IPB_n_630,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDF8++0x3
line.long 0x00 "ILF3_IPB_n_631,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xDFC++0x3
line.long 0x00 "ILF3_IPB_n_632,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE00++0x3
line.long 0x00 "ILF3_IPB_n_633,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE04++0x3
line.long 0x00 "ILF3_IPB_n_634,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE08++0x3
line.long 0x00 "ILF3_IPB_n_635,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE0C++0x3
line.long 0x00 "ILF3_IPB_n_636,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE10++0x3
line.long 0x00 "ILF3_IPB_n_637,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE14++0x3
line.long 0x00 "ILF3_IPB_n_638,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE18++0x3
line.long 0x00 "ILF3_IPB_n_639,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE1C++0x3
line.long 0x00 "ILF3_IPB_n_640,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE20++0x3
line.long 0x00 "ILF3_IPB_n_641,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE24++0x3
line.long 0x00 "ILF3_IPB_n_642,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE28++0x3
line.long 0x00 "ILF3_IPB_n_643,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE2C++0x3
line.long 0x00 "ILF3_IPB_n_644,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE30++0x3
line.long 0x00 "ILF3_IPB_n_645,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE34++0x3
line.long 0x00 "ILF3_IPB_n_646,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE38++0x3
line.long 0x00 "ILF3_IPB_n_647,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE3C++0x3
line.long 0x00 "ILF3_IPB_n_648,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE40++0x3
line.long 0x00 "ILF3_IPB_n_649,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE44++0x3
line.long 0x00 "ILF3_IPB_n_650,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE48++0x3
line.long 0x00 "ILF3_IPB_n_651,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE4C++0x3
line.long 0x00 "ILF3_IPB_n_652,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE50++0x3
line.long 0x00 "ILF3_IPB_n_653,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE54++0x3
line.long 0x00 "ILF3_IPB_n_654,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE58++0x3
line.long 0x00 "ILF3_IPB_n_655,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE5C++0x3
line.long 0x00 "ILF3_IPB_n_656,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE60++0x3
line.long 0x00 "ILF3_IPB_n_657,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE64++0x3
line.long 0x00 "ILF3_IPB_n_658,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE68++0x3
line.long 0x00 "ILF3_IPB_n_659,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE6C++0x3
line.long 0x00 "ILF3_IPB_n_660,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE70++0x3
line.long 0x00 "ILF3_IPB_n_661,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE74++0x3
line.long 0x00 "ILF3_IPB_n_662,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE78++0x3
line.long 0x00 "ILF3_IPB_n_663,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE7C++0x3
line.long 0x00 "ILF3_IPB_n_664,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE80++0x3
line.long 0x00 "ILF3_IPB_n_665,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE84++0x3
line.long 0x00 "ILF3_IPB_n_666,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE88++0x3
line.long 0x00 "ILF3_IPB_n_667,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE8C++0x3
line.long 0x00 "ILF3_IPB_n_668,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE90++0x3
line.long 0x00 "ILF3_IPB_n_669,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE94++0x3
line.long 0x00 "ILF3_IPB_n_670,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE98++0x3
line.long 0x00 "ILF3_IPB_n_671,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xE9C++0x3
line.long 0x00 "ILF3_IPB_n_672,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEA0++0x3
line.long 0x00 "ILF3_IPB_n_673,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEA4++0x3
line.long 0x00 "ILF3_IPB_n_674,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEA8++0x3
line.long 0x00 "ILF3_IPB_n_675,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEAC++0x3
line.long 0x00 "ILF3_IPB_n_676,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEB0++0x3
line.long 0x00 "ILF3_IPB_n_677,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEB4++0x3
line.long 0x00 "ILF3_IPB_n_678,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEB8++0x3
line.long 0x00 "ILF3_IPB_n_679,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEBC++0x3
line.long 0x00 "ILF3_IPB_n_680,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEC0++0x3
line.long 0x00 "ILF3_IPB_n_681,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEC4++0x3
line.long 0x00 "ILF3_IPB_n_682,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEC8++0x3
line.long 0x00 "ILF3_IPB_n_683,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xECC++0x3
line.long 0x00 "ILF3_IPB_n_684,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xED0++0x3
line.long 0x00 "ILF3_IPB_n_685,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xED4++0x3
line.long 0x00 "ILF3_IPB_n_686,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xED8++0x3
line.long 0x00 "ILF3_IPB_n_687,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEDC++0x3
line.long 0x00 "ILF3_IPB_n_688,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEE0++0x3
line.long 0x00 "ILF3_IPB_n_689,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEE4++0x3
line.long 0x00 "ILF3_IPB_n_690,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEE8++0x3
line.long 0x00 "ILF3_IPB_n_691,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEEC++0x3
line.long 0x00 "ILF3_IPB_n_692,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEF0++0x3
line.long 0x00 "ILF3_IPB_n_693,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEF4++0x3
line.long 0x00 "ILF3_IPB_n_694,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEF8++0x3
line.long 0x00 "ILF3_IPB_n_695,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xEFC++0x3
line.long 0x00 "ILF3_IPB_n_696,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xF00++0x3
line.long 0x00 "ILF3_IPB_n_697,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xF04++0x3
line.long 0x00 "ILF3_IPB_n_698,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xF08++0x3
line.long 0x00 "ILF3_IPB_n_699,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xF0C++0x3
line.long 0x00 "ILF3_IPB_n_700,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xF10++0x3
line.long 0x00 "ILF3_IPB_n_701,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xF14++0x3
line.long 0x00 "ILF3_IPB_n_702,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
group.long 0xF18++0x3
line.long 0x00 "ILF3_IPB_n_703,Input buffer bank"
bitfld.long 0x00 8.--10. " IPB_BYTE_EXT ,3-bit extension used in V1 OVT process" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "   IPB_BYTE ,Byte element of IPB"
tree.end
textline ""
width 32.
rgroup.long 0x0++0x3
line.long 0x00 "ILF3_REVISION,IP revision identifier (X.Y.R) Used by software to track features, bugs, and compatibility"
hexmask.long 0x00 0.--31. 1. " REVISION                    ,IP revision"
group.long 0x10++0x3
line.long 0x00 "ILF3_SYSCONFIG,Clock management configuration"
bitfld.long 0x00 4.--5. " STANDBYMODE                 ,Configuration of the local initiator state management mode. By definition, initiator may generate read/write transaction as long as it is out of STANDBY state. - . - . - . - ." "0,1,2,3"
bitfld.long 0x00 2.--3. "                        IDLEMODE     ,Configuration of the local target state management mode. By definition, target can handle read/write transaction as long as it is out of IDLE state. - . - . - . - ." "0,1,2,3"
bitfld.long 0x00 0. "            SOFTRESET       ,Software reset (optional) - . - . - . - ." "No_action,Initiate_software_reset"
group.long 0x18++0x3
line.long 0x00 "ILF3_IRQ_EOI,End Of Interrupt number specification"
bitfld.long 0x00 0. " LINE_NUMBER                 ,Software End Of Interrupt (EOI) control. Write number of interrupt output. - READ0. - EOI1. - EOI1." "READ0,EOI1"
group.long 0x1C++0x3
line.long 0x00 "ILF3_IRQSTATUS_RAW_0,Per-event raw interrupt status vector, line 0. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " EVENT0                      ,Settable raw status for event 0 - . - . - . - ." "No_action,Event_pending"
group.long 0x20++0x3
line.long 0x00 "ILF3_IRQSTATUS_0,Per-event 'enabled' interrupt status vector, line 0. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " EVENT0                      ,Clearable, enabled status for event 0 - . - . - . - ." "No_action,Event_pending"
group.long 0x24++0x3
line.long 0x00 "ILF3_IRQENABLE_SET_0,Per-event interrupt enable bit vector, line 0. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0                     ,Enable for event 0 - . - . - . - ." "No_action,Interrupt_enabled"
group.long 0x28++0x3
line.long 0x00 "ILF3_IRQENABLE_CLR_0,Per-event interrupt enable bit vector, line 0. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0                     ,Enable for event 0 - . - . - . - ." "No_action,Interrupt_enabled"
group.long 0x30++0x3
line.long 0x00 "ILF3_CONFIG,Configuration register"
hexmask.long.byte 0x00 24.--31. 1. " AUTOINCCOUNTER              ,This field indicates the current increment in MB for the auto-increment mechanism. The value at reset is 0 and it is incremented at the end of each MB (or MBPair in MBAFF) process. When it reaches the MAX_COUNT value in MB..."
bitfld.long 0x00 17.--18. "                       MBINFO_SIZE  ,Selects one of the three different MBinfo sizes to be loaded. - . - . - . - ." "0,1,2,3"
bitfld.long 0x00 16. "            IRQAUTOCLEAR_EN ,0x0: IRQ auto clear disabled, 0x1: IRQ auto clear enabled" "0,1"
textline "                                         "
hexmask.long.byte 0x00 8.--15. 1. " CODEC                       ,Indicates the codec to be used. - . - . - . - . - . - . - . - . - . - . - . - . - ."
bitfld.long 0x00 0.--4. "                       PPA_TASK     ,Bit 0: Load MB info Bit 1: Compute BS. Bit 2: Load MB. Bit 3: Filter MB. Bit 4: Store MB." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rgroup.long 0x34++0x3
line.long 0x00 "ILF3_STATUS,Provides information on the progress of the ILF3 execution."
bitfld.long 0x00 27. " WRITEREGERROR               ,This bit is cleared by a Start() command when in INITIALIZED or COMPLETED state. - . - ." "Normal_mode.,1"
bitfld.long 0x00 24.--25. "             EXECSTATE    ,Execution states. - . - . - . - ." "INITIALIZED,HALTED,EXECUTING,COMPLETED"
hexmask.long.word 0x00 0.--15. 1. "  CYCLECOUNT      ,Total number of cycles executed"
group.long 0x38++0x3
line.long 0x00 "ILF3_MBCONFIG_SLICEINFO01,MBConfig table contains pointers used by program to control the ILF3 units."
hexmask.long.word 0x00 16.--31. 1. " SLICEINFO1                  ,Parameter"
hexmask.long.word 0x00 0.--15. 1. "                     SLICEINFO0   ,Parameter"
group.long 0x3C++0x3
line.long 0x00 "ILF3_MBCONFIG_SLICEINFO2,MBConfig table contains pointers used by program to control the ILF3 units."
hexmask.long.word 0x00 0.--15. 1. " MBCONFIG_ADDRESS_SLICEINFO2 ,Parameter"
group.long 0x8C++0x3
line.long 0x00 "ILF3_MBCONFIG_COEFFICIENTS0123,MBConfig table contains pointers used by program to control the ILF3 units."
hexmask.long.byte 0x00 24.--31. 1. " COEFF3                      ,GDP coefficient 3"
hexmask.long.byte 0x00 16.--23. 1. "                       COEFF2       ,GDP coefficient 2"
hexmask.long.byte 0x00 8.--15. 1. "           COEFF1          ,GDP coefficient 1"
textline "                                         "
hexmask.long.byte 0x00 0.--7. 1. " COEFF0                      ,GDP coefficient 0"
group.long 0x90++0x3
line.long 0x00 "ILF3_MBCONFIG_COEFFICIENTS4567,MBConfig table contains pointers used by program to control the ILF3 units."
hexmask.long.byte 0x00 24.--31. 1. " COEFF7                      ,GDP coefficient 7"
hexmask.long.byte 0x00 16.--23. 1. "                       COEFF6       ,GDP coefficient 6"
hexmask.long.byte 0x00 8.--15. 1. "           COEFF5          ,GDP coefficient 5"
textline "                                         "
hexmask.long.byte 0x00 0.--7. 1. " COEFF4                      ,GDP coefficient 4"
group.long 0xB0++0x3
line.long 0x00 "ILF3_MBCONFIG_AUTOINC,MBConfig table contains pointers used by program to control the ILF3 units."
bitfld.long 0x00 11. " AUTOINC                     ,This bit must set to 1 to activate the auto-increment scheme." "0,1"
bitfld.long 0x00 8.--10. "                        PIXEL_FORMAT ,This field indicates the number of pixel rows in the top-row buffer and also the number of rows of 8-bit pixels and 16-bit pixels (VC-1 case with OVT activated)." "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "            MAX_COUNT       ,Maximum value of Counter for auto-increment. Usually corresponds to the number of MB in one row."
group.long 0xB4++0x3
line.long 0x00 "ILF3_MBCONFIG_NEXTMBCONFIG,MBConfig table contains pointers used by program to control the ILF3 units."
hexmask.long.word 0x00 0.--15. 1. " NEXTMBCONFIGADDRESS         ,Contains the next MB address"
group.long 0xB8++0x3
line.long 0x00 "ILF3_MBSTATUS,Provides MB properties"
bitfld.long 0x00 25. " ISFIRSTMB                   ,Indicates which MB of the MB pair is being processed. - . - ." "0,1"
bitfld.long 0x00 23.--24. "                        COMPONENT    ,Indicates if IPB contains Luma or Chroma pixels. Ex: in H.264 0: Luma pixels 1: Chroma pixels" "0,1,2,3"
bitfld.long 0x00 22. "            TOP_LEFT_FIELD  ,Indicates the type of the top-left MB pair. - . - ." "0,1"
textline "                                         "
bitfld.long 0x00 21. " TOP_FIELD                   ,Indicates the type of the top MB pair. - . - ." "0,1"
bitfld.long 0x00 20. "                        LEFT_FIELD   ,Indicates the type of the left MB pair. - . - ." "0,1"
bitfld.long 0x00 19. "            CUR_FIELD       ,Indicates the type of the current MB. - . - ." "0,1"
textline "                                         "
bitfld.long 0x00 17.--18. " ALT_V                       ,Indicates the type of left edge. - . - . - . - ." "0,1,2,Forbiden/not_functional"
bitfld.long 0x00 16. "  ALT_H        ,Indicates the type of the top horizontal edge. - . - ." "0,1"
bitfld.long 0x00 8. "            LOAD_SLICEINFO  ,This flag indicates if the slice information must be updated or not. - . - ." "0,1"
textline "                                         "
bitfld.long 0x00 0.--4. " PPA_TASK_STATUS             ,1 means which elementary task has been executed. Bit 0: Load MB info Bit 1: Compute BS Bit 2: Load MB Bit 3: Filter MB Bit 4: Store MB" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
wgroup.long 0xFFC++0x3
line.long 0x00 "ILF3_COMMAND,ILF3 command register: A write to this register decodes a command. DATA/COMMAND 0x1 -> Start() 0x2 -> Stop() 0x3 -> DbgEn() 0x4 -> DbgDis() 0x5 -> DbgStep()."
bitfld.long 0x00 0.--2. " CMD                         ,DATA/COMMAND 0x1 -> Start() 0x2 -> Stop() 0x3 -> DbgEn() 0x4 -> DbgDis() 0x5 -> DbgStep()" "0,1,2,3,4,5,6,7"
width 0x0B
tree.end
tree.end
tree.end
tree.open "IVA_Motion_Compensation"
tree.open "MC3_IPGW_ICONT"
sif (cpuis("TDA2XIVA"))
tree "MC3_IPGW_ICONT"
base ad:0xD9400
width 22.
group.long 0x8++0x3
line.long 0x00 "MC3_SYSCONFIG,Clock management configuration"
bitfld.long 0x00 2.--3. " IDLEMODE    ,Configuration of the local target state management mode. - By definition, target can handle read/write transaction as long as it is out of IDLE state . - . - . - Backup mode, for debug only . - . - . - Backup mode, for debug only . - . - ..." "0,1,2,3"
bitfld.long 0x00 1. "  FREEEMU ,Sensitivity to emulation (debug) suspend input signal - . - ." "0,1"
bitfld.long 0x00 0. "  SOFTRESET ,Software reset - . - . - . - ." "0,1"
group.long 0xC++0x3
line.long 0x00 "MC3_IRQ_EOI,End Of Interrupt number specification"
bitfld.long 0x00 0.--1. " LINE_NUMBER ,Software End Of Interrupt (EOI) control. Write number of interrupt output. - . - . - . - . - ." "0,1,2,3"
group.long 0x14++0x3
line.long 0x00 "MC3_IRQSTATUS_RAW_0,Per-event raw interrupt status vector, line 0. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " EVENT0      ,Settable raw status for event 0 Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (debug)." "0,1"
group.long 0x18++0x3
line.long 0x00 "MC3_IRQSTATUS_RAW_1,Per-event raw interrupt status vector, line 1. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " EVENT0      ,Settable raw status for event 0 Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (debug)." "0,1"
group.long 0x1C++0x3
line.long 0x00 "MC3_IRQSTATUS_RAW_2,Per-event raw interrupt status vector, line 2. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " EVENT0      ,Settable raw status for event 0 Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (debug)." "0,1"
group.long 0x20++0x3
line.long 0x00 "MC3_IRQSTATUS_RAW_3,Per-event raw interrupt status vector, line 3. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " EVENT0      ,Settable raw status for event 0 Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (debug)." "0,1"
group.long 0x30++0x3
line.long 0x00 "MC3_IRQSTATUS_0,Per-event enabled interrupt status vector, line 0. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status is cleared; that is, even if not enabled)."
eventfld.long 0x00 0. " EVENT0      ,Clearable, enabled status for event 0 Write 0: No action Read 0: No (enabled) event pending Read 1: Event pending Write 1: Clear (raw) event." "0,1"
group.long 0x34++0x3
line.long 0x00 "MC3_IRQSTATUS_1,Per-event enabled interrupt status vector, line 1. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status is cleared; that is, even if not enabled)."
eventfld.long 0x00 0. " EVENT0      ,Clearable, enabled status for event 0 Write 0: No action Read 0: No (enabled) event pending Read 1: Event pending Write 1: Clear (raw) event." "0,1"
group.long 0x38++0x3
line.long 0x00 "MC3_IRQSTATUS_2,Per-event enabled interrupt status vector, line 2. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status is cleared; that is, even if not enabled)."
eventfld.long 0x00 0. " EVENT0      ,Clearable, enabled status for event 0 Write 0: No action Read 0: No (enabled) event pending Read 1: Event pending Write 1: Clear (raw) event." "0,1"
group.long 0x3C++0x3
line.long 0x00 "MC3_IRQSTATUS_3,Per-event enabled interrupt status vector, line 3. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status is cleared; that is, even if not enabled)."
eventfld.long 0x00 0. " EVENT0      ,Clearable, enabled status for event 0 Write 0: No action Read 0: No (enabled) event pending Read 1: Event pending Write 1: Clear (raw) event." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MC3_IRQENABLE_SET_0,Per-event interrupt enable bit vector, line 0. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0     ,Enable for event 0 Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Enable interrupt" "0,1"
group.long 0x50++0x3
line.long 0x00 "MC3_IRQENABLE_SET_1,Per-event interrupt enable bit vector, line 1. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0     ,Enable for event 0 Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Enable interrupt" "0,1"
group.long 0x54++0x3
line.long 0x00 "MC3_IRQENABLE_SET_2,Per-event interrupt enable bit vector, line 2. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0     ,Enable for event 0 Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Enable interrup..t" "0,1"
group.long 0x58++0x3
line.long 0x00 "MC3_IRQENABLE_SET_3,Per-event interrupt enable bit vector, line 0. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0     ,Enable for event 0 Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Enable interrupt." "0,1"
group.long 0x68++0x3
line.long 0x00 "MC3_IRQENABLE_CLR_0,Per-event interrupt enable bit vector, line 0. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0     ,Enable for event 0 Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Disable interrupt." "0,1"
group.long 0x6C++0x3
line.long 0x00 "MC3_IRQENABLE_CLR_1,Per-event interrupt enable bit vector, line 1. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0     ,Enable for event 0 Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Disable interrupt." "0,1"
group.long 0x70++0x3
line.long 0x00 "MC3_IRQENABLE_CLR_2,Per-event interrupt enable bit vector, line 2. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0     ,Enable for event 0 Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Disable interrupt." "0,1"
group.long 0x74++0x3
line.long 0x00 "MC3_IRQENABLE_CLR_3,Per-event interrupt enable bit vector, line 2. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0     ,Enable for event 0 Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Disable interrupt." "0,1"
group.long 0xC0++0x3
line.long 0x00 "MC3_IRQSTATUS_ACLREN,Auto clear enable"
bitfld.long 0x00 3. " ACLREN3     ,For line 3" "0,1"
bitfld.long 0x00 2. "  ACLREN2 ,For line 2" "0,1"
bitfld.long 0x00 1. "  ACLREN1   ,For line 1" "0,1"
textline "                               "
bitfld.long 0x00 0. " ACLREN0     ,For line 0" "0,1"
width 0x0B
tree.end
endif
tree "MC3_IPGW_L3_MAINInterconnect"
base ad:0x5A059400
width 22.
group.long 0x8++0x3
line.long 0x00 "MC3_SYSCONFIG,Clock management configuration"
bitfld.long 0x00 2.--3. " IDLEMODE    ,Configuration of the local target state management mode. - By definition, target can handle read/write transaction as long as it is out of IDLE state . - . - . - Backup mode, for debug only . - . - . - Backup mode, for debug only . - . - ..." "0,1,2,3"
bitfld.long 0x00 1. "  FREEEMU ,Sensitivity to emulation (debug) suspend input signal - . - ." "0,1"
bitfld.long 0x00 0. "  SOFTRESET ,Software reset - . - . - . - ." "0,1"
group.long 0xC++0x3
line.long 0x00 "MC3_IRQ_EOI,End Of Interrupt number specification"
bitfld.long 0x00 0.--1. " LINE_NUMBER ,Software End Of Interrupt (EOI) control. Write number of interrupt output. - . - . - . - . - ." "0,1,2,3"
group.long 0x14++0x3
line.long 0x00 "MC3_IRQSTATUS_RAW_0,Per-event raw interrupt status vector, line 0. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " EVENT0      ,Settable raw status for event 0 Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (debug)." "0,1"
group.long 0x18++0x3
line.long 0x00 "MC3_IRQSTATUS_RAW_1,Per-event raw interrupt status vector, line 1. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " EVENT0      ,Settable raw status for event 0 Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (debug)." "0,1"
group.long 0x1C++0x3
line.long 0x00 "MC3_IRQSTATUS_RAW_2,Per-event raw interrupt status vector, line 2. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " EVENT0      ,Settable raw status for event 0 Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (debug)." "0,1"
group.long 0x20++0x3
line.long 0x00 "MC3_IRQSTATUS_RAW_3,Per-event raw interrupt status vector, line 3. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " EVENT0      ,Settable raw status for event 0 Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (debug)." "0,1"
group.long 0x30++0x3
line.long 0x00 "MC3_IRQSTATUS_0,Per-event enabled interrupt status vector, line 0. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status is cleared; that is, even if not enabled)."
eventfld.long 0x00 0. " EVENT0      ,Clearable, enabled status for event 0 Write 0: No action Read 0: No (enabled) event pending Read 1: Event pending Write 1: Clear (raw) event." "0,1"
group.long 0x34++0x3
line.long 0x00 "MC3_IRQSTATUS_1,Per-event enabled interrupt status vector, line 1. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status is cleared; that is, even if not enabled)."
eventfld.long 0x00 0. " EVENT0      ,Clearable, enabled status for event 0 Write 0: No action Read 0: No (enabled) event pending Read 1: Event pending Write 1: Clear (raw) event." "0,1"
group.long 0x38++0x3
line.long 0x00 "MC3_IRQSTATUS_2,Per-event enabled interrupt status vector, line 2. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status is cleared; that is, even if not enabled)."
eventfld.long 0x00 0. " EVENT0      ,Clearable, enabled status for event 0 Write 0: No action Read 0: No (enabled) event pending Read 1: Event pending Write 1: Clear (raw) event." "0,1"
group.long 0x3C++0x3
line.long 0x00 "MC3_IRQSTATUS_3,Per-event enabled interrupt status vector, line 3. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status is cleared; that is, even if not enabled)."
eventfld.long 0x00 0. " EVENT0      ,Clearable, enabled status for event 0 Write 0: No action Read 0: No (enabled) event pending Read 1: Event pending Write 1: Clear (raw) event." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MC3_IRQENABLE_SET_0,Per-event interrupt enable bit vector, line 0. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0     ,Enable for event 0 Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Enable interrupt" "0,1"
group.long 0x50++0x3
line.long 0x00 "MC3_IRQENABLE_SET_1,Per-event interrupt enable bit vector, line 1. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0     ,Enable for event 0 Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Enable interrupt" "0,1"
group.long 0x54++0x3
line.long 0x00 "MC3_IRQENABLE_SET_2,Per-event interrupt enable bit vector, line 2. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0     ,Enable for event 0 Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Enable interrup..t" "0,1"
group.long 0x58++0x3
line.long 0x00 "MC3_IRQENABLE_SET_3,Per-event interrupt enable bit vector, line 0. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0     ,Enable for event 0 Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Enable interrupt." "0,1"
group.long 0x68++0x3
line.long 0x00 "MC3_IRQENABLE_CLR_0,Per-event interrupt enable bit vector, line 0. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0     ,Enable for event 0 Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Disable interrupt." "0,1"
group.long 0x6C++0x3
line.long 0x00 "MC3_IRQENABLE_CLR_1,Per-event interrupt enable bit vector, line 1. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0     ,Enable for event 0 Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Disable interrupt." "0,1"
group.long 0x70++0x3
line.long 0x00 "MC3_IRQENABLE_CLR_2,Per-event interrupt enable bit vector, line 2. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0     ,Enable for event 0 Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Disable interrupt." "0,1"
group.long 0x74++0x3
line.long 0x00 "MC3_IRQENABLE_CLR_3,Per-event interrupt enable bit vector, line 2. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0     ,Enable for event 0 Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Disable interrupt." "0,1"
group.long 0xC0++0x3
line.long 0x00 "MC3_IRQSTATUS_ACLREN,Auto clear enable"
bitfld.long 0x00 3. " ACLREN3     ,For line 3" "0,1"
bitfld.long 0x00 2. "  ACLREN2 ,For line 2" "0,1"
bitfld.long 0x00 1. "  ACLREN1   ,For line 1" "0,1"
textline "                               "
bitfld.long 0x00 0. " ACLREN0     ,For line 0" "0,1"
width 0x0B
tree.end
tree.end
tree.open "MC3_BFSW_ICONT"
sif (cpuis("TDA2XIVA"))
tree "MC3_BFSW_ICONT"
base ad:0xD9200
width 10.
group.long 0x0++0x3
line.long 0x00 "VIEWMODE,View mode register. It selects full-view mode or ping-pong view mode."
hexmask.long 0x00 2.--31. 1. " RSRV       ,Reserved. 0 is returned at read, and write is ignored."
bitfld.long 0x00 1. "  VIEW_YBUF  ,View mode selection for Y buffer. 0: Full view mode is selected. 1: Ping-pong view mode is selected." "0,1"
bitfld.long 0x00 0. "  VIEW_XBUF  ,View mode selection for X buffer. 0: Full view mode is selected. 1: Ping-pong view mode is selected." "0,1"
group.long 0x4++0x3
line.long 0x00 "MSTID1,Master ID 1 register Select master between HWA and DMA bus. This register is used in full-view and ping-pong view modes. This register is for buffers that have two physical memories. This register is affected by direct_switch_pi input port."
hexmask.long 0x00 4.--31. 1. " RSRV       ,Reserved. 0 is returned at read, and write is ignored."
bitfld.long 0x00 3. "  MST_YBUF_B ,Master selection for Y buffer B. This bit is used only in ping-pong view mode. 0: Buffer B is assigned to DMA. 1: Buffer B is assigned to HWA. This bit has no effect in full-view mode. If direct_switch_pi is high, the value of this bit is..." "0,1"
bitfld.long 0x00 2. "  MST_YBUF_A ,Master selection for Y buffer A. This bit is used in full view and ping-pong view modes. In full-view mode: 0: Buffers A and B are assigned to DMA. 1: Buffers A and B are assigned to HWA. In ping-pong view mode: 0: Buffer A is assigned to..." "0,1"
textline "                   "
bitfld.long 0x00 1. " MST_XBUF_B ,Master selection for X buffer B. This bit is used only in ping-pong view mode. 0: Buffer B is assigned to DMA. 1: Buffer B is assigned to HWA. This bit has no effect in full-view mode. If direct_switch_pi is high, the value of this bit is ..." "0,1"
bitfld.long 0x00 0. "         MST_XBUF_A ,Master selection for X buffer A. This bit is used in full view and ping-pong view modes. In full-view mode: 0: Buffers A and B are assigned to DMA. 1: Buffers A and B are assigned to HWA. In ping-pong view mode: 0: Buffer A is assi..." "0,1"
rgroup.long 0x8++0x3
line.long 0x00 "MSTID2,Master ID 1 register Select master between HWA and DMA bus. This register is for buffers that have only one physical memory. This register is not affected by direct_switch_pi input port."
hexmask.long 0x00 2.--31. 1. " RSRV       ,Reserved. 0 is returned at read, and write is ignored."
bitfld.long 0x00 1. "  MST_JBUF   ,Master selection for J buffer. 0: Buffer is assigned to DMA. 1: Buffer is assigned to HWA." "0,1"
bitfld.long 0x00 0. "  MST_IBUF   ,Master selection for I buffer. 0: Buffer is assigned to DMA. 1: Buffer is assigned to HWA." "0,1"
width 0x0B
tree.end
endif
tree "MC3_BFSW_L3_MAINInterconnect"
base ad:0x5A059200
width 10.
group.long 0x0++0x3
line.long 0x00 "VIEWMODE,View mode register. It selects full-view mode or ping-pong view mode."
hexmask.long 0x00 2.--31. 1. " RSRV       ,Reserved. 0 is returned at read, and write is ignored."
bitfld.long 0x00 1. "  VIEW_YBUF  ,View mode selection for Y buffer. 0: Full view mode is selected. 1: Ping-pong view mode is selected." "0,1"
bitfld.long 0x00 0. "  VIEW_XBUF  ,View mode selection for X buffer. 0: Full view mode is selected. 1: Ping-pong view mode is selected." "0,1"
group.long 0x4++0x3
line.long 0x00 "MSTID1,Master ID 1 register Select master between HWA and DMA bus. This register is used in full-view and ping-pong view modes. This register is for buffers that have two physical memories. This register is affected by direct_switch_pi input port."
hexmask.long 0x00 4.--31. 1. " RSRV       ,Reserved. 0 is returned at read, and write is ignored."
bitfld.long 0x00 3. "  MST_YBUF_B ,Master selection for Y buffer B. This bit is used only in ping-pong view mode. 0: Buffer B is assigned to DMA. 1: Buffer B is assigned to HWA. This bit has no effect in full-view mode. If direct_switch_pi is high, the value of this bit is..." "0,1"
bitfld.long 0x00 2. "  MST_YBUF_A ,Master selection for Y buffer A. This bit is used in full view and ping-pong view modes. In full-view mode: 0: Buffers A and B are assigned to DMA. 1: Buffers A and B are assigned to HWA. In ping-pong view mode: 0: Buffer A is assigned to..." "0,1"
textline "                   "
bitfld.long 0x00 1. " MST_XBUF_B ,Master selection for X buffer B. This bit is used only in ping-pong view mode. 0: Buffer B is assigned to DMA. 1: Buffer B is assigned to HWA. This bit has no effect in full-view mode. If direct_switch_pi is high, the value of this bit is ..." "0,1"
bitfld.long 0x00 0. "         MST_XBUF_A ,Master selection for X buffer A. This bit is used in full view and ping-pong view modes. In full-view mode: 0: Buffers A and B are assigned to DMA. 1: Buffers A and B are assigned to HWA. In ping-pong view mode: 0: Buffer A is assi..." "0,1"
rgroup.long 0x8++0x3
line.long 0x00 "MSTID2,Master ID 1 register Select master between HWA and DMA bus. This register is for buffers that have only one physical memory. This register is not affected by direct_switch_pi input port."
hexmask.long 0x00 2.--31. 1. " RSRV       ,Reserved. 0 is returned at read, and write is ignored."
bitfld.long 0x00 1. "  MST_JBUF   ,Master selection for J buffer. 0: Buffer is assigned to DMA. 1: Buffer is assigned to HWA." "0,1"
bitfld.long 0x00 0. "  MST_IBUF   ,Master selection for I buffer. 0: Buffer is assigned to DMA. 1: Buffer is assigned to HWA." "0,1"
width 0x0B
tree.end
tree.end
tree.open "MC3_LSE_ICONT"
sif (cpuis("TDA2XIVA"))
tree "MC3_LSE_ICONT"
base ad:0xD9300
width 11.
group.long 0x0++0x3
line.long 0x00 "LSE_CTRL,Controller"
bitfld.long 0x00 12. " INT_EOS_THRU      ,int_eos through - . - ." "0,1"
bitfld.long 0x00 9.--11. "     OCP_ERR           ,OCP error status bit [11]: OCP DMA IP_CORE side [10]: OCP DMA SL2 side [9]: OCP CFG IP_CORE side. - . - . - Writing 0 is ignored. These bits remain 1 until RESET or until host sets to 1. . - ." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8. "     ADPTV_VALUE  ,Status Adaptv_add() value This signal is cleared, if Token_clr = 1." "0,1"
textline "                    "
bitfld.long 0x00 7. " TOKEN_CLR         ,LSE internal signals are initialized to understand prologue(first MB) as below: -token status signal -token start/end signal -DMA pointer. Writing 0 is ignored. Writing 1 clears some internal signal. This is a self-clearing bit. The..." "0,1"
bitfld.long 0x00 6. "     SSM               ,Single step mode - . - ." "0,1"
bitfld.long 0x00 5. "     BFSW_CHG_DIS ,Disabled internal BFSW change - . - ." "0,1"
textline "                    "
bitfld.long 0x00 4. " CSB               ,Command status - . - ." "0,1"
bitfld.long 0x00 3. "     LD_GO             ,Execute LOAD task on bypass mode Target ParamAddr_ld_byps need to set before this bit is set. - . - ." "0,1"
bitfld.long 0x00 2. "     COMP_GO      ,Execute Comp task on bypass mode - . - . - In normal mode, LSE executes COMP commands, followed by LD commands. . - ." "0,1"
textline "                    "
bitfld.long 0x00 1. " ST_GO             ,Execute Store task on bypass mode Target ParamAddr_st_byps needs to set before this bit is set. - . - ." "0,1"
bitfld.long 0x00 0. "     SB_BYPS           ,SYNCBOX_MC3 bypass mode - . - ." "0,1"
group.long 0x4++0x3
line.long 0x00 "LSE_PARAM,Parameter address for SB Bypass mode"
hexmask.long.word 0x00 16.--31. 1. " PARAMADDR_LD_BYPS ,Only used in bypass mode. Address of the first command of LD and COMP sequence [128-bit word unit]. This is 128-bit word address, not byte address. The conversion from byte address to 128-bit word address should be done by the CPU. ..."
hexmask.long.word 0x00 0.--15. 1. "  PARAMADDR_ST_BYPS ,Only used in bypass mode. Address of the first command of ST sequence [128-bit word unit]. This is 128-bit word address, not byte address. The conversion from byte address to 128-bit word address should be done by the CPU. IfLSE_CT..."
width 0x0B
tree.end
endif
tree "MC3_LSE_L3_MAINInterconnect"
base ad:0x5A059300
width 11.
group.long 0x0++0x3
line.long 0x00 "LSE_CTRL,Controller"
bitfld.long 0x00 12. " INT_EOS_THRU      ,int_eos through - . - ." "0,1"
bitfld.long 0x00 9.--11. "     OCP_ERR           ,OCP error status bit [11]: OCP DMA IP_CORE side [10]: OCP DMA SL2 side [9]: OCP CFG IP_CORE side. - . - . - Writing 0 is ignored. These bits remain 1 until RESET or until host sets to 1. . - ." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8. "     ADPTV_VALUE  ,Status Adaptv_add() value This signal is cleared, if Token_clr = 1." "0,1"
textline "                    "
bitfld.long 0x00 7. " TOKEN_CLR         ,LSE internal signals are initialized to understand prologue(first MB) as below: -token status signal -token start/end signal -DMA pointer. Writing 0 is ignored. Writing 1 clears some internal signal. This is a self-clearing bit. The..." "0,1"
bitfld.long 0x00 6. "     SSM               ,Single step mode - . - ." "0,1"
bitfld.long 0x00 5. "     BFSW_CHG_DIS ,Disabled internal BFSW change - . - ." "0,1"
textline "                    "
bitfld.long 0x00 4. " CSB               ,Command status - . - ." "0,1"
bitfld.long 0x00 3. "     LD_GO             ,Execute LOAD task on bypass mode Target ParamAddr_ld_byps need to set before this bit is set. - . - ." "0,1"
bitfld.long 0x00 2. "     COMP_GO      ,Execute Comp task on bypass mode - . - . - In normal mode, LSE executes COMP commands, followed by LD commands. . - ." "0,1"
textline "                    "
bitfld.long 0x00 1. " ST_GO             ,Execute Store task on bypass mode Target ParamAddr_st_byps needs to set before this bit is set. - . - ." "0,1"
bitfld.long 0x00 0. "     SB_BYPS           ,SYNCBOX_MC3 bypass mode - . - ." "0,1"
group.long 0x4++0x3
line.long 0x00 "LSE_PARAM,Parameter address for SB Bypass mode"
hexmask.long.word 0x00 16.--31. 1. " PARAMADDR_LD_BYPS ,Only used in bypass mode. Address of the first command of LD and COMP sequence [128-bit word unit]. This is 128-bit word address, not byte address. The conversion from byte address to 128-bit word address should be done by the CPU. ..."
hexmask.long.word 0x00 0.--15. 1. "  PARAMADDR_ST_BYPS ,Only used in bypass mode. Address of the first command of ST sequence [128-bit word unit]. This is 128-bit word address, not byte address. The conversion from byte address to 128-bit word address should be done by the CPU. IfLSE_CT..."
width 0x0B
tree.end
tree.end
tree.open "MC3_MMR_ICONT"
sif (cpuis("TDA2XIVA"))
tree "MC3_MMR_ICONT"
base ad:0xD9000
width 11.
rgroup.long 0x0++0x3
line.long 0x00 "MC_PID,PID register"
hexmask.long 0x00 0.--31. 1. " PID                  ,PID of the MC3 module"
group.long 0x4++0x3
line.long 0x00 "MC_CNT,Benchmark counter register"
bitfld.long 0x00 31. " MC_CNT_EN            ,Counter enable (MC_CNT_EN) 0: The benchmark counter is disabled. 1: The benchmark counter is enabled." "0,1"
bitfld.long 0x00 30. "         MC_CNT_RST           ,Counter reset (MC_CNT_RST) Writing 0 results in no effect. Writing 1 results in clearing the benchmark counter to 0. Always read as 0." "0,1"
hexmask.long.word 0x00 0.--15. 1. "     MC_COUNT           ,Counter value (MC_COUNT). Indicates current value of the benchmark counter. When MC_CNT_EN is 1 and IP is busy (en = 1), the benchmark counter counts up based on clk_mc. Writing has no effect."
group.long 0x8++0x3
line.long 0x00 "MC_CTRL,Control register"
bitfld.long 0x00 2. " MC_DBG               ,H.264 MBAFF debug mode bit (MC_DBG). This bit is used for H.264 MBAFF mode only. For the other codecs, this bit must be 0. 0: Normal mode 1: Debug mode(1MB prediction/step)" "0,1"
bitfld.long 0x00 0. "         MC_EN                ,Module start and status (MC_EN). Writing 1 starts a set of commands, and writing 0 is ignored. Writing to this register is forbidden while MC_EN = 1. 0: Idle 1: Busy" "0,1"
group.long 0xC++0x3
line.long 0x00 "MC_PARAM0,Motion compression parameter register"
bitfld.long 0x00 29. " VC1_SMP_MOD          ,VC-1 sample mode 0: Bilinear Interpolation 1: Bicubic Interpolation" "0,1"
bitfld.long 0x00 28. "         VC1_RND_CTRL         ,VC-1 round control bit" "0,1"
bitfld.long 0x00 10.--11. "     H264_WGT_BIPRD_IDC ,H.264 weighted_bipred_idc" "0,1,2,3"
textline "                    "
bitfld.long 0x00 9. " H264_WGT_PRD         ,H.264 weighted_pred_flag" "0,1"
bitfld.long 0x00 0.--3. "         CODEC_TYPE           ,Codec_type select 0: H.264 2: VC-1 4: MPEG-4 5: MPEG-2 6: AVS-1.0 8: RealVideo-8/9/10 9: On2 VP6 10: On2 VP7" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10++0x3
line.long 0x00 "MC_PARAM1,Motion compression parameter register"
group.long 0x18++0x3
line.long 0x00 "MC_ADDR_0,Base address of reference data Luma L0"
hexmask.long.word 0x00 16.--31. 1. " BASE_YREF_BOT_L0_ADD ,Base address of reference data Y L0 bottom (BASE_YREF_BOT_L0_ADD) (Reference for bottom field)"
hexmask.long.word 0x00 0.--15. 1. "      BASE_YREF_TOP_L0_ADD ,Base address of reference data Y L0 top (BASE_YREF_TOP_L0_ADD) (Reference for progressive/top field)"
group.long 0x1C++0x3
line.long 0x00 "MC_ADDR_1,Base address of reference data Luma L1"
hexmask.long.word 0x00 16.--31. 1. " BASE_YREF_BOT_L1_ADD ,Base address of reference data Y L1 bottom (BASE_YREF_BOT_L1_ADD) (Reference for bottom field)"
hexmask.long.word 0x00 0.--15. 1. "      BASE_YREF_TOP_L1_ADD ,Base address of reference data Y L1 top (BASE_YREF_TOP_L1_ADD) (Reference for progressive/top field)"
group.long 0x20++0x3
line.long 0x00 "MC_ADDR_2,Base address of reference data chroma L0"
hexmask.long.word 0x00 16.--31. 1. " BASE_CREF_BOT_L0_ADD ,Base address of reference data C L0 bottom (BASE_CREF_BOT_L0_ADD) (Reference for bottom field)"
hexmask.long.word 0x00 0.--15. 1. "      BASE_CREF_TOP_L0_ADD ,Base address of reference data C L0 top (BASE_CREF_TOP_L0_ADD) (Reference for progressive/top field)"
group.long 0x24++0x3
line.long 0x00 "MC_ADDR_3,"
hexmask.long.word 0x00 16.--31. 1. " BASE_CREF_BOT_L1_ADD ,Base address of reference data C L1 bottom (BASE_CREF_BOT_L1_ADD) (Reference for bottom field)"
hexmask.long.word 0x00 0.--15. 1. "      BASE_CREF_TOP_L1_ADD ,Base address of reference data C L1 top (BASE_CREF_TOP_L1_ADD) (Reference for progressive/top field)"
width 0x0B
tree.end
endif
tree "MC3_MMR_L3_MAINInterconnect"
base ad:0x5A059000
width 11.
rgroup.long 0x0++0x3
line.long 0x00 "MC_PID,PID register"
hexmask.long 0x00 0.--31. 1. " PID                  ,PID of the MC3 module"
group.long 0x4++0x3
line.long 0x00 "MC_CNT,Benchmark counter register"
bitfld.long 0x00 31. " MC_CNT_EN            ,Counter enable (MC_CNT_EN) 0: The benchmark counter is disabled. 1: The benchmark counter is enabled." "0,1"
bitfld.long 0x00 30. "         MC_CNT_RST           ,Counter reset (MC_CNT_RST) Writing 0 results in no effect. Writing 1 results in clearing the benchmark counter to 0. Always read as 0." "0,1"
hexmask.long.word 0x00 0.--15. 1. "     MC_COUNT           ,Counter value (MC_COUNT). Indicates current value of the benchmark counter. When MC_CNT_EN is 1 and IP is busy (en = 1), the benchmark counter counts up based on clk_mc. Writing has no effect."
group.long 0x8++0x3
line.long 0x00 "MC_CTRL,Control register"
bitfld.long 0x00 2. " MC_DBG               ,H.264 MBAFF debug mode bit (MC_DBG). This bit is used for H.264 MBAFF mode only. For the other codecs, this bit must be 0. 0: Normal mode 1: Debug mode(1MB prediction/step)" "0,1"
bitfld.long 0x00 0. "         MC_EN                ,Module start and status (MC_EN). Writing 1 starts a set of commands, and writing 0 is ignored. Writing to this register is forbidden while MC_EN = 1. 0: Idle 1: Busy" "0,1"
group.long 0xC++0x3
line.long 0x00 "MC_PARAM0,Motion compression parameter register"
bitfld.long 0x00 29. " VC1_SMP_MOD          ,VC-1 sample mode 0: Bilinear Interpolation 1: Bicubic Interpolation" "0,1"
bitfld.long 0x00 28. "         VC1_RND_CTRL         ,VC-1 round control bit" "0,1"
bitfld.long 0x00 10.--11. "     H264_WGT_BIPRD_IDC ,H.264 weighted_bipred_idc" "0,1,2,3"
textline "                    "
bitfld.long 0x00 9. " H264_WGT_PRD         ,H.264 weighted_pred_flag" "0,1"
bitfld.long 0x00 0.--3. "         CODEC_TYPE           ,Codec_type select 0: H.264 2: VC-1 4: MPEG-4 5: MPEG-2 6: AVS-1.0 8: RealVideo-8/9/10 9: On2 VP6 10: On2 VP7" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10++0x3
line.long 0x00 "MC_PARAM1,Motion compression parameter register"
group.long 0x18++0x3
line.long 0x00 "MC_ADDR_0,Base address of reference data Luma L0"
hexmask.long.word 0x00 16.--31. 1. " BASE_YREF_BOT_L0_ADD ,Base address of reference data Y L0 bottom (BASE_YREF_BOT_L0_ADD) (Reference for bottom field)"
hexmask.long.word 0x00 0.--15. 1. "      BASE_YREF_TOP_L0_ADD ,Base address of reference data Y L0 top (BASE_YREF_TOP_L0_ADD) (Reference for progressive/top field)"
group.long 0x1C++0x3
line.long 0x00 "MC_ADDR_1,Base address of reference data Luma L1"
hexmask.long.word 0x00 16.--31. 1. " BASE_YREF_BOT_L1_ADD ,Base address of reference data Y L1 bottom (BASE_YREF_BOT_L1_ADD) (Reference for bottom field)"
hexmask.long.word 0x00 0.--15. 1. "      BASE_YREF_TOP_L1_ADD ,Base address of reference data Y L1 top (BASE_YREF_TOP_L1_ADD) (Reference for progressive/top field)"
group.long 0x20++0x3
line.long 0x00 "MC_ADDR_2,Base address of reference data chroma L0"
hexmask.long.word 0x00 16.--31. 1. " BASE_CREF_BOT_L0_ADD ,Base address of reference data C L0 bottom (BASE_CREF_BOT_L0_ADD) (Reference for bottom field)"
hexmask.long.word 0x00 0.--15. 1. "      BASE_CREF_TOP_L0_ADD ,Base address of reference data C L0 top (BASE_CREF_TOP_L0_ADD) (Reference for progressive/top field)"
group.long 0x24++0x3
line.long 0x00 "MC_ADDR_3,"
hexmask.long.word 0x00 16.--31. 1. " BASE_CREF_BOT_L1_ADD ,Base address of reference data C L1 bottom (BASE_CREF_BOT_L1_ADD) (Reference for bottom field)"
hexmask.long.word 0x00 0.--15. 1. "      BASE_CREF_TOP_L1_ADD ,Base address of reference data C L1 top (BASE_CREF_TOP_L1_ADD) (Reference for progressive/top field)"
width 0x0B
tree.end
tree.end
tree.end
tree.open "IVA_CALCulation_Engine_3"
tree.open "CALC3_IPGW_ICONT"
sif (cpuis("TDA2XIVA"))
tree "CALC3_IPGW_ICONT"
base ad:0xD8400
width 24.
group.long 0x8++0x3
line.long 0x00 "CALC3_SYSCONFIG,Clock management configuration"
bitfld.long 0x00 2.--3. " IDLEMODE    ,Configuration of the local target state management mode. - By definition, target can handle read/write transaction as long as it is out of IDLE state. . - . - . - Backup mode, for debug only. . - . - . - Backup mode, for debug only. . - ...." "0,1,2,3"
bitfld.long 0x00 1. "  FREEEMU ,Sensitivity to emulation (debug) suspend input signal. - . - ." "0,1"
bitfld.long 0x00 0. "  SOFTRESET ,Software reset - . - . - . - ." "0,1"
group.long 0xC++0x3
line.long 0x00 "CALC3_IRQ_EOI,End Of Interrupt number specification"
bitfld.long 0x00 0.--1. " LINE_NUMBER ,Software End Of Interrupt (EOI) control. Write number of interrupt output. - . - . - . - . - ." "0,1,2,3"
group.long 0x14++0x3
line.long 0x00 "CALC3_IPQSTATUS_RAW_0,Per-event raw interrupt status vector, int_end load (LSE). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " EVENT0      ,Settable raw status for int_end load (LSE). Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (debug)" "0,1"
group.long 0x18++0x3
line.long 0x00 "CALC3_IPQSTATUS_RAW_1,Per-event raw interrupt status vector, int_end (CALC3 core). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " EVENT0      ,Settable raw status for int_end (CALC3 core). Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (debug)" "0,1"
group.long 0x1C++0x3
line.long 0x00 "CALC3_IPQSTATUS_RAW_2,Per-event raw interrupt status vector, int_end store (LSE). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " EVENT0      ,Settable raw status for int_end store (LSE). Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (debug)" "0,1"
group.long 0x20++0x3
line.long 0x00 "CALC3_IPQSTATUS_RAW_3,Per-event raw interrupt status vector, int_undef (LSE). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " EVENT0      ,Settable raw status for int_undef (LSE). Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (debug)" "0,1"
group.long 0x30++0x3
line.long 0x00 "CALC3_IRQSTATUS_0,Per-event 'enabled' interrupt status vector, int_end load (LSE). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " EVENT0      ,Clearable, enabled status for int_end load (LSE). Write 0: No action Read 0: No (enabled) event pending Read 1: Event pending Write 1: Clear (raw) event" "0,1"
group.long 0x34++0x3
line.long 0x00 "CALC3_IRQSTATUS_1,Per-event 'enabled' interrupt status vector, int_end (CALC3 Core). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " EVENT0      ,Clearable, enabled status for int_end (CALC3 core). Write 0: No action Read 0: No (enabled) event pending Read 1: Event pending Write 1: Clear (raw) event" "0,1"
group.long 0x38++0x3
line.long 0x00 "CALC3_IRQSTATUS_2,Per-event 'enabled' interrupt status vector, int_end store (LSE). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " EVENT0      ,Clearable, enabled status for int_end store (LSE) Write 0: No action Read 0: No (enabled) event pending Read 1: Event pending Write 1: Clear (raw) event" "0,1"
group.long 0x3C++0x3
line.long 0x00 "CALC3_IRQSTATUS_3,Per-event 'enabled' interrupt status vector, int_undef (LSE). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " EVENT0      ,Clearable, enabled status for int_undef (LSE). Write 0: No action Read 0: No (enabled) event pending Read 1: Event pending Write 1: Clear (raw) event" "0,1"
group.long 0x4C++0x3
line.long 0x00 "CALC3_IRQENABLE_SET_0,Per-event interrupt enable bit vector, int_end load (LSE). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0     ,Enable for int_end load (LSE) Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Enable interrupt" "0,1"
group.long 0x50++0x3
line.long 0x00 "CALC3_IRQENABLE_SET_1,Per-event interrupt enable bit vector, int_end (CALC3 core). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0     ,Enable for int_end (CALC3 core) Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Enable interrupt" "0,1"
group.long 0x54++0x3
line.long 0x00 "CALC3_IRQENABLE_SET_2,Per-event interrupt enable bit vector, int_end store (LSE). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0     ,Enable for int_end store (LSE) Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Enable interrupt" "0,1"
group.long 0x58++0x3
line.long 0x00 "CALC3_IRQENABLE_SET_3,Per-event interrupt enable bit vector, int_undef (LSE). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0     ,Enable for int_undef (LSE) Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Enable interrupt" "0,1"
group.long 0x68++0x3
line.long 0x00 "CALC3_IRQENABLE_CLR_0,Per-event interrupt enable bit vector, int_end load (LSE). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0     ,Enable for int_end load (LSE) Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Disable interrupt" "0,1"
group.long 0x6C++0x3
line.long 0x00 "CALC3_IRQENABLE_CLR_1,Per-event interrupt enable bit vector, int_end (CALC3 core). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0     ,Enable for int_end (CALC3 core) Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Disable interrupt" "0,1"
group.long 0x70++0x3
line.long 0x00 "CALC3_IRQENABLE_CLR_2,Per-event interrupt enable bit vector, int_end store (LSE). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0     ,Enable for int_end store (LSE) Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Disable interrupt" "0,1"
group.long 0x74++0x3
line.long 0x00 "CALC3_IRQENABLE_CLR_3,Per-event interrupt enable bit vector, int_undef (LSE). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0     ,Enable for int_undef (LSE) Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Disable interrupt" "0,1"
group.long 0xC0++0x3
line.long 0x00 "CALC3_IRQSTATUS_ACLREN,Auto Clear enable"
bitfld.long 0x00 3. " ACLREN3     ,For int_undef (LSE)" "0,1"
bitfld.long 0x00 2. "  ACLREN2 ,For int_end store (LSE)" "0,1"
bitfld.long 0x00 1. "  ACLREN1   ,For int_end (CALC3 core)" "0,1"
textline "                                 "
bitfld.long 0x00 0. " ACLREN0     ,For int_end load (LSE)" "0,1"
width 0x0B
tree.end
endif
tree "CALC3_IPGW_L3_MAINInterconnect"
base ad:0x5A058400
width 24.
group.long 0x8++0x3
line.long 0x00 "CALC3_SYSCONFIG,Clock management configuration"
bitfld.long 0x00 2.--3. " IDLEMODE    ,Configuration of the local target state management mode. - By definition, target can handle read/write transaction as long as it is out of IDLE state. . - . - . - Backup mode, for debug only. . - . - . - Backup mode, for debug only. . - ...." "0,1,2,3"
bitfld.long 0x00 1. "  FREEEMU ,Sensitivity to emulation (debug) suspend input signal. - . - ." "0,1"
bitfld.long 0x00 0. "  SOFTRESET ,Software reset - . - . - . - ." "0,1"
group.long 0xC++0x3
line.long 0x00 "CALC3_IRQ_EOI,End Of Interrupt number specification"
bitfld.long 0x00 0.--1. " LINE_NUMBER ,Software End Of Interrupt (EOI) control. Write number of interrupt output. - . - . - . - . - ." "0,1,2,3"
group.long 0x14++0x3
line.long 0x00 "CALC3_IPQSTATUS_RAW_0,Per-event raw interrupt status vector, int_end load (LSE). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " EVENT0      ,Settable raw status for int_end load (LSE). Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (debug)" "0,1"
group.long 0x18++0x3
line.long 0x00 "CALC3_IPQSTATUS_RAW_1,Per-event raw interrupt status vector, int_end (CALC3 core). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " EVENT0      ,Settable raw status for int_end (CALC3 core). Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (debug)" "0,1"
group.long 0x1C++0x3
line.long 0x00 "CALC3_IPQSTATUS_RAW_2,Per-event raw interrupt status vector, int_end store (LSE). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " EVENT0      ,Settable raw status for int_end store (LSE). Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (debug)" "0,1"
group.long 0x20++0x3
line.long 0x00 "CALC3_IPQSTATUS_RAW_3,Per-event raw interrupt status vector, int_undef (LSE). Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " EVENT0      ,Settable raw status for int_undef (LSE). Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (debug)" "0,1"
group.long 0x30++0x3
line.long 0x00 "CALC3_IRQSTATUS_0,Per-event 'enabled' interrupt status vector, int_end load (LSE). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " EVENT0      ,Clearable, enabled status for int_end load (LSE). Write 0: No action Read 0: No (enabled) event pending Read 1: Event pending Write 1: Clear (raw) event" "0,1"
group.long 0x34++0x3
line.long 0x00 "CALC3_IRQSTATUS_1,Per-event 'enabled' interrupt status vector, int_end (CALC3 Core). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " EVENT0      ,Clearable, enabled status for int_end (CALC3 core). Write 0: No action Read 0: No (enabled) event pending Read 1: Event pending Write 1: Clear (raw) event" "0,1"
group.long 0x38++0x3
line.long 0x00 "CALC3_IRQSTATUS_2,Per-event 'enabled' interrupt status vector, int_end store (LSE). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " EVENT0      ,Clearable, enabled status for int_end store (LSE) Write 0: No action Read 0: No (enabled) event pending Read 1: Event pending Write 1: Clear (raw) event" "0,1"
group.long 0x3C++0x3
line.long 0x00 "CALC3_IRQSTATUS_3,Per-event 'enabled' interrupt status vector, int_undef (LSE). Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " EVENT0      ,Clearable, enabled status for int_undef (LSE). Write 0: No action Read 0: No (enabled) event pending Read 1: Event pending Write 1: Clear (raw) event" "0,1"
group.long 0x4C++0x3
line.long 0x00 "CALC3_IRQENABLE_SET_0,Per-event interrupt enable bit vector, int_end load (LSE). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0     ,Enable for int_end load (LSE) Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Enable interrupt" "0,1"
group.long 0x50++0x3
line.long 0x00 "CALC3_IRQENABLE_SET_1,Per-event interrupt enable bit vector, int_end (CALC3 core). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0     ,Enable for int_end (CALC3 core) Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Enable interrupt" "0,1"
group.long 0x54++0x3
line.long 0x00 "CALC3_IRQENABLE_SET_2,Per-event interrupt enable bit vector, int_end store (LSE). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0     ,Enable for int_end store (LSE) Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Enable interrupt" "0,1"
group.long 0x58++0x3
line.long 0x00 "CALC3_IRQENABLE_SET_3,Per-event interrupt enable bit vector, int_undef (LSE). Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0     ,Enable for int_undef (LSE) Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Enable interrupt" "0,1"
group.long 0x68++0x3
line.long 0x00 "CALC3_IRQENABLE_CLR_0,Per-event interrupt enable bit vector, int_end load (LSE). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0     ,Enable for int_end load (LSE) Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Disable interrupt" "0,1"
group.long 0x6C++0x3
line.long 0x00 "CALC3_IRQENABLE_CLR_1,Per-event interrupt enable bit vector, int_end (CALC3 core). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0     ,Enable for int_end (CALC3 core) Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Disable interrupt" "0,1"
group.long 0x70++0x3
line.long 0x00 "CALC3_IRQENABLE_CLR_2,Per-event interrupt enable bit vector, int_end store (LSE). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0     ,Enable for int_end store (LSE) Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Disable interrupt" "0,1"
group.long 0x74++0x3
line.long 0x00 "CALC3_IRQENABLE_CLR_3,Per-event interrupt enable bit vector, int_undef (LSE). Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0     ,Enable for int_undef (LSE) Write 0: No action Read 0: Interrupt disabled (masked) Read 1: Interrupt enabled Write 1: Disable interrupt" "0,1"
group.long 0xC0++0x3
line.long 0x00 "CALC3_IRQSTATUS_ACLREN,Auto Clear enable"
bitfld.long 0x00 3. " ACLREN3     ,For int_undef (LSE)" "0,1"
bitfld.long 0x00 2. "  ACLREN2 ,For int_end store (LSE)" "0,1"
bitfld.long 0x00 1. "  ACLREN1   ,For int_end (CALC3 core)" "0,1"
textline "                                 "
bitfld.long 0x00 0. " ACLREN0     ,For int_end load (LSE)" "0,1"
width 0x0B
tree.end
tree.end
tree.open "CALC3_LSE_ICONT"
sif (cpuis("TDA2XIVA"))
tree "CALC3_LSE_ICONT"
base ad:0xD8300
width 11.
group.long 0x0++0x3
line.long 0x00 "LSE_CTRL,Controller"
bitfld.long 0x00 12. " INT_EOS_THRU      ,int_eos through bit 0 : LSE does the process for slice boundary after receiving int_eos. 1: int_eos is passed through to SYNCBOX_CALC3 without the process for slice boundary" "0,1"
bitfld.long 0x00 9.--11. "     OCP_ERR           ,OCP error status bit. Writing 0 is ignored. These bits remain 1 until RESET or until the host sets to 1. - . - . [11]: OCP DMA IP_CORE side. - . [10]: OCP DMA SL2 side. - . [9]: OCP CFG IP_CORE side. - ." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8. "     ADPTV_VALUE  ,Status Adaptv_add() value This signal is cleared, if Token_clr=1." "0,1"
textline "                    "
bitfld.long 0x00 7. " TOKEN_CLR         ,LSE internal signals will be initialized to understand prologue(1st MB) as below: . -token status signal -token start/end signal -DMA pointer Writing 0 is ignored. Writing 1 clears some internal signal. This is a self-clearing bit. ..." "0,1"
bitfld.long 0x00 6. "     SSM               ,Single Step Mode - . - ." "0,1"
bitfld.long 0x00 5. "     BFSW_CHG_DIS ,Disabled internal BFSW change - . - ." "0,1"
textline "                    "
bitfld.long 0x00 4. " CSB               ,Command Status Bit ? These bits remain 1 until RESET or Token_clr or until the host sets to 1. - . - ." "0,1"
bitfld.long 0x00 3. "     LD_GO             ,Execute LOAD task on Byps mode Target ParamAddr_ld_byps must be set before this bit is set. This bit is cleared after LD Task finishes. - . - ." "0,1"
bitfld.long 0x00 2. "     COMP_GO      ,Execute Comp task on Byps mode ? In the single step mode, LSE access to ParamAddr_ld_byps and execute the command for Comp task. In the normal mode, LSE executes COMP commands followed by LD commands. This bit is cleared after Comp T..." "0,1"
textline "                    "
bitfld.long 0x00 1. " ST_GO             ,Execute Store task on Byps mode Target ParamAddr_st_byps must be set before this bit is set. This bit is cleared after ST Task finishes. - . - ." "0,1"
bitfld.long 0x00 0. "     SB_BYPS           ,SyncBox Byps mode - . - ." "0,1"
group.long 0x4++0x3
line.long 0x00 "LSE_PARAM,Parameter address for SB Bypass mode"
hexmask.long.word 0x00 16.--31. 1. " PARAMADDR_LD_BYPS ,Only used in the bypass mode. Address of the first command of LD and COMP sequence (128-bit word unit). This is 128-bit word address, not byte address. The conversion from byte address to 128-bit word address should be done by CPU. ..."
hexmask.long.word 0x00 0.--15. 1. "  PARAMADDR_ST_BYPS ,Only used in the bypass mode. Address of the first command of ST sequence (128-bit word unit). This is 128-bit word address, not byte address. The conversion from byte address to 128-bit word address should be done by CPU. IfLSE_CT..."
width 0x0B
tree.end
endif
tree "CALC3_LSE_L3_MAINInterconnect"
base ad:0x5A058300
width 11.
group.long 0x0++0x3
line.long 0x00 "LSE_CTRL,Controller"
bitfld.long 0x00 12. " INT_EOS_THRU      ,int_eos through bit 0 : LSE does the process for slice boundary after receiving int_eos. 1: int_eos is passed through to SYNCBOX_CALC3 without the process for slice boundary" "0,1"
bitfld.long 0x00 9.--11. "     OCP_ERR           ,OCP error status bit. Writing 0 is ignored. These bits remain 1 until RESET or until the host sets to 1. - . - . [11]: OCP DMA IP_CORE side. - . [10]: OCP DMA SL2 side. - . [9]: OCP CFG IP_CORE side. - ." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8. "     ADPTV_VALUE  ,Status Adaptv_add() value This signal is cleared, if Token_clr=1." "0,1"
textline "                    "
bitfld.long 0x00 7. " TOKEN_CLR         ,LSE internal signals will be initialized to understand prologue(1st MB) as below: . -token status signal -token start/end signal -DMA pointer Writing 0 is ignored. Writing 1 clears some internal signal. This is a self-clearing bit. ..." "0,1"
bitfld.long 0x00 6. "     SSM               ,Single Step Mode - . - ." "0,1"
bitfld.long 0x00 5. "     BFSW_CHG_DIS ,Disabled internal BFSW change - . - ." "0,1"
textline "                    "
bitfld.long 0x00 4. " CSB               ,Command Status Bit ? These bits remain 1 until RESET or Token_clr or until the host sets to 1. - . - ." "0,1"
bitfld.long 0x00 3. "     LD_GO             ,Execute LOAD task on Byps mode Target ParamAddr_ld_byps must be set before this bit is set. This bit is cleared after LD Task finishes. - . - ." "0,1"
bitfld.long 0x00 2. "     COMP_GO      ,Execute Comp task on Byps mode ? In the single step mode, LSE access to ParamAddr_ld_byps and execute the command for Comp task. In the normal mode, LSE executes COMP commands followed by LD commands. This bit is cleared after Comp T..." "0,1"
textline "                    "
bitfld.long 0x00 1. " ST_GO             ,Execute Store task on Byps mode Target ParamAddr_st_byps must be set before this bit is set. This bit is cleared after ST Task finishes. - . - ." "0,1"
bitfld.long 0x00 0. "     SB_BYPS           ,SyncBox Byps mode - . - ." "0,1"
group.long 0x4++0x3
line.long 0x00 "LSE_PARAM,Parameter address for SB Bypass mode"
hexmask.long.word 0x00 16.--31. 1. " PARAMADDR_LD_BYPS ,Only used in the bypass mode. Address of the first command of LD and COMP sequence (128-bit word unit). This is 128-bit word address, not byte address. The conversion from byte address to 128-bit word address should be done by CPU. ..."
hexmask.long.word 0x00 0.--15. 1. "  PARAMADDR_ST_BYPS ,Only used in the bypass mode. Address of the first command of ST sequence (128-bit word unit). This is 128-bit word address, not byte address. The conversion from byte address to 128-bit word address should be done by CPU. IfLSE_CT..."
width 0x0B
tree.end
tree.end
tree.open "CALC3_MMR_ICONT"
sif (cpuis("TDA2XIVA"))
tree "CALC3_MMR_ICONT"
base ad:0xD8000
width 24.
rgroup.long 0x0++0x3
line.long 0x00 "CALC_PID,CALC3 PID register"
hexmask.long 0x00 0.--31. 1. " PID                           ,PID of CALC3"
group.long 0x4++0x3
line.long 0x00 "CALC_COUNT,CALC3 cycle counter register"
bitfld.long 0x00 31. " CALC_CE                       ,Cycle counter enable [1]: Active [0]: Not active" "0,1"
bitfld.long 0x00 30. "         CALC_CRST                     ,Counter reset [1]: Reset counter [0]: No effect" "0,1"
hexmask.long.word 0x00 0.--15. 1. "   COUNT                  ,Cycle counter 16-bit counter Cycle counter is increasing during CALC_EN = 1 in CALC_CTRL. It reflects the counter value."
group.long 0x8++0x3
line.long 0x00 "CALC_CTRL,CALC3 control register"
bitfld.long 0x00 0. " CALC_EN                       ,CALC3 module status and start bit Write [0]: Ignored Write [1]: Start CALC3 module. Read [0]: Idle Read [1]: Busy" "0,1"
group.long 0xC++0x3
line.long 0x00 "CALC_TEST,CALC3 test register It is only for debug purpose."
bitfld.long 0x00 24. " CALC_CMD_OPECNT               ,MB counter register for MBAFF mode For H.264 MBAFF, this status bit is used for CALC3 core and command wrapper." "0,1"
bitfld.long 0x00 13. "         CALC_CMD_MNG_DIS              ,CALC3 command wrapper function of data management (that is, neighboring pixel copying) disable flag. [0]: Command wrapper's data management enable. [1]: Command wrapper's data management disable." "0,1"
bitfld.long 0x00 12. "   CALC_CMD_GEN_DIS       ,CALC3 command wrapper function of CALC3 core specific command generation disable flag. [0]: Command wrapper's its generation function enable. [1]: Command wrapper's its generation function disable." "0,1"
textline "                                 "
bitfld.long 0x00 6. " CALC_2ND_MB_DIS               ,CALC3 2nd Mb disable flag ( it is effective only for MBAFF ) [1]: 2nd Mb operation for MBAFF is disable for CALC3 core and command wrapper [0]: 2nd Mb operation for MBAFF is enable for CALC3 core and command wrapper" "0,1"
bitfld.long 0x00 5. "         CALC_TIT_DIS                  ,CALC3 transform function disable flag [1]: Transform function is skipped in CALC3 core. [0]: Transform function is enabled in CALC3 core." "0,1"
bitfld.long 0x00 4. "   CALC_QIQ_DIS           ,CALC3 QIQ function disable flag [1]: QIQ function is skipped in CALC3 core. [0]: QIQ function is enabled in CALC3 core." "0,1"
textline "                                 "
bitfld.long 0x00 0. " CALC_CORE_DIS                 ,CALC3 core disable flag. [0]: CALC core enable [1]: CALC core disable" "0,1"
group.long 0x10++0x3
line.long 0x00 "CALC_MODE,CALC3 mode select register"
bitfld.long 0x00 31. " CALC_H263_ANNEXI              ,In H.264[0] : Intra_8x8 Pre-Filter is active.. - . [1] : Intra_8x8 Pre_filter is disabled.. - . - H.263 AnnexI mode set flag . - . - It is effective for H.263 decode only. . - . [0] : H263 Annex I configuration disable f..." "0,1"
bitfld.long 0x00 30. "         CALC_MPEG4_QUANT_TYPE         ,MPEG-4 QuantType set flag - It is effective for MPEG-4 only. . - . [0]: QuantType = 0. - . [1]: QuantType = 1. - . - It is set for the quantization manner, H.263 like (quantType = 0) or MPEG like(quantType = 1). ..." "0,1"
bitfld.long 0x00 29. "   CALC_VC1_NONUNIQUANT   ,VC-1 NonUniformQuantize set flag - It is effective for VC-1 only. . - . [0]: Uniform Quantize. - . [1]: NonUniform Quantize. - . - It is set for the quantization manner, uniform or nonuniform for VC-1. . - . - Based on the cu..." "0,1"
textline "                                 "
bitfld.long 0x00 28. " CALC_VC1_DC_DEF_NONZERO       ,VC-1 DcDefaultNonZero set flag - It is effective for VC-1 only. . - . [0]: DcDefault = 0. - . [1]: DcDefault != 0. - . - It is set for the DC default value for the DC prediction for VC-1. . - . - If (Simple or Main Profi..." "0,1"
bitfld.long 0x00 24.--27. "         CALC_CODEC_TYPE               ,Codec type set register[0]: JPEG. - . [1]: MPEG-1. - . [2]: MPEG-2. - . [3]: H.263. - . [4]: MPEG-4. - . [5]: VC-1. - . [6]: H.264. - . [7]: AVS1.0. - . [8]: Real Video. - . [9]: On2Vp6. - . [10]: On2Vp7. - . [11..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "  CALC_CBPCNT0_INTER_EN  ,CBPControl #0 enable flag for Inter Block[0]: Disable.. - . [1]: Enable.. - . - It is effective for encode only. . - . - For an 8 ? 8 block (without DcTransform) and its block of inter, if all the nonzero coeffs among quantize..." "0,1"
textline "                                 "
bitfld.long 0x00 22. " CALC_CBPCNT0_LUMA_DCTRANS_EN  ,CBPControl #0 enable flag for Luma DC Trans mode[0]: Disable.. - . [1]: Enable.. - . - It is effective for encode and DC transform used in Luma 16 ? 16 block. . - . - When DcTransform is effective for Luma and this flag ..." "0,1"
bitfld.long 0x00 21. "         CALC_CBPCNT0_CHRO_DCTRANS_EN  ,CBPControl #0 enable flag for Chroma DC Trans mode[0]: Disable.. - . [1]: Enable.. - . - It is effective for enc and DC transform used in Cb and Cr blocks. . - . - When DcTransform is effective for Cb/Cr and this..." "0,1"
bitfld.long 0x00 20. "   CALC_CBPCNT0_INTER_THR ,# of abs ones coeffs threshold for CALC_CBPCNT0_INTER_EN - It is effective for CALC_CBPCNT0_INTER_EN = 1 . - . [0]: threshold_0 = 1. - . [1]: threshold_0 = 2. - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " CALC_CBPCNT0_LUMA_DCTRANS_THR ,# of abs ones coeffs threshold for CALC_CBPCNT0_LUMA_DCTRANS_EN - It is effective for CALC_CBPCNT0_LUMA_DCTRANS_EN = 1 . - . [0]: threshold_1 = 1. - . [1]: threshold_1 = 2. - ." "0,1"
bitfld.long 0x00 18. "         CALC_CBPCNT0_CHRO_DCTRANS_THR ,# of abs ones coeffs threshold for CALC_CBPCNT0_CHRO_DCTRANS_EN - It is effective for CALC_CBPCNT0_CHRO_DCTRANS_EN = 1 . - . [0]: threshold_2 = 1. - . [1]: threshold_2 = 2. - ." "0,1"
bitfld.long 0x00 17. "   CALC_CBPCNT1_EN        ,CBP Control #1 enable flag[0]: OFF. - . [1]: ON. - . - It is effective for encode. . - . - If all the inverse transformed coefficients are zeros in the transformed size, the corresponded CBP controls to zero. . - . - Note tha..." "0,1"
textline "                                 "
bitfld.long 0x00 16. " CALC_ENC                      ,Enc or Dec mode flag[0]: Dec. - . [1]: Enc. - . - Note that a part of codecs is supported only for dec. . - . - RealVideo, VP6/7, H.263 AnnexI mode are supported only for dec. . - . - Enc mode is reserved for them. . - ." "0,1"
bitfld.long 0x00 15. "         CALC_MPEG2_QSCLTYPE           ,q_scale_type of MPEG-2 set register for command wrapper. - It is effective for MPEG-2. . - . [0]: q_scale_type = 0. - . [1]: q_scale_type = 1. - ." "0,1"
bitfld.long 0x00 13.--14. "   CALC_MPEG2_INTRADCPREC ,intra_dc_precision of MPEG-2 set register for command wrapper. - It is effective for MPEG-1 and MPEG-2. . - . [0]: intra_dc_precision = 0. - . [1]: intra_dc_precision = 1. - . [2]: intra_dc_precision = 2. - . [3]: intra_dc_pr..." "0,1,2,3"
textline "                                 "
bitfld.long 0x00 12. " CALC_ACPRED_DIS               ,AC prediction disable flag for command wrapper. - It is effective for MPEG-4 and VC-1 enc. . - . [0]: AC prediction estimation enable for enc. - . [1]: AC prediction estimation disable for enc. - . - Note that H.263 Anne..." "0,1"
bitfld.long 0x00 11. "         CALC_H264_CONST_INTRA         ,Constraint intra set of H.264 flag for command wrapper. - It is effective for H.264. . - . [0]: Non constraint intra. - . [1]: constraint intra. - ." "0,1"
bitfld.long 0x00 9.--10. "   CALC_PICTCODINGTYPE    ,Picture coding type set register for command wrapper[0]: I Picture. - . [1]: P Picture. - . [2]: B Picture. - . [3]: Reserved. - . - It is effective for VC-1 and RealVideo. . - . - For VC-1, it defines DcPrediction manner. . ..." "0,1,2,3"
textline "                                 "
bitfld.long 0x00 8. " CALC_RECON_16BIT_EN           ,Reconstruct format flag[0]: 8-bit mode. - . [1]: 16-bit mode. - . - For VC-1 application, it must always be set to 1. . - . - Even for an inter block, CALC3 outputs the reconst data in 16-bit format for its flag of 1. . ..." "0,1"
bitfld.long 0x00 6.--7. "         CALC_VC1_PROFILE              ,VC-1 Profile register for command wrapper[0]: Simple. - . [1]: Main. - . [2]: Advanced. - . [3]: Reserved. - . - It is effective for VC-1, since DcPrediction manner is defined by it. . - ." "0,1,2,3"
bitfld.long 0x00 5. "   CALC_SORENSON_EN       ,Sorenson Spark setting register. - When CALC_CODEC_TYPE = 3 (H.263) and this flag = 1, then, it becomes Sorenson Spark mode. . - . - For this flag = 1, CALC_H263_ANNEXI must be set to zero. . - ." "0,1"
textline "                                 "
bitfld.long 0x00 2.--4. " CALC_JPG_FORMAT               ,JPEG color mode setting register. - It is effective for JPEG. . - . [0]: 4:4:4 (1 MCU mode). - . [1]: 4:4:4 (2 MCU mode). - . [2]: 4:2:2 (H0 = 2 V0 = 1). - . [3]: 4:2:2 (H0 = 1 V0 = 2). - . [4]: 4:2:0. - . [5]: Reserved...." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--1. "         CALC_PICT_STRUCT              ,Picture Structure setting register[0]: Frame structure. - . [1]: Field structure. - . [2]: MBAFF (MbPair sequence). - . [3]: Reserved. - . - Field structure mode shall be set for interlace field picture. . - . - ..." "0,1,2,3"
group.long 0x14++0x3
line.long 0x00 "CALC_FWDQ_RND_INTRA,CALC3 forward quantization's rounding coefficients and shift offsets for intra MB"
hexmask.long 0x00 7.--31. 1. " CALC_Q_RND_COEF_INTRA         ,Forward quantization's rounding coefficients for intra MB. Hence, for intra MB and fwdQ, Round Coefficient AC[0] = this bit field by command wrapper (Signed 25-bit)."
bitfld.long 0x00 0.--3. "  CALC_Q_SHIFT_ADJ_INTRA        ,It can be applicable for weight matrix used codecs' encoding. If user would like to apply a non-default intra weight matrix and its element is less than that of default value, then the user shall set it. Otherwise, zero..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x18++0x3
line.long 0x00 "CALC_FWDQ_RND_INTER,CALC3 forward quantization's rounding coefficients and shift offsets for inter MB"
hexmask.long 0x00 7.--31. 1. " CALC_Q_RND_COEF_INTER         ,Forward quantization's rounding coefficients for inter MB. Hence, for inter MB and fwdQ, Round Coefficient AC[0] = this bit field by command wrapper (Table 22/23) (Signed 25-bit)."
bitfld.long 0x00 0.--3. "  CALC_Q_SHIFT_ADJ_INTER        ,It can be applicable for weight matrix used codecs' encoding. If user would like to apply a non-default inter weight matrix and its element is less than that of default value, then the user shall set it. Otherwise, zero..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x20++0x3
line.long 0x00 "CALC_FWDQ_RND_INTRA_DC,Round offset value setting for fwd Q, intra and DC coefficient."
hexmask.long 0x00 7.--31. 1. " CALC_Q_RND_COEF_INTRA_DC      ,Forward quantization's rounding coefficients for intra MB and its DC coefficients. Hence, for intra MB, fwdQ and DC coefficients, FwdQ uses it as its rounding coefficient. Fwd Round Coefficient DC[0] = this bit field by ..."
group.long 0x24++0x3
line.long 0x00 "CALC_FWDQ_RND_INTER_DC,Round offset value setting for fwd Q, inter and DC coefficient."
hexmask.long 0x00 7.--31. 1. " CALC_Q_RND_COEF_INTER_DC      ,Forward quantization's rounding coefficients for inter MB and its DC coefficients. Hence, for inter MB, fwdQ and DC coefficients, FwdQ uses it as its rounding coefficient. Round Coefficient DC[0] = this bit field (Table...."
width 0x0B
tree.end
endif
tree "CALC3_MMR_L3_MAINInterconnect"
base ad:0x5A058000
width 24.
rgroup.long 0x0++0x3
line.long 0x00 "CALC_PID,CALC3 PID register"
hexmask.long 0x00 0.--31. 1. " PID                           ,PID of CALC3"
group.long 0x4++0x3
line.long 0x00 "CALC_COUNT,CALC3 cycle counter register"
bitfld.long 0x00 31. " CALC_CE                       ,Cycle counter enable [1]: Active [0]: Not active" "0,1"
bitfld.long 0x00 30. "         CALC_CRST                     ,Counter reset [1]: Reset counter [0]: No effect" "0,1"
hexmask.long.word 0x00 0.--15. 1. "   COUNT                  ,Cycle counter 16-bit counter Cycle counter is increasing during CALC_EN = 1 in CALC_CTRL. It reflects the counter value."
group.long 0x8++0x3
line.long 0x00 "CALC_CTRL,CALC3 control register"
bitfld.long 0x00 0. " CALC_EN                       ,CALC3 module status and start bit Write [0]: Ignored Write [1]: Start CALC3 module. Read [0]: Idle Read [1]: Busy" "0,1"
group.long 0xC++0x3
line.long 0x00 "CALC_TEST,CALC3 test register It is only for debug purpose."
bitfld.long 0x00 24. " CALC_CMD_OPECNT               ,MB counter register for MBAFF mode For H.264 MBAFF, this status bit is used for CALC3 core and command wrapper." "0,1"
bitfld.long 0x00 13. "         CALC_CMD_MNG_DIS              ,CALC3 command wrapper function of data management (that is, neighboring pixel copying) disable flag. [0]: Command wrapper's data management enable. [1]: Command wrapper's data management disable." "0,1"
bitfld.long 0x00 12. "   CALC_CMD_GEN_DIS       ,CALC3 command wrapper function of CALC3 core specific command generation disable flag. [0]: Command wrapper's its generation function enable. [1]: Command wrapper's its generation function disable." "0,1"
textline "                                 "
bitfld.long 0x00 6. " CALC_2ND_MB_DIS               ,CALC3 2nd Mb disable flag ( it is effective only for MBAFF ) [1]: 2nd Mb operation for MBAFF is disable for CALC3 core and command wrapper [0]: 2nd Mb operation for MBAFF is enable for CALC3 core and command wrapper" "0,1"
bitfld.long 0x00 5. "         CALC_TIT_DIS                  ,CALC3 transform function disable flag [1]: Transform function is skipped in CALC3 core. [0]: Transform function is enabled in CALC3 core." "0,1"
bitfld.long 0x00 4. "   CALC_QIQ_DIS           ,CALC3 QIQ function disable flag [1]: QIQ function is skipped in CALC3 core. [0]: QIQ function is enabled in CALC3 core." "0,1"
textline "                                 "
bitfld.long 0x00 0. " CALC_CORE_DIS                 ,CALC3 core disable flag. [0]: CALC core enable [1]: CALC core disable" "0,1"
group.long 0x10++0x3
line.long 0x00 "CALC_MODE,CALC3 mode select register"
bitfld.long 0x00 31. " CALC_H263_ANNEXI              ,In H.264[0] : Intra_8x8 Pre-Filter is active.. - . [1] : Intra_8x8 Pre_filter is disabled.. - . - H.263 AnnexI mode set flag . - . - It is effective for H.263 decode only. . - . [0] : H263 Annex I configuration disable f..." "0,1"
bitfld.long 0x00 30. "         CALC_MPEG4_QUANT_TYPE         ,MPEG-4 QuantType set flag - It is effective for MPEG-4 only. . - . [0]: QuantType = 0. - . [1]: QuantType = 1. - . - It is set for the quantization manner, H.263 like (quantType = 0) or MPEG like(quantType = 1). ..." "0,1"
bitfld.long 0x00 29. "   CALC_VC1_NONUNIQUANT   ,VC-1 NonUniformQuantize set flag - It is effective for VC-1 only. . - . [0]: Uniform Quantize. - . [1]: NonUniform Quantize. - . - It is set for the quantization manner, uniform or nonuniform for VC-1. . - . - Based on the cu..." "0,1"
textline "                                 "
bitfld.long 0x00 28. " CALC_VC1_DC_DEF_NONZERO       ,VC-1 DcDefaultNonZero set flag - It is effective for VC-1 only. . - . [0]: DcDefault = 0. - . [1]: DcDefault != 0. - . - It is set for the DC default value for the DC prediction for VC-1. . - . - If (Simple or Main Profi..." "0,1"
bitfld.long 0x00 24.--27. "         CALC_CODEC_TYPE               ,Codec type set register[0]: JPEG. - . [1]: MPEG-1. - . [2]: MPEG-2. - . [3]: H.263. - . [4]: MPEG-4. - . [5]: VC-1. - . [6]: H.264. - . [7]: AVS1.0. - . [8]: Real Video. - . [9]: On2Vp6. - . [10]: On2Vp7. - . [11..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "  CALC_CBPCNT0_INTER_EN  ,CBPControl #0 enable flag for Inter Block[0]: Disable.. - . [1]: Enable.. - . - It is effective for encode only. . - . - For an 8 ? 8 block (without DcTransform) and its block of inter, if all the nonzero coeffs among quantize..." "0,1"
textline "                                 "
bitfld.long 0x00 22. " CALC_CBPCNT0_LUMA_DCTRANS_EN  ,CBPControl #0 enable flag for Luma DC Trans mode[0]: Disable.. - . [1]: Enable.. - . - It is effective for encode and DC transform used in Luma 16 ? 16 block. . - . - When DcTransform is effective for Luma and this flag ..." "0,1"
bitfld.long 0x00 21. "         CALC_CBPCNT0_CHRO_DCTRANS_EN  ,CBPControl #0 enable flag for Chroma DC Trans mode[0]: Disable.. - . [1]: Enable.. - . - It is effective for enc and DC transform used in Cb and Cr blocks. . - . - When DcTransform is effective for Cb/Cr and this..." "0,1"
bitfld.long 0x00 20. "   CALC_CBPCNT0_INTER_THR ,# of abs ones coeffs threshold for CALC_CBPCNT0_INTER_EN - It is effective for CALC_CBPCNT0_INTER_EN = 1 . - . [0]: threshold_0 = 1. - . [1]: threshold_0 = 2. - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " CALC_CBPCNT0_LUMA_DCTRANS_THR ,# of abs ones coeffs threshold for CALC_CBPCNT0_LUMA_DCTRANS_EN - It is effective for CALC_CBPCNT0_LUMA_DCTRANS_EN = 1 . - . [0]: threshold_1 = 1. - . [1]: threshold_1 = 2. - ." "0,1"
bitfld.long 0x00 18. "         CALC_CBPCNT0_CHRO_DCTRANS_THR ,# of abs ones coeffs threshold for CALC_CBPCNT0_CHRO_DCTRANS_EN - It is effective for CALC_CBPCNT0_CHRO_DCTRANS_EN = 1 . - . [0]: threshold_2 = 1. - . [1]: threshold_2 = 2. - ." "0,1"
bitfld.long 0x00 17. "   CALC_CBPCNT1_EN        ,CBP Control #1 enable flag[0]: OFF. - . [1]: ON. - . - It is effective for encode. . - . - If all the inverse transformed coefficients are zeros in the transformed size, the corresponded CBP controls to zero. . - . - Note tha..." "0,1"
textline "                                 "
bitfld.long 0x00 16. " CALC_ENC                      ,Enc or Dec mode flag[0]: Dec. - . [1]: Enc. - . - Note that a part of codecs is supported only for dec. . - . - RealVideo, VP6/7, H.263 AnnexI mode are supported only for dec. . - . - Enc mode is reserved for them. . - ." "0,1"
bitfld.long 0x00 15. "         CALC_MPEG2_QSCLTYPE           ,q_scale_type of MPEG-2 set register for command wrapper. - It is effective for MPEG-2. . - . [0]: q_scale_type = 0. - . [1]: q_scale_type = 1. - ." "0,1"
bitfld.long 0x00 13.--14. "   CALC_MPEG2_INTRADCPREC ,intra_dc_precision of MPEG-2 set register for command wrapper. - It is effective for MPEG-1 and MPEG-2. . - . [0]: intra_dc_precision = 0. - . [1]: intra_dc_precision = 1. - . [2]: intra_dc_precision = 2. - . [3]: intra_dc_pr..." "0,1,2,3"
textline "                                 "
bitfld.long 0x00 12. " CALC_ACPRED_DIS               ,AC prediction disable flag for command wrapper. - It is effective for MPEG-4 and VC-1 enc. . - . [0]: AC prediction estimation enable for enc. - . [1]: AC prediction estimation disable for enc. - . - Note that H.263 Anne..." "0,1"
bitfld.long 0x00 11. "         CALC_H264_CONST_INTRA         ,Constraint intra set of H.264 flag for command wrapper. - It is effective for H.264. . - . [0]: Non constraint intra. - . [1]: constraint intra. - ." "0,1"
bitfld.long 0x00 9.--10. "   CALC_PICTCODINGTYPE    ,Picture coding type set register for command wrapper[0]: I Picture. - . [1]: P Picture. - . [2]: B Picture. - . [3]: Reserved. - . - It is effective for VC-1 and RealVideo. . - . - For VC-1, it defines DcPrediction manner. . ..." "0,1,2,3"
textline "                                 "
bitfld.long 0x00 8. " CALC_RECON_16BIT_EN           ,Reconstruct format flag[0]: 8-bit mode. - . [1]: 16-bit mode. - . - For VC-1 application, it must always be set to 1. . - . - Even for an inter block, CALC3 outputs the reconst data in 16-bit format for its flag of 1. . ..." "0,1"
bitfld.long 0x00 6.--7. "         CALC_VC1_PROFILE              ,VC-1 Profile register for command wrapper[0]: Simple. - . [1]: Main. - . [2]: Advanced. - . [3]: Reserved. - . - It is effective for VC-1, since DcPrediction manner is defined by it. . - ." "0,1,2,3"
bitfld.long 0x00 5. "   CALC_SORENSON_EN       ,Sorenson Spark setting register. - When CALC_CODEC_TYPE = 3 (H.263) and this flag = 1, then, it becomes Sorenson Spark mode. . - . - For this flag = 1, CALC_H263_ANNEXI must be set to zero. . - ." "0,1"
textline "                                 "
bitfld.long 0x00 2.--4. " CALC_JPG_FORMAT               ,JPEG color mode setting register. - It is effective for JPEG. . - . [0]: 4:4:4 (1 MCU mode). - . [1]: 4:4:4 (2 MCU mode). - . [2]: 4:2:2 (H0 = 2 V0 = 1). - . [3]: 4:2:2 (H0 = 1 V0 = 2). - . [4]: 4:2:0. - . [5]: Reserved...." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--1. "         CALC_PICT_STRUCT              ,Picture Structure setting register[0]: Frame structure. - . [1]: Field structure. - . [2]: MBAFF (MbPair sequence). - . [3]: Reserved. - . - Field structure mode shall be set for interlace field picture. . - . - ..." "0,1,2,3"
group.long 0x14++0x3
line.long 0x00 "CALC_FWDQ_RND_INTRA,CALC3 forward quantization's rounding coefficients and shift offsets for intra MB"
hexmask.long 0x00 7.--31. 1. " CALC_Q_RND_COEF_INTRA         ,Forward quantization's rounding coefficients for intra MB. Hence, for intra MB and fwdQ, Round Coefficient AC[0] = this bit field by command wrapper (Signed 25-bit)."
bitfld.long 0x00 0.--3. "  CALC_Q_SHIFT_ADJ_INTRA        ,It can be applicable for weight matrix used codecs' encoding. If user would like to apply a non-default intra weight matrix and its element is less than that of default value, then the user shall set it. Otherwise, zero..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x18++0x3
line.long 0x00 "CALC_FWDQ_RND_INTER,CALC3 forward quantization's rounding coefficients and shift offsets for inter MB"
hexmask.long 0x00 7.--31. 1. " CALC_Q_RND_COEF_INTER         ,Forward quantization's rounding coefficients for inter MB. Hence, for inter MB and fwdQ, Round Coefficient AC[0] = this bit field by command wrapper (Table 22/23) (Signed 25-bit)."
bitfld.long 0x00 0.--3. "  CALC_Q_SHIFT_ADJ_INTER        ,It can be applicable for weight matrix used codecs' encoding. If user would like to apply a non-default inter weight matrix and its element is less than that of default value, then the user shall set it. Otherwise, zero..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x20++0x3
line.long 0x00 "CALC_FWDQ_RND_INTRA_DC,Round offset value setting for fwd Q, intra and DC coefficient."
hexmask.long 0x00 7.--31. 1. " CALC_Q_RND_COEF_INTRA_DC      ,Forward quantization's rounding coefficients for intra MB and its DC coefficients. Hence, for intra MB, fwdQ and DC coefficients, FwdQ uses it as its rounding coefficient. Fwd Round Coefficient DC[0] = this bit field by ..."
group.long 0x24++0x3
line.long 0x00 "CALC_FWDQ_RND_INTER_DC,Round offset value setting for fwd Q, inter and DC coefficient."
hexmask.long 0x00 7.--31. 1. " CALC_Q_RND_COEF_INTER_DC      ,Forward quantization's rounding coefficients for inter MB and its DC coefficients. Hence, for inter MB, fwdQ and DC coefficients, FwdQ uses it as its rounding coefficient. Round Coefficient DC[0] = this bit field (Table...."
width 0x0B
tree.end
tree.end
tree.open "CALC3_BFSW_ICONT"
sif (cpuis("TDA2XIVA"))
tree "CALC3_BFSW_ICONT"
base ad:0xD8200
width 10.
group.long 0x0++0x3
line.long 0x00 "VIEWMODE,View mode register. It selects full-view mode or ping-pong view mode."
hexmask.long 0x00 2.--31. 1. " RSRV            ,Reserved. 0 will be returned at Read, and Write will be ignored."
bitfld.long 0x00 1. "  VIEW_CALCROBUF  ,View mode selection for CALCROBUF. When 0, full view mode is selected. When 1, ping-pong view mode is selected." "0,1"
bitfld.long 0x00 0. "  VIEW_CALCRPBUF  ,View mode selection for CALCRPBUF. When 0, full view mode is selected. When 1, ping-pong view mode is selected." "0,1"
group.long 0x4++0x3
line.long 0x00 "MSTID1,Master ID 1 Register Select master between HWA and DMA bus. This register is used in both full view and ping-pong view mode. This register is for buffers which has two physical memories. This register is affected by direct_switch_pi input port."
hexmask.long 0x00 4.--31. 1. " RSRV            ,Reserved. 0 will be returned at Read, and Write will be ignored."
bitfld.long 0x00 3. "  MST_CALCROBUF_B ,Master selection for CALCROBUF B. This bit is used in only ping-pong view mode. when 0, buffer B is assigned to DMA when 1, buffer B is assigned to HWA. This bit has no effect in full view mode. If direct_switch_pi is high, the value..." "0,1"
bitfld.long 0x00 2. "  MST_CALCROBUF_A ,Master selection for CALCROBUF A. This bit is used in both full view and ping-pong view mode. In full view mode, when 0, both buffer A and B are assigned to DMA when 1, both buffer A and B are assigned to HWA. In ping-pong view mode,..." "0,1"
textline "                   "
bitfld.long 0x00 1. " MST_CALCRPBUF_B ,Master selection for CALCRPBUF B. This bit is used in only ping-pong view mode. when 0, buffer B is assigned to DMA when 1, buffer B is assigned to HWA. This bit has no effect in full view mode. If direct_switch_pi is high, the value ..." "0,1"
bitfld.long 0x00 0. "         MST_CALCRPBUF_A ,Master selection for CALCRPBUF A. This bit is used in both full view and ping-pong view mode. In full view mode, when 0, both buffer A and B are assigned to DMA when 1, both buffer A and B are assigned to HWA. In ping-pong vie..." "0,1"
group.long 0x8++0x3
line.long 0x00 "MSTID2,Master ID 1 Register Select master between HWA and DMA bus. This register is for buffers which has only one physical memory. This register is NOT affected by direct_switch_pi input port."
hexmask.long 0x00 2.--31. 1. " RSRV            ,Reserved. 0 will be returned at Read, and Write will be ignored."
bitfld.long 0x00 1. "  MST_CALCWBUF    ,Master selection for CALCWBUF. when 0, the buffer is assigned to DMA when 1, the buffer is assigned to HWA." "0,1"
bitfld.long 0x00 0. "  MST_CALCQBUF    ,Master selection for CALCQBUF. when 0, the buffer is assigned to DMA when 1, the buffer is assigned to HWA." "0,1"
width 0x0B
tree.end
endif
tree "CALC3_BFSW_L3_MAINInterconnect"
base ad:0x5A058200
width 10.
group.long 0x0++0x3
line.long 0x00 "VIEWMODE,View mode register. It selects full-view mode or ping-pong view mode."
hexmask.long 0x00 2.--31. 1. " RSRV            ,Reserved. 0 will be returned at Read, and Write will be ignored."
bitfld.long 0x00 1. "  VIEW_CALCROBUF  ,View mode selection for CALCROBUF. When 0, full view mode is selected. When 1, ping-pong view mode is selected." "0,1"
bitfld.long 0x00 0. "  VIEW_CALCRPBUF  ,View mode selection for CALCRPBUF. When 0, full view mode is selected. When 1, ping-pong view mode is selected." "0,1"
group.long 0x4++0x3
line.long 0x00 "MSTID1,Master ID 1 Register Select master between HWA and DMA bus. This register is used in both full view and ping-pong view mode. This register is for buffers which has two physical memories. This register is affected by direct_switch_pi input port."
hexmask.long 0x00 4.--31. 1. " RSRV            ,Reserved. 0 will be returned at Read, and Write will be ignored."
bitfld.long 0x00 3. "  MST_CALCROBUF_B ,Master selection for CALCROBUF B. This bit is used in only ping-pong view mode. when 0, buffer B is assigned to DMA when 1, buffer B is assigned to HWA. This bit has no effect in full view mode. If direct_switch_pi is high, the value..." "0,1"
bitfld.long 0x00 2. "  MST_CALCROBUF_A ,Master selection for CALCROBUF A. This bit is used in both full view and ping-pong view mode. In full view mode, when 0, both buffer A and B are assigned to DMA when 1, both buffer A and B are assigned to HWA. In ping-pong view mode,..." "0,1"
textline "                   "
bitfld.long 0x00 1. " MST_CALCRPBUF_B ,Master selection for CALCRPBUF B. This bit is used in only ping-pong view mode. when 0, buffer B is assigned to DMA when 1, buffer B is assigned to HWA. This bit has no effect in full view mode. If direct_switch_pi is high, the value ..." "0,1"
bitfld.long 0x00 0. "         MST_CALCRPBUF_A ,Master selection for CALCRPBUF A. This bit is used in both full view and ping-pong view mode. In full view mode, when 0, both buffer A and B are assigned to DMA when 1, both buffer A and B are assigned to HWA. In ping-pong vie..." "0,1"
group.long 0x8++0x3
line.long 0x00 "MSTID2,Master ID 1 Register Select master between HWA and DMA bus. This register is for buffers which has only one physical memory. This register is NOT affected by direct_switch_pi input port."
hexmask.long 0x00 2.--31. 1. " RSRV            ,Reserved. 0 will be returned at Read, and Write will be ignored."
bitfld.long 0x00 1. "  MST_CALCWBUF    ,Master selection for CALCWBUF. when 0, the buffer is assigned to DMA when 1, the buffer is assigned to HWA." "0,1"
bitfld.long 0x00 0. "  MST_CALCQBUF    ,Master selection for CALCQBUF. when 0, the buffer is assigned to DMA when 1, the buffer is assigned to HWA." "0,1"
width 0x0B
tree.end
tree.end
tree.end
tree.open "IVA_Entropy_Coder_Decoder"
tree.open "ECD3_MMR_ICONT"
sif (cpuis("TDA2XIVA"))
tree "ECD3_MMR_ICONT"
base ad:0xD9800
width 20.
rgroup.long 0x0++0x3
line.long 0x00 "ECD_PID,Product Identification"
hexmask.long 0x00 0.--31. 1. " PID                               ,Displays the product identification code."
group.long 0x4++0x3
line.long 0x00 "ECD_COUNT,Cycle Counter"
bitfld.long 0x00 31. " CNT_EN                            ,Write 0x0: Disable the cycle counter. Write 0x1: Enable the cycle counter. While ECD_COUNT[31] CNT_EN = 0x1 and ECD_CTRL[0] EN = 0x1, the ECD3 increments the value of ECD_COUNT[15:0] COUNT for each cycle." "0,1"
bitfld.long 0x00 30. "           CNT_RST                             ,Resets the cycle counter COUNT value to 0. Write 0x1: Clears COUNT. Write 0x0: No effect. Reads returns 0." "0,1"
hexmask.long.word 0x00 0.--15. 1. "                        COUNT                               ,Displays the current counter value."
group.long 0x8++0x3
line.long 0x00 "ECD_CTRL,Control"
bitfld.long 0x00 20.--23. " CDM_ADD_15_12                     ,Specifies the starting byte address [15:12] of command sequence stored in ECDABUF. Note that LSB 4 bits are fixed to 0 since command codes are to be stored from an 16-byte aligned position. ECD3 reads and executes co..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 12.--19. 1. "          CDM_ADD_11_4                        ,Specifies the starting byte address [11:4] of command sequence stored in ECDABUF. Note that LSB 4 bits are fixed to 0 since command codes are to be stored from an 16-byte aligned position. ECD3 reads and e..."
bitfld.long 0x00 8.--11. "                       CDM_ADD_3_0                         ,Specifies the starting byte address [3:0] of command sequence stored in ECDABUF. Note that LSB 4 bits are fixed to 0 since command codes are to be stored from an 16-byte aligned position. ECD3..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 2. " SSM                               ,0x1: Enable single command mode. In single command mode, the ECD3 core executes only one command." "0,1"
bitfld.long 0x00 1. "           CSB                                 ,Read 0x1: Indicates that ECD3 found an undefined op-code during the last operation, and aborted command processing. Read 0x0: Indicates that the last command processing ended normally with an END command." "0,1"
bitfld.long 0x00 0. "                        EN                                  ,Write 0x1: ECD3 starts operation (command processing), and EN stays 1 until ECD3 ends its operation. When ECD3 ends its operation, EN is turned to 0 by the ECD3. While EN = 1, no write access..." "0,1"
group.long 0xC++0x3
line.long 0x00 "ECD_STAT,ECD Status"
bitfld.long 0x00 30. " EOS_ACK_DIS                       ,Read 0x1: Indicates that the EOS interrupt handshake between ECD3 and SYNCBOX is disabled and the acknowledge signal is ignored. When it is disabled, the ECD3 does not wait for an acknowledge for EOS interrupt. Read ..." "0,1"
bitfld.long 0x00 29. "           ERR_ACK_DIS                         ,Read 0x1: Indicates that the ERR interrupt handshake between ECD3 and SYNCBOX is disabled and the acknowledge signal is ignored. When it is disabled, the ECD3 does not wait for an acknowledge for ERR inte..." "0,1"
bitfld.long 0x00 2. "                        EOS                                 ,Read 0x1: Indicates that the last macroblock is at the end of the slice. Write 0x0: Force to exit busy state while waiting for an acknowledge of EOS interrupt from SYNCBOX." "0,1"
textline "                             "
bitfld.long 0x00 1. " ERR                               ,Read 0x1: Indicates an error was found in the stream while decoding. Write 0x0: Force to exit busy state while waiting for an acknowledge of ERR interrupt from SYNCBOX." "0,1"
bitfld.long 0x00 0. "           BUSY                                ,Read 0x1: Indicates that ECD3 core is busy. This bit is set when EN bit in ECD_CTRL is set and is cleared when END command is executed." "0,1"
group.long 0x10++0x3
line.long 0x00 "SBC_CTRL,Stream Buffer Controller Control"
bitfld.long 0x00 31. " SBC_RST                           ,Resets the Stream Buffer Controller. Write 0x1: Resets all registers of Stream Buffer Controller (SBC) and brings it back to idle state. This has the same effect as hardware reset to SBC, but no effect to other part ..." "0,1"
bitfld.long 0x00 16. "           SBC_CLOSE                           ,Close the bitstream data. When encoding: Write 0x1: Flushes bitstream data in Stream Buffer. Write 0x0: No effect When decoding: Write 0x1: Brings it back to idle state and discard bitstream data in the b..." "0,1"
bitfld.long 0x00 12. "                        SBC_DMA_TRG_B                       ,Start DMA to fill empty page in the Buffer B manually. Write 0x1: Sends a DMA request for Buffer B." "0,1"
textline "                             "
bitfld.long 0x00 8. " SBC_DMA_TRG_A                     ,Start DMA to fill empty page in the Buffer A manually. Write 0x1: Sends a DMA request for Buffer A." "0,1"
bitfld.long 0x00 4. "           SBC_BIT_CNT_RST                     ,Reset bit counter in the Stream Buffer." "0,1"
bitfld.long 0x00 0. "                        SBC_BUFSEL                          ,Selects active buffer between A and B: Write 0x0: Buffer A is selected Write 0x1: Buffer B is selected This bit is ignored if SBC_BUFCFG[24] SBC_DBL = 0. If SBC_BUFCFG[24] SBC_DBL = 0, buffer..." "0,1"
group.long 0x14++0x3
line.long 0x00 "SBC_STAT,Stream Buffer Controller Status"
bitfld.long 0x00 6. " SBC_ST_SRCH                       ,Read 0x1: Indicates that the Stream Buffer Controller searching start code by request from codec engine. This bit is cleared when start code is found or page counter value reaches SBC_SRCH_PG_CNT." "0,1"
bitfld.long 0x00 5. "           SBC_DMA_B                           ,Read 0x1: Indicates that the Stream Buffer Controller is waiting an acknowledge from DMA for buffer B. Write 0x0: Force to exit busy state while waiting for an acknowledge of DMA for buffer B interrupt fr..." "0,1"
bitfld.long 0x00 4. "                        SBC_DMA_A                           ,Read 0x1: Indicates that the Stream Buffer Controller is waiting an acknowledge from DMA for buffer A. Write 0x0: Force to exit busy state while waiting for an acknowledge of DMA for buffer A..." "0,1"
textline "                             "
bitfld.long 0x00 3. " SBC_WR_HLT                        ,Read 0x1: Indicates that the Stream Buffer Controller halted while writing (encoding) and is waiting an acknowledge from DMA. If SBC_WR_HLT = 1, SBC_DMA_A or SBC_DMA_B must also be asserted." "0,1"
bitfld.long 0x00 2. "           SBC_RD_HLT                          ,Read 0x1: Indicates that the Stream Buffer Controller halted while reading (decoding) and is waiting an acknowledge from DMA." "0,1"
bitfld.long 0x00 1. "                        SBC_WR                              ,Read 0x1: Indicates that the Stream Buffer Controller is in writing (encoding) mode." "0,1"
textline "                             "
bitfld.long 0x00 0. " SBC_RD                            ,Read 0x1: Indicates that the Stream Buffer Controller is in reading (decoding) mode." "0,1"
group.long 0x18++0x3
line.long 0x00 "SBC_BUFCFG,Stream Buffer Controller Buffer Configuration"
bitfld.long 0x00 31. " SBC_FLUSH_MODE                    ,SBC FIFO flush mode select for encoding. Write 0x0: Flush FIFO when EOS flag is sent by Codec Engine Write 0x1: Flush FIFO when DONE or EOS flag is sent by Codec Engine. (This is for debug)" "0,1"
bitfld.long 0x00 30. "           SBC_FMO_MODE                        ,SBC FIFO flush mode select for encoding. Write 0x0: Buffer A and B pointers are used for Stream Data access. SBC_A_BITPTR[30:28] FMO_DMA_ID will be ignored. Write 0x1: Buffer A pointer and SBC_A_BITPTR[30..." "0,1"
bitfld.long 0x00 24. "                        SBC_DBL                             ,Enables double buffer mode. Write 0x0: disabled (buffer A only mode) Write 0x1: enabled (buffer A and buffer B)." "0,1"
textline "                             "
bitfld.long 0x00 20.--21. " SBC_PGSZ                          ,Specifies the page size of buffer A and B in the unit of 1024 [byte]. If SBC_PGSZ = 0, it is treated as though SBC_PGSZ = 4 that is, the page size is set to 4096 [byte]." "0,1,2,3"
hexmask.long.word 0x00 4.--17. 1. "           SBC_BUFTOP_17_4                     ,Specifies the base address [17:4] of the bitstream buffer in SL2. Note that the LSB 4 bits are fixed to 0 because of the 128-bit alignment of the buffer area."
bitfld.long 0x00 0.--3. "                     SBC_BUFTOP_3_0                      ,Specifies the base address [3:0] of the bitstream buffer in SL2. Note that the LSB 4 bits are fixed to 0 because of the 128-bit alignment of the buffer area." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x1C++0x3
line.long 0x00 "SBC_A_BITPTR,Stream Buffer Controller A Bit Pointer"
bitfld.long 0x00 28.--30. " FMO_DMA_ID                        ,Indicates the ID number of bitstream data in SL2 memory. The ID number is applied to SBC_FMO_DMA_STAT[7:0] FMO_DMA. This ID is valid when SBC_BUFCFG[30] SBC_FMO_MODE=1." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--25. "           NUM_ZERO_A                          ,Indicates the number of 0 bytes in the past for buffer A. This is used for emulation prevention byte manipulation. Note that the counting 0 bytes in decoding is different from that in encoding. 0 <..." "0,1,2,3"
hexmask.long.word 0x00 8.--21. 1. "                        BYTEPTR_A                           ,Indicates the current byte offset address in Buffer A of the byte containing the next bit in the bitstream. 0 <= BYTEPTR_A < 2 * (page size)."
textline "                             "
bitfld.long 0x00 0.--2. " BITPTR_A                          ,Indicates the next bit position in the byte at BYTEPTR_A. 0 <= BITPTR_A <= 7." "0,1,2,3,4,5,6,7"
group.long 0x20++0x3
line.long 0x00 "SBC_A_DMAPG,Stream Buffer Controller A DMA Page"
hexmask.long.byte 0x00 0.--7. 1. " DMAPG_A                           ,Indicates the page that is being accessed from DMA for bitstream data transferring. If DMA is not accessing to the buffer, this register indicates the page that is currently being accessed from ECD3 core. The state i..."
group.long 0x24++0x3
line.long 0x00 "SBC_B_BITPTR,Stream Buffer Controller B Bit Pointer"
bitfld.long 0x00 24.--25. " NUM_ZERO_B                        ,Indicates the number of 0 bytes in the past for buffer B. This is used for emulation prevention byte manipulation. Note that the counting 0 bytes in decoding is different from that in encoding. 0 <= NUM_ZERO_B..." "0,1,2,3"
hexmask.long.word 0x00 8.--21. 1. "           BYTEPTR_B                           ,Indicates the current byte offset address in Buffer B of the byte containing the next bit in the bitstream. 0 <= BYTEPTR_B < 2 * (page size)."
bitfld.long 0x00 0.--2. "                     BITPTR_B                            ,Indicates the next bit position in the byte at BYTEPTR_B. 0 <= BITPTR_B <= 7." "0,1,2,3,4,5,6,7"
group.long 0x28++0x3
line.long 0x00 "SBC_B_DMAPG,Stream Buffer Controller B DMA Page"
bitfld.long 0x00 0. " DMAPG_B                           ,Indicates the page that is being accessed from DMA for bitstream data transferring. If DMA is not accessing to the buffer, this register indicates the page that is currently being accessed from ECD3 core. This bit is..." "0,1"
group.long 0x2C++0x3
line.long 0x00 "SBC_TTLCNT,Stream Buffer Controller Total Bit Counter"
hexmask.long 0x00 0.--31. 1. " TTLCNT                            ,Displays the total bit count. This counter does not count during start code searching."
group.long 0x30++0x3
line.long 0x00 "SBC_RSDCNT,Stream Buffer Controller Residual Layer Bit Counter"
hexmask.long 0x00 0.--31. 1. " SBC_RSDCNT                        ,Displays the bit count for residual layer. Total bit count - header info = residual data (transform coefficients)"
group.long 0x38++0x3
line.long 0x00 "SBC_SRCH_PG_CNT,Buffer page counter for start code searching."
hexmask.long.word 0x00 0.--15. 1. " SRCH_PG_CNT                       ,ECD3 search start code until the page counter reach this number. If the start code is not found, error pulse is sent to codec engine and codec engine stop operation then generates an error interrupt."
group.long 0x3C++0x3
line.long 0x00 "SBC_FMO_DMA_STAT,FMO_DMA status register"
hexmask.long.byte 0x00 0.--7. 1. " FMO_DMA                           ,Indicates FMO_DMA_ID for stream interrupt at buffer page boundary. FMO_DMA_ID range is 0 to 7. When the interrupt is asserted, corresponding bit is set. Write 0 to clear the flag. Writing 1 does not affect this regis..."
group.long 0x40++0x3
line.long 0x00 "MBPC_PIC_DIM,Picture Dimension"
bitfld.long 0x00 31. " CUR_MBAFF                         ,CUR_MBAFF = 1 indicates that current picture is in H.264 MBAFF mode." "0,1"
hexmask.long.word 0x00 16.--29. 1. "           PIC_H                               ,PIC_H specifies the picture height in macroblocks which is calculated by PIC_H = ((picture height in pixels) + 15)/16. 0 < PIC_H <= 8192. All codec maximum picture height in pixels is 4096 (..."
hexmask.long.word 0x00 0.--13. 1. "                     PIC_W                               ,PIC_W specifies the picture width in macroblocks which is calculated by PIC_W = ((picture width in pixels) + 15)/16. 0 < PIC_W <= 8192. All codec maximum picture width in pixels is..."
group.long 0x50++0x3
line.long 0x00 "MBPC_STAT,MB Position Controller Status"
bitfld.long 0x00 9. " PIC_END_FLAG                      ,PIC_END_FLAG = 1 indicates that the macroblock will be processed is at the end of the picture. (In other words, this field is set to 1 before last MB process execution.)" "0,1"
bitfld.long 0x00 8. "           FIRST_MB_FLAG                       ,FIRST_MB_FLAG = 1 indicates that the macroblock will be processed is the first macroblock in the slice. (In other words, this field is set to 1 after last MB process execution.)" "0,1"
bitfld.long 0x00 4.--7. "                        PIC_BOUND                           ,PIC_BOUND indicates that the picture boundary status of the current macroblock (in case of MBAFF mode, the unit is macroblock-pair). PIC_BOUND[0] = 1 indicates that the left macroblock edge i..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 0.--3. " MB_AVAIL                          ,MB_AVAIL indicates that the availabilities of neighboring macroblocks (in case of MBAFF mode, the unit is macroblock-pair). MB_AVAIL[0] : left macroblock, MB_AVAIL[1] : upper left macroblock, MB_AVAIL[2] : upper macr..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x54++0x3
line.long 0x00 "MBPC_POS,Macroblock Position"
hexmask.long.word 0x00 16.--28. 1. " MB_Y                              ,MB_Y equals the macroblock y-position in the picture. 0 <= MB_Y < PIC_H. All codec maximum MB Y position is 255 except JPEG."
hexmask.long.word 0x00 0.--12. 1. "        MB_X                                ,MB_X equals the macroblock x-position in the picture. 0 <= MB_X < PIC_W. All codec maximum MB X position is 255 except JPEG."
group.long 0x58++0x3
line.long 0x00 "MBPC_PMC,Macroblock Count In Picture"
hexmask.long 0x00 0.--25. 1. " PIC_MB_CNT                        ,PIC_MB_CNT equals the macroblock count in the picture. 0 <= PIC_MB_CNT < (PIC_W * PIC_H)."
group.long 0x5C++0x3
line.long 0x00 "MBPC_SMC,Macroblock Count In Slice"
hexmask.long 0x00 0.--25. 1. " SLC_MB_CNT                        ,SLC_MB_CNT equals the macroblock count in the slice. 0 <= SLC_MB_CNT < (PIC_W * PIC_H)."
group.long 0x64++0x3
line.long 0x00 "DTBC_BP_MB,Data Buffer Controller MB Base Buffer Pointer"
bitfld.long 0x00 28.--31. " BP_MB_UR_15_12                    ,BP_MB_UR specifies the base pointer to the upper macroblock buffer. 0x8000-0x8FFF." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 20.--27. 1. "          BP_MB_UR_11_4                       ,BP_MB_UR specifies the base pointer to the upper macroblock buffer. 0x8000-0x8FFF."
bitfld.long 0x00 16.--19. "                       BP_MB_UR_3_0                        ,BP_MB_UR specifies the base pointer to the upper macroblock buffer. 0x8000-0x8FFF." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 12.--15. " BP_MB_CUR_15_12                   ,BP_MB_CUR specifies the base pointer to the current macroblock buffer. 0x8000-0x8FFF." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 4.--11. 1. "          BP_MB_CUR_11_4                      ,BP_MB_CUR specifies the base pointer to the current macroblock buffer. 0x8000-0x8FFF."
bitfld.long 0x00 0.--3. "                       BP_MB_CUR_3_0                       ,BP_MB_CUR specifies the base pointer to the current macroblock buffer. 0x8000-0x8FFF." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x68++0x3
line.long 0x00 "DTBC_BP_COL,Data Buffer Controller Co-located MB Buffer Base Pointer"
bitfld.long 0x00 28.--31. " BP_COL_B_15_12                    ,BP_COL_B specifies the base pointer to the co-located macroblock buffer B. 0x8000-0x8FFF." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 20.--27. 1. "          BP_COL_B_11_4                       ,BP_COL_B specifies the base pointer to the co-located macroblock buffer B. 0x8000-0x8FFF."
bitfld.long 0x00 16.--19. "                       BP_COL_B_3_0                        ,BP_COL_B specifies the base pointer to the co-located macroblock buffer B. 0x8000-0x8FFF." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 12.--15. " BP_COL_A_15_12                    ,BP_COL_A specifies the base pointer to the co-located macroblock buffer A. 0x8000-0x8FFF." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 4.--11. 1. "          BP_COL_A_11_4                       ,BP_COL_A specifies the base pointer to the co-located macroblock buffer A. 0x8000-0x8FFF."
bitfld.long 0x00 0.--3. "                       BP_COL_A_3_0                        ,BP_COL_A specifies the base pointer to the co-located macroblock buffer A. 0x8000-0x8FFF." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x6C++0x3
line.long 0x00 "DTBC_BP_RSD,Data Buffer Controller Residual Buffer Base Pointer"
bitfld.long 0x00 28.--31. " BP_RSD_15_12                      ,BP_RSD specifies the base pointer to the residual data buffer. 0xE000-0xEFFF." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 20.--27. 1. "          BP_RSD_11_4                         ,BP_RSD specifies the base pointer to the residual data buffer. 0xE000-0xEFFF."
bitfld.long 0x00 16.--19. "                       BP_RSD_3_0                          ,BP_RSD specifies the base pointer to the residual data buffer. 0xE000-0xEFFF." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x70++0x3
line.long 0x00 "DTBC_DP_UL,Data Buffer Controller Data Pointer 0"
bitfld.long 0x00 13.--15. " PTR_MB_UL_15_13                   ,Current pointer [15:13] to the upper left macroblock data in work buffer. This pointer must be written before start ECD3." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 4.--12. 1. "           PTR_MB_UL_12_4                      ,Current pointer [12:4] to the upper left macroblock data in work buffer. This pointer must be written before start ECD3."
bitfld.long 0x00 0.--3. "                     PTR_MB_UL_3_0                       ,Current pointer [3:0] to the upper left macroblock data in work buffer. This pointer must be written before start ECD3." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x74++0x3
line.long 0x00 "DTBC_DP_UU_UR,Data Buffer Controller Data Pointer 1"
bitfld.long 0x00 29.--31. " PTR_MB_UU_15_13                   ,Current pointer [15:13] to the upper macroblock data in work buffer. This pointer must be written before start ECD3." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 20.--28. 1. "           PTR_MB_UU_12_4                      ,Current pointer [12:4] to the upper macroblock data in work buffer. This pointer must be written before start ECD3."
bitfld.long 0x00 16.--19. "                     PTR_MB_UU_3_0                       ,Current pointer [3:0] to the upper macroblock data in work buffer. This pointer must be written before start ECD3." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 13.--15. " PTR_MB_UR_15_13                   ,Current pointer [15:13] to the upper-right macroblock data in work buffer. This pointer must be written before start ECD3." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 4.--12. 1. "           PTR_MB_UR_12_4                      ,Current pointer [12:4] to the upper-right macroblock data in work buffer. This pointer must be written before start ECD3."
bitfld.long 0x00 0.--3. "                     PTR_MB_UR_3_0                       ,Current pointer [3:0] to the upper-right macroblock data in work buffer. This pointer must be written before start ECD3." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x78++0x3
line.long 0x00 "DTBC_DP_LL_CUR,Data Buffer Controller Data Pointer 2"
bitfld.long 0x00 29.--31. " PTR_MB_LL_15_13                   ,Current pointer [15:13] to the left macroblock data in work buffer. This pointer must be written before start ECD3." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 20.--28. 1. "           PTR_MB_LL_12_4                      ,Current pointer [12:4] to the left macroblock data in work buffer. This pointer must be written before start ECD3."
bitfld.long 0x00 16.--19. "                     PTR_MB_LL_3_0                       ,Current pointer [3:0] to the left macroblock data in work buffer. This pointer must be written before start ECD3." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 13.--15. " PTR_MB_CUR_15_13                  ,Current pointer [15:13] to the current macroblock data in work buffer. This pointer must be written before start ECD3." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 4.--12. 1. "           PTR_MB_CUR_12_4                     ,Current pointer [12:4] to the current macroblock data in work buffer. This pointer must be written before start ECD3."
bitfld.long 0x00 0.--3. "                     PTR_MB_CUR_3_0                      ,Current pointer [3:0] to the current macroblock data in work buffer. This pointer must be written before start ECD3." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x84++0x3
line.long 0x00 "DTBC_DP_ULUR2,Data Buffer Controller Data Pointer 5"
bitfld.long 0x00 29.--31. " PTR_MB_UL2_15_13                  ,Current pointer [15:13] to the macroblock left to the upper left macroblock data in work buffer. This pointer is maintained only for On2 (CDC_mode[3:0] MODE = 0x0A). This pointer must be written before start ECD3." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 20.--28. 1. "           PTR_MB_UL2_12_4                     ,Current pointer [12:4] to the macroblock left to the upper left macroblock data in work buffer. This pointer is maintained only for On2 (CDC_mode[3:0] MODE = 0x0A). This pointer must be written before sta..."
bitfld.long 0x00 16.--19. "                     PTR_MB_UL2_3_0                      ,Current pointer [3:0] to the macroblock left to the upper left macroblock data in work buffer. This pointer is maintained only for On2 (CDC_mode[3:0] MODE = 0x0A). This pointer must be written b..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 13.--15. " PTR_MB_UR2_15_13                  ,Current pointer [15:13] to the macroblock right to the upper-right macroblock data in work buffer. This pointer is maintained only for On2 (CDC_mode[3:0] MODE = 0x0A). This pointer must be written before start ECD3." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 4.--12. 1. "           PTR_MB_UR2_12_4                     ,Current pointer [12:4] to the macroblock right to the upper-right macroblock data in work buffer. This pointer is maintained only for On2 (CDC_mode[3:0] MODE = 0x0A). This pointer must be written before s..."
bitfld.long 0x00 0.--3. "                     PTR_MB_UR2_3_0                      ,Current pointer [3:0] to the macroblock right to the upper-right macroblock data in work buffer. This pointer is maintained only for On2 (CDC_mode[3:0] MODE = 0x0A). This pointer must be written..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x88++0x3
line.long 0x00 "DTBC_DP_SLICE,Slice data pointer"
bitfld.long 0x00 13.--15. " PTR_SLICE_15_13                   ,Specifies the pointer [15:13] to slice or picture information data." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 4.--12. 1. "           PTR_SLICE_12_4                      ,Specifies the pointer [12:4] to slice or picture information data."
bitfld.long 0x00 0.--3. "                     PTR_SLICE_3_0                       ,Specifies the pointer [3:0] to slice or picture information data." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x8C++0x3
line.long 0x00 "DTBC_DP_LL2,Data Buffer Controller data pointer"
bitfld.long 0x00 13.--15. " PTR_MB_LL2_15_13                  ,Current pointer [15:13] to the macroblock left to the left macroblock data in work buffer. This pointer is maintained only for On2 (CDC_mode[3:0] MODE = 0x0A). This pointer must be written before start ECD3." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 4.--12. 1. "           PTR_MB_LL2_12_4                     ,Current pointer [12:4] to the macroblock left to the left macroblock data in work buffer. This pointer is maintained only for On2 (CDC_mode[3:0] MODE = 0x0A). This pointer must be written before start ECD3."
bitfld.long 0x00 0.--3. "                     PTR_MB_LL2_3_0                      ,Current pointer [3:0] to the macroblock left to the left macroblock data in work buffer. This pointer is maintained only for On2 (CDC_mode[3:0] MODE = 0x0A). This pointer must be written before ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x90++0x3
line.long 0x00 "DTBC_CUR_MB_SIZE,Current Picture Macro Block element size"
hexmask.long.byte 0x00 4.--11. 1. " CUR_MB_SIZE_11_4                  ,Data element size for Current MB, Upper-right MB in AUX buffer and Upper MB, Current/Left MB in WORK buffer."
bitfld.long 0x00 0.--3. "          CUR_MB_SIZE_3_0                     ,Data element size for Current MB, Upper-right MB in AUX buffer and Upper MB, Current/Left MB in WORK buffer." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA0++0x3
line.long 0x00 "CDC_MODE,Codec Mode (also works as view page)."
bitfld.long 0x00 4. " DIR                               ,Selects the codec direction: Write 0x0: Indicates the codec engine is decoding Write 0x1: Indicates the codec engine is encoding." "0,1"
bitfld.long 0x00 0.--3. "           MODE                                ,Selects the active codec Selected Codec (Selected Codec Engine) - . - . - . - . - . - . - . - . - . - . - ." "JPEG_(JPG),N/A,MPEG-1_(MP1),MPEG-2_(MP2),MPEG-4/H.263_(MP4),VC-1_Advanced_(VC-1),H.264_(H.264),VC-1_Simple/Main_(VC-1),AVS_(AVS),RealVideo_(RV),On2_VP6.VP7_(On2),11,12,13,14,15"
rgroup.long 0xA4++0x3
line.long 0x00 "AVS_STAT,AVS STAT register"
bitfld.long 0x00 31. " STAT_END_OF_SLICE                 ,stat_end_of_vop ECD sets this field to 1 when the current macroblock is the last macroblock in a VOP Once this field is set, ECD keeps this field to 1 until the next macroblock processing is started. ECD resets this ..." "0,1"
bitfld.long 0x00 9. "           ERR_ILL_NEXT_START_CODE_SEARCH      ,err_ill_next_start_code_search If ECD founds error and ECD status is changed into ERR in error detection described in section 8.5., ECD starts to search the next start code search. But if ECD cannot find ..." "0,1"
bitfld.long 0x00 8. "                        ERR_ILL_END_OF_SLICE                ,err_ill_end_of_slice Some encoder wrongly encode EOS. In this case this flag is set to 1 by ECD; otherwise, 0" "0,1"
textline "                             "
bitfld.long 0x00 7. " ERR_ILL_MB_SKIP_RUN               ,err_ill_mb_skip_run If ECD founds decoded mb_skip_run is out of range, this field is set to 1 by ECD; otherwise, 0" "0,1"
bitfld.long 0x00 6. "           ERR_ILL_MB_TYPE                     ,err_ill_mb_type If ECD founds decoded mb_type is out of range, this field is set to 1 by ECD; otherwise, 0" "0,1"
bitfld.long 0x00 5. "                        ERR_ILL_INTRA_CHROMA_PRED_MODE      ,err_ill_intra_chroma_pred_mode If ECD founds decoded intra_chroma_pred_mode is out of range, this field is set to 1 by ECD; otherwise, 0" "0,1"
textline "                             "
bitfld.long 0x00 4. " ERR_ILL_MV_DIFF                   ,err_ill_mv_diff If ECD founds decoded mv_diff is out of range, this field is set to 1 by ECD; otherwise, 0" "0,1"
bitfld.long 0x00 3. "           ERR_ILL_CBP                         ,err_ill_cbp If ECD founds decoded cbp is out of range, this field is set to 1 by ECD; otherwise, 0" "0,1"
bitfld.long 0x00 2. "                        ERR_ILL_MB_QP_DELTA                 ,err_ill_mb_qp_delta If ECD founds decoded mb_qp_delta is out of range, this field is set to 1 by ECD; otherwise, 0." "0,1"
textline "                             "
bitfld.long 0x00 1. " ERR_ILL_COEFF                     ,err_ill_coeff If ECD founds decoded coefficient is out of range, this field is set to 1 by ECD; otherwise, 0" "0,1"
bitfld.long 0x00 0. "           ERR_ILL_EOB                         ,err_ill_eob If ECD cannot found end of block in 64 coefficients, this field is set to 1 by ECD; otherwise, 0." "0,1"
rgroup.long 0xA4++0x3
line.long 0x00 "H264_ERR_STAT,H.264 STAT register"
bitfld.long 0x00 31. " EOS                               ,Read 0x1: Indicates that an EOS was found" "0,1"
bitfld.long 0x00 4. "           SC_ERR                              ,Read 0x1: Indicates that there was an error while searching the next start code. This error can only occur at the EOS where EOS=1." "0,1"
bitfld.long 0x00 3. "                        MV_ERR                              ,Read 0x1: Indicates that motion vector error was found in the last B-Direct motion vector calculation" "0,1"
textline "                             "
bitfld.long 0x00 2. " ALGN_ERR                          ,Read 0x1: Indicates that a zero bit was found in the last CABAC alignment bits" "0,1"
bitfld.long 0x00 1. "           IPCM_ALGN_ERR                       ,Read 0x1: Indicates that a non-zero bit was found in the last I_PCM alignment bits" "0,1"
bitfld.long 0x00 0. "                        SYM_ERR                             ,Read 0x1: Indicates an illegal code word was found in the bitstream" "0,1"
rgroup.long 0xA4++0x3
line.long 0x00 "INT_STATUS,INT STAT register"
bitfld.long 0x00 31. " PRCS_DONE                         ,If encoding or decoding of a picture is finished, an interrupt pulse is asserted and this status bit becomes high. It makes no sense to write 0 to this register bit. 0: not finished. 1: processing done" "0,1"
bitfld.long 0x00 30. "           EOS_DONE                            ,If encoding of decoding of a scan is finished, an interrupt pulse is asserted and this status bit becomes high. It makes no sense to write 0 to this register bit. 0: not finished. 1: processing done" "0,1"
bitfld.long 0x00 2. "                        BLK_COEF_NUM_ERR                    ,If current MCU has a block which has more than 64 coefficients, this error bit becomes high. 0: correct (all blocks inside the current MCU have 64[coef/block]) 1: incorrect (some blocks insid..." "0,1"
textline "                             "
bitfld.long 0x00 1. " RSTRT_INTVL_ERR                   ,If number of MCU between neighbored restart markers is not equal to restart interval, this error bit becomes high. It makes no sense to write 0 to this register bit. 0: no error. 1: restart interval error occurs" "0,1"
bitfld.long 0x00 0. "           VLD_TBL_ERR                         ,If stream data which is out of table is detected, the JPEG core makes this bit high. It makes no sense to write 0 to this register bit. 0: no error. 1: out of table error occurs." "0,1"
rgroup.long 0xA4++0x3
line.long 0x00 "MP2_STAT,MP2 STAT register"
bitfld.long 0x00 31. " STAT_END_OF_SLICE                 ,Showing the current macroblock is the last macroblock in a slice. If STAT_END_OF_SLICE is set to 1, the ECD3 issues int_eos. Host can know whether ERR_ILL_NEXT_START_CODE_SEARCH and ERR_ILL_END_OF_SLICE are happened ..." "0,1"
bitfld.long 0x00 15. "           ERR_DCCOEF_OVERFLOW                 ,Showing the result of dc prediction is overflowed or under flowed" "0,1"
bitfld.long 0x00 14. "                        ERR_ILL_NEXT_START_CODE_SEARCH      ,Showing next start code searching infinite error. In decoding, next start code searching is started when: - the current macroblock is the last macroblock in a slice or - error is found w/star..." "0,1"
textline "                             "
bitfld.long 0x00 13. " ERR_ILL_SLICE_START_POSITION      ,In decoding, showing the following two data is mismatched: - macroblock position derived from slice_vertical_position and macroblock_address_increment - macroblock position in ECD MMR In encoding, this field is fixed..." "0,1"
bitfld.long 0x00 12. "           ERR_ILL_QUANTISER_SCALE_CODE        ,In decoding, decoded quantizer_scale_code is 0. In encoding, this field is fixed to 0" "0,1"
bitfld.long 0x00 11. "                        ERR_ILL_END_OF_SLICE                ,In decoding, EOS cannot be found at the end of picture. In encoding, this field is fixed to 0." "0,1"
textline "                             "
bitfld.long 0x00 10. " ERR_MB_ADDR_INCREMENT             ,In decoding, VLD out of table in macroblock_address_increment. In encoding, this field is fixed to 0." "0,1"
bitfld.long 0x00 9. "           ERR_MB_TYPE                         ,In decoding, VLD out of table in macroblock_type. In encoding, this field is fixed to 0." "0,1"
bitfld.long 0x00 8. "                        ERR_MOTION_CODE                     ,In decoding, VLD out of table in motion_code and dmv. In encoding, this field is fixed to 0." "0,1"
textline "                             "
bitfld.long 0x00 7. " ERR_CBP                           ,In decoding, VLD out of table in coded_block_pattern. In encoding, this field is fixed to 0." "0,1"
bitfld.long 0x00 6. "           ERR_DCT_COEF                        ,In decoding, VLD out of table in DCT coefficient. In encoding, this field is fixed to 0." "0,1"
bitfld.long 0x00 5. "                        ERR_ILL_MBTYPE_D_PIC                ,In decoding, decoded macroblock_type != 1 when D-picture. In encoding, this field is fixed to 0." "0,1"
textline "                             "
bitfld.long 0x00 4. " ERR_ILL_MARKER_CONCEALMENT        ,In decoding, decoded marker_bit != 0 when both the concealment_motion_vector and macroblock_intra are equal to 1. In encoding, this field is fixed to 0." "0,1"
bitfld.long 0x00 3. "           ERR_ILL_MP2_ESCAPE_LVL              ,In decoding, decoded level from MPEG-2 ESCAPE code is 0x000 or 0x800. In encoding, this field is fixed to 0" "0,1"
bitfld.long 0x00 2. "                        ERR_ILL_MP1_ESCAPE_LVL              ,In decoding, decoded level from MPEG-1 ESCAPE code is 0x0000 or 0x8000. In encoding, this field is fixed to 0." "0,1"
textline "                             "
bitfld.long 0x00 1. " ERR_ILL_EOB                       ,In decoding, ECD cannot find EOB, end of block, in a 64 coefficient block. In encoding, this field is fixed to 0." "0,1"
bitfld.long 0x00 0. "           ERR_ILL_EOM                         ,In decoding, ECD cannot find EOM, end of macroblock, at the end of macroblock when picture_type is D-picture. In encoding, this field is fixed to 0." "0,1"
rgroup.long 0xA4++0x3
line.long 0x00 "MP4_STAT,MP4 STAT register"
bitfld.long 0x00 31. " STAT_END_OF_PACKET                ,ECD sets this field to 1 when the current macroblock is the last macroblock in a packet. In the case of data partitioned, ECD issues the last macroblock of data partition 0, 1 and 2. Here, data partition 0 means the ..." "0,1"
bitfld.long 0x00 25. "           ERR_NEXT_START_CODE_SEARCH          ,ECD sets this field to 1 if next start code search is 'failed'. 'Failed' means during next start code search, the search counter is over the limit of the counter which is in ECD3 SBC MMRs. Otherwise, ECD3..." "0,1"
bitfld.long 0x00 24. "                        ERR_PKT_RESYNC_MARKER               ,ECD sets this field to 1 when resync_marker at the beginning of packet header is incorrect. At the beginning of a processing, ECD automatically reset this field to 0. Even if ECD detects this..." "0,1"
textline "                             "
bitfld.long 0x00 23. " ERR_PKT_NEXT_START_CODE           ,ECD sets this field to 1 when next_start_code at the end of VOP is incorrect or start_code at the beginning of slice or at the end of VOP is incorrect. At the beginning of a processing, ECD automatically reset this f..." "0,1"
bitfld.long 0x00 22. "           ERR_PKT_ZERO_BIT                    ,ECD sets this field to 1 when zero_bit at the end of GOB or slice layer is incorrect or emulation_prevention_bit in slice header is incorrect. At the beginning of a processing, ECD automatically reset thi..." "0,1"
bitfld.long 0x00 21. "                        ERR_PKT_MBNUM                       ,ECD sets this field to 1 when macroblock_number in packet header is dropped. At the beginning of a processing, ECD automatically reset this field to 0. Even if ECD detects this error, ECD con..." "0,1"
textline "                             "
bitfld.long 0x00 20. " ERR_PKT_QUANT_SCALE               ,ECD sets this field to 1 when quant_scale in packet header is illegal. At the beginning of a processing, ECD automatically reset this field to 0. Even if ECD detects this error, ECD continues decoding until finishing..." "0,1"
bitfld.long 0x00 19. "           ERR_PKT_TIME                        ,ECD sets this field to 1 when modulo_time or vop_time_increment in packet header is changed. At the beginning of a processing, ECD automatically reset this field to 0. Even if ECD detects this error, ECD ..." "0,1"
bitfld.long 0x00 18. "                        ERR_PKT_MARKER_BIT                  ,ECD sets this field to 1 when marker_bit in packet header is incorrect. At the beginning of a processing, ECD automatically reset this field to 0. Even if ECD detects this error, ECD continue..." "0,1"
textline "                             "
bitfld.long 0x00 17. " ERR_PKT_CHG_VOP_CODING_TYPE       ,ECD sets this field to 1 when vop_coding_type in packet header is changed. At the beginning of a processing, ECD automatically reset this field to 0. Even if ECD detects this error, ECD continues decoding until finis..." "0,1"
bitfld.long 0x00 16. "           ERR_PKT_ILL_VOP_CODING_TYPE         ,ECD sets this field to 1 when vop_coding_type in packet header is illegal. At the beginning of a processing, ECD automatically reset this field to 0. Even if ECD detects this error, ECD continues decoding..." "0,1"
bitfld.long 0x00 15. "                        ERR_PKT_VOP_FCODE                   ,ECD sets this field to 1 when vop_fcode_forward or vop_fcode_backward in packet header is illegal. At the beginning of a processing, ECD automatically reset this field to 0. Even if ECD detec..." "0,1"
textline "                             "
bitfld.long 0x00 14. " ERR_GOB_GOBNUM                    ,ECD sets this field to 1 when gob_number is dropped or macroblock_address in slice header is dropped. At the beginning of a processing, ECD automatically reset this field to 0. Even if ECD detects this error, ECD con..." "0,1"
bitfld.long 0x00 13. "           ERR_GOB_GOB_FRAME_ID                ,ECD sets this field to 1 when gob_frame_id is changed. At the beginning of a processing, ECD automatically reset this field to 0. Even if ECD detects this error, ECD continues decoding until finishing the..." "0,1"
bitfld.long 0x00 12. "                        ERR_GOB_QUANT_SCALE                 ,ECD sets this field to 1 when quant_scale in GOB header is illegal or slice_quantizer_information in slice header is illegal. At the beginning of a processing, ECD automatically resets this f..." "0,1"
textline "                             "
bitfld.long 0x00 11. " ERR_MBHD_MCBPC                    ,ECD sets this field to 1 when mcbpc code is illegal. At the beginning of a processing, ECD automatically reset this field to 0. If ECD detects this error, if data_partitioned is ON, ECD continues decoding the current..." "0,1"
bitfld.long 0x00 10. "           ERR_MBHD_H263_4MV                   ,ECD3 sets this field to 1 if one of the following two conditions is true: - H263_mode is ON, deblocking_filter_mode = 0, no_gob_header = 0, and decoded macroblock type is INTRA4V or INTRA4V_Q. - H263_mode..." "0,1"
bitfld.long 0x00 9. "                        ERR_MBHD_CBPY                       ,ECD sets this field to 1 when cpby code is illegal (non-B-VOP). At the beginning of a processing, ECD automatically reset this field to 0. If ECD detects this error, if data_partitioned is ON..." "0,1"
textline "                             "
bitfld.long 0x00 7. " ERR_MBHD_MB_TYPE                  ,ECD sets this field to 1 when mb_type code is illegal (B-VOP). At the beginning of a processing, ECD automatically reset this field to 0. If ECD detects this error, ECD stops decoding and immediately finishes the cur..." "0,1"
bitfld.long 0x00 6. "           ERR_MBHD_MV_DATA                    ,ECD sets this field to 1 when horizontal_mv_data or vertical_mv_data code is illegal. At the beginning of a processing, ECD automatically reset this field to 0. If ECD detects this error, if data_partitio..." "0,1"
bitfld.long 0x00 5. "                        ERR_BLK_DCT_DC_SIZE                 ,ECD sets this field to 1 when dct_dc_size code is illegal. At the beginning of a processing, ECD automatically reset this field to 0. If ECD detects this error, if data_partitioned is ON, ECD..." "0,1"
textline "                             "
bitfld.long 0x00 4. " ERR_BLK_TCOEF                     ,ECD sets this field to 1 when tcoef code is illegal. At the beginning of a processing, ECD automatically reset this field to 0. If ECD detects this error, ECD stops decoding and immediately finishes the current macro..." "0,1"
bitfld.long 0x00 3. "           ERR_BLK_MARKER_BIT                  ,ECD sets this field to 1 when marker_bit in dct_dc_size, ESCAPE3 or RVLC is incorrect. At the beginning of a processing, ECD automatically reset this field to 0. If ECD detects this error, if data_partiti..." "0,1"
bitfld.long 0x00 2. "                        ERR_BLK_ESCAPE_LEVEL                ,ECD sets this field to 1 when ESCAPE3 level = 0 or 0x800, RVLC ESCAPE level = 0, H.263 DC = 0x00 or 0x80 or H.263 ESCAPE level = 0 or 0x80. At the beginning of a processing, ECD automatically..." "0,1"
textline "                             "
bitfld.long 0x00 1. " ERR_BLK_RVLC_ESCAPE_CODE          ,ECD sets this field to 1 when the last ESCAPE code of RVLC ESCAPE is not '0000s'. At the beginning of a processing, ECD automatically reset this field to 0. If ECD detects this error, ECD stops decoding and immediate..." "0,1"
bitfld.long 0x00 0. "           ERR_BLK_EOB                         ,ECD sets this field to 1 when ECD cannot find EOB in 64 coefficients. At the beginning of a processing, ECD automatically reset this field to 0. If ECD detects this error, ECD stops decoding and immediate..." "0,1"
rgroup.long 0xA4++0x3
line.long 0x00 "VC1_STAT,VC-1 STAT register"
bitfld.long 0x00 31. " INT_EOS                           ,Read 0x1: An end-of-slice symbol was found." "0,1"
bitfld.long 0x00 10. "           WARN_EOS_SYNCMARKER                 ,This issue is raised when ECD3 cannot find syncmarker header syntax even though a single-bit just after decoding last MB is equal to 0." "0,1"
bitfld.long 0x00 9. "                        WARN_EOS_TRAILINGBIT                ,Read 0x1: ECD3 cannot detect the presence of the trailing bit even though the next start code was detected. Even though ECD3 found this defect, the ECD3 will start to search next start code." "0,1"
textline "                             "
bitfld.long 0x00 8. " WARN_MQUANT_OVERFLOW              ,warn_mquant_overflow Read 0x0: MQUANT does not overflow Read 0x1: MQUANT overflow" "0,1"
bitfld.long 0x00 2. "           ERR_EOS                             ,err_eos indicates an error during search processing for next start code." "0,1"
bitfld.long 0x00 1. "                        ERR_VLC_TABLE                       ,err_vlc_table indicates when the following irregular cases happen. - Total RUN of AC coefficient exceeds a limit of block size" "0,1"
textline "                             "
bitfld.long 0x00 0. " ERR_BLK_COEF                      ,err_blk_coef indicates when the following irregular cases happen" "0,1"
rgroup.long 0xA8++0x3
line.long 0x00 "AVS_MASK,AVS MASK register"
bitfld.long 0x00 31. " MASK_STAT_END_OF_SLICE            ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 9. "           MASK_ERR_ILL_NEXT_START_CODE_SEARCH ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 8. "                        MASK_ERR_ILL_END_OF_SLICE           ,Mask flags correspond to status bits" "0,1"
textline "                             "
bitfld.long 0x00 7. " MASK_ERR_ILL_MB_SKIP_RUN          ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 6. "           MASK_ERR_ILL_MB_TYPE                ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 5. "                        MASK_ERR_ILL_INTRA_CHROMA_PRED_MODE ,Mask flags correspond to status bits" "0,1"
textline "                             "
bitfld.long 0x00 4. " MASK_ERR_ILL_MV_DIFF              ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 3. "           MASK_ERR_ILL_CBP                    ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 2. "                        MASK_ERR_ILL_MB_QP_DELTA            ,Mask flags correspond to status bits" "0,1"
textline "                             "
bitfld.long 0x00 1. " MASK_ERR_ILL_COEFF                ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 0. "           MASK_ERR_ILL_EOB                    ,Mask flags correspond to status bits" "0,1"
group.long 0xA8++0x3
line.long 0x00 "H264_ERR_MSK,H.264 MASK register"
bitfld.long 0x00 31. " EOS_MSK                           ,EOS_MSK = 1 enables detection of an EOS." "0,1"
bitfld.long 0x00 4. "           SC_ERR_MSK                          ,SC_ERR_MSK = 0 (fixed) which indicates that int_err will never be issued on detecting start code search error." "0,1"
bitfld.long 0x00 3. "                        MV_ERR_MSK                          ,MV_ERR_MSK = 1 enables detection of mv errors (MV_ERR)." "0,1"
textline "                             "
bitfld.long 0x00 2. " ALGN_ERR_MSK                      ,ALGN_ERR_MSK = 1 enables detection of CABAC alignment bits errors (ALGN_ERR)" "0,1"
bitfld.long 0x00 1. "           IPCM_ALGN_ERR_MSK                   ,IPCM_ALGN_ERR_MSK = 1 enables detection of I_PCM alignment bits errors (IPCM_ALGN_ERR)" "0,1"
bitfld.long 0x00 0. "                        SYM_ERR_MSK                         ,SYM_ERR_MSK = 1 enables detections of all other bitstream errors (SYM_ERR)." "0,1"
rgroup.long 0xA8++0x3
line.long 0x00 "INT_MASK,INT MASK register"
bitfld.long 0x00 31. " PRCS_DONE_MASK                    ,Mask register for prcs_done signal. 0: PRCS_DONE signal disable. 1: PRCS_DONE signal enable" "0,1"
bitfld.long 0x00 30. "           EOS_MASK                            ,Mask register for eos_done pulse signal 0: EOS_DONE signal disable. 1: EOS_DONE signal enable." "0,1"
bitfld.long 0x00 0. "                        VLD_TBL_ERR                         ,Mask register for control of error interrupt assertion. 0: no error interrupt is asserted though condition is hit. 1: error interrupt is asserted if condition is hit." "0,1"
group.long 0xA8++0x3
line.long 0x00 "MP2_MASK,MP2 MASK register"
bitfld.long 0x00 31. " MASK_STAT_END_OF_SLICE            ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 15. "           MASK_ERR_DCCOEF_OVERFLOW            ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 14. "                        MASK_ERR_ILL_NEXT_START_CODE_SEARCH ,Mask flags correspond to status bits" "0,1"
textline "                             "
bitfld.long 0x00 13. " MASK_ERR_ILL_SLICE_START_POSITION ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 12. "           MASK_ERR_ILL_QUANTISER_SCALE_CODE   ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 11. "                        MASK_ERR_ILL_END_OF_SLICE           ,Mask flags correspond to status bits" "0,1"
textline "                             "
bitfld.long 0x00 10. " MASK_ERR_MB_ADDR_INCREMENT        ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 9. "           MASK_ERR_MB_TYPE                    ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 8. "                        MASK_ERR_MOTION_CODE                ,Mask flags correspond to status bits" "0,1"
textline "                             "
bitfld.long 0x00 7. " MASK_ERR_CBP                      ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 6. "           MASK_ERR_DCT_COEF                   ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 5. "                        MASK_ERR_ILL_MBTYPE_D_PIC           ,Mask flags correspond to status bits" "0,1"
textline "                             "
bitfld.long 0x00 4. " MASK_ERR_ILL_MARKER_CONCEALMENT   ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 3. "           MASK_ERR_ILL_MP2_ESCAPE_LVL         ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 2. "                        MASK_ERR_ILL_MP1_ESCAPE_LVL         ,Mask flags correspond to status bits" "0,1"
textline "                             "
bitfld.long 0x00 1. " MASK_ERR_ILL_EOB                  ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 0. "           MASK_ERR_ILL_EOM                    ,Mask flags correspond to status bits" "0,1"
group.long 0xA8++0x3
line.long 0x00 "MP4_MASK,MP4 MASK register"
bitfld.long 0x00 31. " MASK_STAT_END_OF_PACKET           ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 25. "           MASK_ERR_NEXT_START_CODE_SEARCH     ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 24. "                        MASK_ERR_PKT_RESYNC_MARKER          ,Mask flags correspond to status bits" "0,1"
textline "                             "
bitfld.long 0x00 23. " MASK_ERR_PKT_NEXT_START_CODE      ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 22. "           MASK_ERR_PKT_ZERO_BIT               ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 21. "                        MASK_ERR_PKT_MBNUM                  ,Mask flags correspond to status bits" "0,1"
textline "                             "
bitfld.long 0x00 20. " MASK_ERR_PKT_QUANT_SCALE          ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 19. "           MASK_ERR_PKT_TIME                   ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 18. "                        MASK_ERR_PKT_MARKER_BIT             ,Mask flags correspond to status bits" "0,1"
textline "                             "
bitfld.long 0x00 17. " MASK_ERR_PKT_CHG_VOP_CODING_TYPE  ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 16. "           MASK_ERR_PKT_ILL_VOP_CODING_TYPE    ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 15. "                        MASK_ERR_PKT_VOP_FCODE              ,Mask flags correspond to status bits" "0,1"
textline "                             "
bitfld.long 0x00 14. " MASK_ERR_GOB_GOBNUM               ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 13. "           MASK_ERR_GOB_GOB_FRAME_ID           ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 12. "                        MASK_ERR_GOB_QUANT_SCALE            ,Mask flags correspond to status bits" "0,1"
textline "                             "
bitfld.long 0x00 11. " MASK_ERR_MBHD_MCBPC               ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 10. "           MASK_ERR_MBHD_H263_4MV              ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 9. "                        MASK_ERR_MBHD_CBPY                  ,Mask flags correspond to status bits" "0,1"
textline "                             "
bitfld.long 0x00 7. " MASK_ERR_MBHD_MB_TYPE             ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 6. "           MASK_ERR_MBHD_MV_DATA               ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 5. "                        MASK_ERR_BLK_DCT_DC_SIZE            ,Mask flags correspond to status bits" "0,1"
textline "                             "
bitfld.long 0x00 4. " MASK_ERR_BLK_TCOEF                ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 3. "           MASK_ERR_BLK_MARKER_BIT             ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 2. "                        MASK_ERR_BLK_ESCAPE_LEVEL           ,Mask flags correspond to status bits" "0,1"
textline "                             "
bitfld.long 0x00 1. " MASK_ERR_BLK_RVLC_ESCAPE_CODE     ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 0. "           MASK_ERR_BLK_EOB                    ,Mask flags correspond to status bits" "0,1"
group.long 0xA8++0x3
line.long 0x00 "VC1_MASK,VC-1 MASK register"
bitfld.long 0x00 31. " MASK_INT_EOS                      ," "0,1"
bitfld.long 0x00 10. "           MASK_EOS_SYNCMARKER                 ," "0,1"
bitfld.long 0x00 9. "                        MASK_WARN_EOS_TRAILINGBIT           ,Reserved" "0,1"
textline "                             "
bitfld.long 0x00 8. " MASK_MQUANT_OVERFLOW              ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 2. "           MASK_ERR_EOS                        ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 1. "                        MASK_ERR_VLC_TABLE                  ,Mask flags correspond to status bits" "0,1"
textline "                             "
bitfld.long 0x00 0. " MASK_ERR_BLK_COEF                 ,Mask flags correspond to status bits" "0,1"
group.long 0xAC++0x3
line.long 0x00 "AVS_WORK0,AVS WORK0 register"
hexmask.long.word 0x00 16.--29. 1. " SKIPMBCOUNT                       ,SkipMbCount This field specifies SkipMbCount described in AVS standard section 9.3."
bitfld.long 0x00 9. "        SLICE_DATA_RD_EN                    ,Slice data read enable flag 0: slice data is read only at the first macroblock in a slice 1: slice data is read at every macroblocks AVS RTL can reduce the cycle not to read slice data in non-first macrobloc..." "0,1"
bitfld.long 0x00 8. "                        NEXT_START_CODE_SEARCH              ,next_start_code_search This field specifies ECD starts start code search or not when error is occurred. 0: non-search 1: search" "0,1"
group.long 0xAC++0x3
line.long 0x00 "CFG_QP,"
bitfld.long 0x00 31. " MV_FLAG_EN                        ,MV_FLAG_EN =1 enables motion vector and reference index comparison in decoding. If MV_FLAG_EN=1, motion vectors and reference indices are compared and results are reflected to mv_equal_flag_l0/1 and refidx_equal_flag..." "0,1"
bitfld.long 0x00 30. "           H264_RSV                            ,Reserved for future use" "0,1"
bitfld.long 0x00 29. "                        FORCE_SLC_LD                        ,FORCE_SLC_LD = 1 forces slice information data loading from memory for each macroblock process. If this bit is equal to 0, slice information data is loaded only when the current macroblock is..." "0,1"
textline "                             "
bitfld.long 0x00 28. " USE_CABAC                         ,USE_CABAC = 1 indicates that the CABAC is in use for entropy coding. If the value is equal to 0, CAVLC is used. The ECD3 automatically loads the value from slice information onto this register." "0,1"
bitfld.long 0x00 18.--19. "           COL_MB_FMT                          ,COL_MB_FMT indicates the macroblock header format type for the co-located macroblock data. 00b : Bi-16-MV format 01b : 16-MV format 10b : Bi-4-MV format 11b : The reserved ECD3 automatically loads the val..." "0,1,2,3"
bitfld.long 0x00 16.--17. "                        MB_FMT                              ,MB_FMT indicates the macroblock header format type for the current macroblock and neighboring macroblocks in the current picture. 00b : Bi-16-MV format 01b : 16-MV format 10b : Bi-4-MV format..." "0,1,2,3"
textline "                             "
bitfld.long 0x00 8.--13. " QP_DELTA                          ,QP_DELTA is equal to mb_qp_delta of the last macroblock decoded or encoded. This register value is maintained by the ECD3, so that the user does not set up the value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--5. "          QP                                  ,QP is equal to the quantizer parameter for the last macroblock decoded or encoded. This register value is maintained by the ECD3" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0xAC++0x3
line.long 0x00 "JPEG_CTRL,JPEG Control register"
hexmask.long.word 0x00 16.--31. 1. " DC_PRED_Y                         ,Luminance DC prediction value is stored in register. H/W regards this value as previous DC value (source of DC prediction) except in a block just after restart marker. In case other than tests, this register value mu..."
bitfld.long 0x00 8.--10. "        RSTRT_MRKR_CNT                      ,Restart marker counter value (during encoding only) is reflected in this register. In decoding, please ignore." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 1. "                        DC_PRED_RST                         ,If this register bit is high, DC prediction for the first block of the current MCU is not executed. This register bit must be used in case of error recovery, and valid in decoder. In encoder,..." "0,1"
textline "                             "
bitfld.long 0x00 0. " INIT_EN                           ,This bit controls initialization of JPEG core on ECD module. If this bit is high, all counter values are reset and all address pointer for picture configuration data and Huffman code tables are loaded. Please notice ..." "0,1"
group.long 0xAC++0x3
line.long 0x00 "MP2_WORK0,MP2 WORK0 register"
hexmask.long.word 0x00 16.--31. 1. " MB_SKIP_RUN                       ,Specifies the number of macroblocks to be skipped"
bitfld.long 0x00 11. "        START_CODE_SEARCH_FLAG              ,Specifies whether ECD starts searching next start code or not when error is occurred in decoding. 0: Not search next start code 1: Search next start code In encoding, this field must be 0." "0,1"
bitfld.long 0x00 10. "                        MACROBLOCK_MOTION_BACKWARD          ,Specifies macroblock_motion_backward described in MPEG-2 standard section 6.3.17.1." "0,1"
textline "                             "
bitfld.long 0x00 9. " MACROBLOCK_MOTION_FORWARD         ,Specifies macroblock_motion_forward described in MPEG-2 standard section 6.3.17.1." "0,1"
bitfld.long 0x00 0.--4. "           PREV_QUANTISER_SCALE_CODE           ,Specifies previous macroblock's quantizer_scale_code described in MPEG-2 standard section 6.3.16" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xAC++0x3
line.long 0x00 "MP4_WORK0,MP4 WORK0 register"
bitfld.long 0x00 24.--28. " RUNNINGQP                         ,This field is used for reserving runningQp for the next macroblock, not showing the current macroblock's quantizer_scale. At the beginning of a VOP, ECD copies from vop_quant in VOP header information" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 20.--22. "          VOP_FCODE_BACKWARD                  ,These fields specify vop_fcode_forward and vop_fcode_backward updated at packet header. In decoding, at the beginning of a VOP, ECD copies from vop_fcode_forward and vop_fcode_backward in VOP header inform..." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 16.--18. "                        VOP_FCODE_FORWARD                   ,These fields specify vop_fcode_forward and vop_fcode_backward updated at packet header. In decoding, at the beginning of a VOP, ECD copies from vop_fcode_forward and vop_fcode_backward in VOP..." "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 14.--15. " DP_MODE                           ,This field indicates which data is encoding or decoding in data partitioning mode. Host must reset this field to 0 at the beginning of a VOP. ECD updates automatically during a VOP. This field is reset to 0 at the be..." "0,1,2,3"
bitfld.long 0x00 12.--13. "           GOB_FRAME_ID                        ,This field specifies gob_frame_id which is updated at gob header. In decoding, when first_non_empty_header = 1, decoded gob_frame_id in packet header is compared with gob_frame_id in local information, an..." "0,1,2,3"
bitfld.long 0x00 8.--10. "                        INTRA_DC_VLC_THR                    ,This is a 3-bit code that specifies a threshold value of quantizer scale used to switch between two VLC's for coding of Intra DC coefficients. In decoding, at the beginning of a VOP, ECD copi..." "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 7. " FIRST_NON_EMPTY_HEADER            ,This is the flag to indicate the first non empty GOB header or not. In decoding, ECD sets 1 to this field at the beginning of VOP. ECD sets to 0 if ECD encounters the first non-empty GOB header. In encoding, this fie..." "0,1"
bitfld.long 0x00 6. "           MINI_SLICE_HEADER_FLAG              ,In H.263 decoding, this field specifies whether the current slice header is mini slice header or not. After decoding slice header, this field is automatically reset to 0 by the ECD3. 0: non mini slice hea..." "0,1"
bitfld.long 0x00 5. "                        START_CODE_SEARCH_FLAG              ,In decoding, this field specifies whether ECD starts searching next_start_code and resync_marker or not when error is occurred in decoding. 0: Not search next start code and resync marker 1: ..." "0,1"
textline "                             "
bitfld.long 0x00 0.--4. " GOB_NUMBER                        ,In decoding, this field specifies gob_number of the current macroblock. In encoding, this field is not used and must be fixed to 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xAC++0x3
line.long 0x00 "VC1_WORK,VC-1 WORK register"
bitfld.long 0x00 8. " FIXED_LENTH_CODE                  ,Presence of Fixed Length Code (escape mode 3) Setting 1 specifies the first case of escape mode 3 in a frame. This register is cleared when found ESCAPE3. 0: non-first case of escape mode 3 in frame 1: first case of ..." "0,1"
bitfld.long 0x00 7. "           FIXED_TO_ZERO                       ," "0,1"
bitfld.long 0x00 4.--6. "                        RUN_CODE_SIZEOFESCAPE_MODE_3        ,Run code size of escape mode 3 Run code size of escape mode 3 In decoding, this register is automatically updated when presence of fixed length code is cleared to 0" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 0.--3. " LEVEL_CODE_SIZEOFESCAPE_MODE_3    ,Level code size of escape mode 3 Level code size of escape mode 3 In decoding, this register is automatically updated when presence of fixed length code is cleared to 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xB0++0x3
line.long 0x00 "AVS_WORK1,AVS WORK1 register"
hexmask.long.word 0x00 20.--31. 1. " PTR_MVD_15_4                      ,PTR_MVD Start address of temporary MVD info. This value must be multiple of 8."
bitfld.long 0x00 16.--19. "        PTR_MVD_3_0                         ,PTR_MVD Start address of temporary MVD info. This value must be multiple of 8." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 4.--15. 1. "                       PTR_RUNLVL_15_4                     ,PTR_RUNLVL Start address of temporary run level info. This value must be multiple of 8."
textline "                             "
bitfld.long 0x00 0.--3. " PTR_RUNLVL_3_0                    ,PTR_RUNLVL Start address of temporary run level info. This value must be multiple of 8." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xB0++0x3
line.long 0x00 "CDC_VP_4,"
hexmask.long.word 0x00 3.--15. 1. " ACPREDPTR_15_3                    ,ACPREDPTR I picture except simple/main I picture"
group.long 0xB0++0x3
line.long 0x00 "MP2_WORK1,MP2 WORK1 register"
hexmask.long.word 0x00 16.--26. 1. " DCT_DC_PRED1                      ,In decoding, this value specifies dct_dc_pred[1] described in MPEG-2 standard section 7.2.1. In encoding, this value is fixed to 0"
hexmask.long.word 0x00 0.--10. 1. "        DCT_DC_PRED0                        ,In decoding, this value specifies dct_dc_pred[0] described in MPEG-2 standard section 7.2.1. In encoding, this value is fixed to 0"
group.long 0xB0++0x3
line.long 0x00 "MP4_WORK1,MP4 WORK1 register"
hexmask.long.word 0x00 16.--29. 1. " SKIPRUN                           ,In the case of B-VOP decoding, if decoded macroblock_number in video_packet_header > the macroblock address counter, ECD notices the macroblocks from the macroblock address counter to macroblock_number -1 woul..."
hexmask.long.byte 0x00 8.--15. 1. "        SLICE_Y                             ,In data partitioning, this field shows the position of the first macroblock in a slice. Otherwise, this field must be 0. This is for data partitioning to recover the first macroblock position after texture e..."
hexmask.long.byte 0x00 0.--7. 1. "                       SLICE_X                             ,In data partitioning, this field shows the position of the first macroblock in a slice. Otherwise, this field must be 0. This is for data partitioning to recover the first macroblock position ..."
group.long 0xB0++0x3
line.long 0x00 "SKIP_RUN,"
hexmask.long.word 0x00 0.--15. 1. " SKIP_RUN_NB                       ,SKIP_RUN_NB indicates the number of skipped macroblocks left in CAVLC. This register is maintained by the ECD3."
group.long 0xB0++0x3
line.long 0x00 "VLC_HUFFPTR_DC,Pointers to Huffman table for VLC DC components"
bitfld.long 0x00 29.--31. " VLCHUFFPTR_DC_CHROMA_31_29        ,Indicating start address of Huffman table for VLC DC Chroma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 19.--28. 1. "           VLCHUFFPTR_DC_CHROMA_28_19          ,Indicating start address of Huffman table for VLC DC Chroma. The address value must be aligned to 64-bit word boundary"
bitfld.long 0x00 16.--18. "                     VLCHUFFPTR_DC_CHROMA_18_16          ,Indicating start address of Huffman table for VLC DC Chroma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 13.--15. " VLCHUFFPTR_DC_LUMA_15_13          ,Indicating start address of Huffman table for VLC DC-luma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 3.--12. 1. "           VLCHUFFPTR_DC_LUMA_12_3             ,Indicating start address of Huffman table for VLC DC-luma. The address value must be aligned to 64-bit word boundary"
bitfld.long 0x00 0.--2. "                     VLCHUFFPTR_DC_LUMA_2_0              ,Indicating start address of Huffman table for VLC DC-luma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
group.long 0xB4++0x3
line.long 0x00 "CABAC_REG,"
bitfld.long 0x00 29. " PRE_SKIP                          ,PRE_SKIP = 1 indicates that both top and bottom macroblocks in MB-AFF mode decoding are skipped. This flag is not used in encoding or in CAVLC mode" "0,1"
bitfld.long 0x00 28. "           FIRST_BIT                           ,FIRST_BIT = 1 indicates that the next bit put by CABAC is the first bit since the last CABAC initialization. This register is automatically set by CABAC encoder. This flag is ignored in decoding or in CAV..." "0,1"
hexmask.long.word 0x00 16.--25. 1. "                        C_LOW_OFST                          ,C_LOW_OFST is equal to codILow in encoding, and codIOffset in decoding. codILow shall be in the range of [0x000, 0x3FF], and codIOffset in [0x000, 0x1FF]. This field is ignored in CAVLC"
textline "                             "
hexmask.long.word 0x00 0.--8. 1. " C_RNG                             ,C_RNG is equal to codIRange. This field is ignored in CAVLC"
group.long 0xB4++0x3
line.long 0x00 "CDC_VP_5,"
hexmask.long.word 0x00 3.--15. 1. " OVERFLAGPTR_15_3                  ,OVERFLAGPTR I picture except simple/main I picture"
group.long 0xB4++0x3
line.long 0x00 "MP2_WORK2,MP2 WORK2 register"
hexmask.long.word 0x00 0.--10. 1. " DCT_DC_PRED2                      ,In decoding, this value specifies dct_dc_pred[2] described in MPEG-2 standard section 7.2.1. In encoding, this value is fixed to 0"
group.long 0xB4++0x3
line.long 0x00 "MP4_WORK2,MP4 WORK2 register"
hexmask.long.word 0x00 16.--29. 1. " SLICE_MBADDR                      ,In data partition decoding, this field shows the macroblock address of the first macroblock in the current slice. ECD updates this field at the beginning of a slice. The value is used to recover the first macroblock ..."
bitfld.long 0x00 0.--1. "        GOB_MBROW                           ,In the case h263_mode = 1 and decoding, this field shows the vertical position of current macroblock in a slice or GOB. For example gob_mbrow = 0 means the current macroblock is in the first row of the curre..." "0,1,2,3"
group.long 0xB4++0x3
line.long 0x00 "VLC_HUFFPTR_AC,Pointers to Huffman table for VLC AC components"
bitfld.long 0x00 29.--31. " VLCHUFFPTR_AC_CHROMA_31_29        ,Indicating start address of Huffman table for VLC AC Chroma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 19.--28. 1. "           VLCHUFFPTR_AC_CHROMA_28_19          ,Indicating start address of Huffman table for VLC AC Chroma. The address value must be aligned to 64-bit word boundary"
bitfld.long 0x00 16.--18. "                     VLCHUFFPTR_AC_CHROMA_18_16          ,Indicating start address of Huffman table for VLC AC Chroma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 13.--15. " VLCHUFFPTR_AC_LUMA_15_13          ,Indicating start address of Huffman table for VLC AC-luma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 3.--12. 1. "           VLCHUFFPTR_AC_LUMA_12_3             ,Indicating start address of Huffman table for VLC AC-luma. The address value must be aligned to 64-bit word boundary"
bitfld.long 0x00 0.--2. "                     VLCHUFFPTR_AC_LUMA_2_0              ,Indicating start address of Huffman table for VLC AC-luma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
group.long 0xB8++0x3
line.long 0x00 "CDC_VP_6,"
hexmask.long.word 0x00 3.--15. 1. " MVMODEPTR_15_3                    ,MVMODEPTR Progressive P picture"
group.long 0xB8++0x3
line.long 0x00 "MP2_WORK3,MP2 WORK3 register"
hexmask.long.word 0x00 16.--31. 1. " PMV1                              ,Specifies PMV[0][0][1] described in MPEG-2 standard section 7.6.3. They are half-pel precision"
hexmask.long.word 0x00 0.--15. 1. "        PMV0                                ,Specifies PMV[0[0][0] described in MPEG-2 standard section 7.6.3. They are half-pel precision"
group.long 0xB8++0x3
line.long 0x00 "MP4_WORK3,"
bitfld.long 0x00 13.--14. " PTR_MVD_14_13                     ,This field specifies temporary MVD data pointer. Temporary MVD data must be located at ECDWBUF" "0,1,2,3"
hexmask.long.word 0x00 4.--12. 1. "           PTR_MVD_12_4                        ,This field specifies temporary MVD data pointer. Temporary MVD data must be located at ECDWBUF"
bitfld.long 0x00 0.--3. "                     PTR_MVD_3_0                         ,This field specifies temporary MVD data pointer. Temporary MVD data must be located at ECDWBUF" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xB8++0x3
line.long 0x00 "SYM_CNT,"
hexmask.long 0x00 0.--31. 1. " SYM_CNT_NB                        ,SYM_CNT_NB is equal to the total number of CABAC bin symbols encoded since the last CABAC initialization. This register is reset to 0 when H.264 core is invoked for a first macroblock in a slice. This register is not..."
group.long 0xB8++0x3
line.long 0x00 "UVLD_CTRL_TBPTR_DC,Pointers to control table for UVLD DC components"
bitfld.long 0x00 29.--31. " UVLD_CTRL_DC_CHROMA_31_29         ,Indicating start address of control table for UVLD DC-chroma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 19.--28. 1. "           UVLD_CTRL_DC_CHROMA_28_19           ,Indicating start address of control table for UVLD DC-chroma. The address value must be aligned to 64-bit word boundary"
bitfld.long 0x00 16.--18. "                     UVLD_CTRL_DC_CHROMA_18_16           ,Indicating start address of control table for UVLD DC-chroma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 13.--15. " UVLD_CTRL_DC_LUMA_15_13           ,Indicating start address of control table for UVLD DC-luma. The address value must be aligned to 64-bit word boundary." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 3.--12. 1. "           UVLD_CTRL_DC_LUMA_12_3              ,Indicating start address of control table for UVLD DC-luma. The address value must be aligned to 64-bit word boundary."
bitfld.long 0x00 0.--2. "                     UVLD_CTRL_DC_LUMA_2_0               ,Indicating start address of control table for UVLD DC-luma. The address value must be aligned to 64-bit word boundary." "0,1,2,3,4,5,6,7"
group.long 0xBC++0x3
line.long 0x00 "BITS_OSTD,"
hexmask.long 0x00 0.--31. 1. " BITS_OSTD_NB                      ,BITS_OSTD_NB is equal to the total number of outstanding bits in CABAC encoder. This register is not used in decoding or in CAVLC mode. This register is maintained by the ECD3"
group.long 0xBC++0x3
line.long 0x00 "CDC_VP_7,"
hexmask.long.word 0x00 3.--15. 1. " SKIPMBPTR_15_3                    ,SKIPMBPTR Progressive P/B picture, Interlace Frame P/B picture"
group.long 0xBC++0x3
line.long 0x00 "MP2_WORK4,MP2 WORK4 register"
hexmask.long.word 0x00 16.--31. 1. " PMV4                              ,Specifies PMV[0][1][1] described in MPEG-2 standard section 7.6.3. They are half-pel precision"
hexmask.long.word 0x00 0.--15. 1. "        PMV3                                ,Specifies PMV[0][1][0] described in MPEG-2 standard section 7.6.3. They are half-pel precision"
group.long 0xBC++0x3
line.long 0x00 "MP4_WORK4,MP4 WORK4 register"
hexmask.long.word 0x00 16.--31. 1. " MVP01                             ,MVP[0][1]: Motion Vector Predictors for B-VOP (field forward top motion vector predictor)"
hexmask.long.word 0x00 0.--15. 1. "        MVP00                               ,MVP[0][0]: Motion Vector Predictors for B-VOP (field forward top motion vector predictor)"
group.long 0xBC++0x3
line.long 0x00 "UVLD_CTRL_TBPTR_AC,Pointers to control table for UVLD AC components"
bitfld.long 0x00 29.--31. " UVLD_CTRL_AC_CHROMA_31_29         ,Indicating start address of control table for UVLD AC-chroma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 19.--28. 1. "           UVLD_CTRL_AC_CHROMA_28_19           ,Indicating start address of control table for UVLD AC-chroma. The address value must be aligned to 64-bit word boundary"
bitfld.long 0x00 16.--18. "                     UVLD_CTRL_AC_CHROMA_18_16           ,Indicating start address of control table for UVLD AC-chroma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 13.--15. " UVLD_CTRL_AC_LUMA_15_13           ,Indicating start address of control table for UVLD AC-luma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 3.--12. 1. "           UVLD_CTRL_AC_LUMA_12_3              ,Indicating start address of control table for UVLD AC-luma. The address value must be aligned to 64-bit word boundary"
bitfld.long 0x00 0.--2. "                     UVLD_CTRL_AC_LUMA_2_0               ,Indicating start address of control table for UVLD AC-luma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
group.long 0xC0++0x3
line.long 0x00 "CDC_VP_8,"
hexmask.long.word 0x00 3.--15. 1. " DIRECTPT_15_3                     ,DIRECTPTR Progressive B picture, Interlace Frame B picture"
group.long 0xC0++0x3
line.long 0x00 "MP2_WORK5,MP2 WORK5 register"
hexmask.long.word 0x00 16.--31. 1. " PMV6                              ,Specifies PMV[1][0][1] described in MPEG-2 standard section 7.6.3. They are half-pel precision"
hexmask.long.word 0x00 0.--15. 1. "        PMV5                                ,Specifies PMV[1][0][0] described in MPEG-2 standard section 7.6.3. They are half-pel precision"
group.long 0xC0++0x3
line.long 0x00 "MP4_WORK5,MP4 WORK5 register"
hexmask.long.word 0x00 16.--31. 1. " MVP11                             ,MVP[1][1]: Motion Vector Predictors for B-VOP (field forward bottom motion vector predictor)"
hexmask.long.word 0x00 0.--15. 1. "        MVP10                               ,MVP[1][0]: Motion Vector Predictors for B-VOP (field forward bottom motion vector predictor)"
group.long 0xC0++0x3
line.long 0x00 "MVD_CUR_PTR,"
bitfld.long 0x00 29.--31. " DP_MVD_CUR_1_15_13                ,DP_MVD_CUR_1 specifies the pointer to motion vector delta data for bottom macroblock of the current macroblock pair. This register is updated by the ECD3 for each macroblock. This register is used only when in MBAFF ..." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 19.--28. 1. "           DP_MVD_CUR_1_12_3                   ,DP_MVD_CUR_1 specifies the pointer to motion vector delta data for bottom macroblock of the current macroblock pair. This register is updated by the ECD3 for each macroblock. This register is used only wh..."
bitfld.long 0x00 16.--18. "                     DP_MVD_CUR_1_2_0                    ,DP_MVD_CUR_1 specifies the pointer to motion vector delta data for bottom macroblock of the current macroblock pair. This register is updated by the ECD3 for each macroblock. This register is us..." "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 13.--15. " DP_MVD_CUR_0_15_13                ,DP_MVD_CUR_0 specifies the pointer to motion vector delta data for the current macroblock or top macroblock of the current macroblock pair. This register is updated by the ECD3 for each macroblock" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 3.--12. 1. "           DP_MVD_CUR_0_12_3                   ,DP_MVD_CUR_0 specifies the pointer to motion vector delta data for the current macroblock or top macroblock of the current macroblock pair. This register is updated by the ECD3 for each macroblock"
bitfld.long 0x00 0.--2. "                     DP_MVD_CUR_0_2_0                    ,DP_MVD_CUR_0 specifies the pointer to motion vector delta data for the current macroblock or top macroblock of the current macroblock pair. This register is updated by the ECD3 for each macroblock" "0,1,2,3,4,5,6,7"
group.long 0xC0++0x3
line.long 0x00 "UVLD_CODE_TBPTR_DC,Pointers to code table for UVLD DC components"
bitfld.long 0x00 29.--31. " UVLD_CODE_DC_CHROMA31_29          ,Indicating start address of code table for UVLD DC-chroma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 19.--28. 1. "           UVLD_CODE_DC_CHROMA_28_19           ,Indicating start address of code table for UVLD DC-chroma. The address value must be aligned to 64-bit word boundary"
bitfld.long 0x00 16.--18. "                     UVLD_CODE_DC_CHROMA_18_16           ,Indicating start address of code table for UVLD DC-chroma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 13.--15. " UVLD_CODE_DC_LUMA_15_13           ,Indicating start address of code table for UVLD DC-luma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 3.--12. 1. "           UVLD_CODE_DC_LUMA_12_3              ,Indicating start address of code table for UVLD DC-luma. The address value must be aligned to 64-bit word boundary"
bitfld.long 0x00 0.--2. "                     UVLD_CODE_DC_LUMA_2_0               ,Indicating start address of code table for UVLD DC-luma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
group.long 0xC4++0x3
line.long 0x00 "CDC_VP_9,"
hexmask.long.word 0x00 3.--15. 1. " FIELDTXPTR_31_3                   ,FIELDTXPTR Interlace Frame I picture"
group.long 0xC4++0x3
line.long 0x00 "MP2_WORK6,MP2 WORK6 register"
hexmask.long.word 0x00 16.--31. 1. " PMV8                              ,Specifies PMV[1][1][1] described in MPEG-2 standard section 7.6.3. They are half-pel precision"
hexmask.long.word 0x00 0.--15. 1. "        PMV7                                ,Specifies PMV[1][1][0] described in MPEG-2 standard section 7.6.3. They are half-pel precision"
group.long 0xC4++0x3
line.long 0x00 "MP4_WORK6,MP4 WORK6 register"
hexmask.long.word 0x00 16.--31. 1. " MVP21                             ,MVP[2][1]: Motion Vector Predictors for B-VOP (field backward top motion vector predictor)"
hexmask.long.word 0x00 0.--15. 1. "        MVP20                               ,MVP[2][0]: Motion Vector Predictors for B-VOP (field backward top motion vector predictor)"
group.long 0xC4++0x3
line.long 0x00 "MVD_LFT_PTR,"
bitfld.long 0x00 29.--31. " DP_MVD_LFT_1_15_13                ,DP_MVD_LFT_1 specifies the pointer to motion vector delta data for bottom macroblock of the left macroblock pair. This register is updated by the ECD3 for each macroblock. This register is used only when in MBAFF mode" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 19.--28. 1. "           DP_MVD_LFT_1_12_3                   ,DP_MVD_LFT_1 specifies the pointer to motion vector delta data for bottom macroblock of the left macroblock pair. This register is updated by the ECD3 for each macroblock. This register is used only when ..."
bitfld.long 0x00 16.--18. "                     DP_MVD_LFT_1_2_0                    ,DP_MVD_LFT_1 specifies the pointer to motion vector delta data for bottom macroblock of the left macroblock pair. This register is updated by the ECD3 for each macroblock. This register is used ..." "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 13.--15. " DP_MVD_LFT_0_15_13                ,DP_MVD_LFT_0 specifies the pointer to motion vector delta data for the left macroblock or top macroblock of the left macroblock pair. This register is updated by the ECD3 for each macroblock" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 3.--12. 1. "           DP_MVD_LFT_0_12_3                   ,DP_MVD_LFT_0 specifies the pointer to motion vector delta data for the left macroblock or top macroblock of the left macroblock pair. This register is updated by the ECD3 for each macroblock"
bitfld.long 0x00 0.--2. "                     DP_MVD_LFT_0_2_0                    ,DP_MVD_LFT_0 specifies the pointer to motion vector delta data for the left macroblock or top macroblock of the left macroblock pair. This register is updated by the ECD3 for each macroblock" "0,1,2,3,4,5,6,7"
group.long 0xC4++0x3
line.long 0x00 "UVLD_CODE_TBPTR_AC,Pointers to code table for UVLD AC components"
bitfld.long 0x00 29.--31. " UVLD_CODE_AC_CHROMA_31_29         ,Indicating start address of code table for UVLD AC Chroma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 19.--28. 1. "           UVLD_CODE_AC_CHROMA_28_19           ,Indicating start address of code table for UVLD AC Chroma. The address value must be aligned to 64-bit word boundary"
bitfld.long 0x00 16.--18. "                     UVLD_CODE_AC_CHROMA_18_16           ,Indicating start address of code table for UVLD AC Chroma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 13.--15. " UVLD_CODE_AC_LUMA_15_13           ,Indicating start address of code table for UVLD AC-luma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 3.--12. 1. "           UVLD_CODE_AC_LUMA_12_3              ,Indicating start address of code table for UVLD AC-luma. The address value must be aligned to 64-bit word boundary"
bitfld.long 0x00 0.--2. "                     UVLD_CODE_AC_LUMA_2_0               ,Indicating start address of code table for UVLD AC-luma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
group.long 0xC8++0x3
line.long 0x00 "CDC_VP_A,"
hexmask.long.word 0x00 3.--15. 1. " FWDBITPTR_15_3                    ,FWDBITPTR Interlace Field B picture"
group.long 0xC8++0x3
line.long 0x00 "MP4_WORK7,MP4 WORK7 register"
hexmask.long.word 0x00 16.--31. 1. " MVP31                             ,MVP[3][1]: Motion Vector Predictors for B-VOP (field backward bottom motion vector predictor)"
hexmask.long.word 0x00 0.--15. 1. "        MVP30                               ,MVP[3][0]: Motion Vector Predictors for B-VOP (field backward bottom motion vector predictor)"
group.long 0xC8++0x3
line.long 0x00 "UVLD_TBL_TYPE,Setting for UVLD code table"
bitfld.long 0x00 29. " UVLD_AC_CHROMA                    ,Indicating type of UVLD code table for AC-chroma data. 0: zero-leading. 1: one-leading." "0,1"
bitfld.long 0x00 24.--28. "           UVLD_AC_CHROMA_LEN_MAX              ,This data defines maximum code length of universal VLD code table for AC-chroma. The ECD H/W checks this value only in decoder of RAM mode. Maximum value is 16 (0x10), which is restriction of JPEG standard." "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 21. "               UVLD_AC_LUMA                        ,Indicating type of UVLD code table for AC-luma data. 0: zero-leading. 1: one-leading" "0,1"
textline "                             "
bitfld.long 0x00 16.--20. " UVLD_AC_LUMA_LEN_MAX              ,This data defines maximum code length of universal VLD code table for AC-luma. The ECD H/W checks this value only in decoder of RAM mode." "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 13. "  UVLD_DC_CHROMA                      ,Indicating type of UVLD code table for DC-chroma data. 0: zero-leading. 1: one-leading" "0,1"
bitfld.long 0x00 8.--12. "                        UVLD_DC_CHROMA_LEN_MAX              ,This data defines maximum code length of universal VLD code table for DC-chroma. The ECD H/W checks this value only in decoder of RAM mode. Maximum value is 16 (0x10), which is restriction of..." "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
textline "                             "
bitfld.long 0x00 5. " UVLD_DC_LUMA                      ,Indicating type of UVLD code table for DC-luma data. 0: zero-leading 1: one-leading" "0,1"
bitfld.long 0x00 0.--4. "           UVLD_DC_LUMA_LEN_MAX                ,This data defines maximum code length of universal VLD code table for DC-luma. The ECD H/W checks this value only in decoder of RAM mode. Maximum value is 16 (0x10), which is restriction of JPEG standard." "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
group.long 0xCC++0x3
line.long 0x00 "DC_PRED_CHROMA,JPEG DC PRED Chroma register - TI internal"
hexmask.long.word 0x00 16.--31. 1. " DC_PRED_CB                        ,Chrominance (Cb) DC prediction value is stored in register. H/W regards this value as previous DC value (source of DC prediction) except in a block just after restart marker. In case other than TI internal test, this..."
hexmask.long.word 0x00 0.--15. 1. "        DC_PRED_CR                          ,Chrominance (Cr) DC prediction value is stored in register. H/W regards this value as previous DC value (source of DC prediction) except in a block just after restart marker. In case other than TI internal t..."
rgroup.long 0xF0++0x3
line.long 0x00 "CMDP_GPR0,Command Processor General Purpose Register 0"
hexmask.long 0x00 0.--31. 1. " GPR0                              ,Command Processor General purpose registers (GPR0, GPR1, and GPR2) are 32-bit registers which can be used freely. They are accessible through these addresses."
rgroup.long 0xF4++0x3
line.long 0x00 "CMDP_GPR1,Command Processor General Purpose Register 1"
hexmask.long 0x00 0.--31. 1. " GPR1                              ,Command Processor General purpose registers (GPR0, GPR1, and GPR2) are 32-bit registers which can be used freely. They are accessible through these addresses."
rgroup.long 0xF8++0x3
line.long 0x00 "CMDP_GPR2,Command Processor General Purpose Register 2"
hexmask.long 0x00 0.--31. 1. " GPR2                              ,Command Processor General purpose registers (GPR0, GPR1, and GPR2) are 32-bit registers which can be used freely. They are accessible through these addresses."
width 0x0B
tree.end
endif
tree "ECD3_MMR_L3_MAINInterconnect"
base ad:0x5A059800
width 20.
rgroup.long 0x0++0x3
line.long 0x00 "ECD_PID,Product Identification"
hexmask.long 0x00 0.--31. 1. " PID                               ,Displays the product identification code."
group.long 0x4++0x3
line.long 0x00 "ECD_COUNT,Cycle Counter"
bitfld.long 0x00 31. " CNT_EN                            ,Write 0x0: Disable the cycle counter. Write 0x1: Enable the cycle counter. While ECD_COUNT[31] CNT_EN = 0x1 and ECD_CTRL[0] EN = 0x1, the ECD3 increments the value of ECD_COUNT[15:0] COUNT for each cycle." "0,1"
bitfld.long 0x00 30. "           CNT_RST                             ,Resets the cycle counter COUNT value to 0. Write 0x1: Clears COUNT. Write 0x0: No effect. Reads returns 0." "0,1"
hexmask.long.word 0x00 0.--15. 1. "                        COUNT                               ,Displays the current counter value."
group.long 0x8++0x3
line.long 0x00 "ECD_CTRL,Control"
bitfld.long 0x00 20.--23. " CDM_ADD_15_12                     ,Specifies the starting byte address [15:12] of command sequence stored in ECDABUF. Note that LSB 4 bits are fixed to 0 since command codes are to be stored from an 16-byte aligned position. ECD3 reads and executes co..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 12.--19. 1. "          CDM_ADD_11_4                        ,Specifies the starting byte address [11:4] of command sequence stored in ECDABUF. Note that LSB 4 bits are fixed to 0 since command codes are to be stored from an 16-byte aligned position. ECD3 reads and e..."
bitfld.long 0x00 8.--11. "                       CDM_ADD_3_0                         ,Specifies the starting byte address [3:0] of command sequence stored in ECDABUF. Note that LSB 4 bits are fixed to 0 since command codes are to be stored from an 16-byte aligned position. ECD3..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 2. " SSM                               ,0x1: Enable single command mode. In single command mode, the ECD3 core executes only one command." "0,1"
bitfld.long 0x00 1. "           CSB                                 ,Read 0x1: Indicates that ECD3 found an undefined op-code during the last operation, and aborted command processing. Read 0x0: Indicates that the last command processing ended normally with an END command." "0,1"
bitfld.long 0x00 0. "                        EN                                  ,Write 0x1: ECD3 starts operation (command processing), and EN stays 1 until ECD3 ends its operation. When ECD3 ends its operation, EN is turned to 0 by the ECD3. While EN = 1, no write access..." "0,1"
group.long 0xC++0x3
line.long 0x00 "ECD_STAT,ECD Status"
bitfld.long 0x00 30. " EOS_ACK_DIS                       ,Read 0x1: Indicates that the EOS interrupt handshake between ECD3 and SYNCBOX is disabled and the acknowledge signal is ignored. When it is disabled, the ECD3 does not wait for an acknowledge for EOS interrupt. Read ..." "0,1"
bitfld.long 0x00 29. "           ERR_ACK_DIS                         ,Read 0x1: Indicates that the ERR interrupt handshake between ECD3 and SYNCBOX is disabled and the acknowledge signal is ignored. When it is disabled, the ECD3 does not wait for an acknowledge for ERR inte..." "0,1"
bitfld.long 0x00 2. "                        EOS                                 ,Read 0x1: Indicates that the last macroblock is at the end of the slice. Write 0x0: Force to exit busy state while waiting for an acknowledge of EOS interrupt from SYNCBOX." "0,1"
textline "                             "
bitfld.long 0x00 1. " ERR                               ,Read 0x1: Indicates an error was found in the stream while decoding. Write 0x0: Force to exit busy state while waiting for an acknowledge of ERR interrupt from SYNCBOX." "0,1"
bitfld.long 0x00 0. "           BUSY                                ,Read 0x1: Indicates that ECD3 core is busy. This bit is set when EN bit in ECD_CTRL is set and is cleared when END command is executed." "0,1"
group.long 0x10++0x3
line.long 0x00 "SBC_CTRL,Stream Buffer Controller Control"
bitfld.long 0x00 31. " SBC_RST                           ,Resets the Stream Buffer Controller. Write 0x1: Resets all registers of Stream Buffer Controller (SBC) and brings it back to idle state. This has the same effect as hardware reset to SBC, but no effect to other part ..." "0,1"
bitfld.long 0x00 16. "           SBC_CLOSE                           ,Close the bitstream data. When encoding: Write 0x1: Flushes bitstream data in Stream Buffer. Write 0x0: No effect When decoding: Write 0x1: Brings it back to idle state and discard bitstream data in the b..." "0,1"
bitfld.long 0x00 12. "                        SBC_DMA_TRG_B                       ,Start DMA to fill empty page in the Buffer B manually. Write 0x1: Sends a DMA request for Buffer B." "0,1"
textline "                             "
bitfld.long 0x00 8. " SBC_DMA_TRG_A                     ,Start DMA to fill empty page in the Buffer A manually. Write 0x1: Sends a DMA request for Buffer A." "0,1"
bitfld.long 0x00 4. "           SBC_BIT_CNT_RST                     ,Reset bit counter in the Stream Buffer." "0,1"
bitfld.long 0x00 0. "                        SBC_BUFSEL                          ,Selects active buffer between A and B: Write 0x0: Buffer A is selected Write 0x1: Buffer B is selected This bit is ignored if SBC_BUFCFG[24] SBC_DBL = 0. If SBC_BUFCFG[24] SBC_DBL = 0, buffer..." "0,1"
group.long 0x14++0x3
line.long 0x00 "SBC_STAT,Stream Buffer Controller Status"
bitfld.long 0x00 6. " SBC_ST_SRCH                       ,Read 0x1: Indicates that the Stream Buffer Controller searching start code by request from codec engine. This bit is cleared when start code is found or page counter value reaches SBC_SRCH_PG_CNT." "0,1"
bitfld.long 0x00 5. "           SBC_DMA_B                           ,Read 0x1: Indicates that the Stream Buffer Controller is waiting an acknowledge from DMA for buffer B. Write 0x0: Force to exit busy state while waiting for an acknowledge of DMA for buffer B interrupt fr..." "0,1"
bitfld.long 0x00 4. "                        SBC_DMA_A                           ,Read 0x1: Indicates that the Stream Buffer Controller is waiting an acknowledge from DMA for buffer A. Write 0x0: Force to exit busy state while waiting for an acknowledge of DMA for buffer A..." "0,1"
textline "                             "
bitfld.long 0x00 3. " SBC_WR_HLT                        ,Read 0x1: Indicates that the Stream Buffer Controller halted while writing (encoding) and is waiting an acknowledge from DMA. If SBC_WR_HLT = 1, SBC_DMA_A or SBC_DMA_B must also be asserted." "0,1"
bitfld.long 0x00 2. "           SBC_RD_HLT                          ,Read 0x1: Indicates that the Stream Buffer Controller halted while reading (decoding) and is waiting an acknowledge from DMA." "0,1"
bitfld.long 0x00 1. "                        SBC_WR                              ,Read 0x1: Indicates that the Stream Buffer Controller is in writing (encoding) mode." "0,1"
textline "                             "
bitfld.long 0x00 0. " SBC_RD                            ,Read 0x1: Indicates that the Stream Buffer Controller is in reading (decoding) mode." "0,1"
group.long 0x18++0x3
line.long 0x00 "SBC_BUFCFG,Stream Buffer Controller Buffer Configuration"
bitfld.long 0x00 31. " SBC_FLUSH_MODE                    ,SBC FIFO flush mode select for encoding. Write 0x0: Flush FIFO when EOS flag is sent by Codec Engine Write 0x1: Flush FIFO when DONE or EOS flag is sent by Codec Engine. (This is for debug)" "0,1"
bitfld.long 0x00 30. "           SBC_FMO_MODE                        ,SBC FIFO flush mode select for encoding. Write 0x0: Buffer A and B pointers are used for Stream Data access. SBC_A_BITPTR[30:28] FMO_DMA_ID will be ignored. Write 0x1: Buffer A pointer and SBC_A_BITPTR[30..." "0,1"
bitfld.long 0x00 24. "                        SBC_DBL                             ,Enables double buffer mode. Write 0x0: disabled (buffer A only mode) Write 0x1: enabled (buffer A and buffer B)." "0,1"
textline "                             "
bitfld.long 0x00 20.--21. " SBC_PGSZ                          ,Specifies the page size of buffer A and B in the unit of 1024 [byte]. If SBC_PGSZ = 0, it is treated as though SBC_PGSZ = 4 that is, the page size is set to 4096 [byte]." "0,1,2,3"
hexmask.long.word 0x00 4.--17. 1. "           SBC_BUFTOP_17_4                     ,Specifies the base address [17:4] of the bitstream buffer in SL2. Note that the LSB 4 bits are fixed to 0 because of the 128-bit alignment of the buffer area."
bitfld.long 0x00 0.--3. "                     SBC_BUFTOP_3_0                      ,Specifies the base address [3:0] of the bitstream buffer in SL2. Note that the LSB 4 bits are fixed to 0 because of the 128-bit alignment of the buffer area." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x1C++0x3
line.long 0x00 "SBC_A_BITPTR,Stream Buffer Controller A Bit Pointer"
bitfld.long 0x00 28.--30. " FMO_DMA_ID                        ,Indicates the ID number of bitstream data in SL2 memory. The ID number is applied to SBC_FMO_DMA_STAT[7:0] FMO_DMA. This ID is valid when SBC_BUFCFG[30] SBC_FMO_MODE=1." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--25. "           NUM_ZERO_A                          ,Indicates the number of 0 bytes in the past for buffer A. This is used for emulation prevention byte manipulation. Note that the counting 0 bytes in decoding is different from that in encoding. 0 <..." "0,1,2,3"
hexmask.long.word 0x00 8.--21. 1. "                        BYTEPTR_A                           ,Indicates the current byte offset address in Buffer A of the byte containing the next bit in the bitstream. 0 <= BYTEPTR_A < 2 * (page size)."
textline "                             "
bitfld.long 0x00 0.--2. " BITPTR_A                          ,Indicates the next bit position in the byte at BYTEPTR_A. 0 <= BITPTR_A <= 7." "0,1,2,3,4,5,6,7"
group.long 0x20++0x3
line.long 0x00 "SBC_A_DMAPG,Stream Buffer Controller A DMA Page"
hexmask.long.byte 0x00 0.--7. 1. " DMAPG_A                           ,Indicates the page that is being accessed from DMA for bitstream data transferring. If DMA is not accessing to the buffer, this register indicates the page that is currently being accessed from ECD3 core. The state i..."
group.long 0x24++0x3
line.long 0x00 "SBC_B_BITPTR,Stream Buffer Controller B Bit Pointer"
bitfld.long 0x00 24.--25. " NUM_ZERO_B                        ,Indicates the number of 0 bytes in the past for buffer B. This is used for emulation prevention byte manipulation. Note that the counting 0 bytes in decoding is different from that in encoding. 0 <= NUM_ZERO_B..." "0,1,2,3"
hexmask.long.word 0x00 8.--21. 1. "           BYTEPTR_B                           ,Indicates the current byte offset address in Buffer B of the byte containing the next bit in the bitstream. 0 <= BYTEPTR_B < 2 * (page size)."
bitfld.long 0x00 0.--2. "                     BITPTR_B                            ,Indicates the next bit position in the byte at BYTEPTR_B. 0 <= BITPTR_B <= 7." "0,1,2,3,4,5,6,7"
group.long 0x28++0x3
line.long 0x00 "SBC_B_DMAPG,Stream Buffer Controller B DMA Page"
bitfld.long 0x00 0. " DMAPG_B                           ,Indicates the page that is being accessed from DMA for bitstream data transferring. If DMA is not accessing to the buffer, this register indicates the page that is currently being accessed from ECD3 core. This bit is..." "0,1"
group.long 0x2C++0x3
line.long 0x00 "SBC_TTLCNT,Stream Buffer Controller Total Bit Counter"
hexmask.long 0x00 0.--31. 1. " TTLCNT                            ,Displays the total bit count. This counter does not count during start code searching."
group.long 0x30++0x3
line.long 0x00 "SBC_RSDCNT,Stream Buffer Controller Residual Layer Bit Counter"
hexmask.long 0x00 0.--31. 1. " SBC_RSDCNT                        ,Displays the bit count for residual layer. Total bit count - header info = residual data (transform coefficients)"
group.long 0x38++0x3
line.long 0x00 "SBC_SRCH_PG_CNT,Buffer page counter for start code searching."
hexmask.long.word 0x00 0.--15. 1. " SRCH_PG_CNT                       ,ECD3 search start code until the page counter reach this number. If the start code is not found, error pulse is sent to codec engine and codec engine stop operation then generates an error interrupt."
group.long 0x3C++0x3
line.long 0x00 "SBC_FMO_DMA_STAT,FMO_DMA status register"
hexmask.long.byte 0x00 0.--7. 1. " FMO_DMA                           ,Indicates FMO_DMA_ID for stream interrupt at buffer page boundary. FMO_DMA_ID range is 0 to 7. When the interrupt is asserted, corresponding bit is set. Write 0 to clear the flag. Writing 1 does not affect this regis..."
group.long 0x40++0x3
line.long 0x00 "MBPC_PIC_DIM,Picture Dimension"
bitfld.long 0x00 31. " CUR_MBAFF                         ,CUR_MBAFF = 1 indicates that current picture is in H.264 MBAFF mode." "0,1"
hexmask.long.word 0x00 16.--29. 1. "           PIC_H                               ,PIC_H specifies the picture height in macroblocks which is calculated by PIC_H = ((picture height in pixels) + 15)/16. 0 < PIC_H <= 8192. All codec maximum picture height in pixels is 4096 (..."
hexmask.long.word 0x00 0.--13. 1. "                     PIC_W                               ,PIC_W specifies the picture width in macroblocks which is calculated by PIC_W = ((picture width in pixels) + 15)/16. 0 < PIC_W <= 8192. All codec maximum picture width in pixels is..."
group.long 0x50++0x3
line.long 0x00 "MBPC_STAT,MB Position Controller Status"
bitfld.long 0x00 9. " PIC_END_FLAG                      ,PIC_END_FLAG = 1 indicates that the macroblock will be processed is at the end of the picture. (In other words, this field is set to 1 before last MB process execution.)" "0,1"
bitfld.long 0x00 8. "           FIRST_MB_FLAG                       ,FIRST_MB_FLAG = 1 indicates that the macroblock will be processed is the first macroblock in the slice. (In other words, this field is set to 1 after last MB process execution.)" "0,1"
bitfld.long 0x00 4.--7. "                        PIC_BOUND                           ,PIC_BOUND indicates that the picture boundary status of the current macroblock (in case of MBAFF mode, the unit is macroblock-pair). PIC_BOUND[0] = 1 indicates that the left macroblock edge i..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 0.--3. " MB_AVAIL                          ,MB_AVAIL indicates that the availabilities of neighboring macroblocks (in case of MBAFF mode, the unit is macroblock-pair). MB_AVAIL[0] : left macroblock, MB_AVAIL[1] : upper left macroblock, MB_AVAIL[2] : upper macr..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x54++0x3
line.long 0x00 "MBPC_POS,Macroblock Position"
hexmask.long.word 0x00 16.--28. 1. " MB_Y                              ,MB_Y equals the macroblock y-position in the picture. 0 <= MB_Y < PIC_H. All codec maximum MB Y position is 255 except JPEG."
hexmask.long.word 0x00 0.--12. 1. "        MB_X                                ,MB_X equals the macroblock x-position in the picture. 0 <= MB_X < PIC_W. All codec maximum MB X position is 255 except JPEG."
group.long 0x58++0x3
line.long 0x00 "MBPC_PMC,Macroblock Count In Picture"
hexmask.long 0x00 0.--25. 1. " PIC_MB_CNT                        ,PIC_MB_CNT equals the macroblock count in the picture. 0 <= PIC_MB_CNT < (PIC_W * PIC_H)."
group.long 0x5C++0x3
line.long 0x00 "MBPC_SMC,Macroblock Count In Slice"
hexmask.long 0x00 0.--25. 1. " SLC_MB_CNT                        ,SLC_MB_CNT equals the macroblock count in the slice. 0 <= SLC_MB_CNT < (PIC_W * PIC_H)."
group.long 0x64++0x3
line.long 0x00 "DTBC_BP_MB,Data Buffer Controller MB Base Buffer Pointer"
bitfld.long 0x00 28.--31. " BP_MB_UR_15_12                    ,BP_MB_UR specifies the base pointer to the upper macroblock buffer. 0x8000-0x8FFF." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 20.--27. 1. "          BP_MB_UR_11_4                       ,BP_MB_UR specifies the base pointer to the upper macroblock buffer. 0x8000-0x8FFF."
bitfld.long 0x00 16.--19. "                       BP_MB_UR_3_0                        ,BP_MB_UR specifies the base pointer to the upper macroblock buffer. 0x8000-0x8FFF." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 12.--15. " BP_MB_CUR_15_12                   ,BP_MB_CUR specifies the base pointer to the current macroblock buffer. 0x8000-0x8FFF." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 4.--11. 1. "          BP_MB_CUR_11_4                      ,BP_MB_CUR specifies the base pointer to the current macroblock buffer. 0x8000-0x8FFF."
bitfld.long 0x00 0.--3. "                       BP_MB_CUR_3_0                       ,BP_MB_CUR specifies the base pointer to the current macroblock buffer. 0x8000-0x8FFF." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x68++0x3
line.long 0x00 "DTBC_BP_COL,Data Buffer Controller Co-located MB Buffer Base Pointer"
bitfld.long 0x00 28.--31. " BP_COL_B_15_12                    ,BP_COL_B specifies the base pointer to the co-located macroblock buffer B. 0x8000-0x8FFF." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 20.--27. 1. "          BP_COL_B_11_4                       ,BP_COL_B specifies the base pointer to the co-located macroblock buffer B. 0x8000-0x8FFF."
bitfld.long 0x00 16.--19. "                       BP_COL_B_3_0                        ,BP_COL_B specifies the base pointer to the co-located macroblock buffer B. 0x8000-0x8FFF." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 12.--15. " BP_COL_A_15_12                    ,BP_COL_A specifies the base pointer to the co-located macroblock buffer A. 0x8000-0x8FFF." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 4.--11. 1. "          BP_COL_A_11_4                       ,BP_COL_A specifies the base pointer to the co-located macroblock buffer A. 0x8000-0x8FFF."
bitfld.long 0x00 0.--3. "                       BP_COL_A_3_0                        ,BP_COL_A specifies the base pointer to the co-located macroblock buffer A. 0x8000-0x8FFF." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x6C++0x3
line.long 0x00 "DTBC_BP_RSD,Data Buffer Controller Residual Buffer Base Pointer"
bitfld.long 0x00 28.--31. " BP_RSD_15_12                      ,BP_RSD specifies the base pointer to the residual data buffer. 0xE000-0xEFFF." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 20.--27. 1. "          BP_RSD_11_4                         ,BP_RSD specifies the base pointer to the residual data buffer. 0xE000-0xEFFF."
bitfld.long 0x00 16.--19. "                       BP_RSD_3_0                          ,BP_RSD specifies the base pointer to the residual data buffer. 0xE000-0xEFFF." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x70++0x3
line.long 0x00 "DTBC_DP_UL,Data Buffer Controller Data Pointer 0"
bitfld.long 0x00 13.--15. " PTR_MB_UL_15_13                   ,Current pointer [15:13] to the upper left macroblock data in work buffer. This pointer must be written before start ECD3." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 4.--12. 1. "           PTR_MB_UL_12_4                      ,Current pointer [12:4] to the upper left macroblock data in work buffer. This pointer must be written before start ECD3."
bitfld.long 0x00 0.--3. "                     PTR_MB_UL_3_0                       ,Current pointer [3:0] to the upper left macroblock data in work buffer. This pointer must be written before start ECD3." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x74++0x3
line.long 0x00 "DTBC_DP_UU_UR,Data Buffer Controller Data Pointer 1"
bitfld.long 0x00 29.--31. " PTR_MB_UU_15_13                   ,Current pointer [15:13] to the upper macroblock data in work buffer. This pointer must be written before start ECD3." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 20.--28. 1. "           PTR_MB_UU_12_4                      ,Current pointer [12:4] to the upper macroblock data in work buffer. This pointer must be written before start ECD3."
bitfld.long 0x00 16.--19. "                     PTR_MB_UU_3_0                       ,Current pointer [3:0] to the upper macroblock data in work buffer. This pointer must be written before start ECD3." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 13.--15. " PTR_MB_UR_15_13                   ,Current pointer [15:13] to the upper-right macroblock data in work buffer. This pointer must be written before start ECD3." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 4.--12. 1. "           PTR_MB_UR_12_4                      ,Current pointer [12:4] to the upper-right macroblock data in work buffer. This pointer must be written before start ECD3."
bitfld.long 0x00 0.--3. "                     PTR_MB_UR_3_0                       ,Current pointer [3:0] to the upper-right macroblock data in work buffer. This pointer must be written before start ECD3." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x78++0x3
line.long 0x00 "DTBC_DP_LL_CUR,Data Buffer Controller Data Pointer 2"
bitfld.long 0x00 29.--31. " PTR_MB_LL_15_13                   ,Current pointer [15:13] to the left macroblock data in work buffer. This pointer must be written before start ECD3." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 20.--28. 1. "           PTR_MB_LL_12_4                      ,Current pointer [12:4] to the left macroblock data in work buffer. This pointer must be written before start ECD3."
bitfld.long 0x00 16.--19. "                     PTR_MB_LL_3_0                       ,Current pointer [3:0] to the left macroblock data in work buffer. This pointer must be written before start ECD3." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 13.--15. " PTR_MB_CUR_15_13                  ,Current pointer [15:13] to the current macroblock data in work buffer. This pointer must be written before start ECD3." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 4.--12. 1. "           PTR_MB_CUR_12_4                     ,Current pointer [12:4] to the current macroblock data in work buffer. This pointer must be written before start ECD3."
bitfld.long 0x00 0.--3. "                     PTR_MB_CUR_3_0                      ,Current pointer [3:0] to the current macroblock data in work buffer. This pointer must be written before start ECD3." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x84++0x3
line.long 0x00 "DTBC_DP_ULUR2,Data Buffer Controller Data Pointer 5"
bitfld.long 0x00 29.--31. " PTR_MB_UL2_15_13                  ,Current pointer [15:13] to the macroblock left to the upper left macroblock data in work buffer. This pointer is maintained only for On2 (CDC_mode[3:0] MODE = 0x0A). This pointer must be written before start ECD3." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 20.--28. 1. "           PTR_MB_UL2_12_4                     ,Current pointer [12:4] to the macroblock left to the upper left macroblock data in work buffer. This pointer is maintained only for On2 (CDC_mode[3:0] MODE = 0x0A). This pointer must be written before sta..."
bitfld.long 0x00 16.--19. "                     PTR_MB_UL2_3_0                      ,Current pointer [3:0] to the macroblock left to the upper left macroblock data in work buffer. This pointer is maintained only for On2 (CDC_mode[3:0] MODE = 0x0A). This pointer must be written b..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 13.--15. " PTR_MB_UR2_15_13                  ,Current pointer [15:13] to the macroblock right to the upper-right macroblock data in work buffer. This pointer is maintained only for On2 (CDC_mode[3:0] MODE = 0x0A). This pointer must be written before start ECD3." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 4.--12. 1. "           PTR_MB_UR2_12_4                     ,Current pointer [12:4] to the macroblock right to the upper-right macroblock data in work buffer. This pointer is maintained only for On2 (CDC_mode[3:0] MODE = 0x0A). This pointer must be written before s..."
bitfld.long 0x00 0.--3. "                     PTR_MB_UR2_3_0                      ,Current pointer [3:0] to the macroblock right to the upper-right macroblock data in work buffer. This pointer is maintained only for On2 (CDC_mode[3:0] MODE = 0x0A). This pointer must be written..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x88++0x3
line.long 0x00 "DTBC_DP_SLICE,Slice data pointer"
bitfld.long 0x00 13.--15. " PTR_SLICE_15_13                   ,Specifies the pointer [15:13] to slice or picture information data." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 4.--12. 1. "           PTR_SLICE_12_4                      ,Specifies the pointer [12:4] to slice or picture information data."
bitfld.long 0x00 0.--3. "                     PTR_SLICE_3_0                       ,Specifies the pointer [3:0] to slice or picture information data." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x8C++0x3
line.long 0x00 "DTBC_DP_LL2,Data Buffer Controller data pointer"
bitfld.long 0x00 13.--15. " PTR_MB_LL2_15_13                  ,Current pointer [15:13] to the macroblock left to the left macroblock data in work buffer. This pointer is maintained only for On2 (CDC_mode[3:0] MODE = 0x0A). This pointer must be written before start ECD3." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 4.--12. 1. "           PTR_MB_LL2_12_4                     ,Current pointer [12:4] to the macroblock left to the left macroblock data in work buffer. This pointer is maintained only for On2 (CDC_mode[3:0] MODE = 0x0A). This pointer must be written before start ECD3."
bitfld.long 0x00 0.--3. "                     PTR_MB_LL2_3_0                      ,Current pointer [3:0] to the macroblock left to the left macroblock data in work buffer. This pointer is maintained only for On2 (CDC_mode[3:0] MODE = 0x0A). This pointer must be written before ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x90++0x3
line.long 0x00 "DTBC_CUR_MB_SIZE,Current Picture Macro Block element size"
hexmask.long.byte 0x00 4.--11. 1. " CUR_MB_SIZE_11_4                  ,Data element size for Current MB, Upper-right MB in AUX buffer and Upper MB, Current/Left MB in WORK buffer."
bitfld.long 0x00 0.--3. "          CUR_MB_SIZE_3_0                     ,Data element size for Current MB, Upper-right MB in AUX buffer and Upper MB, Current/Left MB in WORK buffer." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA0++0x3
line.long 0x00 "CDC_MODE,Codec Mode (also works as view page)."
bitfld.long 0x00 4. " DIR                               ,Selects the codec direction: Write 0x0: Indicates the codec engine is decoding Write 0x1: Indicates the codec engine is encoding." "0,1"
bitfld.long 0x00 0.--3. "           MODE                                ,Selects the active codec Selected Codec (Selected Codec Engine) - . - . - . - . - . - . - . - . - . - . - ." "JPEG_(JPG),N/A,MPEG-1_(MP1),MPEG-2_(MP2),MPEG-4/H.263_(MP4),VC-1_Advanced_(VC-1),H.264_(H.264),VC-1_Simple/Main_(VC-1),AVS_(AVS),RealVideo_(RV),On2_VP6.VP7_(On2),11,12,13,14,15"
rgroup.long 0xA4++0x3
line.long 0x00 "AVS_STAT,AVS STAT register"
bitfld.long 0x00 31. " STAT_END_OF_SLICE                 ,stat_end_of_vop ECD sets this field to 1 when the current macroblock is the last macroblock in a VOP Once this field is set, ECD keeps this field to 1 until the next macroblock processing is started. ECD resets this ..." "0,1"
bitfld.long 0x00 9. "           ERR_ILL_NEXT_START_CODE_SEARCH      ,err_ill_next_start_code_search If ECD founds error and ECD status is changed into ERR in error detection described in section 8.5., ECD starts to search the next start code search. But if ECD cannot find ..." "0,1"
bitfld.long 0x00 8. "                        ERR_ILL_END_OF_SLICE                ,err_ill_end_of_slice Some encoder wrongly encode EOS. In this case this flag is set to 1 by ECD; otherwise, 0" "0,1"
textline "                             "
bitfld.long 0x00 7. " ERR_ILL_MB_SKIP_RUN               ,err_ill_mb_skip_run If ECD founds decoded mb_skip_run is out of range, this field is set to 1 by ECD; otherwise, 0" "0,1"
bitfld.long 0x00 6. "           ERR_ILL_MB_TYPE                     ,err_ill_mb_type If ECD founds decoded mb_type is out of range, this field is set to 1 by ECD; otherwise, 0" "0,1"
bitfld.long 0x00 5. "                        ERR_ILL_INTRA_CHROMA_PRED_MODE      ,err_ill_intra_chroma_pred_mode If ECD founds decoded intra_chroma_pred_mode is out of range, this field is set to 1 by ECD; otherwise, 0" "0,1"
textline "                             "
bitfld.long 0x00 4. " ERR_ILL_MV_DIFF                   ,err_ill_mv_diff If ECD founds decoded mv_diff is out of range, this field is set to 1 by ECD; otherwise, 0" "0,1"
bitfld.long 0x00 3. "           ERR_ILL_CBP                         ,err_ill_cbp If ECD founds decoded cbp is out of range, this field is set to 1 by ECD; otherwise, 0" "0,1"
bitfld.long 0x00 2. "                        ERR_ILL_MB_QP_DELTA                 ,err_ill_mb_qp_delta If ECD founds decoded mb_qp_delta is out of range, this field is set to 1 by ECD; otherwise, 0." "0,1"
textline "                             "
bitfld.long 0x00 1. " ERR_ILL_COEFF                     ,err_ill_coeff If ECD founds decoded coefficient is out of range, this field is set to 1 by ECD; otherwise, 0" "0,1"
bitfld.long 0x00 0. "           ERR_ILL_EOB                         ,err_ill_eob If ECD cannot found end of block in 64 coefficients, this field is set to 1 by ECD; otherwise, 0." "0,1"
rgroup.long 0xA4++0x3
line.long 0x00 "H264_ERR_STAT,H.264 STAT register"
bitfld.long 0x00 31. " EOS                               ,Read 0x1: Indicates that an EOS was found" "0,1"
bitfld.long 0x00 4. "           SC_ERR                              ,Read 0x1: Indicates that there was an error while searching the next start code. This error can only occur at the EOS where EOS=1." "0,1"
bitfld.long 0x00 3. "                        MV_ERR                              ,Read 0x1: Indicates that motion vector error was found in the last B-Direct motion vector calculation" "0,1"
textline "                             "
bitfld.long 0x00 2. " ALGN_ERR                          ,Read 0x1: Indicates that a zero bit was found in the last CABAC alignment bits" "0,1"
bitfld.long 0x00 1. "           IPCM_ALGN_ERR                       ,Read 0x1: Indicates that a non-zero bit was found in the last I_PCM alignment bits" "0,1"
bitfld.long 0x00 0. "                        SYM_ERR                             ,Read 0x1: Indicates an illegal code word was found in the bitstream" "0,1"
rgroup.long 0xA4++0x3
line.long 0x00 "INT_STATUS,INT STAT register"
bitfld.long 0x00 31. " PRCS_DONE                         ,If encoding or decoding of a picture is finished, an interrupt pulse is asserted and this status bit becomes high. It makes no sense to write 0 to this register bit. 0: not finished. 1: processing done" "0,1"
bitfld.long 0x00 30. "           EOS_DONE                            ,If encoding of decoding of a scan is finished, an interrupt pulse is asserted and this status bit becomes high. It makes no sense to write 0 to this register bit. 0: not finished. 1: processing done" "0,1"
bitfld.long 0x00 2. "                        BLK_COEF_NUM_ERR                    ,If current MCU has a block which has more than 64 coefficients, this error bit becomes high. 0: correct (all blocks inside the current MCU have 64[coef/block]) 1: incorrect (some blocks insid..." "0,1"
textline "                             "
bitfld.long 0x00 1. " RSTRT_INTVL_ERR                   ,If number of MCU between neighbored restart markers is not equal to restart interval, this error bit becomes high. It makes no sense to write 0 to this register bit. 0: no error. 1: restart interval error occurs" "0,1"
bitfld.long 0x00 0. "           VLD_TBL_ERR                         ,If stream data which is out of table is detected, the JPEG core makes this bit high. It makes no sense to write 0 to this register bit. 0: no error. 1: out of table error occurs." "0,1"
rgroup.long 0xA4++0x3
line.long 0x00 "MP2_STAT,MP2 STAT register"
bitfld.long 0x00 31. " STAT_END_OF_SLICE                 ,Showing the current macroblock is the last macroblock in a slice. If STAT_END_OF_SLICE is set to 1, the ECD3 issues int_eos. Host can know whether ERR_ILL_NEXT_START_CODE_SEARCH and ERR_ILL_END_OF_SLICE are happened ..." "0,1"
bitfld.long 0x00 15. "           ERR_DCCOEF_OVERFLOW                 ,Showing the result of dc prediction is overflowed or under flowed" "0,1"
bitfld.long 0x00 14. "                        ERR_ILL_NEXT_START_CODE_SEARCH      ,Showing next start code searching infinite error. In decoding, next start code searching is started when: - the current macroblock is the last macroblock in a slice or - error is found w/star..." "0,1"
textline "                             "
bitfld.long 0x00 13. " ERR_ILL_SLICE_START_POSITION      ,In decoding, showing the following two data is mismatched: - macroblock position derived from slice_vertical_position and macroblock_address_increment - macroblock position in ECD MMR In encoding, this field is fixed..." "0,1"
bitfld.long 0x00 12. "           ERR_ILL_QUANTISER_SCALE_CODE        ,In decoding, decoded quantizer_scale_code is 0. In encoding, this field is fixed to 0" "0,1"
bitfld.long 0x00 11. "                        ERR_ILL_END_OF_SLICE                ,In decoding, EOS cannot be found at the end of picture. In encoding, this field is fixed to 0." "0,1"
textline "                             "
bitfld.long 0x00 10. " ERR_MB_ADDR_INCREMENT             ,In decoding, VLD out of table in macroblock_address_increment. In encoding, this field is fixed to 0." "0,1"
bitfld.long 0x00 9. "           ERR_MB_TYPE                         ,In decoding, VLD out of table in macroblock_type. In encoding, this field is fixed to 0." "0,1"
bitfld.long 0x00 8. "                        ERR_MOTION_CODE                     ,In decoding, VLD out of table in motion_code and dmv. In encoding, this field is fixed to 0." "0,1"
textline "                             "
bitfld.long 0x00 7. " ERR_CBP                           ,In decoding, VLD out of table in coded_block_pattern. In encoding, this field is fixed to 0." "0,1"
bitfld.long 0x00 6. "           ERR_DCT_COEF                        ,In decoding, VLD out of table in DCT coefficient. In encoding, this field is fixed to 0." "0,1"
bitfld.long 0x00 5. "                        ERR_ILL_MBTYPE_D_PIC                ,In decoding, decoded macroblock_type != 1 when D-picture. In encoding, this field is fixed to 0." "0,1"
textline "                             "
bitfld.long 0x00 4. " ERR_ILL_MARKER_CONCEALMENT        ,In decoding, decoded marker_bit != 0 when both the concealment_motion_vector and macroblock_intra are equal to 1. In encoding, this field is fixed to 0." "0,1"
bitfld.long 0x00 3. "           ERR_ILL_MP2_ESCAPE_LVL              ,In decoding, decoded level from MPEG-2 ESCAPE code is 0x000 or 0x800. In encoding, this field is fixed to 0" "0,1"
bitfld.long 0x00 2. "                        ERR_ILL_MP1_ESCAPE_LVL              ,In decoding, decoded level from MPEG-1 ESCAPE code is 0x0000 or 0x8000. In encoding, this field is fixed to 0." "0,1"
textline "                             "
bitfld.long 0x00 1. " ERR_ILL_EOB                       ,In decoding, ECD cannot find EOB, end of block, in a 64 coefficient block. In encoding, this field is fixed to 0." "0,1"
bitfld.long 0x00 0. "           ERR_ILL_EOM                         ,In decoding, ECD cannot find EOM, end of macroblock, at the end of macroblock when picture_type is D-picture. In encoding, this field is fixed to 0." "0,1"
rgroup.long 0xA4++0x3
line.long 0x00 "MP4_STAT,MP4 STAT register"
bitfld.long 0x00 31. " STAT_END_OF_PACKET                ,ECD sets this field to 1 when the current macroblock is the last macroblock in a packet. In the case of data partitioned, ECD issues the last macroblock of data partition 0, 1 and 2. Here, data partition 0 means the ..." "0,1"
bitfld.long 0x00 25. "           ERR_NEXT_START_CODE_SEARCH          ,ECD sets this field to 1 if next start code search is 'failed'. 'Failed' means during next start code search, the search counter is over the limit of the counter which is in ECD3 SBC MMRs. Otherwise, ECD3..." "0,1"
bitfld.long 0x00 24. "                        ERR_PKT_RESYNC_MARKER               ,ECD sets this field to 1 when resync_marker at the beginning of packet header is incorrect. At the beginning of a processing, ECD automatically reset this field to 0. Even if ECD detects this..." "0,1"
textline "                             "
bitfld.long 0x00 23. " ERR_PKT_NEXT_START_CODE           ,ECD sets this field to 1 when next_start_code at the end of VOP is incorrect or start_code at the beginning of slice or at the end of VOP is incorrect. At the beginning of a processing, ECD automatically reset this f..." "0,1"
bitfld.long 0x00 22. "           ERR_PKT_ZERO_BIT                    ,ECD sets this field to 1 when zero_bit at the end of GOB or slice layer is incorrect or emulation_prevention_bit in slice header is incorrect. At the beginning of a processing, ECD automatically reset thi..." "0,1"
bitfld.long 0x00 21. "                        ERR_PKT_MBNUM                       ,ECD sets this field to 1 when macroblock_number in packet header is dropped. At the beginning of a processing, ECD automatically reset this field to 0. Even if ECD detects this error, ECD con..." "0,1"
textline "                             "
bitfld.long 0x00 20. " ERR_PKT_QUANT_SCALE               ,ECD sets this field to 1 when quant_scale in packet header is illegal. At the beginning of a processing, ECD automatically reset this field to 0. Even if ECD detects this error, ECD continues decoding until finishing..." "0,1"
bitfld.long 0x00 19. "           ERR_PKT_TIME                        ,ECD sets this field to 1 when modulo_time or vop_time_increment in packet header is changed. At the beginning of a processing, ECD automatically reset this field to 0. Even if ECD detects this error, ECD ..." "0,1"
bitfld.long 0x00 18. "                        ERR_PKT_MARKER_BIT                  ,ECD sets this field to 1 when marker_bit in packet header is incorrect. At the beginning of a processing, ECD automatically reset this field to 0. Even if ECD detects this error, ECD continue..." "0,1"
textline "                             "
bitfld.long 0x00 17. " ERR_PKT_CHG_VOP_CODING_TYPE       ,ECD sets this field to 1 when vop_coding_type in packet header is changed. At the beginning of a processing, ECD automatically reset this field to 0. Even if ECD detects this error, ECD continues decoding until finis..." "0,1"
bitfld.long 0x00 16. "           ERR_PKT_ILL_VOP_CODING_TYPE         ,ECD sets this field to 1 when vop_coding_type in packet header is illegal. At the beginning of a processing, ECD automatically reset this field to 0. Even if ECD detects this error, ECD continues decoding..." "0,1"
bitfld.long 0x00 15. "                        ERR_PKT_VOP_FCODE                   ,ECD sets this field to 1 when vop_fcode_forward or vop_fcode_backward in packet header is illegal. At the beginning of a processing, ECD automatically reset this field to 0. Even if ECD detec..." "0,1"
textline "                             "
bitfld.long 0x00 14. " ERR_GOB_GOBNUM                    ,ECD sets this field to 1 when gob_number is dropped or macroblock_address in slice header is dropped. At the beginning of a processing, ECD automatically reset this field to 0. Even if ECD detects this error, ECD con..." "0,1"
bitfld.long 0x00 13. "           ERR_GOB_GOB_FRAME_ID                ,ECD sets this field to 1 when gob_frame_id is changed. At the beginning of a processing, ECD automatically reset this field to 0. Even if ECD detects this error, ECD continues decoding until finishing the..." "0,1"
bitfld.long 0x00 12. "                        ERR_GOB_QUANT_SCALE                 ,ECD sets this field to 1 when quant_scale in GOB header is illegal or slice_quantizer_information in slice header is illegal. At the beginning of a processing, ECD automatically resets this f..." "0,1"
textline "                             "
bitfld.long 0x00 11. " ERR_MBHD_MCBPC                    ,ECD sets this field to 1 when mcbpc code is illegal. At the beginning of a processing, ECD automatically reset this field to 0. If ECD detects this error, if data_partitioned is ON, ECD continues decoding the current..." "0,1"
bitfld.long 0x00 10. "           ERR_MBHD_H263_4MV                   ,ECD3 sets this field to 1 if one of the following two conditions is true: - H263_mode is ON, deblocking_filter_mode = 0, no_gob_header = 0, and decoded macroblock type is INTRA4V or INTRA4V_Q. - H263_mode..." "0,1"
bitfld.long 0x00 9. "                        ERR_MBHD_CBPY                       ,ECD sets this field to 1 when cpby code is illegal (non-B-VOP). At the beginning of a processing, ECD automatically reset this field to 0. If ECD detects this error, if data_partitioned is ON..." "0,1"
textline "                             "
bitfld.long 0x00 7. " ERR_MBHD_MB_TYPE                  ,ECD sets this field to 1 when mb_type code is illegal (B-VOP). At the beginning of a processing, ECD automatically reset this field to 0. If ECD detects this error, ECD stops decoding and immediately finishes the cur..." "0,1"
bitfld.long 0x00 6. "           ERR_MBHD_MV_DATA                    ,ECD sets this field to 1 when horizontal_mv_data or vertical_mv_data code is illegal. At the beginning of a processing, ECD automatically reset this field to 0. If ECD detects this error, if data_partitio..." "0,1"
bitfld.long 0x00 5. "                        ERR_BLK_DCT_DC_SIZE                 ,ECD sets this field to 1 when dct_dc_size code is illegal. At the beginning of a processing, ECD automatically reset this field to 0. If ECD detects this error, if data_partitioned is ON, ECD..." "0,1"
textline "                             "
bitfld.long 0x00 4. " ERR_BLK_TCOEF                     ,ECD sets this field to 1 when tcoef code is illegal. At the beginning of a processing, ECD automatically reset this field to 0. If ECD detects this error, ECD stops decoding and immediately finishes the current macro..." "0,1"
bitfld.long 0x00 3. "           ERR_BLK_MARKER_BIT                  ,ECD sets this field to 1 when marker_bit in dct_dc_size, ESCAPE3 or RVLC is incorrect. At the beginning of a processing, ECD automatically reset this field to 0. If ECD detects this error, if data_partiti..." "0,1"
bitfld.long 0x00 2. "                        ERR_BLK_ESCAPE_LEVEL                ,ECD sets this field to 1 when ESCAPE3 level = 0 or 0x800, RVLC ESCAPE level = 0, H.263 DC = 0x00 or 0x80 or H.263 ESCAPE level = 0 or 0x80. At the beginning of a processing, ECD automatically..." "0,1"
textline "                             "
bitfld.long 0x00 1. " ERR_BLK_RVLC_ESCAPE_CODE          ,ECD sets this field to 1 when the last ESCAPE code of RVLC ESCAPE is not '0000s'. At the beginning of a processing, ECD automatically reset this field to 0. If ECD detects this error, ECD stops decoding and immediate..." "0,1"
bitfld.long 0x00 0. "           ERR_BLK_EOB                         ,ECD sets this field to 1 when ECD cannot find EOB in 64 coefficients. At the beginning of a processing, ECD automatically reset this field to 0. If ECD detects this error, ECD stops decoding and immediate..." "0,1"
rgroup.long 0xA4++0x3
line.long 0x00 "VC1_STAT,VC-1 STAT register"
bitfld.long 0x00 31. " INT_EOS                           ,Read 0x1: An end-of-slice symbol was found." "0,1"
bitfld.long 0x00 10. "           WARN_EOS_SYNCMARKER                 ,This issue is raised when ECD3 cannot find syncmarker header syntax even though a single-bit just after decoding last MB is equal to 0." "0,1"
bitfld.long 0x00 9. "                        WARN_EOS_TRAILINGBIT                ,Read 0x1: ECD3 cannot detect the presence of the trailing bit even though the next start code was detected. Even though ECD3 found this defect, the ECD3 will start to search next start code." "0,1"
textline "                             "
bitfld.long 0x00 8. " WARN_MQUANT_OVERFLOW              ,warn_mquant_overflow Read 0x0: MQUANT does not overflow Read 0x1: MQUANT overflow" "0,1"
bitfld.long 0x00 2. "           ERR_EOS                             ,err_eos indicates an error during search processing for next start code." "0,1"
bitfld.long 0x00 1. "                        ERR_VLC_TABLE                       ,err_vlc_table indicates when the following irregular cases happen. - Total RUN of AC coefficient exceeds a limit of block size" "0,1"
textline "                             "
bitfld.long 0x00 0. " ERR_BLK_COEF                      ,err_blk_coef indicates when the following irregular cases happen" "0,1"
rgroup.long 0xA8++0x3
line.long 0x00 "AVS_MASK,AVS MASK register"
bitfld.long 0x00 31. " MASK_STAT_END_OF_SLICE            ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 9. "           MASK_ERR_ILL_NEXT_START_CODE_SEARCH ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 8. "                        MASK_ERR_ILL_END_OF_SLICE           ,Mask flags correspond to status bits" "0,1"
textline "                             "
bitfld.long 0x00 7. " MASK_ERR_ILL_MB_SKIP_RUN          ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 6. "           MASK_ERR_ILL_MB_TYPE                ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 5. "                        MASK_ERR_ILL_INTRA_CHROMA_PRED_MODE ,Mask flags correspond to status bits" "0,1"
textline "                             "
bitfld.long 0x00 4. " MASK_ERR_ILL_MV_DIFF              ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 3. "           MASK_ERR_ILL_CBP                    ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 2. "                        MASK_ERR_ILL_MB_QP_DELTA            ,Mask flags correspond to status bits" "0,1"
textline "                             "
bitfld.long 0x00 1. " MASK_ERR_ILL_COEFF                ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 0. "           MASK_ERR_ILL_EOB                    ,Mask flags correspond to status bits" "0,1"
group.long 0xA8++0x3
line.long 0x00 "H264_ERR_MSK,H.264 MASK register"
bitfld.long 0x00 31. " EOS_MSK                           ,EOS_MSK = 1 enables detection of an EOS." "0,1"
bitfld.long 0x00 4. "           SC_ERR_MSK                          ,SC_ERR_MSK = 0 (fixed) which indicates that int_err will never be issued on detecting start code search error." "0,1"
bitfld.long 0x00 3. "                        MV_ERR_MSK                          ,MV_ERR_MSK = 1 enables detection of mv errors (MV_ERR)." "0,1"
textline "                             "
bitfld.long 0x00 2. " ALGN_ERR_MSK                      ,ALGN_ERR_MSK = 1 enables detection of CABAC alignment bits errors (ALGN_ERR)" "0,1"
bitfld.long 0x00 1. "           IPCM_ALGN_ERR_MSK                   ,IPCM_ALGN_ERR_MSK = 1 enables detection of I_PCM alignment bits errors (IPCM_ALGN_ERR)" "0,1"
bitfld.long 0x00 0. "                        SYM_ERR_MSK                         ,SYM_ERR_MSK = 1 enables detections of all other bitstream errors (SYM_ERR)." "0,1"
rgroup.long 0xA8++0x3
line.long 0x00 "INT_MASK,INT MASK register"
bitfld.long 0x00 31. " PRCS_DONE_MASK                    ,Mask register for prcs_done signal. 0: PRCS_DONE signal disable. 1: PRCS_DONE signal enable" "0,1"
bitfld.long 0x00 30. "           EOS_MASK                            ,Mask register for eos_done pulse signal 0: EOS_DONE signal disable. 1: EOS_DONE signal enable." "0,1"
bitfld.long 0x00 0. "                        VLD_TBL_ERR                         ,Mask register for control of error interrupt assertion. 0: no error interrupt is asserted though condition is hit. 1: error interrupt is asserted if condition is hit." "0,1"
group.long 0xA8++0x3
line.long 0x00 "MP2_MASK,MP2 MASK register"
bitfld.long 0x00 31. " MASK_STAT_END_OF_SLICE            ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 15. "           MASK_ERR_DCCOEF_OVERFLOW            ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 14. "                        MASK_ERR_ILL_NEXT_START_CODE_SEARCH ,Mask flags correspond to status bits" "0,1"
textline "                             "
bitfld.long 0x00 13. " MASK_ERR_ILL_SLICE_START_POSITION ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 12. "           MASK_ERR_ILL_QUANTISER_SCALE_CODE   ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 11. "                        MASK_ERR_ILL_END_OF_SLICE           ,Mask flags correspond to status bits" "0,1"
textline "                             "
bitfld.long 0x00 10. " MASK_ERR_MB_ADDR_INCREMENT        ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 9. "           MASK_ERR_MB_TYPE                    ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 8. "                        MASK_ERR_MOTION_CODE                ,Mask flags correspond to status bits" "0,1"
textline "                             "
bitfld.long 0x00 7. " MASK_ERR_CBP                      ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 6. "           MASK_ERR_DCT_COEF                   ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 5. "                        MASK_ERR_ILL_MBTYPE_D_PIC           ,Mask flags correspond to status bits" "0,1"
textline "                             "
bitfld.long 0x00 4. " MASK_ERR_ILL_MARKER_CONCEALMENT   ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 3. "           MASK_ERR_ILL_MP2_ESCAPE_LVL         ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 2. "                        MASK_ERR_ILL_MP1_ESCAPE_LVL         ,Mask flags correspond to status bits" "0,1"
textline "                             "
bitfld.long 0x00 1. " MASK_ERR_ILL_EOB                  ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 0. "           MASK_ERR_ILL_EOM                    ,Mask flags correspond to status bits" "0,1"
group.long 0xA8++0x3
line.long 0x00 "MP4_MASK,MP4 MASK register"
bitfld.long 0x00 31. " MASK_STAT_END_OF_PACKET           ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 25. "           MASK_ERR_NEXT_START_CODE_SEARCH     ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 24. "                        MASK_ERR_PKT_RESYNC_MARKER          ,Mask flags correspond to status bits" "0,1"
textline "                             "
bitfld.long 0x00 23. " MASK_ERR_PKT_NEXT_START_CODE      ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 22. "           MASK_ERR_PKT_ZERO_BIT               ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 21. "                        MASK_ERR_PKT_MBNUM                  ,Mask flags correspond to status bits" "0,1"
textline "                             "
bitfld.long 0x00 20. " MASK_ERR_PKT_QUANT_SCALE          ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 19. "           MASK_ERR_PKT_TIME                   ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 18. "                        MASK_ERR_PKT_MARKER_BIT             ,Mask flags correspond to status bits" "0,1"
textline "                             "
bitfld.long 0x00 17. " MASK_ERR_PKT_CHG_VOP_CODING_TYPE  ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 16. "           MASK_ERR_PKT_ILL_VOP_CODING_TYPE    ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 15. "                        MASK_ERR_PKT_VOP_FCODE              ,Mask flags correspond to status bits" "0,1"
textline "                             "
bitfld.long 0x00 14. " MASK_ERR_GOB_GOBNUM               ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 13. "           MASK_ERR_GOB_GOB_FRAME_ID           ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 12. "                        MASK_ERR_GOB_QUANT_SCALE            ,Mask flags correspond to status bits" "0,1"
textline "                             "
bitfld.long 0x00 11. " MASK_ERR_MBHD_MCBPC               ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 10. "           MASK_ERR_MBHD_H263_4MV              ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 9. "                        MASK_ERR_MBHD_CBPY                  ,Mask flags correspond to status bits" "0,1"
textline "                             "
bitfld.long 0x00 7. " MASK_ERR_MBHD_MB_TYPE             ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 6. "           MASK_ERR_MBHD_MV_DATA               ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 5. "                        MASK_ERR_BLK_DCT_DC_SIZE            ,Mask flags correspond to status bits" "0,1"
textline "                             "
bitfld.long 0x00 4. " MASK_ERR_BLK_TCOEF                ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 3. "           MASK_ERR_BLK_MARKER_BIT             ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 2. "                        MASK_ERR_BLK_ESCAPE_LEVEL           ,Mask flags correspond to status bits" "0,1"
textline "                             "
bitfld.long 0x00 1. " MASK_ERR_BLK_RVLC_ESCAPE_CODE     ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 0. "           MASK_ERR_BLK_EOB                    ,Mask flags correspond to status bits" "0,1"
group.long 0xA8++0x3
line.long 0x00 "VC1_MASK,VC-1 MASK register"
bitfld.long 0x00 31. " MASK_INT_EOS                      ," "0,1"
bitfld.long 0x00 10. "           MASK_EOS_SYNCMARKER                 ," "0,1"
bitfld.long 0x00 9. "                        MASK_WARN_EOS_TRAILINGBIT           ,Reserved" "0,1"
textline "                             "
bitfld.long 0x00 8. " MASK_MQUANT_OVERFLOW              ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 2. "           MASK_ERR_EOS                        ,Mask flags correspond to status bits" "0,1"
bitfld.long 0x00 1. "                        MASK_ERR_VLC_TABLE                  ,Mask flags correspond to status bits" "0,1"
textline "                             "
bitfld.long 0x00 0. " MASK_ERR_BLK_COEF                 ,Mask flags correspond to status bits" "0,1"
group.long 0xAC++0x3
line.long 0x00 "AVS_WORK0,AVS WORK0 register"
hexmask.long.word 0x00 16.--29. 1. " SKIPMBCOUNT                       ,SkipMbCount This field specifies SkipMbCount described in AVS standard section 9.3."
bitfld.long 0x00 9. "        SLICE_DATA_RD_EN                    ,Slice data read enable flag 0: slice data is read only at the first macroblock in a slice 1: slice data is read at every macroblocks AVS RTL can reduce the cycle not to read slice data in non-first macrobloc..." "0,1"
bitfld.long 0x00 8. "                        NEXT_START_CODE_SEARCH              ,next_start_code_search This field specifies ECD starts start code search or not when error is occurred. 0: non-search 1: search" "0,1"
group.long 0xAC++0x3
line.long 0x00 "CFG_QP,"
bitfld.long 0x00 31. " MV_FLAG_EN                        ,MV_FLAG_EN =1 enables motion vector and reference index comparison in decoding. If MV_FLAG_EN=1, motion vectors and reference indices are compared and results are reflected to mv_equal_flag_l0/1 and refidx_equal_flag..." "0,1"
bitfld.long 0x00 30. "           H264_RSV                            ,Reserved for future use" "0,1"
bitfld.long 0x00 29. "                        FORCE_SLC_LD                        ,FORCE_SLC_LD = 1 forces slice information data loading from memory for each macroblock process. If this bit is equal to 0, slice information data is loaded only when the current macroblock is..." "0,1"
textline "                             "
bitfld.long 0x00 28. " USE_CABAC                         ,USE_CABAC = 1 indicates that the CABAC is in use for entropy coding. If the value is equal to 0, CAVLC is used. The ECD3 automatically loads the value from slice information onto this register." "0,1"
bitfld.long 0x00 18.--19. "           COL_MB_FMT                          ,COL_MB_FMT indicates the macroblock header format type for the co-located macroblock data. 00b : Bi-16-MV format 01b : 16-MV format 10b : Bi-4-MV format 11b : The reserved ECD3 automatically loads the val..." "0,1,2,3"
bitfld.long 0x00 16.--17. "                        MB_FMT                              ,MB_FMT indicates the macroblock header format type for the current macroblock and neighboring macroblocks in the current picture. 00b : Bi-16-MV format 01b : 16-MV format 10b : Bi-4-MV format..." "0,1,2,3"
textline "                             "
bitfld.long 0x00 8.--13. " QP_DELTA                          ,QP_DELTA is equal to mb_qp_delta of the last macroblock decoded or encoded. This register value is maintained by the ECD3, so that the user does not set up the value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--5. "          QP                                  ,QP is equal to the quantizer parameter for the last macroblock decoded or encoded. This register value is maintained by the ECD3" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0xAC++0x3
line.long 0x00 "JPEG_CTRL,JPEG Control register"
hexmask.long.word 0x00 16.--31. 1. " DC_PRED_Y                         ,Luminance DC prediction value is stored in register. H/W regards this value as previous DC value (source of DC prediction) except in a block just after restart marker. In case other than tests, this register value mu..."
bitfld.long 0x00 8.--10. "        RSTRT_MRKR_CNT                      ,Restart marker counter value (during encoding only) is reflected in this register. In decoding, please ignore." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 1. "                        DC_PRED_RST                         ,If this register bit is high, DC prediction for the first block of the current MCU is not executed. This register bit must be used in case of error recovery, and valid in decoder. In encoder,..." "0,1"
textline "                             "
bitfld.long 0x00 0. " INIT_EN                           ,This bit controls initialization of JPEG core on ECD module. If this bit is high, all counter values are reset and all address pointer for picture configuration data and Huffman code tables are loaded. Please notice ..." "0,1"
group.long 0xAC++0x3
line.long 0x00 "MP2_WORK0,MP2 WORK0 register"
hexmask.long.word 0x00 16.--31. 1. " MB_SKIP_RUN                       ,Specifies the number of macroblocks to be skipped"
bitfld.long 0x00 11. "        START_CODE_SEARCH_FLAG              ,Specifies whether ECD starts searching next start code or not when error is occurred in decoding. 0: Not search next start code 1: Search next start code In encoding, this field must be 0." "0,1"
bitfld.long 0x00 10. "                        MACROBLOCK_MOTION_BACKWARD          ,Specifies macroblock_motion_backward described in MPEG-2 standard section 6.3.17.1." "0,1"
textline "                             "
bitfld.long 0x00 9. " MACROBLOCK_MOTION_FORWARD         ,Specifies macroblock_motion_forward described in MPEG-2 standard section 6.3.17.1." "0,1"
bitfld.long 0x00 0.--4. "           PREV_QUANTISER_SCALE_CODE           ,Specifies previous macroblock's quantizer_scale_code described in MPEG-2 standard section 6.3.16" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xAC++0x3
line.long 0x00 "MP4_WORK0,MP4 WORK0 register"
bitfld.long 0x00 24.--28. " RUNNINGQP                         ,This field is used for reserving runningQp for the next macroblock, not showing the current macroblock's quantizer_scale. At the beginning of a VOP, ECD copies from vop_quant in VOP header information" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 20.--22. "          VOP_FCODE_BACKWARD                  ,These fields specify vop_fcode_forward and vop_fcode_backward updated at packet header. In decoding, at the beginning of a VOP, ECD copies from vop_fcode_forward and vop_fcode_backward in VOP header inform..." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 16.--18. "                        VOP_FCODE_FORWARD                   ,These fields specify vop_fcode_forward and vop_fcode_backward updated at packet header. In decoding, at the beginning of a VOP, ECD copies from vop_fcode_forward and vop_fcode_backward in VOP..." "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 14.--15. " DP_MODE                           ,This field indicates which data is encoding or decoding in data partitioning mode. Host must reset this field to 0 at the beginning of a VOP. ECD updates automatically during a VOP. This field is reset to 0 at the be..." "0,1,2,3"
bitfld.long 0x00 12.--13. "           GOB_FRAME_ID                        ,This field specifies gob_frame_id which is updated at gob header. In decoding, when first_non_empty_header = 1, decoded gob_frame_id in packet header is compared with gob_frame_id in local information, an..." "0,1,2,3"
bitfld.long 0x00 8.--10. "                        INTRA_DC_VLC_THR                    ,This is a 3-bit code that specifies a threshold value of quantizer scale used to switch between two VLC's for coding of Intra DC coefficients. In decoding, at the beginning of a VOP, ECD copi..." "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 7. " FIRST_NON_EMPTY_HEADER            ,This is the flag to indicate the first non empty GOB header or not. In decoding, ECD sets 1 to this field at the beginning of VOP. ECD sets to 0 if ECD encounters the first non-empty GOB header. In encoding, this fie..." "0,1"
bitfld.long 0x00 6. "           MINI_SLICE_HEADER_FLAG              ,In H.263 decoding, this field specifies whether the current slice header is mini slice header or not. After decoding slice header, this field is automatically reset to 0 by the ECD3. 0: non mini slice hea..." "0,1"
bitfld.long 0x00 5. "                        START_CODE_SEARCH_FLAG              ,In decoding, this field specifies whether ECD starts searching next_start_code and resync_marker or not when error is occurred in decoding. 0: Not search next start code and resync marker 1: ..." "0,1"
textline "                             "
bitfld.long 0x00 0.--4. " GOB_NUMBER                        ,In decoding, this field specifies gob_number of the current macroblock. In encoding, this field is not used and must be fixed to 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xAC++0x3
line.long 0x00 "VC1_WORK,VC-1 WORK register"
bitfld.long 0x00 8. " FIXED_LENTH_CODE                  ,Presence of Fixed Length Code (escape mode 3) Setting 1 specifies the first case of escape mode 3 in a frame. This register is cleared when found ESCAPE3. 0: non-first case of escape mode 3 in frame 1: first case of ..." "0,1"
bitfld.long 0x00 7. "           FIXED_TO_ZERO                       ," "0,1"
bitfld.long 0x00 4.--6. "                        RUN_CODE_SIZEOFESCAPE_MODE_3        ,Run code size of escape mode 3 Run code size of escape mode 3 In decoding, this register is automatically updated when presence of fixed length code is cleared to 0" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 0.--3. " LEVEL_CODE_SIZEOFESCAPE_MODE_3    ,Level code size of escape mode 3 Level code size of escape mode 3 In decoding, this register is automatically updated when presence of fixed length code is cleared to 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xB0++0x3
line.long 0x00 "AVS_WORK1,AVS WORK1 register"
hexmask.long.word 0x00 20.--31. 1. " PTR_MVD_15_4                      ,PTR_MVD Start address of temporary MVD info. This value must be multiple of 8."
bitfld.long 0x00 16.--19. "        PTR_MVD_3_0                         ,PTR_MVD Start address of temporary MVD info. This value must be multiple of 8." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 4.--15. 1. "                       PTR_RUNLVL_15_4                     ,PTR_RUNLVL Start address of temporary run level info. This value must be multiple of 8."
textline "                             "
bitfld.long 0x00 0.--3. " PTR_RUNLVL_3_0                    ,PTR_RUNLVL Start address of temporary run level info. This value must be multiple of 8." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xB0++0x3
line.long 0x00 "CDC_VP_4,"
hexmask.long.word 0x00 3.--15. 1. " ACPREDPTR_15_3                    ,ACPREDPTR I picture except simple/main I picture"
group.long 0xB0++0x3
line.long 0x00 "MP2_WORK1,MP2 WORK1 register"
hexmask.long.word 0x00 16.--26. 1. " DCT_DC_PRED1                      ,In decoding, this value specifies dct_dc_pred[1] described in MPEG-2 standard section 7.2.1. In encoding, this value is fixed to 0"
hexmask.long.word 0x00 0.--10. 1. "        DCT_DC_PRED0                        ,In decoding, this value specifies dct_dc_pred[0] described in MPEG-2 standard section 7.2.1. In encoding, this value is fixed to 0"
group.long 0xB0++0x3
line.long 0x00 "MP4_WORK1,MP4 WORK1 register"
hexmask.long.word 0x00 16.--29. 1. " SKIPRUN                           ,In the case of B-VOP decoding, if decoded macroblock_number in video_packet_header > the macroblock address counter, ECD notices the macroblocks from the macroblock address counter to macroblock_number -1 woul..."
hexmask.long.byte 0x00 8.--15. 1. "        SLICE_Y                             ,In data partitioning, this field shows the position of the first macroblock in a slice. Otherwise, this field must be 0. This is for data partitioning to recover the first macroblock position after texture e..."
hexmask.long.byte 0x00 0.--7. 1. "                       SLICE_X                             ,In data partitioning, this field shows the position of the first macroblock in a slice. Otherwise, this field must be 0. This is for data partitioning to recover the first macroblock position ..."
group.long 0xB0++0x3
line.long 0x00 "SKIP_RUN,"
hexmask.long.word 0x00 0.--15. 1. " SKIP_RUN_NB                       ,SKIP_RUN_NB indicates the number of skipped macroblocks left in CAVLC. This register is maintained by the ECD3."
group.long 0xB0++0x3
line.long 0x00 "VLC_HUFFPTR_DC,Pointers to Huffman table for VLC DC components"
bitfld.long 0x00 29.--31. " VLCHUFFPTR_DC_CHROMA_31_29        ,Indicating start address of Huffman table for VLC DC Chroma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 19.--28. 1. "           VLCHUFFPTR_DC_CHROMA_28_19          ,Indicating start address of Huffman table for VLC DC Chroma. The address value must be aligned to 64-bit word boundary"
bitfld.long 0x00 16.--18. "                     VLCHUFFPTR_DC_CHROMA_18_16          ,Indicating start address of Huffman table for VLC DC Chroma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 13.--15. " VLCHUFFPTR_DC_LUMA_15_13          ,Indicating start address of Huffman table for VLC DC-luma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 3.--12. 1. "           VLCHUFFPTR_DC_LUMA_12_3             ,Indicating start address of Huffman table for VLC DC-luma. The address value must be aligned to 64-bit word boundary"
bitfld.long 0x00 0.--2. "                     VLCHUFFPTR_DC_LUMA_2_0              ,Indicating start address of Huffman table for VLC DC-luma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
group.long 0xB4++0x3
line.long 0x00 "CABAC_REG,"
bitfld.long 0x00 29. " PRE_SKIP                          ,PRE_SKIP = 1 indicates that both top and bottom macroblocks in MB-AFF mode decoding are skipped. This flag is not used in encoding or in CAVLC mode" "0,1"
bitfld.long 0x00 28. "           FIRST_BIT                           ,FIRST_BIT = 1 indicates that the next bit put by CABAC is the first bit since the last CABAC initialization. This register is automatically set by CABAC encoder. This flag is ignored in decoding or in CAV..." "0,1"
hexmask.long.word 0x00 16.--25. 1. "                        C_LOW_OFST                          ,C_LOW_OFST is equal to codILow in encoding, and codIOffset in decoding. codILow shall be in the range of [0x000, 0x3FF], and codIOffset in [0x000, 0x1FF]. This field is ignored in CAVLC"
textline "                             "
hexmask.long.word 0x00 0.--8. 1. " C_RNG                             ,C_RNG is equal to codIRange. This field is ignored in CAVLC"
group.long 0xB4++0x3
line.long 0x00 "CDC_VP_5,"
hexmask.long.word 0x00 3.--15. 1. " OVERFLAGPTR_15_3                  ,OVERFLAGPTR I picture except simple/main I picture"
group.long 0xB4++0x3
line.long 0x00 "MP2_WORK2,MP2 WORK2 register"
hexmask.long.word 0x00 0.--10. 1. " DCT_DC_PRED2                      ,In decoding, this value specifies dct_dc_pred[2] described in MPEG-2 standard section 7.2.1. In encoding, this value is fixed to 0"
group.long 0xB4++0x3
line.long 0x00 "MP4_WORK2,MP4 WORK2 register"
hexmask.long.word 0x00 16.--29. 1. " SLICE_MBADDR                      ,In data partition decoding, this field shows the macroblock address of the first macroblock in the current slice. ECD updates this field at the beginning of a slice. The value is used to recover the first macroblock ..."
bitfld.long 0x00 0.--1. "        GOB_MBROW                           ,In the case h263_mode = 1 and decoding, this field shows the vertical position of current macroblock in a slice or GOB. For example gob_mbrow = 0 means the current macroblock is in the first row of the curre..." "0,1,2,3"
group.long 0xB4++0x3
line.long 0x00 "VLC_HUFFPTR_AC,Pointers to Huffman table for VLC AC components"
bitfld.long 0x00 29.--31. " VLCHUFFPTR_AC_CHROMA_31_29        ,Indicating start address of Huffman table for VLC AC Chroma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 19.--28. 1. "           VLCHUFFPTR_AC_CHROMA_28_19          ,Indicating start address of Huffman table for VLC AC Chroma. The address value must be aligned to 64-bit word boundary"
bitfld.long 0x00 16.--18. "                     VLCHUFFPTR_AC_CHROMA_18_16          ,Indicating start address of Huffman table for VLC AC Chroma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 13.--15. " VLCHUFFPTR_AC_LUMA_15_13          ,Indicating start address of Huffman table for VLC AC-luma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 3.--12. 1. "           VLCHUFFPTR_AC_LUMA_12_3             ,Indicating start address of Huffman table for VLC AC-luma. The address value must be aligned to 64-bit word boundary"
bitfld.long 0x00 0.--2. "                     VLCHUFFPTR_AC_LUMA_2_0              ,Indicating start address of Huffman table for VLC AC-luma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
group.long 0xB8++0x3
line.long 0x00 "CDC_VP_6,"
hexmask.long.word 0x00 3.--15. 1. " MVMODEPTR_15_3                    ,MVMODEPTR Progressive P picture"
group.long 0xB8++0x3
line.long 0x00 "MP2_WORK3,MP2 WORK3 register"
hexmask.long.word 0x00 16.--31. 1. " PMV1                              ,Specifies PMV[0][0][1] described in MPEG-2 standard section 7.6.3. They are half-pel precision"
hexmask.long.word 0x00 0.--15. 1. "        PMV0                                ,Specifies PMV[0[0][0] described in MPEG-2 standard section 7.6.3. They are half-pel precision"
group.long 0xB8++0x3
line.long 0x00 "MP4_WORK3,"
bitfld.long 0x00 13.--14. " PTR_MVD_14_13                     ,This field specifies temporary MVD data pointer. Temporary MVD data must be located at ECDWBUF" "0,1,2,3"
hexmask.long.word 0x00 4.--12. 1. "           PTR_MVD_12_4                        ,This field specifies temporary MVD data pointer. Temporary MVD data must be located at ECDWBUF"
bitfld.long 0x00 0.--3. "                     PTR_MVD_3_0                         ,This field specifies temporary MVD data pointer. Temporary MVD data must be located at ECDWBUF" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xB8++0x3
line.long 0x00 "SYM_CNT,"
hexmask.long 0x00 0.--31. 1. " SYM_CNT_NB                        ,SYM_CNT_NB is equal to the total number of CABAC bin symbols encoded since the last CABAC initialization. This register is reset to 0 when H.264 core is invoked for a first macroblock in a slice. This register is not..."
group.long 0xB8++0x3
line.long 0x00 "UVLD_CTRL_TBPTR_DC,Pointers to control table for UVLD DC components"
bitfld.long 0x00 29.--31. " UVLD_CTRL_DC_CHROMA_31_29         ,Indicating start address of control table for UVLD DC-chroma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 19.--28. 1. "           UVLD_CTRL_DC_CHROMA_28_19           ,Indicating start address of control table for UVLD DC-chroma. The address value must be aligned to 64-bit word boundary"
bitfld.long 0x00 16.--18. "                     UVLD_CTRL_DC_CHROMA_18_16           ,Indicating start address of control table for UVLD DC-chroma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 13.--15. " UVLD_CTRL_DC_LUMA_15_13           ,Indicating start address of control table for UVLD DC-luma. The address value must be aligned to 64-bit word boundary." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 3.--12. 1. "           UVLD_CTRL_DC_LUMA_12_3              ,Indicating start address of control table for UVLD DC-luma. The address value must be aligned to 64-bit word boundary."
bitfld.long 0x00 0.--2. "                     UVLD_CTRL_DC_LUMA_2_0               ,Indicating start address of control table for UVLD DC-luma. The address value must be aligned to 64-bit word boundary." "0,1,2,3,4,5,6,7"
group.long 0xBC++0x3
line.long 0x00 "BITS_OSTD,"
hexmask.long 0x00 0.--31. 1. " BITS_OSTD_NB                      ,BITS_OSTD_NB is equal to the total number of outstanding bits in CABAC encoder. This register is not used in decoding or in CAVLC mode. This register is maintained by the ECD3"
group.long 0xBC++0x3
line.long 0x00 "CDC_VP_7,"
hexmask.long.word 0x00 3.--15. 1. " SKIPMBPTR_15_3                    ,SKIPMBPTR Progressive P/B picture, Interlace Frame P/B picture"
group.long 0xBC++0x3
line.long 0x00 "MP2_WORK4,MP2 WORK4 register"
hexmask.long.word 0x00 16.--31. 1. " PMV4                              ,Specifies PMV[0][1][1] described in MPEG-2 standard section 7.6.3. They are half-pel precision"
hexmask.long.word 0x00 0.--15. 1. "        PMV3                                ,Specifies PMV[0][1][0] described in MPEG-2 standard section 7.6.3. They are half-pel precision"
group.long 0xBC++0x3
line.long 0x00 "MP4_WORK4,MP4 WORK4 register"
hexmask.long.word 0x00 16.--31. 1. " MVP01                             ,MVP[0][1]: Motion Vector Predictors for B-VOP (field forward top motion vector predictor)"
hexmask.long.word 0x00 0.--15. 1. "        MVP00                               ,MVP[0][0]: Motion Vector Predictors for B-VOP (field forward top motion vector predictor)"
group.long 0xBC++0x3
line.long 0x00 "UVLD_CTRL_TBPTR_AC,Pointers to control table for UVLD AC components"
bitfld.long 0x00 29.--31. " UVLD_CTRL_AC_CHROMA_31_29         ,Indicating start address of control table for UVLD AC-chroma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 19.--28. 1. "           UVLD_CTRL_AC_CHROMA_28_19           ,Indicating start address of control table for UVLD AC-chroma. The address value must be aligned to 64-bit word boundary"
bitfld.long 0x00 16.--18. "                     UVLD_CTRL_AC_CHROMA_18_16           ,Indicating start address of control table for UVLD AC-chroma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 13.--15. " UVLD_CTRL_AC_LUMA_15_13           ,Indicating start address of control table for UVLD AC-luma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 3.--12. 1. "           UVLD_CTRL_AC_LUMA_12_3              ,Indicating start address of control table for UVLD AC-luma. The address value must be aligned to 64-bit word boundary"
bitfld.long 0x00 0.--2. "                     UVLD_CTRL_AC_LUMA_2_0               ,Indicating start address of control table for UVLD AC-luma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
group.long 0xC0++0x3
line.long 0x00 "CDC_VP_8,"
hexmask.long.word 0x00 3.--15. 1. " DIRECTPT_15_3                     ,DIRECTPTR Progressive B picture, Interlace Frame B picture"
group.long 0xC0++0x3
line.long 0x00 "MP2_WORK5,MP2 WORK5 register"
hexmask.long.word 0x00 16.--31. 1. " PMV6                              ,Specifies PMV[1][0][1] described in MPEG-2 standard section 7.6.3. They are half-pel precision"
hexmask.long.word 0x00 0.--15. 1. "        PMV5                                ,Specifies PMV[1][0][0] described in MPEG-2 standard section 7.6.3. They are half-pel precision"
group.long 0xC0++0x3
line.long 0x00 "MP4_WORK5,MP4 WORK5 register"
hexmask.long.word 0x00 16.--31. 1. " MVP11                             ,MVP[1][1]: Motion Vector Predictors for B-VOP (field forward bottom motion vector predictor)"
hexmask.long.word 0x00 0.--15. 1. "        MVP10                               ,MVP[1][0]: Motion Vector Predictors for B-VOP (field forward bottom motion vector predictor)"
group.long 0xC0++0x3
line.long 0x00 "MVD_CUR_PTR,"
bitfld.long 0x00 29.--31. " DP_MVD_CUR_1_15_13                ,DP_MVD_CUR_1 specifies the pointer to motion vector delta data for bottom macroblock of the current macroblock pair. This register is updated by the ECD3 for each macroblock. This register is used only when in MBAFF ..." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 19.--28. 1. "           DP_MVD_CUR_1_12_3                   ,DP_MVD_CUR_1 specifies the pointer to motion vector delta data for bottom macroblock of the current macroblock pair. This register is updated by the ECD3 for each macroblock. This register is used only wh..."
bitfld.long 0x00 16.--18. "                     DP_MVD_CUR_1_2_0                    ,DP_MVD_CUR_1 specifies the pointer to motion vector delta data for bottom macroblock of the current macroblock pair. This register is updated by the ECD3 for each macroblock. This register is us..." "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 13.--15. " DP_MVD_CUR_0_15_13                ,DP_MVD_CUR_0 specifies the pointer to motion vector delta data for the current macroblock or top macroblock of the current macroblock pair. This register is updated by the ECD3 for each macroblock" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 3.--12. 1. "           DP_MVD_CUR_0_12_3                   ,DP_MVD_CUR_0 specifies the pointer to motion vector delta data for the current macroblock or top macroblock of the current macroblock pair. This register is updated by the ECD3 for each macroblock"
bitfld.long 0x00 0.--2. "                     DP_MVD_CUR_0_2_0                    ,DP_MVD_CUR_0 specifies the pointer to motion vector delta data for the current macroblock or top macroblock of the current macroblock pair. This register is updated by the ECD3 for each macroblock" "0,1,2,3,4,5,6,7"
group.long 0xC0++0x3
line.long 0x00 "UVLD_CODE_TBPTR_DC,Pointers to code table for UVLD DC components"
bitfld.long 0x00 29.--31. " UVLD_CODE_DC_CHROMA31_29          ,Indicating start address of code table for UVLD DC-chroma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 19.--28. 1. "           UVLD_CODE_DC_CHROMA_28_19           ,Indicating start address of code table for UVLD DC-chroma. The address value must be aligned to 64-bit word boundary"
bitfld.long 0x00 16.--18. "                     UVLD_CODE_DC_CHROMA_18_16           ,Indicating start address of code table for UVLD DC-chroma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 13.--15. " UVLD_CODE_DC_LUMA_15_13           ,Indicating start address of code table for UVLD DC-luma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 3.--12. 1. "           UVLD_CODE_DC_LUMA_12_3              ,Indicating start address of code table for UVLD DC-luma. The address value must be aligned to 64-bit word boundary"
bitfld.long 0x00 0.--2. "                     UVLD_CODE_DC_LUMA_2_0               ,Indicating start address of code table for UVLD DC-luma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
group.long 0xC4++0x3
line.long 0x00 "CDC_VP_9,"
hexmask.long.word 0x00 3.--15. 1. " FIELDTXPTR_31_3                   ,FIELDTXPTR Interlace Frame I picture"
group.long 0xC4++0x3
line.long 0x00 "MP2_WORK6,MP2 WORK6 register"
hexmask.long.word 0x00 16.--31. 1. " PMV8                              ,Specifies PMV[1][1][1] described in MPEG-2 standard section 7.6.3. They are half-pel precision"
hexmask.long.word 0x00 0.--15. 1. "        PMV7                                ,Specifies PMV[1][1][0] described in MPEG-2 standard section 7.6.3. They are half-pel precision"
group.long 0xC4++0x3
line.long 0x00 "MP4_WORK6,MP4 WORK6 register"
hexmask.long.word 0x00 16.--31. 1. " MVP21                             ,MVP[2][1]: Motion Vector Predictors for B-VOP (field backward top motion vector predictor)"
hexmask.long.word 0x00 0.--15. 1. "        MVP20                               ,MVP[2][0]: Motion Vector Predictors for B-VOP (field backward top motion vector predictor)"
group.long 0xC4++0x3
line.long 0x00 "MVD_LFT_PTR,"
bitfld.long 0x00 29.--31. " DP_MVD_LFT_1_15_13                ,DP_MVD_LFT_1 specifies the pointer to motion vector delta data for bottom macroblock of the left macroblock pair. This register is updated by the ECD3 for each macroblock. This register is used only when in MBAFF mode" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 19.--28. 1. "           DP_MVD_LFT_1_12_3                   ,DP_MVD_LFT_1 specifies the pointer to motion vector delta data for bottom macroblock of the left macroblock pair. This register is updated by the ECD3 for each macroblock. This register is used only when ..."
bitfld.long 0x00 16.--18. "                     DP_MVD_LFT_1_2_0                    ,DP_MVD_LFT_1 specifies the pointer to motion vector delta data for bottom macroblock of the left macroblock pair. This register is updated by the ECD3 for each macroblock. This register is used ..." "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 13.--15. " DP_MVD_LFT_0_15_13                ,DP_MVD_LFT_0 specifies the pointer to motion vector delta data for the left macroblock or top macroblock of the left macroblock pair. This register is updated by the ECD3 for each macroblock" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 3.--12. 1. "           DP_MVD_LFT_0_12_3                   ,DP_MVD_LFT_0 specifies the pointer to motion vector delta data for the left macroblock or top macroblock of the left macroblock pair. This register is updated by the ECD3 for each macroblock"
bitfld.long 0x00 0.--2. "                     DP_MVD_LFT_0_2_0                    ,DP_MVD_LFT_0 specifies the pointer to motion vector delta data for the left macroblock or top macroblock of the left macroblock pair. This register is updated by the ECD3 for each macroblock" "0,1,2,3,4,5,6,7"
group.long 0xC4++0x3
line.long 0x00 "UVLD_CODE_TBPTR_AC,Pointers to code table for UVLD AC components"
bitfld.long 0x00 29.--31. " UVLD_CODE_AC_CHROMA_31_29         ,Indicating start address of code table for UVLD AC Chroma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 19.--28. 1. "           UVLD_CODE_AC_CHROMA_28_19           ,Indicating start address of code table for UVLD AC Chroma. The address value must be aligned to 64-bit word boundary"
bitfld.long 0x00 16.--18. "                     UVLD_CODE_AC_CHROMA_18_16           ,Indicating start address of code table for UVLD AC Chroma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 13.--15. " UVLD_CODE_AC_LUMA_15_13           ,Indicating start address of code table for UVLD AC-luma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 3.--12. 1. "           UVLD_CODE_AC_LUMA_12_3              ,Indicating start address of code table for UVLD AC-luma. The address value must be aligned to 64-bit word boundary"
bitfld.long 0x00 0.--2. "                     UVLD_CODE_AC_LUMA_2_0               ,Indicating start address of code table for UVLD AC-luma. The address value must be aligned to 64-bit word boundary" "0,1,2,3,4,5,6,7"
group.long 0xC8++0x3
line.long 0x00 "CDC_VP_A,"
hexmask.long.word 0x00 3.--15. 1. " FWDBITPTR_15_3                    ,FWDBITPTR Interlace Field B picture"
group.long 0xC8++0x3
line.long 0x00 "MP4_WORK7,MP4 WORK7 register"
hexmask.long.word 0x00 16.--31. 1. " MVP31                             ,MVP[3][1]: Motion Vector Predictors for B-VOP (field backward bottom motion vector predictor)"
hexmask.long.word 0x00 0.--15. 1. "        MVP30                               ,MVP[3][0]: Motion Vector Predictors for B-VOP (field backward bottom motion vector predictor)"
group.long 0xC8++0x3
line.long 0x00 "UVLD_TBL_TYPE,Setting for UVLD code table"
bitfld.long 0x00 29. " UVLD_AC_CHROMA                    ,Indicating type of UVLD code table for AC-chroma data. 0: zero-leading. 1: one-leading." "0,1"
bitfld.long 0x00 24.--28. "           UVLD_AC_CHROMA_LEN_MAX              ,This data defines maximum code length of universal VLD code table for AC-chroma. The ECD H/W checks this value only in decoder of RAM mode. Maximum value is 16 (0x10), which is restriction of JPEG standard." "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 21. "               UVLD_AC_LUMA                        ,Indicating type of UVLD code table for AC-luma data. 0: zero-leading. 1: one-leading" "0,1"
textline "                             "
bitfld.long 0x00 16.--20. " UVLD_AC_LUMA_LEN_MAX              ,This data defines maximum code length of universal VLD code table for AC-luma. The ECD H/W checks this value only in decoder of RAM mode." "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 13. "  UVLD_DC_CHROMA                      ,Indicating type of UVLD code table for DC-chroma data. 0: zero-leading. 1: one-leading" "0,1"
bitfld.long 0x00 8.--12. "                        UVLD_DC_CHROMA_LEN_MAX              ,This data defines maximum code length of universal VLD code table for DC-chroma. The ECD H/W checks this value only in decoder of RAM mode. Maximum value is 16 (0x10), which is restriction of..." "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
textline "                             "
bitfld.long 0x00 5. " UVLD_DC_LUMA                      ,Indicating type of UVLD code table for DC-luma data. 0: zero-leading 1: one-leading" "0,1"
bitfld.long 0x00 0.--4. "           UVLD_DC_LUMA_LEN_MAX                ,This data defines maximum code length of universal VLD code table for DC-luma. The ECD H/W checks this value only in decoder of RAM mode. Maximum value is 16 (0x10), which is restriction of JPEG standard." "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
group.long 0xCC++0x3
line.long 0x00 "DC_PRED_CHROMA,JPEG DC PRED Chroma register - TI internal"
hexmask.long.word 0x00 16.--31. 1. " DC_PRED_CB                        ,Chrominance (Cb) DC prediction value is stored in register. H/W regards this value as previous DC value (source of DC prediction) except in a block just after restart marker. In case other than TI internal test, this..."
hexmask.long.word 0x00 0.--15. 1. "        DC_PRED_CR                          ,Chrominance (Cr) DC prediction value is stored in register. H/W regards this value as previous DC value (source of DC prediction) except in a block just after restart marker. In case other than TI internal t..."
rgroup.long 0xF0++0x3
line.long 0x00 "CMDP_GPR0,Command Processor General Purpose Register 0"
hexmask.long 0x00 0.--31. 1. " GPR0                              ,Command Processor General purpose registers (GPR0, GPR1, and GPR2) are 32-bit registers which can be used freely. They are accessible through these addresses."
rgroup.long 0xF4++0x3
line.long 0x00 "CMDP_GPR1,Command Processor General Purpose Register 1"
hexmask.long 0x00 0.--31. 1. " GPR1                              ,Command Processor General purpose registers (GPR0, GPR1, and GPR2) are 32-bit registers which can be used freely. They are accessible through these addresses."
rgroup.long 0xF8++0x3
line.long 0x00 "CMDP_GPR2,Command Processor General Purpose Register 2"
hexmask.long 0x00 0.--31. 1. " GPR2                              ,Command Processor General purpose registers (GPR0, GPR1, and GPR2) are 32-bit registers which can be used freely. They are accessible through these addresses."
width 0x0B
tree.end
tree.end
tree.open "ECD3_IPGW_ICONT"
sif (cpuis("TDA2XIVA"))
tree "ECD3_IPGW_ICONT"
base ad:0xD9C00
width 23.
group.long 0x8++0x3
line.long 0x00 "ECD3_SYSCONFIG,Clock management configuration"
bitfld.long 0x00 2.--3. " IDLEMODE    ,Configuration of the local target state management mode. By definition, target can handle read/write transaction as long as it is out of IDLE state. 0x0: Force-idle mode: local target's idle state follows (acknowledges) the system's idle ..." "0,1,2,3"
bitfld.long 0x00 1. "  FREEEMU ,Sensitivity to emulation (debug) suspend input signal. 0x0: IP module is sensitive to emulation suspend 0x1: IP module is not sensitive to emulation suspend" "0,1"
bitfld.long 0x00 0. "  SOFTRESET ,Software reset Read 0x0: Reset done, no pending action Read 0x1: Reset (software or other) on going Write 0x0: No action Write 0x1: Initiate software reset" "0,1"
group.long 0xC++0x3
line.long 0x00 "ECD3_IRQ_EOI,End Of Interrupt number specification"
bitfld.long 0x00 0.--2. " LINE_NUMBER ,Software End Of Interrupt (EOI) control. Write number of interrupt output. Write 0x0: EOI for interrupt output line #0 Write 0x1: EOI for interrupt output line #1 Write 0x2: EOI for interrupt output line #2 Write 0x3: EOI for interrupt ou..." "0,1,2,3,4,5,6,7"
group.long 0x14++0x3
line.long 0x00 "ECD3_IPQSTATUS_RAW_0,Per-event raw interrupt status vector, line #0. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " EVENT0      ,settable raw status for event #0 Write 0x0: No action Read 0x0: No event pending Read 0x1: Event pending Write 0x1: Set event (debug)" "0,1"
group.long 0x18++0x3
line.long 0x00 "ECD3_IPQSTATUS_RAW_1,Per-event raw interrupt status vector, line #1. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " EVENT0      ,settable raw status for event #0 Write 0x0: No action Read 0x0: No event pending Read 0x1: Event pending Write 0x1: Set event (debug)" "0,1"
group.long 0x1C++0x3
line.long 0x00 "ECD3_IPQSTATUS_RAW_2,Per-event raw interrupt status vector, line #2. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " EVENT0      ,settable raw status for event #0 Write 0x0: No action Read 0x0: No event pending Read 0x1: Event pending Write 0x1: Set event (debug)" "0,1"
group.long 0x20++0x3
line.long 0x00 "ECD3_IPQSTATUS_RAW_3,Per-event raw interrupt status vector, line #3. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 1. " EVENT1      ,settable raw status for event #1 Write 0x0: No action Read 0x0: No event pending Read 0x1: Event pending Write 0x1: Set event (debug)" "0,1"
bitfld.long 0x00 0. "  EVENT0  ,settable raw status for event #0 Write 0x0: No action Read 0x0: No event pending Read 0x1: Event pending Write 0x1: Set event (debug)" "0,1"
group.long 0x24++0x3
line.long 0x00 "ECD3_IPQSTATUS_RAW_4,Per-event raw interrupt status vector, line #0. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " EVENT0      ,settable raw status for event #0 Write 0x0: No action Read 0x0: No event pending Read 0x1: Event pending Write 0x1: Set event (debug)" "0,1"
group.long 0x28++0x3
line.long 0x00 "ECD3_IPQSTATUS_RAW_5,Per-event raw interrupt status vector, line #0. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " EVENT0      ,settable raw status for event #0 Write 0x0: No action Read 0x0: No event pending Read 0x1: Event pending Write 0x1: Set event (debug)" "0,1"
group.long 0x2C++0x3
line.long 0x00 "ECD3_IPQSTATUS_RAW_6,Per-event raw interrupt status vector, line #0. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 1. " EVENT1      ,settable raw status for event #1 Write 0x0: No action Read 0x0: No event pending Read 0x1: Event pending Write 0x1: Set event (debug)" "0,1"
bitfld.long 0x00 0. "  EVENT0  ,settable raw status for event #0 Write 0x0: No action Read 0x0: No event pending Read 0x1: Event pending Write 0x1: Set event (debug)" "0,1"
group.long 0x30++0x3
line.long 0x00 "ECD3_IRQSTATUS_0,Per-event 'enabled' interrupt status vector, line #0. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " EVENT0      ,clearable, enabled status for event #0 Write 0x0: No action Read 0x0: No (enabled) event pending Read 0x1: Event pending Write 0x1: Clear (raw) event" "0,1"
group.long 0x34++0x3
line.long 0x00 "ECD3_IRQSTATUS_1,Per-event 'enabled' interrupt status vector, line #1. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " EVENT0      ,clearable, enabled status for event #0 Write 0x0: No action Read 0x0: No (enabled) event pending Read 0x1: Event pending Write 0x1: Clear (raw) event" "0,1"
group.long 0x38++0x3
line.long 0x00 "ECD3_IRQSTATUS_2,Per-event 'enabled' interrupt status vector, line #2. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " EVENT0      ,clearable, enabled status for event #0 Write 0x0: No action Read 0x0: No (enabled) event pending Read 0x1: Event pending Write 0x1: Clear (raw) event" "0,1"
group.long 0x3C++0x3
line.long 0x00 "ECD3_IRQSTATUS_3,Per-event 'enabled' interrupt status vector, line #3. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 1. " EVENT1      ,clearable, enabled status for event #1 Write 0x0: No action Read 0x0: No (enabled) event pending Read 0x1: Event pending Write 0x1: Clear (raw) event" "0,1"
eventfld.long 0x00 0. "  EVENT0  ,clearable, enabled status for event #0 Write 0x0: No action Read 0x0: No (enabled) event pending Read 0x1: Event pending Write 0x1: Clear (raw) event" "0,1"
group.long 0x40++0x3
line.long 0x00 "ECD3_IRQSTATUS_4,Per-event 'enabled' interrupt status vector, line #0. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " EVENT0      ,clearable, enabled status for event #0 Write 0x0: No action Read 0x0: No (enabled) event pending Read 0x1: Event pending Write 0x1: Clear (raw) event" "0,1"
group.long 0x44++0x3
line.long 0x00 "ECD3_IRQSTATUS_5,Per-event 'enabled' interrupt status vector, line #0. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " EVENT0      ,clearable, enabled status for event #0 Write 0x0: No action Read 0x0: No (enabled) event pending Read 0x1: Event pending Write 0x1: Clear (raw) event" "0,1"
group.long 0x48++0x3
line.long 0x00 "ECD3_IRQSTATUS_6,Per-event 'enabled' interrupt status vector, line #3. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 1. " EVENT1      ,clearable, enabled status for event #1 Write 0x0: No action Read 0x0: No (enabled) event pending Read 0x1: Event pending Write 0x1: Clear (raw) event" "0,1"
eventfld.long 0x00 0. "  EVENT0  ,clearable, enabled status for event #0 Write 0x0: No action Read 0x0: No (enabled) event pending Read 0x1: Event pending Write 0x1: Clear (raw) event" "0,1"
group.long 0x4C++0x3
line.long 0x00 "ECD3_IRQENABLE_SET_0,Per-event interrupt enable bit vector, line #0. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0     ,Enable for event #0. Write 0x0: No action Write 0x1: Enable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
group.long 0x50++0x3
line.long 0x00 "ECD3_IRQENABLE_SET_1,Per-event interrupt enable bit vector, line #1. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0     ,Enable for event #0. Write 0x0: No action Write 0x1: Enable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
group.long 0x54++0x3
line.long 0x00 "ECD3_IRQENABLE_SET_2,Per-event interrupt enable bit vector, line #2. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0     ,Enable for event #0. Write 0x0: No action Write 0x1: Enable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
group.long 0x58++0x3
line.long 0x00 "ECD3_IRQENABLE_SET_3,Per-event interrupt enable bit vector, line #0. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 1. " ENABLE1     ,Enable for event #1. Write 0x0: No action Write 0x1: Enable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
bitfld.long 0x00 0. "  ENABLE0 ,Enable for event #0. Write 0x0: No action Write 0x1: Enable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
group.long 0x5C++0x3
line.long 0x00 "ECD3_IRQENABLE_SET_4,Per-event interrupt enable bit vector, line #0. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0     ,Enable for event #0. Write 0x0: No action Write 0x1: Enable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
group.long 0x60++0x3
line.long 0x00 "ECD3_IRQENABLE_SET_5,Per-event interrupt enable bit vector, line #0. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0     ,Enable for event #0. Write 0x0: No action Write 0x1: Enable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
group.long 0x64++0x3
line.long 0x00 "ECD3_IRQENABLE_SET_6,Per-event interrupt enable bit vector, line #0. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 1. " ENABLE1     ,Enable for event #1. Write 0x0: No action Write 0x1: Enable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
bitfld.long 0x00 0. "  ENABLE0 ,Enable for event #0. Write 0x0: No action Write 0x1: Enable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
group.long 0x68++0x3
line.long 0x00 "ECD3_IRQENABLE_CLR_0,Per-event interrupt enable bit vector, line #0. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0     ,Enable for event #0. Write 0x0: No action Write 0x1: Disable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
group.long 0x6C++0x3
line.long 0x00 "ECD3_IRQENABLE_CLR_1,Per-event interrupt enable bit vector, line #1. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0     ,Enable for event #0. Write 0x0: No action Write 0x1: Disable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
group.long 0x70++0x3
line.long 0x00 "ECD3_IRQENABLE_CLR_2,Per-event interrupt enable bit vector, line #2. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0     ,Enable for event #0. Write 0x0: No action Write 0x1: Disable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
group.long 0x74++0x3
line.long 0x00 "ECD3_IRQENABLE_CLR_3,Per-event interrupt enable bit vector, line #2. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 1. " ENABLE1     ,Enable for event #1. Write 0x0: No action Write 0x1: Disable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
eventfld.long 0x00 0. "  ENABLE0 ,Enable for event #0. Write 0x0: No action Write 0x1: Disable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
group.long 0x78++0x3
line.long 0x00 "ECD3_IRQENABLE_CLR_4,Per-event interrupt enable bit vector, line #0. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0     ,Enable for event #0. Write 0x0: No action Write 0x1: Disable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
group.long 0x7C++0x3
line.long 0x00 "ECD3_IRQENABLE_CLR_5,Per-event interrupt enable bit vector, line #0. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0     ,Enable for event #0. Write 0x0: No action Write 0x1: Disable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
group.long 0x80++0x3
line.long 0x00 "ECD3_IRQENABLE_CLR_6,Per-event interrupt enable bit vector, line #2. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 1. " ENABLE1     ,Enable for event #1. Write 0x0: No action Write 0x1: Disable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
eventfld.long 0x00 0. "  ENABLE0 ,Enable for event #0. Write 0x0: No action Write 0x1: Disable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
group.long 0xC0++0x3
line.long 0x00 "ECD3_IRQSTATUS_ACLREN,Auto Clear enable"
bitfld.long 0x00 6. " ACLREN6     ,For line 6" "0,1"
bitfld.long 0x00 5. "  ACLREN5 ,For line 5" "0,1"
bitfld.long 0x00 4. "  ACLREN4   ,For line 4" "0,1"
textline "                                "
bitfld.long 0x00 3. " ACLREN3     ,For line 3" "0,1"
bitfld.long 0x00 2. "  ACLREN2 ,For line 2" "0,1"
bitfld.long 0x00 1. "  ACLREN1   ,For line 1" "0,1"
textline "                                "
bitfld.long 0x00 0. " ACLREN0     ,For line 0" "0,1"
width 0x0B
tree.end
endif
tree "ECD3_IPGW_L3_MAINInterconnect"
base ad:0x5A059C00
width 23.
group.long 0x8++0x3
line.long 0x00 "ECD3_SYSCONFIG,Clock management configuration"
bitfld.long 0x00 2.--3. " IDLEMODE    ,Configuration of the local target state management mode. By definition, target can handle read/write transaction as long as it is out of IDLE state. 0x0: Force-idle mode: local target's idle state follows (acknowledges) the system's idle ..." "0,1,2,3"
bitfld.long 0x00 1. "  FREEEMU ,Sensitivity to emulation (debug) suspend input signal. 0x0: IP module is sensitive to emulation suspend 0x1: IP module is not sensitive to emulation suspend" "0,1"
bitfld.long 0x00 0. "  SOFTRESET ,Software reset Read 0x0: Reset done, no pending action Read 0x1: Reset (software or other) on going Write 0x0: No action Write 0x1: Initiate software reset" "0,1"
group.long 0xC++0x3
line.long 0x00 "ECD3_IRQ_EOI,End Of Interrupt number specification"
bitfld.long 0x00 0.--2. " LINE_NUMBER ,Software End Of Interrupt (EOI) control. Write number of interrupt output. Write 0x0: EOI for interrupt output line #0 Write 0x1: EOI for interrupt output line #1 Write 0x2: EOI for interrupt output line #2 Write 0x3: EOI for interrupt ou..." "0,1,2,3,4,5,6,7"
group.long 0x14++0x3
line.long 0x00 "ECD3_IPQSTATUS_RAW_0,Per-event raw interrupt status vector, line #0. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " EVENT0      ,settable raw status for event #0 Write 0x0: No action Read 0x0: No event pending Read 0x1: Event pending Write 0x1: Set event (debug)" "0,1"
group.long 0x18++0x3
line.long 0x00 "ECD3_IPQSTATUS_RAW_1,Per-event raw interrupt status vector, line #1. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " EVENT0      ,settable raw status for event #0 Write 0x0: No action Read 0x0: No event pending Read 0x1: Event pending Write 0x1: Set event (debug)" "0,1"
group.long 0x1C++0x3
line.long 0x00 "ECD3_IPQSTATUS_RAW_2,Per-event raw interrupt status vector, line #2. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " EVENT0      ,settable raw status for event #0 Write 0x0: No action Read 0x0: No event pending Read 0x1: Event pending Write 0x1: Set event (debug)" "0,1"
group.long 0x20++0x3
line.long 0x00 "ECD3_IPQSTATUS_RAW_3,Per-event raw interrupt status vector, line #3. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 1. " EVENT1      ,settable raw status for event #1 Write 0x0: No action Read 0x0: No event pending Read 0x1: Event pending Write 0x1: Set event (debug)" "0,1"
bitfld.long 0x00 0. "  EVENT0  ,settable raw status for event #0 Write 0x0: No action Read 0x0: No event pending Read 0x1: Event pending Write 0x1: Set event (debug)" "0,1"
group.long 0x24++0x3
line.long 0x00 "ECD3_IPQSTATUS_RAW_4,Per-event raw interrupt status vector, line #0. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " EVENT0      ,settable raw status for event #0 Write 0x0: No action Read 0x0: No event pending Read 0x1: Event pending Write 0x1: Set event (debug)" "0,1"
group.long 0x28++0x3
line.long 0x00 "ECD3_IPQSTATUS_RAW_5,Per-event raw interrupt status vector, line #0. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 0. " EVENT0      ,settable raw status for event #0 Write 0x0: No action Read 0x0: No event pending Read 0x1: Event pending Write 0x1: Set event (debug)" "0,1"
group.long 0x2C++0x3
line.long 0x00 "ECD3_IPQSTATUS_RAW_6,Per-event raw interrupt status vector, line #0. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 1. " EVENT1      ,settable raw status for event #1 Write 0x0: No action Read 0x0: No event pending Read 0x1: Event pending Write 0x1: Set event (debug)" "0,1"
bitfld.long 0x00 0. "  EVENT0  ,settable raw status for event #0 Write 0x0: No action Read 0x0: No event pending Read 0x1: Event pending Write 0x1: Set event (debug)" "0,1"
group.long 0x30++0x3
line.long 0x00 "ECD3_IRQSTATUS_0,Per-event 'enabled' interrupt status vector, line #0. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " EVENT0      ,clearable, enabled status for event #0 Write 0x0: No action Read 0x0: No (enabled) event pending Read 0x1: Event pending Write 0x1: Clear (raw) event" "0,1"
group.long 0x34++0x3
line.long 0x00 "ECD3_IRQSTATUS_1,Per-event 'enabled' interrupt status vector, line #1. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " EVENT0      ,clearable, enabled status for event #0 Write 0x0: No action Read 0x0: No (enabled) event pending Read 0x1: Event pending Write 0x1: Clear (raw) event" "0,1"
group.long 0x38++0x3
line.long 0x00 "ECD3_IRQSTATUS_2,Per-event 'enabled' interrupt status vector, line #2. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " EVENT0      ,clearable, enabled status for event #0 Write 0x0: No action Read 0x0: No (enabled) event pending Read 0x1: Event pending Write 0x1: Clear (raw) event" "0,1"
group.long 0x3C++0x3
line.long 0x00 "ECD3_IRQSTATUS_3,Per-event 'enabled' interrupt status vector, line #3. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 1. " EVENT1      ,clearable, enabled status for event #1 Write 0x0: No action Read 0x0: No (enabled) event pending Read 0x1: Event pending Write 0x1: Clear (raw) event" "0,1"
eventfld.long 0x00 0. "  EVENT0  ,clearable, enabled status for event #0 Write 0x0: No action Read 0x0: No (enabled) event pending Read 0x1: Event pending Write 0x1: Clear (raw) event" "0,1"
group.long 0x40++0x3
line.long 0x00 "ECD3_IRQSTATUS_4,Per-event 'enabled' interrupt status vector, line #0. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " EVENT0      ,clearable, enabled status for event #0 Write 0x0: No action Read 0x0: No (enabled) event pending Read 0x1: Event pending Write 0x1: Clear (raw) event" "0,1"
group.long 0x44++0x3
line.long 0x00 "ECD3_IRQSTATUS_5,Per-event 'enabled' interrupt status vector, line #0. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 0. " EVENT0      ,clearable, enabled status for event #0 Write 0x0: No action Read 0x0: No (enabled) event pending Read 0x1: Event pending Write 0x1: Clear (raw) event" "0,1"
group.long 0x48++0x3
line.long 0x00 "ECD3_IRQSTATUS_6,Per-event 'enabled' interrupt status vector, line #3. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled)."
eventfld.long 0x00 1. " EVENT1      ,clearable, enabled status for event #1 Write 0x0: No action Read 0x0: No (enabled) event pending Read 0x1: Event pending Write 0x1: Clear (raw) event" "0,1"
eventfld.long 0x00 0. "  EVENT0  ,clearable, enabled status for event #0 Write 0x0: No action Read 0x0: No (enabled) event pending Read 0x1: Event pending Write 0x1: Clear (raw) event" "0,1"
group.long 0x4C++0x3
line.long 0x00 "ECD3_IRQENABLE_SET_0,Per-event interrupt enable bit vector, line #0. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0     ,Enable for event #0. Write 0x0: No action Write 0x1: Enable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
group.long 0x50++0x3
line.long 0x00 "ECD3_IRQENABLE_SET_1,Per-event interrupt enable bit vector, line #1. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0     ,Enable for event #0. Write 0x0: No action Write 0x1: Enable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
group.long 0x54++0x3
line.long 0x00 "ECD3_IRQENABLE_SET_2,Per-event interrupt enable bit vector, line #2. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0     ,Enable for event #0. Write 0x0: No action Write 0x1: Enable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
group.long 0x58++0x3
line.long 0x00 "ECD3_IRQENABLE_SET_3,Per-event interrupt enable bit vector, line #0. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 1. " ENABLE1     ,Enable for event #1. Write 0x0: No action Write 0x1: Enable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
bitfld.long 0x00 0. "  ENABLE0 ,Enable for event #0. Write 0x0: No action Write 0x1: Enable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
group.long 0x5C++0x3
line.long 0x00 "ECD3_IRQENABLE_SET_4,Per-event interrupt enable bit vector, line #0. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0     ,Enable for event #0. Write 0x0: No action Write 0x1: Enable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
group.long 0x60++0x3
line.long 0x00 "ECD3_IRQENABLE_SET_5,Per-event interrupt enable bit vector, line #0. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 0. " ENABLE0     ,Enable for event #0. Write 0x0: No action Write 0x1: Enable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
group.long 0x64++0x3
line.long 0x00 "ECD3_IRQENABLE_SET_6,Per-event interrupt enable bit vector, line #0. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 1. " ENABLE1     ,Enable for event #1. Write 0x0: No action Write 0x1: Enable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
bitfld.long 0x00 0. "  ENABLE0 ,Enable for event #0. Write 0x0: No action Write 0x1: Enable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
group.long 0x68++0x3
line.long 0x00 "ECD3_IRQENABLE_CLR_0,Per-event interrupt enable bit vector, line #0. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0     ,Enable for event #0. Write 0x0: No action Write 0x1: Disable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
group.long 0x6C++0x3
line.long 0x00 "ECD3_IRQENABLE_CLR_1,Per-event interrupt enable bit vector, line #1. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0     ,Enable for event #0. Write 0x0: No action Write 0x1: Disable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
group.long 0x70++0x3
line.long 0x00 "ECD3_IRQENABLE_CLR_2,Per-event interrupt enable bit vector, line #2. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0     ,Enable for event #0. Write 0x0: No action Write 0x1: Disable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
group.long 0x74++0x3
line.long 0x00 "ECD3_IRQENABLE_CLR_3,Per-event interrupt enable bit vector, line #2. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 1. " ENABLE1     ,Enable for event #1. Write 0x0: No action Write 0x1: Disable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
eventfld.long 0x00 0. "  ENABLE0 ,Enable for event #0. Write 0x0: No action Write 0x1: Disable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
group.long 0x78++0x3
line.long 0x00 "ECD3_IRQENABLE_CLR_4,Per-event interrupt enable bit vector, line #0. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0     ,Enable for event #0. Write 0x0: No action Write 0x1: Disable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
group.long 0x7C++0x3
line.long 0x00 "ECD3_IRQENABLE_CLR_5,Per-event interrupt enable bit vector, line #0. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 0. " ENABLE0     ,Enable for event #0. Write 0x0: No action Write 0x1: Disable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
group.long 0x80++0x3
line.long 0x00 "ECD3_IRQENABLE_CLR_6,Per-event interrupt enable bit vector, line #2. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 1. " ENABLE1     ,Enable for event #1. Write 0x0: No action Write 0x1: Disable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
eventfld.long 0x00 0. "  ENABLE0 ,Enable for event #0. Write 0x0: No action Write 0x1: Disable interrupt Read 0x0: Interrupt disabled (masked) Read 0x1: Interrupt enabled" "0,1"
group.long 0xC0++0x3
line.long 0x00 "ECD3_IRQSTATUS_ACLREN,Auto Clear enable"
bitfld.long 0x00 6. " ACLREN6     ,For line 6" "0,1"
bitfld.long 0x00 5. "  ACLREN5 ,For line 5" "0,1"
bitfld.long 0x00 4. "  ACLREN4   ,For line 4" "0,1"
textline "                                "
bitfld.long 0x00 3. " ACLREN3     ,For line 3" "0,1"
bitfld.long 0x00 2. "  ACLREN2 ,For line 2" "0,1"
bitfld.long 0x00 1. "  ACLREN1   ,For line 1" "0,1"
textline "                                "
bitfld.long 0x00 0. " ACLREN0     ,For line 0" "0,1"
width 0x0B
tree.end
tree.end
tree.open "ECD3_LSE_ICONT"
sif (cpuis("TDA2XIVA"))
tree "ECD3_LSE_ICONT"
base ad:0xD9B00
width 11.
group.long 0x0++0x3
line.long 0x00 "LSE_CTRL,Controller"
bitfld.long 0x00 12. " INT_EOS_THRU      ,int_eos through bit 0 : LSE does the process for slice boundary after receiving int_eos. 1 : int_eos is passed through to SYNCBOX without the process for slice boundary." "0,1"
bitfld.long 0x00 9.--11. "     OCP_ERR           ,OCP error status bit [11]: OCP DMA IP_CORE side [10]: OCP DMA SL2 side [9] : OCP CFG IP_CORE side 0: When Sresp is not ERR 1: When Sresp is ERR. Writing 0 is ignored These bits will remain 1 until RESET or until Host sets to 1." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8. "     ADPTV_VALUE  ,Status Adaptv_add() value This signal is cleared, if Token_clr=1." "0,1"
textline "                    "
bitfld.long 0x00 7. " TOKEN_CLR         ,LSE internal signals will be initialized to understand prologue(1st MB) as below: . -token status signal -token start/end signal -DMA pointer Writing 0 is ignored. Writing 1 will clear some internal signal. This is a self- clearing ..." "0,1"
bitfld.long 0x00 6. "     SSM               ,Single Step Mode 1 : Enable Single Step Mdde 0 : Normal Mode" "0,1"
bitfld.long 0x00 5. "     BFSW_CHG_DIS ,Disabled internal BFSW change 0 : Enable internal bfsw change (default) Then, LSE controls BFSW after LD task finished. 1 : Disable BFSW change (If Host want to control BFSW with each task step by step with LD_GO, Comp_GO and ST_GO.)" "0,1"
textline "                    "
bitfld.long 0x00 4. " CSB               ,Command Status Bit 0 : LSE command is defined 1 : LSE command is undefined Writing 0 is ignored These bits will remain 1 until RESET or Token_clr or until Host sets to 1." "0,1"
bitfld.long 0x00 3. "     LD_GO             ,Execute LOAD task on Byps mode Target ParamAddr_ld_byps need to set before this bit is set. 1: Execute 'LD task'. LSE access to ParamAddr_ld_byps and execute the command for LOAD task. 0 : Idle Writing 0 is ignored This bit is c..." "0,1"
bitfld.long 0x00 2. "     COMP_GO      ,Execute Comp task on Byps mode 1: Execute 'Comp task'. In the single step mode, LSE access to ParamAddr_ld_byps and execute the command for Comp task. In the normal mode, LSE executes COMP commands followed by LD commands. 0 : Idle W..." "0,1"
textline "                    "
bitfld.long 0x00 1. " ST_GO             ,Execute Store task on Byps mode Target ParamAddr_st_byps need to set before this bit is set. 1: Execute 'Store task'. LSE access to ParamAddr_st_byps and execute the command for Store task. 0 : Idle Writing 0 is ignored This bit is ..." "0,1"
bitfld.long 0x00 0. "     SB_BYPS           ,Sync-Box Byps mode: 1 : LSE functions SYNCBOX bypass mode and executes the task of go_bit. 0 : LSE function normal SYNCBOX mode and waits NewTaskSignal. This value must not change during execution." "0,1"
group.long 0x4++0x3
line.long 0x00 "LSE_PARAM,Parameter address for SB Bypass mode"
hexmask.long.word 0x00 16.--31. 1. " PARAMADDR_LD_BYPS ,Only used in the bypass mode. Address of the first command of LD and COMP sequence [128-bit word unit]. This is 128-bit word address, not byte address. The conversion from byte address to 128-bit word address must be done by CPU. If..."
hexmask.long.word 0x00 0.--15. 1. "  PARAMADDR_ST_BYPS ,Only used in the bypass mode. Address of the first command of ST sequence [128-bit word unit]. This is 128-bit word address, not byte address. The conversion from byte address to 128-bit word address must be done by CPU. IfLSE_CTRL..."
width 0x0B
tree.end
endif
tree "ECD3_LSE_L3_MAINInterconnect"
base ad:0x5A059B00
width 11.
group.long 0x0++0x3
line.long 0x00 "LSE_CTRL,Controller"
bitfld.long 0x00 12. " INT_EOS_THRU      ,int_eos through bit 0 : LSE does the process for slice boundary after receiving int_eos. 1 : int_eos is passed through to SYNCBOX without the process for slice boundary." "0,1"
bitfld.long 0x00 9.--11. "     OCP_ERR           ,OCP error status bit [11]: OCP DMA IP_CORE side [10]: OCP DMA SL2 side [9] : OCP CFG IP_CORE side 0: When Sresp is not ERR 1: When Sresp is ERR. Writing 0 is ignored These bits will remain 1 until RESET or until Host sets to 1." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8. "     ADPTV_VALUE  ,Status Adaptv_add() value This signal is cleared, if Token_clr=1." "0,1"
textline "                    "
bitfld.long 0x00 7. " TOKEN_CLR         ,LSE internal signals will be initialized to understand prologue(1st MB) as below: . -token status signal -token start/end signal -DMA pointer Writing 0 is ignored. Writing 1 will clear some internal signal. This is a self- clearing ..." "0,1"
bitfld.long 0x00 6. "     SSM               ,Single Step Mode 1 : Enable Single Step Mdde 0 : Normal Mode" "0,1"
bitfld.long 0x00 5. "     BFSW_CHG_DIS ,Disabled internal BFSW change 0 : Enable internal bfsw change (default) Then, LSE controls BFSW after LD task finished. 1 : Disable BFSW change (If Host want to control BFSW with each task step by step with LD_GO, Comp_GO and ST_GO.)" "0,1"
textline "                    "
bitfld.long 0x00 4. " CSB               ,Command Status Bit 0 : LSE command is defined 1 : LSE command is undefined Writing 0 is ignored These bits will remain 1 until RESET or Token_clr or until Host sets to 1." "0,1"
bitfld.long 0x00 3. "     LD_GO             ,Execute LOAD task on Byps mode Target ParamAddr_ld_byps need to set before this bit is set. 1: Execute 'LD task'. LSE access to ParamAddr_ld_byps and execute the command for LOAD task. 0 : Idle Writing 0 is ignored This bit is c..." "0,1"
bitfld.long 0x00 2. "     COMP_GO      ,Execute Comp task on Byps mode 1: Execute 'Comp task'. In the single step mode, LSE access to ParamAddr_ld_byps and execute the command for Comp task. In the normal mode, LSE executes COMP commands followed by LD commands. 0 : Idle W..." "0,1"
textline "                    "
bitfld.long 0x00 1. " ST_GO             ,Execute Store task on Byps mode Target ParamAddr_st_byps need to set before this bit is set. 1: Execute 'Store task'. LSE access to ParamAddr_st_byps and execute the command for Store task. 0 : Idle Writing 0 is ignored This bit is ..." "0,1"
bitfld.long 0x00 0. "     SB_BYPS           ,Sync-Box Byps mode: 1 : LSE functions SYNCBOX bypass mode and executes the task of go_bit. 0 : LSE function normal SYNCBOX mode and waits NewTaskSignal. This value must not change during execution." "0,1"
group.long 0x4++0x3
line.long 0x00 "LSE_PARAM,Parameter address for SB Bypass mode"
hexmask.long.word 0x00 16.--31. 1. " PARAMADDR_LD_BYPS ,Only used in the bypass mode. Address of the first command of LD and COMP sequence [128-bit word unit]. This is 128-bit word address, not byte address. The conversion from byte address to 128-bit word address must be done by CPU. If..."
hexmask.long.word 0x00 0.--15. 1. "  PARAMADDR_ST_BYPS ,Only used in the bypass mode. Address of the first command of ST sequence [128-bit word unit]. This is 128-bit word address, not byte address. The conversion from byte address to 128-bit word address must be done by CPU. IfLSE_CTRL..."
width 0x0B
tree.end
tree.end
tree.open "ECD3_BFSW_ICONT"
sif (cpuis("TDA2XIVA"))
tree "ECD3_BFSW_ICONT"
base ad:0xD9A00
width 10.
group.long 0x0++0x3
line.long 0x00 "VIEWMODE,View Mode Register. It selects full-view mode or ping-pong view mode."
hexmask.long 0x00 2.--31. 1. " RSRV          ,Reserved. 0 will be returned at Read, and Write will be ignored."
bitfld.long 0x00 1. "  VIEW_ERSDBUF  ,View mode selection for ersdbuf. 0x0: Full view mode is selected. 0x1: Ping-pong view mode is selected." "0,1"
bitfld.long 0x00 0. "  VIEW_ECDABUF  ,View mode selection for ecdabuf. 0x0: Full view mode is selected. 0x1: Ping-pong view mode is selected." "0,1"
group.long 0x4++0x3
line.long 0x00 "MSTID1,Master ID 1 Register Select master between HWA and DMA bus. This register is used in both full view and ping-pong view mode. This register is for buffers which has two physical memories. This register is affected by direct_switch_pi input port."
hexmask.long 0x00 4.--31. 1. " RSRV          ,Reserved. 0 will be returned at Read, and Write will be ignored."
bitfld.long 0x00 3. "  MST_ERSDBUF_B ,Master selection for ersdbuf B. This bit is used in only ping-pong view mode. 0x0: Buffer B is assigned to DMA 0x1: Buffer B is assigned to HWA. This bit has no effect in full view mode. If direct_switch_pi is high, the value of this b..." "0,1"
bitfld.long 0x00 2. "  MST_ERSDBUF_A ,Master selection for ersdbuf A. This bit is used in both full view and ping-pong view mode. In full view mode: 0x0: In full view mode, both buffer A and B are assigned to DMA 0x1: Both buffer A and B are assigned to HWA. In ping-pong v..." "0,1"
textline "                   "
bitfld.long 0x00 1. " MST_ECDABUF_B ,Master selection for ecdabuf B. This bit is used in only ping-pong view mode. 0x0: Buffer B is assigned to DMA 0x1: Buffer B is assigned to HWA. This bit has no effect in full view mode. If direct_switch_pi is high, the value of this bi..." "0,1"
bitfld.long 0x00 0. "         MST_ECDABUF_A ,Master selection for ecdabuf A. This bit is used in both full view and ping-pong view mode. In full view mode: 0x0: Both buffer A and B are assigned to DMA 0x1: Both buffer A and B are assigned to HWA. In ping-pong view mode: 0x..." "0,1"
group.long 0x8++0x3
line.long 0x00 "MSTID2,Master ID 1 Register Select master between HWA and DMA bus. This register is for buffers which has only one physical memory. This register is NOT affected by direct_switch_pi input port."
hexmask.long 0x00 1.--31. 1. " RSRV          ,Reserved. 0 will be returned at Read, and Write will be ignored."
bitfld.long 0x00 0. "  MST_ECDWBUF   ,Master selection for ecdwbuf. 0x0: The buffer is assigned to DMA 0x1:The buffer is assigned to HWA." "0,1"
width 0x0B
tree.end
endif
tree "ECD3_BFSW_L3_MAINInterconnect"
base ad:0x5A059A00
width 10.
group.long 0x0++0x3
line.long 0x00 "VIEWMODE,View Mode Register. It selects full-view mode or ping-pong view mode."
hexmask.long 0x00 2.--31. 1. " RSRV          ,Reserved. 0 will be returned at Read, and Write will be ignored."
bitfld.long 0x00 1. "  VIEW_ERSDBUF  ,View mode selection for ersdbuf. 0x0: Full view mode is selected. 0x1: Ping-pong view mode is selected." "0,1"
bitfld.long 0x00 0. "  VIEW_ECDABUF  ,View mode selection for ecdabuf. 0x0: Full view mode is selected. 0x1: Ping-pong view mode is selected." "0,1"
group.long 0x4++0x3
line.long 0x00 "MSTID1,Master ID 1 Register Select master between HWA and DMA bus. This register is used in both full view and ping-pong view mode. This register is for buffers which has two physical memories. This register is affected by direct_switch_pi input port."
hexmask.long 0x00 4.--31. 1. " RSRV          ,Reserved. 0 will be returned at Read, and Write will be ignored."
bitfld.long 0x00 3. "  MST_ERSDBUF_B ,Master selection for ersdbuf B. This bit is used in only ping-pong view mode. 0x0: Buffer B is assigned to DMA 0x1: Buffer B is assigned to HWA. This bit has no effect in full view mode. If direct_switch_pi is high, the value of this b..." "0,1"
bitfld.long 0x00 2. "  MST_ERSDBUF_A ,Master selection for ersdbuf A. This bit is used in both full view and ping-pong view mode. In full view mode: 0x0: In full view mode, both buffer A and B are assigned to DMA 0x1: Both buffer A and B are assigned to HWA. In ping-pong v..." "0,1"
textline "                   "
bitfld.long 0x00 1. " MST_ECDABUF_B ,Master selection for ecdabuf B. This bit is used in only ping-pong view mode. 0x0: Buffer B is assigned to DMA 0x1: Buffer B is assigned to HWA. This bit has no effect in full view mode. If direct_switch_pi is high, the value of this bi..." "0,1"
bitfld.long 0x00 0. "         MST_ECDABUF_A ,Master selection for ecdabuf A. This bit is used in both full view and ping-pong view mode. In full view mode: 0x0: Both buffer A and B are assigned to DMA 0x1: Both buffer A and B are assigned to HWA. In ping-pong view mode: 0x..." "0,1"
group.long 0x8++0x3
line.long 0x00 "MSTID2,Master ID 1 Register Select master between HWA and DMA bus. This register is for buffers which has only one physical memory. This register is NOT affected by direct_switch_pi input port."
hexmask.long 0x00 1.--31. 1. " RSRV          ,Reserved. 0 will be returned at Read, and Write will be ignored."
bitfld.long 0x00 0. "  MST_ECDWBUF   ,Master selection for ecdwbuf. 0x0: The buffer is assigned to DMA 0x1:The buffer is assigned to HWA." "0,1"
width 0x0B
tree.end
tree.end
tree.end
tree.open "Dual_Cortex_M4_IPU_Subsystem"
tree.open "IPU2_UNICACHE_SCTM"
tree "IPU2_UNICACHE_SCTM"
base ad:0x55080400
tree "Channel_0"
width 25.
rgroup.long 0x180++0x3
line.long 0x00 "CACHE_SCTM_CTCNTR_k_0,These registers contain the value of an individual counter in the module. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x108++0x3
line.long 0x00 "CACHE_SCTM_CTCR_WOT_j_0,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter input selection - . 1?31: Index of event input signal selected. - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "        CHNSDW  ,Counter has a shadow register for chain reads. - . - ." "0,1"
bitfld.long 0x00 6. "          OVRFLW  ,Counter has wrapped since it was last read - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 5. " IDLE     ,Counter ignores processor IDLE state - . - ." "0,1"
bitfld.long 0x00 4. "         FREE    ,Counter ignores processor debug halt state - . - ." "0,1"
bitfld.long 0x00 3. "          DURMODE ,Counter is in duration or occurrence mode - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 2. " CHAIN    ,Counter is chained to an adjacent counter - . - ." "0,1"
bitfld.long 0x00 1. "         RESET   ,Counter reset control - . - ." "No_effect,1"
bitfld.long 0x00 0. "  ENBL    ,Counter enable control - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "CACHE_SCTM_CTCR_WT_i_0,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WT: with timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection - . 1-31: Index of event input signal selected. - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match - . - ." "0,1"
bitfld.long 0x00 9. "          DBG     ,Signal debug logic on interval match - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match - . - ." "0,1"
bitfld.long 0x00 7. "         CHNSDW  ,Counter has a shadow register for chain reads. - . - ." "0,1"
bitfld.long 0x00 6. "          OVRFLW  ,Counter has wrapped since it was last read - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 5. " IDLE     ,Counter ignores processor IDLE state - . - ." "0,1"
bitfld.long 0x00 4. "         FREE    ,Counter ignores processor debug halt state - . - ." "0,1"
bitfld.long 0x00 3. "          DURMODE ,Counter is in duration or occurrence mode - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 2. " CHAIN    ,Counter is chained to an adjacent counter - . - ." "0,Reserved"
bitfld.long 0x00 1. "  RESET   ,Counter reset control - . - ." "No_effect,1"
bitfld.long 0x00 0. "  ENBL    ,Counter enable control - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "CACHE_SCTM_TINTVLR_i_0,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
tree "Channel_1"
width 25.
rgroup.long 0x184++0x3
line.long 0x00 "CACHE_SCTM_CTCNTR_k_1,These registers contain the value of an individual counter in the module. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x10C++0x3
line.long 0x00 "CACHE_SCTM_CTCR_WOT_j_1,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter input selection - . 1?31: Index of event input signal selected. - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "        CHNSDW  ,Counter has a shadow register for chain reads. - . - ." "0,1"
bitfld.long 0x00 6. "          OVRFLW  ,Counter has wrapped since it was last read - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 5. " IDLE     ,Counter ignores processor IDLE state - . - ." "0,1"
bitfld.long 0x00 4. "         FREE    ,Counter ignores processor debug halt state - . - ." "0,1"
bitfld.long 0x00 3. "          DURMODE ,Counter is in duration or occurrence mode - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 2. " CHAIN    ,Counter is chained to an adjacent counter - . - ." "0,1"
bitfld.long 0x00 1. "         RESET   ,Counter reset control - . - ." "No_effect,1"
bitfld.long 0x00 0. "  ENBL    ,Counter enable control - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "CACHE_SCTM_CTCR_WT_i_1,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WT: with timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection - . 1-31: Index of event input signal selected. - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match - . - ." "0,1"
bitfld.long 0x00 9. "          DBG     ,Signal debug logic on interval match - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match - . - ." "0,1"
bitfld.long 0x00 7. "         CHNSDW  ,Counter has a shadow register for chain reads. - . - ." "0,1"
bitfld.long 0x00 6. "          OVRFLW  ,Counter has wrapped since it was last read - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 5. " IDLE     ,Counter ignores processor IDLE state - . - ." "0,1"
bitfld.long 0x00 4. "         FREE    ,Counter ignores processor debug halt state - . - ." "0,1"
bitfld.long 0x00 3. "          DURMODE ,Counter is in duration or occurrence mode - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 2. " CHAIN    ,Counter is chained to an adjacent counter - . - ." "0,Reserved"
bitfld.long 0x00 1. "  RESET   ,Counter reset control - . - ." "No_effect,1"
bitfld.long 0x00 0. "  ENBL    ,Counter enable control - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "CACHE_SCTM_TINTVLR_i_1,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
tree "Channel_2"
width 25.
rgroup.long 0x188++0x3
line.long 0x00 "CACHE_SCTM_CTCNTR_k_2,These registers contain the value of an individual counter in the module. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT  ,Counter value"
group.long 0x110++0x3
line.long 0x00 "CACHE_SCTM_CTCR_WOT_j_2,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL ,Counter input selection - . 1?31: Index of event input signal selected. - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "        CHNSDW ,Counter has a shadow register for chain reads. - . - ." "0,1"
bitfld.long 0x00 6. "          OVRFLW  ,Counter has wrapped since it was last read - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 5. " IDLE   ,Counter ignores processor IDLE state - . - ." "0,1"
bitfld.long 0x00 4. "         FREE   ,Counter ignores processor debug halt state - . - ." "0,1"
bitfld.long 0x00 3. "          DURMODE ,Counter is in duration or occurrence mode - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 2. " CHAIN  ,Counter is chained to an adjacent counter - . - ." "0,1"
bitfld.long 0x00 1. "         RESET  ,Counter reset control - . - ." "No_effect,1"
bitfld.long 0x00 0. "  ENBL    ,Counter enable control - . - ." "0,1"
tree.end
tree "Channel_3"
width 25.
rgroup.long 0x18C++0x3
line.long 0x00 "CACHE_SCTM_CTCNTR_k_3,These registers contain the value of an individual counter in the module. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT  ,Counter value"
group.long 0x114++0x3
line.long 0x00 "CACHE_SCTM_CTCR_WOT_j_3,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL ,Counter input selection - . 1?31: Index of event input signal selected. - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "        CHNSDW ,Counter has a shadow register for chain reads. - . - ." "0,1"
bitfld.long 0x00 6. "          OVRFLW  ,Counter has wrapped since it was last read - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 5. " IDLE   ,Counter ignores processor IDLE state - . - ." "0,1"
bitfld.long 0x00 4. "         FREE   ,Counter ignores processor debug halt state - . - ." "0,1"
bitfld.long 0x00 3. "          DURMODE ,Counter is in duration or occurrence mode - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 2. " CHAIN  ,Counter is chained to an adjacent counter - . - ." "0,1"
bitfld.long 0x00 1. "         RESET  ,Counter reset control - . - ." "No_effect,1"
bitfld.long 0x00 0. "  ENBL    ,Counter enable control - . - ." "0,1"
tree.end
tree "Channel_4"
width 25.
rgroup.long 0x190++0x3
line.long 0x00 "CACHE_SCTM_CTCNTR_k_4,These registers contain the value of an individual counter in the module. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT  ,Counter value"
group.long 0x118++0x3
line.long 0x00 "CACHE_SCTM_CTCR_WOT_j_4,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL ,Counter input selection - . 1?31: Index of event input signal selected. - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "        CHNSDW ,Counter has a shadow register for chain reads. - . - ." "0,1"
bitfld.long 0x00 6. "          OVRFLW  ,Counter has wrapped since it was last read - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 5. " IDLE   ,Counter ignores processor IDLE state - . - ." "0,1"
bitfld.long 0x00 4. "         FREE   ,Counter ignores processor debug halt state - . - ." "0,1"
bitfld.long 0x00 3. "          DURMODE ,Counter is in duration or occurrence mode - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 2. " CHAIN  ,Counter is chained to an adjacent counter - . - ." "0,1"
bitfld.long 0x00 1. "         RESET  ,Counter reset control - . - ." "No_effect,1"
bitfld.long 0x00 0. "  ENBL    ,Counter enable control - . - ." "0,1"
tree.end
tree "Channel_5"
width 25.
rgroup.long 0x194++0x3
line.long 0x00 "CACHE_SCTM_CTCNTR_k_5,These registers contain the value of an individual counter in the module. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT  ,Counter value"
group.long 0x11C++0x3
line.long 0x00 "CACHE_SCTM_CTCR_WOT_j_5,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL ,Counter input selection - . 1?31: Index of event input signal selected. - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "        CHNSDW ,Counter has a shadow register for chain reads. - . - ." "0,1"
bitfld.long 0x00 6. "          OVRFLW  ,Counter has wrapped since it was last read - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 5. " IDLE   ,Counter ignores processor IDLE state - . - ." "0,1"
bitfld.long 0x00 4. "         FREE   ,Counter ignores processor debug halt state - . - ." "0,1"
bitfld.long 0x00 3. "          DURMODE ,Counter is in duration or occurrence mode - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 2. " CHAIN  ,Counter is chained to an adjacent counter - . - ." "0,1"
bitfld.long 0x00 1. "         RESET  ,Counter reset control - . - ." "No_effect,1"
bitfld.long 0x00 0. "  ENBL    ,Counter enable control - . - ." "0,1"
rgroup.long 0x198++0x3
line.long 0x00 "CACHE_SCTM_CTCNTR_k_6,These registers contain the value of an individual counter in the module. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT  ,Counter value"
rgroup.long 0x19C++0x3
line.long 0x00 "CACHE_SCTM_CTCNTR_k_7,These registers contain the value of an individual counter in the module. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT  ,Counter value"
tree.end
textline ""
width 21.
group.long 0x0++0x3
line.long 0x00 "CACHE_SCTM_CTCNTL,"
bitfld.long 0x00 26.--31. " NUMSTM  ,Number of timers that can export via STM" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 18.--25. 1. "  NUMINPT  ,Number of event input signals"
bitfld.long 0x00 13.--17. "  NUMTIMR  ,Number of timers in the module" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                              "
bitfld.long 0x00 7.--12. " NUMCNTR ,Number of counters in the module" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 3.--6. "  REVISION ,Revision ID of SCTM" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 1.--2. "  IDLEMODE ,Idle mode control - . - . - . - ." "Force_Idle_mode,1,2,3"
textline "                              "
bitfld.long 0x00 0. " ENBL    ,SCTM global enable - . - ." "0,1"
rgroup.long 0x7C++0x3
line.long 0x00 "CACHE_SCTM_CTDBGNUM,Counter Timer Number Debug Event Register"
bitfld.long 0x00 0.--2. " NUMEVT  ,Number of input selectors for debug events" "0,1,2,3,4,5,6,7"
group.long 0xF0++0x3
line.long 0x00 "CACHE_SCTM_CTGNBL,These registers provide for simultaneous enable/disable of 32 counters"
hexmask.long.byte 0x00 0.--7. 1. " ENABLE  ,The counter enable bit field"
group.long 0xF8++0x3
line.long 0x00 "CACHE_SCTM_CTGRST,These registers provide for simultaneous reset of 32 counters"
hexmask.long.byte 0x00 0.--7. 1. " RESET   ,The counter reset bit field"
width 0x0B
tree.end
tree "IPU1_UNICACHE_SCTM"
base ad:0x58880400
tree "Channel_0"
width 25.
rgroup.long 0x180++0x3
line.long 0x00 "CACHE_SCTM_CTCNTR_k_0,These registers contain the value of an individual counter in the module. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x108++0x3
line.long 0x00 "CACHE_SCTM_CTCR_WOT_j_0,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter input selection - . 1?31: Index of event input signal selected. - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "        CHNSDW  ,Counter has a shadow register for chain reads. - . - ." "0,1"
bitfld.long 0x00 6. "          OVRFLW  ,Counter has wrapped since it was last read - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 5. " IDLE     ,Counter ignores processor IDLE state - . - ." "0,1"
bitfld.long 0x00 4. "         FREE    ,Counter ignores processor debug halt state - . - ." "0,1"
bitfld.long 0x00 3. "          DURMODE ,Counter is in duration or occurrence mode - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 2. " CHAIN    ,Counter is chained to an adjacent counter - . - ." "0,1"
bitfld.long 0x00 1. "         RESET   ,Counter reset control - . - ." "No_effect,1"
bitfld.long 0x00 0. "  ENBL    ,Counter enable control - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "CACHE_SCTM_CTCR_WT_i_0,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WT: with timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection - . 1-31: Index of event input signal selected. - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match - . - ." "0,1"
bitfld.long 0x00 9. "          DBG     ,Signal debug logic on interval match - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match - . - ." "0,1"
bitfld.long 0x00 7. "         CHNSDW  ,Counter has a shadow register for chain reads. - . - ." "0,1"
bitfld.long 0x00 6. "          OVRFLW  ,Counter has wrapped since it was last read - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 5. " IDLE     ,Counter ignores processor IDLE state - . - ." "0,1"
bitfld.long 0x00 4. "         FREE    ,Counter ignores processor debug halt state - . - ." "0,1"
bitfld.long 0x00 3. "          DURMODE ,Counter is in duration or occurrence mode - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 2. " CHAIN    ,Counter is chained to an adjacent counter - . - ." "0,Reserved"
bitfld.long 0x00 1. "  RESET   ,Counter reset control - . - ." "No_effect,1"
bitfld.long 0x00 0. "  ENBL    ,Counter enable control - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "CACHE_SCTM_TINTVLR_i_0,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
tree "Channel_1"
width 25.
rgroup.long 0x184++0x3
line.long 0x00 "CACHE_SCTM_CTCNTR_k_1,These registers contain the value of an individual counter in the module. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x10C++0x3
line.long 0x00 "CACHE_SCTM_CTCR_WOT_j_1,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter input selection - . 1?31: Index of event input signal selected. - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "        CHNSDW  ,Counter has a shadow register for chain reads. - . - ." "0,1"
bitfld.long 0x00 6. "          OVRFLW  ,Counter has wrapped since it was last read - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 5. " IDLE     ,Counter ignores processor IDLE state - . - ." "0,1"
bitfld.long 0x00 4. "         FREE    ,Counter ignores processor debug halt state - . - ." "0,1"
bitfld.long 0x00 3. "          DURMODE ,Counter is in duration or occurrence mode - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 2. " CHAIN    ,Counter is chained to an adjacent counter - . - ." "0,1"
bitfld.long 0x00 1. "         RESET   ,Counter reset control - . - ." "No_effect,1"
bitfld.long 0x00 0. "  ENBL    ,Counter enable control - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "CACHE_SCTM_CTCR_WT_i_1,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WT: with timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection - . 1-31: Index of event input signal selected. - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match - . - ." "0,1"
bitfld.long 0x00 9. "          DBG     ,Signal debug logic on interval match - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match - . - ." "0,1"
bitfld.long 0x00 7. "         CHNSDW  ,Counter has a shadow register for chain reads. - . - ." "0,1"
bitfld.long 0x00 6. "          OVRFLW  ,Counter has wrapped since it was last read - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 5. " IDLE     ,Counter ignores processor IDLE state - . - ." "0,1"
bitfld.long 0x00 4. "         FREE    ,Counter ignores processor debug halt state - . - ." "0,1"
bitfld.long 0x00 3. "          DURMODE ,Counter is in duration or occurrence mode - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 2. " CHAIN    ,Counter is chained to an adjacent counter - . - ." "0,Reserved"
bitfld.long 0x00 1. "  RESET   ,Counter reset control - . - ." "No_effect,1"
bitfld.long 0x00 0. "  ENBL    ,Counter enable control - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "CACHE_SCTM_TINTVLR_i_1,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
tree "Channel_2"
width 25.
rgroup.long 0x188++0x3
line.long 0x00 "CACHE_SCTM_CTCNTR_k_2,These registers contain the value of an individual counter in the module. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT  ,Counter value"
group.long 0x110++0x3
line.long 0x00 "CACHE_SCTM_CTCR_WOT_j_2,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL ,Counter input selection - . 1?31: Index of event input signal selected. - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "        CHNSDW ,Counter has a shadow register for chain reads. - . - ." "0,1"
bitfld.long 0x00 6. "          OVRFLW  ,Counter has wrapped since it was last read - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 5. " IDLE   ,Counter ignores processor IDLE state - . - ." "0,1"
bitfld.long 0x00 4. "         FREE   ,Counter ignores processor debug halt state - . - ." "0,1"
bitfld.long 0x00 3. "          DURMODE ,Counter is in duration or occurrence mode - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 2. " CHAIN  ,Counter is chained to an adjacent counter - . - ." "0,1"
bitfld.long 0x00 1. "         RESET  ,Counter reset control - . - ." "No_effect,1"
bitfld.long 0x00 0. "  ENBL    ,Counter enable control - . - ." "0,1"
tree.end
tree "Channel_3"
width 25.
rgroup.long 0x18C++0x3
line.long 0x00 "CACHE_SCTM_CTCNTR_k_3,These registers contain the value of an individual counter in the module. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT  ,Counter value"
group.long 0x114++0x3
line.long 0x00 "CACHE_SCTM_CTCR_WOT_j_3,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL ,Counter input selection - . 1?31: Index of event input signal selected. - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "        CHNSDW ,Counter has a shadow register for chain reads. - . - ." "0,1"
bitfld.long 0x00 6. "          OVRFLW  ,Counter has wrapped since it was last read - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 5. " IDLE   ,Counter ignores processor IDLE state - . - ." "0,1"
bitfld.long 0x00 4. "         FREE   ,Counter ignores processor debug halt state - . - ." "0,1"
bitfld.long 0x00 3. "          DURMODE ,Counter is in duration or occurrence mode - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 2. " CHAIN  ,Counter is chained to an adjacent counter - . - ." "0,1"
bitfld.long 0x00 1. "         RESET  ,Counter reset control - . - ." "No_effect,1"
bitfld.long 0x00 0. "  ENBL    ,Counter enable control - . - ." "0,1"
tree.end
tree "Channel_4"
width 25.
rgroup.long 0x190++0x3
line.long 0x00 "CACHE_SCTM_CTCNTR_k_4,These registers contain the value of an individual counter in the module. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT  ,Counter value"
group.long 0x118++0x3
line.long 0x00 "CACHE_SCTM_CTCR_WOT_j_4,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL ,Counter input selection - . 1?31: Index of event input signal selected. - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "        CHNSDW ,Counter has a shadow register for chain reads. - . - ." "0,1"
bitfld.long 0x00 6. "          OVRFLW  ,Counter has wrapped since it was last read - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 5. " IDLE   ,Counter ignores processor IDLE state - . - ." "0,1"
bitfld.long 0x00 4. "         FREE   ,Counter ignores processor debug halt state - . - ." "0,1"
bitfld.long 0x00 3. "          DURMODE ,Counter is in duration or occurrence mode - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 2. " CHAIN  ,Counter is chained to an adjacent counter - . - ." "0,1"
bitfld.long 0x00 1. "         RESET  ,Counter reset control - . - ." "No_effect,1"
bitfld.long 0x00 0. "  ENBL    ,Counter enable control - . - ." "0,1"
tree.end
tree "Channel_5"
width 25.
rgroup.long 0x194++0x3
line.long 0x00 "CACHE_SCTM_CTCNTR_k_5,These registers contain the value of an individual counter in the module. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT  ,Counter value"
group.long 0x11C++0x3
line.long 0x00 "CACHE_SCTM_CTCR_WOT_j_5,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL ,Counter input selection - . 1?31: Index of event input signal selected. - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "        CHNSDW ,Counter has a shadow register for chain reads. - . - ." "0,1"
bitfld.long 0x00 6. "          OVRFLW  ,Counter has wrapped since it was last read - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 5. " IDLE   ,Counter ignores processor IDLE state - . - ." "0,1"
bitfld.long 0x00 4. "         FREE   ,Counter ignores processor debug halt state - . - ." "0,1"
bitfld.long 0x00 3. "          DURMODE ,Counter is in duration or occurrence mode - . - ." "0,1"
textline "                                  "
bitfld.long 0x00 2. " CHAIN  ,Counter is chained to an adjacent counter - . - ." "0,1"
bitfld.long 0x00 1. "         RESET  ,Counter reset control - . - ." "No_effect,1"
bitfld.long 0x00 0. "  ENBL    ,Counter enable control - . - ." "0,1"
rgroup.long 0x198++0x3
line.long 0x00 "CACHE_SCTM_CTCNTR_k_6,These registers contain the value of an individual counter in the module. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT  ,Counter value"
rgroup.long 0x19C++0x3
line.long 0x00 "CACHE_SCTM_CTCNTR_k_7,These registers contain the value of an individual counter in the module. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT  ,Counter value"
tree.end
textline ""
width 21.
group.long 0x0++0x3
line.long 0x00 "CACHE_SCTM_CTCNTL,"
bitfld.long 0x00 26.--31. " NUMSTM  ,Number of timers that can export via STM" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 18.--25. 1. "  NUMINPT  ,Number of event input signals"
bitfld.long 0x00 13.--17. "  NUMTIMR  ,Number of timers in the module" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                              "
bitfld.long 0x00 7.--12. " NUMCNTR ,Number of counters in the module" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 3.--6. "  REVISION ,Revision ID of SCTM" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 1.--2. "  IDLEMODE ,Idle mode control - . - . - . - ." "Force_Idle_mode,1,2,3"
textline "                              "
bitfld.long 0x00 0. " ENBL    ,SCTM global enable - . - ." "0,1"
rgroup.long 0x7C++0x3
line.long 0x00 "CACHE_SCTM_CTDBGNUM,Counter Timer Number Debug Event Register"
bitfld.long 0x00 0.--2. " NUMEVT  ,Number of input selectors for debug events" "0,1,2,3,4,5,6,7"
group.long 0xF0++0x3
line.long 0x00 "CACHE_SCTM_CTGNBL,These registers provide for simultaneous enable/disable of 32 counters"
hexmask.long.byte 0x00 0.--7. 1. " ENABLE  ,The counter enable bit field"
group.long 0xF8++0x3
line.long 0x00 "CACHE_SCTM_CTGRST,These registers provide for simultaneous reset of 32 counters"
hexmask.long.byte 0x00 0.--7. 1. " RESET   ,The counter reset bit field"
width 0x0B
tree.end
tree.end
tree.open "IPU2_UNICACHE_MMU"
tree "IPU2_UNICACHE_MMU"
base ad:0x55080800
tree "Channel_0"
width 28.
group.long 0x0++0x3
line.long 0x00 "CACHE_MMU_LARGE_ADDR_i_0,Large page address"
hexmask.long.byte 0x00 25.--31. 1. " ADDRESS      ,Logical source address"
group.long 0x40++0x3
line.long 0x00 "CACHE_MMU_LARGE_POLICY_i_0,Large page policy"
bitfld.long 0x00 23. " L2_WR_POLICY ,L2 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 22. "              L2_ALLOCATE  ,L2 allocate policy - . - ." "0,Follow_sideband"
bitfld.long 0x00 21. "            L2_POSTED   ,L2 posted policy - . - ." "Not_posted,Posted"
textline "                                     "
bitfld.long 0x00 20. " L2_CACHEABLE ,L2 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 19. "              L1_WR_POLICY ,L1 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 18. "              L1_ALLOCATE ,L1 allocate policy - . - ." "0,Follow_sideband"
textline "                                     "
bitfld.long 0x00 17. " L1_POSTED    ,L1 posted policy - . - ." "Not_posted,Posted"
bitfld.long 0x00 16. "                 L1_CACHEABLE ,L1 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 7. "              EXCLUSION   ,Cache exclusion - . - ." "0,Send_exclusion_sideband"
textline "                                     "
bitfld.long 0x00 6. " PRELOAD      ,Preload region - . - ." "Do_not_preload,Preload"
bitfld.long 0x00 5. "             READ         ,Read only" "0,1"
bitfld.long 0x00 4. "                          EXECUTE     ,Execute only" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VOLATILE     ,Volatile qualifier - . - ." "0,Follow_volatile_qualifier"
bitfld.long 0x00 1. "  SIZE         ,Size of page - . - ." "32_MiB,512_MiB"
bitfld.long 0x00 0. "                    ENABLE      ,Enable page - . - ." "Page_not_enabled,Page_enabled"
group.long 0x20++0x3
line.long 0x00 "CACHE_MMU_LARGE_XLTE_i_0,Large page translated address"
hexmask.long.byte 0x00 25.--31. 1. " ADDRESS      ,Logical source translated address"
bitfld.long 0x00 0. "                         IGNORE       ,Do not use translated address." "0,1"
group.long 0x60++0x3
line.long 0x00 "CACHE_MMU_MED_ADDR_j_0,Medium page address"
hexmask.long.word 0x00 17.--31. 1. " ADDRESS      ,Logical source address"
group.long 0xE0++0x3
line.long 0x00 "CACHE_MMU_MED_POLICY_j_0,Medium page policy"
bitfld.long 0x00 23. " L2_WR_POLICY ,L2 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 22. "              L2_ALLOCATE  ,L2 allocate policy - . - ." "0,Follow_sideband"
bitfld.long 0x00 21. "            L2_POSTED   ,L2 posted policy - . - ." "Non-posted,Posted"
textline "                                     "
bitfld.long 0x00 20. " L2_CACHEABLE ,L2 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 19. "              L1_WR_POLICY ,L1 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 18. "              L1_ALLOCATE ,L1 allocate policy - . - ." "0,Follow_sideband"
textline "                                     "
bitfld.long 0x00 17. " L1_POSTED    ,L1 posted policy - . - ." "Non-posted,Posted"
bitfld.long 0x00 16. "                 L1_CACHEABLE ,L1 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 7. "              EXCLUSION   ,Cache exclusion - . - ." "0,Send_exclusion_sideband"
textline "                                     "
bitfld.long 0x00 6. " PRELOAD      ,Preload region - . - ." "Do_not_preload,Preload"
bitfld.long 0x00 5. "             READ         ,Read only" "0,1"
bitfld.long 0x00 4. "                          EXECUTE     ,Execute only" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VOLATILE     ,Volatile qualifier - . - ." "0,Follow_volatile_qualifier"
bitfld.long 0x00 1. "  SIZE         ,Size of page - . - ." "128_KiB,256_KiB"
bitfld.long 0x00 0. "                    ENABLE      ,Enable page - . - ." "Page_not_enabled,Page_enabled"
group.long 0xA0++0x3
line.long 0x00 "CACHE_MMU_MED_XLTE_j_0,Medium page translated address"
hexmask.long.word 0x00 17.--31. 1. " ADDRESS      ,Logical source translated address"
bitfld.long 0x00 0. "                       IGNORE       ,Do not use translated address." "0,1"
group.long 0x120++0x3
line.long 0x00 "CACHE_MMU_SMALL_ADDR_k_0,Small page address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source address"
group.long 0x2A0++0x3
line.long 0x00 "CACHE_MMU_SMALL_MAINT_k_0,Small page maintenance configuration"
bitfld.long 0x00 4. " INTERRUPT    ,Generate interrupt when maintenance operation is complete" "0,1"
bitfld.long 0x00 3. "                          INVALIDATE   ,Invalidate page" "0,1"
bitfld.long 0x00 2. "                          CLEAN       ,Evict page" "0,1"
textline "                                     "
bitfld.long 0x00 1. " LOCK         ,Lock page" "0,1"
bitfld.long 0x00 0. "                          PRELOAD      ,Preload page" "0,1"
group.long 0x220++0x3
line.long 0x00 "CACHE_MMU_SMALL_POLICY_k_0,Small page policy"
bitfld.long 0x00 23. " L2_WR_POLICY ,L2 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 22. "              L2_ALLOCATE  ,L2 allocate policy - . - ." "0,Follow_sideband"
bitfld.long 0x00 21. "            L2_POSTED   ,L2 posted policy - . - ." "Non-posted,Posted"
textline "                                     "
bitfld.long 0x00 20. " L2_CACHEABLE ,L2 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 19. "              L1_WR_POLICY ,L1 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 18. "              L1_ALLOCATE ,L1 allocate policy - . - ." "0,Follow_sideband"
textline "                                     "
bitfld.long 0x00 17. " L1_POSTED    ,L1 posted policy - . - ." "Non-posted,Posted"
bitfld.long 0x00 16. "                 L1_CACHEABLE ,L1 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 8. "              COHERENCY   ,Coherency" "0,1"
textline "                                     "
bitfld.long 0x00 7. " EXCLUSION    ,Cache exclusion - . - ." "0,Send_exclusion_sideband"
bitfld.long 0x00 6. "    PRELOAD      ,Preload region - . - ." "Do_not_preload,Preload"
bitfld.long 0x00 5. "             READ        ,Read only" "0,1"
textline "                                     "
bitfld.long 0x00 4. " EXECUTE      ,Execute only" "0,1"
bitfld.long 0x00 3. "                          VOLATILE     ,Volatile qualifier - . - ." "0,Follow_volatile_qualifier"
bitfld.long 0x00 1. "  SIZE        ,Size of page - . - ." "4_KiB,16_KiB"
textline "                                     "
bitfld.long 0x00 0. " ENABLE       ,Enable page - . - ." "Page_not_enabled,Page_enabled"
group.long 0x1A0++0x3
line.long 0x00 "CACHE_MMU_SMALL_XLTE_k_0,Small page translated address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source translated address"
bitfld.long 0x00 0. "                     IGNORE       ,Do not use translated address." "0,1"
tree.end
tree "Channel_1"
width 28.
group.long 0x4++0x3
line.long 0x00 "CACHE_MMU_LARGE_ADDR_i_1,Large page address"
hexmask.long.byte 0x00 25.--31. 1. " ADDRESS      ,Logical source address"
group.long 0x44++0x3
line.long 0x00 "CACHE_MMU_LARGE_POLICY_i_1,Large page policy"
bitfld.long 0x00 23. " L2_WR_POLICY ,L2 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 22. "              L2_ALLOCATE  ,L2 allocate policy - . - ." "0,Follow_sideband"
bitfld.long 0x00 21. "            L2_POSTED   ,L2 posted policy - . - ." "Not_posted,Posted"
textline "                                     "
bitfld.long 0x00 20. " L2_CACHEABLE ,L2 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 19. "              L1_WR_POLICY ,L1 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 18. "              L1_ALLOCATE ,L1 allocate policy - . - ." "0,Follow_sideband"
textline "                                     "
bitfld.long 0x00 17. " L1_POSTED    ,L1 posted policy - . - ." "Not_posted,Posted"
bitfld.long 0x00 16. "                 L1_CACHEABLE ,L1 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 7. "              EXCLUSION   ,Cache exclusion - . - ." "0,Send_exclusion_sideband"
textline "                                     "
bitfld.long 0x00 6. " PRELOAD      ,Preload region - . - ." "Do_not_preload,Preload"
bitfld.long 0x00 5. "             READ         ,Read only" "0,1"
bitfld.long 0x00 4. "                          EXECUTE     ,Execute only" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VOLATILE     ,Volatile qualifier - . - ." "0,Follow_volatile_qualifier"
bitfld.long 0x00 1. "  SIZE         ,Size of page - . - ." "32_MiB,512_MiB"
bitfld.long 0x00 0. "                    ENABLE      ,Enable page - . - ." "Page_not_enabled,Page_enabled"
group.long 0x24++0x3
line.long 0x00 "CACHE_MMU_LARGE_XLTE_i_1,Large page translated address"
hexmask.long.byte 0x00 25.--31. 1. " ADDRESS      ,Logical source translated address"
bitfld.long 0x00 0. "                         IGNORE       ,Do not use translated address." "0,1"
group.long 0x64++0x3
line.long 0x00 "CACHE_MMU_MED_ADDR_j_1,Medium page address"
hexmask.long.word 0x00 17.--31. 1. " ADDRESS      ,Logical source address"
group.long 0xE4++0x3
line.long 0x00 "CACHE_MMU_MED_POLICY_j_1,Medium page policy"
bitfld.long 0x00 23. " L2_WR_POLICY ,L2 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 22. "              L2_ALLOCATE  ,L2 allocate policy - . - ." "0,Follow_sideband"
bitfld.long 0x00 21. "            L2_POSTED   ,L2 posted policy - . - ." "Non-posted,Posted"
textline "                                     "
bitfld.long 0x00 20. " L2_CACHEABLE ,L2 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 19. "              L1_WR_POLICY ,L1 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 18. "              L1_ALLOCATE ,L1 allocate policy - . - ." "0,Follow_sideband"
textline "                                     "
bitfld.long 0x00 17. " L1_POSTED    ,L1 posted policy - . - ." "Non-posted,Posted"
bitfld.long 0x00 16. "                 L1_CACHEABLE ,L1 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 7. "              EXCLUSION   ,Cache exclusion - . - ." "0,Send_exclusion_sideband"
textline "                                     "
bitfld.long 0x00 6. " PRELOAD      ,Preload region - . - ." "Do_not_preload,Preload"
bitfld.long 0x00 5. "             READ         ,Read only" "0,1"
bitfld.long 0x00 4. "                          EXECUTE     ,Execute only" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VOLATILE     ,Volatile qualifier - . - ." "0,Follow_volatile_qualifier"
bitfld.long 0x00 1. "  SIZE         ,Size of page - . - ." "128_KiB,256_KiB"
bitfld.long 0x00 0. "                    ENABLE      ,Enable page - . - ." "Page_not_enabled,Page_enabled"
group.long 0xA4++0x3
line.long 0x00 "CACHE_MMU_MED_XLTE_j_1,Medium page translated address"
hexmask.long.word 0x00 17.--31. 1. " ADDRESS      ,Logical source translated address"
bitfld.long 0x00 0. "                       IGNORE       ,Do not use translated address." "0,1"
group.long 0x124++0x3
line.long 0x00 "CACHE_MMU_SMALL_ADDR_k_1,Small page address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source address"
group.long 0x2A4++0x3
line.long 0x00 "CACHE_MMU_SMALL_MAINT_k_1,Small page maintenance configuration"
bitfld.long 0x00 4. " INTERRUPT    ,Generate interrupt when maintenance operation is complete" "0,1"
bitfld.long 0x00 3. "                          INVALIDATE   ,Invalidate page" "0,1"
bitfld.long 0x00 2. "                          CLEAN       ,Evict page" "0,1"
textline "                                     "
bitfld.long 0x00 1. " LOCK         ,Lock page" "0,1"
bitfld.long 0x00 0. "                          PRELOAD      ,Preload page" "0,1"
group.long 0x224++0x3
line.long 0x00 "CACHE_MMU_SMALL_POLICY_k_1,Small page policy"
bitfld.long 0x00 23. " L2_WR_POLICY ,L2 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 22. "              L2_ALLOCATE  ,L2 allocate policy - . - ." "0,Follow_sideband"
bitfld.long 0x00 21. "            L2_POSTED   ,L2 posted policy - . - ." "Non-posted,Posted"
textline "                                     "
bitfld.long 0x00 20. " L2_CACHEABLE ,L2 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 19. "              L1_WR_POLICY ,L1 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 18. "              L1_ALLOCATE ,L1 allocate policy - . - ." "0,Follow_sideband"
textline "                                     "
bitfld.long 0x00 17. " L1_POSTED    ,L1 posted policy - . - ." "Non-posted,Posted"
bitfld.long 0x00 16. "                 L1_CACHEABLE ,L1 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 8. "              COHERENCY   ,Coherency" "0,1"
textline "                                     "
bitfld.long 0x00 7. " EXCLUSION    ,Cache exclusion - . - ." "0,Send_exclusion_sideband"
bitfld.long 0x00 6. "    PRELOAD      ,Preload region - . - ." "Do_not_preload,Preload"
bitfld.long 0x00 5. "             READ        ,Read only" "0,1"
textline "                                     "
bitfld.long 0x00 4. " EXECUTE      ,Execute only" "0,1"
bitfld.long 0x00 3. "                          VOLATILE     ,Volatile qualifier - . - ." "0,Follow_volatile_qualifier"
bitfld.long 0x00 1. "  SIZE        ,Size of page - . - ." "4_KiB,16_KiB"
textline "                                     "
bitfld.long 0x00 0. " ENABLE       ,Enable page - . - ." "Page_not_enabled,Page_enabled"
group.long 0x1A4++0x3
line.long 0x00 "CACHE_MMU_SMALL_XLTE_k_1,Small page translated address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source translated address"
bitfld.long 0x00 0. "                     IGNORE       ,Do not use translated address." "0,1"
tree.end
tree "Channel_2"
width 28.
group.long 0x8++0x3
line.long 0x00 "CACHE_MMU_LARGE_ADDR_i_2,Large page address"
hexmask.long.byte 0x00 25.--31. 1. " ADDRESS      ,Logical source address"
group.long 0x48++0x3
line.long 0x00 "CACHE_MMU_LARGE_POLICY_i_2,Large page policy"
bitfld.long 0x00 23. " L2_WR_POLICY ,L2 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 22. "              L2_ALLOCATE  ,L2 allocate policy - . - ." "0,Follow_sideband"
bitfld.long 0x00 21. "            L2_POSTED   ,L2 posted policy - . - ." "Not_posted,Posted"
textline "                                     "
bitfld.long 0x00 20. " L2_CACHEABLE ,L2 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 19. "              L1_WR_POLICY ,L1 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 18. "              L1_ALLOCATE ,L1 allocate policy - . - ." "0,Follow_sideband"
textline "                                     "
bitfld.long 0x00 17. " L1_POSTED    ,L1 posted policy - . - ." "Not_posted,Posted"
bitfld.long 0x00 16. "                 L1_CACHEABLE ,L1 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 7. "              EXCLUSION   ,Cache exclusion - . - ." "0,Send_exclusion_sideband"
textline "                                     "
bitfld.long 0x00 6. " PRELOAD      ,Preload region - . - ." "Do_not_preload,Preload"
bitfld.long 0x00 5. "             READ         ,Read only" "0,1"
bitfld.long 0x00 4. "                          EXECUTE     ,Execute only" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VOLATILE     ,Volatile qualifier - . - ." "0,Follow_volatile_qualifier"
bitfld.long 0x00 1. "  SIZE         ,Size of page - . - ." "32_MiB,512_MiB"
bitfld.long 0x00 0. "                    ENABLE      ,Enable page - . - ." "Page_not_enabled,Page_enabled"
group.long 0x28++0x3
line.long 0x00 "CACHE_MMU_LARGE_XLTE_i_2,Large page translated address"
hexmask.long.byte 0x00 25.--31. 1. " ADDRESS      ,Logical source translated address"
bitfld.long 0x00 0. "                         IGNORE       ,Do not use translated address." "0,1"
group.long 0x128++0x3
line.long 0x00 "CACHE_MMU_SMALL_ADDR_k_2,Small page address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source address"
group.long 0x2A8++0x3
line.long 0x00 "CACHE_MMU_SMALL_MAINT_k_2,Small page maintenance configuration"
bitfld.long 0x00 4. " INTERRUPT    ,Generate interrupt when maintenance operation is complete" "0,1"
bitfld.long 0x00 3. "                          INVALIDATE   ,Invalidate page" "0,1"
bitfld.long 0x00 2. "                          CLEAN       ,Evict page" "0,1"
textline "                                     "
bitfld.long 0x00 1. " LOCK         ,Lock page" "0,1"
bitfld.long 0x00 0. "                          PRELOAD      ,Preload page" "0,1"
group.long 0x228++0x3
line.long 0x00 "CACHE_MMU_SMALL_POLICY_k_2,Small page policy"
bitfld.long 0x00 23. " L2_WR_POLICY ,L2 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 22. "              L2_ALLOCATE  ,L2 allocate policy - . - ." "0,Follow_sideband"
bitfld.long 0x00 21. "            L2_POSTED   ,L2 posted policy - . - ." "Non-posted,Posted"
textline "                                     "
bitfld.long 0x00 20. " L2_CACHEABLE ,L2 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 19. "              L1_WR_POLICY ,L1 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 18. "              L1_ALLOCATE ,L1 allocate policy - . - ." "0,Follow_sideband"
textline "                                     "
bitfld.long 0x00 17. " L1_POSTED    ,L1 posted policy - . - ." "Non-posted,Posted"
bitfld.long 0x00 16. "                 L1_CACHEABLE ,L1 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 8. "              COHERENCY   ,Coherency" "0,1"
textline "                                     "
bitfld.long 0x00 7. " EXCLUSION    ,Cache exclusion - . - ." "0,Send_exclusion_sideband"
bitfld.long 0x00 6. "    PRELOAD      ,Preload region - . - ." "Do_not_preload,Preload"
bitfld.long 0x00 5. "             READ        ,Read only" "0,1"
textline "                                     "
bitfld.long 0x00 4. " EXECUTE      ,Execute only" "0,1"
bitfld.long 0x00 3. "                          VOLATILE     ,Volatile qualifier - . - ." "0,Follow_volatile_qualifier"
bitfld.long 0x00 1. "  SIZE        ,Size of page - . - ." "4_KiB,16_KiB"
textline "                                     "
bitfld.long 0x00 0. " ENABLE       ,Enable page - . - ." "Page_not_enabled,Page_enabled"
group.long 0x1A8++0x3
line.long 0x00 "CACHE_MMU_SMALL_XLTE_k_2,Small page translated address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source translated address"
bitfld.long 0x00 0. "                     IGNORE       ,Do not use translated address." "0,1"
tree.end
tree "Channel_3"
width 28.
group.long 0xC++0x3
line.long 0x00 "CACHE_MMU_LARGE_ADDR_i_3,Large page address"
hexmask.long.byte 0x00 25.--31. 1. " ADDRESS      ,Logical source address"
group.long 0x4C++0x3
line.long 0x00 "CACHE_MMU_LARGE_POLICY_i_3,Large page policy"
bitfld.long 0x00 23. " L2_WR_POLICY ,L2 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 22. "              L2_ALLOCATE  ,L2 allocate policy - . - ." "0,Follow_sideband"
bitfld.long 0x00 21. "            L2_POSTED   ,L2 posted policy - . - ." "Not_posted,Posted"
textline "                                     "
bitfld.long 0x00 20. " L2_CACHEABLE ,L2 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 19. "              L1_WR_POLICY ,L1 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 18. "              L1_ALLOCATE ,L1 allocate policy - . - ." "0,Follow_sideband"
textline "                                     "
bitfld.long 0x00 17. " L1_POSTED    ,L1 posted policy - . - ." "Not_posted,Posted"
bitfld.long 0x00 16. "                 L1_CACHEABLE ,L1 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 7. "              EXCLUSION   ,Cache exclusion - . - ." "0,Send_exclusion_sideband"
textline "                                     "
bitfld.long 0x00 6. " PRELOAD      ,Preload region - . - ." "Do_not_preload,Preload"
bitfld.long 0x00 5. "             READ         ,Read only" "0,1"
bitfld.long 0x00 4. "                          EXECUTE     ,Execute only" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VOLATILE     ,Volatile qualifier - . - ." "0,Follow_volatile_qualifier"
bitfld.long 0x00 1. "  SIZE         ,Size of page - . - ." "32_MiB,512_MiB"
bitfld.long 0x00 0. "                    ENABLE      ,Enable page - . - ." "Page_not_enabled,Page_enabled"
group.long 0x2C++0x3
line.long 0x00 "CACHE_MMU_LARGE_XLTE_i_3,Large page translated address"
hexmask.long.byte 0x00 25.--31. 1. " ADDRESS      ,Logical source translated address"
bitfld.long 0x00 0. "                         IGNORE       ,Do not use translated address." "0,1"
group.long 0x12C++0x3
line.long 0x00 "CACHE_MMU_SMALL_ADDR_k_3,Small page address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source address"
group.long 0x2AC++0x3
line.long 0x00 "CACHE_MMU_SMALL_MAINT_k_3,Small page maintenance configuration"
bitfld.long 0x00 4. " INTERRUPT    ,Generate interrupt when maintenance operation is complete" "0,1"
bitfld.long 0x00 3. "                          INVALIDATE   ,Invalidate page" "0,1"
bitfld.long 0x00 2. "                          CLEAN       ,Evict page" "0,1"
textline "                                     "
bitfld.long 0x00 1. " LOCK         ,Lock page" "0,1"
bitfld.long 0x00 0. "                          PRELOAD      ,Preload page" "0,1"
group.long 0x22C++0x3
line.long 0x00 "CACHE_MMU_SMALL_POLICY_k_3,Small page policy"
bitfld.long 0x00 23. " L2_WR_POLICY ,L2 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 22. "              L2_ALLOCATE  ,L2 allocate policy - . - ." "0,Follow_sideband"
bitfld.long 0x00 21. "            L2_POSTED   ,L2 posted policy - . - ." "Non-posted,Posted"
textline "                                     "
bitfld.long 0x00 20. " L2_CACHEABLE ,L2 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 19. "              L1_WR_POLICY ,L1 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 18. "              L1_ALLOCATE ,L1 allocate policy - . - ." "0,Follow_sideband"
textline "                                     "
bitfld.long 0x00 17. " L1_POSTED    ,L1 posted policy - . - ." "Non-posted,Posted"
bitfld.long 0x00 16. "                 L1_CACHEABLE ,L1 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 8. "              COHERENCY   ,Coherency" "0,1"
textline "                                     "
bitfld.long 0x00 7. " EXCLUSION    ,Cache exclusion - . - ." "0,Send_exclusion_sideband"
bitfld.long 0x00 6. "    PRELOAD      ,Preload region - . - ." "Do_not_preload,Preload"
bitfld.long 0x00 5. "             READ        ,Read only" "0,1"
textline "                                     "
bitfld.long 0x00 4. " EXECUTE      ,Execute only" "0,1"
bitfld.long 0x00 3. "                          VOLATILE     ,Volatile qualifier - . - ." "0,Follow_volatile_qualifier"
bitfld.long 0x00 1. "  SIZE        ,Size of page - . - ." "4_KiB,16_KiB"
textline "                                     "
bitfld.long 0x00 0. " ENABLE       ,Enable page - . - ." "Page_not_enabled,Page_enabled"
group.long 0x1AC++0x3
line.long 0x00 "CACHE_MMU_SMALL_XLTE_k_3,Small page translated address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source translated address"
bitfld.long 0x00 0. "                     IGNORE       ,Do not use translated address." "0,1"
tree.end
tree "Channel_4"
width 28.
group.long 0x130++0x3
line.long 0x00 "CACHE_MMU_SMALL_ADDR_k_4,Small page address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source address"
group.long 0x2B0++0x3
line.long 0x00 "CACHE_MMU_SMALL_MAINT_k_4,Small page maintenance configuration"
bitfld.long 0x00 4. " INTERRUPT    ,Generate interrupt when maintenance operation is complete" "0,1"
bitfld.long 0x00 3. "                        INVALIDATE   ,Invalidate page" "0,1"
bitfld.long 0x00 2. "                          CLEAN       ,Evict page" "0,1"
textline "                                     "
bitfld.long 0x00 1. " LOCK         ,Lock page" "0,1"
bitfld.long 0x00 0. "                        PRELOAD      ,Preload page" "0,1"
group.long 0x230++0x3
line.long 0x00 "CACHE_MMU_SMALL_POLICY_k_4,Small page policy"
bitfld.long 0x00 23. " L2_WR_POLICY ,L2 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 22. "            L2_ALLOCATE  ,L2 allocate policy - . - ." "0,Follow_sideband"
bitfld.long 0x00 21. "            L2_POSTED   ,L2 posted policy - . - ." "Non-posted,Posted"
textline "                                     "
bitfld.long 0x00 20. " L2_CACHEABLE ,L2 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 19. "            L1_WR_POLICY ,L1 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 18. "              L1_ALLOCATE ,L1 allocate policy - . - ." "0,Follow_sideband"
textline "                                     "
bitfld.long 0x00 17. " L1_POSTED    ,L1 posted policy - . - ." "Non-posted,Posted"
bitfld.long 0x00 16. "               L1_CACHEABLE ,L1 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 8. "              COHERENCY   ,Coherency" "0,1"
textline "                                     "
bitfld.long 0x00 7. " EXCLUSION    ,Cache exclusion - . - ." "0,Send_exclusion_sideband"
bitfld.long 0x00 6. "  PRELOAD      ,Preload region - . - ." "Do_not_preload,Preload"
bitfld.long 0x00 5. "             READ        ,Read only" "0,1"
textline "                                     "
bitfld.long 0x00 4. " EXECUTE      ,Execute only" "0,1"
bitfld.long 0x00 3. "                        VOLATILE     ,Volatile qualifier - . - ." "0,Follow_volatile_qualifier"
bitfld.long 0x00 1. "  SIZE        ,Size of page - . - ." "4_KiB,16_KiB"
textline "                                     "
bitfld.long 0x00 0. " ENABLE       ,Enable page - . - ." "Page_not_enabled,Page_enabled"
group.long 0x1B0++0x3
line.long 0x00 "CACHE_MMU_SMALL_XLTE_k_4,Small page translated address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source translated address"
bitfld.long 0x00 0. "                   IGNORE       ,Do not use translated address." "0,1"
tree.end
tree "Channel_5"
width 28.
group.long 0x134++0x3
line.long 0x00 "CACHE_MMU_SMALL_ADDR_k_5,Small page address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source address"
group.long 0x2B4++0x3
line.long 0x00 "CACHE_MMU_SMALL_MAINT_k_5,Small page maintenance configuration"
bitfld.long 0x00 4. " INTERRUPT    ,Generate interrupt when maintenance operation is complete" "0,1"
bitfld.long 0x00 3. "                        INVALIDATE   ,Invalidate page" "0,1"
bitfld.long 0x00 2. "                          CLEAN       ,Evict page" "0,1"
textline "                                     "
bitfld.long 0x00 1. " LOCK         ,Lock page" "0,1"
bitfld.long 0x00 0. "                        PRELOAD      ,Preload page" "0,1"
group.long 0x234++0x3
line.long 0x00 "CACHE_MMU_SMALL_POLICY_k_5,Small page policy"
bitfld.long 0x00 23. " L2_WR_POLICY ,L2 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 22. "            L2_ALLOCATE  ,L2 allocate policy - . - ." "0,Follow_sideband"
bitfld.long 0x00 21. "            L2_POSTED   ,L2 posted policy - . - ." "Non-posted,Posted"
textline "                                     "
bitfld.long 0x00 20. " L2_CACHEABLE ,L2 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 19. "            L1_WR_POLICY ,L1 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 18. "              L1_ALLOCATE ,L1 allocate policy - . - ." "0,Follow_sideband"
textline "                                     "
bitfld.long 0x00 17. " L1_POSTED    ,L1 posted policy - . - ." "Non-posted,Posted"
bitfld.long 0x00 16. "               L1_CACHEABLE ,L1 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 8. "              COHERENCY   ,Coherency" "0,1"
textline "                                     "
bitfld.long 0x00 7. " EXCLUSION    ,Cache exclusion - . - ." "0,Send_exclusion_sideband"
bitfld.long 0x00 6. "  PRELOAD      ,Preload region - . - ." "Do_not_preload,Preload"
bitfld.long 0x00 5. "             READ        ,Read only" "0,1"
textline "                                     "
bitfld.long 0x00 4. " EXECUTE      ,Execute only" "0,1"
bitfld.long 0x00 3. "                        VOLATILE     ,Volatile qualifier - . - ." "0,Follow_volatile_qualifier"
bitfld.long 0x00 1. "  SIZE        ,Size of page - . - ." "4_KiB,16_KiB"
textline "                                     "
bitfld.long 0x00 0. " ENABLE       ,Enable page - . - ." "Page_not_enabled,Page_enabled"
group.long 0x1B4++0x3
line.long 0x00 "CACHE_MMU_SMALL_XLTE_k_5,Small page translated address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source translated address"
bitfld.long 0x00 0. "                   IGNORE       ,Do not use translated address." "0,1"
tree.end
tree "Channel_6"
width 28.
group.long 0x138++0x3
line.long 0x00 "CACHE_MMU_SMALL_ADDR_k_6,Small page address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source address"
group.long 0x2B8++0x3
line.long 0x00 "CACHE_MMU_SMALL_MAINT_k_6,Small page maintenance configuration"
bitfld.long 0x00 4. " INTERRUPT    ,Generate interrupt when maintenance operation is complete" "0,1"
bitfld.long 0x00 3. "                        INVALIDATE   ,Invalidate page" "0,1"
bitfld.long 0x00 2. "                          CLEAN       ,Evict page" "0,1"
textline "                                     "
bitfld.long 0x00 1. " LOCK         ,Lock page" "0,1"
bitfld.long 0x00 0. "                        PRELOAD      ,Preload page" "0,1"
group.long 0x238++0x3
line.long 0x00 "CACHE_MMU_SMALL_POLICY_k_6,Small page policy"
bitfld.long 0x00 23. " L2_WR_POLICY ,L2 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 22. "            L2_ALLOCATE  ,L2 allocate policy - . - ." "0,Follow_sideband"
bitfld.long 0x00 21. "            L2_POSTED   ,L2 posted policy - . - ." "Non-posted,Posted"
textline "                                     "
bitfld.long 0x00 20. " L2_CACHEABLE ,L2 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 19. "            L1_WR_POLICY ,L1 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 18. "              L1_ALLOCATE ,L1 allocate policy - . - ." "0,Follow_sideband"
textline "                                     "
bitfld.long 0x00 17. " L1_POSTED    ,L1 posted policy - . - ." "Non-posted,Posted"
bitfld.long 0x00 16. "               L1_CACHEABLE ,L1 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 8. "              COHERENCY   ,Coherency" "0,1"
textline "                                     "
bitfld.long 0x00 7. " EXCLUSION    ,Cache exclusion - . - ." "0,Send_exclusion_sideband"
bitfld.long 0x00 6. "  PRELOAD      ,Preload region - . - ." "Do_not_preload,Preload"
bitfld.long 0x00 5. "             READ        ,Read only" "0,1"
textline "                                     "
bitfld.long 0x00 4. " EXECUTE      ,Execute only" "0,1"
bitfld.long 0x00 3. "                        VOLATILE     ,Volatile qualifier - . - ." "0,Follow_volatile_qualifier"
bitfld.long 0x00 1. "  SIZE        ,Size of page - . - ." "4_KiB,16_KiB"
textline "                                     "
bitfld.long 0x00 0. " ENABLE       ,Enable page - . - ." "Page_not_enabled,Page_enabled"
group.long 0x1B8++0x3
line.long 0x00 "CACHE_MMU_SMALL_XLTE_k_6,Small page translated address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source translated address"
bitfld.long 0x00 0. "                   IGNORE       ,Do not use translated address." "0,1"
tree.end
tree "Channel_7"
width 28.
group.long 0x13C++0x3
line.long 0x00 "CACHE_MMU_SMALL_ADDR_k_7,Small page address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source address"
group.long 0x2BC++0x3
line.long 0x00 "CACHE_MMU_SMALL_MAINT_k_7,Small page maintenance configuration"
bitfld.long 0x00 4. " INTERRUPT    ,Generate interrupt when maintenance operation is complete" "0,1"
bitfld.long 0x00 3. "                        INVALIDATE   ,Invalidate page" "0,1"
bitfld.long 0x00 2. "                          CLEAN       ,Evict page" "0,1"
textline "                                     "
bitfld.long 0x00 1. " LOCK         ,Lock page" "0,1"
bitfld.long 0x00 0. "                        PRELOAD      ,Preload page" "0,1"
group.long 0x23C++0x3
line.long 0x00 "CACHE_MMU_SMALL_POLICY_k_7,Small page policy"
bitfld.long 0x00 23. " L2_WR_POLICY ,L2 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 22. "            L2_ALLOCATE  ,L2 allocate policy - . - ." "0,Follow_sideband"
bitfld.long 0x00 21. "            L2_POSTED   ,L2 posted policy - . - ." "Non-posted,Posted"
textline "                                     "
bitfld.long 0x00 20. " L2_CACHEABLE ,L2 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 19. "            L1_WR_POLICY ,L1 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 18. "              L1_ALLOCATE ,L1 allocate policy - . - ." "0,Follow_sideband"
textline "                                     "
bitfld.long 0x00 17. " L1_POSTED    ,L1 posted policy - . - ." "Non-posted,Posted"
bitfld.long 0x00 16. "               L1_CACHEABLE ,L1 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 8. "              COHERENCY   ,Coherency" "0,1"
textline "                                     "
bitfld.long 0x00 7. " EXCLUSION    ,Cache exclusion - . - ." "0,Send_exclusion_sideband"
bitfld.long 0x00 6. "  PRELOAD      ,Preload region - . - ." "Do_not_preload,Preload"
bitfld.long 0x00 5. "             READ        ,Read only" "0,1"
textline "                                     "
bitfld.long 0x00 4. " EXECUTE      ,Execute only" "0,1"
bitfld.long 0x00 3. "                        VOLATILE     ,Volatile qualifier - . - ." "0,Follow_volatile_qualifier"
bitfld.long 0x00 1. "  SIZE        ,Size of page - . - ." "4_KiB,16_KiB"
textline "                                     "
bitfld.long 0x00 0. " ENABLE       ,Enable page - . - ." "Page_not_enabled,Page_enabled"
group.long 0x1BC++0x3
line.long 0x00 "CACHE_MMU_SMALL_XLTE_k_7,Small page translated address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source translated address"
bitfld.long 0x00 0. "                   IGNORE       ,Do not use translated address." "0,1"
tree.end
tree "Channel_8"
width 28.
group.long 0x140++0x3
line.long 0x00 "CACHE_MMU_SMALL_ADDR_k_8,Small page address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source address"
group.long 0x2C0++0x3
line.long 0x00 "CACHE_MMU_SMALL_MAINT_k_8,Small page maintenance configuration"
bitfld.long 0x00 4. " INTERRUPT    ,Generate interrupt when maintenance operation is complete" "0,1"
bitfld.long 0x00 3. "                        INVALIDATE   ,Invalidate page" "0,1"
bitfld.long 0x00 2. "                          CLEAN       ,Evict page" "0,1"
textline "                                     "
bitfld.long 0x00 1. " LOCK         ,Lock page" "0,1"
bitfld.long 0x00 0. "                        PRELOAD      ,Preload page" "0,1"
group.long 0x240++0x3
line.long 0x00 "CACHE_MMU_SMALL_POLICY_k_8,Small page policy"
bitfld.long 0x00 23. " L2_WR_POLICY ,L2 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 22. "            L2_ALLOCATE  ,L2 allocate policy - . - ." "0,Follow_sideband"
bitfld.long 0x00 21. "            L2_POSTED   ,L2 posted policy - . - ." "Non-posted,Posted"
textline "                                     "
bitfld.long 0x00 20. " L2_CACHEABLE ,L2 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 19. "            L1_WR_POLICY ,L1 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 18. "              L1_ALLOCATE ,L1 allocate policy - . - ." "0,Follow_sideband"
textline "                                     "
bitfld.long 0x00 17. " L1_POSTED    ,L1 posted policy - . - ." "Non-posted,Posted"
bitfld.long 0x00 16. "               L1_CACHEABLE ,L1 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 8. "              COHERENCY   ,Coherency" "0,1"
textline "                                     "
bitfld.long 0x00 7. " EXCLUSION    ,Cache exclusion - . - ." "0,Send_exclusion_sideband"
bitfld.long 0x00 6. "  PRELOAD      ,Preload region - . - ." "Do_not_preload,Preload"
bitfld.long 0x00 5. "             READ        ,Read only" "0,1"
textline "                                     "
bitfld.long 0x00 4. " EXECUTE      ,Execute only" "0,1"
bitfld.long 0x00 3. "                        VOLATILE     ,Volatile qualifier - . - ." "0,Follow_volatile_qualifier"
bitfld.long 0x00 1. "  SIZE        ,Size of page - . - ." "4_KiB,16_KiB"
textline "                                     "
bitfld.long 0x00 0. " ENABLE       ,Enable page - . - ." "Page_not_enabled,Page_enabled"
group.long 0x1C0++0x3
line.long 0x00 "CACHE_MMU_SMALL_XLTE_k_8,Small page translated address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source translated address"
bitfld.long 0x00 0. "                   IGNORE       ,Do not use translated address." "0,1"
tree.end
tree "Channel_9"
width 28.
group.long 0x144++0x3
line.long 0x00 "CACHE_MMU_SMALL_ADDR_k_9,Small page address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source address"
group.long 0x2C4++0x3
line.long 0x00 "CACHE_MMU_SMALL_MAINT_k_9,Small page maintenance configuration"
bitfld.long 0x00 4. " INTERRUPT    ,Generate interrupt when maintenance operation is complete" "0,1"
bitfld.long 0x00 3. "                        INVALIDATE   ,Invalidate page" "0,1"
bitfld.long 0x00 2. "                          CLEAN       ,Evict page" "0,1"
textline "                                     "
bitfld.long 0x00 1. " LOCK         ,Lock page" "0,1"
bitfld.long 0x00 0. "                        PRELOAD      ,Preload page" "0,1"
group.long 0x244++0x3
line.long 0x00 "CACHE_MMU_SMALL_POLICY_k_9,Small page policy"
bitfld.long 0x00 23. " L2_WR_POLICY ,L2 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 22. "            L2_ALLOCATE  ,L2 allocate policy - . - ." "0,Follow_sideband"
bitfld.long 0x00 21. "            L2_POSTED   ,L2 posted policy - . - ." "Non-posted,Posted"
textline "                                     "
bitfld.long 0x00 20. " L2_CACHEABLE ,L2 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 19. "            L1_WR_POLICY ,L1 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 18. "              L1_ALLOCATE ,L1 allocate policy - . - ." "0,Follow_sideband"
textline "                                     "
bitfld.long 0x00 17. " L1_POSTED    ,L1 posted policy - . - ." "Non-posted,Posted"
bitfld.long 0x00 16. "               L1_CACHEABLE ,L1 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 8. "              COHERENCY   ,Coherency" "0,1"
textline "                                     "
bitfld.long 0x00 7. " EXCLUSION    ,Cache exclusion - . - ." "0,Send_exclusion_sideband"
bitfld.long 0x00 6. "  PRELOAD      ,Preload region - . - ." "Do_not_preload,Preload"
bitfld.long 0x00 5. "             READ        ,Read only" "0,1"
textline "                                     "
bitfld.long 0x00 4. " EXECUTE      ,Execute only" "0,1"
bitfld.long 0x00 3. "                        VOLATILE     ,Volatile qualifier - . - ." "0,Follow_volatile_qualifier"
bitfld.long 0x00 1. "  SIZE        ,Size of page - . - ." "4_KiB,16_KiB"
textline "                                     "
bitfld.long 0x00 0. " ENABLE       ,Enable page - . - ." "Page_not_enabled,Page_enabled"
group.long 0x1C4++0x3
line.long 0x00 "CACHE_MMU_SMALL_XLTE_k_9,Small page translated address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source translated address"
bitfld.long 0x00 0. "                   IGNORE       ,Do not use translated address." "0,1"
tree.end
textline ""
width 21.
group.long 0x4A8++0x3
line.long 0x00 "CACHE_MMU_MAINT,Maintenance configuration register"
bitfld.long 0x00 10. " G_FLUSH       ,Global flush bit - . - ." "0,Invalidate_L1+L2"
bitfld.long 0x00 9. "     L2_CACHE      ,Do maintenance operation in L2 cache. Note: Hardware ensures that the maintenance operations are done in L1 first and then in L2 - . - ." "Do_nothing,1"
bitfld.long 0x00 8. "          L1_CACHE2      ,Do maintenance operation in L1 cache 2 - . - ." "Do_nothing,1"
textline "                              "
bitfld.long 0x00 7. " L1_CACHE1     ,Do maintenance operation in L1 cache 1 - . - ." "0,1"
bitfld.long 0x00 6. "                    CPU_INTERRUPT ,Generate interrupt to cpu when maintenance operation initiated by CPU is complete - . - ." "0,Generate_interrupt"
bitfld.long 0x00 5. "  HOST_INTERRUPT ,Generate interrupt when maintenance operation is complete - . - ." "0,Generate_interrupt"
textline "                              "
bitfld.long 0x00 4. " INVALIDATE    ,Invalidate lines in region defined by maintenance start/end addresses - . - ." "Do_nothing,Invalidate"
bitfld.long 0x00 3. "           CLEAN         ,Evict dirty lines in region defined by maintenance start/end addresses - . - ." "Do_nothing,Clean"
bitfld.long 0x00 2. "          UNLOCK         ,Unlock region defined by maintenance start/end addresses - . - ." "Do_nothing,Unlock"
textline "                              "
bitfld.long 0x00 1. " LOCK          ,Lock region defined by maintenance start/end addresses - . - ." "Do_nothing,Lock"
bitfld.long 0x00 0. "           PRELOAD       ,Preload region defined by maintenance start/end addresses - . - ." "Do_nothing,Preload"
group.long 0x4AC++0x3
line.long 0x00 "CACHE_MMU_MTSTART,Maintenance start configuration register"
hexmask.long 0x00 0.--31. 1. " BEGIN_ADDRESS ,Start address of maintenance operations, resets to 0x0000 0000 when finished"
group.long 0x4B0++0x3
line.long 0x00 "CACHE_MMU_MTEND,Maintenance end configuration register"
hexmask.long 0x00 0.--31. 1. " END_ADDRESS   ,End address of maintenance operations, resets to 0x0000 0000 when finished"
rgroup.long 0x4B4++0x3
line.long 0x00 "CACHE_MMU_MAINTST,Maintenance status register"
bitfld.long 0x00 0. " STATUS        ,Status bit - . - ." "0,Maintenance_ongoing"
group.long 0x4B8++0x3
line.long 0x00 "CACHE_MMU_MMUCONFIG,MMU configuration register"
bitfld.long 0x00 1. " PRIVILEGE     ,Privilege bit. Once this bit is set, only global flush, debugger, or hardware reset can clear. - . - ." "0,1"
bitfld.long 0x00 0. "                    MMU_LOCK      ,MMU lock. Once this bit is set only a global flush, debugger, or hardware reset can clear. - . - ." "0,1"
width 0x0B
tree.end
tree "IPU1_UNICACHE_MMU"
base ad:0x58880800
tree "Channel_0"
width 28.
group.long 0x0++0x3
line.long 0x00 "CACHE_MMU_LARGE_ADDR_i_0,Large page address"
hexmask.long.byte 0x00 25.--31. 1. " ADDRESS      ,Logical source address"
group.long 0x40++0x3
line.long 0x00 "CACHE_MMU_LARGE_POLICY_i_0,Large page policy"
bitfld.long 0x00 23. " L2_WR_POLICY ,L2 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 22. "              L2_ALLOCATE  ,L2 allocate policy - . - ." "0,Follow_sideband"
bitfld.long 0x00 21. "            L2_POSTED   ,L2 posted policy - . - ." "Not_posted,Posted"
textline "                                     "
bitfld.long 0x00 20. " L2_CACHEABLE ,L2 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 19. "              L1_WR_POLICY ,L1 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 18. "              L1_ALLOCATE ,L1 allocate policy - . - ." "0,Follow_sideband"
textline "                                     "
bitfld.long 0x00 17. " L1_POSTED    ,L1 posted policy - . - ." "Not_posted,Posted"
bitfld.long 0x00 16. "                 L1_CACHEABLE ,L1 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 7. "              EXCLUSION   ,Cache exclusion - . - ." "0,Send_exclusion_sideband"
textline "                                     "
bitfld.long 0x00 6. " PRELOAD      ,Preload region - . - ." "Do_not_preload,Preload"
bitfld.long 0x00 5. "             READ         ,Read only" "0,1"
bitfld.long 0x00 4. "                          EXECUTE     ,Execute only" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VOLATILE     ,Volatile qualifier - . - ." "0,Follow_volatile_qualifier"
bitfld.long 0x00 1. "  SIZE         ,Size of page - . - ." "32_MiB,512_MiB"
bitfld.long 0x00 0. "                    ENABLE      ,Enable page - . - ." "Page_not_enabled,Page_enabled"
group.long 0x20++0x3
line.long 0x00 "CACHE_MMU_LARGE_XLTE_i_0,Large page translated address"
hexmask.long.byte 0x00 25.--31. 1. " ADDRESS      ,Logical source translated address"
bitfld.long 0x00 0. "                         IGNORE       ,Do not use translated address." "0,1"
group.long 0x60++0x3
line.long 0x00 "CACHE_MMU_MED_ADDR_j_0,Medium page address"
hexmask.long.word 0x00 17.--31. 1. " ADDRESS      ,Logical source address"
group.long 0xE0++0x3
line.long 0x00 "CACHE_MMU_MED_POLICY_j_0,Medium page policy"
bitfld.long 0x00 23. " L2_WR_POLICY ,L2 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 22. "              L2_ALLOCATE  ,L2 allocate policy - . - ." "0,Follow_sideband"
bitfld.long 0x00 21. "            L2_POSTED   ,L2 posted policy - . - ." "Non-posted,Posted"
textline "                                     "
bitfld.long 0x00 20. " L2_CACHEABLE ,L2 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 19. "              L1_WR_POLICY ,L1 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 18. "              L1_ALLOCATE ,L1 allocate policy - . - ." "0,Follow_sideband"
textline "                                     "
bitfld.long 0x00 17. " L1_POSTED    ,L1 posted policy - . - ." "Non-posted,Posted"
bitfld.long 0x00 16. "                 L1_CACHEABLE ,L1 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 7. "              EXCLUSION   ,Cache exclusion - . - ." "0,Send_exclusion_sideband"
textline "                                     "
bitfld.long 0x00 6. " PRELOAD      ,Preload region - . - ." "Do_not_preload,Preload"
bitfld.long 0x00 5. "             READ         ,Read only" "0,1"
bitfld.long 0x00 4. "                          EXECUTE     ,Execute only" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VOLATILE     ,Volatile qualifier - . - ." "0,Follow_volatile_qualifier"
bitfld.long 0x00 1. "  SIZE         ,Size of page - . - ." "128_KiB,256_KiB"
bitfld.long 0x00 0. "                    ENABLE      ,Enable page - . - ." "Page_not_enabled,Page_enabled"
group.long 0xA0++0x3
line.long 0x00 "CACHE_MMU_MED_XLTE_j_0,Medium page translated address"
hexmask.long.word 0x00 17.--31. 1. " ADDRESS      ,Logical source translated address"
bitfld.long 0x00 0. "                       IGNORE       ,Do not use translated address." "0,1"
group.long 0x120++0x3
line.long 0x00 "CACHE_MMU_SMALL_ADDR_k_0,Small page address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source address"
group.long 0x2A0++0x3
line.long 0x00 "CACHE_MMU_SMALL_MAINT_k_0,Small page maintenance configuration"
bitfld.long 0x00 4. " INTERRUPT    ,Generate interrupt when maintenance operation is complete" "0,1"
bitfld.long 0x00 3. "                          INVALIDATE   ,Invalidate page" "0,1"
bitfld.long 0x00 2. "                          CLEAN       ,Evict page" "0,1"
textline "                                     "
bitfld.long 0x00 1. " LOCK         ,Lock page" "0,1"
bitfld.long 0x00 0. "                          PRELOAD      ,Preload page" "0,1"
group.long 0x220++0x3
line.long 0x00 "CACHE_MMU_SMALL_POLICY_k_0,Small page policy"
bitfld.long 0x00 23. " L2_WR_POLICY ,L2 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 22. "              L2_ALLOCATE  ,L2 allocate policy - . - ." "0,Follow_sideband"
bitfld.long 0x00 21. "            L2_POSTED   ,L2 posted policy - . - ." "Non-posted,Posted"
textline "                                     "
bitfld.long 0x00 20. " L2_CACHEABLE ,L2 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 19. "              L1_WR_POLICY ,L1 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 18. "              L1_ALLOCATE ,L1 allocate policy - . - ." "0,Follow_sideband"
textline "                                     "
bitfld.long 0x00 17. " L1_POSTED    ,L1 posted policy - . - ." "Non-posted,Posted"
bitfld.long 0x00 16. "                 L1_CACHEABLE ,L1 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 8. "              COHERENCY   ,Coherency" "0,1"
textline "                                     "
bitfld.long 0x00 7. " EXCLUSION    ,Cache exclusion - . - ." "0,Send_exclusion_sideband"
bitfld.long 0x00 6. "    PRELOAD      ,Preload region - . - ." "Do_not_preload,Preload"
bitfld.long 0x00 5. "             READ        ,Read only" "0,1"
textline "                                     "
bitfld.long 0x00 4. " EXECUTE      ,Execute only" "0,1"
bitfld.long 0x00 3. "                          VOLATILE     ,Volatile qualifier - . - ." "0,Follow_volatile_qualifier"
bitfld.long 0x00 1. "  SIZE        ,Size of page - . - ." "4_KiB,16_KiB"
textline "                                     "
bitfld.long 0x00 0. " ENABLE       ,Enable page - . - ." "Page_not_enabled,Page_enabled"
group.long 0x1A0++0x3
line.long 0x00 "CACHE_MMU_SMALL_XLTE_k_0,Small page translated address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source translated address"
bitfld.long 0x00 0. "                     IGNORE       ,Do not use translated address." "0,1"
tree.end
tree "Channel_1"
width 28.
group.long 0x4++0x3
line.long 0x00 "CACHE_MMU_LARGE_ADDR_i_1,Large page address"
hexmask.long.byte 0x00 25.--31. 1. " ADDRESS      ,Logical source address"
group.long 0x44++0x3
line.long 0x00 "CACHE_MMU_LARGE_POLICY_i_1,Large page policy"
bitfld.long 0x00 23. " L2_WR_POLICY ,L2 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 22. "              L2_ALLOCATE  ,L2 allocate policy - . - ." "0,Follow_sideband"
bitfld.long 0x00 21. "            L2_POSTED   ,L2 posted policy - . - ." "Not_posted,Posted"
textline "                                     "
bitfld.long 0x00 20. " L2_CACHEABLE ,L2 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 19. "              L1_WR_POLICY ,L1 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 18. "              L1_ALLOCATE ,L1 allocate policy - . - ." "0,Follow_sideband"
textline "                                     "
bitfld.long 0x00 17. " L1_POSTED    ,L1 posted policy - . - ." "Not_posted,Posted"
bitfld.long 0x00 16. "                 L1_CACHEABLE ,L1 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 7. "              EXCLUSION   ,Cache exclusion - . - ." "0,Send_exclusion_sideband"
textline "                                     "
bitfld.long 0x00 6. " PRELOAD      ,Preload region - . - ." "Do_not_preload,Preload"
bitfld.long 0x00 5. "             READ         ,Read only" "0,1"
bitfld.long 0x00 4. "                          EXECUTE     ,Execute only" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VOLATILE     ,Volatile qualifier - . - ." "0,Follow_volatile_qualifier"
bitfld.long 0x00 1. "  SIZE         ,Size of page - . - ." "32_MiB,512_MiB"
bitfld.long 0x00 0. "                    ENABLE      ,Enable page - . - ." "Page_not_enabled,Page_enabled"
group.long 0x24++0x3
line.long 0x00 "CACHE_MMU_LARGE_XLTE_i_1,Large page translated address"
hexmask.long.byte 0x00 25.--31. 1. " ADDRESS      ,Logical source translated address"
bitfld.long 0x00 0. "                         IGNORE       ,Do not use translated address." "0,1"
group.long 0x64++0x3
line.long 0x00 "CACHE_MMU_MED_ADDR_j_1,Medium page address"
hexmask.long.word 0x00 17.--31. 1. " ADDRESS      ,Logical source address"
group.long 0xE4++0x3
line.long 0x00 "CACHE_MMU_MED_POLICY_j_1,Medium page policy"
bitfld.long 0x00 23. " L2_WR_POLICY ,L2 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 22. "              L2_ALLOCATE  ,L2 allocate policy - . - ." "0,Follow_sideband"
bitfld.long 0x00 21. "            L2_POSTED   ,L2 posted policy - . - ." "Non-posted,Posted"
textline "                                     "
bitfld.long 0x00 20. " L2_CACHEABLE ,L2 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 19. "              L1_WR_POLICY ,L1 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 18. "              L1_ALLOCATE ,L1 allocate policy - . - ." "0,Follow_sideband"
textline "                                     "
bitfld.long 0x00 17. " L1_POSTED    ,L1 posted policy - . - ." "Non-posted,Posted"
bitfld.long 0x00 16. "                 L1_CACHEABLE ,L1 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 7. "              EXCLUSION   ,Cache exclusion - . - ." "0,Send_exclusion_sideband"
textline "                                     "
bitfld.long 0x00 6. " PRELOAD      ,Preload region - . - ." "Do_not_preload,Preload"
bitfld.long 0x00 5. "             READ         ,Read only" "0,1"
bitfld.long 0x00 4. "                          EXECUTE     ,Execute only" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VOLATILE     ,Volatile qualifier - . - ." "0,Follow_volatile_qualifier"
bitfld.long 0x00 1. "  SIZE         ,Size of page - . - ." "128_KiB,256_KiB"
bitfld.long 0x00 0. "                    ENABLE      ,Enable page - . - ." "Page_not_enabled,Page_enabled"
group.long 0xA4++0x3
line.long 0x00 "CACHE_MMU_MED_XLTE_j_1,Medium page translated address"
hexmask.long.word 0x00 17.--31. 1. " ADDRESS      ,Logical source translated address"
bitfld.long 0x00 0. "                       IGNORE       ,Do not use translated address." "0,1"
group.long 0x124++0x3
line.long 0x00 "CACHE_MMU_SMALL_ADDR_k_1,Small page address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source address"
group.long 0x2A4++0x3
line.long 0x00 "CACHE_MMU_SMALL_MAINT_k_1,Small page maintenance configuration"
bitfld.long 0x00 4. " INTERRUPT    ,Generate interrupt when maintenance operation is complete" "0,1"
bitfld.long 0x00 3. "                          INVALIDATE   ,Invalidate page" "0,1"
bitfld.long 0x00 2. "                          CLEAN       ,Evict page" "0,1"
textline "                                     "
bitfld.long 0x00 1. " LOCK         ,Lock page" "0,1"
bitfld.long 0x00 0. "                          PRELOAD      ,Preload page" "0,1"
group.long 0x224++0x3
line.long 0x00 "CACHE_MMU_SMALL_POLICY_k_1,Small page policy"
bitfld.long 0x00 23. " L2_WR_POLICY ,L2 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 22. "              L2_ALLOCATE  ,L2 allocate policy - . - ." "0,Follow_sideband"
bitfld.long 0x00 21. "            L2_POSTED   ,L2 posted policy - . - ." "Non-posted,Posted"
textline "                                     "
bitfld.long 0x00 20. " L2_CACHEABLE ,L2 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 19. "              L1_WR_POLICY ,L1 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 18. "              L1_ALLOCATE ,L1 allocate policy - . - ." "0,Follow_sideband"
textline "                                     "
bitfld.long 0x00 17. " L1_POSTED    ,L1 posted policy - . - ." "Non-posted,Posted"
bitfld.long 0x00 16. "                 L1_CACHEABLE ,L1 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 8. "              COHERENCY   ,Coherency" "0,1"
textline "                                     "
bitfld.long 0x00 7. " EXCLUSION    ,Cache exclusion - . - ." "0,Send_exclusion_sideband"
bitfld.long 0x00 6. "    PRELOAD      ,Preload region - . - ." "Do_not_preload,Preload"
bitfld.long 0x00 5. "             READ        ,Read only" "0,1"
textline "                                     "
bitfld.long 0x00 4. " EXECUTE      ,Execute only" "0,1"
bitfld.long 0x00 3. "                          VOLATILE     ,Volatile qualifier - . - ." "0,Follow_volatile_qualifier"
bitfld.long 0x00 1. "  SIZE        ,Size of page - . - ." "4_KiB,16_KiB"
textline "                                     "
bitfld.long 0x00 0. " ENABLE       ,Enable page - . - ." "Page_not_enabled,Page_enabled"
group.long 0x1A4++0x3
line.long 0x00 "CACHE_MMU_SMALL_XLTE_k_1,Small page translated address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source translated address"
bitfld.long 0x00 0. "                     IGNORE       ,Do not use translated address." "0,1"
tree.end
tree "Channel_2"
width 28.
group.long 0x8++0x3
line.long 0x00 "CACHE_MMU_LARGE_ADDR_i_2,Large page address"
hexmask.long.byte 0x00 25.--31. 1. " ADDRESS      ,Logical source address"
group.long 0x48++0x3
line.long 0x00 "CACHE_MMU_LARGE_POLICY_i_2,Large page policy"
bitfld.long 0x00 23. " L2_WR_POLICY ,L2 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 22. "              L2_ALLOCATE  ,L2 allocate policy - . - ." "0,Follow_sideband"
bitfld.long 0x00 21. "            L2_POSTED   ,L2 posted policy - . - ." "Not_posted,Posted"
textline "                                     "
bitfld.long 0x00 20. " L2_CACHEABLE ,L2 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 19. "              L1_WR_POLICY ,L1 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 18. "              L1_ALLOCATE ,L1 allocate policy - . - ." "0,Follow_sideband"
textline "                                     "
bitfld.long 0x00 17. " L1_POSTED    ,L1 posted policy - . - ." "Not_posted,Posted"
bitfld.long 0x00 16. "                 L1_CACHEABLE ,L1 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 7. "              EXCLUSION   ,Cache exclusion - . - ." "0,Send_exclusion_sideband"
textline "                                     "
bitfld.long 0x00 6. " PRELOAD      ,Preload region - . - ." "Do_not_preload,Preload"
bitfld.long 0x00 5. "             READ         ,Read only" "0,1"
bitfld.long 0x00 4. "                          EXECUTE     ,Execute only" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VOLATILE     ,Volatile qualifier - . - ." "0,Follow_volatile_qualifier"
bitfld.long 0x00 1. "  SIZE         ,Size of page - . - ." "32_MiB,512_MiB"
bitfld.long 0x00 0. "                    ENABLE      ,Enable page - . - ." "Page_not_enabled,Page_enabled"
group.long 0x28++0x3
line.long 0x00 "CACHE_MMU_LARGE_XLTE_i_2,Large page translated address"
hexmask.long.byte 0x00 25.--31. 1. " ADDRESS      ,Logical source translated address"
bitfld.long 0x00 0. "                         IGNORE       ,Do not use translated address." "0,1"
group.long 0x128++0x3
line.long 0x00 "CACHE_MMU_SMALL_ADDR_k_2,Small page address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source address"
group.long 0x2A8++0x3
line.long 0x00 "CACHE_MMU_SMALL_MAINT_k_2,Small page maintenance configuration"
bitfld.long 0x00 4. " INTERRUPT    ,Generate interrupt when maintenance operation is complete" "0,1"
bitfld.long 0x00 3. "                          INVALIDATE   ,Invalidate page" "0,1"
bitfld.long 0x00 2. "                          CLEAN       ,Evict page" "0,1"
textline "                                     "
bitfld.long 0x00 1. " LOCK         ,Lock page" "0,1"
bitfld.long 0x00 0. "                          PRELOAD      ,Preload page" "0,1"
group.long 0x228++0x3
line.long 0x00 "CACHE_MMU_SMALL_POLICY_k_2,Small page policy"
bitfld.long 0x00 23. " L2_WR_POLICY ,L2 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 22. "              L2_ALLOCATE  ,L2 allocate policy - . - ." "0,Follow_sideband"
bitfld.long 0x00 21. "            L2_POSTED   ,L2 posted policy - . - ." "Non-posted,Posted"
textline "                                     "
bitfld.long 0x00 20. " L2_CACHEABLE ,L2 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 19. "              L1_WR_POLICY ,L1 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 18. "              L1_ALLOCATE ,L1 allocate policy - . - ." "0,Follow_sideband"
textline "                                     "
bitfld.long 0x00 17. " L1_POSTED    ,L1 posted policy - . - ." "Non-posted,Posted"
bitfld.long 0x00 16. "                 L1_CACHEABLE ,L1 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 8. "              COHERENCY   ,Coherency" "0,1"
textline "                                     "
bitfld.long 0x00 7. " EXCLUSION    ,Cache exclusion - . - ." "0,Send_exclusion_sideband"
bitfld.long 0x00 6. "    PRELOAD      ,Preload region - . - ." "Do_not_preload,Preload"
bitfld.long 0x00 5. "             READ        ,Read only" "0,1"
textline "                                     "
bitfld.long 0x00 4. " EXECUTE      ,Execute only" "0,1"
bitfld.long 0x00 3. "                          VOLATILE     ,Volatile qualifier - . - ." "0,Follow_volatile_qualifier"
bitfld.long 0x00 1. "  SIZE        ,Size of page - . - ." "4_KiB,16_KiB"
textline "                                     "
bitfld.long 0x00 0. " ENABLE       ,Enable page - . - ." "Page_not_enabled,Page_enabled"
group.long 0x1A8++0x3
line.long 0x00 "CACHE_MMU_SMALL_XLTE_k_2,Small page translated address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source translated address"
bitfld.long 0x00 0. "                     IGNORE       ,Do not use translated address." "0,1"
tree.end
tree "Channel_3"
width 28.
group.long 0xC++0x3
line.long 0x00 "CACHE_MMU_LARGE_ADDR_i_3,Large page address"
hexmask.long.byte 0x00 25.--31. 1. " ADDRESS      ,Logical source address"
group.long 0x4C++0x3
line.long 0x00 "CACHE_MMU_LARGE_POLICY_i_3,Large page policy"
bitfld.long 0x00 23. " L2_WR_POLICY ,L2 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 22. "              L2_ALLOCATE  ,L2 allocate policy - . - ." "0,Follow_sideband"
bitfld.long 0x00 21. "            L2_POSTED   ,L2 posted policy - . - ." "Not_posted,Posted"
textline "                                     "
bitfld.long 0x00 20. " L2_CACHEABLE ,L2 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 19. "              L1_WR_POLICY ,L1 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 18. "              L1_ALLOCATE ,L1 allocate policy - . - ." "0,Follow_sideband"
textline "                                     "
bitfld.long 0x00 17. " L1_POSTED    ,L1 posted policy - . - ." "Not_posted,Posted"
bitfld.long 0x00 16. "                 L1_CACHEABLE ,L1 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 7. "              EXCLUSION   ,Cache exclusion - . - ." "0,Send_exclusion_sideband"
textline "                                     "
bitfld.long 0x00 6. " PRELOAD      ,Preload region - . - ." "Do_not_preload,Preload"
bitfld.long 0x00 5. "             READ         ,Read only" "0,1"
bitfld.long 0x00 4. "                          EXECUTE     ,Execute only" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VOLATILE     ,Volatile qualifier - . - ." "0,Follow_volatile_qualifier"
bitfld.long 0x00 1. "  SIZE         ,Size of page - . - ." "32_MiB,512_MiB"
bitfld.long 0x00 0. "                    ENABLE      ,Enable page - . - ." "Page_not_enabled,Page_enabled"
group.long 0x2C++0x3
line.long 0x00 "CACHE_MMU_LARGE_XLTE_i_3,Large page translated address"
hexmask.long.byte 0x00 25.--31. 1. " ADDRESS      ,Logical source translated address"
bitfld.long 0x00 0. "                         IGNORE       ,Do not use translated address." "0,1"
group.long 0x12C++0x3
line.long 0x00 "CACHE_MMU_SMALL_ADDR_k_3,Small page address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source address"
group.long 0x2AC++0x3
line.long 0x00 "CACHE_MMU_SMALL_MAINT_k_3,Small page maintenance configuration"
bitfld.long 0x00 4. " INTERRUPT    ,Generate interrupt when maintenance operation is complete" "0,1"
bitfld.long 0x00 3. "                          INVALIDATE   ,Invalidate page" "0,1"
bitfld.long 0x00 2. "                          CLEAN       ,Evict page" "0,1"
textline "                                     "
bitfld.long 0x00 1. " LOCK         ,Lock page" "0,1"
bitfld.long 0x00 0. "                          PRELOAD      ,Preload page" "0,1"
group.long 0x22C++0x3
line.long 0x00 "CACHE_MMU_SMALL_POLICY_k_3,Small page policy"
bitfld.long 0x00 23. " L2_WR_POLICY ,L2 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 22. "              L2_ALLOCATE  ,L2 allocate policy - . - ." "0,Follow_sideband"
bitfld.long 0x00 21. "            L2_POSTED   ,L2 posted policy - . - ." "Non-posted,Posted"
textline "                                     "
bitfld.long 0x00 20. " L2_CACHEABLE ,L2 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 19. "              L1_WR_POLICY ,L1 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 18. "              L1_ALLOCATE ,L1 allocate policy - . - ." "0,Follow_sideband"
textline "                                     "
bitfld.long 0x00 17. " L1_POSTED    ,L1 posted policy - . - ." "Non-posted,Posted"
bitfld.long 0x00 16. "                 L1_CACHEABLE ,L1 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 8. "              COHERENCY   ,Coherency" "0,1"
textline "                                     "
bitfld.long 0x00 7. " EXCLUSION    ,Cache exclusion - . - ." "0,Send_exclusion_sideband"
bitfld.long 0x00 6. "    PRELOAD      ,Preload region - . - ." "Do_not_preload,Preload"
bitfld.long 0x00 5. "             READ        ,Read only" "0,1"
textline "                                     "
bitfld.long 0x00 4. " EXECUTE      ,Execute only" "0,1"
bitfld.long 0x00 3. "                          VOLATILE     ,Volatile qualifier - . - ." "0,Follow_volatile_qualifier"
bitfld.long 0x00 1. "  SIZE        ,Size of page - . - ." "4_KiB,16_KiB"
textline "                                     "
bitfld.long 0x00 0. " ENABLE       ,Enable page - . - ." "Page_not_enabled,Page_enabled"
group.long 0x1AC++0x3
line.long 0x00 "CACHE_MMU_SMALL_XLTE_k_3,Small page translated address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source translated address"
bitfld.long 0x00 0. "                     IGNORE       ,Do not use translated address." "0,1"
tree.end
tree "Channel_4"
width 28.
group.long 0x130++0x3
line.long 0x00 "CACHE_MMU_SMALL_ADDR_k_4,Small page address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source address"
group.long 0x2B0++0x3
line.long 0x00 "CACHE_MMU_SMALL_MAINT_k_4,Small page maintenance configuration"
bitfld.long 0x00 4. " INTERRUPT    ,Generate interrupt when maintenance operation is complete" "0,1"
bitfld.long 0x00 3. "                        INVALIDATE   ,Invalidate page" "0,1"
bitfld.long 0x00 2. "                          CLEAN       ,Evict page" "0,1"
textline "                                     "
bitfld.long 0x00 1. " LOCK         ,Lock page" "0,1"
bitfld.long 0x00 0. "                        PRELOAD      ,Preload page" "0,1"
group.long 0x230++0x3
line.long 0x00 "CACHE_MMU_SMALL_POLICY_k_4,Small page policy"
bitfld.long 0x00 23. " L2_WR_POLICY ,L2 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 22. "            L2_ALLOCATE  ,L2 allocate policy - . - ." "0,Follow_sideband"
bitfld.long 0x00 21. "            L2_POSTED   ,L2 posted policy - . - ." "Non-posted,Posted"
textline "                                     "
bitfld.long 0x00 20. " L2_CACHEABLE ,L2 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 19. "            L1_WR_POLICY ,L1 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 18. "              L1_ALLOCATE ,L1 allocate policy - . - ." "0,Follow_sideband"
textline "                                     "
bitfld.long 0x00 17. " L1_POSTED    ,L1 posted policy - . - ." "Non-posted,Posted"
bitfld.long 0x00 16. "               L1_CACHEABLE ,L1 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 8. "              COHERENCY   ,Coherency" "0,1"
textline "                                     "
bitfld.long 0x00 7. " EXCLUSION    ,Cache exclusion - . - ." "0,Send_exclusion_sideband"
bitfld.long 0x00 6. "  PRELOAD      ,Preload region - . - ." "Do_not_preload,Preload"
bitfld.long 0x00 5. "             READ        ,Read only" "0,1"
textline "                                     "
bitfld.long 0x00 4. " EXECUTE      ,Execute only" "0,1"
bitfld.long 0x00 3. "                        VOLATILE     ,Volatile qualifier - . - ." "0,Follow_volatile_qualifier"
bitfld.long 0x00 1. "  SIZE        ,Size of page - . - ." "4_KiB,16_KiB"
textline "                                     "
bitfld.long 0x00 0. " ENABLE       ,Enable page - . - ." "Page_not_enabled,Page_enabled"
group.long 0x1B0++0x3
line.long 0x00 "CACHE_MMU_SMALL_XLTE_k_4,Small page translated address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source translated address"
bitfld.long 0x00 0. "                   IGNORE       ,Do not use translated address." "0,1"
tree.end
tree "Channel_5"
width 28.
group.long 0x134++0x3
line.long 0x00 "CACHE_MMU_SMALL_ADDR_k_5,Small page address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source address"
group.long 0x2B4++0x3
line.long 0x00 "CACHE_MMU_SMALL_MAINT_k_5,Small page maintenance configuration"
bitfld.long 0x00 4. " INTERRUPT    ,Generate interrupt when maintenance operation is complete" "0,1"
bitfld.long 0x00 3. "                        INVALIDATE   ,Invalidate page" "0,1"
bitfld.long 0x00 2. "                          CLEAN       ,Evict page" "0,1"
textline "                                     "
bitfld.long 0x00 1. " LOCK         ,Lock page" "0,1"
bitfld.long 0x00 0. "                        PRELOAD      ,Preload page" "0,1"
group.long 0x234++0x3
line.long 0x00 "CACHE_MMU_SMALL_POLICY_k_5,Small page policy"
bitfld.long 0x00 23. " L2_WR_POLICY ,L2 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 22. "            L2_ALLOCATE  ,L2 allocate policy - . - ." "0,Follow_sideband"
bitfld.long 0x00 21. "            L2_POSTED   ,L2 posted policy - . - ." "Non-posted,Posted"
textline "                                     "
bitfld.long 0x00 20. " L2_CACHEABLE ,L2 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 19. "            L1_WR_POLICY ,L1 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 18. "              L1_ALLOCATE ,L1 allocate policy - . - ." "0,Follow_sideband"
textline "                                     "
bitfld.long 0x00 17. " L1_POSTED    ,L1 posted policy - . - ." "Non-posted,Posted"
bitfld.long 0x00 16. "               L1_CACHEABLE ,L1 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 8. "              COHERENCY   ,Coherency" "0,1"
textline "                                     "
bitfld.long 0x00 7. " EXCLUSION    ,Cache exclusion - . - ." "0,Send_exclusion_sideband"
bitfld.long 0x00 6. "  PRELOAD      ,Preload region - . - ." "Do_not_preload,Preload"
bitfld.long 0x00 5. "             READ        ,Read only" "0,1"
textline "                                     "
bitfld.long 0x00 4. " EXECUTE      ,Execute only" "0,1"
bitfld.long 0x00 3. "                        VOLATILE     ,Volatile qualifier - . - ." "0,Follow_volatile_qualifier"
bitfld.long 0x00 1. "  SIZE        ,Size of page - . - ." "4_KiB,16_KiB"
textline "                                     "
bitfld.long 0x00 0. " ENABLE       ,Enable page - . - ." "Page_not_enabled,Page_enabled"
group.long 0x1B4++0x3
line.long 0x00 "CACHE_MMU_SMALL_XLTE_k_5,Small page translated address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source translated address"
bitfld.long 0x00 0. "                   IGNORE       ,Do not use translated address." "0,1"
tree.end
tree "Channel_6"
width 28.
group.long 0x138++0x3
line.long 0x00 "CACHE_MMU_SMALL_ADDR_k_6,Small page address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source address"
group.long 0x2B8++0x3
line.long 0x00 "CACHE_MMU_SMALL_MAINT_k_6,Small page maintenance configuration"
bitfld.long 0x00 4. " INTERRUPT    ,Generate interrupt when maintenance operation is complete" "0,1"
bitfld.long 0x00 3. "                        INVALIDATE   ,Invalidate page" "0,1"
bitfld.long 0x00 2. "                          CLEAN       ,Evict page" "0,1"
textline "                                     "
bitfld.long 0x00 1. " LOCK         ,Lock page" "0,1"
bitfld.long 0x00 0. "                        PRELOAD      ,Preload page" "0,1"
group.long 0x238++0x3
line.long 0x00 "CACHE_MMU_SMALL_POLICY_k_6,Small page policy"
bitfld.long 0x00 23. " L2_WR_POLICY ,L2 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 22. "            L2_ALLOCATE  ,L2 allocate policy - . - ." "0,Follow_sideband"
bitfld.long 0x00 21. "            L2_POSTED   ,L2 posted policy - . - ." "Non-posted,Posted"
textline "                                     "
bitfld.long 0x00 20. " L2_CACHEABLE ,L2 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 19. "            L1_WR_POLICY ,L1 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 18. "              L1_ALLOCATE ,L1 allocate policy - . - ." "0,Follow_sideband"
textline "                                     "
bitfld.long 0x00 17. " L1_POSTED    ,L1 posted policy - . - ." "Non-posted,Posted"
bitfld.long 0x00 16. "               L1_CACHEABLE ,L1 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 8. "              COHERENCY   ,Coherency" "0,1"
textline "                                     "
bitfld.long 0x00 7. " EXCLUSION    ,Cache exclusion - . - ." "0,Send_exclusion_sideband"
bitfld.long 0x00 6. "  PRELOAD      ,Preload region - . - ." "Do_not_preload,Preload"
bitfld.long 0x00 5. "             READ        ,Read only" "0,1"
textline "                                     "
bitfld.long 0x00 4. " EXECUTE      ,Execute only" "0,1"
bitfld.long 0x00 3. "                        VOLATILE     ,Volatile qualifier - . - ." "0,Follow_volatile_qualifier"
bitfld.long 0x00 1. "  SIZE        ,Size of page - . - ." "4_KiB,16_KiB"
textline "                                     "
bitfld.long 0x00 0. " ENABLE       ,Enable page - . - ." "Page_not_enabled,Page_enabled"
group.long 0x1B8++0x3
line.long 0x00 "CACHE_MMU_SMALL_XLTE_k_6,Small page translated address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source translated address"
bitfld.long 0x00 0. "                   IGNORE       ,Do not use translated address." "0,1"
tree.end
tree "Channel_7"
width 28.
group.long 0x13C++0x3
line.long 0x00 "CACHE_MMU_SMALL_ADDR_k_7,Small page address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source address"
group.long 0x2BC++0x3
line.long 0x00 "CACHE_MMU_SMALL_MAINT_k_7,Small page maintenance configuration"
bitfld.long 0x00 4. " INTERRUPT    ,Generate interrupt when maintenance operation is complete" "0,1"
bitfld.long 0x00 3. "                        INVALIDATE   ,Invalidate page" "0,1"
bitfld.long 0x00 2. "                          CLEAN       ,Evict page" "0,1"
textline "                                     "
bitfld.long 0x00 1. " LOCK         ,Lock page" "0,1"
bitfld.long 0x00 0. "                        PRELOAD      ,Preload page" "0,1"
group.long 0x23C++0x3
line.long 0x00 "CACHE_MMU_SMALL_POLICY_k_7,Small page policy"
bitfld.long 0x00 23. " L2_WR_POLICY ,L2 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 22. "            L2_ALLOCATE  ,L2 allocate policy - . - ." "0,Follow_sideband"
bitfld.long 0x00 21. "            L2_POSTED   ,L2 posted policy - . - ." "Non-posted,Posted"
textline "                                     "
bitfld.long 0x00 20. " L2_CACHEABLE ,L2 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 19. "            L1_WR_POLICY ,L1 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 18. "              L1_ALLOCATE ,L1 allocate policy - . - ." "0,Follow_sideband"
textline "                                     "
bitfld.long 0x00 17. " L1_POSTED    ,L1 posted policy - . - ." "Non-posted,Posted"
bitfld.long 0x00 16. "               L1_CACHEABLE ,L1 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 8. "              COHERENCY   ,Coherency" "0,1"
textline "                                     "
bitfld.long 0x00 7. " EXCLUSION    ,Cache exclusion - . - ." "0,Send_exclusion_sideband"
bitfld.long 0x00 6. "  PRELOAD      ,Preload region - . - ." "Do_not_preload,Preload"
bitfld.long 0x00 5. "             READ        ,Read only" "0,1"
textline "                                     "
bitfld.long 0x00 4. " EXECUTE      ,Execute only" "0,1"
bitfld.long 0x00 3. "                        VOLATILE     ,Volatile qualifier - . - ." "0,Follow_volatile_qualifier"
bitfld.long 0x00 1. "  SIZE        ,Size of page - . - ." "4_KiB,16_KiB"
textline "                                     "
bitfld.long 0x00 0. " ENABLE       ,Enable page - . - ." "Page_not_enabled,Page_enabled"
group.long 0x1BC++0x3
line.long 0x00 "CACHE_MMU_SMALL_XLTE_k_7,Small page translated address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source translated address"
bitfld.long 0x00 0. "                   IGNORE       ,Do not use translated address." "0,1"
tree.end
tree "Channel_8"
width 28.
group.long 0x140++0x3
line.long 0x00 "CACHE_MMU_SMALL_ADDR_k_8,Small page address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source address"
group.long 0x2C0++0x3
line.long 0x00 "CACHE_MMU_SMALL_MAINT_k_8,Small page maintenance configuration"
bitfld.long 0x00 4. " INTERRUPT    ,Generate interrupt when maintenance operation is complete" "0,1"
bitfld.long 0x00 3. "                        INVALIDATE   ,Invalidate page" "0,1"
bitfld.long 0x00 2. "                          CLEAN       ,Evict page" "0,1"
textline "                                     "
bitfld.long 0x00 1. " LOCK         ,Lock page" "0,1"
bitfld.long 0x00 0. "                        PRELOAD      ,Preload page" "0,1"
group.long 0x240++0x3
line.long 0x00 "CACHE_MMU_SMALL_POLICY_k_8,Small page policy"
bitfld.long 0x00 23. " L2_WR_POLICY ,L2 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 22. "            L2_ALLOCATE  ,L2 allocate policy - . - ." "0,Follow_sideband"
bitfld.long 0x00 21. "            L2_POSTED   ,L2 posted policy - . - ." "Non-posted,Posted"
textline "                                     "
bitfld.long 0x00 20. " L2_CACHEABLE ,L2 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 19. "            L1_WR_POLICY ,L1 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 18. "              L1_ALLOCATE ,L1 allocate policy - . - ." "0,Follow_sideband"
textline "                                     "
bitfld.long 0x00 17. " L1_POSTED    ,L1 posted policy - . - ." "Non-posted,Posted"
bitfld.long 0x00 16. "               L1_CACHEABLE ,L1 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 8. "              COHERENCY   ,Coherency" "0,1"
textline "                                     "
bitfld.long 0x00 7. " EXCLUSION    ,Cache exclusion - . - ." "0,Send_exclusion_sideband"
bitfld.long 0x00 6. "  PRELOAD      ,Preload region - . - ." "Do_not_preload,Preload"
bitfld.long 0x00 5. "             READ        ,Read only" "0,1"
textline "                                     "
bitfld.long 0x00 4. " EXECUTE      ,Execute only" "0,1"
bitfld.long 0x00 3. "                        VOLATILE     ,Volatile qualifier - . - ." "0,Follow_volatile_qualifier"
bitfld.long 0x00 1. "  SIZE        ,Size of page - . - ." "4_KiB,16_KiB"
textline "                                     "
bitfld.long 0x00 0. " ENABLE       ,Enable page - . - ." "Page_not_enabled,Page_enabled"
group.long 0x1C0++0x3
line.long 0x00 "CACHE_MMU_SMALL_XLTE_k_8,Small page translated address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source translated address"
bitfld.long 0x00 0. "                   IGNORE       ,Do not use translated address." "0,1"
tree.end
tree "Channel_9"
width 28.
group.long 0x144++0x3
line.long 0x00 "CACHE_MMU_SMALL_ADDR_k_9,Small page address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source address"
group.long 0x2C4++0x3
line.long 0x00 "CACHE_MMU_SMALL_MAINT_k_9,Small page maintenance configuration"
bitfld.long 0x00 4. " INTERRUPT    ,Generate interrupt when maintenance operation is complete" "0,1"
bitfld.long 0x00 3. "                        INVALIDATE   ,Invalidate page" "0,1"
bitfld.long 0x00 2. "                          CLEAN       ,Evict page" "0,1"
textline "                                     "
bitfld.long 0x00 1. " LOCK         ,Lock page" "0,1"
bitfld.long 0x00 0. "                        PRELOAD      ,Preload page" "0,1"
group.long 0x244++0x3
line.long 0x00 "CACHE_MMU_SMALL_POLICY_k_9,Small page policy"
bitfld.long 0x00 23. " L2_WR_POLICY ,L2 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 22. "            L2_ALLOCATE  ,L2 allocate policy - . - ." "0,Follow_sideband"
bitfld.long 0x00 21. "            L2_POSTED   ,L2 posted policy - . - ." "Non-posted,Posted"
textline "                                     "
bitfld.long 0x00 20. " L2_CACHEABLE ,L2 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 19. "            L1_WR_POLICY ,L1 write policy - . - ." "Write_through,Write_back"
bitfld.long 0x00 18. "              L1_ALLOCATE ,L1 allocate policy - . - ." "0,Follow_sideband"
textline "                                     "
bitfld.long 0x00 17. " L1_POSTED    ,L1 posted policy - . - ." "Non-posted,Posted"
bitfld.long 0x00 16. "               L1_CACHEABLE ,L1 cache policy - . - ." "Non-cacheable,Cacheable"
bitfld.long 0x00 8. "              COHERENCY   ,Coherency" "0,1"
textline "                                     "
bitfld.long 0x00 7. " EXCLUSION    ,Cache exclusion - . - ." "0,Send_exclusion_sideband"
bitfld.long 0x00 6. "  PRELOAD      ,Preload region - . - ." "Do_not_preload,Preload"
bitfld.long 0x00 5. "             READ        ,Read only" "0,1"
textline "                                     "
bitfld.long 0x00 4. " EXECUTE      ,Execute only" "0,1"
bitfld.long 0x00 3. "                        VOLATILE     ,Volatile qualifier - . - ." "0,Follow_volatile_qualifier"
bitfld.long 0x00 1. "  SIZE        ,Size of page - . - ." "4_KiB,16_KiB"
textline "                                     "
bitfld.long 0x00 0. " ENABLE       ,Enable page - . - ." "Page_not_enabled,Page_enabled"
group.long 0x1C4++0x3
line.long 0x00 "CACHE_MMU_SMALL_XLTE_k_9,Small page translated address"
hexmask.long.tbyte 0x00 12.--31. 1. " ADDRESS      ,Logical source translated address"
bitfld.long 0x00 0. "                   IGNORE       ,Do not use translated address." "0,1"
tree.end
textline ""
width 21.
group.long 0x4A8++0x3
line.long 0x00 "CACHE_MMU_MAINT,Maintenance configuration register"
bitfld.long 0x00 10. " G_FLUSH       ,Global flush bit - . - ." "0,Invalidate_L1+L2"
bitfld.long 0x00 9. "     L2_CACHE      ,Do maintenance operation in L2 cache. Note: Hardware ensures that the maintenance operations are done in L1 first and then in L2 - . - ." "Do_nothing,1"
bitfld.long 0x00 8. "          L1_CACHE2      ,Do maintenance operation in L1 cache 2 - . - ." "Do_nothing,1"
textline "                              "
bitfld.long 0x00 7. " L1_CACHE1     ,Do maintenance operation in L1 cache 1 - . - ." "0,1"
bitfld.long 0x00 6. "                    CPU_INTERRUPT ,Generate interrupt to cpu when maintenance operation initiated by CPU is complete - . - ." "0,Generate_interrupt"
bitfld.long 0x00 5. "  HOST_INTERRUPT ,Generate interrupt when maintenance operation is complete - . - ." "0,Generate_interrupt"
textline "                              "
bitfld.long 0x00 4. " INVALIDATE    ,Invalidate lines in region defined by maintenance start/end addresses - . - ." "Do_nothing,Invalidate"
bitfld.long 0x00 3. "           CLEAN         ,Evict dirty lines in region defined by maintenance start/end addresses - . - ." "Do_nothing,Clean"
bitfld.long 0x00 2. "          UNLOCK         ,Unlock region defined by maintenance start/end addresses - . - ." "Do_nothing,Unlock"
textline "                              "
bitfld.long 0x00 1. " LOCK          ,Lock region defined by maintenance start/end addresses - . - ." "Do_nothing,Lock"
bitfld.long 0x00 0. "           PRELOAD       ,Preload region defined by maintenance start/end addresses - . - ." "Do_nothing,Preload"
group.long 0x4AC++0x3
line.long 0x00 "CACHE_MMU_MTSTART,Maintenance start configuration register"
hexmask.long 0x00 0.--31. 1. " BEGIN_ADDRESS ,Start address of maintenance operations, resets to 0x0000 0000 when finished"
group.long 0x4B0++0x3
line.long 0x00 "CACHE_MMU_MTEND,Maintenance end configuration register"
hexmask.long 0x00 0.--31. 1. " END_ADDRESS   ,End address of maintenance operations, resets to 0x0000 0000 when finished"
rgroup.long 0x4B4++0x3
line.long 0x00 "CACHE_MMU_MAINTST,Maintenance status register"
bitfld.long 0x00 0. " STATUS        ,Status bit - . - ." "0,Maintenance_ongoing"
group.long 0x4B8++0x3
line.long 0x00 "CACHE_MMU_MMUCONFIG,MMU configuration register"
bitfld.long 0x00 1. " PRIVILEGE     ,Privilege bit. Once this bit is set, only global flush, debugger, or hardware reset can clear. - . - ." "0,1"
bitfld.long 0x00 0. "                    MMU_LOCK      ,MMU lock. Once this bit is set only a global flush, debugger, or hardware reset can clear. - . - ." "0,1"
width 0x0B
tree.end
tree.end
tree.open "IPU2_UNICACHE_CFG"
tree "IPU2_UNICACHE_CFG"
base ad:0x55080000
width 15.
group.long 0x4++0x3
line.long 0x00 "CACHE_CONFIG,Configuration Register"
bitfld.long 0x00 4. " LOCK_MAIN  ,Lock access to maintenance registers - . - ." "Locked,Not_locked"
bitfld.long 0x00 3. "                LOCK_PORT  ,Lock access to interface registers - . - ." "Locked,Not_locked"
bitfld.long 0x00 2. "           LOCK_INT ,Lock access to interrupt registers - . - ." "Locked,Not_locked"
textline "                        "
bitfld.long 0x00 1. " BYPASS     ,Bypass cache - . - ." "0,Everything_is_cacheable."
bitfld.long 0x00 0. "  CACHE_LOCK ,Unicache lock. Once this bit is set only debugger or hardware reset can clear. - . - ." "No_effect,1"
group.long 0x8++0x3
line.long 0x00 "CACHE_INT,Interrupt Register"
bitfld.long 0x00 5.--8. " PORT       ,Slave interface number that has recorded an error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
eventfld.long 0x00 4. "                        READ       ,Interface read response error" "0,1"
eventfld.long 0x00 3. "                    WRITE    ,Interface write response error" "0,1"
textline "                        "
eventfld.long 0x00 2. " MAINT      ,Maintenance is completed" "0,1"
eventfld.long 0x00 1. "                         PAGEFAULT  ,Unicache MMU page fault" "0,1"
eventfld.long 0x00 0. "                    CONFIG   ,Configuration error" "0,1"
group.long 0xC++0x3
line.long 0x00 "CACHE_OCP,Interface Configuration Register"
bitfld.long 0x00 5. " CLEANBUF   ,Clean write and prefetch buffers in cache - . - ." "Do_not_clean,Clean"
bitfld.long 0x00 4. "              PREFETCH   ,Always prefetch data - . - ." "Follow_MMU_policies,Always_prefetch"
bitfld.long 0x00 3. "  CACHED   ,Follow cacheable sideband signals - . - ." "0,1"
textline "                        "
bitfld.long 0x00 2. " WRALLOCATE ,Follow write allocate sideband signals - . - ." "0,Follow_sideband"
bitfld.long 0x00 1. "           WRBUFFER   ,Write throughs and write back no allocate are buffered - . - ." "0,1"
bitfld.long 0x00 0. "                    WRAP     ,OCP wrap mode (critical word first) - . - ." "Disabled,Enabled"
group.long 0x10++0x3
line.long 0x00 "CACHE_MAINT,Maintenance Configuration Register"
bitfld.long 0x00 5. " INTERRUPT  ,Generate interrupt when maintenance operation is complete - . - ." "0,Generate_interrupt"
bitfld.long 0x00 4. "        INVALIDATE ,Invalidate lines in region defined by maintenance start/end addresses - . - ." "Do_nothing,Invalidate"
bitfld.long 0x00 3. "           CLEAN    ,Evict dirty lines in region defined by maintenance start/end addresses - . - ." "Do_nothing,Clean"
textline "                        "
bitfld.long 0x00 2. " UNLOCK     ,Unlock region defined by maintenance start/end addresses - . - ." "Do_nothing,Unlock"
bitfld.long 0x00 1. "                LOCK       ,Lock region defined by maintenance start/end addresses - . - ." "Do_nothing,Lock"
bitfld.long 0x00 0. "           PRELOAD  ,Preload region defined by maintenance start/end addresses - . - ." "Do_nothing,Preload"
group.long 0x14++0x3
line.long 0x00 "CACHE_MTSTART,Maintenance Start Configuration Register"
hexmask.long 0x00 0.--31. 1. " START_ADDR ,Start address of maintenance operations, reset to 0x0000 0000 when finished"
group.long 0x18++0x3
line.long 0x00 "CACHE_MTEND,Maintenance End Configuration Register"
hexmask.long 0x00 0.--31. 1. " END_ADDR   ,End address of maintenance operations, reset to 0x0000 0000 when finished"
group.long 0x1C++0x3
line.long 0x00 "CACHE_CTADDR,Cache Test Address Register"
hexmask.long 0x00 0.--31. 1. " ADDRESS    ,Address of cache visibility when readCACHE_CTDATA register, autoincrements"
group.long 0x20++0x3
line.long 0x00 "CACHE_CTDATA,Cache Test Data Register"
hexmask.long 0x00 0.--31. 1. " DATA       ,Cache data at address ofCACHE_CTADDR register, CACHE_CTADDR autoincrements each time CACHE_CTDATA is read"
width 0x0B
tree.end
tree "IPU1_UNICACHE_CFG"
base ad:0x58880000
width 15.
group.long 0x4++0x3
line.long 0x00 "CACHE_CONFIG,Configuration Register"
bitfld.long 0x00 4. " LOCK_MAIN  ,Lock access to maintenance registers - . - ." "Locked,Not_locked"
bitfld.long 0x00 3. "                LOCK_PORT  ,Lock access to interface registers - . - ." "Locked,Not_locked"
bitfld.long 0x00 2. "           LOCK_INT ,Lock access to interrupt registers - . - ." "Locked,Not_locked"
textline "                        "
bitfld.long 0x00 1. " BYPASS     ,Bypass cache - . - ." "0,Everything_is_cacheable."
bitfld.long 0x00 0. "  CACHE_LOCK ,Unicache lock. Once this bit is set only debugger or hardware reset can clear. - . - ." "No_effect,1"
group.long 0x8++0x3
line.long 0x00 "CACHE_INT,Interrupt Register"
bitfld.long 0x00 5.--8. " PORT       ,Slave interface number that has recorded an error" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
eventfld.long 0x00 4. "                        READ       ,Interface read response error" "0,1"
eventfld.long 0x00 3. "                    WRITE    ,Interface write response error" "0,1"
textline "                        "
eventfld.long 0x00 2. " MAINT      ,Maintenance is completed" "0,1"
eventfld.long 0x00 1. "                         PAGEFAULT  ,Unicache MMU page fault" "0,1"
eventfld.long 0x00 0. "                    CONFIG   ,Configuration error" "0,1"
group.long 0xC++0x3
line.long 0x00 "CACHE_OCP,Interface Configuration Register"
bitfld.long 0x00 5. " CLEANBUF   ,Clean write and prefetch buffers in cache - . - ." "Do_not_clean,Clean"
bitfld.long 0x00 4. "              PREFETCH   ,Always prefetch data - . - ." "Follow_MMU_policies,Always_prefetch"
bitfld.long 0x00 3. "  CACHED   ,Follow cacheable sideband signals - . - ." "0,1"
textline "                        "
bitfld.long 0x00 2. " WRALLOCATE ,Follow write allocate sideband signals - . - ." "0,Follow_sideband"
bitfld.long 0x00 1. "           WRBUFFER   ,Write throughs and write back no allocate are buffered - . - ." "0,1"
bitfld.long 0x00 0. "                    WRAP     ,OCP wrap mode (critical word first) - . - ." "Disabled,Enabled"
group.long 0x10++0x3
line.long 0x00 "CACHE_MAINT,Maintenance Configuration Register"
bitfld.long 0x00 5. " INTERRUPT  ,Generate interrupt when maintenance operation is complete - . - ." "0,Generate_interrupt"
bitfld.long 0x00 4. "        INVALIDATE ,Invalidate lines in region defined by maintenance start/end addresses - . - ." "Do_nothing,Invalidate"
bitfld.long 0x00 3. "           CLEAN    ,Evict dirty lines in region defined by maintenance start/end addresses - . - ." "Do_nothing,Clean"
textline "                        "
bitfld.long 0x00 2. " UNLOCK     ,Unlock region defined by maintenance start/end addresses - . - ." "Do_nothing,Unlock"
bitfld.long 0x00 1. "                LOCK       ,Lock region defined by maintenance start/end addresses - . - ." "Do_nothing,Lock"
bitfld.long 0x00 0. "           PRELOAD  ,Preload region defined by maintenance start/end addresses - . - ." "Do_nothing,Preload"
group.long 0x14++0x3
line.long 0x00 "CACHE_MTSTART,Maintenance Start Configuration Register"
hexmask.long 0x00 0.--31. 1. " START_ADDR ,Start address of maintenance operations, reset to 0x0000 0000 when finished"
group.long 0x18++0x3
line.long 0x00 "CACHE_MTEND,Maintenance End Configuration Register"
hexmask.long 0x00 0.--31. 1. " END_ADDR   ,End address of maintenance operations, reset to 0x0000 0000 when finished"
group.long 0x1C++0x3
line.long 0x00 "CACHE_CTADDR,Cache Test Address Register"
hexmask.long 0x00 0.--31. 1. " ADDRESS    ,Address of cache visibility when readCACHE_CTDATA register, autoincrements"
group.long 0x20++0x3
line.long 0x00 "CACHE_CTDATA,Cache Test Data Register"
hexmask.long 0x00 0.--31. 1. " DATA       ,Cache data at address ofCACHE_CTADDR register, CACHE_CTADDR autoincrements each time CACHE_CTDATA is read"
width 0x0B
tree.end
tree.end
tree.open "IPU2_WUGEN"
tree "IPU2_WUGEN"
base ad:0x55081000
width 24.
group.long 0x0++0x3
line.long 0x00 "CORTEXM4_CTRL_REG,The register is used by one CPU to interrupt the other, thus used as a handshake between the two CPUs 0x0: Interrupt is cleared; 0x1: Interrupt is set."
bitfld.long 0x00 16. " INT_CORTEX_2 ,Interrupt to IPUx_C1" "0,1"
bitfld.long 0x00 0. "                   INT_CORTEX_1 ,Interrupt to IPUx_C0" "0,1"
group.long 0x4++0x3
line.long 0x00 "STANDBY_CORE_SYSCONFIG,Standby protocol"
bitfld.long 0x00 0.--1. " STANDBYMODE  ,0x0: Force-standby mode - . - . - ." "0,No-standby_mode,Smart-standby_mode,3"
group.long 0x8++0x3
line.long 0x00 "IDLE_CORE_SYSCONFIG,Idle protocol"
bitfld.long 0x00 0.--1. " IDLEMODE     ,0x0: Force-idle mode - . - . - ." "0,No-idle_mode,Smart-idle_mode,3"
group.long 0xC++0x3
line.long 0x00 "WUGEN_MEVT0,This register contains the interrupt mask (LSB) wake-up enable bit per interrupt request: 0x0: Interrupt is disabled; 0x1: Interrupt is enabled."
bitfld.long 0x00 31. " MIRQ31       ,Interrupt Mask bit 31" "0,1"
bitfld.long 0x00 30. "                   MIRQ30       ,Interrupt Mask bit 30" "0,1"
bitfld.long 0x00 29. "  MIRQ29 ,Interrupt Mask bit 29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " MIRQ28       ,Interrupt Mask bit 28" "0,1"
bitfld.long 0x00 27. "                   MIRQ27       ,Interrupt Mask bit 27" "0,1"
bitfld.long 0x00 26. "  MIRQ26 ,Interrupt Mask bit 26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " MIRQ25       ,Interrupt Mask bit 25" "0,1"
bitfld.long 0x00 24. "                   MIRQ24       ,Interrupt Mask bit 24" "0,1"
bitfld.long 0x00 23. "  MIRQ23 ,Interrupt Mask bit 23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " MIRQ22       ,Interrupt Mask bit 22" "0,1"
bitfld.long 0x00 21. "                   MIRQ21       ,Interrupt Mask bit 21" "0,1"
bitfld.long 0x00 20. "  MIRQ20 ,Interrupt Mask bit 20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " MIRQ19       ,Interrupt Mask bit 19" "0,1"
bitfld.long 0x00 18. "                   MIRQ18       ,Interrupt Mask bit 18" "0,1"
bitfld.long 0x00 17. "  MIRQ17 ,Interrupt Mask bit 17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " MIRQ16       ,Interrupt Mask bit 16" "0,1"
bitfld.long 0x00 15. "                   MIRQ15       ,Interrupt Mask bit 15" "0,1"
bitfld.long 0x00 14. "  MIRQ14 ,Interrupt Mask bit 14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " MIRQ13       ,Interrupt Mask bit 13" "0,1"
bitfld.long 0x00 12. "                   MIRQ12       ,Interrupt Mask bit 12" "0,1"
bitfld.long 0x00 11. "  MIRQ11 ,Interrupt Mask bit 11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " MIRQ10       ,Interrupt Mask bit 10" "0,1"
bitfld.long 0x00 9. "                   MIRQ9        ,Interrupt Mask bit 9" "0,1"
bitfld.long 0x00 8. "  MIRQ8  ,Interrupt Mask bit 8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " MIRQ7        ,Interrupt Mask bit 7" "0,1"
bitfld.long 0x00 6. "                   MIRQ6        ,Interrupt Mask bit 6" "0,1"
bitfld.long 0x00 5. "  MIRQ5  ,Interrupt Mask bit 5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " MIRQ4        ,Interrupt Mask bit 4" "0,1"
bitfld.long 0x00 3. "                   MIRQ3        ,Interrupt Mask bit 3" "0,1"
bitfld.long 0x00 2. "  MIRQ2  ,Interrupt Mask bit 2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " MIRQ1        ,Interrupt Mask bit 1" "0,1"
bitfld.long 0x00 0. "                   MIRQ0        ,Interrupt Mask bit 0" "0,1"
group.long 0x10++0x3
line.long 0x00 "WUGEN_MEVT1,This register contains the interrupt mask (MSB) wake-up enable bit per interrupt request: 0x0: Interrupt is disabled; 0x1: Interrupt is enabled."
bitfld.long 0x00 31. " MIRQ63       ,Interrupt Mask bit 63" "0,1"
bitfld.long 0x00 30. "                   MIRQ62       ,Interrupt Mask bit 62" "0,1"
bitfld.long 0x00 29. "  MIRQ61 ,Interrupt Mask bit 61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " MIRQ60       ,Interrupt Mask bit 60" "0,1"
bitfld.long 0x00 27. "                   MIRQ59       ,Interrupt Mask bit 59" "0,1"
bitfld.long 0x00 26. "  MIRQ58 ,Interrupt Mask bit 58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " MIRQ57       ,Interrupt Mask bit 57" "0,1"
bitfld.long 0x00 24. "                   MIRQ56       ,Interrupt Mask bit 56" "0,1"
bitfld.long 0x00 23. "  MIRQ55 ,Interrupt Mask bit 55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " MIRQ54       ,Interrupt Mask bit 54" "0,1"
bitfld.long 0x00 21. "                   MIRQ53       ,Interrupt Mask bit 53" "0,1"
bitfld.long 0x00 20. "  MIRQ52 ,Interrupt Mask bit 52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " MIRQ51       ,Interrupt Mask bit 51" "0,1"
bitfld.long 0x00 18. "                   MIRQ50       ,Interrupt Mask bit 50" "0,1"
bitfld.long 0x00 17. "  MIRQ49 ,Interrupt Mask bit 49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " MIRQ48       ,Interrupt Mask bit 48" "0,1"
bitfld.long 0x00 15. "                   MIRQ47       ,Interrupt Mask bit 47" "0,1"
bitfld.long 0x00 14. "  MIRQ46 ,Interrupt Mask bit 46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " MIRQ45       ,Interrupt Mask bit 45" "0,1"
bitfld.long 0x00 12. "                   MIRQ44       ,Interrupt Mask bit 44" "0,1"
bitfld.long 0x00 11. "  MIRQ43 ,Interrupt Mask bit 43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " MIRQ42       ,Interrupt Mask bit 42" "0,1"
bitfld.long 0x00 9. "                   MIRQ41       ,Interrupt Mask bit 41" "0,1"
bitfld.long 0x00 8. "  MIRQ40 ,Interrupt Mask bit 40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " MIRQ39       ,Interrupt Mask bit 39" "0,1"
bitfld.long 0x00 6. "                   MIRQ38       ,Interrupt Mask bit 38" "0,1"
bitfld.long 0x00 5. "  MIRQ37 ,Interrupt Mask bit 37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " MIRQ36       ,Interrupt Mask bit 36" "0,1"
bitfld.long 0x00 3. "                   MIRQ35       ,Interrupt Mask bit 35" "0,1"
bitfld.long 0x00 2. "  MIRQ34 ,Interrupt Mask bit 34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " MIRQ33       ,Interrupt Mask bit 33" "0,1"
bitfld.long 0x00 0. "                   MIRQ32       ,Interrupt Mask bit 32" "0,1"
width 0x0B
tree.end
tree "IPU1_WUGEN"
base ad:0x58881000
width 24.
group.long 0x0++0x3
line.long 0x00 "CORTEXM4_CTRL_REG,The register is used by one CPU to interrupt the other, thus used as a handshake between the two CPUs 0x0: Interrupt is cleared; 0x1: Interrupt is set."
bitfld.long 0x00 16. " INT_CORTEX_2 ,Interrupt to IPUx_C1" "0,1"
bitfld.long 0x00 0. "                   INT_CORTEX_1 ,Interrupt to IPUx_C0" "0,1"
group.long 0x4++0x3
line.long 0x00 "STANDBY_CORE_SYSCONFIG,Standby protocol"
bitfld.long 0x00 0.--1. " STANDBYMODE  ,0x0: Force-standby mode - . - . - ." "0,No-standby_mode,Smart-standby_mode,3"
group.long 0x8++0x3
line.long 0x00 "IDLE_CORE_SYSCONFIG,Idle protocol"
bitfld.long 0x00 0.--1. " IDLEMODE     ,0x0: Force-idle mode - . - . - ." "0,No-idle_mode,Smart-idle_mode,3"
group.long 0xC++0x3
line.long 0x00 "WUGEN_MEVT0,This register contains the interrupt mask (LSB) wake-up enable bit per interrupt request: 0x0: Interrupt is disabled; 0x1: Interrupt is enabled."
bitfld.long 0x00 31. " MIRQ31       ,Interrupt Mask bit 31" "0,1"
bitfld.long 0x00 30. "                   MIRQ30       ,Interrupt Mask bit 30" "0,1"
bitfld.long 0x00 29. "  MIRQ29 ,Interrupt Mask bit 29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " MIRQ28       ,Interrupt Mask bit 28" "0,1"
bitfld.long 0x00 27. "                   MIRQ27       ,Interrupt Mask bit 27" "0,1"
bitfld.long 0x00 26. "  MIRQ26 ,Interrupt Mask bit 26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " MIRQ25       ,Interrupt Mask bit 25" "0,1"
bitfld.long 0x00 24. "                   MIRQ24       ,Interrupt Mask bit 24" "0,1"
bitfld.long 0x00 23. "  MIRQ23 ,Interrupt Mask bit 23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " MIRQ22       ,Interrupt Mask bit 22" "0,1"
bitfld.long 0x00 21. "                   MIRQ21       ,Interrupt Mask bit 21" "0,1"
bitfld.long 0x00 20. "  MIRQ20 ,Interrupt Mask bit 20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " MIRQ19       ,Interrupt Mask bit 19" "0,1"
bitfld.long 0x00 18. "                   MIRQ18       ,Interrupt Mask bit 18" "0,1"
bitfld.long 0x00 17. "  MIRQ17 ,Interrupt Mask bit 17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " MIRQ16       ,Interrupt Mask bit 16" "0,1"
bitfld.long 0x00 15. "                   MIRQ15       ,Interrupt Mask bit 15" "0,1"
bitfld.long 0x00 14. "  MIRQ14 ,Interrupt Mask bit 14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " MIRQ13       ,Interrupt Mask bit 13" "0,1"
bitfld.long 0x00 12. "                   MIRQ12       ,Interrupt Mask bit 12" "0,1"
bitfld.long 0x00 11. "  MIRQ11 ,Interrupt Mask bit 11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " MIRQ10       ,Interrupt Mask bit 10" "0,1"
bitfld.long 0x00 9. "                   MIRQ9        ,Interrupt Mask bit 9" "0,1"
bitfld.long 0x00 8. "  MIRQ8  ,Interrupt Mask bit 8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " MIRQ7        ,Interrupt Mask bit 7" "0,1"
bitfld.long 0x00 6. "                   MIRQ6        ,Interrupt Mask bit 6" "0,1"
bitfld.long 0x00 5. "  MIRQ5  ,Interrupt Mask bit 5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " MIRQ4        ,Interrupt Mask bit 4" "0,1"
bitfld.long 0x00 3. "                   MIRQ3        ,Interrupt Mask bit 3" "0,1"
bitfld.long 0x00 2. "  MIRQ2  ,Interrupt Mask bit 2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " MIRQ1        ,Interrupt Mask bit 1" "0,1"
bitfld.long 0x00 0. "                   MIRQ0        ,Interrupt Mask bit 0" "0,1"
group.long 0x10++0x3
line.long 0x00 "WUGEN_MEVT1,This register contains the interrupt mask (MSB) wake-up enable bit per interrupt request: 0x0: Interrupt is disabled; 0x1: Interrupt is enabled."
bitfld.long 0x00 31. " MIRQ63       ,Interrupt Mask bit 63" "0,1"
bitfld.long 0x00 30. "                   MIRQ62       ,Interrupt Mask bit 62" "0,1"
bitfld.long 0x00 29. "  MIRQ61 ,Interrupt Mask bit 61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " MIRQ60       ,Interrupt Mask bit 60" "0,1"
bitfld.long 0x00 27. "                   MIRQ59       ,Interrupt Mask bit 59" "0,1"
bitfld.long 0x00 26. "  MIRQ58 ,Interrupt Mask bit 58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " MIRQ57       ,Interrupt Mask bit 57" "0,1"
bitfld.long 0x00 24. "                   MIRQ56       ,Interrupt Mask bit 56" "0,1"
bitfld.long 0x00 23. "  MIRQ55 ,Interrupt Mask bit 55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " MIRQ54       ,Interrupt Mask bit 54" "0,1"
bitfld.long 0x00 21. "                   MIRQ53       ,Interrupt Mask bit 53" "0,1"
bitfld.long 0x00 20. "  MIRQ52 ,Interrupt Mask bit 52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " MIRQ51       ,Interrupt Mask bit 51" "0,1"
bitfld.long 0x00 18. "                   MIRQ50       ,Interrupt Mask bit 50" "0,1"
bitfld.long 0x00 17. "  MIRQ49 ,Interrupt Mask bit 49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " MIRQ48       ,Interrupt Mask bit 48" "0,1"
bitfld.long 0x00 15. "                   MIRQ47       ,Interrupt Mask bit 47" "0,1"
bitfld.long 0x00 14. "  MIRQ46 ,Interrupt Mask bit 46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " MIRQ45       ,Interrupt Mask bit 45" "0,1"
bitfld.long 0x00 12. "                   MIRQ44       ,Interrupt Mask bit 44" "0,1"
bitfld.long 0x00 11. "  MIRQ43 ,Interrupt Mask bit 43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " MIRQ42       ,Interrupt Mask bit 42" "0,1"
bitfld.long 0x00 9. "                   MIRQ41       ,Interrupt Mask bit 41" "0,1"
bitfld.long 0x00 8. "  MIRQ40 ,Interrupt Mask bit 40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " MIRQ39       ,Interrupt Mask bit 39" "0,1"
bitfld.long 0x00 6. "                   MIRQ38       ,Interrupt Mask bit 38" "0,1"
bitfld.long 0x00 5. "  MIRQ37 ,Interrupt Mask bit 37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " MIRQ36       ,Interrupt Mask bit 36" "0,1"
bitfld.long 0x00 3. "                   MIRQ35       ,Interrupt Mask bit 35" "0,1"
bitfld.long 0x00 2. "  MIRQ34 ,Interrupt Mask bit 34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " MIRQ33       ,Interrupt Mask bit 33" "0,1"
bitfld.long 0x00 0. "                   MIRQ32       ,Interrupt Mask bit 32" "0,1"
width 0x0B
tree.end
tree.end
tree.end
tree.open "VIP"
tree.open "VIP1_VPDMA"
tree "VIP1_VPDMA"
base ad:0x4897D000
width 28.
rgroup.long 0x0++0x3
line.long 0x00 "VIP_PID,PID VIP VPDMA register"
hexmask.long 0x00 0.--31. 1. " PID                               ,PID of VPDMA module"
group.long 0x4++0x3
line.long 0x00 "VIP_LIST_ADDR,The location of a new list to begin processing."
hexmask.long 0x00 0.--31. 1. " VIP_LIST_ADDR                     ,Location of a new list of descriptors. This register must be written with the VPDMA Configuration Location after reset."
group.long 0x8++0x3
line.long 0x00 "VIP_LIST_ATTR,The attributes of a new list. This register should always be written after."
bitfld.long 0x00 24.--26. " LIST_NUM                          ,The list number that should be assigned to the list located atVIP_LIST_ADDR. If the list is still active this will block all future list writes until the list is available." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20. "         STOP                              ,This bit is written with the LIST_NUMBER field to stop a self-modifying list. When this bit is written a one the list specified by the LIST_NUMBER is sent a stop signal and will finish the current frame of tr..." "0,1"
bitfld.long 0x00 19. "     RDY                               ,This bit is low when a new list cannot be written to theVIP_LIST_ADDR register. The reasons this bit would be low are at initial startup if the LIST_MANAGER State Machine image has not completed loading. It also ..." "0,1"
textline "                                     "
bitfld.long 0x00 16.--18. " LIST_TYPE                         ,The type of list that has been generated.\\n0: Normal List\\n1: Self-Modifying List\\n2: List Doorbell\\nOthers Reserved for future use" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "         LIST_SIZE                         ,Number of 128 bit word in the new list of descriptors. Writes to this register will activate the list in the list stack of the list manager and begin transfer of the list into VPDMA. This size can not be 0."
group.long 0xC++0x3
line.long 0x00 "VIP_LIST_STAT_SYNC,The register is used for processor to List Manager syncronization and status registers for the list."
bitfld.long 0x00 23. " LIST7_BUSY                        ,The list 7 is currently running. Any attempt to load a new list to list 7 will result in the LM_ADDR and LM_ATTR registers to be locked until the list is complete and this value goes to 0." "0,1"
bitfld.long 0x00 22. "         LIST6_BUSY                        ,The list 6 is currently running. Any attempt to load a new list to list 6 will result in the LM_ADDR and LM_ATTR registers to be locked until the list is complete and this value goes to 0." "0,1"
bitfld.long 0x00 21. "     LIST5_BUSY                        ,The list 5 is currently running. Any attempt to load a new list to list 5 will result in the LM_ADDR and LM_ATTR registers to be locked until the list is complete and this value goes to 0." "0,1"
textline "                                     "
bitfld.long 0x00 20. " LIST4_BUSY                        ,The list 4 is currently running. Any attempt to load a new list to list 4 will result in the LM_ADDR and LM_ATTR registers to be locked until the list is complete and this value goes to 0." "0,1"
bitfld.long 0x00 19. "         LIST3_BUSY                        ,The list 3 is currently running. Any attempt to load a new list to list 3 will result in the LM_ADDR and LM_ATTR registers to be locked until the list is complete and this value goes to 0." "0,1"
bitfld.long 0x00 18. "     LIST2_BUSY                        ,The list 2 is currently running. Any attempt to load a new list to list 2 will result in the LM_ADDR and LM_ATTR registers to be locked until the list is complete and this value goes to 0." "0,1"
textline "                                     "
bitfld.long 0x00 17. " LIST1_BUSY                        ,The list 1 is currently running. Any attempt to load a new list to list 1 will result in the LM_ADDR and LM_ATTR registers to be locked until the list is complete and this value goes to 0." "0,1"
bitfld.long 0x00 16. "         LIST0_BUSY                        ,The list 0 is currently running. Any attempt to load a new list to list 0 will result in the LM_ADDR and LM_ATTR registers to be locked until the list is complete and this value goes to 0." "0,1"
bitfld.long 0x00 7. "     SYNC_LISTS7                       ,Writing a 1 to this field causes a sync event to fire that clears a Control Descriptor in List 7 waiting on it." "0,1"
textline "                                     "
bitfld.long 0x00 6. " SYNC_LISTS6                       ,Writing a 1 to this field causes a sync event to fire that clears a Control Descriptor in List 6 waiting on it." "0,1"
bitfld.long 0x00 5. "         SYNC_LISTS5                       ,Writing a 1 to this field causes a sync event to fire that clears a Control Descriptor in List 5 waiting on it." "0,1"
bitfld.long 0x00 4. "     SYNC_LISTS4                       ,Writing a 1 to this field causes a sync event to fire that clears a Control Descriptor in List 4 waiting on it." "0,1"
textline "                                     "
bitfld.long 0x00 3. " SYNC_LISTS3                       ,Writing a 1 to this field causes a sync event to fire that clears a Control Descriptor in List 3 waiting on it." "0,1"
bitfld.long 0x00 2. "         SYNC_LISTS2                       ,Writing a 1 to this field causes a sync event to fire that clears a Control Descriptor in List 2 waiting on it." "0,1"
bitfld.long 0x00 1. "     SYNC_LISTS1                       ,Writing a 1 to this field causes a sync event to fire that clears a Control Descriptor in List 1 waiting on it." "0,1"
textline "                                     "
bitfld.long 0x00 0. " SYNC_LISTS0                       ,Writing a 1 to this field causes a sync event to fire that clears a Control Descriptor in List 0 waiting on it." "0,1"
group.long 0x18++0x3
line.long 0x00 "VIP_BG_RGB,The registers used to set the background color for RGB"
hexmask.long.byte 0x00 24.--31. 1. " RED                               ,The red value to give on an RGB data port for a blank pixel when using virtual video buffering"
hexmask.long.byte 0x00 16.--23. 1. "        GREEN                             ,The green value to give on an RGB data port for a blank pixel when using virtual video buffering"
hexmask.long.byte 0x00 8.--15. 1. "    BLUE                              ,The blue value to give on an RGB data port for a blank pixel when using virtual video buffering"
textline "                                     "
hexmask.long.byte 0x00 0.--7. 1. " BLEND                             ,The blend value to give on an RGB data port for a blank pixel when using virtual video buffering"
group.long 0x1C++0x3
line.long 0x00 "VIP_BG_YUV,The registers used to set the background color for YUV"
hexmask.long.byte 0x00 16.--23. 1. " Y                                 ,The Y value to give on a YUV data port for a blank pixel when using virtual video buffering"
hexmask.long.byte 0x00 8.--15. 1. "        CR                                ,The Cr value to give on a YUV data port for a blank pixel when using virtual video buffering"
hexmask.long.byte 0x00 0.--7. 1. "    CB                                ,The Cb value to give on a YUV data port for a blank pixel when using virtual video buffering"
group.long 0x30++0x3
line.long 0x00 "VIP_VPDMA_SETUP,Configures global parameters that are shared by all clients."
bitfld.long 0x00 0. " SEC_BASE_CH                       ,Use Secondary Channels for Mosaic mode" "0,1"
group.long 0x34++0x3
line.long 0x00 "VIP_MAX_SIZE1,Configures maximum width and maximum height global parameters that are shared by all clients to allow for configurable max width and max height when setting is 1 in write descriptor."
hexmask.long.word 0x00 16.--31. 1. " MAX_WIDTH                         ,The maximum width to use for setting of max_width 1 in a write descriptor. The value is the number of pixels + 1 so if 1024 pixels are required then set the value to 1023."
hexmask.long.word 0x00 0.--15. 1. "      MAX_HEIGHT                        ,The maximum height to use for setting of max_height 1 in a write descriptor. The value is the number of lines + 1 so if 1024 lines are required then set the value to 1023."
group.long 0x38++0x3
line.long 0x00 "VIP_MAX_SIZE2,Configures maximum width and maximum height global parameters that are shared by all clients to allow for configurable max width and max height when setting is 2 in write descriptor."
hexmask.long.word 0x00 16.--31. 1. " MAX_WIDTH                         ,The maximum width to use for setting of max_width 2 in a write descriptor. The value is the number of pixels + 1 so if 1024 pixels are required then set the value to 1023."
hexmask.long.word 0x00 0.--15. 1. "      MAX_HEIGHT                        ,The maximum height to use for setting of max_height 2 in a write descriptor. The value is the number of lines + 1 so if 1024 lines are required then set the value to 1023."
group.long 0x3C++0x3
line.long 0x00 "VIP_MAX_SIZE3,Configures maximum width and maximum height global parameters that are shared by all clients to allow for configurable max width and max height when setting is 3 in write descriptor."
hexmask.long.word 0x00 16.--31. 1. " MAX_WIDTH                         ,The maximum width to use for setting of max_width 3 in a write descriptor. The value is the number of pixels + 1 so if 1024 pixels are required then set the value to 1023."
hexmask.long.word 0x00 0.--15. 1. "      MAX_HEIGHT                        ,The maximum height to use for setting of max_height 3 in a write descriptor. The value is the number of lines + 1 so if 1024 lines are required then set the value to 1023."
group.long 0x40++0x3
line.long 0x00 "VIP_INT0_CHANNEL0_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 31. " INT_STAT_GRPX3                    ,The last read DMA transaction has occurred for channel grpx3 and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have just been stored i..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_GRPX2                    ,The last read DMA transaction has occurred for channel grpx2 and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have just been ..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_GRPX1                    ,The last read DMA transaction has occurred for channel grpx1 and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have just been stor..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_SCALER_OUT               ,The last write DMA transaction has completed for channel scaler_out. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client sc_out then the cli..." "0,1"
bitfld.long 0x00 19. "         INT_STAT_SCALER_CHROMA            ,The last write DMA transaction has completed for channel scaler_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the..." "0,1"
bitfld.long 0x00 18. "     INT_STAT_SCALER_LUMA              ,The last write DMA transaction has completed for channel scaler_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the clien..." "0,1"
textline "                                     "
bitfld.long 0x00 17. " INT_STAT_HQ_SCALER                ,The last write DMA transaction has completed for channel hq_scaler. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client dei_sc_out then the ..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_HQ_MV_OUT                ,The last write DMA transaction has completed for channel hq_mv_out. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client dei_hq_mv_ou..." "0,1"
bitfld.long 0x00 12. "     INT_STAT_HQ_MV                    ,The last read DMA transaction has occurred for channel hq_mv and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have just been stor..." "0,1"
textline "                                     "
bitfld.long 0x00 5. " INT_STAT_HQ_VID3_CHROMA           ,The last write DMA transaction has completed for channel hq_vid3_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the client..." "0,1"
bitfld.long 0x00 4. "         INT_STAT_HQ_VID3_LUMA             ,The last write DMA transaction has completed for channel hq_vid3_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the ..." "0,1"
bitfld.long 0x00 3. "     INT_STAT_HQ_VID2_CHROMA           ,The last write DMA transaction has completed for channel hq_vid2_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cl..." "0,1"
textline "                                     "
bitfld.long 0x00 2. " INT_STAT_HQ_VID2_LUMA             ,The last write DMA transaction has completed for channel hq_vid2_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the client w..." "0,1"
bitfld.long 0x00 1. "         INT_STAT_HQ_VID1_CHROMA           ,The last write DMA transaction has completed for channel hq_vid1_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then th..." "0,1"
bitfld.long 0x00 0. "     INT_STAT_HQ_VID1_LUMA             ,The last write DMA transaction has completed for channel hq_vid1_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the clie..." "0,1"
group.long 0x44++0x3
line.long 0x00 "VIP_INT0_CHANNEL0_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 31. " INT_MASK_GRPX3                    ,The interrupt for Graphcis 2 Data should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_GRPX2                    ,The interrupt for Graphics 1 Data should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_GRPX1                    ,The interrupt for Graphics 0 Data should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_SCALER_OUT               ,The interrupt for Low Cost DEI Scalar Write to Memory should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 19. "         INT_MASK_SCALER_CHROMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "     INT_MASK_SCALER_LUMA              ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 17. " INT_MASK_HQ_SCALER                ,The interrupt for High Quality DEI Scaler Write to Memory should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_HQ_MV_OUT                ,The interrupt for Low Cost DEI Motion Vector Write should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "     INT_MASK_HQ_MV                    ,The interrupt for Low Cost DEI Motion Vector should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 5. " INT_MASK_HQ_VID3_CHROMA           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 4. "         INT_MASK_HQ_VID3_LUMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "     INT_MASK_HQ_VID2_CHROMA           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 2. " INT_MASK_HQ_VID2_LUMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 1. "         INT_MASK_HQ_VID1_CHROMA           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "     INT_MASK_HQ_VID1_LUMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x48++0x3
line.long 0x00 "VIP_INT0_CHANNEL1_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 31. " INT_STAT_VIP1_MULT_PORTB_SRC9     ,The last write DMA transaction has completed for channel vip1_mult_portb_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_u..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_VIP1_MULT_PORTB_SRC8     ,The last write DMA transaction has completed for channel vip1_mult_portb_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_VIP1_MULT_PORTB_SRC7     ,The last write DMA transaction has completed for channel vip1_mult_portb_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_VIP1_MULT_PORTB_SRC6     ,The last write DMA transaction has completed for channel vip1_mult_portb_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_u..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_VIP1_MULT_PORTB_SRC5     ,The last write DMA transaction has completed for channel vip1_mult_portb_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_VIP1_MULT_PORTB_SRC4     ,The last write DMA transaction has completed for channel vip1_mult_portb_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_VIP1_MULT_PORTB_SRC3     ,The last write DMA transaction has completed for channel vip1_mult_portb_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_u..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_VIP1_MULT_PORTB_SRC2     ,The last write DMA transaction has completed for channel vip1_mult_portb_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 23. "     INT_STAT_VIP1_MULT_PORTB_SRC1     ,The last write DMA transaction has completed for channel vip1_mult_portb_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_VIP1_MULT_PORTB_SRC0     ,The last write DMA transaction has completed for channel vip1_mult_portb_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_u..." "0,1"
bitfld.long 0x00 21. "         INT_STAT_VIP1_MULT_PORTA_SRC15    ,The last write DMA transaction has completed for channel vip1_mult_porta_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 20. "     INT_STAT_VIP1_MULT_PORTA_SRC14    ,The last write DMA transaction has completed for channel vip1_mult_porta_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_VIP1_MULT_PORTA_SRC13    ,The last write DMA transaction has completed for channel vip1_mult_porta_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_..." "0,1"
bitfld.long 0x00 18. "         INT_STAT_VIP1_MULT_PORTA_SRC12    ,The last write DMA transaction has completed for channel vip1_mult_porta_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_VIP1_MULT_PORTA_SRC11    ,The last write DMA transaction has completed for channel vip1_mult_porta_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_VIP1_MULT_PORTA_SRC10    ,The last write DMA transaction has completed for channel vip1_mult_porta_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_VIP1_MULT_PORTA_SRC9     ,The last write DMA transaction has completed for channel vip1_mult_porta_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_VIP1_MULT_PORTA_SRC8     ,The last write DMA transaction has completed for channel vip1_mult_porta_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_VIP1_MULT_PORTA_SRC7     ,The last write DMA transaction has completed for channel vip1_mult_porta_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_y..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_VIP1_MULT_PORTA_SRC6     ,The last write DMA transaction has completed for channel vip1_mult_porta_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 11. "     INT_STAT_VIP1_MULT_PORTA_SRC5     ,The last write DMA transaction has completed for channel vip1_mult_porta_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_VIP1_MULT_PORTA_SRC4     ,The last write DMA transaction has completed for channel vip1_mult_porta_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_y..." "0,1"
bitfld.long 0x00 9. "         INT_STAT_VIP1_MULT_PORTA_SRC3     ,The last write DMA transaction has completed for channel vip1_mult_porta_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_VIP1_MULT_PORTA_SRC2     ,The last write DMA transaction has completed for channel vip1_mult_porta_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP1_MULT_PORTA_SRC1     ,The last write DMA transaction has completed for channel vip1_mult_porta_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_y..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_VIP1_MULT_PORTA_SRC0     ,The last write DMA transaction has completed for channel vip1_mult_porta_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
group.long 0x4C++0x3
line.long 0x00 "VIP_INT0_CHANNEL1_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 31. " INT_MASK_VIP1_MULT_PORTB_SRC9     ,The interrupt for Video Input 1 Port B Channel 9 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_VIP1_MULT_PORTB_SRC8     ,The interrupt for Video Input 1 Port B Channel 8 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_VIP1_MULT_PORTB_SRC7     ,The interrupt for Video Input 1 Port B Channel 7 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_VIP1_MULT_PORTB_SRC6     ,The interrupt for Video Input 1 Port B Channel 6 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_VIP1_MULT_PORTB_SRC5     ,The interrupt for Video Input 1 Port B Channel 5 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_VIP1_MULT_PORTB_SRC4     ,The interrupt for Video Input 1 Port B Channel 4 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_VIP1_MULT_PORTB_SRC3     ,The interrupt for Video Input 1 Port B Channel 3 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_VIP1_MULT_PORTB_SRC2     ,The interrupt for Video Input 1 Port B Channel 2 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "     INT_MASK_VIP1_MULT_PORTB_SRC1     ,The interrupt for Video Input 1 Port B Channel 1 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_VIP1_MULT_PORTB_SRC0     ,The interrupt for Video Input 1 Port B Channel 0 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "         INT_MASK_VIP1_MULT_PORTA_SRC15    ,The interrupt for Video Input 1 Port A Channel 15 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "     INT_MASK_VIP1_MULT_PORTA_SRC14    ,The interrupt for Video Input 1 Port A Channel 14 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_VIP1_MULT_PORTA_SRC13    ,The interrupt for Video Input 1 Port A Channel 13 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "         INT_MASK_VIP1_MULT_PORTA_SRC12    ,The interrupt for Video Input 1 Port A Channel 12 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_VIP1_MULT_PORTA_SRC11    ,The interrupt for Video Input 1 Port A Channel 11 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_VIP1_MULT_PORTA_SRC10    ,The interrupt for Video Input 1 Port A Channel 10 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_VIP1_MULT_PORTA_SRC9     ,The interrupt for Video Input 1 Port A Channel 9 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_VIP1_MULT_PORTA_SRC8     ,The interrupt for Video Input 1 Port A Channel 8 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_VIP1_MULT_PORTA_SRC7     ,The interrupt for Video Input 1 Port A Channel 7 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_VIP1_MULT_PORTA_SRC6     ,The interrupt for Video Input 1 Port A Channel 6 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_VIP1_MULT_PORTA_SRC5     ,The interrupt for Video Input 1 Port A Channel 5 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_VIP1_MULT_PORTA_SRC4     ,The interrupt for Video Input 1 Port A Channel 4 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_VIP1_MULT_PORTA_SRC3     ,The interrupt for Video Input 1 Port A Channel 3 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_VIP1_MULT_PORTA_SRC2     ,The interrupt for Video Input 1 Port A Channel 2 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP1_MULT_PORTA_SRC1     ,The interrupt for Video Input 1 Port A Channel 1 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_VIP1_MULT_PORTA_SRC0     ,The interrupt for Video Input 1 Port A Channel 0 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x50++0x3
line.long 0x00 "VIP_INT0_CHANNEL2_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 31. " INT_STAT_VIP1_MULT_ANCB_SRC9      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_b..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_VIP1_MULT_ANCB_SRC8      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_VIP1_MULT_ANCB_SRC7      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_VIP1_MULT_ANCB_SRC6      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_b..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_VIP1_MULT_ANCB_SRC5      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_VIP1_MULT_ANCB_SRC4      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_VIP1_MULT_ANCB_SRC3      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_b..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_VIP1_MULT_ANCB_SRC2      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 23. "     INT_STAT_VIP1_MULT_ANCB_SRC1      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_VIP1_MULT_ANCB_SRC0      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_b..." "0,1"
bitfld.long 0x00 21. "         INT_STAT_VIP1_MULT_ANCA_SRC15     ,The last write DMA transaction has completed for channel vip1_mult_anca_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 20. "     INT_STAT_VIP1_MULT_ANCA_SRC14     ,The last write DMA transaction has completed for channel vip1_mult_anca_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_VIP1_MULT_ANCA_SRC13     ,The last write DMA transaction has completed for channel vip1_mult_anca_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_..." "0,1"
bitfld.long 0x00 18. "         INT_STAT_VIP1_MULT_ANCA_SRC12     ,The last write DMA transaction has completed for channel vip1_mult_anca_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_VIP1_MULT_ANCA_SRC11     ,The last write DMA transaction has completed for channel vip1_mult_anca_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_VIP1_MULT_ANCA_SRC10     ,The last write DMA transaction has completed for channel vip1_mult_anca_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_VIP1_MULT_ANCA_SRC9      ,The last write DMA transaction has completed for channel vip1_mult_anca_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_VIP1_MULT_ANCA_SRC8      ,The last write DMA transaction has completed for channel vip1_mult_anca_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_VIP1_MULT_ANCA_SRC7      ,The last write DMA transaction has completed for channel vip1_mult_anca_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_a..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_VIP1_MULT_ANCA_SRC6      ,The last write DMA transaction has completed for channel vip1_mult_anca_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 11. "     INT_STAT_VIP1_MULT_ANCA_SRC5      ,The last write DMA transaction has completed for channel vip1_mult_anca_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_VIP1_MULT_ANCA_SRC4      ,The last write DMA transaction has completed for channel vip1_mult_anca_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_a..." "0,1"
bitfld.long 0x00 9. "         INT_STAT_VIP1_MULT_ANCA_SRC3      ,The last write DMA transaction has completed for channel vip1_mult_anca_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_VIP1_MULT_ANCA_SRC2      ,The last write DMA transaction has completed for channel vip1_mult_anca_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP1_MULT_ANCA_SRC1      ,The last write DMA transaction has completed for channel vip1_mult_anca_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_a..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_VIP1_MULT_ANCA_SRC0      ,The last write DMA transaction has completed for channel vip1_mult_anca_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 5. "     INT_STAT_VIP1_MULT_PORTB_SRC15    ,The last write DMA transaction has completed for channel vip1_mult_portb_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_VIP1_MULT_PORTB_SRC14    ,The last write DMA transaction has completed for channel vip1_mult_portb_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_..." "0,1"
bitfld.long 0x00 3. "         INT_STAT_VIP1_MULT_PORTB_SRC13    ,The last write DMA transaction has completed for channel vip1_mult_portb_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 2. "     INT_STAT_VIP1_MULT_PORTB_SRC12    ,The last write DMA transaction has completed for channel vip1_mult_portb_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1..." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_VIP1_MULT_PORTB_SRC11    ,The last write DMA transaction has completed for channel vip1_mult_portb_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_..." "0,1"
bitfld.long 0x00 0. "         INT_STAT_VIP1_MULT_PORTB_SRC10    ,The last write DMA transaction has completed for channel vip1_mult_portb_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
group.long 0x54++0x3
line.long 0x00 "VIP_INT0_CHANNEL2_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 31. " INT_MASK_VIP1_MULT_ANCB_SRC9      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 9 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_VIP1_MULT_ANCB_SRC8      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 8 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_VIP1_MULT_ANCB_SRC7      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 7 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_VIP1_MULT_ANCB_SRC6      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 6 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_VIP1_MULT_ANCB_SRC5      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 5 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_VIP1_MULT_ANCB_SRC4      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 4 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_VIP1_MULT_ANCB_SRC3      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 3 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_VIP1_MULT_ANCB_SRC2      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 2 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "     INT_MASK_VIP1_MULT_ANCB_SRC1      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 1 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_VIP1_MULT_ANCB_SRC0      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 0 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "         INT_MASK_VIP1_MULT_ANCA_SRC15     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 15 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "     INT_MASK_VIP1_MULT_ANCA_SRC14     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 14 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_VIP1_MULT_ANCA_SRC13     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 13 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "         INT_MASK_VIP1_MULT_ANCA_SRC12     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 12 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_VIP1_MULT_ANCA_SRC11     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 11 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_VIP1_MULT_ANCA_SRC10     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 10 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_VIP1_MULT_ANCA_SRC9      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 9 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_VIP1_MULT_ANCA_SRC8      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 8 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_VIP1_MULT_ANCA_SRC7      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 7 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_VIP1_MULT_ANCA_SRC6      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 6 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_VIP1_MULT_ANCA_SRC5      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 5 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_VIP1_MULT_ANCA_SRC4      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 4 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_VIP1_MULT_ANCA_SRC3      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 3 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_VIP1_MULT_ANCA_SRC2      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 2 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP1_MULT_ANCA_SRC1      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 1 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_VIP1_MULT_ANCA_SRC0      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 0 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "     INT_MASK_VIP1_MULT_PORTB_SRC15    ,The interrupt for Video Input 1 Port B Channel 15 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_VIP1_MULT_PORTB_SRC14    ,The interrupt for Video Input 1 Port B Channel 14 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "         INT_MASK_VIP1_MULT_PORTB_SRC13    ,The interrupt for Video Input 1 Port B Channel 13 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "     INT_MASK_VIP1_MULT_PORTB_SRC12    ,The interrupt for Video Input 1 Port B Channel 12 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_VIP1_MULT_PORTB_SRC11    ,The interrupt for Video Input 1 Port B Channel 11 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "         INT_MASK_VIP1_MULT_PORTB_SRC10    ,The interrupt for Video Input 1 Port B Channel 10 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x58++0x3
line.long 0x00 "VIP_INT0_CHANNEL3_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 31. " INT_STAT_VIP2_MULT_PORTB_SRC3     ,The last write DMA transaction has completed for channel vip2_mult_portb_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_u..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_VIP2_MULT_PORTB_SRC2     ,The last write DMA transaction has completed for channel vip2_mult_portb_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_VIP2_MULT_PORTB_SRC1     ,The last write DMA transaction has completed for channel vip2_mult_portb_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_VIP2_MULT_PORTB_SRC0     ,The last write DMA transaction has completed for channel vip2_mult_portb_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_u..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_VIP2_MULT_PORTA_SRC15    ,The last write DMA transaction has completed for channel vip2_mult_porta_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_VIP2_MULT_PORTA_SRC14    ,The last write DMA transaction has completed for channel vip2_mult_porta_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_VIP2_MULT_PORTA_SRC13    ,The last write DMA transaction has completed for channel vip2_mult_porta_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_VIP2_MULT_PORTA_SRC12    ,The last write DMA transaction has completed for channel vip2_mult_porta_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 23. "     INT_STAT_VIP2_MULT_PORTA_SRC11    ,The last write DMA transaction has completed for channel vip2_mult_porta_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_VIP2_MULT_PORTA_SRC10    ,The last write DMA transaction has completed for channel vip2_mult_porta_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_..." "0,1"
bitfld.long 0x00 21. "         INT_STAT_VIP2_MULT_PORTA_SRC9     ,The last write DMA transaction has completed for channel vip2_mult_porta_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 20. "     INT_STAT_VIP2_MULT_PORTA_SRC8     ,The last write DMA transaction has completed for channel vip2_mult_porta_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_VIP2_MULT_PORTA_SRC7     ,The last write DMA transaction has completed for channel vip2_mult_porta_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_y..." "0,1"
bitfld.long 0x00 18. "         INT_STAT_VIP2_MULT_PORTA_SRC6     ,The last write DMA transaction has completed for channel vip2_mult_porta_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_VIP2_MULT_PORTA_SRC5     ,The last write DMA transaction has completed for channel vip2_mult_porta_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_VIP2_MULT_PORTA_SRC4     ,The last write DMA transaction has completed for channel vip2_mult_porta_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_y..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_VIP2_MULT_PORTA_SRC3     ,The last write DMA transaction has completed for channel vip2_mult_porta_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_VIP2_MULT_PORTA_SRC2     ,The last write DMA transaction has completed for channel vip2_mult_porta_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_VIP2_MULT_PORTA_SRC1     ,The last write DMA transaction has completed for channel vip2_mult_porta_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_y..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_VIP2_MULT_PORTA_SRC0     ,The last write DMA transaction has completed for channel vip2_mult_porta_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 11. "     INT_STAT_VIP1_PORTB_RGB           ,The last write DMA transaction has completed for channel vip1_portb_rgb. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_y t..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_VIP1_PORTA_RGB           ,The last write DMA transaction has completed for channel vip1_porta_rgb. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_up_y then ..." "0,1"
bitfld.long 0x00 9. "         INT_STAT_VIP1_PORTB_CHROMA        ,The last write DMA transaction has completed for channel vip1_portb_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_VIP1_PORTB_LUMA          ,The last write DMA transaction has completed for channel vip1_portb_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the c..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP1_PORTA_CHROMA        ,The last write DMA transaction has completed for channel vip1_porta_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cli..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_VIP1_PORTA_LUMA          ,The last write DMA transaction has completed for channel vip1_porta_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then t..." "0,1"
bitfld.long 0x00 5. "     INT_STAT_VIP1_MULT_ANCB_SRC15     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_VIP1_MULT_ANCB_SRC14     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_..." "0,1"
bitfld.long 0x00 3. "         INT_STAT_VIP1_MULT_ANCB_SRC13     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 2. "     INT_STAT_VIP1_MULT_ANCB_SRC12     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_VIP1_MULT_ANCB_SRC11     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_..." "0,1"
bitfld.long 0x00 0. "         INT_STAT_VIP1_MULT_ANCB_SRC10     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
group.long 0x5C++0x3
line.long 0x00 "VIP_INT0_CHANNEL3_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 31. " INT_MASK_VIP2_MULT_PORTB_SRC3     ,The interrupt for Video Input 2 Port B Channel 3 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_VIP2_MULT_PORTB_SRC2     ,The interrupt for Video Input 2 Port B Channel 2 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_VIP2_MULT_PORTB_SRC1     ,The interrupt for Video Input 2 Port B Channel 1 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_VIP2_MULT_PORTB_SRC0     ,The interrupt for Video Input 2 Port B Channel 0 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_VIP2_MULT_PORTA_SRC15    ,The interrupt for Video Input 2 Port A Channel 15 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_VIP2_MULT_PORTA_SRC14    ,The interrupt for Video Input 2 Port A Channel 14 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_VIP2_MULT_PORTA_SRC13    ,The interrupt for Video Input 2 Port A Channel 13 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_VIP2_MULT_PORTA_SRC12    ,The interrupt for Video Input 2 Port A Channel 12 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "     INT_MASK_VIP2_MULT_PORTA_SRC11    ,The interrupt for Video Input 2 Port A Channel 11 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_VIP2_MULT_PORTA_SRC10    ,The interrupt for Video Input 2 Port A Channel 10 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "         INT_MASK_VIP2_MULT_PORTA_SRC9     ,The interrupt for Video Input 2 Port A Channel 9 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "     INT_MASK_VIP2_MULT_PORTA_SRC8     ,The interrupt for Video Input 2 Port A Channel 8 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_VIP2_MULT_PORTA_SRC7     ,The interrupt for Video Input 2 Port A Channel 7 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "         INT_MASK_VIP2_MULT_PORTA_SRC6     ,The interrupt for Video Input 2 Port A Channel 6 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_VIP2_MULT_PORTA_SRC5     ,The interrupt for Video Input 2 Port A Channel 5 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_VIP2_MULT_PORTA_SRC4     ,The interrupt for Video Input 2 Port A Channel 4 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_VIP2_MULT_PORTA_SRC3     ,The interrupt for Video Input 2 Port A Channel 3 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_VIP2_MULT_PORTA_SRC2     ,The interrupt for Video Input 2 Port A Channel 2 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_VIP2_MULT_PORTA_SRC1     ,The interrupt for Video Input 2 Port A Channel 1 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_VIP2_MULT_PORTA_SRC0     ,The interrupt for Video Input 2 Port A Channel 0 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_VIP1_PORTB_RGB           ,The interrupt for Video Input 1 Port B RGB Data should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_VIP1_PORTA_RGB           ,The interrupt for Video Input 1 Port A RGB Data should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_VIP1_PORTB_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_VIP1_PORTB_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP1_PORTA_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_VIP1_PORTA_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "     INT_MASK_VIP1_MULT_ANCB_SRC15     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 15 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_VIP1_MULT_ANCB_SRC14     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 14 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "         INT_MASK_VIP1_MULT_ANCB_SRC13     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 13 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "     INT_MASK_VIP1_MULT_ANCB_SRC12     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 12 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_VIP1_MULT_ANCB_SRC11     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 11 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "         INT_MASK_VIP1_MULT_ANCB_SRC10     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 10 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x60++0x3
line.long 0x00 "VIP_INT0_CHANNEL4_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 31. " INT_STAT_VIP2_MULT_ANCB_SRC3      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_b..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_VIP2_MULT_ANCB_SRC2      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_VIP2_MULT_ANCB_SRC1      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_VIP2_MULT_ANCB_SRC0      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_b..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_VIP2_MULT_ANCA_SRC15     ,The last write DMA transaction has completed for channel vip2_mult_anca_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_VIP2_MULT_ANCA_SRC14     ,The last write DMA transaction has completed for channel vip2_mult_anca_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_VIP2_MULT_ANCA_SRC13     ,The last write DMA transaction has completed for channel vip2_mult_anca_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_VIP2_MULT_ANCA_SRC12     ,The last write DMA transaction has completed for channel vip2_mult_anca_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 23. "     INT_STAT_VIP2_MULT_ANCA_SRC11     ,The last write DMA transaction has completed for channel vip2_mult_anca_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_VIP2_MULT_ANCA_SRC10     ,The last write DMA transaction has completed for channel vip2_mult_anca_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_..." "0,1"
bitfld.long 0x00 21. "         INT_STAT_VIP2_MULT_ANCA_SRC9      ,The last write DMA transaction has completed for channel vip2_mult_anca_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 20. "     INT_STAT_VIP2_MULT_ANCA_SRC8      ,The last write DMA transaction has completed for channel vip2_mult_anca_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_VIP2_MULT_ANCA_SRC7      ,The last write DMA transaction has completed for channel vip2_mult_anca_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_a..." "0,1"
bitfld.long 0x00 18. "         INT_STAT_VIP2_MULT_ANCA_SRC6      ,The last write DMA transaction has completed for channel vip2_mult_anca_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_VIP2_MULT_ANCA_SRC5      ,The last write DMA transaction has completed for channel vip2_mult_anca_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_VIP2_MULT_ANCA_SRC4      ,The last write DMA transaction has completed for channel vip2_mult_anca_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_a..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_VIP2_MULT_ANCA_SRC3      ,The last write DMA transaction has completed for channel vip2_mult_anca_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_VIP2_MULT_ANCA_SRC2      ,The last write DMA transaction has completed for channel vip2_mult_anca_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_VIP2_MULT_ANCA_SRC1      ,The last write DMA transaction has completed for channel vip2_mult_anca_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_a..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_VIP2_MULT_ANCA_SRC0      ,The last write DMA transaction has completed for channel vip2_mult_anca_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 11. "     INT_STAT_VIP2_MULT_PORTB_SRC15    ,The last write DMA transaction has completed for channel vip2_mult_portb_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_VIP2_MULT_PORTB_SRC14    ,The last write DMA transaction has completed for channel vip2_mult_portb_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_..." "0,1"
bitfld.long 0x00 9. "         INT_STAT_VIP2_MULT_PORTB_SRC13    ,The last write DMA transaction has completed for channel vip2_mult_portb_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_VIP2_MULT_PORTB_SRC12    ,The last write DMA transaction has completed for channel vip2_mult_portb_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP2_MULT_PORTB_SRC11    ,The last write DMA transaction has completed for channel vip2_mult_portb_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_VIP2_MULT_PORTB_SRC10    ,The last write DMA transaction has completed for channel vip2_mult_portb_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 5. "     INT_STAT_VIP2_MULT_PORTB_SRC9     ,The last write DMA transaction has completed for channel vip2_mult_portb_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_VIP2_MULT_PORTB_SRC8     ,The last write DMA transaction has completed for channel vip2_mult_portb_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_u..." "0,1"
bitfld.long 0x00 3. "         INT_STAT_VIP2_MULT_PORTB_SRC7     ,The last write DMA transaction has completed for channel vip2_mult_portb_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 2. "     INT_STAT_VIP2_MULT_PORTB_SRC6     ,The last write DMA transaction has completed for channel vip2_mult_portb_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_VIP2_MULT_PORTB_SRC5     ,The last write DMA transaction has completed for channel vip2_mult_portb_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_u..." "0,1"
bitfld.long 0x00 0. "         INT_STAT_VIP2_MULT_PORTB_SRC4     ,The last write DMA transaction has completed for channel vip2_mult_portb_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
group.long 0x64++0x3
line.long 0x00 "VIP_INT0_CHANNEL4_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 31. " INT_MASK_VIP2_MULT_ANCB_SRC3      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 3 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_VIP2_MULT_ANCB_SRC2      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 2 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_VIP2_MULT_ANCB_SRC1      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 1 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_VIP2_MULT_ANCB_SRC0      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 0 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_VIP2_MULT_ANCA_SRC15     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 15 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_VIP2_MULT_ANCA_SRC14     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 14 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_VIP2_MULT_ANCA_SRC13     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 13 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_VIP2_MULT_ANCA_SRC12     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 12 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "     INT_MASK_VIP2_MULT_ANCA_SRC11     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 11 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_VIP2_MULT_ANCA_SRC10     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 10 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "         INT_MASK_VIP2_MULT_ANCA_SRC9      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 9 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "     INT_MASK_VIP2_MULT_ANCA_SRC8      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 8 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_VIP2_MULT_ANCA_SRC7      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 7 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "         INT_MASK_VIP2_MULT_ANCA_SRC6      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 6 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_VIP2_MULT_ANCA_SRC5      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 5 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_VIP2_MULT_ANCA_SRC4      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 4 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_VIP2_MULT_ANCA_SRC3      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 3 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_VIP2_MULT_ANCA_SRC2      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 2 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_VIP2_MULT_ANCA_SRC1      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 1 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_VIP2_MULT_ANCA_SRC0      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 0 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_VIP2_MULT_PORTB_SRC15    ,The interrupt for Video Input 2 Port B Channel 15 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_VIP2_MULT_PORTB_SRC14    ,The interrupt for Video Input 2 Port B Channel 14 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_VIP2_MULT_PORTB_SRC13    ,The interrupt for Video Input 2 Port B Channel 13 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_VIP2_MULT_PORTB_SRC12    ,The interrupt for Video Input 2 Port B Channel 12 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP2_MULT_PORTB_SRC11    ,The interrupt for Video Input 2 Port B Channel 11 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_VIP2_MULT_PORTB_SRC10    ,The interrupt for Video Input 2 Port B Channel 10 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "     INT_MASK_VIP2_MULT_PORTB_SRC9     ,The interrupt for Video Input 2 Port B Channel 9 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_VIP2_MULT_PORTB_SRC8     ,The interrupt for Video Input 2 Port B Channel 8 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "         INT_MASK_VIP2_MULT_PORTB_SRC7     ,The interrupt for Video Input 2 Port B Channel 7 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "     INT_MASK_VIP2_MULT_PORTB_SRC6     ,The interrupt for Video Input 2 Port B Channel 6 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_VIP2_MULT_PORTB_SRC5     ,The interrupt for Video Input 2 Port B Channel 5 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "         INT_MASK_VIP2_MULT_PORTB_SRC4     ,The interrupt for Video Input 2 Port B Channel 4 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x68++0x3
line.long 0x00 "VIP_INT0_CHANNEL5_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 31. " INT_STAT_TRANSCODE2_CHROMA        ,The last write DMA transaction has completed for channel transcode2_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cli..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_TRANSCODE2_LUMA          ,The last write DMA transaction has completed for channel transcode2_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then t..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_TRANSCODE1_CHROMA        ,The last write DMA transaction has completed for channel transcode1_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the c..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_TRANSCODE1_LUMA          ,The last write DMA transaction has completed for channel transcode1_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the clien..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_AUX_IN                   ,The last read DMA transaction has occurred for channel aux_in and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have just been..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_PIP_FRAME                ,The last read DMA transaction has occurred for channel pip_frame and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have just been ..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_POST_COMP_WR             ,The last write DMA transaction has completed for channel post_comp_wr. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client hdmi_wrbk_out the..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_VBI_SD_VENC              ,The last read DMA transaction has occurred for channel vbi_sd_venc and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have just..." "0,1"
bitfld.long 0x00 22. "     INT_STAT_NF_LAST_CHROMA           ,The last write DMA transaction has completed for channel nf_last_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cl..." "0,1"
textline "                                     "
bitfld.long 0x00 21. " INT_STAT_NF_LAST_LUMA             ,The last write DMA transaction has completed for channel nf_last_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the client w..." "0,1"
bitfld.long 0x00 20. "         INT_STAT_NF_WRITE_CHROMA          ,The last write DMA transaction has completed for channel nf_write_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then t..." "0,1"
bitfld.long 0x00 19. "     INT_STAT_NF_WRITE_LUMA            ,The last write DMA transaction has completed for channel nf_write_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cli..." "0,1"
textline "                                     "
bitfld.long 0x00 18. " INT_STAT_OTHER                    ,This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
bitfld.long 0x00 17. "         INT_STAT_VIP2_PORTB_RGB           ,The last write DMA transaction has completed for channel vip2_portb_rgb. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo..." "0,1"
bitfld.long 0x00 16. "     INT_STAT_VIP2_PORTA_RGB           ,The last write DMA transaction has completed for channel vip2_porta_rgb. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_up_y t..." "0,1"
textline "                                     "
bitfld.long 0x00 15. " INT_STAT_VIP2_PORTB_CHROMA        ,The last write DMA transaction has completed for channel vip2_portb_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cli..." "0,1"
bitfld.long 0x00 14. "         INT_STAT_VIP2_PORTB_LUMA          ,The last write DMA transaction has completed for channel vip2_portb_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then t..." "0,1"
bitfld.long 0x00 13. "     INT_STAT_VIP2_PORTA_CHROMA        ,The last write DMA transaction has completed for channel vip2_porta_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the..." "0,1"
textline "                                     "
bitfld.long 0x00 12. " INT_STAT_VIP2_PORTA_LUMA          ,The last write DMA transaction has completed for channel vip2_porta_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the clien..." "0,1"
bitfld.long 0x00 11. "         INT_STAT_VIP2_MULT_ANCB_SRC15     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 10. "     INT_STAT_VIP2_MULT_ANCB_SRC14     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 9. " INT_STAT_VIP2_MULT_ANCB_SRC13     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_..." "0,1"
bitfld.long 0x00 8. "         INT_STAT_VIP2_MULT_ANCB_SRC12     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 7. "     INT_STAT_VIP2_MULT_ANCB_SRC11     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 6. " INT_STAT_VIP2_MULT_ANCB_SRC10     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_..." "0,1"
bitfld.long 0x00 5. "         INT_STAT_VIP2_MULT_ANCB_SRC9      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 4. "     INT_STAT_VIP2_MULT_ANCB_SRC8      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 3. " INT_STAT_VIP2_MULT_ANCB_SRC7      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_b..." "0,1"
bitfld.long 0x00 2. "         INT_STAT_VIP2_MULT_ANCB_SRC6      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 1. "     INT_STAT_VIP2_MULT_ANCB_SRC5      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 0. " INT_STAT_VIP2_MULT_ANCB_SRC4      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_b..." "0,1"
group.long 0x6C++0x3
line.long 0x00 "VIP_INT0_CHANNEL5_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 31. " INT_MASK_TRANSCODE2_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_TRANSCODE2_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_TRANSCODE1_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_TRANSCODE1_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_AUX_IN                   ,The interrupt for Auxilary Data for the Compositor Frame From Memory should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_PIP_FRAME                ,The interrupt for PIP Data for the Compositor Frame From Memory should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_POST_COMP_WR             ,The interrupt for Post Compositer Writeback to Memory should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_VBI_SD_VENC              ,The interrupt for SD Video Encoder VBI Data should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 22. "     INT_MASK_NF_LAST_CHROMA           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 21. " INT_MASK_NF_LAST_LUMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "         INT_MASK_NF_WRITE_CHROMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 19. "     INT_MASK_NF_WRITE_LUMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 18. " INT_MASK_OTHER                    ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "         INT_MASK_VIP2_PORTB_RGB           ,The interrupt for Video Input 2 Port B RGB Data should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 16. "     INT_MASK_VIP2_PORTA_RGB           ,The interrupt for Video Input 2 Port A RGB Data should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 15. " INT_MASK_VIP2_PORTB_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "         INT_MASK_VIP2_PORTB_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 13. "     INT_MASK_VIP2_PORTA_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 12. " INT_MASK_VIP2_PORTA_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "         INT_MASK_VIP2_MULT_ANCB_SRC15     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 15 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 10. "     INT_MASK_VIP2_MULT_ANCB_SRC14     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 14 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 9. " INT_MASK_VIP2_MULT_ANCB_SRC13     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 13 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "         INT_MASK_VIP2_MULT_ANCB_SRC12     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 12 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 7. "     INT_MASK_VIP2_MULT_ANCB_SRC11     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 11 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 6. " INT_MASK_VIP2_MULT_ANCB_SRC10     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 10 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "         INT_MASK_VIP2_MULT_ANCB_SRC9      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 9 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 4. "     INT_MASK_VIP2_MULT_ANCB_SRC8      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 8 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 3. " INT_MASK_VIP2_MULT_ANCB_SRC7      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 7 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "         INT_MASK_VIP2_MULT_ANCB_SRC6      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 6 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 1. "     INT_MASK_VIP2_MULT_ANCB_SRC5      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 5 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 0. " INT_MASK_VIP2_MULT_ANCB_SRC4      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 4 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x78++0x3
line.long 0x00 "VIP_INT0_CLIENT0_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 31. " INT_STAT_GRPX1_DATA               ,The client interface grpx1_data has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_COMP_WRBK                ,The client interface comp_wrbk has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will d..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_SC_OUT                   ,The client interface sc_out has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
textline "                                     "
bitfld.long 0x00 20. " INT_STAT_SC_IN_LUMA               ,The client interface sc_in_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
bitfld.long 0x00 19. "         INT_STAT_SC_IN_CHROMA             ,The client interface sc_in_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this wil..." "0,1"
bitfld.long 0x00 18. "     INT_STAT_PIP_WRBK                 ,The client interface pip_wrbk has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defaul..." "0,1"
textline "                                     "
bitfld.long 0x00 17. " INT_STAT_DEI_SC_OUT               ,The client interface dei_sc_out has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_DEI_HQ_MV_OUT            ,The client interface dei_hq_mv_out has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this wi..." "0,1"
bitfld.long 0x00 12. "     INT_STAT_DEI_HQ_MV_IN             ,The client interface dei_hq_mv_in has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will de..." "0,1"
textline "                                     "
bitfld.long 0x00 5. " INT_STAT_DEI_HQ_3_CHROMA          ,The client interface dei_hq_3_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will def..." "0,1"
bitfld.long 0x00 4. "         INT_STAT_DEI_HQ_3_LUMA            ,The client interface dei_hq_3_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this wi..." "0,1"
bitfld.long 0x00 3. "     INT_STAT_DEI_HQ_2_CHROMA          ,The client interface dei_hq_2_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will..." "0,1"
textline "                                     "
bitfld.long 0x00 2. " INT_STAT_DEI_HQ_2_LUMA            ,The client interface dei_hq_2_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defau..." "0,1"
bitfld.long 0x00 1. "         INT_STAT_DEI_HQ_1_LUMA            ,The client interface dei_hq_1_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this wi..." "0,1"
bitfld.long 0x00 0. "     INT_STAT_DEI_HQ_1_CHROMA          ,The client interface dei_hq_1_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will..." "0,1"
group.long 0x7C++0x3
line.long 0x00 "VIP_INT0_CLIENT0_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 31. " INT_MASK_GRPX1_DATA               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_COMP_WRBK                ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_SC_OUT                   ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 20. " INT_MASK_SC_IN_LUMA               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 19. "         INT_MASK_SC_IN_CHROMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "     INT_MASK_PIP_WRBK                 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 17. " INT_MASK_DEI_SC_OUT               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_DEI_HQ_MV_OUT            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "     INT_MASK_DEI_HQ_MV_IN             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 5. " INT_MASK_DEI_HQ_3_CHROMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 4. "         INT_MASK_DEI_HQ_3_LUMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "     INT_MASK_DEI_HQ_2_CHROMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 2. " INT_MASK_DEI_HQ_2_LUMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 1. "         INT_MASK_DEI_HQ_1_LUMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "     INT_MASK_DEI_HQ_1_CHROMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x80++0x3
line.long 0x00 "VIP_INT0_CLIENT1_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 29. " INT_STAT_VIP2_ANC_B               ,The client interface vip2_anc_b has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
bitfld.long 0x00 28. "         INT_STAT_VIP2_ANC_A               ,The client interface vip2_anc_a has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will ..." "0,1"
bitfld.long 0x00 27. "     INT_STAT_VIP1_ANC_B               ,The client interface vip1_anc_b has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defa..." "0,1"
textline "                                     "
bitfld.long 0x00 26. " INT_STAT_VIP1_ANC_A               ,The client interface vip1_anc_a has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
bitfld.long 0x00 25. "         INT_STAT_TRANS2_LUMA              ,The client interface trans2_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will..." "0,1"
bitfld.long 0x00 24. "     INT_STAT_TRANS2_CHROMA            ,The client interface trans2_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will d..." "0,1"
textline "                                     "
bitfld.long 0x00 23. " INT_STAT_TRANS1_LUMA              ,The client interface trans1_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default..." "0,1"
bitfld.long 0x00 22. "         INT_STAT_TRANS1_CHROMA            ,The client interface trans1_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this wi..." "0,1"
bitfld.long 0x00 21. "     INT_STAT_HDMI_WRBK_OUT            ,The client interface hdmi_wrbk_out has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will d..." "0,1"
textline "                                     "
bitfld.long 0x00 20. " INT_STAT_VPI_CTL                  ,The client interface vpi_ctl has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default to ..." "0,1"
bitfld.long 0x00 19. "         INT_STAT_VBI_SDVENC               ,The client interface vbi_sdvenc has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will ..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_NF_420_UV_OUT            ,The client interface nf_420_uv_out has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will d..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_NF_420_Y_OUT             ,The client interface nf_420_y_out has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defaul..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_NF_420_UV_IN             ,The client interface nf_420_uv_in has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this wil..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_NF_420_Y_IN              ,The client interface nf_420_y_in has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will def..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_NF_422_IN                ,The client interface nf_422_in has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default t..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_GRPX3_ST                 ,The client interface grpx3_st has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will de..." "0,1"
bitfld.long 0x00 11. "     INT_STAT_GRPX2_ST                 ,The client interface grpx2_st has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defaul..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_GRPX1_ST                 ,The client interface grpx1_st has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default to..." "0,1"
bitfld.long 0x00 9. "         INT_STAT_VIP2_UP_UV               ,The client interface vip2_up_uv has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will ..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_VIP2_UP_Y                ,The client interface vip2_up_y has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defau..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP2_LO_UV               ,The client interface vip2_lo_uv has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_VIP2_LO_Y                ,The client interface vip2_lo_y has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will d..." "0,1"
bitfld.long 0x00 5. "     INT_STAT_VIP1_UP_UV               ,The client interface vip1_up_uv has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defa..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_VIP1_UP_Y                ,The client interface vip1_up_y has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default t..." "0,1"
bitfld.long 0x00 3. "         INT_STAT_VIP1_LO_UV               ,The client interface vip1_lo_uv has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will ..." "0,1"
bitfld.long 0x00 2. "     INT_STAT_VIP1_LO_Y                ,The client interface vip1_lo_y has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defau..." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_GRPX3_DATA               ,The client interface grpx3_data has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
bitfld.long 0x00 0. "         INT_STAT_GRPX2_DATA               ,The client interface grpx2_data has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will ..." "0,1"
group.long 0x84++0x3
line.long 0x00 "VIP_INT0_CLIENT1_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 29. " INT_MASK_VIP2_ANC_B               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 28. "         INT_MASK_VIP2_ANC_A               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "     INT_MASK_VIP1_ANC_B               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 26. " INT_MASK_VIP1_ANC_A               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 25. "         INT_MASK_TRANS2_LUMA              ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "     INT_MASK_TRANS2_CHROMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 23. " INT_MASK_TRANS1_LUMA              ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 22. "         INT_MASK_TRANS1_CHROMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "     INT_MASK_HDMI_WRBK_OUT            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 20. " INT_MASK_VPI_CTL                  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 19. "         INT_MASK_VBI_SDVENC               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_NF_420_UV_OUT            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_NF_420_Y_OUT             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_NF_420_UV_IN             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_NF_420_Y_IN              ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_NF_422_IN                ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_GRPX3_ST                 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_GRPX2_ST                 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_GRPX1_ST                 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_VIP2_UP_UV               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_VIP2_UP_Y                ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP2_LO_UV               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_VIP2_LO_Y                ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "     INT_MASK_VIP1_UP_UV               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_VIP1_UP_Y                ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "         INT_MASK_VIP1_LO_UV               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "     INT_MASK_VIP1_LO_Y                ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_GRPX3_DATA               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "         INT_MASK_GRPX2_DATA               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x88++0x3
line.long 0x00 "VIP_INT0_LIST0_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 31. " INT_STAT_CONTROL_DESCRIPTOR_INT15 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 15. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear ..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_CONTROL_DESCRIPTOR_INT14 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 14. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field t..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_CONTROL_DESCRIPTOR_INT13 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 13. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to cl..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_CONTROL_DESCRIPTOR_INT12 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 12. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear ..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_CONTROL_DESCRIPTOR_INT11 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 11. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field t..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_CONTROL_DESCRIPTOR_INT10 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 10. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to cl..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_CONTROL_DESCRIPTOR_INT9  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 9. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear t..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_CONTROL_DESCRIPTOR_INT8  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 8. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to..." "0,1"
bitfld.long 0x00 23. "     INT_STAT_CONTROL_DESCRIPTOR_INT7  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 7. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to cle..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_CONTROL_DESCRIPTOR_INT6  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 6. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear t..." "0,1"
bitfld.long 0x00 21. "         INT_STAT_CONTROL_DESCRIPTOR_INT5  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 5. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to..." "0,1"
bitfld.long 0x00 20. "     INT_STAT_CONTROL_DESCRIPTOR_INT4  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 4. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to cle..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_CONTROL_DESCRIPTOR_INT3  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 3. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear t..." "0,1"
bitfld.long 0x00 18. "         INT_STAT_CONTROL_DESCRIPTOR_INT2  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 2. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_CONTROL_DESCRIPTOR_INT1  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 1. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to cle..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_CONTROL_DESCRIPTOR_INT0  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 0. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear t..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_LIST7_NOTIFY             ,A channel set by List 7 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this fi..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_LIST7_COMPLETE           ,List 7 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_LIST6_NOTIFY             ,A channel set by List 6 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to c..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_LIST6_COMPLETE           ,List 6 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
bitfld.long 0x00 11. "     INT_STAT_LIST5_NOTIFY             ,A channel set by List 5 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field ..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_LIST5_COMPLETE           ,List 5 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
bitfld.long 0x00 9. "         INT_STAT_LIST4_NOTIFY             ,A channel set by List 4 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this fi..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_LIST4_COMPLETE           ,List 4 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_LIST3_NOTIFY             ,A channel set by List 3 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to c..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_LIST3_COMPLETE           ,List 3 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
bitfld.long 0x00 5. "     INT_STAT_LIST2_NOTIFY             ,A channel set by List 2 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field ..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_LIST2_COMPLETE           ,List 2 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
bitfld.long 0x00 3. "         INT_STAT_LIST1_NOTIFY             ,A channel set by List 1 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this fi..." "0,1"
bitfld.long 0x00 2. "     INT_STAT_LIST1_COMPLETE           ,List 1 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_LIST0_NOTIFY             ,A channel set by List 0 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to c..." "0,1"
bitfld.long 0x00 0. "         INT_STAT_LIST0_COMPLETE           ,List 0 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
group.long 0x8C++0x3
line.long 0x00 "VIP_INT0_LIST0_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 31. " INT_MASK_CONTROL_DESCRIPTOR_INT15 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_CONTROL_DESCRIPTOR_INT14 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_CONTROL_DESCRIPTOR_INT13 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_CONTROL_DESCRIPTOR_INT12 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_CONTROL_DESCRIPTOR_INT11 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_CONTROL_DESCRIPTOR_INT10 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_CONTROL_DESCRIPTOR_INT9  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_CONTROL_DESCRIPTOR_INT8  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "     INT_MASK_CONTROL_DESCRIPTOR_INT7  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_CONTROL_DESCRIPTOR_INT6  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "         INT_MASK_CONTROL_DESCRIPTOR_INT5  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "     INT_MASK_CONTROL_DESCRIPTOR_INT4  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_CONTROL_DESCRIPTOR_INT3  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "         INT_MASK_CONTROL_DESCRIPTOR_INT2  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_CONTROL_DESCRIPTOR_INT1  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_CONTROL_DESCRIPTOR_INT0  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_LIST7_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_LIST7_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_LIST6_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_LIST6_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_LIST5_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_LIST5_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_LIST4_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_LIST4_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_LIST3_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_LIST3_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "     INT_MASK_LIST2_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_LIST2_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "         INT_MASK_LIST1_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "     INT_MASK_LIST1_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_LIST0_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "         INT_MASK_LIST0_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x90++0x3
line.long 0x00 "VIP_INT1_CHANNEL0_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int1."
bitfld.long 0x00 31. " INT_STAT_GRPX3                    ,The last write DMA transaction has completed for channel scaler_out. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client sc_out then the cli..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_GRPX2                    ,The last write DMA transaction has completed for channel scaler_out. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client sc_out then..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_GRPX1                    ,The last write DMA transaction has completed for channel scaler_out. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client sc_out then the..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_SCALER_OUT               ,The last write DMA transaction has completed for channel scaler_out. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client sc_out then the cli..." "0,1"
bitfld.long 0x00 19. "         INT_STAT_SCALER_CHROMA            ,The last write DMA transaction has completed for channel scaler_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the c..." "0,1"
bitfld.long 0x00 18. "     INT_STAT_SCALER_LUMA              ,The last write DMA transaction has completed for channel scaler_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the clien..." "0,1"
textline "                                     "
bitfld.long 0x00 17. " INT_STAT_HQ_SCALER                ,The last write DMA transaction has completed for channel hq_scaler. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client dei_sc_out then the ..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_HQ_MV_OUT                ,The last write DMA transaction has completed for channel hq_mv_out. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client dei_hq_mv_ou..." "0,1"
bitfld.long 0x00 12. "     INT_STAT_HQ_MV                    ,The last read DMA transaction has occurred for channel hq_mv and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have just been stor..." "0,1"
textline "                                     "
bitfld.long 0x00 5. " INT_STAT_HQ_VID3_CHROMA           ,The last write DMA transaction has completed for channel hq_vid3_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the client..." "0,1"
bitfld.long 0x00 4. "         INT_STAT_HQ_VID3_LUMA             ,The last write DMA transaction has completed for channel hq_vid3_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the ..." "0,1"
bitfld.long 0x00 3. "     INT_STAT_HQ_VID2_CHROMA           ,The last write DMA transaction has completed for channel hq_vid2_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cl..." "0,1"
textline "                                     "
bitfld.long 0x00 2. " INT_STAT_HQ_VID2_LUMA             ,The last write DMA transaction has completed for channel hq_vid2_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the client w..." "0,1"
bitfld.long 0x00 1. "         INT_STAT_HQ_VID1_CHROMA           ,The last write DMA transaction has completed for channel hq_vid1_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then th..." "0,1"
bitfld.long 0x00 0. "     INT_STAT_HQ_VID1_LUMA             ,The last write DMA transaction has completed for channel hq_vid1_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the clie..." "0,1"
group.long 0x94++0x3
line.long 0x00 "VIP_INT1_CHANNEL0_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int1."
bitfld.long 0x00 31. " INT_MASK_GRPX3                    ,The interrupt for Graphcis 2 Data should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_GRPX2                    ,The interrupt for Graphics 1 Data should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_GRPX1                    ,The interrupt for Graphics 0 Data should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_SCALER_OUT               ,The interrupt for Low Cost DEI Scalar Write to Memory should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 19. "         INT_MASK_SCALER_CHROMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "     INT_MASK_SCALER_LUMA              ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 17. " INT_MASK_HQ_SCALER                ,The interrupt for High Quality DEI Scaler Write to Memory should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_HQ_MV_OUT                ,The interrupt for Low Cost DEI Motion Vector Write should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "     INT_MASK_HQ_MV                    ,The interrupt for Low Cost DEI Motion Vector should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 5. " INT_MASK_HQ_VID3_CHROMA           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 4. "         INT_MASK_HQ_VID3_LUMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "     INT_MASK_HQ_VID2_CHROMA           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 2. " INT_MASK_HQ_VID2_LUMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 1. "         INT_MASK_HQ_VID1_CHROMA           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "     INT_MASK_HQ_VID1_LUMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x98++0x3
line.long 0x00 "VIP_INT1_CHANNEL1_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int1."
bitfld.long 0x00 31. " INT_STAT_VIP1_MULT_PORTB_SRC9     ,The last write DMA transaction has completed for channel vip1_mult_portb_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_u..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_VIP1_MULT_PORTB_SRC8     ,The last write DMA transaction has completed for channel vip1_mult_portb_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_VIP1_MULT_PORTB_SRC7     ,The last write DMA transaction has completed for channel vip1_mult_portb_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_VIP1_MULT_PORTB_SRC6     ,The last write DMA transaction has completed for channel vip1_mult_portb_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_u..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_VIP1_MULT_PORTB_SRC5     ,The last write DMA transaction has completed for channel vip1_mult_portb_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_VIP1_MULT_PORTB_SRC4     ,The last write DMA transaction has completed for channel vip1_mult_portb_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_VIP1_MULT_PORTB_SRC3     ,The last write DMA transaction has completed for channel vip1_mult_portb_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_u..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_VIP1_MULT_PORTB_SRC2     ,The last write DMA transaction has completed for channel vip1_mult_portb_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 23. "     INT_STAT_VIP1_MULT_PORTB_SRC1     ,The last write DMA transaction has completed for channel vip1_mult_portb_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_VIP1_MULT_PORTB_SRC0     ,The last write DMA transaction has completed for channel vip1_mult_portb_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_u..." "0,1"
bitfld.long 0x00 21. "         INT_STAT_VIP1_MULT_PORTA_SRC15    ,The last write DMA transaction has completed for channel vip1_mult_porta_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 20. "     INT_STAT_VIP1_MULT_PORTA_SRC14    ,The last write DMA transaction has completed for channel vip1_mult_porta_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_VIP1_MULT_PORTA_SRC13    ,The last write DMA transaction has completed for channel vip1_mult_porta_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_..." "0,1"
bitfld.long 0x00 18. "         INT_STAT_VIP1_MULT_PORTA_SRC12    ,The last write DMA transaction has completed for channel vip1_mult_porta_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_VIP1_MULT_PORTA_SRC11    ,The last write DMA transaction has completed for channel vip1_mult_porta_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_VIP1_MULT_PORTA_SRC10    ,The last write DMA transaction has completed for channel vip1_mult_porta_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_VIP1_MULT_PORTA_SRC9     ,The last write DMA transaction has completed for channel vip1_mult_porta_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_VIP1_MULT_PORTA_SRC8     ,The last write DMA transaction has completed for channel vip1_mult_porta_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_VIP1_MULT_PORTA_SRC7     ,The last write DMA transaction has completed for channel vip1_mult_porta_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_y..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_VIP1_MULT_PORTA_SRC6     ,The last write DMA transaction has completed for channel vip1_mult_porta_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 11. "     INT_STAT_VIP1_MULT_PORTA_SRC5     ,The last write DMA transaction has completed for channel vip1_mult_porta_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_VIP1_MULT_PORTA_SRC4     ,The last write DMA transaction has completed for channel vip1_mult_porta_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_y..." "0,1"
bitfld.long 0x00 9. "         INT_STAT_VIP1_MULT_PORTA_SRC3     ,The last write DMA transaction has completed for channel vip1_mult_porta_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_VIP1_MULT_PORTA_SRC2     ,The last write DMA transaction has completed for channel vip1_mult_porta_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP1_MULT_PORTA_SRC1     ,The last write DMA transaction has completed for channel vip1_mult_porta_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_y..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_VIP1_MULT_PORTA_SRC0     ,The last write DMA transaction has completed for channel vip1_mult_porta_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
group.long 0x9C++0x3
line.long 0x00 "VIP_INT1_CHANNEL1_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int1."
bitfld.long 0x00 31. " INT_MASK_VIP1_MULT_PORTB_SRC9     ,The interrupt for Video Input 1 Port B Channel 9 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_VIP1_MULT_PORTB_SRC8     ,The interrupt for Video Input 1 Port B Channel 8 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_VIP1_MULT_PORTB_SRC7     ,The interrupt for Video Input 1 Port B Channel 7 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_VIP1_MULT_PORTB_SRC6     ,The interrupt for Video Input 1 Port B Channel 6 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_VIP1_MULT_PORTB_SRC5     ,The interrupt for Video Input 1 Port B Channel 5 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_VIP1_MULT_PORTB_SRC4     ,The interrupt for Video Input 1 Port B Channel 4 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_VIP1_MULT_PORTB_SRC3     ,The interrupt for Video Input 1 Port B Channel 3 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_VIP1_MULT_PORTB_SRC2     ,The interrupt for Video Input 1 Port B Channel 2 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "     INT_MASK_VIP1_MULT_PORTB_SRC1     ,The interrupt for Video Input 1 Port B Channel 1 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_VIP1_MULT_PORTB_SRC0     ,The interrupt for Video Input 1 Port B Channel 0 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "         INT_MASK_VIP1_MULT_PORTA_SRC15    ,The interrupt for Video Input 1 Port A Channel 15 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "     INT_MASK_VIP1_MULT_PORTA_SRC14    ,The interrupt for Video Input 1 Port A Channel 14 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_VIP1_MULT_PORTA_SRC13    ,The interrupt for Video Input 1 Port A Channel 13 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "         INT_MASK_VIP1_MULT_PORTA_SRC12    ,The interrupt for Video Input 1 Port A Channel 12 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_VIP1_MULT_PORTA_SRC11    ,The interrupt for Video Input 1 Port A Channel 11 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_VIP1_MULT_PORTA_SRC10    ,The interrupt for Video Input 1 Port A Channel 10 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_VIP1_MULT_PORTA_SRC9     ,The interrupt for Video Input 1 Port A Channel 9 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_VIP1_MULT_PORTA_SRC8     ,The interrupt for Video Input 1 Port A Channel 8 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_VIP1_MULT_PORTA_SRC7     ,The interrupt for Video Input 1 Port A Channel 7 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_VIP1_MULT_PORTA_SRC6     ,The interrupt for Video Input 1 Port A Channel 6 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_VIP1_MULT_PORTA_SRC5     ,The interrupt for Video Input 1 Port A Channel 5 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_VIP1_MULT_PORTA_SRC4     ,The interrupt for Video Input 1 Port A Channel 4 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_VIP1_MULT_PORTA_SRC3     ,The interrupt for Video Input 1 Port A Channel 3 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_VIP1_MULT_PORTA_SRC2     ,The interrupt for Video Input 1 Port A Channel 2 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP1_MULT_PORTA_SRC1     ,The interrupt for Video Input 1 Port A Channel 1 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_VIP1_MULT_PORTA_SRC0     ,The interrupt for Video Input 1 Port A Channel 0 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0xA0++0x3
line.long 0x00 "VIP_INT1_CHANNEL2_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int1."
bitfld.long 0x00 31. " INT_STAT_VIP1_MULT_ANCB_SRC9      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_b..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_VIP1_MULT_ANCB_SRC8      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_VIP1_MULT_ANCB_SRC7      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_VIP1_MULT_ANCB_SRC6      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_b..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_VIP1_MULT_ANCB_SRC5      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_VIP1_MULT_ANCB_SRC4      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_VIP1_MULT_ANCB_SRC3      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_b..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_VIP1_MULT_ANCB_SRC2      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 23. "     INT_STAT_VIP1_MULT_ANCB_SRC1      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_VIP1_MULT_ANCB_SRC0      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_b..." "0,1"
bitfld.long 0x00 21. "         INT_STAT_VIP1_MULT_ANCA_SRC15     ,The last write DMA transaction has completed for channel vip1_mult_anca_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 20. "     INT_STAT_VIP1_MULT_ANCA_SRC14     ,The last write DMA transaction has completed for channel vip1_mult_anca_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_VIP1_MULT_ANCA_SRC13     ,The last write DMA transaction has completed for channel vip1_mult_anca_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_..." "0,1"
bitfld.long 0x00 18. "         INT_STAT_VIP1_MULT_ANCA_SRC12     ,The last write DMA transaction has completed for channel vip1_mult_anca_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_VIP1_MULT_ANCA_SRC11     ,The last write DMA transaction has completed for channel vip1_mult_anca_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_VIP1_MULT_ANCA_SRC10     ,The last write DMA transaction has completed for channel vip1_mult_anca_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_VIP1_MULT_ANCA_SRC9      ,The last write DMA transaction has completed for channel vip1_mult_anca_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_VIP1_MULT_ANCA_SRC8      ,The last write DMA transaction has completed for channel vip1_mult_anca_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_VIP1_MULT_ANCA_SRC7      ,The last write DMA transaction has completed for channel vip1_mult_anca_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_a..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_VIP1_MULT_ANCA_SRC6      ,The last write DMA transaction has completed for channel vip1_mult_anca_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 11. "     INT_STAT_VIP1_MULT_ANCA_SRC5      ,The last write DMA transaction has completed for channel vip1_mult_anca_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_VIP1_MULT_ANCA_SRC4      ,The last write DMA transaction has completed for channel vip1_mult_anca_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_a..." "0,1"
bitfld.long 0x00 9. "         INT_STAT_VIP1_MULT_ANCA_SRC3      ,The last write DMA transaction has completed for channel vip1_mult_anca_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_VIP1_MULT_ANCA_SRC2      ,The last write DMA transaction has completed for channel vip1_mult_anca_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP1_MULT_ANCA_SRC1      ,The last write DMA transaction has completed for channel vip1_mult_anca_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_a..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_VIP1_MULT_ANCA_SRC0      ,The last write DMA transaction has completed for channel vip1_mult_anca_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 5. "     INT_STAT_VIP1_MULT_PORTB_SRC15    ,The last write DMA transaction has completed for channel vip1_mult_portb_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_VIP1_MULT_PORTB_SRC14    ,The last write DMA transaction has completed for channel vip1_mult_portb_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_..." "0,1"
bitfld.long 0x00 3. "         INT_STAT_VIP1_MULT_PORTB_SRC13    ,The last write DMA transaction has completed for channel vip1_mult_portb_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 2. "     INT_STAT_VIP1_MULT_PORTB_SRC12    ,The last write DMA transaction has completed for channel vip1_mult_portb_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1..." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_VIP1_MULT_PORTB_SRC11    ,The last write DMA transaction has completed for channel vip1_mult_portb_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_..." "0,1"
bitfld.long 0x00 0. "         INT_STAT_VIP1_MULT_PORTB_SRC10    ,The last write DMA transaction has completed for channel vip1_mult_portb_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
group.long 0xA4++0x3
line.long 0x00 "VIP_INT1_CHANNEL2_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int1."
bitfld.long 0x00 31. " INT_MASK_VIP1_MULT_ANCB_SRC9      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 9 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_VIP1_MULT_ANCB_SRC8      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 8 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_VIP1_MULT_ANCB_SRC7      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 7 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_VIP1_MULT_ANCB_SRC6      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 6 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_VIP1_MULT_ANCB_SRC5      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 5 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_VIP1_MULT_ANCB_SRC4      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 4 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_VIP1_MULT_ANCB_SRC3      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 3 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_VIP1_MULT_ANCB_SRC2      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 2 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "     INT_MASK_VIP1_MULT_ANCB_SRC1      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 1 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_VIP1_MULT_ANCB_SRC0      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 0 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "         INT_MASK_VIP1_MULT_ANCA_SRC15     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 15 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "     INT_MASK_VIP1_MULT_ANCA_SRC14     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 14 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_VIP1_MULT_ANCA_SRC13     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 13 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "         INT_MASK_VIP1_MULT_ANCA_SRC12     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 12 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_VIP1_MULT_ANCA_SRC11     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 11 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_VIP1_MULT_ANCA_SRC10     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 10 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_VIP1_MULT_ANCA_SRC9      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 9 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_VIP1_MULT_ANCA_SRC8      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 8 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_VIP1_MULT_ANCA_SRC7      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 7 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_VIP1_MULT_ANCA_SRC6      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 6 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_VIP1_MULT_ANCA_SRC5      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 5 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_VIP1_MULT_ANCA_SRC4      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 4 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_VIP1_MULT_ANCA_SRC3      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 3 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_VIP1_MULT_ANCA_SRC2      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 2 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP1_MULT_ANCA_SRC1      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 1 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_VIP1_MULT_ANCA_SRC0      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 0 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "     INT_MASK_VIP1_MULT_PORTB_SRC15    ,The interrupt for Video Input 1 Port B Channel 15 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_VIP1_MULT_PORTB_SRC14    ,The interrupt for Video Input 1 Port B Channel 14 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "         INT_MASK_VIP1_MULT_PORTB_SRC13    ,The interrupt for Video Input 1 Port B Channel 13 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "     INT_MASK_VIP1_MULT_PORTB_SRC12    ,The interrupt for Video Input 1 Port B Channel 12 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_VIP1_MULT_PORTB_SRC11    ,The interrupt for Video Input 1 Port B Channel 11 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "         INT_MASK_VIP1_MULT_PORTB_SRC10    ,The interrupt for Video Input 1 Port B Channel 10 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0xA8++0x3
line.long 0x00 "VIP_INT1_CHANNEL3_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int1."
bitfld.long 0x00 31. " INT_STAT_VIP2_MULT_PORTB_SRC3     ,The last write DMA transaction has completed for channel vip2_mult_portb_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_u..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_VIP2_MULT_PORTB_SRC2     ,The last write DMA transaction has completed for channel vip2_mult_portb_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_VIP2_MULT_PORTB_SRC1     ,The last write DMA transaction has completed for channel vip2_mult_portb_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_VIP2_MULT_PORTB_SRC0     ,The last write DMA transaction has completed for channel vip2_mult_portb_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_u..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_VIP2_MULT_PORTA_SRC15    ,The last write DMA transaction has completed for channel vip2_mult_porta_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_VIP2_MULT_PORTA_SRC14    ,The last write DMA transaction has completed for channel vip2_mult_porta_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_VIP2_MULT_PORTA_SRC13    ,The last write DMA transaction has completed for channel vip2_mult_porta_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_VIP2_MULT_PORTA_SRC12    ,The last write DMA transaction has completed for channel vip2_mult_porta_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 23. "     INT_STAT_VIP2_MULT_PORTA_SRC11    ,The last write DMA transaction has completed for channel vip2_mult_porta_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_VIP2_MULT_PORTA_SRC10    ,The last write DMA transaction has completed for channel vip2_mult_porta_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_..." "0,1"
bitfld.long 0x00 21. "         INT_STAT_VIP2_MULT_PORTA_SRC9     ,The last write DMA transaction has completed for channel vip2_mult_porta_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 20. "     INT_STAT_VIP2_MULT_PORTA_SRC8     ,The last write DMA transaction has completed for channel vip2_mult_porta_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_VIP2_MULT_PORTA_SRC7     ,The last write DMA transaction has completed for channel vip2_mult_porta_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_y..." "0,1"
bitfld.long 0x00 18. "         INT_STAT_VIP2_MULT_PORTA_SRC6     ,The last write DMA transaction has completed for channel vip2_mult_porta_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_VIP2_MULT_PORTA_SRC5     ,The last write DMA transaction has completed for channel vip2_mult_porta_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_VIP2_MULT_PORTA_SRC4     ,The last write DMA transaction has completed for channel vip2_mult_porta_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_y..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_VIP2_MULT_PORTA_SRC3     ,The last write DMA transaction has completed for channel vip2_mult_porta_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_VIP2_MULT_PORTA_SRC2     ,The last write DMA transaction has completed for channel vip2_mult_porta_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_VIP2_MULT_PORTA_SRC1     ,The last write DMA transaction has completed for channel vip2_mult_porta_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_y..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_VIP2_MULT_PORTA_SRC0     ,The last write DMA transaction has completed for channel vip2_mult_porta_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 11. "     INT_STAT_VIP1_PORTB_RGB           ,The last write DMA transaction has completed for channel vip1_portb_rgb. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_y t..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_VIP1_PORTA_RGB           ,The last write DMA transaction has completed for channel vip1_porta_rgb. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_up_y then ..." "0,1"
bitfld.long 0x00 9. "         INT_STAT_VIP1_PORTB_CHROMA        ,The last write DMA transaction has completed for channel vip1_portb_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_VIP1_PORTB_LUMA          ,The last write DMA transaction has completed for channel vip1_portb_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the c..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP1_PORTA_CHROMA        ,The last write DMA transaction has completed for channel vip1_porta_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cli..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_VIP1_PORTA_LUMA          ,The last write DMA transaction has completed for channel vip1_porta_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then t..." "0,1"
bitfld.long 0x00 5. "     INT_STAT_VIP1_MULT_ANCB_SRC15     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_VIP1_MULT_ANCB_SRC14     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_..." "0,1"
bitfld.long 0x00 3. "         INT_STAT_VIP1_MULT_ANCB_SRC13     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 2. "     INT_STAT_VIP1_MULT_ANCB_SRC12     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_VIP1_MULT_ANCB_SRC11     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_..." "0,1"
bitfld.long 0x00 0. "         INT_STAT_VIP1_MULT_ANCB_SRC10     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
group.long 0xAC++0x3
line.long 0x00 "VIP_INT1_CHANNEL3_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int1."
bitfld.long 0x00 31. " INT_MASK_VIP2_MULT_PORTB_SRC3     ,The interrupt for Video Input 2 Port B Channel 3 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_VIP2_MULT_PORTB_SRC2     ,The interrupt for Video Input 2 Port B Channel 2 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_VIP2_MULT_PORTB_SRC1     ,The interrupt for Video Input 2 Port B Channel 1 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_VIP2_MULT_PORTB_SRC0     ,The interrupt for Video Input 2 Port B Channel 0 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_VIP2_MULT_PORTA_SRC15    ,The interrupt for Video Input 2 Port A Channel 15 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_VIP2_MULT_PORTA_SRC14    ,The interrupt for Video Input 2 Port A Channel 14 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_VIP2_MULT_PORTA_SRC13    ,The interrupt for Video Input 2 Port A Channel 13 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_VIP2_MULT_PORTA_SRC12    ,The interrupt for Video Input 2 Port A Channel 12 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "     INT_MASK_VIP2_MULT_PORTA_SRC11    ,The interrupt for Video Input 2 Port A Channel 11 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_VIP2_MULT_PORTA_SRC10    ,The interrupt for Video Input 2 Port A Channel 10 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "         INT_MASK_VIP2_MULT_PORTA_SRC9     ,The interrupt for Video Input 2 Port A Channel 9 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "     INT_MASK_VIP2_MULT_PORTA_SRC8     ,The interrupt for Video Input 2 Port A Channel 8 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_VIP2_MULT_PORTA_SRC7     ,The interrupt for Video Input 2 Port A Channel 7 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "         INT_MASK_VIP2_MULT_PORTA_SRC6     ,The interrupt for Video Input 2 Port A Channel 6 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_VIP2_MULT_PORTA_SRC5     ,The interrupt for Video Input 2 Port A Channel 5 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_VIP2_MULT_PORTA_SRC4     ,The interrupt for Video Input 2 Port A Channel 4 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_VIP2_MULT_PORTA_SRC3     ,The interrupt for Video Input 2 Port A Channel 3 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_VIP2_MULT_PORTA_SRC2     ,The interrupt for Video Input 2 Port A Channel 2 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_VIP2_MULT_PORTA_SRC1     ,The interrupt for Video Input 2 Port A Channel 1 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_VIP2_MULT_PORTA_SRC0     ,The interrupt for Video Input 2 Port A Channel 0 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_VIP1_PORTB_RGB           ,The interrupt for Video Input 1 Port B RGB Data should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_VIP1_PORTA_RGB           ,The interrupt for Video Input 1 Port A RGB Data should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_VIP1_PORTB_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_VIP1_PORTB_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP1_PORTA_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_VIP1_PORTA_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "     INT_MASK_VIP1_MULT_ANCB_SRC15     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 15 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_VIP1_MULT_ANCB_SRC14     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 14 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "         INT_MASK_VIP1_MULT_ANCB_SRC13     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 13 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "     INT_MASK_VIP1_MULT_ANCB_SRC12     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 12 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_VIP1_MULT_ANCB_SRC11     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 11 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "         INT_MASK_VIP1_MULT_ANCB_SRC10     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 10 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0xB0++0x3
line.long 0x00 "VIP_INT1_CHANNEL4_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int1."
bitfld.long 0x00 31. " INT_STAT_VIP2_MULT_ANCB_SRC3      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_b..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_VIP2_MULT_ANCB_SRC2      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_VIP2_MULT_ANCB_SRC1      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_VIP2_MULT_ANCB_SRC0      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_b..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_VIP2_MULT_ANCA_SRC15     ,The last write DMA transaction has completed for channel vip2_mult_anca_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_VIP2_MULT_ANCA_SRC14     ,The last write DMA transaction has completed for channel vip2_mult_anca_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_VIP2_MULT_ANCA_SRC13     ,The last write DMA transaction has completed for channel vip2_mult_anca_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_VIP2_MULT_ANCA_SRC12     ,The last write DMA transaction has completed for channel vip2_mult_anca_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 23. "     INT_STAT_VIP2_MULT_ANCA_SRC11     ,The last write DMA transaction has completed for channel vip2_mult_anca_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_VIP2_MULT_ANCA_SRC10     ,The last write DMA transaction has completed for channel vip2_mult_anca_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_..." "0,1"
bitfld.long 0x00 21. "         INT_STAT_VIP2_MULT_ANCA_SRC9      ,The last write DMA transaction has completed for channel vip2_mult_anca_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 20. "     INT_STAT_VIP2_MULT_ANCA_SRC8      ,The last write DMA transaction has completed for channel vip2_mult_anca_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_VIP2_MULT_ANCA_SRC7      ,The last write DMA transaction has completed for channel vip2_mult_anca_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_a..." "0,1"
bitfld.long 0x00 18. "         INT_STAT_VIP2_MULT_ANCA_SRC6      ,The last write DMA transaction has completed for channel vip2_mult_anca_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_VIP2_MULT_ANCA_SRC5      ,The last write DMA transaction has completed for channel vip2_mult_anca_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_VIP2_MULT_ANCA_SRC4      ,The last write DMA transaction has completed for channel vip2_mult_anca_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_a..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_VIP2_MULT_ANCA_SRC3      ,The last write DMA transaction has completed for channel vip2_mult_anca_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_VIP2_MULT_ANCA_SRC2      ,The last write DMA transaction has completed for channel vip2_mult_anca_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_VIP2_MULT_ANCA_SRC1      ,The last write DMA transaction has completed for channel vip2_mult_anca_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_a..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_VIP2_MULT_ANCA_SRC0      ,The last write DMA transaction has completed for channel vip2_mult_anca_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 11. "     INT_STAT_VIP2_MULT_PORTB_SRC15    ,The last write DMA transaction has completed for channel vip2_mult_portb_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_VIP2_MULT_PORTB_SRC14    ,The last write DMA transaction has completed for channel vip2_mult_portb_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_..." "0,1"
bitfld.long 0x00 9. "         INT_STAT_VIP2_MULT_PORTB_SRC13    ,The last write DMA transaction has completed for channel vip2_mult_portb_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_VIP2_MULT_PORTB_SRC12    ,The last write DMA transaction has completed for channel vip2_mult_portb_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP2_MULT_PORTB_SRC11    ,The last write DMA transaction has completed for channel vip2_mult_portb_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_VIP2_MULT_PORTB_SRC10    ,The last write DMA transaction has completed for channel vip2_mult_portb_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 5. "     INT_STAT_VIP2_MULT_PORTB_SRC9     ,The last write DMA transaction has completed for channel vip2_mult_portb_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_VIP2_MULT_PORTB_SRC8     ,The last write DMA transaction has completed for channel vip2_mult_portb_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_u..." "0,1"
bitfld.long 0x00 3. "         INT_STAT_VIP2_MULT_PORTB_SRC7     ,The last write DMA transaction has completed for channel vip2_mult_portb_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 2. "     INT_STAT_VIP2_MULT_PORTB_SRC6     ,The last write DMA transaction has completed for channel vip2_mult_portb_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_VIP2_MULT_PORTB_SRC5     ,The last write DMA transaction has completed for channel vip2_mult_portb_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_u..." "0,1"
bitfld.long 0x00 0. "         INT_STAT_VIP2_MULT_PORTB_SRC4     ,The last write DMA transaction has completed for channel vip2_mult_portb_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
group.long 0xB4++0x3
line.long 0x00 "VIP_INT1_CHANNEL4_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int1."
bitfld.long 0x00 31. " INT_MASK_VIP2_MULT_ANCB_SRC3      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 3 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_VIP2_MULT_ANCB_SRC2      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 2 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_VIP2_MULT_ANCB_SRC1      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 1 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_VIP2_MULT_ANCB_SRC0      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 0 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_VIP2_MULT_ANCA_SRC15     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 15 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_VIP2_MULT_ANCA_SRC14     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 14 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_VIP2_MULT_ANCA_SRC13     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 13 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_VIP2_MULT_ANCA_SRC12     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 12 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "     INT_MASK_VIP2_MULT_ANCA_SRC11     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 11 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_VIP2_MULT_ANCA_SRC10     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 10 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "         INT_MASK_VIP2_MULT_ANCA_SRC9      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 9 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "     INT_MASK_VIP2_MULT_ANCA_SRC8      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 8 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_VIP2_MULT_ANCA_SRC7      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 7 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "         INT_MASK_VIP2_MULT_ANCA_SRC6      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 6 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_VIP2_MULT_ANCA_SRC5      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 5 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_VIP2_MULT_ANCA_SRC4      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 4 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_VIP2_MULT_ANCA_SRC3      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 3 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_VIP2_MULT_ANCA_SRC2      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 2 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_VIP2_MULT_ANCA_SRC1      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 1 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_VIP2_MULT_ANCA_SRC0      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 0 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_VIP2_MULT_PORTB_SRC15    ,The interrupt for Video Input 2 Port B Channel 15 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_VIP2_MULT_PORTB_SRC14    ,The interrupt for Video Input 2 Port B Channel 14 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_VIP2_MULT_PORTB_SRC13    ,The interrupt for Video Input 2 Port B Channel 13 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_VIP2_MULT_PORTB_SRC12    ,The interrupt for Video Input 2 Port B Channel 12 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP2_MULT_PORTB_SRC11    ,The interrupt for Video Input 2 Port B Channel 11 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_VIP2_MULT_PORTB_SRC10    ,The interrupt for Video Input 2 Port B Channel 10 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "     INT_MASK_VIP2_MULT_PORTB_SRC9     ,The interrupt for Video Input 2 Port B Channel 9 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_VIP2_MULT_PORTB_SRC8     ,The interrupt for Video Input 2 Port B Channel 8 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "         INT_MASK_VIP2_MULT_PORTB_SRC7     ,The interrupt for Video Input 2 Port B Channel 7 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "     INT_MASK_VIP2_MULT_PORTB_SRC6     ,The interrupt for Video Input 2 Port B Channel 6 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_VIP2_MULT_PORTB_SRC5     ,The interrupt for Video Input 2 Port B Channel 5 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "         INT_MASK_VIP2_MULT_PORTB_SRC4     ,The interrupt for Video Input 2 Port B Channel 4 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0xB8++0x3
line.long 0x00 "VIP_INT1_CHANNEL5_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int1."
bitfld.long 0x00 31. " INT_STAT_TRANSCODE2_CHROMA        ,The last write DMA transaction has completed for channel transcode2_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cli..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_TRANSCODE2_LUMA          ,The last write DMA transaction has completed for channel transcode2_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then t..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_TRANSCODE1_CHROMA        ,The last write DMA transaction has completed for channel transcode1_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_TRANSCODE1_LUMA          ,The last write DMA transaction has completed for channel transcode1_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the clien..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_AUX_IN                   ,The last read DMA transaction has occurred for channel aux_in and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have just been..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_PIP_FRAME                ,The last read DMA transaction has occurred for channel pip_frame and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have just been ..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_POST_COMP_WR             ,The last write DMA transaction has completed for channel post_comp_wr. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client hdmi_wrbk_out the..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_VBI_SD_VENC              ,The last read DMA transaction has occurred for channel vbi_sd_venc and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have just..." "0,1"
bitfld.long 0x00 22. "     INT_STAT_NF_LAST_CHROMA           ,The last write DMA transaction has completed for channel nf_last_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cl..." "0,1"
textline "                                     "
bitfld.long 0x00 21. " INT_STAT_NF_LAST_LUMA             ,The last write DMA transaction has completed for channel nf_last_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the client w..." "0,1"
bitfld.long 0x00 20. "         INT_STAT_NF_WRITE_CHROMA          ,The last write DMA transaction has completed for channel nf_write_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then t..." "0,1"
bitfld.long 0x00 19. "     INT_STAT_NF_WRITE_LUMA            ,The last write DMA transaction has completed for channel nf_write_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cli..." "0,1"
textline "                                     "
bitfld.long 0x00 18. " INT_STAT_OTHER                    ,This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
bitfld.long 0x00 17. "         INT_STAT_VIP2_PORTB_RGB           ,The last write DMA transaction has completed for channel vip2_portb_rgb. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo..." "0,1"
bitfld.long 0x00 16. "     INT_STAT_VIP2_PORTA_RGB           ,The last write DMA transaction has completed for channel vip2_porta_rgb. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_up_y t..." "0,1"
textline "                                     "
bitfld.long 0x00 15. " INT_STAT_VIP2_PORTB_CHROMA        ,The last write DMA transaction has completed for channel vip2_portb_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cli..." "0,1"
bitfld.long 0x00 14. "         INT_STAT_VIP2_PORTB_LUMA          ,The last write DMA transaction has completed for channel vip2_portb_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then t..." "0,1"
bitfld.long 0x00 13. "     INT_STAT_VIP2_PORTA_CHROMA        ,The last write DMA transaction has completed for channel vip2_porta_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the..." "0,1"
textline "                                     "
bitfld.long 0x00 12. " INT_STAT_VIP2_PORTA_LUMA          ,The last write DMA transaction has completed for channel vip2_porta_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the clien..." "0,1"
bitfld.long 0x00 11. "         INT_STAT_VIP2_MULT_ANCB_SRC15     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 10. "     INT_STAT_VIP2_MULT_ANCB_SRC14     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 9. " INT_STAT_VIP2_MULT_ANCB_SRC13     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_..." "0,1"
bitfld.long 0x00 8. "         INT_STAT_VIP2_MULT_ANCB_SRC12     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 7. "     INT_STAT_VIP2_MULT_ANCB_SRC11     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 6. " INT_STAT_VIP2_MULT_ANCB_SRC10     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_..." "0,1"
bitfld.long 0x00 5. "         INT_STAT_VIP2_MULT_ANCB_SRC9      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 4. "     INT_STAT_VIP2_MULT_ANCB_SRC8      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 3. " INT_STAT_VIP2_MULT_ANCB_SRC7      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_b..." "0,1"
bitfld.long 0x00 2. "         INT_STAT_VIP2_MULT_ANCB_SRC6      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 1. "     INT_STAT_VIP2_MULT_ANCB_SRC5      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 0. " INT_STAT_VIP2_MULT_ANCB_SRC4      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_b..." "0,1"
group.long 0xBC++0x3
line.long 0x00 "VIP_INT1_CHANNEL5_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int1."
bitfld.long 0x00 31. " INT_MASK_TRANSCODE2_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_TRANSCODE2_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_TRANSCODE1_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_TRANSCODE1_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_AUX_IN                   ,The interrupt for Auxilary Data for the Compositor Frame From Memory should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_PIP_FRAME                ,The interrupt for PIP Data for the Compositor Frame From Memory should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_POST_COMP_WR             ,The interrupt for Post Compositer Writeback to Memory should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_VBI_SD_VENC              ,The interrupt for SD Video Encoder VBI Data should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 22. "     INT_MASK_NF_LAST_CHROMA           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 21. " INT_MASK_NF_LAST_LUMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "         INT_MASK_NF_WRITE_CHROMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 19. "     INT_MASK_NF_WRITE_LUMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 18. " INT_MASK_OTHER                    ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "         INT_MASK_VIP2_PORTB_RGB           ,The interrupt for Video Input 2 Port B RGB Data should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 16. "     INT_MASK_VIP2_PORTA_RGB           ,The interrupt for Video Input 2 Port A RGB Data should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 15. " INT_MASK_VIP2_PORTB_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "         INT_MASK_VIP2_PORTB_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 13. "     INT_MASK_VIP2_PORTA_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 12. " INT_MASK_VIP2_PORTA_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "         INT_MASK_VIP2_MULT_ANCB_SRC15     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 15 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 10. "     INT_MASK_VIP2_MULT_ANCB_SRC14     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 14 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 9. " INT_MASK_VIP2_MULT_ANCB_SRC13     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 13 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "         INT_MASK_VIP2_MULT_ANCB_SRC12     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 12 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 7. "     INT_MASK_VIP2_MULT_ANCB_SRC11     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 11 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 6. " INT_MASK_VIP2_MULT_ANCB_SRC10     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 10 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "         INT_MASK_VIP2_MULT_ANCB_SRC9      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 9 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 4. "     INT_MASK_VIP2_MULT_ANCB_SRC8      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 8 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 3. " INT_MASK_VIP2_MULT_ANCB_SRC7      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 7 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "         INT_MASK_VIP2_MULT_ANCB_SRC6      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 6 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 1. "     INT_MASK_VIP2_MULT_ANCB_SRC5      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 5 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 0. " INT_MASK_VIP2_MULT_ANCB_SRC4      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 4 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0xC8++0x3
line.long 0x00 "VIP_INT1_CLIENT0_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int1."
bitfld.long 0x00 31. " INT_MASK_TRANSCODE2_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_TRANSCODE2_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_TRANSCODE1_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_TRANSCODE1_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_AUX_IN                   ,The interrupt for Auxilary Data for the Compositor Frame From Memory should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_PIP_FRAME                ,The interrupt for PIP Data for the Compositor Frame From Memory should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_POST_COMP_WR             ,The interrupt for Post Compositer Writeback to Memory should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_VBI_SD_VENC              ,The interrupt for SD Video Encoder VBI Data should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 22. "     INT_MASK_NF_LAST_CHROMA           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 21. " INT_MASK_NF_LAST_LUMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "         INT_MASK_NF_WRITE_CHROMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 19. "     INT_MASK_NF_WRITE_LUMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 18. " INT_MASK_NF_READ                  ,The interrupt for Noise Filter Input Data 422 Interleaved should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "         INT_MASK_VIP2_PORTB_RGB           ,The interrupt for Video Input 2 Port B RGB Data should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 16. "     INT_MASK_VIP2_PORTA_RGB           ,The interrupt for Video Input 2 Port A RGB Data should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 15. " INT_STAT_DEI_HQ_MV_OUT            ,The client interface dei_hq_mv_out has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defau..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_DEI_HQ_MV_IN             ,The client interface dei_hq_mv_in has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this wil..." "0,1"
bitfld.long 0x00 5. "     INT_STAT_DEI_HQ_3_CHROMA          ,The client interface dei_hq_3_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_DEI_HQ_3_LUMA            ,The client interface dei_hq_3_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defau..." "0,1"
bitfld.long 0x00 3. "         INT_STAT_DEI_HQ_2_CHROMA          ,The client interface dei_hq_2_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this ..." "0,1"
bitfld.long 0x00 2. "     INT_STAT_DEI_HQ_2_LUMA            ,The client interface dei_hq_2_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will d..." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_DEI_HQ_1_LUMA            ,The client interface dei_hq_1_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defau..." "0,1"
bitfld.long 0x00 0. "         INT_STAT_DEI_HQ_1_CHROMA          ,The client interface dei_hq_1_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this ..." "0,1"
group.long 0xCC++0x3
line.long 0x00 "VIP_INT1_CLIENT0_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int1."
bitfld.long 0x00 31. " INT_MASK_GRPX1_DATA               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_COMP_WRBK                ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_SC_OUT                   ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 20. " INT_MASK_SC_IN_LUMA               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 19. "         INT_MASK_SC_IN_CHROMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "     INT_MASK_PIP_WRBK                 ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 17. " INT_MASK_DEI_SC_OUT               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_DEI_HQ_MV_OUT            ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "     INT_MASK_DEI_HQ_MV_IN             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 5. " INT_MASK_DEI_HQ_3_CHROMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 4. "         INT_MASK_DEI_HQ_3_LUMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "     INT_MASK_DEI_HQ_2_CHROMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 2. " INT_MASK_DEI_HQ_2_LUMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 1. "         INT_MASK_DEI_HQ_1_LUMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "     INT_MASK_DEI_HQ_1_CHROMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0xD0++0x3
line.long 0x00 "VIP_INT1_CLIENT1_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int1."
bitfld.long 0x00 29. " INT_STAT_VIP2_ANC_B               ,The client interface vip2_anc_b has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
bitfld.long 0x00 28. "         INT_STAT_VIP2_ANC_A               ,The client interface vip2_anc_a has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will ..." "0,1"
bitfld.long 0x00 27. "     INT_STAT_VIP1_ANC_B               ,The client interface vip1_anc_b has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defa..." "0,1"
textline "                                     "
bitfld.long 0x00 26. " INT_STAT_VIP1_ANC_A               ,The client interface vip1_anc_a has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
bitfld.long 0x00 25. "         INT_STAT_TRANS2_LUMA              ,The client interface trans2_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will..." "0,1"
bitfld.long 0x00 24. "     INT_STAT_TRANS2_CHROMA            ,The client interface trans2_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will d..." "0,1"
textline "                                     "
bitfld.long 0x00 23. " INT_STAT_TRANS1_LUMA              ,The client interface trans1_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default..." "0,1"
bitfld.long 0x00 22. "         INT_STAT_TRANS1_CHROMA            ,The client interface trans1_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this wi..." "0,1"
bitfld.long 0x00 21. "     INT_STAT_HDMI_WRBK_OUT            ,The client interface hdmi_wrbk_out has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will d..." "0,1"
textline "                                     "
bitfld.long 0x00 20. " INT_STAT_VPI_CTL                  ,The client interface vpi_ctl has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default to ..." "0,1"
bitfld.long 0x00 19. "         INT_STAT_VBI_SDVENC               ,The client interface vbi_sdvenc has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will ..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_NF_420_UV_OUT            ,The client interface nf_420_uv_out has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will d..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_NF_420_Y_OUT             ,The client interface nf_420_y_out has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defaul..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_NF_420_UV_IN             ,The client interface nf_420_uv_in has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this wil..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_NF_420_Y_IN              ,The client interface nf_420_y_in has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will def..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_NF_422_IN                ,The client interface nf_422_in has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default t..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_GRPX3_ST                 ,The client interface grpx3_st has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will de..." "0,1"
bitfld.long 0x00 11. "     INT_STAT_GRPX2_ST                 ,The client interface grpx2_st has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defaul..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_GRPX1_ST                 ,The client interface grpx1_st has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default to..." "0,1"
bitfld.long 0x00 9. "         INT_STAT_VIP2_UP_UV               ,The client interface vip2_up_uv has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will ..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_VIP2_UP_Y                ,The client interface vip2_up_y has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defau..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP2_LO_UV               ,The client interface vip2_lo_uv has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_VIP2_LO_Y                ,The client interface vip2_lo_y has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will d..." "0,1"
bitfld.long 0x00 5. "     INT_STAT_VIP1_UP_UV               ,The client interface vip1_up_uv has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defa..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_VIP1_UP_Y                ,The client interface vip1_up_y has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default t..." "0,1"
bitfld.long 0x00 3. "         INT_STAT_VIP1_LO_UV               ,The client interface vip1_lo_uv has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will ..." "0,1"
bitfld.long 0x00 2. "     INT_STAT_VIP1_LO_Y                ,The client interface vip1_lo_y has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defau..." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_GRPX3_DATA               ,The client interface grpx3_data has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
bitfld.long 0x00 0. "         INT_STAT_GRPX2_DATA               ,The client interface grpx2_data has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will ..." "0,1"
group.long 0xD4++0x3
line.long 0x00 "VIP_INT1_CLIENT1_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int1."
bitfld.long 0x00 29. " INT_MASK_VIP2_ANC_B               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 28. "         INT_MASK_VIP2_ANC_A               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "     INT_MASK_VIP1_ANC_B               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 26. " INT_MASK_VIP1_ANC_A               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 25. "         INT_MASK_TRANS2_LUMA              ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "     INT_MASK_TRANS2_CHROMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 23. " INT_MASK_TRANS1_LUMA              ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 22. "         INT_MASK_TRANS1_CHROMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "     INT_MASK_HDMI_WRBK_OUT            ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 20. " INT_MASK_VPI_CTL                  ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 19. "         INT_MASK_VBI_SDVENC               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_NF_420_UV_OUT            ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_NF_420_Y_OUT             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_NF_420_UV_IN             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_NF_420_Y_IN              ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_NF_422_IN                ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_GRPX3_ST                 ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_GRPX2_ST                 ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_GRPX1_ST                 ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_VIP2_UP_UV               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_VIP2_UP_Y                ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP2_LO_UV               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_VIP2_LO_Y                ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "     INT_MASK_VIP1_UP_UV               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_VIP1_UP_Y                ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "         INT_MASK_VIP1_LO_UV               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "     INT_MASK_VIP1_LO_Y                ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_GRPX3_DATA               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "         INT_MASK_GRPX2_DATA               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0xD8++0x3
line.long 0x00 "VIP_INT1_LIST0_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int1."
bitfld.long 0x00 31. " INT_STAT_CONTROL_DESCRIPTOR_INT15 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 15. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear ..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_CONTROL_DESCRIPTOR_INT14 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 14. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field t..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_CONTROL_DESCRIPTOR_INT13 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 13. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to cl..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_CONTROL_DESCRIPTOR_INT12 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 12. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear ..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_CONTROL_DESCRIPTOR_INT11 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 11. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field t..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_CONTROL_DESCRIPTOR_INT10 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 10. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to cl..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_CONTROL_DESCRIPTOR_INT9  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 9. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear t..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_CONTROL_DESCRIPTOR_INT8  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 8. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to..." "0,1"
bitfld.long 0x00 23. "     INT_STAT_CONTROL_DESCRIPTOR_INT7  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 7. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to cle..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_CONTROL_DESCRIPTOR_INT6  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 6. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear t..." "0,1"
bitfld.long 0x00 21. "         INT_STAT_CONTROL_DESCRIPTOR_INT5  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 5. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to..." "0,1"
bitfld.long 0x00 20. "     INT_STAT_CONTROL_DESCRIPTOR_INT4  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 4. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to cle..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_CONTROL_DESCRIPTOR_INT3  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 3. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear t..." "0,1"
bitfld.long 0x00 18. "         INT_STAT_CONTROL_DESCRIPTOR_INT2  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 2. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_CONTROL_DESCRIPTOR_INT1  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 1. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to cle..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_CONTROL_DESCRIPTOR_INT0  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 0. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear t..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_LIST7_NOTIFY             ,A channel set by List 7 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this fi..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_LIST7_COMPLETE           ,List 7 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_LIST6_NOTIFY             ,A channel set by List 6 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to c..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_LIST6_COMPLETE           ,List 6 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
bitfld.long 0x00 11. "     INT_STAT_LIST5_NOTIFY             ,A channel set by List 5 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field ..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_LIST5_COMPLETE           ,List 5 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
bitfld.long 0x00 9. "         INT_STAT_LIST4_NOTIFY             ,A channel set by List 4 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this fi..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_LIST4_COMPLETE           ,List 4 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_LIST3_NOTIFY             ,A channel set by List 3 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to c..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_LIST3_COMPLETE           ,List 3 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
bitfld.long 0x00 5. "     INT_STAT_LIST2_NOTIFY             ,A channel set by List 2 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field ..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_LIST2_COMPLETE           ,List 2 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
bitfld.long 0x00 3. "         INT_STAT_LIST1_NOTIFY             ,A channel set by List 1 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this fi..." "0,1"
bitfld.long 0x00 2. "     INT_STAT_LIST1_COMPLETE           ,List 1 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_LIST0_NOTIFY             ,A channel set by List 0 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to c..." "0,1"
bitfld.long 0x00 0. "         INT_STAT_LIST0_COMPLETE           ,List 0 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
group.long 0xDC++0x3
line.long 0x00 "VIP_INT1_LIST0_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int1."
bitfld.long 0x00 31. " INT_MASK_CONTROL_DESCRIPTOR_INT15 ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_CONTROL_DESCRIPTOR_INT14 ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_CONTROL_DESCRIPTOR_INT13 ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_CONTROL_DESCRIPTOR_INT12 ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_CONTROL_DESCRIPTOR_INT11 ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_CONTROL_DESCRIPTOR_INT10 ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_CONTROL_DESCRIPTOR_INT9  ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_CONTROL_DESCRIPTOR_INT8  ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "     INT_MASK_CONTROL_DESCRIPTOR_INT7  ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_CONTROL_DESCRIPTOR_INT6  ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "         INT_MASK_CONTROL_DESCRIPTOR_INT5  ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "     INT_MASK_CONTROL_DESCRIPTOR_INT4  ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_CONTROL_DESCRIPTOR_INT3  ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "         INT_MASK_CONTROL_DESCRIPTOR_INT2  ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_CONTROL_DESCRIPTOR_INT1  ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_CONTROL_DESCRIPTOR_INT0  ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_LIST7_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_LIST7_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_LIST6_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_LIST6_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_LIST5_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_LIST5_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_LIST4_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_LIST4_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_LIST3_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_LIST3_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "     INT_MASK_LIST2_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_LIST2_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "         INT_MASK_LIST1_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "     INT_MASK_LIST1_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_LIST0_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "         INT_MASK_LIST0_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x200++0x3
line.long 0x00 "VIP_PERF_MON0,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: vip2_anc_b 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: vip2_anc_b 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x204++0x3
line.long 0x00 "VIP_PERF_MON1,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x208++0x3
line.long 0x00 "VIP_PERF_MON2,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x20C++0x3
line.long 0x00 "VIP_PERF_MON3,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x210++0x3
line.long 0x00 "VIP_PERF_MON4,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x214++0x3
line.long 0x00 "VIP_PERF_MON5,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x218++0x3
line.long 0x00 "VIP_PERF_MON6,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x21C++0x3
line.long 0x00 "VIP_PERF_MON7,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x220++0x3
line.long 0x00 "VIP_PERF_MON8,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x224++0x3
line.long 0x00 "VIP_PERF_MON9,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x228++0x3
line.long 0x00 "VIP_PERF_MON10,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x22C++0x3
line.long 0x00 "VIP_PERF_MON11,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x230++0x3
line.long 0x00 "VIP_PERF_MON12,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x234++0x3
line.long 0x00 "VIP_PERF_MON13,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x238++0x3
line.long 0x00 "VIP_PERF_MON14,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x23C++0x3
line.long 0x00 "VIP_PERF_MON15,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x240++0x3
line.long 0x00 "VIP_PERF_MON16,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x244++0x3
line.long 0x00 "VIP_PERF_MON17,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x248++0x3
line.long 0x00 "VIP_PERF_MON18,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x24C++0x3
line.long 0x00 "VIP_PERF_MON19,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x250++0x3
line.long 0x00 "VIP_PERF_MON20,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x254++0x3
line.long 0x00 "VIP_PERF_MON21,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x258++0x3
line.long 0x00 "VIP_PERF_MON22,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x25C++0x3
line.long 0x00 "VIP_PERF_MON23,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x260++0x3
line.long 0x00 "VIP_PERF_MON24,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x264++0x3
line.long 0x00 "VIP_PERF_MON25,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x268++0x3
line.long 0x00 "VIP_PERF_MON26,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x26C++0x3
line.long 0x00 "VIP_PERF_MON27,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x270++0x3
line.long 0x00 "VIP_PERF_MON28,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x274++0x3
line.long 0x00 "VIP_PERF_MON29,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x278++0x3
line.long 0x00 "VIP_PERF_MON30,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x27C++0x3
line.long 0x00 "VIP_PERF_MON31,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x280++0x3
line.long 0x00 "VIP_PERF_MON32,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3: vip1_lo_y" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3: vip1_lo_y" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x284++0x3
line.long 0x00 "VIP_PERF_MON33,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: vip1_lo_y 3: vip1_lo_uv" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: vip1_lo_y 3: vip1_lo_uv" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x288++0x3
line.long 0x00 "VIP_PERF_MON34,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip1_lo_y 1: 2: vip1_lo_uv 3: vip1_up_y" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip1_lo_y 1: 2: vip1_lo_uv 3: vip1_up_y" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x28C++0x3
line.long 0x00 "VIP_PERF_MON35,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip1_lo_uv 1: vip1_lo_y 2: vip1_up_y 3: vip1_up_uv" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip1_lo_uv 1: vip1_lo_y 2: vip1_up_y 3: vip1_up_uv" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x290++0x3
line.long 0x00 "VIP_PERF_MON36,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip1_up_y 1: vip1_lo_uv 2: vip1_up_uv 3: vip2_lo_y" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip1_up_y 1: vip1_lo_uv 2: vip1_up_uv 3: vip2_lo_y" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x294++0x3
line.long 0x00 "VIP_PERF_MON37,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip1_up_uv 1: vip1_up_y 2: vip2_lo_y 3: vip2_lo_uv" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ," "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip1_up_uv 1: vip1_up_y 2: vip2_lo_y 3: vip2_lo_uv" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x298++0x3
line.long 0x00 "VIP_PERF_MON38,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip2_lo_y 1: vip1_up_uv 2: vip2_lo_uv 3: vip2_up_y" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip2_lo_y 1: vip1_up_uv 2: vip2_lo_uv 3: vip2_up_y" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x29C++0x3
line.long 0x00 "VIP_PERF_MON39,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip2_lo_uv 1: vip2_lo_y 2: vip2_up_y 3: vip2_up_uv" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip2_lo_uv 1: vip2_lo_y 2: vip2_up_y 3: vip2_up_uv" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2A0++0x3
line.long 0x00 "VIP_PERF_MON40,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip2_up_y 1: vip2_lo_uv 2: vip2_up_uv 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip2_up_y 1: vip2_lo_uv 2: vip2_up_uv 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2A4++0x3
line.long 0x00 "VIP_PERF_MON41,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip2_up_uv 1: vip2_up_y 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip2_up_uv 1: vip2_up_y 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2A8++0x3
line.long 0x00 "VIP_PERF_MON42,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: vip2_up_uv 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: vip2_up_uv 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2AC++0x3
line.long 0x00 "VIP_PERF_MON43,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2B0++0x3
line.long 0x00 "VIP_PERF_MON44,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2B4++0x3
line.long 0x00 "VIP_PERF_MON45,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2B8++0x3
line.long 0x00 "VIP_PERF_MON46,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2BC++0x3
line.long 0x00 "VIP_PERF_MON47,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2C0++0x3
line.long 0x00 "VIP_PERF_MON48,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2C4++0x3
line.long 0x00 "VIP_PERF_MON49,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2C8++0x3
line.long 0x00 "VIP_PERF_MON50,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3: vpi_ctl" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3: vpi_ctl" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2CC++0x3
line.long 0x00 "VIP_PERF_MON51,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: vpi_ctl 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: vpi_ctl 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2D0++0x3
line.long 0x00 "VIP_PERF_MON52,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vpi_ctl 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vpi_ctl 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2D4++0x3
line.long 0x00 "VIP_PERF_MON53,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: vpi_ctl 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: vpi_ctl 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2D8++0x3
line.long 0x00 "VIP_PERF_MON54,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2DC++0x3
line.long 0x00 "VIP_PERF_MON55,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2E0++0x3
line.long 0x00 "VIP_PERF_MON56,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ," "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ," "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ," "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2E4++0x3
line.long 0x00 "VIP_PERF_MON57,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: vip1_anc_a 3: vip1_anc_b" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: vip1_anc_a 3: vip1_anc_b" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2E8++0x3
line.long 0x00 "VIP_PERF_MON58,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip1_anc_a 1: 2: vip1_anc_b 3: vip2_anc_a" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip1_anc_a 1: 2: vip1_anc_b 3: vip2_anc_a" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2EC++0x3
line.long 0x00 "VIP_PERF_MON59,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip1_anc_b 1: vip1_anc_a 2: vip2_anc_a 3: vip2_anc_b" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip1_anc_b 1: vip1_anc_a 2: vip2_anc_a 3: vip2_anc_b" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2F0++0x3
line.long 0x00 "VIP_PERF_MON60,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip2_anc_a 1: vip1_anc_b 2: vip2_anc_b 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip2_anc_a 1: vip1_anc_b 2: vip2_anc_b 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2F4++0x3
line.long 0x00 "VIP_PERF_MON61,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip2_anc_b 1: vip2_anc_a 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip2_anc_b 1: vip2_anc_a 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x388++0x3
line.long 0x00 "VIP0_LO_Y_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x38C++0x3
line.long 0x00 "VIP0_LO_UV_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x390++0x3
line.long 0x00 "VIP0_UP_Y_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x394++0x3
line.long 0x00 "VIP0_UP_UV_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x398++0x3
line.long 0x00 "VIP1_LO_Y_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x39C++0x3
line.long 0x00 "VIP1_LO_UV_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x3A0++0x3
line.long 0x00 "VIP1_UP_Y_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x3A4++0x3
line.long 0x00 "VIP1_UP_UV_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x3D0++0x3
line.long 0x00 "VPI_CTL_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x3E8++0x3
line.long 0x00 "VIP0_ANC_A_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x3EC++0x3
line.long 0x00 "VIP0_ANC_B_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x3F0++0x3
line.long 0x00 "VIP1_ANC_A_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x3F4++0x3
line.long 0x00 "VIP1_ANC_B_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used to cal..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree "VIP2_VPDMA"
base ad:0x4899D000
width 28.
rgroup.long 0x0++0x3
line.long 0x00 "VIP_PID,PID VIP VPDMA register"
hexmask.long 0x00 0.--31. 1. " PID                               ,PID of VPDMA module"
group.long 0x4++0x3
line.long 0x00 "VIP_LIST_ADDR,The location of a new list to begin processing."
hexmask.long 0x00 0.--31. 1. " VIP_LIST_ADDR                     ,Location of a new list of descriptors. This register must be written with the VPDMA Configuration Location after reset."
group.long 0x8++0x3
line.long 0x00 "VIP_LIST_ATTR,The attributes of a new list. This register should always be written after."
bitfld.long 0x00 24.--26. " LIST_NUM                          ,The list number that should be assigned to the list located atVIP_LIST_ADDR. If the list is still active this will block all future list writes until the list is available." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20. "         STOP                              ,This bit is written with the LIST_NUMBER field to stop a self-modifying list. When this bit is written a one the list specified by the LIST_NUMBER is sent a stop signal and will finish the current frame of tr..." "0,1"
bitfld.long 0x00 19. "     RDY                               ,This bit is low when a new list cannot be written to theVIP_LIST_ADDR register. The reasons this bit would be low are at initial startup if the LIST_MANAGER State Machine image has not completed loading. It also ..." "0,1"
textline "                                     "
bitfld.long 0x00 16.--18. " LIST_TYPE                         ,The type of list that has been generated.\\n0: Normal List\\n1: Self-Modifying List\\n2: List Doorbell\\nOthers Reserved for future use" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "         LIST_SIZE                         ,Number of 128 bit word in the new list of descriptors. Writes to this register will activate the list in the list stack of the list manager and begin transfer of the list into VPDMA. This size can not be 0."
group.long 0xC++0x3
line.long 0x00 "VIP_LIST_STAT_SYNC,The register is used for processor to List Manager syncronization and status registers for the list."
bitfld.long 0x00 23. " LIST7_BUSY                        ,The list 7 is currently running. Any attempt to load a new list to list 7 will result in the LM_ADDR and LM_ATTR registers to be locked until the list is complete and this value goes to 0." "0,1"
bitfld.long 0x00 22. "         LIST6_BUSY                        ,The list 6 is currently running. Any attempt to load a new list to list 6 will result in the LM_ADDR and LM_ATTR registers to be locked until the list is complete and this value goes to 0." "0,1"
bitfld.long 0x00 21. "     LIST5_BUSY                        ,The list 5 is currently running. Any attempt to load a new list to list 5 will result in the LM_ADDR and LM_ATTR registers to be locked until the list is complete and this value goes to 0." "0,1"
textline "                                     "
bitfld.long 0x00 20. " LIST4_BUSY                        ,The list 4 is currently running. Any attempt to load a new list to list 4 will result in the LM_ADDR and LM_ATTR registers to be locked until the list is complete and this value goes to 0." "0,1"
bitfld.long 0x00 19. "         LIST3_BUSY                        ,The list 3 is currently running. Any attempt to load a new list to list 3 will result in the LM_ADDR and LM_ATTR registers to be locked until the list is complete and this value goes to 0." "0,1"
bitfld.long 0x00 18. "     LIST2_BUSY                        ,The list 2 is currently running. Any attempt to load a new list to list 2 will result in the LM_ADDR and LM_ATTR registers to be locked until the list is complete and this value goes to 0." "0,1"
textline "                                     "
bitfld.long 0x00 17. " LIST1_BUSY                        ,The list 1 is currently running. Any attempt to load a new list to list 1 will result in the LM_ADDR and LM_ATTR registers to be locked until the list is complete and this value goes to 0." "0,1"
bitfld.long 0x00 16. "         LIST0_BUSY                        ,The list 0 is currently running. Any attempt to load a new list to list 0 will result in the LM_ADDR and LM_ATTR registers to be locked until the list is complete and this value goes to 0." "0,1"
bitfld.long 0x00 7. "     SYNC_LISTS7                       ,Writing a 1 to this field causes a sync event to fire that clears a Control Descriptor in List 7 waiting on it." "0,1"
textline "                                     "
bitfld.long 0x00 6. " SYNC_LISTS6                       ,Writing a 1 to this field causes a sync event to fire that clears a Control Descriptor in List 6 waiting on it." "0,1"
bitfld.long 0x00 5. "         SYNC_LISTS5                       ,Writing a 1 to this field causes a sync event to fire that clears a Control Descriptor in List 5 waiting on it." "0,1"
bitfld.long 0x00 4. "     SYNC_LISTS4                       ,Writing a 1 to this field causes a sync event to fire that clears a Control Descriptor in List 4 waiting on it." "0,1"
textline "                                     "
bitfld.long 0x00 3. " SYNC_LISTS3                       ,Writing a 1 to this field causes a sync event to fire that clears a Control Descriptor in List 3 waiting on it." "0,1"
bitfld.long 0x00 2. "         SYNC_LISTS2                       ,Writing a 1 to this field causes a sync event to fire that clears a Control Descriptor in List 2 waiting on it." "0,1"
bitfld.long 0x00 1. "     SYNC_LISTS1                       ,Writing a 1 to this field causes a sync event to fire that clears a Control Descriptor in List 1 waiting on it." "0,1"
textline "                                     "
bitfld.long 0x00 0. " SYNC_LISTS0                       ,Writing a 1 to this field causes a sync event to fire that clears a Control Descriptor in List 0 waiting on it." "0,1"
group.long 0x18++0x3
line.long 0x00 "VIP_BG_RGB,The registers used to set the background color for RGB"
hexmask.long.byte 0x00 24.--31. 1. " RED                               ,The red value to give on an RGB data port for a blank pixel when using virtual video buffering"
hexmask.long.byte 0x00 16.--23. 1. "        GREEN                             ,The green value to give on an RGB data port for a blank pixel when using virtual video buffering"
hexmask.long.byte 0x00 8.--15. 1. "    BLUE                              ,The blue value to give on an RGB data port for a blank pixel when using virtual video buffering"
textline "                                     "
hexmask.long.byte 0x00 0.--7. 1. " BLEND                             ,The blend value to give on an RGB data port for a blank pixel when using virtual video buffering"
group.long 0x1C++0x3
line.long 0x00 "VIP_BG_YUV,The registers used to set the background color for YUV"
hexmask.long.byte 0x00 16.--23. 1. " Y                                 ,The Y value to give on a YUV data port for a blank pixel when using virtual video buffering"
hexmask.long.byte 0x00 8.--15. 1. "        CR                                ,The Cr value to give on a YUV data port for a blank pixel when using virtual video buffering"
hexmask.long.byte 0x00 0.--7. 1. "    CB                                ,The Cb value to give on a YUV data port for a blank pixel when using virtual video buffering"
group.long 0x30++0x3
line.long 0x00 "VIP_VPDMA_SETUP,Configures global parameters that are shared by all clients."
bitfld.long 0x00 0. " SEC_BASE_CH                       ,Use Secondary Channels for Mosaic mode" "0,1"
group.long 0x34++0x3
line.long 0x00 "VIP_MAX_SIZE1,Configures maximum width and maximum height global parameters that are shared by all clients to allow for configurable max width and max height when setting is 1 in write descriptor."
hexmask.long.word 0x00 16.--31. 1. " MAX_WIDTH                         ,The maximum width to use for setting of max_width 1 in a write descriptor. The value is the number of pixels + 1 so if 1024 pixels are required then set the value to 1023."
hexmask.long.word 0x00 0.--15. 1. "      MAX_HEIGHT                        ,The maximum height to use for setting of max_height 1 in a write descriptor. The value is the number of lines + 1 so if 1024 lines are required then set the value to 1023."
group.long 0x38++0x3
line.long 0x00 "VIP_MAX_SIZE2,Configures maximum width and maximum height global parameters that are shared by all clients to allow for configurable max width and max height when setting is 2 in write descriptor."
hexmask.long.word 0x00 16.--31. 1. " MAX_WIDTH                         ,The maximum width to use for setting of max_width 2 in a write descriptor. The value is the number of pixels + 1 so if 1024 pixels are required then set the value to 1023."
hexmask.long.word 0x00 0.--15. 1. "      MAX_HEIGHT                        ,The maximum height to use for setting of max_height 2 in a write descriptor. The value is the number of lines + 1 so if 1024 lines are required then set the value to 1023."
group.long 0x3C++0x3
line.long 0x00 "VIP_MAX_SIZE3,Configures maximum width and maximum height global parameters that are shared by all clients to allow for configurable max width and max height when setting is 3 in write descriptor."
hexmask.long.word 0x00 16.--31. 1. " MAX_WIDTH                         ,The maximum width to use for setting of max_width 3 in a write descriptor. The value is the number of pixels + 1 so if 1024 pixels are required then set the value to 1023."
hexmask.long.word 0x00 0.--15. 1. "      MAX_HEIGHT                        ,The maximum height to use for setting of max_height 3 in a write descriptor. The value is the number of lines + 1 so if 1024 lines are required then set the value to 1023."
group.long 0x40++0x3
line.long 0x00 "VIP_INT0_CHANNEL0_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 31. " INT_STAT_GRPX3                    ,The last read DMA transaction has occurred for channel grpx3 and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have just been stored i..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_GRPX2                    ,The last read DMA transaction has occurred for channel grpx2 and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have just been ..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_GRPX1                    ,The last read DMA transaction has occurred for channel grpx1 and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have just been stor..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_SCALER_OUT               ,The last write DMA transaction has completed for channel scaler_out. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client sc_out then the cli..." "0,1"
bitfld.long 0x00 19. "         INT_STAT_SCALER_CHROMA            ,The last write DMA transaction has completed for channel scaler_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the..." "0,1"
bitfld.long 0x00 18. "     INT_STAT_SCALER_LUMA              ,The last write DMA transaction has completed for channel scaler_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the clien..." "0,1"
textline "                                     "
bitfld.long 0x00 17. " INT_STAT_HQ_SCALER                ,The last write DMA transaction has completed for channel hq_scaler. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client dei_sc_out then the ..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_HQ_MV_OUT                ,The last write DMA transaction has completed for channel hq_mv_out. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client dei_hq_mv_ou..." "0,1"
bitfld.long 0x00 12. "     INT_STAT_HQ_MV                    ,The last read DMA transaction has occurred for channel hq_mv and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have just been stor..." "0,1"
textline "                                     "
bitfld.long 0x00 5. " INT_STAT_HQ_VID3_CHROMA           ,The last write DMA transaction has completed for channel hq_vid3_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the client..." "0,1"
bitfld.long 0x00 4. "         INT_STAT_HQ_VID3_LUMA             ,The last write DMA transaction has completed for channel hq_vid3_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the ..." "0,1"
bitfld.long 0x00 3. "     INT_STAT_HQ_VID2_CHROMA           ,The last write DMA transaction has completed for channel hq_vid2_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cl..." "0,1"
textline "                                     "
bitfld.long 0x00 2. " INT_STAT_HQ_VID2_LUMA             ,The last write DMA transaction has completed for channel hq_vid2_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the client w..." "0,1"
bitfld.long 0x00 1. "         INT_STAT_HQ_VID1_CHROMA           ,The last write DMA transaction has completed for channel hq_vid1_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then th..." "0,1"
bitfld.long 0x00 0. "     INT_STAT_HQ_VID1_LUMA             ,The last write DMA transaction has completed for channel hq_vid1_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the clie..." "0,1"
group.long 0x44++0x3
line.long 0x00 "VIP_INT0_CHANNEL0_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 31. " INT_MASK_GRPX3                    ,The interrupt for Graphcis 2 Data should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_GRPX2                    ,The interrupt for Graphics 1 Data should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_GRPX1                    ,The interrupt for Graphics 0 Data should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_SCALER_OUT               ,The interrupt for Low Cost DEI Scalar Write to Memory should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 19. "         INT_MASK_SCALER_CHROMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "     INT_MASK_SCALER_LUMA              ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 17. " INT_MASK_HQ_SCALER                ,The interrupt for High Quality DEI Scaler Write to Memory should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_HQ_MV_OUT                ,The interrupt for Low Cost DEI Motion Vector Write should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "     INT_MASK_HQ_MV                    ,The interrupt for Low Cost DEI Motion Vector should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 5. " INT_MASK_HQ_VID3_CHROMA           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 4. "         INT_MASK_HQ_VID3_LUMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "     INT_MASK_HQ_VID2_CHROMA           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 2. " INT_MASK_HQ_VID2_LUMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 1. "         INT_MASK_HQ_VID1_CHROMA           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "     INT_MASK_HQ_VID1_LUMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x48++0x3
line.long 0x00 "VIP_INT0_CHANNEL1_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 31. " INT_STAT_VIP1_MULT_PORTB_SRC9     ,The last write DMA transaction has completed for channel vip1_mult_portb_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_u..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_VIP1_MULT_PORTB_SRC8     ,The last write DMA transaction has completed for channel vip1_mult_portb_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_VIP1_MULT_PORTB_SRC7     ,The last write DMA transaction has completed for channel vip1_mult_portb_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_VIP1_MULT_PORTB_SRC6     ,The last write DMA transaction has completed for channel vip1_mult_portb_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_u..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_VIP1_MULT_PORTB_SRC5     ,The last write DMA transaction has completed for channel vip1_mult_portb_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_VIP1_MULT_PORTB_SRC4     ,The last write DMA transaction has completed for channel vip1_mult_portb_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_VIP1_MULT_PORTB_SRC3     ,The last write DMA transaction has completed for channel vip1_mult_portb_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_u..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_VIP1_MULT_PORTB_SRC2     ,The last write DMA transaction has completed for channel vip1_mult_portb_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 23. "     INT_STAT_VIP1_MULT_PORTB_SRC1     ,The last write DMA transaction has completed for channel vip1_mult_portb_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_VIP1_MULT_PORTB_SRC0     ,The last write DMA transaction has completed for channel vip1_mult_portb_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_u..." "0,1"
bitfld.long 0x00 21. "         INT_STAT_VIP1_MULT_PORTA_SRC15    ,The last write DMA transaction has completed for channel vip1_mult_porta_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 20. "     INT_STAT_VIP1_MULT_PORTA_SRC14    ,The last write DMA transaction has completed for channel vip1_mult_porta_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_VIP1_MULT_PORTA_SRC13    ,The last write DMA transaction has completed for channel vip1_mult_porta_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_..." "0,1"
bitfld.long 0x00 18. "         INT_STAT_VIP1_MULT_PORTA_SRC12    ,The last write DMA transaction has completed for channel vip1_mult_porta_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_VIP1_MULT_PORTA_SRC11    ,The last write DMA transaction has completed for channel vip1_mult_porta_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_VIP1_MULT_PORTA_SRC10    ,The last write DMA transaction has completed for channel vip1_mult_porta_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_VIP1_MULT_PORTA_SRC9     ,The last write DMA transaction has completed for channel vip1_mult_porta_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_VIP1_MULT_PORTA_SRC8     ,The last write DMA transaction has completed for channel vip1_mult_porta_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_VIP1_MULT_PORTA_SRC7     ,The last write DMA transaction has completed for channel vip1_mult_porta_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_y..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_VIP1_MULT_PORTA_SRC6     ,The last write DMA transaction has completed for channel vip1_mult_porta_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 11. "     INT_STAT_VIP1_MULT_PORTA_SRC5     ,The last write DMA transaction has completed for channel vip1_mult_porta_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_VIP1_MULT_PORTA_SRC4     ,The last write DMA transaction has completed for channel vip1_mult_porta_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_y..." "0,1"
bitfld.long 0x00 9. "         INT_STAT_VIP1_MULT_PORTA_SRC3     ,The last write DMA transaction has completed for channel vip1_mult_porta_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_VIP1_MULT_PORTA_SRC2     ,The last write DMA transaction has completed for channel vip1_mult_porta_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP1_MULT_PORTA_SRC1     ,The last write DMA transaction has completed for channel vip1_mult_porta_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_y..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_VIP1_MULT_PORTA_SRC0     ,The last write DMA transaction has completed for channel vip1_mult_porta_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
group.long 0x4C++0x3
line.long 0x00 "VIP_INT0_CHANNEL1_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 31. " INT_MASK_VIP1_MULT_PORTB_SRC9     ,The interrupt for Video Input 1 Port B Channel 9 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_VIP1_MULT_PORTB_SRC8     ,The interrupt for Video Input 1 Port B Channel 8 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_VIP1_MULT_PORTB_SRC7     ,The interrupt for Video Input 1 Port B Channel 7 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_VIP1_MULT_PORTB_SRC6     ,The interrupt for Video Input 1 Port B Channel 6 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_VIP1_MULT_PORTB_SRC5     ,The interrupt for Video Input 1 Port B Channel 5 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_VIP1_MULT_PORTB_SRC4     ,The interrupt for Video Input 1 Port B Channel 4 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_VIP1_MULT_PORTB_SRC3     ,The interrupt for Video Input 1 Port B Channel 3 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_VIP1_MULT_PORTB_SRC2     ,The interrupt for Video Input 1 Port B Channel 2 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "     INT_MASK_VIP1_MULT_PORTB_SRC1     ,The interrupt for Video Input 1 Port B Channel 1 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_VIP1_MULT_PORTB_SRC0     ,The interrupt for Video Input 1 Port B Channel 0 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "         INT_MASK_VIP1_MULT_PORTA_SRC15    ,The interrupt for Video Input 1 Port A Channel 15 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "     INT_MASK_VIP1_MULT_PORTA_SRC14    ,The interrupt for Video Input 1 Port A Channel 14 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_VIP1_MULT_PORTA_SRC13    ,The interrupt for Video Input 1 Port A Channel 13 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "         INT_MASK_VIP1_MULT_PORTA_SRC12    ,The interrupt for Video Input 1 Port A Channel 12 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_VIP1_MULT_PORTA_SRC11    ,The interrupt for Video Input 1 Port A Channel 11 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_VIP1_MULT_PORTA_SRC10    ,The interrupt for Video Input 1 Port A Channel 10 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_VIP1_MULT_PORTA_SRC9     ,The interrupt for Video Input 1 Port A Channel 9 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_VIP1_MULT_PORTA_SRC8     ,The interrupt for Video Input 1 Port A Channel 8 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_VIP1_MULT_PORTA_SRC7     ,The interrupt for Video Input 1 Port A Channel 7 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_VIP1_MULT_PORTA_SRC6     ,The interrupt for Video Input 1 Port A Channel 6 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_VIP1_MULT_PORTA_SRC5     ,The interrupt for Video Input 1 Port A Channel 5 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_VIP1_MULT_PORTA_SRC4     ,The interrupt for Video Input 1 Port A Channel 4 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_VIP1_MULT_PORTA_SRC3     ,The interrupt for Video Input 1 Port A Channel 3 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_VIP1_MULT_PORTA_SRC2     ,The interrupt for Video Input 1 Port A Channel 2 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP1_MULT_PORTA_SRC1     ,The interrupt for Video Input 1 Port A Channel 1 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_VIP1_MULT_PORTA_SRC0     ,The interrupt for Video Input 1 Port A Channel 0 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x50++0x3
line.long 0x00 "VIP_INT0_CHANNEL2_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 31. " INT_STAT_VIP1_MULT_ANCB_SRC9      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_b..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_VIP1_MULT_ANCB_SRC8      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_VIP1_MULT_ANCB_SRC7      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_VIP1_MULT_ANCB_SRC6      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_b..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_VIP1_MULT_ANCB_SRC5      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_VIP1_MULT_ANCB_SRC4      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_VIP1_MULT_ANCB_SRC3      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_b..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_VIP1_MULT_ANCB_SRC2      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 23. "     INT_STAT_VIP1_MULT_ANCB_SRC1      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_VIP1_MULT_ANCB_SRC0      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_b..." "0,1"
bitfld.long 0x00 21. "         INT_STAT_VIP1_MULT_ANCA_SRC15     ,The last write DMA transaction has completed for channel vip1_mult_anca_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 20. "     INT_STAT_VIP1_MULT_ANCA_SRC14     ,The last write DMA transaction has completed for channel vip1_mult_anca_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_VIP1_MULT_ANCA_SRC13     ,The last write DMA transaction has completed for channel vip1_mult_anca_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_..." "0,1"
bitfld.long 0x00 18. "         INT_STAT_VIP1_MULT_ANCA_SRC12     ,The last write DMA transaction has completed for channel vip1_mult_anca_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_VIP1_MULT_ANCA_SRC11     ,The last write DMA transaction has completed for channel vip1_mult_anca_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_VIP1_MULT_ANCA_SRC10     ,The last write DMA transaction has completed for channel vip1_mult_anca_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_VIP1_MULT_ANCA_SRC9      ,The last write DMA transaction has completed for channel vip1_mult_anca_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_VIP1_MULT_ANCA_SRC8      ,The last write DMA transaction has completed for channel vip1_mult_anca_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_VIP1_MULT_ANCA_SRC7      ,The last write DMA transaction has completed for channel vip1_mult_anca_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_a..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_VIP1_MULT_ANCA_SRC6      ,The last write DMA transaction has completed for channel vip1_mult_anca_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 11. "     INT_STAT_VIP1_MULT_ANCA_SRC5      ,The last write DMA transaction has completed for channel vip1_mult_anca_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_VIP1_MULT_ANCA_SRC4      ,The last write DMA transaction has completed for channel vip1_mult_anca_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_a..." "0,1"
bitfld.long 0x00 9. "         INT_STAT_VIP1_MULT_ANCA_SRC3      ,The last write DMA transaction has completed for channel vip1_mult_anca_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_VIP1_MULT_ANCA_SRC2      ,The last write DMA transaction has completed for channel vip1_mult_anca_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP1_MULT_ANCA_SRC1      ,The last write DMA transaction has completed for channel vip1_mult_anca_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_a..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_VIP1_MULT_ANCA_SRC0      ,The last write DMA transaction has completed for channel vip1_mult_anca_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 5. "     INT_STAT_VIP1_MULT_PORTB_SRC15    ,The last write DMA transaction has completed for channel vip1_mult_portb_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_VIP1_MULT_PORTB_SRC14    ,The last write DMA transaction has completed for channel vip1_mult_portb_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_..." "0,1"
bitfld.long 0x00 3. "         INT_STAT_VIP1_MULT_PORTB_SRC13    ,The last write DMA transaction has completed for channel vip1_mult_portb_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 2. "     INT_STAT_VIP1_MULT_PORTB_SRC12    ,The last write DMA transaction has completed for channel vip1_mult_portb_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1..." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_VIP1_MULT_PORTB_SRC11    ,The last write DMA transaction has completed for channel vip1_mult_portb_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_..." "0,1"
bitfld.long 0x00 0. "         INT_STAT_VIP1_MULT_PORTB_SRC10    ,The last write DMA transaction has completed for channel vip1_mult_portb_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
group.long 0x54++0x3
line.long 0x00 "VIP_INT0_CHANNEL2_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 31. " INT_MASK_VIP1_MULT_ANCB_SRC9      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 9 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_VIP1_MULT_ANCB_SRC8      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 8 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_VIP1_MULT_ANCB_SRC7      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 7 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_VIP1_MULT_ANCB_SRC6      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 6 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_VIP1_MULT_ANCB_SRC5      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 5 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_VIP1_MULT_ANCB_SRC4      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 4 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_VIP1_MULT_ANCB_SRC3      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 3 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_VIP1_MULT_ANCB_SRC2      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 2 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "     INT_MASK_VIP1_MULT_ANCB_SRC1      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 1 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_VIP1_MULT_ANCB_SRC0      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 0 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "         INT_MASK_VIP1_MULT_ANCA_SRC15     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 15 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "     INT_MASK_VIP1_MULT_ANCA_SRC14     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 14 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_VIP1_MULT_ANCA_SRC13     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 13 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "         INT_MASK_VIP1_MULT_ANCA_SRC12     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 12 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_VIP1_MULT_ANCA_SRC11     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 11 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_VIP1_MULT_ANCA_SRC10     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 10 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_VIP1_MULT_ANCA_SRC9      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 9 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_VIP1_MULT_ANCA_SRC8      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 8 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_VIP1_MULT_ANCA_SRC7      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 7 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_VIP1_MULT_ANCA_SRC6      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 6 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_VIP1_MULT_ANCA_SRC5      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 5 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_VIP1_MULT_ANCA_SRC4      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 4 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_VIP1_MULT_ANCA_SRC3      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 3 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_VIP1_MULT_ANCA_SRC2      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 2 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP1_MULT_ANCA_SRC1      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 1 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_VIP1_MULT_ANCA_SRC0      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 0 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "     INT_MASK_VIP1_MULT_PORTB_SRC15    ,The interrupt for Video Input 1 Port B Channel 15 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_VIP1_MULT_PORTB_SRC14    ,The interrupt for Video Input 1 Port B Channel 14 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "         INT_MASK_VIP1_MULT_PORTB_SRC13    ,The interrupt for Video Input 1 Port B Channel 13 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "     INT_MASK_VIP1_MULT_PORTB_SRC12    ,The interrupt for Video Input 1 Port B Channel 12 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_VIP1_MULT_PORTB_SRC11    ,The interrupt for Video Input 1 Port B Channel 11 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "         INT_MASK_VIP1_MULT_PORTB_SRC10    ,The interrupt for Video Input 1 Port B Channel 10 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x58++0x3
line.long 0x00 "VIP_INT0_CHANNEL3_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 31. " INT_STAT_VIP2_MULT_PORTB_SRC3     ,The last write DMA transaction has completed for channel vip2_mult_portb_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_u..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_VIP2_MULT_PORTB_SRC2     ,The last write DMA transaction has completed for channel vip2_mult_portb_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_VIP2_MULT_PORTB_SRC1     ,The last write DMA transaction has completed for channel vip2_mult_portb_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_VIP2_MULT_PORTB_SRC0     ,The last write DMA transaction has completed for channel vip2_mult_portb_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_u..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_VIP2_MULT_PORTA_SRC15    ,The last write DMA transaction has completed for channel vip2_mult_porta_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_VIP2_MULT_PORTA_SRC14    ,The last write DMA transaction has completed for channel vip2_mult_porta_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_VIP2_MULT_PORTA_SRC13    ,The last write DMA transaction has completed for channel vip2_mult_porta_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_VIP2_MULT_PORTA_SRC12    ,The last write DMA transaction has completed for channel vip2_mult_porta_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 23. "     INT_STAT_VIP2_MULT_PORTA_SRC11    ,The last write DMA transaction has completed for channel vip2_mult_porta_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_VIP2_MULT_PORTA_SRC10    ,The last write DMA transaction has completed for channel vip2_mult_porta_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_..." "0,1"
bitfld.long 0x00 21. "         INT_STAT_VIP2_MULT_PORTA_SRC9     ,The last write DMA transaction has completed for channel vip2_mult_porta_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 20. "     INT_STAT_VIP2_MULT_PORTA_SRC8     ,The last write DMA transaction has completed for channel vip2_mult_porta_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_VIP2_MULT_PORTA_SRC7     ,The last write DMA transaction has completed for channel vip2_mult_porta_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_y..." "0,1"
bitfld.long 0x00 18. "         INT_STAT_VIP2_MULT_PORTA_SRC6     ,The last write DMA transaction has completed for channel vip2_mult_porta_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_VIP2_MULT_PORTA_SRC5     ,The last write DMA transaction has completed for channel vip2_mult_porta_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_VIP2_MULT_PORTA_SRC4     ,The last write DMA transaction has completed for channel vip2_mult_porta_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_y..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_VIP2_MULT_PORTA_SRC3     ,The last write DMA transaction has completed for channel vip2_mult_porta_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_VIP2_MULT_PORTA_SRC2     ,The last write DMA transaction has completed for channel vip2_mult_porta_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_VIP2_MULT_PORTA_SRC1     ,The last write DMA transaction has completed for channel vip2_mult_porta_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_y..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_VIP2_MULT_PORTA_SRC0     ,The last write DMA transaction has completed for channel vip2_mult_porta_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 11. "     INT_STAT_VIP1_PORTB_RGB           ,The last write DMA transaction has completed for channel vip1_portb_rgb. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_y t..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_VIP1_PORTA_RGB           ,The last write DMA transaction has completed for channel vip1_porta_rgb. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_up_y then ..." "0,1"
bitfld.long 0x00 9. "         INT_STAT_VIP1_PORTB_CHROMA        ,The last write DMA transaction has completed for channel vip1_portb_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_VIP1_PORTB_LUMA          ,The last write DMA transaction has completed for channel vip1_portb_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the c..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP1_PORTA_CHROMA        ,The last write DMA transaction has completed for channel vip1_porta_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cli..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_VIP1_PORTA_LUMA          ,The last write DMA transaction has completed for channel vip1_porta_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then t..." "0,1"
bitfld.long 0x00 5. "     INT_STAT_VIP1_MULT_ANCB_SRC15     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_VIP1_MULT_ANCB_SRC14     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_..." "0,1"
bitfld.long 0x00 3. "         INT_STAT_VIP1_MULT_ANCB_SRC13     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 2. "     INT_STAT_VIP1_MULT_ANCB_SRC12     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_VIP1_MULT_ANCB_SRC11     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_..." "0,1"
bitfld.long 0x00 0. "         INT_STAT_VIP1_MULT_ANCB_SRC10     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
group.long 0x5C++0x3
line.long 0x00 "VIP_INT0_CHANNEL3_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 31. " INT_MASK_VIP2_MULT_PORTB_SRC3     ,The interrupt for Video Input 2 Port B Channel 3 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_VIP2_MULT_PORTB_SRC2     ,The interrupt for Video Input 2 Port B Channel 2 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_VIP2_MULT_PORTB_SRC1     ,The interrupt for Video Input 2 Port B Channel 1 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_VIP2_MULT_PORTB_SRC0     ,The interrupt for Video Input 2 Port B Channel 0 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_VIP2_MULT_PORTA_SRC15    ,The interrupt for Video Input 2 Port A Channel 15 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_VIP2_MULT_PORTA_SRC14    ,The interrupt for Video Input 2 Port A Channel 14 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_VIP2_MULT_PORTA_SRC13    ,The interrupt for Video Input 2 Port A Channel 13 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_VIP2_MULT_PORTA_SRC12    ,The interrupt for Video Input 2 Port A Channel 12 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "     INT_MASK_VIP2_MULT_PORTA_SRC11    ,The interrupt for Video Input 2 Port A Channel 11 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_VIP2_MULT_PORTA_SRC10    ,The interrupt for Video Input 2 Port A Channel 10 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "         INT_MASK_VIP2_MULT_PORTA_SRC9     ,The interrupt for Video Input 2 Port A Channel 9 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "     INT_MASK_VIP2_MULT_PORTA_SRC8     ,The interrupt for Video Input 2 Port A Channel 8 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_VIP2_MULT_PORTA_SRC7     ,The interrupt for Video Input 2 Port A Channel 7 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "         INT_MASK_VIP2_MULT_PORTA_SRC6     ,The interrupt for Video Input 2 Port A Channel 6 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_VIP2_MULT_PORTA_SRC5     ,The interrupt for Video Input 2 Port A Channel 5 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_VIP2_MULT_PORTA_SRC4     ,The interrupt for Video Input 2 Port A Channel 4 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_VIP2_MULT_PORTA_SRC3     ,The interrupt for Video Input 2 Port A Channel 3 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_VIP2_MULT_PORTA_SRC2     ,The interrupt for Video Input 2 Port A Channel 2 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_VIP2_MULT_PORTA_SRC1     ,The interrupt for Video Input 2 Port A Channel 1 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_VIP2_MULT_PORTA_SRC0     ,The interrupt for Video Input 2 Port A Channel 0 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_VIP1_PORTB_RGB           ,The interrupt for Video Input 1 Port B RGB Data should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_VIP1_PORTA_RGB           ,The interrupt for Video Input 1 Port A RGB Data should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_VIP1_PORTB_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_VIP1_PORTB_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP1_PORTA_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_VIP1_PORTA_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "     INT_MASK_VIP1_MULT_ANCB_SRC15     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 15 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_VIP1_MULT_ANCB_SRC14     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 14 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "         INT_MASK_VIP1_MULT_ANCB_SRC13     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 13 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "     INT_MASK_VIP1_MULT_ANCB_SRC12     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 12 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_VIP1_MULT_ANCB_SRC11     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 11 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "         INT_MASK_VIP1_MULT_ANCB_SRC10     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 10 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x60++0x3
line.long 0x00 "VIP_INT0_CHANNEL4_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 31. " INT_STAT_VIP2_MULT_ANCB_SRC3      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_b..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_VIP2_MULT_ANCB_SRC2      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_VIP2_MULT_ANCB_SRC1      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_VIP2_MULT_ANCB_SRC0      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_b..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_VIP2_MULT_ANCA_SRC15     ,The last write DMA transaction has completed for channel vip2_mult_anca_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_VIP2_MULT_ANCA_SRC14     ,The last write DMA transaction has completed for channel vip2_mult_anca_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_VIP2_MULT_ANCA_SRC13     ,The last write DMA transaction has completed for channel vip2_mult_anca_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_VIP2_MULT_ANCA_SRC12     ,The last write DMA transaction has completed for channel vip2_mult_anca_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 23. "     INT_STAT_VIP2_MULT_ANCA_SRC11     ,The last write DMA transaction has completed for channel vip2_mult_anca_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_VIP2_MULT_ANCA_SRC10     ,The last write DMA transaction has completed for channel vip2_mult_anca_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_..." "0,1"
bitfld.long 0x00 21. "         INT_STAT_VIP2_MULT_ANCA_SRC9      ,The last write DMA transaction has completed for channel vip2_mult_anca_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 20. "     INT_STAT_VIP2_MULT_ANCA_SRC8      ,The last write DMA transaction has completed for channel vip2_mult_anca_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_VIP2_MULT_ANCA_SRC7      ,The last write DMA transaction has completed for channel vip2_mult_anca_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_a..." "0,1"
bitfld.long 0x00 18. "         INT_STAT_VIP2_MULT_ANCA_SRC6      ,The last write DMA transaction has completed for channel vip2_mult_anca_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_VIP2_MULT_ANCA_SRC5      ,The last write DMA transaction has completed for channel vip2_mult_anca_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_VIP2_MULT_ANCA_SRC4      ,The last write DMA transaction has completed for channel vip2_mult_anca_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_a..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_VIP2_MULT_ANCA_SRC3      ,The last write DMA transaction has completed for channel vip2_mult_anca_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_VIP2_MULT_ANCA_SRC2      ,The last write DMA transaction has completed for channel vip2_mult_anca_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_VIP2_MULT_ANCA_SRC1      ,The last write DMA transaction has completed for channel vip2_mult_anca_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_a..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_VIP2_MULT_ANCA_SRC0      ,The last write DMA transaction has completed for channel vip2_mult_anca_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 11. "     INT_STAT_VIP2_MULT_PORTB_SRC15    ,The last write DMA transaction has completed for channel vip2_mult_portb_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_VIP2_MULT_PORTB_SRC14    ,The last write DMA transaction has completed for channel vip2_mult_portb_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_..." "0,1"
bitfld.long 0x00 9. "         INT_STAT_VIP2_MULT_PORTB_SRC13    ,The last write DMA transaction has completed for channel vip2_mult_portb_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_VIP2_MULT_PORTB_SRC12    ,The last write DMA transaction has completed for channel vip2_mult_portb_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP2_MULT_PORTB_SRC11    ,The last write DMA transaction has completed for channel vip2_mult_portb_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_VIP2_MULT_PORTB_SRC10    ,The last write DMA transaction has completed for channel vip2_mult_portb_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 5. "     INT_STAT_VIP2_MULT_PORTB_SRC9     ,The last write DMA transaction has completed for channel vip2_mult_portb_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_VIP2_MULT_PORTB_SRC8     ,The last write DMA transaction has completed for channel vip2_mult_portb_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_u..." "0,1"
bitfld.long 0x00 3. "         INT_STAT_VIP2_MULT_PORTB_SRC7     ,The last write DMA transaction has completed for channel vip2_mult_portb_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 2. "     INT_STAT_VIP2_MULT_PORTB_SRC6     ,The last write DMA transaction has completed for channel vip2_mult_portb_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_VIP2_MULT_PORTB_SRC5     ,The last write DMA transaction has completed for channel vip2_mult_portb_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_u..." "0,1"
bitfld.long 0x00 0. "         INT_STAT_VIP2_MULT_PORTB_SRC4     ,The last write DMA transaction has completed for channel vip2_mult_portb_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
group.long 0x64++0x3
line.long 0x00 "VIP_INT0_CHANNEL4_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 31. " INT_MASK_VIP2_MULT_ANCB_SRC3      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 3 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_VIP2_MULT_ANCB_SRC2      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 2 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_VIP2_MULT_ANCB_SRC1      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 1 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_VIP2_MULT_ANCB_SRC0      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 0 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_VIP2_MULT_ANCA_SRC15     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 15 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_VIP2_MULT_ANCA_SRC14     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 14 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_VIP2_MULT_ANCA_SRC13     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 13 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_VIP2_MULT_ANCA_SRC12     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 12 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "     INT_MASK_VIP2_MULT_ANCA_SRC11     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 11 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_VIP2_MULT_ANCA_SRC10     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 10 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "         INT_MASK_VIP2_MULT_ANCA_SRC9      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 9 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "     INT_MASK_VIP2_MULT_ANCA_SRC8      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 8 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_VIP2_MULT_ANCA_SRC7      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 7 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "         INT_MASK_VIP2_MULT_ANCA_SRC6      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 6 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_VIP2_MULT_ANCA_SRC5      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 5 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_VIP2_MULT_ANCA_SRC4      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 4 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_VIP2_MULT_ANCA_SRC3      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 3 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_VIP2_MULT_ANCA_SRC2      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 2 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_VIP2_MULT_ANCA_SRC1      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 1 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_VIP2_MULT_ANCA_SRC0      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 0 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_VIP2_MULT_PORTB_SRC15    ,The interrupt for Video Input 2 Port B Channel 15 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_VIP2_MULT_PORTB_SRC14    ,The interrupt for Video Input 2 Port B Channel 14 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_VIP2_MULT_PORTB_SRC13    ,The interrupt for Video Input 2 Port B Channel 13 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_VIP2_MULT_PORTB_SRC12    ,The interrupt for Video Input 2 Port B Channel 12 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP2_MULT_PORTB_SRC11    ,The interrupt for Video Input 2 Port B Channel 11 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_VIP2_MULT_PORTB_SRC10    ,The interrupt for Video Input 2 Port B Channel 10 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "     INT_MASK_VIP2_MULT_PORTB_SRC9     ,The interrupt for Video Input 2 Port B Channel 9 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_VIP2_MULT_PORTB_SRC8     ,The interrupt for Video Input 2 Port B Channel 8 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "         INT_MASK_VIP2_MULT_PORTB_SRC7     ,The interrupt for Video Input 2 Port B Channel 7 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "     INT_MASK_VIP2_MULT_PORTB_SRC6     ,The interrupt for Video Input 2 Port B Channel 6 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_VIP2_MULT_PORTB_SRC5     ,The interrupt for Video Input 2 Port B Channel 5 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "         INT_MASK_VIP2_MULT_PORTB_SRC4     ,The interrupt for Video Input 2 Port B Channel 4 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x68++0x3
line.long 0x00 "VIP_INT0_CHANNEL5_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 31. " INT_STAT_TRANSCODE2_CHROMA        ,The last write DMA transaction has completed for channel transcode2_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cli..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_TRANSCODE2_LUMA          ,The last write DMA transaction has completed for channel transcode2_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then t..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_TRANSCODE1_CHROMA        ,The last write DMA transaction has completed for channel transcode1_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the c..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_TRANSCODE1_LUMA          ,The last write DMA transaction has completed for channel transcode1_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the clien..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_AUX_IN                   ,The last read DMA transaction has occurred for channel aux_in and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have just been..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_PIP_FRAME                ,The last read DMA transaction has occurred for channel pip_frame and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have just been ..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_POST_COMP_WR             ,The last write DMA transaction has completed for channel post_comp_wr. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client hdmi_wrbk_out the..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_VBI_SD_VENC              ,The last read DMA transaction has occurred for channel vbi_sd_venc and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have just..." "0,1"
bitfld.long 0x00 22. "     INT_STAT_NF_LAST_CHROMA           ,The last write DMA transaction has completed for channel nf_last_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cl..." "0,1"
textline "                                     "
bitfld.long 0x00 21. " INT_STAT_NF_LAST_LUMA             ,The last write DMA transaction has completed for channel nf_last_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the client w..." "0,1"
bitfld.long 0x00 20. "         INT_STAT_NF_WRITE_CHROMA          ,The last write DMA transaction has completed for channel nf_write_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then t..." "0,1"
bitfld.long 0x00 19. "     INT_STAT_NF_WRITE_LUMA            ,The last write DMA transaction has completed for channel nf_write_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cli..." "0,1"
textline "                                     "
bitfld.long 0x00 18. " INT_STAT_OTHER                    ,This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
bitfld.long 0x00 17. "         INT_STAT_VIP2_PORTB_RGB           ,The last write DMA transaction has completed for channel vip2_portb_rgb. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo..." "0,1"
bitfld.long 0x00 16. "     INT_STAT_VIP2_PORTA_RGB           ,The last write DMA transaction has completed for channel vip2_porta_rgb. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_up_y t..." "0,1"
textline "                                     "
bitfld.long 0x00 15. " INT_STAT_VIP2_PORTB_CHROMA        ,The last write DMA transaction has completed for channel vip2_portb_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cli..." "0,1"
bitfld.long 0x00 14. "         INT_STAT_VIP2_PORTB_LUMA          ,The last write DMA transaction has completed for channel vip2_portb_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then t..." "0,1"
bitfld.long 0x00 13. "     INT_STAT_VIP2_PORTA_CHROMA        ,The last write DMA transaction has completed for channel vip2_porta_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the..." "0,1"
textline "                                     "
bitfld.long 0x00 12. " INT_STAT_VIP2_PORTA_LUMA          ,The last write DMA transaction has completed for channel vip2_porta_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the clien..." "0,1"
bitfld.long 0x00 11. "         INT_STAT_VIP2_MULT_ANCB_SRC15     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 10. "     INT_STAT_VIP2_MULT_ANCB_SRC14     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 9. " INT_STAT_VIP2_MULT_ANCB_SRC13     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_..." "0,1"
bitfld.long 0x00 8. "         INT_STAT_VIP2_MULT_ANCB_SRC12     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 7. "     INT_STAT_VIP2_MULT_ANCB_SRC11     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 6. " INT_STAT_VIP2_MULT_ANCB_SRC10     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_..." "0,1"
bitfld.long 0x00 5. "         INT_STAT_VIP2_MULT_ANCB_SRC9      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 4. "     INT_STAT_VIP2_MULT_ANCB_SRC8      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 3. " INT_STAT_VIP2_MULT_ANCB_SRC7      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_b..." "0,1"
bitfld.long 0x00 2. "         INT_STAT_VIP2_MULT_ANCB_SRC6      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 1. "     INT_STAT_VIP2_MULT_ANCB_SRC5      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 0. " INT_STAT_VIP2_MULT_ANCB_SRC4      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_b..." "0,1"
group.long 0x6C++0x3
line.long 0x00 "VIP_INT0_CHANNEL5_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 31. " INT_MASK_TRANSCODE2_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_TRANSCODE2_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_TRANSCODE1_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_TRANSCODE1_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_AUX_IN                   ,The interrupt for Auxilary Data for the Compositor Frame From Memory should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_PIP_FRAME                ,The interrupt for PIP Data for the Compositor Frame From Memory should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_POST_COMP_WR             ,The interrupt for Post Compositer Writeback to Memory should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_VBI_SD_VENC              ,The interrupt for SD Video Encoder VBI Data should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 22. "     INT_MASK_NF_LAST_CHROMA           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 21. " INT_MASK_NF_LAST_LUMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "         INT_MASK_NF_WRITE_CHROMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 19. "     INT_MASK_NF_WRITE_LUMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 18. " INT_MASK_OTHER                    ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "         INT_MASK_VIP2_PORTB_RGB           ,The interrupt for Video Input 2 Port B RGB Data should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 16. "     INT_MASK_VIP2_PORTA_RGB           ,The interrupt for Video Input 2 Port A RGB Data should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 15. " INT_MASK_VIP2_PORTB_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "         INT_MASK_VIP2_PORTB_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 13. "     INT_MASK_VIP2_PORTA_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 12. " INT_MASK_VIP2_PORTA_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "         INT_MASK_VIP2_MULT_ANCB_SRC15     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 15 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 10. "     INT_MASK_VIP2_MULT_ANCB_SRC14     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 14 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 9. " INT_MASK_VIP2_MULT_ANCB_SRC13     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 13 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "         INT_MASK_VIP2_MULT_ANCB_SRC12     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 12 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 7. "     INT_MASK_VIP2_MULT_ANCB_SRC11     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 11 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 6. " INT_MASK_VIP2_MULT_ANCB_SRC10     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 10 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "         INT_MASK_VIP2_MULT_ANCB_SRC9      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 9 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 4. "     INT_MASK_VIP2_MULT_ANCB_SRC8      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 8 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 3. " INT_MASK_VIP2_MULT_ANCB_SRC7      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 7 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "         INT_MASK_VIP2_MULT_ANCB_SRC6      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 6 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 1. "     INT_MASK_VIP2_MULT_ANCB_SRC5      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 5 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 0. " INT_MASK_VIP2_MULT_ANCB_SRC4      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 4 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x78++0x3
line.long 0x00 "VIP_INT0_CLIENT0_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 31. " INT_STAT_GRPX1_DATA               ,The client interface grpx1_data has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_COMP_WRBK                ,The client interface comp_wrbk has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will d..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_SC_OUT                   ,The client interface sc_out has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
textline "                                     "
bitfld.long 0x00 20. " INT_STAT_SC_IN_LUMA               ,The client interface sc_in_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
bitfld.long 0x00 19. "         INT_STAT_SC_IN_CHROMA             ,The client interface sc_in_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this wil..." "0,1"
bitfld.long 0x00 18. "     INT_STAT_PIP_WRBK                 ,The client interface pip_wrbk has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defaul..." "0,1"
textline "                                     "
bitfld.long 0x00 17. " INT_STAT_DEI_SC_OUT               ,The client interface dei_sc_out has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_DEI_HQ_MV_OUT            ,The client interface dei_hq_mv_out has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this wi..." "0,1"
bitfld.long 0x00 12. "     INT_STAT_DEI_HQ_MV_IN             ,The client interface dei_hq_mv_in has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will de..." "0,1"
textline "                                     "
bitfld.long 0x00 5. " INT_STAT_DEI_HQ_3_CHROMA          ,The client interface dei_hq_3_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will def..." "0,1"
bitfld.long 0x00 4. "         INT_STAT_DEI_HQ_3_LUMA            ,The client interface dei_hq_3_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this wi..." "0,1"
bitfld.long 0x00 3. "     INT_STAT_DEI_HQ_2_CHROMA          ,The client interface dei_hq_2_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will..." "0,1"
textline "                                     "
bitfld.long 0x00 2. " INT_STAT_DEI_HQ_2_LUMA            ,The client interface dei_hq_2_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defau..." "0,1"
bitfld.long 0x00 1. "         INT_STAT_DEI_HQ_1_LUMA            ,The client interface dei_hq_1_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this wi..." "0,1"
bitfld.long 0x00 0. "     INT_STAT_DEI_HQ_1_CHROMA          ,The client interface dei_hq_1_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will..." "0,1"
group.long 0x7C++0x3
line.long 0x00 "VIP_INT0_CLIENT0_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 31. " INT_MASK_GRPX1_DATA               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_COMP_WRBK                ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_SC_OUT                   ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 20. " INT_MASK_SC_IN_LUMA               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 19. "         INT_MASK_SC_IN_CHROMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "     INT_MASK_PIP_WRBK                 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 17. " INT_MASK_DEI_SC_OUT               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_DEI_HQ_MV_OUT            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "     INT_MASK_DEI_HQ_MV_IN             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 5. " INT_MASK_DEI_HQ_3_CHROMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 4. "         INT_MASK_DEI_HQ_3_LUMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "     INT_MASK_DEI_HQ_2_CHROMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 2. " INT_MASK_DEI_HQ_2_LUMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 1. "         INT_MASK_DEI_HQ_1_LUMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "     INT_MASK_DEI_HQ_1_CHROMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x80++0x3
line.long 0x00 "VIP_INT0_CLIENT1_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 29. " INT_STAT_VIP2_ANC_B               ,The client interface vip2_anc_b has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
bitfld.long 0x00 28. "         INT_STAT_VIP2_ANC_A               ,The client interface vip2_anc_a has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will ..." "0,1"
bitfld.long 0x00 27. "     INT_STAT_VIP1_ANC_B               ,The client interface vip1_anc_b has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defa..." "0,1"
textline "                                     "
bitfld.long 0x00 26. " INT_STAT_VIP1_ANC_A               ,The client interface vip1_anc_a has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
bitfld.long 0x00 25. "         INT_STAT_TRANS2_LUMA              ,The client interface trans2_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will..." "0,1"
bitfld.long 0x00 24. "     INT_STAT_TRANS2_CHROMA            ,The client interface trans2_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will d..." "0,1"
textline "                                     "
bitfld.long 0x00 23. " INT_STAT_TRANS1_LUMA              ,The client interface trans1_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default..." "0,1"
bitfld.long 0x00 22. "         INT_STAT_TRANS1_CHROMA            ,The client interface trans1_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this wi..." "0,1"
bitfld.long 0x00 21. "     INT_STAT_HDMI_WRBK_OUT            ,The client interface hdmi_wrbk_out has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will d..." "0,1"
textline "                                     "
bitfld.long 0x00 20. " INT_STAT_VPI_CTL                  ,The client interface vpi_ctl has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default to ..." "0,1"
bitfld.long 0x00 19. "         INT_STAT_VBI_SDVENC               ,The client interface vbi_sdvenc has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will ..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_NF_420_UV_OUT            ,The client interface nf_420_uv_out has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will d..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_NF_420_Y_OUT             ,The client interface nf_420_y_out has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defaul..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_NF_420_UV_IN             ,The client interface nf_420_uv_in has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this wil..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_NF_420_Y_IN              ,The client interface nf_420_y_in has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will def..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_NF_422_IN                ,The client interface nf_422_in has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default t..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_GRPX3_ST                 ,The client interface grpx3_st has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will de..." "0,1"
bitfld.long 0x00 11. "     INT_STAT_GRPX2_ST                 ,The client interface grpx2_st has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defaul..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_GRPX1_ST                 ,The client interface grpx1_st has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default to..." "0,1"
bitfld.long 0x00 9. "         INT_STAT_VIP2_UP_UV               ,The client interface vip2_up_uv has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will ..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_VIP2_UP_Y                ,The client interface vip2_up_y has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defau..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP2_LO_UV               ,The client interface vip2_lo_uv has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_VIP2_LO_Y                ,The client interface vip2_lo_y has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will d..." "0,1"
bitfld.long 0x00 5. "     INT_STAT_VIP1_UP_UV               ,The client interface vip1_up_uv has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defa..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_VIP1_UP_Y                ,The client interface vip1_up_y has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default t..." "0,1"
bitfld.long 0x00 3. "         INT_STAT_VIP1_LO_UV               ,The client interface vip1_lo_uv has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will ..." "0,1"
bitfld.long 0x00 2. "     INT_STAT_VIP1_LO_Y                ,The client interface vip1_lo_y has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defau..." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_GRPX3_DATA               ,The client interface grpx3_data has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
bitfld.long 0x00 0. "         INT_STAT_GRPX2_DATA               ,The client interface grpx2_data has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will ..." "0,1"
group.long 0x84++0x3
line.long 0x00 "VIP_INT0_CLIENT1_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 29. " INT_MASK_VIP2_ANC_B               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 28. "         INT_MASK_VIP2_ANC_A               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "     INT_MASK_VIP1_ANC_B               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 26. " INT_MASK_VIP1_ANC_A               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 25. "         INT_MASK_TRANS2_LUMA              ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "     INT_MASK_TRANS2_CHROMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 23. " INT_MASK_TRANS1_LUMA              ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 22. "         INT_MASK_TRANS1_CHROMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "     INT_MASK_HDMI_WRBK_OUT            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 20. " INT_MASK_VPI_CTL                  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 19. "         INT_MASK_VBI_SDVENC               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_NF_420_UV_OUT            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_NF_420_Y_OUT             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_NF_420_UV_IN             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_NF_420_Y_IN              ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_NF_422_IN                ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_GRPX3_ST                 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_GRPX2_ST                 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_GRPX1_ST                 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_VIP2_UP_UV               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_VIP2_UP_Y                ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP2_LO_UV               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_VIP2_LO_Y                ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "     INT_MASK_VIP1_UP_UV               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_VIP1_UP_Y                ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "         INT_MASK_VIP1_LO_UV               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "     INT_MASK_VIP1_LO_Y                ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_GRPX3_DATA               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "         INT_MASK_GRPX2_DATA               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x88++0x3
line.long 0x00 "VIP_INT0_LIST0_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 31. " INT_STAT_CONTROL_DESCRIPTOR_INT15 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 15. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear ..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_CONTROL_DESCRIPTOR_INT14 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 14. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field t..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_CONTROL_DESCRIPTOR_INT13 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 13. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to cl..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_CONTROL_DESCRIPTOR_INT12 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 12. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear ..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_CONTROL_DESCRIPTOR_INT11 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 11. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field t..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_CONTROL_DESCRIPTOR_INT10 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 10. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to cl..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_CONTROL_DESCRIPTOR_INT9  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 9. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear t..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_CONTROL_DESCRIPTOR_INT8  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 8. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to..." "0,1"
bitfld.long 0x00 23. "     INT_STAT_CONTROL_DESCRIPTOR_INT7  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 7. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to cle..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_CONTROL_DESCRIPTOR_INT6  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 6. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear t..." "0,1"
bitfld.long 0x00 21. "         INT_STAT_CONTROL_DESCRIPTOR_INT5  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 5. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to..." "0,1"
bitfld.long 0x00 20. "     INT_STAT_CONTROL_DESCRIPTOR_INT4  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 4. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to cle..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_CONTROL_DESCRIPTOR_INT3  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 3. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear t..." "0,1"
bitfld.long 0x00 18. "         INT_STAT_CONTROL_DESCRIPTOR_INT2  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 2. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_CONTROL_DESCRIPTOR_INT1  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 1. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to cle..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_CONTROL_DESCRIPTOR_INT0  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 0. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear t..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_LIST7_NOTIFY             ,A channel set by List 7 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this fi..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_LIST7_COMPLETE           ,List 7 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_LIST6_NOTIFY             ,A channel set by List 6 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to c..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_LIST6_COMPLETE           ,List 6 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
bitfld.long 0x00 11. "     INT_STAT_LIST5_NOTIFY             ,A channel set by List 5 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field ..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_LIST5_COMPLETE           ,List 5 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
bitfld.long 0x00 9. "         INT_STAT_LIST4_NOTIFY             ,A channel set by List 4 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this fi..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_LIST4_COMPLETE           ,List 4 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_LIST3_NOTIFY             ,A channel set by List 3 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to c..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_LIST3_COMPLETE           ,List 3 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
bitfld.long 0x00 5. "     INT_STAT_LIST2_NOTIFY             ,A channel set by List 2 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field ..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_LIST2_COMPLETE           ,List 2 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
bitfld.long 0x00 3. "         INT_STAT_LIST1_NOTIFY             ,A channel set by List 1 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this fi..." "0,1"
bitfld.long 0x00 2. "     INT_STAT_LIST1_COMPLETE           ,List 1 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_LIST0_NOTIFY             ,A channel set by List 0 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to c..." "0,1"
bitfld.long 0x00 0. "         INT_STAT_LIST0_COMPLETE           ,List 0 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
group.long 0x8C++0x3
line.long 0x00 "VIP_INT0_LIST0_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 31. " INT_MASK_CONTROL_DESCRIPTOR_INT15 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_CONTROL_DESCRIPTOR_INT14 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_CONTROL_DESCRIPTOR_INT13 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_CONTROL_DESCRIPTOR_INT12 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_CONTROL_DESCRIPTOR_INT11 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_CONTROL_DESCRIPTOR_INT10 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_CONTROL_DESCRIPTOR_INT9  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_CONTROL_DESCRIPTOR_INT8  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "     INT_MASK_CONTROL_DESCRIPTOR_INT7  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_CONTROL_DESCRIPTOR_INT6  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "         INT_MASK_CONTROL_DESCRIPTOR_INT5  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "     INT_MASK_CONTROL_DESCRIPTOR_INT4  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_CONTROL_DESCRIPTOR_INT3  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "         INT_MASK_CONTROL_DESCRIPTOR_INT2  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_CONTROL_DESCRIPTOR_INT1  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_CONTROL_DESCRIPTOR_INT0  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_LIST7_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_LIST7_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_LIST6_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_LIST6_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_LIST5_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_LIST5_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_LIST4_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_LIST4_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_LIST3_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_LIST3_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "     INT_MASK_LIST2_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_LIST2_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "         INT_MASK_LIST1_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "     INT_MASK_LIST1_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_LIST0_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "         INT_MASK_LIST0_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x90++0x3
line.long 0x00 "VIP_INT1_CHANNEL0_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int1."
bitfld.long 0x00 31. " INT_STAT_GRPX3                    ,The last write DMA transaction has completed for channel scaler_out. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client sc_out then the cli..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_GRPX2                    ,The last write DMA transaction has completed for channel scaler_out. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client sc_out then..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_GRPX1                    ,The last write DMA transaction has completed for channel scaler_out. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client sc_out then the..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_SCALER_OUT               ,The last write DMA transaction has completed for channel scaler_out. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client sc_out then the cli..." "0,1"
bitfld.long 0x00 19. "         INT_STAT_SCALER_CHROMA            ,The last write DMA transaction has completed for channel scaler_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the c..." "0,1"
bitfld.long 0x00 18. "     INT_STAT_SCALER_LUMA              ,The last write DMA transaction has completed for channel scaler_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the clien..." "0,1"
textline "                                     "
bitfld.long 0x00 17. " INT_STAT_HQ_SCALER                ,The last write DMA transaction has completed for channel hq_scaler. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client dei_sc_out then the ..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_HQ_MV_OUT                ,The last write DMA transaction has completed for channel hq_mv_out. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client dei_hq_mv_ou..." "0,1"
bitfld.long 0x00 12. "     INT_STAT_HQ_MV                    ,The last read DMA transaction has occurred for channel hq_mv and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have just been stor..." "0,1"
textline "                                     "
bitfld.long 0x00 5. " INT_STAT_HQ_VID3_CHROMA           ,The last write DMA transaction has completed for channel hq_vid3_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the client..." "0,1"
bitfld.long 0x00 4. "         INT_STAT_HQ_VID3_LUMA             ,The last write DMA transaction has completed for channel hq_vid3_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the ..." "0,1"
bitfld.long 0x00 3. "     INT_STAT_HQ_VID2_CHROMA           ,The last write DMA transaction has completed for channel hq_vid2_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cl..." "0,1"
textline "                                     "
bitfld.long 0x00 2. " INT_STAT_HQ_VID2_LUMA             ,The last write DMA transaction has completed for channel hq_vid2_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the client w..." "0,1"
bitfld.long 0x00 1. "         INT_STAT_HQ_VID1_CHROMA           ,The last write DMA transaction has completed for channel hq_vid1_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then th..." "0,1"
bitfld.long 0x00 0. "     INT_STAT_HQ_VID1_LUMA             ,The last write DMA transaction has completed for channel hq_vid1_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the clie..." "0,1"
group.long 0x94++0x3
line.long 0x00 "VIP_INT1_CHANNEL0_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int1."
bitfld.long 0x00 31. " INT_MASK_GRPX3                    ,The interrupt for Graphcis 2 Data should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_GRPX2                    ,The interrupt for Graphics 1 Data should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_GRPX1                    ,The interrupt for Graphics 0 Data should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_SCALER_OUT               ,The interrupt for Low Cost DEI Scalar Write to Memory should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 19. "         INT_MASK_SCALER_CHROMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "     INT_MASK_SCALER_LUMA              ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 17. " INT_MASK_HQ_SCALER                ,The interrupt for High Quality DEI Scaler Write to Memory should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_HQ_MV_OUT                ,The interrupt for Low Cost DEI Motion Vector Write should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "     INT_MASK_HQ_MV                    ,The interrupt for Low Cost DEI Motion Vector should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 5. " INT_MASK_HQ_VID3_CHROMA           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 4. "         INT_MASK_HQ_VID3_LUMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "     INT_MASK_HQ_VID2_CHROMA           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 2. " INT_MASK_HQ_VID2_LUMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 1. "         INT_MASK_HQ_VID1_CHROMA           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "     INT_MASK_HQ_VID1_LUMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x98++0x3
line.long 0x00 "VIP_INT1_CHANNEL1_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int1."
bitfld.long 0x00 31. " INT_STAT_VIP1_MULT_PORTB_SRC9     ,The last write DMA transaction has completed for channel vip1_mult_portb_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_u..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_VIP1_MULT_PORTB_SRC8     ,The last write DMA transaction has completed for channel vip1_mult_portb_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_VIP1_MULT_PORTB_SRC7     ,The last write DMA transaction has completed for channel vip1_mult_portb_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_VIP1_MULT_PORTB_SRC6     ,The last write DMA transaction has completed for channel vip1_mult_portb_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_u..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_VIP1_MULT_PORTB_SRC5     ,The last write DMA transaction has completed for channel vip1_mult_portb_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_VIP1_MULT_PORTB_SRC4     ,The last write DMA transaction has completed for channel vip1_mult_portb_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_VIP1_MULT_PORTB_SRC3     ,The last write DMA transaction has completed for channel vip1_mult_portb_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_u..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_VIP1_MULT_PORTB_SRC2     ,The last write DMA transaction has completed for channel vip1_mult_portb_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 23. "     INT_STAT_VIP1_MULT_PORTB_SRC1     ,The last write DMA transaction has completed for channel vip1_mult_portb_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_VIP1_MULT_PORTB_SRC0     ,The last write DMA transaction has completed for channel vip1_mult_portb_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_u..." "0,1"
bitfld.long 0x00 21. "         INT_STAT_VIP1_MULT_PORTA_SRC15    ,The last write DMA transaction has completed for channel vip1_mult_porta_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 20. "     INT_STAT_VIP1_MULT_PORTA_SRC14    ,The last write DMA transaction has completed for channel vip1_mult_porta_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_VIP1_MULT_PORTA_SRC13    ,The last write DMA transaction has completed for channel vip1_mult_porta_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_..." "0,1"
bitfld.long 0x00 18. "         INT_STAT_VIP1_MULT_PORTA_SRC12    ,The last write DMA transaction has completed for channel vip1_mult_porta_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_VIP1_MULT_PORTA_SRC11    ,The last write DMA transaction has completed for channel vip1_mult_porta_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_VIP1_MULT_PORTA_SRC10    ,The last write DMA transaction has completed for channel vip1_mult_porta_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_VIP1_MULT_PORTA_SRC9     ,The last write DMA transaction has completed for channel vip1_mult_porta_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_VIP1_MULT_PORTA_SRC8     ,The last write DMA transaction has completed for channel vip1_mult_porta_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_VIP1_MULT_PORTA_SRC7     ,The last write DMA transaction has completed for channel vip1_mult_porta_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_y..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_VIP1_MULT_PORTA_SRC6     ,The last write DMA transaction has completed for channel vip1_mult_porta_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 11. "     INT_STAT_VIP1_MULT_PORTA_SRC5     ,The last write DMA transaction has completed for channel vip1_mult_porta_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_VIP1_MULT_PORTA_SRC4     ,The last write DMA transaction has completed for channel vip1_mult_porta_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_y..." "0,1"
bitfld.long 0x00 9. "         INT_STAT_VIP1_MULT_PORTA_SRC3     ,The last write DMA transaction has completed for channel vip1_mult_porta_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_VIP1_MULT_PORTA_SRC2     ,The last write DMA transaction has completed for channel vip1_mult_porta_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP1_MULT_PORTA_SRC1     ,The last write DMA transaction has completed for channel vip1_mult_porta_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_y..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_VIP1_MULT_PORTA_SRC0     ,The last write DMA transaction has completed for channel vip1_mult_porta_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
group.long 0x9C++0x3
line.long 0x00 "VIP_INT1_CHANNEL1_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int1."
bitfld.long 0x00 31. " INT_MASK_VIP1_MULT_PORTB_SRC9     ,The interrupt for Video Input 1 Port B Channel 9 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_VIP1_MULT_PORTB_SRC8     ,The interrupt for Video Input 1 Port B Channel 8 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_VIP1_MULT_PORTB_SRC7     ,The interrupt for Video Input 1 Port B Channel 7 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_VIP1_MULT_PORTB_SRC6     ,The interrupt for Video Input 1 Port B Channel 6 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_VIP1_MULT_PORTB_SRC5     ,The interrupt for Video Input 1 Port B Channel 5 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_VIP1_MULT_PORTB_SRC4     ,The interrupt for Video Input 1 Port B Channel 4 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_VIP1_MULT_PORTB_SRC3     ,The interrupt for Video Input 1 Port B Channel 3 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_VIP1_MULT_PORTB_SRC2     ,The interrupt for Video Input 1 Port B Channel 2 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "     INT_MASK_VIP1_MULT_PORTB_SRC1     ,The interrupt for Video Input 1 Port B Channel 1 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_VIP1_MULT_PORTB_SRC0     ,The interrupt for Video Input 1 Port B Channel 0 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "         INT_MASK_VIP1_MULT_PORTA_SRC15    ,The interrupt for Video Input 1 Port A Channel 15 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "     INT_MASK_VIP1_MULT_PORTA_SRC14    ,The interrupt for Video Input 1 Port A Channel 14 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_VIP1_MULT_PORTA_SRC13    ,The interrupt for Video Input 1 Port A Channel 13 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "         INT_MASK_VIP1_MULT_PORTA_SRC12    ,The interrupt for Video Input 1 Port A Channel 12 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_VIP1_MULT_PORTA_SRC11    ,The interrupt for Video Input 1 Port A Channel 11 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_VIP1_MULT_PORTA_SRC10    ,The interrupt for Video Input 1 Port A Channel 10 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_VIP1_MULT_PORTA_SRC9     ,The interrupt for Video Input 1 Port A Channel 9 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_VIP1_MULT_PORTA_SRC8     ,The interrupt for Video Input 1 Port A Channel 8 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_VIP1_MULT_PORTA_SRC7     ,The interrupt for Video Input 1 Port A Channel 7 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_VIP1_MULT_PORTA_SRC6     ,The interrupt for Video Input 1 Port A Channel 6 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_VIP1_MULT_PORTA_SRC5     ,The interrupt for Video Input 1 Port A Channel 5 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_VIP1_MULT_PORTA_SRC4     ,The interrupt for Video Input 1 Port A Channel 4 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_VIP1_MULT_PORTA_SRC3     ,The interrupt for Video Input 1 Port A Channel 3 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_VIP1_MULT_PORTA_SRC2     ,The interrupt for Video Input 1 Port A Channel 2 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP1_MULT_PORTA_SRC1     ,The interrupt for Video Input 1 Port A Channel 1 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_VIP1_MULT_PORTA_SRC0     ,The interrupt for Video Input 1 Port A Channel 0 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0xA0++0x3
line.long 0x00 "VIP_INT1_CHANNEL2_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int1."
bitfld.long 0x00 31. " INT_STAT_VIP1_MULT_ANCB_SRC9      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_b..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_VIP1_MULT_ANCB_SRC8      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_VIP1_MULT_ANCB_SRC7      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_VIP1_MULT_ANCB_SRC6      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_b..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_VIP1_MULT_ANCB_SRC5      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_VIP1_MULT_ANCB_SRC4      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_VIP1_MULT_ANCB_SRC3      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_b..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_VIP1_MULT_ANCB_SRC2      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 23. "     INT_STAT_VIP1_MULT_ANCB_SRC1      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_VIP1_MULT_ANCB_SRC0      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_b..." "0,1"
bitfld.long 0x00 21. "         INT_STAT_VIP1_MULT_ANCA_SRC15     ,The last write DMA transaction has completed for channel vip1_mult_anca_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 20. "     INT_STAT_VIP1_MULT_ANCA_SRC14     ,The last write DMA transaction has completed for channel vip1_mult_anca_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_VIP1_MULT_ANCA_SRC13     ,The last write DMA transaction has completed for channel vip1_mult_anca_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_..." "0,1"
bitfld.long 0x00 18. "         INT_STAT_VIP1_MULT_ANCA_SRC12     ,The last write DMA transaction has completed for channel vip1_mult_anca_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_VIP1_MULT_ANCA_SRC11     ,The last write DMA transaction has completed for channel vip1_mult_anca_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_VIP1_MULT_ANCA_SRC10     ,The last write DMA transaction has completed for channel vip1_mult_anca_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_VIP1_MULT_ANCA_SRC9      ,The last write DMA transaction has completed for channel vip1_mult_anca_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_VIP1_MULT_ANCA_SRC8      ,The last write DMA transaction has completed for channel vip1_mult_anca_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_VIP1_MULT_ANCA_SRC7      ,The last write DMA transaction has completed for channel vip1_mult_anca_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_a..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_VIP1_MULT_ANCA_SRC6      ,The last write DMA transaction has completed for channel vip1_mult_anca_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 11. "     INT_STAT_VIP1_MULT_ANCA_SRC5      ,The last write DMA transaction has completed for channel vip1_mult_anca_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_VIP1_MULT_ANCA_SRC4      ,The last write DMA transaction has completed for channel vip1_mult_anca_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_a..." "0,1"
bitfld.long 0x00 9. "         INT_STAT_VIP1_MULT_ANCA_SRC3      ,The last write DMA transaction has completed for channel vip1_mult_anca_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_VIP1_MULT_ANCA_SRC2      ,The last write DMA transaction has completed for channel vip1_mult_anca_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP1_MULT_ANCA_SRC1      ,The last write DMA transaction has completed for channel vip1_mult_anca_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_a..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_VIP1_MULT_ANCA_SRC0      ,The last write DMA transaction has completed for channel vip1_mult_anca_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 5. "     INT_STAT_VIP1_MULT_PORTB_SRC15    ,The last write DMA transaction has completed for channel vip1_mult_portb_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_VIP1_MULT_PORTB_SRC14    ,The last write DMA transaction has completed for channel vip1_mult_portb_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_..." "0,1"
bitfld.long 0x00 3. "         INT_STAT_VIP1_MULT_PORTB_SRC13    ,The last write DMA transaction has completed for channel vip1_mult_portb_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 2. "     INT_STAT_VIP1_MULT_PORTB_SRC12    ,The last write DMA transaction has completed for channel vip1_mult_portb_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1..." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_VIP1_MULT_PORTB_SRC11    ,The last write DMA transaction has completed for channel vip1_mult_portb_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_..." "0,1"
bitfld.long 0x00 0. "         INT_STAT_VIP1_MULT_PORTB_SRC10    ,The last write DMA transaction has completed for channel vip1_mult_portb_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
group.long 0xA4++0x3
line.long 0x00 "VIP_INT1_CHANNEL2_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int1."
bitfld.long 0x00 31. " INT_MASK_VIP1_MULT_ANCB_SRC9      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 9 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_VIP1_MULT_ANCB_SRC8      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 8 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_VIP1_MULT_ANCB_SRC7      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 7 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_VIP1_MULT_ANCB_SRC6      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 6 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_VIP1_MULT_ANCB_SRC5      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 5 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_VIP1_MULT_ANCB_SRC4      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 4 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_VIP1_MULT_ANCB_SRC3      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 3 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_VIP1_MULT_ANCB_SRC2      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 2 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "     INT_MASK_VIP1_MULT_ANCB_SRC1      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 1 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_VIP1_MULT_ANCB_SRC0      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 0 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "         INT_MASK_VIP1_MULT_ANCA_SRC15     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 15 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "     INT_MASK_VIP1_MULT_ANCA_SRC14     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 14 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_VIP1_MULT_ANCA_SRC13     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 13 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "         INT_MASK_VIP1_MULT_ANCA_SRC12     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 12 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_VIP1_MULT_ANCA_SRC11     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 11 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_VIP1_MULT_ANCA_SRC10     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 10 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_VIP1_MULT_ANCA_SRC9      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 9 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_VIP1_MULT_ANCA_SRC8      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 8 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_VIP1_MULT_ANCA_SRC7      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 7 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_VIP1_MULT_ANCA_SRC6      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 6 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_VIP1_MULT_ANCA_SRC5      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 5 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_VIP1_MULT_ANCA_SRC4      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 4 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_VIP1_MULT_ANCA_SRC3      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 3 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_VIP1_MULT_ANCA_SRC2      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 2 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP1_MULT_ANCA_SRC1      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 1 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_VIP1_MULT_ANCA_SRC0      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 0 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "     INT_MASK_VIP1_MULT_PORTB_SRC15    ,The interrupt for Video Input 1 Port B Channel 15 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_VIP1_MULT_PORTB_SRC14    ,The interrupt for Video Input 1 Port B Channel 14 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "         INT_MASK_VIP1_MULT_PORTB_SRC13    ,The interrupt for Video Input 1 Port B Channel 13 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "     INT_MASK_VIP1_MULT_PORTB_SRC12    ,The interrupt for Video Input 1 Port B Channel 12 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_VIP1_MULT_PORTB_SRC11    ,The interrupt for Video Input 1 Port B Channel 11 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "         INT_MASK_VIP1_MULT_PORTB_SRC10    ,The interrupt for Video Input 1 Port B Channel 10 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0xA8++0x3
line.long 0x00 "VIP_INT1_CHANNEL3_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int1."
bitfld.long 0x00 31. " INT_STAT_VIP2_MULT_PORTB_SRC3     ,The last write DMA transaction has completed for channel vip2_mult_portb_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_u..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_VIP2_MULT_PORTB_SRC2     ,The last write DMA transaction has completed for channel vip2_mult_portb_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_VIP2_MULT_PORTB_SRC1     ,The last write DMA transaction has completed for channel vip2_mult_portb_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_VIP2_MULT_PORTB_SRC0     ,The last write DMA transaction has completed for channel vip2_mult_portb_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_u..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_VIP2_MULT_PORTA_SRC15    ,The last write DMA transaction has completed for channel vip2_mult_porta_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_VIP2_MULT_PORTA_SRC14    ,The last write DMA transaction has completed for channel vip2_mult_porta_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_VIP2_MULT_PORTA_SRC13    ,The last write DMA transaction has completed for channel vip2_mult_porta_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_VIP2_MULT_PORTA_SRC12    ,The last write DMA transaction has completed for channel vip2_mult_porta_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 23. "     INT_STAT_VIP2_MULT_PORTA_SRC11    ,The last write DMA transaction has completed for channel vip2_mult_porta_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_VIP2_MULT_PORTA_SRC10    ,The last write DMA transaction has completed for channel vip2_mult_porta_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_..." "0,1"
bitfld.long 0x00 21. "         INT_STAT_VIP2_MULT_PORTA_SRC9     ,The last write DMA transaction has completed for channel vip2_mult_porta_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 20. "     INT_STAT_VIP2_MULT_PORTA_SRC8     ,The last write DMA transaction has completed for channel vip2_mult_porta_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_VIP2_MULT_PORTA_SRC7     ,The last write DMA transaction has completed for channel vip2_mult_porta_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_y..." "0,1"
bitfld.long 0x00 18. "         INT_STAT_VIP2_MULT_PORTA_SRC6     ,The last write DMA transaction has completed for channel vip2_mult_porta_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_VIP2_MULT_PORTA_SRC5     ,The last write DMA transaction has completed for channel vip2_mult_porta_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_VIP2_MULT_PORTA_SRC4     ,The last write DMA transaction has completed for channel vip2_mult_porta_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_y..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_VIP2_MULT_PORTA_SRC3     ,The last write DMA transaction has completed for channel vip2_mult_porta_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_VIP2_MULT_PORTA_SRC2     ,The last write DMA transaction has completed for channel vip2_mult_porta_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_VIP2_MULT_PORTA_SRC1     ,The last write DMA transaction has completed for channel vip2_mult_porta_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_y..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_VIP2_MULT_PORTA_SRC0     ,The last write DMA transaction has completed for channel vip2_mult_porta_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 11. "     INT_STAT_VIP1_PORTB_RGB           ,The last write DMA transaction has completed for channel vip1_portb_rgb. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_y t..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_VIP1_PORTA_RGB           ,The last write DMA transaction has completed for channel vip1_porta_rgb. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_up_y then ..." "0,1"
bitfld.long 0x00 9. "         INT_STAT_VIP1_PORTB_CHROMA        ,The last write DMA transaction has completed for channel vip1_portb_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_VIP1_PORTB_LUMA          ,The last write DMA transaction has completed for channel vip1_portb_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the c..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP1_PORTA_CHROMA        ,The last write DMA transaction has completed for channel vip1_porta_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cli..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_VIP1_PORTA_LUMA          ,The last write DMA transaction has completed for channel vip1_porta_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then t..." "0,1"
bitfld.long 0x00 5. "     INT_STAT_VIP1_MULT_ANCB_SRC15     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_VIP1_MULT_ANCB_SRC14     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_..." "0,1"
bitfld.long 0x00 3. "         INT_STAT_VIP1_MULT_ANCB_SRC13     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 2. "     INT_STAT_VIP1_MULT_ANCB_SRC12     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_VIP1_MULT_ANCB_SRC11     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_..." "0,1"
bitfld.long 0x00 0. "         INT_STAT_VIP1_MULT_ANCB_SRC10     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
group.long 0xAC++0x3
line.long 0x00 "VIP_INT1_CHANNEL3_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int1."
bitfld.long 0x00 31. " INT_MASK_VIP2_MULT_PORTB_SRC3     ,The interrupt for Video Input 2 Port B Channel 3 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_VIP2_MULT_PORTB_SRC2     ,The interrupt for Video Input 2 Port B Channel 2 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_VIP2_MULT_PORTB_SRC1     ,The interrupt for Video Input 2 Port B Channel 1 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_VIP2_MULT_PORTB_SRC0     ,The interrupt for Video Input 2 Port B Channel 0 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_VIP2_MULT_PORTA_SRC15    ,The interrupt for Video Input 2 Port A Channel 15 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_VIP2_MULT_PORTA_SRC14    ,The interrupt for Video Input 2 Port A Channel 14 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_VIP2_MULT_PORTA_SRC13    ,The interrupt for Video Input 2 Port A Channel 13 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_VIP2_MULT_PORTA_SRC12    ,The interrupt for Video Input 2 Port A Channel 12 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "     INT_MASK_VIP2_MULT_PORTA_SRC11    ,The interrupt for Video Input 2 Port A Channel 11 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_VIP2_MULT_PORTA_SRC10    ,The interrupt for Video Input 2 Port A Channel 10 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "         INT_MASK_VIP2_MULT_PORTA_SRC9     ,The interrupt for Video Input 2 Port A Channel 9 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "     INT_MASK_VIP2_MULT_PORTA_SRC8     ,The interrupt for Video Input 2 Port A Channel 8 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_VIP2_MULT_PORTA_SRC7     ,The interrupt for Video Input 2 Port A Channel 7 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "         INT_MASK_VIP2_MULT_PORTA_SRC6     ,The interrupt for Video Input 2 Port A Channel 6 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_VIP2_MULT_PORTA_SRC5     ,The interrupt for Video Input 2 Port A Channel 5 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_VIP2_MULT_PORTA_SRC4     ,The interrupt for Video Input 2 Port A Channel 4 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_VIP2_MULT_PORTA_SRC3     ,The interrupt for Video Input 2 Port A Channel 3 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_VIP2_MULT_PORTA_SRC2     ,The interrupt for Video Input 2 Port A Channel 2 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_VIP2_MULT_PORTA_SRC1     ,The interrupt for Video Input 2 Port A Channel 1 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_VIP2_MULT_PORTA_SRC0     ,The interrupt for Video Input 2 Port A Channel 0 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_VIP1_PORTB_RGB           ,The interrupt for Video Input 1 Port B RGB Data should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_VIP1_PORTA_RGB           ,The interrupt for Video Input 1 Port A RGB Data should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_VIP1_PORTB_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_VIP1_PORTB_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP1_PORTA_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_VIP1_PORTA_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "     INT_MASK_VIP1_MULT_ANCB_SRC15     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 15 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_VIP1_MULT_ANCB_SRC14     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 14 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "         INT_MASK_VIP1_MULT_ANCB_SRC13     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 13 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "     INT_MASK_VIP1_MULT_ANCB_SRC12     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 12 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_VIP1_MULT_ANCB_SRC11     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 11 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "         INT_MASK_VIP1_MULT_ANCB_SRC10     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 10 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0xB0++0x3
line.long 0x00 "VIP_INT1_CHANNEL4_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int1."
bitfld.long 0x00 31. " INT_STAT_VIP2_MULT_ANCB_SRC3      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_b..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_VIP2_MULT_ANCB_SRC2      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_VIP2_MULT_ANCB_SRC1      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_VIP2_MULT_ANCB_SRC0      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_b..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_VIP2_MULT_ANCA_SRC15     ,The last write DMA transaction has completed for channel vip2_mult_anca_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_VIP2_MULT_ANCA_SRC14     ,The last write DMA transaction has completed for channel vip2_mult_anca_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_VIP2_MULT_ANCA_SRC13     ,The last write DMA transaction has completed for channel vip2_mult_anca_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_VIP2_MULT_ANCA_SRC12     ,The last write DMA transaction has completed for channel vip2_mult_anca_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 23. "     INT_STAT_VIP2_MULT_ANCA_SRC11     ,The last write DMA transaction has completed for channel vip2_mult_anca_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_VIP2_MULT_ANCA_SRC10     ,The last write DMA transaction has completed for channel vip2_mult_anca_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_..." "0,1"
bitfld.long 0x00 21. "         INT_STAT_VIP2_MULT_ANCA_SRC9      ,The last write DMA transaction has completed for channel vip2_mult_anca_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 20. "     INT_STAT_VIP2_MULT_ANCA_SRC8      ,The last write DMA transaction has completed for channel vip2_mult_anca_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_VIP2_MULT_ANCA_SRC7      ,The last write DMA transaction has completed for channel vip2_mult_anca_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_a..." "0,1"
bitfld.long 0x00 18. "         INT_STAT_VIP2_MULT_ANCA_SRC6      ,The last write DMA transaction has completed for channel vip2_mult_anca_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_VIP2_MULT_ANCA_SRC5      ,The last write DMA transaction has completed for channel vip2_mult_anca_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_VIP2_MULT_ANCA_SRC4      ,The last write DMA transaction has completed for channel vip2_mult_anca_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_a..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_VIP2_MULT_ANCA_SRC3      ,The last write DMA transaction has completed for channel vip2_mult_anca_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_VIP2_MULT_ANCA_SRC2      ,The last write DMA transaction has completed for channel vip2_mult_anca_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_VIP2_MULT_ANCA_SRC1      ,The last write DMA transaction has completed for channel vip2_mult_anca_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_a..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_VIP2_MULT_ANCA_SRC0      ,The last write DMA transaction has completed for channel vip2_mult_anca_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 11. "     INT_STAT_VIP2_MULT_PORTB_SRC15    ,The last write DMA transaction has completed for channel vip2_mult_portb_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_VIP2_MULT_PORTB_SRC14    ,The last write DMA transaction has completed for channel vip2_mult_portb_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_..." "0,1"
bitfld.long 0x00 9. "         INT_STAT_VIP2_MULT_PORTB_SRC13    ,The last write DMA transaction has completed for channel vip2_mult_portb_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_VIP2_MULT_PORTB_SRC12    ,The last write DMA transaction has completed for channel vip2_mult_portb_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP2_MULT_PORTB_SRC11    ,The last write DMA transaction has completed for channel vip2_mult_portb_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_VIP2_MULT_PORTB_SRC10    ,The last write DMA transaction has completed for channel vip2_mult_portb_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 5. "     INT_STAT_VIP2_MULT_PORTB_SRC9     ,The last write DMA transaction has completed for channel vip2_mult_portb_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_VIP2_MULT_PORTB_SRC8     ,The last write DMA transaction has completed for channel vip2_mult_portb_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_u..." "0,1"
bitfld.long 0x00 3. "         INT_STAT_VIP2_MULT_PORTB_SRC7     ,The last write DMA transaction has completed for channel vip2_mult_portb_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 2. "     INT_STAT_VIP2_MULT_PORTB_SRC6     ,The last write DMA transaction has completed for channel vip2_mult_portb_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_VIP2_MULT_PORTB_SRC5     ,The last write DMA transaction has completed for channel vip2_mult_portb_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_u..." "0,1"
bitfld.long 0x00 0. "         INT_STAT_VIP2_MULT_PORTB_SRC4     ,The last write DMA transaction has completed for channel vip2_mult_portb_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
group.long 0xB4++0x3
line.long 0x00 "VIP_INT1_CHANNEL4_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int1."
bitfld.long 0x00 31. " INT_MASK_VIP2_MULT_ANCB_SRC3      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 3 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_VIP2_MULT_ANCB_SRC2      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 2 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_VIP2_MULT_ANCB_SRC1      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 1 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_VIP2_MULT_ANCB_SRC0      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 0 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_VIP2_MULT_ANCA_SRC15     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 15 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_VIP2_MULT_ANCA_SRC14     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 14 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_VIP2_MULT_ANCA_SRC13     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 13 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_VIP2_MULT_ANCA_SRC12     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 12 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "     INT_MASK_VIP2_MULT_ANCA_SRC11     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 11 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_VIP2_MULT_ANCA_SRC10     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 10 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "         INT_MASK_VIP2_MULT_ANCA_SRC9      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 9 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "     INT_MASK_VIP2_MULT_ANCA_SRC8      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 8 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_VIP2_MULT_ANCA_SRC7      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 7 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "         INT_MASK_VIP2_MULT_ANCA_SRC6      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 6 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_VIP2_MULT_ANCA_SRC5      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 5 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_VIP2_MULT_ANCA_SRC4      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 4 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_VIP2_MULT_ANCA_SRC3      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 3 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_VIP2_MULT_ANCA_SRC2      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 2 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_VIP2_MULT_ANCA_SRC1      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 1 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_VIP2_MULT_ANCA_SRC0      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 0 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_VIP2_MULT_PORTB_SRC15    ,The interrupt for Video Input 2 Port B Channel 15 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_VIP2_MULT_PORTB_SRC14    ,The interrupt for Video Input 2 Port B Channel 14 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_VIP2_MULT_PORTB_SRC13    ,The interrupt for Video Input 2 Port B Channel 13 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_VIP2_MULT_PORTB_SRC12    ,The interrupt for Video Input 2 Port B Channel 12 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP2_MULT_PORTB_SRC11    ,The interrupt for Video Input 2 Port B Channel 11 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_VIP2_MULT_PORTB_SRC10    ,The interrupt for Video Input 2 Port B Channel 10 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "     INT_MASK_VIP2_MULT_PORTB_SRC9     ,The interrupt for Video Input 2 Port B Channel 9 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_VIP2_MULT_PORTB_SRC8     ,The interrupt for Video Input 2 Port B Channel 8 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "         INT_MASK_VIP2_MULT_PORTB_SRC7     ,The interrupt for Video Input 2 Port B Channel 7 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "     INT_MASK_VIP2_MULT_PORTB_SRC6     ,The interrupt for Video Input 2 Port B Channel 6 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_VIP2_MULT_PORTB_SRC5     ,The interrupt for Video Input 2 Port B Channel 5 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "         INT_MASK_VIP2_MULT_PORTB_SRC4     ,The interrupt for Video Input 2 Port B Channel 4 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0xB8++0x3
line.long 0x00 "VIP_INT1_CHANNEL5_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int1."
bitfld.long 0x00 31. " INT_STAT_TRANSCODE2_CHROMA        ,The last write DMA transaction has completed for channel transcode2_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cli..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_TRANSCODE2_LUMA          ,The last write DMA transaction has completed for channel transcode2_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then t..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_TRANSCODE1_CHROMA        ,The last write DMA transaction has completed for channel transcode1_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_TRANSCODE1_LUMA          ,The last write DMA transaction has completed for channel transcode1_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the clien..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_AUX_IN                   ,The last read DMA transaction has occurred for channel aux_in and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have just been..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_PIP_FRAME                ,The last read DMA transaction has occurred for channel pip_frame and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have just been ..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_POST_COMP_WR             ,The last write DMA transaction has completed for channel post_comp_wr. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client hdmi_wrbk_out the..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_VBI_SD_VENC              ,The last read DMA transaction has occurred for channel vbi_sd_venc and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have just..." "0,1"
bitfld.long 0x00 22. "     INT_STAT_NF_LAST_CHROMA           ,The last write DMA transaction has completed for channel nf_last_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cl..." "0,1"
textline "                                     "
bitfld.long 0x00 21. " INT_STAT_NF_LAST_LUMA             ,The last write DMA transaction has completed for channel nf_last_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the client w..." "0,1"
bitfld.long 0x00 20. "         INT_STAT_NF_WRITE_CHROMA          ,The last write DMA transaction has completed for channel nf_write_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then t..." "0,1"
bitfld.long 0x00 19. "     INT_STAT_NF_WRITE_LUMA            ,The last write DMA transaction has completed for channel nf_write_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cli..." "0,1"
textline "                                     "
bitfld.long 0x00 18. " INT_STAT_OTHER                    ,This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
bitfld.long 0x00 17. "         INT_STAT_VIP2_PORTB_RGB           ,The last write DMA transaction has completed for channel vip2_portb_rgb. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo..." "0,1"
bitfld.long 0x00 16. "     INT_STAT_VIP2_PORTA_RGB           ,The last write DMA transaction has completed for channel vip2_porta_rgb. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_up_y t..." "0,1"
textline "                                     "
bitfld.long 0x00 15. " INT_STAT_VIP2_PORTB_CHROMA        ,The last write DMA transaction has completed for channel vip2_portb_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cli..." "0,1"
bitfld.long 0x00 14. "         INT_STAT_VIP2_PORTB_LUMA          ,The last write DMA transaction has completed for channel vip2_portb_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then t..." "0,1"
bitfld.long 0x00 13. "     INT_STAT_VIP2_PORTA_CHROMA        ,The last write DMA transaction has completed for channel vip2_porta_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the..." "0,1"
textline "                                     "
bitfld.long 0x00 12. " INT_STAT_VIP2_PORTA_LUMA          ,The last write DMA transaction has completed for channel vip2_porta_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the clien..." "0,1"
bitfld.long 0x00 11. "         INT_STAT_VIP2_MULT_ANCB_SRC15     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 10. "     INT_STAT_VIP2_MULT_ANCB_SRC14     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 9. " INT_STAT_VIP2_MULT_ANCB_SRC13     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_..." "0,1"
bitfld.long 0x00 8. "         INT_STAT_VIP2_MULT_ANCB_SRC12     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 7. "     INT_STAT_VIP2_MULT_ANCB_SRC11     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 6. " INT_STAT_VIP2_MULT_ANCB_SRC10     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_..." "0,1"
bitfld.long 0x00 5. "         INT_STAT_VIP2_MULT_ANCB_SRC9      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 4. "     INT_STAT_VIP2_MULT_ANCB_SRC8      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 3. " INT_STAT_VIP2_MULT_ANCB_SRC7      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_b..." "0,1"
bitfld.long 0x00 2. "         INT_STAT_VIP2_MULT_ANCB_SRC6      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 1. "     INT_STAT_VIP2_MULT_ANCB_SRC5      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 0. " INT_STAT_VIP2_MULT_ANCB_SRC4      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_b..." "0,1"
group.long 0xBC++0x3
line.long 0x00 "VIP_INT1_CHANNEL5_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int1."
bitfld.long 0x00 31. " INT_MASK_TRANSCODE2_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_TRANSCODE2_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_TRANSCODE1_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_TRANSCODE1_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_AUX_IN                   ,The interrupt for Auxilary Data for the Compositor Frame From Memory should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_PIP_FRAME                ,The interrupt for PIP Data for the Compositor Frame From Memory should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_POST_COMP_WR             ,The interrupt for Post Compositer Writeback to Memory should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_VBI_SD_VENC              ,The interrupt for SD Video Encoder VBI Data should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 22. "     INT_MASK_NF_LAST_CHROMA           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 21. " INT_MASK_NF_LAST_LUMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "         INT_MASK_NF_WRITE_CHROMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 19. "     INT_MASK_NF_WRITE_LUMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 18. " INT_MASK_OTHER                    ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "         INT_MASK_VIP2_PORTB_RGB           ,The interrupt for Video Input 2 Port B RGB Data should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 16. "     INT_MASK_VIP2_PORTA_RGB           ,The interrupt for Video Input 2 Port A RGB Data should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 15. " INT_MASK_VIP2_PORTB_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "         INT_MASK_VIP2_PORTB_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 13. "     INT_MASK_VIP2_PORTA_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 12. " INT_MASK_VIP2_PORTA_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "         INT_MASK_VIP2_MULT_ANCB_SRC15     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 15 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 10. "     INT_MASK_VIP2_MULT_ANCB_SRC14     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 14 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 9. " INT_MASK_VIP2_MULT_ANCB_SRC13     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 13 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "         INT_MASK_VIP2_MULT_ANCB_SRC12     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 12 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 7. "     INT_MASK_VIP2_MULT_ANCB_SRC11     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 11 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 6. " INT_MASK_VIP2_MULT_ANCB_SRC10     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 10 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "         INT_MASK_VIP2_MULT_ANCB_SRC9      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 9 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 4. "     INT_MASK_VIP2_MULT_ANCB_SRC8      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 8 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 3. " INT_MASK_VIP2_MULT_ANCB_SRC7      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 7 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "         INT_MASK_VIP2_MULT_ANCB_SRC6      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 6 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 1. "     INT_MASK_VIP2_MULT_ANCB_SRC5      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 5 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 0. " INT_MASK_VIP2_MULT_ANCB_SRC4      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 4 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0xC8++0x3
line.long 0x00 "VIP_INT1_CLIENT0_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int1."
bitfld.long 0x00 31. " INT_MASK_TRANSCODE2_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_TRANSCODE2_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_TRANSCODE1_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_TRANSCODE1_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_AUX_IN                   ,The interrupt for Auxilary Data for the Compositor Frame From Memory should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_PIP_FRAME                ,The interrupt for PIP Data for the Compositor Frame From Memory should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_POST_COMP_WR             ,The interrupt for Post Compositer Writeback to Memory should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_VBI_SD_VENC              ,The interrupt for SD Video Encoder VBI Data should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 22. "     INT_MASK_NF_LAST_CHROMA           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 21. " INT_MASK_NF_LAST_LUMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "         INT_MASK_NF_WRITE_CHROMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 19. "     INT_MASK_NF_WRITE_LUMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 18. " INT_MASK_NF_READ                  ,The interrupt for Noise Filter Input Data 422 Interleaved should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "         INT_MASK_VIP2_PORTB_RGB           ,The interrupt for Video Input 2 Port B RGB Data should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 16. "     INT_MASK_VIP2_PORTA_RGB           ,The interrupt for Video Input 2 Port A RGB Data should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 15. " INT_STAT_DEI_HQ_MV_OUT            ,The client interface dei_hq_mv_out has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defau..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_DEI_HQ_MV_IN             ,The client interface dei_hq_mv_in has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this wil..." "0,1"
bitfld.long 0x00 5. "     INT_STAT_DEI_HQ_3_CHROMA          ,The client interface dei_hq_3_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_DEI_HQ_3_LUMA            ,The client interface dei_hq_3_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defau..." "0,1"
bitfld.long 0x00 3. "         INT_STAT_DEI_HQ_2_CHROMA          ,The client interface dei_hq_2_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this ..." "0,1"
bitfld.long 0x00 2. "     INT_STAT_DEI_HQ_2_LUMA            ,The client interface dei_hq_2_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will d..." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_DEI_HQ_1_LUMA            ,The client interface dei_hq_1_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defau..." "0,1"
bitfld.long 0x00 0. "         INT_STAT_DEI_HQ_1_CHROMA          ,The client interface dei_hq_1_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this ..." "0,1"
group.long 0xCC++0x3
line.long 0x00 "VIP_INT1_CLIENT0_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int1."
bitfld.long 0x00 31. " INT_MASK_GRPX1_DATA               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_COMP_WRBK                ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_SC_OUT                   ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 20. " INT_MASK_SC_IN_LUMA               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 19. "         INT_MASK_SC_IN_CHROMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "     INT_MASK_PIP_WRBK                 ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 17. " INT_MASK_DEI_SC_OUT               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_DEI_HQ_MV_OUT            ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "     INT_MASK_DEI_HQ_MV_IN             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 5. " INT_MASK_DEI_HQ_3_CHROMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 4. "         INT_MASK_DEI_HQ_3_LUMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "     INT_MASK_DEI_HQ_2_CHROMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 2. " INT_MASK_DEI_HQ_2_LUMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 1. "         INT_MASK_DEI_HQ_1_LUMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "     INT_MASK_DEI_HQ_1_CHROMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0xD0++0x3
line.long 0x00 "VIP_INT1_CLIENT1_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int1."
bitfld.long 0x00 29. " INT_STAT_VIP2_ANC_B               ,The client interface vip2_anc_b has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
bitfld.long 0x00 28. "         INT_STAT_VIP2_ANC_A               ,The client interface vip2_anc_a has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will ..." "0,1"
bitfld.long 0x00 27. "     INT_STAT_VIP1_ANC_B               ,The client interface vip1_anc_b has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defa..." "0,1"
textline "                                     "
bitfld.long 0x00 26. " INT_STAT_VIP1_ANC_A               ,The client interface vip1_anc_a has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
bitfld.long 0x00 25. "         INT_STAT_TRANS2_LUMA              ,The client interface trans2_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will..." "0,1"
bitfld.long 0x00 24. "     INT_STAT_TRANS2_CHROMA            ,The client interface trans2_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will d..." "0,1"
textline "                                     "
bitfld.long 0x00 23. " INT_STAT_TRANS1_LUMA              ,The client interface trans1_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default..." "0,1"
bitfld.long 0x00 22. "         INT_STAT_TRANS1_CHROMA            ,The client interface trans1_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this wi..." "0,1"
bitfld.long 0x00 21. "     INT_STAT_HDMI_WRBK_OUT            ,The client interface hdmi_wrbk_out has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will d..." "0,1"
textline "                                     "
bitfld.long 0x00 20. " INT_STAT_VPI_CTL                  ,The client interface vpi_ctl has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default to ..." "0,1"
bitfld.long 0x00 19. "         INT_STAT_VBI_SDVENC               ,The client interface vbi_sdvenc has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will ..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_NF_420_UV_OUT            ,The client interface nf_420_uv_out has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will d..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_NF_420_Y_OUT             ,The client interface nf_420_y_out has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defaul..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_NF_420_UV_IN             ,The client interface nf_420_uv_in has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this wil..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_NF_420_Y_IN              ,The client interface nf_420_y_in has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will def..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_NF_422_IN                ,The client interface nf_422_in has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default t..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_GRPX3_ST                 ,The client interface grpx3_st has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will de..." "0,1"
bitfld.long 0x00 11. "     INT_STAT_GRPX2_ST                 ,The client interface grpx2_st has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defaul..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_GRPX1_ST                 ,The client interface grpx1_st has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default to..." "0,1"
bitfld.long 0x00 9. "         INT_STAT_VIP2_UP_UV               ,The client interface vip2_up_uv has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will ..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_VIP2_UP_Y                ,The client interface vip2_up_y has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defau..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP2_LO_UV               ,The client interface vip2_lo_uv has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_VIP2_LO_Y                ,The client interface vip2_lo_y has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will d..." "0,1"
bitfld.long 0x00 5. "     INT_STAT_VIP1_UP_UV               ,The client interface vip1_up_uv has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defa..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_VIP1_UP_Y                ,The client interface vip1_up_y has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default t..." "0,1"
bitfld.long 0x00 3. "         INT_STAT_VIP1_LO_UV               ,The client interface vip1_lo_uv has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will ..." "0,1"
bitfld.long 0x00 2. "     INT_STAT_VIP1_LO_Y                ,The client interface vip1_lo_y has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defau..." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_GRPX3_DATA               ,The client interface grpx3_data has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
bitfld.long 0x00 0. "         INT_STAT_GRPX2_DATA               ,The client interface grpx2_data has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will ..." "0,1"
group.long 0xD4++0x3
line.long 0x00 "VIP_INT1_CLIENT1_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int1."
bitfld.long 0x00 29. " INT_MASK_VIP2_ANC_B               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 28. "         INT_MASK_VIP2_ANC_A               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "     INT_MASK_VIP1_ANC_B               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 26. " INT_MASK_VIP1_ANC_A               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 25. "         INT_MASK_TRANS2_LUMA              ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "     INT_MASK_TRANS2_CHROMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 23. " INT_MASK_TRANS1_LUMA              ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 22. "         INT_MASK_TRANS1_CHROMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "     INT_MASK_HDMI_WRBK_OUT            ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 20. " INT_MASK_VPI_CTL                  ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 19. "         INT_MASK_VBI_SDVENC               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_NF_420_UV_OUT            ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_NF_420_Y_OUT             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_NF_420_UV_IN             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_NF_420_Y_IN              ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_NF_422_IN                ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_GRPX3_ST                 ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_GRPX2_ST                 ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_GRPX1_ST                 ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_VIP2_UP_UV               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_VIP2_UP_Y                ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP2_LO_UV               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_VIP2_LO_Y                ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "     INT_MASK_VIP1_UP_UV               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_VIP1_UP_Y                ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "         INT_MASK_VIP1_LO_UV               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "     INT_MASK_VIP1_LO_Y                ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_GRPX3_DATA               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "         INT_MASK_GRPX2_DATA               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0xD8++0x3
line.long 0x00 "VIP_INT1_LIST0_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int1."
bitfld.long 0x00 31. " INT_STAT_CONTROL_DESCRIPTOR_INT15 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 15. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear ..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_CONTROL_DESCRIPTOR_INT14 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 14. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field t..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_CONTROL_DESCRIPTOR_INT13 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 13. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to cl..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_CONTROL_DESCRIPTOR_INT12 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 12. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear ..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_CONTROL_DESCRIPTOR_INT11 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 11. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field t..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_CONTROL_DESCRIPTOR_INT10 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 10. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to cl..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_CONTROL_DESCRIPTOR_INT9  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 9. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear t..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_CONTROL_DESCRIPTOR_INT8  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 8. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to..." "0,1"
bitfld.long 0x00 23. "     INT_STAT_CONTROL_DESCRIPTOR_INT7  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 7. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to cle..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_CONTROL_DESCRIPTOR_INT6  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 6. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear t..." "0,1"
bitfld.long 0x00 21. "         INT_STAT_CONTROL_DESCRIPTOR_INT5  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 5. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to..." "0,1"
bitfld.long 0x00 20. "     INT_STAT_CONTROL_DESCRIPTOR_INT4  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 4. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to cle..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_CONTROL_DESCRIPTOR_INT3  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 3. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear t..." "0,1"
bitfld.long 0x00 18. "         INT_STAT_CONTROL_DESCRIPTOR_INT2  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 2. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_CONTROL_DESCRIPTOR_INT1  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 1. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to cle..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_CONTROL_DESCRIPTOR_INT0  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 0. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear t..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_LIST7_NOTIFY             ,A channel set by List 7 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this fi..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_LIST7_COMPLETE           ,List 7 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_LIST6_NOTIFY             ,A channel set by List 6 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to c..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_LIST6_COMPLETE           ,List 6 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
bitfld.long 0x00 11. "     INT_STAT_LIST5_NOTIFY             ,A channel set by List 5 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field ..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_LIST5_COMPLETE           ,List 5 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
bitfld.long 0x00 9. "         INT_STAT_LIST4_NOTIFY             ,A channel set by List 4 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this fi..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_LIST4_COMPLETE           ,List 4 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_LIST3_NOTIFY             ,A channel set by List 3 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to c..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_LIST3_COMPLETE           ,List 3 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
bitfld.long 0x00 5. "     INT_STAT_LIST2_NOTIFY             ,A channel set by List 2 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field ..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_LIST2_COMPLETE           ,List 2 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
bitfld.long 0x00 3. "         INT_STAT_LIST1_NOTIFY             ,A channel set by List 1 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this fi..." "0,1"
bitfld.long 0x00 2. "     INT_STAT_LIST1_COMPLETE           ,List 1 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_LIST0_NOTIFY             ,A channel set by List 0 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to c..." "0,1"
bitfld.long 0x00 0. "         INT_STAT_LIST0_COMPLETE           ,List 0 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
group.long 0xDC++0x3
line.long 0x00 "VIP_INT1_LIST0_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int1."
bitfld.long 0x00 31. " INT_MASK_CONTROL_DESCRIPTOR_INT15 ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_CONTROL_DESCRIPTOR_INT14 ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_CONTROL_DESCRIPTOR_INT13 ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_CONTROL_DESCRIPTOR_INT12 ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_CONTROL_DESCRIPTOR_INT11 ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_CONTROL_DESCRIPTOR_INT10 ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_CONTROL_DESCRIPTOR_INT9  ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_CONTROL_DESCRIPTOR_INT8  ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "     INT_MASK_CONTROL_DESCRIPTOR_INT7  ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_CONTROL_DESCRIPTOR_INT6  ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "         INT_MASK_CONTROL_DESCRIPTOR_INT5  ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "     INT_MASK_CONTROL_DESCRIPTOR_INT4  ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_CONTROL_DESCRIPTOR_INT3  ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "         INT_MASK_CONTROL_DESCRIPTOR_INT2  ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_CONTROL_DESCRIPTOR_INT1  ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_CONTROL_DESCRIPTOR_INT0  ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_LIST7_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_LIST7_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_LIST6_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_LIST6_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_LIST5_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_LIST5_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_LIST4_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_LIST4_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_LIST3_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_LIST3_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "     INT_MASK_LIST2_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_LIST2_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "         INT_MASK_LIST1_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "     INT_MASK_LIST1_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_LIST0_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "         INT_MASK_LIST0_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x200++0x3
line.long 0x00 "VIP_PERF_MON0,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: vip2_anc_b 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: vip2_anc_b 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x204++0x3
line.long 0x00 "VIP_PERF_MON1,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x208++0x3
line.long 0x00 "VIP_PERF_MON2,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x20C++0x3
line.long 0x00 "VIP_PERF_MON3,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x210++0x3
line.long 0x00 "VIP_PERF_MON4,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x214++0x3
line.long 0x00 "VIP_PERF_MON5,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x218++0x3
line.long 0x00 "VIP_PERF_MON6,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x21C++0x3
line.long 0x00 "VIP_PERF_MON7,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x220++0x3
line.long 0x00 "VIP_PERF_MON8,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x224++0x3
line.long 0x00 "VIP_PERF_MON9,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x228++0x3
line.long 0x00 "VIP_PERF_MON10,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x22C++0x3
line.long 0x00 "VIP_PERF_MON11,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x230++0x3
line.long 0x00 "VIP_PERF_MON12,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x234++0x3
line.long 0x00 "VIP_PERF_MON13,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x238++0x3
line.long 0x00 "VIP_PERF_MON14,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x23C++0x3
line.long 0x00 "VIP_PERF_MON15,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x240++0x3
line.long 0x00 "VIP_PERF_MON16,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x244++0x3
line.long 0x00 "VIP_PERF_MON17,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x248++0x3
line.long 0x00 "VIP_PERF_MON18,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x24C++0x3
line.long 0x00 "VIP_PERF_MON19,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x250++0x3
line.long 0x00 "VIP_PERF_MON20,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x254++0x3
line.long 0x00 "VIP_PERF_MON21,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x258++0x3
line.long 0x00 "VIP_PERF_MON22,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x25C++0x3
line.long 0x00 "VIP_PERF_MON23,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x260++0x3
line.long 0x00 "VIP_PERF_MON24,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x264++0x3
line.long 0x00 "VIP_PERF_MON25,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x268++0x3
line.long 0x00 "VIP_PERF_MON26,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x26C++0x3
line.long 0x00 "VIP_PERF_MON27,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x270++0x3
line.long 0x00 "VIP_PERF_MON28,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x274++0x3
line.long 0x00 "VIP_PERF_MON29,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x278++0x3
line.long 0x00 "VIP_PERF_MON30,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x27C++0x3
line.long 0x00 "VIP_PERF_MON31,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x280++0x3
line.long 0x00 "VIP_PERF_MON32,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3: vip1_lo_y" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3: vip1_lo_y" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x284++0x3
line.long 0x00 "VIP_PERF_MON33,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: vip1_lo_y 3: vip1_lo_uv" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: vip1_lo_y 3: vip1_lo_uv" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x288++0x3
line.long 0x00 "VIP_PERF_MON34,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip1_lo_y 1: 2: vip1_lo_uv 3: vip1_up_y" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip1_lo_y 1: 2: vip1_lo_uv 3: vip1_up_y" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x28C++0x3
line.long 0x00 "VIP_PERF_MON35,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip1_lo_uv 1: vip1_lo_y 2: vip1_up_y 3: vip1_up_uv" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip1_lo_uv 1: vip1_lo_y 2: vip1_up_y 3: vip1_up_uv" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x290++0x3
line.long 0x00 "VIP_PERF_MON36,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip1_up_y 1: vip1_lo_uv 2: vip1_up_uv 3: vip2_lo_y" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip1_up_y 1: vip1_lo_uv 2: vip1_up_uv 3: vip2_lo_y" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x294++0x3
line.long 0x00 "VIP_PERF_MON37,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip1_up_uv 1: vip1_up_y 2: vip2_lo_y 3: vip2_lo_uv" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ," "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip1_up_uv 1: vip1_up_y 2: vip2_lo_y 3: vip2_lo_uv" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x298++0x3
line.long 0x00 "VIP_PERF_MON38,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip2_lo_y 1: vip1_up_uv 2: vip2_lo_uv 3: vip2_up_y" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip2_lo_y 1: vip1_up_uv 2: vip2_lo_uv 3: vip2_up_y" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x29C++0x3
line.long 0x00 "VIP_PERF_MON39,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip2_lo_uv 1: vip2_lo_y 2: vip2_up_y 3: vip2_up_uv" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip2_lo_uv 1: vip2_lo_y 2: vip2_up_y 3: vip2_up_uv" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2A0++0x3
line.long 0x00 "VIP_PERF_MON40,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip2_up_y 1: vip2_lo_uv 2: vip2_up_uv 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip2_up_y 1: vip2_lo_uv 2: vip2_up_uv 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2A4++0x3
line.long 0x00 "VIP_PERF_MON41,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip2_up_uv 1: vip2_up_y 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip2_up_uv 1: vip2_up_y 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2A8++0x3
line.long 0x00 "VIP_PERF_MON42,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: vip2_up_uv 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: vip2_up_uv 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2AC++0x3
line.long 0x00 "VIP_PERF_MON43,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2B0++0x3
line.long 0x00 "VIP_PERF_MON44,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2B4++0x3
line.long 0x00 "VIP_PERF_MON45,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2B8++0x3
line.long 0x00 "VIP_PERF_MON46,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2BC++0x3
line.long 0x00 "VIP_PERF_MON47,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2C0++0x3
line.long 0x00 "VIP_PERF_MON48,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2C4++0x3
line.long 0x00 "VIP_PERF_MON49,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2C8++0x3
line.long 0x00 "VIP_PERF_MON50,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3: vpi_ctl" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3: vpi_ctl" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2CC++0x3
line.long 0x00 "VIP_PERF_MON51,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: vpi_ctl 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: vpi_ctl 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2D0++0x3
line.long 0x00 "VIP_PERF_MON52,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vpi_ctl 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vpi_ctl 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2D4++0x3
line.long 0x00 "VIP_PERF_MON53,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: vpi_ctl 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: vpi_ctl 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2D8++0x3
line.long 0x00 "VIP_PERF_MON54,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2DC++0x3
line.long 0x00 "VIP_PERF_MON55,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2E0++0x3
line.long 0x00 "VIP_PERF_MON56,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ," "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ," "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ," "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2E4++0x3
line.long 0x00 "VIP_PERF_MON57,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: vip1_anc_a 3: vip1_anc_b" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: vip1_anc_a 3: vip1_anc_b" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2E8++0x3
line.long 0x00 "VIP_PERF_MON58,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip1_anc_a 1: 2: vip1_anc_b 3: vip2_anc_a" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip1_anc_a 1: 2: vip1_anc_b 3: vip2_anc_a" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2EC++0x3
line.long 0x00 "VIP_PERF_MON59,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip1_anc_b 1: vip1_anc_a 2: vip2_anc_a 3: vip2_anc_b" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip1_anc_b 1: vip1_anc_a 2: vip2_anc_a 3: vip2_anc_b" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2F0++0x3
line.long 0x00 "VIP_PERF_MON60,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip2_anc_a 1: vip1_anc_b 2: vip2_anc_b 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip2_anc_a 1: vip1_anc_b 2: vip2_anc_b 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2F4++0x3
line.long 0x00 "VIP_PERF_MON61,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip2_anc_b 1: vip2_anc_a 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip2_anc_b 1: vip2_anc_a 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x388++0x3
line.long 0x00 "VIP0_LO_Y_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x38C++0x3
line.long 0x00 "VIP0_LO_UV_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x390++0x3
line.long 0x00 "VIP0_UP_Y_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x394++0x3
line.long 0x00 "VIP0_UP_UV_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x398++0x3
line.long 0x00 "VIP1_LO_Y_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x39C++0x3
line.long 0x00 "VIP1_LO_UV_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x3A0++0x3
line.long 0x00 "VIP1_UP_Y_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x3A4++0x3
line.long 0x00 "VIP1_UP_UV_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x3D0++0x3
line.long 0x00 "VPI_CTL_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x3E8++0x3
line.long 0x00 "VIP0_ANC_A_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x3EC++0x3
line.long 0x00 "VIP0_ANC_B_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x3F0++0x3
line.long 0x00 "VIP1_ANC_A_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x3F4++0x3
line.long 0x00 "VIP1_ANC_B_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used to cal..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree "VIP3_VPDMA"
base ad:0x489BD000
width 28.
rgroup.long 0x0++0x3
line.long 0x00 "VIP_PID,PID VIP VPDMA register"
hexmask.long 0x00 0.--31. 1. " PID                               ,PID of VPDMA module"
group.long 0x4++0x3
line.long 0x00 "VIP_LIST_ADDR,The location of a new list to begin processing."
hexmask.long 0x00 0.--31. 1. " VIP_LIST_ADDR                     ,Location of a new list of descriptors. This register must be written with the VPDMA Configuration Location after reset."
group.long 0x8++0x3
line.long 0x00 "VIP_LIST_ATTR,The attributes of a new list. This register should always be written after."
bitfld.long 0x00 24.--26. " LIST_NUM                          ,The list number that should be assigned to the list located atVIP_LIST_ADDR. If the list is still active this will block all future list writes until the list is available." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20. "         STOP                              ,This bit is written with the LIST_NUMBER field to stop a self-modifying list. When this bit is written a one the list specified by the LIST_NUMBER is sent a stop signal and will finish the current frame of tr..." "0,1"
bitfld.long 0x00 19. "     RDY                               ,This bit is low when a new list cannot be written to theVIP_LIST_ADDR register. The reasons this bit would be low are at initial startup if the LIST_MANAGER State Machine image has not completed loading. It also ..." "0,1"
textline "                                     "
bitfld.long 0x00 16.--18. " LIST_TYPE                         ,The type of list that has been generated.\\n0: Normal List\\n1: Self-Modifying List\\n2: List Doorbell\\nOthers Reserved for future use" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "         LIST_SIZE                         ,Number of 128 bit word in the new list of descriptors. Writes to this register will activate the list in the list stack of the list manager and begin transfer of the list into VPDMA. This size can not be 0."
group.long 0xC++0x3
line.long 0x00 "VIP_LIST_STAT_SYNC,The register is used for processor to List Manager syncronization and status registers for the list."
bitfld.long 0x00 23. " LIST7_BUSY                        ,The list 7 is currently running. Any attempt to load a new list to list 7 will result in the LM_ADDR and LM_ATTR registers to be locked until the list is complete and this value goes to 0." "0,1"
bitfld.long 0x00 22. "         LIST6_BUSY                        ,The list 6 is currently running. Any attempt to load a new list to list 6 will result in the LM_ADDR and LM_ATTR registers to be locked until the list is complete and this value goes to 0." "0,1"
bitfld.long 0x00 21. "     LIST5_BUSY                        ,The list 5 is currently running. Any attempt to load a new list to list 5 will result in the LM_ADDR and LM_ATTR registers to be locked until the list is complete and this value goes to 0." "0,1"
textline "                                     "
bitfld.long 0x00 20. " LIST4_BUSY                        ,The list 4 is currently running. Any attempt to load a new list to list 4 will result in the LM_ADDR and LM_ATTR registers to be locked until the list is complete and this value goes to 0." "0,1"
bitfld.long 0x00 19. "         LIST3_BUSY                        ,The list 3 is currently running. Any attempt to load a new list to list 3 will result in the LM_ADDR and LM_ATTR registers to be locked until the list is complete and this value goes to 0." "0,1"
bitfld.long 0x00 18. "     LIST2_BUSY                        ,The list 2 is currently running. Any attempt to load a new list to list 2 will result in the LM_ADDR and LM_ATTR registers to be locked until the list is complete and this value goes to 0." "0,1"
textline "                                     "
bitfld.long 0x00 17. " LIST1_BUSY                        ,The list 1 is currently running. Any attempt to load a new list to list 1 will result in the LM_ADDR and LM_ATTR registers to be locked until the list is complete and this value goes to 0." "0,1"
bitfld.long 0x00 16. "         LIST0_BUSY                        ,The list 0 is currently running. Any attempt to load a new list to list 0 will result in the LM_ADDR and LM_ATTR registers to be locked until the list is complete and this value goes to 0." "0,1"
bitfld.long 0x00 7. "     SYNC_LISTS7                       ,Writing a 1 to this field causes a sync event to fire that clears a Control Descriptor in List 7 waiting on it." "0,1"
textline "                                     "
bitfld.long 0x00 6. " SYNC_LISTS6                       ,Writing a 1 to this field causes a sync event to fire that clears a Control Descriptor in List 6 waiting on it." "0,1"
bitfld.long 0x00 5. "         SYNC_LISTS5                       ,Writing a 1 to this field causes a sync event to fire that clears a Control Descriptor in List 5 waiting on it." "0,1"
bitfld.long 0x00 4. "     SYNC_LISTS4                       ,Writing a 1 to this field causes a sync event to fire that clears a Control Descriptor in List 4 waiting on it." "0,1"
textline "                                     "
bitfld.long 0x00 3. " SYNC_LISTS3                       ,Writing a 1 to this field causes a sync event to fire that clears a Control Descriptor in List 3 waiting on it." "0,1"
bitfld.long 0x00 2. "         SYNC_LISTS2                       ,Writing a 1 to this field causes a sync event to fire that clears a Control Descriptor in List 2 waiting on it." "0,1"
bitfld.long 0x00 1. "     SYNC_LISTS1                       ,Writing a 1 to this field causes a sync event to fire that clears a Control Descriptor in List 1 waiting on it." "0,1"
textline "                                     "
bitfld.long 0x00 0. " SYNC_LISTS0                       ,Writing a 1 to this field causes a sync event to fire that clears a Control Descriptor in List 0 waiting on it." "0,1"
group.long 0x18++0x3
line.long 0x00 "VIP_BG_RGB,The registers used to set the background color for RGB"
hexmask.long.byte 0x00 24.--31. 1. " RED                               ,The red value to give on an RGB data port for a blank pixel when using virtual video buffering"
hexmask.long.byte 0x00 16.--23. 1. "        GREEN                             ,The green value to give on an RGB data port for a blank pixel when using virtual video buffering"
hexmask.long.byte 0x00 8.--15. 1. "    BLUE                              ,The blue value to give on an RGB data port for a blank pixel when using virtual video buffering"
textline "                                     "
hexmask.long.byte 0x00 0.--7. 1. " BLEND                             ,The blend value to give on an RGB data port for a blank pixel when using virtual video buffering"
group.long 0x1C++0x3
line.long 0x00 "VIP_BG_YUV,The registers used to set the background color for YUV"
hexmask.long.byte 0x00 16.--23. 1. " Y                                 ,The Y value to give on a YUV data port for a blank pixel when using virtual video buffering"
hexmask.long.byte 0x00 8.--15. 1. "        CR                                ,The Cr value to give on a YUV data port for a blank pixel when using virtual video buffering"
hexmask.long.byte 0x00 0.--7. 1. "    CB                                ,The Cb value to give on a YUV data port for a blank pixel when using virtual video buffering"
group.long 0x30++0x3
line.long 0x00 "VIP_VPDMA_SETUP,Configures global parameters that are shared by all clients."
bitfld.long 0x00 0. " SEC_BASE_CH                       ,Use Secondary Channels for Mosaic mode" "0,1"
group.long 0x34++0x3
line.long 0x00 "VIP_MAX_SIZE1,Configures maximum width and maximum height global parameters that are shared by all clients to allow for configurable max width and max height when setting is 1 in write descriptor."
hexmask.long.word 0x00 16.--31. 1. " MAX_WIDTH                         ,The maximum width to use for setting of max_width 1 in a write descriptor. The value is the number of pixels + 1 so if 1024 pixels are required then set the value to 1023."
hexmask.long.word 0x00 0.--15. 1. "      MAX_HEIGHT                        ,The maximum height to use for setting of max_height 1 in a write descriptor. The value is the number of lines + 1 so if 1024 lines are required then set the value to 1023."
group.long 0x38++0x3
line.long 0x00 "VIP_MAX_SIZE2,Configures maximum width and maximum height global parameters that are shared by all clients to allow for configurable max width and max height when setting is 2 in write descriptor."
hexmask.long.word 0x00 16.--31. 1. " MAX_WIDTH                         ,The maximum width to use for setting of max_width 2 in a write descriptor. The value is the number of pixels + 1 so if 1024 pixels are required then set the value to 1023."
hexmask.long.word 0x00 0.--15. 1. "      MAX_HEIGHT                        ,The maximum height to use for setting of max_height 2 in a write descriptor. The value is the number of lines + 1 so if 1024 lines are required then set the value to 1023."
group.long 0x3C++0x3
line.long 0x00 "VIP_MAX_SIZE3,Configures maximum width and maximum height global parameters that are shared by all clients to allow for configurable max width and max height when setting is 3 in write descriptor."
hexmask.long.word 0x00 16.--31. 1. " MAX_WIDTH                         ,The maximum width to use for setting of max_width 3 in a write descriptor. The value is the number of pixels + 1 so if 1024 pixels are required then set the value to 1023."
hexmask.long.word 0x00 0.--15. 1. "      MAX_HEIGHT                        ,The maximum height to use for setting of max_height 3 in a write descriptor. The value is the number of lines + 1 so if 1024 lines are required then set the value to 1023."
group.long 0x40++0x3
line.long 0x00 "VIP_INT0_CHANNEL0_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 31. " INT_STAT_GRPX3                    ,The last read DMA transaction has occurred for channel grpx3 and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have just been stored i..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_GRPX2                    ,The last read DMA transaction has occurred for channel grpx2 and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have just been ..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_GRPX1                    ,The last read DMA transaction has occurred for channel grpx1 and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have just been stor..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_SCALER_OUT               ,The last write DMA transaction has completed for channel scaler_out. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client sc_out then the cli..." "0,1"
bitfld.long 0x00 19. "         INT_STAT_SCALER_CHROMA            ,The last write DMA transaction has completed for channel scaler_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the..." "0,1"
bitfld.long 0x00 18. "     INT_STAT_SCALER_LUMA              ,The last write DMA transaction has completed for channel scaler_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the clien..." "0,1"
textline "                                     "
bitfld.long 0x00 17. " INT_STAT_HQ_SCALER                ,The last write DMA transaction has completed for channel hq_scaler. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client dei_sc_out then the ..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_HQ_MV_OUT                ,The last write DMA transaction has completed for channel hq_mv_out. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client dei_hq_mv_ou..." "0,1"
bitfld.long 0x00 12. "     INT_STAT_HQ_MV                    ,The last read DMA transaction has occurred for channel hq_mv and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have just been stor..." "0,1"
textline "                                     "
bitfld.long 0x00 5. " INT_STAT_HQ_VID3_CHROMA           ,The last write DMA transaction has completed for channel hq_vid3_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the client..." "0,1"
bitfld.long 0x00 4. "         INT_STAT_HQ_VID3_LUMA             ,The last write DMA transaction has completed for channel hq_vid3_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the ..." "0,1"
bitfld.long 0x00 3. "     INT_STAT_HQ_VID2_CHROMA           ,The last write DMA transaction has completed for channel hq_vid2_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cl..." "0,1"
textline "                                     "
bitfld.long 0x00 2. " INT_STAT_HQ_VID2_LUMA             ,The last write DMA transaction has completed for channel hq_vid2_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the client w..." "0,1"
bitfld.long 0x00 1. "         INT_STAT_HQ_VID1_CHROMA           ,The last write DMA transaction has completed for channel hq_vid1_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then th..." "0,1"
bitfld.long 0x00 0. "     INT_STAT_HQ_VID1_LUMA             ,The last write DMA transaction has completed for channel hq_vid1_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the clie..." "0,1"
group.long 0x44++0x3
line.long 0x00 "VIP_INT0_CHANNEL0_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 31. " INT_MASK_GRPX3                    ,The interrupt for Graphcis 2 Data should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_GRPX2                    ,The interrupt for Graphics 1 Data should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_GRPX1                    ,The interrupt for Graphics 0 Data should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_SCALER_OUT               ,The interrupt for Low Cost DEI Scalar Write to Memory should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 19. "         INT_MASK_SCALER_CHROMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "     INT_MASK_SCALER_LUMA              ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 17. " INT_MASK_HQ_SCALER                ,The interrupt for High Quality DEI Scaler Write to Memory should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_HQ_MV_OUT                ,The interrupt for Low Cost DEI Motion Vector Write should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "     INT_MASK_HQ_MV                    ,The interrupt for Low Cost DEI Motion Vector should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 5. " INT_MASK_HQ_VID3_CHROMA           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 4. "         INT_MASK_HQ_VID3_LUMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "     INT_MASK_HQ_VID2_CHROMA           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 2. " INT_MASK_HQ_VID2_LUMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 1. "         INT_MASK_HQ_VID1_CHROMA           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "     INT_MASK_HQ_VID1_LUMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x48++0x3
line.long 0x00 "VIP_INT0_CHANNEL1_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 31. " INT_STAT_VIP1_MULT_PORTB_SRC9     ,The last write DMA transaction has completed for channel vip1_mult_portb_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_u..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_VIP1_MULT_PORTB_SRC8     ,The last write DMA transaction has completed for channel vip1_mult_portb_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_VIP1_MULT_PORTB_SRC7     ,The last write DMA transaction has completed for channel vip1_mult_portb_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_VIP1_MULT_PORTB_SRC6     ,The last write DMA transaction has completed for channel vip1_mult_portb_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_u..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_VIP1_MULT_PORTB_SRC5     ,The last write DMA transaction has completed for channel vip1_mult_portb_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_VIP1_MULT_PORTB_SRC4     ,The last write DMA transaction has completed for channel vip1_mult_portb_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_VIP1_MULT_PORTB_SRC3     ,The last write DMA transaction has completed for channel vip1_mult_portb_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_u..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_VIP1_MULT_PORTB_SRC2     ,The last write DMA transaction has completed for channel vip1_mult_portb_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 23. "     INT_STAT_VIP1_MULT_PORTB_SRC1     ,The last write DMA transaction has completed for channel vip1_mult_portb_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_VIP1_MULT_PORTB_SRC0     ,The last write DMA transaction has completed for channel vip1_mult_portb_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_u..." "0,1"
bitfld.long 0x00 21. "         INT_STAT_VIP1_MULT_PORTA_SRC15    ,The last write DMA transaction has completed for channel vip1_mult_porta_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 20. "     INT_STAT_VIP1_MULT_PORTA_SRC14    ,The last write DMA transaction has completed for channel vip1_mult_porta_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_VIP1_MULT_PORTA_SRC13    ,The last write DMA transaction has completed for channel vip1_mult_porta_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_..." "0,1"
bitfld.long 0x00 18. "         INT_STAT_VIP1_MULT_PORTA_SRC12    ,The last write DMA transaction has completed for channel vip1_mult_porta_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_VIP1_MULT_PORTA_SRC11    ,The last write DMA transaction has completed for channel vip1_mult_porta_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_VIP1_MULT_PORTA_SRC10    ,The last write DMA transaction has completed for channel vip1_mult_porta_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_VIP1_MULT_PORTA_SRC9     ,The last write DMA transaction has completed for channel vip1_mult_porta_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_VIP1_MULT_PORTA_SRC8     ,The last write DMA transaction has completed for channel vip1_mult_porta_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_VIP1_MULT_PORTA_SRC7     ,The last write DMA transaction has completed for channel vip1_mult_porta_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_y..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_VIP1_MULT_PORTA_SRC6     ,The last write DMA transaction has completed for channel vip1_mult_porta_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 11. "     INT_STAT_VIP1_MULT_PORTA_SRC5     ,The last write DMA transaction has completed for channel vip1_mult_porta_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_VIP1_MULT_PORTA_SRC4     ,The last write DMA transaction has completed for channel vip1_mult_porta_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_y..." "0,1"
bitfld.long 0x00 9. "         INT_STAT_VIP1_MULT_PORTA_SRC3     ,The last write DMA transaction has completed for channel vip1_mult_porta_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_VIP1_MULT_PORTA_SRC2     ,The last write DMA transaction has completed for channel vip1_mult_porta_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP1_MULT_PORTA_SRC1     ,The last write DMA transaction has completed for channel vip1_mult_porta_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_y..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_VIP1_MULT_PORTA_SRC0     ,The last write DMA transaction has completed for channel vip1_mult_porta_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
group.long 0x4C++0x3
line.long 0x00 "VIP_INT0_CHANNEL1_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 31. " INT_MASK_VIP1_MULT_PORTB_SRC9     ,The interrupt for Video Input 1 Port B Channel 9 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_VIP1_MULT_PORTB_SRC8     ,The interrupt for Video Input 1 Port B Channel 8 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_VIP1_MULT_PORTB_SRC7     ,The interrupt for Video Input 1 Port B Channel 7 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_VIP1_MULT_PORTB_SRC6     ,The interrupt for Video Input 1 Port B Channel 6 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_VIP1_MULT_PORTB_SRC5     ,The interrupt for Video Input 1 Port B Channel 5 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_VIP1_MULT_PORTB_SRC4     ,The interrupt for Video Input 1 Port B Channel 4 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_VIP1_MULT_PORTB_SRC3     ,The interrupt for Video Input 1 Port B Channel 3 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_VIP1_MULT_PORTB_SRC2     ,The interrupt for Video Input 1 Port B Channel 2 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "     INT_MASK_VIP1_MULT_PORTB_SRC1     ,The interrupt for Video Input 1 Port B Channel 1 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_VIP1_MULT_PORTB_SRC0     ,The interrupt for Video Input 1 Port B Channel 0 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "         INT_MASK_VIP1_MULT_PORTA_SRC15    ,The interrupt for Video Input 1 Port A Channel 15 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "     INT_MASK_VIP1_MULT_PORTA_SRC14    ,The interrupt for Video Input 1 Port A Channel 14 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_VIP1_MULT_PORTA_SRC13    ,The interrupt for Video Input 1 Port A Channel 13 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "         INT_MASK_VIP1_MULT_PORTA_SRC12    ,The interrupt for Video Input 1 Port A Channel 12 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_VIP1_MULT_PORTA_SRC11    ,The interrupt for Video Input 1 Port A Channel 11 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_VIP1_MULT_PORTA_SRC10    ,The interrupt for Video Input 1 Port A Channel 10 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_VIP1_MULT_PORTA_SRC9     ,The interrupt for Video Input 1 Port A Channel 9 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_VIP1_MULT_PORTA_SRC8     ,The interrupt for Video Input 1 Port A Channel 8 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_VIP1_MULT_PORTA_SRC7     ,The interrupt for Video Input 1 Port A Channel 7 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_VIP1_MULT_PORTA_SRC6     ,The interrupt for Video Input 1 Port A Channel 6 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_VIP1_MULT_PORTA_SRC5     ,The interrupt for Video Input 1 Port A Channel 5 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_VIP1_MULT_PORTA_SRC4     ,The interrupt for Video Input 1 Port A Channel 4 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_VIP1_MULT_PORTA_SRC3     ,The interrupt for Video Input 1 Port A Channel 3 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_VIP1_MULT_PORTA_SRC2     ,The interrupt for Video Input 1 Port A Channel 2 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP1_MULT_PORTA_SRC1     ,The interrupt for Video Input 1 Port A Channel 1 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_VIP1_MULT_PORTA_SRC0     ,The interrupt for Video Input 1 Port A Channel 0 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x50++0x3
line.long 0x00 "VIP_INT0_CHANNEL2_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 31. " INT_STAT_VIP1_MULT_ANCB_SRC9      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_b..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_VIP1_MULT_ANCB_SRC8      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_VIP1_MULT_ANCB_SRC7      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_VIP1_MULT_ANCB_SRC6      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_b..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_VIP1_MULT_ANCB_SRC5      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_VIP1_MULT_ANCB_SRC4      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_VIP1_MULT_ANCB_SRC3      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_b..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_VIP1_MULT_ANCB_SRC2      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 23. "     INT_STAT_VIP1_MULT_ANCB_SRC1      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_VIP1_MULT_ANCB_SRC0      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_b..." "0,1"
bitfld.long 0x00 21. "         INT_STAT_VIP1_MULT_ANCA_SRC15     ,The last write DMA transaction has completed for channel vip1_mult_anca_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 20. "     INT_STAT_VIP1_MULT_ANCA_SRC14     ,The last write DMA transaction has completed for channel vip1_mult_anca_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_VIP1_MULT_ANCA_SRC13     ,The last write DMA transaction has completed for channel vip1_mult_anca_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_..." "0,1"
bitfld.long 0x00 18. "         INT_STAT_VIP1_MULT_ANCA_SRC12     ,The last write DMA transaction has completed for channel vip1_mult_anca_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_VIP1_MULT_ANCA_SRC11     ,The last write DMA transaction has completed for channel vip1_mult_anca_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_VIP1_MULT_ANCA_SRC10     ,The last write DMA transaction has completed for channel vip1_mult_anca_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_VIP1_MULT_ANCA_SRC9      ,The last write DMA transaction has completed for channel vip1_mult_anca_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_VIP1_MULT_ANCA_SRC8      ,The last write DMA transaction has completed for channel vip1_mult_anca_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_VIP1_MULT_ANCA_SRC7      ,The last write DMA transaction has completed for channel vip1_mult_anca_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_a..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_VIP1_MULT_ANCA_SRC6      ,The last write DMA transaction has completed for channel vip1_mult_anca_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 11. "     INT_STAT_VIP1_MULT_ANCA_SRC5      ,The last write DMA transaction has completed for channel vip1_mult_anca_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_VIP1_MULT_ANCA_SRC4      ,The last write DMA transaction has completed for channel vip1_mult_anca_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_a..." "0,1"
bitfld.long 0x00 9. "         INT_STAT_VIP1_MULT_ANCA_SRC3      ,The last write DMA transaction has completed for channel vip1_mult_anca_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_VIP1_MULT_ANCA_SRC2      ,The last write DMA transaction has completed for channel vip1_mult_anca_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP1_MULT_ANCA_SRC1      ,The last write DMA transaction has completed for channel vip1_mult_anca_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_a..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_VIP1_MULT_ANCA_SRC0      ,The last write DMA transaction has completed for channel vip1_mult_anca_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 5. "     INT_STAT_VIP1_MULT_PORTB_SRC15    ,The last write DMA transaction has completed for channel vip1_mult_portb_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_VIP1_MULT_PORTB_SRC14    ,The last write DMA transaction has completed for channel vip1_mult_portb_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_..." "0,1"
bitfld.long 0x00 3. "         INT_STAT_VIP1_MULT_PORTB_SRC13    ,The last write DMA transaction has completed for channel vip1_mult_portb_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 2. "     INT_STAT_VIP1_MULT_PORTB_SRC12    ,The last write DMA transaction has completed for channel vip1_mult_portb_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1..." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_VIP1_MULT_PORTB_SRC11    ,The last write DMA transaction has completed for channel vip1_mult_portb_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_..." "0,1"
bitfld.long 0x00 0. "         INT_STAT_VIP1_MULT_PORTB_SRC10    ,The last write DMA transaction has completed for channel vip1_mult_portb_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
group.long 0x54++0x3
line.long 0x00 "VIP_INT0_CHANNEL2_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 31. " INT_MASK_VIP1_MULT_ANCB_SRC9      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 9 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_VIP1_MULT_ANCB_SRC8      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 8 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_VIP1_MULT_ANCB_SRC7      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 7 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_VIP1_MULT_ANCB_SRC6      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 6 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_VIP1_MULT_ANCB_SRC5      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 5 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_VIP1_MULT_ANCB_SRC4      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 4 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_VIP1_MULT_ANCB_SRC3      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 3 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_VIP1_MULT_ANCB_SRC2      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 2 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "     INT_MASK_VIP1_MULT_ANCB_SRC1      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 1 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_VIP1_MULT_ANCB_SRC0      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 0 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "         INT_MASK_VIP1_MULT_ANCA_SRC15     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 15 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "     INT_MASK_VIP1_MULT_ANCA_SRC14     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 14 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_VIP1_MULT_ANCA_SRC13     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 13 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "         INT_MASK_VIP1_MULT_ANCA_SRC12     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 12 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_VIP1_MULT_ANCA_SRC11     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 11 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_VIP1_MULT_ANCA_SRC10     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 10 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_VIP1_MULT_ANCA_SRC9      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 9 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_VIP1_MULT_ANCA_SRC8      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 8 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_VIP1_MULT_ANCA_SRC7      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 7 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_VIP1_MULT_ANCA_SRC6      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 6 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_VIP1_MULT_ANCA_SRC5      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 5 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_VIP1_MULT_ANCA_SRC4      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 4 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_VIP1_MULT_ANCA_SRC3      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 3 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_VIP1_MULT_ANCA_SRC2      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 2 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP1_MULT_ANCA_SRC1      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 1 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_VIP1_MULT_ANCA_SRC0      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 0 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "     INT_MASK_VIP1_MULT_PORTB_SRC15    ,The interrupt for Video Input 1 Port B Channel 15 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_VIP1_MULT_PORTB_SRC14    ,The interrupt for Video Input 1 Port B Channel 14 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "         INT_MASK_VIP1_MULT_PORTB_SRC13    ,The interrupt for Video Input 1 Port B Channel 13 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "     INT_MASK_VIP1_MULT_PORTB_SRC12    ,The interrupt for Video Input 1 Port B Channel 12 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_VIP1_MULT_PORTB_SRC11    ,The interrupt for Video Input 1 Port B Channel 11 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "         INT_MASK_VIP1_MULT_PORTB_SRC10    ,The interrupt for Video Input 1 Port B Channel 10 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x58++0x3
line.long 0x00 "VIP_INT0_CHANNEL3_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 31. " INT_STAT_VIP2_MULT_PORTB_SRC3     ,The last write DMA transaction has completed for channel vip2_mult_portb_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_u..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_VIP2_MULT_PORTB_SRC2     ,The last write DMA transaction has completed for channel vip2_mult_portb_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_VIP2_MULT_PORTB_SRC1     ,The last write DMA transaction has completed for channel vip2_mult_portb_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_VIP2_MULT_PORTB_SRC0     ,The last write DMA transaction has completed for channel vip2_mult_portb_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_u..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_VIP2_MULT_PORTA_SRC15    ,The last write DMA transaction has completed for channel vip2_mult_porta_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_VIP2_MULT_PORTA_SRC14    ,The last write DMA transaction has completed for channel vip2_mult_porta_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_VIP2_MULT_PORTA_SRC13    ,The last write DMA transaction has completed for channel vip2_mult_porta_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_VIP2_MULT_PORTA_SRC12    ,The last write DMA transaction has completed for channel vip2_mult_porta_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 23. "     INT_STAT_VIP2_MULT_PORTA_SRC11    ,The last write DMA transaction has completed for channel vip2_mult_porta_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_VIP2_MULT_PORTA_SRC10    ,The last write DMA transaction has completed for channel vip2_mult_porta_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_..." "0,1"
bitfld.long 0x00 21. "         INT_STAT_VIP2_MULT_PORTA_SRC9     ,The last write DMA transaction has completed for channel vip2_mult_porta_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 20. "     INT_STAT_VIP2_MULT_PORTA_SRC8     ,The last write DMA transaction has completed for channel vip2_mult_porta_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_VIP2_MULT_PORTA_SRC7     ,The last write DMA transaction has completed for channel vip2_mult_porta_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_y..." "0,1"
bitfld.long 0x00 18. "         INT_STAT_VIP2_MULT_PORTA_SRC6     ,The last write DMA transaction has completed for channel vip2_mult_porta_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_VIP2_MULT_PORTA_SRC5     ,The last write DMA transaction has completed for channel vip2_mult_porta_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_VIP2_MULT_PORTA_SRC4     ,The last write DMA transaction has completed for channel vip2_mult_porta_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_y..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_VIP2_MULT_PORTA_SRC3     ,The last write DMA transaction has completed for channel vip2_mult_porta_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_VIP2_MULT_PORTA_SRC2     ,The last write DMA transaction has completed for channel vip2_mult_porta_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_VIP2_MULT_PORTA_SRC1     ,The last write DMA transaction has completed for channel vip2_mult_porta_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_y..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_VIP2_MULT_PORTA_SRC0     ,The last write DMA transaction has completed for channel vip2_mult_porta_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 11. "     INT_STAT_VIP1_PORTB_RGB           ,The last write DMA transaction has completed for channel vip1_portb_rgb. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_y t..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_VIP1_PORTA_RGB           ,The last write DMA transaction has completed for channel vip1_porta_rgb. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_up_y then ..." "0,1"
bitfld.long 0x00 9. "         INT_STAT_VIP1_PORTB_CHROMA        ,The last write DMA transaction has completed for channel vip1_portb_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_VIP1_PORTB_LUMA          ,The last write DMA transaction has completed for channel vip1_portb_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the c..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP1_PORTA_CHROMA        ,The last write DMA transaction has completed for channel vip1_porta_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cli..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_VIP1_PORTA_LUMA          ,The last write DMA transaction has completed for channel vip1_porta_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then t..." "0,1"
bitfld.long 0x00 5. "     INT_STAT_VIP1_MULT_ANCB_SRC15     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_VIP1_MULT_ANCB_SRC14     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_..." "0,1"
bitfld.long 0x00 3. "         INT_STAT_VIP1_MULT_ANCB_SRC13     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 2. "     INT_STAT_VIP1_MULT_ANCB_SRC12     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_VIP1_MULT_ANCB_SRC11     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_..." "0,1"
bitfld.long 0x00 0. "         INT_STAT_VIP1_MULT_ANCB_SRC10     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
group.long 0x5C++0x3
line.long 0x00 "VIP_INT0_CHANNEL3_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 31. " INT_MASK_VIP2_MULT_PORTB_SRC3     ,The interrupt for Video Input 2 Port B Channel 3 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_VIP2_MULT_PORTB_SRC2     ,The interrupt for Video Input 2 Port B Channel 2 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_VIP2_MULT_PORTB_SRC1     ,The interrupt for Video Input 2 Port B Channel 1 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_VIP2_MULT_PORTB_SRC0     ,The interrupt for Video Input 2 Port B Channel 0 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_VIP2_MULT_PORTA_SRC15    ,The interrupt for Video Input 2 Port A Channel 15 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_VIP2_MULT_PORTA_SRC14    ,The interrupt for Video Input 2 Port A Channel 14 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_VIP2_MULT_PORTA_SRC13    ,The interrupt for Video Input 2 Port A Channel 13 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_VIP2_MULT_PORTA_SRC12    ,The interrupt for Video Input 2 Port A Channel 12 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "     INT_MASK_VIP2_MULT_PORTA_SRC11    ,The interrupt for Video Input 2 Port A Channel 11 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_VIP2_MULT_PORTA_SRC10    ,The interrupt for Video Input 2 Port A Channel 10 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "         INT_MASK_VIP2_MULT_PORTA_SRC9     ,The interrupt for Video Input 2 Port A Channel 9 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "     INT_MASK_VIP2_MULT_PORTA_SRC8     ,The interrupt for Video Input 2 Port A Channel 8 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_VIP2_MULT_PORTA_SRC7     ,The interrupt for Video Input 2 Port A Channel 7 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "         INT_MASK_VIP2_MULT_PORTA_SRC6     ,The interrupt for Video Input 2 Port A Channel 6 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_VIP2_MULT_PORTA_SRC5     ,The interrupt for Video Input 2 Port A Channel 5 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_VIP2_MULT_PORTA_SRC4     ,The interrupt for Video Input 2 Port A Channel 4 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_VIP2_MULT_PORTA_SRC3     ,The interrupt for Video Input 2 Port A Channel 3 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_VIP2_MULT_PORTA_SRC2     ,The interrupt for Video Input 2 Port A Channel 2 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_VIP2_MULT_PORTA_SRC1     ,The interrupt for Video Input 2 Port A Channel 1 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_VIP2_MULT_PORTA_SRC0     ,The interrupt for Video Input 2 Port A Channel 0 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_VIP1_PORTB_RGB           ,The interrupt for Video Input 1 Port B RGB Data should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_VIP1_PORTA_RGB           ,The interrupt for Video Input 1 Port A RGB Data should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_VIP1_PORTB_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_VIP1_PORTB_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP1_PORTA_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_VIP1_PORTA_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "     INT_MASK_VIP1_MULT_ANCB_SRC15     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 15 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_VIP1_MULT_ANCB_SRC14     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 14 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "         INT_MASK_VIP1_MULT_ANCB_SRC13     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 13 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "     INT_MASK_VIP1_MULT_ANCB_SRC12     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 12 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_VIP1_MULT_ANCB_SRC11     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 11 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "         INT_MASK_VIP1_MULT_ANCB_SRC10     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 10 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x60++0x3
line.long 0x00 "VIP_INT0_CHANNEL4_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 31. " INT_STAT_VIP2_MULT_ANCB_SRC3      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_b..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_VIP2_MULT_ANCB_SRC2      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_VIP2_MULT_ANCB_SRC1      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_VIP2_MULT_ANCB_SRC0      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_b..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_VIP2_MULT_ANCA_SRC15     ,The last write DMA transaction has completed for channel vip2_mult_anca_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_VIP2_MULT_ANCA_SRC14     ,The last write DMA transaction has completed for channel vip2_mult_anca_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_VIP2_MULT_ANCA_SRC13     ,The last write DMA transaction has completed for channel vip2_mult_anca_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_VIP2_MULT_ANCA_SRC12     ,The last write DMA transaction has completed for channel vip2_mult_anca_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 23. "     INT_STAT_VIP2_MULT_ANCA_SRC11     ,The last write DMA transaction has completed for channel vip2_mult_anca_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_VIP2_MULT_ANCA_SRC10     ,The last write DMA transaction has completed for channel vip2_mult_anca_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_..." "0,1"
bitfld.long 0x00 21. "         INT_STAT_VIP2_MULT_ANCA_SRC9      ,The last write DMA transaction has completed for channel vip2_mult_anca_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 20. "     INT_STAT_VIP2_MULT_ANCA_SRC8      ,The last write DMA transaction has completed for channel vip2_mult_anca_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_VIP2_MULT_ANCA_SRC7      ,The last write DMA transaction has completed for channel vip2_mult_anca_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_a..." "0,1"
bitfld.long 0x00 18. "         INT_STAT_VIP2_MULT_ANCA_SRC6      ,The last write DMA transaction has completed for channel vip2_mult_anca_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_VIP2_MULT_ANCA_SRC5      ,The last write DMA transaction has completed for channel vip2_mult_anca_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_VIP2_MULT_ANCA_SRC4      ,The last write DMA transaction has completed for channel vip2_mult_anca_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_a..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_VIP2_MULT_ANCA_SRC3      ,The last write DMA transaction has completed for channel vip2_mult_anca_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_VIP2_MULT_ANCA_SRC2      ,The last write DMA transaction has completed for channel vip2_mult_anca_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_VIP2_MULT_ANCA_SRC1      ,The last write DMA transaction has completed for channel vip2_mult_anca_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_a..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_VIP2_MULT_ANCA_SRC0      ,The last write DMA transaction has completed for channel vip2_mult_anca_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 11. "     INT_STAT_VIP2_MULT_PORTB_SRC15    ,The last write DMA transaction has completed for channel vip2_mult_portb_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_VIP2_MULT_PORTB_SRC14    ,The last write DMA transaction has completed for channel vip2_mult_portb_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_..." "0,1"
bitfld.long 0x00 9. "         INT_STAT_VIP2_MULT_PORTB_SRC13    ,The last write DMA transaction has completed for channel vip2_mult_portb_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_VIP2_MULT_PORTB_SRC12    ,The last write DMA transaction has completed for channel vip2_mult_portb_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP2_MULT_PORTB_SRC11    ,The last write DMA transaction has completed for channel vip2_mult_portb_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_VIP2_MULT_PORTB_SRC10    ,The last write DMA transaction has completed for channel vip2_mult_portb_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 5. "     INT_STAT_VIP2_MULT_PORTB_SRC9     ,The last write DMA transaction has completed for channel vip2_mult_portb_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_VIP2_MULT_PORTB_SRC8     ,The last write DMA transaction has completed for channel vip2_mult_portb_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_u..." "0,1"
bitfld.long 0x00 3. "         INT_STAT_VIP2_MULT_PORTB_SRC7     ,The last write DMA transaction has completed for channel vip2_mult_portb_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 2. "     INT_STAT_VIP2_MULT_PORTB_SRC6     ,The last write DMA transaction has completed for channel vip2_mult_portb_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_VIP2_MULT_PORTB_SRC5     ,The last write DMA transaction has completed for channel vip2_mult_portb_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_u..." "0,1"
bitfld.long 0x00 0. "         INT_STAT_VIP2_MULT_PORTB_SRC4     ,The last write DMA transaction has completed for channel vip2_mult_portb_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
group.long 0x64++0x3
line.long 0x00 "VIP_INT0_CHANNEL4_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 31. " INT_MASK_VIP2_MULT_ANCB_SRC3      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 3 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_VIP2_MULT_ANCB_SRC2      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 2 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_VIP2_MULT_ANCB_SRC1      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 1 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_VIP2_MULT_ANCB_SRC0      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 0 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_VIP2_MULT_ANCA_SRC15     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 15 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_VIP2_MULT_ANCA_SRC14     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 14 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_VIP2_MULT_ANCA_SRC13     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 13 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_VIP2_MULT_ANCA_SRC12     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 12 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "     INT_MASK_VIP2_MULT_ANCA_SRC11     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 11 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_VIP2_MULT_ANCA_SRC10     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 10 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "         INT_MASK_VIP2_MULT_ANCA_SRC9      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 9 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "     INT_MASK_VIP2_MULT_ANCA_SRC8      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 8 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_VIP2_MULT_ANCA_SRC7      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 7 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "         INT_MASK_VIP2_MULT_ANCA_SRC6      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 6 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_VIP2_MULT_ANCA_SRC5      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 5 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_VIP2_MULT_ANCA_SRC4      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 4 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_VIP2_MULT_ANCA_SRC3      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 3 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_VIP2_MULT_ANCA_SRC2      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 2 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_VIP2_MULT_ANCA_SRC1      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 1 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_VIP2_MULT_ANCA_SRC0      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 0 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_VIP2_MULT_PORTB_SRC15    ,The interrupt for Video Input 2 Port B Channel 15 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_VIP2_MULT_PORTB_SRC14    ,The interrupt for Video Input 2 Port B Channel 14 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_VIP2_MULT_PORTB_SRC13    ,The interrupt for Video Input 2 Port B Channel 13 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_VIP2_MULT_PORTB_SRC12    ,The interrupt for Video Input 2 Port B Channel 12 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP2_MULT_PORTB_SRC11    ,The interrupt for Video Input 2 Port B Channel 11 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_VIP2_MULT_PORTB_SRC10    ,The interrupt for Video Input 2 Port B Channel 10 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "     INT_MASK_VIP2_MULT_PORTB_SRC9     ,The interrupt for Video Input 2 Port B Channel 9 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_VIP2_MULT_PORTB_SRC8     ,The interrupt for Video Input 2 Port B Channel 8 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "         INT_MASK_VIP2_MULT_PORTB_SRC7     ,The interrupt for Video Input 2 Port B Channel 7 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "     INT_MASK_VIP2_MULT_PORTB_SRC6     ,The interrupt for Video Input 2 Port B Channel 6 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_VIP2_MULT_PORTB_SRC5     ,The interrupt for Video Input 2 Port B Channel 5 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "         INT_MASK_VIP2_MULT_PORTB_SRC4     ,The interrupt for Video Input 2 Port B Channel 4 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x68++0x3
line.long 0x00 "VIP_INT0_CHANNEL5_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 31. " INT_STAT_TRANSCODE2_CHROMA        ,The last write DMA transaction has completed for channel transcode2_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cli..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_TRANSCODE2_LUMA          ,The last write DMA transaction has completed for channel transcode2_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then t..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_TRANSCODE1_CHROMA        ,The last write DMA transaction has completed for channel transcode1_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the c..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_TRANSCODE1_LUMA          ,The last write DMA transaction has completed for channel transcode1_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the clien..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_AUX_IN                   ,The last read DMA transaction has occurred for channel aux_in and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have just been..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_PIP_FRAME                ,The last read DMA transaction has occurred for channel pip_frame and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have just been ..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_POST_COMP_WR             ,The last write DMA transaction has completed for channel post_comp_wr. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client hdmi_wrbk_out the..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_VBI_SD_VENC              ,The last read DMA transaction has occurred for channel vbi_sd_venc and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have just..." "0,1"
bitfld.long 0x00 22. "     INT_STAT_NF_LAST_CHROMA           ,The last write DMA transaction has completed for channel nf_last_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cl..." "0,1"
textline "                                     "
bitfld.long 0x00 21. " INT_STAT_NF_LAST_LUMA             ,The last write DMA transaction has completed for channel nf_last_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the client w..." "0,1"
bitfld.long 0x00 20. "         INT_STAT_NF_WRITE_CHROMA          ,The last write DMA transaction has completed for channel nf_write_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then t..." "0,1"
bitfld.long 0x00 19. "     INT_STAT_NF_WRITE_LUMA            ,The last write DMA transaction has completed for channel nf_write_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cli..." "0,1"
textline "                                     "
bitfld.long 0x00 18. " INT_STAT_OTHER                    ,This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
bitfld.long 0x00 17. "         INT_STAT_VIP2_PORTB_RGB           ,The last write DMA transaction has completed for channel vip2_portb_rgb. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo..." "0,1"
bitfld.long 0x00 16. "     INT_STAT_VIP2_PORTA_RGB           ,The last write DMA transaction has completed for channel vip2_porta_rgb. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_up_y t..." "0,1"
textline "                                     "
bitfld.long 0x00 15. " INT_STAT_VIP2_PORTB_CHROMA        ,The last write DMA transaction has completed for channel vip2_portb_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cli..." "0,1"
bitfld.long 0x00 14. "         INT_STAT_VIP2_PORTB_LUMA          ,The last write DMA transaction has completed for channel vip2_portb_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then t..." "0,1"
bitfld.long 0x00 13. "     INT_STAT_VIP2_PORTA_CHROMA        ,The last write DMA transaction has completed for channel vip2_porta_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the..." "0,1"
textline "                                     "
bitfld.long 0x00 12. " INT_STAT_VIP2_PORTA_LUMA          ,The last write DMA transaction has completed for channel vip2_porta_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the clien..." "0,1"
bitfld.long 0x00 11. "         INT_STAT_VIP2_MULT_ANCB_SRC15     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 10. "     INT_STAT_VIP2_MULT_ANCB_SRC14     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 9. " INT_STAT_VIP2_MULT_ANCB_SRC13     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_..." "0,1"
bitfld.long 0x00 8. "         INT_STAT_VIP2_MULT_ANCB_SRC12     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 7. "     INT_STAT_VIP2_MULT_ANCB_SRC11     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 6. " INT_STAT_VIP2_MULT_ANCB_SRC10     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_..." "0,1"
bitfld.long 0x00 5. "         INT_STAT_VIP2_MULT_ANCB_SRC9      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 4. "     INT_STAT_VIP2_MULT_ANCB_SRC8      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 3. " INT_STAT_VIP2_MULT_ANCB_SRC7      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_b..." "0,1"
bitfld.long 0x00 2. "         INT_STAT_VIP2_MULT_ANCB_SRC6      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 1. "     INT_STAT_VIP2_MULT_ANCB_SRC5      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 0. " INT_STAT_VIP2_MULT_ANCB_SRC4      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_b..." "0,1"
group.long 0x6C++0x3
line.long 0x00 "VIP_INT0_CHANNEL5_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 31. " INT_MASK_TRANSCODE2_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_TRANSCODE2_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_TRANSCODE1_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_TRANSCODE1_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_AUX_IN                   ,The interrupt for Auxilary Data for the Compositor Frame From Memory should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_PIP_FRAME                ,The interrupt for PIP Data for the Compositor Frame From Memory should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_POST_COMP_WR             ,The interrupt for Post Compositer Writeback to Memory should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_VBI_SD_VENC              ,The interrupt for SD Video Encoder VBI Data should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 22. "     INT_MASK_NF_LAST_CHROMA           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 21. " INT_MASK_NF_LAST_LUMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "         INT_MASK_NF_WRITE_CHROMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 19. "     INT_MASK_NF_WRITE_LUMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 18. " INT_MASK_OTHER                    ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "         INT_MASK_VIP2_PORTB_RGB           ,The interrupt for Video Input 2 Port B RGB Data should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 16. "     INT_MASK_VIP2_PORTA_RGB           ,The interrupt for Video Input 2 Port A RGB Data should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 15. " INT_MASK_VIP2_PORTB_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "         INT_MASK_VIP2_PORTB_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 13. "     INT_MASK_VIP2_PORTA_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 12. " INT_MASK_VIP2_PORTA_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "         INT_MASK_VIP2_MULT_ANCB_SRC15     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 15 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 10. "     INT_MASK_VIP2_MULT_ANCB_SRC14     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 14 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 9. " INT_MASK_VIP2_MULT_ANCB_SRC13     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 13 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "         INT_MASK_VIP2_MULT_ANCB_SRC12     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 12 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 7. "     INT_MASK_VIP2_MULT_ANCB_SRC11     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 11 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 6. " INT_MASK_VIP2_MULT_ANCB_SRC10     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 10 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "         INT_MASK_VIP2_MULT_ANCB_SRC9      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 9 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 4. "     INT_MASK_VIP2_MULT_ANCB_SRC8      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 8 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 3. " INT_MASK_VIP2_MULT_ANCB_SRC7      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 7 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "         INT_MASK_VIP2_MULT_ANCB_SRC6      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 6 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 1. "     INT_MASK_VIP2_MULT_ANCB_SRC5      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 5 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 0. " INT_MASK_VIP2_MULT_ANCB_SRC4      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 4 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x78++0x3
line.long 0x00 "VIP_INT0_CLIENT0_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 31. " INT_STAT_GRPX1_DATA               ,The client interface grpx1_data has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_COMP_WRBK                ,The client interface comp_wrbk has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will d..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_SC_OUT                   ,The client interface sc_out has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
textline "                                     "
bitfld.long 0x00 20. " INT_STAT_SC_IN_LUMA               ,The client interface sc_in_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
bitfld.long 0x00 19. "         INT_STAT_SC_IN_CHROMA             ,The client interface sc_in_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this wil..." "0,1"
bitfld.long 0x00 18. "     INT_STAT_PIP_WRBK                 ,The client interface pip_wrbk has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defaul..." "0,1"
textline "                                     "
bitfld.long 0x00 17. " INT_STAT_DEI_SC_OUT               ,The client interface dei_sc_out has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_DEI_HQ_MV_OUT            ,The client interface dei_hq_mv_out has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this wi..." "0,1"
bitfld.long 0x00 12. "     INT_STAT_DEI_HQ_MV_IN             ,The client interface dei_hq_mv_in has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will de..." "0,1"
textline "                                     "
bitfld.long 0x00 5. " INT_STAT_DEI_HQ_3_CHROMA          ,The client interface dei_hq_3_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will def..." "0,1"
bitfld.long 0x00 4. "         INT_STAT_DEI_HQ_3_LUMA            ,The client interface dei_hq_3_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this wi..." "0,1"
bitfld.long 0x00 3. "     INT_STAT_DEI_HQ_2_CHROMA          ,The client interface dei_hq_2_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will..." "0,1"
textline "                                     "
bitfld.long 0x00 2. " INT_STAT_DEI_HQ_2_LUMA            ,The client interface dei_hq_2_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defau..." "0,1"
bitfld.long 0x00 1. "         INT_STAT_DEI_HQ_1_LUMA            ,The client interface dei_hq_1_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this wi..." "0,1"
bitfld.long 0x00 0. "     INT_STAT_DEI_HQ_1_CHROMA          ,The client interface dei_hq_1_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will..." "0,1"
group.long 0x7C++0x3
line.long 0x00 "VIP_INT0_CLIENT0_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 31. " INT_MASK_GRPX1_DATA               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_COMP_WRBK                ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_SC_OUT                   ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 20. " INT_MASK_SC_IN_LUMA               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 19. "         INT_MASK_SC_IN_CHROMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "     INT_MASK_PIP_WRBK                 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 17. " INT_MASK_DEI_SC_OUT               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_DEI_HQ_MV_OUT            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "     INT_MASK_DEI_HQ_MV_IN             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 5. " INT_MASK_DEI_HQ_3_CHROMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 4. "         INT_MASK_DEI_HQ_3_LUMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "     INT_MASK_DEI_HQ_2_CHROMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 2. " INT_MASK_DEI_HQ_2_LUMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 1. "         INT_MASK_DEI_HQ_1_LUMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "     INT_MASK_DEI_HQ_1_CHROMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x80++0x3
line.long 0x00 "VIP_INT0_CLIENT1_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 29. " INT_STAT_VIP2_ANC_B               ,The client interface vip2_anc_b has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
bitfld.long 0x00 28. "         INT_STAT_VIP2_ANC_A               ,The client interface vip2_anc_a has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will ..." "0,1"
bitfld.long 0x00 27. "     INT_STAT_VIP1_ANC_B               ,The client interface vip1_anc_b has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defa..." "0,1"
textline "                                     "
bitfld.long 0x00 26. " INT_STAT_VIP1_ANC_A               ,The client interface vip1_anc_a has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
bitfld.long 0x00 25. "         INT_STAT_TRANS2_LUMA              ,The client interface trans2_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will..." "0,1"
bitfld.long 0x00 24. "     INT_STAT_TRANS2_CHROMA            ,The client interface trans2_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will d..." "0,1"
textline "                                     "
bitfld.long 0x00 23. " INT_STAT_TRANS1_LUMA              ,The client interface trans1_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default..." "0,1"
bitfld.long 0x00 22. "         INT_STAT_TRANS1_CHROMA            ,The client interface trans1_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this wi..." "0,1"
bitfld.long 0x00 21. "     INT_STAT_HDMI_WRBK_OUT            ,The client interface hdmi_wrbk_out has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will d..." "0,1"
textline "                                     "
bitfld.long 0x00 20. " INT_STAT_VPI_CTL                  ,The client interface vpi_ctl has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default to ..." "0,1"
bitfld.long 0x00 19. "         INT_STAT_VBI_SDVENC               ,The client interface vbi_sdvenc has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will ..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_NF_420_UV_OUT            ,The client interface nf_420_uv_out has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will d..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_NF_420_Y_OUT             ,The client interface nf_420_y_out has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defaul..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_NF_420_UV_IN             ,The client interface nf_420_uv_in has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this wil..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_NF_420_Y_IN              ,The client interface nf_420_y_in has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will def..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_NF_422_IN                ,The client interface nf_422_in has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default t..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_GRPX3_ST                 ,The client interface grpx3_st has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will de..." "0,1"
bitfld.long 0x00 11. "     INT_STAT_GRPX2_ST                 ,The client interface grpx2_st has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defaul..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_GRPX1_ST                 ,The client interface grpx1_st has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default to..." "0,1"
bitfld.long 0x00 9. "         INT_STAT_VIP2_UP_UV               ,The client interface vip2_up_uv has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will ..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_VIP2_UP_Y                ,The client interface vip2_up_y has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defau..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP2_LO_UV               ,The client interface vip2_lo_uv has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_VIP2_LO_Y                ,The client interface vip2_lo_y has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will d..." "0,1"
bitfld.long 0x00 5. "     INT_STAT_VIP1_UP_UV               ,The client interface vip1_up_uv has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defa..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_VIP1_UP_Y                ,The client interface vip1_up_y has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default t..." "0,1"
bitfld.long 0x00 3. "         INT_STAT_VIP1_LO_UV               ,The client interface vip1_lo_uv has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will ..." "0,1"
bitfld.long 0x00 2. "     INT_STAT_VIP1_LO_Y                ,The client interface vip1_lo_y has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defau..." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_GRPX3_DATA               ,The client interface grpx3_data has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
bitfld.long 0x00 0. "         INT_STAT_GRPX2_DATA               ,The client interface grpx2_data has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will ..." "0,1"
group.long 0x84++0x3
line.long 0x00 "VIP_INT0_CLIENT1_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 29. " INT_MASK_VIP2_ANC_B               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 28. "         INT_MASK_VIP2_ANC_A               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "     INT_MASK_VIP1_ANC_B               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 26. " INT_MASK_VIP1_ANC_A               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 25. "         INT_MASK_TRANS2_LUMA              ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "     INT_MASK_TRANS2_CHROMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 23. " INT_MASK_TRANS1_LUMA              ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 22. "         INT_MASK_TRANS1_CHROMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "     INT_MASK_HDMI_WRBK_OUT            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 20. " INT_MASK_VPI_CTL                  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 19. "         INT_MASK_VBI_SDVENC               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_NF_420_UV_OUT            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_NF_420_Y_OUT             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_NF_420_UV_IN             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_NF_420_Y_IN              ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_NF_422_IN                ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_GRPX3_ST                 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_GRPX2_ST                 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_GRPX1_ST                 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_VIP2_UP_UV               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_VIP2_UP_Y                ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP2_LO_UV               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_VIP2_LO_Y                ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "     INT_MASK_VIP1_UP_UV               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_VIP1_UP_Y                ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "         INT_MASK_VIP1_LO_UV               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "     INT_MASK_VIP1_LO_Y                ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_GRPX3_DATA               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "         INT_MASK_GRPX2_DATA               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x88++0x3
line.long 0x00 "VIP_INT0_LIST0_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 31. " INT_STAT_CONTROL_DESCRIPTOR_INT15 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 15. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear ..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_CONTROL_DESCRIPTOR_INT14 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 14. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field t..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_CONTROL_DESCRIPTOR_INT13 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 13. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to cl..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_CONTROL_DESCRIPTOR_INT12 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 12. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear ..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_CONTROL_DESCRIPTOR_INT11 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 11. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field t..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_CONTROL_DESCRIPTOR_INT10 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 10. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to cl..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_CONTROL_DESCRIPTOR_INT9  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 9. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear t..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_CONTROL_DESCRIPTOR_INT8  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 8. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to..." "0,1"
bitfld.long 0x00 23. "     INT_STAT_CONTROL_DESCRIPTOR_INT7  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 7. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to cle..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_CONTROL_DESCRIPTOR_INT6  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 6. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear t..." "0,1"
bitfld.long 0x00 21. "         INT_STAT_CONTROL_DESCRIPTOR_INT5  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 5. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to..." "0,1"
bitfld.long 0x00 20. "     INT_STAT_CONTROL_DESCRIPTOR_INT4  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 4. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to cle..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_CONTROL_DESCRIPTOR_INT3  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 3. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear t..." "0,1"
bitfld.long 0x00 18. "         INT_STAT_CONTROL_DESCRIPTOR_INT2  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 2. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_CONTROL_DESCRIPTOR_INT1  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 1. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to cle..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_CONTROL_DESCRIPTOR_INT0  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 0. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear t..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_LIST7_NOTIFY             ,A channel set by List 7 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this fi..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_LIST7_COMPLETE           ,List 7 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_LIST6_NOTIFY             ,A channel set by List 6 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to c..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_LIST6_COMPLETE           ,List 6 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
bitfld.long 0x00 11. "     INT_STAT_LIST5_NOTIFY             ,A channel set by List 5 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field ..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_LIST5_COMPLETE           ,List 5 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
bitfld.long 0x00 9. "         INT_STAT_LIST4_NOTIFY             ,A channel set by List 4 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this fi..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_LIST4_COMPLETE           ,List 4 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_LIST3_NOTIFY             ,A channel set by List 3 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to c..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_LIST3_COMPLETE           ,List 3 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
bitfld.long 0x00 5. "     INT_STAT_LIST2_NOTIFY             ,A channel set by List 2 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field ..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_LIST2_COMPLETE           ,List 2 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
bitfld.long 0x00 3. "         INT_STAT_LIST1_NOTIFY             ,A channel set by List 1 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this fi..." "0,1"
bitfld.long 0x00 2. "     INT_STAT_LIST1_COMPLETE           ,List 1 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_LIST0_NOTIFY             ,A channel set by List 0 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to c..." "0,1"
bitfld.long 0x00 0. "         INT_STAT_LIST0_COMPLETE           ,List 0 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
group.long 0x8C++0x3
line.long 0x00 "VIP_INT0_LIST0_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 31. " INT_MASK_CONTROL_DESCRIPTOR_INT15 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_CONTROL_DESCRIPTOR_INT14 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_CONTROL_DESCRIPTOR_INT13 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_CONTROL_DESCRIPTOR_INT12 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_CONTROL_DESCRIPTOR_INT11 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_CONTROL_DESCRIPTOR_INT10 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_CONTROL_DESCRIPTOR_INT9  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_CONTROL_DESCRIPTOR_INT8  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "     INT_MASK_CONTROL_DESCRIPTOR_INT7  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_CONTROL_DESCRIPTOR_INT6  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "         INT_MASK_CONTROL_DESCRIPTOR_INT5  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "     INT_MASK_CONTROL_DESCRIPTOR_INT4  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_CONTROL_DESCRIPTOR_INT3  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "         INT_MASK_CONTROL_DESCRIPTOR_INT2  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_CONTROL_DESCRIPTOR_INT1  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_CONTROL_DESCRIPTOR_INT0  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_LIST7_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_LIST7_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_LIST6_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_LIST6_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_LIST5_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_LIST5_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_LIST4_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_LIST4_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_LIST3_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_LIST3_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "     INT_MASK_LIST2_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_LIST2_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "         INT_MASK_LIST1_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "     INT_MASK_LIST1_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_LIST0_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "         INT_MASK_LIST0_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x90++0x3
line.long 0x00 "VIP_INT1_CHANNEL0_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int1."
bitfld.long 0x00 31. " INT_STAT_GRPX3                    ,The last write DMA transaction has completed for channel scaler_out. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client sc_out then the cli..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_GRPX2                    ,The last write DMA transaction has completed for channel scaler_out. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client sc_out then..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_GRPX1                    ,The last write DMA transaction has completed for channel scaler_out. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client sc_out then the..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_SCALER_OUT               ,The last write DMA transaction has completed for channel scaler_out. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client sc_out then the cli..." "0,1"
bitfld.long 0x00 19. "         INT_STAT_SCALER_CHROMA            ,The last write DMA transaction has completed for channel scaler_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the c..." "0,1"
bitfld.long 0x00 18. "     INT_STAT_SCALER_LUMA              ,The last write DMA transaction has completed for channel scaler_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the clien..." "0,1"
textline "                                     "
bitfld.long 0x00 17. " INT_STAT_HQ_SCALER                ,The last write DMA transaction has completed for channel hq_scaler. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client dei_sc_out then the ..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_HQ_MV_OUT                ,The last write DMA transaction has completed for channel hq_mv_out. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client dei_hq_mv_ou..." "0,1"
bitfld.long 0x00 12. "     INT_STAT_HQ_MV                    ,The last read DMA transaction has occurred for channel hq_mv and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have just been stor..." "0,1"
textline "                                     "
bitfld.long 0x00 5. " INT_STAT_HQ_VID3_CHROMA           ,The last write DMA transaction has completed for channel hq_vid3_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the client..." "0,1"
bitfld.long 0x00 4. "         INT_STAT_HQ_VID3_LUMA             ,The last write DMA transaction has completed for channel hq_vid3_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the ..." "0,1"
bitfld.long 0x00 3. "     INT_STAT_HQ_VID2_CHROMA           ,The last write DMA transaction has completed for channel hq_vid2_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cl..." "0,1"
textline "                                     "
bitfld.long 0x00 2. " INT_STAT_HQ_VID2_LUMA             ,The last write DMA transaction has completed for channel hq_vid2_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the client w..." "0,1"
bitfld.long 0x00 1. "         INT_STAT_HQ_VID1_CHROMA           ,The last write DMA transaction has completed for channel hq_vid1_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then th..." "0,1"
bitfld.long 0x00 0. "     INT_STAT_HQ_VID1_LUMA             ,The last write DMA transaction has completed for channel hq_vid1_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the clie..." "0,1"
group.long 0x94++0x3
line.long 0x00 "VIP_INT1_CHANNEL0_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int1."
bitfld.long 0x00 31. " INT_MASK_GRPX3                    ,The interrupt for Graphcis 2 Data should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_GRPX2                    ,The interrupt for Graphics 1 Data should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_GRPX1                    ,The interrupt for Graphics 0 Data should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_SCALER_OUT               ,The interrupt for Low Cost DEI Scalar Write to Memory should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 19. "         INT_MASK_SCALER_CHROMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "     INT_MASK_SCALER_LUMA              ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 17. " INT_MASK_HQ_SCALER                ,The interrupt for High Quality DEI Scaler Write to Memory should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_HQ_MV_OUT                ,The interrupt for Low Cost DEI Motion Vector Write should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "     INT_MASK_HQ_MV                    ,The interrupt for Low Cost DEI Motion Vector should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 5. " INT_MASK_HQ_VID3_CHROMA           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 4. "         INT_MASK_HQ_VID3_LUMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "     INT_MASK_HQ_VID2_CHROMA           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 2. " INT_MASK_HQ_VID2_LUMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 1. "         INT_MASK_HQ_VID1_CHROMA           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "     INT_MASK_HQ_VID1_LUMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x98++0x3
line.long 0x00 "VIP_INT1_CHANNEL1_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int1."
bitfld.long 0x00 31. " INT_STAT_VIP1_MULT_PORTB_SRC9     ,The last write DMA transaction has completed for channel vip1_mult_portb_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_u..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_VIP1_MULT_PORTB_SRC8     ,The last write DMA transaction has completed for channel vip1_mult_portb_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_VIP1_MULT_PORTB_SRC7     ,The last write DMA transaction has completed for channel vip1_mult_portb_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_VIP1_MULT_PORTB_SRC6     ,The last write DMA transaction has completed for channel vip1_mult_portb_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_u..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_VIP1_MULT_PORTB_SRC5     ,The last write DMA transaction has completed for channel vip1_mult_portb_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_VIP1_MULT_PORTB_SRC4     ,The last write DMA transaction has completed for channel vip1_mult_portb_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_VIP1_MULT_PORTB_SRC3     ,The last write DMA transaction has completed for channel vip1_mult_portb_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_u..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_VIP1_MULT_PORTB_SRC2     ,The last write DMA transaction has completed for channel vip1_mult_portb_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 23. "     INT_STAT_VIP1_MULT_PORTB_SRC1     ,The last write DMA transaction has completed for channel vip1_mult_portb_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_VIP1_MULT_PORTB_SRC0     ,The last write DMA transaction has completed for channel vip1_mult_portb_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_u..." "0,1"
bitfld.long 0x00 21. "         INT_STAT_VIP1_MULT_PORTA_SRC15    ,The last write DMA transaction has completed for channel vip1_mult_porta_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 20. "     INT_STAT_VIP1_MULT_PORTA_SRC14    ,The last write DMA transaction has completed for channel vip1_mult_porta_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_VIP1_MULT_PORTA_SRC13    ,The last write DMA transaction has completed for channel vip1_mult_porta_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_..." "0,1"
bitfld.long 0x00 18. "         INT_STAT_VIP1_MULT_PORTA_SRC12    ,The last write DMA transaction has completed for channel vip1_mult_porta_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_VIP1_MULT_PORTA_SRC11    ,The last write DMA transaction has completed for channel vip1_mult_porta_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_VIP1_MULT_PORTA_SRC10    ,The last write DMA transaction has completed for channel vip1_mult_porta_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_VIP1_MULT_PORTA_SRC9     ,The last write DMA transaction has completed for channel vip1_mult_porta_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_VIP1_MULT_PORTA_SRC8     ,The last write DMA transaction has completed for channel vip1_mult_porta_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_VIP1_MULT_PORTA_SRC7     ,The last write DMA transaction has completed for channel vip1_mult_porta_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_y..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_VIP1_MULT_PORTA_SRC6     ,The last write DMA transaction has completed for channel vip1_mult_porta_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 11. "     INT_STAT_VIP1_MULT_PORTA_SRC5     ,The last write DMA transaction has completed for channel vip1_mult_porta_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_VIP1_MULT_PORTA_SRC4     ,The last write DMA transaction has completed for channel vip1_mult_porta_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_y..." "0,1"
bitfld.long 0x00 9. "         INT_STAT_VIP1_MULT_PORTA_SRC3     ,The last write DMA transaction has completed for channel vip1_mult_porta_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_VIP1_MULT_PORTA_SRC2     ,The last write DMA transaction has completed for channel vip1_mult_porta_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP1_MULT_PORTA_SRC1     ,The last write DMA transaction has completed for channel vip1_mult_porta_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_y..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_VIP1_MULT_PORTA_SRC0     ,The last write DMA transaction has completed for channel vip1_mult_porta_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
group.long 0x9C++0x3
line.long 0x00 "VIP_INT1_CHANNEL1_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int1."
bitfld.long 0x00 31. " INT_MASK_VIP1_MULT_PORTB_SRC9     ,The interrupt for Video Input 1 Port B Channel 9 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_VIP1_MULT_PORTB_SRC8     ,The interrupt for Video Input 1 Port B Channel 8 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_VIP1_MULT_PORTB_SRC7     ,The interrupt for Video Input 1 Port B Channel 7 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_VIP1_MULT_PORTB_SRC6     ,The interrupt for Video Input 1 Port B Channel 6 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_VIP1_MULT_PORTB_SRC5     ,The interrupt for Video Input 1 Port B Channel 5 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_VIP1_MULT_PORTB_SRC4     ,The interrupt for Video Input 1 Port B Channel 4 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_VIP1_MULT_PORTB_SRC3     ,The interrupt for Video Input 1 Port B Channel 3 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_VIP1_MULT_PORTB_SRC2     ,The interrupt for Video Input 1 Port B Channel 2 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "     INT_MASK_VIP1_MULT_PORTB_SRC1     ,The interrupt for Video Input 1 Port B Channel 1 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_VIP1_MULT_PORTB_SRC0     ,The interrupt for Video Input 1 Port B Channel 0 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "         INT_MASK_VIP1_MULT_PORTA_SRC15    ,The interrupt for Video Input 1 Port A Channel 15 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "     INT_MASK_VIP1_MULT_PORTA_SRC14    ,The interrupt for Video Input 1 Port A Channel 14 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_VIP1_MULT_PORTA_SRC13    ,The interrupt for Video Input 1 Port A Channel 13 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "         INT_MASK_VIP1_MULT_PORTA_SRC12    ,The interrupt for Video Input 1 Port A Channel 12 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_VIP1_MULT_PORTA_SRC11    ,The interrupt for Video Input 1 Port A Channel 11 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_VIP1_MULT_PORTA_SRC10    ,The interrupt for Video Input 1 Port A Channel 10 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_VIP1_MULT_PORTA_SRC9     ,The interrupt for Video Input 1 Port A Channel 9 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_VIP1_MULT_PORTA_SRC8     ,The interrupt for Video Input 1 Port A Channel 8 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_VIP1_MULT_PORTA_SRC7     ,The interrupt for Video Input 1 Port A Channel 7 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_VIP1_MULT_PORTA_SRC6     ,The interrupt for Video Input 1 Port A Channel 6 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_VIP1_MULT_PORTA_SRC5     ,The interrupt for Video Input 1 Port A Channel 5 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_VIP1_MULT_PORTA_SRC4     ,The interrupt for Video Input 1 Port A Channel 4 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_VIP1_MULT_PORTA_SRC3     ,The interrupt for Video Input 1 Port A Channel 3 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_VIP1_MULT_PORTA_SRC2     ,The interrupt for Video Input 1 Port A Channel 2 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP1_MULT_PORTA_SRC1     ,The interrupt for Video Input 1 Port A Channel 1 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_VIP1_MULT_PORTA_SRC0     ,The interrupt for Video Input 1 Port A Channel 0 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0xA0++0x3
line.long 0x00 "VIP_INT1_CHANNEL2_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int1."
bitfld.long 0x00 31. " INT_STAT_VIP1_MULT_ANCB_SRC9      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_b..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_VIP1_MULT_ANCB_SRC8      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_VIP1_MULT_ANCB_SRC7      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_VIP1_MULT_ANCB_SRC6      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_b..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_VIP1_MULT_ANCB_SRC5      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_VIP1_MULT_ANCB_SRC4      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_VIP1_MULT_ANCB_SRC3      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_b..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_VIP1_MULT_ANCB_SRC2      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 23. "     INT_STAT_VIP1_MULT_ANCB_SRC1      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_VIP1_MULT_ANCB_SRC0      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_b..." "0,1"
bitfld.long 0x00 21. "         INT_STAT_VIP1_MULT_ANCA_SRC15     ,The last write DMA transaction has completed for channel vip1_mult_anca_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 20. "     INT_STAT_VIP1_MULT_ANCA_SRC14     ,The last write DMA transaction has completed for channel vip1_mult_anca_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_VIP1_MULT_ANCA_SRC13     ,The last write DMA transaction has completed for channel vip1_mult_anca_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_..." "0,1"
bitfld.long 0x00 18. "         INT_STAT_VIP1_MULT_ANCA_SRC12     ,The last write DMA transaction has completed for channel vip1_mult_anca_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_VIP1_MULT_ANCA_SRC11     ,The last write DMA transaction has completed for channel vip1_mult_anca_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_VIP1_MULT_ANCA_SRC10     ,The last write DMA transaction has completed for channel vip1_mult_anca_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_VIP1_MULT_ANCA_SRC9      ,The last write DMA transaction has completed for channel vip1_mult_anca_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_VIP1_MULT_ANCA_SRC8      ,The last write DMA transaction has completed for channel vip1_mult_anca_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_VIP1_MULT_ANCA_SRC7      ,The last write DMA transaction has completed for channel vip1_mult_anca_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_a..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_VIP1_MULT_ANCA_SRC6      ,The last write DMA transaction has completed for channel vip1_mult_anca_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 11. "     INT_STAT_VIP1_MULT_ANCA_SRC5      ,The last write DMA transaction has completed for channel vip1_mult_anca_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_VIP1_MULT_ANCA_SRC4      ,The last write DMA transaction has completed for channel vip1_mult_anca_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_a..." "0,1"
bitfld.long 0x00 9. "         INT_STAT_VIP1_MULT_ANCA_SRC3      ,The last write DMA transaction has completed for channel vip1_mult_anca_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_VIP1_MULT_ANCA_SRC2      ,The last write DMA transaction has completed for channel vip1_mult_anca_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_a..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP1_MULT_ANCA_SRC1      ,The last write DMA transaction has completed for channel vip1_mult_anca_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_a..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_VIP1_MULT_ANCA_SRC0      ,The last write DMA transaction has completed for channel vip1_mult_anca_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 5. "     INT_STAT_VIP1_MULT_PORTB_SRC15    ,The last write DMA transaction has completed for channel vip1_mult_portb_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_VIP1_MULT_PORTB_SRC14    ,The last write DMA transaction has completed for channel vip1_mult_portb_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_..." "0,1"
bitfld.long 0x00 3. "         INT_STAT_VIP1_MULT_PORTB_SRC13    ,The last write DMA transaction has completed for channel vip1_mult_portb_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 2. "     INT_STAT_VIP1_MULT_PORTB_SRC12    ,The last write DMA transaction has completed for channel vip1_mult_portb_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1..." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_VIP1_MULT_PORTB_SRC11    ,The last write DMA transaction has completed for channel vip1_mult_portb_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_..." "0,1"
bitfld.long 0x00 0. "         INT_STAT_VIP1_MULT_PORTB_SRC10    ,The last write DMA transaction has completed for channel vip1_mult_portb_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
group.long 0xA4++0x3
line.long 0x00 "VIP_INT1_CHANNEL2_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int1."
bitfld.long 0x00 31. " INT_MASK_VIP1_MULT_ANCB_SRC9      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 9 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_VIP1_MULT_ANCB_SRC8      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 8 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_VIP1_MULT_ANCB_SRC7      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 7 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_VIP1_MULT_ANCB_SRC6      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 6 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_VIP1_MULT_ANCB_SRC5      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 5 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_VIP1_MULT_ANCB_SRC4      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 4 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_VIP1_MULT_ANCB_SRC3      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 3 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_VIP1_MULT_ANCB_SRC2      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 2 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "     INT_MASK_VIP1_MULT_ANCB_SRC1      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 1 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_VIP1_MULT_ANCB_SRC0      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 0 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "         INT_MASK_VIP1_MULT_ANCA_SRC15     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 15 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "     INT_MASK_VIP1_MULT_ANCA_SRC14     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 14 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_VIP1_MULT_ANCA_SRC13     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 13 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "         INT_MASK_VIP1_MULT_ANCA_SRC12     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 12 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_VIP1_MULT_ANCA_SRC11     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 11 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_VIP1_MULT_ANCA_SRC10     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 10 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_VIP1_MULT_ANCA_SRC9      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 9 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_VIP1_MULT_ANCA_SRC8      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 8 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_VIP1_MULT_ANCA_SRC7      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 7 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_VIP1_MULT_ANCA_SRC6      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 6 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_VIP1_MULT_ANCA_SRC5      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 5 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_VIP1_MULT_ANCA_SRC4      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 4 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_VIP1_MULT_ANCA_SRC3      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 3 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_VIP1_MULT_ANCA_SRC2      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 2 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP1_MULT_ANCA_SRC1      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 1 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_VIP1_MULT_ANCA_SRC0      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 0 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "     INT_MASK_VIP1_MULT_PORTB_SRC15    ,The interrupt for Video Input 1 Port B Channel 15 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_VIP1_MULT_PORTB_SRC14    ,The interrupt for Video Input 1 Port B Channel 14 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "         INT_MASK_VIP1_MULT_PORTB_SRC13    ,The interrupt for Video Input 1 Port B Channel 13 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "     INT_MASK_VIP1_MULT_PORTB_SRC12    ,The interrupt for Video Input 1 Port B Channel 12 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_VIP1_MULT_PORTB_SRC11    ,The interrupt for Video Input 1 Port B Channel 11 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "         INT_MASK_VIP1_MULT_PORTB_SRC10    ,The interrupt for Video Input 1 Port B Channel 10 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0xA8++0x3
line.long 0x00 "VIP_INT1_CHANNEL3_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int1."
bitfld.long 0x00 31. " INT_STAT_VIP2_MULT_PORTB_SRC3     ,The last write DMA transaction has completed for channel vip2_mult_portb_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_u..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_VIP2_MULT_PORTB_SRC2     ,The last write DMA transaction has completed for channel vip2_mult_portb_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_VIP2_MULT_PORTB_SRC1     ,The last write DMA transaction has completed for channel vip2_mult_portb_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_VIP2_MULT_PORTB_SRC0     ,The last write DMA transaction has completed for channel vip2_mult_portb_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_u..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_VIP2_MULT_PORTA_SRC15    ,The last write DMA transaction has completed for channel vip2_mult_porta_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_VIP2_MULT_PORTA_SRC14    ,The last write DMA transaction has completed for channel vip2_mult_porta_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_VIP2_MULT_PORTA_SRC13    ,The last write DMA transaction has completed for channel vip2_mult_porta_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_VIP2_MULT_PORTA_SRC12    ,The last write DMA transaction has completed for channel vip2_mult_porta_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 23. "     INT_STAT_VIP2_MULT_PORTA_SRC11    ,The last write DMA transaction has completed for channel vip2_mult_porta_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_VIP2_MULT_PORTA_SRC10    ,The last write DMA transaction has completed for channel vip2_mult_porta_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_..." "0,1"
bitfld.long 0x00 21. "         INT_STAT_VIP2_MULT_PORTA_SRC9     ,The last write DMA transaction has completed for channel vip2_mult_porta_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 20. "     INT_STAT_VIP2_MULT_PORTA_SRC8     ,The last write DMA transaction has completed for channel vip2_mult_porta_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_VIP2_MULT_PORTA_SRC7     ,The last write DMA transaction has completed for channel vip2_mult_porta_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_y..." "0,1"
bitfld.long 0x00 18. "         INT_STAT_VIP2_MULT_PORTA_SRC6     ,The last write DMA transaction has completed for channel vip2_mult_porta_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_VIP2_MULT_PORTA_SRC5     ,The last write DMA transaction has completed for channel vip2_mult_porta_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_VIP2_MULT_PORTA_SRC4     ,The last write DMA transaction has completed for channel vip2_mult_porta_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_y..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_VIP2_MULT_PORTA_SRC3     ,The last write DMA transaction has completed for channel vip2_mult_porta_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_VIP2_MULT_PORTA_SRC2     ,The last write DMA transaction has completed for channel vip2_mult_porta_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_VIP2_MULT_PORTA_SRC1     ,The last write DMA transaction has completed for channel vip2_mult_porta_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_y..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_VIP2_MULT_PORTA_SRC0     ,The last write DMA transaction has completed for channel vip2_mult_porta_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 11. "     INT_STAT_VIP1_PORTB_RGB           ,The last write DMA transaction has completed for channel vip1_portb_rgb. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_lo_y t..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_VIP1_PORTA_RGB           ,The last write DMA transaction has completed for channel vip1_porta_rgb. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_up_y then ..." "0,1"
bitfld.long 0x00 9. "         INT_STAT_VIP1_PORTB_CHROMA        ,The last write DMA transaction has completed for channel vip1_portb_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_VIP1_PORTB_LUMA          ,The last write DMA transaction has completed for channel vip1_portb_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the c..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP1_PORTA_CHROMA        ,The last write DMA transaction has completed for channel vip1_porta_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cli..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_VIP1_PORTA_LUMA          ,The last write DMA transaction has completed for channel vip1_porta_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then t..." "0,1"
bitfld.long 0x00 5. "     INT_STAT_VIP1_MULT_ANCB_SRC15     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_VIP1_MULT_ANCB_SRC14     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_..." "0,1"
bitfld.long 0x00 3. "         INT_STAT_VIP1_MULT_ANCB_SRC13     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 2. "     INT_STAT_VIP1_MULT_ANCB_SRC12     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_..." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_VIP1_MULT_ANCB_SRC11     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip1_anc_..." "0,1"
bitfld.long 0x00 0. "         INT_STAT_VIP1_MULT_ANCB_SRC10     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
group.long 0xAC++0x3
line.long 0x00 "VIP_INT1_CHANNEL3_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int1."
bitfld.long 0x00 31. " INT_MASK_VIP2_MULT_PORTB_SRC3     ,The interrupt for Video Input 2 Port B Channel 3 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_VIP2_MULT_PORTB_SRC2     ,The interrupt for Video Input 2 Port B Channel 2 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_VIP2_MULT_PORTB_SRC1     ,The interrupt for Video Input 2 Port B Channel 1 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_VIP2_MULT_PORTB_SRC0     ,The interrupt for Video Input 2 Port B Channel 0 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_VIP2_MULT_PORTA_SRC15    ,The interrupt for Video Input 2 Port A Channel 15 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_VIP2_MULT_PORTA_SRC14    ,The interrupt for Video Input 2 Port A Channel 14 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_VIP2_MULT_PORTA_SRC13    ,The interrupt for Video Input 2 Port A Channel 13 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_VIP2_MULT_PORTA_SRC12    ,The interrupt for Video Input 2 Port A Channel 12 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "     INT_MASK_VIP2_MULT_PORTA_SRC11    ,The interrupt for Video Input 2 Port A Channel 11 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_VIP2_MULT_PORTA_SRC10    ,The interrupt for Video Input 2 Port A Channel 10 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "         INT_MASK_VIP2_MULT_PORTA_SRC9     ,The interrupt for Video Input 2 Port A Channel 9 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "     INT_MASK_VIP2_MULT_PORTA_SRC8     ,The interrupt for Video Input 2 Port A Channel 8 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_VIP2_MULT_PORTA_SRC7     ,The interrupt for Video Input 2 Port A Channel 7 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "         INT_MASK_VIP2_MULT_PORTA_SRC6     ,The interrupt for Video Input 2 Port A Channel 6 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_VIP2_MULT_PORTA_SRC5     ,The interrupt for Video Input 2 Port A Channel 5 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_VIP2_MULT_PORTA_SRC4     ,The interrupt for Video Input 2 Port A Channel 4 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_VIP2_MULT_PORTA_SRC3     ,The interrupt for Video Input 2 Port A Channel 3 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_VIP2_MULT_PORTA_SRC2     ,The interrupt for Video Input 2 Port A Channel 2 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_VIP2_MULT_PORTA_SRC1     ,The interrupt for Video Input 2 Port A Channel 1 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_VIP2_MULT_PORTA_SRC0     ,The interrupt for Video Input 2 Port A Channel 0 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_VIP1_PORTB_RGB           ,The interrupt for Video Input 1 Port B RGB Data should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_VIP1_PORTA_RGB           ,The interrupt for Video Input 1 Port A RGB Data should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_VIP1_PORTB_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_VIP1_PORTB_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP1_PORTA_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_VIP1_PORTA_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "     INT_MASK_VIP1_MULT_ANCB_SRC15     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 15 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_VIP1_MULT_ANCB_SRC14     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 14 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "         INT_MASK_VIP1_MULT_ANCB_SRC13     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 13 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "     INT_MASK_VIP1_MULT_ANCB_SRC12     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 12 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_VIP1_MULT_ANCB_SRC11     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 11 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "         INT_MASK_VIP1_MULT_ANCB_SRC10     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 10 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0xB0++0x3
line.long 0x00 "VIP_INT1_CHANNEL4_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int1."
bitfld.long 0x00 31. " INT_STAT_VIP2_MULT_ANCB_SRC3      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_b..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_VIP2_MULT_ANCB_SRC2      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_VIP2_MULT_ANCB_SRC1      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_VIP2_MULT_ANCB_SRC0      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_b..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_VIP2_MULT_ANCA_SRC15     ,The last write DMA transaction has completed for channel vip2_mult_anca_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_VIP2_MULT_ANCA_SRC14     ,The last write DMA transaction has completed for channel vip2_mult_anca_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_VIP2_MULT_ANCA_SRC13     ,The last write DMA transaction has completed for channel vip2_mult_anca_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_VIP2_MULT_ANCA_SRC12     ,The last write DMA transaction has completed for channel vip2_mult_anca_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 23. "     INT_STAT_VIP2_MULT_ANCA_SRC11     ,The last write DMA transaction has completed for channel vip2_mult_anca_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_VIP2_MULT_ANCA_SRC10     ,The last write DMA transaction has completed for channel vip2_mult_anca_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_..." "0,1"
bitfld.long 0x00 21. "         INT_STAT_VIP2_MULT_ANCA_SRC9      ,The last write DMA transaction has completed for channel vip2_mult_anca_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 20. "     INT_STAT_VIP2_MULT_ANCA_SRC8      ,The last write DMA transaction has completed for channel vip2_mult_anca_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_VIP2_MULT_ANCA_SRC7      ,The last write DMA transaction has completed for channel vip2_mult_anca_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_a..." "0,1"
bitfld.long 0x00 18. "         INT_STAT_VIP2_MULT_ANCA_SRC6      ,The last write DMA transaction has completed for channel vip2_mult_anca_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_VIP2_MULT_ANCA_SRC5      ,The last write DMA transaction has completed for channel vip2_mult_anca_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_VIP2_MULT_ANCA_SRC4      ,The last write DMA transaction has completed for channel vip2_mult_anca_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_a..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_VIP2_MULT_ANCA_SRC3      ,The last write DMA transaction has completed for channel vip2_mult_anca_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_VIP2_MULT_ANCA_SRC2      ,The last write DMA transaction has completed for channel vip2_mult_anca_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_VIP2_MULT_ANCA_SRC1      ,The last write DMA transaction has completed for channel vip2_mult_anca_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_a..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_VIP2_MULT_ANCA_SRC0      ,The last write DMA transaction has completed for channel vip2_mult_anca_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 11. "     INT_STAT_VIP2_MULT_PORTB_SRC15    ,The last write DMA transaction has completed for channel vip2_mult_portb_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_VIP2_MULT_PORTB_SRC14    ,The last write DMA transaction has completed for channel vip2_mult_portb_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_..." "0,1"
bitfld.long 0x00 9. "         INT_STAT_VIP2_MULT_PORTB_SRC13    ,The last write DMA transaction has completed for channel vip2_mult_portb_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_VIP2_MULT_PORTB_SRC12    ,The last write DMA transaction has completed for channel vip2_mult_portb_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP2_MULT_PORTB_SRC11    ,The last write DMA transaction has completed for channel vip2_mult_portb_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_VIP2_MULT_PORTB_SRC10    ,The last write DMA transaction has completed for channel vip2_mult_portb_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
bitfld.long 0x00 5. "     INT_STAT_VIP2_MULT_PORTB_SRC9     ,The last write DMA transaction has completed for channel vip2_mult_portb_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_VIP2_MULT_PORTB_SRC8     ,The last write DMA transaction has completed for channel vip2_mult_portb_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_u..." "0,1"
bitfld.long 0x00 3. "         INT_STAT_VIP2_MULT_PORTB_SRC7     ,The last write DMA transaction has completed for channel vip2_mult_portb_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 2. "     INT_STAT_VIP2_MULT_PORTB_SRC6     ,The last write DMA transaction has completed for channel vip2_mult_portb_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_VIP2_MULT_PORTB_SRC5     ,The last write DMA transaction has completed for channel vip2_mult_portb_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo_u..." "0,1"
bitfld.long 0x00 0. "         INT_STAT_VIP2_MULT_PORTB_SRC4     ,The last write DMA transaction has completed for channel vip2_mult_portb_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
group.long 0xB4++0x3
line.long 0x00 "VIP_INT1_CHANNEL4_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int1."
bitfld.long 0x00 31. " INT_MASK_VIP2_MULT_ANCB_SRC3      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 3 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_VIP2_MULT_ANCB_SRC2      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 2 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_VIP2_MULT_ANCB_SRC1      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 1 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_VIP2_MULT_ANCB_SRC0      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 0 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_VIP2_MULT_ANCA_SRC15     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 15 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_VIP2_MULT_ANCA_SRC14     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 14 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_VIP2_MULT_ANCA_SRC13     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 13 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_VIP2_MULT_ANCA_SRC12     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 12 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "     INT_MASK_VIP2_MULT_ANCA_SRC11     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 11 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_VIP2_MULT_ANCA_SRC10     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 10 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "         INT_MASK_VIP2_MULT_ANCA_SRC9      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 9 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "     INT_MASK_VIP2_MULT_ANCA_SRC8      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 8 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_VIP2_MULT_ANCA_SRC7      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 7 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "         INT_MASK_VIP2_MULT_ANCA_SRC6      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 6 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_VIP2_MULT_ANCA_SRC5      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 5 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_VIP2_MULT_ANCA_SRC4      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 4 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_VIP2_MULT_ANCA_SRC3      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 3 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_VIP2_MULT_ANCA_SRC2      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 2 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_VIP2_MULT_ANCA_SRC1      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 1 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_VIP2_MULT_ANCA_SRC0      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 0 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_VIP2_MULT_PORTB_SRC15    ,The interrupt for Video Input 2 Port B Channel 15 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_VIP2_MULT_PORTB_SRC14    ,The interrupt for Video Input 2 Port B Channel 14 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_VIP2_MULT_PORTB_SRC13    ,The interrupt for Video Input 2 Port B Channel 13 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_VIP2_MULT_PORTB_SRC12    ,The interrupt for Video Input 2 Port B Channel 12 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP2_MULT_PORTB_SRC11    ,The interrupt for Video Input 2 Port B Channel 11 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_VIP2_MULT_PORTB_SRC10    ,The interrupt for Video Input 2 Port B Channel 10 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "     INT_MASK_VIP2_MULT_PORTB_SRC9     ,The interrupt for Video Input 2 Port B Channel 9 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_VIP2_MULT_PORTB_SRC8     ,The interrupt for Video Input 2 Port B Channel 8 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "         INT_MASK_VIP2_MULT_PORTB_SRC7     ,The interrupt for Video Input 2 Port B Channel 7 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "     INT_MASK_VIP2_MULT_PORTB_SRC6     ,The interrupt for Video Input 2 Port B Channel 6 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_VIP2_MULT_PORTB_SRC5     ,The interrupt for Video Input 2 Port B Channel 5 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "         INT_MASK_VIP2_MULT_PORTB_SRC4     ,The interrupt for Video Input 2 Port B Channel 4 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0xB8++0x3
line.long 0x00 "VIP_INT1_CHANNEL5_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int1."
bitfld.long 0x00 31. " INT_STAT_TRANSCODE2_CHROMA        ,The last write DMA transaction has completed for channel transcode2_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cli..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_TRANSCODE2_LUMA          ,The last write DMA transaction has completed for channel transcode2_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then t..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_TRANSCODE1_CHROMA        ,The last write DMA transaction has completed for channel transcode1_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_TRANSCODE1_LUMA          ,The last write DMA transaction has completed for channel transcode1_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the clien..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_AUX_IN                   ,The last read DMA transaction has occurred for channel aux_in and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have just been..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_PIP_FRAME                ,The last read DMA transaction has occurred for channel pip_frame and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have just been ..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_POST_COMP_WR             ,The last write DMA transaction has completed for channel post_comp_wr. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client hdmi_wrbk_out the..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_VBI_SD_VENC              ,The last read DMA transaction has occurred for channel vbi_sd_venc and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have just..." "0,1"
bitfld.long 0x00 22. "     INT_STAT_NF_LAST_CHROMA           ,The last write DMA transaction has completed for channel nf_last_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cl..." "0,1"
textline "                                     "
bitfld.long 0x00 21. " INT_STAT_NF_LAST_LUMA             ,The last write DMA transaction has completed for channel nf_last_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the client w..." "0,1"
bitfld.long 0x00 20. "         INT_STAT_NF_WRITE_CHROMA          ,The last write DMA transaction has completed for channel nf_write_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then t..." "0,1"
bitfld.long 0x00 19. "     INT_STAT_NF_WRITE_LUMA            ,The last write DMA transaction has completed for channel nf_write_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cli..." "0,1"
textline "                                     "
bitfld.long 0x00 18. " INT_STAT_OTHER                    ,This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
bitfld.long 0x00 17. "         INT_STAT_VIP2_PORTB_RGB           ,The last write DMA transaction has completed for channel vip2_portb_rgb. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_lo..." "0,1"
bitfld.long 0x00 16. "     INT_STAT_VIP2_PORTA_RGB           ,The last write DMA transaction has completed for channel vip2_porta_rgb. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_up_y t..." "0,1"
textline "                                     "
bitfld.long 0x00 15. " INT_STAT_VIP2_PORTB_CHROMA        ,The last write DMA transaction has completed for channel vip2_portb_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the cli..." "0,1"
bitfld.long 0x00 14. "         INT_STAT_VIP2_PORTB_LUMA          ,The last write DMA transaction has completed for channel vip2_portb_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then t..." "0,1"
bitfld.long 0x00 13. "     INT_STAT_VIP2_PORTA_CHROMA        ,The last write DMA transaction has completed for channel vip2_porta_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the..." "0,1"
textline "                                     "
bitfld.long 0x00 12. " INT_STAT_VIP2_PORTA_LUMA          ,The last write DMA transaction has completed for channel vip2_porta_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client then the clien..." "0,1"
bitfld.long 0x00 11. "         INT_STAT_VIP2_MULT_ANCB_SRC15     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 10. "     INT_STAT_VIP2_MULT_ANCB_SRC14     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 9. " INT_STAT_VIP2_MULT_ANCB_SRC13     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_..." "0,1"
bitfld.long 0x00 8. "         INT_STAT_VIP2_MULT_ANCB_SRC12     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client v..." "0,1"
bitfld.long 0x00 7. "     INT_STAT_VIP2_MULT_ANCB_SRC11     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_..." "0,1"
textline "                                     "
bitfld.long 0x00 6. " INT_STAT_VIP2_MULT_ANCB_SRC10     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_..." "0,1"
bitfld.long 0x00 5. "         INT_STAT_VIP2_MULT_ANCB_SRC9      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 4. "     INT_STAT_VIP2_MULT_ANCB_SRC8      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 3. " INT_STAT_VIP2_MULT_ANCB_SRC7      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_b..." "0,1"
bitfld.long 0x00 2. "         INT_STAT_VIP2_MULT_ANCB_SRC6      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vi..." "0,1"
bitfld.long 0x00 1. "     INT_STAT_VIP2_MULT_ANCB_SRC5      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_a..." "0,1"
textline "                                     "
bitfld.long 0x00 0. " INT_STAT_VIP2_MULT_ANCB_SRC4      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client vip2_anc_b..." "0,1"
group.long 0xBC++0x3
line.long 0x00 "VIP_INT1_CHANNEL5_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int1."
bitfld.long 0x00 31. " INT_MASK_TRANSCODE2_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_TRANSCODE2_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_TRANSCODE1_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_TRANSCODE1_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_AUX_IN                   ,The interrupt for Auxilary Data for the Compositor Frame From Memory should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_PIP_FRAME                ,The interrupt for PIP Data for the Compositor Frame From Memory should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_POST_COMP_WR             ,The interrupt for Post Compositer Writeback to Memory should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_VBI_SD_VENC              ,The interrupt for SD Video Encoder VBI Data should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 22. "     INT_MASK_NF_LAST_CHROMA           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 21. " INT_MASK_NF_LAST_LUMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "         INT_MASK_NF_WRITE_CHROMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 19. "     INT_MASK_NF_WRITE_LUMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 18. " INT_MASK_OTHER                    ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "         INT_MASK_VIP2_PORTB_RGB           ,The interrupt for Video Input 2 Port B RGB Data should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 16. "     INT_MASK_VIP2_PORTA_RGB           ,The interrupt for Video Input 2 Port A RGB Data should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 15. " INT_MASK_VIP2_PORTB_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "         INT_MASK_VIP2_PORTB_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 13. "     INT_MASK_VIP2_PORTA_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 12. " INT_MASK_VIP2_PORTA_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "         INT_MASK_VIP2_MULT_ANCB_SRC15     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 15 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 10. "     INT_MASK_VIP2_MULT_ANCB_SRC14     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 14 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 9. " INT_MASK_VIP2_MULT_ANCB_SRC13     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 13 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "         INT_MASK_VIP2_MULT_ANCB_SRC12     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 12 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 7. "     INT_MASK_VIP2_MULT_ANCB_SRC11     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 11 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 6. " INT_MASK_VIP2_MULT_ANCB_SRC10     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 10 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "         INT_MASK_VIP2_MULT_ANCB_SRC9      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 9 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 4. "     INT_MASK_VIP2_MULT_ANCB_SRC8      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 8 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 3. " INT_MASK_VIP2_MULT_ANCB_SRC7      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 7 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "         INT_MASK_VIP2_MULT_ANCB_SRC6      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 6 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 1. "     INT_MASK_VIP2_MULT_ANCB_SRC5      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 5 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 0. " INT_MASK_VIP2_MULT_ANCB_SRC4      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 4 should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0xC8++0x3
line.long 0x00 "VIP_INT1_CLIENT0_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int1."
bitfld.long 0x00 31. " INT_MASK_TRANSCODE2_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_TRANSCODE2_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_TRANSCODE1_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_TRANSCODE1_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_AUX_IN                   ,The interrupt for Auxilary Data for the Compositor Frame From Memory should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_PIP_FRAME                ,The interrupt for PIP Data for the Compositor Frame From Memory should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_POST_COMP_WR             ,The interrupt for Post Compositer Writeback to Memory should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_VBI_SD_VENC              ,The interrupt for SD Video Encoder VBI Data should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 22. "     INT_MASK_NF_LAST_CHROMA           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 21. " INT_MASK_NF_LAST_LUMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "         INT_MASK_NF_WRITE_CHROMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 19. "     INT_MASK_NF_WRITE_LUMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 18. " INT_MASK_NF_READ                  ,The interrupt for Noise Filter Input Data 422 Interleaved should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "         INT_MASK_VIP2_PORTB_RGB           ,The interrupt for Video Input 2 Port B RGB Data should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 16. "     INT_MASK_VIP2_PORTA_RGB           ,The interrupt for Video Input 2 Port A RGB Data should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 15. " INT_STAT_DEI_HQ_MV_OUT            ,The client interface dei_hq_mv_out has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defau..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_DEI_HQ_MV_IN             ,The client interface dei_hq_mv_in has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this wil..." "0,1"
bitfld.long 0x00 5. "     INT_STAT_DEI_HQ_3_CHROMA          ,The client interface dei_hq_3_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_DEI_HQ_3_LUMA            ,The client interface dei_hq_3_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defau..." "0,1"
bitfld.long 0x00 3. "         INT_STAT_DEI_HQ_2_CHROMA          ,The client interface dei_hq_2_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this ..." "0,1"
bitfld.long 0x00 2. "     INT_STAT_DEI_HQ_2_LUMA            ,The client interface dei_hq_2_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will d..." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_DEI_HQ_1_LUMA            ,The client interface dei_hq_1_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defau..." "0,1"
bitfld.long 0x00 0. "         INT_STAT_DEI_HQ_1_CHROMA          ,The client interface dei_hq_1_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this ..." "0,1"
group.long 0xCC++0x3
line.long 0x00 "VIP_INT1_CLIENT0_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int1."
bitfld.long 0x00 31. " INT_MASK_GRPX1_DATA               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_COMP_WRBK                ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_SC_OUT                   ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 20. " INT_MASK_SC_IN_LUMA               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 19. "         INT_MASK_SC_IN_CHROMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "     INT_MASK_PIP_WRBK                 ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 17. " INT_MASK_DEI_SC_OUT               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_DEI_HQ_MV_OUT            ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "     INT_MASK_DEI_HQ_MV_IN             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 5. " INT_MASK_DEI_HQ_3_CHROMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 4. "         INT_MASK_DEI_HQ_3_LUMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "     INT_MASK_DEI_HQ_2_CHROMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 2. " INT_MASK_DEI_HQ_2_LUMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 1. "         INT_MASK_DEI_HQ_1_LUMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "     INT_MASK_DEI_HQ_1_CHROMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0xD0++0x3
line.long 0x00 "VIP_INT1_CLIENT1_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int1."
bitfld.long 0x00 29. " INT_STAT_VIP2_ANC_B               ,The client interface vip2_anc_b has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
bitfld.long 0x00 28. "         INT_STAT_VIP2_ANC_A               ,The client interface vip2_anc_a has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will ..." "0,1"
bitfld.long 0x00 27. "     INT_STAT_VIP1_ANC_B               ,The client interface vip1_anc_b has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defa..." "0,1"
textline "                                     "
bitfld.long 0x00 26. " INT_STAT_VIP1_ANC_A               ,The client interface vip1_anc_a has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
bitfld.long 0x00 25. "         INT_STAT_TRANS2_LUMA              ,The client interface trans2_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will..." "0,1"
bitfld.long 0x00 24. "     INT_STAT_TRANS2_CHROMA            ,The client interface trans2_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will d..." "0,1"
textline "                                     "
bitfld.long 0x00 23. " INT_STAT_TRANS1_LUMA              ,The client interface trans1_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default..." "0,1"
bitfld.long 0x00 22. "         INT_STAT_TRANS1_CHROMA            ,The client interface trans1_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this wi..." "0,1"
bitfld.long 0x00 21. "     INT_STAT_HDMI_WRBK_OUT            ,The client interface hdmi_wrbk_out has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will d..." "0,1"
textline "                                     "
bitfld.long 0x00 20. " INT_STAT_VPI_CTL                  ,The client interface vpi_ctl has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default to ..." "0,1"
bitfld.long 0x00 19. "         INT_STAT_VBI_SDVENC               ,The client interface vbi_sdvenc has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will ..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_NF_420_UV_OUT            ,The client interface nf_420_uv_out has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will d..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_NF_420_Y_OUT             ,The client interface nf_420_y_out has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defaul..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_NF_420_UV_IN             ,The client interface nf_420_uv_in has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this wil..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_NF_420_Y_IN              ,The client interface nf_420_y_in has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will def..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_NF_422_IN                ,The client interface nf_422_in has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default t..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_GRPX3_ST                 ,The client interface grpx3_st has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will de..." "0,1"
bitfld.long 0x00 11. "     INT_STAT_GRPX2_ST                 ,The client interface grpx2_st has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defaul..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_GRPX1_ST                 ,The client interface grpx1_st has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default to..." "0,1"
bitfld.long 0x00 9. "         INT_STAT_VIP2_UP_UV               ,The client interface vip2_up_uv has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will ..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_VIP2_UP_Y                ,The client interface vip2_up_y has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defau..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP2_LO_UV               ,The client interface vip2_lo_uv has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_VIP2_LO_Y                ,The client interface vip2_lo_y has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will d..." "0,1"
bitfld.long 0x00 5. "     INT_STAT_VIP1_UP_UV               ,The client interface vip1_up_uv has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defa..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_VIP1_UP_Y                ,The client interface vip1_up_y has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default t..." "0,1"
bitfld.long 0x00 3. "         INT_STAT_VIP1_LO_UV               ,The client interface vip1_lo_uv has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will ..." "0,1"
bitfld.long 0x00 2. "     INT_STAT_VIP1_LO_Y                ,The client interface vip1_lo_y has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will defau..." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_GRPX3_DATA               ,The client interface grpx3_data has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will default ..." "0,1"
bitfld.long 0x00 0. "         INT_STAT_GRPX2_DATA               ,The client interface grpx2_data has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this will ..." "0,1"
group.long 0xD4++0x3
line.long 0x00 "VIP_INT1_CLIENT1_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int1."
bitfld.long 0x00 29. " INT_MASK_VIP2_ANC_B               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 28. "         INT_MASK_VIP2_ANC_A               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "     INT_MASK_VIP1_ANC_B               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 26. " INT_MASK_VIP1_ANC_A               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 25. "         INT_MASK_TRANS2_LUMA              ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "     INT_MASK_TRANS2_CHROMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 23. " INT_MASK_TRANS1_LUMA              ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 22. "         INT_MASK_TRANS1_CHROMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "     INT_MASK_HDMI_WRBK_OUT            ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 20. " INT_MASK_VPI_CTL                  ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 19. "         INT_MASK_VBI_SDVENC               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_NF_420_UV_OUT            ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_NF_420_Y_OUT             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_NF_420_UV_IN             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_NF_420_Y_IN              ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_NF_422_IN                ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_GRPX3_ST                 ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_GRPX2_ST                 ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_GRPX1_ST                 ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_VIP2_UP_UV               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_VIP2_UP_Y                ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP2_LO_UV               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_VIP2_LO_Y                ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "     INT_MASK_VIP1_UP_UV               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_VIP1_UP_Y                ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "         INT_MASK_VIP1_LO_UV               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "     INT_MASK_VIP1_LO_Y                ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_GRPX3_DATA               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "         INT_MASK_GRPX2_DATA               ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0xD8++0x3
line.long 0x00 "VIP_INT1_LIST0_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int1."
bitfld.long 0x00 31. " INT_STAT_CONTROL_DESCRIPTOR_INT15 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 15. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear ..." "0,1"
bitfld.long 0x00 30. "         INT_STAT_CONTROL_DESCRIPTOR_INT14 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 14. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field t..." "0,1"
bitfld.long 0x00 29. "     INT_STAT_CONTROL_DESCRIPTOR_INT13 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 13. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to cl..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_CONTROL_DESCRIPTOR_INT12 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 12. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear ..." "0,1"
bitfld.long 0x00 27. "         INT_STAT_CONTROL_DESCRIPTOR_INT11 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 11. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field t..." "0,1"
bitfld.long 0x00 26. "     INT_STAT_CONTROL_DESCRIPTOR_INT10 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 10. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to cl..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_CONTROL_DESCRIPTOR_INT9  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 9. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear t..." "0,1"
bitfld.long 0x00 24. "         INT_STAT_CONTROL_DESCRIPTOR_INT8  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 8. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to..." "0,1"
bitfld.long 0x00 23. "     INT_STAT_CONTROL_DESCRIPTOR_INT7  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 7. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to cle..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_CONTROL_DESCRIPTOR_INT6  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 6. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear t..." "0,1"
bitfld.long 0x00 21. "         INT_STAT_CONTROL_DESCRIPTOR_INT5  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 5. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to..." "0,1"
bitfld.long 0x00 20. "     INT_STAT_CONTROL_DESCRIPTOR_INT4  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 4. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to cle..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_CONTROL_DESCRIPTOR_INT3  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 3. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear t..." "0,1"
bitfld.long 0x00 18. "         INT_STAT_CONTROL_DESCRIPTOR_INT2  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 2. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to..." "0,1"
bitfld.long 0x00 17. "     INT_STAT_CONTROL_DESCRIPTOR_INT1  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 1. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to cle..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_CONTROL_DESCRIPTOR_INT0  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 0. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear t..." "0,1"
bitfld.long 0x00 15. "         INT_STAT_LIST7_NOTIFY             ,A channel set by List 7 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this fi..." "0,1"
bitfld.long 0x00 14. "     INT_STAT_LIST7_COMPLETE           ,List 7 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_LIST6_NOTIFY             ,A channel set by List 6 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to c..." "0,1"
bitfld.long 0x00 12. "         INT_STAT_LIST6_COMPLETE           ,List 6 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
bitfld.long 0x00 11. "     INT_STAT_LIST5_NOTIFY             ,A channel set by List 5 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field ..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_LIST5_COMPLETE           ,List 5 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
bitfld.long 0x00 9. "         INT_STAT_LIST4_NOTIFY             ,A channel set by List 4 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this fi..." "0,1"
bitfld.long 0x00 8. "     INT_STAT_LIST4_COMPLETE           ,List 4 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_LIST3_NOTIFY             ,A channel set by List 3 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to c..." "0,1"
bitfld.long 0x00 6. "         INT_STAT_LIST3_COMPLETE           ,List 3 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
bitfld.long 0x00 5. "     INT_STAT_LIST2_NOTIFY             ,A channel set by List 2 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field ..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_LIST2_COMPLETE           ,List 2 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
bitfld.long 0x00 3. "         INT_STAT_LIST1_NOTIFY             ,A channel set by List 1 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this fi..." "0,1"
bitfld.long 0x00 2. "     INT_STAT_LIST1_COMPLETE           ,List 1 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_LIST0_NOTIFY             ,A channel set by List 0 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to c..." "0,1"
bitfld.long 0x00 0. "         INT_STAT_LIST0_COMPLETE           ,List 0 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
group.long 0xDC++0x3
line.long 0x00 "VIP_INT1_LIST0_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int1."
bitfld.long 0x00 31. " INT_MASK_CONTROL_DESCRIPTOR_INT15 ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "         INT_MASK_CONTROL_DESCRIPTOR_INT14 ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "     INT_MASK_CONTROL_DESCRIPTOR_INT13 ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_CONTROL_DESCRIPTOR_INT12 ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "         INT_MASK_CONTROL_DESCRIPTOR_INT11 ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "     INT_MASK_CONTROL_DESCRIPTOR_INT10 ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_CONTROL_DESCRIPTOR_INT9  ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "         INT_MASK_CONTROL_DESCRIPTOR_INT8  ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "     INT_MASK_CONTROL_DESCRIPTOR_INT7  ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_CONTROL_DESCRIPTOR_INT6  ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "         INT_MASK_CONTROL_DESCRIPTOR_INT5  ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "     INT_MASK_CONTROL_DESCRIPTOR_INT4  ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_CONTROL_DESCRIPTOR_INT3  ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "         INT_MASK_CONTROL_DESCRIPTOR_INT2  ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "     INT_MASK_CONTROL_DESCRIPTOR_INT1  ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_CONTROL_DESCRIPTOR_INT0  ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "         INT_MASK_LIST7_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "     INT_MASK_LIST7_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_LIST6_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "         INT_MASK_LIST6_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "     INT_MASK_LIST5_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_LIST5_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "         INT_MASK_LIST4_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "     INT_MASK_LIST4_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_LIST3_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "         INT_MASK_LIST3_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "     INT_MASK_LIST2_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_LIST2_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "         INT_MASK_LIST1_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "     INT_MASK_LIST1_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_LIST0_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "         INT_MASK_LIST0_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int1. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x200++0x3
line.long 0x00 "VIP_PERF_MON0,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: vip2_anc_b 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: vip2_anc_b 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x204++0x3
line.long 0x00 "VIP_PERF_MON1,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x208++0x3
line.long 0x00 "VIP_PERF_MON2,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x20C++0x3
line.long 0x00 "VIP_PERF_MON3,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x210++0x3
line.long 0x00 "VIP_PERF_MON4,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x214++0x3
line.long 0x00 "VIP_PERF_MON5,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x218++0x3
line.long 0x00 "VIP_PERF_MON6,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x21C++0x3
line.long 0x00 "VIP_PERF_MON7,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x220++0x3
line.long 0x00 "VIP_PERF_MON8,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x224++0x3
line.long 0x00 "VIP_PERF_MON9,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x228++0x3
line.long 0x00 "VIP_PERF_MON10,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x22C++0x3
line.long 0x00 "VIP_PERF_MON11,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x230++0x3
line.long 0x00 "VIP_PERF_MON12,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x234++0x3
line.long 0x00 "VIP_PERF_MON13,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x238++0x3
line.long 0x00 "VIP_PERF_MON14,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x23C++0x3
line.long 0x00 "VIP_PERF_MON15,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x240++0x3
line.long 0x00 "VIP_PERF_MON16,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x244++0x3
line.long 0x00 "VIP_PERF_MON17,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x248++0x3
line.long 0x00 "VIP_PERF_MON18,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x24C++0x3
line.long 0x00 "VIP_PERF_MON19,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x250++0x3
line.long 0x00 "VIP_PERF_MON20,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x254++0x3
line.long 0x00 "VIP_PERF_MON21,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x258++0x3
line.long 0x00 "VIP_PERF_MON22,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x25C++0x3
line.long 0x00 "VIP_PERF_MON23,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x260++0x3
line.long 0x00 "VIP_PERF_MON24,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x264++0x3
line.long 0x00 "VIP_PERF_MON25,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x268++0x3
line.long 0x00 "VIP_PERF_MON26,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x26C++0x3
line.long 0x00 "VIP_PERF_MON27,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x270++0x3
line.long 0x00 "VIP_PERF_MON28,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x274++0x3
line.long 0x00 "VIP_PERF_MON29,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x278++0x3
line.long 0x00 "VIP_PERF_MON30,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x27C++0x3
line.long 0x00 "VIP_PERF_MON31,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x280++0x3
line.long 0x00 "VIP_PERF_MON32,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3: vip1_lo_y" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3: vip1_lo_y" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x284++0x3
line.long 0x00 "VIP_PERF_MON33,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: vip1_lo_y 3: vip1_lo_uv" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: vip1_lo_y 3: vip1_lo_uv" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x288++0x3
line.long 0x00 "VIP_PERF_MON34,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip1_lo_y 1: 2: vip1_lo_uv 3: vip1_up_y" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip1_lo_y 1: 2: vip1_lo_uv 3: vip1_up_y" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x28C++0x3
line.long 0x00 "VIP_PERF_MON35,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip1_lo_uv 1: vip1_lo_y 2: vip1_up_y 3: vip1_up_uv" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip1_lo_uv 1: vip1_lo_y 2: vip1_up_y 3: vip1_up_uv" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x290++0x3
line.long 0x00 "VIP_PERF_MON36,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip1_up_y 1: vip1_lo_uv 2: vip1_up_uv 3: vip2_lo_y" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip1_up_y 1: vip1_lo_uv 2: vip1_up_uv 3: vip2_lo_y" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x294++0x3
line.long 0x00 "VIP_PERF_MON37,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip1_up_uv 1: vip1_up_y 2: vip2_lo_y 3: vip2_lo_uv" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ," "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip1_up_uv 1: vip1_up_y 2: vip2_lo_y 3: vip2_lo_uv" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x298++0x3
line.long 0x00 "VIP_PERF_MON38,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip2_lo_y 1: vip1_up_uv 2: vip2_lo_uv 3: vip2_up_y" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip2_lo_y 1: vip1_up_uv 2: vip2_lo_uv 3: vip2_up_y" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x29C++0x3
line.long 0x00 "VIP_PERF_MON39,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip2_lo_uv 1: vip2_lo_y 2: vip2_up_y 3: vip2_up_uv" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip2_lo_uv 1: vip2_lo_y 2: vip2_up_y 3: vip2_up_uv" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2A0++0x3
line.long 0x00 "VIP_PERF_MON40,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip2_up_y 1: vip2_lo_uv 2: vip2_up_uv 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip2_up_y 1: vip2_lo_uv 2: vip2_up_uv 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2A4++0x3
line.long 0x00 "VIP_PERF_MON41,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip2_up_uv 1: vip2_up_y 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip2_up_uv 1: vip2_up_y 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2A8++0x3
line.long 0x00 "VIP_PERF_MON42,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: vip2_up_uv 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: vip2_up_uv 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2AC++0x3
line.long 0x00 "VIP_PERF_MON43,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2B0++0x3
line.long 0x00 "VIP_PERF_MON44,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2B4++0x3
line.long 0x00 "VIP_PERF_MON45,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2B8++0x3
line.long 0x00 "VIP_PERF_MON46,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2BC++0x3
line.long 0x00 "VIP_PERF_MON47,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2C0++0x3
line.long 0x00 "VIP_PERF_MON48,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2C4++0x3
line.long 0x00 "VIP_PERF_MON49,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2C8++0x3
line.long 0x00 "VIP_PERF_MON50,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3: vpi_ctl" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3: vpi_ctl" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2CC++0x3
line.long 0x00 "VIP_PERF_MON51,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: vpi_ctl 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: vpi_ctl 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2D0++0x3
line.long 0x00 "VIP_PERF_MON52,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vpi_ctl 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vpi_ctl 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2D4++0x3
line.long 0x00 "VIP_PERF_MON53,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: vpi_ctl 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: vpi_ctl 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2D8++0x3
line.long 0x00 "VIP_PERF_MON54,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2DC++0x3
line.long 0x00 "VIP_PERF_MON55,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2E0++0x3
line.long 0x00 "VIP_PERF_MON56,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ," "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ," "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ," "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2E4++0x3
line.long 0x00 "VIP_PERF_MON57,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: 1: 2: vip1_anc_a 3: vip1_anc_b" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: 1: 2: vip1_anc_a 3: vip1_anc_b" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2E8++0x3
line.long 0x00 "VIP_PERF_MON58,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip1_anc_a 1: 2: vip1_anc_b 3: vip2_anc_a" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip1_anc_a 1: 2: vip1_anc_b 3: vip2_anc_a" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2EC++0x3
line.long 0x00 "VIP_PERF_MON59,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip1_anc_b 1: vip1_anc_a 2: vip2_anc_a 3: vip2_anc_b" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip1_anc_b 1: vip1_anc_a 2: vip2_anc_a 3: vip2_anc_b" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2F0++0x3
line.long 0x00 "VIP_PERF_MON60,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip2_anc_a 1: vip1_anc_b 2: vip2_anc_b 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip2_anc_a 1: vip1_anc_b 2: vip2_anc_b 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2F4++0x3
line.long 0x00 "VIP_PERF_MON61,The register can be used to capture timing differences between events in the VPDMA\\n"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                      ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Minimum Value 2: Maximum Value 3: Last Value" "0,1,2,3"
bitfld.long 0x00 28.--29. "         STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. 0: vip2_anc_b 1: vip2_anc_a 2: 3:" "0,1,2,3"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                      ,Sets the client whose event starts the performance monitor counter. 0: vip2_anc_b 1: vip2_anc_a 2: 3:" "0,1,2,3"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. 0: command request 1: command accept 2: data request 3: data rcvd 4: data empty 5: data full 6: frame start 7: frame end" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "     CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x388++0x3
line.long 0x00 "VIP0_LO_Y_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x38C++0x3
line.long 0x00 "VIP0_LO_UV_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x390++0x3
line.long 0x00 "VIP0_UP_Y_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x394++0x3
line.long 0x00 "VIP0_UP_UV_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x398++0x3
line.long 0x00 "VIP1_LO_Y_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x39C++0x3
line.long 0x00 "VIP1_LO_UV_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x3A0++0x3
line.long 0x00 "VIP1_UP_Y_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x3A4++0x3
line.long 0x00 "VIP1_UP_UV_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x3D0++0x3
line.long 0x00 "VPI_CTL_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x3E8++0x3
line.long 0x00 "VIP0_ANC_A_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x3EC++0x3
line.long 0x00 "VIP0_ANC_B_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x3F0++0x3
line.long 0x00 "VIP1_ANC_A_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..This value is only accurate for the current frame. The internal counters used to ca..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x3F4++0x3
line.long 0x00 "VIP1_ANC_B_CSTAT,The register holds status information and control for the client.\\n"
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                         ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used to cal..."
hexmask.long.byte 0x00 16.--23. 1. "        REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal counters used ..."
bitfld.long 0x00 15. "    BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                        ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "         FRAME_START                       ,The source of the start frame event for the client.\\n0 : Change in value of hdmi_field_id\\n1 : Change in value of dvo2_field_id\\n2 : Change in value of hdcomp_field_id\\n3 : Change in value of sd_field_id\..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree.end
tree.open "VIP1_top_level"
tree "VIP1_top_level"
base ad:0x48970000
width 28.
rgroup.long 0x0++0x3
line.long 0x00 "VIP_CLKC_PID,This register follows the format described in PDR3.5"
bitfld.long 0x00 30.--31. " SCHEME                            ,The scheme of the register used. This indicates the PDR3.5 Method" "0,1,2,3"
hexmask.long.word 0x00 16.--27. 1. "         FUNC                              ,The function of the module being used"
bitfld.long 0x00 11.--15. "  RTL                               ,RTL Release Version The PDR release number of this IP" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 8.--10. " MAJOR                             ,ajor Release Number" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6.--7. "         CUSTOM                            ,Custom IP" "0,1,2,3"
bitfld.long 0x00 0.--5. "     MINOR                             ,inor Release Number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x10++0x3
line.long 0x00 "VIP_SYSCONFIG,"
bitfld.long 0x00 4.--5. " STANDBYMODE                       ,Configuration of the local initiator state management mode. By definition, initiator may generate read/write transaction as long as it is out of STANDBY state 0x0: Force-standby mode: local initiator is unconditional..." "0,1,2,3"
bitfld.long 0x00 2.--3. "         IDLEMODE                          ,Configuration of the local target state management mode. By definition, target can handle read/write transaction as long as it is out of IDLE state 0x0 : Force-idle mode: local target's idle state follows (ac..." "0,1,2,3"
group.long 0x20++0x3
line.long 0x00 "VIP_INTC_INTR0_STATUS_RAW0,INTC INTR0 Interrupt Status Raw/Set Register 0. This register contains the raw interrupt status as defined in HL0.8"
bitfld.long 0x00 21. " VIP2_PARSER_INT_RAW               ,VIP2 Parser Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 20. "         VIP1_PARSER_INT_RAW               ,VIP1 Parser Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 16. "     VPDMA_INT0_DESCRIPTOR_RAW         ,VPDMA INT0 Descriptor Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 15. " VPDMA_INT0_LIST7_NOTIFY_RAW       ,VPDMA INT0 List7 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 14. "         VPDMA_INT0_LIST7_COMPLETE_RAW     ,VPDMA INT0 List7 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 13. "     VPDMA_INT0_LIST6_NOTIFY_RAW       ,VPDMA INT0 List6 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 12. " VPDMA_INT0_LIST6_COMPLETE_RAW     ,VPDMA INT0 List6 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 11. "         VPDMA_INT0_LIST5_NOTIFY_RAW       ,VPDMA INT0 List5 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 10. "     VPDMA_INT0_LIST5_COMPLETE_RAW     ,VPDMA INT0 List5 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 9. " VPDMA_INT0_LIST4_NOTIFY_RAW       ,VPDMA INT0 List4 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 8. "         VPDMA_INT0_LIST4_COMPLETE_RAW     ,VPDMA INT0 List4 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "     VPDMA_INT0_LIST3_NOTIFY_RAW       ,VPDMA INT0 List3 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 6. " VPDMA_INT0_LIST3_COMPLETE_RAW     ,VPDMA INT0 List3 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "         VPDMA_INT0_LIST2_NOTIFY_RAW       ,VPDMA INT0 List2 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "     VPDMA_INT0_LIST2_COMPLETE_RAW     ,VPDMA INT0 List2 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VPDMA_INT0_LIST1_NOTIFY_RAW       ,VPDMA INT0 List1 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "         VPDMA_INT0_LIST1_COMPLETE_RAW     ,VPDMA INT0 List1 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "     VPDMA_INT0_LIST0_NOTIFY_RAW       ,VPDMA INT0 List0 Notify Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 0. " VPDMA_INT0_LIST0_COMPLETE_RAW     ,VPDMA INT0 List0 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
group.long 0x24++0x3
line.long 0x00 "VIP_INTC_INTR0_STATUS_RAW1,INTC INTR0 Interrupt Status Raw/Set Register 1. This register contains the raw interrupt status as defined in HL0.8"
bitfld.long 0x00 25. " VIP2_CHR_DS_2_UV_ERR_INT_RAW      ,VIP2 Chroma Downsampler 2 UV Error Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 24. "         VIP2_CHR_DS_1_UV_ERR_INT_RAW      ,VIP2 Chroma Downsampler 1 UV Error Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 23. "     VIP1_CHR_DS_2_UV_ERR_INT_RAW      ,VIP1 Chroma Downsampler 2 UV Error Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 22. " VIP1_CHR_DS_1_UV_ERR_INT_RAW      ,VIP1 Chroma Downsampler 1 UV Error Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "         VPDMA_INT0_CLIENT_RAW             ,VPDMA INT0 Client Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "     VPDMA_INT0_CHANNEL_GROUP5_RAW     ,VPDMA INT0 Channel Group5 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 4. " VPDMA_INT0_CHANNEL_GROUP4_RAW     ,VPDMA INT0 Channel Group4 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 3. "         VPDMA_INT0_CHANNEL_GROUP3_RAW     ,VPDMA INT0 Channel Group3 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "     VPDMA_INT0_CHANNEL_GROUP2_RAW     ,VPDMA INT0 Channel Group2 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 1. " VPDMA_INT0_CHANNEL_GROUP1_RAW     ,VPDMA INT0 Channel Group1 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 0. "         VPDMA_INT0_CHANNEL_GROUP0_RAW     ,VPDMA INT0 Channel Group0 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
group.long 0x28++0x3
line.long 0x00 "VIP_INTC_INTR0_STATUS_ENA0,INTC INTR0 Interrupt Status Enabled/Clear Register 0. This register contains the enabled interrupt status as defined in HL0.8"
bitfld.long 0x00 21. " VIP2_PARSER_INT_ENA               ,VIP2 Parser Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
bitfld.long 0x00 20. "         VIP1_PARSER_INT_ENA               ,VIP1 Parser Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
bitfld.long 0x00 16. "     VPDMA_INT0_DESCRIPTOR_ENA         ,VPDMA INT0 Descriptor Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 15. " VPDMA_INT0_LIST7_NOTIFY_ENA       ,VPDMA INT0 List7 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 14. "         VPDMA_INT0_LIST7_COMPLETE_ENA     ,VPDMA INT0 List7 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 13. "     VPDMA_INT0_LIST6_NOTIFY_ENA       ,VPDMA INT0 List6 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 12. " VPDMA_INT0_LIST6_COMPLETE_ENA     ,VPDMA INT0 List6 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 11. "         VPDMA_INT0_LIST5_NOTIFY_ENA       ,VPDMA INT0 List5 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 10. "     VPDMA_INT0_LIST5_COMPLETE_ENA     ,VPDMA INT0 List5 Complete Enabled Statust Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 9. " VPDMA_INT0_LIST4_NOTIFY_ENA       ,VPDMA INT0 List4 Notify Enabled Statust Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 8. "         VPDMA_INT0_LIST4_COMPLETE_ENA     ,VPDMA INT0 List4 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "     VPDMA_INT0_LIST3_NOTIFY_ENA       ,VPDMA INT0 List3 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 6. " VPDMA_INT0_LIST3_COMPLETE_ENA     ,VPDMA INT0 List3 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "         VPDMA_INT0_LIST2_NOTIFY_ENA       ,VPDMA INT0 List2 Notify Enabled Statust Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "     VPDMA_INT0_LIST2_COMPLETE_ENA     ,VPDMA INT0 List2 Complete Enabled Statust Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VPDMA_INT0_LIST1_NOTIFY_ENA       ,VPDMA INT0 List1 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "         VPDMA_INT0_LIST1_COMPLETE_ENA     ,VPDMA INT0 List1 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "     VPDMA_INT0_LIST0_NOTIFY_ENA       ,VPDMA INT0 List0 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 0. " VPDMA_INT0_LIST0_COMPLETE_ENA     ,VPDMA INT0 List0 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
group.long 0x2C++0x3
line.long 0x00 "VIP_INTC_INTR0_STATUS_ENA1,INTC INTR0 Interrupt Status Enabled/Clear Register 1. This register contains the enabled interrupt status as defined in HL0.8"
bitfld.long 0x00 25. " VIP2_CHR_DS_2_UV_ERR_INT_ENA      ,VIP2 Chroma Downsampler 2 UV Error Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
bitfld.long 0x00 24. "         VIP2_CHR_DS_1_UV_ERR_INT_ENA      ,VIP2 Chroma Downsampler 1 UV Error Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
bitfld.long 0x00 23. "     VIP1_CHR_DS_2_UV_ERR_INT_ENA      ,VIP1 Chroma Downsampler 2 UV Error Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 22. " VIP1_CHR_DS_1_UV_ERR_INT_ENA      ,VIP1 Chroma Downsampler 1 UV Error Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "         VPDMA_INT0_CLIENT_ENA             ,VPDMA INT0 Client Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "     VPDMA_INT0_CHANNEL_GROUP5_ENA     ,VPDMA INT0 Channel Group5 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 4. " VPDMA_INT0_CHANNEL_GROUP4_ENA     ,VPDMA INT0 Channel Group4 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 3. "         VPDMA_INT0_CHANNEL_GROUP3_ENA     ,VPDMA INT0 Channel Group3 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "     VPDMA_INT0_CHANNEL_GROUP2_ENA     ,VPDMA INT0 Channel Group3 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 1. " VPDMA_INT0_CHANNEL_GROUP1_ENA     ,VPDMA INT0 Channel Group1 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 0. "         VPDMA_INT0_CHANNEL_GROUP0_ENA     ,VPDMA INT0 Channel Group0 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
group.long 0x30++0x3
line.long 0x00 "VIP_INTC_INTR0_ENA_SET0,INTC INTR0 Interrupt Enable/Set Register 0. This register contains the interrupt enable status/set as defined in HL0.8"
bitfld.long 0x00 21. " VIP2_PARSER_INT_ENA_SET           ,VIP2 Parser Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 20. "         VIP1_PARSER_INT_ENA_SET           ,VIP1 Parser Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 16. "     VPDMA_INT0_DESCRIPTOR_ENA_SET     ,VPDMA INT0 Descriptor Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 15. " VPDMA_INT0_LIST7_NOTIFY_ENA_SET   ,VPDMA INT0 List7 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 14. "         VPDMA_INT0_LIST7_COMPLETE_ENA_SET ,VPDMA INT0 List7 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 13. "     VPDMA_INT0_LIST6_NOTIFY_ENA_SET   ,VPDMA INT0 List6 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 12. " VPDMA_INT0_LIST6_COMPLETE_ENA_SET ,VPDMA INT0 List6 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 11. "         VPDMA_INT0_LIST5_NOTIFY_ENA_SET   ,VPDMA INT0 List5 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 10. "     VPDMA_INT0_LIST5_COMPLETE_ENA_SET ,VPDMA INT0 List5 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 9. " VPDMA_INT0_LIST4_NOTIFY_ENA_SET   ,VPDMA INT0 List4 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 8. "         VPDMA_INT0_LIST4_COMPLETE_ENA_SET ,VPDMA INT0 List4 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "     VPDMA_INT0_LIST3_NOTIFY_ENA_SET   ,VPDMA INT0 List3 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 6. " VPDMA_INT0_LIST3_COMPLETE_ENA_SET ,VPDMA INT0 List3 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "         VPDMA_INT0_LIST2_NOTIFY_ENA_SET   ,VPDMA INT0 List2 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "     VPDMA_INT0_LIST2_COMPLETE_ENA_SET ,VPDMA INT0 List2 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VPDMA_INT0_LIST1_NOTIFY_ENA_SET   ,VPDMA INT0 List1 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "         VPDMA_INT0_LIST1_COMPLETE_ENA_SET ,VPDMA INT0 List1 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "     VPDMA_INT0_LIST0_NOTIFY_ENA_SET   ,VPDMA INT0 List0 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 0. " VPDMA_INT0_LIST0_COMPLETE_ENA_SET ,VPDMA INT0 List0 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
group.long 0x34++0x3
line.long 0x00 "VIP_INTC_INTR0_ENA_SET1,INTC INTR0 Interrupt Enable/Set Register 1. This register contains the interrupt enable status/set as defined in HL0.8"
bitfld.long 0x00 25. " VIP2_CHR_DS_2_UV_ERR_INT_ENA_SET  ,VIP2 Chroma Downsampler 2 UV Error Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 24. "         VIP2_CHR_DS_1_UV_ERR_INT_ENA_SET  ,VIP2 Chroma Downsampler 1 UV Error Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 23. "     VIP1_CHR_DS_2_UV_ERR_INT_ENA_SET  ,VIP1 Chroma Downsampler 2 UV Error Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 22. " VIP1_CHR_DS_1_UV_ERR_INT_ENA_SET  ,VIP1 Chroma Downsampler 1 UV Error Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "         VPDMA_INT0_CLIENT_ENA_SET         ,VPDMA INT0 Client Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 6. "     VPDMA_INT0_CHANNEL_GROUP6_ENA_SET ,VPDMA INT0 Channel Group6 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 5. " VPDMA_INT0_CHANNEL_GROUP5_ENA_SET ,VPDMA INT0 Channel Group5 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "         VPDMA_INT0_CHANNEL_GROUP4_ENA_SET ,VPDMA INT0 Channel Group4 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 3. "     VPDMA_INT0_CHANNEL_GROUP3_ENA_SET ,VPDMA INT0 Channel Group3 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 2. " VPDMA_INT0_CHANNEL_GROUP2_ENA_SET ,VPDMA INT0 Channel Group2 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "         VPDMA_INT0_CHANNEL_GROUP1_ENA_SET ,VPDMA INT0 Channel Group1 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 0. "     VPDMA_INT0_CHANNEL_GROUP0_ENA_SET ,VPDMA INT0 Channel Group0 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
group.long 0x38++0x3
line.long 0x00 "VIP_INTC_INTR0_ENA_CLR0,INTC INTR0 Interrupt Enable/Clear Register 0. This register contains the interrupt enable status/clear as defined in HL0.8"
bitfld.long 0x00 21. " VIP2_PARSER_INT_ENA_CLR           ,VIP2 Parser Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 20. "         VIP1_PARSER_INT_ENA_CLR           ,VIP1 Parser Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 16. "     VPDMA_INT0_DESCRIPTOR_ENA_CLR     ,VPDMA INT0 Descriptor Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 15. " VPDMA_INT0_LIST7_NOTIFY_ENA_CLR   ,VPDMA INT0 List7 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 14. "         VPDMA_INT0_LIST7_COMPLETE_ENA_CLR ,VPDMA INT0 List7 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 13. "     VPDMA_INT0_LIST6_NOTIFY_ENA_CLR   ,VPDMA INT0 List6 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 12. " VPDMA_INT0_LIST6_COMPLETE_ENA_CLR ,VPDMA INT0 List6 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 11. "         VPDMA_INT0_LIST5_NOTIFY_ENA_CLR   ,VPDMA INT0 List5 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 10. "     VPDMA_INT0_LIST5_COMPLETE_ENA_CLR ,VPDMA INT0 List5 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 9. " VPDMA_INT0_LIST4_NOTIFY_ENA_CLR   ,VPDMA INT0 List4 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 8. "         VPDMA_INT0_LIST4_COMPLETE_ENA_CLR ,VPDMA INT0 List4 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "     VPDMA_INT0_LIST3_NOTIFY_ENA_CLR   ,VPDMA INT0 List3 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 6. " VPDMA_INT0_LIST3_COMPLETE_ENA_CLR ,VPDMA INT0 List3 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "         VPDMA_INT0_LIST2_NOTIFY_ENA_CLR   ,VPDMA INT0 List2 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "     VPDMA_INT0_LIST2_COMPLETE_ENA_CLR ,VPDMA INT0 List2 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VPDMA_INT0_LIST1_NOTIFY_ENA_CLR   ,VPDMA INT0 List1 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "         VPDMA_INT0_LIST1_COMPLETE_ENA_CLR ,VPDMA INT0 List1 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "     VPDMA_INT0_LIST0_NOTIFY_ENA_CLR   ,VPDMA INT0 List0 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 0. " VPDMA_INT0_LIST0_COMPLETE_ENA_CLR ,VPDMA INT0 List0 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
group.long 0x3C++0x3
line.long 0x00 "VIP_INTC_INTR0_ENA_CLR1,INTC INTR0 Interrupt Enable/Clear Register 1. This register contains the interrupt enable status/clear as defined in HL0.8"
bitfld.long 0x00 25. " VIP2_CHR_DS_2_UV_ERR_INT_ENA_CLR  ,VIP2 Chroma Downsampler 2 UV Error Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 24. "         VIP2_CHR_DS_1_UV_ERR_INT_ENA_CLR  ,VIP2 Chroma Downsampler 1 UV Error Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 23. "     VIP1_CHR_DS_2_UV_ERR_INT_ENA_CLR  ,VIP1 Chroma Downsampler 2 UV Error Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 22. " VIP1_CHR_DS_1_UV_ERR_INT_ENA_CLR  ,VIP1 Chroma Downsampler 1 UV Error Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "         VPDMA_INT0_CLIENT_ENA_CLR         ,VPDMA INT0 Client Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 6. "     VPDMA_INT0_CHANNEL_GROUP6_ENA_CLR ,VPDMA INT0 Channel Group6 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 5. " VPDMA_INT0_CHANNEL_GROUP5_ENA_CLR ,VPDMA INT0 Channel Group5 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "         VPDMA_INT0_CHANNEL_GROUP4_ENA_CLR ,VPDMA INT0 Channel Group4 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 3. "     VPDMA_INT0_CHANNEL_GROUP3_ENA_CLR ,VPDMA INT0 Channel Group3 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 2. " VPDMA_INT0_CHANNEL_GROUP2_ENA_CLR ,VPDMA INT0 Channel Group2 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "         VPDMA_INT0_CHANNEL_GROUP1_ENA_CLR ,VPDMA INT0 Channel Group1 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 0. "     VPDMA_INT0_CHANNEL_GROUP0_ENA_CLR ,VPDMA INT0 Channel Group0 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
group.long 0x40++0x3
line.long 0x00 "VIP_INTC_INTR1_STATUS_RAW0,INTC intr1 Interrupt Status Raw/Set Register 0. This register contains the raw interrupt status as defined in HL0.8"
bitfld.long 0x00 21. " VIP2_PARSER_INT_RAW               ,VIP2 Parser Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 20. "         VIP1_PARSER_INT_RAW               ,VIP1 Parser Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 16. "     VPDMA_INT1_DESCRIPTOR_RAW         ,VPDMA INT1 Descriptor Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 15. " VPDMA_INT1_LIST7_NOTIFY_RAW       ,VPDMA INT1 List7 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 14. "         VPDMA_INT1_LIST7_COMPLETE_RAW     ,VPDMA INT1 List7 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 13. "     VPDMA_INT1_LIST6_NOTIFY_RAW       ,VPDMA INT1 List6 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 12. " VPDMA_INT1_LIST6_COMPLETE_RAW     ,VPDMA INT1 List6 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 11. "         VPDMA_INT1_LIST5_NOTIFY_RAW       ,VPDMA INT1 List5 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 10. "     VPDMA_INT1_LIST5_COMPLETE_RAW     ,VPDMA INT1 List5 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 9. " VPDMA_INT1_LIST4_NOTIFY_RAW       ,VPDMA INT1 List4 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 8. "         VPDMA_INT1_LIST4_COMPLETE_RAW     ,VPDMA INT1 List4 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "     VPDMA_INT1_LIST3_NOTIFY_RAW       ,VPDMA INT1 List3 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 6. " VPDMA_INT1_LIST3_COMPLETE_RAW     ,VPDMA INT1 List3 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "         VPDMA_INT1_LIST2_NOTIFY_RAW       ,VPDMA INT1 List2 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "     VPDMA_INT1_LIST2_COMPLETE_RAW     ,VPDMA INT1 List2 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VPDMA_INT1_LIST1_NOTIFY_RAW       ,VPDMA INT1 List1 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "         VPDMA_INT1_LIST1_COMPLETE_RAW     ,VPDMA INT1 List1 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "     VPDMA_INT1_LIST0_NOTIFY_RAW       ,VPDMA INT1 List0 Notify Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 0. " VPDMA_INT1_LIST0_COMPLETE_RAW     ,VPDMA INT1 List0 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
group.long 0x44++0x3
line.long 0x00 "VIP_INTC_INTR1_STATUS_RAW1,INTC intr1 Interrupt Status Raw/Set Register 1. This register contains the raw interrupt status as defined in HL0.8"
bitfld.long 0x00 25. " VIP2_CHR_DS_2_UV_ERR_INT_RAW      ,VIP2 Chroma Downsampler 2 UV Error Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 24. "         VIP2_CHR_DS_1_UV_ERR_INT_RAW      ,VIP2 Chroma Downsampler 1 UV Error Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 23. "     VIP1_CHR_DS_2_UV_ERR_INT_RAW      ,VIP1 Chroma Downsampler 2 UV Error Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 22. " VIP1_CHR_DS_1_UV_ERR_INT_RAW      ,VIP1 Chroma Downsampler 1 UV Error Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "         VPDMA_INT1_CLIENT_RAW             ,VPDMA INT1 Client Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "     VPDMA_INT1_CHANNEL_GROUP5_RAW     ,VPDMA INT1 Channel Group5 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 4. " VPDMA_INT1_CHANNEL_GROUP4_RAW     ,VPDMA INT1 Channel Group4 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 3. "         VPDMA_INT1_CHANNEL_GROUP3_RAW     ,VPDMA INT1 Channel Group3 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "     VPDMA_INT1_CHANNEL_GROUP2_RAW     ,VPDMA INT1 Channel Group2 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 1. " VPDMA_INT1_CHANNEL_GROUP1_RAW     ,VPDMA INT1 Channel Group1 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 0. "         VPDMA_INT1_CHANNEL_GROUP0_RAW     ,VPDMA INT1 Channel Group0 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
group.long 0x48++0x3
line.long 0x00 "VIP_INTC_INTR1_STATUS_ENA0,INTC intr1 Interrupt Status Enabled/Clear Register 0. This register contains the enabled interrupt status as defined in HL0.8"
bitfld.long 0x00 21. " VIP2_PARSER_INT_ENA               ,VIP2 Parser Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
bitfld.long 0x00 20. "         VIP1_PARSER_INT_ENA               ,VIP1 Parser Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
bitfld.long 0x00 16. "     VPDMA_INT1_DESCRIPTOR_ENA         ,VPDMA INT1 Descriptor Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 15. " VPDMA_INT1_LIST7_NOTIFY_ENA       ,VPDMA INT1 List7 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 14. "         VPDMA_INT1_LIST7_COMPLETE_ENA     ,VPDMA INT1 List7 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 13. "     VPDMA_INT1_LIST6_NOTIFY_ENA       ,VPDMA INT1 List6 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 12. " VPDMA_INT1_LIST6_COMPLETE_ENA     ,VPDMA INT1 List6 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 11. "         VPDMA_INT1_LIST5_NOTIFY_ENA       ,VPDMA INT1 List5 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 10. "     VPDMA_INT1_LIST5_COMPLETE_ENA     ,VPDMA INT1 List5 Complete Enabled Statust Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 9. " VPDMA_INT1_LIST4_NOTIFY_ENA       ,VPDMA INT1 List4 Notify Enabled Statust Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 8. "         VPDMA_INT1_LIST4_COMPLETE_ENA     ,VPDMA INT1 List4 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "     VPDMA_INT1_LIST3_NOTIFY_ENA       ,VPDMA INT1 List3 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 6. " VPDMA_INT1_LIST3_COMPLETE_ENA     ,VPDMA INT1 List3 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "         VPDMA_INT1_LIST2_NOTIFY_ENA       ,VPDMA INT1 List2 Notify Enabled Statust Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "     VPDMA_INT1_LIST2_COMPLETE_ENA     ,VPDMA INT1 List2 Complete Enabled Statust Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VPDMA_INT1_LIST1_NOTIFY_ENA       ,VPDMA INT1 List1 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "         VPDMA_INT1_LIST1_COMPLETE_ENA     ,VPDMA INT1 List1 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "     VPDMA_INT1_LIST0_NOTIFY_ENA       ,VPDMA INT1 List0 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 0. " VPDMA_INT1_LIST0_COMPLETE_ENA     ,VPDMA INT1 List0 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
group.long 0x4C++0x3
line.long 0x00 "VIP_INTC_INTR1_STATUS_ENA1,INTC intr1 Interrupt Status Enabled/Clear Register 1. This register contains the enabled interrupt status as defined in HL0.8"
bitfld.long 0x00 25. " VIP2_CHR_DS_2_UV_ERR_INT_ENA      ,VIP2 Chroma Downsampler 2 UV Error Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
bitfld.long 0x00 24. "         VIP2_CHR_DS_1_UV_ERR_INT_ENA      ,VIP2 Chroma Downsampler 1 UV Error Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
bitfld.long 0x00 23. "     VIP1_CHR_DS_2_UV_ERR_INT_ENA      ,VIP1 Chroma Downsampler 2 UV Error Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 22. " VIP1_CHR_DS_1_UV_ERR_INT_ENA      ,VIP1 Chroma Downsampler 1 UV Error Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "         VPDMA_INT1_CLIENT_ENA             ,VPDMA INT1 Client Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "     VPDMA_INT1_CHANNEL_GROUP5_ENA     ,VPDMA INT1 Channel Group5 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 4. " VPDMA_INT1_CHANNEL_GROUP4_ENA     ,VPDMA INT1 Channel Group4 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 3. "         VPDMA_INT1_CHANNEL_GROUP3_ENA     ,VPDMA INT1 Channel Group3 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "     VPDMA_INT1_CHANNEL_GROUP2_ENA     ,VPDMA INT1 Channel Group3 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 1. " VPDMA_INT1_CHANNEL_GROUP1_ENA     ,VPDMA INT1 Channel Group1 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 0. "         VPDMA_INT1_CHANNEL_GROUP0_ENA     ,VPDMA INT1 Channel Group0 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
group.long 0x50++0x3
line.long 0x00 "VIP_INTC_INTR1_ENA_SET0,INTC intr1 Interrupt Enable/Set Register 0. This register contains the interrupt enable status/set as defined in HL0.8"
bitfld.long 0x00 21. " VIP2_PARSER_INT_ENA_SET           ,VIP2 Parser Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 20. "         VIP1_PARSER_INT_ENA_SET           ,VIP1 Parser Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 16. "     VPDMA_INT1_DESCRIPTOR_ENA_SET     ,VPDMA INT1 Descriptor Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 15. " VPDMA_INT1_LIST7_NOTIFY_ENA_SET   ,VPDMA INT1 List7 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 14. "         VPDMA_INT1_LIST7_COMPLETE_ENA_SET ,VPDMA INT1 List7 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 13. "     VPDMA_INT1_LIST6_NOTIFY_ENA_SET   ,VPDMA INT1 List6 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 12. " VPDMA_INT1_LIST6_COMPLETE_ENA_SET ,VPDMA INT1 List6 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 11. "         VPDMA_INT1_LIST5_NOTIFY_ENA_SET   ,VPDMA INT1 List5 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 10. "     VPDMA_INT1_LIST5_COMPLETE_ENA_SET ,VPDMA INT1 List5 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 9. " VPDMA_INT1_LIST4_NOTIFY_ENA_SET   ,VPDMA INT1 List4 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 8. "         VPDMA_INT1_LIST4_COMPLETE_ENA_SET ,VPDMA INT1 List4 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "     VPDMA_INT1_LIST3_NOTIFY_ENA_SET   ,VPDMA INT1 List3 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 6. " VPDMA_INT1_LIST3_COMPLETE_ENA_SET ,VPDMA INT1 List3 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "         VPDMA_INT1_LIST2_NOTIFY_ENA_SET   ,VPDMA INT1 List2 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "     VPDMA_INT1_LIST2_COMPLETE_ENA_SET ,VPDMA INT1 List2 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VPDMA_INT1_LIST1_NOTIFY_ENA_SET   ,VPDMA INT1 List1 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "         VPDMA_INT1_LIST1_COMPLETE_ENA_SET ,VPDMA INT1 List1 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "     VPDMA_INT1_LIST0_NOTIFY_ENA_SET   ,VPDMA INT1 List0 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 0. " VPDMA_INT1_LIST0_COMPLETE_ENA_SET ,VPDMA INT1 List0 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
group.long 0x54++0x3
line.long 0x00 "VIP_INTC_INTR1_ENA_SET1,INTC intr1 Interrupt Enable/Set Register 1. This register contains the interrupt enable status/set as defined in HL0.8"
bitfld.long 0x00 25. " VIP2_CHR_DS_2_UV_ERR_INT_ENA_SET  ,VIP2 Chroma Downsampler 2 UV Error Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 24. "         VIP2_CHR_DS_1_UV_ERR_INT_ENA_SET  ,VIP2 Chroma Downsampler 1 UV Error Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 23. "     VIP1_CHR_DS_2_UV_ERR_INT_ENA_SET  ,VIP1 Chroma Downsampler 2 UV Error Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 22. " VIP1_CHR_DS_1_UV_ERR_INT_ENA_SET  ,VIP1 Chroma Downsampler 1 UV Error Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "         VPDMA_INT1_CLIENT_ENA_SET         ,VPDMA INT1 Client Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 6. "     VPDMA_INT1_CHANNEL_GROUP6_ENA_SET ,VPDMA INT1 Channel Group6 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 5. " VPDMA_INT1_CHANNEL_GROUP5_ENA_SET ,VPDMA INT1 Channel Group5 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "         VPDMA_INT1_CHANNEL_GROUP4_ENA_SET ,VPDMA INT1 Channel Group4 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 3. "     VPDMA_INT1_CHANNEL_GROUP3_ENA_SET ,VPDMA INT1 Channel Group3 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 2. " VPDMA_INT1_CHANNEL_GROUP2_ENA_SET ,VPDMA INT1 Channel Group2 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "         VPDMA_INT1_CHANNEL_GROUP1_ENA_SET ,VPDMA INT1 Channel Group1 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 0. "     VPDMA_INT1_CHANNEL_GROUP0_ENA_SET ,VPDMA INT1 Channel Group0 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
group.long 0x58++0x3
line.long 0x00 "VIP_INTC_INTR1_ENA_CLR0,INTC intr1 Interrupt Enable/Clear Register 0. This register contains the interrupt enable status/clear as defined in HL0.8"
bitfld.long 0x00 21. " VIP2_PARSER_INT_ENA_CLR           ,VIP2 Parser Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 20. "         VIP1_PARSER_INT_ENA_CLR           ,VIP1 Parser Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 16. "     VPDMA_INT1_DESCRIPTOR_ENA_CLR     ,VPDMA INT1 Descriptor Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 15. " VPDMA_INT1_LIST7_NOTIFY_ENA_CLR   ,VPDMA INT1 List7 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 14. "         VPDMA_INT1_LIST7_COMPLETE_ENA_CLR ,VPDMA INT1 List7 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 13. "     VPDMA_INT1_LIST6_NOTIFY_ENA_CLR   ,VPDMA INT1 List6 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 12. " VPDMA_INT1_LIST6_COMPLETE_ENA_CLR ,VPDMA INT1 List6 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 11. "         VPDMA_INT1_LIST5_NOTIFY_ENA_CLR   ,VPDMA INT1 List5 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 10. "     VPDMA_INT1_LIST5_COMPLETE_ENA_CLR ,VPDMA INT1 List5 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 9. " VPDMA_INT1_LIST4_NOTIFY_ENA_CLR   ,VPDMA INT1 List4 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 8. "         VPDMA_INT1_LIST4_COMPLETE_ENA_CLR ,VPDMA INT1 List4 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "     VPDMA_INT1_LIST3_NOTIFY_ENA_CLR   ,VPDMA INT1 List3 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 6. " VPDMA_INT1_LIST3_COMPLETE_ENA_CLR ,VPDMA INT1 List3 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "         VPDMA_INT1_LIST2_NOTIFY_ENA_CLR   ,VPDMA INT1 List2 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "     VPDMA_INT1_LIST2_COMPLETE_ENA_CLR ,VPDMA INT1 List2 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VPDMA_INT1_LIST1_NOTIFY_ENA_CLR   ,VPDMA INT1 List1 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "         VPDMA_INT1_LIST1_COMPLETE_ENA_CLR ,VPDMA INT1 List1 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "     VPDMA_INT1_LIST0_NOTIFY_ENA_CLR   ,VPDMA INT1 List0 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 0. " VPDMA_INT1_LIST0_COMPLETE_ENA_CLR ,VPDMA INT1 List0 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
group.long 0x5C++0x3
line.long 0x00 "VIP_INTC_INTR1_ENA_CLR1,INTC intr1 Interrupt Enable/Clear Register 1. This register contains the interrupt enable status/clear as defined in HL0.8"
bitfld.long 0x00 25. " VIP2_CHR_DS_2_UV_ERR_INT_ENA_CLR  ,VIP2 Chroma Downsampler 2 UV Error Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 24. "         VIP2_CHR_DS_1_UV_ERR_INT_ENA_CLR  ,VIP2 Chroma Downsampler 1 UV Error Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 23. "     VIP1_CHR_DS_2_UV_ERR_INT_ENA_CLR  ,VIP1 Chroma Downsampler 2 UV Error Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 22. " VIP1_CHR_DS_1_UV_ERR_INT_ENA_CLR  ,VIP1 Chroma Downsampler 1 UV Error Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "         VPDMA_INT1_CLIENT_ENA_CLR         ,VPDMA INT1 Client Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 6. "     VPDMA_INT1_CHANNEL_GROUP6_ENA_CLR ,VPDMA INT1 Channel Group6 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 5. " VPDMA_INT1_CHANNEL_GROUP5_ENA_CLR ,VPDMA INT1 Channel Group5 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "         VPDMA_INT1_CHANNEL_GROUP4_ENA_CLR ,VPDMA INT1 Channel Group4 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 3. "     VPDMA_INT1_CHANNEL_GROUP3_ENA_CLR ,VPDMA INT1 Channel Group3 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 2. " VPDMA_INT1_CHANNEL_GROUP2_ENA_CLR ,VPDMA INT1 Channel Group2 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "         VPDMA_INT1_CHANNEL_GROUP1_ENA_CLR ,VPDMA INT1 Channel Group1 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 0. "     VPDMA_INT1_CHANNEL_GROUP0_ENA_CLR ,VPDMA INT1 Channel Group0 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
group.long 0xA0++0x3
line.long 0x00 "VIP_INTC_EOI,INTC EOI Register. This register contains the EOI vector register contents as defined by HL0.8"
hexmask.long 0x00 0.--31. 1. " EOI_VECTOR                        ,Number associated with the ipgenericirq for intr output. There are 4 interrupt outputs Write 0x0 : Write to intr0 IP Generic Write 0x1 : Write to intr1 IP Generic Write 0x2 : Write to intr2 IP Generic Write 0x3 : Wri..."
group.long 0x100++0x3
line.long 0x00 "VIP_CLKC_CLKEN,CLKC Module Clock Enable Register. This register contains clock enables for the processing paths in the Display Subsystem"
bitfld.long 0x00 17. " VIP2_DP_EN                        ,Video Input Port 2 Data Path Clock Enable, 1 = Clock Enabled, 0 = Clock Disabled" "0,1"
bitfld.long 0x00 16. "         VIP1_DP_EN                        ,Video Input Port 1 Data Path Clock Enable, 1 = Clock Enabled, 0 = Clock Disabled" "0,1"
bitfld.long 0x00 0. "     VPDMA_EN                          ,VPDMA Clock Enable, 1 = Clock Enabled, 0 = Clock Disabled" "0,1"
group.long 0x104++0x3
line.long 0x00 "VIP_CLKC_RST,CLKC Module Reset Register. This register contains resets for the processing paths in the Display Subsystem"
bitfld.long 0x00 31. " MAIN_RST                          ,Reset for all modules in DSS Main Data Path" "0,1"
bitfld.long 0x00 17. "         VIP2_DP_RST                       ,Video Input Port 2 Data Path Reset" "0,1"
bitfld.long 0x00 16. "     VIP1_DP_RST                       ,Video Input Port 1 Data Path Reset" "0,1"
textline "                                     "
bitfld.long 0x00 0. " VPDMA_RST                         ,VPDMA Reset" "0,1"
group.long 0x108++0x3
line.long 0x00 "VIP_CLKC_DPS,CLKC Main Data Path Select Register. This register selects the various data paths within main portion (non-VIP) of the subsystem"
bitfld.long 0x00 31. " MAIN_RST                          ,Reset for all modules in DSS Main Data Path" "0,1"
bitfld.long 0x00 17. "         VIP2_DP_RST                       ,Video Input Port 2 Data Path Reset" "0,1"
bitfld.long 0x00 16. "     VIP1_DP_RST                       ,Video Input Port 1 Data Path Reset" "0,1"
textline "                                     "
bitfld.long 0x00 0. " VPDMA_RST                         ,VPDMA Reset" "0,1"
group.long 0x10C++0x3
line.long 0x00 "VIP_CLKC_VIP0DPS,CLKC Video Input Port 1 Data Path Select Register. This register selects the various data paths within the Video Input Port portion of the subsystem"
bitfld.long 0x00 28.--31. " VIP1_DATAPATH_SELECT              ,VIP1 Datapath Register Field Enable 0000 : All fields written 0001 : Only vip1_csc_src_select written 0010 : Only vip1_sc_src_select written 0011 : Only vip1_rgb_src_select written 0100 : Only vip1_rgb_out_lo_select ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 27. "        VIP1_TESTPORT_A_SELECT            ,0 : Normal mode 1: Test Mode" "0,1"
bitfld.long 0x00 26. "     VIP1_TESTPORT_B_SELECT            ,0 : Normal mode 1: Test Mode" "0,1"
textline "                                     "
bitfld.long 0x00 17. " VIP1_CHR_DS_2_BYPASS              ,Video Input Port 1 Chroma Downsampler 2 Bypass 0 : VIP Chroma Downsampler 1 selected 1 : VIP Chroma Downsampler 1 Bypassed Chroma Downsampler Bypassed means the output format from the VIP will be 422 data. Selected m..." "0,1"
bitfld.long 0x00 16. "         VIP1_CHR_DS_1_BYPASS              ,Video Input Port 1 Chroma Downsampler 1 Bypass 0 : VIP Chroma Downsampler 1 selected 1 : VIP Chroma Downsampler 1 Bypassed Chroma Downsampler Bypassed means the output format from the VIP will be 422 data. Se..." "0,1"
bitfld.long 0x00 15. "     VIP1_MULTI_CHANNEL_SELECT         ,Video Input Port 1 Multi Channel Select 0 : VIP_PARSER A and B channels operate in single channel mode 1 : VIP_PARSER A and B channels directly drive VPDMA (multi-channel case) Multi-Channel means that the A and ..." "0,1"
textline "                                     "
bitfld.long 0x00 12.--14. " VIP1_CHR_DS_2_SRC_SELECT          ,Video Input Port 1 Chroma Downsampler 2 Source Select 0 : Path Disabled (no input to CHR_DS) 1 : Source from Scaler (SC_M) 2 : Source from Color Space Converter (CSC) 3 : Source from VIP_PARSER A port 4 : Source from..." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 9.--11. "         VIP1_CHR_DS_1_SRC_SELECT          ,Video Input Port 1 Chroma Downsampler 1 Source Select 000 : Path Disabled (no input to CHR_DS) 001 : Source from Scaler (SC_M) 010 : Source from Color Space Converter (CSC) 011 : Source from VIP_PARSER A port..." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8. "     VIP1_RGB_OUT_HI_SELECT            ,Video Input Port 1 HI RGB Output Select 0 : Output Type is 420/422 1 : Output Type is RGB" "0,1"
textline "                                     "
bitfld.long 0x00 7. " VIP1_RGB_OUT_LO_SELECT            ,Video Input Port 1 LO RGB Output Select 0 : Output Type is 420/422 1 : Output Type is RGB" "0,1"
bitfld.long 0x00 6. "         VIP1_RGB_SRC_SELECT               ,Video Input Port 1 RGB Output Path Select 0 : Source from Compositor RGB input 1 : Source from CSC" "0,1"
bitfld.long 0x00 3.--5. "     VIP1_SC_SRC_SELECT                ,Video Input Port 1 SC_M Source Select 000 : Path Disabled 001 : Source from Color Space Converter (CSC) 010 : Source from VIP_PARSER A port 011 : Source from VIP_PARSER B port 100 : Source from Transcode (422) 10..." "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 0.--2. " VIP1_CSC_SRC_SELECT               ,Video Input Port 1 CSC Source Select 000 : Path Disabled 001 : Source from VIP_PARSER A (422) port 010 : Source from VIP_PARSER B port 011 : Source from Transcode (422) 100 : Source from VIP_PARSER A (RGB) port 101 :..." "0,1,2,3,4,5,6,7"
group.long 0x110++0x3
line.long 0x00 "VIP_CLKC_VIP1DPS,CLKC Video Input Port 2 Data Path Select Register. This register selects the various data paths within the Video Input Port portion of the subsystem"
bitfld.long 0x00 28.--31. " VIP2_DATAPATH_SELECT              ,VIP2 Datapath Register Field Enable 0000 : All fields written 0001 : Only vip2_csc_src_select written 0010 : Only vip2_sc_src_select written 0011 : Only vip2_rgb_src_select written 0100 : Only vip2_rgb_out_lo_select ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 27. "        VIP2_TESTPORT_A_SELECT            ,0 : Normal mode 1: Test Mode" "0,1"
bitfld.long 0x00 26. "     VIP2_TESTPORT_B_SELECT            ,0 : Normal mode 1: Test Mode" "0,1"
textline "                                     "
bitfld.long 0x00 17. " VIP2_CHR_DS_2_BYPASS              ,Video Input Port 2 Chroma Downsampler 2 Bypass 0 : VIP Chroma Downsampler 1 selected 1 : VIP Chroma Downsampler 1 Bypassed Chroma Downsampler Bypassed means the output format from the VIP will be 422 data. Selected m..." "0,1"
bitfld.long 0x00 16. "         VIP2_CHR_DS_1_BYPASS              ,Video Input Port 2 Chroma Downsampler 1 Bypass 0 : VIP Chroma Downsampler 1 selected 1 : VIP Chroma Downsampler 1 Bypassed Chroma Downsampler Bypassed means the output format from the VIP will be 422 data. Se..." "0,1"
bitfld.long 0x00 15. "     VIP2_MULTI_CHANNEL_SELECT         ,Video Input Port 2 Multi Channel Select 0 : VIP_PARSER A and B channels operate in single channel mode 1 : VIP_PARSER A and B channels directly drive VPDMA (multi-channel case) Multi-Channel means that the A and ..." "0,1"
textline "                                     "
bitfld.long 0x00 12.--14. " VIP2_CHR_DS_2_SRC_SELECT          ,Video Input Port 2 Chroma Downsampler 2 Source Select 0 : Path Disabled (no input to CHR_DS) 1 : Source from Scaler (SC_M) 2 : Source from Color Space Converter (CSC) 3 : Source from VIP_PARSER A port 4 : Source from..." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 9.--11. "         VIP2_CHR_DS_1_SRC_SELECT          ,Video Input Port 2 Chroma Downsampler 1 Source Select 000 : Path Disabled (no input to CHR_DS) 001 : Source from Scaler (SC_M) 010 : Source from Color Space Converter (CSC) 011 : Source from VIP_PARSER A port..." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8. "     VIP2_RGB_OUT_HI_SELECT            ,Video Input Port 2 HI RGB Output Select 0 : Output Type is 420/422 1 : Output Type is RGB" "0,1"
textline "                                     "
bitfld.long 0x00 7. " VIP2_RGB_OUT_LO_SELECT            ,Video Input Port 2 LO RGB Output Select 0 : Output Type is 420/422 1 : Output Type is RGB" "0,1"
bitfld.long 0x00 6. "         VIP2_RGB_SRC_SELECT               ,Video Input Port 2 RGB Output Path Select 0 : Source from Compositor RGB input 1 : Source from CSC" "0,1"
bitfld.long 0x00 3.--5. "     VIP2_SC_SRC_SELECT                ,Video Input Port 2 SC_M Source Select 000 : Path Disabled 001 : Source from Color Space Converter (CSC) 010 : Source from VIP_PARSER A port 011 : Source from VIP_PARSER B port 100 : Source from Transcode (422) 10..." "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 0.--2. " VIP2_CSC_SRC_SELECT               ,Video Input Port 2 CSC Source Select 000 : Path Disabled 001 : Source from VIP_PARSER A (422) port 010 : Source from VIP_PARSER B port 011 : Source from Transcode (422) 100 : Source from VIP_PARSER A (RGB) port 101 :..." "0,1,2,3,4,5,6,7"
width 0x0B
tree.end
tree "VIP2_top_level"
base ad:0x48990000
width 28.
rgroup.long 0x0++0x3
line.long 0x00 "VIP_CLKC_PID,This register follows the format described in PDR3.5"
bitfld.long 0x00 30.--31. " SCHEME                            ,The scheme of the register used. This indicates the PDR3.5 Method" "0,1,2,3"
hexmask.long.word 0x00 16.--27. 1. "         FUNC                              ,The function of the module being used"
bitfld.long 0x00 11.--15. "  RTL                               ,RTL Release Version The PDR release number of this IP" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 8.--10. " MAJOR                             ,ajor Release Number" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6.--7. "         CUSTOM                            ,Custom IP" "0,1,2,3"
bitfld.long 0x00 0.--5. "     MINOR                             ,inor Release Number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x10++0x3
line.long 0x00 "VIP_SYSCONFIG,"
bitfld.long 0x00 4.--5. " STANDBYMODE                       ,Configuration of the local initiator state management mode. By definition, initiator may generate read/write transaction as long as it is out of STANDBY state 0x0: Force-standby mode: local initiator is unconditional..." "0,1,2,3"
bitfld.long 0x00 2.--3. "         IDLEMODE                          ,Configuration of the local target state management mode. By definition, target can handle read/write transaction as long as it is out of IDLE state 0x0 : Force-idle mode: local target's idle state follows (ac..." "0,1,2,3"
group.long 0x20++0x3
line.long 0x00 "VIP_INTC_INTR0_STATUS_RAW0,INTC INTR0 Interrupt Status Raw/Set Register 0. This register contains the raw interrupt status as defined in HL0.8"
bitfld.long 0x00 21. " VIP2_PARSER_INT_RAW               ,VIP2 Parser Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 20. "         VIP1_PARSER_INT_RAW               ,VIP1 Parser Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 16. "     VPDMA_INT0_DESCRIPTOR_RAW         ,VPDMA INT0 Descriptor Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 15. " VPDMA_INT0_LIST7_NOTIFY_RAW       ,VPDMA INT0 List7 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 14. "         VPDMA_INT0_LIST7_COMPLETE_RAW     ,VPDMA INT0 List7 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 13. "     VPDMA_INT0_LIST6_NOTIFY_RAW       ,VPDMA INT0 List6 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 12. " VPDMA_INT0_LIST6_COMPLETE_RAW     ,VPDMA INT0 List6 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 11. "         VPDMA_INT0_LIST5_NOTIFY_RAW       ,VPDMA INT0 List5 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 10. "     VPDMA_INT0_LIST5_COMPLETE_RAW     ,VPDMA INT0 List5 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 9. " VPDMA_INT0_LIST4_NOTIFY_RAW       ,VPDMA INT0 List4 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 8. "         VPDMA_INT0_LIST4_COMPLETE_RAW     ,VPDMA INT0 List4 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "     VPDMA_INT0_LIST3_NOTIFY_RAW       ,VPDMA INT0 List3 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 6. " VPDMA_INT0_LIST3_COMPLETE_RAW     ,VPDMA INT0 List3 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "         VPDMA_INT0_LIST2_NOTIFY_RAW       ,VPDMA INT0 List2 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "     VPDMA_INT0_LIST2_COMPLETE_RAW     ,VPDMA INT0 List2 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VPDMA_INT0_LIST1_NOTIFY_RAW       ,VPDMA INT0 List1 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "         VPDMA_INT0_LIST1_COMPLETE_RAW     ,VPDMA INT0 List1 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "     VPDMA_INT0_LIST0_NOTIFY_RAW       ,VPDMA INT0 List0 Notify Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 0. " VPDMA_INT0_LIST0_COMPLETE_RAW     ,VPDMA INT0 List0 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
group.long 0x24++0x3
line.long 0x00 "VIP_INTC_INTR0_STATUS_RAW1,INTC INTR0 Interrupt Status Raw/Set Register 1. This register contains the raw interrupt status as defined in HL0.8"
bitfld.long 0x00 25. " VIP2_CHR_DS_2_UV_ERR_INT_RAW      ,VIP2 Chroma Downsampler 2 UV Error Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 24. "         VIP2_CHR_DS_1_UV_ERR_INT_RAW      ,VIP2 Chroma Downsampler 1 UV Error Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 23. "     VIP1_CHR_DS_2_UV_ERR_INT_RAW      ,VIP1 Chroma Downsampler 2 UV Error Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 22. " VIP1_CHR_DS_1_UV_ERR_INT_RAW      ,VIP1 Chroma Downsampler 1 UV Error Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "         VPDMA_INT0_CLIENT_RAW             ,VPDMA INT0 Client Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "     VPDMA_INT0_CHANNEL_GROUP5_RAW     ,VPDMA INT0 Channel Group5 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 4. " VPDMA_INT0_CHANNEL_GROUP4_RAW     ,VPDMA INT0 Channel Group4 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 3. "         VPDMA_INT0_CHANNEL_GROUP3_RAW     ,VPDMA INT0 Channel Group3 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "     VPDMA_INT0_CHANNEL_GROUP2_RAW     ,VPDMA INT0 Channel Group2 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 1. " VPDMA_INT0_CHANNEL_GROUP1_RAW     ,VPDMA INT0 Channel Group1 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 0. "         VPDMA_INT0_CHANNEL_GROUP0_RAW     ,VPDMA INT0 Channel Group0 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
group.long 0x28++0x3
line.long 0x00 "VIP_INTC_INTR0_STATUS_ENA0,INTC INTR0 Interrupt Status Enabled/Clear Register 0. This register contains the enabled interrupt status as defined in HL0.8"
bitfld.long 0x00 21. " VIP2_PARSER_INT_ENA               ,VIP2 Parser Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
bitfld.long 0x00 20. "         VIP1_PARSER_INT_ENA               ,VIP1 Parser Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
bitfld.long 0x00 16. "     VPDMA_INT0_DESCRIPTOR_ENA         ,VPDMA INT0 Descriptor Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 15. " VPDMA_INT0_LIST7_NOTIFY_ENA       ,VPDMA INT0 List7 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 14. "         VPDMA_INT0_LIST7_COMPLETE_ENA     ,VPDMA INT0 List7 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 13. "     VPDMA_INT0_LIST6_NOTIFY_ENA       ,VPDMA INT0 List6 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 12. " VPDMA_INT0_LIST6_COMPLETE_ENA     ,VPDMA INT0 List6 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 11. "         VPDMA_INT0_LIST5_NOTIFY_ENA       ,VPDMA INT0 List5 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 10. "     VPDMA_INT0_LIST5_COMPLETE_ENA     ,VPDMA INT0 List5 Complete Enabled Statust Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 9. " VPDMA_INT0_LIST4_NOTIFY_ENA       ,VPDMA INT0 List4 Notify Enabled Statust Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 8. "         VPDMA_INT0_LIST4_COMPLETE_ENA     ,VPDMA INT0 List4 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "     VPDMA_INT0_LIST3_NOTIFY_ENA       ,VPDMA INT0 List3 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 6. " VPDMA_INT0_LIST3_COMPLETE_ENA     ,VPDMA INT0 List3 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "         VPDMA_INT0_LIST2_NOTIFY_ENA       ,VPDMA INT0 List2 Notify Enabled Statust Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "     VPDMA_INT0_LIST2_COMPLETE_ENA     ,VPDMA INT0 List2 Complete Enabled Statust Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VPDMA_INT0_LIST1_NOTIFY_ENA       ,VPDMA INT0 List1 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "         VPDMA_INT0_LIST1_COMPLETE_ENA     ,VPDMA INT0 List1 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "     VPDMA_INT0_LIST0_NOTIFY_ENA       ,VPDMA INT0 List0 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 0. " VPDMA_INT0_LIST0_COMPLETE_ENA     ,VPDMA INT0 List0 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
group.long 0x2C++0x3
line.long 0x00 "VIP_INTC_INTR0_STATUS_ENA1,INTC INTR0 Interrupt Status Enabled/Clear Register 1. This register contains the enabled interrupt status as defined in HL0.8"
bitfld.long 0x00 25. " VIP2_CHR_DS_2_UV_ERR_INT_ENA      ,VIP2 Chroma Downsampler 2 UV Error Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
bitfld.long 0x00 24. "         VIP2_CHR_DS_1_UV_ERR_INT_ENA      ,VIP2 Chroma Downsampler 1 UV Error Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
bitfld.long 0x00 23. "     VIP1_CHR_DS_2_UV_ERR_INT_ENA      ,VIP1 Chroma Downsampler 2 UV Error Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 22. " VIP1_CHR_DS_1_UV_ERR_INT_ENA      ,VIP1 Chroma Downsampler 1 UV Error Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "         VPDMA_INT0_CLIENT_ENA             ,VPDMA INT0 Client Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "     VPDMA_INT0_CHANNEL_GROUP5_ENA     ,VPDMA INT0 Channel Group5 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 4. " VPDMA_INT0_CHANNEL_GROUP4_ENA     ,VPDMA INT0 Channel Group4 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 3. "         VPDMA_INT0_CHANNEL_GROUP3_ENA     ,VPDMA INT0 Channel Group3 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "     VPDMA_INT0_CHANNEL_GROUP2_ENA     ,VPDMA INT0 Channel Group3 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 1. " VPDMA_INT0_CHANNEL_GROUP1_ENA     ,VPDMA INT0 Channel Group1 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 0. "         VPDMA_INT0_CHANNEL_GROUP0_ENA     ,VPDMA INT0 Channel Group0 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
group.long 0x30++0x3
line.long 0x00 "VIP_INTC_INTR0_ENA_SET0,INTC INTR0 Interrupt Enable/Set Register 0. This register contains the interrupt enable status/set as defined in HL0.8"
bitfld.long 0x00 21. " VIP2_PARSER_INT_ENA_SET           ,VIP2 Parser Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 20. "         VIP1_PARSER_INT_ENA_SET           ,VIP1 Parser Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 16. "     VPDMA_INT0_DESCRIPTOR_ENA_SET     ,VPDMA INT0 Descriptor Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 15. " VPDMA_INT0_LIST7_NOTIFY_ENA_SET   ,VPDMA INT0 List7 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 14. "         VPDMA_INT0_LIST7_COMPLETE_ENA_SET ,VPDMA INT0 List7 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 13. "     VPDMA_INT0_LIST6_NOTIFY_ENA_SET   ,VPDMA INT0 List6 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 12. " VPDMA_INT0_LIST6_COMPLETE_ENA_SET ,VPDMA INT0 List6 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 11. "         VPDMA_INT0_LIST5_NOTIFY_ENA_SET   ,VPDMA INT0 List5 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 10. "     VPDMA_INT0_LIST5_COMPLETE_ENA_SET ,VPDMA INT0 List5 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 9. " VPDMA_INT0_LIST4_NOTIFY_ENA_SET   ,VPDMA INT0 List4 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 8. "         VPDMA_INT0_LIST4_COMPLETE_ENA_SET ,VPDMA INT0 List4 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "     VPDMA_INT0_LIST3_NOTIFY_ENA_SET   ,VPDMA INT0 List3 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 6. " VPDMA_INT0_LIST3_COMPLETE_ENA_SET ,VPDMA INT0 List3 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "         VPDMA_INT0_LIST2_NOTIFY_ENA_SET   ,VPDMA INT0 List2 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "     VPDMA_INT0_LIST2_COMPLETE_ENA_SET ,VPDMA INT0 List2 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VPDMA_INT0_LIST1_NOTIFY_ENA_SET   ,VPDMA INT0 List1 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "         VPDMA_INT0_LIST1_COMPLETE_ENA_SET ,VPDMA INT0 List1 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "     VPDMA_INT0_LIST0_NOTIFY_ENA_SET   ,VPDMA INT0 List0 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 0. " VPDMA_INT0_LIST0_COMPLETE_ENA_SET ,VPDMA INT0 List0 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
group.long 0x34++0x3
line.long 0x00 "VIP_INTC_INTR0_ENA_SET1,INTC INTR0 Interrupt Enable/Set Register 1. This register contains the interrupt enable status/set as defined in HL0.8"
bitfld.long 0x00 25. " VIP2_CHR_DS_2_UV_ERR_INT_ENA_SET  ,VIP2 Chroma Downsampler 2 UV Error Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 24. "         VIP2_CHR_DS_1_UV_ERR_INT_ENA_SET  ,VIP2 Chroma Downsampler 1 UV Error Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 23. "     VIP1_CHR_DS_2_UV_ERR_INT_ENA_SET  ,VIP1 Chroma Downsampler 2 UV Error Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 22. " VIP1_CHR_DS_1_UV_ERR_INT_ENA_SET  ,VIP1 Chroma Downsampler 1 UV Error Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "         VPDMA_INT0_CLIENT_ENA_SET         ,VPDMA INT0 Client Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 6. "     VPDMA_INT0_CHANNEL_GROUP6_ENA_SET ,VPDMA INT0 Channel Group6 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 5. " VPDMA_INT0_CHANNEL_GROUP5_ENA_SET ,VPDMA INT0 Channel Group5 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "         VPDMA_INT0_CHANNEL_GROUP4_ENA_SET ,VPDMA INT0 Channel Group4 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 3. "     VPDMA_INT0_CHANNEL_GROUP3_ENA_SET ,VPDMA INT0 Channel Group3 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 2. " VPDMA_INT0_CHANNEL_GROUP2_ENA_SET ,VPDMA INT0 Channel Group2 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "         VPDMA_INT0_CHANNEL_GROUP1_ENA_SET ,VPDMA INT0 Channel Group1 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 0. "     VPDMA_INT0_CHANNEL_GROUP0_ENA_SET ,VPDMA INT0 Channel Group0 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
group.long 0x38++0x3
line.long 0x00 "VIP_INTC_INTR0_ENA_CLR0,INTC INTR0 Interrupt Enable/Clear Register 0. This register contains the interrupt enable status/clear as defined in HL0.8"
bitfld.long 0x00 21. " VIP2_PARSER_INT_ENA_CLR           ,VIP2 Parser Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 20. "         VIP1_PARSER_INT_ENA_CLR           ,VIP1 Parser Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 16. "     VPDMA_INT0_DESCRIPTOR_ENA_CLR     ,VPDMA INT0 Descriptor Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 15. " VPDMA_INT0_LIST7_NOTIFY_ENA_CLR   ,VPDMA INT0 List7 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 14. "         VPDMA_INT0_LIST7_COMPLETE_ENA_CLR ,VPDMA INT0 List7 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 13. "     VPDMA_INT0_LIST6_NOTIFY_ENA_CLR   ,VPDMA INT0 List6 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 12. " VPDMA_INT0_LIST6_COMPLETE_ENA_CLR ,VPDMA INT0 List6 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 11. "         VPDMA_INT0_LIST5_NOTIFY_ENA_CLR   ,VPDMA INT0 List5 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 10. "     VPDMA_INT0_LIST5_COMPLETE_ENA_CLR ,VPDMA INT0 List5 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 9. " VPDMA_INT0_LIST4_NOTIFY_ENA_CLR   ,VPDMA INT0 List4 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 8. "         VPDMA_INT0_LIST4_COMPLETE_ENA_CLR ,VPDMA INT0 List4 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "     VPDMA_INT0_LIST3_NOTIFY_ENA_CLR   ,VPDMA INT0 List3 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 6. " VPDMA_INT0_LIST3_COMPLETE_ENA_CLR ,VPDMA INT0 List3 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "         VPDMA_INT0_LIST2_NOTIFY_ENA_CLR   ,VPDMA INT0 List2 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "     VPDMA_INT0_LIST2_COMPLETE_ENA_CLR ,VPDMA INT0 List2 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VPDMA_INT0_LIST1_NOTIFY_ENA_CLR   ,VPDMA INT0 List1 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "         VPDMA_INT0_LIST1_COMPLETE_ENA_CLR ,VPDMA INT0 List1 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "     VPDMA_INT0_LIST0_NOTIFY_ENA_CLR   ,VPDMA INT0 List0 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 0. " VPDMA_INT0_LIST0_COMPLETE_ENA_CLR ,VPDMA INT0 List0 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
group.long 0x3C++0x3
line.long 0x00 "VIP_INTC_INTR0_ENA_CLR1,INTC INTR0 Interrupt Enable/Clear Register 1. This register contains the interrupt enable status/clear as defined in HL0.8"
bitfld.long 0x00 25. " VIP2_CHR_DS_2_UV_ERR_INT_ENA_CLR  ,VIP2 Chroma Downsampler 2 UV Error Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 24. "         VIP2_CHR_DS_1_UV_ERR_INT_ENA_CLR  ,VIP2 Chroma Downsampler 1 UV Error Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 23. "     VIP1_CHR_DS_2_UV_ERR_INT_ENA_CLR  ,VIP1 Chroma Downsampler 2 UV Error Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 22. " VIP1_CHR_DS_1_UV_ERR_INT_ENA_CLR  ,VIP1 Chroma Downsampler 1 UV Error Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "         VPDMA_INT0_CLIENT_ENA_CLR         ,VPDMA INT0 Client Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 6. "     VPDMA_INT0_CHANNEL_GROUP6_ENA_CLR ,VPDMA INT0 Channel Group6 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 5. " VPDMA_INT0_CHANNEL_GROUP5_ENA_CLR ,VPDMA INT0 Channel Group5 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "         VPDMA_INT0_CHANNEL_GROUP4_ENA_CLR ,VPDMA INT0 Channel Group4 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 3. "     VPDMA_INT0_CHANNEL_GROUP3_ENA_CLR ,VPDMA INT0 Channel Group3 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 2. " VPDMA_INT0_CHANNEL_GROUP2_ENA_CLR ,VPDMA INT0 Channel Group2 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "         VPDMA_INT0_CHANNEL_GROUP1_ENA_CLR ,VPDMA INT0 Channel Group1 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 0. "     VPDMA_INT0_CHANNEL_GROUP0_ENA_CLR ,VPDMA INT0 Channel Group0 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
group.long 0x40++0x3
line.long 0x00 "VIP_INTC_INTR1_STATUS_RAW0,INTC intr1 Interrupt Status Raw/Set Register 0. This register contains the raw interrupt status as defined in HL0.8"
bitfld.long 0x00 21. " VIP2_PARSER_INT_RAW               ,VIP2 Parser Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 20. "         VIP1_PARSER_INT_RAW               ,VIP1 Parser Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 16. "     VPDMA_INT1_DESCRIPTOR_RAW         ,VPDMA INT1 Descriptor Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 15. " VPDMA_INT1_LIST7_NOTIFY_RAW       ,VPDMA INT1 List7 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 14. "         VPDMA_INT1_LIST7_COMPLETE_RAW     ,VPDMA INT1 List7 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 13. "     VPDMA_INT1_LIST6_NOTIFY_RAW       ,VPDMA INT1 List6 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 12. " VPDMA_INT1_LIST6_COMPLETE_RAW     ,VPDMA INT1 List6 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 11. "         VPDMA_INT1_LIST5_NOTIFY_RAW       ,VPDMA INT1 List5 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 10. "     VPDMA_INT1_LIST5_COMPLETE_RAW     ,VPDMA INT1 List5 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 9. " VPDMA_INT1_LIST4_NOTIFY_RAW       ,VPDMA INT1 List4 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 8. "         VPDMA_INT1_LIST4_COMPLETE_RAW     ,VPDMA INT1 List4 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "     VPDMA_INT1_LIST3_NOTIFY_RAW       ,VPDMA INT1 List3 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 6. " VPDMA_INT1_LIST3_COMPLETE_RAW     ,VPDMA INT1 List3 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "         VPDMA_INT1_LIST2_NOTIFY_RAW       ,VPDMA INT1 List2 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "     VPDMA_INT1_LIST2_COMPLETE_RAW     ,VPDMA INT1 List2 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VPDMA_INT1_LIST1_NOTIFY_RAW       ,VPDMA INT1 List1 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "         VPDMA_INT1_LIST1_COMPLETE_RAW     ,VPDMA INT1 List1 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "     VPDMA_INT1_LIST0_NOTIFY_RAW       ,VPDMA INT1 List0 Notify Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 0. " VPDMA_INT1_LIST0_COMPLETE_RAW     ,VPDMA INT1 List0 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
group.long 0x44++0x3
line.long 0x00 "VIP_INTC_INTR1_STATUS_RAW1,INTC intr1 Interrupt Status Raw/Set Register 1. This register contains the raw interrupt status as defined in HL0.8"
bitfld.long 0x00 25. " VIP2_CHR_DS_2_UV_ERR_INT_RAW      ,VIP2 Chroma Downsampler 2 UV Error Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 24. "         VIP2_CHR_DS_1_UV_ERR_INT_RAW      ,VIP2 Chroma Downsampler 1 UV Error Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 23. "     VIP1_CHR_DS_2_UV_ERR_INT_RAW      ,VIP1 Chroma Downsampler 2 UV Error Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 22. " VIP1_CHR_DS_1_UV_ERR_INT_RAW      ,VIP1 Chroma Downsampler 1 UV Error Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "         VPDMA_INT1_CLIENT_RAW             ,VPDMA INT1 Client Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "     VPDMA_INT1_CHANNEL_GROUP5_RAW     ,VPDMA INT1 Channel Group5 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 4. " VPDMA_INT1_CHANNEL_GROUP4_RAW     ,VPDMA INT1 Channel Group4 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 3. "         VPDMA_INT1_CHANNEL_GROUP3_RAW     ,VPDMA INT1 Channel Group3 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "     VPDMA_INT1_CHANNEL_GROUP2_RAW     ,VPDMA INT1 Channel Group2 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 1. " VPDMA_INT1_CHANNEL_GROUP1_RAW     ,VPDMA INT1 Channel Group1 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 0. "         VPDMA_INT1_CHANNEL_GROUP0_RAW     ,VPDMA INT1 Channel Group0 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
group.long 0x48++0x3
line.long 0x00 "VIP_INTC_INTR1_STATUS_ENA0,INTC intr1 Interrupt Status Enabled/Clear Register 0. This register contains the enabled interrupt status as defined in HL0.8"
bitfld.long 0x00 21. " VIP2_PARSER_INT_ENA               ,VIP2 Parser Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
bitfld.long 0x00 20. "         VIP1_PARSER_INT_ENA               ,VIP1 Parser Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
bitfld.long 0x00 16. "     VPDMA_INT1_DESCRIPTOR_ENA         ,VPDMA INT1 Descriptor Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 15. " VPDMA_INT1_LIST7_NOTIFY_ENA       ,VPDMA INT1 List7 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 14. "         VPDMA_INT1_LIST7_COMPLETE_ENA     ,VPDMA INT1 List7 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 13. "     VPDMA_INT1_LIST6_NOTIFY_ENA       ,VPDMA INT1 List6 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 12. " VPDMA_INT1_LIST6_COMPLETE_ENA     ,VPDMA INT1 List6 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 11. "         VPDMA_INT1_LIST5_NOTIFY_ENA       ,VPDMA INT1 List5 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 10. "     VPDMA_INT1_LIST5_COMPLETE_ENA     ,VPDMA INT1 List5 Complete Enabled Statust Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 9. " VPDMA_INT1_LIST4_NOTIFY_ENA       ,VPDMA INT1 List4 Notify Enabled Statust Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 8. "         VPDMA_INT1_LIST4_COMPLETE_ENA     ,VPDMA INT1 List4 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "     VPDMA_INT1_LIST3_NOTIFY_ENA       ,VPDMA INT1 List3 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 6. " VPDMA_INT1_LIST3_COMPLETE_ENA     ,VPDMA INT1 List3 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "         VPDMA_INT1_LIST2_NOTIFY_ENA       ,VPDMA INT1 List2 Notify Enabled Statust Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "     VPDMA_INT1_LIST2_COMPLETE_ENA     ,VPDMA INT1 List2 Complete Enabled Statust Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VPDMA_INT1_LIST1_NOTIFY_ENA       ,VPDMA INT1 List1 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "         VPDMA_INT1_LIST1_COMPLETE_ENA     ,VPDMA INT1 List1 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "     VPDMA_INT1_LIST0_NOTIFY_ENA       ,VPDMA INT1 List0 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 0. " VPDMA_INT1_LIST0_COMPLETE_ENA     ,VPDMA INT1 List0 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
group.long 0x4C++0x3
line.long 0x00 "VIP_INTC_INTR1_STATUS_ENA1,INTC intr1 Interrupt Status Enabled/Clear Register 1. This register contains the enabled interrupt status as defined in HL0.8"
bitfld.long 0x00 25. " VIP2_CHR_DS_2_UV_ERR_INT_ENA      ,VIP2 Chroma Downsampler 2 UV Error Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
bitfld.long 0x00 24. "         VIP2_CHR_DS_1_UV_ERR_INT_ENA      ,VIP2 Chroma Downsampler 1 UV Error Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
bitfld.long 0x00 23. "     VIP1_CHR_DS_2_UV_ERR_INT_ENA      ,VIP1 Chroma Downsampler 2 UV Error Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 22. " VIP1_CHR_DS_1_UV_ERR_INT_ENA      ,VIP1 Chroma Downsampler 1 UV Error Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "         VPDMA_INT1_CLIENT_ENA             ,VPDMA INT1 Client Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "     VPDMA_INT1_CHANNEL_GROUP5_ENA     ,VPDMA INT1 Channel Group5 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 4. " VPDMA_INT1_CHANNEL_GROUP4_ENA     ,VPDMA INT1 Channel Group4 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 3. "         VPDMA_INT1_CHANNEL_GROUP3_ENA     ,VPDMA INT1 Channel Group3 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "     VPDMA_INT1_CHANNEL_GROUP2_ENA     ,VPDMA INT1 Channel Group3 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 1. " VPDMA_INT1_CHANNEL_GROUP1_ENA     ,VPDMA INT1 Channel Group1 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 0. "         VPDMA_INT1_CHANNEL_GROUP0_ENA     ,VPDMA INT1 Channel Group0 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
group.long 0x50++0x3
line.long 0x00 "VIP_INTC_INTR1_ENA_SET0,INTC intr1 Interrupt Enable/Set Register 0. This register contains the interrupt enable status/set as defined in HL0.8"
bitfld.long 0x00 21. " VIP2_PARSER_INT_ENA_SET           ,VIP2 Parser Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 20. "         VIP1_PARSER_INT_ENA_SET           ,VIP1 Parser Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 16. "     VPDMA_INT1_DESCRIPTOR_ENA_SET     ,VPDMA INT1 Descriptor Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 15. " VPDMA_INT1_LIST7_NOTIFY_ENA_SET   ,VPDMA INT1 List7 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 14. "         VPDMA_INT1_LIST7_COMPLETE_ENA_SET ,VPDMA INT1 List7 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 13. "     VPDMA_INT1_LIST6_NOTIFY_ENA_SET   ,VPDMA INT1 List6 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 12. " VPDMA_INT1_LIST6_COMPLETE_ENA_SET ,VPDMA INT1 List6 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 11. "         VPDMA_INT1_LIST5_NOTIFY_ENA_SET   ,VPDMA INT1 List5 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 10. "     VPDMA_INT1_LIST5_COMPLETE_ENA_SET ,VPDMA INT1 List5 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 9. " VPDMA_INT1_LIST4_NOTIFY_ENA_SET   ,VPDMA INT1 List4 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 8. "         VPDMA_INT1_LIST4_COMPLETE_ENA_SET ,VPDMA INT1 List4 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "     VPDMA_INT1_LIST3_NOTIFY_ENA_SET   ,VPDMA INT1 List3 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 6. " VPDMA_INT1_LIST3_COMPLETE_ENA_SET ,VPDMA INT1 List3 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "         VPDMA_INT1_LIST2_NOTIFY_ENA_SET   ,VPDMA INT1 List2 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "     VPDMA_INT1_LIST2_COMPLETE_ENA_SET ,VPDMA INT1 List2 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VPDMA_INT1_LIST1_NOTIFY_ENA_SET   ,VPDMA INT1 List1 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "         VPDMA_INT1_LIST1_COMPLETE_ENA_SET ,VPDMA INT1 List1 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "     VPDMA_INT1_LIST0_NOTIFY_ENA_SET   ,VPDMA INT1 List0 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 0. " VPDMA_INT1_LIST0_COMPLETE_ENA_SET ,VPDMA INT1 List0 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
group.long 0x54++0x3
line.long 0x00 "VIP_INTC_INTR1_ENA_SET1,INTC intr1 Interrupt Enable/Set Register 1. This register contains the interrupt enable status/set as defined in HL0.8"
bitfld.long 0x00 25. " VIP2_CHR_DS_2_UV_ERR_INT_ENA_SET  ,VIP2 Chroma Downsampler 2 UV Error Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 24. "         VIP2_CHR_DS_1_UV_ERR_INT_ENA_SET  ,VIP2 Chroma Downsampler 1 UV Error Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 23. "     VIP1_CHR_DS_2_UV_ERR_INT_ENA_SET  ,VIP1 Chroma Downsampler 2 UV Error Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 22. " VIP1_CHR_DS_1_UV_ERR_INT_ENA_SET  ,VIP1 Chroma Downsampler 1 UV Error Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "         VPDMA_INT1_CLIENT_ENA_SET         ,VPDMA INT1 Client Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 6. "     VPDMA_INT1_CHANNEL_GROUP6_ENA_SET ,VPDMA INT1 Channel Group6 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 5. " VPDMA_INT1_CHANNEL_GROUP5_ENA_SET ,VPDMA INT1 Channel Group5 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "         VPDMA_INT1_CHANNEL_GROUP4_ENA_SET ,VPDMA INT1 Channel Group4 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 3. "     VPDMA_INT1_CHANNEL_GROUP3_ENA_SET ,VPDMA INT1 Channel Group3 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 2. " VPDMA_INT1_CHANNEL_GROUP2_ENA_SET ,VPDMA INT1 Channel Group2 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "         VPDMA_INT1_CHANNEL_GROUP1_ENA_SET ,VPDMA INT1 Channel Group1 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 0. "     VPDMA_INT1_CHANNEL_GROUP0_ENA_SET ,VPDMA INT1 Channel Group0 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
group.long 0x58++0x3
line.long 0x00 "VIP_INTC_INTR1_ENA_CLR0,INTC intr1 Interrupt Enable/Clear Register 0. This register contains the interrupt enable status/clear as defined in HL0.8"
bitfld.long 0x00 21. " VIP2_PARSER_INT_ENA_CLR           ,VIP2 Parser Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 20. "         VIP1_PARSER_INT_ENA_CLR           ,VIP1 Parser Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 16. "     VPDMA_INT1_DESCRIPTOR_ENA_CLR     ,VPDMA INT1 Descriptor Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 15. " VPDMA_INT1_LIST7_NOTIFY_ENA_CLR   ,VPDMA INT1 List7 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 14. "         VPDMA_INT1_LIST7_COMPLETE_ENA_CLR ,VPDMA INT1 List7 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 13. "     VPDMA_INT1_LIST6_NOTIFY_ENA_CLR   ,VPDMA INT1 List6 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 12. " VPDMA_INT1_LIST6_COMPLETE_ENA_CLR ,VPDMA INT1 List6 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 11. "         VPDMA_INT1_LIST5_NOTIFY_ENA_CLR   ,VPDMA INT1 List5 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 10. "     VPDMA_INT1_LIST5_COMPLETE_ENA_CLR ,VPDMA INT1 List5 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 9. " VPDMA_INT1_LIST4_NOTIFY_ENA_CLR   ,VPDMA INT1 List4 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 8. "         VPDMA_INT1_LIST4_COMPLETE_ENA_CLR ,VPDMA INT1 List4 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "     VPDMA_INT1_LIST3_NOTIFY_ENA_CLR   ,VPDMA INT1 List3 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 6. " VPDMA_INT1_LIST3_COMPLETE_ENA_CLR ,VPDMA INT1 List3 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "         VPDMA_INT1_LIST2_NOTIFY_ENA_CLR   ,VPDMA INT1 List2 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "     VPDMA_INT1_LIST2_COMPLETE_ENA_CLR ,VPDMA INT1 List2 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VPDMA_INT1_LIST1_NOTIFY_ENA_CLR   ,VPDMA INT1 List1 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "         VPDMA_INT1_LIST1_COMPLETE_ENA_CLR ,VPDMA INT1 List1 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "     VPDMA_INT1_LIST0_NOTIFY_ENA_CLR   ,VPDMA INT1 List0 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 0. " VPDMA_INT1_LIST0_COMPLETE_ENA_CLR ,VPDMA INT1 List0 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
group.long 0x5C++0x3
line.long 0x00 "VIP_INTC_INTR1_ENA_CLR1,INTC intr1 Interrupt Enable/Clear Register 1. This register contains the interrupt enable status/clear as defined in HL0.8"
bitfld.long 0x00 25. " VIP2_CHR_DS_2_UV_ERR_INT_ENA_CLR  ,VIP2 Chroma Downsampler 2 UV Error Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 24. "         VIP2_CHR_DS_1_UV_ERR_INT_ENA_CLR  ,VIP2 Chroma Downsampler 1 UV Error Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 23. "     VIP1_CHR_DS_2_UV_ERR_INT_ENA_CLR  ,VIP1 Chroma Downsampler 2 UV Error Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 22. " VIP1_CHR_DS_1_UV_ERR_INT_ENA_CLR  ,VIP1 Chroma Downsampler 1 UV Error Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "         VPDMA_INT1_CLIENT_ENA_CLR         ,VPDMA INT1 Client Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 6. "     VPDMA_INT1_CHANNEL_GROUP6_ENA_CLR ,VPDMA INT1 Channel Group6 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 5. " VPDMA_INT1_CHANNEL_GROUP5_ENA_CLR ,VPDMA INT1 Channel Group5 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "         VPDMA_INT1_CHANNEL_GROUP4_ENA_CLR ,VPDMA INT1 Channel Group4 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 3. "     VPDMA_INT1_CHANNEL_GROUP3_ENA_CLR ,VPDMA INT1 Channel Group3 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 2. " VPDMA_INT1_CHANNEL_GROUP2_ENA_CLR ,VPDMA INT1 Channel Group2 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "         VPDMA_INT1_CHANNEL_GROUP1_ENA_CLR ,VPDMA INT1 Channel Group1 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 0. "     VPDMA_INT1_CHANNEL_GROUP0_ENA_CLR ,VPDMA INT1 Channel Group0 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
group.long 0xA0++0x3
line.long 0x00 "VIP_INTC_EOI,INTC EOI Register. This register contains the EOI vector register contents as defined by HL0.8"
hexmask.long 0x00 0.--31. 1. " EOI_VECTOR                        ,Number associated with the ipgenericirq for intr output. There are 4 interrupt outputs Write 0x0 : Write to intr0 IP Generic Write 0x1 : Write to intr1 IP Generic Write 0x2 : Write to intr2 IP Generic Write 0x3 : Wri..."
group.long 0x100++0x3
line.long 0x00 "VIP_CLKC_CLKEN,CLKC Module Clock Enable Register. This register contains clock enables for the processing paths in the Display Subsystem"
bitfld.long 0x00 17. " VIP2_DP_EN                        ,Video Input Port 2 Data Path Clock Enable, 1 = Clock Enabled, 0 = Clock Disabled" "0,1"
bitfld.long 0x00 16. "         VIP1_DP_EN                        ,Video Input Port 1 Data Path Clock Enable, 1 = Clock Enabled, 0 = Clock Disabled" "0,1"
bitfld.long 0x00 0. "     VPDMA_EN                          ,VPDMA Clock Enable, 1 = Clock Enabled, 0 = Clock Disabled" "0,1"
group.long 0x104++0x3
line.long 0x00 "VIP_CLKC_RST,CLKC Module Reset Register. This register contains resets for the processing paths in the Display Subsystem"
bitfld.long 0x00 31. " MAIN_RST                          ,Reset for all modules in DSS Main Data Path" "0,1"
bitfld.long 0x00 17. "         VIP2_DP_RST                       ,Video Input Port 2 Data Path Reset" "0,1"
bitfld.long 0x00 16. "     VIP1_DP_RST                       ,Video Input Port 1 Data Path Reset" "0,1"
textline "                                     "
bitfld.long 0x00 0. " VPDMA_RST                         ,VPDMA Reset" "0,1"
group.long 0x108++0x3
line.long 0x00 "VIP_CLKC_DPS,CLKC Main Data Path Select Register. This register selects the various data paths within main portion (non-VIP) of the subsystem"
bitfld.long 0x00 31. " MAIN_RST                          ,Reset for all modules in DSS Main Data Path" "0,1"
bitfld.long 0x00 17. "         VIP2_DP_RST                       ,Video Input Port 2 Data Path Reset" "0,1"
bitfld.long 0x00 16. "     VIP1_DP_RST                       ,Video Input Port 1 Data Path Reset" "0,1"
textline "                                     "
bitfld.long 0x00 0. " VPDMA_RST                         ,VPDMA Reset" "0,1"
group.long 0x10C++0x3
line.long 0x00 "VIP_CLKC_VIP0DPS,CLKC Video Input Port 1 Data Path Select Register. This register selects the various data paths within the Video Input Port portion of the subsystem"
bitfld.long 0x00 28.--31. " VIP1_DATAPATH_SELECT              ,VIP1 Datapath Register Field Enable 0000 : All fields written 0001 : Only vip1_csc_src_select written 0010 : Only vip1_sc_src_select written 0011 : Only vip1_rgb_src_select written 0100 : Only vip1_rgb_out_lo_select ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 27. "        VIP1_TESTPORT_A_SELECT            ,0 : Normal mode 1: Test Mode" "0,1"
bitfld.long 0x00 26. "     VIP1_TESTPORT_B_SELECT            ,0 : Normal mode 1: Test Mode" "0,1"
textline "                                     "
bitfld.long 0x00 17. " VIP1_CHR_DS_2_BYPASS              ,Video Input Port 1 Chroma Downsampler 2 Bypass 0 : VIP Chroma Downsampler 1 selected 1 : VIP Chroma Downsampler 1 Bypassed Chroma Downsampler Bypassed means the output format from the VIP will be 422 data. Selected m..." "0,1"
bitfld.long 0x00 16. "         VIP1_CHR_DS_1_BYPASS              ,Video Input Port 1 Chroma Downsampler 1 Bypass 0 : VIP Chroma Downsampler 1 selected 1 : VIP Chroma Downsampler 1 Bypassed Chroma Downsampler Bypassed means the output format from the VIP will be 422 data. Se..." "0,1"
bitfld.long 0x00 15. "     VIP1_MULTI_CHANNEL_SELECT         ,Video Input Port 1 Multi Channel Select 0 : VIP_PARSER A and B channels operate in single channel mode 1 : VIP_PARSER A and B channels directly drive VPDMA (multi-channel case) Multi-Channel means that the A and ..." "0,1"
textline "                                     "
bitfld.long 0x00 12.--14. " VIP1_CHR_DS_2_SRC_SELECT          ,Video Input Port 1 Chroma Downsampler 2 Source Select 0 : Path Disabled (no input to CHR_DS) 1 : Source from Scaler (SC_M) 2 : Source from Color Space Converter (CSC) 3 : Source from VIP_PARSER A port 4 : Source from..." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 9.--11. "         VIP1_CHR_DS_1_SRC_SELECT          ,Video Input Port 1 Chroma Downsampler 1 Source Select 000 : Path Disabled (no input to CHR_DS) 001 : Source from Scaler (SC_M) 010 : Source from Color Space Converter (CSC) 011 : Source from VIP_PARSER A port..." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8. "     VIP1_RGB_OUT_HI_SELECT            ,Video Input Port 1 HI RGB Output Select 0 : Output Type is 420/422 1 : Output Type is RGB" "0,1"
textline "                                     "
bitfld.long 0x00 7. " VIP1_RGB_OUT_LO_SELECT            ,Video Input Port 1 LO RGB Output Select 0 : Output Type is 420/422 1 : Output Type is RGB" "0,1"
bitfld.long 0x00 6. "         VIP1_RGB_SRC_SELECT               ,Video Input Port 1 RGB Output Path Select 0 : Source from Compositor RGB input 1 : Source from CSC" "0,1"
bitfld.long 0x00 3.--5. "     VIP1_SC_SRC_SELECT                ,Video Input Port 1 SC_M Source Select 000 : Path Disabled 001 : Source from Color Space Converter (CSC) 010 : Source from VIP_PARSER A port 011 : Source from VIP_PARSER B port 100 : Source from Transcode (422) 10..." "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 0.--2. " VIP1_CSC_SRC_SELECT               ,Video Input Port 1 CSC Source Select 000 : Path Disabled 001 : Source from VIP_PARSER A (422) port 010 : Source from VIP_PARSER B port 011 : Source from Transcode (422) 100 : Source from VIP_PARSER A (RGB) port 101 :..." "0,1,2,3,4,5,6,7"
group.long 0x110++0x3
line.long 0x00 "VIP_CLKC_VIP1DPS,CLKC Video Input Port 2 Data Path Select Register. This register selects the various data paths within the Video Input Port portion of the subsystem"
bitfld.long 0x00 28.--31. " VIP2_DATAPATH_SELECT              ,VIP2 Datapath Register Field Enable 0000 : All fields written 0001 : Only vip2_csc_src_select written 0010 : Only vip2_sc_src_select written 0011 : Only vip2_rgb_src_select written 0100 : Only vip2_rgb_out_lo_select ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 27. "        VIP2_TESTPORT_A_SELECT            ,0 : Normal mode 1: Test Mode" "0,1"
bitfld.long 0x00 26. "     VIP2_TESTPORT_B_SELECT            ,0 : Normal mode 1: Test Mode" "0,1"
textline "                                     "
bitfld.long 0x00 17. " VIP2_CHR_DS_2_BYPASS              ,Video Input Port 2 Chroma Downsampler 2 Bypass 0 : VIP Chroma Downsampler 1 selected 1 : VIP Chroma Downsampler 1 Bypassed Chroma Downsampler Bypassed means the output format from the VIP will be 422 data. Selected m..." "0,1"
bitfld.long 0x00 16. "         VIP2_CHR_DS_1_BYPASS              ,Video Input Port 2 Chroma Downsampler 1 Bypass 0 : VIP Chroma Downsampler 1 selected 1 : VIP Chroma Downsampler 1 Bypassed Chroma Downsampler Bypassed means the output format from the VIP will be 422 data. Se..." "0,1"
bitfld.long 0x00 15. "     VIP2_MULTI_CHANNEL_SELECT         ,Video Input Port 2 Multi Channel Select 0 : VIP_PARSER A and B channels operate in single channel mode 1 : VIP_PARSER A and B channels directly drive VPDMA (multi-channel case) Multi-Channel means that the A and ..." "0,1"
textline "                                     "
bitfld.long 0x00 12.--14. " VIP2_CHR_DS_2_SRC_SELECT          ,Video Input Port 2 Chroma Downsampler 2 Source Select 0 : Path Disabled (no input to CHR_DS) 1 : Source from Scaler (SC_M) 2 : Source from Color Space Converter (CSC) 3 : Source from VIP_PARSER A port 4 : Source from..." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 9.--11. "         VIP2_CHR_DS_1_SRC_SELECT          ,Video Input Port 2 Chroma Downsampler 1 Source Select 000 : Path Disabled (no input to CHR_DS) 001 : Source from Scaler (SC_M) 010 : Source from Color Space Converter (CSC) 011 : Source from VIP_PARSER A port..." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8. "     VIP2_RGB_OUT_HI_SELECT            ,Video Input Port 2 HI RGB Output Select 0 : Output Type is 420/422 1 : Output Type is RGB" "0,1"
textline "                                     "
bitfld.long 0x00 7. " VIP2_RGB_OUT_LO_SELECT            ,Video Input Port 2 LO RGB Output Select 0 : Output Type is 420/422 1 : Output Type is RGB" "0,1"
bitfld.long 0x00 6. "         VIP2_RGB_SRC_SELECT               ,Video Input Port 2 RGB Output Path Select 0 : Source from Compositor RGB input 1 : Source from CSC" "0,1"
bitfld.long 0x00 3.--5. "     VIP2_SC_SRC_SELECT                ,Video Input Port 2 SC_M Source Select 000 : Path Disabled 001 : Source from Color Space Converter (CSC) 010 : Source from VIP_PARSER A port 011 : Source from VIP_PARSER B port 100 : Source from Transcode (422) 10..." "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 0.--2. " VIP2_CSC_SRC_SELECT               ,Video Input Port 2 CSC Source Select 000 : Path Disabled 001 : Source from VIP_PARSER A (422) port 010 : Source from VIP_PARSER B port 011 : Source from Transcode (422) 100 : Source from VIP_PARSER A (RGB) port 101 :..." "0,1,2,3,4,5,6,7"
width 0x0B
tree.end
tree "VIP3_top_level"
base ad:0x489B0000
width 28.
rgroup.long 0x0++0x3
line.long 0x00 "VIP_CLKC_PID,This register follows the format described in PDR3.5"
bitfld.long 0x00 30.--31. " SCHEME                            ,The scheme of the register used. This indicates the PDR3.5 Method" "0,1,2,3"
hexmask.long.word 0x00 16.--27. 1. "         FUNC                              ,The function of the module being used"
bitfld.long 0x00 11.--15. "  RTL                               ,RTL Release Version The PDR release number of this IP" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 8.--10. " MAJOR                             ,ajor Release Number" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6.--7. "         CUSTOM                            ,Custom IP" "0,1,2,3"
bitfld.long 0x00 0.--5. "     MINOR                             ,inor Release Number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x10++0x3
line.long 0x00 "VIP_SYSCONFIG,"
bitfld.long 0x00 4.--5. " STANDBYMODE                       ,Configuration of the local initiator state management mode. By definition, initiator may generate read/write transaction as long as it is out of STANDBY state 0x0: Force-standby mode: local initiator is unconditional..." "0,1,2,3"
bitfld.long 0x00 2.--3. "         IDLEMODE                          ,Configuration of the local target state management mode. By definition, target can handle read/write transaction as long as it is out of IDLE state 0x0 : Force-idle mode: local target's idle state follows (ac..." "0,1,2,3"
group.long 0x20++0x3
line.long 0x00 "VIP_INTC_INTR0_STATUS_RAW0,INTC INTR0 Interrupt Status Raw/Set Register 0. This register contains the raw interrupt status as defined in HL0.8"
bitfld.long 0x00 21. " VIP2_PARSER_INT_RAW               ,VIP2 Parser Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 20. "         VIP1_PARSER_INT_RAW               ,VIP1 Parser Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 16. "     VPDMA_INT0_DESCRIPTOR_RAW         ,VPDMA INT0 Descriptor Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 15. " VPDMA_INT0_LIST7_NOTIFY_RAW       ,VPDMA INT0 List7 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 14. "         VPDMA_INT0_LIST7_COMPLETE_RAW     ,VPDMA INT0 List7 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 13. "     VPDMA_INT0_LIST6_NOTIFY_RAW       ,VPDMA INT0 List6 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 12. " VPDMA_INT0_LIST6_COMPLETE_RAW     ,VPDMA INT0 List6 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 11. "         VPDMA_INT0_LIST5_NOTIFY_RAW       ,VPDMA INT0 List5 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 10. "     VPDMA_INT0_LIST5_COMPLETE_RAW     ,VPDMA INT0 List5 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 9. " VPDMA_INT0_LIST4_NOTIFY_RAW       ,VPDMA INT0 List4 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 8. "         VPDMA_INT0_LIST4_COMPLETE_RAW     ,VPDMA INT0 List4 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "     VPDMA_INT0_LIST3_NOTIFY_RAW       ,VPDMA INT0 List3 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 6. " VPDMA_INT0_LIST3_COMPLETE_RAW     ,VPDMA INT0 List3 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "         VPDMA_INT0_LIST2_NOTIFY_RAW       ,VPDMA INT0 List2 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "     VPDMA_INT0_LIST2_COMPLETE_RAW     ,VPDMA INT0 List2 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VPDMA_INT0_LIST1_NOTIFY_RAW       ,VPDMA INT0 List1 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "         VPDMA_INT0_LIST1_COMPLETE_RAW     ,VPDMA INT0 List1 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "     VPDMA_INT0_LIST0_NOTIFY_RAW       ,VPDMA INT0 List0 Notify Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 0. " VPDMA_INT0_LIST0_COMPLETE_RAW     ,VPDMA INT0 List0 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
group.long 0x24++0x3
line.long 0x00 "VIP_INTC_INTR0_STATUS_RAW1,INTC INTR0 Interrupt Status Raw/Set Register 1. This register contains the raw interrupt status as defined in HL0.8"
bitfld.long 0x00 25. " VIP2_CHR_DS_2_UV_ERR_INT_RAW      ,VIP2 Chroma Downsampler 2 UV Error Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 24. "         VIP2_CHR_DS_1_UV_ERR_INT_RAW      ,VIP2 Chroma Downsampler 1 UV Error Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 23. "     VIP1_CHR_DS_2_UV_ERR_INT_RAW      ,VIP1 Chroma Downsampler 2 UV Error Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 22. " VIP1_CHR_DS_1_UV_ERR_INT_RAW      ,VIP1 Chroma Downsampler 1 UV Error Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "         VPDMA_INT0_CLIENT_RAW             ,VPDMA INT0 Client Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "     VPDMA_INT0_CHANNEL_GROUP5_RAW     ,VPDMA INT0 Channel Group5 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 4. " VPDMA_INT0_CHANNEL_GROUP4_RAW     ,VPDMA INT0 Channel Group4 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 3. "         VPDMA_INT0_CHANNEL_GROUP3_RAW     ,VPDMA INT0 Channel Group3 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "     VPDMA_INT0_CHANNEL_GROUP2_RAW     ,VPDMA INT0 Channel Group2 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 1. " VPDMA_INT0_CHANNEL_GROUP1_RAW     ,VPDMA INT0 Channel Group1 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 0. "         VPDMA_INT0_CHANNEL_GROUP0_RAW     ,VPDMA INT0 Channel Group0 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
group.long 0x28++0x3
line.long 0x00 "VIP_INTC_INTR0_STATUS_ENA0,INTC INTR0 Interrupt Status Enabled/Clear Register 0. This register contains the enabled interrupt status as defined in HL0.8"
bitfld.long 0x00 21. " VIP2_PARSER_INT_ENA               ,VIP2 Parser Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
bitfld.long 0x00 20. "         VIP1_PARSER_INT_ENA               ,VIP1 Parser Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
bitfld.long 0x00 16. "     VPDMA_INT0_DESCRIPTOR_ENA         ,VPDMA INT0 Descriptor Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 15. " VPDMA_INT0_LIST7_NOTIFY_ENA       ,VPDMA INT0 List7 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 14. "         VPDMA_INT0_LIST7_COMPLETE_ENA     ,VPDMA INT0 List7 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 13. "     VPDMA_INT0_LIST6_NOTIFY_ENA       ,VPDMA INT0 List6 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 12. " VPDMA_INT0_LIST6_COMPLETE_ENA     ,VPDMA INT0 List6 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 11. "         VPDMA_INT0_LIST5_NOTIFY_ENA       ,VPDMA INT0 List5 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 10. "     VPDMA_INT0_LIST5_COMPLETE_ENA     ,VPDMA INT0 List5 Complete Enabled Statust Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 9. " VPDMA_INT0_LIST4_NOTIFY_ENA       ,VPDMA INT0 List4 Notify Enabled Statust Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 8. "         VPDMA_INT0_LIST4_COMPLETE_ENA     ,VPDMA INT0 List4 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "     VPDMA_INT0_LIST3_NOTIFY_ENA       ,VPDMA INT0 List3 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 6. " VPDMA_INT0_LIST3_COMPLETE_ENA     ,VPDMA INT0 List3 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "         VPDMA_INT0_LIST2_NOTIFY_ENA       ,VPDMA INT0 List2 Notify Enabled Statust Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "     VPDMA_INT0_LIST2_COMPLETE_ENA     ,VPDMA INT0 List2 Complete Enabled Statust Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VPDMA_INT0_LIST1_NOTIFY_ENA       ,VPDMA INT0 List1 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "         VPDMA_INT0_LIST1_COMPLETE_ENA     ,VPDMA INT0 List1 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "     VPDMA_INT0_LIST0_NOTIFY_ENA       ,VPDMA INT0 List0 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 0. " VPDMA_INT0_LIST0_COMPLETE_ENA     ,VPDMA INT0 List0 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
group.long 0x2C++0x3
line.long 0x00 "VIP_INTC_INTR0_STATUS_ENA1,INTC INTR0 Interrupt Status Enabled/Clear Register 1. This register contains the enabled interrupt status as defined in HL0.8"
bitfld.long 0x00 25. " VIP2_CHR_DS_2_UV_ERR_INT_ENA      ,VIP2 Chroma Downsampler 2 UV Error Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
bitfld.long 0x00 24. "         VIP2_CHR_DS_1_UV_ERR_INT_ENA      ,VIP2 Chroma Downsampler 1 UV Error Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
bitfld.long 0x00 23. "     VIP1_CHR_DS_2_UV_ERR_INT_ENA      ,VIP1 Chroma Downsampler 2 UV Error Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 22. " VIP1_CHR_DS_1_UV_ERR_INT_ENA      ,VIP1 Chroma Downsampler 1 UV Error Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "         VPDMA_INT0_CLIENT_ENA             ,VPDMA INT0 Client Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "     VPDMA_INT0_CHANNEL_GROUP5_ENA     ,VPDMA INT0 Channel Group5 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 4. " VPDMA_INT0_CHANNEL_GROUP4_ENA     ,VPDMA INT0 Channel Group4 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 3. "         VPDMA_INT0_CHANNEL_GROUP3_ENA     ,VPDMA INT0 Channel Group3 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "     VPDMA_INT0_CHANNEL_GROUP2_ENA     ,VPDMA INT0 Channel Group3 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 1. " VPDMA_INT0_CHANNEL_GROUP1_ENA     ,VPDMA INT0 Channel Group1 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 0. "         VPDMA_INT0_CHANNEL_GROUP0_ENA     ,VPDMA INT0 Channel Group0 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
group.long 0x30++0x3
line.long 0x00 "VIP_INTC_INTR0_ENA_SET0,INTC INTR0 Interrupt Enable/Set Register 0. This register contains the interrupt enable status/set as defined in HL0.8"
bitfld.long 0x00 21. " VIP2_PARSER_INT_ENA_SET           ,VIP2 Parser Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 20. "         VIP1_PARSER_INT_ENA_SET           ,VIP1 Parser Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 16. "     VPDMA_INT0_DESCRIPTOR_ENA_SET     ,VPDMA INT0 Descriptor Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 15. " VPDMA_INT0_LIST7_NOTIFY_ENA_SET   ,VPDMA INT0 List7 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 14. "         VPDMA_INT0_LIST7_COMPLETE_ENA_SET ,VPDMA INT0 List7 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 13. "     VPDMA_INT0_LIST6_NOTIFY_ENA_SET   ,VPDMA INT0 List6 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 12. " VPDMA_INT0_LIST6_COMPLETE_ENA_SET ,VPDMA INT0 List6 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 11. "         VPDMA_INT0_LIST5_NOTIFY_ENA_SET   ,VPDMA INT0 List5 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 10. "     VPDMA_INT0_LIST5_COMPLETE_ENA_SET ,VPDMA INT0 List5 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 9. " VPDMA_INT0_LIST4_NOTIFY_ENA_SET   ,VPDMA INT0 List4 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 8. "         VPDMA_INT0_LIST4_COMPLETE_ENA_SET ,VPDMA INT0 List4 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "     VPDMA_INT0_LIST3_NOTIFY_ENA_SET   ,VPDMA INT0 List3 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 6. " VPDMA_INT0_LIST3_COMPLETE_ENA_SET ,VPDMA INT0 List3 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "         VPDMA_INT0_LIST2_NOTIFY_ENA_SET   ,VPDMA INT0 List2 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "     VPDMA_INT0_LIST2_COMPLETE_ENA_SET ,VPDMA INT0 List2 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VPDMA_INT0_LIST1_NOTIFY_ENA_SET   ,VPDMA INT0 List1 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "         VPDMA_INT0_LIST1_COMPLETE_ENA_SET ,VPDMA INT0 List1 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "     VPDMA_INT0_LIST0_NOTIFY_ENA_SET   ,VPDMA INT0 List0 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 0. " VPDMA_INT0_LIST0_COMPLETE_ENA_SET ,VPDMA INT0 List0 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
group.long 0x34++0x3
line.long 0x00 "VIP_INTC_INTR0_ENA_SET1,INTC INTR0 Interrupt Enable/Set Register 1. This register contains the interrupt enable status/set as defined in HL0.8"
bitfld.long 0x00 25. " VIP2_CHR_DS_2_UV_ERR_INT_ENA_SET  ,VIP2 Chroma Downsampler 2 UV Error Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 24. "         VIP2_CHR_DS_1_UV_ERR_INT_ENA_SET  ,VIP2 Chroma Downsampler 1 UV Error Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 23. "     VIP1_CHR_DS_2_UV_ERR_INT_ENA_SET  ,VIP1 Chroma Downsampler 2 UV Error Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 22. " VIP1_CHR_DS_1_UV_ERR_INT_ENA_SET  ,VIP1 Chroma Downsampler 1 UV Error Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "         VPDMA_INT0_CLIENT_ENA_SET         ,VPDMA INT0 Client Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 6. "     VPDMA_INT0_CHANNEL_GROUP6_ENA_SET ,VPDMA INT0 Channel Group6 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 5. " VPDMA_INT0_CHANNEL_GROUP5_ENA_SET ,VPDMA INT0 Channel Group5 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "         VPDMA_INT0_CHANNEL_GROUP4_ENA_SET ,VPDMA INT0 Channel Group4 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 3. "     VPDMA_INT0_CHANNEL_GROUP3_ENA_SET ,VPDMA INT0 Channel Group3 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 2. " VPDMA_INT0_CHANNEL_GROUP2_ENA_SET ,VPDMA INT0 Channel Group2 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "         VPDMA_INT0_CHANNEL_GROUP1_ENA_SET ,VPDMA INT0 Channel Group1 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 0. "     VPDMA_INT0_CHANNEL_GROUP0_ENA_SET ,VPDMA INT0 Channel Group0 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
group.long 0x38++0x3
line.long 0x00 "VIP_INTC_INTR0_ENA_CLR0,INTC INTR0 Interrupt Enable/Clear Register 0. This register contains the interrupt enable status/clear as defined in HL0.8"
bitfld.long 0x00 21. " VIP2_PARSER_INT_ENA_CLR           ,VIP2 Parser Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 20. "         VIP1_PARSER_INT_ENA_CLR           ,VIP1 Parser Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 16. "     VPDMA_INT0_DESCRIPTOR_ENA_CLR     ,VPDMA INT0 Descriptor Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 15. " VPDMA_INT0_LIST7_NOTIFY_ENA_CLR   ,VPDMA INT0 List7 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 14. "         VPDMA_INT0_LIST7_COMPLETE_ENA_CLR ,VPDMA INT0 List7 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 13. "     VPDMA_INT0_LIST6_NOTIFY_ENA_CLR   ,VPDMA INT0 List6 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 12. " VPDMA_INT0_LIST6_COMPLETE_ENA_CLR ,VPDMA INT0 List6 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 11. "         VPDMA_INT0_LIST5_NOTIFY_ENA_CLR   ,VPDMA INT0 List5 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 10. "     VPDMA_INT0_LIST5_COMPLETE_ENA_CLR ,VPDMA INT0 List5 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 9. " VPDMA_INT0_LIST4_NOTIFY_ENA_CLR   ,VPDMA INT0 List4 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 8. "         VPDMA_INT0_LIST4_COMPLETE_ENA_CLR ,VPDMA INT0 List4 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "     VPDMA_INT0_LIST3_NOTIFY_ENA_CLR   ,VPDMA INT0 List3 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 6. " VPDMA_INT0_LIST3_COMPLETE_ENA_CLR ,VPDMA INT0 List3 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "         VPDMA_INT0_LIST2_NOTIFY_ENA_CLR   ,VPDMA INT0 List2 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "     VPDMA_INT0_LIST2_COMPLETE_ENA_CLR ,VPDMA INT0 List2 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VPDMA_INT0_LIST1_NOTIFY_ENA_CLR   ,VPDMA INT0 List1 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "         VPDMA_INT0_LIST1_COMPLETE_ENA_CLR ,VPDMA INT0 List1 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "     VPDMA_INT0_LIST0_NOTIFY_ENA_CLR   ,VPDMA INT0 List0 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 0. " VPDMA_INT0_LIST0_COMPLETE_ENA_CLR ,VPDMA INT0 List0 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
group.long 0x3C++0x3
line.long 0x00 "VIP_INTC_INTR0_ENA_CLR1,INTC INTR0 Interrupt Enable/Clear Register 1. This register contains the interrupt enable status/clear as defined in HL0.8"
bitfld.long 0x00 25. " VIP2_CHR_DS_2_UV_ERR_INT_ENA_CLR  ,VIP2 Chroma Downsampler 2 UV Error Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 24. "         VIP2_CHR_DS_1_UV_ERR_INT_ENA_CLR  ,VIP2 Chroma Downsampler 1 UV Error Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 23. "     VIP1_CHR_DS_2_UV_ERR_INT_ENA_CLR  ,VIP1 Chroma Downsampler 2 UV Error Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 22. " VIP1_CHR_DS_1_UV_ERR_INT_ENA_CLR  ,VIP1 Chroma Downsampler 1 UV Error Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "         VPDMA_INT0_CLIENT_ENA_CLR         ,VPDMA INT0 Client Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 6. "     VPDMA_INT0_CHANNEL_GROUP6_ENA_CLR ,VPDMA INT0 Channel Group6 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 5. " VPDMA_INT0_CHANNEL_GROUP5_ENA_CLR ,VPDMA INT0 Channel Group5 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "         VPDMA_INT0_CHANNEL_GROUP4_ENA_CLR ,VPDMA INT0 Channel Group4 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 3. "     VPDMA_INT0_CHANNEL_GROUP3_ENA_CLR ,VPDMA INT0 Channel Group3 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 2. " VPDMA_INT0_CHANNEL_GROUP2_ENA_CLR ,VPDMA INT0 Channel Group2 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "         VPDMA_INT0_CHANNEL_GROUP1_ENA_CLR ,VPDMA INT0 Channel Group1 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 0. "     VPDMA_INT0_CHANNEL_GROUP0_ENA_CLR ,VPDMA INT0 Channel Group0 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
group.long 0x40++0x3
line.long 0x00 "VIP_INTC_INTR1_STATUS_RAW0,INTC intr1 Interrupt Status Raw/Set Register 0. This register contains the raw interrupt status as defined in HL0.8"
bitfld.long 0x00 21. " VIP2_PARSER_INT_RAW               ,VIP2 Parser Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 20. "         VIP1_PARSER_INT_RAW               ,VIP1 Parser Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 16. "     VPDMA_INT1_DESCRIPTOR_RAW         ,VPDMA INT1 Descriptor Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 15. " VPDMA_INT1_LIST7_NOTIFY_RAW       ,VPDMA INT1 List7 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 14. "         VPDMA_INT1_LIST7_COMPLETE_RAW     ,VPDMA INT1 List7 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 13. "     VPDMA_INT1_LIST6_NOTIFY_RAW       ,VPDMA INT1 List6 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 12. " VPDMA_INT1_LIST6_COMPLETE_RAW     ,VPDMA INT1 List6 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 11. "         VPDMA_INT1_LIST5_NOTIFY_RAW       ,VPDMA INT1 List5 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 10. "     VPDMA_INT1_LIST5_COMPLETE_RAW     ,VPDMA INT1 List5 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 9. " VPDMA_INT1_LIST4_NOTIFY_RAW       ,VPDMA INT1 List4 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 8. "         VPDMA_INT1_LIST4_COMPLETE_RAW     ,VPDMA INT1 List4 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "     VPDMA_INT1_LIST3_NOTIFY_RAW       ,VPDMA INT1 List3 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 6. " VPDMA_INT1_LIST3_COMPLETE_RAW     ,VPDMA INT1 List3 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "         VPDMA_INT1_LIST2_NOTIFY_RAW       ,VPDMA INT1 List2 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "     VPDMA_INT1_LIST2_COMPLETE_RAW     ,VPDMA INT1 List2 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VPDMA_INT1_LIST1_NOTIFY_RAW       ,VPDMA INT1 List1 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "         VPDMA_INT1_LIST1_COMPLETE_RAW     ,VPDMA INT1 List1 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "     VPDMA_INT1_LIST0_NOTIFY_RAW       ,VPDMA INT1 List0 Notify Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 0. " VPDMA_INT1_LIST0_COMPLETE_RAW     ,VPDMA INT1 List0 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
group.long 0x44++0x3
line.long 0x00 "VIP_INTC_INTR1_STATUS_RAW1,INTC intr1 Interrupt Status Raw/Set Register 1. This register contains the raw interrupt status as defined in HL0.8"
bitfld.long 0x00 25. " VIP2_CHR_DS_2_UV_ERR_INT_RAW      ,VIP2 Chroma Downsampler 2 UV Error Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 24. "         VIP2_CHR_DS_1_UV_ERR_INT_RAW      ,VIP2 Chroma Downsampler 1 UV Error Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 23. "     VIP1_CHR_DS_2_UV_ERR_INT_RAW      ,VIP1 Chroma Downsampler 2 UV Error Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 22. " VIP1_CHR_DS_1_UV_ERR_INT_RAW      ,VIP1 Chroma Downsampler 1 UV Error Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "         VPDMA_INT1_CLIENT_RAW             ,VPDMA INT1 Client Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "     VPDMA_INT1_CHANNEL_GROUP5_RAW     ,VPDMA INT1 Channel Group5 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 4. " VPDMA_INT1_CHANNEL_GROUP4_RAW     ,VPDMA INT1 Channel Group4 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 3. "         VPDMA_INT1_CHANNEL_GROUP3_RAW     ,VPDMA INT1 Channel Group3 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "     VPDMA_INT1_CHANNEL_GROUP2_RAW     ,VPDMA INT1 Channel Group2 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 1. " VPDMA_INT1_CHANNEL_GROUP1_RAW     ,VPDMA INT1 Channel Group1 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 0. "         VPDMA_INT1_CHANNEL_GROUP0_RAW     ,VPDMA INT1 Channel Group0 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
group.long 0x48++0x3
line.long 0x00 "VIP_INTC_INTR1_STATUS_ENA0,INTC intr1 Interrupt Status Enabled/Clear Register 0. This register contains the enabled interrupt status as defined in HL0.8"
bitfld.long 0x00 21. " VIP2_PARSER_INT_ENA               ,VIP2 Parser Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
bitfld.long 0x00 20. "         VIP1_PARSER_INT_ENA               ,VIP1 Parser Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
bitfld.long 0x00 16. "     VPDMA_INT1_DESCRIPTOR_ENA         ,VPDMA INT1 Descriptor Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 15. " VPDMA_INT1_LIST7_NOTIFY_ENA       ,VPDMA INT1 List7 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 14. "         VPDMA_INT1_LIST7_COMPLETE_ENA     ,VPDMA INT1 List7 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 13. "     VPDMA_INT1_LIST6_NOTIFY_ENA       ,VPDMA INT1 List6 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 12. " VPDMA_INT1_LIST6_COMPLETE_ENA     ,VPDMA INT1 List6 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 11. "         VPDMA_INT1_LIST5_NOTIFY_ENA       ,VPDMA INT1 List5 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 10. "     VPDMA_INT1_LIST5_COMPLETE_ENA     ,VPDMA INT1 List5 Complete Enabled Statust Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 9. " VPDMA_INT1_LIST4_NOTIFY_ENA       ,VPDMA INT1 List4 Notify Enabled Statust Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 8. "         VPDMA_INT1_LIST4_COMPLETE_ENA     ,VPDMA INT1 List4 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "     VPDMA_INT1_LIST3_NOTIFY_ENA       ,VPDMA INT1 List3 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 6. " VPDMA_INT1_LIST3_COMPLETE_ENA     ,VPDMA INT1 List3 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "         VPDMA_INT1_LIST2_NOTIFY_ENA       ,VPDMA INT1 List2 Notify Enabled Statust Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "     VPDMA_INT1_LIST2_COMPLETE_ENA     ,VPDMA INT1 List2 Complete Enabled Statust Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VPDMA_INT1_LIST1_NOTIFY_ENA       ,VPDMA INT1 List1 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "         VPDMA_INT1_LIST1_COMPLETE_ENA     ,VPDMA INT1 List1 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "     VPDMA_INT1_LIST0_NOTIFY_ENA       ,VPDMA INT1 List0 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 0. " VPDMA_INT1_LIST0_COMPLETE_ENA     ,VPDMA INT1 List0 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
group.long 0x4C++0x3
line.long 0x00 "VIP_INTC_INTR1_STATUS_ENA1,INTC intr1 Interrupt Status Enabled/Clear Register 1. This register contains the enabled interrupt status as defined in HL0.8"
bitfld.long 0x00 25. " VIP2_CHR_DS_2_UV_ERR_INT_ENA      ,VIP2 Chroma Downsampler 2 UV Error Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
bitfld.long 0x00 24. "         VIP2_CHR_DS_1_UV_ERR_INT_ENA      ,VIP2 Chroma Downsampler 1 UV Error Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
bitfld.long 0x00 23. "     VIP1_CHR_DS_2_UV_ERR_INT_ENA      ,VIP1 Chroma Downsampler 2 UV Error Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 22. " VIP1_CHR_DS_1_UV_ERR_INT_ENA      ,VIP1 Chroma Downsampler 1 UV Error Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "         VPDMA_INT1_CLIENT_ENA             ,VPDMA INT1 Client Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "     VPDMA_INT1_CHANNEL_GROUP5_ENA     ,VPDMA INT1 Channel Group5 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 4. " VPDMA_INT1_CHANNEL_GROUP4_ENA     ,VPDMA INT1 Channel Group4 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 3. "         VPDMA_INT1_CHANNEL_GROUP3_ENA     ,VPDMA INT1 Channel Group3 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "     VPDMA_INT1_CHANNEL_GROUP2_ENA     ,VPDMA INT1 Channel Group3 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 1. " VPDMA_INT1_CHANNEL_GROUP1_ENA     ,VPDMA INT1 Channel Group1 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 0. "         VPDMA_INT1_CHANNEL_GROUP0_ENA     ,VPDMA INT1 Channel Group0 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
group.long 0x50++0x3
line.long 0x00 "VIP_INTC_INTR1_ENA_SET0,INTC intr1 Interrupt Enable/Set Register 0. This register contains the interrupt enable status/set as defined in HL0.8"
bitfld.long 0x00 21. " VIP2_PARSER_INT_ENA_SET           ,VIP2 Parser Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 20. "         VIP1_PARSER_INT_ENA_SET           ,VIP1 Parser Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 16. "     VPDMA_INT1_DESCRIPTOR_ENA_SET     ,VPDMA INT1 Descriptor Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 15. " VPDMA_INT1_LIST7_NOTIFY_ENA_SET   ,VPDMA INT1 List7 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 14. "         VPDMA_INT1_LIST7_COMPLETE_ENA_SET ,VPDMA INT1 List7 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 13. "     VPDMA_INT1_LIST6_NOTIFY_ENA_SET   ,VPDMA INT1 List6 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 12. " VPDMA_INT1_LIST6_COMPLETE_ENA_SET ,VPDMA INT1 List6 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 11. "         VPDMA_INT1_LIST5_NOTIFY_ENA_SET   ,VPDMA INT1 List5 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 10. "     VPDMA_INT1_LIST5_COMPLETE_ENA_SET ,VPDMA INT1 List5 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 9. " VPDMA_INT1_LIST4_NOTIFY_ENA_SET   ,VPDMA INT1 List4 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 8. "         VPDMA_INT1_LIST4_COMPLETE_ENA_SET ,VPDMA INT1 List4 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "     VPDMA_INT1_LIST3_NOTIFY_ENA_SET   ,VPDMA INT1 List3 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 6. " VPDMA_INT1_LIST3_COMPLETE_ENA_SET ,VPDMA INT1 List3 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "         VPDMA_INT1_LIST2_NOTIFY_ENA_SET   ,VPDMA INT1 List2 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "     VPDMA_INT1_LIST2_COMPLETE_ENA_SET ,VPDMA INT1 List2 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VPDMA_INT1_LIST1_NOTIFY_ENA_SET   ,VPDMA INT1 List1 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "         VPDMA_INT1_LIST1_COMPLETE_ENA_SET ,VPDMA INT1 List1 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "     VPDMA_INT1_LIST0_NOTIFY_ENA_SET   ,VPDMA INT1 List0 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 0. " VPDMA_INT1_LIST0_COMPLETE_ENA_SET ,VPDMA INT1 List0 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
group.long 0x54++0x3
line.long 0x00 "VIP_INTC_INTR1_ENA_SET1,INTC intr1 Interrupt Enable/Set Register 1. This register contains the interrupt enable status/set as defined in HL0.8"
bitfld.long 0x00 25. " VIP2_CHR_DS_2_UV_ERR_INT_ENA_SET  ,VIP2 Chroma Downsampler 2 UV Error Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 24. "         VIP2_CHR_DS_1_UV_ERR_INT_ENA_SET  ,VIP2 Chroma Downsampler 1 UV Error Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 23. "     VIP1_CHR_DS_2_UV_ERR_INT_ENA_SET  ,VIP1 Chroma Downsampler 2 UV Error Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 22. " VIP1_CHR_DS_1_UV_ERR_INT_ENA_SET  ,VIP1 Chroma Downsampler 1 UV Error Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "         VPDMA_INT1_CLIENT_ENA_SET         ,VPDMA INT1 Client Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 6. "     VPDMA_INT1_CHANNEL_GROUP6_ENA_SET ,VPDMA INT1 Channel Group6 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 5. " VPDMA_INT1_CHANNEL_GROUP5_ENA_SET ,VPDMA INT1 Channel Group5 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "         VPDMA_INT1_CHANNEL_GROUP4_ENA_SET ,VPDMA INT1 Channel Group4 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 3. "     VPDMA_INT1_CHANNEL_GROUP3_ENA_SET ,VPDMA INT1 Channel Group3 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 2. " VPDMA_INT1_CHANNEL_GROUP2_ENA_SET ,VPDMA INT1 Channel Group2 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "         VPDMA_INT1_CHANNEL_GROUP1_ENA_SET ,VPDMA INT1 Channel Group1 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 0. "     VPDMA_INT1_CHANNEL_GROUP0_ENA_SET ,VPDMA INT1 Channel Group0 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
group.long 0x58++0x3
line.long 0x00 "VIP_INTC_INTR1_ENA_CLR0,INTC intr1 Interrupt Enable/Clear Register 0. This register contains the interrupt enable status/clear as defined in HL0.8"
bitfld.long 0x00 21. " VIP2_PARSER_INT_ENA_CLR           ,VIP2 Parser Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 20. "         VIP1_PARSER_INT_ENA_CLR           ,VIP1 Parser Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 16. "     VPDMA_INT1_DESCRIPTOR_ENA_CLR     ,VPDMA INT1 Descriptor Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 15. " VPDMA_INT1_LIST7_NOTIFY_ENA_CLR   ,VPDMA INT1 List7 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 14. "         VPDMA_INT1_LIST7_COMPLETE_ENA_CLR ,VPDMA INT1 List7 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 13. "     VPDMA_INT1_LIST6_NOTIFY_ENA_CLR   ,VPDMA INT1 List6 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 12. " VPDMA_INT1_LIST6_COMPLETE_ENA_CLR ,VPDMA INT1 List6 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 11. "         VPDMA_INT1_LIST5_NOTIFY_ENA_CLR   ,VPDMA INT1 List5 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 10. "     VPDMA_INT1_LIST5_COMPLETE_ENA_CLR ,VPDMA INT1 List5 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 9. " VPDMA_INT1_LIST4_NOTIFY_ENA_CLR   ,VPDMA INT1 List4 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 8. "         VPDMA_INT1_LIST4_COMPLETE_ENA_CLR ,VPDMA INT1 List4 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "     VPDMA_INT1_LIST3_NOTIFY_ENA_CLR   ,VPDMA INT1 List3 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 6. " VPDMA_INT1_LIST3_COMPLETE_ENA_CLR ,VPDMA INT1 List3 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 5. "         VPDMA_INT1_LIST2_NOTIFY_ENA_CLR   ,VPDMA INT1 List2 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "     VPDMA_INT1_LIST2_COMPLETE_ENA_CLR ,VPDMA INT1 List2 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 3. " VPDMA_INT1_LIST1_NOTIFY_ENA_CLR   ,VPDMA INT1 List1 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 2. "         VPDMA_INT1_LIST1_COMPLETE_ENA_CLR ,VPDMA INT1 List1 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "     VPDMA_INT1_LIST0_NOTIFY_ENA_CLR   ,VPDMA INT1 List0 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 0. " VPDMA_INT1_LIST0_COMPLETE_ENA_CLR ,VPDMA INT1 List0 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
group.long 0x5C++0x3
line.long 0x00 "VIP_INTC_INTR1_ENA_CLR1,INTC intr1 Interrupt Enable/Clear Register 1. This register contains the interrupt enable status/clear as defined in HL0.8"
bitfld.long 0x00 25. " VIP2_CHR_DS_2_UV_ERR_INT_ENA_CLR  ,VIP2 Chroma Downsampler 2 UV Error Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 24. "         VIP2_CHR_DS_1_UV_ERR_INT_ENA_CLR  ,VIP2 Chroma Downsampler 1 UV Error Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 23. "     VIP1_CHR_DS_2_UV_ERR_INT_ENA_CLR  ,VIP1 Chroma Downsampler 2 UV Error Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 22. " VIP1_CHR_DS_1_UV_ERR_INT_ENA_CLR  ,VIP1 Chroma Downsampler 1 UV Error Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "         VPDMA_INT1_CLIENT_ENA_CLR         ,VPDMA INT1 Client Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 6. "     VPDMA_INT1_CHANNEL_GROUP6_ENA_CLR ,VPDMA INT1 Channel Group6 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 5. " VPDMA_INT1_CHANNEL_GROUP5_ENA_CLR ,VPDMA INT1 Channel Group5 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "         VPDMA_INT1_CHANNEL_GROUP4_ENA_CLR ,VPDMA INT1 Channel Group4 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 3. "     VPDMA_INT1_CHANNEL_GROUP3_ENA_CLR ,VPDMA INT1 Channel Group3 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 2. " VPDMA_INT1_CHANNEL_GROUP2_ENA_CLR ,VPDMA INT1 Channel Group2 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "         VPDMA_INT1_CHANNEL_GROUP1_ENA_CLR ,VPDMA INT1 Channel Group1 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 0. "     VPDMA_INT1_CHANNEL_GROUP0_ENA_CLR ,VPDMA INT1 Channel Group0 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
group.long 0xA0++0x3
line.long 0x00 "VIP_INTC_EOI,INTC EOI Register. This register contains the EOI vector register contents as defined by HL0.8"
hexmask.long 0x00 0.--31. 1. " EOI_VECTOR                        ,Number associated with the ipgenericirq for intr output. There are 4 interrupt outputs Write 0x0 : Write to intr0 IP Generic Write 0x1 : Write to intr1 IP Generic Write 0x2 : Write to intr2 IP Generic Write 0x3 : Wri..."
group.long 0x100++0x3
line.long 0x00 "VIP_CLKC_CLKEN,CLKC Module Clock Enable Register. This register contains clock enables for the processing paths in the Display Subsystem"
bitfld.long 0x00 17. " VIP2_DP_EN                        ,Video Input Port 2 Data Path Clock Enable, 1 = Clock Enabled, 0 = Clock Disabled" "0,1"
bitfld.long 0x00 16. "         VIP1_DP_EN                        ,Video Input Port 1 Data Path Clock Enable, 1 = Clock Enabled, 0 = Clock Disabled" "0,1"
bitfld.long 0x00 0. "     VPDMA_EN                          ,VPDMA Clock Enable, 1 = Clock Enabled, 0 = Clock Disabled" "0,1"
group.long 0x104++0x3
line.long 0x00 "VIP_CLKC_RST,CLKC Module Reset Register. This register contains resets for the processing paths in the Display Subsystem"
bitfld.long 0x00 31. " MAIN_RST                          ,Reset for all modules in DSS Main Data Path" "0,1"
bitfld.long 0x00 17. "         VIP2_DP_RST                       ,Video Input Port 2 Data Path Reset" "0,1"
bitfld.long 0x00 16. "     VIP1_DP_RST                       ,Video Input Port 1 Data Path Reset" "0,1"
textline "                                     "
bitfld.long 0x00 0. " VPDMA_RST                         ,VPDMA Reset" "0,1"
group.long 0x108++0x3
line.long 0x00 "VIP_CLKC_DPS,CLKC Main Data Path Select Register. This register selects the various data paths within main portion (non-VIP) of the subsystem"
bitfld.long 0x00 31. " MAIN_RST                          ,Reset for all modules in DSS Main Data Path" "0,1"
bitfld.long 0x00 17. "         VIP2_DP_RST                       ,Video Input Port 2 Data Path Reset" "0,1"
bitfld.long 0x00 16. "     VIP1_DP_RST                       ,Video Input Port 1 Data Path Reset" "0,1"
textline "                                     "
bitfld.long 0x00 0. " VPDMA_RST                         ,VPDMA Reset" "0,1"
group.long 0x10C++0x3
line.long 0x00 "VIP_CLKC_VIP0DPS,CLKC Video Input Port 1 Data Path Select Register. This register selects the various data paths within the Video Input Port portion of the subsystem"
bitfld.long 0x00 28.--31. " VIP1_DATAPATH_SELECT              ,VIP1 Datapath Register Field Enable 0000 : All fields written 0001 : Only vip1_csc_src_select written 0010 : Only vip1_sc_src_select written 0011 : Only vip1_rgb_src_select written 0100 : Only vip1_rgb_out_lo_select ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 27. "        VIP1_TESTPORT_A_SELECT            ,0 : Normal mode 1: Test Mode" "0,1"
bitfld.long 0x00 26. "     VIP1_TESTPORT_B_SELECT            ,0 : Normal mode 1: Test Mode" "0,1"
textline "                                     "
bitfld.long 0x00 17. " VIP1_CHR_DS_2_BYPASS              ,Video Input Port 1 Chroma Downsampler 2 Bypass 0 : VIP Chroma Downsampler 1 selected 1 : VIP Chroma Downsampler 1 Bypassed Chroma Downsampler Bypassed means the output format from the VIP will be 422 data. Selected m..." "0,1"
bitfld.long 0x00 16. "         VIP1_CHR_DS_1_BYPASS              ,Video Input Port 1 Chroma Downsampler 1 Bypass 0 : VIP Chroma Downsampler 1 selected 1 : VIP Chroma Downsampler 1 Bypassed Chroma Downsampler Bypassed means the output format from the VIP will be 422 data. Se..." "0,1"
bitfld.long 0x00 15. "     VIP1_MULTI_CHANNEL_SELECT         ,Video Input Port 1 Multi Channel Select 0 : VIP_PARSER A and B channels operate in single channel mode 1 : VIP_PARSER A and B channels directly drive VPDMA (multi-channel case) Multi-Channel means that the A and ..." "0,1"
textline "                                     "
bitfld.long 0x00 12.--14. " VIP1_CHR_DS_2_SRC_SELECT          ,Video Input Port 1 Chroma Downsampler 2 Source Select 0 : Path Disabled (no input to CHR_DS) 1 : Source from Scaler (SC_M) 2 : Source from Color Space Converter (CSC) 3 : Source from VIP_PARSER A port 4 : Source from..." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 9.--11. "         VIP1_CHR_DS_1_SRC_SELECT          ,Video Input Port 1 Chroma Downsampler 1 Source Select 000 : Path Disabled (no input to CHR_DS) 001 : Source from Scaler (SC_M) 010 : Source from Color Space Converter (CSC) 011 : Source from VIP_PARSER A port..." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8. "     VIP1_RGB_OUT_HI_SELECT            ,Video Input Port 1 HI RGB Output Select 0 : Output Type is 420/422 1 : Output Type is RGB" "0,1"
textline "                                     "
bitfld.long 0x00 7. " VIP1_RGB_OUT_LO_SELECT            ,Video Input Port 1 LO RGB Output Select 0 : Output Type is 420/422 1 : Output Type is RGB" "0,1"
bitfld.long 0x00 6. "         VIP1_RGB_SRC_SELECT               ,Video Input Port 1 RGB Output Path Select 0 : Source from Compositor RGB input 1 : Source from CSC" "0,1"
bitfld.long 0x00 3.--5. "     VIP1_SC_SRC_SELECT                ,Video Input Port 1 SC_M Source Select 000 : Path Disabled 001 : Source from Color Space Converter (CSC) 010 : Source from VIP_PARSER A port 011 : Source from VIP_PARSER B port 100 : Source from Transcode (422) 10..." "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 0.--2. " VIP1_CSC_SRC_SELECT               ,Video Input Port 1 CSC Source Select 000 : Path Disabled 001 : Source from VIP_PARSER A (422) port 010 : Source from VIP_PARSER B port 011 : Source from Transcode (422) 100 : Source from VIP_PARSER A (RGB) port 101 :..." "0,1,2,3,4,5,6,7"
group.long 0x110++0x3
line.long 0x00 "VIP_CLKC_VIP1DPS,CLKC Video Input Port 2 Data Path Select Register. This register selects the various data paths within the Video Input Port portion of the subsystem"
bitfld.long 0x00 28.--31. " VIP2_DATAPATH_SELECT              ,VIP2 Datapath Register Field Enable 0000 : All fields written 0001 : Only vip2_csc_src_select written 0010 : Only vip2_sc_src_select written 0011 : Only vip2_rgb_src_select written 0100 : Only vip2_rgb_out_lo_select ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 27. "        VIP2_TESTPORT_A_SELECT            ,0 : Normal mode 1: Test Mode" "0,1"
bitfld.long 0x00 26. "     VIP2_TESTPORT_B_SELECT            ,0 : Normal mode 1: Test Mode" "0,1"
textline "                                     "
bitfld.long 0x00 17. " VIP2_CHR_DS_2_BYPASS              ,Video Input Port 2 Chroma Downsampler 2 Bypass 0 : VIP Chroma Downsampler 1 selected 1 : VIP Chroma Downsampler 1 Bypassed Chroma Downsampler Bypassed means the output format from the VIP will be 422 data. Selected m..." "0,1"
bitfld.long 0x00 16. "         VIP2_CHR_DS_1_BYPASS              ,Video Input Port 2 Chroma Downsampler 1 Bypass 0 : VIP Chroma Downsampler 1 selected 1 : VIP Chroma Downsampler 1 Bypassed Chroma Downsampler Bypassed means the output format from the VIP will be 422 data. Se..." "0,1"
bitfld.long 0x00 15. "     VIP2_MULTI_CHANNEL_SELECT         ,Video Input Port 2 Multi Channel Select 0 : VIP_PARSER A and B channels operate in single channel mode 1 : VIP_PARSER A and B channels directly drive VPDMA (multi-channel case) Multi-Channel means that the A and ..." "0,1"
textline "                                     "
bitfld.long 0x00 12.--14. " VIP2_CHR_DS_2_SRC_SELECT          ,Video Input Port 2 Chroma Downsampler 2 Source Select 0 : Path Disabled (no input to CHR_DS) 1 : Source from Scaler (SC_M) 2 : Source from Color Space Converter (CSC) 3 : Source from VIP_PARSER A port 4 : Source from..." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 9.--11. "         VIP2_CHR_DS_1_SRC_SELECT          ,Video Input Port 2 Chroma Downsampler 1 Source Select 000 : Path Disabled (no input to CHR_DS) 001 : Source from Scaler (SC_M) 010 : Source from Color Space Converter (CSC) 011 : Source from VIP_PARSER A port..." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8. "     VIP2_RGB_OUT_HI_SELECT            ,Video Input Port 2 HI RGB Output Select 0 : Output Type is 420/422 1 : Output Type is RGB" "0,1"
textline "                                     "
bitfld.long 0x00 7. " VIP2_RGB_OUT_LO_SELECT            ,Video Input Port 2 LO RGB Output Select 0 : Output Type is 420/422 1 : Output Type is RGB" "0,1"
bitfld.long 0x00 6. "         VIP2_RGB_SRC_SELECT               ,Video Input Port 2 RGB Output Path Select 0 : Source from Compositor RGB input 1 : Source from CSC" "0,1"
bitfld.long 0x00 3.--5. "     VIP2_SC_SRC_SELECT                ,Video Input Port 2 SC_M Source Select 000 : Path Disabled 001 : Source from Color Space Converter (CSC) 010 : Source from VIP_PARSER A port 011 : Source from VIP_PARSER B port 100 : Source from Transcode (422) 10..." "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 0.--2. " VIP2_CSC_SRC_SELECT               ,Video Input Port 2 CSC Source Select 000 : Path Disabled 001 : Source from VIP_PARSER A (422) port 010 : Source from VIP_PARSER B port 011 : Source from Transcode (422) 100 : Source from VIP_PARSER A (RGB) port 101 :..." "0,1,2,3,4,5,6,7"
width 0x0B
tree.end
tree.end
tree.open "VIP1_Slice0_csc"
tree "VIP1_Slice0_csc"
base ad:0x48975700
width 11.
group.long 0x0++0x3
line.long 0x00 "VIP_CSC00,"
hexmask.long.word 0x00 16.--28. 1. " B0     ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
hexmask.long.word 0x00 0.--12. 1. "  A0 ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. Rules for converting a real number coefficient to a 12-bit hex number for this register: - If the real number is positive, then simpl..."
group.long 0x4++0x3
line.long 0x00 "VIP_CSC01,"
hexmask.long.word 0x00 16.--28. 1. " A1     ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
hexmask.long.word 0x00 0.--12. 1. "  C0 ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
group.long 0x8++0x3
line.long 0x00 "VIP_CSC02,"
hexmask.long.word 0x00 16.--28. 1. " C1     ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
hexmask.long.word 0x00 0.--12. 1. "  B1 ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
group.long 0xC++0x3
line.long 0x00 "VIP_CSC03,"
hexmask.long.word 0x00 16.--28. 1. " B2     ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
hexmask.long.word 0x00 0.--12. 1. "  A2 ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
group.long 0x10++0x3
line.long 0x00 "VIP_CSC04,"
hexmask.long.word 0x00 16.--27. 1. " D0     ,Coefficients of color space converter. This coefficient is an integer number in the range of 2048. It is in 12-bit wide 2's compliment format. The MSB is sign bit. For example, if this coefficient is 749, then 0x2ED (hex format) should be assi..."
hexmask.long.word 0x00 0.--12. 1. "  C2 ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
group.long 0x14++0x3
line.long 0x00 "VIP_CSC05,"
bitfld.long 0x00 28. " BYPASS ,Full CSC bypass mode" "0,1"
hexmask.long.word 0x00 16.--27. 1. "     D2 ,Coefficients of color space converter. This coefficient is an integer number in the range of 2048. It is in 12-bit wide 2's compliment format. The MSB is sign bit. (Same format conversion as D0)"
hexmask.long.word 0x00 0.--11. 1. "  D1 ,Coefficients of color space converter. This coefficient is an integer number in the range of 2048. It is in 12-bit wide 2's compliment format. The MSB is sign bit. (Same format conversion as D0)"
width 0x0B
tree.end
tree "VIP1_Slice1_csc"
base ad:0x48975C00
width 11.
group.long 0x0++0x3
line.long 0x00 "VIP_CSC00,"
hexmask.long.word 0x00 16.--28. 1. " B0     ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
hexmask.long.word 0x00 0.--12. 1. "  A0 ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. Rules for converting a real number coefficient to a 12-bit hex number for this register: - If the real number is positive, then simpl..."
group.long 0x4++0x3
line.long 0x00 "VIP_CSC01,"
hexmask.long.word 0x00 16.--28. 1. " A1     ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
hexmask.long.word 0x00 0.--12. 1. "  C0 ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
group.long 0x8++0x3
line.long 0x00 "VIP_CSC02,"
hexmask.long.word 0x00 16.--28. 1. " C1     ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
hexmask.long.word 0x00 0.--12. 1. "  B1 ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
group.long 0xC++0x3
line.long 0x00 "VIP_CSC03,"
hexmask.long.word 0x00 16.--28. 1. " B2     ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
hexmask.long.word 0x00 0.--12. 1. "  A2 ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
group.long 0x10++0x3
line.long 0x00 "VIP_CSC04,"
hexmask.long.word 0x00 16.--27. 1. " D0     ,Coefficients of color space converter. This coefficient is an integer number in the range of 2048. It is in 12-bit wide 2's compliment format. The MSB is sign bit. For example, if this coefficient is 749, then 0x2ED (hex format) should be assi..."
hexmask.long.word 0x00 0.--12. 1. "  C2 ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
group.long 0x14++0x3
line.long 0x00 "VIP_CSC05,"
bitfld.long 0x00 28. " BYPASS ,Full CSC bypass mode" "0,1"
hexmask.long.word 0x00 16.--27. 1. "     D2 ,Coefficients of color space converter. This coefficient is an integer number in the range of 2048. It is in 12-bit wide 2's compliment format. The MSB is sign bit. (Same format conversion as D0)"
hexmask.long.word 0x00 0.--11. 1. "  D1 ,Coefficients of color space converter. This coefficient is an integer number in the range of 2048. It is in 12-bit wide 2's compliment format. The MSB is sign bit. (Same format conversion as D0)"
width 0x0B
tree.end
tree "VIP2_Slice0_csc"
base ad:0x48995700
width 11.
group.long 0x0++0x3
line.long 0x00 "VIP_CSC00,"
hexmask.long.word 0x00 16.--28. 1. " B0     ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
hexmask.long.word 0x00 0.--12. 1. "  A0 ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. Rules for converting a real number coefficient to a 12-bit hex number for this register: - If the real number is positive, then simpl..."
group.long 0x4++0x3
line.long 0x00 "VIP_CSC01,"
hexmask.long.word 0x00 16.--28. 1. " A1     ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
hexmask.long.word 0x00 0.--12. 1. "  C0 ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
group.long 0x8++0x3
line.long 0x00 "VIP_CSC02,"
hexmask.long.word 0x00 16.--28. 1. " C1     ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
hexmask.long.word 0x00 0.--12. 1. "  B1 ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
group.long 0xC++0x3
line.long 0x00 "VIP_CSC03,"
hexmask.long.word 0x00 16.--28. 1. " B2     ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
hexmask.long.word 0x00 0.--12. 1. "  A2 ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
group.long 0x10++0x3
line.long 0x00 "VIP_CSC04,"
hexmask.long.word 0x00 16.--27. 1. " D0     ,Coefficients of color space converter. This coefficient is an integer number in the range of 2048. It is in 12-bit wide 2's compliment format. The MSB is sign bit. For example, if this coefficient is 749, then 0x2ED (hex format) should be assi..."
hexmask.long.word 0x00 0.--12. 1. "  C2 ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
group.long 0x14++0x3
line.long 0x00 "VIP_CSC05,"
bitfld.long 0x00 28. " BYPASS ,Full CSC bypass mode" "0,1"
hexmask.long.word 0x00 16.--27. 1. "     D2 ,Coefficients of color space converter. This coefficient is an integer number in the range of 2048. It is in 12-bit wide 2's compliment format. The MSB is sign bit. (Same format conversion as D0)"
hexmask.long.word 0x00 0.--11. 1. "  D1 ,Coefficients of color space converter. This coefficient is an integer number in the range of 2048. It is in 12-bit wide 2's compliment format. The MSB is sign bit. (Same format conversion as D0)"
width 0x0B
tree.end
tree "VIP2_Slice1_csc"
base ad:0x48995C00
width 11.
group.long 0x0++0x3
line.long 0x00 "VIP_CSC00,"
hexmask.long.word 0x00 16.--28. 1. " B0     ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
hexmask.long.word 0x00 0.--12. 1. "  A0 ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. Rules for converting a real number coefficient to a 12-bit hex number for this register: - If the real number is positive, then simpl..."
group.long 0x4++0x3
line.long 0x00 "VIP_CSC01,"
hexmask.long.word 0x00 16.--28. 1. " A1     ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
hexmask.long.word 0x00 0.--12. 1. "  C0 ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
group.long 0x8++0x3
line.long 0x00 "VIP_CSC02,"
hexmask.long.word 0x00 16.--28. 1. " C1     ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
hexmask.long.word 0x00 0.--12. 1. "  B1 ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
group.long 0xC++0x3
line.long 0x00 "VIP_CSC03,"
hexmask.long.word 0x00 16.--28. 1. " B2     ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
hexmask.long.word 0x00 0.--12. 1. "  A2 ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
group.long 0x10++0x3
line.long 0x00 "VIP_CSC04,"
hexmask.long.word 0x00 16.--27. 1. " D0     ,Coefficients of color space converter. This coefficient is an integer number in the range of 2048. It is in 12-bit wide 2's compliment format. The MSB is sign bit. For example, if this coefficient is 749, then 0x2ED (hex format) should be assi..."
hexmask.long.word 0x00 0.--12. 1. "  C2 ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
group.long 0x14++0x3
line.long 0x00 "VIP_CSC05,"
bitfld.long 0x00 28. " BYPASS ,Full CSC bypass mode" "0,1"
hexmask.long.word 0x00 16.--27. 1. "     D2 ,Coefficients of color space converter. This coefficient is an integer number in the range of 2048. It is in 12-bit wide 2's compliment format. The MSB is sign bit. (Same format conversion as D0)"
hexmask.long.word 0x00 0.--11. 1. "  D1 ,Coefficients of color space converter. This coefficient is an integer number in the range of 2048. It is in 12-bit wide 2's compliment format. The MSB is sign bit. (Same format conversion as D0)"
width 0x0B
tree.end
tree "VIP3_Slice0_csc"
base ad:0x489B5700
width 11.
group.long 0x0++0x3
line.long 0x00 "VIP_CSC00,"
hexmask.long.word 0x00 16.--28. 1. " B0     ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
hexmask.long.word 0x00 0.--12. 1. "  A0 ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. Rules for converting a real number coefficient to a 12-bit hex number for this register: - If the real number is positive, then simpl..."
group.long 0x4++0x3
line.long 0x00 "VIP_CSC01,"
hexmask.long.word 0x00 16.--28. 1. " A1     ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
hexmask.long.word 0x00 0.--12. 1. "  C0 ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
group.long 0x8++0x3
line.long 0x00 "VIP_CSC02,"
hexmask.long.word 0x00 16.--28. 1. " C1     ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
hexmask.long.word 0x00 0.--12. 1. "  B1 ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
group.long 0xC++0x3
line.long 0x00 "VIP_CSC03,"
hexmask.long.word 0x00 16.--28. 1. " B2     ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
hexmask.long.word 0x00 0.--12. 1. "  A2 ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
group.long 0x10++0x3
line.long 0x00 "VIP_CSC04,"
hexmask.long.word 0x00 16.--27. 1. " D0     ,Coefficients of color space converter. This coefficient is an integer number in the range of 2048. It is in 12-bit wide 2's compliment format. The MSB is sign bit. For example, if this coefficient is 749, then 0x2ED (hex format) should be assi..."
hexmask.long.word 0x00 0.--12. 1. "  C2 ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
group.long 0x14++0x3
line.long 0x00 "VIP_CSC05,"
bitfld.long 0x00 28. " BYPASS ,Full CSC bypass mode" "0,1"
hexmask.long.word 0x00 16.--27. 1. "     D2 ,Coefficients of color space converter. This coefficient is an integer number in the range of 2048. It is in 12-bit wide 2's compliment format. The MSB is sign bit. (Same format conversion as D0)"
hexmask.long.word 0x00 0.--11. 1. "  D1 ,Coefficients of color space converter. This coefficient is an integer number in the range of 2048. It is in 12-bit wide 2's compliment format. The MSB is sign bit. (Same format conversion as D0)"
width 0x0B
tree.end
tree "VIP3_Slice1_csc"
base ad:0x489B5C00
width 11.
group.long 0x0++0x3
line.long 0x00 "VIP_CSC00,"
hexmask.long.word 0x00 16.--28. 1. " B0     ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
hexmask.long.word 0x00 0.--12. 1. "  A0 ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. Rules for converting a real number coefficient to a 12-bit hex number for this register: - If the real number is positive, then simpl..."
group.long 0x4++0x3
line.long 0x00 "VIP_CSC01,"
hexmask.long.word 0x00 16.--28. 1. " A1     ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
hexmask.long.word 0x00 0.--12. 1. "  C0 ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
group.long 0x8++0x3
line.long 0x00 "VIP_CSC02,"
hexmask.long.word 0x00 16.--28. 1. " C1     ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
hexmask.long.word 0x00 0.--12. 1. "  B1 ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
group.long 0xC++0x3
line.long 0x00 "VIP_CSC03,"
hexmask.long.word 0x00 16.--28. 1. " B2     ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
hexmask.long.word 0x00 0.--12. 1. "  A2 ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
group.long 0x10++0x3
line.long 0x00 "VIP_CSC04,"
hexmask.long.word 0x00 16.--27. 1. " D0     ,Coefficients of color space converter. This coefficient is an integer number in the range of 2048. It is in 12-bit wide 2's compliment format. The MSB is sign bit. For example, if this coefficient is 749, then 0x2ED (hex format) should be assi..."
hexmask.long.word 0x00 0.--12. 1. "  C2 ,Coefficients of color space converter. This coefficient is a real number in the range of 4. The MSB is sign bit. (Same format conversion as A0)"
group.long 0x14++0x3
line.long 0x00 "VIP_CSC05,"
bitfld.long 0x00 28. " BYPASS ,Full CSC bypass mode" "0,1"
hexmask.long.word 0x00 16.--27. 1. "     D2 ,Coefficients of color space converter. This coefficient is an integer number in the range of 2048. It is in 12-bit wide 2's compliment format. The MSB is sign bit. (Same format conversion as D0)"
hexmask.long.word 0x00 0.--11. 1. "  D1 ,Coefficients of color space converter. This coefficient is an integer number in the range of 2048. It is in 12-bit wide 2's compliment format. The MSB is sign bit. (Same format conversion as D0)"
width 0x0B
tree.end
tree.end
tree.open "VIP1_Slice0_parser"
tree "VIP1_Slice0_parser"
base ad:0x48975500
width 30.
group.long 0x0++0x3
line.long 0x00 "VIP_MAIN,ain Configuration for VIP Parser"
bitfld.long 0x00 5. " CLIP_ACTIVE                        ,Discrete Sync Only 0 = Do not clip active pixels 1 = Clip Active Pixels as follows: 0xFF -andgt; 0xFE.. 0x00 -andgt; 0x01" "0,1"
bitfld.long 0x00 4. "         CLIP_BLNK                          ,Discrete Sync Only 0 = Do not clip Blanking Data 1 = Clip Blanking Data as follows: 0xFF -andgt; 0xFE.. 0x00 -andgt; 0x01" "0,1"
bitfld.long 0x00 0.--1. "     DATA_INTERFACE_MODE                ,00 = 24b data interface. Uses Port A settings 01 = 16b data interface. Uses Port A settings. 10 = Dual independent 8b data interfaces. Uses independent Port A and Port B settings. 11 = Undefined" "0,1,2,3"
group.long 0x4++0x3
line.long 0x00 "VIP_PORT_A,Configuration for Input Port A"
bitfld.long 0x00 31. " ANALYZER_FVH_ERR_CORRECTION_ENABLE ,Embedded Sync Only 0 = Ignore the protection bits in the XV (fvh) codeword header. This setting is typically desired. 1 = Use the protection bits in an attempt to do error correction for the fvh control bits." "0,1"
bitfld.long 0x00 30. "         ANALYZER_2X4X_SRCNUM_POS           ,Embedded Sync Only 0 = For 2x/4x mux mode, srcnum is in the least significant nibble of the XV/fvh codeword (srcnum replaces the protection bits) 1 = For 2x/4x mux mode, srcnum is in the least significant ni..." "0,1"
bitfld.long 0x00 24.--29. "     FID_SKEW_POSTCOUNT                 ,Discrete Sync Only post count value when using vsync skew in FID determination" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                       "
bitfld.long 0x00 23. " SW_RESET                           ,0 = Normal 1 = Reset Port A logic. Must be set to ?0? again by the software for the module to function." "0,1"
bitfld.long 0x00 22. "         DISCRETE_BASIC_MODE                ,This register is valid for Discrete Sync mode only. 0 = Normal Discrete Mode. Hsync Style Capture operates as follows: - Captures line starting from HSYNC inactive to active condition. - VSYNC determined by ..." "0,1"
bitfld.long 0x00 16.--21. "     FID_SKEW_PRECOUNT                  ,Discrete Sync Only pre count value when using vsync skew in FID determination" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                       "
bitfld.long 0x00 15. " USE_ACTVID_HSYNC_N                 ,Discrete Sync Only 0 = Use HSYNC style line capture 1 = Use ACTVID style line capture" "0,1"
bitfld.long 0x00 14. "         FID_DETECT_MODE                    ,Discrete Sync Only 0 = Take FID from pin 1 = FID is determined by VSYNC skew" "0,1"
bitfld.long 0x00 13. "     ACTVID_POLARITY                    ,Discrete Sync Only 0 = ACTVID is active low 1 = ACTVID is active high" "0,1"
textline "                                       "
bitfld.long 0x00 12. " VSYNC_POLARITY                     ,Discrete Sync Only 0 = VSYNC is active low 1 = VSYNC is active high" "0,1"
bitfld.long 0x00 11. "         HSYNC_POLARITY                     ,Discrete Sync Only 0 = HSYNC is active low 1 = HSYNC is active high" "0,1"
bitfld.long 0x00 10. "     PIXCLK_EDGE_POLARITY               ,0 = Rising Edge is active PIXCLK edge 1 = Falling Edge is active PIXCLK edge" "0,1"
textline "                                       "
bitfld.long 0x00 9. " FID_POLARITY                       ,0 = Keep FID as found 1 = Invert Determined Value of FID" "0,1"
bitfld.long 0x00 8. "         ENABLE                             ,0 = Disable Port 1 = Enable Port" "0,1"
bitfld.long 0x00 7. "     CLR_ASYNC_FIFO_RD                  ,0 = Normal 1 = Clear Async FIFO Read Logic" "0,1"
textline "                                       "
bitfld.long 0x00 6. " CLR_ASYNC_FIFO_WR                  ,0 = Normal 1 = Clear Async FIFO Write Logic" "0,1"
bitfld.long 0x00 4.--5. "         CTRL_CHAN_SEL                      ,Embedded Sync Only In 8b mode.. there is only one channel on data[7:0]. In 16b mode.. there are two channels. The Luma Channel is on data[15:8]. The Chroma Channel is on data[7:0]. In 24b mode.. there are th..." "0,1,2,3"
bitfld.long 0x00 0.--3. "     SYNC_TYPE                          ,0000 = embedded sync single 4:2:2 YUV stream 0001 = embedded sync 2x multiplexed 4:2:2 YUV stream 0010 = embedded sync 4x multiplexed 4:2:2 YUV stream 0011 = embedded sync line multiplexed 4:2:2 YUV stream 0100 ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x8++0x3
line.long 0x00 "VIP_XTRA_PORT_A,ore Configuration for Input Port A"
bitfld.long 0x00 28.--30. " REPACK_SEL                         ,000 = Straight Through 001 = Cross Swap 010 = Left Center Swap 011 = Center Right Swap 100 = Right Rotate 101 = Left Rotate 110 = RAW16 to RGB565 Mapping 111 = RAW12 Swap" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--27. 1. "         SRC0_NUMPIX                        ,Number of expected pixels on Source Number 0. The Port_a_src0_size interrupt will trigger if a line is encountered that differs from this pixelcount."
bitfld.long 0x00 13.--14. "  ANC_CHAN_SEL_8B                    ,In 8b mode, Vertically Ancillary Data typically resides in the Luma sites. This bit allows vertical ancillary data to be extracted from the chroma sites instead . 00 = Extract 8b Mode Vertical Ancillary Data from L..." "0,1,2,3"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " SRC0_NUMLINES                      ,Number of expected lines on Source Number 0. The Port_a_src0_size interrupt will trigger if a field/frame is encountered that differs from this linecount."
group.long 0xC++0x3
line.long 0x00 "VIP_PORT_B,Configuration for Input Port B"
bitfld.long 0x00 31. " ANALYZER_FVH_ERR_CORRECTION_ENABLE ,Embedded Sync Only 0 = Ignore the protection bits in the XV (fvh) codeword header. This setting is typically desired. 1 = Use the protection bits in an attempt to do error correction for the fvh control bits." "0,1"
bitfld.long 0x00 30. "         ANALYZER_2X4X_SRCNUM_POS           ,Embedded Sync Only 0 = For 2x/4x mux mode, srcnum is in the least significant nibble of the XV/fvh codeword (srcnum replaces the protection bits) 1 = For 2x/4x mux mode, srcnum is in the least significant ni..." "0,1"
bitfld.long 0x00 24.--29. "     FID_SKEW_POSTCOUNT                 ,Discrete Sync Only post count value when using vsync skew in FID determination" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                       "
bitfld.long 0x00 23. " SW_RESET                           ,0 = Normal 1 = Reset Port B logic. Must be set to ?0? again by the software for the module to function." "0,1"
bitfld.long 0x00 22. "         DISCRETE_BASIC_MODE                ,This register is valid for Discrete Sync mode only. 0 = Normal Discrete Mode. Hsync Style Capture operates as follows: - Captures line starting from HSYNC inactive to active condition. - VSYNC determined by ..." "0,1"
bitfld.long 0x00 16.--21. "     FID_SKEW_PRECOUNT                  ,Discrete Sync Only pre count value when using vsync skew in FID determination" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                       "
bitfld.long 0x00 15. " USE_ACTVID_HSYNC_N                 ,Discrete Sync Only 0 = Use HSYNC style line capture 1 = Use ACTVID style line capture" "0,1"
bitfld.long 0x00 14. "         FID_DETECT_MODE                    ,Discrete Sync Only 0 = Take FID from pin 1 = FID is determined by VSYNC skew" "0,1"
bitfld.long 0x00 13. "     ACTVID_POLARITY                    ,Discrete Sync Only 0 = ACTVID is active low 1 = ACTVID is active high" "0,1"
textline "                                       "
bitfld.long 0x00 12. " VSYNC_POLARITY                     ,Discrete Sync Only 0 = VSYNC is active low 1 = VSYNC is active high" "0,1"
bitfld.long 0x00 11. "         HSYNC_POLARITY                     ,Discrete Sync Only 0 = HSYNC is active low 1 = HSYNC is active high" "0,1"
bitfld.long 0x00 10. "     PIXCLK_EDGE_POLARITY               ,0 = Rising Edge is active PIXCLK edge 1 = Falling Edge is active PIXCLK edge" "0,1"
textline "                                       "
bitfld.long 0x00 9. " FID_POLARITY                       ,0 = Keep FID as found 1 = Invert Determined Value of FID" "0,1"
bitfld.long 0x00 8. "         ENABLE                             ,0 = Disable 1 = Enable" "0,1"
bitfld.long 0x00 7. "     CLR_ASYNC_FIFO_RD                  ,0 = Normal 1 = Clear Async FIFO Read Logic" "0,1"
textline "                                       "
bitfld.long 0x00 6. " CLR_ASYNC_FIFO_WR                  ,0 = Normal 1 = Clear Async FIFO Write Logic" "0,1"
bitfld.long 0x00 4.--5. "         CTRL_CHAN_SEL                      ,PORT B supports on 8b mode. Always write 0 to this field. The anc_chan_sel_8b register is used to select the Luma or Chroma channel from which Ancillary Data is taken." "0,1,2,3"
bitfld.long 0x00 0.--3. "     SYNC_TYPE                          ,0000 = embedded sync single YUV stream 0001 = embedded sync 2x multiplexed YUV stream 0010 = embedded sync 4x multiplexed YUV stream 0011 = embedded sync line multiplexed YUV stream 0100 = discrete sync single Y..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10++0x3
line.long 0x00 "VIP_XTRA_PORT_B,ore Configuration for Input Port B"
hexmask.long.word 0x00 16.--27. 1. " SRC0_NUMPIX                        ,Number of expected pixels on Source Number 0. The Port_b_src0_size interrupt will trigger if a line is encountered that differs from this pixelcount."
bitfld.long 0x00 13.--14. "      ANC_CHAN_SEL_8B                    ,In 8b mode, Vertically Ancillary Data typically resides in the Luma sites. This bit allows vertical ancillary data to be extracted from the chroma sites instead . 00 = Extract 8b Mode Vertical Ancillary Data fr..." "0,1,2,3"
hexmask.long.word 0x00 0.--11. 1. "     SRC0_NUMLINES                      ,Number of expected lines on Source Number 0. The Port_b_src0_size interrupt will trigger if a field/frame is encountered that differs from this linecount."
group.long 0x14++0x3
line.long 0x00 "VIP_FIQ_MASK,ask Bits for ARM FIQs"
bitfld.long 0x00 21. " PORT_B_CFG_DISABLE_COMPLETE_MASK   ,Port B Cfg Disable Complete Mask" "0,1"
bitfld.long 0x00 20. "         PORT_A_CFG_DISABLE_COMPLETE_MASK   ,Port A Cfg Disable Complete Mask" "0,1"
bitfld.long 0x00 19. "     PORT_B_ANC_PROTOCOL_VIOLATION_MASK ,Port B ANC VPI Protocol Violation Mask" "0,1"
textline "                                       "
bitfld.long 0x00 18. " PORT_B_YUV_PROTOCOL_VIOLATION_MASK ,Port B YUV VPI Protocol Violation Mask" "0,1"
bitfld.long 0x00 17. "         PORT_A_ANC_PROTOCOL_VIOLATION_MASK ,Port A ANC VPI Protocol Violation Mask" "0,1"
bitfld.long 0x00 16. "     PORT_A_YUV_PROTOCOL_VIOLATION_MASK ,Port A YUV VPI Protocol Violation Mask" "0,1"
textline "                                       "
bitfld.long 0x00 15. " PORT_B_SRC0_SIZE                   ,Video size detected on Port B does not match size programmed in xtra_port_b register" "0,1"
bitfld.long 0x00 14. "         PORT_A_SRC0_SIZE                   ,Video size detected on Port A does not match size programmed in xtra_port_a register" "0,1"
bitfld.long 0x00 13. "     PORT_B_DISCONN                     ,Port B Link Disconnect Srcnum 0 Mask" "0,1"
textline "                                       "
bitfld.long 0x00 12. " PORT_B_CONN                        ,Port B Link Connect Srcnum 0 Mask" "0,1"
bitfld.long 0x00 11. "         PORT_A_DISCONN                     ,Port A Link Disconnect Scrnum 0 Mask" "0,1"
bitfld.long 0x00 10. "     PORT_A_CONN                        ,Port A Link Connect Srcnum 0 Mask" "0,1"
textline "                                       "
bitfld.long 0x00 9. " OUTPUT_FIFO_PRTB_ANC_OF            ,Output FIFO Port B Ancillary Overflow Mask" "0,1"
bitfld.long 0x00 7. "         OUTPUT_FIFO_PRTB_YUV_OF            ,Output FIFO Port B Luma Overflow Mask" "0,1"
bitfld.long 0x00 6. "     OUTPUT_FIFO_PRTA_ANC_OF            ,Output FIFO Port A Ancillary Overflow Mask" "0,1"
textline "                                       "
bitfld.long 0x00 4. " OUTPUT_FIFO_PRTA_YUV_OF            ,Output FIFO Port A Luma Overflow Mask" "0,1"
bitfld.long 0x00 3. "         ASYNC_FIFO_PRTB_OF                 ,Port B Async FIFO Overflow FIQ Mask" "0,1"
bitfld.long 0x00 2. "     ASYNC_FIFO_PRTA_OF                 ,Port A Async FIFO Overflow FIQ Mask" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTB_VDET_MASK                     ,Port B Video Detect FIQ Mask" "0,1"
bitfld.long 0x00 0. "         PRTA_VDET_MASK                     ,Port A Video Detect FIQ Mask" "0,1"
group.long 0x18++0x3
line.long 0x00 "VIP_FIQ_CLEAR,Clears bits in the FIQ Status"
bitfld.long 0x00 21. " PORT_A_YUV_PROTOCOL_VIOLATION_CLR  ,Write 1 followed by 0 to Clear Port B Cfg Disable Complete FIQ" "0,1"
bitfld.long 0x00 20. "         PORT_A_ANC_PROTOCOL_VIOLATION_CLR  ,Write 1 followed by 0 to Clear Port A Cfg Disable Complete FIQ" "0,1"
bitfld.long 0x00 19. "     PORT_B_YUV_PROTOCOL_VIOLATION_CLR  ,Write 1 followed by 0 to Clear Port B ANC VPI Protocol Violation FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 18. " PORT_B_ANC_PROTOCOL_VIOLATION_CLR  ,Write 1 followed by 0 to Clear Port B YUV VPI Protocol Violation FIQ" "0,1"
bitfld.long 0x00 17. "         PORT_A_CFG_DISABLE_COMPLETE_CLR    ,Write 1 followed by 0 to Clear Port A ANC VPI Protocol Violation FIQ" "0,1"
bitfld.long 0x00 16. "     PORT_B_CFG_DISABLE_COMPLETE_CLR    ,Write 1 followed by 0 to Clear Port A YUV VPI Protocol Violation FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 15. " PORT_B_SRC0_SIZE_CLR               ,Write 1 followed by 0 to Clear Port B Src0 Size FIQ" "0,1"
bitfld.long 0x00 14. "         PORT_A_SRC0_SIZE_CLR               ,Write 1 followed by 0 to Clear Port A Src0 Size FIQ" "0,1"
bitfld.long 0x00 13. "     PORT_B_DISCONN_CLR                 ,Write 1 followed by 0 to Clear Port B Link Disconnect FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 12. " PORT_B_CONN_CLR                    ,Write 1 followed by 0 to Clear Port B Link Connect FIQ" "0,1"
bitfld.long 0x00 11. "         PORT_A_DISCONN_CLR                 ,Write 1 followed by 0 to Clear Port A Link Disconnect FIQ" "0,1"
bitfld.long 0x00 10. "     PORT_A_CONN_CLR                    ,Write 1 followed by 0 to Clear Port A Link Connect FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 9. " OUTPUT_FIFO_PRTB_ANC_CLR           ,Write 1 followed by 0 to Clear Output FIFO Port B Ancillary Overflow FIQ" "0,1"
bitfld.long 0x00 7. "         OUTPUT_FIFO_PRTB_YUV_CLR           ,Write 1 followed by 0 to Clear Output FIFO Port B Luma Overflow FIQ" "0,1"
bitfld.long 0x00 6. "     OUTPUT_FIFO_PRTA_ANC_CLR           ,Write 1 followed by 0 to Clear Output FIFO Port A Ancillary Overflow FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 4. " OUTPUT_FIFO_PRTA_YUV_CLR           ,Write 1 followed by 0 to Clear Output FIFO Port A Luma Overflow FIQ" "0,1"
bitfld.long 0x00 3. "         ASYNC_FIFO_PRTB_CLR                ,Write 1 followed by 0 to Clear Async FIFO Port B Overflow FIQ" "0,1"
bitfld.long 0x00 2. "     ASYNC_FIFO_PRTA_CLR                ,Write 1 followed by 0 to Clear Async FIFO Port A Overflow FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTB_VDET_CLR                      ,Write 1 followed by 0 to Clear Video Detect FIQ for Port B" "0,1"
bitfld.long 0x00 0. "         PRTA_VDET_CLR                      ,Write 1 followed by 0 to Clear Video Detect FIQ for Port A" "0,1"
rgroup.long 0x1C++0x3
line.long 0x00 "VIP_FIQ_STATUS,FIQ Status values"
bitfld.long 0x00 21. " PORT_B_CFG_DISABLE_COMPLETE_CLR    ,Port B Cfg Disable Complete FIQ" "0,1"
bitfld.long 0x00 20. "         PORT_A_CFG_DISABLE_COMPLETE        ,Port A Cfg Disable Complete FIQ" "0,1"
bitfld.long 0x00 19. "     PORT_B_ANC_PROTOCOL_VIOLATION      ,Port B ANC VPI Protocol Violation FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 18. " PORT_B_YUV_PROTOCOL_VIOLATION      ,Port B YUV VPI Protocol Violation FIQ" "0,1"
bitfld.long 0x00 17. "         PORT_A_ANC_PROTOCOL_VIOLATION      ,Port A ANC VPI Protocol Violation FIQ" "0,1"
bitfld.long 0x00 16. "     PORT_A_YUV_PROTOCOL_VIOLATION      ,Port A YUV VPI Protocol Violation FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 15. " PORT_B_SRC0_SIZE_STATUS            ,Port B Source 0 Size FIQ" "0,1"
bitfld.long 0x00 14. "         PORT_A_SRC0_SIZE_STATUS            ,Port A Source 0 Size FIQ" "0,1"
bitfld.long 0x00 13. "     PORT_B_DISCONN_STATUS              ,Port B Disconnect FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 12. " PORT_B_CONN_STATUS                 ,Port B Connect FIQ" "0,1"
bitfld.long 0x00 11. "         PORT_A_DISCONN_STATUS              ,Port A Disconnect FIQ" "0,1"
bitfld.long 0x00 10. "     PORT_A_CONN_STATUS                 ,Port A Connect FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 9. " OUTPUT_FIFO_PRTB_ANC_STATUS        ,Output FIFO Port B Ancillary Overflow Status" "0,1"
bitfld.long 0x00 8. "         OUTPUT_FIFO_PRTB_CHROMA_STATUS     ,Output FIFO Port B Chroma Overflow Status" "0,1"
bitfld.long 0x00 7. "     OUTPUT_FIFO_PRTB_LUMA_STATUS       ,Output FIFO Port B Luma Overflow Status" "0,1"
textline "                                       "
bitfld.long 0x00 6. " OUTPUT_FIFO_PRTA_ANC_STATUS        ,Output FIFO Port A Ancillary Overflow Status" "0,1"
bitfld.long 0x00 5. "         OUTPUT_FIFO_PRTA_CHROMA_STATUS     ,Output FIFO Port A Chroma Overflow Status" "0,1"
bitfld.long 0x00 4. "     OUTPUT_FIFO_PRTA_LUMA_STATUS       ,Output FIFO Port A Luma Overflow Status" "0,1"
textline "                                       "
bitfld.long 0x00 3. " ASYNC_FIFO_PRTB_STATUS             ,Async FIFO Port B Overflow Status" "0,1"
bitfld.long 0x00 2. "         ASYNC_FIFO_PRTA_STATUS             ,Async FIFO Port A Overflow Status" "0,1"
bitfld.long 0x00 1. "     PRTB_VDET_STATUS                   ,VDET Status for Port B" "0,1"
textline "                                       "
bitfld.long 0x00 0. " PRTA_VDET_STATUS                   ,VDET Status for Port A" "0,1"
rgroup.long 0x20++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC_FID,Current and Previous Output Port A Source FID values"
bitfld.long 0x00 31. " PRTA_SRC15_CURR_SOURCE_FID         ,For Source ID 15 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 30. "         PRTA_SRC15_PREV_SOURCE_FID         ,For Source ID 15 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 29. "     PRTA_SRC14_CURR_SOURCE_FID         ,For Source ID 14 from Port A. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 28. " PRTA_SRC14_PREV_SOURCE_FID         ,For Source ID 14 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 27. "         PRTA_SRC13_CURR_SOURCE_FID         ,For Source ID 13 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 26. "     PRTA_SRC13_PREV_SOURCE_FID         ,For Source ID 13 from Port A. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 25. " PRTA_SRC12_CURR_SOURCE_FID         ,For Source ID 12 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 24. "         PRTA_SRC12_PREV_SOURCE_FID         ,For Source ID 12 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 23. "     PRTA_SRC11_CURR_SOURCE_FID         ,For Source ID 11 from Port A. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 22. " PRTA_SRC11_PREV_SOURCE_FID         ,For Source ID 11 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 21. "         PRTA_SRC10_CURR_SOURCE_FID         ,For Source ID 10 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 20. "     PRTA_SRC10_PREV_SOURCE_FID         ,For Source ID 10 from Port A. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 19. " PRTA_SRC9_CURR_SOURCE_FID          ,For Source ID 9 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 18. "         PRTA_SRC9_PREV_SOURCE_FID          ,For Source ID 9 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 17. "     PRTA_SRC8_CURR_SOURCE_FID          ,For Source ID 8 from Port A. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 16. " PRTA_SRC8_PREV_SOURCE_FID          ,For Source ID 8 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 15. "         PRTA_SRC7_CURR_SOURCE_FID          ,For Source ID 7 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 14. "     PRTA_SRC7_PREV_SOURCE_FID          ,For Source ID 7 from Port A. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 13. " PRTA_SRC6_CURR_SOURCE_FID          ,For Source ID 6 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 12. "         PRTA_SRC6_PREV_SOURCE_FID          ,For Source ID 6 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 11. "     PRTA_SRC5_CURR_SOURCE_FID          ,For Source ID 5 from Port A. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PRTA_SRC5_PREV_SOURCE_FID          ,For Source ID 5 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 9. "         PRTA_SRC4_CURR_SOURCE_FID          ,For Source ID 4 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 8. "     PRTA_SRC4_PREV_SOURCE_FID          ,For Source ID 4 from Port A. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PRTA_SRC3_CURR_SOURCE_FID          ,For Source ID 3 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 6. "         PRTA_SRC3_PREV_SOURCE_FID          ,For Source ID 3 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 5. "     PRTA_SRC2_CURR_SOURCE_FID          ,For Source ID 2 from Port A. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 4. " PRTA_SRC2_PREV_SOURCE_FID          ,For Source ID 2 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 3. "         PRTA_SRC1_CURR_SOURCE_FID          ,For Source ID 1 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 2. "     PRTA_SRC1_PREV_SOURCE_FID          ,For Source ID 1 from Port A. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTA_SRC0_CURR_SOURCE_FID          ,For Source ID 0 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 0. "         PRTA_SRC0_PREV_SOURCE_FID          ,For Source ID 0 from Port A. Source Field ID for Previous Field" "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_ENC_FID,Current and Previous Output Port A Encoder FID values"
bitfld.long 0x00 31. " PRTA_SRC15_CURR_ENC_FID            ,For Source ID 15 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 30. "         PRTA_SRC15_PREV_ENC_FID            ,For Source ID 15 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 29. "     PRTA_SRC14_CURR_ENC_FID            ,For Source ID 14 from Port A. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 28. " PRTA_SRC14_PREV_ENC_FID            ,For Source ID 14 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 27. "         PRTA_SRC13_CURR_ENC_FID            ,For Source ID 13 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 26. "     PRTA_SRC13_PREV_ENC_FID            ,For Source ID 13 from Port A. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 25. " PRTA_SRC12_CURR_ENC_FID            ,For Source ID 12 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 24. "         PRTA_SRC12_PREV_ENC_FID            ,For Source ID 12 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 23. "     PRTA_SRC11_CURR_ENC_FID            ,For Source ID 11 from Port A. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 22. " PRTA_SRC11_PREV_ENC_FID            ,For Source ID 11 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 21. "         PRTA_SRC10_CURR_ENC_FID            ,For Source ID 10 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 20. "     PRTA_SRC10_PREV_ENC_FID            ,For Source ID 10 from Port A. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 19. " PRTA_SRC9_CURR_ENC_FID             ,For Source ID 9 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 18. "         PRTA_SRC9_PREV_ENC_FID             ,For Source ID 9 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 17. "     PRTA_SRC8_CURR_ENC_FID             ,For Source ID 8 from Port A. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 16. " PRTA_SRC8_PREV_ENC_FID             ,For Source ID 8 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 15. "         PRTA_SRC7_CURR_ENC_FID             ,For Source ID 7 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 14. "     PRTA_SRC7_PREV_ENC_FID             ,For Source ID 7 from Port A. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 13. " PRTA_SRC6_CURR_ENC_FID             ,For Source ID 6 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 12. "         PRTA_SRC6_PREV_ENC_FID             ,For Source ID 6 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 11. "     PRTA_SRC5_CURR_ENC_FID             ,For Source ID 5 from Port A. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PRTA_SRC5_PREV_ENC_FID             ,For Source ID 5 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 9. "         PRTA_SRC4_CURR_ENC_FID             ,For Source ID 4 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 8. "     PRTA_SRC4_PREV_ENC_FID             ,For Source ID 4 from Port A. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PRTA_SRC3_CURR_ENC_FID             ,For Source ID 3 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 6. "         PRTA_SRC3_PREV_ENC_FID             ,For Source ID 3 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 5. "     PRTA_SRC2_CURR_ENC_FID             ,For Source ID 2 from Port A. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 4. " PRTA_SRC2_PREV_ENC_FID             ,For Source ID 2 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 3. "         PRTA_SRC1_CURR_ENC_FID             ,For Source ID 1 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 2. "     PRTA_SRC1_PREV_ENC_FID             ,For Source ID 1 from Port A. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTA_SRC0_CURR_ENC_FID             ,For Source ID 0 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 0. "         PRTA_SRC0_PREV_ENC_FID             ,For Source ID 0 from Port A. Encoder Field ID for Previous Field" "0,1"
rgroup.long 0x28++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC_FID,Current and Previous Output Port B Source FID values"
bitfld.long 0x00 31. " PRTB_SRC15_CURR_SOURCE_FID         ,For Source ID 15 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 30. "         PRTB_SRC15_PREV_SOURCE_FID         ,For Source ID 15 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 29. "     PRTB_SRC14_CURR_SOURCE_FID         ,For Source ID 14 from Port B. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 28. " PRTB_SRC14_PREV_SOURCE_FID         ,For Source ID 14 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 27. "         PRTB_SRC13_CURR_SOURCE_FID         ,For Source ID 13 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 26. "     PRTB_SRC13_PREV_SOURCE_FID         ,For Source ID 13 from Port B. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 25. " PRTB_SRC12_CURR_SOURCE_FID         ,For Source ID 12 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 24. "         PRTB_SRC12_PREV_SOURCE_FID         ,For Source ID 12 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 23. "     PRTB_SRC11_CURR_SOURCE_FID         ,For Source ID 11 from Port B. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 22. " PRTB_SRC11_PREV_SOURCE_FID         ,For Source ID 11. from Port B Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 21. "         PRTB_SRC10_CURR_SOURCE_FID         ,For Source ID 10 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 20. "     PRTB_SRC10_PREV_SOURCE_FID         ,For Source ID 10 from Port B. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 19. " PRTB_SRC9_CURR_SOURCE_FID          ,For Source ID 9 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 18. "         PRTB_SRC9_PREV_SOURCE_FID          ,For Source ID 9 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 17. "     PRTB_SRC8_CURR_SOURCE_FID          ,For Source ID 8 from Port B. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 16. " PRTB_SRC8_PREV_SOURCE_FID          ,For Source ID 8 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 15. "         PRTB_SRC7_CURR_SOURCE_FID          ,For Source ID 7 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 14. "     PRTB_SRC7_PREV_SOURCE_FID          ,For Source ID 7 from Port B. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 13. " PRTB_SRC6_CURR_SOURCE_FID          ,For Source ID 6 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 12. "         PRTB_SRC6_PREV_SOURCE_FID          ,For Source ID 6 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 11. "     PRTB_SRC5_CURR_SOURCE_FID          ,For Source ID 5 from Port B. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PRTB_SRC5_PREV_SOURCE_FID          ,For Source ID 5 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 9. "         PRTB_SRC4_CURR_SOURCE_FID          ,For Source ID 4 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 8. "     PRTB_SRC4_PREV_SOURCE_FID          ,For Source ID 4 from Port B. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PRTB_SRC3_CURR_SOURCE_FID          ,For Source ID 3 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 6. "         PRTB_SRC3_PREV_SOURCE_FID          ,For Source ID 3 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 5. "     PRTB_SRC2_CURR_SOURCE_FID          ,For Source ID 2 from Port B. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 4. " PRTB_SRC2_PREV_SOURCE_FID          ,For Source ID 2 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 3. "         PRTB_SRC1_CURR_SOURCE_FID          ,For Source ID 1 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 2. "     PRTB_SRC1_PREV_SOURCE_FID          ,For Source ID 1 from Port B. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTB_SRC0_CURR_SOURCE_FID          ,For Source ID 0 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 0. "         PRTB_SRC0_PREV_SOURCE_FID          ,For Source ID 0 from Port B. Source Field ID for Previous Field" "0,1"
rgroup.long 0x2C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_ENC_FID,Current and Previous Output Port B Encoder FID values"
bitfld.long 0x00 31. " PRTB_SRC15_CURR_ENC_FID            ,For Source ID 15 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 30. "         PRTB_SRC15_PREV_ENC_FID            ,For Source ID 15 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 29. "     PRTB_SRC14_CURR_ENC_FID            ,For Source ID 14 from Port B. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 28. " PRTB_SRC14_PREV_ENC_FID            ,For Source ID 14 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 27. "         PRTB_SRC13_CURR_ENC_FID            ,For Source ID 13 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 26. "     PRTB_SRC13_PREV_ENC_FID            ,For Source ID 13 from Port B. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 25. " PRTB_SRC12_CURR_ENC_FID            ,For Source ID 12 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 24. "         PRTB_SRC12_PREV_ENC_FID            ,For Source ID 12 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 23. "     PRTB_SRC11_CURR_ENC_FID            ,For Source ID 11 from Port B. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 22. " PRTB_SRC11_PREV_ENC_FID            ,For Source ID 11 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 21. "         PRTB_SRC10_CURR_ENC_FID            ,For Source ID 10 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 20. "     PRTB_SRC10_PREV_ENC_FID            ,For Source ID 10 from Port B. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 19. " PRTB_SRC9_CURR_ENC_FID             ,For Source ID 9 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 18. "         PRTB_SRC9_PREV_ENC_FID             ,For Source ID 9 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 17. "     PRTB_SRC8_CURR_ENC_FID             ,For Source ID 8 from Port B. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 16. " PRTB_SRC8_PREV_ENC_FID             ,For Source ID 8 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 15. "         PRTB_SRC7_CURR_ENC_FID             ,For Source ID 7 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 14. "     PRTB_SRC7_PREV_ENC_FID             ,For Source ID 7 from Port B. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 13. " PRTB_SRC6_CURR_ENC_FID             ,For Source ID 6 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 12. "         PRTB_SRC6_PREV_ENC_FID             ,For Source ID 6 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 11. "     PRTB_SRC5_CURR_ENC_FID             ,For Source ID 5 from Port B. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PRTB_SRC5_PREV_ENC_FID             ,For Source ID 5 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 9. "         PRTB_SRC4_CURR_ENC_FID             ,For Source ID 4 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 8. "     PRTB_SRC4_PREV_ENC_FID             ,For Source ID 4 from Port B. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PRTB_SRC3_CURR_ENC_FID             ,For Source ID 3 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 6. "         PRTB_SRC3_PREV_ENC_FID             ,For Source ID 3 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 5. "     PRTB_SRC2_CURR_ENC_FID             ,For Source ID 2 from Port B. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 4. " PRTB_SRC2_PREV_ENC_FID             ,For Source ID 2 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 3. "         PRTB_SRC1_CURR_ENC_FID             ,For Source ID 1 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 2. "     PRTB_SRC1_PREV_ENC_FID             ,For Source ID 1 from Port B. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTB_SRC0_CURR_ENC_FID             ,For Source ID 0 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 0. "         PRTB_SRC0_PREV_ENC_FID             ,For Source ID 0 from Port B. Encoder Field ID for Previous Field" "0,1"
rgroup.long 0x30++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC0_SIZE,Width and Height for Source 0"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC0_WIDTH                    ,On Port A. Width of Source ID 0"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC0_HEIGHT                   ,On Port A. Height of Source ID 0"
rgroup.long 0x34++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC1_SIZE,Width and Height for Source 1"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC1_WIDTH                    ,On Port A. Width of Source ID 1"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC1_HEIGHT                   ,On Port A. Height of Source ID 1"
rgroup.long 0x38++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC2_SIZE,Width and Height for Source 2"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC2_WIDTH                    ,On Port A. Width of Source ID 2"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC2_HEIGHT                   ,On Port A. Height of Source ID 2"
rgroup.long 0x3C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC3_SIZE,Width and Height for Source 3"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC3_WIDTH                    ,On Port A. Width of Source ID 3"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC3_HEIGHT                   ,On Port A. Height of Source ID 3"
rgroup.long 0x40++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC4_SIZE,Width and Height for Source 4"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC4_WIDTH                    ,On Port A. Width of Source ID 4"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC4_HEIGHT                   ,On Port A. Height of Source ID 4"
rgroup.long 0x44++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC5_SIZE,Width and Height for Source 5"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC5_WIDTH                    ,On Port A. Width of Source ID 5"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC5_HEIGHT                   ,On Port A. Height of Source ID 5"
rgroup.long 0x48++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC6_SIZE,Width and Height for Source 6"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC6_WIDTH                    ,On Port A. Width of Source ID 6"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC6_HEIGHT                   ,On Port A. Height of Source ID 6"
rgroup.long 0x4C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC7_SIZE,Width and Height for Source 7"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC7_WIDTH                    ,On Port A. Width of Source ID 7"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC7_HEIGHT                   ,On Port A. Height of Source ID 7"
rgroup.long 0x50++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC8_SIZE,Width and Height for Source 8"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC8_WIDTH                    ,On Port A. Width of Source ID 8"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC8_HEIGHT                   ,On Port A. Height of Source ID 8"
rgroup.long 0x54++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC9_SIZE,Width and Height for Source 9"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC9_WIDTH                    ,On Port A. Width of Source ID 9"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC9_HEIGHT                   ,On Port A. Height of Source ID 9"
rgroup.long 0x58++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC10_SIZE,Width and Height for Source 10"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC10_WIDTH                   ,On Port A. Width of Source ID 10"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC10_HEIGHT                  ,On Port A. Height of Source ID 10"
rgroup.long 0x5C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC11_SIZE,Width and Height for Source 11"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC11_WIDTH                   ,On Port A. Width of Source ID 11"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC11_HEIGHT                  ,On Port A. Height of Source ID 11"
rgroup.long 0x60++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC12_SIZE,Width and Height for Source 12"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC12_WIDTH                   ,On Port A. Width of Source ID 12"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC12_HEIGHT                  ,On Port A. Height of Source ID 12"
rgroup.long 0x64++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC13_SIZE,Width and Height for Source 13"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC13_WIDTH                   ,On Port A. Width of Source ID 13"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC13_HEIGHT                  ,On Port A. Height of Source ID 13"
rgroup.long 0x68++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC14_SIZE,Width and Height for Source 14"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC14_WIDTH                   ,On Port A. Width of Source ID 14"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC14_HEIGHT                  ,On Port A. Height of Source ID 14"
rgroup.long 0x6C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC15_SIZE,Width and Height for Source 15"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC15_WIDTH                   ,On Port A. Width of Source ID 15"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC15_HEIGHT                  ,On Port A. Height of Source ID 15"
rgroup.long 0x70++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC0_SIZE,Width and Height for Source 0"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC0_WIDTH                    ,On Port B. Width of Source ID 0"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC0_HEIGHT                   ,On Port B. Height of Source ID 0"
rgroup.long 0x74++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC1_SIZE,Width and Height for Source 1"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC1_WIDTH                    ,On Port B. Width of Source ID 1"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC1_HEIGHT                   ,On Port B. Height of Source ID 1"
rgroup.long 0x78++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC2_SIZE,Width and Height for Source 2"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC2_WIDTH                    ,On Port B. Width of Source ID 2"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC2_HEIGHT                   ,On Port B. Height of Source ID 2"
rgroup.long 0x7C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC3_SIZE,Width and Height for Source 3"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC3_WIDTH                    ,On Port B. Width of Source ID 3"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC3_HEIGHT                   ,On Port B. Height of Source ID 3"
rgroup.long 0x80++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC4_SIZE,Width and Height for Source 4"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC4_WIDTH                    ,On Port B. Width of Source ID 4"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC4_HEIGHT                   ,On Port B. Height of Source ID 4"
rgroup.long 0x84++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC5_SIZE,Width and Height for Source 5"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC5_WIDTH                    ,On Port B. Width of Source ID 5"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC5_HEIGHT                   ,On Port B. Height of Source ID 5"
rgroup.long 0x88++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC6_SIZE,Width and Height for Source 6"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC6_WIDTH                    ,On Port B. Width of Source ID 6"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC6_HEIGHT                   ,On Port B. Height of Source ID 6"
rgroup.long 0x8C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC7_SIZE,Width and Height for Source 7"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC7_WIDTH                    ,On Port B. Width of Source ID 7"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC7_HEIGHT                   ,On Port B. Height of Source ID 7"
rgroup.long 0x90++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC8_SIZE,Width and Height for Source 8"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC8_WIDTH                    ,On Port B. Width of Source ID 8"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC8_HEIGHT                   ,On Port B. Height of Source ID 8"
rgroup.long 0x94++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC9_SIZE,Width and Height for Source 9"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC9_WIDTH                    ,On Port B. Width of Source ID 9"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC9_HEIGHT                   ,On Port B. Height of Source ID 9"
rgroup.long 0x98++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC10_SIZE,Width and Height for Source 10"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC10_WIDTH                   ,On Port B. Width of Source ID 10"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC10_HEIGHT                  ,On Port B. Height of Source ID 10"
rgroup.long 0x9C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC11_SIZE,Width and Height for Source 11"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC11_WIDTH                   ,On Port B. Width of Source ID 11"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC11_HEIGHT                  ,On Port B. Height of Source ID 11"
rgroup.long 0xA0++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC12_SIZE,Width and Height for Source 12"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC12_WIDTH                   ,On Port B. Width of Source ID 12"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC12_HEIGHT                  ,On Port B. Height of Source ID 12"
rgroup.long 0xA4++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC13_SIZE,Width and Height for Source 13"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC13_WIDTH                   ,On Port B. Width of Source ID 13"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC13_HEIGHT                  ,On Port B. Height of Source ID 13"
rgroup.long 0xA8++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC14_SIZE,Width and Height for Source 14"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC14_WIDTH                   ,On Port B. Width of Source ID 14"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC14_HEIGHT                  ,On Port B. Height of Source ID 14"
rgroup.long 0xAC++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC15_SIZE,Width and Height for Source 15"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC15_WIDTH                   ,On Port B. Width of Source ID 15"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC15_HEIGHT                  ,On Port B. Height of Source ID 15"
rgroup.long 0xB0++0x3
line.long 0x00 "VIP_PORT_A_VDET_VEC,Each bit represents the VDET bit setting for Line Mux Mode"
hexmask.long 0x00 0.--31. 1. " PRTA_VDET_VEC                      ,For Embedded Sync Only In Line Mux Mode. each bit represents the vdet value on Port A for the corresponding source id. This vector is meaningless for 1x/2x/4x mux modes."
rgroup.long 0xB4++0x3
line.long 0x00 "VIP_PORT_B_VDET_VEC,Each bit represents the VDET bit setting for Line Mux Mode"
hexmask.long 0x00 0.--31. 1. " PRTB_VDET_VEC                      ,For Embedded Sync Only In Line Mux Mode. each bit represents the vdet value on Port B for the corresponding source id. This vector is meaningless for 1x/2x/4x mux modes."
group.long 0xB8++0x3
line.long 0x00 "VIP_ANC_CROP_HORZ_PORT_A,Ancillary Cropping Configuration for Input Port A"
bitfld.long 0x00 28.--31. " ANC_TARGET_SRCNUM                  ,The cropping module can work on only one srcnum. specified in this field. for each dss_vip_parser output port (Ancillary data)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 16.--27. 1. "        ANC_USE_NUMPIX                     ,When cropping, the number of pixels to keep after the skip_numpix value. skip_numpix + use_numpix must be smaller than the original line width."
bitfld.long 0x00 15. "  ANC_BYPASS_N                       ,0 = Bypass cropping module 1 = Cropping module enabled" "0,1"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " ANC_SKIP_NUMPIX                    ,The number of pixels to crop from the beginning of each line."
group.long 0xBC++0x3
line.long 0x00 "VIP_ANC_CROP_VERT_PORT_A,Ancillary Cropping Configuration for Input Port A"
hexmask.long.word 0x00 16.--27. 1. " ANC_USE_NUMLINES                   ,When cropping, the number of lines to keep after the skip_numlines value. Use_numlines + skip_numlines must be smaller than the total number of lines in the srcnum's ancillary data region."
hexmask.long.word 0x00 0.--11. 1. "      ANC_SKIP_NUMLINES                  ,The number of lines to crop from the top of the vertical ancillary data region."
group.long 0xC0++0x3
line.long 0x00 "VIP_CROP_HORZ_PORT_A,Active Video Cropping Configuration for Input Port A"
bitfld.long 0x00 28.--31. " ACT_TARGET_SRCNUM                  ,The cropping module can work on only one srcnum. specified in this field. for each dss_vip_parser output port (Active video)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 16.--27. 1. "        ACT_USE_NUMPIX                     ,When cropping, the number of pixels to keep after the skip_numpix value. skip_numpix + use_numpix must be smaller than the original line width."
bitfld.long 0x00 15. "  ACT_BYPASS_N                       ,0 = Bypass cropping module 1 = Cropping module enabled" "0,1"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " ACT_SKIP_NUMPIX                    ,The number of pixels to crop from the beginning of each line."
group.long 0xC4++0x3
line.long 0x00 "VIP_CROP_VERT_PORT_A,Active Video Cropping Configuration for Input Port A"
hexmask.long.word 0x00 16.--27. 1. " ACT_USE_NUMLINES                   ,When cropping.. the number of lines to keep after the skip_numlines value. Use_numlines + skip_numlines must be smaller than the total number of lines in the srcnum's active video region."
hexmask.long.word 0x00 0.--11. 1. "      ACT_SKIP_NUMLINES                  ,The number of lines to crop from the top of the vertical active video region."
group.long 0xC8++0x3
line.long 0x00 "VIP_ANC_VIP_CROP_HORZ_PORT_B,Ancillary Cropping Configuration for Input Port B"
bitfld.long 0x00 28.--31. " ANC_TARGET_SRCNUM                  ,The cropping module can work on only one srcnum. specified in this field. for each dss_vip_parser output port (Ancillary data)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 16.--27. 1. "        ANC_USE_NUMPIX                     ,When cropping, the number of pixels to keep after the skip_numpix value. skip_numpix + use_numpix must be smaller than the original line width."
bitfld.long 0x00 15. "  ANC_BYPASS_N                       ,0 = Bypass cropping module 1 = Cropping module enabled" "0,1"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " ANC_SKIP_NUMPIX                    ,The number of pixels to crop from the beginning of each line."
group.long 0xCC++0x3
line.long 0x00 "VIP_ANC_VIP_CROP_VERT_PORT_B,Ancillary Cropping Configuration for Input Port B"
hexmask.long.word 0x00 16.--27. 1. " ANC_USE_NUMLINES                   ,When cropping, the number of lines to keep after the skip_numlines value. Use_numlines + skip_numlines must be smaller than the total number of lines in the srcnums active video region."
hexmask.long.word 0x00 0.--11. 1. "      ANC_SKIP_NUMLINES                  ,The number of lines to crop from the top of the vertical ancillary data region."
group.long 0xD0++0x3
line.long 0x00 "VIP_CROP_HORZ_PORT_B,Active Video Cropping Configuration for Input Port B"
bitfld.long 0x00 28.--31. " ACT_TARGET_SRCNUM                  ,The cropping module can work on only one srcnum. specified in this field. for each dss_vip_parser output port (Active video)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 16.--27. 1. "        ACT_USE_NUMPIX                     ,When cropping, the number of pixels to keep after the skip_numpix value. skip_numpix + use_numpix must be smaller than the original line width."
bitfld.long 0x00 15. "  ACT_BYPASS_N                       ,0 = Bypass cropping module 1 = Cropping module enabled" "0,1"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " ACT_SKIP_NUMPIX                    ,The number of pixels to crop from the beginning of each line."
group.long 0xD4++0x3
line.long 0x00 "VIP_CROP_VERT_PORT_B,Active Video Cropping Configuration for Input Port B"
hexmask.long.word 0x00 16.--27. 1. " ACT_USE_NUMLINES                   ,When cropping, the number of lines to keep after the skip_numlines value. Use_numlines + skip_numlines must be smaller than the total number of lines in the srcnum's active video region."
hexmask.long.word 0x00 0.--11. 1. "      ACT_SKIP_NUMLINES                  ,The number of lines to crop from the top of the vertical active video region."
group.long 0xD8++0x3
line.long 0x00 "VIP_XTRA6_PORT_A,Cfg Disable Active Srcnum Vector Input for Port A"
hexmask.long.word 0x00 16.--31. 1. " YUV_SRCNUM_STOP_IMMEDIATELY        ,For the Active Video Port to the VPDMA, logic exists to ensure that a complete frame is sent out to the VPDMA following cfg_enable transitioning inactive for that port. Each bit in this vector represents a srcnum (r..."
hexmask.long.word 0x00 0.--15. 1. "      ANC_SRCNUM_STOP_IMMEDIATELY        ,For the Ancillary Data Port to the VPDMA, logic exists to ensure that a complete frame is sent out to the VPDMA following cfg_enable transitioning inactive for that port. Each bit in this vector represents a sr..."
group.long 0xDC++0x3
line.long 0x00 "VIP_XTRA7_PORT_B,Cfg Disable Active Srcnum Vector Input for Port B"
hexmask.long.word 0x00 16.--31. 1. " YUV_SRCNUM_STOP_IMMEDIATELY        ,For the Active Video Port to the VPDMA, logic exists to ensure that a complete frame is sent out to the VPDMA following cfg_enable transitioning inactive for that port. Each bit in this vector represents a srcnum (r..."
hexmask.long.word 0x00 0.--15. 1. "      ANC_SRCNUM_STOP_IMMEDIATELY        ,For the Ancillary Data Port to the VPDMA, logic exists to ensure that a complete frame is sent out to the VPDMA following cfg_enable transitioning inactive for that port. Each bit in this vector represents a sr..."
group.long 0xE0++0x3
line.long 0x00 "VIP_XTRA8_PORT_A,Reserved Register for Port A"
group.long 0xE4++0x3
line.long 0x00 "VIP_XTRA9_PORT_B,Reserved Register for Port B"
width 0x0B
tree.end
tree "VIP1_Slice1_parser"
base ad:0x48975A00
width 30.
group.long 0x0++0x3
line.long 0x00 "VIP_MAIN,ain Configuration for VIP Parser"
bitfld.long 0x00 5. " CLIP_ACTIVE                        ,Discrete Sync Only 0 = Do not clip active pixels 1 = Clip Active Pixels as follows: 0xFF -andgt; 0xFE.. 0x00 -andgt; 0x01" "0,1"
bitfld.long 0x00 4. "         CLIP_BLNK                          ,Discrete Sync Only 0 = Do not clip Blanking Data 1 = Clip Blanking Data as follows: 0xFF -andgt; 0xFE.. 0x00 -andgt; 0x01" "0,1"
bitfld.long 0x00 0.--1. "     DATA_INTERFACE_MODE                ,00 = 24b data interface. Uses Port A settings 01 = 16b data interface. Uses Port A settings. 10 = Dual independent 8b data interfaces. Uses independent Port A and Port B settings. 11 = Undefined" "0,1,2,3"
group.long 0x4++0x3
line.long 0x00 "VIP_PORT_A,Configuration for Input Port A"
bitfld.long 0x00 31. " ANALYZER_FVH_ERR_CORRECTION_ENABLE ,Embedded Sync Only 0 = Ignore the protection bits in the XV (fvh) codeword header. This setting is typically desired. 1 = Use the protection bits in an attempt to do error correction for the fvh control bits." "0,1"
bitfld.long 0x00 30. "         ANALYZER_2X4X_SRCNUM_POS           ,Embedded Sync Only 0 = For 2x/4x mux mode, srcnum is in the least significant nibble of the XV/fvh codeword (srcnum replaces the protection bits) 1 = For 2x/4x mux mode, srcnum is in the least significant ni..." "0,1"
bitfld.long 0x00 24.--29. "     FID_SKEW_POSTCOUNT                 ,Discrete Sync Only post count value when using vsync skew in FID determination" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                       "
bitfld.long 0x00 23. " SW_RESET                           ,0 = Normal 1 = Reset Port A logic. Must be set to ?0? again by the software for the module to function." "0,1"
bitfld.long 0x00 22. "         DISCRETE_BASIC_MODE                ,This register is valid for Discrete Sync mode only. 0 = Normal Discrete Mode. Hsync Style Capture operates as follows: - Captures line starting from HSYNC inactive to active condition. - VSYNC determined by ..." "0,1"
bitfld.long 0x00 16.--21. "     FID_SKEW_PRECOUNT                  ,Discrete Sync Only pre count value when using vsync skew in FID determination" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                       "
bitfld.long 0x00 15. " USE_ACTVID_HSYNC_N                 ,Discrete Sync Only 0 = Use HSYNC style line capture 1 = Use ACTVID style line capture" "0,1"
bitfld.long 0x00 14. "         FID_DETECT_MODE                    ,Discrete Sync Only 0 = Take FID from pin 1 = FID is determined by VSYNC skew" "0,1"
bitfld.long 0x00 13. "     ACTVID_POLARITY                    ,Discrete Sync Only 0 = ACTVID is active low 1 = ACTVID is active high" "0,1"
textline "                                       "
bitfld.long 0x00 12. " VSYNC_POLARITY                     ,Discrete Sync Only 0 = VSYNC is active low 1 = VSYNC is active high" "0,1"
bitfld.long 0x00 11. "         HSYNC_POLARITY                     ,Discrete Sync Only 0 = HSYNC is active low 1 = HSYNC is active high" "0,1"
bitfld.long 0x00 10. "     PIXCLK_EDGE_POLARITY               ,0 = Rising Edge is active PIXCLK edge 1 = Falling Edge is active PIXCLK edge" "0,1"
textline "                                       "
bitfld.long 0x00 9. " FID_POLARITY                       ,0 = Keep FID as found 1 = Invert Determined Value of FID" "0,1"
bitfld.long 0x00 8. "         ENABLE                             ,0 = Disable Port 1 = Enable Port" "0,1"
bitfld.long 0x00 7. "     CLR_ASYNC_FIFO_RD                  ,0 = Normal 1 = Clear Async FIFO Read Logic" "0,1"
textline "                                       "
bitfld.long 0x00 6. " CLR_ASYNC_FIFO_WR                  ,0 = Normal 1 = Clear Async FIFO Write Logic" "0,1"
bitfld.long 0x00 4.--5. "         CTRL_CHAN_SEL                      ,Embedded Sync Only In 8b mode.. there is only one channel on data[7:0]. In 16b mode.. there are two channels. The Luma Channel is on data[15:8]. The Chroma Channel is on data[7:0]. In 24b mode.. there are th..." "0,1,2,3"
bitfld.long 0x00 0.--3. "     SYNC_TYPE                          ,0000 = embedded sync single 4:2:2 YUV stream 0001 = embedded sync 2x multiplexed 4:2:2 YUV stream 0010 = embedded sync 4x multiplexed 4:2:2 YUV stream 0011 = embedded sync line multiplexed 4:2:2 YUV stream 0100 ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x8++0x3
line.long 0x00 "VIP_XTRA_PORT_A,ore Configuration for Input Port A"
bitfld.long 0x00 28.--30. " REPACK_SEL                         ,000 = Straight Through 001 = Cross Swap 010 = Left Center Swap 011 = Center Right Swap 100 = Right Rotate 101 = Left Rotate 110 = RAW16 to RGB565 Mapping 111 = RAW12 Swap" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--27. 1. "         SRC0_NUMPIX                        ,Number of expected pixels on Source Number 0. The Port_a_src0_size interrupt will trigger if a line is encountered that differs from this pixelcount."
bitfld.long 0x00 13.--14. "  ANC_CHAN_SEL_8B                    ,In 8b mode, Vertically Ancillary Data typically resides in the Luma sites. This bit allows vertical ancillary data to be extracted from the chroma sites instead . 00 = Extract 8b Mode Vertical Ancillary Data from L..." "0,1,2,3"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " SRC0_NUMLINES                      ,Number of expected lines on Source Number 0. The Port_a_src0_size interrupt will trigger if a field/frame is encountered that differs from this linecount."
group.long 0xC++0x3
line.long 0x00 "VIP_PORT_B,Configuration for Input Port B"
bitfld.long 0x00 31. " ANALYZER_FVH_ERR_CORRECTION_ENABLE ,Embedded Sync Only 0 = Ignore the protection bits in the XV (fvh) codeword header. This setting is typically desired. 1 = Use the protection bits in an attempt to do error correction for the fvh control bits." "0,1"
bitfld.long 0x00 30. "         ANALYZER_2X4X_SRCNUM_POS           ,Embedded Sync Only 0 = For 2x/4x mux mode, srcnum is in the least significant nibble of the XV/fvh codeword (srcnum replaces the protection bits) 1 = For 2x/4x mux mode, srcnum is in the least significant ni..." "0,1"
bitfld.long 0x00 24.--29. "     FID_SKEW_POSTCOUNT                 ,Discrete Sync Only post count value when using vsync skew in FID determination" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                       "
bitfld.long 0x00 23. " SW_RESET                           ,0 = Normal 1 = Reset Port B logic. Must be set to ?0? again by the software for the module to function." "0,1"
bitfld.long 0x00 22. "         DISCRETE_BASIC_MODE                ,This register is valid for Discrete Sync mode only. 0 = Normal Discrete Mode. Hsync Style Capture operates as follows: - Captures line starting from HSYNC inactive to active condition. - VSYNC determined by ..." "0,1"
bitfld.long 0x00 16.--21. "     FID_SKEW_PRECOUNT                  ,Discrete Sync Only pre count value when using vsync skew in FID determination" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                       "
bitfld.long 0x00 15. " USE_ACTVID_HSYNC_N                 ,Discrete Sync Only 0 = Use HSYNC style line capture 1 = Use ACTVID style line capture" "0,1"
bitfld.long 0x00 14. "         FID_DETECT_MODE                    ,Discrete Sync Only 0 = Take FID from pin 1 = FID is determined by VSYNC skew" "0,1"
bitfld.long 0x00 13. "     ACTVID_POLARITY                    ,Discrete Sync Only 0 = ACTVID is active low 1 = ACTVID is active high" "0,1"
textline "                                       "
bitfld.long 0x00 12. " VSYNC_POLARITY                     ,Discrete Sync Only 0 = VSYNC is active low 1 = VSYNC is active high" "0,1"
bitfld.long 0x00 11. "         HSYNC_POLARITY                     ,Discrete Sync Only 0 = HSYNC is active low 1 = HSYNC is active high" "0,1"
bitfld.long 0x00 10. "     PIXCLK_EDGE_POLARITY               ,0 = Rising Edge is active PIXCLK edge 1 = Falling Edge is active PIXCLK edge" "0,1"
textline "                                       "
bitfld.long 0x00 9. " FID_POLARITY                       ,0 = Keep FID as found 1 = Invert Determined Value of FID" "0,1"
bitfld.long 0x00 8. "         ENABLE                             ,0 = Disable 1 = Enable" "0,1"
bitfld.long 0x00 7. "     CLR_ASYNC_FIFO_RD                  ,0 = Normal 1 = Clear Async FIFO Read Logic" "0,1"
textline "                                       "
bitfld.long 0x00 6. " CLR_ASYNC_FIFO_WR                  ,0 = Normal 1 = Clear Async FIFO Write Logic" "0,1"
bitfld.long 0x00 4.--5. "         CTRL_CHAN_SEL                      ,PORT B supports on 8b mode. Always write 0 to this field. The anc_chan_sel_8b register is used to select the Luma or Chroma channel from which Ancillary Data is taken." "0,1,2,3"
bitfld.long 0x00 0.--3. "     SYNC_TYPE                          ,0000 = embedded sync single YUV stream 0001 = embedded sync 2x multiplexed YUV stream 0010 = embedded sync 4x multiplexed YUV stream 0011 = embedded sync line multiplexed YUV stream 0100 = discrete sync single Y..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10++0x3
line.long 0x00 "VIP_XTRA_PORT_B,ore Configuration for Input Port B"
hexmask.long.word 0x00 16.--27. 1. " SRC0_NUMPIX                        ,Number of expected pixels on Source Number 0. The Port_b_src0_size interrupt will trigger if a line is encountered that differs from this pixelcount."
bitfld.long 0x00 13.--14. "      ANC_CHAN_SEL_8B                    ,In 8b mode, Vertically Ancillary Data typically resides in the Luma sites. This bit allows vertical ancillary data to be extracted from the chroma sites instead . 00 = Extract 8b Mode Vertical Ancillary Data fr..." "0,1,2,3"
hexmask.long.word 0x00 0.--11. 1. "     SRC0_NUMLINES                      ,Number of expected lines on Source Number 0. The Port_b_src0_size interrupt will trigger if a field/frame is encountered that differs from this linecount."
group.long 0x14++0x3
line.long 0x00 "VIP_FIQ_MASK,ask Bits for ARM FIQs"
bitfld.long 0x00 21. " PORT_B_CFG_DISABLE_COMPLETE_MASK   ,Port B Cfg Disable Complete Mask" "0,1"
bitfld.long 0x00 20. "         PORT_A_CFG_DISABLE_COMPLETE_MASK   ,Port A Cfg Disable Complete Mask" "0,1"
bitfld.long 0x00 19. "     PORT_B_ANC_PROTOCOL_VIOLATION_MASK ,Port B ANC VPI Protocol Violation Mask" "0,1"
textline "                                       "
bitfld.long 0x00 18. " PORT_B_YUV_PROTOCOL_VIOLATION_MASK ,Port B YUV VPI Protocol Violation Mask" "0,1"
bitfld.long 0x00 17. "         PORT_A_ANC_PROTOCOL_VIOLATION_MASK ,Port A ANC VPI Protocol Violation Mask" "0,1"
bitfld.long 0x00 16. "     PORT_A_YUV_PROTOCOL_VIOLATION_MASK ,Port A YUV VPI Protocol Violation Mask" "0,1"
textline "                                       "
bitfld.long 0x00 15. " PORT_B_SRC0_SIZE                   ,Video size detected on Port B does not match size programmed in xtra_port_b register" "0,1"
bitfld.long 0x00 14. "         PORT_A_SRC0_SIZE                   ,Video size detected on Port A does not match size programmed in xtra_port_a register" "0,1"
bitfld.long 0x00 13. "     PORT_B_DISCONN                     ,Port B Link Disconnect Srcnum 0 Mask" "0,1"
textline "                                       "
bitfld.long 0x00 12. " PORT_B_CONN                        ,Port B Link Connect Srcnum 0 Mask" "0,1"
bitfld.long 0x00 11. "         PORT_A_DISCONN                     ,Port A Link Disconnect Scrnum 0 Mask" "0,1"
bitfld.long 0x00 10. "     PORT_A_CONN                        ,Port A Link Connect Srcnum 0 Mask" "0,1"
textline "                                       "
bitfld.long 0x00 9. " OUTPUT_FIFO_PRTB_ANC_OF            ,Output FIFO Port B Ancillary Overflow Mask" "0,1"
bitfld.long 0x00 7. "         OUTPUT_FIFO_PRTB_YUV_OF            ,Output FIFO Port B Luma Overflow Mask" "0,1"
bitfld.long 0x00 6. "     OUTPUT_FIFO_PRTA_ANC_OF            ,Output FIFO Port A Ancillary Overflow Mask" "0,1"
textline "                                       "
bitfld.long 0x00 4. " OUTPUT_FIFO_PRTA_YUV_OF            ,Output FIFO Port A Luma Overflow Mask" "0,1"
bitfld.long 0x00 3. "         ASYNC_FIFO_PRTB_OF                 ,Port B Async FIFO Overflow FIQ Mask" "0,1"
bitfld.long 0x00 2. "     ASYNC_FIFO_PRTA_OF                 ,Port A Async FIFO Overflow FIQ Mask" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTB_VDET_MASK                     ,Port B Video Detect FIQ Mask" "0,1"
bitfld.long 0x00 0. "         PRTA_VDET_MASK                     ,Port A Video Detect FIQ Mask" "0,1"
group.long 0x18++0x3
line.long 0x00 "VIP_FIQ_CLEAR,Clears bits in the FIQ Status"
bitfld.long 0x00 21. " PORT_A_YUV_PROTOCOL_VIOLATION_CLR  ,Write 1 followed by 0 to Clear Port B Cfg Disable Complete FIQ" "0,1"
bitfld.long 0x00 20. "         PORT_A_ANC_PROTOCOL_VIOLATION_CLR  ,Write 1 followed by 0 to Clear Port A Cfg Disable Complete FIQ" "0,1"
bitfld.long 0x00 19. "     PORT_B_YUV_PROTOCOL_VIOLATION_CLR  ,Write 1 followed by 0 to Clear Port B ANC VPI Protocol Violation FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 18. " PORT_B_ANC_PROTOCOL_VIOLATION_CLR  ,Write 1 followed by 0 to Clear Port B YUV VPI Protocol Violation FIQ" "0,1"
bitfld.long 0x00 17. "         PORT_A_CFG_DISABLE_COMPLETE_CLR    ,Write 1 followed by 0 to Clear Port A ANC VPI Protocol Violation FIQ" "0,1"
bitfld.long 0x00 16. "     PORT_B_CFG_DISABLE_COMPLETE_CLR    ,Write 1 followed by 0 to Clear Port A YUV VPI Protocol Violation FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 15. " PORT_B_SRC0_SIZE_CLR               ,Write 1 followed by 0 to Clear Port B Src0 Size FIQ" "0,1"
bitfld.long 0x00 14. "         PORT_A_SRC0_SIZE_CLR               ,Write 1 followed by 0 to Clear Port A Src0 Size FIQ" "0,1"
bitfld.long 0x00 13. "     PORT_B_DISCONN_CLR                 ,Write 1 followed by 0 to Clear Port B Link Disconnect FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 12. " PORT_B_CONN_CLR                    ,Write 1 followed by 0 to Clear Port B Link Connect FIQ" "0,1"
bitfld.long 0x00 11. "         PORT_A_DISCONN_CLR                 ,Write 1 followed by 0 to Clear Port A Link Disconnect FIQ" "0,1"
bitfld.long 0x00 10. "     PORT_A_CONN_CLR                    ,Write 1 followed by 0 to Clear Port A Link Connect FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 9. " OUTPUT_FIFO_PRTB_ANC_CLR           ,Write 1 followed by 0 to Clear Output FIFO Port B Ancillary Overflow FIQ" "0,1"
bitfld.long 0x00 7. "         OUTPUT_FIFO_PRTB_YUV_CLR           ,Write 1 followed by 0 to Clear Output FIFO Port B Luma Overflow FIQ" "0,1"
bitfld.long 0x00 6. "     OUTPUT_FIFO_PRTA_ANC_CLR           ,Write 1 followed by 0 to Clear Output FIFO Port A Ancillary Overflow FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 4. " OUTPUT_FIFO_PRTA_YUV_CLR           ,Write 1 followed by 0 to Clear Output FIFO Port A Luma Overflow FIQ" "0,1"
bitfld.long 0x00 3. "         ASYNC_FIFO_PRTB_CLR                ,Write 1 followed by 0 to Clear Async FIFO Port B Overflow FIQ" "0,1"
bitfld.long 0x00 2. "     ASYNC_FIFO_PRTA_CLR                ,Write 1 followed by 0 to Clear Async FIFO Port A Overflow FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTB_VDET_CLR                      ,Write 1 followed by 0 to Clear Video Detect FIQ for Port B" "0,1"
bitfld.long 0x00 0. "         PRTA_VDET_CLR                      ,Write 1 followed by 0 to Clear Video Detect FIQ for Port A" "0,1"
rgroup.long 0x1C++0x3
line.long 0x00 "VIP_FIQ_STATUS,FIQ Status values"
bitfld.long 0x00 21. " PORT_B_CFG_DISABLE_COMPLETE_CLR    ,Port B Cfg Disable Complete FIQ" "0,1"
bitfld.long 0x00 20. "         PORT_A_CFG_DISABLE_COMPLETE        ,Port A Cfg Disable Complete FIQ" "0,1"
bitfld.long 0x00 19. "     PORT_B_ANC_PROTOCOL_VIOLATION      ,Port B ANC VPI Protocol Violation FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 18. " PORT_B_YUV_PROTOCOL_VIOLATION      ,Port B YUV VPI Protocol Violation FIQ" "0,1"
bitfld.long 0x00 17. "         PORT_A_ANC_PROTOCOL_VIOLATION      ,Port A ANC VPI Protocol Violation FIQ" "0,1"
bitfld.long 0x00 16. "     PORT_A_YUV_PROTOCOL_VIOLATION      ,Port A YUV VPI Protocol Violation FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 15. " PORT_B_SRC0_SIZE_STATUS            ,Port B Source 0 Size FIQ" "0,1"
bitfld.long 0x00 14. "         PORT_A_SRC0_SIZE_STATUS            ,Port A Source 0 Size FIQ" "0,1"
bitfld.long 0x00 13. "     PORT_B_DISCONN_STATUS              ,Port B Disconnect FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 12. " PORT_B_CONN_STATUS                 ,Port B Connect FIQ" "0,1"
bitfld.long 0x00 11. "         PORT_A_DISCONN_STATUS              ,Port A Disconnect FIQ" "0,1"
bitfld.long 0x00 10. "     PORT_A_CONN_STATUS                 ,Port A Connect FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 9. " OUTPUT_FIFO_PRTB_ANC_STATUS        ,Output FIFO Port B Ancillary Overflow Status" "0,1"
bitfld.long 0x00 8. "         OUTPUT_FIFO_PRTB_CHROMA_STATUS     ,Output FIFO Port B Chroma Overflow Status" "0,1"
bitfld.long 0x00 7. "     OUTPUT_FIFO_PRTB_LUMA_STATUS       ,Output FIFO Port B Luma Overflow Status" "0,1"
textline "                                       "
bitfld.long 0x00 6. " OUTPUT_FIFO_PRTA_ANC_STATUS        ,Output FIFO Port A Ancillary Overflow Status" "0,1"
bitfld.long 0x00 5. "         OUTPUT_FIFO_PRTA_CHROMA_STATUS     ,Output FIFO Port A Chroma Overflow Status" "0,1"
bitfld.long 0x00 4. "     OUTPUT_FIFO_PRTA_LUMA_STATUS       ,Output FIFO Port A Luma Overflow Status" "0,1"
textline "                                       "
bitfld.long 0x00 3. " ASYNC_FIFO_PRTB_STATUS             ,Async FIFO Port B Overflow Status" "0,1"
bitfld.long 0x00 2. "         ASYNC_FIFO_PRTA_STATUS             ,Async FIFO Port A Overflow Status" "0,1"
bitfld.long 0x00 1. "     PRTB_VDET_STATUS                   ,VDET Status for Port B" "0,1"
textline "                                       "
bitfld.long 0x00 0. " PRTA_VDET_STATUS                   ,VDET Status for Port A" "0,1"
rgroup.long 0x20++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC_FID,Current and Previous Output Port A Source FID values"
bitfld.long 0x00 31. " PRTA_SRC15_CURR_SOURCE_FID         ,For Source ID 15 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 30. "         PRTA_SRC15_PREV_SOURCE_FID         ,For Source ID 15 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 29. "     PRTA_SRC14_CURR_SOURCE_FID         ,For Source ID 14 from Port A. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 28. " PRTA_SRC14_PREV_SOURCE_FID         ,For Source ID 14 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 27. "         PRTA_SRC13_CURR_SOURCE_FID         ,For Source ID 13 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 26. "     PRTA_SRC13_PREV_SOURCE_FID         ,For Source ID 13 from Port A. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 25. " PRTA_SRC12_CURR_SOURCE_FID         ,For Source ID 12 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 24. "         PRTA_SRC12_PREV_SOURCE_FID         ,For Source ID 12 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 23. "     PRTA_SRC11_CURR_SOURCE_FID         ,For Source ID 11 from Port A. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 22. " PRTA_SRC11_PREV_SOURCE_FID         ,For Source ID 11 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 21. "         PRTA_SRC10_CURR_SOURCE_FID         ,For Source ID 10 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 20. "     PRTA_SRC10_PREV_SOURCE_FID         ,For Source ID 10 from Port A. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 19. " PRTA_SRC9_CURR_SOURCE_FID          ,For Source ID 9 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 18. "         PRTA_SRC9_PREV_SOURCE_FID          ,For Source ID 9 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 17. "     PRTA_SRC8_CURR_SOURCE_FID          ,For Source ID 8 from Port A. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 16. " PRTA_SRC8_PREV_SOURCE_FID          ,For Source ID 8 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 15. "         PRTA_SRC7_CURR_SOURCE_FID          ,For Source ID 7 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 14. "     PRTA_SRC7_PREV_SOURCE_FID          ,For Source ID 7 from Port A. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 13. " PRTA_SRC6_CURR_SOURCE_FID          ,For Source ID 6 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 12. "         PRTA_SRC6_PREV_SOURCE_FID          ,For Source ID 6 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 11. "     PRTA_SRC5_CURR_SOURCE_FID          ,For Source ID 5 from Port A. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PRTA_SRC5_PREV_SOURCE_FID          ,For Source ID 5 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 9. "         PRTA_SRC4_CURR_SOURCE_FID          ,For Source ID 4 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 8. "     PRTA_SRC4_PREV_SOURCE_FID          ,For Source ID 4 from Port A. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PRTA_SRC3_CURR_SOURCE_FID          ,For Source ID 3 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 6. "         PRTA_SRC3_PREV_SOURCE_FID          ,For Source ID 3 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 5. "     PRTA_SRC2_CURR_SOURCE_FID          ,For Source ID 2 from Port A. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 4. " PRTA_SRC2_PREV_SOURCE_FID          ,For Source ID 2 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 3. "         PRTA_SRC1_CURR_SOURCE_FID          ,For Source ID 1 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 2. "     PRTA_SRC1_PREV_SOURCE_FID          ,For Source ID 1 from Port A. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTA_SRC0_CURR_SOURCE_FID          ,For Source ID 0 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 0. "         PRTA_SRC0_PREV_SOURCE_FID          ,For Source ID 0 from Port A. Source Field ID for Previous Field" "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_ENC_FID,Current and Previous Output Port A Encoder FID values"
bitfld.long 0x00 31. " PRTA_SRC15_CURR_ENC_FID            ,For Source ID 15 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 30. "         PRTA_SRC15_PREV_ENC_FID            ,For Source ID 15 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 29. "     PRTA_SRC14_CURR_ENC_FID            ,For Source ID 14 from Port A. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 28. " PRTA_SRC14_PREV_ENC_FID            ,For Source ID 14 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 27. "         PRTA_SRC13_CURR_ENC_FID            ,For Source ID 13 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 26. "     PRTA_SRC13_PREV_ENC_FID            ,For Source ID 13 from Port A. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 25. " PRTA_SRC12_CURR_ENC_FID            ,For Source ID 12 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 24. "         PRTA_SRC12_PREV_ENC_FID            ,For Source ID 12 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 23. "     PRTA_SRC11_CURR_ENC_FID            ,For Source ID 11 from Port A. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 22. " PRTA_SRC11_PREV_ENC_FID            ,For Source ID 11 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 21. "         PRTA_SRC10_CURR_ENC_FID            ,For Source ID 10 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 20. "     PRTA_SRC10_PREV_ENC_FID            ,For Source ID 10 from Port A. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 19. " PRTA_SRC9_CURR_ENC_FID             ,For Source ID 9 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 18. "         PRTA_SRC9_PREV_ENC_FID             ,For Source ID 9 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 17. "     PRTA_SRC8_CURR_ENC_FID             ,For Source ID 8 from Port A. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 16. " PRTA_SRC8_PREV_ENC_FID             ,For Source ID 8 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 15. "         PRTA_SRC7_CURR_ENC_FID             ,For Source ID 7 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 14. "     PRTA_SRC7_PREV_ENC_FID             ,For Source ID 7 from Port A. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 13. " PRTA_SRC6_CURR_ENC_FID             ,For Source ID 6 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 12. "         PRTA_SRC6_PREV_ENC_FID             ,For Source ID 6 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 11. "     PRTA_SRC5_CURR_ENC_FID             ,For Source ID 5 from Port A. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PRTA_SRC5_PREV_ENC_FID             ,For Source ID 5 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 9. "         PRTA_SRC4_CURR_ENC_FID             ,For Source ID 4 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 8. "     PRTA_SRC4_PREV_ENC_FID             ,For Source ID 4 from Port A. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PRTA_SRC3_CURR_ENC_FID             ,For Source ID 3 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 6. "         PRTA_SRC3_PREV_ENC_FID             ,For Source ID 3 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 5. "     PRTA_SRC2_CURR_ENC_FID             ,For Source ID 2 from Port A. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 4. " PRTA_SRC2_PREV_ENC_FID             ,For Source ID 2 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 3. "         PRTA_SRC1_CURR_ENC_FID             ,For Source ID 1 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 2. "     PRTA_SRC1_PREV_ENC_FID             ,For Source ID 1 from Port A. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTA_SRC0_CURR_ENC_FID             ,For Source ID 0 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 0. "         PRTA_SRC0_PREV_ENC_FID             ,For Source ID 0 from Port A. Encoder Field ID for Previous Field" "0,1"
rgroup.long 0x28++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC_FID,Current and Previous Output Port B Source FID values"
bitfld.long 0x00 31. " PRTB_SRC15_CURR_SOURCE_FID         ,For Source ID 15 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 30. "         PRTB_SRC15_PREV_SOURCE_FID         ,For Source ID 15 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 29. "     PRTB_SRC14_CURR_SOURCE_FID         ,For Source ID 14 from Port B. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 28. " PRTB_SRC14_PREV_SOURCE_FID         ,For Source ID 14 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 27. "         PRTB_SRC13_CURR_SOURCE_FID         ,For Source ID 13 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 26. "     PRTB_SRC13_PREV_SOURCE_FID         ,For Source ID 13 from Port B. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 25. " PRTB_SRC12_CURR_SOURCE_FID         ,For Source ID 12 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 24. "         PRTB_SRC12_PREV_SOURCE_FID         ,For Source ID 12 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 23. "     PRTB_SRC11_CURR_SOURCE_FID         ,For Source ID 11 from Port B. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 22. " PRTB_SRC11_PREV_SOURCE_FID         ,For Source ID 11. from Port B Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 21. "         PRTB_SRC10_CURR_SOURCE_FID         ,For Source ID 10 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 20. "     PRTB_SRC10_PREV_SOURCE_FID         ,For Source ID 10 from Port B. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 19. " PRTB_SRC9_CURR_SOURCE_FID          ,For Source ID 9 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 18. "         PRTB_SRC9_PREV_SOURCE_FID          ,For Source ID 9 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 17. "     PRTB_SRC8_CURR_SOURCE_FID          ,For Source ID 8 from Port B. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 16. " PRTB_SRC8_PREV_SOURCE_FID          ,For Source ID 8 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 15. "         PRTB_SRC7_CURR_SOURCE_FID          ,For Source ID 7 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 14. "     PRTB_SRC7_PREV_SOURCE_FID          ,For Source ID 7 from Port B. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 13. " PRTB_SRC6_CURR_SOURCE_FID          ,For Source ID 6 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 12. "         PRTB_SRC6_PREV_SOURCE_FID          ,For Source ID 6 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 11. "     PRTB_SRC5_CURR_SOURCE_FID          ,For Source ID 5 from Port B. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PRTB_SRC5_PREV_SOURCE_FID          ,For Source ID 5 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 9. "         PRTB_SRC4_CURR_SOURCE_FID          ,For Source ID 4 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 8. "     PRTB_SRC4_PREV_SOURCE_FID          ,For Source ID 4 from Port B. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PRTB_SRC3_CURR_SOURCE_FID          ,For Source ID 3 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 6. "         PRTB_SRC3_PREV_SOURCE_FID          ,For Source ID 3 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 5. "     PRTB_SRC2_CURR_SOURCE_FID          ,For Source ID 2 from Port B. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 4. " PRTB_SRC2_PREV_SOURCE_FID          ,For Source ID 2 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 3. "         PRTB_SRC1_CURR_SOURCE_FID          ,For Source ID 1 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 2. "     PRTB_SRC1_PREV_SOURCE_FID          ,For Source ID 1 from Port B. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTB_SRC0_CURR_SOURCE_FID          ,For Source ID 0 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 0. "         PRTB_SRC0_PREV_SOURCE_FID          ,For Source ID 0 from Port B. Source Field ID for Previous Field" "0,1"
rgroup.long 0x2C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_ENC_FID,Current and Previous Output Port B Encoder FID values"
bitfld.long 0x00 31. " PRTB_SRC15_CURR_ENC_FID            ,For Source ID 15 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 30. "         PRTB_SRC15_PREV_ENC_FID            ,For Source ID 15 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 29. "     PRTB_SRC14_CURR_ENC_FID            ,For Source ID 14 from Port B. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 28. " PRTB_SRC14_PREV_ENC_FID            ,For Source ID 14 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 27. "         PRTB_SRC13_CURR_ENC_FID            ,For Source ID 13 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 26. "     PRTB_SRC13_PREV_ENC_FID            ,For Source ID 13 from Port B. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 25. " PRTB_SRC12_CURR_ENC_FID            ,For Source ID 12 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 24. "         PRTB_SRC12_PREV_ENC_FID            ,For Source ID 12 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 23. "     PRTB_SRC11_CURR_ENC_FID            ,For Source ID 11 from Port B. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 22. " PRTB_SRC11_PREV_ENC_FID            ,For Source ID 11 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 21. "         PRTB_SRC10_CURR_ENC_FID            ,For Source ID 10 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 20. "     PRTB_SRC10_PREV_ENC_FID            ,For Source ID 10 from Port B. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 19. " PRTB_SRC9_CURR_ENC_FID             ,For Source ID 9 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 18. "         PRTB_SRC9_PREV_ENC_FID             ,For Source ID 9 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 17. "     PRTB_SRC8_CURR_ENC_FID             ,For Source ID 8 from Port B. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 16. " PRTB_SRC8_PREV_ENC_FID             ,For Source ID 8 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 15. "         PRTB_SRC7_CURR_ENC_FID             ,For Source ID 7 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 14. "     PRTB_SRC7_PREV_ENC_FID             ,For Source ID 7 from Port B. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 13. " PRTB_SRC6_CURR_ENC_FID             ,For Source ID 6 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 12. "         PRTB_SRC6_PREV_ENC_FID             ,For Source ID 6 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 11. "     PRTB_SRC5_CURR_ENC_FID             ,For Source ID 5 from Port B. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PRTB_SRC5_PREV_ENC_FID             ,For Source ID 5 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 9. "         PRTB_SRC4_CURR_ENC_FID             ,For Source ID 4 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 8. "     PRTB_SRC4_PREV_ENC_FID             ,For Source ID 4 from Port B. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PRTB_SRC3_CURR_ENC_FID             ,For Source ID 3 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 6. "         PRTB_SRC3_PREV_ENC_FID             ,For Source ID 3 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 5. "     PRTB_SRC2_CURR_ENC_FID             ,For Source ID 2 from Port B. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 4. " PRTB_SRC2_PREV_ENC_FID             ,For Source ID 2 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 3. "         PRTB_SRC1_CURR_ENC_FID             ,For Source ID 1 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 2. "     PRTB_SRC1_PREV_ENC_FID             ,For Source ID 1 from Port B. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTB_SRC0_CURR_ENC_FID             ,For Source ID 0 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 0. "         PRTB_SRC0_PREV_ENC_FID             ,For Source ID 0 from Port B. Encoder Field ID for Previous Field" "0,1"
rgroup.long 0x30++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC0_SIZE,Width and Height for Source 0"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC0_WIDTH                    ,On Port A. Width of Source ID 0"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC0_HEIGHT                   ,On Port A. Height of Source ID 0"
rgroup.long 0x34++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC1_SIZE,Width and Height for Source 1"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC1_WIDTH                    ,On Port A. Width of Source ID 1"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC1_HEIGHT                   ,On Port A. Height of Source ID 1"
rgroup.long 0x38++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC2_SIZE,Width and Height for Source 2"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC2_WIDTH                    ,On Port A. Width of Source ID 2"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC2_HEIGHT                   ,On Port A. Height of Source ID 2"
rgroup.long 0x3C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC3_SIZE,Width and Height for Source 3"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC3_WIDTH                    ,On Port A. Width of Source ID 3"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC3_HEIGHT                   ,On Port A. Height of Source ID 3"
rgroup.long 0x40++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC4_SIZE,Width and Height for Source 4"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC4_WIDTH                    ,On Port A. Width of Source ID 4"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC4_HEIGHT                   ,On Port A. Height of Source ID 4"
rgroup.long 0x44++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC5_SIZE,Width and Height for Source 5"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC5_WIDTH                    ,On Port A. Width of Source ID 5"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC5_HEIGHT                   ,On Port A. Height of Source ID 5"
rgroup.long 0x48++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC6_SIZE,Width and Height for Source 6"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC6_WIDTH                    ,On Port A. Width of Source ID 6"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC6_HEIGHT                   ,On Port A. Height of Source ID 6"
rgroup.long 0x4C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC7_SIZE,Width and Height for Source 7"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC7_WIDTH                    ,On Port A. Width of Source ID 7"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC7_HEIGHT                   ,On Port A. Height of Source ID 7"
rgroup.long 0x50++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC8_SIZE,Width and Height for Source 8"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC8_WIDTH                    ,On Port A. Width of Source ID 8"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC8_HEIGHT                   ,On Port A. Height of Source ID 8"
rgroup.long 0x54++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC9_SIZE,Width and Height for Source 9"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC9_WIDTH                    ,On Port A. Width of Source ID 9"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC9_HEIGHT                   ,On Port A. Height of Source ID 9"
rgroup.long 0x58++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC10_SIZE,Width and Height for Source 10"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC10_WIDTH                   ,On Port A. Width of Source ID 10"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC10_HEIGHT                  ,On Port A. Height of Source ID 10"
rgroup.long 0x5C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC11_SIZE,Width and Height for Source 11"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC11_WIDTH                   ,On Port A. Width of Source ID 11"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC11_HEIGHT                  ,On Port A. Height of Source ID 11"
rgroup.long 0x60++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC12_SIZE,Width and Height for Source 12"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC12_WIDTH                   ,On Port A. Width of Source ID 12"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC12_HEIGHT                  ,On Port A. Height of Source ID 12"
rgroup.long 0x64++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC13_SIZE,Width and Height for Source 13"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC13_WIDTH                   ,On Port A. Width of Source ID 13"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC13_HEIGHT                  ,On Port A. Height of Source ID 13"
rgroup.long 0x68++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC14_SIZE,Width and Height for Source 14"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC14_WIDTH                   ,On Port A. Width of Source ID 14"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC14_HEIGHT                  ,On Port A. Height of Source ID 14"
rgroup.long 0x6C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC15_SIZE,Width and Height for Source 15"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC15_WIDTH                   ,On Port A. Width of Source ID 15"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC15_HEIGHT                  ,On Port A. Height of Source ID 15"
rgroup.long 0x70++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC0_SIZE,Width and Height for Source 0"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC0_WIDTH                    ,On Port B. Width of Source ID 0"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC0_HEIGHT                   ,On Port B. Height of Source ID 0"
rgroup.long 0x74++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC1_SIZE,Width and Height for Source 1"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC1_WIDTH                    ,On Port B. Width of Source ID 1"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC1_HEIGHT                   ,On Port B. Height of Source ID 1"
rgroup.long 0x78++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC2_SIZE,Width and Height for Source 2"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC2_WIDTH                    ,On Port B. Width of Source ID 2"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC2_HEIGHT                   ,On Port B. Height of Source ID 2"
rgroup.long 0x7C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC3_SIZE,Width and Height for Source 3"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC3_WIDTH                    ,On Port B. Width of Source ID 3"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC3_HEIGHT                   ,On Port B. Height of Source ID 3"
rgroup.long 0x80++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC4_SIZE,Width and Height for Source 4"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC4_WIDTH                    ,On Port B. Width of Source ID 4"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC4_HEIGHT                   ,On Port B. Height of Source ID 4"
rgroup.long 0x84++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC5_SIZE,Width and Height for Source 5"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC5_WIDTH                    ,On Port B. Width of Source ID 5"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC5_HEIGHT                   ,On Port B. Height of Source ID 5"
rgroup.long 0x88++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC6_SIZE,Width and Height for Source 6"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC6_WIDTH                    ,On Port B. Width of Source ID 6"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC6_HEIGHT                   ,On Port B. Height of Source ID 6"
rgroup.long 0x8C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC7_SIZE,Width and Height for Source 7"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC7_WIDTH                    ,On Port B. Width of Source ID 7"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC7_HEIGHT                   ,On Port B. Height of Source ID 7"
rgroup.long 0x90++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC8_SIZE,Width and Height for Source 8"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC8_WIDTH                    ,On Port B. Width of Source ID 8"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC8_HEIGHT                   ,On Port B. Height of Source ID 8"
rgroup.long 0x94++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC9_SIZE,Width and Height for Source 9"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC9_WIDTH                    ,On Port B. Width of Source ID 9"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC9_HEIGHT                   ,On Port B. Height of Source ID 9"
rgroup.long 0x98++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC10_SIZE,Width and Height for Source 10"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC10_WIDTH                   ,On Port B. Width of Source ID 10"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC10_HEIGHT                  ,On Port B. Height of Source ID 10"
rgroup.long 0x9C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC11_SIZE,Width and Height for Source 11"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC11_WIDTH                   ,On Port B. Width of Source ID 11"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC11_HEIGHT                  ,On Port B. Height of Source ID 11"
rgroup.long 0xA0++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC12_SIZE,Width and Height for Source 12"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC12_WIDTH                   ,On Port B. Width of Source ID 12"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC12_HEIGHT                  ,On Port B. Height of Source ID 12"
rgroup.long 0xA4++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC13_SIZE,Width and Height for Source 13"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC13_WIDTH                   ,On Port B. Width of Source ID 13"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC13_HEIGHT                  ,On Port B. Height of Source ID 13"
rgroup.long 0xA8++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC14_SIZE,Width and Height for Source 14"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC14_WIDTH                   ,On Port B. Width of Source ID 14"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC14_HEIGHT                  ,On Port B. Height of Source ID 14"
rgroup.long 0xAC++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC15_SIZE,Width and Height for Source 15"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC15_WIDTH                   ,On Port B. Width of Source ID 15"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC15_HEIGHT                  ,On Port B. Height of Source ID 15"
rgroup.long 0xB0++0x3
line.long 0x00 "VIP_PORT_A_VDET_VEC,Each bit represents the VDET bit setting for Line Mux Mode"
hexmask.long 0x00 0.--31. 1. " PRTA_VDET_VEC                      ,For Embedded Sync Only In Line Mux Mode. each bit represents the vdet value on Port A for the corresponding source id. This vector is meaningless for 1x/2x/4x mux modes."
rgroup.long 0xB4++0x3
line.long 0x00 "VIP_PORT_B_VDET_VEC,Each bit represents the VDET bit setting for Line Mux Mode"
hexmask.long 0x00 0.--31. 1. " PRTB_VDET_VEC                      ,For Embedded Sync Only In Line Mux Mode. each bit represents the vdet value on Port B for the corresponding source id. This vector is meaningless for 1x/2x/4x mux modes."
group.long 0xB8++0x3
line.long 0x00 "VIP_ANC_CROP_HORZ_PORT_A,Ancillary Cropping Configuration for Input Port A"
bitfld.long 0x00 28.--31. " ANC_TARGET_SRCNUM                  ,The cropping module can work on only one srcnum. specified in this field. for each dss_vip_parser output port (Ancillary data)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 16.--27. 1. "        ANC_USE_NUMPIX                     ,When cropping, the number of pixels to keep after the skip_numpix value. skip_numpix + use_numpix must be smaller than the original line width."
bitfld.long 0x00 15. "  ANC_BYPASS_N                       ,0 = Bypass cropping module 1 = Cropping module enabled" "0,1"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " ANC_SKIP_NUMPIX                    ,The number of pixels to crop from the beginning of each line."
group.long 0xBC++0x3
line.long 0x00 "VIP_ANC_CROP_VERT_PORT_A,Ancillary Cropping Configuration for Input Port A"
hexmask.long.word 0x00 16.--27. 1. " ANC_USE_NUMLINES                   ,When cropping, the number of lines to keep after the skip_numlines value. Use_numlines + skip_numlines must be smaller than the total number of lines in the srcnum's ancillary data region."
hexmask.long.word 0x00 0.--11. 1. "      ANC_SKIP_NUMLINES                  ,The number of lines to crop from the top of the vertical ancillary data region."
group.long 0xC0++0x3
line.long 0x00 "VIP_CROP_HORZ_PORT_A,Active Video Cropping Configuration for Input Port A"
bitfld.long 0x00 28.--31. " ACT_TARGET_SRCNUM                  ,The cropping module can work on only one srcnum. specified in this field. for each dss_vip_parser output port (Active video)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 16.--27. 1. "        ACT_USE_NUMPIX                     ,When cropping, the number of pixels to keep after the skip_numpix value. skip_numpix + use_numpix must be smaller than the original line width."
bitfld.long 0x00 15. "  ACT_BYPASS_N                       ,0 = Bypass cropping module 1 = Cropping module enabled" "0,1"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " ACT_SKIP_NUMPIX                    ,The number of pixels to crop from the beginning of each line."
group.long 0xC4++0x3
line.long 0x00 "VIP_CROP_VERT_PORT_A,Active Video Cropping Configuration for Input Port A"
hexmask.long.word 0x00 16.--27. 1. " ACT_USE_NUMLINES                   ,When cropping.. the number of lines to keep after the skip_numlines value. Use_numlines + skip_numlines must be smaller than the total number of lines in the srcnum's active video region."
hexmask.long.word 0x00 0.--11. 1. "      ACT_SKIP_NUMLINES                  ,The number of lines to crop from the top of the vertical active video region."
group.long 0xC8++0x3
line.long 0x00 "VIP_ANC_VIP_CROP_HORZ_PORT_B,Ancillary Cropping Configuration for Input Port B"
bitfld.long 0x00 28.--31. " ANC_TARGET_SRCNUM                  ,The cropping module can work on only one srcnum. specified in this field. for each dss_vip_parser output port (Ancillary data)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 16.--27. 1. "        ANC_USE_NUMPIX                     ,When cropping, the number of pixels to keep after the skip_numpix value. skip_numpix + use_numpix must be smaller than the original line width."
bitfld.long 0x00 15. "  ANC_BYPASS_N                       ,0 = Bypass cropping module 1 = Cropping module enabled" "0,1"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " ANC_SKIP_NUMPIX                    ,The number of pixels to crop from the beginning of each line."
group.long 0xCC++0x3
line.long 0x00 "VIP_ANC_VIP_CROP_VERT_PORT_B,Ancillary Cropping Configuration for Input Port B"
hexmask.long.word 0x00 16.--27. 1. " ANC_USE_NUMLINES                   ,When cropping, the number of lines to keep after the skip_numlines value. Use_numlines + skip_numlines must be smaller than the total number of lines in the srcnums active video region."
hexmask.long.word 0x00 0.--11. 1. "      ANC_SKIP_NUMLINES                  ,The number of lines to crop from the top of the vertical ancillary data region."
group.long 0xD0++0x3
line.long 0x00 "VIP_CROP_HORZ_PORT_B,Active Video Cropping Configuration for Input Port B"
bitfld.long 0x00 28.--31. " ACT_TARGET_SRCNUM                  ,The cropping module can work on only one srcnum. specified in this field. for each dss_vip_parser output port (Active video)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 16.--27. 1. "        ACT_USE_NUMPIX                     ,When cropping, the number of pixels to keep after the skip_numpix value. skip_numpix + use_numpix must be smaller than the original line width."
bitfld.long 0x00 15. "  ACT_BYPASS_N                       ,0 = Bypass cropping module 1 = Cropping module enabled" "0,1"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " ACT_SKIP_NUMPIX                    ,The number of pixels to crop from the beginning of each line."
group.long 0xD4++0x3
line.long 0x00 "VIP_CROP_VERT_PORT_B,Active Video Cropping Configuration for Input Port B"
hexmask.long.word 0x00 16.--27. 1. " ACT_USE_NUMLINES                   ,When cropping, the number of lines to keep after the skip_numlines value. Use_numlines + skip_numlines must be smaller than the total number of lines in the srcnum's active video region."
hexmask.long.word 0x00 0.--11. 1. "      ACT_SKIP_NUMLINES                  ,The number of lines to crop from the top of the vertical active video region."
group.long 0xD8++0x3
line.long 0x00 "VIP_XTRA6_PORT_A,Cfg Disable Active Srcnum Vector Input for Port A"
hexmask.long.word 0x00 16.--31. 1. " YUV_SRCNUM_STOP_IMMEDIATELY        ,For the Active Video Port to the VPDMA, logic exists to ensure that a complete frame is sent out to the VPDMA following cfg_enable transitioning inactive for that port. Each bit in this vector represents a srcnum (r..."
hexmask.long.word 0x00 0.--15. 1. "      ANC_SRCNUM_STOP_IMMEDIATELY        ,For the Ancillary Data Port to the VPDMA, logic exists to ensure that a complete frame is sent out to the VPDMA following cfg_enable transitioning inactive for that port. Each bit in this vector represents a sr..."
group.long 0xDC++0x3
line.long 0x00 "VIP_XTRA7_PORT_B,Cfg Disable Active Srcnum Vector Input for Port B"
hexmask.long.word 0x00 16.--31. 1. " YUV_SRCNUM_STOP_IMMEDIATELY        ,For the Active Video Port to the VPDMA, logic exists to ensure that a complete frame is sent out to the VPDMA following cfg_enable transitioning inactive for that port. Each bit in this vector represents a srcnum (r..."
hexmask.long.word 0x00 0.--15. 1. "      ANC_SRCNUM_STOP_IMMEDIATELY        ,For the Ancillary Data Port to the VPDMA, logic exists to ensure that a complete frame is sent out to the VPDMA following cfg_enable transitioning inactive for that port. Each bit in this vector represents a sr..."
group.long 0xE0++0x3
line.long 0x00 "VIP_XTRA8_PORT_A,Reserved Register for Port A"
group.long 0xE4++0x3
line.long 0x00 "VIP_XTRA9_PORT_B,Reserved Register for Port B"
width 0x0B
tree.end
tree "VIP2_Slice0_parser"
base ad:0x48995500
width 30.
group.long 0x0++0x3
line.long 0x00 "VIP_MAIN,ain Configuration for VIP Parser"
bitfld.long 0x00 5. " CLIP_ACTIVE                        ,Discrete Sync Only 0 = Do not clip active pixels 1 = Clip Active Pixels as follows: 0xFF -andgt; 0xFE.. 0x00 -andgt; 0x01" "0,1"
bitfld.long 0x00 4. "         CLIP_BLNK                          ,Discrete Sync Only 0 = Do not clip Blanking Data 1 = Clip Blanking Data as follows: 0xFF -andgt; 0xFE.. 0x00 -andgt; 0x01" "0,1"
bitfld.long 0x00 0.--1. "     DATA_INTERFACE_MODE                ,00 = 24b data interface. Uses Port A settings 01 = 16b data interface. Uses Port A settings. 10 = Dual independent 8b data interfaces. Uses independent Port A and Port B settings. 11 = Undefined" "0,1,2,3"
group.long 0x4++0x3
line.long 0x00 "VIP_PORT_A,Configuration for Input Port A"
bitfld.long 0x00 31. " ANALYZER_FVH_ERR_CORRECTION_ENABLE ,Embedded Sync Only 0 = Ignore the protection bits in the XV (fvh) codeword header. This setting is typically desired. 1 = Use the protection bits in an attempt to do error correction for the fvh control bits." "0,1"
bitfld.long 0x00 30. "         ANALYZER_2X4X_SRCNUM_POS           ,Embedded Sync Only 0 = For 2x/4x mux mode, srcnum is in the least significant nibble of the XV/fvh codeword (srcnum replaces the protection bits) 1 = For 2x/4x mux mode, srcnum is in the least significant ni..." "0,1"
bitfld.long 0x00 24.--29. "     FID_SKEW_POSTCOUNT                 ,Discrete Sync Only post count value when using vsync skew in FID determination" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                       "
bitfld.long 0x00 23. " SW_RESET                           ,0 = Normal 1 = Reset Port A logic. Must be set to ?0? again by the software for the module to function." "0,1"
bitfld.long 0x00 22. "         DISCRETE_BASIC_MODE                ,This register is valid for Discrete Sync mode only. 0 = Normal Discrete Mode. Hsync Style Capture operates as follows: - Captures line starting from HSYNC inactive to active condition. - VSYNC determined by ..." "0,1"
bitfld.long 0x00 16.--21. "     FID_SKEW_PRECOUNT                  ,Discrete Sync Only pre count value when using vsync skew in FID determination" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                       "
bitfld.long 0x00 15. " USE_ACTVID_HSYNC_N                 ,Discrete Sync Only 0 = Use HSYNC style line capture 1 = Use ACTVID style line capture" "0,1"
bitfld.long 0x00 14. "         FID_DETECT_MODE                    ,Discrete Sync Only 0 = Take FID from pin 1 = FID is determined by VSYNC skew" "0,1"
bitfld.long 0x00 13. "     ACTVID_POLARITY                    ,Discrete Sync Only 0 = ACTVID is active low 1 = ACTVID is active high" "0,1"
textline "                                       "
bitfld.long 0x00 12. " VSYNC_POLARITY                     ,Discrete Sync Only 0 = VSYNC is active low 1 = VSYNC is active high" "0,1"
bitfld.long 0x00 11. "         HSYNC_POLARITY                     ,Discrete Sync Only 0 = HSYNC is active low 1 = HSYNC is active high" "0,1"
bitfld.long 0x00 10. "     PIXCLK_EDGE_POLARITY               ,0 = Rising Edge is active PIXCLK edge 1 = Falling Edge is active PIXCLK edge" "0,1"
textline "                                       "
bitfld.long 0x00 9. " FID_POLARITY                       ,0 = Keep FID as found 1 = Invert Determined Value of FID" "0,1"
bitfld.long 0x00 8. "         ENABLE                             ,0 = Disable Port 1 = Enable Port" "0,1"
bitfld.long 0x00 7. "     CLR_ASYNC_FIFO_RD                  ,0 = Normal 1 = Clear Async FIFO Read Logic" "0,1"
textline "                                       "
bitfld.long 0x00 6. " CLR_ASYNC_FIFO_WR                  ,0 = Normal 1 = Clear Async FIFO Write Logic" "0,1"
bitfld.long 0x00 4.--5. "         CTRL_CHAN_SEL                      ,Embedded Sync Only In 8b mode.. there is only one channel on data[7:0]. In 16b mode.. there are two channels. The Luma Channel is on data[15:8]. The Chroma Channel is on data[7:0]. In 24b mode.. there are th..." "0,1,2,3"
bitfld.long 0x00 0.--3. "     SYNC_TYPE                          ,0000 = embedded sync single 4:2:2 YUV stream 0001 = embedded sync 2x multiplexed 4:2:2 YUV stream 0010 = embedded sync 4x multiplexed 4:2:2 YUV stream 0011 = embedded sync line multiplexed 4:2:2 YUV stream 0100 ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x8++0x3
line.long 0x00 "VIP_XTRA_PORT_A,ore Configuration for Input Port A"
bitfld.long 0x00 28.--30. " REPACK_SEL                         ,000 = Straight Through 001 = Cross Swap 010 = Left Center Swap 011 = Center Right Swap 100 = Right Rotate 101 = Left Rotate 110 = RAW16 to RGB565 Mapping 111 = RAW12 Swap" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--27. 1. "         SRC0_NUMPIX                        ,Number of expected pixels on Source Number 0. The Port_a_src0_size interrupt will trigger if a line is encountered that differs from this pixelcount."
bitfld.long 0x00 13.--14. "  ANC_CHAN_SEL_8B                    ,In 8b mode, Vertically Ancillary Data typically resides in the Luma sites. This bit allows vertical ancillary data to be extracted from the chroma sites instead . 00 = Extract 8b Mode Vertical Ancillary Data from L..." "0,1,2,3"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " SRC0_NUMLINES                      ,Number of expected lines on Source Number 0. The Port_a_src0_size interrupt will trigger if a field/frame is encountered that differs from this linecount."
group.long 0xC++0x3
line.long 0x00 "VIP_PORT_B,Configuration for Input Port B"
bitfld.long 0x00 31. " ANALYZER_FVH_ERR_CORRECTION_ENABLE ,Embedded Sync Only 0 = Ignore the protection bits in the XV (fvh) codeword header. This setting is typically desired. 1 = Use the protection bits in an attempt to do error correction for the fvh control bits." "0,1"
bitfld.long 0x00 30. "         ANALYZER_2X4X_SRCNUM_POS           ,Embedded Sync Only 0 = For 2x/4x mux mode, srcnum is in the least significant nibble of the XV/fvh codeword (srcnum replaces the protection bits) 1 = For 2x/4x mux mode, srcnum is in the least significant ni..." "0,1"
bitfld.long 0x00 24.--29. "     FID_SKEW_POSTCOUNT                 ,Discrete Sync Only post count value when using vsync skew in FID determination" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                       "
bitfld.long 0x00 23. " SW_RESET                           ,0 = Normal 1 = Reset Port B logic. Must be set to ?0? again by the software for the module to function." "0,1"
bitfld.long 0x00 22. "         DISCRETE_BASIC_MODE                ,This register is valid for Discrete Sync mode only. 0 = Normal Discrete Mode. Hsync Style Capture operates as follows: - Captures line starting from HSYNC inactive to active condition. - VSYNC determined by ..." "0,1"
bitfld.long 0x00 16.--21. "     FID_SKEW_PRECOUNT                  ,Discrete Sync Only pre count value when using vsync skew in FID determination" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                       "
bitfld.long 0x00 15. " USE_ACTVID_HSYNC_N                 ,Discrete Sync Only 0 = Use HSYNC style line capture 1 = Use ACTVID style line capture" "0,1"
bitfld.long 0x00 14. "         FID_DETECT_MODE                    ,Discrete Sync Only 0 = Take FID from pin 1 = FID is determined by VSYNC skew" "0,1"
bitfld.long 0x00 13. "     ACTVID_POLARITY                    ,Discrete Sync Only 0 = ACTVID is active low 1 = ACTVID is active high" "0,1"
textline "                                       "
bitfld.long 0x00 12. " VSYNC_POLARITY                     ,Discrete Sync Only 0 = VSYNC is active low 1 = VSYNC is active high" "0,1"
bitfld.long 0x00 11. "         HSYNC_POLARITY                     ,Discrete Sync Only 0 = HSYNC is active low 1 = HSYNC is active high" "0,1"
bitfld.long 0x00 10. "     PIXCLK_EDGE_POLARITY               ,0 = Rising Edge is active PIXCLK edge 1 = Falling Edge is active PIXCLK edge" "0,1"
textline "                                       "
bitfld.long 0x00 9. " FID_POLARITY                       ,0 = Keep FID as found 1 = Invert Determined Value of FID" "0,1"
bitfld.long 0x00 8. "         ENABLE                             ,0 = Disable 1 = Enable" "0,1"
bitfld.long 0x00 7. "     CLR_ASYNC_FIFO_RD                  ,0 = Normal 1 = Clear Async FIFO Read Logic" "0,1"
textline "                                       "
bitfld.long 0x00 6. " CLR_ASYNC_FIFO_WR                  ,0 = Normal 1 = Clear Async FIFO Write Logic" "0,1"
bitfld.long 0x00 4.--5. "         CTRL_CHAN_SEL                      ,PORT B supports on 8b mode. Always write 0 to this field. The anc_chan_sel_8b register is used to select the Luma or Chroma channel from which Ancillary Data is taken." "0,1,2,3"
bitfld.long 0x00 0.--3. "     SYNC_TYPE                          ,0000 = embedded sync single YUV stream 0001 = embedded sync 2x multiplexed YUV stream 0010 = embedded sync 4x multiplexed YUV stream 0011 = embedded sync line multiplexed YUV stream 0100 = discrete sync single Y..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10++0x3
line.long 0x00 "VIP_XTRA_PORT_B,ore Configuration for Input Port B"
hexmask.long.word 0x00 16.--27. 1. " SRC0_NUMPIX                        ,Number of expected pixels on Source Number 0. The Port_b_src0_size interrupt will trigger if a line is encountered that differs from this pixelcount."
bitfld.long 0x00 13.--14. "      ANC_CHAN_SEL_8B                    ,In 8b mode, Vertically Ancillary Data typically resides in the Luma sites. This bit allows vertical ancillary data to be extracted from the chroma sites instead . 00 = Extract 8b Mode Vertical Ancillary Data fr..." "0,1,2,3"
hexmask.long.word 0x00 0.--11. 1. "     SRC0_NUMLINES                      ,Number of expected lines on Source Number 0. The Port_b_src0_size interrupt will trigger if a field/frame is encountered that differs from this linecount."
group.long 0x14++0x3
line.long 0x00 "VIP_FIQ_MASK,ask Bits for ARM FIQs"
bitfld.long 0x00 21. " PORT_B_CFG_DISABLE_COMPLETE_MASK   ,Port B Cfg Disable Complete Mask" "0,1"
bitfld.long 0x00 20. "         PORT_A_CFG_DISABLE_COMPLETE_MASK   ,Port A Cfg Disable Complete Mask" "0,1"
bitfld.long 0x00 19. "     PORT_B_ANC_PROTOCOL_VIOLATION_MASK ,Port B ANC VPI Protocol Violation Mask" "0,1"
textline "                                       "
bitfld.long 0x00 18. " PORT_B_YUV_PROTOCOL_VIOLATION_MASK ,Port B YUV VPI Protocol Violation Mask" "0,1"
bitfld.long 0x00 17. "         PORT_A_ANC_PROTOCOL_VIOLATION_MASK ,Port A ANC VPI Protocol Violation Mask" "0,1"
bitfld.long 0x00 16. "     PORT_A_YUV_PROTOCOL_VIOLATION_MASK ,Port A YUV VPI Protocol Violation Mask" "0,1"
textline "                                       "
bitfld.long 0x00 15. " PORT_B_SRC0_SIZE                   ,Video size detected on Port B does not match size programmed in xtra_port_b register" "0,1"
bitfld.long 0x00 14. "         PORT_A_SRC0_SIZE                   ,Video size detected on Port A does not match size programmed in xtra_port_a register" "0,1"
bitfld.long 0x00 13. "     PORT_B_DISCONN                     ,Port B Link Disconnect Srcnum 0 Mask" "0,1"
textline "                                       "
bitfld.long 0x00 12. " PORT_B_CONN                        ,Port B Link Connect Srcnum 0 Mask" "0,1"
bitfld.long 0x00 11. "         PORT_A_DISCONN                     ,Port A Link Disconnect Scrnum 0 Mask" "0,1"
bitfld.long 0x00 10. "     PORT_A_CONN                        ,Port A Link Connect Srcnum 0 Mask" "0,1"
textline "                                       "
bitfld.long 0x00 9. " OUTPUT_FIFO_PRTB_ANC_OF            ,Output FIFO Port B Ancillary Overflow Mask" "0,1"
bitfld.long 0x00 7. "         OUTPUT_FIFO_PRTB_YUV_OF            ,Output FIFO Port B Luma Overflow Mask" "0,1"
bitfld.long 0x00 6. "     OUTPUT_FIFO_PRTA_ANC_OF            ,Output FIFO Port A Ancillary Overflow Mask" "0,1"
textline "                                       "
bitfld.long 0x00 4. " OUTPUT_FIFO_PRTA_YUV_OF            ,Output FIFO Port A Luma Overflow Mask" "0,1"
bitfld.long 0x00 3. "         ASYNC_FIFO_PRTB_OF                 ,Port B Async FIFO Overflow FIQ Mask" "0,1"
bitfld.long 0x00 2. "     ASYNC_FIFO_PRTA_OF                 ,Port A Async FIFO Overflow FIQ Mask" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTB_VDET_MASK                     ,Port B Video Detect FIQ Mask" "0,1"
bitfld.long 0x00 0. "         PRTA_VDET_MASK                     ,Port A Video Detect FIQ Mask" "0,1"
group.long 0x18++0x3
line.long 0x00 "VIP_FIQ_CLEAR,Clears bits in the FIQ Status"
bitfld.long 0x00 21. " PORT_A_YUV_PROTOCOL_VIOLATION_CLR  ,Write 1 followed by 0 to Clear Port B Cfg Disable Complete FIQ" "0,1"
bitfld.long 0x00 20. "         PORT_A_ANC_PROTOCOL_VIOLATION_CLR  ,Write 1 followed by 0 to Clear Port A Cfg Disable Complete FIQ" "0,1"
bitfld.long 0x00 19. "     PORT_B_YUV_PROTOCOL_VIOLATION_CLR  ,Write 1 followed by 0 to Clear Port B ANC VPI Protocol Violation FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 18. " PORT_B_ANC_PROTOCOL_VIOLATION_CLR  ,Write 1 followed by 0 to Clear Port B YUV VPI Protocol Violation FIQ" "0,1"
bitfld.long 0x00 17. "         PORT_A_CFG_DISABLE_COMPLETE_CLR    ,Write 1 followed by 0 to Clear Port A ANC VPI Protocol Violation FIQ" "0,1"
bitfld.long 0x00 16. "     PORT_B_CFG_DISABLE_COMPLETE_CLR    ,Write 1 followed by 0 to Clear Port A YUV VPI Protocol Violation FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 15. " PORT_B_SRC0_SIZE_CLR               ,Write 1 followed by 0 to Clear Port B Src0 Size FIQ" "0,1"
bitfld.long 0x00 14. "         PORT_A_SRC0_SIZE_CLR               ,Write 1 followed by 0 to Clear Port A Src0 Size FIQ" "0,1"
bitfld.long 0x00 13. "     PORT_B_DISCONN_CLR                 ,Write 1 followed by 0 to Clear Port B Link Disconnect FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 12. " PORT_B_CONN_CLR                    ,Write 1 followed by 0 to Clear Port B Link Connect FIQ" "0,1"
bitfld.long 0x00 11. "         PORT_A_DISCONN_CLR                 ,Write 1 followed by 0 to Clear Port A Link Disconnect FIQ" "0,1"
bitfld.long 0x00 10. "     PORT_A_CONN_CLR                    ,Write 1 followed by 0 to Clear Port A Link Connect FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 9. " OUTPUT_FIFO_PRTB_ANC_CLR           ,Write 1 followed by 0 to Clear Output FIFO Port B Ancillary Overflow FIQ" "0,1"
bitfld.long 0x00 7. "         OUTPUT_FIFO_PRTB_YUV_CLR           ,Write 1 followed by 0 to Clear Output FIFO Port B Luma Overflow FIQ" "0,1"
bitfld.long 0x00 6. "     OUTPUT_FIFO_PRTA_ANC_CLR           ,Write 1 followed by 0 to Clear Output FIFO Port A Ancillary Overflow FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 4. " OUTPUT_FIFO_PRTA_YUV_CLR           ,Write 1 followed by 0 to Clear Output FIFO Port A Luma Overflow FIQ" "0,1"
bitfld.long 0x00 3. "         ASYNC_FIFO_PRTB_CLR                ,Write 1 followed by 0 to Clear Async FIFO Port B Overflow FIQ" "0,1"
bitfld.long 0x00 2. "     ASYNC_FIFO_PRTA_CLR                ,Write 1 followed by 0 to Clear Async FIFO Port A Overflow FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTB_VDET_CLR                      ,Write 1 followed by 0 to Clear Video Detect FIQ for Port B" "0,1"
bitfld.long 0x00 0. "         PRTA_VDET_CLR                      ,Write 1 followed by 0 to Clear Video Detect FIQ for Port A" "0,1"
rgroup.long 0x1C++0x3
line.long 0x00 "VIP_FIQ_STATUS,FIQ Status values"
bitfld.long 0x00 21. " PORT_B_CFG_DISABLE_COMPLETE_CLR    ,Port B Cfg Disable Complete FIQ" "0,1"
bitfld.long 0x00 20. "         PORT_A_CFG_DISABLE_COMPLETE        ,Port A Cfg Disable Complete FIQ" "0,1"
bitfld.long 0x00 19. "     PORT_B_ANC_PROTOCOL_VIOLATION      ,Port B ANC VPI Protocol Violation FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 18. " PORT_B_YUV_PROTOCOL_VIOLATION      ,Port B YUV VPI Protocol Violation FIQ" "0,1"
bitfld.long 0x00 17. "         PORT_A_ANC_PROTOCOL_VIOLATION      ,Port A ANC VPI Protocol Violation FIQ" "0,1"
bitfld.long 0x00 16. "     PORT_A_YUV_PROTOCOL_VIOLATION      ,Port A YUV VPI Protocol Violation FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 15. " PORT_B_SRC0_SIZE_STATUS            ,Port B Source 0 Size FIQ" "0,1"
bitfld.long 0x00 14. "         PORT_A_SRC0_SIZE_STATUS            ,Port A Source 0 Size FIQ" "0,1"
bitfld.long 0x00 13. "     PORT_B_DISCONN_STATUS              ,Port B Disconnect FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 12. " PORT_B_CONN_STATUS                 ,Port B Connect FIQ" "0,1"
bitfld.long 0x00 11. "         PORT_A_DISCONN_STATUS              ,Port A Disconnect FIQ" "0,1"
bitfld.long 0x00 10. "     PORT_A_CONN_STATUS                 ,Port A Connect FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 9. " OUTPUT_FIFO_PRTB_ANC_STATUS        ,Output FIFO Port B Ancillary Overflow Status" "0,1"
bitfld.long 0x00 8. "         OUTPUT_FIFO_PRTB_CHROMA_STATUS     ,Output FIFO Port B Chroma Overflow Status" "0,1"
bitfld.long 0x00 7. "     OUTPUT_FIFO_PRTB_LUMA_STATUS       ,Output FIFO Port B Luma Overflow Status" "0,1"
textline "                                       "
bitfld.long 0x00 6. " OUTPUT_FIFO_PRTA_ANC_STATUS        ,Output FIFO Port A Ancillary Overflow Status" "0,1"
bitfld.long 0x00 5. "         OUTPUT_FIFO_PRTA_CHROMA_STATUS     ,Output FIFO Port A Chroma Overflow Status" "0,1"
bitfld.long 0x00 4. "     OUTPUT_FIFO_PRTA_LUMA_STATUS       ,Output FIFO Port A Luma Overflow Status" "0,1"
textline "                                       "
bitfld.long 0x00 3. " ASYNC_FIFO_PRTB_STATUS             ,Async FIFO Port B Overflow Status" "0,1"
bitfld.long 0x00 2. "         ASYNC_FIFO_PRTA_STATUS             ,Async FIFO Port A Overflow Status" "0,1"
bitfld.long 0x00 1. "     PRTB_VDET_STATUS                   ,VDET Status for Port B" "0,1"
textline "                                       "
bitfld.long 0x00 0. " PRTA_VDET_STATUS                   ,VDET Status for Port A" "0,1"
rgroup.long 0x20++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC_FID,Current and Previous Output Port A Source FID values"
bitfld.long 0x00 31. " PRTA_SRC15_CURR_SOURCE_FID         ,For Source ID 15 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 30. "         PRTA_SRC15_PREV_SOURCE_FID         ,For Source ID 15 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 29. "     PRTA_SRC14_CURR_SOURCE_FID         ,For Source ID 14 from Port A. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 28. " PRTA_SRC14_PREV_SOURCE_FID         ,For Source ID 14 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 27. "         PRTA_SRC13_CURR_SOURCE_FID         ,For Source ID 13 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 26. "     PRTA_SRC13_PREV_SOURCE_FID         ,For Source ID 13 from Port A. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 25. " PRTA_SRC12_CURR_SOURCE_FID         ,For Source ID 12 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 24. "         PRTA_SRC12_PREV_SOURCE_FID         ,For Source ID 12 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 23. "     PRTA_SRC11_CURR_SOURCE_FID         ,For Source ID 11 from Port A. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 22. " PRTA_SRC11_PREV_SOURCE_FID         ,For Source ID 11 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 21. "         PRTA_SRC10_CURR_SOURCE_FID         ,For Source ID 10 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 20. "     PRTA_SRC10_PREV_SOURCE_FID         ,For Source ID 10 from Port A. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 19. " PRTA_SRC9_CURR_SOURCE_FID          ,For Source ID 9 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 18. "         PRTA_SRC9_PREV_SOURCE_FID          ,For Source ID 9 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 17. "     PRTA_SRC8_CURR_SOURCE_FID          ,For Source ID 8 from Port A. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 16. " PRTA_SRC8_PREV_SOURCE_FID          ,For Source ID 8 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 15. "         PRTA_SRC7_CURR_SOURCE_FID          ,For Source ID 7 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 14. "     PRTA_SRC7_PREV_SOURCE_FID          ,For Source ID 7 from Port A. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 13. " PRTA_SRC6_CURR_SOURCE_FID          ,For Source ID 6 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 12. "         PRTA_SRC6_PREV_SOURCE_FID          ,For Source ID 6 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 11. "     PRTA_SRC5_CURR_SOURCE_FID          ,For Source ID 5 from Port A. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PRTA_SRC5_PREV_SOURCE_FID          ,For Source ID 5 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 9. "         PRTA_SRC4_CURR_SOURCE_FID          ,For Source ID 4 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 8. "     PRTA_SRC4_PREV_SOURCE_FID          ,For Source ID 4 from Port A. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PRTA_SRC3_CURR_SOURCE_FID          ,For Source ID 3 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 6. "         PRTA_SRC3_PREV_SOURCE_FID          ,For Source ID 3 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 5. "     PRTA_SRC2_CURR_SOURCE_FID          ,For Source ID 2 from Port A. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 4. " PRTA_SRC2_PREV_SOURCE_FID          ,For Source ID 2 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 3. "         PRTA_SRC1_CURR_SOURCE_FID          ,For Source ID 1 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 2. "     PRTA_SRC1_PREV_SOURCE_FID          ,For Source ID 1 from Port A. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTA_SRC0_CURR_SOURCE_FID          ,For Source ID 0 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 0. "         PRTA_SRC0_PREV_SOURCE_FID          ,For Source ID 0 from Port A. Source Field ID for Previous Field" "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_ENC_FID,Current and Previous Output Port A Encoder FID values"
bitfld.long 0x00 31. " PRTA_SRC15_CURR_ENC_FID            ,For Source ID 15 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 30. "         PRTA_SRC15_PREV_ENC_FID            ,For Source ID 15 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 29. "     PRTA_SRC14_CURR_ENC_FID            ,For Source ID 14 from Port A. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 28. " PRTA_SRC14_PREV_ENC_FID            ,For Source ID 14 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 27. "         PRTA_SRC13_CURR_ENC_FID            ,For Source ID 13 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 26. "     PRTA_SRC13_PREV_ENC_FID            ,For Source ID 13 from Port A. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 25. " PRTA_SRC12_CURR_ENC_FID            ,For Source ID 12 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 24. "         PRTA_SRC12_PREV_ENC_FID            ,For Source ID 12 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 23. "     PRTA_SRC11_CURR_ENC_FID            ,For Source ID 11 from Port A. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 22. " PRTA_SRC11_PREV_ENC_FID            ,For Source ID 11 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 21. "         PRTA_SRC10_CURR_ENC_FID            ,For Source ID 10 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 20. "     PRTA_SRC10_PREV_ENC_FID            ,For Source ID 10 from Port A. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 19. " PRTA_SRC9_CURR_ENC_FID             ,For Source ID 9 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 18. "         PRTA_SRC9_PREV_ENC_FID             ,For Source ID 9 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 17. "     PRTA_SRC8_CURR_ENC_FID             ,For Source ID 8 from Port A. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 16. " PRTA_SRC8_PREV_ENC_FID             ,For Source ID 8 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 15. "         PRTA_SRC7_CURR_ENC_FID             ,For Source ID 7 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 14. "     PRTA_SRC7_PREV_ENC_FID             ,For Source ID 7 from Port A. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 13. " PRTA_SRC6_CURR_ENC_FID             ,For Source ID 6 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 12. "         PRTA_SRC6_PREV_ENC_FID             ,For Source ID 6 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 11. "     PRTA_SRC5_CURR_ENC_FID             ,For Source ID 5 from Port A. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PRTA_SRC5_PREV_ENC_FID             ,For Source ID 5 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 9. "         PRTA_SRC4_CURR_ENC_FID             ,For Source ID 4 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 8. "     PRTA_SRC4_PREV_ENC_FID             ,For Source ID 4 from Port A. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PRTA_SRC3_CURR_ENC_FID             ,For Source ID 3 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 6. "         PRTA_SRC3_PREV_ENC_FID             ,For Source ID 3 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 5. "     PRTA_SRC2_CURR_ENC_FID             ,For Source ID 2 from Port A. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 4. " PRTA_SRC2_PREV_ENC_FID             ,For Source ID 2 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 3. "         PRTA_SRC1_CURR_ENC_FID             ,For Source ID 1 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 2. "     PRTA_SRC1_PREV_ENC_FID             ,For Source ID 1 from Port A. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTA_SRC0_CURR_ENC_FID             ,For Source ID 0 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 0. "         PRTA_SRC0_PREV_ENC_FID             ,For Source ID 0 from Port A. Encoder Field ID for Previous Field" "0,1"
rgroup.long 0x28++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC_FID,Current and Previous Output Port B Source FID values"
bitfld.long 0x00 31. " PRTB_SRC15_CURR_SOURCE_FID         ,For Source ID 15 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 30. "         PRTB_SRC15_PREV_SOURCE_FID         ,For Source ID 15 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 29. "     PRTB_SRC14_CURR_SOURCE_FID         ,For Source ID 14 from Port B. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 28. " PRTB_SRC14_PREV_SOURCE_FID         ,For Source ID 14 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 27. "         PRTB_SRC13_CURR_SOURCE_FID         ,For Source ID 13 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 26. "     PRTB_SRC13_PREV_SOURCE_FID         ,For Source ID 13 from Port B. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 25. " PRTB_SRC12_CURR_SOURCE_FID         ,For Source ID 12 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 24. "         PRTB_SRC12_PREV_SOURCE_FID         ,For Source ID 12 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 23. "     PRTB_SRC11_CURR_SOURCE_FID         ,For Source ID 11 from Port B. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 22. " PRTB_SRC11_PREV_SOURCE_FID         ,For Source ID 11. from Port B Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 21. "         PRTB_SRC10_CURR_SOURCE_FID         ,For Source ID 10 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 20. "     PRTB_SRC10_PREV_SOURCE_FID         ,For Source ID 10 from Port B. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 19. " PRTB_SRC9_CURR_SOURCE_FID          ,For Source ID 9 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 18. "         PRTB_SRC9_PREV_SOURCE_FID          ,For Source ID 9 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 17. "     PRTB_SRC8_CURR_SOURCE_FID          ,For Source ID 8 from Port B. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 16. " PRTB_SRC8_PREV_SOURCE_FID          ,For Source ID 8 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 15. "         PRTB_SRC7_CURR_SOURCE_FID          ,For Source ID 7 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 14. "     PRTB_SRC7_PREV_SOURCE_FID          ,For Source ID 7 from Port B. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 13. " PRTB_SRC6_CURR_SOURCE_FID          ,For Source ID 6 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 12. "         PRTB_SRC6_PREV_SOURCE_FID          ,For Source ID 6 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 11. "     PRTB_SRC5_CURR_SOURCE_FID          ,For Source ID 5 from Port B. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PRTB_SRC5_PREV_SOURCE_FID          ,For Source ID 5 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 9. "         PRTB_SRC4_CURR_SOURCE_FID          ,For Source ID 4 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 8. "     PRTB_SRC4_PREV_SOURCE_FID          ,For Source ID 4 from Port B. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PRTB_SRC3_CURR_SOURCE_FID          ,For Source ID 3 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 6. "         PRTB_SRC3_PREV_SOURCE_FID          ,For Source ID 3 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 5. "     PRTB_SRC2_CURR_SOURCE_FID          ,For Source ID 2 from Port B. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 4. " PRTB_SRC2_PREV_SOURCE_FID          ,For Source ID 2 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 3. "         PRTB_SRC1_CURR_SOURCE_FID          ,For Source ID 1 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 2. "     PRTB_SRC1_PREV_SOURCE_FID          ,For Source ID 1 from Port B. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTB_SRC0_CURR_SOURCE_FID          ,For Source ID 0 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 0. "         PRTB_SRC0_PREV_SOURCE_FID          ,For Source ID 0 from Port B. Source Field ID for Previous Field" "0,1"
rgroup.long 0x2C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_ENC_FID,Current and Previous Output Port B Encoder FID values"
bitfld.long 0x00 31. " PRTB_SRC15_CURR_ENC_FID            ,For Source ID 15 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 30. "         PRTB_SRC15_PREV_ENC_FID            ,For Source ID 15 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 29. "     PRTB_SRC14_CURR_ENC_FID            ,For Source ID 14 from Port B. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 28. " PRTB_SRC14_PREV_ENC_FID            ,For Source ID 14 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 27. "         PRTB_SRC13_CURR_ENC_FID            ,For Source ID 13 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 26. "     PRTB_SRC13_PREV_ENC_FID            ,For Source ID 13 from Port B. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 25. " PRTB_SRC12_CURR_ENC_FID            ,For Source ID 12 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 24. "         PRTB_SRC12_PREV_ENC_FID            ,For Source ID 12 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 23. "     PRTB_SRC11_CURR_ENC_FID            ,For Source ID 11 from Port B. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 22. " PRTB_SRC11_PREV_ENC_FID            ,For Source ID 11 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 21. "         PRTB_SRC10_CURR_ENC_FID            ,For Source ID 10 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 20. "     PRTB_SRC10_PREV_ENC_FID            ,For Source ID 10 from Port B. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 19. " PRTB_SRC9_CURR_ENC_FID             ,For Source ID 9 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 18. "         PRTB_SRC9_PREV_ENC_FID             ,For Source ID 9 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 17. "     PRTB_SRC8_CURR_ENC_FID             ,For Source ID 8 from Port B. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 16. " PRTB_SRC8_PREV_ENC_FID             ,For Source ID 8 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 15. "         PRTB_SRC7_CURR_ENC_FID             ,For Source ID 7 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 14. "     PRTB_SRC7_PREV_ENC_FID             ,For Source ID 7 from Port B. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 13. " PRTB_SRC6_CURR_ENC_FID             ,For Source ID 6 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 12. "         PRTB_SRC6_PREV_ENC_FID             ,For Source ID 6 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 11. "     PRTB_SRC5_CURR_ENC_FID             ,For Source ID 5 from Port B. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PRTB_SRC5_PREV_ENC_FID             ,For Source ID 5 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 9. "         PRTB_SRC4_CURR_ENC_FID             ,For Source ID 4 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 8. "     PRTB_SRC4_PREV_ENC_FID             ,For Source ID 4 from Port B. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PRTB_SRC3_CURR_ENC_FID             ,For Source ID 3 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 6. "         PRTB_SRC3_PREV_ENC_FID             ,For Source ID 3 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 5. "     PRTB_SRC2_CURR_ENC_FID             ,For Source ID 2 from Port B. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 4. " PRTB_SRC2_PREV_ENC_FID             ,For Source ID 2 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 3. "         PRTB_SRC1_CURR_ENC_FID             ,For Source ID 1 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 2. "     PRTB_SRC1_PREV_ENC_FID             ,For Source ID 1 from Port B. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTB_SRC0_CURR_ENC_FID             ,For Source ID 0 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 0. "         PRTB_SRC0_PREV_ENC_FID             ,For Source ID 0 from Port B. Encoder Field ID for Previous Field" "0,1"
rgroup.long 0x30++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC0_SIZE,Width and Height for Source 0"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC0_WIDTH                    ,On Port A. Width of Source ID 0"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC0_HEIGHT                   ,On Port A. Height of Source ID 0"
rgroup.long 0x34++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC1_SIZE,Width and Height for Source 1"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC1_WIDTH                    ,On Port A. Width of Source ID 1"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC1_HEIGHT                   ,On Port A. Height of Source ID 1"
rgroup.long 0x38++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC2_SIZE,Width and Height for Source 2"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC2_WIDTH                    ,On Port A. Width of Source ID 2"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC2_HEIGHT                   ,On Port A. Height of Source ID 2"
rgroup.long 0x3C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC3_SIZE,Width and Height for Source 3"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC3_WIDTH                    ,On Port A. Width of Source ID 3"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC3_HEIGHT                   ,On Port A. Height of Source ID 3"
rgroup.long 0x40++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC4_SIZE,Width and Height for Source 4"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC4_WIDTH                    ,On Port A. Width of Source ID 4"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC4_HEIGHT                   ,On Port A. Height of Source ID 4"
rgroup.long 0x44++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC5_SIZE,Width and Height for Source 5"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC5_WIDTH                    ,On Port A. Width of Source ID 5"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC5_HEIGHT                   ,On Port A. Height of Source ID 5"
rgroup.long 0x48++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC6_SIZE,Width and Height for Source 6"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC6_WIDTH                    ,On Port A. Width of Source ID 6"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC6_HEIGHT                   ,On Port A. Height of Source ID 6"
rgroup.long 0x4C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC7_SIZE,Width and Height for Source 7"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC7_WIDTH                    ,On Port A. Width of Source ID 7"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC7_HEIGHT                   ,On Port A. Height of Source ID 7"
rgroup.long 0x50++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC8_SIZE,Width and Height for Source 8"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC8_WIDTH                    ,On Port A. Width of Source ID 8"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC8_HEIGHT                   ,On Port A. Height of Source ID 8"
rgroup.long 0x54++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC9_SIZE,Width and Height for Source 9"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC9_WIDTH                    ,On Port A. Width of Source ID 9"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC9_HEIGHT                   ,On Port A. Height of Source ID 9"
rgroup.long 0x58++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC10_SIZE,Width and Height for Source 10"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC10_WIDTH                   ,On Port A. Width of Source ID 10"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC10_HEIGHT                  ,On Port A. Height of Source ID 10"
rgroup.long 0x5C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC11_SIZE,Width and Height for Source 11"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC11_WIDTH                   ,On Port A. Width of Source ID 11"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC11_HEIGHT                  ,On Port A. Height of Source ID 11"
rgroup.long 0x60++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC12_SIZE,Width and Height for Source 12"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC12_WIDTH                   ,On Port A. Width of Source ID 12"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC12_HEIGHT                  ,On Port A. Height of Source ID 12"
rgroup.long 0x64++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC13_SIZE,Width and Height for Source 13"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC13_WIDTH                   ,On Port A. Width of Source ID 13"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC13_HEIGHT                  ,On Port A. Height of Source ID 13"
rgroup.long 0x68++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC14_SIZE,Width and Height for Source 14"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC14_WIDTH                   ,On Port A. Width of Source ID 14"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC14_HEIGHT                  ,On Port A. Height of Source ID 14"
rgroup.long 0x6C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC15_SIZE,Width and Height for Source 15"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC15_WIDTH                   ,On Port A. Width of Source ID 15"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC15_HEIGHT                  ,On Port A. Height of Source ID 15"
rgroup.long 0x70++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC0_SIZE,Width and Height for Source 0"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC0_WIDTH                    ,On Port B. Width of Source ID 0"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC0_HEIGHT                   ,On Port B. Height of Source ID 0"
rgroup.long 0x74++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC1_SIZE,Width and Height for Source 1"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC1_WIDTH                    ,On Port B. Width of Source ID 1"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC1_HEIGHT                   ,On Port B. Height of Source ID 1"
rgroup.long 0x78++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC2_SIZE,Width and Height for Source 2"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC2_WIDTH                    ,On Port B. Width of Source ID 2"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC2_HEIGHT                   ,On Port B. Height of Source ID 2"
rgroup.long 0x7C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC3_SIZE,Width and Height for Source 3"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC3_WIDTH                    ,On Port B. Width of Source ID 3"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC3_HEIGHT                   ,On Port B. Height of Source ID 3"
rgroup.long 0x80++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC4_SIZE,Width and Height for Source 4"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC4_WIDTH                    ,On Port B. Width of Source ID 4"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC4_HEIGHT                   ,On Port B. Height of Source ID 4"
rgroup.long 0x84++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC5_SIZE,Width and Height for Source 5"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC5_WIDTH                    ,On Port B. Width of Source ID 5"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC5_HEIGHT                   ,On Port B. Height of Source ID 5"
rgroup.long 0x88++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC6_SIZE,Width and Height for Source 6"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC6_WIDTH                    ,On Port B. Width of Source ID 6"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC6_HEIGHT                   ,On Port B. Height of Source ID 6"
rgroup.long 0x8C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC7_SIZE,Width and Height for Source 7"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC7_WIDTH                    ,On Port B. Width of Source ID 7"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC7_HEIGHT                   ,On Port B. Height of Source ID 7"
rgroup.long 0x90++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC8_SIZE,Width and Height for Source 8"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC8_WIDTH                    ,On Port B. Width of Source ID 8"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC8_HEIGHT                   ,On Port B. Height of Source ID 8"
rgroup.long 0x94++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC9_SIZE,Width and Height for Source 9"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC9_WIDTH                    ,On Port B. Width of Source ID 9"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC9_HEIGHT                   ,On Port B. Height of Source ID 9"
rgroup.long 0x98++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC10_SIZE,Width and Height for Source 10"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC10_WIDTH                   ,On Port B. Width of Source ID 10"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC10_HEIGHT                  ,On Port B. Height of Source ID 10"
rgroup.long 0x9C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC11_SIZE,Width and Height for Source 11"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC11_WIDTH                   ,On Port B. Width of Source ID 11"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC11_HEIGHT                  ,On Port B. Height of Source ID 11"
rgroup.long 0xA0++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC12_SIZE,Width and Height for Source 12"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC12_WIDTH                   ,On Port B. Width of Source ID 12"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC12_HEIGHT                  ,On Port B. Height of Source ID 12"
rgroup.long 0xA4++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC13_SIZE,Width and Height for Source 13"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC13_WIDTH                   ,On Port B. Width of Source ID 13"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC13_HEIGHT                  ,On Port B. Height of Source ID 13"
rgroup.long 0xA8++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC14_SIZE,Width and Height for Source 14"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC14_WIDTH                   ,On Port B. Width of Source ID 14"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC14_HEIGHT                  ,On Port B. Height of Source ID 14"
rgroup.long 0xAC++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC15_SIZE,Width and Height for Source 15"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC15_WIDTH                   ,On Port B. Width of Source ID 15"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC15_HEIGHT                  ,On Port B. Height of Source ID 15"
rgroup.long 0xB0++0x3
line.long 0x00 "VIP_PORT_A_VDET_VEC,Each bit represents the VDET bit setting for Line Mux Mode"
hexmask.long 0x00 0.--31. 1. " PRTA_VDET_VEC                      ,For Embedded Sync Only In Line Mux Mode. each bit represents the vdet value on Port A for the corresponding source id. This vector is meaningless for 1x/2x/4x mux modes."
rgroup.long 0xB4++0x3
line.long 0x00 "VIP_PORT_B_VDET_VEC,Each bit represents the VDET bit setting for Line Mux Mode"
hexmask.long 0x00 0.--31. 1. " PRTB_VDET_VEC                      ,For Embedded Sync Only In Line Mux Mode. each bit represents the vdet value on Port B for the corresponding source id. This vector is meaningless for 1x/2x/4x mux modes."
group.long 0xB8++0x3
line.long 0x00 "VIP_ANC_CROP_HORZ_PORT_A,Ancillary Cropping Configuration for Input Port A"
bitfld.long 0x00 28.--31. " ANC_TARGET_SRCNUM                  ,The cropping module can work on only one srcnum. specified in this field. for each dss_vip_parser output port (Ancillary data)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 16.--27. 1. "        ANC_USE_NUMPIX                     ,When cropping, the number of pixels to keep after the skip_numpix value. skip_numpix + use_numpix must be smaller than the original line width."
bitfld.long 0x00 15. "  ANC_BYPASS_N                       ,0 = Bypass cropping module 1 = Cropping module enabled" "0,1"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " ANC_SKIP_NUMPIX                    ,The number of pixels to crop from the beginning of each line."
group.long 0xBC++0x3
line.long 0x00 "VIP_ANC_CROP_VERT_PORT_A,Ancillary Cropping Configuration for Input Port A"
hexmask.long.word 0x00 16.--27. 1. " ANC_USE_NUMLINES                   ,When cropping, the number of lines to keep after the skip_numlines value. Use_numlines + skip_numlines must be smaller than the total number of lines in the srcnum's ancillary data region."
hexmask.long.word 0x00 0.--11. 1. "      ANC_SKIP_NUMLINES                  ,The number of lines to crop from the top of the vertical ancillary data region."
group.long 0xC0++0x3
line.long 0x00 "VIP_CROP_HORZ_PORT_A,Active Video Cropping Configuration for Input Port A"
bitfld.long 0x00 28.--31. " ACT_TARGET_SRCNUM                  ,The cropping module can work on only one srcnum. specified in this field. for each dss_vip_parser output port (Active video)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 16.--27. 1. "        ACT_USE_NUMPIX                     ,When cropping, the number of pixels to keep after the skip_numpix value. skip_numpix + use_numpix must be smaller than the original line width."
bitfld.long 0x00 15. "  ACT_BYPASS_N                       ,0 = Bypass cropping module 1 = Cropping module enabled" "0,1"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " ACT_SKIP_NUMPIX                    ,The number of pixels to crop from the beginning of each line."
group.long 0xC4++0x3
line.long 0x00 "VIP_CROP_VERT_PORT_A,Active Video Cropping Configuration for Input Port A"
hexmask.long.word 0x00 16.--27. 1. " ACT_USE_NUMLINES                   ,When cropping.. the number of lines to keep after the skip_numlines value. Use_numlines + skip_numlines must be smaller than the total number of lines in the srcnum's active video region."
hexmask.long.word 0x00 0.--11. 1. "      ACT_SKIP_NUMLINES                  ,The number of lines to crop from the top of the vertical active video region."
group.long 0xC8++0x3
line.long 0x00 "VIP_ANC_VIP_CROP_HORZ_PORT_B,Ancillary Cropping Configuration for Input Port B"
bitfld.long 0x00 28.--31. " ANC_TARGET_SRCNUM                  ,The cropping module can work on only one srcnum. specified in this field. for each dss_vip_parser output port (Ancillary data)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 16.--27. 1. "        ANC_USE_NUMPIX                     ,When cropping, the number of pixels to keep after the skip_numpix value. skip_numpix + use_numpix must be smaller than the original line width."
bitfld.long 0x00 15. "  ANC_BYPASS_N                       ,0 = Bypass cropping module 1 = Cropping module enabled" "0,1"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " ANC_SKIP_NUMPIX                    ,The number of pixels to crop from the beginning of each line."
group.long 0xCC++0x3
line.long 0x00 "VIP_ANC_VIP_CROP_VERT_PORT_B,Ancillary Cropping Configuration for Input Port B"
hexmask.long.word 0x00 16.--27. 1. " ANC_USE_NUMLINES                   ,When cropping, the number of lines to keep after the skip_numlines value. Use_numlines + skip_numlines must be smaller than the total number of lines in the srcnums active video region."
hexmask.long.word 0x00 0.--11. 1. "      ANC_SKIP_NUMLINES                  ,The number of lines to crop from the top of the vertical ancillary data region."
group.long 0xD0++0x3
line.long 0x00 "VIP_CROP_HORZ_PORT_B,Active Video Cropping Configuration for Input Port B"
bitfld.long 0x00 28.--31. " ACT_TARGET_SRCNUM                  ,The cropping module can work on only one srcnum. specified in this field. for each dss_vip_parser output port (Active video)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 16.--27. 1. "        ACT_USE_NUMPIX                     ,When cropping, the number of pixels to keep after the skip_numpix value. skip_numpix + use_numpix must be smaller than the original line width."
bitfld.long 0x00 15. "  ACT_BYPASS_N                       ,0 = Bypass cropping module 1 = Cropping module enabled" "0,1"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " ACT_SKIP_NUMPIX                    ,The number of pixels to crop from the beginning of each line."
group.long 0xD4++0x3
line.long 0x00 "VIP_CROP_VERT_PORT_B,Active Video Cropping Configuration for Input Port B"
hexmask.long.word 0x00 16.--27. 1. " ACT_USE_NUMLINES                   ,When cropping, the number of lines to keep after the skip_numlines value. Use_numlines + skip_numlines must be smaller than the total number of lines in the srcnum's active video region."
hexmask.long.word 0x00 0.--11. 1. "      ACT_SKIP_NUMLINES                  ,The number of lines to crop from the top of the vertical active video region."
group.long 0xD8++0x3
line.long 0x00 "VIP_XTRA6_PORT_A,Cfg Disable Active Srcnum Vector Input for Port A"
hexmask.long.word 0x00 16.--31. 1. " YUV_SRCNUM_STOP_IMMEDIATELY        ,For the Active Video Port to the VPDMA, logic exists to ensure that a complete frame is sent out to the VPDMA following cfg_enable transitioning inactive for that port. Each bit in this vector represents a srcnum (r..."
hexmask.long.word 0x00 0.--15. 1. "      ANC_SRCNUM_STOP_IMMEDIATELY        ,For the Ancillary Data Port to the VPDMA, logic exists to ensure that a complete frame is sent out to the VPDMA following cfg_enable transitioning inactive for that port. Each bit in this vector represents a sr..."
group.long 0xDC++0x3
line.long 0x00 "VIP_XTRA7_PORT_B,Cfg Disable Active Srcnum Vector Input for Port B"
hexmask.long.word 0x00 16.--31. 1. " YUV_SRCNUM_STOP_IMMEDIATELY        ,For the Active Video Port to the VPDMA, logic exists to ensure that a complete frame is sent out to the VPDMA following cfg_enable transitioning inactive for that port. Each bit in this vector represents a srcnum (r..."
hexmask.long.word 0x00 0.--15. 1. "      ANC_SRCNUM_STOP_IMMEDIATELY        ,For the Ancillary Data Port to the VPDMA, logic exists to ensure that a complete frame is sent out to the VPDMA following cfg_enable transitioning inactive for that port. Each bit in this vector represents a sr..."
group.long 0xE0++0x3
line.long 0x00 "VIP_XTRA8_PORT_A,Reserved Register for Port A"
group.long 0xE4++0x3
line.long 0x00 "VIP_XTRA9_PORT_B,Reserved Register for Port B"
width 0x0B
tree.end
tree "VIP2_Slice1_parser"
base ad:0x48995A00
width 30.
group.long 0x0++0x3
line.long 0x00 "VIP_MAIN,ain Configuration for VIP Parser"
bitfld.long 0x00 5. " CLIP_ACTIVE                        ,Discrete Sync Only 0 = Do not clip active pixels 1 = Clip Active Pixels as follows: 0xFF -andgt; 0xFE.. 0x00 -andgt; 0x01" "0,1"
bitfld.long 0x00 4. "         CLIP_BLNK                          ,Discrete Sync Only 0 = Do not clip Blanking Data 1 = Clip Blanking Data as follows: 0xFF -andgt; 0xFE.. 0x00 -andgt; 0x01" "0,1"
bitfld.long 0x00 0.--1. "     DATA_INTERFACE_MODE                ,00 = 24b data interface. Uses Port A settings 01 = 16b data interface. Uses Port A settings. 10 = Dual independent 8b data interfaces. Uses independent Port A and Port B settings. 11 = Undefined" "0,1,2,3"
group.long 0x4++0x3
line.long 0x00 "VIP_PORT_A,Configuration for Input Port A"
bitfld.long 0x00 31. " ANALYZER_FVH_ERR_CORRECTION_ENABLE ,Embedded Sync Only 0 = Ignore the protection bits in the XV (fvh) codeword header. This setting is typically desired. 1 = Use the protection bits in an attempt to do error correction for the fvh control bits." "0,1"
bitfld.long 0x00 30. "         ANALYZER_2X4X_SRCNUM_POS           ,Embedded Sync Only 0 = For 2x/4x mux mode, srcnum is in the least significant nibble of the XV/fvh codeword (srcnum replaces the protection bits) 1 = For 2x/4x mux mode, srcnum is in the least significant ni..." "0,1"
bitfld.long 0x00 24.--29. "     FID_SKEW_POSTCOUNT                 ,Discrete Sync Only post count value when using vsync skew in FID determination" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                       "
bitfld.long 0x00 23. " SW_RESET                           ,0 = Normal 1 = Reset Port A logic. Must be set to ?0? again by the software for the module to function." "0,1"
bitfld.long 0x00 22. "         DISCRETE_BASIC_MODE                ,This register is valid for Discrete Sync mode only. 0 = Normal Discrete Mode. Hsync Style Capture operates as follows: - Captures line starting from HSYNC inactive to active condition. - VSYNC determined by ..." "0,1"
bitfld.long 0x00 16.--21. "     FID_SKEW_PRECOUNT                  ,Discrete Sync Only pre count value when using vsync skew in FID determination" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                       "
bitfld.long 0x00 15. " USE_ACTVID_HSYNC_N                 ,Discrete Sync Only 0 = Use HSYNC style line capture 1 = Use ACTVID style line capture" "0,1"
bitfld.long 0x00 14. "         FID_DETECT_MODE                    ,Discrete Sync Only 0 = Take FID from pin 1 = FID is determined by VSYNC skew" "0,1"
bitfld.long 0x00 13. "     ACTVID_POLARITY                    ,Discrete Sync Only 0 = ACTVID is active low 1 = ACTVID is active high" "0,1"
textline "                                       "
bitfld.long 0x00 12. " VSYNC_POLARITY                     ,Discrete Sync Only 0 = VSYNC is active low 1 = VSYNC is active high" "0,1"
bitfld.long 0x00 11. "         HSYNC_POLARITY                     ,Discrete Sync Only 0 = HSYNC is active low 1 = HSYNC is active high" "0,1"
bitfld.long 0x00 10. "     PIXCLK_EDGE_POLARITY               ,0 = Rising Edge is active PIXCLK edge 1 = Falling Edge is active PIXCLK edge" "0,1"
textline "                                       "
bitfld.long 0x00 9. " FID_POLARITY                       ,0 = Keep FID as found 1 = Invert Determined Value of FID" "0,1"
bitfld.long 0x00 8. "         ENABLE                             ,0 = Disable Port 1 = Enable Port" "0,1"
bitfld.long 0x00 7. "     CLR_ASYNC_FIFO_RD                  ,0 = Normal 1 = Clear Async FIFO Read Logic" "0,1"
textline "                                       "
bitfld.long 0x00 6. " CLR_ASYNC_FIFO_WR                  ,0 = Normal 1 = Clear Async FIFO Write Logic" "0,1"
bitfld.long 0x00 4.--5. "         CTRL_CHAN_SEL                      ,Embedded Sync Only In 8b mode.. there is only one channel on data[7:0]. In 16b mode.. there are two channels. The Luma Channel is on data[15:8]. The Chroma Channel is on data[7:0]. In 24b mode.. there are th..." "0,1,2,3"
bitfld.long 0x00 0.--3. "     SYNC_TYPE                          ,0000 = embedded sync single 4:2:2 YUV stream 0001 = embedded sync 2x multiplexed 4:2:2 YUV stream 0010 = embedded sync 4x multiplexed 4:2:2 YUV stream 0011 = embedded sync line multiplexed 4:2:2 YUV stream 0100 ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x8++0x3
line.long 0x00 "VIP_XTRA_PORT_A,ore Configuration for Input Port A"
bitfld.long 0x00 28.--30. " REPACK_SEL                         ,000 = Straight Through 001 = Cross Swap 010 = Left Center Swap 011 = Center Right Swap 100 = Right Rotate 101 = Left Rotate 110 = RAW16 to RGB565 Mapping 111 = RAW12 Swap" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--27. 1. "         SRC0_NUMPIX                        ,Number of expected pixels on Source Number 0. The Port_a_src0_size interrupt will trigger if a line is encountered that differs from this pixelcount."
bitfld.long 0x00 13.--14. "  ANC_CHAN_SEL_8B                    ,In 8b mode, Vertically Ancillary Data typically resides in the Luma sites. This bit allows vertical ancillary data to be extracted from the chroma sites instead . 00 = Extract 8b Mode Vertical Ancillary Data from L..." "0,1,2,3"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " SRC0_NUMLINES                      ,Number of expected lines on Source Number 0. The Port_a_src0_size interrupt will trigger if a field/frame is encountered that differs from this linecount."
group.long 0xC++0x3
line.long 0x00 "VIP_PORT_B,Configuration for Input Port B"
bitfld.long 0x00 31. " ANALYZER_FVH_ERR_CORRECTION_ENABLE ,Embedded Sync Only 0 = Ignore the protection bits in the XV (fvh) codeword header. This setting is typically desired. 1 = Use the protection bits in an attempt to do error correction for the fvh control bits." "0,1"
bitfld.long 0x00 30. "         ANALYZER_2X4X_SRCNUM_POS           ,Embedded Sync Only 0 = For 2x/4x mux mode, srcnum is in the least significant nibble of the XV/fvh codeword (srcnum replaces the protection bits) 1 = For 2x/4x mux mode, srcnum is in the least significant ni..." "0,1"
bitfld.long 0x00 24.--29. "     FID_SKEW_POSTCOUNT                 ,Discrete Sync Only post count value when using vsync skew in FID determination" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                       "
bitfld.long 0x00 23. " SW_RESET                           ,0 = Normal 1 = Reset Port B logic. Must be set to ?0? again by the software for the module to function." "0,1"
bitfld.long 0x00 22. "         DISCRETE_BASIC_MODE                ,This register is valid for Discrete Sync mode only. 0 = Normal Discrete Mode. Hsync Style Capture operates as follows: - Captures line starting from HSYNC inactive to active condition. - VSYNC determined by ..." "0,1"
bitfld.long 0x00 16.--21. "     FID_SKEW_PRECOUNT                  ,Discrete Sync Only pre count value when using vsync skew in FID determination" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                       "
bitfld.long 0x00 15. " USE_ACTVID_HSYNC_N                 ,Discrete Sync Only 0 = Use HSYNC style line capture 1 = Use ACTVID style line capture" "0,1"
bitfld.long 0x00 14. "         FID_DETECT_MODE                    ,Discrete Sync Only 0 = Take FID from pin 1 = FID is determined by VSYNC skew" "0,1"
bitfld.long 0x00 13. "     ACTVID_POLARITY                    ,Discrete Sync Only 0 = ACTVID is active low 1 = ACTVID is active high" "0,1"
textline "                                       "
bitfld.long 0x00 12. " VSYNC_POLARITY                     ,Discrete Sync Only 0 = VSYNC is active low 1 = VSYNC is active high" "0,1"
bitfld.long 0x00 11. "         HSYNC_POLARITY                     ,Discrete Sync Only 0 = HSYNC is active low 1 = HSYNC is active high" "0,1"
bitfld.long 0x00 10. "     PIXCLK_EDGE_POLARITY               ,0 = Rising Edge is active PIXCLK edge 1 = Falling Edge is active PIXCLK edge" "0,1"
textline "                                       "
bitfld.long 0x00 9. " FID_POLARITY                       ,0 = Keep FID as found 1 = Invert Determined Value of FID" "0,1"
bitfld.long 0x00 8. "         ENABLE                             ,0 = Disable 1 = Enable" "0,1"
bitfld.long 0x00 7. "     CLR_ASYNC_FIFO_RD                  ,0 = Normal 1 = Clear Async FIFO Read Logic" "0,1"
textline "                                       "
bitfld.long 0x00 6. " CLR_ASYNC_FIFO_WR                  ,0 = Normal 1 = Clear Async FIFO Write Logic" "0,1"
bitfld.long 0x00 4.--5. "         CTRL_CHAN_SEL                      ,PORT B supports on 8b mode. Always write 0 to this field. The anc_chan_sel_8b register is used to select the Luma or Chroma channel from which Ancillary Data is taken." "0,1,2,3"
bitfld.long 0x00 0.--3. "     SYNC_TYPE                          ,0000 = embedded sync single YUV stream 0001 = embedded sync 2x multiplexed YUV stream 0010 = embedded sync 4x multiplexed YUV stream 0011 = embedded sync line multiplexed YUV stream 0100 = discrete sync single Y..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10++0x3
line.long 0x00 "VIP_XTRA_PORT_B,ore Configuration for Input Port B"
hexmask.long.word 0x00 16.--27. 1. " SRC0_NUMPIX                        ,Number of expected pixels on Source Number 0. The Port_b_src0_size interrupt will trigger if a line is encountered that differs from this pixelcount."
bitfld.long 0x00 13.--14. "      ANC_CHAN_SEL_8B                    ,In 8b mode, Vertically Ancillary Data typically resides in the Luma sites. This bit allows vertical ancillary data to be extracted from the chroma sites instead . 00 = Extract 8b Mode Vertical Ancillary Data fr..." "0,1,2,3"
hexmask.long.word 0x00 0.--11. 1. "     SRC0_NUMLINES                      ,Number of expected lines on Source Number 0. The Port_b_src0_size interrupt will trigger if a field/frame is encountered that differs from this linecount."
group.long 0x14++0x3
line.long 0x00 "VIP_FIQ_MASK,ask Bits for ARM FIQs"
bitfld.long 0x00 21. " PORT_B_CFG_DISABLE_COMPLETE_MASK   ,Port B Cfg Disable Complete Mask" "0,1"
bitfld.long 0x00 20. "         PORT_A_CFG_DISABLE_COMPLETE_MASK   ,Port A Cfg Disable Complete Mask" "0,1"
bitfld.long 0x00 19. "     PORT_B_ANC_PROTOCOL_VIOLATION_MASK ,Port B ANC VPI Protocol Violation Mask" "0,1"
textline "                                       "
bitfld.long 0x00 18. " PORT_B_YUV_PROTOCOL_VIOLATION_MASK ,Port B YUV VPI Protocol Violation Mask" "0,1"
bitfld.long 0x00 17. "         PORT_A_ANC_PROTOCOL_VIOLATION_MASK ,Port A ANC VPI Protocol Violation Mask" "0,1"
bitfld.long 0x00 16. "     PORT_A_YUV_PROTOCOL_VIOLATION_MASK ,Port A YUV VPI Protocol Violation Mask" "0,1"
textline "                                       "
bitfld.long 0x00 15. " PORT_B_SRC0_SIZE                   ,Video size detected on Port B does not match size programmed in xtra_port_b register" "0,1"
bitfld.long 0x00 14. "         PORT_A_SRC0_SIZE                   ,Video size detected on Port A does not match size programmed in xtra_port_a register" "0,1"
bitfld.long 0x00 13. "     PORT_B_DISCONN                     ,Port B Link Disconnect Srcnum 0 Mask" "0,1"
textline "                                       "
bitfld.long 0x00 12. " PORT_B_CONN                        ,Port B Link Connect Srcnum 0 Mask" "0,1"
bitfld.long 0x00 11. "         PORT_A_DISCONN                     ,Port A Link Disconnect Scrnum 0 Mask" "0,1"
bitfld.long 0x00 10. "     PORT_A_CONN                        ,Port A Link Connect Srcnum 0 Mask" "0,1"
textline "                                       "
bitfld.long 0x00 9. " OUTPUT_FIFO_PRTB_ANC_OF            ,Output FIFO Port B Ancillary Overflow Mask" "0,1"
bitfld.long 0x00 7. "         OUTPUT_FIFO_PRTB_YUV_OF            ,Output FIFO Port B Luma Overflow Mask" "0,1"
bitfld.long 0x00 6. "     OUTPUT_FIFO_PRTA_ANC_OF            ,Output FIFO Port A Ancillary Overflow Mask" "0,1"
textline "                                       "
bitfld.long 0x00 4. " OUTPUT_FIFO_PRTA_YUV_OF            ,Output FIFO Port A Luma Overflow Mask" "0,1"
bitfld.long 0x00 3. "         ASYNC_FIFO_PRTB_OF                 ,Port B Async FIFO Overflow FIQ Mask" "0,1"
bitfld.long 0x00 2. "     ASYNC_FIFO_PRTA_OF                 ,Port A Async FIFO Overflow FIQ Mask" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTB_VDET_MASK                     ,Port B Video Detect FIQ Mask" "0,1"
bitfld.long 0x00 0. "         PRTA_VDET_MASK                     ,Port A Video Detect FIQ Mask" "0,1"
group.long 0x18++0x3
line.long 0x00 "VIP_FIQ_CLEAR,Clears bits in the FIQ Status"
bitfld.long 0x00 21. " PORT_A_YUV_PROTOCOL_VIOLATION_CLR  ,Write 1 followed by 0 to Clear Port B Cfg Disable Complete FIQ" "0,1"
bitfld.long 0x00 20. "         PORT_A_ANC_PROTOCOL_VIOLATION_CLR  ,Write 1 followed by 0 to Clear Port A Cfg Disable Complete FIQ" "0,1"
bitfld.long 0x00 19. "     PORT_B_YUV_PROTOCOL_VIOLATION_CLR  ,Write 1 followed by 0 to Clear Port B ANC VPI Protocol Violation FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 18. " PORT_B_ANC_PROTOCOL_VIOLATION_CLR  ,Write 1 followed by 0 to Clear Port B YUV VPI Protocol Violation FIQ" "0,1"
bitfld.long 0x00 17. "         PORT_A_CFG_DISABLE_COMPLETE_CLR    ,Write 1 followed by 0 to Clear Port A ANC VPI Protocol Violation FIQ" "0,1"
bitfld.long 0x00 16. "     PORT_B_CFG_DISABLE_COMPLETE_CLR    ,Write 1 followed by 0 to Clear Port A YUV VPI Protocol Violation FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 15. " PORT_B_SRC0_SIZE_CLR               ,Write 1 followed by 0 to Clear Port B Src0 Size FIQ" "0,1"
bitfld.long 0x00 14. "         PORT_A_SRC0_SIZE_CLR               ,Write 1 followed by 0 to Clear Port A Src0 Size FIQ" "0,1"
bitfld.long 0x00 13. "     PORT_B_DISCONN_CLR                 ,Write 1 followed by 0 to Clear Port B Link Disconnect FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 12. " PORT_B_CONN_CLR                    ,Write 1 followed by 0 to Clear Port B Link Connect FIQ" "0,1"
bitfld.long 0x00 11. "         PORT_A_DISCONN_CLR                 ,Write 1 followed by 0 to Clear Port A Link Disconnect FIQ" "0,1"
bitfld.long 0x00 10. "     PORT_A_CONN_CLR                    ,Write 1 followed by 0 to Clear Port A Link Connect FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 9. " OUTPUT_FIFO_PRTB_ANC_CLR           ,Write 1 followed by 0 to Clear Output FIFO Port B Ancillary Overflow FIQ" "0,1"
bitfld.long 0x00 7. "         OUTPUT_FIFO_PRTB_YUV_CLR           ,Write 1 followed by 0 to Clear Output FIFO Port B Luma Overflow FIQ" "0,1"
bitfld.long 0x00 6. "     OUTPUT_FIFO_PRTA_ANC_CLR           ,Write 1 followed by 0 to Clear Output FIFO Port A Ancillary Overflow FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 4. " OUTPUT_FIFO_PRTA_YUV_CLR           ,Write 1 followed by 0 to Clear Output FIFO Port A Luma Overflow FIQ" "0,1"
bitfld.long 0x00 3. "         ASYNC_FIFO_PRTB_CLR                ,Write 1 followed by 0 to Clear Async FIFO Port B Overflow FIQ" "0,1"
bitfld.long 0x00 2. "     ASYNC_FIFO_PRTA_CLR                ,Write 1 followed by 0 to Clear Async FIFO Port A Overflow FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTB_VDET_CLR                      ,Write 1 followed by 0 to Clear Video Detect FIQ for Port B" "0,1"
bitfld.long 0x00 0. "         PRTA_VDET_CLR                      ,Write 1 followed by 0 to Clear Video Detect FIQ for Port A" "0,1"
rgroup.long 0x1C++0x3
line.long 0x00 "VIP_FIQ_STATUS,FIQ Status values"
bitfld.long 0x00 21. " PORT_B_CFG_DISABLE_COMPLETE_CLR    ,Port B Cfg Disable Complete FIQ" "0,1"
bitfld.long 0x00 20. "         PORT_A_CFG_DISABLE_COMPLETE        ,Port A Cfg Disable Complete FIQ" "0,1"
bitfld.long 0x00 19. "     PORT_B_ANC_PROTOCOL_VIOLATION      ,Port B ANC VPI Protocol Violation FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 18. " PORT_B_YUV_PROTOCOL_VIOLATION      ,Port B YUV VPI Protocol Violation FIQ" "0,1"
bitfld.long 0x00 17. "         PORT_A_ANC_PROTOCOL_VIOLATION      ,Port A ANC VPI Protocol Violation FIQ" "0,1"
bitfld.long 0x00 16. "     PORT_A_YUV_PROTOCOL_VIOLATION      ,Port A YUV VPI Protocol Violation FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 15. " PORT_B_SRC0_SIZE_STATUS            ,Port B Source 0 Size FIQ" "0,1"
bitfld.long 0x00 14. "         PORT_A_SRC0_SIZE_STATUS            ,Port A Source 0 Size FIQ" "0,1"
bitfld.long 0x00 13. "     PORT_B_DISCONN_STATUS              ,Port B Disconnect FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 12. " PORT_B_CONN_STATUS                 ,Port B Connect FIQ" "0,1"
bitfld.long 0x00 11. "         PORT_A_DISCONN_STATUS              ,Port A Disconnect FIQ" "0,1"
bitfld.long 0x00 10. "     PORT_A_CONN_STATUS                 ,Port A Connect FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 9. " OUTPUT_FIFO_PRTB_ANC_STATUS        ,Output FIFO Port B Ancillary Overflow Status" "0,1"
bitfld.long 0x00 8. "         OUTPUT_FIFO_PRTB_CHROMA_STATUS     ,Output FIFO Port B Chroma Overflow Status" "0,1"
bitfld.long 0x00 7. "     OUTPUT_FIFO_PRTB_LUMA_STATUS       ,Output FIFO Port B Luma Overflow Status" "0,1"
textline "                                       "
bitfld.long 0x00 6. " OUTPUT_FIFO_PRTA_ANC_STATUS        ,Output FIFO Port A Ancillary Overflow Status" "0,1"
bitfld.long 0x00 5. "         OUTPUT_FIFO_PRTA_CHROMA_STATUS     ,Output FIFO Port A Chroma Overflow Status" "0,1"
bitfld.long 0x00 4. "     OUTPUT_FIFO_PRTA_LUMA_STATUS       ,Output FIFO Port A Luma Overflow Status" "0,1"
textline "                                       "
bitfld.long 0x00 3. " ASYNC_FIFO_PRTB_STATUS             ,Async FIFO Port B Overflow Status" "0,1"
bitfld.long 0x00 2. "         ASYNC_FIFO_PRTA_STATUS             ,Async FIFO Port A Overflow Status" "0,1"
bitfld.long 0x00 1. "     PRTB_VDET_STATUS                   ,VDET Status for Port B" "0,1"
textline "                                       "
bitfld.long 0x00 0. " PRTA_VDET_STATUS                   ,VDET Status for Port A" "0,1"
rgroup.long 0x20++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC_FID,Current and Previous Output Port A Source FID values"
bitfld.long 0x00 31. " PRTA_SRC15_CURR_SOURCE_FID         ,For Source ID 15 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 30. "         PRTA_SRC15_PREV_SOURCE_FID         ,For Source ID 15 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 29. "     PRTA_SRC14_CURR_SOURCE_FID         ,For Source ID 14 from Port A. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 28. " PRTA_SRC14_PREV_SOURCE_FID         ,For Source ID 14 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 27. "         PRTA_SRC13_CURR_SOURCE_FID         ,For Source ID 13 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 26. "     PRTA_SRC13_PREV_SOURCE_FID         ,For Source ID 13 from Port A. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 25. " PRTA_SRC12_CURR_SOURCE_FID         ,For Source ID 12 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 24. "         PRTA_SRC12_PREV_SOURCE_FID         ,For Source ID 12 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 23. "     PRTA_SRC11_CURR_SOURCE_FID         ,For Source ID 11 from Port A. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 22. " PRTA_SRC11_PREV_SOURCE_FID         ,For Source ID 11 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 21. "         PRTA_SRC10_CURR_SOURCE_FID         ,For Source ID 10 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 20. "     PRTA_SRC10_PREV_SOURCE_FID         ,For Source ID 10 from Port A. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 19. " PRTA_SRC9_CURR_SOURCE_FID          ,For Source ID 9 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 18. "         PRTA_SRC9_PREV_SOURCE_FID          ,For Source ID 9 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 17. "     PRTA_SRC8_CURR_SOURCE_FID          ,For Source ID 8 from Port A. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 16. " PRTA_SRC8_PREV_SOURCE_FID          ,For Source ID 8 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 15. "         PRTA_SRC7_CURR_SOURCE_FID          ,For Source ID 7 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 14. "     PRTA_SRC7_PREV_SOURCE_FID          ,For Source ID 7 from Port A. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 13. " PRTA_SRC6_CURR_SOURCE_FID          ,For Source ID 6 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 12. "         PRTA_SRC6_PREV_SOURCE_FID          ,For Source ID 6 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 11. "     PRTA_SRC5_CURR_SOURCE_FID          ,For Source ID 5 from Port A. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PRTA_SRC5_PREV_SOURCE_FID          ,For Source ID 5 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 9. "         PRTA_SRC4_CURR_SOURCE_FID          ,For Source ID 4 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 8. "     PRTA_SRC4_PREV_SOURCE_FID          ,For Source ID 4 from Port A. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PRTA_SRC3_CURR_SOURCE_FID          ,For Source ID 3 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 6. "         PRTA_SRC3_PREV_SOURCE_FID          ,For Source ID 3 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 5. "     PRTA_SRC2_CURR_SOURCE_FID          ,For Source ID 2 from Port A. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 4. " PRTA_SRC2_PREV_SOURCE_FID          ,For Source ID 2 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 3. "         PRTA_SRC1_CURR_SOURCE_FID          ,For Source ID 1 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 2. "     PRTA_SRC1_PREV_SOURCE_FID          ,For Source ID 1 from Port A. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTA_SRC0_CURR_SOURCE_FID          ,For Source ID 0 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 0. "         PRTA_SRC0_PREV_SOURCE_FID          ,For Source ID 0 from Port A. Source Field ID for Previous Field" "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_ENC_FID,Current and Previous Output Port A Encoder FID values"
bitfld.long 0x00 31. " PRTA_SRC15_CURR_ENC_FID            ,For Source ID 15 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 30. "         PRTA_SRC15_PREV_ENC_FID            ,For Source ID 15 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 29. "     PRTA_SRC14_CURR_ENC_FID            ,For Source ID 14 from Port A. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 28. " PRTA_SRC14_PREV_ENC_FID            ,For Source ID 14 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 27. "         PRTA_SRC13_CURR_ENC_FID            ,For Source ID 13 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 26. "     PRTA_SRC13_PREV_ENC_FID            ,For Source ID 13 from Port A. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 25. " PRTA_SRC12_CURR_ENC_FID            ,For Source ID 12 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 24. "         PRTA_SRC12_PREV_ENC_FID            ,For Source ID 12 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 23. "     PRTA_SRC11_CURR_ENC_FID            ,For Source ID 11 from Port A. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 22. " PRTA_SRC11_PREV_ENC_FID            ,For Source ID 11 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 21. "         PRTA_SRC10_CURR_ENC_FID            ,For Source ID 10 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 20. "     PRTA_SRC10_PREV_ENC_FID            ,For Source ID 10 from Port A. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 19. " PRTA_SRC9_CURR_ENC_FID             ,For Source ID 9 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 18. "         PRTA_SRC9_PREV_ENC_FID             ,For Source ID 9 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 17. "     PRTA_SRC8_CURR_ENC_FID             ,For Source ID 8 from Port A. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 16. " PRTA_SRC8_PREV_ENC_FID             ,For Source ID 8 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 15. "         PRTA_SRC7_CURR_ENC_FID             ,For Source ID 7 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 14. "     PRTA_SRC7_PREV_ENC_FID             ,For Source ID 7 from Port A. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 13. " PRTA_SRC6_CURR_ENC_FID             ,For Source ID 6 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 12. "         PRTA_SRC6_PREV_ENC_FID             ,For Source ID 6 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 11. "     PRTA_SRC5_CURR_ENC_FID             ,For Source ID 5 from Port A. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PRTA_SRC5_PREV_ENC_FID             ,For Source ID 5 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 9. "         PRTA_SRC4_CURR_ENC_FID             ,For Source ID 4 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 8. "     PRTA_SRC4_PREV_ENC_FID             ,For Source ID 4 from Port A. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PRTA_SRC3_CURR_ENC_FID             ,For Source ID 3 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 6. "         PRTA_SRC3_PREV_ENC_FID             ,For Source ID 3 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 5. "     PRTA_SRC2_CURR_ENC_FID             ,For Source ID 2 from Port A. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 4. " PRTA_SRC2_PREV_ENC_FID             ,For Source ID 2 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 3. "         PRTA_SRC1_CURR_ENC_FID             ,For Source ID 1 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 2. "     PRTA_SRC1_PREV_ENC_FID             ,For Source ID 1 from Port A. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTA_SRC0_CURR_ENC_FID             ,For Source ID 0 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 0. "         PRTA_SRC0_PREV_ENC_FID             ,For Source ID 0 from Port A. Encoder Field ID for Previous Field" "0,1"
rgroup.long 0x28++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC_FID,Current and Previous Output Port B Source FID values"
bitfld.long 0x00 31. " PRTB_SRC15_CURR_SOURCE_FID         ,For Source ID 15 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 30. "         PRTB_SRC15_PREV_SOURCE_FID         ,For Source ID 15 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 29. "     PRTB_SRC14_CURR_SOURCE_FID         ,For Source ID 14 from Port B. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 28. " PRTB_SRC14_PREV_SOURCE_FID         ,For Source ID 14 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 27. "         PRTB_SRC13_CURR_SOURCE_FID         ,For Source ID 13 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 26. "     PRTB_SRC13_PREV_SOURCE_FID         ,For Source ID 13 from Port B. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 25. " PRTB_SRC12_CURR_SOURCE_FID         ,For Source ID 12 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 24. "         PRTB_SRC12_PREV_SOURCE_FID         ,For Source ID 12 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 23. "     PRTB_SRC11_CURR_SOURCE_FID         ,For Source ID 11 from Port B. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 22. " PRTB_SRC11_PREV_SOURCE_FID         ,For Source ID 11. from Port B Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 21. "         PRTB_SRC10_CURR_SOURCE_FID         ,For Source ID 10 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 20. "     PRTB_SRC10_PREV_SOURCE_FID         ,For Source ID 10 from Port B. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 19. " PRTB_SRC9_CURR_SOURCE_FID          ,For Source ID 9 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 18. "         PRTB_SRC9_PREV_SOURCE_FID          ,For Source ID 9 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 17. "     PRTB_SRC8_CURR_SOURCE_FID          ,For Source ID 8 from Port B. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 16. " PRTB_SRC8_PREV_SOURCE_FID          ,For Source ID 8 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 15. "         PRTB_SRC7_CURR_SOURCE_FID          ,For Source ID 7 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 14. "     PRTB_SRC7_PREV_SOURCE_FID          ,For Source ID 7 from Port B. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 13. " PRTB_SRC6_CURR_SOURCE_FID          ,For Source ID 6 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 12. "         PRTB_SRC6_PREV_SOURCE_FID          ,For Source ID 6 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 11. "     PRTB_SRC5_CURR_SOURCE_FID          ,For Source ID 5 from Port B. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PRTB_SRC5_PREV_SOURCE_FID          ,For Source ID 5 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 9. "         PRTB_SRC4_CURR_SOURCE_FID          ,For Source ID 4 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 8. "     PRTB_SRC4_PREV_SOURCE_FID          ,For Source ID 4 from Port B. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PRTB_SRC3_CURR_SOURCE_FID          ,For Source ID 3 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 6. "         PRTB_SRC3_PREV_SOURCE_FID          ,For Source ID 3 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 5. "     PRTB_SRC2_CURR_SOURCE_FID          ,For Source ID 2 from Port B. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 4. " PRTB_SRC2_PREV_SOURCE_FID          ,For Source ID 2 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 3. "         PRTB_SRC1_CURR_SOURCE_FID          ,For Source ID 1 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 2. "     PRTB_SRC1_PREV_SOURCE_FID          ,For Source ID 1 from Port B. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTB_SRC0_CURR_SOURCE_FID          ,For Source ID 0 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 0. "         PRTB_SRC0_PREV_SOURCE_FID          ,For Source ID 0 from Port B. Source Field ID for Previous Field" "0,1"
rgroup.long 0x2C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_ENC_FID,Current and Previous Output Port B Encoder FID values"
bitfld.long 0x00 31. " PRTB_SRC15_CURR_ENC_FID            ,For Source ID 15 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 30. "         PRTB_SRC15_PREV_ENC_FID            ,For Source ID 15 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 29. "     PRTB_SRC14_CURR_ENC_FID            ,For Source ID 14 from Port B. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 28. " PRTB_SRC14_PREV_ENC_FID            ,For Source ID 14 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 27. "         PRTB_SRC13_CURR_ENC_FID            ,For Source ID 13 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 26. "     PRTB_SRC13_PREV_ENC_FID            ,For Source ID 13 from Port B. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 25. " PRTB_SRC12_CURR_ENC_FID            ,For Source ID 12 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 24. "         PRTB_SRC12_PREV_ENC_FID            ,For Source ID 12 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 23. "     PRTB_SRC11_CURR_ENC_FID            ,For Source ID 11 from Port B. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 22. " PRTB_SRC11_PREV_ENC_FID            ,For Source ID 11 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 21. "         PRTB_SRC10_CURR_ENC_FID            ,For Source ID 10 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 20. "     PRTB_SRC10_PREV_ENC_FID            ,For Source ID 10 from Port B. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 19. " PRTB_SRC9_CURR_ENC_FID             ,For Source ID 9 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 18. "         PRTB_SRC9_PREV_ENC_FID             ,For Source ID 9 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 17. "     PRTB_SRC8_CURR_ENC_FID             ,For Source ID 8 from Port B. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 16. " PRTB_SRC8_PREV_ENC_FID             ,For Source ID 8 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 15. "         PRTB_SRC7_CURR_ENC_FID             ,For Source ID 7 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 14. "     PRTB_SRC7_PREV_ENC_FID             ,For Source ID 7 from Port B. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 13. " PRTB_SRC6_CURR_ENC_FID             ,For Source ID 6 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 12. "         PRTB_SRC6_PREV_ENC_FID             ,For Source ID 6 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 11. "     PRTB_SRC5_CURR_ENC_FID             ,For Source ID 5 from Port B. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PRTB_SRC5_PREV_ENC_FID             ,For Source ID 5 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 9. "         PRTB_SRC4_CURR_ENC_FID             ,For Source ID 4 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 8. "     PRTB_SRC4_PREV_ENC_FID             ,For Source ID 4 from Port B. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PRTB_SRC3_CURR_ENC_FID             ,For Source ID 3 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 6. "         PRTB_SRC3_PREV_ENC_FID             ,For Source ID 3 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 5. "     PRTB_SRC2_CURR_ENC_FID             ,For Source ID 2 from Port B. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 4. " PRTB_SRC2_PREV_ENC_FID             ,For Source ID 2 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 3. "         PRTB_SRC1_CURR_ENC_FID             ,For Source ID 1 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 2. "     PRTB_SRC1_PREV_ENC_FID             ,For Source ID 1 from Port B. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTB_SRC0_CURR_ENC_FID             ,For Source ID 0 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 0. "         PRTB_SRC0_PREV_ENC_FID             ,For Source ID 0 from Port B. Encoder Field ID for Previous Field" "0,1"
rgroup.long 0x30++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC0_SIZE,Width and Height for Source 0"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC0_WIDTH                    ,On Port A. Width of Source ID 0"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC0_HEIGHT                   ,On Port A. Height of Source ID 0"
rgroup.long 0x34++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC1_SIZE,Width and Height for Source 1"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC1_WIDTH                    ,On Port A. Width of Source ID 1"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC1_HEIGHT                   ,On Port A. Height of Source ID 1"
rgroup.long 0x38++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC2_SIZE,Width and Height for Source 2"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC2_WIDTH                    ,On Port A. Width of Source ID 2"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC2_HEIGHT                   ,On Port A. Height of Source ID 2"
rgroup.long 0x3C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC3_SIZE,Width and Height for Source 3"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC3_WIDTH                    ,On Port A. Width of Source ID 3"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC3_HEIGHT                   ,On Port A. Height of Source ID 3"
rgroup.long 0x40++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC4_SIZE,Width and Height for Source 4"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC4_WIDTH                    ,On Port A. Width of Source ID 4"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC4_HEIGHT                   ,On Port A. Height of Source ID 4"
rgroup.long 0x44++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC5_SIZE,Width and Height for Source 5"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC5_WIDTH                    ,On Port A. Width of Source ID 5"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC5_HEIGHT                   ,On Port A. Height of Source ID 5"
rgroup.long 0x48++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC6_SIZE,Width and Height for Source 6"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC6_WIDTH                    ,On Port A. Width of Source ID 6"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC6_HEIGHT                   ,On Port A. Height of Source ID 6"
rgroup.long 0x4C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC7_SIZE,Width and Height for Source 7"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC7_WIDTH                    ,On Port A. Width of Source ID 7"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC7_HEIGHT                   ,On Port A. Height of Source ID 7"
rgroup.long 0x50++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC8_SIZE,Width and Height for Source 8"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC8_WIDTH                    ,On Port A. Width of Source ID 8"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC8_HEIGHT                   ,On Port A. Height of Source ID 8"
rgroup.long 0x54++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC9_SIZE,Width and Height for Source 9"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC9_WIDTH                    ,On Port A. Width of Source ID 9"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC9_HEIGHT                   ,On Port A. Height of Source ID 9"
rgroup.long 0x58++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC10_SIZE,Width and Height for Source 10"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC10_WIDTH                   ,On Port A. Width of Source ID 10"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC10_HEIGHT                  ,On Port A. Height of Source ID 10"
rgroup.long 0x5C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC11_SIZE,Width and Height for Source 11"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC11_WIDTH                   ,On Port A. Width of Source ID 11"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC11_HEIGHT                  ,On Port A. Height of Source ID 11"
rgroup.long 0x60++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC12_SIZE,Width and Height for Source 12"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC12_WIDTH                   ,On Port A. Width of Source ID 12"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC12_HEIGHT                  ,On Port A. Height of Source ID 12"
rgroup.long 0x64++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC13_SIZE,Width and Height for Source 13"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC13_WIDTH                   ,On Port A. Width of Source ID 13"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC13_HEIGHT                  ,On Port A. Height of Source ID 13"
rgroup.long 0x68++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC14_SIZE,Width and Height for Source 14"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC14_WIDTH                   ,On Port A. Width of Source ID 14"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC14_HEIGHT                  ,On Port A. Height of Source ID 14"
rgroup.long 0x6C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC15_SIZE,Width and Height for Source 15"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC15_WIDTH                   ,On Port A. Width of Source ID 15"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC15_HEIGHT                  ,On Port A. Height of Source ID 15"
rgroup.long 0x70++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC0_SIZE,Width and Height for Source 0"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC0_WIDTH                    ,On Port B. Width of Source ID 0"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC0_HEIGHT                   ,On Port B. Height of Source ID 0"
rgroup.long 0x74++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC1_SIZE,Width and Height for Source 1"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC1_WIDTH                    ,On Port B. Width of Source ID 1"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC1_HEIGHT                   ,On Port B. Height of Source ID 1"
rgroup.long 0x78++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC2_SIZE,Width and Height for Source 2"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC2_WIDTH                    ,On Port B. Width of Source ID 2"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC2_HEIGHT                   ,On Port B. Height of Source ID 2"
rgroup.long 0x7C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC3_SIZE,Width and Height for Source 3"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC3_WIDTH                    ,On Port B. Width of Source ID 3"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC3_HEIGHT                   ,On Port B. Height of Source ID 3"
rgroup.long 0x80++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC4_SIZE,Width and Height for Source 4"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC4_WIDTH                    ,On Port B. Width of Source ID 4"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC4_HEIGHT                   ,On Port B. Height of Source ID 4"
rgroup.long 0x84++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC5_SIZE,Width and Height for Source 5"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC5_WIDTH                    ,On Port B. Width of Source ID 5"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC5_HEIGHT                   ,On Port B. Height of Source ID 5"
rgroup.long 0x88++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC6_SIZE,Width and Height for Source 6"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC6_WIDTH                    ,On Port B. Width of Source ID 6"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC6_HEIGHT                   ,On Port B. Height of Source ID 6"
rgroup.long 0x8C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC7_SIZE,Width and Height for Source 7"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC7_WIDTH                    ,On Port B. Width of Source ID 7"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC7_HEIGHT                   ,On Port B. Height of Source ID 7"
rgroup.long 0x90++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC8_SIZE,Width and Height for Source 8"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC8_WIDTH                    ,On Port B. Width of Source ID 8"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC8_HEIGHT                   ,On Port B. Height of Source ID 8"
rgroup.long 0x94++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC9_SIZE,Width and Height for Source 9"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC9_WIDTH                    ,On Port B. Width of Source ID 9"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC9_HEIGHT                   ,On Port B. Height of Source ID 9"
rgroup.long 0x98++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC10_SIZE,Width and Height for Source 10"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC10_WIDTH                   ,On Port B. Width of Source ID 10"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC10_HEIGHT                  ,On Port B. Height of Source ID 10"
rgroup.long 0x9C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC11_SIZE,Width and Height for Source 11"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC11_WIDTH                   ,On Port B. Width of Source ID 11"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC11_HEIGHT                  ,On Port B. Height of Source ID 11"
rgroup.long 0xA0++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC12_SIZE,Width and Height for Source 12"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC12_WIDTH                   ,On Port B. Width of Source ID 12"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC12_HEIGHT                  ,On Port B. Height of Source ID 12"
rgroup.long 0xA4++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC13_SIZE,Width and Height for Source 13"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC13_WIDTH                   ,On Port B. Width of Source ID 13"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC13_HEIGHT                  ,On Port B. Height of Source ID 13"
rgroup.long 0xA8++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC14_SIZE,Width and Height for Source 14"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC14_WIDTH                   ,On Port B. Width of Source ID 14"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC14_HEIGHT                  ,On Port B. Height of Source ID 14"
rgroup.long 0xAC++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC15_SIZE,Width and Height for Source 15"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC15_WIDTH                   ,On Port B. Width of Source ID 15"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC15_HEIGHT                  ,On Port B. Height of Source ID 15"
rgroup.long 0xB0++0x3
line.long 0x00 "VIP_PORT_A_VDET_VEC,Each bit represents the VDET bit setting for Line Mux Mode"
hexmask.long 0x00 0.--31. 1. " PRTA_VDET_VEC                      ,For Embedded Sync Only In Line Mux Mode. each bit represents the vdet value on Port A for the corresponding source id. This vector is meaningless for 1x/2x/4x mux modes."
rgroup.long 0xB4++0x3
line.long 0x00 "VIP_PORT_B_VDET_VEC,Each bit represents the VDET bit setting for Line Mux Mode"
hexmask.long 0x00 0.--31. 1. " PRTB_VDET_VEC                      ,For Embedded Sync Only In Line Mux Mode. each bit represents the vdet value on Port B for the corresponding source id. This vector is meaningless for 1x/2x/4x mux modes."
group.long 0xB8++0x3
line.long 0x00 "VIP_ANC_CROP_HORZ_PORT_A,Ancillary Cropping Configuration for Input Port A"
bitfld.long 0x00 28.--31. " ANC_TARGET_SRCNUM                  ,The cropping module can work on only one srcnum. specified in this field. for each dss_vip_parser output port (Ancillary data)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 16.--27. 1. "        ANC_USE_NUMPIX                     ,When cropping, the number of pixels to keep after the skip_numpix value. skip_numpix + use_numpix must be smaller than the original line width."
bitfld.long 0x00 15. "  ANC_BYPASS_N                       ,0 = Bypass cropping module 1 = Cropping module enabled" "0,1"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " ANC_SKIP_NUMPIX                    ,The number of pixels to crop from the beginning of each line."
group.long 0xBC++0x3
line.long 0x00 "VIP_ANC_CROP_VERT_PORT_A,Ancillary Cropping Configuration for Input Port A"
hexmask.long.word 0x00 16.--27. 1. " ANC_USE_NUMLINES                   ,When cropping, the number of lines to keep after the skip_numlines value. Use_numlines + skip_numlines must be smaller than the total number of lines in the srcnum's ancillary data region."
hexmask.long.word 0x00 0.--11. 1. "      ANC_SKIP_NUMLINES                  ,The number of lines to crop from the top of the vertical ancillary data region."
group.long 0xC0++0x3
line.long 0x00 "VIP_CROP_HORZ_PORT_A,Active Video Cropping Configuration for Input Port A"
bitfld.long 0x00 28.--31. " ACT_TARGET_SRCNUM                  ,The cropping module can work on only one srcnum. specified in this field. for each dss_vip_parser output port (Active video)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 16.--27. 1. "        ACT_USE_NUMPIX                     ,When cropping, the number of pixels to keep after the skip_numpix value. skip_numpix + use_numpix must be smaller than the original line width."
bitfld.long 0x00 15. "  ACT_BYPASS_N                       ,0 = Bypass cropping module 1 = Cropping module enabled" "0,1"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " ACT_SKIP_NUMPIX                    ,The number of pixels to crop from the beginning of each line."
group.long 0xC4++0x3
line.long 0x00 "VIP_CROP_VERT_PORT_A,Active Video Cropping Configuration for Input Port A"
hexmask.long.word 0x00 16.--27. 1. " ACT_USE_NUMLINES                   ,When cropping.. the number of lines to keep after the skip_numlines value. Use_numlines + skip_numlines must be smaller than the total number of lines in the srcnum's active video region."
hexmask.long.word 0x00 0.--11. 1. "      ACT_SKIP_NUMLINES                  ,The number of lines to crop from the top of the vertical active video region."
group.long 0xC8++0x3
line.long 0x00 "VIP_ANC_VIP_CROP_HORZ_PORT_B,Ancillary Cropping Configuration for Input Port B"
bitfld.long 0x00 28.--31. " ANC_TARGET_SRCNUM                  ,The cropping module can work on only one srcnum. specified in this field. for each dss_vip_parser output port (Ancillary data)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 16.--27. 1. "        ANC_USE_NUMPIX                     ,When cropping, the number of pixels to keep after the skip_numpix value. skip_numpix + use_numpix must be smaller than the original line width."
bitfld.long 0x00 15. "  ANC_BYPASS_N                       ,0 = Bypass cropping module 1 = Cropping module enabled" "0,1"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " ANC_SKIP_NUMPIX                    ,The number of pixels to crop from the beginning of each line."
group.long 0xCC++0x3
line.long 0x00 "VIP_ANC_VIP_CROP_VERT_PORT_B,Ancillary Cropping Configuration for Input Port B"
hexmask.long.word 0x00 16.--27. 1. " ANC_USE_NUMLINES                   ,When cropping, the number of lines to keep after the skip_numlines value. Use_numlines + skip_numlines must be smaller than the total number of lines in the srcnums active video region."
hexmask.long.word 0x00 0.--11. 1. "      ANC_SKIP_NUMLINES                  ,The number of lines to crop from the top of the vertical ancillary data region."
group.long 0xD0++0x3
line.long 0x00 "VIP_CROP_HORZ_PORT_B,Active Video Cropping Configuration for Input Port B"
bitfld.long 0x00 28.--31. " ACT_TARGET_SRCNUM                  ,The cropping module can work on only one srcnum. specified in this field. for each dss_vip_parser output port (Active video)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 16.--27. 1. "        ACT_USE_NUMPIX                     ,When cropping, the number of pixels to keep after the skip_numpix value. skip_numpix + use_numpix must be smaller than the original line width."
bitfld.long 0x00 15. "  ACT_BYPASS_N                       ,0 = Bypass cropping module 1 = Cropping module enabled" "0,1"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " ACT_SKIP_NUMPIX                    ,The number of pixels to crop from the beginning of each line."
group.long 0xD4++0x3
line.long 0x00 "VIP_CROP_VERT_PORT_B,Active Video Cropping Configuration for Input Port B"
hexmask.long.word 0x00 16.--27. 1. " ACT_USE_NUMLINES                   ,When cropping, the number of lines to keep after the skip_numlines value. Use_numlines + skip_numlines must be smaller than the total number of lines in the srcnum's active video region."
hexmask.long.word 0x00 0.--11. 1. "      ACT_SKIP_NUMLINES                  ,The number of lines to crop from the top of the vertical active video region."
group.long 0xD8++0x3
line.long 0x00 "VIP_XTRA6_PORT_A,Cfg Disable Active Srcnum Vector Input for Port A"
hexmask.long.word 0x00 16.--31. 1. " YUV_SRCNUM_STOP_IMMEDIATELY        ,For the Active Video Port to the VPDMA, logic exists to ensure that a complete frame is sent out to the VPDMA following cfg_enable transitioning inactive for that port. Each bit in this vector represents a srcnum (r..."
hexmask.long.word 0x00 0.--15. 1. "      ANC_SRCNUM_STOP_IMMEDIATELY        ,For the Ancillary Data Port to the VPDMA, logic exists to ensure that a complete frame is sent out to the VPDMA following cfg_enable transitioning inactive for that port. Each bit in this vector represents a sr..."
group.long 0xDC++0x3
line.long 0x00 "VIP_XTRA7_PORT_B,Cfg Disable Active Srcnum Vector Input for Port B"
hexmask.long.word 0x00 16.--31. 1. " YUV_SRCNUM_STOP_IMMEDIATELY        ,For the Active Video Port to the VPDMA, logic exists to ensure that a complete frame is sent out to the VPDMA following cfg_enable transitioning inactive for that port. Each bit in this vector represents a srcnum (r..."
hexmask.long.word 0x00 0.--15. 1. "      ANC_SRCNUM_STOP_IMMEDIATELY        ,For the Ancillary Data Port to the VPDMA, logic exists to ensure that a complete frame is sent out to the VPDMA following cfg_enable transitioning inactive for that port. Each bit in this vector represents a sr..."
group.long 0xE0++0x3
line.long 0x00 "VIP_XTRA8_PORT_A,Reserved Register for Port A"
group.long 0xE4++0x3
line.long 0x00 "VIP_XTRA9_PORT_B,Reserved Register for Port B"
width 0x0B
tree.end
tree "VIP3_Slice0_parser"
base ad:0x489B5500
width 30.
group.long 0x0++0x3
line.long 0x00 "VIP_MAIN,ain Configuration for VIP Parser"
bitfld.long 0x00 5. " CLIP_ACTIVE                        ,Discrete Sync Only 0 = Do not clip active pixels 1 = Clip Active Pixels as follows: 0xFF -andgt; 0xFE.. 0x00 -andgt; 0x01" "0,1"
bitfld.long 0x00 4. "         CLIP_BLNK                          ,Discrete Sync Only 0 = Do not clip Blanking Data 1 = Clip Blanking Data as follows: 0xFF -andgt; 0xFE.. 0x00 -andgt; 0x01" "0,1"
bitfld.long 0x00 0.--1. "     DATA_INTERFACE_MODE                ,00 = 24b data interface. Uses Port A settings 01 = 16b data interface. Uses Port A settings. 10 = Dual independent 8b data interfaces. Uses independent Port A and Port B settings. 11 = Undefined" "0,1,2,3"
group.long 0x4++0x3
line.long 0x00 "VIP_PORT_A,Configuration for Input Port A"
bitfld.long 0x00 31. " ANALYZER_FVH_ERR_CORRECTION_ENABLE ,Embedded Sync Only 0 = Ignore the protection bits in the XV (fvh) codeword header. This setting is typically desired. 1 = Use the protection bits in an attempt to do error correction for the fvh control bits." "0,1"
bitfld.long 0x00 30. "         ANALYZER_2X4X_SRCNUM_POS           ,Embedded Sync Only 0 = For 2x/4x mux mode, srcnum is in the least significant nibble of the XV/fvh codeword (srcnum replaces the protection bits) 1 = For 2x/4x mux mode, srcnum is in the least significant ni..." "0,1"
bitfld.long 0x00 24.--29. "     FID_SKEW_POSTCOUNT                 ,Discrete Sync Only post count value when using vsync skew in FID determination" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                       "
bitfld.long 0x00 23. " SW_RESET                           ,0 = Normal 1 = Reset Port A logic. Must be set to ?0? again by the software for the module to function." "0,1"
bitfld.long 0x00 22. "         DISCRETE_BASIC_MODE                ,This register is valid for Discrete Sync mode only. 0 = Normal Discrete Mode. Hsync Style Capture operates as follows: - Captures line starting from HSYNC inactive to active condition. - VSYNC determined by ..." "0,1"
bitfld.long 0x00 16.--21. "     FID_SKEW_PRECOUNT                  ,Discrete Sync Only pre count value when using vsync skew in FID determination" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                       "
bitfld.long 0x00 15. " USE_ACTVID_HSYNC_N                 ,Discrete Sync Only 0 = Use HSYNC style line capture 1 = Use ACTVID style line capture" "0,1"
bitfld.long 0x00 14. "         FID_DETECT_MODE                    ,Discrete Sync Only 0 = Take FID from pin 1 = FID is determined by VSYNC skew" "0,1"
bitfld.long 0x00 13. "     ACTVID_POLARITY                    ,Discrete Sync Only 0 = ACTVID is active low 1 = ACTVID is active high" "0,1"
textline "                                       "
bitfld.long 0x00 12. " VSYNC_POLARITY                     ,Discrete Sync Only 0 = VSYNC is active low 1 = VSYNC is active high" "0,1"
bitfld.long 0x00 11. "         HSYNC_POLARITY                     ,Discrete Sync Only 0 = HSYNC is active low 1 = HSYNC is active high" "0,1"
bitfld.long 0x00 10. "     PIXCLK_EDGE_POLARITY               ,0 = Rising Edge is active PIXCLK edge 1 = Falling Edge is active PIXCLK edge" "0,1"
textline "                                       "
bitfld.long 0x00 9. " FID_POLARITY                       ,0 = Keep FID as found 1 = Invert Determined Value of FID" "0,1"
bitfld.long 0x00 8. "         ENABLE                             ,0 = Disable Port 1 = Enable Port" "0,1"
bitfld.long 0x00 7. "     CLR_ASYNC_FIFO_RD                  ,0 = Normal 1 = Clear Async FIFO Read Logic" "0,1"
textline "                                       "
bitfld.long 0x00 6. " CLR_ASYNC_FIFO_WR                  ,0 = Normal 1 = Clear Async FIFO Write Logic" "0,1"
bitfld.long 0x00 4.--5. "         CTRL_CHAN_SEL                      ,Embedded Sync Only In 8b mode.. there is only one channel on data[7:0]. In 16b mode.. there are two channels. The Luma Channel is on data[15:8]. The Chroma Channel is on data[7:0]. In 24b mode.. there are th..." "0,1,2,3"
bitfld.long 0x00 0.--3. "     SYNC_TYPE                          ,0000 = embedded sync single 4:2:2 YUV stream 0001 = embedded sync 2x multiplexed 4:2:2 YUV stream 0010 = embedded sync 4x multiplexed 4:2:2 YUV stream 0011 = embedded sync line multiplexed 4:2:2 YUV stream 0100 ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x8++0x3
line.long 0x00 "VIP_XTRA_PORT_A,ore Configuration for Input Port A"
bitfld.long 0x00 28.--30. " REPACK_SEL                         ,000 = Straight Through 001 = Cross Swap 010 = Left Center Swap 011 = Center Right Swap 100 = Right Rotate 101 = Left Rotate 110 = RAW16 to RGB565 Mapping 111 = RAW12 Swap" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--27. 1. "         SRC0_NUMPIX                        ,Number of expected pixels on Source Number 0. The Port_a_src0_size interrupt will trigger if a line is encountered that differs from this pixelcount."
bitfld.long 0x00 13.--14. "  ANC_CHAN_SEL_8B                    ,In 8b mode, Vertically Ancillary Data typically resides in the Luma sites. This bit allows vertical ancillary data to be extracted from the chroma sites instead . 00 = Extract 8b Mode Vertical Ancillary Data from L..." "0,1,2,3"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " SRC0_NUMLINES                      ,Number of expected lines on Source Number 0. The Port_a_src0_size interrupt will trigger if a field/frame is encountered that differs from this linecount."
group.long 0xC++0x3
line.long 0x00 "VIP_PORT_B,Configuration for Input Port B"
bitfld.long 0x00 31. " ANALYZER_FVH_ERR_CORRECTION_ENABLE ,Embedded Sync Only 0 = Ignore the protection bits in the XV (fvh) codeword header. This setting is typically desired. 1 = Use the protection bits in an attempt to do error correction for the fvh control bits." "0,1"
bitfld.long 0x00 30. "         ANALYZER_2X4X_SRCNUM_POS           ,Embedded Sync Only 0 = For 2x/4x mux mode, srcnum is in the least significant nibble of the XV/fvh codeword (srcnum replaces the protection bits) 1 = For 2x/4x mux mode, srcnum is in the least significant ni..." "0,1"
bitfld.long 0x00 24.--29. "     FID_SKEW_POSTCOUNT                 ,Discrete Sync Only post count value when using vsync skew in FID determination" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                       "
bitfld.long 0x00 23. " SW_RESET                           ,0 = Normal 1 = Reset Port B logic. Must be set to ?0? again by the software for the module to function." "0,1"
bitfld.long 0x00 22. "         DISCRETE_BASIC_MODE                ,This register is valid for Discrete Sync mode only. 0 = Normal Discrete Mode. Hsync Style Capture operates as follows: - Captures line starting from HSYNC inactive to active condition. - VSYNC determined by ..." "0,1"
bitfld.long 0x00 16.--21. "     FID_SKEW_PRECOUNT                  ,Discrete Sync Only pre count value when using vsync skew in FID determination" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                       "
bitfld.long 0x00 15. " USE_ACTVID_HSYNC_N                 ,Discrete Sync Only 0 = Use HSYNC style line capture 1 = Use ACTVID style line capture" "0,1"
bitfld.long 0x00 14. "         FID_DETECT_MODE                    ,Discrete Sync Only 0 = Take FID from pin 1 = FID is determined by VSYNC skew" "0,1"
bitfld.long 0x00 13. "     ACTVID_POLARITY                    ,Discrete Sync Only 0 = ACTVID is active low 1 = ACTVID is active high" "0,1"
textline "                                       "
bitfld.long 0x00 12. " VSYNC_POLARITY                     ,Discrete Sync Only 0 = VSYNC is active low 1 = VSYNC is active high" "0,1"
bitfld.long 0x00 11. "         HSYNC_POLARITY                     ,Discrete Sync Only 0 = HSYNC is active low 1 = HSYNC is active high" "0,1"
bitfld.long 0x00 10. "     PIXCLK_EDGE_POLARITY               ,0 = Rising Edge is active PIXCLK edge 1 = Falling Edge is active PIXCLK edge" "0,1"
textline "                                       "
bitfld.long 0x00 9. " FID_POLARITY                       ,0 = Keep FID as found 1 = Invert Determined Value of FID" "0,1"
bitfld.long 0x00 8. "         ENABLE                             ,0 = Disable 1 = Enable" "0,1"
bitfld.long 0x00 7. "     CLR_ASYNC_FIFO_RD                  ,0 = Normal 1 = Clear Async FIFO Read Logic" "0,1"
textline "                                       "
bitfld.long 0x00 6. " CLR_ASYNC_FIFO_WR                  ,0 = Normal 1 = Clear Async FIFO Write Logic" "0,1"
bitfld.long 0x00 4.--5. "         CTRL_CHAN_SEL                      ,PORT B supports on 8b mode. Always write 0 to this field. The anc_chan_sel_8b register is used to select the Luma or Chroma channel from which Ancillary Data is taken." "0,1,2,3"
bitfld.long 0x00 0.--3. "     SYNC_TYPE                          ,0000 = embedded sync single YUV stream 0001 = embedded sync 2x multiplexed YUV stream 0010 = embedded sync 4x multiplexed YUV stream 0011 = embedded sync line multiplexed YUV stream 0100 = discrete sync single Y..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10++0x3
line.long 0x00 "VIP_XTRA_PORT_B,ore Configuration for Input Port B"
hexmask.long.word 0x00 16.--27. 1. " SRC0_NUMPIX                        ,Number of expected pixels on Source Number 0. The Port_b_src0_size interrupt will trigger if a line is encountered that differs from this pixelcount."
bitfld.long 0x00 13.--14. "      ANC_CHAN_SEL_8B                    ,In 8b mode, Vertically Ancillary Data typically resides in the Luma sites. This bit allows vertical ancillary data to be extracted from the chroma sites instead . 00 = Extract 8b Mode Vertical Ancillary Data fr..." "0,1,2,3"
hexmask.long.word 0x00 0.--11. 1. "     SRC0_NUMLINES                      ,Number of expected lines on Source Number 0. The Port_b_src0_size interrupt will trigger if a field/frame is encountered that differs from this linecount."
group.long 0x14++0x3
line.long 0x00 "VIP_FIQ_MASK,ask Bits for ARM FIQs"
bitfld.long 0x00 21. " PORT_B_CFG_DISABLE_COMPLETE_MASK   ,Port B Cfg Disable Complete Mask" "0,1"
bitfld.long 0x00 20. "         PORT_A_CFG_DISABLE_COMPLETE_MASK   ,Port A Cfg Disable Complete Mask" "0,1"
bitfld.long 0x00 19. "     PORT_B_ANC_PROTOCOL_VIOLATION_MASK ,Port B ANC VPI Protocol Violation Mask" "0,1"
textline "                                       "
bitfld.long 0x00 18. " PORT_B_YUV_PROTOCOL_VIOLATION_MASK ,Port B YUV VPI Protocol Violation Mask" "0,1"
bitfld.long 0x00 17. "         PORT_A_ANC_PROTOCOL_VIOLATION_MASK ,Port A ANC VPI Protocol Violation Mask" "0,1"
bitfld.long 0x00 16. "     PORT_A_YUV_PROTOCOL_VIOLATION_MASK ,Port A YUV VPI Protocol Violation Mask" "0,1"
textline "                                       "
bitfld.long 0x00 15. " PORT_B_SRC0_SIZE                   ,Video size detected on Port B does not match size programmed in xtra_port_b register" "0,1"
bitfld.long 0x00 14. "         PORT_A_SRC0_SIZE                   ,Video size detected on Port A does not match size programmed in xtra_port_a register" "0,1"
bitfld.long 0x00 13. "     PORT_B_DISCONN                     ,Port B Link Disconnect Srcnum 0 Mask" "0,1"
textline "                                       "
bitfld.long 0x00 12. " PORT_B_CONN                        ,Port B Link Connect Srcnum 0 Mask" "0,1"
bitfld.long 0x00 11. "         PORT_A_DISCONN                     ,Port A Link Disconnect Scrnum 0 Mask" "0,1"
bitfld.long 0x00 10. "     PORT_A_CONN                        ,Port A Link Connect Srcnum 0 Mask" "0,1"
textline "                                       "
bitfld.long 0x00 9. " OUTPUT_FIFO_PRTB_ANC_OF            ,Output FIFO Port B Ancillary Overflow Mask" "0,1"
bitfld.long 0x00 7. "         OUTPUT_FIFO_PRTB_YUV_OF            ,Output FIFO Port B Luma Overflow Mask" "0,1"
bitfld.long 0x00 6. "     OUTPUT_FIFO_PRTA_ANC_OF            ,Output FIFO Port A Ancillary Overflow Mask" "0,1"
textline "                                       "
bitfld.long 0x00 4. " OUTPUT_FIFO_PRTA_YUV_OF            ,Output FIFO Port A Luma Overflow Mask" "0,1"
bitfld.long 0x00 3. "         ASYNC_FIFO_PRTB_OF                 ,Port B Async FIFO Overflow FIQ Mask" "0,1"
bitfld.long 0x00 2. "     ASYNC_FIFO_PRTA_OF                 ,Port A Async FIFO Overflow FIQ Mask" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTB_VDET_MASK                     ,Port B Video Detect FIQ Mask" "0,1"
bitfld.long 0x00 0. "         PRTA_VDET_MASK                     ,Port A Video Detect FIQ Mask" "0,1"
group.long 0x18++0x3
line.long 0x00 "VIP_FIQ_CLEAR,Clears bits in the FIQ Status"
bitfld.long 0x00 21. " PORT_A_YUV_PROTOCOL_VIOLATION_CLR  ,Write 1 followed by 0 to Clear Port B Cfg Disable Complete FIQ" "0,1"
bitfld.long 0x00 20. "         PORT_A_ANC_PROTOCOL_VIOLATION_CLR  ,Write 1 followed by 0 to Clear Port A Cfg Disable Complete FIQ" "0,1"
bitfld.long 0x00 19. "     PORT_B_YUV_PROTOCOL_VIOLATION_CLR  ,Write 1 followed by 0 to Clear Port B ANC VPI Protocol Violation FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 18. " PORT_B_ANC_PROTOCOL_VIOLATION_CLR  ,Write 1 followed by 0 to Clear Port B YUV VPI Protocol Violation FIQ" "0,1"
bitfld.long 0x00 17. "         PORT_A_CFG_DISABLE_COMPLETE_CLR    ,Write 1 followed by 0 to Clear Port A ANC VPI Protocol Violation FIQ" "0,1"
bitfld.long 0x00 16. "     PORT_B_CFG_DISABLE_COMPLETE_CLR    ,Write 1 followed by 0 to Clear Port A YUV VPI Protocol Violation FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 15. " PORT_B_SRC0_SIZE_CLR               ,Write 1 followed by 0 to Clear Port B Src0 Size FIQ" "0,1"
bitfld.long 0x00 14. "         PORT_A_SRC0_SIZE_CLR               ,Write 1 followed by 0 to Clear Port A Src0 Size FIQ" "0,1"
bitfld.long 0x00 13. "     PORT_B_DISCONN_CLR                 ,Write 1 followed by 0 to Clear Port B Link Disconnect FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 12. " PORT_B_CONN_CLR                    ,Write 1 followed by 0 to Clear Port B Link Connect FIQ" "0,1"
bitfld.long 0x00 11. "         PORT_A_DISCONN_CLR                 ,Write 1 followed by 0 to Clear Port A Link Disconnect FIQ" "0,1"
bitfld.long 0x00 10. "     PORT_A_CONN_CLR                    ,Write 1 followed by 0 to Clear Port A Link Connect FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 9. " OUTPUT_FIFO_PRTB_ANC_CLR           ,Write 1 followed by 0 to Clear Output FIFO Port B Ancillary Overflow FIQ" "0,1"
bitfld.long 0x00 7. "         OUTPUT_FIFO_PRTB_YUV_CLR           ,Write 1 followed by 0 to Clear Output FIFO Port B Luma Overflow FIQ" "0,1"
bitfld.long 0x00 6. "     OUTPUT_FIFO_PRTA_ANC_CLR           ,Write 1 followed by 0 to Clear Output FIFO Port A Ancillary Overflow FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 4. " OUTPUT_FIFO_PRTA_YUV_CLR           ,Write 1 followed by 0 to Clear Output FIFO Port A Luma Overflow FIQ" "0,1"
bitfld.long 0x00 3. "         ASYNC_FIFO_PRTB_CLR                ,Write 1 followed by 0 to Clear Async FIFO Port B Overflow FIQ" "0,1"
bitfld.long 0x00 2. "     ASYNC_FIFO_PRTA_CLR                ,Write 1 followed by 0 to Clear Async FIFO Port A Overflow FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTB_VDET_CLR                      ,Write 1 followed by 0 to Clear Video Detect FIQ for Port B" "0,1"
bitfld.long 0x00 0. "         PRTA_VDET_CLR                      ,Write 1 followed by 0 to Clear Video Detect FIQ for Port A" "0,1"
rgroup.long 0x1C++0x3
line.long 0x00 "VIP_FIQ_STATUS,FIQ Status values"
bitfld.long 0x00 21. " PORT_B_CFG_DISABLE_COMPLETE_CLR    ,Port B Cfg Disable Complete FIQ" "0,1"
bitfld.long 0x00 20. "         PORT_A_CFG_DISABLE_COMPLETE        ,Port A Cfg Disable Complete FIQ" "0,1"
bitfld.long 0x00 19. "     PORT_B_ANC_PROTOCOL_VIOLATION      ,Port B ANC VPI Protocol Violation FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 18. " PORT_B_YUV_PROTOCOL_VIOLATION      ,Port B YUV VPI Protocol Violation FIQ" "0,1"
bitfld.long 0x00 17. "         PORT_A_ANC_PROTOCOL_VIOLATION      ,Port A ANC VPI Protocol Violation FIQ" "0,1"
bitfld.long 0x00 16. "     PORT_A_YUV_PROTOCOL_VIOLATION      ,Port A YUV VPI Protocol Violation FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 15. " PORT_B_SRC0_SIZE_STATUS            ,Port B Source 0 Size FIQ" "0,1"
bitfld.long 0x00 14. "         PORT_A_SRC0_SIZE_STATUS            ,Port A Source 0 Size FIQ" "0,1"
bitfld.long 0x00 13. "     PORT_B_DISCONN_STATUS              ,Port B Disconnect FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 12. " PORT_B_CONN_STATUS                 ,Port B Connect FIQ" "0,1"
bitfld.long 0x00 11. "         PORT_A_DISCONN_STATUS              ,Port A Disconnect FIQ" "0,1"
bitfld.long 0x00 10. "     PORT_A_CONN_STATUS                 ,Port A Connect FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 9. " OUTPUT_FIFO_PRTB_ANC_STATUS        ,Output FIFO Port B Ancillary Overflow Status" "0,1"
bitfld.long 0x00 8. "         OUTPUT_FIFO_PRTB_CHROMA_STATUS     ,Output FIFO Port B Chroma Overflow Status" "0,1"
bitfld.long 0x00 7. "     OUTPUT_FIFO_PRTB_LUMA_STATUS       ,Output FIFO Port B Luma Overflow Status" "0,1"
textline "                                       "
bitfld.long 0x00 6. " OUTPUT_FIFO_PRTA_ANC_STATUS        ,Output FIFO Port A Ancillary Overflow Status" "0,1"
bitfld.long 0x00 5. "         OUTPUT_FIFO_PRTA_CHROMA_STATUS     ,Output FIFO Port A Chroma Overflow Status" "0,1"
bitfld.long 0x00 4. "     OUTPUT_FIFO_PRTA_LUMA_STATUS       ,Output FIFO Port A Luma Overflow Status" "0,1"
textline "                                       "
bitfld.long 0x00 3. " ASYNC_FIFO_PRTB_STATUS             ,Async FIFO Port B Overflow Status" "0,1"
bitfld.long 0x00 2. "         ASYNC_FIFO_PRTA_STATUS             ,Async FIFO Port A Overflow Status" "0,1"
bitfld.long 0x00 1. "     PRTB_VDET_STATUS                   ,VDET Status for Port B" "0,1"
textline "                                       "
bitfld.long 0x00 0. " PRTA_VDET_STATUS                   ,VDET Status for Port A" "0,1"
rgroup.long 0x20++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC_FID,Current and Previous Output Port A Source FID values"
bitfld.long 0x00 31. " PRTA_SRC15_CURR_SOURCE_FID         ,For Source ID 15 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 30. "         PRTA_SRC15_PREV_SOURCE_FID         ,For Source ID 15 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 29. "     PRTA_SRC14_CURR_SOURCE_FID         ,For Source ID 14 from Port A. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 28. " PRTA_SRC14_PREV_SOURCE_FID         ,For Source ID 14 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 27. "         PRTA_SRC13_CURR_SOURCE_FID         ,For Source ID 13 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 26. "     PRTA_SRC13_PREV_SOURCE_FID         ,For Source ID 13 from Port A. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 25. " PRTA_SRC12_CURR_SOURCE_FID         ,For Source ID 12 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 24. "         PRTA_SRC12_PREV_SOURCE_FID         ,For Source ID 12 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 23. "     PRTA_SRC11_CURR_SOURCE_FID         ,For Source ID 11 from Port A. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 22. " PRTA_SRC11_PREV_SOURCE_FID         ,For Source ID 11 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 21. "         PRTA_SRC10_CURR_SOURCE_FID         ,For Source ID 10 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 20. "     PRTA_SRC10_PREV_SOURCE_FID         ,For Source ID 10 from Port A. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 19. " PRTA_SRC9_CURR_SOURCE_FID          ,For Source ID 9 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 18. "         PRTA_SRC9_PREV_SOURCE_FID          ,For Source ID 9 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 17. "     PRTA_SRC8_CURR_SOURCE_FID          ,For Source ID 8 from Port A. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 16. " PRTA_SRC8_PREV_SOURCE_FID          ,For Source ID 8 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 15. "         PRTA_SRC7_CURR_SOURCE_FID          ,For Source ID 7 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 14. "     PRTA_SRC7_PREV_SOURCE_FID          ,For Source ID 7 from Port A. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 13. " PRTA_SRC6_CURR_SOURCE_FID          ,For Source ID 6 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 12. "         PRTA_SRC6_PREV_SOURCE_FID          ,For Source ID 6 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 11. "     PRTA_SRC5_CURR_SOURCE_FID          ,For Source ID 5 from Port A. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PRTA_SRC5_PREV_SOURCE_FID          ,For Source ID 5 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 9. "         PRTA_SRC4_CURR_SOURCE_FID          ,For Source ID 4 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 8. "     PRTA_SRC4_PREV_SOURCE_FID          ,For Source ID 4 from Port A. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PRTA_SRC3_CURR_SOURCE_FID          ,For Source ID 3 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 6. "         PRTA_SRC3_PREV_SOURCE_FID          ,For Source ID 3 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 5. "     PRTA_SRC2_CURR_SOURCE_FID          ,For Source ID 2 from Port A. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 4. " PRTA_SRC2_PREV_SOURCE_FID          ,For Source ID 2 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 3. "         PRTA_SRC1_CURR_SOURCE_FID          ,For Source ID 1 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 2. "     PRTA_SRC1_PREV_SOURCE_FID          ,For Source ID 1 from Port A. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTA_SRC0_CURR_SOURCE_FID          ,For Source ID 0 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 0. "         PRTA_SRC0_PREV_SOURCE_FID          ,For Source ID 0 from Port A. Source Field ID for Previous Field" "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_ENC_FID,Current and Previous Output Port A Encoder FID values"
bitfld.long 0x00 31. " PRTA_SRC15_CURR_ENC_FID            ,For Source ID 15 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 30. "         PRTA_SRC15_PREV_ENC_FID            ,For Source ID 15 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 29. "     PRTA_SRC14_CURR_ENC_FID            ,For Source ID 14 from Port A. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 28. " PRTA_SRC14_PREV_ENC_FID            ,For Source ID 14 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 27. "         PRTA_SRC13_CURR_ENC_FID            ,For Source ID 13 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 26. "     PRTA_SRC13_PREV_ENC_FID            ,For Source ID 13 from Port A. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 25. " PRTA_SRC12_CURR_ENC_FID            ,For Source ID 12 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 24. "         PRTA_SRC12_PREV_ENC_FID            ,For Source ID 12 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 23. "     PRTA_SRC11_CURR_ENC_FID            ,For Source ID 11 from Port A. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 22. " PRTA_SRC11_PREV_ENC_FID            ,For Source ID 11 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 21. "         PRTA_SRC10_CURR_ENC_FID            ,For Source ID 10 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 20. "     PRTA_SRC10_PREV_ENC_FID            ,For Source ID 10 from Port A. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 19. " PRTA_SRC9_CURR_ENC_FID             ,For Source ID 9 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 18. "         PRTA_SRC9_PREV_ENC_FID             ,For Source ID 9 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 17. "     PRTA_SRC8_CURR_ENC_FID             ,For Source ID 8 from Port A. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 16. " PRTA_SRC8_PREV_ENC_FID             ,For Source ID 8 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 15. "         PRTA_SRC7_CURR_ENC_FID             ,For Source ID 7 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 14. "     PRTA_SRC7_PREV_ENC_FID             ,For Source ID 7 from Port A. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 13. " PRTA_SRC6_CURR_ENC_FID             ,For Source ID 6 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 12. "         PRTA_SRC6_PREV_ENC_FID             ,For Source ID 6 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 11. "     PRTA_SRC5_CURR_ENC_FID             ,For Source ID 5 from Port A. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PRTA_SRC5_PREV_ENC_FID             ,For Source ID 5 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 9. "         PRTA_SRC4_CURR_ENC_FID             ,For Source ID 4 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 8. "     PRTA_SRC4_PREV_ENC_FID             ,For Source ID 4 from Port A. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PRTA_SRC3_CURR_ENC_FID             ,For Source ID 3 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 6. "         PRTA_SRC3_PREV_ENC_FID             ,For Source ID 3 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 5. "     PRTA_SRC2_CURR_ENC_FID             ,For Source ID 2 from Port A. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 4. " PRTA_SRC2_PREV_ENC_FID             ,For Source ID 2 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 3. "         PRTA_SRC1_CURR_ENC_FID             ,For Source ID 1 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 2. "     PRTA_SRC1_PREV_ENC_FID             ,For Source ID 1 from Port A. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTA_SRC0_CURR_ENC_FID             ,For Source ID 0 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 0. "         PRTA_SRC0_PREV_ENC_FID             ,For Source ID 0 from Port A. Encoder Field ID for Previous Field" "0,1"
rgroup.long 0x28++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC_FID,Current and Previous Output Port B Source FID values"
bitfld.long 0x00 31. " PRTB_SRC15_CURR_SOURCE_FID         ,For Source ID 15 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 30. "         PRTB_SRC15_PREV_SOURCE_FID         ,For Source ID 15 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 29. "     PRTB_SRC14_CURR_SOURCE_FID         ,For Source ID 14 from Port B. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 28. " PRTB_SRC14_PREV_SOURCE_FID         ,For Source ID 14 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 27. "         PRTB_SRC13_CURR_SOURCE_FID         ,For Source ID 13 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 26. "     PRTB_SRC13_PREV_SOURCE_FID         ,For Source ID 13 from Port B. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 25. " PRTB_SRC12_CURR_SOURCE_FID         ,For Source ID 12 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 24. "         PRTB_SRC12_PREV_SOURCE_FID         ,For Source ID 12 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 23. "     PRTB_SRC11_CURR_SOURCE_FID         ,For Source ID 11 from Port B. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 22. " PRTB_SRC11_PREV_SOURCE_FID         ,For Source ID 11. from Port B Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 21. "         PRTB_SRC10_CURR_SOURCE_FID         ,For Source ID 10 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 20. "     PRTB_SRC10_PREV_SOURCE_FID         ,For Source ID 10 from Port B. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 19. " PRTB_SRC9_CURR_SOURCE_FID          ,For Source ID 9 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 18. "         PRTB_SRC9_PREV_SOURCE_FID          ,For Source ID 9 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 17. "     PRTB_SRC8_CURR_SOURCE_FID          ,For Source ID 8 from Port B. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 16. " PRTB_SRC8_PREV_SOURCE_FID          ,For Source ID 8 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 15. "         PRTB_SRC7_CURR_SOURCE_FID          ,For Source ID 7 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 14. "     PRTB_SRC7_PREV_SOURCE_FID          ,For Source ID 7 from Port B. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 13. " PRTB_SRC6_CURR_SOURCE_FID          ,For Source ID 6 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 12. "         PRTB_SRC6_PREV_SOURCE_FID          ,For Source ID 6 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 11. "     PRTB_SRC5_CURR_SOURCE_FID          ,For Source ID 5 from Port B. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PRTB_SRC5_PREV_SOURCE_FID          ,For Source ID 5 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 9. "         PRTB_SRC4_CURR_SOURCE_FID          ,For Source ID 4 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 8. "     PRTB_SRC4_PREV_SOURCE_FID          ,For Source ID 4 from Port B. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PRTB_SRC3_CURR_SOURCE_FID          ,For Source ID 3 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 6. "         PRTB_SRC3_PREV_SOURCE_FID          ,For Source ID 3 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 5. "     PRTB_SRC2_CURR_SOURCE_FID          ,For Source ID 2 from Port B. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 4. " PRTB_SRC2_PREV_SOURCE_FID          ,For Source ID 2 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 3. "         PRTB_SRC1_CURR_SOURCE_FID          ,For Source ID 1 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 2. "     PRTB_SRC1_PREV_SOURCE_FID          ,For Source ID 1 from Port B. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTB_SRC0_CURR_SOURCE_FID          ,For Source ID 0 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 0. "         PRTB_SRC0_PREV_SOURCE_FID          ,For Source ID 0 from Port B. Source Field ID for Previous Field" "0,1"
rgroup.long 0x2C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_ENC_FID,Current and Previous Output Port B Encoder FID values"
bitfld.long 0x00 31. " PRTB_SRC15_CURR_ENC_FID            ,For Source ID 15 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 30. "         PRTB_SRC15_PREV_ENC_FID            ,For Source ID 15 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 29. "     PRTB_SRC14_CURR_ENC_FID            ,For Source ID 14 from Port B. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 28. " PRTB_SRC14_PREV_ENC_FID            ,For Source ID 14 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 27. "         PRTB_SRC13_CURR_ENC_FID            ,For Source ID 13 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 26. "     PRTB_SRC13_PREV_ENC_FID            ,For Source ID 13 from Port B. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 25. " PRTB_SRC12_CURR_ENC_FID            ,For Source ID 12 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 24. "         PRTB_SRC12_PREV_ENC_FID            ,For Source ID 12 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 23. "     PRTB_SRC11_CURR_ENC_FID            ,For Source ID 11 from Port B. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 22. " PRTB_SRC11_PREV_ENC_FID            ,For Source ID 11 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 21. "         PRTB_SRC10_CURR_ENC_FID            ,For Source ID 10 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 20. "     PRTB_SRC10_PREV_ENC_FID            ,For Source ID 10 from Port B. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 19. " PRTB_SRC9_CURR_ENC_FID             ,For Source ID 9 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 18. "         PRTB_SRC9_PREV_ENC_FID             ,For Source ID 9 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 17. "     PRTB_SRC8_CURR_ENC_FID             ,For Source ID 8 from Port B. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 16. " PRTB_SRC8_PREV_ENC_FID             ,For Source ID 8 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 15. "         PRTB_SRC7_CURR_ENC_FID             ,For Source ID 7 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 14. "     PRTB_SRC7_PREV_ENC_FID             ,For Source ID 7 from Port B. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 13. " PRTB_SRC6_CURR_ENC_FID             ,For Source ID 6 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 12. "         PRTB_SRC6_PREV_ENC_FID             ,For Source ID 6 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 11. "     PRTB_SRC5_CURR_ENC_FID             ,For Source ID 5 from Port B. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PRTB_SRC5_PREV_ENC_FID             ,For Source ID 5 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 9. "         PRTB_SRC4_CURR_ENC_FID             ,For Source ID 4 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 8. "     PRTB_SRC4_PREV_ENC_FID             ,For Source ID 4 from Port B. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PRTB_SRC3_CURR_ENC_FID             ,For Source ID 3 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 6. "         PRTB_SRC3_PREV_ENC_FID             ,For Source ID 3 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 5. "     PRTB_SRC2_CURR_ENC_FID             ,For Source ID 2 from Port B. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 4. " PRTB_SRC2_PREV_ENC_FID             ,For Source ID 2 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 3. "         PRTB_SRC1_CURR_ENC_FID             ,For Source ID 1 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 2. "     PRTB_SRC1_PREV_ENC_FID             ,For Source ID 1 from Port B. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTB_SRC0_CURR_ENC_FID             ,For Source ID 0 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 0. "         PRTB_SRC0_PREV_ENC_FID             ,For Source ID 0 from Port B. Encoder Field ID for Previous Field" "0,1"
rgroup.long 0x30++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC0_SIZE,Width and Height for Source 0"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC0_WIDTH                    ,On Port A. Width of Source ID 0"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC0_HEIGHT                   ,On Port A. Height of Source ID 0"
rgroup.long 0x34++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC1_SIZE,Width and Height for Source 1"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC1_WIDTH                    ,On Port A. Width of Source ID 1"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC1_HEIGHT                   ,On Port A. Height of Source ID 1"
rgroup.long 0x38++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC2_SIZE,Width and Height for Source 2"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC2_WIDTH                    ,On Port A. Width of Source ID 2"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC2_HEIGHT                   ,On Port A. Height of Source ID 2"
rgroup.long 0x3C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC3_SIZE,Width and Height for Source 3"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC3_WIDTH                    ,On Port A. Width of Source ID 3"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC3_HEIGHT                   ,On Port A. Height of Source ID 3"
rgroup.long 0x40++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC4_SIZE,Width and Height for Source 4"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC4_WIDTH                    ,On Port A. Width of Source ID 4"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC4_HEIGHT                   ,On Port A. Height of Source ID 4"
rgroup.long 0x44++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC5_SIZE,Width and Height for Source 5"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC5_WIDTH                    ,On Port A. Width of Source ID 5"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC5_HEIGHT                   ,On Port A. Height of Source ID 5"
rgroup.long 0x48++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC6_SIZE,Width and Height for Source 6"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC6_WIDTH                    ,On Port A. Width of Source ID 6"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC6_HEIGHT                   ,On Port A. Height of Source ID 6"
rgroup.long 0x4C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC7_SIZE,Width and Height for Source 7"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC7_WIDTH                    ,On Port A. Width of Source ID 7"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC7_HEIGHT                   ,On Port A. Height of Source ID 7"
rgroup.long 0x50++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC8_SIZE,Width and Height for Source 8"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC8_WIDTH                    ,On Port A. Width of Source ID 8"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC8_HEIGHT                   ,On Port A. Height of Source ID 8"
rgroup.long 0x54++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC9_SIZE,Width and Height for Source 9"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC9_WIDTH                    ,On Port A. Width of Source ID 9"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC9_HEIGHT                   ,On Port A. Height of Source ID 9"
rgroup.long 0x58++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC10_SIZE,Width and Height for Source 10"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC10_WIDTH                   ,On Port A. Width of Source ID 10"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC10_HEIGHT                  ,On Port A. Height of Source ID 10"
rgroup.long 0x5C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC11_SIZE,Width and Height for Source 11"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC11_WIDTH                   ,On Port A. Width of Source ID 11"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC11_HEIGHT                  ,On Port A. Height of Source ID 11"
rgroup.long 0x60++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC12_SIZE,Width and Height for Source 12"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC12_WIDTH                   ,On Port A. Width of Source ID 12"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC12_HEIGHT                  ,On Port A. Height of Source ID 12"
rgroup.long 0x64++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC13_SIZE,Width and Height for Source 13"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC13_WIDTH                   ,On Port A. Width of Source ID 13"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC13_HEIGHT                  ,On Port A. Height of Source ID 13"
rgroup.long 0x68++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC14_SIZE,Width and Height for Source 14"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC14_WIDTH                   ,On Port A. Width of Source ID 14"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC14_HEIGHT                  ,On Port A. Height of Source ID 14"
rgroup.long 0x6C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC15_SIZE,Width and Height for Source 15"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC15_WIDTH                   ,On Port A. Width of Source ID 15"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC15_HEIGHT                  ,On Port A. Height of Source ID 15"
rgroup.long 0x70++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC0_SIZE,Width and Height for Source 0"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC0_WIDTH                    ,On Port B. Width of Source ID 0"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC0_HEIGHT                   ,On Port B. Height of Source ID 0"
rgroup.long 0x74++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC1_SIZE,Width and Height for Source 1"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC1_WIDTH                    ,On Port B. Width of Source ID 1"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC1_HEIGHT                   ,On Port B. Height of Source ID 1"
rgroup.long 0x78++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC2_SIZE,Width and Height for Source 2"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC2_WIDTH                    ,On Port B. Width of Source ID 2"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC2_HEIGHT                   ,On Port B. Height of Source ID 2"
rgroup.long 0x7C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC3_SIZE,Width and Height for Source 3"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC3_WIDTH                    ,On Port B. Width of Source ID 3"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC3_HEIGHT                   ,On Port B. Height of Source ID 3"
rgroup.long 0x80++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC4_SIZE,Width and Height for Source 4"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC4_WIDTH                    ,On Port B. Width of Source ID 4"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC4_HEIGHT                   ,On Port B. Height of Source ID 4"
rgroup.long 0x84++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC5_SIZE,Width and Height for Source 5"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC5_WIDTH                    ,On Port B. Width of Source ID 5"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC5_HEIGHT                   ,On Port B. Height of Source ID 5"
rgroup.long 0x88++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC6_SIZE,Width and Height for Source 6"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC6_WIDTH                    ,On Port B. Width of Source ID 6"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC6_HEIGHT                   ,On Port B. Height of Source ID 6"
rgroup.long 0x8C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC7_SIZE,Width and Height for Source 7"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC7_WIDTH                    ,On Port B. Width of Source ID 7"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC7_HEIGHT                   ,On Port B. Height of Source ID 7"
rgroup.long 0x90++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC8_SIZE,Width and Height for Source 8"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC8_WIDTH                    ,On Port B. Width of Source ID 8"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC8_HEIGHT                   ,On Port B. Height of Source ID 8"
rgroup.long 0x94++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC9_SIZE,Width and Height for Source 9"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC9_WIDTH                    ,On Port B. Width of Source ID 9"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC9_HEIGHT                   ,On Port B. Height of Source ID 9"
rgroup.long 0x98++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC10_SIZE,Width and Height for Source 10"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC10_WIDTH                   ,On Port B. Width of Source ID 10"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC10_HEIGHT                  ,On Port B. Height of Source ID 10"
rgroup.long 0x9C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC11_SIZE,Width and Height for Source 11"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC11_WIDTH                   ,On Port B. Width of Source ID 11"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC11_HEIGHT                  ,On Port B. Height of Source ID 11"
rgroup.long 0xA0++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC12_SIZE,Width and Height for Source 12"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC12_WIDTH                   ,On Port B. Width of Source ID 12"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC12_HEIGHT                  ,On Port B. Height of Source ID 12"
rgroup.long 0xA4++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC13_SIZE,Width and Height for Source 13"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC13_WIDTH                   ,On Port B. Width of Source ID 13"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC13_HEIGHT                  ,On Port B. Height of Source ID 13"
rgroup.long 0xA8++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC14_SIZE,Width and Height for Source 14"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC14_WIDTH                   ,On Port B. Width of Source ID 14"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC14_HEIGHT                  ,On Port B. Height of Source ID 14"
rgroup.long 0xAC++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC15_SIZE,Width and Height for Source 15"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC15_WIDTH                   ,On Port B. Width of Source ID 15"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC15_HEIGHT                  ,On Port B. Height of Source ID 15"
rgroup.long 0xB0++0x3
line.long 0x00 "VIP_PORT_A_VDET_VEC,Each bit represents the VDET bit setting for Line Mux Mode"
hexmask.long 0x00 0.--31. 1. " PRTA_VDET_VEC                      ,For Embedded Sync Only In Line Mux Mode. each bit represents the vdet value on Port A for the corresponding source id. This vector is meaningless for 1x/2x/4x mux modes."
rgroup.long 0xB4++0x3
line.long 0x00 "VIP_PORT_B_VDET_VEC,Each bit represents the VDET bit setting for Line Mux Mode"
hexmask.long 0x00 0.--31. 1. " PRTB_VDET_VEC                      ,For Embedded Sync Only In Line Mux Mode. each bit represents the vdet value on Port B for the corresponding source id. This vector is meaningless for 1x/2x/4x mux modes."
group.long 0xB8++0x3
line.long 0x00 "VIP_ANC_CROP_HORZ_PORT_A,Ancillary Cropping Configuration for Input Port A"
bitfld.long 0x00 28.--31. " ANC_TARGET_SRCNUM                  ,The cropping module can work on only one srcnum. specified in this field. for each dss_vip_parser output port (Ancillary data)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 16.--27. 1. "        ANC_USE_NUMPIX                     ,When cropping, the number of pixels to keep after the skip_numpix value. skip_numpix + use_numpix must be smaller than the original line width."
bitfld.long 0x00 15. "  ANC_BYPASS_N                       ,0 = Bypass cropping module 1 = Cropping module enabled" "0,1"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " ANC_SKIP_NUMPIX                    ,The number of pixels to crop from the beginning of each line."
group.long 0xBC++0x3
line.long 0x00 "VIP_ANC_CROP_VERT_PORT_A,Ancillary Cropping Configuration for Input Port A"
hexmask.long.word 0x00 16.--27. 1. " ANC_USE_NUMLINES                   ,When cropping, the number of lines to keep after the skip_numlines value. Use_numlines + skip_numlines must be smaller than the total number of lines in the srcnum's ancillary data region."
hexmask.long.word 0x00 0.--11. 1. "      ANC_SKIP_NUMLINES                  ,The number of lines to crop from the top of the vertical ancillary data region."
group.long 0xC0++0x3
line.long 0x00 "VIP_CROP_HORZ_PORT_A,Active Video Cropping Configuration for Input Port A"
bitfld.long 0x00 28.--31. " ACT_TARGET_SRCNUM                  ,The cropping module can work on only one srcnum. specified in this field. for each dss_vip_parser output port (Active video)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 16.--27. 1. "        ACT_USE_NUMPIX                     ,When cropping, the number of pixels to keep after the skip_numpix value. skip_numpix + use_numpix must be smaller than the original line width."
bitfld.long 0x00 15. "  ACT_BYPASS_N                       ,0 = Bypass cropping module 1 = Cropping module enabled" "0,1"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " ACT_SKIP_NUMPIX                    ,The number of pixels to crop from the beginning of each line."
group.long 0xC4++0x3
line.long 0x00 "VIP_CROP_VERT_PORT_A,Active Video Cropping Configuration for Input Port A"
hexmask.long.word 0x00 16.--27. 1. " ACT_USE_NUMLINES                   ,When cropping.. the number of lines to keep after the skip_numlines value. Use_numlines + skip_numlines must be smaller than the total number of lines in the srcnum's active video region."
hexmask.long.word 0x00 0.--11. 1. "      ACT_SKIP_NUMLINES                  ,The number of lines to crop from the top of the vertical active video region."
group.long 0xC8++0x3
line.long 0x00 "VIP_ANC_VIP_CROP_HORZ_PORT_B,Ancillary Cropping Configuration for Input Port B"
bitfld.long 0x00 28.--31. " ANC_TARGET_SRCNUM                  ,The cropping module can work on only one srcnum. specified in this field. for each dss_vip_parser output port (Ancillary data)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 16.--27. 1. "        ANC_USE_NUMPIX                     ,When cropping, the number of pixels to keep after the skip_numpix value. skip_numpix + use_numpix must be smaller than the original line width."
bitfld.long 0x00 15. "  ANC_BYPASS_N                       ,0 = Bypass cropping module 1 = Cropping module enabled" "0,1"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " ANC_SKIP_NUMPIX                    ,The number of pixels to crop from the beginning of each line."
group.long 0xCC++0x3
line.long 0x00 "VIP_ANC_VIP_CROP_VERT_PORT_B,Ancillary Cropping Configuration for Input Port B"
hexmask.long.word 0x00 16.--27. 1. " ANC_USE_NUMLINES                   ,When cropping, the number of lines to keep after the skip_numlines value. Use_numlines + skip_numlines must be smaller than the total number of lines in the srcnums active video region."
hexmask.long.word 0x00 0.--11. 1. "      ANC_SKIP_NUMLINES                  ,The number of lines to crop from the top of the vertical ancillary data region."
group.long 0xD0++0x3
line.long 0x00 "VIP_CROP_HORZ_PORT_B,Active Video Cropping Configuration for Input Port B"
bitfld.long 0x00 28.--31. " ACT_TARGET_SRCNUM                  ,The cropping module can work on only one srcnum. specified in this field. for each dss_vip_parser output port (Active video)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 16.--27. 1. "        ACT_USE_NUMPIX                     ,When cropping, the number of pixels to keep after the skip_numpix value. skip_numpix + use_numpix must be smaller than the original line width."
bitfld.long 0x00 15. "  ACT_BYPASS_N                       ,0 = Bypass cropping module 1 = Cropping module enabled" "0,1"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " ACT_SKIP_NUMPIX                    ,The number of pixels to crop from the beginning of each line."
group.long 0xD4++0x3
line.long 0x00 "VIP_CROP_VERT_PORT_B,Active Video Cropping Configuration for Input Port B"
hexmask.long.word 0x00 16.--27. 1. " ACT_USE_NUMLINES                   ,When cropping, the number of lines to keep after the skip_numlines value. Use_numlines + skip_numlines must be smaller than the total number of lines in the srcnum's active video region."
hexmask.long.word 0x00 0.--11. 1. "      ACT_SKIP_NUMLINES                  ,The number of lines to crop from the top of the vertical active video region."
group.long 0xD8++0x3
line.long 0x00 "VIP_XTRA6_PORT_A,Cfg Disable Active Srcnum Vector Input for Port A"
hexmask.long.word 0x00 16.--31. 1. " YUV_SRCNUM_STOP_IMMEDIATELY        ,For the Active Video Port to the VPDMA, logic exists to ensure that a complete frame is sent out to the VPDMA following cfg_enable transitioning inactive for that port. Each bit in this vector represents a srcnum (r..."
hexmask.long.word 0x00 0.--15. 1. "      ANC_SRCNUM_STOP_IMMEDIATELY        ,For the Ancillary Data Port to the VPDMA, logic exists to ensure that a complete frame is sent out to the VPDMA following cfg_enable transitioning inactive for that port. Each bit in this vector represents a sr..."
group.long 0xDC++0x3
line.long 0x00 "VIP_XTRA7_PORT_B,Cfg Disable Active Srcnum Vector Input for Port B"
hexmask.long.word 0x00 16.--31. 1. " YUV_SRCNUM_STOP_IMMEDIATELY        ,For the Active Video Port to the VPDMA, logic exists to ensure that a complete frame is sent out to the VPDMA following cfg_enable transitioning inactive for that port. Each bit in this vector represents a srcnum (r..."
hexmask.long.word 0x00 0.--15. 1. "      ANC_SRCNUM_STOP_IMMEDIATELY        ,For the Ancillary Data Port to the VPDMA, logic exists to ensure that a complete frame is sent out to the VPDMA following cfg_enable transitioning inactive for that port. Each bit in this vector represents a sr..."
group.long 0xE0++0x3
line.long 0x00 "VIP_XTRA8_PORT_A,Reserved Register for Port A"
group.long 0xE4++0x3
line.long 0x00 "VIP_XTRA9_PORT_B,Reserved Register for Port B"
width 0x0B
tree.end
tree "VIP3_Slice1_parser"
base ad:0x489B5A00
width 30.
group.long 0x0++0x3
line.long 0x00 "VIP_MAIN,ain Configuration for VIP Parser"
bitfld.long 0x00 5. " CLIP_ACTIVE                        ,Discrete Sync Only 0 = Do not clip active pixels 1 = Clip Active Pixels as follows: 0xFF -andgt; 0xFE.. 0x00 -andgt; 0x01" "0,1"
bitfld.long 0x00 4. "         CLIP_BLNK                          ,Discrete Sync Only 0 = Do not clip Blanking Data 1 = Clip Blanking Data as follows: 0xFF -andgt; 0xFE.. 0x00 -andgt; 0x01" "0,1"
bitfld.long 0x00 0.--1. "     DATA_INTERFACE_MODE                ,00 = 24b data interface. Uses Port A settings 01 = 16b data interface. Uses Port A settings. 10 = Dual independent 8b data interfaces. Uses independent Port A and Port B settings. 11 = Undefined" "0,1,2,3"
group.long 0x4++0x3
line.long 0x00 "VIP_PORT_A,Configuration for Input Port A"
bitfld.long 0x00 31. " ANALYZER_FVH_ERR_CORRECTION_ENABLE ,Embedded Sync Only 0 = Ignore the protection bits in the XV (fvh) codeword header. This setting is typically desired. 1 = Use the protection bits in an attempt to do error correction for the fvh control bits." "0,1"
bitfld.long 0x00 30. "         ANALYZER_2X4X_SRCNUM_POS           ,Embedded Sync Only 0 = For 2x/4x mux mode, srcnum is in the least significant nibble of the XV/fvh codeword (srcnum replaces the protection bits) 1 = For 2x/4x mux mode, srcnum is in the least significant ni..." "0,1"
bitfld.long 0x00 24.--29. "     FID_SKEW_POSTCOUNT                 ,Discrete Sync Only post count value when using vsync skew in FID determination" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                       "
bitfld.long 0x00 23. " SW_RESET                           ,0 = Normal 1 = Reset Port A logic. Must be set to ?0? again by the software for the module to function." "0,1"
bitfld.long 0x00 22. "         DISCRETE_BASIC_MODE                ,This register is valid for Discrete Sync mode only. 0 = Normal Discrete Mode. Hsync Style Capture operates as follows: - Captures line starting from HSYNC inactive to active condition. - VSYNC determined by ..." "0,1"
bitfld.long 0x00 16.--21. "     FID_SKEW_PRECOUNT                  ,Discrete Sync Only pre count value when using vsync skew in FID determination" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                       "
bitfld.long 0x00 15. " USE_ACTVID_HSYNC_N                 ,Discrete Sync Only 0 = Use HSYNC style line capture 1 = Use ACTVID style line capture" "0,1"
bitfld.long 0x00 14. "         FID_DETECT_MODE                    ,Discrete Sync Only 0 = Take FID from pin 1 = FID is determined by VSYNC skew" "0,1"
bitfld.long 0x00 13. "     ACTVID_POLARITY                    ,Discrete Sync Only 0 = ACTVID is active low 1 = ACTVID is active high" "0,1"
textline "                                       "
bitfld.long 0x00 12. " VSYNC_POLARITY                     ,Discrete Sync Only 0 = VSYNC is active low 1 = VSYNC is active high" "0,1"
bitfld.long 0x00 11. "         HSYNC_POLARITY                     ,Discrete Sync Only 0 = HSYNC is active low 1 = HSYNC is active high" "0,1"
bitfld.long 0x00 10. "     PIXCLK_EDGE_POLARITY               ,0 = Rising Edge is active PIXCLK edge 1 = Falling Edge is active PIXCLK edge" "0,1"
textline "                                       "
bitfld.long 0x00 9. " FID_POLARITY                       ,0 = Keep FID as found 1 = Invert Determined Value of FID" "0,1"
bitfld.long 0x00 8. "         ENABLE                             ,0 = Disable Port 1 = Enable Port" "0,1"
bitfld.long 0x00 7. "     CLR_ASYNC_FIFO_RD                  ,0 = Normal 1 = Clear Async FIFO Read Logic" "0,1"
textline "                                       "
bitfld.long 0x00 6. " CLR_ASYNC_FIFO_WR                  ,0 = Normal 1 = Clear Async FIFO Write Logic" "0,1"
bitfld.long 0x00 4.--5. "         CTRL_CHAN_SEL                      ,Embedded Sync Only In 8b mode.. there is only one channel on data[7:0]. In 16b mode.. there are two channels. The Luma Channel is on data[15:8]. The Chroma Channel is on data[7:0]. In 24b mode.. there are th..." "0,1,2,3"
bitfld.long 0x00 0.--3. "     SYNC_TYPE                          ,0000 = embedded sync single 4:2:2 YUV stream 0001 = embedded sync 2x multiplexed 4:2:2 YUV stream 0010 = embedded sync 4x multiplexed 4:2:2 YUV stream 0011 = embedded sync line multiplexed 4:2:2 YUV stream 0100 ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x8++0x3
line.long 0x00 "VIP_XTRA_PORT_A,ore Configuration for Input Port A"
bitfld.long 0x00 28.--30. " REPACK_SEL                         ,000 = Straight Through 001 = Cross Swap 010 = Left Center Swap 011 = Center Right Swap 100 = Right Rotate 101 = Left Rotate 110 = RAW16 to RGB565 Mapping 111 = RAW12 Swap" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--27. 1. "         SRC0_NUMPIX                        ,Number of expected pixels on Source Number 0. The Port_a_src0_size interrupt will trigger if a line is encountered that differs from this pixelcount."
bitfld.long 0x00 13.--14. "  ANC_CHAN_SEL_8B                    ,In 8b mode, Vertically Ancillary Data typically resides in the Luma sites. This bit allows vertical ancillary data to be extracted from the chroma sites instead . 00 = Extract 8b Mode Vertical Ancillary Data from L..." "0,1,2,3"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " SRC0_NUMLINES                      ,Number of expected lines on Source Number 0. The Port_a_src0_size interrupt will trigger if a field/frame is encountered that differs from this linecount."
group.long 0xC++0x3
line.long 0x00 "VIP_PORT_B,Configuration for Input Port B"
bitfld.long 0x00 31. " ANALYZER_FVH_ERR_CORRECTION_ENABLE ,Embedded Sync Only 0 = Ignore the protection bits in the XV (fvh) codeword header. This setting is typically desired. 1 = Use the protection bits in an attempt to do error correction for the fvh control bits." "0,1"
bitfld.long 0x00 30. "         ANALYZER_2X4X_SRCNUM_POS           ,Embedded Sync Only 0 = For 2x/4x mux mode, srcnum is in the least significant nibble of the XV/fvh codeword (srcnum replaces the protection bits) 1 = For 2x/4x mux mode, srcnum is in the least significant ni..." "0,1"
bitfld.long 0x00 24.--29. "     FID_SKEW_POSTCOUNT                 ,Discrete Sync Only post count value when using vsync skew in FID determination" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                       "
bitfld.long 0x00 23. " SW_RESET                           ,0 = Normal 1 = Reset Port B logic. Must be set to ?0? again by the software for the module to function." "0,1"
bitfld.long 0x00 22. "         DISCRETE_BASIC_MODE                ,This register is valid for Discrete Sync mode only. 0 = Normal Discrete Mode. Hsync Style Capture operates as follows: - Captures line starting from HSYNC inactive to active condition. - VSYNC determined by ..." "0,1"
bitfld.long 0x00 16.--21. "     FID_SKEW_PRECOUNT                  ,Discrete Sync Only pre count value when using vsync skew in FID determination" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                       "
bitfld.long 0x00 15. " USE_ACTVID_HSYNC_N                 ,Discrete Sync Only 0 = Use HSYNC style line capture 1 = Use ACTVID style line capture" "0,1"
bitfld.long 0x00 14. "         FID_DETECT_MODE                    ,Discrete Sync Only 0 = Take FID from pin 1 = FID is determined by VSYNC skew" "0,1"
bitfld.long 0x00 13. "     ACTVID_POLARITY                    ,Discrete Sync Only 0 = ACTVID is active low 1 = ACTVID is active high" "0,1"
textline "                                       "
bitfld.long 0x00 12. " VSYNC_POLARITY                     ,Discrete Sync Only 0 = VSYNC is active low 1 = VSYNC is active high" "0,1"
bitfld.long 0x00 11. "         HSYNC_POLARITY                     ,Discrete Sync Only 0 = HSYNC is active low 1 = HSYNC is active high" "0,1"
bitfld.long 0x00 10. "     PIXCLK_EDGE_POLARITY               ,0 = Rising Edge is active PIXCLK edge 1 = Falling Edge is active PIXCLK edge" "0,1"
textline "                                       "
bitfld.long 0x00 9. " FID_POLARITY                       ,0 = Keep FID as found 1 = Invert Determined Value of FID" "0,1"
bitfld.long 0x00 8. "         ENABLE                             ,0 = Disable 1 = Enable" "0,1"
bitfld.long 0x00 7. "     CLR_ASYNC_FIFO_RD                  ,0 = Normal 1 = Clear Async FIFO Read Logic" "0,1"
textline "                                       "
bitfld.long 0x00 6. " CLR_ASYNC_FIFO_WR                  ,0 = Normal 1 = Clear Async FIFO Write Logic" "0,1"
bitfld.long 0x00 4.--5. "         CTRL_CHAN_SEL                      ,PORT B supports on 8b mode. Always write 0 to this field. The anc_chan_sel_8b register is used to select the Luma or Chroma channel from which Ancillary Data is taken." "0,1,2,3"
bitfld.long 0x00 0.--3. "     SYNC_TYPE                          ,0000 = embedded sync single YUV stream 0001 = embedded sync 2x multiplexed YUV stream 0010 = embedded sync 4x multiplexed YUV stream 0011 = embedded sync line multiplexed YUV stream 0100 = discrete sync single Y..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10++0x3
line.long 0x00 "VIP_XTRA_PORT_B,ore Configuration for Input Port B"
hexmask.long.word 0x00 16.--27. 1. " SRC0_NUMPIX                        ,Number of expected pixels on Source Number 0. The Port_b_src0_size interrupt will trigger if a line is encountered that differs from this pixelcount."
bitfld.long 0x00 13.--14. "      ANC_CHAN_SEL_8B                    ,In 8b mode, Vertically Ancillary Data typically resides in the Luma sites. This bit allows vertical ancillary data to be extracted from the chroma sites instead . 00 = Extract 8b Mode Vertical Ancillary Data fr..." "0,1,2,3"
hexmask.long.word 0x00 0.--11. 1. "     SRC0_NUMLINES                      ,Number of expected lines on Source Number 0. The Port_b_src0_size interrupt will trigger if a field/frame is encountered that differs from this linecount."
group.long 0x14++0x3
line.long 0x00 "VIP_FIQ_MASK,ask Bits for ARM FIQs"
bitfld.long 0x00 21. " PORT_B_CFG_DISABLE_COMPLETE_MASK   ,Port B Cfg Disable Complete Mask" "0,1"
bitfld.long 0x00 20. "         PORT_A_CFG_DISABLE_COMPLETE_MASK   ,Port A Cfg Disable Complete Mask" "0,1"
bitfld.long 0x00 19. "     PORT_B_ANC_PROTOCOL_VIOLATION_MASK ,Port B ANC VPI Protocol Violation Mask" "0,1"
textline "                                       "
bitfld.long 0x00 18. " PORT_B_YUV_PROTOCOL_VIOLATION_MASK ,Port B YUV VPI Protocol Violation Mask" "0,1"
bitfld.long 0x00 17. "         PORT_A_ANC_PROTOCOL_VIOLATION_MASK ,Port A ANC VPI Protocol Violation Mask" "0,1"
bitfld.long 0x00 16. "     PORT_A_YUV_PROTOCOL_VIOLATION_MASK ,Port A YUV VPI Protocol Violation Mask" "0,1"
textline "                                       "
bitfld.long 0x00 15. " PORT_B_SRC0_SIZE                   ,Video size detected on Port B does not match size programmed in xtra_port_b register" "0,1"
bitfld.long 0x00 14. "         PORT_A_SRC0_SIZE                   ,Video size detected on Port A does not match size programmed in xtra_port_a register" "0,1"
bitfld.long 0x00 13. "     PORT_B_DISCONN                     ,Port B Link Disconnect Srcnum 0 Mask" "0,1"
textline "                                       "
bitfld.long 0x00 12. " PORT_B_CONN                        ,Port B Link Connect Srcnum 0 Mask" "0,1"
bitfld.long 0x00 11. "         PORT_A_DISCONN                     ,Port A Link Disconnect Scrnum 0 Mask" "0,1"
bitfld.long 0x00 10. "     PORT_A_CONN                        ,Port A Link Connect Srcnum 0 Mask" "0,1"
textline "                                       "
bitfld.long 0x00 9. " OUTPUT_FIFO_PRTB_ANC_OF            ,Output FIFO Port B Ancillary Overflow Mask" "0,1"
bitfld.long 0x00 7. "         OUTPUT_FIFO_PRTB_YUV_OF            ,Output FIFO Port B Luma Overflow Mask" "0,1"
bitfld.long 0x00 6. "     OUTPUT_FIFO_PRTA_ANC_OF            ,Output FIFO Port A Ancillary Overflow Mask" "0,1"
textline "                                       "
bitfld.long 0x00 4. " OUTPUT_FIFO_PRTA_YUV_OF            ,Output FIFO Port A Luma Overflow Mask" "0,1"
bitfld.long 0x00 3. "         ASYNC_FIFO_PRTB_OF                 ,Port B Async FIFO Overflow FIQ Mask" "0,1"
bitfld.long 0x00 2. "     ASYNC_FIFO_PRTA_OF                 ,Port A Async FIFO Overflow FIQ Mask" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTB_VDET_MASK                     ,Port B Video Detect FIQ Mask" "0,1"
bitfld.long 0x00 0. "         PRTA_VDET_MASK                     ,Port A Video Detect FIQ Mask" "0,1"
group.long 0x18++0x3
line.long 0x00 "VIP_FIQ_CLEAR,Clears bits in the FIQ Status"
bitfld.long 0x00 21. " PORT_A_YUV_PROTOCOL_VIOLATION_CLR  ,Write 1 followed by 0 to Clear Port B Cfg Disable Complete FIQ" "0,1"
bitfld.long 0x00 20. "         PORT_A_ANC_PROTOCOL_VIOLATION_CLR  ,Write 1 followed by 0 to Clear Port A Cfg Disable Complete FIQ" "0,1"
bitfld.long 0x00 19. "     PORT_B_YUV_PROTOCOL_VIOLATION_CLR  ,Write 1 followed by 0 to Clear Port B ANC VPI Protocol Violation FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 18. " PORT_B_ANC_PROTOCOL_VIOLATION_CLR  ,Write 1 followed by 0 to Clear Port B YUV VPI Protocol Violation FIQ" "0,1"
bitfld.long 0x00 17. "         PORT_A_CFG_DISABLE_COMPLETE_CLR    ,Write 1 followed by 0 to Clear Port A ANC VPI Protocol Violation FIQ" "0,1"
bitfld.long 0x00 16. "     PORT_B_CFG_DISABLE_COMPLETE_CLR    ,Write 1 followed by 0 to Clear Port A YUV VPI Protocol Violation FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 15. " PORT_B_SRC0_SIZE_CLR               ,Write 1 followed by 0 to Clear Port B Src0 Size FIQ" "0,1"
bitfld.long 0x00 14. "         PORT_A_SRC0_SIZE_CLR               ,Write 1 followed by 0 to Clear Port A Src0 Size FIQ" "0,1"
bitfld.long 0x00 13. "     PORT_B_DISCONN_CLR                 ,Write 1 followed by 0 to Clear Port B Link Disconnect FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 12. " PORT_B_CONN_CLR                    ,Write 1 followed by 0 to Clear Port B Link Connect FIQ" "0,1"
bitfld.long 0x00 11. "         PORT_A_DISCONN_CLR                 ,Write 1 followed by 0 to Clear Port A Link Disconnect FIQ" "0,1"
bitfld.long 0x00 10. "     PORT_A_CONN_CLR                    ,Write 1 followed by 0 to Clear Port A Link Connect FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 9. " OUTPUT_FIFO_PRTB_ANC_CLR           ,Write 1 followed by 0 to Clear Output FIFO Port B Ancillary Overflow FIQ" "0,1"
bitfld.long 0x00 7. "         OUTPUT_FIFO_PRTB_YUV_CLR           ,Write 1 followed by 0 to Clear Output FIFO Port B Luma Overflow FIQ" "0,1"
bitfld.long 0x00 6. "     OUTPUT_FIFO_PRTA_ANC_CLR           ,Write 1 followed by 0 to Clear Output FIFO Port A Ancillary Overflow FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 4. " OUTPUT_FIFO_PRTA_YUV_CLR           ,Write 1 followed by 0 to Clear Output FIFO Port A Luma Overflow FIQ" "0,1"
bitfld.long 0x00 3. "         ASYNC_FIFO_PRTB_CLR                ,Write 1 followed by 0 to Clear Async FIFO Port B Overflow FIQ" "0,1"
bitfld.long 0x00 2. "     ASYNC_FIFO_PRTA_CLR                ,Write 1 followed by 0 to Clear Async FIFO Port A Overflow FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTB_VDET_CLR                      ,Write 1 followed by 0 to Clear Video Detect FIQ for Port B" "0,1"
bitfld.long 0x00 0. "         PRTA_VDET_CLR                      ,Write 1 followed by 0 to Clear Video Detect FIQ for Port A" "0,1"
rgroup.long 0x1C++0x3
line.long 0x00 "VIP_FIQ_STATUS,FIQ Status values"
bitfld.long 0x00 21. " PORT_B_CFG_DISABLE_COMPLETE_CLR    ,Port B Cfg Disable Complete FIQ" "0,1"
bitfld.long 0x00 20. "         PORT_A_CFG_DISABLE_COMPLETE        ,Port A Cfg Disable Complete FIQ" "0,1"
bitfld.long 0x00 19. "     PORT_B_ANC_PROTOCOL_VIOLATION      ,Port B ANC VPI Protocol Violation FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 18. " PORT_B_YUV_PROTOCOL_VIOLATION      ,Port B YUV VPI Protocol Violation FIQ" "0,1"
bitfld.long 0x00 17. "         PORT_A_ANC_PROTOCOL_VIOLATION      ,Port A ANC VPI Protocol Violation FIQ" "0,1"
bitfld.long 0x00 16. "     PORT_A_YUV_PROTOCOL_VIOLATION      ,Port A YUV VPI Protocol Violation FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 15. " PORT_B_SRC0_SIZE_STATUS            ,Port B Source 0 Size FIQ" "0,1"
bitfld.long 0x00 14. "         PORT_A_SRC0_SIZE_STATUS            ,Port A Source 0 Size FIQ" "0,1"
bitfld.long 0x00 13. "     PORT_B_DISCONN_STATUS              ,Port B Disconnect FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 12. " PORT_B_CONN_STATUS                 ,Port B Connect FIQ" "0,1"
bitfld.long 0x00 11. "         PORT_A_DISCONN_STATUS              ,Port A Disconnect FIQ" "0,1"
bitfld.long 0x00 10. "     PORT_A_CONN_STATUS                 ,Port A Connect FIQ" "0,1"
textline "                                       "
bitfld.long 0x00 9. " OUTPUT_FIFO_PRTB_ANC_STATUS        ,Output FIFO Port B Ancillary Overflow Status" "0,1"
bitfld.long 0x00 8. "         OUTPUT_FIFO_PRTB_CHROMA_STATUS     ,Output FIFO Port B Chroma Overflow Status" "0,1"
bitfld.long 0x00 7. "     OUTPUT_FIFO_PRTB_LUMA_STATUS       ,Output FIFO Port B Luma Overflow Status" "0,1"
textline "                                       "
bitfld.long 0x00 6. " OUTPUT_FIFO_PRTA_ANC_STATUS        ,Output FIFO Port A Ancillary Overflow Status" "0,1"
bitfld.long 0x00 5. "         OUTPUT_FIFO_PRTA_CHROMA_STATUS     ,Output FIFO Port A Chroma Overflow Status" "0,1"
bitfld.long 0x00 4. "     OUTPUT_FIFO_PRTA_LUMA_STATUS       ,Output FIFO Port A Luma Overflow Status" "0,1"
textline "                                       "
bitfld.long 0x00 3. " ASYNC_FIFO_PRTB_STATUS             ,Async FIFO Port B Overflow Status" "0,1"
bitfld.long 0x00 2. "         ASYNC_FIFO_PRTA_STATUS             ,Async FIFO Port A Overflow Status" "0,1"
bitfld.long 0x00 1. "     PRTB_VDET_STATUS                   ,VDET Status for Port B" "0,1"
textline "                                       "
bitfld.long 0x00 0. " PRTA_VDET_STATUS                   ,VDET Status for Port A" "0,1"
rgroup.long 0x20++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC_FID,Current and Previous Output Port A Source FID values"
bitfld.long 0x00 31. " PRTA_SRC15_CURR_SOURCE_FID         ,For Source ID 15 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 30. "         PRTA_SRC15_PREV_SOURCE_FID         ,For Source ID 15 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 29. "     PRTA_SRC14_CURR_SOURCE_FID         ,For Source ID 14 from Port A. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 28. " PRTA_SRC14_PREV_SOURCE_FID         ,For Source ID 14 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 27. "         PRTA_SRC13_CURR_SOURCE_FID         ,For Source ID 13 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 26. "     PRTA_SRC13_PREV_SOURCE_FID         ,For Source ID 13 from Port A. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 25. " PRTA_SRC12_CURR_SOURCE_FID         ,For Source ID 12 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 24. "         PRTA_SRC12_PREV_SOURCE_FID         ,For Source ID 12 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 23. "     PRTA_SRC11_CURR_SOURCE_FID         ,For Source ID 11 from Port A. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 22. " PRTA_SRC11_PREV_SOURCE_FID         ,For Source ID 11 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 21. "         PRTA_SRC10_CURR_SOURCE_FID         ,For Source ID 10 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 20. "     PRTA_SRC10_PREV_SOURCE_FID         ,For Source ID 10 from Port A. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 19. " PRTA_SRC9_CURR_SOURCE_FID          ,For Source ID 9 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 18. "         PRTA_SRC9_PREV_SOURCE_FID          ,For Source ID 9 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 17. "     PRTA_SRC8_CURR_SOURCE_FID          ,For Source ID 8 from Port A. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 16. " PRTA_SRC8_PREV_SOURCE_FID          ,For Source ID 8 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 15. "         PRTA_SRC7_CURR_SOURCE_FID          ,For Source ID 7 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 14. "     PRTA_SRC7_PREV_SOURCE_FID          ,For Source ID 7 from Port A. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 13. " PRTA_SRC6_CURR_SOURCE_FID          ,For Source ID 6 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 12. "         PRTA_SRC6_PREV_SOURCE_FID          ,For Source ID 6 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 11. "     PRTA_SRC5_CURR_SOURCE_FID          ,For Source ID 5 from Port A. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PRTA_SRC5_PREV_SOURCE_FID          ,For Source ID 5 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 9. "         PRTA_SRC4_CURR_SOURCE_FID          ,For Source ID 4 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 8. "     PRTA_SRC4_PREV_SOURCE_FID          ,For Source ID 4 from Port A. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PRTA_SRC3_CURR_SOURCE_FID          ,For Source ID 3 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 6. "         PRTA_SRC3_PREV_SOURCE_FID          ,For Source ID 3 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 5. "     PRTA_SRC2_CURR_SOURCE_FID          ,For Source ID 2 from Port A. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 4. " PRTA_SRC2_PREV_SOURCE_FID          ,For Source ID 2 from Port A. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 3. "         PRTA_SRC1_CURR_SOURCE_FID          ,For Source ID 1 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 2. "     PRTA_SRC1_PREV_SOURCE_FID          ,For Source ID 1 from Port A. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTA_SRC0_CURR_SOURCE_FID          ,For Source ID 0 from Port A. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 0. "         PRTA_SRC0_PREV_SOURCE_FID          ,For Source ID 0 from Port A. Source Field ID for Previous Field" "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_ENC_FID,Current and Previous Output Port A Encoder FID values"
bitfld.long 0x00 31. " PRTA_SRC15_CURR_ENC_FID            ,For Source ID 15 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 30. "         PRTA_SRC15_PREV_ENC_FID            ,For Source ID 15 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 29. "     PRTA_SRC14_CURR_ENC_FID            ,For Source ID 14 from Port A. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 28. " PRTA_SRC14_PREV_ENC_FID            ,For Source ID 14 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 27. "         PRTA_SRC13_CURR_ENC_FID            ,For Source ID 13 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 26. "     PRTA_SRC13_PREV_ENC_FID            ,For Source ID 13 from Port A. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 25. " PRTA_SRC12_CURR_ENC_FID            ,For Source ID 12 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 24. "         PRTA_SRC12_PREV_ENC_FID            ,For Source ID 12 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 23. "     PRTA_SRC11_CURR_ENC_FID            ,For Source ID 11 from Port A. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 22. " PRTA_SRC11_PREV_ENC_FID            ,For Source ID 11 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 21. "         PRTA_SRC10_CURR_ENC_FID            ,For Source ID 10 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 20. "     PRTA_SRC10_PREV_ENC_FID            ,For Source ID 10 from Port A. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 19. " PRTA_SRC9_CURR_ENC_FID             ,For Source ID 9 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 18. "         PRTA_SRC9_PREV_ENC_FID             ,For Source ID 9 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 17. "     PRTA_SRC8_CURR_ENC_FID             ,For Source ID 8 from Port A. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 16. " PRTA_SRC8_PREV_ENC_FID             ,For Source ID 8 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 15. "         PRTA_SRC7_CURR_ENC_FID             ,For Source ID 7 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 14. "     PRTA_SRC7_PREV_ENC_FID             ,For Source ID 7 from Port A. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 13. " PRTA_SRC6_CURR_ENC_FID             ,For Source ID 6 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 12. "         PRTA_SRC6_PREV_ENC_FID             ,For Source ID 6 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 11. "     PRTA_SRC5_CURR_ENC_FID             ,For Source ID 5 from Port A. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PRTA_SRC5_PREV_ENC_FID             ,For Source ID 5 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 9. "         PRTA_SRC4_CURR_ENC_FID             ,For Source ID 4 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 8. "     PRTA_SRC4_PREV_ENC_FID             ,For Source ID 4 from Port A. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PRTA_SRC3_CURR_ENC_FID             ,For Source ID 3 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 6. "         PRTA_SRC3_PREV_ENC_FID             ,For Source ID 3 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 5. "     PRTA_SRC2_CURR_ENC_FID             ,For Source ID 2 from Port A. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 4. " PRTA_SRC2_PREV_ENC_FID             ,For Source ID 2 from Port A. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 3. "         PRTA_SRC1_CURR_ENC_FID             ,For Source ID 1 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 2. "     PRTA_SRC1_PREV_ENC_FID             ,For Source ID 1 from Port A. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTA_SRC0_CURR_ENC_FID             ,For Source ID 0 from Port A. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 0. "         PRTA_SRC0_PREV_ENC_FID             ,For Source ID 0 from Port A. Encoder Field ID for Previous Field" "0,1"
rgroup.long 0x28++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC_FID,Current and Previous Output Port B Source FID values"
bitfld.long 0x00 31. " PRTB_SRC15_CURR_SOURCE_FID         ,For Source ID 15 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 30. "         PRTB_SRC15_PREV_SOURCE_FID         ,For Source ID 15 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 29. "     PRTB_SRC14_CURR_SOURCE_FID         ,For Source ID 14 from Port B. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 28. " PRTB_SRC14_PREV_SOURCE_FID         ,For Source ID 14 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 27. "         PRTB_SRC13_CURR_SOURCE_FID         ,For Source ID 13 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 26. "     PRTB_SRC13_PREV_SOURCE_FID         ,For Source ID 13 from Port B. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 25. " PRTB_SRC12_CURR_SOURCE_FID         ,For Source ID 12 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 24. "         PRTB_SRC12_PREV_SOURCE_FID         ,For Source ID 12 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 23. "     PRTB_SRC11_CURR_SOURCE_FID         ,For Source ID 11 from Port B. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 22. " PRTB_SRC11_PREV_SOURCE_FID         ,For Source ID 11. from Port B Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 21. "         PRTB_SRC10_CURR_SOURCE_FID         ,For Source ID 10 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 20. "     PRTB_SRC10_PREV_SOURCE_FID         ,For Source ID 10 from Port B. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 19. " PRTB_SRC9_CURR_SOURCE_FID          ,For Source ID 9 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 18. "         PRTB_SRC9_PREV_SOURCE_FID          ,For Source ID 9 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 17. "     PRTB_SRC8_CURR_SOURCE_FID          ,For Source ID 8 from Port B. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 16. " PRTB_SRC8_PREV_SOURCE_FID          ,For Source ID 8 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 15. "         PRTB_SRC7_CURR_SOURCE_FID          ,For Source ID 7 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 14. "     PRTB_SRC7_PREV_SOURCE_FID          ,For Source ID 7 from Port B. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 13. " PRTB_SRC6_CURR_SOURCE_FID          ,For Source ID 6 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 12. "         PRTB_SRC6_PREV_SOURCE_FID          ,For Source ID 6 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 11. "     PRTB_SRC5_CURR_SOURCE_FID          ,For Source ID 5 from Port B. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PRTB_SRC5_PREV_SOURCE_FID          ,For Source ID 5 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 9. "         PRTB_SRC4_CURR_SOURCE_FID          ,For Source ID 4 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 8. "     PRTB_SRC4_PREV_SOURCE_FID          ,For Source ID 4 from Port B. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PRTB_SRC3_CURR_SOURCE_FID          ,For Source ID 3 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 6. "         PRTB_SRC3_PREV_SOURCE_FID          ,For Source ID 3 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 5. "     PRTB_SRC2_CURR_SOURCE_FID          ,For Source ID 2 from Port B. Source Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 4. " PRTB_SRC2_PREV_SOURCE_FID          ,For Source ID 2 from Port B. Source Field ID for Previous Field" "0,1"
bitfld.long 0x00 3. "         PRTB_SRC1_CURR_SOURCE_FID          ,For Source ID 1 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 2. "     PRTB_SRC1_PREV_SOURCE_FID          ,For Source ID 1 from Port B. Source Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTB_SRC0_CURR_SOURCE_FID          ,For Source ID 0 from Port B. Source Field ID for Current Field" "0,1"
bitfld.long 0x00 0. "         PRTB_SRC0_PREV_SOURCE_FID          ,For Source ID 0 from Port B. Source Field ID for Previous Field" "0,1"
rgroup.long 0x2C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_ENC_FID,Current and Previous Output Port B Encoder FID values"
bitfld.long 0x00 31. " PRTB_SRC15_CURR_ENC_FID            ,For Source ID 15 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 30. "         PRTB_SRC15_PREV_ENC_FID            ,For Source ID 15 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 29. "     PRTB_SRC14_CURR_ENC_FID            ,For Source ID 14 from Port B. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 28. " PRTB_SRC14_PREV_ENC_FID            ,For Source ID 14 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 27. "         PRTB_SRC13_CURR_ENC_FID            ,For Source ID 13 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 26. "     PRTB_SRC13_PREV_ENC_FID            ,For Source ID 13 from Port B. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 25. " PRTB_SRC12_CURR_ENC_FID            ,For Source ID 12 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 24. "         PRTB_SRC12_PREV_ENC_FID            ,For Source ID 12 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 23. "     PRTB_SRC11_CURR_ENC_FID            ,For Source ID 11 from Port B. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 22. " PRTB_SRC11_PREV_ENC_FID            ,For Source ID 11 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 21. "         PRTB_SRC10_CURR_ENC_FID            ,For Source ID 10 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 20. "     PRTB_SRC10_PREV_ENC_FID            ,For Source ID 10 from Port B. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 19. " PRTB_SRC9_CURR_ENC_FID             ,For Source ID 9 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 18. "         PRTB_SRC9_PREV_ENC_FID             ,For Source ID 9 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 17. "     PRTB_SRC8_CURR_ENC_FID             ,For Source ID 8 from Port B. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 16. " PRTB_SRC8_PREV_ENC_FID             ,For Source ID 8 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 15. "         PRTB_SRC7_CURR_ENC_FID             ,For Source ID 7 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 14. "     PRTB_SRC7_PREV_ENC_FID             ,For Source ID 7 from Port B. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 13. " PRTB_SRC6_CURR_ENC_FID             ,For Source ID 6 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 12. "         PRTB_SRC6_PREV_ENC_FID             ,For Source ID 6 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 11. "     PRTB_SRC5_CURR_ENC_FID             ,For Source ID 5 from Port B. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PRTB_SRC5_PREV_ENC_FID             ,For Source ID 5 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 9. "         PRTB_SRC4_CURR_ENC_FID             ,For Source ID 4 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 8. "     PRTB_SRC4_PREV_ENC_FID             ,For Source ID 4 from Port B. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PRTB_SRC3_CURR_ENC_FID             ,For Source ID 3 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 6. "         PRTB_SRC3_PREV_ENC_FID             ,For Source ID 3 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 5. "     PRTB_SRC2_CURR_ENC_FID             ,For Source ID 2 from Port B. Encoder Field ID for Current Field" "0,1"
textline "                                       "
bitfld.long 0x00 4. " PRTB_SRC2_PREV_ENC_FID             ,For Source ID 2 from Port B. Encoder Field ID for Previous Field" "0,1"
bitfld.long 0x00 3. "         PRTB_SRC1_CURR_ENC_FID             ,For Source ID 1 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 2. "     PRTB_SRC1_PREV_ENC_FID             ,For Source ID 1 from Port B. Encoder Field ID for Previous Field" "0,1"
textline "                                       "
bitfld.long 0x00 1. " PRTB_SRC0_CURR_ENC_FID             ,For Source ID 0 from Port B. Encoder Field ID for Current Field" "0,1"
bitfld.long 0x00 0. "         PRTB_SRC0_PREV_ENC_FID             ,For Source ID 0 from Port B. Encoder Field ID for Previous Field" "0,1"
rgroup.long 0x30++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC0_SIZE,Width and Height for Source 0"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC0_WIDTH                    ,On Port A. Width of Source ID 0"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC0_HEIGHT                   ,On Port A. Height of Source ID 0"
rgroup.long 0x34++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC1_SIZE,Width and Height for Source 1"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC1_WIDTH                    ,On Port A. Width of Source ID 1"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC1_HEIGHT                   ,On Port A. Height of Source ID 1"
rgroup.long 0x38++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC2_SIZE,Width and Height for Source 2"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC2_WIDTH                    ,On Port A. Width of Source ID 2"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC2_HEIGHT                   ,On Port A. Height of Source ID 2"
rgroup.long 0x3C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC3_SIZE,Width and Height for Source 3"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC3_WIDTH                    ,On Port A. Width of Source ID 3"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC3_HEIGHT                   ,On Port A. Height of Source ID 3"
rgroup.long 0x40++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC4_SIZE,Width and Height for Source 4"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC4_WIDTH                    ,On Port A. Width of Source ID 4"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC4_HEIGHT                   ,On Port A. Height of Source ID 4"
rgroup.long 0x44++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC5_SIZE,Width and Height for Source 5"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC5_WIDTH                    ,On Port A. Width of Source ID 5"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC5_HEIGHT                   ,On Port A. Height of Source ID 5"
rgroup.long 0x48++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC6_SIZE,Width and Height for Source 6"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC6_WIDTH                    ,On Port A. Width of Source ID 6"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC6_HEIGHT                   ,On Port A. Height of Source ID 6"
rgroup.long 0x4C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC7_SIZE,Width and Height for Source 7"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC7_WIDTH                    ,On Port A. Width of Source ID 7"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC7_HEIGHT                   ,On Port A. Height of Source ID 7"
rgroup.long 0x50++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC8_SIZE,Width and Height for Source 8"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC8_WIDTH                    ,On Port A. Width of Source ID 8"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC8_HEIGHT                   ,On Port A. Height of Source ID 8"
rgroup.long 0x54++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC9_SIZE,Width and Height for Source 9"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC9_WIDTH                    ,On Port A. Width of Source ID 9"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC9_HEIGHT                   ,On Port A. Height of Source ID 9"
rgroup.long 0x58++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC10_SIZE,Width and Height for Source 10"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC10_WIDTH                   ,On Port A. Width of Source ID 10"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC10_HEIGHT                  ,On Port A. Height of Source ID 10"
rgroup.long 0x5C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC11_SIZE,Width and Height for Source 11"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC11_WIDTH                   ,On Port A. Width of Source ID 11"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC11_HEIGHT                  ,On Port A. Height of Source ID 11"
rgroup.long 0x60++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC12_SIZE,Width and Height for Source 12"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC12_WIDTH                   ,On Port A. Width of Source ID 12"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC12_HEIGHT                  ,On Port A. Height of Source ID 12"
rgroup.long 0x64++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC13_SIZE,Width and Height for Source 13"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC13_WIDTH                   ,On Port A. Width of Source ID 13"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC13_HEIGHT                  ,On Port A. Height of Source ID 13"
rgroup.long 0x68++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC14_SIZE,Width and Height for Source 14"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC14_WIDTH                   ,On Port A. Width of Source ID 14"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC14_HEIGHT                  ,On Port A. Height of Source ID 14"
rgroup.long 0x6C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_A_SRC15_SIZE,Width and Height for Source 15"
hexmask.long.word 0x00 16.--26. 1. " PRTA_SRC15_WIDTH                   ,On Port A. Width of Source ID 15"
hexmask.long.word 0x00 0.--10. 1. "      PRTA_SRC15_HEIGHT                  ,On Port A. Height of Source ID 15"
rgroup.long 0x70++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC0_SIZE,Width and Height for Source 0"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC0_WIDTH                    ,On Port B. Width of Source ID 0"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC0_HEIGHT                   ,On Port B. Height of Source ID 0"
rgroup.long 0x74++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC1_SIZE,Width and Height for Source 1"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC1_WIDTH                    ,On Port B. Width of Source ID 1"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC1_HEIGHT                   ,On Port B. Height of Source ID 1"
rgroup.long 0x78++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC2_SIZE,Width and Height for Source 2"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC2_WIDTH                    ,On Port B. Width of Source ID 2"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC2_HEIGHT                   ,On Port B. Height of Source ID 2"
rgroup.long 0x7C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC3_SIZE,Width and Height for Source 3"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC3_WIDTH                    ,On Port B. Width of Source ID 3"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC3_HEIGHT                   ,On Port B. Height of Source ID 3"
rgroup.long 0x80++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC4_SIZE,Width and Height for Source 4"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC4_WIDTH                    ,On Port B. Width of Source ID 4"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC4_HEIGHT                   ,On Port B. Height of Source ID 4"
rgroup.long 0x84++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC5_SIZE,Width and Height for Source 5"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC5_WIDTH                    ,On Port B. Width of Source ID 5"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC5_HEIGHT                   ,On Port B. Height of Source ID 5"
rgroup.long 0x88++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC6_SIZE,Width and Height for Source 6"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC6_WIDTH                    ,On Port B. Width of Source ID 6"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC6_HEIGHT                   ,On Port B. Height of Source ID 6"
rgroup.long 0x8C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC7_SIZE,Width and Height for Source 7"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC7_WIDTH                    ,On Port B. Width of Source ID 7"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC7_HEIGHT                   ,On Port B. Height of Source ID 7"
rgroup.long 0x90++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC8_SIZE,Width and Height for Source 8"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC8_WIDTH                    ,On Port B. Width of Source ID 8"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC8_HEIGHT                   ,On Port B. Height of Source ID 8"
rgroup.long 0x94++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC9_SIZE,Width and Height for Source 9"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC9_WIDTH                    ,On Port B. Width of Source ID 9"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC9_HEIGHT                   ,On Port B. Height of Source ID 9"
rgroup.long 0x98++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC10_SIZE,Width and Height for Source 10"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC10_WIDTH                   ,On Port B. Width of Source ID 10"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC10_HEIGHT                  ,On Port B. Height of Source ID 10"
rgroup.long 0x9C++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC11_SIZE,Width and Height for Source 11"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC11_WIDTH                   ,On Port B. Width of Source ID 11"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC11_HEIGHT                  ,On Port B. Height of Source ID 11"
rgroup.long 0xA0++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC12_SIZE,Width and Height for Source 12"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC12_WIDTH                   ,On Port B. Width of Source ID 12"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC12_HEIGHT                  ,On Port B. Height of Source ID 12"
rgroup.long 0xA4++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC13_SIZE,Width and Height for Source 13"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC13_WIDTH                   ,On Port B. Width of Source ID 13"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC13_HEIGHT                  ,On Port B. Height of Source ID 13"
rgroup.long 0xA8++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC14_SIZE,Width and Height for Source 14"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC14_WIDTH                   ,On Port B. Width of Source ID 14"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC14_HEIGHT                  ,On Port B. Height of Source ID 14"
rgroup.long 0xAC++0x3
line.long 0x00 "VIP_OUTPUT_PORT_B_SRC15_SIZE,Width and Height for Source 15"
hexmask.long.word 0x00 16.--26. 1. " PRTB_SRC15_WIDTH                   ,On Port B. Width of Source ID 15"
hexmask.long.word 0x00 0.--10. 1. "      PRTB_SRC15_HEIGHT                  ,On Port B. Height of Source ID 15"
rgroup.long 0xB0++0x3
line.long 0x00 "VIP_PORT_A_VDET_VEC,Each bit represents the VDET bit setting for Line Mux Mode"
hexmask.long 0x00 0.--31. 1. " PRTA_VDET_VEC                      ,For Embedded Sync Only In Line Mux Mode. each bit represents the vdet value on Port A for the corresponding source id. This vector is meaningless for 1x/2x/4x mux modes."
rgroup.long 0xB4++0x3
line.long 0x00 "VIP_PORT_B_VDET_VEC,Each bit represents the VDET bit setting for Line Mux Mode"
hexmask.long 0x00 0.--31. 1. " PRTB_VDET_VEC                      ,For Embedded Sync Only In Line Mux Mode. each bit represents the vdet value on Port B for the corresponding source id. This vector is meaningless for 1x/2x/4x mux modes."
group.long 0xB8++0x3
line.long 0x00 "VIP_ANC_CROP_HORZ_PORT_A,Ancillary Cropping Configuration for Input Port A"
bitfld.long 0x00 28.--31. " ANC_TARGET_SRCNUM                  ,The cropping module can work on only one srcnum. specified in this field. for each dss_vip_parser output port (Ancillary data)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 16.--27. 1. "        ANC_USE_NUMPIX                     ,When cropping, the number of pixels to keep after the skip_numpix value. skip_numpix + use_numpix must be smaller than the original line width."
bitfld.long 0x00 15. "  ANC_BYPASS_N                       ,0 = Bypass cropping module 1 = Cropping module enabled" "0,1"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " ANC_SKIP_NUMPIX                    ,The number of pixels to crop from the beginning of each line."
group.long 0xBC++0x3
line.long 0x00 "VIP_ANC_CROP_VERT_PORT_A,Ancillary Cropping Configuration for Input Port A"
hexmask.long.word 0x00 16.--27. 1. " ANC_USE_NUMLINES                   ,When cropping, the number of lines to keep after the skip_numlines value. Use_numlines + skip_numlines must be smaller than the total number of lines in the srcnum's ancillary data region."
hexmask.long.word 0x00 0.--11. 1. "      ANC_SKIP_NUMLINES                  ,The number of lines to crop from the top of the vertical ancillary data region."
group.long 0xC0++0x3
line.long 0x00 "VIP_CROP_HORZ_PORT_A,Active Video Cropping Configuration for Input Port A"
bitfld.long 0x00 28.--31. " ACT_TARGET_SRCNUM                  ,The cropping module can work on only one srcnum. specified in this field. for each dss_vip_parser output port (Active video)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 16.--27. 1. "        ACT_USE_NUMPIX                     ,When cropping, the number of pixels to keep after the skip_numpix value. skip_numpix + use_numpix must be smaller than the original line width."
bitfld.long 0x00 15. "  ACT_BYPASS_N                       ,0 = Bypass cropping module 1 = Cropping module enabled" "0,1"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " ACT_SKIP_NUMPIX                    ,The number of pixels to crop from the beginning of each line."
group.long 0xC4++0x3
line.long 0x00 "VIP_CROP_VERT_PORT_A,Active Video Cropping Configuration for Input Port A"
hexmask.long.word 0x00 16.--27. 1. " ACT_USE_NUMLINES                   ,When cropping.. the number of lines to keep after the skip_numlines value. Use_numlines + skip_numlines must be smaller than the total number of lines in the srcnum's active video region."
hexmask.long.word 0x00 0.--11. 1. "      ACT_SKIP_NUMLINES                  ,The number of lines to crop from the top of the vertical active video region."
group.long 0xC8++0x3
line.long 0x00 "VIP_ANC_VIP_CROP_HORZ_PORT_B,Ancillary Cropping Configuration for Input Port B"
bitfld.long 0x00 28.--31. " ANC_TARGET_SRCNUM                  ,The cropping module can work on only one srcnum. specified in this field. for each dss_vip_parser output port (Ancillary data)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 16.--27. 1. "        ANC_USE_NUMPIX                     ,When cropping, the number of pixels to keep after the skip_numpix value. skip_numpix + use_numpix must be smaller than the original line width."
bitfld.long 0x00 15. "  ANC_BYPASS_N                       ,0 = Bypass cropping module 1 = Cropping module enabled" "0,1"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " ANC_SKIP_NUMPIX                    ,The number of pixels to crop from the beginning of each line."
group.long 0xCC++0x3
line.long 0x00 "VIP_ANC_VIP_CROP_VERT_PORT_B,Ancillary Cropping Configuration for Input Port B"
hexmask.long.word 0x00 16.--27. 1. " ANC_USE_NUMLINES                   ,When cropping, the number of lines to keep after the skip_numlines value. Use_numlines + skip_numlines must be smaller than the total number of lines in the srcnums active video region."
hexmask.long.word 0x00 0.--11. 1. "      ANC_SKIP_NUMLINES                  ,The number of lines to crop from the top of the vertical ancillary data region."
group.long 0xD0++0x3
line.long 0x00 "VIP_CROP_HORZ_PORT_B,Active Video Cropping Configuration for Input Port B"
bitfld.long 0x00 28.--31. " ACT_TARGET_SRCNUM                  ,The cropping module can work on only one srcnum. specified in this field. for each dss_vip_parser output port (Active video)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 16.--27. 1. "        ACT_USE_NUMPIX                     ,When cropping, the number of pixels to keep after the skip_numpix value. skip_numpix + use_numpix must be smaller than the original line width."
bitfld.long 0x00 15. "  ACT_BYPASS_N                       ,0 = Bypass cropping module 1 = Cropping module enabled" "0,1"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " ACT_SKIP_NUMPIX                    ,The number of pixels to crop from the beginning of each line."
group.long 0xD4++0x3
line.long 0x00 "VIP_CROP_VERT_PORT_B,Active Video Cropping Configuration for Input Port B"
hexmask.long.word 0x00 16.--27. 1. " ACT_USE_NUMLINES                   ,When cropping, the number of lines to keep after the skip_numlines value. Use_numlines + skip_numlines must be smaller than the total number of lines in the srcnum's active video region."
hexmask.long.word 0x00 0.--11. 1. "      ACT_SKIP_NUMLINES                  ,The number of lines to crop from the top of the vertical active video region."
group.long 0xD8++0x3
line.long 0x00 "VIP_XTRA6_PORT_A,Cfg Disable Active Srcnum Vector Input for Port A"
hexmask.long.word 0x00 16.--31. 1. " YUV_SRCNUM_STOP_IMMEDIATELY        ,For the Active Video Port to the VPDMA, logic exists to ensure that a complete frame is sent out to the VPDMA following cfg_enable transitioning inactive for that port. Each bit in this vector represents a srcnum (r..."
hexmask.long.word 0x00 0.--15. 1. "      ANC_SRCNUM_STOP_IMMEDIATELY        ,For the Ancillary Data Port to the VPDMA, logic exists to ensure that a complete frame is sent out to the VPDMA following cfg_enable transitioning inactive for that port. Each bit in this vector represents a sr..."
group.long 0xDC++0x3
line.long 0x00 "VIP_XTRA7_PORT_B,Cfg Disable Active Srcnum Vector Input for Port B"
hexmask.long.word 0x00 16.--31. 1. " YUV_SRCNUM_STOP_IMMEDIATELY        ,For the Active Video Port to the VPDMA, logic exists to ensure that a complete frame is sent out to the VPDMA following cfg_enable transitioning inactive for that port. Each bit in this vector represents a srcnum (r..."
hexmask.long.word 0x00 0.--15. 1. "      ANC_SRCNUM_STOP_IMMEDIATELY        ,For the Ancillary Data Port to the VPDMA, logic exists to ensure that a complete frame is sent out to the VPDMA following cfg_enable transitioning inactive for that port. Each bit in this vector represents a sr..."
group.long 0xE0++0x3
line.long 0x00 "VIP_XTRA8_PORT_A,Reserved Register for Port A"
group.long 0xE4++0x3
line.long 0x00 "VIP_XTRA9_PORT_B,Reserved Register for Port B"
width 0x0B
tree.end
tree.end
tree.open "VIP1_Slice0_sc"
tree "VIP1_Slice0_sc"
base ad:0x48975800
width 14.
group.long 0x0++0x3
line.long 0x00 "VIP_CFG_SC0,"
bitfld.long 0x00 16. " CFG_FID_SELFGEN        ,FID self generate enable. When input is progressive and this bit is set, the SC generates self-toggling (top/bottom) output FID when performing interlacing." "0,1"
bitfld.long 0x00 15. "         CFG_TRIM             ,Trimming enable. When 1, the input image whose size is specified by orgW and orgH registers is trimmed to the size with srcW and srcH from the offset specified by offW and offH. 0: disable trimming 1: enable trimming" "0,1"
bitfld.long 0x00 14. "     CFG_Y_PK_EN   ,This parameter is used by peaking block. 0: disable luma peaking 1: enable luma peaking" "0,1"
textline "                       "
bitfld.long 0x00 10. " CFG_INTERLACE_I        ,This parameter is used by both horizontal and vertical scaling 0: the input video format is progressive 1: the input video format is interlace" "0,1"
bitfld.long 0x00 9. "         CFG_HP_BYPASS        ,This parameter is used by horizontal scaling. If cfg_auto_hs is 0, horizontal polyphase filter is always enabled. In this case, this register is DON?T CARE. If cfg_auto_hs is 1, 0 : The polyphase scaler is always used reg..." "0,1"
bitfld.long 0x00 8. "     CFG_DCM_4X    ,This parameter is used by horizontal scaling. 0: the 4X decimation filter is disabled 1: the 4X decimation filter is enabled Note: (1) Either 2X or 4X can be enabled, but they cannot be enabled simultaneously. (2) This register is o..." "0,1"
textline "                       "
bitfld.long 0x00 7. " CFG_DCM_2X             ,This parameter is used by horizontal scaling. 0: the 2X decimation filter is disabled 1: the 2X decimation filter is enabled Note: (1) Either 2X or 4X can be enabled, but they cannot be enabled simultaneously. (2) This register..." "0,1"
bitfld.long 0x00 6. "         CFG_AUTO_HS          ,This parameter is used by horizontal scaling. 0: the cfg_dcm_2x and cfg_dcm_4x bits will enable appropriate decimation filters 1: HW will decide whether up-scaling or down-scaling is required based on horizontal scaling r..." "0,1"
bitfld.long 0x00 5. "     CFG_ENABLE_EV ,This parameter is used by the edge-detection block. 0: The output of edge-detection block will be force to ?0? 1: The calculation results of edge-detection block will be output normally" "0,1"
textline "                       "
bitfld.long 0x00 4. " CFG_USE_RAV            ,This parameter is used by vertical scaling. 0: Poly-phase filter will be used for the vertical scaling 1: Running average filter will be used for the vertical scaling (down scaling only)" "0,1"
bitfld.long 0x00 3. "         CFG_INVT_FID         ,This parameter is used by vertical scaling. 0: Progressive input 1: Interlaced input Must be set to 1 when CFG_INTERFACE_I = 1." "0,1"
bitfld.long 0x00 2. "     CFG_SC_BYPASS ,This parameter is a general purpose. 0: Scaling module will engaged 1: Scaling module will be bypassed" "0,1"
textline "                       "
bitfld.long 0x00 1. " CFG_LINEAR             ,This parameter is used by horizontal scaling. 0: Anamorphic scaling 1: Linear scaling" "0,1"
bitfld.long 0x00 0. "         CFG_INTERLACE_O      ,This parameter is used by vertical scaling. 0: The output format of SC is progressive 1: The output format of SC is interlace" "0,1"
group.long 0x4++0x3
line.long 0x00 "VIP_CFG_SC1,"
hexmask.long 0x00 0.--26. 1. " CFG_ROW_ACC_INC        ,This parameter is used by vertical scaling. It defines the increment of the row accumulator in vertical poly-phase filter. It can be calculated by following formula: row_acc_inc = round(2^16 *(src_h)/(tar_h)) In case of interla..."
group.long 0x8++0x3
line.long 0x00 "VIP_CFG_SC2,"
hexmask.long 0x00 0.--27. 1. " CFG_ROW_ACC_OFFSET     ,This parameter is used by vertical scaling. It defines the vertical offset during vertical scaling. In progressive mode: this offset will be applied to a frame. In interlace mode: this offset will be applied to the top field."
group.long 0xC++0x3
line.long 0x00 "VIP_CFG_SC3,"
hexmask.long 0x00 0.--27. 1. " CFG_ROW_ACC_OFFSET_B   ,This parameter is used by vertical scaling. It defines the vertical offset during vertical scaling. In progressive mode: this parameter will not be used. In interlace mode: this offset will be applied to the bottom field."
group.long 0x10++0x3
line.long 0x00 "VIP_CFG_SC4,"
bitfld.long 0x00 28.--30. " CFG_NLIN_ACC_INIT_U    ,This parameter is used by horizontal scaling. The 3 MSBbits of 'nlin_acc_init' that is defined in CFG_SC10" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "         CFG_LIN_ACC_INC_U    ,This parameter is used by horizontal scaling. The 3 MSBbits of 'lin_acc_inc' that is defined in CFG_SC9" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 12.--22. 1. "     CFG_TAR_W     ,This parameter is a general purpose. Scaled target picture width. unit is pixel. This parameter defines the final output picture size"
textline "                       "
hexmask.long.word 0x00 0.--10. 1. " CFG_TAR_H              ,This parameter is a general purpose. Scaled target picture height.. unit is line... This parameter defines the final output picture size. For the interlace output.. it should be the number of lines per field."
group.long 0x14++0x3
line.long 0x00 "VIP_CFG_SC5,"
bitfld.long 0x00 24.--26. " CFG_NLIN_ACC_INC_U     ,This parameter is used by horizontal scaling. The 3 MSBbits of ?nlin_acc_inc? that is defined in CFG_SC11" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 12.--22. 1. "         CFG_SRC_W            ,This parameter is a general purpose. This parameter defines the width of the source image"
hexmask.long.word 0x00 0.--10. 1. "  CFG_SRC_H     ,This parameter is a general purpose. This parameter defines the height of the source image. For the interlace input.. it should be the number of lines per field."
group.long 0x18++0x3
line.long 0x00 "VIP_CFG_SC6,"
hexmask.long.word 0x00 10.--19. 1. " CFG_ROW_ACC_INIT_RAV_B ,This parameter is used by vertical scaling. it is used only when the input is interlace format. In vertical down scaling.. the running average filter is applied. This parameter sets the initialization value of the row accumulat..."
hexmask.long.word 0x00 0.--9. 1. "      CFG_ROW_ACC_INIT_RAV ,This parameter is used by vertical scaling. In vertical down scaling.. the running average filter is applied. This parameter sets the initialization value of the row accumulator in running average filter (for progressive for..."
group.long 0x20++0x3
line.long 0x00 "VIP_CFG_SC8,"
hexmask.long.word 0x00 12.--22. 1. " CFG_NLIN_RIGHT         ,This parameter is used by horizontal scaling. In anamorphic mode. this parameter defines the width of the strip on right-hand side. In other words. it defines the location of the last pixel where the linear scaling is ended. Th..."
hexmask.long.word 0x00 0.--10. 1. "      CFG_NLIN_LEFT        ,This parameter is used by horizontal scaling. In anamorphic mode. this parameter defines the width of the strip on left-hand side. In other words. it defines the location of the last pixel in the left-sidenonlinear strip. Th..."
group.long 0x24++0x3
line.long 0x00 "VIP_CFG_SC9,"
hexmask.long 0x00 0.--31. 1. " CFG_LIN_ACC_INC        ,This parameter is used by horizontal scaling. It defines the increment of the linear accumulator. if SR 0.5 then lin_acc_inc = round(2^24*(srcWi -1) /(tarWi -1)) else if 0.25 SR ? 0.5 lin_acc_inc = round(2^24*(srcWi/2 -1) /(tar..."
group.long 0x28++0x3
line.long 0x00 "VIP_CFG_SC10,"
hexmask.long 0x00 0.--31. 1. " CFG_NLIN_ACC_INIT      ,This parameter is used by horizontal scaling. It is used by nonlinear scaling only. It defines the initialization value of the nonlinear accumulator. nlin_acc_init = K*(1-2*d) Here the definitions of K and d are the same as in ..."
group.long 0x2C++0x3
line.long 0x00 "VIP_CFG_SC11,"
hexmask.long 0x00 0.--31. 1. " CFG_NLIN_ACC_INC       ,This parameter is used by horizontal scaling. It is used by nonlinear scaling only. It defines the increment of the nonlinear accumulator. if upscaling then d = 0 if Ltar !=0 then K =round[2^24*Lsrc/(Ltar*Ltar) ] where Lsrc= (s..."
group.long 0x30++0x3
line.long 0x00 "VIP_CFG_SC12,"
hexmask.long 0x00 0.--24. 1. " CFG_COL_ACC_OFFSET     ,This parameter is used in horizontal scaling. It defines the luma accumulator's offset. Normally this parameter can be set as 0 if no horizontal offset is involved. In some applications.. such as Pan and Scan.. a corresponding ..."
group.long 0x34++0x3
line.long 0x00 "VIP_CFG_SC13,"
hexmask.long.word 0x00 0.--9. 1. " CFG_SC_FACTOR_RAV      ,This parameter is used by vertical scaling. Vertical scaling factor: It is defined as following: 1024*tarH/srcH. It is used for downscaling by the running average filter"
group.long 0x48++0x3
line.long 0x00 "VIP_CFG_SC18,"
hexmask.long.word 0x00 0.--9. 1. " CFG_HS_FACTOR          ,This parameter is used by horizontal scaling. Horizontal-scaling-factor = tarWi/srcWi. Numerical format: 6.4 (6 bit integer and 4 bit fraction)"
group.long 0x4C++0x3
line.long 0x00 "VIP_CFG_SC19,"
hexmask.long.byte 0x00 24.--31. 1. " CFG_HPF_COEF3          ,This parameter is used by the peaking block. Defines the coefficient 3 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
hexmask.long.byte 0x00 16.--23. 1. "        CFG_HPF_COEF2        ,This parameter is used by the peaking block. Defines the coefficient 2 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
hexmask.long.byte 0x00 8.--15. 1. "    CFG_HPF_COEF1 ,This parameter is used by the peaking block. Defines the coefficient 1 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " CFG_HPF_COEF0          ,This parameter is used by the peaking block. Defines the coefficient 0 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
group.long 0x50++0x3
line.long 0x00 "VIP_CFG_SC20,"
hexmask.long.word 0x00 20.--28. 1. " CFG_NL_LIMIT           ,This parameter is used by the peaking block. The maximum of clipping."
bitfld.long 0x00 16.--18. "      CFG_HPF_NORM_SHIFT   ,This parameter is used by the peaking block. Defines the decimal point of the hpf coefficient." "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 8.--15. 1. "     CFG_HPF_COEF5 ,This parameter is used by the peaking block. Defines the coefficient 5 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " CFG_HPF_COEF4          ,This parameter is used by the peaking block. Defines the coefficient 4 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
group.long 0x54++0x3
line.long 0x00 "VIP_CFG_SC21,"
hexmask.long.byte 0x00 16.--23. 1. " CFG_NL_LO_SLOPE        ,This parameter is used by the peaking block. Slope of the nonlinear peaking function. The format is fixed point 4.4."
hexmask.long.word 0x00 0.--8. 1. "        CFG_NL_LO_THR        ,This parameter is used by the peaking block. Threshold for the nonlinear peaking function. Must be 0"
group.long 0x58++0x3
line.long 0x00 "VIP_CFG_SC22,"
bitfld.long 0x00 16.--18. " CFG_NL_HI_SLOPE_SHIFT  ,This parameter is used by the peaking block. Slope of the nonlinear peaking function. The gain is 2^(nl_hi_slope_shift-3)." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--8. 1. "         CFG_NL_HI_THR        ,This parameter is used by the peaking block. Threshold for the nonlinear peaking function. Must be nl_hi_thr."
group.long 0x60++0x3
line.long 0x00 "VIP_CFG_SC24,"
hexmask.long.word 0x00 16.--26. 1. " CFG_ORG_W              ,This parameter is used by the trimmer. Horizontal offset from the left of the original input image."
hexmask.long.word 0x00 0.--10. 1. "      CFG_ORG_H            ,This parameter is used by the trimmer. Vertical offset from the top of the original input image."
group.long 0x64++0x3
line.long 0x00 "VIP_CFG_SC25,"
hexmask.long.word 0x00 16.--26. 1. " CFG_OFF_W              ,This parameter is used by the trimmer. Horizontal offset from the left of the original input image."
hexmask.long.word 0x00 0.--10. 1. "      CFG_OFF_H            ,This parameter is used by the trimmer. Vertical offset from the top of the original input image."
width 0x0B
tree.end
tree "VIP1_Slice1_sc"
base ad:0x48975D00
width 14.
group.long 0x0++0x3
line.long 0x00 "VIP_CFG_SC0,"
bitfld.long 0x00 16. " CFG_FID_SELFGEN        ,FID self generate enable. When input is progressive and this bit is set, the SC generates self-toggling (top/bottom) output FID when performing interlacing." "0,1"
bitfld.long 0x00 15. "         CFG_TRIM             ,Trimming enable. When 1, the input image whose size is specified by orgW and orgH registers is trimmed to the size with srcW and srcH from the offset specified by offW and offH. 0: disable trimming 1: enable trimming" "0,1"
bitfld.long 0x00 14. "     CFG_Y_PK_EN   ,This parameter is used by peaking block. 0: disable luma peaking 1: enable luma peaking" "0,1"
textline "                       "
bitfld.long 0x00 10. " CFG_INTERLACE_I        ,This parameter is used by both horizontal and vertical scaling 0: the input video format is progressive 1: the input video format is interlace" "0,1"
bitfld.long 0x00 9. "         CFG_HP_BYPASS        ,This parameter is used by horizontal scaling. If cfg_auto_hs is 0, horizontal polyphase filter is always enabled. In this case, this register is DON?T CARE. If cfg_auto_hs is 1, 0 : The polyphase scaler is always used reg..." "0,1"
bitfld.long 0x00 8. "     CFG_DCM_4X    ,This parameter is used by horizontal scaling. 0: the 4X decimation filter is disabled 1: the 4X decimation filter is enabled Note: (1) Either 2X or 4X can be enabled, but they cannot be enabled simultaneously. (2) This register is o..." "0,1"
textline "                       "
bitfld.long 0x00 7. " CFG_DCM_2X             ,This parameter is used by horizontal scaling. 0: the 2X decimation filter is disabled 1: the 2X decimation filter is enabled Note: (1) Either 2X or 4X can be enabled, but they cannot be enabled simultaneously. (2) This register..." "0,1"
bitfld.long 0x00 6. "         CFG_AUTO_HS          ,This parameter is used by horizontal scaling. 0: the cfg_dcm_2x and cfg_dcm_4x bits will enable appropriate decimation filters 1: HW will decide whether up-scaling or down-scaling is required based on horizontal scaling r..." "0,1"
bitfld.long 0x00 5. "     CFG_ENABLE_EV ,This parameter is used by the edge-detection block. 0: The output of edge-detection block will be force to ?0? 1: The calculation results of edge-detection block will be output normally" "0,1"
textline "                       "
bitfld.long 0x00 4. " CFG_USE_RAV            ,This parameter is used by vertical scaling. 0: Poly-phase filter will be used for the vertical scaling 1: Running average filter will be used for the vertical scaling (down scaling only)" "0,1"
bitfld.long 0x00 3. "         CFG_INVT_FID         ,This parameter is used by vertical scaling. 0: Progressive input 1: Interlaced input Must be set to 1 when CFG_INTERFACE_I = 1." "0,1"
bitfld.long 0x00 2. "     CFG_SC_BYPASS ,This parameter is a general purpose. 0: Scaling module will engaged 1: Scaling module will be bypassed" "0,1"
textline "                       "
bitfld.long 0x00 1. " CFG_LINEAR             ,This parameter is used by horizontal scaling. 0: Anamorphic scaling 1: Linear scaling" "0,1"
bitfld.long 0x00 0. "         CFG_INTERLACE_O      ,This parameter is used by vertical scaling. 0: The output format of SC is progressive 1: The output format of SC is interlace" "0,1"
group.long 0x4++0x3
line.long 0x00 "VIP_CFG_SC1,"
hexmask.long 0x00 0.--26. 1. " CFG_ROW_ACC_INC        ,This parameter is used by vertical scaling. It defines the increment of the row accumulator in vertical poly-phase filter. It can be calculated by following formula: row_acc_inc = round(2^16 *(src_h)/(tar_h)) In case of interla..."
group.long 0x8++0x3
line.long 0x00 "VIP_CFG_SC2,"
hexmask.long 0x00 0.--27. 1. " CFG_ROW_ACC_OFFSET     ,This parameter is used by vertical scaling. It defines the vertical offset during vertical scaling. In progressive mode: this offset will be applied to a frame. In interlace mode: this offset will be applied to the top field."
group.long 0xC++0x3
line.long 0x00 "VIP_CFG_SC3,"
hexmask.long 0x00 0.--27. 1. " CFG_ROW_ACC_OFFSET_B   ,This parameter is used by vertical scaling. It defines the vertical offset during vertical scaling. In progressive mode: this parameter will not be used. In interlace mode: this offset will be applied to the bottom field."
group.long 0x10++0x3
line.long 0x00 "VIP_CFG_SC4,"
bitfld.long 0x00 28.--30. " CFG_NLIN_ACC_INIT_U    ,This parameter is used by horizontal scaling. The 3 MSBbits of 'nlin_acc_init' that is defined in CFG_SC10" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "         CFG_LIN_ACC_INC_U    ,This parameter is used by horizontal scaling. The 3 MSBbits of 'lin_acc_inc' that is defined in CFG_SC9" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 12.--22. 1. "     CFG_TAR_W     ,This parameter is a general purpose. Scaled target picture width. unit is pixel. This parameter defines the final output picture size"
textline "                       "
hexmask.long.word 0x00 0.--10. 1. " CFG_TAR_H              ,This parameter is a general purpose. Scaled target picture height.. unit is line... This parameter defines the final output picture size. For the interlace output.. it should be the number of lines per field."
group.long 0x14++0x3
line.long 0x00 "VIP_CFG_SC5,"
bitfld.long 0x00 24.--26. " CFG_NLIN_ACC_INC_U     ,This parameter is used by horizontal scaling. The 3 MSBbits of ?nlin_acc_inc? that is defined in CFG_SC11" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 12.--22. 1. "         CFG_SRC_W            ,This parameter is a general purpose. This parameter defines the width of the source image"
hexmask.long.word 0x00 0.--10. 1. "  CFG_SRC_H     ,This parameter is a general purpose. This parameter defines the height of the source image. For the interlace input.. it should be the number of lines per field."
group.long 0x18++0x3
line.long 0x00 "VIP_CFG_SC6,"
hexmask.long.word 0x00 10.--19. 1. " CFG_ROW_ACC_INIT_RAV_B ,This parameter is used by vertical scaling. it is used only when the input is interlace format. In vertical down scaling.. the running average filter is applied. This parameter sets the initialization value of the row accumulat..."
hexmask.long.word 0x00 0.--9. 1. "      CFG_ROW_ACC_INIT_RAV ,This parameter is used by vertical scaling. In vertical down scaling.. the running average filter is applied. This parameter sets the initialization value of the row accumulator in running average filter (for progressive for..."
group.long 0x20++0x3
line.long 0x00 "VIP_CFG_SC8,"
hexmask.long.word 0x00 12.--22. 1. " CFG_NLIN_RIGHT         ,This parameter is used by horizontal scaling. In anamorphic mode. this parameter defines the width of the strip on right-hand side. In other words. it defines the location of the last pixel where the linear scaling is ended. Th..."
hexmask.long.word 0x00 0.--10. 1. "      CFG_NLIN_LEFT        ,This parameter is used by horizontal scaling. In anamorphic mode. this parameter defines the width of the strip on left-hand side. In other words. it defines the location of the last pixel in the left-sidenonlinear strip. Th..."
group.long 0x24++0x3
line.long 0x00 "VIP_CFG_SC9,"
hexmask.long 0x00 0.--31. 1. " CFG_LIN_ACC_INC        ,This parameter is used by horizontal scaling. It defines the increment of the linear accumulator. if SR 0.5 then lin_acc_inc = round(2^24*(srcWi -1) /(tarWi -1)) else if 0.25 SR ? 0.5 lin_acc_inc = round(2^24*(srcWi/2 -1) /(tar..."
group.long 0x28++0x3
line.long 0x00 "VIP_CFG_SC10,"
hexmask.long 0x00 0.--31. 1. " CFG_NLIN_ACC_INIT      ,This parameter is used by horizontal scaling. It is used by nonlinear scaling only. It defines the initialization value of the nonlinear accumulator. nlin_acc_init = K*(1-2*d) Here the definitions of K and d are the same as in ..."
group.long 0x2C++0x3
line.long 0x00 "VIP_CFG_SC11,"
hexmask.long 0x00 0.--31. 1. " CFG_NLIN_ACC_INC       ,This parameter is used by horizontal scaling. It is used by nonlinear scaling only. It defines the increment of the nonlinear accumulator. if upscaling then d = 0 if Ltar !=0 then K =round[2^24*Lsrc/(Ltar*Ltar) ] where Lsrc= (s..."
group.long 0x30++0x3
line.long 0x00 "VIP_CFG_SC12,"
hexmask.long 0x00 0.--24. 1. " CFG_COL_ACC_OFFSET     ,This parameter is used in horizontal scaling. It defines the luma accumulator's offset. Normally this parameter can be set as 0 if no horizontal offset is involved. In some applications.. such as Pan and Scan.. a corresponding ..."
group.long 0x34++0x3
line.long 0x00 "VIP_CFG_SC13,"
hexmask.long.word 0x00 0.--9. 1. " CFG_SC_FACTOR_RAV      ,This parameter is used by vertical scaling. Vertical scaling factor: It is defined as following: 1024*tarH/srcH. It is used for downscaling by the running average filter"
group.long 0x48++0x3
line.long 0x00 "VIP_CFG_SC18,"
hexmask.long.word 0x00 0.--9. 1. " CFG_HS_FACTOR          ,This parameter is used by horizontal scaling. Horizontal-scaling-factor = tarWi/srcWi. Numerical format: 6.4 (6 bit integer and 4 bit fraction)"
group.long 0x4C++0x3
line.long 0x00 "VIP_CFG_SC19,"
hexmask.long.byte 0x00 24.--31. 1. " CFG_HPF_COEF3          ,This parameter is used by the peaking block. Defines the coefficient 3 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
hexmask.long.byte 0x00 16.--23. 1. "        CFG_HPF_COEF2        ,This parameter is used by the peaking block. Defines the coefficient 2 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
hexmask.long.byte 0x00 8.--15. 1. "    CFG_HPF_COEF1 ,This parameter is used by the peaking block. Defines the coefficient 1 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " CFG_HPF_COEF0          ,This parameter is used by the peaking block. Defines the coefficient 0 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
group.long 0x50++0x3
line.long 0x00 "VIP_CFG_SC20,"
hexmask.long.word 0x00 20.--28. 1. " CFG_NL_LIMIT           ,This parameter is used by the peaking block. The maximum of clipping."
bitfld.long 0x00 16.--18. "      CFG_HPF_NORM_SHIFT   ,This parameter is used by the peaking block. Defines the decimal point of the hpf coefficient." "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 8.--15. 1. "     CFG_HPF_COEF5 ,This parameter is used by the peaking block. Defines the coefficient 5 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " CFG_HPF_COEF4          ,This parameter is used by the peaking block. Defines the coefficient 4 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
group.long 0x54++0x3
line.long 0x00 "VIP_CFG_SC21,"
hexmask.long.byte 0x00 16.--23. 1. " CFG_NL_LO_SLOPE        ,This parameter is used by the peaking block. Slope of the nonlinear peaking function. The format is fixed point 4.4."
hexmask.long.word 0x00 0.--8. 1. "        CFG_NL_LO_THR        ,This parameter is used by the peaking block. Threshold for the nonlinear peaking function. Must be 0"
group.long 0x58++0x3
line.long 0x00 "VIP_CFG_SC22,"
bitfld.long 0x00 16.--18. " CFG_NL_HI_SLOPE_SHIFT  ,This parameter is used by the peaking block. Slope of the nonlinear peaking function. The gain is 2^(nl_hi_slope_shift-3)." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--8. 1. "         CFG_NL_HI_THR        ,This parameter is used by the peaking block. Threshold for the nonlinear peaking function. Must be nl_hi_thr."
group.long 0x60++0x3
line.long 0x00 "VIP_CFG_SC24,"
hexmask.long.word 0x00 16.--26. 1. " CFG_ORG_W              ,This parameter is used by the trimmer. Horizontal offset from the left of the original input image."
hexmask.long.word 0x00 0.--10. 1. "      CFG_ORG_H            ,This parameter is used by the trimmer. Vertical offset from the top of the original input image."
group.long 0x64++0x3
line.long 0x00 "VIP_CFG_SC25,"
hexmask.long.word 0x00 16.--26. 1. " CFG_OFF_W              ,This parameter is used by the trimmer. Horizontal offset from the left of the original input image."
hexmask.long.word 0x00 0.--10. 1. "      CFG_OFF_H            ,This parameter is used by the trimmer. Vertical offset from the top of the original input image."
width 0x0B
tree.end
tree "VIP2_Slice0_sc"
base ad:0x48995800
width 14.
group.long 0x0++0x3
line.long 0x00 "VIP_CFG_SC0,"
bitfld.long 0x00 16. " CFG_FID_SELFGEN        ,FID self generate enable. When input is progressive and this bit is set, the SC generates self-toggling (top/bottom) output FID when performing interlacing." "0,1"
bitfld.long 0x00 15. "         CFG_TRIM             ,Trimming enable. When 1, the input image whose size is specified by orgW and orgH registers is trimmed to the size with srcW and srcH from the offset specified by offW and offH. 0: disable trimming 1: enable trimming" "0,1"
bitfld.long 0x00 14. "     CFG_Y_PK_EN   ,This parameter is used by peaking block. 0: disable luma peaking 1: enable luma peaking" "0,1"
textline "                       "
bitfld.long 0x00 10. " CFG_INTERLACE_I        ,This parameter is used by both horizontal and vertical scaling 0: the input video format is progressive 1: the input video format is interlace" "0,1"
bitfld.long 0x00 9. "         CFG_HP_BYPASS        ,This parameter is used by horizontal scaling. If cfg_auto_hs is 0, horizontal polyphase filter is always enabled. In this case, this register is DON?T CARE. If cfg_auto_hs is 1, 0 : The polyphase scaler is always used reg..." "0,1"
bitfld.long 0x00 8. "     CFG_DCM_4X    ,This parameter is used by horizontal scaling. 0: the 4X decimation filter is disabled 1: the 4X decimation filter is enabled Note: (1) Either 2X or 4X can be enabled, but they cannot be enabled simultaneously. (2) This register is o..." "0,1"
textline "                       "
bitfld.long 0x00 7. " CFG_DCM_2X             ,This parameter is used by horizontal scaling. 0: the 2X decimation filter is disabled 1: the 2X decimation filter is enabled Note: (1) Either 2X or 4X can be enabled, but they cannot be enabled simultaneously. (2) This register..." "0,1"
bitfld.long 0x00 6. "         CFG_AUTO_HS          ,This parameter is used by horizontal scaling. 0: the cfg_dcm_2x and cfg_dcm_4x bits will enable appropriate decimation filters 1: HW will decide whether up-scaling or down-scaling is required based on horizontal scaling r..." "0,1"
bitfld.long 0x00 5. "     CFG_ENABLE_EV ,This parameter is used by the edge-detection block. 0: The output of edge-detection block will be force to ?0? 1: The calculation results of edge-detection block will be output normally" "0,1"
textline "                       "
bitfld.long 0x00 4. " CFG_USE_RAV            ,This parameter is used by vertical scaling. 0: Poly-phase filter will be used for the vertical scaling 1: Running average filter will be used for the vertical scaling (down scaling only)" "0,1"
bitfld.long 0x00 3. "         CFG_INVT_FID         ,This parameter is used by vertical scaling. 0: Progressive input 1: Interlaced input Must be set to 1 when CFG_INTERFACE_I = 1." "0,1"
bitfld.long 0x00 2. "     CFG_SC_BYPASS ,This parameter is a general purpose. 0: Scaling module will engaged 1: Scaling module will be bypassed" "0,1"
textline "                       "
bitfld.long 0x00 1. " CFG_LINEAR             ,This parameter is used by horizontal scaling. 0: Anamorphic scaling 1: Linear scaling" "0,1"
bitfld.long 0x00 0. "         CFG_INTERLACE_O      ,This parameter is used by vertical scaling. 0: The output format of SC is progressive 1: The output format of SC is interlace" "0,1"
group.long 0x4++0x3
line.long 0x00 "VIP_CFG_SC1,"
hexmask.long 0x00 0.--26. 1. " CFG_ROW_ACC_INC        ,This parameter is used by vertical scaling. It defines the increment of the row accumulator in vertical poly-phase filter. It can be calculated by following formula: row_acc_inc = round(2^16 *(src_h)/(tar_h)) In case of interla..."
group.long 0x8++0x3
line.long 0x00 "VIP_CFG_SC2,"
hexmask.long 0x00 0.--27. 1. " CFG_ROW_ACC_OFFSET     ,This parameter is used by vertical scaling. It defines the vertical offset during vertical scaling. In progressive mode: this offset will be applied to a frame. In interlace mode: this offset will be applied to the top field."
group.long 0xC++0x3
line.long 0x00 "VIP_CFG_SC3,"
hexmask.long 0x00 0.--27. 1. " CFG_ROW_ACC_OFFSET_B   ,This parameter is used by vertical scaling. It defines the vertical offset during vertical scaling. In progressive mode: this parameter will not be used. In interlace mode: this offset will be applied to the bottom field."
group.long 0x10++0x3
line.long 0x00 "VIP_CFG_SC4,"
bitfld.long 0x00 28.--30. " CFG_NLIN_ACC_INIT_U    ,This parameter is used by horizontal scaling. The 3 MSBbits of 'nlin_acc_init' that is defined in CFG_SC10" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "         CFG_LIN_ACC_INC_U    ,This parameter is used by horizontal scaling. The 3 MSBbits of 'lin_acc_inc' that is defined in CFG_SC9" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 12.--22. 1. "     CFG_TAR_W     ,This parameter is a general purpose. Scaled target picture width. unit is pixel. This parameter defines the final output picture size"
textline "                       "
hexmask.long.word 0x00 0.--10. 1. " CFG_TAR_H              ,This parameter is a general purpose. Scaled target picture height.. unit is line... This parameter defines the final output picture size. For the interlace output.. it should be the number of lines per field."
group.long 0x14++0x3
line.long 0x00 "VIP_CFG_SC5,"
bitfld.long 0x00 24.--26. " CFG_NLIN_ACC_INC_U     ,This parameter is used by horizontal scaling. The 3 MSBbits of ?nlin_acc_inc? that is defined in CFG_SC11" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 12.--22. 1. "         CFG_SRC_W            ,This parameter is a general purpose. This parameter defines the width of the source image"
hexmask.long.word 0x00 0.--10. 1. "  CFG_SRC_H     ,This parameter is a general purpose. This parameter defines the height of the source image. For the interlace input.. it should be the number of lines per field."
group.long 0x18++0x3
line.long 0x00 "VIP_CFG_SC6,"
hexmask.long.word 0x00 10.--19. 1. " CFG_ROW_ACC_INIT_RAV_B ,This parameter is used by vertical scaling. it is used only when the input is interlace format. In vertical down scaling.. the running average filter is applied. This parameter sets the initialization value of the row accumulat..."
hexmask.long.word 0x00 0.--9. 1. "      CFG_ROW_ACC_INIT_RAV ,This parameter is used by vertical scaling. In vertical down scaling.. the running average filter is applied. This parameter sets the initialization value of the row accumulator in running average filter (for progressive for..."
group.long 0x20++0x3
line.long 0x00 "VIP_CFG_SC8,"
hexmask.long.word 0x00 12.--22. 1. " CFG_NLIN_RIGHT         ,This parameter is used by horizontal scaling. In anamorphic mode. this parameter defines the width of the strip on right-hand side. In other words. it defines the location of the last pixel where the linear scaling is ended. Th..."
hexmask.long.word 0x00 0.--10. 1. "      CFG_NLIN_LEFT        ,This parameter is used by horizontal scaling. In anamorphic mode. this parameter defines the width of the strip on left-hand side. In other words. it defines the location of the last pixel in the left-sidenonlinear strip. Th..."
group.long 0x24++0x3
line.long 0x00 "VIP_CFG_SC9,"
hexmask.long 0x00 0.--31. 1. " CFG_LIN_ACC_INC        ,This parameter is used by horizontal scaling. It defines the increment of the linear accumulator. if SR 0.5 then lin_acc_inc = round(2^24*(srcWi -1) /(tarWi -1)) else if 0.25 SR ? 0.5 lin_acc_inc = round(2^24*(srcWi/2 -1) /(tar..."
group.long 0x28++0x3
line.long 0x00 "VIP_CFG_SC10,"
hexmask.long 0x00 0.--31. 1. " CFG_NLIN_ACC_INIT      ,This parameter is used by horizontal scaling. It is used by nonlinear scaling only. It defines the initialization value of the nonlinear accumulator. nlin_acc_init = K*(1-2*d) Here the definitions of K and d are the same as in ..."
group.long 0x2C++0x3
line.long 0x00 "VIP_CFG_SC11,"
hexmask.long 0x00 0.--31. 1. " CFG_NLIN_ACC_INC       ,This parameter is used by horizontal scaling. It is used by nonlinear scaling only. It defines the increment of the nonlinear accumulator. if upscaling then d = 0 if Ltar !=0 then K =round[2^24*Lsrc/(Ltar*Ltar) ] where Lsrc= (s..."
group.long 0x30++0x3
line.long 0x00 "VIP_CFG_SC12,"
hexmask.long 0x00 0.--24. 1. " CFG_COL_ACC_OFFSET     ,This parameter is used in horizontal scaling. It defines the luma accumulator's offset. Normally this parameter can be set as 0 if no horizontal offset is involved. In some applications.. such as Pan and Scan.. a corresponding ..."
group.long 0x34++0x3
line.long 0x00 "VIP_CFG_SC13,"
hexmask.long.word 0x00 0.--9. 1. " CFG_SC_FACTOR_RAV      ,This parameter is used by vertical scaling. Vertical scaling factor: It is defined as following: 1024*tarH/srcH. It is used for downscaling by the running average filter"
group.long 0x48++0x3
line.long 0x00 "VIP_CFG_SC18,"
hexmask.long.word 0x00 0.--9. 1. " CFG_HS_FACTOR          ,This parameter is used by horizontal scaling. Horizontal-scaling-factor = tarWi/srcWi. Numerical format: 6.4 (6 bit integer and 4 bit fraction)"
group.long 0x4C++0x3
line.long 0x00 "VIP_CFG_SC19,"
hexmask.long.byte 0x00 24.--31. 1. " CFG_HPF_COEF3          ,This parameter is used by the peaking block. Defines the coefficient 3 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
hexmask.long.byte 0x00 16.--23. 1. "        CFG_HPF_COEF2        ,This parameter is used by the peaking block. Defines the coefficient 2 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
hexmask.long.byte 0x00 8.--15. 1. "    CFG_HPF_COEF1 ,This parameter is used by the peaking block. Defines the coefficient 1 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " CFG_HPF_COEF0          ,This parameter is used by the peaking block. Defines the coefficient 0 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
group.long 0x50++0x3
line.long 0x00 "VIP_CFG_SC20,"
hexmask.long.word 0x00 20.--28. 1. " CFG_NL_LIMIT           ,This parameter is used by the peaking block. The maximum of clipping."
bitfld.long 0x00 16.--18. "      CFG_HPF_NORM_SHIFT   ,This parameter is used by the peaking block. Defines the decimal point of the hpf coefficient." "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 8.--15. 1. "     CFG_HPF_COEF5 ,This parameter is used by the peaking block. Defines the coefficient 5 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " CFG_HPF_COEF4          ,This parameter is used by the peaking block. Defines the coefficient 4 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
group.long 0x54++0x3
line.long 0x00 "VIP_CFG_SC21,"
hexmask.long.byte 0x00 16.--23. 1. " CFG_NL_LO_SLOPE        ,This parameter is used by the peaking block. Slope of the nonlinear peaking function. The format is fixed point 4.4."
hexmask.long.word 0x00 0.--8. 1. "        CFG_NL_LO_THR        ,This parameter is used by the peaking block. Threshold for the nonlinear peaking function. Must be 0"
group.long 0x58++0x3
line.long 0x00 "VIP_CFG_SC22,"
bitfld.long 0x00 16.--18. " CFG_NL_HI_SLOPE_SHIFT  ,This parameter is used by the peaking block. Slope of the nonlinear peaking function. The gain is 2^(nl_hi_slope_shift-3)." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--8. 1. "         CFG_NL_HI_THR        ,This parameter is used by the peaking block. Threshold for the nonlinear peaking function. Must be nl_hi_thr."
group.long 0x60++0x3
line.long 0x00 "VIP_CFG_SC24,"
hexmask.long.word 0x00 16.--26. 1. " CFG_ORG_W              ,This parameter is used by the trimmer. Horizontal offset from the left of the original input image."
hexmask.long.word 0x00 0.--10. 1. "      CFG_ORG_H            ,This parameter is used by the trimmer. Vertical offset from the top of the original input image."
group.long 0x64++0x3
line.long 0x00 "VIP_CFG_SC25,"
hexmask.long.word 0x00 16.--26. 1. " CFG_OFF_W              ,This parameter is used by the trimmer. Horizontal offset from the left of the original input image."
hexmask.long.word 0x00 0.--10. 1. "      CFG_OFF_H            ,This parameter is used by the trimmer. Vertical offset from the top of the original input image."
width 0x0B
tree.end
tree "VIP2_Slice1_sc"
base ad:0x48995D00
width 14.
group.long 0x0++0x3
line.long 0x00 "VIP_CFG_SC0,"
bitfld.long 0x00 16. " CFG_FID_SELFGEN        ,FID self generate enable. When input is progressive and this bit is set, the SC generates self-toggling (top/bottom) output FID when performing interlacing." "0,1"
bitfld.long 0x00 15. "         CFG_TRIM             ,Trimming enable. When 1, the input image whose size is specified by orgW and orgH registers is trimmed to the size with srcW and srcH from the offset specified by offW and offH. 0: disable trimming 1: enable trimming" "0,1"
bitfld.long 0x00 14. "     CFG_Y_PK_EN   ,This parameter is used by peaking block. 0: disable luma peaking 1: enable luma peaking" "0,1"
textline "                       "
bitfld.long 0x00 10. " CFG_INTERLACE_I        ,This parameter is used by both horizontal and vertical scaling 0: the input video format is progressive 1: the input video format is interlace" "0,1"
bitfld.long 0x00 9. "         CFG_HP_BYPASS        ,This parameter is used by horizontal scaling. If cfg_auto_hs is 0, horizontal polyphase filter is always enabled. In this case, this register is DON?T CARE. If cfg_auto_hs is 1, 0 : The polyphase scaler is always used reg..." "0,1"
bitfld.long 0x00 8. "     CFG_DCM_4X    ,This parameter is used by horizontal scaling. 0: the 4X decimation filter is disabled 1: the 4X decimation filter is enabled Note: (1) Either 2X or 4X can be enabled, but they cannot be enabled simultaneously. (2) This register is o..." "0,1"
textline "                       "
bitfld.long 0x00 7. " CFG_DCM_2X             ,This parameter is used by horizontal scaling. 0: the 2X decimation filter is disabled 1: the 2X decimation filter is enabled Note: (1) Either 2X or 4X can be enabled, but they cannot be enabled simultaneously. (2) This register..." "0,1"
bitfld.long 0x00 6. "         CFG_AUTO_HS          ,This parameter is used by horizontal scaling. 0: the cfg_dcm_2x and cfg_dcm_4x bits will enable appropriate decimation filters 1: HW will decide whether up-scaling or down-scaling is required based on horizontal scaling r..." "0,1"
bitfld.long 0x00 5. "     CFG_ENABLE_EV ,This parameter is used by the edge-detection block. 0: The output of edge-detection block will be force to ?0? 1: The calculation results of edge-detection block will be output normally" "0,1"
textline "                       "
bitfld.long 0x00 4. " CFG_USE_RAV            ,This parameter is used by vertical scaling. 0: Poly-phase filter will be used for the vertical scaling 1: Running average filter will be used for the vertical scaling (down scaling only)" "0,1"
bitfld.long 0x00 3. "         CFG_INVT_FID         ,This parameter is used by vertical scaling. 0: Progressive input 1: Interlaced input Must be set to 1 when CFG_INTERFACE_I = 1." "0,1"
bitfld.long 0x00 2. "     CFG_SC_BYPASS ,This parameter is a general purpose. 0: Scaling module will engaged 1: Scaling module will be bypassed" "0,1"
textline "                       "
bitfld.long 0x00 1. " CFG_LINEAR             ,This parameter is used by horizontal scaling. 0: Anamorphic scaling 1: Linear scaling" "0,1"
bitfld.long 0x00 0. "         CFG_INTERLACE_O      ,This parameter is used by vertical scaling. 0: The output format of SC is progressive 1: The output format of SC is interlace" "0,1"
group.long 0x4++0x3
line.long 0x00 "VIP_CFG_SC1,"
hexmask.long 0x00 0.--26. 1. " CFG_ROW_ACC_INC        ,This parameter is used by vertical scaling. It defines the increment of the row accumulator in vertical poly-phase filter. It can be calculated by following formula: row_acc_inc = round(2^16 *(src_h)/(tar_h)) In case of interla..."
group.long 0x8++0x3
line.long 0x00 "VIP_CFG_SC2,"
hexmask.long 0x00 0.--27. 1. " CFG_ROW_ACC_OFFSET     ,This parameter is used by vertical scaling. It defines the vertical offset during vertical scaling. In progressive mode: this offset will be applied to a frame. In interlace mode: this offset will be applied to the top field."
group.long 0xC++0x3
line.long 0x00 "VIP_CFG_SC3,"
hexmask.long 0x00 0.--27. 1. " CFG_ROW_ACC_OFFSET_B   ,This parameter is used by vertical scaling. It defines the vertical offset during vertical scaling. In progressive mode: this parameter will not be used. In interlace mode: this offset will be applied to the bottom field."
group.long 0x10++0x3
line.long 0x00 "VIP_CFG_SC4,"
bitfld.long 0x00 28.--30. " CFG_NLIN_ACC_INIT_U    ,This parameter is used by horizontal scaling. The 3 MSBbits of 'nlin_acc_init' that is defined in CFG_SC10" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "         CFG_LIN_ACC_INC_U    ,This parameter is used by horizontal scaling. The 3 MSBbits of 'lin_acc_inc' that is defined in CFG_SC9" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 12.--22. 1. "     CFG_TAR_W     ,This parameter is a general purpose. Scaled target picture width. unit is pixel. This parameter defines the final output picture size"
textline "                       "
hexmask.long.word 0x00 0.--10. 1. " CFG_TAR_H              ,This parameter is a general purpose. Scaled target picture height.. unit is line... This parameter defines the final output picture size. For the interlace output.. it should be the number of lines per field."
group.long 0x14++0x3
line.long 0x00 "VIP_CFG_SC5,"
bitfld.long 0x00 24.--26. " CFG_NLIN_ACC_INC_U     ,This parameter is used by horizontal scaling. The 3 MSBbits of ?nlin_acc_inc? that is defined in CFG_SC11" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 12.--22. 1. "         CFG_SRC_W            ,This parameter is a general purpose. This parameter defines the width of the source image"
hexmask.long.word 0x00 0.--10. 1. "  CFG_SRC_H     ,This parameter is a general purpose. This parameter defines the height of the source image. For the interlace input.. it should be the number of lines per field."
group.long 0x18++0x3
line.long 0x00 "VIP_CFG_SC6,"
hexmask.long.word 0x00 10.--19. 1. " CFG_ROW_ACC_INIT_RAV_B ,This parameter is used by vertical scaling. it is used only when the input is interlace format. In vertical down scaling.. the running average filter is applied. This parameter sets the initialization value of the row accumulat..."
hexmask.long.word 0x00 0.--9. 1. "      CFG_ROW_ACC_INIT_RAV ,This parameter is used by vertical scaling. In vertical down scaling.. the running average filter is applied. This parameter sets the initialization value of the row accumulator in running average filter (for progressive for..."
group.long 0x20++0x3
line.long 0x00 "VIP_CFG_SC8,"
hexmask.long.word 0x00 12.--22. 1. " CFG_NLIN_RIGHT         ,This parameter is used by horizontal scaling. In anamorphic mode. this parameter defines the width of the strip on right-hand side. In other words. it defines the location of the last pixel where the linear scaling is ended. Th..."
hexmask.long.word 0x00 0.--10. 1. "      CFG_NLIN_LEFT        ,This parameter is used by horizontal scaling. In anamorphic mode. this parameter defines the width of the strip on left-hand side. In other words. it defines the location of the last pixel in the left-sidenonlinear strip. Th..."
group.long 0x24++0x3
line.long 0x00 "VIP_CFG_SC9,"
hexmask.long 0x00 0.--31. 1. " CFG_LIN_ACC_INC        ,This parameter is used by horizontal scaling. It defines the increment of the linear accumulator. if SR 0.5 then lin_acc_inc = round(2^24*(srcWi -1) /(tarWi -1)) else if 0.25 SR ? 0.5 lin_acc_inc = round(2^24*(srcWi/2 -1) /(tar..."
group.long 0x28++0x3
line.long 0x00 "VIP_CFG_SC10,"
hexmask.long 0x00 0.--31. 1. " CFG_NLIN_ACC_INIT      ,This parameter is used by horizontal scaling. It is used by nonlinear scaling only. It defines the initialization value of the nonlinear accumulator. nlin_acc_init = K*(1-2*d) Here the definitions of K and d are the same as in ..."
group.long 0x2C++0x3
line.long 0x00 "VIP_CFG_SC11,"
hexmask.long 0x00 0.--31. 1. " CFG_NLIN_ACC_INC       ,This parameter is used by horizontal scaling. It is used by nonlinear scaling only. It defines the increment of the nonlinear accumulator. if upscaling then d = 0 if Ltar !=0 then K =round[2^24*Lsrc/(Ltar*Ltar) ] where Lsrc= (s..."
group.long 0x30++0x3
line.long 0x00 "VIP_CFG_SC12,"
hexmask.long 0x00 0.--24. 1. " CFG_COL_ACC_OFFSET     ,This parameter is used in horizontal scaling. It defines the luma accumulator's offset. Normally this parameter can be set as 0 if no horizontal offset is involved. In some applications.. such as Pan and Scan.. a corresponding ..."
group.long 0x34++0x3
line.long 0x00 "VIP_CFG_SC13,"
hexmask.long.word 0x00 0.--9. 1. " CFG_SC_FACTOR_RAV      ,This parameter is used by vertical scaling. Vertical scaling factor: It is defined as following: 1024*tarH/srcH. It is used for downscaling by the running average filter"
group.long 0x48++0x3
line.long 0x00 "VIP_CFG_SC18,"
hexmask.long.word 0x00 0.--9. 1. " CFG_HS_FACTOR          ,This parameter is used by horizontal scaling. Horizontal-scaling-factor = tarWi/srcWi. Numerical format: 6.4 (6 bit integer and 4 bit fraction)"
group.long 0x4C++0x3
line.long 0x00 "VIP_CFG_SC19,"
hexmask.long.byte 0x00 24.--31. 1. " CFG_HPF_COEF3          ,This parameter is used by the peaking block. Defines the coefficient 3 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
hexmask.long.byte 0x00 16.--23. 1. "        CFG_HPF_COEF2        ,This parameter is used by the peaking block. Defines the coefficient 2 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
hexmask.long.byte 0x00 8.--15. 1. "    CFG_HPF_COEF1 ,This parameter is used by the peaking block. Defines the coefficient 1 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " CFG_HPF_COEF0          ,This parameter is used by the peaking block. Defines the coefficient 0 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
group.long 0x50++0x3
line.long 0x00 "VIP_CFG_SC20,"
hexmask.long.word 0x00 20.--28. 1. " CFG_NL_LIMIT           ,This parameter is used by the peaking block. The maximum of clipping."
bitfld.long 0x00 16.--18. "      CFG_HPF_NORM_SHIFT   ,This parameter is used by the peaking block. Defines the decimal point of the hpf coefficient." "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 8.--15. 1. "     CFG_HPF_COEF5 ,This parameter is used by the peaking block. Defines the coefficient 5 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " CFG_HPF_COEF4          ,This parameter is used by the peaking block. Defines the coefficient 4 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
group.long 0x54++0x3
line.long 0x00 "VIP_CFG_SC21,"
hexmask.long.byte 0x00 16.--23. 1. " CFG_NL_LO_SLOPE        ,This parameter is used by the peaking block. Slope of the nonlinear peaking function. The format is fixed point 4.4."
hexmask.long.word 0x00 0.--8. 1. "        CFG_NL_LO_THR        ,This parameter is used by the peaking block. Threshold for the nonlinear peaking function. Must be 0"
group.long 0x58++0x3
line.long 0x00 "VIP_CFG_SC22,"
bitfld.long 0x00 16.--18. " CFG_NL_HI_SLOPE_SHIFT  ,This parameter is used by the peaking block. Slope of the nonlinear peaking function. The gain is 2^(nl_hi_slope_shift-3)." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--8. 1. "         CFG_NL_HI_THR        ,This parameter is used by the peaking block. Threshold for the nonlinear peaking function. Must be nl_hi_thr."
group.long 0x60++0x3
line.long 0x00 "VIP_CFG_SC24,"
hexmask.long.word 0x00 16.--26. 1. " CFG_ORG_W              ,This parameter is used by the trimmer. Horizontal offset from the left of the original input image."
hexmask.long.word 0x00 0.--10. 1. "      CFG_ORG_H            ,This parameter is used by the trimmer. Vertical offset from the top of the original input image."
group.long 0x64++0x3
line.long 0x00 "VIP_CFG_SC25,"
hexmask.long.word 0x00 16.--26. 1. " CFG_OFF_W              ,This parameter is used by the trimmer. Horizontal offset from the left of the original input image."
hexmask.long.word 0x00 0.--10. 1. "      CFG_OFF_H            ,This parameter is used by the trimmer. Vertical offset from the top of the original input image."
width 0x0B
tree.end
tree "VIP3_Slice0_sc"
base ad:0x489B5800
width 14.
group.long 0x0++0x3
line.long 0x00 "VIP_CFG_SC0,"
bitfld.long 0x00 16. " CFG_FID_SELFGEN        ,FID self generate enable. When input is progressive and this bit is set, the SC generates self-toggling (top/bottom) output FID when performing interlacing." "0,1"
bitfld.long 0x00 15. "         CFG_TRIM             ,Trimming enable. When 1, the input image whose size is specified by orgW and orgH registers is trimmed to the size with srcW and srcH from the offset specified by offW and offH. 0: disable trimming 1: enable trimming" "0,1"
bitfld.long 0x00 14. "     CFG_Y_PK_EN   ,This parameter is used by peaking block. 0: disable luma peaking 1: enable luma peaking" "0,1"
textline "                       "
bitfld.long 0x00 10. " CFG_INTERLACE_I        ,This parameter is used by both horizontal and vertical scaling 0: the input video format is progressive 1: the input video format is interlace" "0,1"
bitfld.long 0x00 9. "         CFG_HP_BYPASS        ,This parameter is used by horizontal scaling. If cfg_auto_hs is 0, horizontal polyphase filter is always enabled. In this case, this register is DON?T CARE. If cfg_auto_hs is 1, 0 : The polyphase scaler is always used reg..." "0,1"
bitfld.long 0x00 8. "     CFG_DCM_4X    ,This parameter is used by horizontal scaling. 0: the 4X decimation filter is disabled 1: the 4X decimation filter is enabled Note: (1) Either 2X or 4X can be enabled, but they cannot be enabled simultaneously. (2) This register is o..." "0,1"
textline "                       "
bitfld.long 0x00 7. " CFG_DCM_2X             ,This parameter is used by horizontal scaling. 0: the 2X decimation filter is disabled 1: the 2X decimation filter is enabled Note: (1) Either 2X or 4X can be enabled, but they cannot be enabled simultaneously. (2) This register..." "0,1"
bitfld.long 0x00 6. "         CFG_AUTO_HS          ,This parameter is used by horizontal scaling. 0: the cfg_dcm_2x and cfg_dcm_4x bits will enable appropriate decimation filters 1: HW will decide whether up-scaling or down-scaling is required based on horizontal scaling r..." "0,1"
bitfld.long 0x00 5. "     CFG_ENABLE_EV ,This parameter is used by the edge-detection block. 0: The output of edge-detection block will be force to ?0? 1: The calculation results of edge-detection block will be output normally" "0,1"
textline "                       "
bitfld.long 0x00 4. " CFG_USE_RAV            ,This parameter is used by vertical scaling. 0: Poly-phase filter will be used for the vertical scaling 1: Running average filter will be used for the vertical scaling (down scaling only)" "0,1"
bitfld.long 0x00 3. "         CFG_INVT_FID         ,This parameter is used by vertical scaling. 0: Progressive input 1: Interlaced input Must be set to 1 when CFG_INTERFACE_I = 1." "0,1"
bitfld.long 0x00 2. "     CFG_SC_BYPASS ,This parameter is a general purpose. 0: Scaling module will engaged 1: Scaling module will be bypassed" "0,1"
textline "                       "
bitfld.long 0x00 1. " CFG_LINEAR             ,This parameter is used by horizontal scaling. 0: Anamorphic scaling 1: Linear scaling" "0,1"
bitfld.long 0x00 0. "         CFG_INTERLACE_O      ,This parameter is used by vertical scaling. 0: The output format of SC is progressive 1: The output format of SC is interlace" "0,1"
group.long 0x4++0x3
line.long 0x00 "VIP_CFG_SC1,"
hexmask.long 0x00 0.--26. 1. " CFG_ROW_ACC_INC        ,This parameter is used by vertical scaling. It defines the increment of the row accumulator in vertical poly-phase filter. It can be calculated by following formula: row_acc_inc = round(2^16 *(src_h)/(tar_h)) In case of interla..."
group.long 0x8++0x3
line.long 0x00 "VIP_CFG_SC2,"
hexmask.long 0x00 0.--27. 1. " CFG_ROW_ACC_OFFSET     ,This parameter is used by vertical scaling. It defines the vertical offset during vertical scaling. In progressive mode: this offset will be applied to a frame. In interlace mode: this offset will be applied to the top field."
group.long 0xC++0x3
line.long 0x00 "VIP_CFG_SC3,"
hexmask.long 0x00 0.--27. 1. " CFG_ROW_ACC_OFFSET_B   ,This parameter is used by vertical scaling. It defines the vertical offset during vertical scaling. In progressive mode: this parameter will not be used. In interlace mode: this offset will be applied to the bottom field."
group.long 0x10++0x3
line.long 0x00 "VIP_CFG_SC4,"
bitfld.long 0x00 28.--30. " CFG_NLIN_ACC_INIT_U    ,This parameter is used by horizontal scaling. The 3 MSBbits of 'nlin_acc_init' that is defined in CFG_SC10" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "         CFG_LIN_ACC_INC_U    ,This parameter is used by horizontal scaling. The 3 MSBbits of 'lin_acc_inc' that is defined in CFG_SC9" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 12.--22. 1. "     CFG_TAR_W     ,This parameter is a general purpose. Scaled target picture width. unit is pixel. This parameter defines the final output picture size"
textline "                       "
hexmask.long.word 0x00 0.--10. 1. " CFG_TAR_H              ,This parameter is a general purpose. Scaled target picture height.. unit is line... This parameter defines the final output picture size. For the interlace output.. it should be the number of lines per field."
group.long 0x14++0x3
line.long 0x00 "VIP_CFG_SC5,"
bitfld.long 0x00 24.--26. " CFG_NLIN_ACC_INC_U     ,This parameter is used by horizontal scaling. The 3 MSBbits of ?nlin_acc_inc? that is defined in CFG_SC11" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 12.--22. 1. "         CFG_SRC_W            ,This parameter is a general purpose. This parameter defines the width of the source image"
hexmask.long.word 0x00 0.--10. 1. "  CFG_SRC_H     ,This parameter is a general purpose. This parameter defines the height of the source image. For the interlace input.. it should be the number of lines per field."
group.long 0x18++0x3
line.long 0x00 "VIP_CFG_SC6,"
hexmask.long.word 0x00 10.--19. 1. " CFG_ROW_ACC_INIT_RAV_B ,This parameter is used by vertical scaling. it is used only when the input is interlace format. In vertical down scaling.. the running average filter is applied. This parameter sets the initialization value of the row accumulat..."
hexmask.long.word 0x00 0.--9. 1. "      CFG_ROW_ACC_INIT_RAV ,This parameter is used by vertical scaling. In vertical down scaling.. the running average filter is applied. This parameter sets the initialization value of the row accumulator in running average filter (for progressive for..."
group.long 0x20++0x3
line.long 0x00 "VIP_CFG_SC8,"
hexmask.long.word 0x00 12.--22. 1. " CFG_NLIN_RIGHT         ,This parameter is used by horizontal scaling. In anamorphic mode. this parameter defines the width of the strip on right-hand side. In other words. it defines the location of the last pixel where the linear scaling is ended. Th..."
hexmask.long.word 0x00 0.--10. 1. "      CFG_NLIN_LEFT        ,This parameter is used by horizontal scaling. In anamorphic mode. this parameter defines the width of the strip on left-hand side. In other words. it defines the location of the last pixel in the left-sidenonlinear strip. Th..."
group.long 0x24++0x3
line.long 0x00 "VIP_CFG_SC9,"
hexmask.long 0x00 0.--31. 1. " CFG_LIN_ACC_INC        ,This parameter is used by horizontal scaling. It defines the increment of the linear accumulator. if SR 0.5 then lin_acc_inc = round(2^24*(srcWi -1) /(tarWi -1)) else if 0.25 SR ? 0.5 lin_acc_inc = round(2^24*(srcWi/2 -1) /(tar..."
group.long 0x28++0x3
line.long 0x00 "VIP_CFG_SC10,"
hexmask.long 0x00 0.--31. 1. " CFG_NLIN_ACC_INIT      ,This parameter is used by horizontal scaling. It is used by nonlinear scaling only. It defines the initialization value of the nonlinear accumulator. nlin_acc_init = K*(1-2*d) Here the definitions of K and d are the same as in ..."
group.long 0x2C++0x3
line.long 0x00 "VIP_CFG_SC11,"
hexmask.long 0x00 0.--31. 1. " CFG_NLIN_ACC_INC       ,This parameter is used by horizontal scaling. It is used by nonlinear scaling only. It defines the increment of the nonlinear accumulator. if upscaling then d = 0 if Ltar !=0 then K =round[2^24*Lsrc/(Ltar*Ltar) ] where Lsrc= (s..."
group.long 0x30++0x3
line.long 0x00 "VIP_CFG_SC12,"
hexmask.long 0x00 0.--24. 1. " CFG_COL_ACC_OFFSET     ,This parameter is used in horizontal scaling. It defines the luma accumulator's offset. Normally this parameter can be set as 0 if no horizontal offset is involved. In some applications.. such as Pan and Scan.. a corresponding ..."
group.long 0x34++0x3
line.long 0x00 "VIP_CFG_SC13,"
hexmask.long.word 0x00 0.--9. 1. " CFG_SC_FACTOR_RAV      ,This parameter is used by vertical scaling. Vertical scaling factor: It is defined as following: 1024*tarH/srcH. It is used for downscaling by the running average filter"
group.long 0x48++0x3
line.long 0x00 "VIP_CFG_SC18,"
hexmask.long.word 0x00 0.--9. 1. " CFG_HS_FACTOR          ,This parameter is used by horizontal scaling. Horizontal-scaling-factor = tarWi/srcWi. Numerical format: 6.4 (6 bit integer and 4 bit fraction)"
group.long 0x4C++0x3
line.long 0x00 "VIP_CFG_SC19,"
hexmask.long.byte 0x00 24.--31. 1. " CFG_HPF_COEF3          ,This parameter is used by the peaking block. Defines the coefficient 3 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
hexmask.long.byte 0x00 16.--23. 1. "        CFG_HPF_COEF2        ,This parameter is used by the peaking block. Defines the coefficient 2 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
hexmask.long.byte 0x00 8.--15. 1. "    CFG_HPF_COEF1 ,This parameter is used by the peaking block. Defines the coefficient 1 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " CFG_HPF_COEF0          ,This parameter is used by the peaking block. Defines the coefficient 0 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
group.long 0x50++0x3
line.long 0x00 "VIP_CFG_SC20,"
hexmask.long.word 0x00 20.--28. 1. " CFG_NL_LIMIT           ,This parameter is used by the peaking block. The maximum of clipping."
bitfld.long 0x00 16.--18. "      CFG_HPF_NORM_SHIFT   ,This parameter is used by the peaking block. Defines the decimal point of the hpf coefficient." "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 8.--15. 1. "     CFG_HPF_COEF5 ,This parameter is used by the peaking block. Defines the coefficient 5 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " CFG_HPF_COEF4          ,This parameter is used by the peaking block. Defines the coefficient 4 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
group.long 0x54++0x3
line.long 0x00 "VIP_CFG_SC21,"
hexmask.long.byte 0x00 16.--23. 1. " CFG_NL_LO_SLOPE        ,This parameter is used by the peaking block. Slope of the nonlinear peaking function. The format is fixed point 4.4."
hexmask.long.word 0x00 0.--8. 1. "        CFG_NL_LO_THR        ,This parameter is used by the peaking block. Threshold for the nonlinear peaking function. Must be 0"
group.long 0x58++0x3
line.long 0x00 "VIP_CFG_SC22,"
bitfld.long 0x00 16.--18. " CFG_NL_HI_SLOPE_SHIFT  ,This parameter is used by the peaking block. Slope of the nonlinear peaking function. The gain is 2^(nl_hi_slope_shift-3)." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--8. 1. "         CFG_NL_HI_THR        ,This parameter is used by the peaking block. Threshold for the nonlinear peaking function. Must be nl_hi_thr."
group.long 0x60++0x3
line.long 0x00 "VIP_CFG_SC24,"
hexmask.long.word 0x00 16.--26. 1. " CFG_ORG_W              ,This parameter is used by the trimmer. Horizontal offset from the left of the original input image."
hexmask.long.word 0x00 0.--10. 1. "      CFG_ORG_H            ,This parameter is used by the trimmer. Vertical offset from the top of the original input image."
group.long 0x64++0x3
line.long 0x00 "VIP_CFG_SC25,"
hexmask.long.word 0x00 16.--26. 1. " CFG_OFF_W              ,This parameter is used by the trimmer. Horizontal offset from the left of the original input image."
hexmask.long.word 0x00 0.--10. 1. "      CFG_OFF_H            ,This parameter is used by the trimmer. Vertical offset from the top of the original input image."
width 0x0B
tree.end
tree "VIP3_Slice1_sc"
base ad:0x489B5D00
width 14.
group.long 0x0++0x3
line.long 0x00 "VIP_CFG_SC0,"
bitfld.long 0x00 16. " CFG_FID_SELFGEN        ,FID self generate enable. When input is progressive and this bit is set, the SC generates self-toggling (top/bottom) output FID when performing interlacing." "0,1"
bitfld.long 0x00 15. "         CFG_TRIM             ,Trimming enable. When 1, the input image whose size is specified by orgW and orgH registers is trimmed to the size with srcW and srcH from the offset specified by offW and offH. 0: disable trimming 1: enable trimming" "0,1"
bitfld.long 0x00 14. "     CFG_Y_PK_EN   ,This parameter is used by peaking block. 0: disable luma peaking 1: enable luma peaking" "0,1"
textline "                       "
bitfld.long 0x00 10. " CFG_INTERLACE_I        ,This parameter is used by both horizontal and vertical scaling 0: the input video format is progressive 1: the input video format is interlace" "0,1"
bitfld.long 0x00 9. "         CFG_HP_BYPASS        ,This parameter is used by horizontal scaling. If cfg_auto_hs is 0, horizontal polyphase filter is always enabled. In this case, this register is DON?T CARE. If cfg_auto_hs is 1, 0 : The polyphase scaler is always used reg..." "0,1"
bitfld.long 0x00 8. "     CFG_DCM_4X    ,This parameter is used by horizontal scaling. 0: the 4X decimation filter is disabled 1: the 4X decimation filter is enabled Note: (1) Either 2X or 4X can be enabled, but they cannot be enabled simultaneously. (2) This register is o..." "0,1"
textline "                       "
bitfld.long 0x00 7. " CFG_DCM_2X             ,This parameter is used by horizontal scaling. 0: the 2X decimation filter is disabled 1: the 2X decimation filter is enabled Note: (1) Either 2X or 4X can be enabled, but they cannot be enabled simultaneously. (2) This register..." "0,1"
bitfld.long 0x00 6. "         CFG_AUTO_HS          ,This parameter is used by horizontal scaling. 0: the cfg_dcm_2x and cfg_dcm_4x bits will enable appropriate decimation filters 1: HW will decide whether up-scaling or down-scaling is required based on horizontal scaling r..." "0,1"
bitfld.long 0x00 5. "     CFG_ENABLE_EV ,This parameter is used by the edge-detection block. 0: The output of edge-detection block will be force to ?0? 1: The calculation results of edge-detection block will be output normally" "0,1"
textline "                       "
bitfld.long 0x00 4. " CFG_USE_RAV            ,This parameter is used by vertical scaling. 0: Poly-phase filter will be used for the vertical scaling 1: Running average filter will be used for the vertical scaling (down scaling only)" "0,1"
bitfld.long 0x00 3. "         CFG_INVT_FID         ,This parameter is used by vertical scaling. 0: Progressive input 1: Interlaced input Must be set to 1 when CFG_INTERFACE_I = 1." "0,1"
bitfld.long 0x00 2. "     CFG_SC_BYPASS ,This parameter is a general purpose. 0: Scaling module will engaged 1: Scaling module will be bypassed" "0,1"
textline "                       "
bitfld.long 0x00 1. " CFG_LINEAR             ,This parameter is used by horizontal scaling. 0: Anamorphic scaling 1: Linear scaling" "0,1"
bitfld.long 0x00 0. "         CFG_INTERLACE_O      ,This parameter is used by vertical scaling. 0: The output format of SC is progressive 1: The output format of SC is interlace" "0,1"
group.long 0x4++0x3
line.long 0x00 "VIP_CFG_SC1,"
hexmask.long 0x00 0.--26. 1. " CFG_ROW_ACC_INC        ,This parameter is used by vertical scaling. It defines the increment of the row accumulator in vertical poly-phase filter. It can be calculated by following formula: row_acc_inc = round(2^16 *(src_h)/(tar_h)) In case of interla..."
group.long 0x8++0x3
line.long 0x00 "VIP_CFG_SC2,"
hexmask.long 0x00 0.--27. 1. " CFG_ROW_ACC_OFFSET     ,This parameter is used by vertical scaling. It defines the vertical offset during vertical scaling. In progressive mode: this offset will be applied to a frame. In interlace mode: this offset will be applied to the top field."
group.long 0xC++0x3
line.long 0x00 "VIP_CFG_SC3,"
hexmask.long 0x00 0.--27. 1. " CFG_ROW_ACC_OFFSET_B   ,This parameter is used by vertical scaling. It defines the vertical offset during vertical scaling. In progressive mode: this parameter will not be used. In interlace mode: this offset will be applied to the bottom field."
group.long 0x10++0x3
line.long 0x00 "VIP_CFG_SC4,"
bitfld.long 0x00 28.--30. " CFG_NLIN_ACC_INIT_U    ,This parameter is used by horizontal scaling. The 3 MSBbits of 'nlin_acc_init' that is defined in CFG_SC10" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "         CFG_LIN_ACC_INC_U    ,This parameter is used by horizontal scaling. The 3 MSBbits of 'lin_acc_inc' that is defined in CFG_SC9" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 12.--22. 1. "     CFG_TAR_W     ,This parameter is a general purpose. Scaled target picture width. unit is pixel. This parameter defines the final output picture size"
textline "                       "
hexmask.long.word 0x00 0.--10. 1. " CFG_TAR_H              ,This parameter is a general purpose. Scaled target picture height.. unit is line... This parameter defines the final output picture size. For the interlace output.. it should be the number of lines per field."
group.long 0x14++0x3
line.long 0x00 "VIP_CFG_SC5,"
bitfld.long 0x00 24.--26. " CFG_NLIN_ACC_INC_U     ,This parameter is used by horizontal scaling. The 3 MSBbits of ?nlin_acc_inc? that is defined in CFG_SC11" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 12.--22. 1. "         CFG_SRC_W            ,This parameter is a general purpose. This parameter defines the width of the source image"
hexmask.long.word 0x00 0.--10. 1. "  CFG_SRC_H     ,This parameter is a general purpose. This parameter defines the height of the source image. For the interlace input.. it should be the number of lines per field."
group.long 0x18++0x3
line.long 0x00 "VIP_CFG_SC6,"
hexmask.long.word 0x00 10.--19. 1. " CFG_ROW_ACC_INIT_RAV_B ,This parameter is used by vertical scaling. it is used only when the input is interlace format. In vertical down scaling.. the running average filter is applied. This parameter sets the initialization value of the row accumulat..."
hexmask.long.word 0x00 0.--9. 1. "      CFG_ROW_ACC_INIT_RAV ,This parameter is used by vertical scaling. In vertical down scaling.. the running average filter is applied. This parameter sets the initialization value of the row accumulator in running average filter (for progressive for..."
group.long 0x20++0x3
line.long 0x00 "VIP_CFG_SC8,"
hexmask.long.word 0x00 12.--22. 1. " CFG_NLIN_RIGHT         ,This parameter is used by horizontal scaling. In anamorphic mode. this parameter defines the width of the strip on right-hand side. In other words. it defines the location of the last pixel where the linear scaling is ended. Th..."
hexmask.long.word 0x00 0.--10. 1. "      CFG_NLIN_LEFT        ,This parameter is used by horizontal scaling. In anamorphic mode. this parameter defines the width of the strip on left-hand side. In other words. it defines the location of the last pixel in the left-sidenonlinear strip. Th..."
group.long 0x24++0x3
line.long 0x00 "VIP_CFG_SC9,"
hexmask.long 0x00 0.--31. 1. " CFG_LIN_ACC_INC        ,This parameter is used by horizontal scaling. It defines the increment of the linear accumulator. if SR 0.5 then lin_acc_inc = round(2^24*(srcWi -1) /(tarWi -1)) else if 0.25 SR ? 0.5 lin_acc_inc = round(2^24*(srcWi/2 -1) /(tar..."
group.long 0x28++0x3
line.long 0x00 "VIP_CFG_SC10,"
hexmask.long 0x00 0.--31. 1. " CFG_NLIN_ACC_INIT      ,This parameter is used by horizontal scaling. It is used by nonlinear scaling only. It defines the initialization value of the nonlinear accumulator. nlin_acc_init = K*(1-2*d) Here the definitions of K and d are the same as in ..."
group.long 0x2C++0x3
line.long 0x00 "VIP_CFG_SC11,"
hexmask.long 0x00 0.--31. 1. " CFG_NLIN_ACC_INC       ,This parameter is used by horizontal scaling. It is used by nonlinear scaling only. It defines the increment of the nonlinear accumulator. if upscaling then d = 0 if Ltar !=0 then K =round[2^24*Lsrc/(Ltar*Ltar) ] where Lsrc= (s..."
group.long 0x30++0x3
line.long 0x00 "VIP_CFG_SC12,"
hexmask.long 0x00 0.--24. 1. " CFG_COL_ACC_OFFSET     ,This parameter is used in horizontal scaling. It defines the luma accumulator's offset. Normally this parameter can be set as 0 if no horizontal offset is involved. In some applications.. such as Pan and Scan.. a corresponding ..."
group.long 0x34++0x3
line.long 0x00 "VIP_CFG_SC13,"
hexmask.long.word 0x00 0.--9. 1. " CFG_SC_FACTOR_RAV      ,This parameter is used by vertical scaling. Vertical scaling factor: It is defined as following: 1024*tarH/srcH. It is used for downscaling by the running average filter"
group.long 0x48++0x3
line.long 0x00 "VIP_CFG_SC18,"
hexmask.long.word 0x00 0.--9. 1. " CFG_HS_FACTOR          ,This parameter is used by horizontal scaling. Horizontal-scaling-factor = tarWi/srcWi. Numerical format: 6.4 (6 bit integer and 4 bit fraction)"
group.long 0x4C++0x3
line.long 0x00 "VIP_CFG_SC19,"
hexmask.long.byte 0x00 24.--31. 1. " CFG_HPF_COEF3          ,This parameter is used by the peaking block. Defines the coefficient 3 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
hexmask.long.byte 0x00 16.--23. 1. "        CFG_HPF_COEF2        ,This parameter is used by the peaking block. Defines the coefficient 2 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
hexmask.long.byte 0x00 8.--15. 1. "    CFG_HPF_COEF1 ,This parameter is used by the peaking block. Defines the coefficient 1 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " CFG_HPF_COEF0          ,This parameter is used by the peaking block. Defines the coefficient 0 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
group.long 0x50++0x3
line.long 0x00 "VIP_CFG_SC20,"
hexmask.long.word 0x00 20.--28. 1. " CFG_NL_LIMIT           ,This parameter is used by the peaking block. The maximum of clipping."
bitfld.long 0x00 16.--18. "      CFG_HPF_NORM_SHIFT   ,This parameter is used by the peaking block. Defines the decimal point of the hpf coefficient." "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 8.--15. 1. "     CFG_HPF_COEF5 ,This parameter is used by the peaking block. Defines the coefficient 5 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " CFG_HPF_COEF4          ,This parameter is used by the peaking block. Defines the coefficient 4 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
group.long 0x54++0x3
line.long 0x00 "VIP_CFG_SC21,"
hexmask.long.byte 0x00 16.--23. 1. " CFG_NL_LO_SLOPE        ,This parameter is used by the peaking block. Slope of the nonlinear peaking function. The format is fixed point 4.4."
hexmask.long.word 0x00 0.--8. 1. "        CFG_NL_LO_THR        ,This parameter is used by the peaking block. Threshold for the nonlinear peaking function. Must be 0"
group.long 0x58++0x3
line.long 0x00 "VIP_CFG_SC22,"
bitfld.long 0x00 16.--18. " CFG_NL_HI_SLOPE_SHIFT  ,This parameter is used by the peaking block. Slope of the nonlinear peaking function. The gain is 2^(nl_hi_slope_shift-3)." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--8. 1. "         CFG_NL_HI_THR        ,This parameter is used by the peaking block. Threshold for the nonlinear peaking function. Must be nl_hi_thr."
group.long 0x60++0x3
line.long 0x00 "VIP_CFG_SC24,"
hexmask.long.word 0x00 16.--26. 1. " CFG_ORG_W              ,This parameter is used by the trimmer. Horizontal offset from the left of the original input image."
hexmask.long.word 0x00 0.--10. 1. "      CFG_ORG_H            ,This parameter is used by the trimmer. Vertical offset from the top of the original input image."
group.long 0x64++0x3
line.long 0x00 "VIP_CFG_SC25,"
hexmask.long.word 0x00 16.--26. 1. " CFG_OFF_W              ,This parameter is used by the trimmer. Horizontal offset from the left of the original input image."
hexmask.long.word 0x00 0.--10. 1. "      CFG_OFF_H            ,This parameter is used by the trimmer. Vertical offset from the top of the original input image."
width 0x0B
tree.end
tree.end
tree.end
tree.open "VPE"
tree "VPE_CSC"
base ad:0x489D5700
width 11.
group.long 0x0++0x3
line.long 0x00 "VPE_CSC00,"
hexmask.long.word 0x00 16.--28. 1. " B0     ,Coefficients of color space converter. This coefficient is a real number in the range of -4. to +4 represent in Q3.10 format. The MSB is sign bit. (Same format conversion as A0 inVPE_CSC00)"
hexmask.long.word 0x00 0.--12. 1. "  A0 ,Its is represented as Q3.10 number. So the value ranges from -4 to +4. To convert a decimal number, multiply the number by 1024 and write it in the register in hex format. For example, to program 0.673, 0x2B1 should be written in the register. (i..."
group.long 0x4++0x3
line.long 0x00 "VPE_CSC01,"
hexmask.long.word 0x00 16.--28. 1. " A1     ,Coefficients of color space converter. This coefficient is a real number in the range of -4. to +4 represent in Q3.10 format. The MSB is sign bit. (Same format conversion as A0 inVPE_CSC00)"
hexmask.long.word 0x00 0.--12. 1. "  C0 ,Coefficients of color space converter. This coefficient is a real number in the range of -4. to +4 represent in Q3.10 format. The MSB is sign bit. (Same format conversion as A0 inVPE_CSC00)"
group.long 0x8++0x3
line.long 0x00 "VPE_CSC02,"
hexmask.long.word 0x00 16.--28. 1. " C1     ,Coefficients of color space converter. This coefficient is a real number in the range of -4. to +4 represent in Q3.10 format. The MSB is sign bit. (Same format conversion as A0 inVPE_CSC00)"
hexmask.long.word 0x00 0.--12. 1. "  B1 ,Coefficients of color space converter. This coefficient is a real number in the range of -4. to +4 represent in Q3.10 format. The MSB is sign bit. (Same format conversion as A0 inVPE_CSC00)"
group.long 0xC++0x3
line.long 0x00 "VPE_CSC03,"
hexmask.long.word 0x00 16.--28. 1. " B2     ,Coefficients of color space converter. This coefficient is a real number in the range of -4. to +4 represent in Q3.10 format. The MSB is sign bit. (Same format conversion as A0 inVPE_CSC00)"
hexmask.long.word 0x00 0.--12. 1. "  A2 ,Coefficients of color space converter. This coefficient is a real number in the range of -4. to +4 represent in Q3.10 format. The MSB is sign bit. (Same format conversion as A0 inVPE_CSC00)"
group.long 0x10++0x3
line.long 0x00 "VPE_CSC04,"
hexmask.long.word 0x00 16.--27. 1. " D0     ,Coefficients of color space converter. This coefficient is an integer number in the range of 2048. It is in 12-bit wide 2's compliment format. The MSB is sign bit. For example, if this coefficient is 749, then 0x2ED (hex format) should be assi..."
hexmask.long.word 0x00 0.--12. 1. "  C2 ,Coefficients of color space converter. This coefficient is a real number in the range of -4. to +4 represent in Q3.10 format. The MSB is sign bit. (Same format conversion as A0 inVPE_CSC00)"
group.long 0x14++0x3
line.long 0x00 "VPE_CSC05,"
bitfld.long 0x00 28. " BYPASS ,Full CSC bypass mode" "0,1"
hexmask.long.word 0x00 16.--27. 1. "     D2 ,Coefficients of color space converter. This coefficient is an integer number in the range of -2048 to 2048. It is in 12-bit wide 2's compliment format. The MSB is sign bit. (Same format conversion as D0 inVPE_CSC04)"
hexmask.long.word 0x00 0.--11. 1. "  D1 ,Coefficients of color space converter. This coefficient is an integer number in the range of -2048 to 2048. It is in 12-bit wide 2's compliment format. The MSB is sign bit. (Same format conversion as D0 inVPE_CSC04)"
width 0x0B
tree.end
tree "VPE_SC"
base ad:0x489D0700
width 14.
group.long 0x0++0x3
line.long 0x00 "VPE_CFG_SC0,"
bitfld.long 0x00 16. " CFG_FID_SELFGEN        ,FID self generate enable. When input is progressive and this bit is set, the SC generates self-toggling (top/bottom) output FID when performing interlacing." "0,1"
bitfld.long 0x00 15. "                  CFG_TRIM             ,Trimming enable. When 1, the input image whose size is specified by orgW and orgH registers is trimmed to the size with srcW and srcH from the offset specified by offW and offH. - . - ." "Disable_trimming,Enable_trimming"
bitfld.long 0x00 14. "  CFG_Y_PK_EN   ,This parameter is used by peaking block. - . - ." "disable_luma_peaking,enable_luma_peaking"
textline "                       "
bitfld.long 0x00 10. " CFG_INTERLACE_I        ,This parameter is used by horizontal and vertical scaling. - . - ." "0,1"
bitfld.long 0x00 9. "                  CFG_HP_BYPASS        ,This parameter is used by horizontal scaling. If cfg_auto_hs is 0, horizontal polyphase filter is always enabled. In this case, this register is DON'T CARE. If cfg_auto_hs is 1, then: - . - ." "0,1"
bitfld.long 0x00 8. "                 CFG_DCM_4X    ,This parameter is used by horizontal scaling. - . - . Note:. - . - (1) Either 2X or 4X can be enabled, but they cannot be enabled simultaneously. . - . - (2) This register is only set to 1 when it makes sense to do so. T..." "0,1"
textline "                       "
bitfld.long 0x00 7. " CFG_DCM_2X             ,This parameter is used by horizontal scaling. - . - . Note:. - . - (1) Either 2X or 4X can be enabled, but they cannot be enabled simultaneously. . - . - (2) This register is only set to 1 when it makes sense to do so. Typicall..." "0,1"
bitfld.long 0x00 6. "                  CFG_AUTO_HS          ,This parameter is used by horizontal scaling. - . - . SR > 0.5 : horizontal polyphase filter is enabled, all decimation filters are disabled. - . SR = 0.5 : dcm_2x is enabled, horizontal polyphase filter i..." "0,1"
bitfld.long 0x00 4. "                 CFG_USE_RAV   ,This parameter is used by vertical scaling. - . - ." "0,1"
textline "                       "
bitfld.long 0x00 3. " CFG_INVT_FID           ,This parameter is used by vertical scaling. - . - ." "Progressive_input,1"
bitfld.long 0x00 2. "  CFG_SC_BYPASS        ,This parameter is general purpose. - . - ." "0,1"
bitfld.long 0x00 1. "                 CFG_LINEAR    ,This parameter is used by horizontal scaling. - . - ." "Anamorphic_scaling,Linear_scaling"
textline "                       "
bitfld.long 0x00 0. " CFG_INTERLACE_O        ,This parameter is used by vertical scaling. - . - ." "0,1"
group.long 0x4++0x3
line.long 0x00 "VPE_CFG_SC1,"
hexmask.long 0x00 0.--26. 1. " CFG_ROW_ACC_INC        ,This parameter is used by vertical scaling. It defines the increment of the row accumulator in vertical poly-phase filter. It can be calculated by following formulas: - For progressive in/progressive out row_acc_inc = round(2^1..."
group.long 0x8++0x3
line.long 0x00 "VPE_CFG_SC2,"
hexmask.long 0x00 0.--27. 1. " CFG_ROW_ACC_OFFSET     ,This parameter is used by vertical scaling. It defines the vertical offset during vertical scaling. In progressive mode: this offset will be applied to a frame. In interlace mode: this offset will be applied to the top field."
group.long 0xC++0x3
line.long 0x00 "VPE_CFG_SC3,"
hexmask.long 0x00 0.--27. 1. " CFG_ROW_ACC_OFFSET_B   ,This parameter is used by vertical scaling. It defines the vertical offset during vertical scaling. In progressive mode: this parameter will not be used. In interlace mode: this offset will be applied to the bottom field."
group.long 0x10++0x3
line.long 0x00 "VPE_CFG_SC4,"
bitfld.long 0x00 28.--30. " CFG_NLIN_ACC_INIT_U    ,This parameter is used by horizontal scaling. The 3 MSBbits of 'nlin_acc_init' that is defined in CFG_SC10" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                  CFG_LIN_ACC_INC_U    ,This parameter is used by horizontal scaling. The 3 MSBbits of 'lin_acc_inc' that is defined in CFG_SC9" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 12.--22. 1. "                 CFG_TAR_W     ,This parameter is a general purpose. Scaled target picture width. unit is pixel. This parameter defines the final output picture size"
textline "                       "
hexmask.long.word 0x00 0.--10. 1. " CFG_TAR_H              ,This parameter is a general purpose. Scaled target picture height (unit is line). This parameter defines the final output picture size. For the interlace output, it should be the number of lines per field."
group.long 0x14++0x3
line.long 0x00 "VPE_CFG_SC5,"
bitfld.long 0x00 24.--26. " CFG_NLIN_ACC_INC_U     ,This parameter is used by horizontal scaling. The 3 MSBbits of 'nlin_acc_inc' that is defined in CFG_SC11" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 12.--22. 1. "                  CFG_SRC_W            ,This parameter is a general purpose. This parameter defines the width of the source image"
hexmask.long.word 0x00 0.--10. 1. "              CFG_SRC_H     ,This parameter is a general purpose. This parameter defines the height of the source image. For the interlace input, it should be the number of lines per field."
group.long 0x18++0x3
line.long 0x00 "VPE_CFG_SC6,"
hexmask.long.word 0x00 10.--19. 1. " CFG_ROW_ACC_INIT_RAV_B ,This parameter is used by vertical scaling. it is used only when the input is interlace format. In vertical down scaling.. the running average filter is applied. This parameter sets the initialization value of the row accumulat..."
hexmask.long.word 0x00 0.--9. 1. "               CFG_ROW_ACC_INIT_RAV ,This parameter is used by vertical scaling. In vertical down scaling.. the running average filter is applied. This parameter sets the initialization value of the row accumulator in running average filter (for progre..."
group.long 0x20++0x3
line.long 0x00 "VPE_CFG_SC8,"
hexmask.long.word 0x00 12.--22. 1. " CFG_NLIN_RIGHT         ,This parameter is used by horizontal scaling. In anamorphic mode. this parameter defines the width of the strip on right-hand side. In other words. it defines the location of the last pixel where the linear scaling is ended. Th..."
hexmask.long.word 0x00 0.--10. 1. "               CFG_NLIN_LEFT        ,This parameter is used by horizontal scaling. In anamorphic mode. this parameter defines the width of the strip on left-hand side. In other words. it defines the location of the last pixel in the left-sidenonlinear ..."
group.long 0x24++0x3
line.long 0x00 "VPE_CFG_SC9,"
hexmask.long 0x00 0.--31. 1. " CFG_LIN_ACC_INC        ,This parameter is used by horizontal scaling. It defines the increment of the linear accumulator. if SR > 0.5, then else if 0.25 < SR <= 0.5 else if SR <= 0.25 where srcWi and tarWi are the inner sou..."
group.long 0x28++0x3
line.long 0x00 "VPE_CFG_SC10,"
hexmask.long 0x00 0.--31. 1. " CFG_NLIN_ACC_INIT      ,This parameter is used by horizontal scaling. It is used by nonlinear scaling only. It defines the initialization value of the nonlinear accumulator. nlin_acc_init = K*(1-2*d) Here the definitions of K and d are the same as in ..."
group.long 0x2C++0x3
line.long 0x00 "VPE_CFG_SC11,"
hexmask.long 0x00 0.--31. 1. " CFG_NLIN_ACC_INC       ,This parameter is used by horizontal scaling. It is used by nonlinear scaling only. It defines the increment of the nonlinear accumulator. if upscaling then d = 0 if Ltar !=0 then K =round[2*Lsrc/(Ltar*Ltar) ] where Lsrc= (srcW..."
group.long 0x30++0x3
line.long 0x00 "VPE_CFG_SC12,"
hexmask.long 0x00 0.--24. 1. " CFG_COL_ACC_OFFSET     ,This parameter is used in horizontal scaling. It defines the luma accumulator's offset. Normally this parameter can be set as 0 if no horizontal offset is involved. In some applications, such as Pan and Scan. A corresponding of..."
group.long 0x34++0x3
line.long 0x00 "VPE_CFG_SC13,"
hexmask.long.word 0x00 0.--9. 1. " CFG_SC_FACTOR_RAV      ,This parameter is used by vertical scaling. Vertical scaling factor: It is defined as following: 1024*tarH/srcH. It is used for downscaling by the running average filter"
group.long 0x48++0x3
line.long 0x00 "VPE_CFG_SC18,"
hexmask.long.word 0x00 0.--9. 1. " CFG_HS_FACTOR          ,This parameter is used by horizontal scaling. Horizontal-scaling-factor = tarWi/srcWi. Numerical format: 6.4 (6 bit integer and 4 bit fraction)"
group.long 0x4C++0x3
line.long 0x00 "VPE_CFG_SC19,"
hexmask.long.byte 0x00 24.--31. 1. " CFG_HPF_COEF3          ,This parameter is used by the peaking block. Defines the coefficient 3 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
hexmask.long.byte 0x00 16.--23. 1. "                 CFG_HPF_COEF2        ,This parameter is used by the peaking block. Defines the coefficient 2 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
hexmask.long.byte 0x00 8.--15. 1. "                CFG_HPF_COEF1 ,This parameter is used by the peaking block. Defines the coefficient 1 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " CFG_HPF_COEF0          ,This parameter is used by the peaking block. Defines the coefficient 0 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
group.long 0x50++0x3
line.long 0x00 "VPE_CFG_SC20,"
hexmask.long.word 0x00 20.--28. 1. " CFG_NL_LIMIT           ,This parameter is used by the peaking block. The maximum of clipping."
bitfld.long 0x00 16.--18. "               CFG_HPF_NORM_SHIFT   ,This parameter is used by the peaking block. Defines the decimal point of the hpf coefficient." "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 8.--15. 1. "                 CFG_HPF_COEF5 ,This parameter is used by the peaking block. Defines the coefficient 5 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
textline "                       "
hexmask.long.byte 0x00 0.--7. 1. " CFG_HPF_COEF4          ,This parameter is used by the peaking block. Defines the coefficient 4 of the HPF used in the peaking filter. Signed. Decimal point is defined by hpf_norm_shift."
group.long 0x54++0x3
line.long 0x00 "VPE_CFG_SC21,"
hexmask.long.byte 0x00 16.--23. 1. " CFG_NL_LO_SLOPE        ,This parameter is used by the peaking block. Slope of the nonlinear peaking function. The format is fixed point 4.4."
hexmask.long.word 0x00 0.--8. 1. "                 CFG_NL_LO_THR        ,This parameter is used by the peaking block. Threshold for the nonlinear peaking function. Must be 0"
group.long 0x58++0x3
line.long 0x00 "VPE_CFG_SC22,"
bitfld.long 0x00 16.--18. " CFG_NL_HI_SLOPE_SHIFT  ,This parameter is used by the peaking block. Slope of the nonlinear peaking function. The gain is 2." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--8. 1. "                  CFG_NL_HI_THR        ,This parameter is used by the peaking block. Threshold for the nonlinear peaking function. Must be nl_hi_thr."
group.long 0x60++0x3
line.long 0x00 "VPE_CFG_SC24,"
hexmask.long.word 0x00 16.--26. 1. " CFG_ORG_W              ,This parameter is used by the trimmer. Horizontal offset from the left of the original input image."
hexmask.long.word 0x00 0.--10. 1. "               CFG_ORG_H            ,This parameter is used by the trimmer. Vertical offset from the top of the original input image."
group.long 0x64++0x3
line.long 0x00 "VPE_CFG_SC25,"
hexmask.long.word 0x00 16.--26. 1. " CFG_OFF_W              ,This parameter is used by the trimmer. Horizontal offset from the left of the original input image."
hexmask.long.word 0x00 0.--10. 1. "               CFG_OFF_H            ,This parameter is used by the trimmer. Vertical offset from the top of the original input image."
width 0x0B
tree.end
tree "VPE_TOP_LEVEL"
base ad:0x489D0000
width 28.
rgroup.long 0x0++0x3
line.long 0x00 "VPE_CLKC_PID,"
hexmask.long 0x00 0.--31. 1. " PID                               ,"
group.long 0x10++0x3
line.long 0x00 "VPE_SYSCONFIG,"
bitfld.long 0x00 4.--5. " STANDBYMODE                       ,Configuration of the local initiator state management mode. By definition, initiator may generate read/write transaction as long as it is out of STANDBY state 0x0: Force-standby mode: local initiator is unconditional..." "0,1,2,3"
bitfld.long 0x00 2.--3. "               IDLEMODE                          ,Configuration of the local target state management mode. By definition, target can handle read/write transaction as long as it is out of IDLE state 0x0: Force-idle mode: local target's idle state follow..." "0,1,2,3"
group.long 0x20++0x3
line.long 0x00 "VPE_INTC_INTR0_STATUS_RAW0,"
bitfld.long 0x00 18. " DEI_FMD_INT_RAW                   ,DEI Film Mode Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 16. "               VPDMA_INT0_DESCRIPTOR_RAW         ,VPDMA INT0 Descriptor Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 15. "                         VPDMA_INT0_LIST7_NOTIFY_RAW       ,VPDMA INT0 List7 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 14. " VPDMA_INT0_LIST7_COMPLETE_RAW     ,VPDMA INT0 List7 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 13. "               VPDMA_INT0_LIST6_NOTIFY_RAW       ,VPDMA INT0 List6 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 12. "                         VPDMA_INT0_LIST6_COMPLETE_RAW     ,VPDMA INT0 List6 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 11. " VPDMA_INT0_LIST5_NOTIFY_RAW       ,VPDMA INT0 List5 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 10. "               VPDMA_INT0_LIST5_COMPLETE_RAW     ,VPDMA INT0 List5 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 9. "                         VPDMA_INT0_LIST4_NOTIFY_RAW       ,VPDMA INT0 List4 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 8. " VPDMA_INT0_LIST4_COMPLETE_RAW     ,VPDMA INT0 List4 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "               VPDMA_INT0_LIST3_NOTIFY_RAW       ,VPDMA INT0 List3 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 6. "                         VPDMA_INT0_LIST3_COMPLETE_RAW     ,VPDMA INT0 List3 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 5. " VPDMA_INT0_LIST2_NOTIFY_RAW       ,VPDMA INT0 List2 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "               VPDMA_INT0_LIST2_COMPLETE_RAW     ,VPDMA INT0 List2 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 3. "                         VPDMA_INT0_LIST1_NOTIFY_RAW       ,VPDMA INT0 List1 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 2. " VPDMA_INT0_LIST1_COMPLETE_RAW     ,VPDMA INT0 List1 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "               VPDMA_INT0_LIST0_NOTIFY_RAW       ,VPDMA INT0 List0 Notify Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 0. "                         VPDMA_INT0_LIST0_COMPLETE_RAW     ,VPDMA INT0 List0 Complete Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
group.long 0x24++0x3
line.long 0x00 "VPE_INTC_INTR0_STATUS_RAW1,"
bitfld.long 0x00 22. " VIP1_CHR_DS_1_UV_ERR_INT_RAW      ,VIP1 Chroma Downsampler 1 UV Error Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 16. "               DEI_ERROR_INT_RAW                 ,DEI Error Interrupt Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "                         VPDMA_INT0_CLIENT_RAW             ,VPDMA INT0 Client Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 5. " VPDMA_INT0_CHANNEL_GROUP5_RAW     ,VPDMA INT0 Channel Group5 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "               VPDMA_INT0_CHANNEL_GROUP4_RAW     ,VPDMA INT0 Channel Group4 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 3. "                         VPDMA_INT0_CHANNEL_GROUP3_RAW     ,VPDMA INT0 Channel Group3 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 2. " VPDMA_INT0_CHANNEL_GROUP2_RAW     ,VPDMA INT0 Channel Group2 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "               VPDMA_INT0_CHANNEL_GROUP1_RAW     ,VPDMA INT0 Channel Group1 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 0. "                         VPDMA_INT0_CHANNEL_GROUP0_RAW     ,VPDMA INT0 Channel Group0 Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
group.long 0x28++0x3
line.long 0x00 "VPE_INTC_INTR0_STATUS_ENA0,"
bitfld.long 0x00 18. " DEI_FMD_INT_ENA                   ,DEI Film Mode Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 16. "               VPDMA_INT0_DESCRIPTOR_ENA         ,VPDMA INT0 Descriptor Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 15. "                         VPDMA_INT0_LIST7_NOTIFY_ENA       ,VPDMA INT0 List7 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 14. " VPDMA_INT0_LIST7_COMPLETE_ENA     ,VPDMA INT0 List7 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 13. "               VPDMA_INT0_LIST6_NOTIFY_ENA       ,VPDMA INT0 List6 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 12. "                         VPDMA_INT0_LIST6_COMPLETE_ENA     ,VPDMA INT0 List6 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 11. " VPDMA_INT0_LIST5_NOTIFY_ENA       ,VPDMA INT0 List5 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 10. "               VPDMA_INT0_LIST5_COMPLETE_ENA     ,VPDMA INT0 List5 Complete Enabled Statust Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 9. "                         VPDMA_INT0_LIST4_NOTIFY_ENA       ,VPDMA INT0 List4 Notify Enabled Statust Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 8. " VPDMA_INT0_LIST4_COMPLETE_ENA     ,VPDMA INT0 List4 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "               VPDMA_INT0_LIST3_NOTIFY_ENA       ,VPDMA INT0 List3 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 6. "                         VPDMA_INT0_LIST3_COMPLETE_ENA     ,VPDMA INT0 List3 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 5. " VPDMA_INT0_LIST2_NOTIFY_ENA       ,VPDMA INT0 List2 Notify Enabled Statust Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "               VPDMA_INT0_LIST2_COMPLETE_ENA     ,VPDMA INT0 List2 Complete Enabled Statust Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 3. "                         VPDMA_INT0_LIST1_NOTIFY_ENA       ,VPDMA INT0 List1 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 2. " VPDMA_INT0_LIST1_COMPLETE_ENA     ,VPDMA INT0 List1 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "               VPDMA_INT0_LIST0_NOTIFY_ENA       ,VPDMA INT0 List0 Notify Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 0. "                         VPDMA_INT0_LIST0_COMPLETE_ENA     ,VPDMA INT0 List0 Complete Enabled Status Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
group.long 0x2C++0x3
line.long 0x00 "VPE_INTC_INTR0_STATUS_ENA1,"
bitfld.long 0x00 22. " VIP1_CHR_DS_1_UV_ERR_INT_ENA      ,VIP1 Chroma Downsampler 1 UV Error Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
bitfld.long 0x00 16. "               DEI_ERROR_INT_ENA                 ,DEI Error Enabled Interrupt Status Read indicates enabled status 0 = inactive 1 = active Writing 1 will clear interrupt Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "                         VPDMA_INT0_CLIENT_ENA             ,VPDMA INT0 Client Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 5. " VPDMA_INT0_CHANNEL_GROUP5_ENA     ,VPDMA INT0 Channel Group5 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "               VPDMA_INT0_CHANNEL_GROUP4_ENA     ,VPDMA INT0 Channel Group4 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 3. "                         VPDMA_INT0_CHANNEL_GROUP3_ENA     ,VPDMA INT0 Channel Group3 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 2. " VPDMA_INT0_CHANNEL_GROUP2_ENA     ,VPDMA INT0 Channel Group3 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "               VPDMA_INT0_CHANNEL_GROUP1_ENA     ,VPDMA INT0 Channel Group1 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
bitfld.long 0x00 0. "                         VPDMA_INT0_CHANNEL_GROUP0_ENA     ,VPDMA INT0 Channel Group0 Enabled Status Read indicates raw status 0 = inactive 1 = active Writing 1 will set status Writing 0 has no effect" "0,1"
group.long 0x30++0x3
line.long 0x00 "VPE_INTC_INTR0_ENA_SET0,"
bitfld.long 0x00 18. " DEI_FMD_INT_ENA_SET               ,DEI Film Mode Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 16. "               VPDMA_INT0_DESCRIPTOR_ENA_SET     ,VPDMA INT0 Descriptor Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 15. "                         VPDMA_INT0_LIST7_NOTIFY_ENA_SET   ,VPDMA INT0 List7 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 14. " VPDMA_INT0_LIST7_COMPLETE_ENA_SET ,VPDMA INT0 List7 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 13. "               VPDMA_INT0_LIST6_NOTIFY_ENA_SET   ,VPDMA INT0 List6 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 12. "                         VPDMA_INT0_LIST6_COMPLETE_ENA_SET ,VPDMA INT0 List6 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 11. " VPDMA_INT0_LIST5_NOTIFY_ENA_SET   ,VPDMA INT0 List5 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 10. "               VPDMA_INT0_LIST5_COMPLETE_ENA_SET ,VPDMA INT0 List5 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 9. "                         VPDMA_INT0_LIST4_NOTIFY_ENA_SET   ,VPDMA INT0 List4 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 8. " VPDMA_INT0_LIST4_COMPLETE_ENA_SET ,VPDMA INT0 List4 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "               VPDMA_INT0_LIST3_NOTIFY_ENA_SET   ,VPDMA INT0 List3 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 6. "                         VPDMA_INT0_LIST3_COMPLETE_ENA_SET ,VPDMA INT0 List3 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 5. " VPDMA_INT0_LIST2_NOTIFY_ENA_SET   ,VPDMA INT0 List2 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "               VPDMA_INT0_LIST2_COMPLETE_ENA_SET ,VPDMA INT0 List2 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 3. "                         VPDMA_INT0_LIST1_NOTIFY_ENA_SET   ,VPDMA INT0 List1 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 2. " VPDMA_INT0_LIST1_COMPLETE_ENA_SET ,VPDMA INT0 List1 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "               VPDMA_INT0_LIST0_NOTIFY_ENA_SET   ,VPDMA INT0 List0 Notify Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 0. "                         VPDMA_INT0_LIST0_COMPLETE_ENA_SET ,VPDMA INT0 List0 Complete Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
group.long 0x34++0x3
line.long 0x00 "VPE_INTC_INTR0_ENA_SET1,"
bitfld.long 0x00 22. " VIP1_CHR_DS_1_UV_ERR_INT_ENA_SET  ,VIP1 Chroma Downsampler 1 UV Error Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 16. "               DEI_ERROR_INT_ENA_SET             ,DEI Error Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "                         VPDMA_INT0_CLIENT_ENA_SET         ,VPDMA INT0 Client Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 5. " VPDMA_INT0_CHANNEL_GROUP5_ENA_SET ,VPDMA INT0 Channel Group5 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "               VPDMA_INT0_CHANNEL_GROUP4_ENA_SET ,VPDMA INT0 Channel Group4 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 3. "                         VPDMA_INT0_CHANNEL_GROUP3_ENA_SET ,VPDMA INT0 Channel Group3 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 2. " VPDMA_INT0_CHANNEL_GROUP2_ENA_SET ,VPDMA INT0 Channel Group2 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "               VPDMA_INT0_CHANNEL_GROUP1_ENA_SET ,VPDMA INT0 Channel Group1 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 0. "                         VPDMA_INT0_CHANNEL_GROUP0_ENA_SET ,VPDMA INT0 Channel Group0 Enable/Set Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will set interrupt enabled Writing 0 has no effect" "0,1"
group.long 0x38++0x3
line.long 0x00 "VPE_INTC_INTR0_ENA_CLR0,"
bitfld.long 0x00 18. " DEI_FMD_INT_ENA_CLR               ,DEI Film Mode Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 16. "               VPDMA_INT0_DESCRIPTOR_ENA_CLR     ,VPDMA INT0 Descriptor Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 15. "                         VPDMA_INT0_LIST7_NOTIFY_ENA_CLR   ,VPDMA INT0 List7 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 14. " VPDMA_INT0_LIST7_COMPLETE_ENA_CLR ,VPDMA INT0 List7 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 13. "               VPDMA_INT0_LIST6_NOTIFY_ENA_CLR   ,VPDMA INT0 List6 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 12. "                         VPDMA_INT0_LIST6_COMPLETE_ENA_CLR ,VPDMA INT0 List6 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 11. " VPDMA_INT0_LIST5_NOTIFY_ENA_CLR   ,VPDMA INT0 List5 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 10. "               VPDMA_INT0_LIST5_COMPLETE_ENA_CLR ,VPDMA INT0 List5 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 9. "                         VPDMA_INT0_LIST4_NOTIFY_ENA_CLR   ,VPDMA INT0 List4 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 8. " VPDMA_INT0_LIST4_COMPLETE_ENA_CLR ,VPDMA INT0 List4 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "               VPDMA_INT0_LIST3_NOTIFY_ENA_CLR   ,VPDMA INT0 List3 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 6. "                         VPDMA_INT0_LIST3_COMPLETE_ENA_CLR ,VPDMA INT0 List3 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 5. " VPDMA_INT0_LIST2_NOTIFY_ENA_CLR   ,VPDMA INT0 List2 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "               VPDMA_INT0_LIST2_COMPLETE_ENA_CLR ,VPDMA INT0 List2 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 3. "                         VPDMA_INT0_LIST1_NOTIFY_ENA_CLR   ,VPDMA INT0 List1 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 2. " VPDMA_INT0_LIST1_COMPLETE_ENA_CLR ,VPDMA INT0 List1 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "               VPDMA_INT0_LIST0_NOTIFY_ENA_CLR   ,VPDMA INT0 List0 Notify Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 0. "                         VPDMA_INT0_LIST0_COMPLETE_ENA_CLR ,VPDMA INT0 List0 Complete Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
group.long 0x3C++0x3
line.long 0x00 "VPE_INTC_INTR0_ENA_CLR1,"
bitfld.long 0x00 22. " VIP1_CHR_DS_1_UV_ERR_INT_ENA_CLR  ,VIP1 Chroma Downsampler 1 UV Error Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 16. "               DEI_ERROR_INT_ENA_CLR             ,DEI Error Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 7. "                         VPDMA_INT0_CLIENT_ENA_CLR         ,VPDMA INT0 Client Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 5. " VPDMA_INT0_CHANNEL_GROUP5_ENA_CLR ,VPDMA INT0 Channel Group5 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 4. "               VPDMA_INT0_CHANNEL_GROUP4_ENA_CLR ,VPDMA INT0 Channel Group4 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 3. "                         VPDMA_INT0_CHANNEL_GROUP3_ENA_CLR ,VPDMA INT0 Channel Group3 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
textline "                                     "
bitfld.long 0x00 2. " VPDMA_INT0_CHANNEL_GROUP2_ENA_CLR ,VPDMA INT0 Channel Group2 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 1. "               VPDMA_INT0_CHANNEL_GROUP1_ENA_CLR ,VPDMA INT0 Channel Group1 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
bitfld.long 0x00 0. "                         VPDMA_INT0_CHANNEL_GROUP0_ENA_CLR ,VPDMA INT0 Channel Group0 Enable/Clear Read indicates interrupt enable 0 = disabled 1 = enabled Writing 1 will clear interrupt enabled Writing 0 has no effect" "0,1"
group.long 0xA0++0x3
line.long 0x00 "VPE_INTC_EOI,INTC EOI Register. This register contains the EOI vector register contents as defined by HL0.8"
hexmask.long 0x00 0.--31. 1. " EOI_VECTOR                        ,Number associated with the ipgenericirq for intr output. There are 4 interrupt outputs: - . - . - . - . - Any other write value is ignored. . - ."
group.long 0x100++0x3
line.long 0x00 "VPE_CLKC_CLKEN,"
bitfld.long 0x00 1. " PRIM_DP_EN                        ,Primary Video Data Path Clock Enable - . - ." "Clock_Disabled,Clock_Enabled"
bitfld.long 0x00 0. "  VPDMA_EN                          ,VPDMA Clock Enable - . - ." "Clock_Disabled,Clock_Enabled"
group.long 0x104++0x3
line.long 0x00 "VPE_CLKC_RST,"
bitfld.long 0x00 31. " MAIN_RST                          ,Reset for entire data path in VPE0" "0,1"
bitfld.long 0x00 1. "               PRIM_DP_RST                       ,Primary Video Data Path Reset" "0,1"
bitfld.long 0x00 0. "                         VPDMA_RST                         ,VPDMA Reset" "0,1"
group.long 0x10C++0x3
line.long 0x00 "VPE_CLKC_DPS,"
bitfld.long 0x00 18. " COLOR_SEPARATE_422                ,422 Color Separate Select - . - . - This bit controls whether 422 output will be color separate or interleaved. This bit only applies IF chr_ds_bypass is 1 (means 422 output, not 420) and rgb_out_select is 0 (means 4..." "0,1"
bitfld.long 0x00 16. "               CHR_DS_BYPASS                     ,Chroma Downsampler Bypass - . - ." "0,1"
bitfld.long 0x00 9.--11. "                         CHR_DS_SRC_SELECT                 ,Chroma Downsampler Source Select - . - . - . - . - . - . - . - ." "0,Reserved_(Path_Disabled),2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 8. " RGB_OUT_SELECT                    ,RGB Output Select - . - ." "0,1"
bitfld.long 0x00 0.--2. "               CSC_SRC_SELECT                    ,CSC Source Select: - . - . - . - . - . - . - . - ." "Path_Disabled,Reserved_(Path_Disabled),2,3,4,5,6,7"
group.long 0x11C++0x3
line.long 0x00 "VPE_RANGE_MAP,"
bitfld.long 0x00 28. " RANGE_REDUCTION_PRIM_ON           ,Range Reduction ON for Primary input" "0,1"
bitfld.long 0x00 6. "               RANGE_MAP_PRIM_ON                 ,Range Mapping ON for Primary input" "0,1"
bitfld.long 0x00 3.--5. "                         RANGE_MAPUV_PRIM                  ,Range Map UV for Primary input" "0,1,2,3,4,5,6,7"
textline "                                     "
bitfld.long 0x00 0.--2. " RANGE_MAPY_PRIM                   ,Range Map Y for Primary input" "0,1,2,3,4,5,6,7"
width 0x0B
tree.end
tree "VPE_DEI"
base ad:0x489D0600
width 15.
group.long 0x0++0x3
line.long 0x00 "VPE_DEI_REG0,"
bitfld.long 0x00 31. " PROGRESSIVE_BYPASS   ,Progressive Mode - . - ." "Normal_Deinterlace_Mode,Progressive_source"
bitfld.long 0x00 30. "  FIELD_FLUSH           ,Field Flush Mode - . - ." "Normal_Operation,1"
bitfld.long 0x00 29. "       INTERLACE_BYPASS     ,Interlace Bypass Mode - . - ." "Normal_Deinterlace_Mode,1"
textline "                        "
hexmask.long.word 0x00 16.--26. 1. " HEIGHT               ,Frame Height"
hexmask.long.word 0x00 0.--10. 1. "                     WIDTH                 ,Frame Width"
group.long 0x4++0x3
line.long 0x00 "VPE_DEI_REG1,"
bitfld.long 0x00 1. " MDT_SPATMAX_BYPASS   ,Spatial Maximum Filtering Bypass for motion values used in EDI - . - ." "Enable,Bypass"
bitfld.long 0x00 0. "                   MDT_TEMPMAX_BYPASS    ,Spatio-temporal Maximum Filtering Bypass for motion valued used in EDI - . - ." "Enable,Bypass"
group.long 0x8++0x3
line.long 0x00 "VPE_DEI_REG2,"
bitfld.long 0x00 28.--31. " MDT_MVSTMAX_COR_THR  ,This is used for increasing noise robustness. Increasing this threshold leads to more robustness to noise, but with the potential of introducing ghosting effect. Note that this threshold is used for motion values for EDI only, an..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "                       MDT_MV_COR_THR        ,This threshold is for the coring for motion value, mv. MDT will become more noise robust if this value increases. But the picture may be washed out if this value is set to high. This threshold can be interp..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--23. 1. "                     MDT_SF_SC_THR3       ,Spatial frequency threshold 3"
textline "                        "
hexmask.long.byte 0x00 8.--15. 1. " MDT_SF_SC_THR2       ,Spatial frequency threshold 2"
hexmask.long.byte 0x00 0.--7. 1. "                       MDT_SF_SC_THR1        ,Spatial frequency threshold It is used for adaptive scaling of motion values according to how busy the texture is. If the texture is flat, motion values need to be scaled up to reflect the sensitivity of mo..."
group.long 0xC++0x3
line.long 0x00 "VPE_DEI_REG3,"
hexmask.long.byte 0x00 24.--31. 1. " EDI_COR_SCALE_FACTOR ,Scaling factor for correlation along detected edge"
hexmask.long.byte 0x00 16.--23. 1. "                       EDI_DIR_COR_LOWER_THR ,Lower threshold used for correlation along detected edge"
hexmask.long.byte 0x00 8.--15. 1. "                     EDI_CHROMA3D_COR_THR ,Correlation threshold used in 3D processing for chroma. Because the motion values used for chroma 3D processing are based on luma only. Extra protection is needed. Temporal interpolation is only performed for ..."
textline "                        "
bitfld.long 0x00 3. " EDI_CHROMA_3D_ENABLE ,3D Chroma Enable - . - ." "0,1"
bitfld.long 0x00 2. "                        EDI_ENABLE_3D         ,3D Enable - . - ." "Disable_3D_processing,1"
bitfld.long 0x00 0.--1. "  EDI_INP_MODE         ,Interpolation mode. Note that mode 00 and 01 are used for debug purpose - . - . - . - ." "line_average,field_average,2,3"
group.long 0x10++0x3
line.long 0x00 "VPE_DEI_REG4,"
bitfld.long 0x00 24.--28. " EDI_LUT3             ,EDI Lookup Table 3" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "                       EDI_LUT2              ,EDI Lookup Table 2" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "                     EDI_LUT1             ,EDI Lookup Table 1" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                        "
bitfld.long 0x00 0.--4. " EDI_LUT0             ,EDI Lookup Table 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x14++0x3
line.long 0x00 "VPE_DEI_REG5,"
bitfld.long 0x00 24.--28. " EDI_LUT7             ,EDI Lookup Table 7" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "                       EDI_LUT6              ,EDI Lookup Table 6" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "                     EDI_LUT5             ,EDI Lookup Table 5" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                        "
bitfld.long 0x00 0.--4. " EDI_LUT4             ,EDI Lookup Table 4" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x18++0x3
line.long 0x00 "VPE_DEI_REG6,"
bitfld.long 0x00 24.--28. " EDI_LUT11            ,EDI Lookup Table 11" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "                       EDI_LUT10             ,EDI Lookup Table 10" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "                     EDI_LUT9             ,EDI Lookup Table 9" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                        "
bitfld.long 0x00 0.--4. " EDI_LUT8             ,EDI Lookup Table 8" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x1C++0x3
line.long 0x00 "VPE_DEI_REG7,"
bitfld.long 0x00 24.--28. " EDI_LUT15            ,EDI Lookup Table 15" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "                       EDI_LUT14             ,EDI Lookup Table 14" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "                     EDI_LUT13            ,EDI Lookup Table 13" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                        "
bitfld.long 0x00 0.--4. " EDI_LUT12            ,EDI Lookup Table 12" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x20++0x3
line.long 0x00 "VPE_DEI_REG8,"
bitfld.long 0x00 31. " FMD_WINDOW_ENABLE    ,Enable FMD operation window" "0,1"
hexmask.long.word 0x00 16.--26. 1. "                        FMD_WINDOW_MAXX       ,Right boundary of FMD operation window Must be less than width"
hexmask.long.word 0x00 0.--10. 1. "                   FMD_WINDOW_MINX      ,Left boundary of FMD operation window"
group.long 0x24++0x3
line.long 0x00 "VPE_DEI_REG9,"
hexmask.long.word 0x00 16.--26. 1. " FMD_WINDOW_MAXY      ,Bottom boundary of FMD operation window Must be less than height/2"
hexmask.long.word 0x00 0.--10. 1. "                     FMD_WINDOW_MINY       ,Top boundary of FMD operation window"
group.long 0x28++0x3
line.long 0x00 "VPE_DEI_REG10,"
hexmask.long.byte 0x00 24.--31. 1. " FMD_CAF_LINE_THR     ,CAF threshold used for the pixels from two lines in one field This is the threshold used for combing artifacts detection. The difference of two consecutive lines from the same field (so there is one line in between if two fields ..."
hexmask.long.byte 0x00 16.--23. 1. "                       FMD_CAF_FIELD_THR     ,CAF threshold used for the pixels from two fields This is the threshold used for combing artifacts detection. The difference of two consecutive lines (when merging two fields into one progressive frame) is ..."
bitfld.long 0x00 3. "                     FMD_BED_ENABLE       ,Film Mode Bad Edit Detection - . - ." "Disable,Enable"
textline "                        "
bitfld.long 0x00 2. " FMD_JAM_DIR          ,Film Mode Field Jamming Direction - . - ." "0,1"
bitfld.long 0x00 1. "                        FMD_LOCK              ,Film Mode Field Jamming Direction - . - ." "0,1"
bitfld.long 0x00 0. "                      FMD_ENABLE           ,Enable film mode processing - . - ." "Disable,Enable"
group.long 0x2C++0x3
line.long 0x00 "VPE_DEI_REG11,"
hexmask.long.tbyte 0x00 0.--19. 1. " FMD_CAF_THR          ,CAF threshold used for leaving film mode: If the combing artifacts is greater than this threshold, CAF is detected and thus the state machine will be forced to leave the film mode. If the user prefers to be more conservative in u..."
rgroup.long 0x30++0x3
line.long 0x00 "VPE_DEI_REG12,"
bitfld.long 0x00 24. " FMD_RESET            ,When ?1?, the film mode detection module needs to be reset by the software. This bit needs to be checked at each occurrence of the film mode detection interrupt" "0,1"
hexmask.long.tbyte 0x00 0.--20. 1. "                        FMD_CAF               ,Detected combing artifacts"
rgroup.long 0x34++0x3
line.long 0x00 "VPE_DEI_REG13,"
hexmask.long 0x00 0.--27. 1. " FMD_FIELD_DIFF       ,Field difference (difference between two neighboring fields, one top and one bottom)"
rgroup.long 0x38++0x3
line.long 0x00 "VPE_DEI_REG14,"
hexmask.long.tbyte 0x00 0.--19. 1. " FMD_FRAME_DIFF       ,Frame difference (difference between two top or two bottom fields)"
width 0x0B
tree.end
tree.open "VPE_CHR_US_INST_0"
tree "VPE_CHR_US_INST_0"
base ad:0x489D0300
width 10.
rgroup.long 0x0++0x3
line.long 0x00 "VPE_PID,"
hexmask.long 0x00 0.--31. 1. " PID            ,"
group.long 0x4++0x3
line.long 0x00 "VPE_REG0,"
hexmask.long.word 0x00 18.--31. 1. " ANCHOR_FID0_C0 ,C0 coefficient for Anchor Pixel. Use when field_id = 0"
bitfld.long 0x00 16.--17. "      CFG_MODE       ,0x0 : Mode A - ." "0,Mode_B,2,3"
hexmask.long.word 0x00 2.--15. 1. "  ANCHOR_FID0_C1 ,C1 coefficient for Anchor Pixel. Use when field_id = 0"
group.long 0x8++0x3
line.long 0x00 "VPE_REG1,"
hexmask.long.word 0x00 18.--31. 1. " ANCHOR_FID0_C2 ,C2 coefficient for Anchor Pixel. Use when field_id = 0"
hexmask.long.word 0x00 2.--15. 1. "      ANCHOR_FID0_C3 ,C3 coefficient for Anchor Pixel. Use when field_id = 0"
group.long 0xC++0x3
line.long 0x00 "VPE_REG2,"
hexmask.long.word 0x00 18.--31. 1. " INTERP_FID0_C0 ,C0 coefficient for Interpolated Pixel. Use when field_id = 0"
hexmask.long.word 0x00 2.--15. 1. "      INTERP_FID0_C1 ,C1 coefficient for Interpolated Pixel. Use when field_id = 0"
group.long 0x10++0x3
line.long 0x00 "VPE_REG3,"
hexmask.long.word 0x00 18.--31. 1. " INTERP_FID0_C2 ,C2 coefficient for Interpolated Pixel. Use when field_id = 0"
hexmask.long.word 0x00 2.--15. 1. "      INTERP_FID0_C3 ,C3 coefficient for Interpolated Pixel. Use when field_id = 0"
group.long 0x14++0x3
line.long 0x00 "VPE_REG4,"
hexmask.long.word 0x00 18.--31. 1. " ANCHOR_FID1_C0 ,C0 coefficient for Anchor Pixel. Use when field_id = 1"
hexmask.long.word 0x00 2.--15. 1. "      ANCHOR_FID1_C1 ,C1 coefficient for Anchor Pixel. Use when field_id = 1"
group.long 0x18++0x3
line.long 0x00 "VPE_REG5,"
hexmask.long.word 0x00 18.--31. 1. " ANCHOR_FID1_C2 ,C2 coefficient for Anchor Pixel. Use when field_id = 1"
hexmask.long.word 0x00 2.--15. 1. "      ANCHOR_FID1_C3 ,C3 coefficient for Anchor Pixel. Use when field_id = 1"
group.long 0x1C++0x3
line.long 0x00 "VPE_REG6,"
hexmask.long.word 0x00 18.--31. 1. " INTERP_FID1_C0 ,C0 coefficient for Interpolated Pixel. Use when field_id = 1"
hexmask.long.word 0x00 2.--15. 1. "      INTERP_FID1_C1 ,C1 coefficient for Interpolated Pixel. Use when field_id = 1"
group.long 0x20++0x3
line.long 0x00 "VPE_REG7,"
hexmask.long.word 0x00 18.--31. 1. " INTERP_FID1_C2 ,C2 coefficient for Interpolated Pixel. Use when field_id = 1"
hexmask.long.word 0x00 2.--15. 1. "      INTERP_FID1_C3 ,C3 coefficient for Interpolated Pixel. Use when field_id = 1"
width 0x0B
tree.end
tree "VPE_CHR_US_INST_1"
base ad:0x489D0400
width 10.
rgroup.long 0x0++0x3
line.long 0x00 "VPE_PID,"
hexmask.long 0x00 0.--31. 1. " PID            ,"
group.long 0x4++0x3
line.long 0x00 "VPE_REG0,"
hexmask.long.word 0x00 18.--31. 1. " ANCHOR_FID0_C0 ,C0 coefficient for Anchor Pixel. Use when field_id = 0"
bitfld.long 0x00 16.--17. "      CFG_MODE       ,0x0 : Mode A - ." "0,Mode_B,2,3"
hexmask.long.word 0x00 2.--15. 1. "  ANCHOR_FID0_C1 ,C1 coefficient for Anchor Pixel. Use when field_id = 0"
group.long 0x8++0x3
line.long 0x00 "VPE_REG1,"
hexmask.long.word 0x00 18.--31. 1. " ANCHOR_FID0_C2 ,C2 coefficient for Anchor Pixel. Use when field_id = 0"
hexmask.long.word 0x00 2.--15. 1. "      ANCHOR_FID0_C3 ,C3 coefficient for Anchor Pixel. Use when field_id = 0"
group.long 0xC++0x3
line.long 0x00 "VPE_REG2,"
hexmask.long.word 0x00 18.--31. 1. " INTERP_FID0_C0 ,C0 coefficient for Interpolated Pixel. Use when field_id = 0"
hexmask.long.word 0x00 2.--15. 1. "      INTERP_FID0_C1 ,C1 coefficient for Interpolated Pixel. Use when field_id = 0"
group.long 0x10++0x3
line.long 0x00 "VPE_REG3,"
hexmask.long.word 0x00 18.--31. 1. " INTERP_FID0_C2 ,C2 coefficient for Interpolated Pixel. Use when field_id = 0"
hexmask.long.word 0x00 2.--15. 1. "      INTERP_FID0_C3 ,C3 coefficient for Interpolated Pixel. Use when field_id = 0"
group.long 0x14++0x3
line.long 0x00 "VPE_REG4,"
hexmask.long.word 0x00 18.--31. 1. " ANCHOR_FID1_C0 ,C0 coefficient for Anchor Pixel. Use when field_id = 1"
hexmask.long.word 0x00 2.--15. 1. "      ANCHOR_FID1_C1 ,C1 coefficient for Anchor Pixel. Use when field_id = 1"
group.long 0x18++0x3
line.long 0x00 "VPE_REG5,"
hexmask.long.word 0x00 18.--31. 1. " ANCHOR_FID1_C2 ,C2 coefficient for Anchor Pixel. Use when field_id = 1"
hexmask.long.word 0x00 2.--15. 1. "      ANCHOR_FID1_C3 ,C3 coefficient for Anchor Pixel. Use when field_id = 1"
group.long 0x1C++0x3
line.long 0x00 "VPE_REG6,"
hexmask.long.word 0x00 18.--31. 1. " INTERP_FID1_C0 ,C0 coefficient for Interpolated Pixel. Use when field_id = 1"
hexmask.long.word 0x00 2.--15. 1. "      INTERP_FID1_C1 ,C1 coefficient for Interpolated Pixel. Use when field_id = 1"
group.long 0x20++0x3
line.long 0x00 "VPE_REG7,"
hexmask.long.word 0x00 18.--31. 1. " INTERP_FID1_C2 ,C2 coefficient for Interpolated Pixel. Use when field_id = 1"
hexmask.long.word 0x00 2.--15. 1. "      INTERP_FID1_C3 ,C3 coefficient for Interpolated Pixel. Use when field_id = 1"
width 0x0B
tree.end
tree "VPE_CHR_US_INST_2"
base ad:0x489D0500
width 10.
rgroup.long 0x0++0x3
line.long 0x00 "VPE_PID,"
hexmask.long 0x00 0.--31. 1. " PID            ,"
group.long 0x4++0x3
line.long 0x00 "VPE_REG0,"
hexmask.long.word 0x00 18.--31. 1. " ANCHOR_FID0_C0 ,C0 coefficient for Anchor Pixel. Use when field_id = 0"
bitfld.long 0x00 16.--17. "      CFG_MODE       ,0x0 : Mode A - ." "0,Mode_B,2,3"
hexmask.long.word 0x00 2.--15. 1. "  ANCHOR_FID0_C1 ,C1 coefficient for Anchor Pixel. Use when field_id = 0"
group.long 0x8++0x3
line.long 0x00 "VPE_REG1,"
hexmask.long.word 0x00 18.--31. 1. " ANCHOR_FID0_C2 ,C2 coefficient for Anchor Pixel. Use when field_id = 0"
hexmask.long.word 0x00 2.--15. 1. "      ANCHOR_FID0_C3 ,C3 coefficient for Anchor Pixel. Use when field_id = 0"
group.long 0xC++0x3
line.long 0x00 "VPE_REG2,"
hexmask.long.word 0x00 18.--31. 1. " INTERP_FID0_C0 ,C0 coefficient for Interpolated Pixel. Use when field_id = 0"
hexmask.long.word 0x00 2.--15. 1. "      INTERP_FID0_C1 ,C1 coefficient for Interpolated Pixel. Use when field_id = 0"
group.long 0x10++0x3
line.long 0x00 "VPE_REG3,"
hexmask.long.word 0x00 18.--31. 1. " INTERP_FID0_C2 ,C2 coefficient for Interpolated Pixel. Use when field_id = 0"
hexmask.long.word 0x00 2.--15. 1. "      INTERP_FID0_C3 ,C3 coefficient for Interpolated Pixel. Use when field_id = 0"
group.long 0x14++0x3
line.long 0x00 "VPE_REG4,"
hexmask.long.word 0x00 18.--31. 1. " ANCHOR_FID1_C0 ,C0 coefficient for Anchor Pixel. Use when field_id = 1"
hexmask.long.word 0x00 2.--15. 1. "      ANCHOR_FID1_C1 ,C1 coefficient for Anchor Pixel. Use when field_id = 1"
group.long 0x18++0x3
line.long 0x00 "VPE_REG5,"
hexmask.long.word 0x00 18.--31. 1. " ANCHOR_FID1_C2 ,C2 coefficient for Anchor Pixel. Use when field_id = 1"
hexmask.long.word 0x00 2.--15. 1. "      ANCHOR_FID1_C3 ,C3 coefficient for Anchor Pixel. Use when field_id = 1"
group.long 0x1C++0x3
line.long 0x00 "VPE_REG6,"
hexmask.long.word 0x00 18.--31. 1. " INTERP_FID1_C0 ,C0 coefficient for Interpolated Pixel. Use when field_id = 1"
hexmask.long.word 0x00 2.--15. 1. "      INTERP_FID1_C1 ,C1 coefficient for Interpolated Pixel. Use when field_id = 1"
group.long 0x20++0x3
line.long 0x00 "VPE_REG7,"
hexmask.long.word 0x00 18.--31. 1. " INTERP_FID1_C2 ,C2 coefficient for Interpolated Pixel. Use when field_id = 1"
hexmask.long.word 0x00 2.--15. 1. "      INTERP_FID1_C3 ,C3 coefficient for Interpolated Pixel. Use when field_id = 1"
width 0x0B
tree.end
tree.end
tree "VPE_VPDMA"
base ad:0x489DD000
width 28.
rgroup.long 0x0++0x3
line.long 0x00 "VPE_VPDMA_PID,This register follows the format described in PDR3.5"
bitfld.long 0x00 30.--31. " SCHEME                                                                                                             ,The scheme of the register used. Currently this is PDR 3.5 Scheme" "0,1,2,3"
hexmask.long.word 0x00 16.--29. 1. "                    FUNC                              ,The funcition of the module being used. The value is for vpe0_vayu_vpdma."
bitfld.long 0x00 11.--15. "             RTL                               ,RTL Release Version The PDR release number of this IP. After Bootup this value becomes the firmware Revision ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                     "
bitfld.long 0x00 8.--10. " MAJOR                                                                                                              ,Major Release Number" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 7. "                    VPDMA_LOAD_COMPLETE               ,This bit will be 1 when the VPDMA state machines image and data image have successfuly been fetched and loaded." "0,1"
bitfld.long 0x00 6. "                VPDMA_ACCESS_TYPE                 ,After bootup this bit states how DMA transaction are setup by lists or through register access. - . - ." "Lists,Register_Access"
textline "                                     "
bitfld.long 0x00 0.--5. " MINOR                                                                                                              ,Minor Release Number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x4++0x3
line.long 0x00 "VPE_LIST_ADDR,The location of a new list to begin processing."
hexmask.long 0x00 0.--31. 1. " LIST_ADDR                                                                                                          ,Location of a new list of descriptors. This register must be written with the VPDMA Configuration Location after reset."
group.long 0x8++0x3
line.long 0x00 "VPE_LIST_ATTR,The attributes of a new list. This register should always be written after list_addr."
bitfld.long 0x00 24.--26. " LIST_NUM                                                                                                           ,The list number that should be assigned to the list located at LIST_ADDR. If the list is still active this will block all future list w..." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20. "                    STOP                              ,This bit is written with the LIST_NUMBER field to stop a self-modifying list. When this bit is written a one the list specified by the LIST_NUMBER is sent a stop signal and will finish the current ..." "0,1"
bitfld.long 0x00 19. "                RDY                               ,This bit is low when a new list cannot be written to theVPE_LIST_ADDR register. The reasons this bit would be low are at initial startup if the LIST_MANAGER State Machine image has not completed loadin..." "0,1"
textline "                                     "
bitfld.long 0x00 16.--18. " LIST_TYPE                                                                                                          ,The type of list that has been generated. - . - . - ." "Normal_List,Self-Modifying_List,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "  LIST_SIZE                         ,Number of 128 bit word in the new list of descriptors. Writes to this register will activate the list in the list stack of the list manager and begin transfer of the list into VPDMA. This size can not be 0."
group.long 0xC++0x3
line.long 0x00 "VPE_LIST_STAT_SYNC,The register is used for processor to List Manager syncronization and status registers for the list."
bitfld.long 0x00 23. " LIST7_BUSY                                                                                                         ,The list 7 is currently running. Any attempt to load a new list to list 7 will result in the LM_ADDR and LM_ATTR registers to be locked..." "0,1"
bitfld.long 0x00 22. "                    LIST6_BUSY                        ,The list 6 is currently running. Any attempt to load a new list to list 6 will result in the LM_ADDR and LM_ATTR registers to be locked until the list is complete and this value goes to 0." "0,1"
bitfld.long 0x00 21. "                LIST5_BUSY                        ,The list 5 is currently running. Any attempt to load a new list to list 5 will result in the LM_ADDR and LM_ATTR registers to be locked until the list is complete and this value goes to 0." "0,1"
textline "                                     "
bitfld.long 0x00 20. " LIST4_BUSY                                                                                                         ,The list 4 is currently running. Any attempt to load a new list to list 4 will result in the LM_ADDR and LM_ATTR registers to be locked..." "0,1"
bitfld.long 0x00 19. "                    LIST3_BUSY                        ,The list 3 is currently running. Any attempt to load a new list to list 3 will result in the LM_ADDR and LM_ATTR registers to be locked until the list is complete and this value goes to 0." "0,1"
bitfld.long 0x00 18. "                LIST2_BUSY                        ,The list 2 is currently running. Any attempt to load a new list to list 2 will result in the LM_ADDR and LM_ATTR registers to be locked until the list is complete and this value goes to 0." "0,1"
textline "                                     "
bitfld.long 0x00 17. " LIST1_BUSY                                                                                                         ,The list 1 is currently running. Any attempt to load a new list to list 1 will result in the LM_ADDR and LM_ATTR registers to be locked..." "0,1"
bitfld.long 0x00 16. "                    LIST0_BUSY                        ,The list 0 is currently running. Any attempt to load a new list to list 0 will result in the LM_ADDR and LM_ATTR registers to be locked until the list is complete and this value goes to 0." "0,1"
bitfld.long 0x00 7. "                SYNC_LISTS7                       ,Writing a 1 to this field causes a sync event to fire that clears a Control Descriptor in List 7 waiting on it." "0,1"
textline "                                     "
bitfld.long 0x00 6. " SYNC_LISTS6                                                                                                        ,Writing a 1 to this field causes a sync event to fire that clears a Control Descriptor in List 6 waiting on it." "0,1"
bitfld.long 0x00 5. "                    SYNC_LISTS5                       ,Writing a 1 to this field causes a sync event to fire that clears a Control Descriptor in List 5 waiting on it." "0,1"
bitfld.long 0x00 4. "                SYNC_LISTS4                       ,Writing a 1 to this field causes a sync event to fire that clears a Control Descriptor in List 4 waiting on it." "0,1"
textline "                                     "
bitfld.long 0x00 3. " SYNC_LISTS3                                                                                                        ,Writing a 1 to this field causes a sync event to fire that clears a Control Descriptor in List 3 waiting on it." "0,1"
bitfld.long 0x00 2. "                    SYNC_LISTS2                       ,Writing a 1 to this field causes a sync event to fire that clears a Control Descriptor in List 2 waiting on it." "0,1"
bitfld.long 0x00 1. "                SYNC_LISTS1                       ,Writing a 1 to this field causes a sync event to fire that clears a Control Descriptor in List 1 waiting on it." "0,1"
textline "                                     "
bitfld.long 0x00 0. " SYNC_LISTS0                                                                                                        ,Writing a 1 to this field causes a sync event to fire that clears a Control Descriptor in List 0 waiting on it." "0,1"
group.long 0x18++0x3
line.long 0x00 "VPE_BG_RGB,The registers used to set the background color for RGB"
hexmask.long.byte 0x00 24.--31. 1. " RED                                                                                                                ,The red value to give on an RGB data port for a blank pixel when using virtual video buffering"
hexmask.long.byte 0x00 16.--23. 1. "                   GREEN                             ,The green value to give on an RGB data port for a blank pixel when using virtual video buffering"
hexmask.long.byte 0x00 8.--15. 1. "               BLUE                              ,The blue value to give on an RGB data port for a blank pixel when using virtual video buffering"
textline "                                     "
hexmask.long.byte 0x00 0.--7. 1. " BLEND                                                                                                              ,The blend value to give on an RGB data port for a blank pixel when using virtual video buffering"
group.long 0x1C++0x3
line.long 0x00 "VPE_BG_YUV,The registers used to set the background color for YUV"
hexmask.long.byte 0x00 16.--23. 1. " Y                                                                                                                  ,The Y value to give on a YUV data port for a blank pixel when using virtual video buffering"
hexmask.long.byte 0x00 8.--15. 1. "                   CR                                ,The Cr value to give on a YUV data port for a blank pixel when using virtual video buffering"
hexmask.long.byte 0x00 0.--7. 1. "               CB                                ,The Cb value to give on a YUV data port for a blank pixel when using virtual video buffering"
group.long 0x30++0x3
line.long 0x00 "VPE_VPDMA_SETUP,Configures global parameters that are shared by all clients."
bitfld.long 0x00 0. " SEC_BASE_CH                                                                                                        ,Use Secondary Channels for Mosaic mode" "0,1"
group.long 0x34++0x3
line.long 0x00 "VPE_MAX_SIZE1,Configures maximum width and maximum height global parameters that are shared by all clients to allow for configurable max width and max height when setting is 1 in write descriptor."
hexmask.long.word 0x00 16.--31. 1. " MAX_WIDTH                                                                                                          ,The maximum width to use for setting of max_width 1 in a write descriptor. The value is the number of pixels + 1 so if 1024 pixels are ..."
hexmask.long.word 0x00 0.--15. 1. "                 MAX_HEIGHT                        ,The maximum height to use for setting of max_height 1 in a write descriptor. The value is the number of lines + 1 so if 1024 lines are required then set the value to 1023."
group.long 0x38++0x3
line.long 0x00 "VPE_MAX_SIZE2,Configures maximum width and maximum height global parameters that are shared by all clients to allow for configurable max width and max height when setting is 2 in write descriptor."
hexmask.long.word 0x00 16.--31. 1. " MAX_WIDTH                                                                                                          ,The maximum width to use for setting of max_width 2 in a write descriptor. The value is the number of pixels + 1 so if 1024 pixels are ..."
hexmask.long.word 0x00 0.--15. 1. "                 MAX_HEIGHT                        ,The maximum height to use for setting of max_height 2 in a write descriptor. The value is the number of lines + 1 so if 1024 lines are required then set the value to 1023."
group.long 0x3C++0x3
line.long 0x00 "VPE_MAX_SIZE3,Configures maximum width and maximum height global parameters that are shared by all clients to allow for configurable max width and max height when setting is 3 in write descriptor."
hexmask.long.word 0x00 16.--31. 1. " MAX_WIDTH                                                                                                          ,The maximum width to use for setting of max_width 3 in a write descriptor. The value is the number of pixels + 1 so if 1024 pixels are ..."
hexmask.long.word 0x00 0.--15. 1. "                 MAX_HEIGHT                        ,The maximum height to use for setting of max_height 3 in a write descriptor. The value is the number of lines + 1 so if 1024 lines are required then set the value to 1023."
group.long 0x40++0x3
line.long 0x00 "VPE_INT0_CHANNEL0_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 31. " INT_STAT_GRPX3                                                                                                     ,The last read DMA transaction has occurred for channel grpx3 and the channel is free to be updated for the next transfer. This will fir..." "0,1"
bitfld.long 0x00 30. "                    INT_STAT_GRPX2                    ,The last read DMA transaction has occurred for channel grpx2 and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have..." "0,1"
bitfld.long 0x00 29. "                INT_STAT_GRPX1                    ,The last read DMA transaction has occurred for channel grpx1 and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have jus..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_SCALER_OUT                                                                                                ,The last write DMA transaction has completed for channel scaler_out. All data from the channel has been sent and received by the extern..." "0,1"
bitfld.long 0x00 19. "                    INT_STAT_SCALER_CHROMA            ,The last write DMA transaction has completed for channel scaler_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the clie..." "0,1"
bitfld.long 0x00 18. "                INT_STAT_SCALER_LUMA              ,The last write DMA transaction has completed for channel scaler_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client the..." "0,1"
textline "                                     "
bitfld.long 0x00 17. " INT_STAT_HQ_SCALER                                                                                                 ,The last write DMA transaction has completed for channel hq_scaler. All data from the channel has been sent and received by the externa..." "0,1"
bitfld.long 0x00 15. "                    INT_STAT_HQ_MV_OUT                ,The last write DMA transaction has completed for channel hq_mv_out. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client d..." "0,1"
bitfld.long 0x00 12. "                INT_STAT_HQ_MV                    ,The last read DMA transaction has occurred for channel hq_mv and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have jus..." "0,1"
textline "                                     "
bitfld.long 0x00 5. " INT_STAT_HQ_VID3_CHROMA                                                                                            ,The last write DMA transaction has completed for channel hq_vid3_chroma. All data from the channel has been sent and received by the ex..." "0,1"
bitfld.long 0x00 4. "                    INT_STAT_HQ_VID3_LUMA             ,The last write DMA transaction has completed for channel hq_vid3_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the clien..." "0,1"
bitfld.long 0x00 3. "                INT_STAT_HQ_VID2_CHROMA           ,The last write DMA transaction has completed for channel hq_vid2_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
textline "                                     "
bitfld.long 0x00 2. " INT_STAT_HQ_VID2_LUMA                                                                                              ,The last write DMA transaction has completed for channel hq_vid2_luma. All data from the channel has been sent and received by the exte..." "0,1"
bitfld.long 0x00 1. "                    INT_STAT_HQ_VID1_CHROMA           ,The last write DMA transaction has completed for channel hq_vid1_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the cli..." "0,1"
bitfld.long 0x00 0. "                INT_STAT_HQ_VID1_LUMA             ,The last write DMA transaction has completed for channel hq_vid1_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client th..." "0,1"
group.long 0x44++0x3
line.long 0x00 "VPE_INT0_CHANNEL0_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 31. " INT_MASK_GRPX3                                                                                                     ,The interrupt for Graphcis 2 Data should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger th..." "0,1"
bitfld.long 0x00 30. "                    INT_MASK_GRPX2                    ,The interrupt for Graphics 1 Data should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "                INT_MASK_GRPX1                    ,The interrupt for Graphics 0 Data should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_SCALER_OUT                                                                                                ,The interrupt for Low Cost DEI Scalar Write to Memory should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt..." "0,1"
bitfld.long 0x00 19. "                    INT_MASK_SCALER_CHROMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "                INT_MASK_SCALER_LUMA              ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 17. " INT_MASK_HQ_SCALER                                                                                                 ,The interrupt for High Quality DEI Scaler Write to Memory should generate an interrupt on interrupt vpdma_int0. Write a 1 for the inter..." "0,1"
bitfld.long 0x00 15. "                    INT_MASK_HQ_MV_OUT                ,The interrupt for Low Cost DEI Motion Vector Write should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "                INT_MASK_HQ_MV                    ,The interrupt for Low Cost DEI Motion Vector should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 5. " INT_MASK_HQ_VID3_CHROMA                                                                                            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 4. "                    INT_MASK_HQ_VID3_LUMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "                INT_MASK_HQ_VID2_CHROMA           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 2. " INT_MASK_HQ_VID2_LUMA                                                                                              ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 1. "                    INT_MASK_HQ_VID1_CHROMA           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "                INT_MASK_HQ_VID1_LUMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x48++0x3
line.long 0x00 "VPE_INT0_CHANNEL1_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 31. " INT_STAT_VIP1_MULT_PORTB_SRC9                                                                                      ,The last write DMA transaction has completed for channel vip1_mult_portb_src9. All data from the channel has been sent and received by ..." "0,1"
bitfld.long 0x00 30. "                    INT_STAT_VIP1_MULT_PORTB_SRC8     ,The last write DMA transaction has completed for channel vip1_mult_portb_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for t..." "0,1"
bitfld.long 0x00 29. "                INT_STAT_VIP1_MULT_PORTB_SRC7     ,The last write DMA transaction has completed for channel vip1_mult_portb_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the c..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_VIP1_MULT_PORTB_SRC6                                                                                      ,The last write DMA transaction has completed for channel vip1_mult_portb_src6. All data from the channel has been sent and received by ..." "0,1"
bitfld.long 0x00 27. "                    INT_STAT_VIP1_MULT_PORTB_SRC5     ,The last write DMA transaction has completed for channel vip1_mult_portb_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for t..." "0,1"
bitfld.long 0x00 26. "                INT_STAT_VIP1_MULT_PORTB_SRC4     ,The last write DMA transaction has completed for channel vip1_mult_portb_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the c..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_VIP1_MULT_PORTB_SRC3                                                                                      ,The last write DMA transaction has completed for channel vip1_mult_portb_src3. All data from the channel has been sent and received by ..." "0,1"
bitfld.long 0x00 24. "                    INT_STAT_VIP1_MULT_PORTB_SRC2     ,The last write DMA transaction has completed for channel vip1_mult_portb_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for t..." "0,1"
bitfld.long 0x00 23. "                INT_STAT_VIP1_MULT_PORTB_SRC1     ,The last write DMA transaction has completed for channel vip1_mult_portb_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the c..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_VIP1_MULT_PORTB_SRC0                                                                                      ,The last write DMA transaction has completed for channel vip1_mult_portb_src0. All data from the channel has been sent and received by ..." "0,1"
bitfld.long 0x00 21. "                    INT_STAT_VIP1_MULT_PORTA_SRC15    ,The last write DMA transaction has completed for channel vip1_mult_porta_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for ..." "0,1"
bitfld.long 0x00 20. "                INT_STAT_VIP1_MULT_PORTA_SRC14    ,The last write DMA transaction has completed for channel vip1_mult_porta_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the ..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_VIP1_MULT_PORTA_SRC13                                                                                     ,The last write DMA transaction has completed for channel vip1_mult_porta_src13. All data from the channel has been sent and received by..." "0,1"
bitfld.long 0x00 18. "                    INT_STAT_VIP1_MULT_PORTA_SRC12    ,The last write DMA transaction has completed for channel vip1_mult_porta_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for ..." "0,1"
bitfld.long 0x00 17. "                INT_STAT_VIP1_MULT_PORTA_SRC11    ,The last write DMA transaction has completed for channel vip1_mult_porta_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the ..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_VIP1_MULT_PORTA_SRC10                                                                                     ,The last write DMA transaction has completed for channel vip1_mult_porta_src10. All data from the channel has been sent and received by..." "0,1"
bitfld.long 0x00 15. "                    INT_STAT_VIP1_MULT_PORTA_SRC9     ,The last write DMA transaction has completed for channel vip1_mult_porta_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for t..." "0,1"
bitfld.long 0x00 14. "                INT_STAT_VIP1_MULT_PORTA_SRC8     ,The last write DMA transaction has completed for channel vip1_mult_porta_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the c..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_VIP1_MULT_PORTA_SRC7                                                                                      ,The last write DMA transaction has completed for channel vip1_mult_porta_src7. All data from the channel has been sent and received by ..." "0,1"
bitfld.long 0x00 12. "                    INT_STAT_VIP1_MULT_PORTA_SRC6     ,The last write DMA transaction has completed for channel vip1_mult_porta_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for t..." "0,1"
bitfld.long 0x00 11. "                INT_STAT_VIP1_MULT_PORTA_SRC5     ,The last write DMA transaction has completed for channel vip1_mult_porta_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the c..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_VIP1_MULT_PORTA_SRC4                                                                                      ,The last write DMA transaction has completed for channel vip1_mult_porta_src4. All data from the channel has been sent and received by ..." "0,1"
bitfld.long 0x00 9. "                    INT_STAT_VIP1_MULT_PORTA_SRC3     ,The last write DMA transaction has completed for channel vip1_mult_porta_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for t..." "0,1"
bitfld.long 0x00 8. "                INT_STAT_VIP1_MULT_PORTA_SRC2     ,The last write DMA transaction has completed for channel vip1_mult_porta_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the c..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP1_MULT_PORTA_SRC1                                                                                      ,The last write DMA transaction has completed for channel vip1_mult_porta_src1. All data from the channel has been sent and received by ..." "0,1"
bitfld.long 0x00 6. "                    INT_STAT_VIP1_MULT_PORTA_SRC0     ,The last write DMA transaction has completed for channel vip1_mult_porta_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for t..." "0,1"
group.long 0x4C++0x3
line.long 0x00 "VPE_INT0_CHANNEL1_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 31. " INT_MASK_VIP1_MULT_PORTB_SRC9                                                                                      ,The interrupt for Video Input 1 Port B Channel 9 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt even..." "0,1"
bitfld.long 0x00 30. "                    INT_MASK_VIP1_MULT_PORTB_SRC8     ,The interrupt for Video Input 1 Port B Channel 8 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "                INT_MASK_VIP1_MULT_PORTB_SRC7     ,The interrupt for Video Input 1 Port B Channel 7 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_VIP1_MULT_PORTB_SRC6                                                                                      ,The interrupt for Video Input 1 Port B Channel 6 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt even..." "0,1"
bitfld.long 0x00 27. "                    INT_MASK_VIP1_MULT_PORTB_SRC5     ,The interrupt for Video Input 1 Port B Channel 5 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "                INT_MASK_VIP1_MULT_PORTB_SRC4     ,The interrupt for Video Input 1 Port B Channel 4 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_VIP1_MULT_PORTB_SRC3                                                                                      ,The interrupt for Video Input 1 Port B Channel 3 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt even..." "0,1"
bitfld.long 0x00 24. "                    INT_MASK_VIP1_MULT_PORTB_SRC2     ,The interrupt for Video Input 1 Port B Channel 2 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "                INT_MASK_VIP1_MULT_PORTB_SRC1     ,The interrupt for Video Input 1 Port B Channel 1 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_VIP1_MULT_PORTB_SRC0                                                                                      ,The interrupt for Video Input 1 Port B Channel 0 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt even..." "0,1"
bitfld.long 0x00 21. "                    INT_MASK_VIP1_MULT_PORTA_SRC15    ,The interrupt for Video Input 1 Port A Channel 15 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "                INT_MASK_VIP1_MULT_PORTA_SRC14    ,The interrupt for Video Input 1 Port A Channel 14 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_VIP1_MULT_PORTA_SRC13                                                                                     ,The interrupt for Video Input 1 Port A Channel 13 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt eve..." "0,1"
bitfld.long 0x00 18. "                    INT_MASK_VIP1_MULT_PORTA_SRC12    ,The interrupt for Video Input 1 Port A Channel 12 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "                INT_MASK_VIP1_MULT_PORTA_SRC11    ,The interrupt for Video Input 1 Port A Channel 11 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_VIP1_MULT_PORTA_SRC10                                                                                     ,The interrupt for Video Input 1 Port A Channel 10 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt eve..." "0,1"
bitfld.long 0x00 15. "                    INT_MASK_VIP1_MULT_PORTA_SRC9     ,The interrupt for Video Input 1 Port A Channel 9 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "                INT_MASK_VIP1_MULT_PORTA_SRC8     ,The interrupt for Video Input 1 Port A Channel 8 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_VIP1_MULT_PORTA_SRC7                                                                                      ,The interrupt for Video Input 1 Port A Channel 7 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt even..." "0,1"
bitfld.long 0x00 12. "                    INT_MASK_VIP1_MULT_PORTA_SRC6     ,The interrupt for Video Input 1 Port A Channel 6 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "                INT_MASK_VIP1_MULT_PORTA_SRC5     ,The interrupt for Video Input 1 Port A Channel 5 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_VIP1_MULT_PORTA_SRC4                                                                                      ,The interrupt for Video Input 1 Port A Channel 4 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt even..." "0,1"
bitfld.long 0x00 9. "                    INT_MASK_VIP1_MULT_PORTA_SRC3     ,The interrupt for Video Input 1 Port A Channel 3 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "                INT_MASK_VIP1_MULT_PORTA_SRC2     ,The interrupt for Video Input 1 Port A Channel 2 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP1_MULT_PORTA_SRC1                                                                                      ,The interrupt for Video Input 1 Port A Channel 1 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt even..." "0,1"
bitfld.long 0x00 6. "                    INT_MASK_VIP1_MULT_PORTA_SRC0     ,The interrupt for Video Input 1 Port A Channel 0 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x50++0x3
line.long 0x00 "VPE_INT0_CHANNEL2_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 31. " INT_STAT_VIP1_MULT_ANCB_SRC9                                                                                       ,The last write DMA transaction has completed for channel vip1_mult_ancb_src9. All data from the channel has been sent and received by t..." "0,1"
bitfld.long 0x00 30. "                    INT_STAT_VIP1_MULT_ANCB_SRC8      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for th..." "0,1"
bitfld.long 0x00 29. "                INT_STAT_VIP1_MULT_ANCB_SRC7      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the cl..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_VIP1_MULT_ANCB_SRC6                                                                                       ,The last write DMA transaction has completed for channel vip1_mult_ancb_src6. All data from the channel has been sent and received by t..." "0,1"
bitfld.long 0x00 27. "                    INT_STAT_VIP1_MULT_ANCB_SRC5      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for th..." "0,1"
bitfld.long 0x00 26. "                INT_STAT_VIP1_MULT_ANCB_SRC4      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the cl..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_VIP1_MULT_ANCB_SRC3                                                                                       ,The last write DMA transaction has completed for channel vip1_mult_ancb_src3. All data from the channel has been sent and received by t..." "0,1"
bitfld.long 0x00 24. "                    INT_STAT_VIP1_MULT_ANCB_SRC2      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for th..." "0,1"
bitfld.long 0x00 23. "                INT_STAT_VIP1_MULT_ANCB_SRC1      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the cl..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_VIP1_MULT_ANCB_SRC0                                                                                       ,The last write DMA transaction has completed for channel vip1_mult_ancb_src0. All data from the channel has been sent and received by t..." "0,1"
bitfld.long 0x00 21. "                    INT_STAT_VIP1_MULT_ANCA_SRC15     ,The last write DMA transaction has completed for channel vip1_mult_anca_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for t..." "0,1"
bitfld.long 0x00 20. "                INT_STAT_VIP1_MULT_ANCA_SRC14     ,The last write DMA transaction has completed for channel vip1_mult_anca_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the c..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_VIP1_MULT_ANCA_SRC13                                                                                      ,The last write DMA transaction has completed for channel vip1_mult_anca_src13. All data from the channel has been sent and received by ..." "0,1"
bitfld.long 0x00 18. "                    INT_STAT_VIP1_MULT_ANCA_SRC12     ,The last write DMA transaction has completed for channel vip1_mult_anca_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for t..." "0,1"
bitfld.long 0x00 17. "                INT_STAT_VIP1_MULT_ANCA_SRC11     ,The last write DMA transaction has completed for channel vip1_mult_anca_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the c..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_VIP1_MULT_ANCA_SRC10                                                                                      ,The last write DMA transaction has completed for channel vip1_mult_anca_src10. All data from the channel has been sent and received by ..." "0,1"
bitfld.long 0x00 15. "                    INT_STAT_VIP1_MULT_ANCA_SRC9      ,The last write DMA transaction has completed for channel vip1_mult_anca_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for th..." "0,1"
bitfld.long 0x00 14. "                INT_STAT_VIP1_MULT_ANCA_SRC8      ,The last write DMA transaction has completed for channel vip1_mult_anca_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the cl..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_VIP1_MULT_ANCA_SRC7                                                                                       ,The last write DMA transaction has completed for channel vip1_mult_anca_src7. All data from the channel has been sent and received by t..." "0,1"
bitfld.long 0x00 12. "                    INT_STAT_VIP1_MULT_ANCA_SRC6      ,The last write DMA transaction has completed for channel vip1_mult_anca_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for th..." "0,1"
bitfld.long 0x00 11. "                INT_STAT_VIP1_MULT_ANCA_SRC5      ,The last write DMA transaction has completed for channel vip1_mult_anca_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the cl..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_VIP1_MULT_ANCA_SRC4                                                                                       ,The last write DMA transaction has completed for channel vip1_mult_anca_src4. All data from the channel has been sent and received by t..." "0,1"
bitfld.long 0x00 9. "                    INT_STAT_VIP1_MULT_ANCA_SRC3      ,The last write DMA transaction has completed for channel vip1_mult_anca_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for th..." "0,1"
bitfld.long 0x00 8. "                INT_STAT_VIP1_MULT_ANCA_SRC2      ,The last write DMA transaction has completed for channel vip1_mult_anca_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the cl..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP1_MULT_ANCA_SRC1                                                                                       ,The last write DMA transaction has completed for channel vip1_mult_anca_src1. All data from the channel has been sent and received by t..." "0,1"
bitfld.long 0x00 6. "                    INT_STAT_VIP1_MULT_ANCA_SRC0      ,The last write DMA transaction has completed for channel vip1_mult_anca_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for th..." "0,1"
bitfld.long 0x00 5. "                INT_STAT_VIP1_MULT_PORTB_SRC15    ,The last write DMA transaction has completed for channel vip1_mult_portb_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the ..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_VIP1_MULT_PORTB_SRC14                                                                                     ,The last write DMA transaction has completed for channel vip1_mult_portb_src14. All data from the channel has been sent and received by..." "0,1"
bitfld.long 0x00 3. "                    INT_STAT_VIP1_MULT_PORTB_SRC13    ,The last write DMA transaction has completed for channel vip1_mult_portb_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for ..." "0,1"
bitfld.long 0x00 2. "                INT_STAT_VIP1_MULT_PORTB_SRC12    ,The last write DMA transaction has completed for channel vip1_mult_portb_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the ..." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_VIP1_MULT_PORTB_SRC11                                                                                     ,The last write DMA transaction has completed for channel vip1_mult_portb_src11. All data from the channel has been sent and received by..." "0,1"
bitfld.long 0x00 0. "                    INT_STAT_VIP1_MULT_PORTB_SRC10    ,The last write DMA transaction has completed for channel vip1_mult_portb_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for ..." "0,1"
group.long 0x54++0x3
line.long 0x00 "VPE_INT0_CHANNEL2_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 31. " INT_MASK_VIP1_MULT_ANCB_SRC9                                                                                       ,The interrupt for Video Input 1 Port B Ancillary Data Channel 9 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the..." "0,1"
bitfld.long 0x00 30. "                    INT_MASK_VIP1_MULT_ANCB_SRC8      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 8 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "                INT_MASK_VIP1_MULT_ANCB_SRC7      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 7 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_VIP1_MULT_ANCB_SRC6                                                                                       ,The interrupt for Video Input 1 Port B Ancillary Data Channel 6 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the..." "0,1"
bitfld.long 0x00 27. "                    INT_MASK_VIP1_MULT_ANCB_SRC5      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 5 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "                INT_MASK_VIP1_MULT_ANCB_SRC4      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 4 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_VIP1_MULT_ANCB_SRC3                                                                                       ,The interrupt for Video Input 1 Port B Ancillary Data Channel 3 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the..." "0,1"
bitfld.long 0x00 24. "                    INT_MASK_VIP1_MULT_ANCB_SRC2      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 2 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "                INT_MASK_VIP1_MULT_ANCB_SRC1      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 1 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_VIP1_MULT_ANCB_SRC0                                                                                       ,The interrupt for Video Input 1 Port B Ancillary Data Channel 0 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the..." "0,1"
bitfld.long 0x00 21. "                    INT_MASK_VIP1_MULT_ANCA_SRC15     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 15 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "                INT_MASK_VIP1_MULT_ANCA_SRC14     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 14 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_VIP1_MULT_ANCA_SRC13                                                                                      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 13 should generate an interrupt on interrupt vpdma_int0. Write a 1 for th..." "0,1"
bitfld.long 0x00 18. "                    INT_MASK_VIP1_MULT_ANCA_SRC12     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 12 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "                INT_MASK_VIP1_MULT_ANCA_SRC11     ,The interrupt for Video Input 1 Port A Ancillary Data Channel 11 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_VIP1_MULT_ANCA_SRC10                                                                                      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 10 should generate an interrupt on interrupt vpdma_int0. Write a 1 for th..." "0,1"
bitfld.long 0x00 15. "                    INT_MASK_VIP1_MULT_ANCA_SRC9      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 9 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "                INT_MASK_VIP1_MULT_ANCA_SRC8      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 8 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_VIP1_MULT_ANCA_SRC7                                                                                       ,The interrupt for Video Input 1 Port A Ancillary Data Channel 7 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the..." "0,1"
bitfld.long 0x00 12. "                    INT_MASK_VIP1_MULT_ANCA_SRC6      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 6 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "                INT_MASK_VIP1_MULT_ANCA_SRC5      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 5 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_VIP1_MULT_ANCA_SRC4                                                                                       ,The interrupt for Video Input 1 Port A Ancillary Data Channel 4 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the..." "0,1"
bitfld.long 0x00 9. "                    INT_MASK_VIP1_MULT_ANCA_SRC3      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 3 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "                INT_MASK_VIP1_MULT_ANCA_SRC2      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 2 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP1_MULT_ANCA_SRC1                                                                                       ,The interrupt for Video Input 1 Port A Ancillary Data Channel 1 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the..." "0,1"
bitfld.long 0x00 6. "                    INT_MASK_VIP1_MULT_ANCA_SRC0      ,The interrupt for Video Input 1 Port A Ancillary Data Channel 0 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "                INT_MASK_VIP1_MULT_PORTB_SRC15    ,The interrupt for Video Input 1 Port B Channel 15 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_VIP1_MULT_PORTB_SRC14                                                                                     ,The interrupt for Video Input 1 Port B Channel 14 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt eve..." "0,1"
bitfld.long 0x00 3. "                    INT_MASK_VIP1_MULT_PORTB_SRC13    ,The interrupt for Video Input 1 Port B Channel 13 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "                INT_MASK_VIP1_MULT_PORTB_SRC12    ,The interrupt for Video Input 1 Port B Channel 12 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_VIP1_MULT_PORTB_SRC11                                                                                     ,The interrupt for Video Input 1 Port B Channel 11 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt eve..." "0,1"
bitfld.long 0x00 0. "                    INT_MASK_VIP1_MULT_PORTB_SRC10    ,The interrupt for Video Input 1 Port B Channel 10 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x58++0x3
line.long 0x00 "VPE_INT0_CHANNEL3_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 31. " INT_STAT_VIP2_MULT_PORTB_SRC3                                                                                      ,The last write DMA transaction has completed for channel vip2_mult_portb_src3. All data from the channel has been sent and received by ..." "0,1"
bitfld.long 0x00 30. "                    INT_STAT_VIP2_MULT_PORTB_SRC2     ,The last write DMA transaction has completed for channel vip2_mult_portb_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for t..." "0,1"
bitfld.long 0x00 29. "                INT_STAT_VIP2_MULT_PORTB_SRC1     ,The last write DMA transaction has completed for channel vip2_mult_portb_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the c..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_VIP2_MULT_PORTB_SRC0                                                                                      ,The last write DMA transaction has completed for channel vip2_mult_portb_src0. All data from the channel has been sent and received by ..." "0,1"
bitfld.long 0x00 27. "                    INT_STAT_VIP2_MULT_PORTA_SRC15    ,The last write DMA transaction has completed for channel vip2_mult_porta_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for ..." "0,1"
bitfld.long 0x00 26. "                INT_STAT_VIP2_MULT_PORTA_SRC14    ,The last write DMA transaction has completed for channel vip2_mult_porta_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the ..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_VIP2_MULT_PORTA_SRC13                                                                                     ,The last write DMA transaction has completed for channel vip2_mult_porta_src13. All data from the channel has been sent and received by..." "0,1"
bitfld.long 0x00 24. "                    INT_STAT_VIP2_MULT_PORTA_SRC12    ,The last write DMA transaction has completed for channel vip2_mult_porta_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for ..." "0,1"
bitfld.long 0x00 23. "                INT_STAT_VIP2_MULT_PORTA_SRC11    ,The last write DMA transaction has completed for channel vip2_mult_porta_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the ..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_VIP2_MULT_PORTA_SRC10                                                                                     ,The last write DMA transaction has completed for channel vip2_mult_porta_src10. All data from the channel has been sent and received by..." "0,1"
bitfld.long 0x00 21. "                    INT_STAT_VIP2_MULT_PORTA_SRC9     ,The last write DMA transaction has completed for channel vip2_mult_porta_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for t..." "0,1"
bitfld.long 0x00 20. "                INT_STAT_VIP2_MULT_PORTA_SRC8     ,The last write DMA transaction has completed for channel vip2_mult_porta_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the c..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_VIP2_MULT_PORTA_SRC7                                                                                      ,The last write DMA transaction has completed for channel vip2_mult_porta_src7. All data from the channel has been sent and received by ..." "0,1"
bitfld.long 0x00 18. "                    INT_STAT_VIP2_MULT_PORTA_SRC6     ,The last write DMA transaction has completed for channel vip2_mult_porta_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for t..." "0,1"
bitfld.long 0x00 17. "                INT_STAT_VIP2_MULT_PORTA_SRC5     ,The last write DMA transaction has completed for channel vip2_mult_porta_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the c..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_VIP2_MULT_PORTA_SRC4                                                                                      ,The last write DMA transaction has completed for channel vip2_mult_porta_src4. All data from the channel has been sent and received by ..." "0,1"
bitfld.long 0x00 15. "                    INT_STAT_VIP2_MULT_PORTA_SRC3     ,The last write DMA transaction has completed for channel vip2_mult_porta_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for t..." "0,1"
bitfld.long 0x00 14. "                INT_STAT_VIP2_MULT_PORTA_SRC2     ,The last write DMA transaction has completed for channel vip2_mult_porta_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the c..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_VIP2_MULT_PORTA_SRC1                                                                                      ,The last write DMA transaction has completed for channel vip2_mult_porta_src1. All data from the channel has been sent and received by ..." "0,1"
bitfld.long 0x00 12. "                    INT_STAT_VIP2_MULT_PORTA_SRC0     ,The last write DMA transaction has completed for channel vip2_mult_porta_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for t..." "0,1"
bitfld.long 0x00 11. "                INT_STAT_VIP1_PORTB_RGB           ,The last write DMA transaction has completed for channel vip1_portb_rgb. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_VIP1_PORTA_RGB                                                                                            ,The last write DMA transaction has completed for channel vip1_porta_rgb. All data from the channel has been sent and received by the ex..." "0,1"
bitfld.long 0x00 9. "                    INT_STAT_VIP1_PORTB_CHROMA        ,The last write DMA transaction has completed for channel vip1_portb_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the ..." "0,1"
bitfld.long 0x00 8. "                INT_STAT_VIP1_PORTB_LUMA          ,The last write DMA transaction has completed for channel vip1_portb_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP1_PORTA_CHROMA                                                                                         ,The last write DMA transaction has completed for channel vip1_porta_chroma. All data from the channel has been sent and received by the..." "0,1"
bitfld.long 0x00 6. "                    INT_STAT_VIP1_PORTA_LUMA          ,The last write DMA transaction has completed for channel vip1_porta_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the cl..." "0,1"
bitfld.long 0x00 5. "                INT_STAT_VIP1_MULT_ANCB_SRC15     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the c..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_VIP1_MULT_ANCB_SRC14                                                                                      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src14. All data from the channel has been sent and received by ..." "0,1"
bitfld.long 0x00 3. "                    INT_STAT_VIP1_MULT_ANCB_SRC13     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for t..." "0,1"
bitfld.long 0x00 2. "                INT_STAT_VIP1_MULT_ANCB_SRC12     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the c..." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_VIP1_MULT_ANCB_SRC11                                                                                      ,The last write DMA transaction has completed for channel vip1_mult_ancb_src11. All data from the channel has been sent and received by ..." "0,1"
bitfld.long 0x00 0. "                    INT_STAT_VIP1_MULT_ANCB_SRC10     ,The last write DMA transaction has completed for channel vip1_mult_ancb_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for t..." "0,1"
group.long 0x5C++0x3
line.long 0x00 "VPE_INT0_CHANNEL3_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 31. " INT_MASK_VIP2_MULT_PORTB_SRC3                                                                                      ,The interrupt for Video Input 2 Port B Channel 3 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt even..." "0,1"
bitfld.long 0x00 30. "                    INT_MASK_VIP2_MULT_PORTB_SRC2     ,The interrupt for Video Input 2 Port B Channel 2 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "                INT_MASK_VIP2_MULT_PORTB_SRC1     ,The interrupt for Video Input 2 Port B Channel 1 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_VIP2_MULT_PORTB_SRC0                                                                                      ,The interrupt for Video Input 2 Port B Channel 0 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt even..." "0,1"
bitfld.long 0x00 27. "                    INT_MASK_VIP2_MULT_PORTA_SRC15    ,The interrupt for Video Input 2 Port A Channel 15 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "                INT_MASK_VIP2_MULT_PORTA_SRC14    ,The interrupt for Video Input 2 Port A Channel 14 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_VIP2_MULT_PORTA_SRC13                                                                                     ,The interrupt for Video Input 2 Port A Channel 13 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt eve..." "0,1"
bitfld.long 0x00 24. "                    INT_MASK_VIP2_MULT_PORTA_SRC12    ,The interrupt for Video Input 2 Port A Channel 12 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "                INT_MASK_VIP2_MULT_PORTA_SRC11    ,The interrupt for Video Input 2 Port A Channel 11 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_VIP2_MULT_PORTA_SRC10                                                                                     ,The interrupt for Video Input 2 Port A Channel 10 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt eve..." "0,1"
bitfld.long 0x00 21. "                    INT_MASK_VIP2_MULT_PORTA_SRC9     ,The interrupt for Video Input 2 Port A Channel 9 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "                INT_MASK_VIP2_MULT_PORTA_SRC8     ,The interrupt for Video Input 2 Port A Channel 8 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_VIP2_MULT_PORTA_SRC7                                                                                      ,The interrupt for Video Input 2 Port A Channel 7 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt even..." "0,1"
bitfld.long 0x00 18. "                    INT_MASK_VIP2_MULT_PORTA_SRC6     ,The interrupt for Video Input 2 Port A Channel 6 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "                INT_MASK_VIP2_MULT_PORTA_SRC5     ,The interrupt for Video Input 2 Port A Channel 5 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_VIP2_MULT_PORTA_SRC4                                                                                      ,The interrupt for Video Input 2 Port A Channel 4 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt even..." "0,1"
bitfld.long 0x00 15. "                    INT_MASK_VIP2_MULT_PORTA_SRC3     ,The interrupt for Video Input 2 Port A Channel 3 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "                INT_MASK_VIP2_MULT_PORTA_SRC2     ,The interrupt for Video Input 2 Port A Channel 2 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_VIP2_MULT_PORTA_SRC1                                                                                      ,The interrupt for Video Input 2 Port A Channel 1 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt even..." "0,1"
bitfld.long 0x00 12. "                    INT_MASK_VIP2_MULT_PORTA_SRC0     ,The interrupt for Video Input 2 Port A Channel 0 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "                INT_MASK_VIP1_PORTB_RGB           ,The interrupt for Video Input 1 Port B RGB Data should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_VIP1_PORTA_RGB                                                                                            ,The interrupt for Video Input 1 Port A RGB Data should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event..." "0,1"
bitfld.long 0x00 9. "                    INT_MASK_VIP1_PORTB_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "                INT_MASK_VIP1_PORTB_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP1_PORTA_CHROMA                                                                                         ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "                    INT_MASK_VIP1_PORTA_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "                INT_MASK_VIP1_MULT_ANCB_SRC15     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 15 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_VIP1_MULT_ANCB_SRC14                                                                                      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 14 should generate an interrupt on interrupt vpdma_int0. Write a 1 for th..." "0,1"
bitfld.long 0x00 3. "                    INT_MASK_VIP1_MULT_ANCB_SRC13     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 13 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "                INT_MASK_VIP1_MULT_ANCB_SRC12     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 12 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_VIP1_MULT_ANCB_SRC11                                                                                      ,The interrupt for Video Input 1 Port B Ancillary Data Channel 11 should generate an interrupt on interrupt vpdma_int0. Write a 1 for th..." "0,1"
bitfld.long 0x00 0. "                    INT_MASK_VIP1_MULT_ANCB_SRC10     ,The interrupt for Video Input 1 Port B Ancillary Data Channel 10 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x60++0x3
line.long 0x00 "VPE_INT0_CHANNEL4_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 31. " INT_STAT_VIP2_MULT_ANCB_SRC3                                                                                       ,The last write DMA transaction has completed for channel vip2_mult_ancb_src3. All data from the channel has been sent and received by t..." "0,1"
bitfld.long 0x00 30. "                    INT_STAT_VIP2_MULT_ANCB_SRC2      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for th..." "0,1"
bitfld.long 0x00 29. "                INT_STAT_VIP2_MULT_ANCB_SRC1      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src1. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the cl..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_VIP2_MULT_ANCB_SRC0                                                                                       ,The last write DMA transaction has completed for channel vip2_mult_ancb_src0. All data from the channel has been sent and received by t..." "0,1"
bitfld.long 0x00 27. "                    INT_STAT_VIP2_MULT_ANCA_SRC15     ,The last write DMA transaction has completed for channel vip2_mult_anca_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for t..." "0,1"
bitfld.long 0x00 26. "                INT_STAT_VIP2_MULT_ANCA_SRC14     ,The last write DMA transaction has completed for channel vip2_mult_anca_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the c..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_VIP2_MULT_ANCA_SRC13                                                                                      ,The last write DMA transaction has completed for channel vip2_mult_anca_src13. All data from the channel has been sent and received by ..." "0,1"
bitfld.long 0x00 24. "                    INT_STAT_VIP2_MULT_ANCA_SRC12     ,The last write DMA transaction has completed for channel vip2_mult_anca_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for t..." "0,1"
bitfld.long 0x00 23. "                INT_STAT_VIP2_MULT_ANCA_SRC11     ,The last write DMA transaction has completed for channel vip2_mult_anca_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the c..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_VIP2_MULT_ANCA_SRC10                                                                                      ,The last write DMA transaction has completed for channel vip2_mult_anca_src10. All data from the channel has been sent and received by ..." "0,1"
bitfld.long 0x00 21. "                    INT_STAT_VIP2_MULT_ANCA_SRC9      ,The last write DMA transaction has completed for channel vip2_mult_anca_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for th..." "0,1"
bitfld.long 0x00 20. "                INT_STAT_VIP2_MULT_ANCA_SRC8      ,The last write DMA transaction has completed for channel vip2_mult_anca_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the cl..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_VIP2_MULT_ANCA_SRC7                                                                                       ,The last write DMA transaction has completed for channel vip2_mult_anca_src7. All data from the channel has been sent and received by t..." "0,1"
bitfld.long 0x00 18. "                    INT_STAT_VIP2_MULT_ANCA_SRC6      ,The last write DMA transaction has completed for channel vip2_mult_anca_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for th..." "0,1"
bitfld.long 0x00 17. "                INT_STAT_VIP2_MULT_ANCA_SRC5      ,The last write DMA transaction has completed for channel vip2_mult_anca_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the cl..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_VIP2_MULT_ANCA_SRC4                                                                                       ,The last write DMA transaction has completed for channel vip2_mult_anca_src4. All data from the channel has been sent and received by t..." "0,1"
bitfld.long 0x00 15. "                    INT_STAT_VIP2_MULT_ANCA_SRC3      ,The last write DMA transaction has completed for channel vip2_mult_anca_src3. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for th..." "0,1"
bitfld.long 0x00 14. "                INT_STAT_VIP2_MULT_ANCA_SRC2      ,The last write DMA transaction has completed for channel vip2_mult_anca_src2. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the cl..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_VIP2_MULT_ANCA_SRC1                                                                                       ,The last write DMA transaction has completed for channel vip2_mult_anca_src1. All data from the channel has been sent and received by t..." "0,1"
bitfld.long 0x00 12. "                    INT_STAT_VIP2_MULT_ANCA_SRC0      ,The last write DMA transaction has completed for channel vip2_mult_anca_src0. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for th..." "0,1"
bitfld.long 0x00 11. "                INT_STAT_VIP2_MULT_PORTB_SRC15    ,The last write DMA transaction has completed for channel vip2_mult_portb_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the ..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_VIP2_MULT_PORTB_SRC14                                                                                     ,The last write DMA transaction has completed for channel vip2_mult_portb_src14. All data from the channel has been sent and received by..." "0,1"
bitfld.long 0x00 9. "                    INT_STAT_VIP2_MULT_PORTB_SRC13    ,The last write DMA transaction has completed for channel vip2_mult_portb_src13. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for ..." "0,1"
bitfld.long 0x00 8. "                INT_STAT_VIP2_MULT_PORTB_SRC12    ,The last write DMA transaction has completed for channel vip2_mult_portb_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the ..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP2_MULT_PORTB_SRC11                                                                                     ,The last write DMA transaction has completed for channel vip2_mult_portb_src11. All data from the channel has been sent and received by..." "0,1"
bitfld.long 0x00 6. "                    INT_STAT_VIP2_MULT_PORTB_SRC10    ,The last write DMA transaction has completed for channel vip2_mult_portb_src10. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for ..." "0,1"
bitfld.long 0x00 5. "                INT_STAT_VIP2_MULT_PORTB_SRC9     ,The last write DMA transaction has completed for channel vip2_mult_portb_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the c..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_VIP2_MULT_PORTB_SRC8                                                                                      ,The last write DMA transaction has completed for channel vip2_mult_portb_src8. All data from the channel has been sent and received by ..." "0,1"
bitfld.long 0x00 3. "                    INT_STAT_VIP2_MULT_PORTB_SRC7     ,The last write DMA transaction has completed for channel vip2_mult_portb_src7. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for t..." "0,1"
bitfld.long 0x00 2. "                INT_STAT_VIP2_MULT_PORTB_SRC6     ,The last write DMA transaction has completed for channel vip2_mult_portb_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the c..." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_VIP2_MULT_PORTB_SRC5                                                                                      ,The last write DMA transaction has completed for channel vip2_mult_portb_src5. All data from the channel has been sent and received by ..." "0,1"
bitfld.long 0x00 0. "                    INT_STAT_VIP2_MULT_PORTB_SRC4     ,The last write DMA transaction has completed for channel vip2_mult_portb_src4. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for t..." "0,1"
group.long 0x64++0x3
line.long 0x00 "VPE_INT0_CHANNEL4_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 31. " INT_MASK_VIP2_MULT_ANCB_SRC3                                                                                       ,The interrupt for Video Input 2 Port B Ancillary Data Channel 3 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the..." "0,1"
bitfld.long 0x00 30. "                    INT_MASK_VIP2_MULT_ANCB_SRC2      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 2 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "                INT_MASK_VIP2_MULT_ANCB_SRC1      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 1 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_VIP2_MULT_ANCB_SRC0                                                                                       ,The interrupt for Video Input 2 Port B Ancillary Data Channel 0 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the..." "0,1"
bitfld.long 0x00 27. "                    INT_MASK_VIP2_MULT_ANCA_SRC15     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 15 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "                INT_MASK_VIP2_MULT_ANCA_SRC14     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 14 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_VIP2_MULT_ANCA_SRC13                                                                                      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 13 should generate an interrupt on interrupt vpdma_int0. Write a 1 for th..." "0,1"
bitfld.long 0x00 24. "                    INT_MASK_VIP2_MULT_ANCA_SRC12     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 12 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "                INT_MASK_VIP2_MULT_ANCA_SRC11     ,The interrupt for Video Input 2 Port A Ancillary Data Channel 11 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_VIP2_MULT_ANCA_SRC10                                                                                      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 10 should generate an interrupt on interrupt vpdma_int0. Write a 1 for th..." "0,1"
bitfld.long 0x00 21. "                    INT_MASK_VIP2_MULT_ANCA_SRC9      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 9 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "                INT_MASK_VIP2_MULT_ANCA_SRC8      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 8 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_VIP2_MULT_ANCA_SRC7                                                                                       ,The interrupt for Video Input 2 Port A Ancillary Data Channel 7 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the..." "0,1"
bitfld.long 0x00 18. "                    INT_MASK_VIP2_MULT_ANCA_SRC6      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 6 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "                INT_MASK_VIP2_MULT_ANCA_SRC5      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 5 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_VIP2_MULT_ANCA_SRC4                                                                                       ,The interrupt for Video Input 2 Port A Ancillary Data Channel 4 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the..." "0,1"
bitfld.long 0x00 15. "                    INT_MASK_VIP2_MULT_ANCA_SRC3      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 3 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "                INT_MASK_VIP2_MULT_ANCA_SRC2      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 2 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_VIP2_MULT_ANCA_SRC1                                                                                       ,The interrupt for Video Input 2 Port A Ancillary Data Channel 1 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the..." "0,1"
bitfld.long 0x00 12. "                    INT_MASK_VIP2_MULT_ANCA_SRC0      ,The interrupt for Video Input 2 Port A Ancillary Data Channel 0 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "                INT_MASK_VIP2_MULT_PORTB_SRC15    ,The interrupt for Video Input 2 Port B Channel 15 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_VIP2_MULT_PORTB_SRC14                                                                                     ,The interrupt for Video Input 2 Port B Channel 14 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt eve..." "0,1"
bitfld.long 0x00 9. "                    INT_MASK_VIP2_MULT_PORTB_SRC13    ,The interrupt for Video Input 2 Port B Channel 13 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "                INT_MASK_VIP2_MULT_PORTB_SRC12    ,The interrupt for Video Input 2 Port B Channel 12 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP2_MULT_PORTB_SRC11                                                                                     ,The interrupt for Video Input 2 Port B Channel 11 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt eve..." "0,1"
bitfld.long 0x00 6. "                    INT_MASK_VIP2_MULT_PORTB_SRC10    ,The interrupt for Video Input 2 Port B Channel 10 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "                INT_MASK_VIP2_MULT_PORTB_SRC9     ,The interrupt for Video Input 2 Port B Channel 9 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_VIP2_MULT_PORTB_SRC8                                                                                      ,The interrupt for Video Input 2 Port B Channel 8 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt even..." "0,1"
bitfld.long 0x00 3. "                    INT_MASK_VIP2_MULT_PORTB_SRC7     ,The interrupt for Video Input 2 Port B Channel 7 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "                INT_MASK_VIP2_MULT_PORTB_SRC6     ,The interrupt for Video Input 2 Port B Channel 6 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_VIP2_MULT_PORTB_SRC5                                                                                      ,The interrupt for Video Input 2 Port B Channel 5 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt even..." "0,1"
bitfld.long 0x00 0. "                    INT_MASK_VIP2_MULT_PORTB_SRC4     ,The interrupt for Video Input 2 Port B Channel 4 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x68++0x3
line.long 0x00 "VPE_INT0_CHANNEL5_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 31. " INT_STAT_TRANSCODE2_CHROMA                                                                                         ,The last write DMA transaction has completed for channel transcode2_chroma. All data from the channel has been sent and received by the..." "0,1"
bitfld.long 0x00 30. "                    INT_STAT_TRANSCODE2_LUMA          ,The last write DMA transaction has completed for channel transcode2_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the cl..." "0,1"
bitfld.long 0x00 29. "                INT_STAT_TRANSCODE1_CHROMA        ,The last write DMA transaction has completed for channel transcode1_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_TRANSCODE1_LUMA                                                                                           ,The last write DMA transaction has completed for channel transcode1_luma. All data from the channel has been sent and received by the e..." "0,1"
bitfld.long 0x00 27. "                    INT_STAT_AUX_IN                   ,The last read DMA transaction has occurred for channel aux_in and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will hav..." "0,1"
bitfld.long 0x00 26. "                INT_STAT_PIP_FRAME                ,The last read DMA transaction has occurred for channel pip_frame and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it will have..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_POST_COMP_WR                                                                                              ,The last write DMA transaction has completed for channel post_comp_wr. All data from the channel has been sent and received by the exte..." "0,1"
bitfld.long 0x00 24. "                    INT_STAT_VBI_SD_VENC              ,The last read DMA transaction has occurred for channel vbi_sd_venc and the channel is free to be updated for the next transfer. This will fire before the destination has received the data as it wil..." "0,1"
bitfld.long 0x00 22. "                INT_STAT_NF_LAST_CHROMA           ,The last write DMA transaction has completed for channel nf_last_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
textline "                                     "
bitfld.long 0x00 21. " INT_STAT_NF_LAST_LUMA                                                                                              ,The last write DMA transaction has completed for channel nf_last_luma. All data from the channel has been sent and received by the exte..." "0,1"
bitfld.long 0x00 20. "                    INT_STAT_NF_WRITE_CHROMA          ,The last write DMA transaction has completed for channel nf_write_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the cl..." "0,1"
bitfld.long 0x00 19. "                INT_STAT_NF_WRITE_LUMA            ,The last write DMA transaction has completed for channel nf_write_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client t..." "0,1"
textline "                                     "
bitfld.long 0x00 18. " INT_STAT_OTHER                                                                                                     ,This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
bitfld.long 0x00 17. "                    INT_STAT_VIP2_PORTB_RGB           ,The last write DMA transaction has completed for channel vip2_portb_rgb. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the cli..." "0,1"
bitfld.long 0x00 16. "                INT_STAT_VIP2_PORTA_RGB           ,The last write DMA transaction has completed for channel vip2_porta_rgb. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the client ..." "0,1"
textline "                                     "
bitfld.long 0x00 15. " INT_STAT_VIP2_PORTB_CHROMA                                                                                         ,The last write DMA transaction has completed for channel vip2_portb_chroma. All data from the channel has been sent and received by the..." "0,1"
bitfld.long 0x00 14. "                    INT_STAT_VIP2_PORTB_LUMA          ,The last write DMA transaction has completed for channel vip2_portb_luma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the cl..." "0,1"
bitfld.long 0x00 13. "                INT_STAT_VIP2_PORTA_CHROMA        ,The last write DMA transaction has completed for channel vip2_porta_chroma. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the clie..." "0,1"
textline "                                     "
bitfld.long 0x00 12. " INT_STAT_VIP2_PORTA_LUMA                                                                                           ,The last write DMA transaction has completed for channel vip2_porta_luma. All data from the channel has been sent and received by the e..." "0,1"
bitfld.long 0x00 11. "                    INT_STAT_VIP2_MULT_ANCB_SRC15     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src15. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for t..." "0,1"
bitfld.long 0x00 10. "                INT_STAT_VIP2_MULT_ANCB_SRC14     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src14. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the c..." "0,1"
textline "                                     "
bitfld.long 0x00 9. " INT_STAT_VIP2_MULT_ANCB_SRC13                                                                                      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src13. All data from the channel has been sent and received by ..." "0,1"
bitfld.long 0x00 8. "                    INT_STAT_VIP2_MULT_ANCB_SRC12     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src12. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for t..." "0,1"
bitfld.long 0x00 7. "                INT_STAT_VIP2_MULT_ANCB_SRC11     ,The last write DMA transaction has completed for channel vip2_mult_ancb_src11. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the c..." "0,1"
textline "                                     "
bitfld.long 0x00 6. " INT_STAT_VIP2_MULT_ANCB_SRC10                                                                                      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src10. All data from the channel has been sent and received by ..." "0,1"
bitfld.long 0x00 5. "                    INT_STAT_VIP2_MULT_ANCB_SRC9      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src9. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for th..." "0,1"
bitfld.long 0x00 4. "                INT_STAT_VIP2_MULT_ANCB_SRC8      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src8. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the cl..." "0,1"
textline "                                     "
bitfld.long 0x00 3. " INT_STAT_VIP2_MULT_ANCB_SRC7                                                                                       ,The last write DMA transaction has completed for channel vip2_mult_ancb_src7. All data from the channel has been sent and received by t..." "0,1"
bitfld.long 0x00 2. "                    INT_STAT_VIP2_MULT_ANCB_SRC6      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src6. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for th..." "0,1"
bitfld.long 0x00 1. "                INT_STAT_VIP2_MULT_ANCB_SRC5      ,The last write DMA transaction has completed for channel vip2_mult_ancb_src5. All data from the channel has been sent and received by the external memory. If a new channel has not been setup for the cl..." "0,1"
textline "                                     "
bitfld.long 0x00 0. " INT_STAT_VIP2_MULT_ANCB_SRC4                                                                                       ,The last write DMA transaction has completed for channel vip2_mult_ancb_src4. All data from the channel has been sent and received by t..." "0,1"
group.long 0x6C++0x3
line.long 0x00 "VPE_INT0_CHANNEL5_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 31. " INT_MASK_TRANSCODE2_CHROMA                                                                                         ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "                    INT_MASK_TRANSCODE2_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "                INT_MASK_TRANSCODE1_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_TRANSCODE1_LUMA                                                                                           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "                    INT_MASK_AUX_IN                   ,The interrupt for Auxilary Data for the Compositor Frame From Memory should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "                INT_MASK_PIP_FRAME                ,The interrupt for PIP Data for the Compositor Frame From Memory should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_POST_COMP_WR                                                                                              ,The interrupt for Post Compositer Writeback to Memory should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt..." "0,1"
bitfld.long 0x00 24. "                    INT_MASK_VBI_SD_VENC              ,The interrupt for SD Video Encoder VBI Data should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 22. "                INT_MASK_NF_LAST_CHROMA           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 21. " INT_MASK_NF_LAST_LUMA                                                                                              ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "                    INT_MASK_NF_WRITE_CHROMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 19. "                INT_MASK_NF_WRITE_LUMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 18. " INT_MASK_OTHER                                                                                                     ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "                    INT_MASK_VIP2_PORTB_RGB           ,The interrupt for Video Input 2 Port B RGB Data should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 16. "                INT_MASK_VIP2_PORTA_RGB           ,The interrupt for Video Input 2 Port A RGB Data should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 15. " INT_MASK_VIP2_PORTB_CHROMA                                                                                         ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "                    INT_MASK_VIP2_PORTB_LUMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 13. "                INT_MASK_VIP2_PORTA_CHROMA        ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 12. " INT_MASK_VIP2_PORTA_LUMA                                                                                           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "                    INT_MASK_VIP2_MULT_ANCB_SRC15     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 15 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 10. "                INT_MASK_VIP2_MULT_ANCB_SRC14     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 14 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 9. " INT_MASK_VIP2_MULT_ANCB_SRC13                                                                                      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 13 should generate an interrupt on interrupt vpdma_int0. Write a 1 for th..." "0,1"
bitfld.long 0x00 8. "                    INT_MASK_VIP2_MULT_ANCB_SRC12     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 12 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 7. "                INT_MASK_VIP2_MULT_ANCB_SRC11     ,The interrupt for Video Input 2 Port B Ancillary Data Channel 11 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 6. " INT_MASK_VIP2_MULT_ANCB_SRC10                                                                                      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 10 should generate an interrupt on interrupt vpdma_int0. Write a 1 for th..." "0,1"
bitfld.long 0x00 5. "                    INT_MASK_VIP2_MULT_ANCB_SRC9      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 9 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 4. "                INT_MASK_VIP2_MULT_ANCB_SRC8      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 8 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 3. " INT_MASK_VIP2_MULT_ANCB_SRC7                                                                                       ,The interrupt for Video Input 2 Port B Ancillary Data Channel 7 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the..." "0,1"
bitfld.long 0x00 2. "                    INT_MASK_VIP2_MULT_ANCB_SRC6      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 6 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 1. "                INT_MASK_VIP2_MULT_ANCB_SRC5      ,The interrupt for Video Input 2 Port B Ancillary Data Channel 5 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 0. " INT_MASK_VIP2_MULT_ANCB_SRC4                                                                                       ,The interrupt for Video Input 2 Port B Ancillary Data Channel 4 should generate an interrupt on interrupt vpdma_int0. Write a 1 for the..." "0,1"
group.long 0x78++0x3
line.long 0x00 "VPE_INT0_CLIENT0_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 31. " INT_STAT_GRPX1_DATA                                                                                                ,The client interface grpx1_data has reached its current configured interrupt event as specified by the last received control descriptor..." "0,1"
bitfld.long 0x00 30. "                    INT_STAT_COMP_WRBK                ,The client interface comp_wrbk has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured ..." "0,1"
bitfld.long 0x00 29. "                INT_STAT_SC_OUT                   ,The client interface sc_out has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this wi..." "0,1"
textline "                                     "
bitfld.long 0x00 20. " INT_STAT_SC_IN_LUMA                                                                                                ,The client interface sc_in_luma has reached its current configured interrupt event as specified by the last received control descriptor..." "0,1"
bitfld.long 0x00 19. "                    INT_STAT_SC_IN_CHROMA             ,The client interface sc_in_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configur..." "0,1"
bitfld.long 0x00 18. "                INT_STAT_PIP_WRBK                 ,The client interface pip_wrbk has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this ..." "0,1"
textline "                                     "
bitfld.long 0x00 17. " INT_STAT_DEI_SC_OUT                                                                                                ,The client interface dei_sc_out has reached its current configured interrupt event as specified by the last received control descriptor..." "0,1"
bitfld.long 0x00 15. "                    INT_STAT_DEI_HQ_MV_OUT            ,The client interface dei_hq_mv_out has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configu..." "0,1"
bitfld.long 0x00 12. "                INT_STAT_DEI_HQ_MV_IN             ,The client interface dei_hq_mv_in has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured t..." "0,1"
textline "                                     "
bitfld.long 0x00 5. " INT_STAT_DEI_HQ_3_CHROMA                                                                                           ,The client interface dei_hq_3_chroma has reached its current configured interrupt event as specified by the last received control descr..." "0,1"
bitfld.long 0x00 4. "                    INT_STAT_DEI_HQ_3_LUMA            ,The client interface dei_hq_3_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configu..." "0,1"
bitfld.long 0x00 3. "                INT_STAT_DEI_HQ_2_CHROMA          ,The client interface dei_hq_2_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configure..." "0,1"
textline "                                     "
bitfld.long 0x00 2. " INT_STAT_DEI_HQ_2_LUMA                                                                                             ,The client interface dei_hq_2_luma has reached its current configured interrupt event as specified by the last received control descrip..." "0,1"
bitfld.long 0x00 1. "                    INT_STAT_DEI_HQ_1_LUMA            ,The client interface dei_hq_1_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configu..." "0,1"
bitfld.long 0x00 0. "                INT_STAT_DEI_HQ_1_CHROMA          ,The client interface dei_hq_1_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configure..." "0,1"
group.long 0x7C++0x3
line.long 0x00 "VPE_INT0_CLIENT0_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 31. " INT_MASK_GRPX1_DATA                                                                                                ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "                    INT_MASK_COMP_WRBK                ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "                INT_MASK_SC_OUT                   ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 20. " INT_MASK_SC_IN_LUMA                                                                                                ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 19. "                    INT_MASK_SC_IN_CHROMA             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "                INT_MASK_PIP_WRBK                 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 17. " INT_MASK_DEI_SC_OUT                                                                                                ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "                    INT_MASK_DEI_HQ_MV_OUT            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "                INT_MASK_DEI_HQ_MV_IN             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 5. " INT_MASK_DEI_HQ_3_CHROMA                                                                                           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 4. "                    INT_MASK_DEI_HQ_3_LUMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "                INT_MASK_DEI_HQ_2_CHROMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 2. " INT_MASK_DEI_HQ_2_LUMA                                                                                             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 1. "                    INT_MASK_DEI_HQ_1_LUMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "                INT_MASK_DEI_HQ_1_CHROMA          ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x80++0x3
line.long 0x00 "VPE_INT0_CLIENT1_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 29. " INT_STAT_VIP2_ANC_B                                                                                                ,The client interface vip2_anc_b has reached its current configured interrupt event as specified by the last received control descriptor..." "0,1"
bitfld.long 0x00 28. "                    INT_STAT_VIP2_ANC_A               ,The client interface vip2_anc_a has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured..." "0,1"
bitfld.long 0x00 27. "                INT_STAT_VIP1_ANC_B               ,The client interface vip1_anc_b has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured thi..." "0,1"
textline "                                     "
bitfld.long 0x00 26. " INT_STAT_VIP1_ANC_A                                                                                                ,The client interface vip1_anc_a has reached its current configured interrupt event as specified by the last received control descriptor..." "0,1"
bitfld.long 0x00 25. "                    INT_STAT_TRANS2_LUMA              ,The client interface trans2_luma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configure..." "0,1"
bitfld.long 0x00 24. "                INT_STAT_TRANS2_CHROMA            ,The client interface trans2_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured ..." "0,1"
textline "                                     "
bitfld.long 0x00 23. " INT_STAT_TRANS1_LUMA                                                                                               ,The client interface trans1_luma has reached its current configured interrupt event as specified by the last received control descripto..." "0,1"
bitfld.long 0x00 22. "                    INT_STAT_TRANS1_CHROMA            ,The client interface trans1_chroma has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configu..." "0,1"
bitfld.long 0x00 21. "                INT_STAT_HDMI_WRBK_OUT            ,The client interface hdmi_wrbk_out has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured ..." "0,1"
textline "                                     "
bitfld.long 0x00 20. " INT_STAT_VPI_CTL                                                                                                   ,The client interface vpi_ctl has reached its current configured interrupt event as specified by the last received control descriptor fo..." "0,1"
bitfld.long 0x00 19. "                    INT_STAT_VBI_SDVENC               ,The client interface vbi_sdvenc has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured..." "0,1"
bitfld.long 0x00 17. "                INT_STAT_NF_420_UV_OUT            ,The client interface nf_420_uv_out has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured ..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_NF_420_Y_OUT                                                                                              ,The client interface nf_420_y_out has reached its current configured interrupt event as specified by the last received control descript..." "0,1"
bitfld.long 0x00 15. "                    INT_STAT_NF_420_UV_IN             ,The client interface nf_420_uv_in has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configur..." "0,1"
bitfld.long 0x00 14. "                INT_STAT_NF_420_Y_IN              ,The client interface nf_420_y_in has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured th..." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_NF_422_IN                                                                                                 ,The client interface nf_422_in has reached its current configured interrupt event as specified by the last received control descriptor ..." "0,1"
bitfld.long 0x00 12. "                    INT_STAT_GRPX3_ST                 ,The client interface grpx3_st has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured t..." "0,1"
bitfld.long 0x00 11. "                INT_STAT_GRPX2_ST                 ,The client interface grpx2_st has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this ..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_GRPX1_ST                                                                                                  ,The client interface grpx1_st has reached its current configured interrupt event as specified by the last received control descriptor f..." "0,1"
bitfld.long 0x00 9. "                    INT_STAT_VIP2_UP_UV               ,The client interface vip2_up_uv has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured..." "0,1"
bitfld.long 0x00 8. "                INT_STAT_VIP2_UP_Y                ,The client interface vip2_up_y has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this..." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_VIP2_LO_UV                                                                                                ,The client interface vip2_lo_uv has reached its current configured interrupt event as specified by the last received control descriptor..." "0,1"
bitfld.long 0x00 6. "                    INT_STAT_VIP2_LO_Y                ,The client interface vip2_lo_y has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured ..." "0,1"
bitfld.long 0x00 5. "                INT_STAT_VIP1_UP_UV               ,The client interface vip1_up_uv has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured thi..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_VIP1_UP_Y                                                                                                 ,The client interface vip1_up_y has reached its current configured interrupt event as specified by the last received control descriptor ..." "0,1"
bitfld.long 0x00 3. "                    INT_STAT_VIP1_LO_UV               ,The client interface vip1_lo_uv has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured..." "0,1"
bitfld.long 0x00 2. "                INT_STAT_VIP1_LO_Y                ,The client interface vip1_lo_y has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured this..." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_GRPX3_DATA                                                                                                ,The client interface grpx3_data has reached its current configured interrupt event as specified by the last received control descriptor..." "0,1"
bitfld.long 0x00 0. "                    INT_STAT_GRPX2_DATA               ,The client interface grpx2_data has reached its current configured interrupt event as specified by the last received control descriptor for this client. If no control descriptor has been configured..." "0,1"
group.long 0x84++0x3
line.long 0x00 "VPE_INT0_CLIENT1_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 29. " INT_MASK_VIP2_ANC_B                                                                                                ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 28. "                    INT_MASK_VIP2_ANC_A               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "                INT_MASK_VIP1_ANC_B               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 26. " INT_MASK_VIP1_ANC_A                                                                                                ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 25. "                    INT_MASK_TRANS2_LUMA              ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "                INT_MASK_TRANS2_CHROMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 23. " INT_MASK_TRANS1_LUMA                                                                                               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 22. "                    INT_MASK_TRANS1_CHROMA            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "                INT_MASK_HDMI_WRBK_OUT            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 20. " INT_MASK_VPI_CTL                                                                                                   ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 19. "                    INT_MASK_VBI_SDVENC               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "                INT_MASK_NF_420_UV_OUT            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_NF_420_Y_OUT                                                                                              ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "                    INT_MASK_NF_420_UV_IN             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "                INT_MASK_NF_420_Y_IN              ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_NF_422_IN                                                                                                 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "                    INT_MASK_GRPX3_ST                 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "                INT_MASK_GRPX2_ST                 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_GRPX1_ST                                                                                                  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "                    INT_MASK_VIP2_UP_UV               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "                INT_MASK_VIP2_UP_Y                ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_VIP2_LO_UV                                                                                                ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "                    INT_MASK_VIP2_LO_Y                ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "                INT_MASK_VIP1_UP_UV               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_VIP1_UP_Y                                                                                                 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "                    INT_MASK_VIP1_LO_UV               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "                INT_MASK_VIP1_LO_Y                ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_GRPX3_DATA                                                                                                ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "                    INT_MASK_GRPX2_DATA               ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x88++0x3
line.long 0x00 "VPE_INT0_LIST0_INT_STAT,This register gives the information of the interrupts that have triggered since last cleared by the process that is servicing vpdma_int0."
bitfld.long 0x00 31. " INT_STAT_CONTROL_DESCRIPTOR_INT15                                                                                  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 15. This event will cause a one to be ..." "0,1"
bitfld.long 0x00 30. "                    INT_STAT_CONTROL_DESCRIPTOR_INT14 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 14. This event will cause a one to be set in this register until cleared by software. Write a 1 to t..." "0,1"
bitfld.long 0x00 29. "                INT_STAT_CONTROL_DESCRIPTOR_INT13 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 13. This event will cause a one to be set in this register until cleared by software. Write a 1 to this ..." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_STAT_CONTROL_DESCRIPTOR_INT12                                                                                  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 12. This event will cause a one to be ..." "0,1"
bitfld.long 0x00 27. "                    INT_STAT_CONTROL_DESCRIPTOR_INT11 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 11. This event will cause a one to be set in this register until cleared by software. Write a 1 to t..." "0,1"
bitfld.long 0x00 26. "                INT_STAT_CONTROL_DESCRIPTOR_INT10 ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 10. This event will cause a one to be set in this register until cleared by software. Write a 1 to this ..." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_STAT_CONTROL_DESCRIPTOR_INT9                                                                                   ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 9. This event will cause a one to be s..." "0,1"
bitfld.long 0x00 24. "                    INT_STAT_CONTROL_DESCRIPTOR_INT8  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 8. This event will cause a one to be set in this register until cleared by software. Write a 1 to th..." "0,1"
bitfld.long 0x00 23. "                INT_STAT_CONTROL_DESCRIPTOR_INT7  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 7. This event will cause a one to be set in this register until cleared by software. Write a 1 to this f..." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_STAT_CONTROL_DESCRIPTOR_INT6                                                                                   ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 6. This event will cause a one to be s..." "0,1"
bitfld.long 0x00 21. "                    INT_STAT_CONTROL_DESCRIPTOR_INT5  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 5. This event will cause a one to be set in this register until cleared by software. Write a 1 to th..." "0,1"
bitfld.long 0x00 20. "                INT_STAT_CONTROL_DESCRIPTOR_INT4  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 4. This event will cause a one to be set in this register until cleared by software. Write a 1 to this f..." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_STAT_CONTROL_DESCRIPTOR_INT3                                                                                   ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 3. This event will cause a one to be s..." "0,1"
bitfld.long 0x00 18. "                    INT_STAT_CONTROL_DESCRIPTOR_INT2  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 2. This event will cause a one to be set in this register until cleared by software. Write a 1 to th..." "0,1"
bitfld.long 0x00 17. "                INT_STAT_CONTROL_DESCRIPTOR_INT1  ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 1. This event will cause a one to be set in this register until cleared by software. Write a 1 to this f..." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_STAT_CONTROL_DESCRIPTOR_INT0                                                                                   ,A Send Interrupt Control Descriptor has been received by the list manager with a source value of 0. This event will cause a one to be s..." "0,1"
bitfld.long 0x00 15. "                    INT_STAT_LIST7_NOTIFY             ,A channel set by List 7 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1..." "0,1"
bitfld.long 0x00 14. "                INT_STAT_LIST7_COMPLETE           ,List 7 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_STAT_LIST6_NOTIFY                                                                                              ,A channel set by List 6 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one t..." "0,1"
bitfld.long 0x00 12. "                    INT_STAT_LIST6_COMPLETE           ,List 6 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
bitfld.long 0x00 11. "                INT_STAT_LIST5_NOTIFY             ,A channel set by List 5 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to ..." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_STAT_LIST5_COMPLETE                                                                                            ,List 5 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Wr..." "0,1"
bitfld.long 0x00 9. "                    INT_STAT_LIST4_NOTIFY             ,A channel set by List 4 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1..." "0,1"
bitfld.long 0x00 8. "                INT_STAT_LIST4_COMPLETE           ,List 4 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_STAT_LIST3_NOTIFY                                                                                              ,A channel set by List 3 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one t..." "0,1"
bitfld.long 0x00 6. "                    INT_STAT_LIST3_COMPLETE           ,List 3 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
bitfld.long 0x00 5. "                INT_STAT_LIST2_NOTIFY             ,A channel set by List 2 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1 to ..." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_STAT_LIST2_COMPLETE                                                                                            ,List 2 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Wr..." "0,1"
bitfld.long 0x00 3. "                    INT_STAT_LIST1_NOTIFY             ,A channel set by List 1 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one to be set in this register until cleared by software. Write a 1..." "0,1"
bitfld.long 0x00 2. "                INT_STAT_LIST1_COMPLETE           ,List 1 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_STAT_LIST0_NOTIFY                                                                                              ,A channel set by List 0 has completed and the Notify bit had been set in the descriptor for that channel. This event will cause a one t..." "0,1"
bitfld.long 0x00 0. "                    INT_STAT_LIST0_COMPLETE           ,List 0 has completed and a new list can be loaded. This event will cause a one to be set in this register until cleared by software. Write a 1 to this field to clear the value." "0,1"
group.long 0x8C++0x3
line.long 0x00 "VPE_INT0_LIST0_INT_MASK,The register gives the information of the interrupts that should be masked and not generate an interrupt for vpdma_int0."
bitfld.long 0x00 31. " INT_MASK_CONTROL_DESCRIPTOR_INT15                                                                                  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 30. "                    INT_MASK_CONTROL_DESCRIPTOR_INT14 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 29. "                INT_MASK_CONTROL_DESCRIPTOR_INT13 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 28. " INT_MASK_CONTROL_DESCRIPTOR_INT12                                                                                  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 27. "                    INT_MASK_CONTROL_DESCRIPTOR_INT11 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 26. "                INT_MASK_CONTROL_DESCRIPTOR_INT10 ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 25. " INT_MASK_CONTROL_DESCRIPTOR_INT9                                                                                   ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 24. "                    INT_MASK_CONTROL_DESCRIPTOR_INT8  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 23. "                INT_MASK_CONTROL_DESCRIPTOR_INT7  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 22. " INT_MASK_CONTROL_DESCRIPTOR_INT6                                                                                   ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 21. "                    INT_MASK_CONTROL_DESCRIPTOR_INT5  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 20. "                INT_MASK_CONTROL_DESCRIPTOR_INT4  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 19. " INT_MASK_CONTROL_DESCRIPTOR_INT3                                                                                   ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 18. "                    INT_MASK_CONTROL_DESCRIPTOR_INT2  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 17. "                INT_MASK_CONTROL_DESCRIPTOR_INT1  ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 16. " INT_MASK_CONTROL_DESCRIPTOR_INT0                                                                                   ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 15. "                    INT_MASK_LIST7_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 14. "                INT_MASK_LIST7_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 13. " INT_MASK_LIST6_NOTIFY                                                                                              ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 12. "                    INT_MASK_LIST6_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 11. "                INT_MASK_LIST5_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 10. " INT_MASK_LIST5_COMPLETE                                                                                            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 9. "                    INT_MASK_LIST4_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 8. "                INT_MASK_LIST4_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 7. " INT_MASK_LIST3_NOTIFY                                                                                              ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 6. "                    INT_MASK_LIST3_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 5. "                INT_MASK_LIST2_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 4. " INT_MASK_LIST2_COMPLETE                                                                                            ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 3. "                    INT_MASK_LIST1_NOTIFY             ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 2. "                INT_MASK_LIST1_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
textline "                                     "
bitfld.long 0x00 1. " INT_MASK_LIST0_NOTIFY                                                                                              ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
bitfld.long 0x00 0. "                    INT_MASK_LIST0_COMPLETE           ,The interrupt for should generate an interrupt on interrupt vpdma_int0. Write a 1 for the interrupt event to trigger the interrupt signal." "0,1"
group.long 0x200++0x3
line.long 0x00 "VPE_PERF_MON0,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "dei_hq_1_chroma,vpi_ctl,dei_hq_1_luma,dei_hq_2_luma"
bitfld.long 0x00 24.--26. "  STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "dei_hq_1_chroma,vpi_ctl,dei_hq_1_luma,dei_hq_2_luma"
bitfld.long 0x00 16.--18. "      START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x204++0x3
line.long 0x00 "VPE_PERF_MON1,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "dei_hq_1_luma,dei_hq_1_chroma,dei_hq_2_luma,dei_hq_2_chroma"
bitfld.long 0x00 24.--26. "  STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "dei_hq_1_luma,dei_hq_1_chroma,dei_hq_2_luma,dei_hq_2_chroma"
bitfld.long 0x00 16.--18. "      START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x208++0x3
line.long 0x00 "VPE_PERF_MON2,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "dei_hq_2_luma,dei_hq_1_luma,dei_hq_2_chroma,dei_hq_3_luma"
bitfld.long 0x00 24.--26. "  STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "dei_hq_2_luma,dei_hq_1_luma,dei_hq_2_chroma,dei_hq_3_luma"
bitfld.long 0x00 16.--18. "      START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x20C++0x3
line.long 0x00 "VPE_PERF_MON3,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "dei_hq_2_luma,dei_hq_1_luma,dei_hq_2_chroma,dei_hq_3_luma"
bitfld.long 0x00 24.--26. "  STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "dei_hq_2_luma,dei_hq_1_luma,dei_hq_2_chroma,dei_hq_3_luma"
bitfld.long 0x00 16.--18. "      START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x210++0x3
line.long 0x00 "VPE_PERF_MON4,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "dei_hq_3_luma,dei_hq_2_chroma,dei_hq_3_chroma,UNKN_MNEMO"
bitfld.long 0x00 24.--26. "  STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "dei_hq_3_luma,dei_hq_2_chroma,dei_hq_3_chroma,UNKN_MNEMO"
bitfld.long 0x00 16.--18. "      START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x214++0x3
line.long 0x00 "VPE_PERF_MON5,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "dei_hq_3_luma,dei_hq_2_chroma,dei_hq_3_chroma,UNKN_MNEMO"
bitfld.long 0x00 24.--26. "  STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "dei_hq_3_luma,dei_hq_2_chroma,dei_hq_3_chroma,UNKN_MNEMO"
bitfld.long 0x00 16.--18. "      START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x218++0x3
line.long 0x00 "VPE_PERF_MON6,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,dei_hq_3_chroma,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 24.--26. "  STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "dei_hq_3_chroma,dei_hq_3_chroma,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 16.--18. "      START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x21C++0x3
line.long 0x00 "VPE_PERF_MON7,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 24.--26. "       STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 16.--18. "           START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x220++0x3
line.long 0x00 "VPE_PERF_MON8,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 24.--26. "       STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 16.--18. "           START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x224++0x3
line.long 0x00 "VPE_PERF_MON9,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 24.--26. "       STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 16.--18. "           START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x228++0x3
line.long 0x00 "VPE_PERF_MON10,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,dei_hq_mv_in"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,dei_hq_mv_in"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x22C++0x3
line.long 0x00 "VPE_PERF_MON11,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,dei_hq_mv_in,UNKN_MNEMO"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,dei_hq_mv_in,UNKN_MNEMO"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x230++0x3
line.long 0x00 "VPE_PERF_MON12,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "dei_hq_mv_in,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 24.--26. "     STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "dei_hq_mv_in,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 16.--18. "         START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x234++0x3
line.long 0x00 "VPE_PERF_MON13,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,dei_hq_mv_in,UNKN_MNEMO,dei_hq_mv_out"
bitfld.long 0x00 24.--26. "    STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,dei_hq_mv_in,UNKN_MNEMO,dei_hq_mv_out"
bitfld.long 0x00 16.--18. "        START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x238++0x3
line.long 0x00 "VPE_PERF_MON14,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,dei_hq_mv_out,UNKN_MNEMO"
bitfld.long 0x00 24.--26. "    STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,dei_hq_mv_out,UNKN_MNEMO"
bitfld.long 0x00 16.--18. "        START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x23C++0x3
line.long 0x00 "VPE_PERF_MON15,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "dei_hq_mv_out,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 24.--26. "    STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "dei_hq_mv_out,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 16.--18. "        START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x240++0x3
line.long 0x00 "VPE_PERF_MON16,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,dei_hq_mv_out,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 24.--26. "    STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,dei_hq_mv_out,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 16.--18. "        START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x244++0x3
line.long 0x00 "VPE_PERF_MON17,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 24.--26. "       STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 16.--18. "           START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x248++0x3
line.long 0x00 "VPE_PERF_MON18,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 24.--26. "       STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 16.--18. "           START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x24C++0x3
line.long 0x00 "VPE_PERF_MON19,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 24.--26. "       STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 16.--18. "           START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x250++0x3
line.long 0x00 "VPE_PERF_MON20,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 24.--26. "       STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 16.--18. "           START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x254++0x3
line.long 0x00 "VPE_PERF_MON21,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 24.--26. "       STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 16.--18. "           START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x258++0x3
line.long 0x00 "VPE_PERF_MON22,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 24.--26. "       STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 16.--18. "           START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x25C++0x3
line.long 0x00 "VPE_PERF_MON23,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 24.--26. "       STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 16.--18. "           START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x260++0x3
line.long 0x00 "VPE_PERF_MON24,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 24.--26. "       STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 16.--18. "           START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x264++0x3
line.long 0x00 "VPE_PERF_MON25,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 24.--26. "       STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 16.--18. "           START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x268++0x3
line.long 0x00 "VPE_PERF_MON26,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 24.--26. "       STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 16.--18. "           START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x26C++0x3
line.long 0x00 "VPE_PERF_MON27,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 24.--26. "       STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 16.--18. "           START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x270++0x3
line.long 0x00 "VPE_PERF_MON28,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 24.--26. "       STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 16.--18. "           START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x274++0x3
line.long 0x00 "VPE_PERF_MON29,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 24.--26. "       STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 16.--18. "           START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x278++0x3
line.long 0x00 "VPE_PERF_MON30,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 24.--26. "       STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 16.--18. "           START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x27C++0x3
line.long 0x00 "VPE_PERF_MON31,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 24.--26. "       STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 16.--18. "           START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x280++0x3
line.long 0x00 "VPE_PERF_MON32,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 24.--26. "       STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 16.--18. "           START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x284++0x3
line.long 0x00 "VPE_PERF_MON33,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 24.--26. "       STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 16.--18. "           START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x288++0x3
line.long 0x00 "VPE_PERF_MON34,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,vip1_up_y"
bitfld.long 0x00 24.--26. "       STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,vip1_up_y"
bitfld.long 0x00 16.--18. "           START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x28C++0x3
line.long 0x00 "VPE_PERF_MON35,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,vip1_up_y,vip1_up_uv"
bitfld.long 0x00 24.--26. "       STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "UNKN_MNEMO,UNKN_MNEMO,vip1_up_y,vip1_up_uv"
bitfld.long 0x00 16.--18. "           START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x290++0x3
line.long 0x00 "VPE_PERF_MON36,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "vip1_up_uv,vip1_up_y,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 24.--26. "       STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "vip1_up_uv,vip1_up_y,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 16.--18. "           START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x294++0x3
line.long 0x00 "VPE_PERF_MON37,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "vip1_up_uv,vip1_up_y,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 24.--26. "       STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "vip1_up_uv,vip1_up_y,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 16.--18. "           START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x298++0x3
line.long 0x00 "VPE_PERF_MON38,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "vip1_up_uv,vip1_up_y,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 24.--26. "       STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "vip1_up_uv,vip1_up_y,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 16.--18. "           START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x29C++0x3
line.long 0x00 "VPE_PERF_MON39,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Min..." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter." "0,1,2,3"
bitfld.long 0x00 24.--26. "                STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter." "0,1,2,3"
bitfld.long 0x00 16.--18. "                    START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2A0++0x3
line.long 0x00 "VPE_PERF_MON40,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Min..." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter." "0,1,2,3"
bitfld.long 0x00 24.--26. "                STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter." "0,1,2,3"
bitfld.long 0x00 16.--18. "                    START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2A4++0x3
line.long 0x00 "VPE_PERF_MON41,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Min..." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter." "0,1,2,3"
bitfld.long 0x00 24.--26. "                STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter." "0,1,2,3"
bitfld.long 0x00 16.--18. "                    START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2A8++0x3
line.long 0x00 "VPE_PERF_MON42,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Min..." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter." "0,1,2,3"
bitfld.long 0x00 24.--26. "                STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter." "0,1,2,3"
bitfld.long 0x00 16.--18. "                    START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2AC++0x3
line.long 0x00 "VPE_PERF_MON43,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Min..." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter." "0,1,2,3"
bitfld.long 0x00 24.--26. "                STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter." "0,1,2,3"
bitfld.long 0x00 16.--18. "                    START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2B0++0x3
line.long 0x00 "VPE_PERF_MON44,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Min..." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter." "0,1,2,3"
bitfld.long 0x00 24.--26. "                STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter." "0,1,2,3"
bitfld.long 0x00 16.--18. "                    START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2B4++0x3
line.long 0x00 "VPE_PERF_MON45,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Min..." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter." "0,1,2,3"
bitfld.long 0x00 24.--26. "                STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter." "0,1,2,3"
bitfld.long 0x00 16.--18. "                    START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2B8++0x3
line.long 0x00 "VPE_PERF_MON46,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Min..." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter." "0,1,2,3"
bitfld.long 0x00 24.--26. "                STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter." "0,1,2,3"
bitfld.long 0x00 16.--18. "                    START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2BC++0x3
line.long 0x00 "VPE_PERF_MON47,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Min..." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter." "0,1,2,3"
bitfld.long 0x00 24.--26. "                STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter." "0,1,2,3"
bitfld.long 0x00 16.--18. "                    START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2C0++0x3
line.long 0x00 "VPE_PERF_MON48,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Min..." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter." "0,1,2,3"
bitfld.long 0x00 24.--26. "                STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter." "0,1,2,3"
bitfld.long 0x00 16.--18. "                    START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2C4++0x3
line.long 0x00 "VPE_PERF_MON49,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. 0: Running Average 1: Min..." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter." "0,1,2,3"
bitfld.long 0x00 24.--26. "                STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter." "0,1,2,3"
bitfld.long 0x00 16.--18. "                    START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2C8++0x3
line.long 0x00 "VPE_PERF_MON50,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "vpi_ctl,vpi_ctl,vpi_ctl,vpi_ctl"
bitfld.long 0x00 24.--26. "          STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "vpi_ctl,vpi_ctl,vpi_ctl,vpi_ctl"
bitfld.long 0x00 16.--18. "              START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2CC++0x3
line.long 0x00 "VPE_PERF_MON51,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "vpi_ctl,dei_hq_1_chroma,dei_hq_1_chroma,dei_hq_1_luma"
bitfld.long 0x00 24.--26. "  STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "vpi_ctl,dei_hq_1_chroma,dei_hq_1_chroma,dei_hq_1_luma"
bitfld.long 0x00 16.--18. "      START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x2D0++0x3
line.long 0x00 "VPE_PERF_MON52,The register can be used to capture timing differences between events in the VPDMA"
bitfld.long 0x00 30.--31. " CAPTURE_MODE                                                                                                       ,Sets how the counter should be updated. Updating this value will also clear the current counter stored value. - . - . - . - ." "Running_Average,Minimum_Value,Maximum_Value,Last_Value"
bitfld.long 0x00 28.--29. "      STOP_CLIENT                       ,Sets the client whose event stops the performance monitor counter. - . - . - . - ." "vpi_ctl,dei_hq_1_chroma,dei_hq_1_chroma,dei_hq_1_luma"
bitfld.long 0x00 24.--26. "  STOP_COUNT                        ,Sets the value that stops the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
textline "                                     "
bitfld.long 0x00 20.--21. " START_CLIENT                                                                                                       ,Sets the client whose event starts the performance monitor counter. - . - . - . - ." "vpi_ctl,dei_hq_1_chroma,dei_hq_1_chroma,dei_hq_1_luma"
bitfld.long 0x00 16.--18. "      START_COUNT                       ,Sets the value that starts the performance monitor counter. - . - . - . - . - . - . - . - ." "command_request,command_accept,data_request,data_rcvd,data_empty,data_full,frame_start,frame_end"
hexmask.long.word 0x00 0.--15. 1. "  CURR_COUNT                        ,The current value of the perfomance monitor counter"
group.long 0x300++0x3
line.long 0x00 "VPE_PRI_CHROMA_CSTAT,The register holds status information and control for the client."
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                                                                                                          ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..Th..."
hexmask.long.byte 0x00 16.--23. 1. "                   REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal cou..."
bitfld.long 0x00 15. "               BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                                                                                                         ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "                    FRAME_START                       ,The source of the start frame event for the client. - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--9. "               LINE_MODE                         ,Selects the output mode of the line buffer. - . - . - . - ." "0,1,2,3"
group.long 0x304++0x3
line.long 0x00 "VPE_PRI_LUMA_CSTAT,The register holds status information and control for the client."
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                                                                                                          ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..Th..."
hexmask.long.byte 0x00 16.--23. 1. "                   REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal cou..."
bitfld.long 0x00 15. "               BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                                                                                                         ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "                    FRAME_START                       ,The source of the start frame event for the client. - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x308++0x3
line.long 0x00 "VPE_PRI_FLD1_LUMA_CSTAT,The register holds status information and control for the client."
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                                                                                                          ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..Th..."
hexmask.long.byte 0x00 16.--23. 1. "                   REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal cou..."
bitfld.long 0x00 15. "               BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                                                                                                         ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "                    FRAME_START                       ,The source of the start frame event for the client. - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x30C++0x3
line.long 0x00 "VPE_PRI_FLD1_CHROMA_CSTAT,The register holds status information and control for the client."
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                                                                                                          ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..Th..."
hexmask.long.byte 0x00 16.--23. 1. "                   REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal cou..."
bitfld.long 0x00 15. "               BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                                                                                                         ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "                    FRAME_START                       ,The source of the start frame event for the client. - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--9. "               LINE_MODE                         ,Selects the output mode of the line buffer. - . - . - . - ." "0,1,2,3"
textline "                                     "
hexmask.long.byte 0x00 0.--7. 1. " 3:_each_line_once_only_on_one_line._Each_data_line_gets_number_of_frame_lines_divided_by_number_of_buffered_lines. ,"
group.long 0x310++0x3
line.long 0x00 "VPE_PRI_FLD2_LUMA_CSTAT,The register holds status information and control for the client."
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                                                                                                          ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..Th..."
hexmask.long.byte 0x00 16.--23. 1. "                   REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal cou..."
bitfld.long 0x00 15. "               BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                                                                                                         ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "                    FRAME_START                       ,The source of the start frame event for the client. - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x314++0x3
line.long 0x00 "VPE_PRI_FLD2_CHROMA_CSTAT,The register holds status information and control for the client."
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                                                                                                          ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..Th..."
hexmask.long.byte 0x00 16.--23. 1. "                   REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal cou..."
bitfld.long 0x00 15. "               BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                                                                                                         ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "                    FRAME_START                       ,The source of the start frame event for the client. - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--9. "               LINE_MODE                         ,Selects the output mode of the line buffer. - . - . - . - ." "0,1,2,3"
group.long 0x330++0x3
line.long 0x00 "VPE_PRI_MV0_CSTAT,The register holds status information and control for the client."
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                                                                                                          ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..Th..."
hexmask.long.byte 0x00 16.--23. 1. "                   REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal cou..."
bitfld.long 0x00 15. "               BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                                                                                                         ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "                    FRAME_START                       ,The source of the start frame event for the client. - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x33C++0x3
line.long 0x00 "VPE_PRI_MV_OUT_CSTAT,The register holds status information and control for the client."
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                                                                                                          ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles.Thi..."
hexmask.long.byte 0x00 16.--23. 1. "                   REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal cou..."
bitfld.long 0x00 15. "               BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                                                                                                         ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "                    FRAME_START                       ,The source of the start frame event for the client. - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x390++0x3
line.long 0x00 "VPE_VIP0_UP_Y_CSTAT,The register holds status information and control for the client."
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                                                                                                          ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..Th..."
hexmask.long.byte 0x00 16.--23. 1. "                   REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal cou..."
bitfld.long 0x00 15. "               BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                                                                                                         ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "                    FRAME_START                       ,The source of the start frame event for the client - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x394++0x3
line.long 0x00 "VPE_VIP0_UP_UV_CSTAT,The register holds status information and control for the client."
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                                                                                                          ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..Th..."
hexmask.long.byte 0x00 16.--23. 1. "                   REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal cou..."
bitfld.long 0x00 15. "               BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                                                                                                         ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "                    FRAME_START                       ,The source of the start frame event for the client. - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x3D0++0x3
line.long 0x00 "VPE_VPI_CTL_CSTAT,The register holds status information and control for the client."
hexmask.long.byte 0x00 24.--31. 1. " REQ_DELAY                                                                                                          ,The minimum number of clock cycles between requests being issued. This value is multiplied by 32 to get the actual number of cycles..Th..."
hexmask.long.byte 0x00 16.--23. 1. "                   REQ_RATE                          ,The number of clock cycles between the last two requests issued. This value is multiplied by 32 to get the actual number of cycles.This value is only accurate for the current frame. The internal cou..."
bitfld.long 0x00 15. "               BUSY                              ,Signals if the client is currently active. This bit is set as soon as we the channel is received by the client from the list manager and is cleared when the channel is cleared from the shared memory." "0,1"
textline "                                     "
bitfld.long 0x00 14. " DMA_ACTIVE                                                                                                         ,Signals if the client is currently actively sending DMA requests" "0,1"
bitfld.long 0x00 10.--13. "                    FRAME_START                       ,The source of the start frame event for the client. - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree.end
tree.open "Display_Subsystem_Overview"
tree "HDMI_WP_L3_MAIN"
base ad:0x58040000
width 18.
group.long 0x40++0x3
line.long 0x00 "HDMI_WP_PWR_CTRL,Power control"
bitfld.long 0x00 2.--3. " PLL_PWR_CMD ,Command for power control of the HDMI PLL Control module - STATE_OFF. - STATE_ON_HSCLK. - STATE_ON_DIV. - STATE_ON_ALL." "STATE_OFF,STATE_ON_HSCLK,STATE_ON_ALL,STATE_ON_DIV"
bitfld.long 0x00 0.--1. "  PLL_PWR_STATUS ,Status of the power control of the HDMI PLL Control module - STATE_OFF. - STATE_ON_HSCLK. - STATE_ON_DIV. - STATE_ON_ALL." "STATE_OFF,STATE_ON_HSCLK,STATE_ON_ALL,STATE_ON_DIV"
group.long 0x70++0x3
line.long 0x00 "HDMI_WP_CLK,Configuration of clocks"
bitfld.long 0x00 8.--10. " SCP_PWR_DIV ,Defines the divisor value to be used for the generation of the SCP_PWR clock (up to 66.5MHz) from the input interface clock (up to 266MHz). 0x0 means gated 0x1 means free-running The valid values are from 0 to 7. In case of interface acce..." "0,1,2,3,4,5,6,7"
width 0x0B
tree.end
tree.open "DPLL_HDMI_L4_CFG"
tree "DPLL_HDMI_L4_CFG"
base ad:0x4A0A6000
width 33.
group.long 0x0++0x3
line.long 0x00 "PLLCTRL_HDMI_CONTROL,This register controls the PLL reset/power and modes"
bitfld.long 0x00 4. " HSDIV_SYSRESETN ,Force HSDIVIDER SYSRESETN. - HSDIV_SYSRST_ACT. - HSDIV_OP." "HSDIV_SYSRST_ACT,HSDIV_OP"
bitfld.long 0x00 3. "    PLL_SYSRESETN      ,Force SYSRESETN. - PLL_SYSRST_ACT. - PLL_OP." "PLL_SYSRST_ACT,PLL_OP"
rgroup.long 0x4++0x3
line.long 0x00 "PLLCTRL_HDMI_STATUS,This register contains the status information"
bitfld.long 0x00 12. " SSC_EN_ACK      ,Spread Spectrum Clocking acknowledge - SSC_INACT. - SSC_INACT. Note: SSC feature is not supported. - SSC_ACT." "SSC_INACT,SSC_INACT"
bitfld.long 0x00 9. "           BYPASSACKZ_MERGED  ,Merged state of bypass mode on HDMI_PHY - BYPASS_ACK. - BYPASS_NAK." "BYPASS_ACK,BYPASS_NAK"
bitfld.long 0x00 6. "       PLL_BYPASS       ,DPLL_HDMI Bypass status - BYPASS_IN. - BYPASS_ACT." "BYPASS_IN,BYPASS_ACT"
textline "                                          "
bitfld.long 0x00 5. " PLL_HIGHJITTER  ,DPLL_HDMI High Jitter status - NORMAL_JITTER. - HIGH_JIITTER." "NORMAL_JITTER,HIGH_JIITTER"
bitfld.long 0x00 3. "       PLL_LOSSREF        ,DPLL_HDMI Reference Loss status - REF_INP_ACT. - REF_INP_INACT." "REF_INP_ACT,REF_INP_INACT"
bitfld.long 0x00 2. "    PLL_RECAL        ,DPLL_HDMI re-calibration status If this bit is active, the DPLL_HDMI needs to be re-calibrated - RECAL_NOT_REQUIRED. - RECAL_REQUIRED." "RECAL_NOT_REQUIRED,RECAL_REQUIRED"
textline "                                          "
bitfld.long 0x00 1. " PLL_LOCK        ,DPLL_HDMI Lock status See the programming guide for the use of this bit - DSI_PLL_NOLOCK. - DSI_PLL_LOCK." "DSI_PLL_NOLOCK,DSI_PLL_LOCK"
bitfld.long 0x00 0. "      PLLCTRL_RESET_DONE ,DPLL_HDMI reset done status - NOTRD. - RDONE." "NOTRD,RDONE"
group.long 0x8++0x3
line.long 0x00 "PLLCTRL_HDMI_GO,This register contains the GO bit"
bitfld.long 0x00 0. " PLL_GO          ,Request (re-)locking sequence of the DPLL_HDMI. If the AutoMode bit is set, then this will be deferred until DISPC Update Sync goes active - DONE. - GO." "DONE,GO"
group.long 0xC++0x3
line.long 0x00 "PLLCTRL_HDMI_CONFIGURATION1,This register contains the latched PLL and HSDIVDER configuration bits"
hexmask.long.word 0x00 9.--20. 1. " PLL_REGM        ,M Divider for DPLL_HDMI"
hexmask.long.byte 0x00 1.--8. 1. "                PLL_REGN           ,N Divider for DPLL_HDMI (Reference)"
group.long 0x10++0x3
line.long 0x00 "PLLCTRL_HDMI_CONFIGURATION2,This register contains the unlatched PLL and HSDIVDER configuration bits These bits are 'shadowed' when automatic mode is selected"
bitfld.long 0x00 21.--22. " REFSEL          ,Selects the reference clock with optional divide by 2 - REF_PCLK. - REF_1. - REF_SYSCLK. - REF_2." "REF_PCLK,REF_1,REF_2,REF_SYSCLK"
bitfld.long 0x00 20. "          HSDIVBYPASS        ,Forces HSDIVIDER to bypass mode - HSDIV_NORMAL. - HSDIV_FORCE_BYP." "HSDIV_NORMAL,HSDIV_FORCE_BYP"
bitfld.long 0x00 15. "  BYPASSEN         ,Selects sub-system functional clock as PHY clock source - CLK_PLL. - CLK_BYPASS." "CLK_PLL,CLK_BYPASS"
textline "                                          "
bitfld.long 0x00 14. " PHY_CLKINEN     ,PHY clock control - PHY_CLK_DIS. - PHY_CLK_EN." "PHY_CLK_DIS,PHY_CLK_EN"
bitfld.long 0x00 13. "         PLL_REFEN          ,DPLL_HDMI reference clock control - REF_DIS. - REF_EN." "REF_DIS,REF_EN"
bitfld.long 0x00 12. "          PLL_HIGHFREQ     ,Enables a division of pixel clock by 2 before input to the DPLL_HDMI Required for pixel clock frequencies above 32 MHz (21 MHZ if N = 0) - DIV_BY_1. - DIV_BY_2." "DIV_BY_1,DIV_BY_2"
textline "                                          "
bitfld.long 0x00 11. " PLL_CLKSEL      ,Reference clock selection - SYSCLK_REF. - PCLK_REF." "SYSCLK_REF,PCLK_REF"
bitfld.long 0x00 9.--10. "          PLL_LOCKSEL        ,Selects the lock criteria for the DPLL_HDMI - PHASELOCK. - FREQLOCK. - SPARE." "PHASELOCK,FREQLOCK,SPARE,3"
bitfld.long 0x00 8. "        PLL_DRIFTGUARDEN ,DPLL_HDMI DRIFTGUARDEN - DRIFT_GUARD_DIS. - DRIFT_GUARD_EN." "DRIFT_GUARD_DIS,DRIFT_GUARD_EN"
textline "                                          "
bitfld.long 0x00 6. " PLL_LOWCURRSTBY ,DPLL_HDMI LOW CURRENT STANDBY - LOWCURRSTBY_NOTSEL. - LOWCURRSTBY_SEL." "LOWCURRSTBY_NOTSEL,LOWCURRSTBY_SEL"
bitfld.long 0x00 5. "  PLL_PLLLPMODE      ,Select the power / performance of the DPLL_HDMI - FULL_PERF. - REDUCE_PERF." "FULL_PERF,REDUCE_PERF"
bitfld.long 0x00 1.--3. "      PLL_SELFREQDCO   ,DCO frequency range selector for DPLL_HDMI - . - . Others: Reserved. - ." "0,1,2,3,4,5,6,7"
textline "                                          "
bitfld.long 0x00 0. " PLL_IDLE        ,DPLL_HDMI IDLE: - IDLE_NOTSEL. - IDLE_SEL." "IDLE_NOTSEL,IDLE_SEL"
group.long 0x14++0x3
line.long 0x00 "PLLCTRL_HDMI_CONFIGURATION3,HSDIVIDER configuration bits for the M5 and M6 dividers"
hexmask.long.byte 0x00 10.--17. 1. " PLL_SD          ,Sigma delta divider setting for DPLL_HDMI based on the DPLL_HDMI lock configuration."
group.long 0x18++0x3
line.long 0x00 "PLLCTRL_HDMI_SSC_CONFIGURATION1,Configuration for PLL Spread Spectrum Clocking modulation. Note: SSC feature is not supported."
bitfld.long 0x00 2. " DOWNSPREAD      ,Forces the clock spreading only in the down spectrum. - NOTFORCED. - FORCEDOWN." "NOTFORCED,FORCEDOWN"
bitfld.long 0x00 0. "           EN_SSC             ,Spread Spectrum Clocking enable - SSC_OFF. - SSC_ON." "SSC_OFF,SSC_ON"
group.long 0x1C++0x3
line.long 0x00 "PLLCTRL_HDMI_SSC_CONFIGURATION2,Note: SSC feature is not supported."
bitfld.long 0x00 30. " DELTAM2         ,MSB of DeltaM control bus." "0,1"
hexmask.long.word 0x00 20.--29. 1. "                   MODFREQDIVIDER     ,Modulation Frequency Divider (ModFreqDivider) control for dithering.The ModFreqDivider is split into Mantissa and 2(ModFreqDivider = ModFreqDividerMantissa * 2).Bits [29:23] define the Mantissa. - . Bits [22:20] d..."
hexmask.long.tbyte 0x00 0.--19. 1. "             DELTAM           ,DeltaM control for dithering. Split into integer and fractional part.Bits [19:18] define the integer part. - . Bits [17:0] define the fractional part. - ."
group.long 0x20++0x3
line.long 0x00 "PLLCTRL_HDMI_CONFIGURATION4,Allows setting the fractional M divider and M2 divider for PLL."
hexmask.long.byte 0x00 18.--24. 1. " PLL_REGM2       ,M2 divider to configure DPLL_HDMI M2 divider factor."
hexmask.long.tbyte 0x00 0.--17. 1. "                  PLL_REGM_F         ,Fractional part of M divider."
width 0x0B
tree.end
tree "DPLL_HDMI_L3_MAIN"
base ad:0x58040200
width 33.
group.long 0x0++0x3
line.long 0x00 "PLLCTRL_HDMI_CONTROL,This register controls the PLL reset/power and modes"
bitfld.long 0x00 4. " HSDIV_SYSRESETN ,Force HSDIVIDER SYSRESETN. - HSDIV_SYSRST_ACT. - HSDIV_OP." "HSDIV_SYSRST_ACT,HSDIV_OP"
bitfld.long 0x00 3. "    PLL_SYSRESETN      ,Force SYSRESETN. - PLL_SYSRST_ACT. - PLL_OP." "PLL_SYSRST_ACT,PLL_OP"
rgroup.long 0x4++0x3
line.long 0x00 "PLLCTRL_HDMI_STATUS,This register contains the status information"
bitfld.long 0x00 12. " SSC_EN_ACK      ,Spread Spectrum Clocking acknowledge - SSC_INACT. - SSC_INACT. Note: SSC feature is not supported. - SSC_ACT." "SSC_INACT,SSC_INACT"
bitfld.long 0x00 9. "           BYPASSACKZ_MERGED  ,Merged state of bypass mode on HDMI_PHY - BYPASS_ACK. - BYPASS_NAK." "BYPASS_ACK,BYPASS_NAK"
bitfld.long 0x00 6. "       PLL_BYPASS       ,DPLL_HDMI Bypass status - BYPASS_IN. - BYPASS_ACT." "BYPASS_IN,BYPASS_ACT"
textline "                                          "
bitfld.long 0x00 5. " PLL_HIGHJITTER  ,DPLL_HDMI High Jitter status - NORMAL_JITTER. - HIGH_JIITTER." "NORMAL_JITTER,HIGH_JIITTER"
bitfld.long 0x00 3. "       PLL_LOSSREF        ,DPLL_HDMI Reference Loss status - REF_INP_ACT. - REF_INP_INACT." "REF_INP_ACT,REF_INP_INACT"
bitfld.long 0x00 2. "    PLL_RECAL        ,DPLL_HDMI re-calibration status If this bit is active, the DPLL_HDMI needs to be re-calibrated - RECAL_NOT_REQUIRED. - RECAL_REQUIRED." "RECAL_NOT_REQUIRED,RECAL_REQUIRED"
textline "                                          "
bitfld.long 0x00 1. " PLL_LOCK        ,DPLL_HDMI Lock status See the programming guide for the use of this bit - DSI_PLL_NOLOCK. - DSI_PLL_LOCK." "DSI_PLL_NOLOCK,DSI_PLL_LOCK"
bitfld.long 0x00 0. "      PLLCTRL_RESET_DONE ,DPLL_HDMI reset done status - NOTRD. - RDONE." "NOTRD,RDONE"
group.long 0x8++0x3
line.long 0x00 "PLLCTRL_HDMI_GO,This register contains the GO bit"
bitfld.long 0x00 0. " PLL_GO          ,Request (re-)locking sequence of the DPLL_HDMI. If the AutoMode bit is set, then this will be deferred until DISPC Update Sync goes active - DONE. - GO." "DONE,GO"
group.long 0xC++0x3
line.long 0x00 "PLLCTRL_HDMI_CONFIGURATION1,This register contains the latched PLL and HSDIVDER configuration bits"
hexmask.long.word 0x00 9.--20. 1. " PLL_REGM        ,M Divider for DPLL_HDMI"
hexmask.long.byte 0x00 1.--8. 1. "                PLL_REGN           ,N Divider for DPLL_HDMI (Reference)"
group.long 0x10++0x3
line.long 0x00 "PLLCTRL_HDMI_CONFIGURATION2,This register contains the unlatched PLL and HSDIVDER configuration bits These bits are 'shadowed' when automatic mode is selected"
bitfld.long 0x00 21.--22. " REFSEL          ,Selects the reference clock with optional divide by 2 - REF_PCLK. - REF_1. - REF_SYSCLK. - REF_2." "REF_PCLK,REF_1,REF_2,REF_SYSCLK"
bitfld.long 0x00 20. "          HSDIVBYPASS        ,Forces HSDIVIDER to bypass mode - HSDIV_NORMAL. - HSDIV_FORCE_BYP." "HSDIV_NORMAL,HSDIV_FORCE_BYP"
bitfld.long 0x00 15. "  BYPASSEN         ,Selects sub-system functional clock as PHY clock source - CLK_PLL. - CLK_BYPASS." "CLK_PLL,CLK_BYPASS"
textline "                                          "
bitfld.long 0x00 14. " PHY_CLKINEN     ,PHY clock control - PHY_CLK_DIS. - PHY_CLK_EN." "PHY_CLK_DIS,PHY_CLK_EN"
bitfld.long 0x00 13. "         PLL_REFEN          ,DPLL_HDMI reference clock control - REF_DIS. - REF_EN." "REF_DIS,REF_EN"
bitfld.long 0x00 12. "          PLL_HIGHFREQ     ,Enables a division of pixel clock by 2 before input to the DPLL_HDMI Required for pixel clock frequencies above 32 MHz (21 MHZ if N = 0) - DIV_BY_1. - DIV_BY_2." "DIV_BY_1,DIV_BY_2"
textline "                                          "
bitfld.long 0x00 11. " PLL_CLKSEL      ,Reference clock selection - SYSCLK_REF. - PCLK_REF." "SYSCLK_REF,PCLK_REF"
bitfld.long 0x00 9.--10. "          PLL_LOCKSEL        ,Selects the lock criteria for the DPLL_HDMI - PHASELOCK. - FREQLOCK. - SPARE." "PHASELOCK,FREQLOCK,SPARE,3"
bitfld.long 0x00 8. "        PLL_DRIFTGUARDEN ,DPLL_HDMI DRIFTGUARDEN - DRIFT_GUARD_DIS. - DRIFT_GUARD_EN." "DRIFT_GUARD_DIS,DRIFT_GUARD_EN"
textline "                                          "
bitfld.long 0x00 6. " PLL_LOWCURRSTBY ,DPLL_HDMI LOW CURRENT STANDBY - LOWCURRSTBY_NOTSEL. - LOWCURRSTBY_SEL." "LOWCURRSTBY_NOTSEL,LOWCURRSTBY_SEL"
bitfld.long 0x00 5. "  PLL_PLLLPMODE      ,Select the power / performance of the DPLL_HDMI - FULL_PERF. - REDUCE_PERF." "FULL_PERF,REDUCE_PERF"
bitfld.long 0x00 1.--3. "      PLL_SELFREQDCO   ,DCO frequency range selector for DPLL_HDMI - . - . Others: Reserved. - ." "0,1,2,3,4,5,6,7"
textline "                                          "
bitfld.long 0x00 0. " PLL_IDLE        ,DPLL_HDMI IDLE: - IDLE_NOTSEL. - IDLE_SEL." "IDLE_NOTSEL,IDLE_SEL"
group.long 0x14++0x3
line.long 0x00 "PLLCTRL_HDMI_CONFIGURATION3,HSDIVIDER configuration bits for the M5 and M6 dividers"
hexmask.long.byte 0x00 10.--17. 1. " PLL_SD          ,Sigma delta divider setting for DPLL_HDMI based on the DPLL_HDMI lock configuration."
group.long 0x18++0x3
line.long 0x00 "PLLCTRL_HDMI_SSC_CONFIGURATION1,Configuration for PLL Spread Spectrum Clocking modulation. Note: SSC feature is not supported."
bitfld.long 0x00 2. " DOWNSPREAD      ,Forces the clock spreading only in the down spectrum. - NOTFORCED. - FORCEDOWN." "NOTFORCED,FORCEDOWN"
bitfld.long 0x00 0. "           EN_SSC             ,Spread Spectrum Clocking enable - SSC_OFF. - SSC_ON." "SSC_OFF,SSC_ON"
group.long 0x1C++0x3
line.long 0x00 "PLLCTRL_HDMI_SSC_CONFIGURATION2,Note: SSC feature is not supported."
bitfld.long 0x00 30. " DELTAM2         ,MSB of DeltaM control bus." "0,1"
hexmask.long.word 0x00 20.--29. 1. "                   MODFREQDIVIDER     ,Modulation Frequency Divider (ModFreqDivider) control for dithering.The ModFreqDivider is split into Mantissa and 2(ModFreqDivider = ModFreqDividerMantissa * 2).Bits [29:23] define the Mantissa. - . Bits [22:20] d..."
hexmask.long.tbyte 0x00 0.--19. 1. "             DELTAM           ,DeltaM control for dithering. Split into integer and fractional part.Bits [19:18] define the integer part. - . Bits [17:0] define the fractional part. - ."
group.long 0x20++0x3
line.long 0x00 "PLLCTRL_HDMI_CONFIGURATION4,Allows setting the fractional M divider and M2 divider for PLL."
hexmask.long.byte 0x00 18.--24. 1. " PLL_REGM2       ,M2 divider to configure DPLL_HDMI M2 divider factor."
hexmask.long.tbyte 0x00 0.--17. 1. "                  PLL_REGM_F         ,Fractional part of M divider."
width 0x0B
tree.end
tree.end
tree.open "DPLL_VIDEO1_L4_CFG"
tree "DPLL_VIDEO1_L4_CFG"
base ad:0x4A0A4000
width 24.
group.long 0x0++0x3
line.long 0x00 "PLL_CONTROL,This register controls the PLL reset/power and modes"
bitfld.long 0x00 4. " HSDIV_SYSRESET    ,Force HSDIVIDER SYSRESETN. Reserved when DBGSSV is 1. - . - ." "HSDIV_Op,HSDIV_SysRst_Act"
bitfld.long 0x00 3. "    PLL_SYSRESET       ,Force DPLL SYSRESETN. Reserved when DBGSSV is 1. - . - ." "PLL_Op,PLL_SysRst_Act"
bitfld.long 0x00 2. "  PLL_HALTMODE     ,Allow PLL to be halted if no activity. Reserved when PLLCTRL_AUTO is 0. - . - ." "PLL_Run,PLL_Halt"
textline "                                 "
bitfld.long 0x00 1. " PLL_GATEMODE      ,Allow PLL clock gating for power saving Reserved when PLLCTRL_AUTO is 0. - . - ." "DSIPHY_Clk_Act,DSIPHY_Clk_Gate"
bitfld.long 0x00 0. "     PLL_AUTOMODE       ,Automatic update mode. If this bit is set then the configuration updates will be synchronized to DISPCUpdateSync. If this bit is clear configuration updates will be done immediately. Reserved when PLLCTRL_AUTO is 0. - . - ." "Man_Mode,Auto_Mode"
rgroup.long 0x4++0x3
line.long 0x00 "PLL_STATUS,This register contains the status information"
bitfld.long 0x00 16. " PLL_TICOPWDN      ,PLL TICOPWDN status. - Ticopwdn_high. - Ticopwdn_low." "Ticopwdn_low,Ticopwdn_high"
bitfld.long 0x00 15. "       PLL_LDOPWDN        ,PLL LDOPWDN status. - Ldopwdn_high. - Ldopwdn_low." "Ldopwdn_low,Ldopwdn_high"
bitfld.long 0x00 13.--14. "    BYPASSACKZ       ,State of bypass mode on PHY and HSDIVIDER. The status is shown separately for each source. - Bypass_Nak. - Bypass_Ack." "Bypass_Ack,Bypass_Nak,2,3"
textline "                                 "
bitfld.long 0x00 12. " SSC_EN_ACK        ,Spread Spectrum Clocking acknowledge - SSC_act. - SSC_act. Note: SSC feature is not supported.. - SSC_inact." "SSC_act,SSC_act"
bitfld.long 0x00 11. "             M7_CLOCK_ACK       ,Acknowledge for enable of sub-system clock Verify the status before selecting this source in the sub-system clock mux - . - ." "M7_Clk_Inact,M7_Clk_Act"
bitfld.long 0x00 10. "    M6_CLOCK_ACK     ,Acknowledge for enable of sub-system clock Verify the status before selecting this source in the sub-system clock mux - M6_Clk_Act. - M6_Clk_Inact." "M6_Clk_Inact,M6_Clk_Act"
textline "                                 "
bitfld.long 0x00 9. " BYPASSACKZ_MERGED ,Merged state of bypass mode on PHY and HSDIVIDER - Bypass_Nak. - Bypass_Ack." "Bypass_Ack,Bypass_Nak"
bitfld.long 0x00 7. "          M4_CLOCK_ACK       ,Acknowledge for enable of sub-system clock Verify the status before selecting this source in the sub-system clock mux - M4_Clk_Act. - M4_Clk_Inact." "M4_Clk_Inact,M4_Clk_Act"
bitfld.long 0x00 6. "    PLL_BYPASS       ,PLL Bypass status - Bypass_Act. - Bypass_In." "Bypass_In,Bypass_Act"
textline "                                 "
bitfld.long 0x00 5. " PLL_HIGHJITTER    ,PLL High Jitter status - High_Jiitter. - Normal_Jitter." "Normal_Jitter,High_Jiitter"
bitfld.long 0x00 3. "       PLL_LOSSREF        ,PLL Reference Loss status - Ref_Inp_Inact. - Ref_Inp_Act." "Ref_Inp_Act,Ref_Inp_Inact"
bitfld.long 0x00 2. "   PLL_RECAL        ,PLL re-calibration status If this bit is active, the PLL needs to be re-calibrated - Recal_required. - Recal_not_required." "Recal_not_required,Recal_required"
textline "                                 "
bitfld.long 0x00 1. " PLL_LOCK          ,PLL Lock status See the programming guide for the use of this bit - DSI_PLL_Lock. - DSI_PLL_NoLock." "DSI_PLL_NoLock,DSI_PLL_Lock"
bitfld.long 0x00 0. "      PLLCTRL_RESET_DONE ,PLLCTRL reset done status - RDone. - NotRD." "NotRD,RDone"
group.long 0x8++0x3
line.long 0x00 "PLL_GO,This register contains the GO bit"
bitfld.long 0x00 1. " HSDIVLOAD         ,In manual mode start HSDIVIDER update sequence." "0,1"
bitfld.long 0x00 0. "                   PLL_GO             ,Request (re-)locking sequence of the PLL. If the AutoMode bit is set, then this will be deferred until DISPCUpdate Sync goes active - . - ." "Done,Go"
group.long 0xC++0x3
line.long 0x00 "PLL_CONFIGURATION1,This register contains the latched PLL and HSDIVDER configuration bits"
bitfld.long 0x00 21.--25. " M4_CLOCK_DIV      ,Divider value for clock source M4REG Divider value = M4_CLOCK_DIV + 1" "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
hexmask.long.word 0x00 9.--20. 1. "          PLL_REGM           ,M Divider for PLL. Valid values range is from 1 to 2047. Values 2048 and above are reserved and must not be used. When the PLL_REGM bit field is set to 1, the PLL enters a MN-Bypass mode. The DCOCLK clock output goes low a..."
hexmask.long.byte 0x00 1.--8. 1. "            PLL_REGN         ,N Divider for PLL (Reference). Valid values range is from 0 to 127. Values 128 and above are reserved and must not be used."
group.long 0x10++0x3
line.long 0x00 "PLL_CONFIGURATION2,This register contains the unlatched PLL and HSDIVDER configuration bits These bits are 'shadowed' when automatic mode is selected"
bitfld.long 0x00 25. " M7_CLOCK_EN       ,Enable for M7 clock source - . - ." "M7_Clk_Dis,M7_Clk_En"
bitfld.long 0x00 23. "          M6_CLOCK_EN        ,Enable for M6 clock source - M6_Clk_Dis. - M6_Clk_En." "M6_Clk_Dis,M6_Clk_En"
bitfld.long 0x00 21.--22. "      REFSEL           ,Selects the reference clock with optional divide by 2 - Ref_PCLK. - Ref_1. - Ref_SYSCLK. - Ref_2." "Ref_PCLK,Ref_1,Ref_2,Ref_SYSCLK"
textline "                                 "
bitfld.long 0x00 20. " HSDIVBYPASS       ,Forces HSDIVIDER to bypass mode - HSDIV_Normal. - HSDIV_Force_Byp." "HSDIV_Normal,HSDIV_Force_Byp"
bitfld.long 0x00 16. "     M4_CLOCK_EN        ,Enable for M4 clock source - SS_Clk_Dis. - SS_Clk_En." "SS_Clk_Dis,SS_Clk_En"
bitfld.long 0x00 15. "      BYPASSEN         ,Selects sub-system functional clock as PHY clock source - Clk_PLL. - Clk_Bypass." "Clk_PLL,Clk_Bypass"
textline "                                 "
bitfld.long 0x00 14. " PHY_CLKINEN       ,PHY clock control - PHY_Clk_Dis. - PHY_Clk_En." "PHY_Clk_Dis,PHY_Clk_En"
bitfld.long 0x00 13. "         PLL_REFEN          ,PLL reference clock control - Ref_dis. - Ref_en." "Ref_dis,Ref_en"
bitfld.long 0x00 12. "         PLL_HIGHFREQ     ,Enables a division of pixel clock by 2 before input to the PLL Required for pixel clock frequencies above 32 MHz (21 MHZ if N = 0) - DIV_BY_1. - DIV_BY_2." "DIV_BY_1,DIV_BY_2"
textline "                                 "
bitfld.long 0x00 11. " PLL_CLKSEL        ,Reference clock selection - SYSCLK_Ref. - PCLK_Ref." "SYSCLK_Ref,PCLK_Ref"
bitfld.long 0x00 9.--10. "          PLL_LOCKSEL        ,Selects the lock criteria for the PLL - PHASELOCK. - FREQLOCK. - SPARE." "PHASELOCK,FREQLOCK,SPARE,3"
bitfld.long 0x00 8. "       PLL_DRIFTGUARDEN ,PLL DRIFTGUARDEN - Drift_Guard_Dis. - Drift_Guard_En." "Drift_Guard_Dis,Drift_Guard_En"
textline "                                 "
bitfld.long 0x00 6. " PLL_LOWCURRSTBY   ,PLL LOW CURRENT STANDBY - LOWCURRSTBY_notsel. - LOWCURRSTBY_sel." "LOWCURRSTBY_notsel,LOWCURRSTBY_sel"
bitfld.long 0x00 5. "  PLL_PLLLPMODE      ,Select the power / performance of the PLL - FULL_PERF. - REDUCE_PERF." "FULL_PERF,REDUCE_PERF"
bitfld.long 0x00 0. "     PLL_IDLE         ,PLL IDLE: - IDLE_notsel. - IDLE_sel." "IDLE_notsel,IDLE_sel"
group.long 0x14++0x3
line.long 0x00 "PLL_CONFIGURATION3,HSDIVIDER configuration bits for the M5 and M6 dividers"
bitfld.long 0x00 5.--9. " M7_CLOCK_DIV      ,Divider value for M7 divider. Divider value = M7_CLOCK_DIV + 1" "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 0.--4. "          M6_CLOCK_DIV       ,Divider value for M6 divider. Divider value = M6_CLOCK_DIV + 1" "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
group.long 0x18++0x3
line.long 0x00 "PLL_SSC_CONFIGURATION1,Configuration for PLL Spread Spectrum Clocking modulation. Note: SSC feature is not supported."
bitfld.long 0x00 2. " DOWNSPREAD        ,Forces the clock spreading only in the down spectrum. - . - ." "NotForced,ForceDown"
bitfld.long 0x00 0. "           EN_SSC             ,Spread Spectrum Clocking enable 0x0: Spread Spectrum Clocking disabled 0x1: Spread Spectrum Clocking enabled" "SSC_Off,SSC_On"
group.long 0x1C++0x3
line.long 0x00 "PLL_SSC_CONFIGURATION2,Configuration for PLL Spread Spectrum Clocking modulation. Note: SSC feature is not supported."
bitfld.long 0x00 30. " DELTAM2           ,MSB of DeltaM control bus." "0,1"
hexmask.long.word 0x00 20.--29. 1. "                   MODFREQDIVIDER     ,Modulation Frequency Divider (ModFreqDivider) control for SSC. The ModFreqDivider is split into Mantissa and 2^Exponent(ModFreqDivider = ModFreqDividerMantissa * 2^ModFreqDividerExponent). - Bits [29:23] define th..."
hexmask.long.tbyte 0x00 0.--19. 1. "            DELTAM           ,DeltaM control for SSC. Split into integer and fractional parts. - Bits [19:18] define the integer part. - Bits [17:0] define the fractional part."
group.long 0x20++0x3
line.long 0x00 "PLL_CONFIGURATION4,Allows setting the fractional M divider and M2 divider for PLL."
hexmask.long.byte 0x00 18.--24. 1. " PLL_REGM2         ,M2 divider to configure PLL REGM2. : In this device, M2 divider is hardcoded in HW at 31 (0x1F)."
hexmask.long.tbyte 0x00 0.--17. 1. "                  PLL_REGM_F         ,Fractional part of M divider. : The feature is not supported in this device."
width 0x0B
tree.end
tree "DPLL_VIDEO2_L4_CFG"
base ad:0x4A0A5000
width 24.
group.long 0x0++0x3
line.long 0x00 "PLL_CONTROL,This register controls the PLL reset/power and modes"
bitfld.long 0x00 4. " HSDIV_SYSRESET    ,Force HSDIVIDER SYSRESETN. Reserved when DBGSSV is 1. - . - ." "HSDIV_Op,HSDIV_SysRst_Act"
bitfld.long 0x00 3. "    PLL_SYSRESET       ,Force DPLL SYSRESETN. Reserved when DBGSSV is 1. - . - ." "PLL_Op,PLL_SysRst_Act"
bitfld.long 0x00 2. "  PLL_HALTMODE     ,Allow PLL to be halted if no activity. Reserved when PLLCTRL_AUTO is 0. - . - ." "PLL_Run,PLL_Halt"
textline "                                 "
bitfld.long 0x00 1. " PLL_GATEMODE      ,Allow PLL clock gating for power saving Reserved when PLLCTRL_AUTO is 0. - . - ." "DSIPHY_Clk_Act,DSIPHY_Clk_Gate"
bitfld.long 0x00 0. "     PLL_AUTOMODE       ,Automatic update mode. If this bit is set then the configuration updates will be synchronized to DISPCUpdateSync. If this bit is clear configuration updates will be done immediately. Reserved when PLLCTRL_AUTO is 0. - . - ." "Man_Mode,Auto_Mode"
rgroup.long 0x4++0x3
line.long 0x00 "PLL_STATUS,This register contains the status information"
bitfld.long 0x00 16. " PLL_TICOPWDN      ,PLL TICOPWDN status. - Ticopwdn_high. - Ticopwdn_low." "Ticopwdn_low,Ticopwdn_high"
bitfld.long 0x00 15. "       PLL_LDOPWDN        ,PLL LDOPWDN status. - Ldopwdn_high. - Ldopwdn_low." "Ldopwdn_low,Ldopwdn_high"
bitfld.long 0x00 13.--14. "    BYPASSACKZ       ,State of bypass mode on PHY and HSDIVIDER. The status is shown separately for each source. - Bypass_Nak. - Bypass_Ack." "Bypass_Ack,Bypass_Nak,2,3"
textline "                                 "
bitfld.long 0x00 12. " SSC_EN_ACK        ,Spread Spectrum Clocking acknowledge - SSC_act. - SSC_act. Note: SSC feature is not supported.. - SSC_inact." "SSC_act,SSC_act"
bitfld.long 0x00 11. "             M7_CLOCK_ACK       ,Acknowledge for enable of sub-system clock Verify the status before selecting this source in the sub-system clock mux - . - ." "M7_Clk_Inact,M7_Clk_Act"
bitfld.long 0x00 10. "    M6_CLOCK_ACK     ,Acknowledge for enable of sub-system clock Verify the status before selecting this source in the sub-system clock mux - M6_Clk_Act. - M6_Clk_Inact." "M6_Clk_Inact,M6_Clk_Act"
textline "                                 "
bitfld.long 0x00 9. " BYPASSACKZ_MERGED ,Merged state of bypass mode on PHY and HSDIVIDER - Bypass_Nak. - Bypass_Ack." "Bypass_Ack,Bypass_Nak"
bitfld.long 0x00 7. "          M4_CLOCK_ACK       ,Acknowledge for enable of sub-system clock Verify the status before selecting this source in the sub-system clock mux - M4_Clk_Act. - M4_Clk_Inact." "M4_Clk_Inact,M4_Clk_Act"
bitfld.long 0x00 6. "    PLL_BYPASS       ,PLL Bypass status - Bypass_Act. - Bypass_In." "Bypass_In,Bypass_Act"
textline "                                 "
bitfld.long 0x00 5. " PLL_HIGHJITTER    ,PLL High Jitter status - High_Jiitter. - Normal_Jitter." "Normal_Jitter,High_Jiitter"
bitfld.long 0x00 3. "       PLL_LOSSREF        ,PLL Reference Loss status - Ref_Inp_Inact. - Ref_Inp_Act." "Ref_Inp_Act,Ref_Inp_Inact"
bitfld.long 0x00 2. "   PLL_RECAL        ,PLL re-calibration status If this bit is active, the PLL needs to be re-calibrated - Recal_required. - Recal_not_required." "Recal_not_required,Recal_required"
textline "                                 "
bitfld.long 0x00 1. " PLL_LOCK          ,PLL Lock status See the programming guide for the use of this bit - DSI_PLL_Lock. - DSI_PLL_NoLock." "DSI_PLL_NoLock,DSI_PLL_Lock"
bitfld.long 0x00 0. "      PLLCTRL_RESET_DONE ,PLLCTRL reset done status - RDone. - NotRD." "NotRD,RDone"
group.long 0x8++0x3
line.long 0x00 "PLL_GO,This register contains the GO bit"
bitfld.long 0x00 1. " HSDIVLOAD         ,In manual mode start HSDIVIDER update sequence." "0,1"
bitfld.long 0x00 0. "                   PLL_GO             ,Request (re-)locking sequence of the PLL. If the AutoMode bit is set, then this will be deferred until DISPCUpdate Sync goes active - . - ." "Done,Go"
group.long 0xC++0x3
line.long 0x00 "PLL_CONFIGURATION1,This register contains the latched PLL and HSDIVDER configuration bits"
bitfld.long 0x00 21.--25. " M4_CLOCK_DIV      ,Divider value for clock source M4REG Divider value = M4_CLOCK_DIV + 1" "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
hexmask.long.word 0x00 9.--20. 1. "          PLL_REGM           ,M Divider for PLL. Valid values range is from 1 to 2047. Values 2048 and above are reserved and must not be used. When the PLL_REGM bit field is set to 1, the PLL enters a MN-Bypass mode. The DCOCLK clock output goes low a..."
hexmask.long.byte 0x00 1.--8. 1. "            PLL_REGN         ,N Divider for PLL (Reference). Valid values range is from 0 to 127. Values 128 and above are reserved and must not be used."
group.long 0x10++0x3
line.long 0x00 "PLL_CONFIGURATION2,This register contains the unlatched PLL and HSDIVDER configuration bits These bits are 'shadowed' when automatic mode is selected"
bitfld.long 0x00 25. " M7_CLOCK_EN       ,Enable for M7 clock source - . - ." "M7_Clk_Dis,M7_Clk_En"
bitfld.long 0x00 23. "          M6_CLOCK_EN        ,Enable for M6 clock source - M6_Clk_Dis. - M6_Clk_En." "M6_Clk_Dis,M6_Clk_En"
bitfld.long 0x00 21.--22. "      REFSEL           ,Selects the reference clock with optional divide by 2 - Ref_PCLK. - Ref_1. - Ref_SYSCLK. - Ref_2." "Ref_PCLK,Ref_1,Ref_2,Ref_SYSCLK"
textline "                                 "
bitfld.long 0x00 20. " HSDIVBYPASS       ,Forces HSDIVIDER to bypass mode - HSDIV_Normal. - HSDIV_Force_Byp." "HSDIV_Normal,HSDIV_Force_Byp"
bitfld.long 0x00 16. "     M4_CLOCK_EN        ,Enable for M4 clock source - SS_Clk_Dis. - SS_Clk_En." "SS_Clk_Dis,SS_Clk_En"
bitfld.long 0x00 15. "      BYPASSEN         ,Selects sub-system functional clock as PHY clock source - Clk_PLL. - Clk_Bypass." "Clk_PLL,Clk_Bypass"
textline "                                 "
bitfld.long 0x00 14. " PHY_CLKINEN       ,PHY clock control - PHY_Clk_Dis. - PHY_Clk_En." "PHY_Clk_Dis,PHY_Clk_En"
bitfld.long 0x00 13. "         PLL_REFEN          ,PLL reference clock control - Ref_dis. - Ref_en." "Ref_dis,Ref_en"
bitfld.long 0x00 12. "         PLL_HIGHFREQ     ,Enables a division of pixel clock by 2 before input to the PLL Required for pixel clock frequencies above 32 MHz (21 MHZ if N = 0) - DIV_BY_1. - DIV_BY_2." "DIV_BY_1,DIV_BY_2"
textline "                                 "
bitfld.long 0x00 11. " PLL_CLKSEL        ,Reference clock selection - SYSCLK_Ref. - PCLK_Ref." "SYSCLK_Ref,PCLK_Ref"
bitfld.long 0x00 9.--10. "          PLL_LOCKSEL        ,Selects the lock criteria for the PLL - PHASELOCK. - FREQLOCK. - SPARE." "PHASELOCK,FREQLOCK,SPARE,3"
bitfld.long 0x00 8. "       PLL_DRIFTGUARDEN ,PLL DRIFTGUARDEN - Drift_Guard_Dis. - Drift_Guard_En." "Drift_Guard_Dis,Drift_Guard_En"
textline "                                 "
bitfld.long 0x00 6. " PLL_LOWCURRSTBY   ,PLL LOW CURRENT STANDBY - LOWCURRSTBY_notsel. - LOWCURRSTBY_sel." "LOWCURRSTBY_notsel,LOWCURRSTBY_sel"
bitfld.long 0x00 5. "  PLL_PLLLPMODE      ,Select the power / performance of the PLL - FULL_PERF. - REDUCE_PERF." "FULL_PERF,REDUCE_PERF"
bitfld.long 0x00 0. "     PLL_IDLE         ,PLL IDLE: - IDLE_notsel. - IDLE_sel." "IDLE_notsel,IDLE_sel"
group.long 0x14++0x3
line.long 0x00 "PLL_CONFIGURATION3,HSDIVIDER configuration bits for the M5 and M6 dividers"
bitfld.long 0x00 5.--9. " M7_CLOCK_DIV      ,Divider value for M7 divider. Divider value = M7_CLOCK_DIV + 1" "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 0.--4. "          M6_CLOCK_DIV       ,Divider value for M6 divider. Divider value = M6_CLOCK_DIV + 1" "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
group.long 0x18++0x3
line.long 0x00 "PLL_SSC_CONFIGURATION1,Configuration for PLL Spread Spectrum Clocking modulation. Note: SSC feature is not supported."
bitfld.long 0x00 2. " DOWNSPREAD        ,Forces the clock spreading only in the down spectrum. - . - ." "NotForced,ForceDown"
bitfld.long 0x00 0. "           EN_SSC             ,Spread Spectrum Clocking enable 0x0: Spread Spectrum Clocking disabled 0x1: Spread Spectrum Clocking enabled" "SSC_Off,SSC_On"
group.long 0x1C++0x3
line.long 0x00 "PLL_SSC_CONFIGURATION2,Configuration for PLL Spread Spectrum Clocking modulation. Note: SSC feature is not supported."
bitfld.long 0x00 30. " DELTAM2           ,MSB of DeltaM control bus." "0,1"
hexmask.long.word 0x00 20.--29. 1. "                   MODFREQDIVIDER     ,Modulation Frequency Divider (ModFreqDivider) control for SSC. The ModFreqDivider is split into Mantissa and 2^Exponent(ModFreqDivider = ModFreqDividerMantissa * 2^ModFreqDividerExponent). - Bits [29:23] define th..."
hexmask.long.tbyte 0x00 0.--19. 1. "            DELTAM           ,DeltaM control for SSC. Split into integer and fractional parts. - Bits [19:18] define the integer part. - Bits [17:0] define the fractional part."
group.long 0x20++0x3
line.long 0x00 "PLL_CONFIGURATION4,Allows setting the fractional M divider and M2 divider for PLL."
hexmask.long.byte 0x00 18.--24. 1. " PLL_REGM2         ,M2 divider to configure PLL REGM2. : In this device, M2 divider is hardcoded in HW at 31 (0x1F)."
hexmask.long.tbyte 0x00 0.--17. 1. "                  PLL_REGM_F         ,Fractional part of M divider. : The feature is not supported in this device."
width 0x0B
tree.end
tree "DPLL_VIDEO1_L3_MAIN"
base ad:0x58004300
width 24.
group.long 0x0++0x3
line.long 0x00 "PLL_CONTROL,This register controls the PLL reset/power and modes"
bitfld.long 0x00 4. " HSDIV_SYSRESET    ,Force HSDIVIDER SYSRESETN. Reserved when DBGSSV is 1. - . - ." "HSDIV_Op,HSDIV_SysRst_Act"
bitfld.long 0x00 3. "    PLL_SYSRESET       ,Force DPLL SYSRESETN. Reserved when DBGSSV is 1. - . - ." "PLL_Op,PLL_SysRst_Act"
bitfld.long 0x00 2. "  PLL_HALTMODE     ,Allow PLL to be halted if no activity. Reserved when PLLCTRL_AUTO is 0. - . - ." "PLL_Run,PLL_Halt"
textline "                                 "
bitfld.long 0x00 1. " PLL_GATEMODE      ,Allow PLL clock gating for power saving Reserved when PLLCTRL_AUTO is 0. - . - ." "DSIPHY_Clk_Act,DSIPHY_Clk_Gate"
bitfld.long 0x00 0. "     PLL_AUTOMODE       ,Automatic update mode. If this bit is set then the configuration updates will be synchronized to DISPCUpdateSync. If this bit is clear configuration updates will be done immediately. Reserved when PLLCTRL_AUTO is 0. - . - ." "Man_Mode,Auto_Mode"
rgroup.long 0x4++0x3
line.long 0x00 "PLL_STATUS,This register contains the status information"
bitfld.long 0x00 16. " PLL_TICOPWDN      ,PLL TICOPWDN status. - Ticopwdn_high. - Ticopwdn_low." "Ticopwdn_low,Ticopwdn_high"
bitfld.long 0x00 15. "       PLL_LDOPWDN        ,PLL LDOPWDN status. - Ldopwdn_high. - Ldopwdn_low." "Ldopwdn_low,Ldopwdn_high"
bitfld.long 0x00 13.--14. "    BYPASSACKZ       ,State of bypass mode on PHY and HSDIVIDER. The status is shown separately for each source. - Bypass_Nak. - Bypass_Ack." "Bypass_Ack,Bypass_Nak,2,3"
textline "                                 "
bitfld.long 0x00 12. " SSC_EN_ACK        ,Spread Spectrum Clocking acknowledge - SSC_act. - SSC_act. Note: SSC feature is not supported.. - SSC_inact." "SSC_act,SSC_act"
bitfld.long 0x00 11. "             M7_CLOCK_ACK       ,Acknowledge for enable of sub-system clock Verify the status before selecting this source in the sub-system clock mux - . - ." "M7_Clk_Inact,M7_Clk_Act"
bitfld.long 0x00 10. "    M6_CLOCK_ACK     ,Acknowledge for enable of sub-system clock Verify the status before selecting this source in the sub-system clock mux - M6_Clk_Act. - M6_Clk_Inact." "M6_Clk_Inact,M6_Clk_Act"
textline "                                 "
bitfld.long 0x00 9. " BYPASSACKZ_MERGED ,Merged state of bypass mode on PHY and HSDIVIDER - Bypass_Nak. - Bypass_Ack." "Bypass_Ack,Bypass_Nak"
bitfld.long 0x00 7. "          M4_CLOCK_ACK       ,Acknowledge for enable of sub-system clock Verify the status before selecting this source in the sub-system clock mux - M4_Clk_Act. - M4_Clk_Inact." "M4_Clk_Inact,M4_Clk_Act"
bitfld.long 0x00 6. "    PLL_BYPASS       ,PLL Bypass status - Bypass_Act. - Bypass_In." "Bypass_In,Bypass_Act"
textline "                                 "
bitfld.long 0x00 5. " PLL_HIGHJITTER    ,PLL High Jitter status - High_Jiitter. - Normal_Jitter." "Normal_Jitter,High_Jiitter"
bitfld.long 0x00 3. "       PLL_LOSSREF        ,PLL Reference Loss status - Ref_Inp_Inact. - Ref_Inp_Act." "Ref_Inp_Act,Ref_Inp_Inact"
bitfld.long 0x00 2. "   PLL_RECAL        ,PLL re-calibration status If this bit is active, the PLL needs to be re-calibrated - Recal_required. - Recal_not_required." "Recal_not_required,Recal_required"
textline "                                 "
bitfld.long 0x00 1. " PLL_LOCK          ,PLL Lock status See the programming guide for the use of this bit - DSI_PLL_Lock. - DSI_PLL_NoLock." "DSI_PLL_NoLock,DSI_PLL_Lock"
bitfld.long 0x00 0. "      PLLCTRL_RESET_DONE ,PLLCTRL reset done status - RDone. - NotRD." "NotRD,RDone"
group.long 0x8++0x3
line.long 0x00 "PLL_GO,This register contains the GO bit"
bitfld.long 0x00 1. " HSDIVLOAD         ,In manual mode start HSDIVIDER update sequence." "0,1"
bitfld.long 0x00 0. "                   PLL_GO             ,Request (re-)locking sequence of the PLL. If the AutoMode bit is set, then this will be deferred until DISPCUpdate Sync goes active - . - ." "Done,Go"
group.long 0xC++0x3
line.long 0x00 "PLL_CONFIGURATION1,This register contains the latched PLL and HSDIVDER configuration bits"
bitfld.long 0x00 21.--25. " M4_CLOCK_DIV      ,Divider value for clock source M4REG Divider value = M4_CLOCK_DIV + 1" "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
hexmask.long.word 0x00 9.--20. 1. "          PLL_REGM           ,M Divider for PLL. Valid values range is from 1 to 2047. Values 2048 and above are reserved and must not be used. When the PLL_REGM bit field is set to 1, the PLL enters a MN-Bypass mode. The DCOCLK clock output goes low a..."
hexmask.long.byte 0x00 1.--8. 1. "            PLL_REGN         ,N Divider for PLL (Reference). Valid values range is from 0 to 127. Values 128 and above are reserved and must not be used."
group.long 0x10++0x3
line.long 0x00 "PLL_CONFIGURATION2,This register contains the unlatched PLL and HSDIVDER configuration bits These bits are 'shadowed' when automatic mode is selected"
bitfld.long 0x00 25. " M7_CLOCK_EN       ,Enable for M7 clock source - . - ." "M7_Clk_Dis,M7_Clk_En"
bitfld.long 0x00 23. "          M6_CLOCK_EN        ,Enable for M6 clock source - M6_Clk_Dis. - M6_Clk_En." "M6_Clk_Dis,M6_Clk_En"
bitfld.long 0x00 21.--22. "      REFSEL           ,Selects the reference clock with optional divide by 2 - Ref_PCLK. - Ref_1. - Ref_SYSCLK. - Ref_2." "Ref_PCLK,Ref_1,Ref_2,Ref_SYSCLK"
textline "                                 "
bitfld.long 0x00 20. " HSDIVBYPASS       ,Forces HSDIVIDER to bypass mode - HSDIV_Normal. - HSDIV_Force_Byp." "HSDIV_Normal,HSDIV_Force_Byp"
bitfld.long 0x00 16. "     M4_CLOCK_EN        ,Enable for M4 clock source - SS_Clk_Dis. - SS_Clk_En." "SS_Clk_Dis,SS_Clk_En"
bitfld.long 0x00 15. "      BYPASSEN         ,Selects sub-system functional clock as PHY clock source - Clk_PLL. - Clk_Bypass." "Clk_PLL,Clk_Bypass"
textline "                                 "
bitfld.long 0x00 14. " PHY_CLKINEN       ,PHY clock control - PHY_Clk_Dis. - PHY_Clk_En." "PHY_Clk_Dis,PHY_Clk_En"
bitfld.long 0x00 13. "         PLL_REFEN          ,PLL reference clock control - Ref_dis. - Ref_en." "Ref_dis,Ref_en"
bitfld.long 0x00 12. "         PLL_HIGHFREQ     ,Enables a division of pixel clock by 2 before input to the PLL Required for pixel clock frequencies above 32 MHz (21 MHZ if N = 0) - DIV_BY_1. - DIV_BY_2." "DIV_BY_1,DIV_BY_2"
textline "                                 "
bitfld.long 0x00 11. " PLL_CLKSEL        ,Reference clock selection - SYSCLK_Ref. - PCLK_Ref." "SYSCLK_Ref,PCLK_Ref"
bitfld.long 0x00 9.--10. "          PLL_LOCKSEL        ,Selects the lock criteria for the PLL - PHASELOCK. - FREQLOCK. - SPARE." "PHASELOCK,FREQLOCK,SPARE,3"
bitfld.long 0x00 8. "       PLL_DRIFTGUARDEN ,PLL DRIFTGUARDEN - Drift_Guard_Dis. - Drift_Guard_En." "Drift_Guard_Dis,Drift_Guard_En"
textline "                                 "
bitfld.long 0x00 6. " PLL_LOWCURRSTBY   ,PLL LOW CURRENT STANDBY - LOWCURRSTBY_notsel. - LOWCURRSTBY_sel." "LOWCURRSTBY_notsel,LOWCURRSTBY_sel"
bitfld.long 0x00 5. "  PLL_PLLLPMODE      ,Select the power / performance of the PLL - FULL_PERF. - REDUCE_PERF." "FULL_PERF,REDUCE_PERF"
bitfld.long 0x00 0. "     PLL_IDLE         ,PLL IDLE: - IDLE_notsel. - IDLE_sel." "IDLE_notsel,IDLE_sel"
group.long 0x14++0x3
line.long 0x00 "PLL_CONFIGURATION3,HSDIVIDER configuration bits for the M5 and M6 dividers"
bitfld.long 0x00 5.--9. " M7_CLOCK_DIV      ,Divider value for M7 divider. Divider value = M7_CLOCK_DIV + 1" "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 0.--4. "          M6_CLOCK_DIV       ,Divider value for M6 divider. Divider value = M6_CLOCK_DIV + 1" "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
group.long 0x18++0x3
line.long 0x00 "PLL_SSC_CONFIGURATION1,Configuration for PLL Spread Spectrum Clocking modulation. Note: SSC feature is not supported."
bitfld.long 0x00 2. " DOWNSPREAD        ,Forces the clock spreading only in the down spectrum. - . - ." "NotForced,ForceDown"
bitfld.long 0x00 0. "           EN_SSC             ,Spread Spectrum Clocking enable 0x0: Spread Spectrum Clocking disabled 0x1: Spread Spectrum Clocking enabled" "SSC_Off,SSC_On"
group.long 0x1C++0x3
line.long 0x00 "PLL_SSC_CONFIGURATION2,Configuration for PLL Spread Spectrum Clocking modulation. Note: SSC feature is not supported."
bitfld.long 0x00 30. " DELTAM2           ,MSB of DeltaM control bus." "0,1"
hexmask.long.word 0x00 20.--29. 1. "                   MODFREQDIVIDER     ,Modulation Frequency Divider (ModFreqDivider) control for SSC. The ModFreqDivider is split into Mantissa and 2^Exponent(ModFreqDivider = ModFreqDividerMantissa * 2^ModFreqDividerExponent). - Bits [29:23] define th..."
hexmask.long.tbyte 0x00 0.--19. 1. "            DELTAM           ,DeltaM control for SSC. Split into integer and fractional parts. - Bits [19:18] define the integer part. - Bits [17:0] define the fractional part."
group.long 0x20++0x3
line.long 0x00 "PLL_CONFIGURATION4,Allows setting the fractional M divider and M2 divider for PLL."
hexmask.long.byte 0x00 18.--24. 1. " PLL_REGM2         ,M2 divider to configure PLL REGM2. : In this device, M2 divider is hardcoded in HW at 31 (0x1F)."
hexmask.long.tbyte 0x00 0.--17. 1. "                  PLL_REGM_F         ,Fractional part of M divider. : The feature is not supported in this device."
width 0x0B
tree.end
tree "DPLL_VIDEO2_L3_MAIN"
base ad:0x58009300
width 24.
group.long 0x0++0x3
line.long 0x00 "PLL_CONTROL,This register controls the PLL reset/power and modes"
bitfld.long 0x00 4. " HSDIV_SYSRESET    ,Force HSDIVIDER SYSRESETN. Reserved when DBGSSV is 1. - . - ." "HSDIV_Op,HSDIV_SysRst_Act"
bitfld.long 0x00 3. "    PLL_SYSRESET       ,Force DPLL SYSRESETN. Reserved when DBGSSV is 1. - . - ." "PLL_Op,PLL_SysRst_Act"
bitfld.long 0x00 2. "  PLL_HALTMODE     ,Allow PLL to be halted if no activity. Reserved when PLLCTRL_AUTO is 0. - . - ." "PLL_Run,PLL_Halt"
textline "                                 "
bitfld.long 0x00 1. " PLL_GATEMODE      ,Allow PLL clock gating for power saving Reserved when PLLCTRL_AUTO is 0. - . - ." "DSIPHY_Clk_Act,DSIPHY_Clk_Gate"
bitfld.long 0x00 0. "     PLL_AUTOMODE       ,Automatic update mode. If this bit is set then the configuration updates will be synchronized to DISPCUpdateSync. If this bit is clear configuration updates will be done immediately. Reserved when PLLCTRL_AUTO is 0. - . - ." "Man_Mode,Auto_Mode"
rgroup.long 0x4++0x3
line.long 0x00 "PLL_STATUS,This register contains the status information"
bitfld.long 0x00 16. " PLL_TICOPWDN      ,PLL TICOPWDN status. - Ticopwdn_high. - Ticopwdn_low." "Ticopwdn_low,Ticopwdn_high"
bitfld.long 0x00 15. "       PLL_LDOPWDN        ,PLL LDOPWDN status. - Ldopwdn_high. - Ldopwdn_low." "Ldopwdn_low,Ldopwdn_high"
bitfld.long 0x00 13.--14. "    BYPASSACKZ       ,State of bypass mode on PHY and HSDIVIDER. The status is shown separately for each source. - Bypass_Nak. - Bypass_Ack." "Bypass_Ack,Bypass_Nak,2,3"
textline "                                 "
bitfld.long 0x00 12. " SSC_EN_ACK        ,Spread Spectrum Clocking acknowledge - SSC_act. - SSC_act. Note: SSC feature is not supported.. - SSC_inact." "SSC_act,SSC_act"
bitfld.long 0x00 11. "             M7_CLOCK_ACK       ,Acknowledge for enable of sub-system clock Verify the status before selecting this source in the sub-system clock mux - . - ." "M7_Clk_Inact,M7_Clk_Act"
bitfld.long 0x00 10. "    M6_CLOCK_ACK     ,Acknowledge for enable of sub-system clock Verify the status before selecting this source in the sub-system clock mux - M6_Clk_Act. - M6_Clk_Inact." "M6_Clk_Inact,M6_Clk_Act"
textline "                                 "
bitfld.long 0x00 9. " BYPASSACKZ_MERGED ,Merged state of bypass mode on PHY and HSDIVIDER - Bypass_Nak. - Bypass_Ack." "Bypass_Ack,Bypass_Nak"
bitfld.long 0x00 7. "          M4_CLOCK_ACK       ,Acknowledge for enable of sub-system clock Verify the status before selecting this source in the sub-system clock mux - M4_Clk_Act. - M4_Clk_Inact." "M4_Clk_Inact,M4_Clk_Act"
bitfld.long 0x00 6. "    PLL_BYPASS       ,PLL Bypass status - Bypass_Act. - Bypass_In." "Bypass_In,Bypass_Act"
textline "                                 "
bitfld.long 0x00 5. " PLL_HIGHJITTER    ,PLL High Jitter status - High_Jiitter. - Normal_Jitter." "Normal_Jitter,High_Jiitter"
bitfld.long 0x00 3. "       PLL_LOSSREF        ,PLL Reference Loss status - Ref_Inp_Inact. - Ref_Inp_Act." "Ref_Inp_Act,Ref_Inp_Inact"
bitfld.long 0x00 2. "   PLL_RECAL        ,PLL re-calibration status If this bit is active, the PLL needs to be re-calibrated - Recal_required. - Recal_not_required." "Recal_not_required,Recal_required"
textline "                                 "
bitfld.long 0x00 1. " PLL_LOCK          ,PLL Lock status See the programming guide for the use of this bit - DSI_PLL_Lock. - DSI_PLL_NoLock." "DSI_PLL_NoLock,DSI_PLL_Lock"
bitfld.long 0x00 0. "      PLLCTRL_RESET_DONE ,PLLCTRL reset done status - RDone. - NotRD." "NotRD,RDone"
group.long 0x8++0x3
line.long 0x00 "PLL_GO,This register contains the GO bit"
bitfld.long 0x00 1. " HSDIVLOAD         ,In manual mode start HSDIVIDER update sequence." "0,1"
bitfld.long 0x00 0. "                   PLL_GO             ,Request (re-)locking sequence of the PLL. If the AutoMode bit is set, then this will be deferred until DISPCUpdate Sync goes active - . - ." "Done,Go"
group.long 0xC++0x3
line.long 0x00 "PLL_CONFIGURATION1,This register contains the latched PLL and HSDIVDER configuration bits"
bitfld.long 0x00 21.--25. " M4_CLOCK_DIV      ,Divider value for clock source M4REG Divider value = M4_CLOCK_DIV + 1" "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
hexmask.long.word 0x00 9.--20. 1. "          PLL_REGM           ,M Divider for PLL. Valid values range is from 1 to 2047. Values 2048 and above are reserved and must not be used. When the PLL_REGM bit field is set to 1, the PLL enters a MN-Bypass mode. The DCOCLK clock output goes low a..."
hexmask.long.byte 0x00 1.--8. 1. "            PLL_REGN         ,N Divider for PLL (Reference). Valid values range is from 0 to 127. Values 128 and above are reserved and must not be used."
group.long 0x10++0x3
line.long 0x00 "PLL_CONFIGURATION2,This register contains the unlatched PLL and HSDIVDER configuration bits These bits are 'shadowed' when automatic mode is selected"
bitfld.long 0x00 25. " M7_CLOCK_EN       ,Enable for M7 clock source - . - ." "M7_Clk_Dis,M7_Clk_En"
bitfld.long 0x00 23. "          M6_CLOCK_EN        ,Enable for M6 clock source - M6_Clk_Dis. - M6_Clk_En." "M6_Clk_Dis,M6_Clk_En"
bitfld.long 0x00 21.--22. "      REFSEL           ,Selects the reference clock with optional divide by 2 - Ref_PCLK. - Ref_1. - Ref_SYSCLK. - Ref_2." "Ref_PCLK,Ref_1,Ref_2,Ref_SYSCLK"
textline "                                 "
bitfld.long 0x00 20. " HSDIVBYPASS       ,Forces HSDIVIDER to bypass mode - HSDIV_Normal. - HSDIV_Force_Byp." "HSDIV_Normal,HSDIV_Force_Byp"
bitfld.long 0x00 16. "     M4_CLOCK_EN        ,Enable for M4 clock source - SS_Clk_Dis. - SS_Clk_En." "SS_Clk_Dis,SS_Clk_En"
bitfld.long 0x00 15. "      BYPASSEN         ,Selects sub-system functional clock as PHY clock source - Clk_PLL. - Clk_Bypass." "Clk_PLL,Clk_Bypass"
textline "                                 "
bitfld.long 0x00 14. " PHY_CLKINEN       ,PHY clock control - PHY_Clk_Dis. - PHY_Clk_En." "PHY_Clk_Dis,PHY_Clk_En"
bitfld.long 0x00 13. "         PLL_REFEN          ,PLL reference clock control - Ref_dis. - Ref_en." "Ref_dis,Ref_en"
bitfld.long 0x00 12. "         PLL_HIGHFREQ     ,Enables a division of pixel clock by 2 before input to the PLL Required for pixel clock frequencies above 32 MHz (21 MHZ if N = 0) - DIV_BY_1. - DIV_BY_2." "DIV_BY_1,DIV_BY_2"
textline "                                 "
bitfld.long 0x00 11. " PLL_CLKSEL        ,Reference clock selection - SYSCLK_Ref. - PCLK_Ref." "SYSCLK_Ref,PCLK_Ref"
bitfld.long 0x00 9.--10. "          PLL_LOCKSEL        ,Selects the lock criteria for the PLL - PHASELOCK. - FREQLOCK. - SPARE." "PHASELOCK,FREQLOCK,SPARE,3"
bitfld.long 0x00 8. "       PLL_DRIFTGUARDEN ,PLL DRIFTGUARDEN - Drift_Guard_Dis. - Drift_Guard_En." "Drift_Guard_Dis,Drift_Guard_En"
textline "                                 "
bitfld.long 0x00 6. " PLL_LOWCURRSTBY   ,PLL LOW CURRENT STANDBY - LOWCURRSTBY_notsel. - LOWCURRSTBY_sel." "LOWCURRSTBY_notsel,LOWCURRSTBY_sel"
bitfld.long 0x00 5. "  PLL_PLLLPMODE      ,Select the power / performance of the PLL - FULL_PERF. - REDUCE_PERF." "FULL_PERF,REDUCE_PERF"
bitfld.long 0x00 0. "     PLL_IDLE         ,PLL IDLE: - IDLE_notsel. - IDLE_sel." "IDLE_notsel,IDLE_sel"
group.long 0x14++0x3
line.long 0x00 "PLL_CONFIGURATION3,HSDIVIDER configuration bits for the M5 and M6 dividers"
bitfld.long 0x00 5.--9. " M7_CLOCK_DIV      ,Divider value for M7 divider. Divider value = M7_CLOCK_DIV + 1" "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 0.--4. "          M6_CLOCK_DIV       ,Divider value for M6 divider. Divider value = M6_CLOCK_DIV + 1" "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
group.long 0x18++0x3
line.long 0x00 "PLL_SSC_CONFIGURATION1,Configuration for PLL Spread Spectrum Clocking modulation. Note: SSC feature is not supported."
bitfld.long 0x00 2. " DOWNSPREAD        ,Forces the clock spreading only in the down spectrum. - . - ." "NotForced,ForceDown"
bitfld.long 0x00 0. "           EN_SSC             ,Spread Spectrum Clocking enable 0x0: Spread Spectrum Clocking disabled 0x1: Spread Spectrum Clocking enabled" "SSC_Off,SSC_On"
group.long 0x1C++0x3
line.long 0x00 "PLL_SSC_CONFIGURATION2,Configuration for PLL Spread Spectrum Clocking modulation. Note: SSC feature is not supported."
bitfld.long 0x00 30. " DELTAM2           ,MSB of DeltaM control bus." "0,1"
hexmask.long.word 0x00 20.--29. 1. "                   MODFREQDIVIDER     ,Modulation Frequency Divider (ModFreqDivider) control for SSC. The ModFreqDivider is split into Mantissa and 2^Exponent(ModFreqDivider = ModFreqDividerMantissa * 2^ModFreqDividerExponent). - Bits [29:23] define th..."
hexmask.long.tbyte 0x00 0.--19. 1. "            DELTAM           ,DeltaM control for SSC. Split into integer and fractional parts. - Bits [19:18] define the integer part. - Bits [17:0] define the fractional part."
group.long 0x20++0x3
line.long 0x00 "PLL_CONFIGURATION4,Allows setting the fractional M divider and M2 divider for PLL."
hexmask.long.byte 0x00 18.--24. 1. " PLL_REGM2         ,M2 divider to configure PLL REGM2. : In this device, M2 divider is hardcoded in HW at 31 (0x1F)."
hexmask.long.tbyte 0x00 0.--17. 1. "                  PLL_REGM_F         ,Fractional part of M divider. : The feature is not supported in this device."
width 0x0B
tree.end
tree.end
tree "OCP2SCP2_L4_CFG"
base ad:0x4A0A0000
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "OCP2SCP_REVISION,IP Revision Identifier (X.Y.R)"
hexmask.long 0x00 0.--31. 1. " REVISION      ,IP revision"
group.long 0x10++0x3
line.long 0x00 "OCP2SCP_SYSCONFIG,SYSTEM CONFIGURATION REGISTER"
bitfld.long 0x00 3.--4. " IDLEMODE      ,00 Force Idle. An idle request is acknowledged unconditionally. 01 No Idle. An idle request is never acknowledged. 10 Smart Idle. The acknowledgement to an idle request is given based on the internal activity (see 4.1.2). 11 Smart Idle ..." "ForceIdle,NoIdle,SmartIdle,Reserved"
bitfld.long 0x00 1. "   SOFTRESET ,Software Reset. Set this bit to 1 to trigger a module reset. The bit is automatically reset by the hardware. During reads, it always returns 0. - Normal. - Reset." "Normal,Reset"
bitfld.long 0x00 0. "  AUTOIDLE ,OCP clock gating control. - FreeRun. - Automatic." "FreeRun,Automatic"
rgroup.long 0x14++0x3
line.long 0x00 "OCP2SCP_SYSSTATUS,System Status register."
bitfld.long 0x00 0. " RESETDONE     ,- Complete. - InProgress." "InProgress,Complete"
group.long 0x18++0x3
line.long 0x00 "OCP2SCP_TIMING,Timing constraints for the OCP2SCP module."
bitfld.long 0x00 7.--9. " DIVISIONRATIO ,Division Ration of the SCP clock in relation to OCP input clock." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "           SYNC1     ,Number of SCPclock cycles defining SYNC1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--3. "       SYNC2    ,Number of SCPclock cycles defining SYNC2" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree.open "DSI1_A_L3_MAIN"
tree "DSI1_A_L3_MAIN"
base ad:0x58004000
width 14.
group.long 0x54++0x3
line.long 0x00 "DSI_CLK_CTRL,CLOCK CONTROL This register controls the CLOCK GENERATION. The register can be modified only when IF_EN is reset."
bitfld.long 0x00 30.--31. " PLL_PWR_CMD ,Command for power control of the DSI PLL Control Module 0x0: Command to change to OFF state 0x1: Command to change to ON state for PLL only (HSDIVISER is OFF) 0x2: Command to change to ON state for both PLL and HSDIVISER 0x3: Command to c..." "STATE_OFF,STATE_ON_HSCLK,STATE_ON_ALL,STATE_ON_DIV"
bitfld.long 0x00 28.--29. "  PLL_PWR_STATUS ,Status of the power control of the DSI PLL Control module Read 0x0: DSI PLL Control module in OFF state Read 0x1: DSI PLL Control module in ON state for PLL only (HSDIVISER is OFF) Read 0x2: DSI PLL Control module in ON state for both..." "STATE_OFF,STATE_ON_HSCLK,STATE_ON_ALL,STATE_ON_DIV"
bitfld.long 0x00 14. "  CIO_CLK_ICG ,Gates SCPClk clock provided to DSI-PHY and PLL-CTRL module. 0x0: Disabled. SCPClk is not generated. It remains at 0. 0x1: Enabled. SCPClk is generated (OCP_CLK/4)" "Disable,Enable"
width 0x0B
tree.end
tree "DSI1_B_L3_MAIN"
base ad:0x58005000
width 14.
group.long 0x54++0x3
line.long 0x00 "DSI_CLK_CTRL,CLOCK CONTROL This register controls the CLOCK GENERATION. The register can be modified only when IF_EN is reset."
bitfld.long 0x00 30.--31. " PLL_PWR_CMD ,Command for power control of the DSI PLL Control Module 0x0: Command to change to OFF state 0x1: Command to change to ON state for PLL only (HSDIVISER is OFF) 0x2: Command to change to ON state for both PLL and HSDIVISER 0x3: Command to c..." "STATE_OFF,STATE_ON_HSCLK,STATE_ON_ALL,STATE_ON_DIV"
bitfld.long 0x00 28.--29. "  PLL_PWR_STATUS ,Status of the power control of the DSI PLL Control module Read 0x0: DSI PLL Control module in OFF state Read 0x1: DSI PLL Control module in ON state for PLL only (HSDIVISER is OFF) Read 0x2: DSI PLL Control module in ON state for both..." "STATE_OFF,STATE_ON_HSCLK,STATE_ON_ALL,STATE_ON_DIV"
bitfld.long 0x00 14. "  CIO_CLK_ICG ,Gates SCPClk clock provided to DSI-PHY and PLL-CTRL module. 0x0: Disabled. SCPClk is not generated. It remains at 0. 0x1: Enabled. SCPClk is generated (OCP_CLK/4)" "Disable,Enable"
width 0x0B
tree.end
tree.end
tree "DSS_L3_MAIN"
base ad:0x58000000
width 15.
rgroup.long 0x0++0x3
line.long 0x00 "DSS_REVISION,This register contains the DSS revision number."
hexmask.long 0x00 0.--31. 1. " REVISION        ,IP revision"
rgroup.long 0x14++0x3
line.long 0x00 "DSS_SYSSTATUS,This register provides status information about the module."
bitfld.long 0x00 0. " RESETDONE       ,Internal reset monitoring - rstact. - rstcomp." "rstact,rstcomp"
group.long 0x40++0x3
line.long 0x00 "DSS_CTRL,This register contains the DSS control bits."
bitfld.long 0x00 19. " LCD3_CLK_SWITCH ,DSS_CLK/DPLL_DSI1_C_CLK1 clock switch (multiplexer 10) Selects the clock source for the DISPC LCD3_CLK clock - DSS_CLK_Sel. - DPLL_DSI1_C_CLK1_Sel." "DSS_CLK_Sel,DPLL_DSI1_C_CLK1_Sel"
bitfld.long 0x00 16.--17. "  PARALLEL_SEL    ,Selection between LCD1, LCD2, LCD3 and TV channel out on the parallel output (multiplexer 13) - HDMI. - LCD1. - LCD3. - LCD2." "HDMI,LCD1,LCD2,LCD3"
bitfld.long 0x00 12. "                  LCD2_CLK_SWITCH ,DSS_CLK clock switch (multiplexer 3) Selects the clock source for the DISPC LCD2_CLK clock - DSS_CLK_Sel. - DPLL_DSI1_B_CLK1_Sel." "DSS_CLK_Sel,DPLL_DSI1_B_CLK1_Sel"
textline "                        "
bitfld.long 0x00 7.--9. " F_CLK_SWITCH    ,Selects the clock source for the DISPC functional clock F_CLK - . - . - . - . - ." "0,DPLL_DSI1_A_CLK1,DPLL_DSI1_B_CLK1,3,DPLL_DSI1_C_CLK1,5,6,7"
bitfld.long 0x00 0. "      LCD1_CLK_SWITCH ,DSS_CLK/DPLL_DSI1_A_CLK1 clock switch (multiplexer 2) Selects the clock source for the DISPC LCD1_CLK clock - DSS_CLK_Sel. - DPLL_DSI1_A_CLK1_Sel." "DSS_CLK_Sel,DPLL_DSI1_A_CLK1_Sel"
rgroup.long 0x5C++0x3
line.long 0x00 "DSS_STATUS,This register contains the DSS status."
bitfld.long 0x00 24.--25. " LCD3_CLK_STATUS ,LCD3_CLK clock selection status (multiplexer 10) indicates which clock is used by the glitch free mux selecting the source of LCD3_CLK. It is required to have the current clock and the new selected clock being running in order to be a..." "LCD3_CLK_TRANSITION,DSS_CLK_Sel,DPLL_DSI1_C_CLK1_Sel,3"
bitfld.long 0x00 15.--19. "  F_CLK_STATUS    ,F_CLK clock selection status (multiplexer 1) indicates which clock is used by the glitch free mux selecting the source of F_CLK. It is required to have the current clock and the new selected clock being running in order to be able to..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 11.--12. "                    LCD2_CLK_STATUS ,LCD2_CLK clock selection status (multiplexer 3) indicates which clock is used by the glitch free mux selecting the source of LCD2_CLK. It is required to have the current clock and the new selected clock being runnin..." "LCD2_CLK_TRANSITION,DSS_CLK_Sel,DPLL_DSI1_B_CLK1_Sel,3"
textline "                        "
bitfld.long 0x00 0.--1. " LCD1_CLK_STATUS ,LCD1_CLK clock selection status (multiplexer 2) indicates which clock is used by the glitch free mux selecting the source of LCD1_CLK. It is required to have the current clock and the new selected clock being running in order to be ab..." "LCD1_CLK_TRANSITION,DSS_CLK_Sel,DPLL_DSI1_A_CLK1_Sel,3"
width 0x0B
tree.end
tree.end
tree.open "Display_Controller"
tree "DISPC"
base ad:0x58001000
tree "Channel_0"
width 29.
group.long 0x80++0x3
line.long 0x00 "DISPC_GFX_BA_j_0,The register configures the base address of the graphics buffer displayed in the graphics window (0 and 1 :for ping-pong mechanism with external trigger, based on the field polarity, 0 only used when graphics pipeline on the LCD output..."
hexmask.long 0x00 0.--31. 1. " BA           ,Graphics base address Base address of the graphics buffer (aligned on pixel size boundary) (in case 1-, 2-, and 4-bpp, byte alignment is required, in case of RGB24 packed format, 4-pixel alignment is required) When the TILER is addressed..."
group.long 0x640++0x3
line.long 0x00 "DISPC_VID1_ACCU2_j_0,The register configures the resize accumulator init values for horizontal and vertical up/downsampling of the video window 1 (DISPC_VID1_ACCU2_0 and DISPC_VID1_ACCU2_1 for ping-pong mechanism with external trigger, based on the fie..."
hexmask.long.word 0x00 16.--26. 1. " VERTICALACCU ,Vertical initialization accu value Encoded value (from ?1024 to 1023)."
hexmask.long.word 0x00 0.--10. 1. "      HORIZONTALACCU ,Horizontal initialization accu value Encoded value (from ?1024 to 1023)."
group.long 0xE8++0x3
line.long 0x00 "DISPC_VID1_ACCU_j_0,The register configures the resize accumulator init values for horizontal and vertical up/downsampling of the video window 1 (DISPC_VID1_ACCU_0 and DISPC_VID1_ACCU_1 for ping-pong mechanism with external trigger, based on the field ..."
hexmask.long.word 0x00 16.--26. 1. " VERTICALACCU ,Vertical initialization accumulator value encoded value (from ?1024 to 1023)."
hexmask.long.word 0x00 0.--10. 1. "      HORIZONTALACCU ,Horizontal initialization accumulator value encoded value (from ?1024 to 1023)."
group.long 0x600++0x3
line.long 0x00 "DISPC_VID1_BA_UV_j_0,The register configures the base address of the UV buffer for the video window 1. (DISPC_VID1_BA_UV_0 and DISPC_VID1_BA_UV_1 for ping-pong mechanism with external trigger, based on the field polarity otherwise only DISPC_VID1_BA_UV..."
hexmask.long 0x00 0.--31. 1. " BA           ,Video base address aligned on 16-bit boundary Base address of the UV video buffer used only in case of YUV4:2:0-NV12 When the TILER is addressed, the bits: [28:27] = 0x0 for 8-bit tiled [28:27] = 0x1 for 16-bit tiled [28:27] = 0x2 for 32..."
group.long 0xBC++0x3
line.long 0x00 "DISPC_VID1_BA_j_0,The register configures the base address of the video buffer for the video window 1 (DISPC_VID1_BA_0 and DISPC_VID1_BA_1 for ping-pong mechanism with external trigger, based on the field polarity otherwise only DISPC_VID1_BA_0 is used..."
hexmask.long 0x00 0.--31. 1. " BA           ,Video base address Base address of the video buffer (aligned on pixel size boundary except in case of RGB24 packed format, 4-pixel alignment is required; in case of YUV4:2:2, 2-pixel alignment is required, and YUV4:2:0, byte alignment is..."
group.long 0x648++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_H2_i_0,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used only..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3       ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "        FIRHC2         ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "    FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0       ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x64C++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_HV2_i_0,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for Crb and Cr setti..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2       ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "        FIRVC1         ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "    FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4       ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0xF4++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_HV_i_0,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for ARGB and Y settin..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2       ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "        FIRVC1         ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "    FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4       ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0xF0++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_H_i_0,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow register,..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3       ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "        FIRHC2         ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "    FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0       ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x688++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_V2_i_0,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used o..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22      ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "        FIRVC00        ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x1E0++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_V_i_0,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow regist..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22      ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "        FIRVC00        ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x6AC++0x3
line.long 0x00 "DISPC_VID2_ACCU2_j_0,The register configures the resize accumulator init values for horizontal and vertical up/downsampling of the video window 2 (DISPC_VID2_ACCU2_0 and DISPC_VID2_ACCU2_1 for ping-pong mechanism with external trigger, based on the fie..."
hexmask.long.word 0x00 16.--26. 1. " VERTICALACCU ,Vertical initialization accu value Encoded value (from ?1024 to 1023)."
hexmask.long.word 0x00 0.--10. 1. "      HORIZONTALACCU ,Horizontal initialization accu value Encoded value (from ?1024 to 1023)."
group.long 0x178++0x3
line.long 0x00 "DISPC_VID2_ACCU_j_0,The register configures the resize accumulator init values for horizontal and vertical up/downsampling of the video window 2 (DISPC_VID2_ACCU_0 and DISPC_VID2_ACCU_1 for ping-pong mechanism with external trigger, based on the field ..."
hexmask.long.word 0x00 16.--26. 1. " VERTICALACCU ,Vertical initialization accumulator value encoded value (from ?1024 to 1023)."
hexmask.long.word 0x00 0.--10. 1. "      HORIZONTALACCU ,Horizontal initialization accumulator value encoded value (from ?1024 to 1023)."
group.long 0x608++0x3
line.long 0x00 "DISPC_VID2_BA_UV_j_0,The register configures the base address of the UV buffer for the video window 2. (DISPC_VID2_BA_UV_0 and DISPC_VID2_BA_UV_1 for ping-pong mechanism with external trigger, based on the field polarity otherwise only DISPC_VID2_BA_UV..."
hexmask.long 0x00 0.--31. 1. " BA           ,Video base address aligned on 16-bit boundary Base address of the UV video buffer used only in case of YUV4:2:0-NV12 When the TILER is addressed, the bits: [28:27] = 0x0 for 8-bit tiled [28:27] = 0x1 for 16-bit tiled [28:27] = 0x2 for 32..."
group.long 0x14C++0x3
line.long 0x00 "DISPC_VID2_BA_j_0,The register configures the base address of the video buffer for the video window 2 (DISPC_VID2_BA_0 and DISPC_VID2_BA_1 for ping-pong mechanism with external trigger, based on the field polarity otherwise only DISPC_VID2_BA_0 is used..."
hexmask.long 0x00 0.--31. 1. " BA           ,Video base address Base address of the video buffer (aligned on pixel size boundary except in case of RGB24 packed format, 4-pixel alignment is required; in case of YUV4:2:2, 2-pixel alignment is required, and YUV4:2:0, byte alignment is..."
group.long 0x6B4++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_H2_i_0,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used only..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3       ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "        FIRHC2         ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "    FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0       ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x6B8++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_HV2_i_0,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for Crb and Cr setti..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2       ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "        FIRVC1         ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "    FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4       ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x184++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_HV_i_0,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for ARGB and Y settin..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2       ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "        FIRVC1         ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "    FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4       ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x180++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_H_i_0,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow register,..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3       ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "        FIRHC2         ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "    FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0       ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x6F4++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_V2_i_0,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used o..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22      ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "        FIRVC00        ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x200++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_V_i_0,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow regist..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22      ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "        FIRVC00        ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x728++0x3
line.long 0x00 "DISPC_VID3_ACCU2_j_0,The register configures the resize accumulator init values for horizontal and vertical up/downsampling of the video window 3 (DISPC_VID3_ACCU2_0 and DISPC_VID3_ACCU2_1 for ping-pong mechanism with external trigger, based on the fie..."
hexmask.long.word 0x00 16.--26. 1. " VERTICALACCU ,Vertical initialization accu value Encoded value (from ?1024 to 1023)."
hexmask.long.word 0x00 0.--10. 1. "      HORIZONTALACCU ,Horizontal initialization accu value Encoded value (from ?1024 to 1023)."
group.long 0x300++0x3
line.long 0x00 "DISPC_VID3_ACCU_j_0,The register configures the resize accumulator init values for horizontal and vertical up/downsampling of the video window 3 (DISPC_VID3_ACCU_0 and DISPC_VID3_ACCU_1 for ping-pong mechanism with external trigger, based on the field ..."
hexmask.long.word 0x00 16.--26. 1. " VERTICALACCU ,Vertical initialization accu value Encoded value (from ?1024 to 1023)."
hexmask.long.word 0x00 0.--10. 1. "      HORIZONTALACCU ,Horizontal initialization accu value Encoded value (from ?1024 to 1023)."
group.long 0x610++0x3
line.long 0x00 "DISPC_VID3_BA_UV_j_0,The register configures the base address of the UV buffer for the video window 3. (DISPC_VID3_BA_UV_0 and DISPC_VID3_BA_UV_1 for ping-pong mechanism with external trigger, based on the field polarity otherwise only DISPC_VID3_BA_UV..."
hexmask.long 0x00 0.--31. 1. " BA           ,Video base address alinged on 16-bit boundary Base address of the UV video buffer used only in case of YUV4:2:0-NV12 When the TILER is addressed, the bits: [28:27] = 0x0 for 8-bit tiled [28:27] = 0x1 for 16-bit tiled [28:27] = 0x2 for 32..."
group.long 0x308++0x3
line.long 0x00 "DISPC_VID3_BA_j_0,The register configures the base address of the video buffer for the video window 3 (DISPC_VID3_BA_0 and DISPC_VID3_BA_1 for ping-pong mechanism with external trigger, based on the field polarity otherwise only DISPC_VID3_BA_0 is used..."
hexmask.long 0x00 0.--31. 1. " BA           ,Video base address Base address of the video buffer (aligned on pixel size boundary except in case of RGB24 packed format, 4-pixel alignment is required; in case of YUV4:2:2, 2-pixel alignment is required, and YUV4:2:0, byte alignment is..."
group.long 0x730++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_H2_i_0,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used only..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3       ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "        FIRHC2         ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "    FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0       ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x734++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_HV2_i_0,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for Crb and Cr setti..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2       ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "        FIRVC1         ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "    FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4       ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x314++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_HV_i_0,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for ARGB and Y settin..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2       ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "        FIRVC1         ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "    FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4       ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x310++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_H_i_0,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow register,..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3       ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "        FIRHC2         ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "    FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0       ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x770++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_V2_i_0,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used o..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22      ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "        FIRVC00        ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x350++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_V_i_0,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow regist..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22      ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "        FIRVC00        ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x794++0x3
line.long 0x00 "DISPC_WB_ACCU2_j_0,The register configures the resize accumulator init values for horizontal and vertical up/downsampling of the write back pipeline (DISPC_WB_ACCU2_0 and DISPC_WB_ACCU2_1 for ping-pong mechanism with external trigger, based on the fiel..."
hexmask.long.word 0x00 16.--26. 1. " VERTICALACCU ,Vertical initialization accu value Encoded value (from ?1024 to 1023)."
hexmask.long.word 0x00 0.--10. 1. "      HORIZONTALACCU ,Horizontal initialization accu value Encoded value (from ?1024 to 1023)."
group.long 0x500++0x3
line.long 0x00 "DISPC_WB_ACCU_j_0,The register configures the resize accumulator init values for horizontal and vertical up/downsampling of the write back pipeline (DISPC_WB_ACCU_0 and DISPC_WB_ACCU_1 for ping-pong mechanism with external trigger, based on the field p..."
hexmask.long.word 0x00 16.--26. 1. " VERTICALACCU ,Vertical initialization accumulator value Encoded value (from ?1024 to 1023)."
hexmask.long.word 0x00 0.--10. 1. "      HORIZONTALACCU ,Horizontal initialization accumulator value encoded value (from ?1024 to 1023)."
group.long 0x618++0x3
line.long 0x00 "DISPC_WB_BA_UV_j_0,The register configures the base address of the UV buffer for the write-back pipeline. (DISPC_WB_BA_UV_0 and DISPC_WB_BA_UV_1 for ping-pong mechanism with external trigger, based on the field polarity otherwise only DISPC_WB_BA_UV_0 ..."
hexmask.long 0x00 0.--31. 1. " BA           ,Video base address alinged on 16-bit boundary Base address of the UV video buffer used only in case of YUV4:2:0-NV12 When the TILER is addressed, the bits: [28:27] = 0x0 for 8-bit tiled [28:27] = 0x1 for 16-bit tiled [28:27] = 0x2 for 32..."
group.long 0x508++0x3
line.long 0x00 "DISPC_WB_BA_j_0,The register configures the base address of the WB buffer (DISPC_WB_BA_0 and DISPC_WB_BA_1 for ping-pong mechanism with external trigger, based on the field polarity otherwise only DISPC_WB_BA_0 is used). Shadow register, updated when.G..."
hexmask.long 0x00 0.--31. 1. " BA           ,Write-back base address Base address of the WB buffer (aligned on pixel size boundary except in case of RGB24 packed format, 4-pixel alignment is required; in case of YUV4:2:2, 2-pixel alignment is required, and YUV4:2;0, byte alignment ..."
group.long 0x7A0++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_H2_i_0,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for Crb and Cr setting. It is used o..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3       ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "        FIRHC2         ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "    FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0       ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x7A4++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_HV2_i_0,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for Crb and Cr se..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2       ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "        FIRVC1         ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "    FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4       ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x514++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_HV_i_0,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for ARGB and Y set..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2       ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "        FIRVC1         ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "    FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4       ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x510++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_H_i_0,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow regist..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3       ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "        FIRHC2         ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "    FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0       ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x7E0++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_V2_i_0,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for Crb and Cr setting. It is use..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22      ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "        FIRVC00        ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x550++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_V_i_0,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow reg..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22      ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "        FIRVC00        ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
tree.end
tree "Channel_1"
width 29.
group.long 0x84++0x3
line.long 0x00 "DISPC_GFX_BA_j_1,The register configures the base address of the graphics buffer displayed in the graphics window (0 and 1 :for ping-pong mechanism with external trigger, based on the field polarity, 0 only used when graphics pipeline on the LCD output..."
hexmask.long 0x00 0.--31. 1. " BA           ,Graphics base address Base address of the graphics buffer (aligned on pixel size boundary) (in case 1-, 2-, and 4-bpp, byte alignment is required, in case of RGB24 packed format, 4-pixel alignment is required) When the TILER is addressed..."
group.long 0x644++0x3
line.long 0x00 "DISPC_VID1_ACCU2_j_1,The register configures the resize accumulator init values for horizontal and vertical up/downsampling of the video window 1 (DISPC_VID1_ACCU2_0 and DISPC_VID1_ACCU2_1 for ping-pong mechanism with external trigger, based on the fie..."
hexmask.long.word 0x00 16.--26. 1. " VERTICALACCU ,Vertical initialization accu value Encoded value (from ?1024 to 1023)."
hexmask.long.word 0x00 0.--10. 1. "      HORIZONTALACCU ,Horizontal initialization accu value Encoded value (from ?1024 to 1023)."
group.long 0xEC++0x3
line.long 0x00 "DISPC_VID1_ACCU_j_1,The register configures the resize accumulator init values for horizontal and vertical up/downsampling of the video window 1 (DISPC_VID1_ACCU_0 and DISPC_VID1_ACCU_1 for ping-pong mechanism with external trigger, based on the field ..."
hexmask.long.word 0x00 16.--26. 1. " VERTICALACCU ,Vertical initialization accumulator value encoded value (from ?1024 to 1023)."
hexmask.long.word 0x00 0.--10. 1. "      HORIZONTALACCU ,Horizontal initialization accumulator value encoded value (from ?1024 to 1023)."
group.long 0x604++0x3
line.long 0x00 "DISPC_VID1_BA_UV_j_1,The register configures the base address of the UV buffer for the video window 1. (DISPC_VID1_BA_UV_0 and DISPC_VID1_BA_UV_1 for ping-pong mechanism with external trigger, based on the field polarity otherwise only DISPC_VID1_BA_UV..."
hexmask.long 0x00 0.--31. 1. " BA           ,Video base address aligned on 16-bit boundary Base address of the UV video buffer used only in case of YUV4:2:0-NV12 When the TILER is addressed, the bits: [28:27] = 0x0 for 8-bit tiled [28:27] = 0x1 for 16-bit tiled [28:27] = 0x2 for 32..."
group.long 0xC0++0x3
line.long 0x00 "DISPC_VID1_BA_j_1,The register configures the base address of the video buffer for the video window 1 (DISPC_VID1_BA_0 and DISPC_VID1_BA_1 for ping-pong mechanism with external trigger, based on the field polarity otherwise only DISPC_VID1_BA_0 is used..."
hexmask.long 0x00 0.--31. 1. " BA           ,Video base address Base address of the video buffer (aligned on pixel size boundary except in case of RGB24 packed format, 4-pixel alignment is required; in case of YUV4:2:2, 2-pixel alignment is required, and YUV4:2:0, byte alignment is..."
group.long 0x650++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_H2_i_1,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used only..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3       ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "        FIRHC2         ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "    FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0       ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x654++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_HV2_i_1,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for Crb and Cr setti..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2       ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "        FIRVC1         ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "    FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4       ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0xFC++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_HV_i_1,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for ARGB and Y settin..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2       ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "        FIRVC1         ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "    FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4       ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0xF8++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_H_i_1,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow register,..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3       ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "        FIRHC2         ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "    FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0       ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x68C++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_V2_i_1,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used o..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22      ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "        FIRVC00        ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x1E4++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_V_i_1,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow regist..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22      ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "        FIRVC00        ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x6B0++0x3
line.long 0x00 "DISPC_VID2_ACCU2_j_1,The register configures the resize accumulator init values for horizontal and vertical up/downsampling of the video window 2 (DISPC_VID2_ACCU2_0 and DISPC_VID2_ACCU2_1 for ping-pong mechanism with external trigger, based on the fie..."
hexmask.long.word 0x00 16.--26. 1. " VERTICALACCU ,Vertical initialization accu value Encoded value (from ?1024 to 1023)."
hexmask.long.word 0x00 0.--10. 1. "      HORIZONTALACCU ,Horizontal initialization accu value Encoded value (from ?1024 to 1023)."
group.long 0x17C++0x3
line.long 0x00 "DISPC_VID2_ACCU_j_1,The register configures the resize accumulator init values for horizontal and vertical up/downsampling of the video window 2 (DISPC_VID2_ACCU_0 and DISPC_VID2_ACCU_1 for ping-pong mechanism with external trigger, based on the field ..."
hexmask.long.word 0x00 16.--26. 1. " VERTICALACCU ,Vertical initialization accumulator value encoded value (from ?1024 to 1023)."
hexmask.long.word 0x00 0.--10. 1. "      HORIZONTALACCU ,Horizontal initialization accumulator value encoded value (from ?1024 to 1023)."
group.long 0x60C++0x3
line.long 0x00 "DISPC_VID2_BA_UV_j_1,The register configures the base address of the UV buffer for the video window 2. (DISPC_VID2_BA_UV_0 and DISPC_VID2_BA_UV_1 for ping-pong mechanism with external trigger, based on the field polarity otherwise only DISPC_VID2_BA_UV..."
hexmask.long 0x00 0.--31. 1. " BA           ,Video base address aligned on 16-bit boundary Base address of the UV video buffer used only in case of YUV4:2:0-NV12 When the TILER is addressed, the bits: [28:27] = 0x0 for 8-bit tiled [28:27] = 0x1 for 16-bit tiled [28:27] = 0x2 for 32..."
group.long 0x150++0x3
line.long 0x00 "DISPC_VID2_BA_j_1,The register configures the base address of the video buffer for the video window 2 (DISPC_VID2_BA_0 and DISPC_VID2_BA_1 for ping-pong mechanism with external trigger, based on the field polarity otherwise only DISPC_VID2_BA_0 is used..."
hexmask.long 0x00 0.--31. 1. " BA           ,Video base address Base address of the video buffer (aligned on pixel size boundary except in case of RGB24 packed format, 4-pixel alignment is required; in case of YUV4:2:2, 2-pixel alignment is required, and YUV4:2:0, byte alignment is..."
group.long 0x6BC++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_H2_i_1,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used only..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3       ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "        FIRHC2         ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "    FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0       ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x6C0++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_HV2_i_1,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for Crb and Cr setti..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2       ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "        FIRVC1         ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "    FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4       ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x18C++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_HV_i_1,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for ARGB and Y settin..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2       ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "        FIRVC1         ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "    FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4       ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x188++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_H_i_1,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow register,..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3       ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "        FIRHC2         ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "    FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0       ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x6F8++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_V2_i_1,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used o..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22      ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "        FIRVC00        ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x204++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_V_i_1,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow regist..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22      ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "        FIRVC00        ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x72C++0x3
line.long 0x00 "DISPC_VID3_ACCU2_j_1,The register configures the resize accumulator init values for horizontal and vertical up/downsampling of the video window 3 (DISPC_VID3_ACCU2_0 and DISPC_VID3_ACCU2_1 for ping-pong mechanism with external trigger, based on the fie..."
hexmask.long.word 0x00 16.--26. 1. " VERTICALACCU ,Vertical initialization accu value Encoded value (from ?1024 to 1023)."
hexmask.long.word 0x00 0.--10. 1. "      HORIZONTALACCU ,Horizontal initialization accu value Encoded value (from ?1024 to 1023)."
group.long 0x304++0x3
line.long 0x00 "DISPC_VID3_ACCU_j_1,The register configures the resize accumulator init values for horizontal and vertical up/downsampling of the video window 3 (DISPC_VID3_ACCU_0 and DISPC_VID3_ACCU_1 for ping-pong mechanism with external trigger, based on the field ..."
hexmask.long.word 0x00 16.--26. 1. " VERTICALACCU ,Vertical initialization accu value Encoded value (from ?1024 to 1023)."
hexmask.long.word 0x00 0.--10. 1. "      HORIZONTALACCU ,Horizontal initialization accu value Encoded value (from ?1024 to 1023)."
group.long 0x614++0x3
line.long 0x00 "DISPC_VID3_BA_UV_j_1,The register configures the base address of the UV buffer for the video window 3. (DISPC_VID3_BA_UV_0 and DISPC_VID3_BA_UV_1 for ping-pong mechanism with external trigger, based on the field polarity otherwise only DISPC_VID3_BA_UV..."
hexmask.long 0x00 0.--31. 1. " BA           ,Video base address alinged on 16-bit boundary Base address of the UV video buffer used only in case of YUV4:2:0-NV12 When the TILER is addressed, the bits: [28:27] = 0x0 for 8-bit tiled [28:27] = 0x1 for 16-bit tiled [28:27] = 0x2 for 32..."
group.long 0x30C++0x3
line.long 0x00 "DISPC_VID3_BA_j_1,The register configures the base address of the video buffer for the video window 3 (DISPC_VID3_BA_0 and DISPC_VID3_BA_1 for ping-pong mechanism with external trigger, based on the field polarity otherwise only DISPC_VID3_BA_0 is used..."
hexmask.long 0x00 0.--31. 1. " BA           ,Video base address Base address of the video buffer (aligned on pixel size boundary except in case of RGB24 packed format, 4-pixel alignment is required; in case of YUV4:2:2, 2-pixel alignment is required, and YUV4:2:0, byte alignment is..."
group.long 0x738++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_H2_i_1,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used only..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3       ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "        FIRHC2         ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "    FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0       ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x73C++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_HV2_i_1,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for Crb and Cr setti..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2       ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "        FIRVC1         ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "    FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4       ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x31C++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_HV_i_1,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for ARGB and Y settin..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2       ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "        FIRVC1         ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "    FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4       ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x318++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_H_i_1,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow register,..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3       ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "        FIRHC2         ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "    FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0       ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x774++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_V2_i_1,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used o..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22      ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "        FIRVC00        ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x354++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_V_i_1,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow regist..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22      ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "        FIRVC00        ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x798++0x3
line.long 0x00 "DISPC_WB_ACCU2_j_1,The register configures the resize accumulator init values for horizontal and vertical up/downsampling of the write back pipeline (DISPC_WB_ACCU2_0 and DISPC_WB_ACCU2_1 for ping-pong mechanism with external trigger, based on the fiel..."
hexmask.long.word 0x00 16.--26. 1. " VERTICALACCU ,Vertical initialization accu value Encoded value (from ?1024 to 1023)."
hexmask.long.word 0x00 0.--10. 1. "      HORIZONTALACCU ,Horizontal initialization accu value Encoded value (from ?1024 to 1023)."
group.long 0x504++0x3
line.long 0x00 "DISPC_WB_ACCU_j_1,The register configures the resize accumulator init values for horizontal and vertical up/downsampling of the write back pipeline (DISPC_WB_ACCU_0 and DISPC_WB_ACCU_1 for ping-pong mechanism with external trigger, based on the field p..."
hexmask.long.word 0x00 16.--26. 1. " VERTICALACCU ,Vertical initialization accumulator value Encoded value (from ?1024 to 1023)."
hexmask.long.word 0x00 0.--10. 1. "      HORIZONTALACCU ,Horizontal initialization accumulator value encoded value (from ?1024 to 1023)."
group.long 0x61C++0x3
line.long 0x00 "DISPC_WB_BA_UV_j_1,The register configures the base address of the UV buffer for the write-back pipeline. (DISPC_WB_BA_UV_0 and DISPC_WB_BA_UV_1 for ping-pong mechanism with external trigger, based on the field polarity otherwise only DISPC_WB_BA_UV_0 ..."
hexmask.long 0x00 0.--31. 1. " BA           ,Video base address alinged on 16-bit boundary Base address of the UV video buffer used only in case of YUV4:2:0-NV12 When the TILER is addressed, the bits: [28:27] = 0x0 for 8-bit tiled [28:27] = 0x1 for 16-bit tiled [28:27] = 0x2 for 32..."
group.long 0x50C++0x3
line.long 0x00 "DISPC_WB_BA_j_1,The register configures the base address of the WB buffer (DISPC_WB_BA_0 and DISPC_WB_BA_1 for ping-pong mechanism with external trigger, based on the field polarity otherwise only DISPC_WB_BA_0 is used). Shadow register, updated when.G..."
hexmask.long 0x00 0.--31. 1. " BA           ,Write-back base address Base address of the WB buffer (aligned on pixel size boundary except in case of RGB24 packed format, 4-pixel alignment is required; in case of YUV4:2:2, 2-pixel alignment is required, and YUV4:2;0, byte alignment ..."
group.long 0x7A8++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_H2_i_1,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for Crb and Cr setting. It is used o..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3       ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "        FIRHC2         ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "    FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0       ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x7AC++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_HV2_i_1,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for Crb and Cr se..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2       ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "        FIRVC1         ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "    FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4       ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x51C++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_HV_i_1,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for ARGB and Y set..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2       ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "        FIRVC1         ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "    FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4       ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x518++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_H_i_1,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow regist..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3       ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "        FIRHC2         ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "    FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0       ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x7E4++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_V2_i_1,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for Crb and Cr setting. It is use..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22      ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "        FIRVC00        ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x554++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_V_i_1,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow reg..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22      ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "        FIRVC00        ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
tree.end
tree "Channel_2"
width 29.
group.long 0x658++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_H2_i_2,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used only..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x65C++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_HV2_i_2,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for Crb and Cr setti..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x104++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_HV_i_2,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for ARGB and Y settin..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x100++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_H_i_2,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow register,..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x690++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_V2_i_2,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used o..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x1E8++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_V_i_2,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow regist..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x6C4++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_H2_i_2,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used only..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x6C8++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_HV2_i_2,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for Crb and Cr setti..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x194++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_HV_i_2,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for ARGB and Y settin..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x190++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_H_i_2,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow register,..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x6FC++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_V2_i_2,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used o..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x208++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_V_i_2,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow regist..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x740++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_H2_i_2,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used only..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x744++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_HV2_i_2,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for Crb and Cr setti..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x324++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_HV_i_2,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for ARGB and Y settin..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x320++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_H_i_2,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow register,..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x778++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_V2_i_2,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used o..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x358++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_V_i_2,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow regist..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x7B0++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_H2_i_2,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for Crb and Cr setting. It is used o..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x7B4++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_HV2_i_2,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for Crb and Cr se..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x524++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_HV_i_2,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for ARGB and Y set..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x520++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_H_i_2,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow regist..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x7E8++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_V2_i_2,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for Crb and Cr setting. It is use..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x558++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_V_i_2,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow reg..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
tree.end
tree "Channel_3"
width 29.
group.long 0x660++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_H2_i_3,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used only..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x664++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_HV2_i_3,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for Crb and Cr setti..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x10C++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_HV_i_3,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for ARGB and Y settin..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x108++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_H_i_3,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow register,..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x694++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_V2_i_3,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used o..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x1EC++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_V_i_3,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow regist..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x6CC++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_H2_i_3,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used only..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x6D0++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_HV2_i_3,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for Crb and Cr setti..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x19C++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_HV_i_3,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for ARGB and Y settin..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x198++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_H_i_3,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow register,..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x700++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_V2_i_3,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used o..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x20C++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_V_i_3,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow regist..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x748++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_H2_i_3,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used only..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x74C++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_HV2_i_3,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for Crb and Cr setti..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x32C++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_HV_i_3,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for ARGB and Y settin..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x328++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_H_i_3,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow register,..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x77C++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_V2_i_3,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used o..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x35C++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_V_i_3,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow regist..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x7B8++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_H2_i_3,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for Crb and Cr setting. It is used o..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x7BC++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_HV2_i_3,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for Crb and Cr se..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x52C++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_HV_i_3,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for ARGB and Y set..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x528++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_H_i_3,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow regist..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x7EC++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_V2_i_3,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for Crb and Cr setting. It is use..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x55C++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_V_i_3,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow reg..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
tree.end
tree "Channel_4"
width 29.
group.long 0x668++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_H2_i_4,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used only..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x66C++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_HV2_i_4,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for Crb and Cr setti..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x114++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_HV_i_4,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for ARGB and Y settin..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x110++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_H_i_4,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow register,..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x698++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_V2_i_4,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used o..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x1F0++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_V_i_4,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow regist..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x6D4++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_H2_i_4,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used only..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x6D8++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_HV2_i_4,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for Crb and Cr setti..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x1A4++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_HV_i_4,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for ARGB and Y settin..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x1A0++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_H_i_4,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow register,..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x704++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_V2_i_4,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used o..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x210++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_V_i_4,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow regist..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x750++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_H2_i_4,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used only..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x754++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_HV2_i_4,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for Crb and Cr setti..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x334++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_HV_i_4,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for ARGB and Y settin..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x330++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_H_i_4,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow register,..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x780++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_V2_i_4,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used o..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x360++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_V_i_4,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow regist..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x7C0++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_H2_i_4,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for Crb and Cr setting. It is used o..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x7C4++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_HV2_i_4,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for Crb and Cr se..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x534++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_HV_i_4,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for ARGB and Y set..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x530++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_H_i_4,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow regist..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x7F0++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_V2_i_4,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for Crb and Cr setting. It is use..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x560++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_V_i_4,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow reg..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
tree.end
tree "Channel_5"
width 29.
group.long 0x670++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_H2_i_5,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used only..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x674++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_HV2_i_5,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for Crb and Cr setti..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x11C++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_HV_i_5,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for ARGB and Y settin..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x118++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_H_i_5,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow register,..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x69C++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_V2_i_5,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used o..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x1F4++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_V_i_5,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow regist..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x6DC++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_H2_i_5,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used only..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x6E0++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_HV2_i_5,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for Crb and Cr setti..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x1AC++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_HV_i_5,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for ARGB and Y settin..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x1A8++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_H_i_5,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow register,..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x708++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_V2_i_5,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used o..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x214++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_V_i_5,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow regist..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x758++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_H2_i_5,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used only..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x75C++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_HV2_i_5,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for Crb and Cr setti..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x33C++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_HV_i_5,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for ARGB and Y settin..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x338++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_H_i_5,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow register,..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x784++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_V2_i_5,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used o..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x364++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_V_i_5,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow regist..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x7C8++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_H2_i_5,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for Crb and Cr setting. It is used o..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x7CC++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_HV2_i_5,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for Crb and Cr se..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x53C++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_HV_i_5,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for ARGB and Y set..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x538++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_H_i_5,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow regist..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x7F4++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_V2_i_5,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for Crb and Cr setting. It is use..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x564++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_V_i_5,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow reg..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
tree.end
tree "Channel_6"
width 29.
group.long 0x678++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_H2_i_6,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used only..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x67C++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_HV2_i_6,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for Crb and Cr setti..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x124++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_HV_i_6,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for ARGB and Y settin..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x120++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_H_i_6,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow register,..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x6A0++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_V2_i_6,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used o..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x1F8++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_V_i_6,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow regist..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x6E4++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_H2_i_6,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used only..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x6E8++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_HV2_i_6,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for Crb and Cr setti..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x1B4++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_HV_i_6,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for ARGB and Y settin..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x1B0++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_H_i_6,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow register,..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x70C++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_V2_i_6,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used o..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x218++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_V_i_6,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow regist..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x760++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_H2_i_6,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used only..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x764++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_HV2_i_6,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for Crb and Cr setti..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x344++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_HV_i_6,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for ARGB and Y settin..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x340++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_H_i_6,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow register,..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x788++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_V2_i_6,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used o..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x368++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_V_i_6,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow regist..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x7D0++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_H2_i_6,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for Crb and Cr setting. It is used o..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x7D4++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_HV2_i_6,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for Crb and Cr se..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x544++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_HV_i_6,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for ARGB and Y set..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x540++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_H_i_6,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow regist..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x7F8++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_V2_i_6,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for Crb and Cr setting. It is use..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x568++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_V_i_6,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow reg..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
tree.end
tree "Channel_7"
width 29.
group.long 0x680++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_H2_i_7,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used only..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x684++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_HV2_i_7,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for Crb and Cr setti..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x12C++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_HV_i_7,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for ARGB and Y settin..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x128++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_H_i_7,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow register,..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x6A4++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_V2_i_7,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used o..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x1FC++0x3
line.long 0x00 "DISPC_VID1_FIR_COEF_V_i_7,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 1 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow regist..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x6EC++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_H2_i_7,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used only..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x6F0++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_HV2_i_7,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for Crb and Cr setti..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x1BC++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_HV_i_7,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for ARGB and Y settin..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x1B8++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_H_i_7,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow register,..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x710++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_V2_i_7,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used o..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x21C++0x3
line.long 0x00 "DISPC_VID2_FIR_COEF_V_i_7,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 2 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow regist..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x768++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_H2_i_7,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used only..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x76C++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_HV2_i_7,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for Crb and Cr setti..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x34C++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_HV_i_7,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for ARGB and Y settin..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x348++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_H_i_7,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow register,..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x78C++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_V2_i_7,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for Crb and Cr setting. It is used o..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x36C++0x3
line.long 0x00 "DISPC_VID3_FIR_COEF_V_i_7,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the video window 3 for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow regist..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x7D8++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_H2_i_7,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for Crb and Cr setting. It is used o..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x7DC++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_HV2_i_7,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for Crb and Cr se..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x54C++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_HV_i_7,The bank of registers configure the down/up/down-scaling coefficients for the vertical and horizontal resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for ARGB and Y set..."
hexmask.long.byte 0x00 24.--31. 1. " FIRVC2  ,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRVC1  ,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRVC0 ,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC4  ,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x548++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_H_i_7,The bank of registers configure the up/down-scaling coefficients for the horizontal resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow regist..."
hexmask.long.byte 0x00 24.--31. 1. " FIRHC3  ,Signed coefficient C3 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 16.--23. 1. "  FIRHC2  ,Unsigned coefficient C2 for the horizontal up/down-scaling with the phase n"
hexmask.long.byte 0x00 8.--15. 1. "  FIRHC1 ,Signed coefficient C1 for the horizontal up/down-scaling with the phase n"
textline "                                      "
hexmask.long.byte 0x00 0.--7. 1. " FIRHC0  ,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x7FC++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_V2_i_7,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for Crb and Cr setting. It is use..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
group.long 0x56C++0x3
line.long 0x00 "DISPC_WB_FIR_COEF_V_i_7,The bank of registers configure the down/up/down-scaling coefficients for the vertical resize of the video picture associated with the write back pipeline for the phases from 0 to 7. It is used for ARGB and Y setting. Shadow reg..."
hexmask.long.byte 0x00 8.--15. 1. " FIRVC22 ,Signed coefficient C22 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x00 0.--7. 1. "  FIRVC00 ,Signed coefficient C00 for the vertical up/down-scaling with the phase n"
tree.end
textline ""
width 30.
rgroup.long 0x0++0x3
line.long 0x00 "DISPC_REVISION,IP Revision"
hexmask.long 0x00 0.--31. 1. " REVISION                        ,IP revision"
group.long 0x10++0x3
line.long 0x00 "DISPC_SYSCONFIG,This register allows to control various parameters of the OCP interface."
bitfld.long 0x00 12.--13. " MIDLEMODE                       ,Master interface power management, standby/wait control - fStandBy. - nStandBy. - Sstandby. - Res." "fStandBy,nStandBy,Sstandby,Res"
bitfld.long 0x00 8.--9. "              CLOCKACTIVITY            ,Clocks activity during wake up mode period - OCPFuncOff. - FuncOff. - OCPOff. - OCPFuncOn." "OCPFuncOff,FuncOff,OCPOff,OCPFuncOn"
bitfld.long 0x00 5. "          WARMRESET                 ,Warm reset. Set this bit to 1 triggers a module warm reset. The bit is automatically reset by the hardware. During reads, it always returns 0. The warm reset keep the configuration registers unchanged. - Normal. - w..." "Normal,warmreset"
textline "                                       "
bitfld.long 0x00 3.--4. " SIDLEMODE                       ,Slave interface power management, Idle req/ack control - fIdle. - nIdle. - sIdle. - Res." "fIdle,nIdle,sIdle,Res"
bitfld.long 0x00 2. "                 ENWAKEUP                 ,WakeUp feature control - WakeUpDis. - WakeUpEnb." "WakeUpDis,WakeUpEnb"
bitfld.long 0x00 1. "           SOFTRESET                 ,Software reset. Set this bit to 1 to trigger a module reset. The bit is automatically reset by the hardware. During reads, it always returns 0. - nMode. - Rst." "nMode,Rst"
textline "                                       "
bitfld.long 0x00 0. " AUTOIDLE                        ,Internal interface clock gating strategy - ClkFree. - ClkGated." "ClkFree,ClkGated"
rgroup.long 0x14++0x3
line.long 0x00 "DISPC_SYSSTATUS,This register provides status information about the module, excluding the interrupt status information."
bitfld.long 0x00 0. " RESETDONE                       ,Internal reset monitoring - rstongoing. - rstcomp." "rstongoing,rstcomp"
group.long 0x18++0x3
line.long 0x00 "DISPC_IRQSTATUS,This register regroups all the status of the module internal events that generate an interrupt. Write 1 to a given bit resets this bit"
eventfld.long 0x00 31. " FLIPIMMEDIATEDONE_IRQ           ,Flip Immediate Done. The DMA engine has acknowledged the immediate BA change, and software can write the new BA0. - False. - True." "False,True"
eventfld.long 0x00 30. "                 FRAMEDONE3_IRQ           ,Frame done for the third LCD. The third LCD output has been disabled by user. All the data have been sent. - False. - True." "False,True"
eventfld.long 0x00 29. "               ACBIASCOUNT_STATUS3_IRQ   ,AC bias count status for the third LCD - False. - True." "False,True"
textline "                                       "
eventfld.long 0x00 28. " VSYNC3_IRQ                      ,Vertical synchronization for the third LCD - False. - True." "False,True"
eventfld.long 0x00 27. "                 SYNCLOST3_IRQ            ,Synchronization lost on the third LCD output. The required data are not output at the correct time due to too short blanking periods or stall of at least one pipelines associated with the third LCD output. - F..." "False,True"
eventfld.long 0x00 26. "               WBUNCOMPLETE_ERROR_IRQ    ,Write-back DMA buffer is flushed before it is completely drained. - In WB capture mode, if the new frame starts before the WB DMA buffers are fully drained (onto external memory), then the contents of the WB DM..." "0,1"
textline "                                       "
eventfld.long 0x00 25. " WBBUFFER_OVERFLOW_IRQ           ,Write-back DMA buffer overflow. The DMA buffer is full. - False. - True." "False,True"
eventfld.long 0x00 24. "                 FRAME_DONETV_IRQ         ,Frame done for the TV. The TV output has been disabled by user. All the data have been sent. - False. - True." "False,True"
eventfld.long 0x00 23. "               FRAME_DONEWB_IRQ          ,Frame done for the write-back channel. The write-back channel has output the frame. All the data of the frame have been sent to the memory. There is no pending data inside the DMA engine for the write-back chan..." "False,True"
textline "                                       "
eventfld.long 0x00 22. " FRAME_DONE2_IRQ                 ,Frame done for the secondary LCD. The secondary LCD output has been disabled by user. All the data have been sent. - False. - True." "False,True"
eventfld.long 0x00 21. "                 ACBIASCOUNT_STATUS2_IRQ  ,AC bias count status for the secondary LCD - False. - True." "False,True"
eventfld.long 0x00 20. "               VID3BUFFER_UNDERFLOW_IRQ  ,Video 3 DMA buffer underflow. The DMA buffer is not necessarily empty but required data are not present in the DMA buffer (due to out of order responses) - False. - True." "False,True"
textline "                                       "
eventfld.long 0x00 19. " VID3END_WINDOW_IRQ              ,The end of the video 3 window has been reached. It is detected by the overlay manager when the full video 3 has been displayed. - False. - True." "False,True"
eventfld.long 0x00 18. "                 VSYNC2_IRQ               ,Vertical synchronization for the secondary LCD - False. - True." "False,True"
eventfld.long 0x00 17. "               SYNC_LOST2_IRQ            ,Synchronization lost on the secondary LCD output. The required data are not output at the correct time due to too short blanking periods or stall of at least one pipelines associated with the secondary LCD outp..." "False,True"
textline "                                       "
eventfld.long 0x00 16. " WAKEUP_IRQ                      ,Wakeup - False. - True." "False,True"
eventfld.long 0x00 15. "                 SYNCLOST_TV_IRQ          ,Synchronization lost on the TV output. The required data are not output at the correct time due to too short blanking periods or stall of at least one pipelines associated with the TV output. - False. - True." "False,True"
eventfld.long 0x00 14. "               SYNC_LOST1_IRQ            ,Synchronizationl ost on the primary LCD output. The required data are not output at the correct time due to too short blanking periods or stall of at least one pipelines associated with the primary LCD output. ..." "False,True"
textline "                                       "
eventfld.long 0x00 13. " VID2END_WINDOW_IRQ              ,The end of the video 2 Window has been reached. It is detected by the overlay manager when the full video 2 has been displayed. - False. - True." "False,True"
eventfld.long 0x00 12. "                 VID2BUFFER_UNDERFLOW_IRQ ,Video 2 DMA buffer underflow. The DMA buffer is not necessarily empty but required data are not present in the DMA buffer (due to out of order responses) - False. - True." "False,True"
eventfld.long 0x00 11. "               VID1END_WINDOW_IRQ        ,The end of the video 1 Window has been reached. It is detected by the overlay manager when the full video 1 has been displayed. - False. - True." "False,True"
textline "                                       "
eventfld.long 0x00 10. " VID1BUFFER_UNDERFLOW_IRQ        ,Video 1 DMA buffer underflow. The DMA buffer is not necessarily empty but required data are not present in the DMA buffer (due to out of order responses) - False. - True." "False,True"
eventfld.long 0x00 9. "                 OCPERROR_IRQ             ,OCP error. L3_MAIN Interconnect has sent SResp=ERR. - False. - True." "False,True"
eventfld.long 0x00 8. "               PALETTEGAMMA_LOADING_IRQ  ,Palette Gamma loading status. The palette used as Color Look Up Table (CLUT) for the graphics BITMAP formats (1-, 2-, 4-, or 4-bpp) or as gamma table for the overlay output for the primary LCD output has been l..." "False,True"
textline "                                       "
eventfld.long 0x00 7. " GFXEND_WINDOW_IRQ               ,The end of the graphics wndow has been reached. It is detected by the overlay manager when the full graphics has been displayed. - False. - True." "False,True"
eventfld.long 0x00 6. "                 GFXBUFFER_UNDERFLOW_IRQ  ,Graphics DMA buffer underflow. The DMA buffer is not necessarily empty but required data are not present in the DMA buffer (due to out of order responses) - False. - True." "False,True"
eventfld.long 0x00 5. "               PROGRAMMED_LINENUMBER_IRQ ,Programmed line number. It indicates that the scan of the primary LCD has reached the programmed user line number. - False. - True." "False,True"
textline "                                       "
eventfld.long 0x00 4. " ACBIASCOUNT_STATUS1_IRQ         ,AC bias count status for the primary LCD - False. - True." "False,True"
eventfld.long 0x00 3. "                 EVSYNC__ODD_IRQ          ,VSYNC for odd field from the TV encoder (HDMI) - False. - True." "False,True"
eventfld.long 0x00 2. "               EVSYNC__EVEN_IRQ          ,VSYNC for even field from the TV encoder (HDMI) - False. - True." "False,True"
textline "                                       "
eventfld.long 0x00 1. " VSYNC1_IRQ                      ,Vertical synchronization for the primary LCD. - False. - True." "False,True"
eventfld.long 0x00 0. "                 FRAME_DONE1_IRQ          ,Frame done for the primary LCD. The primary LCD output has been disabled by user. All the data have been sent. - False. - True." "False,True"
group.long 0x1C++0x3
line.long 0x00 "DISPC_IRQENABLE,This register allows to mask/unmask the module internal sources of interrupt, on an event-by-event basis"
bitfld.long 0x00 31. " FLIPIMMEDIATEDONE_EN            ,Flip Immediate Done. The DMA engine has acknowledged the immediate BA change, and software can write the new BA0. - masked. - genint." "masked,genint"
bitfld.long 0x00 30. "                FRAME_DONE3_EN           ,Frame done for the third LCD. The third LCD output has been disabled by user. All the data have been sent. - masked. - genint." "masked,genint"
bitfld.long 0x00 29. "              ACBIASCOUNT_STATUS3_EN    ,AC Bias count status for the third LCD - masked. - genint." "masked,genint"
textline "                                       "
bitfld.long 0x00 28. " VSYNC3_EN                       ,Vertical synchronization for the third LCD - masked. - genint." "masked,genint"
bitfld.long 0x00 27. "                SYNC_LOST3_EN            ,Synchronization lost on the third LCD output. The required data are not output at the correct time due to too short blanking periods or stall of at least one pipelines associated with the third LCD output. - ma..." "masked,genint"
bitfld.long 0x00 26. "              WBUNCOMPLETE_ERROR_EN     ,The write back buffer has been flushed before been fully drained. Enable. - masked. - genint." "masked,genint"
textline "                                       "
bitfld.long 0x00 25. " WBBUFFER_OVERFLOW_EN            ,Write-back DMA buffer overflow. The DMA buffer is full. - masked. - genint." "masked,genint"
bitfld.long 0x00 24. "                FRAME_DONETV_EN          ,Frame done for the TV. The TV output has been disabled by user. All the data have been sent. - masked. - genint." "masked,genint"
bitfld.long 0x00 23. "              FRAME_DONEWB_EN           ,Frame done for the write-back channel. The write-back channel has output the frame. All the data have been sent for the frame have been sent to the memory. There is no pending data inside the DMA engine for the ..." "masked,genint"
textline "                                       "
bitfld.long 0x00 22. " FRAME_DONE2_EN                  ,Frame done for the secondary LCD. The secondary LCD output has been disabled by user. All the data have been sent. - masked. - genint." "masked,genint"
bitfld.long 0x00 21. "                ACBIASCOUNT_STATUS2_EN   ,AC Bias count status for the secondary LCD - masked. - genint." "masked,genint"
bitfld.long 0x00 20. "              VID3BUFFER_UNDERFLOW_EN   ,Video 3 DMA Buffer Underflow. The DMA buffer is not necessary empty but required data are not present in the DMA buffer (due to out of order responses) - masked. - genint." "masked,genint"
textline "                                       "
bitfld.long 0x00 19. " VID3END_WINDOW_EN               ,The end of the video 3 window has been reached. It is detected by the overlay manager when the full video 3 has been displayed. - masked. - genint." "masked,genint"
bitfld.long 0x00 18. "                VSYNC2_EN                ,Vertical synchronization for the secondary LCD - masked. - genint." "masked,genint"
bitfld.long 0x00 17. "              SYNC_LOST2_EN             ,Synchronization lost on the secondary LCD output. The required data are not output at the correct time due to too short blanking periods or stall of at least one pipelines associated with the secondary LCD outpu..." "masked,genint"
textline "                                       "
bitfld.long 0x00 16. " WAKEUP_EN                       ,Wake up mask - masked. - genint." "masked,genint"
bitfld.long 0x00 15. "                SYNC_LOSTTV_EN           ,Synchronization lost on the TV output. The required data are not output at the correct time due to too short blanking periods or stall of at least one pipelines associated with the TV output. - masked. - genint." "masked,genint"
bitfld.long 0x00 14. "              SYNC_LOST1_EN             ,Synchronization lost for the primary LCD - masked. - genint." "masked,genint"
textline "                                       "
bitfld.long 0x00 13. " VID2END_WINDOW_EN               ,The end of the video 2 Window has been reached. It is detected by the overlay manager when the full video 2 has been displayed. - masked. - genint." "masked,genint"
bitfld.long 0x00 12. "                VID2BUFFER_UNDERFLOW_EN  ,Video 2 DMA buffer underflow. The DMA buffer is not necessary empty but required data are not present in the DMA buffer (due to out of order responses) - masked. - genint." "masked,genint"
bitfld.long 0x00 11. "              ENDVID1_WINDOW_EN         ,The end of the video 1 window has been reached. It is detected by the overlay manager when the full video 1 has been displayed. - masked. - genint." "masked,genint"
textline "                                       "
bitfld.long 0x00 10. " VID1BUFFER_UNDERFLOW_EN         ,Video 1 DMA buffer underflow. The DMA buffer is not necessary empty but required data are not present in the DMA buffer (due to out of order responses) - masked. - genint." "masked,genint"
bitfld.long 0x00 9. "                OCPERROR_EN              ,OCP Error. L3_MAIN Interconnect has sent SResp=ERR. - masked. - genint." "masked,genint"
bitfld.long 0x00 8. "              PALETTE_GAMMA_EN          ,Palette gamma loading mask. The palette used as Color Look Up Table (CLUT) for the graphics BITMAP formats (1-, 2-, 4-, or 4-bpp) or as gamma table for the overlay output for the primary LCD output has been load..." "masked,genint"
textline "                                       "
bitfld.long 0x00 7. " GFXEND_WINDOW_EN                ,The end of the graphics Window has been reached. It is detected by the overlay manager when the full graphics has been displayed. - masked. - genint." "masked,genint"
bitfld.long 0x00 6. "                GFXBUFFER_UNDERFLOW_EN   ,Graphics DMA Buffer Underflow. The DMA buffer is not necessarily empty but required data are not present in the DMA buffer (due to out of order responses) - masked. - genint." "masked,genint"
bitfld.long 0x00 5. "              PROGRAMMED_LINENUMBER_EN  ,Programmed Line Number. It indicates that the scan of the primary LCD has reached the programmed user line number. - masked. - genint." "masked,genint"
textline "                                       "
bitfld.long 0x00 4. " ACBIASCOUNT_STATUS1_EN          ,AC Bias count status for the primary LCD - masked. - genint." "masked,genint"
bitfld.long 0x00 3. "                EVSYNC_ODD_EN            ,VSYNC for odd field from the TV encoder (HDMI) - masked. - genint." "masked,genint"
bitfld.long 0x00 2. "              EVSYNC_EVEN_EN            ,VSYNC for even field from the TV encoder (HDMI) - masked. - genint." "masked,genint"
textline "                                       "
bitfld.long 0x00 1. " VSYNC1_EN                       ,Vertical synchronization for the primary LCD. - masked. - genint." "masked,genint"
bitfld.long 0x00 0. "                FRAMEDONE_EN             ,Frame done for the primary LCD. The primary LCD output has been disabled by user. All the data have been sent. - masked. - genint." "masked,genint"
group.long 0x40++0x3
line.long 0x00 "DISPC_CONTROL1,The control register configures the Display Controller module for the primary LCD and TV outputs."
bitfld.long 0x00 30.--31. " SPATIALTEMPORAL_DITHERINGFRAMES ,Spatial/temporal dithering number of frames for the primary LCD output wr: VFP start period of primary LCD - OneFrame. - TwoFrames. - FourFrames. - Reserved." "OneFrame,TwoFrames,FourFrames,Reserved"
bitfld.long 0x00 29. "            LCDENABLEPOL             ,Write 0s for future compatibility. Reads return 0." "0,1"
bitfld.long 0x00 28. "                   LCDENABLESIGNAL           ,Write 0s for future compatibility. Reads return 0." "0,1"
textline "                                       "
bitfld.long 0x00 27. " PCKFREEENABLE                   ,Write 0s for future compatibility. Reads return 0." "0,1"
bitfld.long 0x00 25.--26. "                     TDMUNUSEDBITS            ,State of unused bits (TDM mode only) for the primary LCD output. wr: VFP start period of primary LCD - LowLevel. - HighLevel. - Unchanged. - Res." "LowLevel,HighLevel,Unchanged,Res"
bitfld.long 0x00 23.--24. "           TDMCYCLEFORMAT            ,Cycle format (TDM mode only) for the primary LCD output WR: VFP start period of primary LCD - 1CycPerPix. - 2CycPerPix. - 3CycPerPix. - 3CycPer2Pix." "1CycPerPix,2CycPerPix,3CycPerPix,3CycPer2Pix"
textline "                                       "
bitfld.long 0x00 21.--22. " TDMPARALLELMODE                 ,Output interface width (TDM mode only) for the primary LCD output WR: VFP start period of primary LCD - 8bParaInt. - 9bParaInt. - 12bParaInt. - 16bParaInt." "8bParaInt,9bParaInt,12bParaInt,16bParaInt"
bitfld.long 0x00 20. "            TDMENABLE                ,Enable the multiple cycle format for the primary LCD output. WR: VFP start period of primary LCD - TDMDis. - TDMEnb." "TDMDis,TDMEnb"
bitfld.long 0x00 17.--19. "              HT                        ,Hold time for TV output WR: EVSYNC Encoded value (from 1 to 8) to specify the number of external digital clock periods to hold the data (programmed value = value minus 1)" "0,1,2,3,4,5,6,7"
textline "                                       "
bitfld.long 0x00 16. " GPOUT1                          ,General purpose output signal l WR: immediate - reset. - set." "reset,set"
bitfld.long 0x00 15. "                 GPOUT0                   ,General Purpose Output Signal WR:immediate - reset. - set." "reset,set"
bitfld.long 0x00 14. "               GPIN1                     ,General purpose input signal WR: immediately - reset. - set." "reset,set"
textline "                                       "
bitfld.long 0x00 13. " GPIN0                           ,General purpose input signal WR: immediately - GPin0Rst. - GPin0Set." "GPin0Rst,GPin0Set"
bitfld.long 0x00 12. "              OVERLAYOPTI_MIZATION     ,Overlay optimization for the primary LCD output WR: VFP start period of the primary LCD - GDBVWfM. - GDBVWnfM." "GDBVWfM,GDBVWnfM"
bitfld.long 0x00 11. "            STALLMODE                 ,STALL mode for the primary LCD output wr: VFP start period of primary LCD - . - ." "nMode,RFBIMode"
textline "                                       "
bitfld.long 0x00 8.--9. " TFTDATALINES                    ,Number of lines of the primary LCD interface WR: VFP start period of primary LCD - OaLSB12b. - OaLSB16b. - OaLSB18b. - OaLSB24b." "OaLSB12b,OaLSB16b,OaLSB18b,OaLSB24b"
bitfld.long 0x00 7. "              STDITHERENABLE           ,Spatial temporal dithering enable for the primary LCD output WR: VFP start period of primary LCD - STDithDis. - STDithEnb." "STDithDis,STDithEnb"
bitfld.long 0x00 6. "           GOTV                      ,GO command for the TV output. It is used to synchronized the pipelines (graphics and/or video ones) associated with the TV output. WR: immediate - HfUISR. - UfPSR." "HfUISR,UfPSR"
textline "                                       "
bitfld.long 0x00 5. " GOLCD                           ,GO command for the primary LCD output. It is used to synchronized the pipelines (graphics and/or video ones) associated with the primary LCD output. WR: immediate - HfUISR. - UfPSR." "HfUISR,UfPSR"
bitfld.long 0x00 4. "                M8B                      ,Mono 8-bit mode of the primary LCD wr: VFP start period of primary LCD output - 4PixtoPanel. - 8PixtoPanel." "4PixtoPanel,8PixtoPanel"
bitfld.long 0x00 3. "         STNTFT                    ,LCD Display type of the primary LCD WR: VFP start period of primary LCD output - STNdispEnb. - ATFTDisEnb." "STNdispEnb,ATFTDisEnb"
textline "                                       "
bitfld.long 0x00 2. " MONOCOLOR                       ,Monochrome/color selection for the primary LCD WR: VFP start period of primary LCD output - ColOpEnb. - MonOpEnb." "ColOpEnb,MonOpEnb"
bitfld.long 0x00 1. "              TVENABLE                 ,Enable the TV output wr: immediate effect only occurs at the end of the current frame. - DigOpDis. - DigOpEnb." "DigOpDis,DigOpEnb"
bitfld.long 0x00 0. "            LCDENABLE                 ,Enable the primary LCD outputs wr: immediate Effect only occurs at the end of the current frame - LCDOpDis. - LCDOpEnb." "LCDOpDis,LCDOpEnb"
group.long 0x44++0x3
line.long 0x00 "DISPC_CONFIG1,The control register configures the Display Controller module for the primary LCD output and TV output. Shadow register, updated on VFP start period of primary LCD or EVSYNC or when.GOWB is set to 1 by software and current WB frame is fin..."
bitfld.long 0x00 28.--29. " TVINTERLEAVE                    ,TV Interleave Pattern" "0,1,2,3"
bitfld.long 0x00 26.--27. "                     PLCDINTERLEAVE           ,pLCD Interleave Pattern" "0,1,2,3"
bitfld.long 0x00 25. "                   FULLRANGE                 ,Color Space Conversion full range setting. wr: VFP start of primary LCD - Limrange. - FullRange." "Limrange,FullRange"
textline "                                       "
bitfld.long 0x00 24. " COLORCONV_ENABLE                ,Enable the color space conversion. It shall be reset when CPR bit field is set to 0x1. wr: VFP start of primary LCD - ColSpCDis. - ColSpCEnb." "ColSpCDis,ColSpCEnb"
bitfld.long 0x00 23. "             FIDFIRST                 ,Selects the first field to output in case of interlace mode. In case of progressive mode, the value is not used. wr: VFP start of primary LCD - Even. - Odd." "Even,Odd"
bitfld.long 0x00 22. "                OUTPUTMODE_ENABLE         ,Selects between progressive and interlace mode for the primary LCD output. wr: VFP start of primary LCD - Disable. - Enable." "Disable,Enable"
textline "                                       "
bitfld.long 0x00 21. " BT1120ENABLE                    ,Selects BT.1120 format on the primary LCD output. It is not posssible to enable BT.656 and BT.1120 at the same time one the same LCD output. wr: VFP start of primary LCD - . - ." "Disable,Enable"
bitfld.long 0x00 20. "               BT656ENABLE              ,Selects BT.656 format on the primary LCD output. It is not posssible to enable BT.656 and BT.1120 at the same time one the same LCD output. wr: VFP start of primary LCD - . - ." "Disable,Enable"
bitfld.long 0x00 19. "             TVALPHABLENDER_ENABLE     ,Selects the alpha blender overlay manager for the TV output instead of the color key alpha blender (LCD output). The bit field is deprecated. It is present for software backward compatibility only. When it is ena..." "Disable,Enable"
textline "                                       "
bitfld.long 0x00 18. " LCDALPHABLENDER_ENABLE          ,Selects the alpha blender overlay manager for the primary LCD output instead of the color key alpha blender (LCD output). The bit field is deprecated. It is present for software backward compatibility only. When it is ..." "Disable,Enable"
bitfld.long 0x00 17. "               BUFFERFILLING            ,Controls if the DMA buffers are refilled only when the LOW threshold is reached or if all DMA buffers are refilled when at least one of them reaches the LOW threshold. wr: immediate - FIFOfillingDis. - FIFOfilli..." "FIFOfillingDis,FIFOfillingEnb"
bitfld.long 0x00 15. "      CPR                       ,Color phase rotation control (primary LCD output). It shall be reset when ColorConvEnable bit field is set to 1 wr: VFP start period of primary LCD output - CPRDis. - CPREnb." "CPRDis,CPREnb"
textline "                                       "
bitfld.long 0x00 14. " BUFFERMERGE                     ,Buffer merge control wr: EVSYNC or whenDISPC_CONTROL2.GOWB is set to 1 by software and current WB frame is finished (no more data in the write-back pipeline). The synchronization event is defined based on the output us..." "MergeDis,MergeEnb"
bitfld.long 0x00 13. "              TCKTV_SELECTION          ,Transparency color key selection (TV output) wr: EVSYNC - GDTCK. - VSTCK." "GDTCK,VSTCK"
bitfld.long 0x00 12. "               TCKTVENABLE               ,Transparency color key enabled (TV output) WR: EVSYNC - DisTCK. - EnbTCK." "DisTCK,EnbTCK"
textline "                                       "
bitfld.long 0x00 11. " TCKLCD_SELECTION                ,Transparency color key selection (primary LCD output) wr: VFP start period of primary LCD output - GDTK. - VSTK." "GDTK,VSTK"
bitfld.long 0x00 10. "                  TCKLCDENABLE             ,Transparency color key enabled (primary LCD output) wr: VFP start period of primary LCD output - DisTCK. - EnbTCK." "DisTCK,EnbTCK"
bitfld.long 0x00 9. "              GAMATABLE_ENABLE          ,For backward compatibility, an enable bit has been added on the 2 additional gamma tables (secondary display and TV). Gamma table of LCD1 is always enabled. - GammaTableEn. - GammaTableDis." "GammaTableEn,GammaTableDis"
textline "                                       "
bitfld.long 0x00 8. " ACBIASGATED                     ,ACBias Gated Enabled (primary LCD output) wr: VFP start period of primary LCD output - ACBGDis. - ACBGEnb." "ACBGDis,ACBGEnb"
bitfld.long 0x00 7. "               VSYNCGATED               ,VSYNC Gated Enabled (primary LCD output) wr: VFP start period of primary LCD output - VGDis. - VGEnb." "VGDis,VGEnb"
bitfld.long 0x00 6. "               HSYNCGATED                ,HSYNC Gated Enabled (primary LCD output) wr: VFP start period of primary LCD output - HGDis. - HGEnb." "HGDis,HGEnb"
textline "                                       "
bitfld.long 0x00 5. " PIXELCLOCK_GATED                ,Pixel Clock Gated Enabled (primary LCD output) wr: VFP start period of primary LCD output - PCGDis. - PCGEnb." "PCGDis,PCGEnb"
bitfld.long 0x00 4. "                PIXELDATAGATED           ,Pixel data gated enabled (primary LCD output) wr: VFP start period of primary LCD output - PDGDis. - PDGEnb." "PDGDis,PDGEnb"
bitfld.long 0x00 3. "              PALETTEGAMMA_TABLE        ,Palette/gamma table selection wr: VFP start period of primary LCD output or VFP start period of secondary LCD output or EVSYNC or whenDISPC_CONTROL2.GOWB is set to 1 by software and current WB frame is finished ..." "LUTPallette,LUTgTable"
textline "                                       "
bitfld.long 0x00 1.--2. " LOADMODE                        ,Loading mode for the palette/gamma table wr: VFP start period of primary LCD output or VFP start period of secondary LCD output or EVSYNC or whenDISPC_CONTROL2.GOWB is set to 1 by software and current WB frame is finis..." "PgTabLeFr,FrDatLeFr,FrDatLeFr,DLoFrSw"
bitfld.long 0x00 0. "             PIXELGATED               ,Pixel gated enable (only for TFT) (primary LCD output) wr: VFP start period of primary LCD output - PclkTogA. - PclkTogV." "PclkTogA,PclkTogV"
group.long 0x4C++0x3
line.long 0x00 "DISPC_DEFAULT_COLOR0,The control register allows to configure the default solid background color for the primary LCD. Shadow register, updated on VFP start period of the primary LCD"
hexmask.long.tbyte 0x00 0.--23. 1. " DEFAULTCOLOR                    ,24-bit RGB color value to specify the default solid color to display when there is no data from the overlays."
group.long 0x50++0x3
line.long 0x00 "DISPC_DEFAULT_COLOR1,The control register allows to configure the default solid background color for the TV output. Shadow register, updated on EVSYNC"
hexmask.long.tbyte 0x00 0.--23. 1. " DEFAULTCOLOR                    ,24-bit RGB color value to specify the default solid color to display when there is no data from the overlays."
group.long 0x54++0x3
line.long 0x00 "DISPC_TRANS_COLOR0,The register sets the transparency color value for the video/graphics overlays for the primary LCD output. Shadow register, updated on VFP start period of the primary LCD"
hexmask.long.tbyte 0x00 0.--23. 1. " TRANSCOLORKEY                   ,Transparency color key value in RGB format [0] BITMAP 1 (CLUT), [23,1] set to 0s [1:0] BITMAP 2 (CLUT), [23,2] set to 0s [3:0] BITMAP 4 (CLUT), [23,4] set to 0s [7:0] BITMAP 8 (CLUT), [23,8] set to 0s [11:0] RGB 12, [2..."
group.long 0x58++0x3
line.long 0x00 "DISPC_TRANS_COLOR1,The register sets the transparency color value for the video/graphics overlays for the TV output. Shadow register, updated on EVSYNC"
hexmask.long.tbyte 0x00 0.--23. 1. " TRANSCOLORKEY                   ,Transparency color key value in RGB format [0] BITMAP 1 (CLUT), [23,1] set to 0s [1:0] BITMAP 2 (CLUT), [23,2] set to 0s [3:0] BITMAP 4 (CLUT), [23,4] set to 0s [7:0] BITMAP 8 (CLUT), [23,8] set to 0s [11:0] RGB 12, [2..."
rgroup.long 0x5C++0x3
line.long 0x00 "DISPC_LINE_STATUS,The control register indicates the current primary LCD panel display line number."
hexmask.long.word 0x00 0.--11. 1. " LINENUMBER                      ,Current LCD panel line number Current display line number. The first active line has the value 0. During blanking lines the line number is not incremented."
group.long 0x60++0x3
line.long 0x00 "DISPC_LINE_NUMBER,The control register indicates the primary LCD panel display line number for the interrupt and the DMA request. Shadow register, updated on VFP start period of primary LCD."
hexmask.long.word 0x00 0.--11. 1. " LINENUMBER                      ,LCD panel line number programming LCD line number defines the line on which the programmable interrupt is generated and the DMA request occurs."
group.long 0x64++0x3
line.long 0x00 "DISPC_TIMING_H1,The register configures the timing logic for the HSYNC signal. It is used for the primary LCD output. Shadow register, updated on VFP start period of primary LCD"
hexmask.long.word 0x00 20.--31. 1. " HBP                             ,Horizontal Back Porch. Encoded value (from 1 to 4096) to specify the number of pixel clock periods to add to the beginning of a line transmission before the first set of pixels is output to the display (program to valu..."
hexmask.long.word 0x00 8.--19. 1. "                  HFP                      ,Horizontal front porch. Encoded value (from 1 to 4096) to specify the number of pixel clock periods to add to the end of a line transmission before line clock is asserted (program to value minus 1). When in B..."
hexmask.long.byte 0x00 0.--7. 1. "                HSW                       ,Horizontal synchronization pulse width Encoded value (from 1 to 256) to specify the number of pixel clock periods to pulse the line clock at the end of each line (program to value minus 1). When in BT mode, th..."
group.long 0x68++0x3
line.long 0x00 "DISPC_TIMING_V1,The register configures the timing logic for the VSYNC signal. It is used for the primary LCD output. Shadow register, updated on VFP start period of primary LCD"
hexmask.long.word 0x00 20.--31. 1. " VBP                             ,Vertical back porch encoded value (from 0 to 4095) to specify the number of line clock periods to add to the beginning of a frame."
hexmask.long.word 0x00 8.--19. 1. "                  VFP                      ,Vertical front porch encoded value (from 0 to 4095) to specify the number of line clock periods to add to the end of each frame."
hexmask.long.byte 0x00 0.--7. 1. "                VSW                       ,Vertical synchronization pulse width In active mode, encoded value (from 1 to 256) to specify the number of line clock periods (program to value minus 1) to pulse the frame clock (VSYNC) pin at the end of each..."
group.long 0x6C++0x3
line.long 0x00 "DISPC_POL_FREQ1,The register configures the signal configuration. It is used for the primary LCD output. Shadow register, updated on VFP start period of primary LCD."
bitfld.long 0x00 18. " ALIGN                           ,Defines the alignment between HSYNC and VSYNC assertion. - notAligned. - Aligned." "notAligned,Aligned"
bitfld.long 0x00 17. "            ONOFF                    ,HSYNC/VSYNC Pixel clock Control On/Off - DOpEdPCk. - DBit16. Note: Control module register CTRL_CORE_SMA_SW_1[22]DSS_CH0_ON_OFF must be set to match. - DBit16." "DOpEdPCk,DBit16"
bitfld.long 0x00 16. "            RF                        ,Program HSYNC/VSYNC Rise or Fall - DFEdPCk. - DRiEdPCk. Note: Control module register CTRL_CORE_SMA_SW_1[16]DSS_CH0_RF must be set to match. - DRiEdPCk." "DFEdPCk,DRiEdPCk"
textline "                                       "
bitfld.long 0x00 15. " IEO                             ,Invert output enable - ACBaHigh. - ACBaLow." "ACBaHigh,ACBaLow"
bitfld.long 0x00 14. "              IPC                      ,Invert pixel clock - DrPCk. - DfPCk. Note: Control module register CTRL_CORE_SMA_SW_1[19]DSS_CH0_IPC must be set to match. - DfPCk." "DrPCk,DfPCk"
bitfld.long 0x00 13. "               IHS                       ,Invert HSYNC - LCkpinAh. - LCkpinAl." "LCkpinAh,LCkpinAl"
textline "                                       "
bitfld.long 0x00 12. " IVS                             ,Invert VSYNC - FCkpinAh. - FCkpinAl." "FCkpinAh,FCkpinAl"
bitfld.long 0x00 8.--11. "              ACBI                     ,AC Bias pin transitions per interrupt Value (from 0 to 15) used to specify the number of AC Bias pin transitions" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 0.--7. 1. "                  ACB                       ,AC Bias pin frequency value (from 0 to 255) used to specify the number of line clocks to count before transitioning the AC Bias pin. This pin is used to periodically invert the polarity of the power supply t..."
group.long 0x70++0x3
line.long 0x00 "DISPC_DIVISOR1,The register configures the divisors. It is used for the primary LCD output Shadow register, updated on VFP start period of primary LCD"
hexmask.long.byte 0x00 16.--23. 1. " LCD                             ,Display controller logic clock divisor value (from 1 to 255) to specify the intermediate pixel clock frequency based on the LCD1_CLK. The value 0 is invalid."
hexmask.long.byte 0x00 0.--7. 1. "                    PCD                      ,Pixel clock divisor value (from 1 to 255) to specify the frequency of the pixel clock based on the LCD1_CLK divided byDISPC_DIVISOR1.LCD value. The values 0 is invalid."
group.long 0x74++0x3
line.long 0x00 "DISPC_GLOBAL_ALPHA,The register defines the global alpha value for the graphics and three video pipelines. Shadow register, updated on VFP start period of primary LCD or VFP start period of the third LCD or VFP start period of the secondary LCD or VFP ..."
hexmask.long.byte 0x00 24.--31. 1. " VID3GLOBALALPHA                 ,Global alpha value from 0 to 255. 0 corresponds to fully transparent and 255 to fully opaque."
hexmask.long.byte 0x00 16.--23. 1. "                    VID2GLOBALALPHA          ,Global alpha value from 0 to 255. 0 corresponds to fully transparent and 255 to fully opaque."
hexmask.long.byte 0x00 8.--15. 1. "                  VID1GLOBALALPHA           ,Global alpha value from 0 to 255. 0 corresponds to fully transparent and 255 to fully opaque."
textline "                                       "
hexmask.long.byte 0x00 0.--7. 1. " GFXGLOBALALPHA                  ,Global alpha value from 0 to 255. 0 corresponds to fully transparent and 255 to fully opaque."
group.long 0x78++0x3
line.long 0x00 "DISPC_SIZE_TV,The register configures the size of the TV output field (interlace), frame (progressive) (horizontal and vertical). Shadow register, updated on EVSYNC. A delta value is used to indicate if the odd field has same vertical size as the even ..."
hexmask.long.word 0x00 16.--27. 1. " LPP                             ,Lines per panel encoded value (from 1 to 4096) to specify the number of lines per panel."
bitfld.long 0x00 14.--15. "                  DELTA_LPP                ,Indicates the delta size value of the odd field compared to the even field - same. - PlusOne. - MinusOne." "same,PlusOne,MinusOne,3"
hexmask.long.word 0x00 0.--11. 1. "            PPL                       ,Pixels per line encoded value (from 1 to 4096) to specify the number of pixels contains within each line on the display."
group.long 0x7C++0x3
line.long 0x00 "DISPC_SIZE_LCD1,The register configures the panel size (horizontal and vertical). Shadow register, updated on VFP start period of primary LCD. A delta value is used to indicate if the odd field has same vertical size as the even field or +/- one line."
hexmask.long.word 0x00 16.--27. 1. " LPP                             ,Lines per panel encoded value (from 1 to 4096) to specify the number of lines per panel (program to value minus 1)."
bitfld.long 0x00 14.--15. "                  DELTA_LPP                ,Indicates the delta size value of the odd field compared to the even field - Same. - PlusOne. - MinusOne." "Same,PlusOne,MinusOne,3"
hexmask.long.word 0x00 0.--11. 1. "            PPL                       ,Pixels per line encoded value (from 1 to 4096) to specify the number of pixels contains within each line on the display (program to value minus 1). In STALL mode, any value is valid. In non STALL mode, only values..."
group.long 0x88++0x3
line.long 0x00 "DISPC_GFX_POSITION,The register configures the position of the graphics window. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third LCD or EVSYNC or when.GOWB is set to 1..."
hexmask.long.word 0x00 16.--26. 1. " POSY                            ,Y position of the graphics window. Encoded value (from 0 to 2047) to specify the Y position of the graphics window on the screen. The line at the top has the Y-position 0."
hexmask.long.word 0x00 0.--10. 1. "                  POSX                     ,X position of the graphics window. Encoded value (from 0 to 2047) to specify the X position of the graphics window on the screen. The first pixel on the left of the screen has the X-position 0."
group.long 0x8C++0x3
line.long 0x00 "DISPC_GFX_SIZE,The register configures the size of the graphics window. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third LCD or EVSYNC or when.GOWB is set to 1 by soft..."
hexmask.long.word 0x00 16.--27. 1. " SIZEY                           ,Number of lines of the graphics window. Encoded value (from 1 to 4096) to specify the number of lines of the graphics window (program to value minus 1)."
hexmask.long.word 0x00 0.--10. 1. "                  SIZEX                    ,Number of pixels of the graphics window. Encoded value (from 1 to 2048) to specify the number of pixels per line of the graphics window (program to value minus 1)."
group.long 0xA0++0x3
line.long 0x00 "DISPC_GFX_ATTRIBUTES,The register configures the graphics attributes. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third LCD or EVSYNC or when.GOWB is set to 1 by softwa..."
bitfld.long 0x00 30.--31. " CHANNELOUT2                     ,It is not used if CHANNELOUT is set to TV. Reserved when CHANNELOUT = 1 (should set to zero) wr: immediate - PrimaryLCDSel. - SecondaryLCDSel. - ThirdLCDSel. - WriteBacksel." "PrimaryLCDSel,SecondaryLCDSel,ThirdLCDSel,WriteBacksel"
bitfld.long 0x00 29. "       BURSTTYPE                ,The type of burst can be INCR (incremental) or BLCK (2D block). The 2D block is required when the TILER is targeted by the DMA engine. (It does not apply to the palette loading OCP requests using INCR burst only) - INC...." "INC,BLCK"
bitfld.long 0x00 28. "                PREMULTIPLYALPHA          ,The field configures the DISPC GFX to process incoming data as premultiplied alpha data or non premultiplied alpha data. Default setting is non premultiplied alpha data. - PremultipliedAlpha. - PremultipliedAl..." "PremultipliedAlpha,PremultipliedAlpha"
textline "                                       "
bitfld.long 0x00 26.--27. " ZORDER                          ,Z-Order defining the priority of the layer compared to others when overlaying. It is software responsibility to ensure that each layer connected to the same overlay manager has a different z-order value. If bit 25 is s..." "zorder0,zorder1,zorder2,zorder3"
bitfld.long 0x00 25. "               ZORDERENABLE             ,Z-order Enable. The bit field ZORDER is only used when the Z-order is enabled. - ZorderDis. - ZorderEnb." "ZorderDis,ZorderEnb"
bitfld.long 0x00 24. "           ANTIFLICKER               ,Antiflicker filtering using a 3-tap filter with hardcoded coefficients (1/4, 1/2, 1/4) - AFDis. - AFEnb." "AFDis,AFEnb"
textline "                                       "
bitfld.long 0x00 18.--20. " SUBSAMPLINGPATTERN              ,Subsampling pattern setting." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 17. "                     SELFREFRESHAUTO          ,Automatic self-refresh mode - SelfRefreshAutoDis. - SelfRefreshAutoEn." "SelfRefreshAutoDis,SelfRefreshAutoEn"
bitfld.long 0x00 16. "  FORCE1DTILEDMODE          ,Force TILED regions access to 1D or 2D. - TiledRegions2DAccess. - TiledRegions1DAccess." "TiledRegions2DAccess,TiledRegions1DAccess"
textline "                                       "
bitfld.long 0x00 15. " SELFREFRESH                     ,Enables the self refresh of the graphics window from its own DMA buffer. This bit should be set only after having set the GO bit of the channel and read back a zero in its field. - SelfRefreshDis. - SelfRefreshEnb." "SelfRefreshDis,SelfRefreshEnb"
bitfld.long 0x00 14. "        ARBITRATION              ,Determines the priority of the graphics pipeline. When the graphics pipeline is one of the high priority pipelines. The arbitration wheel gives always the priority first to the high priority pipelines using round-robin..." "NormalPrio,HighPrio"
bitfld.long 0x00 12.--13. "          ROTATION                  ,Graphics rotation flag - NoRot. - Rot90. - Rot270. - Rot180." "NoRot,Rot90,Rot180,Rot270"
textline "                                       "
bitfld.long 0x00 11. " BUFPRELOAD                      ,Graphics preload value - DefVal. - HighThres." "DefVal,HighThres"
bitfld.long 0x00 10. "             FRAMEPACKINGMODE         ,Frame packing mode control. - FPMDis. - FPMEnb." "FPMDis,FPMEnb"
bitfld.long 0x00 9. "              NIBBLEMODE                ,Graphics nibble mode (only for 1-, 2- and 4 bpp) - NibMDis. - NibMEnb." "NibMDis,NibMEnb"
textline "                                       "
bitfld.long 0x00 8. " CHANNELOUT                      ,Graphics Channel Out configuration: LCD, WB or TV. wr: immediate - LCDOpSel. - TVOpSel." "LCDOpSel,TVOpSel"
bitfld.long 0x00 6.--7. "              BURSTSIZE                ,Graphics DMA burst size - Burst2x128. - Burst4x128. - Res. - Burst8x128." "Burst2x128,Burst4x128,Burst8x128,Res"
bitfld.long 0x00 5. "          REPLICATIONENABLE         ,Graphics replication enabled: RGB . ARGB, and RGBA formats are converted into ARGB32-8888 using replication of the MSBs or 0s - GRLogEnb. - GRLogDis." "GRLogEnb,GRLogDis"
textline "                                       "
bitfld.long 0x00 1.--4. " FORMAT                          ,Graphics format. It defines the pixel format when fetching the graphics picture into memory. - RGB16. - RGBx12. - ARGB16_1. - RGBA32. - xRGB24. - RGB24p. - RGBA12. - xRGB12. - ARGB16. - xRGB15. - ARGB32. - BGRA32. - Bi..." "0,1,2,BGRA32,xRGB12,ARGB16,RGB16,ARGB16_1,xRGB24,RGB24p,RGBx12,RGBA12,ARGB32,RGBA32,BitMap8,xRGB15"
bitfld.long 0x00 0. "              ENABLE                   ,Graphics enable - GraphicsDis. - GraphicsEnb." "GraphicsDis,GraphicsEnb"
group.long 0xA4++0x3
line.long 0x00 "DISPC_GFX_BUF_THRESHOLD,The register configures the graphics buffer. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third LCD or EVSYNC or when.GOWB is set to 1 by softwar..."
hexmask.long.word 0x00 16.--31. 1. " BUFHIGHTHRESHOLD                ,DMA buffer high threshold number of 128 bits defining the threshold value"
hexmask.long.word 0x00 0.--15. 1. "                  BUFLOWTHRESHOLD          ,DMA buffer low threshold number of 128 bits defining the threshold value. The value put in this register must always be greater than zero."
rgroup.long 0xA8++0x3
line.long 0x00 "DISPC_GFX_BUF_SIZE_STATUS,The register defines the Graphics buffer size"
hexmask.long.word 0x00 0.--15. 1. " BUFSIZE                         ,DMA buffer size in number of 128 bits"
group.long 0xAC++0x3
line.long 0x00 "DISPC_GFX_ROW_INC,The register configures the number of bytes to increment at the end of the row. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third LCD or EVSYNC or whe..."
hexmask.long 0x00 0.--31. 1. " ROWINC                          ,Number of bytes to increment at the end of the row Encoded unsigned value to specify the number of bytes to increment at the end of the row in the graphics buffer. The value 0 is invalid. The value 1 means next pixel. ..."
group.long 0xB0++0x3
line.long 0x00 "DISPC_GFX_PIXEL_INC,The register configures the number of bytes to increment between two pixels. For more information, see, Predecimation. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start..."
hexmask.long.byte 0x00 0.--7. 1. " PIXELINC                        ,Number of bytes to increment between two pixels. Encoded unsigned value (from 1 to 255) to specify the number of bytes between two pixels in the graphics buffer. The value 0 is invalid. The value 1 means next pixel. Th..."
group.long 0xB8++0x3
line.long 0x00 "DISPC_GFX_TABLE_BA,The register configures the base address of the palette buffer or the gamma table buffer. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third LCD or EV..."
hexmask.long 0x00 0.--31. 1. " TABLEBA                         ,Base address of the palette/gamma table buffer (24-bit entries in 32-bit containers, aligned on 32-bit boundary)."
group.long 0xC4++0x3
line.long 0x00 "DISPC_VID1_POSITION,The register configures the position of the video window 1. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third LCD or EVSYNC or when.GOWB is set to 1..."
hexmask.long.word 0x00 16.--26. 1. " POSY                            ,Y position of the video window 1 Encoded value (from 0 to 2047) to specify the Y position of the video window 1 .The line at the top has the Y-position 0."
hexmask.long.word 0x00 0.--10. 1. "                  POSX                     ,X position of the video window 1 Encoded value (from 0 to 2047) to specify the X position of the video window 1. The first pixel on the left of the display screen has the X-position 0."
group.long 0xC8++0x3
line.long 0x00 "DISPC_VID1_SIZE,The register configures the size of the video window 1. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third LCD, orEVSYNC or when.GOWB is set to 1 by soft..."
hexmask.long.word 0x00 16.--27. 1. " SIZEY                           ,Number of lines of the video 1 Encoded value (from 1 to 4096) to specify the number of lines of the video window 1. Program to value minus 1."
hexmask.long.word 0x00 0.--10. 1. "                  SIZEX                    ,Number of pixels of the video window 1 Encoded value (from 1 to 2048) to specify the number of pixels of the video window 1. Program to value minus 1."
group.long 0xCC++0x3
line.long 0x00 "DISPC_VID1_ATTRIBUTES,The register configures the attributes of the video window 1. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third LCD or EVSYNC or when.GOWB is set ..."
bitfld.long 0x00 30.--31. " CHANNELOUT2                     ,It is not used if CHANNELOUT is set to TV. Reserved when CHANNELOUT = 1 (should be set to zero) wr: immediate - PrimaryLCDSel. - SecondaryLCDSel. - ThirdLCDSel. - WriteBacksel." "PrimaryLCDSel,SecondaryLCDSel,ThirdLCDSel,WriteBacksel"
bitfld.long 0x00 29. "       BURSTTYPE                ,The type of burst can be INCR (incremental) or BLCK (2D block). The 2D block is required when the TILER is targeted by the DMA engine. - INC. - BLCK." "INC,BLCK"
bitfld.long 0x00 28. "                PREMULTIPHYALPHA          ,The field configures the DISPC VID1 to process incoming data as premultiplied alpha data or non premultiplied alpha data. Default setting is non premultiplied alpha data. - PremultipliedAlpha. - PremultipliedA..." "PremultipliedAlpha,PremultipliedAlpha"
textline "                                       "
bitfld.long 0x00 26.--27. " ZORDER                          ,Z-Order defining the priority of the layer compared to others when overlaying. It is software responsibility to ensure that each layer connected to the same overlay manager has a different z-order value. If bit 25 is s..." "zorder0,zorder1,zorder2,zorder3"
bitfld.long 0x00 25. "               ZORDERENABLE             ,Z-order Enable. The bit field ZORDER is only used when the Z-order is enabled. - ZorderDis. - ZorderEnb." "ZorderDis,ZorderEnb"
bitfld.long 0x00 24. "           SELFREFRESH               ,Enables the self refresh of the video window from its own DMA buffer only. - SelfRefreshDis. - SelfRefreshEnb." "SelfRefreshDis,SelfRefreshEnb"
textline "                                       "
bitfld.long 0x00 23. " ARBITRATION                     ,Determines the priority of the video pipeline. The video pipeline is one of the high priority pipeline. The arbitration gives always the priority first to the high priority pipelines using round-robin between them. Whe..." "NormalPrio,HighPrio"
bitfld.long 0x00 22. "            DOUBLESTRIDE             ,Determines if the stride for CbCr buffer is the 1x or 2x of the Y buffer stride. It is only used in case of YUV4:2:0. - Initial. - Double." "Initial,Double"
bitfld.long 0x00 21. "             VERTICALTAPS              ,Video vertical resize tap number. The vertical polyphase filter can be configured in 3-tap or 5-tap configuration. According to the number of taps, the maximum input picture width is double while using 3-tap comp..." "taps3,taps5"
textline "                                       "
bitfld.long 0x00 20. " FORCE1DTILEDMODE                ,Force TILED regions access to 1D or 2D. - TiledRegions2DAccess. - TiledRegions1DAccess." "TiledRegions2DAccess,TiledRegions1DAccess"
bitfld.long 0x00 19. "  BUFPRELOAD               ,Video Preload Value - DefVal. - HighThres." "DefVal,HighThres"
bitfld.long 0x00 17. "           SELFREFRESHAUTO           ,Automatic self-refresh mode - SelfRefreshAutoDis. - SelfRefreshAutoEn." "SelfRefreshAutoDis,SelfRefreshAutoEn"
textline "                                       "
bitfld.long 0x00 16. " CHANNELOUT                      ,Video channel out configuration: LCD, WB or TV. wr: immediate - LCDOp. - TVOp." "LCDOp,TVOp"
bitfld.long 0x00 14.--15. "                 BURSTSIZE                ,Video DMA burst size - Burst2x128b. - Burst4x128b. - Res. - Burst8x128b." "Burst2x128b,Burst4x128b,Burst8x128b,Res"
bitfld.long 0x00 12.--13. "         ROTATION                  ,Video rotation flag - NoRot. - Rot90. - Rot270. - Rot180." "NoRot,Rot90,Rot180,Rot270"
textline "                                       "
bitfld.long 0x00 11. " FULLRANGE                       ,Color space conversion full range setting. - Limrange. - FullRange." "Limrange,FullRange"
bitfld.long 0x00 10. "             REPLICATIONENABLE        ,Replication enable - VRepLDis. - VRepLEnb." "VRepLDis,VRepLEnb"
bitfld.long 0x00 9. "            COLORCONVENABLE           ,Enable the color space conversion. The hardware does not enable/disable the conversion based on the pixel format. The bit field shall be reset when the format is not YUV. - ColSpCDis. - ColSpCEnb." "ColSpCDis,ColSpCEnb"
textline "                                       "
bitfld.long 0x00 8. " FRAMEPACKINGMODE                ,Frame packing mode control. - FPMDis. - FPMEnb." "FPMDis,FPMEnb"
bitfld.long 0x00 7. "                HRESIZECONF              ,Write 0s for future compatibility. Reads return 0." "0,1"
bitfld.long 0x00 5.--6. "                   RESIZEENABLE              ,Video Resize Enable - ReSizeProc. - HReSize. - HVReSize. - VReSize." "ReSizeProc,HReSize,VReSize,HVReSize"
textline "                                       "
bitfld.long 0x00 1.--4. " FORMAT                          ,Video Format. It defines the pixel format when fetching the video 1 picture into memory. - RGB16. - RGBx12. - YUV2. - ARGB16_1. - RGBA32. - NV12. - RGBA12. - xRGB24. - RGB24p. - UYVY. - ARGB16. - xRGB15. - ARGB32. - xR..." "NV12,RGBx12,RGBA12,BGRA32,xRGB12,ARGB16,RGB16,ARGB16_1,xRGB24,RGB24p,YUV2,UYVY,ARGB32,RGBA32,xRGB12,xRGB15"
bitfld.long 0x00 0. "              ENABLE                   ,Video Enable - VideoDis. - VideoEnb." "VideoDis,VideoEnb"
group.long 0xD0++0x3
line.long 0x00 "DISPC_VID1_BUF_THRESHOLD,The register configures the video buffer associated with the video pipeline 1. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third LCD or EVSYNC ..."
hexmask.long.word 0x00 16.--31. 1. " BUFHIGHTHRESHOLD                ,Video DMA buffer high threshold number of 128 bits defining the threshold value"
hexmask.long.word 0x00 0.--15. 1. "                  BUFLOWTHRESHOLD          ,DMA buffer low threshold number of 128 bits defining the threshold value"
rgroup.long 0xD4++0x3
line.long 0x00 "DISPC_VID1_BUF_SIZE_STATUS,The register defines the Video buffer size for the video pipeline 1."
hexmask.long.word 0x00 0.--15. 1. " BUFSIZE                         ,Video 1 DMA buffer size in number of 128-bits"
group.long 0xD8++0x3
line.long 0x00 "DISPC_VID1_ROW_INC,The register configures the number of bytes to increment at the end of the row for the buffer associated with the video window 1. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or..."
hexmask.long 0x00 0.--31. 1. " ROWINC                          ,Number of bytes to increment at the end of the row Encoded signed value (from 21 to 2) to specify the number of bytes to increment at the end of the row in the video buffer. The value 0 is invalid. The value 1 means ne..."
group.long 0xDC++0x3
line.long 0x00 "DISPC_VID1_PIXEL_INC,The register configures the number of bytes to increment between two pixels for the buffer associated with the video window 2. For more information, see, Predecimation.The register is used only when the TILER is not present in the ..."
hexmask.long.byte 0x00 0.--7. 1. " PIXELINC                        ,Number of bytes to increment between two pixels. Encoded unsigned value (from 1 to 255) to specify the number of bytes between two pixels in the video buffer. The value 0 is invalid. The value 1 means next pixel. The v..."
group.long 0xE0++0x3
line.long 0x00 "DISPC_VID1_FIR,The register configures the resize factors for horizontal and vertical up/downsampling of the video window 1. It is used for ARGB and Y setting. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secon..."
hexmask.long.word 0x00 16.--28. 1. " FIRVINC                         ,Vertical increment of the up/downsampling filter. Encoded value (from 1 to 4096). The value 0 is invalid. The values greater than 4096 are invalid."
hexmask.long.word 0x00 0.--12. 1. "                  FIRHINC                  ,Horizontal increment of the up/downsampling filter. Encoded value (from 1 to 4096). The value 0 is invalid. The values greater than 4096 are invalid."
group.long 0xE4++0x3
line.long 0x00 "DISPC_VID1_PICTURE_SIZE,The register configures the size of the video picture associated with the video layer 1 before up/down-scaling. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start pe..."
hexmask.long.word 0x00 16.--27. 1. " MEMSIZEY                        ,Number of lines of the video picture. Encoded value (from 1 to 4096) to specify the number of lines of the video picture in memory (program to value minus 1). When predecimation is set, the value represents the size of..."
hexmask.long.word 0x00 0.--10. 1. "                  MEMSIZEX                 ,Number of pixels of the video picture Encoded value (from 1 to 2048) to specify the number of pixels of the video picture in memory (program to value minus 1). The size is limited to the size of the line buff..."
group.long 0x130++0x3
line.long 0x00 "DISPC_VID1_CONV_COEF0,The register configures the color space conversion matrix coefficients for the video pipeline 1. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third..."
hexmask.long.word 0x00 16.--26. 1. " RCR                             ,RCr coefficient encoded signed value (from ?1024 to 1023)."
hexmask.long.word 0x00 0.--10. 1. "                  RY                       ,RY coefficient encoded signed value (from ?1024 to 1023)."
group.long 0x134++0x3
line.long 0x00 "DISPC_VID1_CONV_COEF1,The register configures the color space conversion matrix coefficients for the video pipeline 1. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third..."
hexmask.long.word 0x00 16.--26. 1. " GY                              ,GY coefficient encoded signed value (from -1024 to 1023)."
hexmask.long.word 0x00 0.--10. 1. "                  RCB                      ,RCb coefficient encoded signed value (from -1024 to 1023)."
group.long 0x138++0x3
line.long 0x00 "DISPC_VID1_CONV_COEF2,The register configures the color space conversion matrix coefficients for the video pipeline 1. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third..."
hexmask.long.word 0x00 16.--26. 1. " GCB                             ,GCb coefficient encoded signed value (from ?1024 to 1023)."
hexmask.long.word 0x00 0.--10. 1. "                  GCR                      ,GCr coefficient encoded signed value (from ?1024 to 1023)."
group.long 0x13C++0x3
line.long 0x00 "DISPC_VID1_CONV_COEF3,The register configures the color space conversion matrix coefficients for the video pipeline 1. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third..."
hexmask.long.word 0x00 16.--26. 1. " BCR                             ,BCr coefficient encoded signed value (from ?1024 to 1023)."
hexmask.long.word 0x00 0.--10. 1. "                  BY                       ,BY coefficient encoded signed value (from ?1024 to 1023)."
group.long 0x140++0x3
line.long 0x00 "DISPC_VID1_CONV_COEF4,The register configures the color space conversion matrix coefficients for the video pipeline 1. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third..."
hexmask.long.word 0x00 0.--10. 1. " BCB                             ,BCb coefficient encoded signed value (from ?1024 to 1023)."
group.long 0x154++0x3
line.long 0x00 "DISPC_VID2_POSITION,The register configures the position of the video window 2. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third LCD or EVSYNC or when.GOWB is set to 1..."
hexmask.long.word 0x00 16.--26. 1. " POSY                            ,Y position of the video window 2 encoded value (from 0 to 2047) to specify the Y position of the video window 2 .The line at the top has the Y-position 0."
hexmask.long.word 0x00 0.--10. 1. "                  POSX                     ,X position of the video window 2 encoded value (from 0 to 2047) to specify the X position of the video window 2. The first pixel on the left of the display screen has the X-position 0."
group.long 0x158++0x3
line.long 0x00 "DISPC_VID2_SIZE,The register configures the size of the video window 2. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third LCD or EVSYNC or when.GOWB is set to 1 by soft..."
hexmask.long.word 0x00 16.--27. 1. " SIZEY                           ,Number of lines of the video 2 encoded value (from 1 to 4096) to specify the number of lines of the video window 2. Program to value minus 1."
hexmask.long.word 0x00 0.--10. 1. "                  SIZEX                    ,Number of pixels of the video window 2 encoded value (from 1 to 2048) to specify the number of pixels of the video window 2. Program to value minus 1."
group.long 0x15C++0x3
line.long 0x00 "DISPC_VID2_ATTRIBUTES,The register configures the attributes of the video window 2. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third LCD or EVSYNC or when.GOWB is set ..."
bitfld.long 0x00 30.--31. " CHANNELOUT2                     ,It is not used if CHANNELOUT is set to TV. Reserved when CHANNELOUT = 1 (must be set to zero) wr: immediate - PrimaryLCDSel. - SecondaryLCDSel. - ThirdLCDSel. - WriteBacksel." "PrimaryLCDSel,SecondaryLCDSel,ThirdLCDSel,WriteBacksel"
bitfld.long 0x00 29. "       BURSTTYPE                ,The type of burst can be INCR (incremental) or BLCK (2D block). The 2D block is required when the TILER is targeted by the DMA engine. - INC. - BLCK." "INC,BLCK"
bitfld.long 0x00 28. "                PREMULTIPLYALPHA          ,The field configures the DISPC VID2 to process incoming data as premultiplied alpha data or non premultiplied alpha data. Default setting is non premultiplied alpha data. - PreMultipliedAlpha. - PreMultipliedA..." "PreMultipliedAlpha,PreMultipliedAlpha"
textline "                                       "
bitfld.long 0x00 26.--27. " ZORDER                          ,Z-Order defining the priority of the layer compared to others when overlaying. It is software responsibility to ensure that each layer connected to the same overlay manager has a different z-order value. If bit 25 is s..." "zorder0,zorder1,zorder2,zorder3"
bitfld.long 0x00 25. "               ZORDERENABLE             ,Z-order Enable. The bit field ZORDER is only used when the Z-order is enabled. - ZorderDis. - ZorderEnb." "ZorderDis,ZorderEnb"
bitfld.long 0x00 24. "           SELFREFRESH               ,Enables the self refresh of the video window from its own DMA buffer only. - SelfRefreshDis. - SelfRefreshEnb." "SelfRefreshDis,SelfRefreshEnb"
textline "                                       "
bitfld.long 0x00 23. " ARBITRATION                     ,Determines the priority of the video pipeline. The video pipeline is one of the high priority pipeline. The arbitration gives always the priority first to the high priority pipelines using round-robin between them. Whe..." "NormalPrio,HighPrio"
bitfld.long 0x00 22. "            DOUBLESTRIDE             ,Determines if the stride for CbCr buffer is the 1x or 2x of the Y buffer stride. It is only used in case of YUV4:2:0. - Initial. - Double." "Initial,Double"
bitfld.long 0x00 21. "             VERTICALTAPS              ,Video Vertical Resize Tap Number - taps3. - taps5." "taps3,taps5"
textline "                                       "
bitfld.long 0x00 20. " FORCE1DTILEDMODE                ,Force TILED regions access to 1D or 2D. - TiledRegions2DAccess. - TiledRegions1DAccess." "TiledRegions2DAccess,TiledRegions1DAccess"
bitfld.long 0x00 19. "  BUFPRELOAD               ,Video Preload Value - DefVal. - HighThres." "DefVal,HighThres"
bitfld.long 0x00 17. "           SELFREFRESHAUTO           ,Automatic self-refresh mode - SelfRefreshAutoDis. - SelfRefreshAutoEn." "SelfRefreshAutoDis,SelfRefreshAutoEn"
textline "                                       "
bitfld.long 0x00 16. " CHANNELOUT                      ,Video Channel Out configuration: LCD, WB or TV. wr: immediate - LCDOp. - TVOp." "LCDOp,TVOp"
bitfld.long 0x00 14.--15. "                 BURSTSIZE                ,Video DMA burst size - Burst2x128b. - Burst4x128b. - Res. - Burst8x128b." "Burst2x128b,Burst4x128b,Burst8x128b,Res"
bitfld.long 0x00 12.--13. "         ROTATION                  ,Video Rotation Flag - NoRot. - Rot90. - Rot270. - Rot180." "NoRot,Rot90,Rot180,Rot270"
textline "                                       "
bitfld.long 0x00 11. " FULLRANGE                       ,Color space conversion full range setting. - Limrange. - FullRange." "Limrange,FullRange"
bitfld.long 0x00 10. "             REPLICATIONENABLE        ,Replication Enable - VRepLDis. - VRepLEnb." "VRepLDis,VRepLEnb"
bitfld.long 0x00 9. "            COLORCONVENABLE           ,Enable the color space conversion. The hardware does not enable/disable the conversion based on the pixel format. The bit field shall be reset when the format is not YUV. - ColSpCDis. - ColSpCEnb." "ColSpCDis,ColSpCEnb"
textline "                                       "
bitfld.long 0x00 8. " FRAMEPACKINGMODE                ,Frame packing mode control. - FPMDis. - FPMEnb." "FPMDis,FPMEnb"
bitfld.long 0x00 7. "                HRESIZECONF              ,Write 0s for future compatibility. Reads return 0." "0,1"
bitfld.long 0x00 5.--6. "                   RESIZEENABLE              ,Video Resize Enable - ReSizeProc. - HReSize. - HVReSize. - VReSize." "ReSizeProc,HReSize,VReSize,HVReSize"
textline "                                       "
bitfld.long 0x00 1.--4. " FORMAT                          ,Video Format. It defines the pixel format when fetching the video 2 picture into memory. - RGB16. - RGBx12. - YUV2. - ARGB16_1. - RGBA32. - NV12. - RGBA12. - xRGB24. - RGB24. - UYVY. - ARGB16. - xRGB15. - ARGB32. - xRG..." "NV12,RGBx12,RGBA12,BGRA32,xRGB12,ARGB16,RGB16,ARGB16_1,xRGB24,RGB24,YUV2,UYVY,ARGB32,RGBA32,xRGB12,xRGB15"
bitfld.long 0x00 0. "              ENABLE                   ,VidEnable - VideoDis. - VideoEnb." "VideoDis,VideoEnb"
group.long 0x160++0x3
line.long 0x00 "DISPC_VID2_BUF_THRESHOLD,The register configures the DMA buffer associated with the video pipeline 2. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third LCD or EVSYNC or..."
hexmask.long.word 0x00 16.--31. 1. " BUFHIGHTHRESHOLD                ,DMA buffer high threshold number of 128 bits defining the threshold value"
hexmask.long.word 0x00 0.--15. 1. "                  BUFLOWTHRESHOLD          ,DMA buffer low threshold number of 128 bits defining the threshold value"
rgroup.long 0x164++0x3
line.long 0x00 "DISPC_VID2_BUF_SIZE_STATUS,The register defines the DMA buffer size for the video pipeline 2."
hexmask.long.word 0x00 0.--15. 1. " BUFSIZE                         ,DMA buffer size in number of 128 bits"
group.long 0x168++0x3
line.long 0x00 "DISPC_VID2_ROW_INC,The register configures the number of bytes to increment at the end of the row for the buffer associated with the video window 2. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or..."
hexmask.long 0x00 0.--31. 1. " ROWINC                          ,Number of bytes to increment at the end of the row Encoded signed value (from 21 to 2) to specify the number of bytes to increment at the end of the row in the video buffer. The value 0 is invalid. The value 1 means ne..."
group.long 0x16C++0x3
line.long 0x00 "DISPC_VID2_PIXEL_INC,The register configures the number of bytes to increment between two pixels for the buffer associated with the video window 2. For more information, see, Predecimation.The register is used only when the TILER is not present in the ..."
hexmask.long.byte 0x00 0.--7. 1. " PIXELINC                        ,Number of bytes to increment between two pixels. Encoded unsigned value (from 1 to 255) to specify the number of bytes between2 pixels in the video buffer. The value 0 is invalid. The value 1 means next pixel. The valu..."
group.long 0x170++0x3
line.long 0x00 "DISPC_VID2_FIR,The register configures the resize factors for horizontal and vertical up/downsampling of the video window 2. It is used for ARGB and Y setting. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secon..."
hexmask.long.word 0x00 16.--28. 1. " FIRVINC                         ,Vertical increment of the up/downsampling filter Encoded value (from 1 to 4096). The value 0 is invalid. The values greater than 4096 are invalid."
hexmask.long.word 0x00 0.--12. 1. "                  FIRHINC                  ,Horizontal increment of the up/downsampling filter Encoded value (from 1 to 4096). The value 0 is invalid. The values greater than 4096 are invalid."
group.long 0x174++0x3
line.long 0x00 "DISPC_VID2_PICTURE_SIZE,The register configures the size of the video picture associated with the video layer 2 before up/down-scaling. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start pe..."
hexmask.long.word 0x00 16.--27. 1. " MEMSIZEY                        ,Number of lines of the video picture Encoded value (from 1 to 4096) to specify the number of lines of the video picture in memory (program to value minus 1). When predecimation is set, the value represents the size of ..."
hexmask.long.word 0x00 0.--10. 1. "                  MEMSIZEX                 ,Number of pixels of the video picture Encoded value (from 1 to 2048) to specify the number of pixels of the video picture in memory (program to value minus 1). The size is limited to the size of the line buff..."
group.long 0x1C0++0x3
line.long 0x00 "DISPC_VID2_CONV_COEF0,The register configures the color space conversion matrix coefficients for the video pipeline 2. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third..."
hexmask.long.word 0x00 16.--26. 1. " RCR                             ,RCr coefficient encoded signed value (from ?1024 to 1023)."
hexmask.long.word 0x00 0.--10. 1. "                  RY                       ,RY coefficient encoded signed value (from ?1024 to 1023)."
group.long 0x1C4++0x3
line.long 0x00 "DISPC_VID2_CONV_COEF1,The register configures the color space conversion matrix coefficients for the video pipeline 2. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third..."
hexmask.long.word 0x00 16.--26. 1. " GY                              ,GY coefficient encoded signed value (from ?1024 to 1023)."
hexmask.long.word 0x00 0.--10. 1. "                  RCB                      ,RCb coefficient encoded signed value (from ?1024 to 1023)."
group.long 0x1C8++0x3
line.long 0x00 "DISPC_VID2_CONV_COEF2,The register configures the color space conversion matrix coefficients for the video pipeline 2. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third..."
hexmask.long.word 0x00 16.--26. 1. " GCB                             ,GCb coefficient encoded signed value (from ?1024 to 1023)."
hexmask.long.word 0x00 0.--10. 1. "                  GCR                      ,GCr coefficient encoded signed value (from ?1024 to 1023)."
group.long 0x1CC++0x3
line.long 0x00 "DISPC_VID2_CONV_COEF3,The register configures the color space conversion matrix coefficients for the video pipeline 2. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third..."
hexmask.long.word 0x00 16.--26. 1. " BCR                             ,BCr coefficient encoded signed value (from ?1024 to 1023)."
hexmask.long.word 0x00 0.--10. 1. "                  BY                       ,BY coefficient encoded signed value (from ?1024 to 1023)."
group.long 0x1D0++0x3
line.long 0x00 "DISPC_VID2_CONV_COEF4,The register configures the color space conversion matrix coefficients for the video pipeline 2. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third..."
hexmask.long.word 0x00 0.--10. 1. " BCB                             ,BCb coefficient encoded signed value (from ?1024 to 1023)."
group.long 0x1D4++0x3
line.long 0x00 "DISPC_DATA1_CYCLE1,The control register configures the output data format for 1st cycle. Shadow register, updated on VFP start period of primary LCD"
bitfld.long 0x00 24.--27. " BITALIGNMENTPIXEL2              ,Bit alignment. Alignment of the bits from pixel 2 on the output interface." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--20. "                    NBBITSPIXEL2             ,Number of bits Number of bits from the pixel 2 (value from 0 to 16 bits). The values from 17 to 31 are invalid." "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 8.--11. "          BITALIGNMENTPIXEL1        ,Bit alignment. Alignment of the bits from pixel 1 on the output interface." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                       "
bitfld.long 0x00 0.--4. " NBBITSPIXEL1                    ,Number of bits Number of bits from the pixel 1 (value from 0 to 16 bits). The values from 17 to 31 are invalid." "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
group.long 0x1D8++0x3
line.long 0x00 "DISPC_DATA1_CYCLE2,The control register configures the output data format for 2nd cycle. Shadow register, updated on VFP start period of primary LCD"
bitfld.long 0x00 24.--27. " BITALIGNMENTPIXEL2              ,Bit alignment. Alignment of the bits from pixel 2 on the output interface." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--20. "                    NBBITSPIXEL2             ,Number of bits Number of bits from the pixel 2 (value from 0 to 16 bits). The values from 17 to 31 are invalid." "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 8.--11. "          BITALIGNMENTPIXEL1        ,Bit alignment. Alignment of the bits from pixel 1 on the output interface." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                       "
bitfld.long 0x00 0.--4. " NBBITSPIXEL1                    ,Number of bits Number of bits from the pixel 1 (value from 0 to 16 bits). The values from 17 to 31 are invalid." "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
group.long 0x1DC++0x3
line.long 0x00 "DISPC_DATA1_CYCLE3,The control register configures the output data format for 3rd cycle. Shadow register, updated on VFP start period of primary LCD"
bitfld.long 0x00 24.--27. " BITALIGNMENTPIXEL2              ,Bit alignment. Alignment of the bits from pixel 2 on the output interface." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--20. "                    NBBITSPIXEL2             ,Number of bits Number of bits from the pixel 2 (value from 0 to 16 bits). The values from 17 to 31 are invalid." "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 8.--11. "          BITALIGNMENTPIXEL1        ,Bit alignment. Alignment of the bits from pixel 1 on the output interface." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                       "
bitfld.long 0x00 0.--4. " NBBITSPIXEL1                    ,Number of bits Number of bits from the pixel 1 (value from 0 to 16 bits). The values from 17 to 31 are invalid." "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
group.long 0x220++0x3
line.long 0x00 "DISPC_CPR1_COEF_R,The register configures the color phase rotation matrix coefficients for the Red component. It is used for the primary LCD output. Shadow register, updated on VFP start period of primary LCD"
hexmask.long.word 0x00 22.--31. 1. " RR                              ,RR coefficient encoded signed value (from ?512 to 511)"
hexmask.long.word 0x00 11.--20. 1. "                  RG                       ,RG coefficient encoded signed value (from ?512 to 511)"
hexmask.long.word 0x00 0.--9. 1. "                RB                        ,RB coefficient encoded signed value (from ?512 to 511)"
group.long 0x224++0x3
line.long 0x00 "DISPC_CPR1_COEF_G,The register configures the color phase rotation matrix coefficients for the Green component. It is used for the primary LCD output. Shadow register, updated on VFP start period of primary LCD"
hexmask.long.word 0x00 22.--31. 1. " GR                              ,GR coefficient encoded signed value (from ?512 to 511)"
hexmask.long.word 0x00 11.--20. 1. "                  GG                       ,GG coefficient encoded signed value (from ?512 to 511)"
hexmask.long.word 0x00 0.--9. 1. "                GB                        ,GB coefficient encoded signed value (from ?512 to 511)"
group.long 0x228++0x3
line.long 0x00 "DISPC_CPR1_COEF_B,The register configures the color phase rotation matrix coefficients for the Blue component. It is used for the primary LCD output. Shadow register, updated on VFP start period of primary LCD"
hexmask.long.word 0x00 22.--31. 1. " BR                              ,BR coefficient encoded signed value (from ?512 to 511)"
hexmask.long.word 0x00 11.--20. 1. "                  BG                       ,BG coefficient encoded signed value (from ?512 to 511"
hexmask.long.word 0x00 0.--9. 1. "                BB                        ,BB coefficient encoded signed value (from ?512 to 511)"
group.long 0x22C++0x3
line.long 0x00 "DISPC_GFX_PRELOAD,The register configures the graphics DMA buffer Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third LCD or EVSYNC or when.GOWB is set to 1 by software a..."
hexmask.long.word 0x00 0.--11. 1. " PRELOAD                         ,DMA buffer preload value number of 128-bit words defining the preload value."
group.long 0x230++0x3
line.long 0x00 "DISPC_VID1_PRELOAD,The register configures the DMA buffer of the video 1 pipeline. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third LCD or EVSYNC or when.GOWB is set t..."
hexmask.long.word 0x00 0.--11. 1. " PRELOAD                         ,DMA buffer preload value number of 128-bit words defining the preload value."
group.long 0x234++0x3
line.long 0x00 "DISPC_VID2_PRELOAD,The register configures the DMA buffer of the video 2 pipeline. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third LCD or EVSYNC or when.GOWB is set t..."
hexmask.long.word 0x00 0.--11. 1. " PRELOAD                         ,DMA buffer preload value Number of 128-bit words defining the preload value."
group.long 0x238++0x3
line.long 0x00 "DISPC_CONTROL2,The control register configures the Display Controller module for the secondary LCD output. Shadow registers are updated during the VFP start period of the secondary LCD, EVSYNC, or when.GOWB is set to 1 by software and the current WB fr..."
bitfld.long 0x00 30.--31. " SPATIALTEMPORAL_DITHERINGFRAMES ,Spatial/temporal dithering number of frames for the secondary LCD output wr: VFP start period of secondary LCD output - OneFrame. - TwoFrames. - FourFrames. - Reserved." "OneFrame,TwoFrames,FourFrames,Reserved"
bitfld.long 0x00 25.--26. "            TDMUNUSED_BITS           ,State of unused bits (TDM mode only) for the secondary LCD output wr: VFP start period of secondary LCD output - LowLevel. - HighLevel. - Unchanged. - Res." "LowLevel,HighLevel,Unchanged,Res"
bitfld.long 0x00 23.--24. "           TDMCYCLE_FORMAT           ,Cycle format (TDM mode only) for the secondary LCD output wr: VFP start period of secondary LCD output - 1CycPerPix. - 2CycPerPix. - 3CycPerPix. - 3CycPer2Pix." "1CycPerPix,2CycPerPix,3CycPerPix,3CycPer2Pix"
textline "                                       "
bitfld.long 0x00 21.--22. " TDMPARALLEL_MODE                ,Output Interface width (TDM mode only) for the secondary LCD output wr: VFP start period of secondary LCD output - 8bParaInt. - 9bParaInt. - 12bParaInt. - 16bParaInt." "8bParaInt,9bParaInt,12bParaInt,16bParaInt"
bitfld.long 0x00 20. "            TDMENABLE                ,Enable the multiple cycle format for the secondary LCD output wr: VFP start period of secondary LCD output - TDMDis. - TDMEnb." "TDMDis,TDMEnb"
bitfld.long 0x00 13. "              TVOVERLAY_OPTIMIZATION    ,Overlay optimization for the TV output wr: VFP or EVSYNC or whenDISPC_CONTROL2.GOWB is set to 1 by software and current WB frame is finished (no more data in the write-back pipeline). The synchronization event i..." "GDBVWfM,GDBVWnfM"
textline "                                       "
bitfld.long 0x00 12. " OVERLAY_OPTIMIZATION            ,Overlay optimization for the secondary LCD output wr: VFP or EVSYNC or whenDISPC_CONTROL2.GOWB is set to 1 by software and current WB frame is finished (no more data in the write-back pipeline). The synchronization eve..." "GDBVWfM,GDBVWnfM"
bitfld.long 0x00 11. "              STALLMODE                ,STALL mode for the secondary LCD output wr: VFP start period of secondary LCD output - nMode. - RFBIMode." "nMode,RFBIMode"
bitfld.long 0x00 8.--9. "            TFTDATALINES              ,Number of lines of the secondary LCD interface wr: VFP start period of secondary LCD output - OaLSB12b. - OaLSB16b. - OaLSB18b. - OaLSB24b." "OaLSB12b,OaLSB16b,OaLSB18b,OaLSB24b"
textline "                                       "
bitfld.long 0x00 7. " STDITHER_ENABLE                 ,Spatial temporal dithering enable for the secondary LCD output wr: VFP start period of secondary LCD output - STDithDis. - STDithEnb." "STDithDis,STDithEnb"
bitfld.long 0x00 6. "             GOWB                     ,GO command for the write-back output. It is used to synchronized the pipelines (graphics and/or video ones) associated with the write-back output to the memory. wr:immediate - HfUISR. - UfPSR." "HfUISR,UfPSR"
bitfld.long 0x00 5. "              GOLCD                     ,GO command for the secondary LCD output. It is used to synchronized the pipelines (graphics and/or video ones) associated with the secondary LCD output. wr:immediate - HfUISR. - UfPSR." "HfUISR,UfPSR"
textline "                                       "
bitfld.long 0x00 4. " M8B                             ,Mono 8-bit mode of the secondary LCD wr: VFP start period of secondary LCD output - 4PixtoPanel. - 8PixtoPanel." "4PixtoPanel,8PixtoPanel"
bitfld.long 0x00 3. "           STNTFT                   ,LCD Display type of the secondary LCD wr: VFP start period of secondary LCD output - STNdispEnb. - ATFTDisEnb." "STNdispEnb,ATFTDisEnb"
bitfld.long 0x00 2. "          MONOCOLOR                 ,Monochrome/Color selection for the secondary LCD wr: VFP start period of secondary LCD output - ColOpEnb. - MonOpEnb." "ColOpEnb,MonOpEnb"
textline "                                       "
bitfld.long 0x00 0. " LCDENABLE                       ,Enable the secondary LCD output wr:immediate - LCDOpDis. - LCDOpEnb." "LCDOpDis,LCDOpEnb"
group.long 0x240++0x3
line.long 0x00 "DISPC_GFX_POSITION2,The register configures the position of the 2nd graphics window in FramePacking mode. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third LCD or EVSYN..."
hexmask.long.word 0x00 16.--26. 1. " POSY                            ,Y position of the 2nd graphics window. Encoded value (from 0 to 2047) to specify the Y position of the graphics window on the screen. The line at the top has the Y-position 0."
hexmask.long.word 0x00 0.--10. 1. "                  POSX                     ,X position of the 2nd graphics window. Encoded value (from 0 to 2047) to specify the X position of the graphics window on the screen. The first pixel on the left of the screen has the X-position 0."
group.long 0x244++0x3
line.long 0x00 "DISPC_VID1_POSITION2,The register configures the position of the 2nd video window #1 in FramePacking mode. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third LCD or EVSY..."
hexmask.long.word 0x00 16.--26. 1. " POSY                            ,Y position of the 2nd video window #1 Encoded value (from 0 to 2047) to specify the Y position of the video window #1 .The line at the top has the Y-position 0."
hexmask.long.word 0x00 0.--10. 1. "                  POSX                     ,X position of the 2nd video window #1 Encoded value (from 0 to 2047) to specify the X position of the video window #1. The first pixel on the left of the display screen has the X-position 0."
group.long 0x248++0x3
line.long 0x00 "DISPC_VID2_POSITION2,The register configures the position of the 2nd video window #2 in FramePacking mode. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third LCD or EVSY..."
hexmask.long.word 0x00 16.--26. 1. " POSY                            ,Y position of the 2nd video window #2 Encoded value (from 0 to 2047) to specify the Y position of the video window #2 .The line at the top has the Y-position 0."
hexmask.long.word 0x00 0.--10. 1. "                  POSX                     ,X position of the 2nd video window #2 Encoded value (from 0 to 2047) to specify the X position of the video window #2. The first pixel on the left of the display screen has the X-position 0."
group.long 0x24C++0x3
line.long 0x00 "DISPC_VID3_POSITION2,The register configures the position of the 2nd video window #3 in FramePacking mode. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third LCD or EVSY..."
hexmask.long.word 0x00 16.--26. 1. " POSY                            ,Y position of the 2nd video window #2 Encoded value (from 0 to 2047) to specify the Y position of the video window #2 .The line at the top has the Y-position 0."
hexmask.long.word 0x00 0.--10. 1. "                  POSX                     ,X position of the 2nd video window #2 Encoded value (from 0 to 2047) to specify the X position of the video window #2. The first pixel on the left of the display screen has the X-position 0."
group.long 0x370++0x3
line.long 0x00 "DISPC_VID3_ATTRIBUTES,The register configures the attributes of the video window 3. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third LCD or EVSYNC or when.GOWB is set ..."
bitfld.long 0x00 30.--31. " CHANNELOUT2                     ,It is not used if CHANNELOUT is set to TV. Reserved when CHANNELOUT = 1 (should be set to zero) wr: immediate - PrimaryLCDSel. - SecondaryLCDSel. - ThirdLCDSel. - WriteBacksel." "PrimaryLCDSel,SecondaryLCDSel,ThirdLCDSel,WriteBacksel"
bitfld.long 0x00 29. "       BURSTTYPE                ,The type of burst can be INCR (incremental) or BLCK (2D block). The 2D block is required when the TILER is targeted by the DMA engine. - INC. - BLCK." "INC,BLCK"
bitfld.long 0x00 28. "                PREMULTIPLYALPHA          ,The field configures the DISPC VID3 to process incoming data as premultiplied alpha data or non premultiplied alpha data. Default setting is non premultiplied alpha data. - PremultipliedAlpha. - PremultipliedA..." "PremultipliedAlpha,PremultipliedAlpha"
textline "                                       "
bitfld.long 0x00 26.--27. " ZORDER                          ,Z-Order defining the priority of the layer compared to others when overlaying. It is software responsibility to ensure that each layer connected to the same overlay manager has a different z-order value. If bit 25 is s..." "zorder0,zorder1,zorder2,zorder3"
bitfld.long 0x00 25. "               ZORDERENABLE             ,Z-order Enable. The bit field ZORDER is used only when the Z-order is enabled. - ZorderDis. - ZorderEnb." "ZorderDis,ZorderEnb"
bitfld.long 0x00 24. "           SELFREFRESH               ,Enables the self refresh of the video window from its own DMA buffer only. - SelfRefreshDis. - SelfRefreshEnb." "SelfRefreshDis,SelfRefreshEnb"
textline "                                       "
bitfld.long 0x00 23. " ARBITRATION                     ,Determines the priority of the video pipeline. The video pipeline is one of the high priority pipeline. The arbitration gives always the priority first to the high priority pipelines using round-robin between them. Whe..." "NormalPrio,HighPrio"
bitfld.long 0x00 22. "            DOUBLESTRIDE             ,Determines if the stride for CbCr buffer is the 1x or 2x of the Y buffer stride. It is only used in case of YUV4:2:0. - Initial. - Double." "Initial,Double"
bitfld.long 0x00 21. "             VERTICALTAPS              ,Video vertical resize tap number - taps3. - taps5." "taps3,taps5"
textline "                                       "
bitfld.long 0x00 20. " FORCE1DTILEDMODE                ,Force TILED regions access to 1D or 2D. - TiledRegions2DAccess. - TiledRegions1DAccess." "TiledRegions2DAccess,TiledRegions1DAccess"
bitfld.long 0x00 19. "  BUFPRELOAD               ,Video Preload Value - DefVal. - HighThres." "DefVal,HighThres"
bitfld.long 0x00 17. "           SELFREFRESHAUTO           ,Automatic self-refresh mode - SelfRefreshAutoDis. - SelfrefreshAutoEn." "SelfRefreshAutoDis,SelfrefreshAutoEn"
textline "                                       "
bitfld.long 0x00 16. " CHANNELOUT                      ,Video channel out configuration: LCD, WB or TV. wr: immediate - LCDOp. - TVOp." "LCDOp,TVOp"
bitfld.long 0x00 14.--15. "                 BURSTSIZE                ,Video DMA burst size - Burst2x128b. - Burst4x128b. - Res. - Burst8x128b." "Burst2x128b,Burst4x128b,Burst8x128b,Res"
bitfld.long 0x00 12.--13. "         ROTATION                  ,Video rotation flag - NoRot. - Rot90. - Rot270. - Rot180." "NoRot,Rot90,Rot180,Rot270"
textline "                                       "
bitfld.long 0x00 11. " FULLRANGE                       ,Color Space Conversion full range setting. - Limrange. - FullRange." "Limrange,FullRange"
bitfld.long 0x00 10. "             REPLICATIONENABLE        ,Replication enable - VRepLDis. - VRepLEnb." "VRepLDis,VRepLEnb"
bitfld.long 0x00 9. "            COLORCONVENABLE           ,Enable the color space conversion. The hardware does not enable/disable the conversion based on the pixel format. The bit field shall be reset when the format is not YUV. - ColSpCDis. - ColSpCEnb." "ColSpCDis,ColSpCEnb"
textline "                                       "
bitfld.long 0x00 8. " FRAMEPACKINGMODE                ,Frame packing mode control. - FPMDis. - FPMEnb." "FPMDis,FPMEnb"
bitfld.long 0x00 7. "                HRESIZECONF              ,Write 0s for future compatibility. Reads return 0." "0,1"
bitfld.long 0x00 5.--6. "                   RESIZEENABLE              ,Video resize enable - ReSizeProc. - HReSize. - HVReSize. - VReSize." "ReSizeProc,HReSize,VReSize,HVReSize"
textline "                                       "
bitfld.long 0x00 1.--4. " FORMAT                          ,Video format. It defines the pixel format when fetching the video 3 picture into memory. - RGB16. - RGBx12. - YUV2. - ARGB16_1. - RGBA32. - NV12. - RGBA12. - xRGB24. - RGB24. - UYVY. - ARGB16. - xRGB15. - ARGB32. - xRG..." "NV12,RGBx12,RGBA12,BGRA32,xRGB12,ARGB16,RGB16,ARGB16_1,xRGB24,RGB24,YUV2,UYVY,ARGB32,RGBA32,xRGB12,xRGB15"
bitfld.long 0x00 0. "              ENABLE                   ,Video Enable - VideoDis. - VideoEnb." "VideoDis,VideoEnb"
group.long 0x374++0x3
line.long 0x00 "DISPC_VID3_CONV_COEF0,The register configures the color space conversion matrix coefficients for the video pipeline 3. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third..."
hexmask.long.word 0x00 16.--26. 1. " RCR                             ,RCr coefficient encoded signed value (from ?1024 to 1023)."
hexmask.long.word 0x00 0.--10. 1. "                  RY                       ,RY coefficient encoded signed value (from ?1024 to 1023)."
group.long 0x378++0x3
line.long 0x00 "DISPC_VID3_CONV_COEF1,The register configures the color space conversion matrix coefficients for the video pipeline 3. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third..."
hexmask.long.word 0x00 16.--26. 1. " GY                              ,GY coefficient encoded signed value (from ?1024 to 1023)."
hexmask.long.word 0x00 0.--10. 1. "                  RCB                      ,RCb coefficient encoded signed value (from ?1024 to 1023)."
group.long 0x37C++0x3
line.long 0x00 "DISPC_VID3_CONV_COEF2,The register configures the color space conversion matrix coefficients for the video pipeline 3. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third..."
hexmask.long.word 0x00 16.--26. 1. " GCB                             ,GCb coefficient encoded signed value (from ?1024 to 1023)."
hexmask.long.word 0x00 0.--10. 1. "                  GCR                      ,GCr coefficient encoded signed value (from ?1024 to 1023)."
group.long 0x380++0x3
line.long 0x00 "DISPC_VID3_CONV_COEF3,The register configures the color space conversion matrix coefficients for the video pipeline 3. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third..."
hexmask.long.word 0x00 16.--26. 1. " BCR                             ,BCr coefficient encoded signed value (from ?1024 to 1023)."
hexmask.long.word 0x00 0.--10. 1. "                  BY                       ,BY coefficient encoded signed value (from ?1024 to 1023)."
group.long 0x384++0x3
line.long 0x00 "DISPC_VID3_CONV_COEF4,The register configures the color space conversion matrix coefficients for the video pipeline 3. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third..."
hexmask.long.word 0x00 0.--10. 1. " BCB                             ,BCb coefficient encoded signed value (from ?1024 to 1023)."
rgroup.long 0x388++0x3
line.long 0x00 "DISPC_VID3_BUF_SIZE_STATUS,The register defines the DMA buffer size for the video pipeline 3."
hexmask.long.word 0x00 0.--15. 1. " BUFSIZE                         ,DMA buffer Size in number of 128 bits."
group.long 0x38C++0x3
line.long 0x00 "DISPC_VID3_BUF_THRESHOLD,The register configures the DMA buffer associated with the video pipeline 3. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third LCD or EVSYNC or..."
hexmask.long.word 0x00 16.--31. 1. " BUFHIGHTHRESHOLD                ,DMA buffer high threshold number of 128 bits defining the threshold value"
hexmask.long.word 0x00 0.--15. 1. "                  BUFLOWTHRESHOLD          ,DMA buffer low threshold number of 128 bits defining the threshold value"
group.long 0x390++0x3
line.long 0x00 "DISPC_VID3_FIR,The register configures the resize factors for horizontal and vertical up/downsampling of the video window 3. It is used for ARGB and Y setting. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secon..."
hexmask.long.word 0x00 16.--28. 1. " FIRVINC                         ,Vertical increment of the up/downsampling filter Encoded value (from 1 to 4096). The value 0 is invalid. The values greater than 4096 are invalid."
hexmask.long.word 0x00 0.--12. 1. "                  FIRHINC                  ,Horizontal increment of the up/downsampling filter Encoded value (from 1 to 4096). The value 0 is invalid. The values greater than 4096 are invalid."
group.long 0x394++0x3
line.long 0x00 "DISPC_VID3_PICTURE_SIZE,The register configures the size of the video picture associated with the video layer 3 before up/down-scaling. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start pe..."
hexmask.long.word 0x00 16.--27. 1. " MEMSIZEY                        ,Number of lines of the video picture Encoded value (from 1 to 4096) to specify the number of lines of the video picture in memory (program to value minus 1). When predecimation is set, the value represents the size of ..."
hexmask.long.word 0x00 0.--10. 1. "                  MEMSIZEX                 ,Number of pixels of the video picture Encoded value (from 1 to 2048) to specify the number of pixels of the video picture in memory (program to value minus 1). The size is limited to the size of the line buff..."
group.long 0x398++0x3
line.long 0x00 "DISPC_VID3_PIXEL_INC,The register configures the number of bytes to increment between two pixels for the buffer associated with the video window 3. For more information, see, Predecimation.The register is used only when the TILER is not present in the ..."
hexmask.long.byte 0x00 0.--7. 1. " PIXELINC                        ,Number of bytes to increment between two pixels. Encoded unsigned value (from 1 to 255) to specify the number of bytes between two pixels in the video buffer. The value 0 is invalid. The value 1 means next pixel. The v..."
group.long 0x39C++0x3
line.long 0x00 "DISPC_VID3_POSITION,The register configures the position of the video window 3. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third LCD or EVSYNC or when.GOWB is set to 1..."
hexmask.long.word 0x00 16.--26. 1. " POSY                            ,Y position of the video window 2 Encoded value (from 0 to 2047) to specify the Y position of the video window 2 .The line at the top has the Y-position 0."
hexmask.long.word 0x00 0.--10. 1. "                  POSX                     ,X position of the video window 2 Encoded value (from 0 to 2047) to specify the X position of the video window 2. The first pixel on the left of the display screen has the X-position 0."
group.long 0x3A0++0x3
line.long 0x00 "DISPC_VID3_PRELOAD,The register configures the DMA buffer of the video 3 pipeline. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third LCD or EVSYNC or when.GOWB is set t..."
hexmask.long.word 0x00 0.--11. 1. " PRELOAD                         ,DMA buffer preload value Number of 128-bit words defining the preload value."
group.long 0x3A4++0x3
line.long 0x00 "DISPC_VID3_ROW_INC,The register configures the number of bytes to increment at the end of the row for the buffer associated with the video window 3. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or..."
hexmask.long 0x00 0.--31. 1. " ROWINC                          ,Number of bytes to increment at the end of the row Encoded signed value (from 21 to 2) to specify the number of bytes to increment at the end of the row in the video buffer. The value 0 is invalid. The value 1 means ne..."
group.long 0x3A8++0x3
line.long 0x00 "DISPC_VID3_SIZE,The register configures the size of the video window 3. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third LCD or EVSYNC or when.GOWB is set to 1 by soft..."
hexmask.long.word 0x00 16.--27. 1. " SIZEY                           ,Number of lines of the video 3 Encoded value (from 1 to 4096) to specify the number of lines of the video window 3. Program to value minus 1."
hexmask.long.word 0x00 0.--10. 1. "                  SIZEX                    ,Number of pixels of the video window 3 Encoded value (from 1 to 2048) to specify the number of pixels of the video window 3. Program to value minus 1."
group.long 0x3AC++0x3
line.long 0x00 "DISPC_DEFAULT_COLOR2,The control register allows to configure the default solid background color for the secondary LCD Shadow register, updated on VFP start period of secondary LCD"
hexmask.long.tbyte 0x00 0.--23. 1. " DEFAULTCOLOR                    ,24-bit RGB color value to specify the default solid color to display when there is no data from the overlays."
group.long 0x3B0++0x3
line.long 0x00 "DISPC_TRANS_COLOR2,The register sets the transparency color value for the video/graphics overlays for the secondary LCD output. Shadow register, updated on VFP start period of the secondary LCD"
hexmask.long.tbyte 0x00 0.--23. 1. " TRANSCOLORKEY                   ,Transparency Color Key Value in RGB format [0] BITMAP 1 (CLUT), [23,1] set to 0s [1:0] BITMAP 2 (CLUT), [23,2] set to 0s [3:0] BITMAP 4 (CLUT), [23,4] set to 0s [7:0] BITMAP 8 (CLUT), [23,8] set to 0s [11:0] RGB 12, [2..."
group.long 0x3B4++0x3
line.long 0x00 "DISPC_CPR2_COEF_B,The register configures the color phase rotation matrix coefficients for the Blue component. It is used for the secondary LCD output. Shadow register, updated on VFP start period of secondary LCD"
hexmask.long.word 0x00 22.--31. 1. " BR                              ,BR coefficient encoded signed value (from ?512 to 511)."
hexmask.long.word 0x00 11.--20. 1. "                  BG                       ,BG coefficient encoded signed value (from ?512 to 511)."
hexmask.long.word 0x00 0.--9. 1. "                BB                        ,BB coefficient encoded signed value (from ?512 to 511)."
group.long 0x3B8++0x3
line.long 0x00 "DISPC_CPR2_COEF_G,The register configures the color phase rotation matrix coefficients for the Green component. It is used for the secondary LCD output. Shadow register, updated on VFP start period of secondary LCD"
hexmask.long.word 0x00 22.--31. 1. " GR                              ,GR coefficient encoded signed value (from ?512 to 511)."
hexmask.long.word 0x00 11.--20. 1. "                  GG                       ,GG coefficient encoded signed value (from ?512 to 511)."
hexmask.long.word 0x00 0.--9. 1. "                GB                        ,GB coefficient encoded signed value (from ?512 to 511)."
group.long 0x3BC++0x3
line.long 0x00 "DISPC_CPR2_COEF_R,The register configures the color phase rotation matrix coefficients for the Red component. Shadow register, updated on VFP start period of secondary LCD"
hexmask.long.word 0x00 22.--31. 1. " RR                              ,RR coefficient encoded signed value (from ?512 to 511)."
hexmask.long.word 0x00 11.--20. 1. "                  RG                       ,RG coefficient encoded signed value (from ?512 to 511)."
hexmask.long.word 0x00 0.--9. 1. "                RB                        ,RB coefficient encoded signed value (from ?512 to 511)."
group.long 0x3C0++0x3
line.long 0x00 "DISPC_DATA2_CYCLE1,The control register configures the output data format for 1st cycle. Shadow register, updated on VFP start period of secondary LCD"
bitfld.long 0x00 24.--27. " BITALIGNMENTPIXEL2              ,Bit alignment. Alignment of the bits from pixel 2 on the output interface" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--20. "                    NBBITSPIXEL2             ,Number of bits Number of bits from the pixel 2 (value from 0 to 16 bits). The values from 17 to 31 are invalid." "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 8.--11. "          BITALIGNMENTPIXEL1        ,Bit alignment. Alignment of the bits from pixel 1 on the output interface" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                       "
bitfld.long 0x00 0.--4. " NBBITSPIXEL1                    ,Number of bits Number of bits from the pixel 1 (value from 0 to 16 bits). The values from 17 to 31 are invalid." "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
group.long 0x3C4++0x3
line.long 0x00 "DISPC_DATA2_CYCLE2,The control register configures the output data format for 2nd cycle. Shadow register, updated on VFP start period of secondary LCD"
bitfld.long 0x00 24.--27. " BITALIGNMENTPIXEL2              ,Bit alignment. Alignment of the bits from pixel 2 on the output interface" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--20. "                    NBBITSPIXEL2             ,Number of bits Number of bits from the pixel 2 (value from 0 to 16 bits). The values from 17 to 31 are invalid." "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 8.--11. "          BITALIGNMENTPIXEL1        ,Bit alignment. Alignment of the bits from pixel 1 on the output interface" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                       "
bitfld.long 0x00 0.--4. " NBBITSPIXEL1                    ,Number of bits Number of bits from the pixel 1 (value from 0 to 16 bits). The values from 17 to 31 are invalid." "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
group.long 0x3C8++0x3
line.long 0x00 "DISPC_DATA2_CYCLE3,The control register configures the output data format for 3rd cycle. Shadow register, updated on VFP start period of secondary LCD"
bitfld.long 0x00 24.--27. " BITALIGNMENTPIXEL2              ,Bit alignment. Alignment of the bits from pixel 2 on the output interface" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--20. "                    NBBITSPIXEL2             ,Number of bits Number of bits from the pixel 2 (value from 0 to 16 bits). The values from 17 to 31 are invalid." "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 8.--11. "          BITALIGNMENTPIXEL1        ,Bit alignment. Alignment of the bits from pixel 1 on the output interface" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                       "
bitfld.long 0x00 0.--4. " NBBITSPIXEL1                    ,Number of bits Number of bits from the pixel 1 (value from 0 to 16 bits). The values from 17 to 31 are invalid." "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
group.long 0x3CC++0x3
line.long 0x00 "DISPC_SIZE_LCD2,The register configures the panel size (horizontal and vertical). It is used for the secondary LCD output. Shadow register, updated on VFP start period of secondary LCD. A delta value is used to indicate if the odd field has same vertic..."
hexmask.long.word 0x00 16.--27. 1. " LPP                             ,Lines per panel encoded value (from 1 to 4096) to specify the number of lines per panel (program to value minus 1)."
bitfld.long 0x00 14.--15. "                  DELTA_LPP                ,Indicates the delta size value of the odd field compared to the even field - Same. - PlusOne. - MinusOne." "Same,PlusOne,MinusOne,3"
hexmask.long.word 0x00 0.--11. 1. "            PPL                       ,Pixels per line encoded value (from 1 to 4096) to specify the number of pixels contains within each line on the display (program to value minus 1). In STALL mode, any value is valid. In non STALL mode, only values..."
group.long 0x400++0x3
line.long 0x00 "DISPC_TIMING_H2,The register configures the timing logic for the HSYNC signal. It is used for the secondary LCD output. Shadow register, updated on VFP start period of secondary LCD"
hexmask.long.word 0x00 20.--31. 1. " HBP                             ,Horizontal back porch. Encoded value (from 1 to 4096) to specify the number of pixel clock periods to add to the beginning of a line transmission before the first set of pixels is output to the display (program to valu..."
hexmask.long.word 0x00 8.--19. 1. "                  HFP                      ,Horizontal front porch. Encoded value (from 1 to 4096) to specify the number of pixel clock periods to add to the end of a line transmission before line clock is asserted (program to value minus 1)."
hexmask.long.byte 0x00 0.--7. 1. "                HSW                       ,Horizontal synchronization pulse width encoded value (from 1 to 256) to specify the number of pixel clock periods to pulse the line clock at the end of each line (program to value minus 1)."
group.long 0x404++0x3
line.long 0x00 "DISPC_TIMING_V2,The register configures the timing logic for the VSYNC signal. It is used for the secondary LCD output. Shadow register, updated on VFP start period of secondary LCD"
hexmask.long.word 0x00 20.--31. 1. " VBP                             ,Vertical back porch encoded value (from 0 to 4095) to specify the number of line clock periods to add to the beginning of a frame before the first set of pixels is output to the display."
hexmask.long.word 0x00 8.--19. 1. "                  VFP                      ,Vertical front porch encoded value (from 0 to 4095) to specify the number of line clock periods to add to the end of each frame."
hexmask.long.byte 0x00 0.--7. 1. "                VSW                       ,Vertical synchronization pulse width In active mode, encoded value (from 1 to 256) to specify the number of line clock periods (program to value minus 1) to pulse the frame clock (VSYNC) pin at the end of each..."
group.long 0x408++0x3
line.long 0x00 "DISPC_POL_FREQ2,The register configures the signal configuration. It is used for the secondary LCD output. Shadow register, updated on VFP start period of secondary LCD"
bitfld.long 0x00 18. " ALIGN                           ,Defines the alignment between HSYNC and VSYNC assertion. - notAligned. - Aligned." "notAligned,Aligned"
bitfld.long 0x00 17. "            ONOFF                    ,HSYNC/VSYNC Pixel clock Control On/Off - DOpEdPCk. - DBit16. Note: Control module register CTRL_CORE_SMA_SW_1[23]DSS_CH1_ON_OFF must be set to match. - DBit16." "DOpEdPCk,DBit16"
bitfld.long 0x00 16. "            RF                        ,Program HSYNC/VSYNC Rise or Fall - DFEdPCk. - DRiEdPCk. Note: Control module register CTRL_CORE_SMA_SW_1[17]DSS_CH1_RF must be set to match. - DRiEdPCk." "DFEdPCk,DRiEdPCk"
textline "                                       "
bitfld.long 0x00 15. " IEO                             ,Invert output enable - ACBaHigh. - ACBaLow." "ACBaHigh,ACBaLow"
bitfld.long 0x00 14. "              IPC                      ,Invert pixel clock - DrPCk. - DfPCk. Note: Control module register CTRL_CORE_SMA_SW_1[20]DSS_CH1_IPC must be set to match. - DfPCk." "DrPCk,DfPCk"
bitfld.long 0x00 13. "               IHS                       ,Invert HSYNC - LCkpinAh. - LCkpinAl." "LCkpinAh,LCkpinAl"
textline "                                       "
bitfld.long 0x00 12. " IVS                             ,Invert VSYNC - FCkpinAh. - FCkpinAl." "FCkpinAh,FCkpinAl"
bitfld.long 0x00 8.--11. "              ACBI                     ,AC Bias Pin transitions per interrupt Value (from 0 to 15) used to specify the number of AC Bias pin transitions" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 0.--7. 1. "                  ACB                       ,AC Bias Pin Frequency Value (from 0 to 255) used to specify the number of line clocks to count before transitioning the AC Bias pin. This pin is used to periodically invert the polarity of the power supply t..."
group.long 0x40C++0x3
line.long 0x00 "DISPC_DIVISOR2,The register configures the divisors. It is used for the secondary LCD output. Shadow register, updated on VFP start period of secondary LCD"
hexmask.long.byte 0x00 16.--23. 1. " LCD                             ,Display controller logic clock divisor value (from 1 to 255) to specify the intermediate pixel clock frequency based on the LCD2_CLK. The value 0 is invalid."
hexmask.long.byte 0x00 0.--7. 1. "                    PCD                      ,Pixel clock divisor value (from 1 to 255) to specify the frequency of the pixel clock based on the LCD2_CLK divided byDISPC_DIVISOR2.LCD value. The value 0 is invalid."
group.long 0x570++0x3
line.long 0x00 "DISPC_WB_ATTRIBUTES,The register configures the attributes of the viwrite back pipeline. Shadow register, updated when.GOWB is set to 1 by software and current WB frame is finished (no more data in the write-back pipeline), when the WB pipeline is dire..."
bitfld.long 0x00 28.--31. " IDLENUMBER                      ,Determines the number of idles between requests on the L3_MAIN interconnect. It is only used when the write-back pipeline does data transfer from memory to memory. When the output of an overlay is stored in memory thro..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 27. "                    IDLESIZE                 ,Determines if the IDLENUMBER corresponds to a number of bursts or singles. - IdleSingle. - IdleBurst." "IdleSingle,IdleBurst"
bitfld.long 0x00 24.--26. "          CAPTUREMODE               ,Defines the frame rate capture. - Only1_6. - Only1. - Only1_7. - All. - Only1_2. - Only1_4. - Only1_5. - Only1_3." "All,Only1,Only1_2,Only1_3,Only1_4,Only1_5,Only1_6,Only1_7"
textline "                                       "
bitfld.long 0x00 23. " ARBITRATION                     ,Determines the priority of the write-back pipeline. The write-back pipeline is one of the high priority pipeline. The arbitration gives always the priority first to the high priority pipelines using round-robin between..." "NormalPrio,HighPrio"
bitfld.long 0x00 22. "            DOUBLESTRIDE             ,Determines if the stride for CbCr buffer is the 1x or 2x of the Y buffer stride. It is only used in case of YUV4:2:0. - Initial. - Double." "Initial,Double"
bitfld.long 0x00 21. "             VERTICALTAPS              ,Video Vertical Resize Tap Number - taps3. - taps5." "taps3,taps5"
textline "                                       "
bitfld.long 0x00 20. " FORCE1DTILEDMODE                ,Force TILED regions access to 1D or 2D. - TiledRegions2DAccess. - TiledRegions1DAccess." "TiledRegions2DAccess,TiledRegions1DAccess"
bitfld.long 0x00 19. "  WRITEBACKMODE            ,When connected to the overlay output of a channel the write back can operate as a simple transfer from memory to memory (composition engine) or as a capture channel. 0x0: Capture mode (default mode) 0x1: Memory-to-memory mode" "0,1"
bitfld.long 0x00 16.--18. "                   CHANNELIN                 ,Video Channel In configuration WR: immediate - Vid3. - LCD2. - LCD1. - TV. - Vid1. - Vid2. - Gfx. - LCD3." "LCD1,LCD2,TV,Gfx,Vid1,Vid2,Vid3,LCD3"
textline "                                       "
bitfld.long 0x00 14.--15. " BURSTSIZE                       ,Write-back DMA Burst Size - Burst2x128b. - Burst4x128b. - Res. - Burst8x128b." "Burst2x128b,Burst4x128b,Burst8x128b,Res"
bitfld.long 0x00 11. "           FULLRANGE                ,Color Space Conversion full range setting. - Limrange. - FullRange." "Limrange,FullRange"
bitfld.long 0x00 10. "           TRUNCATIONENABLE          ,It applies only when the input format to the write-back pipeline from the overlay or directly from one of the pipelines is ARGB32. If the format is one of the YUV supported formats, the bit field is ignored. - WBTr..." "WBTruncDis,WBTruncEnb"
textline "                                       "
bitfld.long 0x00 9. " COLORCONVENABLE                 ,Enable the color space conversion. The hardware does not enable/disable the conversion based on the pixel format. The bit field shall be reset when the format is not YUV. - ColSpCDis. - ColSpCEnb." "ColSpCDis,ColSpCEnb"
bitfld.long 0x00 8. "             BURSTTYPE                ,The type of burst can be INCR (incremental) or BLCK (2D block). The 2D block is required when the TILER is targeted by the DMA engine. - 1D_burst. - 2D_burst." "1D_burst,2D_burst"
bitfld.long 0x00 7. "            ALPHAENABLE               ,Premultiplied alpha enable Read 0x1: Enabled Read 0x0: Disabled. This bit also disable the logic present in the associated channel out that compute the alpha component sent to the WB pipe. When the WB is configure..." "0,1"
textline "                                       "
bitfld.long 0x00 5.--6. " RESIZEENABLE                    ,Resize Enable - ReSizeProc. - HReSize. - HVReSize. - VReSize." "ReSizeProc,HReSize,VReSize,HVReSize"
bitfld.long 0x00 1.--4. "            FORMAT                   ,Write-back format. It defines the pixel format when storing the write-back picture into memory. - RGB16. - RGBx12. - YUV2. - ARGB16_1. - RGBA32. - NV12. - RGBA12. - xRGB24. - RGB24. - UYVY. - ARGB16. - xRGB15. - AR..." "NV12,RGBx12,RGBA12,BGRA32,xRGB12,ARGB16,RGB16,ARGB16_1,xRGB24,RGB24,YUV2,UYVY,ARGB32,RGBA32,xRGB12,xRGB15"
bitfld.long 0x00 0. "            ENABLE                    ,Write-back enable. wr: immediate - WBDis. - WBEnb." "WBDis,WBEnb"
group.long 0x574++0x3
line.long 0x00 "DISPC_WB_CONV_COEF0,The register configures the color space conversion matrix coefficients for the write back pipeline (YUV4:4:4 to RGB24). Shadow register, updated when.GOWB is set to 1 by software and current WB frame is finished (no more data in the..."
hexmask.long.word 0x00 16.--26. 1. " YG                              ,YG coefficient encoded signed value (from ?1024 to 1023)."
hexmask.long.word 0x00 0.--10. 1. "                  YR                       ,YR coefficient encoded signed value (from ?1024 to 1023)."
group.long 0x578++0x3
line.long 0x00 "DISPC_WB_CONV_COEF1,The register configures the color space conversion matrix coefficients for the write back pipeline. Shadow register, updated when.GOWB is set to 1 by software and current WB frame is finished (no more data in the write-back pipeline..."
hexmask.long.word 0x00 16.--26. 1. " CRR                             ,CrR coefficient encoded signed value (from ?1024 to 1023)."
hexmask.long.word 0x00 0.--10. 1. "                  YB                       ,YB coefficient encoded signed value (from ?1024 to 1023)."
group.long 0x57C++0x3
line.long 0x00 "DISPC_WB_CONV_COEF2,The register configures the color space conversion matrix coefficients for the write back pipeline. Shadow register, updated when.GOWB is set to 1 by software and current WB frame is finished (no more data in the write-back pipeline..."
hexmask.long.word 0x00 16.--26. 1. " CRB                             ,CrB coefficient encoded signed value (from ?1024 to 1023)."
hexmask.long.word 0x00 0.--10. 1. "                  CRG                      ,CrG coefficient encoded signed value (from ?1024 to 1023)."
group.long 0x580++0x3
line.long 0x00 "DISPC_WB_CONV_COEF3,The register configures the color space conversion matrix coefficients for the write back pipeline. Shadow register, updated when.GOWB is set to 1 by software and current WB frame is finished (no more data in the write-back pipeline..."
hexmask.long.word 0x00 16.--26. 1. " CBG                             ,CbG coefficient encoded signed value (from ?1024 to 1023)."
hexmask.long.word 0x00 0.--10. 1. "                  CBR                      ,CbR coefficient encoded signed value (from ?1024 to 1023)."
group.long 0x584++0x3
line.long 0x00 "DISPC_WB_CONV_COEF4,The register configures the color space conversion matrix coefficients for the write back pipeline. Shadow register, updated when.GOWB is set to 1 by software and current WB frame is finished (no more data in the write-back pipeline..."
hexmask.long.word 0x00 0.--10. 1. " CBB                             ,CbB coefficient encoded signed value (from ?1024 to 1023)."
rgroup.long 0x588++0x3
line.long 0x00 "DISPC_WB_BUF_SIZE_STATUS,The register defines the DMA buffer size for the write back pipeline."
hexmask.long.word 0x00 0.--15. 1. " BUFSIZE                         ,DMA buffer Size in number of 128 bits"
group.long 0x58C++0x3
line.long 0x00 "DISPC_WB_BUF_THRESHOLD,The register configures the DMA buffer associated with the write-back pipeline. Shadow register, updated when.GOWB is set to 1 by software and current WB frame is finished (no more data in the write-back pipeline), when the WB pi..."
hexmask.long.word 0x00 16.--31. 1. " BUFHIGHTHRESHOLD                ,DMA buffer high threshold number of 128 bits defining the threshold value"
hexmask.long.word 0x00 0.--15. 1. "                  BUFLOWTHRESHOLD          ,DMA buffer low threshold number of 128 bits defining the threshold value"
group.long 0x590++0x3
line.long 0x00 "DISPC_WB_FIR,The register configures the resize factors for horizontal and vertical up/downsampling of the write back pipeline. It is used for ARGB and Y setting. Shadow register, updated when.GOWB is set to 1 by software and current WB frame is finish..."
hexmask.long.word 0x00 16.--28. 1. " FIRVINC                         ,Vertical increment of the up/downsampling filter Encoded value (from 1 to 4096). The value 0 is invalid. The values greater than 4096 are invalid."
hexmask.long.word 0x00 0.--12. 1. "                  FIRHINC                  ,Horizontal increment of the up/downsampling filter Encoded value (from 1 to 4096). The value 0 is invalid. The values greater than 4096 are invalid."
group.long 0x594++0x3
line.long 0x00 "DISPC_WB_PICTURE_SIZE,The register configures the size of the write-back picture associated with the write back pipeline after up/down-scaling. Shadow register, updated when.GOWB is set to 1 by software and current WB frame is finished (no more data in..."
hexmask.long.word 0x00 16.--27. 1. " MEMSIZEY                        ,Number of lines of the wb picture in memory. Encoded value (from 1 to 4096) to specify the number of lines of the picture in memory (program to value minus 1)."
hexmask.long.word 0x00 0.--10. 1. "                  MEMSIZEX                 ,Number of pixels of the wb picture in memory. Encoded value (from 1 to 2048) to specify the number of pixels of the picture in memory (program to value minus 1)."
group.long 0x598++0x3
line.long 0x00 "DISPC_WB_PIXEL_INC,The register configures the number of bytes to increment between two pixels for the buffer associated with the write back pipeline. The register is used only when the TILER is not present in the system in order to perform low perform..."
hexmask.long.byte 0x00 0.--7. 1. " PIXELINC                        ,Values other than 1 are invalid"
group.long 0x5A4++0x3
line.long 0x00 "DISPC_WB_ROW_INC,The register configures the number of bytes to increment at the end of the row for the buffer associated with the vwrite back pipeline. Shadow register, updated when.GOWB is set to 1 by software and current WB frame is finished (no mor..."
hexmask.long 0x00 0.--31. 1. " ROWINC                          ,Number of bytes to increment at the end of the row Encoded signed value (from 21 to 2) to specify the number of bytes to increment at the end of the row in the video buffer. The value 0 is invalid. The value 1 means ne..."
group.long 0x5A8++0x3
line.long 0x00 "DISPC_WB_SIZE,The register configures the size of the output of overlay connected to the write-back pipeline when the overlay output is only used by the write-back pipeline. When the overlay is output on the primary LCD or secondary LCD or TV outputs, ..."
hexmask.long.word 0x00 16.--27. 1. " SIZEY                           ,Number of lines of the Write-back picture Encoded value (from 1 to 4096) to specify the number of lines of the write-back picture from overlay or pipeline. Program to value minus 1."
hexmask.long.word 0x00 0.--10. 1. "                  SIZEX                    ,Number of pixels of the Write-back picture Encoded value (from 1 to 2048) to specify the number of pixels of the write-back picture from overlay or pipeline. Program to value minus 1."
group.long 0x620++0x3
line.long 0x00 "DISPC_CONFIG2,The control register configures the Display Controller module for the secondary LCD output. Shadow register, updated on VFP start period of secondary LCD or VFP start period of the third LCD or EVSYNC"
bitfld.long 0x00 26.--27. " SLCDINTERLEAVE                  ,sLCD Interleave Pattern" "0,1,2,3"
bitfld.long 0x00 25. "                     FULLRANGE                ,Color space conversion full range setting. - Limrange. - FullRange." "Limrange,FullRange"
bitfld.long 0x00 24. "           COLORCONV_ENABLE          ,Enable the color space conversion. It shall be reset when CPR bit field is set to 0x1. - ColSpCDis. - ColSpCEnb." "ColSpCDis,ColSpCEnb"
textline "                                       "
bitfld.long 0x00 23. " FIDFIRST                        ,Selects the first field to output in case of interlace mode. In case of progressive mode, the value is not used. - Even. - Odd." "Even,Odd"
bitfld.long 0x00 22. "                  OUTPUTMODE_ENABLE        ,Selects between progressive and interlace mode for the secondary LCD output. - Disable. - Enable." "Disable,Enable"
bitfld.long 0x00 21. "             BT1120ENABLE              ,Selects BT.1120 format on the primary LCD output. It is not posssible to enable BT.656 and BT.1120 at the same time one the same LCD output. wr: VFP start of primary LCD - . - ." "Disable,Enable"
textline "                                       "
bitfld.long 0x00 20. " BT656ENABLE                     ,Selects BT.656 format on the primary LCD output. It is not posssible to enable BT.656 and BT.1120 at the same time one the same LCD output. wr: VFP start of primary LCD - . - ." "Disable,Enable"
bitfld.long 0x00 15. "               CPR                      ,Color Phase Rotation Control secondary LCD output). It shall be reset when ColorConvEnable bit field is set to 1. wr: VFP start period of secondary LCD output - CPRDis. - CPREnb." "CPRDis,CPREnb"
bitfld.long 0x00 11. "              TCKLCD_SELECTION          ,Transparency color key selection (secondary LCD output) wr: VFP start period of secondary LCD output - GDTK. - VSTK." "GDTK,VSTK"
textline "                                       "
bitfld.long 0x00 10. " TCKLCDENABLE                    ,Transparency color key enabled (secondary LCD output) wr: VFP start period of secondary LCD output - DisTCK. - EnbTCK." "DisTCK,EnbTCK"
bitfld.long 0x00 8. "                ACBIASGATED              ,ACBias gated enabled (secondary LCD output) wr: VFP start period of secondary LCD output - ACBGDis. - ACBGEnb." "ACBGDis,ACBGEnb"
bitfld.long 0x00 7. "             VSYNCGATED                ,VSYNC gated enabled (secondary LCD output) wr: VFP start period of secondary LCD output - VGDis. - VGEnb." "VGDis,VGEnb"
textline "                                       "
bitfld.long 0x00 6. " HSYNCGATED                      ,HSYNC gated enabled (secondary LCD output) wr: VFP start period of secondary LCD output - HGDis. - HGEnb." "HGDis,HGEnb"
bitfld.long 0x00 5. "                 PIXELCLOCK_GATED         ,Pixel clock gated enabled (secondary LCD output) wr: VFP start period of secondary LCD output - PCGDis. - PCGEnb." "PCGDis,PCGEnb"
bitfld.long 0x00 4. "              PIXELDATA_GATED           ,Pixel data gated enabled (secondary LCD output) wr: VFP start period of secondary LCD output - PDGDis. - PDGEnb." "PDGDis,PDGEnb"
textline "                                       "
bitfld.long 0x00 0. " PIXELGATED                      ,Pixel gated enable (only for active matrix) (secondary LCD output) wr: VFP start period of secondary LCD output - PclkTogA. - PclkTogV." "PclkTogA,PclkTogV"
group.long 0x624++0x3
line.long 0x00 "DISPC_VID1_ATTRIBUTES2,The register configures the attributes of the video window 1. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third LCD or EVSYNC or when.GOWB is set..."
bitfld.long 0x00 9.--11. " SUBSAMPLINGPATTERN              ,Subsampling pattern setting." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8. "                     YUVCHROMARE_SAMPLING     ,The YUV chrominance can be resampled using averaging of the adjacent chrominance samples, without using the polyphase filter for 4:2:2 input or can be calculated using the polyphase filter for 4:2:2/4:2:0...." "Average,Filter"
bitfld.long 0x00 4.--6. "             VC1_RANGE__CBCR           ,Defines the VC-1 range value for the CbCr component from 0 to 7." "0,1,2,3,4,5,6,7"
textline "                                       "
bitfld.long 0x00 1.--3. " VC1_RANGE_Y                     ,Defines the VC-1 range value for the Y component from 0 to 7." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "                     VC1ENABLE                ,Enable/disable the VC-1 range mapping processing. The bit field is ignored if the format is not one of the supported YUV formats. - VC1Dis. - VC1Enb." "VC1Dis,VC1Enb"
group.long 0x628++0x3
line.long 0x00 "DISPC_VID2_ATTRIBUTES2,The register configures the attributes of the video window 2. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third LCD or EVSYNC or when.GOWB is set..."
bitfld.long 0x00 9.--11. " SUBSAMPLINGPATTERN              ,Subsampling pattern setting." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8. "                     YUVCHROMARE_SAMPLING     ,The YUV chrominance can be resampled using averaging of the adjacent chrominance samples, without using the polyphase filter for 4:2:2 input or can be calculated using the polyphase filter for 4:2:2/4:2:0...." "Average,Filter"
bitfld.long 0x00 4.--6. "             VC1_RANGE__CBCR           ,Defines the VC-1 range value for the CbCr component from 0 to 7." "0,1,2,3,4,5,6,7"
textline "                                       "
bitfld.long 0x00 1.--3. " VC1_RANGE_Y                     ,Defines the VC-1 range value for the Y component from 0 to 7." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "                     VC1ENABLE                ,Enable/disable the VC-1 range mapping processing. The bit field is ignored if the format is not one of the supported YUV formats. - VC1Dis. - VC1Enb." "VC1Dis,VC1Enb"
group.long 0x62C++0x3
line.long 0x00 "DISPC_VID3_ATTRIBUTES2,The register configures the attributes of the video window 3. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or VFP start period of the third LCD or EVSYNC or when.GOWB is set..."
bitfld.long 0x00 9.--11. " SUBSAMPLINGPATTERN              ,Subsampling pattern setting." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8. "                     YUVCHROMARE_SAMPLING     ,The YUV chrominance can be resampled using averaging of the adjacent chrominance samples, without using the polyphase filter for 4:2:2 input or can be calculated using the polyphase filter for 4:2:2/4:2:0...." "Average,Filter"
bitfld.long 0x00 4.--6. "             VC1_RANGE__CBCR           ,Defines the VC-1 range value for the CbCr component from 0 to 7." "0,1,2,3,4,5,6,7"
textline "                                       "
bitfld.long 0x00 1.--3. " VC1_RANGE_Y                     ,Defines the VC-1 range value for the Y component from 0 to 7." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "                     VC1ENABLE                ,Enable/disable the VC-1 range mapping processing. The bit field is ignored if the format is not one of the supported YUV formats. - VC1Dis. - VC1Enb." "VC1Dis,VC1Enb"
wgroup.long 0x630++0x3
line.long 0x00 "DISPC_GAMMA_TABLE0,The register configures the look up table used as color look up table for BITMAP formats (1-, 2-, 4, and 8-bpp) on the graphics pipeline or as gamma table on the primary LCD output."
hexmask.long.byte 0x00 24.--31. 1. " INDEX                           ,Defines the location in the table where the bit field VALUE is stored."
hexmask.long.byte 0x00 16.--23. 1. "                    VALUE_R                  ,8-bit value used to defined the value to store at the location in the table defined by the bit field INDEX"
hexmask.long.byte 0x00 8.--15. 1. "                  VALUE_G                   ,8-bit value used to defined the value to store at the location in the table defined by the bit field INDEX"
textline "                                       "
hexmask.long.byte 0x00 0.--7. 1. " VALUE_B                         ,8-bit value used to defined the value to store at the location in the table defined by the bit field INDEX"
wgroup.long 0x634++0x3
line.long 0x00 "DISPC_GAMMA_TABLE1,The register configures the gamma table on the secondary LCD output."
hexmask.long.byte 0x00 24.--31. 1. " INDEX                           ,Defines the location in the table where the bit field VALUE is stored."
hexmask.long.byte 0x00 16.--23. 1. "                    VALUE_R                  ,8-bit value used to defined the value to store at the location in the table defined by the bit field INDEX"
hexmask.long.byte 0x00 8.--15. 1. "                  VALUE_G                   ,8-bit value used to defined the value to store at the location in the table defined by the bit field INDEX"
textline "                                       "
hexmask.long.byte 0x00 0.--7. 1. " VALUE_B                         ,8-bit value used to defined the value to store at the location in the table defined by the bit field INDEX"
wgroup.long 0x638++0x3
line.long 0x00 "DISPC_GAMMA_TABLE2,The register configures the gamma table on the TV output."
bitfld.long 0x00 31. " INDEX                           ,Setting this bit to 1 resets the internal index counter to zero. Each subsequent access to the register (with the INDEX bit kept at 0) increments the address for the next storage location into the table memory." "0,1"
hexmask.long.word 0x00 20.--29. 1. "                     VALUE_R                  ,10-bit color component value to store in the table"
hexmask.long.word 0x00 10.--19. 1. "                VALUE_G                   ,10-bit color component value to store in the table"
textline "                                       "
hexmask.long.word 0x00 0.--9. 1. " VALUE_B                         ,10-bit color component value to store in the table"
group.long 0x63C++0x3
line.long 0x00 "DISPC_VID1_FIR2,The register configures the resize factors for horizontal and vertical up/downsampling of the video window 1. It is used for Crb and Cr setting. It is used only when the pixel format at the input of the filter is one of the YUV formats...."
hexmask.long.word 0x00 16.--28. 1. " FIRVINC                         ,Vertical increment of the up/downsampling filter for Cb and Cr. Encoded value (from 1 to 4096). The value 0 is invalid. The values greater than 4096 are invalid."
hexmask.long.word 0x00 0.--12. 1. "                  FIRHINC                  ,Horizontal increment of the up/downsampling filter for Cb and Cr. Encoded value (from 1 to 4096). The value 0 is invalid. The values greater than 4096 are invalid."
group.long 0x6A8++0x3
line.long 0x00 "DISPC_VID2_FIR2,The register configures the resize factors for horizontal and vertical up/downsampling of the video window 2. It is used for Crb and Cr setting. It is used only when the pixel format at the input of the filter is one of the YUV formats...."
hexmask.long.word 0x00 16.--28. 1. " FIRVINC                         ,Vertical increment of the up/downsampling filter for Cb and Cr. Encoded value (from 1 to 4096). The value 0 is invalid. The values greater than 4096 are invalid."
hexmask.long.word 0x00 0.--12. 1. "                  FIRHINC                  ,Horizontal increment of the up/downsampling filter for Cb and Cr. Encoded value (from 1 to 4096). The value 0 is invalid. The values greater than 4096 are invalid."
group.long 0x724++0x3
line.long 0x00 "DISPC_VID3_FIR2,The register configures the resize factors for horizontal and vertical up/downsampling of the video window 3. It is used for Crb and Cr setting. It is used only when the pixel format at the input of the filter is one of the YUV formats...."
hexmask.long.word 0x00 16.--28. 1. " FIRVINC                         ,Vertical increment of the up/downsampling filter for Cb and Cr. Encoded value (from 1 to 4096). The value 0 is invalid. The values greater than 4096 are invalid."
hexmask.long.word 0x00 0.--12. 1. "                  FIRHINC                  ,Horizontal increment of the up/downsampling filter for Cb and Cr. Encoded value (from 1 to 4096). The value 0 is invalid. The values greater than 4096 are invalid."
group.long 0x790++0x3
line.long 0x00 "DISPC_WB_FIR2,The register configures the resize factors for horizontal and vertical up/downsampling of the write-back pipeline. It is used for Crb and Cr setting. It is used only when the pixel format at the input of the filter is one of the YUV forma..."
hexmask.long.word 0x00 16.--28. 1. " FIRVINC                         ,Vertical increment of the up/downsampling filter for Cb and Cr. Encoded value (from 1 to 4096). The value 0 is invalid. The values greater than 4096 are invalid."
hexmask.long.word 0x00 0.--12. 1. "                  FIRHINC                  ,Horizontal increment of the up/downsampling filter for Cb and Cr. Encoded value (from 1 to 4096). The value 0 is invalid. The values greater than 4096 are invalid."
group.long 0x800++0x3
line.long 0x00 "DISPC_GLOBAL_BUFFER,The register configures the DMA buffers allocations to the pipeline (graphics, video1, video2, video3 and write-back). Both TOP and BOTTOM must be allocated to the same pipeline."
bitfld.long 0x00 24.--29. " WB_BUFFER                       ,Write-back DMA buffer allocation to one of the pipelines. By default to write-back pipeline. - Wb. - Gfx. - Vid1. - Vid2. - Vid3." "Gfx,1,2,3,4,5,6,7,8,Vid1,10,11,12,13,14,15,16,17,Vid2,19,20,21,22,23,24,25,26,Vid3,28,29,30,31,32,33,34,35,Wb,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 18.--23. "                  VID3_BUFFER              ,Video3 DMA buffer allocation to one of the pipelines. By default to video3 pipeline. - Wb. - Gfx. - Vid1. - Vid2. - Vid3." "Gfx,1,2,3,4,5,6,7,8,Vid1,10,11,12,13,14,15,16,17,Vid2,19,20,21,22,23,24,25,26,Vid3,28,29,30,31,32,33,34,35,Wb,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 12.--17. "                VID2_BUFFER               ,Video2 DMA buffer allocation to one of the pipelines. By default to video2 pipeline. - Wb. - Gfx. - Vid1. - Vid2. - Vid3." "Gfx,1,2,3,4,5,6,7,8,Vid1,10,11,12,13,14,15,16,17,Vid2,19,20,21,22,23,24,25,26,Vid3,28,29,30,31,32,33,34,35,Wb,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                       "
bitfld.long 0x00 6.--11. " VID1_BUFFER                     ,Video1 DMA buffer allocation to one of the pipelines. By default to video 1 pipeline. - Wb. - Gfx. - Vid1. - Vid2. - Vid3." "Gfx,1,2,3,4,5,6,7,8,Vid1,10,11,12,13,14,15,16,17,Vid2,19,20,21,22,23,24,25,26,Vid3,28,29,30,31,32,33,34,35,Wb,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--5. "                  GFX_BUFFER               ,Graphics DMA buffer allocation to one of the pipelines. By default to graphics pipeline. - Wb. - Gfx. - Vid1. - Vid2. - Vid3." "Gfx,1,2,3,4,5,6,7,8,Vid1,10,11,12,13,14,15,16,17,Vid2,19,20,21,22,23,24,25,26,Vid3,28,29,30,31,32,33,34,35,Wb,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x804++0x3
line.long 0x00 "DISPC_DIVISOR,The register configures the divisor value for generating the core functional clock. There is a backward compatibility mode enabled by default in order to use.LCD value instead of .LCD bit field for generating the core functional clock."
hexmask.long.byte 0x00 16.--23. 1. " LCD                             ,Display Controller Logic Clock Divisor Value (from 1 to 255) to specify the frequency of the Display Controller logic clock based on the function clock. The value 0 is invalid."
bitfld.long 0x00 0. "                    ENABLE                   ,When the bit field is set to 1, the bit field LCD is used to generated the core functional clock from the input clock. When the bit field is set to 0, the valueDISPC_DIVISOR1.LCD is used instead. - Disable...." "Disable,Enable"
group.long 0x810++0x3
line.long 0x00 "DISPC_WB_ATTRIBUTES2,The register set the counter to control the delay to flush the WB pipe after the end of the frame in capture mode. Shadow register, updated when .GOWB is set to 1 by software and current WB frame is finished (no more data in the wr..."
hexmask.long.byte 0x00 0.--7. 1. " WBDELAYCOUNT                    ,Delays the WB pipe flush after the end of the frame. Delay = n (number of lines), where n = 0:255. If n = 0, the WB is re-initialized just at the end of the last line of a frame at the beginning of the VFP signal. If n..."
group.long 0x814++0x3
line.long 0x00 "DISPC_DEFAULT_COLOR3,The control register allows to configure the default solid background color for the third LCD. Shadow register, updated on VFP start period of third LCD"
hexmask.long.tbyte 0x00 0.--23. 1. " DEFAULTCOLOR                    ,24-bit RGB color value to specify the default solid color to display when there is no data from the overlays"
group.long 0x818++0x3
line.long 0x00 "DISPC_TRANS_COLOR3,The register sets the transparency color value for the video/graphics overlays for the third LCD output. Shadow register, updated on VFP start period of the third LCD"
hexmask.long.tbyte 0x00 0.--23. 1. " TRANSCOLORKEY                   ,Transparency color key value in RGB format [0] BITMAP 1 (CLUT), [23,1] set to 0s [1:0] BITMAP 2 (CLUT), [23,2] set to 0s [3:0] BITMAP 4 (CLUT), [23,4] set to 0s [7:0] BITMAP 8 (CLUT), [23,8] set to 0s [11:0] RGB 12, [2..."
group.long 0x81C++0x3
line.long 0x00 "DISPC_CPR3_COEF_B,The register configures the color phase rotation matrix coefficients for the blue component. It is used for the secondary LCD output. Shadow register, updated on VFP start period of third LCD"
hexmask.long.word 0x00 22.--31. 1. " BR                              ,BR coefficient Encoded signed value (from ?512 to 511)"
hexmask.long.word 0x00 11.--20. 1. "                  BG                       ,BG coefficient Encoded signed value (from ?512 to 511)"
hexmask.long.word 0x00 0.--9. 1. "                BB                        ,BB coefficient Encoded signed value (from ?512 to 511)"
group.long 0x820++0x3
line.long 0x00 "DISPC_CPR3_COEF_G,The register configures the color phase rotation matrix coefficients for the green component. It is used for the secondary LCD output. Shadow register, updated on VFP start period of third LCD"
hexmask.long.word 0x00 22.--31. 1. " GR                              ,GRcoefficient Encoded signed value (from ?512 to 511)"
hexmask.long.word 0x00 11.--20. 1. "                  GG                       ,GG coefficient Encoded signed value (from ?512 to 511)"
hexmask.long.word 0x00 0.--9. 1. "                GB                        ,GB coefficient Encoded signed value (from ?512 to 511)"
group.long 0x824++0x3
line.long 0x00 "DISPC_CPR3_COEF_R,The register configures the color phase rotation matrix coefficients for the red component. Shadow register, updated on VFP start period of third LCD"
hexmask.long.word 0x00 22.--31. 1. " RR                              ,RR coefficient Encoded signed value (from ?512 to 511)"
hexmask.long.word 0x00 11.--20. 1. "                  RG                       ,RG coefficient Encoded signed value (from ?512 to 511)"
hexmask.long.word 0x00 0.--9. 1. "                RB                        ,RB coefficient Encoded signed value (from ?512 to 511)"
group.long 0x828++0x3
line.long 0x00 "DISPC_DATA3_CYCLE1,The control register configures the output data format for the first cycle. Shadow register, updated on VFP start period of third LCD"
bitfld.long 0x00 24.--27. " BITALIGNMENTPIXEL2              ,Bit alignment Alignment of the bits from pixel 2 on the output interface" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--20. "                    NBBITSPIXEL2             ,Number of bits Number of bits from the pixel 2 (value from 0 to 16 bits). The values from 17 to 31 are invalid." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--11. "                  BITALIGNMENTPIXEL1        ,Bit alignment Alignment of the bits from pixel 1 on the output interface" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                       "
bitfld.long 0x00 0.--4. " NBBITSPIXEL1                    ,Number of bits Number of bits from the pixel 1 (value from 0 to 16 bits). The values from 17 to 31 are invalid." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x82C++0x3
line.long 0x00 "DISPC_DATA3_CYCLE2,The control register configures the output data format for the second cycle. Shadow register, updated on VFP start period of third LCD"
bitfld.long 0x00 24.--27. " BITALIGNMENTPIXEL2              ,Bit alignment Alignment of the bits from pixel 2 on the output interface" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--20. "                    NBBITSPIXEL2             ,Number of bits Number of bits from the pixel 2 (value from 0 to 16 bits). The values from 17 to 31 are invalid." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--11. "                  BITALIGNMENTPIXEL1        ,Bit alignment Alignment of the bits from pixel 1 on the output interface" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                       "
bitfld.long 0x00 0.--4. " NBBITSPIXEL1                    ,Number of bits Number of bits from the pixel 1 (value from 0 to 16 bits). The values from 17 to 31 are invalid." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x830++0x3
line.long 0x00 "DISPC_DATA3_CYCLE3,The control register configures the output data format for the third cycle. Shadow register, updated on VFP start period of third LCD"
bitfld.long 0x00 24.--27. " BITALIGNMENTPIXEL2              ,Bit alignment Alignment of the bits from pixel 2 on the output interface" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--20. "                    NBBITSPIXEL2             ,Number of bits Number of bits from the pixel 2 (value from 0 to 16 bits). The values from 17 to 31 are invalid." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--11. "                  BITALIGNMENTPIXEL1        ,Bit alignment Alignment of the bits from pixel 1 on the output interface" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                       "
bitfld.long 0x00 0.--4. " NBBITSPIXEL1                    ,Number of bits Number of bits from the pixel 1 (value from 0 to 16 bits). The values from 17 to 31 are invalid." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x834++0x3
line.long 0x00 "DISPC_SIZE_LCD3,The register configures the panel size (horizontal and vertical). It is used for the third LCD output. Shadow register, updated on VFP start period of the third LCD. A delta value is used to indicate if the odd field is the same vertica..."
hexmask.long.word 0x00 16.--27. 1. " LPP                             ,Lines per panel Encoded value (from 1 to 4096) to specify the number of lines per panel (program to value minus 1)."
bitfld.long 0x00 14.--15. "                  DELTA_LPP                ,Indicates the delta size value of the odd field compared to the even field - Same. - PlusOne. - MinusOne." "Same,PlusOne,MinusOne,3"
hexmask.long.word 0x00 0.--11. 1. "            PPL                       ,Pixels per line Encoded value (from 1 to 4096) to specify the number of pixels contained within each line on the display (program to value minus 1). In STALL mode, any value is valid. In non-STALL mode, only value..."
group.long 0x838++0x3
line.long 0x00 "DISPC_DIVISOR3,The register configures the divisors. It is used for the third LCD output. Shadow register, updated on VFP start period of the third LCD"
hexmask.long.byte 0x00 16.--23. 1. " LCD                             ,Display controller logic clock divisor Value (from 1 to 255) to specify the intermediate pixel clock frequency based on LCD2_CLK. The value 0 is invalid."
hexmask.long.byte 0x00 0.--7. 1. "                    PCD                      ,Pixel clock divisor Value (from 1 to 255) to specify the frequency of the pixel clock based on LCD2_CLK divided by the value of DISPC_DIVISOR2.LCD. The value 0 is invalid."
group.long 0x83C++0x3
line.long 0x00 "DISPC_POL_FREQ3,The register configures the signal configuration. It is used for the third LCD output. Shadow register, updated on VFP start period of the third LCD"
bitfld.long 0x00 18. " ALIGN                           ,Defines the alignment betwwen HSYNC and VSYNC assertion - notAligned. - Aligned." "notAligned,Aligned"
bitfld.long 0x00 17. "            ONOFF                    ,HSYNC/VSYNC pixel clock control on/off - DOpEdPCk. - DBit16. Note: Control module register CTRL_CORE_SMA_SW_1[24] DSS_CH2_ON_OFF must be set to match. - DBit16." "DOpEdPCk,DBit16"
bitfld.long 0x00 16. "            RF                        ,Program HSYNC/VSYNC rise or fall - DFEdPCk. - DRiEdPCk. Note: Control module register CTRL_CORE_SMA_SW_1[18] DSS_CH2_RF must be set to match. - DRiEdPCk." "DFEdPCk,DRiEdPCk"
textline "                                       "
bitfld.long 0x00 15. " IEO                             ,Invert output enable - ACBaHigh. - ACBaLow." "ACBaHigh,ACBaLow"
bitfld.long 0x00 14. "              IPC                      ,Invert pixel clock - DrPCk. - DfPCk. Note: Control module register CTRL_CORE_SMA_SW_1[21] DSS_CH2_IPC must be set to match. - DfPCk." "DrPCk,DfPCk"
bitfld.long 0x00 13. "               IHS                       ,Invert HSYNC - LCkpinAh. - LCkpinAl." "LCkpinAh,LCkpinAl"
textline "                                       "
bitfld.long 0x00 12. " IVS                             ,Invert VSYNC - FCkpinAh. - FCkpinAl." "FCkpinAh,FCkpinAl"
bitfld.long 0x00 8.--11. "              ACBI                     ,AC bias pin transitions per interrupt Value (from 0 to 15) used to specify the number of AC bias pin transitions" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 0.--7. 1. "                  ACB                       ,AC bias pin frequency Value (from 0 to 255) used to specify the number of line clocks to count before transitioning the AC bias pin. This pin is used to periodically invert the polarity of the power supply t..."
group.long 0x840++0x3
line.long 0x00 "DISPC_TIMING_H3,The register configures the timing logic for the HSYNC signal. It is used for the third LCD output. Shadow register, updated on VFP start period of the third LCD"
hexmask.long.word 0x00 20.--31. 1. " HBP                             ,Horizontal back porch Encoded value (from 1 to 4096) to specify the number of pixel clock periods to add to the beginning of a line transmission before the first set of pixels is output to the display (program to value..."
hexmask.long.word 0x00 8.--19. 1. "                  HFP                      ,Horizontal front porch Encoded value (from 1 to 4096) to specify the number of pixel clock periods to add to the end of a line transmissionbefore the line clock is asserted."
hexmask.long.byte 0x00 0.--7. 1. "                HSW                       ,Horizontal synchronization pulse width Encoded value (from 1 to 256) to specify the number of pixel clock periods to pulse the line clock at the end of each line (program to value minus 1)."
group.long 0x844++0x3
line.long 0x00 "DISPC_TIMING_V3,The register configures the timing logic for the VSYNC signal. It is used for the third LCD output. Shadow register, updated on VFP start period of the third LCD"
hexmask.long.word 0x00 20.--31. 1. " VBP                             ,Vertical back porch Encoded value (from 0 to 4095) to specify the number of line clock periods to add to the beginning of a frame before the first set of pixels is output to the display"
hexmask.long.word 0x00 8.--19. 1. "                  VFP                      ,Vertical front porch Encoded value (from 0 to 4095) to specify the number of line clock periods to add to the end of each frame"
hexmask.long.byte 0x00 0.--7. 1. "                VSW                       ,Vertical synchronization pulse width In active mode, encoded value (from 1 to 256) to specify the number of line clock periods to pulse the frame clock (VSYNC) pin at the end of each frame after the end of fra..."
group.long 0x848++0x3
line.long 0x00 "DISPC_CONTROL3,The control register configures the display controller module for the third LCD output."
bitfld.long 0x00 30.--31. " SPATIALTEMPORALDITHERINGFRAMES  ,Spatial/temporal dithering number of frames for the third LCD output wr: VFP start period of the third LCD output - OneFrame. - TwoFrames. - Reserved. - FourFrames." "OneFrame,TwoFrames,FourFrames,Reserved"
bitfld.long 0x00 25.--26. "            TDMUNUSEDBITS            ,State of unused bits (TDM mode only) for the third LCD output wr: VFP start period of the third LCD output - LowLevel. - HighLevel. - Res. - Unchanged." "LowLevel,HighLevel,Unchanged,Res"
bitfld.long 0x00 23.--24. "           TDMCYCLEFORMAT            ,Cycle format (TDM mode only) for the third LCD output wr: VFP start period of third LCD output - 1CycPerPix. - 2CycPerPix. - 3CycPer2Pix. - 3CycPerPix." "1CycPerPix,2CycPerPix,3CycPerPix,3CycPer2Pix"
textline "                                       "
bitfld.long 0x00 21.--22. " TDMPARALLELMODE                 ,Output interface width (TDM mode only) for the third LCD output wr: VFP start period of the third LCD output - 8bParaInt. - 9bParaInt. - 16bParaInt. - 12bParaInt." "8bParaInt,9bParaInt,12bParaInt,16bParaInt"
bitfld.long 0x00 20. "            TDMENABLE                ,Enable the multiple cycle format for the third LCD output wr: VFP start period of third LCD output - TDMDis. - TDMEnb." "TDMDis,TDMEnb"
bitfld.long 0x00 12. "              OVERLAYOPTIMIZATION       ,Overlay optimization for the third LCD output wr: VFP or EVSYNC or when DISPC_CONTROL2.GOWB is set to 1 by software and current WB frame is finished (no more data in the write-back pipeline). The synchronization..." "GDBVWfM,GDBVWnfM"
textline "                                       "
bitfld.long 0x00 11. " STALLMODE                       ,STALL mode for the third LCD output wr: VFP start period of the third LCD output - nMode. - RFBIMode." "nMode,RFBIMode"
bitfld.long 0x00 8.--9. "              TFTDATALINES             ,Number of lines of the third LCD interface wr: VFP start period of the third LCD output - OaLSB12b. - OaLSB16b. - OaLSB24b. - OaLSB18b." "OaLSB12b,OaLSB16b,OaLSB18b,OaLSB24b"
bitfld.long 0x00 7. "            STDITHERENABLE            ,Spatial temporal dithering enable for the third LCD output wr: VFP start period of the third LCD output - STDithDis. - STDithEnb." "STDithDis,STDithEnb"
textline "                                       "
bitfld.long 0x00 5. " GOLCD                           ,GO command for the third LCD output. It is used to synchronized the pipelines (graphics and/or video) associated with the third LCD output. wr: Immediate - HfUISR. - UfPSR." "HfUISR,UfPSR"
bitfld.long 0x00 4. "                M8B                      ,Mono 8-bit mode of the third LCD wr: VFP start period of the third LCD output - 4PixtoPanel. - 8PixtoPanel." "4PixtoPanel,8PixtoPanel"
bitfld.long 0x00 3. "         STNTFT                    ,LCD Display type of the third LCD wr: VFP start period of the third LCD output - STNdispEnb. - ATFTDisEnb." "STNdispEnb,ATFTDisEnb"
textline "                                       "
bitfld.long 0x00 2. " MONOCOLOR                       ,Monochrome/color selection for the third LCD wr: VFP start period of the third LCD output - ColOpEnb. - MonOpEnb." "ColOpEnb,MonOpEnb"
bitfld.long 0x00 0. "              LCDENABLE                ,Enable the third LCD output wr: Immediate - LCDOpDis. - LCDOpEnb." "LCDOpDis,LCDOpEnb"
group.long 0x84C++0x3
line.long 0x00 "DISPC_CONFIG3,The control register configures the display controller module for the third LCD output. Shadow register, updated on VFP start period of the third LCD or EVSYNC"
bitfld.long 0x00 26.--27. " TLCDINTERLEAVE                  ,tLCD interleave Pattern" "0,1,2,3"
bitfld.long 0x00 25. "                     FULLRANGE                ,Color space conversion full range setting - Limrange. - FullRange." "Limrange,FullRange"
bitfld.long 0x00 24. "           COLORCONVENABLE           ,Enable the color space conversion. It must be reset when the CPR bit field is set to 0x1. - ColSpCDis. - ColSpCEnb." "ColSpCDis,ColSpCEnb"
textline "                                       "
bitfld.long 0x00 23. " FIDFIRST                        ,Selects the first field to output in case of interlace mode. In case of progressive mode, the value is not used. - Even. - Odd." "Even,Odd"
bitfld.long 0x00 22. "                  OUTPUTMODEENABLE         ,Selects between progressive and interlace mode for the third LCD output - Disable. - Enable." "Disable,Enable"
bitfld.long 0x00 21. "             BT1120ENABLE              ,Selects BT.1120 format on the third LCD output. It is not posssible to enable BT.656 and BT.1120 at the same time on the same LCD output. - Disable. - Enable." "Disable,Enable"
textline "                                       "
bitfld.long 0x00 20. " BT656ENABLE                     ,Selects BT.656 format on the third LCD output. It is not posssible to enable BT.656 and BT.1120 at the same time on the same LCD output. - Disable. - Enable." "Disable,Enable"
bitfld.long 0x00 15. "               CPR                      ,Color phase rotation control ( third LCD output). It must be reset when the ColorConvEnable bit field is set to 1. wr: VFP start period of the third LCD output - CPRDis. - CPREnb." "CPRDis,CPREnb"
bitfld.long 0x00 11. "              TCKLCDSELECTION           ,Transparency color key selection (third LCD output) wr: VFP start period of the third LCD output - GDTK. - VSTK." "GDTK,VSTK"
textline "                                       "
bitfld.long 0x00 10. " TCKLCDENABLE                    ,Transparency color key enabled (third LCD output) wr: VFP start period of the third LCD output - DisTCK. - EnbTCK." "DisTCK,EnbTCK"
bitfld.long 0x00 8. "                ACBIASGATED              ,ACBias gated enabled (third LCD output) wr: VFP start period of the third LCD output - ACBGDis. - ACBGEnb." "ACBGDis,ACBGEnb"
bitfld.long 0x00 7. "             VSYNCGATED                ,VSYNC gated enabled (third LCD output) wr: VFP start period of the third LCD output - VGDis. - VGEnb." "VGDis,VGEnb"
textline "                                       "
bitfld.long 0x00 6. " HSYNCGATED                      ,HSYNC gated enabled (third LCD output) wr: VFP start period of the third LCD output - HGDis. - HGEnb." "HGDis,HGEnb"
bitfld.long 0x00 5. "                 PIXELCLOCKGATED          ,Pixel clock gated enabled (third LCD output) wr: VFP start period of the third LCD output - PCGDis. - PCGEnb." "PCGDis,PCGEnb"
bitfld.long 0x00 4. "              PIXELDATAGATED            ,Pixel data gated enabled (third LCD output) wr: VFP start period of the third LCD output - PDGDis. - PDGEnb." "PDGDis,PDGEnb"
textline "                                       "
bitfld.long 0x00 0. " PIXELGATED                      ,Pixel gated enable (only for TFT) (third LCD output) wr: VFP start period of the third LCD output - PclkTogA. - PclkTogV." "PclkTogA,PclkTogV"
wgroup.long 0x850++0x3
line.long 0x00 "DISPC_GAMMA_TABLE3,The register configures the gamma table on the third LCD output."
hexmask.long.byte 0x00 24.--31. 1. " INDEX                           ,Defines the location in the table where the VALUE bit field is stored."
hexmask.long.byte 0x00 16.--23. 1. "                    VALUE_R                  ,8-bit value used to define the value to store at the location in the table defined by the INDEX bit field"
hexmask.long.byte 0x00 8.--15. 1. "                  VALUE_G                   ,8-bit value used to define the value to store at the location in the table defined by the INDEX bit field"
textline "                                       "
hexmask.long.byte 0x00 0.--7. 1. " VALUE_B                         ,8-bit value used to define the value to store at the location in the table defined by the INDEX bit field"
group.long 0x854++0x3
line.long 0x00 "DISPC_BA0_FLIPIMMEDIATE_EN,This register enables the flip immediate."
bitfld.long 0x00 3. " VID3                            ,Enable flip immediate for video3 pipeline" "0,1"
bitfld.long 0x00 2. "                     VID2                     ,Enable flip immediate for video2 pipeline" "0,1"
bitfld.long 0x00 1. "                   VID1                      ,Enable flip immediate for video1 pipeline" "0,1"
textline "                                       "
bitfld.long 0x00 0. " GFX                             ,Enable flip immediate for gfx pipeline" "0,1"
group.long 0x858++0x3
line.long 0x00 "DISABLE_MSTANDBY_ENHANCEMENT,This register disables the DISPC DMA Mstandby behavior enhancement."
bitfld.long 0x00 0. " DISABLE_MSTANDBY_ENHANCEMENT    ,0: DISPC DMA Mstandby behavior enhancement is enabled. 1: Disable DISPC DMA Mstandby behavior enhancement. This is the recommended setting." "0,1"
group.long 0x85C++0x3
line.long 0x00 "DISPC_GLOBAL_MFLAG_ATTRIBUTE,Global MFLAG atrribute control register."
bitfld.long 0x00 2. " MFLAG_START                     ,MFLAG Start - Inactive. - Active." "Inactive,Active"
bitfld.long 0x00 0.--1. "              MFLAG_CTRL               ,MFLAG control - MFLAG_Dis. - MFLAG_Force. - MFLAG_En." "MFLAG_Dis,MFLAG_Force,MFLAG_En,3"
group.long 0x860++0x3
line.long 0x00 "DISPC_GFX_MFLAG_THRESHOLD,MFLAG thresholds for graphics pipeline. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or external VSYNC or when.GOWB is set to 1 by software and current WB frame is finish..."
hexmask.long.word 0x00 16.--31. 1. " HT_MFLAG                        ,High Thresholds (in 128bits) for MFLAG generation: when FIFO fullness reaches HT_MFLAG level, MFLAG is reset to 0"
hexmask.long.word 0x00 0.--15. 1. "                  LT_MFLAG                 ,Low Thresholds (in 128bits) for MFLAG generation: when FIFO fullness reaches LT_MFLAG level, MFLAG is set to 1"
group.long 0x864++0x3
line.long 0x00 "DISPC_VID1_MFLAG_THRESHOLD,MFLAG thresholds for video1 pipeline. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or external VSYNC or when.GOWB is set to 1 by software and current WB frame is finishe..."
hexmask.long.word 0x00 16.--31. 1. " HT_MFLAG                        ,High Thresholds (in 128bits) for MFLAG generation: when FIFO fullness reaches HT_MFLAG level, MFLAG is reset to 0"
hexmask.long.word 0x00 0.--15. 1. "                  LT_MFLAG                 ,Low Thresholds (in 128bits) for MFLAG generation: when FIFO fullness reaches LT_MFLAG level, MFLAG is set to 1"
group.long 0x868++0x3
line.long 0x00 "DISPC_VID2_MFLAG_THRESHOLD,MFLAG thresholds for video2 pipeline. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or external VSYNC or when.GOWB is set to 1 by software and current WB frame is finishe..."
hexmask.long.word 0x00 16.--31. 1. " HT_MFLAG                        ,High Thresholds (in 128bits) for MFLAG generation: when FIFO fullness reaches HT_MFLAG level, MFLAG is reset to 0"
hexmask.long.word 0x00 0.--15. 1. "                  LT_MFLAG                 ,Low Thresholds (in 128bits) for MFLAG generation: when FIFO fullness reaches LT_MFLAG level, MFLAG is set to 1"
group.long 0x86C++0x3
line.long 0x00 "DISPC_VID3_MFLAG_THRESHOLD,MFLAG thresholds for video3 pipeline. Shadow register, updated on VFP start period of primary LCD or VFP start period of the secondary LCD or external VSYNC or when.GOWB is set to 1 by software and current WB frame is finishe..."
hexmask.long.word 0x00 16.--31. 1. " HT_MFLAG                        ,High Thresholds (in 128bits) for MFLAG generation: when FIFO fullness reaches HT_MFLAG level, MFLAG is reset to 0"
hexmask.long.word 0x00 0.--15. 1. "                  LT_MFLAG                 ,Low Thresholds (in 128bits) for MFLAG generation: when FIFO fullness reaches LT_MFLAG level, MFLAG is set to 1"
group.long 0x870++0x3
line.long 0x00 "DISPC_WB_MFLAG_THRESHOLD,MFLAG thresholds for write-back pipeline. Shadow register, updated when.GOWB is set to 1 by software and current WB frame is finished (no more data in the write-back pipeline), when the WB pipeline is directly connected to one ..."
hexmask.long.word 0x00 16.--31. 1. " HT_MFLAG                        ,High Thresholds (in 128bits) for MFLAG generation: when FIFO fullness reaches HT_MFLAG level, MFLAG is reset to 0"
hexmask.long.word 0x00 0.--15. 1. "                  LT_MFLAG                 ,Low Thresholds (in 128bits) for MFLAG generation: when FIFO fullness reaches LT_MFLAG level, MFLAG is set to 1"
width 0x0B
tree.end
tree.end
tree.open "GPU"
tree "GPU_WRAPPER"
base ad:0x5600FE00
width 17.
rgroup.long 0x0++0x3
line.long 0x00 "REVISION,Revision register"
hexmask.long 0x00 0.--31. 1. " REVISIONID                  ,Revision value"
rgroup.long 0x4++0x3
line.long 0x00 "HWINFO,Hardware implementation information"
bitfld.long 0x00 2. " MEM_BUS_WIDTH               ,Memory bus width Read 0x0: 64 bits Read 0x1: 128 bits" "0,1"
bitfld.long 0x00 0.--1. "         SYS_BUS_WIDTH                ,System bus width Read 0x0: 32 bits Read 0x1: 64 bits Read 0x2: 128 bits Read 0x3: Reserved" "0,1,2,3"
group.long 0x10++0x3
line.long 0x00 "SYSCONFIG,System configuration register"
bitfld.long 0x00 4.--5. " STANDBY_MODE                ,Clock standby mode: 0x0: Force-standby 0x1: No-standby 0x2: Smart-standby 0x3: Reserved" "0,1,2,3"
bitfld.long 0x00 2.--3. "         IDLE_MODE                    ,Clock idle mode: 0x0: Force-standby 0x1: No-standby 0x2: Smart-standby 0x3: Reserved" "0,1,2,3"
group.long 0x24++0x3
line.long 0x00 "IRQSTATUS_RAW_0,Raw IRQ 0 status"
bitfld.long 0x00 0. " INIT_MINTERRUPT_RAW         ,Interrupt 0 raw event: Write 0x0: No action Write 0x1: Set event (used for debug) Read 0x0: No event pending Read 0x1: Event pending" "0,1"
group.long 0x28++0x3
line.long 0x00 "IRQSTATUS_RAW_1,Raw IRQ 1 status. Slave port interrupt."
bitfld.long 0x00 0. " TARGET_SINTERRUPT_RAW       ,Interrupt 1 raw event: Write 0x0: No action Write 0x1: Set event (used for debug) Read 0x0: No event pending Read 0x1: Event pending" "0,1"
group.long 0x2C++0x3
line.long 0x00 "IRQSTATUS_RAW_2,Raw IRQ 2 status. Core interrupt."
bitfld.long 0x00 0. " THALIA_IRQ_RAW              ,Interrupt 0 raw event: Write 0x0: No action Write 0x1: Set event (used for debug) Read 0x0: No event pending Read 0x1: Event pending" "0,1"
group.long 0x30++0x3
line.long 0x00 "IRQSTATUS_0,Interrupt 0 status event. Master port interrupt."
bitfld.long 0x00 0. " INIT_MINTERRUPT_STATUS      ,Interrupt 0 raw event: Write 0x0: No action Write 0x1: Clear event Read 0x0: No event pending Read 0x1: Event pending and interrupt enabled" "0,1"
group.long 0x34++0x3
line.long 0x00 "IRQSTATUS_1,Interrupt 1 - slave port status event"
bitfld.long 0x00 0. " TARGET_SINTERRUPT_STATUS    ,Interrupt 0 raw event: Write 0x0: No action Write 0x1: Clear event Read 0x0: No event pending Read 0x1: Event pending and interrupt enabled" "0,1"
group.long 0x38++0x3
line.long 0x00 "IRQSTATUS_2,Interrupt 2 - Core status event"
bitfld.long 0x00 0. " THALIA_IRQ_STATUS           ,Interrupt 0 raw event: Write 0x0: No action Write 0x1: Clear event Read 0x0: No event pending Read 0x1: Event pending and interrupt enabled" "0,1"
group.long 0x3C++0x3
line.long 0x00 "IRQENABLE_SET_0,Enable Interrupt 0 - Master port."
bitfld.long 0x00 0. " INIT_MINTERRUPT_ENABLE      ,To enable interrupt: Write 0x0: No action Write 0x1: Enable interrupt Read 0x0: Interrupt is disabled Read 0x1: Interrupt is enabled" "0,1"
group.long 0x40++0x3
line.long 0x00 "IRQENABLE_SET_1,Enable Interrupt 1. Core interrupt."
bitfld.long 0x00 0. " TARGET_SINTERRUPT_ENABLE    ,To enable interrupt: Write 0x0: No action Write 0x1: Enable interrupt Read 0x0: Interrupt is disabled Read 0x1: Interrupt is enabled" "0,1"
group.long 0x44++0x3
line.long 0x00 "IRQENABLE_SET_2,Enable Interrupt 2. Core interrupt."
bitfld.long 0x00 0. " THALIA_IRQ_ENABLE           ,To enable interrupt: Write 0x0: No action Write 0x1: Enable interrupt Read 0x0: Interrupt is disabled Read 0x1: Interrupt is enabled" "0,1"
group.long 0x48++0x3
line.long 0x00 "IRQENABLE_CLR_0,Disable Interrupt 0 - Master port."
bitfld.long 0x00 0. " INIT_MINTERRUPT_DISABLE     ,To disable interrupt: Write 0x0: No action Write 0x1: Disable interrupt Read 0x0: Interrupt is disabled Read 0x1: Interrupt is enabled" "0,1"
group.long 0x4C++0x3
line.long 0x00 "IRQENABLE_CLR_1,Disable Interrupt 2 - Core interrupt."
bitfld.long 0x00 0. " TARGET_SINTERRUPT_DISABLE   ,To disable interrupt: Write 0x0: No action Write 0x1: Disable interrupt Read 0x0: Interrupt is disabled Read 0x1: Interrupt is enabled" "0,1"
group.long 0x50++0x3
line.long 0x00 "IRQENABLE_CLR_2,Disable Interrupt 2 - Core interrupt."
bitfld.long 0x00 0. " THALIA_IRQ_DISABLE          ,To disable interrupt: Write 0x0: No action Write 0x1: Disable interrupt Read 0x0: Interrupt is disabled Read 0x1: Interrupt is enabled" "0,1"
group.long 0x100++0x3
line.long 0x00 "PAGE_CONFIG,Configure memory pages."
bitfld.long 0x00 31. " THALIA_INT_BYPASS           ,Bypass OCP IPG interrupt logic 0x0: Do not bypass 0x1 Bypass core interrupt to I/O pin; that is, disregard the interrupt enable setting in the IPG register." "0,1"
bitfld.long 0x00 3.--4. "         OCP_PAGE_SIZE                ,Defines the page size on OCP memory interface: 0x0: 4 KiB 0x1: 2 KiB 0x2: 1 KiB 0x3: 512B" "0,1,2,3"
bitfld.long 0x00 2. "  MEM_PAGE_CHECK_EN       ,To enable page boundary checking: 0x0: Disabled 0x1: Enabled" "0,1"
textline "                          "
bitfld.long 0x00 0.--1. " MEM_PAGE_SIZE               ,Defines the page size on internal memory interface: 0x0: 4 KiB 0x1: 2 KiB 0x2: 1 KiB 0x3: 512B" "0,1,2,3"
group.long 0x104++0x3
line.long 0x00 "INTERRUPT_EVENT,Interrupt events"
bitfld.long 0x00 18. " TARGET_INVALID_OCP_CMD      ,Invalid command from OCP: Write 0x0: Clear the event Write 0x1: Set the event and interrupt if enabled (debug only) Read 0x0: No event pending Read 0x1: Event pending" "0,1"
bitfld.long 0x00 17. "         TARGET_CMD_FIFO_FULL         ,Command FIFO full: Write 0x0: Clear the event. Write 0x1: Set the event and interrupt if enabled (debug only). Read 0x0: No event pending Read 0x1: Event pending" "0,1"
bitfld.long 0x00 16. "  TARGET_RESP_FIFO_FULL   ,Response FIFO full: Write 0x0: Clear the event. Write 0x1: Set the event and interrupt if enabled (debug only). Read 0x0: No event pending Read 0x1: Event pending" "0,1"
textline "                          "
bitfld.long 0x00 13. " INT_MEM_REQ_FIFO_OVERRUN_1  ,Memory request FIFO overrun: Write 0x0: Clear the event. Write 0x1: Set the event and interrupt if enabled (debug only). Read 0x0: No event pending Read 0x1: Event pending" "0,1"
bitfld.long 0x00 12. "         INIT_READ_TAG_FIFO_OVERRUN_1 ,Read tag FIFO overrun: Write 0x0: Clear the event. Write 0x1: Set the event and interrupt if enabled (debug only). Read 0x0: No event pending Read 0x1: Event pending" "0,1"
bitfld.long 0x00 11. "  INIT_PAGE_CROSS_ERROR_1 ,Memory page had been crossed during a burst: Write 0x0: Clear the event. Write 0x1: Set the event and interrupt if enabled (debug only). Read 0x0: No event pending Read 0x1: Event pending" "0,1"
textline "                          "
bitfld.long 0x00 10. " INIT_RESP_ERROR_1           ,Receiving error response: Write 0x0: Clear the event. Write 0x1: Set the event and interrupt if enabled (debug only). Read 0x0: No event pending Read 0x1: Event pending" "0,1"
bitfld.long 0x00 9. "         INIT_RESP_UNUSED_TAG_1       ,Receiving response on an unused OCP TAG: Write 0x0: Clear the event Write 0x1: Set the event and interrupt if enabled (debug only) Read 0x0: No event pending Read 0x1: Event pending" "0,1"
bitfld.long 0x00 8. "  INIT_RESP_UNEXPECTED_1  ,Receiving response when not expected: Write 0x0: Clear the event. Write 0x1: Set the event and interrupt if enabled (debug only). Read 0x0: No event pending Read 0x1: Event pending" "0,1"
textline "                          "
bitfld.long 0x00 5. " INIT_MEM_REQ_FIFO_OVERRUN_0 ,Memory request FIFO overrun; Write 0x0: Clear the event. Write 0x1: Set the event and interrupt if enabled (debug only). Read 0x0: No event pending Read 0x1: Event pending" "0,1"
bitfld.long 0x00 4. "         INIT_READ_TAG_FIFO_OVERRUN_0 ,Read tag FIFO overrun: Write 0x0: Clear the event. Write 0x1: Set the event and interrupt if enabled (debug only). Read 0x0: No event pending Read 0x1: Event pending" "0,1"
bitfld.long 0x00 3. "  INIT_PAGE_CROSS_ERROR_0 ,Memory page had been crossed during a burst. Write 0x0: Clear the event. Write 0x1: Set the event and interrupt if enabled (debug only). Read 0x0: No event pending Read 0x1: Event pending" "0,1"
textline "                          "
bitfld.long 0x00 2. " INIT_RESP_ERROR_0           ,Receiving error response: Write 0x0: Clear the event. Write 0x1: Set the event and interrupt if enabled (debug only). Read 0x0: No event pending Read 0x1: Event pending" "0,1"
bitfld.long 0x00 1. "         INIT_RESP_UNUSED_TAG_0       ,Receiving response on an unused OCP TAG: Write 0x0: Clear the event. Write 0x1: Set the event and interrupt if enabled (debug only). Read 0x0: No event pending Read 0x1: Event pending" "0,1"
bitfld.long 0x00 0. "  INIT_RESP_UNEXPECTED_0  ,Receiving response when not expected: Write 0x0: Clear the event. Write 0x1: Set the event and interrupt if enabled (debug only). Read 0x0: No event pending Read 0x1: Event pending" "0,1"
group.long 0x108++0x3
line.long 0x00 "DEBUG_CONFIG,Configuration of debug modes"
bitfld.long 0x00 5. " SELECT_INT_IDLE             ,To select which idle the disconnect protocol should act on: 0x0: Whole SGX idle 0x1: OCP initiator idle" "0,1"
bitfld.long 0x00 4. "         FORCE_PASS_DATA              ,Forces the initiator to pass data independent of disconnect protocol: 0x0: Do not force, normal operation 0x1: Never fence request to OCP" "0,1"
bitfld.long 0x00 2.--3. "  FORCE_INIT_IDLE         ,Forces initiator idle: 0x0, 0x3: Do not force, normal operation 0x1: Always idle 0x2: Never idle" "0,1,2,3"
textline "                          "
bitfld.long 0x00 0.--1. " FORCE_TARGET_IDLE           ,Forces target idle: 0x0, 0x3: Do not force, normal operation 0x1: Always idle 0x2: Never idle" "0,1,2,3"
rgroup.long 0x10C++0x3
line.long 0x00 "DEBUG_STATUS_0,Port0 debug status register"
bitfld.long 0x00 31. " CMD_DEBUG_STATE             ,Target command state-machine: 0x0: IDLE 0x1: Accept command" "0,1"
bitfld.long 0x00 30. "         CMD_RESP_DEBUG_STATE         ,Target response state-machine: 0x0: Send accept 0x1: Wait accept" "0,1"
bitfld.long 0x00 29. "  TARGET_IDLE             ,Target idle" "0,1"
textline "                          "
bitfld.long 0x00 28. " RESP_FIFO_FULL              ,Target response FIFO full" "0,1"
bitfld.long 0x00 27. "         CMD_FIFO_FULL                ,Target command FIFO full" "0,1"
bitfld.long 0x00 26. "  RESP_ERROR              ,Respond to OCP with error, which could be caused by either address misalignment or invalid byte enable." "0,1"
textline "                          "
bitfld.long 0x00 21.--25. " WHICH_TARGET_REGISTER       ,Indicates which OCP target registers to read" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 18.--20. "        TARGET_CMD_OUT               ,Command received from OCP: 0x0: CMD_WRSYS 0x1: CMD_RDSYS 0x2: CMD_WR_ERROR 0x3: CMD_RD_ERROR 0x4: CMD_CHK_WRADDR_PAGE (not used) 0x5: CMD_CHK_RDADDR_PAGE (not used) 0x6: CMD_TARGET_REG_WRITE 0x7: CMD_TARGET_REG_READ" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 17. "  INIT_MSTANDBY           ,Status of init_MStandby signal" "0,1"
textline "                          "
bitfld.long 0x00 16. " INIT_MWAIT                  ,Status of init_MWait signal" "0,1"
bitfld.long 0x00 15. "         INIT_MDISCREQ                ,Request to disconnect from OCP interface" "0,1"
bitfld.long 0x00 13.--14. "  INIT_MDISCACK           ,Disconnect status of the OCP interface: 0x0: FUNCT 0x1: TRANS 0x2: Reserved 0x3: IDLE" "0,1,2,3"
textline "                          "
bitfld.long 0x00 12. " INIT_SCONNECT_2             ,Defines whether to wait in M_WAIT state for MConnect FSM: 0x0: Skip M_WAIT state 0x1: Wait in M_WAIT state" "0,1"
bitfld.long 0x00 11. "         INIT_SCONNECT_1              ,Defines the busy-ness state of the slave: 0x0: Slave is drained 0x1: Slave is loaded" "0,1"
bitfld.long 0x00 10. "  INIT_SCONNECT_0         ,Disconnect from slave: 0x0: Disconnect request from slave 0x1: Connect request from slave" "0,1"
textline "                          "
bitfld.long 0x00 8.--9. " INIT_MCONNECT               ,Initiator MConnect state: 0x0: M_OFF 0x1: M_WAIT 0x2: M_DISC 0x3: M_CON" "0,1,2,3"
bitfld.long 0x00 6.--7. "         TARGET_SIDLEACK              ,Acknowledge the SIdleAck state-machine: 0x0: FUNCT 0x1: SLEEP TRANS 0x2: Reserved 0x3: IDLE" "0,1,2,3"
bitfld.long 0x00 4.--5. "  TARGET_SDISCACK         ,Acknowledge the SDiscAck state-machine: 0x0: FUNCT 0x1: TRANS 0x2: Reserved 0x3: IDLE" "0,1,2,3"
textline "                          "
bitfld.long 0x00 3. " TARGET_SIDLEREQ             ,Request the target to go idle: 0 Do not go idle, or go active 1 Go idle" "0,1"
bitfld.long 0x00 2. "         TARGET_SCONNECT              ,Target SConnect bit 0 state: 0x0: Disconnect interface 0x1: Connect OCP interface" "0,1"
bitfld.long 0x00 0.--1. "  TARGET_MCONNECT         ,Target MConnect state: 0x0: M_OFF 0x1: M_WAIT 0x2: M_DISC 0x3: M_CON" "0,1,2,3"
rgroup.long 0x110++0x3
line.long 0x00 "DEBUG_STATUS_1,Port1 debug status register"
bitfld.long 0x00 31. " CMD_DEBUG_STATE             ,Target command state-machine: 0x0: IDLE 0x1: Accept command" "0,1"
bitfld.long 0x00 30. "         CMD_RESP_DEBUG_STATE         ,Target response state-machine: 0x0: Send accept 0x1: Wait accept" "0,1"
bitfld.long 0x00 29. "  TARGET_IDLE             ,Target idle" "0,1"
textline "                          "
bitfld.long 0x00 28. " RESP_FIFO_FULL              ,Target response FIFO full" "0,1"
bitfld.long 0x00 27. "         CMD_FIFO_FULL                ,Target command FIFO full" "0,1"
bitfld.long 0x00 26. "  RESP_ERROR              ,Respond to OCP with error, which could be caused by either address misalignment or invalid byte enable." "0,1"
textline "                          "
bitfld.long 0x00 21.--25. " WHICH_TARGET_REGISTER       ,Indicates which OCP target registers to read" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 18.--20. "        TARGET_CMD_OUT               ,Command received from OCP: 0x0: CMD_WRSYS 0x1: CMD_RDSYS 0x2: CMD_WR_ERROR 0x3: CMD_RD_ERROR 0x4: CMD_CHK_WRADDR_PAGE (not used) 0x5: CMD_CHK_RDADDR_PAGE (not used) 0x6: CMD_TARGET_REG_WRITE 0x7: CMD_TARGET_REG_READ" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 17. "  INIT_MSTANDBY           ,Status of init_MStandby signal" "0,1"
textline "                          "
bitfld.long 0x00 16. " INIT_MWAIT                  ,Status of init_MWait signal" "0,1"
bitfld.long 0x00 15. "         INIT_MDISCREQ                ,Request to disconnect from OCP interface" "0,1"
bitfld.long 0x00 13.--14. "  INIT_MDISCACK           ,Disconnect status of the OCP interface: 0x0: FUNCT 0x1: SLEEP TRANS 0x2: Reserved 0x3: IDLE" "0,1,2,3"
textline "                          "
bitfld.long 0x00 12. " INIT_SCONNECT_2             ,Defines whether to wait in M_WAIT state for MConnect FSM: 0x0: Skip M_WAIT state. 0x1: Wait in M_WAIT state." "0,1"
bitfld.long 0x00 11. "         INIT_SCONNECT_1              ,Defines the busy-ness state of the slave: 0x0: Slave is drained. 0x1: Slave is loaded." "0,1"
bitfld.long 0x00 10. "  INIT_SCONNECT_0         ,Disconnect from slave: 0x0: Disconnect request from slave 0x1: Connect request from slave" "0,1"
textline "                          "
bitfld.long 0x00 8.--9. " INIT_MCONNECT               ,Initiator MConnect state: 0x0: M_OFF 0x1: M_WAIT 0x2: M_DISC 0x3: M_CON" "0,1,2,3"
bitfld.long 0x00 6.--7. "         TARGET_SIDLEACK              ,Acknowledge the SIdleAck state-machine: 0x0: FUNCT 0x1: SLEEP TRANS 0x2: Reserved 0x3: IDLE" "0,1,2,3"
bitfld.long 0x00 4.--5. "  TARGET_SDISCACK         ,Acknowledge the SDiscAck state-machine: 0x0: FUNCT 0x1: TRANS 0x2: Reserved 0x3: IDLE" "0,1,2,3"
textline "                          "
bitfld.long 0x00 3. " TARGET_SIDLEREQ             ,Request the target to go idle: 0x0: Do not go idle, or go active 0x1: Go idle" "0,1"
bitfld.long 0x00 2. "         TARGET_SCONNECT              ,Target SConnect bit 0 state: 0x0: Disconnect interface 0x1: Connect OCP interface" "0,1"
bitfld.long 0x00 0.--1. "  TARGET_MCONNECT         ,Target MConnect state: 0x0: M_OFF 0x1: M_WAIT 0x2: M_DISC 0x3: M_CON" "0,1,2,3"
width 0x0B
tree.end
tree.end
tree.open "L3_MAIN_Interconnect"
tree "TPTC_FW"
base ad:0x4A163000
tree "Channel_0"
width 32.
group.long 0x0++0x3
line.long 0x00 "ERROR_LOG_k_0,Error log register for port k"
bitfld.long 0x00 23. " BLK_BURST_VIOLATION ,Read 0x1: 2D burst not allowed or exceeding allowed size Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1"
bitfld.long 0x00 17.--21. "         REGION_START_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 12.--16. "  REGION_END_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                         "
hexmask.long.word 0x00 0.--11. 1. " REQINFO_ERRLOG      ,Read: Error in reqinfo vector mapped as follows: [11: 8] ConnID [3:0] [7] MCMD [0] [6:4] Reserved [3] MReqDebug [2] Reserved [1] MReqSupervisor [0] MReqType Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers"
rgroup.long 0x4++0x3
line.long 0x00 "LOGICAL_ADDR_ERRLOG_k_0,Logical Physical Address Error log register for port k"
hexmask.long 0x00 0.--31. 1. " SLVOFS_LOGICAL      ,Address generated by the Initiator before being translated"
group.long 0x8C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_0,Region j Permission High"
bitfld.long 0x00 31. " W15                 ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "         R15                 ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "   W14               ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14                 ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "         W13                 ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "   R13               ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12                 ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "         R12                 ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "   W11               ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11                 ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "         W10                 ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "   R10               ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9                  ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "         R9                  ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "   W8                ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8                  ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "         W7                  ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "   R7                ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6                  ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "         R6                  ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "   W5                ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5                  ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "         W4                  ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "   R4                ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3                  ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "         R3                  ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "   W2                ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2                  ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "         W1                  ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "   R1                ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0                  ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "         R0                  ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x88++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_0,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG       ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "         PUB_USR_DEBUG       ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "   PUB_PRV_WRITE     ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ        ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "         PUB_PRV_EXE         ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "   PUB_USR_WRITE     ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ        ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "         PUB_USR_EXE         ,Public User Exe Access Allowed" "0,1"
tree.end
tree "REG_Bundle_1"
width 32.
group.long 0x94++0x3
line.long 0x00 "END_REGION_i_1,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION          ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "    END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "   END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x10++0x3
line.long 0x00 "ERROR_LOG_k_1,Error log register for port k"
bitfld.long 0x00 23. " BLK_BURST_VIOLATION ,Read 0x1: 2D burst not allowed or exceeding allowed size Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1"
bitfld.long 0x00 17.--21. "         REGION_START_ERRLOG       ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 12.--16. "  REGION_END_ERRLOG         ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                         "
hexmask.long.word 0x00 0.--11. 1. " REQINFO_ERRLOG      ,Read: Error in reqinfo vector mapped as follows: [11: 8] ConnID [3:0] [7] MCMD [0] [6:4] Reserved [3] MReqDebug [2] Reserved [1] MReqSupervisor [0] MReqType Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers"
rgroup.long 0x14++0x3
line.long 0x00 "LOGICAL_ADDR_ERRLOG_k_1,Logical Physical Address Error log register for port k"
hexmask.long 0x00 0.--31. 1. " SLVOFS_LOGICAL      ,Address generated by the Initiator before being translated"
group.long 0x9C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_1,Region j Permission High"
bitfld.long 0x00 31. " W15                 ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "         R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "   W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14                 ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "         W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "   R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12                 ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "         R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "   W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11                 ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "         W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "   R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9                  ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "         R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "   W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8                  ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "         W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "   R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6                  ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "         R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "   W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5                  ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "         W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "   R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3                  ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "         R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "   W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2                  ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "         W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "   R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0                  ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "         R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x98++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_1,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG       ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "         PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "   PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ        ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "         PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "   PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ        ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "         PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x90++0x3
line.long 0x00 "START_REGION_i_1,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION        ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
textline ""
width 19.
group.long 0x40++0x3
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
bitfld.long 0x00 16.--19. " FW_ADDR_SPACE_MSB ,Address space size" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
eventfld.long 0x00 1. "  FW_LOAD_REQ ,Writing '1' to this bit causes the bit to self-clear and triggers the reload of L3 firewall default values. This bit will subsequently self-set when the reload procedure is complete. Writing '0' has no effect." "0,1"
bitfld.long 0x00 0. "  BUSY_REQ ,Busy request 0x0: Allow transactions to reach the slave NIU (resume) 0x1: No transaction can reach the slave NIU (suspend)" "0,1"
width 0x0B
tree.end
tree "CLK2_STATCOLL0"
base ad:0x45001000
tree "Channel_0"
width 38.
group.long 0xB8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_0,"
bitfld.long 0x00 0. " FILTER0_ADDREN            ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0xB4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_0,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX           ,Max addr range Type: Control. Reset value: 0x0."
group.long 0xB0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_0,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN           ,Min addr range Type: Control. Reset value: 0x0."
group.long 0xBC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_0,"
bitfld.long 0x00 0. " FILTER_i_EN0              ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0xAC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_0,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN         ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0xD0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_0,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR       ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0xC8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_0,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR   ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0xC0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_0,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD        ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0xD4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_USERINFO_0,"
hexmask.long.tbyte 0x00 0.--17. 1. " FILTER_i_MASK_m_USERINFO  ,Mask/Match of UserInfo Type: Control. Reset value: 0x0."
group.long 0xC4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_0,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR        ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0xF0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_0,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR      ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0xE8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_0,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR  ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0xE0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_0,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD       ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0xF4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_USERINFO_0,"
hexmask.long.tbyte 0x00 0.--17. 1. " FILTER_i_MATCH_m_USERINFO ,Mask/Match of UserInfo Type: Control. Reset value: 0x0."
group.long 0xE4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_0,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR       ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x1F8++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_0,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL           ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x1FC++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_0,"
bitfld.long 0x00 0.--3. " OP_i_SEL                  ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x1F4++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_0,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL     ,Max value Type: Control. Reset value: 0x0."
group.long 0x1F0++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_0,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL     ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_1"
width 38.
group.long 0x210++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_1,"
bitfld.long 0x00 0. " FILTER0_ADDREN            ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x20C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_1,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX           ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x208++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_1,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN           ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x214++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_1,"
bitfld.long 0x00 0. " FILTER_i_EN0              ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x204++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_1,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN         ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x228++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_1,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR       ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x220++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_1,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR   ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x218++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_1,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD        ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x22C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_USERINFO_1,"
hexmask.long.tbyte 0x00 0.--17. 1. " FILTER_i_MASK_m_USERINFO  ,Mask/Match of UserInfo Type: Control. Reset value: 0x0."
group.long 0x21C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_1,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR        ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x248++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_1,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR      ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x240++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_1,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR  ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x238++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_1,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD       ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x24C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_USERINFO_1,"
hexmask.long.tbyte 0x00 0.--17. 1. " FILTER_i_MATCH_m_USERINFO ,Mask/Match of UserInfo Type: Control. Reset value: 0x0."
group.long 0x23C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_1,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR       ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x350++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_1,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL           ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x354++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_1,"
bitfld.long 0x00 0.--3. " OP_i_SEL                  ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x34C++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_1,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL     ,Max value Type: Control. Reset value: 0x0."
group.long 0x348++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_1,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL     ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_2"
width 38.
group.long 0x368++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_2,"
bitfld.long 0x00 0. " FILTER0_ADDREN            ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x364++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_2,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX           ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x360++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_2,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN           ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x36C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_2,"
bitfld.long 0x00 0. " FILTER_i_EN0              ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x35C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_2,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN         ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x380++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_2,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR       ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x378++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_2,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR   ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x370++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_2,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD        ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x384++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_USERINFO_2,"
hexmask.long.tbyte 0x00 0.--17. 1. " FILTER_i_MASK_m_USERINFO  ,Mask/Match of UserInfo Type: Control. Reset value: 0x0."
group.long 0x374++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_2,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR        ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x3A0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_2,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR      ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x398++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_2,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR  ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x390++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_2,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD       ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x3A4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_USERINFO_2,"
hexmask.long.tbyte 0x00 0.--17. 1. " FILTER_i_MATCH_m_USERINFO ,Mask/Match of UserInfo Type: Control. Reset value: 0x0."
group.long 0x394++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_2,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR       ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x4A8++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_2,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL           ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x4AC++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_2,"
bitfld.long 0x00 0.--3. " OP_i_SEL                  ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4A4++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_2,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL     ,Max value Type: Control. Reset value: 0x0."
group.long 0x4A0++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_2,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL     ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_3"
width 38.
group.long 0x4C0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_3,"
bitfld.long 0x00 0. " FILTER0_ADDREN            ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x4BC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_3,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX           ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x4B8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_3,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN           ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x4C4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_3,"
bitfld.long 0x00 0. " FILTER_i_EN0              ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x4B4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_3,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN         ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x4D8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_3,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR       ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x4D0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_3,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR   ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x4C8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_3,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD        ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x4DC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_USERINFO_3,"
hexmask.long.tbyte 0x00 0.--17. 1. " FILTER_i_MASK_m_USERINFO  ,Mask/Match of UserInfo Type: Control. Reset value: 0x0."
group.long 0x4CC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_3,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR        ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x4F8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_3,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR      ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x4F0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_3,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR  ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x4E8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_3,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD       ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x4FC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_USERINFO_3,"
hexmask.long.tbyte 0x00 0.--17. 1. " FILTER_i_MATCH_m_USERINFO ,Mask/Match of UserInfo Type: Control. Reset value: 0x0."
group.long 0x4EC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_3,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR       ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x600++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_3,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL           ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x604++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_3,"
bitfld.long 0x00 0.--3. " OP_i_SEL                  ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5FC++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_3,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL     ,Max value Type: Control. Reset value: 0x0."
group.long 0x5F8++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_3,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL     ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_4"
width 38.
group.long 0x618++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_4,"
bitfld.long 0x00 0. " FILTER0_ADDREN            ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x614++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_4,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX           ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x610++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_4,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN           ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x61C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_4,"
bitfld.long 0x00 0. " FILTER_i_EN0              ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x60C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_4,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN         ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x630++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_4,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR       ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x628++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_4,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR   ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x620++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_4,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD        ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x634++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_USERINFO_4,"
hexmask.long.tbyte 0x00 0.--17. 1. " FILTER_i_MASK_m_USERINFO  ,Mask/Match of UserInfo Type: Control. Reset value: 0x0."
group.long 0x624++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_4,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR        ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x650++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_4,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR      ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x648++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_4,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR  ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x640++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_4,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD       ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x654++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_USERINFO_4,"
hexmask.long.tbyte 0x00 0.--17. 1. " FILTER_i_MATCH_m_USERINFO ,Mask/Match of UserInfo Type: Control. Reset value: 0x0."
group.long 0x644++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_4,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR       ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x758++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_4,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL           ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x75C++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_4,"
bitfld.long 0x00 0.--3. " OP_i_SEL                  ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x754++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_4,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL     ,Max value Type: Control. Reset value: 0x0."
group.long 0x750++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_4,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL     ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_5"
width 38.
group.long 0x770++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_5,"
bitfld.long 0x00 0. " FILTER0_ADDREN            ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x76C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_5,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX           ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x768++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_5,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN           ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x774++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_5,"
bitfld.long 0x00 0. " FILTER_i_EN0              ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x764++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_5,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN         ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x788++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_5,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR       ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x780++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_5,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR   ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x778++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_5,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD        ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x78C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_USERINFO_5,"
hexmask.long.tbyte 0x00 0.--17. 1. " FILTER_i_MASK_m_USERINFO  ,Mask/Match of UserInfo Type: Control. Reset value: 0x0."
group.long 0x77C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_5,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR        ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x7A8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_5,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR      ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x7A0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_5,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR  ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x798++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_5,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD       ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x7AC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_USERINFO_5,"
hexmask.long.tbyte 0x00 0.--17. 1. " FILTER_i_MATCH_m_USERINFO ,Mask/Match of UserInfo Type: Control. Reset value: 0x0."
group.long 0x79C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_5,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR       ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x8B0++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_5,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL           ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x8B4++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_5,"
bitfld.long 0x00 0.--3. " OP_i_SEL                  ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x8AC++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_5,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL     ,Max value Type: Control. Reset value: 0x0."
group.long 0x8A8++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_5,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL     ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_6"
width 38.
group.long 0x8C8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_6,"
bitfld.long 0x00 0. " FILTER0_ADDREN            ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x8C4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_6,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX           ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x8C0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_6,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN           ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x8CC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_6,"
bitfld.long 0x00 0. " FILTER_i_EN0              ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x8BC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_6,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN         ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x8E0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_6,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR       ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x8D8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_6,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR   ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x8D0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_6,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD        ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x8E4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_USERINFO_6,"
hexmask.long.tbyte 0x00 0.--17. 1. " FILTER_i_MASK_m_USERINFO  ,Mask/Match of UserInfo Type: Control. Reset value: 0x0."
group.long 0x8D4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_6,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR        ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x900++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_6,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR      ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x8F8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_6,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR  ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x8F0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_6,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD       ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x904++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_USERINFO_6,"
hexmask.long.tbyte 0x00 0.--17. 1. " FILTER_i_MATCH_m_USERINFO ,Mask/Match of UserInfo Type: Control. Reset value: 0x0."
group.long 0x8F4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_6,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR       ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0xA08++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_6,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL           ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0xA0C++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_6,"
bitfld.long 0x00 0.--3. " OP_i_SEL                  ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA04++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_6,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL     ,Max value Type: Control. Reset value: 0x0."
group.long 0xA00++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_6,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL     ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_7"
width 38.
group.long 0xA20++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_7,"
bitfld.long 0x00 0. " FILTER0_ADDREN            ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0xA1C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_7,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX           ,Max addr range Type: Control. Reset value: 0x0."
group.long 0xA18++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_7,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN           ,Min addr range Type: Control. Reset value: 0x0."
group.long 0xA24++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_7,"
bitfld.long 0x00 0. " FILTER_i_EN0              ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0xA14++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_7,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN         ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0xA38++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_7,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR       ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0xA30++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_7,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR   ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0xA28++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_7,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD        ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0xA3C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_USERINFO_7,"
hexmask.long.tbyte 0x00 0.--17. 1. " FILTER_i_MASK_m_USERINFO  ,Mask/Match of UserInfo Type: Control. Reset value: 0x0."
group.long 0xA2C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_7,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR        ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0xA58++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_7,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR      ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0xA50++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_7,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR  ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0xA48++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_7,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD       ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0xA5C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_USERINFO_7,"
hexmask.long.tbyte 0x00 0.--17. 1. " FILTER_i_MATCH_m_USERINFO ,Mask/Match of UserInfo Type: Control. Reset value: 0x0."
group.long 0xA4C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_7,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR       ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0xB60++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_7,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL           ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0xB64++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_7,"
bitfld.long 0x00 0.--3. " OP_i_SEL                  ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xB5C++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_7,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL     ,Max value Type: Control. Reset value: 0x0."
group.long 0xB58++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_7,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL     ,Min value Type: Control. Reset value: 0x0."
tree.end
textline ""
width 32.
group.long 0x0++0x3
line.long 0x00 "L3_STCOL_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x3A. (When the instance is CLK2_FLAGMUX_STATCOLL reset value is 0x37)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                  STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_STCOL_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x1."
hexmask.long.tbyte 0x00 0.--23. 1. "                  STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_STCOL_EN,"
bitfld.long 0x00 0. " EN                               ,Enable performance monitoring, this will also shut down the clock if En = 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0xC++0x3
line.long 0x00 "L3_STCOL_SOFTEN,"
bitfld.long 0x00 0. " SOFTEN                           ,Software enable for performance monitoring Type: Control. Reset value: 0x0." "0,1"
group.long 0x10++0x3
line.long 0x00 "L3_STCOL_IGNORESUSPEND,"
bitfld.long 0x00 0. " IGNORESUSPEND                    ,Ignore suspend if set to one for suspend mechanism Type: Control. Reset value: 0x0." "0,1"
group.long 0x14++0x3
line.long 0x00 "L3_STCOL_TRIGEN,"
bitfld.long 0x00 0. " TRIGEN                           ,TrigEn when set, it enable the external trigger start and stop Type: Control. Reset value: 0x0." "0,1"
group.long 0x18++0x3
line.long 0x00 "L3_STCOL_REQEVT,"
bitfld.long 0x00 0.--3. " REQEVT                           ,Req event select Type: Control. Reset value: 0x0. - disabled. - all events. - transfers. - wayt cycle. - busy. - packet. - data. - idles. - latency." "disabled,all_events,transfers,wayt_cycle,busy,packet,data,idles,latency,9,10,11,12,13,14,15"
group.long 0x1C++0x3
line.long 0x00 "L3_STCOL_RSPEVT,"
bitfld.long 0x00 0.--3. " RSPEVT                           ,Rsp event select Type: Control. Reset value: 0x0. - disabled. - . - Collect transfers. - collect wait cycle. - collect busy. - collect packet. - Collect data. - Collect idles. - Collect latency." "disabled,1,Collect_transfers,collect_wait_cycle,collect_busy,collect_packet,Collect_data,Collect_idles,Collect_latency,9,10,11,12,13,14,15"
group.long 0x20++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL0,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL0                      ,The select of the mux 0 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x24++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL1,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL1                      ,The select of the mux 1 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x28++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL2,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL2                      ,The select of the mux 2 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x2C++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL3,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL3                      ,The select of the mux 3 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x30++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL4,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL4                      ,The select of the mux 4 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x34++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL5,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL5                      ,The select of the mux 5 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x38++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL6,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL6                      ,The select of the mux 6 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x3C++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL7,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL7                      ,The select of the mux 7 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
rgroup.long 0x40++0x3
line.long 0x00 "L3_STCOL_DUMP_IDENTIFIER,"
bitfld.long 0x00 0.--3. " DUMP_IDENTIFIER                  ,Probe identifier Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x44++0x3
line.long 0x00 "L3_STCOL_DUMP_COLLECTTIME,"
hexmask.long 0x00 0.--31. 1. " DUMP_COLLECTTIME                 ,Number of cycle to wait between two statistics frame Type: Control. Reset value: 0x0."
rgroup.long 0x48++0x3
line.long 0x00 "L3_STCOL_DUMP_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " DUMP_SLVADDR                     ,Dump slave address Type: Control. Reset value: 0x19."
rgroup.long 0x4C++0x3
line.long 0x00 "L3_STCOL_DUMP_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " DUMP_MSTADDR                     ,Dump master address Type: Control. Reset value: 0xE0."
group.long 0x50++0x3
line.long 0x00 "L3_STCOL_DUMP_SLVOFS,"
hexmask.long 0x00 0.--31. 1. " DUMP_SLVOFS                      ,Dump slave offset Type: Control. Reset value: 0x800."
group.long 0x54++0x3
line.long 0x00 "L3_STCOL_DUMP_MODE,"
bitfld.long 0x00 1. " DUMP_MODE_CONDITIONAL            ,Define the stat conditional dump, if one a dump will be generated when alarm is trigged Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 0. "                   DUMP_MODE_MANUAL                         ,Define the dump mode: if != 0 the dump is controlled by the Send register. Type: Control. Reset value: 0x0." "0,1"
group.long 0x58++0x3
line.long 0x00 "L3_STCOL_DUMP_SEND,"
bitfld.long 0x00 0. " DUMP_SEND                        ,In manual mode, is used to send the dump content and initialize the counters. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
group.long 0x5C++0x3
line.long 0x00 "L3_STCOL_DUMP_DISABLE,"
bitfld.long 0x00 0. " DUMP_DISABLE                     ,If 1, the dump frame will be disabled, but counters still active.This is typically used when counters monitoring is enabled Type: Control. Reset value: 0x0." "0,1"
group.long 0x60++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_TRIG,"
bitfld.long 0x00 0. " DUMP_ALARM_TRIG                  ,In Alarm Mode, is used to reset Alarm Type: Take. Reset value: 0x0." "0,1"
group.long 0x64++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MINVAL,"
hexmask.long 0x00 0.--31. 1. " DUMP_ALARM_MINVAL                ,In Alarm Mode, used to trig an alert if any of counter value is less than AlarmMinVal Type: Control. Reset value: 0x0."
group.long 0x68++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MAXVAL,"
hexmask.long 0x00 0.--31. 1. " DUMP_ALARM_MAXVAL                ,In Alarm Mode, used to trig an alert if any of counter value is larger or equal to AlarmMaxVal Type: Control. Reset value: 0x0."
group.long 0x6C++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE0,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE0                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x70++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE1,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE1                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x74++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE2,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE2                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x78++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE3,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE3                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x7C++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE4,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE4                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x80++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE5,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE5                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x84++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE6,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE6                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x88++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE7,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE7                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
rgroup.long 0x8C++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT0,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT0                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0x90++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT1,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT1                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0x94++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT2,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT2                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0x98++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT3,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT3                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0x9C++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT4,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT4                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0xA0++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT5,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT5                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0xA4++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT6,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT6                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0xA8++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT7,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT7                        ,Dump counter value Type: Status. Reset value: X."
width 0x0B
tree.end
tree "CLK1_FLAGMUX_CLK1MERGE"
base ad:0x44000000
width 44.
rgroup.long 0x800400++0x3
line.long 0x00 "L3_FLAGMUX_CLK1MERGE_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x37." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "  STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x800404++0x3
line.long 0x00 "L3_FLAGMUX_CLK1MERGE_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "  STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x800408++0x3
line.long 0x00 "L3_FLAGMUX_CLK1MERGE_MASK0,"
bitfld.long 0x00 0.--1. " MASK0                            ,Mask flag inputs 0 Type: Control. Reset value: 0x3" "0,1,2,3"
group.long 0x80040C++0x3
line.long 0x00 "L3_FLAGMUX_CLK1MERGE_REGERR0,"
bitfld.long 0x00 0.--1. " REGERR0                          ,Flag inputs 0 Type: Control. Reset value: X" "0,1,2,3"
group.long 0x800410++0x3
line.long 0x00 "L3_FLAGMUX_CLK1MERGE_MASK1,"
bitfld.long 0x00 0.--1. " MASK1                            ,Mask flag inputs 0 Type: Control. Reset value: 0x3" "0,1,2,3"
group.long 0x800414++0x3
line.long 0x00 "L3_FLAGMUX_CLK1MERGE_REGERR1,"
bitfld.long 0x00 0.--1. " REGERR1                          ,Flag inputs 0 Type: Control. Reset value: X" "0,1,2,3"
width 0x0B
tree.end
tree.open "PCIE1_FW"
tree "PCIE1_FW"
base ad:0x4A165000
tree "REG_Bundle_0"
width 32.
group.long 0x8C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_0,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "  R15           ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14           ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "  W13           ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13           ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "  R12           ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11           ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "  W10           ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10           ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "  R9            ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8            ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "  W7            ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7            ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "  R6            ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5            ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "  W4            ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4            ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "  R3            ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2            ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "  W1            ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1            ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "  R0            ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x88++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_0,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "  PUB_USR_DEBUG ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "  PUB_PRV_EXE   ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "  PUB_USR_EXE   ,Public User Exe Access Allowed" "0,1"
tree.end
tree "REG_Bundle_1"
width 32.
group.long 0x94++0x3
line.long 0x00 "END_REGION_i_1,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x9C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_1,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x98++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_1,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x90++0x3
line.long 0x00 "START_REGION_i_1,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_2"
width 32.
group.long 0xA4++0x3
line.long 0x00 "END_REGION_i_2,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xAC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_2,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xA8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_2,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xA0++0x3
line.long 0x00 "START_REGION_i_2,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_3"
width 32.
group.long 0xB4++0x3
line.long 0x00 "END_REGION_i_3,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xBC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_3,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xB8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_3,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xB0++0x3
line.long 0x00 "START_REGION_i_3,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_4"
width 32.
group.long 0xC4++0x3
line.long 0x00 "END_REGION_i_4,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xCC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_4,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xC8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_4,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xC0++0x3
line.long 0x00 "START_REGION_i_4,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_5"
width 32.
group.long 0xD4++0x3
line.long 0x00 "END_REGION_i_5,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xDC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_5,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xD8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_5,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xD0++0x3
line.long 0x00 "START_REGION_i_5,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_6"
width 32.
group.long 0xE4++0x3
line.long 0x00 "END_REGION_i_6,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xEC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_6,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xE8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_6,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xE0++0x3
line.long 0x00 "START_REGION_i_6,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_7"
width 32.
group.long 0xF4++0x3
line.long 0x00 "END_REGION_i_7,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xFC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_7,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xF8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_7,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xF0++0x3
line.long 0x00 "START_REGION_i_7,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
textline ""
width 23.
group.long 0x0++0x3
line.long 0x00 "ERROR_LOG_k,Error log register for port k"
bitfld.long 0x00 23. " BLK_BURST_VIOLATION ,Read 0x1: 2D burst not allowed or exceeding allowed size Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1"
bitfld.long 0x00 17.--21. "         REGION_START_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 12.--16. "  REGION_END_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                "
hexmask.long.word 0x00 0.--11. 1. " REQINFO_ERRLOG      ,Read: Error in reqinfo vector mapped as follows: [11: 8] ConnID [3:0] [7] MCMD [0] [6:4] Reserved [3] MReqDebug [2] Reserved [1] MReqSupervisor [0] MReqType Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers"
rgroup.long 0x4++0x3
line.long 0x00 "LOGICAL_ADDR_ERRLOG_k,Logical Physical Address Error log register for port k"
hexmask.long 0x00 0.--31. 1. " SLVOFS_LOGICAL      ,Address generated by the Initiator before being translated"
group.long 0x40++0x3
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
bitfld.long 0x00 16.--19. " FW_ADDR_SPACE_MSB   ,Address space size" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
eventfld.long 0x00 1. "        FW_LOAD_REQ         ,Writing '1' to this bit causes the bit to self-clear and triggers the reload of L3 firewall default values. This bit will subsequently self-set when the reload procedure is complete. Writing '0' has no effect." "0,1"
bitfld.long 0x00 0. "   BUSY_REQ          ,Busy request 0x0: Allow transactions to reach the slave NIU (resume) 0x1: No transaction can reach the slave NIU (suspend)" "0,1"
width 0x0B
tree.end
tree "GPMC_FW"
base ad:0x4A210000
tree "REG_Bundle_0"
width 32.
group.long 0x8C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_0,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "  R15           ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14           ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "  W13           ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13           ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "  R12           ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11           ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "  W10           ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10           ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "  R9            ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8            ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "  W7            ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7            ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "  R6            ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5            ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "  W4            ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4            ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "  R3            ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2            ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "  W1            ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1            ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "  R0            ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x88++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_0,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "  PUB_USR_DEBUG ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "  PUB_PRV_EXE   ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "  PUB_USR_EXE   ,Public User Exe Access Allowed" "0,1"
tree.end
tree "REG_Bundle_1"
width 32.
group.long 0x94++0x3
line.long 0x00 "END_REGION_i_1,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x9C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_1,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x98++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_1,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x90++0x3
line.long 0x00 "START_REGION_i_1,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_2"
width 32.
group.long 0xA4++0x3
line.long 0x00 "END_REGION_i_2,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xAC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_2,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xA8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_2,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xA0++0x3
line.long 0x00 "START_REGION_i_2,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_3"
width 32.
group.long 0xB4++0x3
line.long 0x00 "END_REGION_i_3,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xBC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_3,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xB8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_3,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xB0++0x3
line.long 0x00 "START_REGION_i_3,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_4"
width 32.
group.long 0xC4++0x3
line.long 0x00 "END_REGION_i_4,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xCC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_4,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xC8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_4,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xC0++0x3
line.long 0x00 "START_REGION_i_4,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_5"
width 32.
group.long 0xD4++0x3
line.long 0x00 "END_REGION_i_5,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xDC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_5,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xD8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_5,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xD0++0x3
line.long 0x00 "START_REGION_i_5,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_6"
width 32.
group.long 0xE4++0x3
line.long 0x00 "END_REGION_i_6,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xEC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_6,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xE8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_6,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xE0++0x3
line.long 0x00 "START_REGION_i_6,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_7"
width 32.
group.long 0xF4++0x3
line.long 0x00 "END_REGION_i_7,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xFC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_7,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xF8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_7,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xF0++0x3
line.long 0x00 "START_REGION_i_7,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
textline ""
width 23.
group.long 0x0++0x3
line.long 0x00 "ERROR_LOG_k,Error log register for port k"
bitfld.long 0x00 23. " BLK_BURST_VIOLATION ,Read 0x1: 2D burst not allowed or exceeding allowed size Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1"
bitfld.long 0x00 17.--21. "         REGION_START_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 12.--16. "  REGION_END_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                "
hexmask.long.word 0x00 0.--11. 1. " REQINFO_ERRLOG      ,Read: Error in reqinfo vector mapped as follows: [11: 8] ConnID [3:0] [7] MCMD [0] [6:4] Reserved [3] MReqDebug [2] Reserved [1] MReqSupervisor [0] MReqType Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers"
rgroup.long 0x4++0x3
line.long 0x00 "LOGICAL_ADDR_ERRLOG_k,Logical Physical Address Error log register for port k"
hexmask.long 0x00 0.--31. 1. " SLVOFS_LOGICAL      ,Address generated by the Initiator before being translated"
group.long 0x40++0x3
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
bitfld.long 0x00 16.--19. " FW_ADDR_SPACE_MSB   ,Address space size" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
eventfld.long 0x00 1. "        FW_LOAD_REQ         ,Writing '1' to this bit causes the bit to self-clear and triggers the reload of L3 firewall default values. This bit will subsequently self-set when the reload procedure is complete. Writing '0' has no effect." "0,1"
bitfld.long 0x00 0. "   BUSY_REQ          ,Busy request 0x0: Allow transactions to reach the slave NIU (resume) 0x1: No transaction can reach the slave NIU (suspend)" "0,1"
width 0x0B
tree.end
tree "DSS_FW"
base ad:0x4A21C000
tree "REG_Bundle_0"
width 32.
group.long 0x8C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_0,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "  R15           ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14           ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "  W13           ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13           ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "  R12           ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11           ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "  W10           ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10           ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "  R9            ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8            ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "  W7            ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7            ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "  R6            ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5            ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "  W4            ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4            ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "  R3            ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2            ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "  W1            ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1            ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "  R0            ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x88++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_0,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "  PUB_USR_DEBUG ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "  PUB_PRV_EXE   ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "  PUB_USR_EXE   ,Public User Exe Access Allowed" "0,1"
tree.end
tree "REG_Bundle_1"
width 32.
group.long 0x94++0x3
line.long 0x00 "END_REGION_i_1,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x9C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_1,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x98++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_1,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x90++0x3
line.long 0x00 "START_REGION_i_1,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_2"
width 32.
group.long 0xA4++0x3
line.long 0x00 "END_REGION_i_2,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xAC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_2,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xA8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_2,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xA0++0x3
line.long 0x00 "START_REGION_i_2,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_3"
width 32.
group.long 0xB4++0x3
line.long 0x00 "END_REGION_i_3,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xBC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_3,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xB8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_3,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xB0++0x3
line.long 0x00 "START_REGION_i_3,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_4"
width 32.
group.long 0xC4++0x3
line.long 0x00 "END_REGION_i_4,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xCC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_4,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xC8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_4,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xC0++0x3
line.long 0x00 "START_REGION_i_4,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_5"
width 32.
group.long 0xD4++0x3
line.long 0x00 "END_REGION_i_5,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xDC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_5,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xD8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_5,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xD0++0x3
line.long 0x00 "START_REGION_i_5,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_6"
width 32.
group.long 0xE4++0x3
line.long 0x00 "END_REGION_i_6,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xEC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_6,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xE8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_6,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xE0++0x3
line.long 0x00 "START_REGION_i_6,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_7"
width 32.
group.long 0xF4++0x3
line.long 0x00 "END_REGION_i_7,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xFC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_7,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xF8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_7,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xF0++0x3
line.long 0x00 "START_REGION_i_7,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
textline ""
width 23.
group.long 0x0++0x3
line.long 0x00 "ERROR_LOG_k,Error log register for port k"
bitfld.long 0x00 23. " BLK_BURST_VIOLATION ,Read 0x1: 2D burst not allowed or exceeding allowed size Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1"
bitfld.long 0x00 17.--21. "         REGION_START_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 12.--16. "  REGION_END_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                "
hexmask.long.word 0x00 0.--11. 1. " REQINFO_ERRLOG      ,Read: Error in reqinfo vector mapped as follows: [11: 8] ConnID [3:0] [7] MCMD [0] [6:4] Reserved [3] MReqDebug [2] Reserved [1] MReqSupervisor [0] MReqType Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers"
rgroup.long 0x4++0x3
line.long 0x00 "LOGICAL_ADDR_ERRLOG_k,Logical Physical Address Error log register for port k"
hexmask.long 0x00 0.--31. 1. " SLVOFS_LOGICAL      ,Address generated by the Initiator before being translated"
group.long 0x40++0x3
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
bitfld.long 0x00 16.--19. " FW_ADDR_SPACE_MSB   ,Address space size" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
eventfld.long 0x00 1. "        FW_LOAD_REQ         ,Writing '1' to this bit causes the bit to self-clear and triggers the reload of L3 firewall default values. This bit will subsequently self-set when the reload procedure is complete. Writing '0' has no effect." "0,1"
bitfld.long 0x00 0. "   BUSY_REQ          ,Busy request 0x0: Allow transactions to reach the slave NIU (resume) 0x1: No transaction can reach the slave NIU (suspend)" "0,1"
width 0x0B
tree.end
tree.end
tree.open "MA_MPU_NTTP_FW"
tree "MA_MPU_NTTP_FW"
base ad:0x4A20A000
tree "Channel_0"
width 32.
group.long 0x0++0x3
line.long 0x00 "ERROR_LOG_k_0,Error log register for port k"
bitfld.long 0x00 23. " BLK_BURST_VIOLATION ,Read 0x1: 2D burst not allowed or exceeding allowed size Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1"
bitfld.long 0x00 17.--21. "         REGION_START_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 12.--16. "  REGION_END_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                         "
hexmask.long.word 0x00 0.--11. 1. " REQINFO_ERRLOG      ,Read: Error in reqinfo vector mapped as follows: [11: 8] ConnID [3:0] [7] MCMD [0] [6:4] Reserved [3] MReqDebug [2] Reserved [1] MReqSupervisor [0] MReqType Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers"
rgroup.long 0x4++0x3
line.long 0x00 "LOGICAL_ADDR_ERRLOG_k_0,Logical Physical Address Error log register for port k"
hexmask.long 0x00 0.--31. 1. " SLVOFS_LOGICAL      ,Address generated by the Initiator before being translated"
group.long 0x8C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_0,Region j Permission High"
bitfld.long 0x00 31. " W15                 ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "         R15                 ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "   W14               ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14                 ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "         W13                 ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "   R13               ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12                 ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "         R12                 ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "   W11               ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11                 ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "         W10                 ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "   R10               ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9                  ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "         R9                  ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "   W8                ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8                  ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "         W7                  ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "   R7                ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6                  ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "         R6                  ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "   W5                ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5                  ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "         W4                  ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "   R4                ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3                  ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "         R3                  ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "   W2                ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2                  ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "         W1                  ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "   R1                ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0                  ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "         R0                  ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x88++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_0,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG       ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "         PUB_USR_DEBUG       ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "   PUB_PRV_WRITE     ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ        ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "         PUB_PRV_EXE         ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "   PUB_USR_WRITE     ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ        ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "         PUB_USR_EXE         ,Public User Exe Access Allowed" "0,1"
tree.end
tree "REG_Bundle_1"
width 32.
group.long 0x94++0x3
line.long 0x00 "END_REGION_i_1,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION          ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "    END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "   END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x10++0x3
line.long 0x00 "ERROR_LOG_k_1,Error log register for port k"
bitfld.long 0x00 23. " BLK_BURST_VIOLATION ,Read 0x1: 2D burst not allowed or exceeding allowed size Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1"
bitfld.long 0x00 17.--21. "         REGION_START_ERRLOG       ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 12.--16. "  REGION_END_ERRLOG         ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                         "
hexmask.long.word 0x00 0.--11. 1. " REQINFO_ERRLOG      ,Read: Error in reqinfo vector mapped as follows: [11: 8] ConnID [3:0] [7] MCMD [0] [6:4] Reserved [3] MReqDebug [2] Reserved [1] MReqSupervisor [0] MReqType Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers"
rgroup.long 0x14++0x3
line.long 0x00 "LOGICAL_ADDR_ERRLOG_k_1,Logical Physical Address Error log register for port k"
hexmask.long 0x00 0.--31. 1. " SLVOFS_LOGICAL      ,Address generated by the Initiator before being translated"
group.long 0x9C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_1,Region j Permission High"
bitfld.long 0x00 31. " W15                 ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "         R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "   W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14                 ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "         W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "   R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12                 ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "         R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "   W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11                 ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "         W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "   R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9                  ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "         R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "   W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8                  ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "         W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "   R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6                  ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "         R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "   W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5                  ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "         W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "   R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3                  ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "         R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "   W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2                  ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "         W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "   R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0                  ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "         R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x98++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_1,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG       ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "         PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "   PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ        ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "         PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "   PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ        ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "         PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x90++0x3
line.long 0x00 "START_REGION_i_1,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION        ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_2"
width 32.
group.long 0xA4++0x3
line.long 0x00 "END_REGION_i_2,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xAC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_2,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xA8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_2,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xA0++0x3
line.long 0x00 "START_REGION_i_2,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_3"
width 32.
group.long 0xB4++0x3
line.long 0x00 "END_REGION_i_3,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xBC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_3,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xB8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_3,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xB0++0x3
line.long 0x00 "START_REGION_i_3,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_4"
width 32.
group.long 0xC4++0x3
line.long 0x00 "END_REGION_i_4,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xCC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_4,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xC8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_4,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xC0++0x3
line.long 0x00 "START_REGION_i_4,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_5"
width 32.
group.long 0xD4++0x3
line.long 0x00 "END_REGION_i_5,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xDC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_5,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xD8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_5,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xD0++0x3
line.long 0x00 "START_REGION_i_5,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_6"
width 32.
group.long 0xE4++0x3
line.long 0x00 "END_REGION_i_6,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xEC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_6,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xE8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_6,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xE0++0x3
line.long 0x00 "START_REGION_i_6,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_7"
width 32.
group.long 0xF4++0x3
line.long 0x00 "END_REGION_i_7,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xFC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_7,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xF8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_7,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xF0++0x3
line.long 0x00 "START_REGION_i_7,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
textline ""
width 19.
group.long 0x40++0x3
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
bitfld.long 0x00 16.--19. " FW_ADDR_SPACE_MSB ,Address space size" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
eventfld.long 0x00 1. "  FW_LOAD_REQ ,Writing '1' to this bit causes the bit to self-clear and triggers the reload of L3 firewall default values. This bit will subsequently self-set when the reload procedure is complete. Writing '0' has no effect." "0,1"
bitfld.long 0x00 0. "  BUSY_REQ ,Busy request 0x0: Allow transactions to reach the slave NIU (resume) 0x1: No transaction can reach the slave NIU (suspend)" "0,1"
width 0x0B
tree.end
tree "EMIF_OCP_FW"
base ad:0x4A20C000
tree "Channel_0"
width 32.
group.long 0x0++0x3
line.long 0x00 "ERROR_LOG_k_0,Error log register for port k"
bitfld.long 0x00 23. " BLK_BURST_VIOLATION ,Read 0x1: 2D burst not allowed or exceeding allowed size Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1"
bitfld.long 0x00 17.--21. "         REGION_START_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 12.--16. "  REGION_END_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                         "
hexmask.long.word 0x00 0.--11. 1. " REQINFO_ERRLOG      ,Read: Error in reqinfo vector mapped as follows: [11: 8] ConnID [3:0] [7] MCMD [0] [6:4] Reserved [3] MReqDebug [2] Reserved [1] MReqSupervisor [0] MReqType Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers"
rgroup.long 0x4++0x3
line.long 0x00 "LOGICAL_ADDR_ERRLOG_k_0,Logical Physical Address Error log register for port k"
hexmask.long 0x00 0.--31. 1. " SLVOFS_LOGICAL      ,Address generated by the Initiator before being translated"
group.long 0x8C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_0,Region j Permission High"
bitfld.long 0x00 31. " W15                 ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "         R15                 ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "   W14               ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14                 ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "         W13                 ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "   R13               ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12                 ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "         R12                 ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "   W11               ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11                 ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "         W10                 ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "   R10               ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9                  ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "         R9                  ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "   W8                ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8                  ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "         W7                  ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "   R7                ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6                  ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "         R6                  ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "   W5                ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5                  ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "         W4                  ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "   R4                ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3                  ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "         R3                  ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "   W2                ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2                  ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "         W1                  ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "   R1                ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0                  ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "         R0                  ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x88++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_0,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG       ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "         PUB_USR_DEBUG       ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "   PUB_PRV_WRITE     ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ        ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "         PUB_PRV_EXE         ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "   PUB_USR_WRITE     ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ        ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "         PUB_USR_EXE         ,Public User Exe Access Allowed" "0,1"
tree.end
tree "REG_Bundle_1"
width 32.
group.long 0x94++0x3
line.long 0x00 "END_REGION_i_1,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION          ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "    END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "   END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x10++0x3
line.long 0x00 "ERROR_LOG_k_1,Error log register for port k"
bitfld.long 0x00 23. " BLK_BURST_VIOLATION ,Read 0x1: 2D burst not allowed or exceeding allowed size Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1"
bitfld.long 0x00 17.--21. "         REGION_START_ERRLOG       ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 12.--16. "  REGION_END_ERRLOG         ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                         "
hexmask.long.word 0x00 0.--11. 1. " REQINFO_ERRLOG      ,Read: Error in reqinfo vector mapped as follows: [11: 8] ConnID [3:0] [7] MCMD [0] [6:4] Reserved [3] MReqDebug [2] Reserved [1] MReqSupervisor [0] MReqType Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers"
rgroup.long 0x14++0x3
line.long 0x00 "LOGICAL_ADDR_ERRLOG_k_1,Logical Physical Address Error log register for port k"
hexmask.long 0x00 0.--31. 1. " SLVOFS_LOGICAL      ,Address generated by the Initiator before being translated"
group.long 0x9C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_1,Region j Permission High"
bitfld.long 0x00 31. " W15                 ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "         R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "   W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14                 ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "         W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "   R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12                 ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "         R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "   W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11                 ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "         W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "   R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9                  ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "         R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "   W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8                  ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "         W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "   R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6                  ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "         R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "   W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5                  ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "         W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "   R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3                  ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "         R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "   W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2                  ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "         W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "   R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0                  ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "         R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x98++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_1,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG       ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "         PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "   PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ        ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "         PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "   PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ        ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "         PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x90++0x3
line.long 0x00 "START_REGION_i_1,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION        ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_2"
width 32.
group.long 0xA4++0x3
line.long 0x00 "END_REGION_i_2,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xAC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_2,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xA8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_2,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xA0++0x3
line.long 0x00 "START_REGION_i_2,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_3"
width 32.
group.long 0xB4++0x3
line.long 0x00 "END_REGION_i_3,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xBC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_3,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xB8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_3,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xB0++0x3
line.long 0x00 "START_REGION_i_3,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_4"
width 32.
group.long 0xC4++0x3
line.long 0x00 "END_REGION_i_4,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xCC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_4,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xC8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_4,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xC0++0x3
line.long 0x00 "START_REGION_i_4,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_5"
width 32.
group.long 0xD4++0x3
line.long 0x00 "END_REGION_i_5,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xDC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_5,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xD8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_5,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xD0++0x3
line.long 0x00 "START_REGION_i_5,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_6"
width 32.
group.long 0xE4++0x3
line.long 0x00 "END_REGION_i_6,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xEC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_6,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xE8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_6,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xE0++0x3
line.long 0x00 "START_REGION_i_6,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_7"
width 32.
group.long 0xF4++0x3
line.long 0x00 "END_REGION_i_7,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xFC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_7,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xF8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_7,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xF0++0x3
line.long 0x00 "START_REGION_i_7,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
textline ""
width 19.
group.long 0x40++0x3
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
bitfld.long 0x00 16.--19. " FW_ADDR_SPACE_MSB ,Address space size" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
eventfld.long 0x00 1. "  FW_LOAD_REQ ,Writing '1' to this bit causes the bit to self-clear and triggers the reload of L3 firewall default values. This bit will subsequently self-set when the reload procedure is complete. Writing '0' has no effect." "0,1"
bitfld.long 0x00 0. "  BUSY_REQ ,Busy request 0x0: Allow transactions to reach the slave NIU (resume) 0x1: No transaction can reach the slave NIU (suspend)" "0,1"
width 0x0B
tree.end
tree.end
tree.open "CLK1_2_TPTC1_RD_BW_LIMITER"
tree "CLK1_2_TPTC1_RD_BW_LIMITER"
base ad:0x44803C00
width 37.
rgroup.long 0x0++0x3
line.long 0x00 "L3_BW_LIMITER_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constantreporting a vendor-specific core generator code. Type: Constant. Reset value: 0x2C." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "    STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constantreporting the core generator vendor code. Type: Constant. Reset value: 0x1. - ARTERIS. - UNDEFINED." "UNDEFINED,ARTERIS"
rgroup.long 0x4++0x3
line.long 0x00 "L3_BW_LIMITER_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constantreporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "    STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_BW_LIMITER_BANDWIDTH_FRACTIONAL,"
bitfld.long 0x00 0.--4. " BANDWIDTH_FRACTIONAL             ,Fractional part of bandwitdh in terms of bytes per second Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xC++0x3
line.long 0x00 "L3_BW_LIMITER_BANDWIDTH_INTEGER,"
bitfld.long 0x00 0.--3. " BANDWIDTH_INTEGER                ,Integer part of bandwitdh in terms of bytes per second Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10++0x3
line.long 0x00 "L3_BW_LIMITER_WATERMARK_0,"
hexmask.long.word 0x00 0.--13. 1. " WATERMARK_0                      ,Peak bandwidth allowed Type: Control. Reset value: 0x3FF."
group.long 0x14++0x3
line.long 0x00 "L3_BW_LIMITER_CLEARHISTORY,"
bitfld.long 0x00 0. " CLEARHISTORY                     ,Write a 1 clear the traffic counter Type: Give_AutoCleared. Reset value: 0x0." "0,1"
width 0x0B
tree.end
tree "CLK1_2_TPTC2_RD_BW_LIMITER"
base ad:0x44803D00
width 37.
rgroup.long 0x0++0x3
line.long 0x00 "L3_BW_LIMITER_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constantreporting a vendor-specific core generator code. Type: Constant. Reset value: 0x2C." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "    STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constantreporting the core generator vendor code. Type: Constant. Reset value: 0x1. - ARTERIS. - UNDEFINED." "UNDEFINED,ARTERIS"
rgroup.long 0x4++0x3
line.long 0x00 "L3_BW_LIMITER_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constantreporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "    STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_BW_LIMITER_BANDWIDTH_FRACTIONAL,"
bitfld.long 0x00 0.--4. " BANDWIDTH_FRACTIONAL             ,Fractional part of bandwitdh in terms of bytes per second Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xC++0x3
line.long 0x00 "L3_BW_LIMITER_BANDWIDTH_INTEGER,"
bitfld.long 0x00 0.--3. " BANDWIDTH_INTEGER                ,Integer part of bandwitdh in terms of bytes per second Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10++0x3
line.long 0x00 "L3_BW_LIMITER_WATERMARK_0,"
hexmask.long.word 0x00 0.--13. 1. " WATERMARK_0                      ,Peak bandwidth allowed Type: Control. Reset value: 0x3FF."
group.long 0x14++0x3
line.long 0x00 "L3_BW_LIMITER_CLEARHISTORY,"
bitfld.long 0x00 0. " CLEARHISTORY                     ,Write a 1 clear the traffic counter Type: Give_AutoCleared. Reset value: 0x0." "0,1"
width 0x0B
tree.end
tree "CLK1_2_TPTC1_WR_BW_LIMITER"
base ad:0x44803E00
width 37.
rgroup.long 0x0++0x3
line.long 0x00 "L3_BW_LIMITER_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constantreporting a vendor-specific core generator code. Type: Constant. Reset value: 0x2C." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "    STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constantreporting the core generator vendor code. Type: Constant. Reset value: 0x1. - ARTERIS. - UNDEFINED." "UNDEFINED,ARTERIS"
rgroup.long 0x4++0x3
line.long 0x00 "L3_BW_LIMITER_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constantreporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "    STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_BW_LIMITER_BANDWIDTH_FRACTIONAL,"
bitfld.long 0x00 0.--4. " BANDWIDTH_FRACTIONAL             ,Fractional part of bandwitdh in terms of bytes per second Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xC++0x3
line.long 0x00 "L3_BW_LIMITER_BANDWIDTH_INTEGER,"
bitfld.long 0x00 0.--3. " BANDWIDTH_INTEGER                ,Integer part of bandwitdh in terms of bytes per second Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10++0x3
line.long 0x00 "L3_BW_LIMITER_WATERMARK_0,"
hexmask.long.word 0x00 0.--13. 1. " WATERMARK_0                      ,Peak bandwidth allowed Type: Control. Reset value: 0x3FF."
group.long 0x14++0x3
line.long 0x00 "L3_BW_LIMITER_CLEARHISTORY,"
bitfld.long 0x00 0. " CLEARHISTORY                     ,Write a 1 clear the traffic counter Type: Give_AutoCleared. Reset value: 0x0." "0,1"
width 0x0B
tree.end
tree "CLK1_2_TPTC2_WR_BW_LIMITER"
base ad:0x44803F00
width 37.
rgroup.long 0x0++0x3
line.long 0x00 "L3_BW_LIMITER_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constantreporting a vendor-specific core generator code. Type: Constant. Reset value: 0x2C." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "    STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constantreporting the core generator vendor code. Type: Constant. Reset value: 0x1. - ARTERIS. - UNDEFINED." "UNDEFINED,ARTERIS"
rgroup.long 0x4++0x3
line.long 0x00 "L3_BW_LIMITER_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constantreporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "    STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_BW_LIMITER_BANDWIDTH_FRACTIONAL,"
bitfld.long 0x00 0.--4. " BANDWIDTH_FRACTIONAL             ,Fractional part of bandwitdh in terms of bytes per second Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xC++0x3
line.long 0x00 "L3_BW_LIMITER_BANDWIDTH_INTEGER,"
bitfld.long 0x00 0.--3. " BANDWIDTH_INTEGER                ,Integer part of bandwitdh in terms of bytes per second Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10++0x3
line.long 0x00 "L3_BW_LIMITER_WATERMARK_0,"
hexmask.long.word 0x00 0.--13. 1. " WATERMARK_0                      ,Peak bandwidth allowed Type: Control. Reset value: 0x3FF."
group.long 0x14++0x3
line.long 0x00 "L3_BW_LIMITER_CLEARHISTORY,"
bitfld.long 0x00 0. " CLEARHISTORY                     ,Write a 1 clear the traffic counter Type: Give_AutoCleared. Reset value: 0x0." "0,1"
width 0x0B
tree.end
tree "CLK1_2_VPE_P2_BW_LIMITER"
base ad:0x44804000
width 37.
rgroup.long 0x0++0x3
line.long 0x00 "L3_BW_LIMITER_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constantreporting a vendor-specific core generator code. Type: Constant. Reset value: 0x2C." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "    STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constantreporting the core generator vendor code. Type: Constant. Reset value: 0x1. - ARTERIS. - UNDEFINED." "UNDEFINED,ARTERIS"
rgroup.long 0x4++0x3
line.long 0x00 "L3_BW_LIMITER_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constantreporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "    STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_BW_LIMITER_BANDWIDTH_FRACTIONAL,"
bitfld.long 0x00 0.--4. " BANDWIDTH_FRACTIONAL             ,Fractional part of bandwitdh in terms of bytes per second Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xC++0x3
line.long 0x00 "L3_BW_LIMITER_BANDWIDTH_INTEGER,"
bitfld.long 0x00 0.--3. " BANDWIDTH_INTEGER                ,Integer part of bandwitdh in terms of bytes per second Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10++0x3
line.long 0x00 "L3_BW_LIMITER_WATERMARK_0,"
hexmask.long.word 0x00 0.--13. 1. " WATERMARK_0                      ,Peak bandwidth allowed Type: Control. Reset value: 0x3FF."
group.long 0x14++0x3
line.long 0x00 "L3_BW_LIMITER_CLEARHISTORY,"
bitfld.long 0x00 0. " CLEARHISTORY                     ,Write a 1 clear the traffic counter Type: Give_AutoCleared. Reset value: 0x0." "0,1"
width 0x0B
tree.end
tree "CLK1_2_VPE_P1_BW_LIMITER"
base ad:0x44804100
width 37.
rgroup.long 0x0++0x3
line.long 0x00 "L3_BW_LIMITER_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constantreporting a vendor-specific core generator code. Type: Constant. Reset value: 0x2C." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "    STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constantreporting the core generator vendor code. Type: Constant. Reset value: 0x1. - ARTERIS. - UNDEFINED." "UNDEFINED,ARTERIS"
rgroup.long 0x4++0x3
line.long 0x00 "L3_BW_LIMITER_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constantreporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "    STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_BW_LIMITER_BANDWIDTH_FRACTIONAL,"
bitfld.long 0x00 0.--4. " BANDWIDTH_FRACTIONAL             ,Fractional part of bandwitdh in terms of bytes per second Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xC++0x3
line.long 0x00 "L3_BW_LIMITER_BANDWIDTH_INTEGER,"
bitfld.long 0x00 0.--3. " BANDWIDTH_INTEGER                ,Integer part of bandwitdh in terms of bytes per second Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10++0x3
line.long 0x00 "L3_BW_LIMITER_WATERMARK_0,"
hexmask.long.word 0x00 0.--13. 1. " WATERMARK_0                      ,Peak bandwidth allowed Type: Control. Reset value: 0x3FF."
group.long 0x14++0x3
line.long 0x00 "L3_BW_LIMITER_CLEARHISTORY,"
bitfld.long 0x00 0. " CLEARHISTORY                     ,Write a 1 clear the traffic counter Type: Give_AutoCleared. Reset value: 0x0." "0,1"
width 0x0B
tree.end
tree "CLK1_2_GPU_P1_BW_LIMITER"
base ad:0x44805B00
width 37.
rgroup.long 0x0++0x3
line.long 0x00 "L3_BW_LIMITER_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constantreporting a vendor-specific core generator code. Type: Constant. Reset value: 0x2C." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "    STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constantreporting the core generator vendor code. Type: Constant. Reset value: 0x1. - ARTERIS. - UNDEFINED." "UNDEFINED,ARTERIS"
rgroup.long 0x4++0x3
line.long 0x00 "L3_BW_LIMITER_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constantreporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "    STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_BW_LIMITER_BANDWIDTH_FRACTIONAL,"
bitfld.long 0x00 0.--4. " BANDWIDTH_FRACTIONAL             ,Fractional part of bandwitdh in terms of bytes per second Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xC++0x3
line.long 0x00 "L3_BW_LIMITER_BANDWIDTH_INTEGER,"
bitfld.long 0x00 0.--3. " BANDWIDTH_INTEGER                ,Integer part of bandwitdh in terms of bytes per second Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10++0x3
line.long 0x00 "L3_BW_LIMITER_WATERMARK_0,"
hexmask.long.word 0x00 0.--13. 1. " WATERMARK_0                      ,Peak bandwidth allowed Type: Control. Reset value: 0x3FF."
group.long 0x14++0x3
line.long 0x00 "L3_BW_LIMITER_CLEARHISTORY,"
bitfld.long 0x00 0. " CLEARHISTORY                     ,Write a 1 clear the traffic counter Type: Give_AutoCleared. Reset value: 0x0." "0,1"
width 0x0B
tree.end
tree "CLK1_2_GPU_P2_BW_LIMITER"
base ad:0x44805C00
width 37.
rgroup.long 0x0++0x3
line.long 0x00 "L3_BW_LIMITER_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constantreporting a vendor-specific core generator code. Type: Constant. Reset value: 0x2C." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "    STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constantreporting the core generator vendor code. Type: Constant. Reset value: 0x1. - ARTERIS. - UNDEFINED." "UNDEFINED,ARTERIS"
rgroup.long 0x4++0x3
line.long 0x00 "L3_BW_LIMITER_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constantreporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "    STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_BW_LIMITER_BANDWIDTH_FRACTIONAL,"
bitfld.long 0x00 0.--4. " BANDWIDTH_FRACTIONAL             ,Fractional part of bandwitdh in terms of bytes per second Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xC++0x3
line.long 0x00 "L3_BW_LIMITER_BANDWIDTH_INTEGER,"
bitfld.long 0x00 0.--3. " BANDWIDTH_INTEGER                ,Integer part of bandwitdh in terms of bytes per second Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10++0x3
line.long 0x00 "L3_BW_LIMITER_WATERMARK_0,"
hexmask.long.word 0x00 0.--13. 1. " WATERMARK_0                      ,Peak bandwidth allowed Type: Control. Reset value: 0x3FF."
group.long 0x14++0x3
line.long 0x00 "L3_BW_LIMITER_CLEARHISTORY,"
bitfld.long 0x00 0. " CLEARHISTORY                     ,Write a 1 clear the traffic counter Type: Give_AutoCleared. Reset value: 0x0." "0,1"
width 0x0B
tree.end
tree.end
tree "CLK2_STATCOLL1"
base ad:0x45002000
tree "Channel_0"
width 41.
group.long 0xB8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_0,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0xB4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_0,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0xB0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_0,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0xBC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_0,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0xAC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_0,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0xD0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_0,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0xC8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_0,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0xC0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_0,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0xD4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_0,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0xD8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_0,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0xCC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0xC4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_0,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0xF0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_0,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0xE8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_0,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0xE0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_0,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0xF4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_0,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0xF8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_0,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0xEC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_0,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xE4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_0,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x1F8++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_0,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x1FC++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_0,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x1F4++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_0,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x1F0++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_0,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_1"
width 41.
group.long 0x210++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_1,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x20C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_1,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x208++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_1,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x214++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_1,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x204++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_1,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x228++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_1,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x220++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_1,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x218++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_1,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x22C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_1,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x230++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_1,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x224++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_1,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0x21C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_1,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x248++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_1,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x240++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_1,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x238++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_1,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x24C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_1,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x250++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_1,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x244++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_1,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x23C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_1,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x350++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_1,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x354++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_1,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x34C++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_1,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x348++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_1,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_2"
width 41.
group.long 0x368++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_2,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x364++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_2,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x360++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_2,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x36C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_2,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x35C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_2,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x380++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_2,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x378++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_2,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x370++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_2,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x384++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_2,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x388++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_2,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x37C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_2,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0x374++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_2,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x3A0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_2,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x398++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_2,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x390++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_2,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x3A4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_2,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x3A8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_2,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x39C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_2,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x394++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_2,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x4A8++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_2,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x4AC++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_2,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4A4++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_2,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x4A0++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_2,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_3"
width 41.
group.long 0x4C0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_3,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x4BC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_3,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x4B8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_3,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x4C4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_3,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x4B4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_3,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x4D8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_3,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x4D0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_3,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x4C8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_3,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x4DC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_3,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x4E0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_3,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x4D4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_3,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0x4CC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_3,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x4F8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_3,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x4F0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_3,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x4E8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_3,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x4FC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_3,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x500++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_3,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x4F4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_3,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x4EC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_3,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x600++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_3,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x604++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_3,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5FC++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_3,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x5F8++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_3,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_4"
width 41.
group.long 0x618++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_4,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x614++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_4,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x610++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_4,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x61C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_4,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x60C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_4,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x630++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_4,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x628++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_4,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x620++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_4,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x634++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_4,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x638++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_4,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x62C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_4,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0x624++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_4,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x650++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_4,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x648++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_4,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x640++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_4,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x654++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_4,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x658++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_4,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x64C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_4,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x644++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_4,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x758++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_4,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x75C++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_4,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x754++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_4,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x750++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_4,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_5"
width 41.
group.long 0x770++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_5,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x76C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_5,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x768++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_5,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x774++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_5,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x764++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_5,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x788++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_5,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x780++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_5,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x778++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_5,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x78C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_5,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x790++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_5,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x784++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_5,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0x77C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_5,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x7A8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_5,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x7A0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_5,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x798++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_5,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x7AC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_5,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x7B0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_5,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x7A4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_5,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x79C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_5,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x8B0++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_5,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x8B4++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_5,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x8AC++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_5,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x8A8++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_5,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
textline ""
width 32.
group.long 0x0++0x3
line.long 0x00 "L3_STCOL_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x3A. (When the instance is CLK2_FLAGMUX_STATCOLL reset value is 0x37)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                  STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_STCOL_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x1."
hexmask.long.tbyte 0x00 0.--23. 1. "                  STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_STCOL_EN,"
bitfld.long 0x00 0. " EN                               ,Enable performance monitoring, this will also shut down the clock if En = 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0xC++0x3
line.long 0x00 "L3_STCOL_SOFTEN,"
bitfld.long 0x00 0. " SOFTEN                           ,Software enable for performance monitoring Type: Control. Reset value: 0x0." "0,1"
group.long 0x10++0x3
line.long 0x00 "L3_STCOL_IGNORESUSPEND,"
bitfld.long 0x00 0. " IGNORESUSPEND                    ,Ignore suspend if set to one for suspend mechanism Type: Control. Reset value: 0x0." "0,1"
group.long 0x14++0x3
line.long 0x00 "L3_STCOL_TRIGEN,"
bitfld.long 0x00 0. " TRIGEN                           ,TrigEn when set, it enable the external trigger start and stop Type: Control. Reset value: 0x0." "0,1"
group.long 0x18++0x3
line.long 0x00 "L3_STCOL_REQEVT,"
bitfld.long 0x00 0.--3. " REQEVT                           ,Req event select Type: Control. Reset value: 0x0. - disabled. - all events. - transfers. - wayt cycle. - busy. - packet. - data. - idles. - latency." "disabled,all_events,transfers,wayt_cycle,busy,packet,data,idles,latency,9,10,11,12,13,14,15"
group.long 0x1C++0x3
line.long 0x00 "L3_STCOL_RSPEVT,"
bitfld.long 0x00 0.--3. " RSPEVT                           ,Rsp event select Type: Control. Reset value: 0x0. - disabled. - . - Collect transfers. - collect wait cycle. - collect busy. - collect packet. - Collect data. - Collect idles. - Collect latency." "disabled,1,Collect_transfers,collect_wait_cycle,collect_busy,collect_packet,Collect_data,Collect_idles,Collect_latency,9,10,11,12,13,14,15"
group.long 0x20++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL0,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL0                      ,The select of the mux 0 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x24++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL1,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL1                      ,The select of the mux 1 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x28++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL2,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL2                      ,The select of the mux 2 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x2C++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL3,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL3                      ,The select of the mux 3 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x30++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL4,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL4                      ,The select of the mux 4 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x34++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL5,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL5                      ,The select of the mux 5 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
rgroup.long 0x40++0x3
line.long 0x00 "L3_STCOL_DUMP_IDENTIFIER,"
bitfld.long 0x00 0.--3. " DUMP_IDENTIFIER                  ,Probe identifier Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x44++0x3
line.long 0x00 "L3_STCOL_DUMP_COLLECTTIME,"
hexmask.long 0x00 0.--31. 1. " DUMP_COLLECTTIME                 ,Number of cycle to wait between two statistics frame Type: Control. Reset value: 0x0."
rgroup.long 0x48++0x3
line.long 0x00 "L3_STCOL_DUMP_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " DUMP_SLVADDR                     ,Dump slave address Type: Control. Reset value: 0x19."
rgroup.long 0x4C++0x3
line.long 0x00 "L3_STCOL_DUMP_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " DUMP_MSTADDR                     ,Dump master address Type: Control. Reset value: 0xE0."
group.long 0x50++0x3
line.long 0x00 "L3_STCOL_DUMP_SLVOFS,"
hexmask.long 0x00 0.--31. 1. " DUMP_SLVOFS                      ,Dump slave offset Type: Control. Reset value: 0x800."
group.long 0x54++0x3
line.long 0x00 "L3_STCOL_DUMP_MODE,"
bitfld.long 0x00 1. " DUMP_MODE_CONDITIONAL            ,Define the stat conditional dump, if one a dump will be generated when alarm is trigged Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 0. "                   DUMP_MODE_MANUAL                         ,Define the dump mode: if != 0 the dump is controlled by the Send register. Type: Control. Reset value: 0x0." "0,1"
group.long 0x58++0x3
line.long 0x00 "L3_STCOL_DUMP_SEND,"
bitfld.long 0x00 0. " DUMP_SEND                        ,In manual mode, is used to send the dump content and initialize the counters. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
group.long 0x5C++0x3
line.long 0x00 "L3_STCOL_DUMP_DISABLE,"
bitfld.long 0x00 0. " DUMP_DISABLE                     ,If 1, the dump frame will be disabled, but counters still active.This is typically used when counters monitoring is enabled Type: Control. Reset value: 0x0." "0,1"
group.long 0x60++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_TRIG,"
bitfld.long 0x00 0. " DUMP_ALARM_TRIG                  ,In Alarm Mode, is used to reset Alarm Type: Take. Reset value: 0x0." "0,1"
group.long 0x64++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MINVAL,"
hexmask.long 0x00 0.--31. 1. " DUMP_ALARM_MINVAL                ,In Alarm Mode, used to trig an alert if any of counter value is less than AlarmMinVal Type: Control. Reset value: 0x0."
group.long 0x68++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MAXVAL,"
hexmask.long 0x00 0.--31. 1. " DUMP_ALARM_MAXVAL                ,In Alarm Mode, used to trig an alert if any of counter value is larger or equal to AlarmMaxVal Type: Control. Reset value: 0x0."
group.long 0x6C++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE0,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE0                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x70++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE1,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE1                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x74++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE2,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE2                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x78++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE3,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE3                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x7C++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE4,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE4                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x80++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE5,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE5                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
rgroup.long 0x8C++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT0,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT0                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0x90++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT1,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT1                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0x94++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT2,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT2                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0x98++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT3,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT3                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0x9C++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT4,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT4                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0xA0++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT5,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT5                        ,Dump counter value Type: Status. Reset value: X."
width 0x0B
tree.end
tree.open "CLK2_STATCOLL2"
tree "CLK2_STATCOLL2"
base ad:0x45003000
tree "Channel_0"
width 41.
group.long 0xB8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_0,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0xB4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_0,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0xB0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_0,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0xBC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_0,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0xAC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_0,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0xD0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_0,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0xC8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_0,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0xC0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_0,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0xD4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_0,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0xD8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_0,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0xCC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0xC4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_0,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0xF0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_0,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0xE8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_0,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0xE0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_0,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0xF4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_0,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0xF8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_0,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0xEC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_0,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xE4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_0,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x1F8++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_0,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x1FC++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_0,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x1F4++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_0,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x1F0++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_0,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_1"
width 41.
group.long 0x210++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_1,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x20C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_1,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x208++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_1,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x214++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_1,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x204++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_1,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x228++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_1,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x220++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_1,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x218++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_1,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x22C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_1,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x230++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_1,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x224++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_1,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0x21C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_1,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x248++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_1,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x240++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_1,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x238++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_1,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x24C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_1,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x250++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_1,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x244++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_1,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x23C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_1,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x350++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_1,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x354++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_1,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x34C++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_1,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x348++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_1,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_2"
width 41.
group.long 0x368++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_2,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x364++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_2,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x360++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_2,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x36C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_2,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x35C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_2,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x380++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_2,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x378++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_2,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x370++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_2,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x384++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_2,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x388++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_2,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x37C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_2,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0x374++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_2,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x3A0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_2,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x398++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_2,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x390++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_2,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x3A4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_2,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x3A8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_2,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x39C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_2,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x394++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_2,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x4A8++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_2,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x4AC++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_2,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4A4++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_2,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x4A0++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_2,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_3"
width 41.
group.long 0x4C0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_3,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x4BC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_3,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x4B8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_3,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x4C4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_3,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x4B4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_3,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x4D8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_3,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x4D0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_3,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x4C8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_3,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x4DC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_3,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x4E0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_3,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x4D4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_3,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0x4CC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_3,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x4F8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_3,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x4F0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_3,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x4E8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_3,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x4FC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_3,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x500++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_3,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x4F4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_3,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x4EC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_3,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x600++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_3,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x604++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_3,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5FC++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_3,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x5F8++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_3,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
textline ""
width 32.
group.long 0x0++0x3
line.long 0x00 "L3_STCOL_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x3A. (When the instance is CLK2_FLAGMUX_STATCOLL reset value is 0x37)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                  STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_STCOL_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x1."
hexmask.long.tbyte 0x00 0.--23. 1. "                  STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_STCOL_EN,"
bitfld.long 0x00 0. " EN                               ,Enable performance monitoring, this will also shut down the clock if En = 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0xC++0x3
line.long 0x00 "L3_STCOL_SOFTEN,"
bitfld.long 0x00 0. " SOFTEN                           ,Software enable for performance monitoring Type: Control. Reset value: 0x0." "0,1"
group.long 0x10++0x3
line.long 0x00 "L3_STCOL_IGNORESUSPEND,"
bitfld.long 0x00 0. " IGNORESUSPEND                    ,Ignore suspend if set to one for suspend mechanism Type: Control. Reset value: 0x0." "0,1"
group.long 0x14++0x3
line.long 0x00 "L3_STCOL_TRIGEN,"
bitfld.long 0x00 0. " TRIGEN                           ,TrigEn when set, it enable the external trigger start and stop Type: Control. Reset value: 0x0." "0,1"
group.long 0x18++0x3
line.long 0x00 "L3_STCOL_REQEVT,"
bitfld.long 0x00 0.--3. " REQEVT                           ,Req event select Type: Control. Reset value: 0x0. - disabled. - all events. - transfers. - wayt cycle. - busy. - packet. - data. - idles. - latency." "disabled,all_events,transfers,wayt_cycle,busy,packet,data,idles,latency,9,10,11,12,13,14,15"
group.long 0x1C++0x3
line.long 0x00 "L3_STCOL_RSPEVT,"
bitfld.long 0x00 0.--3. " RSPEVT                           ,Rsp event select Type: Control. Reset value: 0x0. - disabled. - . - Collect transfers. - collect wait cycle. - collect busy. - collect packet. - Collect data. - Collect idles. - Collect latency." "disabled,1,Collect_transfers,collect_wait_cycle,collect_busy,collect_packet,Collect_data,Collect_idles,Collect_latency,9,10,11,12,13,14,15"
group.long 0x20++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL0,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL0                      ,The select of the mux 0 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x24++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL1,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL1                      ,The select of the mux 1 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x28++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL2,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL2                      ,The select of the mux 2 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x2C++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL3,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL3                      ,The select of the mux 3 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
rgroup.long 0x40++0x3
line.long 0x00 "L3_STCOL_DUMP_IDENTIFIER,"
bitfld.long 0x00 0.--3. " DUMP_IDENTIFIER                  ,Probe identifier Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x44++0x3
line.long 0x00 "L3_STCOL_DUMP_COLLECTTIME,"
hexmask.long 0x00 0.--31. 1. " DUMP_COLLECTTIME                 ,Number of cycle to wait between two statistics frame Type: Control. Reset value: 0x0."
rgroup.long 0x48++0x3
line.long 0x00 "L3_STCOL_DUMP_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " DUMP_SLVADDR                     ,Dump slave address Type: Control. Reset value: 0x19."
rgroup.long 0x4C++0x3
line.long 0x00 "L3_STCOL_DUMP_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " DUMP_MSTADDR                     ,Dump master address Type: Control. Reset value: 0xE0."
group.long 0x50++0x3
line.long 0x00 "L3_STCOL_DUMP_SLVOFS,"
hexmask.long 0x00 0.--31. 1. " DUMP_SLVOFS                      ,Dump slave offset Type: Control. Reset value: 0x800."
group.long 0x54++0x3
line.long 0x00 "L3_STCOL_DUMP_MODE,"
bitfld.long 0x00 1. " DUMP_MODE_CONDITIONAL            ,Define the stat conditional dump, if one a dump will be generated when alarm is trigged Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 0. "                   DUMP_MODE_MANUAL                         ,Define the dump mode: if != 0 the dump is controlled by the Send register. Type: Control. Reset value: 0x0." "0,1"
group.long 0x58++0x3
line.long 0x00 "L3_STCOL_DUMP_SEND,"
bitfld.long 0x00 0. " DUMP_SEND                        ,In manual mode, is used to send the dump content and initialize the counters. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
group.long 0x5C++0x3
line.long 0x00 "L3_STCOL_DUMP_DISABLE,"
bitfld.long 0x00 0. " DUMP_DISABLE                     ,If 1, the dump frame will be disabled, but counters still active.This is typically used when counters monitoring is enabled Type: Control. Reset value: 0x0." "0,1"
group.long 0x60++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_TRIG,"
bitfld.long 0x00 0. " DUMP_ALARM_TRIG                  ,In Alarm Mode, is used to reset Alarm Type: Take. Reset value: 0x0." "0,1"
group.long 0x64++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MINVAL,"
hexmask.long 0x00 0.--31. 1. " DUMP_ALARM_MINVAL                ,In Alarm Mode, used to trig an alert if any of counter value is less than AlarmMinVal Type: Control. Reset value: 0x0."
group.long 0x68++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MAXVAL,"
hexmask.long 0x00 0.--31. 1. " DUMP_ALARM_MAXVAL                ,In Alarm Mode, used to trig an alert if any of counter value is larger or equal to AlarmMaxVal Type: Control. Reset value: 0x0."
group.long 0x6C++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE0,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE0                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x70++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE1,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE1                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x74++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE2,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE2                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x78++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE3,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE3                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
rgroup.long 0x8C++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT0,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT0                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0x90++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT1,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT1                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0x94++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT2,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT2                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0x98++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT3,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT3                        ,Dump counter value Type: Status. Reset value: X."
width 0x0B
tree.end
tree "CLK2_STATCOLL4"
base ad:0x45005000
tree "Channel_0"
width 41.
group.long 0xB8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_0,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0xB4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_0,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0xB0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_0,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0xBC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_0,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0xAC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_0,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0xD0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_0,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0xC8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_0,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0xC0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_0,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0xD4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_0,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0xD8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_0,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0xCC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0xC4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_0,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0xF0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_0,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0xE8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_0,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0xE0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_0,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0xF4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_0,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0xF8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_0,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0xEC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_0,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xE4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_0,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x1F8++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_0,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x1FC++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_0,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x1F4++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_0,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x1F0++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_0,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_1"
width 41.
group.long 0x210++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_1,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x20C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_1,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x208++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_1,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x214++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_1,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x204++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_1,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x228++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_1,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x220++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_1,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x218++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_1,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x22C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_1,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x230++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_1,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x224++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_1,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0x21C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_1,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x248++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_1,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x240++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_1,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x238++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_1,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x24C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_1,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x250++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_1,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x244++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_1,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x23C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_1,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x350++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_1,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x354++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_1,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x34C++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_1,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x348++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_1,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_2"
width 41.
group.long 0x368++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_2,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x364++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_2,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x360++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_2,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x36C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_2,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x35C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_2,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x380++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_2,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x378++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_2,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x370++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_2,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x384++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_2,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x388++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_2,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x37C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_2,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0x374++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_2,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x3A0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_2,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x398++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_2,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x390++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_2,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x3A4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_2,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x3A8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_2,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x39C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_2,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x394++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_2,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x4A8++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_2,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x4AC++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_2,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4A4++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_2,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x4A0++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_2,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_3"
width 41.
group.long 0x4C0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_3,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x4BC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_3,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x4B8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_3,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x4C4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_3,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x4B4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_3,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x4D8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_3,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x4D0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_3,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x4C8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_3,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x4DC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_3,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x4E0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_3,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x4D4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_3,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0x4CC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_3,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x4F8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_3,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x4F0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_3,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x4E8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_3,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x4FC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_3,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x500++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_3,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x4F4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_3,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x4EC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_3,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x600++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_3,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x604++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_3,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5FC++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_3,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x5F8++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_3,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
textline ""
width 32.
group.long 0x0++0x3
line.long 0x00 "L3_STCOL_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x3A. (When the instance is CLK2_FLAGMUX_STATCOLL reset value is 0x37)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                  STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_STCOL_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x1."
hexmask.long.tbyte 0x00 0.--23. 1. "                  STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_STCOL_EN,"
bitfld.long 0x00 0. " EN                               ,Enable performance monitoring, this will also shut down the clock if En = 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0xC++0x3
line.long 0x00 "L3_STCOL_SOFTEN,"
bitfld.long 0x00 0. " SOFTEN                           ,Software enable for performance monitoring Type: Control. Reset value: 0x0." "0,1"
group.long 0x10++0x3
line.long 0x00 "L3_STCOL_IGNORESUSPEND,"
bitfld.long 0x00 0. " IGNORESUSPEND                    ,Ignore suspend if set to one for suspend mechanism Type: Control. Reset value: 0x0." "0,1"
group.long 0x14++0x3
line.long 0x00 "L3_STCOL_TRIGEN,"
bitfld.long 0x00 0. " TRIGEN                           ,TrigEn when set, it enable the external trigger start and stop Type: Control. Reset value: 0x0." "0,1"
group.long 0x18++0x3
line.long 0x00 "L3_STCOL_REQEVT,"
bitfld.long 0x00 0.--3. " REQEVT                           ,Req event select Type: Control. Reset value: 0x0. - disabled. - all events. - transfers. - wayt cycle. - busy. - packet. - data. - idles. - latency." "disabled,all_events,transfers,wayt_cycle,busy,packet,data,idles,latency,9,10,11,12,13,14,15"
group.long 0x1C++0x3
line.long 0x00 "L3_STCOL_RSPEVT,"
bitfld.long 0x00 0.--3. " RSPEVT                           ,Rsp event select Type: Control. Reset value: 0x0. - disabled. - . - Collect transfers. - collect wait cycle. - collect busy. - collect packet. - Collect data. - Collect idles. - Collect latency." "disabled,1,Collect_transfers,collect_wait_cycle,collect_busy,collect_packet,Collect_data,Collect_idles,Collect_latency,9,10,11,12,13,14,15"
group.long 0x20++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL0,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL0                      ,The select of the mux 0 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x24++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL1,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL1                      ,The select of the mux 1 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x28++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL2,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL2                      ,The select of the mux 2 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x2C++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL3,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL3                      ,The select of the mux 3 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
rgroup.long 0x40++0x3
line.long 0x00 "L3_STCOL_DUMP_IDENTIFIER,"
bitfld.long 0x00 0.--3. " DUMP_IDENTIFIER                  ,Probe identifier Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x44++0x3
line.long 0x00 "L3_STCOL_DUMP_COLLECTTIME,"
hexmask.long 0x00 0.--31. 1. " DUMP_COLLECTTIME                 ,Number of cycle to wait between two statistics frame Type: Control. Reset value: 0x0."
rgroup.long 0x48++0x3
line.long 0x00 "L3_STCOL_DUMP_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " DUMP_SLVADDR                     ,Dump slave address Type: Control. Reset value: 0x19."
rgroup.long 0x4C++0x3
line.long 0x00 "L3_STCOL_DUMP_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " DUMP_MSTADDR                     ,Dump master address Type: Control. Reset value: 0xE0."
group.long 0x50++0x3
line.long 0x00 "L3_STCOL_DUMP_SLVOFS,"
hexmask.long 0x00 0.--31. 1. " DUMP_SLVOFS                      ,Dump slave offset Type: Control. Reset value: 0x800."
group.long 0x54++0x3
line.long 0x00 "L3_STCOL_DUMP_MODE,"
bitfld.long 0x00 1. " DUMP_MODE_CONDITIONAL            ,Define the stat conditional dump, if one a dump will be generated when alarm is trigged Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 0. "                   DUMP_MODE_MANUAL                         ,Define the dump mode: if != 0 the dump is controlled by the Send register. Type: Control. Reset value: 0x0." "0,1"
group.long 0x58++0x3
line.long 0x00 "L3_STCOL_DUMP_SEND,"
bitfld.long 0x00 0. " DUMP_SEND                        ,In manual mode, is used to send the dump content and initialize the counters. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
group.long 0x5C++0x3
line.long 0x00 "L3_STCOL_DUMP_DISABLE,"
bitfld.long 0x00 0. " DUMP_DISABLE                     ,If 1, the dump frame will be disabled, but counters still active.This is typically used when counters monitoring is enabled Type: Control. Reset value: 0x0." "0,1"
group.long 0x60++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_TRIG,"
bitfld.long 0x00 0. " DUMP_ALARM_TRIG                  ,In Alarm Mode, is used to reset Alarm Type: Take. Reset value: 0x0." "0,1"
group.long 0x64++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MINVAL,"
hexmask.long 0x00 0.--31. 1. " DUMP_ALARM_MINVAL                ,In Alarm Mode, used to trig an alert if any of counter value is less than AlarmMinVal Type: Control. Reset value: 0x0."
group.long 0x68++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MAXVAL,"
hexmask.long 0x00 0.--31. 1. " DUMP_ALARM_MAXVAL                ,In Alarm Mode, used to trig an alert if any of counter value is larger or equal to AlarmMaxVal Type: Control. Reset value: 0x0."
group.long 0x6C++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE0,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE0                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x70++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE1,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE1                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x74++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE2,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE2                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x78++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE3,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE3                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
rgroup.long 0x8C++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT0,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT0                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0x90++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT1,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT1                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0x94++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT2,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT2                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0x98++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT3,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT3                        ,Dump counter value Type: Status. Reset value: X."
width 0x0B
tree.end
tree "CLK2_STATCOLL6"
base ad:0x45007000
tree "Channel_0"
width 41.
group.long 0xB8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_0,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0xB4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_0,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0xB0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_0,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0xBC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_0,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0xAC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_0,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0xD0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_0,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0xC8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_0,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0xC0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_0,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0xD4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_0,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0xD8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_0,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0xCC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0xC4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_0,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0xF0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_0,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0xE8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_0,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0xE0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_0,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0xF4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_0,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0xF8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_0,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0xEC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_0,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xE4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_0,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x1F8++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_0,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x1FC++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_0,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x1F4++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_0,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x1F0++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_0,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_1"
width 41.
group.long 0x210++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_1,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x20C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_1,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x208++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_1,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x214++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_1,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x204++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_1,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x228++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_1,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x220++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_1,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x218++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_1,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x22C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_1,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x230++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_1,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x224++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_1,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0x21C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_1,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x248++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_1,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x240++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_1,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x238++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_1,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x24C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_1,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x250++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_1,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x244++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_1,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x23C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_1,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x350++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_1,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x354++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_1,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x34C++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_1,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x348++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_1,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_2"
width 41.
group.long 0x368++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_2,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x364++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_2,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x360++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_2,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x36C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_2,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x35C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_2,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x380++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_2,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x378++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_2,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x370++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_2,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x384++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_2,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x388++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_2,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x37C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_2,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0x374++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_2,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x3A0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_2,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x398++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_2,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x390++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_2,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x3A4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_2,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x3A8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_2,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x39C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_2,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x394++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_2,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x4A8++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_2,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x4AC++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_2,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4A4++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_2,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x4A0++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_2,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_3"
width 41.
group.long 0x4C0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_3,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x4BC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_3,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x4B8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_3,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x4C4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_3,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x4B4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_3,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x4D8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_3,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x4D0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_3,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x4C8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_3,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x4DC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_3,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x4E0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_3,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x4D4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_3,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0x4CC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_3,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x4F8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_3,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x4F0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_3,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x4E8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_3,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x4FC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_3,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x500++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_3,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x4F4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_3,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x4EC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_3,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x600++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_3,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x604++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_3,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5FC++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_3,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x5F8++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_3,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
textline ""
width 32.
group.long 0x0++0x3
line.long 0x00 "L3_STCOL_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x3A. (When the instance is CLK2_FLAGMUX_STATCOLL reset value is 0x37)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                  STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_STCOL_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x1."
hexmask.long.tbyte 0x00 0.--23. 1. "                  STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_STCOL_EN,"
bitfld.long 0x00 0. " EN                               ,Enable performance monitoring, this will also shut down the clock if En = 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0xC++0x3
line.long 0x00 "L3_STCOL_SOFTEN,"
bitfld.long 0x00 0. " SOFTEN                           ,Software enable for performance monitoring Type: Control. Reset value: 0x0." "0,1"
group.long 0x10++0x3
line.long 0x00 "L3_STCOL_IGNORESUSPEND,"
bitfld.long 0x00 0. " IGNORESUSPEND                    ,Ignore suspend if set to one for suspend mechanism Type: Control. Reset value: 0x0." "0,1"
group.long 0x14++0x3
line.long 0x00 "L3_STCOL_TRIGEN,"
bitfld.long 0x00 0. " TRIGEN                           ,TrigEn when set, it enable the external trigger start and stop Type: Control. Reset value: 0x0." "0,1"
group.long 0x18++0x3
line.long 0x00 "L3_STCOL_REQEVT,"
bitfld.long 0x00 0.--3. " REQEVT                           ,Req event select Type: Control. Reset value: 0x0. - disabled. - all events. - transfers. - wayt cycle. - busy. - packet. - data. - idles. - latency." "disabled,all_events,transfers,wayt_cycle,busy,packet,data,idles,latency,9,10,11,12,13,14,15"
group.long 0x1C++0x3
line.long 0x00 "L3_STCOL_RSPEVT,"
bitfld.long 0x00 0.--3. " RSPEVT                           ,Rsp event select Type: Control. Reset value: 0x0. - disabled. - . - Collect transfers. - collect wait cycle. - collect busy. - collect packet. - Collect data. - Collect idles. - Collect latency." "disabled,1,Collect_transfers,collect_wait_cycle,collect_busy,collect_packet,Collect_data,Collect_idles,Collect_latency,9,10,11,12,13,14,15"
group.long 0x20++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL0,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL0                      ,The select of the mux 0 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x24++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL1,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL1                      ,The select of the mux 1 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x28++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL2,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL2                      ,The select of the mux 2 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x2C++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL3,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL3                      ,The select of the mux 3 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
rgroup.long 0x40++0x3
line.long 0x00 "L3_STCOL_DUMP_IDENTIFIER,"
bitfld.long 0x00 0.--3. " DUMP_IDENTIFIER                  ,Probe identifier Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x44++0x3
line.long 0x00 "L3_STCOL_DUMP_COLLECTTIME,"
hexmask.long 0x00 0.--31. 1. " DUMP_COLLECTTIME                 ,Number of cycle to wait between two statistics frame Type: Control. Reset value: 0x0."
rgroup.long 0x48++0x3
line.long 0x00 "L3_STCOL_DUMP_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " DUMP_SLVADDR                     ,Dump slave address Type: Control. Reset value: 0x19."
rgroup.long 0x4C++0x3
line.long 0x00 "L3_STCOL_DUMP_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " DUMP_MSTADDR                     ,Dump master address Type: Control. Reset value: 0xE0."
group.long 0x50++0x3
line.long 0x00 "L3_STCOL_DUMP_SLVOFS,"
hexmask.long 0x00 0.--31. 1. " DUMP_SLVOFS                      ,Dump slave offset Type: Control. Reset value: 0x800."
group.long 0x54++0x3
line.long 0x00 "L3_STCOL_DUMP_MODE,"
bitfld.long 0x00 1. " DUMP_MODE_CONDITIONAL            ,Define the stat conditional dump, if one a dump will be generated when alarm is trigged Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 0. "                   DUMP_MODE_MANUAL                         ,Define the dump mode: if != 0 the dump is controlled by the Send register. Type: Control. Reset value: 0x0." "0,1"
group.long 0x58++0x3
line.long 0x00 "L3_STCOL_DUMP_SEND,"
bitfld.long 0x00 0. " DUMP_SEND                        ,In manual mode, is used to send the dump content and initialize the counters. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
group.long 0x5C++0x3
line.long 0x00 "L3_STCOL_DUMP_DISABLE,"
bitfld.long 0x00 0. " DUMP_DISABLE                     ,If 1, the dump frame will be disabled, but counters still active.This is typically used when counters monitoring is enabled Type: Control. Reset value: 0x0." "0,1"
group.long 0x60++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_TRIG,"
bitfld.long 0x00 0. " DUMP_ALARM_TRIG                  ,In Alarm Mode, is used to reset Alarm Type: Take. Reset value: 0x0." "0,1"
group.long 0x64++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MINVAL,"
hexmask.long 0x00 0.--31. 1. " DUMP_ALARM_MINVAL                ,In Alarm Mode, used to trig an alert if any of counter value is less than AlarmMinVal Type: Control. Reset value: 0x0."
group.long 0x68++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MAXVAL,"
hexmask.long 0x00 0.--31. 1. " DUMP_ALARM_MAXVAL                ,In Alarm Mode, used to trig an alert if any of counter value is larger or equal to AlarmMaxVal Type: Control. Reset value: 0x0."
group.long 0x6C++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE0,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE0                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x70++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE1,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE1                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x74++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE2,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE2                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x78++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE3,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE3                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
rgroup.long 0x8C++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT0,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT0                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0x90++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT1,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT1                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0x94++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT2,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT2                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0x98++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT3,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT3                        ,Dump counter value Type: Status. Reset value: X."
width 0x0B
tree.end
tree "CLK2_STATCOLL7"
base ad:0x45008000
tree "Channel_0"
width 41.
group.long 0xB8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_0,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0xB4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_0,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0xB0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_0,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0xBC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_0,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0xAC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_0,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0xD0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_0,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0xC8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_0,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0xC0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_0,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0xD4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_0,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0xD8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_0,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0xCC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0xC4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_0,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0xF0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_0,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0xE8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_0,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0xE0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_0,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0xF4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_0,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0xF8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_0,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0xEC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_0,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xE4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_0,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x1F8++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_0,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x1FC++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_0,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x1F4++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_0,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x1F0++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_0,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_1"
width 41.
group.long 0x210++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_1,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x20C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_1,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x208++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_1,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x214++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_1,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x204++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_1,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x228++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_1,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x220++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_1,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x218++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_1,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x22C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_1,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x230++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_1,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x224++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_1,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0x21C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_1,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x248++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_1,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x240++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_1,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x238++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_1,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x24C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_1,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x250++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_1,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x244++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_1,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x23C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_1,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x350++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_1,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x354++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_1,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x34C++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_1,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x348++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_1,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_2"
width 41.
group.long 0x368++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_2,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x364++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_2,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x360++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_2,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x36C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_2,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x35C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_2,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x380++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_2,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x378++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_2,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x370++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_2,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x384++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_2,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x388++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_2,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x37C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_2,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0x374++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_2,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x3A0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_2,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x398++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_2,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x390++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_2,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x3A4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_2,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x3A8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_2,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x39C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_2,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x394++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_2,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x4A8++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_2,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x4AC++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_2,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4A4++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_2,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x4A0++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_2,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_3"
width 41.
group.long 0x4C0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_3,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x4BC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_3,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x4B8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_3,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x4C4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_3,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x4B4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_3,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x4D8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_3,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x4D0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_3,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x4C8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_3,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x4DC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_3,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x4E0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_3,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x4D4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_3,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0x4CC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_3,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x4F8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_3,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x4F0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_3,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x4E8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_3,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x4FC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_3,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x500++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_3,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x4F4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_3,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x4EC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_3,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x600++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_3,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x604++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_3,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5FC++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_3,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x5F8++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_3,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
textline ""
width 32.
group.long 0x0++0x3
line.long 0x00 "L3_STCOL_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x3A. (When the instance is CLK2_FLAGMUX_STATCOLL reset value is 0x37)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                  STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_STCOL_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x1."
hexmask.long.tbyte 0x00 0.--23. 1. "                  STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_STCOL_EN,"
bitfld.long 0x00 0. " EN                               ,Enable performance monitoring, this will also shut down the clock if En = 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0xC++0x3
line.long 0x00 "L3_STCOL_SOFTEN,"
bitfld.long 0x00 0. " SOFTEN                           ,Software enable for performance monitoring Type: Control. Reset value: 0x0." "0,1"
group.long 0x10++0x3
line.long 0x00 "L3_STCOL_IGNORESUSPEND,"
bitfld.long 0x00 0. " IGNORESUSPEND                    ,Ignore suspend if set to one for suspend mechanism Type: Control. Reset value: 0x0." "0,1"
group.long 0x14++0x3
line.long 0x00 "L3_STCOL_TRIGEN,"
bitfld.long 0x00 0. " TRIGEN                           ,TrigEn when set, it enable the external trigger start and stop Type: Control. Reset value: 0x0." "0,1"
group.long 0x18++0x3
line.long 0x00 "L3_STCOL_REQEVT,"
bitfld.long 0x00 0.--3. " REQEVT                           ,Req event select Type: Control. Reset value: 0x0. - disabled. - all events. - transfers. - wayt cycle. - busy. - packet. - data. - idles. - latency." "disabled,all_events,transfers,wayt_cycle,busy,packet,data,idles,latency,9,10,11,12,13,14,15"
group.long 0x1C++0x3
line.long 0x00 "L3_STCOL_RSPEVT,"
bitfld.long 0x00 0.--3. " RSPEVT                           ,Rsp event select Type: Control. Reset value: 0x0. - disabled. - . - Collect transfers. - collect wait cycle. - collect busy. - collect packet. - Collect data. - Collect idles. - Collect latency." "disabled,1,Collect_transfers,collect_wait_cycle,collect_busy,collect_packet,Collect_data,Collect_idles,Collect_latency,9,10,11,12,13,14,15"
group.long 0x20++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL0,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL0                      ,The select of the mux 0 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x24++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL1,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL1                      ,The select of the mux 1 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x28++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL2,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL2                      ,The select of the mux 2 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x2C++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL3,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL3                      ,The select of the mux 3 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
rgroup.long 0x40++0x3
line.long 0x00 "L3_STCOL_DUMP_IDENTIFIER,"
bitfld.long 0x00 0.--3. " DUMP_IDENTIFIER                  ,Probe identifier Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x44++0x3
line.long 0x00 "L3_STCOL_DUMP_COLLECTTIME,"
hexmask.long 0x00 0.--31. 1. " DUMP_COLLECTTIME                 ,Number of cycle to wait between two statistics frame Type: Control. Reset value: 0x0."
rgroup.long 0x48++0x3
line.long 0x00 "L3_STCOL_DUMP_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " DUMP_SLVADDR                     ,Dump slave address Type: Control. Reset value: 0x19."
rgroup.long 0x4C++0x3
line.long 0x00 "L3_STCOL_DUMP_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " DUMP_MSTADDR                     ,Dump master address Type: Control. Reset value: 0xE0."
group.long 0x50++0x3
line.long 0x00 "L3_STCOL_DUMP_SLVOFS,"
hexmask.long 0x00 0.--31. 1. " DUMP_SLVOFS                      ,Dump slave offset Type: Control. Reset value: 0x800."
group.long 0x54++0x3
line.long 0x00 "L3_STCOL_DUMP_MODE,"
bitfld.long 0x00 1. " DUMP_MODE_CONDITIONAL            ,Define the stat conditional dump, if one a dump will be generated when alarm is trigged Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 0. "                   DUMP_MODE_MANUAL                         ,Define the dump mode: if != 0 the dump is controlled by the Send register. Type: Control. Reset value: 0x0." "0,1"
group.long 0x58++0x3
line.long 0x00 "L3_STCOL_DUMP_SEND,"
bitfld.long 0x00 0. " DUMP_SEND                        ,In manual mode, is used to send the dump content and initialize the counters. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
group.long 0x5C++0x3
line.long 0x00 "L3_STCOL_DUMP_DISABLE,"
bitfld.long 0x00 0. " DUMP_DISABLE                     ,If 1, the dump frame will be disabled, but counters still active.This is typically used when counters monitoring is enabled Type: Control. Reset value: 0x0." "0,1"
group.long 0x60++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_TRIG,"
bitfld.long 0x00 0. " DUMP_ALARM_TRIG                  ,In Alarm Mode, is used to reset Alarm Type: Take. Reset value: 0x0." "0,1"
group.long 0x64++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MINVAL,"
hexmask.long 0x00 0.--31. 1. " DUMP_ALARM_MINVAL                ,In Alarm Mode, used to trig an alert if any of counter value is less than AlarmMinVal Type: Control. Reset value: 0x0."
group.long 0x68++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MAXVAL,"
hexmask.long 0x00 0.--31. 1. " DUMP_ALARM_MAXVAL                ,In Alarm Mode, used to trig an alert if any of counter value is larger or equal to AlarmMaxVal Type: Control. Reset value: 0x0."
group.long 0x6C++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE0,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE0                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x70++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE1,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE1                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x74++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE2,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE2                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x78++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE3,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE3                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
rgroup.long 0x8C++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT0,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT0                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0x90++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT1,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT1                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0x94++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT2,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT2                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0x98++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT3,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT3                        ,Dump counter value Type: Status. Reset value: X."
width 0x0B
tree.end
tree "CLK2_STATCOLL8"
base ad:0x45009000
tree "Channel_0"
width 41.
group.long 0xB8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_0,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0xB4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_0,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0xB0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_0,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0xBC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_0,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0xAC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_0,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0xD0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_0,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0xC8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_0,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0xC0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_0,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0xD4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_0,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0xD8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_0,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0xCC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0xC4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_0,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0xF0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_0,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0xE8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_0,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0xE0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_0,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0xF4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_0,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0xF8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_0,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0xEC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_0,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xE4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_0,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x1F8++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_0,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x1FC++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_0,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x1F4++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_0,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x1F0++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_0,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_1"
width 41.
group.long 0x210++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_1,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x20C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_1,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x208++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_1,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x214++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_1,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x204++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_1,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x228++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_1,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x220++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_1,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x218++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_1,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x22C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_1,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x230++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_1,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x224++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_1,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0x21C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_1,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x248++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_1,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x240++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_1,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x238++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_1,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x24C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_1,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x250++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_1,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x244++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_1,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x23C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_1,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x350++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_1,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x354++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_1,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x34C++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_1,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x348++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_1,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_2"
width 41.
group.long 0x368++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_2,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x364++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_2,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x360++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_2,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x36C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_2,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x35C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_2,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x380++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_2,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x378++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_2,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x370++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_2,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x384++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_2,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x388++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_2,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x37C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_2,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0x374++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_2,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x3A0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_2,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x398++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_2,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x390++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_2,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x3A4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_2,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x3A8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_2,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x39C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_2,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x394++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_2,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x4A8++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_2,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x4AC++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_2,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4A4++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_2,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x4A0++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_2,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_3"
width 41.
group.long 0x4C0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_3,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x4BC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_3,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x4B8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_3,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x4C4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_3,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x4B4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_3,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x4D8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_3,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x4D0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_3,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x4C8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_3,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x4DC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_3,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x4E0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_3,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x4D4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_3,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0x4CC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_3,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x4F8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_3,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x4F0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_3,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x4E8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_3,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x4FC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_3,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x500++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_3,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x4F4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_3,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x4EC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_3,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x600++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_3,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x604++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_3,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5FC++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_3,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x5F8++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_3,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
textline ""
width 32.
group.long 0x0++0x3
line.long 0x00 "L3_STCOL_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x3A. (When the instance is CLK2_FLAGMUX_STATCOLL reset value is 0x37)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                  STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_STCOL_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x1."
hexmask.long.tbyte 0x00 0.--23. 1. "                  STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_STCOL_EN,"
bitfld.long 0x00 0. " EN                               ,Enable performance monitoring, this will also shut down the clock if En = 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0xC++0x3
line.long 0x00 "L3_STCOL_SOFTEN,"
bitfld.long 0x00 0. " SOFTEN                           ,Software enable for performance monitoring Type: Control. Reset value: 0x0." "0,1"
group.long 0x10++0x3
line.long 0x00 "L3_STCOL_IGNORESUSPEND,"
bitfld.long 0x00 0. " IGNORESUSPEND                    ,Ignore suspend if set to one for suspend mechanism Type: Control. Reset value: 0x0." "0,1"
group.long 0x14++0x3
line.long 0x00 "L3_STCOL_TRIGEN,"
bitfld.long 0x00 0. " TRIGEN                           ,TrigEn when set, it enable the external trigger start and stop Type: Control. Reset value: 0x0." "0,1"
group.long 0x18++0x3
line.long 0x00 "L3_STCOL_REQEVT,"
bitfld.long 0x00 0.--3. " REQEVT                           ,Req event select Type: Control. Reset value: 0x0. - disabled. - all events. - transfers. - wayt cycle. - busy. - packet. - data. - idles. - latency." "disabled,all_events,transfers,wayt_cycle,busy,packet,data,idles,latency,9,10,11,12,13,14,15"
group.long 0x1C++0x3
line.long 0x00 "L3_STCOL_RSPEVT,"
bitfld.long 0x00 0.--3. " RSPEVT                           ,Rsp event select Type: Control. Reset value: 0x0. - disabled. - . - Collect transfers. - collect wait cycle. - collect busy. - collect packet. - Collect data. - Collect idles. - Collect latency." "disabled,1,Collect_transfers,collect_wait_cycle,collect_busy,collect_packet,Collect_data,Collect_idles,Collect_latency,9,10,11,12,13,14,15"
group.long 0x20++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL0,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL0                      ,The select of the mux 0 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x24++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL1,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL1                      ,The select of the mux 1 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x28++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL2,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL2                      ,The select of the mux 2 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x2C++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL3,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL3                      ,The select of the mux 3 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
rgroup.long 0x40++0x3
line.long 0x00 "L3_STCOL_DUMP_IDENTIFIER,"
bitfld.long 0x00 0.--3. " DUMP_IDENTIFIER                  ,Probe identifier Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x44++0x3
line.long 0x00 "L3_STCOL_DUMP_COLLECTTIME,"
hexmask.long 0x00 0.--31. 1. " DUMP_COLLECTTIME                 ,Number of cycle to wait between two statistics frame Type: Control. Reset value: 0x0."
rgroup.long 0x48++0x3
line.long 0x00 "L3_STCOL_DUMP_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " DUMP_SLVADDR                     ,Dump slave address Type: Control. Reset value: 0x19."
rgroup.long 0x4C++0x3
line.long 0x00 "L3_STCOL_DUMP_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " DUMP_MSTADDR                     ,Dump master address Type: Control. Reset value: 0xE0."
group.long 0x50++0x3
line.long 0x00 "L3_STCOL_DUMP_SLVOFS,"
hexmask.long 0x00 0.--31. 1. " DUMP_SLVOFS                      ,Dump slave offset Type: Control. Reset value: 0x800."
group.long 0x54++0x3
line.long 0x00 "L3_STCOL_DUMP_MODE,"
bitfld.long 0x00 1. " DUMP_MODE_CONDITIONAL            ,Define the stat conditional dump, if one a dump will be generated when alarm is trigged Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 0. "                   DUMP_MODE_MANUAL                         ,Define the dump mode: if != 0 the dump is controlled by the Send register. Type: Control. Reset value: 0x0." "0,1"
group.long 0x58++0x3
line.long 0x00 "L3_STCOL_DUMP_SEND,"
bitfld.long 0x00 0. " DUMP_SEND                        ,In manual mode, is used to send the dump content and initialize the counters. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
group.long 0x5C++0x3
line.long 0x00 "L3_STCOL_DUMP_DISABLE,"
bitfld.long 0x00 0. " DUMP_DISABLE                     ,If 1, the dump frame will be disabled, but counters still active.This is typically used when counters monitoring is enabled Type: Control. Reset value: 0x0." "0,1"
group.long 0x60++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_TRIG,"
bitfld.long 0x00 0. " DUMP_ALARM_TRIG                  ,In Alarm Mode, is used to reset Alarm Type: Take. Reset value: 0x0." "0,1"
group.long 0x64++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MINVAL,"
hexmask.long 0x00 0.--31. 1. " DUMP_ALARM_MINVAL                ,In Alarm Mode, used to trig an alert if any of counter value is less than AlarmMinVal Type: Control. Reset value: 0x0."
group.long 0x68++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MAXVAL,"
hexmask.long 0x00 0.--31. 1. " DUMP_ALARM_MAXVAL                ,In Alarm Mode, used to trig an alert if any of counter value is larger or equal to AlarmMaxVal Type: Control. Reset value: 0x0."
group.long 0x6C++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE0,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE0                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x70++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE1,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE1                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x74++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE2,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE2                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x78++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE3,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE3                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
rgroup.long 0x8C++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT0,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT0                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0x90++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT1,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT1                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0x94++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT2,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT2                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0x98++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT3,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT3                        ,Dump counter value Type: Status. Reset value: X."
width 0x0B
tree.end
tree "CLK2_STATCOLL9"
base ad:0x4500A000
tree "Channel_0"
width 41.
group.long 0xB8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_0,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0xB4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_0,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0xB0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_0,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0xBC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_0,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0xAC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_0,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0xD0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_0,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0xC8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_0,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0xC0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_0,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0xD4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_0,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0xD8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_0,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0xCC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0xC4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_0,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0xF0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_0,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0xE8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_0,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0xE0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_0,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0xF4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_0,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0xF8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_0,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0xEC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_0,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xE4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_0,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x1F8++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_0,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x1FC++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_0,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x1F4++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_0,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x1F0++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_0,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_1"
width 41.
group.long 0x210++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_1,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x20C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_1,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x208++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_1,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x214++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_1,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x204++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_1,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x228++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_1,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x220++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_1,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x218++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_1,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x22C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_1,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x230++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_1,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x224++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_1,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0x21C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_1,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x248++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_1,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x240++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_1,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x238++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_1,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x24C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_1,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x250++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_1,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x244++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_1,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x23C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_1,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x350++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_1,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x354++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_1,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x34C++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_1,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x348++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_1,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_2"
width 41.
group.long 0x368++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_2,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x364++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_2,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x360++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_2,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x36C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_2,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x35C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_2,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x380++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_2,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x378++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_2,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x370++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_2,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x384++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_2,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x388++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_2,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x37C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_2,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0x374++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_2,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x3A0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_2,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x398++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_2,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x390++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_2,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x3A4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_2,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x3A8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_2,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x39C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_2,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x394++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_2,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x4A8++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_2,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x4AC++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_2,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4A4++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_2,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x4A0++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_2,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_3"
width 41.
group.long 0x4C0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_3,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x4BC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_3,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x4B8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_3,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x4C4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_3,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x4B4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_3,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x4D8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_3,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x4D0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_3,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x4C8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_3,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x4DC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_3,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x4E0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_3,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x4D4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_3,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0x4CC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_3,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x4F8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_3,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x4F0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_3,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x4E8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_3,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x4FC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_3,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x500++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_3,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x4F4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_3,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x4EC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_3,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x600++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_3,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x604++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_3,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5FC++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_3,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x5F8++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_3,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
textline ""
width 32.
group.long 0x0++0x3
line.long 0x00 "L3_STCOL_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x3A. (When the instance is CLK2_FLAGMUX_STATCOLL reset value is 0x37)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                  STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_STCOL_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x1."
hexmask.long.tbyte 0x00 0.--23. 1. "                  STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_STCOL_EN,"
bitfld.long 0x00 0. " EN                               ,Enable performance monitoring, this will also shut down the clock if En = 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0xC++0x3
line.long 0x00 "L3_STCOL_SOFTEN,"
bitfld.long 0x00 0. " SOFTEN                           ,Software enable for performance monitoring Type: Control. Reset value: 0x0." "0,1"
group.long 0x10++0x3
line.long 0x00 "L3_STCOL_IGNORESUSPEND,"
bitfld.long 0x00 0. " IGNORESUSPEND                    ,Ignore suspend if set to one for suspend mechanism Type: Control. Reset value: 0x0." "0,1"
group.long 0x14++0x3
line.long 0x00 "L3_STCOL_TRIGEN,"
bitfld.long 0x00 0. " TRIGEN                           ,TrigEn when set, it enable the external trigger start and stop Type: Control. Reset value: 0x0." "0,1"
group.long 0x18++0x3
line.long 0x00 "L3_STCOL_REQEVT,"
bitfld.long 0x00 0.--3. " REQEVT                           ,Req event select Type: Control. Reset value: 0x0. - disabled. - all events. - transfers. - wayt cycle. - busy. - packet. - data. - idles. - latency." "disabled,all_events,transfers,wayt_cycle,busy,packet,data,idles,latency,9,10,11,12,13,14,15"
group.long 0x1C++0x3
line.long 0x00 "L3_STCOL_RSPEVT,"
bitfld.long 0x00 0.--3. " RSPEVT                           ,Rsp event select Type: Control. Reset value: 0x0. - disabled. - . - Collect transfers. - collect wait cycle. - collect busy. - collect packet. - Collect data. - Collect idles. - Collect latency." "disabled,1,Collect_transfers,collect_wait_cycle,collect_busy,collect_packet,Collect_data,Collect_idles,Collect_latency,9,10,11,12,13,14,15"
group.long 0x20++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL0,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL0                      ,The select of the mux 0 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x24++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL1,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL1                      ,The select of the mux 1 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x28++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL2,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL2                      ,The select of the mux 2 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x2C++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL3,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL3                      ,The select of the mux 3 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
rgroup.long 0x40++0x3
line.long 0x00 "L3_STCOL_DUMP_IDENTIFIER,"
bitfld.long 0x00 0.--3. " DUMP_IDENTIFIER                  ,Probe identifier Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x44++0x3
line.long 0x00 "L3_STCOL_DUMP_COLLECTTIME,"
hexmask.long 0x00 0.--31. 1. " DUMP_COLLECTTIME                 ,Number of cycle to wait between two statistics frame Type: Control. Reset value: 0x0."
rgroup.long 0x48++0x3
line.long 0x00 "L3_STCOL_DUMP_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " DUMP_SLVADDR                     ,Dump slave address Type: Control. Reset value: 0x19."
rgroup.long 0x4C++0x3
line.long 0x00 "L3_STCOL_DUMP_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " DUMP_MSTADDR                     ,Dump master address Type: Control. Reset value: 0xE0."
group.long 0x50++0x3
line.long 0x00 "L3_STCOL_DUMP_SLVOFS,"
hexmask.long 0x00 0.--31. 1. " DUMP_SLVOFS                      ,Dump slave offset Type: Control. Reset value: 0x800."
group.long 0x54++0x3
line.long 0x00 "L3_STCOL_DUMP_MODE,"
bitfld.long 0x00 1. " DUMP_MODE_CONDITIONAL            ,Define the stat conditional dump, if one a dump will be generated when alarm is trigged Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 0. "                   DUMP_MODE_MANUAL                         ,Define the dump mode: if != 0 the dump is controlled by the Send register. Type: Control. Reset value: 0x0." "0,1"
group.long 0x58++0x3
line.long 0x00 "L3_STCOL_DUMP_SEND,"
bitfld.long 0x00 0. " DUMP_SEND                        ,In manual mode, is used to send the dump content and initialize the counters. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
group.long 0x5C++0x3
line.long 0x00 "L3_STCOL_DUMP_DISABLE,"
bitfld.long 0x00 0. " DUMP_DISABLE                     ,If 1, the dump frame will be disabled, but counters still active.This is typically used when counters monitoring is enabled Type: Control. Reset value: 0x0." "0,1"
group.long 0x60++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_TRIG,"
bitfld.long 0x00 0. " DUMP_ALARM_TRIG                  ,In Alarm Mode, is used to reset Alarm Type: Take. Reset value: 0x0." "0,1"
group.long 0x64++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MINVAL,"
hexmask.long 0x00 0.--31. 1. " DUMP_ALARM_MINVAL                ,In Alarm Mode, used to trig an alert if any of counter value is less than AlarmMinVal Type: Control. Reset value: 0x0."
group.long 0x68++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MAXVAL,"
hexmask.long 0x00 0.--31. 1. " DUMP_ALARM_MAXVAL                ,In Alarm Mode, used to trig an alert if any of counter value is larger or equal to AlarmMaxVal Type: Control. Reset value: 0x0."
group.long 0x6C++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE0,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE0                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x70++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE1,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE1                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x74++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE2,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE2                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x78++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE3,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE3                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
rgroup.long 0x8C++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT0,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT0                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0x90++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT1,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT1                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0x94++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT2,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT2                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0x98++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT3,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT3                        ,Dump counter value Type: Status. Reset value: X."
width 0x0B
tree.end
tree.end
tree "CLK2_STATCOLL5"
base ad:0x45006000
tree "Channel_0"
width 41.
group.long 0xB8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_0,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0xB4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_0,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0xB0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_0,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0xBC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_0,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0xAC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_0,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0xD0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_0,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0xC8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_0,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0xC0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_0,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0xD4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_0,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0xD8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_0,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0xCC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0xC4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_0,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0xF0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_0,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0xE8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_0,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0xE0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_0,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x40B0200F4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_0,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0xF8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_0,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0xEC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_0,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xE4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_0,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x1F8++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_0,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x1FC++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_0,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x1F4++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_0,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x1F0++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_0,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_1"
width 41.
group.long 0x210++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_1,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x20C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_1,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x208++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_1,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x214++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_1,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x204++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_1,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x228++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_1,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x220++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_1,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x218++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_1,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x22C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_1,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x230++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_1,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x224++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_1,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0x21C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_1,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x248++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_1,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x240++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_1,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x238++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_1,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x40B02024C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_1,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x250++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_1,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x244++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_1,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x23C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_1,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x350++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_1,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x354++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_1,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x34C++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_1,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x348++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_1,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_2"
width 41.
group.long 0x368++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_2,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x364++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_2,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x360++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_2,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x36C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_2,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x35C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_2,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x380++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_2,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x378++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_2,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x370++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_2,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x384++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_2,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x388++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_2,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x37C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_2,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0x374++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_2,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x3A0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_2,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x398++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_2,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x390++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_2,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x40B0203A4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_2,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x3A8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_2,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x39C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_2,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x394++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_2,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x4A8++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_2,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x4AC++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_2,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4A4++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_2,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x4A0++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_2,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_3"
width 41.
group.long 0x4C0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_3,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x4BC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_3,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x4B8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_3,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x4C4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_3,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x4B4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_3,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x4D8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_3,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x4D0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_3,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x4C8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_3,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x4DC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_3,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x4E0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_3,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x4D4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_3,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0x4CC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_3,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x4F8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_3,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x4F0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_3,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x4E8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_3,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x40B0204FC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_3,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x500++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_3,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x4F4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_3,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x4EC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_3,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x600++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_3,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x604++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_3,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5FC++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_3,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x5F8++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_3,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
textline ""
width 32.
group.long 0x0++0x3
line.long 0x00 "L3_STCOL_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x3A. (When the instance is CLK2_FLAGMUX_STATCOLL reset value is 0x37)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                  STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_STCOL_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x1."
hexmask.long.tbyte 0x00 0.--23. 1. "                  STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0xC++0x3
line.long 0x00 "L3_STCOL_SOFTEN,"
bitfld.long 0x00 0. " SOFTEN                           ,Software enable for performance monitoring Type: Control. Reset value: 0x0." "0,1"
group.long 0x10++0x3
line.long 0x00 "L3_STCOL_IGNORESUSPEND,"
bitfld.long 0x00 0. " IGNORESUSPEND                    ,Ignore suspend if set to one for suspend mechanism Type: Control. Reset value: 0x0." "0,1"
group.long 0x14++0x3
line.long 0x00 "L3_STCOL_TRIGEN,"
bitfld.long 0x00 0. " TRIGEN                           ,TrigEn when set, it enable the external trigger start and stop Type: Control. Reset value: 0x0." "0,1"
group.long 0x18++0x3
line.long 0x00 "L3_STCOL_REQEVT,"
bitfld.long 0x00 0.--3. " REQEVT                           ,Req event select Type: Control. Reset value: 0x0. - disabled. - all events. - transfers. - wayt cycle. - busy. - packet. - data. - idles. - latency." "disabled,all_events,transfers,wayt_cycle,busy,packet,data,idles,latency,9,10,11,12,13,14,15"
group.long 0x1C++0x3
line.long 0x00 "L3_STCOL_RSPEVT,"
bitfld.long 0x00 0.--3. " RSPEVT                           ,Rsp event select Type: Control. Reset value: 0x0. - disabled. - . - Collect transfers. - collect wait cycle. - collect busy. - collect packet. - Collect data. - Collect idles. - Collect latency." "disabled,1,Collect_transfers,collect_wait_cycle,collect_busy,collect_packet,Collect_data,Collect_idles,Collect_latency,9,10,11,12,13,14,15"
group.long 0x20++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL0,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL0                      ,The select of the mux 0 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x24++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL1,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL1                      ,The select of the mux 1 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x28++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL2,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL2                      ,The select of the mux 2 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x2C++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL3,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL3                      ,The select of the mux 3 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
rgroup.long 0x40++0x3
line.long 0x00 "L3_STCOL_DUMP_IDENTIFIER,"
bitfld.long 0x00 0.--3. " DUMP_IDENTIFIER                  ,Probe identifier Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x44++0x3
line.long 0x00 "L3_STCOL_DUMP_COLLECTTIME,"
hexmask.long 0x00 0.--31. 1. " DUMP_COLLECTTIME                 ,Number of cycle to wait between two statistics frame Type: Control. Reset value: 0x0."
rgroup.long 0x48++0x3
line.long 0x00 "L3_STCOL_DUMP_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " DUMP_SLVADDR                     ,Dump slave address Type: Control. Reset value: 0x19."
rgroup.long 0x4C++0x3
line.long 0x00 "L3_STCOL_DUMP_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " DUMP_MSTADDR                     ,Dump master address Type: Control. Reset value: 0xE0."
group.long 0x50++0x3
line.long 0x00 "L3_STCOL_DUMP_SLVOFS,"
hexmask.long 0x00 0.--31. 1. " DUMP_SLVOFS                      ,Dump slave offset Type: Control. Reset value: 0x800."
group.long 0x54++0x3
line.long 0x00 "L3_STCOL_DUMP_MODE,"
bitfld.long 0x00 1. " DUMP_MODE_CONDITIONAL            ,Define the stat conditional dump, if one a dump will be generated when alarm is trigged Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 0. "                   DUMP_MODE_MANUAL                         ,Define the dump mode: if != 0 the dump is controlled by the Send register. Type: Control. Reset value: 0x0." "0,1"
group.long 0x58++0x3
line.long 0x00 "L3_STCOL_DUMP_SEND,"
bitfld.long 0x00 0. " DUMP_SEND                        ,In manual mode, is used to send the dump content and initialize the counters. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
group.long 0x5C++0x3
line.long 0x00 "L3_STCOL_DUMP_DISABLE,"
bitfld.long 0x00 0. " DUMP_DISABLE                     ,If 1, the dump frame will be disabled, but counters still active.This is typically used when counters monitoring is enabled Type: Control. Reset value: 0x0." "0,1"
group.long 0x60++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_TRIG,"
bitfld.long 0x00 0. " DUMP_ALARM_TRIG                  ,In Alarm Mode, is used to reset Alarm Type: Take. Reset value: 0x0." "0,1"
group.long 0x64++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MINVAL,"
hexmask.long 0x00 0.--31. 1. " DUMP_ALARM_MINVAL                ,In Alarm Mode, used to trig an alert if any of counter value is less than AlarmMinVal Type: Control. Reset value: 0x0."
group.long 0x68++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MAXVAL,"
hexmask.long 0x00 0.--31. 1. " DUMP_ALARM_MAXVAL                ,In Alarm Mode, used to trig an alert if any of counter value is larger or equal to AlarmMaxVal Type: Control. Reset value: 0x0."
group.long 0x6C++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE0,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE0                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x70++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE1,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE1                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x74++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE2,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE2                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x78++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE3,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE3                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
rgroup.long 0x8C++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT0,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT0                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0x90++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT1,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT1                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0x94++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT2,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT2                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0x98++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT3,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT3                        ,Dump counter value Type: Status. Reset value: X."
group.long 0x40B05B008++0x3
line.long 0x00 "L3_STCOL_EN,"
bitfld.long 0x00 0. " EN                               ,Enable performance monitoring, this will also shut down the clock if En = 0 Type: Control. Reset value: 0x0." "0,1"
width 0x0B
tree.end
tree "CLK2_FLAGMUX_STATCOLL"
base ad:0x45000500
width 32.
group.long 0x0++0x3
line.long 0x00 "L3_STCOL_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x3A. (When the instance is CLK2_FLAGMUX_STATCOLL reset value is 0x37)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "    STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_STCOL_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x1."
hexmask.long.tbyte 0x00 0.--23. 1. "    STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_STCOL_MASK0,"
hexmask.long.word 0x00 0.--9. 1. " MASK0                            ,mask flag inputs 0 Type: Control. Reset value: 0x7."
rgroup.long 0xC++0x3
line.long 0x00 "L3_STCOL_REGERR0,"
hexmask.long.word 0x00 0.--9. 1. " REGERR0                          ,flag inputs 0 Type: Status. Reset value: X."
width 0x0B
tree.end
tree.open "GPMC_TARG"
tree "GPMC_TARG"
base ad:0x44000100
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "DMM_P1_TARG"
base ad:0x44000200
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "DSP1_SDMA_TARG"
base ad:0x44000300
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "L4_CFG_TARG"
base ad:0x44000500
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "DSP2_SDMA_TARG"
base ad:0x44000600
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "EVE1_TARG"
base ad:0x44000A00
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "EVE2_TARG"
base ad:0x44000B00
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "EVE3_TARG"
base ad:0x44000C00
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "EVE4_TARG"
base ad:0x44000D00
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "L4_PER3_P3_TARG"
base ad:0x44000E00
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "OCMC_RAM1_TARG"
base ad:0x44000F00
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "IPU1_TARG"
base ad:0x44001000
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "GPU_TARG"
base ad:0x44001200
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "DMM_P2_TARG"
base ad:0x44001300
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "PRUSS1_TARG"
base ad:0x44001400
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "IVA_CONFIG_TARG"
base ad:0x44001600
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "OCMC_RAM2_TARG"
base ad:0x44001700
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "IVA_SL2IF_TARG"
base ad:0x44001800
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "OCMC_RAM3_TARG"
base ad:0x44001900
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "L4_PER1_P1_TARG"
base ad:0x44001C00
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "L4_WKUP_TARG"
base ad:0x44001D00
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "L4_PER1_P2_TARG"
base ad:0x44001F00
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "TPCC_TARG"
base ad:0x44002000
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "L4_PER1_P3_TARG"
base ad:0x44002100
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "MMU1_TARG"
base ad:0x44002200
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "L4_PER2_P1_TARG"
base ad:0x44002300
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "L4_PER2_P2_TARG"
base ad:0x44002400
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "L4_PER2_P3_TARG"
base ad:0x44002500
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "L4_PER3_P1_TARG"
base ad:0x44002600
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "L4_PER3_P2_TARG"
base ad:0x44002700
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "MMU2_TARG"
base ad:0x44002800
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "DSS_TARG"
base ad:0x44002900
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "TPTC2_TARG"
base ad:0x44002B00
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "TPTC1_TARG"
base ad:0x44002E00
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "PCIE1_TARG"
base ad:0x44003700
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "QSPI_TARG"
base ad:0x44003900
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "L3_INSTR"
base ad:0x45000100
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "DEBUGSS_CT_TBR_TARG"
base ad:0x45000300
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG__CORECODE     ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x13." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG__VENDORCODE           ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 3. " STDHOSTHDR_MAINCTLREG_CM         ,Reserved for internal testing. Must be set to 0. Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 2. "                 STDHOSTHDR_MAINCTLREG_FLT                ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Flt is asserted when the FltCnt register field indicates a Fault, and deasserted when FltCnt is reset. If no Err..." "0,1"
bitfld.long 0x00 0. "                    STDHOSTHDR_MAINCTLREG_EN ,Sets the global core enable. Note: A disabled master does not generate any NTTP requests, and a disabled slave replies with an error packet to any request it receives. Type: Control. Reset value: 0x1." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " STDHOSTHDR_NTTPADDR_0            ,Shows the Rx port address. Type: Control. Reset value: 0x15."
group.long 0x40++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT    ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard. - module dependent." "standard,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR        ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Info field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,MstAddr field of the response packet. Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x00 0.--1. " STDERRLOG_CUSTOMINFO_OPCODE      ,Opcode of the response packet. Type: Status. Reset value: X.0x0: Logged request is0x1: Logged request is0x2: Logged request is0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. " ADDRSPACESIZELOG                 ,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes. Type: Control. Reset value: 0x1F." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree.end
tree.open "OCMC_RAM2_FW"
tree "OCMC_RAM2_FW"
base ad:0x4A20E000
tree "REG_Bundle_0"
width 32.
group.long 0x8C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_0,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "  R15           ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14           ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "  W13           ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13           ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "  R12           ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11           ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "  W10           ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10           ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "  R9            ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8            ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "  W7            ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7            ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "  R6            ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5            ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "  W4            ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4            ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "  R3            ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2            ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "  W1            ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1            ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "  R0            ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x88++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_0,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "  PUB_USR_DEBUG ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "  PUB_PRV_EXE   ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "  PUB_USR_EXE   ,Public User Exe Access Allowed" "0,1"
tree.end
tree "REG_Bundle_1"
width 32.
group.long 0x94++0x3
line.long 0x00 "END_REGION_i_1,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x9C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_1,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x98++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_1,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x90++0x3
line.long 0x00 "START_REGION_i_1,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_2"
width 32.
group.long 0xA4++0x3
line.long 0x00 "END_REGION_i_2,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xAC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_2,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xA8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_2,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xA0++0x3
line.long 0x00 "START_REGION_i_2,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_3"
width 32.
group.long 0xB4++0x3
line.long 0x00 "END_REGION_i_3,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xBC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_3,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xB8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_3,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xB0++0x3
line.long 0x00 "START_REGION_i_3,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_4"
width 32.
group.long 0xC4++0x3
line.long 0x00 "END_REGION_i_4,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xCC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_4,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xC8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_4,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xC0++0x3
line.long 0x00 "START_REGION_i_4,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_5"
width 32.
group.long 0xD4++0x3
line.long 0x00 "END_REGION_i_5,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xDC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_5,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xD8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_5,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xD0++0x3
line.long 0x00 "START_REGION_i_5,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_6"
width 32.
group.long 0xE4++0x3
line.long 0x00 "END_REGION_i_6,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xEC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_6,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xE8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_6,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xE0++0x3
line.long 0x00 "START_REGION_i_6,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_7"
width 32.
group.long 0xF4++0x3
line.long 0x00 "END_REGION_i_7,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xFC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_7,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xF8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_7,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xF0++0x3
line.long 0x00 "START_REGION_i_7,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_8"
width 32.
group.long 0x104++0x3
line.long 0x00 "END_REGION_i_8,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_8,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x108++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_8,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x100++0x3
line.long 0x00 "START_REGION_i_8,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_9"
width 32.
group.long 0x114++0x3
line.long 0x00 "END_REGION_i_9,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_9,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x118++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_9,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x110++0x3
line.long 0x00 "START_REGION_i_9,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_10"
width 33.
group.long 0x124++0x3
line.long 0x00 "END_REGION_i_10,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_10,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x128++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_10,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x120++0x3
line.long 0x00 "START_REGION_i_10,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_11"
width 33.
group.long 0x134++0x3
line.long 0x00 "END_REGION_i_11,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_11,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x138++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_11,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x130++0x3
line.long 0x00 "START_REGION_i_11,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_12"
width 33.
group.long 0x144++0x3
line.long 0x00 "END_REGION_i_12,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x14C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_12,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x148++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_12,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x140++0x3
line.long 0x00 "START_REGION_i_12,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_13"
width 33.
group.long 0x154++0x3
line.long 0x00 "END_REGION_i_13,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x15C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_13,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x158++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_13,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x150++0x3
line.long 0x00 "START_REGION_i_13,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_14"
width 33.
group.long 0x164++0x3
line.long 0x00 "END_REGION_i_14,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x16C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_14,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x168++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_14,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x160++0x3
line.long 0x00 "START_REGION_i_14,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_15"
width 33.
group.long 0x174++0x3
line.long 0x00 "END_REGION_i_15,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x17C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_15,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x178++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_15,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x170++0x3
line.long 0x00 "START_REGION_i_15,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
textline ""
width 23.
group.long 0x0++0x3
line.long 0x00 "ERROR_LOG_k,Error log register for port k"
bitfld.long 0x00 23. " BLK_BURST_VIOLATION ,Read 0x1: 2D burst not allowed or exceeding allowed size Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1"
bitfld.long 0x00 17.--21. "         REGION_START_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 12.--16. "  REGION_END_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                "
hexmask.long.word 0x00 0.--11. 1. " REQINFO_ERRLOG      ,Read: Error in reqinfo vector mapped as follows: [11: 8] ConnID [3:0] [7] MCMD [0] [6:4] Reserved [3] MReqDebug [2] Reserved [1] MReqSupervisor [0] MReqType Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers"
rgroup.long 0x4++0x3
line.long 0x00 "LOGICAL_ADDR_ERRLOG_k,Logical Physical Address Error log register for port k"
hexmask.long 0x00 0.--31. 1. " SLVOFS_LOGICAL      ,Address generated by the Initiator before being translated"
group.long 0x40++0x3
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
bitfld.long 0x00 16.--19. " FW_ADDR_SPACE_MSB   ,Address space size" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
eventfld.long 0x00 1. "        FW_LOAD_REQ         ,Writing '1' to this bit causes the bit to self-clear and triggers the reload of L3 firewall default values. This bit will subsequently self-set when the reload procedure is complete. Writing '0' has no effect." "0,1"
bitfld.long 0x00 0. "   BUSY_REQ          ,Busy request 0x0: Allow transactions to reach the slave NIU (resume) 0x1: No transaction can reach the slave NIU (suspend)" "0,1"
width 0x0B
tree.end
tree "OCMC_RAM1_FW"
base ad:0x4A212000
tree "REG_Bundle_0"
width 32.
group.long 0x8C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_0,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "  R15           ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14           ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "  W13           ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13           ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "  R12           ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11           ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "  W10           ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10           ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "  R9            ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8            ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "  W7            ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7            ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "  R6            ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5            ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "  W4            ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4            ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "  R3            ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2            ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "  W1            ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1            ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "  R0            ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x88++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_0,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "  PUB_USR_DEBUG ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "  PUB_PRV_EXE   ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "  PUB_USR_EXE   ,Public User Exe Access Allowed" "0,1"
tree.end
tree "REG_Bundle_1"
width 32.
group.long 0x94++0x3
line.long 0x00 "END_REGION_i_1,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x9C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_1,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x98++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_1,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x90++0x3
line.long 0x00 "START_REGION_i_1,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_2"
width 32.
group.long 0xA4++0x3
line.long 0x00 "END_REGION_i_2,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xAC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_2,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xA8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_2,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xA0++0x3
line.long 0x00 "START_REGION_i_2,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_3"
width 32.
group.long 0xB4++0x3
line.long 0x00 "END_REGION_i_3,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xBC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_3,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xB8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_3,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xB0++0x3
line.long 0x00 "START_REGION_i_3,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_4"
width 32.
group.long 0xC4++0x3
line.long 0x00 "END_REGION_i_4,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xCC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_4,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xC8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_4,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xC0++0x3
line.long 0x00 "START_REGION_i_4,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_5"
width 32.
group.long 0xD4++0x3
line.long 0x00 "END_REGION_i_5,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xDC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_5,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xD8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_5,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xD0++0x3
line.long 0x00 "START_REGION_i_5,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_6"
width 32.
group.long 0xE4++0x3
line.long 0x00 "END_REGION_i_6,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xEC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_6,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xE8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_6,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xE0++0x3
line.long 0x00 "START_REGION_i_6,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_7"
width 32.
group.long 0xF4++0x3
line.long 0x00 "END_REGION_i_7,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xFC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_7,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xF8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_7,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xF0++0x3
line.long 0x00 "START_REGION_i_7,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_8"
width 32.
group.long 0x104++0x3
line.long 0x00 "END_REGION_i_8,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_8,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x108++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_8,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x100++0x3
line.long 0x00 "START_REGION_i_8,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_9"
width 32.
group.long 0x114++0x3
line.long 0x00 "END_REGION_i_9,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_9,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x118++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_9,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x110++0x3
line.long 0x00 "START_REGION_i_9,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_10"
width 33.
group.long 0x124++0x3
line.long 0x00 "END_REGION_i_10,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_10,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x128++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_10,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x120++0x3
line.long 0x00 "START_REGION_i_10,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_11"
width 33.
group.long 0x134++0x3
line.long 0x00 "END_REGION_i_11,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_11,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x138++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_11,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x130++0x3
line.long 0x00 "START_REGION_i_11,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_12"
width 33.
group.long 0x144++0x3
line.long 0x00 "END_REGION_i_12,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x14C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_12,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x148++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_12,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x140++0x3
line.long 0x00 "START_REGION_i_12,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_13"
width 33.
group.long 0x154++0x3
line.long 0x00 "END_REGION_i_13,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x15C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_13,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x158++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_13,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x150++0x3
line.long 0x00 "START_REGION_i_13,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_14"
width 33.
group.long 0x164++0x3
line.long 0x00 "END_REGION_i_14,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x16C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_14,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x168++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_14,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x160++0x3
line.long 0x00 "START_REGION_i_14,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_15"
width 33.
group.long 0x174++0x3
line.long 0x00 "END_REGION_i_15,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x17C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_15,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x178++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_15,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x170++0x3
line.long 0x00 "START_REGION_i_15,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
textline ""
width 23.
group.long 0x0++0x3
line.long 0x00 "ERROR_LOG_k,Error log register for port k"
bitfld.long 0x00 23. " BLK_BURST_VIOLATION ,Read 0x1: 2D burst not allowed or exceeding allowed size Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1"
bitfld.long 0x00 17.--21. "         REGION_START_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 12.--16. "  REGION_END_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                "
hexmask.long.word 0x00 0.--11. 1. " REQINFO_ERRLOG      ,Read: Error in reqinfo vector mapped as follows: [11: 8] ConnID [3:0] [7] MCMD [0] [6:4] Reserved [3] MReqDebug [2] Reserved [1] MReqSupervisor [0] MReqType Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers"
rgroup.long 0x4++0x3
line.long 0x00 "LOGICAL_ADDR_ERRLOG_k,Logical Physical Address Error log register for port k"
hexmask.long 0x00 0.--31. 1. " SLVOFS_LOGICAL      ,Address generated by the Initiator before being translated"
group.long 0x40++0x3
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
bitfld.long 0x00 16.--19. " FW_ADDR_SPACE_MSB   ,Address space size" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
eventfld.long 0x00 1. "        FW_LOAD_REQ         ,Writing '1' to this bit causes the bit to self-clear and triggers the reload of L3 firewall default values. This bit will subsequently self-set when the reload procedure is complete. Writing '0' has no effect." "0,1"
bitfld.long 0x00 0. "   BUSY_REQ          ,Busy request 0x0: Allow transactions to reach the slave NIU (resume) 0x1: No transaction can reach the slave NIU (suspend)" "0,1"
width 0x0B
tree.end
tree "OCMC_RAM3_FW"
base ad:0x4A22A000
tree "REG_Bundle_0"
width 32.
group.long 0x8C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_0,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "  R15           ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14           ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "  W13           ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13           ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "  R12           ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11           ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "  W10           ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10           ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "  R9            ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8            ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "  W7            ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7            ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "  R6            ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5            ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "  W4            ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4            ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "  R3            ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2            ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "  W1            ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1            ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "  R0            ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x88++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_0,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "  PUB_USR_DEBUG ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "  PUB_PRV_EXE   ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "  PUB_USR_EXE   ,Public User Exe Access Allowed" "0,1"
tree.end
tree "REG_Bundle_1"
width 32.
group.long 0x94++0x3
line.long 0x00 "END_REGION_i_1,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x9C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_1,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x98++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_1,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x90++0x3
line.long 0x00 "START_REGION_i_1,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_2"
width 32.
group.long 0xA4++0x3
line.long 0x00 "END_REGION_i_2,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xAC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_2,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xA8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_2,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xA0++0x3
line.long 0x00 "START_REGION_i_2,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_3"
width 32.
group.long 0xB4++0x3
line.long 0x00 "END_REGION_i_3,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xBC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_3,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xB8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_3,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xB0++0x3
line.long 0x00 "START_REGION_i_3,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_4"
width 32.
group.long 0xC4++0x3
line.long 0x00 "END_REGION_i_4,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xCC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_4,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xC8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_4,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xC0++0x3
line.long 0x00 "START_REGION_i_4,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_5"
width 32.
group.long 0xD4++0x3
line.long 0x00 "END_REGION_i_5,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xDC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_5,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xD8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_5,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xD0++0x3
line.long 0x00 "START_REGION_i_5,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_6"
width 32.
group.long 0xE4++0x3
line.long 0x00 "END_REGION_i_6,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xEC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_6,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xE8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_6,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xE0++0x3
line.long 0x00 "START_REGION_i_6,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_7"
width 32.
group.long 0xF4++0x3
line.long 0x00 "END_REGION_i_7,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xFC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_7,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xF8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_7,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xF0++0x3
line.long 0x00 "START_REGION_i_7,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_8"
width 32.
group.long 0x104++0x3
line.long 0x00 "END_REGION_i_8,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_8,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x108++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_8,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x100++0x3
line.long 0x00 "START_REGION_i_8,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_9"
width 32.
group.long 0x114++0x3
line.long 0x00 "END_REGION_i_9,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_9,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x118++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_9,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x110++0x3
line.long 0x00 "START_REGION_i_9,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_10"
width 33.
group.long 0x124++0x3
line.long 0x00 "END_REGION_i_10,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_10,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x128++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_10,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x120++0x3
line.long 0x00 "START_REGION_i_10,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_11"
width 33.
group.long 0x134++0x3
line.long 0x00 "END_REGION_i_11,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_11,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x138++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_11,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x130++0x3
line.long 0x00 "START_REGION_i_11,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_12"
width 33.
group.long 0x144++0x3
line.long 0x00 "END_REGION_i_12,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x14C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_12,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x148++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_12,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x140++0x3
line.long 0x00 "START_REGION_i_12,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_13"
width 33.
group.long 0x154++0x3
line.long 0x00 "END_REGION_i_13,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x15C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_13,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x158++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_13,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x150++0x3
line.long 0x00 "START_REGION_i_13,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_14"
width 33.
group.long 0x164++0x3
line.long 0x00 "END_REGION_i_14,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x16C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_14,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x168++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_14,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x160++0x3
line.long 0x00 "START_REGION_i_14,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_15"
width 33.
group.long 0x174++0x3
line.long 0x00 "END_REGION_i_15,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x17C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_15,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                          "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                          "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x178++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_15,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                          "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x170++0x3
line.long 0x00 "START_REGION_i_15,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
textline ""
width 23.
group.long 0x0++0x3
line.long 0x00 "ERROR_LOG_k,Error log register for port k"
bitfld.long 0x00 23. " BLK_BURST_VIOLATION ,Read 0x1: 2D burst not allowed or exceeding allowed size Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1"
bitfld.long 0x00 17.--21. "         REGION_START_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 12.--16. "  REGION_END_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                "
hexmask.long.word 0x00 0.--11. 1. " REQINFO_ERRLOG      ,Read: Error in reqinfo vector mapped as follows: [11: 8] ConnID [3:0] [7] MCMD [0] [6:4] Reserved [3] MReqDebug [2] Reserved [1] MReqSupervisor [0] MReqType Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers"
rgroup.long 0x4++0x3
line.long 0x00 "LOGICAL_ADDR_ERRLOG_k,Logical Physical Address Error log register for port k"
hexmask.long 0x00 0.--31. 1. " SLVOFS_LOGICAL      ,Address generated by the Initiator before being translated"
group.long 0x40++0x3
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
bitfld.long 0x00 16.--19. " FW_ADDR_SPACE_MSB   ,Address space size" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
eventfld.long 0x00 1. "        FW_LOAD_REQ         ,Writing '1' to this bit causes the bit to self-clear and triggers the reload of L3 firewall default values. This bit will subsequently self-set when the reload procedure is complete. Writing '0' has no effect." "0,1"
bitfld.long 0x00 0. "   BUSY_REQ          ,Busy request 0x0: Allow transactions to reach the slave NIU (resume) 0x1: No transaction can reach the slave NIU (suspend)" "0,1"
width 0x0B
tree.end
tree.end
tree.open "CLK1_HOST_CLK1_1"
tree "CLK1_HOST_CLK1_1"
base ad:0x44000000
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_HOST_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x1A." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_HOST_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
rgroup.long 0x8++0x3
line.long 0x00 "L3_HOST_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 2. " STDHOSTHDR_MAINCTLREG_FLT        ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Fault is asserted when the Fault Control register field indicates a Fault, and de-asserted when FltCnt is reset. If no Error Logging is ..." "0,1"
group.long 0x40++0x3
line.long 0x00 "L3_HOST_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_HOST_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_HOST_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard error. - module dependent." "standard_error,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_HOST_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR     ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_HOST_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_HOST_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_HOST_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_HOST_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_HOST_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_HOST_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_HOST_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_HOST_STDERRLOG_CUSTOMINFO_WR,"
bitfld.long 0x00 0. " STDERRLOG_CUSTOMINFO_WR          ,Type: Status. Reset value: X." "0,1"
rgroup.long 0x70++0x3
line.long 0x00 "L3_HOST_STDERRLOG_CUSTOMINFO_ADDR,"
hexmask.long.tbyte 0x00 0.--20. 1. " STDERRLOG_CUSTOMINFO_ADDR        ,Type: Status. Reset value: X."
rgroup.long 0x74++0x3
line.long 0x00 "L3_HOST_STDERRLOG_CUSTOMINFO_DECERR,"
bitfld.long 0x00 0. " STDERRLOG_CUSTOMINFO_DECERR      ,Type: Status. Reset value: X." "0,1"
width 0x0B
tree.end
tree "CLK1_HOST_CLK1_2"
base ad:0x44800000
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_HOST_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x1A." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_HOST_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
rgroup.long 0x8++0x3
line.long 0x00 "L3_HOST_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 2. " STDHOSTHDR_MAINCTLREG_FLT        ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Fault is asserted when the Fault Control register field indicates a Fault, and de-asserted when FltCnt is reset. If no Error Logging is ..." "0,1"
group.long 0x40++0x3
line.long 0x00 "L3_HOST_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_HOST_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_HOST_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard error. - module dependent." "standard_error,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_HOST_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR     ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_HOST_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_HOST_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_HOST_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_HOST_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_HOST_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_HOST_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_HOST_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_HOST_STDERRLOG_CUSTOMINFO_WR,"
bitfld.long 0x00 0. " STDERRLOG_CUSTOMINFO_WR          ,Type: Status. Reset value: X." "0,1"
rgroup.long 0x70++0x3
line.long 0x00 "L3_HOST_STDERRLOG_CUSTOMINFO_ADDR,"
hexmask.long.tbyte 0x00 0.--20. 1. " STDERRLOG_CUSTOMINFO_ADDR        ,Type: Status. Reset value: X."
rgroup.long 0x74++0x3
line.long 0x00 "L3_HOST_STDERRLOG_CUSTOMINFO_DECERR,"
bitfld.long 0x00 0. " STDERRLOG_CUSTOMINFO_DECERR      ,Type: Status. Reset value: X." "0,1"
width 0x0B
tree.end
tree "CLK2_HOST_CLK2_1"
base ad:0x45000000
width 38.
rgroup.long 0x0++0x3
line.long 0x00 "L3_HOST_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x1A." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_HOST_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "                STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
rgroup.long 0x8++0x3
line.long 0x00 "L3_HOST_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x00 2. " STDHOSTHDR_MAINCTLREG_FLT        ,Asserted when a Fault condition is detected: if the unit includes Error Logging, Fault is asserted when the Fault Control register field indicates a Fault, and de-asserted when FltCnt is reset. If no Error Logging is ..." "0,1"
group.long 0x40++0x3
line.long 0x00 "L3_HOST_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTSTDLVL_0           ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x44++0x3
line.long 0x00 "L3_HOST_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x00 0.--1. " STDERRLOG_SVRTCUSTOMLVL_0        ,Severity level parameters Type: Control. Reset value: 0x2. - disabled. - error. - fault." "disabled,error,fault,3"
group.long 0x48++0x3
line.long 0x00 "L3_HOST_STDERRLOG_MAIN,"
bitfld.long 0x00 31. " STDERRLOG_MAIN_CLRLOG            ,Clears 'Error Logging Valid' bit when written to 1. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
bitfld.long 0x00 19. "                 STDERRLOG_MAIN_FLTCNT                    ,Asserted when at least one error with severity level FAULT is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
bitfld.long 0x00 18. "                    STDERRLOG_MAIN_ERRCNT ,Asserted when at least one error with severity level ERROR is detected. Reset when written to 1. Type: Take. Reset value: 0x0." "0,1"
textline "                                               "
bitfld.long 0x00 1. " STDERRLOG_MAIN_ERRTYPE           ,Indicates logging type. Type: Status. Reset value: X. - standard error. - module dependent." "standard_error,module_dependent"
bitfld.long 0x00 0. "  STDERRLOG_MAIN_ERRLOGVLD                 ,Error Logging Valid. Asserted when logging information is valid(indicates that an error has been logged). Type: Status. Reset value: X." "0,1"
rgroup.long 0x4C++0x3
line.long 0x00 "L3_HOST_STDERRLOG_HDR,"
hexmask.long.word 0x00 18.--27. 1. " STDERRLOG_HDR_LEN1               ,This field contains the number of payload cell(s) minus one of the logged packet. Type: Status. Reset value: X."
bitfld.long 0x00 12.--15. "              STDERRLOG_HDR_STOPOFSWRPSZ               ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode). Type: Status. Reset value: X." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "                   STDERRLOG_HDR_ERR     ,Err bit of the logged packet. Type: Status. Reset value: X." "0,1"
textline "                                               "
bitfld.long 0x00 6.--7. " STDERRLOG_HDR_PRESSURE           ,Pressure field of the logged packet. Type: Status. Reset value: X." "0,1,2,3"
bitfld.long 0x00 0.--3. "                 STDERRLOG_HDR_OPCODE                     ,Opcode of the logged packet. Type: Status. Reset value: X.0x0: Store without acknowledge, incrementing burst, non-atomic request0x1: Store without acknowledge, wrapping burst, non-atomic reques..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x50++0x3
line.long 0x00 "L3_HOST_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_MSTADDR                ,Master Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x54++0x3
line.long 0x00 "L3_HOST_STDERRLOG_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " STDERRLOG_SLVADDR                ,Slave Address field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x58++0x3
line.long 0x00 "L3_HOST_STDERRLOG_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_INFO                   ,Info field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x5C++0x3
line.long 0x00 "L3_HOST_STDERRLOG_SLVOFSLSB,"
hexmask.long 0x00 0.--31. 1. " STDERRLOG_SLVOFSLSB              ,LSB of the 'slave offset' field, concatenated with 'start offset' field of the logged packet. Type: Status. Reset value: X."
rgroup.long 0x60++0x3
line.long 0x00 "L3_HOST_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x00 0. " STDERRLOG_SLVOFSMSB              ,MSB of the 'slave offset' field of the logged packet (according to NTTP packet format, this register field may exceed the actual 'slave offset' size. Unused bits are stuck at 0, if any). Type: Status. Reset value: X." "0,1"
rgroup.long 0x64++0x3
line.long 0x00 "L3_HOST_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_MSTADDR     ,Type: Status. Reset value: X."
rgroup.long 0x68++0x3
line.long 0x00 "L3_HOST_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x00 0.--7. 1. " STDERRLOG_CUSTOMINFO_INFO        ,Type: Status. Reset value: X."
rgroup.long 0x6C++0x3
line.long 0x00 "L3_HOST_STDERRLOG_CUSTOMINFO_WR,"
bitfld.long 0x00 0. " STDERRLOG_CUSTOMINFO_WR          ,Type: Status. Reset value: X." "0,1"
rgroup.long 0x70++0x3
line.long 0x00 "L3_HOST_STDERRLOG_CUSTOMINFO_ADDR,"
hexmask.long.tbyte 0x00 0.--20. 1. " STDERRLOG_CUSTOMINFO_ADDR        ,Type: Status. Reset value: X."
rgroup.long 0x74++0x3
line.long 0x00 "L3_HOST_STDERRLOG_CUSTOMINFO_DECERR,"
bitfld.long 0x00 0. " STDERRLOG_CUSTOMINFO_DECERR      ,Type: Status. Reset value: X." "0,1"
width 0x0B
tree.end
tree.end
tree.open "CLK1_FLAGMUX_CLK1_1"
tree "CLK1_FLAGMUX_CLK1_1"
base ad:0x44803500
width 34.
rgroup.long 0x0++0x3
line.long 0x00 "L3_FLAGMUX_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x37." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "        STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_FLAGMUX_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "        STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_FLAGMUX_MASK0,"
hexmask.long 0x00 0.--31. 1. " MASK0                            ,Mask flag inputs 0 Type: Control."
rgroup.long 0xC++0x3
line.long 0x00 "L3_FLAGMUX_REGERR0,"
hexmask.long 0x00 0.--31. 1. " REGERR0                          ,Flag inputs 0 Type: Status. Reset value: X."
group.long 0x10++0x3
line.long 0x00 "L3_FLAGMUX_MASK1,"
hexmask.long 0x00 0.--31. 1. " MASK1                            ,Mask flag inputs 1 Type: Control. Reset value: 0x7FFFFF."
rgroup.long 0x14++0x3
line.long 0x00 "L3_FLAGMUX_REGERR1,"
hexmask.long 0x00 0.--31. 1. " REGERR1                          ,Flag inputs 1 Type: Status. Reset value: X."
width 0x0B
tree.end
tree "CLK1_FLAGMUX_CLK1_2"
base ad:0x44803600
width 34.
rgroup.long 0x0++0x3
line.long 0x00 "L3_FLAGMUX_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x37." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "        STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_FLAGMUX_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "        STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_FLAGMUX_MASK0,"
hexmask.long 0x00 0.--31. 1. " MASK0                            ,Mask flag inputs 0 Type: Control."
rgroup.long 0xC++0x3
line.long 0x00 "L3_FLAGMUX_REGERR0,"
hexmask.long 0x00 0.--31. 1. " REGERR0                          ,Flag inputs 0 Type: Status. Reset value: X."
group.long 0x10++0x3
line.long 0x00 "L3_FLAGMUX_MASK1,"
hexmask.long 0x00 0.--31. 1. " MASK1                            ,Mask flag inputs 1 Type: Control. Reset value: 0x7FFFFF."
rgroup.long 0x14++0x3
line.long 0x00 "L3_FLAGMUX_REGERR1,"
hexmask.long 0x00 0.--31. 1. " REGERR1                          ,Flag inputs 1 Type: Status. Reset value: X."
width 0x0B
tree.end
tree "CLK2_FLAGMUX_CLK2_1"
base ad:0x45000200
width 34.
rgroup.long 0x0++0x3
line.long 0x00 "L3_FLAGMUX_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x37." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "        STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_FLAGMUX_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "        STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_FLAGMUX_MASK0,"
hexmask.long 0x00 0.--31. 1. " MASK0                            ,Mask flag inputs 0 Type: Control."
rgroup.long 0xC++0x3
line.long 0x00 "L3_FLAGMUX_REGERR0,"
hexmask.long 0x00 0.--31. 1. " REGERR0                          ,Flag inputs 0 Type: Status. Reset value: X."
group.long 0x10++0x3
line.long 0x00 "L3_FLAGMUX_MASK1,"
hexmask.long 0x00 0.--31. 1. " MASK1                            ,Mask flag inputs 1 Type: Control. Reset value: 0x7FFFFF."
rgroup.long 0x14++0x3
line.long 0x00 "L3_FLAGMUX_REGERR1,"
hexmask.long 0x00 0.--31. 1. " REGERR1                          ,Flag inputs 1 Type: Status. Reset value: X."
width 0x0B
tree.end
tree.end
tree.open "EVE1_FW"
tree "EVE1_FW"
base ad:0x4A151000
width 30.
group.long 0x0++0x3
line.long 0x00 "ERROR_LOG_k,Error log register for port k"
bitfld.long 0x00 23. " BLK_BURST_VIOLATION ,Read 0x1: 2D burst not allowed or exceeding allowed size Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1"
bitfld.long 0x00 17.--21. "         REGION_START_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 12.--16. "  REGION_END_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " REQINFO_ERRLOG      ,Read: Error in reqinfo vector mapped as follows: [11: 8] ConnID [3:0] [7] MCMD [0] [6:4] Reserved [3] MReqDebug [2] Reserved [1] MReqSupervisor [0] MReqType Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers"
rgroup.long 0x4++0x3
line.long 0x00 "LOGICAL_ADDR_ERRLOG_k,Logical Physical Address Error log register for port k"
hexmask.long 0x00 0.--31. 1. " SLVOFS_LOGICAL      ,Address generated by the Initiator before being translated"
group.long 0x40++0x3
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
bitfld.long 0x00 16.--19. " FW_ADDR_SPACE_MSB   ,Address space size" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
eventfld.long 0x00 1. "        FW_LOAD_REQ         ,Writing '1' to this bit causes the bit to self-clear and triggers the reload of L3 firewall default values. This bit will subsequently self-set when the reload procedure is complete. Writing '0' has no effect." "0,1"
bitfld.long 0x00 0. "   BUSY_REQ          ,Busy request 0x0: Allow transactions to reach the slave NIU (resume) 0x1: No transaction can reach the slave NIU (suspend)" "0,1"
group.long 0x88++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG       ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "         PUB_USR_DEBUG       ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "   PUB_PRV_WRITE     ,Public Privilege Write Allowed" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PUB_PRV_READ        ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "         PUB_PRV_EXE         ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "   PUB_USR_WRITE     ,Public User Write Access Allowed" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PUB_USR_READ        ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "         PUB_USR_EXE         ,Public User Exe Access Allowed" "0,1"
group.long 0x8C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j,Region j Permission High"
bitfld.long 0x00 31. " W15                 ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "         R15                 ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "   W14               ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 28. " R14                 ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "         W13                 ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "   R13               ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 25. " W12                 ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "         R12                 ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "   W11               ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 22. " R11                 ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "         W10                 ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "   R10               ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 19. " W9                  ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "         R9                  ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "   W8                ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 16. " R8                  ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "         W7                  ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "   R7                ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 13. " W6                  ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "         R6                  ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "   W5                ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 10. " R5                  ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "         W4                  ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "   R4                ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 7. " W3                  ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "         R3                  ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "   W2                ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 4. " R2                  ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "         W1                  ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "   R1                ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 1. " W0                  ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "         R0                  ,Master NIU ConnID = 0 read permission" "0,1"
width 0x0B
tree.end
tree "EVE2_FW"
base ad:0x4A153000
width 30.
group.long 0x0++0x3
line.long 0x00 "ERROR_LOG_k,Error log register for port k"
bitfld.long 0x00 23. " BLK_BURST_VIOLATION ,Read 0x1: 2D burst not allowed or exceeding allowed size Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1"
bitfld.long 0x00 17.--21. "         REGION_START_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 12.--16. "  REGION_END_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " REQINFO_ERRLOG      ,Read: Error in reqinfo vector mapped as follows: [11: 8] ConnID [3:0] [7] MCMD [0] [6:4] Reserved [3] MReqDebug [2] Reserved [1] MReqSupervisor [0] MReqType Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers"
rgroup.long 0x4++0x3
line.long 0x00 "LOGICAL_ADDR_ERRLOG_k,Logical Physical Address Error log register for port k"
hexmask.long 0x00 0.--31. 1. " SLVOFS_LOGICAL      ,Address generated by the Initiator before being translated"
group.long 0x40++0x3
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
bitfld.long 0x00 16.--19. " FW_ADDR_SPACE_MSB   ,Address space size" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
eventfld.long 0x00 1. "        FW_LOAD_REQ         ,Writing '1' to this bit causes the bit to self-clear and triggers the reload of L3 firewall default values. This bit will subsequently self-set when the reload procedure is complete. Writing '0' has no effect." "0,1"
bitfld.long 0x00 0. "   BUSY_REQ          ,Busy request 0x0: Allow transactions to reach the slave NIU (resume) 0x1: No transaction can reach the slave NIU (suspend)" "0,1"
group.long 0x88++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG       ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "         PUB_USR_DEBUG       ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "   PUB_PRV_WRITE     ,Public Privilege Write Allowed" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PUB_PRV_READ        ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "         PUB_PRV_EXE         ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "   PUB_USR_WRITE     ,Public User Write Access Allowed" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PUB_USR_READ        ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "         PUB_USR_EXE         ,Public User Exe Access Allowed" "0,1"
group.long 0x8C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j,Region j Permission High"
bitfld.long 0x00 31. " W15                 ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "         R15                 ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "   W14               ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 28. " R14                 ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "         W13                 ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "   R13               ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 25. " W12                 ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "         R12                 ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "   W11               ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 22. " R11                 ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "         W10                 ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "   R10               ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 19. " W9                  ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "         R9                  ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "   W8                ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 16. " R8                  ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "         W7                  ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "   R7                ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 13. " W6                  ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "         R6                  ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "   W5                ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 10. " R5                  ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "         W4                  ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "   R4                ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 7. " W3                  ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "         R3                  ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "   W2                ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 4. " R2                  ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "         W1                  ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "   R1                ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 1. " W0                  ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "         R0                  ,Master NIU ConnID = 0 read permission" "0,1"
width 0x0B
tree.end
tree "EVE3_FW"
base ad:0x4A155000
width 30.
group.long 0x0++0x3
line.long 0x00 "ERROR_LOG_k,Error log register for port k"
bitfld.long 0x00 23. " BLK_BURST_VIOLATION ,Read 0x1: 2D burst not allowed or exceeding allowed size Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1"
bitfld.long 0x00 17.--21. "         REGION_START_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 12.--16. "  REGION_END_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " REQINFO_ERRLOG      ,Read: Error in reqinfo vector mapped as follows: [11: 8] ConnID [3:0] [7] MCMD [0] [6:4] Reserved [3] MReqDebug [2] Reserved [1] MReqSupervisor [0] MReqType Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers"
rgroup.long 0x4++0x3
line.long 0x00 "LOGICAL_ADDR_ERRLOG_k,Logical Physical Address Error log register for port k"
hexmask.long 0x00 0.--31. 1. " SLVOFS_LOGICAL      ,Address generated by the Initiator before being translated"
group.long 0x40++0x3
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
bitfld.long 0x00 16.--19. " FW_ADDR_SPACE_MSB   ,Address space size" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
eventfld.long 0x00 1. "        FW_LOAD_REQ         ,Writing '1' to this bit causes the bit to self-clear and triggers the reload of L3 firewall default values. This bit will subsequently self-set when the reload procedure is complete. Writing '0' has no effect." "0,1"
bitfld.long 0x00 0. "   BUSY_REQ          ,Busy request 0x0: Allow transactions to reach the slave NIU (resume) 0x1: No transaction can reach the slave NIU (suspend)" "0,1"
group.long 0x88++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG       ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "         PUB_USR_DEBUG       ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "   PUB_PRV_WRITE     ,Public Privilege Write Allowed" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PUB_PRV_READ        ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "         PUB_PRV_EXE         ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "   PUB_USR_WRITE     ,Public User Write Access Allowed" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PUB_USR_READ        ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "         PUB_USR_EXE         ,Public User Exe Access Allowed" "0,1"
group.long 0x8C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j,Region j Permission High"
bitfld.long 0x00 31. " W15                 ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "         R15                 ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "   W14               ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 28. " R14                 ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "         W13                 ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "   R13               ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 25. " W12                 ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "         R12                 ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "   W11               ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 22. " R11                 ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "         W10                 ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "   R10               ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 19. " W9                  ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "         R9                  ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "   W8                ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 16. " R8                  ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "         W7                  ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "   R7                ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 13. " W6                  ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "         R6                  ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "   W5                ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 10. " R5                  ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "         W4                  ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "   R4                ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 7. " W3                  ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "         R3                  ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "   W2                ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 4. " R2                  ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "         W1                  ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "   R1                ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 1. " W0                  ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "         R0                  ,Master NIU ConnID = 0 read permission" "0,1"
width 0x0B
tree.end
tree "EVE4_FW"
base ad:0x4A157000
width 30.
group.long 0x0++0x3
line.long 0x00 "ERROR_LOG_k,Error log register for port k"
bitfld.long 0x00 23. " BLK_BURST_VIOLATION ,Read 0x1: 2D burst not allowed or exceeding allowed size Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1"
bitfld.long 0x00 17.--21. "         REGION_START_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 12.--16. "  REGION_END_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " REQINFO_ERRLOG      ,Read: Error in reqinfo vector mapped as follows: [11: 8] ConnID [3:0] [7] MCMD [0] [6:4] Reserved [3] MReqDebug [2] Reserved [1] MReqSupervisor [0] MReqType Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers"
rgroup.long 0x4++0x3
line.long 0x00 "LOGICAL_ADDR_ERRLOG_k,Logical Physical Address Error log register for port k"
hexmask.long 0x00 0.--31. 1. " SLVOFS_LOGICAL      ,Address generated by the Initiator before being translated"
group.long 0x40++0x3
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
bitfld.long 0x00 16.--19. " FW_ADDR_SPACE_MSB   ,Address space size" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
eventfld.long 0x00 1. "        FW_LOAD_REQ         ,Writing '1' to this bit causes the bit to self-clear and triggers the reload of L3 firewall default values. This bit will subsequently self-set when the reload procedure is complete. Writing '0' has no effect." "0,1"
bitfld.long 0x00 0. "   BUSY_REQ          ,Busy request 0x0: Allow transactions to reach the slave NIU (resume) 0x1: No transaction can reach the slave NIU (suspend)" "0,1"
group.long 0x88++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG       ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "         PUB_USR_DEBUG       ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "   PUB_PRV_WRITE     ,Public Privilege Write Allowed" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PUB_PRV_READ        ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "         PUB_PRV_EXE         ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "   PUB_USR_WRITE     ,Public User Write Access Allowed" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PUB_USR_READ        ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "         PUB_USR_EXE         ,Public User Exe Access Allowed" "0,1"
group.long 0x8C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j,Region j Permission High"
bitfld.long 0x00 31. " W15                 ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "         R15                 ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "   W14               ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 28. " R14                 ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "         W13                 ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "   R13               ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 25. " W12                 ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "         R12                 ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "   W11               ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 22. " R11                 ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "         W10                 ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "   R10               ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 19. " W9                  ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "         R9                  ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "   W8                ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 16. " R8                  ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "         W7                  ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "   R7                ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 13. " W6                  ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "         R6                  ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "   W5                ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 10. " R5                  ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "         W4                  ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "   R4                ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 7. " W3                  ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "         R3                  ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "   W2                ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 4. " R2                  ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "         W1                  ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "   R1                ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 1. " W0                  ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "         R0                  ,Master NIU ConnID = 0 read permission" "0,1"
width 0x0B
tree.end
tree "EDMA_TPCC_FW"
base ad:0x4A161000
width 30.
group.long 0x0++0x3
line.long 0x00 "ERROR_LOG_k,Error log register for port k"
bitfld.long 0x00 23. " BLK_BURST_VIOLATION ,Read 0x1: 2D burst not allowed or exceeding allowed size Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1"
bitfld.long 0x00 17.--21. "         REGION_START_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 12.--16. "  REGION_END_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " REQINFO_ERRLOG      ,Read: Error in reqinfo vector mapped as follows: [11: 8] ConnID [3:0] [7] MCMD [0] [6:4] Reserved [3] MReqDebug [2] Reserved [1] MReqSupervisor [0] MReqType Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers"
rgroup.long 0x4++0x3
line.long 0x00 "LOGICAL_ADDR_ERRLOG_k,Logical Physical Address Error log register for port k"
hexmask.long 0x00 0.--31. 1. " SLVOFS_LOGICAL      ,Address generated by the Initiator before being translated"
group.long 0x40++0x3
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
bitfld.long 0x00 16.--19. " FW_ADDR_SPACE_MSB   ,Address space size" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
eventfld.long 0x00 1. "        FW_LOAD_REQ         ,Writing '1' to this bit causes the bit to self-clear and triggers the reload of L3 firewall default values. This bit will subsequently self-set when the reload procedure is complete. Writing '0' has no effect." "0,1"
bitfld.long 0x00 0. "   BUSY_REQ          ,Busy request 0x0: Allow transactions to reach the slave NIU (resume) 0x1: No transaction can reach the slave NIU (suspend)" "0,1"
group.long 0x88++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG       ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "         PUB_USR_DEBUG       ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "   PUB_PRV_WRITE     ,Public Privilege Write Allowed" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PUB_PRV_READ        ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "         PUB_PRV_EXE         ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "   PUB_USR_WRITE     ,Public User Write Access Allowed" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PUB_USR_READ        ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "         PUB_USR_EXE         ,Public User Exe Access Allowed" "0,1"
group.long 0x8C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j,Region j Permission High"
bitfld.long 0x00 31. " W15                 ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "         R15                 ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "   W14               ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 28. " R14                 ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "         W13                 ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "   R13               ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 25. " W12                 ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "         R12                 ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "   W11               ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 22. " R11                 ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "         W10                 ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "   R10               ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 19. " W9                  ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "         R9                  ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "   W8                ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 16. " R8                  ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "         W7                  ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "   R7                ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 13. " W6                  ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "         R6                  ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "   W5                ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 10. " R5                  ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "         W4                  ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "   R4                ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 7. " W3                  ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "         R3                  ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "   W2                ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 4. " R2                  ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "         W1                  ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "   R1                ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 1. " W0                  ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "         R0                  ,Master NIU ConnID = 0 read permission" "0,1"
width 0x0B
tree.end
tree "DSP1_SDMA_FW"
base ad:0x4A171000
width 30.
group.long 0x0++0x3
line.long 0x00 "ERROR_LOG_k,Error log register for port k"
bitfld.long 0x00 23. " BLK_BURST_VIOLATION ,Read 0x1: 2D burst not allowed or exceeding allowed size Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1"
bitfld.long 0x00 17.--21. "         REGION_START_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 12.--16. "  REGION_END_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " REQINFO_ERRLOG      ,Read: Error in reqinfo vector mapped as follows: [11: 8] ConnID [3:0] [7] MCMD [0] [6:4] Reserved [3] MReqDebug [2] Reserved [1] MReqSupervisor [0] MReqType Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers"
rgroup.long 0x4++0x3
line.long 0x00 "LOGICAL_ADDR_ERRLOG_k,Logical Physical Address Error log register for port k"
hexmask.long 0x00 0.--31. 1. " SLVOFS_LOGICAL      ,Address generated by the Initiator before being translated"
group.long 0x40++0x3
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
bitfld.long 0x00 16.--19. " FW_ADDR_SPACE_MSB   ,Address space size" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
eventfld.long 0x00 1. "        FW_LOAD_REQ         ,Writing '1' to this bit causes the bit to self-clear and triggers the reload of L3 firewall default values. This bit will subsequently self-set when the reload procedure is complete. Writing '0' has no effect." "0,1"
bitfld.long 0x00 0. "   BUSY_REQ          ,Busy request 0x0: Allow transactions to reach the slave NIU (resume) 0x1: No transaction can reach the slave NIU (suspend)" "0,1"
group.long 0x88++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG       ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "         PUB_USR_DEBUG       ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "   PUB_PRV_WRITE     ,Public Privilege Write Allowed" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PUB_PRV_READ        ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "         PUB_PRV_EXE         ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "   PUB_USR_WRITE     ,Public User Write Access Allowed" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PUB_USR_READ        ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "         PUB_USR_EXE         ,Public User Exe Access Allowed" "0,1"
group.long 0x8C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j,Region j Permission High"
bitfld.long 0x00 31. " W15                 ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "         R15                 ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "   W14               ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 28. " R14                 ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "         W13                 ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "   R13               ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 25. " W12                 ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "         R12                 ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "   W11               ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 22. " R11                 ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "         W10                 ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "   R10               ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 19. " W9                  ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "         R9                  ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "   W8                ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 16. " R8                  ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "         W7                  ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "   R7                ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 13. " W6                  ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "         R6                  ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "   W5                ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 10. " R5                  ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "         W4                  ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "   R4                ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 7. " W3                  ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "         R3                  ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "   W2                ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 4. " R2                  ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "         W1                  ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "   R1                ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 1. " W0                  ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "         R0                  ,Master NIU ConnID = 0 read permission" "0,1"
width 0x0B
tree.end
tree "DSP2_SDMA_FW"
base ad:0x4A173000
width 30.
group.long 0x0++0x3
line.long 0x00 "ERROR_LOG_k,Error log register for port k"
bitfld.long 0x00 23. " BLK_BURST_VIOLATION ,Read 0x1: 2D burst not allowed or exceeding allowed size Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1"
bitfld.long 0x00 17.--21. "         REGION_START_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 12.--16. "  REGION_END_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " REQINFO_ERRLOG      ,Read: Error in reqinfo vector mapped as follows: [11: 8] ConnID [3:0] [7] MCMD [0] [6:4] Reserved [3] MReqDebug [2] Reserved [1] MReqSupervisor [0] MReqType Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers"
rgroup.long 0x4++0x3
line.long 0x00 "LOGICAL_ADDR_ERRLOG_k,Logical Physical Address Error log register for port k"
hexmask.long 0x00 0.--31. 1. " SLVOFS_LOGICAL      ,Address generated by the Initiator before being translated"
group.long 0x40++0x3
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
bitfld.long 0x00 16.--19. " FW_ADDR_SPACE_MSB   ,Address space size" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
eventfld.long 0x00 1. "        FW_LOAD_REQ         ,Writing '1' to this bit causes the bit to self-clear and triggers the reload of L3 firewall default values. This bit will subsequently self-set when the reload procedure is complete. Writing '0' has no effect." "0,1"
bitfld.long 0x00 0. "   BUSY_REQ          ,Busy request 0x0: Allow transactions to reach the slave NIU (resume) 0x1: No transaction can reach the slave NIU (suspend)" "0,1"
group.long 0x88++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG       ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "         PUB_USR_DEBUG       ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "   PUB_PRV_WRITE     ,Public Privilege Write Allowed" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PUB_PRV_READ        ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "         PUB_PRV_EXE         ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "   PUB_USR_WRITE     ,Public User Write Access Allowed" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PUB_USR_READ        ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "         PUB_USR_EXE         ,Public User Exe Access Allowed" "0,1"
group.long 0x8C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j,Region j Permission High"
bitfld.long 0x00 31. " W15                 ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "         R15                 ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "   W14               ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 28. " R14                 ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "         W13                 ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "   R13               ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 25. " W12                 ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "         R12                 ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "   W11               ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 22. " R11                 ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "         W10                 ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "   R10               ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 19. " W9                  ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "         R9                  ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "   W8                ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 16. " R8                  ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "         W7                  ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "   R7                ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 13. " W6                  ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "         R6                  ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "   W5                ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 10. " R5                  ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "         W4                  ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "   R4                ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 7. " W3                  ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "         R3                  ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "   W2                ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 4. " R2                  ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "         W1                  ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "   R1                ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 1. " W0                  ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "         R0                  ,Master NIU ConnID = 0 read permission" "0,1"
width 0x0B
tree.end
tree "PRUSS1_FW"
base ad:0x4A175000
width 30.
group.long 0x0++0x3
line.long 0x00 "ERROR_LOG_k,Error log register for port k"
bitfld.long 0x00 23. " BLK_BURST_VIOLATION ,Read 0x1: 2D burst not allowed or exceeding allowed size Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1"
bitfld.long 0x00 17.--21. "         REGION_START_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 12.--16. "  REGION_END_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " REQINFO_ERRLOG      ,Read: Error in reqinfo vector mapped as follows: [11: 8] ConnID [3:0] [7] MCMD [0] [6:4] Reserved [3] MReqDebug [2] Reserved [1] MReqSupervisor [0] MReqType Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers"
rgroup.long 0x4++0x3
line.long 0x00 "LOGICAL_ADDR_ERRLOG_k,Logical Physical Address Error log register for port k"
hexmask.long 0x00 0.--31. 1. " SLVOFS_LOGICAL      ,Address generated by the Initiator before being translated"
group.long 0x40++0x3
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
bitfld.long 0x00 16.--19. " FW_ADDR_SPACE_MSB   ,Address space size" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
eventfld.long 0x00 1. "        FW_LOAD_REQ         ,Writing '1' to this bit causes the bit to self-clear and triggers the reload of L3 firewall default values. This bit will subsequently self-set when the reload procedure is complete. Writing '0' has no effect." "0,1"
bitfld.long 0x00 0. "   BUSY_REQ          ,Busy request 0x0: Allow transactions to reach the slave NIU (resume) 0x1: No transaction can reach the slave NIU (suspend)" "0,1"
group.long 0x88++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG       ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "         PUB_USR_DEBUG       ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "   PUB_PRV_WRITE     ,Public Privilege Write Allowed" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PUB_PRV_READ        ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "         PUB_PRV_EXE         ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "   PUB_USR_WRITE     ,Public User Write Access Allowed" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PUB_USR_READ        ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "         PUB_USR_EXE         ,Public User Exe Access Allowed" "0,1"
group.long 0x8C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j,Region j Permission High"
bitfld.long 0x00 31. " W15                 ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "         R15                 ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "   W14               ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 28. " R14                 ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "         W13                 ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "   R13               ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 25. " W12                 ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "         R12                 ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "   W11               ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 22. " R11                 ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "         W10                 ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "   R10               ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 19. " W9                  ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "         R9                  ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "   W8                ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 16. " R8                  ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "         W7                  ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "   R7                ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 13. " W6                  ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "         R6                  ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "   W5                ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 10. " R5                  ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "         W4                  ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "   R4                ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 7. " W3                  ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "         R3                  ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "   W2                ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 4. " R2                  ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "         W1                  ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "   R1                ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 1. " W0                  ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "         R0                  ,Master NIU ConnID = 0 read permission" "0,1"
width 0x0B
tree.end
tree "QSPI_FW"
base ad:0x4A179000
width 30.
group.long 0x0++0x3
line.long 0x00 "ERROR_LOG_k,Error log register for port k"
bitfld.long 0x00 23. " BLK_BURST_VIOLATION ,Read 0x1: 2D burst not allowed or exceeding allowed size Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1"
bitfld.long 0x00 17.--21. "         REGION_START_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 12.--16. "  REGION_END_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " REQINFO_ERRLOG      ,Read: Error in reqinfo vector mapped as follows: [11: 8] ConnID [3:0] [7] MCMD [0] [6:4] Reserved [3] MReqDebug [2] Reserved [1] MReqSupervisor [0] MReqType Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers"
rgroup.long 0x4++0x3
line.long 0x00 "LOGICAL_ADDR_ERRLOG_k,Logical Physical Address Error log register for port k"
hexmask.long 0x00 0.--31. 1. " SLVOFS_LOGICAL      ,Address generated by the Initiator before being translated"
group.long 0x40++0x3
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
bitfld.long 0x00 16.--19. " FW_ADDR_SPACE_MSB   ,Address space size" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
eventfld.long 0x00 1. "        FW_LOAD_REQ         ,Writing '1' to this bit causes the bit to self-clear and triggers the reload of L3 firewall default values. This bit will subsequently self-set when the reload procedure is complete. Writing '0' has no effect." "0,1"
bitfld.long 0x00 0. "   BUSY_REQ          ,Busy request 0x0: Allow transactions to reach the slave NIU (resume) 0x1: No transaction can reach the slave NIU (suspend)" "0,1"
group.long 0x88++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG       ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "         PUB_USR_DEBUG       ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "   PUB_PRV_WRITE     ,Public Privilege Write Allowed" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PUB_PRV_READ        ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "         PUB_PRV_EXE         ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "   PUB_USR_WRITE     ,Public User Write Access Allowed" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PUB_USR_READ        ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "         PUB_USR_EXE         ,Public User Exe Access Allowed" "0,1"
group.long 0x8C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j,Region j Permission High"
bitfld.long 0x00 31. " W15                 ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "         R15                 ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "   W14               ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 28. " R14                 ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "         W13                 ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "   R13               ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 25. " W12                 ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "         R12                 ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "   W11               ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 22. " R11                 ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "         W10                 ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "   R10               ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 19. " W9                  ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "         R9                  ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "   W8                ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 16. " R8                  ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "         W7                  ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "   R7                ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 13. " W6                  ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "         R6                  ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "   W5                ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 10. " R5                  ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "         W4                  ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "   R4                ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 7. " W3                  ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "         R3                  ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "   W2                ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 4. " R2                  ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "         W1                  ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "   R1                ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 1. " W0                  ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "         R0                  ,Master NIU ConnID = 0 read permission" "0,1"
width 0x0B
tree.end
tree "GPU_FW"
base ad:0x4A214000
width 30.
group.long 0x0++0x3
line.long 0x00 "ERROR_LOG_k,Error log register for port k"
bitfld.long 0x00 23. " BLK_BURST_VIOLATION ,Read 0x1: 2D burst not allowed or exceeding allowed size Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1"
bitfld.long 0x00 17.--21. "         REGION_START_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 12.--16. "  REGION_END_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " REQINFO_ERRLOG      ,Read: Error in reqinfo vector mapped as follows: [11: 8] ConnID [3:0] [7] MCMD [0] [6:4] Reserved [3] MReqDebug [2] Reserved [1] MReqSupervisor [0] MReqType Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers"
rgroup.long 0x4++0x3
line.long 0x00 "LOGICAL_ADDR_ERRLOG_k,Logical Physical Address Error log register for port k"
hexmask.long 0x00 0.--31. 1. " SLVOFS_LOGICAL      ,Address generated by the Initiator before being translated"
group.long 0x40++0x3
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
bitfld.long 0x00 16.--19. " FW_ADDR_SPACE_MSB   ,Address space size" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
eventfld.long 0x00 1. "        FW_LOAD_REQ         ,Writing '1' to this bit causes the bit to self-clear and triggers the reload of L3 firewall default values. This bit will subsequently self-set when the reload procedure is complete. Writing '0' has no effect." "0,1"
bitfld.long 0x00 0. "   BUSY_REQ          ,Busy request 0x0: Allow transactions to reach the slave NIU (resume) 0x1: No transaction can reach the slave NIU (suspend)" "0,1"
group.long 0x88++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG       ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "         PUB_USR_DEBUG       ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "   PUB_PRV_WRITE     ,Public Privilege Write Allowed" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PUB_PRV_READ        ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "         PUB_PRV_EXE         ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "   PUB_USR_WRITE     ,Public User Write Access Allowed" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PUB_USR_READ        ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "         PUB_USR_EXE         ,Public User Exe Access Allowed" "0,1"
group.long 0x8C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j,Region j Permission High"
bitfld.long 0x00 31. " W15                 ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "         R15                 ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "   W14               ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 28. " R14                 ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "         W13                 ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "   R13               ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 25. " W12                 ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "         R12                 ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "   W11               ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 22. " R11                 ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "         W10                 ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "   R10               ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 19. " W9                  ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "         R9                  ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "   W8                ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 16. " R8                  ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "         W7                  ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "   R7                ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 13. " W6                  ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "         R6                  ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "   W5                ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 10. " R5                  ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "         W4                  ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "   R4                ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 7. " W3                  ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "         R3                  ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "   W2                ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 4. " R2                  ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "         W1                  ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "   R1                ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 1. " W0                  ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "         R0                  ,Master NIU ConnID = 0 read permission" "0,1"
width 0x0B
tree.end
tree "IVA_CONFIG_FW"
base ad:0x4A220000
width 30.
group.long 0x0++0x3
line.long 0x00 "ERROR_LOG_k,Error log register for port k"
bitfld.long 0x00 23. " BLK_BURST_VIOLATION ,Read 0x1: 2D burst not allowed or exceeding allowed size Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1"
bitfld.long 0x00 17.--21. "         REGION_START_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 12.--16. "  REGION_END_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " REQINFO_ERRLOG      ,Read: Error in reqinfo vector mapped as follows: [11: 8] ConnID [3:0] [7] MCMD [0] [6:4] Reserved [3] MReqDebug [2] Reserved [1] MReqSupervisor [0] MReqType Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers"
rgroup.long 0x4++0x3
line.long 0x00 "LOGICAL_ADDR_ERRLOG_k,Logical Physical Address Error log register for port k"
hexmask.long 0x00 0.--31. 1. " SLVOFS_LOGICAL      ,Address generated by the Initiator before being translated"
group.long 0x40++0x3
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
bitfld.long 0x00 16.--19. " FW_ADDR_SPACE_MSB   ,Address space size" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
eventfld.long 0x00 1. "        FW_LOAD_REQ         ,Writing '1' to this bit causes the bit to self-clear and triggers the reload of L3 firewall default values. This bit will subsequently self-set when the reload procedure is complete. Writing '0' has no effect." "0,1"
bitfld.long 0x00 0. "   BUSY_REQ          ,Busy request 0x0: Allow transactions to reach the slave NIU (resume) 0x1: No transaction can reach the slave NIU (suspend)" "0,1"
group.long 0x88++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG       ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "         PUB_USR_DEBUG       ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "   PUB_PRV_WRITE     ,Public Privilege Write Allowed" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PUB_PRV_READ        ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "         PUB_PRV_EXE         ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "   PUB_USR_WRITE     ,Public User Write Access Allowed" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PUB_USR_READ        ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "         PUB_USR_EXE         ,Public User Exe Access Allowed" "0,1"
group.long 0x8C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j,Region j Permission High"
bitfld.long 0x00 31. " W15                 ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "         R15                 ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "   W14               ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 28. " R14                 ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "         W13                 ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "   R13               ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 25. " W12                 ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "         R12                 ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "   W11               ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 22. " R11                 ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "         W10                 ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "   R10               ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 19. " W9                  ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "         R9                  ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "   W8                ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 16. " R8                  ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "         W7                  ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "   R7                ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 13. " W6                  ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "         R6                  ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "   W5                ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 10. " R5                  ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "         W4                  ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "   R4                ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 7. " W3                  ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "         R3                  ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "   W2                ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 4. " R2                  ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "         W1                  ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "   R1                ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 1. " W0                  ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "         R0                  ,Master NIU ConnID = 0 read permission" "0,1"
width 0x0B
tree.end
tree "DEBUGSS_CT_TBR_FW"
base ad:0x4A224000
width 30.
group.long 0x0++0x3
line.long 0x00 "ERROR_LOG_k,Error log register for port k"
bitfld.long 0x00 23. " BLK_BURST_VIOLATION ,Read 0x1: 2D burst not allowed or exceeding allowed size Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1"
bitfld.long 0x00 17.--21. "         REGION_START_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 12.--16. "  REGION_END_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " REQINFO_ERRLOG      ,Read: Error in reqinfo vector mapped as follows: [11: 8] ConnID [3:0] [7] MCMD [0] [6:4] Reserved [3] MReqDebug [2] Reserved [1] MReqSupervisor [0] MReqType Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers"
rgroup.long 0x4++0x3
line.long 0x00 "LOGICAL_ADDR_ERRLOG_k,Logical Physical Address Error log register for port k"
hexmask.long 0x00 0.--31. 1. " SLVOFS_LOGICAL      ,Address generated by the Initiator before being translated"
group.long 0x40++0x3
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
bitfld.long 0x00 16.--19. " FW_ADDR_SPACE_MSB   ,Address space size" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
eventfld.long 0x00 1. "        FW_LOAD_REQ         ,Writing '1' to this bit causes the bit to self-clear and triggers the reload of L3 firewall default values. This bit will subsequently self-set when the reload procedure is complete. Writing '0' has no effect." "0,1"
bitfld.long 0x00 0. "   BUSY_REQ          ,Busy request 0x0: Allow transactions to reach the slave NIU (resume) 0x1: No transaction can reach the slave NIU (suspend)" "0,1"
group.long 0x88++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG       ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "         PUB_USR_DEBUG       ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "   PUB_PRV_WRITE     ,Public Privilege Write Allowed" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PUB_PRV_READ        ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "         PUB_PRV_EXE         ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "   PUB_USR_WRITE     ,Public User Write Access Allowed" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PUB_USR_READ        ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "         PUB_USR_EXE         ,Public User Exe Access Allowed" "0,1"
group.long 0x8C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j,Region j Permission High"
bitfld.long 0x00 31. " W15                 ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "         R15                 ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "   W14               ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 28. " R14                 ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "         W13                 ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "   R13               ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 25. " W12                 ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "         R12                 ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "   W11               ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 22. " R11                 ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "         W10                 ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "   R10               ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 19. " W9                  ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "         R9                  ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "   W8                ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 16. " R8                  ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "         W7                  ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "   R7                ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 13. " W6                  ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "         R6                  ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "   W5                ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 10. " R5                  ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "         W4                  ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "   R4                ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 7. " W3                  ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "         R3                  ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "   W2                ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 4. " R2                  ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "         W1                  ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "   R1                ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 1. " W0                  ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "         R0                  ,Master NIU ConnID = 0 read permission" "0,1"
width 0x0B
tree.end
tree "L3_INSTR_FW"
base ad:0x4A226000
width 30.
group.long 0x0++0x3
line.long 0x00 "ERROR_LOG_k,Error log register for port k"
bitfld.long 0x00 23. " BLK_BURST_VIOLATION ,Read 0x1: 2D burst not allowed or exceeding allowed size Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1"
bitfld.long 0x00 17.--21. "         REGION_START_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 12.--16. "  REGION_END_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                       "
hexmask.long.word 0x00 0.--11. 1. " REQINFO_ERRLOG      ,Read: Error in reqinfo vector mapped as follows: [11: 8] ConnID [3:0] [7] MCMD [0] [6:4] Reserved [3] MReqDebug [2] Reserved [1] MReqSupervisor [0] MReqType Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers"
rgroup.long 0x4++0x3
line.long 0x00 "LOGICAL_ADDR_ERRLOG_k,Logical Physical Address Error log register for port k"
hexmask.long 0x00 0.--31. 1. " SLVOFS_LOGICAL      ,Address generated by the Initiator before being translated"
group.long 0x40++0x3
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
bitfld.long 0x00 16.--19. " FW_ADDR_SPACE_MSB   ,Address space size" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
eventfld.long 0x00 1. "        FW_LOAD_REQ         ,Writing '1' to this bit causes the bit to self-clear and triggers the reload of L3 firewall default values. This bit will subsequently self-set when the reload procedure is complete. Writing '0' has no effect." "0,1"
bitfld.long 0x00 0. "   BUSY_REQ          ,Busy request 0x0: Allow transactions to reach the slave NIU (resume) 0x1: No transaction can reach the slave NIU (suspend)" "0,1"
group.long 0x88++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG       ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "         PUB_USR_DEBUG       ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "   PUB_PRV_WRITE     ,Public Privilege Write Allowed" "0,1"
textline "                                       "
bitfld.long 0x00 10. " PUB_PRV_READ        ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "         PUB_PRV_EXE         ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "   PUB_USR_WRITE     ,Public User Write Access Allowed" "0,1"
textline "                                       "
bitfld.long 0x00 7. " PUB_USR_READ        ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "         PUB_USR_EXE         ,Public User Exe Access Allowed" "0,1"
group.long 0x8C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j,Region j Permission High"
bitfld.long 0x00 31. " W15                 ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "         R15                 ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "   W14               ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 28. " R14                 ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "         W13                 ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "   R13               ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 25. " W12                 ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "         R12                 ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "   W11               ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 22. " R11                 ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "         W10                 ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "   R10               ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 19. " W9                  ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "         R9                  ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "   W8                ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 16. " R8                  ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "         W7                  ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "   R7                ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 13. " W6                  ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "         R6                  ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "   W5                ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 10. " R5                  ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "         W4                  ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "   R4                ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 7. " W3                  ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "         R3                  ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "   W2                ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                       "
bitfld.long 0x00 4. " R2                  ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "         W1                  ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "   R1                ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                       "
bitfld.long 0x00 1. " W0                  ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "         R0                  ,Master NIU ConnID = 0 read permission" "0,1"
width 0x0B
tree.end
tree.end
tree.open "IPU1_FW"
tree "IPU1_FW"
base ad:0x4A15B000
tree "REG_Bundle_0"
width 32.
group.long 0x8C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_0,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "  R15           ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14           ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "  W13           ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13           ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "  R12           ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11           ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "  W10           ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10           ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "  R9            ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8            ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "  W7            ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7            ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "  R6            ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5            ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "  W4            ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4            ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "  R3            ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2            ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "  W1            ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1            ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "  R0            ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x88++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_0,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "  PUB_USR_DEBUG ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "  PUB_PRV_EXE   ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "  PUB_USR_EXE   ,Public User Exe Access Allowed" "0,1"
tree.end
tree "REG_Bundle_1"
width 32.
group.long 0x94++0x3
line.long 0x00 "END_REGION_i_1,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x9C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_1,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x98++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_1,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x90++0x3
line.long 0x00 "START_REGION_i_1,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_2"
width 32.
group.long 0xA4++0x3
line.long 0x00 "END_REGION_i_2,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xAC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_2,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xA8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_2,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xA0++0x3
line.long 0x00 "START_REGION_i_2,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_3"
width 32.
group.long 0xB4++0x3
line.long 0x00 "END_REGION_i_3,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xBC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_3,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xB8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_3,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xB0++0x3
line.long 0x00 "START_REGION_i_3,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
textline ""
width 23.
group.long 0x0++0x3
line.long 0x00 "ERROR_LOG_k,Error log register for port k"
bitfld.long 0x00 23. " BLK_BURST_VIOLATION ,Read 0x1: 2D burst not allowed or exceeding allowed size Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1"
bitfld.long 0x00 17.--21. "         REGION_START_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 12.--16. "  REGION_END_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                "
hexmask.long.word 0x00 0.--11. 1. " REQINFO_ERRLOG      ,Read: Error in reqinfo vector mapped as follows: [11: 8] ConnID [3:0] [7] MCMD [0] [6:4] Reserved [3] MReqDebug [2] Reserved [1] MReqSupervisor [0] MReqType Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers"
rgroup.long 0x4++0x3
line.long 0x00 "LOGICAL_ADDR_ERRLOG_k,Logical Physical Address Error log register for port k"
hexmask.long 0x00 0.--31. 1. " SLVOFS_LOGICAL      ,Address generated by the Initiator before being translated"
group.long 0x40++0x3
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
bitfld.long 0x00 16.--19. " FW_ADDR_SPACE_MSB   ,Address space size" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
eventfld.long 0x00 1. "        FW_LOAD_REQ         ,Writing '1' to this bit causes the bit to self-clear and triggers the reload of L3 firewall default values. This bit will subsequently self-set when the reload procedure is complete. Writing '0' has no effect." "0,1"
bitfld.long 0x00 0. "   BUSY_REQ          ,Busy request 0x0: Allow transactions to reach the slave NIU (resume) 0x1: No transaction can reach the slave NIU (suspend)" "0,1"
width 0x0B
tree.end
tree "IVA_SL2IF_FW"
base ad:0x4A21E000
tree "REG_Bundle_0"
width 32.
group.long 0x8C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_0,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "  R15           ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14           ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "  W13           ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13           ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "  R12           ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11           ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "  W10           ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10           ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "  R9            ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8            ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "  W7            ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7            ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "  R6            ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5            ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "  W4            ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4            ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "  R3            ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2            ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "  W1            ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1            ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "  R0            ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x88++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_0,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "  PUB_USR_DEBUG ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "  PUB_PRV_EXE   ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "  PUB_USR_EXE   ,Public User Exe Access Allowed" "0,1"
tree.end
tree "REG_Bundle_1"
width 32.
group.long 0x94++0x3
line.long 0x00 "END_REGION_i_1,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0x9C++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_1,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0x98++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_1,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0x90++0x3
line.long 0x00 "START_REGION_i_1,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_2"
width 32.
group.long 0xA4++0x3
line.long 0x00 "END_REGION_i_2,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xAC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_2,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xA8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_2,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xA0++0x3
line.long 0x00 "START_REGION_i_2,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
tree "REG_Bundle_3"
width 32.
group.long 0xB4++0x3
line.long 0x00 "END_REGION_i_3,End physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " END_REGION    ,Physical target end address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
bitfld.long 0x00 1. "  END_REGION_i_ENABLE_CORE1 ,Enable this region for port 1." "0,1"
bitfld.long 0x00 0. "  END_REGION_i_ENABLE_CORE0 ,Enable this region for port 0." "0,1"
group.long 0xBC++0x3
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_3,Region j Permission High"
bitfld.long 0x00 31. " W15           ,Master NIU ConnID = 115 write permission" "0,1"
bitfld.long 0x00 30. "       R15                       ,Master NIU ConnID = 115 read permission" "0,1"
bitfld.long 0x00 29. "  W14                       ,Master NIU ConnID = 14 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 28. " R14           ,Master NIU ConnID = 14 read permission" "0,1"
bitfld.long 0x00 27. "       W13                       ,Master NIU ConnID = 13 write permission" "0,1"
bitfld.long 0x00 26. "  R13                       ,Master NIU ConnID = 13 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 25. " W12           ,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x00 24. "       R12                       ,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x00 23. "  W11                       ,Master NIU ConnID = 11 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 22. " R11           ,Master NIU ConnID = 11 read permission" "0,1"
bitfld.long 0x00 21. "       W10                       ,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "  R10                       ,Master NIU ConnID = 10 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 19. " W9            ,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x00 18. "       R9                        ,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x00 17. "  W8                        ,Master NIU ConnID = 8 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 16. " R8            ,Master NIU ConnID = 8 read permission" "0,1"
bitfld.long 0x00 15. "       W7                        ,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x00 14. "  R7                        ,Master NIU ConnID = 7 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 13. " W6            ,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x00 12. "       R6                        ,Master NIU ConnID = 6 read permission" "0,1"
bitfld.long 0x00 11. "  W5                        ,Master NIU ConnID = 5 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 10. " R5            ,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x00 9. "       W4                        ,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x00 8. "  R4                        ,Master NIU ConnID = 4 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 7. " W3            ,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x00 6. "       R3                        ,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x00 5. "  W2                        ,Master NIU ConnID = 2 write permission" "0,1"
textline "                                         "
bitfld.long 0x00 4. " R2            ,Master NIU ConnID = 2 read permission" "0,1"
bitfld.long 0x00 3. "       W1                        ,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x00 2. "  R1                        ,Master NIU ConnID = 1 read permission" "0,1"
textline "                                         "
bitfld.long 0x00 1. " W0            ,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x00 0. "       R0                        ,Master NIU ConnID = 0 read permission" "0,1"
group.long 0xB8++0x3
line.long 0x00 "MRM_PERMISSION_REGION_LOW_j_3,Region j Permission Low"
bitfld.long 0x00 15. " PUB_PRV_DEBUG ,Public Privilege Debug Allowed" "0,1"
bitfld.long 0x00 14. "       PUB_USR_DEBUG             ,Public User Debug Allowed" "0,1"
bitfld.long 0x00 11. "  PUB_PRV_WRITE             ,Public Privilege Write Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 10. " PUB_PRV_READ  ,Public Privilege Read Allowed" "0,1"
bitfld.long 0x00 9. "       PUB_PRV_EXE               ,Public Privilege Exe Allowed" "0,1"
bitfld.long 0x00 8. "  PUB_USR_WRITE             ,Public User Write Access Allowed" "0,1"
textline "                                         "
bitfld.long 0x00 7. " PUB_USR_READ  ,Public User Read Access Allowed" "0,1"
bitfld.long 0x00 6. "       PUB_USR_EXE               ,Public User Exe Access Allowed" "0,1"
group.long 0xB0++0x3
line.long 0x00 "START_REGION_i_3,Start physical address of region i"
hexmask.long.tbyte 0x00 10.--31. 1. " START_REGION  ,Physical target start address of firewall region i. The size of this bit field depends on target addressable space, the maximum is [31:12]. See."
tree.end
textline ""
width 23.
group.long 0x0++0x3
line.long 0x00 "ERROR_LOG_k,Error log register for port k"
bitfld.long 0x00 23. " BLK_BURST_VIOLATION ,Read 0x1: 2D burst not allowed or exceeding allowed size Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1"
bitfld.long 0x00 17.--21. "         REGION_START_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 12.--16. "  REGION_END_ERRLOG ,Read: Wrong access hit this region number Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                "
hexmask.long.word 0x00 0.--11. 1. " REQINFO_ERRLOG      ,Read: Error in reqinfo vector mapped as follows: [11: 8] ConnID [3:0] [7] MCMD [0] [6:4] Reserved [3] MReqDebug [2] Reserved [1] MReqSupervisor [0] MReqType Write to clear ERROR_LOG_k and LOGICAL_ADDR_ERRLOG_k registers"
rgroup.long 0x4++0x3
line.long 0x00 "LOGICAL_ADDR_ERRLOG_k,Logical Physical Address Error log register for port k"
hexmask.long 0x00 0.--31. 1. " SLVOFS_LOGICAL      ,Address generated by the Initiator before being translated"
group.long 0x40++0x3
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
bitfld.long 0x00 16.--19. " FW_ADDR_SPACE_MSB   ,Address space size" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
eventfld.long 0x00 1. "        FW_LOAD_REQ         ,Writing '1' to this bit causes the bit to self-clear and triggers the reload of L3 firewall default values. This bit will subsequently self-set when the reload procedure is complete. Writing '0' has no effect." "0,1"
bitfld.long 0x00 0. "   BUSY_REQ          ,Busy request 0x0: Allow transactions to reach the slave NIU (resume) 0x1: No transaction can reach the slave NIU (suspend)" "0,1"
width 0x0B
tree.end
tree.end
tree.open "CLK1_2_MMU2_BW_REGULATOR"
tree "CLK1_2_MMU2_BW_REGULATOR"
base ad:0x44803B00
width 39.
rgroup.long 0x0++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x31." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "    STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "    STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_BW_REGULATOR_BANDWIDTH,"
hexmask.long.word 0x00 0.--15. 1. " BANDWIDTH                        ,Bandwidth, in bytes per second. Type: Control. Reset value: 0x0."
group.long 0xC++0x3
line.long 0x00 "L3_BW_REGULATOR_WATERMARK,"
hexmask.long.word 0x00 0.--11. 1. " WATERMARK                        ,Peak permissible bandwidth, in bytes. Type: Control. Reset value: 0x1."
rgroup.long 0x10++0x3
line.long 0x00 "L3_BW_REGULATOR_PRESS,"
bitfld.long 0x00 2.--3. " PRESS_LOW                        ,Pressure value inserted if the measured bandwidth is over the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x0." "0,1,2,3"
bitfld.long 0x00 0.--1. "     PRESS_HIGH                               ,Pressure value inserted if the measured bandwidth is under the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x1." "0,1,2,3"
group.long 0x14++0x3
line.long 0x00 "L3_BW_REGULATOR_CLEARHISTORY,"
bitfld.long 0x00 0. " CLEARHISTORY                     ,Write a 1 clear the traffic counter Type: Give_AutoCleared. Reset value: 0x0." "0,1"
width 0x0B
tree.end
tree "CLK1_2_EVE1_TC0_BW_REGULATOR"
base ad:0x44804200
width 39.
rgroup.long 0x0++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x31." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "    STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "    STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_BW_REGULATOR_BANDWIDTH,"
hexmask.long.word 0x00 0.--15. 1. " BANDWIDTH                        ,Bandwidth, in bytes per second. Type: Control. Reset value: 0x0."
group.long 0xC++0x3
line.long 0x00 "L3_BW_REGULATOR_WATERMARK,"
hexmask.long.word 0x00 0.--11. 1. " WATERMARK                        ,Peak permissible bandwidth, in bytes. Type: Control. Reset value: 0x1."
rgroup.long 0x10++0x3
line.long 0x00 "L3_BW_REGULATOR_PRESS,"
bitfld.long 0x00 2.--3. " PRESS_LOW                        ,Pressure value inserted if the measured bandwidth is over the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x0." "0,1,2,3"
bitfld.long 0x00 0.--1. "     PRESS_HIGH                               ,Pressure value inserted if the measured bandwidth is under the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x1." "0,1,2,3"
group.long 0x14++0x3
line.long 0x00 "L3_BW_REGULATOR_CLEARHISTORY,"
bitfld.long 0x00 0. " CLEARHISTORY                     ,Write a 1 clear the traffic counter Type: Give_AutoCleared. Reset value: 0x0." "0,1"
width 0x0B
tree.end
tree "CLK1_2_EVE2_TC0_BW_REGULATOR"
base ad:0x44804300
width 39.
rgroup.long 0x0++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x31." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "    STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "    STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_BW_REGULATOR_BANDWIDTH,"
hexmask.long.word 0x00 0.--15. 1. " BANDWIDTH                        ,Bandwidth, in bytes per second. Type: Control. Reset value: 0x0."
group.long 0xC++0x3
line.long 0x00 "L3_BW_REGULATOR_WATERMARK,"
hexmask.long.word 0x00 0.--11. 1. " WATERMARK                        ,Peak permissible bandwidth, in bytes. Type: Control. Reset value: 0x1."
rgroup.long 0x10++0x3
line.long 0x00 "L3_BW_REGULATOR_PRESS,"
bitfld.long 0x00 2.--3. " PRESS_LOW                        ,Pressure value inserted if the measured bandwidth is over the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x0." "0,1,2,3"
bitfld.long 0x00 0.--1. "     PRESS_HIGH                               ,Pressure value inserted if the measured bandwidth is under the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x1." "0,1,2,3"
group.long 0x14++0x3
line.long 0x00 "L3_BW_REGULATOR_CLEARHISTORY,"
bitfld.long 0x00 0. " CLEARHISTORY                     ,Write a 1 clear the traffic counter Type: Give_AutoCleared. Reset value: 0x0." "0,1"
width 0x0B
tree.end
tree "CLK1_2_EVE3_TC0_BW_REGULATOR"
base ad:0x44804400
width 39.
rgroup.long 0x0++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x31." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "    STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "    STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_BW_REGULATOR_BANDWIDTH,"
hexmask.long.word 0x00 0.--15. 1. " BANDWIDTH                        ,Bandwidth, in bytes per second. Type: Control. Reset value: 0x0."
group.long 0xC++0x3
line.long 0x00 "L3_BW_REGULATOR_WATERMARK,"
hexmask.long.word 0x00 0.--11. 1. " WATERMARK                        ,Peak permissible bandwidth, in bytes. Type: Control. Reset value: 0x1."
rgroup.long 0x10++0x3
line.long 0x00 "L3_BW_REGULATOR_PRESS,"
bitfld.long 0x00 2.--3. " PRESS_LOW                        ,Pressure value inserted if the measured bandwidth is over the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x0." "0,1,2,3"
bitfld.long 0x00 0.--1. "     PRESS_HIGH                               ,Pressure value inserted if the measured bandwidth is under the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x1." "0,1,2,3"
group.long 0x14++0x3
line.long 0x00 "L3_BW_REGULATOR_CLEARHISTORY,"
bitfld.long 0x00 0. " CLEARHISTORY                     ,Write a 1 clear the traffic counter Type: Give_AutoCleared. Reset value: 0x0." "0,1"
width 0x0B
tree.end
tree "CLK1_2_EVE4_TC0_BW_REGULATOR"
base ad:0x44804500
width 39.
rgroup.long 0x0++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x31." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "    STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "    STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_BW_REGULATOR_BANDWIDTH,"
hexmask.long.word 0x00 0.--15. 1. " BANDWIDTH                        ,Bandwidth, in bytes per second. Type: Control. Reset value: 0x0."
group.long 0xC++0x3
line.long 0x00 "L3_BW_REGULATOR_WATERMARK,"
hexmask.long.word 0x00 0.--11. 1. " WATERMARK                        ,Peak permissible bandwidth, in bytes. Type: Control. Reset value: 0x1."
rgroup.long 0x10++0x3
line.long 0x00 "L3_BW_REGULATOR_PRESS,"
bitfld.long 0x00 2.--3. " PRESS_LOW                        ,Pressure value inserted if the measured bandwidth is over the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x0." "0,1,2,3"
bitfld.long 0x00 0.--1. "     PRESS_HIGH                               ,Pressure value inserted if the measured bandwidth is under the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x1." "0,1,2,3"
group.long 0x14++0x3
line.long 0x00 "L3_BW_REGULATOR_CLEARHISTORY,"
bitfld.long 0x00 0. " CLEARHISTORY                     ,Write a 1 clear the traffic counter Type: Give_AutoCleared. Reset value: 0x0." "0,1"
width 0x0B
tree.end
tree "CLK1_2_EVE1_TC1_BW_REGULATOR"
base ad:0x44804600
width 39.
rgroup.long 0x0++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x31." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "    STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "    STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_BW_REGULATOR_BANDWIDTH,"
hexmask.long.word 0x00 0.--15. 1. " BANDWIDTH                        ,Bandwidth, in bytes per second. Type: Control. Reset value: 0x0."
group.long 0xC++0x3
line.long 0x00 "L3_BW_REGULATOR_WATERMARK,"
hexmask.long.word 0x00 0.--11. 1. " WATERMARK                        ,Peak permissible bandwidth, in bytes. Type: Control. Reset value: 0x1."
rgroup.long 0x10++0x3
line.long 0x00 "L3_BW_REGULATOR_PRESS,"
bitfld.long 0x00 2.--3. " PRESS_LOW                        ,Pressure value inserted if the measured bandwidth is over the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x0." "0,1,2,3"
bitfld.long 0x00 0.--1. "     PRESS_HIGH                               ,Pressure value inserted if the measured bandwidth is under the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x1." "0,1,2,3"
group.long 0x14++0x3
line.long 0x00 "L3_BW_REGULATOR_CLEARHISTORY,"
bitfld.long 0x00 0. " CLEARHISTORY                     ,Write a 1 clear the traffic counter Type: Give_AutoCleared. Reset value: 0x0." "0,1"
width 0x0B
tree.end
tree "CLK1_2_EVE2_TC1_BW_REGULATOR"
base ad:0x44804700
width 39.
rgroup.long 0x0++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x31." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "    STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "    STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_BW_REGULATOR_BANDWIDTH,"
hexmask.long.word 0x00 0.--15. 1. " BANDWIDTH                        ,Bandwidth, in bytes per second. Type: Control. Reset value: 0x0."
group.long 0xC++0x3
line.long 0x00 "L3_BW_REGULATOR_WATERMARK,"
hexmask.long.word 0x00 0.--11. 1. " WATERMARK                        ,Peak permissible bandwidth, in bytes. Type: Control. Reset value: 0x1."
rgroup.long 0x10++0x3
line.long 0x00 "L3_BW_REGULATOR_PRESS,"
bitfld.long 0x00 2.--3. " PRESS_LOW                        ,Pressure value inserted if the measured bandwidth is over the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x0." "0,1,2,3"
bitfld.long 0x00 0.--1. "     PRESS_HIGH                               ,Pressure value inserted if the measured bandwidth is under the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x1." "0,1,2,3"
group.long 0x14++0x3
line.long 0x00 "L3_BW_REGULATOR_CLEARHISTORY,"
bitfld.long 0x00 0. " CLEARHISTORY                     ,Write a 1 clear the traffic counter Type: Give_AutoCleared. Reset value: 0x0." "0,1"
width 0x0B
tree.end
tree "CLK1_2_EVE3_TC1_BW_REGULATOR"
base ad:0x44804800
width 39.
rgroup.long 0x0++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x31." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "    STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "    STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_BW_REGULATOR_BANDWIDTH,"
hexmask.long.word 0x00 0.--15. 1. " BANDWIDTH                        ,Bandwidth, in bytes per second. Type: Control. Reset value: 0x0."
group.long 0xC++0x3
line.long 0x00 "L3_BW_REGULATOR_WATERMARK,"
hexmask.long.word 0x00 0.--11. 1. " WATERMARK                        ,Peak permissible bandwidth, in bytes. Type: Control. Reset value: 0x1."
rgroup.long 0x10++0x3
line.long 0x00 "L3_BW_REGULATOR_PRESS,"
bitfld.long 0x00 2.--3. " PRESS_LOW                        ,Pressure value inserted if the measured bandwidth is over the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x0." "0,1,2,3"
bitfld.long 0x00 0.--1. "     PRESS_HIGH                               ,Pressure value inserted if the measured bandwidth is under the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x1." "0,1,2,3"
group.long 0x14++0x3
line.long 0x00 "L3_BW_REGULATOR_CLEARHISTORY,"
bitfld.long 0x00 0. " CLEARHISTORY                     ,Write a 1 clear the traffic counter Type: Give_AutoCleared. Reset value: 0x0." "0,1"
width 0x0B
tree.end
tree "CLK1_2_EVE4_TC1_BW_REGULATOR"
base ad:0x44804900
width 39.
rgroup.long 0x0++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x31." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "    STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "    STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_BW_REGULATOR_BANDWIDTH,"
hexmask.long.word 0x00 0.--15. 1. " BANDWIDTH                        ,Bandwidth, in bytes per second. Type: Control. Reset value: 0x0."
group.long 0xC++0x3
line.long 0x00 "L3_BW_REGULATOR_WATERMARK,"
hexmask.long.word 0x00 0.--11. 1. " WATERMARK                        ,Peak permissible bandwidth, in bytes. Type: Control. Reset value: 0x1."
rgroup.long 0x10++0x3
line.long 0x00 "L3_BW_REGULATOR_PRESS,"
bitfld.long 0x00 2.--3. " PRESS_LOW                        ,Pressure value inserted if the measured bandwidth is over the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x0." "0,1,2,3"
bitfld.long 0x00 0.--1. "     PRESS_HIGH                               ,Pressure value inserted if the measured bandwidth is under the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x1." "0,1,2,3"
group.long 0x14++0x3
line.long 0x00 "L3_BW_REGULATOR_CLEARHISTORY,"
bitfld.long 0x00 0. " CLEARHISTORY                     ,Write a 1 clear the traffic counter Type: Give_AutoCleared. Reset value: 0x0." "0,1"
width 0x0B
tree.end
tree "CLK1_2_DSP2_EDMA_BW_REGULATOR"
base ad:0x44804A00
width 39.
rgroup.long 0x0++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x31." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "    STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "    STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_BW_REGULATOR_BANDWIDTH,"
hexmask.long.word 0x00 0.--15. 1. " BANDWIDTH                        ,Bandwidth, in bytes per second. Type: Control. Reset value: 0x0."
group.long 0xC++0x3
line.long 0x00 "L3_BW_REGULATOR_WATERMARK,"
hexmask.long.word 0x00 0.--11. 1. " WATERMARK                        ,Peak permissible bandwidth, in bytes. Type: Control. Reset value: 0x1."
rgroup.long 0x10++0x3
line.long 0x00 "L3_BW_REGULATOR_PRESS,"
bitfld.long 0x00 2.--3. " PRESS_LOW                        ,Pressure value inserted if the measured bandwidth is over the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x0." "0,1,2,3"
bitfld.long 0x00 0.--1. "     PRESS_HIGH                               ,Pressure value inserted if the measured bandwidth is under the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x1." "0,1,2,3"
group.long 0x14++0x3
line.long 0x00 "L3_BW_REGULATOR_CLEARHISTORY,"
bitfld.long 0x00 0. " CLEARHISTORY                     ,Write a 1 clear the traffic counter Type: Give_AutoCleared. Reset value: 0x0." "0,1"
width 0x0B
tree.end
tree "CLK1_2_DSP1_EDMA_BW_REGULATOR"
base ad:0x44804B00
width 39.
rgroup.long 0x0++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x31." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "    STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "    STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_BW_REGULATOR_BANDWIDTH,"
hexmask.long.word 0x00 0.--15. 1. " BANDWIDTH                        ,Bandwidth, in bytes per second. Type: Control. Reset value: 0x0."
group.long 0xC++0x3
line.long 0x00 "L3_BW_REGULATOR_WATERMARK,"
hexmask.long.word 0x00 0.--11. 1. " WATERMARK                        ,Peak permissible bandwidth, in bytes. Type: Control. Reset value: 0x1."
rgroup.long 0x10++0x3
line.long 0x00 "L3_BW_REGULATOR_PRESS,"
bitfld.long 0x00 2.--3. " PRESS_LOW                        ,Pressure value inserted if the measured bandwidth is over the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x0." "0,1,2,3"
bitfld.long 0x00 0.--1. "     PRESS_HIGH                               ,Pressure value inserted if the measured bandwidth is under the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x1." "0,1,2,3"
group.long 0x14++0x3
line.long 0x00 "L3_BW_REGULATOR_CLEARHISTORY,"
bitfld.long 0x00 0. " CLEARHISTORY                     ,Write a 1 clear the traffic counter Type: Give_AutoCleared. Reset value: 0x0." "0,1"
width 0x0B
tree.end
tree "CLK1_2_DSP1_MDMA_BW_REGULATOR"
base ad:0x44804C00
width 39.
rgroup.long 0x0++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x31." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "    STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "    STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_BW_REGULATOR_BANDWIDTH,"
hexmask.long.word 0x00 0.--15. 1. " BANDWIDTH                        ,Bandwidth, in bytes per second. Type: Control. Reset value: 0x0."
group.long 0xC++0x3
line.long 0x00 "L3_BW_REGULATOR_WATERMARK,"
hexmask.long.word 0x00 0.--11. 1. " WATERMARK                        ,Peak permissible bandwidth, in bytes. Type: Control. Reset value: 0x1."
rgroup.long 0x10++0x3
line.long 0x00 "L3_BW_REGULATOR_PRESS,"
bitfld.long 0x00 2.--3. " PRESS_LOW                        ,Pressure value inserted if the measured bandwidth is over the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x0." "0,1,2,3"
bitfld.long 0x00 0.--1. "     PRESS_HIGH                               ,Pressure value inserted if the measured bandwidth is under the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x1." "0,1,2,3"
group.long 0x14++0x3
line.long 0x00 "L3_BW_REGULATOR_CLEARHISTORY,"
bitfld.long 0x00 0. " CLEARHISTORY                     ,Write a 1 clear the traffic counter Type: Give_AutoCleared. Reset value: 0x0." "0,1"
width 0x0B
tree.end
tree "CLK1_2_DSP2_MDMA_BW_REGULATOR"
base ad:0x44804D00
width 39.
rgroup.long 0x0++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x31." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "    STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "    STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_BW_REGULATOR_BANDWIDTH,"
hexmask.long.word 0x00 0.--15. 1. " BANDWIDTH                        ,Bandwidth, in bytes per second. Type: Control. Reset value: 0x0."
group.long 0xC++0x3
line.long 0x00 "L3_BW_REGULATOR_WATERMARK,"
hexmask.long.word 0x00 0.--11. 1. " WATERMARK                        ,Peak permissible bandwidth, in bytes. Type: Control. Reset value: 0x1."
rgroup.long 0x10++0x3
line.long 0x00 "L3_BW_REGULATOR_PRESS,"
bitfld.long 0x00 2.--3. " PRESS_LOW                        ,Pressure value inserted if the measured bandwidth is over the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x0." "0,1,2,3"
bitfld.long 0x00 0.--1. "     PRESS_HIGH                               ,Pressure value inserted if the measured bandwidth is under the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x1." "0,1,2,3"
group.long 0x14++0x3
line.long 0x00 "L3_BW_REGULATOR_CLEARHISTORY,"
bitfld.long 0x00 0. " CLEARHISTORY                     ,Write a 1 clear the traffic counter Type: Give_AutoCleared. Reset value: 0x0." "0,1"
width 0x0B
tree.end
tree "CLK1_2_IVA_BW_REGULATOR"
base ad:0x44805000
width 39.
rgroup.long 0x0++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x31." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "    STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "    STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_BW_REGULATOR_BANDWIDTH,"
hexmask.long.word 0x00 0.--15. 1. " BANDWIDTH                        ,Bandwidth, in bytes per second. Type: Control. Reset value: 0x0."
group.long 0xC++0x3
line.long 0x00 "L3_BW_REGULATOR_WATERMARK,"
hexmask.long.word 0x00 0.--11. 1. " WATERMARK                        ,Peak permissible bandwidth, in bytes. Type: Control. Reset value: 0x1."
rgroup.long 0x10++0x3
line.long 0x00 "L3_BW_REGULATOR_PRESS,"
bitfld.long 0x00 2.--3. " PRESS_LOW                        ,Pressure value inserted if the measured bandwidth is over the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x0." "0,1,2,3"
bitfld.long 0x00 0.--1. "     PRESS_HIGH                               ,Pressure value inserted if the measured bandwidth is under the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x1." "0,1,2,3"
group.long 0x14++0x3
line.long 0x00 "L3_BW_REGULATOR_CLEARHISTORY,"
bitfld.long 0x00 0. " CLEARHISTORY                     ,Write a 1 clear the traffic counter Type: Give_AutoCleared. Reset value: 0x0." "0,1"
width 0x0B
tree.end
tree "CLK1_2_GPU_P1_BW_REGULATOR"
base ad:0x44805200
width 39.
rgroup.long 0x0++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x31." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "    STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "    STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_BW_REGULATOR_BANDWIDTH,"
hexmask.long.word 0x00 0.--15. 1. " BANDWIDTH                        ,Bandwidth, in bytes per second. Type: Control. Reset value: 0x0."
group.long 0xC++0x3
line.long 0x00 "L3_BW_REGULATOR_WATERMARK,"
hexmask.long.word 0x00 0.--11. 1. " WATERMARK                        ,Peak permissible bandwidth, in bytes. Type: Control. Reset value: 0x1."
rgroup.long 0x10++0x3
line.long 0x00 "L3_BW_REGULATOR_PRESS,"
bitfld.long 0x00 2.--3. " PRESS_LOW                        ,Pressure value inserted if the measured bandwidth is over the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x0." "0,1,2,3"
bitfld.long 0x00 0.--1. "     PRESS_HIGH                               ,Pressure value inserted if the measured bandwidth is under the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x1." "0,1,2,3"
group.long 0x14++0x3
line.long 0x00 "L3_BW_REGULATOR_CLEARHISTORY,"
bitfld.long 0x00 0. " CLEARHISTORY                     ,Write a 1 clear the traffic counter Type: Give_AutoCleared. Reset value: 0x0." "0,1"
width 0x0B
tree.end
tree "CLK1_2_GPU_P2_BW_REGULATOR"
base ad:0x44805300
width 39.
rgroup.long 0x0++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x31." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "    STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "    STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_BW_REGULATOR_BANDWIDTH,"
hexmask.long.word 0x00 0.--15. 1. " BANDWIDTH                        ,Bandwidth, in bytes per second. Type: Control. Reset value: 0x0."
group.long 0xC++0x3
line.long 0x00 "L3_BW_REGULATOR_WATERMARK,"
hexmask.long.word 0x00 0.--11. 1. " WATERMARK                        ,Peak permissible bandwidth, in bytes. Type: Control. Reset value: 0x1."
rgroup.long 0x10++0x3
line.long 0x00 "L3_BW_REGULATOR_PRESS,"
bitfld.long 0x00 2.--3. " PRESS_LOW                        ,Pressure value inserted if the measured bandwidth is over the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x0." "0,1,2,3"
bitfld.long 0x00 0.--1. "     PRESS_HIGH                               ,Pressure value inserted if the measured bandwidth is under the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x1." "0,1,2,3"
group.long 0x14++0x3
line.long 0x00 "L3_BW_REGULATOR_CLEARHISTORY,"
bitfld.long 0x00 0. " CLEARHISTORY                     ,Write a 1 clear the traffic counter Type: Give_AutoCleared. Reset value: 0x0." "0,1"
width 0x0B
tree.end
tree "CLK1_2_PCIESS1_BW_REGULATOR"
base ad:0x44805500
width 39.
rgroup.long 0x0++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x31." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "    STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "    STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_BW_REGULATOR_BANDWIDTH,"
hexmask.long.word 0x00 0.--15. 1. " BANDWIDTH                        ,Bandwidth, in bytes per second. Type: Control. Reset value: 0x0."
group.long 0xC++0x3
line.long 0x00 "L3_BW_REGULATOR_WATERMARK,"
hexmask.long.word 0x00 0.--11. 1. " WATERMARK                        ,Peak permissible bandwidth, in bytes. Type: Control. Reset value: 0x1."
rgroup.long 0x10++0x3
line.long 0x00 "L3_BW_REGULATOR_PRESS,"
bitfld.long 0x00 2.--3. " PRESS_LOW                        ,Pressure value inserted if the measured bandwidth is over the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x0." "0,1,2,3"
bitfld.long 0x00 0.--1. "     PRESS_HIGH                               ,Pressure value inserted if the measured bandwidth is under the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x1." "0,1,2,3"
group.long 0x14++0x3
line.long 0x00 "L3_BW_REGULATOR_CLEARHISTORY,"
bitfld.long 0x00 0. " CLEARHISTORY                     ,Write a 1 clear the traffic counter Type: Give_AutoCleared. Reset value: 0x0." "0,1"
width 0x0B
tree.end
tree "CLK1_2_GMAC_SW_BW_REGULATOR"
base ad:0x44805600
width 39.
rgroup.long 0x0++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x31." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "    STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_BW_REGULATOR_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "    STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_BW_REGULATOR_BANDWIDTH,"
hexmask.long.word 0x00 0.--15. 1. " BANDWIDTH                        ,Bandwidth, in bytes per second. Type: Control. Reset value: 0x0."
group.long 0xC++0x3
line.long 0x00 "L3_BW_REGULATOR_WATERMARK,"
hexmask.long.word 0x00 0.--11. 1. " WATERMARK                        ,Peak permissible bandwidth, in bytes. Type: Control. Reset value: 0x1."
rgroup.long 0x10++0x3
line.long 0x00 "L3_BW_REGULATOR_PRESS,"
bitfld.long 0x00 2.--3. " PRESS_LOW                        ,Pressure value inserted if the measured bandwidth is over the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x0." "0,1,2,3"
bitfld.long 0x00 0.--1. "     PRESS_HIGH                               ,Pressure value inserted if the measured bandwidth is under the watermark. The pressure is bar graph encoded. Type: Control. Reset value: 0x1." "0,1,2,3"
group.long 0x14++0x3
line.long 0x00 "L3_BW_REGULATOR_CLEARHISTORY,"
bitfld.long 0x00 0. " CLEARHISTORY                     ,Write a 1 clear the traffic counter Type: Give_AutoCleared. Reset value: 0x0." "0,1"
width 0x0B
tree.end
tree.end
tree "CLK2_STATCOLL3"
base ad:0x45004000
tree "Channel_0"
width 41.
group.long 0xB8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_0,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0xB4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_0,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0xB0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_0,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0xBC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_0,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0xAC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_0,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0xD0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_0,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0xC8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_0,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0xC0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_0,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0xD4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_0,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0xD8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_0,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0xCC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_0,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0xC4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_0,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0xF0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_0,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0xE8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_0,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0xE0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_0,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0xF4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_0,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0xF8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_0,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0xEC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_0,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xE4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_0,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x1F8++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_0,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x1FC++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_0,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x1F4++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_0,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x1F0++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_0,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_1"
width 41.
group.long 0x210++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_1,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x20C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_1,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x208++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_1,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x214++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_1,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x204++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_1,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x228++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_1,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x220++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_1,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x218++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_1,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x22C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_1,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x230++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_1,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x224++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_1,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0x21C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_1,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x248++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_1,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x240++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_1,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x238++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_1,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x24C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_1,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x250++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_1,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x244++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_1,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x23C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_1,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x350++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_1,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x354++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_1,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x34C++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_1,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x348++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_1,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_2"
width 41.
group.long 0x368++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_2,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x364++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_2,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x360++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_2,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x36C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_2,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x35C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_2,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x380++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_2,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x378++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_2,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x370++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_2,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x384++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_2,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x388++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_2,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x37C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_2,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0x374++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_2,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x3A0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_2,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x398++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_2,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x390++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_2,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x3A4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_2,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x3A8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_2,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x39C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_2,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x394++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_2,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x4A8++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_2,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x4AC++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_2,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4A4++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_2,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x4A0++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_2,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_3"
width 41.
group.long 0x4C0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_3,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x4BC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_3,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x4B8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_3,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x4C4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_3,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x4B4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_3,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x4D8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_3,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x4D0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_3,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x4C8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_3,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x4DC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_3,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x4E0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_3,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x4D4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_3,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0x4CC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_3,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x4F8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_3,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x4F0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_3,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x4E8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_3,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x4FC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_3,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x500++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_3,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x4F4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_3,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x4EC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_3,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x600++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_3,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x604++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_3,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5FC++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_3,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x5F8++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_3,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_4"
width 41.
group.long 0x618++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_4,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x614++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_4,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x610++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_4,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x61C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_4,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x60C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_4,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x630++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_4,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x628++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_4,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x620++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_4,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x634++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_4,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x638++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_4,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x62C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_4,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0x624++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_4,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x650++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_4,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x648++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_4,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x640++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_4,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x654++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_4,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x658++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_4,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x64C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_4,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x644++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_4,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x758++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_4,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x75C++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_4,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x754++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_4,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x750++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_4,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_5"
width 41.
group.long 0x770++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_5,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x76C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_5,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x768++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_5,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x774++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_5,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x764++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_5,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x788++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_5,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x780++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_5,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x778++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_5,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x78C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_5,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x790++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_5,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x784++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_5,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0x77C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_5,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x7A8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_5,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x7A0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_5,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x798++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_5,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x7AC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_5,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x7B0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_5,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x7A4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_5,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x79C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_5,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x8B0++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_5,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0x8B4++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_5,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x8AC++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_5,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0x8A8++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_5,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_6"
width 41.
group.long 0x8C8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_6,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x8C4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_6,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0x8C0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_6,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0x8CC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_6,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0x8BC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_6,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0x8E0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_6,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x8D8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_6,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x8D0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_6,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x8E4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_6,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x8E8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_6,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x8DC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_6,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0x8D4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_6,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0x900++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_6,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0x8F8++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_6,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0x8F0++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_6,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0x904++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_6,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0x908++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_6,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x8FC++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_6,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x8F4++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_6,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0xA08++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_6,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0xA0C++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_6,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA04++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_6,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0xA00++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_6,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
tree "Channel_7"
width 41.
group.long 0xA20++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDREN_7,"
bitfld.long 0x00 0. " FILTER0_ADDREN              ,max filtering enable Type: Control. Reset value: 0x0." "0,1"
group.long 0xA1C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMAX_7,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMAX             ,Max addr range Type: Control. Reset value: 0x0."
group.long 0xA18++0x3
line.long 0x00 "L3_STCOL_FILTER_i_ADDRMIN_7,"
hexmask.long.tbyte 0x00 0.--22. 1. " FILTER0_ADDRMIN             ,Min addr range Type: Control. Reset value: 0x0."
group.long 0xA24++0x3
line.long 0x00 "L3_STCOL_FILTER_i_EN_k_7,"
bitfld.long 0x00 0. " FILTER_i_EN0                ,Enable filter stage 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0xA14++0x3
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN_7,"
bitfld.long 0x00 0. " FILTER_i_GLOBALEN           ,Filter global enable Type: Control. Reset value: 0x0." "0,1"
group.long 0xA38++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR_7,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_ERR         ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0xA30++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_MSTADDR_7,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MASK_m_MSTADDR     ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0xA28++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RD_7,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_RD          ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0xA3C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_REQUSERINFO_7,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0xA40++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_RSPUSERINFO_7,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0xA34++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_SLVADDR_7,"
hexmask.long.byte 0x00 0.--6. 1. " FILTER_i_MASK_m_SLVADDR     ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0."
group.long 0xA2C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_WR_7,"
bitfld.long 0x00 0. " FILTER_i_MASK_m_WR          ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0xA58++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR_7,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_ERR        ,Mask/Match of Err Type: Control. Reset value: 0x0." "0,1"
group.long 0xA50++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR_7,"
hexmask.long.byte 0x00 0.--7. 1. " FILTER_i_MATCH_m_MSTADDR    ,Mask/Match of MstAddr Type: Control. Reset value: 0x0."
group.long 0xA48++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD_7,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_RD         ,Mask/Match of Rd Type: Control. Reset value: 0x0." "0,1"
group.long 0xA5C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_REQUSERINFO_7,"
hexmask.long 0x00 0.--27. 1. " FILTER_i_MASK_m_REQUSERINFO ,Mask/Match of ReqUserInfo Type: Control. Reset value: 0x0."
group.long 0xA60++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RSPUSERINFO_7,"
bitfld.long 0x00 0.--2. " FILTER_i_MASK_m_RSPUSERINFO ,Mask/Match of RspUserInfo Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0xA54++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_SLVADDR_7,"
bitfld.long 0x00 0.--4. " FILTER0_MATCH0_SLVADDR      ,Mask/Match of SlvAddr Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xA4C++0x3
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_WR_7,"
bitfld.long 0x00 0. " FILTER_i_MATCH_m_WR         ,Mask/Match of Wr Type: Control. Reset value: 0x0." "0,1"
group.long 0xB60++0x3
line.long 0x00 "L3_STCOL_OP_i_EVTINFOSEL_7,"
bitfld.long 0x00 0.--1. " OP_i_EVTINFOSEL             ,Select event info data to add to counter (len/press or latency) Type: Control. Reset value: 0x0. - select len. - select pressure. - select latency." "select_len,select_pressure,select_latency,3"
group.long 0xB64++0x3
line.long 0x00 "L3_STCOL_OP_i_SEL_7,"
bitfld.long 0x00 0.--3. " OP_i_SEL                    ,Select logical operation Type: Control. Reset value: 0x0. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xB5C++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MAXVAL_7,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MAXVAL       ,Max value Type: Control. Reset value: 0x0."
group.long 0xB58++0x3
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL_7,"
hexmask.long.word 0x00 0.--12. 1. " OP_i_THRESHOLD_MINVAL       ,Min value Type: Control. Reset value: 0x0."
tree.end
textline ""
width 32.
group.long 0x0++0x3
line.long 0x00 "L3_STCOL_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constant reporting a vendor-specific core generator code. Type: Constant. Reset value: 0x3A. (When the instance is CLK2_FLAGMUX_STATCOLL reset value is 0x37)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "                  STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constant reporting the core generator vendor code. Type: Constant. Reset value: 0x1. - . - ." "Third-party_vendor.,UNKN_MNEMO"
rgroup.long 0x4++0x3
line.long 0x00 "L3_STCOL_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constant reporting the core generator revision number. Type: Constant. Reset value: 0x1."
hexmask.long.tbyte 0x00 0.--23. 1. "                  STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x8++0x3
line.long 0x00 "L3_STCOL_EN,"
bitfld.long 0x00 0. " EN                               ,Enable performance monitoring, this will also shut down the clock if En = 0 Type: Control. Reset value: 0x0." "0,1"
group.long 0xC++0x3
line.long 0x00 "L3_STCOL_SOFTEN,"
bitfld.long 0x00 0. " SOFTEN                           ,Software enable for performance monitoring Type: Control. Reset value: 0x0." "0,1"
group.long 0x10++0x3
line.long 0x00 "L3_STCOL_IGNORESUSPEND,"
bitfld.long 0x00 0. " IGNORESUSPEND                    ,Ignore suspend if set to one for suspend mechanism Type: Control. Reset value: 0x0." "0,1"
group.long 0x14++0x3
line.long 0x00 "L3_STCOL_TRIGEN,"
bitfld.long 0x00 0. " TRIGEN                           ,TrigEn when set, it enable the external trigger start and stop Type: Control. Reset value: 0x0." "0,1"
group.long 0x18++0x3
line.long 0x00 "L3_STCOL_REQEVT,"
bitfld.long 0x00 0.--3. " REQEVT                           ,Req event select Type: Control. Reset value: 0x0. - disabled. - all events. - transfers. - wayt cycle. - busy. - packet. - data. - idles. - latency." "disabled,all_events,transfers,wayt_cycle,busy,packet,data,idles,latency,9,10,11,12,13,14,15"
group.long 0x1C++0x3
line.long 0x00 "L3_STCOL_RSPEVT,"
bitfld.long 0x00 0.--3. " RSPEVT                           ,Rsp event select Type: Control. Reset value: 0x0. - disabled. - . - Collect transfers. - collect wait cycle. - collect busy. - collect packet. - Collect data. - Collect idles. - Collect latency." "disabled,1,Collect_transfers,collect_wait_cycle,collect_busy,collect_packet,Collect_data,Collect_idles,Collect_latency,9,10,11,12,13,14,15"
group.long 0x20++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL0,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL0                      ,The select of the mux 0 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x24++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL1,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL1                      ,The select of the mux 1 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x28++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL2,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL2                      ,The select of the mux 2 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x2C++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL3,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL3                      ,The select of the mux 3 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x30++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL4,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL4                      ,The select of the mux 4 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x34++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL5,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL5                      ,The select of the mux 5 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x38++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL6,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL6                      ,The select of the mux 6 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
group.long 0x3C++0x3
line.long 0x00 "L3_STCOL_EVTMUX_SEL7,"
bitfld.long 0x00 0.--2. " EVTMUX_SEL7                      ,The select of the mux 7 Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7"
rgroup.long 0x40++0x3
line.long 0x00 "L3_STCOL_DUMP_IDENTIFIER,"
bitfld.long 0x00 0.--3. " DUMP_IDENTIFIER                  ,Probe identifier Type: Control. Reset value: 0x0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x44++0x3
line.long 0x00 "L3_STCOL_DUMP_COLLECTTIME,"
hexmask.long 0x00 0.--31. 1. " DUMP_COLLECTTIME                 ,Number of cycle to wait between two statistics frame Type: Control. Reset value: 0x0."
rgroup.long 0x48++0x3
line.long 0x00 "L3_STCOL_DUMP_SLVADDR,"
hexmask.long.byte 0x00 0.--6. 1. " DUMP_SLVADDR                     ,Dump slave address Type: Control. Reset value: 0x19."
rgroup.long 0x4C++0x3
line.long 0x00 "L3_STCOL_DUMP_MSTADDR,"
hexmask.long.byte 0x00 0.--7. 1. " DUMP_MSTADDR                     ,Dump master address Type: Control. Reset value: 0xE0."
group.long 0x50++0x3
line.long 0x00 "L3_STCOL_DUMP_SLVOFS,"
hexmask.long 0x00 0.--31. 1. " DUMP_SLVOFS                      ,Dump slave offset Type: Control. Reset value: 0x800."
group.long 0x54++0x3
line.long 0x00 "L3_STCOL_DUMP_MODE,"
bitfld.long 0x00 1. " DUMP_MODE_CONDITIONAL            ,Define the stat conditional dump, if one a dump will be generated when alarm is trigged Type: Control. Reset value: 0x0." "0,1"
bitfld.long 0x00 0. "                   DUMP_MODE_MANUAL                         ,Define the dump mode: if != 0 the dump is controlled by the Send register. Type: Control. Reset value: 0x0." "0,1"
group.long 0x58++0x3
line.long 0x00 "L3_STCOL_DUMP_SEND,"
bitfld.long 0x00 0. " DUMP_SEND                        ,In manual mode, is used to send the dump content and initialize the counters. Type: Give_AutoCleared. Reset value: 0x0." "0,1"
group.long 0x5C++0x3
line.long 0x00 "L3_STCOL_DUMP_DISABLE,"
bitfld.long 0x00 0. " DUMP_DISABLE                     ,If 1, the dump frame will be disabled, but counters still active.This is typically used when counters monitoring is enabled Type: Control. Reset value: 0x0." "0,1"
group.long 0x60++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_TRIG,"
bitfld.long 0x00 0. " DUMP_ALARM_TRIG                  ,In Alarm Mode, is used to reset Alarm Type: Take. Reset value: 0x0." "0,1"
group.long 0x64++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MINVAL,"
hexmask.long 0x00 0.--31. 1. " DUMP_ALARM_MINVAL                ,In Alarm Mode, used to trig an alert if any of counter value is less than AlarmMinVal Type: Control. Reset value: 0x0."
group.long 0x68++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MAXVAL,"
hexmask.long 0x00 0.--31. 1. " DUMP_ALARM_MAXVAL                ,In Alarm Mode, used to trig an alert if any of counter value is larger or equal to AlarmMaxVal Type: Control. Reset value: 0x0."
group.long 0x6C++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE0,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE0                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x70++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE1,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE1                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x74++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE2,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE2                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x78++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE3,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE3                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x7C++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE4,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE4                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x80++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE5,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE5                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x84++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE6,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE6                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
group.long 0x88++0x3
line.long 0x00 "L3_STCOL_DUMP_ALARM_MODE7,"
bitfld.long 0x00 0.--1. " DUMP_ALARM_MODE7                 ,Alarm Mode off/min/max/both Type: Control. Reset value: 0x0. - OFF. - MIN. - MIN_MAX. - MAX." "OFF,MIN,MAX,MIN_MAX"
rgroup.long 0x8C++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT0,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT0                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0x90++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT1,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT1                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0x94++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT2,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT2                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0x98++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT3,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT3                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0x9C++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT4,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT4                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0xA0++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT5,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT5                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0xA4++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT6,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT6                        ,Dump counter value Type: Status. Reset value: X."
rgroup.long 0xA8++0x3
line.long 0x00 "L3_STCOL_DUMP_CNT7,"
hexmask.long 0x00 0.--31. 1. " DUMP_CNT7                        ,Dump counter value Type: Status. Reset value: X."
width 0x0B
tree.end
tree "CLK1_FLAGMUX_CLK1"
base ad:0x44000000
width 43.
rgroup.long 0x805700++0x3
line.long 0x00 "L3_FLAGMUX_TIMEOUT1_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constantreporting a vendor-specific core generator code. Type: Constant. Reset value: 0x37." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "        STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constantreporting the core generator vendor code. Type: Constant. Reset value: 0x1. - ARTERIS. - UNDEFINED." "UNDEFINED,ARTERIS"
rgroup.long 0x805704++0x3
line.long 0x00 "L3_FLAGMUX_TIMEOUT1_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constantreporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "        STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x805708++0x3
line.long 0x00 "L3_FLAGMUX_TIMEOUT1_MASK0,"
hexmask.long 0x00 0.--29. 1. " MASK0                            ,mask flag inputs 0 Type: Control. Reset value: 0x0."
rgroup.long 0x80570C++0x3
line.long 0x00 "L3_FLAGMUX_TIMEOUT1_REGERR0,"
hexmask.long 0x00 0.--24. 1. " REGERR0                          ,flag inputs 0 Type: Status. Reset value: X."
rgroup.long 0x805800++0x3
line.long 0x00 "L3_FLAGMUX_TIMEOUT2_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constantreporting a vendor-specific core generator code. Type: Constant. Reset value: 0x37." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "        STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constantreporting the core generator vendor code. Type: Constant. Reset value: 0x1. - ARTERIS. - UNDEFINED." "UNDEFINED,ARTERIS"
rgroup.long 0x805804++0x3
line.long 0x00 "L3_FLAGMUX_TIMEOUT2_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constantreporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "        STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x805808++0x3
line.long 0x00 "L3_FLAGMUX_TIMEOUT2_MASK0,"
hexmask.long.tbyte 0x00 0.--20. 1. " MASK0                            ,mask flag inputs 0 Type: Control. Reset value: 0x0."
rgroup.long 0x80580C++0x3
line.long 0x00 "L3_FLAGMUX_TIMEOUT2_REGERR0,"
hexmask.long.tbyte 0x00 0.--20. 1. " REGERR0                          ,flag inputs 0 Type: Status. Reset value: X."
width 0x0B
tree.end
tree "CLK2_FLAGMUX_CLK2"
base ad:0x45000000
width 42.
rgroup.long 0x400++0x3
line.long 0x00 "L3_FLAGMUX_TIMEOUT_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. " STDHOSTHDR_COREREG_CORECODE      ,The Core Code field is a constantreporting a vendor-specific core generator code. Type: Constant. Reset value: 0x37." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "  STDHOSTHDR_COREREG_VENDORCODE            ,The Vendor Code field is a constantreporting the core generator vendor code. Type: Constant. Reset value: 0x1. - ARTERIS. - UNDEFINED." "UNDEFINED,ARTERIS"
rgroup.long 0x404++0x3
line.long 0x00 "L3_FLAGMUX_TIMEOUT_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x00 24.--31. 1. " STDHOSTHDR_VERSIONREG_REVISIONID ,The Revision Identifier field is a constantreporting the core generator revision number. Type: Constant. Reset value: 0x0."
hexmask.long.tbyte 0x00 0.--23. 1. "  STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM ,Reserved. Type: Reserved. Reset value: Reserved."
group.long 0x408++0x3
line.long 0x00 "L3_FLAGMUX_TIMEOUT_MASK0,"
bitfld.long 0x00 0.--1. " MASK0                            ,mask flag inputs 0 Type: Control. Reset value: 0x0." "0,1,2,3"
rgroup.long 0x40C++0x3
line.long 0x00 "L3_FLAGMUX_TIMEOUT_REGERR0,"
bitfld.long 0x00 0.--1. " REGERR0                          ,flag inputs 0 Type: Status. Reset value: X." "0,1,2,3"
width 0x0B
tree.end
tree.end
tree.open "L4_Interconnects"
tree.open "UART3_TARG"
tree "UART3_TARG"
base ad:0x48021000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "TIMER2_TARG"
base ad:0x48033000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "TIMER3_TARG"
base ad:0x48035000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "TIMER4_TARG"
base ad:0x48037000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "TIMER9_TARG"
base ad:0x4803F000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "GPIO7_TARG"
base ad:0x48052000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "GPIO8_TARG"
base ad:0x48054000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "GPIO2_TARG"
base ad:0x48056000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "GPIO3_TARG"
base ad:0x48058000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "GPIO4_TARG"
base ad:0x4805A000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "GPIO5_TARG"
base ad:0x4805C000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "GPIO6_TARG"
base ad:0x4805E000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "I2C3_TARG"
base ad:0x48061000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "UART5_TARG"
base ad:0x48067000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "UART6_TARG"
base ad:0x48069000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "UART1_TARG"
base ad:0x4806B000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "UART2_TARG"
base ad:0x4806D000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "UART4_TARG"
base ad:0x4806F000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "I2C1_TARG"
base ad:0x48071000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "I2C2_TARG"
base ad:0x48073000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "ELM_TARG"
base ad:0x48079000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "I2C4_TARG"
base ad:0x4807B000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "I2C5_TARG"
base ad:0x4807D000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "TIMER10_TARG"
base ad:0x48087000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "TIMER11_TARG"
base ad:0x48089000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MCSPI1_TARG"
base ad:0x48099000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MCSPI2_TARG"
base ad:0x4809B000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MMC1_TARG"
base ad:0x4809D000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MMC3_TARG"
base ad:0x480AE000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MMC2_TARG"
base ad:0x480B5000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MCSPI3_TARG"
base ad:0x480B9000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MCSPI4_TARG"
base ad:0x480BB000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MMC4_TARG"
base ad:0x480D2000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "UART7_TARG"
base ad:0x48421000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "UART8_TARG"
base ad:0x48423000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "UART9_TARG"
base ad:0x48425000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MCASP4_DAT_TARG"
base ad:0x48437000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MCASP5_DAT_TARG"
base ad:0x4843B000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "PWM1_TARG"
base ad:0x4843F000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "PWM2_TARG"
base ad:0x48441000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "PWM3_TARG"
base ad:0x48443000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MCASP6_DAT_TARG"
base ad:0x4844D000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MCASP7_DAT_TARG"
base ad:0x48451000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MCASP8_DAT_TARG"
base ad:0x48455000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MCASP1_CFG_TARG"
base ad:0x48462000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MCASP2_CFG_TARG"
base ad:0x48466000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MCASP3_CFG_TARG"
base ad:0x4846A000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MCASP4_CFG_TARG"
base ad:0x4846E000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MCASP5_CFG_TARG"
base ad:0x48472000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MCASP6_CFG_TARG"
base ad:0x48476000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MCASP7_CFG_TARG"
base ad:0x4847A000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "DCAN2_TARG"
base ad:0x48482000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "GMAC_TARG"
base ad:0x48488000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MBX13_TARG"
base ad:0x48803000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "OCMC_RAM1_TARG"
base ad:0x48805000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "OCMC_RAM2_TARG"
base ad:0x4880B000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MMU1_TARG"
base ad:0x4881D000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MMU2_TARG"
base ad:0x4881F000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "TIMER5_TARG"
base ad:0x48821000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "TIMER6_TARG"
base ad:0x48823000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "TIMER7_TARG"
base ad:0x48825000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "TIMER8_TARG"
base ad:0x48827000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "TIMER13_TARG"
base ad:0x48829000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "TIMER14_TARG"
base ad:0x4882B000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "TIMER15_TARG"
base ad:0x4882D000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "TIMER16_TARG"
base ad:0x4882F000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "RTC_TARG"
base ad:0x48839000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MBX2_TARG"
base ad:0x4883B000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MBX3_TARG"
base ad:0x4883D000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MBX4_TARG"
base ad:0x4883F000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MBX5_TARG"
base ad:0x48841000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MBX6_TARG"
base ad:0x48843000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MBX7_TARG"
base ad:0x48845000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MBX8_TARG"
base ad:0x48847000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MBX9_TARG"
base ad:0x4885F000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MBX10_TARG"
base ad:0x48861000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MBX11_TARG"
base ad:0x48863000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MBX12_TARG"
base ad:0x48865000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "USB1_TARG"
base ad:0x488A0000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "USB2_TARG"
base ad:0x488E0000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "USB3_TARG"
base ad:0x48920000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "USB4_TARG"
base ad:0x48960000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "VIP1_TARG"
base ad:0x48980000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "VIP2_TARG"
base ad:0x489A0000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "VIP3_TARG"
base ad:0x489C0000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "VPE_TARG"
base ad:0x489E0000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "CTRL_MODULE_CORE_TARG"
base ad:0x4A004000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "CM_CORE_AON_TARG"
base ad:0x4A006000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "CM_CORE_TARG"
base ad:0x4A00A000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "DMA_SYSTEM_TARG"
base ad:0x4A057000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "SCP1_TARG"
base ad:0x4A088000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "SCP3_TARG"
base ad:0x4A098000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "SCP2_TARG"
base ad:0x4A0A8000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "EVE1_FW_CFG_TARG"
base ad:0x4A152000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "EVE2_FW_CFG_TARG"
base ad:0x4A154000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "EVE3_FW_CFG_TARG"
base ad:0x4A156000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "EVE4_FW_CFG_TARG"
base ad:0x4A158000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "PCIESS2_FW_CFG_TARG"
base ad:0x4A15A000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "IPU1_FW_CFG_TARG"
base ad:0x4A15C000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "TPCC_FW_CFG_TARG"
base ad:0x4A162000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "TPTC_FW_CFG_TARG"
base ad:0x4A164000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "PCIESS1_FW_CFG_TARG"
base ad:0x4A166000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MCASP1_FW_CFG_TARG"
base ad:0x4A168000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MCASP2_FW_CFG_TARG"
base ad:0x4A16A000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MCASP3_FW_CFG_TARG"
base ad:0x4A16C000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "DSP1_SDMA_FW_CFG_TARG"
base ad:0x4A172000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "DSP2_SDMA_FW_CFG_TARG"
base ad:0x4A174000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "PRUSS1_FW_CFG_TARG"
base ad:0x4A176000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "QSPI_FW_CFG_TARG"
base ad:0x4A17A000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "MA_MPU_NTTP_FW_CFG_TARG"
base ad:0x4A20B000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "EMIF_OCP_FW_CFG_TARG"
base ad:0x4A20D000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "OCMC_RAM2_FW_CFG_TARG"
base ad:0x4A20F000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "GPMC_FW_CFG_TARG"
base ad:0x4A211000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "OCMC_RAM1_FW_CFG_TARG"
base ad:0x4A213000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "GPU_FW_CFG_TARG"
base ad:0x4A215000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "IPU2_FW_CFG_TARG"
base ad:0x4A219000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "DSS_FW_CFG_TARG"
base ad:0x4A21D000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "IVA_SL2IF_FW_CFG_TARG"
base ad:0x4A21F000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "IVA_CONFIG_FW_CFG_TARG"
base ad:0x4A221000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "DEBUGSS_CT_TBR_FW_CFG_TARG"
base ad:0x4A225000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "L3_INSTR_FW_CFG_TARG"
base ad:0x4A227000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "OCMC_RAM3_FW_CFG_TARG"
base ad:0x4A22B000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "COUNTER_32K_TARG"
base ad:0x4AE05000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "PRM_TARG"
base ad:0x4AE08000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "CTRL_MODULE_WKUP_TARG"
base ad:0x4AE0D000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "GPIO1_TARG"
base ad:0x4AE11000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "WD_TIMER2_TARG"
base ad:0x4AE15000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "TIMER1_TARG"
base ad:0x4AE19000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "TIMER12_TARG"
base ad:0x4AE21000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "UART10_TARG"
base ad:0x4AE2C000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "DCAN1_TARG"
base ad:0x4AE3E000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x28++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x2C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree.end
tree "MCASP8_CFG_TARG"
base ad:0x4847E000
width 23.
rgroup.long 0xA000++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0xA004++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0xA018++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0xA01C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0xA020++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0xA024++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0xA028++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0xA02C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree "OCMC_RAM3_TARG"
base ad:0x48811000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x2004++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x2018++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x201C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x2020++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x2024++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
hgroup.long 0x2028++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
group.long 0x202C++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
width 0x0B
tree.end
tree.open "CFG_LA"
tree "CFG_LA"
base ad:0x4A000800
width 25.
rgroup.long 0x0++0x3
line.long 0x00 "L4_LA_COMPONENT_L,Contain a component code and revision, which are used to identify the hardware of the component."
hexmask.long.word 0x00 16.--31. 1. " CODE               ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "      REV            ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_LA_COMPONENT_H,Contain a component code and revision, which are used to identify the hardware of the component."
group.long 0x10++0x3
line.long 0x00 "L4_LA_NETWORK_L,Identify the interconnect"
rgroup.long 0x14++0x3
line.long 0x00 "L4_LA_NETWORK_H,Identify the interconnect"
hexmask.long 0x00 0.--31. 1. " ID                 ,The ID field uniquely identifies this interconnect."
rgroup.long 0x18++0x3
line.long 0x00 "L4_LA_INITIATOR_INFO_L,Contain initiator subsystem information."
bitfld.long 0x00 24.--27. " PROT_GROUPS        ,Number of protection group of in the current L4 0x0: No protection group 0x1: 1 protection group 0x2: 2 protection groups .... 0x8: 8 protection groups 0x9 to 0xF: Reserved" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--23. 1. "        NUMBER_REGIONS ,Number of regions in the current L4 0x0: Reserved 0x1: 1 region 0x2: 2 regions .... Max regions +1 to 0xFF: Reserved, maximum regions is listed in"
bitfld.long 0x00 0.--3. "    SEGMENTS            ,Number of segments in the current L4 0x0: Reserved 0x1: 1 segment 0x2: 2 segments .... 0x8: 8 segments" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_LA_INITIATOR_INFO_H,Contain initiator subsystem information."
bitfld.long 0x00 16.--18. " THREADS            ,The THREADS field specifies the number of initiator threads connected to the interconnect. The field contains read-only configuration information for the initiator subsystem." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "         CONNID_WIDTH   ,The initiator subsystem ConnID width. The CONNID_WIDTH field contains read-only configuration information for the initiator subsystem." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     BYTE_DATA_WIDTH_EXP ,This field specifies the initiator subsystem data width.The BYTE_DATA_WIDTH_EXP field contains read-only configuration information for the initiator subsystem. 0x1: 16-bit data width is specified 0x2: 32-bit data width is spec..." "0,1,2,3,4,5,6,7"
textline "                                  "
bitfld.long 0x00 0.--5. " ADDR_WIDTH         ,This field specifies the initiator subsystem address width. The ADDR_WIDTH field contains read-only configuration information for the initiator subsystem." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x20++0x3
line.long 0x00 "L4_LA_NETWORK_CONTROL_L,Control interconnect minimum timeout values."
bitfld.long 0x00 8.--10. " TIMEOUT_BASE       ,The TIMEOUT_BASE field indicates the time-out period (that is, base cycles) for the highest frequency time-base signal sent from the L4 initiator subsystem to all target agents that have time-out enabled. Values for the field are: ..." "0,1,2,3,4,5,6,7"
group.long 0x24++0x3
line.long 0x00 "L4_LA_NETWORK_CONTROL_H,Control interconnect global power control"
bitfld.long 0x00 24. " CLOCK_GATE_DISABLE ,When set to 1 this field disables all clock gating." "0,1"
bitfld.long 0x00 20. "         THREAD0_PRI    ,Sets thread priority. If the field is set to 0, the default, all initiator threads are treated the same. Setting the THREAD0_PRI field to 1 assigns a higher arbitration priority to thread 0 of the first initiator OCP interface...." "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK           ,Global external clock control. When set to 1, the ext_clk_off_i signal on the initiator subsystem instructs the entire L4 to shut off." "0,1"
width 0x0B
tree.end
tree "WKUP_LA"
base ad:0x4AE00800
width 25.
rgroup.long 0x0++0x3
line.long 0x00 "L4_LA_COMPONENT_L,Contain a component code and revision, which are used to identify the hardware of the component."
hexmask.long.word 0x00 16.--31. 1. " CODE               ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "      REV            ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_LA_COMPONENT_H,Contain a component code and revision, which are used to identify the hardware of the component."
group.long 0x10++0x3
line.long 0x00 "L4_LA_NETWORK_L,Identify the interconnect"
rgroup.long 0x14++0x3
line.long 0x00 "L4_LA_NETWORK_H,Identify the interconnect"
hexmask.long 0x00 0.--31. 1. " ID                 ,The ID field uniquely identifies this interconnect."
rgroup.long 0x18++0x3
line.long 0x00 "L4_LA_INITIATOR_INFO_L,Contain initiator subsystem information."
bitfld.long 0x00 24.--27. " PROT_GROUPS        ,Number of protection group of in the current L4 0x0: No protection group 0x1: 1 protection group 0x2: 2 protection groups .... 0x8: 8 protection groups 0x9 to 0xF: Reserved" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--23. 1. "        NUMBER_REGIONS ,Number of regions in the current L4 0x0: Reserved 0x1: 1 region 0x2: 2 regions .... Max regions +1 to 0xFF: Reserved, maximum regions is listed in"
bitfld.long 0x00 0.--3. "    SEGMENTS            ,Number of segments in the current L4 0x0: Reserved 0x1: 1 segment 0x2: 2 segments .... 0x8: 8 segments" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_LA_INITIATOR_INFO_H,Contain initiator subsystem information."
bitfld.long 0x00 16.--18. " THREADS            ,The THREADS field specifies the number of initiator threads connected to the interconnect. The field contains read-only configuration information for the initiator subsystem." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "         CONNID_WIDTH   ,The initiator subsystem ConnID width. The CONNID_WIDTH field contains read-only configuration information for the initiator subsystem." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     BYTE_DATA_WIDTH_EXP ,This field specifies the initiator subsystem data width.The BYTE_DATA_WIDTH_EXP field contains read-only configuration information for the initiator subsystem. 0x1: 16-bit data width is specified 0x2: 32-bit data width is spec..." "0,1,2,3,4,5,6,7"
textline "                                  "
bitfld.long 0x00 0.--5. " ADDR_WIDTH         ,This field specifies the initiator subsystem address width. The ADDR_WIDTH field contains read-only configuration information for the initiator subsystem." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x20++0x3
line.long 0x00 "L4_LA_NETWORK_CONTROL_L,Control interconnect minimum timeout values."
bitfld.long 0x00 8.--10. " TIMEOUT_BASE       ,The TIMEOUT_BASE field indicates the time-out period (that is, base cycles) for the highest frequency time-base signal sent from the L4 initiator subsystem to all target agents that have time-out enabled. Values for the field are: ..." "0,1,2,3,4,5,6,7"
group.long 0x24++0x3
line.long 0x00 "L4_LA_NETWORK_CONTROL_H,Control interconnect global power control"
bitfld.long 0x00 24. " CLOCK_GATE_DISABLE ,When set to 1 this field disables all clock gating." "0,1"
bitfld.long 0x00 20. "         THREAD0_PRI    ,Sets thread priority. If the field is set to 0, the default, all initiator threads are treated the same. Setting the THREAD0_PRI field to 1 assigns a higher arbitration priority to thread 0 of the first initiator OCP interface...." "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK           ,Global external clock control. When set to 1, the ext_clk_off_i signal on the initiator subsystem instructs the entire L4 to shut off." "0,1"
width 0x0B
tree.end
tree.end
tree.open "PER1_LA"
tree "PER1_LA"
base ad:0x48000800
tree "Channel_0"
width 25.
group.long 0x100++0x3
line.long 0x00 "L4_LA_FLAG_MASK_j_L_0,Mask of composite sideband flag(0)"
bitfld.long 0x00 0.--3. " MASK   ,Number of input sideband signals" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x110++0x3
line.long 0x00 "L4_LA_FLAG_STATUS_j_L_0,Mask of composite sideband flag(1)"
bitfld.long 0x00 0.--3. " STATUS ,Status of input sideband signals" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_1"
width 25.
group.long 0x120++0x3
line.long 0x00 "L4_LA_FLAG_MASK_j_L_1,Mask of composite sideband flag(0)"
bitfld.long 0x00 0.--3. " MASK   ,Number of input sideband signals" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x130++0x3
line.long 0x00 "L4_LA_FLAG_STATUS_j_L_1,Mask of composite sideband flag(1)"
bitfld.long 0x00 0.--3. " STATUS ,Status of input sideband signals" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
textline ""
width 25.
rgroup.long 0x0++0x3
line.long 0x00 "L4_LA_COMPONENT_L,Contain a component code and revision, which are used to identify the hardware of the component."
hexmask.long.word 0x00 16.--31. 1. " CODE               ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "      REV            ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_LA_COMPONENT_H,Contain a component code and revision, which are used to identify the hardware of the component."
group.long 0x10++0x3
line.long 0x00 "L4_LA_NETWORK_L,Identify the interconnect"
rgroup.long 0x14++0x3
line.long 0x00 "L4_LA_NETWORK_H,Identify the interconnect"
hexmask.long 0x00 0.--31. 1. " ID                 ,The ID field uniquely identifies this interconnect."
rgroup.long 0x18++0x3
line.long 0x00 "L4_LA_INITIATOR_INFO_L,Contain initiator subsystem information."
bitfld.long 0x00 24.--27. " PROT_GROUPS        ,Number of protection group of in the current L4 0x0: No protection group 0x1: 1 protection group 0x2: 2 protection groups .... 0x8: 8 protection groups 0x9 to 0xF: Reserved" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--23. 1. "        NUMBER_REGIONS ,Number of regions in the current L4 0x0: Reserved 0x1: 1 region 0x2: 2 regions .... Max regions +1 to 0xFF: Reserved, maximum regions is listed in"
bitfld.long 0x00 0.--3. "    SEGMENTS            ,Number of segments in the current L4 0x0: Reserved 0x1: 1 segment 0x2: 2 segments .... 0x8: 8 segments" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_LA_INITIATOR_INFO_H,Contain initiator subsystem information."
bitfld.long 0x00 16.--18. " THREADS            ,The THREADS field specifies the number of initiator threads connected to the interconnect. The field contains read-only configuration information for the initiator subsystem." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "         CONNID_WIDTH   ,The initiator subsystem ConnID width. The CONNID_WIDTH field contains read-only configuration information for the initiator subsystem." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     BYTE_DATA_WIDTH_EXP ,This field specifies the initiator subsystem data width.The BYTE_DATA_WIDTH_EXP field contains read-only configuration information for the initiator subsystem. 0x1: 16-bit data width is specified 0x2: 32-bit data width is spec..." "0,1,2,3,4,5,6,7"
textline "                                  "
bitfld.long 0x00 0.--5. " ADDR_WIDTH         ,This field specifies the initiator subsystem address width. The ADDR_WIDTH field contains read-only configuration information for the initiator subsystem." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x20++0x3
line.long 0x00 "L4_LA_NETWORK_CONTROL_L,Control interconnect minimum timeout values."
bitfld.long 0x00 8.--10. " TIMEOUT_BASE       ,The TIMEOUT_BASE field indicates the time-out period (that is, base cycles) for the highest frequency time-base signal sent from the L4 initiator subsystem to all target agents that have time-out enabled. Values for the field are: ..." "0,1,2,3,4,5,6,7"
group.long 0x24++0x3
line.long 0x00 "L4_LA_NETWORK_CONTROL_H,Control interconnect global power control"
bitfld.long 0x00 24. " CLOCK_GATE_DISABLE ,When set to 1 this field disables all clock gating." "0,1"
bitfld.long 0x00 20. "         THREAD0_PRI    ,Sets thread priority. If the field is set to 0, the default, all initiator threads are treated the same. Setting the THREAD0_PRI field to 1 assigns a higher arbitration priority to thread 0 of the first initiator OCP interface...." "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK           ,Global external clock control. When set to 1, the ext_clk_off_i signal on the initiator subsystem instructs the entire L4 to shut off." "0,1"
width 0x0B
tree.end
tree "PER2_LA"
base ad:0x48400800
tree "Channel_0"
width 25.
group.long 0x100++0x3
line.long 0x00 "L4_LA_FLAG_MASK_j_L_0,Mask of composite sideband flag(0)"
bitfld.long 0x00 0.--3. " MASK   ,Number of input sideband signals" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x110++0x3
line.long 0x00 "L4_LA_FLAG_STATUS_j_L_0,Mask of composite sideband flag(1)"
bitfld.long 0x00 0.--3. " STATUS ,Status of input sideband signals" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_1"
width 25.
group.long 0x120++0x3
line.long 0x00 "L4_LA_FLAG_MASK_j_L_1,Mask of composite sideband flag(0)"
bitfld.long 0x00 0.--3. " MASK   ,Number of input sideband signals" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x130++0x3
line.long 0x00 "L4_LA_FLAG_STATUS_j_L_1,Mask of composite sideband flag(1)"
bitfld.long 0x00 0.--3. " STATUS ,Status of input sideband signals" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
textline ""
width 25.
rgroup.long 0x0++0x3
line.long 0x00 "L4_LA_COMPONENT_L,Contain a component code and revision, which are used to identify the hardware of the component."
hexmask.long.word 0x00 16.--31. 1. " CODE               ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "      REV            ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_LA_COMPONENT_H,Contain a component code and revision, which are used to identify the hardware of the component."
group.long 0x10++0x3
line.long 0x00 "L4_LA_NETWORK_L,Identify the interconnect"
rgroup.long 0x14++0x3
line.long 0x00 "L4_LA_NETWORK_H,Identify the interconnect"
hexmask.long 0x00 0.--31. 1. " ID                 ,The ID field uniquely identifies this interconnect."
rgroup.long 0x18++0x3
line.long 0x00 "L4_LA_INITIATOR_INFO_L,Contain initiator subsystem information."
bitfld.long 0x00 24.--27. " PROT_GROUPS        ,Number of protection group of in the current L4 0x0: No protection group 0x1: 1 protection group 0x2: 2 protection groups .... 0x8: 8 protection groups 0x9 to 0xF: Reserved" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--23. 1. "        NUMBER_REGIONS ,Number of regions in the current L4 0x0: Reserved 0x1: 1 region 0x2: 2 regions .... Max regions +1 to 0xFF: Reserved, maximum regions is listed in"
bitfld.long 0x00 0.--3. "    SEGMENTS            ,Number of segments in the current L4 0x0: Reserved 0x1: 1 segment 0x2: 2 segments .... 0x8: 8 segments" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_LA_INITIATOR_INFO_H,Contain initiator subsystem information."
bitfld.long 0x00 16.--18. " THREADS            ,The THREADS field specifies the number of initiator threads connected to the interconnect. The field contains read-only configuration information for the initiator subsystem." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "         CONNID_WIDTH   ,The initiator subsystem ConnID width. The CONNID_WIDTH field contains read-only configuration information for the initiator subsystem." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     BYTE_DATA_WIDTH_EXP ,This field specifies the initiator subsystem data width.The BYTE_DATA_WIDTH_EXP field contains read-only configuration information for the initiator subsystem. 0x1: 16-bit data width is specified 0x2: 32-bit data width is spec..." "0,1,2,3,4,5,6,7"
textline "                                  "
bitfld.long 0x00 0.--5. " ADDR_WIDTH         ,This field specifies the initiator subsystem address width. The ADDR_WIDTH field contains read-only configuration information for the initiator subsystem." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x20++0x3
line.long 0x00 "L4_LA_NETWORK_CONTROL_L,Control interconnect minimum timeout values."
bitfld.long 0x00 8.--10. " TIMEOUT_BASE       ,The TIMEOUT_BASE field indicates the time-out period (that is, base cycles) for the highest frequency time-base signal sent from the L4 initiator subsystem to all target agents that have time-out enabled. Values for the field are: ..." "0,1,2,3,4,5,6,7"
group.long 0x24++0x3
line.long 0x00 "L4_LA_NETWORK_CONTROL_H,Control interconnect global power control"
bitfld.long 0x00 24. " CLOCK_GATE_DISABLE ,When set to 1 this field disables all clock gating." "0,1"
bitfld.long 0x00 20. "         THREAD0_PRI    ,Sets thread priority. If the field is set to 0, the default, all initiator threads are treated the same. Setting the THREAD0_PRI field to 1 assigns a higher arbitration priority to thread 0 of the first initiator OCP interface...." "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK           ,Global external clock control. When set to 1, the ext_clk_off_i signal on the initiator subsystem instructs the entire L4 to shut off." "0,1"
width 0x0B
tree.end
tree "PER3_LA"
base ad:0x48800800
tree "Channel_0"
width 25.
group.long 0x100++0x3
line.long 0x00 "L4_LA_FLAG_MASK_j_L_0,Mask of composite sideband flag(0)"
bitfld.long 0x00 0.--3. " MASK   ,Number of input sideband signals" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x110++0x3
line.long 0x00 "L4_LA_FLAG_STATUS_j_L_0,Mask of composite sideband flag(1)"
bitfld.long 0x00 0.--3. " STATUS ,Status of input sideband signals" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_1"
width 25.
group.long 0x120++0x3
line.long 0x00 "L4_LA_FLAG_MASK_j_L_1,Mask of composite sideband flag(0)"
bitfld.long 0x00 0.--3. " MASK   ,Number of input sideband signals" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x130++0x3
line.long 0x00 "L4_LA_FLAG_STATUS_j_L_1,Mask of composite sideband flag(1)"
bitfld.long 0x00 0.--3. " STATUS ,Status of input sideband signals" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
textline ""
width 25.
rgroup.long 0x0++0x3
line.long 0x00 "L4_LA_COMPONENT_L,Contain a component code and revision, which are used to identify the hardware of the component."
hexmask.long.word 0x00 16.--31. 1. " CODE               ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "      REV            ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_LA_COMPONENT_H,Contain a component code and revision, which are used to identify the hardware of the component."
group.long 0x10++0x3
line.long 0x00 "L4_LA_NETWORK_L,Identify the interconnect"
rgroup.long 0x14++0x3
line.long 0x00 "L4_LA_NETWORK_H,Identify the interconnect"
hexmask.long 0x00 0.--31. 1. " ID                 ,The ID field uniquely identifies this interconnect."
rgroup.long 0x18++0x3
line.long 0x00 "L4_LA_INITIATOR_INFO_L,Contain initiator subsystem information."
bitfld.long 0x00 24.--27. " PROT_GROUPS        ,Number of protection group of in the current L4 0x0: No protection group 0x1: 1 protection group 0x2: 2 protection groups .... 0x8: 8 protection groups 0x9 to 0xF: Reserved" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--23. 1. "        NUMBER_REGIONS ,Number of regions in the current L4 0x0: Reserved 0x1: 1 region 0x2: 2 regions .... Max regions +1 to 0xFF: Reserved, maximum regions is listed in"
bitfld.long 0x00 0.--3. "    SEGMENTS            ,Number of segments in the current L4 0x0: Reserved 0x1: 1 segment 0x2: 2 segments .... 0x8: 8 segments" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_LA_INITIATOR_INFO_H,Contain initiator subsystem information."
bitfld.long 0x00 16.--18. " THREADS            ,The THREADS field specifies the number of initiator threads connected to the interconnect. The field contains read-only configuration information for the initiator subsystem." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "         CONNID_WIDTH   ,The initiator subsystem ConnID width. The CONNID_WIDTH field contains read-only configuration information for the initiator subsystem." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     BYTE_DATA_WIDTH_EXP ,This field specifies the initiator subsystem data width.The BYTE_DATA_WIDTH_EXP field contains read-only configuration information for the initiator subsystem. 0x1: 16-bit data width is specified 0x2: 32-bit data width is spec..." "0,1,2,3,4,5,6,7"
textline "                                  "
bitfld.long 0x00 0.--5. " ADDR_WIDTH         ,This field specifies the initiator subsystem address width. The ADDR_WIDTH field contains read-only configuration information for the initiator subsystem." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x20++0x3
line.long 0x00 "L4_LA_NETWORK_CONTROL_L,Control interconnect minimum timeout values."
bitfld.long 0x00 8.--10. " TIMEOUT_BASE       ,The TIMEOUT_BASE field indicates the time-out period (that is, base cycles) for the highest frequency time-base signal sent from the L4 initiator subsystem to all target agents that have time-out enabled. Values for the field are: ..." "0,1,2,3,4,5,6,7"
group.long 0x24++0x3
line.long 0x00 "L4_LA_NETWORK_CONTROL_H,Control interconnect global power control"
bitfld.long 0x00 24. " CLOCK_GATE_DISABLE ,When set to 1 this field disables all clock gating." "0,1"
bitfld.long 0x00 20. "         THREAD0_PRI    ,Sets thread priority. If the field is set to 0, the default, all initiator threads are treated the same. Setting the THREAD0_PRI field to 1 assigns a higher arbitration priority to thread 0 of the first initiator OCP interface...." "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK           ,Global external clock control. When set to 1, the ext_clk_off_i signal on the initiator subsystem instructs the entire L4 to shut off." "0,1"
width 0x0B
tree.end
tree.end
tree "WKUP_AP"
base ad:0x4AE00000
tree "Channel_0"
width 32.
rgroup.long 0x200++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_0,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x284++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_0,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x280++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_0,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x304++0x3
line.long 0x00 "L4_AP_REGION_l_H_0,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x300++0x3
line.long 0x00 "L4_AP_REGION_l_L_0,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
rgroup.long 0x104++0x3
line.long 0x00 "L4_AP_SEGMENT_i_H_0,Define the size of each segments"
bitfld.long 0x00 0.--4. " SIZE                ,Segment size is a power of 2, where 2 is the byte size of a segment (all segment registers use the same size)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rgroup.long 0x100++0x3
line.long 0x00 "L4_AP_SEGMENT_i_L_0,Define the base address of each segments"
hexmask.long 0x00 0.--31. 1. " BASE                ,The base address of the segment (with 0s from bit 0 to bit SIZE-1)."
tree.end
tree "Channel_1"
width 32.
rgroup.long 0x208++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_1,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x28C++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_1,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x288++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_1,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x30C++0x3
line.long 0x00 "L4_AP_REGION_l_H_1,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x308++0x3
line.long 0x00 "L4_AP_REGION_l_L_1,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
rgroup.long 0x10C++0x3
line.long 0x00 "L4_AP_SEGMENT_i_H_1,Define the size of each segments"
bitfld.long 0x00 0.--4. " SIZE                ,Segment size is a power of 2, where 2 is the byte size of a segment (all segment registers use the same size)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rgroup.long 0x108++0x3
line.long 0x00 "L4_AP_SEGMENT_i_L_1,Define the base address of each segments"
hexmask.long 0x00 0.--31. 1. " BASE                ,The base address of the segment (with 0s from bit 0 to bit SIZE-1)."
tree.end
tree "Channel_2"
width 32.
rgroup.long 0x210++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_2,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x294++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_2,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x290++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_2,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x314++0x3
line.long 0x00 "L4_AP_REGION_l_H_2,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x310++0x3
line.long 0x00 "L4_AP_REGION_l_L_2,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
rgroup.long 0x114++0x3
line.long 0x00 "L4_AP_SEGMENT_i_H_2,Define the size of each segments"
bitfld.long 0x00 0.--4. " SIZE                ,Segment size is a power of 2, where 2 is the byte size of a segment (all segment registers use the same size)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rgroup.long 0x110++0x3
line.long 0x00 "L4_AP_SEGMENT_i_L_2,Define the base address of each segments"
hexmask.long 0x00 0.--31. 1. " BASE                ,The base address of the segment (with 0s from bit 0 to bit SIZE-1)."
tree.end
tree "Channel_3"
width 32.
rgroup.long 0x218++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_3,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x29C++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_3,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x298++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_3,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x31C++0x3
line.long 0x00 "L4_AP_REGION_l_H_3,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x318++0x3
line.long 0x00 "L4_AP_REGION_l_L_3,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
rgroup.long 0x11C++0x3
line.long 0x00 "L4_AP_SEGMENT_i_H_3,Define the size of each segments"
bitfld.long 0x00 0.--4. " SIZE                ,Segment size is a power of 2, where 2 is the byte size of a segment (all segment registers use the same size)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rgroup.long 0x118++0x3
line.long 0x00 "L4_AP_SEGMENT_i_L_3,Define the base address of each segments"
hexmask.long 0x00 0.--31. 1. " BASE                ,The base address of the segment (with 0s from bit 0 to bit SIZE-1)."
tree.end
tree "Channel_4"
width 32.
rgroup.long 0x220++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_4,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x2A4++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_4,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x2A0++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_4,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x324++0x3
line.long 0x00 "L4_AP_REGION_l_H_4,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x320++0x3
line.long 0x00 "L4_AP_REGION_l_L_4,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "Channel_5"
width 32.
rgroup.long 0x228++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_5,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x2AC++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_5,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x2A8++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_5,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x32C++0x3
line.long 0x00 "L4_AP_REGION_l_H_5,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x328++0x3
line.long 0x00 "L4_AP_REGION_l_L_5,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "Channel_6"
width 32.
rgroup.long 0x230++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_6,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x2B4++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_6,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x2B0++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_6,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x334++0x3
line.long 0x00 "L4_AP_REGION_l_H_6,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x330++0x3
line.long 0x00 "L4_AP_REGION_l_L_6,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "Channel_7"
width 32.
rgroup.long 0x238++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_7,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x2BC++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_7,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x2B8++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_7,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x33C++0x3
line.long 0x00 "L4_AP_REGION_l_H_7,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x338++0x3
line.long 0x00 "L4_AP_REGION_l_L_7,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_8"
width 20.
group.long 0x344++0x3
line.long 0x00 "L4_AP_REGION_l_H_8,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                             "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x340++0x3
line.long 0x00 "L4_AP_REGION_l_L_8,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_9"
width 20.
group.long 0x34C++0x3
line.long 0x00 "L4_AP_REGION_l_H_9,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                             "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x348++0x3
line.long 0x00 "L4_AP_REGION_l_L_9,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_10"
width 21.
group.long 0x354++0x3
line.long 0x00 "L4_AP_REGION_l_H_10,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x350++0x3
line.long 0x00 "L4_AP_REGION_l_L_10,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_11"
width 21.
group.long 0x35C++0x3
line.long 0x00 "L4_AP_REGION_l_H_11,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x358++0x3
line.long 0x00 "L4_AP_REGION_l_L_11,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_12"
width 21.
group.long 0x364++0x3
line.long 0x00 "L4_AP_REGION_l_H_12,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x360++0x3
line.long 0x00 "L4_AP_REGION_l_L_12,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_13"
width 21.
group.long 0x36C++0x3
line.long 0x00 "L4_AP_REGION_l_H_13,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x368++0x3
line.long 0x00 "L4_AP_REGION_l_L_13,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_14"
width 21.
group.long 0x374++0x3
line.long 0x00 "L4_AP_REGION_l_H_14,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x370++0x3
line.long 0x00 "L4_AP_REGION_l_L_14,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_15"
width 21.
group.long 0x37C++0x3
line.long 0x00 "L4_AP_REGION_l_H_15,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x378++0x3
line.long 0x00 "L4_AP_REGION_l_L_15,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_16"
width 21.
group.long 0x384++0x3
line.long 0x00 "L4_AP_REGION_l_H_16,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x380++0x3
line.long 0x00 "L4_AP_REGION_l_L_16,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_17"
width 21.
group.long 0x38C++0x3
line.long 0x00 "L4_AP_REGION_l_H_17,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x388++0x3
line.long 0x00 "L4_AP_REGION_l_L_17,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_18"
width 21.
group.long 0x394++0x3
line.long 0x00 "L4_AP_REGION_l_H_18,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x390++0x3
line.long 0x00 "L4_AP_REGION_l_L_18,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_19"
width 21.
group.long 0x39C++0x3
line.long 0x00 "L4_AP_REGION_l_H_19,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x398++0x3
line.long 0x00 "L4_AP_REGION_l_L_19,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_20"
width 21.
group.long 0x3A4++0x3
line.long 0x00 "L4_AP_REGION_l_H_20,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3A0++0x3
line.long 0x00 "L4_AP_REGION_l_L_20,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_21"
width 21.
group.long 0x3AC++0x3
line.long 0x00 "L4_AP_REGION_l_H_21,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3A8++0x3
line.long 0x00 "L4_AP_REGION_l_L_21,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_22"
width 21.
group.long 0x3B4++0x3
line.long 0x00 "L4_AP_REGION_l_H_22,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3B0++0x3
line.long 0x00 "L4_AP_REGION_l_L_22,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_23"
width 21.
group.long 0x3BC++0x3
line.long 0x00 "L4_AP_REGION_l_H_23,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3B8++0x3
line.long 0x00 "L4_AP_REGION_l_L_23,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_24"
width 21.
group.long 0x3C4++0x3
line.long 0x00 "L4_AP_REGION_l_H_24,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3C0++0x3
line.long 0x00 "L4_AP_REGION_l_L_24,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_25"
width 21.
group.long 0x3CC++0x3
line.long 0x00 "L4_AP_REGION_l_H_25,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3C8++0x3
line.long 0x00 "L4_AP_REGION_l_L_25,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_26"
width 21.
group.long 0x3D4++0x3
line.long 0x00 "L4_AP_REGION_l_H_26,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3D0++0x3
line.long 0x00 "L4_AP_REGION_l_L_26,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_27"
width 21.
group.long 0x3DC++0x3
line.long 0x00 "L4_AP_REGION_l_H_27,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3D8++0x3
line.long 0x00 "L4_AP_REGION_l_L_27,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_28"
width 21.
group.long 0x3E4++0x3
line.long 0x00 "L4_AP_REGION_l_H_28,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3E0++0x3
line.long 0x00 "L4_AP_REGION_l_L_28,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_29"
width 21.
group.long 0x3EC++0x3
line.long 0x00 "L4_AP_REGION_l_H_29,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3E8++0x3
line.long 0x00 "L4_AP_REGION_l_L_29,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_30"
width 21.
group.long 0x3F4++0x3
line.long 0x00 "L4_AP_REGION_l_H_30,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3F0++0x3
line.long 0x00 "L4_AP_REGION_l_L_30,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_31"
width 21.
group.long 0x3FC++0x3
line.long 0x00 "L4_AP_REGION_l_H_31,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3F8++0x3
line.long 0x00 "L4_AP_REGION_l_L_31,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_32"
width 21.
group.long 0x404++0x3
line.long 0x00 "L4_AP_REGION_l_H_32,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x400++0x3
line.long 0x00 "L4_AP_REGION_l_L_32,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_33"
width 21.
group.long 0x40C++0x3
line.long 0x00 "L4_AP_REGION_l_H_33,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x408++0x3
line.long 0x00 "L4_AP_REGION_l_L_33,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_34"
width 21.
group.long 0x414++0x3
line.long 0x00 "L4_AP_REGION_l_H_34,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x410++0x3
line.long 0x00 "L4_AP_REGION_l_L_34,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_35"
width 21.
group.long 0x41C++0x3
line.long 0x00 "L4_AP_REGION_l_H_35,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x418++0x3
line.long 0x00 "L4_AP_REGION_l_L_35,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_36"
width 21.
group.long 0x424++0x3
line.long 0x00 "L4_AP_REGION_l_H_36,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x420++0x3
line.long 0x00 "L4_AP_REGION_l_L_36,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_37"
width 21.
group.long 0x42C++0x3
line.long 0x00 "L4_AP_REGION_l_H_37,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x428++0x3
line.long 0x00 "L4_AP_REGION_l_L_37,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_38"
width 21.
group.long 0x434++0x3
line.long 0x00 "L4_AP_REGION_l_H_38,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x430++0x3
line.long 0x00 "L4_AP_REGION_l_L_38,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_39"
width 21.
group.long 0x43C++0x3
line.long 0x00 "L4_AP_REGION_l_H_39,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x438++0x3
line.long 0x00 "L4_AP_REGION_l_L_39,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_40"
width 21.
group.long 0x444++0x3
line.long 0x00 "L4_AP_REGION_l_H_40,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x440++0x3
line.long 0x00 "L4_AP_REGION_l_L_40,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_41"
width 21.
group.long 0x44C++0x3
line.long 0x00 "L4_AP_REGION_l_H_41,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x448++0x3
line.long 0x00 "L4_AP_REGION_l_L_41,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_42"
width 21.
group.long 0x454++0x3
line.long 0x00 "L4_AP_REGION_l_H_42,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x450++0x3
line.long 0x00 "L4_AP_REGION_l_L_42,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_43"
width 21.
group.long 0x45C++0x3
line.long 0x00 "L4_AP_REGION_l_H_43,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x458++0x3
line.long 0x00 "L4_AP_REGION_l_L_43,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "L4_AP_COMPONENT_L,Contains a component code and revision, which are used to identify the hardware of the component."
hexmask.long.word 0x00 16.--31. 1. " CODE ,Interconnect code"
hexmask.long.word 0x00 0.--15. 1. "  REV ,Component revision code"
group.long 0x4++0x3
line.long 0x00 "L4_AP_COMPONENT_H,Contains a component code and revision, which are used to identify the hardware of the component."
width 0x0B
tree.end
tree "PER3_AP"
base ad:0x48800000
tree "Channel_0"
width 32.
rgroup.long 0x200++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_0,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x284++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_0,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x280++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_0,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x304++0x3
line.long 0x00 "L4_AP_REGION_l_H_0,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x300++0x3
line.long 0x00 "L4_AP_REGION_l_L_0,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "Channel_1"
width 32.
rgroup.long 0x208++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_1,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x28C++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_1,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x288++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_1,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x30C++0x3
line.long 0x00 "L4_AP_REGION_l_H_1,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x308++0x3
line.long 0x00 "L4_AP_REGION_l_L_1,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "Channel_2"
width 32.
rgroup.long 0x210++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_2,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x294++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_2,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x290++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_2,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x314++0x3
line.long 0x00 "L4_AP_REGION_l_H_2,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x310++0x3
line.long 0x00 "L4_AP_REGION_l_L_2,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "Channel_3"
width 32.
rgroup.long 0x218++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_3,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x29C++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_3,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x298++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_3,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x31C++0x3
line.long 0x00 "L4_AP_REGION_l_H_3,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x318++0x3
line.long 0x00 "L4_AP_REGION_l_L_3,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "Channel_4"
width 32.
rgroup.long 0x220++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_4,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x2A4++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_4,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x2A0++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_4,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x324++0x3
line.long 0x00 "L4_AP_REGION_l_H_4,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x320++0x3
line.long 0x00 "L4_AP_REGION_l_L_4,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "Channel_5"
width 32.
rgroup.long 0x228++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_5,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x2AC++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_5,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x2A8++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_5,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x32C++0x3
line.long 0x00 "L4_AP_REGION_l_H_5,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x328++0x3
line.long 0x00 "L4_AP_REGION_l_L_5,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "Channel_6"
width 32.
rgroup.long 0x230++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_6,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x2B4++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_6,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x2B0++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_6,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x334++0x3
line.long 0x00 "L4_AP_REGION_l_H_6,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x330++0x3
line.long 0x00 "L4_AP_REGION_l_L_6,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "Channel_7"
width 32.
rgroup.long 0x238++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_7,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x2BC++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_7,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x2B8++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_7,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x33C++0x3
line.long 0x00 "L4_AP_REGION_l_H_7,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x338++0x3
line.long 0x00 "L4_AP_REGION_l_L_7,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_8"
width 20.
group.long 0x344++0x3
line.long 0x00 "L4_AP_REGION_l_H_8,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                             "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x340++0x3
line.long 0x00 "L4_AP_REGION_l_L_8,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_9"
width 20.
group.long 0x34C++0x3
line.long 0x00 "L4_AP_REGION_l_H_9,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                             "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x348++0x3
line.long 0x00 "L4_AP_REGION_l_L_9,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_10"
width 21.
group.long 0x354++0x3
line.long 0x00 "L4_AP_REGION_l_H_10,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x350++0x3
line.long 0x00 "L4_AP_REGION_l_L_10,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_11"
width 21.
group.long 0x35C++0x3
line.long 0x00 "L4_AP_REGION_l_H_11,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x358++0x3
line.long 0x00 "L4_AP_REGION_l_L_11,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_12"
width 21.
group.long 0x364++0x3
line.long 0x00 "L4_AP_REGION_l_H_12,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x360++0x3
line.long 0x00 "L4_AP_REGION_l_L_12,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_13"
width 21.
group.long 0x36C++0x3
line.long 0x00 "L4_AP_REGION_l_H_13,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x368++0x3
line.long 0x00 "L4_AP_REGION_l_L_13,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_14"
width 21.
group.long 0x374++0x3
line.long 0x00 "L4_AP_REGION_l_H_14,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x370++0x3
line.long 0x00 "L4_AP_REGION_l_L_14,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_15"
width 21.
group.long 0x37C++0x3
line.long 0x00 "L4_AP_REGION_l_H_15,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x378++0x3
line.long 0x00 "L4_AP_REGION_l_L_15,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_16"
width 21.
group.long 0x384++0x3
line.long 0x00 "L4_AP_REGION_l_H_16,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x380++0x3
line.long 0x00 "L4_AP_REGION_l_L_16,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_17"
width 21.
group.long 0x38C++0x3
line.long 0x00 "L4_AP_REGION_l_H_17,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x388++0x3
line.long 0x00 "L4_AP_REGION_l_L_17,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_18"
width 21.
group.long 0x394++0x3
line.long 0x00 "L4_AP_REGION_l_H_18,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x390++0x3
line.long 0x00 "L4_AP_REGION_l_L_18,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_19"
width 21.
group.long 0x39C++0x3
line.long 0x00 "L4_AP_REGION_l_H_19,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x398++0x3
line.long 0x00 "L4_AP_REGION_l_L_19,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_20"
width 21.
group.long 0x3A4++0x3
line.long 0x00 "L4_AP_REGION_l_H_20,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3A0++0x3
line.long 0x00 "L4_AP_REGION_l_L_20,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_21"
width 21.
group.long 0x3AC++0x3
line.long 0x00 "L4_AP_REGION_l_H_21,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3A8++0x3
line.long 0x00 "L4_AP_REGION_l_L_21,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_22"
width 21.
group.long 0x3B4++0x3
line.long 0x00 "L4_AP_REGION_l_H_22,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3B0++0x3
line.long 0x00 "L4_AP_REGION_l_L_22,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_23"
width 21.
group.long 0x3BC++0x3
line.long 0x00 "L4_AP_REGION_l_H_23,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3B8++0x3
line.long 0x00 "L4_AP_REGION_l_L_23,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_24"
width 21.
group.long 0x3C4++0x3
line.long 0x00 "L4_AP_REGION_l_H_24,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3C0++0x3
line.long 0x00 "L4_AP_REGION_l_L_24,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_25"
width 21.
group.long 0x3CC++0x3
line.long 0x00 "L4_AP_REGION_l_H_25,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3C8++0x3
line.long 0x00 "L4_AP_REGION_l_L_25,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_26"
width 21.
group.long 0x3D4++0x3
line.long 0x00 "L4_AP_REGION_l_H_26,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3D0++0x3
line.long 0x00 "L4_AP_REGION_l_L_26,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_27"
width 21.
group.long 0x3DC++0x3
line.long 0x00 "L4_AP_REGION_l_H_27,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3D8++0x3
line.long 0x00 "L4_AP_REGION_l_L_27,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_28"
width 21.
group.long 0x3E4++0x3
line.long 0x00 "L4_AP_REGION_l_H_28,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3E0++0x3
line.long 0x00 "L4_AP_REGION_l_L_28,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_29"
width 21.
group.long 0x3EC++0x3
line.long 0x00 "L4_AP_REGION_l_H_29,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3E8++0x3
line.long 0x00 "L4_AP_REGION_l_L_29,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_30"
width 21.
group.long 0x3F4++0x3
line.long 0x00 "L4_AP_REGION_l_H_30,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3F0++0x3
line.long 0x00 "L4_AP_REGION_l_L_30,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_31"
width 21.
group.long 0x3FC++0x3
line.long 0x00 "L4_AP_REGION_l_H_31,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3F8++0x3
line.long 0x00 "L4_AP_REGION_l_L_31,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_32"
width 21.
group.long 0x404++0x3
line.long 0x00 "L4_AP_REGION_l_H_32,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x400++0x3
line.long 0x00 "L4_AP_REGION_l_L_32,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_33"
width 21.
group.long 0x40C++0x3
line.long 0x00 "L4_AP_REGION_l_H_33,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x408++0x3
line.long 0x00 "L4_AP_REGION_l_L_33,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_34"
width 21.
group.long 0x414++0x3
line.long 0x00 "L4_AP_REGION_l_H_34,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x410++0x3
line.long 0x00 "L4_AP_REGION_l_L_34,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_35"
width 21.
group.long 0x41C++0x3
line.long 0x00 "L4_AP_REGION_l_H_35,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x418++0x3
line.long 0x00 "L4_AP_REGION_l_L_35,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_36"
width 21.
group.long 0x424++0x3
line.long 0x00 "L4_AP_REGION_l_H_36,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x420++0x3
line.long 0x00 "L4_AP_REGION_l_L_36,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_37"
width 21.
group.long 0x42C++0x3
line.long 0x00 "L4_AP_REGION_l_H_37,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x428++0x3
line.long 0x00 "L4_AP_REGION_l_L_37,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_38"
width 21.
group.long 0x434++0x3
line.long 0x00 "L4_AP_REGION_l_H_38,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x430++0x3
line.long 0x00 "L4_AP_REGION_l_L_38,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_39"
width 21.
group.long 0x43C++0x3
line.long 0x00 "L4_AP_REGION_l_H_39,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x438++0x3
line.long 0x00 "L4_AP_REGION_l_L_39,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_40"
width 21.
group.long 0x444++0x3
line.long 0x00 "L4_AP_REGION_l_H_40,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x440++0x3
line.long 0x00 "L4_AP_REGION_l_L_40,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_41"
width 21.
group.long 0x44C++0x3
line.long 0x00 "L4_AP_REGION_l_H_41,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x448++0x3
line.long 0x00 "L4_AP_REGION_l_L_41,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_42"
width 21.
group.long 0x454++0x3
line.long 0x00 "L4_AP_REGION_l_H_42,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x450++0x3
line.long 0x00 "L4_AP_REGION_l_L_42,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_43"
width 21.
group.long 0x45C++0x3
line.long 0x00 "L4_AP_REGION_l_H_43,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x458++0x3
line.long 0x00 "L4_AP_REGION_l_L_43,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_44"
width 21.
group.long 0x464++0x3
line.long 0x00 "L4_AP_REGION_l_H_44,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x460++0x3
line.long 0x00 "L4_AP_REGION_l_L_44,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_45"
width 21.
group.long 0x46C++0x3
line.long 0x00 "L4_AP_REGION_l_H_45,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x468++0x3
line.long 0x00 "L4_AP_REGION_l_L_45,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_46"
width 21.
group.long 0x474++0x3
line.long 0x00 "L4_AP_REGION_l_H_46,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x470++0x3
line.long 0x00 "L4_AP_REGION_l_L_46,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_47"
width 21.
group.long 0x47C++0x3
line.long 0x00 "L4_AP_REGION_l_H_47,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x478++0x3
line.long 0x00 "L4_AP_REGION_l_L_47,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_48"
width 21.
group.long 0x484++0x3
line.long 0x00 "L4_AP_REGION_l_H_48,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x480++0x3
line.long 0x00 "L4_AP_REGION_l_L_48,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_49"
width 21.
group.long 0x48C++0x3
line.long 0x00 "L4_AP_REGION_l_H_49,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x488++0x3
line.long 0x00 "L4_AP_REGION_l_L_49,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_50"
width 21.
group.long 0x494++0x3
line.long 0x00 "L4_AP_REGION_l_H_50,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x490++0x3
line.long 0x00 "L4_AP_REGION_l_L_50,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_51"
width 21.
group.long 0x49C++0x3
line.long 0x00 "L4_AP_REGION_l_H_51,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x498++0x3
line.long 0x00 "L4_AP_REGION_l_L_51,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_52"
width 21.
group.long 0x4A4++0x3
line.long 0x00 "L4_AP_REGION_l_H_52,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4A0++0x3
line.long 0x00 "L4_AP_REGION_l_L_52,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_53"
width 21.
group.long 0x4AC++0x3
line.long 0x00 "L4_AP_REGION_l_H_53,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4A8++0x3
line.long 0x00 "L4_AP_REGION_l_L_53,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_54"
width 21.
group.long 0x4B4++0x3
line.long 0x00 "L4_AP_REGION_l_H_54,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4B0++0x3
line.long 0x00 "L4_AP_REGION_l_L_54,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_55"
width 21.
group.long 0x4BC++0x3
line.long 0x00 "L4_AP_REGION_l_H_55,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4B8++0x3
line.long 0x00 "L4_AP_REGION_l_L_55,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_56"
width 21.
group.long 0x4C4++0x3
line.long 0x00 "L4_AP_REGION_l_H_56,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4C0++0x3
line.long 0x00 "L4_AP_REGION_l_L_56,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_57"
width 21.
group.long 0x4CC++0x3
line.long 0x00 "L4_AP_REGION_l_H_57,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4C8++0x3
line.long 0x00 "L4_AP_REGION_l_L_57,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_58"
width 21.
group.long 0x4D4++0x3
line.long 0x00 "L4_AP_REGION_l_H_58,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4D0++0x3
line.long 0x00 "L4_AP_REGION_l_L_58,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_59"
width 21.
group.long 0x4DC++0x3
line.long 0x00 "L4_AP_REGION_l_H_59,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4D8++0x3
line.long 0x00 "L4_AP_REGION_l_L_59,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_60"
width 21.
group.long 0x4E4++0x3
line.long 0x00 "L4_AP_REGION_l_H_60,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4E0++0x3
line.long 0x00 "L4_AP_REGION_l_L_60,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_61"
width 21.
group.long 0x4EC++0x3
line.long 0x00 "L4_AP_REGION_l_H_61,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4E8++0x3
line.long 0x00 "L4_AP_REGION_l_L_61,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_62"
width 21.
group.long 0x4F4++0x3
line.long 0x00 "L4_AP_REGION_l_H_62,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4F0++0x3
line.long 0x00 "L4_AP_REGION_l_L_62,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_63"
width 21.
group.long 0x4FC++0x3
line.long 0x00 "L4_AP_REGION_l_H_63,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4F8++0x3
line.long 0x00 "L4_AP_REGION_l_L_63,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_64"
width 21.
group.long 0x504++0x3
line.long 0x00 "L4_AP_REGION_l_H_64,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x500++0x3
line.long 0x00 "L4_AP_REGION_l_L_64,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_65"
width 21.
group.long 0x50C++0x3
line.long 0x00 "L4_AP_REGION_l_H_65,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x508++0x3
line.long 0x00 "L4_AP_REGION_l_L_65,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_66"
width 21.
group.long 0x514++0x3
line.long 0x00 "L4_AP_REGION_l_H_66,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x510++0x3
line.long 0x00 "L4_AP_REGION_l_L_66,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_67"
width 21.
group.long 0x51C++0x3
line.long 0x00 "L4_AP_REGION_l_H_67,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x518++0x3
line.long 0x00 "L4_AP_REGION_l_L_67,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_68"
width 21.
group.long 0x524++0x3
line.long 0x00 "L4_AP_REGION_l_H_68,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x520++0x3
line.long 0x00 "L4_AP_REGION_l_L_68,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_69"
width 21.
group.long 0x52C++0x3
line.long 0x00 "L4_AP_REGION_l_H_69,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x528++0x3
line.long 0x00 "L4_AP_REGION_l_L_69,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_70"
width 21.
group.long 0x534++0x3
line.long 0x00 "L4_AP_REGION_l_H_70,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x530++0x3
line.long 0x00 "L4_AP_REGION_l_L_70,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_71"
width 21.
group.long 0x53C++0x3
line.long 0x00 "L4_AP_REGION_l_H_71,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x538++0x3
line.long 0x00 "L4_AP_REGION_l_L_71,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_72"
width 21.
group.long 0x544++0x3
line.long 0x00 "L4_AP_REGION_l_H_72,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x540++0x3
line.long 0x00 "L4_AP_REGION_l_L_72,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_73"
width 21.
group.long 0x54C++0x3
line.long 0x00 "L4_AP_REGION_l_H_73,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x548++0x3
line.long 0x00 "L4_AP_REGION_l_L_73,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_74"
width 21.
group.long 0x554++0x3
line.long 0x00 "L4_AP_REGION_l_H_74,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x550++0x3
line.long 0x00 "L4_AP_REGION_l_L_74,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_75"
width 21.
group.long 0x55C++0x3
line.long 0x00 "L4_AP_REGION_l_H_75,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x558++0x3
line.long 0x00 "L4_AP_REGION_l_L_75,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_76"
width 21.
group.long 0x564++0x3
line.long 0x00 "L4_AP_REGION_l_H_76,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x560++0x3
line.long 0x00 "L4_AP_REGION_l_L_76,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_77"
width 21.
group.long 0x56C++0x3
line.long 0x00 "L4_AP_REGION_l_H_77,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x568++0x3
line.long 0x00 "L4_AP_REGION_l_L_77,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_78"
width 21.
group.long 0x574++0x3
line.long 0x00 "L4_AP_REGION_l_H_78,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x570++0x3
line.long 0x00 "L4_AP_REGION_l_L_78,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_79"
width 21.
group.long 0x57C++0x3
line.long 0x00 "L4_AP_REGION_l_H_79,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x578++0x3
line.long 0x00 "L4_AP_REGION_l_L_79,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_80"
width 21.
group.long 0x584++0x3
line.long 0x00 "L4_AP_REGION_l_H_80,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x580++0x3
line.long 0x00 "L4_AP_REGION_l_L_80,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_81"
width 21.
group.long 0x58C++0x3
line.long 0x00 "L4_AP_REGION_l_H_81,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x588++0x3
line.long 0x00 "L4_AP_REGION_l_L_81,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_82"
width 21.
group.long 0x594++0x3
line.long 0x00 "L4_AP_REGION_l_H_82,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x590++0x3
line.long 0x00 "L4_AP_REGION_l_L_82,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_83"
width 21.
group.long 0x59C++0x3
line.long 0x00 "L4_AP_REGION_l_H_83,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x598++0x3
line.long 0x00 "L4_AP_REGION_l_L_83,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_84"
width 21.
group.long 0x5A4++0x3
line.long 0x00 "L4_AP_REGION_l_H_84,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x5A0++0x3
line.long 0x00 "L4_AP_REGION_l_L_84,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_85"
width 21.
group.long 0x5AC++0x3
line.long 0x00 "L4_AP_REGION_l_H_85,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x5A8++0x3
line.long 0x00 "L4_AP_REGION_l_L_85,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_86"
width 21.
group.long 0x5B4++0x3
line.long 0x00 "L4_AP_REGION_l_H_86,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x5B0++0x3
line.long 0x00 "L4_AP_REGION_l_L_86,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_87"
width 21.
group.long 0x5BC++0x3
line.long 0x00 "L4_AP_REGION_l_H_87,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x5B8++0x3
line.long 0x00 "L4_AP_REGION_l_L_87,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_88"
width 21.
group.long 0x5C4++0x3
line.long 0x00 "L4_AP_REGION_l_H_88,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x5C0++0x3
line.long 0x00 "L4_AP_REGION_l_L_88,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_89"
width 21.
group.long 0x5CC++0x3
line.long 0x00 "L4_AP_REGION_l_H_89,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x5C8++0x3
line.long 0x00 "L4_AP_REGION_l_L_89,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_90"
width 21.
group.long 0x5D4++0x3
line.long 0x00 "L4_AP_REGION_l_H_90,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x5D0++0x3
line.long 0x00 "L4_AP_REGION_l_L_90,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_91"
width 21.
group.long 0x5DC++0x3
line.long 0x00 "L4_AP_REGION_l_H_91,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x5D8++0x3
line.long 0x00 "L4_AP_REGION_l_L_91,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_92"
width 21.
group.long 0x5E4++0x3
line.long 0x00 "L4_AP_REGION_l_H_92,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x5E0++0x3
line.long 0x00 "L4_AP_REGION_l_L_92,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_93"
width 21.
group.long 0x5EC++0x3
line.long 0x00 "L4_AP_REGION_l_H_93,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x5E8++0x3
line.long 0x00 "L4_AP_REGION_l_L_93,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_94"
width 21.
group.long 0x5F4++0x3
line.long 0x00 "L4_AP_REGION_l_H_94,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x5F0++0x3
line.long 0x00 "L4_AP_REGION_l_L_94,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_95"
width 21.
group.long 0x5FC++0x3
line.long 0x00 "L4_AP_REGION_l_H_95,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x5F8++0x3
line.long 0x00 "L4_AP_REGION_l_L_95,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_96"
width 21.
group.long 0x604++0x3
line.long 0x00 "L4_AP_REGION_l_H_96,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x600++0x3
line.long 0x00 "L4_AP_REGION_l_L_96,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "L4_AP_COMPONENT_L,Contains a component code and revision, which are used to identify the hardware of the component."
hexmask.long.word 0x00 16.--31. 1. " CODE ,Interconnect code"
hexmask.long.word 0x00 0.--15. 1. "      REV ,Component revision code"
group.long 0x4++0x3
line.long 0x00 "L4_AP_COMPONENT_H,Contains a component code and revision, which are used to identify the hardware of the component."
rgroup.long 0x100++0x3
line.long 0x00 "L4_AP_SEGMENT_i_L,Define the base address of each segments"
hexmask.long 0x00 0.--31. 1. " BASE ,The base address of the segment (with 0s from bit 0 to bit SIZE-1)."
rgroup.long 0x104++0x3
line.long 0x00 "L4_AP_SEGMENT_i_H,Define the size of each segments"
bitfld.long 0x00 0.--4. " SIZE ,Segment size is a power of 2, where 2 is the byte size of a segment (all segment registers use the same size)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree.open "PER1_IA_IP0"
tree "PER1_IA_IP0"
base ad:0x48001000
width 24.
rgroup.long 0x0++0x3
line.long 0x00 "L4_IA_COMPONENT_L,COMPONENT register identifies the component to which this register block belongs. The register contains a component code and revision, which are used to identify the hardware of the component. The COMPONENT register is read-only."
hexmask.long.word 0x00 16.--31. 1. " CODE                     ,Interconnect code"
hexmask.long.word 0x00 0.--15. 1. "      REV                    ,Component revision code"
group.long 0x4++0x3
line.long 0x00 "L4_IA_COMPONENT_H,COMPONENT register identifies the component to which this register block belongs. The register contains a component code and revision, which are used to identify the hardware of the component. The COMPONENT register is read-only."
rgroup.long 0x18++0x3
line.long 0x00 "L4_IA_CORE_L,Provide information about the core initiator"
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE                ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "      CORE_REV               ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_IA_CORE_H,Provide information about the core initiator"
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE              ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_IA_AGENT_CONTROL_L,Core control for an initiator OCP interface"
bitfld.long 0x00 31. " PROT_ERROR_SECONDARY_REP ,Out-of-band reporting of protection mechanism secondary errors" "0,1"
bitfld.long 0x00 30. "         PROT_ERROR_PRIMARY_REP ,Out-of-band reporting of protection mechanism primary errors" "0,1"
bitfld.long 0x00 27. "     INBAND_ERROR_REP ,Setting this field to 1 reports on in-band errors using the INBAND_ERROR log bit of IA.AGENT_STATUS register. The error reporting mechanism is enabled when the INBAND_ERROR_REP bit field is set to 1." "0,1"
textline "                                 "
bitfld.long 0x00 24. " MERROR_REP               ,OCP MError reporting control. The out-of-band OCP MError reporting mechanism is enabled when the MERROR_REP bit field is set to 1." "0,1"
group.long 0x24++0x3
line.long 0x00 "L4_IA_AGENT_CONTROL_H,Enable error reporting on an initiator interface."
group.long 0x28++0x3
line.long 0x00 "L4_IA_AGENT_STATUS_L,Stores status information for an initiator. The INBAND_ERROR and MERROR fields are read/write and are implemented as log bits."
eventfld.long 0x00 31. " PROT_ERROR_SECONDARY     ,0x0: Secondary Protection error not present.0x1: Secondary Protection error present" "0,1"
eventfld.long 0x00 30. "         PROT_ERROR_PRIMARY     ,0x0: Primary Protection error not present.0x1: Primary Protection error present" "0,1"
eventfld.long 0x00 27. "     INBAND_ERROR     ,0x0 No In-Band error present.0x1 In-Band error present." "0,1"
textline "                                 "
bitfld.long 0x00 24. " MERROR                   ,Value of the OCP MError signal" "0,1"
group.long 0x2C++0x3
line.long 0x00 "L4_IA_AGENT_STATUS_H,Stores status information for an initiator."
group.long 0x58++0x3
line.long 0x00 "L4_IA_ERROR_LOG_L,Log information about error conditions. The CODE field logs any protection violation or address hole errors detected by the initiator subsystem while decoding a request."
eventfld.long 0x00 31. " MULTI                    ,Multiple errors detected" "0,1"
eventfld.long 0x00 30. "         SECONDARY              ,Indicates whether protection violation was a primary or secondary error" "0,1"
bitfld.long 0x00 24.--25. "     CODE             ,The error code of an initiator request. 0x00: No errors 0x01: Reserved 0x10: Address hole 0x11: Protection violation" "0,1,2,3"
textline "                                 "
bitfld.long 0x00 8.--13. " CONNID                   ,ConnID of request causing the error, refer to" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--2. "        CMD                    ,Command that caused error" "0,1,2,3,4,5,6,7"
rgroup.long 0x5C++0x3
line.long 0x00 "L4_IA_ERROR_LOG_H,Log information about error conditions."
hexmask.long.word 0x00 0.--15. 1. " REQ_INFO                 ,MReqInfo bits of request that caused the error REQ_INFO[0] = supervisor, REQ_INFO[1] = Debug"
rgroup.long 0x60++0x3
line.long 0x00 "L4_IA_ERROR_LOG_ADDR_L,Extended error log (address information)"
hexmask.long 0x00 0.--31. 1. " ADDR                     ,Address of request that caused the error. N is the number MAddr bits."
group.long 0x64++0x3
line.long 0x00 "L4_IA_ERROR_LOG_ADDR_H,Extended error log (address information)"
width 0x0B
tree.end
tree "PER1_IA_IP1"
base ad:0x48001400
width 24.
rgroup.long 0x0++0x3
line.long 0x00 "L4_IA_COMPONENT_L,COMPONENT register identifies the component to which this register block belongs. The register contains a component code and revision, which are used to identify the hardware of the component. The COMPONENT register is read-only."
hexmask.long.word 0x00 16.--31. 1. " CODE                     ,Interconnect code"
hexmask.long.word 0x00 0.--15. 1. "      REV                    ,Component revision code"
group.long 0x4++0x3
line.long 0x00 "L4_IA_COMPONENT_H,COMPONENT register identifies the component to which this register block belongs. The register contains a component code and revision, which are used to identify the hardware of the component. The COMPONENT register is read-only."
rgroup.long 0x18++0x3
line.long 0x00 "L4_IA_CORE_L,Provide information about the core initiator"
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE                ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "      CORE_REV               ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_IA_CORE_H,Provide information about the core initiator"
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE              ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_IA_AGENT_CONTROL_L,Core control for an initiator OCP interface"
bitfld.long 0x00 31. " PROT_ERROR_SECONDARY_REP ,Out-of-band reporting of protection mechanism secondary errors" "0,1"
bitfld.long 0x00 30. "         PROT_ERROR_PRIMARY_REP ,Out-of-band reporting of protection mechanism primary errors" "0,1"
bitfld.long 0x00 27. "     INBAND_ERROR_REP ,Setting this field to 1 reports on in-band errors using the INBAND_ERROR log bit of IA.AGENT_STATUS register. The error reporting mechanism is enabled when the INBAND_ERROR_REP bit field is set to 1." "0,1"
textline "                                 "
bitfld.long 0x00 24. " MERROR_REP               ,OCP MError reporting control. The out-of-band OCP MError reporting mechanism is enabled when the MERROR_REP bit field is set to 1." "0,1"
group.long 0x24++0x3
line.long 0x00 "L4_IA_AGENT_CONTROL_H,Enable error reporting on an initiator interface."
group.long 0x28++0x3
line.long 0x00 "L4_IA_AGENT_STATUS_L,Stores status information for an initiator. The INBAND_ERROR and MERROR fields are read/write and are implemented as log bits."
eventfld.long 0x00 31. " PROT_ERROR_SECONDARY     ,0x0: Secondary Protection error not present.0x1: Secondary Protection error present" "0,1"
eventfld.long 0x00 30. "         PROT_ERROR_PRIMARY     ,0x0: Primary Protection error not present.0x1: Primary Protection error present" "0,1"
eventfld.long 0x00 27. "     INBAND_ERROR     ,0x0 No In-Band error present.0x1 In-Band error present." "0,1"
textline "                                 "
bitfld.long 0x00 24. " MERROR                   ,Value of the OCP MError signal" "0,1"
group.long 0x2C++0x3
line.long 0x00 "L4_IA_AGENT_STATUS_H,Stores status information for an initiator."
group.long 0x58++0x3
line.long 0x00 "L4_IA_ERROR_LOG_L,Log information about error conditions. The CODE field logs any protection violation or address hole errors detected by the initiator subsystem while decoding a request."
eventfld.long 0x00 31. " MULTI                    ,Multiple errors detected" "0,1"
eventfld.long 0x00 30. "         SECONDARY              ,Indicates whether protection violation was a primary or secondary error" "0,1"
bitfld.long 0x00 24.--25. "     CODE             ,The error code of an initiator request. 0x00: No errors 0x01: Reserved 0x10: Address hole 0x11: Protection violation" "0,1,2,3"
textline "                                 "
bitfld.long 0x00 8.--13. " CONNID                   ,ConnID of request causing the error, refer to" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--2. "        CMD                    ,Command that caused error" "0,1,2,3,4,5,6,7"
rgroup.long 0x5C++0x3
line.long 0x00 "L4_IA_ERROR_LOG_H,Log information about error conditions."
hexmask.long.word 0x00 0.--15. 1. " REQ_INFO                 ,MReqInfo bits of request that caused the error REQ_INFO[0] = supervisor, REQ_INFO[1] = Debug"
rgroup.long 0x60++0x3
line.long 0x00 "L4_IA_ERROR_LOG_ADDR_L,Extended error log (address information)"
hexmask.long 0x00 0.--31. 1. " ADDR                     ,Address of request that caused the error. N is the number MAddr bits."
group.long 0x64++0x3
line.long 0x00 "L4_IA_ERROR_LOG_ADDR_H,Extended error log (address information)"
width 0x0B
tree.end
tree "PER1_IA_IP2"
base ad:0x48001800
width 24.
rgroup.long 0x0++0x3
line.long 0x00 "L4_IA_COMPONENT_L,COMPONENT register identifies the component to which this register block belongs. The register contains a component code and revision, which are used to identify the hardware of the component. The COMPONENT register is read-only."
hexmask.long.word 0x00 16.--31. 1. " CODE                     ,Interconnect code"
hexmask.long.word 0x00 0.--15. 1. "      REV                    ,Component revision code"
group.long 0x4++0x3
line.long 0x00 "L4_IA_COMPONENT_H,COMPONENT register identifies the component to which this register block belongs. The register contains a component code and revision, which are used to identify the hardware of the component. The COMPONENT register is read-only."
rgroup.long 0x18++0x3
line.long 0x00 "L4_IA_CORE_L,Provide information about the core initiator"
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE                ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "      CORE_REV               ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_IA_CORE_H,Provide information about the core initiator"
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE              ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_IA_AGENT_CONTROL_L,Core control for an initiator OCP interface"
bitfld.long 0x00 31. " PROT_ERROR_SECONDARY_REP ,Out-of-band reporting of protection mechanism secondary errors" "0,1"
bitfld.long 0x00 30. "         PROT_ERROR_PRIMARY_REP ,Out-of-band reporting of protection mechanism primary errors" "0,1"
bitfld.long 0x00 27. "     INBAND_ERROR_REP ,Setting this field to 1 reports on in-band errors using the INBAND_ERROR log bit of IA.AGENT_STATUS register. The error reporting mechanism is enabled when the INBAND_ERROR_REP bit field is set to 1." "0,1"
textline "                                 "
bitfld.long 0x00 24. " MERROR_REP               ,OCP MError reporting control. The out-of-band OCP MError reporting mechanism is enabled when the MERROR_REP bit field is set to 1." "0,1"
group.long 0x24++0x3
line.long 0x00 "L4_IA_AGENT_CONTROL_H,Enable error reporting on an initiator interface."
group.long 0x28++0x3
line.long 0x00 "L4_IA_AGENT_STATUS_L,Stores status information for an initiator. The INBAND_ERROR and MERROR fields are read/write and are implemented as log bits."
eventfld.long 0x00 31. " PROT_ERROR_SECONDARY     ,0x0: Secondary Protection error not present.0x1: Secondary Protection error present" "0,1"
eventfld.long 0x00 30. "         PROT_ERROR_PRIMARY     ,0x0: Primary Protection error not present.0x1: Primary Protection error present" "0,1"
eventfld.long 0x00 27. "     INBAND_ERROR     ,0x0 No In-Band error present.0x1 In-Band error present." "0,1"
textline "                                 "
bitfld.long 0x00 24. " MERROR                   ,Value of the OCP MError signal" "0,1"
group.long 0x2C++0x3
line.long 0x00 "L4_IA_AGENT_STATUS_H,Stores status information for an initiator."
group.long 0x58++0x3
line.long 0x00 "L4_IA_ERROR_LOG_L,Log information about error conditions. The CODE field logs any protection violation or address hole errors detected by the initiator subsystem while decoding a request."
eventfld.long 0x00 31. " MULTI                    ,Multiple errors detected" "0,1"
eventfld.long 0x00 30. "         SECONDARY              ,Indicates whether protection violation was a primary or secondary error" "0,1"
bitfld.long 0x00 24.--25. "     CODE             ,The error code of an initiator request. 0x00: No errors 0x01: Reserved 0x10: Address hole 0x11: Protection violation" "0,1,2,3"
textline "                                 "
bitfld.long 0x00 8.--13. " CONNID                   ,ConnID of request causing the error, refer to" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--2. "        CMD                    ,Command that caused error" "0,1,2,3,4,5,6,7"
rgroup.long 0x5C++0x3
line.long 0x00 "L4_IA_ERROR_LOG_H,Log information about error conditions."
hexmask.long.word 0x00 0.--15. 1. " REQ_INFO                 ,MReqInfo bits of request that caused the error REQ_INFO[0] = supervisor, REQ_INFO[1] = Debug"
rgroup.long 0x60++0x3
line.long 0x00 "L4_IA_ERROR_LOG_ADDR_L,Extended error log (address information)"
hexmask.long 0x00 0.--31. 1. " ADDR                     ,Address of request that caused the error. N is the number MAddr bits."
group.long 0x64++0x3
line.long 0x00 "L4_IA_ERROR_LOG_ADDR_H,Extended error log (address information)"
width 0x0B
tree.end
tree "PER2_IA_IP0"
base ad:0x48401000
width 24.
rgroup.long 0x0++0x3
line.long 0x00 "L4_IA_COMPONENT_L,COMPONENT register identifies the component to which this register block belongs. The register contains a component code and revision, which are used to identify the hardware of the component. The COMPONENT register is read-only."
hexmask.long.word 0x00 16.--31. 1. " CODE                     ,Interconnect code"
hexmask.long.word 0x00 0.--15. 1. "      REV                    ,Component revision code"
group.long 0x4++0x3
line.long 0x00 "L4_IA_COMPONENT_H,COMPONENT register identifies the component to which this register block belongs. The register contains a component code and revision, which are used to identify the hardware of the component. The COMPONENT register is read-only."
rgroup.long 0x18++0x3
line.long 0x00 "L4_IA_CORE_L,Provide information about the core initiator"
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE                ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "      CORE_REV               ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_IA_CORE_H,Provide information about the core initiator"
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE              ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_IA_AGENT_CONTROL_L,Core control for an initiator OCP interface"
bitfld.long 0x00 31. " PROT_ERROR_SECONDARY_REP ,Out-of-band reporting of protection mechanism secondary errors" "0,1"
bitfld.long 0x00 30. "         PROT_ERROR_PRIMARY_REP ,Out-of-band reporting of protection mechanism primary errors" "0,1"
bitfld.long 0x00 27. "     INBAND_ERROR_REP ,Setting this field to 1 reports on in-band errors using the INBAND_ERROR log bit of IA.AGENT_STATUS register. The error reporting mechanism is enabled when the INBAND_ERROR_REP bit field is set to 1." "0,1"
textline "                                 "
bitfld.long 0x00 24. " MERROR_REP               ,OCP MError reporting control. The out-of-band OCP MError reporting mechanism is enabled when the MERROR_REP bit field is set to 1." "0,1"
group.long 0x24++0x3
line.long 0x00 "L4_IA_AGENT_CONTROL_H,Enable error reporting on an initiator interface."
group.long 0x28++0x3
line.long 0x00 "L4_IA_AGENT_STATUS_L,Stores status information for an initiator. The INBAND_ERROR and MERROR fields are read/write and are implemented as log bits."
eventfld.long 0x00 31. " PROT_ERROR_SECONDARY     ,0x0: Secondary Protection error not present.0x1: Secondary Protection error present" "0,1"
eventfld.long 0x00 30. "         PROT_ERROR_PRIMARY     ,0x0: Primary Protection error not present.0x1: Primary Protection error present" "0,1"
eventfld.long 0x00 27. "     INBAND_ERROR     ,0x0 No In-Band error present.0x1 In-Band error present." "0,1"
textline "                                 "
bitfld.long 0x00 24. " MERROR                   ,Value of the OCP MError signal" "0,1"
group.long 0x2C++0x3
line.long 0x00 "L4_IA_AGENT_STATUS_H,Stores status information for an initiator."
group.long 0x58++0x3
line.long 0x00 "L4_IA_ERROR_LOG_L,Log information about error conditions. The CODE field logs any protection violation or address hole errors detected by the initiator subsystem while decoding a request."
eventfld.long 0x00 31. " MULTI                    ,Multiple errors detected" "0,1"
eventfld.long 0x00 30. "         SECONDARY              ,Indicates whether protection violation was a primary or secondary error" "0,1"
bitfld.long 0x00 24.--25. "     CODE             ,The error code of an initiator request. 0x00: No errors 0x01: Reserved 0x10: Address hole 0x11: Protection violation" "0,1,2,3"
textline "                                 "
bitfld.long 0x00 8.--13. " CONNID                   ,ConnID of request causing the error, refer to" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--2. "        CMD                    ,Command that caused error" "0,1,2,3,4,5,6,7"
rgroup.long 0x5C++0x3
line.long 0x00 "L4_IA_ERROR_LOG_H,Log information about error conditions."
hexmask.long.word 0x00 0.--15. 1. " REQ_INFO                 ,MReqInfo bits of request that caused the error REQ_INFO[0] = supervisor, REQ_INFO[1] = Debug"
rgroup.long 0x60++0x3
line.long 0x00 "L4_IA_ERROR_LOG_ADDR_L,Extended error log (address information)"
hexmask.long 0x00 0.--31. 1. " ADDR                     ,Address of request that caused the error. N is the number MAddr bits."
group.long 0x64++0x3
line.long 0x00 "L4_IA_ERROR_LOG_ADDR_H,Extended error log (address information)"
width 0x0B
tree.end
tree "PER2_IA_IP1"
base ad:0x48401400
width 24.
rgroup.long 0x0++0x3
line.long 0x00 "L4_IA_COMPONENT_L,COMPONENT register identifies the component to which this register block belongs. The register contains a component code and revision, which are used to identify the hardware of the component. The COMPONENT register is read-only."
hexmask.long.word 0x00 16.--31. 1. " CODE                     ,Interconnect code"
hexmask.long.word 0x00 0.--15. 1. "      REV                    ,Component revision code"
group.long 0x4++0x3
line.long 0x00 "L4_IA_COMPONENT_H,COMPONENT register identifies the component to which this register block belongs. The register contains a component code and revision, which are used to identify the hardware of the component. The COMPONENT register is read-only."
rgroup.long 0x18++0x3
line.long 0x00 "L4_IA_CORE_L,Provide information about the core initiator"
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE                ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "      CORE_REV               ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_IA_CORE_H,Provide information about the core initiator"
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE              ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_IA_AGENT_CONTROL_L,Core control for an initiator OCP interface"
bitfld.long 0x00 31. " PROT_ERROR_SECONDARY_REP ,Out-of-band reporting of protection mechanism secondary errors" "0,1"
bitfld.long 0x00 30. "         PROT_ERROR_PRIMARY_REP ,Out-of-band reporting of protection mechanism primary errors" "0,1"
bitfld.long 0x00 27. "     INBAND_ERROR_REP ,Setting this field to 1 reports on in-band errors using the INBAND_ERROR log bit of IA.AGENT_STATUS register. The error reporting mechanism is enabled when the INBAND_ERROR_REP bit field is set to 1." "0,1"
textline "                                 "
bitfld.long 0x00 24. " MERROR_REP               ,OCP MError reporting control. The out-of-band OCP MError reporting mechanism is enabled when the MERROR_REP bit field is set to 1." "0,1"
group.long 0x24++0x3
line.long 0x00 "L4_IA_AGENT_CONTROL_H,Enable error reporting on an initiator interface."
group.long 0x28++0x3
line.long 0x00 "L4_IA_AGENT_STATUS_L,Stores status information for an initiator. The INBAND_ERROR and MERROR fields are read/write and are implemented as log bits."
eventfld.long 0x00 31. " PROT_ERROR_SECONDARY     ,0x0: Secondary Protection error not present.0x1: Secondary Protection error present" "0,1"
eventfld.long 0x00 30. "         PROT_ERROR_PRIMARY     ,0x0: Primary Protection error not present.0x1: Primary Protection error present" "0,1"
eventfld.long 0x00 27. "     INBAND_ERROR     ,0x0 No In-Band error present.0x1 In-Band error present." "0,1"
textline "                                 "
bitfld.long 0x00 24. " MERROR                   ,Value of the OCP MError signal" "0,1"
group.long 0x2C++0x3
line.long 0x00 "L4_IA_AGENT_STATUS_H,Stores status information for an initiator."
group.long 0x58++0x3
line.long 0x00 "L4_IA_ERROR_LOG_L,Log information about error conditions. The CODE field logs any protection violation or address hole errors detected by the initiator subsystem while decoding a request."
eventfld.long 0x00 31. " MULTI                    ,Multiple errors detected" "0,1"
eventfld.long 0x00 30. "         SECONDARY              ,Indicates whether protection violation was a primary or secondary error" "0,1"
bitfld.long 0x00 24.--25. "     CODE             ,The error code of an initiator request. 0x00: No errors 0x01: Reserved 0x10: Address hole 0x11: Protection violation" "0,1,2,3"
textline "                                 "
bitfld.long 0x00 8.--13. " CONNID                   ,ConnID of request causing the error, refer to" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--2. "        CMD                    ,Command that caused error" "0,1,2,3,4,5,6,7"
rgroup.long 0x5C++0x3
line.long 0x00 "L4_IA_ERROR_LOG_H,Log information about error conditions."
hexmask.long.word 0x00 0.--15. 1. " REQ_INFO                 ,MReqInfo bits of request that caused the error REQ_INFO[0] = supervisor, REQ_INFO[1] = Debug"
rgroup.long 0x60++0x3
line.long 0x00 "L4_IA_ERROR_LOG_ADDR_L,Extended error log (address information)"
hexmask.long 0x00 0.--31. 1. " ADDR                     ,Address of request that caused the error. N is the number MAddr bits."
group.long 0x64++0x3
line.long 0x00 "L4_IA_ERROR_LOG_ADDR_H,Extended error log (address information)"
width 0x0B
tree.end
tree "PER2_IA_IP2"
base ad:0x48401800
width 24.
rgroup.long 0x0++0x3
line.long 0x00 "L4_IA_COMPONENT_L,COMPONENT register identifies the component to which this register block belongs. The register contains a component code and revision, which are used to identify the hardware of the component. The COMPONENT register is read-only."
hexmask.long.word 0x00 16.--31. 1. " CODE                     ,Interconnect code"
hexmask.long.word 0x00 0.--15. 1. "      REV                    ,Component revision code"
group.long 0x4++0x3
line.long 0x00 "L4_IA_COMPONENT_H,COMPONENT register identifies the component to which this register block belongs. The register contains a component code and revision, which are used to identify the hardware of the component. The COMPONENT register is read-only."
rgroup.long 0x18++0x3
line.long 0x00 "L4_IA_CORE_L,Provide information about the core initiator"
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE                ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "      CORE_REV               ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_IA_CORE_H,Provide information about the core initiator"
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE              ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_IA_AGENT_CONTROL_L,Core control for an initiator OCP interface"
bitfld.long 0x00 31. " PROT_ERROR_SECONDARY_REP ,Out-of-band reporting of protection mechanism secondary errors" "0,1"
bitfld.long 0x00 30. "         PROT_ERROR_PRIMARY_REP ,Out-of-band reporting of protection mechanism primary errors" "0,1"
bitfld.long 0x00 27. "     INBAND_ERROR_REP ,Setting this field to 1 reports on in-band errors using the INBAND_ERROR log bit of IA.AGENT_STATUS register. The error reporting mechanism is enabled when the INBAND_ERROR_REP bit field is set to 1." "0,1"
textline "                                 "
bitfld.long 0x00 24. " MERROR_REP               ,OCP MError reporting control. The out-of-band OCP MError reporting mechanism is enabled when the MERROR_REP bit field is set to 1." "0,1"
group.long 0x24++0x3
line.long 0x00 "L4_IA_AGENT_CONTROL_H,Enable error reporting on an initiator interface."
group.long 0x28++0x3
line.long 0x00 "L4_IA_AGENT_STATUS_L,Stores status information for an initiator. The INBAND_ERROR and MERROR fields are read/write and are implemented as log bits."
eventfld.long 0x00 31. " PROT_ERROR_SECONDARY     ,0x0: Secondary Protection error not present.0x1: Secondary Protection error present" "0,1"
eventfld.long 0x00 30. "         PROT_ERROR_PRIMARY     ,0x0: Primary Protection error not present.0x1: Primary Protection error present" "0,1"
eventfld.long 0x00 27. "     INBAND_ERROR     ,0x0 No In-Band error present.0x1 In-Band error present." "0,1"
textline "                                 "
bitfld.long 0x00 24. " MERROR                   ,Value of the OCP MError signal" "0,1"
group.long 0x2C++0x3
line.long 0x00 "L4_IA_AGENT_STATUS_H,Stores status information for an initiator."
group.long 0x58++0x3
line.long 0x00 "L4_IA_ERROR_LOG_L,Log information about error conditions. The CODE field logs any protection violation or address hole errors detected by the initiator subsystem while decoding a request."
eventfld.long 0x00 31. " MULTI                    ,Multiple errors detected" "0,1"
eventfld.long 0x00 30. "         SECONDARY              ,Indicates whether protection violation was a primary or secondary error" "0,1"
bitfld.long 0x00 24.--25. "     CODE             ,The error code of an initiator request. 0x00: No errors 0x01: Reserved 0x10: Address hole 0x11: Protection violation" "0,1,2,3"
textline "                                 "
bitfld.long 0x00 8.--13. " CONNID                   ,ConnID of request causing the error, refer to" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--2. "        CMD                    ,Command that caused error" "0,1,2,3,4,5,6,7"
rgroup.long 0x5C++0x3
line.long 0x00 "L4_IA_ERROR_LOG_H,Log information about error conditions."
hexmask.long.word 0x00 0.--15. 1. " REQ_INFO                 ,MReqInfo bits of request that caused the error REQ_INFO[0] = supervisor, REQ_INFO[1] = Debug"
rgroup.long 0x60++0x3
line.long 0x00 "L4_IA_ERROR_LOG_ADDR_L,Extended error log (address information)"
hexmask.long 0x00 0.--31. 1. " ADDR                     ,Address of request that caused the error. N is the number MAddr bits."
group.long 0x64++0x3
line.long 0x00 "L4_IA_ERROR_LOG_ADDR_H,Extended error log (address information)"
width 0x0B
tree.end
tree "PER3_IA_IP0"
base ad:0x48801000
width 24.
rgroup.long 0x0++0x3
line.long 0x00 "L4_IA_COMPONENT_L,COMPONENT register identifies the component to which this register block belongs. The register contains a component code and revision, which are used to identify the hardware of the component. The COMPONENT register is read-only."
hexmask.long.word 0x00 16.--31. 1. " CODE                     ,Interconnect code"
hexmask.long.word 0x00 0.--15. 1. "      REV                    ,Component revision code"
group.long 0x4++0x3
line.long 0x00 "L4_IA_COMPONENT_H,COMPONENT register identifies the component to which this register block belongs. The register contains a component code and revision, which are used to identify the hardware of the component. The COMPONENT register is read-only."
rgroup.long 0x18++0x3
line.long 0x00 "L4_IA_CORE_L,Provide information about the core initiator"
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE                ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "      CORE_REV               ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_IA_CORE_H,Provide information about the core initiator"
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE              ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_IA_AGENT_CONTROL_L,Core control for an initiator OCP interface"
bitfld.long 0x00 31. " PROT_ERROR_SECONDARY_REP ,Out-of-band reporting of protection mechanism secondary errors" "0,1"
bitfld.long 0x00 30. "         PROT_ERROR_PRIMARY_REP ,Out-of-band reporting of protection mechanism primary errors" "0,1"
bitfld.long 0x00 27. "     INBAND_ERROR_REP ,Setting this field to 1 reports on in-band errors using the INBAND_ERROR log bit of IA.AGENT_STATUS register. The error reporting mechanism is enabled when the INBAND_ERROR_REP bit field is set to 1." "0,1"
textline "                                 "
bitfld.long 0x00 24. " MERROR_REP               ,OCP MError reporting control. The out-of-band OCP MError reporting mechanism is enabled when the MERROR_REP bit field is set to 1." "0,1"
group.long 0x24++0x3
line.long 0x00 "L4_IA_AGENT_CONTROL_H,Enable error reporting on an initiator interface."
group.long 0x28++0x3
line.long 0x00 "L4_IA_AGENT_STATUS_L,Stores status information for an initiator. The INBAND_ERROR and MERROR fields are read/write and are implemented as log bits."
eventfld.long 0x00 31. " PROT_ERROR_SECONDARY     ,0x0: Secondary Protection error not present.0x1: Secondary Protection error present" "0,1"
eventfld.long 0x00 30. "         PROT_ERROR_PRIMARY     ,0x0: Primary Protection error not present.0x1: Primary Protection error present" "0,1"
eventfld.long 0x00 27. "     INBAND_ERROR     ,0x0 No In-Band error present.0x1 In-Band error present." "0,1"
textline "                                 "
bitfld.long 0x00 24. " MERROR                   ,Value of the OCP MError signal" "0,1"
group.long 0x2C++0x3
line.long 0x00 "L4_IA_AGENT_STATUS_H,Stores status information for an initiator."
group.long 0x58++0x3
line.long 0x00 "L4_IA_ERROR_LOG_L,Log information about error conditions. The CODE field logs any protection violation or address hole errors detected by the initiator subsystem while decoding a request."
eventfld.long 0x00 31. " MULTI                    ,Multiple errors detected" "0,1"
eventfld.long 0x00 30. "         SECONDARY              ,Indicates whether protection violation was a primary or secondary error" "0,1"
bitfld.long 0x00 24.--25. "     CODE             ,The error code of an initiator request. 0x00: No errors 0x01: Reserved 0x10: Address hole 0x11: Protection violation" "0,1,2,3"
textline "                                 "
bitfld.long 0x00 8.--13. " CONNID                   ,ConnID of request causing the error, refer to" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--2. "        CMD                    ,Command that caused error" "0,1,2,3,4,5,6,7"
rgroup.long 0x5C++0x3
line.long 0x00 "L4_IA_ERROR_LOG_H,Log information about error conditions."
hexmask.long.word 0x00 0.--15. 1. " REQ_INFO                 ,MReqInfo bits of request that caused the error REQ_INFO[0] = supervisor, REQ_INFO[1] = Debug"
rgroup.long 0x60++0x3
line.long 0x00 "L4_IA_ERROR_LOG_ADDR_L,Extended error log (address information)"
hexmask.long 0x00 0.--31. 1. " ADDR                     ,Address of request that caused the error. N is the number MAddr bits."
group.long 0x64++0x3
line.long 0x00 "L4_IA_ERROR_LOG_ADDR_H,Extended error log (address information)"
width 0x0B
tree.end
tree "PER3_IA_IP1"
base ad:0x48801400
width 24.
rgroup.long 0x0++0x3
line.long 0x00 "L4_IA_COMPONENT_L,COMPONENT register identifies the component to which this register block belongs. The register contains a component code and revision, which are used to identify the hardware of the component. The COMPONENT register is read-only."
hexmask.long.word 0x00 16.--31. 1. " CODE                     ,Interconnect code"
hexmask.long.word 0x00 0.--15. 1. "      REV                    ,Component revision code"
group.long 0x4++0x3
line.long 0x00 "L4_IA_COMPONENT_H,COMPONENT register identifies the component to which this register block belongs. The register contains a component code and revision, which are used to identify the hardware of the component. The COMPONENT register is read-only."
rgroup.long 0x18++0x3
line.long 0x00 "L4_IA_CORE_L,Provide information about the core initiator"
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE                ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "      CORE_REV               ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_IA_CORE_H,Provide information about the core initiator"
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE              ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_IA_AGENT_CONTROL_L,Core control for an initiator OCP interface"
bitfld.long 0x00 31. " PROT_ERROR_SECONDARY_REP ,Out-of-band reporting of protection mechanism secondary errors" "0,1"
bitfld.long 0x00 30. "         PROT_ERROR_PRIMARY_REP ,Out-of-band reporting of protection mechanism primary errors" "0,1"
bitfld.long 0x00 27. "     INBAND_ERROR_REP ,Setting this field to 1 reports on in-band errors using the INBAND_ERROR log bit of IA.AGENT_STATUS register. The error reporting mechanism is enabled when the INBAND_ERROR_REP bit field is set to 1." "0,1"
textline "                                 "
bitfld.long 0x00 24. " MERROR_REP               ,OCP MError reporting control. The out-of-band OCP MError reporting mechanism is enabled when the MERROR_REP bit field is set to 1." "0,1"
group.long 0x24++0x3
line.long 0x00 "L4_IA_AGENT_CONTROL_H,Enable error reporting on an initiator interface."
group.long 0x28++0x3
line.long 0x00 "L4_IA_AGENT_STATUS_L,Stores status information for an initiator. The INBAND_ERROR and MERROR fields are read/write and are implemented as log bits."
eventfld.long 0x00 31. " PROT_ERROR_SECONDARY     ,0x0: Secondary Protection error not present.0x1: Secondary Protection error present" "0,1"
eventfld.long 0x00 30. "         PROT_ERROR_PRIMARY     ,0x0: Primary Protection error not present.0x1: Primary Protection error present" "0,1"
eventfld.long 0x00 27. "     INBAND_ERROR     ,0x0 No In-Band error present.0x1 In-Band error present." "0,1"
textline "                                 "
bitfld.long 0x00 24. " MERROR                   ,Value of the OCP MError signal" "0,1"
group.long 0x2C++0x3
line.long 0x00 "L4_IA_AGENT_STATUS_H,Stores status information for an initiator."
group.long 0x58++0x3
line.long 0x00 "L4_IA_ERROR_LOG_L,Log information about error conditions. The CODE field logs any protection violation or address hole errors detected by the initiator subsystem while decoding a request."
eventfld.long 0x00 31. " MULTI                    ,Multiple errors detected" "0,1"
eventfld.long 0x00 30. "         SECONDARY              ,Indicates whether protection violation was a primary or secondary error" "0,1"
bitfld.long 0x00 24.--25. "     CODE             ,The error code of an initiator request. 0x00: No errors 0x01: Reserved 0x10: Address hole 0x11: Protection violation" "0,1,2,3"
textline "                                 "
bitfld.long 0x00 8.--13. " CONNID                   ,ConnID of request causing the error, refer to" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--2. "        CMD                    ,Command that caused error" "0,1,2,3,4,5,6,7"
rgroup.long 0x5C++0x3
line.long 0x00 "L4_IA_ERROR_LOG_H,Log information about error conditions."
hexmask.long.word 0x00 0.--15. 1. " REQ_INFO                 ,MReqInfo bits of request that caused the error REQ_INFO[0] = supervisor, REQ_INFO[1] = Debug"
rgroup.long 0x60++0x3
line.long 0x00 "L4_IA_ERROR_LOG_ADDR_L,Extended error log (address information)"
hexmask.long 0x00 0.--31. 1. " ADDR                     ,Address of request that caused the error. N is the number MAddr bits."
group.long 0x64++0x3
line.long 0x00 "L4_IA_ERROR_LOG_ADDR_H,Extended error log (address information)"
width 0x0B
tree.end
tree "PER3_IA_IP2"
base ad:0x48801800
width 24.
rgroup.long 0x0++0x3
line.long 0x00 "L4_IA_COMPONENT_L,COMPONENT register identifies the component to which this register block belongs. The register contains a component code and revision, which are used to identify the hardware of the component. The COMPONENT register is read-only."
hexmask.long.word 0x00 16.--31. 1. " CODE                     ,Interconnect code"
hexmask.long.word 0x00 0.--15. 1. "      REV                    ,Component revision code"
group.long 0x4++0x3
line.long 0x00 "L4_IA_COMPONENT_H,COMPONENT register identifies the component to which this register block belongs. The register contains a component code and revision, which are used to identify the hardware of the component. The COMPONENT register is read-only."
rgroup.long 0x18++0x3
line.long 0x00 "L4_IA_CORE_L,Provide information about the core initiator"
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE                ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "      CORE_REV               ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_IA_CORE_H,Provide information about the core initiator"
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE              ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_IA_AGENT_CONTROL_L,Core control for an initiator OCP interface"
bitfld.long 0x00 31. " PROT_ERROR_SECONDARY_REP ,Out-of-band reporting of protection mechanism secondary errors" "0,1"
bitfld.long 0x00 30. "         PROT_ERROR_PRIMARY_REP ,Out-of-band reporting of protection mechanism primary errors" "0,1"
bitfld.long 0x00 27. "     INBAND_ERROR_REP ,Setting this field to 1 reports on in-band errors using the INBAND_ERROR log bit of IA.AGENT_STATUS register. The error reporting mechanism is enabled when the INBAND_ERROR_REP bit field is set to 1." "0,1"
textline "                                 "
bitfld.long 0x00 24. " MERROR_REP               ,OCP MError reporting control. The out-of-band OCP MError reporting mechanism is enabled when the MERROR_REP bit field is set to 1." "0,1"
group.long 0x24++0x3
line.long 0x00 "L4_IA_AGENT_CONTROL_H,Enable error reporting on an initiator interface."
group.long 0x28++0x3
line.long 0x00 "L4_IA_AGENT_STATUS_L,Stores status information for an initiator. The INBAND_ERROR and MERROR fields are read/write and are implemented as log bits."
eventfld.long 0x00 31. " PROT_ERROR_SECONDARY     ,0x0: Secondary Protection error not present.0x1: Secondary Protection error present" "0,1"
eventfld.long 0x00 30. "         PROT_ERROR_PRIMARY     ,0x0: Primary Protection error not present.0x1: Primary Protection error present" "0,1"
eventfld.long 0x00 27. "     INBAND_ERROR     ,0x0 No In-Band error present.0x1 In-Band error present." "0,1"
textline "                                 "
bitfld.long 0x00 24. " MERROR                   ,Value of the OCP MError signal" "0,1"
group.long 0x2C++0x3
line.long 0x00 "L4_IA_AGENT_STATUS_H,Stores status information for an initiator."
group.long 0x58++0x3
line.long 0x00 "L4_IA_ERROR_LOG_L,Log information about error conditions. The CODE field logs any protection violation or address hole errors detected by the initiator subsystem while decoding a request."
eventfld.long 0x00 31. " MULTI                    ,Multiple errors detected" "0,1"
eventfld.long 0x00 30. "         SECONDARY              ,Indicates whether protection violation was a primary or secondary error" "0,1"
bitfld.long 0x00 24.--25. "     CODE             ,The error code of an initiator request. 0x00: No errors 0x01: Reserved 0x10: Address hole 0x11: Protection violation" "0,1,2,3"
textline "                                 "
bitfld.long 0x00 8.--13. " CONNID                   ,ConnID of request causing the error, refer to" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--2. "        CMD                    ,Command that caused error" "0,1,2,3,4,5,6,7"
rgroup.long 0x5C++0x3
line.long 0x00 "L4_IA_ERROR_LOG_H,Log information about error conditions."
hexmask.long.word 0x00 0.--15. 1. " REQ_INFO                 ,MReqInfo bits of request that caused the error REQ_INFO[0] = supervisor, REQ_INFO[1] = Debug"
rgroup.long 0x60++0x3
line.long 0x00 "L4_IA_ERROR_LOG_ADDR_L,Extended error log (address information)"
hexmask.long 0x00 0.--31. 1. " ADDR                     ,Address of request that caused the error. N is the number MAddr bits."
group.long 0x64++0x3
line.long 0x00 "L4_IA_ERROR_LOG_ADDR_H,Extended error log (address information)"
width 0x0B
tree.end
tree "CFG_IA_IP0"
base ad:0x4A001000
width 24.
rgroup.long 0x0++0x3
line.long 0x00 "L4_IA_COMPONENT_L,COMPONENT register identifies the component to which this register block belongs. The register contains a component code and revision, which are used to identify the hardware of the component. The COMPONENT register is read-only."
hexmask.long.word 0x00 16.--31. 1. " CODE                     ,Interconnect code"
hexmask.long.word 0x00 0.--15. 1. "      REV                    ,Component revision code"
group.long 0x4++0x3
line.long 0x00 "L4_IA_COMPONENT_H,COMPONENT register identifies the component to which this register block belongs. The register contains a component code and revision, which are used to identify the hardware of the component. The COMPONENT register is read-only."
rgroup.long 0x18++0x3
line.long 0x00 "L4_IA_CORE_L,Provide information about the core initiator"
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE                ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "      CORE_REV               ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_IA_CORE_H,Provide information about the core initiator"
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE              ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_IA_AGENT_CONTROL_L,Core control for an initiator OCP interface"
bitfld.long 0x00 31. " PROT_ERROR_SECONDARY_REP ,Out-of-band reporting of protection mechanism secondary errors" "0,1"
bitfld.long 0x00 30. "         PROT_ERROR_PRIMARY_REP ,Out-of-band reporting of protection mechanism primary errors" "0,1"
bitfld.long 0x00 27. "     INBAND_ERROR_REP ,Setting this field to 1 reports on in-band errors using the INBAND_ERROR log bit of IA.AGENT_STATUS register. The error reporting mechanism is enabled when the INBAND_ERROR_REP bit field is set to 1." "0,1"
textline "                                 "
bitfld.long 0x00 24. " MERROR_REP               ,OCP MError reporting control. The out-of-band OCP MError reporting mechanism is enabled when the MERROR_REP bit field is set to 1." "0,1"
group.long 0x24++0x3
line.long 0x00 "L4_IA_AGENT_CONTROL_H,Enable error reporting on an initiator interface."
group.long 0x28++0x3
line.long 0x00 "L4_IA_AGENT_STATUS_L,Stores status information for an initiator. The INBAND_ERROR and MERROR fields are read/write and are implemented as log bits."
eventfld.long 0x00 31. " PROT_ERROR_SECONDARY     ,0x0: Secondary Protection error not present.0x1: Secondary Protection error present" "0,1"
eventfld.long 0x00 30. "         PROT_ERROR_PRIMARY     ,0x0: Primary Protection error not present.0x1: Primary Protection error present" "0,1"
eventfld.long 0x00 27. "     INBAND_ERROR     ,0x0 No In-Band error present.0x1 In-Band error present." "0,1"
textline "                                 "
bitfld.long 0x00 24. " MERROR                   ,Value of the OCP MError signal" "0,1"
group.long 0x2C++0x3
line.long 0x00 "L4_IA_AGENT_STATUS_H,Stores status information for an initiator."
group.long 0x58++0x3
line.long 0x00 "L4_IA_ERROR_LOG_L,Log information about error conditions. The CODE field logs any protection violation or address hole errors detected by the initiator subsystem while decoding a request."
eventfld.long 0x00 31. " MULTI                    ,Multiple errors detected" "0,1"
eventfld.long 0x00 30. "         SECONDARY              ,Indicates whether protection violation was a primary or secondary error" "0,1"
bitfld.long 0x00 24.--25. "     CODE             ,The error code of an initiator request. 0x00: No errors 0x01: Reserved 0x10: Address hole 0x11: Protection violation" "0,1,2,3"
textline "                                 "
bitfld.long 0x00 8.--13. " CONNID                   ,ConnID of request causing the error, refer to" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--2. "        CMD                    ,Command that caused error" "0,1,2,3,4,5,6,7"
rgroup.long 0x5C++0x3
line.long 0x00 "L4_IA_ERROR_LOG_H,Log information about error conditions."
hexmask.long.word 0x00 0.--15. 1. " REQ_INFO                 ,MReqInfo bits of request that caused the error REQ_INFO[0] = supervisor, REQ_INFO[1] = Debug"
rgroup.long 0x60++0x3
line.long 0x00 "L4_IA_ERROR_LOG_ADDR_L,Extended error log (address information)"
hexmask.long 0x00 0.--31. 1. " ADDR                     ,Address of request that caused the error. N is the number MAddr bits."
group.long 0x64++0x3
line.long 0x00 "L4_IA_ERROR_LOG_ADDR_H,Extended error log (address information)"
width 0x0B
tree.end
tree "WKUP_IA_IP0"
base ad:0x4AE01000
width 24.
rgroup.long 0x0++0x3
line.long 0x00 "L4_IA_COMPONENT_L,COMPONENT register identifies the component to which this register block belongs. The register contains a component code and revision, which are used to identify the hardware of the component. The COMPONENT register is read-only."
hexmask.long.word 0x00 16.--31. 1. " CODE                     ,Interconnect code"
hexmask.long.word 0x00 0.--15. 1. "      REV                    ,Component revision code"
group.long 0x4++0x3
line.long 0x00 "L4_IA_COMPONENT_H,COMPONENT register identifies the component to which this register block belongs. The register contains a component code and revision, which are used to identify the hardware of the component. The COMPONENT register is read-only."
rgroup.long 0x18++0x3
line.long 0x00 "L4_IA_CORE_L,Provide information about the core initiator"
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE                ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "      CORE_REV               ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_IA_CORE_H,Provide information about the core initiator"
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE              ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_IA_AGENT_CONTROL_L,Core control for an initiator OCP interface"
bitfld.long 0x00 31. " PROT_ERROR_SECONDARY_REP ,Out-of-band reporting of protection mechanism secondary errors" "0,1"
bitfld.long 0x00 30. "         PROT_ERROR_PRIMARY_REP ,Out-of-band reporting of protection mechanism primary errors" "0,1"
bitfld.long 0x00 27. "     INBAND_ERROR_REP ,Setting this field to 1 reports on in-band errors using the INBAND_ERROR log bit of IA.AGENT_STATUS register. The error reporting mechanism is enabled when the INBAND_ERROR_REP bit field is set to 1." "0,1"
textline "                                 "
bitfld.long 0x00 24. " MERROR_REP               ,OCP MError reporting control. The out-of-band OCP MError reporting mechanism is enabled when the MERROR_REP bit field is set to 1." "0,1"
group.long 0x24++0x3
line.long 0x00 "L4_IA_AGENT_CONTROL_H,Enable error reporting on an initiator interface."
group.long 0x28++0x3
line.long 0x00 "L4_IA_AGENT_STATUS_L,Stores status information for an initiator. The INBAND_ERROR and MERROR fields are read/write and are implemented as log bits."
eventfld.long 0x00 31. " PROT_ERROR_SECONDARY     ,0x0: Secondary Protection error not present.0x1: Secondary Protection error present" "0,1"
eventfld.long 0x00 30. "         PROT_ERROR_PRIMARY     ,0x0: Primary Protection error not present.0x1: Primary Protection error present" "0,1"
eventfld.long 0x00 27. "     INBAND_ERROR     ,0x0 No In-Band error present.0x1 In-Band error present." "0,1"
textline "                                 "
bitfld.long 0x00 24. " MERROR                   ,Value of the OCP MError signal" "0,1"
group.long 0x2C++0x3
line.long 0x00 "L4_IA_AGENT_STATUS_H,Stores status information for an initiator."
group.long 0x58++0x3
line.long 0x00 "L4_IA_ERROR_LOG_L,Log information about error conditions. The CODE field logs any protection violation or address hole errors detected by the initiator subsystem while decoding a request."
eventfld.long 0x00 31. " MULTI                    ,Multiple errors detected" "0,1"
eventfld.long 0x00 30. "         SECONDARY              ,Indicates whether protection violation was a primary or secondary error" "0,1"
bitfld.long 0x00 24.--25. "     CODE             ,The error code of an initiator request. 0x00: No errors 0x01: Reserved 0x10: Address hole 0x11: Protection violation" "0,1,2,3"
textline "                                 "
bitfld.long 0x00 8.--13. " CONNID                   ,ConnID of request causing the error, refer to" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--2. "        CMD                    ,Command that caused error" "0,1,2,3,4,5,6,7"
rgroup.long 0x5C++0x3
line.long 0x00 "L4_IA_ERROR_LOG_H,Log information about error conditions."
hexmask.long.word 0x00 0.--15. 1. " REQ_INFO                 ,MReqInfo bits of request that caused the error REQ_INFO[0] = supervisor, REQ_INFO[1] = Debug"
rgroup.long 0x60++0x3
line.long 0x00 "L4_IA_ERROR_LOG_ADDR_L,Extended error log (address information)"
hexmask.long 0x00 0.--31. 1. " ADDR                     ,Address of request that caused the error. N is the number MAddr bits."
group.long 0x64++0x3
line.long 0x00 "L4_IA_ERROR_LOG_ADDR_H,Extended error log (address information)"
width 0x0B
tree.end
tree.end
tree "CFG_AP"
base ad:0x4A000000
tree "Channel_0"
width 32.
rgroup.long 0x200++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_0,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x284++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_0,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x280++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_0,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x304++0x3
line.long 0x00 "L4_AP_REGION_l_H_0,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x300++0x3
line.long 0x00 "L4_AP_REGION_l_L_0,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
rgroup.long 0x104++0x3
line.long 0x00 "L4_AP_SEGMENT_i_H_0,Define the size of each segments"
bitfld.long 0x00 0.--4. " SIZE                ,Segment size is a power of 2, where 2 is the byte size of a segment (all segment registers use the same size)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rgroup.long 0x100++0x3
line.long 0x00 "L4_AP_SEGMENT_i_L_0,Define the base address of each segments"
hexmask.long 0x00 0.--31. 1. " BASE                ,The base address of the segment (with 0s from bit 0 to bit SIZE-1)."
tree.end
tree "Channel_1"
width 32.
rgroup.long 0x208++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_1,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x28C++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_1,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x288++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_1,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x30C++0x3
line.long 0x00 "L4_AP_REGION_l_H_1,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x308++0x3
line.long 0x00 "L4_AP_REGION_l_L_1,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
rgroup.long 0x10C++0x3
line.long 0x00 "L4_AP_SEGMENT_i_H_1,Define the size of each segments"
bitfld.long 0x00 0.--4. " SIZE                ,Segment size is a power of 2, where 2 is the byte size of a segment (all segment registers use the same size)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rgroup.long 0x108++0x3
line.long 0x00 "L4_AP_SEGMENT_i_L_1,Define the base address of each segments"
hexmask.long 0x00 0.--31. 1. " BASE                ,The base address of the segment (with 0s from bit 0 to bit SIZE-1)."
tree.end
tree "Channel_2"
width 32.
rgroup.long 0x210++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_2,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x294++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_2,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x290++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_2,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x314++0x3
line.long 0x00 "L4_AP_REGION_l_H_2,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x310++0x3
line.long 0x00 "L4_AP_REGION_l_L_2,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
rgroup.long 0x114++0x3
line.long 0x00 "L4_AP_SEGMENT_i_H_2,Define the size of each segments"
bitfld.long 0x00 0.--4. " SIZE                ,Segment size is a power of 2, where 2 is the byte size of a segment (all segment registers use the same size)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rgroup.long 0x110++0x3
line.long 0x00 "L4_AP_SEGMENT_i_L_2,Define the base address of each segments"
hexmask.long 0x00 0.--31. 1. " BASE                ,The base address of the segment (with 0s from bit 0 to bit SIZE-1)."
tree.end
tree "Channel_3"
width 32.
rgroup.long 0x218++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_3,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x29C++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_3,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x298++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_3,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x31C++0x3
line.long 0x00 "L4_AP_REGION_l_H_3,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x318++0x3
line.long 0x00 "L4_AP_REGION_l_L_3,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "Channel_4"
width 32.
rgroup.long 0x220++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_4,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x2A4++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_4,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x2A0++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_4,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x324++0x3
line.long 0x00 "L4_AP_REGION_l_H_4,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x320++0x3
line.long 0x00 "L4_AP_REGION_l_L_4,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "Channel_5"
width 32.
rgroup.long 0x228++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_5,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x2AC++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_5,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x2A8++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_5,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x32C++0x3
line.long 0x00 "L4_AP_REGION_l_H_5,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x328++0x3
line.long 0x00 "L4_AP_REGION_l_L_5,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "Channel_6"
width 32.
rgroup.long 0x230++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_6,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x2B4++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_6,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x2B0++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_6,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x334++0x3
line.long 0x00 "L4_AP_REGION_l_H_6,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x330++0x3
line.long 0x00 "L4_AP_REGION_l_L_6,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "Channel_7"
width 32.
rgroup.long 0x238++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_7,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x2BC++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_7,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x2B8++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_7,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x33C++0x3
line.long 0x00 "L4_AP_REGION_l_H_7,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x338++0x3
line.long 0x00 "L4_AP_REGION_l_L_7,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_8"
width 20.
group.long 0x344++0x3
line.long 0x00 "L4_AP_REGION_l_H_8,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                             "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x340++0x3
line.long 0x00 "L4_AP_REGION_l_L_8,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_9"
width 20.
group.long 0x34C++0x3
line.long 0x00 "L4_AP_REGION_l_H_9,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                             "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x348++0x3
line.long 0x00 "L4_AP_REGION_l_L_9,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_10"
width 21.
group.long 0x354++0x3
line.long 0x00 "L4_AP_REGION_l_H_10,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x350++0x3
line.long 0x00 "L4_AP_REGION_l_L_10,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_11"
width 21.
group.long 0x35C++0x3
line.long 0x00 "L4_AP_REGION_l_H_11,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x358++0x3
line.long 0x00 "L4_AP_REGION_l_L_11,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_12"
width 21.
group.long 0x364++0x3
line.long 0x00 "L4_AP_REGION_l_H_12,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x360++0x3
line.long 0x00 "L4_AP_REGION_l_L_12,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_13"
width 21.
group.long 0x36C++0x3
line.long 0x00 "L4_AP_REGION_l_H_13,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x368++0x3
line.long 0x00 "L4_AP_REGION_l_L_13,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_14"
width 21.
group.long 0x374++0x3
line.long 0x00 "L4_AP_REGION_l_H_14,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x370++0x3
line.long 0x00 "L4_AP_REGION_l_L_14,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_15"
width 21.
group.long 0x37C++0x3
line.long 0x00 "L4_AP_REGION_l_H_15,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x378++0x3
line.long 0x00 "L4_AP_REGION_l_L_15,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_16"
width 21.
group.long 0x384++0x3
line.long 0x00 "L4_AP_REGION_l_H_16,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x380++0x3
line.long 0x00 "L4_AP_REGION_l_L_16,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_17"
width 21.
group.long 0x38C++0x3
line.long 0x00 "L4_AP_REGION_l_H_17,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x388++0x3
line.long 0x00 "L4_AP_REGION_l_L_17,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_18"
width 21.
group.long 0x394++0x3
line.long 0x00 "L4_AP_REGION_l_H_18,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x390++0x3
line.long 0x00 "L4_AP_REGION_l_L_18,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_19"
width 21.
group.long 0x39C++0x3
line.long 0x00 "L4_AP_REGION_l_H_19,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x398++0x3
line.long 0x00 "L4_AP_REGION_l_L_19,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_20"
width 21.
group.long 0x3A4++0x3
line.long 0x00 "L4_AP_REGION_l_H_20,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3A0++0x3
line.long 0x00 "L4_AP_REGION_l_L_20,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_21"
width 21.
group.long 0x3AC++0x3
line.long 0x00 "L4_AP_REGION_l_H_21,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3A8++0x3
line.long 0x00 "L4_AP_REGION_l_L_21,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_22"
width 21.
group.long 0x3B4++0x3
line.long 0x00 "L4_AP_REGION_l_H_22,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3B0++0x3
line.long 0x00 "L4_AP_REGION_l_L_22,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_23"
width 21.
group.long 0x3BC++0x3
line.long 0x00 "L4_AP_REGION_l_H_23,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3B8++0x3
line.long 0x00 "L4_AP_REGION_l_L_23,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_24"
width 21.
group.long 0x3C4++0x3
line.long 0x00 "L4_AP_REGION_l_H_24,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3C0++0x3
line.long 0x00 "L4_AP_REGION_l_L_24,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_25"
width 21.
group.long 0x3CC++0x3
line.long 0x00 "L4_AP_REGION_l_H_25,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3C8++0x3
line.long 0x00 "L4_AP_REGION_l_L_25,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_26"
width 21.
group.long 0x3D4++0x3
line.long 0x00 "L4_AP_REGION_l_H_26,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3D0++0x3
line.long 0x00 "L4_AP_REGION_l_L_26,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_27"
width 21.
group.long 0x3DC++0x3
line.long 0x00 "L4_AP_REGION_l_H_27,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3D8++0x3
line.long 0x00 "L4_AP_REGION_l_L_27,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_28"
width 21.
group.long 0x3E4++0x3
line.long 0x00 "L4_AP_REGION_l_H_28,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3E0++0x3
line.long 0x00 "L4_AP_REGION_l_L_28,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_29"
width 21.
group.long 0x3EC++0x3
line.long 0x00 "L4_AP_REGION_l_H_29,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3E8++0x3
line.long 0x00 "L4_AP_REGION_l_L_29,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_30"
width 21.
group.long 0x3F4++0x3
line.long 0x00 "L4_AP_REGION_l_H_30,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3F0++0x3
line.long 0x00 "L4_AP_REGION_l_L_30,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_31"
width 21.
group.long 0x3FC++0x3
line.long 0x00 "L4_AP_REGION_l_H_31,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3F8++0x3
line.long 0x00 "L4_AP_REGION_l_L_31,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_32"
width 21.
group.long 0x404++0x3
line.long 0x00 "L4_AP_REGION_l_H_32,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x400++0x3
line.long 0x00 "L4_AP_REGION_l_L_32,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_33"
width 21.
group.long 0x40C++0x3
line.long 0x00 "L4_AP_REGION_l_H_33,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x408++0x3
line.long 0x00 "L4_AP_REGION_l_L_33,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_34"
width 21.
group.long 0x414++0x3
line.long 0x00 "L4_AP_REGION_l_H_34,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x410++0x3
line.long 0x00 "L4_AP_REGION_l_L_34,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_35"
width 21.
group.long 0x41C++0x3
line.long 0x00 "L4_AP_REGION_l_H_35,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x418++0x3
line.long 0x00 "L4_AP_REGION_l_L_35,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_36"
width 21.
group.long 0x424++0x3
line.long 0x00 "L4_AP_REGION_l_H_36,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x420++0x3
line.long 0x00 "L4_AP_REGION_l_L_36,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_37"
width 21.
group.long 0x42C++0x3
line.long 0x00 "L4_AP_REGION_l_H_37,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x428++0x3
line.long 0x00 "L4_AP_REGION_l_L_37,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_38"
width 21.
group.long 0x434++0x3
line.long 0x00 "L4_AP_REGION_l_H_38,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x430++0x3
line.long 0x00 "L4_AP_REGION_l_L_38,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_39"
width 21.
group.long 0x43C++0x3
line.long 0x00 "L4_AP_REGION_l_H_39,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x438++0x3
line.long 0x00 "L4_AP_REGION_l_L_39,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_40"
width 21.
group.long 0x444++0x3
line.long 0x00 "L4_AP_REGION_l_H_40,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x440++0x3
line.long 0x00 "L4_AP_REGION_l_L_40,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_41"
width 21.
group.long 0x44C++0x3
line.long 0x00 "L4_AP_REGION_l_H_41,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x448++0x3
line.long 0x00 "L4_AP_REGION_l_L_41,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_42"
width 21.
group.long 0x454++0x3
line.long 0x00 "L4_AP_REGION_l_H_42,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x450++0x3
line.long 0x00 "L4_AP_REGION_l_L_42,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_43"
width 21.
group.long 0x45C++0x3
line.long 0x00 "L4_AP_REGION_l_H_43,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x458++0x3
line.long 0x00 "L4_AP_REGION_l_L_43,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_44"
width 21.
group.long 0x464++0x3
line.long 0x00 "L4_AP_REGION_l_H_44,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x460++0x3
line.long 0x00 "L4_AP_REGION_l_L_44,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_45"
width 21.
group.long 0x46C++0x3
line.long 0x00 "L4_AP_REGION_l_H_45,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x468++0x3
line.long 0x00 "L4_AP_REGION_l_L_45,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_46"
width 21.
group.long 0x474++0x3
line.long 0x00 "L4_AP_REGION_l_H_46,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x470++0x3
line.long 0x00 "L4_AP_REGION_l_L_46,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_47"
width 21.
group.long 0x47C++0x3
line.long 0x00 "L4_AP_REGION_l_H_47,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x478++0x3
line.long 0x00 "L4_AP_REGION_l_L_47,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_48"
width 21.
group.long 0x484++0x3
line.long 0x00 "L4_AP_REGION_l_H_48,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x480++0x3
line.long 0x00 "L4_AP_REGION_l_L_48,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_49"
width 21.
group.long 0x48C++0x3
line.long 0x00 "L4_AP_REGION_l_H_49,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x488++0x3
line.long 0x00 "L4_AP_REGION_l_L_49,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_50"
width 21.
group.long 0x494++0x3
line.long 0x00 "L4_AP_REGION_l_H_50,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x490++0x3
line.long 0x00 "L4_AP_REGION_l_L_50,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_51"
width 21.
group.long 0x49C++0x3
line.long 0x00 "L4_AP_REGION_l_H_51,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x498++0x3
line.long 0x00 "L4_AP_REGION_l_L_51,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_52"
width 21.
group.long 0x4A4++0x3
line.long 0x00 "L4_AP_REGION_l_H_52,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4A0++0x3
line.long 0x00 "L4_AP_REGION_l_L_52,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_53"
width 21.
group.long 0x4AC++0x3
line.long 0x00 "L4_AP_REGION_l_H_53,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4A8++0x3
line.long 0x00 "L4_AP_REGION_l_L_53,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_54"
width 21.
group.long 0x4B4++0x3
line.long 0x00 "L4_AP_REGION_l_H_54,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4B0++0x3
line.long 0x00 "L4_AP_REGION_l_L_54,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_55"
width 21.
group.long 0x4BC++0x3
line.long 0x00 "L4_AP_REGION_l_H_55,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4B8++0x3
line.long 0x00 "L4_AP_REGION_l_L_55,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_56"
width 21.
group.long 0x4C4++0x3
line.long 0x00 "L4_AP_REGION_l_H_56,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4C0++0x3
line.long 0x00 "L4_AP_REGION_l_L_56,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_57"
width 21.
group.long 0x4CC++0x3
line.long 0x00 "L4_AP_REGION_l_H_57,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4C8++0x3
line.long 0x00 "L4_AP_REGION_l_L_57,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_58"
width 21.
group.long 0x4D4++0x3
line.long 0x00 "L4_AP_REGION_l_H_58,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4D0++0x3
line.long 0x00 "L4_AP_REGION_l_L_58,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_59"
width 21.
group.long 0x4DC++0x3
line.long 0x00 "L4_AP_REGION_l_H_59,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4D8++0x3
line.long 0x00 "L4_AP_REGION_l_L_59,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_60"
width 21.
group.long 0x4E4++0x3
line.long 0x00 "L4_AP_REGION_l_H_60,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4E0++0x3
line.long 0x00 "L4_AP_REGION_l_L_60,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_61"
width 21.
group.long 0x4EC++0x3
line.long 0x00 "L4_AP_REGION_l_H_61,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4E8++0x3
line.long 0x00 "L4_AP_REGION_l_L_61,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_62"
width 21.
group.long 0x4F4++0x3
line.long 0x00 "L4_AP_REGION_l_H_62,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4F0++0x3
line.long 0x00 "L4_AP_REGION_l_L_62,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_63"
width 21.
group.long 0x4FC++0x3
line.long 0x00 "L4_AP_REGION_l_H_63,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4F8++0x3
line.long 0x00 "L4_AP_REGION_l_L_63,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_64"
width 21.
group.long 0x504++0x3
line.long 0x00 "L4_AP_REGION_l_H_64,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x500++0x3
line.long 0x00 "L4_AP_REGION_l_L_64,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_65"
width 21.
group.long 0x50C++0x3
line.long 0x00 "L4_AP_REGION_l_H_65,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x508++0x3
line.long 0x00 "L4_AP_REGION_l_L_65,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_66"
width 21.
group.long 0x514++0x3
line.long 0x00 "L4_AP_REGION_l_H_66,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x510++0x3
line.long 0x00 "L4_AP_REGION_l_L_66,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_67"
width 21.
group.long 0x51C++0x3
line.long 0x00 "L4_AP_REGION_l_H_67,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x518++0x3
line.long 0x00 "L4_AP_REGION_l_L_67,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_68"
width 21.
group.long 0x524++0x3
line.long 0x00 "L4_AP_REGION_l_H_68,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x520++0x3
line.long 0x00 "L4_AP_REGION_l_L_68,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_69"
width 21.
group.long 0x52C++0x3
line.long 0x00 "L4_AP_REGION_l_H_69,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x528++0x3
line.long 0x00 "L4_AP_REGION_l_L_69,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_70"
width 21.
group.long 0x534++0x3
line.long 0x00 "L4_AP_REGION_l_H_70,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x530++0x3
line.long 0x00 "L4_AP_REGION_l_L_70,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_71"
width 21.
group.long 0x53C++0x3
line.long 0x00 "L4_AP_REGION_l_H_71,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x538++0x3
line.long 0x00 "L4_AP_REGION_l_L_71,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_72"
width 21.
group.long 0x544++0x3
line.long 0x00 "L4_AP_REGION_l_H_72,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x540++0x3
line.long 0x00 "L4_AP_REGION_l_L_72,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_73"
width 21.
group.long 0x54C++0x3
line.long 0x00 "L4_AP_REGION_l_H_73,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x548++0x3
line.long 0x00 "L4_AP_REGION_l_L_73,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_74"
width 21.
group.long 0x554++0x3
line.long 0x00 "L4_AP_REGION_l_H_74,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x550++0x3
line.long 0x00 "L4_AP_REGION_l_L_74,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_75"
width 21.
group.long 0x55C++0x3
line.long 0x00 "L4_AP_REGION_l_H_75,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x558++0x3
line.long 0x00 "L4_AP_REGION_l_L_75,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_76"
width 21.
group.long 0x564++0x3
line.long 0x00 "L4_AP_REGION_l_H_76,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x560++0x3
line.long 0x00 "L4_AP_REGION_l_L_76,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_77"
width 21.
group.long 0x56C++0x3
line.long 0x00 "L4_AP_REGION_l_H_77,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x568++0x3
line.long 0x00 "L4_AP_REGION_l_L_77,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_78"
width 21.
group.long 0x574++0x3
line.long 0x00 "L4_AP_REGION_l_H_78,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x570++0x3
line.long 0x00 "L4_AP_REGION_l_L_78,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_79"
width 21.
group.long 0x57C++0x3
line.long 0x00 "L4_AP_REGION_l_H_79,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x578++0x3
line.long 0x00 "L4_AP_REGION_l_L_79,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_80"
width 21.
group.long 0x584++0x3
line.long 0x00 "L4_AP_REGION_l_H_80,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x580++0x3
line.long 0x00 "L4_AP_REGION_l_L_80,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_81"
width 21.
group.long 0x58C++0x3
line.long 0x00 "L4_AP_REGION_l_H_81,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x588++0x3
line.long 0x00 "L4_AP_REGION_l_L_81,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_82"
width 21.
group.long 0x594++0x3
line.long 0x00 "L4_AP_REGION_l_H_82,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x590++0x3
line.long 0x00 "L4_AP_REGION_l_L_82,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_83"
width 21.
group.long 0x59C++0x3
line.long 0x00 "L4_AP_REGION_l_H_83,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x598++0x3
line.long 0x00 "L4_AP_REGION_l_L_83,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_84"
width 21.
group.long 0x5A4++0x3
line.long 0x00 "L4_AP_REGION_l_H_84,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x5A0++0x3
line.long 0x00 "L4_AP_REGION_l_L_84,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_85"
width 21.
group.long 0x5AC++0x3
line.long 0x00 "L4_AP_REGION_l_H_85,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x5A8++0x3
line.long 0x00 "L4_AP_REGION_l_L_85,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_86"
width 21.
group.long 0x5B4++0x3
line.long 0x00 "L4_AP_REGION_l_H_86,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x5B0++0x3
line.long 0x00 "L4_AP_REGION_l_L_86,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_87"
width 21.
group.long 0x5BC++0x3
line.long 0x00 "L4_AP_REGION_l_H_87,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x5B8++0x3
line.long 0x00 "L4_AP_REGION_l_L_87,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_88"
width 21.
group.long 0x5C4++0x3
line.long 0x00 "L4_AP_REGION_l_H_88,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x5C0++0x3
line.long 0x00 "L4_AP_REGION_l_L_88,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_89"
width 21.
group.long 0x5CC++0x3
line.long 0x00 "L4_AP_REGION_l_H_89,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x5C8++0x3
line.long 0x00 "L4_AP_REGION_l_L_89,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_90"
width 21.
group.long 0x5D4++0x3
line.long 0x00 "L4_AP_REGION_l_H_90,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x5D0++0x3
line.long 0x00 "L4_AP_REGION_l_L_90,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_91"
width 21.
group.long 0x5DC++0x3
line.long 0x00 "L4_AP_REGION_l_H_91,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x5D8++0x3
line.long 0x00 "L4_AP_REGION_l_L_91,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_92"
width 21.
group.long 0x5E4++0x3
line.long 0x00 "L4_AP_REGION_l_H_92,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x5E0++0x3
line.long 0x00 "L4_AP_REGION_l_L_92,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_93"
width 21.
group.long 0x5EC++0x3
line.long 0x00 "L4_AP_REGION_l_H_93,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x5E8++0x3
line.long 0x00 "L4_AP_REGION_l_L_93,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_94"
width 21.
group.long 0x5F4++0x3
line.long 0x00 "L4_AP_REGION_l_H_94,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x5F0++0x3
line.long 0x00 "L4_AP_REGION_l_L_94,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_95"
width 21.
group.long 0x5FC++0x3
line.long 0x00 "L4_AP_REGION_l_H_95,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x5F8++0x3
line.long 0x00 "L4_AP_REGION_l_L_95,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_96"
width 21.
group.long 0x604++0x3
line.long 0x00 "L4_AP_REGION_l_H_96,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x600++0x3
line.long 0x00 "L4_AP_REGION_l_L_96,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_97"
width 21.
group.long 0x60C++0x3
line.long 0x00 "L4_AP_REGION_l_H_97,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x608++0x3
line.long 0x00 "L4_AP_REGION_l_L_97,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_98"
width 21.
group.long 0x614++0x3
line.long 0x00 "L4_AP_REGION_l_H_98,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x610++0x3
line.long 0x00 "L4_AP_REGION_l_L_98,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_99"
width 21.
group.long 0x61C++0x3
line.long 0x00 "L4_AP_REGION_l_H_99,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x618++0x3
line.long 0x00 "L4_AP_REGION_l_L_99,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_100"
width 22.
group.long 0x624++0x3
line.long 0x00 "L4_AP_REGION_l_H_100,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x620++0x3
line.long 0x00 "L4_AP_REGION_l_L_100,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_101"
width 22.
group.long 0x62C++0x3
line.long 0x00 "L4_AP_REGION_l_H_101,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x628++0x3
line.long 0x00 "L4_AP_REGION_l_L_101,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_102"
width 22.
group.long 0x634++0x3
line.long 0x00 "L4_AP_REGION_l_H_102,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x630++0x3
line.long 0x00 "L4_AP_REGION_l_L_102,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_103"
width 22.
group.long 0x63C++0x3
line.long 0x00 "L4_AP_REGION_l_H_103,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x638++0x3
line.long 0x00 "L4_AP_REGION_l_L_103,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_104"
width 22.
group.long 0x644++0x3
line.long 0x00 "L4_AP_REGION_l_H_104,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x640++0x3
line.long 0x00 "L4_AP_REGION_l_L_104,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_105"
width 22.
group.long 0x64C++0x3
line.long 0x00 "L4_AP_REGION_l_H_105,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x648++0x3
line.long 0x00 "L4_AP_REGION_l_L_105,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_106"
width 22.
group.long 0x654++0x3
line.long 0x00 "L4_AP_REGION_l_H_106,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x650++0x3
line.long 0x00 "L4_AP_REGION_l_L_106,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_107"
width 22.
group.long 0x65C++0x3
line.long 0x00 "L4_AP_REGION_l_H_107,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x658++0x3
line.long 0x00 "L4_AP_REGION_l_L_107,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_108"
width 22.
group.long 0x664++0x3
line.long 0x00 "L4_AP_REGION_l_H_108,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x660++0x3
line.long 0x00 "L4_AP_REGION_l_L_108,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_109"
width 22.
group.long 0x66C++0x3
line.long 0x00 "L4_AP_REGION_l_H_109,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x668++0x3
line.long 0x00 "L4_AP_REGION_l_L_109,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_110"
width 22.
group.long 0x674++0x3
line.long 0x00 "L4_AP_REGION_l_H_110,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x670++0x3
line.long 0x00 "L4_AP_REGION_l_L_110,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_111"
width 22.
group.long 0x67C++0x3
line.long 0x00 "L4_AP_REGION_l_H_111,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x678++0x3
line.long 0x00 "L4_AP_REGION_l_L_111,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_112"
width 22.
group.long 0x684++0x3
line.long 0x00 "L4_AP_REGION_l_H_112,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x680++0x3
line.long 0x00 "L4_AP_REGION_l_L_112,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_113"
width 22.
group.long 0x68C++0x3
line.long 0x00 "L4_AP_REGION_l_H_113,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x688++0x3
line.long 0x00 "L4_AP_REGION_l_L_113,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_114"
width 22.
group.long 0x694++0x3
line.long 0x00 "L4_AP_REGION_l_H_114,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x690++0x3
line.long 0x00 "L4_AP_REGION_l_L_114,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_115"
width 22.
group.long 0x69C++0x3
line.long 0x00 "L4_AP_REGION_l_H_115,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x698++0x3
line.long 0x00 "L4_AP_REGION_l_L_115,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_116"
width 22.
group.long 0x6A4++0x3
line.long 0x00 "L4_AP_REGION_l_H_116,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x6A0++0x3
line.long 0x00 "L4_AP_REGION_l_L_116,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_117"
width 22.
group.long 0x6AC++0x3
line.long 0x00 "L4_AP_REGION_l_H_117,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x6A8++0x3
line.long 0x00 "L4_AP_REGION_l_L_117,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_118"
width 22.
group.long 0x6B4++0x3
line.long 0x00 "L4_AP_REGION_l_H_118,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x6B0++0x3
line.long 0x00 "L4_AP_REGION_l_L_118,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_119"
width 22.
group.long 0x6BC++0x3
line.long 0x00 "L4_AP_REGION_l_H_119,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x6B8++0x3
line.long 0x00 "L4_AP_REGION_l_L_119,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_120"
width 22.
group.long 0x6C4++0x3
line.long 0x00 "L4_AP_REGION_l_H_120,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x6C0++0x3
line.long 0x00 "L4_AP_REGION_l_L_120,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_121"
width 22.
group.long 0x6CC++0x3
line.long 0x00 "L4_AP_REGION_l_H_121,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x6C8++0x3
line.long 0x00 "L4_AP_REGION_l_L_121,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_122"
width 22.
group.long 0x6D4++0x3
line.long 0x00 "L4_AP_REGION_l_H_122,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x6D0++0x3
line.long 0x00 "L4_AP_REGION_l_L_122,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_123"
width 22.
group.long 0x6DC++0x3
line.long 0x00 "L4_AP_REGION_l_H_123,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x6D8++0x3
line.long 0x00 "L4_AP_REGION_l_L_123,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_124"
width 22.
group.long 0x6E4++0x3
line.long 0x00 "L4_AP_REGION_l_H_124,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x6E0++0x3
line.long 0x00 "L4_AP_REGION_l_L_124,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_125"
width 22.
group.long 0x6EC++0x3
line.long 0x00 "L4_AP_REGION_l_H_125,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x6E8++0x3
line.long 0x00 "L4_AP_REGION_l_L_125,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_126"
width 22.
group.long 0x6F4++0x3
line.long 0x00 "L4_AP_REGION_l_H_126,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x6F0++0x3
line.long 0x00 "L4_AP_REGION_l_L_126,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_127"
width 22.
group.long 0x6FC++0x3
line.long 0x00 "L4_AP_REGION_l_H_127,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x6F8++0x3
line.long 0x00 "L4_AP_REGION_l_L_127,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_128"
width 22.
group.long 0x704++0x3
line.long 0x00 "L4_AP_REGION_l_H_128,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x700++0x3
line.long 0x00 "L4_AP_REGION_l_L_128,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "L4_AP_COMPONENT_L,Contains a component code and revision, which are used to identify the hardware of the component."
hexmask.long.word 0x00 16.--31. 1. " CODE ,Interconnect code"
hexmask.long.word 0x00 0.--15. 1. "  REV ,Component revision code"
group.long 0x4++0x3
line.long 0x00 "L4_AP_COMPONENT_H,Contains a component code and revision, which are used to identify the hardware of the component."
width 0x0B
tree.end
tree "PER2_AP"
base ad:0x48400000
tree "Channel_0"
width 32.
rgroup.long 0x200++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_0,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x284++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_0,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x280++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_0,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x304++0x3
line.long 0x00 "L4_AP_REGION_l_H_0,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x300++0x3
line.long 0x00 "L4_AP_REGION_l_L_0,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "Channel_1"
width 32.
rgroup.long 0x208++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_1,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x28C++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_1,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x288++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_1,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x30C++0x3
line.long 0x00 "L4_AP_REGION_l_H_1,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x308++0x3
line.long 0x00 "L4_AP_REGION_l_L_1,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "Channel_2"
width 32.
rgroup.long 0x210++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_2,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x294++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_2,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x290++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_2,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x314++0x3
line.long 0x00 "L4_AP_REGION_l_H_2,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x310++0x3
line.long 0x00 "L4_AP_REGION_l_L_2,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "Channel_3"
width 32.
rgroup.long 0x218++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_3,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x29C++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_3,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x298++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_3,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x31C++0x3
line.long 0x00 "L4_AP_REGION_l_H_3,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x318++0x3
line.long 0x00 "L4_AP_REGION_l_L_3,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "Channel_4"
width 32.
rgroup.long 0x220++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_4,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x2A4++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_4,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x2A0++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_4,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x324++0x3
line.long 0x00 "L4_AP_REGION_l_H_4,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x320++0x3
line.long 0x00 "L4_AP_REGION_l_L_4,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "Channel_5"
width 32.
rgroup.long 0x228++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_5,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x2AC++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_5,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x2A8++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_5,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x32C++0x3
line.long 0x00 "L4_AP_REGION_l_H_5,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x328++0x3
line.long 0x00 "L4_AP_REGION_l_L_5,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "Channel_6"
width 32.
rgroup.long 0x230++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_6,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x2B4++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_6,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x2B0++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_6,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x334++0x3
line.long 0x00 "L4_AP_REGION_l_H_6,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x330++0x3
line.long 0x00 "L4_AP_REGION_l_L_6,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "Channel_7"
width 32.
rgroup.long 0x238++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_7,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x2BC++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_7,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x2B8++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_7,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x33C++0x3
line.long 0x00 "L4_AP_REGION_l_H_7,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x338++0x3
line.long 0x00 "L4_AP_REGION_l_L_7,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_8"
width 20.
group.long 0x344++0x3
line.long 0x00 "L4_AP_REGION_l_H_8,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                             "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x340++0x3
line.long 0x00 "L4_AP_REGION_l_L_8,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_9"
width 20.
group.long 0x34C++0x3
line.long 0x00 "L4_AP_REGION_l_H_9,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                             "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x348++0x3
line.long 0x00 "L4_AP_REGION_l_L_9,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_10"
width 21.
group.long 0x354++0x3
line.long 0x00 "L4_AP_REGION_l_H_10,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x350++0x3
line.long 0x00 "L4_AP_REGION_l_L_10,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_11"
width 21.
group.long 0x35C++0x3
line.long 0x00 "L4_AP_REGION_l_H_11,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x358++0x3
line.long 0x00 "L4_AP_REGION_l_L_11,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_12"
width 21.
group.long 0x364++0x3
line.long 0x00 "L4_AP_REGION_l_H_12,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x360++0x3
line.long 0x00 "L4_AP_REGION_l_L_12,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_13"
width 21.
group.long 0x36C++0x3
line.long 0x00 "L4_AP_REGION_l_H_13,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x368++0x3
line.long 0x00 "L4_AP_REGION_l_L_13,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_14"
width 21.
group.long 0x374++0x3
line.long 0x00 "L4_AP_REGION_l_H_14,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x370++0x3
line.long 0x00 "L4_AP_REGION_l_L_14,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_15"
width 21.
group.long 0x37C++0x3
line.long 0x00 "L4_AP_REGION_l_H_15,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x378++0x3
line.long 0x00 "L4_AP_REGION_l_L_15,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_16"
width 21.
group.long 0x384++0x3
line.long 0x00 "L4_AP_REGION_l_H_16,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x380++0x3
line.long 0x00 "L4_AP_REGION_l_L_16,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_17"
width 21.
group.long 0x38C++0x3
line.long 0x00 "L4_AP_REGION_l_H_17,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x388++0x3
line.long 0x00 "L4_AP_REGION_l_L_17,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_18"
width 21.
group.long 0x394++0x3
line.long 0x00 "L4_AP_REGION_l_H_18,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x390++0x3
line.long 0x00 "L4_AP_REGION_l_L_18,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_19"
width 21.
group.long 0x39C++0x3
line.long 0x00 "L4_AP_REGION_l_H_19,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x398++0x3
line.long 0x00 "L4_AP_REGION_l_L_19,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_20"
width 21.
group.long 0x3A4++0x3
line.long 0x00 "L4_AP_REGION_l_H_20,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3A0++0x3
line.long 0x00 "L4_AP_REGION_l_L_20,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_21"
width 21.
group.long 0x3AC++0x3
line.long 0x00 "L4_AP_REGION_l_H_21,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3A8++0x3
line.long 0x00 "L4_AP_REGION_l_L_21,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_22"
width 21.
group.long 0x3B4++0x3
line.long 0x00 "L4_AP_REGION_l_H_22,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3B0++0x3
line.long 0x00 "L4_AP_REGION_l_L_22,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_23"
width 21.
group.long 0x3BC++0x3
line.long 0x00 "L4_AP_REGION_l_H_23,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3B8++0x3
line.long 0x00 "L4_AP_REGION_l_L_23,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_24"
width 21.
group.long 0x3C4++0x3
line.long 0x00 "L4_AP_REGION_l_H_24,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3C0++0x3
line.long 0x00 "L4_AP_REGION_l_L_24,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_25"
width 21.
group.long 0x3CC++0x3
line.long 0x00 "L4_AP_REGION_l_H_25,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3C8++0x3
line.long 0x00 "L4_AP_REGION_l_L_25,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_26"
width 21.
group.long 0x3D4++0x3
line.long 0x00 "L4_AP_REGION_l_H_26,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3D0++0x3
line.long 0x00 "L4_AP_REGION_l_L_26,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_27"
width 21.
group.long 0x3DC++0x3
line.long 0x00 "L4_AP_REGION_l_H_27,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3D8++0x3
line.long 0x00 "L4_AP_REGION_l_L_27,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_28"
width 21.
group.long 0x3E4++0x3
line.long 0x00 "L4_AP_REGION_l_H_28,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3E0++0x3
line.long 0x00 "L4_AP_REGION_l_L_28,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_29"
width 21.
group.long 0x3EC++0x3
line.long 0x00 "L4_AP_REGION_l_H_29,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3E8++0x3
line.long 0x00 "L4_AP_REGION_l_L_29,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_30"
width 21.
group.long 0x3F4++0x3
line.long 0x00 "L4_AP_REGION_l_H_30,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3F0++0x3
line.long 0x00 "L4_AP_REGION_l_L_30,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_31"
width 21.
group.long 0x3FC++0x3
line.long 0x00 "L4_AP_REGION_l_H_31,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3F8++0x3
line.long 0x00 "L4_AP_REGION_l_L_31,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_32"
width 21.
group.long 0x404++0x3
line.long 0x00 "L4_AP_REGION_l_H_32,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x400++0x3
line.long 0x00 "L4_AP_REGION_l_L_32,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_33"
width 21.
group.long 0x40C++0x3
line.long 0x00 "L4_AP_REGION_l_H_33,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x408++0x3
line.long 0x00 "L4_AP_REGION_l_L_33,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_34"
width 21.
group.long 0x414++0x3
line.long 0x00 "L4_AP_REGION_l_H_34,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x410++0x3
line.long 0x00 "L4_AP_REGION_l_L_34,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_35"
width 21.
group.long 0x41C++0x3
line.long 0x00 "L4_AP_REGION_l_H_35,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x418++0x3
line.long 0x00 "L4_AP_REGION_l_L_35,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_36"
width 21.
group.long 0x424++0x3
line.long 0x00 "L4_AP_REGION_l_H_36,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x420++0x3
line.long 0x00 "L4_AP_REGION_l_L_36,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_37"
width 21.
group.long 0x42C++0x3
line.long 0x00 "L4_AP_REGION_l_H_37,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x428++0x3
line.long 0x00 "L4_AP_REGION_l_L_37,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_38"
width 21.
group.long 0x434++0x3
line.long 0x00 "L4_AP_REGION_l_H_38,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x430++0x3
line.long 0x00 "L4_AP_REGION_l_L_38,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_39"
width 21.
group.long 0x43C++0x3
line.long 0x00 "L4_AP_REGION_l_H_39,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x438++0x3
line.long 0x00 "L4_AP_REGION_l_L_39,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_40"
width 21.
group.long 0x444++0x3
line.long 0x00 "L4_AP_REGION_l_H_40,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x440++0x3
line.long 0x00 "L4_AP_REGION_l_L_40,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_41"
width 21.
group.long 0x44C++0x3
line.long 0x00 "L4_AP_REGION_l_H_41,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x448++0x3
line.long 0x00 "L4_AP_REGION_l_L_41,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_42"
width 21.
group.long 0x454++0x3
line.long 0x00 "L4_AP_REGION_l_H_42,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x450++0x3
line.long 0x00 "L4_AP_REGION_l_L_42,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_43"
width 21.
group.long 0x45C++0x3
line.long 0x00 "L4_AP_REGION_l_H_43,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x458++0x3
line.long 0x00 "L4_AP_REGION_l_L_43,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_44"
width 21.
group.long 0x464++0x3
line.long 0x00 "L4_AP_REGION_l_H_44,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x460++0x3
line.long 0x00 "L4_AP_REGION_l_L_44,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_45"
width 21.
group.long 0x46C++0x3
line.long 0x00 "L4_AP_REGION_l_H_45,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x468++0x3
line.long 0x00 "L4_AP_REGION_l_L_45,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_46"
width 21.
group.long 0x474++0x3
line.long 0x00 "L4_AP_REGION_l_H_46,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x470++0x3
line.long 0x00 "L4_AP_REGION_l_L_46,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_47"
width 21.
group.long 0x47C++0x3
line.long 0x00 "L4_AP_REGION_l_H_47,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x478++0x3
line.long 0x00 "L4_AP_REGION_l_L_47,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_48"
width 21.
group.long 0x484++0x3
line.long 0x00 "L4_AP_REGION_l_H_48,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x480++0x3
line.long 0x00 "L4_AP_REGION_l_L_48,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_49"
width 21.
group.long 0x48C++0x3
line.long 0x00 "L4_AP_REGION_l_H_49,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x488++0x3
line.long 0x00 "L4_AP_REGION_l_L_49,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_50"
width 21.
group.long 0x494++0x3
line.long 0x00 "L4_AP_REGION_l_H_50,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x490++0x3
line.long 0x00 "L4_AP_REGION_l_L_50,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_51"
width 21.
group.long 0x49C++0x3
line.long 0x00 "L4_AP_REGION_l_H_51,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x498++0x3
line.long 0x00 "L4_AP_REGION_l_L_51,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_52"
width 21.
group.long 0x4A4++0x3
line.long 0x00 "L4_AP_REGION_l_H_52,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4A0++0x3
line.long 0x00 "L4_AP_REGION_l_L_52,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_53"
width 21.
group.long 0x4AC++0x3
line.long 0x00 "L4_AP_REGION_l_H_53,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4A8++0x3
line.long 0x00 "L4_AP_REGION_l_L_53,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_54"
width 21.
group.long 0x4B4++0x3
line.long 0x00 "L4_AP_REGION_l_H_54,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4B0++0x3
line.long 0x00 "L4_AP_REGION_l_L_54,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_55"
width 21.
group.long 0x4BC++0x3
line.long 0x00 "L4_AP_REGION_l_H_55,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4B8++0x3
line.long 0x00 "L4_AP_REGION_l_L_55,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_56"
width 21.
group.long 0x4C4++0x3
line.long 0x00 "L4_AP_REGION_l_H_56,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4C0++0x3
line.long 0x00 "L4_AP_REGION_l_L_56,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_57"
width 21.
group.long 0x4CC++0x3
line.long 0x00 "L4_AP_REGION_l_H_57,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4C8++0x3
line.long 0x00 "L4_AP_REGION_l_L_57,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_58"
width 21.
group.long 0x4D4++0x3
line.long 0x00 "L4_AP_REGION_l_H_58,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4D0++0x3
line.long 0x00 "L4_AP_REGION_l_L_58,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_59"
width 21.
group.long 0x4DC++0x3
line.long 0x00 "L4_AP_REGION_l_H_59,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4D8++0x3
line.long 0x00 "L4_AP_REGION_l_L_59,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_60"
width 21.
group.long 0x4E4++0x3
line.long 0x00 "L4_AP_REGION_l_H_60,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4E0++0x3
line.long 0x00 "L4_AP_REGION_l_L_60,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_61"
width 21.
group.long 0x4EC++0x3
line.long 0x00 "L4_AP_REGION_l_H_61,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4E8++0x3
line.long 0x00 "L4_AP_REGION_l_L_61,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_62"
width 21.
group.long 0x4F4++0x3
line.long 0x00 "L4_AP_REGION_l_H_62,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4F0++0x3
line.long 0x00 "L4_AP_REGION_l_L_62,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "L4_AP_COMPONENT_L,Contains a component code and revision, which are used to identify the hardware of the component."
hexmask.long.word 0x00 16.--31. 1. " CODE ,Interconnect code"
hexmask.long.word 0x00 0.--15. 1. "      REV ,Component revision code"
group.long 0x4++0x3
line.long 0x00 "L4_AP_COMPONENT_H,Contains a component code and revision, which are used to identify the hardware of the component."
rgroup.long 0x100++0x3
line.long 0x00 "L4_AP_SEGMENT_i_L,Define the base address of each segments"
hexmask.long 0x00 0.--31. 1. " BASE ,The base address of the segment (with 0s from bit 0 to bit SIZE-1)."
rgroup.long 0x104++0x3
line.long 0x00 "L4_AP_SEGMENT_i_H,Define the size of each segments"
bitfld.long 0x00 0.--4. " SIZE ,Segment size is a power of 2, where 2 is the byte size of a segment (all segment registers use the same size)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "PER1_AP"
base ad:0x48000000
tree "Channel_0"
width 32.
rgroup.long 0x200++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_0,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x284++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_0,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x280++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_0,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x304++0x3
line.long 0x00 "L4_AP_REGION_l_H_0,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x300++0x3
line.long 0x00 "L4_AP_REGION_l_L_0,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
rgroup.long 0x104++0x3
line.long 0x00 "L4_AP_SEGMENT_i_H_0,Define the size of each segments"
bitfld.long 0x00 0.--4. " SIZE                ,Segment size is a power of 2, where 2 is the byte size of a segment (all segment registers use the same size)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rgroup.long 0x100++0x3
line.long 0x00 "L4_AP_SEGMENT_i_L_0,Define the base address of each segments"
hexmask.long 0x00 0.--31. 1. " BASE                ,The base address of the segment (with 0s from bit 0 to bit SIZE-1)."
tree.end
tree "Channel_1"
width 32.
rgroup.long 0x208++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_1,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x28C++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_1,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x288++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_1,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x30C++0x3
line.long 0x00 "L4_AP_REGION_l_H_1,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x308++0x3
line.long 0x00 "L4_AP_REGION_l_L_1,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
rgroup.long 0x10C++0x3
line.long 0x00 "L4_AP_SEGMENT_i_H_1,Define the size of each segments"
bitfld.long 0x00 0.--4. " SIZE                ,Segment size is a power of 2, where 2 is the byte size of a segment (all segment registers use the same size)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rgroup.long 0x108++0x3
line.long 0x00 "L4_AP_SEGMENT_i_L_1,Define the base address of each segments"
hexmask.long 0x00 0.--31. 1. " BASE                ,The base address of the segment (with 0s from bit 0 to bit SIZE-1)."
tree.end
tree "Channel_2"
width 32.
rgroup.long 0x210++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_2,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x294++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_2,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x290++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_2,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x314++0x3
line.long 0x00 "L4_AP_REGION_l_H_2,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x310++0x3
line.long 0x00 "L4_AP_REGION_l_L_2,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "Channel_3"
width 32.
rgroup.long 0x218++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_3,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x29C++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_3,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x298++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_3,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x31C++0x3
line.long 0x00 "L4_AP_REGION_l_H_3,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x318++0x3
line.long 0x00 "L4_AP_REGION_l_L_3,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "Channel_4"
width 32.
rgroup.long 0x220++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_4,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x2A4++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_4,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x2A0++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_4,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x324++0x3
line.long 0x00 "L4_AP_REGION_l_H_4,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x320++0x3
line.long 0x00 "L4_AP_REGION_l_L_4,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "Channel_5"
width 32.
rgroup.long 0x228++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_5,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x2AC++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_5,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x2A8++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_5,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x32C++0x3
line.long 0x00 "L4_AP_REGION_l_H_5,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x328++0x3
line.long 0x00 "L4_AP_REGION_l_L_5,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "Channel_6"
width 32.
rgroup.long 0x230++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_6,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x2B4++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_6,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x2B0++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_6,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x334++0x3
line.long 0x00 "L4_AP_REGION_l_H_6,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x330++0x3
line.long 0x00 "L4_AP_REGION_l_L_6,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "Channel_7"
width 32.
rgroup.long 0x238++0x3
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_7,Define ConnID bit vectors for a protection group."
hexmask.long.word 0x00 0.--15. 1. " CONNID_BIT_VECTOR   ,Specifies protection group members N is 2**W, where W is the connID width"
rgroup.long 0x2BC++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_7,Define ConnID bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
rgroup.long 0x2B8++0x3
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_7,Define MReqInfo bit vectors for a protection group."
hexmask.long 0x00 0.--31. 1. " ENABLE              ,Enabled bits N is 2**W, where W (W is less than or equal to 6) is the number of MReqInfo bits configured for role checking"
group.long 0x33C++0x3
line.long 0x00 "L4_AP_REGION_l_H_7,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "        SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "         PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                         "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x338++0x3
line.long 0x00 "L4_AP_REGION_l_L_7,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_8"
width 20.
group.long 0x344++0x3
line.long 0x00 "L4_AP_REGION_l_H_8,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                             "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x340++0x3
line.long 0x00 "L4_AP_REGION_l_L_8,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_9"
width 20.
group.long 0x34C++0x3
line.long 0x00 "L4_AP_REGION_l_H_9,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                             "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x348++0x3
line.long 0x00 "L4_AP_REGION_l_L_9,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_10"
width 21.
group.long 0x354++0x3
line.long 0x00 "L4_AP_REGION_l_H_10,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x350++0x3
line.long 0x00 "L4_AP_REGION_l_L_10,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_11"
width 21.
group.long 0x35C++0x3
line.long 0x00 "L4_AP_REGION_l_H_11,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x358++0x3
line.long 0x00 "L4_AP_REGION_l_L_11,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_12"
width 21.
group.long 0x364++0x3
line.long 0x00 "L4_AP_REGION_l_H_12,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x360++0x3
line.long 0x00 "L4_AP_REGION_l_L_12,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_13"
width 21.
group.long 0x36C++0x3
line.long 0x00 "L4_AP_REGION_l_H_13,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x368++0x3
line.long 0x00 "L4_AP_REGION_l_L_13,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_14"
width 21.
group.long 0x374++0x3
line.long 0x00 "L4_AP_REGION_l_H_14,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x370++0x3
line.long 0x00 "L4_AP_REGION_l_L_14,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_15"
width 21.
group.long 0x37C++0x3
line.long 0x00 "L4_AP_REGION_l_H_15,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x378++0x3
line.long 0x00 "L4_AP_REGION_l_L_15,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_16"
width 21.
group.long 0x384++0x3
line.long 0x00 "L4_AP_REGION_l_H_16,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x380++0x3
line.long 0x00 "L4_AP_REGION_l_L_16,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_17"
width 21.
group.long 0x38C++0x3
line.long 0x00 "L4_AP_REGION_l_H_17,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x388++0x3
line.long 0x00 "L4_AP_REGION_l_L_17,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_18"
width 21.
group.long 0x394++0x3
line.long 0x00 "L4_AP_REGION_l_H_18,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x390++0x3
line.long 0x00 "L4_AP_REGION_l_L_18,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_19"
width 21.
group.long 0x39C++0x3
line.long 0x00 "L4_AP_REGION_l_H_19,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x398++0x3
line.long 0x00 "L4_AP_REGION_l_L_19,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_20"
width 21.
group.long 0x3A4++0x3
line.long 0x00 "L4_AP_REGION_l_H_20,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3A0++0x3
line.long 0x00 "L4_AP_REGION_l_L_20,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_21"
width 21.
group.long 0x3AC++0x3
line.long 0x00 "L4_AP_REGION_l_H_21,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3A8++0x3
line.long 0x00 "L4_AP_REGION_l_L_21,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_22"
width 21.
group.long 0x3B4++0x3
line.long 0x00 "L4_AP_REGION_l_H_22,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3B0++0x3
line.long 0x00 "L4_AP_REGION_l_L_22,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_23"
width 21.
group.long 0x3BC++0x3
line.long 0x00 "L4_AP_REGION_l_H_23,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3B8++0x3
line.long 0x00 "L4_AP_REGION_l_L_23,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_24"
width 21.
group.long 0x3C4++0x3
line.long 0x00 "L4_AP_REGION_l_H_24,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3C0++0x3
line.long 0x00 "L4_AP_REGION_l_L_24,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_25"
width 21.
group.long 0x3CC++0x3
line.long 0x00 "L4_AP_REGION_l_H_25,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3C8++0x3
line.long 0x00 "L4_AP_REGION_l_L_25,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_26"
width 21.
group.long 0x3D4++0x3
line.long 0x00 "L4_AP_REGION_l_H_26,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3D0++0x3
line.long 0x00 "L4_AP_REGION_l_L_26,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_27"
width 21.
group.long 0x3DC++0x3
line.long 0x00 "L4_AP_REGION_l_H_27,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3D8++0x3
line.long 0x00 "L4_AP_REGION_l_L_27,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_28"
width 21.
group.long 0x3E4++0x3
line.long 0x00 "L4_AP_REGION_l_H_28,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3E0++0x3
line.long 0x00 "L4_AP_REGION_l_L_28,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_29"
width 21.
group.long 0x3EC++0x3
line.long 0x00 "L4_AP_REGION_l_H_29,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3E8++0x3
line.long 0x00 "L4_AP_REGION_l_L_29,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_30"
width 21.
group.long 0x3F4++0x3
line.long 0x00 "L4_AP_REGION_l_H_30,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3F0++0x3
line.long 0x00 "L4_AP_REGION_l_L_30,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_31"
width 21.
group.long 0x3FC++0x3
line.long 0x00 "L4_AP_REGION_l_H_31,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x3F8++0x3
line.long 0x00 "L4_AP_REGION_l_L_31,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_32"
width 21.
group.long 0x404++0x3
line.long 0x00 "L4_AP_REGION_l_H_32,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x400++0x3
line.long 0x00 "L4_AP_REGION_l_L_32,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_33"
width 21.
group.long 0x40C++0x3
line.long 0x00 "L4_AP_REGION_l_H_33,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x408++0x3
line.long 0x00 "L4_AP_REGION_l_L_33,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_34"
width 21.
group.long 0x414++0x3
line.long 0x00 "L4_AP_REGION_l_H_34,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x410++0x3
line.long 0x00 "L4_AP_REGION_l_L_34,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_35"
width 21.
group.long 0x41C++0x3
line.long 0x00 "L4_AP_REGION_l_H_35,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x418++0x3
line.long 0x00 "L4_AP_REGION_l_L_35,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_36"
width 21.
group.long 0x424++0x3
line.long 0x00 "L4_AP_REGION_l_H_36,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x420++0x3
line.long 0x00 "L4_AP_REGION_l_L_36,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_37"
width 21.
group.long 0x42C++0x3
line.long 0x00 "L4_AP_REGION_l_H_37,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x428++0x3
line.long 0x00 "L4_AP_REGION_l_L_37,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_38"
width 21.
group.long 0x434++0x3
line.long 0x00 "L4_AP_REGION_l_H_38,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x430++0x3
line.long 0x00 "L4_AP_REGION_l_L_38,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_39"
width 21.
group.long 0x43C++0x3
line.long 0x00 "L4_AP_REGION_l_H_39,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x438++0x3
line.long 0x00 "L4_AP_REGION_l_L_39,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_40"
width 21.
group.long 0x444++0x3
line.long 0x00 "L4_AP_REGION_l_H_40,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x440++0x3
line.long 0x00 "L4_AP_REGION_l_L_40,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_41"
width 21.
group.long 0x44C++0x3
line.long 0x00 "L4_AP_REGION_l_H_41,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x448++0x3
line.long 0x00 "L4_AP_REGION_l_L_41,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_42"
width 21.
group.long 0x454++0x3
line.long 0x00 "L4_AP_REGION_l_H_42,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x450++0x3
line.long 0x00 "L4_AP_REGION_l_L_42,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_43"
width 21.
group.long 0x45C++0x3
line.long 0x00 "L4_AP_REGION_l_H_43,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x458++0x3
line.long 0x00 "L4_AP_REGION_l_L_43,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_44"
width 21.
group.long 0x464++0x3
line.long 0x00 "L4_AP_REGION_l_H_44,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x460++0x3
line.long 0x00 "L4_AP_REGION_l_L_44,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_45"
width 21.
group.long 0x46C++0x3
line.long 0x00 "L4_AP_REGION_l_H_45,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x468++0x3
line.long 0x00 "L4_AP_REGION_l_L_45,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_46"
width 21.
group.long 0x474++0x3
line.long 0x00 "L4_AP_REGION_l_H_46,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x470++0x3
line.long 0x00 "L4_AP_REGION_l_L_46,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_47"
width 21.
group.long 0x47C++0x3
line.long 0x00 "L4_AP_REGION_l_H_47,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x478++0x3
line.long 0x00 "L4_AP_REGION_l_L_47,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_48"
width 21.
group.long 0x484++0x3
line.long 0x00 "L4_AP_REGION_l_H_48,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x480++0x3
line.long 0x00 "L4_AP_REGION_l_L_48,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_49"
width 21.
group.long 0x48C++0x3
line.long 0x00 "L4_AP_REGION_l_H_49,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x488++0x3
line.long 0x00 "L4_AP_REGION_l_L_49,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_50"
width 21.
group.long 0x494++0x3
line.long 0x00 "L4_AP_REGION_l_H_50,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x490++0x3
line.long 0x00 "L4_AP_REGION_l_L_50,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_51"
width 21.
group.long 0x49C++0x3
line.long 0x00 "L4_AP_REGION_l_H_51,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x498++0x3
line.long 0x00 "L4_AP_REGION_l_L_51,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_52"
width 21.
group.long 0x4A4++0x3
line.long 0x00 "L4_AP_REGION_l_H_52,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4A0++0x3
line.long 0x00 "L4_AP_REGION_l_L_52,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_53"
width 21.
group.long 0x4AC++0x3
line.long 0x00 "L4_AP_REGION_l_H_53,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4A8++0x3
line.long 0x00 "L4_AP_REGION_l_L_53,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_54"
width 21.
group.long 0x4B4++0x3
line.long 0x00 "L4_AP_REGION_l_H_54,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4B0++0x3
line.long 0x00 "L4_AP_REGION_l_L_54,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_55"
width 21.
group.long 0x4BC++0x3
line.long 0x00 "L4_AP_REGION_l_H_55,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4B8++0x3
line.long 0x00 "L4_AP_REGION_l_L_55,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_56"
width 21.
group.long 0x4C4++0x3
line.long 0x00 "L4_AP_REGION_l_H_56,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4C0++0x3
line.long 0x00 "L4_AP_REGION_l_L_56,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_57"
width 21.
group.long 0x4CC++0x3
line.long 0x00 "L4_AP_REGION_l_H_57,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4C8++0x3
line.long 0x00 "L4_AP_REGION_l_L_57,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_58"
width 21.
group.long 0x4D4++0x3
line.long 0x00 "L4_AP_REGION_l_H_58,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4D0++0x3
line.long 0x00 "L4_AP_REGION_l_L_58,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_59"
width 21.
group.long 0x4DC++0x3
line.long 0x00 "L4_AP_REGION_l_H_59,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4D8++0x3
line.long 0x00 "L4_AP_REGION_l_L_59,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_60"
width 21.
group.long 0x4E4++0x3
line.long 0x00 "L4_AP_REGION_l_H_60,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4E0++0x3
line.long 0x00 "L4_AP_REGION_l_L_60,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_61"
width 21.
group.long 0x4EC++0x3
line.long 0x00 "L4_AP_REGION_l_H_61,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4E8++0x3
line.long 0x00 "L4_AP_REGION_l_L_61,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_62"
width 21.
group.long 0x4F4++0x3
line.long 0x00 "L4_AP_REGION_l_H_62,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4F0++0x3
line.long 0x00 "L4_AP_REGION_l_L_62,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_63"
width 21.
group.long 0x4FC++0x3
line.long 0x00 "L4_AP_REGION_l_H_63,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x4F8++0x3
line.long 0x00 "L4_AP_REGION_l_L_63,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_64"
width 21.
group.long 0x504++0x3
line.long 0x00 "L4_AP_REGION_l_H_64,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x500++0x3
line.long 0x00 "L4_AP_REGION_l_L_64,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_65"
width 21.
group.long 0x50C++0x3
line.long 0x00 "L4_AP_REGION_l_H_65,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x508++0x3
line.long 0x00 "L4_AP_REGION_l_L_65,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_66"
width 21.
group.long 0x514++0x3
line.long 0x00 "L4_AP_REGION_l_H_66,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x510++0x3
line.long 0x00 "L4_AP_REGION_l_L_66,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_67"
width 21.
group.long 0x51C++0x3
line.long 0x00 "L4_AP_REGION_l_H_67,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x518++0x3
line.long 0x00 "L4_AP_REGION_l_L_67,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_68"
width 21.
group.long 0x524++0x3
line.long 0x00 "L4_AP_REGION_l_H_68,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x520++0x3
line.long 0x00 "L4_AP_REGION_l_L_68,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_69"
width 21.
group.long 0x52C++0x3
line.long 0x00 "L4_AP_REGION_l_H_69,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x528++0x3
line.long 0x00 "L4_AP_REGION_l_L_69,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_70"
width 21.
group.long 0x534++0x3
line.long 0x00 "L4_AP_REGION_l_H_70,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x530++0x3
line.long 0x00 "L4_AP_REGION_l_L_70,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_71"
width 21.
group.long 0x53C++0x3
line.long 0x00 "L4_AP_REGION_l_H_71,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x538++0x3
line.long 0x00 "L4_AP_REGION_l_L_71,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_72"
width 21.
group.long 0x544++0x3
line.long 0x00 "L4_AP_REGION_l_H_72,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x540++0x3
line.long 0x00 "L4_AP_REGION_l_L_72,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_73"
width 21.
group.long 0x54C++0x3
line.long 0x00 "L4_AP_REGION_l_H_73,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x548++0x3
line.long 0x00 "L4_AP_REGION_l_L_73,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_74"
width 21.
group.long 0x554++0x3
line.long 0x00 "L4_AP_REGION_l_H_74,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x550++0x3
line.long 0x00 "L4_AP_REGION_l_L_74,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_75"
width 21.
group.long 0x55C++0x3
line.long 0x00 "L4_AP_REGION_l_H_75,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x558++0x3
line.long 0x00 "L4_AP_REGION_l_L_75,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_76"
width 21.
group.long 0x564++0x3
line.long 0x00 "L4_AP_REGION_l_H_76,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x560++0x3
line.long 0x00 "L4_AP_REGION_l_L_76,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_77"
width 21.
group.long 0x56C++0x3
line.long 0x00 "L4_AP_REGION_l_H_77,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x568++0x3
line.long 0x00 "L4_AP_REGION_l_L_77,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_78"
width 21.
group.long 0x574++0x3
line.long 0x00 "L4_AP_REGION_l_H_78,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x570++0x3
line.long 0x00 "L4_AP_REGION_l_L_78,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_79"
width 21.
group.long 0x57C++0x3
line.long 0x00 "L4_AP_REGION_l_H_79,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x578++0x3
line.long 0x00 "L4_AP_REGION_l_L_79,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_80"
width 21.
group.long 0x584++0x3
line.long 0x00 "L4_AP_REGION_l_H_80,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x580++0x3
line.long 0x00 "L4_AP_REGION_l_L_80,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_81"
width 21.
group.long 0x58C++0x3
line.long 0x00 "L4_AP_REGION_l_H_81,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x588++0x3
line.long 0x00 "L4_AP_REGION_l_L_81,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_82"
width 21.
group.long 0x594++0x3
line.long 0x00 "L4_AP_REGION_l_H_82,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x590++0x3
line.long 0x00 "L4_AP_REGION_l_L_82,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_83"
width 21.
group.long 0x59C++0x3
line.long 0x00 "L4_AP_REGION_l_H_83,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x598++0x3
line.long 0x00 "L4_AP_REGION_l_L_83,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
tree "REG_Bundle_84"
width 21.
group.long 0x5A4++0x3
line.long 0x00 "L4_AP_REGION_l_H_84,Define the size, protection group and segment ID of the region"
bitfld.long 0x00 28.--31. " MADDRSPACE          ,Target interconnect MAddrSpace" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--26. "      SEGMENT_ID    ,Segment ID of the region" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "   PROT_GROUP_ID ,Protection group ID" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 17.--18. " BYTE_DATA_WIDTH_EXP ,Target data byte width" "0,1,2,3"
hexmask.long.byte 0x00 8.--14. 1. "       PHY_TARGET_ID ,Physical target ID"
bitfld.long 0x00 1.--6. "  SIZE          ,Define the size of the region in bytes. 2 equals the region." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                              "
bitfld.long 0x00 0. " ENABLE              ,0x0: Disable the region, no access allows 0x1: Enable the region, with access as define in registers" "0,1"
rgroup.long 0x5A0++0x3
line.long 0x00 "L4_AP_REGION_l_L_84,Define the base address of the region in respect to the segment it belongs to."
hexmask.long.tbyte 0x00 0.--20. 1. " BASE                ,Sets the base address of the region relative to its segment base."
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "L4_AP_COMPONENT_L,Contains a component code and revision, which are used to identify the hardware of the component."
hexmask.long.word 0x00 16.--31. 1. " CODE ,Interconnect code"
hexmask.long.word 0x00 0.--15. 1. "  REV ,Component revision code"
group.long 0x4++0x3
line.long 0x00 "L4_AP_COMPONENT_H,Contains a component code and revision, which are used to identify the hardware of the component."
width 0x0B
tree.end
tree.open "MAILBOX_TARG"
tree "MAILBOX_TARG"
base ad:0x4A0F5000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
group.long 0x28++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
hgroup.long 0x2C++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
width 0x0B
tree.end
tree "SPINLOCK_TARG"
base ad:0x4A0F7000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
group.long 0x28++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
hgroup.long 0x2C++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
width 0x0B
tree.end
tree "OCP_WP_NOC_TARG"
base ad:0x4A103000
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "L4_TA_COMPONENT_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CODE                  ,Interconnect code."
hexmask.long.word 0x00 0.--15. 1. "  REV         ,Component revision code."
group.long 0x4++0x3
line.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision."
rgroup.long 0x18++0x3
line.long 0x00 "L4_TA_CORE_L,Contains a component code and revision."
hexmask.long.word 0x00 16.--31. 1. " CORE_CODE             ,Interconnect core code"
hexmask.long.word 0x00 0.--15. 1. "  CORE_REV    ,Component revision code code"
rgroup.long 0x1C++0x3
line.long 0x00 "L4_TA_CORE_H,Contains a component code and revision."
hexmask.long.word 0x00 0.--15. 1. " VENDOR_CODE           ,Vendor revision core code"
group.long 0x20++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
bitfld.long 0x00 24. " SERROR_REP            ,Enable logging of error" "0,1"
bitfld.long 0x00 8.--10. "     REQ_TIMEOUT ,Time-out Bound. Values are: 0 - No time-out 1 - 1x base cycles. 2 - 4x base cycles. 3 - 16x base cycles. 4 - 64x base cycles." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "     OCP_RESET ,The OCP_RESET field controls the OCP reset signal to the attached core. Setting this bit clears any pending transfers and resets the OCP interface. The bit must be cleared to deassert the OCP reset signal. When the software reset featur..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x00 9. " AUTO_WAKEUP_RESP_CODE ," "0,1"
bitfld.long 0x00 8. "     EXT_CLOCK   ,When set to 1, the ext_clk_off_i signal on a target agent indicates when the target agent should shut off." "0,1"
group.long 0x28++0x3
line.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
hgroup.long 0x2C++0x3
hide.long 0x00 "L4_TA_AGENT_STATUS_L,Error reporting"
in
width 0x0B
tree.end
tree.end
tree.end
tree.open "BB2D"
tree "BB2D"
base ad:0x59000000
width 34.
group.long 0x0++0x3
line.long 0x00 "AQHICLOCKCONTROL,Clock control register."
bitfld.long 0x00 24.--27. " MULTI_PIPE_USE_SINGLE_AXI         ,Force all the transactions to go to one AXI" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "        MULTI_PIPE_REG_SELECT          ,Determines which HI/MC to use while reading registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 19. "        ISOLATE_GPU                           ,Isolate GPU bit" "0,1"
textline "                                           "
bitfld.long 0x00 18. " IDLE_VG                           ,VG pipe is idle" "0,1"
bitfld.long 0x00 17. "         IDLE2_D                        ,2D pipe is idle" "0,1"
bitfld.long 0x00 16. "         IDLE3_D                               ,3D pipe is idle" "0,1"
textline "                                           "
bitfld.long 0x00 12. " SOFT_RESET                        ,Soft resets the subsystem" "0,1"
bitfld.long 0x00 11. "         DISABLE_DEBUG_REGISTERS        ,Disable debug registers. If this bit is 1, debug registers are clock gated" "0,1"
bitfld.long 0x00 10. "         DISABLE_RAM_CLOCK_GATING              ,Disables clock gating for RAMs" "0,1"
textline "                                           "
bitfld.long 0x00 9. " FSCALE_CMD_LOAD                   ," "0,1"
hexmask.long.byte 0x00 2.--8. 1. "         FSCALE_VAL                     ,"
bitfld.long 0x00 1. "        CLK2D_DIS                             ,Disable 2D clock" "0,1"
textline "                                           "
bitfld.long 0x00 0. " CLK3D_DIS                         ,Disable 3D clock" "0,1"
rgroup.long 0x4++0x3
line.long 0x00 "AQHIIDLE,Idle status register."
bitfld.long 0x00 31. " AXI_LP                            ,AXI is in low power mode" "0,1"
bitfld.long 0x00 11. "         IDLE_TS                        ,TS is idle" "0,1"
bitfld.long 0x00 10. "         IDLE_FP                               ,FP is idle" "0,1"
textline "                                           "
bitfld.long 0x00 9. " IDLE_IM                           ,IM is idle" "0,1"
bitfld.long 0x00 8. "         IDLE_VG                        ,VG is idle" "0,1"
bitfld.long 0x00 7. "         IDLE_TX                               ,TX is idle" "0,1"
textline "                                           "
bitfld.long 0x00 6. " IDLE_RA                           ,RA is idle" "0,1"
bitfld.long 0x00 5. "         IDLE_SE                        ,SE is idle" "0,1"
bitfld.long 0x00 4. "         IDLE_PA                               ,PA is idle" "0,1"
textline "                                           "
bitfld.long 0x00 3. " IDLE_SH                           ,SH is idle" "0,1"
bitfld.long 0x00 2. "         IDLE_PE                        ,PE is idle" "0,1"
bitfld.long 0x00 1. "         IDLE_DE                               ,DE is idle" "0,1"
textline "                                           "
bitfld.long 0x00 0. " IDLE_FE                           ,FE is idle" "0,1"
group.long 0x8++0x3
line.long 0x00 "AQAXICONFIG,AXI config"
bitfld.long 0x00 12.--15. " ARCACHE                           ," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "        AWCACHE                        ," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 4.--7. "        ARID                                  ," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 0.--3. " AWID                              ," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0xC++0x3
line.long 0x00 "AQAXISTATUS,AXI status"
bitfld.long 0x00 9. " DET_RD_ERR                        ," "0,1"
bitfld.long 0x00 8. "         DET_WR_ERR                     ," "0,1"
bitfld.long 0x00 4.--7. "         RD_ERR_ID                             ," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 0.--3. " WR_ERR_ID                         ," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x10++0x3
line.long 0x00 "AQINTRACKNOWLEDGE,Interrupt acknowledge register. Each bit represents a corresponding event being triggered. Reading from this register clears the outstanding interrupt."
hexmask.long 0x00 0.--31. 1. " INTR_VEC                          ,"
group.long 0x14++0x3
line.long 0x00 "AQINTRENBL,Interrupt enable register. Each bit enables a corresponding event."
hexmask.long 0x00 0.--31. 1. " INTR_ENBL_VEC                     ,"
rgroup.long 0x18++0x3
line.long 0x00 "AQIDENT,Identification register."
hexmask.long.byte 0x00 24.--31. 1. " FAMILY                            ,Family value 0x1: GC500 0x2: GC520 0x3: GC530 0x4: GC400 0x5: GC450 0x8: GC600 0x9: GC700 0xA: GC350 0xB: GC380 0xC: GC800 0x10: GC1000 0x14: GC2000"
hexmask.long.byte 0x00 16.--23. 1. "        PRODUCT                        ,Product value"
bitfld.long 0x00 12.--15. "        REVISION                              ,Revision value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 8.--11. " TECHNOLOGY                        ,Technology value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 0.--7. 1. "        CUSTOMER                       ,Customer value"
rgroup.long 0x1C++0x3
line.long 0x00 "GCFEATURES,Shows which features are enabled in current subsystem implementation. 0 : NONE 1 : AVAILABLE"
bitfld.long 0x00 31. " FE20_BIT_INDEX                    ,Supports 20 bit index." "0,1"
bitfld.long 0x00 30. "         RS_YUV_TARGET                  ,Supports resolveing into YUV target." "0,1"
bitfld.long 0x00 29. "         BYTE_WRITE_3D                         ,3D PE has byte write capability." "0,1"
textline "                                           "
bitfld.long 0x00 28. " FE20                              ,FE 2.0 is present." "0,1"
bitfld.long 0x00 27. "         VGTS                           ,VG tesselator is present." "0,1"
bitfld.long 0x00 26. "         PIPE_VG                               ,VG pipe is present." "0,1"
textline "                                           "
bitfld.long 0x00 25. " MEM32_BIT_SUPPORT                 ,32 bit memory address support." "0,1"
bitfld.long 0x00 24. "         YUY2_RENDER_TARGET             ,YUY2 support in PE and YUY2 to RGB conversion in resolve." "0,1"
bitfld.long 0x00 23. "         HALF_TX_CACHE                         ,TX cache is half." "0,1"
textline "                                           "
bitfld.long 0x00 22. " HALF_PE_CACHE                     ,PE cache is half." "0,1"
bitfld.long 0x00 21. "         YUY2_AVERAGING                 ,YUY2 averaging support in resolve." "0,1"
bitfld.long 0x00 20. "         NO_SCALER                             ,No 2D scaler." "0,1"
textline "                                           "
bitfld.long 0x00 19. " BYTE_WRITE_2D                     ,Supports byte write in 2D." "0,1"
bitfld.long 0x00 18. "         BUFFER_INTERLEAVING            ,Supports interleaving depth and color buffers." "0,1"
bitfld.long 0x00 17. "         NO422_TEXTURE                         ,No 422 texture input format." "0,1"
textline "                                           "
bitfld.long 0x00 16. " NO_EZ                             ,No early-Z." "0,1"
bitfld.long 0x00 15. "         MIN_AREA                       ,Configured to have minimum area." "0,1"
bitfld.long 0x00 14. "         MODULE_CG                             ,Second level clock gating is available." "0,1"
textline "                                           "
bitfld.long 0x00 13. " YUV420_TILER                      ,YUV 4:2:0 tiler is available." "0,1"
bitfld.long 0x00 12. "         HIGH_DYNAMIC_RANGE             ,Shows if there is HDR support." "0,1"
bitfld.long 0x00 11. "         FAST_SCALER                           ,Shows if there is HD scaler." "0,1"
textline "                                           "
bitfld.long 0x00 10. " ETC1_TEXTURE_COMPRESSION          ,ETC1 texture compression." "0,1"
bitfld.long 0x00 9. "         PIPE_2D                        ,Shows if there is 2D engine." "0,1"
bitfld.long 0x00 8. "         DC                                    ,Shows if there is a display controller." "0,1"
textline "                                           "
bitfld.long 0x00 7. " MSAA                              ,MSAA support." "0,1"
bitfld.long 0x00 6. "         YUV420_FILTER                  ,YUV 4:2:0 support in filter blit." "0,1"
bitfld.long 0x00 5. "         ZCOMPRESSION                          ,Depth and color compression." "0,1"
textline "                                           "
bitfld.long 0x00 4. " DEBUG_MODE                        ,Debug registers." "0,1"
bitfld.long 0x00 3. "         DXT_TEXTURE_COMPRESSION        ,DXT texture compression." "0,1"
bitfld.long 0x00 2. "         PIPE_3D                               ,3D pipe." "0,1"
textline "                                           "
bitfld.long 0x00 1. " SPECIAL_ANTI_ALIASING             ,Full-screen anti-aliasing." "0,1"
bitfld.long 0x00 0. "         FAST_CLEAR                     ,Fast clear." "0,1"
rgroup.long 0x20++0x3
line.long 0x00 "GCCHIPID,Shows the ID for the subsystem in BCD."
hexmask.long 0x00 0.--31. 1. " ID                                ,Subsystem ID in BCD"
rgroup.long 0x24++0x3
line.long 0x00 "GCCHIPREV,Shows the revision for the subsystem in BCD."
hexmask.long 0x00 0.--31. 1. " REV                               ,Revision in BCD"
rgroup.long 0x28++0x3
line.long 0x00 "GCCHIPDATE,Shows the release date for the subsystem."
hexmask.long 0x00 0.--31. 1. " DATE                              ,Release date"
rgroup.long 0x2C++0x3
line.long 0x00 "GCCHIPTIME,Shows the release time for the subsystem."
hexmask.long 0x00 0.--31. 1. " TIME                              ,Release time"
rgroup.long 0x30++0x3
line.long 0x00 "GCCHIPCUSTOMER,Shows the customer and group for the subsystem."
hexmask.long.word 0x00 16.--31. 1. " COMPANY                           ,Company"
hexmask.long.word 0x00 0.--15. 1. "      GROUP                          ,Group"
rgroup.long 0x34++0x3
line.long 0x00 "GCMINORFEATURES0,Shows which minor features are enabled in the subsystem. 0 : NONE 1 : AVAILABLE"
bitfld.long 0x00 31. " ENHANCE_VR                        ,Enhance VR and add a mode to walk 16 pixels in 16-bit mode in vertical pass to improve cache hit rate when rotating 90/270." "0,1"
bitfld.long 0x00 30. "         CORRECT_STENCIL                ,Correct stencil behavior in depth only." "0,1"
bitfld.long 0x00 29. "         A8_TARGET_SUPPORT                     ,2D engine supports A8 target." "0,1"
textline "                                           "
bitfld.long 0x00 28. " NEW_TEXTURE                       ,New texture unit is available." "0,1"
bitfld.long 0x00 27. "         HIERARCHICAL_Z                 ,Hierarchiccal Z is supported." "0,1"
bitfld.long 0x00 26. "         BYPASS_IN_MSAA                        ,Shader supports bypass mode when MSAA is enabled." "0,1"
textline "                                           "
bitfld.long 0x00 25. " VAA                               ,VAA is available or not." "0,1"
bitfld.long 0x00 24. "         BUG_FIXES0                     ," "0,1"
bitfld.long 0x00 23. "         SHADER_MSAA_SIDEBAND                  ,Put the MSAA data into sideband fifo." "0,1"
textline "                                           "
bitfld.long 0x00 22. " MC_20                             ,New style MC with separate paths for color and depth." "0,1"
bitfld.long 0x00 21. "         DEFAULT_REG0                   ,Unavailable registers will return 0." "0,1"
bitfld.long 0x00 20. "         EXTRA_SHADER_INSTRUCTIONS1            ,Sqrt, sin, cos instructions are available." "0,1"
textline "                                           "
bitfld.long 0x00 19. " SHADER_GETS_W                     ,W is sent to SH from RA." "0,1"
bitfld.long 0x00 18. "         VG_21                          ,Minor updates to VG pipe (Event generation from VG, TS, PE). Tiled image support." "0,1"
bitfld.long 0x00 17. "         VG_FILTER                             ,VG filter is available." "0,1"
textline "                                           "
bitfld.long 0x00 16. " EXTRA_SHADER_INSTRUCTIONS0        ,Floor, ceil, and sign instructions are available." "0,1"
bitfld.long 0x00 15. "         COMPRESSION_FIFO_FIXED         ,If this bit is not set, the FIFO counter should be set to 50. Else, the default should remain." "0,1"
bitfld.long 0x00 14. "         TS_EXTENDED_COMMANDS                  ,New commands added to the tessellator." "0,1"
textline "                                           "
bitfld.long 0x00 13. " VG_20                             ,Major updates to VG pipe (TS buffer tiling. State masking.)." "0,1"
bitfld.long 0x00 12. "         SUPER_TILED_32X32              ,32 ? 32 super tile is available." "0,1"
bitfld.long 0x00 11. "         SEPARATE_TILE_STATUS_WHEN_INTERLEAVED ,Use 2 separate tile status buffers in interleaved mode." "0,1"
textline "                                           "
bitfld.long 0x00 10. " TILE_STATUS_2BITS                 ,2 bits are used instead of 4 bits for tile status." "0,1"
bitfld.long 0x00 9. "         RENDER_8K                      ,Supports 8K render target." "0,1"
bitfld.long 0x00 8. "         CORRECT_AUTO_DISABLE                  ,Reserved." "0,1"
textline "                                           "
bitfld.long 0x00 7. " PE20_2D                           ,2D PE 2.0 is present." "0,1"
bitfld.long 0x00 6. "         FAST_CLEAR_FLUSH               ,Proper flush is done in fast clear cache." "0,1"
bitfld.long 0x00 5. "         SPECIAL_MSAA_LOD                      ,Special LOD calculation when MSAA is on." "0,1"
textline "                                           "
bitfld.long 0x00 4. " CORRECT_TEXTURE_CONVERTER         ,Driver hack is not needed." "0,1"
bitfld.long 0x00 3. "         TEXTURE8_K                     ,Supports 8K ? 8K textures." "0,1"
bitfld.long 0x00 2. "         ENDIANNESS_CONFIG                     ,Configurable endianness support." "0,1"
textline "                                           "
bitfld.long 0x00 1. " DUAL_RETURN_BUS                   ,Dual Return Bus from HI to clients." "0,1"
bitfld.long 0x00 0. "         FLIP_Y                         ,Y flipping capability is added to resolve." "0,1"
wgroup.long 0x3C++0x3
line.long 0x00 "GCRESETMEMCOUNTERS,Writing 1 will reset the counters and stop counting. Write 0 to start counting again."
bitfld.long 0x00 0. " RESET                             ,1: reset the counters and stop counting 0: start counting" "0,1"
rgroup.long 0x40++0x3
line.long 0x00 "GCTOTALREADS,Total reads in terms of 64 bits."
hexmask.long 0x00 0.--31. 1. " COUNT                             ,Total reads in terms of 64 bits"
rgroup.long 0x44++0x3
line.long 0x00 "GCTOTALWRITES,Total writes in terms of 64 bits."
hexmask.long 0x00 0.--31. 1. " COUNT                             ,Total writes in terms of 64 bits"
rgroup.long 0x48++0x3
line.long 0x00 "GCCHIPSPECS,Specs for the subsystem."
bitfld.long 0x00 28.--31. " VERTEX_OUTPUT_BUFFER_SIZE         ," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 25.--27. "        NUM_PIXEL_PIPES                ," "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--24. "         NUM_SHADER_CORES                      ," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                           "
bitfld.long 0x00 12.--16. " VERTEX_CACHE_SIZE                 ," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--11. "        THREAD_COUNT                   ," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 4.--7. "        TEMP_REGISTERS                        ," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 0.--3. " STREAMS                           ," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x4C++0x3
line.long 0x00 "GCTOTALWRITEBURSTS,Total write data count in terms of 64 bits."
hexmask.long 0x00 0.--31. 1. " COUNT                             ,Total write data count in terms of 64 bits"
rgroup.long 0x50++0x3
line.long 0x00 "GCTOTALWRITEREQS,Total write request count."
hexmask.long 0x00 0.--31. 1. " COUNT                             ,Total write request count"
rgroup.long 0x54++0x3
line.long 0x00 "GCTOTALWRITELASTS,Total WLAST count. This is used to match with"
hexmask.long 0x00 0.--31. 1. " COUNT                             ,Total WLAST count"
rgroup.long 0x58++0x3
line.long 0x00 "GCTOTALREADBURSTS,Total read data count in terms of 64 bits."
hexmask.long 0x00 0.--31. 1. " COUNT                             ,Total read data count in terms of 64 bits"
rgroup.long 0x5C++0x3
line.long 0x00 "GCTOTALREADREQS,Total read request count."
hexmask.long 0x00 0.--31. 1. " COUNT                             ,Total read request count"
rgroup.long 0x60++0x3
line.long 0x00 "GCTOTALREADLASTS,Total RLAST count. This is used to match with"
hexmask.long 0x00 0.--31. 1. " COUNT                             ,Total RLAST count"
group.long 0x64++0x3
line.long 0x00 "GCGPOUT0,General purpose output register."
bitfld.long 0x00 0. " GCHOLD                            ,1 : Low power mode" "0,1"
group.long 0x70++0x3
line.long 0x00 "GCAXICONTROL,Special handling on AXI Bus"
bitfld.long 0x00 0. " WR_FULL_BURST_MODE                ,0: NO_BURST_RESET_VALUE 1: BURST_RESET_VALUE" "0,1"
rgroup.long 0x74++0x3
line.long 0x00 "GCMINORFEATURES1,Shows which features are enabled in the subsystem. 0 : NONE 1 : AVAILABLE"
bitfld.long 0x00 31. " FC_FLUSH_STALL                    ," "0,1"
bitfld.long 0x00 30. "         BUG_FIXES6                     ," "0,1"
bitfld.long 0x00 29. "         WIDE_LINE                             ," "0,1"
textline "                                           "
bitfld.long 0x00 28. " MMU                               ," "0,1"
bitfld.long 0x00 27. "         OK_TO_GATE_AXI_CLOCK           ," "0,1"
bitfld.long 0x00 26. "         RESOLVE_OFFSET                        ," "0,1"
textline "                                           "
bitfld.long 0x00 25. " NEGATIVE_LOG_FIX                  ," "0,1"
bitfld.long 0x00 24. "         CORRECT_OVERFLOW_VG            ," "0,1"
bitfld.long 0x00 23. "         HALTI0                                ," "0,1"
textline "                                           "
bitfld.long 0x00 22. " LINEAR_TEXTURE_SUPPORT            ," "0,1"
bitfld.long 0x00 21. "         NON_POWER_OF_TWO               ," "0,1"
bitfld.long 0x00 20. "         TEXTURE_HORIZONTAL_ALIGNMENT_SELECT   ," "0,1"
textline "                                           "
bitfld.long 0x00 19. " NEW_FLOATING_POINT_ARITHMETIC     ," "0,1"
bitfld.long 0x00 18. "         NEW_2D                         ," "0,1"
bitfld.long 0x00 17. "         BUG_FIXES5                            ," "0,1"
textline "                                           "
bitfld.long 0x00 16. " DITHER_AND_FILTER_PLUS_ALPHA_2D   ,Dither and filter+alpha available." "0,1"
bitfld.long 0x00 15. "         CORRECT_MIN_MAX_DEPTH          ,EEZ and HZ are correct." "0,1"
bitfld.long 0x00 14. "         EXTENDED_PIXEL_FORMAT                 ," "0,1"
textline "                                           "
bitfld.long 0x00 13. " TWO_STENCIL_REFERENCE             ," "0,1"
bitfld.long 0x00 12. "         PIXEL_DITHER                   ," "0,1"
bitfld.long 0x00 11. "         HALF_FLOAT_PIPE                       ," "0,1"
textline "                                           "
bitfld.long 0x00 10. " L2_WINDOWING                      ," "0,1"
bitfld.long 0x00 9. "         BUG_FIXES4                     ," "0,1"
bitfld.long 0x00 8. "         AUTO_RESTART_TS                       ," "0,1"
textline "                                           "
bitfld.long 0x00 7. " CORRECT_AUTO_DISABLE              ," "0,1"
bitfld.long 0x00 6. "         BUG_FIXES3                     ," "0,1"
bitfld.long 0x00 5. "         TEXTURE_STRIDE                        ,Texture has stride and memory addressing." "0,1"
textline "                                           "
bitfld.long 0x00 4. " BUG_FIXES2                        ," "0,1"
bitfld.long 0x00 3. "         BUG_FIXES1                     ," "0,1"
bitfld.long 0x00 2. "         VG_DOUBLE_BUFFER                      ,Double buffering support for VG (second TS-->VG semaphore is present)." "0,1"
textline "                                           "
bitfld.long 0x00 1. " V2_COMPRESSION                    ,V2 compression." "0,1"
bitfld.long 0x00 0. "         RSUV_SWIZZLE                   ,Resolve UV swizzle." "0,1"
group.long 0x78++0x3
line.long 0x00 "GCTOTALCYCLES,Total cycles. This register is a free running counter. It can be reset by writing 0 to it."
hexmask.long 0x00 0.--31. 1. " CYCLES                            ,Total cycles"
group.long 0x7C++0x3
line.long 0x00 "GCTOTALIDLECYCLES,Total cycles where the GPU is idle. It is reset when register is written to. It looks at all the blocks but FE when determining the subsystem is idle."
hexmask.long 0x00 0.--31. 1. " CYCLES                            ,Total cycles where the GPU is idle"
rgroup.long 0x80++0x3
line.long 0x00 "GCCHIPSPECS2,Specs for the subsystem"
hexmask.long.word 0x00 16.--31. 1. " NUMBER_OF_CONSTANTS               ,"
hexmask.long.byte 0x00 8.--15. 1. "      INSTRUCTION_COUNT              ,"
hexmask.long.byte 0x00 0.--7. 1. "        BUFFER_SIZE                           ,"
rgroup.long 0x84++0x3
line.long 0x00 "GCMINORFEATURES2,Shows which features are enabled in the subsystem 0 : NONE 1 : AVAILABLE"
bitfld.long 0x00 28. " NO_INDEX_PATTERN                  ," "0,1"
bitfld.long 0x00 26. "         NOT_USED                       ," "0,1"
bitfld.long 0x00 25. "         MIXED_STREAMS                         ," "0,1"
textline "                                           "
bitfld.long 0x00 24. " INTERLEAVER                       ," "0,1"
bitfld.long 0x00 23. "         FLUSH_FIXED_2D                 ," "0,1"
bitfld.long 0x00 22. "         YUV_CONVERSION                        ," "0,1"
textline "                                           "
bitfld.long 0x00 21. " MULTI_SOURCE_BLT                  ," "0,1"
bitfld.long 0x00 20. "         YUV_STANDARD                   ," "0,1"
bitfld.long 0x00 19. "         TILE_FILLER                           ," "0,1"
textline "                                           "
bitfld.long 0x00 18. " THREAD_WALKER_IN_PS               ," "0,1"
bitfld.long 0x00 17. "         ONE_PASS_2D_FILTER             ," "0,1"
bitfld.long 0x00 16. "         FULL_DIRECT_FB                        ," "0,1"
textline "                                           "
bitfld.long 0x00 15. " TX_FILTER                         ," "0,1"
bitfld.long 0x00 14. "         DYNAMIC_FREQUENCY_SCALING      ," "0,1"
bitfld.long 0x00 13. "         TX_YUV_ASSEMBLER                      ," "0,1"
textline "                                           "
bitfld.long 0x00 12. " RGB888                            ," "0,1"
bitfld.long 0x00 11. "         HALTI1                         ," "0,1"
bitfld.long 0x00 10. "         S1S8                                  ," "0,1"
textline "                                           "
bitfld.long 0x00 9. " END_EVENT                         ," "0,1"
bitfld.long 0x00 8. "         PE_SWIZZLE                     ," "0,1"
bitfld.long 0x00 7. "         CORRECT_AUTO_DISABLE_COUNT_WIDTH      ," "0,1"
textline "                                           "
bitfld.long 0x00 6. " COMPOSITION                       ," "0,1"
bitfld.long 0x00 5. "         RECT_PRIMITIVE                 ," "0,1"
bitfld.long 0x00 4. "         LINEAR_PE                             ," "0,1"
textline "                                           "
bitfld.long 0x00 3. " SUPER_TILED_TEXTURE               ," "0,1"
bitfld.long 0x00 2. "         SEAMLESS_CUBE_MAP              ," "0,1"
bitfld.long 0x00 1. "         LOGIC_OP                              ," "0,1"
textline "                                           "
bitfld.long 0x00 0. " LINE_LOOP                         ," "0,1"
group.long 0x100++0x3
line.long 0x00 "GCMODULEPOWERCONTROLS,Control register for module level power controls."
hexmask.long.word 0x00 16.--31. 1. " TURN_OFF_COUNTER                  ,Counter value for clock gating the module if the module is idle for this amount of clock cycles"
bitfld.long 0x00 4.--7. "      TURN_ON_COUNTER                ,Number of clock cycles to wait after turning on the clock" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 2. "        DISABLE_STARVE_MODULE_CLOCK_GATING    ,Disables module level clock gating for starve/idle condition" "0,1"
textline "                                           "
bitfld.long 0x00 1. " DISABLE_STALL_MODULE_CLOCK_GATING ,Disables module level clock gating for stall condition" "0,1"
bitfld.long 0x00 0. "         ENABLE_MODULE_CLOCK_GATING     ,Enables module level clock gating" "0,1"
group.long 0x104++0x3
line.long 0x00 "GCMODULEPOWERMODULECONTROL,Module level control registers."
bitfld.long 0x00 7. " DISABLE_MODULE_CLOCK_GATING_TX    ,Disables module level clock gating for starve/idle condition" "0,1"
bitfld.long 0x00 6. "         DISABLE_MODULE_CLOCK_GATING_RA ,Disables module level clock gating for stall condition" "0,1"
bitfld.long 0x00 5. "         DISABLE_MODULE_CLOCK_GATING_SE        ,Enables module level clock gating" "0,1"
textline "                                           "
bitfld.long 0x00 4. " DISABLE_MODULE_CLOCK_GATING_PA    ,Counter value for clock gating the module if the module is idle for this amount of clock cycles" "0,1"
bitfld.long 0x00 3. "         DISABLE_MODULE_CLOCK_GATING_SH ,Number of clock cycles to wait after turning on the clock" "0,1"
bitfld.long 0x00 2. "         DISABLE_MODULE_CLOCK_GATING_PE        ,Disables module level clock gating for starve/idle condition" "0,1"
textline "                                           "
bitfld.long 0x00 1. " DISABLE_MODULE_CLOCK_GATING_DE    ,Disables module level clock gating for stall condition" "0,1"
bitfld.long 0x00 0. "         DISABLE_MODULE_CLOCK_GATING_FE ,Enables module level clock gating" "0,1"
rgroup.long 0x108++0x3
line.long 0x00 "GCMODULEPOWERMODULESTATUS,Module level control status"
bitfld.long 0x00 7. " MODULE_CLOCK_GATED_TX             ,Module level clock gating is ON for TX" "0,1"
bitfld.long 0x00 6. "         MODULE_CLOCK_GATED_RA          ,Module level clock gating is ON for RA" "0,1"
bitfld.long 0x00 5. "         MODULE_CLOCK_GATED_SE                 ,Module level clock gating is ON for SE" "0,1"
textline "                                           "
bitfld.long 0x00 4. " MODULE_CLOCK_GATED_PA             ,Module level clock gating is ON for PA" "0,1"
bitfld.long 0x00 3. "         MODULE_CLOCK_GATED_SH          ,Module level clock gating is ON for SH" "0,1"
bitfld.long 0x00 2. "         MODULE_CLOCK_GATED_PE                 ,Module level clock gating is ON for PE" "0,1"
textline "                                           "
bitfld.long 0x00 1. " MODULE_CLOCK_GATED_DE             ,Module level clock gating is ON for DE" "0,1"
bitfld.long 0x00 0. "         MODULE_CLOCK_GATED_FE          ,Module level clock gating is ON for FE" "0,1"
rgroup.long 0x188++0x3
line.long 0x00 "GCREGMMUSTATUS,Status register that holds which MMU generated an exception"
bitfld.long 0x00 12.--13. " EXCEPTION3                        ,MMU 3 caused an exception and theGCREGMMUEXCEPTION3 register holds the offending address. 0x1: SLAVE_NOT_PRESENT 0x2: PAGE_NOT_PRESENT 0x3: WRITE_VIOLATION" "0,1,2,3"
bitfld.long 0x00 8.--9. "         EXCEPTION2                     ,MMU 2 caused an exception and theGCREGMMUEXCEPTION2 register holds the offending address. 0x1: SLAVE_NOT_PRESENT 0x2: PAGE_NOT_PRESENT 0x3: WRITE_VIOLATION" "0,1,2,3"
bitfld.long 0x00 4.--5. "         EXCEPTION1                            ,MMU 1 caused an exception and theGCREGMMUEXCEPTION1 register holds the offending address. 0x1: SLAVE_NOT_PRESENT 0x2: PAGE_NOT_PRESENT 0x3: WRITE_VIOLATION" "0,1,2,3"
textline "                                           "
bitfld.long 0x00 0.--1. " EXCEPTION0                        ,MMU 0 caused an exception and theGCREGMMUEXCEPTION0 holds the offending address: 0x1: SLAVE_NOT_PRESENT 0x2: PAGE_NOT_PRESENT 0x3: WRITE_VIOLATION" "0,1,2,3"
wgroup.long 0x18C++0x3
line.long 0x00 "GCREGMMUCONTROL,Control register that enables the MMU (one time shot)."
bitfld.long 0x00 0. " ENABLE                            ,Enable the MMU. For security reasons, once the MMU is enabled it cannot be disabled until reset." "0,1"
group.long 0x190++0x3
line.long 0x00 "GCREGMMUEXCEPTION0,Holds the original address that generated an exception"
hexmask.long 0x00 0.--31. 1. " ADDRESS                           ,The original address that generated an exception"
group.long 0x194++0x3
line.long 0x00 "GCREGMMUEXCEPTION1,Holds the original address that generated an exception"
hexmask.long 0x00 0.--31. 1. " ADDRESS                           ,The original address that generated an exception"
group.long 0x198++0x3
line.long 0x00 "GCREGMMUEXCEPTION2,Holds the original address that generated an exception"
hexmask.long 0x00 0.--31. 1. " ADDRESS                           ,The original address that generated an exception"
group.long 0x19C++0x3
line.long 0x00 "GCREGMMUEXCEPTION3,Holds the original address that generated an exception"
hexmask.long 0x00 0.--31. 1. " ADDRESS                           ,The original address that generated an exception"
group.long 0x414++0x3
line.long 0x00 "AQMEMORYDEBUG,"
bitfld.long 0x00 30. " DONT_STALL_WRITES_TO_SAME_ADDRESS ," "0,1"
bitfld.long 0x00 24.--29. "         ZCOMP_LIMIT                    ," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 23. "        DISABLE_WRITE_DATA_SPEEDUP            ," "0,1"
textline "                                           "
bitfld.long 0x00 22. " DISABLE_STALL_READS               ," "0,1"
bitfld.long 0x00 19. "         LIMIT_CONTROL                  ,Limit control 0: REQUESTS 1: DATA" "0,1"
bitfld.long 0x00 17. "         INTERLEAVE_BUFFER_LOW_LATENCY_MODE    ," "0,1"
textline "                                           "
bitfld.long 0x00 14. " DISABLE_MINI_MMU_CACHE            ," "0,1"
hexmask.long.byte 0x00 0.--7. 1. "         MAX_OUTSTANDING_READS          ,Limits the total number of outstanding read requests."
group.long 0x42C++0x3
line.long 0x00 "AQREGISTERTIMINGCONTROL,"
bitfld.long 0x00 22. " LIGHT_SLEEP                       ,Light sleep" "0,1"
bitfld.long 0x00 21. "         DEEP_SLEEP                     ,Deep sleep" "0,1"
bitfld.long 0x00 20. "         POWER_DOWN                            ,Powerdown memory" "0,1"
textline "                                           "
bitfld.long 0x00 18.--19. " FAST_WTC                          ,WTC for fast RAMs" "0,1,2,3"
bitfld.long 0x00 16.--17. "         FAST_RTC                       ,RTC for fast RAMs" "0,1,2,3"
hexmask.long.byte 0x00 8.--15. 1. "         FOR_RF2P                              ,"
textline "                                           "
hexmask.long.byte 0x00 0.--7. 1. " FOR_RF1P                          ,"
group.long 0x434++0x3
line.long 0x00 "GCDISPLAYPRIORITY,Controls the priority of the display controller requests. This works like a PWM. One register gives the period, and the other gives the ON time. When PWM is ON, display requests are accepted if both display and the other request is va..."
hexmask.long.byte 0x00 8.--15. 1. " HIGH                              ,'Duty cycle'"
hexmask.long.byte 0x00 0.--7. 1. "        PERIOD                         ,Period"
group.long 0x438++0x3
line.long 0x00 "GCDBGCYCLECOUNTER,Increments every cycle."
hexmask.long 0x00 0.--31. 1. " COUNT                             ,Increments every cycle"
rgroup.long 0x43C++0x3
line.long 0x00 "GCOUTSTANDINGREADS0,Number of outstanding reads per client in multiples of 8 bytes."
hexmask.long.byte 0x00 24.--31. 1. " MMU                               ,Number of outstanding MMU reads in multiples of 8 bytes"
hexmask.long.byte 0x00 16.--23. 1. "        FE                             ,Number of outstanding FE reads in multiples of 8 bytes"
hexmask.long.byte 0x00 8.--15. 1. "        PEZ                                   ,Number of outstanding PEZ reads in multiples of 8 bytes"
textline "                                           "
hexmask.long.byte 0x00 0.--7. 1. " PEC                               ,Number of outstanding PEC reads in multiples of 8 bytes"
rgroup.long 0x440++0x3
line.long 0x00 "GCOUTSTANDINGREADS1,Number of outstanding reads per client in multiples of 8 bytes."
hexmask.long.byte 0x00 24.--31. 1. " TOTAL                             ,This field keeps the value of total read requests or total requested data (in 64 bits) depending on the value ofAQMEMORYDEBUG[19] LIMIT_CONTROL register field."
hexmask.long.byte 0x00 16.--23. 1. "        FC                             ,Number of outstanding FC reads in multiples of 8 bytes"
hexmask.long.byte 0x00 8.--15. 1. "        TX                                    ,Number of outstanding TX reads in multiples of 8 bytes"
textline "                                           "
hexmask.long.byte 0x00 0.--7. 1. " RA                                ,Number of outstanding RA reads in multiples of 8 bytes"
rgroup.long 0x444++0x3
line.long 0x00 "GCOUTSTANDINGWRITES,Number of outstanding writes per client."
hexmask.long.byte 0x00 24.--31. 1. " TOTAL                             ,This field keeps the value of total write requests or total requested data (in 64 bits) depending on the value ofAQMEMORYDEBUG[19] LIMIT_CONTROL register field."
hexmask.long.byte 0x00 16.--23. 1. "        FC                             ,Number of outstanding FC writes in multiples of 8 bytes"
hexmask.long.byte 0x00 8.--15. 1. "        PEZ                                   ,Number of outstanding PEZ writes in multiples of 8 bytes"
textline "                                           "
hexmask.long.byte 0x00 0.--7. 1. " PEC                               ,Number of outstanding PEC writes in multiples of 8 bytes"
rgroup.long 0x448++0x3
line.long 0x00 "GCDEBUGSIGNALSRA,32 bit debug signal from RA."
hexmask.long 0x00 0.--31. 1. " SIGNAL                            ,Signals according toGCDEBUGCONTROL1[19:16] RA: 0x0: Valid pixel count. 0x1: Total quad count (after EEZ). 0x2: Valid quad count (after EZ and EEZ). 0x3: Total primitive count. 0x4: Various signals from input stage. S..."
rgroup.long 0x44C++0x3
line.long 0x00 "GCDEBUGSIGNALSTX,32 bit debug signal from TX."
hexmask.long 0x00 0.--31. 1. " SIGNAL                            ,Signals according toGCDEBUGCONTROL1[27:24] TX : 0x0: Total bilinear texture requests. 0x1: Total trilinear texture requests. 0x2: Total discarded texture requests. 0x3: Total texture requests. 0x4: Various signals fr..."
rgroup.long 0x450++0x3
line.long 0x00 "GCDEBUGSIGNALSFE,32 bit debug signal from FE."
hexmask.long 0x00 0.--31. 1. " SIGNAL                            ,"
rgroup.long 0x454++0x3
line.long 0x00 "GCDEBUGSIGNALSPE,32 bit debug signal from PE."
hexmask.long 0x00 0.--31. 1. " SIGNAL                            ,Signals according toGCDEBUGCONTROL0[19:16] PE: 0x0: pixel count killed by color pipe 0x1: pixel count killed by depth pipe 0x2: pixel count drawn by color pipe 0x3: pixel count drawn by depth pipe 0x4: debug signals ..."
rgroup.long 0x458++0x3
line.long 0x00 "GCDEBUGSIGNALSDE,32 bit debug signal from DE."
hexmask.long 0x00 0.--31. 1. " SIGNAL                            ,"
rgroup.long 0x45C++0x3
line.long 0x00 "GCDEBUGSIGNALSSH,32 bit debug signal from SH."
hexmask.long 0x00 0.--31. 1. " SIGNAL                            ,Signals according toGCDEBUGCONTROL0[27:24] SH. Please refer to GC320 spec for bit position information for all the signals 0x0 : interface signals for debug 0x1 : Instruction Sequencing and vertex input state machine..."
rgroup.long 0x460++0x3
line.long 0x00 "GCDEBUGSIGNALSPA,32 bit debug signal from PA."
hexmask.long 0x00 0.--31. 1. " SIGNAL                            ,Signals according toGCDEBUGCONTROL1[3:0] PA: 0x0: Various signals from input stage. See GC320 spec for details. 0x1: Various signals from input stage. See GC320 spec for details. 0x2: Various signals from input stage..."
rgroup.long 0x464++0x3
line.long 0x00 "GCDEBUGSIGNALSSE,32 bit debug signal from SE."
hexmask.long 0x00 0.--31. 1. " SIGNAL                            ,Signals according toGCDEBUGCONTROL1[11:8] SE: 0x0: culled triangles count. 0x1: culled lines count. 0x2: [31:18] goto signals, [17:8] main state machine state, [7:0] output state machine state. See GC320 spec for det..."
rgroup.long 0x468++0x3
line.long 0x00 "GCDEBUGSIGNALSMC,32 bit debug signal from MC."
hexmask.long 0x00 0.--31. 1. " SIGNAL                            ,Signals according toGCDEBUGCONTROL2[3:0] MC: 0x0: Various signals from FC block. See GC320 spec for details. 0x1: Total read req in terms of 8B from pipeline. 0x2: Total read req in terms of 8B sent out from the subs..."
rgroup.long 0x46C++0x3
line.long 0x00 "GCDEBUGSIGNALSHI,32 bit debug signal from HI."
hexmask.long 0x00 0.--31. 1. " SIGNAL                            ,Signals according toGCDEBUGCONTROL2[11:8] HI: 0x0: Number of cycles AXI read request is stalled. 0x1: Number of cycles AXI write request is stalled. 0x2: Number of cycles AXI write data is stalled. 0xF: Signature = 0..."
group.long 0x470++0x3
line.long 0x00 "GCDEBUGCONTROL0,"
bitfld.long 0x00 24.--27. " SH                                ,Selects which set of 32 bit data to get from SH. Resets the counters if set to 0xF" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "        PE                             ,Selects which set of 32 bit data to get from PE. Resets the counters if set to 0xF" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "        DE                                    ,Selects which set of 32 bit data to get from DE. Resets the counters if set to 0xF" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 0.--3. " FE                                ,Selects which set of 32 bit data to get from FE. Resets the counters if set to 0xF" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x474++0x3
line.long 0x00 "GCDEBUGCONTROL1,"
bitfld.long 0x00 24.--27. " TX                                ,Selects which set of 32 bit data to get from TX. Resets the counters if set to 0xF" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "        RA                             ,Selects which set of 32 bit data to get from RA. Resets the counters if set to 0xF" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "        SE                                    ,Selects which set of 32 bit data to get from SE. Resets the counters if set to 0xF" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                           "
bitfld.long 0x00 0.--3. " PA                                ,Selects which set of 32 bit data to get from PA. Resets the counters if set to 0xF" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x478++0x3
line.long 0x00 "GCDEBUGCONTROL2,"
bitfld.long 0x00 8.--11. " HI                                ,Selects which set of 32 bit data to get from HI. Resets the counters if set to 0xF" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "        MC                             ,Selects which set of 32 bit data to get from MC. Resets the counters if set to 0xF" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x47C++0x3
line.long 0x00 "GCDEBUGCONTROL3,"
bitfld.long 0x00 8.--11. " PROBE1                            ,Selects which module's output will be put in the MSB 32 bits of 64 bit debug signal. 0x0: FE 0x1: DE 0x2: PE 0x3: SH 0x4: PA 0x5: SE 0x6: RA 0x7: TX 0x8: MC" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "        PROBE0                         ,Selects which module's output will be put in the LSB 32 bits of 64 bit debug signal. 0x0: FE 0x1: DE 0x2: PE 0x3: SH 0x4: PA 0x5: SE 0x6: RA 0x7: TX 0x8: MC" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x480++0x3
line.long 0x00 "GCBUSCONTROL,Shows which features are enabled in the subsystem. 0 : NONE 1 : AVAILABLE"
bitfld.long 0x00 8. " FCC                               ,Select the return bus for FCC" "0,1"
bitfld.long 0x00 7. "         TX                             ,Select the return bus for TX" "0,1"
bitfld.long 0x00 6. "         FC                                    ,Select the return bus for FC-Depth" "0,1"
textline "                                           "
bitfld.long 0x00 5. " MMU                               ,Select the return bus for MMU" "0,1"
bitfld.long 0x00 3. "         FE                             ,Select the return bus for FE" "0,1"
bitfld.long 0x00 1. "         PEZ                                   ,Select the return bus for PEZ" "0,1"
textline "                                           "
bitfld.long 0x00 0. " PEC                               ,Select the return bus for PEC" "0,1"
group.long 0x484++0x3
line.long 0x00 "GCREGENDIANNESS0,"
hexmask.long 0x00 0.--31. 1. " WORD_SWAP                         ,Flip the words of 32 bit data. 0x12345678 becomes 0x56781234"
group.long 0x488++0x3
line.long 0x00 "GCREGENDIANNESS1,"
hexmask.long 0x00 0.--31. 1. " BYTE_SWAP                         ,Flip the bytes of 16 bit data. 0x12345678 becomes 0x34127856"
group.long 0x48C++0x3
line.long 0x00 "GCREGENDIANNESS2,"
hexmask.long 0x00 0.--31. 1. " BIT_SWAP                          ,Flip the bits of 8 bit data. 0x12345678 becomes 0x84C2A6E1"
rgroup.long 0x490++0x3
line.long 0x00 "GCREGDRAWPRIMITIVESTARTTIMESTAMP,"
hexmask.long 0x00 0.--31. 1. " START_TIME                        ,32-bit timestamp when PE received draw_primitive_start command"
rgroup.long 0x494++0x3
line.long 0x00 "GCREGDRAWPRIMITIVEENDTIMESTAMP,"
hexmask.long 0x00 0.--31. 1. " END_TIME                          ,32-bit timestamp when PE received draw_primitive_end command"
group.long 0x558++0x3
line.long 0x00 "GCREGCONTROL0,Composition trigger."
bitfld.long 0x00 26.--31. " MISC1                             ," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.word 0x00 16.--25. 1. "        OUTSTANDING_READS_PER_CHANNEL  ,"
hexmask.long.word 0x00 4.--15. 1. "      MISC0                                 ,"
textline "                                           "
bitfld.long 0x00 3. " ENABLE_UNALIGNED_WRITE_MERGE      ," "0,1"
bitfld.long 0x00 2. "         ENABLE_WRITE_MERGE             ," "0,1"
bitfld.long 0x00 1. "         ENABLE_UNALIGNED_MERGE                ," "0,1"
textline "                                           "
bitfld.long 0x00 0. " ENABLE_READ_MERGE                 ," "0,1"
wgroup.long 0x654++0x3
line.long 0x00 "AQCMDBUFFERADDR,Base address for the command buffer. The address must be 64-bit aligned and it is always physical. To use addresses above 0x8000_0000, program AQMemoryFE with the appropriate offset. Also, this register cannot be read. To check the valu..."
bitfld.long 0x00 31. " TYPE                              ,0: SYSTEM 1: VIRTUAL_SYSTEM" "0,1"
hexmask.long 0x00 0.--30. 1. "         ADDRESS                        ,ADDRESS"
wgroup.long 0x658++0x3
line.long 0x00 "AQCMDBUFFERCTRL,Command buffer control"
bitfld.long 0x00 20.--21. " ENDIAN_CONTROL                    ,Endian control 0: NO_SWAP 1: SWAP_WORD 2: SWAP_DWORD" "0,1,2,3"
bitfld.long 0x00 16. "         ENABLE                         ,Command buffer 0: DISABLE 1: ENABLE" "0,1"
hexmask.long.word 0x00 0.--15. 1. "         PREFETCH                              ,Number of 64-bit words to fetch from the command buffer."
rgroup.long 0x65C++0x3
line.long 0x00 "AQFESTATUS,FE status"
bitfld.long 0x00 0. " COMMAND_DATA                      ,Status of the command parser. 0: Idle 1: Busy" "0,1"
rgroup.long 0x664++0x3
line.long 0x00 "AQFEDEBUGCURCMDADR,This is the command decoder address. The address is always physical so the MSB should always be 0."
hexmask.long 0x00 3.--31. 1. " CUR_CMD_ADR                       ,"
width 0x0B
tree.end
tree.end
tree.open "Dynamic_Memory_Manager"
tree "DMM"
base ad:0x4E000000
tree "Channel_0"
width 22.
group.long 0x40++0x3
line.long 0x00 "DMM_LISA_MAP_i_0,DMM memory mapping register"
hexmask.long.byte 0x00 24.--31. 1. " SYS_ADDR     ,DMM system section address MSB for view mapping i"
bitfld.long 0x00 20.--22. "        SYS_SIZE  ,DMM system section size for view mapping i - . - . - . - . - . - . - . - ." "16-MiB_section,32-MiB_section,64-MiB_section,128-MiB_section,256-MiB_section,512-MiB_section,1-GiB_section,2-GiB_section"
bitfld.long 0x00 18.--19. "   SDRC_INTL ,SDRAM controller interleaving mode 0x0: No interleaving 0x1: 128-byte interleaving 0x2: 256-byte interleaving 0x3: 512-byte interleaving The 128-/256-/512-byte interleaving applies only to nontiled regions. If accesses are made to tiled r..." "0,1,2,3"
textline "                               "
bitfld.long 0x00 16.--17. " SDRC_ADDRSPC ,SDRAM controller address space for view mapping i" "0,1,2,3"
bitfld.long 0x00 8.--9. "         SDRC_MAP  ,SDRAM controller mapping for view mapping i 0x0: Unmapped 0x1: Mapped on EMIF1 only (not interleaved) 0x2: Mapped on EMIF2 only (not interleaved) 0x3: Mapped on EMIF1 and EMIF2 (interleaved) To enable interleaving, SDRC_MAP must be ..." "0,1,2,3"
hexmask.long.byte 0x00 0.--7. 1. "                 SDRC_ADDR ,SDRAM controller address MSB for view mapping i"
group.long 0x504++0x3
line.long 0x00 "DMM_PAT_AREA_i_0,Area definition for DMM physical address translator n = 0 for the area register of the first engine, n = 1 for the area register of the second engine."
hexmask.long.byte 0x00 24.--31. 1. " Y1           ,Y-coordinate of the bottom-right corner of the PAT area for engine n"
hexmask.long.byte 0x00 16.--23. 1. "        X1        ,X-coordinate of the bottom-right corner of the PAT area for engine n"
hexmask.long.byte 0x00 8.--15. 1. "                Y0        ,Y-coordinate of the top-left corner of the PAT area for engine n"
textline "                               "
hexmask.long.byte 0x00 0.--7. 1. " X0           ,X-coordinate of the top-left corner of the PAT area for engine n"
group.long 0x508++0x3
line.long 0x00 "DMM_PAT_CTRL_i_0,DMM physical address translator control register n = 0 for the control register of the first engine, n = 1 for the control register of the second engine."
bitfld.long 0x00 28.--31. " INITIATOR    ,DMM PAT initiator for synchronization in engine n" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16. "        SYNC      ,DMM PAT table reload synchronization for engine n - . - ." "Not_synchronized,Synchronized"
bitfld.long 0x00 4.--6. "  DIRECTION ,Direction of this PAT table refill for engine n" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 0. " START        ,Starting a PAT table refill with engine n" "0,1"
group.long 0x50C++0x3
line.long 0x00 "DMM_PAT_DATA_i_0,Physical address of the current table refill entry data n = 0 for the data register of the first engine, n = 1 for the data register of the second engine."
hexmask.long 0x00 4.--31. 1. " ADDR         ,Physical address of the current table refill entry data or single actual entry data when in manual mode for engine n"
group.long 0x500++0x3
line.long 0x00 "DMM_PAT_DESCR_i_0,Physical address of the next table refill descriptor n = 0 for the descriptor register of the first engine, n = 1 for the descriptor register of the second engine. Writing to this register aborts the current ongoing area reload and re..."
hexmask.long 0x00 4.--31. 1. " ADDR         ,Physical address of the next table refill descriptor of engine n"
rgroup.long 0x4C0++0x3
line.long 0x00 "DMM_PAT_STATUS_i_0,Status register for each refill engine n = 0 for the first engine status register, n = 1 for the second engine status register."
hexmask.long.word 0x00 16.--24. 1. " CNT          ,Counter of remaining lines to reload for engine n"
bitfld.long 0x00 10.--15. "      ERROR     ,Error happened in engine n - . - . - . - . - . - . - ." "No_error,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 7. "          BYPASSED  ,Engine n is bypassed. Direct access to the LUT is provided." "0,1"
textline "                               "
bitfld.long 0x00 4. " LINKED       ,Area reconfiguration link asserted for engine n" "0,1"
bitfld.long 0x00 3. "         DONE      ,Area reloading finished for engine n" "0,1"
bitfld.long 0x00 2. "                 RUN       ,Area currently reloading for engine n" "0,1"
textline "                               "
bitfld.long 0x00 1. " VALID        ,Valid area description for engine n" "0,1"
bitfld.long 0x00 0. "         READY     ,Area registers ready for engine n" "0,1"
group.long 0x440++0x3
line.long 0x00 "DMM_PAT_VIEW_MAP_i_0,PAT view mapping register"
bitfld.long 0x00 31. " ACCESS_PAGE  ,Kind of access for this page mode container in view mapping i - DIRECT. - LUT." "DIRECT,LUT"
bitfld.long 0x00 24.--26. "    CONT_PAGE ,Container for page mode in view mapping i" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 23. "                 ACCESS_32 ,Kind of access for this 32-bit mode container in view mapping i - DIRECT. - LUT." "DIRECT,LUT"
textline "                               "
bitfld.long 0x00 16.--18. " CONT_32      ,Container for 32-bit mode in view mapping i" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 15. "         ACCESS_16 ,Kind of access for this 16-bit mode container in view mapping i - DIRECT. - LUT." "DIRECT,LUT"
bitfld.long 0x00 8.--10. "            CONT_16   ,Container for 16-bit mode in view mapping i" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 7. " ACCESS_8     ,Kind of access for this 8-bit mode container in view mapping i - DIRECT. - LUT." "DIRECT,LUT"
bitfld.long 0x00 0.--2. "    CONT_8    ,Container for 8-bit mode in view mapping i" "0,1,2,3,4,5,6,7"
group.long 0x620++0x3
line.long 0x00 "DMM_PEG_PRIO_k_0,DMM PEG Priority register"
bitfld.long 0x00 31. " W7           ,Write-enable for P7 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 28.--30. "    P7        ,Priority for initiator ConnID = 8 ? k + 7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 27. "                 W6        ,Write-enable for P6 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
textline "                               "
bitfld.long 0x00 24.--26. " P6           ,Priority for initiator ConnID = 8 ? k + 6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 23. "         W5        ,Write-enable for P5 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 20.--22. "            P5        ,Priority for initiator ConnID = 8 ? k + 5" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 19. " W4           ,Write-enable for P4 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 16.--18. "    P4        ,Priority for initiator ConnID = 8 ? k + 4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 15. "                 W3        ,Write-enable for P3 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
textline "                               "
bitfld.long 0x00 12.--14. " P3           ,Priority for initiator ConnID = 8 ? k + 3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 11. "         W2        ,Write-enable for P2 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 8.--10. "            P2        ,Priority for initiator ConnID = 8 ? k + 2" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 7. " W1           ,Write-enable for P1 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 4.--6. "    P1        ,Priority for initiator ConnID = 8 ? k + 1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                 W0        ,Write-enable for P0 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
textline "                               "
bitfld.long 0x00 0.--2. " P0           ,Priority for initiator ConnID = 8 ? k" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 22.
group.long 0x44++0x3
line.long 0x00 "DMM_LISA_MAP_i_1,DMM memory mapping register"
hexmask.long.byte 0x00 24.--31. 1. " SYS_ADDR     ,DMM system section address MSB for view mapping i"
bitfld.long 0x00 20.--22. "        SYS_SIZE  ,DMM system section size for view mapping i - . - . - . - . - . - . - . - ." "16-MiB_section,32-MiB_section,64-MiB_section,128-MiB_section,256-MiB_section,512-MiB_section,1-GiB_section,2-GiB_section"
bitfld.long 0x00 18.--19. "   SDRC_INTL ,SDRAM controller interleaving mode 0x0: No interleaving 0x1: 128-byte interleaving 0x2: 256-byte interleaving 0x3: 512-byte interleaving The 128-/256-/512-byte interleaving applies only to nontiled regions. If accesses are made to tiled r..." "0,1,2,3"
textline "                               "
bitfld.long 0x00 16.--17. " SDRC_ADDRSPC ,SDRAM controller address space for view mapping i" "0,1,2,3"
bitfld.long 0x00 8.--9. "         SDRC_MAP  ,SDRAM controller mapping for view mapping i 0x0: Unmapped 0x1: Mapped on EMIF1 only (not interleaved) 0x2: Mapped on EMIF2 only (not interleaved) 0x3: Mapped on EMIF1 and EMIF2 (interleaved) To enable interleaving, SDRC_MAP must be ..." "0,1,2,3"
hexmask.long.byte 0x00 0.--7. 1. "                 SDRC_ADDR ,SDRAM controller address MSB for view mapping i"
group.long 0x514++0x3
line.long 0x00 "DMM_PAT_AREA_i_1,Area definition for DMM physical address translator n = 0 for the area register of the first engine, n = 1 for the area register of the second engine."
hexmask.long.byte 0x00 24.--31. 1. " Y1           ,Y-coordinate of the bottom-right corner of the PAT area for engine n"
hexmask.long.byte 0x00 16.--23. 1. "        X1        ,X-coordinate of the bottom-right corner of the PAT area for engine n"
hexmask.long.byte 0x00 8.--15. 1. "                Y0        ,Y-coordinate of the top-left corner of the PAT area for engine n"
textline "                               "
hexmask.long.byte 0x00 0.--7. 1. " X0           ,X-coordinate of the top-left corner of the PAT area for engine n"
group.long 0x518++0x3
line.long 0x00 "DMM_PAT_CTRL_i_1,DMM physical address translator control register n = 0 for the control register of the first engine, n = 1 for the control register of the second engine."
bitfld.long 0x00 28.--31. " INITIATOR    ,DMM PAT initiator for synchronization in engine n" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16. "        SYNC      ,DMM PAT table reload synchronization for engine n - . - ." "Not_synchronized,Synchronized"
bitfld.long 0x00 4.--6. "  DIRECTION ,Direction of this PAT table refill for engine n" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 0. " START        ,Starting a PAT table refill with engine n" "0,1"
group.long 0x51C++0x3
line.long 0x00 "DMM_PAT_DATA_i_1,Physical address of the current table refill entry data n = 0 for the data register of the first engine, n = 1 for the data register of the second engine."
hexmask.long 0x00 4.--31. 1. " ADDR         ,Physical address of the current table refill entry data or single actual entry data when in manual mode for engine n"
group.long 0x510++0x3
line.long 0x00 "DMM_PAT_DESCR_i_1,Physical address of the next table refill descriptor n = 0 for the descriptor register of the first engine, n = 1 for the descriptor register of the second engine. Writing to this register aborts the current ongoing area reload and re..."
hexmask.long 0x00 4.--31. 1. " ADDR         ,Physical address of the next table refill descriptor of engine n"
rgroup.long 0x4C4++0x3
line.long 0x00 "DMM_PAT_STATUS_i_1,Status register for each refill engine n = 0 for the first engine status register, n = 1 for the second engine status register."
hexmask.long.word 0x00 16.--24. 1. " CNT          ,Counter of remaining lines to reload for engine n"
bitfld.long 0x00 10.--15. "      ERROR     ,Error happened in engine n - . - . - . - . - . - . - ." "No_error,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 7. "          BYPASSED  ,Engine n is bypassed. Direct access to the LUT is provided." "0,1"
textline "                               "
bitfld.long 0x00 4. " LINKED       ,Area reconfiguration link asserted for engine n" "0,1"
bitfld.long 0x00 3. "         DONE      ,Area reloading finished for engine n" "0,1"
bitfld.long 0x00 2. "                 RUN       ,Area currently reloading for engine n" "0,1"
textline "                               "
bitfld.long 0x00 1. " VALID        ,Valid area description for engine n" "0,1"
bitfld.long 0x00 0. "         READY     ,Area registers ready for engine n" "0,1"
group.long 0x444++0x3
line.long 0x00 "DMM_PAT_VIEW_MAP_i_1,PAT view mapping register"
bitfld.long 0x00 31. " ACCESS_PAGE  ,Kind of access for this page mode container in view mapping i - DIRECT. - LUT." "DIRECT,LUT"
bitfld.long 0x00 24.--26. "    CONT_PAGE ,Container for page mode in view mapping i" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 23. "                 ACCESS_32 ,Kind of access for this 32-bit mode container in view mapping i - DIRECT. - LUT." "DIRECT,LUT"
textline "                               "
bitfld.long 0x00 16.--18. " CONT_32      ,Container for 32-bit mode in view mapping i" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 15. "         ACCESS_16 ,Kind of access for this 16-bit mode container in view mapping i - DIRECT. - LUT." "DIRECT,LUT"
bitfld.long 0x00 8.--10. "            CONT_16   ,Container for 16-bit mode in view mapping i" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 7. " ACCESS_8     ,Kind of access for this 8-bit mode container in view mapping i - DIRECT. - LUT." "DIRECT,LUT"
bitfld.long 0x00 0.--2. "    CONT_8    ,Container for 8-bit mode in view mapping i" "0,1,2,3,4,5,6,7"
group.long 0x624++0x3
line.long 0x00 "DMM_PEG_PRIO_k_1,DMM PEG Priority register"
bitfld.long 0x00 31. " W7           ,Write-enable for P7 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 28.--30. "    P7        ,Priority for initiator ConnID = 8 ? k + 7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 27. "                 W6        ,Write-enable for P6 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
textline "                               "
bitfld.long 0x00 24.--26. " P6           ,Priority for initiator ConnID = 8 ? k + 6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 23. "         W5        ,Write-enable for P5 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 20.--22. "            P5        ,Priority for initiator ConnID = 8 ? k + 5" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 19. " W4           ,Write-enable for P4 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 16.--18. "    P4        ,Priority for initiator ConnID = 8 ? k + 4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 15. "                 W3        ,Write-enable for P3 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
textline "                               "
bitfld.long 0x00 12.--14. " P3           ,Priority for initiator ConnID = 8 ? k + 3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 11. "         W2        ,Write-enable for P2 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 8.--10. "            P2        ,Priority for initiator ConnID = 8 ? k + 2" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 7. " W1           ,Write-enable for P1 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 4.--6. "    P1        ,Priority for initiator ConnID = 8 ? k + 1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                 W0        ,Write-enable for P0 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
textline "                               "
bitfld.long 0x00 0.--2. " P0           ,Priority for initiator ConnID = 8 ? k" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 22.
group.long 0x48++0x3
line.long 0x00 "DMM_LISA_MAP_i_2,DMM memory mapping register"
hexmask.long.byte 0x00 24.--31. 1. " SYS_ADDR     ,DMM system section address MSB for view mapping i"
bitfld.long 0x00 20.--22. "        SYS_SIZE  ,DMM system section size for view mapping i - . - . - . - . - . - . - . - ." "16-MiB_section,32-MiB_section,64-MiB_section,128-MiB_section,256-MiB_section,512-MiB_section,1-GiB_section,2-GiB_section"
bitfld.long 0x00 18.--19. "   SDRC_INTL ,SDRAM controller interleaving mode 0x0: No interleaving 0x1: 128-byte interleaving 0x2: 256-byte interleaving 0x3: 512-byte interleaving The 128-/256-/512-byte interleaving applies only to nontiled regions. If accesses are made to tiled r..." "0,1,2,3"
textline "                               "
bitfld.long 0x00 16.--17. " SDRC_ADDRSPC ,SDRAM controller address space for view mapping i" "0,1,2,3"
bitfld.long 0x00 8.--9. "         SDRC_MAP  ,SDRAM controller mapping for view mapping i 0x0: Unmapped 0x1: Mapped on EMIF1 only (not interleaved) 0x2: Mapped on EMIF2 only (not interleaved) 0x3: Mapped on EMIF1 and EMIF2 (interleaved) To enable interleaving, SDRC_MAP must be ..." "0,1,2,3"
hexmask.long.byte 0x00 0.--7. 1. "                 SDRC_ADDR ,SDRAM controller address MSB for view mapping i"
group.long 0x524++0x3
line.long 0x00 "DMM_PAT_AREA_i_2,Area definition for DMM physical address translator n = 0 for the area register of the first engine, n = 1 for the area register of the second engine."
hexmask.long.byte 0x00 24.--31. 1. " Y1           ,Y-coordinate of the bottom-right corner of the PAT area for engine n"
hexmask.long.byte 0x00 16.--23. 1. "        X1        ,X-coordinate of the bottom-right corner of the PAT area for engine n"
hexmask.long.byte 0x00 8.--15. 1. "                Y0        ,Y-coordinate of the top-left corner of the PAT area for engine n"
textline "                               "
hexmask.long.byte 0x00 0.--7. 1. " X0           ,X-coordinate of the top-left corner of the PAT area for engine n"
group.long 0x528++0x3
line.long 0x00 "DMM_PAT_CTRL_i_2,DMM physical address translator control register n = 0 for the control register of the first engine, n = 1 for the control register of the second engine."
bitfld.long 0x00 28.--31. " INITIATOR    ,DMM PAT initiator for synchronization in engine n" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16. "        SYNC      ,DMM PAT table reload synchronization for engine n - . - ." "Not_synchronized,Synchronized"
bitfld.long 0x00 4.--6. "  DIRECTION ,Direction of this PAT table refill for engine n" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 0. " START        ,Starting a PAT table refill with engine n" "0,1"
group.long 0x52C++0x3
line.long 0x00 "DMM_PAT_DATA_i_2,Physical address of the current table refill entry data n = 0 for the data register of the first engine, n = 1 for the data register of the second engine."
hexmask.long 0x00 4.--31. 1. " ADDR         ,Physical address of the current table refill entry data or single actual entry data when in manual mode for engine n"
group.long 0x520++0x3
line.long 0x00 "DMM_PAT_DESCR_i_2,Physical address of the next table refill descriptor n = 0 for the descriptor register of the first engine, n = 1 for the descriptor register of the second engine. Writing to this register aborts the current ongoing area reload and re..."
hexmask.long 0x00 4.--31. 1. " ADDR         ,Physical address of the next table refill descriptor of engine n"
rgroup.long 0x4C8++0x3
line.long 0x00 "DMM_PAT_STATUS_i_2,Status register for each refill engine n = 0 for the first engine status register, n = 1 for the second engine status register."
hexmask.long.word 0x00 16.--24. 1. " CNT          ,Counter of remaining lines to reload for engine n"
bitfld.long 0x00 10.--15. "      ERROR     ,Error happened in engine n - . - . - . - . - . - . - ." "No_error,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 7. "          BYPASSED  ,Engine n is bypassed. Direct access to the LUT is provided." "0,1"
textline "                               "
bitfld.long 0x00 4. " LINKED       ,Area reconfiguration link asserted for engine n" "0,1"
bitfld.long 0x00 3. "         DONE      ,Area reloading finished for engine n" "0,1"
bitfld.long 0x00 2. "                 RUN       ,Area currently reloading for engine n" "0,1"
textline "                               "
bitfld.long 0x00 1. " VALID        ,Valid area description for engine n" "0,1"
bitfld.long 0x00 0. "         READY     ,Area registers ready for engine n" "0,1"
group.long 0x448++0x3
line.long 0x00 "DMM_PAT_VIEW_MAP_i_2,PAT view mapping register"
bitfld.long 0x00 31. " ACCESS_PAGE  ,Kind of access for this page mode container in view mapping i - DIRECT. - LUT." "DIRECT,LUT"
bitfld.long 0x00 24.--26. "    CONT_PAGE ,Container for page mode in view mapping i" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 23. "                 ACCESS_32 ,Kind of access for this 32-bit mode container in view mapping i - DIRECT. - LUT." "DIRECT,LUT"
textline "                               "
bitfld.long 0x00 16.--18. " CONT_32      ,Container for 32-bit mode in view mapping i" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 15. "         ACCESS_16 ,Kind of access for this 16-bit mode container in view mapping i - DIRECT. - LUT." "DIRECT,LUT"
bitfld.long 0x00 8.--10. "            CONT_16   ,Container for 16-bit mode in view mapping i" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 7. " ACCESS_8     ,Kind of access for this 8-bit mode container in view mapping i - DIRECT. - LUT." "DIRECT,LUT"
bitfld.long 0x00 0.--2. "    CONT_8    ,Container for 8-bit mode in view mapping i" "0,1,2,3,4,5,6,7"
group.long 0x628++0x3
line.long 0x00 "DMM_PEG_PRIO_k_2,DMM PEG Priority register"
bitfld.long 0x00 31. " W7           ,Write-enable for P7 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 28.--30. "    P7        ,Priority for initiator ConnID = 8 ? k + 7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 27. "                 W6        ,Write-enable for P6 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
textline "                               "
bitfld.long 0x00 24.--26. " P6           ,Priority for initiator ConnID = 8 ? k + 6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 23. "         W5        ,Write-enable for P5 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 20.--22. "            P5        ,Priority for initiator ConnID = 8 ? k + 5" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 19. " W4           ,Write-enable for P4 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 16.--18. "    P4        ,Priority for initiator ConnID = 8 ? k + 4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 15. "                 W3        ,Write-enable for P3 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
textline "                               "
bitfld.long 0x00 12.--14. " P3           ,Priority for initiator ConnID = 8 ? k + 3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 11. "         W2        ,Write-enable for P2 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 8.--10. "            P2        ,Priority for initiator ConnID = 8 ? k + 2" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 7. " W1           ,Write-enable for P1 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 4.--6. "    P1        ,Priority for initiator ConnID = 8 ? k + 1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                 W0        ,Write-enable for P0 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
textline "                               "
bitfld.long 0x00 0.--2. " P0           ,Priority for initiator ConnID = 8 ? k" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 22.
group.long 0x4C++0x3
line.long 0x00 "DMM_LISA_MAP_i_3,DMM memory mapping register"
hexmask.long.byte 0x00 24.--31. 1. " SYS_ADDR     ,DMM system section address MSB for view mapping i"
bitfld.long 0x00 20.--22. "        SYS_SIZE  ,DMM system section size for view mapping i - . - . - . - . - . - . - . - ." "16-MiB_section,32-MiB_section,64-MiB_section,128-MiB_section,256-MiB_section,512-MiB_section,1-GiB_section,2-GiB_section"
bitfld.long 0x00 18.--19. "   SDRC_INTL ,SDRAM controller interleaving mode 0x0: No interleaving 0x1: 128-byte interleaving 0x2: 256-byte interleaving 0x3: 512-byte interleaving The 128-/256-/512-byte interleaving applies only to nontiled regions. If accesses are made to tiled r..." "0,1,2,3"
textline "                               "
bitfld.long 0x00 16.--17. " SDRC_ADDRSPC ,SDRAM controller address space for view mapping i" "0,1,2,3"
bitfld.long 0x00 8.--9. "         SDRC_MAP  ,SDRAM controller mapping for view mapping i 0x0: Unmapped 0x1: Mapped on EMIF1 only (not interleaved) 0x2: Mapped on EMIF2 only (not interleaved) 0x3: Mapped on EMIF1 and EMIF2 (interleaved) To enable interleaving, SDRC_MAP must be ..." "0,1,2,3"
hexmask.long.byte 0x00 0.--7. 1. "                 SDRC_ADDR ,SDRAM controller address MSB for view mapping i"
group.long 0x534++0x3
line.long 0x00 "DMM_PAT_AREA_i_3,Area definition for DMM physical address translator n = 0 for the area register of the first engine, n = 1 for the area register of the second engine."
hexmask.long.byte 0x00 24.--31. 1. " Y1           ,Y-coordinate of the bottom-right corner of the PAT area for engine n"
hexmask.long.byte 0x00 16.--23. 1. "        X1        ,X-coordinate of the bottom-right corner of the PAT area for engine n"
hexmask.long.byte 0x00 8.--15. 1. "                Y0        ,Y-coordinate of the top-left corner of the PAT area for engine n"
textline "                               "
hexmask.long.byte 0x00 0.--7. 1. " X0           ,X-coordinate of the top-left corner of the PAT area for engine n"
group.long 0x538++0x3
line.long 0x00 "DMM_PAT_CTRL_i_3,DMM physical address translator control register n = 0 for the control register of the first engine, n = 1 for the control register of the second engine."
bitfld.long 0x00 28.--31. " INITIATOR    ,DMM PAT initiator for synchronization in engine n" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16. "        SYNC      ,DMM PAT table reload synchronization for engine n - . - ." "Not_synchronized,Synchronized"
bitfld.long 0x00 4.--6. "  DIRECTION ,Direction of this PAT table refill for engine n" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 0. " START        ,Starting a PAT table refill with engine n" "0,1"
group.long 0x53C++0x3
line.long 0x00 "DMM_PAT_DATA_i_3,Physical address of the current table refill entry data n = 0 for the data register of the first engine, n = 1 for the data register of the second engine."
hexmask.long 0x00 4.--31. 1. " ADDR         ,Physical address of the current table refill entry data or single actual entry data when in manual mode for engine n"
group.long 0x530++0x3
line.long 0x00 "DMM_PAT_DESCR_i_3,Physical address of the next table refill descriptor n = 0 for the descriptor register of the first engine, n = 1 for the descriptor register of the second engine. Writing to this register aborts the current ongoing area reload and re..."
hexmask.long 0x00 4.--31. 1. " ADDR         ,Physical address of the next table refill descriptor of engine n"
rgroup.long 0x4CC++0x3
line.long 0x00 "DMM_PAT_STATUS_i_3,Status register for each refill engine n = 0 for the first engine status register, n = 1 for the second engine status register."
hexmask.long.word 0x00 16.--24. 1. " CNT          ,Counter of remaining lines to reload for engine n"
bitfld.long 0x00 10.--15. "      ERROR     ,Error happened in engine n - . - . - . - . - . - . - ." "No_error,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 7. "          BYPASSED  ,Engine n is bypassed. Direct access to the LUT is provided." "0,1"
textline "                               "
bitfld.long 0x00 4. " LINKED       ,Area reconfiguration link asserted for engine n" "0,1"
bitfld.long 0x00 3. "         DONE      ,Area reloading finished for engine n" "0,1"
bitfld.long 0x00 2. "                 RUN       ,Area currently reloading for engine n" "0,1"
textline "                               "
bitfld.long 0x00 1. " VALID        ,Valid area description for engine n" "0,1"
bitfld.long 0x00 0. "         READY     ,Area registers ready for engine n" "0,1"
group.long 0x44C++0x3
line.long 0x00 "DMM_PAT_VIEW_MAP_i_3,PAT view mapping register"
bitfld.long 0x00 31. " ACCESS_PAGE  ,Kind of access for this page mode container in view mapping i - DIRECT. - LUT." "DIRECT,LUT"
bitfld.long 0x00 24.--26. "    CONT_PAGE ,Container for page mode in view mapping i" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 23. "                 ACCESS_32 ,Kind of access for this 32-bit mode container in view mapping i - DIRECT. - LUT." "DIRECT,LUT"
textline "                               "
bitfld.long 0x00 16.--18. " CONT_32      ,Container for 32-bit mode in view mapping i" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 15. "         ACCESS_16 ,Kind of access for this 16-bit mode container in view mapping i - DIRECT. - LUT." "DIRECT,LUT"
bitfld.long 0x00 8.--10. "            CONT_16   ,Container for 16-bit mode in view mapping i" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 7. " ACCESS_8     ,Kind of access for this 8-bit mode container in view mapping i - DIRECT. - LUT." "DIRECT,LUT"
bitfld.long 0x00 0.--2. "    CONT_8    ,Container for 8-bit mode in view mapping i" "0,1,2,3,4,5,6,7"
group.long 0x62C++0x3
line.long 0x00 "DMM_PEG_PRIO_k_3,DMM PEG Priority register"
bitfld.long 0x00 31. " W7           ,Write-enable for P7 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 28.--30. "    P7        ,Priority for initiator ConnID = 8 ? k + 7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 27. "                 W6        ,Write-enable for P6 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
textline "                               "
bitfld.long 0x00 24.--26. " P6           ,Priority for initiator ConnID = 8 ? k + 6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 23. "         W5        ,Write-enable for P5 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 20.--22. "            P5        ,Priority for initiator ConnID = 8 ? k + 5" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 19. " W4           ,Write-enable for P4 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 16.--18. "    P4        ,Priority for initiator ConnID = 8 ? k + 4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 15. "                 W3        ,Write-enable for P3 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
textline "                               "
bitfld.long 0x00 12.--14. " P3           ,Priority for initiator ConnID = 8 ? k + 3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 11. "         W2        ,Write-enable for P2 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 8.--10. "            P2        ,Priority for initiator ConnID = 8 ? k + 2" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 7. " W1           ,Write-enable for P1 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 4.--6. "    P1        ,Priority for initiator ConnID = 8 ? k + 1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                 W0        ,Write-enable for P0 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
textline "                               "
bitfld.long 0x00 0.--2. " P0           ,Priority for initiator ConnID = 8 ? k" "0,1,2,3,4,5,6,7"
group.long 0x630++0x3
line.long 0x00 "DMM_PEG_PRIO_k_4,DMM PEG Priority register"
bitfld.long 0x00 31. " W7           ,Write-enable for P7 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 28.--30. "    P7        ,Priority for initiator ConnID = 8 ? k + 7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 27. "                 W6        ,Write-enable for P6 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
textline "                               "
bitfld.long 0x00 24.--26. " P6           ,Priority for initiator ConnID = 8 ? k + 6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 23. "         W5        ,Write-enable for P5 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 20.--22. "            P5        ,Priority for initiator ConnID = 8 ? k + 5" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 19. " W4           ,Write-enable for P4 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 16.--18. "    P4        ,Priority for initiator ConnID = 8 ? k + 4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 15. "                 W3        ,Write-enable for P3 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
textline "                               "
bitfld.long 0x00 12.--14. " P3           ,Priority for initiator ConnID = 8 ? k + 3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 11. "         W2        ,Write-enable for P2 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 8.--10. "            P2        ,Priority for initiator ConnID = 8 ? k + 2" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 7. " W1           ,Write-enable for P1 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 4.--6. "    P1        ,Priority for initiator ConnID = 8 ? k + 1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                 W0        ,Write-enable for P0 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
textline "                               "
bitfld.long 0x00 0.--2. " P0           ,Priority for initiator ConnID = 8 ? k" "0,1,2,3,4,5,6,7"
group.long 0x634++0x3
line.long 0x00 "DMM_PEG_PRIO_k_5,DMM PEG Priority register"
bitfld.long 0x00 31. " W7           ,Write-enable for P7 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 28.--30. "    P7        ,Priority for initiator ConnID = 8 ? k + 7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 27. "                 W6        ,Write-enable for P6 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
textline "                               "
bitfld.long 0x00 24.--26. " P6           ,Priority for initiator ConnID = 8 ? k + 6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 23. "         W5        ,Write-enable for P5 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 20.--22. "            P5        ,Priority for initiator ConnID = 8 ? k + 5" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 19. " W4           ,Write-enable for P4 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 16.--18. "    P4        ,Priority for initiator ConnID = 8 ? k + 4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 15. "                 W3        ,Write-enable for P3 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
textline "                               "
bitfld.long 0x00 12.--14. " P3           ,Priority for initiator ConnID = 8 ? k + 3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 11. "         W2        ,Write-enable for P2 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 8.--10. "            P2        ,Priority for initiator ConnID = 8 ? k + 2" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 7. " W1           ,Write-enable for P1 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 4.--6. "    P1        ,Priority for initiator ConnID = 8 ? k + 1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                 W0        ,Write-enable for P0 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
textline "                               "
bitfld.long 0x00 0.--2. " P0           ,Priority for initiator ConnID = 8 ? k" "0,1,2,3,4,5,6,7"
group.long 0x638++0x3
line.long 0x00 "DMM_PEG_PRIO_k_6,DMM PEG Priority register"
bitfld.long 0x00 31. " W7           ,Write-enable for P7 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 28.--30. "    P7        ,Priority for initiator ConnID = 8 ? k + 7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 27. "                 W6        ,Write-enable for P6 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
textline "                               "
bitfld.long 0x00 24.--26. " P6           ,Priority for initiator ConnID = 8 ? k + 6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 23. "         W5        ,Write-enable for P5 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 20.--22. "            P5        ,Priority for initiator ConnID = 8 ? k + 5" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 19. " W4           ,Write-enable for P4 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 16.--18. "    P4        ,Priority for initiator ConnID = 8 ? k + 4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 15. "                 W3        ,Write-enable for P3 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
textline "                               "
bitfld.long 0x00 12.--14. " P3           ,Priority for initiator ConnID = 8 ? k + 3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 11. "         W2        ,Write-enable for P2 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 8.--10. "            P2        ,Priority for initiator ConnID = 8 ? k + 2" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 7. " W1           ,Write-enable for P1 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 4.--6. "    P1        ,Priority for initiator ConnID = 8 ? k + 1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                 W0        ,Write-enable for P0 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
textline "                               "
bitfld.long 0x00 0.--2. " P0           ,Priority for initiator ConnID = 8 ? k" "0,1,2,3,4,5,6,7"
group.long 0x63C++0x3
line.long 0x00 "DMM_PEG_PRIO_k_7,DMM PEG Priority register"
bitfld.long 0x00 31. " W7           ,Write-enable for P7 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 28.--30. "    P7        ,Priority for initiator ConnID = 8 ? k + 7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 27. "                 W6        ,Write-enable for P6 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
textline "                               "
bitfld.long 0x00 24.--26. " P6           ,Priority for initiator ConnID = 8 ? k + 6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 23. "         W5        ,Write-enable for P5 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 20.--22. "            P5        ,Priority for initiator ConnID = 8 ? k + 5" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 19. " W4           ,Write-enable for P4 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 16.--18. "    P4        ,Priority for initiator ConnID = 8 ? k + 4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 15. "                 W3        ,Write-enable for P3 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
textline "                               "
bitfld.long 0x00 12.--14. " P3           ,Priority for initiator ConnID = 8 ? k + 3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 11. "         W2        ,Write-enable for P2 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 8.--10. "            P2        ,Priority for initiator ConnID = 8 ? k + 2" "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 7. " W1           ,Write-enable for P1 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
bitfld.long 0x00 4.--6. "    P1        ,Priority for initiator ConnID = 8 ? k + 1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                 W0        ,Write-enable for P0 bit field - KEEP. - UPDATE." "KEEP,UPDATE"
textline "                               "
bitfld.long 0x00 0.--2. " P0           ,Priority for initiator ConnID = 8 ? k" "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "DMM_REVISION,DMM revision number"
hexmask.long 0x00 0.--31. 1. " REVISION      ,Revision number"
rgroup.long 0x4++0x3
line.long 0x00 "DMM_HWINFO,DMM hardware configuration"
bitfld.long 0x00 8.--11. " SDRC_CNT      ,Number of attached SDRAM controllers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--4. "          SECTION_CNT   ,Number of DMM sections" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rgroup.long 0x8++0x3
line.long 0x00 "DMM_LISA_HWINFO,DMM hardware configuration for LISA"
bitfld.long 0x00 8.--11. " SDRC_CNT      ,Number of attached SDRAM controllers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--4. "          SECTION_CNT   ,Number of DMM sections" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x10++0x3
line.long 0x00 "DMM_SYSCONFIG,DMM clock management configuration"
bitfld.long 0x00 2.--3. " IDLE_MODE     ,Configuration of the local target state management mode. - FORCE_IDLE. - NO_IDLE. - SMART. - RESERVED3." "FORCE_IDLE,NO_IDLE,SMART,RESERVED3"
group.long 0x1C++0x3
line.long 0x00 "DMM_LISA_LOCK,DMM memory mapping lock"
bitfld.long 0x00 0. " LOCK          ,DMM lock map - UNLOCKED. - UNLOCKED. - LOCKED. - LOCKED." "UNLOCKED,LOCKED"
group.long 0x20++0x3
line.long 0x00 "DMM_EMERGENCY,DMM memory mapping register"
bitfld.long 0x00 16.--20. " WEIGHT        ,Weight for the LISA arbitration when any bit of the vector Mflag[63:0] is set. - The recommendation is to set this field to 0x8 with ENABLE =1, after reset. . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.word 0x00 1.--15. 1. "          Reserved      ,Reserved"
bitfld.long 0x00 0. "     ENABLE        ,0: Emergency feature is disabled. - UNLOCKED. - The recommendation is to enable the feature (=1) after reset. . - UNLOCKED." "0,UNLOCKED"
rgroup.long 0x208++0x3
line.long 0x00 "DMM_TILER_HWINFO,DMM hardware configuration for TILER"
hexmask.long.byte 0x00 0.--6. 1. " OR_CNT        ,Number of TILER orientation entries - 4. - 32. - 64. - 2. - 1. - 8. - 16."
group.long 0x220++0x3
line.long 0x00 "DMM_TILER_OR0,DMM TILER orientation (initiators 0 to 7)"
bitfld.long 0x00 31. " W7            ,Write-enable for OR7 bit field - . - ." "0,1"
bitfld.long 0x00 28.--30. "           OR7           ,Orientation for initiator 7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 27. "        W6            ,Write-enable for OR6 bit field - . - ." "0,1"
textline "                                "
bitfld.long 0x00 24.--26. " OR6           ,Orientation for initiator 6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 23. "           W5            ,Write-enable for OR5 bit field - . - ." "0,1"
bitfld.long 0x00 20.--22. "        OR5           ,Orientation for initiator 5" "0,1,2,3,4,5,6,7"
textline "                                "
bitfld.long 0x00 19. " W4            ,Write-enable for OR4 bit field - . - ." "0,1"
bitfld.long 0x00 16.--18. "           OR4           ,Orientation for initiator 4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 15. "        W3            ,Write-enable for OR3 bit field - . - ." "0,1"
textline "                                "
bitfld.long 0x00 12.--14. " OR3           ,Orientation for initiator 3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 11. "           W2            ,Write-enable for OR2 bit field - . - ." "0,1"
bitfld.long 0x00 8.--10. "        OR2           ,Orientation for initiator 2" "0,1,2,3,4,5,6,7"
textline "                                "
bitfld.long 0x00 7. " W1            ,Write-enable for OR1 bit field - . - ." "0,1"
bitfld.long 0x00 4.--6. "           OR1           ,Orientation for initiator 1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "        W0            ,Write-enable for OR0 bit field - . - ." "0,1"
textline "                                "
bitfld.long 0x00 0.--2. " OR0           ,Orientation for initiator 0" "0,1,2,3,4,5,6,7"
group.long 0x224++0x3
line.long 0x00 "DMM_TILER_OR1,DMM TILER orientation (initiators 8 to 15)"
bitfld.long 0x00 31. " W15           ,Write-enable for OR15 bit field - . - ." "0,1"
bitfld.long 0x00 28.--30. "           OR15          ,Orientation for initiator 15" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 27. "        W14           ,Write-enable for OR14 bit field - . - ." "0,1"
textline "                                "
bitfld.long 0x00 24.--26. " OR14          ,Orientation for initiator 14" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 23. "           W13           ,Write-enable for OR13 bit field - . - ." "0,1"
bitfld.long 0x00 20.--22. "        OR13          ,Orientation for initiator 13" "0,1,2,3,4,5,6,7"
textline "                                "
bitfld.long 0x00 19. " W12           ,Write-enable for OR12 bit field - . - ." "0,1"
bitfld.long 0x00 16.--18. "           OR12          ,Orientation for initiator 12" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 15. "        W11           ,Write-enable for OR11 bit field - . - ." "0,1"
textline "                                "
bitfld.long 0x00 12.--14. " OR11          ,Orientation for initiator 11" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 11. "           W10           ,Write-enable for OR10 bit field - . - ." "0,1"
bitfld.long 0x00 8.--10. "        OR10          ,Orientation for initiator 10" "0,1,2,3,4,5,6,7"
textline "                                "
bitfld.long 0x00 7. " W9            ,Write-enable for OR9 bit field - . - ." "0,1"
bitfld.long 0x00 4.--6. "           OR9           ,Orientation for initiator 9" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "        W8            ,Write-enable for OR8 bit field - . - ." "0,1"
textline "                                "
bitfld.long 0x00 0.--2. " OR8           ,Orientation for initiator 8" "0,1,2,3,4,5,6,7"
rgroup.long 0x408++0x3
line.long 0x00 "DMM_PAT_HWINFO,DMM hardware configuration for PAT"
bitfld.long 0x00 24.--28. " ENGINE_CNT    ,Number of PAT refill engines" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "          LUT_CNT       ,Number of PAT LUT for page-grained physical address translation" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--11. "       VIEW_MAP_CNT  ,Number of internal PAT view mappings. - 1. - 2. - 4. - 8." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                "
hexmask.long.byte 0x00 0.--6. 1. " VIEW_CNT      ,Number of PAT view entries - 1. - 2. - 4. - 8. - 16. - 32. - 64."
rgroup.long 0x40C++0x3
line.long 0x00 "DMM_PAT_GEOMETRY,PAT geometry-related settings"
bitfld.long 0x00 24.--26. " CONT_HGHT     ,Container height in pages - 32. - 64. - 128. - 256." "0,32,64,3,128,5,6,7"
bitfld.long 0x00 16.--19. "         CONT_WDTH     ,Container width in pages - 64. - 128. - 256." "0,1,64,3,128,5,6,7,256,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--13. "      ADDR_RANGE    ,PAT output physical address range - 128MB. - 256MB. - 512MB. - 1GB. - 2GB. - 4GB." "0,128MB,256MB,3,512MB,5,6,7,1GB,9,10,11,12,13,14,15,2GB,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,4GB,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                "
bitfld.long 0x00 0.--4. " PAGE_SZ       ,Page size in 4-kiB granularity - 4KB. - 16KB. - 64KB." "0,4KB,2,3,16KB,5,6,7,8,9,10,11,12,13,14,15,64KB,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x410++0x3
line.long 0x00 "DMM_PAT_CONFIG,This is the PAT configuration register aimed at defining the major PAT configuration of each refill engine."
bitfld.long 0x00 3. " MODE3         ,Mode of refill engine 3 - PROG. - BYPASS." "PROG,BYPASS"
bitfld.long 0x00 2. "      MODE2         ,Mode of refill engine 2 - PROG. - BYPASS." "PROG,BYPASS"
bitfld.long 0x00 1. "   MODE1         ,Mode of refill engine 1 - PROG. - BYPASS." "PROG,BYPASS"
textline "                                "
bitfld.long 0x00 0. " MODE0         ,Mode of refill engine 0 - PROG. - BYPASS." "PROG,BYPASS"
group.long 0x420++0x3
line.long 0x00 "DMM_PAT_VIEW0,DMM PAT View register (initiators 0 to 7)"
bitfld.long 0x00 31. " W7            ,Write-enable for V7 bit field - . - ." "0,1"
bitfld.long 0x00 28.--29. "           V7            ,PAT view for initiator 7" "0,1,2,3"
bitfld.long 0x00 27. "        W6            ,Write-enable for V6 bit field - . - ." "0,1"
textline "                                "
bitfld.long 0x00 24.--25. " V6            ,PAT view for initiator 6" "0,1,2,3"
bitfld.long 0x00 23. "           W5            ,Write-enable for V5 bit field - . - ." "0,1"
bitfld.long 0x00 20.--21. "        V5            ,PAT view for initiator 5" "0,1,2,3"
textline "                                "
bitfld.long 0x00 19. " W4            ,Write-enable for V4 bit field - . - ." "0,1"
bitfld.long 0x00 16.--17. "           V4            ,PAT view for initiator 4" "0,1,2,3"
bitfld.long 0x00 15. "        W3            ,Write-enable for V3 bit field - . - ." "0,1"
textline "                                "
bitfld.long 0x00 12.--13. " V3            ,PAT view for initiator 3" "0,1,2,3"
bitfld.long 0x00 11. "           W2            ,Write-enable for V2 bit field - . - ." "0,1"
bitfld.long 0x00 8.--9. "        V2            ,PAT view for initiator 2" "0,1,2,3"
textline "                                "
bitfld.long 0x00 7. " W1            ,Write-enable for V1 bit field - . - ." "0,1"
bitfld.long 0x00 4.--5. "           V1            ,PAT view for initiator 1" "0,1,2,3"
bitfld.long 0x00 3. "        W0            ,Write-enable for V0 bit field - . - ." "0,1"
textline "                                "
bitfld.long 0x00 0.--1. " V0            ,PAT view for initiator 0" "0,1,2,3"
group.long 0x424++0x3
line.long 0x00 "DMM_PAT_VIEW1,DMM PAT view register (initiators 8 to 15)"
bitfld.long 0x00 31. " W15           ,Write-enable for V15 bit field - . - ." "0,1"
bitfld.long 0x00 28.--29. "           V15           ,PAT view for initiator 15" "0,1,2,3"
bitfld.long 0x00 27. "        W14           ,Write-enable for V14 bit field - . - ." "0,1"
textline "                                "
bitfld.long 0x00 24.--25. " V14           ,PAT view for initiator 14" "0,1,2,3"
bitfld.long 0x00 23. "           W13           ,Write-enable for V13 bit field - . - ." "0,1"
bitfld.long 0x00 20.--21. "        V13           ,PAT view for initiator 13" "0,1,2,3"
textline "                                "
bitfld.long 0x00 19. " W12           ,Write-enable for V12 bit field - . - ." "0,1"
bitfld.long 0x00 16.--17. "           V12           ,PAT view for initiator 12" "0,1,2,3"
bitfld.long 0x00 15. "        W11           ,Write-enable for V11 bit field - . - ." "0,1"
textline "                                "
bitfld.long 0x00 12.--13. " V11           ,PAT view for initiator 11" "0,1,2,3"
bitfld.long 0x00 11. "           W10           ,Write-enable for V10 bit field - . - ." "0,1"
bitfld.long 0x00 8.--9. "        V10           ,PAT view for initiator 10" "0,1,2,3"
textline "                                "
bitfld.long 0x00 7. " W9            ,Write-enable for V9 bit field - . - ." "0,1"
bitfld.long 0x00 4.--5. "           V9            ,PAT view for initiator 9" "0,1,2,3"
bitfld.long 0x00 3. "        W8            ,Write-enable for V8 bit field - . - ." "0,1"
textline "                                "
bitfld.long 0x00 0.--1. " V8            ,PAT view for initiator 8" "0,1,2,3"
group.long 0x460++0x3
line.long 0x00 "DMM_PAT_VIEW_MAP_BASE,Base address of all view mappings"
bitfld.long 0x00 31. " BASE_ADDR     ,MSB of the PAT view mapping base address" "0,1"
group.long 0x478++0x3
line.long 0x00 "DMM_PAT_IRQ_EOI,PAT end of interrupt"
bitfld.long 0x00 0. " EOI           ,End of PAT interrupt - ACK." "ACK,1"
group.long 0x480++0x3
line.long 0x00 "DMM_PAT_IRQSTATUS_RAW,Per-event raw interrupt status vector. Raw status is set even if the related event is not enabled. Write 1 to set the (raw) status, mostly for debug. n = 0 for the first interrupt status raw register, n = 1 for the second interrup..."
bitfld.long 0x00 31. " ERR_LUT_MISS3 ,Access to a yet-to-be-refilled area event in area 4.n+3 - KEEP. - SET. - HAPPEN. - NONE." "KEEP,SET"
bitfld.long 0x00 30. "        ERR_UPD_DATA3 ,Data register update whilst refilling error event in area 4.n+3 - KEEP. - SET. - HAPPEN. - NONE." "KEEP,SET"
bitfld.long 0x00 29. "     ERR_UPD_CTRL3 ,Control register update whilst refilling error event in area 4.n+3 - KEEP. - SET. - HAPPEN. - NONE." "KEEP,SET"
textline "                                "
bitfld.long 0x00 28. " ERR_UPD_AREA3 ,Area register update whilst refilling error event in area 4.n+3 - KEEP. - SET. - HAPPEN. - NONE." "KEEP,SET"
bitfld.long 0x00 27. "        ERR_INV_DATA3 ,Invalid entry-table pointer error event in area 4.n+3 - KEEP. - SET. - HAPPEN. - NONE." "KEEP,SET"
bitfld.long 0x00 26. "     ERR_INV_DSC3  ,Invalid descriptor pointer error event in area 4.n+3 - KEEP. - SET. - HAPPEN. - NONE." "KEEP,SET"
textline "                                "
bitfld.long 0x00 25. " FILL_LST3     ,End of refill event for the last descriptor in area 4.n+3 - KEEP. - SET. - DONE. - NOT." "KEEP,SET"
bitfld.long 0x00 24. "        FILL_DSC3     ,End of refill event for any descriptor in area 4.n+3 - KEEP. - SET. - DONE. - NOT." "KEEP,SET"
bitfld.long 0x00 23. "     ERR_LUT_MISS2 ,Access to a yet-to-be-refilled area event in area 4.n+2 - KEEP. - SET. - HAPPEN. - NONE." "KEEP,SET"
textline "                                "
bitfld.long 0x00 22. " ERR_UPD_DATA2 ,Data register update whilst refilling error event in area 4.n+2 - KEEP. - SET. - HAPPEN. - NONE." "KEEP,SET"
bitfld.long 0x00 21. "        ERR_UPD_CTRL2 ,Control register update whilst refilling error event in area 4.n+2 - KEEP. - SET. - HAPPEN. - NONE." "KEEP,SET"
bitfld.long 0x00 20. "     ERR_UPD_AREA2 ,Area register update whilst refilling error event in area 4.n+2 - KEEP. - SET. - HAPPEN. - NONE." "KEEP,SET"
textline "                                "
bitfld.long 0x00 19. " ERR_INV_DATA2 ,Invalid entry-table pointer error event in area 4.n+2 - KEEP. - SET. - HAPPEN. - NONE." "KEEP,SET"
bitfld.long 0x00 18. "        ERR_INV_DSC2  ,Invalid descriptor pointer error event in area 4.n+2 - KEEP. - SET. - HAPPEN. - NONE." "KEEP,SET"
bitfld.long 0x00 17. "     FILL_LST2     ,End of refill event for the last descriptor in area 4.n+2 - KEEP. - SET. - DONE. - NOT." "KEEP,SET"
textline "                                "
bitfld.long 0x00 16. " FILL_DSC2     ,End of refill event for any descriptor in area 4.n+2 - KEEP. - SET. - DONE. - NOT." "KEEP,SET"
bitfld.long 0x00 15. "        ERR_LUT_MISS1 ,Access to a yet-to-be-refilled area event in area 4.n+1 - KEEP. - SET. - HAPPEN. - NONE." "KEEP,SET"
bitfld.long 0x00 14. "     ERR_UPD_DATA1 ,Data register update whilst refilling error event in area 4.n+1 - KEEP. - SET. - HAPPEN. - NONE." "KEEP,SET"
textline "                                "
bitfld.long 0x00 13. " ERR_UPD_CTRL1 ,Control register update whilst refilling error event in area 4.n+1 - KEEP. - SET. - HAPPEN. - NONE." "KEEP,SET"
bitfld.long 0x00 12. "        ERR_UPD_AREA1 ,Area register update whilst refilling error event in area 4.n+1 - KEEP. - SET. - HAPPEN. - NONE." "KEEP,SET"
bitfld.long 0x00 11. "     ERR_INV_DATA1 ,Invalid entry-table pointer error event in area 4.n+1 - KEEP. - SET. - HAPPEN. - NONE." "KEEP,SET"
textline "                                "
bitfld.long 0x00 10. " ERR_INV_DSC1  ,Invalid descriptor pointer error event in area 4.n+1 - KEEP. - SET. - HAPPEN. - NONE." "KEEP,SET"
bitfld.long 0x00 9. "        FILL_LST1     ,End of refill event for the last descriptor in area 4.n+1 - KEEP. - SET. - DONE. - NOT." "KEEP,SET"
bitfld.long 0x00 8. "     FILL_DSC1     ,End of refill event for any descriptor in area 4.n+1 - KEEP. - SET. - DONE. - NOT." "KEEP,SET"
textline "                                "
bitfld.long 0x00 7. " ERR_LUT_MISS0 ,Access to a yet-to-be-refilled area event in area 4.n - KEEP. - SET. - HAPPEN. - NONE." "KEEP,SET"
bitfld.long 0x00 6. "        ERR_UPD_DATA0 ,Data register update whilst refilling error event in area 4.n - KEEP. - SET. - HAPPEN. - NONE." "KEEP,SET"
bitfld.long 0x00 5. "     ERR_UPD_CTRL0 ,Control register update whilst refilling error event in area 4.n - KEEP. - SET. - HAPPEN. - NONE." "KEEP,SET"
textline "                                "
bitfld.long 0x00 4. " ERR_UPD_AREA0 ,Area register update whilst refilling error event in area 4.n - KEEP. - SET. - HAPPEN. - NONE." "KEEP,SET"
bitfld.long 0x00 3. "        ERR_INV_DATA0 ,Invalid entry-table pointer error event in area 4.n - KEEP. - SET. - HAPPEN. - NONE." "KEEP,SET"
bitfld.long 0x00 2. "     ERR_INV_DSC0  ,Invalid descriptor pointer error event in area 4.n - KEEP. - SET. - HAPPEN. - NONE." "KEEP,SET"
textline "                                "
bitfld.long 0x00 1. " FILL_LST0     ,End of refill event for the last descriptor in area 4.n - KEEP. - SET. - DONE. - NOT." "KEEP,SET"
bitfld.long 0x00 0. "        FILL_DSC0     ,End of refill event for any descriptor in area 4.n - KEEP. - SET. - DONE. - NOT." "KEEP,SET"
group.long 0x490++0x3
line.long 0x00 "DMM_PAT_IRQSTATUS,Per-event 'enabled' interrupt status vector. Enabled status is not set unless the event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled). n = 0 for the f..."
eventfld.long 0x00 31. " ERR_LUT_MISS3 ,Access to a yet-to-be-refilled area event in area 4.n+3 - KEEP. - CLR. - HAPPEN. - NONE." "KEEP,CLR"
eventfld.long 0x00 30. "        ERR_UPD_DATA3 ,Data register update whilst refilling error event in area 4.n+3 - KEEP. - CLR. - HAPPEN. - NONE." "KEEP,CLR"
eventfld.long 0x00 29. "     ERR_UPD_CTRL3 ,Control register update whilst refilling error event in area 4.n+3 - KEEP. - CLR. - HAPPEN. - NONE." "KEEP,CLR"
textline "                                "
eventfld.long 0x00 28. " ERR_UPD_AREA3 ,Area register update whilst refilling error event in area 4.n+3 - KEEP. - CLR. - HAPPEN. - NONE." "KEEP,CLR"
eventfld.long 0x00 27. "        ERR_INV_DATA3 ,Invalid entry-table pointer error event in area 4.n+3 - KEEP. - CLR. - HAPPEN. - NONE." "KEEP,CLR"
eventfld.long 0x00 26. "     ERR_INV_DSC3  ,Invalid descriptor pointer error event in area 4.n+3 - KEEP. - CLR. - HAPPEN. - NONE." "KEEP,CLR"
textline "                                "
eventfld.long 0x00 25. " FILL_LST3     ,End of refill event for the last descriptor in area 4.n+3 - KEEP. - CLR. - DONE. - NOT." "KEEP,CLR"
eventfld.long 0x00 24. "        FILL_DSC3     ,End of refill event for any descriptor in area 4.n+3 - KEEP. - CLR. - DONE. - NOT." "KEEP,CLR"
eventfld.long 0x00 23. "     ERR_LUT_MISS2 ,Access to a yet-to-be-refilled area event in area 4.n+2 - KEEP. - CLR. - HAPPEN. - NONE." "KEEP,CLR"
textline "                                "
eventfld.long 0x00 22. " ERR_UPD_DATA2 ,Data register update whilst refilling error event in area 2 - KEEP. - CLR. - HAPPEN. - NONE." "KEEP,CLR"
eventfld.long 0x00 21. "        ERR_UPD_CTRL2 ,Control register update whilst refilling error event in area 4.n+2 - KEEP. - CLR. - HAPPEN. - NONE." "KEEP,CLR"
eventfld.long 0x00 20. "     ERR_UPD_AREA2 ,Area register update whilst refilling error event in area 4.n+2 - KEEP. - CLR. - HAPPEN. - NONE." "KEEP,CLR"
textline "                                "
eventfld.long 0x00 19. " ERR_INV_DATA2 ,Invalid entry-table pointer error event in area 4.n+2 - KEEP. - CLR. - HAPPEN. - NONE." "KEEP,CLR"
eventfld.long 0x00 18. "        ERR_INV_DSC2  ,Invalid descriptor pointer error event in area 4.n+2 - KEEP. - CLR. - HAPPEN. - NONE." "KEEP,CLR"
eventfld.long 0x00 17. "     FILL_LST2     ,End of refill event for the last descriptor in area 4.n+2 - KEEP. - CLR. - DONE. - NOT." "KEEP,CLR"
textline "                                "
eventfld.long 0x00 16. " FILL_DSC2     ,End of refill event for any descriptor in area 4.n+2 - KEEP. - CLR. - DONE. - NOT." "KEEP,CLR"
eventfld.long 0x00 15. "        ERR_LUT_MISS1 ,Access to a yet-to-be-refilled area event in area 4.n+1 - KEEP. - CLR. - HAPPEN. - NONE." "KEEP,CLR"
eventfld.long 0x00 14. "     ERR_UPD_DATA1 ,Data register update whilst refilling error event in area 4.n+1 - KEEP. - CLR. - HAPPEN. - NONE." "KEEP,CLR"
textline "                                "
eventfld.long 0x00 13. " ERR_UPD_CTRL1 ,Control register update whilst refilling error event in area 4.n+1 - KEEP. - CLR. - HAPPEN. - NONE." "KEEP,CLR"
eventfld.long 0x00 12. "        ERR_UPD_AREA1 ,Area register update whilst refilling error event in area 4.n+1 - KEEP. - CLR. - HAPPEN. - NONE." "KEEP,CLR"
eventfld.long 0x00 11. "     ERR_INV_DATA1 ,Invalid entry-table pointer error event in area 4.n+1 - KEEP. - CLR. - HAPPEN. - NONE." "KEEP,CLR"
textline "                                "
eventfld.long 0x00 10. " ERR_INV_DSC1  ,Invalid descriptor pointer error event in area 4.n+1 - KEEP. - CLR. - HAPPEN. - NONE." "KEEP,CLR"
eventfld.long 0x00 9. "        FILL_LST1     ,End of refill event for the last descriptor in area 4.n+1 - KEEP. - CLR. - DONE. - NOT." "KEEP,CLR"
eventfld.long 0x00 8. "     FILL_DSC1     ,End of refill event for any descriptor in area 4.n+1 - KEEP. - CLR. - DONE. - NOT." "KEEP,CLR"
textline "                                "
eventfld.long 0x00 7. " ERR_LUT_MISS0 ,Access to a yet-to-be-refilled area event in area 4.n - KEEP. - CLR. - HAPPEN. - NONE." "KEEP,CLR"
eventfld.long 0x00 6. "        ERR_UPD_DATA0 ,Data register update whilst refilling error event in area 4.n - KEEP. - CLR. - HAPPEN. - NONE." "KEEP,CLR"
eventfld.long 0x00 5. "     ERR_UPD_CTRL0 ,Control register update whilst refilling error event in area 4.n - KEEP. - CLR. - HAPPEN. - NONE." "KEEP,CLR"
textline "                                "
eventfld.long 0x00 4. " ERR_UPD_AREA0 ,Area register update whilst refilling error event in area 4.n - KEEP. - CLR. - HAPPEN. - NONE." "KEEP,CLR"
eventfld.long 0x00 3. "        ERR_INV_DATA0 ,Invalid entry-table pointer error event in area 4.n - KEEP. - CLR. - HAPPEN. - NONE." "KEEP,CLR"
eventfld.long 0x00 2. "     ERR_INV_DSC0  ,Invalid descriptor pointer error event in area 4.n - KEEP. - CLR. - HAPPEN. - NONE." "KEEP,CLR"
textline "                                "
eventfld.long 0x00 1. " FILL_LST0     ,End of refill event for the last descriptor in area 4.n - KEEP. - CLR. - DONE. - NOT." "KEEP,CLR"
eventfld.long 0x00 0. "        FILL_DSC0     ,End of refill event for any descriptor in area 4.n - KEEP. - CLR. - DONE. - NOT." "KEEP,CLR"
group.long 0x4A0++0x3
line.long 0x00 "DMM_PAT_IRQENABLE_SET,Per-event interrupt enable bit vector. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register. n = 0 for the first interrupt enable set register, n = 1 for the second interrupt enable set register."
bitfld.long 0x00 31. " ERR_LUT_MISS3 ,Unexpected access to a yet-to-be-refilled area interrupt source mask for area 4.n+3 - KEEP. - ENABLE. - ENABLED. - DISABLED." "KEEP,ENABLE"
bitfld.long 0x00 30. "      ERR_UPD_DATA3 ,Unexpected data register update whilst refilling interrupt source mask for area 4.n+3 - KEEP. - ENABLE. - ENABLED. - DISABLED." "KEEP,ENABLE"
bitfld.long 0x00 29. "   ERR_UPD_CTRL3 ,Unexpected control register update whilst refilling interrupt source mask for area 4.n+3 - KEEP. - ENABLE. - ENABLED. - DISABLED." "KEEP,ENABLE"
textline "                                "
bitfld.long 0x00 28. " ERR_UPD_AREA3 ,Unexpected area register update whilst refilling interrupt source mask for area 4.n+3 - KEEP. - ENABLE. - ENABLED. - DISABLED." "KEEP,ENABLE"
bitfld.long 0x00 27. "      ERR_INV_DATA3 ,Invalid entry-table pointer interrupt source mask for area 4.n+3 - KEEP. - ENABLE. - ENABLED. - DISABLED." "KEEP,ENABLE"
bitfld.long 0x00 26. "   ERR_INV_DSC3  ,Invalid descriptor pointer interrupt source mask for area 4.n+3 - KEEP. - ENABLE. - ENABLED. - DISABLED." "KEEP,ENABLE"
textline "                                "
bitfld.long 0x00 25. " FILL_LST3     ,End of refill interrupt source mask for the last descriptior in area 4.n+3 - KEEP. - ENABLE. - ENABLED. - DISABLED." "KEEP,ENABLE"
bitfld.long 0x00 24. "      FILL_DSC3     ,End of refill interrupt source mask for any descriptior in area 4.n+3 - KEEP. - ENABLE. - ENABLED. - DISABLED." "KEEP,ENABLE"
bitfld.long 0x00 23. "   ERR_LUT_MISS2 ,Unexpected access to a yet-to-be-refilled area interrupt source mask for area 4.n+2 - KEEP. - ENABLE. - ENABLED. - DISABLED." "KEEP,ENABLE"
textline "                                "
bitfld.long 0x00 22. " ERR_UPD_DATA2 ,Unexpected data register update whilst refilling interrupt source mask for area 4.n+2 - KEEP. - ENABLE. - ENABLED. - DISABLED." "KEEP,ENABLE"
bitfld.long 0x00 21. "      ERR_UPD_CTRL2 ,Unexpected control register update whilst refilling interrupt source mask for area 4.n+2 - KEEP. - ENABLE. - ENABLED. - DISABLED." "KEEP,ENABLE"
bitfld.long 0x00 20. "   ERR_UPD_AREA2 ,Unexpected area register update whilst refilling interrupt source mask for area 4.n+2 - KEEP. - ENABLE. - ENABLED. - DISABLED." "KEEP,ENABLE"
textline "                                "
bitfld.long 0x00 19. " ERR_INV_DATA2 ,Invalid entry-table pointer interrupt source mask for area 4.n+2 - KEEP. - ENABLE. - ENABLED. - DISABLED." "KEEP,ENABLE"
bitfld.long 0x00 18. "      ERR_INV_DSC2  ,Invalid descriptor pointer interrupt source mask for area 4.n+2 - KEEP. - ENABLE. - ENABLED. - DISABLED." "KEEP,ENABLE"
bitfld.long 0x00 17. "   FILL_LST2     ,End of refill interrupt source mask for the last descriptior in area 4.n+2 - KEEP. - ENABLE. - ENABLED. - DISABLED." "KEEP,ENABLE"
textline "                                "
bitfld.long 0x00 16. " FILL_DSC2     ,End of refill interrupt source mask for any descriptior in area 4.n+2 - KEEP. - ENABLE. - ENABLED. - DISABLED." "KEEP,ENABLE"
bitfld.long 0x00 15. "      ERR_LUT_MISS1 ,Unexpected access to a yet-to-be-refilled area interrupt source mask for area 4.n+1 - KEEP. - ENABLE. - ENABLED. - DISABLED." "KEEP,ENABLE"
bitfld.long 0x00 14. "   ERR_UPD_DATA1 ,Unexpected data register update whilst refilling interrupt source mask for area 4.n+1 - KEEP. - ENABLE. - ENABLED. - DISABLED." "KEEP,ENABLE"
textline "                                "
bitfld.long 0x00 13. " ERR_UPD_CTRL1 ,Unexpected control register update whilst refilling interrupt source mask for area 4.n+1 - KEEP. - ENABLE. - ENABLED. - DISABLED." "KEEP,ENABLE"
bitfld.long 0x00 12. "      ERR_UPD_AREA1 ,Unexpected area register update whilst refilling interrupt source mask for area 4.n+1 - KEEP. - ENABLE. - ENABLED. - DISABLED." "KEEP,ENABLE"
bitfld.long 0x00 11. "   ERR_INV_DATA1 ,Invalid entry-table pointer interrupt source mask for area 4.n+1 - KEEP. - ENABLE. - ENABLED. - DISABLED." "KEEP,ENABLE"
textline "                                "
bitfld.long 0x00 10. " ERR_INV_DSC1  ,Invalid descriptor pointer interrupt source mask for area 4.n+1 - KEEP. - ENABLE. - ENABLED. - DISABLED." "KEEP,ENABLE"
bitfld.long 0x00 9. "      FILL_LST1     ,End of refill interrupt source mask for the last descriptior in area 4.n+1 - KEEP. - ENABLE. - ENABLED. - DISABLED." "KEEP,ENABLE"
bitfld.long 0x00 8. "   FILL_DSC1     ,End of refill interrupt source mask for any descriptior in area 4.n+1 - KEEP. - ENABLE. - ENABLED. - DISABLED." "KEEP,ENABLE"
textline "                                "
bitfld.long 0x00 7. " ERR_LUT_MISS0 ,Unexpected access to a yet-to-be-refilled area interrupt source mask for area 4.n - KEEP. - ENABLE. - ENABLED. - DISABLED." "KEEP,ENABLE"
bitfld.long 0x00 6. "      ERR_UPD_DATA0 ,Unexpected data register update whilst refilling interrupt source mask for area 4.n - KEEP. - ENABLE. - ENABLED. - DISABLED." "KEEP,ENABLE"
bitfld.long 0x00 5. "   ERR_UPD_CTRL0 ,Unexpected control register update whilst refilling interrupt source mask for area 4.n - KEEP. - ENABLE. - ENABLED. - DISABLED." "KEEP,ENABLE"
textline "                                "
bitfld.long 0x00 4. " ERR_UPD_AREA0 ,Unexpected area register update whilst refilling interrupt source mask for area 4.n - KEEP. - ENABLE. - ENABLED. - DISABLED." "KEEP,ENABLE"
bitfld.long 0x00 3. "      ERR_INV_DATA0 ,Invalid entry-table pointer interrupt source mask for area 4.n - KEEP. - ENABLE. - ENABLED. - DISABLED." "KEEP,ENABLE"
bitfld.long 0x00 2. "   ERR_INV_DSC0  ,Invalid descriptor pointer interrupt source mask for area 4.n - KEEP. - ENABLE. - ENABLED. - DISABLED." "KEEP,ENABLE"
textline "                                "
bitfld.long 0x00 1. " FILL_LST0     ,End of refill interrupt source mask for the last descriptior in area 4.n - KEEP. - ENABLE. - ENABLED. - DISABLED." "KEEP,ENABLE"
bitfld.long 0x00 0. "      FILL_DSC0     ,End of refill interrupt source mask for any descriptior in area 4.n - KEEP. - ENABLE. - ENABLED. - DISABLED." "KEEP,ENABLE"
group.long 0x4B0++0x3
line.long 0x00 "DMM_PAT_IRQENABLE_CLR,Per-event interrupt enable bit vector. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register. n = 0 for the first interrupt enable clear register, n = 1 for the second interrupt enable clear register."
eventfld.long 0x00 31. " ERR_LUT_MISS3 ,Unexpected access to a yet-to-be-refilled area interrupt source mask for area 4.n+3 - KEEP. - DISABLE. - ENABLED. - DISABLED." "KEEP,DISABLE"
eventfld.long 0x00 30. "     ERR_UPD_DATA3 ,Unexpected data register update whilst refilling interrupt source mask for area 4.n+3 - KEEP. - DISABLE. - ENABLED. - DISABLED." "KEEP,DISABLE"
eventfld.long 0x00 29. "  ERR_UPD_CTRL3 ,Unexpected control register update whilst refilling interrupt source mask for area 4.n+3 - KEEP. - DISABLE. - ENABLED. - DISABLED." "KEEP,DISABLE"
textline "                                "
eventfld.long 0x00 28. " ERR_UPD_AREA3 ,Unexpected area register update whilst refilling interrupt source mask for area 4.n+3 - KEEP. - DISABLE. - ENABLED. - DISABLED." "KEEP,DISABLE"
eventfld.long 0x00 27. "     ERR_INV_DATA3 ,Invalid entry-table pointer interrupt source mask for area 4.n+3 - KEEP. - DISABLE. - ENABLED. - DISABLED." "KEEP,DISABLE"
eventfld.long 0x00 26. "  ERR_INV_DSC3  ,Invalid descriptor pointer interrupt source mask for area 4.n+3 - KEEP. - DISABLE. - ENABLED. - DISABLED." "KEEP,DISABLE"
textline "                                "
eventfld.long 0x00 25. " FILL_LST3     ,End of refill interrupt source mask for the last descriptior in area 4.n+3 - KEEP. - DISABLE. - ENABLED. - DISABLED." "KEEP,DISABLE"
eventfld.long 0x00 24. "     FILL_DSC3     ,End of refill interrupt source mask for any descriptior in area 4.n+3 - KEEP. - DISABLE. - ENABLED. - DISABLED." "KEEP,DISABLE"
eventfld.long 0x00 23. "  ERR_LUT_MISS2 ,Unexpected access to a yet-to-be-refilled area interrupt source mask for area 4.n+2 - KEEP. - DISABLE. - ENABLED. - DISABLED." "KEEP,DISABLE"
textline "                                "
eventfld.long 0x00 22. " ERR_UPD_DATA2 ,Unexpected data register update whilst refilling interrupt source mask for area 4.n+2 - KEEP. - DISABLE. - ENABLED. - DISABLED." "KEEP,DISABLE"
eventfld.long 0x00 21. "     ERR_UPD_CTRL2 ,Unexpected control register update whilst refilling interrupt source mask for area 4.n+2 - KEEP. - DISABLE. - ENABLED. - DISABLED." "KEEP,DISABLE"
eventfld.long 0x00 20. "  ERR_UPD_AREA2 ,Unexpected area register update whilst refilling interrupt source mask for area 4.n+2 - KEEP. - DISABLE. - ENABLED. - DISABLED." "KEEP,DISABLE"
textline "                                "
eventfld.long 0x00 19. " ERR_INV_DATA2 ,Invalid entry-table pointer interrupt source mask for area 4.n+2 - KEEP. - DISABLE. - ENABLED. - DISABLED." "KEEP,DISABLE"
eventfld.long 0x00 18. "     ERR_INV_DSC2  ,Invalid descriptor pointer interrupt source mask for area 4.n+2 - KEEP. - DISABLE. - ENABLED. - DISABLED." "KEEP,DISABLE"
eventfld.long 0x00 17. "  FILL_LST2     ,End of refill interrupt source mask for the last descriptior in area 4.n+2 - KEEP. - DISABLE. - ENABLED. - DISABLED." "KEEP,DISABLE"
textline "                                "
eventfld.long 0x00 16. " FILL_DSC2     ,End of refill interrupt source mask for any descriptior in area 4.n+2 - KEEP. - DISABLE. - ENABLED. - DISABLED." "KEEP,DISABLE"
eventfld.long 0x00 15. "     ERR_LUT_MISS1 ,Unexpected access to a yet-to-be-refilled area interrupt source mask for area 4.n+1 - KEEP. - DISABLE. - ENABLED. - DISABLED." "KEEP,DISABLE"
eventfld.long 0x00 14. "  ERR_UPD_DATA1 ,Unexpected data register update whilst refilling interrupt source mask for area 4.n+1 - KEEP. - DISABLE. - ENABLED. - DISABLED." "KEEP,DISABLE"
textline "                                "
eventfld.long 0x00 13. " ERR_UPD_CTRL1 ,Unexpected control register update whilst refilling interrupt source mask for area 4.n+1 - KEEP. - DISABLE. - ENABLED. - DISABLED." "KEEP,DISABLE"
eventfld.long 0x00 12. "     ERR_UPD_AREA1 ,Unexpected area register update whilst refilling interrupt source mask for area 4.n+1 - KEEP. - DISABLE. - ENABLED. - DISABLED." "KEEP,DISABLE"
eventfld.long 0x00 11. "  ERR_INV_DATA1 ,Invalid entry-table pointer interrupt source mask for area 4.n+1 - KEEP. - DISABLE. - ENABLED. - DISABLED." "KEEP,DISABLE"
textline "                                "
eventfld.long 0x00 10. " ERR_INV_DSC1  ,Invalid descriptor pointer interrupt source mask for area 4.n+1 - KEEP. - DISABLE. - ENABLED. - DISABLED." "KEEP,DISABLE"
eventfld.long 0x00 9. "     FILL_LST1     ,End of refill interrupt source mask for the last descriptior in area 4.n+1 - KEEP. - DISABLE. - ENABLED. - DISABLED." "KEEP,DISABLE"
eventfld.long 0x00 8. "  FILL_DSC1     ,End of refill interrupt source mask for any descriptior in area 4.n+1 - KEEP. - DISABLE. - ENABLED. - DISABLED." "KEEP,DISABLE"
textline "                                "
eventfld.long 0x00 7. " ERR_LUT_MISS0 ,Unexpected access to a yet-to-be-refilled area interrupt source mask for area 4.n - KEEP. - DISABLE. - ENABLED. - DISABLED." "KEEP,DISABLE"
eventfld.long 0x00 6. "     ERR_UPD_DATA0 ,Unexpected data register update whilst refilling interrupt source mask for area 4.n - KEEP. - DISABLE. - ENABLED. - DISABLED." "KEEP,DISABLE"
eventfld.long 0x00 5. "  ERR_UPD_CTRL0 ,Unexpected control register update whilst refilling interrupt source mask for area 4.n - KEEP. - DISABLE. - ENABLED. - DISABLED." "KEEP,DISABLE"
textline "                                "
eventfld.long 0x00 4. " ERR_UPD_AREA0 ,Unexpected area register update whilst refilling interrupt source mask for area 4.n - KEEP. - DISABLE. - ENABLED. - DISABLED." "KEEP,DISABLE"
eventfld.long 0x00 3. "     ERR_INV_DATA0 ,Invalid entry-table pointer interrupt source mask for area 4.n - KEEP. - DISABLE. - ENABLED. - DISABLED." "KEEP,DISABLE"
eventfld.long 0x00 2. "  ERR_INV_DSC0  ,Invalid descriptor pointer interrupt source mask for area 4.n - KEEP. - DISABLE. - ENABLED. - DISABLED." "KEEP,DISABLE"
textline "                                "
eventfld.long 0x00 1. " FILL_LST0     ,End of refill interrupt source mask for the last descriptior in area 4.n - KEEP. - DISABLE. - ENABLED. - DISABLED." "KEEP,DISABLE"
eventfld.long 0x00 0. "     FILL_DSC0     ,End of refill interrupt source mask for any descriptior in area 4.n - KEEP. - DISABLE. - ENABLED. - DISABLED." "KEEP,DISABLE"
rgroup.long 0x608++0x3
line.long 0x00 "DMM_PEG_HWINFO,DMM hardware configuration for PEG"
hexmask.long.byte 0x00 0.--6. 1. " PRIO_CNT      ,Number of PEG priority entries - 1. - 2. - 4. - 8. - 16. - 32. - 64."
group.long 0x640++0x3
line.long 0x00 "DMM_PEG_PRIO_PAT,DMM PEG priority register for the internal PAT engine."
bitfld.long 0x00 3. " W_PAT         ,Write-enable for P_PAT bit field - UPDATE. - KEEP." "UPDATE,KEEP"
bitfld.long 0x00 0.--2. "      P_PAT         ,Priority for PAT engine" "0,1,2,3,4,5,6,7"
width 0x0B
tree.end
tree.end
tree.open "EMIF_Controller"
tree "EMIF1"
base ad:0x4C000000
width 50.
rgroup.long 0x0++0x3
line.long 0x00 "EMIF_REVISION,Revision number register"
hexmask.long 0x00 0.--31. 1. " REVISION                               ,Module revision"
rgroup.long 0x4++0x3
line.long 0x00 "EMIF_STATUS,SDRAM Status Register (STATUS)"
bitfld.long 0x00 31. " BE                                     ,Big endian mode select for 8 and 16-bit devices, set to 1 for big endian or 0 for little endian operation. In current implementation, only 32-bit devices are supported - this bit is don't care." "0,1"
bitfld.long 0x00 30. "          DUAL_CLK_MODE                     ,Dual Clock mode. Defines whether the EMIFi_L3_ICLK and EMIF_FICLK clock are asynchronous. EMIFi_L3_ICLK and EMIF_FICLK clock are asynchronous, if set to 1." "0,1"
bitfld.long 0x00 29. "     FAST_INIT                         ,Fast Init. Defines whether the EMIF fast initialization mode has been enabled. Fast initialization is enabled if set to 1." "0,1"
textline "                                                           "
bitfld.long 0x00 6. " RDLVLGATETO                            ,Read DQS Gate Training Timeout. Value of 1 indicates read DQS gate training has timed out because read DQS gate training done was not received from the PHY." "0,1"
bitfld.long 0x00 5. "          RDLVLTO                           ,Read Data Eye Training Timeout. Value of 1 indicates read data eye training has timed out because read data eye training done was not received from the PHY." "0,1"
bitfld.long 0x00 4. "     WRLVLTO                           ,Write Leveling Timeout. Value of 1 indicates write leveling has timed out because write leveling done was not received from the PHY." "0,1"
textline "                                                           "
bitfld.long 0x00 2. " PHY_DLL_READY                          ,DDR PHY Ready. The DDR PHY is ready for normal operation, if set to 1." "0,1"
group.long 0x8++0x3
line.long 0x00 "EMIF_SDRAM_CONFIG,SDRAM Config Register. A write to this register will cause the EMIF to start the SDRAM initialization sequence. CAUTION: This register is loaded with values by control module at device reset."
bitfld.long 0x00 29.--31. " SDRAM_TYPE                             ,SDRAM Type selection. This field is loaded from e-fuse. Set to 2 for DDR2 Set to 3 for DDR3 All other values are reserved." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 27.--28. "          IBANK_POS                         ,Internal bank position. See section , ." "0,1,2,3"
bitfld.long 0x00 24.--26. "     DDR_TERM                          ,DDR3 termination resistor value. Set to 0 to disable termination. For DDR3, set to 1 for RZQ/4, set to 2 for RZQ/2, set to 3 for RZQ/6, set to 4 for RZQ/12, and set to 5 for RZQ/8. All other values are reserved." "0,1,2,3,4,5,6,7"
textline "                                                           "
bitfld.long 0x00 23. " DDR2_DDQS                              ,DDR2 differential DDQS enable. NOT SUPPORTED. Set to 1 for compatibility." "0,1"
bitfld.long 0x00 21.--22. "          DYN_ODT                           ,DDR3 Dynamic ODT. NOT SUPPORTED. Set to 0 to turn off dynamic ODT." "0,1,2,3"
bitfld.long 0x00 20. "     DDR_DISABLE_DLL                   ,Disable DLL select. Set to 1 to disable DLL inside SDRAM." "0,1"
textline "                                                           "
bitfld.long 0x00 18.--19. " SDRAM_DRIVE                            ,SDRAM drive strength.For DDR3, set to 0 for RZQ/6 and set to 1 for RZQ/7. All other values are reserved." "0,1,2,3"
bitfld.long 0x00 16.--17. "          CWL                               ,DDR3 CAS Write latency. Value of 0, 1, 2, and 3 (CAS write latency of 5, 6, 7, and 8) are supported. Use the lowest value supported for best performance. All other values are reserved." "0,1,2,3"
bitfld.long 0x00 14.--15. "     NARROW_MODE                       ,SDRAM data bus width. Set to 0 for 32-bit data bus width. Set to 1 for 16-bit data bus width. All other values are reserved." "0,1,2,3"
textline "                                                           "
bitfld.long 0x00 10.--13. " CL                                     ,CAS Latency (referred to as read latency (RL) in some SDRAM specs). The value of this field defines the CAS latency to be used when accessing connected SDRAM devices. Values of 2, 3, 4 and 5 (CAS latency of 2, 3..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 7.--9. "         ROWSIZE                           ,Row Size. Defines the number of row address bits of connected SDRAM devices. Set to 0 for 9 row bits, Set to 1 for 10 row bits, Set to 2 for 11 row bits, Set to 3 for 12 row bits, Set to 4 for 13 row bits, Se..." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "     IBANK                             ,Internal Bank setup. Defines number of banks inside connected SDRAM devices. Set to 0 for 1 bank, Set to 1 for 2 banks, Set to 2 for 4 banks, Set to 3 for 8 banks. All other values are reserved." "0,1,2,3,4,5,6,7"
textline "                                                           "
bitfld.long 0x00 0.--2. " PAGESIZE                               ,Page Size. Defines the internal page size of connected SDRAM devices. Set to 0 for 256-word page (8 column bits), Set to 1 for 512-word page (9 column bits), Set to 2 for 1024-word page (10 column bits), Set to ..." "0,1,2,3,4,5,6,7"
group.long 0xC++0x3
line.long 0x00 "EMIF_SDRAM_CONFIG_2,SDRAM Config Register 2 CAUTION: This register is loaded with values by control module at device reset."
bitfld.long 0x00 27. " EBANK_POS                              ,External bank position. Set to 0 to assign external bank address bits from lower OCP address. Set to 1 to assign external bank address bits from higher OCP address bits. See section, ." "0,1"
group.long 0x10++0x3
line.long 0x00 "EMIF_SDRAM_REFRESH_CONTROL,SDRAM Refresh Control Register"
bitfld.long 0x00 31. " INITREF_DIS                            ,Initialization and Refresh disable. When set to 1, EMIF will disable SDRAM initialization and refreshes, but will carry out SDRAM write/read transactions." "0,1"
bitfld.long 0x00 29. "          SRT                               ,DDR3 Self Refresh temperature range. Set to 0 for normal operating temperature range and set to 1 for extended operating temperature range when the ASR field is set to 0. This bit must be set to 0 if the ASR..." "0,1"
bitfld.long 0x00 28. "     ASR                               ,DDR3 Auto Self Refresh enable. Set to 1 for auto Self Refresh enable. Set to 0 for manual Self Refresh reference indicated by the SRT field. A write to this field will cause the EMIF to start the SDRAM initializa..." "0,1"
textline "                                                           "
bitfld.long 0x00 24.--26. " PASR                                   ,Partial Array Self Refresh. These bits get loaded into the Extended Mode Register of DDR3 during initialization. For DDR3, set to 0 for full array, set to 1 or 5 for 1/2 array, set to 2 or 6 for 1/4 array, set t..." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "          REFRESH_RATE                      ,Refresh Rate. Value in this field is used to define the rate at which connected SDRAM devices will be refreshed. SDRAM refresh rate = REFRESH_RATE / EMIFi_PHY_FICLK. A 533-MHz DDR clock rate system that requ..."
group.long 0x14++0x3
line.long 0x00 "EMIF_SDRAM_REFRESH_CONTROL_SHADOW,SDRAM Refresh Control Shadow Register"
hexmask.long.word 0x00 0.--15. 1. " REFRESH_RATE_SHDW                      ,Shadow field for REFRESH_RATE. This field is loaded intoEMIF_SDRAM_REFRESH_CONTROL[15:0] REFRESH_RATE field when SIdleAck is asserted."
group.long 0x18++0x3
line.long 0x00 "EMIF_SDRAM_TIMING_1,SDRAM Timing 1 Register. If this register is byte written, care must be taken that all the fields are written before performing any accesses to the SDRAM."
bitfld.long 0x00 29.--31. " T_RTW                                  ,Minimum number of DDR clock cycles between Read to Write data phases, minus one." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 25.--28. "          T_RP                              ,Minimum number of DDR clock cycles from Precharge to Activate or Refresh, minus one." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 21.--24. "    T_RCD                             ,Minimum number of DDR clock cycles from Activate to Read or Write, minus one." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                                           "
bitfld.long 0x00 17.--20. " T_WR                                   ,Minimum number of DDR clock cycles from last Write transfer to Precharge, minus one." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--16. "         T_RAS                             ,Minimum number of DDR clock cycles from Activate to Precharge, minus one. T_RAS value needs to be bigger than or equal to T_RDC value." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 6.--11. "    T_RC                              ,Minimum number of DDR clock cycles from Activate to Activate, minus one." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                                           "
bitfld.long 0x00 3.--5. " T_RRD                                  ,Minimum number of DDR clock cycles from Activate to Activate for a different bank, minus one. For an 8-bank, this field must be equal to ((tFAW / (4 ? tCK)) - 1)." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "          T_WTR                             ,Minimum number of DDR clock cycles from last Write to Read, minus one." "0,1,2,3,4,5,6,7"
group.long 0x1C++0x3
line.long 0x00 "EMIF_SDRAM_TIMING_1_SHADOW,SDRAM Timing 1 Shadow Register"
bitfld.long 0x00 29.--31. " T_RTW_SHDW                             ,Shadow field for T_RTW. This field is loaded intoEMIF_SDRAM_TIMING_1[31:29] T_RTW field when SIdleAck is asserted." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 25.--28. "          T_RP_SHDW                         ,Shadow field for T_RP. This field is loaded intoEMIF_SDRAM_TIMING_1[28:25] T_RP field when SIdleAck is asserted." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 21.--24. "    T_RCD_SHDW                        ,Shadow field for T_RCD. This field is loaded intoEMIF_SDRAM_TIMING_1[24:21] T_RCD field when SIdleAck is asserted." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                                           "
bitfld.long 0x00 17.--20. " T_WR_SHDW                              ,Shadow field for T_WR. This field is loaded intoEMIF_SDRAM_TIMING_1[20:17] T_WR field when SIdleAck is asserted." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--16. "         T_RAS_SHDW                        ,Shadow field for T_RAS. This field is loaded intoEMIF_SDRAM_TIMING_1[16:12] T_RAS field when SIdleAck is asserted." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 6.--11. "    T_RC_SHDW                         ,Shadow field for T_RC. This field is loaded intoEMIF_SDRAM_TIMING_1[11:6] T_RC field when SIdleAck is asserted." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                                           "
bitfld.long 0x00 3.--5. " T_RRD_SHDW                             ,Shadow field for T_RRD. This field is loaded intoEMIF_SDRAM_TIMING_1[5:3] T_RRD field when SIdleAck is asserted." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "          T_WTR_SHDW                        ,Shadow field for T_WTR. This field is loaded intoEMIF_SDRAM_TIMING_1[2:0] T_WTR field when SIdleAck is asserted." "0,1,2,3,4,5,6,7"
group.long 0x20++0x3
line.long 0x00 "EMIF_SDRAM_TIMING_2,SDRAM Timing 2 Register. If this register is byte written, care must be taken that all the fields are written before performing any accesses to the SDRAM."
bitfld.long 0x00 28.--30. " T_XP                                   ,Minimum number of DDR clock cycles from power-down exit to any command other than a read command, minus one." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--24. 1. "          T_XSNR                            ,Minimum number of DDR clock cycles from Self-Refresh exit to any command other than a Read command, minus one."
hexmask.long.word 0x00 6.--15. 1. "  T_XSRD                            ,Minimum number of DDR clock cycles from Self-Refresh exit to a Read command, minus one."
textline "                                                           "
bitfld.long 0x00 3.--5. " T_RTP                                  ,Minimum number of DDR clock cycles for the last read command to a Precharge command, minus one." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "          T_CKE                             ,Minimum number of DDR clock cycles between CKE pin changes, minus one." "0,1,2,3,4,5,6,7"
group.long 0x24++0x3
line.long 0x00 "EMIF_SDRAM_TIMING_2_SHADOW,SDRAM Timing 2 Shadow Register"
bitfld.long 0x00 28.--30. " T_XP_SHDW                              ,Shadow field for T_XP. This field is loaded intoEMIF_SDRAM_TIMING_2[30:28] T_XP field when SIdleAck is asserted." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--24. 1. "          T_XSNR_SHDW                       ,Shadow field for T_XSNR. This field is loaded intoEMIF_SDRAM_TIMING_2[24:16] T_XSNR field when SIdleAck is asserted."
hexmask.long.word 0x00 6.--15. 1. "  T_XSRD_SHDW                       ,Shadow field for T_XSRD. This field is loaded intoEMIF_SDRAM_TIMING_2[15:6] T_XSRD field when SIdleAck is asserted."
textline "                                                           "
bitfld.long 0x00 3.--5. " T_RTP_SHDW                             ,Shadow field for T_RTP. This field is loaded intoEMIF_SDRAM_TIMING_2[5:3] T_RTP field when SIdleAck is asserted." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "          T_CKE_SHDW                        ,Shadow field for T_CKE. This field is loaded intoEMIF_SDRAM_TIMING_2[2:0] T_CKE field when SIdleAck is asserted." "0,1,2,3,4,5,6,7"
group.long 0x28++0x3
line.long 0x00 "EMIF_SDRAM_TIMING_3,SDRAM Timing 3 Register. If this register is byte written, care must be taken that all the fields are written before performing any accesses to the SDRAM."
bitfld.long 0x00 28.--31. " T_PDLL_UL                              ,Minimum number of DDR clock cycles for PHY DLL to unlock. A value of N will be equal to N x 128 clocks." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 21.--23. "         T_CKESR                           ,Minimum number of DDR clock cycles for which SDRAM must remain in Self Refresh, minus one." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 15.--20. "     ZQ_ZQCS                           ,Number of DDR clock cycles for a ZQCS command, minus one." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                                           "
hexmask.long.word 0x00 4.--12. 1. " T_RFC                                  ,Minimum number of DDR clock cycles from Refresh or Load Mode to Refresh or Activate, minus one."
bitfld.long 0x00 0.--3. "       T_RAS_MAX                         ,Maximum number of REFRESH_RATE intervals from Activate to Precharge command. This field must be equal to ((tRASmax / tREFI)-1) rounded down to the next lower integer. Value for T_RAS_MAX can be calculated as fo..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x2C++0x3
line.long 0x00 "EMIF_SDRAM_TIMING_3_SHADOW,SDRAM Timing 3 Shadow Register"
bitfld.long 0x00 28.--31. " T_PDLL_UL_SHDW                         ,Shadow field for T_PDLL_UL. This field is loaded into T_PDLL_UL field inEMIF_SDRAM_TIMING_3 register when SIdleAck is asserted." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 21.--23. "         T_CKESR_SHDW                      ,Shadow field for T_CKESR. This field is loaded into T_CKESR field inEMIF_SDRAM_TIMING_3 register when SIdleAck is asserted." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 15.--20. "     ZQ_ZQCS_SHDW                      ,Shadow field for ZQ_ZQCS. This field is loaded into ZQ_ZQCS field inEMIF_SDRAM_TIMING_3 register when SIdleAck is asserted." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                                           "
hexmask.long.word 0x00 4.--12. 1. " T_RFC_SHDW                             ,Shadow field for T_RFC. This field is loaded intoEMIF_SDRAM_TIMING_3[12:4] T_RFC when SIdleAck is asserted."
bitfld.long 0x00 0.--3. "       T_RAS_MAX_SHDW                    ,Shadow field for T_RAS_MAX. This field is loaded intoEMIF_SDRAM_TIMING_3[3:0] T_RAS_MAX field when SIdleAck is asserted." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x30++0x3
line.long 0x00 "EMIF_LPDDR2_NVM_TIMING,NOTE: This register is not supported. It is kept only for code compatibility."
group.long 0x34++0x3
line.long 0x00 "EMIF_LPDDR2_NVM_TIMING_SHADOW,NOTE: This register is not supported. It is kept only for code compatibility."
group.long 0x38++0x3
line.long 0x00 "EMIF_POWER_MANAGEMENT_CONTROL,Power Management Control Register. Updating the *_TIM fields must be followed by at least one access to SDRAM for the new value to take an effect."
bitfld.long 0x00 12.--15. " PD_TIM                                 ,Power Management timer for Power-Down. The EMIF will put the external SDRAM in Power-Down mode after the EMIF is idle for these number of DDR clock cycles and if LP_MODE field is set to 4. Set to 0 to immediatel..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--10. "         LP_MODE                           ,Automatic Power Management enable. 0x0: Disable automatic power management 0x1: Reserved 0x2: Self Refresh mode 0x3: Disable automatic power management 0x4: Power-Down mode All other values disable automatic ..." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--7. "     SR_TIM                            ,Power Management timer for Self Refresh. The EMIF will put the external SDRAM in Self Refresh mode after the EMIF is idle for these number of DDR clock cycles and if LP_MODE field is set to 2. Set to 0 to immedia..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x3C++0x3
line.long 0x00 "EMIF_POWER_MANAGEMENT_CONTROL_SHADOW,Power Management Control Shadow Register"
bitfld.long 0x00 12.--15. " PD_TIM_SHDW                            ,Shadow field for PD_TIM. This field is loaded into PD_TIM field inEMIF_POWER_MANAGEMENT_CONTROL register when SIdleAck is asserted." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 4.--7. "         SR_TIM_SHDW                       ,Shadow field for SR_TIM. This field is loaded into SR_TIM field inEMIF_POWER_MANAGEMENT_CONTROL register when SIdleAck is asserted." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x54++0x3
line.long 0x00 "EMIF_OCP_CONFIG,OCP Config Register"
bitfld.long 0x00 24.--27. " SYS_THRESH_MAX                         ,System OCP Threshold Maximum. The number of commands the system interface can consume in the command FIFO. The value is used to determine when to stop future request, writing a zero will reserve no space for the..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "         MPU_THRESH_MAX                    ,MPU Threshold Maximum. The number of commands the MPU interface can consume in the command FIFO. The value is used to determine when to stop future request, writing a zero will reserve no space for the associ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x58++0x3
line.long 0x00 "EMIF_OCP_CONFIG_VALUE_1,OCP Config Value 1 Register"
bitfld.long 0x00 30.--31. " SYS_BUS_WIDTH                          ,System OCP data bus width 0 = 32-bit wide, 1 = 64-bit wide, 2 = 128-bit wide, 3 = Reserved" "0,1,2,3"
hexmask.long.byte 0x00 8.--15. 1. "          WR_FIFO_DEPTH                     ,Write Data FIFO depth"
hexmask.long.byte 0x00 0.--7. 1. "    CMD_FIFO_DEPTH                    ,Command FIFO depth"
rgroup.long 0x5C++0x3
line.long 0x00 "EMIF_OCP_CONFIG_VALUE_2,OCP Config Value 2 Register"
hexmask.long.byte 0x00 16.--23. 1. " RREG_FIFO_DEPTH                        ,Register Read Data FIFO depth"
hexmask.long.byte 0x00 8.--15. 1. "         RSD_FIFO_DEPTH                    ,SDRAM Read Data FIFO depth"
hexmask.long.byte 0x00 0.--7. 1. "    RCMD_FIFO_DEPTH                   ,Read Command FIFO depth"
group.long 0x60++0x3
line.long 0x00 "EMIF_IODFT_TLGC,"
bitfld.long 0x00 10. " RESET_PHY                              ,Reset the DDR PHY. Writing 1 to this bit resets the DDR PHY. This bit will self clear to 0." "0,1"
rgroup.long 0x80++0x3
line.long 0x00 "EMIF_PERFORMANCE_COUNTER_1,Performance Counter 1 Register"
hexmask.long 0x00 0.--31. 1. " COUNTER1                               ,32-bit counter that can be configured as specified in theEMIF_PERFORMANCE_COUNTER_CONFIG register and EMIF_PERFORMANCE_COUNTER_MASTER_REGION_SELECT register."
rgroup.long 0x84++0x3
line.long 0x00 "EMIF_PERFORMANCE_COUNTER_2,Performance Counter 2 Register"
hexmask.long 0x00 0.--31. 1. " COUNTER2                               ,32-bit counter that can be configured as specified in theEMIF_PERFORMANCE_COUNTER_CONFIG register and EMIF_PERFORMANCE_COUNTER_MASTER_REGION_SELECT register."
group.long 0x88++0x3
line.long 0x00 "EMIF_PERFORMANCE_COUNTER_CONFIG,Performance Counter Config Register"
bitfld.long 0x00 31. " CNTR2_MCONNID_EN                       ,MConnID filter enable forEMIF_PERFORMANCE_COUNTER_2 register." "0,1"
bitfld.long 0x00 30. "          CNTR2_REGION_EN                   ,Chip Select filter enable forEMIF_PERFORMANCE_COUNTER_2 register." "0,1"
bitfld.long 0x00 16.--19. "     CNTR2_CFG                         ,Filter configuration forEMIF_PERFORMANCE_COUNTER_2. Refer to for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                                           "
bitfld.long 0x00 15. " CNTR1_MCONNID_EN                       ,MConnID filter enable forEMIF_PERFORMANCE_COUNTER_1 register." "0,1"
bitfld.long 0x00 14. "          CNTR1_REGION_EN                   ,Chip Select filter enable forEMIF_PERFORMANCE_COUNTER_1 register." "0,1"
bitfld.long 0x00 0.--3. "     CNTR1_CFG                         ,Filter configuration forEMIF_PERFORMANCE_COUNTER_1. Refer to for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x8C++0x3
line.long 0x00 "EMIF_PERFORMANCE_COUNTER_MASTER_REGION_SELECT,Performance Counter Master Region Select Register The values programmed into the MCONNIDx fields are those in the ConnID Values table in , Interconnect, left-shifted by 2 bits. For example, to monitor acces..."
hexmask.long.byte 0x00 24.--31. 1. " MCONNID2                               ,MConnID forEMIF_PERFORMANCE_COUNTER_2 register."
bitfld.long 0x00 16.--17. "         REGION_SEL2                       ,MAddrSpace forEMIF_PERFORMANCE_COUNTER_2 register." "0,1,2,3"
hexmask.long.byte 0x00 8.--15. 1. "     MCONNID1                          ,MConnID forEMIF_PERFORMANCE_COUNTER_1 register."
textline "                                                           "
bitfld.long 0x00 0.--1. " REGION_SEL1                            ,MAddrSpace forEMIF_PERFORMANCE_COUNTER_1 register." "0,1,2,3"
rgroup.long 0x90++0x3
line.long 0x00 "EMIF_PERFORMANCE_COUNTER_TIME,Performance Counter Time Register. This is a free running counter."
hexmask.long 0x00 0.--31. 1. " TOTAL_TIME                             ,32-bit counter that continuously counts number for EMIF_FICLK clock cycles elapsed after EMIF is brought out of reset."
group.long 0x94++0x3
line.long 0x00 "EMIF_MISC_REG,"
bitfld.long 0x00 0. " DLL_CALIB_OS                           ,Phy_dll_calib one shot : Setting bit to 1 generates a phy_pll_calib pulse. Bit is self cleared when pll_calib gets generated and ack_wait has been satisfied. Software can poll to confirm completion. Uses the EMI..." "0,1"
group.long 0x98++0x3
line.long 0x00 "EMIF_DLL_CALIB_CTRL,Control register to force idle window time to generate a phy_dll_calib that can be used for updating PHY DLLs during voltage ramps. NOTE: Should always be loaded via the shadow register."
bitfld.long 0x00 16.--19. " ACK_WAIT                               ,The ack_wait determines the required wait time after a phy_dll_calib is generated before another command can be sent. Value program is in terms of EMIF_FICLK cycle count. 5 must be the minimum value ever program..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 0.--8. 1. "         DLL_CALIB_INTERVAL                ,This field determines the interval between phy_dll_calib generation. This value is multiplied by a precounter of 16 EMIF_FICLK cycles. Program this field one less the value you are targeting; program 1 to ach..."
group.long 0x9C++0x3
line.long 0x00 "EMIF_DLL_CALIB_CTRL_SHADOW,Read Idle Control Shadow Register"
bitfld.long 0x00 16.--19. " ACK_WAIT_SHDW                          ,Shadow field for ACK_WAIT. This field is loaded into ACK_WAIT field inEMIF_DLL_CALIB_CTRL register when SIdleAck is asserted" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 0.--8. 1. "         DLL_CALIB_INTERVAL_SHDW           ,Shadow field for DLL_CALIB_INTERVAL. This field is loaded into DLL_CALIB_INTERVAL field in theEMIF_DLL_CALIB_CTRL register when SIdleAck is asserted"
group.long 0xA0++0x3
line.long 0x00 "EMIF_END_OF_INTERRUPT,"
bitfld.long 0x00 0. " EOI                                    ,Software End Of Interrupt (EOI) control. Write 0x0 for system OCP interrupt. This field always reads 0 (no EOI memory)." "0,1"
group.long 0xA4++0x3
line.long 0x00 "EMIF_SYSTEM_OCP_INTERRUPT_RAW_STATUS,System OCP Interrupt Raw Status Register"
bitfld.long 0x00 5. " ONEBIT_ECC_ERR_SYS                     ,Raw status of system ECC one bit error correction interrupt." "0,1"
bitfld.long 0x00 4. "          TWOBIT_ECC_ERR_SYS                ,Raw status of system ECC two bit error detection interrupt." "0,1"
bitfld.long 0x00 3. "     WR_ECC_ERR_SYS                    ,Raw status of system ECC Error interrupt when a memory access is made to a non-quanta aligned location." "0,1"
textline "                                                           "
bitfld.long 0x00 0. " ERR_SYS                                ,Raw status of system OCP interrupt for command or address error. Write 1 to set the (raw) status, mostly for debug. Writing a 0 has no effect." "0,1"
group.long 0xAC++0x3
line.long 0x00 "EMIF_SYSTEM_OCP_INTERRUPT_STATUS,System OCP Interrupt Status Register"
bitfld.long 0x00 5. " ONEBIT_ECC_ERR_SYS                     ,Enabled status of system ECC one bit error correction interrupt. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is even if not enabled). Writing a 0 has no effect" "0,1"
bitfld.long 0x00 4. "          TWOBIT_ECC_ERR_SYS                ,Enabled status of system ECC two bit error detection interrupt. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is even if not enabled). Writing a 0 has no effect." "0,1"
bitfld.long 0x00 3. "     WR_ECC_ERR_SYS                    ,Enabled status of system ECC Error interrupt when a memory access is made to a non-quanta aligned location. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is even if ..." "0,1"
textline "                                                           "
bitfld.long 0x00 0. " ERR_SYS                                ,Enabled status of system OCP interrupt interrupt for command or address error. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled). Writing a 0 h..." "0,1"
group.long 0xB4++0x3
line.long 0x00 "EMIF_SYSTEM_OCP_INTERRUPT_ENABLE_SET,System OCP Interrupt Enable Set Register"
bitfld.long 0x00 5. " ONEBIT_ECC_ERR_SYS                     ,Enabled status of sysem ECC one bit error correction interrupt. Writing a 1 will enable the interrupt, and set this bit as well as the corresponding Interrupt Enable Clear Register. Writing a 0 has no effect." "0,1"
bitfld.long 0x00 4. "          TWOBIT_ECC_ERR_SYS                ,Enabled status of system ECC two bit error detection interrupt. Writing a 1 will enable the interrupt, and set this bit as well as the corresponding Interrupt Enable Clear Register. Writing a 0 has no effect." "0,1"
bitfld.long 0x00 3. "     WR_ECC_ERR_SYS                    ,Enabled status of system ECC Error interrupt when a memory access is made to a non-quanta aligned location. Writing a 1 will enable the interrupt, and set this bit as well as the corresponding Interrupt Enable Cl..." "0,1"
textline "                                                           "
bitfld.long 0x00 0. " EN_ERR_SYS                             ,Enable set for system OCP interrupt for command or address error. Writing a 1 will enable the interrupt, and set this bit as well as the corresponding Interrupt Enable Clear Register. Writing a 0 has no effect." "0,1"
group.long 0xBC++0x3
line.long 0x00 "EMIF_SYSTEM_OCP_INTERRUPT_ENABLE_CLEAR,System OCP Interrupt Enable Clear Register"
eventfld.long 0x00 5. " ONEBIT_ECC_ERR_SYS                     ,Enabled status of system ECC one bit error correction interrupt. Writing a 1 will disable the interrupt, and clear this bit as well as the corresponding Interrupt Enable Set Register. Writing a 0 has no effect." "0,1"
eventfld.long 0x00 4. "          TWOBIT_ECC_ERR_SYS                ,Enabled status of system ECC two bit error detection interrupt. Writing a 1 will disable the interrupt, and clear this bit as well as the corresponding Interrupt Enable Set Register. Writing a 0 has no effect." "0,1"
eventfld.long 0x00 3. "     WR_ECC_ERR_SYS                    ,Enabled status of system ECC Error interrupt when a memory access is made to a non-quanta aligned location. Writing a 1 will disable the interrupt, and clear this bit as well as the corresponding Interrupt Enable..." "0,1"
textline "                                                           "
eventfld.long 0x00 0. " EN_ERR_SYS                             ,Enable clear for system OCP interrupt for command or address error. Writing a 1 will disable the interrupt, and clear this bit as well as the corresponding Interrupt Enable Set Register. Writing a 0 has no effect." "0,1"
group.long 0xC8++0x3
line.long 0x00 "EMIF_SDRAM_OUTPUT_IMPEDANCE_CALIBRATION_CONFIG,SDRAM Output Impedance Calibration Config Register"
bitfld.long 0x00 30. " ZQ_CS0EN                               ,Writing a 1 enables ZQ calibration for CS0." "0,1"
bitfld.long 0x00 28. "          ZQ_SFEXITEN                       ,Writing a 1 enables the issuing of ZQCL on Self-Refresh, Active Power-Down, and Precharge Power-Down exit." "0,1"
bitfld.long 0x00 18.--19. "     ZQ_ZQINIT_MULT                    ,Indicates the number of ZQCL durations that make up a ZQINIT duration, minus one." "0,1,2,3"
textline "                                                           "
bitfld.long 0x00 16.--17. " ZQ_ZQCL_MULT                           ,Indicates the number of ZQCS intervals that make up a ZQCL duration, minus one. ZQCS interval is defined by ZQ_ZQCS inEMIF_SDRAM_TIMING_3." "0,1,2,3"
hexmask.long.word 0x00 0.--15. 1. "          ZQ_REFINTERVAL                    ,Number of refresh periods between ZQCS commands. This field supports between one refresh period to 256 ms between ZQCS calibration commands. Refresh period is defined by refresh_rate inEMIF_SDRAM_REFRESH_CON..."
group.long 0xCC++0x3
line.long 0x00 "EMIF_TEMP_ALERT_CONFIG,Temperature Alert Configuration Register.NOTE: This register is only applicable to LPDDR2 memories and cannot be used in this device."
bitfld.long 0x00 31. " TA_CS1EN                               ,Writing 1 enables temperature alert polling for CS1." "0,1"
bitfld.long 0x00 30. "          TA_CS0EN                          ,Writing 1 enables temperature alert polling for CS0." "0,1"
bitfld.long 0x00 28. "     TA_SFEXITEN                       ,Temperature Alert Poll on Self-Refresh, Active Power-Down, and Precharge Power-Down exit enable. Writing 1 enables the issuing of a temperature alert poll on Self-Refresh exit." "0,1"
textline "                                                           "
bitfld.long 0x00 26.--27. " TA_DEVWDT                              ,This field indicates how wide a physical device is. It is used in conjunction with the TA_DEVCNT field to determine which byte lanes contain the temperature alert info. A value of0: 8-bit wide, 1: 16-bit wide,2:..." "0,1,2,3"
bitfld.long 0x00 24.--25. "          TA_DEVCNT                         ,This field indicates which external byte lanes contain a device for temperature monitoring. A value of0: one device,1: two devices,2: four devices.All other reserved." "0,1,2,3"
hexmask.long.tbyte 0x00 0.--21. 1. "     TA_REFINTERVAL                    ,Number of refresh periods between temperature alert polls. This field supports between one refresh period to 10 seconds between temperature alert polls. Refresh period is defined by REFRESH_RATE inEMIF_SDRAM_REFR..."
rgroup.long 0xD0++0x3
line.long 0x00 "EMIF_OCP_ERROR_LOG,OCP Error Log Register"
bitfld.long 0x00 14.--15. " MADDRSPACE                             ,Address space of the first errored transaction. 0x0: SDRAM 0x1: reserved 0x2: reserved 0x3: internal registers" "0,1,2,3"
bitfld.long 0x00 11.--13. "          MBURSTSEQ                         ,Addressing mode of the first errored transaction. (see, for more information)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     MCMD                              ,Command type of the first errored transaction. (see, for more information)" "0,1,2,3,4,5,6,7"
textline "                                                           "
hexmask.long.byte 0x00 0.--7. 1. " MCONNID                                ,Connection ID of the first errored transaction."
group.long 0xD4++0x3
line.long 0x00 "EMIF_READ_WRITE_LEVELING_RAMP_WINDOW,Read/write leveling ramp window register"
hexmask.long.word 0x00 0.--12. 1. " RDWRLVLINC_RMP_WIN                     ,Incremental leveling ramp window in number of refresh periods. The value programmed is minus one the required value. Refresh period is defined by REFRESH_RATE inEMIF_SDRAM_REFRESH_CONTROL register."
group.long 0xD8++0x3
line.long 0x00 "EMIF_READ_WRITE_LEVELING_RAMP_CONTROL,Read/write leveling ramp control register"
bitfld.long 0x00 31. " RDWRLVL_EN                             ,Read-Write Leveling enable. Set 1 to enable leveling. Set 0 to disable leveling." "0,1"
hexmask.long.byte 0x00 24.--30. 1. "          RDWRLVLINC_RMP_PRE                ,Incremental leveling pre-scalar in number of refresh periods during ramp window. The value programmed is minus one the required value. Refresh period is defined by REFRESH_RATE inEMIF_SDRAM_REFRESH_CONTROL r..."
hexmask.long.byte 0x00 16.--23. 1. "    RDLVLINC_RMP_INT                  ,Incremental read data eye training interval during ramp window. Number of RDWRLVLINC_RMP_PRE intervals between incremental read data eye training during ramp window. A value of 0 will disable incremental read data..."
textline "                                                           "
hexmask.long.byte 0x00 8.--15. 1. " RDLVLGATEINC_RMP_INT                   ,Incremental read DQS gate training interval during ramp window. Number of RDWRLVLINC_RMP_PRE intervals between incremental read DQS gate training during ramp window. A value of 0 will disable incremental read DQ..."
hexmask.long.byte 0x00 0.--7. 1. "         WRLVLINC_RMP_INT                  ,Incremental write leveling interval during ramp window. Number of RDWRLVLINC_RMP_PRE intervals between incremental write leveling during ramp window. A value of 0 will disable incremental write leveling."
group.long 0xDC++0x3
line.long 0x00 "EMIF_READ_WRITE_LEVELING_CONTROL,Read/write leveling control register"
bitfld.long 0x00 31. " RDWRLVLFULL_START                      ,Full leveling trigger. Writing a 1 to this field triggers full read and write leveling. This bit will self clear to 0." "0,1"
hexmask.long.byte 0x00 24.--30. 1. "          RDWRLVLINC_PRE                    ,Incremental leveling pre-scalar in number of refresh periods. The value programmed is minus one the required value. Refresh period is defined by REFRESH_RATE inEMIF_SDRAM_REFRESH_CONTROL register."
hexmask.long.byte 0x00 16.--23. 1. "    RDLVLINC_INT                      ,Incremental read data eye training interval. Number of RDWRLVLINC_PRE intervals between incremental read data eye training. A value of 0 will disable incremental read data eye training."
textline "                                                           "
hexmask.long.byte 0x00 8.--15. 1. " RDLVLGATEINC_INT                       ,Incremental read DQS gate training interval. Number of RDWRLVLINC_PRE intervals between incremental read DQS gate training. A value of 0 will disable incremental read DQS gate training."
hexmask.long.byte 0x00 0.--7. 1. "         WRLVLINC_INT                      ,Incremental write leveling interval. Number of RDWRLVLINC_PRE intervals between incremental write leveling. A value of 0 will disable incremental write leveling."
group.long 0xE4++0x3
line.long 0x00 "EMIF_DDR_PHY_CONTROL_1,PHY control register 1"
bitfld.long 0x00 27. " RDLVL_MASK                             ,Writing a 1 to this field will mask read data eye training during full leveling command, plus drives reg_phy_use_rd_data_eye_level control low to allow user to use programmed ratio values." "0,1"
bitfld.long 0x00 26. "          RDLVLGATE_MASK                    ,Writing a 1 to this field will mask dqs gate training during full leveling command, plus drives reg_phy_use_rd_dqs_level control low to allow user to use programmed ratio values." "0,1"
bitfld.long 0x00 25. "     WRLVL_MASK                        ,Writing a 1 to this field will mask write leveling training during full leveling command, plus drives reg_phy_use_wr_level control low to allow user to use programmed ratio values." "0,1"
textline "                                                           "
bitfld.long 0x00 21. " PHY_HALF_DELAYS                        ,Adjust slave delay line delays to support 2? mode 1: 2? mode (MDLL clock is half the rate of PHY) 0: 1? mode (MDLL clock rate is same as PHY)" "0,1"
bitfld.long 0x00 20. "          PHY_CLK_STALL_LEVEL               ,Enable variable idle value for delay lines. Enable during normal operations to avoid differential aging in the delay lines." "0,1"
bitfld.long 0x00 19. "     PHY_DIS_CALIB_RST                 ,Disable the dll_calib (internally generated) signal from resetting the Read Capture FIFO pointers and portions of data PHYs. Debug only. Note: dll_calib is generated by 1. EMIF_MISC_REG[0] DLL_CALIB_OS set to 1,o..." "0,1"
textline "                                                           "
bitfld.long 0x00 18. " PHY_INVERT_CLKOUT                      ,Inverts the polarity of DRAM clock. 0: core clock is passed on to DRAM 1: inverted core clock is passed on to DRAM" "0,1"
hexmask.long.byte 0x00 10.--17. 1. "          PHY_DLL_LOCK_DIFF                 ,The maximum number of delay line taps variation while maintaining the master DLL lock. When the PHY is in locked state and the variation on the clock exceeds the variation indicated by this field, the lock s..."
bitfld.long 0x00 9. "    PHY_FAST_DLL_LOCK                 ,Controls master DLL to lock fast or average logic must be part of locking process. Set to 1 before OPP transition commences, and set back to 0 after OPP transition completes. 1: MDLL lock is asserted based on sing..." "0,1"
textline "                                                           "
bitfld.long 0x00 0.--4. " READ_LATENCY                           ,This field defines the read latency for the read data from SDRAM in number of DDR clock cycles. This field is used by the EMIF as well as the PHY. READ_LATENCY = RL + reg_phy_rdc_we_to_re -1. EMIF uses above equ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xE8++0x3
line.long 0x00 "EMIF_DDR_PHY_CONTROL_1_SHADOW,"
bitfld.long 0x00 27. " RDLVL_MASK_SHDW                        ,Shadow field for RDLVL_MASK" "0,1"
bitfld.long 0x00 26. "          RDLVLGATE_MASK_SHDW               ,Shadow field for RDLVLGATE_MASK" "0,1"
bitfld.long 0x00 25. "     WRLVL_MASK_SHDW                   ,Shadow field for WRLVL_MASK" "0,1"
textline "                                                           "
bitfld.long 0x00 21. " PHY_HALF_DELAYS_SHDW                   ,Shadow field for PHY_HALF_DELAYS" "0,1"
bitfld.long 0x00 20. "          PHY_CLK_STALL_LEVEL_SHDW          ,Shadow field for PHY_CLK_STALL_LEVEL" "0,1"
bitfld.long 0x00 19. "     PHY_DIS_CALIB_RST_SHDW            ,Shadow field for PHY_DIS_CALIB_RST" "0,1"
textline "                                                           "
bitfld.long 0x00 18. " PHY_INVERT_CLKOUT_SHDW                 ,Shadow field for PHY_INVERT_CLKOUT" "0,1"
hexmask.long.byte 0x00 10.--17. 1. "          PHY_DLL_LOCK_DIFF_SHDW            ,Shadow field for PHY_DLL_LOCK_DIFF"
bitfld.long 0x00 9. "    PHY_FAST_DLL_SHDW                 ,Shadow field for PHY_FAST_DLL" "0,1"
textline "                                                           "
bitfld.long 0x00 0.--4. " READ_LATENCY_SHDW                      ,Shadow field for READ_LATENCY" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xEC++0x3
line.long 0x00 "EMIF_DDR_PHY_CONTROL_2,"
group.long 0x100++0x3
line.long 0x00 "EMIF_PRIORITY_TO_CLASS_OF_SERVICE_MAPPING,"
bitfld.long 0x00 31. " PRI_COS_MAP_EN                         ,Set 1 to enable priority to class of service mapping. Set 0 to disable mapping." "0,1"
bitfld.long 0x00 14.--15. "          PRI_7_COS                         ,Class of service for commands with priority of 7. Value can be 1, 2, or 3. Setting a value of 0 will have similar effects as a value of 3." "0,1,2,3"
bitfld.long 0x00 12.--13. "     PRI_6_COS                         ,Class of service for commands with priority of 6. Value can be 1, 2, or 3. Setting a value of 0 will have similar effects as a value of 3." "0,1,2,3"
textline "                                                           "
bitfld.long 0x00 10.--11. " PRI_5_COS                              ,Class of service for commands with priority of 5. Value can be 1, 2, or 3. Setting a value of 0 will have similar effects as a value of 3." "0,1,2,3"
bitfld.long 0x00 8.--9. "          PRI_4_COS                         ,Class of service for commands with priority of 4. Value can be 1, 2, or 3. Setting a value of 0 will have similar effects as a value of 3." "0,1,2,3"
bitfld.long 0x00 6.--7. "     PRI_3_COS                         ,Class of service for commands with priority of 3. Value can be 1, 2, or 3. Setting a value of 0 will have similar effects as a value of 3." "0,1,2,3"
textline "                                                           "
bitfld.long 0x00 4.--5. " PRI_2_COS                              ,Class of service for commands with priority of 2. Value can be 1, 2, or 3. Setting a value of 0 will have similar effects as a value of 3." "0,1,2,3"
bitfld.long 0x00 2.--3. "          PRI_1_COS                         ,Class of service for commands with priority of 1. Value can be 1, 2, or 3. Setting a value of 0 will have similar effects as a value of 3." "0,1,2,3"
bitfld.long 0x00 0.--1. "     PRI_0_COS                         ,Class of service for commands with priority of 0. Value can be 1, 2, or 3. Setting a value of 0 will have similar effects as a value of 3." "0,1,2,3"
group.long 0x104++0x3
line.long 0x00 "EMIF_CONNECTION_ID_TO_CLASS_OF_SERVICE_1_MAPPING,"
bitfld.long 0x00 31. " CONNID_COS_1_MAP_EN                    ,Set 1 to enable Connection ID to class of service 1 mapping. Set 0 to disable mapping." "0,1"
hexmask.long.byte 0x00 23.--30. 1. "          CONNID_1_COS_1                    ,Connection ID value 1 for class of service 1."
bitfld.long 0x00 20.--22. "    MSK_1_COS_1                       ,Mask for Connection ID value 1 for class of service 1. Value of 0 will disable masking. Value of 1 will mask Connection ID bit 0. Value of 2 will mask Connection ID bits 1:0. Value of 3 will mask Connection ID bit..." "0,1,2,3,4,5,6,7"
textline "                                                           "
hexmask.long.byte 0x00 12.--19. 1. " CONNID_2_COS_1                         ,Connection ID value 2 for class of service 1."
bitfld.long 0x00 10.--11. "         MSK_2_COS_1                       ,Mask for Connection ID value 2 for class of service 1. Value of 0 will disable masking. Value of 1 will mask Connection ID bit 0. Value of 2 will mask Connection ID bits 1:0. Value of 3 will mask Connection I..." "0,1,2,3"
hexmask.long.byte 0x00 2.--9. 1. "     CONNID_3_COS_1                    ,Connection ID value 3 for class of service 1."
textline "                                                           "
bitfld.long 0x00 0.--1. " MSK_3_COS_1                            ,Mask for Connection ID value 3 for class of service 1. Value of 0 will disable masking. Value of 1 will mask Connection ID bit 0. Value of 2 will mask Connection ID bits 1:0. Value of 3 will mask Connection ID b..." "0,1,2,3"
group.long 0x108++0x3
line.long 0x00 "EMIF_CONNECTION_ID_TO_CLASS_OF_SERVICE_2_MAPPING,"
bitfld.long 0x00 31. " CONNID_COS_2_MAP_EN                    ,Set 1 to enable Connection ID to class of service 2 mapping. Set 0 to disable mapping." "0,1"
hexmask.long.byte 0x00 23.--30. 1. "          CONNID_1_COS_2                    ,Connection ID value 1 for class of service 2."
bitfld.long 0x00 20.--22. "    MSK_1_COS_2                       ,Mask for Connection ID value 1 for class of service 2. Value of 0 will disable masking. Value of 1 will mask Connection ID bit 0. Value of 2 will mask Connection ID bits 1:0. Value of 3 will mask Connection ID bit..." "0,1,2,3,4,5,6,7"
textline "                                                           "
hexmask.long.byte 0x00 12.--19. 1. " CONNID_2_COS_2                         ,Connection ID value 2 for class of service 2."
bitfld.long 0x00 10.--11. "         MSK_2_COS_2                       ,Mask for Connection ID value 2 for class of service 2. Value of 0 will disable masking. Value of 1 will mask Connection ID bit 0. Value of 2 will mask Connection ID bits 1:0. Value of 3 will mask Connection I..." "0,1,2,3"
hexmask.long.byte 0x00 2.--9. 1. "     CONNID_3_COS_2                    ,Connection ID value 3 for class of service 2."
textline "                                                           "
bitfld.long 0x00 0.--1. " MSK_3_COS_2                            ,Mask for Connection ID value 3 for class of service 2. Value of 0 will disable masking. Value of 1 will mask Connection ID bit 0. Value of 2 will mask Connection ID bits 1:0. Value of 3 will mask Connection ID b..." "0,1,2,3"
group.long 0x110++0x3
line.long 0x00 "EMIF_ECC_CTRL_REG,"
bitfld.long 0x00 31. " REG_ECC_EN                             ,Set 1 to enable ECC. Set 0 to disable ECC." "0,1"
bitfld.long 0x00 30. "          REG_ECC_ADDR_RGN_PROT             ,Setting this field to 1 and reg_ecc_en to a 1 will enable ECC calculation for accesses within the address ranges and disable ECC calculation for accesses outside the address ranges. Setting this field to 0 a..." "0,1"
bitfld.long 0x00 1. "     REG_ECC_ADDR_RGN_2_EN             ,Set 1 to enable ECC address range 2. Set 0 to disable ECC address range 2." "0,1"
textline "                                                           "
bitfld.long 0x00 0. " REG_ECC_ADDR_RGN_1_EN                  ,Set 1 to enable ECC address range 1. Set 0 to disable ECC address range 1." "0,1"
group.long 0x114++0x3
line.long 0x00 "EMIF_ECC_ADDRESS_RANGE_1,"
hexmask.long.word 0x00 16.--31. 1. " REG_ECC_END_ADDR_1                     ,End address[31:16] for ECC address range 1. If this bit field is set to 0x1000, this indicates that the SDRAM physical end address on which the ECC applies is 0x1000 FFFF. If this bit field is set to 0x0FFF the ..."
hexmask.long.word 0x00 0.--15. 1. "       REG_ECC_STRT_ADDR_1               ,Start address[31:16] for ECC address range 1. If this bit field is set to 0x0000, this indicates that the SDRAM physical start address on which the ECC applies is 0x0000 0000. This bit field controls only the 1..."
group.long 0x118++0x3
line.long 0x00 "EMIF_ECC_ADDRESS_RANGE_2,"
hexmask.long.word 0x00 16.--31. 1. " REG_ECC_END_ADDR_2                     ,End address[31:16] for ECC address range 2. If this bit field is set to 0x1000, this indicates that the SDRAM physical end address on which the ECC applies is 0x1000 FFFF. If this bit field is set to 0x0FFF the ..."
hexmask.long.word 0x00 0.--15. 1. "       REG_ECC_STRT_ADDR_2               ,Start address[31:16] for ECC address range 2. If this bit field is set to 0x0000, this indicates that the SDRAM physical start address on which the ECC applies is 0x0000 0000. This bit field controls only the 1..."
group.long 0x120++0x3
line.long 0x00 "EMIF_READ_WRITE_EXECUTION_THRESHOLD,"
bitfld.long 0x00 31. " MFLAG_OVERRIDE                         ,Mflag override. - use_MFLAG. - use_COS." "use_MFLAG,use_COS"
bitfld.long 0x00 8.--12. "  WR_THRSH                          ,Write Threshold. Number of SDRAM write bursts after which the EMIF arbitration will switch to executing read commands. The value programmed is always minus one the required number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    RD_THRSH                          ,Read threshold. Number of SDRAM read bursts after which the EMIF arbitration will switch to executing write commands. The value that is programmed is always minus one the required number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x124++0x3
line.long 0x00 "EMIF_COS_CONFIG,Priority Raise Counter Register."
hexmask.long.byte 0x00 16.--23. 1. " COS_COUNT_1                            ,Priority Raise Counter for class of service 1. Number of EMIF_FICLK cycles after which the EMIF momentarily raises the priority of the class of service 1 commands in the Command FIFO. A value of N will be equal ..."
hexmask.long.byte 0x00 8.--15. 1. "         COS_COUNT_2                       ,Priority Raise Counter for class of service 2. Number of EMIF_FICLK cycles after which the EMIF momentarily raises the priority of the class of service 2 commands in the Command FIFO. A value of N will be equ..."
hexmask.long.byte 0x00 0.--7. 1. "    PR_OLD_COUNT                      ,Priority Raise Old Counter. Number of EMIF_FICLK cycles after which the EMIF momentarily raises the priority of the oldest command in the Command FIFO. A value of N will be equal to N x 16 clocks."
group.long 0x130++0x3
line.long 0x00 "EMIF_1B_ECC_ERR_CNT,"
hexmask.long 0x00 0.--31. 1. " REG_1B_ECC_ERR_CNT                     ,32 bit counter that displays number of 1-bit ECC errors. Writing a value will decrement the count by that value. For example, if the count is 0x1234_ABF3, writing 0x1234_ABF3 to this register will clear it."
group.long 0x134++0x3
line.long 0x00 "EMIF_1B_ECC_ERR_THRSH,"
hexmask.long.byte 0x00 24.--31. 1. " REG_1B_ECC_ERR_THRSH                   ,1-bit ECC error threshold. The EMIF will generate an interrupt when the 1-bit ECC error count is greater than or equal to this threshold. A value of 0 will disable the generation of the interrupt."
hexmask.long.word 0x00 0.--15. 1. "         REG_1B_ECC_ERR_WIN                ,1-bit ECC error window in number of refresh periods. The EMIF will generate an interrupt when the 1-bit ECC error count is equal to or greater than the threshold within this window. A value of 0 will disable ..."
group.long 0x138++0x3
line.long 0x00 "EMIF_1B_ECC_ERR_DIST_1,"
hexmask.long 0x00 0.--31. 1. " REG_1B_ECC_ERR_DIST_1                  ,1-bit ECC error distribution over data bus bit 31:0. A value of 1 on a bit indicates 1-bit error on the corresponding bit on the data bus. Writing a 1 to any bit will clear that bit. Writing a 0 has no effect."
group.long 0x13C++0x3
line.long 0x00 "EMIF_1B_ECC_ERR_ADDR_LOG,"
hexmask.long 0x00 0.--31. 1. " REG_1B_ECC_ERR_ADDR                    ,1-bit ECC error address. Most significant bits of the starting address(es) related to the SDRAM reads that had a 1-bit ECC error. This field displays up to four addresses logged in the 4 deep address logging FIF..."
group.long 0x140++0x3
line.long 0x00 "EMIF_2B_ECC_ERR_ADDR_LOG,"
hexmask.long 0x00 0.--31. 1. " REG_2B_ECC_ERR_ADDR                    ,2-bit ECC error address. Most significant bits of the starting address of the first SDRAM burst that had the 2-bit ECC error. Writing a 1 will clear this field. Writing any other value has no effect."
rgroup.long 0x144++0x3
line.long 0x00 "EMIF_PHY_STATUS_1,"
hexmask.long.tbyte 0x00 12.--29. 1. " PHY_REG_PHY_CTRL_DLL_SLAVE_VALUE       ,DLL Slave Value"
bitfld.long 0x00 4.--8. "     PHY_REG_STATUS_DLL_LOCK           ,Lock Status for Data DLLs" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--1. "    PHY_REG_PHY_CTRL_DLL_LOCK         ,Lock Status for Command DLLs" "0,1,2,3"
rgroup.long 0x148++0x3
line.long 0x00 "EMIF_PHY_STATUS_2,"
hexmask.long 0x00 0.--31. 1. " PHY_REG_STATUS_DLL_SLAVE_VALUE_LO      ,Bits 31:0 of Phy_reg_status_dll_slave_value"
rgroup.long 0x14C++0x3
line.long 0x00 "EMIF_PHY_STATUS_3,"
hexmask.long.word 0x00 16.--30. 1. " PHY_REG_RDFIFO_RDPTR                   ,Read FIFO Read Pointer"
hexmask.long.word 0x00 0.--12. 1. "       PHY_REG_STATUS_DLL_SLAVE_VALUE_HI ,Bits 44:32 of Phy_reg_status_dll_slave_value"
rgroup.long 0x150++0x3
line.long 0x00 "EMIF_PHY_STATUS_4,"
hexmask.long.word 0x00 16.--30. 1. " PHY_REG_GATELVL_FSM                    ,Gate Leveling FSM"
hexmask.long.word 0x00 0.--14. 1. "       PHY_REG_RDFIFO_WRPTR              ,Read FIFO Write Pointer"
rgroup.long 0x154++0x3
line.long 0x00 "EMIF_PHY_STATUS_5,"
hexmask.long.tbyte 0x00 0.--19. 1. " PHY_REG_RD_LEVEL_FSM                   ,Read Leveling FSM"
rgroup.long 0x158++0x3
line.long 0x00 "EMIF_PHY_STATUS_6,"
hexmask.long.word 0x00 0.--14. 1. " PHY_REG_WR_LEVEL_FSM                   ,Write Leveling FSM"
rgroup.long 0x15C++0x3
line.long 0x00 "EMIF_PHY_STATUS_7,"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_RDLVL_DQS_RATIO1               ,Read leveling DQS ratio1"
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_RDLVL_DQS_RATIO0          ,Read leveling DQS ratio0"
rgroup.long 0x160++0x3
line.long 0x00 "EMIF_PHY_STATUS_8,"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_RDLVL_DQS_RATIO3               ,Read leveling DQS ratio3"
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_RDLVL_DQS_RATIO2          ,Read leveling DQS ratio2"
rgroup.long 0x164++0x3
line.long 0x00 "EMIF_PHY_STATUS_9,"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_RDLVL_DQS_RATIO5               ,Read Leveling DQS ratio5"
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_RDLVL_DQS_RATIO4          ,Read Leveling DQS ratio4"
rgroup.long 0x168++0x3
line.long 0x00 "EMIF_PHY_STATUS_10,"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_RDLVL_DQS_RATIO7               ,Read leveling DQS ratio7"
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_RDLVL_DQS_RATIO6          ,Read leveling DQS ratio6"
rgroup.long 0x16C++0x3
line.long 0x00 "EMIF_PHY_STATUS_11,"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_RDLVL_DQS_RATIO9               ,Read leveling DQS ratio9"
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_RDLVL_DQS_RATIO8          ,Read leveling DQS ratio8"
rgroup.long 0x170++0x3
line.long 0x00 "EMIF_PHY_STATUS_12,"
hexmask.long.word 0x00 16.--26. 1. " PHY_REG_RDLVL_FIFOWEIN_RATIO1          ,Read leveling FIFO Write Enable Ratio1"
hexmask.long.word 0x00 0.--10. 1. "       PHY_REG_RDLVL_FIFOWEIN_RATIO0     ,Read leveling FIFO Write Enable Ratio0"
rgroup.long 0x174++0x3
line.long 0x00 "EMIF_PHY_STATUS_13,"
hexmask.long.word 0x00 16.--26. 1. " PHY_REG_RDLVL_FIFOWEIN_RATIO3          ,Read leveling FIFO Write Enable Ratio3"
hexmask.long.word 0x00 0.--10. 1. "       PHY_REG_RDLVL_FIFOWEIN_RATIO2     ,Read leveling FIFO Write Enable Ratio2"
rgroup.long 0x178++0x3
line.long 0x00 "EMIF_PHY_STATUS_14,"
hexmask.long.word 0x00 16.--26. 1. " PHY_REG_RDLVL_FIFOWEIN_RATIO5          ,Read leveling FIFO Write Enable Ratio5"
hexmask.long.word 0x00 0.--10. 1. "       PHY_REG_RDLVL_FIFOWEIN_RATIO4     ,Read leveling FIFO Write Enable Ratio4"
rgroup.long 0x17C++0x3
line.long 0x00 "EMIF_PHY_STATUS_15,"
hexmask.long.word 0x00 16.--26. 1. " PHY_REG_RDLVL_FIFOWEIN_RATIO7          ,Read leveling FIFO Wrie Enable Ratio7"
hexmask.long.word 0x00 0.--10. 1. "       PHY_REG_RDLVL_FIFOWEIN_RATIO6     ,Read leveling FIFO Wrie Enable Ratio6"
rgroup.long 0x180++0x3
line.long 0x00 "EMIF_PHY_STATUS_16,"
hexmask.long.word 0x00 16.--26. 1. " PHY_REG_RDLVL_FIFOWEIN_RATIO9          ,Read leveling FIFO Write Enable Ratio9"
hexmask.long.word 0x00 0.--10. 1. "       PHY_REG_RDLVL_FIFOWEIN_RATIO8     ,Read leveling FIFO Write Enable Ratio8"
rgroup.long 0x184++0x3
line.long 0x00 "EMIF_PHY_STATUS_17,"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WRLVL_DQ_RATIO1                ,Write leveling DQ ratio1"
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WRLVL_DQ_RATIO0           ,Write leveling DQ ratio0"
rgroup.long 0x188++0x3
line.long 0x00 "EMIF_PHY_STATUS_18,"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WRLVL_DQ_RATIO3                ,Write leveling DQ ratio3"
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WRLVL_DQ_RATIO2           ,Write leveling DQ ratio2"
rgroup.long 0x18C++0x3
line.long 0x00 "EMIF_PHY_STATUS_19,"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WRLVL_DQ_RATIO5                ,Write leveling DQ ratio5"
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WRLVL_DQ_RATIO4           ,Write leveling DQ ratio4"
rgroup.long 0x190++0x3
line.long 0x00 "EMIF_PHY_STATUS_20,"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WRLVL_DQ_RATIO7                ,Write leveling DQ ratio7"
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WRLVL_DQ_RATIO6           ,Write leveling DQ ratio6"
rgroup.long 0x194++0x3
line.long 0x00 "EMIF_PHY_STATUS_21,"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WRLVL_DQ_RATIO9                ,Write leveling DQ ratio9"
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WRLVL_DQ_RATIO8           ,Write leveling DQ ratio8"
rgroup.long 0x198++0x3
line.long 0x00 "EMIF_PHY_STATUS_22,"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WRLVL_DQS_RATIO1               ,Write leveling DQS ratio 1"
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WRLVL_DQS_RATIO0          ,Write leveling DQS ratio 0"
rgroup.long 0x19C++0x3
line.long 0x00 "EMIF_PHY_STATUS_23,"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WRLVL_DQS_RATIO3               ,Write leveling DQS ratio3"
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WRLVL_DQS_RATIO2          ,Write leveling DQS ratio2"
rgroup.long 0x1A0++0x3
line.long 0x00 "EMIF_PHY_STATUS_24,"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WRLVL_DQS_RATIO5               ,Write leveling DQS ratio5"
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WRLVL_DQS_RATIO4          ,Write leveling DQS ratio4"
rgroup.long 0x1A4++0x3
line.long 0x00 "EMIF_PHY_STATUS_25,"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WRLVL_DQS_RATIO7               ,Write leveling DQS ratio7"
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WRLVL_DQS_RATIO6          ,Write leveling DQS ratio6"
rgroup.long 0x1A8++0x3
line.long 0x00 "EMIF_PHY_STATUS_26,"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WRLVL_DQS_RATIO9               ,Write leveling DQS ratio9"
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WRLVL_DQS_RATIO8          ,Write leveling DQS ratio8"
rgroup.long 0x1AC++0x3
line.long 0x00 "EMIF_PHY_STATUS_27,"
bitfld.long 0x00 28.--29. " PHY_REG_PHY_CONTROL_MDLL_UNLOCK_STICKY ,Phy control MDLL unlock sticky" "0,1,2,3"
bitfld.long 0x00 20.--24. "          PHY_REG_STATUS_MDLL_UNLOCK_STICKY ,Phy data MDLL unlock sticky" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.tbyte 0x00 0.--19. 1. "    PHY_REG_RDC_FIFO_RST_ERR_CNT      ,RDC FIFO reset error count"
rgroup.long 0x1B0++0x3
line.long 0x00 "EMIF_PHY_STATUS_28,"
bitfld.long 0x00 24.--28. " PHY_REG_GATELVL_INC_FAIL               ,Gate leveling failure." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "         PHY_REG_WRLVL_INC_FAIL            ,Write leveling failure." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "    PHY_REG_RDLVL_INC_FAIL            ,Read leveling failure." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                                           "
bitfld.long 0x00 0.--4. " PHY_REG_FIFO_WE_IN_MIASALIGNED_STICKY  ,FIFO write enable in misaligned stickly" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x200++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_1,Control DLL Slave Ratio Register"
hexmask.long.word 0x00 20.--29. 1. " PHY_REG_CTRL_SLAVE_RATIO2              ,The user programmable ratio value for address/command launch timing in PHY control macro 2. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master DLL ..."
hexmask.long.word 0x00 10.--19. 1. "       PHY_REG_CTRL_SLAVE_RATIO1         ,The user programmable ratio value for address/command launch timing in PHY control macro 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master DLL..."
hexmask.long.word 0x00 0.--9. 1. "  PHY_REG_CTRL_SLAVE_RATIO0         ,The user programmable ratio value for address/command launch timing in PHY control macro 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master DLL will..."
group.long 0x204++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_1_SHADOW,Control DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 20.--29. 1. " PHY_REG_CTRL_SLAVE_RATIO2              ,The user programmable ratio value for address/command launch timing in PHY control macro 2. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master DLL ..."
hexmask.long.word 0x00 10.--19. 1. "       PHY_REG_CTRL_SLAVE_RATIO1         ,The user programmable ratio value for address/command launch timing in PHY control macro 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master DLL..."
hexmask.long.word 0x00 0.--9. 1. "  PHY_REG_CTRL_SLAVE_RATIO0         ,The user programmable ratio value for address/command launch timing in PHY control macro 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master DLL will..."
group.long 0x208++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_2,Data macro 0, FIFO write enable (read DQS gate) DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--26. 1. " PHY_REG_FIFO_WE_SLAVE_RATIO1           ,The user programmable ratio value for the FIFO write enable slave DLL in PHY data macro 0, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from t..."
hexmask.long.word 0x00 0.--10. 1. "       PHY_REG_FIFO_WE_SLAVE_RATIO0      ,The user programmable ratio value for the FIFO write enable slave DLL in PHY data macro 0, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from ..."
group.long 0x20C++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_2_SHADOW,Data macro 0, FIFO write enable (read DQS gate) DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--26. 1. " PHY_REG_FIFO_WE_SLAVE_RATIO1           ,The user programmable ratio value for the FIFO write enable slave DLL in PHY data macro 0, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from t..."
hexmask.long.word 0x00 0.--10. 1. "       PHY_REG_FIFO_WE_SLAVE_RATIO0      ,The user programmable ratio value for the FIFO write enable slave DLL in PHY data macro 0, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from ..."
group.long 0x210++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_3,Data macro 1, FIFO write enable (read DQS gate) DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--26. 1. " PHY_REG_FIFO_WE_SLAVE_RATIO3           ,The user programmable ratio value for the FIFO write enable slave DLL in PHY data macro 1, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from t..."
hexmask.long.word 0x00 0.--10. 1. "       PHY_REG_FIFO_WE_SLAVE_RATIO2      ,The user programmable ratio value for the FIFO write enable slave DLL in PHY data macro 1, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from ..."
group.long 0x214++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_3_SHADOW,Data macro 1, FIFO write enable (read DQS gate) DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--26. 1. " PHY_REG_FIFO_WE_SLAVE_RATIO3           ,The user programmable ratio value for the FIFO write enable slave DLL in PHY data macro 1, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from t..."
hexmask.long.word 0x00 0.--10. 1. "       PHY_REG_FIFO_WE_SLAVE_RATIO2      ,The user programmable ratio value for the FIFO write enable slave DLL in PHY data macro 1, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from ..."
group.long 0x218++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_4,Data macro 2, FIFO write enable (read DQS gate) DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--26. 1. " PHY_REG_FIFO_WE_SLAVE_RATIO5           ,The user programmable ratio value for the FIFO write enable slave DLL in PHY data macro 2, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from t..."
hexmask.long.word 0x00 0.--10. 1. "       PHY_REG_FIFO_WE_SLAVE_RATIO4      ,The user programmable ratio value for the FIFO write enable slave DLL in PHY data macro 2, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from ..."
group.long 0x21C++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_4_SHADOW,Data macro 2, FIFO write enable (read DQS gate) DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--26. 1. " PHY_REG_FIFO_WE_SLAVE_RATIO5           ,The user programmable ratio value for the FIFO write enable slave DLL in PHY data macro 2, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from t..."
hexmask.long.word 0x00 0.--10. 1. "       PHY_REG_FIFO_WE_SLAVE_RATIO4      ,The user programmable ratio value for the FIFO write enable slave DLL in PHY data macro 2, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from ..."
group.long 0x220++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_5,Data macro 3, FIFO write enable (read DQS gate) DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--26. 1. " PHY_REG_FIFO_WE_SLAVE_RATIO7           ,The user programmable ratio value for the FIFO write enable slave DLL in PHY data macro 3, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from t..."
hexmask.long.word 0x00 0.--10. 1. "       PHY_REG_FIFO_WE_SLAVE_RATIO6      ,The user programmable ratio value for the FIFO write enable slave DLL in PHY data macro 3, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from ..."
group.long 0x224++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_5_SHADOW,Data macro 3, FIFO write enable (read DQS gate) DLL Slave Ratio Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--26. 1. " PHY_REG_FIFO_WE_SLAVE_RATIO7           ,The user programmable ratio value for the FIFO write enable slave DLL in PHY data macro 3, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from t..."
hexmask.long.word 0x00 0.--10. 1. "       PHY_REG_FIFO_WE_SLAVE_RATIO6      ,The user programmable ratio value for the FIFO write enable slave DLL in PHY data macro 3, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from ..."
group.long 0x228++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_6,ECC Data macro, FIFO write enable (read DQS gate) DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--26. 1. " PHY_REG_FIFO_WE_SLAVE_RATIO9           ,The user programmable ratio value for the FIFO write enable slave DLL in PHY ECC data macro, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from..."
hexmask.long.word 0x00 0.--10. 1. "       PHY_REG_FIFO_WE_SLAVE_RATIO8      ,The user programmable ratio value for the FIFO write enable slave DLL in PHY ECC data macro, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value fro..."
group.long 0x22C++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_6_SHADOW,ECC Data macro, FIFO write enable (read DQS gate) DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--26. 1. " PHY_REG_FIFO_WE_SLAVE_RATIO9           ,The user programmable ratio value for the FIFO write enable slave DLL in PHY ECC data macro, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from..."
hexmask.long.word 0x00 0.--10. 1. "       PHY_REG_FIFO_WE_SLAVE_RATIO8      ,The user programmable ratio value for the FIFO write enable slave DLL in PHY ECC data macro, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value fro..."
group.long 0x230++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_7,Data macro 0, read DQS DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_RD_DQS_SLAVE_RATIO1            ,The user programmable ratio value for the read DQS slave DLL in PHY data macro 0, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_RD_DQS_SLAVE_RATIO0       ,The user programmable ratio value for the read DQS slave DLL in PHY data macro 0, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
group.long 0x234++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_7_SHADOW,Data macro 0, read DQS DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_RD_DQS_SLAVE_RATIO1            ,The user programmable ratio value for the read DQS slave DLL in PHY data macro 0, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_RD_DQS_SLAVE_RATIO0       ,The user programmable ratio value for the read DQS slave DLL in PHY data macro 0, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
group.long 0x238++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_8,Data macro 1, read DQS DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_RD_DQS_SLAVE_RATIO3            ,The user programmable ratio value for the read DQS slave DLL in PHY data macro 1, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_RD_DQS_SLAVE_RATIO2       ,The user programmable ratio value for the read DQS slave DLL in PHY data macro 1, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
group.long 0x23C++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_8_SHADOW,Data macro 1, read DQS DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_RD_DQS_SLAVE_RATIO3            ,The user programmable ratio value for the read DQS slave DLL in PHY data macro 1, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_RD_DQS_SLAVE_RATIO2       ,The user programmable ratio value for the read DQS slave DLL in PHY data macro 1, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
group.long 0x240++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_9,Data macro 2, read DQS DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_RD_DQS_SLAVE_RATIO5            ,The user programmable ratio value for the read DQS slave DLL in PHY data macro 2, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_RD_DQS_SLAVE_RATIO4       ,The user programmable ratio value for the read DQS slave DLL in PHY data macro 2, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
group.long 0x244++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_9_SHADOW,Data macro 2, read DQS DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_RD_DQS_SLAVE_RATIO5            ,The user programmable ratio value for the read DQS slave DLL in PHY data macro 2, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_RD_DQS_SLAVE_RATIO4       ,The user programmable ratio value for the read DQS slave DLL in PHY data macro 2, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
group.long 0x248++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_10,Data macro 3, read DQS DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_RD_DQS_SLAVE_RATIO7            ,The user programmable ratio value for the read DQS slave DLL in PHY data macro 3, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_RD_DQS_SLAVE_RATIO6       ,The user programmable ratio value for the read DQS slave DLL in PHY data macro 3, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
group.long 0x24C++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_10_SHADOW,Data macro 3, read DQS DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_RD_DQS_SLAVE_RATIO7            ,The user programmable ratio value for the read DQS slave DLL in PHY data macro 3, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_RD_DQS_SLAVE_RATIO6       ,The user programmable ratio value for the read DQS slave DLL in PHY data macro 3, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
group.long 0x250++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_11,ECC Data macro, read DQS DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_RD_DQS_SLAVE_RATIO9            ,The user programmable ratio value for the read DQS slave DLL in PHY ECC data macro, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the mast..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_RD_DQS_SLAVE_RATIO8       ,The user programmable ratio value for the read DQS slave DLL in PHY ECC data macro, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the mas..."
group.long 0x254++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_11_SHADOW,ECC Data macro, read DQS DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_RD_DQS_SLAVE_RATIO9            ,The user programmable ratio value for the read DQS slave DLL in PHY ECC data macro, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the mast..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_RD_DQS_SLAVE_RATIO8       ,The user programmable ratio value for the read DQS slave DLL in PHY ECC data macro, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the mas..."
group.long 0x258++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_12,Data macro 0, write DQ (data) DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DATA_SLAVE_RATIO1           ,The user programmable ratio value for the write DQ slave DLL in PHY data macro 0, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DATA_SLAVE_RATIO0      ,The user programmable ratio value for the write DQ slave DLL in PHY data macro 0, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
group.long 0x25C++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_12_SHADOW,Data macro 0, write DQ (data) DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DATA_SLAVE_RATIO1           ,The user programmable ratio value for the write DQ slave DLL in PHY data macro 0, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DATA_SLAVE_RATIO0      ,The user programmable ratio value for the write DQ slave DLL in PHY data macro 0, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
group.long 0x260++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_13,Data macro 1, write DQ (data) DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DATA_SLAVE_RATIO3           ,The user programmable ratio value for the write DQ slave DLL in PHY data macro 1, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DATA_SLAVE_RATIO2      ,The user programmable ratio value for the write DQ slave DLL in PHY data macro 1, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
group.long 0x264++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_13_SHADOW,Data macro 1, write DQ (data) DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DATA_SLAVE_RATIO3           ,The user programmable ratio value for the write DQ slave DLL in PHY data macro 1, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DATA_SLAVE_RATIO2      ,The user programmable ratio value for the write DQ slave DLL in PHY data macro 1, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
group.long 0x268++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_14,Data macro 2, write DQ (data) DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DATA_SLAVE_RATIO5           ,The user programmable ratio value for the write DQ slave DLL in PHY data macro 2, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DATA_SLAVE_RATIO4      ,The user programmable ratio value for the write DQ slave DLL in PHY data macro 2, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
group.long 0x26C++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_14_SHADOW,Data macro 2, write DQ (data) DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DATA_SLAVE_RATIO5           ,The user programmable ratio value for the write DQ slave DLL in PHY data macro 2, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DATA_SLAVE_RATIO4      ,The user programmable ratio value for the write DQ slave DLL in PHY data macro 2, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
group.long 0x270++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_15,Data macro 3, write DQ (data) DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DATA_SLAVE_RATIO7           ,The user programmable ratio value for the write DQ slave DLL in PHY data macro 3, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DATA_SLAVE_RATIO6      ,The user programmable ratio value for the write DQ slave DLL in PHY data macro 3, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
group.long 0x274++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_15_SHADOW,Data macro 3, write DQ (data) DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DATA_SLAVE_RATIO7           ,The user programmable ratio value for the write DQ slave DLL in PHY data macro 3, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DATA_SLAVE_RATIO6      ,The user programmable ratio value for the write DQ slave DLL in PHY data macro 3, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
group.long 0x278++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_16,ECC Data macro, write DQ (data) DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DATA_SLAVE_RATIO9           ,The user programmable ratio value for the write DQ slave DLL in PHY ECC data macro, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the mast..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DATA_SLAVE_RATIO8      ,The user programmable ratio value for the write DQ slave DLL in PHY ECC data macro, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the mas..."
group.long 0x27C++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_16_SHADOW,ECC Data macro, write DQ (data) DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DATA_SLAVE_RATIO9           ,The user programmable ratio value for the write DQ slave DLL in PHY ECC data macro, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the mast..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DATA_SLAVE_RATIO8      ,The user programmable ratio value for the write DQ slave DLL in PHY ECC data macro, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the mas..."
group.long 0x280++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_17,Data macro 0, write DQS DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DQS_SLAVE_RATIO1            ,The user programmable ratio value for the write DQS slave DLL in PHY data macro 0, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DQS_SLAVE_RATIO0       ,The user programmable ratio value for the write DQS slave DLL in PHY data macro 0, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the mast..."
group.long 0x284++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_17_SHADOW,Data macro 0, write DQS DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DQS_SLAVE_RATIO1            ,The user programmable ratio value for the write DQS slave DLL in PHY data macro 0, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DQS_SLAVE_RATIO0       ,The user programmable ratio value for the write DQS slave DLL in PHY data macro 0, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the mast..."
group.long 0x288++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_18,Data macro 1, write DQS DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DQS_SLAVE_RATIO3            ,The user programmable ratio value for the write DQS slave DLL in PHY data macro 1, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DQS_SLAVE_RATIO2       ,The user programmable ratio value for the write DQS slave DLL in PHY data macro 1, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the mast..."
group.long 0x28C++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_18_SHADOW,Data macro 1, write DQS DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DQS_SLAVE_RATIO3            ,The user programmable ratio value for the write DQS slave DLL in PHY data macro 1, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DQS_SLAVE_RATIO2       ,The user programmable ratio value for the write DQS slave DLL in PHY data macro 1, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the mast..."
group.long 0x290++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_19,Data macro 2, write DQS DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DQS_SLAVE_RATIO5            ,The user programmable ratio value for the write DQS slave DLL in PHY data macro 2, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DQS_SLAVE_RATIO4       ,The user programmable ratio value for the write DQS slave DLL in PHY data macro 2, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the mast..."
group.long 0x294++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_19_SHADOW,Data macro 2, write DQS DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DQS_SLAVE_RATIO5            ,The user programmable ratio value for the write DQS slave DLL in PHY data macro 2, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DQS_SLAVE_RATIO4       ,The user programmable ratio value for the write DQS slave DLL in PHY data macro 2, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the mast..."
group.long 0x298++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_20,Data macro 3, write DQS DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DQS_SLAVE_RATIO7            ,The user programmable ratio value for the write DQS slave DLL in PHY data macro 3, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DQS_SLAVE_RATIO6       ,The user programmable ratio value for the write DQS slave DLL in PHY data macro 3, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the mast..."
group.long 0x29C++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_20_SHADOW,Data macro 3, write DQS DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DQS_SLAVE_RATIO7            ,The user programmable ratio value for the write DQS slave DLL in PHY data macro 3, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DQS_SLAVE_RATIO6       ,The user programmable ratio value for the write DQS slave DLL in PHY data macro 3, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the mast..."
group.long 0x2A0++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_21,ECC Data macro, write DQS DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DQS_SLAVE_RATIO9            ,The user programmable ratio value for the write DQS slave DLL in PHY ECC data macro, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the mas..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DQS_SLAVE_RATIO8       ,The user programmable ratio value for the write DQS slave DLL in PHY ECC data macro, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the ma..."
group.long 0x2A4++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_21_SHADOW,ECC Data macro, write DQS DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DQS_SLAVE_RATIO9            ,The user programmable ratio value for the write DQS slave DLL in PHY ECC data macro, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the mas..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DQS_SLAVE_RATIO8       ,The user programmable ratio value for the write DQS slave DLL in PHY ECC data macro, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the ma..."
group.long 0x2A8++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_22,"
hexmask.long.word 0x00 16.--24. 1. " PHY_REG_FIFO_WE_IN_DELAY               ,The user programmable FIFO write enable delay value used when DLL_OVERRIDE = 1."
hexmask.long.word 0x00 0.--8. 1. "       PHY_REG_CTRL_SLAVE_DELAY          ,The user programmable command delay value used when DLL_OVERRIDE = 1."
group.long 0x2AC++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_22_SHADOW,"
hexmask.long.word 0x00 16.--24. 1. " PHY_REG_FIFO_WE_IN_DELAY               ,The user programmable FIFO write enable delay value used when DLL_OVERRIDE = 1."
hexmask.long.word 0x00 0.--8. 1. "       PHY_REG_CTRL_SLAVE_DELAY          ,The user programmable command delay value used when DLL_OVERRIDE = 1."
group.long 0x2B0++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_23,"
hexmask.long.word 0x00 16.--24. 1. " PHY_REG_WR_DQS_SLAVE_DELAY             ,The user programmable write DQS delay value used when DLL_OVERRIDE = 1."
hexmask.long.word 0x00 0.--8. 1. "       PHY_REG_RD_DQS_SLAVE_DELAY        ,The user programmable read DQS delay value used when DLL_OVERRIDE = 1."
group.long 0x2B4++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_23_SHADOW,"
hexmask.long.word 0x00 16.--24. 1. " PHY_REG_WR_DQS_SLAVE_DELAY             ,The user programmable write DQS delay value used when DLL_OVERRIDE = 1."
hexmask.long.word 0x00 0.--8. 1. "       PHY_REG_RD_DQS_SLAVE_DELAY        ,The user programmable read DQS delay value used when DLL_OVERRIDE = 1."
group.long 0x2B8++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_24,"
hexmask.long.byte 0x00 24.--30. 1. " REG_PHY_DQ_OFFSET_HI                   ,The user programmable offset ratio value from write DQS to write DQ. This value is used for the write DQ slave DLL in PHY ECC data macro. The ratio represents the fraction of a clock cycle in units of 256ths. In..."
bitfld.long 0x00 16. "         REG_PHY_GATELVL_INIT_MODE         ,The user programmable init ratio selection mode. Recommended value is 0x1." "0,1"
bitfld.long 0x00 12. "     REG_PHY_USE_RANK0_DELAYS          ,Delay selection. Chip select 0 delay line ratios are used for all chip selects when set to 1. Each chip select uses its own delays when set to 0." "0,1"
textline "                                                           "
hexmask.long.word 0x00 0.--8. 1. " REG_PHY_WR_DATA_SLAVE_DELAY            ,The user programmable write DQ delay value used when DLL_OVERRIDE = 1."
group.long 0x2BC++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_24_SHADOW,"
hexmask.long.byte 0x00 24.--30. 1. " REG_PHY_DQ_OFFSET_HI                   ,The user programmable offset ratio value from write DQS to write DQ. This value is used for the write DQ slave DLL in PHY ECC data macro. The ratio represents the fraction of a clock cycle in units of 256ths. In..."
bitfld.long 0x00 16. "         REG_PHY_GATELVL_INIT_MODE         ,The user programmable init ratio selection mode. Recommended value is 0x1." "0,1"
bitfld.long 0x00 12. "     REG_PHY_USE_RANK0_DELAYS          ,Delay selection. Chip select 0 delay line ratios are used for all chip selects when set to 1. Each chip select uses its own delays when set to 0." "0,1"
textline "                                                           "
hexmask.long.word 0x00 0.--8. 1. " REG_PHY_WR_DATA_SLAVE_DELAY            ,The user programmable write DQ delay value used when DLL_OVERRIDE = 1."
group.long 0x2C0++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_25,DQ DLL Slave Ratio Offset Register"
hexmask.long.byte 0x00 21.--27. 1. " REG_PHY_DQ_OFFSET3                     ,The user programmable offset ratio value from write DQS to write DQ. This value is used for the write DQ slave DLL in PHY data macro 3. The ratio represents the fraction of a clock cycle in units of 256ths. In o..."
hexmask.long.byte 0x00 14.--20. 1. "         REG_PHY_DQ_OFFSET2                ,The user programmable offset ratio value from write DQS to write DQ. This value is used for the write DQ slave DLL in PHY data macro 2. The ratio represents the fraction of a clock cycle in units of 256ths. I..."
hexmask.long.byte 0x00 7.--13. 1. "    REG_PHY_DQ_OFFSET1                ,The user programmable offset ratio value from write DQS to write DQ. This value is used for the write DQ slave DLL in PHY data macro 1. The ratio represents the fraction of a clock cycle in units of 256ths. In oth..."
textline "                                                           "
hexmask.long.byte 0x00 0.--6. 1. " REG_PHY_DQ_OFFSET0                     ,The user programmable offset ratio value from write DQS to write DQ. This value is used for the write DQ slave DLL in PHY data macro 0. The ratio represents the fraction of a clock cycle in units of 256ths. In o..."
group.long 0x2C4++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_25_SHADOW,DQ DLL Slave Ratio Offset Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.byte 0x00 21.--27. 1. " REG_PHY_DQ_OFFSET3                     ,The user programmable offset ratio value from write DQS to write DQ. This value is used for the write DQ slave DLL in PHY data macro 3. The ratio represents the fraction of a clock cycle in units of 256ths. In o..."
hexmask.long.byte 0x00 14.--20. 1. "         REG_PHY_DQ_OFFSET2                ,The user programmable offset ratio value from write DQS to write DQ. This value is used for the write DQ slave DLL in PHY data macro 2. The ratio represents the fraction of a clock cycle in units of 256ths. I..."
hexmask.long.byte 0x00 7.--13. 1. "    REG_PHY_DQ_OFFSET1                ,The user programmable offset ratio value from write DQS to write DQ. This value is used for the write DQ slave DLL in PHY data macro 1. The ratio represents the fraction of a clock cycle in units of 256ths. In oth..."
textline "                                                           "
hexmask.long.byte 0x00 0.--6. 1. " REG_PHY_DQ_OFFSET0                     ,The user programmable offset ratio value from write DQS to write DQ. This value is used for the write DQ slave DLL in PHY data macro 0. The ratio represents the fraction of a clock cycle in units of 256ths. In o..."
group.long 0x2C8++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_26,Data macro 0, FIFO write enable (read DQS gate) DLL Slave Init Ratio Register"
hexmask.long.word 0x00 16.--26. 1. " REG_PHY_GATELVL_INIT_RATIO1            ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY data macro 0, chip select 1. This is the fraction of..."
hexmask.long.word 0x00 0.--10. 1. "       REG_PHY_GATELVL_INIT_RATIO0       ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY data macro 0, chip select 0. This is the fraction o..."
group.long 0x2CC++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_26_SHADOW,Data macro 0, FIFO write enable (read DQS gate) DLL Slave Init Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--26. 1. " REG_PHY_GATELVL_INIT_RATIO1            ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY data macro 0, chip select 1. This is the fraction of..."
hexmask.long.word 0x00 0.--10. 1. "       REG_PHY_GATELVL_INIT_RATIO0       ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY data macro 0, chip select 0. This is the fraction o..."
group.long 0x2D0++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_27,Data macro 1, FIFO write enable (read DQS gate) DLL Slave Init Ratio Register"
hexmask.long.word 0x00 16.--26. 1. " REG_PHY_GATELVL_INIT_RATIO3            ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY data macro 1, chip select 1. This is the fraction of..."
hexmask.long.word 0x00 0.--10. 1. "       REG_PHY_GATELVL_INIT_RATIO2       ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY data macro 1, chip select 0. This is the fraction o..."
group.long 0x2D4++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_27_SHADOW,Data macro 1, FIFO write enable (read DQS gate) DLL Slave Init Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--26. 1. " REG_PHY_GATELVL_INIT_RATIO3            ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY data macro 1, chip select 1. This is the fraction of..."
hexmask.long.word 0x00 0.--10. 1. "       REG_PHY_GATELVL_INIT_RATIO2       ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY data macro 1, chip select 0. This is the fraction o..."
group.long 0x2D8++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_28,Data macro 2, FIFO write enable (read DQS gate) DLL Slave Init Ratio Register"
hexmask.long.word 0x00 16.--26. 1. " REG_PHY_GATELVL_INIT_RATIO5            ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY data macro 2, chip select 1. This is the fraction of..."
hexmask.long.word 0x00 0.--10. 1. "       REG_PHY_GATELVL_INIT_RATIO4       ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY data macro 2, chip select 0. This is the fraction o..."
group.long 0x2DC++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_28_SHADOW,Data macro 2, FIFO write enable (read DQS gate) DLL Slave Init Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--26. 1. " REG_PHY_GATELVL_INIT_RATIO5            ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY data macro 2, chip select 1. This is the fraction of..."
hexmask.long.word 0x00 0.--10. 1. "       REG_PHY_GATELVL_INIT_RATIO4       ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY data macro 2, chip select 0. This is the fraction o..."
group.long 0x2E0++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_29,Data macro 3, FIFO write enable (read DQS gate) DLL Slave Init Ratio Register"
hexmask.long.word 0x00 16.--26. 1. " REG_PHY_GATELVL_INIT_RATIO7            ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY data macro 3, chip select 1. This is the fraction of..."
hexmask.long.word 0x00 0.--10. 1. "       REG_PHY_GATELVL_INIT_RATIO6       ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY data macro 3, chip select 0. This is the fraction o..."
group.long 0x2E4++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_29_SHADOW,Data macro 3, FIFO write enable (read DQS gate) DLL Slave Init Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--26. 1. " REG_PHY_GATELVL_INIT_RATIO7            ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY data macro 3, chip select 1. This is the fraction of..."
hexmask.long.word 0x00 0.--10. 1. "       REG_PHY_GATELVL_INIT_RATIO6       ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY data macro 3, chip select 0. This is the fraction o..."
group.long 0x2E8++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_30,ECC Data macro, FIFO write enable (read DQS gate) DLL Slave Init Ratio Register"
hexmask.long.word 0x00 16.--26. 1. " REG_PHY_GATELVL_INIT_RATIO9            ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY ECC data macro, chip select 1. This is the fraction ..."
hexmask.long.word 0x00 0.--10. 1. "       REG_PHY_GATELVL_INIT_RATIO8       ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY ECC data macro, chip select 0. This is the fraction..."
group.long 0x2EC++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_30_SHADOW,ECC Data macro, FIFO write enable (read DQS gate) DLL Slave Init Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--26. 1. " REG_PHY_GATELVL_INIT_RATIO9            ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY ECC data macro, chip select 1. This is the fraction ..."
hexmask.long.word 0x00 0.--10. 1. "       REG_PHY_GATELVL_INIT_RATIO8       ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY ECC data macro, chip select 0. This is the fraction..."
group.long 0x2F0++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_31,Data macro 0, write DQS DLL Slave Init Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " REG_PHY_WRLVL_INIT_RATIO1              ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY data macro 0, chip select 1. This is the fraction of a cloc..."
hexmask.long.word 0x00 0.--9. 1. "       REG_PHY_WRLVL_INIT_RATIO0         ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY data macro 0, chip select 0. This is the fraction of a clo..."
group.long 0x2F4++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_31_SHADOW,Data macro 0, write DQS DLL Slave Init Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " REG_PHY_WRLVL_INIT_RATIO1              ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY data macro 0, chip select 1. This is the fraction of a cloc..."
hexmask.long.word 0x00 0.--9. 1. "       REG_PHY_WRLVL_INIT_RATIO0         ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY data macro 0, chip select 0. This is the fraction of a clo..."
group.long 0x2F8++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_32,Data macro 1, write DQS DLL Slave Init Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " REG_PHY_WRLVL_INIT_RATIO3              ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY data macro 1, chip select 1. This is the fraction of a cloc..."
hexmask.long.word 0x00 0.--9. 1. "       REG_PHY_WRLVL_INIT_RATIO2         ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY data macro 1, chip select 0. This is the fraction of a clo..."
group.long 0x2FC++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_32_SHADOW,Data macro 1, write DQS DLL Slave Init Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " REG_PHY_WRLVL_INIT_RATIO3              ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY data macro 1, chip select 1. This is the fraction of a cloc..."
hexmask.long.word 0x00 0.--9. 1. "       REG_PHY_WRLVL_INIT_RATIO2         ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY data macro 1, chip select 0. This is the fraction of a clo..."
group.long 0x300++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_33,Data macro 2, write DQS DLL Slave Init Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " REG_PHY_WRLVL_INIT_RATIO5              ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY data macro 2, chip select 1. This is the fraction of a cloc..."
hexmask.long.word 0x00 0.--9. 1. "       REG_PHY_WRLVL_INIT_RATIO4         ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY data macro 2, chip select 0. This is the fraction of a clo..."
group.long 0x304++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_33_SHADOW,Data macro 2, write DQS DLL Slave Init Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " REG_PHY_WRLVL_INIT_RATIO5              ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY data macro 2, chip select 1. This is the fraction of a cloc..."
hexmask.long.word 0x00 0.--9. 1. "       REG_PHY_WRLVL_INIT_RATIO4         ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY data macro 2, chip select 0. This is the fraction of a clo..."
group.long 0x308++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_34,Data macro 3, write DQS DLL Slave Init Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " REG_PHY_WRLVL_INIT_RATIO7              ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY data macro 3, chip select 1. This is the fraction of a cloc..."
hexmask.long.word 0x00 0.--9. 1. "       REG_PHY_WRLVL_INIT_RATIO6         ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY data macro 3, chip select 0. This is the fraction of a clo..."
group.long 0x30C++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_34_SHADOW,Data macro 3, write DQS DLL Slave Init Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " REG_PHY_WRLVL_INIT_RATIO7              ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY data macro 3, chip select 1. This is the fraction of a cloc..."
hexmask.long.word 0x00 0.--9. 1. "       REG_PHY_WRLVL_INIT_RATIO6         ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY data macro 3, chip select 0. This is the fraction of a clo..."
group.long 0x310++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_35,ECC Data macro, write DQS DLL Slave Init Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " REG_PHY_WRLVL_INIT_RATIO9              ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY ECC data macro, chip select 1. This is the fraction of a cl..."
hexmask.long.word 0x00 0.--9. 1. "       REG_PHY_WRLVL_INIT_RATIO8         ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY ECC data macro, chip select 0. This is the fraction of a c..."
group.long 0x314++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_35_SHADOW,ECC Data macro, write DQS DLL Slave Init Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " REG_PHY_WRLVL_INIT_RATIO9              ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY ECC data macro, chip select 1. This is the fraction of a cl..."
hexmask.long.word 0x00 0.--9. 1. "       REG_PHY_WRLVL_INIT_RATIO8         ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY ECC data macro, chip select 0. This is the fraction of a c..."
group.long 0x318++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_36,"
bitfld.long 0x00 10. " REG_PHY_RDC_FIFO_RST_ERR_CNT_CLR       ,Clear/reset the phy_reg_rdc_fifo_rst_err_cnt, phy_reg_rdfifo_wrptr and phy_reg_rdfifo_rdptr status flags. A value of 0x1 clears the flag. A value of 0x0 has no effect." "0,1"
bitfld.long 0x00 9. "          REG_PHY_MDLL_UNLOCK_CLR           ,Clears the phy_reg_status_mdll_unlock_sticky flag. A value of 0x1 clears the flag. A value of 0x0 has no effect." "0,1"
bitfld.long 0x00 8. "     REG_PHY_FIFO_WE_IN_MISALIGNED_CLR ,Clears the phy_reg_fifo_we_in_misaligned_sticky status flag. A value of 0x1 clears the flag. A value of 0x0 has no effect." "0,1"
textline "                                                           "
bitfld.long 0x00 4.--7. " REG_PHY_WRLVL_NUM_OF_DQ0               ,Determines the number of samples for dq0_in for each ratio increment by the write leveling finite state machine (hardware leveling). The minimum value supported is 3; however, the default setting of 7 is recomme..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "         REG_PHY_GATELVL_NUM_OF_DQ0        ,Determines the number of samples for dq0_in for each ratio increment by the gate training finite state machine (hardware leveling). The minimum value supported is 3; however, the default setting of 7 is recom..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x31C++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_36_SHADOW,"
bitfld.long 0x00 10. " REG_PHY_RDC_FIFO_RST_ERR_CNT_CLR       ,Clear/reset the phy_reg_rdc_fifo_rst_err_cnt, phy_reg_rdfifo_wrptr and phy_reg_rdfifo_rdptr status flags. A value of 0x1 clears the flag. A value of 0x0 has no effect." "0,1"
bitfld.long 0x00 9. "          REG_PHY_MDLL_UNLOCK_CLR           ,Clears the phy_reg_status_mdll_unlock_sticky flag. A value of 0x1 clears the flag. A value of 0x0 has no effect." "0,1"
bitfld.long 0x00 8. "     REG_PHY_FIFO_WE_IN_MISALIGNED_CLR ,Clears the phy_reg_fifo_we_in_misaligned_sticky status flag. A value of 0x1 clears the flag. A value of 0x0 has no effect." "0,1"
textline "                                                           "
bitfld.long 0x00 4.--7. " REG_PHY_WRLVL_NUM_OF_DQ0               ,Determines the number of samples for dq0_in for each ratio increment by the write leveling finite state machine (hardware leveling). The minimum value supported is 3; however, the default setting of 7 is recomme..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "         REG_PHY_GATELVL_NUM_OF_DQ0        ,Determines the number of samples for dq0_in for each ratio increment by the gate training finite state machine (hardware leveling). The minimum value supported is 3; however, the default setting of 7 is recom..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree "EMIF2"
base ad:0x4D000000
width 50.
rgroup.long 0x0++0x3
line.long 0x00 "EMIF_REVISION,Revision number register"
hexmask.long 0x00 0.--31. 1. " REVISION                               ,Module revision"
rgroup.long 0x4++0x3
line.long 0x00 "EMIF_STATUS,SDRAM Status Register (STATUS)"
bitfld.long 0x00 31. " BE                                     ,Big endian mode select for 8 and 16-bit devices, set to 1 for big endian or 0 for little endian operation. In current implementation, only 32-bit devices are supported - this bit is don't care." "0,1"
bitfld.long 0x00 30. "          DUAL_CLK_MODE                     ,Dual Clock mode. Defines whether the EMIFi_L3_ICLK and EMIF_FICLK clock are asynchronous. EMIFi_L3_ICLK and EMIF_FICLK clock are asynchronous, if set to 1." "0,1"
bitfld.long 0x00 29. "     FAST_INIT                         ,Fast Init. Defines whether the EMIF fast initialization mode has been enabled. Fast initialization is enabled if set to 1." "0,1"
textline "                                                           "
bitfld.long 0x00 6. " RDLVLGATETO                            ,Read DQS Gate Training Timeout. Value of 1 indicates read DQS gate training has timed out because read DQS gate training done was not received from the PHY." "0,1"
bitfld.long 0x00 5. "          RDLVLTO                           ,Read Data Eye Training Timeout. Value of 1 indicates read data eye training has timed out because read data eye training done was not received from the PHY." "0,1"
bitfld.long 0x00 4. "     WRLVLTO                           ,Write Leveling Timeout. Value of 1 indicates write leveling has timed out because write leveling done was not received from the PHY." "0,1"
textline "                                                           "
bitfld.long 0x00 2. " PHY_DLL_READY                          ,DDR PHY Ready. The DDR PHY is ready for normal operation, if set to 1." "0,1"
group.long 0x8++0x3
line.long 0x00 "EMIF_SDRAM_CONFIG,SDRAM Config Register. A write to this register will cause the EMIF to start the SDRAM initialization sequence. CAUTION: This register is loaded with values by control module at device reset."
bitfld.long 0x00 29.--31. " SDRAM_TYPE                             ,SDRAM Type selection. This field is loaded from e-fuse. Set to 2 for DDR2 Set to 3 for DDR3 All other values are reserved." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 27.--28. "          IBANK_POS                         ,Internal bank position. See section , ." "0,1,2,3"
bitfld.long 0x00 24.--26. "     DDR_TERM                          ,DDR3 termination resistor value. Set to 0 to disable termination. For DDR3, set to 1 for RZQ/4, set to 2 for RZQ/2, set to 3 for RZQ/6, set to 4 for RZQ/12, and set to 5 for RZQ/8. All other values are reserved." "0,1,2,3,4,5,6,7"
textline "                                                           "
bitfld.long 0x00 23. " DDR2_DDQS                              ,DDR2 differential DDQS enable. NOT SUPPORTED. Set to 1 for compatibility." "0,1"
bitfld.long 0x00 21.--22. "          DYN_ODT                           ,DDR3 Dynamic ODT. NOT SUPPORTED. Set to 0 to turn off dynamic ODT." "0,1,2,3"
bitfld.long 0x00 20. "     DDR_DISABLE_DLL                   ,Disable DLL select. Set to 1 to disable DLL inside SDRAM." "0,1"
textline "                                                           "
bitfld.long 0x00 18.--19. " SDRAM_DRIVE                            ,SDRAM drive strength.For DDR3, set to 0 for RZQ/6 and set to 1 for RZQ/7. All other values are reserved." "0,1,2,3"
bitfld.long 0x00 16.--17. "          CWL                               ,DDR3 CAS Write latency. Value of 0, 1, 2, and 3 (CAS write latency of 5, 6, 7, and 8) are supported. Use the lowest value supported for best performance. All other values are reserved." "0,1,2,3"
bitfld.long 0x00 14.--15. "     NARROW_MODE                       ,SDRAM data bus width. Set to 0 for 32-bit data bus width. Set to 1 for 16-bit data bus width. All other values are reserved." "0,1,2,3"
textline "                                                           "
bitfld.long 0x00 10.--13. " CL                                     ,CAS Latency (referred to as read latency (RL) in some SDRAM specs). The value of this field defines the CAS latency to be used when accessing connected SDRAM devices. Values of 2, 3, 4 and 5 (CAS latency of 2, 3..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 7.--9. "         ROWSIZE                           ,Row Size. Defines the number of row address bits of connected SDRAM devices. Set to 0 for 9 row bits, Set to 1 for 10 row bits, Set to 2 for 11 row bits, Set to 3 for 12 row bits, Set to 4 for 13 row bits, Se..." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "     IBANK                             ,Internal Bank setup. Defines number of banks inside connected SDRAM devices. Set to 0 for 1 bank, Set to 1 for 2 banks, Set to 2 for 4 banks, Set to 3 for 8 banks. All other values are reserved." "0,1,2,3,4,5,6,7"
textline "                                                           "
bitfld.long 0x00 0.--2. " PAGESIZE                               ,Page Size. Defines the internal page size of connected SDRAM devices. Set to 0 for 256-word page (8 column bits), Set to 1 for 512-word page (9 column bits), Set to 2 for 1024-word page (10 column bits), Set to ..." "0,1,2,3,4,5,6,7"
group.long 0xC++0x3
line.long 0x00 "EMIF_SDRAM_CONFIG_2,SDRAM Config Register 2 CAUTION: This register is loaded with values by control module at device reset."
bitfld.long 0x00 27. " EBANK_POS                              ,External bank position. Set to 0 to assign external bank address bits from lower OCP address. Set to 1 to assign external bank address bits from higher OCP address bits. See section, ." "0,1"
group.long 0x10++0x3
line.long 0x00 "EMIF_SDRAM_REFRESH_CONTROL,SDRAM Refresh Control Register"
bitfld.long 0x00 31. " INITREF_DIS                            ,Initialization and Refresh disable. When set to 1, EMIF will disable SDRAM initialization and refreshes, but will carry out SDRAM write/read transactions." "0,1"
bitfld.long 0x00 29. "          SRT                               ,DDR3 Self Refresh temperature range. Set to 0 for normal operating temperature range and set to 1 for extended operating temperature range when the ASR field is set to 0. This bit must be set to 0 if the ASR..." "0,1"
bitfld.long 0x00 28. "     ASR                               ,DDR3 Auto Self Refresh enable. Set to 1 for auto Self Refresh enable. Set to 0 for manual Self Refresh reference indicated by the SRT field. A write to this field will cause the EMIF to start the SDRAM initializa..." "0,1"
textline "                                                           "
bitfld.long 0x00 24.--26. " PASR                                   ,Partial Array Self Refresh. These bits get loaded into the Extended Mode Register of DDR3 during initialization. For DDR3, set to 0 for full array, set to 1 or 5 for 1/2 array, set to 2 or 6 for 1/4 array, set t..." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--15. 1. "          REFRESH_RATE                      ,Refresh Rate. Value in this field is used to define the rate at which connected SDRAM devices will be refreshed. SDRAM refresh rate = REFRESH_RATE / EMIFi_PHY_FICLK. A 533-MHz DDR clock rate system that requ..."
group.long 0x14++0x3
line.long 0x00 "EMIF_SDRAM_REFRESH_CONTROL_SHADOW,SDRAM Refresh Control Shadow Register"
hexmask.long.word 0x00 0.--15. 1. " REFRESH_RATE_SHDW                      ,Shadow field for REFRESH_RATE. This field is loaded intoEMIF_SDRAM_REFRESH_CONTROL[15:0] REFRESH_RATE field when SIdleAck is asserted."
group.long 0x18++0x3
line.long 0x00 "EMIF_SDRAM_TIMING_1,SDRAM Timing 1 Register. If this register is byte written, care must be taken that all the fields are written before performing any accesses to the SDRAM."
bitfld.long 0x00 29.--31. " T_RTW                                  ,Minimum number of DDR clock cycles between Read to Write data phases, minus one." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 25.--28. "          T_RP                              ,Minimum number of DDR clock cycles from Precharge to Activate or Refresh, minus one." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 21.--24. "    T_RCD                             ,Minimum number of DDR clock cycles from Activate to Read or Write, minus one." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                                           "
bitfld.long 0x00 17.--20. " T_WR                                   ,Minimum number of DDR clock cycles from last Write transfer to Precharge, minus one." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--16. "         T_RAS                             ,Minimum number of DDR clock cycles from Activate to Precharge, minus one. T_RAS value needs to be bigger than or equal to T_RDC value." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 6.--11. "    T_RC                              ,Minimum number of DDR clock cycles from Activate to Activate, minus one." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                                           "
bitfld.long 0x00 3.--5. " T_RRD                                  ,Minimum number of DDR clock cycles from Activate to Activate for a different bank, minus one. For an 8-bank, this field must be equal to ((tFAW / (4 ? tCK)) - 1)." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "          T_WTR                             ,Minimum number of DDR clock cycles from last Write to Read, minus one." "0,1,2,3,4,5,6,7"
group.long 0x1C++0x3
line.long 0x00 "EMIF_SDRAM_TIMING_1_SHADOW,SDRAM Timing 1 Shadow Register"
bitfld.long 0x00 29.--31. " T_RTW_SHDW                             ,Shadow field for T_RTW. This field is loaded intoEMIF_SDRAM_TIMING_1[31:29] T_RTW field when SIdleAck is asserted." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 25.--28. "          T_RP_SHDW                         ,Shadow field for T_RP. This field is loaded intoEMIF_SDRAM_TIMING_1[28:25] T_RP field when SIdleAck is asserted." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 21.--24. "    T_RCD_SHDW                        ,Shadow field for T_RCD. This field is loaded intoEMIF_SDRAM_TIMING_1[24:21] T_RCD field when SIdleAck is asserted." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                                           "
bitfld.long 0x00 17.--20. " T_WR_SHDW                              ,Shadow field for T_WR. This field is loaded intoEMIF_SDRAM_TIMING_1[20:17] T_WR field when SIdleAck is asserted." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--16. "         T_RAS_SHDW                        ,Shadow field for T_RAS. This field is loaded intoEMIF_SDRAM_TIMING_1[16:12] T_RAS field when SIdleAck is asserted." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 6.--11. "    T_RC_SHDW                         ,Shadow field for T_RC. This field is loaded intoEMIF_SDRAM_TIMING_1[11:6] T_RC field when SIdleAck is asserted." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                                           "
bitfld.long 0x00 3.--5. " T_RRD_SHDW                             ,Shadow field for T_RRD. This field is loaded intoEMIF_SDRAM_TIMING_1[5:3] T_RRD field when SIdleAck is asserted." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "          T_WTR_SHDW                        ,Shadow field for T_WTR. This field is loaded intoEMIF_SDRAM_TIMING_1[2:0] T_WTR field when SIdleAck is asserted." "0,1,2,3,4,5,6,7"
group.long 0x20++0x3
line.long 0x00 "EMIF_SDRAM_TIMING_2,SDRAM Timing 2 Register. If this register is byte written, care must be taken that all the fields are written before performing any accesses to the SDRAM."
bitfld.long 0x00 28.--30. " T_XP                                   ,Minimum number of DDR clock cycles from power-down exit to any command other than a read command, minus one." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--24. 1. "          T_XSNR                            ,Minimum number of DDR clock cycles from Self-Refresh exit to any command other than a Read command, minus one."
hexmask.long.word 0x00 6.--15. 1. "  T_XSRD                            ,Minimum number of DDR clock cycles from Self-Refresh exit to a Read command, minus one."
textline "                                                           "
bitfld.long 0x00 3.--5. " T_RTP                                  ,Minimum number of DDR clock cycles for the last read command to a Precharge command, minus one." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "          T_CKE                             ,Minimum number of DDR clock cycles between CKE pin changes, minus one." "0,1,2,3,4,5,6,7"
group.long 0x24++0x3
line.long 0x00 "EMIF_SDRAM_TIMING_2_SHADOW,SDRAM Timing 2 Shadow Register"
bitfld.long 0x00 28.--30. " T_XP_SHDW                              ,Shadow field for T_XP. This field is loaded intoEMIF_SDRAM_TIMING_2[30:28] T_XP field when SIdleAck is asserted." "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 16.--24. 1. "          T_XSNR_SHDW                       ,Shadow field for T_XSNR. This field is loaded intoEMIF_SDRAM_TIMING_2[24:16] T_XSNR field when SIdleAck is asserted."
hexmask.long.word 0x00 6.--15. 1. "  T_XSRD_SHDW                       ,Shadow field for T_XSRD. This field is loaded intoEMIF_SDRAM_TIMING_2[15:6] T_XSRD field when SIdleAck is asserted."
textline "                                                           "
bitfld.long 0x00 3.--5. " T_RTP_SHDW                             ,Shadow field for T_RTP. This field is loaded intoEMIF_SDRAM_TIMING_2[5:3] T_RTP field when SIdleAck is asserted." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "          T_CKE_SHDW                        ,Shadow field for T_CKE. This field is loaded intoEMIF_SDRAM_TIMING_2[2:0] T_CKE field when SIdleAck is asserted." "0,1,2,3,4,5,6,7"
group.long 0x28++0x3
line.long 0x00 "EMIF_SDRAM_TIMING_3,SDRAM Timing 3 Register. If this register is byte written, care must be taken that all the fields are written before performing any accesses to the SDRAM."
bitfld.long 0x00 28.--31. " T_PDLL_UL                              ,Minimum number of DDR clock cycles for PHY DLL to unlock. A value of N will be equal to N x 128 clocks." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 21.--23. "         T_CKESR                           ,Minimum number of DDR clock cycles for which SDRAM must remain in Self Refresh, minus one." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 15.--20. "     ZQ_ZQCS                           ,Number of DDR clock cycles for a ZQCS command, minus one." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                                           "
hexmask.long.word 0x00 4.--12. 1. " T_RFC                                  ,Minimum number of DDR clock cycles from Refresh or Load Mode to Refresh or Activate, minus one."
bitfld.long 0x00 0.--3. "       T_RAS_MAX                         ,Maximum number of REFRESH_RATE intervals from Activate to Precharge command. This field must be equal to ((tRASmax / tREFI)-1) rounded down to the next lower integer. Value for T_RAS_MAX can be calculated as fo..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x2C++0x3
line.long 0x00 "EMIF_SDRAM_TIMING_3_SHADOW,SDRAM Timing 3 Shadow Register"
bitfld.long 0x00 28.--31. " T_PDLL_UL_SHDW                         ,Shadow field for T_PDLL_UL. This field is loaded into T_PDLL_UL field inEMIF_SDRAM_TIMING_3 register when SIdleAck is asserted." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 21.--23. "         T_CKESR_SHDW                      ,Shadow field for T_CKESR. This field is loaded into T_CKESR field inEMIF_SDRAM_TIMING_3 register when SIdleAck is asserted." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 15.--20. "     ZQ_ZQCS_SHDW                      ,Shadow field for ZQ_ZQCS. This field is loaded into ZQ_ZQCS field inEMIF_SDRAM_TIMING_3 register when SIdleAck is asserted." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                                           "
hexmask.long.word 0x00 4.--12. 1. " T_RFC_SHDW                             ,Shadow field for T_RFC. This field is loaded intoEMIF_SDRAM_TIMING_3[12:4] T_RFC when SIdleAck is asserted."
bitfld.long 0x00 0.--3. "       T_RAS_MAX_SHDW                    ,Shadow field for T_RAS_MAX. This field is loaded intoEMIF_SDRAM_TIMING_3[3:0] T_RAS_MAX field when SIdleAck is asserted." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x30++0x3
line.long 0x00 "EMIF_LPDDR2_NVM_TIMING,NOTE: This register is not supported. It is kept only for code compatibility."
group.long 0x34++0x3
line.long 0x00 "EMIF_LPDDR2_NVM_TIMING_SHADOW,NOTE: This register is not supported. It is kept only for code compatibility."
group.long 0x38++0x3
line.long 0x00 "EMIF_POWER_MANAGEMENT_CONTROL,Power Management Control Register. Updating the *_TIM fields must be followed by at least one access to SDRAM for the new value to take an effect."
bitfld.long 0x00 12.--15. " PD_TIM                                 ,Power Management timer for Power-Down. The EMIF will put the external SDRAM in Power-Down mode after the EMIF is idle for these number of DDR clock cycles and if LP_MODE field is set to 4. Set to 0 to immediatel..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--10. "         LP_MODE                           ,Automatic Power Management enable. 0x0: Disable automatic power management 0x1: Reserved 0x2: Self Refresh mode 0x3: Disable automatic power management 0x4: Power-Down mode All other values disable automatic ..." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--7. "     SR_TIM                            ,Power Management timer for Self Refresh. The EMIF will put the external SDRAM in Self Refresh mode after the EMIF is idle for these number of DDR clock cycles and if LP_MODE field is set to 2. Set to 0 to immedia..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x3C++0x3
line.long 0x00 "EMIF_POWER_MANAGEMENT_CONTROL_SHADOW,Power Management Control Shadow Register"
bitfld.long 0x00 12.--15. " PD_TIM_SHDW                            ,Shadow field for PD_TIM. This field is loaded into PD_TIM field inEMIF_POWER_MANAGEMENT_CONTROL register when SIdleAck is asserted." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 4.--7. "         SR_TIM_SHDW                       ,Shadow field for SR_TIM. This field is loaded into SR_TIM field inEMIF_POWER_MANAGEMENT_CONTROL register when SIdleAck is asserted." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x54++0x3
line.long 0x00 "EMIF_OCP_CONFIG,OCP Config Register"
bitfld.long 0x00 24.--27. " SYS_THRESH_MAX                         ,System OCP Threshold Maximum. The number of commands the system interface can consume in the command FIFO. The value is used to determine when to stop future request, writing a zero will reserve no space for the..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "         MPU_THRESH_MAX                    ,MPU Threshold Maximum. The number of commands the MPU interface can consume in the command FIFO. The value is used to determine when to stop future request, writing a zero will reserve no space for the associ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x58++0x3
line.long 0x00 "EMIF_OCP_CONFIG_VALUE_1,OCP Config Value 1 Register"
bitfld.long 0x00 30.--31. " SYS_BUS_WIDTH                          ,System OCP data bus width 0 = 32-bit wide, 1 = 64-bit wide, 2 = 128-bit wide, 3 = Reserved" "0,1,2,3"
hexmask.long.byte 0x00 8.--15. 1. "          WR_FIFO_DEPTH                     ,Write Data FIFO depth"
hexmask.long.byte 0x00 0.--7. 1. "    CMD_FIFO_DEPTH                    ,Command FIFO depth"
rgroup.long 0x5C++0x3
line.long 0x00 "EMIF_OCP_CONFIG_VALUE_2,OCP Config Value 2 Register"
hexmask.long.byte 0x00 16.--23. 1. " RREG_FIFO_DEPTH                        ,Register Read Data FIFO depth"
hexmask.long.byte 0x00 8.--15. 1. "         RSD_FIFO_DEPTH                    ,SDRAM Read Data FIFO depth"
hexmask.long.byte 0x00 0.--7. 1. "    RCMD_FIFO_DEPTH                   ,Read Command FIFO depth"
group.long 0x60++0x3
line.long 0x00 "EMIF_IODFT_TLGC,"
bitfld.long 0x00 10. " RESET_PHY                              ,Reset the DDR PHY. Writing 1 to this bit resets the DDR PHY. This bit will self clear to 0." "0,1"
rgroup.long 0x80++0x3
line.long 0x00 "EMIF_PERFORMANCE_COUNTER_1,Performance Counter 1 Register"
hexmask.long 0x00 0.--31. 1. " COUNTER1                               ,32-bit counter that can be configured as specified in theEMIF_PERFORMANCE_COUNTER_CONFIG register and EMIF_PERFORMANCE_COUNTER_MASTER_REGION_SELECT register."
rgroup.long 0x84++0x3
line.long 0x00 "EMIF_PERFORMANCE_COUNTER_2,Performance Counter 2 Register"
hexmask.long 0x00 0.--31. 1. " COUNTER2                               ,32-bit counter that can be configured as specified in theEMIF_PERFORMANCE_COUNTER_CONFIG register and EMIF_PERFORMANCE_COUNTER_MASTER_REGION_SELECT register."
group.long 0x88++0x3
line.long 0x00 "EMIF_PERFORMANCE_COUNTER_CONFIG,Performance Counter Config Register"
bitfld.long 0x00 31. " CNTR2_MCONNID_EN                       ,MConnID filter enable forEMIF_PERFORMANCE_COUNTER_2 register." "0,1"
bitfld.long 0x00 30. "          CNTR2_REGION_EN                   ,Chip Select filter enable forEMIF_PERFORMANCE_COUNTER_2 register." "0,1"
bitfld.long 0x00 16.--19. "     CNTR2_CFG                         ,Filter configuration forEMIF_PERFORMANCE_COUNTER_2. Refer to for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                                           "
bitfld.long 0x00 15. " CNTR1_MCONNID_EN                       ,MConnID filter enable forEMIF_PERFORMANCE_COUNTER_1 register." "0,1"
bitfld.long 0x00 14. "          CNTR1_REGION_EN                   ,Chip Select filter enable forEMIF_PERFORMANCE_COUNTER_1 register." "0,1"
bitfld.long 0x00 0.--3. "     CNTR1_CFG                         ,Filter configuration forEMIF_PERFORMANCE_COUNTER_1. Refer to for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x8C++0x3
line.long 0x00 "EMIF_PERFORMANCE_COUNTER_MASTER_REGION_SELECT,Performance Counter Master Region Select Register The values programmed into the MCONNIDx fields are those in the ConnID Values table in , Interconnect, left-shifted by 2 bits. For example, to monitor acces..."
hexmask.long.byte 0x00 24.--31. 1. " MCONNID2                               ,MConnID forEMIF_PERFORMANCE_COUNTER_2 register."
bitfld.long 0x00 16.--17. "         REGION_SEL2                       ,MAddrSpace forEMIF_PERFORMANCE_COUNTER_2 register." "0,1,2,3"
hexmask.long.byte 0x00 8.--15. 1. "     MCONNID1                          ,MConnID forEMIF_PERFORMANCE_COUNTER_1 register."
textline "                                                           "
bitfld.long 0x00 0.--1. " REGION_SEL1                            ,MAddrSpace forEMIF_PERFORMANCE_COUNTER_1 register." "0,1,2,3"
rgroup.long 0x90++0x3
line.long 0x00 "EMIF_PERFORMANCE_COUNTER_TIME,Performance Counter Time Register. This is a free running counter."
hexmask.long 0x00 0.--31. 1. " TOTAL_TIME                             ,32-bit counter that continuously counts number for EMIF_FICLK clock cycles elapsed after EMIF is brought out of reset."
group.long 0x94++0x3
line.long 0x00 "EMIF_MISC_REG,"
bitfld.long 0x00 0. " DLL_CALIB_OS                           ,Phy_dll_calib one shot : Setting bit to 1 generates a phy_pll_calib pulse. Bit is self cleared when pll_calib gets generated and ack_wait has been satisfied. Software can poll to confirm completion. Uses the EMI..." "0,1"
group.long 0x98++0x3
line.long 0x00 "EMIF_DLL_CALIB_CTRL,Control register to force idle window time to generate a phy_dll_calib that can be used for updating PHY DLLs during voltage ramps. NOTE: Should always be loaded via the shadow register."
bitfld.long 0x00 16.--19. " ACK_WAIT                               ,The ack_wait determines the required wait time after a phy_dll_calib is generated before another command can be sent. Value program is in terms of EMIF_FICLK cycle count. 5 must be the minimum value ever program..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 0.--8. 1. "         DLL_CALIB_INTERVAL                ,This field determines the interval between phy_dll_calib generation. This value is multiplied by a precounter of 16 EMIF_FICLK cycles. Program this field one less the value you are targeting; program 1 to ach..."
group.long 0x9C++0x3
line.long 0x00 "EMIF_DLL_CALIB_CTRL_SHADOW,Read Idle Control Shadow Register"
bitfld.long 0x00 16.--19. " ACK_WAIT_SHDW                          ,Shadow field for ACK_WAIT. This field is loaded into ACK_WAIT field inEMIF_DLL_CALIB_CTRL register when SIdleAck is asserted" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 0.--8. 1. "         DLL_CALIB_INTERVAL_SHDW           ,Shadow field for DLL_CALIB_INTERVAL. This field is loaded into DLL_CALIB_INTERVAL field in theEMIF_DLL_CALIB_CTRL register when SIdleAck is asserted"
group.long 0xA0++0x3
line.long 0x00 "EMIF_END_OF_INTERRUPT,"
bitfld.long 0x00 0. " EOI                                    ,Software End Of Interrupt (EOI) control. Write 0x0 for system OCP interrupt. This field always reads 0 (no EOI memory)." "0,1"
group.long 0xA4++0x3
line.long 0x00 "EMIF_SYSTEM_OCP_INTERRUPT_RAW_STATUS,System OCP Interrupt Raw Status Register"
bitfld.long 0x00 5. " ONEBIT_ECC_ERR_SYS                     ,Raw status of system ECC one bit error correction interrupt." "0,1"
bitfld.long 0x00 4. "          TWOBIT_ECC_ERR_SYS                ,Raw status of system ECC two bit error detection interrupt." "0,1"
bitfld.long 0x00 3. "     WR_ECC_ERR_SYS                    ,Raw status of system ECC Error interrupt when a memory access is made to a non-quanta aligned location." "0,1"
textline "                                                           "
bitfld.long 0x00 0. " ERR_SYS                                ,Raw status of system OCP interrupt for command or address error. Write 1 to set the (raw) status, mostly for debug. Writing a 0 has no effect." "0,1"
group.long 0xAC++0x3
line.long 0x00 "EMIF_SYSTEM_OCP_INTERRUPT_STATUS,System OCP Interrupt Status Register"
bitfld.long 0x00 5. " ONEBIT_ECC_ERR_SYS                     ,Enabled status of system ECC one bit error correction interrupt. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is even if not enabled). Writing a 0 has no effect" "0,1"
bitfld.long 0x00 4. "          TWOBIT_ECC_ERR_SYS                ,Enabled status of system ECC two bit error detection interrupt. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is even if not enabled). Writing a 0 has no effect." "0,1"
bitfld.long 0x00 3. "     WR_ECC_ERR_SYS                    ,Enabled status of system ECC Error interrupt when a memory access is made to a non-quanta aligned location. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is even if ..." "0,1"
textline "                                                           "
bitfld.long 0x00 0. " ERR_SYS                                ,Enabled status of system OCP interrupt interrupt for command or address error. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not enabled). Writing a 0 h..." "0,1"
group.long 0xB4++0x3
line.long 0x00 "EMIF_SYSTEM_OCP_INTERRUPT_ENABLE_SET,System OCP Interrupt Enable Set Register"
bitfld.long 0x00 5. " ONEBIT_ECC_ERR_SYS                     ,Enabled status of sysem ECC one bit error correction interrupt. Writing a 1 will enable the interrupt, and set this bit as well as the corresponding Interrupt Enable Clear Register. Writing a 0 has no effect." "0,1"
bitfld.long 0x00 4. "          TWOBIT_ECC_ERR_SYS                ,Enabled status of system ECC two bit error detection interrupt. Writing a 1 will enable the interrupt, and set this bit as well as the corresponding Interrupt Enable Clear Register. Writing a 0 has no effect." "0,1"
bitfld.long 0x00 3. "     WR_ECC_ERR_SYS                    ,Enabled status of system ECC Error interrupt when a memory access is made to a non-quanta aligned location. Writing a 1 will enable the interrupt, and set this bit as well as the corresponding Interrupt Enable Cl..." "0,1"
textline "                                                           "
bitfld.long 0x00 0. " EN_ERR_SYS                             ,Enable set for system OCP interrupt for command or address error. Writing a 1 will enable the interrupt, and set this bit as well as the corresponding Interrupt Enable Clear Register. Writing a 0 has no effect." "0,1"
group.long 0xBC++0x3
line.long 0x00 "EMIF_SYSTEM_OCP_INTERRUPT_ENABLE_CLEAR,System OCP Interrupt Enable Clear Register"
eventfld.long 0x00 5. " ONEBIT_ECC_ERR_SYS                     ,Enabled status of system ECC one bit error correction interrupt. Writing a 1 will disable the interrupt, and clear this bit as well as the corresponding Interrupt Enable Set Register. Writing a 0 has no effect." "0,1"
eventfld.long 0x00 4. "          TWOBIT_ECC_ERR_SYS                ,Enabled status of system ECC two bit error detection interrupt. Writing a 1 will disable the interrupt, and clear this bit as well as the corresponding Interrupt Enable Set Register. Writing a 0 has no effect." "0,1"
eventfld.long 0x00 3. "     WR_ECC_ERR_SYS                    ,Enabled status of system ECC Error interrupt when a memory access is made to a non-quanta aligned location. Writing a 1 will disable the interrupt, and clear this bit as well as the corresponding Interrupt Enable..." "0,1"
textline "                                                           "
eventfld.long 0x00 0. " EN_ERR_SYS                             ,Enable clear for system OCP interrupt for command or address error. Writing a 1 will disable the interrupt, and clear this bit as well as the corresponding Interrupt Enable Set Register. Writing a 0 has no effect." "0,1"
group.long 0xC8++0x3
line.long 0x00 "EMIF_SDRAM_OUTPUT_IMPEDANCE_CALIBRATION_CONFIG,SDRAM Output Impedance Calibration Config Register"
bitfld.long 0x00 30. " ZQ_CS0EN                               ,Writing a 1 enables ZQ calibration for CS0." "0,1"
bitfld.long 0x00 28. "          ZQ_SFEXITEN                       ,Writing a 1 enables the issuing of ZQCL on Self-Refresh, Active Power-Down, and Precharge Power-Down exit." "0,1"
bitfld.long 0x00 18.--19. "     ZQ_ZQINIT_MULT                    ,Indicates the number of ZQCL durations that make up a ZQINIT duration, minus one." "0,1,2,3"
textline "                                                           "
bitfld.long 0x00 16.--17. " ZQ_ZQCL_MULT                           ,Indicates the number of ZQCS intervals that make up a ZQCL duration, minus one. ZQCS interval is defined by ZQ_ZQCS inEMIF_SDRAM_TIMING_3." "0,1,2,3"
hexmask.long.word 0x00 0.--15. 1. "          ZQ_REFINTERVAL                    ,Number of refresh periods between ZQCS commands. This field supports between one refresh period to 256 ms between ZQCS calibration commands. Refresh period is defined by refresh_rate inEMIF_SDRAM_REFRESH_CON..."
group.long 0xCC++0x3
line.long 0x00 "EMIF_TEMP_ALERT_CONFIG,Temperature Alert Configuration Register.NOTE: This register is only applicable to LPDDR2 memories and cannot be used in this device."
bitfld.long 0x00 31. " TA_CS1EN                               ,Writing 1 enables temperature alert polling for CS1." "0,1"
bitfld.long 0x00 30. "          TA_CS0EN                          ,Writing 1 enables temperature alert polling for CS0." "0,1"
bitfld.long 0x00 28. "     TA_SFEXITEN                       ,Temperature Alert Poll on Self-Refresh, Active Power-Down, and Precharge Power-Down exit enable. Writing 1 enables the issuing of a temperature alert poll on Self-Refresh exit." "0,1"
textline "                                                           "
bitfld.long 0x00 26.--27. " TA_DEVWDT                              ,This field indicates how wide a physical device is. It is used in conjunction with the TA_DEVCNT field to determine which byte lanes contain the temperature alert info. A value of0: 8-bit wide, 1: 16-bit wide,2:..." "0,1,2,3"
bitfld.long 0x00 24.--25. "          TA_DEVCNT                         ,This field indicates which external byte lanes contain a device for temperature monitoring. A value of0: one device,1: two devices,2: four devices.All other reserved." "0,1,2,3"
hexmask.long.tbyte 0x00 0.--21. 1. "     TA_REFINTERVAL                    ,Number of refresh periods between temperature alert polls. This field supports between one refresh period to 10 seconds between temperature alert polls. Refresh period is defined by REFRESH_RATE inEMIF_SDRAM_REFR..."
rgroup.long 0xD0++0x3
line.long 0x00 "EMIF_OCP_ERROR_LOG,OCP Error Log Register"
bitfld.long 0x00 14.--15. " MADDRSPACE                             ,Address space of the first errored transaction. 0x0: SDRAM 0x1: reserved 0x2: reserved 0x3: internal registers" "0,1,2,3"
bitfld.long 0x00 11.--13. "          MBURSTSEQ                         ,Addressing mode of the first errored transaction. (see, for more information)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     MCMD                              ,Command type of the first errored transaction. (see, for more information)" "0,1,2,3,4,5,6,7"
textline "                                                           "
hexmask.long.byte 0x00 0.--7. 1. " MCONNID                                ,Connection ID of the first errored transaction."
group.long 0xD4++0x3
line.long 0x00 "EMIF_READ_WRITE_LEVELING_RAMP_WINDOW,Read/write leveling ramp window register"
hexmask.long.word 0x00 0.--12. 1. " RDWRLVLINC_RMP_WIN                     ,Incremental leveling ramp window in number of refresh periods. The value programmed is minus one the required value. Refresh period is defined by REFRESH_RATE inEMIF_SDRAM_REFRESH_CONTROL register."
group.long 0xD8++0x3
line.long 0x00 "EMIF_READ_WRITE_LEVELING_RAMP_CONTROL,Read/write leveling ramp control register"
bitfld.long 0x00 31. " RDWRLVL_EN                             ,Read-Write Leveling enable. Set 1 to enable leveling. Set 0 to disable leveling." "0,1"
hexmask.long.byte 0x00 24.--30. 1. "          RDWRLVLINC_RMP_PRE                ,Incremental leveling pre-scalar in number of refresh periods during ramp window. The value programmed is minus one the required value. Refresh period is defined by REFRESH_RATE inEMIF_SDRAM_REFRESH_CONTROL r..."
hexmask.long.byte 0x00 16.--23. 1. "    RDLVLINC_RMP_INT                  ,Incremental read data eye training interval during ramp window. Number of RDWRLVLINC_RMP_PRE intervals between incremental read data eye training during ramp window. A value of 0 will disable incremental read data..."
textline "                                                           "
hexmask.long.byte 0x00 8.--15. 1. " RDLVLGATEINC_RMP_INT                   ,Incremental read DQS gate training interval during ramp window. Number of RDWRLVLINC_RMP_PRE intervals between incremental read DQS gate training during ramp window. A value of 0 will disable incremental read DQ..."
hexmask.long.byte 0x00 0.--7. 1. "         WRLVLINC_RMP_INT                  ,Incremental write leveling interval during ramp window. Number of RDWRLVLINC_RMP_PRE intervals between incremental write leveling during ramp window. A value of 0 will disable incremental write leveling."
group.long 0xDC++0x3
line.long 0x00 "EMIF_READ_WRITE_LEVELING_CONTROL,Read/write leveling control register"
bitfld.long 0x00 31. " RDWRLVLFULL_START                      ,Full leveling trigger. Writing a 1 to this field triggers full read and write leveling. This bit will self clear to 0." "0,1"
hexmask.long.byte 0x00 24.--30. 1. "          RDWRLVLINC_PRE                    ,Incremental leveling pre-scalar in number of refresh periods. The value programmed is minus one the required value. Refresh period is defined by REFRESH_RATE inEMIF_SDRAM_REFRESH_CONTROL register."
hexmask.long.byte 0x00 16.--23. 1. "    RDLVLINC_INT                      ,Incremental read data eye training interval. Number of RDWRLVLINC_PRE intervals between incremental read data eye training. A value of 0 will disable incremental read data eye training."
textline "                                                           "
hexmask.long.byte 0x00 8.--15. 1. " RDLVLGATEINC_INT                       ,Incremental read DQS gate training interval. Number of RDWRLVLINC_PRE intervals between incremental read DQS gate training. A value of 0 will disable incremental read DQS gate training."
hexmask.long.byte 0x00 0.--7. 1. "         WRLVLINC_INT                      ,Incremental write leveling interval. Number of RDWRLVLINC_PRE intervals between incremental write leveling. A value of 0 will disable incremental write leveling."
group.long 0xE4++0x3
line.long 0x00 "EMIF_DDR_PHY_CONTROL_1,PHY control register 1"
bitfld.long 0x00 27. " RDLVL_MASK                             ,Writing a 1 to this field will mask read data eye training during full leveling command, plus drives reg_phy_use_rd_data_eye_level control low to allow user to use programmed ratio values." "0,1"
bitfld.long 0x00 26. "          RDLVLGATE_MASK                    ,Writing a 1 to this field will mask dqs gate training during full leveling command, plus drives reg_phy_use_rd_dqs_level control low to allow user to use programmed ratio values." "0,1"
bitfld.long 0x00 25. "     WRLVL_MASK                        ,Writing a 1 to this field will mask write leveling training during full leveling command, plus drives reg_phy_use_wr_level control low to allow user to use programmed ratio values." "0,1"
textline "                                                           "
bitfld.long 0x00 21. " PHY_HALF_DELAYS                        ,Adjust slave delay line delays to support 2? mode 1: 2? mode (MDLL clock is half the rate of PHY) 0: 1? mode (MDLL clock rate is same as PHY)" "0,1"
bitfld.long 0x00 20. "          PHY_CLK_STALL_LEVEL               ,Enable variable idle value for delay lines. Enable during normal operations to avoid differential aging in the delay lines." "0,1"
bitfld.long 0x00 19. "     PHY_DIS_CALIB_RST                 ,Disable the dll_calib (internally generated) signal from resetting the Read Capture FIFO pointers and portions of data PHYs. Debug only. Note: dll_calib is generated by 1. EMIF_MISC_REG[0] DLL_CALIB_OS set to 1,o..." "0,1"
textline "                                                           "
bitfld.long 0x00 18. " PHY_INVERT_CLKOUT                      ,Inverts the polarity of DRAM clock. 0: core clock is passed on to DRAM 1: inverted core clock is passed on to DRAM" "0,1"
hexmask.long.byte 0x00 10.--17. 1. "          PHY_DLL_LOCK_DIFF                 ,The maximum number of delay line taps variation while maintaining the master DLL lock. When the PHY is in locked state and the variation on the clock exceeds the variation indicated by this field, the lock s..."
bitfld.long 0x00 9. "    PHY_FAST_DLL_LOCK                 ,Controls master DLL to lock fast or average logic must be part of locking process. Set to 1 before OPP transition commences, and set back to 0 after OPP transition completes. 1: MDLL lock is asserted based on sing..." "0,1"
textline "                                                           "
bitfld.long 0x00 0.--4. " READ_LATENCY                           ,This field defines the read latency for the read data from SDRAM in number of DDR clock cycles. This field is used by the EMIF as well as the PHY. READ_LATENCY = RL + reg_phy_rdc_we_to_re -1. EMIF uses above equ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xE8++0x3
line.long 0x00 "EMIF_DDR_PHY_CONTROL_1_SHADOW,"
bitfld.long 0x00 27. " RDLVL_MASK_SHDW                        ,Shadow field for RDLVL_MASK" "0,1"
bitfld.long 0x00 26. "          RDLVLGATE_MASK_SHDW               ,Shadow field for RDLVLGATE_MASK" "0,1"
bitfld.long 0x00 25. "     WRLVL_MASK_SHDW                   ,Shadow field for WRLVL_MASK" "0,1"
textline "                                                           "
bitfld.long 0x00 21. " PHY_HALF_DELAYS_SHDW                   ,Shadow field for PHY_HALF_DELAYS" "0,1"
bitfld.long 0x00 20. "          PHY_CLK_STALL_LEVEL_SHDW          ,Shadow field for PHY_CLK_STALL_LEVEL" "0,1"
bitfld.long 0x00 19. "     PHY_DIS_CALIB_RST_SHDW            ,Shadow field for PHY_DIS_CALIB_RST" "0,1"
textline "                                                           "
bitfld.long 0x00 18. " PHY_INVERT_CLKOUT_SHDW                 ,Shadow field for PHY_INVERT_CLKOUT" "0,1"
hexmask.long.byte 0x00 10.--17. 1. "          PHY_DLL_LOCK_DIFF_SHDW            ,Shadow field for PHY_DLL_LOCK_DIFF"
bitfld.long 0x00 9. "    PHY_FAST_DLL_SHDW                 ,Shadow field for PHY_FAST_DLL" "0,1"
textline "                                                           "
bitfld.long 0x00 0.--4. " READ_LATENCY_SHDW                      ,Shadow field for READ_LATENCY" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xEC++0x3
line.long 0x00 "EMIF_DDR_PHY_CONTROL_2,"
group.long 0x100++0x3
line.long 0x00 "EMIF_PRIORITY_TO_CLASS_OF_SERVICE_MAPPING,"
bitfld.long 0x00 31. " PRI_COS_MAP_EN                         ,Set 1 to enable priority to class of service mapping. Set 0 to disable mapping." "0,1"
bitfld.long 0x00 14.--15. "          PRI_7_COS                         ,Class of service for commands with priority of 7. Value can be 1, 2, or 3. Setting a value of 0 will have similar effects as a value of 3." "0,1,2,3"
bitfld.long 0x00 12.--13. "     PRI_6_COS                         ,Class of service for commands with priority of 6. Value can be 1, 2, or 3. Setting a value of 0 will have similar effects as a value of 3." "0,1,2,3"
textline "                                                           "
bitfld.long 0x00 10.--11. " PRI_5_COS                              ,Class of service for commands with priority of 5. Value can be 1, 2, or 3. Setting a value of 0 will have similar effects as a value of 3." "0,1,2,3"
bitfld.long 0x00 8.--9. "          PRI_4_COS                         ,Class of service for commands with priority of 4. Value can be 1, 2, or 3. Setting a value of 0 will have similar effects as a value of 3." "0,1,2,3"
bitfld.long 0x00 6.--7. "     PRI_3_COS                         ,Class of service for commands with priority of 3. Value can be 1, 2, or 3. Setting a value of 0 will have similar effects as a value of 3." "0,1,2,3"
textline "                                                           "
bitfld.long 0x00 4.--5. " PRI_2_COS                              ,Class of service for commands with priority of 2. Value can be 1, 2, or 3. Setting a value of 0 will have similar effects as a value of 3." "0,1,2,3"
bitfld.long 0x00 2.--3. "          PRI_1_COS                         ,Class of service for commands with priority of 1. Value can be 1, 2, or 3. Setting a value of 0 will have similar effects as a value of 3." "0,1,2,3"
bitfld.long 0x00 0.--1. "     PRI_0_COS                         ,Class of service for commands with priority of 0. Value can be 1, 2, or 3. Setting a value of 0 will have similar effects as a value of 3." "0,1,2,3"
group.long 0x104++0x3
line.long 0x00 "EMIF_CONNECTION_ID_TO_CLASS_OF_SERVICE_1_MAPPING,"
bitfld.long 0x00 31. " CONNID_COS_1_MAP_EN                    ,Set 1 to enable Connection ID to class of service 1 mapping. Set 0 to disable mapping." "0,1"
hexmask.long.byte 0x00 23.--30. 1. "          CONNID_1_COS_1                    ,Connection ID value 1 for class of service 1."
bitfld.long 0x00 20.--22. "    MSK_1_COS_1                       ,Mask for Connection ID value 1 for class of service 1. Value of 0 will disable masking. Value of 1 will mask Connection ID bit 0. Value of 2 will mask Connection ID bits 1:0. Value of 3 will mask Connection ID bit..." "0,1,2,3,4,5,6,7"
textline "                                                           "
hexmask.long.byte 0x00 12.--19. 1. " CONNID_2_COS_1                         ,Connection ID value 2 for class of service 1."
bitfld.long 0x00 10.--11. "         MSK_2_COS_1                       ,Mask for Connection ID value 2 for class of service 1. Value of 0 will disable masking. Value of 1 will mask Connection ID bit 0. Value of 2 will mask Connection ID bits 1:0. Value of 3 will mask Connection I..." "0,1,2,3"
hexmask.long.byte 0x00 2.--9. 1. "     CONNID_3_COS_1                    ,Connection ID value 3 for class of service 1."
textline "                                                           "
bitfld.long 0x00 0.--1. " MSK_3_COS_1                            ,Mask for Connection ID value 3 for class of service 1. Value of 0 will disable masking. Value of 1 will mask Connection ID bit 0. Value of 2 will mask Connection ID bits 1:0. Value of 3 will mask Connection ID b..." "0,1,2,3"
group.long 0x108++0x3
line.long 0x00 "EMIF_CONNECTION_ID_TO_CLASS_OF_SERVICE_2_MAPPING,"
bitfld.long 0x00 31. " CONNID_COS_2_MAP_EN                    ,Set 1 to enable Connection ID to class of service 2 mapping. Set 0 to disable mapping." "0,1"
hexmask.long.byte 0x00 23.--30. 1. "          CONNID_1_COS_2                    ,Connection ID value 1 for class of service 2."
bitfld.long 0x00 20.--22. "    MSK_1_COS_2                       ,Mask for Connection ID value 1 for class of service 2. Value of 0 will disable masking. Value of 1 will mask Connection ID bit 0. Value of 2 will mask Connection ID bits 1:0. Value of 3 will mask Connection ID bit..." "0,1,2,3,4,5,6,7"
textline "                                                           "
hexmask.long.byte 0x00 12.--19. 1. " CONNID_2_COS_2                         ,Connection ID value 2 for class of service 2."
bitfld.long 0x00 10.--11. "         MSK_2_COS_2                       ,Mask for Connection ID value 2 for class of service 2. Value of 0 will disable masking. Value of 1 will mask Connection ID bit 0. Value of 2 will mask Connection ID bits 1:0. Value of 3 will mask Connection I..." "0,1,2,3"
hexmask.long.byte 0x00 2.--9. 1. "     CONNID_3_COS_2                    ,Connection ID value 3 for class of service 2."
textline "                                                           "
bitfld.long 0x00 0.--1. " MSK_3_COS_2                            ,Mask for Connection ID value 3 for class of service 2. Value of 0 will disable masking. Value of 1 will mask Connection ID bit 0. Value of 2 will mask Connection ID bits 1:0. Value of 3 will mask Connection ID b..." "0,1,2,3"
group.long 0x120++0x3
line.long 0x00 "EMIF_READ_WRITE_EXECUTION_THRESHOLD,"
bitfld.long 0x00 31. " MFLAG_OVERRIDE                         ,Mflag override. - use_MFLAG. - use_COS." "use_MFLAG,use_COS"
bitfld.long 0x00 8.--12. "  WR_THRSH                          ,Write Threshold. Number of SDRAM write bursts after which the EMIF arbitration will switch to executing read commands. The value programmed is always minus one the required number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "    RD_THRSH                          ,Read threshold. Number of SDRAM read bursts after which the EMIF arbitration will switch to executing write commands. The value that is programmed is always minus one the required number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x124++0x3
line.long 0x00 "EMIF_COS_CONFIG,Priority Raise Counter Register."
hexmask.long.byte 0x00 16.--23. 1. " COS_COUNT_1                            ,Priority Raise Counter for class of service 1. Number of EMIF_FICLK cycles after which the EMIF momentarily raises the priority of the class of service 1 commands in the Command FIFO. A value of N will be equal ..."
hexmask.long.byte 0x00 8.--15. 1. "         COS_COUNT_2                       ,Priority Raise Counter for class of service 2. Number of EMIF_FICLK cycles after which the EMIF momentarily raises the priority of the class of service 2 commands in the Command FIFO. A value of N will be equ..."
hexmask.long.byte 0x00 0.--7. 1. "    PR_OLD_COUNT                      ,Priority Raise Old Counter. Number of EMIF_FICLK cycles after which the EMIF momentarily raises the priority of the oldest command in the Command FIFO. A value of N will be equal to N x 16 clocks."
rgroup.long 0x144++0x3
line.long 0x00 "EMIF_PHY_STATUS_1,"
hexmask.long.tbyte 0x00 12.--29. 1. " PHY_REG_PHY_CTRL_DLL_SLAVE_VALUE       ,DLL Slave Value"
bitfld.long 0x00 4.--8. "     PHY_REG_STATUS_DLL_LOCK           ,Lock Status for Data DLLs" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--1. "    PHY_REG_PHY_CTRL_DLL_LOCK         ,Lock Status for Command DLLs" "0,1,2,3"
rgroup.long 0x148++0x3
line.long 0x00 "EMIF_PHY_STATUS_2,"
hexmask.long 0x00 0.--31. 1. " PHY_REG_STATUS_DLL_SLAVE_VALUE_LO      ,Bits 31:0 of Phy_reg_status_dll_slave_value"
rgroup.long 0x14C++0x3
line.long 0x00 "EMIF_PHY_STATUS_3,"
hexmask.long.word 0x00 16.--30. 1. " PHY_REG_RDFIFO_RDPTR                   ,Read FIFO Read Pointer"
hexmask.long.word 0x00 0.--12. 1. "       PHY_REG_STATUS_DLL_SLAVE_VALUE_HI ,Bits 44:32 of Phy_reg_status_dll_slave_value"
rgroup.long 0x150++0x3
line.long 0x00 "EMIF_PHY_STATUS_4,"
hexmask.long.word 0x00 16.--30. 1. " PHY_REG_GATELVL_FSM                    ,Gate Leveling FSM"
hexmask.long.word 0x00 0.--14. 1. "       PHY_REG_RDFIFO_WRPTR              ,Read FIFO Write Pointer"
rgroup.long 0x154++0x3
line.long 0x00 "EMIF_PHY_STATUS_5,"
hexmask.long.tbyte 0x00 0.--19. 1. " PHY_REG_RD_LEVEL_FSM                   ,Read Leveling FSM"
rgroup.long 0x158++0x3
line.long 0x00 "EMIF_PHY_STATUS_6,"
hexmask.long.word 0x00 0.--14. 1. " PHY_REG_WR_LEVEL_FSM                   ,Write Leveling FSM"
rgroup.long 0x15C++0x3
line.long 0x00 "EMIF_PHY_STATUS_7,"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_RDLVL_DQS_RATIO1               ,Read leveling DQS ratio1"
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_RDLVL_DQS_RATIO0          ,Read leveling DQS ratio0"
rgroup.long 0x160++0x3
line.long 0x00 "EMIF_PHY_STATUS_8,"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_RDLVL_DQS_RATIO3               ,Read leveling DQS ratio3"
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_RDLVL_DQS_RATIO2          ,Read leveling DQS ratio2"
rgroup.long 0x164++0x3
line.long 0x00 "EMIF_PHY_STATUS_9,"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_RDLVL_DQS_RATIO5               ,Read Leveling DQS ratio5"
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_RDLVL_DQS_RATIO4          ,Read Leveling DQS ratio4"
rgroup.long 0x168++0x3
line.long 0x00 "EMIF_PHY_STATUS_10,"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_RDLVL_DQS_RATIO7               ,Read leveling DQS ratio7"
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_RDLVL_DQS_RATIO6          ,Read leveling DQS ratio6"
rgroup.long 0x170++0x3
line.long 0x00 "EMIF_PHY_STATUS_12,"
hexmask.long.word 0x00 16.--26. 1. " PHY_REG_RDLVL_FIFOWEIN_RATIO1          ,Read leveling FIFO Write Enable Ratio1"
hexmask.long.word 0x00 0.--10. 1. "       PHY_REG_RDLVL_FIFOWEIN_RATIO0     ,Read leveling FIFO Write Enable Ratio0"
rgroup.long 0x174++0x3
line.long 0x00 "EMIF_PHY_STATUS_13,"
hexmask.long.word 0x00 16.--26. 1. " PHY_REG_RDLVL_FIFOWEIN_RATIO3          ,Read leveling FIFO Write Enable Ratio3"
hexmask.long.word 0x00 0.--10. 1. "       PHY_REG_RDLVL_FIFOWEIN_RATIO2     ,Read leveling FIFO Write Enable Ratio2"
rgroup.long 0x178++0x3
line.long 0x00 "EMIF_PHY_STATUS_14,"
hexmask.long.word 0x00 16.--26. 1. " PHY_REG_RDLVL_FIFOWEIN_RATIO5          ,Read leveling FIFO Write Enable Ratio5"
hexmask.long.word 0x00 0.--10. 1. "       PHY_REG_RDLVL_FIFOWEIN_RATIO4     ,Read leveling FIFO Write Enable Ratio4"
rgroup.long 0x17C++0x3
line.long 0x00 "EMIF_PHY_STATUS_15,"
hexmask.long.word 0x00 16.--26. 1. " PHY_REG_RDLVL_FIFOWEIN_RATIO7          ,Read leveling FIFO Wrie Enable Ratio7"
hexmask.long.word 0x00 0.--10. 1. "       PHY_REG_RDLVL_FIFOWEIN_RATIO6     ,Read leveling FIFO Wrie Enable Ratio6"
rgroup.long 0x184++0x3
line.long 0x00 "EMIF_PHY_STATUS_17,"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WRLVL_DQ_RATIO1                ,Write leveling DQ ratio1"
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WRLVL_DQ_RATIO0           ,Write leveling DQ ratio0"
rgroup.long 0x188++0x3
line.long 0x00 "EMIF_PHY_STATUS_18,"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WRLVL_DQ_RATIO3                ,Write leveling DQ ratio3"
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WRLVL_DQ_RATIO2           ,Write leveling DQ ratio2"
rgroup.long 0x18C++0x3
line.long 0x00 "EMIF_PHY_STATUS_19,"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WRLVL_DQ_RATIO5                ,Write leveling DQ ratio5"
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WRLVL_DQ_RATIO4           ,Write leveling DQ ratio4"
rgroup.long 0x190++0x3
line.long 0x00 "EMIF_PHY_STATUS_20,"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WRLVL_DQ_RATIO7                ,Write leveling DQ ratio7"
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WRLVL_DQ_RATIO6           ,Write leveling DQ ratio6"
rgroup.long 0x198++0x3
line.long 0x00 "EMIF_PHY_STATUS_22,"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WRLVL_DQS_RATIO1               ,Write leveling DQS ratio 1"
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WRLVL_DQS_RATIO0          ,Write leveling DQS ratio 0"
rgroup.long 0x19C++0x3
line.long 0x00 "EMIF_PHY_STATUS_23,"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WRLVL_DQS_RATIO3               ,Write leveling DQS ratio3"
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WRLVL_DQS_RATIO2          ,Write leveling DQS ratio2"
rgroup.long 0x1A0++0x3
line.long 0x00 "EMIF_PHY_STATUS_24,"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WRLVL_DQS_RATIO5               ,Write leveling DQS ratio5"
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WRLVL_DQS_RATIO4          ,Write leveling DQS ratio4"
rgroup.long 0x1A4++0x3
line.long 0x00 "EMIF_PHY_STATUS_25,"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WRLVL_DQS_RATIO7               ,Write leveling DQS ratio7"
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WRLVL_DQS_RATIO6          ,Write leveling DQS ratio6"
rgroup.long 0x1AC++0x3
line.long 0x00 "EMIF_PHY_STATUS_27,"
bitfld.long 0x00 28.--29. " PHY_REG_PHY_CONTROL_MDLL_UNLOCK_STICKY ,Phy control MDLL unlock sticky" "0,1,2,3"
bitfld.long 0x00 20.--24. "          PHY_REG_STATUS_MDLL_UNLOCK_STICKY ,Phy data MDLL unlock sticky" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.tbyte 0x00 0.--19. 1. "    PHY_REG_RDC_FIFO_RST_ERR_CNT      ,RDC FIFO reset error count"
rgroup.long 0x1B0++0x3
line.long 0x00 "EMIF_PHY_STATUS_28,"
bitfld.long 0x00 24.--28. " PHY_REG_GATELVL_INC_FAIL               ,Gate leveling failure." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "         PHY_REG_WRLVL_INC_FAIL            ,Write leveling failure." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "    PHY_REG_RDLVL_INC_FAIL            ,Read leveling failure." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                                           "
bitfld.long 0x00 0.--4. " PHY_REG_FIFO_WE_IN_MIASALIGNED_STICKY  ,FIFO write enable in misaligned stickly" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x200++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_1,Control DLL Slave Ratio Register"
hexmask.long.word 0x00 20.--29. 1. " PHY_REG_CTRL_SLAVE_RATIO2              ,The user programmable ratio value for address/command launch timing in PHY control macro 2. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master DLL ..."
hexmask.long.word 0x00 10.--19. 1. "       PHY_REG_CTRL_SLAVE_RATIO1         ,The user programmable ratio value for address/command launch timing in PHY control macro 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master DLL..."
hexmask.long.word 0x00 0.--9. 1. "  PHY_REG_CTRL_SLAVE_RATIO0         ,The user programmable ratio value for address/command launch timing in PHY control macro 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master DLL will..."
group.long 0x204++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_1_SHADOW,Control DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 20.--29. 1. " PHY_REG_CTRL_SLAVE_RATIO2              ,The user programmable ratio value for address/command launch timing in PHY control macro 2. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master DLL ..."
hexmask.long.word 0x00 10.--19. 1. "       PHY_REG_CTRL_SLAVE_RATIO1         ,The user programmable ratio value for address/command launch timing in PHY control macro 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master DLL..."
hexmask.long.word 0x00 0.--9. 1. "  PHY_REG_CTRL_SLAVE_RATIO0         ,The user programmable ratio value for address/command launch timing in PHY control macro 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master DLL will..."
group.long 0x208++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_2,Data macro 0, FIFO write enable (read DQS gate) DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--26. 1. " PHY_REG_FIFO_WE_SLAVE_RATIO1           ,The user programmable ratio value for the FIFO write enable slave DLL in PHY data macro 0, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from t..."
hexmask.long.word 0x00 0.--10. 1. "       PHY_REG_FIFO_WE_SLAVE_RATIO0      ,The user programmable ratio value for the FIFO write enable slave DLL in PHY data macro 0, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from ..."
group.long 0x20C++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_2_SHADOW,Data macro 0, FIFO write enable (read DQS gate) DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--26. 1. " PHY_REG_FIFO_WE_SLAVE_RATIO1           ,The user programmable ratio value for the FIFO write enable slave DLL in PHY data macro 0, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from t..."
hexmask.long.word 0x00 0.--10. 1. "       PHY_REG_FIFO_WE_SLAVE_RATIO0      ,The user programmable ratio value for the FIFO write enable slave DLL in PHY data macro 0, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from ..."
group.long 0x210++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_3,Data macro 1, FIFO write enable (read DQS gate) DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--26. 1. " PHY_REG_FIFO_WE_SLAVE_RATIO3           ,The user programmable ratio value for the FIFO write enable slave DLL in PHY data macro 1, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from t..."
hexmask.long.word 0x00 0.--10. 1. "       PHY_REG_FIFO_WE_SLAVE_RATIO2      ,The user programmable ratio value for the FIFO write enable slave DLL in PHY data macro 1, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from ..."
group.long 0x214++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_3_SHADOW,Data macro 1, FIFO write enable (read DQS gate) DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--26. 1. " PHY_REG_FIFO_WE_SLAVE_RATIO3           ,The user programmable ratio value for the FIFO write enable slave DLL in PHY data macro 1, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from t..."
hexmask.long.word 0x00 0.--10. 1. "       PHY_REG_FIFO_WE_SLAVE_RATIO2      ,The user programmable ratio value for the FIFO write enable slave DLL in PHY data macro 1, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from ..."
group.long 0x218++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_4,Data macro 2, FIFO write enable (read DQS gate) DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--26. 1. " PHY_REG_FIFO_WE_SLAVE_RATIO5           ,The user programmable ratio value for the FIFO write enable slave DLL in PHY data macro 2, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from t..."
hexmask.long.word 0x00 0.--10. 1. "       PHY_REG_FIFO_WE_SLAVE_RATIO4      ,The user programmable ratio value for the FIFO write enable slave DLL in PHY data macro 2, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from ..."
group.long 0x21C++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_4_SHADOW,Data macro 2, FIFO write enable (read DQS gate) DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--26. 1. " PHY_REG_FIFO_WE_SLAVE_RATIO5           ,The user programmable ratio value for the FIFO write enable slave DLL in PHY data macro 2, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from t..."
hexmask.long.word 0x00 0.--10. 1. "       PHY_REG_FIFO_WE_SLAVE_RATIO4      ,The user programmable ratio value for the FIFO write enable slave DLL in PHY data macro 2, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from ..."
group.long 0x220++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_5,Data macro 3, FIFO write enable (read DQS gate) DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--26. 1. " PHY_REG_FIFO_WE_SLAVE_RATIO7           ,The user programmable ratio value for the FIFO write enable slave DLL in PHY data macro 3, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from t..."
hexmask.long.word 0x00 0.--10. 1. "       PHY_REG_FIFO_WE_SLAVE_RATIO6      ,The user programmable ratio value for the FIFO write enable slave DLL in PHY data macro 3, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from ..."
group.long 0x224++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_5_SHADOW,Data macro 3, FIFO write enable (read DQS gate) DLL Slave Ratio Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--26. 1. " PHY_REG_FIFO_WE_SLAVE_RATIO7           ,The user programmable ratio value for the FIFO write enable slave DLL in PHY data macro 3, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from t..."
hexmask.long.word 0x00 0.--10. 1. "       PHY_REG_FIFO_WE_SLAVE_RATIO6      ,The user programmable ratio value for the FIFO write enable slave DLL in PHY data macro 3, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from ..."
group.long 0x230++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_7,Data macro 0, read DQS DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_RD_DQS_SLAVE_RATIO1            ,The user programmable ratio value for the read DQS slave DLL in PHY data macro 0, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_RD_DQS_SLAVE_RATIO0       ,The user programmable ratio value for the read DQS slave DLL in PHY data macro 0, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
group.long 0x234++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_7_SHADOW,Data macro 0, read DQS DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_RD_DQS_SLAVE_RATIO1            ,The user programmable ratio value for the read DQS slave DLL in PHY data macro 0, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_RD_DQS_SLAVE_RATIO0       ,The user programmable ratio value for the read DQS slave DLL in PHY data macro 0, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
group.long 0x238++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_8,Data macro 1, read DQS DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_RD_DQS_SLAVE_RATIO3            ,The user programmable ratio value for the read DQS slave DLL in PHY data macro 1, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_RD_DQS_SLAVE_RATIO2       ,The user programmable ratio value for the read DQS slave DLL in PHY data macro 1, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
group.long 0x23C++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_8_SHADOW,Data macro 1, read DQS DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_RD_DQS_SLAVE_RATIO3            ,The user programmable ratio value for the read DQS slave DLL in PHY data macro 1, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_RD_DQS_SLAVE_RATIO2       ,The user programmable ratio value for the read DQS slave DLL in PHY data macro 1, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
group.long 0x240++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_9,Data macro 2, read DQS DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_RD_DQS_SLAVE_RATIO5            ,The user programmable ratio value for the read DQS slave DLL in PHY data macro 2, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_RD_DQS_SLAVE_RATIO4       ,The user programmable ratio value for the read DQS slave DLL in PHY data macro 2, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
group.long 0x244++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_9_SHADOW,Data macro 2, read DQS DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_RD_DQS_SLAVE_RATIO5            ,The user programmable ratio value for the read DQS slave DLL in PHY data macro 2, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_RD_DQS_SLAVE_RATIO4       ,The user programmable ratio value for the read DQS slave DLL in PHY data macro 2, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
group.long 0x248++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_10,Data macro 3, read DQS DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_RD_DQS_SLAVE_RATIO7            ,The user programmable ratio value for the read DQS slave DLL in PHY data macro 3, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_RD_DQS_SLAVE_RATIO6       ,The user programmable ratio value for the read DQS slave DLL in PHY data macro 3, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
group.long 0x24C++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_10_SHADOW,Data macro 3, read DQS DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_RD_DQS_SLAVE_RATIO7            ,The user programmable ratio value for the read DQS slave DLL in PHY data macro 3, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_RD_DQS_SLAVE_RATIO6       ,The user programmable ratio value for the read DQS slave DLL in PHY data macro 3, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
group.long 0x258++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_12,Data macro 0, write DQ (data) DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DATA_SLAVE_RATIO1           ,The user programmable ratio value for the write DQ slave DLL in PHY data macro 0, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DATA_SLAVE_RATIO0      ,The user programmable ratio value for the write DQ slave DLL in PHY data macro 0, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
group.long 0x25C++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_12_SHADOW,Data macro 0, write DQ (data) DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DATA_SLAVE_RATIO1           ,The user programmable ratio value for the write DQ slave DLL in PHY data macro 0, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DATA_SLAVE_RATIO0      ,The user programmable ratio value for the write DQ slave DLL in PHY data macro 0, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
group.long 0x260++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_13,Data macro 1, write DQ (data) DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DATA_SLAVE_RATIO3           ,The user programmable ratio value for the write DQ slave DLL in PHY data macro 1, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DATA_SLAVE_RATIO2      ,The user programmable ratio value for the write DQ slave DLL in PHY data macro 1, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
group.long 0x264++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_13_SHADOW,Data macro 1, write DQ (data) DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DATA_SLAVE_RATIO3           ,The user programmable ratio value for the write DQ slave DLL in PHY data macro 1, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DATA_SLAVE_RATIO2      ,The user programmable ratio value for the write DQ slave DLL in PHY data macro 1, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
group.long 0x268++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_14,Data macro 2, write DQ (data) DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DATA_SLAVE_RATIO5           ,The user programmable ratio value for the write DQ slave DLL in PHY data macro 2, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DATA_SLAVE_RATIO4      ,The user programmable ratio value for the write DQ slave DLL in PHY data macro 2, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
group.long 0x26C++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_14_SHADOW,Data macro 2, write DQ (data) DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DATA_SLAVE_RATIO5           ,The user programmable ratio value for the write DQ slave DLL in PHY data macro 2, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DATA_SLAVE_RATIO4      ,The user programmable ratio value for the write DQ slave DLL in PHY data macro 2, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
group.long 0x270++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_15,Data macro 3, write DQ (data) DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DATA_SLAVE_RATIO7           ,The user programmable ratio value for the write DQ slave DLL in PHY data macro 3, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DATA_SLAVE_RATIO6      ,The user programmable ratio value for the write DQ slave DLL in PHY data macro 3, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
group.long 0x274++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_15_SHADOW,Data macro 3, write DQ (data) DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DATA_SLAVE_RATIO7           ,The user programmable ratio value for the write DQ slave DLL in PHY data macro 3, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the master..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DATA_SLAVE_RATIO6      ,The user programmable ratio value for the write DQ slave DLL in PHY data macro 3, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
group.long 0x280++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_17,Data macro 0, write DQS DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DQS_SLAVE_RATIO1            ,The user programmable ratio value for the write DQS slave DLL in PHY data macro 0, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DQS_SLAVE_RATIO0       ,The user programmable ratio value for the write DQS slave DLL in PHY data macro 0, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the mast..."
group.long 0x284++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_17_SHADOW,Data macro 0, write DQS DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DQS_SLAVE_RATIO1            ,The user programmable ratio value for the write DQS slave DLL in PHY data macro 0, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DQS_SLAVE_RATIO0       ,The user programmable ratio value for the write DQS slave DLL in PHY data macro 0, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the mast..."
group.long 0x288++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_18,Data macro 1, write DQS DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DQS_SLAVE_RATIO3            ,The user programmable ratio value for the write DQS slave DLL in PHY data macro 1, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DQS_SLAVE_RATIO2       ,The user programmable ratio value for the write DQS slave DLL in PHY data macro 1, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the mast..."
group.long 0x28C++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_18_SHADOW,Data macro 1, write DQS DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DQS_SLAVE_RATIO3            ,The user programmable ratio value for the write DQS slave DLL in PHY data macro 1, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DQS_SLAVE_RATIO2       ,The user programmable ratio value for the write DQS slave DLL in PHY data macro 1, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the mast..."
group.long 0x290++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_19,Data macro 2, write DQS DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DQS_SLAVE_RATIO5            ,The user programmable ratio value for the write DQS slave DLL in PHY data macro 2, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DQS_SLAVE_RATIO4       ,The user programmable ratio value for the write DQS slave DLL in PHY data macro 2, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the mast..."
group.long 0x294++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_19_SHADOW,Data macro 2, write DQS DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DQS_SLAVE_RATIO5            ,The user programmable ratio value for the write DQS slave DLL in PHY data macro 2, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DQS_SLAVE_RATIO4       ,The user programmable ratio value for the write DQS slave DLL in PHY data macro 2, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the mast..."
group.long 0x298++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_20,Data macro 3, write DQS DLL Slave Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DQS_SLAVE_RATIO7            ,The user programmable ratio value for the write DQS slave DLL in PHY data macro 3, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DQS_SLAVE_RATIO6       ,The user programmable ratio value for the write DQS slave DLL in PHY data macro 3, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the mast..."
group.long 0x29C++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_20_SHADOW,Data macro 3, write DQS DLL Slave Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " PHY_REG_WR_DQS_SLAVE_RATIO7            ,The user programmable ratio value for the write DQS slave DLL in PHY data macro 3, chip select 1. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the maste..."
hexmask.long.word 0x00 0.--9. 1. "       PHY_REG_WR_DQS_SLAVE_RATIO6       ,The user programmable ratio value for the write DQS slave DLL in PHY data macro 3, chip select 0. This is the fraction of a clock cycle in units of 256ths. In other words, the full-cycle tap value from the mast..."
group.long 0x2A8++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_22,"
hexmask.long.word 0x00 16.--24. 1. " PHY_REG_FIFO_WE_IN_DELAY               ,The user programmable FIFO write enable delay value used when DLL_OVERRIDE = 1."
hexmask.long.word 0x00 0.--8. 1. "       PHY_REG_CTRL_SLAVE_DELAY          ,The user programmable command delay value used when DLL_OVERRIDE = 1."
group.long 0x2AC++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_22_SHADOW,"
hexmask.long.word 0x00 16.--24. 1. " PHY_REG_FIFO_WE_IN_DELAY               ,The user programmable FIFO write enable delay value used when DLL_OVERRIDE = 1."
hexmask.long.word 0x00 0.--8. 1. "       PHY_REG_CTRL_SLAVE_DELAY          ,The user programmable command delay value used when DLL_OVERRIDE = 1."
group.long 0x2B0++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_23,"
hexmask.long.word 0x00 16.--24. 1. " PHY_REG_WR_DQS_SLAVE_DELAY             ,The user programmable write DQS delay value used when DLL_OVERRIDE = 1."
hexmask.long.word 0x00 0.--8. 1. "       PHY_REG_RD_DQS_SLAVE_DELAY        ,The user programmable read DQS delay value used when DLL_OVERRIDE = 1."
group.long 0x2B4++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_23_SHADOW,"
hexmask.long.word 0x00 16.--24. 1. " PHY_REG_WR_DQS_SLAVE_DELAY             ,The user programmable write DQS delay value used when DLL_OVERRIDE = 1."
hexmask.long.word 0x00 0.--8. 1. "       PHY_REG_RD_DQS_SLAVE_DELAY        ,The user programmable read DQS delay value used when DLL_OVERRIDE = 1."
group.long 0x2B8++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_24,"
hexmask.long.byte 0x00 24.--30. 1. " REG_PHY_DQ_OFFSET_HI                   ,The user programmable offset ratio value from write DQS to write DQ. This value is used for the write DQ slave DLL in PHY ECC data macro. The ratio represents the fraction of a clock cycle in units of 256ths. In..."
bitfld.long 0x00 16. "         REG_PHY_GATELVL_INIT_MODE         ,The user programmable init ratio selection mode. Recommended value is 0x1." "0,1"
bitfld.long 0x00 12. "     REG_PHY_USE_RANK0_DELAYS          ,Delay selection. Chip select 0 delay line ratios are used for all chip selects when set to 1. Each chip select uses its own delays when set to 0." "0,1"
textline "                                                           "
hexmask.long.word 0x00 0.--8. 1. " REG_PHY_WR_DATA_SLAVE_DELAY            ,The user programmable write DQ delay value used when DLL_OVERRIDE = 1."
group.long 0x2BC++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_24_SHADOW,"
hexmask.long.byte 0x00 24.--30. 1. " REG_PHY_DQ_OFFSET_HI                   ,The user programmable offset ratio value from write DQS to write DQ. This value is used for the write DQ slave DLL in PHY ECC data macro. The ratio represents the fraction of a clock cycle in units of 256ths. In..."
bitfld.long 0x00 16. "         REG_PHY_GATELVL_INIT_MODE         ,The user programmable init ratio selection mode. Recommended value is 0x1." "0,1"
bitfld.long 0x00 12. "     REG_PHY_USE_RANK0_DELAYS          ,Delay selection. Chip select 0 delay line ratios are used for all chip selects when set to 1. Each chip select uses its own delays when set to 0." "0,1"
textline "                                                           "
hexmask.long.word 0x00 0.--8. 1. " REG_PHY_WR_DATA_SLAVE_DELAY            ,The user programmable write DQ delay value used when DLL_OVERRIDE = 1."
group.long 0x2C0++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_25,DQ DLL Slave Ratio Offset Register"
hexmask.long.byte 0x00 21.--27. 1. " REG_PHY_DQ_OFFSET3                     ,The user programmable offset ratio value from write DQS to write DQ. This value is used for the write DQ slave DLL in PHY data macro 3. The ratio represents the fraction of a clock cycle in units of 256ths. In o..."
hexmask.long.byte 0x00 14.--20. 1. "         REG_PHY_DQ_OFFSET2                ,The user programmable offset ratio value from write DQS to write DQ. This value is used for the write DQ slave DLL in PHY data macro 2. The ratio represents the fraction of a clock cycle in units of 256ths. I..."
hexmask.long.byte 0x00 7.--13. 1. "    REG_PHY_DQ_OFFSET1                ,The user programmable offset ratio value from write DQS to write DQ. This value is used for the write DQ slave DLL in PHY data macro 1. The ratio represents the fraction of a clock cycle in units of 256ths. In oth..."
textline "                                                           "
hexmask.long.byte 0x00 0.--6. 1. " REG_PHY_DQ_OFFSET0                     ,The user programmable offset ratio value from write DQS to write DQ. This value is used for the write DQ slave DLL in PHY data macro 0. The ratio represents the fraction of a clock cycle in units of 256ths. In o..."
group.long 0x2C4++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_25_SHADOW,DQ DLL Slave Ratio Offset Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.byte 0x00 21.--27. 1. " REG_PHY_DQ_OFFSET3                     ,The user programmable offset ratio value from write DQS to write DQ. This value is used for the write DQ slave DLL in PHY data macro 3. The ratio represents the fraction of a clock cycle in units of 256ths. In o..."
hexmask.long.byte 0x00 14.--20. 1. "         REG_PHY_DQ_OFFSET2                ,The user programmable offset ratio value from write DQS to write DQ. This value is used for the write DQ slave DLL in PHY data macro 2. The ratio represents the fraction of a clock cycle in units of 256ths. I..."
hexmask.long.byte 0x00 7.--13. 1. "    REG_PHY_DQ_OFFSET1                ,The user programmable offset ratio value from write DQS to write DQ. This value is used for the write DQ slave DLL in PHY data macro 1. The ratio represents the fraction of a clock cycle in units of 256ths. In oth..."
textline "                                                           "
hexmask.long.byte 0x00 0.--6. 1. " REG_PHY_DQ_OFFSET0                     ,The user programmable offset ratio value from write DQS to write DQ. This value is used for the write DQ slave DLL in PHY data macro 0. The ratio represents the fraction of a clock cycle in units of 256ths. In o..."
group.long 0x2C8++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_26,Data macro 0, FIFO write enable (read DQS gate) DLL Slave Init Ratio Register"
hexmask.long.word 0x00 16.--26. 1. " REG_PHY_GATELVL_INIT_RATIO1            ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY data macro 0, chip select 1. This is the fraction of..."
hexmask.long.word 0x00 0.--10. 1. "       REG_PHY_GATELVL_INIT_RATIO0       ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY data macro 0, chip select 0. This is the fraction o..."
group.long 0x2CC++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_26_SHADOW,Data macro 0, FIFO write enable (read DQS gate) DLL Slave Init Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--26. 1. " REG_PHY_GATELVL_INIT_RATIO1            ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY data macro 0, chip select 1. This is the fraction of..."
hexmask.long.word 0x00 0.--10. 1. "       REG_PHY_GATELVL_INIT_RATIO0       ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY data macro 0, chip select 0. This is the fraction o..."
group.long 0x2D0++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_27,Data macro 1, FIFO write enable (read DQS gate) DLL Slave Init Ratio Register"
hexmask.long.word 0x00 16.--26. 1. " REG_PHY_GATELVL_INIT_RATIO3            ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY data macro 1, chip select 1. This is the fraction of..."
hexmask.long.word 0x00 0.--10. 1. "       REG_PHY_GATELVL_INIT_RATIO2       ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY data macro 1, chip select 0. This is the fraction o..."
group.long 0x2D4++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_27_SHADOW,Data macro 1, FIFO write enable (read DQS gate) DLL Slave Init Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--26. 1. " REG_PHY_GATELVL_INIT_RATIO3            ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY data macro 1, chip select 1. This is the fraction of..."
hexmask.long.word 0x00 0.--10. 1. "       REG_PHY_GATELVL_INIT_RATIO2       ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY data macro 1, chip select 0. This is the fraction o..."
group.long 0x2D8++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_28,Data macro 2, FIFO write enable (read DQS gate) DLL Slave Init Ratio Register"
hexmask.long.word 0x00 16.--26. 1. " REG_PHY_GATELVL_INIT_RATIO5            ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY data macro 2, chip select 1. This is the fraction of..."
hexmask.long.word 0x00 0.--10. 1. "       REG_PHY_GATELVL_INIT_RATIO4       ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY data macro 2, chip select 0. This is the fraction o..."
group.long 0x2DC++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_28_SHADOW,Data macro 2, FIFO write enable (read DQS gate) DLL Slave Init Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--26. 1. " REG_PHY_GATELVL_INIT_RATIO5            ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY data macro 2, chip select 1. This is the fraction of..."
hexmask.long.word 0x00 0.--10. 1. "       REG_PHY_GATELVL_INIT_RATIO4       ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY data macro 2, chip select 0. This is the fraction o..."
group.long 0x2E0++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_29,Data macro 3, FIFO write enable (read DQS gate) DLL Slave Init Ratio Register"
hexmask.long.word 0x00 16.--26. 1. " REG_PHY_GATELVL_INIT_RATIO7            ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY data macro 3, chip select 1. This is the fraction of..."
hexmask.long.word 0x00 0.--10. 1. "       REG_PHY_GATELVL_INIT_RATIO6       ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY data macro 3, chip select 0. This is the fraction o..."
group.long 0x2E4++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_29_SHADOW,Data macro 3, FIFO write enable (read DQS gate) DLL Slave Init Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--26. 1. " REG_PHY_GATELVL_INIT_RATIO7            ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY data macro 3, chip select 1. This is the fraction of..."
hexmask.long.word 0x00 0.--10. 1. "       REG_PHY_GATELVL_INIT_RATIO6       ,The user programmable initialization ratio value used by the gate training finite state machine (hardware leveling) for the FIFO write enable slave DLL in PHY data macro 3, chip select 0. This is the fraction o..."
group.long 0x2F0++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_31,Data macro 0, write DQS DLL Slave Init Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " REG_PHY_WRLVL_INIT_RATIO1              ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY data macro 0, chip select 1. This is the fraction of a cloc..."
hexmask.long.word 0x00 0.--9. 1. "       REG_PHY_WRLVL_INIT_RATIO0         ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY data macro 0, chip select 0. This is the fraction of a clo..."
group.long 0x2F4++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_31_SHADOW,Data macro 0, write DQS DLL Slave Init Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " REG_PHY_WRLVL_INIT_RATIO1              ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY data macro 0, chip select 1. This is the fraction of a cloc..."
hexmask.long.word 0x00 0.--9. 1. "       REG_PHY_WRLVL_INIT_RATIO0         ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY data macro 0, chip select 0. This is the fraction of a clo..."
group.long 0x2F8++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_32,Data macro 1, write DQS DLL Slave Init Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " REG_PHY_WRLVL_INIT_RATIO3              ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY data macro 1, chip select 1. This is the fraction of a cloc..."
hexmask.long.word 0x00 0.--9. 1. "       REG_PHY_WRLVL_INIT_RATIO2         ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY data macro 1, chip select 0. This is the fraction of a clo..."
group.long 0x2FC++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_32_SHADOW,Data macro 1, write DQS DLL Slave Init Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " REG_PHY_WRLVL_INIT_RATIO3              ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY data macro 1, chip select 1. This is the fraction of a cloc..."
hexmask.long.word 0x00 0.--9. 1. "       REG_PHY_WRLVL_INIT_RATIO2         ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY data macro 1, chip select 0. This is the fraction of a clo..."
group.long 0x300++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_33,Data macro 2, write DQS DLL Slave Init Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " REG_PHY_WRLVL_INIT_RATIO5              ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY data macro 2, chip select 1. This is the fraction of a cloc..."
hexmask.long.word 0x00 0.--9. 1. "       REG_PHY_WRLVL_INIT_RATIO4         ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY data macro 2, chip select 0. This is the fraction of a clo..."
group.long 0x304++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_33_SHADOW,Data macro 2, write DQS DLL Slave Init Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " REG_PHY_WRLVL_INIT_RATIO5              ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY data macro 2, chip select 1. This is the fraction of a cloc..."
hexmask.long.word 0x00 0.--9. 1. "       REG_PHY_WRLVL_INIT_RATIO4         ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY data macro 2, chip select 0. This is the fraction of a clo..."
group.long 0x308++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_34,Data macro 3, write DQS DLL Slave Init Ratio Register"
hexmask.long.word 0x00 16.--25. 1. " REG_PHY_WRLVL_INIT_RATIO7              ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY data macro 3, chip select 1. This is the fraction of a cloc..."
hexmask.long.word 0x00 0.--9. 1. "       REG_PHY_WRLVL_INIT_RATIO6         ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY data macro 3, chip select 0. This is the fraction of a clo..."
group.long 0x30C++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_34_SHADOW,Data macro 3, write DQS DLL Slave Init Ratio Shadow Register. Its value is loaded in register on any frequency change."
hexmask.long.word 0x00 16.--25. 1. " REG_PHY_WRLVL_INIT_RATIO7              ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY data macro 3, chip select 1. This is the fraction of a cloc..."
hexmask.long.word 0x00 0.--9. 1. "       REG_PHY_WRLVL_INIT_RATIO6         ,The user programmable initialization ratio value used by the write leveling finite state machine (hardware leveling) for the write DQS slave DLL in PHY data macro 3, chip select 0. This is the fraction of a clo..."
group.long 0x318++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_36,"
bitfld.long 0x00 10. " REG_PHY_RDC_FIFO_RST_ERR_CNT_CLR       ,Clear/reset the phy_reg_rdc_fifo_rst_err_cnt, phy_reg_rdfifo_wrptr and phy_reg_rdfifo_rdptr status flags. A value of 0x1 clears the flag. A value of 0x0 has no effect." "0,1"
bitfld.long 0x00 9. "          REG_PHY_MDLL_UNLOCK_CLR           ,Clears the phy_reg_status_mdll_unlock_sticky flag. A value of 0x1 clears the flag. A value of 0x0 has no effect." "0,1"
bitfld.long 0x00 8. "     REG_PHY_FIFO_WE_IN_MISALIGNED_CLR ,Clears the phy_reg_fifo_we_in_misaligned_sticky status flag. A value of 0x1 clears the flag. A value of 0x0 has no effect." "0,1"
textline "                                                           "
bitfld.long 0x00 4.--7. " REG_PHY_WRLVL_NUM_OF_DQ0               ,Determines the number of samples for dq0_in for each ratio increment by the write leveling finite state machine (hardware leveling). The minimum value supported is 3; however, the default setting of 7 is recomme..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "         REG_PHY_GATELVL_NUM_OF_DQ0        ,Determines the number of samples for dq0_in for each ratio increment by the gate training finite state machine (hardware leveling). The minimum value supported is 3; however, the default setting of 7 is recom..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x31C++0x3
line.long 0x00 "EMIF_EXT_PHY_CONTROL_36_SHADOW,"
bitfld.long 0x00 10. " REG_PHY_RDC_FIFO_RST_ERR_CNT_CLR       ,Clear/reset the phy_reg_rdc_fifo_rst_err_cnt, phy_reg_rdfifo_wrptr and phy_reg_rdfifo_rdptr status flags. A value of 0x1 clears the flag. A value of 0x0 has no effect." "0,1"
bitfld.long 0x00 9. "          REG_PHY_MDLL_UNLOCK_CLR           ,Clears the phy_reg_status_mdll_unlock_sticky flag. A value of 0x1 clears the flag. A value of 0x0 has no effect." "0,1"
bitfld.long 0x00 8. "     REG_PHY_FIFO_WE_IN_MISALIGNED_CLR ,Clears the phy_reg_fifo_we_in_misaligned_sticky status flag. A value of 0x1 clears the flag. A value of 0x0 has no effect." "0,1"
textline "                                                           "
bitfld.long 0x00 4.--7. " REG_PHY_WRLVL_NUM_OF_DQ0               ,Determines the number of samples for dq0_in for each ratio increment by the write leveling finite state machine (hardware leveling). The minimum value supported is 3; however, the default setting of 7 is recomme..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "         REG_PHY_GATELVL_NUM_OF_DQ0        ,Determines the number of samples for dq0_in for each ratio increment by the gate training finite state machine (hardware leveling). The minimum value supported is 3; however, the default setting of 7 is recom..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree.end
tree.open "General_Purpose_Memory_Controller"
tree "GPMC"
base ad:0x50000000
tree "Channel_0"
width 23.
group.long 0x240++0x3
line.long 0x00 "GPMC_BCH_RESULT0_i_0,BCH ECC result (bits 0 to 31)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_0             ,BCH ECC result (bits 0 to 31)"
group.long 0x244++0x3
line.long 0x00 "GPMC_BCH_RESULT1_i_0,BCH ECC result (bits 32 to 63)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_1             ,BCH ECC result (bits 32 to 63)"
group.long 0x248++0x3
line.long 0x00 "GPMC_BCH_RESULT2_i_0,BCH ECC result (bits 64 to 95)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_2             ,BCH ECC result (bits 64 to 95)"
group.long 0x24C++0x3
line.long 0x00 "GPMC_BCH_RESULT3_i_0,BCH ECC result (bits 96 to 127)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_3             ,BCH ECC result (bits 96 to 127)"
group.long 0x300++0x3
line.long 0x00 "GPMC_BCH_RESULT4_i_0,BCH ECC result (bits 128 to 159)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_4             ,BCH ECC result (bits 128 to 159)"
group.long 0x304++0x3
line.long 0x00 "GPMC_BCH_RESULT5_i_0,BCH ECC result (bits 160 to 191)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_5             ,BCH ECC result (bits 160 to 191)"
group.long 0x308++0x3
line.long 0x00 "GPMC_BCH_RESULT6_i_0,BCH ECC result (bits 192 to 207)"
hexmask.long.word 0x00 0.--15. 1. " BCH_RESULT_6             ,BCH ECC result (bits 192 to 207)"
group.long 0x60++0x3
line.long 0x00 "GPMC_CONFIG1_i_0,The configuration register 1 sets signal control parameters per chip-select."
bitfld.long 0x00 31. " WRAPBURST                ,Enables the wrapping burst capability. Must be set if the attached device is configured in wrapping burst - . - ." "WrapNotSupp,WrapSupp"
bitfld.long 0x00 30. "  READMULTIPLE        ,Selects the read single or multiple access - . - ." "RdSingle,RdMultiple"
bitfld.long 0x00 29. "  READTYPE            ,Selects the read mode operation - . - ." "RdAsync,RdSync"
textline "                                "
bitfld.long 0x00 28. " WRITEMULTIPLE            ,Selects the write single or multiple access - . - ." "WrSingle,WrMultiple"
bitfld.long 0x00 27. "   WRITETYPE           ,Selects the write mode operation - . - ." "WrAsync,WrSync"
bitfld.long 0x00 25.--26. "     CLKACTIVATIONTIME   ,Output GPMC_CLK activation time - . - . - . - ." "AtStart,OneClkB4,TwoClkB4,NotDefined"
textline "                                "
bitfld.long 0x00 23.--24. " ATTACHEDDEVICEPAGELENGTH ,Specifies the attached device page (burst) length - . - . - . - ." "Four,Eight,Sixteen,ThirtyTwo"
bitfld.long 0x00 22. "    WAITREADMONITORING  ,Selects the Wait monitoring configuration for Read accesses (Reset value is input pin sampled at device reset) - . - ." "WNotMonit,Wmonit"
bitfld.long 0x00 21. "   WAITWRITEMONITORING ,Selects the Wait monitoring configuration for Write accesses - . - ." "WNotMonit,Wmonit"
textline "                                "
bitfld.long 0x00 18.--19. " WAITMONITORINGTIME       ,Selects input pin Wait monitoring time - . - . - . - ." "AtValid,OneDeviceB4,TwoDeviceB4,NotDefined"
bitfld.long 0x00 16.--17. "  WAITPINSELECT       ,Selects the input wait pin for this chip-select (The reset value is HW fixed to 0x0 for CS0-CS7) - . - . 0x2, 0x3: Reserved. - ." "W0,W1,2,3"
bitfld.long 0x00 12.--13. "          DEVICESIZE          ,Selects the device size attached (Reset value is input pin sampled at device reset for CS0 and 0x1 for CS1 to CS7) - . - . - . - ." "EightBits,SixteenBits,ThirtyTwoBits,Res"
textline "                                "
bitfld.long 0x00 10.--11. " DEVICETYPE               ,Selects the attached device type - . - . - . - ." "NORlike,Res1,NANDlike,Res2"
bitfld.long 0x00 8.--9. "     MUXADDDATA          ,Enables the address and data multiplexed protocol (Reset value is input pin sampled at device reset for CS0 and 0 for CS1-CS7) - . - . - . - ." "NonMux,AADMux,Mux,Reserved"
bitfld.long 0x00 4. "    TIMEPARAGRANULARITY ,Signals timing latencies scalar factor (RD/WRCYCLETIME, RD/WRACCESSTIME, PAGEBURSTACCESSTIME, CSONTIME, CSRD/WROFFTIME, ADVONTIME, ADVRD/WROFFTIME, OEONTIME, OEOFFTIME, WEONTIME, WEOFFTIME, CYCLE2CYCLEDELAY, BUSTURNAROUND, TIME..." "x1,x2"
textline "                                "
bitfld.long 0x00 0.--1. " GPMCFCLKDIVIDER          ,Divides the GPMC_FCLK clock - . - . - . - ." "DivBy1,DivBy2,DivBy3,UNKN_MNEMO"
group.long 0x64++0x3
line.long 0x00 "GPMC_CONFIG2_i_0,CS signal timing parameter configuration"
bitfld.long 0x00 16.--20. " CSWROFFTIME              ,CS i deassertion time from start cycle time for write accesses 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "           CSRDOFFTIME         ,CS i de-assertion time from start cycle time for read accesses 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "          CSEXTRADELAY        ,CS i Add extra half-GPMC_FCLK cycle - . - ." "NotDelayed,0x01"
textline "                                "
bitfld.long 0x00 0.--3. " CSONTIME                 ,CS i assertion time from start cycle time 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x68++0x3
line.long 0x00 "GPMC_CONFIG3_i_0,nADV signal timing parameter configuration"
bitfld.long 0x00 28.--30. " ADVAADMUXWROFFTIME       ,nADV deassertion for first address phase when using the AAD-multiplexed protocol 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "            ADVAADMUXRDOFFTIME  ,nADV assertion for first address phase when using the AAD-multiplexed protocol 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 16.--20. "           ADVWROFFTIME        ,nADV deassertion time from start cycle time for write accesses 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                "
bitfld.long 0x00 8.--12. " ADVRDOFFTIME             ,nADV deassertion time from start cycle time for read accesses 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "           ADVEXTRADELAY       ,nADV add extra half-GPMC_FCLK cycle - . - ." "NotDelayed,0x01"
bitfld.long 0x00 4.--6. "  ADVAADMUXONTIME     ,nADV assertion for first address phase when using the AAD-multiplexed protocol 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
textline "                                "
bitfld.long 0x00 0.--3. " ADVONTIME                ,nADV assertion time from start cycle time 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x6C++0x3
line.long 0x00 "GPMC_CONFIG4_i_0,nWE and nOE signals timing parameter configuration"
bitfld.long 0x00 24.--28. " WEOFFTIME                ,nWE deassertion time from start cycle time 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 23. "           WEEXTRADELAY        ,nWE add extra half-GPMC_FCLK cycle - . - ." "NotDelayed,0x01"
bitfld.long 0x00 16.--19. "  WEONTIME            ,nWE assertion time from start cycle time 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                "
bitfld.long 0x00 13.--15. " OEAADMUX_OFFTIME         ,nOE deassertion time for the first address phase in an AAD-multiplexed access 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--12. "            OEOFFTIME           ,nOE deassertion time from start cycle time 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "          OEEXTRADELAY        ,nOE add extra half-GPMC_FCLK cycle - . - ." "NotDelayed,1"
textline "                                "
bitfld.long 0x00 4.--6. " OEAADMUX_ONTIME          ,nOE assertion time for the first address phase in an AAD-mux access 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--3. "            OEONTIME            ,nOE assertion time from start cycle time 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x70++0x3
line.long 0x00 "GPMC_CONFIG5_i_0,RdAccessTime and CycleTime timing parameters configuration"
bitfld.long 0x00 24.--27. " PAGEBURSTACCESSTIME      ,Delay between successive words in a multiple access 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--20. "           RDACCESSTIME        ,Delay between start cycle time and first data valid 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "          WRCYCLETIME         ,Total write cycle time 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                "
bitfld.long 0x00 0.--4. " RDCYCLETIME              ,Total read cycle time 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x74++0x3
line.long 0x00 "GPMC_CONFIG6_i_0,WrAccessTime, WrDataOnADmuxBus, Cycle2Cycle and BusTurnAround parameters configuration"
bitfld.long 0x00 24.--28. " WRACCESSTIME             ,Delay from start access time to the GPMC_FCLK rising edge corresponding the GPMC_CLK rising edge used by the attached memory for the first data capture 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cy..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--19. "           WRDATAONADMUXBUS    ,Specifies on which GPMC_FCLK rising edge the first data of the write is driven in the add/data mux bus" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "          CYCLE2CYCLEDELAY    ,Chip-select high pulse delay between successive accesses 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                "
bitfld.long 0x00 7. " CYCLE2CYCLESAMECSEN      ,Add CYCLE2CYCLEDELAY between successive accesses to the same chip-select (any access type) - . - ." "NoC2CDelay,C2CDelay"
bitfld.long 0x00 6. "   CYCLE2CYCLEDIFFCSEN ,Add CYCLE2CYCLEDELAY between successive accesses to a different chip-select (any access type) - . - ." "NoC2CDelay,1"
bitfld.long 0x00 0.--3. "  BUSTURNAROUND       ,Bus turnaround latency between successive accesses to the same chip-select (read to write) or to a different chip-select (read to read and read to write) 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x78++0x3
line.long 0x00 "GPMC_CONFIG7_i_0,CS address mapping configuration"
bitfld.long 0x00 8.--11. " MASKADDRESS              ,CS mask address. 0x0000: Chip-select size of 256 MiB 0x1000: Chip-select size of 128 MiB 0x1100: Chip-select size of 64 MiB 0x1110: Chip-select size of 32 MiB 0x1111: Chip-select size of 16 MiB Other values must be avoided as..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 6. "           CSVALID             ,CS enable - . - ." "CSDisabled,CSEnabled"
bitfld.long 0x00 0.--5. "  BASEADDRESS         ,CSi base address where i = 0 to 7 (16-MiB minimum granularity) bits [5:0] corresponds to A29, A28, A27, A26, A25, and A24. See" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x200++0x3
line.long 0x00 "GPMC_ECCj_RESULT_0,ECC result register"
bitfld.long 0x00 27. " P2048O                   ,Odd row parity bit 2048, only used for ECC computed on 512 bytes" "0,1"
bitfld.long 0x00 26. "            P1024O              ,Odd row parity bit 1024" "0,1"
bitfld.long 0x00 25. "           P512O               ,Odd row parity bit 512" "0,1"
textline "                                "
bitfld.long 0x00 24. " P256O                    ,Odd row parity bit 256" "0,1"
bitfld.long 0x00 23. "            P128O               ,Odd row parity bit 128" "0,1"
bitfld.long 0x00 22. "           P64O                ,Odd row parity bit 64" "0,1"
textline "                                "
bitfld.long 0x00 21. " P32O                     ,Odd row parity bit 32" "0,1"
bitfld.long 0x00 20. "            P16O                ,Odd row parity bit 16" "0,1"
bitfld.long 0x00 19. "           P8O                 ,Odd row parity bit 8" "0,1"
textline "                                "
bitfld.long 0x00 18. " P4O                      ,Odd Column Parity bit 4" "0,1"
bitfld.long 0x00 17. "            P2O                 ,Odd Column Parity bit 2" "0,1"
bitfld.long 0x00 16. "           P1O                 ,Odd Column Parity bit 1" "0,1"
textline "                                "
bitfld.long 0x00 11. " P2048E                   ,Even row parity bit 2048, only used for ECC computed on 512 bytes" "0,1"
bitfld.long 0x00 10. "            P1024E              ,Even row parity bit 1024" "0,1"
bitfld.long 0x00 9. "           P512E               ,Even row parity bit 512" "0,1"
textline "                                "
bitfld.long 0x00 8. " P256E                    ,Even row parity bit 256" "0,1"
bitfld.long 0x00 7. "            P128E               ,Even row parity bit 128" "0,1"
bitfld.long 0x00 6. "           P64E                ,Even row parity bit 64" "0,1"
textline "                                "
bitfld.long 0x00 5. " P32E                     ,Even row parity bit 32" "0,1"
bitfld.long 0x00 4. "            P16E                ,Even row parity bit 16" "0,1"
bitfld.long 0x00 3. "           P8E                 ,Even row parity bit 8" "0,1"
textline "                                "
bitfld.long 0x00 2. " P4E                      ,Even column parity bit 4" "0,1"
bitfld.long 0x00 1. "            P2E                 ,Even column parity bit 2" "0,1"
bitfld.long 0x00 0. "           P1E                 ,Even column parity bit 1" "0,1"
wgroup.long 0x80++0x3
line.long 0x00 "GPMC_NAND_ADDRESS_i_0,This register is not a true register, only an address location."
hexmask.long 0x00 0.--31. 1. " GPMC_NAND_ADDRESS        ,This register is not a true register, only an address location. Writing data at theGPMC_NAND_ADDRESS_i location places the data as the NAND partial address value on the bus, using a regular asynchronous write access."
wgroup.long 0x7C++0x3
line.long 0x00 "GPMC_NAND_COMMAND_i_0,This register is not a true register, only an address location."
hexmask.long 0x00 0.--31. 1. " GPMC_NAND_COMMAND        ,This register is not a true register, only an address location. Writing data at theGPMC_NAND_COMMAND_i location places the data as the NAND command value on the bus, using a regular asynchronous write access."
wgroup.long 0x84++0x3
line.long 0x00 "GPMC_NAND_DATA_i_0,This register is not a true register,only an address location."
hexmask.long 0x00 0.--31. 1. " GPMC_NAND_DATA           ,This register is not a true register, only an address location. Reading data from theGPMC_NAND_DATA_i location or from any location in the associated chip-select memory region activates an asynchronous read access."
tree.end
tree "Channel_1"
width 23.
group.long 0x250++0x3
line.long 0x00 "GPMC_BCH_RESULT0_i_1,BCH ECC result (bits 0 to 31)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_0             ,BCH ECC result (bits 0 to 31)"
group.long 0x254++0x3
line.long 0x00 "GPMC_BCH_RESULT1_i_1,BCH ECC result (bits 32 to 63)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_1             ,BCH ECC result (bits 32 to 63)"
group.long 0x258++0x3
line.long 0x00 "GPMC_BCH_RESULT2_i_1,BCH ECC result (bits 64 to 95)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_2             ,BCH ECC result (bits 64 to 95)"
group.long 0x25C++0x3
line.long 0x00 "GPMC_BCH_RESULT3_i_1,BCH ECC result (bits 96 to 127)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_3             ,BCH ECC result (bits 96 to 127)"
group.long 0x310++0x3
line.long 0x00 "GPMC_BCH_RESULT4_i_1,BCH ECC result (bits 128 to 159)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_4             ,BCH ECC result (bits 128 to 159)"
group.long 0x314++0x3
line.long 0x00 "GPMC_BCH_RESULT5_i_1,BCH ECC result (bits 160 to 191)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_5             ,BCH ECC result (bits 160 to 191)"
group.long 0x318++0x3
line.long 0x00 "GPMC_BCH_RESULT6_i_1,BCH ECC result (bits 192 to 207)"
hexmask.long.word 0x00 0.--15. 1. " BCH_RESULT_6             ,BCH ECC result (bits 192 to 207)"
group.long 0x90++0x3
line.long 0x00 "GPMC_CONFIG1_i_1,The configuration register 1 sets signal control parameters per chip-select."
bitfld.long 0x00 31. " WRAPBURST                ,Enables the wrapping burst capability. Must be set if the attached device is configured in wrapping burst - . - ." "WrapNotSupp,WrapSupp"
bitfld.long 0x00 30. "  READMULTIPLE        ,Selects the read single or multiple access - . - ." "RdSingle,RdMultiple"
bitfld.long 0x00 29. "  READTYPE            ,Selects the read mode operation - . - ." "RdAsync,RdSync"
textline "                                "
bitfld.long 0x00 28. " WRITEMULTIPLE            ,Selects the write single or multiple access - . - ." "WrSingle,WrMultiple"
bitfld.long 0x00 27. "   WRITETYPE           ,Selects the write mode operation - . - ." "WrAsync,WrSync"
bitfld.long 0x00 25.--26. "     CLKACTIVATIONTIME   ,Output GPMC_CLK activation time - . - . - . - ." "AtStart,OneClkB4,TwoClkB4,NotDefined"
textline "                                "
bitfld.long 0x00 23.--24. " ATTACHEDDEVICEPAGELENGTH ,Specifies the attached device page (burst) length - . - . - . - ." "Four,Eight,Sixteen,ThirtyTwo"
bitfld.long 0x00 22. "    WAITREADMONITORING  ,Selects the Wait monitoring configuration for Read accesses (Reset value is input pin sampled at device reset) - . - ." "WNotMonit,Wmonit"
bitfld.long 0x00 21. "   WAITWRITEMONITORING ,Selects the Wait monitoring configuration for Write accesses - . - ." "WNotMonit,Wmonit"
textline "                                "
bitfld.long 0x00 18.--19. " WAITMONITORINGTIME       ,Selects input pin Wait monitoring time - . - . - . - ." "AtValid,OneDeviceB4,TwoDeviceB4,NotDefined"
bitfld.long 0x00 16.--17. "  WAITPINSELECT       ,Selects the input wait pin for this chip-select (The reset value is HW fixed to 0x0 for CS0-CS7) - . - . 0x2, 0x3: Reserved. - ." "W0,W1,2,3"
bitfld.long 0x00 12.--13. "          DEVICESIZE          ,Selects the device size attached (Reset value is input pin sampled at device reset for CS0 and 0x1 for CS1 to CS7) - . - . - . - ." "EightBits,SixteenBits,ThirtyTwoBits,Res"
textline "                                "
bitfld.long 0x00 10.--11. " DEVICETYPE               ,Selects the attached device type - . - . - . - ." "NORlike,Res1,NANDlike,Res2"
bitfld.long 0x00 8.--9. "     MUXADDDATA          ,Enables the address and data multiplexed protocol (Reset value is input pin sampled at device reset for CS0 and 0 for CS1-CS7) - . - . - . - ." "NonMux,AADMux,Mux,Reserved"
bitfld.long 0x00 4. "    TIMEPARAGRANULARITY ,Signals timing latencies scalar factor (RD/WRCYCLETIME, RD/WRACCESSTIME, PAGEBURSTACCESSTIME, CSONTIME, CSRD/WROFFTIME, ADVONTIME, ADVRD/WROFFTIME, OEONTIME, OEOFFTIME, WEONTIME, WEOFFTIME, CYCLE2CYCLEDELAY, BUSTURNAROUND, TIME..." "x1,x2"
textline "                                "
bitfld.long 0x00 0.--1. " GPMCFCLKDIVIDER          ,Divides the GPMC_FCLK clock - . - . - . - ." "DivBy1,DivBy2,DivBy3,UNKN_MNEMO"
group.long 0x94++0x3
line.long 0x00 "GPMC_CONFIG2_i_1,CS signal timing parameter configuration"
bitfld.long 0x00 16.--20. " CSWROFFTIME              ,CS i deassertion time from start cycle time for write accesses 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "           CSRDOFFTIME         ,CS i de-assertion time from start cycle time for read accesses 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "          CSEXTRADELAY        ,CS i Add extra half-GPMC_FCLK cycle - . - ." "NotDelayed,0x01"
textline "                                "
bitfld.long 0x00 0.--3. " CSONTIME                 ,CS i assertion time from start cycle time 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x98++0x3
line.long 0x00 "GPMC_CONFIG3_i_1,nADV signal timing parameter configuration"
bitfld.long 0x00 28.--30. " ADVAADMUXWROFFTIME       ,nADV deassertion for first address phase when using the AAD-multiplexed protocol 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "            ADVAADMUXRDOFFTIME  ,nADV assertion for first address phase when using the AAD-multiplexed protocol 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 16.--20. "           ADVWROFFTIME        ,nADV deassertion time from start cycle time for write accesses 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                "
bitfld.long 0x00 8.--12. " ADVRDOFFTIME             ,nADV deassertion time from start cycle time for read accesses 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "           ADVEXTRADELAY       ,nADV add extra half-GPMC_FCLK cycle - . - ." "NotDelayed,0x01"
bitfld.long 0x00 4.--6. "  ADVAADMUXONTIME     ,nADV assertion for first address phase when using the AAD-multiplexed protocol 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
textline "                                "
bitfld.long 0x00 0.--3. " ADVONTIME                ,nADV assertion time from start cycle time 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x9C++0x3
line.long 0x00 "GPMC_CONFIG4_i_1,nWE and nOE signals timing parameter configuration"
bitfld.long 0x00 24.--28. " WEOFFTIME                ,nWE deassertion time from start cycle time 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 23. "           WEEXTRADELAY        ,nWE add extra half-GPMC_FCLK cycle - . - ." "NotDelayed,0x01"
bitfld.long 0x00 16.--19. "  WEONTIME            ,nWE assertion time from start cycle time 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                "
bitfld.long 0x00 13.--15. " OEAADMUX_OFFTIME         ,nOE deassertion time for the first address phase in an AAD-multiplexed access 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--12. "            OEOFFTIME           ,nOE deassertion time from start cycle time 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "          OEEXTRADELAY        ,nOE add extra half-GPMC_FCLK cycle - . - ." "NotDelayed,1"
textline "                                "
bitfld.long 0x00 4.--6. " OEAADMUX_ONTIME          ,nOE assertion time for the first address phase in an AAD-mux access 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--3. "            OEONTIME            ,nOE assertion time from start cycle time 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA0++0x3
line.long 0x00 "GPMC_CONFIG5_i_1,RdAccessTime and CycleTime timing parameters configuration"
bitfld.long 0x00 24.--27. " PAGEBURSTACCESSTIME      ,Delay between successive words in a multiple access 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--20. "           RDACCESSTIME        ,Delay between start cycle time and first data valid 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "          WRCYCLETIME         ,Total write cycle time 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                "
bitfld.long 0x00 0.--4. " RDCYCLETIME              ,Total read cycle time 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xA4++0x3
line.long 0x00 "GPMC_CONFIG6_i_1,WrAccessTime, WrDataOnADmuxBus, Cycle2Cycle and BusTurnAround parameters configuration"
bitfld.long 0x00 24.--28. " WRACCESSTIME             ,Delay from start access time to the GPMC_FCLK rising edge corresponding the GPMC_CLK rising edge used by the attached memory for the first data capture 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cy..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--19. "           WRDATAONADMUXBUS    ,Specifies on which GPMC_FCLK rising edge the first data of the write is driven in the add/data mux bus" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "          CYCLE2CYCLEDELAY    ,Chip-select high pulse delay between successive accesses 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                "
bitfld.long 0x00 7. " CYCLE2CYCLESAMECSEN      ,Add CYCLE2CYCLEDELAY between successive accesses to the same chip-select (any access type) - . - ." "NoC2CDelay,C2CDelay"
bitfld.long 0x00 6. "   CYCLE2CYCLEDIFFCSEN ,Add CYCLE2CYCLEDELAY between successive accesses to a different chip-select (any access type) - . - ." "NoC2CDelay,1"
bitfld.long 0x00 0.--3. "  BUSTURNAROUND       ,Bus turnaround latency between successive accesses to the same chip-select (read to write) or to a different chip-select (read to read and read to write) 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA8++0x3
line.long 0x00 "GPMC_CONFIG7_i_1,CS address mapping configuration"
bitfld.long 0x00 8.--11. " MASKADDRESS              ,CS mask address. 0x0000: Chip-select size of 256 MiB 0x1000: Chip-select size of 128 MiB 0x1100: Chip-select size of 64 MiB 0x1110: Chip-select size of 32 MiB 0x1111: Chip-select size of 16 MiB Other values must be avoided as..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 6. "           CSVALID             ,CS enable - . - ." "CSDisabled,CSEnabled"
bitfld.long 0x00 0.--5. "  BASEADDRESS         ,CSi base address where i = 0 to 7 (16-MiB minimum granularity) bits [5:0] corresponds to A29, A28, A27, A26, A25, and A24. See" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x204++0x3
line.long 0x00 "GPMC_ECCj_RESULT_1,ECC result register"
bitfld.long 0x00 27. " P2048O                   ,Odd row parity bit 2048, only used for ECC computed on 512 bytes" "0,1"
bitfld.long 0x00 26. "            P1024O              ,Odd row parity bit 1024" "0,1"
bitfld.long 0x00 25. "           P512O               ,Odd row parity bit 512" "0,1"
textline "                                "
bitfld.long 0x00 24. " P256O                    ,Odd row parity bit 256" "0,1"
bitfld.long 0x00 23. "            P128O               ,Odd row parity bit 128" "0,1"
bitfld.long 0x00 22. "           P64O                ,Odd row parity bit 64" "0,1"
textline "                                "
bitfld.long 0x00 21. " P32O                     ,Odd row parity bit 32" "0,1"
bitfld.long 0x00 20. "            P16O                ,Odd row parity bit 16" "0,1"
bitfld.long 0x00 19. "           P8O                 ,Odd row parity bit 8" "0,1"
textline "                                "
bitfld.long 0x00 18. " P4O                      ,Odd Column Parity bit 4" "0,1"
bitfld.long 0x00 17. "            P2O                 ,Odd Column Parity bit 2" "0,1"
bitfld.long 0x00 16. "           P1O                 ,Odd Column Parity bit 1" "0,1"
textline "                                "
bitfld.long 0x00 11. " P2048E                   ,Even row parity bit 2048, only used for ECC computed on 512 bytes" "0,1"
bitfld.long 0x00 10. "            P1024E              ,Even row parity bit 1024" "0,1"
bitfld.long 0x00 9. "           P512E               ,Even row parity bit 512" "0,1"
textline "                                "
bitfld.long 0x00 8. " P256E                    ,Even row parity bit 256" "0,1"
bitfld.long 0x00 7. "            P128E               ,Even row parity bit 128" "0,1"
bitfld.long 0x00 6. "           P64E                ,Even row parity bit 64" "0,1"
textline "                                "
bitfld.long 0x00 5. " P32E                     ,Even row parity bit 32" "0,1"
bitfld.long 0x00 4. "            P16E                ,Even row parity bit 16" "0,1"
bitfld.long 0x00 3. "           P8E                 ,Even row parity bit 8" "0,1"
textline "                                "
bitfld.long 0x00 2. " P4E                      ,Even column parity bit 4" "0,1"
bitfld.long 0x00 1. "            P2E                 ,Even column parity bit 2" "0,1"
bitfld.long 0x00 0. "           P1E                 ,Even column parity bit 1" "0,1"
wgroup.long 0xB0++0x3
line.long 0x00 "GPMC_NAND_ADDRESS_i_1,This register is not a true register, only an address location."
hexmask.long 0x00 0.--31. 1. " GPMC_NAND_ADDRESS        ,This register is not a true register, only an address location. Writing data at theGPMC_NAND_ADDRESS_i location places the data as the NAND partial address value on the bus, using a regular asynchronous write access."
wgroup.long 0xAC++0x3
line.long 0x00 "GPMC_NAND_COMMAND_i_1,This register is not a true register, only an address location."
hexmask.long 0x00 0.--31. 1. " GPMC_NAND_COMMAND        ,This register is not a true register, only an address location. Writing data at theGPMC_NAND_COMMAND_i location places the data as the NAND command value on the bus, using a regular asynchronous write access."
wgroup.long 0xB4++0x3
line.long 0x00 "GPMC_NAND_DATA_i_1,This register is not a true register,only an address location."
hexmask.long 0x00 0.--31. 1. " GPMC_NAND_DATA           ,This register is not a true register, only an address location. Reading data from theGPMC_NAND_DATA_i location or from any location in the associated chip-select memory region activates an asynchronous read access."
tree.end
tree "Channel_2"
width 23.
group.long 0x260++0x3
line.long 0x00 "GPMC_BCH_RESULT0_i_2,BCH ECC result (bits 0 to 31)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_0             ,BCH ECC result (bits 0 to 31)"
group.long 0x264++0x3
line.long 0x00 "GPMC_BCH_RESULT1_i_2,BCH ECC result (bits 32 to 63)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_1             ,BCH ECC result (bits 32 to 63)"
group.long 0x268++0x3
line.long 0x00 "GPMC_BCH_RESULT2_i_2,BCH ECC result (bits 64 to 95)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_2             ,BCH ECC result (bits 64 to 95)"
group.long 0x26C++0x3
line.long 0x00 "GPMC_BCH_RESULT3_i_2,BCH ECC result (bits 96 to 127)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_3             ,BCH ECC result (bits 96 to 127)"
group.long 0x320++0x3
line.long 0x00 "GPMC_BCH_RESULT4_i_2,BCH ECC result (bits 128 to 159)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_4             ,BCH ECC result (bits 128 to 159)"
group.long 0x324++0x3
line.long 0x00 "GPMC_BCH_RESULT5_i_2,BCH ECC result (bits 160 to 191)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_5             ,BCH ECC result (bits 160 to 191)"
group.long 0x328++0x3
line.long 0x00 "GPMC_BCH_RESULT6_i_2,BCH ECC result (bits 192 to 207)"
hexmask.long.word 0x00 0.--15. 1. " BCH_RESULT_6             ,BCH ECC result (bits 192 to 207)"
group.long 0xC0++0x3
line.long 0x00 "GPMC_CONFIG1_i_2,The configuration register 1 sets signal control parameters per chip-select."
bitfld.long 0x00 31. " WRAPBURST                ,Enables the wrapping burst capability. Must be set if the attached device is configured in wrapping burst - . - ." "WrapNotSupp,WrapSupp"
bitfld.long 0x00 30. "  READMULTIPLE        ,Selects the read single or multiple access - . - ." "RdSingle,RdMultiple"
bitfld.long 0x00 29. "  READTYPE            ,Selects the read mode operation - . - ." "RdAsync,RdSync"
textline "                                "
bitfld.long 0x00 28. " WRITEMULTIPLE            ,Selects the write single or multiple access - . - ." "WrSingle,WrMultiple"
bitfld.long 0x00 27. "   WRITETYPE           ,Selects the write mode operation - . - ." "WrAsync,WrSync"
bitfld.long 0x00 25.--26. "     CLKACTIVATIONTIME   ,Output GPMC_CLK activation time - . - . - . - ." "AtStart,OneClkB4,TwoClkB4,NotDefined"
textline "                                "
bitfld.long 0x00 23.--24. " ATTACHEDDEVICEPAGELENGTH ,Specifies the attached device page (burst) length - . - . - . - ." "Four,Eight,Sixteen,ThirtyTwo"
bitfld.long 0x00 22. "    WAITREADMONITORING  ,Selects the Wait monitoring configuration for Read accesses (Reset value is input pin sampled at device reset) - . - ." "WNotMonit,Wmonit"
bitfld.long 0x00 21. "   WAITWRITEMONITORING ,Selects the Wait monitoring configuration for Write accesses - . - ." "WNotMonit,Wmonit"
textline "                                "
bitfld.long 0x00 18.--19. " WAITMONITORINGTIME       ,Selects input pin Wait monitoring time - . - . - . - ." "AtValid,OneDeviceB4,TwoDeviceB4,NotDefined"
bitfld.long 0x00 16.--17. "  WAITPINSELECT       ,Selects the input wait pin for this chip-select (The reset value is HW fixed to 0x0 for CS0-CS7) - . - . 0x2, 0x3: Reserved. - ." "W0,W1,2,3"
bitfld.long 0x00 12.--13. "          DEVICESIZE          ,Selects the device size attached (Reset value is input pin sampled at device reset for CS0 and 0x1 for CS1 to CS7) - . - . - . - ." "EightBits,SixteenBits,ThirtyTwoBits,Res"
textline "                                "
bitfld.long 0x00 10.--11. " DEVICETYPE               ,Selects the attached device type - . - . - . - ." "NORlike,Res1,NANDlike,Res2"
bitfld.long 0x00 8.--9. "     MUXADDDATA          ,Enables the address and data multiplexed protocol (Reset value is input pin sampled at device reset for CS0 and 0 for CS1-CS7) - . - . - . - ." "NonMux,AADMux,Mux,Reserved"
bitfld.long 0x00 4. "    TIMEPARAGRANULARITY ,Signals timing latencies scalar factor (RD/WRCYCLETIME, RD/WRACCESSTIME, PAGEBURSTACCESSTIME, CSONTIME, CSRD/WROFFTIME, ADVONTIME, ADVRD/WROFFTIME, OEONTIME, OEOFFTIME, WEONTIME, WEOFFTIME, CYCLE2CYCLEDELAY, BUSTURNAROUND, TIME..." "x1,x2"
textline "                                "
bitfld.long 0x00 0.--1. " GPMCFCLKDIVIDER          ,Divides the GPMC_FCLK clock - . - . - . - ." "DivBy1,DivBy2,DivBy3,UNKN_MNEMO"
group.long 0xC4++0x3
line.long 0x00 "GPMC_CONFIG2_i_2,CS signal timing parameter configuration"
bitfld.long 0x00 16.--20. " CSWROFFTIME              ,CS i deassertion time from start cycle time for write accesses 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "           CSRDOFFTIME         ,CS i de-assertion time from start cycle time for read accesses 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "          CSEXTRADELAY        ,CS i Add extra half-GPMC_FCLK cycle - . - ." "NotDelayed,0x01"
textline "                                "
bitfld.long 0x00 0.--3. " CSONTIME                 ,CS i assertion time from start cycle time 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xC8++0x3
line.long 0x00 "GPMC_CONFIG3_i_2,nADV signal timing parameter configuration"
bitfld.long 0x00 28.--30. " ADVAADMUXWROFFTIME       ,nADV deassertion for first address phase when using the AAD-multiplexed protocol 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "            ADVAADMUXRDOFFTIME  ,nADV assertion for first address phase when using the AAD-multiplexed protocol 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 16.--20. "           ADVWROFFTIME        ,nADV deassertion time from start cycle time for write accesses 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                "
bitfld.long 0x00 8.--12. " ADVRDOFFTIME             ,nADV deassertion time from start cycle time for read accesses 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "           ADVEXTRADELAY       ,nADV add extra half-GPMC_FCLK cycle - . - ." "NotDelayed,0x01"
bitfld.long 0x00 4.--6. "  ADVAADMUXONTIME     ,nADV assertion for first address phase when using the AAD-multiplexed protocol 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
textline "                                "
bitfld.long 0x00 0.--3. " ADVONTIME                ,nADV assertion time from start cycle time 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xCC++0x3
line.long 0x00 "GPMC_CONFIG4_i_2,nWE and nOE signals timing parameter configuration"
bitfld.long 0x00 24.--28. " WEOFFTIME                ,nWE deassertion time from start cycle time 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 23. "           WEEXTRADELAY        ,nWE add extra half-GPMC_FCLK cycle - . - ." "NotDelayed,0x01"
bitfld.long 0x00 16.--19. "  WEONTIME            ,nWE assertion time from start cycle time 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                "
bitfld.long 0x00 13.--15. " OEAADMUX_OFFTIME         ,nOE deassertion time for the first address phase in an AAD-multiplexed access 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--12. "            OEOFFTIME           ,nOE deassertion time from start cycle time 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "          OEEXTRADELAY        ,nOE add extra half-GPMC_FCLK cycle - . - ." "NotDelayed,1"
textline "                                "
bitfld.long 0x00 4.--6. " OEAADMUX_ONTIME          ,nOE assertion time for the first address phase in an AAD-mux access 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--3. "            OEONTIME            ,nOE assertion time from start cycle time 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xD0++0x3
line.long 0x00 "GPMC_CONFIG5_i_2,RdAccessTime and CycleTime timing parameters configuration"
bitfld.long 0x00 24.--27. " PAGEBURSTACCESSTIME      ,Delay between successive words in a multiple access 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--20. "           RDACCESSTIME        ,Delay between start cycle time and first data valid 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "          WRCYCLETIME         ,Total write cycle time 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                "
bitfld.long 0x00 0.--4. " RDCYCLETIME              ,Total read cycle time 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xD4++0x3
line.long 0x00 "GPMC_CONFIG6_i_2,WrAccessTime, WrDataOnADmuxBus, Cycle2Cycle and BusTurnAround parameters configuration"
bitfld.long 0x00 24.--28. " WRACCESSTIME             ,Delay from start access time to the GPMC_FCLK rising edge corresponding the GPMC_CLK rising edge used by the attached memory for the first data capture 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cy..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--19. "           WRDATAONADMUXBUS    ,Specifies on which GPMC_FCLK rising edge the first data of the write is driven in the add/data mux bus" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "          CYCLE2CYCLEDELAY    ,Chip-select high pulse delay between successive accesses 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                "
bitfld.long 0x00 7. " CYCLE2CYCLESAMECSEN      ,Add CYCLE2CYCLEDELAY between successive accesses to the same chip-select (any access type) - . - ." "NoC2CDelay,C2CDelay"
bitfld.long 0x00 6. "   CYCLE2CYCLEDIFFCSEN ,Add CYCLE2CYCLEDELAY between successive accesses to a different chip-select (any access type) - . - ." "NoC2CDelay,1"
bitfld.long 0x00 0.--3. "  BUSTURNAROUND       ,Bus turnaround latency between successive accesses to the same chip-select (read to write) or to a different chip-select (read to read and read to write) 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xD8++0x3
line.long 0x00 "GPMC_CONFIG7_i_2,CS address mapping configuration"
bitfld.long 0x00 8.--11. " MASKADDRESS              ,CS mask address. 0x0000: Chip-select size of 256 MiB 0x1000: Chip-select size of 128 MiB 0x1100: Chip-select size of 64 MiB 0x1110: Chip-select size of 32 MiB 0x1111: Chip-select size of 16 MiB Other values must be avoided as..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 6. "           CSVALID             ,CS enable - . - ." "CSDisabled,CSEnabled"
bitfld.long 0x00 0.--5. "  BASEADDRESS         ,CSi base address where i = 0 to 7 (16-MiB minimum granularity) bits [5:0] corresponds to A29, A28, A27, A26, A25, and A24. See" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x208++0x3
line.long 0x00 "GPMC_ECCj_RESULT_2,ECC result register"
bitfld.long 0x00 27. " P2048O                   ,Odd row parity bit 2048, only used for ECC computed on 512 bytes" "0,1"
bitfld.long 0x00 26. "            P1024O              ,Odd row parity bit 1024" "0,1"
bitfld.long 0x00 25. "           P512O               ,Odd row parity bit 512" "0,1"
textline "                                "
bitfld.long 0x00 24. " P256O                    ,Odd row parity bit 256" "0,1"
bitfld.long 0x00 23. "            P128O               ,Odd row parity bit 128" "0,1"
bitfld.long 0x00 22. "           P64O                ,Odd row parity bit 64" "0,1"
textline "                                "
bitfld.long 0x00 21. " P32O                     ,Odd row parity bit 32" "0,1"
bitfld.long 0x00 20. "            P16O                ,Odd row parity bit 16" "0,1"
bitfld.long 0x00 19. "           P8O                 ,Odd row parity bit 8" "0,1"
textline "                                "
bitfld.long 0x00 18. " P4O                      ,Odd Column Parity bit 4" "0,1"
bitfld.long 0x00 17. "            P2O                 ,Odd Column Parity bit 2" "0,1"
bitfld.long 0x00 16. "           P1O                 ,Odd Column Parity bit 1" "0,1"
textline "                                "
bitfld.long 0x00 11. " P2048E                   ,Even row parity bit 2048, only used for ECC computed on 512 bytes" "0,1"
bitfld.long 0x00 10. "            P1024E              ,Even row parity bit 1024" "0,1"
bitfld.long 0x00 9. "           P512E               ,Even row parity bit 512" "0,1"
textline "                                "
bitfld.long 0x00 8. " P256E                    ,Even row parity bit 256" "0,1"
bitfld.long 0x00 7. "            P128E               ,Even row parity bit 128" "0,1"
bitfld.long 0x00 6. "           P64E                ,Even row parity bit 64" "0,1"
textline "                                "
bitfld.long 0x00 5. " P32E                     ,Even row parity bit 32" "0,1"
bitfld.long 0x00 4. "            P16E                ,Even row parity bit 16" "0,1"
bitfld.long 0x00 3. "           P8E                 ,Even row parity bit 8" "0,1"
textline "                                "
bitfld.long 0x00 2. " P4E                      ,Even column parity bit 4" "0,1"
bitfld.long 0x00 1. "            P2E                 ,Even column parity bit 2" "0,1"
bitfld.long 0x00 0. "           P1E                 ,Even column parity bit 1" "0,1"
wgroup.long 0xE0++0x3
line.long 0x00 "GPMC_NAND_ADDRESS_i_2,This register is not a true register, only an address location."
hexmask.long 0x00 0.--31. 1. " GPMC_NAND_ADDRESS        ,This register is not a true register, only an address location. Writing data at theGPMC_NAND_ADDRESS_i location places the data as the NAND partial address value on the bus, using a regular asynchronous write access."
wgroup.long 0xDC++0x3
line.long 0x00 "GPMC_NAND_COMMAND_i_2,This register is not a true register, only an address location."
hexmask.long 0x00 0.--31. 1. " GPMC_NAND_COMMAND        ,This register is not a true register, only an address location. Writing data at theGPMC_NAND_COMMAND_i location places the data as the NAND command value on the bus, using a regular asynchronous write access."
wgroup.long 0xE4++0x3
line.long 0x00 "GPMC_NAND_DATA_i_2,This register is not a true register,only an address location."
hexmask.long 0x00 0.--31. 1. " GPMC_NAND_DATA           ,This register is not a true register, only an address location. Reading data from theGPMC_NAND_DATA_i location or from any location in the associated chip-select memory region activates an asynchronous read access."
tree.end
tree "Channel_3"
width 23.
group.long 0x270++0x3
line.long 0x00 "GPMC_BCH_RESULT0_i_3,BCH ECC result (bits 0 to 31)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_0             ,BCH ECC result (bits 0 to 31)"
group.long 0x274++0x3
line.long 0x00 "GPMC_BCH_RESULT1_i_3,BCH ECC result (bits 32 to 63)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_1             ,BCH ECC result (bits 32 to 63)"
group.long 0x278++0x3
line.long 0x00 "GPMC_BCH_RESULT2_i_3,BCH ECC result (bits 64 to 95)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_2             ,BCH ECC result (bits 64 to 95)"
group.long 0x27C++0x3
line.long 0x00 "GPMC_BCH_RESULT3_i_3,BCH ECC result (bits 96 to 127)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_3             ,BCH ECC result (bits 96 to 127)"
group.long 0x330++0x3
line.long 0x00 "GPMC_BCH_RESULT4_i_3,BCH ECC result (bits 128 to 159)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_4             ,BCH ECC result (bits 128 to 159)"
group.long 0x334++0x3
line.long 0x00 "GPMC_BCH_RESULT5_i_3,BCH ECC result (bits 160 to 191)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_5             ,BCH ECC result (bits 160 to 191)"
group.long 0x338++0x3
line.long 0x00 "GPMC_BCH_RESULT6_i_3,BCH ECC result (bits 192 to 207)"
hexmask.long.word 0x00 0.--15. 1. " BCH_RESULT_6             ,BCH ECC result (bits 192 to 207)"
group.long 0xF0++0x3
line.long 0x00 "GPMC_CONFIG1_i_3,The configuration register 1 sets signal control parameters per chip-select."
bitfld.long 0x00 31. " WRAPBURST                ,Enables the wrapping burst capability. Must be set if the attached device is configured in wrapping burst - . - ." "WrapNotSupp,WrapSupp"
bitfld.long 0x00 30. "  READMULTIPLE        ,Selects the read single or multiple access - . - ." "RdSingle,RdMultiple"
bitfld.long 0x00 29. "  READTYPE            ,Selects the read mode operation - . - ." "RdAsync,RdSync"
textline "                                "
bitfld.long 0x00 28. " WRITEMULTIPLE            ,Selects the write single or multiple access - . - ." "WrSingle,WrMultiple"
bitfld.long 0x00 27. "   WRITETYPE           ,Selects the write mode operation - . - ." "WrAsync,WrSync"
bitfld.long 0x00 25.--26. "     CLKACTIVATIONTIME   ,Output GPMC_CLK activation time - . - . - . - ." "AtStart,OneClkB4,TwoClkB4,NotDefined"
textline "                                "
bitfld.long 0x00 23.--24. " ATTACHEDDEVICEPAGELENGTH ,Specifies the attached device page (burst) length - . - . - . - ." "Four,Eight,Sixteen,ThirtyTwo"
bitfld.long 0x00 22. "    WAITREADMONITORING  ,Selects the Wait monitoring configuration for Read accesses (Reset value is input pin sampled at device reset) - . - ." "WNotMonit,Wmonit"
bitfld.long 0x00 21. "   WAITWRITEMONITORING ,Selects the Wait monitoring configuration for Write accesses - . - ." "WNotMonit,Wmonit"
textline "                                "
bitfld.long 0x00 18.--19. " WAITMONITORINGTIME       ,Selects input pin Wait monitoring time - . - . - . - ." "AtValid,OneDeviceB4,TwoDeviceB4,NotDefined"
bitfld.long 0x00 16.--17. "  WAITPINSELECT       ,Selects the input wait pin for this chip-select (The reset value is HW fixed to 0x0 for CS0-CS7) - . - . 0x2, 0x3: Reserved. - ." "W0,W1,2,3"
bitfld.long 0x00 12.--13. "          DEVICESIZE          ,Selects the device size attached (Reset value is input pin sampled at device reset for CS0 and 0x1 for CS1 to CS7) - . - . - . - ." "EightBits,SixteenBits,ThirtyTwoBits,Res"
textline "                                "
bitfld.long 0x00 10.--11. " DEVICETYPE               ,Selects the attached device type - . - . - . - ." "NORlike,Res1,NANDlike,Res2"
bitfld.long 0x00 8.--9. "     MUXADDDATA          ,Enables the address and data multiplexed protocol (Reset value is input pin sampled at device reset for CS0 and 0 for CS1-CS7) - . - . - . - ." "NonMux,AADMux,Mux,Reserved"
bitfld.long 0x00 4. "    TIMEPARAGRANULARITY ,Signals timing latencies scalar factor (RD/WRCYCLETIME, RD/WRACCESSTIME, PAGEBURSTACCESSTIME, CSONTIME, CSRD/WROFFTIME, ADVONTIME, ADVRD/WROFFTIME, OEONTIME, OEOFFTIME, WEONTIME, WEOFFTIME, CYCLE2CYCLEDELAY, BUSTURNAROUND, TIME..." "x1,x2"
textline "                                "
bitfld.long 0x00 0.--1. " GPMCFCLKDIVIDER          ,Divides the GPMC_FCLK clock - . - . - . - ." "DivBy1,DivBy2,DivBy3,UNKN_MNEMO"
group.long 0xF4++0x3
line.long 0x00 "GPMC_CONFIG2_i_3,CS signal timing parameter configuration"
bitfld.long 0x00 16.--20. " CSWROFFTIME              ,CS i deassertion time from start cycle time for write accesses 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "           CSRDOFFTIME         ,CS i de-assertion time from start cycle time for read accesses 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "          CSEXTRADELAY        ,CS i Add extra half-GPMC_FCLK cycle - . - ." "NotDelayed,0x01"
textline "                                "
bitfld.long 0x00 0.--3. " CSONTIME                 ,CS i assertion time from start cycle time 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xF8++0x3
line.long 0x00 "GPMC_CONFIG3_i_3,nADV signal timing parameter configuration"
bitfld.long 0x00 28.--30. " ADVAADMUXWROFFTIME       ,nADV deassertion for first address phase when using the AAD-multiplexed protocol 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "            ADVAADMUXRDOFFTIME  ,nADV assertion for first address phase when using the AAD-multiplexed protocol 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 16.--20. "           ADVWROFFTIME        ,nADV deassertion time from start cycle time for write accesses 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                "
bitfld.long 0x00 8.--12. " ADVRDOFFTIME             ,nADV deassertion time from start cycle time for read accesses 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "           ADVEXTRADELAY       ,nADV add extra half-GPMC_FCLK cycle - . - ." "NotDelayed,0x01"
bitfld.long 0x00 4.--6. "  ADVAADMUXONTIME     ,nADV assertion for first address phase when using the AAD-multiplexed protocol 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
textline "                                "
bitfld.long 0x00 0.--3. " ADVONTIME                ,nADV assertion time from start cycle time 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xFC++0x3
line.long 0x00 "GPMC_CONFIG4_i_3,nWE and nOE signals timing parameter configuration"
bitfld.long 0x00 24.--28. " WEOFFTIME                ,nWE deassertion time from start cycle time 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 23. "           WEEXTRADELAY        ,nWE add extra half-GPMC_FCLK cycle - . - ." "NotDelayed,0x01"
bitfld.long 0x00 16.--19. "  WEONTIME            ,nWE assertion time from start cycle time 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                "
bitfld.long 0x00 13.--15. " OEAADMUX_OFFTIME         ,nOE deassertion time for the first address phase in an AAD-multiplexed access 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--12. "            OEOFFTIME           ,nOE deassertion time from start cycle time 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "          OEEXTRADELAY        ,nOE add extra half-GPMC_FCLK cycle - . - ." "NotDelayed,1"
textline "                                "
bitfld.long 0x00 4.--6. " OEAADMUX_ONTIME          ,nOE assertion time for the first address phase in an AAD-mux access 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--3. "            OEONTIME            ,nOE assertion time from start cycle time 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x100++0x3
line.long 0x00 "GPMC_CONFIG5_i_3,RdAccessTime and CycleTime timing parameters configuration"
bitfld.long 0x00 24.--27. " PAGEBURSTACCESSTIME      ,Delay between successive words in a multiple access 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--20. "           RDACCESSTIME        ,Delay between start cycle time and first data valid 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "          WRCYCLETIME         ,Total write cycle time 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                "
bitfld.long 0x00 0.--4. " RDCYCLETIME              ,Total read cycle time 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x104++0x3
line.long 0x00 "GPMC_CONFIG6_i_3,WrAccessTime, WrDataOnADmuxBus, Cycle2Cycle and BusTurnAround parameters configuration"
bitfld.long 0x00 24.--28. " WRACCESSTIME             ,Delay from start access time to the GPMC_FCLK rising edge corresponding the GPMC_CLK rising edge used by the attached memory for the first data capture 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cy..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--19. "           WRDATAONADMUXBUS    ,Specifies on which GPMC_FCLK rising edge the first data of the write is driven in the add/data mux bus" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "          CYCLE2CYCLEDELAY    ,Chip-select high pulse delay between successive accesses 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                "
bitfld.long 0x00 7. " CYCLE2CYCLESAMECSEN      ,Add CYCLE2CYCLEDELAY between successive accesses to the same chip-select (any access type) - . - ." "NoC2CDelay,C2CDelay"
bitfld.long 0x00 6. "   CYCLE2CYCLEDIFFCSEN ,Add CYCLE2CYCLEDELAY between successive accesses to a different chip-select (any access type) - . - ." "NoC2CDelay,1"
bitfld.long 0x00 0.--3. "  BUSTURNAROUND       ,Bus turnaround latency between successive accesses to the same chip-select (read to write) or to a different chip-select (read to read and read to write) 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x108++0x3
line.long 0x00 "GPMC_CONFIG7_i_3,CS address mapping configuration"
bitfld.long 0x00 8.--11. " MASKADDRESS              ,CS mask address. 0x0000: Chip-select size of 256 MiB 0x1000: Chip-select size of 128 MiB 0x1100: Chip-select size of 64 MiB 0x1110: Chip-select size of 32 MiB 0x1111: Chip-select size of 16 MiB Other values must be avoided as..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 6. "           CSVALID             ,CS enable - . - ." "CSDisabled,CSEnabled"
bitfld.long 0x00 0.--5. "  BASEADDRESS         ,CSi base address where i = 0 to 7 (16-MiB minimum granularity) bits [5:0] corresponds to A29, A28, A27, A26, A25, and A24. See" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x20C++0x3
line.long 0x00 "GPMC_ECCj_RESULT_3,ECC result register"
bitfld.long 0x00 27. " P2048O                   ,Odd row parity bit 2048, only used for ECC computed on 512 bytes" "0,1"
bitfld.long 0x00 26. "            P1024O              ,Odd row parity bit 1024" "0,1"
bitfld.long 0x00 25. "           P512O               ,Odd row parity bit 512" "0,1"
textline "                                "
bitfld.long 0x00 24. " P256O                    ,Odd row parity bit 256" "0,1"
bitfld.long 0x00 23. "            P128O               ,Odd row parity bit 128" "0,1"
bitfld.long 0x00 22. "           P64O                ,Odd row parity bit 64" "0,1"
textline "                                "
bitfld.long 0x00 21. " P32O                     ,Odd row parity bit 32" "0,1"
bitfld.long 0x00 20. "            P16O                ,Odd row parity bit 16" "0,1"
bitfld.long 0x00 19. "           P8O                 ,Odd row parity bit 8" "0,1"
textline "                                "
bitfld.long 0x00 18. " P4O                      ,Odd Column Parity bit 4" "0,1"
bitfld.long 0x00 17. "            P2O                 ,Odd Column Parity bit 2" "0,1"
bitfld.long 0x00 16. "           P1O                 ,Odd Column Parity bit 1" "0,1"
textline "                                "
bitfld.long 0x00 11. " P2048E                   ,Even row parity bit 2048, only used for ECC computed on 512 bytes" "0,1"
bitfld.long 0x00 10. "            P1024E              ,Even row parity bit 1024" "0,1"
bitfld.long 0x00 9. "           P512E               ,Even row parity bit 512" "0,1"
textline "                                "
bitfld.long 0x00 8. " P256E                    ,Even row parity bit 256" "0,1"
bitfld.long 0x00 7. "            P128E               ,Even row parity bit 128" "0,1"
bitfld.long 0x00 6. "           P64E                ,Even row parity bit 64" "0,1"
textline "                                "
bitfld.long 0x00 5. " P32E                     ,Even row parity bit 32" "0,1"
bitfld.long 0x00 4. "            P16E                ,Even row parity bit 16" "0,1"
bitfld.long 0x00 3. "           P8E                 ,Even row parity bit 8" "0,1"
textline "                                "
bitfld.long 0x00 2. " P4E                      ,Even column parity bit 4" "0,1"
bitfld.long 0x00 1. "            P2E                 ,Even column parity bit 2" "0,1"
bitfld.long 0x00 0. "           P1E                 ,Even column parity bit 1" "0,1"
wgroup.long 0x110++0x3
line.long 0x00 "GPMC_NAND_ADDRESS_i_3,This register is not a true register, only an address location."
hexmask.long 0x00 0.--31. 1. " GPMC_NAND_ADDRESS        ,This register is not a true register, only an address location. Writing data at theGPMC_NAND_ADDRESS_i location places the data as the NAND partial address value on the bus, using a regular asynchronous write access."
wgroup.long 0x10C++0x3
line.long 0x00 "GPMC_NAND_COMMAND_i_3,This register is not a true register, only an address location."
hexmask.long 0x00 0.--31. 1. " GPMC_NAND_COMMAND        ,This register is not a true register, only an address location. Writing data at theGPMC_NAND_COMMAND_i location places the data as the NAND command value on the bus, using a regular asynchronous write access."
wgroup.long 0x114++0x3
line.long 0x00 "GPMC_NAND_DATA_i_3,This register is not a true register,only an address location."
hexmask.long 0x00 0.--31. 1. " GPMC_NAND_DATA           ,This register is not a true register, only an address location. Reading data from theGPMC_NAND_DATA_i location or from any location in the associated chip-select memory region activates an asynchronous read access."
tree.end
tree "Channel_4"
width 23.
group.long 0x280++0x3
line.long 0x00 "GPMC_BCH_RESULT0_i_4,BCH ECC result (bits 0 to 31)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_0             ,BCH ECC result (bits 0 to 31)"
group.long 0x284++0x3
line.long 0x00 "GPMC_BCH_RESULT1_i_4,BCH ECC result (bits 32 to 63)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_1             ,BCH ECC result (bits 32 to 63)"
group.long 0x288++0x3
line.long 0x00 "GPMC_BCH_RESULT2_i_4,BCH ECC result (bits 64 to 95)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_2             ,BCH ECC result (bits 64 to 95)"
group.long 0x28C++0x3
line.long 0x00 "GPMC_BCH_RESULT3_i_4,BCH ECC result (bits 96 to 127)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_3             ,BCH ECC result (bits 96 to 127)"
group.long 0x340++0x3
line.long 0x00 "GPMC_BCH_RESULT4_i_4,BCH ECC result (bits 128 to 159)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_4             ,BCH ECC result (bits 128 to 159)"
group.long 0x344++0x3
line.long 0x00 "GPMC_BCH_RESULT5_i_4,BCH ECC result (bits 160 to 191)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_5             ,BCH ECC result (bits 160 to 191)"
group.long 0x348++0x3
line.long 0x00 "GPMC_BCH_RESULT6_i_4,BCH ECC result (bits 192 to 207)"
hexmask.long.word 0x00 0.--15. 1. " BCH_RESULT_6             ,BCH ECC result (bits 192 to 207)"
group.long 0x120++0x3
line.long 0x00 "GPMC_CONFIG1_i_4,The configuration register 1 sets signal control parameters per chip-select."
bitfld.long 0x00 31. " WRAPBURST                ,Enables the wrapping burst capability. Must be set if the attached device is configured in wrapping burst - . - ." "WrapNotSupp,WrapSupp"
bitfld.long 0x00 30. "  READMULTIPLE        ,Selects the read single or multiple access - . - ." "RdSingle,RdMultiple"
bitfld.long 0x00 29. "  READTYPE            ,Selects the read mode operation - . - ." "RdAsync,RdSync"
textline "                                "
bitfld.long 0x00 28. " WRITEMULTIPLE            ,Selects the write single or multiple access - . - ." "WrSingle,WrMultiple"
bitfld.long 0x00 27. "   WRITETYPE           ,Selects the write mode operation - . - ." "WrAsync,WrSync"
bitfld.long 0x00 25.--26. "     CLKACTIVATIONTIME   ,Output GPMC_CLK activation time - . - . - . - ." "AtStart,OneClkB4,TwoClkB4,NotDefined"
textline "                                "
bitfld.long 0x00 23.--24. " ATTACHEDDEVICEPAGELENGTH ,Specifies the attached device page (burst) length - . - . - . - ." "Four,Eight,Sixteen,ThirtyTwo"
bitfld.long 0x00 22. "    WAITREADMONITORING  ,Selects the Wait monitoring configuration for Read accesses (Reset value is input pin sampled at device reset) - . - ." "WNotMonit,Wmonit"
bitfld.long 0x00 21. "   WAITWRITEMONITORING ,Selects the Wait monitoring configuration for Write accesses - . - ." "WNotMonit,Wmonit"
textline "                                "
bitfld.long 0x00 18.--19. " WAITMONITORINGTIME       ,Selects input pin Wait monitoring time - . - . - . - ." "AtValid,OneDeviceB4,TwoDeviceB4,NotDefined"
bitfld.long 0x00 16.--17. "  WAITPINSELECT       ,Selects the input wait pin for this chip-select (The reset value is HW fixed to 0x0 for CS0-CS7) - . - . 0x2, 0x3: Reserved. - ." "W0,W1,2,3"
bitfld.long 0x00 12.--13. "          DEVICESIZE          ,Selects the device size attached (Reset value is input pin sampled at device reset for CS0 and 0x1 for CS1 to CS7) - . - . - . - ." "EightBits,SixteenBits,ThirtyTwoBits,Res"
textline "                                "
bitfld.long 0x00 10.--11. " DEVICETYPE               ,Selects the attached device type - . - . - . - ." "NORlike,Res1,NANDlike,Res2"
bitfld.long 0x00 8.--9. "     MUXADDDATA          ,Enables the address and data multiplexed protocol (Reset value is input pin sampled at device reset for CS0 and 0 for CS1-CS7) - . - . - . - ." "NonMux,AADMux,Mux,Reserved"
bitfld.long 0x00 4. "    TIMEPARAGRANULARITY ,Signals timing latencies scalar factor (RD/WRCYCLETIME, RD/WRACCESSTIME, PAGEBURSTACCESSTIME, CSONTIME, CSRD/WROFFTIME, ADVONTIME, ADVRD/WROFFTIME, OEONTIME, OEOFFTIME, WEONTIME, WEOFFTIME, CYCLE2CYCLEDELAY, BUSTURNAROUND, TIME..." "x1,x2"
textline "                                "
bitfld.long 0x00 0.--1. " GPMCFCLKDIVIDER          ,Divides the GPMC_FCLK clock - . - . - . - ." "DivBy1,DivBy2,DivBy3,UNKN_MNEMO"
group.long 0x124++0x3
line.long 0x00 "GPMC_CONFIG2_i_4,CS signal timing parameter configuration"
bitfld.long 0x00 16.--20. " CSWROFFTIME              ,CS i deassertion time from start cycle time for write accesses 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "           CSRDOFFTIME         ,CS i de-assertion time from start cycle time for read accesses 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "          CSEXTRADELAY        ,CS i Add extra half-GPMC_FCLK cycle - . - ." "NotDelayed,0x01"
textline "                                "
bitfld.long 0x00 0.--3. " CSONTIME                 ,CS i assertion time from start cycle time 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x128++0x3
line.long 0x00 "GPMC_CONFIG3_i_4,nADV signal timing parameter configuration"
bitfld.long 0x00 28.--30. " ADVAADMUXWROFFTIME       ,nADV deassertion for first address phase when using the AAD-multiplexed protocol 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "            ADVAADMUXRDOFFTIME  ,nADV assertion for first address phase when using the AAD-multiplexed protocol 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 16.--20. "           ADVWROFFTIME        ,nADV deassertion time from start cycle time for write accesses 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                "
bitfld.long 0x00 8.--12. " ADVRDOFFTIME             ,nADV deassertion time from start cycle time for read accesses 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "           ADVEXTRADELAY       ,nADV add extra half-GPMC_FCLK cycle - . - ." "NotDelayed,0x01"
bitfld.long 0x00 4.--6. "  ADVAADMUXONTIME     ,nADV assertion for first address phase when using the AAD-multiplexed protocol 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
textline "                                "
bitfld.long 0x00 0.--3. " ADVONTIME                ,nADV assertion time from start cycle time 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x12C++0x3
line.long 0x00 "GPMC_CONFIG4_i_4,nWE and nOE signals timing parameter configuration"
bitfld.long 0x00 24.--28. " WEOFFTIME                ,nWE deassertion time from start cycle time 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 23. "           WEEXTRADELAY        ,nWE add extra half-GPMC_FCLK cycle - . - ." "NotDelayed,0x01"
bitfld.long 0x00 16.--19. "  WEONTIME            ,nWE assertion time from start cycle time 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                "
bitfld.long 0x00 13.--15. " OEAADMUX_OFFTIME         ,nOE deassertion time for the first address phase in an AAD-multiplexed access 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--12. "            OEOFFTIME           ,nOE deassertion time from start cycle time 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "          OEEXTRADELAY        ,nOE add extra half-GPMC_FCLK cycle - . - ." "NotDelayed,1"
textline "                                "
bitfld.long 0x00 4.--6. " OEAADMUX_ONTIME          ,nOE assertion time for the first address phase in an AAD-mux access 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--3. "            OEONTIME            ,nOE assertion time from start cycle time 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x130++0x3
line.long 0x00 "GPMC_CONFIG5_i_4,RdAccessTime and CycleTime timing parameters configuration"
bitfld.long 0x00 24.--27. " PAGEBURSTACCESSTIME      ,Delay between successive words in a multiple access 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--20. "           RDACCESSTIME        ,Delay between start cycle time and first data valid 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "          WRCYCLETIME         ,Total write cycle time 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                "
bitfld.long 0x00 0.--4. " RDCYCLETIME              ,Total read cycle time 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x134++0x3
line.long 0x00 "GPMC_CONFIG6_i_4,WrAccessTime, WrDataOnADmuxBus, Cycle2Cycle and BusTurnAround parameters configuration"
bitfld.long 0x00 24.--28. " WRACCESSTIME             ,Delay from start access time to the GPMC_FCLK rising edge corresponding the GPMC_CLK rising edge used by the attached memory for the first data capture 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cy..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--19. "           WRDATAONADMUXBUS    ,Specifies on which GPMC_FCLK rising edge the first data of the write is driven in the add/data mux bus" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "          CYCLE2CYCLEDELAY    ,Chip-select high pulse delay between successive accesses 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                "
bitfld.long 0x00 7. " CYCLE2CYCLESAMECSEN      ,Add CYCLE2CYCLEDELAY between successive accesses to the same chip-select (any access type) - . - ." "NoC2CDelay,C2CDelay"
bitfld.long 0x00 6. "   CYCLE2CYCLEDIFFCSEN ,Add CYCLE2CYCLEDELAY between successive accesses to a different chip-select (any access type) - . - ." "NoC2CDelay,1"
bitfld.long 0x00 0.--3. "  BUSTURNAROUND       ,Bus turnaround latency between successive accesses to the same chip-select (read to write) or to a different chip-select (read to read and read to write) 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x138++0x3
line.long 0x00 "GPMC_CONFIG7_i_4,CS address mapping configuration"
bitfld.long 0x00 8.--11. " MASKADDRESS              ,CS mask address. 0x0000: Chip-select size of 256 MiB 0x1000: Chip-select size of 128 MiB 0x1100: Chip-select size of 64 MiB 0x1110: Chip-select size of 32 MiB 0x1111: Chip-select size of 16 MiB Other values must be avoided as..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 6. "           CSVALID             ,CS enable - . - ." "CSDisabled,CSEnabled"
bitfld.long 0x00 0.--5. "  BASEADDRESS         ,CSi base address where i = 0 to 7 (16-MiB minimum granularity) bits [5:0] corresponds to A29, A28, A27, A26, A25, and A24. See" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x210++0x3
line.long 0x00 "GPMC_ECCj_RESULT_4,ECC result register"
bitfld.long 0x00 27. " P2048O                   ,Odd row parity bit 2048, only used for ECC computed on 512 bytes" "0,1"
bitfld.long 0x00 26. "            P1024O              ,Odd row parity bit 1024" "0,1"
bitfld.long 0x00 25. "           P512O               ,Odd row parity bit 512" "0,1"
textline "                                "
bitfld.long 0x00 24. " P256O                    ,Odd row parity bit 256" "0,1"
bitfld.long 0x00 23. "            P128O               ,Odd row parity bit 128" "0,1"
bitfld.long 0x00 22. "           P64O                ,Odd row parity bit 64" "0,1"
textline "                                "
bitfld.long 0x00 21. " P32O                     ,Odd row parity bit 32" "0,1"
bitfld.long 0x00 20. "            P16O                ,Odd row parity bit 16" "0,1"
bitfld.long 0x00 19. "           P8O                 ,Odd row parity bit 8" "0,1"
textline "                                "
bitfld.long 0x00 18. " P4O                      ,Odd Column Parity bit 4" "0,1"
bitfld.long 0x00 17. "            P2O                 ,Odd Column Parity bit 2" "0,1"
bitfld.long 0x00 16. "           P1O                 ,Odd Column Parity bit 1" "0,1"
textline "                                "
bitfld.long 0x00 11. " P2048E                   ,Even row parity bit 2048, only used for ECC computed on 512 bytes" "0,1"
bitfld.long 0x00 10. "            P1024E              ,Even row parity bit 1024" "0,1"
bitfld.long 0x00 9. "           P512E               ,Even row parity bit 512" "0,1"
textline "                                "
bitfld.long 0x00 8. " P256E                    ,Even row parity bit 256" "0,1"
bitfld.long 0x00 7. "            P128E               ,Even row parity bit 128" "0,1"
bitfld.long 0x00 6. "           P64E                ,Even row parity bit 64" "0,1"
textline "                                "
bitfld.long 0x00 5. " P32E                     ,Even row parity bit 32" "0,1"
bitfld.long 0x00 4. "            P16E                ,Even row parity bit 16" "0,1"
bitfld.long 0x00 3. "           P8E                 ,Even row parity bit 8" "0,1"
textline "                                "
bitfld.long 0x00 2. " P4E                      ,Even column parity bit 4" "0,1"
bitfld.long 0x00 1. "            P2E                 ,Even column parity bit 2" "0,1"
bitfld.long 0x00 0. "           P1E                 ,Even column parity bit 1" "0,1"
wgroup.long 0x140++0x3
line.long 0x00 "GPMC_NAND_ADDRESS_i_4,This register is not a true register, only an address location."
hexmask.long 0x00 0.--31. 1. " GPMC_NAND_ADDRESS        ,This register is not a true register, only an address location. Writing data at theGPMC_NAND_ADDRESS_i location places the data as the NAND partial address value on the bus, using a regular asynchronous write access."
wgroup.long 0x13C++0x3
line.long 0x00 "GPMC_NAND_COMMAND_i_4,This register is not a true register, only an address location."
hexmask.long 0x00 0.--31. 1. " GPMC_NAND_COMMAND        ,This register is not a true register, only an address location. Writing data at theGPMC_NAND_COMMAND_i location places the data as the NAND command value on the bus, using a regular asynchronous write access."
wgroup.long 0x144++0x3
line.long 0x00 "GPMC_NAND_DATA_i_4,This register is not a true register,only an address location."
hexmask.long 0x00 0.--31. 1. " GPMC_NAND_DATA           ,This register is not a true register, only an address location. Reading data from theGPMC_NAND_DATA_i location or from any location in the associated chip-select memory region activates an asynchronous read access."
tree.end
tree "Channel_5"
width 23.
group.long 0x290++0x3
line.long 0x00 "GPMC_BCH_RESULT0_i_5,BCH ECC result (bits 0 to 31)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_0             ,BCH ECC result (bits 0 to 31)"
group.long 0x294++0x3
line.long 0x00 "GPMC_BCH_RESULT1_i_5,BCH ECC result (bits 32 to 63)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_1             ,BCH ECC result (bits 32 to 63)"
group.long 0x298++0x3
line.long 0x00 "GPMC_BCH_RESULT2_i_5,BCH ECC result (bits 64 to 95)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_2             ,BCH ECC result (bits 64 to 95)"
group.long 0x29C++0x3
line.long 0x00 "GPMC_BCH_RESULT3_i_5,BCH ECC result (bits 96 to 127)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_3             ,BCH ECC result (bits 96 to 127)"
group.long 0x350++0x3
line.long 0x00 "GPMC_BCH_RESULT4_i_5,BCH ECC result (bits 128 to 159)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_4             ,BCH ECC result (bits 128 to 159)"
group.long 0x354++0x3
line.long 0x00 "GPMC_BCH_RESULT5_i_5,BCH ECC result (bits 160 to 191)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_5             ,BCH ECC result (bits 160 to 191)"
group.long 0x358++0x3
line.long 0x00 "GPMC_BCH_RESULT6_i_5,BCH ECC result (bits 192 to 207)"
hexmask.long.word 0x00 0.--15. 1. " BCH_RESULT_6             ,BCH ECC result (bits 192 to 207)"
group.long 0x150++0x3
line.long 0x00 "GPMC_CONFIG1_i_5,The configuration register 1 sets signal control parameters per chip-select."
bitfld.long 0x00 31. " WRAPBURST                ,Enables the wrapping burst capability. Must be set if the attached device is configured in wrapping burst - . - ." "WrapNotSupp,WrapSupp"
bitfld.long 0x00 30. "  READMULTIPLE        ,Selects the read single or multiple access - . - ." "RdSingle,RdMultiple"
bitfld.long 0x00 29. "  READTYPE            ,Selects the read mode operation - . - ." "RdAsync,RdSync"
textline "                                "
bitfld.long 0x00 28. " WRITEMULTIPLE            ,Selects the write single or multiple access - . - ." "WrSingle,WrMultiple"
bitfld.long 0x00 27. "   WRITETYPE           ,Selects the write mode operation - . - ." "WrAsync,WrSync"
bitfld.long 0x00 25.--26. "     CLKACTIVATIONTIME   ,Output GPMC_CLK activation time - . - . - . - ." "AtStart,OneClkB4,TwoClkB4,NotDefined"
textline "                                "
bitfld.long 0x00 23.--24. " ATTACHEDDEVICEPAGELENGTH ,Specifies the attached device page (burst) length - . - . - . - ." "Four,Eight,Sixteen,ThirtyTwo"
bitfld.long 0x00 22. "    WAITREADMONITORING  ,Selects the Wait monitoring configuration for Read accesses (Reset value is input pin sampled at device reset) - . - ." "WNotMonit,Wmonit"
bitfld.long 0x00 21. "   WAITWRITEMONITORING ,Selects the Wait monitoring configuration for Write accesses - . - ." "WNotMonit,Wmonit"
textline "                                "
bitfld.long 0x00 18.--19. " WAITMONITORINGTIME       ,Selects input pin Wait monitoring time - . - . - . - ." "AtValid,OneDeviceB4,TwoDeviceB4,NotDefined"
bitfld.long 0x00 16.--17. "  WAITPINSELECT       ,Selects the input wait pin for this chip-select (The reset value is HW fixed to 0x0 for CS0-CS7) - . - . 0x2, 0x3: Reserved. - ." "W0,W1,2,3"
bitfld.long 0x00 12.--13. "          DEVICESIZE          ,Selects the device size attached (Reset value is input pin sampled at device reset for CS0 and 0x1 for CS1 to CS7) - . - . - . - ." "EightBits,SixteenBits,ThirtyTwoBits,Res"
textline "                                "
bitfld.long 0x00 10.--11. " DEVICETYPE               ,Selects the attached device type - . - . - . - ." "NORlike,Res1,NANDlike,Res2"
bitfld.long 0x00 8.--9. "     MUXADDDATA          ,Enables the address and data multiplexed protocol (Reset value is input pin sampled at device reset for CS0 and 0 for CS1-CS7) - . - . - . - ." "NonMux,AADMux,Mux,Reserved"
bitfld.long 0x00 4. "    TIMEPARAGRANULARITY ,Signals timing latencies scalar factor (RD/WRCYCLETIME, RD/WRACCESSTIME, PAGEBURSTACCESSTIME, CSONTIME, CSRD/WROFFTIME, ADVONTIME, ADVRD/WROFFTIME, OEONTIME, OEOFFTIME, WEONTIME, WEOFFTIME, CYCLE2CYCLEDELAY, BUSTURNAROUND, TIME..." "x1,x2"
textline "                                "
bitfld.long 0x00 0.--1. " GPMCFCLKDIVIDER          ,Divides the GPMC_FCLK clock - . - . - . - ." "DivBy1,DivBy2,DivBy3,UNKN_MNEMO"
group.long 0x154++0x3
line.long 0x00 "GPMC_CONFIG2_i_5,CS signal timing parameter configuration"
bitfld.long 0x00 16.--20. " CSWROFFTIME              ,CS i deassertion time from start cycle time for write accesses 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "           CSRDOFFTIME         ,CS i de-assertion time from start cycle time for read accesses 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "          CSEXTRADELAY        ,CS i Add extra half-GPMC_FCLK cycle - . - ." "NotDelayed,0x01"
textline "                                "
bitfld.long 0x00 0.--3. " CSONTIME                 ,CS i assertion time from start cycle time 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x158++0x3
line.long 0x00 "GPMC_CONFIG3_i_5,nADV signal timing parameter configuration"
bitfld.long 0x00 28.--30. " ADVAADMUXWROFFTIME       ,nADV deassertion for first address phase when using the AAD-multiplexed protocol 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "            ADVAADMUXRDOFFTIME  ,nADV assertion for first address phase when using the AAD-multiplexed protocol 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 16.--20. "           ADVWROFFTIME        ,nADV deassertion time from start cycle time for write accesses 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                "
bitfld.long 0x00 8.--12. " ADVRDOFFTIME             ,nADV deassertion time from start cycle time for read accesses 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "           ADVEXTRADELAY       ,nADV add extra half-GPMC_FCLK cycle - . - ." "NotDelayed,0x01"
bitfld.long 0x00 4.--6. "  ADVAADMUXONTIME     ,nADV assertion for first address phase when using the AAD-multiplexed protocol 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
textline "                                "
bitfld.long 0x00 0.--3. " ADVONTIME                ,nADV assertion time from start cycle time 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x15C++0x3
line.long 0x00 "GPMC_CONFIG4_i_5,nWE and nOE signals timing parameter configuration"
bitfld.long 0x00 24.--28. " WEOFFTIME                ,nWE deassertion time from start cycle time 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 23. "           WEEXTRADELAY        ,nWE add extra half-GPMC_FCLK cycle - . - ." "NotDelayed,0x01"
bitfld.long 0x00 16.--19. "  WEONTIME            ,nWE assertion time from start cycle time 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                "
bitfld.long 0x00 13.--15. " OEAADMUX_OFFTIME         ,nOE deassertion time for the first address phase in an AAD-multiplexed access 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--12. "            OEOFFTIME           ,nOE deassertion time from start cycle time 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "          OEEXTRADELAY        ,nOE add extra half-GPMC_FCLK cycle - . - ." "NotDelayed,1"
textline "                                "
bitfld.long 0x00 4.--6. " OEAADMUX_ONTIME          ,nOE assertion time for the first address phase in an AAD-mux access 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--3. "            OEONTIME            ,nOE assertion time from start cycle time 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x160++0x3
line.long 0x00 "GPMC_CONFIG5_i_5,RdAccessTime and CycleTime timing parameters configuration"
bitfld.long 0x00 24.--27. " PAGEBURSTACCESSTIME      ,Delay between successive words in a multiple access 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--20. "           RDACCESSTIME        ,Delay between start cycle time and first data valid 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "          WRCYCLETIME         ,Total write cycle time 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                "
bitfld.long 0x00 0.--4. " RDCYCLETIME              ,Total read cycle time 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x164++0x3
line.long 0x00 "GPMC_CONFIG6_i_5,WrAccessTime, WrDataOnADmuxBus, Cycle2Cycle and BusTurnAround parameters configuration"
bitfld.long 0x00 24.--28. " WRACCESSTIME             ,Delay from start access time to the GPMC_FCLK rising edge corresponding the GPMC_CLK rising edge used by the attached memory for the first data capture 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cy..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--19. "           WRDATAONADMUXBUS    ,Specifies on which GPMC_FCLK rising edge the first data of the write is driven in the add/data mux bus" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "          CYCLE2CYCLEDELAY    ,Chip-select high pulse delay between successive accesses 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                "
bitfld.long 0x00 7. " CYCLE2CYCLESAMECSEN      ,Add CYCLE2CYCLEDELAY between successive accesses to the same chip-select (any access type) - . - ." "NoC2CDelay,C2CDelay"
bitfld.long 0x00 6. "   CYCLE2CYCLEDIFFCSEN ,Add CYCLE2CYCLEDELAY between successive accesses to a different chip-select (any access type) - . - ." "NoC2CDelay,1"
bitfld.long 0x00 0.--3. "  BUSTURNAROUND       ,Bus turnaround latency between successive accesses to the same chip-select (read to write) or to a different chip-select (read to read and read to write) 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x168++0x3
line.long 0x00 "GPMC_CONFIG7_i_5,CS address mapping configuration"
bitfld.long 0x00 8.--11. " MASKADDRESS              ,CS mask address. 0x0000: Chip-select size of 256 MiB 0x1000: Chip-select size of 128 MiB 0x1100: Chip-select size of 64 MiB 0x1110: Chip-select size of 32 MiB 0x1111: Chip-select size of 16 MiB Other values must be avoided as..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 6. "           CSVALID             ,CS enable - . - ." "CSDisabled,CSEnabled"
bitfld.long 0x00 0.--5. "  BASEADDRESS         ,CSi base address where i = 0 to 7 (16-MiB minimum granularity) bits [5:0] corresponds to A29, A28, A27, A26, A25, and A24. See" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x214++0x3
line.long 0x00 "GPMC_ECCj_RESULT_5,ECC result register"
bitfld.long 0x00 27. " P2048O                   ,Odd row parity bit 2048, only used for ECC computed on 512 bytes" "0,1"
bitfld.long 0x00 26. "            P1024O              ,Odd row parity bit 1024" "0,1"
bitfld.long 0x00 25. "           P512O               ,Odd row parity bit 512" "0,1"
textline "                                "
bitfld.long 0x00 24. " P256O                    ,Odd row parity bit 256" "0,1"
bitfld.long 0x00 23. "            P128O               ,Odd row parity bit 128" "0,1"
bitfld.long 0x00 22. "           P64O                ,Odd row parity bit 64" "0,1"
textline "                                "
bitfld.long 0x00 21. " P32O                     ,Odd row parity bit 32" "0,1"
bitfld.long 0x00 20. "            P16O                ,Odd row parity bit 16" "0,1"
bitfld.long 0x00 19. "           P8O                 ,Odd row parity bit 8" "0,1"
textline "                                "
bitfld.long 0x00 18. " P4O                      ,Odd Column Parity bit 4" "0,1"
bitfld.long 0x00 17. "            P2O                 ,Odd Column Parity bit 2" "0,1"
bitfld.long 0x00 16. "           P1O                 ,Odd Column Parity bit 1" "0,1"
textline "                                "
bitfld.long 0x00 11. " P2048E                   ,Even row parity bit 2048, only used for ECC computed on 512 bytes" "0,1"
bitfld.long 0x00 10. "            P1024E              ,Even row parity bit 1024" "0,1"
bitfld.long 0x00 9. "           P512E               ,Even row parity bit 512" "0,1"
textline "                                "
bitfld.long 0x00 8. " P256E                    ,Even row parity bit 256" "0,1"
bitfld.long 0x00 7. "            P128E               ,Even row parity bit 128" "0,1"
bitfld.long 0x00 6. "           P64E                ,Even row parity bit 64" "0,1"
textline "                                "
bitfld.long 0x00 5. " P32E                     ,Even row parity bit 32" "0,1"
bitfld.long 0x00 4. "            P16E                ,Even row parity bit 16" "0,1"
bitfld.long 0x00 3. "           P8E                 ,Even row parity bit 8" "0,1"
textline "                                "
bitfld.long 0x00 2. " P4E                      ,Even column parity bit 4" "0,1"
bitfld.long 0x00 1. "            P2E                 ,Even column parity bit 2" "0,1"
bitfld.long 0x00 0. "           P1E                 ,Even column parity bit 1" "0,1"
wgroup.long 0x170++0x3
line.long 0x00 "GPMC_NAND_ADDRESS_i_5,This register is not a true register, only an address location."
hexmask.long 0x00 0.--31. 1. " GPMC_NAND_ADDRESS        ,This register is not a true register, only an address location. Writing data at theGPMC_NAND_ADDRESS_i location places the data as the NAND partial address value on the bus, using a regular asynchronous write access."
wgroup.long 0x16C++0x3
line.long 0x00 "GPMC_NAND_COMMAND_i_5,This register is not a true register, only an address location."
hexmask.long 0x00 0.--31. 1. " GPMC_NAND_COMMAND        ,This register is not a true register, only an address location. Writing data at theGPMC_NAND_COMMAND_i location places the data as the NAND command value on the bus, using a regular asynchronous write access."
wgroup.long 0x174++0x3
line.long 0x00 "GPMC_NAND_DATA_i_5,This register is not a true register,only an address location."
hexmask.long 0x00 0.--31. 1. " GPMC_NAND_DATA           ,This register is not a true register, only an address location. Reading data from theGPMC_NAND_DATA_i location or from any location in the associated chip-select memory region activates an asynchronous read access."
tree.end
tree "Channel_6"
width 23.
group.long 0x2A0++0x3
line.long 0x00 "GPMC_BCH_RESULT0_i_6,BCH ECC result (bits 0 to 31)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_0             ,BCH ECC result (bits 0 to 31)"
group.long 0x2A4++0x3
line.long 0x00 "GPMC_BCH_RESULT1_i_6,BCH ECC result (bits 32 to 63)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_1             ,BCH ECC result (bits 32 to 63)"
group.long 0x2A8++0x3
line.long 0x00 "GPMC_BCH_RESULT2_i_6,BCH ECC result (bits 64 to 95)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_2             ,BCH ECC result (bits 64 to 95)"
group.long 0x2AC++0x3
line.long 0x00 "GPMC_BCH_RESULT3_i_6,BCH ECC result (bits 96 to 127)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_3             ,BCH ECC result (bits 96 to 127)"
group.long 0x360++0x3
line.long 0x00 "GPMC_BCH_RESULT4_i_6,BCH ECC result (bits 128 to 159)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_4             ,BCH ECC result (bits 128 to 159)"
group.long 0x364++0x3
line.long 0x00 "GPMC_BCH_RESULT5_i_6,BCH ECC result (bits 160 to 191)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_5             ,BCH ECC result (bits 160 to 191)"
group.long 0x368++0x3
line.long 0x00 "GPMC_BCH_RESULT6_i_6,BCH ECC result (bits 192 to 207)"
hexmask.long.word 0x00 0.--15. 1. " BCH_RESULT_6             ,BCH ECC result (bits 192 to 207)"
group.long 0x180++0x3
line.long 0x00 "GPMC_CONFIG1_i_6,The configuration register 1 sets signal control parameters per chip-select."
bitfld.long 0x00 31. " WRAPBURST                ,Enables the wrapping burst capability. Must be set if the attached device is configured in wrapping burst - . - ." "WrapNotSupp,WrapSupp"
bitfld.long 0x00 30. "  READMULTIPLE        ,Selects the read single or multiple access - . - ." "RdSingle,RdMultiple"
bitfld.long 0x00 29. "  READTYPE            ,Selects the read mode operation - . - ." "RdAsync,RdSync"
textline "                                "
bitfld.long 0x00 28. " WRITEMULTIPLE            ,Selects the write single or multiple access - . - ." "WrSingle,WrMultiple"
bitfld.long 0x00 27. "   WRITETYPE           ,Selects the write mode operation - . - ." "WrAsync,WrSync"
bitfld.long 0x00 25.--26. "     CLKACTIVATIONTIME   ,Output GPMC_CLK activation time - . - . - . - ." "AtStart,OneClkB4,TwoClkB4,NotDefined"
textline "                                "
bitfld.long 0x00 23.--24. " ATTACHEDDEVICEPAGELENGTH ,Specifies the attached device page (burst) length - . - . - . - ." "Four,Eight,Sixteen,ThirtyTwo"
bitfld.long 0x00 22. "    WAITREADMONITORING  ,Selects the Wait monitoring configuration for Read accesses (Reset value is input pin sampled at device reset) - . - ." "WNotMonit,Wmonit"
bitfld.long 0x00 21. "   WAITWRITEMONITORING ,Selects the Wait monitoring configuration for Write accesses - . - ." "WNotMonit,Wmonit"
textline "                                "
bitfld.long 0x00 18.--19. " WAITMONITORINGTIME       ,Selects input pin Wait monitoring time - . - . - . - ." "AtValid,OneDeviceB4,TwoDeviceB4,NotDefined"
bitfld.long 0x00 16.--17. "  WAITPINSELECT       ,Selects the input wait pin for this chip-select (The reset value is HW fixed to 0x0 for CS0-CS7) - . - . 0x2, 0x3: Reserved. - ." "W0,W1,2,3"
bitfld.long 0x00 12.--13. "          DEVICESIZE          ,Selects the device size attached (Reset value is input pin sampled at device reset for CS0 and 0x1 for CS1 to CS7) - . - . - . - ." "EightBits,SixteenBits,ThirtyTwoBits,Res"
textline "                                "
bitfld.long 0x00 10.--11. " DEVICETYPE               ,Selects the attached device type - . - . - . - ." "NORlike,Res1,NANDlike,Res2"
bitfld.long 0x00 8.--9. "     MUXADDDATA          ,Enables the address and data multiplexed protocol (Reset value is input pin sampled at device reset for CS0 and 0 for CS1-CS7) - . - . - . - ." "NonMux,AADMux,Mux,Reserved"
bitfld.long 0x00 4. "    TIMEPARAGRANULARITY ,Signals timing latencies scalar factor (RD/WRCYCLETIME, RD/WRACCESSTIME, PAGEBURSTACCESSTIME, CSONTIME, CSRD/WROFFTIME, ADVONTIME, ADVRD/WROFFTIME, OEONTIME, OEOFFTIME, WEONTIME, WEOFFTIME, CYCLE2CYCLEDELAY, BUSTURNAROUND, TIME..." "x1,x2"
textline "                                "
bitfld.long 0x00 0.--1. " GPMCFCLKDIVIDER          ,Divides the GPMC_FCLK clock - . - . - . - ." "DivBy1,DivBy2,DivBy3,UNKN_MNEMO"
group.long 0x184++0x3
line.long 0x00 "GPMC_CONFIG2_i_6,CS signal timing parameter configuration"
bitfld.long 0x00 16.--20. " CSWROFFTIME              ,CS i deassertion time from start cycle time for write accesses 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "           CSRDOFFTIME         ,CS i de-assertion time from start cycle time for read accesses 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "          CSEXTRADELAY        ,CS i Add extra half-GPMC_FCLK cycle - . - ." "NotDelayed,0x01"
textline "                                "
bitfld.long 0x00 0.--3. " CSONTIME                 ,CS i assertion time from start cycle time 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x188++0x3
line.long 0x00 "GPMC_CONFIG3_i_6,nADV signal timing parameter configuration"
bitfld.long 0x00 28.--30. " ADVAADMUXWROFFTIME       ,nADV deassertion for first address phase when using the AAD-multiplexed protocol 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "            ADVAADMUXRDOFFTIME  ,nADV assertion for first address phase when using the AAD-multiplexed protocol 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 16.--20. "           ADVWROFFTIME        ,nADV deassertion time from start cycle time for write accesses 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                "
bitfld.long 0x00 8.--12. " ADVRDOFFTIME             ,nADV deassertion time from start cycle time for read accesses 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "           ADVEXTRADELAY       ,nADV add extra half-GPMC_FCLK cycle - . - ." "NotDelayed,0x01"
bitfld.long 0x00 4.--6. "  ADVAADMUXONTIME     ,nADV assertion for first address phase when using the AAD-multiplexed protocol 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
textline "                                "
bitfld.long 0x00 0.--3. " ADVONTIME                ,nADV assertion time from start cycle time 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x18C++0x3
line.long 0x00 "GPMC_CONFIG4_i_6,nWE and nOE signals timing parameter configuration"
bitfld.long 0x00 24.--28. " WEOFFTIME                ,nWE deassertion time from start cycle time 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 23. "           WEEXTRADELAY        ,nWE add extra half-GPMC_FCLK cycle - . - ." "NotDelayed,0x01"
bitfld.long 0x00 16.--19. "  WEONTIME            ,nWE assertion time from start cycle time 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                "
bitfld.long 0x00 13.--15. " OEAADMUX_OFFTIME         ,nOE deassertion time for the first address phase in an AAD-multiplexed access 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--12. "            OEOFFTIME           ,nOE deassertion time from start cycle time 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "          OEEXTRADELAY        ,nOE add extra half-GPMC_FCLK cycle - . - ." "NotDelayed,1"
textline "                                "
bitfld.long 0x00 4.--6. " OEAADMUX_ONTIME          ,nOE assertion time for the first address phase in an AAD-mux access 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--3. "            OEONTIME            ,nOE assertion time from start cycle time 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x190++0x3
line.long 0x00 "GPMC_CONFIG5_i_6,RdAccessTime and CycleTime timing parameters configuration"
bitfld.long 0x00 24.--27. " PAGEBURSTACCESSTIME      ,Delay between successive words in a multiple access 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--20. "           RDACCESSTIME        ,Delay between start cycle time and first data valid 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "          WRCYCLETIME         ,Total write cycle time 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                "
bitfld.long 0x00 0.--4. " RDCYCLETIME              ,Total read cycle time 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x194++0x3
line.long 0x00 "GPMC_CONFIG6_i_6,WrAccessTime, WrDataOnADmuxBus, Cycle2Cycle and BusTurnAround parameters configuration"
bitfld.long 0x00 24.--28. " WRACCESSTIME             ,Delay from start access time to the GPMC_FCLK rising edge corresponding the GPMC_CLK rising edge used by the attached memory for the first data capture 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cy..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--19. "           WRDATAONADMUXBUS    ,Specifies on which GPMC_FCLK rising edge the first data of the write is driven in the add/data mux bus" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "          CYCLE2CYCLEDELAY    ,Chip-select high pulse delay between successive accesses 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                "
bitfld.long 0x00 7. " CYCLE2CYCLESAMECSEN      ,Add CYCLE2CYCLEDELAY between successive accesses to the same chip-select (any access type) - . - ." "NoC2CDelay,C2CDelay"
bitfld.long 0x00 6. "   CYCLE2CYCLEDIFFCSEN ,Add CYCLE2CYCLEDELAY between successive accesses to a different chip-select (any access type) - . - ." "NoC2CDelay,1"
bitfld.long 0x00 0.--3. "  BUSTURNAROUND       ,Bus turnaround latency between successive accesses to the same chip-select (read to write) or to a different chip-select (read to read and read to write) 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x198++0x3
line.long 0x00 "GPMC_CONFIG7_i_6,CS address mapping configuration"
bitfld.long 0x00 8.--11. " MASKADDRESS              ,CS mask address. 0x0000: Chip-select size of 256 MiB 0x1000: Chip-select size of 128 MiB 0x1100: Chip-select size of 64 MiB 0x1110: Chip-select size of 32 MiB 0x1111: Chip-select size of 16 MiB Other values must be avoided as..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 6. "           CSVALID             ,CS enable - . - ." "CSDisabled,CSEnabled"
bitfld.long 0x00 0.--5. "  BASEADDRESS         ,CSi base address where i = 0 to 7 (16-MiB minimum granularity) bits [5:0] corresponds to A29, A28, A27, A26, A25, and A24. See" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x218++0x3
line.long 0x00 "GPMC_ECCj_RESULT_6,ECC result register"
bitfld.long 0x00 27. " P2048O                   ,Odd row parity bit 2048, only used for ECC computed on 512 bytes" "0,1"
bitfld.long 0x00 26. "            P1024O              ,Odd row parity bit 1024" "0,1"
bitfld.long 0x00 25. "           P512O               ,Odd row parity bit 512" "0,1"
textline "                                "
bitfld.long 0x00 24. " P256O                    ,Odd row parity bit 256" "0,1"
bitfld.long 0x00 23. "            P128O               ,Odd row parity bit 128" "0,1"
bitfld.long 0x00 22. "           P64O                ,Odd row parity bit 64" "0,1"
textline "                                "
bitfld.long 0x00 21. " P32O                     ,Odd row parity bit 32" "0,1"
bitfld.long 0x00 20. "            P16O                ,Odd row parity bit 16" "0,1"
bitfld.long 0x00 19. "           P8O                 ,Odd row parity bit 8" "0,1"
textline "                                "
bitfld.long 0x00 18. " P4O                      ,Odd Column Parity bit 4" "0,1"
bitfld.long 0x00 17. "            P2O                 ,Odd Column Parity bit 2" "0,1"
bitfld.long 0x00 16. "           P1O                 ,Odd Column Parity bit 1" "0,1"
textline "                                "
bitfld.long 0x00 11. " P2048E                   ,Even row parity bit 2048, only used for ECC computed on 512 bytes" "0,1"
bitfld.long 0x00 10. "            P1024E              ,Even row parity bit 1024" "0,1"
bitfld.long 0x00 9. "           P512E               ,Even row parity bit 512" "0,1"
textline "                                "
bitfld.long 0x00 8. " P256E                    ,Even row parity bit 256" "0,1"
bitfld.long 0x00 7. "            P128E               ,Even row parity bit 128" "0,1"
bitfld.long 0x00 6. "           P64E                ,Even row parity bit 64" "0,1"
textline "                                "
bitfld.long 0x00 5. " P32E                     ,Even row parity bit 32" "0,1"
bitfld.long 0x00 4. "            P16E                ,Even row parity bit 16" "0,1"
bitfld.long 0x00 3. "           P8E                 ,Even row parity bit 8" "0,1"
textline "                                "
bitfld.long 0x00 2. " P4E                      ,Even column parity bit 4" "0,1"
bitfld.long 0x00 1. "            P2E                 ,Even column parity bit 2" "0,1"
bitfld.long 0x00 0. "           P1E                 ,Even column parity bit 1" "0,1"
wgroup.long 0x1A0++0x3
line.long 0x00 "GPMC_NAND_ADDRESS_i_6,This register is not a true register, only an address location."
hexmask.long 0x00 0.--31. 1. " GPMC_NAND_ADDRESS        ,This register is not a true register, only an address location. Writing data at theGPMC_NAND_ADDRESS_i location places the data as the NAND partial address value on the bus, using a regular asynchronous write access."
wgroup.long 0x19C++0x3
line.long 0x00 "GPMC_NAND_COMMAND_i_6,This register is not a true register, only an address location."
hexmask.long 0x00 0.--31. 1. " GPMC_NAND_COMMAND        ,This register is not a true register, only an address location. Writing data at theGPMC_NAND_COMMAND_i location places the data as the NAND command value on the bus, using a regular asynchronous write access."
wgroup.long 0x1A4++0x3
line.long 0x00 "GPMC_NAND_DATA_i_6,This register is not a true register,only an address location."
hexmask.long 0x00 0.--31. 1. " GPMC_NAND_DATA           ,This register is not a true register, only an address location. Reading data from theGPMC_NAND_DATA_i location or from any location in the associated chip-select memory region activates an asynchronous read access."
tree.end
tree "Channel_7"
width 23.
group.long 0x2B0++0x3
line.long 0x00 "GPMC_BCH_RESULT0_i_7,BCH ECC result (bits 0 to 31)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_0             ,BCH ECC result (bits 0 to 31)"
group.long 0x2B4++0x3
line.long 0x00 "GPMC_BCH_RESULT1_i_7,BCH ECC result (bits 32 to 63)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_1             ,BCH ECC result (bits 32 to 63)"
group.long 0x2B8++0x3
line.long 0x00 "GPMC_BCH_RESULT2_i_7,BCH ECC result (bits 64 to 95)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_2             ,BCH ECC result (bits 64 to 95)"
group.long 0x2BC++0x3
line.long 0x00 "GPMC_BCH_RESULT3_i_7,BCH ECC result (bits 96 to 127)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_3             ,BCH ECC result (bits 96 to 127)"
group.long 0x370++0x3
line.long 0x00 "GPMC_BCH_RESULT4_i_7,BCH ECC result (bits 128 to 159)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_4             ,BCH ECC result (bits 128 to 159)"
group.long 0x374++0x3
line.long 0x00 "GPMC_BCH_RESULT5_i_7,BCH ECC result (bits 160 to 191)"
hexmask.long 0x00 0.--31. 1. " BCH_RESULT_5             ,BCH ECC result (bits 160 to 191)"
group.long 0x378++0x3
line.long 0x00 "GPMC_BCH_RESULT6_i_7,BCH ECC result (bits 192 to 207)"
hexmask.long.word 0x00 0.--15. 1. " BCH_RESULT_6             ,BCH ECC result (bits 192 to 207)"
group.long 0x1B0++0x3
line.long 0x00 "GPMC_CONFIG1_i_7,The configuration register 1 sets signal control parameters per chip-select."
bitfld.long 0x00 31. " WRAPBURST                ,Enables the wrapping burst capability. Must be set if the attached device is configured in wrapping burst - . - ." "WrapNotSupp,WrapSupp"
bitfld.long 0x00 30. "  READMULTIPLE        ,Selects the read single or multiple access - . - ." "RdSingle,RdMultiple"
bitfld.long 0x00 29. "  READTYPE            ,Selects the read mode operation - . - ." "RdAsync,RdSync"
textline "                                "
bitfld.long 0x00 28. " WRITEMULTIPLE            ,Selects the write single or multiple access - . - ." "WrSingle,WrMultiple"
bitfld.long 0x00 27. "   WRITETYPE           ,Selects the write mode operation - . - ." "WrAsync,WrSync"
bitfld.long 0x00 25.--26. "     CLKACTIVATIONTIME   ,Output GPMC_CLK activation time - . - . - . - ." "AtStart,OneClkB4,TwoClkB4,NotDefined"
textline "                                "
bitfld.long 0x00 23.--24. " ATTACHEDDEVICEPAGELENGTH ,Specifies the attached device page (burst) length - . - . - . - ." "Four,Eight,Sixteen,ThirtyTwo"
bitfld.long 0x00 22. "    WAITREADMONITORING  ,Selects the Wait monitoring configuration for Read accesses (Reset value is input pin sampled at device reset) - . - ." "WNotMonit,Wmonit"
bitfld.long 0x00 21. "   WAITWRITEMONITORING ,Selects the Wait monitoring configuration for Write accesses - . - ." "WNotMonit,Wmonit"
textline "                                "
bitfld.long 0x00 18.--19. " WAITMONITORINGTIME       ,Selects input pin Wait monitoring time - . - . - . - ." "AtValid,OneDeviceB4,TwoDeviceB4,NotDefined"
bitfld.long 0x00 16.--17. "  WAITPINSELECT       ,Selects the input wait pin for this chip-select (The reset value is HW fixed to 0x0 for CS0-CS7) - . - . 0x2, 0x3: Reserved. - ." "W0,W1,2,3"
bitfld.long 0x00 12.--13. "          DEVICESIZE          ,Selects the device size attached (Reset value is input pin sampled at device reset for CS0 and 0x1 for CS1 to CS7) - . - . - . - ." "EightBits,SixteenBits,ThirtyTwoBits,Res"
textline "                                "
bitfld.long 0x00 10.--11. " DEVICETYPE               ,Selects the attached device type - . - . - . - ." "NORlike,Res1,NANDlike,Res2"
bitfld.long 0x00 8.--9. "     MUXADDDATA          ,Enables the address and data multiplexed protocol (Reset value is input pin sampled at device reset for CS0 and 0 for CS1-CS7) - . - . - . - ." "NonMux,AADMux,Mux,Reserved"
bitfld.long 0x00 4. "    TIMEPARAGRANULARITY ,Signals timing latencies scalar factor (RD/WRCYCLETIME, RD/WRACCESSTIME, PAGEBURSTACCESSTIME, CSONTIME, CSRD/WROFFTIME, ADVONTIME, ADVRD/WROFFTIME, OEONTIME, OEOFFTIME, WEONTIME, WEOFFTIME, CYCLE2CYCLEDELAY, BUSTURNAROUND, TIME..." "x1,x2"
textline "                                "
bitfld.long 0x00 0.--1. " GPMCFCLKDIVIDER          ,Divides the GPMC_FCLK clock - . - . - . - ." "DivBy1,DivBy2,DivBy3,UNKN_MNEMO"
group.long 0x1B4++0x3
line.long 0x00 "GPMC_CONFIG2_i_7,CS signal timing parameter configuration"
bitfld.long 0x00 16.--20. " CSWROFFTIME              ,CS i deassertion time from start cycle time for write accesses 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "           CSRDOFFTIME         ,CS i de-assertion time from start cycle time for read accesses 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "          CSEXTRADELAY        ,CS i Add extra half-GPMC_FCLK cycle - . - ." "NotDelayed,0x01"
textline "                                "
bitfld.long 0x00 0.--3. " CSONTIME                 ,CS i assertion time from start cycle time 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x1B8++0x3
line.long 0x00 "GPMC_CONFIG3_i_7,nADV signal timing parameter configuration"
bitfld.long 0x00 28.--30. " ADVAADMUXWROFFTIME       ,nADV deassertion for first address phase when using the AAD-multiplexed protocol 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "            ADVAADMUXRDOFFTIME  ,nADV assertion for first address phase when using the AAD-multiplexed protocol 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 16.--20. "           ADVWROFFTIME        ,nADV deassertion time from start cycle time for write accesses 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                "
bitfld.long 0x00 8.--12. " ADVRDOFFTIME             ,nADV deassertion time from start cycle time for read accesses 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "           ADVEXTRADELAY       ,nADV add extra half-GPMC_FCLK cycle - . - ." "NotDelayed,0x01"
bitfld.long 0x00 4.--6. "  ADVAADMUXONTIME     ,nADV assertion for first address phase when using the AAD-multiplexed protocol 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
textline "                                "
bitfld.long 0x00 0.--3. " ADVONTIME                ,nADV assertion time from start cycle time 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x1BC++0x3
line.long 0x00 "GPMC_CONFIG4_i_7,nWE and nOE signals timing parameter configuration"
bitfld.long 0x00 24.--28. " WEOFFTIME                ,nWE deassertion time from start cycle time 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 23. "           WEEXTRADELAY        ,nWE add extra half-GPMC_FCLK cycle - . - ." "NotDelayed,0x01"
bitfld.long 0x00 16.--19. "  WEONTIME            ,nWE assertion time from start cycle time 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                "
bitfld.long 0x00 13.--15. " OEAADMUX_OFFTIME         ,nOE deassertion time for the first address phase in an AAD-multiplexed access 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--12. "            OEOFFTIME           ,nOE deassertion time from start cycle time 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7. "          OEEXTRADELAY        ,nOE add extra half-GPMC_FCLK cycle - . - ." "NotDelayed,1"
textline "                                "
bitfld.long 0x00 4.--6. " OEAADMUX_ONTIME          ,nOE assertion time for the first address phase in an AAD-mux access 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0x7: 7 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--3. "            OEONTIME            ,nOE assertion time from start cycle time 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x1C0++0x3
line.long 0x00 "GPMC_CONFIG5_i_7,RdAccessTime and CycleTime timing parameters configuration"
bitfld.long 0x00 24.--27. " PAGEBURSTACCESSTIME      ,Delay between successive words in a multiple access 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--20. "           RDACCESSTIME        ,Delay between start cycle time and first data valid 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "          WRCYCLETIME         ,Total write cycle time 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                "
bitfld.long 0x00 0.--4. " RDCYCLETIME              ,Total read cycle time 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x1C4++0x3
line.long 0x00 "GPMC_CONFIG6_i_7,WrAccessTime, WrDataOnADmuxBus, Cycle2Cycle and BusTurnAround parameters configuration"
bitfld.long 0x00 24.--28. " WRACCESSTIME             ,Delay from start access time to the GPMC_FCLK rising edge corresponding the GPMC_CLK rising edge used by the attached memory for the first data capture 0x00: 0 GPMC_FCLK cycle 0x01: 1 GPMC_FCLK cycle ... 0x1F: 31 GPMC_FCLK cy..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--19. "           WRDATAONADMUXBUS    ,Specifies on which GPMC_FCLK rising edge the first data of the write is driven in the add/data mux bus" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "          CYCLE2CYCLEDELAY    ,Chip-select high pulse delay between successive accesses 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                "
bitfld.long 0x00 7. " CYCLE2CYCLESAMECSEN      ,Add CYCLE2CYCLEDELAY between successive accesses to the same chip-select (any access type) - . - ." "NoC2CDelay,C2CDelay"
bitfld.long 0x00 6. "   CYCLE2CYCLEDIFFCSEN ,Add CYCLE2CYCLEDELAY between successive accesses to a different chip-select (any access type) - . - ." "NoC2CDelay,1"
bitfld.long 0x00 0.--3. "  BUSTURNAROUND       ,Bus turnaround latency between successive accesses to the same chip-select (read to write) or to a different chip-select (read to read and read to write) 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... 0xF: 15 GPMC_FCLK cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x1C8++0x3
line.long 0x00 "GPMC_CONFIG7_i_7,CS address mapping configuration"
bitfld.long 0x00 8.--11. " MASKADDRESS              ,CS mask address. 0x0000: Chip-select size of 256 MiB 0x1000: Chip-select size of 128 MiB 0x1100: Chip-select size of 64 MiB 0x1110: Chip-select size of 32 MiB 0x1111: Chip-select size of 16 MiB Other values must be avoided as..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 6. "           CSVALID             ,CS enable - . - ." "CSDisabled,CSEnabled"
bitfld.long 0x00 0.--5. "  BASEADDRESS         ,CSi base address where i = 0 to 7 (16-MiB minimum granularity) bits [5:0] corresponds to A29, A28, A27, A26, A25, and A24. See" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x21C++0x3
line.long 0x00 "GPMC_ECCj_RESULT_7,ECC result register"
bitfld.long 0x00 27. " P2048O                   ,Odd row parity bit 2048, only used for ECC computed on 512 bytes" "0,1"
bitfld.long 0x00 26. "            P1024O              ,Odd row parity bit 1024" "0,1"
bitfld.long 0x00 25. "           P512O               ,Odd row parity bit 512" "0,1"
textline "                                "
bitfld.long 0x00 24. " P256O                    ,Odd row parity bit 256" "0,1"
bitfld.long 0x00 23. "            P128O               ,Odd row parity bit 128" "0,1"
bitfld.long 0x00 22. "           P64O                ,Odd row parity bit 64" "0,1"
textline "                                "
bitfld.long 0x00 21. " P32O                     ,Odd row parity bit 32" "0,1"
bitfld.long 0x00 20. "            P16O                ,Odd row parity bit 16" "0,1"
bitfld.long 0x00 19. "           P8O                 ,Odd row parity bit 8" "0,1"
textline "                                "
bitfld.long 0x00 18. " P4O                      ,Odd Column Parity bit 4" "0,1"
bitfld.long 0x00 17. "            P2O                 ,Odd Column Parity bit 2" "0,1"
bitfld.long 0x00 16. "           P1O                 ,Odd Column Parity bit 1" "0,1"
textline "                                "
bitfld.long 0x00 11. " P2048E                   ,Even row parity bit 2048, only used for ECC computed on 512 bytes" "0,1"
bitfld.long 0x00 10. "            P1024E              ,Even row parity bit 1024" "0,1"
bitfld.long 0x00 9. "           P512E               ,Even row parity bit 512" "0,1"
textline "                                "
bitfld.long 0x00 8. " P256E                    ,Even row parity bit 256" "0,1"
bitfld.long 0x00 7. "            P128E               ,Even row parity bit 128" "0,1"
bitfld.long 0x00 6. "           P64E                ,Even row parity bit 64" "0,1"
textline "                                "
bitfld.long 0x00 5. " P32E                     ,Even row parity bit 32" "0,1"
bitfld.long 0x00 4. "            P16E                ,Even row parity bit 16" "0,1"
bitfld.long 0x00 3. "           P8E                 ,Even row parity bit 8" "0,1"
textline "                                "
bitfld.long 0x00 2. " P4E                      ,Even column parity bit 4" "0,1"
bitfld.long 0x00 1. "            P2E                 ,Even column parity bit 2" "0,1"
bitfld.long 0x00 0. "           P1E                 ,Even column parity bit 1" "0,1"
wgroup.long 0x1D0++0x3
line.long 0x00 "GPMC_NAND_ADDRESS_i_7,This register is not a true register, only an address location."
hexmask.long 0x00 0.--31. 1. " GPMC_NAND_ADDRESS        ,This register is not a true register, only an address location. Writing data at theGPMC_NAND_ADDRESS_i location places the data as the NAND partial address value on the bus, using a regular asynchronous write access."
wgroup.long 0x1CC++0x3
line.long 0x00 "GPMC_NAND_COMMAND_i_7,This register is not a true register, only an address location."
hexmask.long 0x00 0.--31. 1. " GPMC_NAND_COMMAND        ,This register is not a true register, only an address location. Writing data at theGPMC_NAND_COMMAND_i location places the data as the NAND command value on the bus, using a regular asynchronous write access."
wgroup.long 0x1D4++0x3
line.long 0x00 "GPMC_NAND_DATA_i_7,This register is not a true register,only an address location."
hexmask.long 0x00 0.--31. 1. " GPMC_NAND_DATA           ,This register is not a true register, only an address location. Reading data from theGPMC_NAND_DATA_i location or from any location in the associated chip-select memory region activates an asynchronous read access."
rgroup.long 0x220++0x3
line.long 0x00 "GPMC_ECCj_RESULT_8,ECC result register"
bitfld.long 0x00 27. " P2048O                   ,Odd row parity bit 2048, only used for ECC computed on 512 bytes" "0,1"
bitfld.long 0x00 26. "            P1024O              ,Odd row parity bit 1024" "0,1"
bitfld.long 0x00 25. "           P512O               ,Odd row parity bit 512" "0,1"
textline "                                "
bitfld.long 0x00 24. " P256O                    ,Odd row parity bit 256" "0,1"
bitfld.long 0x00 23. "            P128O               ,Odd row parity bit 128" "0,1"
bitfld.long 0x00 22. "           P64O                ,Odd row parity bit 64" "0,1"
textline "                                "
bitfld.long 0x00 21. " P32O                     ,Odd row parity bit 32" "0,1"
bitfld.long 0x00 20. "            P16O                ,Odd row parity bit 16" "0,1"
bitfld.long 0x00 19. "           P8O                 ,Odd row parity bit 8" "0,1"
textline "                                "
bitfld.long 0x00 18. " P4O                      ,Odd Column Parity bit 4" "0,1"
bitfld.long 0x00 17. "            P2O                 ,Odd Column Parity bit 2" "0,1"
bitfld.long 0x00 16. "           P1O                 ,Odd Column Parity bit 1" "0,1"
textline "                                "
bitfld.long 0x00 11. " P2048E                   ,Even row parity bit 2048, only used for ECC computed on 512 bytes" "0,1"
bitfld.long 0x00 10. "            P1024E              ,Even row parity bit 1024" "0,1"
bitfld.long 0x00 9. "           P512E               ,Even row parity bit 512" "0,1"
textline "                                "
bitfld.long 0x00 8. " P256E                    ,Even row parity bit 256" "0,1"
bitfld.long 0x00 7. "            P128E               ,Even row parity bit 128" "0,1"
bitfld.long 0x00 6. "           P64E                ,Even row parity bit 64" "0,1"
textline "                                "
bitfld.long 0x00 5. " P32E                     ,Even row parity bit 32" "0,1"
bitfld.long 0x00 4. "            P16E                ,Even row parity bit 16" "0,1"
bitfld.long 0x00 3. "           P8E                 ,Even row parity bit 8" "0,1"
textline "                                "
bitfld.long 0x00 2. " P4E                      ,Even column parity bit 4" "0,1"
bitfld.long 0x00 1. "            P2E                 ,Even column parity bit 2" "0,1"
bitfld.long 0x00 0. "           P1E                 ,Even column parity bit 1" "0,1"
tree.end
textline ""
width 23.
rgroup.long 0x0++0x3
line.long 0x00 "GPMC_REVISION,This register contains the IP revision code."
hexmask.long 0x00 0.--31. 1. " REVISION                 ,IP revision"
group.long 0x10++0x3
line.long 0x00 "GPMC_SYSCONFIG,This register controls the various parameters of the interconnect."
bitfld.long 0x00 3.--4. " IDLEMODE                 ,0x0: Force-idle. An idle request is acknowledged unconditionally. - NoIdle. - SmartIdle. - Reserved." "0,NoIdle,SmartIdle,Reserved"
bitfld.long 0x00 1. "      SOFTRESET                ,Software reset. Set this bit to 1 triggers a module reset. This bit is automatically reset by hardware. During reads, it always returns 0. - Normal. - Reset." "Normal,Reset"
bitfld.long 0x00 0. "            AUTOIDLE                 ,Internal interface clock-gating strategy - FreeRun. - AutoRun." "FreeRun,AutoRun"
rgroup.long 0x14++0x3
line.long 0x00 "GPMC_SYSSTATUS,This register provides status information about the module, excluding the interrupt status information."
bitfld.long 0x00 0. " RESETDONE                ,Internal reset monitoring - RstOnGoing. - RstDone." "RstOnGoing,RstDone"
group.long 0x18++0x3
line.long 0x00 "GPMC_IRQSTATUS,This interrupt status register regroups all the status of the module internal events that can generate an interrupt."
bitfld.long 0x00 9. " WAIT1EDGEDETECTIONSTATUS ,Status of the Wait1 Edge Detection interrupt - W1Det0_R. - W1Det0_R. - W1Det1_R. - W1Det1_R." "W1Det0_R,W1Det1_R"
bitfld.long 0x00 8. "       WAIT0EDGEDETECTIONSTATUS ,Status of the Wait0 Edge Detection interrupt - W0Det0_R. - W0Det0_R. - W0Det1_R. - W0Det1_R." "W0Det0_R,W0Det1_R"
bitfld.long 0x00 1. "          TERMINALCOUNTSTATUS      ,Status of the TerminalCountEvent interrupt - TCStat0_R. - TCStat0_R. - TCStat1_R. - TCStat1_R." "TCStat0_R,TCStat1_R"
textline "                                "
bitfld.long 0x00 0. " FIFOEVENTSTATUS          ,Status of the FIFOEvent interrupt - FIFOStat0_R. - FIFOStat0_R. - FIFOStat1_R. - FIFOStat1_R." "FIFOStat0_R,FIFOStat1_R"
group.long 0x1C++0x3
line.long 0x00 "GPMC_IRQENABLE,The interrupt enable register allows to mask/unmask the module internal sources of interrupt, on a event-by-event basis."
bitfld.long 0x00 9. " WAIT1EDGEDETECTIONENABLE ,Enables the Wait1 Edge Detection interrupt - W1Masked. - W1Enabled." "W1Masked,W1Enabled"
bitfld.long 0x00 8. "      WAIT0EDGEDETECTIONENABLE ,Enables the Wait0 Edge Detection interrupt - W0Masked. - W0Enabled." "W0Masked,W0Enabled"
bitfld.long 0x00 1. "         TERMINALCOUNTEVENTENABLE ,Enables TerminalCountEvent interrupt issuing in prefetch or write-posting mode - TCMasked. - TCEnabled." "TCMasked,TCEnabled"
textline "                                "
bitfld.long 0x00 0. " FIFOEVENTENABLE          ,Enables the FIFOEvent interrupt - FIFOMasked. - FIFOEnabled." "FIFOMasked,FIFOEnabled"
group.long 0x40++0x3
line.long 0x00 "GPMC_TIMEOUT_CONTROL,The register allows the user to set the start value of the timeout counter."
hexmask.long.word 0x00 4.--12. 1. " TIMEOUTSTARTVALUE        ,Start value of the time-out counter 0x000: Zero GPMC_FCLK cycle 0x001: One GPMC_FCLK cycle ... 0x1FF: 511 GPMC_FCLK cycles"
bitfld.long 0x00 0. "           TIMEOUTENABLE            ,Enable bit of the TimeOut feature - TODisabled. - TOEnabled." "TODisabled,TOEnabled"
rgroup.long 0x44++0x3
line.long 0x00 "GPMC_ERR_ADDRESS,The register stores the address of the illegal access when an error occurs."
hexmask.long 0x00 0.--30. 1. " ILLEGALADD               ,Address of illegal access A30: 0 for memory region, 1 for GPMC register region A29-A0: 1 GiB maximum"
group.long 0x48++0x3
line.long 0x00 "GPMC_ERR_TYPE,The register stores the type of error when an error occurs."
bitfld.long 0x00 8.--10. " ILLEGALMCMD              ,System command of the transaction that caused the error" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4. "              ERRORNOTSUPPADD          ,Not supported address error - NoErr. - Err." "NoErr,Err"
bitfld.long 0x00 3. "             ERRORNOTSUPPMCMD         ,Not supported command error - NoErr. - Err." "NoErr,Err"
textline "                                "
bitfld.long 0x00 2. " ERRORTIMEOUT             ,Time-out error - NoErr. - Err." "NoErr,Err"
bitfld.long 0x00 0. "          ERRORVALID               ,Error validity status - Must be explicitly cleared with a write 1 transaction - NotValid. - ErrDetect." "NotValid,ErrDetect"
group.long 0x50++0x3
line.long 0x00 "GPMC_CONFIG,The configuration register allows global configuration of the GPMC."
bitfld.long 0x00 9. " WAIT1PINPOLARITY         ,Selects the polarity of input pin WAIT1 - W1ActiveL. - W1ActiveH." "W1ActiveL,W1ActiveH"
bitfld.long 0x00 8. "      WAIT0PINPOLARITY         ,Selects the polarity of input pin WAIT0 - W0ActiveL. - W0ActiveH." "W0ActiveL,W0ActiveH"
bitfld.long 0x00 0. "         NANDFORCEPOSTEDWRITE     ,Enables the Force Posted Write feature to NAND Cmd/Add/Data location - NoForcePWr. - ForcePWr." "NoForcePWr,ForcePWr"
rgroup.long 0x54++0x3
line.long 0x00 "GPMC_STATUS,The status register provides global status bits of the GPMC."
bitfld.long 0x00 9. " WAIT1STATUS              ,Is a copy of input pin WAIT1. (Reset value is WAIT1 input pin sampled at device reset.) - W1ActiveL. - W1ActiveL." "W1ActiveL,W1ActiveL"
bitfld.long 0x00 8. "      WAIT0STATUS              ,Is a copy of input pin WAIT0. (Reset value is WAIT0 input pin sampled at device reset.) - W0ActiveL. - W0ActiveL." "W0ActiveL,W0ActiveL"
bitfld.long 0x00 0. "         EMPTYWRITEBUFFERSTATUS   ,Stores the empty status of the write buffer - b0. - b1." "b0,b1"
group.long 0x1E0++0x3
line.long 0x00 "GPMC_PREFETCH_CONFIG1,Prefetch engine configuration 1"
bitfld.long 0x00 28.--30. " CYCLEOPTIMIZATION        ,Define the number of GPMC_FCLK cycles to be subtracted from RDCYCLETIME, WRCYCLETIME, RDACCESSTIME, CSRDOFFTIME, CSWROFFTIME, ADVRDOFFTIME, ADVWROFFTIME, OEOFFTIME, WEOFFTIME 0x0: 0 GPMC_FCLK cycle 0x1: 1 GPMC_FCLK cycle ... ..." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 27. "              ENABLEOPTIMIZEDACCESS    ,Enables access cycle optimization - OptDisabled. - OptEnabled." "OptDisabled,OptEnabled"
bitfld.long 0x00 24.--26. "       ENGINECSSELECTOR         ,Selects the chip-select where Prefetch Postwrite engine is active 0x0: CS0 0x1: CS1 0x2: CS2 0x3: CS3 0x4: CS4 0x5: CS5 0x6: CS6 0x7: CS7" "0,1,2,3,4,5,6,7"
textline "                                "
bitfld.long 0x00 23. " PFPWENROUNDROBIN         ,Enables the PFPW RoundRobin arbitration - RRDisabled. - RREnabled." "RRDisabled,RREnabled"
bitfld.long 0x00 16.--19. "     PFPWWEIGHTEDPRIO         ,When an arbitration occurs between a DMA and a PFPW engine access, the DMA is always serviced. If the PFPWEnRoundRobin is enabled, 0x0: The next access is granted to the PFPW engine. 0x1: The next two accesses are granted..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 8.--14. 1. "                FIFOTHRESHOLD            ,Selects the maximum number of bytes read from the FIFO or written to the FIFO by the host on a DMA or interrupt request 0x00: 0 byte 0x01: 1 byte ... 0x40: 64 bytes"
textline "                                "
bitfld.long 0x00 7. " ENABLEENGINE             ,Enables the Prefetch Postwite engine - PPDisabled. - PPEnabled." "PPDisabled,PPEnabled"
bitfld.long 0x00 4.--5. "     WAITPINSELECTOR          ,Select which wait pin edge detector should start the engine in synchronized mode - W0. - W1. 0x2, 0x3: Reserved. - W2." "W0,W1,2,3"
bitfld.long 0x00 3. "                SYNCHROMODE              ,Selects when the engine starts the access to chip-select - AtStart. - AtStartAndWait." "AtStart,AtStartAndWait"
textline "                                "
bitfld.long 0x00 2. " DMAMODE                  ,Selects interrupt synchronization or DMA request synchronization - InterruptSync. - DMAReqSync." "InterruptSync,DMAReqSync"
bitfld.long 0x00 0. "  ACCESSMODE               ,Selects prefetch read or write-posting accesses - PrefetchRead. - WritePosting." "PrefetchRead,WritePosting"
group.long 0x1E4++0x3
line.long 0x00 "GPMC_PREFETCH_CONFIG2,Prefetch engine configuration 2"
hexmask.long.word 0x00 0.--13. 1. " TRANSFERCOUNT            ,Selects the number of bytes to be read or written by the engine to the selected chip-select 0x0000: 0 byte 0x0001: 1 byte ... 0x2000: 8 Kbytes"
group.long 0x1EC++0x3
line.long 0x00 "GPMC_PREFETCH_CONTROL,Prefetch engine control"
bitfld.long 0x00 0. " STARTENGINE              ,Resets the FIFO pointer and starts the engine - Stop. - Stop. - Start. - Start." "Stop,Start"
rgroup.long 0x1F0++0x3
line.long 0x00 "GPMC_PREFETCH_STATUS,Prefetch engine status"
hexmask.long.byte 0x00 24.--30. 1. " FIFOPOINTER              ,Number of available bytes to be read or number of free empty byte places to be written 0x00: 0 byte available to be read or 0 free empty place to be written ... 0x40: 64 bytes available to be read or 64 empty places to be wri..."
bitfld.long 0x00 16. "             FIFOTHRESHOLDSTATUS      ,Set when FIFOPointer exceeds FIFOThreshold value - SmallerThanThres. - GreaterThanThres." "SmallerThanThres,GreaterThanThres"
hexmask.long.word 0x00 0.--13. 1. "  COUNTVALUE               ,Number of remaining bytes to be read or to be written by the engine according to the TransferCount value 0x0000: 0 byte remaining to be read or to be written 0x0001: 1 byte remaining to be read or to be written ... 0x2000: 8..."
group.long 0x1F4++0x3
line.long 0x00 "GPMC_ECC_CONFIG,ECC configuration"
bitfld.long 0x00 16. " ECCALGORITHM             ,ECC algorithm used - . - ." "0,1"
bitfld.long 0x00 12.--13. "              ECCBCHTSEL               ,Error correction capability used for BCH - . - . - . - ." "0,1,2,3"
bitfld.long 0x00 8.--11. "                 ECCWRAPMODE              ,Spare area organization definition for the BCH algorithm. See the BCH syndrome/parity calculator module functional specification for more details" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                "
bitfld.long 0x00 7. " ECC16B                   ,Selects an ECC calculated on 16 columns - EightCol. - SixteenCol." "EightCol,SixteenCol"
bitfld.long 0x00 4.--6. "     ECCTOPSECTOR             ,Number of sectors to process with the BCH algorithm 0x0: 1 sector (512-kB page) 0x1: 2 sectors ... 0x3: 4 sectors (2-kB page) ... 0x7: 8 sectors (4-kB page)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 1.--3. "                 ECCCS                    ,Selects the CS where ECC is computed - CS0. - CS1. - CS2. - CS3. Other: Reserved. - CS3." "CS0,CS1,CS2,CS3,4,5,6,7"
textline "                                "
bitfld.long 0x00 0. " ECCENABLE                ,Enables the ECC feature - ECCDisabled. - ECCEnabled." "ECCDisabled,ECCEnabled"
group.long 0x1F8++0x3
line.long 0x00 "GPMC_ECC_CONTROL,ECC control"
bitfld.long 0x00 8. " ECCCLEAR                 ,Clear all ECC result registers Reads return 0. Write 0x1 to this field clears all ECC result registers. Write 0x0 is ignored." "0,1"
bitfld.long 0x00 0.--3. "              ECCPOINTER               ,Selects ECC result register (Reads to this field give the dynamic position of the ECC pointer - Writes to this field select the ECC result register where the first ECC computation will be stored.); Other enums: w..." "NoEffect1,ECCRes1,ECCRes2,ECCRes3,ECCRes4,ECCRes5,ECCRes6,ECCRes7,ECCRes8,ECCRes9,10,11,12,13,14,15"
group.long 0x1FC++0x3
line.long 0x00 "GPMC_ECC_SIZE_CONFIG,ECC size"
hexmask.long.byte 0x00 22.--29. 1. " ECCSIZE1                 ,Defines Hamming code ECC size 1 in bytes 0x00: 2 bytes 0x01: 4 bytes 0x02: 6 bytes 0x03: 8 bytes ... 0xFF: 512 bytes For BCH code ECC, the size 1 is programmed directly with the number of nibbles. For details, see , ."
hexmask.long.byte 0x00 12.--19. 1. "             ECCSIZE0                 ,Defines Hamming code ECC size 0 in bytes 0x00: 2 bytes 0x01: 4 bytes 0x02: 6 bytes 0x03: 8 bytes ... 0xFF: 512 bytes For BCH code ECC, the size 0 is programmed directly with the number of nibbles. For details, see..."
bitfld.long 0x00 8. "                ECC9RESULTSIZE           ,Selects ECC size for ECC 9 result register - Size0Sel. - Size1Sel." "Size0Sel,Size1Sel"
textline "                                "
bitfld.long 0x00 7. " ECC8RESULTSIZE           ,Selects ECC size for ECC 8 result register - Size0Sel. - Size1Sel." "Size0Sel,Size1Sel"
bitfld.long 0x00 6. "       ECC7RESULTSIZE           ,Selects ECC size for ECC 7 result register - Size0Sel. - Size1Sel." "Size0Sel,Size1Sel"
bitfld.long 0x00 5. "          ECC6RESULTSIZE           ,Selects ECC size for ECC 6 result register - Size0Sel. - Size1Sel." "Size0Sel,Size1Sel"
textline "                                "
bitfld.long 0x00 4. " ECC5RESULTSIZE           ,Selects ECC size for ECC 5 result register - Size0Sel. - Size1Sel." "Size0Sel,Size1Sel"
bitfld.long 0x00 3. "       ECC4RESULTSIZE           ,Selects ECC size for ECC 4 result register - Size0Sel. - Size1Sel." "Size0Sel,Size1Sel"
bitfld.long 0x00 2. "          ECC3RESULTSIZE           ,Selects ECC size for ECC 3 result register - Size0Sel. - Size1Sel." "Size0Sel,Size1Sel"
textline "                                "
bitfld.long 0x00 1. " ECC2RESULTSIZE           ,Selects ECC size for ECC 2 result register - Size0Sel. - Size1Sel." "Size0Sel,Size1Sel"
bitfld.long 0x00 0. "       ECC1RESULTSIZE           ,Selects ECC size for ECC 1 result register - Size0Sel. - Size1Sel." "Size0Sel,Size1Sel"
group.long 0x2D0++0x3
line.long 0x00 "GPMC_BCH_SWDATA,This register is used to directly pass data to the BCH ECC calculator without accessing the actual NAND flash interface."
hexmask.long.word 0x00 0.--15. 1. " BCH_DATA                 ,Data to be included in the BCH calculation Only bits 0 to 7 are considered if the calculator is configured to use 8-bit data (GPMC_ECC_CONFIG[7] ECC16B = 0)"
width 0x0B
tree.end
tree.end
tree.open "Error_Location_Module"
tree "ELM"
base ad:0x48078000
tree "Channel_0"
width 29.
rgroup.long 0x880++0x3
line.long 0x00 "ELM_ERROR_LOCATION_0_i_0,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0x8A8++0x3
line.long 0x00 "ELM_ERROR_LOCATION_10_i_0,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0x8AC++0x3
line.long 0x00 "ELM_ERROR_LOCATION_11_i_0,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0x8B0++0x3
line.long 0x00 "ELM_ERROR_LOCATION_12_i_0,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0x8B4++0x3
line.long 0x00 "ELM_ERROR_LOCATION_13_i_0,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0x8B8++0x3
line.long 0x00 "ELM_ERROR_LOCATION_14_i_0,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0x8BC++0x3
line.long 0x00 "ELM_ERROR_LOCATION_15_i_0,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0x884++0x3
line.long 0x00 "ELM_ERROR_LOCATION_1_i_0,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0x888++0x3
line.long 0x00 "ELM_ERROR_LOCATION_2_i_0,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0x88C++0x3
line.long 0x00 "ELM_ERROR_LOCATION_3_i_0,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0x890++0x3
line.long 0x00 "ELM_ERROR_LOCATION_4_i_0,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0x894++0x3
line.long 0x00 "ELM_ERROR_LOCATION_5_i_0,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0x898++0x3
line.long 0x00 "ELM_ERROR_LOCATION_6_i_0,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0x89C++0x3
line.long 0x00 "ELM_ERROR_LOCATION_7_i_0,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0x8A0++0x3
line.long 0x00 "ELM_ERROR_LOCATION_8_i_0,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0x8A4++0x3
line.long 0x00 "ELM_ERROR_LOCATION_9_i_0,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0x800++0x3
line.long 0x00 "ELM_LOCATION_STATUS_i_0,Exit status for the syndrome polynomial processing"
bitfld.long 0x00 8. " ECC_CORRECTABLE    ,Error-location process exit status 0x0: ECC error-location process failed. Number of errors and error locations are invalid. 0x1: All errors were successfully located. Number of errors and error locations are valid." "0,1"
bitfld.long 0x00 0.--4. "         ECC_NB_ERRORS ,Number of errors detected and located" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x400++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_0_i_0,Input syndrome polynomial bits 0 to 31."
hexmask.long 0x00 0.--31. 1. " SYNDROME_0         ,Syndrome bits 0 to 31"
group.long 0x404++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_1_i_0,Input syndrome polynomial bits 32 to 63."
hexmask.long 0x00 0.--31. 1. " SYNDROME_1         ,Syndrome bits 32 to 63"
group.long 0x408++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_2_i_0,Input syndrome polynomial bits 64 to 95."
hexmask.long 0x00 0.--31. 1. " SYNDROME_2         ,Syndrome bits 64 to 95"
group.long 0x40C++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_3_i_0,Input syndrome polynomial bits 96 to 127"
hexmask.long 0x00 0.--31. 1. " SYNDROME_3         ,Syndrome bits 96 to 127"
group.long 0x410++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_4_i_0,Input syndrome polynomial bits 128 to 159."
hexmask.long 0x00 0.--31. 1. " SYNDROME_4         ,Syndrome bits 128 to 159"
group.long 0x414++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_5_i_0,Input syndrome polynomial bits 160 to 191."
hexmask.long 0x00 0.--31. 1. " SYNDROME_5         ,Syndrome bits 160 to 191"
group.long 0x418++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_6_i_0,Input syndrome polynomial bits 192 to 207."
bitfld.long 0x00 16. " SYNDROME_VALID     ,Syndrome valid bit 0x0: This syndrome polynomial must not be processed. 0x1: This syndrome polynomial must be processed." "0,1"
hexmask.long.word 0x00 0.--15. 1. "         SYNDROME_6    ,Syndrome bits 192 to 207"
tree.end
tree "Channel_1"
width 29.
rgroup.long 0x980++0x3
line.long 0x00 "ELM_ERROR_LOCATION_0_i_1,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0x9A8++0x3
line.long 0x00 "ELM_ERROR_LOCATION_10_i_1,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0x9AC++0x3
line.long 0x00 "ELM_ERROR_LOCATION_11_i_1,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0x9B0++0x3
line.long 0x00 "ELM_ERROR_LOCATION_12_i_1,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0x9B4++0x3
line.long 0x00 "ELM_ERROR_LOCATION_13_i_1,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0x9B8++0x3
line.long 0x00 "ELM_ERROR_LOCATION_14_i_1,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0x9BC++0x3
line.long 0x00 "ELM_ERROR_LOCATION_15_i_1,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0x984++0x3
line.long 0x00 "ELM_ERROR_LOCATION_1_i_1,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0x988++0x3
line.long 0x00 "ELM_ERROR_LOCATION_2_i_1,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0x98C++0x3
line.long 0x00 "ELM_ERROR_LOCATION_3_i_1,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0x990++0x3
line.long 0x00 "ELM_ERROR_LOCATION_4_i_1,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0x994++0x3
line.long 0x00 "ELM_ERROR_LOCATION_5_i_1,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0x998++0x3
line.long 0x00 "ELM_ERROR_LOCATION_6_i_1,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0x99C++0x3
line.long 0x00 "ELM_ERROR_LOCATION_7_i_1,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0x9A0++0x3
line.long 0x00 "ELM_ERROR_LOCATION_8_i_1,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0x9A4++0x3
line.long 0x00 "ELM_ERROR_LOCATION_9_i_1,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0x900++0x3
line.long 0x00 "ELM_LOCATION_STATUS_i_1,Exit status for the syndrome polynomial processing"
bitfld.long 0x00 8. " ECC_CORRECTABLE    ,Error-location process exit status 0x0: ECC error-location process failed. Number of errors and error locations are invalid. 0x1: All errors were successfully located. Number of errors and error locations are valid." "0,1"
bitfld.long 0x00 0.--4. "         ECC_NB_ERRORS ,Number of errors detected and located" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x440++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_0_i_1,Input syndrome polynomial bits 0 to 31."
hexmask.long 0x00 0.--31. 1. " SYNDROME_0         ,Syndrome bits 0 to 31"
group.long 0x444++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_1_i_1,Input syndrome polynomial bits 32 to 63."
hexmask.long 0x00 0.--31. 1. " SYNDROME_1         ,Syndrome bits 32 to 63"
group.long 0x448++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_2_i_1,Input syndrome polynomial bits 64 to 95."
hexmask.long 0x00 0.--31. 1. " SYNDROME_2         ,Syndrome bits 64 to 95"
group.long 0x44C++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_3_i_1,Input syndrome polynomial bits 96 to 127"
hexmask.long 0x00 0.--31. 1. " SYNDROME_3         ,Syndrome bits 96 to 127"
group.long 0x450++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_4_i_1,Input syndrome polynomial bits 128 to 159."
hexmask.long 0x00 0.--31. 1. " SYNDROME_4         ,Syndrome bits 128 to 159"
group.long 0x454++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_5_i_1,Input syndrome polynomial bits 160 to 191."
hexmask.long 0x00 0.--31. 1. " SYNDROME_5         ,Syndrome bits 160 to 191"
group.long 0x458++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_6_i_1,Input syndrome polynomial bits 192 to 207."
bitfld.long 0x00 16. " SYNDROME_VALID     ,Syndrome valid bit 0x0: This syndrome polynomial must not be processed. 0x1: This syndrome polynomial must be processed." "0,1"
hexmask.long.word 0x00 0.--15. 1. "         SYNDROME_6    ,Syndrome bits 192 to 207"
tree.end
tree "Channel_2"
width 29.
rgroup.long 0xA80++0x3
line.long 0x00 "ELM_ERROR_LOCATION_0_i_2,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xAA8++0x3
line.long 0x00 "ELM_ERROR_LOCATION_10_i_2,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xAAC++0x3
line.long 0x00 "ELM_ERROR_LOCATION_11_i_2,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xAB0++0x3
line.long 0x00 "ELM_ERROR_LOCATION_12_i_2,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xAB4++0x3
line.long 0x00 "ELM_ERROR_LOCATION_13_i_2,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xAB8++0x3
line.long 0x00 "ELM_ERROR_LOCATION_14_i_2,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xABC++0x3
line.long 0x00 "ELM_ERROR_LOCATION_15_i_2,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xA84++0x3
line.long 0x00 "ELM_ERROR_LOCATION_1_i_2,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xA88++0x3
line.long 0x00 "ELM_ERROR_LOCATION_2_i_2,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xA8C++0x3
line.long 0x00 "ELM_ERROR_LOCATION_3_i_2,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xA90++0x3
line.long 0x00 "ELM_ERROR_LOCATION_4_i_2,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xA94++0x3
line.long 0x00 "ELM_ERROR_LOCATION_5_i_2,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xA98++0x3
line.long 0x00 "ELM_ERROR_LOCATION_6_i_2,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xA9C++0x3
line.long 0x00 "ELM_ERROR_LOCATION_7_i_2,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xAA0++0x3
line.long 0x00 "ELM_ERROR_LOCATION_8_i_2,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xAA4++0x3
line.long 0x00 "ELM_ERROR_LOCATION_9_i_2,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xA00++0x3
line.long 0x00 "ELM_LOCATION_STATUS_i_2,Exit status for the syndrome polynomial processing"
bitfld.long 0x00 8. " ECC_CORRECTABLE    ,Error-location process exit status 0x0: ECC error-location process failed. Number of errors and error locations are invalid. 0x1: All errors were successfully located. Number of errors and error locations are valid." "0,1"
bitfld.long 0x00 0.--4. "         ECC_NB_ERRORS ,Number of errors detected and located" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x480++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_0_i_2,Input syndrome polynomial bits 0 to 31."
hexmask.long 0x00 0.--31. 1. " SYNDROME_0         ,Syndrome bits 0 to 31"
group.long 0x484++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_1_i_2,Input syndrome polynomial bits 32 to 63."
hexmask.long 0x00 0.--31. 1. " SYNDROME_1         ,Syndrome bits 32 to 63"
group.long 0x488++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_2_i_2,Input syndrome polynomial bits 64 to 95."
hexmask.long 0x00 0.--31. 1. " SYNDROME_2         ,Syndrome bits 64 to 95"
group.long 0x48C++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_3_i_2,Input syndrome polynomial bits 96 to 127"
hexmask.long 0x00 0.--31. 1. " SYNDROME_3         ,Syndrome bits 96 to 127"
group.long 0x490++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_4_i_2,Input syndrome polynomial bits 128 to 159."
hexmask.long 0x00 0.--31. 1. " SYNDROME_4         ,Syndrome bits 128 to 159"
group.long 0x494++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_5_i_2,Input syndrome polynomial bits 160 to 191."
hexmask.long 0x00 0.--31. 1. " SYNDROME_5         ,Syndrome bits 160 to 191"
group.long 0x498++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_6_i_2,Input syndrome polynomial bits 192 to 207."
bitfld.long 0x00 16. " SYNDROME_VALID     ,Syndrome valid bit 0x0: This syndrome polynomial must not be processed. 0x1: This syndrome polynomial must be processed." "0,1"
hexmask.long.word 0x00 0.--15. 1. "         SYNDROME_6    ,Syndrome bits 192 to 207"
tree.end
tree "Channel_3"
width 29.
rgroup.long 0xB80++0x3
line.long 0x00 "ELM_ERROR_LOCATION_0_i_3,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xBA8++0x3
line.long 0x00 "ELM_ERROR_LOCATION_10_i_3,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xBAC++0x3
line.long 0x00 "ELM_ERROR_LOCATION_11_i_3,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xBB0++0x3
line.long 0x00 "ELM_ERROR_LOCATION_12_i_3,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xBB4++0x3
line.long 0x00 "ELM_ERROR_LOCATION_13_i_3,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xBB8++0x3
line.long 0x00 "ELM_ERROR_LOCATION_14_i_3,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xBBC++0x3
line.long 0x00 "ELM_ERROR_LOCATION_15_i_3,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xB84++0x3
line.long 0x00 "ELM_ERROR_LOCATION_1_i_3,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xB88++0x3
line.long 0x00 "ELM_ERROR_LOCATION_2_i_3,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xB8C++0x3
line.long 0x00 "ELM_ERROR_LOCATION_3_i_3,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xB90++0x3
line.long 0x00 "ELM_ERROR_LOCATION_4_i_3,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xB94++0x3
line.long 0x00 "ELM_ERROR_LOCATION_5_i_3,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xB98++0x3
line.long 0x00 "ELM_ERROR_LOCATION_6_i_3,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xB9C++0x3
line.long 0x00 "ELM_ERROR_LOCATION_7_i_3,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xBA0++0x3
line.long 0x00 "ELM_ERROR_LOCATION_8_i_3,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xBA4++0x3
line.long 0x00 "ELM_ERROR_LOCATION_9_i_3,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xB00++0x3
line.long 0x00 "ELM_LOCATION_STATUS_i_3,Exit status for the syndrome polynomial processing"
bitfld.long 0x00 8. " ECC_CORRECTABLE    ,Error-location process exit status 0x0: ECC error-location process failed. Number of errors and error locations are invalid. 0x1: All errors were successfully located. Number of errors and error locations are valid." "0,1"
bitfld.long 0x00 0.--4. "         ECC_NB_ERRORS ,Number of errors detected and located" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x4C0++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_0_i_3,Input syndrome polynomial bits 0 to 31."
hexmask.long 0x00 0.--31. 1. " SYNDROME_0         ,Syndrome bits 0 to 31"
group.long 0x4C4++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_1_i_3,Input syndrome polynomial bits 32 to 63."
hexmask.long 0x00 0.--31. 1. " SYNDROME_1         ,Syndrome bits 32 to 63"
group.long 0x4C8++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_2_i_3,Input syndrome polynomial bits 64 to 95."
hexmask.long 0x00 0.--31. 1. " SYNDROME_2         ,Syndrome bits 64 to 95"
group.long 0x4CC++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_3_i_3,Input syndrome polynomial bits 96 to 127"
hexmask.long 0x00 0.--31. 1. " SYNDROME_3         ,Syndrome bits 96 to 127"
group.long 0x4D0++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_4_i_3,Input syndrome polynomial bits 128 to 159."
hexmask.long 0x00 0.--31. 1. " SYNDROME_4         ,Syndrome bits 128 to 159"
group.long 0x4D4++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_5_i_3,Input syndrome polynomial bits 160 to 191."
hexmask.long 0x00 0.--31. 1. " SYNDROME_5         ,Syndrome bits 160 to 191"
group.long 0x4D8++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_6_i_3,Input syndrome polynomial bits 192 to 207."
bitfld.long 0x00 16. " SYNDROME_VALID     ,Syndrome valid bit 0x0: This syndrome polynomial must not be processed. 0x1: This syndrome polynomial must be processed." "0,1"
hexmask.long.word 0x00 0.--15. 1. "         SYNDROME_6    ,Syndrome bits 192 to 207"
tree.end
tree "Channel_4"
width 29.
rgroup.long 0xC80++0x3
line.long 0x00 "ELM_ERROR_LOCATION_0_i_4,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xCA8++0x3
line.long 0x00 "ELM_ERROR_LOCATION_10_i_4,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xCAC++0x3
line.long 0x00 "ELM_ERROR_LOCATION_11_i_4,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xCB0++0x3
line.long 0x00 "ELM_ERROR_LOCATION_12_i_4,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xCB4++0x3
line.long 0x00 "ELM_ERROR_LOCATION_13_i_4,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xCB8++0x3
line.long 0x00 "ELM_ERROR_LOCATION_14_i_4,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xCBC++0x3
line.long 0x00 "ELM_ERROR_LOCATION_15_i_4,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xC84++0x3
line.long 0x00 "ELM_ERROR_LOCATION_1_i_4,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xC88++0x3
line.long 0x00 "ELM_ERROR_LOCATION_2_i_4,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xC8C++0x3
line.long 0x00 "ELM_ERROR_LOCATION_3_i_4,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xC90++0x3
line.long 0x00 "ELM_ERROR_LOCATION_4_i_4,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xC94++0x3
line.long 0x00 "ELM_ERROR_LOCATION_5_i_4,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xC98++0x3
line.long 0x00 "ELM_ERROR_LOCATION_6_i_4,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xC9C++0x3
line.long 0x00 "ELM_ERROR_LOCATION_7_i_4,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xCA0++0x3
line.long 0x00 "ELM_ERROR_LOCATION_8_i_4,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xCA4++0x3
line.long 0x00 "ELM_ERROR_LOCATION_9_i_4,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xC00++0x3
line.long 0x00 "ELM_LOCATION_STATUS_i_4,Exit status for the syndrome polynomial processing"
bitfld.long 0x00 8. " ECC_CORRECTABLE    ,Error-location process exit status 0x0: ECC error-location process failed. Number of errors and error locations are invalid. 0x1: All errors were successfully located. Number of errors and error locations are valid." "0,1"
bitfld.long 0x00 0.--4. "         ECC_NB_ERRORS ,Number of errors detected and located" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x500++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_0_i_4,Input syndrome polynomial bits 0 to 31."
hexmask.long 0x00 0.--31. 1. " SYNDROME_0         ,Syndrome bits 0 to 31"
group.long 0x504++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_1_i_4,Input syndrome polynomial bits 32 to 63."
hexmask.long 0x00 0.--31. 1. " SYNDROME_1         ,Syndrome bits 32 to 63"
group.long 0x508++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_2_i_4,Input syndrome polynomial bits 64 to 95."
hexmask.long 0x00 0.--31. 1. " SYNDROME_2         ,Syndrome bits 64 to 95"
group.long 0x50C++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_3_i_4,Input syndrome polynomial bits 96 to 127"
hexmask.long 0x00 0.--31. 1. " SYNDROME_3         ,Syndrome bits 96 to 127"
group.long 0x510++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_4_i_4,Input syndrome polynomial bits 128 to 159."
hexmask.long 0x00 0.--31. 1. " SYNDROME_4         ,Syndrome bits 128 to 159"
group.long 0x514++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_5_i_4,Input syndrome polynomial bits 160 to 191."
hexmask.long 0x00 0.--31. 1. " SYNDROME_5         ,Syndrome bits 160 to 191"
group.long 0x518++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_6_i_4,Input syndrome polynomial bits 192 to 207."
bitfld.long 0x00 16. " SYNDROME_VALID     ,Syndrome valid bit 0x0: This syndrome polynomial must not be processed. 0x1: This syndrome polynomial must be processed." "0,1"
hexmask.long.word 0x00 0.--15. 1. "         SYNDROME_6    ,Syndrome bits 192 to 207"
tree.end
tree "Channel_5"
width 29.
rgroup.long 0xD80++0x3
line.long 0x00 "ELM_ERROR_LOCATION_0_i_5,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xDA8++0x3
line.long 0x00 "ELM_ERROR_LOCATION_10_i_5,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xDAC++0x3
line.long 0x00 "ELM_ERROR_LOCATION_11_i_5,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xDB0++0x3
line.long 0x00 "ELM_ERROR_LOCATION_12_i_5,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xDB4++0x3
line.long 0x00 "ELM_ERROR_LOCATION_13_i_5,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xDB8++0x3
line.long 0x00 "ELM_ERROR_LOCATION_14_i_5,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xDBC++0x3
line.long 0x00 "ELM_ERROR_LOCATION_15_i_5,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xD84++0x3
line.long 0x00 "ELM_ERROR_LOCATION_1_i_5,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xD88++0x3
line.long 0x00 "ELM_ERROR_LOCATION_2_i_5,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xD8C++0x3
line.long 0x00 "ELM_ERROR_LOCATION_3_i_5,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xD90++0x3
line.long 0x00 "ELM_ERROR_LOCATION_4_i_5,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xD94++0x3
line.long 0x00 "ELM_ERROR_LOCATION_5_i_5,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xD98++0x3
line.long 0x00 "ELM_ERROR_LOCATION_6_i_5,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xD9C++0x3
line.long 0x00 "ELM_ERROR_LOCATION_7_i_5,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xDA0++0x3
line.long 0x00 "ELM_ERROR_LOCATION_8_i_5,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xDA4++0x3
line.long 0x00 "ELM_ERROR_LOCATION_9_i_5,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xD00++0x3
line.long 0x00 "ELM_LOCATION_STATUS_i_5,Exit status for the syndrome polynomial processing"
bitfld.long 0x00 8. " ECC_CORRECTABLE    ,Error-location process exit status 0x0: ECC error-location process failed. Number of errors and error locations are invalid. 0x1: All errors were successfully located. Number of errors and error locations are valid." "0,1"
bitfld.long 0x00 0.--4. "         ECC_NB_ERRORS ,Number of errors detected and located" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x540++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_0_i_5,Input syndrome polynomial bits 0 to 31."
hexmask.long 0x00 0.--31. 1. " SYNDROME_0         ,Syndrome bits 0 to 31"
group.long 0x544++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_1_i_5,Input syndrome polynomial bits 32 to 63."
hexmask.long 0x00 0.--31. 1. " SYNDROME_1         ,Syndrome bits 32 to 63"
group.long 0x548++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_2_i_5,Input syndrome polynomial bits 64 to 95."
hexmask.long 0x00 0.--31. 1. " SYNDROME_2         ,Syndrome bits 64 to 95"
group.long 0x54C++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_3_i_5,Input syndrome polynomial bits 96 to 127"
hexmask.long 0x00 0.--31. 1. " SYNDROME_3         ,Syndrome bits 96 to 127"
group.long 0x550++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_4_i_5,Input syndrome polynomial bits 128 to 159."
hexmask.long 0x00 0.--31. 1. " SYNDROME_4         ,Syndrome bits 128 to 159"
group.long 0x554++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_5_i_5,Input syndrome polynomial bits 160 to 191."
hexmask.long 0x00 0.--31. 1. " SYNDROME_5         ,Syndrome bits 160 to 191"
group.long 0x558++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_6_i_5,Input syndrome polynomial bits 192 to 207."
bitfld.long 0x00 16. " SYNDROME_VALID     ,Syndrome valid bit 0x0: This syndrome polynomial must not be processed. 0x1: This syndrome polynomial must be processed." "0,1"
hexmask.long.word 0x00 0.--15. 1. "         SYNDROME_6    ,Syndrome bits 192 to 207"
tree.end
tree "Channel_6"
width 29.
rgroup.long 0xE80++0x3
line.long 0x00 "ELM_ERROR_LOCATION_0_i_6,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xEA8++0x3
line.long 0x00 "ELM_ERROR_LOCATION_10_i_6,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xEAC++0x3
line.long 0x00 "ELM_ERROR_LOCATION_11_i_6,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xEB0++0x3
line.long 0x00 "ELM_ERROR_LOCATION_12_i_6,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xEB4++0x3
line.long 0x00 "ELM_ERROR_LOCATION_13_i_6,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xEB8++0x3
line.long 0x00 "ELM_ERROR_LOCATION_14_i_6,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xEBC++0x3
line.long 0x00 "ELM_ERROR_LOCATION_15_i_6,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xE84++0x3
line.long 0x00 "ELM_ERROR_LOCATION_1_i_6,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xE88++0x3
line.long 0x00 "ELM_ERROR_LOCATION_2_i_6,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xE8C++0x3
line.long 0x00 "ELM_ERROR_LOCATION_3_i_6,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xE90++0x3
line.long 0x00 "ELM_ERROR_LOCATION_4_i_6,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xE94++0x3
line.long 0x00 "ELM_ERROR_LOCATION_5_i_6,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xE98++0x3
line.long 0x00 "ELM_ERROR_LOCATION_6_i_6,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xE9C++0x3
line.long 0x00 "ELM_ERROR_LOCATION_7_i_6,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xEA0++0x3
line.long 0x00 "ELM_ERROR_LOCATION_8_i_6,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xEA4++0x3
line.long 0x00 "ELM_ERROR_LOCATION_9_i_6,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xE00++0x3
line.long 0x00 "ELM_LOCATION_STATUS_i_6,Exit status for the syndrome polynomial processing"
bitfld.long 0x00 8. " ECC_CORRECTABLE    ,Error-location process exit status 0x0: ECC error-location process failed. Number of errors and error locations are invalid. 0x1: All errors were successfully located. Number of errors and error locations are valid." "0,1"
bitfld.long 0x00 0.--4. "         ECC_NB_ERRORS ,Number of errors detected and located" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x580++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_0_i_6,Input syndrome polynomial bits 0 to 31."
hexmask.long 0x00 0.--31. 1. " SYNDROME_0         ,Syndrome bits 0 to 31"
group.long 0x584++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_1_i_6,Input syndrome polynomial bits 32 to 63."
hexmask.long 0x00 0.--31. 1. " SYNDROME_1         ,Syndrome bits 32 to 63"
group.long 0x588++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_2_i_6,Input syndrome polynomial bits 64 to 95."
hexmask.long 0x00 0.--31. 1. " SYNDROME_2         ,Syndrome bits 64 to 95"
group.long 0x58C++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_3_i_6,Input syndrome polynomial bits 96 to 127"
hexmask.long 0x00 0.--31. 1. " SYNDROME_3         ,Syndrome bits 96 to 127"
group.long 0x590++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_4_i_6,Input syndrome polynomial bits 128 to 159."
hexmask.long 0x00 0.--31. 1. " SYNDROME_4         ,Syndrome bits 128 to 159"
group.long 0x594++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_5_i_6,Input syndrome polynomial bits 160 to 191."
hexmask.long 0x00 0.--31. 1. " SYNDROME_5         ,Syndrome bits 160 to 191"
group.long 0x598++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_6_i_6,Input syndrome polynomial bits 192 to 207."
bitfld.long 0x00 16. " SYNDROME_VALID     ,Syndrome valid bit 0x0: This syndrome polynomial must not be processed. 0x1: This syndrome polynomial must be processed." "0,1"
hexmask.long.word 0x00 0.--15. 1. "         SYNDROME_6    ,Syndrome bits 192 to 207"
tree.end
tree "Channel_7"
width 29.
rgroup.long 0xF80++0x3
line.long 0x00 "ELM_ERROR_LOCATION_0_i_7,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xFA8++0x3
line.long 0x00 "ELM_ERROR_LOCATION_10_i_7,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xFAC++0x3
line.long 0x00 "ELM_ERROR_LOCATION_11_i_7,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xFB0++0x3
line.long 0x00 "ELM_ERROR_LOCATION_12_i_7,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xFB4++0x3
line.long 0x00 "ELM_ERROR_LOCATION_13_i_7,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xFB8++0x3
line.long 0x00 "ELM_ERROR_LOCATION_14_i_7,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xFBC++0x3
line.long 0x00 "ELM_ERROR_LOCATION_15_i_7,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xF84++0x3
line.long 0x00 "ELM_ERROR_LOCATION_1_i_7,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xF88++0x3
line.long 0x00 "ELM_ERROR_LOCATION_2_i_7,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xF8C++0x3
line.long 0x00 "ELM_ERROR_LOCATION_3_i_7,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xF90++0x3
line.long 0x00 "ELM_ERROR_LOCATION_4_i_7,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xF94++0x3
line.long 0x00 "ELM_ERROR_LOCATION_5_i_7,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xF98++0x3
line.long 0x00 "ELM_ERROR_LOCATION_6_i_7,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xF9C++0x3
line.long 0x00 "ELM_ERROR_LOCATION_7_i_7,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xFA0++0x3
line.long 0x00 "ELM_ERROR_LOCATION_8_i_7,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xFA4++0x3
line.long 0x00 "ELM_ERROR_LOCATION_9_i_7,Error-location register"
hexmask.long.word 0x00 0.--12. 1. " ECC_ERROR_LOCATION ,Error-location bit address"
rgroup.long 0xF00++0x3
line.long 0x00 "ELM_LOCATION_STATUS_i_7,Exit status for the syndrome polynomial processing"
bitfld.long 0x00 8. " ECC_CORRECTABLE    ,Error-location process exit status 0x0: ECC error-location process failed. Number of errors and error locations are invalid. 0x1: All errors were successfully located. Number of errors and error locations are valid." "0,1"
bitfld.long 0x00 0.--4. "         ECC_NB_ERRORS ,Number of errors detected and located" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x5C0++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_0_i_7,Input syndrome polynomial bits 0 to 31."
hexmask.long 0x00 0.--31. 1. " SYNDROME_0         ,Syndrome bits 0 to 31"
group.long 0x5C4++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_1_i_7,Input syndrome polynomial bits 32 to 63."
hexmask.long 0x00 0.--31. 1. " SYNDROME_1         ,Syndrome bits 32 to 63"
group.long 0x5C8++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_2_i_7,Input syndrome polynomial bits 64 to 95."
hexmask.long 0x00 0.--31. 1. " SYNDROME_2         ,Syndrome bits 64 to 95"
group.long 0x5CC++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_3_i_7,Input syndrome polynomial bits 96 to 127"
hexmask.long 0x00 0.--31. 1. " SYNDROME_3         ,Syndrome bits 96 to 127"
group.long 0x5D0++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_4_i_7,Input syndrome polynomial bits 128 to 159."
hexmask.long 0x00 0.--31. 1. " SYNDROME_4         ,Syndrome bits 128 to 159"
group.long 0x5D4++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_5_i_7,Input syndrome polynomial bits 160 to 191."
hexmask.long 0x00 0.--31. 1. " SYNDROME_5         ,Syndrome bits 160 to 191"
group.long 0x5D8++0x3
line.long 0x00 "ELM_SYNDROME_FRAGMENT_6_i_7,Input syndrome polynomial bits 192 to 207."
bitfld.long 0x00 16. " SYNDROME_VALID     ,Syndrome valid bit 0x0: This syndrome polynomial must not be processed. 0x1: This syndrome polynomial must be processed." "0,1"
hexmask.long.word 0x00 0.--15. 1. "         SYNDROME_6    ,Syndrome bits 192 to 207"
tree.end
textline ""
width 21.
rgroup.long 0x0++0x3
line.long 0x00 "ELM_REVISION,This register contains the IP revision code. (A write or reset of to this register has no effect.)"
hexmask.long 0x00 0.--31. 1. " REVISION         ,IP Revision (TI internal data)"
group.long 0x10++0x3
line.long 0x00 "ELM_SYSCONFIG,This register allows controlling various parameters of the OCP interface."
bitfld.long 0x00 8. " CLOCKACTIVITYOCP ,OCP clock activity when module is in IDLE mode (during wake-up mode period) - OCP_OFF. - OCP_ON." "OCP_OFF,OCP_ON"
bitfld.long 0x00 3.--4. "      SIDLEMODE       ,Slave interface power management (IDLE req/ack control) - FORCE_IDLE. - NO_IDLE. - SMART_IDLE. - RESERVED." "FORCE_IDLE,NO_IDLE,SMART_IDLE,RESERVED"
bitfld.long 0x00 1. "  SOFTRESET       ,Module software reset This bit is automatically reset by hardware (during reads, it always returns 0). It has same effect as the OCP hardware reset. - NORMAL. - RESET." "NORMAL,RESET"
textline "                              "
bitfld.long 0x00 0. " AUTOGATING       ,Internal OCP clock gating strategy (no module visible effect other than saving power) - OCP_FREE. - OCP_GATING." "OCP_FREE,OCP_GATING"
rgroup.long 0x14++0x3
line.long 0x00 "ELM_SYSSTATUS,Internal reset monitoring (OCP domain) Undefined since: From hardware perspective, the reset state is 0. From software user perspective, when the accessible module is 1."
bitfld.long 0x00 0. " RESETDONE        ,Internal reset monitoring (OCP domain) Undefined since: From hardware perspective, the reset state is 0. From software user perspective, when the accessible module is 1. - RST_ONGOING. - RST_DONE." "RST_ONGOING,RST_DONE"
group.long 0x18++0x3
line.long 0x00 "ELM_IRQSTATUS,Interrupt status. This register doubles as a status register for the error-location processes."
bitfld.long 0x00 8. " PAGE_VALID       ,Error-location status for a full page, based on the mask definition Read 0x0: Error locations invalid for all polynomials enabled in the ECC_INTERRUPT_MASK register Read 0x1: All error locations valid Write 0x0: No effect Write 0x1: ..." "0,1"
eventfld.long 0x00 7. "            LOC_VALID_7     ,Error-location status for syndrome polynomial 7 Read 0x0: No syndrome processed or process in progress Read 0x1: Error-location process completed Write 0x0: No effect Write 0x1: Clear interrupt" "0,1"
eventfld.long 0x00 6. "           LOC_VALID_6     ,Error-location status for syndrome polynomial 6" "0,1"
textline "                              "
eventfld.long 0x00 5. " LOC_VALID_5      ,Error-location status for syndrome polynomial 5" "0,1"
eventfld.long 0x00 4. "            LOC_VALID_4     ,Error-location status for syndrome polynomial 4" "0,1"
eventfld.long 0x00 3. "           LOC_VALID_3     ,Error-location status for syndrome polynomial 3" "0,1"
textline "                              "
eventfld.long 0x00 2. " LOC_VALID_2      ,Error-location status for syndrome polynomial 2" "0,1"
eventfld.long 0x00 1. "            LOC_VALID_1     ,Error-location status for syndrome polynomial 1" "0,1"
eventfld.long 0x00 0. "           LOC_VALID_0     ,Error-location status for syndrome polynomial 0" "0,1"
group.long 0x1C++0x3
line.long 0x00 "ELM_IRQENABLE,Interrupt enable"
bitfld.long 0x00 8. " PAGE_MASK        ,Page interrupt mask bit 0: Disable interrupt 1: Enable interrupt" "0,1"
bitfld.long 0x00 7. "            LOCATION_MASK_7 ,Error-location interrupt mask bit for syndrome polynomial 7" "0,1"
bitfld.long 0x00 6. "           LOCATION_MASK_6 ,Error-location interrupt mask bit for syndrome polynomial 6" "0,1"
textline "                              "
bitfld.long 0x00 5. " LOCATION_MASK_5  ,Error-location interrupt mask bit for syndrome polynomial 5" "0,1"
bitfld.long 0x00 4. "            LOCATION_MASK_4 ,Error-location interrupt mask bit for syndrome polynomial 4" "0,1"
bitfld.long 0x00 3. "           LOCATION_MASK_3 ,Error-location interrupt mask bit for syndrome polynomial 3" "0,1"
textline "                              "
bitfld.long 0x00 2. " LOCATION_MASK_2  ,Error-location interrupt mask bit for syndrome polynomial 2" "0,1"
bitfld.long 0x00 1. "            LOCATION_MASK_1 ,Error-location interrupt mask bit for syndrome polynomial 1" "0,1"
bitfld.long 0x00 0. "           LOCATION_MASK_0 ,Error-location interrupt mask bit for syndrome polynomial 0 0: Disable interrupt 1: Enable interrupt" "0,1"
group.long 0x20++0x3
line.long 0x00 "ELM_LOCATION_CONFIG,ECC algorithm parameters"
hexmask.long.word 0x00 16.--26. 1. " ECC_SIZE         ,Maximum size of the buffers for which the error-location engine is used, in number of nibbles (4-bit entities)"
bitfld.long 0x00 0.--1. "         ECC_BCH_LEVEL   ,Error correction level 0x0: 4 bits 0x1: 8 bits 0x2: 16 bits 0x3: Reserved" "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "ELM_PAGE_CTRL,Page definition"
bitfld.long 0x00 7. " SECTOR_7         ,Set to 1 if syndrome polynomial 7 is part of the page in page mode. Must be 0 in continuous mode." "0,1"
bitfld.long 0x00 6. "            SECTOR_6        ,Set to 1 if syndrome polynomial 6 is part of the page in page mode. Must be 0 in continuous mode." "0,1"
bitfld.long 0x00 5. "           SECTOR_5        ,Set to 1 if syndrome polynomial 5 is part of the page in page mode. Must be 0 in continuous mode." "0,1"
textline "                              "
bitfld.long 0x00 4. " SECTOR_4         ,Set to 1 if syndrome polynomial 4 is part of the page in page mode. Must be 0 in continuous mode." "0,1"
bitfld.long 0x00 3. "            SECTOR_3        ,Set to 1 if syndrome polynomial 3 is part of the page in page mode. Must be 0 in continuous mode." "0,1"
bitfld.long 0x00 2. "           SECTOR_2        ,Set to 1 if syndrome polynomial 2 is part of the page in page mode. Must be 0 in continuous mode." "0,1"
textline "                              "
bitfld.long 0x00 1. " SECTOR_1         ,Set to 1 if syndrome polynomial 1 is part of the page in page mode. Must be 0 in continuous mode." "0,1"
bitfld.long 0x00 0. "            SECTOR_0        ,Set to 1 if syndrome polynomial 0 is part of the page in page mode. Must be 0 in continuous mode." "0,1"
width 0x0B
tree.end
tree.end
tree.open "On_Chip_Memory_OCM"
tree.open "OCMC_RAM1"
tree "OCMC_RAM1"
base ad:0x48804000
tree "Channel_0"
width 26.
group.long 0x24C++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_0,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x248++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_0,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x244++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_0,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x240++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_0,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x304++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_0,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x300++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_0,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
tree "Channel_1"
width 26.
group.long 0x262++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_1,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x25E++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_1,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x25A++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_1,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x256++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_1,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x30C++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_1,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x308++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_1,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
tree "Channel_2"
width 26.
group.long 0x278++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_2,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x274++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_2,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x270++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_2,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x26C++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_2,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x314++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_2,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x310++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_2,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
tree "Channel_3"
width 26.
group.long 0x28E++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_3,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x28A++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_3,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x286++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_3,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x282++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_3,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x31C++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_3,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x318++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_3,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
tree "Channel_4"
width 26.
group.long 0x2A4++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_4,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x2A0++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_4,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x29C++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_4,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x298++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_4,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x324++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_4,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x320++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_4,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
tree "Channel_5"
width 26.
group.long 0x2BA++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_5,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x2B6++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_5,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x2B2++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_5,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x2AE++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_5,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x32C++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_5,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x328++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_5,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
tree "Channel_6"
width 26.
group.long 0x2D0++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_6,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x2CC++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_6,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x2C8++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_6,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x2C4++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_6,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x334++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_6,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x330++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_6,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
tree "Channel_7"
width 26.
group.long 0x2E6++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_7,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x2E2++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_7,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x2DE++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_7,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x2DA++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_7,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x33C++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_7,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x338++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_7,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
tree "Channel_8"
width 26.
group.long 0x2FC++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_8,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x2F8++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_8,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x2F4++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_8,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x2F0++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_8,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x344++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_8,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x340++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_8,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
tree "Channel_9"
width 26.
group.long 0x312++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_9,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x30E++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_9,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x30A++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_9,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x306++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_9,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x34C++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_9,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x348++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_9,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
tree "Channel_10"
width 27.
group.long 0x328++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_10,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x324++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_10,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x320++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_10,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x31C++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_10,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x354++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_10,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x350++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_10,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
tree "Channel_11"
width 27.
group.long 0x33E++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_11,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x33A++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_11,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x336++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_11,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x332++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_11,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x35C++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_11,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x358++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_11,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
textline ""
width 37.
rgroup.long 0x0++0x3
line.long 0x00 "OCMC_ECC_PID,"
hexmask.long 0x00 0.--31. 1. " REVISION                          ,TI internal data"
group.long 0x4++0x3
line.long 0x00 "OCMC_SYSCONFIG_PM,"
bitfld.long 0x00 2.--3. " IDLEMODE                          ,Configuration of the local target state management mode. By definition, target can handle read/write transaction as long as it is out of IDLE state. - . - . - . - ." "0,1,2,3"
group.long 0x8++0x3
line.long 0x00 "OCMC_SYSCONFIG_RST,"
bitfld.long 0x00 0. " SW_RST                            ,Software reset of the OCM controller configuration and history logic (does not reset L4 interface) - NORMAL_OP. - RESET." "NORMAL_OP,RESET"
rgroup.long 0xC++0x3
line.long 0x00 "OCMC_MEM_SIZE_READ,This register provides the status of the OCM Controller configuration."
bitfld.long 0x00 12.--16. " VBUF_ADDR_MSB                     ,This bit field returns the MSB bit of the valid VBUF address range. The default value of 23 means that the valid VBUF address range is from 0x8000 0000 to 0x80FF FFFF" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 9. "                          MEM_CBUF_ENABLE               ,Indicates whether CBUF is supported or not. - CBUF_ECC_OFF. - CBUF_ECC_ON." "CBUF_ECC_OFF,CBUF_ECC_ON"
bitfld.long 0x00 8. "            MEM_ECC_ENABLE                  ,Indicates whether ECC is supported or not. - ECC_OFF. - ECC_ON." "ECC_OFF,ECC_ON"
textline "                                              "
bitfld.long 0x00 0.--4. " MEM_SIZE_128K_CNT                 ,This bit field indicates how many 128KiB memory blocks are present in the SRAM. Access beyond the memory size reported in the MEM_SIZE_128K_CNT bit field results in an address error interrupt. 0x1: One 128KiB memory ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x40++0x3
line.long 0x00 "INTR0_STATUS_RAW_SET,This register contains the raw interrupt status. Read indicates RAW interrupt status (0=inactive, 1=active). Writing 1 will SET the corresponding raw status bit (soft interrupt set). Writing 0 has no effect."
bitfld.long 0x00 14. " CBUF_SHORT_FRAME_DETECT_FOUND     ,CBUF detected short frame." "0,1"
bitfld.long 0x00 13. "                           CBUF_UNDERFLOW_ERR_FOUND      ," "0,1"
bitfld.long 0x00 12. "                       CBUF_OVERFLOW_WRAP_ERR_FOUND    ," "0,1"
textline "                                              "
bitfld.long 0x00 11. " CBUF_OVERFLOW_MID_ERR_FOUND       ," "0,1"
bitfld.long 0x00 10. "                           CBUF_READ_SEQUENCE_ERR_FOUND  ," "0,1"
bitfld.long 0x00 9. "                       CBUF_VBUF_READ_START_ERR_FOUND  ," "0,1"
textline "                                              "
bitfld.long 0x00 8. " CBUF_READ_OUT_OF_RANGE_ERR_FOUND  ," "0,1"
bitfld.long 0x00 7. "                           CBUF_WRITE_SEQUENCE_ERR_FOUND ," "0,1"
bitfld.long 0x00 6. "                       CBUF_VBUF_WRITE_START_ERR_FOUND ," "0,1"
textline "                                              "
bitfld.long 0x00 5. " CBUF_WR_OUT_OF_RANGE_ERR_FOUND    ," "0,1"
bitfld.long 0x00 4. "                           CBUF_VIRTUAL_ADDR_ERR_FOUND   ," "0,1"
bitfld.long 0x00 3. "                       OUT_OF_RANGE_ERR_FOUND          ," "0,1"
textline "                                              "
bitfld.long 0x00 2. " ADDR_ERR_FOUND                    ," "0,1"
bitfld.long 0x00 1. "                           DED_ERR_FOUND                 ," "0,1"
bitfld.long 0x00 0. "                       SEC_ERR_FOUND                   ," "0,1"
group.long 0x44++0x3
line.long 0x00 "INTR0_STATUS_ENABLED_CLEAR,Read indicates ENABLED interrupt status (0=inactive, 1=active). Writing 1 will CLEAR the corresponding enabled status bit. Writing 0 has no effect."
eventfld.long 0x00 14. " CBUF_SHORT_FRAME_DETECT_FOUND     ,CBUF detected short frame" "0,1"
eventfld.long 0x00 13. "                           CBUF_UNDERFLOW_ERR_FOUND      ," "0,1"
eventfld.long 0x00 12. "                       CBUF_OVERFLOW_WRAP_ERR_FOUND    ," "0,1"
textline "                                              "
eventfld.long 0x00 11. " CBUF_OVERFLOW_MID_ERR_FOUND       ," "0,1"
eventfld.long 0x00 10. "                           CBUF_READ_SEQUENCE_ERR_FOUND  ," "0,1"
eventfld.long 0x00 9. "                       CBUF_VBUF_READ_START_ERR_FOUND  ," "0,1"
textline "                                              "
eventfld.long 0x00 8. " CBUF_READ_OUT_OF_RANGE_ERR_FOUND  ," "0,1"
eventfld.long 0x00 7. "                           CBUF_WRITE_SEQUENCE_ERR_FOUND ," "0,1"
eventfld.long 0x00 6. "                       CBUF_VBUF_WRITE_START_ERR_FOUND ," "0,1"
textline "                                              "
eventfld.long 0x00 5. " CBUF_WR_OUT_OF_RANGE_ERR_FOUND    ," "0,1"
eventfld.long 0x00 4. "                           CBUF_VIRTUAL_ADDR_ERR_FOUND   ," "0,1"
eventfld.long 0x00 3. "                       OUT_OF_RANGE_ERR_FOUND          ," "0,1"
textline "                                              "
eventfld.long 0x00 2. " ADDR_ERR_FOUND                    ," "0,1"
eventfld.long 0x00 1. "                           DED_ERR_FOUND                 ," "0,1"
eventfld.long 0x00 0. "                       SEC_ERR_FOUND                   ," "0,1"
group.long 0x48++0x3
line.long 0x00 "INTR0_ENABLE_SET,Read indicates interrupt enable (0=disabled, 1=enabled) Writing 1 will set the corresponding interrupt enable bit. Writing 0 has no effect. Interrupt_enable_set"
bitfld.long 0x00 14. " CBUF_SHORT_FRAME_DETECT_FOUND     ,CBUF detected short frame" "0,1"
bitfld.long 0x00 13. "                           CBUF_UNDERFLOW_ERR_FOUND      ," "0,1"
bitfld.long 0x00 12. "                       CBUF_OVERFLOW_WRAP_ERR_FOUND    ," "0,1"
textline "                                              "
bitfld.long 0x00 11. " CBUF_OVERFLOW_MID_ERR_FOUND       ," "0,1"
bitfld.long 0x00 10. "                           CBUF_READ_SEQUENCE_ERR_FOUND  ," "0,1"
bitfld.long 0x00 9. "                       CBUF_VBUF_READ_START_ERR_FOUND  ," "0,1"
textline "                                              "
bitfld.long 0x00 8. " CBUF_READ_OUT_OF_RANGE_ERR_FOUND  ," "0,1"
bitfld.long 0x00 7. "                           CBUF_WRITE_SEQUENCE_ERR_FOUND ," "0,1"
bitfld.long 0x00 6. "                       CBUF_VBUF_WRITE_START_ERR_FOUND ," "0,1"
textline "                                              "
bitfld.long 0x00 5. " CBUF_WR_OUT_OF_RANGE_ERR_FOUND    ," "0,1"
bitfld.long 0x00 4. "                           CBUF_VIRTUAL_ADDR_ERR_FOUND   ," "0,1"
bitfld.long 0x00 3. "                       OUT_OF_RANGE_ERR_FOUND          ," "0,1"
textline "                                              "
bitfld.long 0x00 2. " ADDR_ERR_FOUND                    ," "0,1"
bitfld.long 0x00 1. "                           DED_ERR_FOUND                 ," "0,1"
bitfld.long 0x00 0. "                       SEC_ERR_FOUND                   ," "0,1"
group.long 0x4C++0x3
line.long 0x00 "INTR0_ENABLE_CLEAR,Read indicates interrupt enable (0=disabled, 1=enabled) Writing 1 will clear interrupt enabled. Writing 0 has no effect. Interrupt_enable_clear"
eventfld.long 0x00 14. " CBUF_SHORT_FRAME_DETECT_FOUND     ,CBUF detected short frame" "0,1"
eventfld.long 0x00 13. "                           CBUF_UNDERFLOW_ERR_FOUND      ," "0,1"
eventfld.long 0x00 12. "                       CBUF_OVERFLOW_WRAP_ERR_FOUND    ," "0,1"
textline "                                              "
eventfld.long 0x00 11. " CBUF_OVERFLOW_MID_ERR_FOUND       ," "0,1"
eventfld.long 0x00 10. "                           CBUF_READ_SEQUENCE_ERR_FOUND  ," "0,1"
eventfld.long 0x00 9. "                       CBUF_VBUF_READ_START_ERR_FOUND  ," "0,1"
textline "                                              "
eventfld.long 0x00 8. " CBUF_READ_OUT_OF_RANGE_ERR_FOUND  ," "0,1"
eventfld.long 0x00 7. "                           CBUF_WRITE_SEQUENCE_ERR_FOUND ," "0,1"
eventfld.long 0x00 6. "                       CBUF_VBUF_WRITE_START_ERR_FOUND ," "0,1"
textline "                                              "
eventfld.long 0x00 5. " CBUF_WR_OUT_OF_RANGE_ERR_FOUND    ," "0,1"
eventfld.long 0x00 4. "                           CBUF_VIRTUAL_ADDR_ERR_FOUND   ," "0,1"
eventfld.long 0x00 3. "                       OUT_OF_RANGE_ERR_FOUND          ," "0,1"
textline "                                              "
eventfld.long 0x00 2. " ADDR_ERR_FOUND                    ," "0,1"
eventfld.long 0x00 1. "                           DED_ERR_FOUND                 ," "0,1"
eventfld.long 0x00 0. "                       SEC_ERR_FOUND                   ," "0,1"
group.long 0x50++0x3
line.long 0x00 "OCMC_INTR0_EOI,This register contains the EOI vector."
bitfld.long 0x00 0. " EOI_VECTOR                        ," "0,1"
group.long 0x60++0x3
line.long 0x00 "INTR1_STATUS_RAW_SET,This register contains the raw interrupt status. Read indicates RAW interrupt status (0=inactive, 1=active). Writing 1 will SET the corresponding raw status bit (soft interrupt set). Writing 0 has no effect."
bitfld.long 0x00 14. " CBUF_SHORT_FRAME_DETECT_FOUND     ,CBUF detected short frame" "0,1"
bitfld.long 0x00 13. "                           CBUF_UNDERFLOW_ERR_FOUND      ," "0,1"
bitfld.long 0x00 12. "                       CBUF_OVERFLOW_WRAP_ERR_FOUND    ," "0,1"
textline "                                              "
bitfld.long 0x00 11. " CBUF_OVERFLOW_MID_ERR_FOUND       ," "0,1"
bitfld.long 0x00 10. "                           CBUF_READ_SEQUENCE_ERR_FOUND  ," "0,1"
bitfld.long 0x00 9. "                       CBUF_VBUF_READ_START_ERR_FOUND  ," "0,1"
textline "                                              "
bitfld.long 0x00 8. " CBUF_READ_OUT_OF_RANGE_ERR_FOUND  ," "0,1"
bitfld.long 0x00 7. "                           CBUF_WRITE_SEQUENCE_ERR_FOUND ," "0,1"
bitfld.long 0x00 6. "                       CBUF_VBUF_WRITE_START_ERR_FOUND ," "0,1"
textline "                                              "
bitfld.long 0x00 5. " CBUF_WR_OUT_OF_RANGE_ERR_FOUND    ," "0,1"
bitfld.long 0x00 4. "                           CBUF_VIRTUAL_ADDR_ERR_FOUND   ," "0,1"
bitfld.long 0x00 3. "                       OUT_OF_RANGE_ERR_FOUND          ," "0,1"
textline "                                              "
bitfld.long 0x00 2. " ADDR_ERR_FOUND                    ," "0,1"
bitfld.long 0x00 1. "                           DED_ERR_FOUND                 ," "0,1"
bitfld.long 0x00 0. "                       SEC_ERR_FOUND                   ," "0,1"
group.long 0x64++0x3
line.long 0x00 "INTR1_STATUS_ENABLED_CLEAR,Read indicates ENABLED interrupt status (0=inactive, 1=active). Writing 1 will CLEAR the corresponding enabled status bit. Writing 0 has no effect."
eventfld.long 0x00 14. " CBUF_SHORT_FRAME_DETECT_FOUND     ,CBUF detected short frame" "0,1"
eventfld.long 0x00 13. "                           CBUF_UNDERFLOW_ERR_FOUND      ," "0,1"
eventfld.long 0x00 12. "                       CBUF_OVERFLOW_WRAP_ERR_FOUND    ," "0,1"
textline "                                              "
eventfld.long 0x00 11. " CBUF_OVERFLOW_MID_ERR_FOUND       ," "0,1"
eventfld.long 0x00 10. "                           CBUF_READ_SEQUENCE_ERR_FOUND  ," "0,1"
eventfld.long 0x00 9. "                       CBUF_VBUF_READ_START_ERR_FOUND  ," "0,1"
textline "                                              "
eventfld.long 0x00 8. " CBUF_READ_OUT_OF_RANGE_ERR_FOUND  ," "0,1"
eventfld.long 0x00 7. "                           CBUF_WRITE_SEQUENCE_ERR_FOUND ," "0,1"
eventfld.long 0x00 6. "                       CBUF_VBUF_WRITE_START_ERR_FOUND ," "0,1"
textline "                                              "
eventfld.long 0x00 5. " CBUF_WR_OUT_OF_RANGE_ERR_FOUND    ," "0,1"
eventfld.long 0x00 4. "                           CBUF_VIRTUAL_ADDR_ERR_FOUND   ," "0,1"
eventfld.long 0x00 3. "                       OUT_OF_RANGE_ERR_FOUND          ," "0,1"
textline "                                              "
eventfld.long 0x00 2. " ADDR_ERR_FOUND                    ," "0,1"
eventfld.long 0x00 1. "                           DED_ERR_FOUND                 ," "0,1"
eventfld.long 0x00 0. "                       SEC_ERR_FOUND                   ," "0,1"
group.long 0x68++0x3
line.long 0x00 "INTR1_ENABLE_SET,Read indicates interrupt enable (0=disabled, 1=enabled) Writing 1 will set the corresponding interrupt enable bit. Writing 0 has no effect. Interrupt_enable_set"
bitfld.long 0x00 14. " CBUF_SHORT_FRAME_DETECT_FOUND     ,CBUF detected short frame" "0,1"
bitfld.long 0x00 13. "                           CBUF_UNDERFLOW_ERR_FOUND      ," "0,1"
bitfld.long 0x00 12. "                       CBUF_OVERFLOW_WRAP_ERR_FOUND    ," "0,1"
textline "                                              "
bitfld.long 0x00 11. " CBUF_OVERFLOW_MID_ERR_FOUND       ," "0,1"
bitfld.long 0x00 10. "                           CBUF_READ_SEQUENCE_ERR_FOUND  ," "0,1"
bitfld.long 0x00 9. "                       CBUF_VBUF_READ_START_ERR_FOUND  ," "0,1"
textline "                                              "
bitfld.long 0x00 8. " CBUF_READ_OUT_OF_RANGE_ERR_FOUND  ," "0,1"
bitfld.long 0x00 7. "                           CBUF_WRITE_SEQUENCE_ERR_FOUND ," "0,1"
bitfld.long 0x00 6. "                       CBUF_VBUF_WRITE_START_ERR_FOUND ," "0,1"
textline "                                              "
bitfld.long 0x00 5. " CBUF_WR_OUT_OF_RANGE_ERR_FOUND    ," "0,1"
bitfld.long 0x00 4. "                           CBUF_VIRTUAL_ADDR_ERR_FOUND   ," "0,1"
bitfld.long 0x00 3. "                       OUT_OF_RANGE_ERR_FOUND          ," "0,1"
textline "                                              "
bitfld.long 0x00 2. " ADDR_ERR_FOUND                    ," "0,1"
bitfld.long 0x00 1. "                           DED_ERR_FOUND                 ," "0,1"
bitfld.long 0x00 0. "                       SEC_ERR_FOUND                   ," "0,1"
group.long 0x6C++0x3
line.long 0x00 "INTR1_ENABLE_CLEAR,Read indicates interrupt enable (0=disabled, 1=enabled) Writing 1 will clear interrupt enabled. Writing 0 has no effect. Interrupt_enable_clear"
eventfld.long 0x00 14. " CBUF_SHORT_FRAME_DETECT_FOUND     ,CBUF detected short frame" "0,1"
eventfld.long 0x00 13. "                           CBUF_UNDERFLOW_ERR_FOUND      ," "0,1"
eventfld.long 0x00 12. "                       CBUF_OVERFLOW_WRAP_ERR_FOUND    ," "0,1"
textline "                                              "
eventfld.long 0x00 11. " CBUF_OVERFLOW_MID_ERR_FOUND       ," "0,1"
eventfld.long 0x00 10. "                           CBUF_READ_SEQUENCE_ERR_FOUND  ," "0,1"
eventfld.long 0x00 9. "                       CBUF_VBUF_READ_START_ERR_FOUND  ," "0,1"
textline "                                              "
eventfld.long 0x00 8. " CBUF_READ_OUT_OF_RANGE_ERR_FOUND  ," "0,1"
eventfld.long 0x00 7. "                           CBUF_WRITE_SEQUENCE_ERR_FOUND ," "0,1"
eventfld.long 0x00 6. "                       CBUF_VBUF_WRITE_START_ERR_FOUND ," "0,1"
textline "                                              "
eventfld.long 0x00 5. " CBUF_WR_OUT_OF_RANGE_ERR_FOUND    ," "0,1"
eventfld.long 0x00 4. "                           CBUF_VIRTUAL_ADDR_ERR_FOUND   ," "0,1"
eventfld.long 0x00 3. "                       OUT_OF_RANGE_ERR_FOUND          ," "0,1"
textline "                                              "
eventfld.long 0x00 2. " ADDR_ERR_FOUND                    ," "0,1"
eventfld.long 0x00 1. "                           DED_ERR_FOUND                 ," "0,1"
eventfld.long 0x00 0. "                       SEC_ERR_FOUND                   ," "0,1"
group.long 0x70++0x3
line.long 0x00 "OCMC_INTR1_EOI,This register contains the EOI vector."
bitfld.long 0x00 0. " EOI_VECTOR                        ," "0,1"
group.long 0x80++0x3
line.long 0x00 "CFG_OCMC_ECC,"
bitfld.long 0x00 5. " CFG_ECC_OPT_NON_ECC_READ          ,Optimize read latency for non-ECC read. Returns the data one cycle faster if the read access is from a non-ECC enabled space. 0x0: Disable 0x1: Enable" "0,1"
bitfld.long 0x00 4. "                           CFG_ECC_ERR_SRESP_EN          ,ECC non-correctable error SRESP enable. Enables ERR return on L3 OCP SRESP when a non-correctable data (DED) or address error is detected. 0x0: Disable 0x1: Enable" "0,1"
bitfld.long 0x00 3. "                       CFG_ECC_SEC_AUTO_CORRECT        ,SEC error auto correction mode. Enables the OCM Controller to automatically update the wrong data word with the corrected word. 0x0: Disable 0x1: Enable (If the OCM Controller is performing a read..." "0,1"
textline "                                              "
bitfld.long 0x00 0.--2. " CFG_OCMC_MODE                     ,OCM Controller memory access modes. 0x0: Non-ECC mode (data access) 0x1: Non-ECC mode (code access) 0x2: Full ECC enabled mode 0x3: Block ECC enabled mode 0x4-0x7: Reserved (internally defaults to 0x0 mode)" "0,1,2,3,4,5,6,7"
group.long 0x84++0x3
line.long 0x00 "CFG_OCMC_ECC_MEM_BLK,"
hexmask.long.tbyte 0x00 0.--19. 1. " CFG_ECC_ENABLED_128K_BLK          ,ECC memory block enable bits. The active level of each bit is 0x1. Bit [0] -> Address offset range 0x0 to 0x1FFFF Bit [1] -> Address offset range 0x20000 to 0x3FFFF ... Bit [19] -> Address offset..."
group.long 0x88++0x3
line.long 0x00 "CFG_OCMC_ECC_ERROR,"
bitfld.long 0x00 24. " CFG_DISCARD_DUP_ADDR              ,Do not save duplicate error address. This bit applies to the SEC, DED and ADDRERR FIFOs. 0x0: Save the duplicated addresses 0x1: Save only the unique addresses" "0,1"
bitfld.long 0x00 20.--23. "                           CFG_ADDR_ERR_CNT_MAX          ,Number of ADDR errors to trigger an interrupt (The value configured must be > 0 to generate an interrupt)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "                      CFG_DED_CNT_MAX                 ,Number of DED errors to trigger an interrupt (The value configured must be > 0 to generate an interrupt)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                              "
hexmask.long.word 0x00 0.--15. 1. " CFG_SEC_CNT_MAX                   ,Number of SEC error to trigger an interrupt (The value configured must be > 0 to generate an interrupt)."
group.long 0x8C++0x3
line.long 0x00 "CFG_OCMC_ECC_CLEAR_HIST,"
bitfld.long 0x00 3. " CLEAR_SEC_BIT_DISTR               ,Clear stored single error correction (SEC) bit distribution history. Returns 0 on read. 0x0: Reserved (not used) 0x1: Cleares the following registers:" "0,1"
bitfld.long 0x00 2. "                           CLEAR_ADDR_ERR_CNT            ,Clear stored address error history. Returns 0 on read. 0x0: Reserved (not used) 0x1: Clears the" "0,1"
bitfld.long 0x00 1. "                       CLEAR_DED_ERR_CNT               ,Clear stored double error detection (DED) history. Returns 0 on read. 0x0: Reserved (not used) 0x1: Clears the" "0,1"
textline "                                              "
bitfld.long 0x00 0. " CLEAR_SEC_ERR_CNT                 ,Clear stored single error correction history. Returns 0 on read. 0x0: Reserved (not used) 0x1: Clears the" "0,1"
rgroup.long 0x90++0x3
line.long 0x00 "STATUS_ERROR_CNT,OCM Controller error status"
bitfld.long 0x00 20.--23. " ADDR_ERROR_CNT                    ,Counter for the address errors found. This bit field is reset when 0x1 is written to the" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "                          DED_ERROR_CNT                 ,Counter for the double error detections. This bit field is reset when 0x1 is written to the" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 0.--15. 1. "                      SEC_ERROR_CNT                   ,Counter for the single errors occured. This bit field is reset when 0x1 is written to the"
rgroup.long 0x94++0x3
line.long 0x00 "STATUS_SEC_ERROR_TRACE,SEC error 128-bit memory address"
bitfld.long 0x00 18. " VALID                             ,SEC FIFO valid addres indication. - ADDRESS_TRACE_FIFO_EMPTY. - VALID_ADDRESS_READ." "ADDRESS_TRACE_FIFO_EMPTY,VALID_ADDRESS_READ"
hexmask.long.tbyte 0x00 0.--17. 1. "    ADDRESS_128BIT                ,SEC error 128-bit memory address (Read from the SEC error address trace fifo)"
rgroup.long 0x98++0x3
line.long 0x00 "STATUS_DED_ERROR_TRACE,DED error 128-bit memory address"
bitfld.long 0x00 18. " VALID                             ,DED FIFO valid addres indication. 0x0: The DED FIFO is empty 0x1: There is a valid address in the DED FIFO" "0,1"
hexmask.long.tbyte 0x00 0.--17. 1. "                           ADDRESS_128BIT                ,DED error 128-bit memory address (Read from the DED error address trace fifo)"
rgroup.long 0x9C++0x3
line.long 0x00 "STATUS_ADDR_TRANSLATION_ERROR_TRACE,ADDR error 128-bit memory address"
bitfld.long 0x00 18. " VALID                             ,ADDRERR FIFO valid addres indication. 0x0: The ADDRERR FIFO is empty 0x1: There is a valid address in the ADDRERR FIFO" "0,1"
hexmask.long.tbyte 0x00 0.--17. 1. "                           ADDRESS_128BIT                ,ADDR error 128-bit memory address (Read from the ADDR error address trace fifo)"
rgroup.long 0xA0++0x3
line.long 0x00 "STATUS_SEC_ERROR_DISTR_0,SEC data error bit distribution status [31:0]"
hexmask.long 0x00 0.--31. 1. " SEC_BIT_ERROR_FOUND               ,1 in a bit position means that an SEC error was found at that bit position and corrected"
rgroup.long 0xA4++0x3
line.long 0x00 "STATUS_SEC_ERROR_DISTR_1,SEC data error bit distribution status [63:32]"
hexmask.long 0x00 0.--31. 1. " SEC_BIT_ERROR_FOUND               ,1 in a bit position means that an SEC error was found at that bit position and corrected"
rgroup.long 0xA8++0x3
line.long 0x00 "STATUS_SEC_ERROR_DISTR_2,SEC data error bit distribution status [95:64]"
hexmask.long 0x00 0.--31. 1. " SEC_BIT_ERROR_FOUND               ,1 in a bit position means that an SEC error was found at that bit position and corrected"
rgroup.long 0xAC++0x3
line.long 0x00 "STATUS_SEC_ERROR_DISTR_3,SEC data error bit distribution status [127:96]"
hexmask.long 0x00 0.--31. 1. " SEC_BIT_ERROR_FOUND               ,1 in a bit position means that an SEC error was found at that bit position and corrected"
rgroup.long 0xB0++0x3
line.long 0x00 "STATUS_SEC_ERROR_DISTR_4,SEC ecc code error bit distribution status [7:0]"
hexmask.long.byte 0x00 0.--7. 1. " SEC_ECC_CODE_ERROR_FOUND          ,ECC Code (excluding the parity bit) error distribution [7:0]. For each bit: 0x0: SEC error not found 0x1: SEC error found In the corresponding bit location"
group.long 0x200++0x3
line.long 0x00 "CFG_OCMC_CBUF_EN,CBUF mode enable register"
bitfld.long 0x00 27. " CBUF_EN_11                        ,CBUF 11 enable. 0x0: Disable 0x1: Enable" "0,1"
bitfld.long 0x00 26. "                           CBUF_EN_10                    ,CBUF 10 enable. 0x0: Disable 0x1: Enable" "0,1"
bitfld.long 0x00 25. "                       CBUF_EN_9                       ,CBUF 9 enable. 0x0: Disable 0x1: Enable" "0,1"
textline "                                              "
bitfld.long 0x00 24. " CBUF_EN_8                         ,CBUF 8 enable. 0x0: Disable 0x1: Enable" "0,1"
bitfld.long 0x00 23. "                           CBUF_EN_7                     ,CBUF 7 enable. 0x0: Disable 0x1: Enable" "0,1"
bitfld.long 0x00 22. "                       CBUF_EN_6                       ,CBUF 6 enable. 0x0: Disable 0x1: Enable" "0,1"
textline "                                              "
bitfld.long 0x00 21. " CBUF_EN_5                         ,CBUF 5 enable. 0x0: Disable 0x1: Enable" "0,1"
bitfld.long 0x00 20. "                           CBUF_EN_4                     ,CBUF 4 enable. 0x0: Disable 0x1: Enable" "0,1"
bitfld.long 0x00 19. "                       CBUF_EN_3                       ,CBUF 3 enable. 0x0: Disable 0x1: Enable" "0,1"
textline "                                              "
bitfld.long 0x00 18. " CBUF_EN_2                         ,CBUF 2 enable. 0x0: Disable 0x1: Enable" "0,1"
bitfld.long 0x00 17. "                           CBUF_EN_1                     ,CBUF 1 enable. 0x0: Disable 0x1: Enable" "0,1"
bitfld.long 0x00 16. "                       CBUF_EN_0                       ,CBUF 0 enable. 0x0: Disable 0x1: Enable" "0,1"
textline "                                              "
bitfld.long 0x00 2. " NEW_FRAME_SEL                     ,CBUF New Frame Event Definition Select. 0x0: New frame event flag is set when a VBUF access is made to the base address of the VBUF 0x1: New frame event flag is set when a VBUF access is made to the base CBUF slice a..." "0,1"
bitfld.long 0x00 1. "                           CBUF_DEBUG_EN                 ,CBUF Debug Enable Mode. 0x0: Default Normal mode. All CBUF accesses with MReqDebug=1 are rejected. 0x1: Debug mode. MReqDebug Interconnect qualifier is ignored." "0,1"
bitfld.long 0x00 0. "                       CBUF_MODE_EN                    ,CBUF Mode Enable. 0x0: Disable all CBUF address translation 0x1: Enable CBUF address translation" "0,1"
group.long 0x204++0x3
line.long 0x00 "CFG_OCMC_CBUF_RESET,Writing 1 to bit n will set a reset bit to clear the corresponding CBUF_n address translation logic. Sliding CBUF frame tracking will be cleared so that the CBUF now points to the base of the virtual frame buffer. Normally, a reset ..."
eventfld.long 0x00 11. " CBUF_RESET_11                     ,cbuf_reset_11" "0,1"
eventfld.long 0x00 10. "                           CBUF_RESET_10                 ,cbuf_reset_10" "0,1"
eventfld.long 0x00 9. "                       CBUF_RESET_9                    ,cbuf_reset_9" "0,1"
textline "                                              "
eventfld.long 0x00 8. " CBUF_RESET_8                      ,cbuf_reset_8" "0,1"
eventfld.long 0x00 7. "                           CBUF_RESET_7                  ,cbuf_reset_7" "0,1"
eventfld.long 0x00 6. "                       CBUF_RESET_6                    ,cbuf_reset_6" "0,1"
textline "                                              "
eventfld.long 0x00 5. " CBUF_RESET_5                      ,cbuf_reset_5" "0,1"
eventfld.long 0x00 4. "                           CBUF_RESET_4                  ,cbuf_reset_4" "0,1"
eventfld.long 0x00 3. "                       CBUF_RESET_3                    ,cbuf_reset_3" "0,1"
textline "                                              "
eventfld.long 0x00 2. " CBUF_RESET_2                      ,cbuf_reset_2" "0,1"
eventfld.long 0x00 1. "                           CBUF_RESET_1                  ,cbuf_reset_1" "0,1"
eventfld.long 0x00 0. "                       CBUF_RESET_0                    ,cbuf_reset_0" "0,1"
group.long 0x208++0x3
line.long 0x00 "CFG_OCMC_CBUF_ERR_HANDLER,"
bitfld.long 0x00 8. " UNDERFLOW_LAST_CBUF_SLICE_DISABLE ,0x0: Check underflow even when read is from the last CBUF slice 0x1: Disable underflow check when read is from the last CBUF slice" "0,1"
bitfld.long 0x00 6.--7. "                           OVERFLOW_CHECK_REENABLE_SEL   ,Overflow check re-enable selection. 0x0: Overflow check is disabled until next wtire to or read from virtual frame start address is detected 0x1: Overflow check is disabled until next write to v..." "0,1,2,3"
bitfld.long 0x00 4.--5. "                       OVERFLOW_WRITE_HANDLER_SEL      ,Overflow write handler selection. 0x0: Writes disabled only on CBUF_overflow_wrap cases until next write to virtual frame start address is detected 0x1: Writes disabled on all overflow cases until..." "0,1,2,3"
textline "                                              "
bitfld.long 0x00 3. " UNDERFLOW_ERR_CHECK_EN            ,Underflow chek enable. - UNDERFLOW_CHECK_ENABLE. - UNDERFLOW_CHECK_DISABLE." "UNDERFLOW_CHECK_ENABLE,UNDERFLOW_CHECK_DISABLE"
bitfld.long 0x00 2. "     OVERFLOW_ERR_CHECK_EN         ,Overflow chek enable. - OVERFLOW_CHECK_ENABLE. - OVERFLOW_CHECK_DISABLE." "OVERFLOW_CHECK_ENABLE,OVERFLOW_CHECK_DISABLE"
bitfld.long 0x00 1. "  SHORT_FRAME_PREV_EOF_SEL        ,0x0: previous frame EOF history is set if the last write address is equal to the VBUF frame end address 0x1: previous frame EOF history is set if the last write address is in the Last CBUF slice" "0,1"
textline "                                              "
bitfld.long 0x00 0. " SHORT_FRAME_DETECT_CHECK_EN       ,Short frame detection enable. - SHORT_FRAME_DETECT_ENABLE. - SHORT_FRAME_DETECT_DISABLE." "SHORT_FRAME_DETECT_ENABLE,SHORT_FRAME_DETECT_DISABLE"
group.long 0x20C++0x3
line.long 0x00 "STATUS_CBUF_WR_OUT_OF_RANGE_ERR,"
hexmask.long.word 0x00 0.--11. 1. " CBUF_ERR                          ,Indicates that the CBUF write address is out of the CBUF range. Each bit indicates the error of this type for CBUF[n], where n = 0 to 11. Writing 0x1 to bit [n] clears the status of CBUF[n]. Reading 0x1 from bit [n] ..."
group.long 0x210++0x3
line.long 0x00 "STATUS_CBUF_WR_VBUF_START_ERR,"
hexmask.long.word 0x00 0.--11. 1. " CBUF_ERR                          ,CBUF write is not to the base address at vbuf access start. Each bit indicates the error of this type for CBUF[n], where n = 0 to 11. Writing 0x1 to bit [n] clears the status of CBUF[n]. Reading 0x1 from bit [n] mean..."
group.long 0x214++0x3
line.long 0x00 "STATUS_CBUF_WR_ADDR_SEQ_ERROR,"
hexmask.long.word 0x00 0.--11. 1. " CBUF_ERR                          ,CBUF address is not incrementing in raster scan order. Each bit indicates the error of this type for CBUF[n], where n = 0 to 11. Writing 0x1 to bit [n] clears the status of CBUF[n]. Reading 0x1 from bit [n] means tha..."
group.long 0x218++0x3
line.long 0x00 "STATUS_CBUF_RD_OUT_OF_RANGE_ERROR,"
hexmask.long.word 0x00 0.--11. 1. " CBUF_ERR                          ,Indicates that the CBUF read address is out of the CBUF range. Each bit indicates the error of this type for CBUF[n], where n = 0 to 11. Writing 0x1 to bit [n] clears the status of CBUF[n]. Reading 0x1 from bit [n] m..."
group.long 0x21C++0x3
line.long 0x00 "STATUS_CBUF_VBUF_RD_START_ERROR,"
hexmask.long.word 0x00 0.--11. 1. " CBUF_ERR                          ,CBUF read is not from the base address at VBUF access start. Each bit indicates the error of this type for CBUF[n], where n = 0 to 11. Writing 0x1 to bit [n] clears the status of CBUF[n]. Reading 0x1 from bit [n] mea..."
group.long 0x220++0x3
line.long 0x00 "STATUS_CBUF_RD_ADDR_SEQ_ERROR,"
hexmask.long.word 0x00 0.--11. 1. " CBUF_ERR                          ,CBUF read address is not incrementing in raster scan order. Each bit indicates the error of this type for CBUF[n], where n = 0 to 11. Writing 0x1 to bit [n] clears the status of CBUF[n]. Reading 0x1 from bit [n] mean..."
group.long 0x224++0x3
line.long 0x00 "STATUS_CBUF_OVERFLOW_MID,"
hexmask.long.word 0x00 0.--11. 1. " CBUF_ERR                          ,CBUF overflow condition detected in the middle of a frame. Each bit indicates the error of this type for CBUF[n], where n = 0 to 11. Writing 0x1 to bit [n] clears the status of CBUF[n]. Reading 0x1 from bit [n] means..."
group.long 0x228++0x3
line.long 0x00 "STATUS_CBUF_OVERFLOW_WRAP,"
hexmask.long.word 0x00 0.--11. 1. " CBUF_ERR                          ,CBUF overflow condition detected during buffer switching. Each bit indicates the error of this type for CBUF[n], where n = 0 to 11. Writing 0x1 to bit [n] clears the status of CBUF[n]. Reading 0x1 from bit [n] means ..."
group.long 0x22C++0x3
line.long 0x00 "STATUS_CBUF_UNDERFLOW,"
hexmask.long.word 0x00 0.--11. 1. " CBUF_ERR                          ,CBUF underflow condition detected. Each bit indicates the error of this type for CBUF[n], where n = 0 to 11. Writing 0x1 to bit [n] clears the status of CBUF[n]. Reading 0x1 from bit [n] means that the status is set."
group.long 0x230++0x3
line.long 0x00 "STATUS_CBUF_SHORT_FRAME_DETECT,"
hexmask.long.word 0x00 0.--11. 1. " CBUF_ERR                          ,CBUF short frame detected. Each bit indicates the error of this type for CBUF[n], where n = 0 to 11. Writing 0x1 to bit [n] clears the status of CBUF[n]. Reading 0x1 from bit [n] means that the status is set."
rgroup.long 0x360++0x3
line.long 0x00 "LAST_ILLEGAL_OCMC_ADDR,"
hexmask.long 0x00 0.--31. 1. " ADDR                              ,Last Illegal OCMC Address. This register returns the OCMC L3_MAIN address of the last access that was invalidated due to an OUT_OF_RANGE_ERR_FOUND (non-VBUF address) error or any one of the CBUF related access errors..."
width 0x0B
tree.end
tree "OCMC_RAM2"
base ad:0x4880A000
tree "Channel_0"
width 26.
group.long 0x24C++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_0,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x248++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_0,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x244++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_0,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x240++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_0,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x304++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_0,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x300++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_0,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
tree "Channel_1"
width 26.
group.long 0x262++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_1,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x25E++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_1,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x25A++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_1,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x256++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_1,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x30C++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_1,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x308++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_1,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
tree "Channel_2"
width 26.
group.long 0x278++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_2,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x274++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_2,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x270++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_2,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x26C++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_2,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x314++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_2,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x310++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_2,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
tree "Channel_3"
width 26.
group.long 0x28E++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_3,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x28A++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_3,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x286++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_3,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x282++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_3,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x31C++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_3,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x318++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_3,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
tree "Channel_4"
width 26.
group.long 0x2A4++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_4,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x2A0++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_4,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x29C++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_4,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x298++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_4,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x324++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_4,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x320++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_4,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
tree "Channel_5"
width 26.
group.long 0x2BA++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_5,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x2B6++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_5,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x2B2++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_5,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x2AE++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_5,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x32C++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_5,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x328++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_5,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
tree "Channel_6"
width 26.
group.long 0x2D0++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_6,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x2CC++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_6,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x2C8++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_6,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x2C4++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_6,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x334++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_6,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x330++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_6,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
tree "Channel_7"
width 26.
group.long 0x2E6++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_7,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x2E2++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_7,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x2DE++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_7,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x2DA++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_7,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x33C++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_7,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x338++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_7,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
tree "Channel_8"
width 26.
group.long 0x2FC++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_8,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x2F8++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_8,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x2F4++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_8,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x2F0++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_8,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x344++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_8,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x340++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_8,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
tree "Channel_9"
width 26.
group.long 0x312++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_9,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x30E++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_9,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x30A++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_9,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x306++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_9,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x34C++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_9,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x348++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_9,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
tree "Channel_10"
width 27.
group.long 0x328++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_10,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x324++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_10,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x320++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_10,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x31C++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_10,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x354++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_10,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x350++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_10,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
tree "Channel_11"
width 27.
group.long 0x33E++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_11,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x33A++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_11,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x336++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_11,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x332++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_11,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x35C++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_11,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x358++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_11,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
textline ""
width 37.
rgroup.long 0x0++0x3
line.long 0x00 "OCMC_ECC_PID,"
hexmask.long 0x00 0.--31. 1. " REVISION                          ,TI internal data"
group.long 0x4++0x3
line.long 0x00 "OCMC_SYSCONFIG_PM,"
bitfld.long 0x00 2.--3. " IDLEMODE                          ,Configuration of the local target state management mode. By definition, target can handle read/write transaction as long as it is out of IDLE state. - . - . - . - ." "0,1,2,3"
group.long 0x8++0x3
line.long 0x00 "OCMC_SYSCONFIG_RST,"
bitfld.long 0x00 0. " SW_RST                            ,Software reset of the OCM controller configuration and history logic (does not reset L4 interface) - NORMAL_OP. - RESET." "NORMAL_OP,RESET"
rgroup.long 0xC++0x3
line.long 0x00 "OCMC_MEM_SIZE_READ,This register provides the status of the OCM Controller configuration."
bitfld.long 0x00 12.--16. " VBUF_ADDR_MSB                     ,This bit field returns the MSB bit of the valid VBUF address range. The default value of 23 means that the valid VBUF address range is from 0x8000 0000 to 0x80FF FFFF" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 9. "                          MEM_CBUF_ENABLE               ,Indicates whether CBUF is supported or not. - CBUF_ECC_OFF. - CBUF_ECC_ON." "CBUF_ECC_OFF,CBUF_ECC_ON"
bitfld.long 0x00 8. "            MEM_ECC_ENABLE                  ,Indicates whether ECC is supported or not. - ECC_OFF. - ECC_ON." "ECC_OFF,ECC_ON"
textline "                                              "
bitfld.long 0x00 0.--4. " MEM_SIZE_128K_CNT                 ,This bit field indicates how many 128KiB memory blocks are present in the SRAM. Access beyond the memory size reported in the MEM_SIZE_128K_CNT bit field results in an address error interrupt. 0x1: One 128KiB memory ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x40++0x3
line.long 0x00 "INTR0_STATUS_RAW_SET,This register contains the raw interrupt status. Read indicates RAW interrupt status (0=inactive, 1=active). Writing 1 will SET the corresponding raw status bit (soft interrupt set). Writing 0 has no effect."
bitfld.long 0x00 14. " CBUF_SHORT_FRAME_DETECT_FOUND     ,CBUF detected short frame." "0,1"
bitfld.long 0x00 13. "                           CBUF_UNDERFLOW_ERR_FOUND      ," "0,1"
bitfld.long 0x00 12. "                       CBUF_OVERFLOW_WRAP_ERR_FOUND    ," "0,1"
textline "                                              "
bitfld.long 0x00 11. " CBUF_OVERFLOW_MID_ERR_FOUND       ," "0,1"
bitfld.long 0x00 10. "                           CBUF_READ_SEQUENCE_ERR_FOUND  ," "0,1"
bitfld.long 0x00 9. "                       CBUF_VBUF_READ_START_ERR_FOUND  ," "0,1"
textline "                                              "
bitfld.long 0x00 8. " CBUF_READ_OUT_OF_RANGE_ERR_FOUND  ," "0,1"
bitfld.long 0x00 7. "                           CBUF_WRITE_SEQUENCE_ERR_FOUND ," "0,1"
bitfld.long 0x00 6. "                       CBUF_VBUF_WRITE_START_ERR_FOUND ," "0,1"
textline "                                              "
bitfld.long 0x00 5. " CBUF_WR_OUT_OF_RANGE_ERR_FOUND    ," "0,1"
bitfld.long 0x00 4. "                           CBUF_VIRTUAL_ADDR_ERR_FOUND   ," "0,1"
bitfld.long 0x00 3. "                       OUT_OF_RANGE_ERR_FOUND          ," "0,1"
textline "                                              "
bitfld.long 0x00 2. " ADDR_ERR_FOUND                    ," "0,1"
bitfld.long 0x00 1. "                           DED_ERR_FOUND                 ," "0,1"
bitfld.long 0x00 0. "                       SEC_ERR_FOUND                   ," "0,1"
group.long 0x44++0x3
line.long 0x00 "INTR0_STATUS_ENABLED_CLEAR,Read indicates ENABLED interrupt status (0=inactive, 1=active). Writing 1 will CLEAR the corresponding enabled status bit. Writing 0 has no effect."
eventfld.long 0x00 14. " CBUF_SHORT_FRAME_DETECT_FOUND     ,CBUF detected short frame" "0,1"
eventfld.long 0x00 13. "                           CBUF_UNDERFLOW_ERR_FOUND      ," "0,1"
eventfld.long 0x00 12. "                       CBUF_OVERFLOW_WRAP_ERR_FOUND    ," "0,1"
textline "                                              "
eventfld.long 0x00 11. " CBUF_OVERFLOW_MID_ERR_FOUND       ," "0,1"
eventfld.long 0x00 10. "                           CBUF_READ_SEQUENCE_ERR_FOUND  ," "0,1"
eventfld.long 0x00 9. "                       CBUF_VBUF_READ_START_ERR_FOUND  ," "0,1"
textline "                                              "
eventfld.long 0x00 8. " CBUF_READ_OUT_OF_RANGE_ERR_FOUND  ," "0,1"
eventfld.long 0x00 7. "                           CBUF_WRITE_SEQUENCE_ERR_FOUND ," "0,1"
eventfld.long 0x00 6. "                       CBUF_VBUF_WRITE_START_ERR_FOUND ," "0,1"
textline "                                              "
eventfld.long 0x00 5. " CBUF_WR_OUT_OF_RANGE_ERR_FOUND    ," "0,1"
eventfld.long 0x00 4. "                           CBUF_VIRTUAL_ADDR_ERR_FOUND   ," "0,1"
eventfld.long 0x00 3. "                       OUT_OF_RANGE_ERR_FOUND          ," "0,1"
textline "                                              "
eventfld.long 0x00 2. " ADDR_ERR_FOUND                    ," "0,1"
eventfld.long 0x00 1. "                           DED_ERR_FOUND                 ," "0,1"
eventfld.long 0x00 0. "                       SEC_ERR_FOUND                   ," "0,1"
group.long 0x48++0x3
line.long 0x00 "INTR0_ENABLE_SET,Read indicates interrupt enable (0=disabled, 1=enabled) Writing 1 will set the corresponding interrupt enable bit. Writing 0 has no effect. Interrupt_enable_set"
bitfld.long 0x00 14. " CBUF_SHORT_FRAME_DETECT_FOUND     ,CBUF detected short frame" "0,1"
bitfld.long 0x00 13. "                           CBUF_UNDERFLOW_ERR_FOUND      ," "0,1"
bitfld.long 0x00 12. "                       CBUF_OVERFLOW_WRAP_ERR_FOUND    ," "0,1"
textline "                                              "
bitfld.long 0x00 11. " CBUF_OVERFLOW_MID_ERR_FOUND       ," "0,1"
bitfld.long 0x00 10. "                           CBUF_READ_SEQUENCE_ERR_FOUND  ," "0,1"
bitfld.long 0x00 9. "                       CBUF_VBUF_READ_START_ERR_FOUND  ," "0,1"
textline "                                              "
bitfld.long 0x00 8. " CBUF_READ_OUT_OF_RANGE_ERR_FOUND  ," "0,1"
bitfld.long 0x00 7. "                           CBUF_WRITE_SEQUENCE_ERR_FOUND ," "0,1"
bitfld.long 0x00 6. "                       CBUF_VBUF_WRITE_START_ERR_FOUND ," "0,1"
textline "                                              "
bitfld.long 0x00 5. " CBUF_WR_OUT_OF_RANGE_ERR_FOUND    ," "0,1"
bitfld.long 0x00 4. "                           CBUF_VIRTUAL_ADDR_ERR_FOUND   ," "0,1"
bitfld.long 0x00 3. "                       OUT_OF_RANGE_ERR_FOUND          ," "0,1"
textline "                                              "
bitfld.long 0x00 2. " ADDR_ERR_FOUND                    ," "0,1"
bitfld.long 0x00 1. "                           DED_ERR_FOUND                 ," "0,1"
bitfld.long 0x00 0. "                       SEC_ERR_FOUND                   ," "0,1"
group.long 0x4C++0x3
line.long 0x00 "INTR0_ENABLE_CLEAR,Read indicates interrupt enable (0=disabled, 1=enabled) Writing 1 will clear interrupt enabled. Writing 0 has no effect. Interrupt_enable_clear"
eventfld.long 0x00 14. " CBUF_SHORT_FRAME_DETECT_FOUND     ,CBUF detected short frame" "0,1"
eventfld.long 0x00 13. "                           CBUF_UNDERFLOW_ERR_FOUND      ," "0,1"
eventfld.long 0x00 12. "                       CBUF_OVERFLOW_WRAP_ERR_FOUND    ," "0,1"
textline "                                              "
eventfld.long 0x00 11. " CBUF_OVERFLOW_MID_ERR_FOUND       ," "0,1"
eventfld.long 0x00 10. "                           CBUF_READ_SEQUENCE_ERR_FOUND  ," "0,1"
eventfld.long 0x00 9. "                       CBUF_VBUF_READ_START_ERR_FOUND  ," "0,1"
textline "                                              "
eventfld.long 0x00 8. " CBUF_READ_OUT_OF_RANGE_ERR_FOUND  ," "0,1"
eventfld.long 0x00 7. "                           CBUF_WRITE_SEQUENCE_ERR_FOUND ," "0,1"
eventfld.long 0x00 6. "                       CBUF_VBUF_WRITE_START_ERR_FOUND ," "0,1"
textline "                                              "
eventfld.long 0x00 5. " CBUF_WR_OUT_OF_RANGE_ERR_FOUND    ," "0,1"
eventfld.long 0x00 4. "                           CBUF_VIRTUAL_ADDR_ERR_FOUND   ," "0,1"
eventfld.long 0x00 3. "                       OUT_OF_RANGE_ERR_FOUND          ," "0,1"
textline "                                              "
eventfld.long 0x00 2. " ADDR_ERR_FOUND                    ," "0,1"
eventfld.long 0x00 1. "                           DED_ERR_FOUND                 ," "0,1"
eventfld.long 0x00 0. "                       SEC_ERR_FOUND                   ," "0,1"
group.long 0x50++0x3
line.long 0x00 "OCMC_INTR0_EOI,This register contains the EOI vector."
bitfld.long 0x00 0. " EOI_VECTOR                        ," "0,1"
group.long 0x60++0x3
line.long 0x00 "INTR1_STATUS_RAW_SET,This register contains the raw interrupt status. Read indicates RAW interrupt status (0=inactive, 1=active). Writing 1 will SET the corresponding raw status bit (soft interrupt set). Writing 0 has no effect."
bitfld.long 0x00 14. " CBUF_SHORT_FRAME_DETECT_FOUND     ,CBUF detected short frame" "0,1"
bitfld.long 0x00 13. "                           CBUF_UNDERFLOW_ERR_FOUND      ," "0,1"
bitfld.long 0x00 12. "                       CBUF_OVERFLOW_WRAP_ERR_FOUND    ," "0,1"
textline "                                              "
bitfld.long 0x00 11. " CBUF_OVERFLOW_MID_ERR_FOUND       ," "0,1"
bitfld.long 0x00 10. "                           CBUF_READ_SEQUENCE_ERR_FOUND  ," "0,1"
bitfld.long 0x00 9. "                       CBUF_VBUF_READ_START_ERR_FOUND  ," "0,1"
textline "                                              "
bitfld.long 0x00 8. " CBUF_READ_OUT_OF_RANGE_ERR_FOUND  ," "0,1"
bitfld.long 0x00 7. "                           CBUF_WRITE_SEQUENCE_ERR_FOUND ," "0,1"
bitfld.long 0x00 6. "                       CBUF_VBUF_WRITE_START_ERR_FOUND ," "0,1"
textline "                                              "
bitfld.long 0x00 5. " CBUF_WR_OUT_OF_RANGE_ERR_FOUND    ," "0,1"
bitfld.long 0x00 4. "                           CBUF_VIRTUAL_ADDR_ERR_FOUND   ," "0,1"
bitfld.long 0x00 3. "                       OUT_OF_RANGE_ERR_FOUND          ," "0,1"
textline "                                              "
bitfld.long 0x00 2. " ADDR_ERR_FOUND                    ," "0,1"
bitfld.long 0x00 1. "                           DED_ERR_FOUND                 ," "0,1"
bitfld.long 0x00 0. "                       SEC_ERR_FOUND                   ," "0,1"
group.long 0x64++0x3
line.long 0x00 "INTR1_STATUS_ENABLED_CLEAR,Read indicates ENABLED interrupt status (0=inactive, 1=active). Writing 1 will CLEAR the corresponding enabled status bit. Writing 0 has no effect."
eventfld.long 0x00 14. " CBUF_SHORT_FRAME_DETECT_FOUND     ,CBUF detected short frame" "0,1"
eventfld.long 0x00 13. "                           CBUF_UNDERFLOW_ERR_FOUND      ," "0,1"
eventfld.long 0x00 12. "                       CBUF_OVERFLOW_WRAP_ERR_FOUND    ," "0,1"
textline "                                              "
eventfld.long 0x00 11. " CBUF_OVERFLOW_MID_ERR_FOUND       ," "0,1"
eventfld.long 0x00 10. "                           CBUF_READ_SEQUENCE_ERR_FOUND  ," "0,1"
eventfld.long 0x00 9. "                       CBUF_VBUF_READ_START_ERR_FOUND  ," "0,1"
textline "                                              "
eventfld.long 0x00 8. " CBUF_READ_OUT_OF_RANGE_ERR_FOUND  ," "0,1"
eventfld.long 0x00 7. "                           CBUF_WRITE_SEQUENCE_ERR_FOUND ," "0,1"
eventfld.long 0x00 6. "                       CBUF_VBUF_WRITE_START_ERR_FOUND ," "0,1"
textline "                                              "
eventfld.long 0x00 5. " CBUF_WR_OUT_OF_RANGE_ERR_FOUND    ," "0,1"
eventfld.long 0x00 4. "                           CBUF_VIRTUAL_ADDR_ERR_FOUND   ," "0,1"
eventfld.long 0x00 3. "                       OUT_OF_RANGE_ERR_FOUND          ," "0,1"
textline "                                              "
eventfld.long 0x00 2. " ADDR_ERR_FOUND                    ," "0,1"
eventfld.long 0x00 1. "                           DED_ERR_FOUND                 ," "0,1"
eventfld.long 0x00 0. "                       SEC_ERR_FOUND                   ," "0,1"
group.long 0x68++0x3
line.long 0x00 "INTR1_ENABLE_SET,Read indicates interrupt enable (0=disabled, 1=enabled) Writing 1 will set the corresponding interrupt enable bit. Writing 0 has no effect. Interrupt_enable_set"
bitfld.long 0x00 14. " CBUF_SHORT_FRAME_DETECT_FOUND     ,CBUF detected short frame" "0,1"
bitfld.long 0x00 13. "                           CBUF_UNDERFLOW_ERR_FOUND      ," "0,1"
bitfld.long 0x00 12. "                       CBUF_OVERFLOW_WRAP_ERR_FOUND    ," "0,1"
textline "                                              "
bitfld.long 0x00 11. " CBUF_OVERFLOW_MID_ERR_FOUND       ," "0,1"
bitfld.long 0x00 10. "                           CBUF_READ_SEQUENCE_ERR_FOUND  ," "0,1"
bitfld.long 0x00 9. "                       CBUF_VBUF_READ_START_ERR_FOUND  ," "0,1"
textline "                                              "
bitfld.long 0x00 8. " CBUF_READ_OUT_OF_RANGE_ERR_FOUND  ," "0,1"
bitfld.long 0x00 7. "                           CBUF_WRITE_SEQUENCE_ERR_FOUND ," "0,1"
bitfld.long 0x00 6. "                       CBUF_VBUF_WRITE_START_ERR_FOUND ," "0,1"
textline "                                              "
bitfld.long 0x00 5. " CBUF_WR_OUT_OF_RANGE_ERR_FOUND    ," "0,1"
bitfld.long 0x00 4. "                           CBUF_VIRTUAL_ADDR_ERR_FOUND   ," "0,1"
bitfld.long 0x00 3. "                       OUT_OF_RANGE_ERR_FOUND          ," "0,1"
textline "                                              "
bitfld.long 0x00 2. " ADDR_ERR_FOUND                    ," "0,1"
bitfld.long 0x00 1. "                           DED_ERR_FOUND                 ," "0,1"
bitfld.long 0x00 0. "                       SEC_ERR_FOUND                   ," "0,1"
group.long 0x6C++0x3
line.long 0x00 "INTR1_ENABLE_CLEAR,Read indicates interrupt enable (0=disabled, 1=enabled) Writing 1 will clear interrupt enabled. Writing 0 has no effect. Interrupt_enable_clear"
eventfld.long 0x00 14. " CBUF_SHORT_FRAME_DETECT_FOUND     ,CBUF detected short frame" "0,1"
eventfld.long 0x00 13. "                           CBUF_UNDERFLOW_ERR_FOUND      ," "0,1"
eventfld.long 0x00 12. "                       CBUF_OVERFLOW_WRAP_ERR_FOUND    ," "0,1"
textline "                                              "
eventfld.long 0x00 11. " CBUF_OVERFLOW_MID_ERR_FOUND       ," "0,1"
eventfld.long 0x00 10. "                           CBUF_READ_SEQUENCE_ERR_FOUND  ," "0,1"
eventfld.long 0x00 9. "                       CBUF_VBUF_READ_START_ERR_FOUND  ," "0,1"
textline "                                              "
eventfld.long 0x00 8. " CBUF_READ_OUT_OF_RANGE_ERR_FOUND  ," "0,1"
eventfld.long 0x00 7. "                           CBUF_WRITE_SEQUENCE_ERR_FOUND ," "0,1"
eventfld.long 0x00 6. "                       CBUF_VBUF_WRITE_START_ERR_FOUND ," "0,1"
textline "                                              "
eventfld.long 0x00 5. " CBUF_WR_OUT_OF_RANGE_ERR_FOUND    ," "0,1"
eventfld.long 0x00 4. "                           CBUF_VIRTUAL_ADDR_ERR_FOUND   ," "0,1"
eventfld.long 0x00 3. "                       OUT_OF_RANGE_ERR_FOUND          ," "0,1"
textline "                                              "
eventfld.long 0x00 2. " ADDR_ERR_FOUND                    ," "0,1"
eventfld.long 0x00 1. "                           DED_ERR_FOUND                 ," "0,1"
eventfld.long 0x00 0. "                       SEC_ERR_FOUND                   ," "0,1"
group.long 0x70++0x3
line.long 0x00 "OCMC_INTR1_EOI,This register contains the EOI vector."
bitfld.long 0x00 0. " EOI_VECTOR                        ," "0,1"
group.long 0x80++0x3
line.long 0x00 "CFG_OCMC_ECC,"
bitfld.long 0x00 5. " CFG_ECC_OPT_NON_ECC_READ          ,Optimize read latency for non-ECC read. Returns the data one cycle faster if the read access is from a non-ECC enabled space. 0x0: Disable 0x1: Enable" "0,1"
bitfld.long 0x00 4. "                           CFG_ECC_ERR_SRESP_EN          ,ECC non-correctable error SRESP enable. Enables ERR return on L3 OCP SRESP when a non-correctable data (DED) or address error is detected. 0x0: Disable 0x1: Enable" "0,1"
bitfld.long 0x00 3. "                       CFG_ECC_SEC_AUTO_CORRECT        ,SEC error auto correction mode. Enables the OCM Controller to automatically update the wrong data word with the corrected word. 0x0: Disable 0x1: Enable (If the OCM Controller is performing a read..." "0,1"
textline "                                              "
bitfld.long 0x00 0.--2. " CFG_OCMC_MODE                     ,OCM Controller memory access modes. 0x0: Non-ECC mode (data access) 0x1: Non-ECC mode (code access) 0x2: Full ECC enabled mode 0x3: Block ECC enabled mode 0x4-0x7: Reserved (internally defaults to 0x0 mode)" "0,1,2,3,4,5,6,7"
group.long 0x84++0x3
line.long 0x00 "CFG_OCMC_ECC_MEM_BLK,"
hexmask.long.tbyte 0x00 0.--19. 1. " CFG_ECC_ENABLED_128K_BLK          ,ECC memory block enable bits. The active level of each bit is 0x1. Bit [0] -> Address offset range 0x0 to 0x1FFFF Bit [1] -> Address offset range 0x20000 to 0x3FFFF ... Bit [19] -> Address offset..."
group.long 0x88++0x3
line.long 0x00 "CFG_OCMC_ECC_ERROR,"
bitfld.long 0x00 24. " CFG_DISCARD_DUP_ADDR              ,Do not save duplicate error address. This bit applies to the SEC, DED and ADDRERR FIFOs. 0x0: Save the duplicated addresses 0x1: Save only the unique addresses" "0,1"
bitfld.long 0x00 20.--23. "                           CFG_ADDR_ERR_CNT_MAX          ,Number of ADDR errors to trigger an interrupt (The value configured must be > 0 to generate an interrupt)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "                      CFG_DED_CNT_MAX                 ,Number of DED errors to trigger an interrupt (The value configured must be > 0 to generate an interrupt)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                              "
hexmask.long.word 0x00 0.--15. 1. " CFG_SEC_CNT_MAX                   ,Number of SEC error to trigger an interrupt (The value configured must be > 0 to generate an interrupt)."
group.long 0x8C++0x3
line.long 0x00 "CFG_OCMC_ECC_CLEAR_HIST,"
bitfld.long 0x00 3. " CLEAR_SEC_BIT_DISTR               ,Clear stored single error correction (SEC) bit distribution history. Returns 0 on read. 0x0: Reserved (not used) 0x1: Cleares the following registers:" "0,1"
bitfld.long 0x00 2. "                           CLEAR_ADDR_ERR_CNT            ,Clear stored address error history. Returns 0 on read. 0x0: Reserved (not used) 0x1: Clears the" "0,1"
bitfld.long 0x00 1. "                       CLEAR_DED_ERR_CNT               ,Clear stored double error detection (DED) history. Returns 0 on read. 0x0: Reserved (not used) 0x1: Clears the" "0,1"
textline "                                              "
bitfld.long 0x00 0. " CLEAR_SEC_ERR_CNT                 ,Clear stored single error correction history. Returns 0 on read. 0x0: Reserved (not used) 0x1: Clears the" "0,1"
rgroup.long 0x90++0x3
line.long 0x00 "STATUS_ERROR_CNT,OCM Controller error status"
bitfld.long 0x00 20.--23. " ADDR_ERROR_CNT                    ,Counter for the address errors found. This bit field is reset when 0x1 is written to the" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "                          DED_ERROR_CNT                 ,Counter for the double error detections. This bit field is reset when 0x1 is written to the" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 0.--15. 1. "                      SEC_ERROR_CNT                   ,Counter for the single errors occured. This bit field is reset when 0x1 is written to the"
rgroup.long 0x94++0x3
line.long 0x00 "STATUS_SEC_ERROR_TRACE,SEC error 128-bit memory address"
bitfld.long 0x00 18. " VALID                             ,SEC FIFO valid addres indication. - ADDRESS_TRACE_FIFO_EMPTY. - VALID_ADDRESS_READ." "ADDRESS_TRACE_FIFO_EMPTY,VALID_ADDRESS_READ"
hexmask.long.tbyte 0x00 0.--17. 1. "    ADDRESS_128BIT                ,SEC error 128-bit memory address (Read from the SEC error address trace fifo)"
rgroup.long 0x98++0x3
line.long 0x00 "STATUS_DED_ERROR_TRACE,DED error 128-bit memory address"
bitfld.long 0x00 18. " VALID                             ,DED FIFO valid addres indication. 0x0: The DED FIFO is empty 0x1: There is a valid address in the DED FIFO" "0,1"
hexmask.long.tbyte 0x00 0.--17. 1. "                           ADDRESS_128BIT                ,DED error 128-bit memory address (Read from the DED error address trace fifo)"
rgroup.long 0x9C++0x3
line.long 0x00 "STATUS_ADDR_TRANSLATION_ERROR_TRACE,ADDR error 128-bit memory address"
bitfld.long 0x00 18. " VALID                             ,ADDRERR FIFO valid addres indication. 0x0: The ADDRERR FIFO is empty 0x1: There is a valid address in the ADDRERR FIFO" "0,1"
hexmask.long.tbyte 0x00 0.--17. 1. "                           ADDRESS_128BIT                ,ADDR error 128-bit memory address (Read from the ADDR error address trace fifo)"
rgroup.long 0xA0++0x3
line.long 0x00 "STATUS_SEC_ERROR_DISTR_0,SEC data error bit distribution status [31:0]"
hexmask.long 0x00 0.--31. 1. " SEC_BIT_ERROR_FOUND               ,1 in a bit position means that an SEC error was found at that bit position and corrected"
rgroup.long 0xA4++0x3
line.long 0x00 "STATUS_SEC_ERROR_DISTR_1,SEC data error bit distribution status [63:32]"
hexmask.long 0x00 0.--31. 1. " SEC_BIT_ERROR_FOUND               ,1 in a bit position means that an SEC error was found at that bit position and corrected"
rgroup.long 0xA8++0x3
line.long 0x00 "STATUS_SEC_ERROR_DISTR_2,SEC data error bit distribution status [95:64]"
hexmask.long 0x00 0.--31. 1. " SEC_BIT_ERROR_FOUND               ,1 in a bit position means that an SEC error was found at that bit position and corrected"
rgroup.long 0xAC++0x3
line.long 0x00 "STATUS_SEC_ERROR_DISTR_3,SEC data error bit distribution status [127:96]"
hexmask.long 0x00 0.--31. 1. " SEC_BIT_ERROR_FOUND               ,1 in a bit position means that an SEC error was found at that bit position and corrected"
rgroup.long 0xB0++0x3
line.long 0x00 "STATUS_SEC_ERROR_DISTR_4,SEC ecc code error bit distribution status [7:0]"
hexmask.long.byte 0x00 0.--7. 1. " SEC_ECC_CODE_ERROR_FOUND          ,ECC Code (excluding the parity bit) error distribution [7:0]. For each bit: 0x0: SEC error not found 0x1: SEC error found In the corresponding bit location"
group.long 0x200++0x3
line.long 0x00 "CFG_OCMC_CBUF_EN,CBUF mode enable register"
bitfld.long 0x00 27. " CBUF_EN_11                        ,CBUF 11 enable. 0x0: Disable 0x1: Enable" "0,1"
bitfld.long 0x00 26. "                           CBUF_EN_10                    ,CBUF 10 enable. 0x0: Disable 0x1: Enable" "0,1"
bitfld.long 0x00 25. "                       CBUF_EN_9                       ,CBUF 9 enable. 0x0: Disable 0x1: Enable" "0,1"
textline "                                              "
bitfld.long 0x00 24. " CBUF_EN_8                         ,CBUF 8 enable. 0x0: Disable 0x1: Enable" "0,1"
bitfld.long 0x00 23. "                           CBUF_EN_7                     ,CBUF 7 enable. 0x0: Disable 0x1: Enable" "0,1"
bitfld.long 0x00 22. "                       CBUF_EN_6                       ,CBUF 6 enable. 0x0: Disable 0x1: Enable" "0,1"
textline "                                              "
bitfld.long 0x00 21. " CBUF_EN_5                         ,CBUF 5 enable. 0x0: Disable 0x1: Enable" "0,1"
bitfld.long 0x00 20. "                           CBUF_EN_4                     ,CBUF 4 enable. 0x0: Disable 0x1: Enable" "0,1"
bitfld.long 0x00 19. "                       CBUF_EN_3                       ,CBUF 3 enable. 0x0: Disable 0x1: Enable" "0,1"
textline "                                              "
bitfld.long 0x00 18. " CBUF_EN_2                         ,CBUF 2 enable. 0x0: Disable 0x1: Enable" "0,1"
bitfld.long 0x00 17. "                           CBUF_EN_1                     ,CBUF 1 enable. 0x0: Disable 0x1: Enable" "0,1"
bitfld.long 0x00 16. "                       CBUF_EN_0                       ,CBUF 0 enable. 0x0: Disable 0x1: Enable" "0,1"
textline "                                              "
bitfld.long 0x00 2. " NEW_FRAME_SEL                     ,CBUF New Frame Event Definition Select. 0x0: New frame event flag is set when a VBUF access is made to the base address of the VBUF 0x1: New frame event flag is set when a VBUF access is made to the base CBUF slice a..." "0,1"
bitfld.long 0x00 1. "                           CBUF_DEBUG_EN                 ,CBUF Debug Enable Mode. 0x0: Default Normal mode. All CBUF accesses with MReqDebug=1 are rejected. 0x1: Debug mode. MReqDebug Interconnect qualifier is ignored." "0,1"
bitfld.long 0x00 0. "                       CBUF_MODE_EN                    ,CBUF Mode Enable. 0x0: Disable all CBUF address translation 0x1: Enable CBUF address translation" "0,1"
group.long 0x204++0x3
line.long 0x00 "CFG_OCMC_CBUF_RESET,Writing 1 to bit n will set a reset bit to clear the corresponding CBUF_n address translation logic. Sliding CBUF frame tracking will be cleared so that the CBUF now points to the base of the virtual frame buffer. Normally, a reset ..."
eventfld.long 0x00 11. " CBUF_RESET_11                     ,cbuf_reset_11" "0,1"
eventfld.long 0x00 10. "                           CBUF_RESET_10                 ,cbuf_reset_10" "0,1"
eventfld.long 0x00 9. "                       CBUF_RESET_9                    ,cbuf_reset_9" "0,1"
textline "                                              "
eventfld.long 0x00 8. " CBUF_RESET_8                      ,cbuf_reset_8" "0,1"
eventfld.long 0x00 7. "                           CBUF_RESET_7                  ,cbuf_reset_7" "0,1"
eventfld.long 0x00 6. "                       CBUF_RESET_6                    ,cbuf_reset_6" "0,1"
textline "                                              "
eventfld.long 0x00 5. " CBUF_RESET_5                      ,cbuf_reset_5" "0,1"
eventfld.long 0x00 4. "                           CBUF_RESET_4                  ,cbuf_reset_4" "0,1"
eventfld.long 0x00 3. "                       CBUF_RESET_3                    ,cbuf_reset_3" "0,1"
textline "                                              "
eventfld.long 0x00 2. " CBUF_RESET_2                      ,cbuf_reset_2" "0,1"
eventfld.long 0x00 1. "                           CBUF_RESET_1                  ,cbuf_reset_1" "0,1"
eventfld.long 0x00 0. "                       CBUF_RESET_0                    ,cbuf_reset_0" "0,1"
group.long 0x208++0x3
line.long 0x00 "CFG_OCMC_CBUF_ERR_HANDLER,"
bitfld.long 0x00 8. " UNDERFLOW_LAST_CBUF_SLICE_DISABLE ,0x0: Check underflow even when read is from the last CBUF slice 0x1: Disable underflow check when read is from the last CBUF slice" "0,1"
bitfld.long 0x00 6.--7. "                           OVERFLOW_CHECK_REENABLE_SEL   ,Overflow check re-enable selection. 0x0: Overflow check is disabled until next wtire to or read from virtual frame start address is detected 0x1: Overflow check is disabled until next write to v..." "0,1,2,3"
bitfld.long 0x00 4.--5. "                       OVERFLOW_WRITE_HANDLER_SEL      ,Overflow write handler selection. 0x0: Writes disabled only on CBUF_overflow_wrap cases until next write to virtual frame start address is detected 0x1: Writes disabled on all overflow cases until..." "0,1,2,3"
textline "                                              "
bitfld.long 0x00 3. " UNDERFLOW_ERR_CHECK_EN            ,Underflow chek enable. - UNDERFLOW_CHECK_ENABLE. - UNDERFLOW_CHECK_DISABLE." "UNDERFLOW_CHECK_ENABLE,UNDERFLOW_CHECK_DISABLE"
bitfld.long 0x00 2. "     OVERFLOW_ERR_CHECK_EN         ,Overflow chek enable. - OVERFLOW_CHECK_ENABLE. - OVERFLOW_CHECK_DISABLE." "OVERFLOW_CHECK_ENABLE,OVERFLOW_CHECK_DISABLE"
bitfld.long 0x00 1. "  SHORT_FRAME_PREV_EOF_SEL        ,0x0: previous frame EOF history is set if the last write address is equal to the VBUF frame end address 0x1: previous frame EOF history is set if the last write address is in the Last CBUF slice" "0,1"
textline "                                              "
bitfld.long 0x00 0. " SHORT_FRAME_DETECT_CHECK_EN       ,Short frame detection enable. - SHORT_FRAME_DETECT_ENABLE. - SHORT_FRAME_DETECT_DISABLE." "SHORT_FRAME_DETECT_ENABLE,SHORT_FRAME_DETECT_DISABLE"
group.long 0x20C++0x3
line.long 0x00 "STATUS_CBUF_WR_OUT_OF_RANGE_ERR,"
hexmask.long.word 0x00 0.--11. 1. " CBUF_ERR                          ,Indicates that the CBUF write address is out of the CBUF range. Each bit indicates the error of this type for CBUF[n], where n = 0 to 11. Writing 0x1 to bit [n] clears the status of CBUF[n]. Reading 0x1 from bit [n] ..."
group.long 0x210++0x3
line.long 0x00 "STATUS_CBUF_WR_VBUF_START_ERR,"
hexmask.long.word 0x00 0.--11. 1. " CBUF_ERR                          ,CBUF write is not to the base address at vbuf access start. Each bit indicates the error of this type for CBUF[n], where n = 0 to 11. Writing 0x1 to bit [n] clears the status of CBUF[n]. Reading 0x1 from bit [n] mean..."
group.long 0x214++0x3
line.long 0x00 "STATUS_CBUF_WR_ADDR_SEQ_ERROR,"
hexmask.long.word 0x00 0.--11. 1. " CBUF_ERR                          ,CBUF address is not incrementing in raster scan order. Each bit indicates the error of this type for CBUF[n], where n = 0 to 11. Writing 0x1 to bit [n] clears the status of CBUF[n]. Reading 0x1 from bit [n] means tha..."
group.long 0x218++0x3
line.long 0x00 "STATUS_CBUF_RD_OUT_OF_RANGE_ERROR,"
hexmask.long.word 0x00 0.--11. 1. " CBUF_ERR                          ,Indicates that the CBUF read address is out of the CBUF range. Each bit indicates the error of this type for CBUF[n], where n = 0 to 11. Writing 0x1 to bit [n] clears the status of CBUF[n]. Reading 0x1 from bit [n] m..."
group.long 0x21C++0x3
line.long 0x00 "STATUS_CBUF_VBUF_RD_START_ERROR,"
hexmask.long.word 0x00 0.--11. 1. " CBUF_ERR                          ,CBUF read is not from the base address at VBUF access start. Each bit indicates the error of this type for CBUF[n], where n = 0 to 11. Writing 0x1 to bit [n] clears the status of CBUF[n]. Reading 0x1 from bit [n] mea..."
group.long 0x220++0x3
line.long 0x00 "STATUS_CBUF_RD_ADDR_SEQ_ERROR,"
hexmask.long.word 0x00 0.--11. 1. " CBUF_ERR                          ,CBUF read address is not incrementing in raster scan order. Each bit indicates the error of this type for CBUF[n], where n = 0 to 11. Writing 0x1 to bit [n] clears the status of CBUF[n]. Reading 0x1 from bit [n] mean..."
group.long 0x224++0x3
line.long 0x00 "STATUS_CBUF_OVERFLOW_MID,"
hexmask.long.word 0x00 0.--11. 1. " CBUF_ERR                          ,CBUF overflow condition detected in the middle of a frame. Each bit indicates the error of this type for CBUF[n], where n = 0 to 11. Writing 0x1 to bit [n] clears the status of CBUF[n]. Reading 0x1 from bit [n] means..."
group.long 0x228++0x3
line.long 0x00 "STATUS_CBUF_OVERFLOW_WRAP,"
hexmask.long.word 0x00 0.--11. 1. " CBUF_ERR                          ,CBUF overflow condition detected during buffer switching. Each bit indicates the error of this type for CBUF[n], where n = 0 to 11. Writing 0x1 to bit [n] clears the status of CBUF[n]. Reading 0x1 from bit [n] means ..."
group.long 0x22C++0x3
line.long 0x00 "STATUS_CBUF_UNDERFLOW,"
hexmask.long.word 0x00 0.--11. 1. " CBUF_ERR                          ,CBUF underflow condition detected. Each bit indicates the error of this type for CBUF[n], where n = 0 to 11. Writing 0x1 to bit [n] clears the status of CBUF[n]. Reading 0x1 from bit [n] means that the status is set."
group.long 0x230++0x3
line.long 0x00 "STATUS_CBUF_SHORT_FRAME_DETECT,"
hexmask.long.word 0x00 0.--11. 1. " CBUF_ERR                          ,CBUF short frame detected. Each bit indicates the error of this type for CBUF[n], where n = 0 to 11. Writing 0x1 to bit [n] clears the status of CBUF[n]. Reading 0x1 from bit [n] means that the status is set."
rgroup.long 0x360++0x3
line.long 0x00 "LAST_ILLEGAL_OCMC_ADDR,"
hexmask.long 0x00 0.--31. 1. " ADDR                              ,Last Illegal OCMC Address. This register returns the OCMC L3_MAIN address of the last access that was invalidated due to an OUT_OF_RANGE_ERR_FOUND (non-VBUF address) error or any one of the CBUF related access errors..."
width 0x0B
tree.end
tree "OCMC_RAM3"
base ad:0x48810000
tree "Channel_0"
width 26.
group.long 0x24C++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_0,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x248++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_0,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x244++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_0,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x240++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_0,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x304++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_0,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x300++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_0,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
tree "Channel_1"
width 26.
group.long 0x262++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_1,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x25E++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_1,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x25A++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_1,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x256++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_1,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x30C++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_1,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x308++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_1,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
tree "Channel_2"
width 26.
group.long 0x278++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_2,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x274++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_2,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x270++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_2,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x26C++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_2,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x314++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_2,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x310++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_2,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
tree "Channel_3"
width 26.
group.long 0x28E++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_3,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x28A++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_3,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x286++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_3,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x282++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_3,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x31C++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_3,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x318++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_3,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
tree "Channel_4"
width 26.
group.long 0x2A4++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_4,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x2A0++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_4,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x29C++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_4,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x298++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_4,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x324++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_4,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x320++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_4,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
tree "Channel_5"
width 26.
group.long 0x2BA++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_5,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x2B6++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_5,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x2B2++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_5,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x2AE++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_5,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x32C++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_5,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x328++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_5,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
tree "Channel_6"
width 26.
group.long 0x2D0++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_6,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x2CC++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_6,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x2C8++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_6,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x2C4++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_6,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x334++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_6,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x330++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_6,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
tree "Channel_7"
width 26.
group.long 0x2E6++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_7,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x2E2++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_7,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x2DE++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_7,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x2DA++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_7,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x33C++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_7,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x338++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_7,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
tree "Channel_8"
width 26.
group.long 0x2FC++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_8,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x2F8++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_8,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x2F4++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_8,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x2F0++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_8,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x344++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_8,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x340++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_8,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
tree "Channel_9"
width 26.
group.long 0x312++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_9,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x30E++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_9,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x30A++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_9,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x306++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_9,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x34C++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_9,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x348++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_9,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
tree "Channel_10"
width 27.
group.long 0x328++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_10,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x324++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_10,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x320++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_10,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x31C++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_10,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x354++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_10,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x350++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_10,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
tree "Channel_11"
width 27.
group.long 0x33E++0x3
line.long 0x00 "CBUF_i_OCMC_BUF_SIZE_11,"
hexmask.long.word 0x00 4.--19. 1. " BUF_SIZE ,SRAM size allocated for this CBUF - bits [19:4]"
group.long 0x33A++0x3
line.long 0x00 "CBUF_i_OCMC_START_ADDR_11,"
hexmask.long.tbyte 0x00 4.--21. 1. " ADDR     ,SRAM start address for this CBUF - bits [21:4]"
group.long 0x336++0x3
line.long 0x00 "CBUF_i_VBUF_END_ADDR_11,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame end address for this CBUF - bits [23:4]"
group.long 0x332++0x3
line.long 0x00 "CBUF_i_VBUF_START_ADDR_11,"
hexmask.long.tbyte 0x00 4.--23. 1. " ADDR     ,Virtual frame start address for this CBUF - bits [23:4]"
rgroup.long 0x35C++0x3
line.long 0x00 "CBUF_k_LAST_RD_ADDR_11,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual read address accessing CBUF"
rgroup.long 0x358++0x3
line.long 0x00 "CBUF_k_LAST_WR_ADDR_11,"
hexmask.long 0x00 0.--31. 1. " ADDR     ,Last virtual write address accessing CBUF"
tree.end
textline ""
width 37.
rgroup.long 0x0++0x3
line.long 0x00 "OCMC_ECC_PID,"
hexmask.long 0x00 0.--31. 1. " REVISION                          ,TI internal data"
group.long 0x4++0x3
line.long 0x00 "OCMC_SYSCONFIG_PM,"
bitfld.long 0x00 2.--3. " IDLEMODE                          ,Configuration of the local target state management mode. By definition, target can handle read/write transaction as long as it is out of IDLE state. - . - . - . - ." "0,1,2,3"
group.long 0x8++0x3
line.long 0x00 "OCMC_SYSCONFIG_RST,"
bitfld.long 0x00 0. " SW_RST                            ,Software reset of the OCM controller configuration and history logic (does not reset L4 interface) - NORMAL_OP. - RESET." "NORMAL_OP,RESET"
rgroup.long 0xC++0x3
line.long 0x00 "OCMC_MEM_SIZE_READ,This register provides the status of the OCM Controller configuration."
bitfld.long 0x00 12.--16. " VBUF_ADDR_MSB                     ,This bit field returns the MSB bit of the valid VBUF address range. The default value of 23 means that the valid VBUF address range is from 0x8000 0000 to 0x80FF FFFF" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 9. "                          MEM_CBUF_ENABLE               ,Indicates whether CBUF is supported or not. - CBUF_ECC_OFF. - CBUF_ECC_ON." "CBUF_ECC_OFF,CBUF_ECC_ON"
bitfld.long 0x00 8. "            MEM_ECC_ENABLE                  ,Indicates whether ECC is supported or not. - ECC_OFF. - ECC_ON." "ECC_OFF,ECC_ON"
textline "                                              "
bitfld.long 0x00 0.--4. " MEM_SIZE_128K_CNT                 ,This bit field indicates how many 128KiB memory blocks are present in the SRAM. Access beyond the memory size reported in the MEM_SIZE_128K_CNT bit field results in an address error interrupt. 0x1: One 128KiB memory ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x40++0x3
line.long 0x00 "INTR0_STATUS_RAW_SET,This register contains the raw interrupt status. Read indicates RAW interrupt status (0=inactive, 1=active). Writing 1 will SET the corresponding raw status bit (soft interrupt set). Writing 0 has no effect."
bitfld.long 0x00 14. " CBUF_SHORT_FRAME_DETECT_FOUND     ,CBUF detected short frame." "0,1"
bitfld.long 0x00 13. "                           CBUF_UNDERFLOW_ERR_FOUND      ," "0,1"
bitfld.long 0x00 12. "                       CBUF_OVERFLOW_WRAP_ERR_FOUND    ," "0,1"
textline "                                              "
bitfld.long 0x00 11. " CBUF_OVERFLOW_MID_ERR_FOUND       ," "0,1"
bitfld.long 0x00 10. "                           CBUF_READ_SEQUENCE_ERR_FOUND  ," "0,1"
bitfld.long 0x00 9. "                       CBUF_VBUF_READ_START_ERR_FOUND  ," "0,1"
textline "                                              "
bitfld.long 0x00 8. " CBUF_READ_OUT_OF_RANGE_ERR_FOUND  ," "0,1"
bitfld.long 0x00 7. "                           CBUF_WRITE_SEQUENCE_ERR_FOUND ," "0,1"
bitfld.long 0x00 6. "                       CBUF_VBUF_WRITE_START_ERR_FOUND ," "0,1"
textline "                                              "
bitfld.long 0x00 5. " CBUF_WR_OUT_OF_RANGE_ERR_FOUND    ," "0,1"
bitfld.long 0x00 4. "                           CBUF_VIRTUAL_ADDR_ERR_FOUND   ," "0,1"
bitfld.long 0x00 3. "                       OUT_OF_RANGE_ERR_FOUND          ," "0,1"
textline "                                              "
bitfld.long 0x00 2. " ADDR_ERR_FOUND                    ," "0,1"
bitfld.long 0x00 1. "                           DED_ERR_FOUND                 ," "0,1"
bitfld.long 0x00 0. "                       SEC_ERR_FOUND                   ," "0,1"
group.long 0x44++0x3
line.long 0x00 "INTR0_STATUS_ENABLED_CLEAR,Read indicates ENABLED interrupt status (0=inactive, 1=active). Writing 1 will CLEAR the corresponding enabled status bit. Writing 0 has no effect."
eventfld.long 0x00 14. " CBUF_SHORT_FRAME_DETECT_FOUND     ,CBUF detected short frame" "0,1"
eventfld.long 0x00 13. "                           CBUF_UNDERFLOW_ERR_FOUND      ," "0,1"
eventfld.long 0x00 12. "                       CBUF_OVERFLOW_WRAP_ERR_FOUND    ," "0,1"
textline "                                              "
eventfld.long 0x00 11. " CBUF_OVERFLOW_MID_ERR_FOUND       ," "0,1"
eventfld.long 0x00 10. "                           CBUF_READ_SEQUENCE_ERR_FOUND  ," "0,1"
eventfld.long 0x00 9. "                       CBUF_VBUF_READ_START_ERR_FOUND  ," "0,1"
textline "                                              "
eventfld.long 0x00 8. " CBUF_READ_OUT_OF_RANGE_ERR_FOUND  ," "0,1"
eventfld.long 0x00 7. "                           CBUF_WRITE_SEQUENCE_ERR_FOUND ," "0,1"
eventfld.long 0x00 6. "                       CBUF_VBUF_WRITE_START_ERR_FOUND ," "0,1"
textline "                                              "
eventfld.long 0x00 5. " CBUF_WR_OUT_OF_RANGE_ERR_FOUND    ," "0,1"
eventfld.long 0x00 4. "                           CBUF_VIRTUAL_ADDR_ERR_FOUND   ," "0,1"
eventfld.long 0x00 3. "                       OUT_OF_RANGE_ERR_FOUND          ," "0,1"
textline "                                              "
eventfld.long 0x00 2. " ADDR_ERR_FOUND                    ," "0,1"
eventfld.long 0x00 1. "                           DED_ERR_FOUND                 ," "0,1"
eventfld.long 0x00 0. "                       SEC_ERR_FOUND                   ," "0,1"
group.long 0x48++0x3
line.long 0x00 "INTR0_ENABLE_SET,Read indicates interrupt enable (0=disabled, 1=enabled) Writing 1 will set the corresponding interrupt enable bit. Writing 0 has no effect. Interrupt_enable_set"
bitfld.long 0x00 14. " CBUF_SHORT_FRAME_DETECT_FOUND     ,CBUF detected short frame" "0,1"
bitfld.long 0x00 13. "                           CBUF_UNDERFLOW_ERR_FOUND      ," "0,1"
bitfld.long 0x00 12. "                       CBUF_OVERFLOW_WRAP_ERR_FOUND    ," "0,1"
textline "                                              "
bitfld.long 0x00 11. " CBUF_OVERFLOW_MID_ERR_FOUND       ," "0,1"
bitfld.long 0x00 10. "                           CBUF_READ_SEQUENCE_ERR_FOUND  ," "0,1"
bitfld.long 0x00 9. "                       CBUF_VBUF_READ_START_ERR_FOUND  ," "0,1"
textline "                                              "
bitfld.long 0x00 8. " CBUF_READ_OUT_OF_RANGE_ERR_FOUND  ," "0,1"
bitfld.long 0x00 7. "                           CBUF_WRITE_SEQUENCE_ERR_FOUND ," "0,1"
bitfld.long 0x00 6. "                       CBUF_VBUF_WRITE_START_ERR_FOUND ," "0,1"
textline "                                              "
bitfld.long 0x00 5. " CBUF_WR_OUT_OF_RANGE_ERR_FOUND    ," "0,1"
bitfld.long 0x00 4. "                           CBUF_VIRTUAL_ADDR_ERR_FOUND   ," "0,1"
bitfld.long 0x00 3. "                       OUT_OF_RANGE_ERR_FOUND          ," "0,1"
textline "                                              "
bitfld.long 0x00 2. " ADDR_ERR_FOUND                    ," "0,1"
bitfld.long 0x00 1. "                           DED_ERR_FOUND                 ," "0,1"
bitfld.long 0x00 0. "                       SEC_ERR_FOUND                   ," "0,1"
group.long 0x4C++0x3
line.long 0x00 "INTR0_ENABLE_CLEAR,Read indicates interrupt enable (0=disabled, 1=enabled) Writing 1 will clear interrupt enabled. Writing 0 has no effect. Interrupt_enable_clear"
eventfld.long 0x00 14. " CBUF_SHORT_FRAME_DETECT_FOUND     ,CBUF detected short frame" "0,1"
eventfld.long 0x00 13. "                           CBUF_UNDERFLOW_ERR_FOUND      ," "0,1"
eventfld.long 0x00 12. "                       CBUF_OVERFLOW_WRAP_ERR_FOUND    ," "0,1"
textline "                                              "
eventfld.long 0x00 11. " CBUF_OVERFLOW_MID_ERR_FOUND       ," "0,1"
eventfld.long 0x00 10. "                           CBUF_READ_SEQUENCE_ERR_FOUND  ," "0,1"
eventfld.long 0x00 9. "                       CBUF_VBUF_READ_START_ERR_FOUND  ," "0,1"
textline "                                              "
eventfld.long 0x00 8. " CBUF_READ_OUT_OF_RANGE_ERR_FOUND  ," "0,1"
eventfld.long 0x00 7. "                           CBUF_WRITE_SEQUENCE_ERR_FOUND ," "0,1"
eventfld.long 0x00 6. "                       CBUF_VBUF_WRITE_START_ERR_FOUND ," "0,1"
textline "                                              "
eventfld.long 0x00 5. " CBUF_WR_OUT_OF_RANGE_ERR_FOUND    ," "0,1"
eventfld.long 0x00 4. "                           CBUF_VIRTUAL_ADDR_ERR_FOUND   ," "0,1"
eventfld.long 0x00 3. "                       OUT_OF_RANGE_ERR_FOUND          ," "0,1"
textline "                                              "
eventfld.long 0x00 2. " ADDR_ERR_FOUND                    ," "0,1"
eventfld.long 0x00 1. "                           DED_ERR_FOUND                 ," "0,1"
eventfld.long 0x00 0. "                       SEC_ERR_FOUND                   ," "0,1"
group.long 0x50++0x3
line.long 0x00 "OCMC_INTR0_EOI,This register contains the EOI vector."
bitfld.long 0x00 0. " EOI_VECTOR                        ," "0,1"
group.long 0x60++0x3
line.long 0x00 "INTR1_STATUS_RAW_SET,This register contains the raw interrupt status. Read indicates RAW interrupt status (0=inactive, 1=active). Writing 1 will SET the corresponding raw status bit (soft interrupt set). Writing 0 has no effect."
bitfld.long 0x00 14. " CBUF_SHORT_FRAME_DETECT_FOUND     ,CBUF detected short frame" "0,1"
bitfld.long 0x00 13. "                           CBUF_UNDERFLOW_ERR_FOUND      ," "0,1"
bitfld.long 0x00 12. "                       CBUF_OVERFLOW_WRAP_ERR_FOUND    ," "0,1"
textline "                                              "
bitfld.long 0x00 11. " CBUF_OVERFLOW_MID_ERR_FOUND       ," "0,1"
bitfld.long 0x00 10. "                           CBUF_READ_SEQUENCE_ERR_FOUND  ," "0,1"
bitfld.long 0x00 9. "                       CBUF_VBUF_READ_START_ERR_FOUND  ," "0,1"
textline "                                              "
bitfld.long 0x00 8. " CBUF_READ_OUT_OF_RANGE_ERR_FOUND  ," "0,1"
bitfld.long 0x00 7. "                           CBUF_WRITE_SEQUENCE_ERR_FOUND ," "0,1"
bitfld.long 0x00 6. "                       CBUF_VBUF_WRITE_START_ERR_FOUND ," "0,1"
textline "                                              "
bitfld.long 0x00 5. " CBUF_WR_OUT_OF_RANGE_ERR_FOUND    ," "0,1"
bitfld.long 0x00 4. "                           CBUF_VIRTUAL_ADDR_ERR_FOUND   ," "0,1"
bitfld.long 0x00 3. "                       OUT_OF_RANGE_ERR_FOUND          ," "0,1"
textline "                                              "
bitfld.long 0x00 2. " ADDR_ERR_FOUND                    ," "0,1"
bitfld.long 0x00 1. "                           DED_ERR_FOUND                 ," "0,1"
bitfld.long 0x00 0. "                       SEC_ERR_FOUND                   ," "0,1"
group.long 0x64++0x3
line.long 0x00 "INTR1_STATUS_ENABLED_CLEAR,Read indicates ENABLED interrupt status (0=inactive, 1=active). Writing 1 will CLEAR the corresponding enabled status bit. Writing 0 has no effect."
eventfld.long 0x00 14. " CBUF_SHORT_FRAME_DETECT_FOUND     ,CBUF detected short frame" "0,1"
eventfld.long 0x00 13. "                           CBUF_UNDERFLOW_ERR_FOUND      ," "0,1"
eventfld.long 0x00 12. "                       CBUF_OVERFLOW_WRAP_ERR_FOUND    ," "0,1"
textline "                                              "
eventfld.long 0x00 11. " CBUF_OVERFLOW_MID_ERR_FOUND       ," "0,1"
eventfld.long 0x00 10. "                           CBUF_READ_SEQUENCE_ERR_FOUND  ," "0,1"
eventfld.long 0x00 9. "                       CBUF_VBUF_READ_START_ERR_FOUND  ," "0,1"
textline "                                              "
eventfld.long 0x00 8. " CBUF_READ_OUT_OF_RANGE_ERR_FOUND  ," "0,1"
eventfld.long 0x00 7. "                           CBUF_WRITE_SEQUENCE_ERR_FOUND ," "0,1"
eventfld.long 0x00 6. "                       CBUF_VBUF_WRITE_START_ERR_FOUND ," "0,1"
textline "                                              "
eventfld.long 0x00 5. " CBUF_WR_OUT_OF_RANGE_ERR_FOUND    ," "0,1"
eventfld.long 0x00 4. "                           CBUF_VIRTUAL_ADDR_ERR_FOUND   ," "0,1"
eventfld.long 0x00 3. "                       OUT_OF_RANGE_ERR_FOUND          ," "0,1"
textline "                                              "
eventfld.long 0x00 2. " ADDR_ERR_FOUND                    ," "0,1"
eventfld.long 0x00 1. "                           DED_ERR_FOUND                 ," "0,1"
eventfld.long 0x00 0. "                       SEC_ERR_FOUND                   ," "0,1"
group.long 0x68++0x3
line.long 0x00 "INTR1_ENABLE_SET,Read indicates interrupt enable (0=disabled, 1=enabled) Writing 1 will set the corresponding interrupt enable bit. Writing 0 has no effect. Interrupt_enable_set"
bitfld.long 0x00 14. " CBUF_SHORT_FRAME_DETECT_FOUND     ,CBUF detected short frame" "0,1"
bitfld.long 0x00 13. "                           CBUF_UNDERFLOW_ERR_FOUND      ," "0,1"
bitfld.long 0x00 12. "                       CBUF_OVERFLOW_WRAP_ERR_FOUND    ," "0,1"
textline "                                              "
bitfld.long 0x00 11. " CBUF_OVERFLOW_MID_ERR_FOUND       ," "0,1"
bitfld.long 0x00 10. "                           CBUF_READ_SEQUENCE_ERR_FOUND  ," "0,1"
bitfld.long 0x00 9. "                       CBUF_VBUF_READ_START_ERR_FOUND  ," "0,1"
textline "                                              "
bitfld.long 0x00 8. " CBUF_READ_OUT_OF_RANGE_ERR_FOUND  ," "0,1"
bitfld.long 0x00 7. "                           CBUF_WRITE_SEQUENCE_ERR_FOUND ," "0,1"
bitfld.long 0x00 6. "                       CBUF_VBUF_WRITE_START_ERR_FOUND ," "0,1"
textline "                                              "
bitfld.long 0x00 5. " CBUF_WR_OUT_OF_RANGE_ERR_FOUND    ," "0,1"
bitfld.long 0x00 4. "                           CBUF_VIRTUAL_ADDR_ERR_FOUND   ," "0,1"
bitfld.long 0x00 3. "                       OUT_OF_RANGE_ERR_FOUND          ," "0,1"
textline "                                              "
bitfld.long 0x00 2. " ADDR_ERR_FOUND                    ," "0,1"
bitfld.long 0x00 1. "                           DED_ERR_FOUND                 ," "0,1"
bitfld.long 0x00 0. "                       SEC_ERR_FOUND                   ," "0,1"
group.long 0x6C++0x3
line.long 0x00 "INTR1_ENABLE_CLEAR,Read indicates interrupt enable (0=disabled, 1=enabled) Writing 1 will clear interrupt enabled. Writing 0 has no effect. Interrupt_enable_clear"
eventfld.long 0x00 14. " CBUF_SHORT_FRAME_DETECT_FOUND     ,CBUF detected short frame" "0,1"
eventfld.long 0x00 13. "                           CBUF_UNDERFLOW_ERR_FOUND      ," "0,1"
eventfld.long 0x00 12. "                       CBUF_OVERFLOW_WRAP_ERR_FOUND    ," "0,1"
textline "                                              "
eventfld.long 0x00 11. " CBUF_OVERFLOW_MID_ERR_FOUND       ," "0,1"
eventfld.long 0x00 10. "                           CBUF_READ_SEQUENCE_ERR_FOUND  ," "0,1"
eventfld.long 0x00 9. "                       CBUF_VBUF_READ_START_ERR_FOUND  ," "0,1"
textline "                                              "
eventfld.long 0x00 8. " CBUF_READ_OUT_OF_RANGE_ERR_FOUND  ," "0,1"
eventfld.long 0x00 7. "                           CBUF_WRITE_SEQUENCE_ERR_FOUND ," "0,1"
eventfld.long 0x00 6. "                       CBUF_VBUF_WRITE_START_ERR_FOUND ," "0,1"
textline "                                              "
eventfld.long 0x00 5. " CBUF_WR_OUT_OF_RANGE_ERR_FOUND    ," "0,1"
eventfld.long 0x00 4. "                           CBUF_VIRTUAL_ADDR_ERR_FOUND   ," "0,1"
eventfld.long 0x00 3. "                       OUT_OF_RANGE_ERR_FOUND          ," "0,1"
textline "                                              "
eventfld.long 0x00 2. " ADDR_ERR_FOUND                    ," "0,1"
eventfld.long 0x00 1. "                           DED_ERR_FOUND                 ," "0,1"
eventfld.long 0x00 0. "                       SEC_ERR_FOUND                   ," "0,1"
group.long 0x70++0x3
line.long 0x00 "OCMC_INTR1_EOI,This register contains the EOI vector."
bitfld.long 0x00 0. " EOI_VECTOR                        ," "0,1"
group.long 0x80++0x3
line.long 0x00 "CFG_OCMC_ECC,"
bitfld.long 0x00 5. " CFG_ECC_OPT_NON_ECC_READ          ,Optimize read latency for non-ECC read. Returns the data one cycle faster if the read access is from a non-ECC enabled space. 0x0: Disable 0x1: Enable" "0,1"
bitfld.long 0x00 4. "                           CFG_ECC_ERR_SRESP_EN          ,ECC non-correctable error SRESP enable. Enables ERR return on L3 OCP SRESP when a non-correctable data (DED) or address error is detected. 0x0: Disable 0x1: Enable" "0,1"
bitfld.long 0x00 3. "                       CFG_ECC_SEC_AUTO_CORRECT        ,SEC error auto correction mode. Enables the OCM Controller to automatically update the wrong data word with the corrected word. 0x0: Disable 0x1: Enable (If the OCM Controller is performing a read..." "0,1"
textline "                                              "
bitfld.long 0x00 0.--2. " CFG_OCMC_MODE                     ,OCM Controller memory access modes. 0x0: Non-ECC mode (data access) 0x1: Non-ECC mode (code access) 0x2: Full ECC enabled mode 0x3: Block ECC enabled mode 0x4-0x7: Reserved (internally defaults to 0x0 mode)" "0,1,2,3,4,5,6,7"
group.long 0x84++0x3
line.long 0x00 "CFG_OCMC_ECC_MEM_BLK,"
hexmask.long.tbyte 0x00 0.--19. 1. " CFG_ECC_ENABLED_128K_BLK          ,ECC memory block enable bits. The active level of each bit is 0x1. Bit [0] -> Address offset range 0x0 to 0x1FFFF Bit [1] -> Address offset range 0x20000 to 0x3FFFF ... Bit [19] -> Address offset..."
group.long 0x88++0x3
line.long 0x00 "CFG_OCMC_ECC_ERROR,"
bitfld.long 0x00 24. " CFG_DISCARD_DUP_ADDR              ,Do not save duplicate error address. This bit applies to the SEC, DED and ADDRERR FIFOs. 0x0: Save the duplicated addresses 0x1: Save only the unique addresses" "0,1"
bitfld.long 0x00 20.--23. "                           CFG_ADDR_ERR_CNT_MAX          ,Number of ADDR errors to trigger an interrupt (The value configured must be > 0 to generate an interrupt)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "                      CFG_DED_CNT_MAX                 ,Number of DED errors to trigger an interrupt (The value configured must be > 0 to generate an interrupt)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                              "
hexmask.long.word 0x00 0.--15. 1. " CFG_SEC_CNT_MAX                   ,Number of SEC error to trigger an interrupt (The value configured must be > 0 to generate an interrupt)."
group.long 0x8C++0x3
line.long 0x00 "CFG_OCMC_ECC_CLEAR_HIST,"
bitfld.long 0x00 3. " CLEAR_SEC_BIT_DISTR               ,Clear stored single error correction (SEC) bit distribution history. Returns 0 on read. 0x0: Reserved (not used) 0x1: Cleares the following registers:" "0,1"
bitfld.long 0x00 2. "                           CLEAR_ADDR_ERR_CNT            ,Clear stored address error history. Returns 0 on read. 0x0: Reserved (not used) 0x1: Clears the" "0,1"
bitfld.long 0x00 1. "                       CLEAR_DED_ERR_CNT               ,Clear stored double error detection (DED) history. Returns 0 on read. 0x0: Reserved (not used) 0x1: Clears the" "0,1"
textline "                                              "
bitfld.long 0x00 0. " CLEAR_SEC_ERR_CNT                 ,Clear stored single error correction history. Returns 0 on read. 0x0: Reserved (not used) 0x1: Clears the" "0,1"
rgroup.long 0x90++0x3
line.long 0x00 "STATUS_ERROR_CNT,OCM Controller error status"
bitfld.long 0x00 20.--23. " ADDR_ERROR_CNT                    ,Counter for the address errors found. This bit field is reset when 0x1 is written to the" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "                          DED_ERROR_CNT                 ,Counter for the double error detections. This bit field is reset when 0x1 is written to the" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 0.--15. 1. "                      SEC_ERROR_CNT                   ,Counter for the single errors occured. This bit field is reset when 0x1 is written to the"
rgroup.long 0x94++0x3
line.long 0x00 "STATUS_SEC_ERROR_TRACE,SEC error 128-bit memory address"
bitfld.long 0x00 18. " VALID                             ,SEC FIFO valid addres indication. - ADDRESS_TRACE_FIFO_EMPTY. - VALID_ADDRESS_READ." "ADDRESS_TRACE_FIFO_EMPTY,VALID_ADDRESS_READ"
hexmask.long.tbyte 0x00 0.--17. 1. "    ADDRESS_128BIT                ,SEC error 128-bit memory address (Read from the SEC error address trace fifo)"
rgroup.long 0x98++0x3
line.long 0x00 "STATUS_DED_ERROR_TRACE,DED error 128-bit memory address"
bitfld.long 0x00 18. " VALID                             ,DED FIFO valid addres indication. 0x0: The DED FIFO is empty 0x1: There is a valid address in the DED FIFO" "0,1"
hexmask.long.tbyte 0x00 0.--17. 1. "                           ADDRESS_128BIT                ,DED error 128-bit memory address (Read from the DED error address trace fifo)"
rgroup.long 0x9C++0x3
line.long 0x00 "STATUS_ADDR_TRANSLATION_ERROR_TRACE,ADDR error 128-bit memory address"
bitfld.long 0x00 18. " VALID                             ,ADDRERR FIFO valid addres indication. 0x0: The ADDRERR FIFO is empty 0x1: There is a valid address in the ADDRERR FIFO" "0,1"
hexmask.long.tbyte 0x00 0.--17. 1. "                           ADDRESS_128BIT                ,ADDR error 128-bit memory address (Read from the ADDR error address trace fifo)"
rgroup.long 0xA0++0x3
line.long 0x00 "STATUS_SEC_ERROR_DISTR_0,SEC data error bit distribution status [31:0]"
hexmask.long 0x00 0.--31. 1. " SEC_BIT_ERROR_FOUND               ,1 in a bit position means that an SEC error was found at that bit position and corrected"
rgroup.long 0xA4++0x3
line.long 0x00 "STATUS_SEC_ERROR_DISTR_1,SEC data error bit distribution status [63:32]"
hexmask.long 0x00 0.--31. 1. " SEC_BIT_ERROR_FOUND               ,1 in a bit position means that an SEC error was found at that bit position and corrected"
rgroup.long 0xA8++0x3
line.long 0x00 "STATUS_SEC_ERROR_DISTR_2,SEC data error bit distribution status [95:64]"
hexmask.long 0x00 0.--31. 1. " SEC_BIT_ERROR_FOUND               ,1 in a bit position means that an SEC error was found at that bit position and corrected"
rgroup.long 0xAC++0x3
line.long 0x00 "STATUS_SEC_ERROR_DISTR_3,SEC data error bit distribution status [127:96]"
hexmask.long 0x00 0.--31. 1. " SEC_BIT_ERROR_FOUND               ,1 in a bit position means that an SEC error was found at that bit position and corrected"
rgroup.long 0xB0++0x3
line.long 0x00 "STATUS_SEC_ERROR_DISTR_4,SEC ecc code error bit distribution status [7:0]"
hexmask.long.byte 0x00 0.--7. 1. " SEC_ECC_CODE_ERROR_FOUND          ,ECC Code (excluding the parity bit) error distribution [7:0]. For each bit: 0x0: SEC error not found 0x1: SEC error found In the corresponding bit location"
group.long 0x200++0x3
line.long 0x00 "CFG_OCMC_CBUF_EN,CBUF mode enable register"
bitfld.long 0x00 27. " CBUF_EN_11                        ,CBUF 11 enable. 0x0: Disable 0x1: Enable" "0,1"
bitfld.long 0x00 26. "                           CBUF_EN_10                    ,CBUF 10 enable. 0x0: Disable 0x1: Enable" "0,1"
bitfld.long 0x00 25. "                       CBUF_EN_9                       ,CBUF 9 enable. 0x0: Disable 0x1: Enable" "0,1"
textline "                                              "
bitfld.long 0x00 24. " CBUF_EN_8                         ,CBUF 8 enable. 0x0: Disable 0x1: Enable" "0,1"
bitfld.long 0x00 23. "                           CBUF_EN_7                     ,CBUF 7 enable. 0x0: Disable 0x1: Enable" "0,1"
bitfld.long 0x00 22. "                       CBUF_EN_6                       ,CBUF 6 enable. 0x0: Disable 0x1: Enable" "0,1"
textline "                                              "
bitfld.long 0x00 21. " CBUF_EN_5                         ,CBUF 5 enable. 0x0: Disable 0x1: Enable" "0,1"
bitfld.long 0x00 20. "                           CBUF_EN_4                     ,CBUF 4 enable. 0x0: Disable 0x1: Enable" "0,1"
bitfld.long 0x00 19. "                       CBUF_EN_3                       ,CBUF 3 enable. 0x0: Disable 0x1: Enable" "0,1"
textline "                                              "
bitfld.long 0x00 18. " CBUF_EN_2                         ,CBUF 2 enable. 0x0: Disable 0x1: Enable" "0,1"
bitfld.long 0x00 17. "                           CBUF_EN_1                     ,CBUF 1 enable. 0x0: Disable 0x1: Enable" "0,1"
bitfld.long 0x00 16. "                       CBUF_EN_0                       ,CBUF 0 enable. 0x0: Disable 0x1: Enable" "0,1"
textline "                                              "
bitfld.long 0x00 2. " NEW_FRAME_SEL                     ,CBUF New Frame Event Definition Select. 0x0: New frame event flag is set when a VBUF access is made to the base address of the VBUF 0x1: New frame event flag is set when a VBUF access is made to the base CBUF slice a..." "0,1"
bitfld.long 0x00 1. "                           CBUF_DEBUG_EN                 ,CBUF Debug Enable Mode. 0x0: Default Normal mode. All CBUF accesses with MReqDebug=1 are rejected. 0x1: Debug mode. MReqDebug Interconnect qualifier is ignored." "0,1"
bitfld.long 0x00 0. "                       CBUF_MODE_EN                    ,CBUF Mode Enable. 0x0: Disable all CBUF address translation 0x1: Enable CBUF address translation" "0,1"
group.long 0x204++0x3
line.long 0x00 "CFG_OCMC_CBUF_RESET,Writing 1 to bit n will set a reset bit to clear the corresponding CBUF_n address translation logic. Sliding CBUF frame tracking will be cleared so that the CBUF now points to the base of the virtual frame buffer. Normally, a reset ..."
eventfld.long 0x00 11. " CBUF_RESET_11                     ,cbuf_reset_11" "0,1"
eventfld.long 0x00 10. "                           CBUF_RESET_10                 ,cbuf_reset_10" "0,1"
eventfld.long 0x00 9. "                       CBUF_RESET_9                    ,cbuf_reset_9" "0,1"
textline "                                              "
eventfld.long 0x00 8. " CBUF_RESET_8                      ,cbuf_reset_8" "0,1"
eventfld.long 0x00 7. "                           CBUF_RESET_7                  ,cbuf_reset_7" "0,1"
eventfld.long 0x00 6. "                       CBUF_RESET_6                    ,cbuf_reset_6" "0,1"
textline "                                              "
eventfld.long 0x00 5. " CBUF_RESET_5                      ,cbuf_reset_5" "0,1"
eventfld.long 0x00 4. "                           CBUF_RESET_4                  ,cbuf_reset_4" "0,1"
eventfld.long 0x00 3. "                       CBUF_RESET_3                    ,cbuf_reset_3" "0,1"
textline "                                              "
eventfld.long 0x00 2. " CBUF_RESET_2                      ,cbuf_reset_2" "0,1"
eventfld.long 0x00 1. "                           CBUF_RESET_1                  ,cbuf_reset_1" "0,1"
eventfld.long 0x00 0. "                       CBUF_RESET_0                    ,cbuf_reset_0" "0,1"
group.long 0x208++0x3
line.long 0x00 "CFG_OCMC_CBUF_ERR_HANDLER,"
bitfld.long 0x00 8. " UNDERFLOW_LAST_CBUF_SLICE_DISABLE ,0x0: Check underflow even when read is from the last CBUF slice 0x1: Disable underflow check when read is from the last CBUF slice" "0,1"
bitfld.long 0x00 6.--7. "                           OVERFLOW_CHECK_REENABLE_SEL   ,Overflow check re-enable selection. 0x0: Overflow check is disabled until next wtire to or read from virtual frame start address is detected 0x1: Overflow check is disabled until next write to v..." "0,1,2,3"
bitfld.long 0x00 4.--5. "                       OVERFLOW_WRITE_HANDLER_SEL      ,Overflow write handler selection. 0x0: Writes disabled only on CBUF_overflow_wrap cases until next write to virtual frame start address is detected 0x1: Writes disabled on all overflow cases until..." "0,1,2,3"
textline "                                              "
bitfld.long 0x00 3. " UNDERFLOW_ERR_CHECK_EN            ,Underflow chek enable. - UNDERFLOW_CHECK_ENABLE. - UNDERFLOW_CHECK_DISABLE." "UNDERFLOW_CHECK_ENABLE,UNDERFLOW_CHECK_DISABLE"
bitfld.long 0x00 2. "     OVERFLOW_ERR_CHECK_EN         ,Overflow chek enable. - OVERFLOW_CHECK_ENABLE. - OVERFLOW_CHECK_DISABLE." "OVERFLOW_CHECK_ENABLE,OVERFLOW_CHECK_DISABLE"
bitfld.long 0x00 1. "  SHORT_FRAME_PREV_EOF_SEL        ,0x0: previous frame EOF history is set if the last write address is equal to the VBUF frame end address 0x1: previous frame EOF history is set if the last write address is in the Last CBUF slice" "0,1"
textline "                                              "
bitfld.long 0x00 0. " SHORT_FRAME_DETECT_CHECK_EN       ,Short frame detection enable. - SHORT_FRAME_DETECT_ENABLE. - SHORT_FRAME_DETECT_DISABLE." "SHORT_FRAME_DETECT_ENABLE,SHORT_FRAME_DETECT_DISABLE"
group.long 0x20C++0x3
line.long 0x00 "STATUS_CBUF_WR_OUT_OF_RANGE_ERR,"
hexmask.long.word 0x00 0.--11. 1. " CBUF_ERR                          ,Indicates that the CBUF write address is out of the CBUF range. Each bit indicates the error of this type for CBUF[n], where n = 0 to 11. Writing 0x1 to bit [n] clears the status of CBUF[n]. Reading 0x1 from bit [n] ..."
group.long 0x210++0x3
line.long 0x00 "STATUS_CBUF_WR_VBUF_START_ERR,"
hexmask.long.word 0x00 0.--11. 1. " CBUF_ERR                          ,CBUF write is not to the base address at vbuf access start. Each bit indicates the error of this type for CBUF[n], where n = 0 to 11. Writing 0x1 to bit [n] clears the status of CBUF[n]. Reading 0x1 from bit [n] mean..."
group.long 0x214++0x3
line.long 0x00 "STATUS_CBUF_WR_ADDR_SEQ_ERROR,"
hexmask.long.word 0x00 0.--11. 1. " CBUF_ERR                          ,CBUF address is not incrementing in raster scan order. Each bit indicates the error of this type for CBUF[n], where n = 0 to 11. Writing 0x1 to bit [n] clears the status of CBUF[n]. Reading 0x1 from bit [n] means tha..."
group.long 0x218++0x3
line.long 0x00 "STATUS_CBUF_RD_OUT_OF_RANGE_ERROR,"
hexmask.long.word 0x00 0.--11. 1. " CBUF_ERR                          ,Indicates that the CBUF read address is out of the CBUF range. Each bit indicates the error of this type for CBUF[n], where n = 0 to 11. Writing 0x1 to bit [n] clears the status of CBUF[n]. Reading 0x1 from bit [n] m..."
group.long 0x21C++0x3
line.long 0x00 "STATUS_CBUF_VBUF_RD_START_ERROR,"
hexmask.long.word 0x00 0.--11. 1. " CBUF_ERR                          ,CBUF read is not from the base address at VBUF access start. Each bit indicates the error of this type for CBUF[n], where n = 0 to 11. Writing 0x1 to bit [n] clears the status of CBUF[n]. Reading 0x1 from bit [n] mea..."
group.long 0x220++0x3
line.long 0x00 "STATUS_CBUF_RD_ADDR_SEQ_ERROR,"
hexmask.long.word 0x00 0.--11. 1. " CBUF_ERR                          ,CBUF read address is not incrementing in raster scan order. Each bit indicates the error of this type for CBUF[n], where n = 0 to 11. Writing 0x1 to bit [n] clears the status of CBUF[n]. Reading 0x1 from bit [n] mean..."
group.long 0x224++0x3
line.long 0x00 "STATUS_CBUF_OVERFLOW_MID,"
hexmask.long.word 0x00 0.--11. 1. " CBUF_ERR                          ,CBUF overflow condition detected in the middle of a frame. Each bit indicates the error of this type for CBUF[n], where n = 0 to 11. Writing 0x1 to bit [n] clears the status of CBUF[n]. Reading 0x1 from bit [n] means..."
group.long 0x228++0x3
line.long 0x00 "STATUS_CBUF_OVERFLOW_WRAP,"
hexmask.long.word 0x00 0.--11. 1. " CBUF_ERR                          ,CBUF overflow condition detected during buffer switching. Each bit indicates the error of this type for CBUF[n], where n = 0 to 11. Writing 0x1 to bit [n] clears the status of CBUF[n]. Reading 0x1 from bit [n] means ..."
group.long 0x22C++0x3
line.long 0x00 "STATUS_CBUF_UNDERFLOW,"
hexmask.long.word 0x00 0.--11. 1. " CBUF_ERR                          ,CBUF underflow condition detected. Each bit indicates the error of this type for CBUF[n], where n = 0 to 11. Writing 0x1 to bit [n] clears the status of CBUF[n]. Reading 0x1 from bit [n] means that the status is set."
group.long 0x230++0x3
line.long 0x00 "STATUS_CBUF_SHORT_FRAME_DETECT,"
hexmask.long.word 0x00 0.--11. 1. " CBUF_ERR                          ,CBUF short frame detected. Each bit indicates the error of this type for CBUF[n], where n = 0 to 11. Writing 0x1 to bit [n] clears the status of CBUF[n]. Reading 0x1 from bit [n] means that the status is set."
rgroup.long 0x360++0x3
line.long 0x00 "LAST_ILLEGAL_OCMC_ADDR,"
hexmask.long 0x00 0.--31. 1. " ADDR                              ,Last Illegal OCMC Address. This register returns the OCMC L3_MAIN address of the last access that was invalidated due to an OUT_OF_RANGE_ERR_FOUND (non-VBUF address) error or any one of the CBUF related access errors..."
width 0x0B
tree.end
tree.end
tree.end
tree.open "Enhanced_DMA"
tree.open "EVE1_EDMA_TPTC0"
tree "EVE1_EDMA_TPTC0"
base ad:0x42086000
tree "DMA_Channel_0"
width 24.
rgroup.long 0x310++0x3
line.long 0x00 "EDMA_TPTCn_DFBIDXi_0,The destination FIFO B-index register"
hexmask.long.word 0x00 16.--31. 1. " DBIDX  ,Dest B-Idx for Dest FIFO Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACN..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX   ,Dest B-Idx for Dest FIFO Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays..."
rgroup.long 0x308++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTi_0,Destination FIFO count register"
hexmask.long.word 0x00 16.--31. 1. " BCNT   ,B-Count Remaining for Dst Register Set: Number of arrays to be transferred, where each array is ACNT in length. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT    ,A-Count Remaining for Dst Register Set: Number of bytes to be transferred in first dimension. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
rgroup.long 0x30C++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTi_0,The destination FIFO destination address register"
hexmask.long 0x00 0.--31. 1. " DADDR  ,Destination address for Dst FIFO Register Set: Initial value is copied from EDMA_TPTCn_PDST[31:0] DADDR. TC updates value according to destination addressing mode (EDMA_TPCC_OPT_n. SAM) and/or dest index value (BIDX. DBIDX) after each write co..."
rgroup.long 0x314++0x3
line.long 0x00 "EDMA_TPTCn_DFMPPRXYi_0,The destination FIFO memory protection proxy register"
bitfld.long 0x00 8. " PRIV   ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "  PRIVID  ,Privilege ID: DFMPPRXY0.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the valu..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x300++0x3
line.long 0x00 "EDMA_TPTCn_DFOPTi_0,Destination FIFO Set Options"
bitfld.long 0x00 22. " TCCHEN ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "           TCC ,Transfer Complete Code The 6-bit code is used to set the relevant bit in CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID   ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                     PRI     ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "  DAM ,Destination Address Mode within an array - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " SAM    ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x304++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCi_0,Destination FIFO source address register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDR  ,Source address is not applicable for Dst FIFO Register Set: Reads return 0x0."
tree.end
tree "DMA_Channel_1"
width 24.
rgroup.long 0x350++0x3
line.long 0x00 "EDMA_TPTCn_DFBIDXi_1,The destination FIFO B-index register"
hexmask.long.word 0x00 16.--31. 1. " DBIDX  ,Dest B-Idx for Dest FIFO Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACN..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX   ,Dest B-Idx for Dest FIFO Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays..."
rgroup.long 0x348++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTi_1,Destination FIFO count register"
hexmask.long.word 0x00 16.--31. 1. " BCNT   ,B-Count Remaining for Dst Register Set: Number of arrays to be transferred, where each array is ACNT in length. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT    ,A-Count Remaining for Dst Register Set: Number of bytes to be transferred in first dimension. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
rgroup.long 0x34C++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTi_1,The destination FIFO destination address register"
hexmask.long 0x00 0.--31. 1. " DADDR  ,Destination address for Dst FIFO Register Set: Initial value is copied from EDMA_TPTCn_PDST[31:0] DADDR. TC updates value according to destination addressing mode (EDMA_TPCC_OPT_n. SAM) and/or dest index value (BIDX. DBIDX) after each write co..."
rgroup.long 0x354++0x3
line.long 0x00 "EDMA_TPTCn_DFMPPRXYi_1,The destination FIFO memory protection proxy register"
bitfld.long 0x00 8. " PRIV   ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "  PRIVID  ,Privilege ID: DFMPPRXY0.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the valu..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x340++0x3
line.long 0x00 "EDMA_TPTCn_DFOPTi_1,Destination FIFO Set Options"
bitfld.long 0x00 22. " TCCHEN ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "           TCC ,Transfer Complete Code The 6-bit code is used to set the relevant bit in CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID   ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                     PRI     ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "  DAM ,Destination Address Mode within an array - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " SAM    ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x344++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCi_1,Destination FIFO source address register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDR  ,Source address is not applicable for Dst FIFO Register Set: Reads return 0x0."
tree.end
textline ""
width 22.
rgroup.long 0x100++0x3
line.long 0x00 "EDMA_TPTCn_TCSTAT,TC Status Register"
bitfld.long 0x00 11.--12. " DFSTRTPTR ,Dst FIFO Start Pointer Represents the offset to the head entry of Dst Register FIFO, in units of *entries*. Legal values = 0x0 to 0x3" "0,1,2,3"
bitfld.long 0x00 8. "                        ACTV      ,Channel Active Channel Active is a logical-OR of each of the *BUSY/ACTV signals. The ACTV bit must remain high through the life of a TR. - . - ." "Channel_is_idle,Channel_is_busy"
bitfld.long 0x00 4.--6. "         DSTACTV  ,Destination Active State Specifies the number of TRs that are resident in the Dst Register FIFO at a given instant. Legal values are constrained by the DSTREGDEPTH parameter." "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 2. " WSACTV    ,Write Status Active - . - ." "0,1"
bitfld.long 0x00 1. "                        SRCACTV   ,Source Active State - . - ." "0,1"
bitfld.long 0x00 0. "                       PROGBUSY ,Program Register Set Busy - . - ." "0,1"
rgroup.long 0x104++0x3
line.long 0x00 "EDMA_TPTCn_INTSTAT,Interrupt Status Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Status - . - ." "Condition_not_detected.,1"
bitfld.long 0x00 0. "  PROGEMPTY ,Program Set Empty Event Status - . - ." "Condition_not_detected,1"
group.long 0x108++0x3
line.long 0x00 "EDMA_TPTCn_INTEN,Interrupt Enable Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Enable - . - ." "0,1"
bitfld.long 0x00 0. "                        PROGEMPTY ,Program Set Empty Event Enable - . - ." "0,1"
wgroup.long 0x10C++0x3
line.long 0x00 "EDMA_TPTCn_INTCLR,Interrupt Clear Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Clear - . - ." "have_no_effect.,Clear"
bitfld.long 0x00 0. "          PROGEMPTY ,Program Set Empty Event Clear - . - ." "have_no_effect.,Clear"
wgroup.long 0x110++0x3
line.long 0x00 "EDMA_TPTCn_INTCMD,Interrupt Command Register"
bitfld.long 0x00 1. " SET       ,Set TPTC interrupt - . - ." "have_no_affect.,1"
bitfld.long 0x00 0. "          EVAL      ,Evaluate state of TPTC interrupt - . - ." "have_no_affect.,1"
rgroup.long 0x120++0x3
line.long 0x00 "EDMA_TPTCn_ERRSTAT,Error Status Register"
bitfld.long 0x00 3. " MMRAERR   ,MR Address Error - . - ." "Condition_not_detected,1"
bitfld.long 0x00 2. "   TRERR     ,TR Error: TR detected that violates FIFO Mode transfer (SAM or DAM is '1') alignment rules or has ACNT or BCNT == 0. No additional error information is recorded." "0,1"
bitfld.long 0x00 0. "                       BUSERR   ,Bus Error Event - . - ." "Condition_not_detected.,1"
group.long 0x124++0x3
line.long 0x00 "EDMA_TPTCn_ERREN,Error Enable Register"
bitfld.long 0x00 3. " MMRAERR   ,Interrupt enable forEDMA_TPTCn_ERRSTAT[3] MMRAERR - . - ." "BUSERR_is_disabled,1"
bitfld.long 0x00 2. "       TRERR     ,Interrupt enable forEDMA_TPTCn_ERRSTAT[2] TRERR - . - ." "BUSERR_is_disabled.,1"
bitfld.long 0x00 0. "     BUSERR   ,Interrupt enable forEDMA_TPTCn_ERRSTAT[0] BUSERR - . - ." "BUSERR_is_disabled.,1"
wgroup.long 0x128++0x3
line.long 0x00 "EDMA_TPTCn_ERRCLR,Error Clear Register"
bitfld.long 0x00 3. " MMRAERR   ,Interrupt clear forEDMA_TPTCn_ERRSTAT[3] MMRAERR - . - ." "have_no_effect,1"
bitfld.long 0x00 2. "           TRERR     ,Interrupt clear forEDMA_TPTCn_ERRSTAT[2] TRERR - . - ." "have_no_effect,1"
bitfld.long 0x00 0. "          BUSERR   ,Interrupt clear forEDMA_TPTCn_ERRSTAT[0] BUSERR - . - ." "have_no_effect,1"
rgroup.long 0x12C++0x3
line.long 0x00 "EDMA_TPTCn_ERRDET,Error Details Register"
bitfld.long 0x00 17. " TCCHEN    ,Contains theEDMA_TPCC_OPT_n[17] TCCHEN value programmed by the user for the Read or Write transaction that resulted in an error." "0,1"
bitfld.long 0x00 16. "                        TCINTEN   ,Contains theEDMA_TPCC_OPT_n[16] TCINTEN value programmed by the user for the Read or Write transaction that resulted in an error." "0,1"
bitfld.long 0x00 8.--13. "                       TCC      ,Transfer Complete Code: Contains theEDMA_TPCC_OPT_n[13:8] TCC value programmed by the user for the Read or Write transaction that resulted in an error." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0.--3. " STAT      ,Transaction Status: Stores the non-zero status/error code that was detected on the read status or write status bus. MS-bit effectively serves as the read vs. write error code. If read status and write status are returned on the same cycle, ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
wgroup.long 0x130++0x3
line.long 0x00 "EDMA_TPTCn_ERRCMD,Error Command Register"
bitfld.long 0x00 1. " SET       ,Set TPTC error interrupt - . - ." "have_no_affect,1"
bitfld.long 0x00 0. "           EVAL      ,Evaluate state of TPTC error interrupt Write of '1' - . - ." "have_no_affect,1"
group.long 0x140++0x3
line.long 0x00 "EDMA_TPTCn_RDRATE,Read Rate Register"
bitfld.long 0x00 0.--2. " RDRATE    ,Read Rate Control: Controls the number of cycles between read commands. This is a global setting that applies to all TRs for this TC." "0,1,2,3,4,5,6,7"
group.long 0x200++0x3
line.long 0x00 "EDMA_TPTCn_POPT,Program Set Options"
bitfld.long 0x00 22. " TCCHEN    ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                        TCINTEN   ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "                       TCC      ,Transfer Complete Code: The 6-bit code is used to set the relevant bit in CER orEDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 8.--10. " FWID      ,FIFO width control: Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                        PRI       ,Transfer Priority: 0x0: Priority 0 - Highest priority 0x1: Priority 1 ... 0x7: Priority 7 - Lowest priority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 1. "                       DAM      ,Destination Address Mode within an array - . - ." "0,1"
textline "                               "
bitfld.long 0x00 0. " SAM       ,Source Address Mode within an array - . - ." "0,1"
group.long 0x204++0x3
line.long 0x00 "EDMA_TPTCn_PSRC,Program Set Source Address"
hexmask.long 0x00 0.--31. 1. " SADDR     ,Source address for Program Register Set"
group.long 0x208++0x3
line.long 0x00 "EDMA_TPTCn_PCNT,Program Set Count"
hexmask.long.word 0x00 16.--31. 1. " BCNT      ,B-Dimension count. Number of arrays to be transferred, where each array is ACNT in length."
hexmask.long.word 0x00 0.--15. 1. "                     ACNT      ,A-Dimension count. Number of bytes to be transferred in first dimension."
group.long 0x20C++0x3
line.long 0x00 "EDMA_TPTCn_PDST,Program Set Destination Address"
hexmask.long 0x00 0.--31. 1. " DADDR     ,Destination address for Program Register Set"
group.long 0x210++0x3
line.long 0x00 "EDMA_TPTCn_PBIDX,Program Set B-Dim Idx"
hexmask.long.word 0x00 16.--31. 1. " DBIDX     ,Dest B-Idx for Program Register Set: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACNT elements). DBIDX is always used, ..."
hexmask.long.word 0x00 0.--15. 1. "                     SBIDX     ,Source B-Idx for Program Register Set: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays of ACNT elements). SBIDX is a..."
rgroup.long 0x214++0x3
line.long 0x00 "EDMA_TPTCn_PMPPRXY,Program Set Memory Protect Proxy"
bitfld.long 0x00 8. " PRIV      ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "     PRIVID    ,Privilege ID: EDMA_TPTCn_PMPPRXY.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x240++0x3
line.long 0x00 "EDMA_TPTCn_SAOPT,Source Actve Set Options"
bitfld.long 0x00 22. " TCCHEN    ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                        TCINTEN   ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "                       TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 8.--10. " FWID      ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                        PRI       ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "              DAM      ,Destination Address Mode within an array - . - ." "0,1"
textline "                               "
bitfld.long 0x00 0. " SAM       ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x244++0x3
line.long 0x00 "EDMA_TPTCn_SASRC,Source Active Set Source Address"
hexmask.long 0x00 0.--31. 1. " SADDR     ,Source address for Source Active Register Set: Initial value is copied from EDMA_TPTCn_PSRC.SADDR. TC updates value according to source addressing mode (EDMA_TPCC_OPT_n.SAM) and/or source index value (BIDX.SBIDX) after each read command is ..."
rgroup.long 0x248++0x3
line.long 0x00 "EDMA_TPTCn_SACNT,Source Active Set Count"
hexmask.long.word 0x00 16.--31. 1. " BCNT      ,B-Dimension count: Number of arrays to be transferred, where each array is ACNT in length. Count Remaining for Source Active Register Set. Represents the amount of data remaining to be read. Initial value is copied from EDMA_TPTCn_PCNT. TC ..."
hexmask.long.word 0x00 0.--15. 1. "                     ACNT      ,A-Dimension count: Number of bytes to be transferred in first dimension. Count Remaining for Source Active Register Set. Represents the amount of data remaining to be read. Initial value is copied from EDMA_TPTCn_PCNT. T..."
rgroup.long 0x250++0x3
line.long 0x00 "EDMA_TPTCn_SABIDX,Source Active Set B-Dim Idx"
hexmask.long.word 0x00 16.--31. 1. " DBIDX     ,Destination B-Idx for Source Active Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT..."
hexmask.long.word 0x00 0.--15. 1. "                     SBIDX     ,Source B-Idx for Source Active Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are ..."
rgroup.long 0x254++0x3
line.long 0x00 "EDMA_TPTCn_SAMPPRXY,Source Active Set Mem Protect Proxy"
bitfld.long 0x00 8. " PRIV      ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "     PRIVID    ,Privilege ID SAMPPRXY.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the v..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x258++0x3
line.long 0x00 "EDMA_TPTCn_SACNTRLD,Source Active Set Count Reload"
hexmask.long.word 0x00 0.--15. 1. " ACNTRLD   ,A-Cnt Reload value for Source Active Register set. Value copied from EDMA_TPTCn_PCNT[15:0] ACNT: Represents the originally programmed value of ACNT. The Reload value is used to reinitialize ACNT after each array is serviced (i.e., ACNT decr..."
rgroup.long 0x25C++0x3
line.long 0x00 "EDMA_TPTCn_SASRCBREF,Source Active Set Source Address A-Reference"
hexmask.long 0x00 0.--31. 1. " SADDRBREF ,Source address reference for Source Active Register Set: Represents the starting address for the array currently being read. The next array's starting address is calculated as the 'reference address' plus the 'source b-idx' value."
rgroup.long 0x260++0x3
line.long 0x00 "EDMA_TPTCn_SADSTBREF,Source Active Destination Address B-Reference Register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " DADDRBREF ,Destination address reference is not applicable for Src Active Register Set. Reads return 0x0."
rgroup.long 0x280++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTRLD,Destination FIFO Set Count Reload"
hexmask.long.word 0x00 0.--15. 1. " ACNTRLD   ,A-Cnt Reload value for Destination FIFO Register set. Value copied fromEDMA_TPTCn_PCNT[15:0] ACNT: Represents the originally programmed value of ACNT. The Reload value is used to reinitialize ACNT after each array is serviced (i.e., ACNT de..."
rgroup.long 0x284++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCBREF,Destination FIFO Set Destination Address B Reference Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDRBREF ,Source address reference is not applicable for Dst FIFO Register Set. Reads return 0x0."
width 0x0B
tree.end
tree "EVE1_EDMA_TPTC1"
base ad:0x42087000
tree "DMA_Channel_0"
width 24.
rgroup.long 0x310++0x3
line.long 0x00 "EDMA_TPTCn_DFBIDXi_0,The destination FIFO B-index register"
hexmask.long.word 0x00 16.--31. 1. " DBIDX  ,Dest B-Idx for Dest FIFO Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACN..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX   ,Dest B-Idx for Dest FIFO Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays..."
rgroup.long 0x308++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTi_0,Destination FIFO count register"
hexmask.long.word 0x00 16.--31. 1. " BCNT   ,B-Count Remaining for Dst Register Set: Number of arrays to be transferred, where each array is ACNT in length. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT    ,A-Count Remaining for Dst Register Set: Number of bytes to be transferred in first dimension. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
rgroup.long 0x30C++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTi_0,The destination FIFO destination address register"
hexmask.long 0x00 0.--31. 1. " DADDR  ,Destination address for Dst FIFO Register Set: Initial value is copied from EDMA_TPTCn_PDST[31:0] DADDR. TC updates value according to destination addressing mode (EDMA_TPCC_OPT_n. SAM) and/or dest index value (BIDX. DBIDX) after each write co..."
rgroup.long 0x314++0x3
line.long 0x00 "EDMA_TPTCn_DFMPPRXYi_0,The destination FIFO memory protection proxy register"
bitfld.long 0x00 8. " PRIV   ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "  PRIVID  ,Privilege ID: DFMPPRXY0.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the valu..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x300++0x3
line.long 0x00 "EDMA_TPTCn_DFOPTi_0,Destination FIFO Set Options"
bitfld.long 0x00 22. " TCCHEN ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "           TCC ,Transfer Complete Code The 6-bit code is used to set the relevant bit in CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID   ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                     PRI     ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "  DAM ,Destination Address Mode within an array - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " SAM    ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x304++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCi_0,Destination FIFO source address register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDR  ,Source address is not applicable for Dst FIFO Register Set: Reads return 0x0."
tree.end
tree "DMA_Channel_1"
width 24.
rgroup.long 0x350++0x3
line.long 0x00 "EDMA_TPTCn_DFBIDXi_1,The destination FIFO B-index register"
hexmask.long.word 0x00 16.--31. 1. " DBIDX  ,Dest B-Idx for Dest FIFO Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACN..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX   ,Dest B-Idx for Dest FIFO Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays..."
rgroup.long 0x348++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTi_1,Destination FIFO count register"
hexmask.long.word 0x00 16.--31. 1. " BCNT   ,B-Count Remaining for Dst Register Set: Number of arrays to be transferred, where each array is ACNT in length. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT    ,A-Count Remaining for Dst Register Set: Number of bytes to be transferred in first dimension. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
rgroup.long 0x34C++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTi_1,The destination FIFO destination address register"
hexmask.long 0x00 0.--31. 1. " DADDR  ,Destination address for Dst FIFO Register Set: Initial value is copied from EDMA_TPTCn_PDST[31:0] DADDR. TC updates value according to destination addressing mode (EDMA_TPCC_OPT_n. SAM) and/or dest index value (BIDX. DBIDX) after each write co..."
rgroup.long 0x354++0x3
line.long 0x00 "EDMA_TPTCn_DFMPPRXYi_1,The destination FIFO memory protection proxy register"
bitfld.long 0x00 8. " PRIV   ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "  PRIVID  ,Privilege ID: DFMPPRXY0.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the valu..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x340++0x3
line.long 0x00 "EDMA_TPTCn_DFOPTi_1,Destination FIFO Set Options"
bitfld.long 0x00 22. " TCCHEN ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "           TCC ,Transfer Complete Code The 6-bit code is used to set the relevant bit in CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID   ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                     PRI     ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "  DAM ,Destination Address Mode within an array - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " SAM    ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x344++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCi_1,Destination FIFO source address register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDR  ,Source address is not applicable for Dst FIFO Register Set: Reads return 0x0."
tree.end
textline ""
width 22.
rgroup.long 0x100++0x3
line.long 0x00 "EDMA_TPTCn_TCSTAT,TC Status Register"
bitfld.long 0x00 11.--12. " DFSTRTPTR ,Dst FIFO Start Pointer Represents the offset to the head entry of Dst Register FIFO, in units of *entries*. Legal values = 0x0 to 0x3" "0,1,2,3"
bitfld.long 0x00 8. "                        ACTV      ,Channel Active Channel Active is a logical-OR of each of the *BUSY/ACTV signals. The ACTV bit must remain high through the life of a TR. - . - ." "Channel_is_idle,Channel_is_busy"
bitfld.long 0x00 4.--6. "         DSTACTV  ,Destination Active State Specifies the number of TRs that are resident in the Dst Register FIFO at a given instant. Legal values are constrained by the DSTREGDEPTH parameter." "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 2. " WSACTV    ,Write Status Active - . - ." "0,1"
bitfld.long 0x00 1. "                        SRCACTV   ,Source Active State - . - ." "0,1"
bitfld.long 0x00 0. "                       PROGBUSY ,Program Register Set Busy - . - ." "0,1"
rgroup.long 0x104++0x3
line.long 0x00 "EDMA_TPTCn_INTSTAT,Interrupt Status Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Status - . - ." "Condition_not_detected.,1"
bitfld.long 0x00 0. "  PROGEMPTY ,Program Set Empty Event Status - . - ." "Condition_not_detected,1"
group.long 0x108++0x3
line.long 0x00 "EDMA_TPTCn_INTEN,Interrupt Enable Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Enable - . - ." "0,1"
bitfld.long 0x00 0. "                        PROGEMPTY ,Program Set Empty Event Enable - . - ." "0,1"
wgroup.long 0x10C++0x3
line.long 0x00 "EDMA_TPTCn_INTCLR,Interrupt Clear Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Clear - . - ." "have_no_effect.,Clear"
bitfld.long 0x00 0. "          PROGEMPTY ,Program Set Empty Event Clear - . - ." "have_no_effect.,Clear"
wgroup.long 0x110++0x3
line.long 0x00 "EDMA_TPTCn_INTCMD,Interrupt Command Register"
bitfld.long 0x00 1. " SET       ,Set TPTC interrupt - . - ." "have_no_affect.,1"
bitfld.long 0x00 0. "          EVAL      ,Evaluate state of TPTC interrupt - . - ." "have_no_affect.,1"
rgroup.long 0x120++0x3
line.long 0x00 "EDMA_TPTCn_ERRSTAT,Error Status Register"
bitfld.long 0x00 3. " MMRAERR   ,MR Address Error - . - ." "Condition_not_detected,1"
bitfld.long 0x00 2. "   TRERR     ,TR Error: TR detected that violates FIFO Mode transfer (SAM or DAM is '1') alignment rules or has ACNT or BCNT == 0. No additional error information is recorded." "0,1"
bitfld.long 0x00 0. "                       BUSERR   ,Bus Error Event - . - ." "Condition_not_detected.,1"
group.long 0x124++0x3
line.long 0x00 "EDMA_TPTCn_ERREN,Error Enable Register"
bitfld.long 0x00 3. " MMRAERR   ,Interrupt enable forEDMA_TPTCn_ERRSTAT[3] MMRAERR - . - ." "BUSERR_is_disabled,1"
bitfld.long 0x00 2. "       TRERR     ,Interrupt enable forEDMA_TPTCn_ERRSTAT[2] TRERR - . - ." "BUSERR_is_disabled.,1"
bitfld.long 0x00 0. "     BUSERR   ,Interrupt enable forEDMA_TPTCn_ERRSTAT[0] BUSERR - . - ." "BUSERR_is_disabled.,1"
wgroup.long 0x128++0x3
line.long 0x00 "EDMA_TPTCn_ERRCLR,Error Clear Register"
bitfld.long 0x00 3. " MMRAERR   ,Interrupt clear forEDMA_TPTCn_ERRSTAT[3] MMRAERR - . - ." "have_no_effect,1"
bitfld.long 0x00 2. "           TRERR     ,Interrupt clear forEDMA_TPTCn_ERRSTAT[2] TRERR - . - ." "have_no_effect,1"
bitfld.long 0x00 0. "          BUSERR   ,Interrupt clear forEDMA_TPTCn_ERRSTAT[0] BUSERR - . - ." "have_no_effect,1"
rgroup.long 0x12C++0x3
line.long 0x00 "EDMA_TPTCn_ERRDET,Error Details Register"
bitfld.long 0x00 17. " TCCHEN    ,Contains theEDMA_TPCC_OPT_n[17] TCCHEN value programmed by the user for the Read or Write transaction that resulted in an error." "0,1"
bitfld.long 0x00 16. "                        TCINTEN   ,Contains theEDMA_TPCC_OPT_n[16] TCINTEN value programmed by the user for the Read or Write transaction that resulted in an error." "0,1"
bitfld.long 0x00 8.--13. "                       TCC      ,Transfer Complete Code: Contains theEDMA_TPCC_OPT_n[13:8] TCC value programmed by the user for the Read or Write transaction that resulted in an error." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0.--3. " STAT      ,Transaction Status: Stores the non-zero status/error code that was detected on the read status or write status bus. MS-bit effectively serves as the read vs. write error code. If read status and write status are returned on the same cycle, ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
wgroup.long 0x130++0x3
line.long 0x00 "EDMA_TPTCn_ERRCMD,Error Command Register"
bitfld.long 0x00 1. " SET       ,Set TPTC error interrupt - . - ." "have_no_affect,1"
bitfld.long 0x00 0. "           EVAL      ,Evaluate state of TPTC error interrupt Write of '1' - . - ." "have_no_affect,1"
group.long 0x140++0x3
line.long 0x00 "EDMA_TPTCn_RDRATE,Read Rate Register"
bitfld.long 0x00 0.--2. " RDRATE    ,Read Rate Control: Controls the number of cycles between read commands. This is a global setting that applies to all TRs for this TC." "0,1,2,3,4,5,6,7"
group.long 0x200++0x3
line.long 0x00 "EDMA_TPTCn_POPT,Program Set Options"
bitfld.long 0x00 22. " TCCHEN    ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                        TCINTEN   ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "                       TCC      ,Transfer Complete Code: The 6-bit code is used to set the relevant bit in CER orEDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 8.--10. " FWID      ,FIFO width control: Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                        PRI       ,Transfer Priority: 0x0: Priority 0 - Highest priority 0x1: Priority 1 ... 0x7: Priority 7 - Lowest priority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 1. "                       DAM      ,Destination Address Mode within an array - . - ." "0,1"
textline "                               "
bitfld.long 0x00 0. " SAM       ,Source Address Mode within an array - . - ." "0,1"
group.long 0x204++0x3
line.long 0x00 "EDMA_TPTCn_PSRC,Program Set Source Address"
hexmask.long 0x00 0.--31. 1. " SADDR     ,Source address for Program Register Set"
group.long 0x208++0x3
line.long 0x00 "EDMA_TPTCn_PCNT,Program Set Count"
hexmask.long.word 0x00 16.--31. 1. " BCNT      ,B-Dimension count. Number of arrays to be transferred, where each array is ACNT in length."
hexmask.long.word 0x00 0.--15. 1. "                     ACNT      ,A-Dimension count. Number of bytes to be transferred in first dimension."
group.long 0x20C++0x3
line.long 0x00 "EDMA_TPTCn_PDST,Program Set Destination Address"
hexmask.long 0x00 0.--31. 1. " DADDR     ,Destination address for Program Register Set"
group.long 0x210++0x3
line.long 0x00 "EDMA_TPTCn_PBIDX,Program Set B-Dim Idx"
hexmask.long.word 0x00 16.--31. 1. " DBIDX     ,Dest B-Idx for Program Register Set: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACNT elements). DBIDX is always used, ..."
hexmask.long.word 0x00 0.--15. 1. "                     SBIDX     ,Source B-Idx for Program Register Set: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays of ACNT elements). SBIDX is a..."
rgroup.long 0x214++0x3
line.long 0x00 "EDMA_TPTCn_PMPPRXY,Program Set Memory Protect Proxy"
bitfld.long 0x00 8. " PRIV      ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "     PRIVID    ,Privilege ID: EDMA_TPTCn_PMPPRXY.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x240++0x3
line.long 0x00 "EDMA_TPTCn_SAOPT,Source Actve Set Options"
bitfld.long 0x00 22. " TCCHEN    ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                        TCINTEN   ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "                       TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 8.--10. " FWID      ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                        PRI       ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "              DAM      ,Destination Address Mode within an array - . - ." "0,1"
textline "                               "
bitfld.long 0x00 0. " SAM       ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x244++0x3
line.long 0x00 "EDMA_TPTCn_SASRC,Source Active Set Source Address"
hexmask.long 0x00 0.--31. 1. " SADDR     ,Source address for Source Active Register Set: Initial value is copied from EDMA_TPTCn_PSRC.SADDR. TC updates value according to source addressing mode (EDMA_TPCC_OPT_n.SAM) and/or source index value (BIDX.SBIDX) after each read command is ..."
rgroup.long 0x248++0x3
line.long 0x00 "EDMA_TPTCn_SACNT,Source Active Set Count"
hexmask.long.word 0x00 16.--31. 1. " BCNT      ,B-Dimension count: Number of arrays to be transferred, where each array is ACNT in length. Count Remaining for Source Active Register Set. Represents the amount of data remaining to be read. Initial value is copied from EDMA_TPTCn_PCNT. TC ..."
hexmask.long.word 0x00 0.--15. 1. "                     ACNT      ,A-Dimension count: Number of bytes to be transferred in first dimension. Count Remaining for Source Active Register Set. Represents the amount of data remaining to be read. Initial value is copied from EDMA_TPTCn_PCNT. T..."
rgroup.long 0x250++0x3
line.long 0x00 "EDMA_TPTCn_SABIDX,Source Active Set B-Dim Idx"
hexmask.long.word 0x00 16.--31. 1. " DBIDX     ,Destination B-Idx for Source Active Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT..."
hexmask.long.word 0x00 0.--15. 1. "                     SBIDX     ,Source B-Idx for Source Active Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are ..."
rgroup.long 0x254++0x3
line.long 0x00 "EDMA_TPTCn_SAMPPRXY,Source Active Set Mem Protect Proxy"
bitfld.long 0x00 8. " PRIV      ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "     PRIVID    ,Privilege ID SAMPPRXY.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the v..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x258++0x3
line.long 0x00 "EDMA_TPTCn_SACNTRLD,Source Active Set Count Reload"
hexmask.long.word 0x00 0.--15. 1. " ACNTRLD   ,A-Cnt Reload value for Source Active Register set. Value copied from EDMA_TPTCn_PCNT[15:0] ACNT: Represents the originally programmed value of ACNT. The Reload value is used to reinitialize ACNT after each array is serviced (i.e., ACNT decr..."
rgroup.long 0x25C++0x3
line.long 0x00 "EDMA_TPTCn_SASRCBREF,Source Active Set Source Address A-Reference"
hexmask.long 0x00 0.--31. 1. " SADDRBREF ,Source address reference for Source Active Register Set: Represents the starting address for the array currently being read. The next array's starting address is calculated as the 'reference address' plus the 'source b-idx' value."
rgroup.long 0x260++0x3
line.long 0x00 "EDMA_TPTCn_SADSTBREF,Source Active Destination Address B-Reference Register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " DADDRBREF ,Destination address reference is not applicable for Src Active Register Set. Reads return 0x0."
rgroup.long 0x280++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTRLD,Destination FIFO Set Count Reload"
hexmask.long.word 0x00 0.--15. 1. " ACNTRLD   ,A-Cnt Reload value for Destination FIFO Register set. Value copied fromEDMA_TPTCn_PCNT[15:0] ACNT: Represents the originally programmed value of ACNT. The Reload value is used to reinitialize ACNT after each array is serviced (i.e., ACNT de..."
rgroup.long 0x284++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCBREF,Destination FIFO Set Destination Address B Reference Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDRBREF ,Source address reference is not applicable for Dst FIFO Register Set. Reads return 0x0."
width 0x0B
tree.end
tree "EVE2_EDMA_TPTC0"
base ad:0x42186000
tree "DMA_Channel_0"
width 24.
rgroup.long 0x310++0x3
line.long 0x00 "EDMA_TPTCn_DFBIDXi_0,The destination FIFO B-index register"
hexmask.long.word 0x00 16.--31. 1. " DBIDX  ,Dest B-Idx for Dest FIFO Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACN..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX   ,Dest B-Idx for Dest FIFO Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays..."
rgroup.long 0x308++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTi_0,Destination FIFO count register"
hexmask.long.word 0x00 16.--31. 1. " BCNT   ,B-Count Remaining for Dst Register Set: Number of arrays to be transferred, where each array is ACNT in length. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT    ,A-Count Remaining for Dst Register Set: Number of bytes to be transferred in first dimension. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
rgroup.long 0x30C++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTi_0,The destination FIFO destination address register"
hexmask.long 0x00 0.--31. 1. " DADDR  ,Destination address for Dst FIFO Register Set: Initial value is copied from EDMA_TPTCn_PDST[31:0] DADDR. TC updates value according to destination addressing mode (EDMA_TPCC_OPT_n. SAM) and/or dest index value (BIDX. DBIDX) after each write co..."
rgroup.long 0x314++0x3
line.long 0x00 "EDMA_TPTCn_DFMPPRXYi_0,The destination FIFO memory protection proxy register"
bitfld.long 0x00 8. " PRIV   ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "  PRIVID  ,Privilege ID: DFMPPRXY0.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the valu..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x300++0x3
line.long 0x00 "EDMA_TPTCn_DFOPTi_0,Destination FIFO Set Options"
bitfld.long 0x00 22. " TCCHEN ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "           TCC ,Transfer Complete Code The 6-bit code is used to set the relevant bit in CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID   ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                     PRI     ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "  DAM ,Destination Address Mode within an array - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " SAM    ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x304++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCi_0,Destination FIFO source address register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDR  ,Source address is not applicable for Dst FIFO Register Set: Reads return 0x0."
tree.end
tree "DMA_Channel_1"
width 24.
rgroup.long 0x350++0x3
line.long 0x00 "EDMA_TPTCn_DFBIDXi_1,The destination FIFO B-index register"
hexmask.long.word 0x00 16.--31. 1. " DBIDX  ,Dest B-Idx for Dest FIFO Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACN..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX   ,Dest B-Idx for Dest FIFO Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays..."
rgroup.long 0x348++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTi_1,Destination FIFO count register"
hexmask.long.word 0x00 16.--31. 1. " BCNT   ,B-Count Remaining for Dst Register Set: Number of arrays to be transferred, where each array is ACNT in length. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT    ,A-Count Remaining for Dst Register Set: Number of bytes to be transferred in first dimension. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
rgroup.long 0x34C++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTi_1,The destination FIFO destination address register"
hexmask.long 0x00 0.--31. 1. " DADDR  ,Destination address for Dst FIFO Register Set: Initial value is copied from EDMA_TPTCn_PDST[31:0] DADDR. TC updates value according to destination addressing mode (EDMA_TPCC_OPT_n. SAM) and/or dest index value (BIDX. DBIDX) after each write co..."
rgroup.long 0x354++0x3
line.long 0x00 "EDMA_TPTCn_DFMPPRXYi_1,The destination FIFO memory protection proxy register"
bitfld.long 0x00 8. " PRIV   ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "  PRIVID  ,Privilege ID: DFMPPRXY0.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the valu..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x340++0x3
line.long 0x00 "EDMA_TPTCn_DFOPTi_1,Destination FIFO Set Options"
bitfld.long 0x00 22. " TCCHEN ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "           TCC ,Transfer Complete Code The 6-bit code is used to set the relevant bit in CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID   ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                     PRI     ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "  DAM ,Destination Address Mode within an array - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " SAM    ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x344++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCi_1,Destination FIFO source address register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDR  ,Source address is not applicable for Dst FIFO Register Set: Reads return 0x0."
tree.end
textline ""
width 22.
rgroup.long 0x100++0x3
line.long 0x00 "EDMA_TPTCn_TCSTAT,TC Status Register"
bitfld.long 0x00 11.--12. " DFSTRTPTR ,Dst FIFO Start Pointer Represents the offset to the head entry of Dst Register FIFO, in units of *entries*. Legal values = 0x0 to 0x3" "0,1,2,3"
bitfld.long 0x00 8. "                        ACTV      ,Channel Active Channel Active is a logical-OR of each of the *BUSY/ACTV signals. The ACTV bit must remain high through the life of a TR. - . - ." "Channel_is_idle,Channel_is_busy"
bitfld.long 0x00 4.--6. "         DSTACTV  ,Destination Active State Specifies the number of TRs that are resident in the Dst Register FIFO at a given instant. Legal values are constrained by the DSTREGDEPTH parameter." "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 2. " WSACTV    ,Write Status Active - . - ." "0,1"
bitfld.long 0x00 1. "                        SRCACTV   ,Source Active State - . - ." "0,1"
bitfld.long 0x00 0. "                       PROGBUSY ,Program Register Set Busy - . - ." "0,1"
rgroup.long 0x104++0x3
line.long 0x00 "EDMA_TPTCn_INTSTAT,Interrupt Status Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Status - . - ." "Condition_not_detected.,1"
bitfld.long 0x00 0. "  PROGEMPTY ,Program Set Empty Event Status - . - ." "Condition_not_detected,1"
group.long 0x108++0x3
line.long 0x00 "EDMA_TPTCn_INTEN,Interrupt Enable Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Enable - . - ." "0,1"
bitfld.long 0x00 0. "                        PROGEMPTY ,Program Set Empty Event Enable - . - ." "0,1"
wgroup.long 0x10C++0x3
line.long 0x00 "EDMA_TPTCn_INTCLR,Interrupt Clear Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Clear - . - ." "have_no_effect.,Clear"
bitfld.long 0x00 0. "          PROGEMPTY ,Program Set Empty Event Clear - . - ." "have_no_effect.,Clear"
wgroup.long 0x110++0x3
line.long 0x00 "EDMA_TPTCn_INTCMD,Interrupt Command Register"
bitfld.long 0x00 1. " SET       ,Set TPTC interrupt - . - ." "have_no_affect.,1"
bitfld.long 0x00 0. "          EVAL      ,Evaluate state of TPTC interrupt - . - ." "have_no_affect.,1"
rgroup.long 0x120++0x3
line.long 0x00 "EDMA_TPTCn_ERRSTAT,Error Status Register"
bitfld.long 0x00 3. " MMRAERR   ,MR Address Error - . - ." "Condition_not_detected,1"
bitfld.long 0x00 2. "   TRERR     ,TR Error: TR detected that violates FIFO Mode transfer (SAM or DAM is '1') alignment rules or has ACNT or BCNT == 0. No additional error information is recorded." "0,1"
bitfld.long 0x00 0. "                       BUSERR   ,Bus Error Event - . - ." "Condition_not_detected.,1"
group.long 0x124++0x3
line.long 0x00 "EDMA_TPTCn_ERREN,Error Enable Register"
bitfld.long 0x00 3. " MMRAERR   ,Interrupt enable forEDMA_TPTCn_ERRSTAT[3] MMRAERR - . - ." "BUSERR_is_disabled,1"
bitfld.long 0x00 2. "       TRERR     ,Interrupt enable forEDMA_TPTCn_ERRSTAT[2] TRERR - . - ." "BUSERR_is_disabled.,1"
bitfld.long 0x00 0. "     BUSERR   ,Interrupt enable forEDMA_TPTCn_ERRSTAT[0] BUSERR - . - ." "BUSERR_is_disabled.,1"
wgroup.long 0x128++0x3
line.long 0x00 "EDMA_TPTCn_ERRCLR,Error Clear Register"
bitfld.long 0x00 3. " MMRAERR   ,Interrupt clear forEDMA_TPTCn_ERRSTAT[3] MMRAERR - . - ." "have_no_effect,1"
bitfld.long 0x00 2. "           TRERR     ,Interrupt clear forEDMA_TPTCn_ERRSTAT[2] TRERR - . - ." "have_no_effect,1"
bitfld.long 0x00 0. "          BUSERR   ,Interrupt clear forEDMA_TPTCn_ERRSTAT[0] BUSERR - . - ." "have_no_effect,1"
rgroup.long 0x12C++0x3
line.long 0x00 "EDMA_TPTCn_ERRDET,Error Details Register"
bitfld.long 0x00 17. " TCCHEN    ,Contains theEDMA_TPCC_OPT_n[17] TCCHEN value programmed by the user for the Read or Write transaction that resulted in an error." "0,1"
bitfld.long 0x00 16. "                        TCINTEN   ,Contains theEDMA_TPCC_OPT_n[16] TCINTEN value programmed by the user for the Read or Write transaction that resulted in an error." "0,1"
bitfld.long 0x00 8.--13. "                       TCC      ,Transfer Complete Code: Contains theEDMA_TPCC_OPT_n[13:8] TCC value programmed by the user for the Read or Write transaction that resulted in an error." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0.--3. " STAT      ,Transaction Status: Stores the non-zero status/error code that was detected on the read status or write status bus. MS-bit effectively serves as the read vs. write error code. If read status and write status are returned on the same cycle, ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
wgroup.long 0x130++0x3
line.long 0x00 "EDMA_TPTCn_ERRCMD,Error Command Register"
bitfld.long 0x00 1. " SET       ,Set TPTC error interrupt - . - ." "have_no_affect,1"
bitfld.long 0x00 0. "           EVAL      ,Evaluate state of TPTC error interrupt Write of '1' - . - ." "have_no_affect,1"
group.long 0x140++0x3
line.long 0x00 "EDMA_TPTCn_RDRATE,Read Rate Register"
bitfld.long 0x00 0.--2. " RDRATE    ,Read Rate Control: Controls the number of cycles between read commands. This is a global setting that applies to all TRs for this TC." "0,1,2,3,4,5,6,7"
group.long 0x200++0x3
line.long 0x00 "EDMA_TPTCn_POPT,Program Set Options"
bitfld.long 0x00 22. " TCCHEN    ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                        TCINTEN   ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "                       TCC      ,Transfer Complete Code: The 6-bit code is used to set the relevant bit in CER orEDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 8.--10. " FWID      ,FIFO width control: Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                        PRI       ,Transfer Priority: 0x0: Priority 0 - Highest priority 0x1: Priority 1 ... 0x7: Priority 7 - Lowest priority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 1. "                       DAM      ,Destination Address Mode within an array - . - ." "0,1"
textline "                               "
bitfld.long 0x00 0. " SAM       ,Source Address Mode within an array - . - ." "0,1"
group.long 0x204++0x3
line.long 0x00 "EDMA_TPTCn_PSRC,Program Set Source Address"
hexmask.long 0x00 0.--31. 1. " SADDR     ,Source address for Program Register Set"
group.long 0x208++0x3
line.long 0x00 "EDMA_TPTCn_PCNT,Program Set Count"
hexmask.long.word 0x00 16.--31. 1. " BCNT      ,B-Dimension count. Number of arrays to be transferred, where each array is ACNT in length."
hexmask.long.word 0x00 0.--15. 1. "                     ACNT      ,A-Dimension count. Number of bytes to be transferred in first dimension."
group.long 0x20C++0x3
line.long 0x00 "EDMA_TPTCn_PDST,Program Set Destination Address"
hexmask.long 0x00 0.--31. 1. " DADDR     ,Destination address for Program Register Set"
group.long 0x210++0x3
line.long 0x00 "EDMA_TPTCn_PBIDX,Program Set B-Dim Idx"
hexmask.long.word 0x00 16.--31. 1. " DBIDX     ,Dest B-Idx for Program Register Set: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACNT elements). DBIDX is always used, ..."
hexmask.long.word 0x00 0.--15. 1. "                     SBIDX     ,Source B-Idx for Program Register Set: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays of ACNT elements). SBIDX is a..."
rgroup.long 0x214++0x3
line.long 0x00 "EDMA_TPTCn_PMPPRXY,Program Set Memory Protect Proxy"
bitfld.long 0x00 8. " PRIV      ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "     PRIVID    ,Privilege ID: EDMA_TPTCn_PMPPRXY.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x240++0x3
line.long 0x00 "EDMA_TPTCn_SAOPT,Source Actve Set Options"
bitfld.long 0x00 22. " TCCHEN    ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                        TCINTEN   ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "                       TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 8.--10. " FWID      ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                        PRI       ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "              DAM      ,Destination Address Mode within an array - . - ." "0,1"
textline "                               "
bitfld.long 0x00 0. " SAM       ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x244++0x3
line.long 0x00 "EDMA_TPTCn_SASRC,Source Active Set Source Address"
hexmask.long 0x00 0.--31. 1. " SADDR     ,Source address for Source Active Register Set: Initial value is copied from EDMA_TPTCn_PSRC.SADDR. TC updates value according to source addressing mode (EDMA_TPCC_OPT_n.SAM) and/or source index value (BIDX.SBIDX) after each read command is ..."
rgroup.long 0x248++0x3
line.long 0x00 "EDMA_TPTCn_SACNT,Source Active Set Count"
hexmask.long.word 0x00 16.--31. 1. " BCNT      ,B-Dimension count: Number of arrays to be transferred, where each array is ACNT in length. Count Remaining for Source Active Register Set. Represents the amount of data remaining to be read. Initial value is copied from EDMA_TPTCn_PCNT. TC ..."
hexmask.long.word 0x00 0.--15. 1. "                     ACNT      ,A-Dimension count: Number of bytes to be transferred in first dimension. Count Remaining for Source Active Register Set. Represents the amount of data remaining to be read. Initial value is copied from EDMA_TPTCn_PCNT. T..."
rgroup.long 0x250++0x3
line.long 0x00 "EDMA_TPTCn_SABIDX,Source Active Set B-Dim Idx"
hexmask.long.word 0x00 16.--31. 1. " DBIDX     ,Destination B-Idx for Source Active Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT..."
hexmask.long.word 0x00 0.--15. 1. "                     SBIDX     ,Source B-Idx for Source Active Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are ..."
rgroup.long 0x254++0x3
line.long 0x00 "EDMA_TPTCn_SAMPPRXY,Source Active Set Mem Protect Proxy"
bitfld.long 0x00 8. " PRIV      ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "     PRIVID    ,Privilege ID SAMPPRXY.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the v..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x258++0x3
line.long 0x00 "EDMA_TPTCn_SACNTRLD,Source Active Set Count Reload"
hexmask.long.word 0x00 0.--15. 1. " ACNTRLD   ,A-Cnt Reload value for Source Active Register set. Value copied from EDMA_TPTCn_PCNT[15:0] ACNT: Represents the originally programmed value of ACNT. The Reload value is used to reinitialize ACNT after each array is serviced (i.e., ACNT decr..."
rgroup.long 0x25C++0x3
line.long 0x00 "EDMA_TPTCn_SASRCBREF,Source Active Set Source Address A-Reference"
hexmask.long 0x00 0.--31. 1. " SADDRBREF ,Source address reference for Source Active Register Set: Represents the starting address for the array currently being read. The next array's starting address is calculated as the 'reference address' plus the 'source b-idx' value."
rgroup.long 0x260++0x3
line.long 0x00 "EDMA_TPTCn_SADSTBREF,Source Active Destination Address B-Reference Register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " DADDRBREF ,Destination address reference is not applicable for Src Active Register Set. Reads return 0x0."
rgroup.long 0x280++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTRLD,Destination FIFO Set Count Reload"
hexmask.long.word 0x00 0.--15. 1. " ACNTRLD   ,A-Cnt Reload value for Destination FIFO Register set. Value copied fromEDMA_TPTCn_PCNT[15:0] ACNT: Represents the originally programmed value of ACNT. The Reload value is used to reinitialize ACNT after each array is serviced (i.e., ACNT de..."
rgroup.long 0x284++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCBREF,Destination FIFO Set Destination Address B Reference Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDRBREF ,Source address reference is not applicable for Dst FIFO Register Set. Reads return 0x0."
width 0x0B
tree.end
tree "EVE2_EDMA_TPTC1"
base ad:0x42187000
tree "DMA_Channel_0"
width 24.
rgroup.long 0x310++0x3
line.long 0x00 "EDMA_TPTCn_DFBIDXi_0,The destination FIFO B-index register"
hexmask.long.word 0x00 16.--31. 1. " DBIDX  ,Dest B-Idx for Dest FIFO Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACN..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX   ,Dest B-Idx for Dest FIFO Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays..."
rgroup.long 0x308++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTi_0,Destination FIFO count register"
hexmask.long.word 0x00 16.--31. 1. " BCNT   ,B-Count Remaining for Dst Register Set: Number of arrays to be transferred, where each array is ACNT in length. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT    ,A-Count Remaining for Dst Register Set: Number of bytes to be transferred in first dimension. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
rgroup.long 0x30C++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTi_0,The destination FIFO destination address register"
hexmask.long 0x00 0.--31. 1. " DADDR  ,Destination address for Dst FIFO Register Set: Initial value is copied from EDMA_TPTCn_PDST[31:0] DADDR. TC updates value according to destination addressing mode (EDMA_TPCC_OPT_n. SAM) and/or dest index value (BIDX. DBIDX) after each write co..."
rgroup.long 0x314++0x3
line.long 0x00 "EDMA_TPTCn_DFMPPRXYi_0,The destination FIFO memory protection proxy register"
bitfld.long 0x00 8. " PRIV   ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "  PRIVID  ,Privilege ID: DFMPPRXY0.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the valu..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x300++0x3
line.long 0x00 "EDMA_TPTCn_DFOPTi_0,Destination FIFO Set Options"
bitfld.long 0x00 22. " TCCHEN ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "           TCC ,Transfer Complete Code The 6-bit code is used to set the relevant bit in CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID   ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                     PRI     ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "  DAM ,Destination Address Mode within an array - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " SAM    ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x304++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCi_0,Destination FIFO source address register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDR  ,Source address is not applicable for Dst FIFO Register Set: Reads return 0x0."
tree.end
tree "DMA_Channel_1"
width 24.
rgroup.long 0x350++0x3
line.long 0x00 "EDMA_TPTCn_DFBIDXi_1,The destination FIFO B-index register"
hexmask.long.word 0x00 16.--31. 1. " DBIDX  ,Dest B-Idx for Dest FIFO Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACN..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX   ,Dest B-Idx for Dest FIFO Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays..."
rgroup.long 0x348++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTi_1,Destination FIFO count register"
hexmask.long.word 0x00 16.--31. 1. " BCNT   ,B-Count Remaining for Dst Register Set: Number of arrays to be transferred, where each array is ACNT in length. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT    ,A-Count Remaining for Dst Register Set: Number of bytes to be transferred in first dimension. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
rgroup.long 0x34C++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTi_1,The destination FIFO destination address register"
hexmask.long 0x00 0.--31. 1. " DADDR  ,Destination address for Dst FIFO Register Set: Initial value is copied from EDMA_TPTCn_PDST[31:0] DADDR. TC updates value according to destination addressing mode (EDMA_TPCC_OPT_n. SAM) and/or dest index value (BIDX. DBIDX) after each write co..."
rgroup.long 0x354++0x3
line.long 0x00 "EDMA_TPTCn_DFMPPRXYi_1,The destination FIFO memory protection proxy register"
bitfld.long 0x00 8. " PRIV   ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "  PRIVID  ,Privilege ID: DFMPPRXY0.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the valu..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x340++0x3
line.long 0x00 "EDMA_TPTCn_DFOPTi_1,Destination FIFO Set Options"
bitfld.long 0x00 22. " TCCHEN ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "           TCC ,Transfer Complete Code The 6-bit code is used to set the relevant bit in CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID   ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                     PRI     ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "  DAM ,Destination Address Mode within an array - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " SAM    ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x344++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCi_1,Destination FIFO source address register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDR  ,Source address is not applicable for Dst FIFO Register Set: Reads return 0x0."
tree.end
textline ""
width 22.
rgroup.long 0x100++0x3
line.long 0x00 "EDMA_TPTCn_TCSTAT,TC Status Register"
bitfld.long 0x00 11.--12. " DFSTRTPTR ,Dst FIFO Start Pointer Represents the offset to the head entry of Dst Register FIFO, in units of *entries*. Legal values = 0x0 to 0x3" "0,1,2,3"
bitfld.long 0x00 8. "                        ACTV      ,Channel Active Channel Active is a logical-OR of each of the *BUSY/ACTV signals. The ACTV bit must remain high through the life of a TR. - . - ." "Channel_is_idle,Channel_is_busy"
bitfld.long 0x00 4.--6. "         DSTACTV  ,Destination Active State Specifies the number of TRs that are resident in the Dst Register FIFO at a given instant. Legal values are constrained by the DSTREGDEPTH parameter." "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 2. " WSACTV    ,Write Status Active - . - ." "0,1"
bitfld.long 0x00 1. "                        SRCACTV   ,Source Active State - . - ." "0,1"
bitfld.long 0x00 0. "                       PROGBUSY ,Program Register Set Busy - . - ." "0,1"
rgroup.long 0x104++0x3
line.long 0x00 "EDMA_TPTCn_INTSTAT,Interrupt Status Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Status - . - ." "Condition_not_detected.,1"
bitfld.long 0x00 0. "  PROGEMPTY ,Program Set Empty Event Status - . - ." "Condition_not_detected,1"
group.long 0x108++0x3
line.long 0x00 "EDMA_TPTCn_INTEN,Interrupt Enable Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Enable - . - ." "0,1"
bitfld.long 0x00 0. "                        PROGEMPTY ,Program Set Empty Event Enable - . - ." "0,1"
wgroup.long 0x10C++0x3
line.long 0x00 "EDMA_TPTCn_INTCLR,Interrupt Clear Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Clear - . - ." "have_no_effect.,Clear"
bitfld.long 0x00 0. "          PROGEMPTY ,Program Set Empty Event Clear - . - ." "have_no_effect.,Clear"
wgroup.long 0x110++0x3
line.long 0x00 "EDMA_TPTCn_INTCMD,Interrupt Command Register"
bitfld.long 0x00 1. " SET       ,Set TPTC interrupt - . - ." "have_no_affect.,1"
bitfld.long 0x00 0. "          EVAL      ,Evaluate state of TPTC interrupt - . - ." "have_no_affect.,1"
rgroup.long 0x120++0x3
line.long 0x00 "EDMA_TPTCn_ERRSTAT,Error Status Register"
bitfld.long 0x00 3. " MMRAERR   ,MR Address Error - . - ." "Condition_not_detected,1"
bitfld.long 0x00 2. "   TRERR     ,TR Error: TR detected that violates FIFO Mode transfer (SAM or DAM is '1') alignment rules or has ACNT or BCNT == 0. No additional error information is recorded." "0,1"
bitfld.long 0x00 0. "                       BUSERR   ,Bus Error Event - . - ." "Condition_not_detected.,1"
group.long 0x124++0x3
line.long 0x00 "EDMA_TPTCn_ERREN,Error Enable Register"
bitfld.long 0x00 3. " MMRAERR   ,Interrupt enable forEDMA_TPTCn_ERRSTAT[3] MMRAERR - . - ." "BUSERR_is_disabled,1"
bitfld.long 0x00 2. "       TRERR     ,Interrupt enable forEDMA_TPTCn_ERRSTAT[2] TRERR - . - ." "BUSERR_is_disabled.,1"
bitfld.long 0x00 0. "     BUSERR   ,Interrupt enable forEDMA_TPTCn_ERRSTAT[0] BUSERR - . - ." "BUSERR_is_disabled.,1"
wgroup.long 0x128++0x3
line.long 0x00 "EDMA_TPTCn_ERRCLR,Error Clear Register"
bitfld.long 0x00 3. " MMRAERR   ,Interrupt clear forEDMA_TPTCn_ERRSTAT[3] MMRAERR - . - ." "have_no_effect,1"
bitfld.long 0x00 2. "           TRERR     ,Interrupt clear forEDMA_TPTCn_ERRSTAT[2] TRERR - . - ." "have_no_effect,1"
bitfld.long 0x00 0. "          BUSERR   ,Interrupt clear forEDMA_TPTCn_ERRSTAT[0] BUSERR - . - ." "have_no_effect,1"
rgroup.long 0x12C++0x3
line.long 0x00 "EDMA_TPTCn_ERRDET,Error Details Register"
bitfld.long 0x00 17. " TCCHEN    ,Contains theEDMA_TPCC_OPT_n[17] TCCHEN value programmed by the user for the Read or Write transaction that resulted in an error." "0,1"
bitfld.long 0x00 16. "                        TCINTEN   ,Contains theEDMA_TPCC_OPT_n[16] TCINTEN value programmed by the user for the Read or Write transaction that resulted in an error." "0,1"
bitfld.long 0x00 8.--13. "                       TCC      ,Transfer Complete Code: Contains theEDMA_TPCC_OPT_n[13:8] TCC value programmed by the user for the Read or Write transaction that resulted in an error." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0.--3. " STAT      ,Transaction Status: Stores the non-zero status/error code that was detected on the read status or write status bus. MS-bit effectively serves as the read vs. write error code. If read status and write status are returned on the same cycle, ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
wgroup.long 0x130++0x3
line.long 0x00 "EDMA_TPTCn_ERRCMD,Error Command Register"
bitfld.long 0x00 1. " SET       ,Set TPTC error interrupt - . - ." "have_no_affect,1"
bitfld.long 0x00 0. "           EVAL      ,Evaluate state of TPTC error interrupt Write of '1' - . - ." "have_no_affect,1"
group.long 0x140++0x3
line.long 0x00 "EDMA_TPTCn_RDRATE,Read Rate Register"
bitfld.long 0x00 0.--2. " RDRATE    ,Read Rate Control: Controls the number of cycles between read commands. This is a global setting that applies to all TRs for this TC." "0,1,2,3,4,5,6,7"
group.long 0x200++0x3
line.long 0x00 "EDMA_TPTCn_POPT,Program Set Options"
bitfld.long 0x00 22. " TCCHEN    ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                        TCINTEN   ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "                       TCC      ,Transfer Complete Code: The 6-bit code is used to set the relevant bit in CER orEDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 8.--10. " FWID      ,FIFO width control: Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                        PRI       ,Transfer Priority: 0x0: Priority 0 - Highest priority 0x1: Priority 1 ... 0x7: Priority 7 - Lowest priority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 1. "                       DAM      ,Destination Address Mode within an array - . - ." "0,1"
textline "                               "
bitfld.long 0x00 0. " SAM       ,Source Address Mode within an array - . - ." "0,1"
group.long 0x204++0x3
line.long 0x00 "EDMA_TPTCn_PSRC,Program Set Source Address"
hexmask.long 0x00 0.--31. 1. " SADDR     ,Source address for Program Register Set"
group.long 0x208++0x3
line.long 0x00 "EDMA_TPTCn_PCNT,Program Set Count"
hexmask.long.word 0x00 16.--31. 1. " BCNT      ,B-Dimension count. Number of arrays to be transferred, where each array is ACNT in length."
hexmask.long.word 0x00 0.--15. 1. "                     ACNT      ,A-Dimension count. Number of bytes to be transferred in first dimension."
group.long 0x20C++0x3
line.long 0x00 "EDMA_TPTCn_PDST,Program Set Destination Address"
hexmask.long 0x00 0.--31. 1. " DADDR     ,Destination address for Program Register Set"
group.long 0x210++0x3
line.long 0x00 "EDMA_TPTCn_PBIDX,Program Set B-Dim Idx"
hexmask.long.word 0x00 16.--31. 1. " DBIDX     ,Dest B-Idx for Program Register Set: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACNT elements). DBIDX is always used, ..."
hexmask.long.word 0x00 0.--15. 1. "                     SBIDX     ,Source B-Idx for Program Register Set: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays of ACNT elements). SBIDX is a..."
rgroup.long 0x214++0x3
line.long 0x00 "EDMA_TPTCn_PMPPRXY,Program Set Memory Protect Proxy"
bitfld.long 0x00 8. " PRIV      ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "     PRIVID    ,Privilege ID: EDMA_TPTCn_PMPPRXY.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x240++0x3
line.long 0x00 "EDMA_TPTCn_SAOPT,Source Actve Set Options"
bitfld.long 0x00 22. " TCCHEN    ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                        TCINTEN   ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "                       TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 8.--10. " FWID      ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                        PRI       ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "              DAM      ,Destination Address Mode within an array - . - ." "0,1"
textline "                               "
bitfld.long 0x00 0. " SAM       ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x244++0x3
line.long 0x00 "EDMA_TPTCn_SASRC,Source Active Set Source Address"
hexmask.long 0x00 0.--31. 1. " SADDR     ,Source address for Source Active Register Set: Initial value is copied from EDMA_TPTCn_PSRC.SADDR. TC updates value according to source addressing mode (EDMA_TPCC_OPT_n.SAM) and/or source index value (BIDX.SBIDX) after each read command is ..."
rgroup.long 0x248++0x3
line.long 0x00 "EDMA_TPTCn_SACNT,Source Active Set Count"
hexmask.long.word 0x00 16.--31. 1. " BCNT      ,B-Dimension count: Number of arrays to be transferred, where each array is ACNT in length. Count Remaining for Source Active Register Set. Represents the amount of data remaining to be read. Initial value is copied from EDMA_TPTCn_PCNT. TC ..."
hexmask.long.word 0x00 0.--15. 1. "                     ACNT      ,A-Dimension count: Number of bytes to be transferred in first dimension. Count Remaining for Source Active Register Set. Represents the amount of data remaining to be read. Initial value is copied from EDMA_TPTCn_PCNT. T..."
rgroup.long 0x250++0x3
line.long 0x00 "EDMA_TPTCn_SABIDX,Source Active Set B-Dim Idx"
hexmask.long.word 0x00 16.--31. 1. " DBIDX     ,Destination B-Idx for Source Active Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT..."
hexmask.long.word 0x00 0.--15. 1. "                     SBIDX     ,Source B-Idx for Source Active Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are ..."
rgroup.long 0x254++0x3
line.long 0x00 "EDMA_TPTCn_SAMPPRXY,Source Active Set Mem Protect Proxy"
bitfld.long 0x00 8. " PRIV      ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "     PRIVID    ,Privilege ID SAMPPRXY.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the v..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x258++0x3
line.long 0x00 "EDMA_TPTCn_SACNTRLD,Source Active Set Count Reload"
hexmask.long.word 0x00 0.--15. 1. " ACNTRLD   ,A-Cnt Reload value for Source Active Register set. Value copied from EDMA_TPTCn_PCNT[15:0] ACNT: Represents the originally programmed value of ACNT. The Reload value is used to reinitialize ACNT after each array is serviced (i.e., ACNT decr..."
rgroup.long 0x25C++0x3
line.long 0x00 "EDMA_TPTCn_SASRCBREF,Source Active Set Source Address A-Reference"
hexmask.long 0x00 0.--31. 1. " SADDRBREF ,Source address reference for Source Active Register Set: Represents the starting address for the array currently being read. The next array's starting address is calculated as the 'reference address' plus the 'source b-idx' value."
rgroup.long 0x260++0x3
line.long 0x00 "EDMA_TPTCn_SADSTBREF,Source Active Destination Address B-Reference Register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " DADDRBREF ,Destination address reference is not applicable for Src Active Register Set. Reads return 0x0."
rgroup.long 0x280++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTRLD,Destination FIFO Set Count Reload"
hexmask.long.word 0x00 0.--15. 1. " ACNTRLD   ,A-Cnt Reload value for Destination FIFO Register set. Value copied fromEDMA_TPTCn_PCNT[15:0] ACNT: Represents the originally programmed value of ACNT. The Reload value is used to reinitialize ACNT after each array is serviced (i.e., ACNT de..."
rgroup.long 0x284++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCBREF,Destination FIFO Set Destination Address B Reference Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDRBREF ,Source address reference is not applicable for Dst FIFO Register Set. Reads return 0x0."
width 0x0B
tree.end
tree "EVE3_EDMA_TPTC0"
base ad:0x42286000
tree "DMA_Channel_0"
width 24.
rgroup.long 0x310++0x3
line.long 0x00 "EDMA_TPTCn_DFBIDXi_0,The destination FIFO B-index register"
hexmask.long.word 0x00 16.--31. 1. " DBIDX  ,Dest B-Idx for Dest FIFO Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACN..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX   ,Dest B-Idx for Dest FIFO Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays..."
rgroup.long 0x308++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTi_0,Destination FIFO count register"
hexmask.long.word 0x00 16.--31. 1. " BCNT   ,B-Count Remaining for Dst Register Set: Number of arrays to be transferred, where each array is ACNT in length. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT    ,A-Count Remaining for Dst Register Set: Number of bytes to be transferred in first dimension. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
rgroup.long 0x30C++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTi_0,The destination FIFO destination address register"
hexmask.long 0x00 0.--31. 1. " DADDR  ,Destination address for Dst FIFO Register Set: Initial value is copied from EDMA_TPTCn_PDST[31:0] DADDR. TC updates value according to destination addressing mode (EDMA_TPCC_OPT_n. SAM) and/or dest index value (BIDX. DBIDX) after each write co..."
rgroup.long 0x314++0x3
line.long 0x00 "EDMA_TPTCn_DFMPPRXYi_0,The destination FIFO memory protection proxy register"
bitfld.long 0x00 8. " PRIV   ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "  PRIVID  ,Privilege ID: DFMPPRXY0.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the valu..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x300++0x3
line.long 0x00 "EDMA_TPTCn_DFOPTi_0,Destination FIFO Set Options"
bitfld.long 0x00 22. " TCCHEN ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "           TCC ,Transfer Complete Code The 6-bit code is used to set the relevant bit in CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID   ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                     PRI     ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "  DAM ,Destination Address Mode within an array - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " SAM    ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x304++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCi_0,Destination FIFO source address register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDR  ,Source address is not applicable for Dst FIFO Register Set: Reads return 0x0."
tree.end
tree "DMA_Channel_1"
width 24.
rgroup.long 0x350++0x3
line.long 0x00 "EDMA_TPTCn_DFBIDXi_1,The destination FIFO B-index register"
hexmask.long.word 0x00 16.--31. 1. " DBIDX  ,Dest B-Idx for Dest FIFO Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACN..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX   ,Dest B-Idx for Dest FIFO Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays..."
rgroup.long 0x348++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTi_1,Destination FIFO count register"
hexmask.long.word 0x00 16.--31. 1. " BCNT   ,B-Count Remaining for Dst Register Set: Number of arrays to be transferred, where each array is ACNT in length. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT    ,A-Count Remaining for Dst Register Set: Number of bytes to be transferred in first dimension. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
rgroup.long 0x34C++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTi_1,The destination FIFO destination address register"
hexmask.long 0x00 0.--31. 1. " DADDR  ,Destination address for Dst FIFO Register Set: Initial value is copied from EDMA_TPTCn_PDST[31:0] DADDR. TC updates value according to destination addressing mode (EDMA_TPCC_OPT_n. SAM) and/or dest index value (BIDX. DBIDX) after each write co..."
rgroup.long 0x354++0x3
line.long 0x00 "EDMA_TPTCn_DFMPPRXYi_1,The destination FIFO memory protection proxy register"
bitfld.long 0x00 8. " PRIV   ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "  PRIVID  ,Privilege ID: DFMPPRXY0.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the valu..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x340++0x3
line.long 0x00 "EDMA_TPTCn_DFOPTi_1,Destination FIFO Set Options"
bitfld.long 0x00 22. " TCCHEN ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "           TCC ,Transfer Complete Code The 6-bit code is used to set the relevant bit in CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID   ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                     PRI     ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "  DAM ,Destination Address Mode within an array - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " SAM    ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x344++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCi_1,Destination FIFO source address register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDR  ,Source address is not applicable for Dst FIFO Register Set: Reads return 0x0."
tree.end
textline ""
width 22.
rgroup.long 0x100++0x3
line.long 0x00 "EDMA_TPTCn_TCSTAT,TC Status Register"
bitfld.long 0x00 11.--12. " DFSTRTPTR ,Dst FIFO Start Pointer Represents the offset to the head entry of Dst Register FIFO, in units of *entries*. Legal values = 0x0 to 0x3" "0,1,2,3"
bitfld.long 0x00 8. "                        ACTV      ,Channel Active Channel Active is a logical-OR of each of the *BUSY/ACTV signals. The ACTV bit must remain high through the life of a TR. - . - ." "Channel_is_idle,Channel_is_busy"
bitfld.long 0x00 4.--6. "         DSTACTV  ,Destination Active State Specifies the number of TRs that are resident in the Dst Register FIFO at a given instant. Legal values are constrained by the DSTREGDEPTH parameter." "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 2. " WSACTV    ,Write Status Active - . - ." "0,1"
bitfld.long 0x00 1. "                        SRCACTV   ,Source Active State - . - ." "0,1"
bitfld.long 0x00 0. "                       PROGBUSY ,Program Register Set Busy - . - ." "0,1"
rgroup.long 0x104++0x3
line.long 0x00 "EDMA_TPTCn_INTSTAT,Interrupt Status Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Status - . - ." "Condition_not_detected.,1"
bitfld.long 0x00 0. "  PROGEMPTY ,Program Set Empty Event Status - . - ." "Condition_not_detected,1"
group.long 0x108++0x3
line.long 0x00 "EDMA_TPTCn_INTEN,Interrupt Enable Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Enable - . - ." "0,1"
bitfld.long 0x00 0. "                        PROGEMPTY ,Program Set Empty Event Enable - . - ." "0,1"
wgroup.long 0x10C++0x3
line.long 0x00 "EDMA_TPTCn_INTCLR,Interrupt Clear Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Clear - . - ." "have_no_effect.,Clear"
bitfld.long 0x00 0. "          PROGEMPTY ,Program Set Empty Event Clear - . - ." "have_no_effect.,Clear"
wgroup.long 0x110++0x3
line.long 0x00 "EDMA_TPTCn_INTCMD,Interrupt Command Register"
bitfld.long 0x00 1. " SET       ,Set TPTC interrupt - . - ." "have_no_affect.,1"
bitfld.long 0x00 0. "          EVAL      ,Evaluate state of TPTC interrupt - . - ." "have_no_affect.,1"
rgroup.long 0x120++0x3
line.long 0x00 "EDMA_TPTCn_ERRSTAT,Error Status Register"
bitfld.long 0x00 3. " MMRAERR   ,MR Address Error - . - ." "Condition_not_detected,1"
bitfld.long 0x00 2. "   TRERR     ,TR Error: TR detected that violates FIFO Mode transfer (SAM or DAM is '1') alignment rules or has ACNT or BCNT == 0. No additional error information is recorded." "0,1"
bitfld.long 0x00 0. "                       BUSERR   ,Bus Error Event - . - ." "Condition_not_detected.,1"
group.long 0x124++0x3
line.long 0x00 "EDMA_TPTCn_ERREN,Error Enable Register"
bitfld.long 0x00 3. " MMRAERR   ,Interrupt enable forEDMA_TPTCn_ERRSTAT[3] MMRAERR - . - ." "BUSERR_is_disabled,1"
bitfld.long 0x00 2. "       TRERR     ,Interrupt enable forEDMA_TPTCn_ERRSTAT[2] TRERR - . - ." "BUSERR_is_disabled.,1"
bitfld.long 0x00 0. "     BUSERR   ,Interrupt enable forEDMA_TPTCn_ERRSTAT[0] BUSERR - . - ." "BUSERR_is_disabled.,1"
wgroup.long 0x128++0x3
line.long 0x00 "EDMA_TPTCn_ERRCLR,Error Clear Register"
bitfld.long 0x00 3. " MMRAERR   ,Interrupt clear forEDMA_TPTCn_ERRSTAT[3] MMRAERR - . - ." "have_no_effect,1"
bitfld.long 0x00 2. "           TRERR     ,Interrupt clear forEDMA_TPTCn_ERRSTAT[2] TRERR - . - ." "have_no_effect,1"
bitfld.long 0x00 0. "          BUSERR   ,Interrupt clear forEDMA_TPTCn_ERRSTAT[0] BUSERR - . - ." "have_no_effect,1"
rgroup.long 0x12C++0x3
line.long 0x00 "EDMA_TPTCn_ERRDET,Error Details Register"
bitfld.long 0x00 17. " TCCHEN    ,Contains theEDMA_TPCC_OPT_n[17] TCCHEN value programmed by the user for the Read or Write transaction that resulted in an error." "0,1"
bitfld.long 0x00 16. "                        TCINTEN   ,Contains theEDMA_TPCC_OPT_n[16] TCINTEN value programmed by the user for the Read or Write transaction that resulted in an error." "0,1"
bitfld.long 0x00 8.--13. "                       TCC      ,Transfer Complete Code: Contains theEDMA_TPCC_OPT_n[13:8] TCC value programmed by the user for the Read or Write transaction that resulted in an error." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0.--3. " STAT      ,Transaction Status: Stores the non-zero status/error code that was detected on the read status or write status bus. MS-bit effectively serves as the read vs. write error code. If read status and write status are returned on the same cycle, ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
wgroup.long 0x130++0x3
line.long 0x00 "EDMA_TPTCn_ERRCMD,Error Command Register"
bitfld.long 0x00 1. " SET       ,Set TPTC error interrupt - . - ." "have_no_affect,1"
bitfld.long 0x00 0. "           EVAL      ,Evaluate state of TPTC error interrupt Write of '1' - . - ." "have_no_affect,1"
group.long 0x140++0x3
line.long 0x00 "EDMA_TPTCn_RDRATE,Read Rate Register"
bitfld.long 0x00 0.--2. " RDRATE    ,Read Rate Control: Controls the number of cycles between read commands. This is a global setting that applies to all TRs for this TC." "0,1,2,3,4,5,6,7"
group.long 0x200++0x3
line.long 0x00 "EDMA_TPTCn_POPT,Program Set Options"
bitfld.long 0x00 22. " TCCHEN    ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                        TCINTEN   ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "                       TCC      ,Transfer Complete Code: The 6-bit code is used to set the relevant bit in CER orEDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 8.--10. " FWID      ,FIFO width control: Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                        PRI       ,Transfer Priority: 0x0: Priority 0 - Highest priority 0x1: Priority 1 ... 0x7: Priority 7 - Lowest priority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 1. "                       DAM      ,Destination Address Mode within an array - . - ." "0,1"
textline "                               "
bitfld.long 0x00 0. " SAM       ,Source Address Mode within an array - . - ." "0,1"
group.long 0x204++0x3
line.long 0x00 "EDMA_TPTCn_PSRC,Program Set Source Address"
hexmask.long 0x00 0.--31. 1. " SADDR     ,Source address for Program Register Set"
group.long 0x208++0x3
line.long 0x00 "EDMA_TPTCn_PCNT,Program Set Count"
hexmask.long.word 0x00 16.--31. 1. " BCNT      ,B-Dimension count. Number of arrays to be transferred, where each array is ACNT in length."
hexmask.long.word 0x00 0.--15. 1. "                     ACNT      ,A-Dimension count. Number of bytes to be transferred in first dimension."
group.long 0x20C++0x3
line.long 0x00 "EDMA_TPTCn_PDST,Program Set Destination Address"
hexmask.long 0x00 0.--31. 1. " DADDR     ,Destination address for Program Register Set"
group.long 0x210++0x3
line.long 0x00 "EDMA_TPTCn_PBIDX,Program Set B-Dim Idx"
hexmask.long.word 0x00 16.--31. 1. " DBIDX     ,Dest B-Idx for Program Register Set: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACNT elements). DBIDX is always used, ..."
hexmask.long.word 0x00 0.--15. 1. "                     SBIDX     ,Source B-Idx for Program Register Set: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays of ACNT elements). SBIDX is a..."
rgroup.long 0x214++0x3
line.long 0x00 "EDMA_TPTCn_PMPPRXY,Program Set Memory Protect Proxy"
bitfld.long 0x00 8. " PRIV      ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "     PRIVID    ,Privilege ID: EDMA_TPTCn_PMPPRXY.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x240++0x3
line.long 0x00 "EDMA_TPTCn_SAOPT,Source Actve Set Options"
bitfld.long 0x00 22. " TCCHEN    ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                        TCINTEN   ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "                       TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 8.--10. " FWID      ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                        PRI       ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "              DAM      ,Destination Address Mode within an array - . - ." "0,1"
textline "                               "
bitfld.long 0x00 0. " SAM       ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x244++0x3
line.long 0x00 "EDMA_TPTCn_SASRC,Source Active Set Source Address"
hexmask.long 0x00 0.--31. 1. " SADDR     ,Source address for Source Active Register Set: Initial value is copied from EDMA_TPTCn_PSRC.SADDR. TC updates value according to source addressing mode (EDMA_TPCC_OPT_n.SAM) and/or source index value (BIDX.SBIDX) after each read command is ..."
rgroup.long 0x248++0x3
line.long 0x00 "EDMA_TPTCn_SACNT,Source Active Set Count"
hexmask.long.word 0x00 16.--31. 1. " BCNT      ,B-Dimension count: Number of arrays to be transferred, where each array is ACNT in length. Count Remaining for Source Active Register Set. Represents the amount of data remaining to be read. Initial value is copied from EDMA_TPTCn_PCNT. TC ..."
hexmask.long.word 0x00 0.--15. 1. "                     ACNT      ,A-Dimension count: Number of bytes to be transferred in first dimension. Count Remaining for Source Active Register Set. Represents the amount of data remaining to be read. Initial value is copied from EDMA_TPTCn_PCNT. T..."
rgroup.long 0x250++0x3
line.long 0x00 "EDMA_TPTCn_SABIDX,Source Active Set B-Dim Idx"
hexmask.long.word 0x00 16.--31. 1. " DBIDX     ,Destination B-Idx for Source Active Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT..."
hexmask.long.word 0x00 0.--15. 1. "                     SBIDX     ,Source B-Idx for Source Active Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are ..."
rgroup.long 0x254++0x3
line.long 0x00 "EDMA_TPTCn_SAMPPRXY,Source Active Set Mem Protect Proxy"
bitfld.long 0x00 8. " PRIV      ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "     PRIVID    ,Privilege ID SAMPPRXY.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the v..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x258++0x3
line.long 0x00 "EDMA_TPTCn_SACNTRLD,Source Active Set Count Reload"
hexmask.long.word 0x00 0.--15. 1. " ACNTRLD   ,A-Cnt Reload value for Source Active Register set. Value copied from EDMA_TPTCn_PCNT[15:0] ACNT: Represents the originally programmed value of ACNT. The Reload value is used to reinitialize ACNT after each array is serviced (i.e., ACNT decr..."
rgroup.long 0x25C++0x3
line.long 0x00 "EDMA_TPTCn_SASRCBREF,Source Active Set Source Address A-Reference"
hexmask.long 0x00 0.--31. 1. " SADDRBREF ,Source address reference for Source Active Register Set: Represents the starting address for the array currently being read. The next array's starting address is calculated as the 'reference address' plus the 'source b-idx' value."
rgroup.long 0x260++0x3
line.long 0x00 "EDMA_TPTCn_SADSTBREF,Source Active Destination Address B-Reference Register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " DADDRBREF ,Destination address reference is not applicable for Src Active Register Set. Reads return 0x0."
rgroup.long 0x280++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTRLD,Destination FIFO Set Count Reload"
hexmask.long.word 0x00 0.--15. 1. " ACNTRLD   ,A-Cnt Reload value for Destination FIFO Register set. Value copied fromEDMA_TPTCn_PCNT[15:0] ACNT: Represents the originally programmed value of ACNT. The Reload value is used to reinitialize ACNT after each array is serviced (i.e., ACNT de..."
rgroup.long 0x284++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCBREF,Destination FIFO Set Destination Address B Reference Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDRBREF ,Source address reference is not applicable for Dst FIFO Register Set. Reads return 0x0."
width 0x0B
tree.end
tree "EVE3_EDMA_TPTC1"
base ad:0x42287000
tree "DMA_Channel_0"
width 24.
rgroup.long 0x310++0x3
line.long 0x00 "EDMA_TPTCn_DFBIDXi_0,The destination FIFO B-index register"
hexmask.long.word 0x00 16.--31. 1. " DBIDX  ,Dest B-Idx for Dest FIFO Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACN..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX   ,Dest B-Idx for Dest FIFO Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays..."
rgroup.long 0x308++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTi_0,Destination FIFO count register"
hexmask.long.word 0x00 16.--31. 1. " BCNT   ,B-Count Remaining for Dst Register Set: Number of arrays to be transferred, where each array is ACNT in length. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT    ,A-Count Remaining for Dst Register Set: Number of bytes to be transferred in first dimension. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
rgroup.long 0x30C++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTi_0,The destination FIFO destination address register"
hexmask.long 0x00 0.--31. 1. " DADDR  ,Destination address for Dst FIFO Register Set: Initial value is copied from EDMA_TPTCn_PDST[31:0] DADDR. TC updates value according to destination addressing mode (EDMA_TPCC_OPT_n. SAM) and/or dest index value (BIDX. DBIDX) after each write co..."
rgroup.long 0x314++0x3
line.long 0x00 "EDMA_TPTCn_DFMPPRXYi_0,The destination FIFO memory protection proxy register"
bitfld.long 0x00 8. " PRIV   ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "  PRIVID  ,Privilege ID: DFMPPRXY0.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the valu..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x300++0x3
line.long 0x00 "EDMA_TPTCn_DFOPTi_0,Destination FIFO Set Options"
bitfld.long 0x00 22. " TCCHEN ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "           TCC ,Transfer Complete Code The 6-bit code is used to set the relevant bit in CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID   ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                     PRI     ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "  DAM ,Destination Address Mode within an array - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " SAM    ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x304++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCi_0,Destination FIFO source address register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDR  ,Source address is not applicable for Dst FIFO Register Set: Reads return 0x0."
tree.end
tree "DMA_Channel_1"
width 24.
rgroup.long 0x350++0x3
line.long 0x00 "EDMA_TPTCn_DFBIDXi_1,The destination FIFO B-index register"
hexmask.long.word 0x00 16.--31. 1. " DBIDX  ,Dest B-Idx for Dest FIFO Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACN..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX   ,Dest B-Idx for Dest FIFO Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays..."
rgroup.long 0x348++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTi_1,Destination FIFO count register"
hexmask.long.word 0x00 16.--31. 1. " BCNT   ,B-Count Remaining for Dst Register Set: Number of arrays to be transferred, where each array is ACNT in length. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT    ,A-Count Remaining for Dst Register Set: Number of bytes to be transferred in first dimension. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
rgroup.long 0x34C++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTi_1,The destination FIFO destination address register"
hexmask.long 0x00 0.--31. 1. " DADDR  ,Destination address for Dst FIFO Register Set: Initial value is copied from EDMA_TPTCn_PDST[31:0] DADDR. TC updates value according to destination addressing mode (EDMA_TPCC_OPT_n. SAM) and/or dest index value (BIDX. DBIDX) after each write co..."
rgroup.long 0x354++0x3
line.long 0x00 "EDMA_TPTCn_DFMPPRXYi_1,The destination FIFO memory protection proxy register"
bitfld.long 0x00 8. " PRIV   ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "  PRIVID  ,Privilege ID: DFMPPRXY0.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the valu..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x340++0x3
line.long 0x00 "EDMA_TPTCn_DFOPTi_1,Destination FIFO Set Options"
bitfld.long 0x00 22. " TCCHEN ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "           TCC ,Transfer Complete Code The 6-bit code is used to set the relevant bit in CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID   ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                     PRI     ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "  DAM ,Destination Address Mode within an array - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " SAM    ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x344++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCi_1,Destination FIFO source address register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDR  ,Source address is not applicable for Dst FIFO Register Set: Reads return 0x0."
tree.end
textline ""
width 22.
rgroup.long 0x100++0x3
line.long 0x00 "EDMA_TPTCn_TCSTAT,TC Status Register"
bitfld.long 0x00 11.--12. " DFSTRTPTR ,Dst FIFO Start Pointer Represents the offset to the head entry of Dst Register FIFO, in units of *entries*. Legal values = 0x0 to 0x3" "0,1,2,3"
bitfld.long 0x00 8. "                        ACTV      ,Channel Active Channel Active is a logical-OR of each of the *BUSY/ACTV signals. The ACTV bit must remain high through the life of a TR. - . - ." "Channel_is_idle,Channel_is_busy"
bitfld.long 0x00 4.--6. "         DSTACTV  ,Destination Active State Specifies the number of TRs that are resident in the Dst Register FIFO at a given instant. Legal values are constrained by the DSTREGDEPTH parameter." "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 2. " WSACTV    ,Write Status Active - . - ." "0,1"
bitfld.long 0x00 1. "                        SRCACTV   ,Source Active State - . - ." "0,1"
bitfld.long 0x00 0. "                       PROGBUSY ,Program Register Set Busy - . - ." "0,1"
rgroup.long 0x104++0x3
line.long 0x00 "EDMA_TPTCn_INTSTAT,Interrupt Status Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Status - . - ." "Condition_not_detected.,1"
bitfld.long 0x00 0. "  PROGEMPTY ,Program Set Empty Event Status - . - ." "Condition_not_detected,1"
group.long 0x108++0x3
line.long 0x00 "EDMA_TPTCn_INTEN,Interrupt Enable Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Enable - . - ." "0,1"
bitfld.long 0x00 0. "                        PROGEMPTY ,Program Set Empty Event Enable - . - ." "0,1"
wgroup.long 0x10C++0x3
line.long 0x00 "EDMA_TPTCn_INTCLR,Interrupt Clear Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Clear - . - ." "have_no_effect.,Clear"
bitfld.long 0x00 0. "          PROGEMPTY ,Program Set Empty Event Clear - . - ." "have_no_effect.,Clear"
wgroup.long 0x110++0x3
line.long 0x00 "EDMA_TPTCn_INTCMD,Interrupt Command Register"
bitfld.long 0x00 1. " SET       ,Set TPTC interrupt - . - ." "have_no_affect.,1"
bitfld.long 0x00 0. "          EVAL      ,Evaluate state of TPTC interrupt - . - ." "have_no_affect.,1"
rgroup.long 0x120++0x3
line.long 0x00 "EDMA_TPTCn_ERRSTAT,Error Status Register"
bitfld.long 0x00 3. " MMRAERR   ,MR Address Error - . - ." "Condition_not_detected,1"
bitfld.long 0x00 2. "   TRERR     ,TR Error: TR detected that violates FIFO Mode transfer (SAM or DAM is '1') alignment rules or has ACNT or BCNT == 0. No additional error information is recorded." "0,1"
bitfld.long 0x00 0. "                       BUSERR   ,Bus Error Event - . - ." "Condition_not_detected.,1"
group.long 0x124++0x3
line.long 0x00 "EDMA_TPTCn_ERREN,Error Enable Register"
bitfld.long 0x00 3. " MMRAERR   ,Interrupt enable forEDMA_TPTCn_ERRSTAT[3] MMRAERR - . - ." "BUSERR_is_disabled,1"
bitfld.long 0x00 2. "       TRERR     ,Interrupt enable forEDMA_TPTCn_ERRSTAT[2] TRERR - . - ." "BUSERR_is_disabled.,1"
bitfld.long 0x00 0. "     BUSERR   ,Interrupt enable forEDMA_TPTCn_ERRSTAT[0] BUSERR - . - ." "BUSERR_is_disabled.,1"
wgroup.long 0x128++0x3
line.long 0x00 "EDMA_TPTCn_ERRCLR,Error Clear Register"
bitfld.long 0x00 3. " MMRAERR   ,Interrupt clear forEDMA_TPTCn_ERRSTAT[3] MMRAERR - . - ." "have_no_effect,1"
bitfld.long 0x00 2. "           TRERR     ,Interrupt clear forEDMA_TPTCn_ERRSTAT[2] TRERR - . - ." "have_no_effect,1"
bitfld.long 0x00 0. "          BUSERR   ,Interrupt clear forEDMA_TPTCn_ERRSTAT[0] BUSERR - . - ." "have_no_effect,1"
rgroup.long 0x12C++0x3
line.long 0x00 "EDMA_TPTCn_ERRDET,Error Details Register"
bitfld.long 0x00 17. " TCCHEN    ,Contains theEDMA_TPCC_OPT_n[17] TCCHEN value programmed by the user for the Read or Write transaction that resulted in an error." "0,1"
bitfld.long 0x00 16. "                        TCINTEN   ,Contains theEDMA_TPCC_OPT_n[16] TCINTEN value programmed by the user for the Read or Write transaction that resulted in an error." "0,1"
bitfld.long 0x00 8.--13. "                       TCC      ,Transfer Complete Code: Contains theEDMA_TPCC_OPT_n[13:8] TCC value programmed by the user for the Read or Write transaction that resulted in an error." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0.--3. " STAT      ,Transaction Status: Stores the non-zero status/error code that was detected on the read status or write status bus. MS-bit effectively serves as the read vs. write error code. If read status and write status are returned on the same cycle, ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
wgroup.long 0x130++0x3
line.long 0x00 "EDMA_TPTCn_ERRCMD,Error Command Register"
bitfld.long 0x00 1. " SET       ,Set TPTC error interrupt - . - ." "have_no_affect,1"
bitfld.long 0x00 0. "           EVAL      ,Evaluate state of TPTC error interrupt Write of '1' - . - ." "have_no_affect,1"
group.long 0x140++0x3
line.long 0x00 "EDMA_TPTCn_RDRATE,Read Rate Register"
bitfld.long 0x00 0.--2. " RDRATE    ,Read Rate Control: Controls the number of cycles between read commands. This is a global setting that applies to all TRs for this TC." "0,1,2,3,4,5,6,7"
group.long 0x200++0x3
line.long 0x00 "EDMA_TPTCn_POPT,Program Set Options"
bitfld.long 0x00 22. " TCCHEN    ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                        TCINTEN   ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "                       TCC      ,Transfer Complete Code: The 6-bit code is used to set the relevant bit in CER orEDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 8.--10. " FWID      ,FIFO width control: Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                        PRI       ,Transfer Priority: 0x0: Priority 0 - Highest priority 0x1: Priority 1 ... 0x7: Priority 7 - Lowest priority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 1. "                       DAM      ,Destination Address Mode within an array - . - ." "0,1"
textline "                               "
bitfld.long 0x00 0. " SAM       ,Source Address Mode within an array - . - ." "0,1"
group.long 0x204++0x3
line.long 0x00 "EDMA_TPTCn_PSRC,Program Set Source Address"
hexmask.long 0x00 0.--31. 1. " SADDR     ,Source address for Program Register Set"
group.long 0x208++0x3
line.long 0x00 "EDMA_TPTCn_PCNT,Program Set Count"
hexmask.long.word 0x00 16.--31. 1. " BCNT      ,B-Dimension count. Number of arrays to be transferred, where each array is ACNT in length."
hexmask.long.word 0x00 0.--15. 1. "                     ACNT      ,A-Dimension count. Number of bytes to be transferred in first dimension."
group.long 0x20C++0x3
line.long 0x00 "EDMA_TPTCn_PDST,Program Set Destination Address"
hexmask.long 0x00 0.--31. 1. " DADDR     ,Destination address for Program Register Set"
group.long 0x210++0x3
line.long 0x00 "EDMA_TPTCn_PBIDX,Program Set B-Dim Idx"
hexmask.long.word 0x00 16.--31. 1. " DBIDX     ,Dest B-Idx for Program Register Set: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACNT elements). DBIDX is always used, ..."
hexmask.long.word 0x00 0.--15. 1. "                     SBIDX     ,Source B-Idx for Program Register Set: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays of ACNT elements). SBIDX is a..."
rgroup.long 0x214++0x3
line.long 0x00 "EDMA_TPTCn_PMPPRXY,Program Set Memory Protect Proxy"
bitfld.long 0x00 8. " PRIV      ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "     PRIVID    ,Privilege ID: EDMA_TPTCn_PMPPRXY.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x240++0x3
line.long 0x00 "EDMA_TPTCn_SAOPT,Source Actve Set Options"
bitfld.long 0x00 22. " TCCHEN    ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                        TCINTEN   ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "                       TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 8.--10. " FWID      ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                        PRI       ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "              DAM      ,Destination Address Mode within an array - . - ." "0,1"
textline "                               "
bitfld.long 0x00 0. " SAM       ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x244++0x3
line.long 0x00 "EDMA_TPTCn_SASRC,Source Active Set Source Address"
hexmask.long 0x00 0.--31. 1. " SADDR     ,Source address for Source Active Register Set: Initial value is copied from EDMA_TPTCn_PSRC.SADDR. TC updates value according to source addressing mode (EDMA_TPCC_OPT_n.SAM) and/or source index value (BIDX.SBIDX) after each read command is ..."
rgroup.long 0x248++0x3
line.long 0x00 "EDMA_TPTCn_SACNT,Source Active Set Count"
hexmask.long.word 0x00 16.--31. 1. " BCNT      ,B-Dimension count: Number of arrays to be transferred, where each array is ACNT in length. Count Remaining for Source Active Register Set. Represents the amount of data remaining to be read. Initial value is copied from EDMA_TPTCn_PCNT. TC ..."
hexmask.long.word 0x00 0.--15. 1. "                     ACNT      ,A-Dimension count: Number of bytes to be transferred in first dimension. Count Remaining for Source Active Register Set. Represents the amount of data remaining to be read. Initial value is copied from EDMA_TPTCn_PCNT. T..."
rgroup.long 0x250++0x3
line.long 0x00 "EDMA_TPTCn_SABIDX,Source Active Set B-Dim Idx"
hexmask.long.word 0x00 16.--31. 1. " DBIDX     ,Destination B-Idx for Source Active Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT..."
hexmask.long.word 0x00 0.--15. 1. "                     SBIDX     ,Source B-Idx for Source Active Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are ..."
rgroup.long 0x254++0x3
line.long 0x00 "EDMA_TPTCn_SAMPPRXY,Source Active Set Mem Protect Proxy"
bitfld.long 0x00 8. " PRIV      ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "     PRIVID    ,Privilege ID SAMPPRXY.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the v..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x258++0x3
line.long 0x00 "EDMA_TPTCn_SACNTRLD,Source Active Set Count Reload"
hexmask.long.word 0x00 0.--15. 1. " ACNTRLD   ,A-Cnt Reload value for Source Active Register set. Value copied from EDMA_TPTCn_PCNT[15:0] ACNT: Represents the originally programmed value of ACNT. The Reload value is used to reinitialize ACNT after each array is serviced (i.e., ACNT decr..."
rgroup.long 0x25C++0x3
line.long 0x00 "EDMA_TPTCn_SASRCBREF,Source Active Set Source Address A-Reference"
hexmask.long 0x00 0.--31. 1. " SADDRBREF ,Source address reference for Source Active Register Set: Represents the starting address for the array currently being read. The next array's starting address is calculated as the 'reference address' plus the 'source b-idx' value."
rgroup.long 0x260++0x3
line.long 0x00 "EDMA_TPTCn_SADSTBREF,Source Active Destination Address B-Reference Register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " DADDRBREF ,Destination address reference is not applicable for Src Active Register Set. Reads return 0x0."
rgroup.long 0x280++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTRLD,Destination FIFO Set Count Reload"
hexmask.long.word 0x00 0.--15. 1. " ACNTRLD   ,A-Cnt Reload value for Destination FIFO Register set. Value copied fromEDMA_TPTCn_PCNT[15:0] ACNT: Represents the originally programmed value of ACNT. The Reload value is used to reinitialize ACNT after each array is serviced (i.e., ACNT de..."
rgroup.long 0x284++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCBREF,Destination FIFO Set Destination Address B Reference Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDRBREF ,Source address reference is not applicable for Dst FIFO Register Set. Reads return 0x0."
width 0x0B
tree.end
tree "EVE4_EDMA_TPTC0"
base ad:0x42386000
tree "DMA_Channel_0"
width 24.
rgroup.long 0x310++0x3
line.long 0x00 "EDMA_TPTCn_DFBIDXi_0,The destination FIFO B-index register"
hexmask.long.word 0x00 16.--31. 1. " DBIDX  ,Dest B-Idx for Dest FIFO Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACN..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX   ,Dest B-Idx for Dest FIFO Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays..."
rgroup.long 0x308++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTi_0,Destination FIFO count register"
hexmask.long.word 0x00 16.--31. 1. " BCNT   ,B-Count Remaining for Dst Register Set: Number of arrays to be transferred, where each array is ACNT in length. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT    ,A-Count Remaining for Dst Register Set: Number of bytes to be transferred in first dimension. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
rgroup.long 0x30C++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTi_0,The destination FIFO destination address register"
hexmask.long 0x00 0.--31. 1. " DADDR  ,Destination address for Dst FIFO Register Set: Initial value is copied from EDMA_TPTCn_PDST[31:0] DADDR. TC updates value according to destination addressing mode (EDMA_TPCC_OPT_n. SAM) and/or dest index value (BIDX. DBIDX) after each write co..."
rgroup.long 0x314++0x3
line.long 0x00 "EDMA_TPTCn_DFMPPRXYi_0,The destination FIFO memory protection proxy register"
bitfld.long 0x00 8. " PRIV   ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "  PRIVID  ,Privilege ID: DFMPPRXY0.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the valu..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x300++0x3
line.long 0x00 "EDMA_TPTCn_DFOPTi_0,Destination FIFO Set Options"
bitfld.long 0x00 22. " TCCHEN ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "           TCC ,Transfer Complete Code The 6-bit code is used to set the relevant bit in CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID   ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                     PRI     ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "  DAM ,Destination Address Mode within an array - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " SAM    ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x304++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCi_0,Destination FIFO source address register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDR  ,Source address is not applicable for Dst FIFO Register Set: Reads return 0x0."
tree.end
tree "DMA_Channel_1"
width 24.
rgroup.long 0x350++0x3
line.long 0x00 "EDMA_TPTCn_DFBIDXi_1,The destination FIFO B-index register"
hexmask.long.word 0x00 16.--31. 1. " DBIDX  ,Dest B-Idx for Dest FIFO Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACN..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX   ,Dest B-Idx for Dest FIFO Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays..."
rgroup.long 0x348++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTi_1,Destination FIFO count register"
hexmask.long.word 0x00 16.--31. 1. " BCNT   ,B-Count Remaining for Dst Register Set: Number of arrays to be transferred, where each array is ACNT in length. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT    ,A-Count Remaining for Dst Register Set: Number of bytes to be transferred in first dimension. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
rgroup.long 0x34C++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTi_1,The destination FIFO destination address register"
hexmask.long 0x00 0.--31. 1. " DADDR  ,Destination address for Dst FIFO Register Set: Initial value is copied from EDMA_TPTCn_PDST[31:0] DADDR. TC updates value according to destination addressing mode (EDMA_TPCC_OPT_n. SAM) and/or dest index value (BIDX. DBIDX) after each write co..."
rgroup.long 0x354++0x3
line.long 0x00 "EDMA_TPTCn_DFMPPRXYi_1,The destination FIFO memory protection proxy register"
bitfld.long 0x00 8. " PRIV   ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "  PRIVID  ,Privilege ID: DFMPPRXY0.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the valu..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x340++0x3
line.long 0x00 "EDMA_TPTCn_DFOPTi_1,Destination FIFO Set Options"
bitfld.long 0x00 22. " TCCHEN ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "           TCC ,Transfer Complete Code The 6-bit code is used to set the relevant bit in CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID   ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                     PRI     ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "  DAM ,Destination Address Mode within an array - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " SAM    ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x344++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCi_1,Destination FIFO source address register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDR  ,Source address is not applicable for Dst FIFO Register Set: Reads return 0x0."
tree.end
textline ""
width 22.
rgroup.long 0x100++0x3
line.long 0x00 "EDMA_TPTCn_TCSTAT,TC Status Register"
bitfld.long 0x00 11.--12. " DFSTRTPTR ,Dst FIFO Start Pointer Represents the offset to the head entry of Dst Register FIFO, in units of *entries*. Legal values = 0x0 to 0x3" "0,1,2,3"
bitfld.long 0x00 8. "                        ACTV      ,Channel Active Channel Active is a logical-OR of each of the *BUSY/ACTV signals. The ACTV bit must remain high through the life of a TR. - . - ." "Channel_is_idle,Channel_is_busy"
bitfld.long 0x00 4.--6. "         DSTACTV  ,Destination Active State Specifies the number of TRs that are resident in the Dst Register FIFO at a given instant. Legal values are constrained by the DSTREGDEPTH parameter." "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 2. " WSACTV    ,Write Status Active - . - ." "0,1"
bitfld.long 0x00 1. "                        SRCACTV   ,Source Active State - . - ." "0,1"
bitfld.long 0x00 0. "                       PROGBUSY ,Program Register Set Busy - . - ." "0,1"
rgroup.long 0x104++0x3
line.long 0x00 "EDMA_TPTCn_INTSTAT,Interrupt Status Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Status - . - ." "Condition_not_detected.,1"
bitfld.long 0x00 0. "  PROGEMPTY ,Program Set Empty Event Status - . - ." "Condition_not_detected,1"
group.long 0x108++0x3
line.long 0x00 "EDMA_TPTCn_INTEN,Interrupt Enable Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Enable - . - ." "0,1"
bitfld.long 0x00 0. "                        PROGEMPTY ,Program Set Empty Event Enable - . - ." "0,1"
wgroup.long 0x10C++0x3
line.long 0x00 "EDMA_TPTCn_INTCLR,Interrupt Clear Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Clear - . - ." "have_no_effect.,Clear"
bitfld.long 0x00 0. "          PROGEMPTY ,Program Set Empty Event Clear - . - ." "have_no_effect.,Clear"
wgroup.long 0x110++0x3
line.long 0x00 "EDMA_TPTCn_INTCMD,Interrupt Command Register"
bitfld.long 0x00 1. " SET       ,Set TPTC interrupt - . - ." "have_no_affect.,1"
bitfld.long 0x00 0. "          EVAL      ,Evaluate state of TPTC interrupt - . - ." "have_no_affect.,1"
rgroup.long 0x120++0x3
line.long 0x00 "EDMA_TPTCn_ERRSTAT,Error Status Register"
bitfld.long 0x00 3. " MMRAERR   ,MR Address Error - . - ." "Condition_not_detected,1"
bitfld.long 0x00 2. "   TRERR     ,TR Error: TR detected that violates FIFO Mode transfer (SAM or DAM is '1') alignment rules or has ACNT or BCNT == 0. No additional error information is recorded." "0,1"
bitfld.long 0x00 0. "                       BUSERR   ,Bus Error Event - . - ." "Condition_not_detected.,1"
group.long 0x124++0x3
line.long 0x00 "EDMA_TPTCn_ERREN,Error Enable Register"
bitfld.long 0x00 3. " MMRAERR   ,Interrupt enable forEDMA_TPTCn_ERRSTAT[3] MMRAERR - . - ." "BUSERR_is_disabled,1"
bitfld.long 0x00 2. "       TRERR     ,Interrupt enable forEDMA_TPTCn_ERRSTAT[2] TRERR - . - ." "BUSERR_is_disabled.,1"
bitfld.long 0x00 0. "     BUSERR   ,Interrupt enable forEDMA_TPTCn_ERRSTAT[0] BUSERR - . - ." "BUSERR_is_disabled.,1"
wgroup.long 0x128++0x3
line.long 0x00 "EDMA_TPTCn_ERRCLR,Error Clear Register"
bitfld.long 0x00 3. " MMRAERR   ,Interrupt clear forEDMA_TPTCn_ERRSTAT[3] MMRAERR - . - ." "have_no_effect,1"
bitfld.long 0x00 2. "           TRERR     ,Interrupt clear forEDMA_TPTCn_ERRSTAT[2] TRERR - . - ." "have_no_effect,1"
bitfld.long 0x00 0. "          BUSERR   ,Interrupt clear forEDMA_TPTCn_ERRSTAT[0] BUSERR - . - ." "have_no_effect,1"
rgroup.long 0x12C++0x3
line.long 0x00 "EDMA_TPTCn_ERRDET,Error Details Register"
bitfld.long 0x00 17. " TCCHEN    ,Contains theEDMA_TPCC_OPT_n[17] TCCHEN value programmed by the user for the Read or Write transaction that resulted in an error." "0,1"
bitfld.long 0x00 16. "                        TCINTEN   ,Contains theEDMA_TPCC_OPT_n[16] TCINTEN value programmed by the user for the Read or Write transaction that resulted in an error." "0,1"
bitfld.long 0x00 8.--13. "                       TCC      ,Transfer Complete Code: Contains theEDMA_TPCC_OPT_n[13:8] TCC value programmed by the user for the Read or Write transaction that resulted in an error." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0.--3. " STAT      ,Transaction Status: Stores the non-zero status/error code that was detected on the read status or write status bus. MS-bit effectively serves as the read vs. write error code. If read status and write status are returned on the same cycle, ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
wgroup.long 0x130++0x3
line.long 0x00 "EDMA_TPTCn_ERRCMD,Error Command Register"
bitfld.long 0x00 1. " SET       ,Set TPTC error interrupt - . - ." "have_no_affect,1"
bitfld.long 0x00 0. "           EVAL      ,Evaluate state of TPTC error interrupt Write of '1' - . - ." "have_no_affect,1"
group.long 0x140++0x3
line.long 0x00 "EDMA_TPTCn_RDRATE,Read Rate Register"
bitfld.long 0x00 0.--2. " RDRATE    ,Read Rate Control: Controls the number of cycles between read commands. This is a global setting that applies to all TRs for this TC." "0,1,2,3,4,5,6,7"
group.long 0x200++0x3
line.long 0x00 "EDMA_TPTCn_POPT,Program Set Options"
bitfld.long 0x00 22. " TCCHEN    ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                        TCINTEN   ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "                       TCC      ,Transfer Complete Code: The 6-bit code is used to set the relevant bit in CER orEDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 8.--10. " FWID      ,FIFO width control: Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                        PRI       ,Transfer Priority: 0x0: Priority 0 - Highest priority 0x1: Priority 1 ... 0x7: Priority 7 - Lowest priority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 1. "                       DAM      ,Destination Address Mode within an array - . - ." "0,1"
textline "                               "
bitfld.long 0x00 0. " SAM       ,Source Address Mode within an array - . - ." "0,1"
group.long 0x204++0x3
line.long 0x00 "EDMA_TPTCn_PSRC,Program Set Source Address"
hexmask.long 0x00 0.--31. 1. " SADDR     ,Source address for Program Register Set"
group.long 0x208++0x3
line.long 0x00 "EDMA_TPTCn_PCNT,Program Set Count"
hexmask.long.word 0x00 16.--31. 1. " BCNT      ,B-Dimension count. Number of arrays to be transferred, where each array is ACNT in length."
hexmask.long.word 0x00 0.--15. 1. "                     ACNT      ,A-Dimension count. Number of bytes to be transferred in first dimension."
group.long 0x20C++0x3
line.long 0x00 "EDMA_TPTCn_PDST,Program Set Destination Address"
hexmask.long 0x00 0.--31. 1. " DADDR     ,Destination address for Program Register Set"
group.long 0x210++0x3
line.long 0x00 "EDMA_TPTCn_PBIDX,Program Set B-Dim Idx"
hexmask.long.word 0x00 16.--31. 1. " DBIDX     ,Dest B-Idx for Program Register Set: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACNT elements). DBIDX is always used, ..."
hexmask.long.word 0x00 0.--15. 1. "                     SBIDX     ,Source B-Idx for Program Register Set: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays of ACNT elements). SBIDX is a..."
rgroup.long 0x214++0x3
line.long 0x00 "EDMA_TPTCn_PMPPRXY,Program Set Memory Protect Proxy"
bitfld.long 0x00 8. " PRIV      ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "     PRIVID    ,Privilege ID: EDMA_TPTCn_PMPPRXY.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x240++0x3
line.long 0x00 "EDMA_TPTCn_SAOPT,Source Actve Set Options"
bitfld.long 0x00 22. " TCCHEN    ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                        TCINTEN   ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "                       TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 8.--10. " FWID      ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                        PRI       ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "              DAM      ,Destination Address Mode within an array - . - ." "0,1"
textline "                               "
bitfld.long 0x00 0. " SAM       ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x244++0x3
line.long 0x00 "EDMA_TPTCn_SASRC,Source Active Set Source Address"
hexmask.long 0x00 0.--31. 1. " SADDR     ,Source address for Source Active Register Set: Initial value is copied from EDMA_TPTCn_PSRC.SADDR. TC updates value according to source addressing mode (EDMA_TPCC_OPT_n.SAM) and/or source index value (BIDX.SBIDX) after each read command is ..."
rgroup.long 0x248++0x3
line.long 0x00 "EDMA_TPTCn_SACNT,Source Active Set Count"
hexmask.long.word 0x00 16.--31. 1. " BCNT      ,B-Dimension count: Number of arrays to be transferred, where each array is ACNT in length. Count Remaining for Source Active Register Set. Represents the amount of data remaining to be read. Initial value is copied from EDMA_TPTCn_PCNT. TC ..."
hexmask.long.word 0x00 0.--15. 1. "                     ACNT      ,A-Dimension count: Number of bytes to be transferred in first dimension. Count Remaining for Source Active Register Set. Represents the amount of data remaining to be read. Initial value is copied from EDMA_TPTCn_PCNT. T..."
rgroup.long 0x250++0x3
line.long 0x00 "EDMA_TPTCn_SABIDX,Source Active Set B-Dim Idx"
hexmask.long.word 0x00 16.--31. 1. " DBIDX     ,Destination B-Idx for Source Active Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT..."
hexmask.long.word 0x00 0.--15. 1. "                     SBIDX     ,Source B-Idx for Source Active Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are ..."
rgroup.long 0x254++0x3
line.long 0x00 "EDMA_TPTCn_SAMPPRXY,Source Active Set Mem Protect Proxy"
bitfld.long 0x00 8. " PRIV      ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "     PRIVID    ,Privilege ID SAMPPRXY.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the v..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x258++0x3
line.long 0x00 "EDMA_TPTCn_SACNTRLD,Source Active Set Count Reload"
hexmask.long.word 0x00 0.--15. 1. " ACNTRLD   ,A-Cnt Reload value for Source Active Register set. Value copied from EDMA_TPTCn_PCNT[15:0] ACNT: Represents the originally programmed value of ACNT. The Reload value is used to reinitialize ACNT after each array is serviced (i.e., ACNT decr..."
rgroup.long 0x25C++0x3
line.long 0x00 "EDMA_TPTCn_SASRCBREF,Source Active Set Source Address A-Reference"
hexmask.long 0x00 0.--31. 1. " SADDRBREF ,Source address reference for Source Active Register Set: Represents the starting address for the array currently being read. The next array's starting address is calculated as the 'reference address' plus the 'source b-idx' value."
rgroup.long 0x260++0x3
line.long 0x00 "EDMA_TPTCn_SADSTBREF,Source Active Destination Address B-Reference Register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " DADDRBREF ,Destination address reference is not applicable for Src Active Register Set. Reads return 0x0."
rgroup.long 0x280++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTRLD,Destination FIFO Set Count Reload"
hexmask.long.word 0x00 0.--15. 1. " ACNTRLD   ,A-Cnt Reload value for Destination FIFO Register set. Value copied fromEDMA_TPTCn_PCNT[15:0] ACNT: Represents the originally programmed value of ACNT. The Reload value is used to reinitialize ACNT after each array is serviced (i.e., ACNT de..."
rgroup.long 0x284++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCBREF,Destination FIFO Set Destination Address B Reference Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDRBREF ,Source address reference is not applicable for Dst FIFO Register Set. Reads return 0x0."
width 0x0B
tree.end
tree "EVE4_EDMA_TPTC1"
base ad:0x42387000
tree "DMA_Channel_0"
width 24.
rgroup.long 0x310++0x3
line.long 0x00 "EDMA_TPTCn_DFBIDXi_0,The destination FIFO B-index register"
hexmask.long.word 0x00 16.--31. 1. " DBIDX  ,Dest B-Idx for Dest FIFO Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACN..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX   ,Dest B-Idx for Dest FIFO Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays..."
rgroup.long 0x308++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTi_0,Destination FIFO count register"
hexmask.long.word 0x00 16.--31. 1. " BCNT   ,B-Count Remaining for Dst Register Set: Number of arrays to be transferred, where each array is ACNT in length. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT    ,A-Count Remaining for Dst Register Set: Number of bytes to be transferred in first dimension. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
rgroup.long 0x30C++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTi_0,The destination FIFO destination address register"
hexmask.long 0x00 0.--31. 1. " DADDR  ,Destination address for Dst FIFO Register Set: Initial value is copied from EDMA_TPTCn_PDST[31:0] DADDR. TC updates value according to destination addressing mode (EDMA_TPCC_OPT_n. SAM) and/or dest index value (BIDX. DBIDX) after each write co..."
rgroup.long 0x314++0x3
line.long 0x00 "EDMA_TPTCn_DFMPPRXYi_0,The destination FIFO memory protection proxy register"
bitfld.long 0x00 8. " PRIV   ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "  PRIVID  ,Privilege ID: DFMPPRXY0.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the valu..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x300++0x3
line.long 0x00 "EDMA_TPTCn_DFOPTi_0,Destination FIFO Set Options"
bitfld.long 0x00 22. " TCCHEN ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "           TCC ,Transfer Complete Code The 6-bit code is used to set the relevant bit in CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID   ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                     PRI     ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "  DAM ,Destination Address Mode within an array - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " SAM    ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x304++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCi_0,Destination FIFO source address register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDR  ,Source address is not applicable for Dst FIFO Register Set: Reads return 0x0."
tree.end
tree "DMA_Channel_1"
width 24.
rgroup.long 0x350++0x3
line.long 0x00 "EDMA_TPTCn_DFBIDXi_1,The destination FIFO B-index register"
hexmask.long.word 0x00 16.--31. 1. " DBIDX  ,Dest B-Idx for Dest FIFO Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACN..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX   ,Dest B-Idx for Dest FIFO Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays..."
rgroup.long 0x348++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTi_1,Destination FIFO count register"
hexmask.long.word 0x00 16.--31. 1. " BCNT   ,B-Count Remaining for Dst Register Set: Number of arrays to be transferred, where each array is ACNT in length. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT    ,A-Count Remaining for Dst Register Set: Number of bytes to be transferred in first dimension. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
rgroup.long 0x34C++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTi_1,The destination FIFO destination address register"
hexmask.long 0x00 0.--31. 1. " DADDR  ,Destination address for Dst FIFO Register Set: Initial value is copied from EDMA_TPTCn_PDST[31:0] DADDR. TC updates value according to destination addressing mode (EDMA_TPCC_OPT_n. SAM) and/or dest index value (BIDX. DBIDX) after each write co..."
rgroup.long 0x354++0x3
line.long 0x00 "EDMA_TPTCn_DFMPPRXYi_1,The destination FIFO memory protection proxy register"
bitfld.long 0x00 8. " PRIV   ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "  PRIVID  ,Privilege ID: DFMPPRXY0.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the valu..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x340++0x3
line.long 0x00 "EDMA_TPTCn_DFOPTi_1,Destination FIFO Set Options"
bitfld.long 0x00 22. " TCCHEN ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "           TCC ,Transfer Complete Code The 6-bit code is used to set the relevant bit in CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID   ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                     PRI     ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "  DAM ,Destination Address Mode within an array - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " SAM    ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x344++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCi_1,Destination FIFO source address register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDR  ,Source address is not applicable for Dst FIFO Register Set: Reads return 0x0."
tree.end
textline ""
width 22.
rgroup.long 0x100++0x3
line.long 0x00 "EDMA_TPTCn_TCSTAT,TC Status Register"
bitfld.long 0x00 11.--12. " DFSTRTPTR ,Dst FIFO Start Pointer Represents the offset to the head entry of Dst Register FIFO, in units of *entries*. Legal values = 0x0 to 0x3" "0,1,2,3"
bitfld.long 0x00 8. "                        ACTV      ,Channel Active Channel Active is a logical-OR of each of the *BUSY/ACTV signals. The ACTV bit must remain high through the life of a TR. - . - ." "Channel_is_idle,Channel_is_busy"
bitfld.long 0x00 4.--6. "         DSTACTV  ,Destination Active State Specifies the number of TRs that are resident in the Dst Register FIFO at a given instant. Legal values are constrained by the DSTREGDEPTH parameter." "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 2. " WSACTV    ,Write Status Active - . - ." "0,1"
bitfld.long 0x00 1. "                        SRCACTV   ,Source Active State - . - ." "0,1"
bitfld.long 0x00 0. "                       PROGBUSY ,Program Register Set Busy - . - ." "0,1"
rgroup.long 0x104++0x3
line.long 0x00 "EDMA_TPTCn_INTSTAT,Interrupt Status Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Status - . - ." "Condition_not_detected.,1"
bitfld.long 0x00 0. "  PROGEMPTY ,Program Set Empty Event Status - . - ." "Condition_not_detected,1"
group.long 0x108++0x3
line.long 0x00 "EDMA_TPTCn_INTEN,Interrupt Enable Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Enable - . - ." "0,1"
bitfld.long 0x00 0. "                        PROGEMPTY ,Program Set Empty Event Enable - . - ." "0,1"
wgroup.long 0x10C++0x3
line.long 0x00 "EDMA_TPTCn_INTCLR,Interrupt Clear Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Clear - . - ." "have_no_effect.,Clear"
bitfld.long 0x00 0. "          PROGEMPTY ,Program Set Empty Event Clear - . - ." "have_no_effect.,Clear"
wgroup.long 0x110++0x3
line.long 0x00 "EDMA_TPTCn_INTCMD,Interrupt Command Register"
bitfld.long 0x00 1. " SET       ,Set TPTC interrupt - . - ." "have_no_affect.,1"
bitfld.long 0x00 0. "          EVAL      ,Evaluate state of TPTC interrupt - . - ." "have_no_affect.,1"
rgroup.long 0x120++0x3
line.long 0x00 "EDMA_TPTCn_ERRSTAT,Error Status Register"
bitfld.long 0x00 3. " MMRAERR   ,MR Address Error - . - ." "Condition_not_detected,1"
bitfld.long 0x00 2. "   TRERR     ,TR Error: TR detected that violates FIFO Mode transfer (SAM or DAM is '1') alignment rules or has ACNT or BCNT == 0. No additional error information is recorded." "0,1"
bitfld.long 0x00 0. "                       BUSERR   ,Bus Error Event - . - ." "Condition_not_detected.,1"
group.long 0x124++0x3
line.long 0x00 "EDMA_TPTCn_ERREN,Error Enable Register"
bitfld.long 0x00 3. " MMRAERR   ,Interrupt enable forEDMA_TPTCn_ERRSTAT[3] MMRAERR - . - ." "BUSERR_is_disabled,1"
bitfld.long 0x00 2. "       TRERR     ,Interrupt enable forEDMA_TPTCn_ERRSTAT[2] TRERR - . - ." "BUSERR_is_disabled.,1"
bitfld.long 0x00 0. "     BUSERR   ,Interrupt enable forEDMA_TPTCn_ERRSTAT[0] BUSERR - . - ." "BUSERR_is_disabled.,1"
wgroup.long 0x128++0x3
line.long 0x00 "EDMA_TPTCn_ERRCLR,Error Clear Register"
bitfld.long 0x00 3. " MMRAERR   ,Interrupt clear forEDMA_TPTCn_ERRSTAT[3] MMRAERR - . - ." "have_no_effect,1"
bitfld.long 0x00 2. "           TRERR     ,Interrupt clear forEDMA_TPTCn_ERRSTAT[2] TRERR - . - ." "have_no_effect,1"
bitfld.long 0x00 0. "          BUSERR   ,Interrupt clear forEDMA_TPTCn_ERRSTAT[0] BUSERR - . - ." "have_no_effect,1"
rgroup.long 0x12C++0x3
line.long 0x00 "EDMA_TPTCn_ERRDET,Error Details Register"
bitfld.long 0x00 17. " TCCHEN    ,Contains theEDMA_TPCC_OPT_n[17] TCCHEN value programmed by the user for the Read or Write transaction that resulted in an error." "0,1"
bitfld.long 0x00 16. "                        TCINTEN   ,Contains theEDMA_TPCC_OPT_n[16] TCINTEN value programmed by the user for the Read or Write transaction that resulted in an error." "0,1"
bitfld.long 0x00 8.--13. "                       TCC      ,Transfer Complete Code: Contains theEDMA_TPCC_OPT_n[13:8] TCC value programmed by the user for the Read or Write transaction that resulted in an error." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0.--3. " STAT      ,Transaction Status: Stores the non-zero status/error code that was detected on the read status or write status bus. MS-bit effectively serves as the read vs. write error code. If read status and write status are returned on the same cycle, ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
wgroup.long 0x130++0x3
line.long 0x00 "EDMA_TPTCn_ERRCMD,Error Command Register"
bitfld.long 0x00 1. " SET       ,Set TPTC error interrupt - . - ." "have_no_affect,1"
bitfld.long 0x00 0. "           EVAL      ,Evaluate state of TPTC error interrupt Write of '1' - . - ." "have_no_affect,1"
group.long 0x140++0x3
line.long 0x00 "EDMA_TPTCn_RDRATE,Read Rate Register"
bitfld.long 0x00 0.--2. " RDRATE    ,Read Rate Control: Controls the number of cycles between read commands. This is a global setting that applies to all TRs for this TC." "0,1,2,3,4,5,6,7"
group.long 0x200++0x3
line.long 0x00 "EDMA_TPTCn_POPT,Program Set Options"
bitfld.long 0x00 22. " TCCHEN    ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                        TCINTEN   ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "                       TCC      ,Transfer Complete Code: The 6-bit code is used to set the relevant bit in CER orEDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 8.--10. " FWID      ,FIFO width control: Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                        PRI       ,Transfer Priority: 0x0: Priority 0 - Highest priority 0x1: Priority 1 ... 0x7: Priority 7 - Lowest priority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 1. "                       DAM      ,Destination Address Mode within an array - . - ." "0,1"
textline "                               "
bitfld.long 0x00 0. " SAM       ,Source Address Mode within an array - . - ." "0,1"
group.long 0x204++0x3
line.long 0x00 "EDMA_TPTCn_PSRC,Program Set Source Address"
hexmask.long 0x00 0.--31. 1. " SADDR     ,Source address for Program Register Set"
group.long 0x208++0x3
line.long 0x00 "EDMA_TPTCn_PCNT,Program Set Count"
hexmask.long.word 0x00 16.--31. 1. " BCNT      ,B-Dimension count. Number of arrays to be transferred, where each array is ACNT in length."
hexmask.long.word 0x00 0.--15. 1. "                     ACNT      ,A-Dimension count. Number of bytes to be transferred in first dimension."
group.long 0x20C++0x3
line.long 0x00 "EDMA_TPTCn_PDST,Program Set Destination Address"
hexmask.long 0x00 0.--31. 1. " DADDR     ,Destination address for Program Register Set"
group.long 0x210++0x3
line.long 0x00 "EDMA_TPTCn_PBIDX,Program Set B-Dim Idx"
hexmask.long.word 0x00 16.--31. 1. " DBIDX     ,Dest B-Idx for Program Register Set: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACNT elements). DBIDX is always used, ..."
hexmask.long.word 0x00 0.--15. 1. "                     SBIDX     ,Source B-Idx for Program Register Set: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays of ACNT elements). SBIDX is a..."
rgroup.long 0x214++0x3
line.long 0x00 "EDMA_TPTCn_PMPPRXY,Program Set Memory Protect Proxy"
bitfld.long 0x00 8. " PRIV      ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "     PRIVID    ,Privilege ID: EDMA_TPTCn_PMPPRXY.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x240++0x3
line.long 0x00 "EDMA_TPTCn_SAOPT,Source Actve Set Options"
bitfld.long 0x00 22. " TCCHEN    ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                        TCINTEN   ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "                       TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 8.--10. " FWID      ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                        PRI       ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "              DAM      ,Destination Address Mode within an array - . - ." "0,1"
textline "                               "
bitfld.long 0x00 0. " SAM       ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x244++0x3
line.long 0x00 "EDMA_TPTCn_SASRC,Source Active Set Source Address"
hexmask.long 0x00 0.--31. 1. " SADDR     ,Source address for Source Active Register Set: Initial value is copied from EDMA_TPTCn_PSRC.SADDR. TC updates value according to source addressing mode (EDMA_TPCC_OPT_n.SAM) and/or source index value (BIDX.SBIDX) after each read command is ..."
rgroup.long 0x248++0x3
line.long 0x00 "EDMA_TPTCn_SACNT,Source Active Set Count"
hexmask.long.word 0x00 16.--31. 1. " BCNT      ,B-Dimension count: Number of arrays to be transferred, where each array is ACNT in length. Count Remaining for Source Active Register Set. Represents the amount of data remaining to be read. Initial value is copied from EDMA_TPTCn_PCNT. TC ..."
hexmask.long.word 0x00 0.--15. 1. "                     ACNT      ,A-Dimension count: Number of bytes to be transferred in first dimension. Count Remaining for Source Active Register Set. Represents the amount of data remaining to be read. Initial value is copied from EDMA_TPTCn_PCNT. T..."
rgroup.long 0x250++0x3
line.long 0x00 "EDMA_TPTCn_SABIDX,Source Active Set B-Dim Idx"
hexmask.long.word 0x00 16.--31. 1. " DBIDX     ,Destination B-Idx for Source Active Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT..."
hexmask.long.word 0x00 0.--15. 1. "                     SBIDX     ,Source B-Idx for Source Active Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are ..."
rgroup.long 0x254++0x3
line.long 0x00 "EDMA_TPTCn_SAMPPRXY,Source Active Set Mem Protect Proxy"
bitfld.long 0x00 8. " PRIV      ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "     PRIVID    ,Privilege ID SAMPPRXY.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the v..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x258++0x3
line.long 0x00 "EDMA_TPTCn_SACNTRLD,Source Active Set Count Reload"
hexmask.long.word 0x00 0.--15. 1. " ACNTRLD   ,A-Cnt Reload value for Source Active Register set. Value copied from EDMA_TPTCn_PCNT[15:0] ACNT: Represents the originally programmed value of ACNT. The Reload value is used to reinitialize ACNT after each array is serviced (i.e., ACNT decr..."
rgroup.long 0x25C++0x3
line.long 0x00 "EDMA_TPTCn_SASRCBREF,Source Active Set Source Address A-Reference"
hexmask.long 0x00 0.--31. 1. " SADDRBREF ,Source address reference for Source Active Register Set: Represents the starting address for the array currently being read. The next array's starting address is calculated as the 'reference address' plus the 'source b-idx' value."
rgroup.long 0x260++0x3
line.long 0x00 "EDMA_TPTCn_SADSTBREF,Source Active Destination Address B-Reference Register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " DADDRBREF ,Destination address reference is not applicable for Src Active Register Set. Reads return 0x0."
rgroup.long 0x280++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTRLD,Destination FIFO Set Count Reload"
hexmask.long.word 0x00 0.--15. 1. " ACNTRLD   ,A-Cnt Reload value for Destination FIFO Register set. Value copied fromEDMA_TPTCn_PCNT[15:0] ACNT: Represents the originally programmed value of ACNT. The Reload value is used to reinitialize ACNT after each array is serviced (i.e., ACNT de..."
rgroup.long 0x284++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCBREF,Destination FIFO Set Destination Address B Reference Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDRBREF ,Source address reference is not applicable for Dst FIFO Register Set. Reads return 0x0."
width 0x0B
tree.end
tree.end
tree.open "EVE1_EDMA_TPCC"
tree "EVE1_EDMA_TPCC"
base ad:0x420A0000
tree "DMA_Channel_0"
width 24.
group.long 0x4008++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_0,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4010++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_0,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x401C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_0,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x201C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_0,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2018++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_0,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4018++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_0,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x100++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_0,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x240++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_0,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "      E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "      E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x400C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_0,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x200C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_0,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2008++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_0,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x202C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_0,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2028++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_0,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2024++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_0,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2020++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_0,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2034++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_0,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2030++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_0,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2004++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_0,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2000++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_0,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2014++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_0,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2010++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_0,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2074++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_0,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2070++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_0,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x205C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_0,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2058++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_0,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2054++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_0,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2050++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_0,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2064++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_0,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2060++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_0,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2078++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_0,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x206C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_0,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2068++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_0,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4014++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_0,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x810++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_0,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "      AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "      AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission se..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "      SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "      UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4000++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_0,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "     ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "      TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "     TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "      SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x200++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_0,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2088++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_0,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2084++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_0,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x208C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_0,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2080++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_0,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x380++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_0,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "      E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "      E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2094++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_0,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2090++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_0,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x600++0x3
line.long 0x00 "EDMA_TPCC_QSTATN_i_0,QSTATn Register Set"
bitfld.long 0x00 24. " THRXCD  ,Threshold Exceeded - . - . - THRXCD is cleared via. WMCLRn bit. . - ." "0,1"
bitfld.long 0x00 16.--20. "                     WM       ,Watermark for Maximum Queue Usage: Watermark tracks the most entries that have been in QueueN since reset or since the last time that the watermark (WM) was cleared. QSTATn. WM is cleared via EDMA_TPCC_CCERR.WMCLRn bit. L..." "empty,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,full,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "  NUMVAL  ,Number of Valid Entries in QueueN: Represents the total number of entries residing in the Queue Manager FIFO at a given instant. Always enabled. Legal values: = 0x0 (empty) to 0x10 (full) - . - ." "empty,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,full,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                 "
bitfld.long 0x00 0.--3. " STRTPTR ,Start Pointer: Represents the offset to the head entry of QueueN, in units of *entries*. Always enabled. Legal values: - . - ." "0th_entry,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15th_entry"
wgroup.long 0x2044++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_0,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2040++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_0,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x203C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_0,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2038++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_0,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4004++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_0,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_1"
width 24.
group.long 0x4028++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_1,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4030++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_1,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x403C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_1,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x221C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_1,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2218++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_1,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4038++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_1,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x104++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_1,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x244++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_1,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "      E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "      E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x402C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_1,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x220C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_1,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2208++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_1,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x222C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_1,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2228++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_1,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2224++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_1,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2220++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_1,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2234++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_1,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2230++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_1,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2204++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_1,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2200++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_1,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2214++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_1,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2210++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_1,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2274++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_1,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2270++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_1,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x225C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_1,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2258++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_1,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2254++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_1,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2250++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_1,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2264++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_1,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2260++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_1,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2278++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_1,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x226C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_1,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2268++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_1,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4034++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_1,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x814++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_1,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "      AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "      AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission se..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "      SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "      UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4020++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_1,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "     ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "      TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "     TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "      SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x204++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_1,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2288++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_1,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2284++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_1,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x228C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_1,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2280++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_1,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x384++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_1,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "      E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "      E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2294++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_1,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2290++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_1,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x604++0x3
line.long 0x00 "EDMA_TPCC_QSTATN_i_1,QSTATn Register Set"
bitfld.long 0x00 24. " THRXCD  ,Threshold Exceeded - . - . - THRXCD is cleared via. WMCLRn bit. . - ." "0,1"
bitfld.long 0x00 16.--20. "                     WM       ,Watermark for Maximum Queue Usage: Watermark tracks the most entries that have been in QueueN since reset or since the last time that the watermark (WM) was cleared. QSTATn. WM is cleared via EDMA_TPCC_CCERR.WMCLRn bit. L..." "empty,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,full,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "  NUMVAL  ,Number of Valid Entries in QueueN: Represents the total number of entries residing in the Queue Manager FIFO at a given instant. Always enabled. Legal values: = 0x0 (empty) to 0x10 (full) - . - ." "empty,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,full,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                 "
bitfld.long 0x00 0.--3. " STRTPTR ,Start Pointer: Represents the offset to the head entry of QueueN, in units of *entries*. Always enabled. Legal values: - . - ." "0th_entry,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15th_entry"
wgroup.long 0x2244++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_1,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2240++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_1,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x223C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_1,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2238++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_1,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4024++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_1,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_2"
width 24.
group.long 0x4048++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_2,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4050++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_2,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x405C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_2,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x241C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_2,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2418++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_2,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4058++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_2,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x108++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_2,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x248++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_2,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x404C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_2,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x240C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_2,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2408++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_2,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x242C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_2,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2428++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_2,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2424++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_2,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2420++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_2,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2434++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_2,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2430++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_2,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2404++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_2,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2400++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_2,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2414++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_2,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2410++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_2,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2474++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_2,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2470++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_2,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x245C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_2,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2458++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_2,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2454++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_2,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2450++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_2,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2464++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_2,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2460++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_2,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2478++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_2,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x246C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_2,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2468++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_2,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4054++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_2,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x818++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_2,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4040++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_2,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x208++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_2,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2488++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_2,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2484++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_2,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x248C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_2,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2480++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_2,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x388++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_2,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2494++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_2,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2490++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_2,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2444++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_2,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2440++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_2,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x243C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_2,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2438++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_2,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4044++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_2,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_3"
width 24.
group.long 0x4068++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_3,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4070++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_3,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x407C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_3,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x261C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_3,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2618++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_3,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4078++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_3,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x10C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_3,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x24C++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_3,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x406C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_3,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x260C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_3,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2608++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_3,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x262C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_3,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2628++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_3,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2624++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_3,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2620++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_3,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2634++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_3,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2630++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_3,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2604++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_3,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2600++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_3,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2614++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_3,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2610++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_3,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2674++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_3,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2670++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_3,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x265C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_3,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2658++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_3,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2654++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_3,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2650++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_3,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2664++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_3,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2660++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_3,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2678++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_3,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x266C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_3,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2668++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_3,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4074++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_3,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x81C++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_3,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4060++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_3,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x20C++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_3,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2688++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_3,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2684++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_3,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x268C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_3,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2680++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_3,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x38C++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_3,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2694++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_3,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2690++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_3,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2644++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_3,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2640++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_3,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x263C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_3,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2638++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_3,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4064++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_3,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_4"
width 24.
group.long 0x4088++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_4,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4090++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_4,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x409C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_4,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x281C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_4,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2818++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_4,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4098++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_4,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x110++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_4,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x250++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_4,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x408C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_4,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x280C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_4,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2808++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_4,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x282C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_4,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2828++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_4,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2824++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_4,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2820++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_4,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2834++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_4,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2830++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_4,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2804++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_4,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2800++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_4,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2814++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_4,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2810++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_4,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2874++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_4,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2870++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_4,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x285C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_4,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2858++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_4,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2854++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_4,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2850++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_4,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2864++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_4,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2860++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_4,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2878++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_4,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x286C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_4,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2868++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_4,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4094++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_4,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x820++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_4,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4080++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_4,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x210++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_4,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2888++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_4,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2884++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_4,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x288C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_4,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2880++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_4,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x390++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_4,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2894++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_4,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2890++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_4,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2844++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_4,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2840++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_4,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x283C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_4,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2838++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_4,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4084++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_4,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_5"
width 24.
group.long 0x40A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_5,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x40B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_5,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x40BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_5,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x2A1C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_5,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2A18++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_5,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_5,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x114++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_5,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x254++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_5,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x40AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_5,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x2A0C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_5,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A08++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_5,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A2C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_5,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A28++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_5,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A24++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_5,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2A20++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_5,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A34++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_5,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A30++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_5,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A04++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_5,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2A00++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_5,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A14++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_5,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A10++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_5,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A74++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_5,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2A70++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_5,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2A5C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_5,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2A58++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_5,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2A54++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_5,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2A50++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_5,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2A64++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_5,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2A60++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_5,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2A78++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_5,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x2A6C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_5,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2A68++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_5,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x40B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_5,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x824++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_5,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x40A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_5,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x214++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_5,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2A88++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_5,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A84++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_5,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A8C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_5,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A80++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_5,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x394++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_5,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2A94++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_5,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A90++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_5,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A44++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_5,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A40++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_5,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A3C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_5,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2A38++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_5,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_5,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_6"
width 24.
group.long 0x40C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_6,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x40D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_6,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x40DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_6,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x2C1C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_6,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2C18++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_6,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_6,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x118++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_6,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x258++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_6,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x40CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_6,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x2C0C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_6,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C08++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_6,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C2C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_6,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C28++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_6,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C24++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_6,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2C20++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_6,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C34++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_6,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C30++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_6,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C04++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_6,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2C00++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_6,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C14++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_6,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C10++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_6,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C74++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_6,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2C70++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_6,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2C5C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_6,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2C58++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_6,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2C54++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_6,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2C50++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_6,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2C64++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_6,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2C60++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_6,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2C78++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_6,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x2C6C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_6,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2C68++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_6,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x40D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_6,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x828++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_6,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x40C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_6,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x218++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_6,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2C88++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_6,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C84++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_6,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C8C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_6,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C80++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_6,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x398++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_6,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2C94++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_6,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C90++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_6,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C44++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_6,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C40++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_6,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C3C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_6,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2C38++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_6,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_6,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_7"
width 24.
group.long 0x40E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_7,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x40F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_7,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x40FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_7,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x2E1C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_7,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2E18++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_7,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_7,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x11C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_7,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x25C++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_7,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x40EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_7,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x2E0C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_7,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E08++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_7,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E2C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_7,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E28++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_7,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E24++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_7,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2E20++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_7,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E34++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_7,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E30++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_7,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E04++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_7,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2E00++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_7,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E14++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_7,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E10++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_7,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E74++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_7,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2E70++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_7,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2E5C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_7,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2E58++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_7,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2E54++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_7,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2E50++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_7,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2E64++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_7,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2E60++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_7,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2E78++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_7,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x2E6C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_7,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2E68++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_7,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x40F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_7,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x82C++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_7,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x40E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_7,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x21C++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_7,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2E88++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_7,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E84++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_7,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E8C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_7,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E80++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_7,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x39C++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_7,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2E94++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_7,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E90++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_7,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E44++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_7,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E40++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_7,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E3C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_7,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2E38++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_7,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_7,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_8"
width 23.
group.long 0x4108++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_8,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4110++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_8,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x411C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_8,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4118++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_8,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x120++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_8,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x410C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_8,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4114++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_8,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4100++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_8,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4104++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_8,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_9"
width 23.
group.long 0x4128++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_9,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4130++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_9,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x413C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_9,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4138++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_9,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x124++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_9,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x412C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_9,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4134++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_9,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4120++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_9,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4124++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_9,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_10"
width 24.
group.long 0x4148++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_10,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4150++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_10,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x415C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_10,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4158++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_10,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x128++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_10,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x414C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_10,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4154++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_10,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4140++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_10,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4144++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_10,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_11"
width 24.
group.long 0x4168++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_11,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4170++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_11,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x417C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_11,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4178++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_11,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x12C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_11,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x416C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_11,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4174++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_11,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4160++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_11,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4164++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_11,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_12"
width 24.
group.long 0x4188++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_12,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4190++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_12,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x419C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_12,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4198++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_12,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x130++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_12,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x418C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_12,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4194++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_12,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4180++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_12,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4184++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_12,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_13"
width 24.
group.long 0x41A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_13,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x41B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_13,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x41BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_13,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x41B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_13,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x134++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_13,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x41AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_13,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x41B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_13,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x41A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_13,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x41A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_13,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_14"
width 24.
group.long 0x41C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_14,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x41D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_14,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x41DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_14,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x41D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_14,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x138++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_14,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x41CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_14,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x41D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_14,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x41C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_14,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x41C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_14,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_15"
width 24.
group.long 0x41E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_15,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x41F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_15,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x41FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_15,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x41F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_15,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x13C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_15,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x41EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_15,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x41F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_15,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x41E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_15,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x41E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_15,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_16"
width 22.
group.long 0x4208++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_16,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4210++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_16,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x421C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_16,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4218++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_16,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x420C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_16,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4214++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_16,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4200++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_16,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4204++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_16,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_17"
width 22.
group.long 0x4228++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_17,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4230++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_17,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x423C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_17,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4238++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_17,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x422C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_17,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4234++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_17,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4220++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_17,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4224++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_17,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_18"
width 22.
group.long 0x4248++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_18,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4250++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_18,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x425C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_18,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4258++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_18,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x424C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_18,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4254++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_18,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4240++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_18,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4244++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_18,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_19"
width 22.
group.long 0x4268++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_19,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4270++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_19,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x427C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_19,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4278++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_19,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x426C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_19,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4274++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_19,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4260++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_19,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4264++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_19,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_20"
width 22.
group.long 0x4288++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_20,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4290++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_20,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x429C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_20,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4298++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_20,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x428C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_20,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4294++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_20,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4280++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_20,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4284++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_20,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_21"
width 22.
group.long 0x42A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_21,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x42B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_21,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x42BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_21,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x42B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_21,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x42AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_21,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x42B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_21,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x42A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_21,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x42A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_21,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_22"
width 22.
group.long 0x42C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_22,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x42D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_22,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x42DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_22,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x42D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_22,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x42CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_22,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x42D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_22,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x42C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_22,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x42C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_22,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_23"
width 22.
group.long 0x42E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_23,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x42F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_23,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x42FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_23,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x42F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_23,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x42EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_23,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x42F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_23,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x42E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_23,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x42E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_23,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_24"
width 22.
group.long 0x4308++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_24,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4310++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_24,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x431C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_24,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4318++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_24,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x430C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_24,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4314++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_24,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4300++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_24,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4304++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_24,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_25"
width 22.
group.long 0x4328++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_25,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4330++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_25,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x433C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_25,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4338++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_25,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x432C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_25,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4334++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_25,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4320++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_25,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4324++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_25,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_26"
width 22.
group.long 0x4348++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_26,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4350++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_26,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x435C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_26,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4358++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_26,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x434C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_26,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4354++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_26,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4340++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_26,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4344++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_26,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_27"
width 22.
group.long 0x4368++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_27,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4370++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_27,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x437C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_27,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4378++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_27,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x436C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_27,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4374++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_27,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4360++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_27,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4364++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_27,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_28"
width 22.
group.long 0x4388++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_28,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4390++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_28,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x439C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_28,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4398++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_28,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x438C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_28,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4394++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_28,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4380++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_28,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4384++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_28,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_29"
width 22.
group.long 0x43A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_29,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x43B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_29,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x43BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_29,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x43B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_29,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x43AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_29,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x43B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_29,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x43A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_29,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x43A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_29,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_30"
width 22.
group.long 0x43C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_30,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x43D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_30,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x43DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_30,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x43D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_30,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x43CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_30,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x43D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_30,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x43C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_30,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x43C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_30,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_31"
width 22.
group.long 0x43E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_31,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x43F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_31,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x43FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_31,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x43F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_31,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x43EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_31,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x43F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_31,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x43E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_31,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x43E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_31,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_32"
width 22.
group.long 0x4408++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_32,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4410++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_32,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x441C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_32,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4418++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_32,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x440C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_32,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4414++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_32,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4400++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_32,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4404++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_32,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_33"
width 22.
group.long 0x4428++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_33,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4430++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_33,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x443C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_33,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4438++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_33,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x442C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_33,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4434++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_33,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4420++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_33,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4424++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_33,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_34"
width 22.
group.long 0x4448++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_34,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4450++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_34,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x445C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_34,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4458++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_34,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x444C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_34,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4454++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_34,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4440++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_34,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4444++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_34,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_35"
width 22.
group.long 0x4468++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_35,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4470++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_35,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x447C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_35,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4478++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_35,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x446C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_35,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4474++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_35,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4460++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_35,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4464++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_35,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_36"
width 22.
group.long 0x4488++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_36,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4490++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_36,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x449C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_36,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4498++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_36,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x448C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_36,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4494++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_36,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4480++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_36,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4484++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_36,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_37"
width 22.
group.long 0x44A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_37,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x44B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_37,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x44BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_37,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x44B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_37,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x44AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_37,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x44B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_37,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x44A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_37,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x44A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_37,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_38"
width 22.
group.long 0x44C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_38,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x44D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_38,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x44DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_38,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x44D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_38,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x44CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_38,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x44D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_38,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x44C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_38,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x44C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_38,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_39"
width 22.
group.long 0x44E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_39,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x44F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_39,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x44FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_39,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x44F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_39,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x44EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_39,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x44F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_39,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x44E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_39,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x44E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_39,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_40"
width 22.
group.long 0x4508++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_40,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4510++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_40,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x451C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_40,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4518++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_40,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x450C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_40,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4514++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_40,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4500++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_40,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4504++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_40,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_41"
width 22.
group.long 0x4528++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_41,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4530++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_41,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x453C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_41,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4538++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_41,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x452C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_41,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4534++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_41,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4520++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_41,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4524++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_41,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_42"
width 22.
group.long 0x4548++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_42,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4550++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_42,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x455C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_42,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4558++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_42,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x454C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_42,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4554++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_42,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4540++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_42,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4544++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_42,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_43"
width 22.
group.long 0x4568++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_43,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4570++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_43,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x457C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_43,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4578++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_43,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x456C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_43,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4574++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_43,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4560++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_43,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4564++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_43,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_44"
width 22.
group.long 0x4588++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_44,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4590++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_44,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x459C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_44,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4598++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_44,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x458C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_44,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4594++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_44,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4580++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_44,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4584++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_44,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_45"
width 22.
group.long 0x45A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_45,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x45B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_45,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x45BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_45,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x45B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_45,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x45AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_45,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x45B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_45,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x45A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_45,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x45A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_45,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_46"
width 22.
group.long 0x45C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_46,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x45D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_46,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x45DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_46,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x45D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_46,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x45CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_46,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x45D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_46,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x45C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_46,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x45C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_46,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_47"
width 22.
group.long 0x45E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_47,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x45F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_47,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x45FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_47,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x45F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_47,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x45EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_47,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x45F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_47,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x45E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_47,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x45E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_47,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_48"
width 22.
group.long 0x4608++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_48,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4610++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_48,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x461C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_48,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4618++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_48,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x460C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_48,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4614++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_48,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4600++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_48,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4604++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_48,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_49"
width 22.
group.long 0x4628++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_49,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4630++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_49,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x463C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_49,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4638++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_49,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x462C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_49,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4634++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_49,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4620++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_49,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4624++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_49,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_50"
width 22.
group.long 0x4648++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_50,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4650++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_50,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x465C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_50,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4658++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_50,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x464C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_50,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4654++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_50,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4640++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_50,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4644++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_50,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_51"
width 22.
group.long 0x4668++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_51,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4670++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_51,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x467C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_51,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4678++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_51,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x466C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_51,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4674++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_51,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4660++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_51,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4664++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_51,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_52"
width 22.
group.long 0x4688++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_52,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4690++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_52,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x469C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_52,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4698++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_52,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x468C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_52,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4694++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_52,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4680++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_52,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4684++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_52,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_53"
width 22.
group.long 0x46A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_53,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x46B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_53,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x46BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_53,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x46B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_53,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x46AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_53,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x46B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_53,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x46A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_53,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x46A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_53,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_54"
width 22.
group.long 0x46C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_54,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x46D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_54,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x46DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_54,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x46D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_54,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x46CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_54,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x46D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_54,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x46C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_54,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x46C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_54,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_55"
width 22.
group.long 0x46E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_55,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x46F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_55,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x46FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_55,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x46F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_55,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x46EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_55,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x46F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_55,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x46E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_55,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x46E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_55,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_56"
width 22.
group.long 0x4708++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_56,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4710++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_56,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x471C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_56,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4718++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_56,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x470C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_56,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4714++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_56,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4700++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_56,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4704++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_56,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_57"
width 22.
group.long 0x4728++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_57,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4730++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_57,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x473C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_57,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4738++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_57,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x472C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_57,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4734++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_57,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4720++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_57,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4724++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_57,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_58"
width 22.
group.long 0x4748++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_58,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4750++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_58,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x475C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_58,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4758++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_58,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x474C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_58,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4754++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_58,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4740++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_58,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4744++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_58,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_59"
width 22.
group.long 0x4768++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_59,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4770++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_59,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x477C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_59,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4778++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_59,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x476C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_59,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4774++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_59,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4760++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_59,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4764++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_59,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_60"
width 22.
group.long 0x4788++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_60,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4790++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_60,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x479C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_60,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4798++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_60,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x478C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_60,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4794++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_60,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4780++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_60,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4784++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_60,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_61"
width 22.
group.long 0x47A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_61,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x47B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_61,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x47BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_61,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x47B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_61,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x47AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_61,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x47B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_61,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x47A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_61,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x47A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_61,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_62"
width 22.
group.long 0x47C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_62,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x47D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_62,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x47DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_62,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x47D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_62,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x47CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_62,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x47D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_62,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x47C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_62,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x47C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_62,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_63"
width 22.
group.long 0x47E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_63,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x47F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_63,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x47FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_63,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x47F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_63,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x47EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_63,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x47F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_63,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x47E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_63,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x47E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_63,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_64"
width 22.
group.long 0x4808++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_64,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4810++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_64,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x481C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_64,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4818++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_64,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x480C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_64,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4814++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_64,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4800++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_64,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4804++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_64,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_65"
width 22.
group.long 0x4828++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_65,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4830++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_65,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x483C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_65,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4838++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_65,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x482C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_65,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4834++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_65,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4820++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_65,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4824++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_65,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_66"
width 22.
group.long 0x4848++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_66,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4850++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_66,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x485C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_66,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4858++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_66,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x484C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_66,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4854++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_66,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4840++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_66,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4844++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_66,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_67"
width 22.
group.long 0x4868++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_67,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4870++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_67,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x487C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_67,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4878++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_67,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x486C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_67,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4874++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_67,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4860++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_67,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4864++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_67,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_68"
width 22.
group.long 0x4888++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_68,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4890++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_68,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x489C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_68,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4898++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_68,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x488C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_68,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4894++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_68,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4880++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_68,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4884++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_68,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_69"
width 22.
group.long 0x48A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_69,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x48B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_69,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x48BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_69,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x48B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_69,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x48AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_69,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x48B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_69,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x48A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_69,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x48A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_69,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_70"
width 22.
group.long 0x48C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_70,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x48D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_70,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x48DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_70,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x48D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_70,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x48CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_70,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x48D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_70,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x48C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_70,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x48C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_70,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_71"
width 22.
group.long 0x48E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_71,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x48F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_71,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x48FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_71,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x48F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_71,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x48EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_71,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x48F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_71,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x48E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_71,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x48E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_71,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_72"
width 22.
group.long 0x4908++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_72,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4910++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_72,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x491C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_72,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4918++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_72,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x490C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_72,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4914++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_72,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4900++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_72,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4904++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_72,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_73"
width 22.
group.long 0x4928++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_73,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4930++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_73,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x493C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_73,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4938++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_73,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x492C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_73,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4934++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_73,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4920++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_73,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4924++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_73,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_74"
width 22.
group.long 0x4948++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_74,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4950++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_74,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x495C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_74,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4958++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_74,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x494C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_74,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4954++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_74,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4940++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_74,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4944++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_74,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_75"
width 22.
group.long 0x4968++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_75,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4970++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_75,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x497C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_75,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4978++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_75,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x496C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_75,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4974++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_75,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4960++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_75,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4964++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_75,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_76"
width 22.
group.long 0x4988++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_76,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4990++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_76,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x499C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_76,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4998++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_76,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x498C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_76,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4994++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_76,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4980++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_76,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4984++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_76,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_77"
width 22.
group.long 0x49A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_77,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x49B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_77,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x49BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_77,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x49B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_77,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x49AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_77,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x49B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_77,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x49A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_77,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x49A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_77,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_78"
width 22.
group.long 0x49C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_78,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x49D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_78,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x49DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_78,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x49D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_78,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x49CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_78,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x49D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_78,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x49C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_78,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x49C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_78,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_79"
width 22.
group.long 0x49E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_79,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x49F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_79,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x49FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_79,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x49F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_79,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x49EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_79,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x49F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_79,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x49E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_79,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x49E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_79,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_80"
width 22.
group.long 0x4A08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_80,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_80,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_80,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_80,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_80,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_80,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_80,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_80,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_81"
width 22.
group.long 0x4A28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_81,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_81,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_81,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_81,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_81,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_81,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_81,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_81,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_82"
width 22.
group.long 0x4A48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_82,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_82,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_82,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_82,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_82,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_82,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_82,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_82,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_83"
width 22.
group.long 0x4A68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_83,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_83,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_83,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_83,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_83,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_83,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_83,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_83,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_84"
width 22.
group.long 0x4A88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_84,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_84,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_84,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_84,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_84,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_84,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_84,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_84,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_85"
width 22.
group.long 0x4AA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_85,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4AB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_85,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4ABC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_85,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4AB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_85,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4AAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_85,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4AB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_85,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4AA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_85,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4AA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_85,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_86"
width 22.
group.long 0x4AC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_86,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4AD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_86,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4ADC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_86,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4AD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_86,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4ACC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_86,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4AD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_86,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4AC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_86,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4AC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_86,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_87"
width 22.
group.long 0x4AE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_87,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4AF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_87,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4AFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_87,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4AF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_87,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4AEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_87,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4AF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_87,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4AE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_87,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4AE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_87,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_88"
width 22.
group.long 0x4B08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_88,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_88,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_88,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_88,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_88,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_88,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_88,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_88,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_89"
width 22.
group.long 0x4B28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_89,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_89,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_89,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_89,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_89,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_89,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_89,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_89,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_90"
width 22.
group.long 0x4B48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_90,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_90,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_90,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_90,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_90,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_90,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_90,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_90,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_91"
width 22.
group.long 0x4B68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_91,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_91,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_91,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_91,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_91,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_91,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_91,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_91,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_92"
width 22.
group.long 0x4B88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_92,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_92,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_92,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_92,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_92,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_92,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_92,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_92,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_93"
width 22.
group.long 0x4BA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_93,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4BB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_93,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4BBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_93,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4BB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_93,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4BAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_93,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4BB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_93,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4BA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_93,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4BA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_93,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_94"
width 22.
group.long 0x4BC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_94,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4BD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_94,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4BDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_94,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4BD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_94,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4BCC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_94,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4BD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_94,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4BC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_94,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4BC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_94,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_95"
width 22.
group.long 0x4BE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_95,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4BF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_95,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4BFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_95,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4BF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_95,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4BEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_95,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4BF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_95,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4BE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_95,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4BE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_95,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_96"
width 22.
group.long 0x4C08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_96,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_96,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_96,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_96,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_96,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_96,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_96,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_96,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_97"
width 22.
group.long 0x4C28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_97,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_97,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_97,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_97,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_97,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_97,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_97,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_97,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_98"
width 22.
group.long 0x4C48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_98,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_98,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_98,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_98,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_98,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_98,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_98,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_98,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_99"
width 22.
group.long 0x4C68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_99,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_99,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_99,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_99,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_99,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_99,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_99,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_99,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_100"
width 23.
group.long 0x4C88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_100,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_100,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_100,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_100,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_100,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_100,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_100,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_100,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_101"
width 23.
group.long 0x4CA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_101,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4CB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_101,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4CBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_101,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4CB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_101,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4CAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_101,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4CB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_101,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4CA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_101,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4CA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_101,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_102"
width 23.
group.long 0x4CC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_102,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4CD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_102,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4CDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_102,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4CD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_102,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4CCC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_102,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4CD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_102,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4CC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_102,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4CC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_102,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_103"
width 23.
group.long 0x4CE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_103,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4CF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_103,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4CFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_103,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4CF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_103,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4CEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_103,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4CF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_103,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4CE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_103,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4CE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_103,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_104"
width 23.
group.long 0x4D08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_104,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_104,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_104,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_104,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_104,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_104,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_104,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_104,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_105"
width 23.
group.long 0x4D28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_105,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_105,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_105,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_105,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_105,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_105,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_105,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_105,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_106"
width 23.
group.long 0x4D48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_106,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_106,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_106,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_106,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_106,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_106,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_106,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_106,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_107"
width 23.
group.long 0x4D68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_107,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_107,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_107,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_107,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_107,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_107,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_107,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_107,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_108"
width 23.
group.long 0x4D88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_108,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_108,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_108,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_108,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_108,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_108,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_108,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_108,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_109"
width 23.
group.long 0x4DA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_109,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4DB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_109,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4DBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_109,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4DB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_109,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4DAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_109,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4DB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_109,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4DA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_109,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4DA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_109,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_110"
width 23.
group.long 0x4DC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_110,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4DD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_110,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4DDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_110,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4DD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_110,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4DCC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_110,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4DD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_110,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4DC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_110,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4DC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_110,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_111"
width 23.
group.long 0x4DE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_111,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4DF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_111,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4DFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_111,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4DF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_111,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4DEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_111,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4DF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_111,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4DE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_111,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4DE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_111,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_112"
width 23.
group.long 0x4E08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_112,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_112,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_112,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_112,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_112,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_112,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_112,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_112,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_113"
width 23.
group.long 0x4E28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_113,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_113,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_113,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_113,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_113,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_113,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_113,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_113,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_114"
width 23.
group.long 0x4E48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_114,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_114,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_114,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_114,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_114,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_114,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_114,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_114,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_115"
width 23.
group.long 0x4E68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_115,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_115,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_115,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_115,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_115,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_115,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_115,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_115,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_116"
width 23.
group.long 0x4E88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_116,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_116,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_116,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_116,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_116,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_116,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_116,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_116,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_117"
width 23.
group.long 0x4EA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_117,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4EB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_117,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4EBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_117,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4EB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_117,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4EAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_117,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4EB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_117,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4EA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_117,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4EA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_117,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_118"
width 23.
group.long 0x4EC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_118,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4ED0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_118,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4EDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_118,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4ED8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_118,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4ECC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_118,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4ED4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_118,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4EC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_118,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4EC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_118,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_119"
width 23.
group.long 0x4EE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_119,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4EF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_119,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4EFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_119,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4EF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_119,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4EEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_119,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4EF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_119,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4EE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_119,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4EE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_119,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_120"
width 23.
group.long 0x4F08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_120,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_120,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_120,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_120,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_120,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_120,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_120,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_120,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_121"
width 23.
group.long 0x4F28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_121,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_121,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_121,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_121,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_121,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_121,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_121,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_121,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_122"
width 23.
group.long 0x4F48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_122,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_122,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_122,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_122,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_122,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_122,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_122,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_122,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_123"
width 23.
group.long 0x4F68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_123,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_123,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_123,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_123,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_123,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_123,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_123,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_123,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_124"
width 23.
group.long 0x4F88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_124,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_124,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_124,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_124,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_124,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_124,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_124,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_124,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_125"
width 23.
group.long 0x4FA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_125,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4FB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_125,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4FBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_125,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4FB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_125,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4FAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_125,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4FB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_125,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4FA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_125,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4FA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_125,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_126"
width 23.
group.long 0x4FC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_126,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4FD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_126,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4FDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_126,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4FD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_126,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4FCC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_126,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4FD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_126,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4FC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_126,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4FC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_126,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_127"
width 23.
group.long 0x4FE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_127,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4FF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_127,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4FFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_127,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4FF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_127,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4FEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_127,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4FF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_127,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4FE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_127,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4FE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_127,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
textline ""
width 20.
rgroup.long 0x0++0x3
line.long 0x00 "EDMA_TPCC_PID,Peripheral ID Register"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP revision"
rgroup.long 0x4++0x3
line.long 0x00 "EDMA_TPCC_CCCFG,CC Configuration Register"
bitfld.long 0x00 25. " MPEXIST   ,Memory Protection Existence - . - ." "No_mMemory_protection,1"
bitfld.long 0x00 24. "  CHMAPEXIST ,Channel Mapping Existence - . - ." "No_Channel_mapping.,1"
bitfld.long 0x00 20.--21. "  NUMREGN  ,Number of MP and Shadow regions" "0,1,2,3"
textline "                             "
bitfld.long 0x00 16.--18. " NUMTC     ,Number of Queues/Number of TCs" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                      NUMPAENTRY ,Number of PaRAM entries" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "                    NUMINTCH ,Number of Interrupt Channels" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 4.--6. " NUMQDMACH ,Number of QDMA Channels" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                      NUMDMACH   ,Number of DMA Channels" "0,1,2,3,4,5,6,7"
group.long 0xFC++0x3
line.long 0x00 "EDMA_TPCC_CLKGDIS,Auto Clock Gate Disable"
bitfld.long 0x00 0. " CLKGDIS   ,Auto Clock Gate Disable" "0,1"
group.long 0x260++0x3
line.long 0x00 "EDMA_TPCC_QDMAQNUM,QDMA Queue Number Register Contains the Event queue number to be used for the corresponding QDMA Channel."
bitfld.long 0x00 28.--30. " E7        ,QDMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                      E6         ,QDMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "                    E5       ,QDMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 16.--18. " E4        ,QDMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                      E3         ,QDMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "                    E2       ,QDMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 4.--6. " E1        ,QDMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                      E0         ,QDMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x280++0x3
line.long 0x00 "EDMA_TPCC_QUETCMAP,Queue to TC Mapping"
bitfld.long 0x00 4.--6. " TCNUMQ1   ,TC Number for Queue N: Defines the TC number that Event Queue N TRs are written to." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                      TCNUMQ0    ,TC Number for Queue N: Defines the TC number that Event Queue N TRs are written to." "0,1,2,3,4,5,6,7"
group.long 0x284++0x3
line.long 0x00 "EDMA_TPCC_QUEPRI,Queue Priority"
bitfld.long 0x00 4.--6. " PRIQ1     ,Priority Level for Queue 1 Dictates the priority level used for the OPTIONS field programmation for Qn TRs. Sets the priority used for TC read and write commands." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                      PRIQ0      ,Priority Level for Queue 0 Dictates the priority level used for the OPTIONS field programmation for Qn TRs. Sets the priority used for TC read and write commands." "0,1,2,3,4,5,6,7"
rgroup.long 0x300++0x3
line.long 0x00 "EDMA_TPCC_EMR,Event Missed Register: The Event Missed register is set if 2 events are received without the first event being cleared or if a Null TR is serviced. Chained events (CER), Set Events (ESR), and normal events (ER) are treated individually. I..."
bitfld.long 0x00 31. " E31       ,Event Missed #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event Missed #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event Missed #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event Missed #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event Missed #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event Missed #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event Missed #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event Missed #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event Missed #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event Missed #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event Missed #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event Missed #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event Missed #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event Missed #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event Missed #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event Missed #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event Missed #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event Missed #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event Missed #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event Missed #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event Missed #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event Missed #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event Missed #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event Missed #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event Missed #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event Missed #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event Missed #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event Missed #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event Missed #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event Missed #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event Missed #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event Missed #0" "0,1"
rgroup.long 0x304++0x3
line.long 0x00 "EDMA_TPCC_EMRH,Event Missed Register (High Part): The Event Missed register is set if 2 events are received without the first event being cleared or if a Null TR is serviced. Chained events (CER), Set Events (ESR), and normal events (ER) are treated in..."
bitfld.long 0x00 31. " E63       ,Event Missed #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event Missed #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event Missed #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event Missed #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event Missed #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event Missed #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event Missed #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event Missed #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event Missed #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event Missed #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event Missed #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event Missed #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event Missed #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event Missed #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event Missed #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event Missed #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event Missed #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event Missed #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event Missed #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event Missed #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event Missed #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event Missed #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event Missed #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event Missed #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event Missed #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event Missed #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event Missed #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event Missed #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event Missed #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event Missed #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event Missed #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event Missed #32" "0,1"
wgroup.long 0x308++0x3
line.long 0x00 "EDMA_TPCC_EMCR,Event Missed Clear Register: CPU write of '1' to the.En bit causes the .En bit to be cleared. CPU write of '0' has no effect.. All error bits must be cleared before additional error interrupts will be asserted by CC."
bitfld.long 0x00 31. " E31       ,Event Missed Clear #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event Missed Clear #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event Missed Clear #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event Missed Clear #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event Missed Clear #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event Missed Clear #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event Missed Clear #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event Missed Clear #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event Missed Clear #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event Missed Clear #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event Missed Clear #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event Missed Clear #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event Missed Clear #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event Missed Clear #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event Missed Clear #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event Missed Clear #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event Missed Clear #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event Missed Clear #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event Missed Clear #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event Missed Clear #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event Missed Clear #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event Missed Clear #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event Missed Clear #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event Missed Clear #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event Missed Clear #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event Missed Clear #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event Missed Clear #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event Missed Clear #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event Missed Clear #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event Missed Clear #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event Missed Clear #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event Missed Clear #0" "0,1"
wgroup.long 0x30C++0x3
line.long 0x00 "EDMA_TPCC_EMCRH,Event Missed Clear Register (High Part): CPU write of '1' to the.En bit causes the .En bit to be cleared. CPU write of '0' has no effect. All error bits must be cleared before additional error interrupts will be asserted by CC."
bitfld.long 0x00 31. " E63       ,Event Missed Clear #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event Missed Clear #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event Missed Clear #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event Missed Clear #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event Missed Clear #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event Missed Clear #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event Missed Clear #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event Missed Clear #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event Missed Clear #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event Missed Clear #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event Missed Clear #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event Missed Clear #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event Missed Clear #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event Missed Clear #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event Missed Clear #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event Missed Clear #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event Missed Clear #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event Missed Clear #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event Missed Clear #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event Missed Clear #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event Missed Clear #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event Missed Clear #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event Missed Clear #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event Missed Clear #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event Missed Clear #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event Missed Clear #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event Missed Clear #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event Missed Clear #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event Missed Clear #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event Missed Clear #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event Missed Clear #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event Missed Clear #32" "0,1"
rgroup.long 0x310++0x3
line.long 0x00 "EDMA_TPCC_QEMR,QDMA Event Missed Register: The QDMA Event Missed register is set if 2 QDMA events are detected without the first event being cleared or if a Null TR is serviced. If any bit in the register is set (and all errors (including / ) were prev..."
bitfld.long 0x00 7. " E7        ,Event Missed #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event Missed #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event Missed #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event Missed #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event Missed #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event Missed #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event Missed #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event Missed #0" "0,1"
wgroup.long 0x314++0x3
line.long 0x00 "EDMA_TPCC_QEMCR,QDMA Event Missed Clear Register: CPU write of '1' to the.En bit causes the .En bit to be cleared. CPU write of '0' has no effect. All error bits must be cleared before additional error interrupts will be asserted by CC."
bitfld.long 0x00 7. " E7        ,Event Missed Clear #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event Missed Clear #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event Missed Clear #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event Missed Clear #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event Missed Clear #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event Missed Clear #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event Missed Clear #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event Missed Clear #0" "0,1"
rgroup.long 0x318++0x3
line.long 0x00 "EDMA_TPCC_CCERR,CC Error Register"
bitfld.long 0x00 16. " TCERR     ,Transfer Completion Code Error - . - . - TCERR can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors were previously clear), then an error will be signaled with TPCC error interr..." "0,1"
bitfld.long 0x00 7. "                      QTHRXCD7   ,Queue Threshold Error for Q7 - . - . - QTHRXCD7 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error wi..." "0,1"
bitfld.long 0x00 6. "                    QTHRXCD6 ,Queue Threshold Error for Q6 - . - . - QTHRXCD6 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will b..." "0,1"
textline "                             "
bitfld.long 0x00 5. " QTHRXCD5  ,Queue Threshold Error for Q5 - . - . - QTHRXCD5 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will be signaled with th..." "0,1"
bitfld.long 0x00 4. "                      QTHRXCD4   ,Queue Threshold Error for Q4 - . - . - QTHRXCD4 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error wi..." "0,1"
bitfld.long 0x00 3. "                    QTHRXCD3 ,Queue Threshold Error for Q3 - . - . - QTHRXCD3 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will b..." "0,1"
textline "                             "
bitfld.long 0x00 2. " QTHRXCD2  ,Queue Threshold Error for Q2 - . - . - QTHRXCD2 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will be signaled with th..." "0,1"
bitfld.long 0x00 1. "                      QTHRXCD1   ,Queue Threshold Error for Q1 - . - . - QTHRXCD1 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error wi..." "0,1"
bitfld.long 0x00 0. "                    QTHRXCD0 ,Queue Threshold Error for Q0: - . - . - QTHRXCD0 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will ..." "0,1"
wgroup.long 0x31C++0x3
line.long 0x00 "EDMA_TPCC_CCERRCLR,CC Error Clear Register"
bitfld.long 0x00 16. " TCERR     ,Clear Error forEDMA_TPCC_CCERR[16] TR. - Write 0x1 to clear the value of[16] TCERR. . - . - Write 0x0 have no affect. . - ." "0,1"
bitfld.long 0x00 7. "                      QTHRXCD7   ,Clear error forEDMA_TPCC_CCERR[7]QTHRXCD7 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT7.WM, QSTAT7.THRXCD,[7] QTHRXCD7 . - ." "0,1"
bitfld.long 0x00 6. "                    QTHRXCD6 ,Clear error forEDMA_TPCC_CCERR[6] QTHRXCD6 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT6.WM, QSTAT6.THRXCD,[6]QTHRXCD6 . - ." "0,1"
textline "                             "
bitfld.long 0x00 5. " QTHRXCD5  ,Clear error forEDMA_TPCC_CCERR[5] QTHRXCD5 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT5.WM, QSTAT5.THRXCD,[5]QTHRXCD5 . - ." "0,1"
bitfld.long 0x00 4. "                      QTHRXCD4   ,Clear error forEDMA_TPCC_CCERR[4] QTHRXCD4: - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT4.WM, QSTAT4.THRXCD,[4] QTHRXCD4 . - ." "0,1"
bitfld.long 0x00 3. "                    QTHRXCD3 ,Clear error forEDMA_TPCC_CCERR[3] QTHRXCD3 - Write 0x1 to clear the values of QSTAT3.WM, QSTAT3.THRXCD,[3] QTHRXCD3 . - . - Write 0x0 have no affect. . - ." "0,1"
textline "                             "
bitfld.long 0x00 2. " QTHRXCD2  ,Clear error forEDMA_TPCC_CCERR[2] QTHRXCD2 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT2.WM, QSTAT2.THRXCD,[2] QTHRXCD2 . - ." "0,1"
bitfld.long 0x00 1. "                      QTHRXCD1   ,Clear error forEDMA_TPCC_CCERR[1] QTHRXCD1 - Write 0x1 to clear the values of QSTAT1.WM, QSTAT1.THRXCD,[1] QTHRXCD1 . - . - Write 0x0 have no affect. . - ." "0,1"
bitfld.long 0x00 0. "                    QTHRXCD0 ,Clear error forEDMA_TPCC_CCERR[0] QTHRXCD0 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT0.WM, QSTAT0.THRXCD,[0] QTHRXCD0 . - ." "0,1"
wgroup.long 0x320++0x3
line.long 0x00 "EDMA_TPCC_EEVAL,Error Eval Register"
bitfld.long 0x00 1. " SET       ,Error Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SET bit causes the TPCC error interrupt to be pulsed regardless of state of/, , or . . - ." "0,1"
bitfld.long 0x00 0. "                      EVAL       ,Error Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVAL bit causes the TPCC error interrupt to be pulsed if any errors have not been cleared in the/, , or registers. The CPU must als..." "0,1"
group.long 0x620++0x3
line.long 0x00 "EDMA_TPCC_QWMTHRA,Queue Threshold A, for Q[3:0]:.QTHRXCDn and QSTATn[24] THRXCD error bit is set when the number of Events in QueueN at an instant in time (visible via QSTATn[12:8] NUMVAL) equals or exceeds the value specified by .Qn. Legal values = 0x..."
bitfld.long 0x00 24.--28. " Q3        ,Queue Threshold for Q3 value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "                     Q2         ,Queue Threshold for Q2 value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "                   Q1       ,Queue Threshold for Q1 value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                             "
bitfld.long 0x00 0.--4. " Q0        ,Queue Threshold for Q0 value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x624++0x3
line.long 0x00 "EDMA_TPCC_QWMTHRB,Queue Threshold B, for Q[7:4]:.QTHRXCDn and QSTATn[24]THRXCD error bit is set when the number of Events in QueueN at an instant in time (visible via QSTATn[12:8] NUMVAL) equals or exceeds the value specified by QWMTHRB.Qn. Legal value..."
bitfld.long 0x00 24.--28. " Q7        ,Queue Threshold for Q7 value (unused in the context of IVAHD)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "                     Q6         ,Queue Threshold for Q6 value (unused in the context of IVAHD)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "                   Q5       ,Queue Threshold for Q5 value (unused in the context of IVAHD)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                             "
bitfld.long 0x00 0.--4. " Q4        ,Queue Threshold for Q4 value (unused in the context of IVAHD)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rgroup.long 0x640++0x3
line.long 0x00 "EDMA_TPCC_CCSTAT,CC Status Register"
bitfld.long 0x00 23. " QUEACTV7  ,Queue 7 Active - . - ." "0,1"
bitfld.long 0x00 22. "                      QUEACTV6   ,Queue 6 Active - . - ." "0,1"
bitfld.long 0x00 21. "                    QUEACTV5 ,Queue 5 Active - . - ." "0,1"
textline "                             "
bitfld.long 0x00 20. " QUEACTV4  ,Queue 4 Active - . - ." "0,1"
bitfld.long 0x00 19. "                      QUEACTV3   ,Queue 3 Active - . - ." "0,1"
bitfld.long 0x00 18. "                    QUEACTV2 ,Queue 2 Active QUEACTV2 = 0 : No Evts are queued in Q2. QUEACTV2 = 1 : At least one TR is queued in Q2. - . - ." "UNKN_MNEMO,UNKN_MNEMO"
textline "                             "
bitfld.long 0x00 17. " QUEACTV1  ,Queue 1 Active - . - ." "0,1"
bitfld.long 0x00 16. "                      QUEACTV0   ,Queue 0 Active - . - ." "0,1"
bitfld.long 0x00 8.--13. "                    COMPACTV ,Completion Request Active: Counter that tracks the total number of completion requests submitted to the TC. The counter increments when a TR is submitted with TCINTEN or TCCHEN set to '1'. The counter decrements for every ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                             "
bitfld.long 0x00 4. " ACTV      ,Channel Controller Active Channel Controller Active is a logical-OR of each of the *ACTV signals. The ACTV bit must remain high through the life of a: - . - ." "Channel_is_idle.,Channel_is_busy."
bitfld.long 0x00 2. "       TRACTV     ,Transfer Request Active TRACTV = 0 : Transfer Request processing/submission logic is inactive. TRACTV = 1 : Transfer Request processing/submission logic is active. - . - ." "UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 1. "           QEVTACTV ,QDMA Event Active - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0. " EVTACTV   ,DMA Event Active - . - ." "0,1"
group.long 0x700++0x3
line.long 0x00 "EDMA_TPCC_AETCTL,Advanced Event Trigger Control"
bitfld.long 0x00 31. " EN        ,AET Enable - . - ." "0,1"
bitfld.long 0x00 8.--13. "                      ENDINT     ,AET End Interrupt: Dictates the completion interrupt number that will force the tpcc_aet signal to be deasserted (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 6. "                   TYPE     ,AET Event Type - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0.--5. " STRTEVT   ,AET Start Event: Dictates the Event Number that will force the tpcc_aet signal to be asserted (high)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x704++0x3
line.long 0x00 "EDMA_TPCC_AETSTAT,Advanced Event Trigger Stat"
bitfld.long 0x00 0. " STAT      ,AET Status - . - ." "0,1"
wgroup.long 0x708++0x3
line.long 0x00 "EDMA_TPCC_AETCMD,AET Command"
bitfld.long 0x00 0. " CLR       ,AET Clear command - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the CLR bit causes the tpcc_aet output signal and[0]STAT register to be cleared. . - ." "0,1"
rgroup.long 0x800++0x3
line.long 0x00 "EDMA_TPCC_MPFAR,MMemory Protection Fault Address"
hexmask.long 0x00 0.--31. 1. " FADDR     ,Fault Address: 32-bit read-only status register containing the faulting address when a mMemory protection violation is detected. This register can only be cleared via theEDMA_TPCC_MPFCR."
rgroup.long 0x804++0x3
line.long 0x00 "EDMA_TPCC_MPFSR,Memory Protection Fault Status Register"
bitfld.long 0x00 9.--12. " FID       ,Faulted ID: FID register contains valid info if any of the MP error bits (UXE, UWE, URE, SXE, SWE, SRE) are non-zero (i.e., if an error has been detected.) The FID field contains the VBus PrivID for the specific request/requestor that resul..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 5. "                     SRE        ,Supervisor Read Error - . - ." "No_error_detected.,1"
bitfld.long 0x00 4. "   SWE      ,Supervisor Write Error - . - ." "No_error_detected.,1"
textline "                             "
bitfld.long 0x00 3. " SXE       ,Supervisor Execute Error - . - ." "No_error_detected.,1"
bitfld.long 0x00 2. "     URE        ,User Read Error - . - ." "No_error_detected.,1"
bitfld.long 0x00 1. "   UWE      ,User Write Error - . - ." "No_error_detected.,1"
textline "                             "
bitfld.long 0x00 0. " UXE       ,User Execute Error - . - ." "No_error_detected,1"
wgroup.long 0x808++0x3
line.long 0x00 "EDMA_TPCC_MPFCR,Memory Protection Fault Command Register"
bitfld.long 0x00 0. " MPFCLR    ,Fault Clear register - . - ." "has_no_effect,1"
group.long 0x80C++0x3
line.long 0x00 "EDMA_TPCC_MPPAG,Memory Protection Page Attribute for Global registers"
bitfld.long 0x00 15. " AID5      ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                      AID4       ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "                    AID3     ,Allowed ID 3 - . - ." "0,1"
textline "                             "
bitfld.long 0x00 12. " AID2      ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                      AID1       ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "                    AID0     ,Allowed ID 0 - . - ." "0,1"
textline "                             "
bitfld.long 0x00 9. " EXT       ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                      SR         ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "                    SW       ,Supervisor Write permission - . - ." "0,1"
textline "                             "
bitfld.long 0x00 3. " SX        ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                      UR         ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "                    UW       ,User Write permission - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0. " UX        ,User Execute permission - . - ." "0,1"
rgroup.long 0x1000++0x3
line.long 0x00 "EDMA_TPCC_ER,Event Register: If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive (low) ..."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x1004++0x3
line.long 0x00 "EDMA_TPCC_ERH,Event Register (High Part): If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from in..."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1008++0x3
line.long 0x00 "EDMA_TPCC_ECR,Event Clear Register: CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x100C++0x3
line.long 0x00 "EDMA_TPCC_ECRH,Event Clear Register (High Part): CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1010++0x3
line.long 0x00 "EDMA_TPCC_ESR,Event Set Register: CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1014++0x3
line.long 0x00 "EDMA_TPCC_ESRH,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
rgroup.long 0x1018++0x3
line.long 0x00 "EDMA_TPCC_CER,Chained Event Register: If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is returned fr..."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x101C++0x3
line.long 0x00 "EDMA_TPCC_CERH,Chained Event Register (High Part): If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code i..."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
rgroup.long 0x1020++0x3
line.long 0x00 "EDMA_TPCC_EER,Event Enable Register: Enables DMA transfers for.En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). Note that if a bit..."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x1024++0x3
line.long 0x00 "EDMA_TPCC_EERH,Event Enable Register (High Part): Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). Note..."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1028++0x3
line.long 0x00 "EDMA_TPCC_EECR,Event Enable Clear Register CPU writes of '1' to the .En bit causes the .En bit to be cleared. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x102C++0x3
line.long 0x00 "EDMA_TPCC_EECRH,Event Enable Clear Register (High Part) CPU writes of '1' to the .En bit causes the EERH.En bit to be cleared. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1030++0x3
line.long 0x00 "EDMA_TPCC_EESR,Event Enable Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1034++0x3
line.long 0x00 "EDMA_TPCC_EESRH,Event Enable Set Register (High Part) CPU writes of '1' to the .En bit causes the .En bit to be set. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
rgroup.long 0x1038++0x3
line.long 0x00 "EDMA_TPCC_SER,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored in Even..."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x103C++0x3
line.long 0x00 "EDMA_TPCC_SERH,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently s..."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1040++0x3
line.long 0x00 "EDMA_TPCC_SECR,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '1' to the .En bit clears the register. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1044++0x3
line.long 0x00 "EDMA_TPCC_SECRH,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '1' to the .En bit clears the register. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
rgroup.long 0x1050++0x3
line.long 0x00 "EDMA_TPCC_IER,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. . In = 0: .In is NOT enabled for interrupts. . In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x1054++0x3
line.long 0x00 "EDMA_TPCC_IERH,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. . In = 0: .In is NOT enabled for interrupts. . In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x1058++0x3
line.long 0x00 "EDMA_TPCC_IECR,Int Enable Clear Register CPU writes of '1' to the .In bit causes the .In bit to be cleared. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x105C++0x3
line.long 0x00 "EDMA_TPCC_IECRH,Int Enable Clear Register (High Part) CPU write of '1' to the .In bit causes the .In bit to be cleared. CPU write of '0' has no effect.."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x1060++0x3
line.long 0x00 "EDMA_TPCC_IESR,Int Enable Set Register CPU write of '1' to the .In bit causes the .In bit to be set. CPU write of '0' has no effect.."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x1064++0x3
line.long 0x00 "EDMA_TPCC_IESRH,Int Enable Set Register (High Part) CPU write of '1' to the .In bit causes the .In bit to be set. CPU write of '0' has no effect.."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x1068++0x3
line.long 0x00 "EDMA_TPCC_IPR,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x106C++0x3
line.long 0x00 "EDMA_TPCC_IPRH,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. . In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x1070++0x3
line.long 0x00 "EDMA_TPCC_ICR,Interrupt Clear Register CPU write of '1' to the .In bit causes the .In bit to be cleared. CPU write of '0' has no effect. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x1074++0x3
line.long 0x00 "EDMA_TPCC_ICRH,Interrupt Clear Register (High Part) CPU write of '1' to the .In bit causes the .In bit to be cleared. CPU write of '0' has no effect. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x1078++0x3
line.long 0x00 "EDMA_TPCC_IEVAL,Interrupt Eval Register"
bitfld.long 0x00 1. " SET       ,Interrupt Set: CPU write of '1' to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). CPU write of '0' has no effect." "0,1"
bitfld.long 0x00 0. "                      EVAL       ,Interrupt Evaluate: CPU write of '1' to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). CPU write of '0' has no effect." "0,1"
rgroup.long 0x1080++0x3
line.long 0x00 "EDMA_TPCC_QER,QDMA Event Register: If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .En bit ..."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x1084++0x3
line.long 0x00 "EDMA_TPCC_QEER,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. QDMA channels can be enabled via writes to and can be disabled via writes to register. .En = 1, The corresponding QDMA..."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1088++0x3
line.long 0x00 "EDMA_TPCC_QEECR,QDMA Event Enable Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect.."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x108C++0x3
line.long 0x00 "EDMA_TPCC_QEESR,QDMA Event Enable Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect.."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x1090++0x3
line.long 0x00 "EDMA_TPCC_QSER,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1094++0x3
line.long 0x00 "EDMA_TPCC_QSECR,QDMA Secondary Event Clear Register The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear the .En register). CPU write of '1' to..."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
width 0x0B
tree.end
tree "EVE2_EDMA_TPCC"
base ad:0x421A0000
tree "DMA_Channel_0"
width 24.
group.long 0x4008++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_0,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4010++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_0,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x401C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_0,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x201C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_0,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2018++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_0,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4018++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_0,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x100++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_0,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x240++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_0,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "      E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "      E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x400C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_0,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x200C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_0,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2008++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_0,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x202C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_0,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2028++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_0,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2024++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_0,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2020++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_0,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2034++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_0,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2030++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_0,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2004++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_0,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2000++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_0,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2014++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_0,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2010++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_0,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2074++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_0,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2070++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_0,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x205C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_0,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2058++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_0,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2054++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_0,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2050++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_0,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2064++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_0,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2060++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_0,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2078++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_0,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x206C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_0,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2068++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_0,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4014++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_0,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x810++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_0,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "      AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "      AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission se..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "      SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "      UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4000++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_0,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "     ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "      TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "     TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "      SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x200++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_0,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2088++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_0,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2084++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_0,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x208C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_0,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2080++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_0,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x380++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_0,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "      E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "      E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2094++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_0,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2090++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_0,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x600++0x3
line.long 0x00 "EDMA_TPCC_QSTATN_i_0,QSTATn Register Set"
bitfld.long 0x00 24. " THRXCD  ,Threshold Exceeded - . - . - THRXCD is cleared via. WMCLRn bit. . - ." "0,1"
bitfld.long 0x00 16.--20. "                     WM       ,Watermark for Maximum Queue Usage: Watermark tracks the most entries that have been in QueueN since reset or since the last time that the watermark (WM) was cleared. QSTATn. WM is cleared via EDMA_TPCC_CCERR.WMCLRn bit. L..." "empty,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,full,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "  NUMVAL  ,Number of Valid Entries in QueueN: Represents the total number of entries residing in the Queue Manager FIFO at a given instant. Always enabled. Legal values: = 0x0 (empty) to 0x10 (full) - . - ." "empty,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,full,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                 "
bitfld.long 0x00 0.--3. " STRTPTR ,Start Pointer: Represents the offset to the head entry of QueueN, in units of *entries*. Always enabled. Legal values: - . - ." "0th_entry,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15th_entry"
wgroup.long 0x2044++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_0,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2040++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_0,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x203C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_0,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2038++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_0,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4004++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_0,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_1"
width 24.
group.long 0x4028++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_1,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4030++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_1,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x403C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_1,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x221C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_1,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2218++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_1,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4038++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_1,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x104++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_1,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x244++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_1,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "      E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "      E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x402C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_1,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x220C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_1,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2208++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_1,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x222C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_1,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2228++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_1,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2224++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_1,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2220++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_1,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2234++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_1,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2230++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_1,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2204++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_1,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2200++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_1,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2214++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_1,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2210++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_1,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2274++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_1,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2270++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_1,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x225C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_1,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2258++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_1,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2254++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_1,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2250++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_1,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2264++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_1,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2260++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_1,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2278++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_1,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x226C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_1,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2268++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_1,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4034++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_1,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x814++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_1,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "      AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "      AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission se..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "      SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "      UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4020++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_1,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "     ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "      TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "     TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "      SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x204++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_1,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2288++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_1,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2284++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_1,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x228C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_1,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2280++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_1,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x384++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_1,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "      E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "      E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2294++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_1,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2290++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_1,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x604++0x3
line.long 0x00 "EDMA_TPCC_QSTATN_i_1,QSTATn Register Set"
bitfld.long 0x00 24. " THRXCD  ,Threshold Exceeded - . - . - THRXCD is cleared via. WMCLRn bit. . - ." "0,1"
bitfld.long 0x00 16.--20. "                     WM       ,Watermark for Maximum Queue Usage: Watermark tracks the most entries that have been in QueueN since reset or since the last time that the watermark (WM) was cleared. QSTATn. WM is cleared via EDMA_TPCC_CCERR.WMCLRn bit. L..." "empty,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,full,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "  NUMVAL  ,Number of Valid Entries in QueueN: Represents the total number of entries residing in the Queue Manager FIFO at a given instant. Always enabled. Legal values: = 0x0 (empty) to 0x10 (full) - . - ." "empty,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,full,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                 "
bitfld.long 0x00 0.--3. " STRTPTR ,Start Pointer: Represents the offset to the head entry of QueueN, in units of *entries*. Always enabled. Legal values: - . - ." "0th_entry,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15th_entry"
wgroup.long 0x2244++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_1,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2240++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_1,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x223C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_1,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2238++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_1,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4024++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_1,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_2"
width 24.
group.long 0x4048++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_2,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4050++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_2,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x405C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_2,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x241C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_2,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2418++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_2,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4058++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_2,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x108++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_2,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x248++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_2,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x404C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_2,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x240C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_2,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2408++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_2,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x242C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_2,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2428++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_2,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2424++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_2,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2420++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_2,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2434++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_2,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2430++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_2,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2404++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_2,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2400++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_2,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2414++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_2,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2410++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_2,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2474++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_2,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2470++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_2,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x245C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_2,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2458++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_2,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2454++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_2,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2450++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_2,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2464++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_2,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2460++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_2,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2478++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_2,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x246C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_2,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2468++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_2,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4054++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_2,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x818++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_2,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4040++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_2,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x208++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_2,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2488++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_2,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2484++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_2,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x248C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_2,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2480++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_2,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x388++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_2,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2494++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_2,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2490++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_2,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2444++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_2,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2440++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_2,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x243C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_2,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2438++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_2,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4044++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_2,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_3"
width 24.
group.long 0x4068++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_3,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4070++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_3,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x407C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_3,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x261C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_3,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2618++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_3,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4078++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_3,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x10C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_3,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x24C++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_3,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x406C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_3,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x260C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_3,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2608++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_3,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x262C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_3,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2628++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_3,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2624++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_3,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2620++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_3,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2634++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_3,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2630++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_3,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2604++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_3,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2600++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_3,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2614++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_3,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2610++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_3,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2674++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_3,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2670++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_3,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x265C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_3,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2658++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_3,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2654++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_3,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2650++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_3,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2664++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_3,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2660++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_3,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2678++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_3,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x266C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_3,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2668++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_3,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4074++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_3,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x81C++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_3,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4060++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_3,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x20C++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_3,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2688++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_3,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2684++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_3,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x268C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_3,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2680++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_3,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x38C++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_3,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2694++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_3,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2690++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_3,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2644++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_3,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2640++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_3,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x263C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_3,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2638++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_3,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4064++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_3,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_4"
width 24.
group.long 0x4088++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_4,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4090++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_4,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x409C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_4,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x281C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_4,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2818++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_4,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4098++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_4,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x110++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_4,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x250++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_4,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x408C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_4,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x280C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_4,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2808++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_4,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x282C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_4,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2828++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_4,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2824++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_4,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2820++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_4,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2834++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_4,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2830++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_4,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2804++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_4,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2800++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_4,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2814++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_4,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2810++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_4,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2874++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_4,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2870++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_4,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x285C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_4,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2858++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_4,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2854++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_4,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2850++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_4,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2864++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_4,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2860++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_4,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2878++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_4,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x286C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_4,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2868++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_4,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4094++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_4,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x820++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_4,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4080++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_4,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x210++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_4,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2888++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_4,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2884++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_4,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x288C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_4,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2880++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_4,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x390++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_4,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2894++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_4,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2890++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_4,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2844++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_4,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2840++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_4,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x283C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_4,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2838++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_4,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4084++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_4,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_5"
width 24.
group.long 0x40A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_5,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x40B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_5,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x40BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_5,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x2A1C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_5,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2A18++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_5,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_5,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x114++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_5,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x254++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_5,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x40AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_5,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x2A0C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_5,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A08++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_5,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A2C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_5,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A28++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_5,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A24++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_5,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2A20++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_5,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A34++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_5,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A30++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_5,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A04++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_5,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2A00++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_5,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A14++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_5,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A10++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_5,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A74++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_5,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2A70++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_5,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2A5C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_5,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2A58++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_5,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2A54++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_5,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2A50++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_5,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2A64++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_5,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2A60++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_5,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2A78++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_5,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x2A6C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_5,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2A68++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_5,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x40B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_5,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x824++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_5,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x40A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_5,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x214++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_5,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2A88++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_5,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A84++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_5,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A8C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_5,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A80++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_5,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x394++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_5,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2A94++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_5,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A90++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_5,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A44++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_5,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A40++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_5,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A3C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_5,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2A38++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_5,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_5,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_6"
width 24.
group.long 0x40C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_6,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x40D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_6,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x40DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_6,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x2C1C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_6,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2C18++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_6,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_6,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x118++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_6,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x258++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_6,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x40CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_6,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x2C0C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_6,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C08++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_6,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C2C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_6,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C28++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_6,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C24++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_6,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2C20++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_6,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C34++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_6,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C30++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_6,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C04++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_6,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2C00++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_6,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C14++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_6,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C10++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_6,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C74++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_6,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2C70++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_6,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2C5C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_6,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2C58++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_6,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2C54++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_6,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2C50++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_6,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2C64++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_6,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2C60++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_6,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2C78++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_6,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x2C6C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_6,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2C68++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_6,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x40D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_6,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x828++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_6,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x40C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_6,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x218++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_6,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2C88++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_6,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C84++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_6,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C8C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_6,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C80++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_6,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x398++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_6,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2C94++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_6,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C90++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_6,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C44++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_6,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C40++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_6,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C3C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_6,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2C38++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_6,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_6,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_7"
width 24.
group.long 0x40E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_7,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x40F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_7,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x40FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_7,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x2E1C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_7,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2E18++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_7,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_7,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x11C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_7,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x25C++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_7,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x40EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_7,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x2E0C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_7,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E08++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_7,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E2C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_7,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E28++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_7,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E24++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_7,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2E20++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_7,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E34++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_7,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E30++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_7,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E04++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_7,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2E00++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_7,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E14++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_7,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E10++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_7,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E74++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_7,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2E70++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_7,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2E5C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_7,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2E58++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_7,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2E54++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_7,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2E50++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_7,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2E64++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_7,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2E60++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_7,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2E78++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_7,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x2E6C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_7,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2E68++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_7,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x40F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_7,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x82C++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_7,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x40E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_7,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x21C++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_7,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2E88++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_7,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E84++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_7,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E8C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_7,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E80++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_7,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x39C++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_7,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2E94++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_7,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E90++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_7,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E44++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_7,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E40++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_7,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E3C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_7,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2E38++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_7,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_7,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_8"
width 23.
group.long 0x4108++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_8,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4110++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_8,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x411C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_8,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4118++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_8,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x120++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_8,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x410C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_8,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4114++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_8,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4100++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_8,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4104++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_8,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_9"
width 23.
group.long 0x4128++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_9,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4130++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_9,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x413C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_9,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4138++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_9,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x124++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_9,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x412C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_9,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4134++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_9,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4120++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_9,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4124++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_9,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_10"
width 24.
group.long 0x4148++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_10,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4150++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_10,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x415C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_10,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4158++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_10,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x128++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_10,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x414C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_10,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4154++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_10,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4140++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_10,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4144++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_10,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_11"
width 24.
group.long 0x4168++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_11,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4170++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_11,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x417C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_11,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4178++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_11,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x12C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_11,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x416C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_11,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4174++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_11,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4160++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_11,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4164++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_11,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_12"
width 24.
group.long 0x4188++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_12,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4190++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_12,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x419C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_12,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4198++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_12,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x130++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_12,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x418C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_12,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4194++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_12,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4180++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_12,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4184++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_12,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_13"
width 24.
group.long 0x41A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_13,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x41B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_13,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x41BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_13,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x41B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_13,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x134++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_13,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x41AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_13,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x41B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_13,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x41A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_13,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x41A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_13,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_14"
width 24.
group.long 0x41C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_14,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x41D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_14,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x41DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_14,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x41D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_14,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x138++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_14,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x41CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_14,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x41D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_14,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x41C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_14,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x41C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_14,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_15"
width 24.
group.long 0x41E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_15,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x41F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_15,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x41FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_15,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x41F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_15,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x13C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_15,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x41EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_15,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x41F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_15,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x41E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_15,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x41E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_15,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_16"
width 22.
group.long 0x4208++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_16,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4210++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_16,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x421C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_16,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4218++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_16,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x420C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_16,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4214++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_16,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4200++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_16,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4204++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_16,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_17"
width 22.
group.long 0x4228++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_17,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4230++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_17,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x423C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_17,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4238++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_17,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x422C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_17,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4234++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_17,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4220++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_17,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4224++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_17,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_18"
width 22.
group.long 0x4248++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_18,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4250++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_18,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x425C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_18,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4258++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_18,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x424C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_18,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4254++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_18,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4240++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_18,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4244++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_18,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_19"
width 22.
group.long 0x4268++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_19,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4270++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_19,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x427C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_19,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4278++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_19,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x426C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_19,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4274++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_19,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4260++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_19,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4264++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_19,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_20"
width 22.
group.long 0x4288++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_20,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4290++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_20,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x429C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_20,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4298++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_20,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x428C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_20,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4294++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_20,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4280++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_20,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4284++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_20,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_21"
width 22.
group.long 0x42A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_21,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x42B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_21,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x42BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_21,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x42B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_21,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x42AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_21,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x42B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_21,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x42A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_21,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x42A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_21,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_22"
width 22.
group.long 0x42C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_22,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x42D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_22,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x42DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_22,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x42D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_22,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x42CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_22,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x42D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_22,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x42C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_22,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x42C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_22,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_23"
width 22.
group.long 0x42E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_23,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x42F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_23,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x42FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_23,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x42F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_23,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x42EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_23,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x42F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_23,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x42E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_23,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x42E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_23,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_24"
width 22.
group.long 0x4308++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_24,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4310++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_24,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x431C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_24,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4318++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_24,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x430C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_24,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4314++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_24,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4300++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_24,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4304++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_24,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_25"
width 22.
group.long 0x4328++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_25,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4330++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_25,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x433C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_25,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4338++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_25,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x432C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_25,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4334++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_25,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4320++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_25,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4324++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_25,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_26"
width 22.
group.long 0x4348++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_26,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4350++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_26,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x435C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_26,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4358++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_26,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x434C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_26,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4354++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_26,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4340++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_26,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4344++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_26,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_27"
width 22.
group.long 0x4368++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_27,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4370++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_27,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x437C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_27,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4378++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_27,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x436C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_27,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4374++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_27,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4360++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_27,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4364++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_27,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_28"
width 22.
group.long 0x4388++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_28,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4390++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_28,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x439C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_28,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4398++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_28,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x438C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_28,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4394++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_28,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4380++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_28,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4384++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_28,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_29"
width 22.
group.long 0x43A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_29,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x43B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_29,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x43BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_29,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x43B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_29,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x43AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_29,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x43B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_29,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x43A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_29,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x43A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_29,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_30"
width 22.
group.long 0x43C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_30,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x43D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_30,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x43DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_30,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x43D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_30,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x43CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_30,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x43D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_30,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x43C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_30,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x43C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_30,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_31"
width 22.
group.long 0x43E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_31,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x43F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_31,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x43FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_31,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x43F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_31,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x43EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_31,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x43F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_31,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x43E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_31,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x43E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_31,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_32"
width 22.
group.long 0x4408++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_32,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4410++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_32,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x441C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_32,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4418++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_32,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x440C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_32,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4414++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_32,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4400++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_32,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4404++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_32,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_33"
width 22.
group.long 0x4428++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_33,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4430++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_33,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x443C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_33,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4438++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_33,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x442C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_33,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4434++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_33,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4420++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_33,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4424++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_33,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_34"
width 22.
group.long 0x4448++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_34,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4450++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_34,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x445C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_34,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4458++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_34,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x444C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_34,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4454++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_34,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4440++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_34,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4444++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_34,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_35"
width 22.
group.long 0x4468++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_35,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4470++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_35,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x447C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_35,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4478++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_35,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x446C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_35,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4474++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_35,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4460++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_35,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4464++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_35,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_36"
width 22.
group.long 0x4488++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_36,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4490++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_36,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x449C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_36,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4498++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_36,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x448C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_36,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4494++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_36,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4480++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_36,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4484++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_36,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_37"
width 22.
group.long 0x44A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_37,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x44B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_37,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x44BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_37,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x44B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_37,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x44AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_37,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x44B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_37,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x44A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_37,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x44A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_37,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_38"
width 22.
group.long 0x44C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_38,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x44D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_38,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x44DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_38,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x44D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_38,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x44CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_38,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x44D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_38,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x44C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_38,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x44C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_38,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_39"
width 22.
group.long 0x44E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_39,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x44F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_39,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x44FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_39,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x44F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_39,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x44EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_39,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x44F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_39,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x44E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_39,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x44E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_39,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_40"
width 22.
group.long 0x4508++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_40,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4510++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_40,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x451C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_40,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4518++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_40,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x450C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_40,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4514++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_40,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4500++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_40,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4504++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_40,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_41"
width 22.
group.long 0x4528++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_41,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4530++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_41,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x453C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_41,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4538++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_41,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x452C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_41,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4534++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_41,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4520++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_41,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4524++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_41,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_42"
width 22.
group.long 0x4548++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_42,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4550++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_42,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x455C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_42,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4558++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_42,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x454C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_42,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4554++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_42,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4540++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_42,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4544++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_42,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_43"
width 22.
group.long 0x4568++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_43,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4570++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_43,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x457C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_43,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4578++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_43,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x456C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_43,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4574++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_43,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4560++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_43,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4564++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_43,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_44"
width 22.
group.long 0x4588++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_44,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4590++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_44,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x459C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_44,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4598++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_44,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x458C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_44,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4594++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_44,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4580++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_44,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4584++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_44,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_45"
width 22.
group.long 0x45A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_45,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x45B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_45,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x45BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_45,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x45B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_45,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x45AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_45,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x45B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_45,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x45A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_45,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x45A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_45,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_46"
width 22.
group.long 0x45C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_46,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x45D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_46,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x45DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_46,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x45D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_46,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x45CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_46,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x45D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_46,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x45C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_46,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x45C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_46,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_47"
width 22.
group.long 0x45E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_47,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x45F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_47,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x45FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_47,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x45F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_47,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x45EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_47,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x45F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_47,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x45E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_47,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x45E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_47,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_48"
width 22.
group.long 0x4608++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_48,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4610++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_48,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x461C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_48,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4618++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_48,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x460C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_48,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4614++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_48,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4600++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_48,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4604++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_48,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_49"
width 22.
group.long 0x4628++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_49,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4630++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_49,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x463C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_49,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4638++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_49,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x462C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_49,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4634++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_49,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4620++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_49,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4624++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_49,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_50"
width 22.
group.long 0x4648++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_50,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4650++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_50,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x465C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_50,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4658++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_50,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x464C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_50,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4654++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_50,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4640++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_50,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4644++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_50,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_51"
width 22.
group.long 0x4668++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_51,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4670++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_51,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x467C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_51,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4678++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_51,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x466C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_51,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4674++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_51,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4660++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_51,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4664++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_51,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_52"
width 22.
group.long 0x4688++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_52,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4690++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_52,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x469C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_52,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4698++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_52,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x468C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_52,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4694++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_52,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4680++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_52,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4684++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_52,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_53"
width 22.
group.long 0x46A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_53,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x46B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_53,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x46BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_53,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x46B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_53,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x46AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_53,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x46B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_53,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x46A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_53,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x46A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_53,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_54"
width 22.
group.long 0x46C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_54,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x46D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_54,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x46DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_54,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x46D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_54,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x46CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_54,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x46D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_54,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x46C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_54,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x46C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_54,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_55"
width 22.
group.long 0x46E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_55,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x46F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_55,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x46FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_55,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x46F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_55,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x46EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_55,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x46F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_55,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x46E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_55,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x46E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_55,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_56"
width 22.
group.long 0x4708++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_56,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4710++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_56,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x471C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_56,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4718++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_56,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x470C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_56,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4714++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_56,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4700++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_56,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4704++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_56,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_57"
width 22.
group.long 0x4728++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_57,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4730++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_57,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x473C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_57,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4738++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_57,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x472C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_57,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4734++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_57,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4720++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_57,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4724++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_57,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_58"
width 22.
group.long 0x4748++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_58,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4750++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_58,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x475C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_58,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4758++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_58,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x474C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_58,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4754++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_58,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4740++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_58,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4744++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_58,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_59"
width 22.
group.long 0x4768++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_59,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4770++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_59,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x477C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_59,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4778++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_59,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x476C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_59,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4774++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_59,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4760++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_59,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4764++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_59,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_60"
width 22.
group.long 0x4788++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_60,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4790++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_60,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x479C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_60,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4798++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_60,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x478C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_60,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4794++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_60,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4780++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_60,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4784++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_60,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_61"
width 22.
group.long 0x47A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_61,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x47B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_61,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x47BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_61,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x47B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_61,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x47AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_61,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x47B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_61,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x47A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_61,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x47A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_61,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_62"
width 22.
group.long 0x47C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_62,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x47D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_62,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x47DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_62,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x47D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_62,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x47CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_62,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x47D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_62,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x47C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_62,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x47C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_62,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_63"
width 22.
group.long 0x47E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_63,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x47F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_63,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x47FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_63,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x47F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_63,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x47EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_63,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x47F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_63,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x47E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_63,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x47E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_63,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_64"
width 22.
group.long 0x4808++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_64,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4810++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_64,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x481C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_64,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4818++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_64,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x480C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_64,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4814++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_64,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4800++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_64,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4804++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_64,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_65"
width 22.
group.long 0x4828++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_65,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4830++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_65,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x483C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_65,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4838++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_65,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x482C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_65,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4834++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_65,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4820++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_65,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4824++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_65,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_66"
width 22.
group.long 0x4848++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_66,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4850++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_66,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x485C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_66,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4858++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_66,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x484C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_66,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4854++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_66,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4840++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_66,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4844++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_66,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_67"
width 22.
group.long 0x4868++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_67,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4870++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_67,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x487C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_67,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4878++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_67,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x486C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_67,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4874++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_67,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4860++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_67,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4864++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_67,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_68"
width 22.
group.long 0x4888++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_68,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4890++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_68,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x489C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_68,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4898++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_68,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x488C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_68,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4894++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_68,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4880++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_68,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4884++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_68,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_69"
width 22.
group.long 0x48A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_69,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x48B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_69,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x48BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_69,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x48B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_69,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x48AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_69,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x48B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_69,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x48A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_69,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x48A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_69,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_70"
width 22.
group.long 0x48C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_70,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x48D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_70,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x48DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_70,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x48D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_70,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x48CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_70,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x48D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_70,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x48C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_70,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x48C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_70,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_71"
width 22.
group.long 0x48E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_71,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x48F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_71,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x48FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_71,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x48F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_71,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x48EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_71,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x48F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_71,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x48E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_71,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x48E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_71,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_72"
width 22.
group.long 0x4908++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_72,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4910++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_72,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x491C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_72,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4918++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_72,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x490C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_72,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4914++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_72,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4900++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_72,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4904++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_72,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_73"
width 22.
group.long 0x4928++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_73,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4930++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_73,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x493C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_73,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4938++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_73,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x492C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_73,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4934++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_73,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4920++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_73,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4924++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_73,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_74"
width 22.
group.long 0x4948++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_74,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4950++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_74,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x495C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_74,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4958++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_74,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x494C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_74,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4954++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_74,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4940++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_74,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4944++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_74,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_75"
width 22.
group.long 0x4968++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_75,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4970++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_75,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x497C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_75,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4978++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_75,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x496C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_75,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4974++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_75,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4960++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_75,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4964++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_75,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_76"
width 22.
group.long 0x4988++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_76,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4990++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_76,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x499C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_76,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4998++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_76,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x498C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_76,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4994++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_76,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4980++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_76,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4984++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_76,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_77"
width 22.
group.long 0x49A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_77,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x49B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_77,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x49BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_77,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x49B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_77,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x49AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_77,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x49B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_77,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x49A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_77,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x49A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_77,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_78"
width 22.
group.long 0x49C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_78,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x49D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_78,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x49DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_78,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x49D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_78,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x49CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_78,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x49D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_78,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x49C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_78,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x49C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_78,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_79"
width 22.
group.long 0x49E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_79,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x49F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_79,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x49FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_79,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x49F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_79,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x49EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_79,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x49F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_79,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x49E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_79,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x49E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_79,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_80"
width 22.
group.long 0x4A08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_80,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_80,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_80,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_80,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_80,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_80,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_80,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_80,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_81"
width 22.
group.long 0x4A28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_81,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_81,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_81,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_81,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_81,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_81,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_81,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_81,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_82"
width 22.
group.long 0x4A48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_82,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_82,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_82,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_82,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_82,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_82,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_82,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_82,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_83"
width 22.
group.long 0x4A68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_83,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_83,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_83,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_83,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_83,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_83,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_83,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_83,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_84"
width 22.
group.long 0x4A88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_84,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_84,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_84,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_84,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_84,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_84,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_84,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_84,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_85"
width 22.
group.long 0x4AA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_85,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4AB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_85,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4ABC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_85,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4AB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_85,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4AAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_85,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4AB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_85,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4AA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_85,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4AA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_85,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_86"
width 22.
group.long 0x4AC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_86,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4AD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_86,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4ADC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_86,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4AD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_86,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4ACC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_86,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4AD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_86,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4AC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_86,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4AC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_86,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_87"
width 22.
group.long 0x4AE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_87,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4AF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_87,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4AFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_87,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4AF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_87,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4AEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_87,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4AF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_87,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4AE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_87,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4AE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_87,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_88"
width 22.
group.long 0x4B08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_88,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_88,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_88,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_88,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_88,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_88,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_88,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_88,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_89"
width 22.
group.long 0x4B28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_89,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_89,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_89,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_89,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_89,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_89,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_89,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_89,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_90"
width 22.
group.long 0x4B48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_90,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_90,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_90,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_90,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_90,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_90,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_90,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_90,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_91"
width 22.
group.long 0x4B68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_91,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_91,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_91,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_91,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_91,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_91,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_91,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_91,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_92"
width 22.
group.long 0x4B88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_92,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_92,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_92,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_92,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_92,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_92,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_92,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_92,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_93"
width 22.
group.long 0x4BA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_93,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4BB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_93,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4BBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_93,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4BB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_93,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4BAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_93,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4BB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_93,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4BA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_93,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4BA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_93,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_94"
width 22.
group.long 0x4BC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_94,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4BD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_94,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4BDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_94,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4BD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_94,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4BCC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_94,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4BD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_94,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4BC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_94,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4BC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_94,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_95"
width 22.
group.long 0x4BE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_95,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4BF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_95,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4BFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_95,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4BF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_95,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4BEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_95,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4BF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_95,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4BE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_95,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4BE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_95,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_96"
width 22.
group.long 0x4C08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_96,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_96,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_96,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_96,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_96,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_96,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_96,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_96,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_97"
width 22.
group.long 0x4C28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_97,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_97,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_97,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_97,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_97,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_97,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_97,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_97,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_98"
width 22.
group.long 0x4C48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_98,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_98,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_98,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_98,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_98,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_98,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_98,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_98,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_99"
width 22.
group.long 0x4C68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_99,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_99,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_99,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_99,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_99,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_99,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_99,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_99,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_100"
width 23.
group.long 0x4C88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_100,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_100,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_100,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_100,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_100,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_100,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_100,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_100,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_101"
width 23.
group.long 0x4CA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_101,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4CB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_101,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4CBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_101,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4CB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_101,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4CAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_101,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4CB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_101,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4CA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_101,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4CA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_101,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_102"
width 23.
group.long 0x4CC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_102,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4CD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_102,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4CDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_102,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4CD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_102,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4CCC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_102,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4CD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_102,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4CC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_102,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4CC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_102,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_103"
width 23.
group.long 0x4CE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_103,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4CF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_103,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4CFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_103,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4CF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_103,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4CEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_103,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4CF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_103,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4CE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_103,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4CE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_103,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_104"
width 23.
group.long 0x4D08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_104,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_104,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_104,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_104,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_104,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_104,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_104,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_104,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_105"
width 23.
group.long 0x4D28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_105,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_105,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_105,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_105,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_105,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_105,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_105,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_105,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_106"
width 23.
group.long 0x4D48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_106,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_106,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_106,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_106,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_106,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_106,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_106,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_106,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_107"
width 23.
group.long 0x4D68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_107,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_107,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_107,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_107,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_107,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_107,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_107,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_107,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_108"
width 23.
group.long 0x4D88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_108,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_108,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_108,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_108,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_108,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_108,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_108,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_108,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_109"
width 23.
group.long 0x4DA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_109,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4DB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_109,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4DBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_109,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4DB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_109,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4DAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_109,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4DB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_109,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4DA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_109,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4DA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_109,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_110"
width 23.
group.long 0x4DC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_110,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4DD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_110,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4DDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_110,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4DD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_110,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4DCC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_110,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4DD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_110,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4DC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_110,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4DC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_110,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_111"
width 23.
group.long 0x4DE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_111,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4DF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_111,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4DFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_111,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4DF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_111,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4DEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_111,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4DF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_111,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4DE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_111,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4DE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_111,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_112"
width 23.
group.long 0x4E08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_112,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_112,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_112,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_112,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_112,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_112,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_112,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_112,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_113"
width 23.
group.long 0x4E28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_113,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_113,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_113,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_113,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_113,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_113,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_113,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_113,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_114"
width 23.
group.long 0x4E48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_114,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_114,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_114,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_114,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_114,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_114,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_114,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_114,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_115"
width 23.
group.long 0x4E68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_115,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_115,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_115,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_115,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_115,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_115,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_115,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_115,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_116"
width 23.
group.long 0x4E88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_116,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_116,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_116,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_116,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_116,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_116,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_116,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_116,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_117"
width 23.
group.long 0x4EA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_117,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4EB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_117,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4EBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_117,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4EB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_117,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4EAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_117,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4EB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_117,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4EA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_117,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4EA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_117,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_118"
width 23.
group.long 0x4EC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_118,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4ED0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_118,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4EDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_118,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4ED8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_118,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4ECC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_118,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4ED4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_118,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4EC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_118,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4EC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_118,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_119"
width 23.
group.long 0x4EE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_119,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4EF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_119,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4EFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_119,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4EF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_119,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4EEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_119,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4EF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_119,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4EE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_119,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4EE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_119,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_120"
width 23.
group.long 0x4F08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_120,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_120,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_120,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_120,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_120,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_120,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_120,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_120,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_121"
width 23.
group.long 0x4F28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_121,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_121,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_121,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_121,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_121,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_121,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_121,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_121,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_122"
width 23.
group.long 0x4F48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_122,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_122,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_122,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_122,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_122,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_122,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_122,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_122,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_123"
width 23.
group.long 0x4F68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_123,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_123,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_123,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_123,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_123,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_123,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_123,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_123,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_124"
width 23.
group.long 0x4F88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_124,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_124,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_124,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_124,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_124,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_124,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_124,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_124,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_125"
width 23.
group.long 0x4FA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_125,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4FB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_125,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4FBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_125,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4FB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_125,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4FAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_125,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4FB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_125,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4FA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_125,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4FA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_125,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_126"
width 23.
group.long 0x4FC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_126,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4FD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_126,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4FDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_126,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4FD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_126,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4FCC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_126,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4FD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_126,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4FC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_126,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4FC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_126,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_127"
width 23.
group.long 0x4FE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_127,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4FF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_127,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4FFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_127,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4FF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_127,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4FEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_127,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4FF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_127,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4FE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_127,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4FE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_127,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
textline ""
width 20.
rgroup.long 0x0++0x3
line.long 0x00 "EDMA_TPCC_PID,Peripheral ID Register"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP revision"
rgroup.long 0x4++0x3
line.long 0x00 "EDMA_TPCC_CCCFG,CC Configuration Register"
bitfld.long 0x00 25. " MPEXIST   ,Memory Protection Existence - . - ." "No_mMemory_protection,1"
bitfld.long 0x00 24. "  CHMAPEXIST ,Channel Mapping Existence - . - ." "No_Channel_mapping.,1"
bitfld.long 0x00 20.--21. "  NUMREGN  ,Number of MP and Shadow regions" "0,1,2,3"
textline "                             "
bitfld.long 0x00 16.--18. " NUMTC     ,Number of Queues/Number of TCs" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                      NUMPAENTRY ,Number of PaRAM entries" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "                    NUMINTCH ,Number of Interrupt Channels" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 4.--6. " NUMQDMACH ,Number of QDMA Channels" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                      NUMDMACH   ,Number of DMA Channels" "0,1,2,3,4,5,6,7"
group.long 0xFC++0x3
line.long 0x00 "EDMA_TPCC_CLKGDIS,Auto Clock Gate Disable"
bitfld.long 0x00 0. " CLKGDIS   ,Auto Clock Gate Disable" "0,1"
group.long 0x260++0x3
line.long 0x00 "EDMA_TPCC_QDMAQNUM,QDMA Queue Number Register Contains the Event queue number to be used for the corresponding QDMA Channel."
bitfld.long 0x00 28.--30. " E7        ,QDMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                      E6         ,QDMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "                    E5       ,QDMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 16.--18. " E4        ,QDMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                      E3         ,QDMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "                    E2       ,QDMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 4.--6. " E1        ,QDMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                      E0         ,QDMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x280++0x3
line.long 0x00 "EDMA_TPCC_QUETCMAP,Queue to TC Mapping"
bitfld.long 0x00 4.--6. " TCNUMQ1   ,TC Number for Queue N: Defines the TC number that Event Queue N TRs are written to." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                      TCNUMQ0    ,TC Number for Queue N: Defines the TC number that Event Queue N TRs are written to." "0,1,2,3,4,5,6,7"
group.long 0x284++0x3
line.long 0x00 "EDMA_TPCC_QUEPRI,Queue Priority"
bitfld.long 0x00 4.--6. " PRIQ1     ,Priority Level for Queue 1 Dictates the priority level used for the OPTIONS field programmation for Qn TRs. Sets the priority used for TC read and write commands." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                      PRIQ0      ,Priority Level for Queue 0 Dictates the priority level used for the OPTIONS field programmation for Qn TRs. Sets the priority used for TC read and write commands." "0,1,2,3,4,5,6,7"
rgroup.long 0x300++0x3
line.long 0x00 "EDMA_TPCC_EMR,Event Missed Register: The Event Missed register is set if 2 events are received without the first event being cleared or if a Null TR is serviced. Chained events (CER), Set Events (ESR), and normal events (ER) are treated individually. I..."
bitfld.long 0x00 31. " E31       ,Event Missed #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event Missed #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event Missed #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event Missed #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event Missed #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event Missed #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event Missed #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event Missed #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event Missed #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event Missed #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event Missed #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event Missed #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event Missed #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event Missed #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event Missed #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event Missed #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event Missed #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event Missed #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event Missed #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event Missed #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event Missed #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event Missed #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event Missed #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event Missed #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event Missed #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event Missed #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event Missed #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event Missed #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event Missed #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event Missed #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event Missed #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event Missed #0" "0,1"
rgroup.long 0x304++0x3
line.long 0x00 "EDMA_TPCC_EMRH,Event Missed Register (High Part): The Event Missed register is set if 2 events are received without the first event being cleared or if a Null TR is serviced. Chained events (CER), Set Events (ESR), and normal events (ER) are treated in..."
bitfld.long 0x00 31. " E63       ,Event Missed #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event Missed #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event Missed #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event Missed #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event Missed #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event Missed #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event Missed #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event Missed #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event Missed #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event Missed #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event Missed #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event Missed #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event Missed #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event Missed #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event Missed #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event Missed #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event Missed #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event Missed #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event Missed #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event Missed #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event Missed #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event Missed #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event Missed #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event Missed #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event Missed #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event Missed #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event Missed #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event Missed #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event Missed #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event Missed #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event Missed #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event Missed #32" "0,1"
wgroup.long 0x308++0x3
line.long 0x00 "EDMA_TPCC_EMCR,Event Missed Clear Register: CPU write of '1' to the.En bit causes the .En bit to be cleared. CPU write of '0' has no effect.. All error bits must be cleared before additional error interrupts will be asserted by CC."
bitfld.long 0x00 31. " E31       ,Event Missed Clear #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event Missed Clear #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event Missed Clear #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event Missed Clear #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event Missed Clear #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event Missed Clear #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event Missed Clear #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event Missed Clear #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event Missed Clear #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event Missed Clear #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event Missed Clear #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event Missed Clear #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event Missed Clear #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event Missed Clear #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event Missed Clear #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event Missed Clear #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event Missed Clear #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event Missed Clear #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event Missed Clear #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event Missed Clear #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event Missed Clear #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event Missed Clear #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event Missed Clear #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event Missed Clear #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event Missed Clear #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event Missed Clear #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event Missed Clear #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event Missed Clear #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event Missed Clear #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event Missed Clear #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event Missed Clear #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event Missed Clear #0" "0,1"
wgroup.long 0x30C++0x3
line.long 0x00 "EDMA_TPCC_EMCRH,Event Missed Clear Register (High Part): CPU write of '1' to the.En bit causes the .En bit to be cleared. CPU write of '0' has no effect. All error bits must be cleared before additional error interrupts will be asserted by CC."
bitfld.long 0x00 31. " E63       ,Event Missed Clear #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event Missed Clear #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event Missed Clear #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event Missed Clear #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event Missed Clear #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event Missed Clear #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event Missed Clear #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event Missed Clear #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event Missed Clear #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event Missed Clear #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event Missed Clear #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event Missed Clear #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event Missed Clear #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event Missed Clear #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event Missed Clear #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event Missed Clear #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event Missed Clear #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event Missed Clear #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event Missed Clear #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event Missed Clear #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event Missed Clear #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event Missed Clear #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event Missed Clear #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event Missed Clear #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event Missed Clear #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event Missed Clear #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event Missed Clear #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event Missed Clear #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event Missed Clear #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event Missed Clear #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event Missed Clear #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event Missed Clear #32" "0,1"
rgroup.long 0x310++0x3
line.long 0x00 "EDMA_TPCC_QEMR,QDMA Event Missed Register: The QDMA Event Missed register is set if 2 QDMA events are detected without the first event being cleared or if a Null TR is serviced. If any bit in the register is set (and all errors (including / ) were prev..."
bitfld.long 0x00 7. " E7        ,Event Missed #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event Missed #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event Missed #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event Missed #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event Missed #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event Missed #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event Missed #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event Missed #0" "0,1"
wgroup.long 0x314++0x3
line.long 0x00 "EDMA_TPCC_QEMCR,QDMA Event Missed Clear Register: CPU write of '1' to the.En bit causes the .En bit to be cleared. CPU write of '0' has no effect. All error bits must be cleared before additional error interrupts will be asserted by CC."
bitfld.long 0x00 7. " E7        ,Event Missed Clear #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event Missed Clear #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event Missed Clear #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event Missed Clear #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event Missed Clear #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event Missed Clear #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event Missed Clear #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event Missed Clear #0" "0,1"
rgroup.long 0x318++0x3
line.long 0x00 "EDMA_TPCC_CCERR,CC Error Register"
bitfld.long 0x00 16. " TCERR     ,Transfer Completion Code Error - . - . - TCERR can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors were previously clear), then an error will be signaled with TPCC error interr..." "0,1"
bitfld.long 0x00 7. "                      QTHRXCD7   ,Queue Threshold Error for Q7 - . - . - QTHRXCD7 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error wi..." "0,1"
bitfld.long 0x00 6. "                    QTHRXCD6 ,Queue Threshold Error for Q6 - . - . - QTHRXCD6 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will b..." "0,1"
textline "                             "
bitfld.long 0x00 5. " QTHRXCD5  ,Queue Threshold Error for Q5 - . - . - QTHRXCD5 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will be signaled with th..." "0,1"
bitfld.long 0x00 4. "                      QTHRXCD4   ,Queue Threshold Error for Q4 - . - . - QTHRXCD4 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error wi..." "0,1"
bitfld.long 0x00 3. "                    QTHRXCD3 ,Queue Threshold Error for Q3 - . - . - QTHRXCD3 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will b..." "0,1"
textline "                             "
bitfld.long 0x00 2. " QTHRXCD2  ,Queue Threshold Error for Q2 - . - . - QTHRXCD2 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will be signaled with th..." "0,1"
bitfld.long 0x00 1. "                      QTHRXCD1   ,Queue Threshold Error for Q1 - . - . - QTHRXCD1 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error wi..." "0,1"
bitfld.long 0x00 0. "                    QTHRXCD0 ,Queue Threshold Error for Q0: - . - . - QTHRXCD0 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will ..." "0,1"
wgroup.long 0x31C++0x3
line.long 0x00 "EDMA_TPCC_CCERRCLR,CC Error Clear Register"
bitfld.long 0x00 16. " TCERR     ,Clear Error forEDMA_TPCC_CCERR[16] TR. - Write 0x1 to clear the value of[16] TCERR. . - . - Write 0x0 have no affect. . - ." "0,1"
bitfld.long 0x00 7. "                      QTHRXCD7   ,Clear error forEDMA_TPCC_CCERR[7]QTHRXCD7 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT7.WM, QSTAT7.THRXCD,[7] QTHRXCD7 . - ." "0,1"
bitfld.long 0x00 6. "                    QTHRXCD6 ,Clear error forEDMA_TPCC_CCERR[6] QTHRXCD6 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT6.WM, QSTAT6.THRXCD,[6]QTHRXCD6 . - ." "0,1"
textline "                             "
bitfld.long 0x00 5. " QTHRXCD5  ,Clear error forEDMA_TPCC_CCERR[5] QTHRXCD5 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT5.WM, QSTAT5.THRXCD,[5]QTHRXCD5 . - ." "0,1"
bitfld.long 0x00 4. "                      QTHRXCD4   ,Clear error forEDMA_TPCC_CCERR[4] QTHRXCD4: - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT4.WM, QSTAT4.THRXCD,[4] QTHRXCD4 . - ." "0,1"
bitfld.long 0x00 3. "                    QTHRXCD3 ,Clear error forEDMA_TPCC_CCERR[3] QTHRXCD3 - Write 0x1 to clear the values of QSTAT3.WM, QSTAT3.THRXCD,[3] QTHRXCD3 . - . - Write 0x0 have no affect. . - ." "0,1"
textline "                             "
bitfld.long 0x00 2. " QTHRXCD2  ,Clear error forEDMA_TPCC_CCERR[2] QTHRXCD2 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT2.WM, QSTAT2.THRXCD,[2] QTHRXCD2 . - ." "0,1"
bitfld.long 0x00 1. "                      QTHRXCD1   ,Clear error forEDMA_TPCC_CCERR[1] QTHRXCD1 - Write 0x1 to clear the values of QSTAT1.WM, QSTAT1.THRXCD,[1] QTHRXCD1 . - . - Write 0x0 have no affect. . - ." "0,1"
bitfld.long 0x00 0. "                    QTHRXCD0 ,Clear error forEDMA_TPCC_CCERR[0] QTHRXCD0 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT0.WM, QSTAT0.THRXCD,[0] QTHRXCD0 . - ." "0,1"
wgroup.long 0x320++0x3
line.long 0x00 "EDMA_TPCC_EEVAL,Error Eval Register"
bitfld.long 0x00 1. " SET       ,Error Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SET bit causes the TPCC error interrupt to be pulsed regardless of state of/, , or . . - ." "0,1"
bitfld.long 0x00 0. "                      EVAL       ,Error Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVAL bit causes the TPCC error interrupt to be pulsed if any errors have not been cleared in the/, , or registers. The CPU must als..." "0,1"
group.long 0x620++0x3
line.long 0x00 "EDMA_TPCC_QWMTHRA,Queue Threshold A, for Q[3:0]:.QTHRXCDn and QSTATn[24] THRXCD error bit is set when the number of Events in QueueN at an instant in time (visible via QSTATn[12:8] NUMVAL) equals or exceeds the value specified by .Qn. Legal values = 0x..."
bitfld.long 0x00 24.--28. " Q3        ,Queue Threshold for Q3 value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "                     Q2         ,Queue Threshold for Q2 value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "                   Q1       ,Queue Threshold for Q1 value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                             "
bitfld.long 0x00 0.--4. " Q0        ,Queue Threshold for Q0 value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x624++0x3
line.long 0x00 "EDMA_TPCC_QWMTHRB,Queue Threshold B, for Q[7:4]:.QTHRXCDn and QSTATn[24]THRXCD error bit is set when the number of Events in QueueN at an instant in time (visible via QSTATn[12:8] NUMVAL) equals or exceeds the value specified by QWMTHRB.Qn. Legal value..."
bitfld.long 0x00 24.--28. " Q7        ,Queue Threshold for Q7 value (unused in the context of IVAHD)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "                     Q6         ,Queue Threshold for Q6 value (unused in the context of IVAHD)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "                   Q5       ,Queue Threshold for Q5 value (unused in the context of IVAHD)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                             "
bitfld.long 0x00 0.--4. " Q4        ,Queue Threshold for Q4 value (unused in the context of IVAHD)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rgroup.long 0x640++0x3
line.long 0x00 "EDMA_TPCC_CCSTAT,CC Status Register"
bitfld.long 0x00 23. " QUEACTV7  ,Queue 7 Active - . - ." "0,1"
bitfld.long 0x00 22. "                      QUEACTV6   ,Queue 6 Active - . - ." "0,1"
bitfld.long 0x00 21. "                    QUEACTV5 ,Queue 5 Active - . - ." "0,1"
textline "                             "
bitfld.long 0x00 20. " QUEACTV4  ,Queue 4 Active - . - ." "0,1"
bitfld.long 0x00 19. "                      QUEACTV3   ,Queue 3 Active - . - ." "0,1"
bitfld.long 0x00 18. "                    QUEACTV2 ,Queue 2 Active QUEACTV2 = 0 : No Evts are queued in Q2. QUEACTV2 = 1 : At least one TR is queued in Q2. - . - ." "UNKN_MNEMO,UNKN_MNEMO"
textline "                             "
bitfld.long 0x00 17. " QUEACTV1  ,Queue 1 Active - . - ." "0,1"
bitfld.long 0x00 16. "                      QUEACTV0   ,Queue 0 Active - . - ." "0,1"
bitfld.long 0x00 8.--13. "                    COMPACTV ,Completion Request Active: Counter that tracks the total number of completion requests submitted to the TC. The counter increments when a TR is submitted with TCINTEN or TCCHEN set to '1'. The counter decrements for every ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                             "
bitfld.long 0x00 4. " ACTV      ,Channel Controller Active Channel Controller Active is a logical-OR of each of the *ACTV signals. The ACTV bit must remain high through the life of a: - . - ." "Channel_is_idle.,Channel_is_busy."
bitfld.long 0x00 2. "       TRACTV     ,Transfer Request Active TRACTV = 0 : Transfer Request processing/submission logic is inactive. TRACTV = 1 : Transfer Request processing/submission logic is active. - . - ." "UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 1. "           QEVTACTV ,QDMA Event Active - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0. " EVTACTV   ,DMA Event Active - . - ." "0,1"
group.long 0x700++0x3
line.long 0x00 "EDMA_TPCC_AETCTL,Advanced Event Trigger Control"
bitfld.long 0x00 31. " EN        ,AET Enable - . - ." "0,1"
bitfld.long 0x00 8.--13. "                      ENDINT     ,AET End Interrupt: Dictates the completion interrupt number that will force the tpcc_aet signal to be deasserted (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 6. "                   TYPE     ,AET Event Type - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0.--5. " STRTEVT   ,AET Start Event: Dictates the Event Number that will force the tpcc_aet signal to be asserted (high)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x704++0x3
line.long 0x00 "EDMA_TPCC_AETSTAT,Advanced Event Trigger Stat"
bitfld.long 0x00 0. " STAT      ,AET Status - . - ." "0,1"
wgroup.long 0x708++0x3
line.long 0x00 "EDMA_TPCC_AETCMD,AET Command"
bitfld.long 0x00 0. " CLR       ,AET Clear command - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the CLR bit causes the tpcc_aet output signal and[0]STAT register to be cleared. . - ." "0,1"
rgroup.long 0x800++0x3
line.long 0x00 "EDMA_TPCC_MPFAR,MMemory Protection Fault Address"
hexmask.long 0x00 0.--31. 1. " FADDR     ,Fault Address: 32-bit read-only status register containing the faulting address when a mMemory protection violation is detected. This register can only be cleared via theEDMA_TPCC_MPFCR."
rgroup.long 0x804++0x3
line.long 0x00 "EDMA_TPCC_MPFSR,Memory Protection Fault Status Register"
bitfld.long 0x00 9.--12. " FID       ,Faulted ID: FID register contains valid info if any of the MP error bits (UXE, UWE, URE, SXE, SWE, SRE) are non-zero (i.e., if an error has been detected.) The FID field contains the VBus PrivID for the specific request/requestor that resul..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 5. "                     SRE        ,Supervisor Read Error - . - ." "No_error_detected.,1"
bitfld.long 0x00 4. "   SWE      ,Supervisor Write Error - . - ." "No_error_detected.,1"
textline "                             "
bitfld.long 0x00 3. " SXE       ,Supervisor Execute Error - . - ." "No_error_detected.,1"
bitfld.long 0x00 2. "     URE        ,User Read Error - . - ." "No_error_detected.,1"
bitfld.long 0x00 1. "   UWE      ,User Write Error - . - ." "No_error_detected.,1"
textline "                             "
bitfld.long 0x00 0. " UXE       ,User Execute Error - . - ." "No_error_detected,1"
wgroup.long 0x808++0x3
line.long 0x00 "EDMA_TPCC_MPFCR,Memory Protection Fault Command Register"
bitfld.long 0x00 0. " MPFCLR    ,Fault Clear register - . - ." "has_no_effect,1"
group.long 0x80C++0x3
line.long 0x00 "EDMA_TPCC_MPPAG,Memory Protection Page Attribute for Global registers"
bitfld.long 0x00 15. " AID5      ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                      AID4       ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "                    AID3     ,Allowed ID 3 - . - ." "0,1"
textline "                             "
bitfld.long 0x00 12. " AID2      ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                      AID1       ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "                    AID0     ,Allowed ID 0 - . - ." "0,1"
textline "                             "
bitfld.long 0x00 9. " EXT       ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                      SR         ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "                    SW       ,Supervisor Write permission - . - ." "0,1"
textline "                             "
bitfld.long 0x00 3. " SX        ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                      UR         ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "                    UW       ,User Write permission - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0. " UX        ,User Execute permission - . - ." "0,1"
rgroup.long 0x1000++0x3
line.long 0x00 "EDMA_TPCC_ER,Event Register: If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive (low) ..."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x1004++0x3
line.long 0x00 "EDMA_TPCC_ERH,Event Register (High Part): If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from in..."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1008++0x3
line.long 0x00 "EDMA_TPCC_ECR,Event Clear Register: CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x100C++0x3
line.long 0x00 "EDMA_TPCC_ECRH,Event Clear Register (High Part): CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1010++0x3
line.long 0x00 "EDMA_TPCC_ESR,Event Set Register: CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1014++0x3
line.long 0x00 "EDMA_TPCC_ESRH,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
rgroup.long 0x1018++0x3
line.long 0x00 "EDMA_TPCC_CER,Chained Event Register: If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is returned fr..."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x101C++0x3
line.long 0x00 "EDMA_TPCC_CERH,Chained Event Register (High Part): If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code i..."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
rgroup.long 0x1020++0x3
line.long 0x00 "EDMA_TPCC_EER,Event Enable Register: Enables DMA transfers for.En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). Note that if a bit..."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x1024++0x3
line.long 0x00 "EDMA_TPCC_EERH,Event Enable Register (High Part): Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). Note..."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1028++0x3
line.long 0x00 "EDMA_TPCC_EECR,Event Enable Clear Register CPU writes of '1' to the .En bit causes the .En bit to be cleared. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x102C++0x3
line.long 0x00 "EDMA_TPCC_EECRH,Event Enable Clear Register (High Part) CPU writes of '1' to the .En bit causes the EERH.En bit to be cleared. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1030++0x3
line.long 0x00 "EDMA_TPCC_EESR,Event Enable Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1034++0x3
line.long 0x00 "EDMA_TPCC_EESRH,Event Enable Set Register (High Part) CPU writes of '1' to the .En bit causes the .En bit to be set. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
rgroup.long 0x1038++0x3
line.long 0x00 "EDMA_TPCC_SER,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored in Even..."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x103C++0x3
line.long 0x00 "EDMA_TPCC_SERH,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently s..."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1040++0x3
line.long 0x00 "EDMA_TPCC_SECR,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '1' to the .En bit clears the register. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1044++0x3
line.long 0x00 "EDMA_TPCC_SECRH,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '1' to the .En bit clears the register. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
rgroup.long 0x1050++0x3
line.long 0x00 "EDMA_TPCC_IER,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. . In = 0: .In is NOT enabled for interrupts. . In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x1054++0x3
line.long 0x00 "EDMA_TPCC_IERH,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. . In = 0: .In is NOT enabled for interrupts. . In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x1058++0x3
line.long 0x00 "EDMA_TPCC_IECR,Int Enable Clear Register CPU writes of '1' to the .In bit causes the .In bit to be cleared. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x105C++0x3
line.long 0x00 "EDMA_TPCC_IECRH,Int Enable Clear Register (High Part) CPU write of '1' to the .In bit causes the .In bit to be cleared. CPU write of '0' has no effect.."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x1060++0x3
line.long 0x00 "EDMA_TPCC_IESR,Int Enable Set Register CPU write of '1' to the .In bit causes the .In bit to be set. CPU write of '0' has no effect.."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x1064++0x3
line.long 0x00 "EDMA_TPCC_IESRH,Int Enable Set Register (High Part) CPU write of '1' to the .In bit causes the .In bit to be set. CPU write of '0' has no effect.."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x1068++0x3
line.long 0x00 "EDMA_TPCC_IPR,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x106C++0x3
line.long 0x00 "EDMA_TPCC_IPRH,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. . In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x1070++0x3
line.long 0x00 "EDMA_TPCC_ICR,Interrupt Clear Register CPU write of '1' to the .In bit causes the .In bit to be cleared. CPU write of '0' has no effect. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x1074++0x3
line.long 0x00 "EDMA_TPCC_ICRH,Interrupt Clear Register (High Part) CPU write of '1' to the .In bit causes the .In bit to be cleared. CPU write of '0' has no effect. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x1078++0x3
line.long 0x00 "EDMA_TPCC_IEVAL,Interrupt Eval Register"
bitfld.long 0x00 1. " SET       ,Interrupt Set: CPU write of '1' to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). CPU write of '0' has no effect." "0,1"
bitfld.long 0x00 0. "                      EVAL       ,Interrupt Evaluate: CPU write of '1' to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). CPU write of '0' has no effect." "0,1"
rgroup.long 0x1080++0x3
line.long 0x00 "EDMA_TPCC_QER,QDMA Event Register: If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .En bit ..."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x1084++0x3
line.long 0x00 "EDMA_TPCC_QEER,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. QDMA channels can be enabled via writes to and can be disabled via writes to register. .En = 1, The corresponding QDMA..."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1088++0x3
line.long 0x00 "EDMA_TPCC_QEECR,QDMA Event Enable Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect.."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x108C++0x3
line.long 0x00 "EDMA_TPCC_QEESR,QDMA Event Enable Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect.."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x1090++0x3
line.long 0x00 "EDMA_TPCC_QSER,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1094++0x3
line.long 0x00 "EDMA_TPCC_QSECR,QDMA Secondary Event Clear Register The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear the .En register). CPU write of '1' to..."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
width 0x0B
tree.end
tree "EVE3_EDMA_TPCC"
base ad:0x422A0000
tree "DMA_Channel_0"
width 24.
group.long 0x4008++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_0,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4010++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_0,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x401C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_0,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x201C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_0,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2018++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_0,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4018++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_0,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x100++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_0,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x240++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_0,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "      E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "      E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x400C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_0,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x200C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_0,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2008++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_0,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x202C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_0,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2028++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_0,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2024++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_0,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2020++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_0,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2034++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_0,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2030++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_0,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2004++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_0,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2000++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_0,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2014++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_0,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2010++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_0,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2074++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_0,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2070++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_0,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x205C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_0,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2058++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_0,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2054++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_0,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2050++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_0,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2064++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_0,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2060++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_0,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2078++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_0,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x206C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_0,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2068++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_0,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4014++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_0,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x810++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_0,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "      AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "      AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission se..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "      SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "      UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4000++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_0,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "     ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "      TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "     TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "      SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x200++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_0,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2088++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_0,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2084++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_0,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x208C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_0,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2080++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_0,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x380++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_0,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "      E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "      E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2094++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_0,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2090++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_0,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x600++0x3
line.long 0x00 "EDMA_TPCC_QSTATN_i_0,QSTATn Register Set"
bitfld.long 0x00 24. " THRXCD  ,Threshold Exceeded - . - . - THRXCD is cleared via. WMCLRn bit. . - ." "0,1"
bitfld.long 0x00 16.--20. "                     WM       ,Watermark for Maximum Queue Usage: Watermark tracks the most entries that have been in QueueN since reset or since the last time that the watermark (WM) was cleared. QSTATn. WM is cleared via EDMA_TPCC_CCERR.WMCLRn bit. L..." "empty,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,full,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "  NUMVAL  ,Number of Valid Entries in QueueN: Represents the total number of entries residing in the Queue Manager FIFO at a given instant. Always enabled. Legal values: = 0x0 (empty) to 0x10 (full) - . - ." "empty,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,full,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                 "
bitfld.long 0x00 0.--3. " STRTPTR ,Start Pointer: Represents the offset to the head entry of QueueN, in units of *entries*. Always enabled. Legal values: - . - ." "0th_entry,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15th_entry"
wgroup.long 0x2044++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_0,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2040++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_0,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x203C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_0,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2038++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_0,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4004++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_0,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_1"
width 24.
group.long 0x4028++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_1,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4030++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_1,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x403C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_1,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x221C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_1,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2218++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_1,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4038++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_1,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x104++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_1,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x244++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_1,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "      E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "      E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x402C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_1,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x220C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_1,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2208++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_1,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x222C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_1,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2228++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_1,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2224++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_1,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2220++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_1,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2234++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_1,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2230++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_1,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2204++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_1,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2200++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_1,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2214++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_1,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2210++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_1,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2274++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_1,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2270++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_1,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x225C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_1,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2258++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_1,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2254++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_1,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2250++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_1,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2264++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_1,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2260++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_1,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2278++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_1,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x226C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_1,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2268++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_1,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4034++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_1,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x814++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_1,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "      AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "      AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission se..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "      SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "      UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4020++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_1,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "     ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "      TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "     TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "      SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x204++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_1,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2288++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_1,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2284++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_1,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x228C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_1,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2280++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_1,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x384++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_1,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "      E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "      E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2294++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_1,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2290++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_1,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x604++0x3
line.long 0x00 "EDMA_TPCC_QSTATN_i_1,QSTATn Register Set"
bitfld.long 0x00 24. " THRXCD  ,Threshold Exceeded - . - . - THRXCD is cleared via. WMCLRn bit. . - ." "0,1"
bitfld.long 0x00 16.--20. "                     WM       ,Watermark for Maximum Queue Usage: Watermark tracks the most entries that have been in QueueN since reset or since the last time that the watermark (WM) was cleared. QSTATn. WM is cleared via EDMA_TPCC_CCERR.WMCLRn bit. L..." "empty,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,full,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "  NUMVAL  ,Number of Valid Entries in QueueN: Represents the total number of entries residing in the Queue Manager FIFO at a given instant. Always enabled. Legal values: = 0x0 (empty) to 0x10 (full) - . - ." "empty,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,full,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                 "
bitfld.long 0x00 0.--3. " STRTPTR ,Start Pointer: Represents the offset to the head entry of QueueN, in units of *entries*. Always enabled. Legal values: - . - ." "0th_entry,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15th_entry"
wgroup.long 0x2244++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_1,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2240++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_1,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x223C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_1,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2238++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_1,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4024++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_1,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_2"
width 24.
group.long 0x4048++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_2,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4050++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_2,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x405C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_2,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x241C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_2,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2418++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_2,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4058++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_2,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x108++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_2,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x248++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_2,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x404C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_2,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x240C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_2,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2408++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_2,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x242C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_2,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2428++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_2,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2424++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_2,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2420++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_2,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2434++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_2,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2430++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_2,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2404++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_2,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2400++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_2,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2414++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_2,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2410++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_2,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2474++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_2,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2470++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_2,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x245C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_2,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2458++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_2,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2454++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_2,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2450++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_2,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2464++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_2,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2460++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_2,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2478++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_2,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x246C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_2,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2468++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_2,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4054++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_2,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x818++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_2,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4040++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_2,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x208++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_2,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2488++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_2,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2484++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_2,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x248C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_2,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2480++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_2,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x388++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_2,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2494++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_2,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2490++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_2,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2444++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_2,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2440++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_2,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x243C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_2,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2438++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_2,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4044++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_2,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_3"
width 24.
group.long 0x4068++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_3,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4070++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_3,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x407C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_3,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x261C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_3,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2618++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_3,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4078++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_3,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x10C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_3,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x24C++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_3,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x406C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_3,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x260C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_3,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2608++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_3,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x262C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_3,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2628++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_3,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2624++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_3,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2620++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_3,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2634++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_3,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2630++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_3,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2604++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_3,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2600++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_3,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2614++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_3,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2610++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_3,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2674++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_3,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2670++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_3,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x265C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_3,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2658++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_3,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2654++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_3,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2650++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_3,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2664++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_3,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2660++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_3,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2678++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_3,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x266C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_3,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2668++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_3,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4074++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_3,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x81C++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_3,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4060++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_3,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x20C++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_3,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2688++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_3,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2684++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_3,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x268C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_3,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2680++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_3,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x38C++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_3,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2694++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_3,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2690++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_3,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2644++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_3,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2640++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_3,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x263C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_3,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2638++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_3,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4064++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_3,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_4"
width 24.
group.long 0x4088++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_4,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4090++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_4,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x409C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_4,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x281C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_4,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2818++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_4,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4098++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_4,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x110++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_4,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x250++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_4,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x408C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_4,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x280C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_4,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2808++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_4,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x282C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_4,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2828++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_4,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2824++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_4,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2820++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_4,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2834++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_4,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2830++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_4,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2804++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_4,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2800++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_4,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2814++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_4,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2810++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_4,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2874++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_4,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2870++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_4,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x285C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_4,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2858++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_4,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2854++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_4,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2850++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_4,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2864++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_4,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2860++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_4,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2878++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_4,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x286C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_4,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2868++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_4,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4094++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_4,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x820++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_4,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4080++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_4,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x210++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_4,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2888++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_4,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2884++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_4,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x288C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_4,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2880++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_4,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x390++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_4,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2894++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_4,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2890++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_4,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2844++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_4,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2840++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_4,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x283C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_4,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2838++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_4,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4084++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_4,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_5"
width 24.
group.long 0x40A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_5,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x40B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_5,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x40BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_5,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x2A1C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_5,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2A18++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_5,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_5,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x114++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_5,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x254++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_5,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x40AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_5,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x2A0C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_5,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A08++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_5,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A2C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_5,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A28++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_5,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A24++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_5,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2A20++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_5,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A34++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_5,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A30++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_5,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A04++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_5,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2A00++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_5,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A14++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_5,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A10++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_5,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A74++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_5,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2A70++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_5,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2A5C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_5,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2A58++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_5,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2A54++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_5,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2A50++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_5,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2A64++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_5,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2A60++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_5,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2A78++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_5,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x2A6C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_5,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2A68++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_5,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x40B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_5,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x824++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_5,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x40A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_5,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x214++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_5,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2A88++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_5,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A84++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_5,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A8C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_5,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A80++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_5,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x394++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_5,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2A94++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_5,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A90++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_5,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A44++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_5,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A40++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_5,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A3C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_5,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2A38++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_5,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_5,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_6"
width 24.
group.long 0x40C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_6,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x40D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_6,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x40DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_6,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x2C1C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_6,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2C18++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_6,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_6,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x118++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_6,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x258++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_6,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x40CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_6,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x2C0C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_6,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C08++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_6,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C2C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_6,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C28++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_6,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C24++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_6,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2C20++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_6,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C34++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_6,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C30++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_6,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C04++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_6,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2C00++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_6,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C14++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_6,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C10++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_6,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C74++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_6,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2C70++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_6,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2C5C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_6,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2C58++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_6,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2C54++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_6,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2C50++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_6,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2C64++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_6,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2C60++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_6,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2C78++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_6,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x2C6C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_6,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2C68++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_6,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x40D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_6,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x828++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_6,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x40C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_6,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x218++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_6,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2C88++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_6,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C84++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_6,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C8C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_6,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C80++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_6,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x398++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_6,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2C94++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_6,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C90++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_6,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C44++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_6,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C40++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_6,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C3C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_6,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2C38++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_6,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_6,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_7"
width 24.
group.long 0x40E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_7,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x40F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_7,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x40FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_7,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x2E1C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_7,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2E18++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_7,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_7,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x11C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_7,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x25C++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_7,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x40EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_7,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x2E0C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_7,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E08++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_7,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E2C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_7,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E28++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_7,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E24++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_7,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2E20++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_7,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E34++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_7,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E30++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_7,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E04++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_7,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2E00++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_7,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E14++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_7,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E10++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_7,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E74++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_7,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2E70++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_7,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2E5C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_7,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2E58++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_7,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2E54++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_7,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2E50++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_7,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2E64++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_7,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2E60++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_7,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2E78++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_7,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x2E6C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_7,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2E68++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_7,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x40F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_7,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x82C++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_7,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x40E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_7,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x21C++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_7,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2E88++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_7,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E84++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_7,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E8C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_7,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E80++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_7,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x39C++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_7,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2E94++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_7,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E90++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_7,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E44++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_7,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E40++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_7,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E3C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_7,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2E38++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_7,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_7,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_8"
width 23.
group.long 0x4108++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_8,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4110++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_8,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x411C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_8,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4118++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_8,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x120++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_8,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x410C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_8,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4114++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_8,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4100++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_8,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4104++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_8,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_9"
width 23.
group.long 0x4128++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_9,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4130++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_9,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x413C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_9,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4138++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_9,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x124++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_9,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x412C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_9,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4134++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_9,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4120++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_9,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4124++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_9,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_10"
width 24.
group.long 0x4148++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_10,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4150++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_10,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x415C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_10,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4158++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_10,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x128++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_10,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x414C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_10,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4154++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_10,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4140++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_10,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4144++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_10,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_11"
width 24.
group.long 0x4168++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_11,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4170++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_11,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x417C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_11,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4178++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_11,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x12C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_11,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x416C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_11,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4174++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_11,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4160++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_11,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4164++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_11,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_12"
width 24.
group.long 0x4188++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_12,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4190++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_12,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x419C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_12,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4198++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_12,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x130++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_12,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x418C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_12,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4194++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_12,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4180++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_12,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4184++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_12,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_13"
width 24.
group.long 0x41A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_13,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x41B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_13,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x41BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_13,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x41B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_13,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x134++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_13,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x41AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_13,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x41B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_13,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x41A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_13,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x41A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_13,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_14"
width 24.
group.long 0x41C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_14,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x41D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_14,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x41DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_14,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x41D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_14,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x138++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_14,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x41CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_14,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x41D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_14,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x41C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_14,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x41C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_14,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_15"
width 24.
group.long 0x41E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_15,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x41F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_15,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x41FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_15,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x41F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_15,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x13C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_15,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x41EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_15,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x41F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_15,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x41E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_15,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x41E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_15,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_16"
width 22.
group.long 0x4208++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_16,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4210++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_16,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x421C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_16,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4218++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_16,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x420C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_16,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4214++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_16,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4200++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_16,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4204++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_16,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_17"
width 22.
group.long 0x4228++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_17,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4230++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_17,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x423C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_17,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4238++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_17,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x422C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_17,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4234++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_17,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4220++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_17,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4224++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_17,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_18"
width 22.
group.long 0x4248++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_18,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4250++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_18,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x425C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_18,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4258++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_18,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x424C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_18,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4254++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_18,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4240++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_18,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4244++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_18,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_19"
width 22.
group.long 0x4268++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_19,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4270++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_19,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x427C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_19,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4278++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_19,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x426C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_19,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4274++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_19,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4260++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_19,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4264++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_19,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_20"
width 22.
group.long 0x4288++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_20,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4290++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_20,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x429C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_20,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4298++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_20,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x428C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_20,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4294++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_20,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4280++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_20,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4284++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_20,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_21"
width 22.
group.long 0x42A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_21,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x42B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_21,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x42BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_21,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x42B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_21,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x42AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_21,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x42B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_21,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x42A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_21,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x42A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_21,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_22"
width 22.
group.long 0x42C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_22,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x42D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_22,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x42DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_22,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x42D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_22,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x42CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_22,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x42D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_22,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x42C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_22,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x42C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_22,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_23"
width 22.
group.long 0x42E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_23,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x42F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_23,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x42FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_23,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x42F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_23,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x42EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_23,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x42F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_23,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x42E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_23,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x42E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_23,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_24"
width 22.
group.long 0x4308++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_24,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4310++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_24,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x431C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_24,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4318++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_24,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x430C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_24,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4314++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_24,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4300++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_24,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4304++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_24,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_25"
width 22.
group.long 0x4328++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_25,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4330++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_25,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x433C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_25,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4338++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_25,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x432C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_25,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4334++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_25,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4320++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_25,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4324++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_25,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_26"
width 22.
group.long 0x4348++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_26,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4350++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_26,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x435C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_26,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4358++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_26,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x434C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_26,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4354++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_26,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4340++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_26,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4344++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_26,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_27"
width 22.
group.long 0x4368++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_27,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4370++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_27,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x437C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_27,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4378++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_27,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x436C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_27,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4374++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_27,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4360++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_27,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4364++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_27,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_28"
width 22.
group.long 0x4388++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_28,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4390++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_28,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x439C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_28,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4398++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_28,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x438C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_28,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4394++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_28,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4380++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_28,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4384++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_28,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_29"
width 22.
group.long 0x43A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_29,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x43B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_29,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x43BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_29,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x43B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_29,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x43AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_29,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x43B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_29,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x43A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_29,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x43A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_29,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_30"
width 22.
group.long 0x43C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_30,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x43D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_30,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x43DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_30,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x43D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_30,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x43CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_30,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x43D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_30,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x43C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_30,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x43C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_30,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_31"
width 22.
group.long 0x43E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_31,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x43F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_31,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x43FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_31,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x43F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_31,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x43EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_31,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x43F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_31,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x43E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_31,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x43E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_31,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_32"
width 22.
group.long 0x4408++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_32,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4410++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_32,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x441C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_32,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4418++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_32,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x440C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_32,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4414++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_32,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4400++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_32,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4404++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_32,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_33"
width 22.
group.long 0x4428++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_33,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4430++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_33,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x443C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_33,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4438++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_33,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x442C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_33,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4434++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_33,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4420++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_33,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4424++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_33,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_34"
width 22.
group.long 0x4448++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_34,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4450++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_34,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x445C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_34,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4458++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_34,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x444C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_34,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4454++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_34,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4440++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_34,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4444++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_34,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_35"
width 22.
group.long 0x4468++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_35,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4470++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_35,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x447C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_35,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4478++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_35,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x446C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_35,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4474++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_35,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4460++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_35,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4464++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_35,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_36"
width 22.
group.long 0x4488++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_36,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4490++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_36,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x449C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_36,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4498++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_36,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x448C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_36,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4494++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_36,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4480++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_36,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4484++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_36,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_37"
width 22.
group.long 0x44A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_37,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x44B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_37,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x44BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_37,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x44B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_37,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x44AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_37,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x44B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_37,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x44A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_37,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x44A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_37,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_38"
width 22.
group.long 0x44C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_38,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x44D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_38,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x44DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_38,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x44D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_38,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x44CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_38,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x44D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_38,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x44C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_38,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x44C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_38,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_39"
width 22.
group.long 0x44E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_39,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x44F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_39,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x44FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_39,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x44F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_39,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x44EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_39,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x44F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_39,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x44E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_39,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x44E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_39,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_40"
width 22.
group.long 0x4508++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_40,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4510++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_40,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x451C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_40,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4518++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_40,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x450C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_40,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4514++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_40,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4500++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_40,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4504++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_40,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_41"
width 22.
group.long 0x4528++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_41,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4530++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_41,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x453C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_41,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4538++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_41,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x452C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_41,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4534++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_41,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4520++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_41,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4524++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_41,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_42"
width 22.
group.long 0x4548++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_42,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4550++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_42,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x455C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_42,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4558++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_42,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x454C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_42,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4554++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_42,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4540++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_42,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4544++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_42,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_43"
width 22.
group.long 0x4568++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_43,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4570++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_43,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x457C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_43,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4578++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_43,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x456C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_43,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4574++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_43,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4560++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_43,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4564++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_43,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_44"
width 22.
group.long 0x4588++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_44,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4590++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_44,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x459C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_44,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4598++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_44,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x458C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_44,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4594++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_44,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4580++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_44,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4584++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_44,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_45"
width 22.
group.long 0x45A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_45,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x45B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_45,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x45BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_45,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x45B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_45,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x45AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_45,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x45B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_45,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x45A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_45,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x45A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_45,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_46"
width 22.
group.long 0x45C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_46,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x45D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_46,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x45DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_46,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x45D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_46,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x45CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_46,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x45D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_46,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x45C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_46,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x45C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_46,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_47"
width 22.
group.long 0x45E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_47,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x45F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_47,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x45FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_47,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x45F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_47,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x45EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_47,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x45F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_47,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x45E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_47,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x45E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_47,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_48"
width 22.
group.long 0x4608++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_48,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4610++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_48,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x461C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_48,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4618++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_48,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x460C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_48,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4614++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_48,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4600++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_48,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4604++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_48,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_49"
width 22.
group.long 0x4628++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_49,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4630++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_49,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x463C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_49,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4638++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_49,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x462C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_49,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4634++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_49,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4620++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_49,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4624++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_49,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_50"
width 22.
group.long 0x4648++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_50,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4650++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_50,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x465C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_50,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4658++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_50,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x464C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_50,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4654++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_50,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4640++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_50,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4644++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_50,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_51"
width 22.
group.long 0x4668++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_51,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4670++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_51,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x467C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_51,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4678++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_51,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x466C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_51,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4674++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_51,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4660++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_51,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4664++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_51,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_52"
width 22.
group.long 0x4688++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_52,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4690++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_52,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x469C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_52,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4698++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_52,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x468C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_52,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4694++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_52,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4680++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_52,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4684++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_52,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_53"
width 22.
group.long 0x46A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_53,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x46B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_53,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x46BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_53,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x46B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_53,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x46AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_53,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x46B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_53,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x46A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_53,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x46A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_53,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_54"
width 22.
group.long 0x46C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_54,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x46D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_54,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x46DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_54,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x46D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_54,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x46CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_54,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x46D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_54,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x46C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_54,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x46C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_54,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_55"
width 22.
group.long 0x46E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_55,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x46F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_55,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x46FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_55,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x46F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_55,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x46EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_55,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x46F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_55,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x46E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_55,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x46E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_55,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_56"
width 22.
group.long 0x4708++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_56,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4710++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_56,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x471C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_56,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4718++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_56,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x470C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_56,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4714++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_56,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4700++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_56,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4704++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_56,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_57"
width 22.
group.long 0x4728++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_57,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4730++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_57,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x473C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_57,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4738++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_57,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x472C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_57,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4734++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_57,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4720++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_57,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4724++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_57,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_58"
width 22.
group.long 0x4748++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_58,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4750++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_58,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x475C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_58,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4758++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_58,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x474C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_58,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4754++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_58,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4740++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_58,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4744++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_58,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_59"
width 22.
group.long 0x4768++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_59,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4770++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_59,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x477C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_59,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4778++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_59,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x476C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_59,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4774++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_59,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4760++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_59,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4764++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_59,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_60"
width 22.
group.long 0x4788++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_60,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4790++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_60,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x479C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_60,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4798++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_60,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x478C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_60,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4794++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_60,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4780++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_60,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4784++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_60,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_61"
width 22.
group.long 0x47A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_61,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x47B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_61,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x47BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_61,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x47B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_61,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x47AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_61,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x47B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_61,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x47A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_61,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x47A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_61,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_62"
width 22.
group.long 0x47C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_62,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x47D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_62,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x47DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_62,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x47D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_62,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x47CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_62,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x47D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_62,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x47C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_62,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x47C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_62,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_63"
width 22.
group.long 0x47E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_63,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x47F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_63,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x47FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_63,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x47F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_63,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x47EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_63,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x47F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_63,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x47E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_63,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x47E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_63,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_64"
width 22.
group.long 0x4808++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_64,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4810++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_64,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x481C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_64,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4818++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_64,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x480C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_64,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4814++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_64,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4800++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_64,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4804++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_64,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_65"
width 22.
group.long 0x4828++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_65,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4830++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_65,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x483C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_65,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4838++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_65,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x482C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_65,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4834++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_65,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4820++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_65,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4824++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_65,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_66"
width 22.
group.long 0x4848++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_66,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4850++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_66,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x485C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_66,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4858++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_66,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x484C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_66,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4854++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_66,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4840++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_66,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4844++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_66,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_67"
width 22.
group.long 0x4868++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_67,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4870++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_67,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x487C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_67,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4878++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_67,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x486C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_67,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4874++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_67,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4860++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_67,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4864++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_67,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_68"
width 22.
group.long 0x4888++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_68,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4890++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_68,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x489C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_68,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4898++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_68,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x488C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_68,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4894++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_68,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4880++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_68,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4884++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_68,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_69"
width 22.
group.long 0x48A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_69,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x48B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_69,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x48BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_69,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x48B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_69,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x48AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_69,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x48B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_69,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x48A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_69,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x48A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_69,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_70"
width 22.
group.long 0x48C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_70,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x48D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_70,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x48DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_70,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x48D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_70,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x48CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_70,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x48D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_70,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x48C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_70,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x48C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_70,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_71"
width 22.
group.long 0x48E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_71,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x48F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_71,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x48FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_71,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x48F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_71,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x48EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_71,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x48F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_71,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x48E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_71,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x48E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_71,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_72"
width 22.
group.long 0x4908++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_72,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4910++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_72,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x491C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_72,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4918++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_72,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x490C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_72,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4914++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_72,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4900++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_72,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4904++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_72,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_73"
width 22.
group.long 0x4928++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_73,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4930++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_73,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x493C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_73,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4938++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_73,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x492C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_73,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4934++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_73,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4920++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_73,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4924++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_73,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_74"
width 22.
group.long 0x4948++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_74,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4950++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_74,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x495C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_74,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4958++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_74,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x494C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_74,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4954++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_74,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4940++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_74,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4944++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_74,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_75"
width 22.
group.long 0x4968++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_75,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4970++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_75,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x497C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_75,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4978++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_75,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x496C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_75,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4974++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_75,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4960++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_75,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4964++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_75,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_76"
width 22.
group.long 0x4988++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_76,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4990++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_76,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x499C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_76,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4998++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_76,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x498C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_76,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4994++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_76,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4980++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_76,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4984++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_76,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_77"
width 22.
group.long 0x49A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_77,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x49B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_77,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x49BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_77,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x49B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_77,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x49AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_77,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x49B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_77,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x49A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_77,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x49A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_77,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_78"
width 22.
group.long 0x49C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_78,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x49D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_78,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x49DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_78,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x49D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_78,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x49CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_78,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x49D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_78,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x49C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_78,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x49C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_78,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_79"
width 22.
group.long 0x49E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_79,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x49F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_79,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x49FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_79,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x49F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_79,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x49EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_79,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x49F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_79,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x49E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_79,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x49E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_79,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_80"
width 22.
group.long 0x4A08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_80,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_80,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_80,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_80,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_80,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_80,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_80,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_80,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_81"
width 22.
group.long 0x4A28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_81,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_81,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_81,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_81,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_81,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_81,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_81,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_81,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_82"
width 22.
group.long 0x4A48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_82,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_82,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_82,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_82,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_82,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_82,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_82,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_82,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_83"
width 22.
group.long 0x4A68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_83,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_83,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_83,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_83,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_83,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_83,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_83,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_83,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_84"
width 22.
group.long 0x4A88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_84,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_84,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_84,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_84,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_84,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_84,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_84,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_84,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_85"
width 22.
group.long 0x4AA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_85,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4AB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_85,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4ABC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_85,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4AB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_85,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4AAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_85,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4AB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_85,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4AA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_85,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4AA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_85,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_86"
width 22.
group.long 0x4AC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_86,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4AD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_86,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4ADC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_86,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4AD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_86,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4ACC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_86,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4AD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_86,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4AC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_86,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4AC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_86,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_87"
width 22.
group.long 0x4AE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_87,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4AF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_87,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4AFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_87,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4AF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_87,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4AEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_87,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4AF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_87,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4AE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_87,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4AE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_87,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_88"
width 22.
group.long 0x4B08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_88,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_88,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_88,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_88,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_88,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_88,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_88,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_88,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_89"
width 22.
group.long 0x4B28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_89,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_89,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_89,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_89,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_89,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_89,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_89,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_89,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_90"
width 22.
group.long 0x4B48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_90,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_90,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_90,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_90,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_90,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_90,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_90,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_90,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_91"
width 22.
group.long 0x4B68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_91,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_91,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_91,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_91,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_91,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_91,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_91,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_91,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_92"
width 22.
group.long 0x4B88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_92,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_92,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_92,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_92,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_92,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_92,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_92,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_92,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_93"
width 22.
group.long 0x4BA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_93,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4BB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_93,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4BBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_93,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4BB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_93,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4BAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_93,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4BB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_93,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4BA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_93,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4BA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_93,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_94"
width 22.
group.long 0x4BC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_94,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4BD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_94,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4BDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_94,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4BD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_94,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4BCC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_94,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4BD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_94,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4BC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_94,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4BC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_94,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_95"
width 22.
group.long 0x4BE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_95,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4BF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_95,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4BFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_95,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4BF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_95,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4BEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_95,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4BF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_95,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4BE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_95,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4BE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_95,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_96"
width 22.
group.long 0x4C08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_96,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_96,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_96,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_96,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_96,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_96,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_96,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_96,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_97"
width 22.
group.long 0x4C28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_97,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_97,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_97,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_97,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_97,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_97,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_97,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_97,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_98"
width 22.
group.long 0x4C48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_98,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_98,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_98,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_98,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_98,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_98,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_98,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_98,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_99"
width 22.
group.long 0x4C68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_99,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_99,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_99,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_99,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_99,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_99,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_99,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_99,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_100"
width 23.
group.long 0x4C88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_100,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_100,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_100,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_100,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_100,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_100,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_100,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_100,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_101"
width 23.
group.long 0x4CA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_101,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4CB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_101,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4CBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_101,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4CB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_101,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4CAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_101,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4CB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_101,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4CA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_101,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4CA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_101,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_102"
width 23.
group.long 0x4CC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_102,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4CD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_102,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4CDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_102,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4CD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_102,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4CCC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_102,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4CD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_102,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4CC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_102,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4CC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_102,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_103"
width 23.
group.long 0x4CE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_103,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4CF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_103,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4CFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_103,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4CF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_103,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4CEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_103,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4CF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_103,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4CE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_103,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4CE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_103,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_104"
width 23.
group.long 0x4D08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_104,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_104,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_104,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_104,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_104,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_104,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_104,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_104,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_105"
width 23.
group.long 0x4D28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_105,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_105,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_105,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_105,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_105,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_105,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_105,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_105,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_106"
width 23.
group.long 0x4D48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_106,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_106,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_106,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_106,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_106,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_106,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_106,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_106,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_107"
width 23.
group.long 0x4D68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_107,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_107,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_107,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_107,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_107,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_107,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_107,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_107,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_108"
width 23.
group.long 0x4D88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_108,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_108,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_108,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_108,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_108,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_108,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_108,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_108,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_109"
width 23.
group.long 0x4DA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_109,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4DB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_109,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4DBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_109,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4DB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_109,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4DAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_109,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4DB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_109,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4DA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_109,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4DA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_109,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_110"
width 23.
group.long 0x4DC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_110,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4DD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_110,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4DDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_110,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4DD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_110,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4DCC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_110,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4DD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_110,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4DC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_110,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4DC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_110,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_111"
width 23.
group.long 0x4DE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_111,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4DF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_111,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4DFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_111,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4DF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_111,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4DEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_111,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4DF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_111,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4DE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_111,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4DE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_111,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_112"
width 23.
group.long 0x4E08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_112,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_112,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_112,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_112,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_112,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_112,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_112,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_112,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_113"
width 23.
group.long 0x4E28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_113,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_113,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_113,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_113,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_113,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_113,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_113,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_113,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_114"
width 23.
group.long 0x4E48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_114,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_114,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_114,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_114,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_114,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_114,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_114,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_114,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_115"
width 23.
group.long 0x4E68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_115,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_115,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_115,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_115,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_115,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_115,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_115,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_115,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_116"
width 23.
group.long 0x4E88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_116,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_116,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_116,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_116,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_116,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_116,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_116,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_116,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_117"
width 23.
group.long 0x4EA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_117,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4EB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_117,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4EBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_117,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4EB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_117,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4EAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_117,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4EB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_117,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4EA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_117,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4EA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_117,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_118"
width 23.
group.long 0x4EC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_118,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4ED0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_118,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4EDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_118,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4ED8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_118,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4ECC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_118,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4ED4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_118,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4EC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_118,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4EC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_118,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_119"
width 23.
group.long 0x4EE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_119,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4EF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_119,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4EFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_119,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4EF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_119,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4EEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_119,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4EF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_119,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4EE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_119,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4EE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_119,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_120"
width 23.
group.long 0x4F08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_120,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_120,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_120,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_120,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_120,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_120,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_120,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_120,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_121"
width 23.
group.long 0x4F28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_121,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_121,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_121,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_121,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_121,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_121,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_121,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_121,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_122"
width 23.
group.long 0x4F48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_122,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_122,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_122,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_122,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_122,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_122,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_122,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_122,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_123"
width 23.
group.long 0x4F68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_123,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_123,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_123,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_123,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_123,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_123,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_123,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_123,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_124"
width 23.
group.long 0x4F88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_124,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_124,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_124,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_124,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_124,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_124,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_124,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_124,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_125"
width 23.
group.long 0x4FA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_125,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4FB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_125,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4FBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_125,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4FB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_125,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4FAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_125,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4FB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_125,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4FA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_125,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4FA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_125,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_126"
width 23.
group.long 0x4FC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_126,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4FD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_126,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4FDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_126,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4FD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_126,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4FCC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_126,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4FD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_126,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4FC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_126,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4FC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_126,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_127"
width 23.
group.long 0x4FE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_127,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4FF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_127,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4FFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_127,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4FF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_127,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4FEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_127,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4FF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_127,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4FE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_127,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4FE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_127,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
textline ""
width 20.
rgroup.long 0x0++0x3
line.long 0x00 "EDMA_TPCC_PID,Peripheral ID Register"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP revision"
rgroup.long 0x4++0x3
line.long 0x00 "EDMA_TPCC_CCCFG,CC Configuration Register"
bitfld.long 0x00 25. " MPEXIST   ,Memory Protection Existence - . - ." "No_mMemory_protection,1"
bitfld.long 0x00 24. "  CHMAPEXIST ,Channel Mapping Existence - . - ." "No_Channel_mapping.,1"
bitfld.long 0x00 20.--21. "  NUMREGN  ,Number of MP and Shadow regions" "0,1,2,3"
textline "                             "
bitfld.long 0x00 16.--18. " NUMTC     ,Number of Queues/Number of TCs" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                      NUMPAENTRY ,Number of PaRAM entries" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "                    NUMINTCH ,Number of Interrupt Channels" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 4.--6. " NUMQDMACH ,Number of QDMA Channels" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                      NUMDMACH   ,Number of DMA Channels" "0,1,2,3,4,5,6,7"
group.long 0xFC++0x3
line.long 0x00 "EDMA_TPCC_CLKGDIS,Auto Clock Gate Disable"
bitfld.long 0x00 0. " CLKGDIS   ,Auto Clock Gate Disable" "0,1"
group.long 0x260++0x3
line.long 0x00 "EDMA_TPCC_QDMAQNUM,QDMA Queue Number Register Contains the Event queue number to be used for the corresponding QDMA Channel."
bitfld.long 0x00 28.--30. " E7        ,QDMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                      E6         ,QDMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "                    E5       ,QDMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 16.--18. " E4        ,QDMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                      E3         ,QDMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "                    E2       ,QDMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 4.--6. " E1        ,QDMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                      E0         ,QDMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x280++0x3
line.long 0x00 "EDMA_TPCC_QUETCMAP,Queue to TC Mapping"
bitfld.long 0x00 4.--6. " TCNUMQ1   ,TC Number for Queue N: Defines the TC number that Event Queue N TRs are written to." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                      TCNUMQ0    ,TC Number for Queue N: Defines the TC number that Event Queue N TRs are written to." "0,1,2,3,4,5,6,7"
group.long 0x284++0x3
line.long 0x00 "EDMA_TPCC_QUEPRI,Queue Priority"
bitfld.long 0x00 4.--6. " PRIQ1     ,Priority Level for Queue 1 Dictates the priority level used for the OPTIONS field programmation for Qn TRs. Sets the priority used for TC read and write commands." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                      PRIQ0      ,Priority Level for Queue 0 Dictates the priority level used for the OPTIONS field programmation for Qn TRs. Sets the priority used for TC read and write commands." "0,1,2,3,4,5,6,7"
rgroup.long 0x300++0x3
line.long 0x00 "EDMA_TPCC_EMR,Event Missed Register: The Event Missed register is set if 2 events are received without the first event being cleared or if a Null TR is serviced. Chained events (CER), Set Events (ESR), and normal events (ER) are treated individually. I..."
bitfld.long 0x00 31. " E31       ,Event Missed #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event Missed #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event Missed #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event Missed #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event Missed #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event Missed #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event Missed #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event Missed #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event Missed #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event Missed #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event Missed #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event Missed #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event Missed #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event Missed #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event Missed #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event Missed #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event Missed #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event Missed #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event Missed #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event Missed #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event Missed #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event Missed #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event Missed #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event Missed #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event Missed #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event Missed #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event Missed #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event Missed #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event Missed #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event Missed #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event Missed #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event Missed #0" "0,1"
rgroup.long 0x304++0x3
line.long 0x00 "EDMA_TPCC_EMRH,Event Missed Register (High Part): The Event Missed register is set if 2 events are received without the first event being cleared or if a Null TR is serviced. Chained events (CER), Set Events (ESR), and normal events (ER) are treated in..."
bitfld.long 0x00 31. " E63       ,Event Missed #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event Missed #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event Missed #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event Missed #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event Missed #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event Missed #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event Missed #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event Missed #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event Missed #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event Missed #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event Missed #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event Missed #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event Missed #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event Missed #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event Missed #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event Missed #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event Missed #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event Missed #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event Missed #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event Missed #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event Missed #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event Missed #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event Missed #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event Missed #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event Missed #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event Missed #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event Missed #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event Missed #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event Missed #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event Missed #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event Missed #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event Missed #32" "0,1"
wgroup.long 0x308++0x3
line.long 0x00 "EDMA_TPCC_EMCR,Event Missed Clear Register: CPU write of '1' to the.En bit causes the .En bit to be cleared. CPU write of '0' has no effect.. All error bits must be cleared before additional error interrupts will be asserted by CC."
bitfld.long 0x00 31. " E31       ,Event Missed Clear #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event Missed Clear #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event Missed Clear #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event Missed Clear #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event Missed Clear #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event Missed Clear #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event Missed Clear #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event Missed Clear #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event Missed Clear #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event Missed Clear #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event Missed Clear #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event Missed Clear #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event Missed Clear #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event Missed Clear #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event Missed Clear #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event Missed Clear #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event Missed Clear #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event Missed Clear #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event Missed Clear #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event Missed Clear #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event Missed Clear #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event Missed Clear #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event Missed Clear #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event Missed Clear #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event Missed Clear #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event Missed Clear #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event Missed Clear #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event Missed Clear #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event Missed Clear #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event Missed Clear #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event Missed Clear #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event Missed Clear #0" "0,1"
wgroup.long 0x30C++0x3
line.long 0x00 "EDMA_TPCC_EMCRH,Event Missed Clear Register (High Part): CPU write of '1' to the.En bit causes the .En bit to be cleared. CPU write of '0' has no effect. All error bits must be cleared before additional error interrupts will be asserted by CC."
bitfld.long 0x00 31. " E63       ,Event Missed Clear #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event Missed Clear #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event Missed Clear #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event Missed Clear #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event Missed Clear #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event Missed Clear #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event Missed Clear #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event Missed Clear #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event Missed Clear #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event Missed Clear #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event Missed Clear #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event Missed Clear #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event Missed Clear #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event Missed Clear #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event Missed Clear #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event Missed Clear #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event Missed Clear #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event Missed Clear #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event Missed Clear #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event Missed Clear #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event Missed Clear #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event Missed Clear #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event Missed Clear #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event Missed Clear #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event Missed Clear #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event Missed Clear #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event Missed Clear #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event Missed Clear #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event Missed Clear #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event Missed Clear #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event Missed Clear #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event Missed Clear #32" "0,1"
rgroup.long 0x310++0x3
line.long 0x00 "EDMA_TPCC_QEMR,QDMA Event Missed Register: The QDMA Event Missed register is set if 2 QDMA events are detected without the first event being cleared or if a Null TR is serviced. If any bit in the register is set (and all errors (including / ) were prev..."
bitfld.long 0x00 7. " E7        ,Event Missed #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event Missed #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event Missed #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event Missed #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event Missed #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event Missed #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event Missed #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event Missed #0" "0,1"
wgroup.long 0x314++0x3
line.long 0x00 "EDMA_TPCC_QEMCR,QDMA Event Missed Clear Register: CPU write of '1' to the.En bit causes the .En bit to be cleared. CPU write of '0' has no effect. All error bits must be cleared before additional error interrupts will be asserted by CC."
bitfld.long 0x00 7. " E7        ,Event Missed Clear #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event Missed Clear #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event Missed Clear #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event Missed Clear #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event Missed Clear #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event Missed Clear #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event Missed Clear #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event Missed Clear #0" "0,1"
rgroup.long 0x318++0x3
line.long 0x00 "EDMA_TPCC_CCERR,CC Error Register"
bitfld.long 0x00 16. " TCERR     ,Transfer Completion Code Error - . - . - TCERR can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors were previously clear), then an error will be signaled with TPCC error interr..." "0,1"
bitfld.long 0x00 7. "                      QTHRXCD7   ,Queue Threshold Error for Q7 - . - . - QTHRXCD7 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error wi..." "0,1"
bitfld.long 0x00 6. "                    QTHRXCD6 ,Queue Threshold Error for Q6 - . - . - QTHRXCD6 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will b..." "0,1"
textline "                             "
bitfld.long 0x00 5. " QTHRXCD5  ,Queue Threshold Error for Q5 - . - . - QTHRXCD5 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will be signaled with th..." "0,1"
bitfld.long 0x00 4. "                      QTHRXCD4   ,Queue Threshold Error for Q4 - . - . - QTHRXCD4 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error wi..." "0,1"
bitfld.long 0x00 3. "                    QTHRXCD3 ,Queue Threshold Error for Q3 - . - . - QTHRXCD3 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will b..." "0,1"
textline "                             "
bitfld.long 0x00 2. " QTHRXCD2  ,Queue Threshold Error for Q2 - . - . - QTHRXCD2 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will be signaled with th..." "0,1"
bitfld.long 0x00 1. "                      QTHRXCD1   ,Queue Threshold Error for Q1 - . - . - QTHRXCD1 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error wi..." "0,1"
bitfld.long 0x00 0. "                    QTHRXCD0 ,Queue Threshold Error for Q0: - . - . - QTHRXCD0 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will ..." "0,1"
wgroup.long 0x31C++0x3
line.long 0x00 "EDMA_TPCC_CCERRCLR,CC Error Clear Register"
bitfld.long 0x00 16. " TCERR     ,Clear Error forEDMA_TPCC_CCERR[16] TR. - Write 0x1 to clear the value of[16] TCERR. . - . - Write 0x0 have no affect. . - ." "0,1"
bitfld.long 0x00 7. "                      QTHRXCD7   ,Clear error forEDMA_TPCC_CCERR[7]QTHRXCD7 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT7.WM, QSTAT7.THRXCD,[7] QTHRXCD7 . - ." "0,1"
bitfld.long 0x00 6. "                    QTHRXCD6 ,Clear error forEDMA_TPCC_CCERR[6] QTHRXCD6 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT6.WM, QSTAT6.THRXCD,[6]QTHRXCD6 . - ." "0,1"
textline "                             "
bitfld.long 0x00 5. " QTHRXCD5  ,Clear error forEDMA_TPCC_CCERR[5] QTHRXCD5 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT5.WM, QSTAT5.THRXCD,[5]QTHRXCD5 . - ." "0,1"
bitfld.long 0x00 4. "                      QTHRXCD4   ,Clear error forEDMA_TPCC_CCERR[4] QTHRXCD4: - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT4.WM, QSTAT4.THRXCD,[4] QTHRXCD4 . - ." "0,1"
bitfld.long 0x00 3. "                    QTHRXCD3 ,Clear error forEDMA_TPCC_CCERR[3] QTHRXCD3 - Write 0x1 to clear the values of QSTAT3.WM, QSTAT3.THRXCD,[3] QTHRXCD3 . - . - Write 0x0 have no affect. . - ." "0,1"
textline "                             "
bitfld.long 0x00 2. " QTHRXCD2  ,Clear error forEDMA_TPCC_CCERR[2] QTHRXCD2 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT2.WM, QSTAT2.THRXCD,[2] QTHRXCD2 . - ." "0,1"
bitfld.long 0x00 1. "                      QTHRXCD1   ,Clear error forEDMA_TPCC_CCERR[1] QTHRXCD1 - Write 0x1 to clear the values of QSTAT1.WM, QSTAT1.THRXCD,[1] QTHRXCD1 . - . - Write 0x0 have no affect. . - ." "0,1"
bitfld.long 0x00 0. "                    QTHRXCD0 ,Clear error forEDMA_TPCC_CCERR[0] QTHRXCD0 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT0.WM, QSTAT0.THRXCD,[0] QTHRXCD0 . - ." "0,1"
wgroup.long 0x320++0x3
line.long 0x00 "EDMA_TPCC_EEVAL,Error Eval Register"
bitfld.long 0x00 1. " SET       ,Error Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SET bit causes the TPCC error interrupt to be pulsed regardless of state of/, , or . . - ." "0,1"
bitfld.long 0x00 0. "                      EVAL       ,Error Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVAL bit causes the TPCC error interrupt to be pulsed if any errors have not been cleared in the/, , or registers. The CPU must als..." "0,1"
group.long 0x620++0x3
line.long 0x00 "EDMA_TPCC_QWMTHRA,Queue Threshold A, for Q[3:0]:.QTHRXCDn and QSTATn[24] THRXCD error bit is set when the number of Events in QueueN at an instant in time (visible via QSTATn[12:8] NUMVAL) equals or exceeds the value specified by .Qn. Legal values = 0x..."
bitfld.long 0x00 24.--28. " Q3        ,Queue Threshold for Q3 value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "                     Q2         ,Queue Threshold for Q2 value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "                   Q1       ,Queue Threshold for Q1 value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                             "
bitfld.long 0x00 0.--4. " Q0        ,Queue Threshold for Q0 value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x624++0x3
line.long 0x00 "EDMA_TPCC_QWMTHRB,Queue Threshold B, for Q[7:4]:.QTHRXCDn and QSTATn[24]THRXCD error bit is set when the number of Events in QueueN at an instant in time (visible via QSTATn[12:8] NUMVAL) equals or exceeds the value specified by QWMTHRB.Qn. Legal value..."
bitfld.long 0x00 24.--28. " Q7        ,Queue Threshold for Q7 value (unused in the context of IVAHD)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "                     Q6         ,Queue Threshold for Q6 value (unused in the context of IVAHD)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "                   Q5       ,Queue Threshold for Q5 value (unused in the context of IVAHD)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                             "
bitfld.long 0x00 0.--4. " Q4        ,Queue Threshold for Q4 value (unused in the context of IVAHD)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rgroup.long 0x640++0x3
line.long 0x00 "EDMA_TPCC_CCSTAT,CC Status Register"
bitfld.long 0x00 23. " QUEACTV7  ,Queue 7 Active - . - ." "0,1"
bitfld.long 0x00 22. "                      QUEACTV6   ,Queue 6 Active - . - ." "0,1"
bitfld.long 0x00 21. "                    QUEACTV5 ,Queue 5 Active - . - ." "0,1"
textline "                             "
bitfld.long 0x00 20. " QUEACTV4  ,Queue 4 Active - . - ." "0,1"
bitfld.long 0x00 19. "                      QUEACTV3   ,Queue 3 Active - . - ." "0,1"
bitfld.long 0x00 18. "                    QUEACTV2 ,Queue 2 Active QUEACTV2 = 0 : No Evts are queued in Q2. QUEACTV2 = 1 : At least one TR is queued in Q2. - . - ." "UNKN_MNEMO,UNKN_MNEMO"
textline "                             "
bitfld.long 0x00 17. " QUEACTV1  ,Queue 1 Active - . - ." "0,1"
bitfld.long 0x00 16. "                      QUEACTV0   ,Queue 0 Active - . - ." "0,1"
bitfld.long 0x00 8.--13. "                    COMPACTV ,Completion Request Active: Counter that tracks the total number of completion requests submitted to the TC. The counter increments when a TR is submitted with TCINTEN or TCCHEN set to '1'. The counter decrements for every ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                             "
bitfld.long 0x00 4. " ACTV      ,Channel Controller Active Channel Controller Active is a logical-OR of each of the *ACTV signals. The ACTV bit must remain high through the life of a: - . - ." "Channel_is_idle.,Channel_is_busy."
bitfld.long 0x00 2. "       TRACTV     ,Transfer Request Active TRACTV = 0 : Transfer Request processing/submission logic is inactive. TRACTV = 1 : Transfer Request processing/submission logic is active. - . - ." "UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 1. "           QEVTACTV ,QDMA Event Active - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0. " EVTACTV   ,DMA Event Active - . - ." "0,1"
group.long 0x700++0x3
line.long 0x00 "EDMA_TPCC_AETCTL,Advanced Event Trigger Control"
bitfld.long 0x00 31. " EN        ,AET Enable - . - ." "0,1"
bitfld.long 0x00 8.--13. "                      ENDINT     ,AET End Interrupt: Dictates the completion interrupt number that will force the tpcc_aet signal to be deasserted (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 6. "                   TYPE     ,AET Event Type - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0.--5. " STRTEVT   ,AET Start Event: Dictates the Event Number that will force the tpcc_aet signal to be asserted (high)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x704++0x3
line.long 0x00 "EDMA_TPCC_AETSTAT,Advanced Event Trigger Stat"
bitfld.long 0x00 0. " STAT      ,AET Status - . - ." "0,1"
wgroup.long 0x708++0x3
line.long 0x00 "EDMA_TPCC_AETCMD,AET Command"
bitfld.long 0x00 0. " CLR       ,AET Clear command - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the CLR bit causes the tpcc_aet output signal and[0]STAT register to be cleared. . - ." "0,1"
rgroup.long 0x800++0x3
line.long 0x00 "EDMA_TPCC_MPFAR,MMemory Protection Fault Address"
hexmask.long 0x00 0.--31. 1. " FADDR     ,Fault Address: 32-bit read-only status register containing the faulting address when a mMemory protection violation is detected. This register can only be cleared via theEDMA_TPCC_MPFCR."
rgroup.long 0x804++0x3
line.long 0x00 "EDMA_TPCC_MPFSR,Memory Protection Fault Status Register"
bitfld.long 0x00 9.--12. " FID       ,Faulted ID: FID register contains valid info if any of the MP error bits (UXE, UWE, URE, SXE, SWE, SRE) are non-zero (i.e., if an error has been detected.) The FID field contains the VBus PrivID for the specific request/requestor that resul..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 5. "                     SRE        ,Supervisor Read Error - . - ." "No_error_detected.,1"
bitfld.long 0x00 4. "   SWE      ,Supervisor Write Error - . - ." "No_error_detected.,1"
textline "                             "
bitfld.long 0x00 3. " SXE       ,Supervisor Execute Error - . - ." "No_error_detected.,1"
bitfld.long 0x00 2. "     URE        ,User Read Error - . - ." "No_error_detected.,1"
bitfld.long 0x00 1. "   UWE      ,User Write Error - . - ." "No_error_detected.,1"
textline "                             "
bitfld.long 0x00 0. " UXE       ,User Execute Error - . - ." "No_error_detected,1"
wgroup.long 0x808++0x3
line.long 0x00 "EDMA_TPCC_MPFCR,Memory Protection Fault Command Register"
bitfld.long 0x00 0. " MPFCLR    ,Fault Clear register - . - ." "has_no_effect,1"
group.long 0x80C++0x3
line.long 0x00 "EDMA_TPCC_MPPAG,Memory Protection Page Attribute for Global registers"
bitfld.long 0x00 15. " AID5      ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                      AID4       ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "                    AID3     ,Allowed ID 3 - . - ." "0,1"
textline "                             "
bitfld.long 0x00 12. " AID2      ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                      AID1       ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "                    AID0     ,Allowed ID 0 - . - ." "0,1"
textline "                             "
bitfld.long 0x00 9. " EXT       ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                      SR         ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "                    SW       ,Supervisor Write permission - . - ." "0,1"
textline "                             "
bitfld.long 0x00 3. " SX        ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                      UR         ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "                    UW       ,User Write permission - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0. " UX        ,User Execute permission - . - ." "0,1"
rgroup.long 0x1000++0x3
line.long 0x00 "EDMA_TPCC_ER,Event Register: If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive (low) ..."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x1004++0x3
line.long 0x00 "EDMA_TPCC_ERH,Event Register (High Part): If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from in..."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1008++0x3
line.long 0x00 "EDMA_TPCC_ECR,Event Clear Register: CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x100C++0x3
line.long 0x00 "EDMA_TPCC_ECRH,Event Clear Register (High Part): CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1010++0x3
line.long 0x00 "EDMA_TPCC_ESR,Event Set Register: CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1014++0x3
line.long 0x00 "EDMA_TPCC_ESRH,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
rgroup.long 0x1018++0x3
line.long 0x00 "EDMA_TPCC_CER,Chained Event Register: If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is returned fr..."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x101C++0x3
line.long 0x00 "EDMA_TPCC_CERH,Chained Event Register (High Part): If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code i..."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
rgroup.long 0x1020++0x3
line.long 0x00 "EDMA_TPCC_EER,Event Enable Register: Enables DMA transfers for.En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). Note that if a bit..."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x1024++0x3
line.long 0x00 "EDMA_TPCC_EERH,Event Enable Register (High Part): Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). Note..."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1028++0x3
line.long 0x00 "EDMA_TPCC_EECR,Event Enable Clear Register CPU writes of '1' to the .En bit causes the .En bit to be cleared. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x102C++0x3
line.long 0x00 "EDMA_TPCC_EECRH,Event Enable Clear Register (High Part) CPU writes of '1' to the .En bit causes the EERH.En bit to be cleared. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1030++0x3
line.long 0x00 "EDMA_TPCC_EESR,Event Enable Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1034++0x3
line.long 0x00 "EDMA_TPCC_EESRH,Event Enable Set Register (High Part) CPU writes of '1' to the .En bit causes the .En bit to be set. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
rgroup.long 0x1038++0x3
line.long 0x00 "EDMA_TPCC_SER,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored in Even..."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x103C++0x3
line.long 0x00 "EDMA_TPCC_SERH,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently s..."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1040++0x3
line.long 0x00 "EDMA_TPCC_SECR,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '1' to the .En bit clears the register. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1044++0x3
line.long 0x00 "EDMA_TPCC_SECRH,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '1' to the .En bit clears the register. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
rgroup.long 0x1050++0x3
line.long 0x00 "EDMA_TPCC_IER,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. . In = 0: .In is NOT enabled for interrupts. . In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x1054++0x3
line.long 0x00 "EDMA_TPCC_IERH,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. . In = 0: .In is NOT enabled for interrupts. . In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x1058++0x3
line.long 0x00 "EDMA_TPCC_IECR,Int Enable Clear Register CPU writes of '1' to the .In bit causes the .In bit to be cleared. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x105C++0x3
line.long 0x00 "EDMA_TPCC_IECRH,Int Enable Clear Register (High Part) CPU write of '1' to the .In bit causes the .In bit to be cleared. CPU write of '0' has no effect.."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x1060++0x3
line.long 0x00 "EDMA_TPCC_IESR,Int Enable Set Register CPU write of '1' to the .In bit causes the .In bit to be set. CPU write of '0' has no effect.."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x1064++0x3
line.long 0x00 "EDMA_TPCC_IESRH,Int Enable Set Register (High Part) CPU write of '1' to the .In bit causes the .In bit to be set. CPU write of '0' has no effect.."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x1068++0x3
line.long 0x00 "EDMA_TPCC_IPR,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x106C++0x3
line.long 0x00 "EDMA_TPCC_IPRH,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. . In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x1070++0x3
line.long 0x00 "EDMA_TPCC_ICR,Interrupt Clear Register CPU write of '1' to the .In bit causes the .In bit to be cleared. CPU write of '0' has no effect. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x1074++0x3
line.long 0x00 "EDMA_TPCC_ICRH,Interrupt Clear Register (High Part) CPU write of '1' to the .In bit causes the .In bit to be cleared. CPU write of '0' has no effect. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x1078++0x3
line.long 0x00 "EDMA_TPCC_IEVAL,Interrupt Eval Register"
bitfld.long 0x00 1. " SET       ,Interrupt Set: CPU write of '1' to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). CPU write of '0' has no effect." "0,1"
bitfld.long 0x00 0. "                      EVAL       ,Interrupt Evaluate: CPU write of '1' to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). CPU write of '0' has no effect." "0,1"
rgroup.long 0x1080++0x3
line.long 0x00 "EDMA_TPCC_QER,QDMA Event Register: If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .En bit ..."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x1084++0x3
line.long 0x00 "EDMA_TPCC_QEER,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. QDMA channels can be enabled via writes to and can be disabled via writes to register. .En = 1, The corresponding QDMA..."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1088++0x3
line.long 0x00 "EDMA_TPCC_QEECR,QDMA Event Enable Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect.."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x108C++0x3
line.long 0x00 "EDMA_TPCC_QEESR,QDMA Event Enable Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect.."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x1090++0x3
line.long 0x00 "EDMA_TPCC_QSER,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1094++0x3
line.long 0x00 "EDMA_TPCC_QSECR,QDMA Secondary Event Clear Register The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear the .En register). CPU write of '1' to..."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
width 0x0B
tree.end
tree "EVE4_EDMA_TPCC"
base ad:0x423A0000
tree "DMA_Channel_0"
width 24.
group.long 0x4008++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_0,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4010++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_0,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x401C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_0,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x201C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_0,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2018++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_0,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4018++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_0,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x100++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_0,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x240++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_0,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "      E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "      E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x400C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_0,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x200C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_0,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2008++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_0,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x202C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_0,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2028++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_0,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2024++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_0,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2020++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_0,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2034++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_0,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2030++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_0,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2004++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_0,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2000++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_0,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2014++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_0,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2010++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_0,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2074++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_0,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2070++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_0,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x205C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_0,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2058++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_0,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2054++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_0,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2050++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_0,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2064++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_0,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2060++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_0,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2078++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_0,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x206C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_0,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2068++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_0,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4014++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_0,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x810++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_0,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "      AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "      AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission se..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "      SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "      UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4000++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_0,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "     ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "      TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "     TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "      SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x200++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_0,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2088++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_0,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2084++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_0,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x208C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_0,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2080++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_0,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x380++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_0,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "      E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "      E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2094++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_0,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2090++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_0,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x600++0x3
line.long 0x00 "EDMA_TPCC_QSTATN_i_0,QSTATn Register Set"
bitfld.long 0x00 24. " THRXCD  ,Threshold Exceeded - . - . - THRXCD is cleared via. WMCLRn bit. . - ." "0,1"
bitfld.long 0x00 16.--20. "                     WM       ,Watermark for Maximum Queue Usage: Watermark tracks the most entries that have been in QueueN since reset or since the last time that the watermark (WM) was cleared. QSTATn. WM is cleared via EDMA_TPCC_CCERR.WMCLRn bit. L..." "empty,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,full,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "  NUMVAL  ,Number of Valid Entries in QueueN: Represents the total number of entries residing in the Queue Manager FIFO at a given instant. Always enabled. Legal values: = 0x0 (empty) to 0x10 (full) - . - ." "empty,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,full,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                 "
bitfld.long 0x00 0.--3. " STRTPTR ,Start Pointer: Represents the offset to the head entry of QueueN, in units of *entries*. Always enabled. Legal values: - . - ." "0th_entry,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15th_entry"
wgroup.long 0x2044++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_0,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2040++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_0,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x203C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_0,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2038++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_0,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4004++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_0,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_1"
width 24.
group.long 0x4028++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_1,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4030++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_1,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x403C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_1,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x221C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_1,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2218++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_1,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4038++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_1,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x104++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_1,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x244++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_1,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "      E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "      E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x402C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_1,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x220C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_1,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2208++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_1,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x222C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_1,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2228++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_1,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2224++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_1,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2220++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_1,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2234++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_1,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2230++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_1,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2204++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_1,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2200++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_1,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2214++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_1,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2210++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_1,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2274++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_1,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2270++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_1,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x225C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_1,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2258++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_1,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2254++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_1,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2250++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_1,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2264++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_1,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2260++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_1,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2278++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_1,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x226C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_1,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2268++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_1,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4034++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_1,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x814++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_1,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "      AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "      AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission se..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "      SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "      UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4020++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_1,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "     ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "      TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "     TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "      SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x204++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_1,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2288++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_1,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2284++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_1,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x228C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_1,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2280++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_1,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x384++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_1,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "      E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "      E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2294++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_1,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2290++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_1,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x604++0x3
line.long 0x00 "EDMA_TPCC_QSTATN_i_1,QSTATn Register Set"
bitfld.long 0x00 24. " THRXCD  ,Threshold Exceeded - . - . - THRXCD is cleared via. WMCLRn bit. . - ." "0,1"
bitfld.long 0x00 16.--20. "                     WM       ,Watermark for Maximum Queue Usage: Watermark tracks the most entries that have been in QueueN since reset or since the last time that the watermark (WM) was cleared. QSTATn. WM is cleared via EDMA_TPCC_CCERR.WMCLRn bit. L..." "empty,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,full,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "  NUMVAL  ,Number of Valid Entries in QueueN: Represents the total number of entries residing in the Queue Manager FIFO at a given instant. Always enabled. Legal values: = 0x0 (empty) to 0x10 (full) - . - ." "empty,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,full,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                 "
bitfld.long 0x00 0.--3. " STRTPTR ,Start Pointer: Represents the offset to the head entry of QueueN, in units of *entries*. Always enabled. Legal values: - . - ." "0th_entry,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15th_entry"
wgroup.long 0x2244++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_1,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2240++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_1,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x223C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_1,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2238++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_1,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4024++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_1,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_2"
width 24.
group.long 0x4048++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_2,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4050++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_2,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x405C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_2,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x241C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_2,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2418++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_2,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4058++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_2,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x108++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_2,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x248++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_2,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x404C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_2,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x240C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_2,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2408++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_2,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x242C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_2,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2428++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_2,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2424++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_2,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2420++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_2,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2434++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_2,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2430++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_2,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2404++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_2,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2400++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_2,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2414++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_2,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2410++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_2,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2474++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_2,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2470++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_2,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x245C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_2,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2458++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_2,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2454++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_2,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2450++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_2,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2464++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_2,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2460++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_2,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2478++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_2,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x246C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_2,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2468++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_2,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4054++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_2,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x818++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_2,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4040++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_2,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x208++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_2,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2488++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_2,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2484++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_2,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x248C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_2,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2480++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_2,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x388++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_2,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2494++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_2,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2490++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_2,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2444++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_2,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2440++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_2,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x243C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_2,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2438++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_2,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4044++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_2,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_3"
width 24.
group.long 0x4068++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_3,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4070++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_3,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x407C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_3,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x261C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_3,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2618++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_3,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4078++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_3,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x10C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_3,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x24C++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_3,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x406C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_3,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x260C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_3,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2608++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_3,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x262C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_3,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2628++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_3,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2624++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_3,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2620++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_3,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2634++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_3,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2630++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_3,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2604++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_3,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2600++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_3,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2614++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_3,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2610++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_3,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2674++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_3,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2670++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_3,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x265C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_3,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2658++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_3,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2654++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_3,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2650++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_3,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2664++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_3,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2660++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_3,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2678++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_3,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x266C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_3,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2668++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_3,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4074++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_3,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x81C++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_3,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4060++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_3,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x20C++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_3,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2688++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_3,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2684++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_3,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x268C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_3,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2680++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_3,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x38C++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_3,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2694++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_3,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2690++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_3,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2644++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_3,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2640++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_3,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x263C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_3,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2638++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_3,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4064++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_3,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_4"
width 24.
group.long 0x4088++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_4,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4090++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_4,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x409C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_4,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x281C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_4,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2818++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_4,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4098++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_4,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x110++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_4,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x250++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_4,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x408C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_4,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x280C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_4,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2808++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_4,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x282C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_4,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2828++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_4,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2824++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_4,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2820++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_4,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2834++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_4,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2830++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_4,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2804++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_4,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2800++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_4,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2814++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_4,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2810++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_4,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2874++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_4,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2870++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_4,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x285C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_4,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2858++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_4,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2854++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_4,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2850++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_4,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2864++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_4,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2860++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_4,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2878++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_4,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x286C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_4,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2868++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_4,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4094++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_4,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x820++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_4,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4080++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_4,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x210++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_4,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2888++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_4,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2884++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_4,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x288C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_4,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2880++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_4,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x390++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_4,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2894++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_4,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2890++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_4,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2844++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_4,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2840++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_4,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x283C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_4,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2838++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_4,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4084++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_4,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_5"
width 24.
group.long 0x40A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_5,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x40B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_5,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x40BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_5,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x2A1C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_5,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2A18++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_5,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_5,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x114++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_5,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x254++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_5,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x40AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_5,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x2A0C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_5,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A08++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_5,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A2C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_5,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A28++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_5,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A24++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_5,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2A20++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_5,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A34++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_5,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A30++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_5,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A04++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_5,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2A00++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_5,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A14++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_5,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A10++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_5,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A74++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_5,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2A70++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_5,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2A5C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_5,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2A58++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_5,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2A54++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_5,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2A50++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_5,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2A64++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_5,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2A60++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_5,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2A78++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_5,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x2A6C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_5,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2A68++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_5,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x40B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_5,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x824++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_5,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x40A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_5,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x214++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_5,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2A88++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_5,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A84++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_5,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A8C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_5,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A80++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_5,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x394++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_5,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2A94++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_5,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A90++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_5,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A44++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_5,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A40++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_5,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A3C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_5,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2A38++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_5,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_5,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_6"
width 24.
group.long 0x40C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_6,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x40D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_6,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x40DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_6,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x2C1C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_6,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2C18++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_6,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_6,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x118++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_6,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x258++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_6,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x40CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_6,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x2C0C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_6,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C08++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_6,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C2C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_6,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C28++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_6,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C24++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_6,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2C20++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_6,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C34++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_6,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C30++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_6,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C04++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_6,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2C00++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_6,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C14++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_6,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C10++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_6,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C74++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_6,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2C70++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_6,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2C5C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_6,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2C58++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_6,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2C54++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_6,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2C50++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_6,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2C64++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_6,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2C60++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_6,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2C78++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_6,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x2C6C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_6,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2C68++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_6,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x40D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_6,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x828++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_6,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x40C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_6,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x218++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_6,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2C88++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_6,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C84++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_6,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C8C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_6,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C80++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_6,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x398++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_6,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2C94++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_6,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C90++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_6,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C44++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_6,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C40++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_6,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C3C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_6,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2C38++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_6,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_6,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_7"
width 24.
group.long 0x40E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_7,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x40F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_7,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x40FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_7,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x2E1C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_7,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2E18++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_7,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_7,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x11C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_7,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x25C++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_7,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x40EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_7,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x2E0C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_7,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E08++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_7,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E2C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_7,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E28++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_7,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E24++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_7,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2E20++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_7,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E34++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_7,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E30++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_7,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E04++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_7,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2E00++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_7,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E14++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_7,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E10++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_7,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E74++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_7,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2E70++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_7,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2E5C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_7,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2E58++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_7,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2E54++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_7,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2E50++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_7,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2E64++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_7,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2E60++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_7,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2E78++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_7,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x2E6C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_7,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2E68++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_7,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x40F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_7,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x82C++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_7,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x40E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_7,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x21C++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_7,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2E88++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_7,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E84++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_7,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E8C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_7,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E80++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_7,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x39C++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_7,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2E94++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_7,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E90++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_7,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E44++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_7,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E40++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_7,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E3C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_7,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2E38++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_7,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_7,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_8"
width 23.
group.long 0x4108++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_8,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4110++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_8,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x411C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_8,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4118++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_8,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x120++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_8,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x410C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_8,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4114++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_8,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4100++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_8,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4104++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_8,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_9"
width 23.
group.long 0x4128++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_9,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4130++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_9,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x413C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_9,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4138++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_9,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x124++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_9,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x412C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_9,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4134++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_9,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4120++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_9,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4124++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_9,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_10"
width 24.
group.long 0x4148++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_10,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4150++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_10,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x415C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_10,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4158++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_10,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x128++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_10,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x414C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_10,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4154++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_10,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4140++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_10,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4144++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_10,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_11"
width 24.
group.long 0x4168++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_11,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4170++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_11,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x417C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_11,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4178++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_11,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x12C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_11,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x416C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_11,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4174++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_11,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4160++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_11,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4164++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_11,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_12"
width 24.
group.long 0x4188++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_12,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4190++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_12,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x419C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_12,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4198++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_12,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x130++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_12,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x418C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_12,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4194++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_12,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4180++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_12,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4184++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_12,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_13"
width 24.
group.long 0x41A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_13,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x41B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_13,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x41BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_13,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x41B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_13,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x134++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_13,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x41AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_13,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x41B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_13,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x41A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_13,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x41A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_13,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_14"
width 24.
group.long 0x41C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_14,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x41D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_14,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x41DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_14,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x41D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_14,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x138++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_14,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x41CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_14,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x41D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_14,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x41C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_14,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x41C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_14,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_15"
width 24.
group.long 0x41E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_15,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x41F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_15,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x41FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_15,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x41F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_15,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x13C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_15,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x41EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_15,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x41F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_15,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x41E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_15,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x41E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_15,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_16"
width 22.
group.long 0x4208++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_16,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4210++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_16,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x421C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_16,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4218++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_16,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x420C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_16,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4214++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_16,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4200++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_16,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4204++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_16,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_17"
width 22.
group.long 0x4228++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_17,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4230++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_17,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x423C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_17,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4238++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_17,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x422C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_17,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4234++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_17,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4220++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_17,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4224++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_17,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_18"
width 22.
group.long 0x4248++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_18,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4250++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_18,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x425C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_18,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4258++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_18,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x424C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_18,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4254++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_18,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4240++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_18,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4244++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_18,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_19"
width 22.
group.long 0x4268++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_19,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4270++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_19,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x427C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_19,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4278++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_19,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x426C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_19,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4274++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_19,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4260++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_19,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4264++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_19,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_20"
width 22.
group.long 0x4288++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_20,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4290++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_20,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x429C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_20,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4298++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_20,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x428C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_20,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4294++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_20,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4280++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_20,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4284++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_20,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_21"
width 22.
group.long 0x42A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_21,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x42B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_21,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x42BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_21,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x42B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_21,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x42AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_21,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x42B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_21,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x42A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_21,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x42A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_21,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_22"
width 22.
group.long 0x42C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_22,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x42D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_22,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x42DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_22,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x42D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_22,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x42CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_22,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x42D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_22,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x42C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_22,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x42C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_22,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_23"
width 22.
group.long 0x42E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_23,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x42F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_23,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x42FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_23,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x42F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_23,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x42EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_23,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x42F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_23,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x42E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_23,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x42E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_23,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_24"
width 22.
group.long 0x4308++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_24,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4310++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_24,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x431C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_24,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4318++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_24,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x430C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_24,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4314++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_24,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4300++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_24,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4304++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_24,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_25"
width 22.
group.long 0x4328++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_25,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4330++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_25,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x433C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_25,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4338++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_25,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x432C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_25,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4334++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_25,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4320++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_25,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4324++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_25,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_26"
width 22.
group.long 0x4348++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_26,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4350++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_26,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x435C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_26,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4358++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_26,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x434C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_26,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4354++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_26,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4340++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_26,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4344++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_26,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_27"
width 22.
group.long 0x4368++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_27,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4370++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_27,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x437C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_27,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4378++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_27,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x436C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_27,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4374++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_27,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4360++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_27,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4364++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_27,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_28"
width 22.
group.long 0x4388++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_28,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4390++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_28,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x439C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_28,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4398++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_28,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x438C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_28,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4394++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_28,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4380++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_28,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4384++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_28,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_29"
width 22.
group.long 0x43A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_29,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x43B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_29,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x43BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_29,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x43B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_29,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x43AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_29,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x43B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_29,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x43A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_29,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x43A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_29,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_30"
width 22.
group.long 0x43C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_30,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x43D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_30,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x43DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_30,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x43D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_30,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x43CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_30,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x43D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_30,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x43C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_30,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x43C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_30,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_31"
width 22.
group.long 0x43E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_31,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x43F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_31,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x43FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_31,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x43F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_31,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x43EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_31,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x43F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_31,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x43E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_31,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x43E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_31,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_32"
width 22.
group.long 0x4408++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_32,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4410++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_32,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x441C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_32,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4418++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_32,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x440C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_32,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4414++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_32,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4400++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_32,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4404++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_32,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_33"
width 22.
group.long 0x4428++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_33,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4430++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_33,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x443C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_33,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4438++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_33,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x442C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_33,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4434++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_33,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4420++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_33,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4424++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_33,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_34"
width 22.
group.long 0x4448++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_34,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4450++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_34,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x445C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_34,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4458++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_34,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x444C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_34,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4454++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_34,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4440++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_34,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4444++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_34,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_35"
width 22.
group.long 0x4468++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_35,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4470++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_35,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x447C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_35,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4478++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_35,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x446C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_35,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4474++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_35,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4460++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_35,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4464++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_35,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_36"
width 22.
group.long 0x4488++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_36,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4490++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_36,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x449C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_36,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4498++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_36,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x448C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_36,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4494++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_36,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4480++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_36,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4484++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_36,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_37"
width 22.
group.long 0x44A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_37,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x44B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_37,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x44BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_37,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x44B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_37,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x44AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_37,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x44B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_37,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x44A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_37,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x44A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_37,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_38"
width 22.
group.long 0x44C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_38,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x44D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_38,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x44DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_38,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x44D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_38,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x44CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_38,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x44D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_38,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x44C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_38,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x44C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_38,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_39"
width 22.
group.long 0x44E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_39,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x44F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_39,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x44FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_39,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x44F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_39,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x44EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_39,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x44F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_39,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x44E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_39,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x44E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_39,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_40"
width 22.
group.long 0x4508++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_40,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4510++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_40,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x451C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_40,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4518++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_40,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x450C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_40,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4514++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_40,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4500++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_40,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4504++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_40,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_41"
width 22.
group.long 0x4528++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_41,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4530++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_41,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x453C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_41,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4538++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_41,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x452C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_41,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4534++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_41,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4520++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_41,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4524++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_41,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_42"
width 22.
group.long 0x4548++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_42,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4550++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_42,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x455C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_42,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4558++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_42,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x454C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_42,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4554++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_42,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4540++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_42,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4544++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_42,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_43"
width 22.
group.long 0x4568++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_43,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4570++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_43,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x457C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_43,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4578++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_43,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x456C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_43,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4574++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_43,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4560++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_43,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4564++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_43,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_44"
width 22.
group.long 0x4588++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_44,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4590++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_44,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x459C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_44,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4598++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_44,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x458C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_44,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4594++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_44,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4580++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_44,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4584++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_44,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_45"
width 22.
group.long 0x45A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_45,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x45B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_45,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x45BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_45,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x45B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_45,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x45AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_45,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x45B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_45,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x45A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_45,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x45A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_45,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_46"
width 22.
group.long 0x45C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_46,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x45D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_46,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x45DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_46,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x45D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_46,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x45CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_46,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x45D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_46,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x45C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_46,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x45C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_46,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_47"
width 22.
group.long 0x45E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_47,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x45F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_47,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x45FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_47,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x45F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_47,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x45EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_47,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x45F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_47,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x45E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_47,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x45E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_47,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_48"
width 22.
group.long 0x4608++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_48,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4610++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_48,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x461C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_48,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4618++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_48,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x460C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_48,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4614++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_48,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4600++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_48,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4604++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_48,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_49"
width 22.
group.long 0x4628++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_49,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4630++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_49,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x463C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_49,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4638++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_49,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x462C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_49,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4634++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_49,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4620++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_49,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4624++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_49,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_50"
width 22.
group.long 0x4648++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_50,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4650++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_50,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x465C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_50,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4658++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_50,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x464C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_50,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4654++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_50,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4640++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_50,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4644++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_50,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_51"
width 22.
group.long 0x4668++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_51,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4670++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_51,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x467C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_51,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4678++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_51,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x466C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_51,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4674++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_51,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4660++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_51,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4664++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_51,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_52"
width 22.
group.long 0x4688++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_52,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4690++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_52,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x469C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_52,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4698++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_52,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x468C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_52,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4694++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_52,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4680++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_52,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4684++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_52,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_53"
width 22.
group.long 0x46A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_53,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x46B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_53,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x46BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_53,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x46B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_53,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x46AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_53,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x46B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_53,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x46A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_53,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x46A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_53,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_54"
width 22.
group.long 0x46C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_54,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x46D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_54,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x46DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_54,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x46D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_54,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x46CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_54,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x46D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_54,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x46C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_54,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x46C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_54,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_55"
width 22.
group.long 0x46E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_55,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x46F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_55,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x46FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_55,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x46F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_55,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x46EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_55,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x46F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_55,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x46E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_55,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x46E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_55,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_56"
width 22.
group.long 0x4708++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_56,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4710++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_56,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x471C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_56,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4718++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_56,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x470C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_56,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4714++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_56,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4700++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_56,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4704++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_56,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_57"
width 22.
group.long 0x4728++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_57,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4730++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_57,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x473C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_57,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4738++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_57,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x472C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_57,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4734++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_57,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4720++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_57,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4724++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_57,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_58"
width 22.
group.long 0x4748++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_58,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4750++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_58,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x475C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_58,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4758++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_58,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x474C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_58,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4754++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_58,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4740++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_58,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4744++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_58,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_59"
width 22.
group.long 0x4768++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_59,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4770++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_59,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x477C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_59,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4778++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_59,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x476C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_59,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4774++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_59,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4760++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_59,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4764++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_59,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_60"
width 22.
group.long 0x4788++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_60,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4790++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_60,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x479C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_60,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4798++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_60,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x478C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_60,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4794++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_60,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4780++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_60,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4784++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_60,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_61"
width 22.
group.long 0x47A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_61,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x47B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_61,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x47BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_61,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x47B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_61,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x47AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_61,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x47B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_61,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x47A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_61,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x47A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_61,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_62"
width 22.
group.long 0x47C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_62,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x47D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_62,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x47DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_62,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x47D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_62,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x47CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_62,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x47D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_62,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x47C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_62,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x47C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_62,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_63"
width 22.
group.long 0x47E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_63,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x47F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_63,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x47FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_63,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x47F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_63,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x47EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_63,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x47F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_63,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x47E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_63,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x47E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_63,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_64"
width 22.
group.long 0x4808++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_64,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4810++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_64,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x481C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_64,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4818++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_64,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x480C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_64,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4814++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_64,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4800++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_64,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4804++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_64,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_65"
width 22.
group.long 0x4828++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_65,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4830++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_65,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x483C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_65,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4838++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_65,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x482C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_65,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4834++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_65,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4820++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_65,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4824++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_65,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_66"
width 22.
group.long 0x4848++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_66,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4850++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_66,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x485C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_66,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4858++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_66,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x484C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_66,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4854++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_66,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4840++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_66,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4844++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_66,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_67"
width 22.
group.long 0x4868++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_67,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4870++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_67,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x487C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_67,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4878++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_67,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x486C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_67,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4874++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_67,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4860++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_67,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4864++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_67,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_68"
width 22.
group.long 0x4888++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_68,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4890++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_68,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x489C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_68,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4898++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_68,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x488C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_68,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4894++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_68,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4880++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_68,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4884++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_68,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_69"
width 22.
group.long 0x48A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_69,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x48B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_69,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x48BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_69,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x48B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_69,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x48AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_69,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x48B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_69,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x48A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_69,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x48A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_69,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_70"
width 22.
group.long 0x48C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_70,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x48D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_70,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x48DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_70,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x48D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_70,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x48CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_70,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x48D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_70,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x48C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_70,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x48C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_70,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_71"
width 22.
group.long 0x48E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_71,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x48F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_71,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x48FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_71,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x48F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_71,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x48EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_71,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x48F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_71,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x48E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_71,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x48E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_71,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_72"
width 22.
group.long 0x4908++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_72,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4910++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_72,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x491C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_72,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4918++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_72,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x490C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_72,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4914++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_72,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4900++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_72,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4904++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_72,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_73"
width 22.
group.long 0x4928++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_73,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4930++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_73,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x493C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_73,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4938++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_73,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x492C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_73,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4934++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_73,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4920++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_73,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4924++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_73,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_74"
width 22.
group.long 0x4948++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_74,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4950++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_74,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x495C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_74,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4958++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_74,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x494C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_74,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4954++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_74,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4940++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_74,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4944++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_74,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_75"
width 22.
group.long 0x4968++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_75,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4970++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_75,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x497C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_75,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4978++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_75,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x496C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_75,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4974++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_75,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4960++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_75,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4964++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_75,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_76"
width 22.
group.long 0x4988++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_76,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4990++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_76,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x499C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_76,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4998++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_76,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x498C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_76,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4994++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_76,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4980++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_76,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4984++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_76,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_77"
width 22.
group.long 0x49A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_77,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x49B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_77,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x49BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_77,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x49B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_77,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x49AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_77,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x49B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_77,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x49A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_77,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x49A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_77,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_78"
width 22.
group.long 0x49C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_78,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x49D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_78,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x49DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_78,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x49D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_78,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x49CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_78,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x49D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_78,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x49C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_78,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x49C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_78,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_79"
width 22.
group.long 0x49E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_79,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x49F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_79,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x49FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_79,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x49F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_79,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x49EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_79,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x49F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_79,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x49E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_79,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x49E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_79,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_80"
width 22.
group.long 0x4A08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_80,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_80,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_80,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_80,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_80,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_80,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_80,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_80,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_81"
width 22.
group.long 0x4A28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_81,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_81,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_81,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_81,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_81,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_81,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_81,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_81,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_82"
width 22.
group.long 0x4A48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_82,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_82,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_82,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_82,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_82,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_82,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_82,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_82,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_83"
width 22.
group.long 0x4A68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_83,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_83,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_83,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_83,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_83,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_83,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_83,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_83,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_84"
width 22.
group.long 0x4A88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_84,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_84,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_84,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_84,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_84,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_84,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_84,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_84,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_85"
width 22.
group.long 0x4AA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_85,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4AB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_85,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4ABC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_85,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4AB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_85,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4AAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_85,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4AB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_85,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4AA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_85,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4AA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_85,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_86"
width 22.
group.long 0x4AC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_86,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4AD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_86,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4ADC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_86,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4AD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_86,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4ACC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_86,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4AD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_86,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4AC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_86,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4AC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_86,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_87"
width 22.
group.long 0x4AE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_87,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4AF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_87,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4AFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_87,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4AF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_87,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4AEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_87,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4AF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_87,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4AE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_87,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4AE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_87,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_88"
width 22.
group.long 0x4B08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_88,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_88,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_88,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_88,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_88,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_88,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_88,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_88,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_89"
width 22.
group.long 0x4B28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_89,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_89,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_89,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_89,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_89,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_89,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_89,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_89,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_90"
width 22.
group.long 0x4B48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_90,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_90,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_90,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_90,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_90,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_90,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_90,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_90,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_91"
width 22.
group.long 0x4B68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_91,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_91,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_91,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_91,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_91,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_91,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_91,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_91,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_92"
width 22.
group.long 0x4B88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_92,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_92,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_92,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_92,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_92,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_92,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_92,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_92,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_93"
width 22.
group.long 0x4BA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_93,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4BB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_93,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4BBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_93,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4BB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_93,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4BAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_93,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4BB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_93,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4BA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_93,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4BA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_93,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_94"
width 22.
group.long 0x4BC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_94,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4BD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_94,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4BDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_94,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4BD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_94,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4BCC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_94,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4BD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_94,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4BC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_94,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4BC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_94,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_95"
width 22.
group.long 0x4BE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_95,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4BF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_95,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4BFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_95,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4BF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_95,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4BEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_95,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4BF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_95,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4BE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_95,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4BE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_95,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_96"
width 22.
group.long 0x4C08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_96,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_96,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_96,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_96,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_96,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_96,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_96,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_96,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_97"
width 22.
group.long 0x4C28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_97,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_97,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_97,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_97,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_97,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_97,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_97,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_97,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_98"
width 22.
group.long 0x4C48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_98,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_98,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_98,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_98,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_98,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_98,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_98,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_98,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_99"
width 22.
group.long 0x4C68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_99,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_99,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_99,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_99,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_99,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_99,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_99,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_99,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_100"
width 23.
group.long 0x4C88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_100,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_100,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_100,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_100,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_100,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_100,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_100,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_100,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_101"
width 23.
group.long 0x4CA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_101,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4CB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_101,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4CBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_101,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4CB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_101,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4CAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_101,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4CB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_101,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4CA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_101,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4CA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_101,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_102"
width 23.
group.long 0x4CC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_102,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4CD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_102,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4CDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_102,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4CD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_102,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4CCC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_102,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4CD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_102,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4CC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_102,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4CC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_102,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_103"
width 23.
group.long 0x4CE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_103,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4CF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_103,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4CFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_103,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4CF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_103,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4CEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_103,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4CF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_103,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4CE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_103,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4CE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_103,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_104"
width 23.
group.long 0x4D08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_104,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_104,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_104,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_104,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_104,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_104,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_104,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_104,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_105"
width 23.
group.long 0x4D28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_105,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_105,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_105,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_105,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_105,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_105,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_105,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_105,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_106"
width 23.
group.long 0x4D48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_106,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_106,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_106,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_106,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_106,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_106,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_106,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_106,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_107"
width 23.
group.long 0x4D68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_107,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_107,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_107,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_107,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_107,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_107,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_107,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_107,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_108"
width 23.
group.long 0x4D88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_108,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_108,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_108,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_108,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_108,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_108,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_108,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_108,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_109"
width 23.
group.long 0x4DA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_109,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4DB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_109,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4DBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_109,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4DB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_109,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4DAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_109,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4DB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_109,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4DA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_109,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4DA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_109,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_110"
width 23.
group.long 0x4DC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_110,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4DD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_110,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4DDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_110,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4DD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_110,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4DCC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_110,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4DD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_110,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4DC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_110,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4DC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_110,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_111"
width 23.
group.long 0x4DE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_111,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4DF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_111,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4DFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_111,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4DF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_111,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4DEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_111,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4DF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_111,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4DE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_111,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4DE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_111,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_112"
width 23.
group.long 0x4E08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_112,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_112,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_112,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_112,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_112,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_112,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_112,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_112,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_113"
width 23.
group.long 0x4E28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_113,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_113,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_113,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_113,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_113,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_113,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_113,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_113,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_114"
width 23.
group.long 0x4E48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_114,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_114,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_114,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_114,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_114,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_114,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_114,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_114,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_115"
width 23.
group.long 0x4E68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_115,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_115,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_115,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_115,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_115,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_115,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_115,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_115,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_116"
width 23.
group.long 0x4E88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_116,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_116,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_116,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_116,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_116,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_116,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_116,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_116,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_117"
width 23.
group.long 0x4EA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_117,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4EB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_117,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4EBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_117,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4EB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_117,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4EAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_117,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4EB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_117,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4EA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_117,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4EA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_117,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_118"
width 23.
group.long 0x4EC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_118,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4ED0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_118,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4EDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_118,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4ED8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_118,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4ECC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_118,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4ED4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_118,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4EC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_118,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4EC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_118,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_119"
width 23.
group.long 0x4EE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_119,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4EF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_119,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4EFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_119,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4EF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_119,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4EEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_119,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4EF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_119,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4EE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_119,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4EE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_119,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_120"
width 23.
group.long 0x4F08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_120,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_120,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_120,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_120,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_120,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_120,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_120,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_120,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_121"
width 23.
group.long 0x4F28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_121,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_121,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_121,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_121,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_121,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_121,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_121,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_121,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_122"
width 23.
group.long 0x4F48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_122,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_122,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_122,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_122,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_122,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_122,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_122,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_122,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_123"
width 23.
group.long 0x4F68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_123,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_123,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_123,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_123,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_123,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_123,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_123,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_123,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_124"
width 23.
group.long 0x4F88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_124,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_124,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_124,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_124,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_124,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_124,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_124,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_124,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_125"
width 23.
group.long 0x4FA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_125,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4FB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_125,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4FBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_125,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4FB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_125,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4FAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_125,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4FB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_125,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4FA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_125,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4FA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_125,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_126"
width 23.
group.long 0x4FC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_126,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4FD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_126,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4FDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_126,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4FD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_126,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4FCC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_126,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4FD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_126,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4FC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_126,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4FC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_126,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_127"
width 23.
group.long 0x4FE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_127,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4FF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_127,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4FFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_127,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4FF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_127,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4FEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_127,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4FF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_127,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4FE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_127,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4FE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_127,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
textline ""
width 20.
rgroup.long 0x0++0x3
line.long 0x00 "EDMA_TPCC_PID,Peripheral ID Register"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP revision"
rgroup.long 0x4++0x3
line.long 0x00 "EDMA_TPCC_CCCFG,CC Configuration Register"
bitfld.long 0x00 25. " MPEXIST   ,Memory Protection Existence - . - ." "No_mMemory_protection,1"
bitfld.long 0x00 24. "  CHMAPEXIST ,Channel Mapping Existence - . - ." "No_Channel_mapping.,1"
bitfld.long 0x00 20.--21. "  NUMREGN  ,Number of MP and Shadow regions" "0,1,2,3"
textline "                             "
bitfld.long 0x00 16.--18. " NUMTC     ,Number of Queues/Number of TCs" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                      NUMPAENTRY ,Number of PaRAM entries" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "                    NUMINTCH ,Number of Interrupt Channels" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 4.--6. " NUMQDMACH ,Number of QDMA Channels" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                      NUMDMACH   ,Number of DMA Channels" "0,1,2,3,4,5,6,7"
group.long 0xFC++0x3
line.long 0x00 "EDMA_TPCC_CLKGDIS,Auto Clock Gate Disable"
bitfld.long 0x00 0. " CLKGDIS   ,Auto Clock Gate Disable" "0,1"
group.long 0x260++0x3
line.long 0x00 "EDMA_TPCC_QDMAQNUM,QDMA Queue Number Register Contains the Event queue number to be used for the corresponding QDMA Channel."
bitfld.long 0x00 28.--30. " E7        ,QDMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                      E6         ,QDMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "                    E5       ,QDMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 16.--18. " E4        ,QDMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                      E3         ,QDMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "                    E2       ,QDMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 4.--6. " E1        ,QDMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                      E0         ,QDMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x280++0x3
line.long 0x00 "EDMA_TPCC_QUETCMAP,Queue to TC Mapping"
bitfld.long 0x00 4.--6. " TCNUMQ1   ,TC Number for Queue N: Defines the TC number that Event Queue N TRs are written to." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                      TCNUMQ0    ,TC Number for Queue N: Defines the TC number that Event Queue N TRs are written to." "0,1,2,3,4,5,6,7"
group.long 0x284++0x3
line.long 0x00 "EDMA_TPCC_QUEPRI,Queue Priority"
bitfld.long 0x00 4.--6. " PRIQ1     ,Priority Level for Queue 1 Dictates the priority level used for the OPTIONS field programmation for Qn TRs. Sets the priority used for TC read and write commands." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                      PRIQ0      ,Priority Level for Queue 0 Dictates the priority level used for the OPTIONS field programmation for Qn TRs. Sets the priority used for TC read and write commands." "0,1,2,3,4,5,6,7"
rgroup.long 0x300++0x3
line.long 0x00 "EDMA_TPCC_EMR,Event Missed Register: The Event Missed register is set if 2 events are received without the first event being cleared or if a Null TR is serviced. Chained events (CER), Set Events (ESR), and normal events (ER) are treated individually. I..."
bitfld.long 0x00 31. " E31       ,Event Missed #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event Missed #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event Missed #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event Missed #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event Missed #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event Missed #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event Missed #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event Missed #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event Missed #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event Missed #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event Missed #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event Missed #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event Missed #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event Missed #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event Missed #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event Missed #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event Missed #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event Missed #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event Missed #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event Missed #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event Missed #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event Missed #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event Missed #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event Missed #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event Missed #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event Missed #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event Missed #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event Missed #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event Missed #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event Missed #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event Missed #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event Missed #0" "0,1"
rgroup.long 0x304++0x3
line.long 0x00 "EDMA_TPCC_EMRH,Event Missed Register (High Part): The Event Missed register is set if 2 events are received without the first event being cleared or if a Null TR is serviced. Chained events (CER), Set Events (ESR), and normal events (ER) are treated in..."
bitfld.long 0x00 31. " E63       ,Event Missed #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event Missed #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event Missed #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event Missed #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event Missed #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event Missed #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event Missed #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event Missed #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event Missed #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event Missed #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event Missed #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event Missed #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event Missed #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event Missed #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event Missed #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event Missed #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event Missed #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event Missed #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event Missed #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event Missed #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event Missed #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event Missed #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event Missed #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event Missed #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event Missed #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event Missed #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event Missed #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event Missed #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event Missed #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event Missed #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event Missed #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event Missed #32" "0,1"
wgroup.long 0x308++0x3
line.long 0x00 "EDMA_TPCC_EMCR,Event Missed Clear Register: CPU write of '1' to the.En bit causes the .En bit to be cleared. CPU write of '0' has no effect.. All error bits must be cleared before additional error interrupts will be asserted by CC."
bitfld.long 0x00 31. " E31       ,Event Missed Clear #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event Missed Clear #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event Missed Clear #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event Missed Clear #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event Missed Clear #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event Missed Clear #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event Missed Clear #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event Missed Clear #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event Missed Clear #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event Missed Clear #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event Missed Clear #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event Missed Clear #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event Missed Clear #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event Missed Clear #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event Missed Clear #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event Missed Clear #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event Missed Clear #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event Missed Clear #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event Missed Clear #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event Missed Clear #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event Missed Clear #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event Missed Clear #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event Missed Clear #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event Missed Clear #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event Missed Clear #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event Missed Clear #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event Missed Clear #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event Missed Clear #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event Missed Clear #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event Missed Clear #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event Missed Clear #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event Missed Clear #0" "0,1"
wgroup.long 0x30C++0x3
line.long 0x00 "EDMA_TPCC_EMCRH,Event Missed Clear Register (High Part): CPU write of '1' to the.En bit causes the .En bit to be cleared. CPU write of '0' has no effect. All error bits must be cleared before additional error interrupts will be asserted by CC."
bitfld.long 0x00 31. " E63       ,Event Missed Clear #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event Missed Clear #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event Missed Clear #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event Missed Clear #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event Missed Clear #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event Missed Clear #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event Missed Clear #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event Missed Clear #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event Missed Clear #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event Missed Clear #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event Missed Clear #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event Missed Clear #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event Missed Clear #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event Missed Clear #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event Missed Clear #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event Missed Clear #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event Missed Clear #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event Missed Clear #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event Missed Clear #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event Missed Clear #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event Missed Clear #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event Missed Clear #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event Missed Clear #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event Missed Clear #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event Missed Clear #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event Missed Clear #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event Missed Clear #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event Missed Clear #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event Missed Clear #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event Missed Clear #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event Missed Clear #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event Missed Clear #32" "0,1"
rgroup.long 0x310++0x3
line.long 0x00 "EDMA_TPCC_QEMR,QDMA Event Missed Register: The QDMA Event Missed register is set if 2 QDMA events are detected without the first event being cleared or if a Null TR is serviced. If any bit in the register is set (and all errors (including / ) were prev..."
bitfld.long 0x00 7. " E7        ,Event Missed #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event Missed #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event Missed #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event Missed #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event Missed #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event Missed #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event Missed #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event Missed #0" "0,1"
wgroup.long 0x314++0x3
line.long 0x00 "EDMA_TPCC_QEMCR,QDMA Event Missed Clear Register: CPU write of '1' to the.En bit causes the .En bit to be cleared. CPU write of '0' has no effect. All error bits must be cleared before additional error interrupts will be asserted by CC."
bitfld.long 0x00 7. " E7        ,Event Missed Clear #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event Missed Clear #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event Missed Clear #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event Missed Clear #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event Missed Clear #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event Missed Clear #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event Missed Clear #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event Missed Clear #0" "0,1"
rgroup.long 0x318++0x3
line.long 0x00 "EDMA_TPCC_CCERR,CC Error Register"
bitfld.long 0x00 16. " TCERR     ,Transfer Completion Code Error - . - . - TCERR can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors were previously clear), then an error will be signaled with TPCC error interr..." "0,1"
bitfld.long 0x00 7. "                      QTHRXCD7   ,Queue Threshold Error for Q7 - . - . - QTHRXCD7 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error wi..." "0,1"
bitfld.long 0x00 6. "                    QTHRXCD6 ,Queue Threshold Error for Q6 - . - . - QTHRXCD6 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will b..." "0,1"
textline "                             "
bitfld.long 0x00 5. " QTHRXCD5  ,Queue Threshold Error for Q5 - . - . - QTHRXCD5 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will be signaled with th..." "0,1"
bitfld.long 0x00 4. "                      QTHRXCD4   ,Queue Threshold Error for Q4 - . - . - QTHRXCD4 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error wi..." "0,1"
bitfld.long 0x00 3. "                    QTHRXCD3 ,Queue Threshold Error for Q3 - . - . - QTHRXCD3 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will b..." "0,1"
textline "                             "
bitfld.long 0x00 2. " QTHRXCD2  ,Queue Threshold Error for Q2 - . - . - QTHRXCD2 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will be signaled with th..." "0,1"
bitfld.long 0x00 1. "                      QTHRXCD1   ,Queue Threshold Error for Q1 - . - . - QTHRXCD1 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error wi..." "0,1"
bitfld.long 0x00 0. "                    QTHRXCD0 ,Queue Threshold Error for Q0: - . - . - QTHRXCD0 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will ..." "0,1"
wgroup.long 0x31C++0x3
line.long 0x00 "EDMA_TPCC_CCERRCLR,CC Error Clear Register"
bitfld.long 0x00 16. " TCERR     ,Clear Error forEDMA_TPCC_CCERR[16] TR. - Write 0x1 to clear the value of[16] TCERR. . - . - Write 0x0 have no affect. . - ." "0,1"
bitfld.long 0x00 7. "                      QTHRXCD7   ,Clear error forEDMA_TPCC_CCERR[7]QTHRXCD7 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT7.WM, QSTAT7.THRXCD,[7] QTHRXCD7 . - ." "0,1"
bitfld.long 0x00 6. "                    QTHRXCD6 ,Clear error forEDMA_TPCC_CCERR[6] QTHRXCD6 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT6.WM, QSTAT6.THRXCD,[6]QTHRXCD6 . - ." "0,1"
textline "                             "
bitfld.long 0x00 5. " QTHRXCD5  ,Clear error forEDMA_TPCC_CCERR[5] QTHRXCD5 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT5.WM, QSTAT5.THRXCD,[5]QTHRXCD5 . - ." "0,1"
bitfld.long 0x00 4. "                      QTHRXCD4   ,Clear error forEDMA_TPCC_CCERR[4] QTHRXCD4: - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT4.WM, QSTAT4.THRXCD,[4] QTHRXCD4 . - ." "0,1"
bitfld.long 0x00 3. "                    QTHRXCD3 ,Clear error forEDMA_TPCC_CCERR[3] QTHRXCD3 - Write 0x1 to clear the values of QSTAT3.WM, QSTAT3.THRXCD,[3] QTHRXCD3 . - . - Write 0x0 have no affect. . - ." "0,1"
textline "                             "
bitfld.long 0x00 2. " QTHRXCD2  ,Clear error forEDMA_TPCC_CCERR[2] QTHRXCD2 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT2.WM, QSTAT2.THRXCD,[2] QTHRXCD2 . - ." "0,1"
bitfld.long 0x00 1. "                      QTHRXCD1   ,Clear error forEDMA_TPCC_CCERR[1] QTHRXCD1 - Write 0x1 to clear the values of QSTAT1.WM, QSTAT1.THRXCD,[1] QTHRXCD1 . - . - Write 0x0 have no affect. . - ." "0,1"
bitfld.long 0x00 0. "                    QTHRXCD0 ,Clear error forEDMA_TPCC_CCERR[0] QTHRXCD0 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT0.WM, QSTAT0.THRXCD,[0] QTHRXCD0 . - ." "0,1"
wgroup.long 0x320++0x3
line.long 0x00 "EDMA_TPCC_EEVAL,Error Eval Register"
bitfld.long 0x00 1. " SET       ,Error Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SET bit causes the TPCC error interrupt to be pulsed regardless of state of/, , or . . - ." "0,1"
bitfld.long 0x00 0. "                      EVAL       ,Error Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVAL bit causes the TPCC error interrupt to be pulsed if any errors have not been cleared in the/, , or registers. The CPU must als..." "0,1"
group.long 0x620++0x3
line.long 0x00 "EDMA_TPCC_QWMTHRA,Queue Threshold A, for Q[3:0]:.QTHRXCDn and QSTATn[24] THRXCD error bit is set when the number of Events in QueueN at an instant in time (visible via QSTATn[12:8] NUMVAL) equals or exceeds the value specified by .Qn. Legal values = 0x..."
bitfld.long 0x00 24.--28. " Q3        ,Queue Threshold for Q3 value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "                     Q2         ,Queue Threshold for Q2 value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "                   Q1       ,Queue Threshold for Q1 value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                             "
bitfld.long 0x00 0.--4. " Q0        ,Queue Threshold for Q0 value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x624++0x3
line.long 0x00 "EDMA_TPCC_QWMTHRB,Queue Threshold B, for Q[7:4]:.QTHRXCDn and QSTATn[24]THRXCD error bit is set when the number of Events in QueueN at an instant in time (visible via QSTATn[12:8] NUMVAL) equals or exceeds the value specified by QWMTHRB.Qn. Legal value..."
bitfld.long 0x00 24.--28. " Q7        ,Queue Threshold for Q7 value (unused in the context of IVAHD)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "                     Q6         ,Queue Threshold for Q6 value (unused in the context of IVAHD)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "                   Q5       ,Queue Threshold for Q5 value (unused in the context of IVAHD)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                             "
bitfld.long 0x00 0.--4. " Q4        ,Queue Threshold for Q4 value (unused in the context of IVAHD)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rgroup.long 0x640++0x3
line.long 0x00 "EDMA_TPCC_CCSTAT,CC Status Register"
bitfld.long 0x00 23. " QUEACTV7  ,Queue 7 Active - . - ." "0,1"
bitfld.long 0x00 22. "                      QUEACTV6   ,Queue 6 Active - . - ." "0,1"
bitfld.long 0x00 21. "                    QUEACTV5 ,Queue 5 Active - . - ." "0,1"
textline "                             "
bitfld.long 0x00 20. " QUEACTV4  ,Queue 4 Active - . - ." "0,1"
bitfld.long 0x00 19. "                      QUEACTV3   ,Queue 3 Active - . - ." "0,1"
bitfld.long 0x00 18. "                    QUEACTV2 ,Queue 2 Active QUEACTV2 = 0 : No Evts are queued in Q2. QUEACTV2 = 1 : At least one TR is queued in Q2. - . - ." "UNKN_MNEMO,UNKN_MNEMO"
textline "                             "
bitfld.long 0x00 17. " QUEACTV1  ,Queue 1 Active - . - ." "0,1"
bitfld.long 0x00 16. "                      QUEACTV0   ,Queue 0 Active - . - ." "0,1"
bitfld.long 0x00 8.--13. "                    COMPACTV ,Completion Request Active: Counter that tracks the total number of completion requests submitted to the TC. The counter increments when a TR is submitted with TCINTEN or TCCHEN set to '1'. The counter decrements for every ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                             "
bitfld.long 0x00 4. " ACTV      ,Channel Controller Active Channel Controller Active is a logical-OR of each of the *ACTV signals. The ACTV bit must remain high through the life of a: - . - ." "Channel_is_idle.,Channel_is_busy."
bitfld.long 0x00 2. "       TRACTV     ,Transfer Request Active TRACTV = 0 : Transfer Request processing/submission logic is inactive. TRACTV = 1 : Transfer Request processing/submission logic is active. - . - ." "UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 1. "           QEVTACTV ,QDMA Event Active - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0. " EVTACTV   ,DMA Event Active - . - ." "0,1"
group.long 0x700++0x3
line.long 0x00 "EDMA_TPCC_AETCTL,Advanced Event Trigger Control"
bitfld.long 0x00 31. " EN        ,AET Enable - . - ." "0,1"
bitfld.long 0x00 8.--13. "                      ENDINT     ,AET End Interrupt: Dictates the completion interrupt number that will force the tpcc_aet signal to be deasserted (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 6. "                   TYPE     ,AET Event Type - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0.--5. " STRTEVT   ,AET Start Event: Dictates the Event Number that will force the tpcc_aet signal to be asserted (high)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x704++0x3
line.long 0x00 "EDMA_TPCC_AETSTAT,Advanced Event Trigger Stat"
bitfld.long 0x00 0. " STAT      ,AET Status - . - ." "0,1"
wgroup.long 0x708++0x3
line.long 0x00 "EDMA_TPCC_AETCMD,AET Command"
bitfld.long 0x00 0. " CLR       ,AET Clear command - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the CLR bit causes the tpcc_aet output signal and[0]STAT register to be cleared. . - ." "0,1"
rgroup.long 0x800++0x3
line.long 0x00 "EDMA_TPCC_MPFAR,MMemory Protection Fault Address"
hexmask.long 0x00 0.--31. 1. " FADDR     ,Fault Address: 32-bit read-only status register containing the faulting address when a mMemory protection violation is detected. This register can only be cleared via theEDMA_TPCC_MPFCR."
rgroup.long 0x804++0x3
line.long 0x00 "EDMA_TPCC_MPFSR,Memory Protection Fault Status Register"
bitfld.long 0x00 9.--12. " FID       ,Faulted ID: FID register contains valid info if any of the MP error bits (UXE, UWE, URE, SXE, SWE, SRE) are non-zero (i.e., if an error has been detected.) The FID field contains the VBus PrivID for the specific request/requestor that resul..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 5. "                     SRE        ,Supervisor Read Error - . - ." "No_error_detected.,1"
bitfld.long 0x00 4. "   SWE      ,Supervisor Write Error - . - ." "No_error_detected.,1"
textline "                             "
bitfld.long 0x00 3. " SXE       ,Supervisor Execute Error - . - ." "No_error_detected.,1"
bitfld.long 0x00 2. "     URE        ,User Read Error - . - ." "No_error_detected.,1"
bitfld.long 0x00 1. "   UWE      ,User Write Error - . - ." "No_error_detected.,1"
textline "                             "
bitfld.long 0x00 0. " UXE       ,User Execute Error - . - ." "No_error_detected,1"
wgroup.long 0x808++0x3
line.long 0x00 "EDMA_TPCC_MPFCR,Memory Protection Fault Command Register"
bitfld.long 0x00 0. " MPFCLR    ,Fault Clear register - . - ." "has_no_effect,1"
group.long 0x80C++0x3
line.long 0x00 "EDMA_TPCC_MPPAG,Memory Protection Page Attribute for Global registers"
bitfld.long 0x00 15. " AID5      ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                      AID4       ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "                    AID3     ,Allowed ID 3 - . - ." "0,1"
textline "                             "
bitfld.long 0x00 12. " AID2      ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                      AID1       ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "                    AID0     ,Allowed ID 0 - . - ." "0,1"
textline "                             "
bitfld.long 0x00 9. " EXT       ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                      SR         ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "                    SW       ,Supervisor Write permission - . - ." "0,1"
textline "                             "
bitfld.long 0x00 3. " SX        ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                      UR         ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "                    UW       ,User Write permission - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0. " UX        ,User Execute permission - . - ." "0,1"
rgroup.long 0x1000++0x3
line.long 0x00 "EDMA_TPCC_ER,Event Register: If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive (low) ..."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x1004++0x3
line.long 0x00 "EDMA_TPCC_ERH,Event Register (High Part): If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from in..."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1008++0x3
line.long 0x00 "EDMA_TPCC_ECR,Event Clear Register: CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x100C++0x3
line.long 0x00 "EDMA_TPCC_ECRH,Event Clear Register (High Part): CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1010++0x3
line.long 0x00 "EDMA_TPCC_ESR,Event Set Register: CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1014++0x3
line.long 0x00 "EDMA_TPCC_ESRH,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
rgroup.long 0x1018++0x3
line.long 0x00 "EDMA_TPCC_CER,Chained Event Register: If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is returned fr..."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x101C++0x3
line.long 0x00 "EDMA_TPCC_CERH,Chained Event Register (High Part): If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code i..."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
rgroup.long 0x1020++0x3
line.long 0x00 "EDMA_TPCC_EER,Event Enable Register: Enables DMA transfers for.En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). Note that if a bit..."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x1024++0x3
line.long 0x00 "EDMA_TPCC_EERH,Event Enable Register (High Part): Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). Note..."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1028++0x3
line.long 0x00 "EDMA_TPCC_EECR,Event Enable Clear Register CPU writes of '1' to the .En bit causes the .En bit to be cleared. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x102C++0x3
line.long 0x00 "EDMA_TPCC_EECRH,Event Enable Clear Register (High Part) CPU writes of '1' to the .En bit causes the EERH.En bit to be cleared. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1030++0x3
line.long 0x00 "EDMA_TPCC_EESR,Event Enable Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1034++0x3
line.long 0x00 "EDMA_TPCC_EESRH,Event Enable Set Register (High Part) CPU writes of '1' to the .En bit causes the .En bit to be set. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
rgroup.long 0x1038++0x3
line.long 0x00 "EDMA_TPCC_SER,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored in Even..."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x103C++0x3
line.long 0x00 "EDMA_TPCC_SERH,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently s..."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1040++0x3
line.long 0x00 "EDMA_TPCC_SECR,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '1' to the .En bit clears the register. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1044++0x3
line.long 0x00 "EDMA_TPCC_SECRH,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '1' to the .En bit clears the register. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
rgroup.long 0x1050++0x3
line.long 0x00 "EDMA_TPCC_IER,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. . In = 0: .In is NOT enabled for interrupts. . In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x1054++0x3
line.long 0x00 "EDMA_TPCC_IERH,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. . In = 0: .In is NOT enabled for interrupts. . In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x1058++0x3
line.long 0x00 "EDMA_TPCC_IECR,Int Enable Clear Register CPU writes of '1' to the .In bit causes the .In bit to be cleared. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x105C++0x3
line.long 0x00 "EDMA_TPCC_IECRH,Int Enable Clear Register (High Part) CPU write of '1' to the .In bit causes the .In bit to be cleared. CPU write of '0' has no effect.."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x1060++0x3
line.long 0x00 "EDMA_TPCC_IESR,Int Enable Set Register CPU write of '1' to the .In bit causes the .In bit to be set. CPU write of '0' has no effect.."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x1064++0x3
line.long 0x00 "EDMA_TPCC_IESRH,Int Enable Set Register (High Part) CPU write of '1' to the .In bit causes the .In bit to be set. CPU write of '0' has no effect.."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x1068++0x3
line.long 0x00 "EDMA_TPCC_IPR,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x106C++0x3
line.long 0x00 "EDMA_TPCC_IPRH,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. . In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x1070++0x3
line.long 0x00 "EDMA_TPCC_ICR,Interrupt Clear Register CPU write of '1' to the .In bit causes the .In bit to be cleared. CPU write of '0' has no effect. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x1074++0x3
line.long 0x00 "EDMA_TPCC_ICRH,Interrupt Clear Register (High Part) CPU write of '1' to the .In bit causes the .In bit to be cleared. CPU write of '0' has no effect. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x1078++0x3
line.long 0x00 "EDMA_TPCC_IEVAL,Interrupt Eval Register"
bitfld.long 0x00 1. " SET       ,Interrupt Set: CPU write of '1' to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). CPU write of '0' has no effect." "0,1"
bitfld.long 0x00 0. "                      EVAL       ,Interrupt Evaluate: CPU write of '1' to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). CPU write of '0' has no effect." "0,1"
rgroup.long 0x1080++0x3
line.long 0x00 "EDMA_TPCC_QER,QDMA Event Register: If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .En bit ..."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x1084++0x3
line.long 0x00 "EDMA_TPCC_QEER,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. QDMA channels can be enabled via writes to and can be disabled via writes to register. .En = 1, The corresponding QDMA..."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1088++0x3
line.long 0x00 "EDMA_TPCC_QEECR,QDMA Event Enable Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect.."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x108C++0x3
line.long 0x00 "EDMA_TPCC_QEESR,QDMA Event Enable Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect.."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x1090++0x3
line.long 0x00 "EDMA_TPCC_QSER,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1094++0x3
line.long 0x00 "EDMA_TPCC_QSECR,QDMA Secondary Event Clear Register The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear the .En register). CPU write of '1' to..."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
width 0x0B
tree.end
tree.end
tree.open "DSP_EDMA_TPCC"
tree "DSP_EDMA_TPCC"
base ad:0x1D10000
tree "DMA_Channel_0"
width 24.
group.long 0x4008++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_0,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4010++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_0,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x401C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_0,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x201C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_0,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2018++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_0,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4018++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_0,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x100++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_0,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x240++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_0,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "      E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "      E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x344++0x3
line.long 0x00 "EDMA_TPCC_DRAEHM_k_0,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enable..."
bitfld.long 0x00 31. " E63     ,DMA Region Access enable for Region M, bit #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,DMA Region Access enable for Region M, bit #62" "0,1"
bitfld.long 0x00 29. "      E61     ,DMA Region Access enable for Region M, bit #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,DMA Region Access enable for Region M, bit #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,DMA Region Access enable for Region M, bit #59" "0,1"
bitfld.long 0x00 26. "      E58     ,DMA Region Access enable for Region M, bit #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,DMA Region Access enable for Region M, bit #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,DMA Region Access enable for Region M, bit #56" "0,1"
bitfld.long 0x00 23. "      E55     ,DMA Region Access enable for Region M, bit #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,DMA Region Access enable for Region M, bit #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,DMA Region Access enable for Region M, bit #53" "0,1"
bitfld.long 0x00 20. "      E52     ,DMA Region Access enable for Region M, bit #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,DMA Region Access enable for Region M, bit #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,DMA Region Access enable for Region M, bit #50" "0,1"
bitfld.long 0x00 17. "      E49     ,DMA Region Access enable for Region M, bit #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,DMA Region Access enable for Region M, bit #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,DMA Region Access enable for Region M, bit #47" "0,1"
bitfld.long 0x00 14. "      E46     ,DMA Region Access enable for Region M, bit #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,DMA Region Access enable for Region M, bit #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,DMA Region Access enable for Region M, bit #44" "0,1"
bitfld.long 0x00 11. "      E43     ,DMA Region Access enable for Region M, bit #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,DMA Region Access enable for Region M, bit #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,DMA Region Access enable for Region M, bit #41" "0,1"
bitfld.long 0x00 8. "      E40     ,DMA Region Access enable for Region M, bit #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,DMA Region Access enable for Region M, bit #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,DMA Region Access enable for Region M, bit #38" "0,1"
bitfld.long 0x00 5. "      E37     ,DMA Region Access enable for Region M, bit #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,DMA Region Access enable for Region M, bit #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,DMA Region Access enable for Region M, bit #35" "0,1"
bitfld.long 0x00 2. "      E34     ,DMA Region Access enable for Region M, bit #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,DMA Region Access enable for Region M, bit #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,DMA Region Access enable for Region M, bit #32" "0,1"
group.long 0x340++0x3
line.long 0x00 "EDMA_TPCC_DRAEM_k_0,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled..."
bitfld.long 0x00 31. " E31     ,DMA Region Access enable for Region M, bit #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,DMA Region Access enable for Region M, bit #30" "0,1"
bitfld.long 0x00 29. "      E29     ,DMA Region Access enable for Region M, bit #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,DMA Region Access enable for Region M, bit #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,DMA Region Access enable for Region M, bit #27" "0,1"
bitfld.long 0x00 26. "      E26     ,DMA Region Access enable for Region M, bit #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,DMA Region Access enable for Region M, bit #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,DMA Region Access enable for Region M, bit #24" "0,1"
bitfld.long 0x00 23. "      E23     ,DMA Region Access enable for Region M, bit #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,DMA Region Access enable for Region M, bit #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,DMA Region Access enable for Region M, bit #21" "0,1"
bitfld.long 0x00 20. "      E20     ,DMA Region Access enable for Region M, bit #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,DMA Region Access enable for Region M, bit #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,DMA Region Access enable for Region M, bit #18" "0,1"
bitfld.long 0x00 17. "      E17     ,DMA Region Access enable for Region M, bit #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,DMA Region Access enable for Region M, bit #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,DMA Region Access enable for Region M, bit #15" "0,1"
bitfld.long 0x00 14. "      E14     ,DMA Region Access enable for Region M, bit #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,DMA Region Access enable for Region M, bit #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,DMA Region Access enable for Region M, bit #12" "0,1"
bitfld.long 0x00 11. "      E11     ,DMA Region Access enable for Region M, bit #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,DMA Region Access enable for Region M, bit #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,DMA Region Access enable for Region M, bit #9" "0,1"
bitfld.long 0x00 8. "      E8      ,DMA Region Access enable for Region M, bit #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,DMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,DMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "      E5      ,DMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,DMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,DMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "      E2      ,DMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,DMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,DMA Region Access enable for Region M, bit #0" "0,1"
group.long 0x400C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_0,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x200C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_0,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2008++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_0,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x202C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_0,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2028++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_0,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2024++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_0,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2020++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_0,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2034++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_0,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2030++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_0,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2004++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_0,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2000++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_0,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2014++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_0,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2010++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_0,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2074++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_0,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2070++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_0,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x205C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_0,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2058++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_0,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2054++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_0,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2050++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_0,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2064++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_0,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2060++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_0,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2078++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_0,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x206C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_0,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2068++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_0,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4014++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_0,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x810++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_0,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "      AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "      AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission se..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "      SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "      UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4000++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_0,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "     ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "      TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "     TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "      SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x400++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_0,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x440++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_0,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x200++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_0,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2088++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_0,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2084++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_0,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x208C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_0,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2080++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_0,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x380++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_0,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "      E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "      E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2094++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_0,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2090++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_0,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x600++0x3
line.long 0x00 "EDMA_TPCC_QSTATN_i_0,QSTATn Register Set"
bitfld.long 0x00 24. " THRXCD  ,Threshold Exceeded - . - . - THRXCD is cleared via. WMCLRn bit. . - ." "0,1"
bitfld.long 0x00 16.--20. "                     WM       ,Watermark for Maximum Queue Usage: Watermark tracks the most entries that have been in QueueN since reset or since the last time that the watermark (WM) was cleared. QSTATn. WM is cleared via EDMA_TPCC_CCERR.WMCLRn bit. L..." "empty,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,full,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "  NUMVAL  ,Number of Valid Entries in QueueN: Represents the total number of entries residing in the Queue Manager FIFO at a given instant. Always enabled. Legal values: = 0x0 (empty) to 0x10 (full) - . - ." "empty,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,full,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                 "
bitfld.long 0x00 0.--3. " STRTPTR ,Start Pointer: Represents the offset to the head entry of QueueN, in units of *entries*. Always enabled. Legal values: - . - ." "0th_entry,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15th_entry"
wgroup.long 0x2044++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_0,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2040++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_0,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x203C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_0,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2038++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_0,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4004++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_0,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_1"
width 24.
group.long 0x4028++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_1,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4030++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_1,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x403C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_1,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x221C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_1,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2218++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_1,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4038++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_1,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x104++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_1,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x244++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_1,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "      E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "      E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x34C++0x3
line.long 0x00 "EDMA_TPCC_DRAEHM_k_1,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enable..."
bitfld.long 0x00 31. " E63     ,DMA Region Access enable for Region M, bit #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,DMA Region Access enable for Region M, bit #62" "0,1"
bitfld.long 0x00 29. "      E61     ,DMA Region Access enable for Region M, bit #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,DMA Region Access enable for Region M, bit #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,DMA Region Access enable for Region M, bit #59" "0,1"
bitfld.long 0x00 26. "      E58     ,DMA Region Access enable for Region M, bit #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,DMA Region Access enable for Region M, bit #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,DMA Region Access enable for Region M, bit #56" "0,1"
bitfld.long 0x00 23. "      E55     ,DMA Region Access enable for Region M, bit #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,DMA Region Access enable for Region M, bit #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,DMA Region Access enable for Region M, bit #53" "0,1"
bitfld.long 0x00 20. "      E52     ,DMA Region Access enable for Region M, bit #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,DMA Region Access enable for Region M, bit #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,DMA Region Access enable for Region M, bit #50" "0,1"
bitfld.long 0x00 17. "      E49     ,DMA Region Access enable for Region M, bit #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,DMA Region Access enable for Region M, bit #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,DMA Region Access enable for Region M, bit #47" "0,1"
bitfld.long 0x00 14. "      E46     ,DMA Region Access enable for Region M, bit #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,DMA Region Access enable for Region M, bit #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,DMA Region Access enable for Region M, bit #44" "0,1"
bitfld.long 0x00 11. "      E43     ,DMA Region Access enable for Region M, bit #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,DMA Region Access enable for Region M, bit #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,DMA Region Access enable for Region M, bit #41" "0,1"
bitfld.long 0x00 8. "      E40     ,DMA Region Access enable for Region M, bit #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,DMA Region Access enable for Region M, bit #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,DMA Region Access enable for Region M, bit #38" "0,1"
bitfld.long 0x00 5. "      E37     ,DMA Region Access enable for Region M, bit #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,DMA Region Access enable for Region M, bit #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,DMA Region Access enable for Region M, bit #35" "0,1"
bitfld.long 0x00 2. "      E34     ,DMA Region Access enable for Region M, bit #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,DMA Region Access enable for Region M, bit #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,DMA Region Access enable for Region M, bit #32" "0,1"
group.long 0x348++0x3
line.long 0x00 "EDMA_TPCC_DRAEM_k_1,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled..."
bitfld.long 0x00 31. " E31     ,DMA Region Access enable for Region M, bit #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,DMA Region Access enable for Region M, bit #30" "0,1"
bitfld.long 0x00 29. "      E29     ,DMA Region Access enable for Region M, bit #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,DMA Region Access enable for Region M, bit #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,DMA Region Access enable for Region M, bit #27" "0,1"
bitfld.long 0x00 26. "      E26     ,DMA Region Access enable for Region M, bit #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,DMA Region Access enable for Region M, bit #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,DMA Region Access enable for Region M, bit #24" "0,1"
bitfld.long 0x00 23. "      E23     ,DMA Region Access enable for Region M, bit #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,DMA Region Access enable for Region M, bit #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,DMA Region Access enable for Region M, bit #21" "0,1"
bitfld.long 0x00 20. "      E20     ,DMA Region Access enable for Region M, bit #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,DMA Region Access enable for Region M, bit #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,DMA Region Access enable for Region M, bit #18" "0,1"
bitfld.long 0x00 17. "      E17     ,DMA Region Access enable for Region M, bit #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,DMA Region Access enable for Region M, bit #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,DMA Region Access enable for Region M, bit #15" "0,1"
bitfld.long 0x00 14. "      E14     ,DMA Region Access enable for Region M, bit #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,DMA Region Access enable for Region M, bit #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,DMA Region Access enable for Region M, bit #12" "0,1"
bitfld.long 0x00 11. "      E11     ,DMA Region Access enable for Region M, bit #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,DMA Region Access enable for Region M, bit #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,DMA Region Access enable for Region M, bit #9" "0,1"
bitfld.long 0x00 8. "      E8      ,DMA Region Access enable for Region M, bit #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,DMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,DMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "      E5      ,DMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,DMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,DMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "      E2      ,DMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,DMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,DMA Region Access enable for Region M, bit #0" "0,1"
group.long 0x402C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_1,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x220C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_1,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2208++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_1,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x222C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_1,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2228++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_1,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2224++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_1,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2220++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_1,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2234++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_1,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2230++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_1,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2204++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_1,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2200++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_1,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2214++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_1,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2210++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_1,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2274++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_1,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2270++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_1,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x225C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_1,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2258++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_1,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2254++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_1,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2250++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_1,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2264++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_1,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2260++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_1,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2278++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_1,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x226C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_1,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2268++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_1,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4034++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_1,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x814++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_1,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "      AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "      AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission se..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "      SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "      UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4020++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_1,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "     ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "      TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "     TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "      SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x404++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_1,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x444++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_1,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x204++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_1,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2288++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_1,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2284++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_1,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x228C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_1,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2280++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_1,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x384++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_1,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "      E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "      E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2294++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_1,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2290++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_1,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x604++0x3
line.long 0x00 "EDMA_TPCC_QSTATN_i_1,QSTATn Register Set"
bitfld.long 0x00 24. " THRXCD  ,Threshold Exceeded - . - . - THRXCD is cleared via. WMCLRn bit. . - ." "0,1"
bitfld.long 0x00 16.--20. "                     WM       ,Watermark for Maximum Queue Usage: Watermark tracks the most entries that have been in QueueN since reset or since the last time that the watermark (WM) was cleared. QSTATn. WM is cleared via EDMA_TPCC_CCERR.WMCLRn bit. L..." "empty,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,full,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "  NUMVAL  ,Number of Valid Entries in QueueN: Represents the total number of entries residing in the Queue Manager FIFO at a given instant. Always enabled. Legal values: = 0x0 (empty) to 0x10 (full) - . - ." "empty,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,full,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                 "
bitfld.long 0x00 0.--3. " STRTPTR ,Start Pointer: Represents the offset to the head entry of QueueN, in units of *entries*. Always enabled. Legal values: - . - ." "0th_entry,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15th_entry"
wgroup.long 0x2244++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_1,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2240++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_1,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x223C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_1,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2238++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_1,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4024++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_1,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_2"
width 24.
group.long 0x4048++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_2,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4050++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_2,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x405C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_2,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x241C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_2,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2418++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_2,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4058++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_2,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x108++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_2,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x248++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_2,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x354++0x3
line.long 0x00 "EDMA_TPCC_DRAEHM_k_2,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enable..."
bitfld.long 0x00 31. " E63     ,DMA Region Access enable for Region M, bit #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,DMA Region Access enable for Region M, bit #62" "0,1"
bitfld.long 0x00 29. "     E61     ,DMA Region Access enable for Region M, bit #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,DMA Region Access enable for Region M, bit #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,DMA Region Access enable for Region M, bit #59" "0,1"
bitfld.long 0x00 26. "     E58     ,DMA Region Access enable for Region M, bit #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,DMA Region Access enable for Region M, bit #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,DMA Region Access enable for Region M, bit #56" "0,1"
bitfld.long 0x00 23. "     E55     ,DMA Region Access enable for Region M, bit #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,DMA Region Access enable for Region M, bit #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,DMA Region Access enable for Region M, bit #53" "0,1"
bitfld.long 0x00 20. "     E52     ,DMA Region Access enable for Region M, bit #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,DMA Region Access enable for Region M, bit #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,DMA Region Access enable for Region M, bit #50" "0,1"
bitfld.long 0x00 17. "     E49     ,DMA Region Access enable for Region M, bit #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,DMA Region Access enable for Region M, bit #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,DMA Region Access enable for Region M, bit #47" "0,1"
bitfld.long 0x00 14. "     E46     ,DMA Region Access enable for Region M, bit #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,DMA Region Access enable for Region M, bit #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,DMA Region Access enable for Region M, bit #44" "0,1"
bitfld.long 0x00 11. "     E43     ,DMA Region Access enable for Region M, bit #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,DMA Region Access enable for Region M, bit #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,DMA Region Access enable for Region M, bit #41" "0,1"
bitfld.long 0x00 8. "     E40     ,DMA Region Access enable for Region M, bit #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,DMA Region Access enable for Region M, bit #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,DMA Region Access enable for Region M, bit #38" "0,1"
bitfld.long 0x00 5. "     E37     ,DMA Region Access enable for Region M, bit #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,DMA Region Access enable for Region M, bit #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,DMA Region Access enable for Region M, bit #35" "0,1"
bitfld.long 0x00 2. "     E34     ,DMA Region Access enable for Region M, bit #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,DMA Region Access enable for Region M, bit #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,DMA Region Access enable for Region M, bit #32" "0,1"
group.long 0x350++0x3
line.long 0x00 "EDMA_TPCC_DRAEM_k_2,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled..."
bitfld.long 0x00 31. " E31     ,DMA Region Access enable for Region M, bit #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,DMA Region Access enable for Region M, bit #30" "0,1"
bitfld.long 0x00 29. "     E29     ,DMA Region Access enable for Region M, bit #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,DMA Region Access enable for Region M, bit #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,DMA Region Access enable for Region M, bit #27" "0,1"
bitfld.long 0x00 26. "     E26     ,DMA Region Access enable for Region M, bit #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,DMA Region Access enable for Region M, bit #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,DMA Region Access enable for Region M, bit #24" "0,1"
bitfld.long 0x00 23. "     E23     ,DMA Region Access enable for Region M, bit #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,DMA Region Access enable for Region M, bit #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,DMA Region Access enable for Region M, bit #21" "0,1"
bitfld.long 0x00 20. "     E20     ,DMA Region Access enable for Region M, bit #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,DMA Region Access enable for Region M, bit #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,DMA Region Access enable for Region M, bit #18" "0,1"
bitfld.long 0x00 17. "     E17     ,DMA Region Access enable for Region M, bit #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,DMA Region Access enable for Region M, bit #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,DMA Region Access enable for Region M, bit #15" "0,1"
bitfld.long 0x00 14. "     E14     ,DMA Region Access enable for Region M, bit #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,DMA Region Access enable for Region M, bit #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,DMA Region Access enable for Region M, bit #12" "0,1"
bitfld.long 0x00 11. "     E11     ,DMA Region Access enable for Region M, bit #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,DMA Region Access enable for Region M, bit #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,DMA Region Access enable for Region M, bit #9" "0,1"
bitfld.long 0x00 8. "     E8      ,DMA Region Access enable for Region M, bit #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,DMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,DMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,DMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,DMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,DMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,DMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,DMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,DMA Region Access enable for Region M, bit #0" "0,1"
group.long 0x404C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_2,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x240C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_2,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2408++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_2,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x242C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_2,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2428++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_2,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2424++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_2,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2420++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_2,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2434++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_2,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2430++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_2,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2404++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_2,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2400++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_2,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2414++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_2,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2410++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_2,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2474++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_2,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2470++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_2,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x245C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_2,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2458++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_2,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2454++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_2,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2450++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_2,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2464++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_2,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2460++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_2,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2478++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_2,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x246C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_2,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2468++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_2,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4054++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_2,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x818++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_2,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4040++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_2,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x408++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_2,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x448++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_2,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x208++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_2,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2488++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_2,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2484++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_2,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x248C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_2,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2480++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_2,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x388++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_2,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2494++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_2,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2490++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_2,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2444++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_2,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2440++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_2,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x243C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_2,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2438++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_2,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4044++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_2,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_3"
width 24.
group.long 0x4068++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_3,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4070++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_3,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x407C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_3,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x261C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_3,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2618++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_3,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4078++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_3,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x10C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_3,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x24C++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_3,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x35C++0x3
line.long 0x00 "EDMA_TPCC_DRAEHM_k_3,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enable..."
bitfld.long 0x00 31. " E63     ,DMA Region Access enable for Region M, bit #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,DMA Region Access enable for Region M, bit #62" "0,1"
bitfld.long 0x00 29. "     E61     ,DMA Region Access enable for Region M, bit #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,DMA Region Access enable for Region M, bit #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,DMA Region Access enable for Region M, bit #59" "0,1"
bitfld.long 0x00 26. "     E58     ,DMA Region Access enable for Region M, bit #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,DMA Region Access enable for Region M, bit #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,DMA Region Access enable for Region M, bit #56" "0,1"
bitfld.long 0x00 23. "     E55     ,DMA Region Access enable for Region M, bit #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,DMA Region Access enable for Region M, bit #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,DMA Region Access enable for Region M, bit #53" "0,1"
bitfld.long 0x00 20. "     E52     ,DMA Region Access enable for Region M, bit #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,DMA Region Access enable for Region M, bit #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,DMA Region Access enable for Region M, bit #50" "0,1"
bitfld.long 0x00 17. "     E49     ,DMA Region Access enable for Region M, bit #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,DMA Region Access enable for Region M, bit #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,DMA Region Access enable for Region M, bit #47" "0,1"
bitfld.long 0x00 14. "     E46     ,DMA Region Access enable for Region M, bit #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,DMA Region Access enable for Region M, bit #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,DMA Region Access enable for Region M, bit #44" "0,1"
bitfld.long 0x00 11. "     E43     ,DMA Region Access enable for Region M, bit #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,DMA Region Access enable for Region M, bit #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,DMA Region Access enable for Region M, bit #41" "0,1"
bitfld.long 0x00 8. "     E40     ,DMA Region Access enable for Region M, bit #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,DMA Region Access enable for Region M, bit #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,DMA Region Access enable for Region M, bit #38" "0,1"
bitfld.long 0x00 5. "     E37     ,DMA Region Access enable for Region M, bit #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,DMA Region Access enable for Region M, bit #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,DMA Region Access enable for Region M, bit #35" "0,1"
bitfld.long 0x00 2. "     E34     ,DMA Region Access enable for Region M, bit #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,DMA Region Access enable for Region M, bit #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,DMA Region Access enable for Region M, bit #32" "0,1"
group.long 0x358++0x3
line.long 0x00 "EDMA_TPCC_DRAEM_k_3,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled..."
bitfld.long 0x00 31. " E31     ,DMA Region Access enable for Region M, bit #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,DMA Region Access enable for Region M, bit #30" "0,1"
bitfld.long 0x00 29. "     E29     ,DMA Region Access enable for Region M, bit #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,DMA Region Access enable for Region M, bit #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,DMA Region Access enable for Region M, bit #27" "0,1"
bitfld.long 0x00 26. "     E26     ,DMA Region Access enable for Region M, bit #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,DMA Region Access enable for Region M, bit #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,DMA Region Access enable for Region M, bit #24" "0,1"
bitfld.long 0x00 23. "     E23     ,DMA Region Access enable for Region M, bit #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,DMA Region Access enable for Region M, bit #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,DMA Region Access enable for Region M, bit #21" "0,1"
bitfld.long 0x00 20. "     E20     ,DMA Region Access enable for Region M, bit #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,DMA Region Access enable for Region M, bit #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,DMA Region Access enable for Region M, bit #18" "0,1"
bitfld.long 0x00 17. "     E17     ,DMA Region Access enable for Region M, bit #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,DMA Region Access enable for Region M, bit #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,DMA Region Access enable for Region M, bit #15" "0,1"
bitfld.long 0x00 14. "     E14     ,DMA Region Access enable for Region M, bit #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,DMA Region Access enable for Region M, bit #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,DMA Region Access enable for Region M, bit #12" "0,1"
bitfld.long 0x00 11. "     E11     ,DMA Region Access enable for Region M, bit #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,DMA Region Access enable for Region M, bit #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,DMA Region Access enable for Region M, bit #9" "0,1"
bitfld.long 0x00 8. "     E8      ,DMA Region Access enable for Region M, bit #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,DMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,DMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,DMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,DMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,DMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,DMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,DMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,DMA Region Access enable for Region M, bit #0" "0,1"
group.long 0x406C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_3,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x260C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_3,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2608++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_3,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x262C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_3,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2628++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_3,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2624++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_3,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2620++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_3,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2634++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_3,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2630++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_3,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2604++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_3,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2600++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_3,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2614++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_3,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2610++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_3,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2674++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_3,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2670++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_3,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x265C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_3,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2658++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_3,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2654++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_3,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2650++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_3,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2664++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_3,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2660++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_3,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2678++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_3,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x266C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_3,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2668++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_3,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4074++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_3,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x81C++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_3,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4060++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_3,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x40C++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_3,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x44C++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_3,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x20C++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_3,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2688++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_3,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2684++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_3,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x268C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_3,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2680++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_3,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x38C++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_3,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2694++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_3,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2690++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_3,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2644++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_3,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2640++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_3,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x263C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_3,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2638++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_3,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4064++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_3,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_4"
width 24.
group.long 0x4088++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_4,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4090++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_4,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x409C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_4,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x281C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_4,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2818++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_4,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4098++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_4,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x110++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_4,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x250++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_4,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x364++0x3
line.long 0x00 "EDMA_TPCC_DRAEHM_k_4,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enable..."
bitfld.long 0x00 31. " E63     ,DMA Region Access enable for Region M, bit #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,DMA Region Access enable for Region M, bit #62" "0,1"
bitfld.long 0x00 29. "     E61     ,DMA Region Access enable for Region M, bit #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,DMA Region Access enable for Region M, bit #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,DMA Region Access enable for Region M, bit #59" "0,1"
bitfld.long 0x00 26. "     E58     ,DMA Region Access enable for Region M, bit #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,DMA Region Access enable for Region M, bit #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,DMA Region Access enable for Region M, bit #56" "0,1"
bitfld.long 0x00 23. "     E55     ,DMA Region Access enable for Region M, bit #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,DMA Region Access enable for Region M, bit #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,DMA Region Access enable for Region M, bit #53" "0,1"
bitfld.long 0x00 20. "     E52     ,DMA Region Access enable for Region M, bit #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,DMA Region Access enable for Region M, bit #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,DMA Region Access enable for Region M, bit #50" "0,1"
bitfld.long 0x00 17. "     E49     ,DMA Region Access enable for Region M, bit #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,DMA Region Access enable for Region M, bit #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,DMA Region Access enable for Region M, bit #47" "0,1"
bitfld.long 0x00 14. "     E46     ,DMA Region Access enable for Region M, bit #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,DMA Region Access enable for Region M, bit #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,DMA Region Access enable for Region M, bit #44" "0,1"
bitfld.long 0x00 11. "     E43     ,DMA Region Access enable for Region M, bit #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,DMA Region Access enable for Region M, bit #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,DMA Region Access enable for Region M, bit #41" "0,1"
bitfld.long 0x00 8. "     E40     ,DMA Region Access enable for Region M, bit #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,DMA Region Access enable for Region M, bit #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,DMA Region Access enable for Region M, bit #38" "0,1"
bitfld.long 0x00 5. "     E37     ,DMA Region Access enable for Region M, bit #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,DMA Region Access enable for Region M, bit #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,DMA Region Access enable for Region M, bit #35" "0,1"
bitfld.long 0x00 2. "     E34     ,DMA Region Access enable for Region M, bit #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,DMA Region Access enable for Region M, bit #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,DMA Region Access enable for Region M, bit #32" "0,1"
group.long 0x360++0x3
line.long 0x00 "EDMA_TPCC_DRAEM_k_4,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled..."
bitfld.long 0x00 31. " E31     ,DMA Region Access enable for Region M, bit #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,DMA Region Access enable for Region M, bit #30" "0,1"
bitfld.long 0x00 29. "     E29     ,DMA Region Access enable for Region M, bit #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,DMA Region Access enable for Region M, bit #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,DMA Region Access enable for Region M, bit #27" "0,1"
bitfld.long 0x00 26. "     E26     ,DMA Region Access enable for Region M, bit #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,DMA Region Access enable for Region M, bit #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,DMA Region Access enable for Region M, bit #24" "0,1"
bitfld.long 0x00 23. "     E23     ,DMA Region Access enable for Region M, bit #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,DMA Region Access enable for Region M, bit #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,DMA Region Access enable for Region M, bit #21" "0,1"
bitfld.long 0x00 20. "     E20     ,DMA Region Access enable for Region M, bit #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,DMA Region Access enable for Region M, bit #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,DMA Region Access enable for Region M, bit #18" "0,1"
bitfld.long 0x00 17. "     E17     ,DMA Region Access enable for Region M, bit #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,DMA Region Access enable for Region M, bit #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,DMA Region Access enable for Region M, bit #15" "0,1"
bitfld.long 0x00 14. "     E14     ,DMA Region Access enable for Region M, bit #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,DMA Region Access enable for Region M, bit #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,DMA Region Access enable for Region M, bit #12" "0,1"
bitfld.long 0x00 11. "     E11     ,DMA Region Access enable for Region M, bit #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,DMA Region Access enable for Region M, bit #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,DMA Region Access enable for Region M, bit #9" "0,1"
bitfld.long 0x00 8. "     E8      ,DMA Region Access enable for Region M, bit #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,DMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,DMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,DMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,DMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,DMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,DMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,DMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,DMA Region Access enable for Region M, bit #0" "0,1"
group.long 0x408C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_4,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x280C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_4,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2808++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_4,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x282C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_4,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2828++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_4,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2824++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_4,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2820++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_4,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2834++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_4,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2830++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_4,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2804++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_4,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2800++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_4,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2814++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_4,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2810++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_4,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2874++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_4,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2870++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_4,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x285C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_4,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2858++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_4,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2854++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_4,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2850++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_4,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2864++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_4,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2860++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_4,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2878++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_4,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x286C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_4,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2868++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_4,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4094++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_4,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x820++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_4,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4080++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_4,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x410++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_4,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x450++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_4,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
wgroup.long 0x2888++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_4,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2884++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_4,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x288C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_4,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2880++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_4,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x390++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_4,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2894++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_4,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2890++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_4,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2844++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_4,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2840++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_4,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x283C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_4,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2838++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_4,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4084++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_4,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_5"
width 24.
group.long 0x40A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_5,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x40B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_5,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x40BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_5,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x2A1C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_5,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2A18++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_5,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_5,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x114++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_5,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x254++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_5,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x36C++0x3
line.long 0x00 "EDMA_TPCC_DRAEHM_k_5,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enable..."
bitfld.long 0x00 31. " E63     ,DMA Region Access enable for Region M, bit #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,DMA Region Access enable for Region M, bit #62" "0,1"
bitfld.long 0x00 29. "     E61     ,DMA Region Access enable for Region M, bit #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,DMA Region Access enable for Region M, bit #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,DMA Region Access enable for Region M, bit #59" "0,1"
bitfld.long 0x00 26. "     E58     ,DMA Region Access enable for Region M, bit #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,DMA Region Access enable for Region M, bit #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,DMA Region Access enable for Region M, bit #56" "0,1"
bitfld.long 0x00 23. "     E55     ,DMA Region Access enable for Region M, bit #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,DMA Region Access enable for Region M, bit #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,DMA Region Access enable for Region M, bit #53" "0,1"
bitfld.long 0x00 20. "     E52     ,DMA Region Access enable for Region M, bit #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,DMA Region Access enable for Region M, bit #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,DMA Region Access enable for Region M, bit #50" "0,1"
bitfld.long 0x00 17. "     E49     ,DMA Region Access enable for Region M, bit #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,DMA Region Access enable for Region M, bit #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,DMA Region Access enable for Region M, bit #47" "0,1"
bitfld.long 0x00 14. "     E46     ,DMA Region Access enable for Region M, bit #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,DMA Region Access enable for Region M, bit #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,DMA Region Access enable for Region M, bit #44" "0,1"
bitfld.long 0x00 11. "     E43     ,DMA Region Access enable for Region M, bit #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,DMA Region Access enable for Region M, bit #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,DMA Region Access enable for Region M, bit #41" "0,1"
bitfld.long 0x00 8. "     E40     ,DMA Region Access enable for Region M, bit #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,DMA Region Access enable for Region M, bit #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,DMA Region Access enable for Region M, bit #38" "0,1"
bitfld.long 0x00 5. "     E37     ,DMA Region Access enable for Region M, bit #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,DMA Region Access enable for Region M, bit #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,DMA Region Access enable for Region M, bit #35" "0,1"
bitfld.long 0x00 2. "     E34     ,DMA Region Access enable for Region M, bit #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,DMA Region Access enable for Region M, bit #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,DMA Region Access enable for Region M, bit #32" "0,1"
group.long 0x368++0x3
line.long 0x00 "EDMA_TPCC_DRAEM_k_5,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled..."
bitfld.long 0x00 31. " E31     ,DMA Region Access enable for Region M, bit #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,DMA Region Access enable for Region M, bit #30" "0,1"
bitfld.long 0x00 29. "     E29     ,DMA Region Access enable for Region M, bit #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,DMA Region Access enable for Region M, bit #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,DMA Region Access enable for Region M, bit #27" "0,1"
bitfld.long 0x00 26. "     E26     ,DMA Region Access enable for Region M, bit #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,DMA Region Access enable for Region M, bit #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,DMA Region Access enable for Region M, bit #24" "0,1"
bitfld.long 0x00 23. "     E23     ,DMA Region Access enable for Region M, bit #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,DMA Region Access enable for Region M, bit #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,DMA Region Access enable for Region M, bit #21" "0,1"
bitfld.long 0x00 20. "     E20     ,DMA Region Access enable for Region M, bit #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,DMA Region Access enable for Region M, bit #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,DMA Region Access enable for Region M, bit #18" "0,1"
bitfld.long 0x00 17. "     E17     ,DMA Region Access enable for Region M, bit #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,DMA Region Access enable for Region M, bit #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,DMA Region Access enable for Region M, bit #15" "0,1"
bitfld.long 0x00 14. "     E14     ,DMA Region Access enable for Region M, bit #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,DMA Region Access enable for Region M, bit #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,DMA Region Access enable for Region M, bit #12" "0,1"
bitfld.long 0x00 11. "     E11     ,DMA Region Access enable for Region M, bit #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,DMA Region Access enable for Region M, bit #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,DMA Region Access enable for Region M, bit #9" "0,1"
bitfld.long 0x00 8. "     E8      ,DMA Region Access enable for Region M, bit #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,DMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,DMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,DMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,DMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,DMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,DMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,DMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,DMA Region Access enable for Region M, bit #0" "0,1"
group.long 0x40AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_5,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x2A0C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_5,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A08++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_5,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A2C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_5,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A28++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_5,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A24++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_5,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2A20++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_5,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A34++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_5,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A30++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_5,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A04++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_5,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2A00++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_5,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A14++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_5,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A10++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_5,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A74++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_5,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2A70++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_5,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2A5C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_5,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2A58++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_5,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2A54++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_5,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2A50++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_5,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2A64++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_5,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2A60++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_5,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2A78++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_5,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x2A6C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_5,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2A68++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_5,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x40B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_5,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x824++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_5,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x40A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_5,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x414++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_5,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x454++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_5,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
wgroup.long 0x2A88++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_5,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A84++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_5,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A8C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_5,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A80++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_5,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x394++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_5,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2A94++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_5,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A90++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_5,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A44++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_5,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A40++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_5,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A3C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_5,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2A38++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_5,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_5,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_6"
width 24.
group.long 0x40C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_6,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x40D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_6,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x40DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_6,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x2C1C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_6,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2C18++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_6,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_6,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x118++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_6,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x258++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_6,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x374++0x3
line.long 0x00 "EDMA_TPCC_DRAEHM_k_6,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enable..."
bitfld.long 0x00 31. " E63     ,DMA Region Access enable for Region M, bit #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,DMA Region Access enable for Region M, bit #62" "0,1"
bitfld.long 0x00 29. "     E61     ,DMA Region Access enable for Region M, bit #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,DMA Region Access enable for Region M, bit #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,DMA Region Access enable for Region M, bit #59" "0,1"
bitfld.long 0x00 26. "     E58     ,DMA Region Access enable for Region M, bit #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,DMA Region Access enable for Region M, bit #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,DMA Region Access enable for Region M, bit #56" "0,1"
bitfld.long 0x00 23. "     E55     ,DMA Region Access enable for Region M, bit #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,DMA Region Access enable for Region M, bit #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,DMA Region Access enable for Region M, bit #53" "0,1"
bitfld.long 0x00 20. "     E52     ,DMA Region Access enable for Region M, bit #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,DMA Region Access enable for Region M, bit #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,DMA Region Access enable for Region M, bit #50" "0,1"
bitfld.long 0x00 17. "     E49     ,DMA Region Access enable for Region M, bit #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,DMA Region Access enable for Region M, bit #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,DMA Region Access enable for Region M, bit #47" "0,1"
bitfld.long 0x00 14. "     E46     ,DMA Region Access enable for Region M, bit #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,DMA Region Access enable for Region M, bit #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,DMA Region Access enable for Region M, bit #44" "0,1"
bitfld.long 0x00 11. "     E43     ,DMA Region Access enable for Region M, bit #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,DMA Region Access enable for Region M, bit #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,DMA Region Access enable for Region M, bit #41" "0,1"
bitfld.long 0x00 8. "     E40     ,DMA Region Access enable for Region M, bit #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,DMA Region Access enable for Region M, bit #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,DMA Region Access enable for Region M, bit #38" "0,1"
bitfld.long 0x00 5. "     E37     ,DMA Region Access enable for Region M, bit #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,DMA Region Access enable for Region M, bit #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,DMA Region Access enable for Region M, bit #35" "0,1"
bitfld.long 0x00 2. "     E34     ,DMA Region Access enable for Region M, bit #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,DMA Region Access enable for Region M, bit #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,DMA Region Access enable for Region M, bit #32" "0,1"
group.long 0x370++0x3
line.long 0x00 "EDMA_TPCC_DRAEM_k_6,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled..."
bitfld.long 0x00 31. " E31     ,DMA Region Access enable for Region M, bit #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,DMA Region Access enable for Region M, bit #30" "0,1"
bitfld.long 0x00 29. "     E29     ,DMA Region Access enable for Region M, bit #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,DMA Region Access enable for Region M, bit #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,DMA Region Access enable for Region M, bit #27" "0,1"
bitfld.long 0x00 26. "     E26     ,DMA Region Access enable for Region M, bit #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,DMA Region Access enable for Region M, bit #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,DMA Region Access enable for Region M, bit #24" "0,1"
bitfld.long 0x00 23. "     E23     ,DMA Region Access enable for Region M, bit #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,DMA Region Access enable for Region M, bit #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,DMA Region Access enable for Region M, bit #21" "0,1"
bitfld.long 0x00 20. "     E20     ,DMA Region Access enable for Region M, bit #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,DMA Region Access enable for Region M, bit #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,DMA Region Access enable for Region M, bit #18" "0,1"
bitfld.long 0x00 17. "     E17     ,DMA Region Access enable for Region M, bit #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,DMA Region Access enable for Region M, bit #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,DMA Region Access enable for Region M, bit #15" "0,1"
bitfld.long 0x00 14. "     E14     ,DMA Region Access enable for Region M, bit #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,DMA Region Access enable for Region M, bit #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,DMA Region Access enable for Region M, bit #12" "0,1"
bitfld.long 0x00 11. "     E11     ,DMA Region Access enable for Region M, bit #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,DMA Region Access enable for Region M, bit #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,DMA Region Access enable for Region M, bit #9" "0,1"
bitfld.long 0x00 8. "     E8      ,DMA Region Access enable for Region M, bit #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,DMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,DMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,DMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,DMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,DMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,DMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,DMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,DMA Region Access enable for Region M, bit #0" "0,1"
group.long 0x40CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_6,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x2C0C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_6,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C08++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_6,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C2C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_6,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C28++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_6,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C24++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_6,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2C20++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_6,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C34++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_6,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C30++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_6,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C04++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_6,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2C00++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_6,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C14++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_6,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C10++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_6,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C74++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_6,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2C70++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_6,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2C5C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_6,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2C58++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_6,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2C54++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_6,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2C50++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_6,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2C64++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_6,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2C60++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_6,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2C78++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_6,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x2C6C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_6,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2C68++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_6,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x40D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_6,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x828++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_6,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x40C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_6,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x418++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_6,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x458++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_6,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
wgroup.long 0x2C88++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_6,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C84++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_6,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C8C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_6,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C80++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_6,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x398++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_6,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2C94++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_6,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C90++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_6,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C44++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_6,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C40++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_6,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C3C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_6,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2C38++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_6,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_6,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_7"
width 24.
group.long 0x40E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_7,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x40F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_7,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x40FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_7,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x2E1C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_7,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2E18++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_7,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_7,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x11C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_7,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x25C++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_7,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x37C++0x3
line.long 0x00 "EDMA_TPCC_DRAEHM_k_7,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enable..."
bitfld.long 0x00 31. " E63     ,DMA Region Access enable for Region M, bit #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,DMA Region Access enable for Region M, bit #62" "0,1"
bitfld.long 0x00 29. "     E61     ,DMA Region Access enable for Region M, bit #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,DMA Region Access enable for Region M, bit #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,DMA Region Access enable for Region M, bit #59" "0,1"
bitfld.long 0x00 26. "     E58     ,DMA Region Access enable for Region M, bit #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,DMA Region Access enable for Region M, bit #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,DMA Region Access enable for Region M, bit #56" "0,1"
bitfld.long 0x00 23. "     E55     ,DMA Region Access enable for Region M, bit #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,DMA Region Access enable for Region M, bit #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,DMA Region Access enable for Region M, bit #53" "0,1"
bitfld.long 0x00 20. "     E52     ,DMA Region Access enable for Region M, bit #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,DMA Region Access enable for Region M, bit #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,DMA Region Access enable for Region M, bit #50" "0,1"
bitfld.long 0x00 17. "     E49     ,DMA Region Access enable for Region M, bit #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,DMA Region Access enable for Region M, bit #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,DMA Region Access enable for Region M, bit #47" "0,1"
bitfld.long 0x00 14. "     E46     ,DMA Region Access enable for Region M, bit #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,DMA Region Access enable for Region M, bit #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,DMA Region Access enable for Region M, bit #44" "0,1"
bitfld.long 0x00 11. "     E43     ,DMA Region Access enable for Region M, bit #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,DMA Region Access enable for Region M, bit #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,DMA Region Access enable for Region M, bit #41" "0,1"
bitfld.long 0x00 8. "     E40     ,DMA Region Access enable for Region M, bit #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,DMA Region Access enable for Region M, bit #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,DMA Region Access enable for Region M, bit #38" "0,1"
bitfld.long 0x00 5. "     E37     ,DMA Region Access enable for Region M, bit #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,DMA Region Access enable for Region M, bit #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,DMA Region Access enable for Region M, bit #35" "0,1"
bitfld.long 0x00 2. "     E34     ,DMA Region Access enable for Region M, bit #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,DMA Region Access enable for Region M, bit #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,DMA Region Access enable for Region M, bit #32" "0,1"
group.long 0x378++0x3
line.long 0x00 "EDMA_TPCC_DRAEM_k_7,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled..."
bitfld.long 0x00 31. " E31     ,DMA Region Access enable for Region M, bit #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,DMA Region Access enable for Region M, bit #30" "0,1"
bitfld.long 0x00 29. "     E29     ,DMA Region Access enable for Region M, bit #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,DMA Region Access enable for Region M, bit #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,DMA Region Access enable for Region M, bit #27" "0,1"
bitfld.long 0x00 26. "     E26     ,DMA Region Access enable for Region M, bit #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,DMA Region Access enable for Region M, bit #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,DMA Region Access enable for Region M, bit #24" "0,1"
bitfld.long 0x00 23. "     E23     ,DMA Region Access enable for Region M, bit #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,DMA Region Access enable for Region M, bit #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,DMA Region Access enable for Region M, bit #21" "0,1"
bitfld.long 0x00 20. "     E20     ,DMA Region Access enable for Region M, bit #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,DMA Region Access enable for Region M, bit #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,DMA Region Access enable for Region M, bit #18" "0,1"
bitfld.long 0x00 17. "     E17     ,DMA Region Access enable for Region M, bit #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,DMA Region Access enable for Region M, bit #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,DMA Region Access enable for Region M, bit #15" "0,1"
bitfld.long 0x00 14. "     E14     ,DMA Region Access enable for Region M, bit #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,DMA Region Access enable for Region M, bit #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,DMA Region Access enable for Region M, bit #12" "0,1"
bitfld.long 0x00 11. "     E11     ,DMA Region Access enable for Region M, bit #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,DMA Region Access enable for Region M, bit #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,DMA Region Access enable for Region M, bit #9" "0,1"
bitfld.long 0x00 8. "     E8      ,DMA Region Access enable for Region M, bit #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,DMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,DMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,DMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,DMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,DMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,DMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,DMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,DMA Region Access enable for Region M, bit #0" "0,1"
group.long 0x40EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_7,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x2E0C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_7,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E08++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_7,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E2C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_7,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E28++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_7,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E24++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_7,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2E20++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_7,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E34++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_7,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E30++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_7,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E04++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_7,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2E00++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_7,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E14++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_7,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E10++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_7,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E74++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_7,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2E70++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_7,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2E5C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_7,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2E58++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_7,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2E54++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_7,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2E50++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_7,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2E64++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_7,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2E60++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_7,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2E78++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_7,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x2E6C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_7,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2E68++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_7,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x40F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_7,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x82C++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_7,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x40E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_7,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x41C++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_7,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x45C++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_7,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
wgroup.long 0x2E88++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_7,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E84++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_7,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E8C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_7,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E80++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_7,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x39C++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_7,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2E94++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_7,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E90++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_7,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E44++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_7,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E40++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_7,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E3C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_7,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2E38++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_7,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_7,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_8"
width 23.
group.long 0x4108++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_8,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4110++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_8,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x411C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_8,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4118++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_8,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x120++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_8,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x410C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_8,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4114++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_8,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4100++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_8,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x420++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_8,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x460++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_8,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x4104++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_8,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_9"
width 23.
group.long 0x4128++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_9,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4130++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_9,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x413C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_9,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4138++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_9,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x124++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_9,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x412C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_9,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4134++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_9,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4120++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_9,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x424++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_9,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x464++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_9,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x4124++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_9,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_10"
width 24.
group.long 0x4148++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_10,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4150++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_10,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x415C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_10,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4158++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_10,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x128++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_10,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x414C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_10,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4154++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_10,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4140++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_10,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x428++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_10,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x468++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_10,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x4144++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_10,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_11"
width 24.
group.long 0x4168++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_11,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4170++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_11,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x417C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_11,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4178++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_11,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x12C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_11,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x416C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_11,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4174++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_11,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4160++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_11,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x42C++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_11,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x46C++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_11,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x4164++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_11,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_12"
width 24.
group.long 0x4188++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_12,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4190++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_12,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x419C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_12,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4198++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_12,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x130++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_12,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x418C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_12,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4194++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_12,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4180++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_12,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x430++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_12,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x470++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_12,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x4184++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_12,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_13"
width 24.
group.long 0x41A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_13,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x41B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_13,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x41BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_13,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x41B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_13,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x134++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_13,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x41AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_13,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x41B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_13,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x41A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_13,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x434++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_13,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x474++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_13,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x41A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_13,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_14"
width 24.
group.long 0x41C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_14,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x41D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_14,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x41DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_14,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x41D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_14,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x138++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_14,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x41CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_14,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x41D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_14,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x41C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_14,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x438++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_14,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x478++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_14,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x41C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_14,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_15"
width 24.
group.long 0x41E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_15,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x41F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_15,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x41FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_15,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x41F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_15,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x13C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_15,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x41EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_15,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x41F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_15,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x41E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_15,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x43C++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_15,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x47C++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_15,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x41E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_15,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_16"
width 24.
group.long 0x4208++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_16,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4210++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_16,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x421C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_16,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4218++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_16,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x140++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_16,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x420C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_16,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4214++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_16,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4200++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_16,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4204++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_16,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_17"
width 24.
group.long 0x4228++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_17,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4230++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_17,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x423C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_17,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4238++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_17,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x144++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_17,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x422C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_17,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4234++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_17,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4220++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_17,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4224++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_17,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_18"
width 24.
group.long 0x4248++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_18,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4250++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_18,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x425C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_18,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4258++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_18,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x148++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_18,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x424C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_18,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4254++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_18,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4240++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_18,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4244++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_18,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_19"
width 24.
group.long 0x4268++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_19,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4270++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_19,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x427C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_19,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4278++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_19,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x14C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_19,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x426C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_19,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4274++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_19,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4260++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_19,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4264++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_19,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_20"
width 24.
group.long 0x4288++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_20,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4290++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_20,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x429C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_20,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4298++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_20,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x150++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_20,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x428C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_20,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4294++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_20,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4280++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_20,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4284++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_20,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_21"
width 24.
group.long 0x42A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_21,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x42B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_21,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x42BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_21,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x42B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_21,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x154++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_21,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x42AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_21,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x42B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_21,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x42A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_21,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x42A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_21,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_22"
width 24.
group.long 0x42C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_22,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x42D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_22,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x42DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_22,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x42D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_22,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x158++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_22,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x42CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_22,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x42D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_22,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x42C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_22,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x42C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_22,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_23"
width 24.
group.long 0x42E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_23,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x42F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_23,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x42FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_23,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x42F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_23,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x15C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_23,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x42EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_23,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x42F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_23,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x42E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_23,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x42E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_23,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_24"
width 24.
group.long 0x4308++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_24,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4310++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_24,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x431C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_24,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4318++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_24,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x160++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_24,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x430C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_24,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4314++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_24,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4300++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_24,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4304++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_24,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_25"
width 24.
group.long 0x4328++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_25,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4330++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_25,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x433C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_25,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4338++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_25,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x164++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_25,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x432C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_25,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4334++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_25,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4320++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_25,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4324++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_25,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_26"
width 24.
group.long 0x4348++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_26,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4350++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_26,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x435C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_26,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4358++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_26,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x168++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_26,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x434C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_26,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4354++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_26,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4340++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_26,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4344++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_26,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_27"
width 24.
group.long 0x4368++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_27,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4370++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_27,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x437C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_27,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4378++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_27,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x16C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_27,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x436C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_27,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4374++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_27,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4360++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_27,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4364++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_27,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_28"
width 24.
group.long 0x4388++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_28,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4390++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_28,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x439C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_28,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4398++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_28,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x170++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_28,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x438C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_28,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4394++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_28,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4380++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_28,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4384++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_28,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_29"
width 24.
group.long 0x43A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_29,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x43B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_29,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x43BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_29,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x43B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_29,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x174++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_29,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x43AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_29,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x43B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_29,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x43A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_29,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x43A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_29,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_30"
width 24.
group.long 0x43C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_30,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x43D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_30,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x43DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_30,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x43D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_30,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x178++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_30,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x43CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_30,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x43D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_30,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x43C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_30,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x43C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_30,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_31"
width 24.
group.long 0x43E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_31,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x43F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_31,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x43FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_31,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x43F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_31,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x17C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_31,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x43EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_31,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x43F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_31,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x43E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_31,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x43E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_31,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_32"
width 24.
group.long 0x4408++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_32,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4410++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_32,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x441C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_32,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4418++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_32,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x180++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_32,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x440C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_32,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4414++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_32,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4400++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_32,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4404++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_32,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_33"
width 24.
group.long 0x4428++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_33,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4430++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_33,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x443C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_33,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4438++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_33,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x184++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_33,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x442C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_33,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4434++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_33,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4420++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_33,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4424++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_33,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_34"
width 24.
group.long 0x4448++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_34,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4450++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_34,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x445C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_34,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4458++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_34,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x188++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_34,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x444C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_34,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4454++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_34,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4440++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_34,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4444++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_34,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_35"
width 24.
group.long 0x4468++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_35,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4470++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_35,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x447C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_35,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4478++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_35,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x18C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_35,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x446C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_35,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4474++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_35,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4460++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_35,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4464++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_35,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_36"
width 24.
group.long 0x4488++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_36,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4490++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_36,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x449C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_36,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4498++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_36,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x190++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_36,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x448C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_36,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4494++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_36,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4480++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_36,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4484++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_36,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_37"
width 24.
group.long 0x44A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_37,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x44B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_37,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x44BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_37,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x44B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_37,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x194++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_37,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x44AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_37,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x44B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_37,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x44A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_37,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x44A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_37,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_38"
width 24.
group.long 0x44C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_38,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x44D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_38,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x44DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_38,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x44D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_38,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x198++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_38,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x44CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_38,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x44D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_38,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x44C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_38,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x44C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_38,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_39"
width 24.
group.long 0x44E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_39,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x44F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_39,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x44FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_39,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x44F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_39,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x19C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_39,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x44EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_39,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x44F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_39,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x44E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_39,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x44E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_39,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_40"
width 24.
group.long 0x4508++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_40,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4510++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_40,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x451C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_40,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4518++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_40,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1A0++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_40,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x450C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_40,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4514++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_40,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4500++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_40,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4504++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_40,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_41"
width 24.
group.long 0x4528++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_41,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4530++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_41,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x453C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_41,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4538++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_41,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1A4++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_41,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x452C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_41,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4534++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_41,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4520++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_41,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4524++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_41,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_42"
width 24.
group.long 0x4548++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_42,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4550++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_42,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x455C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_42,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4558++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_42,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1A8++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_42,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x454C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_42,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4554++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_42,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4540++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_42,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4544++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_42,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_43"
width 24.
group.long 0x4568++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_43,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4570++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_43,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x457C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_43,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4578++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_43,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1AC++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_43,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x456C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_43,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4574++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_43,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4560++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_43,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4564++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_43,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_44"
width 24.
group.long 0x4588++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_44,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4590++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_44,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x459C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_44,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4598++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_44,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1B0++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_44,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x458C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_44,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4594++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_44,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4580++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_44,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4584++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_44,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_45"
width 24.
group.long 0x45A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_45,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x45B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_45,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x45BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_45,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x45B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_45,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1B4++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_45,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x45AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_45,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x45B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_45,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x45A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_45,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x45A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_45,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_46"
width 24.
group.long 0x45C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_46,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x45D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_46,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x45DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_46,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x45D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_46,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1B8++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_46,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x45CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_46,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x45D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_46,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x45C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_46,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x45C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_46,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_47"
width 24.
group.long 0x45E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_47,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x45F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_47,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x45FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_47,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x45F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_47,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1BC++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_47,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x45EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_47,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x45F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_47,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x45E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_47,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x45E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_47,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_48"
width 24.
group.long 0x4608++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_48,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4610++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_48,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x461C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_48,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4618++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_48,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1C0++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_48,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x460C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_48,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4614++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_48,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4600++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_48,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4604++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_48,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_49"
width 24.
group.long 0x4628++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_49,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4630++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_49,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x463C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_49,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4638++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_49,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1C4++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_49,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x462C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_49,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4634++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_49,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4620++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_49,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4624++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_49,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_50"
width 24.
group.long 0x4648++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_50,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4650++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_50,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x465C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_50,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4658++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_50,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1C8++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_50,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x464C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_50,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4654++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_50,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4640++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_50,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4644++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_50,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_51"
width 24.
group.long 0x4668++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_51,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4670++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_51,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x467C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_51,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4678++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_51,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1CC++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_51,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x466C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_51,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4674++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_51,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4660++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_51,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4664++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_51,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_52"
width 24.
group.long 0x4688++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_52,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4690++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_52,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x469C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_52,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4698++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_52,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1D0++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_52,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x468C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_52,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4694++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_52,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4680++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_52,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4684++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_52,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_53"
width 24.
group.long 0x46A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_53,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x46B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_53,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x46BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_53,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x46B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_53,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1D4++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_53,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x46AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_53,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x46B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_53,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x46A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_53,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x46A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_53,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_54"
width 24.
group.long 0x46C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_54,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x46D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_54,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x46DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_54,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x46D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_54,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1D8++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_54,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x46CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_54,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x46D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_54,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x46C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_54,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x46C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_54,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_55"
width 24.
group.long 0x46E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_55,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x46F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_55,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x46FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_55,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x46F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_55,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1DC++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_55,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x46EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_55,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x46F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_55,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x46E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_55,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x46E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_55,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_56"
width 24.
group.long 0x4708++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_56,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4710++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_56,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x471C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_56,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4718++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_56,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1E0++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_56,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x470C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_56,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4714++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_56,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4700++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_56,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4704++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_56,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_57"
width 24.
group.long 0x4728++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_57,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4730++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_57,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x473C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_57,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4738++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_57,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1E4++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_57,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x472C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_57,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4734++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_57,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4720++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_57,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4724++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_57,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_58"
width 24.
group.long 0x4748++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_58,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4750++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_58,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x475C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_58,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4758++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_58,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1E8++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_58,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x474C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_58,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4754++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_58,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4740++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_58,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4744++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_58,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_59"
width 24.
group.long 0x4768++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_59,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4770++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_59,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x477C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_59,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4778++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_59,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1EC++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_59,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x476C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_59,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4774++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_59,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4760++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_59,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4764++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_59,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_60"
width 24.
group.long 0x4788++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_60,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4790++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_60,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x479C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_60,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4798++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_60,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1F0++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_60,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x478C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_60,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4794++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_60,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4780++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_60,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4784++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_60,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_61"
width 24.
group.long 0x47A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_61,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x47B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_61,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x47BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_61,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x47B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_61,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1F4++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_61,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x47AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_61,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x47B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_61,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x47A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_61,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x47A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_61,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_62"
width 24.
group.long 0x47C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_62,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x47D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_62,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x47DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_62,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x47D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_62,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1F8++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_62,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x47CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_62,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x47D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_62,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x47C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_62,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x47C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_62,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_63"
width 24.
group.long 0x47E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_63,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x47F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_63,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x47FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_63,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x47F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_63,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1FC++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_63,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x47EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_63,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x47F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_63,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x47E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_63,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x47E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_63,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_64"
width 22.
group.long 0x4808++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_64,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4810++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_64,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x481C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_64,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4818++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_64,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x480C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_64,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4814++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_64,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4800++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_64,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4804++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_64,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_65"
width 22.
group.long 0x4828++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_65,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4830++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_65,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x483C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_65,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4838++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_65,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x482C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_65,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4834++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_65,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4820++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_65,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4824++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_65,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_66"
width 22.
group.long 0x4848++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_66,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4850++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_66,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x485C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_66,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4858++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_66,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x484C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_66,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4854++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_66,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4840++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_66,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4844++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_66,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_67"
width 22.
group.long 0x4868++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_67,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4870++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_67,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x487C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_67,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4878++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_67,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x486C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_67,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4874++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_67,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4860++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_67,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4864++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_67,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_68"
width 22.
group.long 0x4888++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_68,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4890++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_68,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x489C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_68,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4898++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_68,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x488C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_68,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4894++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_68,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4880++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_68,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4884++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_68,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_69"
width 22.
group.long 0x48A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_69,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x48B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_69,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x48BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_69,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x48B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_69,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x48AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_69,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x48B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_69,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x48A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_69,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x48A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_69,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_70"
width 22.
group.long 0x48C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_70,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x48D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_70,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x48DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_70,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x48D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_70,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x48CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_70,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x48D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_70,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x48C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_70,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x48C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_70,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_71"
width 22.
group.long 0x48E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_71,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x48F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_71,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x48FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_71,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x48F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_71,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x48EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_71,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x48F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_71,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x48E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_71,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x48E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_71,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_72"
width 22.
group.long 0x4908++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_72,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4910++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_72,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x491C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_72,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4918++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_72,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x490C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_72,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4914++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_72,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4900++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_72,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4904++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_72,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_73"
width 22.
group.long 0x4928++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_73,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4930++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_73,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x493C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_73,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4938++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_73,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x492C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_73,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4934++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_73,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4920++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_73,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4924++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_73,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_74"
width 22.
group.long 0x4948++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_74,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4950++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_74,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x495C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_74,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4958++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_74,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x494C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_74,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4954++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_74,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4940++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_74,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4944++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_74,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_75"
width 22.
group.long 0x4968++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_75,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4970++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_75,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x497C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_75,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4978++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_75,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x496C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_75,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4974++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_75,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4960++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_75,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4964++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_75,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_76"
width 22.
group.long 0x4988++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_76,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4990++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_76,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x499C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_76,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4998++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_76,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x498C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_76,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4994++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_76,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4980++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_76,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4984++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_76,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_77"
width 22.
group.long 0x49A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_77,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x49B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_77,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x49BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_77,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x49B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_77,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x49AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_77,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x49B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_77,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x49A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_77,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x49A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_77,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_78"
width 22.
group.long 0x49C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_78,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x49D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_78,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x49DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_78,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x49D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_78,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x49CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_78,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x49D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_78,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x49C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_78,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x49C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_78,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_79"
width 22.
group.long 0x49E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_79,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x49F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_79,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x49FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_79,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x49F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_79,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x49EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_79,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x49F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_79,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x49E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_79,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x49E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_79,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_80"
width 22.
group.long 0x4A08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_80,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_80,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_80,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_80,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_80,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_80,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_80,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_80,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_81"
width 22.
group.long 0x4A28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_81,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_81,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_81,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_81,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_81,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_81,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_81,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_81,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_82"
width 22.
group.long 0x4A48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_82,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_82,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_82,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_82,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_82,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_82,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_82,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_82,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_83"
width 22.
group.long 0x4A68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_83,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_83,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_83,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_83,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_83,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_83,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_83,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_83,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_84"
width 22.
group.long 0x4A88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_84,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_84,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_84,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_84,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_84,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_84,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_84,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_84,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_85"
width 22.
group.long 0x4AA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_85,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4AB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_85,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4ABC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_85,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4AB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_85,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4AAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_85,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4AB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_85,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4AA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_85,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4AA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_85,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_86"
width 22.
group.long 0x4AC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_86,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4AD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_86,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4ADC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_86,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4AD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_86,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4ACC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_86,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4AD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_86,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4AC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_86,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4AC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_86,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_87"
width 22.
group.long 0x4AE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_87,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4AF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_87,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4AFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_87,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4AF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_87,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4AEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_87,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4AF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_87,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4AE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_87,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4AE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_87,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_88"
width 22.
group.long 0x4B08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_88,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_88,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_88,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_88,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_88,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_88,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_88,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_88,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_89"
width 22.
group.long 0x4B28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_89,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_89,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_89,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_89,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_89,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_89,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_89,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_89,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_90"
width 22.
group.long 0x4B48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_90,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_90,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_90,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_90,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_90,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_90,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_90,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_90,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_91"
width 22.
group.long 0x4B68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_91,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_91,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_91,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_91,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_91,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_91,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_91,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_91,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_92"
width 22.
group.long 0x4B88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_92,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_92,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_92,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_92,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_92,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_92,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_92,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_92,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_93"
width 22.
group.long 0x4BA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_93,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4BB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_93,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4BBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_93,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4BB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_93,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4BAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_93,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4BB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_93,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4BA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_93,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4BA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_93,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_94"
width 22.
group.long 0x4BC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_94,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4BD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_94,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4BDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_94,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4BD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_94,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4BCC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_94,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4BD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_94,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4BC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_94,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4BC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_94,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_95"
width 22.
group.long 0x4BE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_95,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4BF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_95,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4BFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_95,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4BF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_95,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4BEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_95,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4BF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_95,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4BE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_95,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4BE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_95,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_96"
width 22.
group.long 0x4C08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_96,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_96,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_96,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_96,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_96,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_96,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_96,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_96,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_97"
width 22.
group.long 0x4C28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_97,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_97,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_97,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_97,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_97,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_97,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_97,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_97,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_98"
width 22.
group.long 0x4C48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_98,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_98,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_98,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_98,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_98,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_98,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_98,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_98,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_99"
width 22.
group.long 0x4C68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_99,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_99,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_99,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_99,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_99,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_99,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_99,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_99,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_100"
width 23.
group.long 0x4C88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_100,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_100,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_100,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_100,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_100,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_100,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_100,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_100,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_101"
width 23.
group.long 0x4CA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_101,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4CB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_101,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4CBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_101,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4CB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_101,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4CAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_101,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4CB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_101,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4CA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_101,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4CA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_101,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_102"
width 23.
group.long 0x4CC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_102,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4CD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_102,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4CDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_102,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4CD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_102,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4CCC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_102,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4CD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_102,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4CC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_102,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4CC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_102,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_103"
width 23.
group.long 0x4CE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_103,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4CF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_103,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4CFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_103,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4CF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_103,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4CEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_103,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4CF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_103,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4CE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_103,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4CE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_103,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_104"
width 23.
group.long 0x4D08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_104,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_104,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_104,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_104,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_104,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_104,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_104,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_104,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_105"
width 23.
group.long 0x4D28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_105,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_105,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_105,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_105,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_105,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_105,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_105,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_105,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_106"
width 23.
group.long 0x4D48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_106,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_106,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_106,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_106,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_106,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_106,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_106,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_106,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_107"
width 23.
group.long 0x4D68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_107,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_107,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_107,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_107,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_107,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_107,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_107,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_107,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_108"
width 23.
group.long 0x4D88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_108,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_108,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_108,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_108,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_108,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_108,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_108,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_108,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_109"
width 23.
group.long 0x4DA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_109,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4DB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_109,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4DBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_109,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4DB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_109,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4DAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_109,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4DB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_109,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4DA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_109,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4DA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_109,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_110"
width 23.
group.long 0x4DC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_110,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4DD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_110,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4DDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_110,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4DD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_110,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4DCC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_110,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4DD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_110,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4DC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_110,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4DC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_110,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_111"
width 23.
group.long 0x4DE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_111,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4DF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_111,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4DFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_111,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4DF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_111,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4DEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_111,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4DF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_111,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4DE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_111,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4DE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_111,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_112"
width 23.
group.long 0x4E08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_112,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_112,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_112,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_112,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_112,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_112,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_112,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_112,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_113"
width 23.
group.long 0x4E28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_113,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_113,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_113,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_113,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_113,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_113,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_113,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_113,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_114"
width 23.
group.long 0x4E48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_114,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_114,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_114,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_114,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_114,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_114,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_114,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_114,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_115"
width 23.
group.long 0x4E68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_115,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_115,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_115,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_115,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_115,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_115,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_115,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_115,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_116"
width 23.
group.long 0x4E88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_116,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_116,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_116,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_116,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_116,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_116,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_116,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_116,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_117"
width 23.
group.long 0x4EA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_117,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4EB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_117,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4EBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_117,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4EB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_117,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4EAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_117,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4EB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_117,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4EA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_117,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4EA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_117,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_118"
width 23.
group.long 0x4EC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_118,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4ED0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_118,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4EDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_118,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4ED8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_118,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4ECC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_118,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4ED4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_118,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4EC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_118,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4EC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_118,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_119"
width 23.
group.long 0x4EE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_119,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4EF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_119,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4EFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_119,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4EF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_119,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4EEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_119,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4EF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_119,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4EE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_119,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4EE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_119,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_120"
width 23.
group.long 0x4F08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_120,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_120,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_120,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_120,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_120,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_120,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_120,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_120,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_121"
width 23.
group.long 0x4F28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_121,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_121,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_121,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_121,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_121,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_121,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_121,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_121,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_122"
width 23.
group.long 0x4F48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_122,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_122,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_122,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_122,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_122,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_122,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_122,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_122,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_123"
width 23.
group.long 0x4F68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_123,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_123,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_123,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_123,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_123,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_123,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_123,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_123,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_124"
width 23.
group.long 0x4F88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_124,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_124,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_124,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_124,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_124,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_124,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_124,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_124,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_125"
width 23.
group.long 0x4FA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_125,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4FB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_125,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4FBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_125,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4FB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_125,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4FAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_125,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4FB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_125,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4FA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_125,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4FA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_125,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_126"
width 23.
group.long 0x4FC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_126,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4FD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_126,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4FDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_126,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4FD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_126,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4FCC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_126,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4FD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_126,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4FC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_126,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4FC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_126,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_127"
width 23.
group.long 0x4FE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_127,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4FF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_127,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4FFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_127,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4FF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_127,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4FEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_127,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4FF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_127,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4FE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_127,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4FE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_127,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
textline ""
width 20.
rgroup.long 0x0++0x3
line.long 0x00 "EDMA_TPCC_PID,Peripheral ID Register"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP revision"
rgroup.long 0x4++0x3
line.long 0x00 "EDMA_TPCC_CCCFG,CC Configuration Register"
bitfld.long 0x00 25. " MPEXIST   ,Memory Protection Existence - . - ." "No_mMemory_protection,1"
bitfld.long 0x00 24. "  CHMAPEXIST ,Channel Mapping Existence - . - ." "No_Channel_mapping.,1"
bitfld.long 0x00 20.--21. "  NUMREGN  ,Number of MP and Shadow regions" "0,1,2,3"
textline "                             "
bitfld.long 0x00 16.--18. " NUMTC     ,Number of Queues/Number of TCs" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                      NUMPAENTRY ,Number of PaRAM entries" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "                    NUMINTCH ,Number of Interrupt Channels" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 4.--6. " NUMQDMACH ,Number of QDMA Channels" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                      NUMDMACH   ,Number of DMA Channels" "0,1,2,3,4,5,6,7"
group.long 0xFC++0x3
line.long 0x00 "EDMA_TPCC_CLKGDIS,Auto Clock Gate Disable"
bitfld.long 0x00 0. " CLKGDIS   ,Auto Clock Gate Disable" "0,1"
group.long 0x260++0x3
line.long 0x00 "EDMA_TPCC_QDMAQNUM,QDMA Queue Number Register Contains the Event queue number to be used for the corresponding QDMA Channel."
bitfld.long 0x00 28.--30. " E7        ,QDMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                      E6         ,QDMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "                    E5       ,QDMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 16.--18. " E4        ,QDMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                      E3         ,QDMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "                    E2       ,QDMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 4.--6. " E1        ,QDMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                      E0         ,QDMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x280++0x3
line.long 0x00 "EDMA_TPCC_QUETCMAP,Queue to TC Mapping"
bitfld.long 0x00 4.--6. " TCNUMQ1   ,TC Number for Queue N: Defines the TC number that Event Queue N TRs are written to." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                      TCNUMQ0    ,TC Number for Queue N: Defines the TC number that Event Queue N TRs are written to." "0,1,2,3,4,5,6,7"
group.long 0x284++0x3
line.long 0x00 "EDMA_TPCC_QUEPRI,Queue Priority"
bitfld.long 0x00 4.--6. " PRIQ1     ,Priority Level for Queue 1 Dictates the priority level used for the OPTIONS field programmation for Qn TRs. Sets the priority used for TC read and write commands." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                      PRIQ0      ,Priority Level for Queue 0 Dictates the priority level used for the OPTIONS field programmation for Qn TRs. Sets the priority used for TC read and write commands." "0,1,2,3,4,5,6,7"
rgroup.long 0x300++0x3
line.long 0x00 "EDMA_TPCC_EMR,Event Missed Register: The Event Missed register is set if 2 events are received without the first event being cleared or if a Null TR is serviced. Chained events (CER), Set Events (ESR), and normal events (ER) are treated individually. I..."
bitfld.long 0x00 31. " E31       ,Event Missed #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event Missed #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event Missed #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event Missed #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event Missed #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event Missed #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event Missed #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event Missed #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event Missed #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event Missed #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event Missed #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event Missed #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event Missed #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event Missed #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event Missed #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event Missed #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event Missed #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event Missed #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event Missed #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event Missed #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event Missed #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event Missed #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event Missed #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event Missed #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event Missed #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event Missed #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event Missed #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event Missed #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event Missed #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event Missed #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event Missed #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event Missed #0" "0,1"
rgroup.long 0x304++0x3
line.long 0x00 "EDMA_TPCC_EMRH,Event Missed Register (High Part): The Event Missed register is set if 2 events are received without the first event being cleared or if a Null TR is serviced. Chained events (CER), Set Events (ESR), and normal events (ER) are treated in..."
bitfld.long 0x00 31. " E63       ,Event Missed #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event Missed #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event Missed #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event Missed #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event Missed #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event Missed #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event Missed #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event Missed #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event Missed #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event Missed #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event Missed #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event Missed #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event Missed #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event Missed #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event Missed #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event Missed #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event Missed #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event Missed #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event Missed #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event Missed #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event Missed #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event Missed #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event Missed #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event Missed #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event Missed #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event Missed #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event Missed #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event Missed #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event Missed #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event Missed #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event Missed #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event Missed #32" "0,1"
wgroup.long 0x308++0x3
line.long 0x00 "EDMA_TPCC_EMCR,Event Missed Clear Register: CPU write of '1' to the.En bit causes the .En bit to be cleared. CPU write of '0' has no effect.. All error bits must be cleared before additional error interrupts will be asserted by CC."
bitfld.long 0x00 31. " E31       ,Event Missed Clear #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event Missed Clear #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event Missed Clear #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event Missed Clear #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event Missed Clear #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event Missed Clear #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event Missed Clear #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event Missed Clear #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event Missed Clear #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event Missed Clear #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event Missed Clear #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event Missed Clear #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event Missed Clear #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event Missed Clear #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event Missed Clear #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event Missed Clear #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event Missed Clear #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event Missed Clear #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event Missed Clear #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event Missed Clear #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event Missed Clear #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event Missed Clear #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event Missed Clear #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event Missed Clear #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event Missed Clear #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event Missed Clear #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event Missed Clear #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event Missed Clear #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event Missed Clear #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event Missed Clear #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event Missed Clear #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event Missed Clear #0" "0,1"
wgroup.long 0x30C++0x3
line.long 0x00 "EDMA_TPCC_EMCRH,Event Missed Clear Register (High Part): CPU write of '1' to the.En bit causes the .En bit to be cleared. CPU write of '0' has no effect. All error bits must be cleared before additional error interrupts will be asserted by CC."
bitfld.long 0x00 31. " E63       ,Event Missed Clear #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event Missed Clear #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event Missed Clear #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event Missed Clear #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event Missed Clear #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event Missed Clear #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event Missed Clear #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event Missed Clear #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event Missed Clear #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event Missed Clear #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event Missed Clear #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event Missed Clear #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event Missed Clear #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event Missed Clear #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event Missed Clear #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event Missed Clear #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event Missed Clear #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event Missed Clear #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event Missed Clear #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event Missed Clear #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event Missed Clear #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event Missed Clear #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event Missed Clear #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event Missed Clear #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event Missed Clear #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event Missed Clear #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event Missed Clear #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event Missed Clear #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event Missed Clear #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event Missed Clear #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event Missed Clear #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event Missed Clear #32" "0,1"
rgroup.long 0x310++0x3
line.long 0x00 "EDMA_TPCC_QEMR,QDMA Event Missed Register: The QDMA Event Missed register is set if 2 QDMA events are detected without the first event being cleared or if a Null TR is serviced. If any bit in the register is set (and all errors (including / ) were prev..."
bitfld.long 0x00 7. " E7        ,Event Missed #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event Missed #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event Missed #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event Missed #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event Missed #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event Missed #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event Missed #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event Missed #0" "0,1"
wgroup.long 0x314++0x3
line.long 0x00 "EDMA_TPCC_QEMCR,QDMA Event Missed Clear Register: CPU write of '1' to the.En bit causes the .En bit to be cleared. CPU write of '0' has no effect. All error bits must be cleared before additional error interrupts will be asserted by CC."
bitfld.long 0x00 7. " E7        ,Event Missed Clear #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event Missed Clear #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event Missed Clear #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event Missed Clear #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event Missed Clear #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event Missed Clear #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event Missed Clear #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event Missed Clear #0" "0,1"
rgroup.long 0x318++0x3
line.long 0x00 "EDMA_TPCC_CCERR,CC Error Register"
bitfld.long 0x00 16. " TCERR     ,Transfer Completion Code Error - . - . - TCERR can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors were previously clear), then an error will be signaled with TPCC error interr..." "0,1"
bitfld.long 0x00 7. "                      QTHRXCD7   ,Queue Threshold Error for Q7 - . - . - QTHRXCD7 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error wi..." "0,1"
bitfld.long 0x00 6. "                    QTHRXCD6 ,Queue Threshold Error for Q6 - . - . - QTHRXCD6 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will b..." "0,1"
textline "                             "
bitfld.long 0x00 5. " QTHRXCD5  ,Queue Threshold Error for Q5 - . - . - QTHRXCD5 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will be signaled with th..." "0,1"
bitfld.long 0x00 4. "                      QTHRXCD4   ,Queue Threshold Error for Q4 - . - . - QTHRXCD4 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error wi..." "0,1"
bitfld.long 0x00 3. "                    QTHRXCD3 ,Queue Threshold Error for Q3 - . - . - QTHRXCD3 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will b..." "0,1"
textline "                             "
bitfld.long 0x00 2. " QTHRXCD2  ,Queue Threshold Error for Q2 - . - . - QTHRXCD2 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will be signaled with th..." "0,1"
bitfld.long 0x00 1. "                      QTHRXCD1   ,Queue Threshold Error for Q1 - . - . - QTHRXCD1 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error wi..." "0,1"
bitfld.long 0x00 0. "                    QTHRXCD0 ,Queue Threshold Error for Q0: - . - . - QTHRXCD0 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will ..." "0,1"
wgroup.long 0x31C++0x3
line.long 0x00 "EDMA_TPCC_CCERRCLR,CC Error Clear Register"
bitfld.long 0x00 16. " TCERR     ,Clear Error forEDMA_TPCC_CCERR[16] TR. - Write 0x1 to clear the value of[16] TCERR. . - . - Write 0x0 have no affect. . - ." "0,1"
bitfld.long 0x00 7. "                      QTHRXCD7   ,Clear error forEDMA_TPCC_CCERR[7]QTHRXCD7 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT7.WM, QSTAT7.THRXCD,[7] QTHRXCD7 . - ." "0,1"
bitfld.long 0x00 6. "                    QTHRXCD6 ,Clear error forEDMA_TPCC_CCERR[6] QTHRXCD6 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT6.WM, QSTAT6.THRXCD,[6]QTHRXCD6 . - ." "0,1"
textline "                             "
bitfld.long 0x00 5. " QTHRXCD5  ,Clear error forEDMA_TPCC_CCERR[5] QTHRXCD5 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT5.WM, QSTAT5.THRXCD,[5]QTHRXCD5 . - ." "0,1"
bitfld.long 0x00 4. "                      QTHRXCD4   ,Clear error forEDMA_TPCC_CCERR[4] QTHRXCD4: - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT4.WM, QSTAT4.THRXCD,[4] QTHRXCD4 . - ." "0,1"
bitfld.long 0x00 3. "                    QTHRXCD3 ,Clear error forEDMA_TPCC_CCERR[3] QTHRXCD3 - Write 0x1 to clear the values of QSTAT3.WM, QSTAT3.THRXCD,[3] QTHRXCD3 . - . - Write 0x0 have no affect. . - ." "0,1"
textline "                             "
bitfld.long 0x00 2. " QTHRXCD2  ,Clear error forEDMA_TPCC_CCERR[2] QTHRXCD2 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT2.WM, QSTAT2.THRXCD,[2] QTHRXCD2 . - ." "0,1"
bitfld.long 0x00 1. "                      QTHRXCD1   ,Clear error forEDMA_TPCC_CCERR[1] QTHRXCD1 - Write 0x1 to clear the values of QSTAT1.WM, QSTAT1.THRXCD,[1] QTHRXCD1 . - . - Write 0x0 have no affect. . - ." "0,1"
bitfld.long 0x00 0. "                    QTHRXCD0 ,Clear error forEDMA_TPCC_CCERR[0] QTHRXCD0 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT0.WM, QSTAT0.THRXCD,[0] QTHRXCD0 . - ." "0,1"
wgroup.long 0x320++0x3
line.long 0x00 "EDMA_TPCC_EEVAL,Error Eval Register"
bitfld.long 0x00 1. " SET       ,Error Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SET bit causes the TPCC error interrupt to be pulsed regardless of state of/, , or . . - ." "0,1"
bitfld.long 0x00 0. "                      EVAL       ,Error Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVAL bit causes the TPCC error interrupt to be pulsed if any errors have not been cleared in the/, , or registers. The CPU must als..." "0,1"
group.long 0x620++0x3
line.long 0x00 "EDMA_TPCC_QWMTHRA,Queue Threshold A, for Q[3:0]:.QTHRXCDn and QSTATn[24] THRXCD error bit is set when the number of Events in QueueN at an instant in time (visible via QSTATn[12:8] NUMVAL) equals or exceeds the value specified by .Qn. Legal values = 0x..."
bitfld.long 0x00 24.--28. " Q3        ,Queue Threshold for Q3 value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "                     Q2         ,Queue Threshold for Q2 value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "                   Q1       ,Queue Threshold for Q1 value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                             "
bitfld.long 0x00 0.--4. " Q0        ,Queue Threshold for Q0 value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x624++0x3
line.long 0x00 "EDMA_TPCC_QWMTHRB,Queue Threshold B, for Q[7:4]:.QTHRXCDn and QSTATn[24]THRXCD error bit is set when the number of Events in QueueN at an instant in time (visible via QSTATn[12:8] NUMVAL) equals or exceeds the value specified by QWMTHRB.Qn. Legal value..."
bitfld.long 0x00 24.--28. " Q7        ,Queue Threshold for Q7 value (unused in the context of IVAHD)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "                     Q6         ,Queue Threshold for Q6 value (unused in the context of IVAHD)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "                   Q5       ,Queue Threshold for Q5 value (unused in the context of IVAHD)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                             "
bitfld.long 0x00 0.--4. " Q4        ,Queue Threshold for Q4 value (unused in the context of IVAHD)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rgroup.long 0x640++0x3
line.long 0x00 "EDMA_TPCC_CCSTAT,CC Status Register"
bitfld.long 0x00 23. " QUEACTV7  ,Queue 7 Active - . - ." "0,1"
bitfld.long 0x00 22. "                      QUEACTV6   ,Queue 6 Active - . - ." "0,1"
bitfld.long 0x00 21. "                    QUEACTV5 ,Queue 5 Active - . - ." "0,1"
textline "                             "
bitfld.long 0x00 20. " QUEACTV4  ,Queue 4 Active - . - ." "0,1"
bitfld.long 0x00 19. "                      QUEACTV3   ,Queue 3 Active - . - ." "0,1"
bitfld.long 0x00 18. "                    QUEACTV2 ,Queue 2 Active QUEACTV2 = 0 : No Evts are queued in Q2. QUEACTV2 = 1 : At least one TR is queued in Q2. - . - ." "UNKN_MNEMO,UNKN_MNEMO"
textline "                             "
bitfld.long 0x00 17. " QUEACTV1  ,Queue 1 Active - . - ." "0,1"
bitfld.long 0x00 16. "                      QUEACTV0   ,Queue 0 Active - . - ." "0,1"
bitfld.long 0x00 8.--13. "                    COMPACTV ,Completion Request Active: Counter that tracks the total number of completion requests submitted to the TC. The counter increments when a TR is submitted with TCINTEN or TCCHEN set to '1'. The counter decrements for every ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                             "
bitfld.long 0x00 4. " ACTV      ,Channel Controller Active Channel Controller Active is a logical-OR of each of the *ACTV signals. The ACTV bit must remain high through the life of a: - . - ." "Channel_is_idle.,Channel_is_busy."
bitfld.long 0x00 2. "       TRACTV     ,Transfer Request Active TRACTV = 0 : Transfer Request processing/submission logic is inactive. TRACTV = 1 : Transfer Request processing/submission logic is active. - . - ." "UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 1. "           QEVTACTV ,QDMA Event Active - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0. " EVTACTV   ,DMA Event Active - . - ." "0,1"
group.long 0x700++0x3
line.long 0x00 "EDMA_TPCC_AETCTL,Advanced Event Trigger Control"
bitfld.long 0x00 31. " EN        ,AET Enable - . - ." "0,1"
bitfld.long 0x00 8.--13. "                      ENDINT     ,AET End Interrupt: Dictates the completion interrupt number that will force the tpcc_aet signal to be deasserted (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 6. "                   TYPE     ,AET Event Type - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0.--5. " STRTEVT   ,AET Start Event: Dictates the Event Number that will force the tpcc_aet signal to be asserted (high)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x704++0x3
line.long 0x00 "EDMA_TPCC_AETSTAT,Advanced Event Trigger Stat"
bitfld.long 0x00 0. " STAT      ,AET Status - . - ." "0,1"
wgroup.long 0x708++0x3
line.long 0x00 "EDMA_TPCC_AETCMD,AET Command"
bitfld.long 0x00 0. " CLR       ,AET Clear command - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the CLR bit causes the tpcc_aet output signal and[0]STAT register to be cleared. . - ." "0,1"
rgroup.long 0x800++0x3
line.long 0x00 "EDMA_TPCC_MPFAR,MMemory Protection Fault Address"
hexmask.long 0x00 0.--31. 1. " FADDR     ,Fault Address: 32-bit read-only status register containing the faulting address when a mMemory protection violation is detected. This register can only be cleared via theEDMA_TPCC_MPFCR."
rgroup.long 0x804++0x3
line.long 0x00 "EDMA_TPCC_MPFSR,Memory Protection Fault Status Register"
bitfld.long 0x00 9.--12. " FID       ,Faulted ID: FID register contains valid info if any of the MP error bits (UXE, UWE, URE, SXE, SWE, SRE) are non-zero (i.e., if an error has been detected.) The FID field contains the VBus PrivID for the specific request/requestor that resul..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 5. "                     SRE        ,Supervisor Read Error - . - ." "No_error_detected.,1"
bitfld.long 0x00 4. "   SWE      ,Supervisor Write Error - . - ." "No_error_detected.,1"
textline "                             "
bitfld.long 0x00 3. " SXE       ,Supervisor Execute Error - . - ." "No_error_detected.,1"
bitfld.long 0x00 2. "     URE        ,User Read Error - . - ." "No_error_detected.,1"
bitfld.long 0x00 1. "   UWE      ,User Write Error - . - ." "No_error_detected.,1"
textline "                             "
bitfld.long 0x00 0. " UXE       ,User Execute Error - . - ." "No_error_detected,1"
wgroup.long 0x808++0x3
line.long 0x00 "EDMA_TPCC_MPFCR,Memory Protection Fault Command Register"
bitfld.long 0x00 0. " MPFCLR    ,Fault Clear register - . - ." "has_no_effect,1"
group.long 0x80C++0x3
line.long 0x00 "EDMA_TPCC_MPPAG,Memory Protection Page Attribute for Global registers"
bitfld.long 0x00 15. " AID5      ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                      AID4       ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "                    AID3     ,Allowed ID 3 - . - ." "0,1"
textline "                             "
bitfld.long 0x00 12. " AID2      ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                      AID1       ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "                    AID0     ,Allowed ID 0 - . - ." "0,1"
textline "                             "
bitfld.long 0x00 9. " EXT       ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                      SR         ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "                    SW       ,Supervisor Write permission - . - ." "0,1"
textline "                             "
bitfld.long 0x00 3. " SX        ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                      UR         ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "                    UW       ,User Write permission - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0. " UX        ,User Execute permission - . - ." "0,1"
rgroup.long 0x1000++0x3
line.long 0x00 "EDMA_TPCC_ER,Event Register: If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive (low) ..."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x1004++0x3
line.long 0x00 "EDMA_TPCC_ERH,Event Register (High Part): If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from in..."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1008++0x3
line.long 0x00 "EDMA_TPCC_ECR,Event Clear Register: CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x100C++0x3
line.long 0x00 "EDMA_TPCC_ECRH,Event Clear Register (High Part): CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1010++0x3
line.long 0x00 "EDMA_TPCC_ESR,Event Set Register: CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1014++0x3
line.long 0x00 "EDMA_TPCC_ESRH,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
rgroup.long 0x1018++0x3
line.long 0x00 "EDMA_TPCC_CER,Chained Event Register: If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is returned fr..."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x101C++0x3
line.long 0x00 "EDMA_TPCC_CERH,Chained Event Register (High Part): If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code i..."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
rgroup.long 0x1020++0x3
line.long 0x00 "EDMA_TPCC_EER,Event Enable Register: Enables DMA transfers for.En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). Note that if a bit..."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x1024++0x3
line.long 0x00 "EDMA_TPCC_EERH,Event Enable Register (High Part): Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). Note..."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1028++0x3
line.long 0x00 "EDMA_TPCC_EECR,Event Enable Clear Register CPU writes of '1' to the .En bit causes the .En bit to be cleared. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x102C++0x3
line.long 0x00 "EDMA_TPCC_EECRH,Event Enable Clear Register (High Part) CPU writes of '1' to the .En bit causes the EERH.En bit to be cleared. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1030++0x3
line.long 0x00 "EDMA_TPCC_EESR,Event Enable Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1034++0x3
line.long 0x00 "EDMA_TPCC_EESRH,Event Enable Set Register (High Part) CPU writes of '1' to the .En bit causes the .En bit to be set. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
rgroup.long 0x1038++0x3
line.long 0x00 "EDMA_TPCC_SER,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored in Even..."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x103C++0x3
line.long 0x00 "EDMA_TPCC_SERH,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently s..."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1040++0x3
line.long 0x00 "EDMA_TPCC_SECR,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '1' to the .En bit clears the register. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1044++0x3
line.long 0x00 "EDMA_TPCC_SECRH,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '1' to the .En bit clears the register. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
rgroup.long 0x1050++0x3
line.long 0x00 "EDMA_TPCC_IER,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. . In = 0: .In is NOT enabled for interrupts. . In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x1054++0x3
line.long 0x00 "EDMA_TPCC_IERH,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. . In = 0: .In is NOT enabled for interrupts. . In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x1058++0x3
line.long 0x00 "EDMA_TPCC_IECR,Int Enable Clear Register CPU writes of '1' to the .In bit causes the .In bit to be cleared. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x105C++0x3
line.long 0x00 "EDMA_TPCC_IECRH,Int Enable Clear Register (High Part) CPU write of '1' to the .In bit causes the .In bit to be cleared. CPU write of '0' has no effect.."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x1060++0x3
line.long 0x00 "EDMA_TPCC_IESR,Int Enable Set Register CPU write of '1' to the .In bit causes the .In bit to be set. CPU write of '0' has no effect.."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x1064++0x3
line.long 0x00 "EDMA_TPCC_IESRH,Int Enable Set Register (High Part) CPU write of '1' to the .In bit causes the .In bit to be set. CPU write of '0' has no effect.."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x1068++0x3
line.long 0x00 "EDMA_TPCC_IPR,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x106C++0x3
line.long 0x00 "EDMA_TPCC_IPRH,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. . In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x1070++0x3
line.long 0x00 "EDMA_TPCC_ICR,Interrupt Clear Register CPU write of '1' to the .In bit causes the .In bit to be cleared. CPU write of '0' has no effect. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x1074++0x3
line.long 0x00 "EDMA_TPCC_ICRH,Interrupt Clear Register (High Part) CPU write of '1' to the .In bit causes the .In bit to be cleared. CPU write of '0' has no effect. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x1078++0x3
line.long 0x00 "EDMA_TPCC_IEVAL,Interrupt Eval Register"
bitfld.long 0x00 1. " SET       ,Interrupt Set: CPU write of '1' to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). CPU write of '0' has no effect." "0,1"
bitfld.long 0x00 0. "                      EVAL       ,Interrupt Evaluate: CPU write of '1' to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). CPU write of '0' has no effect." "0,1"
rgroup.long 0x1080++0x3
line.long 0x00 "EDMA_TPCC_QER,QDMA Event Register: If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .En bit ..."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x1084++0x3
line.long 0x00 "EDMA_TPCC_QEER,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. QDMA channels can be enabled via writes to and can be disabled via writes to register. .En = 1, The corresponding QDMA..."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1088++0x3
line.long 0x00 "EDMA_TPCC_QEECR,QDMA Event Enable Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect.."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x108C++0x3
line.long 0x00 "EDMA_TPCC_QEESR,QDMA Event Enable Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect.."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x1090++0x3
line.long 0x00 "EDMA_TPCC_QSER,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1094++0x3
line.long 0x00 "EDMA_TPCC_QSECR,QDMA Secondary Event Clear Register The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear the .En register). CPU write of '1' to..."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
width 0x0B
tree.end
tree "DSP1_EDMA_TPCC"
base ad:0x40D10000
tree "DMA_Channel_0"
width 24.
group.long 0x4008++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_0,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4010++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_0,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x401C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_0,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x201C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_0,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2018++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_0,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4018++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_0,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x100++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_0,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x240++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_0,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "      E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "      E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x344++0x3
line.long 0x00 "EDMA_TPCC_DRAEHM_k_0,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enable..."
bitfld.long 0x00 31. " E63     ,DMA Region Access enable for Region M, bit #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,DMA Region Access enable for Region M, bit #62" "0,1"
bitfld.long 0x00 29. "      E61     ,DMA Region Access enable for Region M, bit #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,DMA Region Access enable for Region M, bit #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,DMA Region Access enable for Region M, bit #59" "0,1"
bitfld.long 0x00 26. "      E58     ,DMA Region Access enable for Region M, bit #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,DMA Region Access enable for Region M, bit #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,DMA Region Access enable for Region M, bit #56" "0,1"
bitfld.long 0x00 23. "      E55     ,DMA Region Access enable for Region M, bit #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,DMA Region Access enable for Region M, bit #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,DMA Region Access enable for Region M, bit #53" "0,1"
bitfld.long 0x00 20. "      E52     ,DMA Region Access enable for Region M, bit #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,DMA Region Access enable for Region M, bit #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,DMA Region Access enable for Region M, bit #50" "0,1"
bitfld.long 0x00 17. "      E49     ,DMA Region Access enable for Region M, bit #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,DMA Region Access enable for Region M, bit #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,DMA Region Access enable for Region M, bit #47" "0,1"
bitfld.long 0x00 14. "      E46     ,DMA Region Access enable for Region M, bit #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,DMA Region Access enable for Region M, bit #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,DMA Region Access enable for Region M, bit #44" "0,1"
bitfld.long 0x00 11. "      E43     ,DMA Region Access enable for Region M, bit #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,DMA Region Access enable for Region M, bit #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,DMA Region Access enable for Region M, bit #41" "0,1"
bitfld.long 0x00 8. "      E40     ,DMA Region Access enable for Region M, bit #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,DMA Region Access enable for Region M, bit #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,DMA Region Access enable for Region M, bit #38" "0,1"
bitfld.long 0x00 5. "      E37     ,DMA Region Access enable for Region M, bit #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,DMA Region Access enable for Region M, bit #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,DMA Region Access enable for Region M, bit #35" "0,1"
bitfld.long 0x00 2. "      E34     ,DMA Region Access enable for Region M, bit #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,DMA Region Access enable for Region M, bit #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,DMA Region Access enable for Region M, bit #32" "0,1"
group.long 0x340++0x3
line.long 0x00 "EDMA_TPCC_DRAEM_k_0,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled..."
bitfld.long 0x00 31. " E31     ,DMA Region Access enable for Region M, bit #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,DMA Region Access enable for Region M, bit #30" "0,1"
bitfld.long 0x00 29. "      E29     ,DMA Region Access enable for Region M, bit #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,DMA Region Access enable for Region M, bit #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,DMA Region Access enable for Region M, bit #27" "0,1"
bitfld.long 0x00 26. "      E26     ,DMA Region Access enable for Region M, bit #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,DMA Region Access enable for Region M, bit #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,DMA Region Access enable for Region M, bit #24" "0,1"
bitfld.long 0x00 23. "      E23     ,DMA Region Access enable for Region M, bit #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,DMA Region Access enable for Region M, bit #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,DMA Region Access enable for Region M, bit #21" "0,1"
bitfld.long 0x00 20. "      E20     ,DMA Region Access enable for Region M, bit #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,DMA Region Access enable for Region M, bit #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,DMA Region Access enable for Region M, bit #18" "0,1"
bitfld.long 0x00 17. "      E17     ,DMA Region Access enable for Region M, bit #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,DMA Region Access enable for Region M, bit #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,DMA Region Access enable for Region M, bit #15" "0,1"
bitfld.long 0x00 14. "      E14     ,DMA Region Access enable for Region M, bit #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,DMA Region Access enable for Region M, bit #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,DMA Region Access enable for Region M, bit #12" "0,1"
bitfld.long 0x00 11. "      E11     ,DMA Region Access enable for Region M, bit #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,DMA Region Access enable for Region M, bit #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,DMA Region Access enable for Region M, bit #9" "0,1"
bitfld.long 0x00 8. "      E8      ,DMA Region Access enable for Region M, bit #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,DMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,DMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "      E5      ,DMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,DMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,DMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "      E2      ,DMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,DMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,DMA Region Access enable for Region M, bit #0" "0,1"
group.long 0x400C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_0,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x200C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_0,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2008++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_0,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x202C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_0,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2028++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_0,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2024++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_0,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2020++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_0,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2034++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_0,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2030++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_0,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2004++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_0,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2000++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_0,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2014++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_0,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2010++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_0,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2074++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_0,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2070++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_0,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x205C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_0,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2058++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_0,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2054++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_0,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2050++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_0,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2064++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_0,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2060++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_0,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2078++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_0,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x206C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_0,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2068++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_0,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4014++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_0,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x810++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_0,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "      AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "      AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission se..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "      SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "      UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4000++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_0,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "     ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "      TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "     TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "      SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x400++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_0,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x440++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_0,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x200++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_0,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2088++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_0,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2084++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_0,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x208C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_0,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2080++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_0,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x380++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_0,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "      E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "      E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2094++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_0,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2090++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_0,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x600++0x3
line.long 0x00 "EDMA_TPCC_QSTATN_i_0,QSTATn Register Set"
bitfld.long 0x00 24. " THRXCD  ,Threshold Exceeded - . - . - THRXCD is cleared via. WMCLRn bit. . - ." "0,1"
bitfld.long 0x00 16.--20. "                     WM       ,Watermark for Maximum Queue Usage: Watermark tracks the most entries that have been in QueueN since reset or since the last time that the watermark (WM) was cleared. QSTATn. WM is cleared via EDMA_TPCC_CCERR.WMCLRn bit. L..." "empty,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,full,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "  NUMVAL  ,Number of Valid Entries in QueueN: Represents the total number of entries residing in the Queue Manager FIFO at a given instant. Always enabled. Legal values: = 0x0 (empty) to 0x10 (full) - . - ." "empty,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,full,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                 "
bitfld.long 0x00 0.--3. " STRTPTR ,Start Pointer: Represents the offset to the head entry of QueueN, in units of *entries*. Always enabled. Legal values: - . - ." "0th_entry,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15th_entry"
wgroup.long 0x2044++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_0,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2040++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_0,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x203C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_0,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2038++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_0,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4004++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_0,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_1"
width 24.
group.long 0x4028++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_1,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4030++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_1,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x403C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_1,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x221C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_1,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2218++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_1,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4038++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_1,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x104++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_1,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x244++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_1,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "      E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "      E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x34C++0x3
line.long 0x00 "EDMA_TPCC_DRAEHM_k_1,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enable..."
bitfld.long 0x00 31. " E63     ,DMA Region Access enable for Region M, bit #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,DMA Region Access enable for Region M, bit #62" "0,1"
bitfld.long 0x00 29. "      E61     ,DMA Region Access enable for Region M, bit #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,DMA Region Access enable for Region M, bit #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,DMA Region Access enable for Region M, bit #59" "0,1"
bitfld.long 0x00 26. "      E58     ,DMA Region Access enable for Region M, bit #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,DMA Region Access enable for Region M, bit #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,DMA Region Access enable for Region M, bit #56" "0,1"
bitfld.long 0x00 23. "      E55     ,DMA Region Access enable for Region M, bit #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,DMA Region Access enable for Region M, bit #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,DMA Region Access enable for Region M, bit #53" "0,1"
bitfld.long 0x00 20. "      E52     ,DMA Region Access enable for Region M, bit #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,DMA Region Access enable for Region M, bit #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,DMA Region Access enable for Region M, bit #50" "0,1"
bitfld.long 0x00 17. "      E49     ,DMA Region Access enable for Region M, bit #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,DMA Region Access enable for Region M, bit #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,DMA Region Access enable for Region M, bit #47" "0,1"
bitfld.long 0x00 14. "      E46     ,DMA Region Access enable for Region M, bit #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,DMA Region Access enable for Region M, bit #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,DMA Region Access enable for Region M, bit #44" "0,1"
bitfld.long 0x00 11. "      E43     ,DMA Region Access enable for Region M, bit #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,DMA Region Access enable for Region M, bit #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,DMA Region Access enable for Region M, bit #41" "0,1"
bitfld.long 0x00 8. "      E40     ,DMA Region Access enable for Region M, bit #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,DMA Region Access enable for Region M, bit #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,DMA Region Access enable for Region M, bit #38" "0,1"
bitfld.long 0x00 5. "      E37     ,DMA Region Access enable for Region M, bit #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,DMA Region Access enable for Region M, bit #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,DMA Region Access enable for Region M, bit #35" "0,1"
bitfld.long 0x00 2. "      E34     ,DMA Region Access enable for Region M, bit #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,DMA Region Access enable for Region M, bit #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,DMA Region Access enable for Region M, bit #32" "0,1"
group.long 0x348++0x3
line.long 0x00 "EDMA_TPCC_DRAEM_k_1,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled..."
bitfld.long 0x00 31. " E31     ,DMA Region Access enable for Region M, bit #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,DMA Region Access enable for Region M, bit #30" "0,1"
bitfld.long 0x00 29. "      E29     ,DMA Region Access enable for Region M, bit #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,DMA Region Access enable for Region M, bit #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,DMA Region Access enable for Region M, bit #27" "0,1"
bitfld.long 0x00 26. "      E26     ,DMA Region Access enable for Region M, bit #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,DMA Region Access enable for Region M, bit #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,DMA Region Access enable for Region M, bit #24" "0,1"
bitfld.long 0x00 23. "      E23     ,DMA Region Access enable for Region M, bit #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,DMA Region Access enable for Region M, bit #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,DMA Region Access enable for Region M, bit #21" "0,1"
bitfld.long 0x00 20. "      E20     ,DMA Region Access enable for Region M, bit #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,DMA Region Access enable for Region M, bit #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,DMA Region Access enable for Region M, bit #18" "0,1"
bitfld.long 0x00 17. "      E17     ,DMA Region Access enable for Region M, bit #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,DMA Region Access enable for Region M, bit #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,DMA Region Access enable for Region M, bit #15" "0,1"
bitfld.long 0x00 14. "      E14     ,DMA Region Access enable for Region M, bit #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,DMA Region Access enable for Region M, bit #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,DMA Region Access enable for Region M, bit #12" "0,1"
bitfld.long 0x00 11. "      E11     ,DMA Region Access enable for Region M, bit #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,DMA Region Access enable for Region M, bit #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,DMA Region Access enable for Region M, bit #9" "0,1"
bitfld.long 0x00 8. "      E8      ,DMA Region Access enable for Region M, bit #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,DMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,DMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "      E5      ,DMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,DMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,DMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "      E2      ,DMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,DMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,DMA Region Access enable for Region M, bit #0" "0,1"
group.long 0x402C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_1,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x220C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_1,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2208++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_1,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x222C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_1,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2228++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_1,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2224++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_1,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2220++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_1,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2234++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_1,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2230++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_1,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2204++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_1,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2200++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_1,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2214++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_1,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2210++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_1,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2274++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_1,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2270++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_1,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x225C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_1,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2258++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_1,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2254++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_1,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2250++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_1,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2264++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_1,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2260++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_1,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2278++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_1,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x226C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_1,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2268++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_1,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4034++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_1,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x814++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_1,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "      AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "      AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission se..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "      SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "      UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4020++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_1,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "     ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "      TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "     TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "      SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x404++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_1,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x444++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_1,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x204++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_1,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2288++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_1,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2284++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_1,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x228C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_1,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2280++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_1,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x384++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_1,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "      E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "      E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2294++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_1,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2290++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_1,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x604++0x3
line.long 0x00 "EDMA_TPCC_QSTATN_i_1,QSTATn Register Set"
bitfld.long 0x00 24. " THRXCD  ,Threshold Exceeded - . - . - THRXCD is cleared via. WMCLRn bit. . - ." "0,1"
bitfld.long 0x00 16.--20. "                     WM       ,Watermark for Maximum Queue Usage: Watermark tracks the most entries that have been in QueueN since reset or since the last time that the watermark (WM) was cleared. QSTATn. WM is cleared via EDMA_TPCC_CCERR.WMCLRn bit. L..." "empty,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,full,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "  NUMVAL  ,Number of Valid Entries in QueueN: Represents the total number of entries residing in the Queue Manager FIFO at a given instant. Always enabled. Legal values: = 0x0 (empty) to 0x10 (full) - . - ." "empty,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,full,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                 "
bitfld.long 0x00 0.--3. " STRTPTR ,Start Pointer: Represents the offset to the head entry of QueueN, in units of *entries*. Always enabled. Legal values: - . - ." "0th_entry,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15th_entry"
wgroup.long 0x2244++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_1,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2240++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_1,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x223C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_1,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2238++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_1,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4024++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_1,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_2"
width 24.
group.long 0x4048++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_2,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4050++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_2,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x405C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_2,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x241C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_2,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2418++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_2,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4058++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_2,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x108++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_2,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x248++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_2,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x354++0x3
line.long 0x00 "EDMA_TPCC_DRAEHM_k_2,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enable..."
bitfld.long 0x00 31. " E63     ,DMA Region Access enable for Region M, bit #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,DMA Region Access enable for Region M, bit #62" "0,1"
bitfld.long 0x00 29. "     E61     ,DMA Region Access enable for Region M, bit #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,DMA Region Access enable for Region M, bit #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,DMA Region Access enable for Region M, bit #59" "0,1"
bitfld.long 0x00 26. "     E58     ,DMA Region Access enable for Region M, bit #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,DMA Region Access enable for Region M, bit #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,DMA Region Access enable for Region M, bit #56" "0,1"
bitfld.long 0x00 23. "     E55     ,DMA Region Access enable for Region M, bit #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,DMA Region Access enable for Region M, bit #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,DMA Region Access enable for Region M, bit #53" "0,1"
bitfld.long 0x00 20. "     E52     ,DMA Region Access enable for Region M, bit #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,DMA Region Access enable for Region M, bit #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,DMA Region Access enable for Region M, bit #50" "0,1"
bitfld.long 0x00 17. "     E49     ,DMA Region Access enable for Region M, bit #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,DMA Region Access enable for Region M, bit #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,DMA Region Access enable for Region M, bit #47" "0,1"
bitfld.long 0x00 14. "     E46     ,DMA Region Access enable for Region M, bit #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,DMA Region Access enable for Region M, bit #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,DMA Region Access enable for Region M, bit #44" "0,1"
bitfld.long 0x00 11. "     E43     ,DMA Region Access enable for Region M, bit #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,DMA Region Access enable for Region M, bit #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,DMA Region Access enable for Region M, bit #41" "0,1"
bitfld.long 0x00 8. "     E40     ,DMA Region Access enable for Region M, bit #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,DMA Region Access enable for Region M, bit #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,DMA Region Access enable for Region M, bit #38" "0,1"
bitfld.long 0x00 5. "     E37     ,DMA Region Access enable for Region M, bit #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,DMA Region Access enable for Region M, bit #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,DMA Region Access enable for Region M, bit #35" "0,1"
bitfld.long 0x00 2. "     E34     ,DMA Region Access enable for Region M, bit #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,DMA Region Access enable for Region M, bit #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,DMA Region Access enable for Region M, bit #32" "0,1"
group.long 0x350++0x3
line.long 0x00 "EDMA_TPCC_DRAEM_k_2,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled..."
bitfld.long 0x00 31. " E31     ,DMA Region Access enable for Region M, bit #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,DMA Region Access enable for Region M, bit #30" "0,1"
bitfld.long 0x00 29. "     E29     ,DMA Region Access enable for Region M, bit #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,DMA Region Access enable for Region M, bit #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,DMA Region Access enable for Region M, bit #27" "0,1"
bitfld.long 0x00 26. "     E26     ,DMA Region Access enable for Region M, bit #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,DMA Region Access enable for Region M, bit #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,DMA Region Access enable for Region M, bit #24" "0,1"
bitfld.long 0x00 23. "     E23     ,DMA Region Access enable for Region M, bit #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,DMA Region Access enable for Region M, bit #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,DMA Region Access enable for Region M, bit #21" "0,1"
bitfld.long 0x00 20. "     E20     ,DMA Region Access enable for Region M, bit #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,DMA Region Access enable for Region M, bit #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,DMA Region Access enable for Region M, bit #18" "0,1"
bitfld.long 0x00 17. "     E17     ,DMA Region Access enable for Region M, bit #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,DMA Region Access enable for Region M, bit #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,DMA Region Access enable for Region M, bit #15" "0,1"
bitfld.long 0x00 14. "     E14     ,DMA Region Access enable for Region M, bit #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,DMA Region Access enable for Region M, bit #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,DMA Region Access enable for Region M, bit #12" "0,1"
bitfld.long 0x00 11. "     E11     ,DMA Region Access enable for Region M, bit #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,DMA Region Access enable for Region M, bit #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,DMA Region Access enable for Region M, bit #9" "0,1"
bitfld.long 0x00 8. "     E8      ,DMA Region Access enable for Region M, bit #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,DMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,DMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,DMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,DMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,DMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,DMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,DMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,DMA Region Access enable for Region M, bit #0" "0,1"
group.long 0x404C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_2,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x240C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_2,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2408++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_2,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x242C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_2,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2428++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_2,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2424++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_2,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2420++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_2,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2434++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_2,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2430++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_2,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2404++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_2,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2400++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_2,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2414++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_2,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2410++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_2,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2474++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_2,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2470++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_2,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x245C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_2,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2458++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_2,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2454++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_2,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2450++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_2,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2464++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_2,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2460++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_2,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2478++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_2,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x246C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_2,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2468++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_2,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4054++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_2,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x818++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_2,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4040++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_2,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x408++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_2,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x448++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_2,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x208++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_2,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2488++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_2,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2484++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_2,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x248C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_2,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2480++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_2,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x388++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_2,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2494++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_2,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2490++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_2,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2444++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_2,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2440++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_2,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x243C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_2,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2438++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_2,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4044++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_2,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_3"
width 24.
group.long 0x4068++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_3,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4070++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_3,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x407C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_3,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x261C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_3,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2618++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_3,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4078++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_3,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x10C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_3,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x24C++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_3,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x35C++0x3
line.long 0x00 "EDMA_TPCC_DRAEHM_k_3,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enable..."
bitfld.long 0x00 31. " E63     ,DMA Region Access enable for Region M, bit #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,DMA Region Access enable for Region M, bit #62" "0,1"
bitfld.long 0x00 29. "     E61     ,DMA Region Access enable for Region M, bit #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,DMA Region Access enable for Region M, bit #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,DMA Region Access enable for Region M, bit #59" "0,1"
bitfld.long 0x00 26. "     E58     ,DMA Region Access enable for Region M, bit #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,DMA Region Access enable for Region M, bit #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,DMA Region Access enable for Region M, bit #56" "0,1"
bitfld.long 0x00 23. "     E55     ,DMA Region Access enable for Region M, bit #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,DMA Region Access enable for Region M, bit #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,DMA Region Access enable for Region M, bit #53" "0,1"
bitfld.long 0x00 20. "     E52     ,DMA Region Access enable for Region M, bit #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,DMA Region Access enable for Region M, bit #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,DMA Region Access enable for Region M, bit #50" "0,1"
bitfld.long 0x00 17. "     E49     ,DMA Region Access enable for Region M, bit #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,DMA Region Access enable for Region M, bit #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,DMA Region Access enable for Region M, bit #47" "0,1"
bitfld.long 0x00 14. "     E46     ,DMA Region Access enable for Region M, bit #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,DMA Region Access enable for Region M, bit #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,DMA Region Access enable for Region M, bit #44" "0,1"
bitfld.long 0x00 11. "     E43     ,DMA Region Access enable for Region M, bit #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,DMA Region Access enable for Region M, bit #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,DMA Region Access enable for Region M, bit #41" "0,1"
bitfld.long 0x00 8. "     E40     ,DMA Region Access enable for Region M, bit #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,DMA Region Access enable for Region M, bit #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,DMA Region Access enable for Region M, bit #38" "0,1"
bitfld.long 0x00 5. "     E37     ,DMA Region Access enable for Region M, bit #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,DMA Region Access enable for Region M, bit #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,DMA Region Access enable for Region M, bit #35" "0,1"
bitfld.long 0x00 2. "     E34     ,DMA Region Access enable for Region M, bit #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,DMA Region Access enable for Region M, bit #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,DMA Region Access enable for Region M, bit #32" "0,1"
group.long 0x358++0x3
line.long 0x00 "EDMA_TPCC_DRAEM_k_3,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled..."
bitfld.long 0x00 31. " E31     ,DMA Region Access enable for Region M, bit #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,DMA Region Access enable for Region M, bit #30" "0,1"
bitfld.long 0x00 29. "     E29     ,DMA Region Access enable for Region M, bit #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,DMA Region Access enable for Region M, bit #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,DMA Region Access enable for Region M, bit #27" "0,1"
bitfld.long 0x00 26. "     E26     ,DMA Region Access enable for Region M, bit #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,DMA Region Access enable for Region M, bit #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,DMA Region Access enable for Region M, bit #24" "0,1"
bitfld.long 0x00 23. "     E23     ,DMA Region Access enable for Region M, bit #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,DMA Region Access enable for Region M, bit #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,DMA Region Access enable for Region M, bit #21" "0,1"
bitfld.long 0x00 20. "     E20     ,DMA Region Access enable for Region M, bit #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,DMA Region Access enable for Region M, bit #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,DMA Region Access enable for Region M, bit #18" "0,1"
bitfld.long 0x00 17. "     E17     ,DMA Region Access enable for Region M, bit #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,DMA Region Access enable for Region M, bit #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,DMA Region Access enable for Region M, bit #15" "0,1"
bitfld.long 0x00 14. "     E14     ,DMA Region Access enable for Region M, bit #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,DMA Region Access enable for Region M, bit #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,DMA Region Access enable for Region M, bit #12" "0,1"
bitfld.long 0x00 11. "     E11     ,DMA Region Access enable for Region M, bit #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,DMA Region Access enable for Region M, bit #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,DMA Region Access enable for Region M, bit #9" "0,1"
bitfld.long 0x00 8. "     E8      ,DMA Region Access enable for Region M, bit #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,DMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,DMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,DMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,DMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,DMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,DMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,DMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,DMA Region Access enable for Region M, bit #0" "0,1"
group.long 0x406C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_3,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x260C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_3,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2608++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_3,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x262C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_3,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2628++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_3,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2624++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_3,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2620++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_3,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2634++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_3,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2630++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_3,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2604++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_3,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2600++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_3,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2614++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_3,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2610++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_3,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2674++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_3,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2670++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_3,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x265C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_3,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2658++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_3,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2654++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_3,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2650++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_3,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2664++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_3,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2660++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_3,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2678++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_3,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x266C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_3,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2668++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_3,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4074++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_3,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x81C++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_3,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4060++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_3,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x40C++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_3,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x44C++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_3,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x20C++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_3,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2688++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_3,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2684++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_3,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x268C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_3,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2680++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_3,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x38C++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_3,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2694++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_3,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2690++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_3,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2644++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_3,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2640++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_3,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x263C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_3,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2638++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_3,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4064++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_3,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_4"
width 24.
group.long 0x4088++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_4,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4090++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_4,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x409C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_4,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x281C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_4,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2818++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_4,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4098++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_4,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x110++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_4,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x250++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_4,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x364++0x3
line.long 0x00 "EDMA_TPCC_DRAEHM_k_4,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enable..."
bitfld.long 0x00 31. " E63     ,DMA Region Access enable for Region M, bit #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,DMA Region Access enable for Region M, bit #62" "0,1"
bitfld.long 0x00 29. "     E61     ,DMA Region Access enable for Region M, bit #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,DMA Region Access enable for Region M, bit #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,DMA Region Access enable for Region M, bit #59" "0,1"
bitfld.long 0x00 26. "     E58     ,DMA Region Access enable for Region M, bit #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,DMA Region Access enable for Region M, bit #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,DMA Region Access enable for Region M, bit #56" "0,1"
bitfld.long 0x00 23. "     E55     ,DMA Region Access enable for Region M, bit #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,DMA Region Access enable for Region M, bit #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,DMA Region Access enable for Region M, bit #53" "0,1"
bitfld.long 0x00 20. "     E52     ,DMA Region Access enable for Region M, bit #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,DMA Region Access enable for Region M, bit #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,DMA Region Access enable for Region M, bit #50" "0,1"
bitfld.long 0x00 17. "     E49     ,DMA Region Access enable for Region M, bit #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,DMA Region Access enable for Region M, bit #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,DMA Region Access enable for Region M, bit #47" "0,1"
bitfld.long 0x00 14. "     E46     ,DMA Region Access enable for Region M, bit #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,DMA Region Access enable for Region M, bit #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,DMA Region Access enable for Region M, bit #44" "0,1"
bitfld.long 0x00 11. "     E43     ,DMA Region Access enable for Region M, bit #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,DMA Region Access enable for Region M, bit #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,DMA Region Access enable for Region M, bit #41" "0,1"
bitfld.long 0x00 8. "     E40     ,DMA Region Access enable for Region M, bit #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,DMA Region Access enable for Region M, bit #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,DMA Region Access enable for Region M, bit #38" "0,1"
bitfld.long 0x00 5. "     E37     ,DMA Region Access enable for Region M, bit #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,DMA Region Access enable for Region M, bit #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,DMA Region Access enable for Region M, bit #35" "0,1"
bitfld.long 0x00 2. "     E34     ,DMA Region Access enable for Region M, bit #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,DMA Region Access enable for Region M, bit #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,DMA Region Access enable for Region M, bit #32" "0,1"
group.long 0x360++0x3
line.long 0x00 "EDMA_TPCC_DRAEM_k_4,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled..."
bitfld.long 0x00 31. " E31     ,DMA Region Access enable for Region M, bit #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,DMA Region Access enable for Region M, bit #30" "0,1"
bitfld.long 0x00 29. "     E29     ,DMA Region Access enable for Region M, bit #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,DMA Region Access enable for Region M, bit #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,DMA Region Access enable for Region M, bit #27" "0,1"
bitfld.long 0x00 26. "     E26     ,DMA Region Access enable for Region M, bit #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,DMA Region Access enable for Region M, bit #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,DMA Region Access enable for Region M, bit #24" "0,1"
bitfld.long 0x00 23. "     E23     ,DMA Region Access enable for Region M, bit #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,DMA Region Access enable for Region M, bit #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,DMA Region Access enable for Region M, bit #21" "0,1"
bitfld.long 0x00 20. "     E20     ,DMA Region Access enable for Region M, bit #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,DMA Region Access enable for Region M, bit #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,DMA Region Access enable for Region M, bit #18" "0,1"
bitfld.long 0x00 17. "     E17     ,DMA Region Access enable for Region M, bit #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,DMA Region Access enable for Region M, bit #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,DMA Region Access enable for Region M, bit #15" "0,1"
bitfld.long 0x00 14. "     E14     ,DMA Region Access enable for Region M, bit #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,DMA Region Access enable for Region M, bit #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,DMA Region Access enable for Region M, bit #12" "0,1"
bitfld.long 0x00 11. "     E11     ,DMA Region Access enable for Region M, bit #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,DMA Region Access enable for Region M, bit #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,DMA Region Access enable for Region M, bit #9" "0,1"
bitfld.long 0x00 8. "     E8      ,DMA Region Access enable for Region M, bit #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,DMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,DMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,DMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,DMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,DMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,DMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,DMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,DMA Region Access enable for Region M, bit #0" "0,1"
group.long 0x408C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_4,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x280C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_4,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2808++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_4,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x282C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_4,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2828++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_4,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2824++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_4,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2820++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_4,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2834++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_4,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2830++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_4,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2804++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_4,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2800++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_4,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2814++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_4,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2810++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_4,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2874++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_4,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2870++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_4,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x285C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_4,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2858++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_4,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2854++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_4,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2850++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_4,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2864++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_4,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2860++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_4,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2878++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_4,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x286C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_4,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2868++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_4,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4094++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_4,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x820++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_4,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4080++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_4,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x410++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_4,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x450++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_4,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
wgroup.long 0x2888++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_4,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2884++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_4,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x288C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_4,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2880++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_4,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x390++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_4,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2894++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_4,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2890++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_4,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2844++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_4,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2840++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_4,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x283C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_4,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2838++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_4,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4084++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_4,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_5"
width 24.
group.long 0x40A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_5,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x40B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_5,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x40BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_5,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x2A1C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_5,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2A18++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_5,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_5,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x114++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_5,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x254++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_5,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x36C++0x3
line.long 0x00 "EDMA_TPCC_DRAEHM_k_5,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enable..."
bitfld.long 0x00 31. " E63     ,DMA Region Access enable for Region M, bit #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,DMA Region Access enable for Region M, bit #62" "0,1"
bitfld.long 0x00 29. "     E61     ,DMA Region Access enable for Region M, bit #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,DMA Region Access enable for Region M, bit #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,DMA Region Access enable for Region M, bit #59" "0,1"
bitfld.long 0x00 26. "     E58     ,DMA Region Access enable for Region M, bit #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,DMA Region Access enable for Region M, bit #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,DMA Region Access enable for Region M, bit #56" "0,1"
bitfld.long 0x00 23. "     E55     ,DMA Region Access enable for Region M, bit #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,DMA Region Access enable for Region M, bit #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,DMA Region Access enable for Region M, bit #53" "0,1"
bitfld.long 0x00 20. "     E52     ,DMA Region Access enable for Region M, bit #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,DMA Region Access enable for Region M, bit #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,DMA Region Access enable for Region M, bit #50" "0,1"
bitfld.long 0x00 17. "     E49     ,DMA Region Access enable for Region M, bit #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,DMA Region Access enable for Region M, bit #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,DMA Region Access enable for Region M, bit #47" "0,1"
bitfld.long 0x00 14. "     E46     ,DMA Region Access enable for Region M, bit #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,DMA Region Access enable for Region M, bit #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,DMA Region Access enable for Region M, bit #44" "0,1"
bitfld.long 0x00 11. "     E43     ,DMA Region Access enable for Region M, bit #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,DMA Region Access enable for Region M, bit #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,DMA Region Access enable for Region M, bit #41" "0,1"
bitfld.long 0x00 8. "     E40     ,DMA Region Access enable for Region M, bit #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,DMA Region Access enable for Region M, bit #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,DMA Region Access enable for Region M, bit #38" "0,1"
bitfld.long 0x00 5. "     E37     ,DMA Region Access enable for Region M, bit #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,DMA Region Access enable for Region M, bit #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,DMA Region Access enable for Region M, bit #35" "0,1"
bitfld.long 0x00 2. "     E34     ,DMA Region Access enable for Region M, bit #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,DMA Region Access enable for Region M, bit #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,DMA Region Access enable for Region M, bit #32" "0,1"
group.long 0x368++0x3
line.long 0x00 "EDMA_TPCC_DRAEM_k_5,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled..."
bitfld.long 0x00 31. " E31     ,DMA Region Access enable for Region M, bit #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,DMA Region Access enable for Region M, bit #30" "0,1"
bitfld.long 0x00 29. "     E29     ,DMA Region Access enable for Region M, bit #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,DMA Region Access enable for Region M, bit #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,DMA Region Access enable for Region M, bit #27" "0,1"
bitfld.long 0x00 26. "     E26     ,DMA Region Access enable for Region M, bit #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,DMA Region Access enable for Region M, bit #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,DMA Region Access enable for Region M, bit #24" "0,1"
bitfld.long 0x00 23. "     E23     ,DMA Region Access enable for Region M, bit #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,DMA Region Access enable for Region M, bit #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,DMA Region Access enable for Region M, bit #21" "0,1"
bitfld.long 0x00 20. "     E20     ,DMA Region Access enable for Region M, bit #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,DMA Region Access enable for Region M, bit #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,DMA Region Access enable for Region M, bit #18" "0,1"
bitfld.long 0x00 17. "     E17     ,DMA Region Access enable for Region M, bit #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,DMA Region Access enable for Region M, bit #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,DMA Region Access enable for Region M, bit #15" "0,1"
bitfld.long 0x00 14. "     E14     ,DMA Region Access enable for Region M, bit #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,DMA Region Access enable for Region M, bit #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,DMA Region Access enable for Region M, bit #12" "0,1"
bitfld.long 0x00 11. "     E11     ,DMA Region Access enable for Region M, bit #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,DMA Region Access enable for Region M, bit #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,DMA Region Access enable for Region M, bit #9" "0,1"
bitfld.long 0x00 8. "     E8      ,DMA Region Access enable for Region M, bit #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,DMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,DMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,DMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,DMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,DMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,DMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,DMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,DMA Region Access enable for Region M, bit #0" "0,1"
group.long 0x40AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_5,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x2A0C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_5,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A08++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_5,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A2C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_5,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A28++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_5,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A24++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_5,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2A20++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_5,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A34++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_5,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A30++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_5,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A04++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_5,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2A00++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_5,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A14++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_5,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A10++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_5,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A74++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_5,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2A70++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_5,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2A5C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_5,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2A58++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_5,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2A54++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_5,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2A50++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_5,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2A64++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_5,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2A60++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_5,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2A78++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_5,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x2A6C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_5,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2A68++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_5,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x40B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_5,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x824++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_5,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x40A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_5,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x414++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_5,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x454++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_5,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
wgroup.long 0x2A88++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_5,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A84++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_5,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A8C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_5,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A80++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_5,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x394++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_5,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2A94++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_5,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A90++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_5,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A44++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_5,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A40++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_5,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A3C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_5,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2A38++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_5,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_5,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_6"
width 24.
group.long 0x40C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_6,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x40D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_6,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x40DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_6,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x2C1C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_6,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2C18++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_6,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_6,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x118++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_6,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x258++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_6,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x374++0x3
line.long 0x00 "EDMA_TPCC_DRAEHM_k_6,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enable..."
bitfld.long 0x00 31. " E63     ,DMA Region Access enable for Region M, bit #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,DMA Region Access enable for Region M, bit #62" "0,1"
bitfld.long 0x00 29. "     E61     ,DMA Region Access enable for Region M, bit #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,DMA Region Access enable for Region M, bit #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,DMA Region Access enable for Region M, bit #59" "0,1"
bitfld.long 0x00 26. "     E58     ,DMA Region Access enable for Region M, bit #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,DMA Region Access enable for Region M, bit #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,DMA Region Access enable for Region M, bit #56" "0,1"
bitfld.long 0x00 23. "     E55     ,DMA Region Access enable for Region M, bit #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,DMA Region Access enable for Region M, bit #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,DMA Region Access enable for Region M, bit #53" "0,1"
bitfld.long 0x00 20. "     E52     ,DMA Region Access enable for Region M, bit #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,DMA Region Access enable for Region M, bit #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,DMA Region Access enable for Region M, bit #50" "0,1"
bitfld.long 0x00 17. "     E49     ,DMA Region Access enable for Region M, bit #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,DMA Region Access enable for Region M, bit #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,DMA Region Access enable for Region M, bit #47" "0,1"
bitfld.long 0x00 14. "     E46     ,DMA Region Access enable for Region M, bit #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,DMA Region Access enable for Region M, bit #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,DMA Region Access enable for Region M, bit #44" "0,1"
bitfld.long 0x00 11. "     E43     ,DMA Region Access enable for Region M, bit #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,DMA Region Access enable for Region M, bit #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,DMA Region Access enable for Region M, bit #41" "0,1"
bitfld.long 0x00 8. "     E40     ,DMA Region Access enable for Region M, bit #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,DMA Region Access enable for Region M, bit #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,DMA Region Access enable for Region M, bit #38" "0,1"
bitfld.long 0x00 5. "     E37     ,DMA Region Access enable for Region M, bit #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,DMA Region Access enable for Region M, bit #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,DMA Region Access enable for Region M, bit #35" "0,1"
bitfld.long 0x00 2. "     E34     ,DMA Region Access enable for Region M, bit #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,DMA Region Access enable for Region M, bit #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,DMA Region Access enable for Region M, bit #32" "0,1"
group.long 0x370++0x3
line.long 0x00 "EDMA_TPCC_DRAEM_k_6,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled..."
bitfld.long 0x00 31. " E31     ,DMA Region Access enable for Region M, bit #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,DMA Region Access enable for Region M, bit #30" "0,1"
bitfld.long 0x00 29. "     E29     ,DMA Region Access enable for Region M, bit #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,DMA Region Access enable for Region M, bit #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,DMA Region Access enable for Region M, bit #27" "0,1"
bitfld.long 0x00 26. "     E26     ,DMA Region Access enable for Region M, bit #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,DMA Region Access enable for Region M, bit #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,DMA Region Access enable for Region M, bit #24" "0,1"
bitfld.long 0x00 23. "     E23     ,DMA Region Access enable for Region M, bit #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,DMA Region Access enable for Region M, bit #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,DMA Region Access enable for Region M, bit #21" "0,1"
bitfld.long 0x00 20. "     E20     ,DMA Region Access enable for Region M, bit #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,DMA Region Access enable for Region M, bit #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,DMA Region Access enable for Region M, bit #18" "0,1"
bitfld.long 0x00 17. "     E17     ,DMA Region Access enable for Region M, bit #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,DMA Region Access enable for Region M, bit #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,DMA Region Access enable for Region M, bit #15" "0,1"
bitfld.long 0x00 14. "     E14     ,DMA Region Access enable for Region M, bit #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,DMA Region Access enable for Region M, bit #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,DMA Region Access enable for Region M, bit #12" "0,1"
bitfld.long 0x00 11. "     E11     ,DMA Region Access enable for Region M, bit #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,DMA Region Access enable for Region M, bit #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,DMA Region Access enable for Region M, bit #9" "0,1"
bitfld.long 0x00 8. "     E8      ,DMA Region Access enable for Region M, bit #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,DMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,DMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,DMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,DMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,DMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,DMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,DMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,DMA Region Access enable for Region M, bit #0" "0,1"
group.long 0x40CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_6,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x2C0C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_6,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C08++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_6,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C2C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_6,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C28++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_6,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C24++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_6,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2C20++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_6,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C34++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_6,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C30++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_6,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C04++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_6,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2C00++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_6,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C14++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_6,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C10++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_6,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C74++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_6,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2C70++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_6,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2C5C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_6,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2C58++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_6,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2C54++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_6,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2C50++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_6,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2C64++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_6,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2C60++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_6,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2C78++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_6,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x2C6C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_6,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2C68++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_6,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x40D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_6,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x828++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_6,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x40C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_6,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x418++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_6,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x458++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_6,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
wgroup.long 0x2C88++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_6,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C84++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_6,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C8C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_6,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C80++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_6,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x398++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_6,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2C94++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_6,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C90++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_6,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C44++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_6,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C40++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_6,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C3C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_6,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2C38++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_6,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_6,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_7"
width 24.
group.long 0x40E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_7,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x40F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_7,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x40FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_7,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x2E1C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_7,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2E18++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_7,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_7,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x11C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_7,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x25C++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_7,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x37C++0x3
line.long 0x00 "EDMA_TPCC_DRAEHM_k_7,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enable..."
bitfld.long 0x00 31. " E63     ,DMA Region Access enable for Region M, bit #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,DMA Region Access enable for Region M, bit #62" "0,1"
bitfld.long 0x00 29. "     E61     ,DMA Region Access enable for Region M, bit #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,DMA Region Access enable for Region M, bit #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,DMA Region Access enable for Region M, bit #59" "0,1"
bitfld.long 0x00 26. "     E58     ,DMA Region Access enable for Region M, bit #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,DMA Region Access enable for Region M, bit #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,DMA Region Access enable for Region M, bit #56" "0,1"
bitfld.long 0x00 23. "     E55     ,DMA Region Access enable for Region M, bit #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,DMA Region Access enable for Region M, bit #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,DMA Region Access enable for Region M, bit #53" "0,1"
bitfld.long 0x00 20. "     E52     ,DMA Region Access enable for Region M, bit #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,DMA Region Access enable for Region M, bit #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,DMA Region Access enable for Region M, bit #50" "0,1"
bitfld.long 0x00 17. "     E49     ,DMA Region Access enable for Region M, bit #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,DMA Region Access enable for Region M, bit #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,DMA Region Access enable for Region M, bit #47" "0,1"
bitfld.long 0x00 14. "     E46     ,DMA Region Access enable for Region M, bit #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,DMA Region Access enable for Region M, bit #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,DMA Region Access enable for Region M, bit #44" "0,1"
bitfld.long 0x00 11. "     E43     ,DMA Region Access enable for Region M, bit #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,DMA Region Access enable for Region M, bit #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,DMA Region Access enable for Region M, bit #41" "0,1"
bitfld.long 0x00 8. "     E40     ,DMA Region Access enable for Region M, bit #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,DMA Region Access enable for Region M, bit #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,DMA Region Access enable for Region M, bit #38" "0,1"
bitfld.long 0x00 5. "     E37     ,DMA Region Access enable for Region M, bit #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,DMA Region Access enable for Region M, bit #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,DMA Region Access enable for Region M, bit #35" "0,1"
bitfld.long 0x00 2. "     E34     ,DMA Region Access enable for Region M, bit #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,DMA Region Access enable for Region M, bit #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,DMA Region Access enable for Region M, bit #32" "0,1"
group.long 0x378++0x3
line.long 0x00 "EDMA_TPCC_DRAEM_k_7,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled..."
bitfld.long 0x00 31. " E31     ,DMA Region Access enable for Region M, bit #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,DMA Region Access enable for Region M, bit #30" "0,1"
bitfld.long 0x00 29. "     E29     ,DMA Region Access enable for Region M, bit #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,DMA Region Access enable for Region M, bit #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,DMA Region Access enable for Region M, bit #27" "0,1"
bitfld.long 0x00 26. "     E26     ,DMA Region Access enable for Region M, bit #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,DMA Region Access enable for Region M, bit #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,DMA Region Access enable for Region M, bit #24" "0,1"
bitfld.long 0x00 23. "     E23     ,DMA Region Access enable for Region M, bit #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,DMA Region Access enable for Region M, bit #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,DMA Region Access enable for Region M, bit #21" "0,1"
bitfld.long 0x00 20. "     E20     ,DMA Region Access enable for Region M, bit #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,DMA Region Access enable for Region M, bit #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,DMA Region Access enable for Region M, bit #18" "0,1"
bitfld.long 0x00 17. "     E17     ,DMA Region Access enable for Region M, bit #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,DMA Region Access enable for Region M, bit #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,DMA Region Access enable for Region M, bit #15" "0,1"
bitfld.long 0x00 14. "     E14     ,DMA Region Access enable for Region M, bit #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,DMA Region Access enable for Region M, bit #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,DMA Region Access enable for Region M, bit #12" "0,1"
bitfld.long 0x00 11. "     E11     ,DMA Region Access enable for Region M, bit #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,DMA Region Access enable for Region M, bit #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,DMA Region Access enable for Region M, bit #9" "0,1"
bitfld.long 0x00 8. "     E8      ,DMA Region Access enable for Region M, bit #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,DMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,DMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,DMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,DMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,DMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,DMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,DMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,DMA Region Access enable for Region M, bit #0" "0,1"
group.long 0x40EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_7,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x2E0C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_7,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E08++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_7,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E2C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_7,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E28++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_7,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E24++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_7,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2E20++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_7,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E34++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_7,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E30++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_7,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E04++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_7,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2E00++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_7,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E14++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_7,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E10++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_7,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E74++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_7,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2E70++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_7,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2E5C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_7,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2E58++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_7,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2E54++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_7,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2E50++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_7,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2E64++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_7,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2E60++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_7,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2E78++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_7,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x2E6C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_7,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2E68++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_7,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x40F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_7,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x82C++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_7,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x40E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_7,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x41C++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_7,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x45C++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_7,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
wgroup.long 0x2E88++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_7,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E84++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_7,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E8C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_7,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E80++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_7,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x39C++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_7,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2E94++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_7,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E90++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_7,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E44++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_7,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E40++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_7,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E3C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_7,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2E38++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_7,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_7,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_8"
width 23.
group.long 0x4108++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_8,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4110++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_8,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x411C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_8,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4118++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_8,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x120++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_8,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x410C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_8,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4114++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_8,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4100++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_8,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x420++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_8,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x460++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_8,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x4104++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_8,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_9"
width 23.
group.long 0x4128++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_9,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4130++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_9,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x413C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_9,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4138++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_9,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x124++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_9,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x412C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_9,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4134++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_9,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4120++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_9,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x424++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_9,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x464++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_9,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x4124++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_9,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_10"
width 24.
group.long 0x4148++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_10,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4150++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_10,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x415C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_10,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4158++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_10,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x128++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_10,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x414C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_10,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4154++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_10,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4140++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_10,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x428++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_10,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x468++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_10,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x4144++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_10,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_11"
width 24.
group.long 0x4168++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_11,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4170++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_11,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x417C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_11,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4178++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_11,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x12C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_11,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x416C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_11,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4174++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_11,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4160++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_11,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x42C++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_11,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x46C++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_11,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x4164++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_11,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_12"
width 24.
group.long 0x4188++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_12,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4190++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_12,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x419C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_12,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4198++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_12,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x130++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_12,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x418C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_12,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4194++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_12,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4180++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_12,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x430++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_12,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x470++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_12,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x4184++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_12,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_13"
width 24.
group.long 0x41A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_13,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x41B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_13,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x41BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_13,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x41B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_13,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x134++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_13,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x41AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_13,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x41B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_13,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x41A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_13,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x434++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_13,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x474++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_13,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x41A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_13,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_14"
width 24.
group.long 0x41C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_14,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x41D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_14,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x41DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_14,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x41D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_14,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x138++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_14,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x41CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_14,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x41D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_14,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x41C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_14,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x438++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_14,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x478++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_14,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x41C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_14,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_15"
width 24.
group.long 0x41E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_15,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x41F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_15,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x41FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_15,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x41F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_15,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x13C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_15,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x41EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_15,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x41F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_15,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x41E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_15,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x43C++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_15,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x47C++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_15,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x41E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_15,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_16"
width 24.
group.long 0x4208++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_16,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4210++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_16,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x421C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_16,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4218++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_16,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x140++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_16,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x420C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_16,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4214++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_16,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4200++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_16,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4204++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_16,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_17"
width 24.
group.long 0x4228++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_17,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4230++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_17,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x423C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_17,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4238++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_17,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x144++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_17,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x422C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_17,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4234++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_17,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4220++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_17,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4224++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_17,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_18"
width 24.
group.long 0x4248++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_18,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4250++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_18,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x425C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_18,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4258++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_18,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x148++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_18,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x424C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_18,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4254++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_18,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4240++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_18,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4244++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_18,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_19"
width 24.
group.long 0x4268++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_19,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4270++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_19,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x427C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_19,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4278++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_19,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x14C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_19,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x426C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_19,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4274++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_19,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4260++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_19,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4264++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_19,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_20"
width 24.
group.long 0x4288++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_20,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4290++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_20,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x429C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_20,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4298++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_20,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x150++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_20,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x428C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_20,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4294++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_20,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4280++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_20,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4284++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_20,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_21"
width 24.
group.long 0x42A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_21,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x42B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_21,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x42BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_21,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x42B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_21,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x154++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_21,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x42AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_21,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x42B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_21,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x42A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_21,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x42A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_21,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_22"
width 24.
group.long 0x42C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_22,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x42D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_22,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x42DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_22,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x42D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_22,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x158++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_22,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x42CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_22,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x42D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_22,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x42C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_22,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x42C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_22,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_23"
width 24.
group.long 0x42E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_23,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x42F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_23,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x42FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_23,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x42F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_23,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x15C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_23,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x42EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_23,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x42F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_23,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x42E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_23,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x42E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_23,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_24"
width 24.
group.long 0x4308++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_24,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4310++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_24,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x431C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_24,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4318++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_24,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x160++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_24,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x430C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_24,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4314++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_24,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4300++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_24,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4304++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_24,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_25"
width 24.
group.long 0x4328++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_25,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4330++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_25,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x433C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_25,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4338++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_25,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x164++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_25,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x432C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_25,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4334++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_25,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4320++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_25,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4324++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_25,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_26"
width 24.
group.long 0x4348++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_26,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4350++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_26,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x435C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_26,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4358++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_26,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x168++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_26,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x434C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_26,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4354++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_26,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4340++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_26,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4344++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_26,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_27"
width 24.
group.long 0x4368++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_27,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4370++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_27,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x437C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_27,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4378++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_27,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x16C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_27,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x436C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_27,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4374++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_27,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4360++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_27,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4364++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_27,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_28"
width 24.
group.long 0x4388++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_28,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4390++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_28,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x439C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_28,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4398++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_28,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x170++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_28,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x438C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_28,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4394++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_28,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4380++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_28,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4384++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_28,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_29"
width 24.
group.long 0x43A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_29,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x43B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_29,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x43BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_29,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x43B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_29,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x174++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_29,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x43AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_29,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x43B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_29,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x43A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_29,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x43A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_29,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_30"
width 24.
group.long 0x43C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_30,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x43D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_30,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x43DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_30,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x43D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_30,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x178++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_30,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x43CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_30,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x43D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_30,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x43C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_30,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x43C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_30,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_31"
width 24.
group.long 0x43E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_31,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x43F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_31,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x43FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_31,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x43F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_31,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x17C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_31,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x43EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_31,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x43F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_31,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x43E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_31,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x43E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_31,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_32"
width 24.
group.long 0x4408++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_32,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4410++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_32,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x441C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_32,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4418++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_32,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x180++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_32,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x440C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_32,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4414++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_32,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4400++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_32,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4404++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_32,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_33"
width 24.
group.long 0x4428++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_33,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4430++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_33,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x443C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_33,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4438++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_33,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x184++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_33,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x442C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_33,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4434++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_33,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4420++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_33,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4424++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_33,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_34"
width 24.
group.long 0x4448++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_34,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4450++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_34,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x445C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_34,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4458++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_34,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x188++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_34,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x444C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_34,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4454++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_34,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4440++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_34,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4444++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_34,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_35"
width 24.
group.long 0x4468++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_35,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4470++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_35,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x447C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_35,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4478++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_35,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x18C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_35,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x446C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_35,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4474++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_35,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4460++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_35,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4464++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_35,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_36"
width 24.
group.long 0x4488++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_36,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4490++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_36,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x449C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_36,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4498++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_36,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x190++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_36,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x448C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_36,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4494++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_36,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4480++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_36,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4484++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_36,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_37"
width 24.
group.long 0x44A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_37,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x44B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_37,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x44BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_37,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x44B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_37,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x194++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_37,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x44AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_37,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x44B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_37,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x44A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_37,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x44A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_37,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_38"
width 24.
group.long 0x44C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_38,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x44D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_38,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x44DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_38,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x44D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_38,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x198++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_38,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x44CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_38,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x44D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_38,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x44C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_38,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x44C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_38,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_39"
width 24.
group.long 0x44E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_39,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x44F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_39,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x44FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_39,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x44F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_39,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x19C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_39,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x44EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_39,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x44F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_39,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x44E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_39,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x44E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_39,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_40"
width 24.
group.long 0x4508++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_40,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4510++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_40,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x451C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_40,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4518++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_40,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1A0++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_40,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x450C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_40,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4514++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_40,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4500++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_40,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4504++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_40,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_41"
width 24.
group.long 0x4528++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_41,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4530++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_41,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x453C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_41,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4538++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_41,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1A4++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_41,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x452C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_41,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4534++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_41,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4520++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_41,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4524++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_41,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_42"
width 24.
group.long 0x4548++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_42,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4550++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_42,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x455C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_42,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4558++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_42,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1A8++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_42,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x454C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_42,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4554++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_42,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4540++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_42,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4544++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_42,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_43"
width 24.
group.long 0x4568++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_43,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4570++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_43,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x457C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_43,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4578++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_43,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1AC++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_43,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x456C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_43,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4574++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_43,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4560++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_43,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4564++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_43,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_44"
width 24.
group.long 0x4588++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_44,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4590++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_44,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x459C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_44,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4598++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_44,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1B0++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_44,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x458C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_44,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4594++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_44,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4580++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_44,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4584++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_44,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_45"
width 24.
group.long 0x45A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_45,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x45B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_45,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x45BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_45,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x45B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_45,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1B4++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_45,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x45AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_45,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x45B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_45,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x45A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_45,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x45A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_45,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_46"
width 24.
group.long 0x45C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_46,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x45D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_46,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x45DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_46,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x45D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_46,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1B8++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_46,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x45CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_46,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x45D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_46,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x45C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_46,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x45C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_46,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_47"
width 24.
group.long 0x45E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_47,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x45F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_47,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x45FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_47,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x45F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_47,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1BC++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_47,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x45EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_47,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x45F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_47,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x45E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_47,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x45E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_47,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_48"
width 24.
group.long 0x4608++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_48,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4610++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_48,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x461C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_48,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4618++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_48,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1C0++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_48,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x460C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_48,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4614++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_48,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4600++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_48,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4604++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_48,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_49"
width 24.
group.long 0x4628++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_49,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4630++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_49,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x463C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_49,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4638++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_49,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1C4++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_49,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x462C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_49,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4634++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_49,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4620++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_49,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4624++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_49,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_50"
width 24.
group.long 0x4648++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_50,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4650++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_50,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x465C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_50,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4658++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_50,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1C8++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_50,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x464C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_50,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4654++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_50,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4640++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_50,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4644++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_50,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_51"
width 24.
group.long 0x4668++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_51,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4670++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_51,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x467C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_51,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4678++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_51,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1CC++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_51,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x466C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_51,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4674++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_51,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4660++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_51,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4664++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_51,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_52"
width 24.
group.long 0x4688++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_52,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4690++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_52,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x469C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_52,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4698++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_52,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1D0++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_52,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x468C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_52,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4694++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_52,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4680++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_52,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4684++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_52,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_53"
width 24.
group.long 0x46A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_53,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x46B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_53,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x46BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_53,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x46B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_53,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1D4++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_53,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x46AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_53,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x46B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_53,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x46A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_53,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x46A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_53,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_54"
width 24.
group.long 0x46C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_54,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x46D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_54,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x46DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_54,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x46D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_54,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1D8++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_54,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x46CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_54,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x46D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_54,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x46C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_54,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x46C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_54,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_55"
width 24.
group.long 0x46E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_55,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x46F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_55,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x46FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_55,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x46F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_55,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1DC++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_55,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x46EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_55,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x46F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_55,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x46E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_55,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x46E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_55,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_56"
width 24.
group.long 0x4708++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_56,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4710++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_56,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x471C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_56,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4718++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_56,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1E0++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_56,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x470C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_56,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4714++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_56,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4700++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_56,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4704++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_56,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_57"
width 24.
group.long 0x4728++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_57,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4730++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_57,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x473C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_57,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4738++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_57,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1E4++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_57,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x472C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_57,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4734++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_57,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4720++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_57,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4724++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_57,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_58"
width 24.
group.long 0x4748++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_58,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4750++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_58,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x475C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_58,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4758++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_58,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1E8++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_58,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x474C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_58,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4754++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_58,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4740++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_58,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4744++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_58,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_59"
width 24.
group.long 0x4768++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_59,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4770++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_59,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x477C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_59,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4778++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_59,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1EC++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_59,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x476C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_59,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4774++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_59,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4760++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_59,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4764++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_59,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_60"
width 24.
group.long 0x4788++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_60,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4790++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_60,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x479C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_60,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4798++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_60,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1F0++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_60,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x478C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_60,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4794++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_60,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4780++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_60,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4784++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_60,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_61"
width 24.
group.long 0x47A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_61,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x47B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_61,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x47BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_61,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x47B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_61,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1F4++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_61,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x47AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_61,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x47B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_61,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x47A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_61,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x47A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_61,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_62"
width 24.
group.long 0x47C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_62,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x47D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_62,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x47DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_62,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x47D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_62,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1F8++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_62,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x47CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_62,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x47D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_62,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x47C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_62,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x47C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_62,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_63"
width 24.
group.long 0x47E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_63,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x47F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_63,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x47FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_63,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x47F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_63,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1FC++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_63,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x47EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_63,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x47F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_63,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x47E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_63,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x47E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_63,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_64"
width 22.
group.long 0x4808++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_64,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4810++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_64,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x481C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_64,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4818++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_64,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x480C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_64,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4814++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_64,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4800++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_64,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4804++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_64,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_65"
width 22.
group.long 0x4828++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_65,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4830++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_65,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x483C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_65,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4838++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_65,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x482C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_65,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4834++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_65,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4820++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_65,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4824++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_65,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_66"
width 22.
group.long 0x4848++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_66,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4850++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_66,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x485C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_66,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4858++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_66,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x484C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_66,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4854++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_66,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4840++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_66,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4844++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_66,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_67"
width 22.
group.long 0x4868++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_67,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4870++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_67,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x487C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_67,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4878++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_67,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x486C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_67,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4874++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_67,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4860++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_67,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4864++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_67,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_68"
width 22.
group.long 0x4888++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_68,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4890++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_68,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x489C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_68,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4898++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_68,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x488C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_68,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4894++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_68,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4880++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_68,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4884++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_68,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_69"
width 22.
group.long 0x48A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_69,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x48B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_69,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x48BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_69,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x48B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_69,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x48AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_69,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x48B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_69,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x48A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_69,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x48A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_69,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_70"
width 22.
group.long 0x48C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_70,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x48D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_70,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x48DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_70,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x48D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_70,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x48CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_70,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x48D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_70,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x48C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_70,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x48C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_70,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_71"
width 22.
group.long 0x48E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_71,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x48F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_71,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x48FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_71,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x48F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_71,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x48EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_71,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x48F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_71,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x48E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_71,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x48E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_71,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_72"
width 22.
group.long 0x4908++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_72,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4910++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_72,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x491C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_72,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4918++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_72,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x490C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_72,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4914++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_72,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4900++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_72,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4904++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_72,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_73"
width 22.
group.long 0x4928++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_73,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4930++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_73,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x493C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_73,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4938++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_73,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x492C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_73,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4934++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_73,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4920++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_73,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4924++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_73,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_74"
width 22.
group.long 0x4948++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_74,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4950++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_74,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x495C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_74,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4958++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_74,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x494C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_74,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4954++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_74,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4940++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_74,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4944++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_74,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_75"
width 22.
group.long 0x4968++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_75,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4970++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_75,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x497C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_75,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4978++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_75,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x496C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_75,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4974++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_75,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4960++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_75,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4964++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_75,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_76"
width 22.
group.long 0x4988++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_76,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4990++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_76,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x499C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_76,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4998++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_76,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x498C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_76,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4994++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_76,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4980++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_76,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4984++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_76,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_77"
width 22.
group.long 0x49A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_77,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x49B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_77,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x49BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_77,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x49B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_77,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x49AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_77,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x49B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_77,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x49A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_77,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x49A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_77,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_78"
width 22.
group.long 0x49C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_78,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x49D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_78,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x49DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_78,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x49D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_78,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x49CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_78,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x49D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_78,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x49C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_78,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x49C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_78,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_79"
width 22.
group.long 0x49E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_79,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x49F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_79,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x49FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_79,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x49F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_79,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x49EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_79,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x49F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_79,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x49E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_79,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x49E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_79,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_80"
width 22.
group.long 0x4A08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_80,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_80,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_80,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_80,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_80,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_80,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_80,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_80,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_81"
width 22.
group.long 0x4A28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_81,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_81,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_81,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_81,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_81,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_81,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_81,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_81,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_82"
width 22.
group.long 0x4A48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_82,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_82,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_82,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_82,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_82,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_82,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_82,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_82,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_83"
width 22.
group.long 0x4A68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_83,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_83,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_83,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_83,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_83,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_83,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_83,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_83,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_84"
width 22.
group.long 0x4A88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_84,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_84,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_84,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_84,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_84,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_84,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_84,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_84,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_85"
width 22.
group.long 0x4AA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_85,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4AB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_85,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4ABC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_85,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4AB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_85,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4AAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_85,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4AB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_85,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4AA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_85,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4AA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_85,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_86"
width 22.
group.long 0x4AC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_86,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4AD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_86,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4ADC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_86,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4AD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_86,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4ACC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_86,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4AD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_86,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4AC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_86,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4AC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_86,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_87"
width 22.
group.long 0x4AE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_87,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4AF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_87,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4AFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_87,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4AF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_87,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4AEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_87,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4AF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_87,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4AE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_87,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4AE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_87,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_88"
width 22.
group.long 0x4B08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_88,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_88,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_88,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_88,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_88,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_88,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_88,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_88,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_89"
width 22.
group.long 0x4B28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_89,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_89,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_89,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_89,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_89,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_89,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_89,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_89,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_90"
width 22.
group.long 0x4B48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_90,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_90,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_90,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_90,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_90,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_90,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_90,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_90,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_91"
width 22.
group.long 0x4B68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_91,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_91,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_91,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_91,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_91,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_91,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_91,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_91,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_92"
width 22.
group.long 0x4B88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_92,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_92,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_92,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_92,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_92,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_92,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_92,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_92,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_93"
width 22.
group.long 0x4BA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_93,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4BB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_93,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4BBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_93,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4BB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_93,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4BAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_93,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4BB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_93,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4BA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_93,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4BA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_93,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_94"
width 22.
group.long 0x4BC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_94,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4BD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_94,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4BDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_94,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4BD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_94,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4BCC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_94,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4BD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_94,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4BC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_94,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4BC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_94,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_95"
width 22.
group.long 0x4BE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_95,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4BF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_95,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4BFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_95,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4BF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_95,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4BEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_95,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4BF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_95,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4BE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_95,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4BE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_95,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_96"
width 22.
group.long 0x4C08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_96,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_96,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_96,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_96,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_96,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_96,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_96,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_96,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_97"
width 22.
group.long 0x4C28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_97,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_97,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_97,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_97,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_97,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_97,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_97,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_97,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_98"
width 22.
group.long 0x4C48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_98,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_98,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_98,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_98,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_98,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_98,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_98,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_98,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_99"
width 22.
group.long 0x4C68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_99,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_99,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_99,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_99,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_99,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_99,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_99,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_99,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_100"
width 23.
group.long 0x4C88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_100,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_100,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_100,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_100,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_100,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_100,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_100,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_100,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_101"
width 23.
group.long 0x4CA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_101,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4CB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_101,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4CBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_101,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4CB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_101,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4CAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_101,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4CB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_101,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4CA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_101,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4CA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_101,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_102"
width 23.
group.long 0x4CC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_102,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4CD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_102,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4CDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_102,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4CD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_102,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4CCC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_102,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4CD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_102,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4CC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_102,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4CC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_102,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_103"
width 23.
group.long 0x4CE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_103,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4CF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_103,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4CFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_103,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4CF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_103,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4CEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_103,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4CF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_103,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4CE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_103,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4CE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_103,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_104"
width 23.
group.long 0x4D08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_104,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_104,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_104,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_104,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_104,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_104,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_104,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_104,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_105"
width 23.
group.long 0x4D28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_105,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_105,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_105,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_105,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_105,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_105,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_105,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_105,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_106"
width 23.
group.long 0x4D48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_106,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_106,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_106,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_106,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_106,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_106,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_106,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_106,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_107"
width 23.
group.long 0x4D68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_107,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_107,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_107,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_107,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_107,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_107,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_107,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_107,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_108"
width 23.
group.long 0x4D88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_108,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_108,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_108,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_108,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_108,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_108,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_108,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_108,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_109"
width 23.
group.long 0x4DA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_109,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4DB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_109,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4DBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_109,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4DB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_109,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4DAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_109,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4DB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_109,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4DA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_109,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4DA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_109,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_110"
width 23.
group.long 0x4DC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_110,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4DD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_110,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4DDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_110,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4DD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_110,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4DCC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_110,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4DD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_110,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4DC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_110,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4DC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_110,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_111"
width 23.
group.long 0x4DE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_111,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4DF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_111,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4DFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_111,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4DF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_111,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4DEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_111,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4DF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_111,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4DE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_111,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4DE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_111,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_112"
width 23.
group.long 0x4E08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_112,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_112,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_112,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_112,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_112,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_112,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_112,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_112,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_113"
width 23.
group.long 0x4E28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_113,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_113,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_113,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_113,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_113,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_113,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_113,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_113,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_114"
width 23.
group.long 0x4E48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_114,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_114,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_114,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_114,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_114,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_114,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_114,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_114,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_115"
width 23.
group.long 0x4E68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_115,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_115,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_115,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_115,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_115,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_115,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_115,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_115,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_116"
width 23.
group.long 0x4E88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_116,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_116,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_116,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_116,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_116,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_116,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_116,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_116,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_117"
width 23.
group.long 0x4EA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_117,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4EB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_117,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4EBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_117,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4EB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_117,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4EAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_117,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4EB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_117,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4EA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_117,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4EA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_117,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_118"
width 23.
group.long 0x4EC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_118,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4ED0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_118,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4EDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_118,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4ED8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_118,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4ECC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_118,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4ED4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_118,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4EC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_118,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4EC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_118,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_119"
width 23.
group.long 0x4EE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_119,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4EF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_119,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4EFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_119,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4EF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_119,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4EEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_119,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4EF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_119,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4EE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_119,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4EE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_119,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_120"
width 23.
group.long 0x4F08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_120,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_120,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_120,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_120,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_120,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_120,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_120,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_120,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_121"
width 23.
group.long 0x4F28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_121,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_121,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_121,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_121,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_121,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_121,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_121,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_121,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_122"
width 23.
group.long 0x4F48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_122,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_122,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_122,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_122,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_122,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_122,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_122,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_122,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_123"
width 23.
group.long 0x4F68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_123,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_123,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_123,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_123,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_123,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_123,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_123,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_123,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_124"
width 23.
group.long 0x4F88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_124,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_124,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_124,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_124,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_124,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_124,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_124,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_124,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_125"
width 23.
group.long 0x4FA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_125,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4FB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_125,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4FBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_125,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4FB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_125,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4FAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_125,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4FB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_125,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4FA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_125,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4FA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_125,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_126"
width 23.
group.long 0x4FC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_126,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4FD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_126,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4FDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_126,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4FD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_126,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4FCC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_126,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4FD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_126,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4FC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_126,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4FC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_126,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_127"
width 23.
group.long 0x4FE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_127,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4FF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_127,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4FFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_127,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4FF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_127,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4FEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_127,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4FF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_127,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4FE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_127,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4FE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_127,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
textline ""
width 20.
rgroup.long 0x0++0x3
line.long 0x00 "EDMA_TPCC_PID,Peripheral ID Register"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP revision"
rgroup.long 0x4++0x3
line.long 0x00 "EDMA_TPCC_CCCFG,CC Configuration Register"
bitfld.long 0x00 25. " MPEXIST   ,Memory Protection Existence - . - ." "No_mMemory_protection,1"
bitfld.long 0x00 24. "  CHMAPEXIST ,Channel Mapping Existence - . - ." "No_Channel_mapping.,1"
bitfld.long 0x00 20.--21. "  NUMREGN  ,Number of MP and Shadow regions" "0,1,2,3"
textline "                             "
bitfld.long 0x00 16.--18. " NUMTC     ,Number of Queues/Number of TCs" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                      NUMPAENTRY ,Number of PaRAM entries" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "                    NUMINTCH ,Number of Interrupt Channels" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 4.--6. " NUMQDMACH ,Number of QDMA Channels" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                      NUMDMACH   ,Number of DMA Channels" "0,1,2,3,4,5,6,7"
group.long 0xFC++0x3
line.long 0x00 "EDMA_TPCC_CLKGDIS,Auto Clock Gate Disable"
bitfld.long 0x00 0. " CLKGDIS   ,Auto Clock Gate Disable" "0,1"
group.long 0x260++0x3
line.long 0x00 "EDMA_TPCC_QDMAQNUM,QDMA Queue Number Register Contains the Event queue number to be used for the corresponding QDMA Channel."
bitfld.long 0x00 28.--30. " E7        ,QDMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                      E6         ,QDMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "                    E5       ,QDMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 16.--18. " E4        ,QDMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                      E3         ,QDMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "                    E2       ,QDMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 4.--6. " E1        ,QDMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                      E0         ,QDMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x280++0x3
line.long 0x00 "EDMA_TPCC_QUETCMAP,Queue to TC Mapping"
bitfld.long 0x00 4.--6. " TCNUMQ1   ,TC Number for Queue N: Defines the TC number that Event Queue N TRs are written to." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                      TCNUMQ0    ,TC Number for Queue N: Defines the TC number that Event Queue N TRs are written to." "0,1,2,3,4,5,6,7"
group.long 0x284++0x3
line.long 0x00 "EDMA_TPCC_QUEPRI,Queue Priority"
bitfld.long 0x00 4.--6. " PRIQ1     ,Priority Level for Queue 1 Dictates the priority level used for the OPTIONS field programmation for Qn TRs. Sets the priority used for TC read and write commands." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                      PRIQ0      ,Priority Level for Queue 0 Dictates the priority level used for the OPTIONS field programmation for Qn TRs. Sets the priority used for TC read and write commands." "0,1,2,3,4,5,6,7"
rgroup.long 0x300++0x3
line.long 0x00 "EDMA_TPCC_EMR,Event Missed Register: The Event Missed register is set if 2 events are received without the first event being cleared or if a Null TR is serviced. Chained events (CER), Set Events (ESR), and normal events (ER) are treated individually. I..."
bitfld.long 0x00 31. " E31       ,Event Missed #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event Missed #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event Missed #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event Missed #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event Missed #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event Missed #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event Missed #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event Missed #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event Missed #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event Missed #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event Missed #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event Missed #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event Missed #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event Missed #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event Missed #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event Missed #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event Missed #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event Missed #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event Missed #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event Missed #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event Missed #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event Missed #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event Missed #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event Missed #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event Missed #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event Missed #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event Missed #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event Missed #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event Missed #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event Missed #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event Missed #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event Missed #0" "0,1"
rgroup.long 0x304++0x3
line.long 0x00 "EDMA_TPCC_EMRH,Event Missed Register (High Part): The Event Missed register is set if 2 events are received without the first event being cleared or if a Null TR is serviced. Chained events (CER), Set Events (ESR), and normal events (ER) are treated in..."
bitfld.long 0x00 31. " E63       ,Event Missed #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event Missed #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event Missed #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event Missed #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event Missed #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event Missed #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event Missed #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event Missed #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event Missed #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event Missed #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event Missed #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event Missed #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event Missed #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event Missed #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event Missed #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event Missed #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event Missed #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event Missed #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event Missed #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event Missed #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event Missed #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event Missed #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event Missed #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event Missed #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event Missed #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event Missed #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event Missed #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event Missed #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event Missed #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event Missed #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event Missed #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event Missed #32" "0,1"
wgroup.long 0x308++0x3
line.long 0x00 "EDMA_TPCC_EMCR,Event Missed Clear Register: CPU write of '1' to the.En bit causes the .En bit to be cleared. CPU write of '0' has no effect.. All error bits must be cleared before additional error interrupts will be asserted by CC."
bitfld.long 0x00 31. " E31       ,Event Missed Clear #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event Missed Clear #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event Missed Clear #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event Missed Clear #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event Missed Clear #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event Missed Clear #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event Missed Clear #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event Missed Clear #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event Missed Clear #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event Missed Clear #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event Missed Clear #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event Missed Clear #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event Missed Clear #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event Missed Clear #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event Missed Clear #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event Missed Clear #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event Missed Clear #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event Missed Clear #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event Missed Clear #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event Missed Clear #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event Missed Clear #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event Missed Clear #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event Missed Clear #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event Missed Clear #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event Missed Clear #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event Missed Clear #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event Missed Clear #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event Missed Clear #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event Missed Clear #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event Missed Clear #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event Missed Clear #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event Missed Clear #0" "0,1"
wgroup.long 0x30C++0x3
line.long 0x00 "EDMA_TPCC_EMCRH,Event Missed Clear Register (High Part): CPU write of '1' to the.En bit causes the .En bit to be cleared. CPU write of '0' has no effect. All error bits must be cleared before additional error interrupts will be asserted by CC."
bitfld.long 0x00 31. " E63       ,Event Missed Clear #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event Missed Clear #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event Missed Clear #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event Missed Clear #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event Missed Clear #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event Missed Clear #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event Missed Clear #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event Missed Clear #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event Missed Clear #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event Missed Clear #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event Missed Clear #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event Missed Clear #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event Missed Clear #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event Missed Clear #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event Missed Clear #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event Missed Clear #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event Missed Clear #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event Missed Clear #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event Missed Clear #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event Missed Clear #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event Missed Clear #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event Missed Clear #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event Missed Clear #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event Missed Clear #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event Missed Clear #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event Missed Clear #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event Missed Clear #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event Missed Clear #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event Missed Clear #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event Missed Clear #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event Missed Clear #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event Missed Clear #32" "0,1"
rgroup.long 0x310++0x3
line.long 0x00 "EDMA_TPCC_QEMR,QDMA Event Missed Register: The QDMA Event Missed register is set if 2 QDMA events are detected without the first event being cleared or if a Null TR is serviced. If any bit in the register is set (and all errors (including / ) were prev..."
bitfld.long 0x00 7. " E7        ,Event Missed #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event Missed #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event Missed #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event Missed #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event Missed #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event Missed #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event Missed #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event Missed #0" "0,1"
wgroup.long 0x314++0x3
line.long 0x00 "EDMA_TPCC_QEMCR,QDMA Event Missed Clear Register: CPU write of '1' to the.En bit causes the .En bit to be cleared. CPU write of '0' has no effect. All error bits must be cleared before additional error interrupts will be asserted by CC."
bitfld.long 0x00 7. " E7        ,Event Missed Clear #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event Missed Clear #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event Missed Clear #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event Missed Clear #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event Missed Clear #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event Missed Clear #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event Missed Clear #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event Missed Clear #0" "0,1"
rgroup.long 0x318++0x3
line.long 0x00 "EDMA_TPCC_CCERR,CC Error Register"
bitfld.long 0x00 16. " TCERR     ,Transfer Completion Code Error - . - . - TCERR can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors were previously clear), then an error will be signaled with TPCC error interr..." "0,1"
bitfld.long 0x00 7. "                      QTHRXCD7   ,Queue Threshold Error for Q7 - . - . - QTHRXCD7 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error wi..." "0,1"
bitfld.long 0x00 6. "                    QTHRXCD6 ,Queue Threshold Error for Q6 - . - . - QTHRXCD6 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will b..." "0,1"
textline "                             "
bitfld.long 0x00 5. " QTHRXCD5  ,Queue Threshold Error for Q5 - . - . - QTHRXCD5 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will be signaled with th..." "0,1"
bitfld.long 0x00 4. "                      QTHRXCD4   ,Queue Threshold Error for Q4 - . - . - QTHRXCD4 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error wi..." "0,1"
bitfld.long 0x00 3. "                    QTHRXCD3 ,Queue Threshold Error for Q3 - . - . - QTHRXCD3 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will b..." "0,1"
textline "                             "
bitfld.long 0x00 2. " QTHRXCD2  ,Queue Threshold Error for Q2 - . - . - QTHRXCD2 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will be signaled with th..." "0,1"
bitfld.long 0x00 1. "                      QTHRXCD1   ,Queue Threshold Error for Q1 - . - . - QTHRXCD1 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error wi..." "0,1"
bitfld.long 0x00 0. "                    QTHRXCD0 ,Queue Threshold Error for Q0: - . - . - QTHRXCD0 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will ..." "0,1"
wgroup.long 0x31C++0x3
line.long 0x00 "EDMA_TPCC_CCERRCLR,CC Error Clear Register"
bitfld.long 0x00 16. " TCERR     ,Clear Error forEDMA_TPCC_CCERR[16] TR. - Write 0x1 to clear the value of[16] TCERR. . - . - Write 0x0 have no affect. . - ." "0,1"
bitfld.long 0x00 7. "                      QTHRXCD7   ,Clear error forEDMA_TPCC_CCERR[7]QTHRXCD7 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT7.WM, QSTAT7.THRXCD,[7] QTHRXCD7 . - ." "0,1"
bitfld.long 0x00 6. "                    QTHRXCD6 ,Clear error forEDMA_TPCC_CCERR[6] QTHRXCD6 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT6.WM, QSTAT6.THRXCD,[6]QTHRXCD6 . - ." "0,1"
textline "                             "
bitfld.long 0x00 5. " QTHRXCD5  ,Clear error forEDMA_TPCC_CCERR[5] QTHRXCD5 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT5.WM, QSTAT5.THRXCD,[5]QTHRXCD5 . - ." "0,1"
bitfld.long 0x00 4. "                      QTHRXCD4   ,Clear error forEDMA_TPCC_CCERR[4] QTHRXCD4: - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT4.WM, QSTAT4.THRXCD,[4] QTHRXCD4 . - ." "0,1"
bitfld.long 0x00 3. "                    QTHRXCD3 ,Clear error forEDMA_TPCC_CCERR[3] QTHRXCD3 - Write 0x1 to clear the values of QSTAT3.WM, QSTAT3.THRXCD,[3] QTHRXCD3 . - . - Write 0x0 have no affect. . - ." "0,1"
textline "                             "
bitfld.long 0x00 2. " QTHRXCD2  ,Clear error forEDMA_TPCC_CCERR[2] QTHRXCD2 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT2.WM, QSTAT2.THRXCD,[2] QTHRXCD2 . - ." "0,1"
bitfld.long 0x00 1. "                      QTHRXCD1   ,Clear error forEDMA_TPCC_CCERR[1] QTHRXCD1 - Write 0x1 to clear the values of QSTAT1.WM, QSTAT1.THRXCD,[1] QTHRXCD1 . - . - Write 0x0 have no affect. . - ." "0,1"
bitfld.long 0x00 0. "                    QTHRXCD0 ,Clear error forEDMA_TPCC_CCERR[0] QTHRXCD0 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT0.WM, QSTAT0.THRXCD,[0] QTHRXCD0 . - ." "0,1"
wgroup.long 0x320++0x3
line.long 0x00 "EDMA_TPCC_EEVAL,Error Eval Register"
bitfld.long 0x00 1. " SET       ,Error Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SET bit causes the TPCC error interrupt to be pulsed regardless of state of/, , or . . - ." "0,1"
bitfld.long 0x00 0. "                      EVAL       ,Error Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVAL bit causes the TPCC error interrupt to be pulsed if any errors have not been cleared in the/, , or registers. The CPU must als..." "0,1"
group.long 0x620++0x3
line.long 0x00 "EDMA_TPCC_QWMTHRA,Queue Threshold A, for Q[3:0]:.QTHRXCDn and QSTATn[24] THRXCD error bit is set when the number of Events in QueueN at an instant in time (visible via QSTATn[12:8] NUMVAL) equals or exceeds the value specified by .Qn. Legal values = 0x..."
bitfld.long 0x00 24.--28. " Q3        ,Queue Threshold for Q3 value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "                     Q2         ,Queue Threshold for Q2 value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "                   Q1       ,Queue Threshold for Q1 value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                             "
bitfld.long 0x00 0.--4. " Q0        ,Queue Threshold for Q0 value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x624++0x3
line.long 0x00 "EDMA_TPCC_QWMTHRB,Queue Threshold B, for Q[7:4]:.QTHRXCDn and QSTATn[24]THRXCD error bit is set when the number of Events in QueueN at an instant in time (visible via QSTATn[12:8] NUMVAL) equals or exceeds the value specified by QWMTHRB.Qn. Legal value..."
bitfld.long 0x00 24.--28. " Q7        ,Queue Threshold for Q7 value (unused in the context of IVAHD)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "                     Q6         ,Queue Threshold for Q6 value (unused in the context of IVAHD)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "                   Q5       ,Queue Threshold for Q5 value (unused in the context of IVAHD)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                             "
bitfld.long 0x00 0.--4. " Q4        ,Queue Threshold for Q4 value (unused in the context of IVAHD)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rgroup.long 0x640++0x3
line.long 0x00 "EDMA_TPCC_CCSTAT,CC Status Register"
bitfld.long 0x00 23. " QUEACTV7  ,Queue 7 Active - . - ." "0,1"
bitfld.long 0x00 22. "                      QUEACTV6   ,Queue 6 Active - . - ." "0,1"
bitfld.long 0x00 21. "                    QUEACTV5 ,Queue 5 Active - . - ." "0,1"
textline "                             "
bitfld.long 0x00 20. " QUEACTV4  ,Queue 4 Active - . - ." "0,1"
bitfld.long 0x00 19. "                      QUEACTV3   ,Queue 3 Active - . - ." "0,1"
bitfld.long 0x00 18. "                    QUEACTV2 ,Queue 2 Active QUEACTV2 = 0 : No Evts are queued in Q2. QUEACTV2 = 1 : At least one TR is queued in Q2. - . - ." "UNKN_MNEMO,UNKN_MNEMO"
textline "                             "
bitfld.long 0x00 17. " QUEACTV1  ,Queue 1 Active - . - ." "0,1"
bitfld.long 0x00 16. "                      QUEACTV0   ,Queue 0 Active - . - ." "0,1"
bitfld.long 0x00 8.--13. "                    COMPACTV ,Completion Request Active: Counter that tracks the total number of completion requests submitted to the TC. The counter increments when a TR is submitted with TCINTEN or TCCHEN set to '1'. The counter decrements for every ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                             "
bitfld.long 0x00 4. " ACTV      ,Channel Controller Active Channel Controller Active is a logical-OR of each of the *ACTV signals. The ACTV bit must remain high through the life of a: - . - ." "Channel_is_idle.,Channel_is_busy."
bitfld.long 0x00 2. "       TRACTV     ,Transfer Request Active TRACTV = 0 : Transfer Request processing/submission logic is inactive. TRACTV = 1 : Transfer Request processing/submission logic is active. - . - ." "UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 1. "           QEVTACTV ,QDMA Event Active - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0. " EVTACTV   ,DMA Event Active - . - ." "0,1"
group.long 0x700++0x3
line.long 0x00 "EDMA_TPCC_AETCTL,Advanced Event Trigger Control"
bitfld.long 0x00 31. " EN        ,AET Enable - . - ." "0,1"
bitfld.long 0x00 8.--13. "                      ENDINT     ,AET End Interrupt: Dictates the completion interrupt number that will force the tpcc_aet signal to be deasserted (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 6. "                   TYPE     ,AET Event Type - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0.--5. " STRTEVT   ,AET Start Event: Dictates the Event Number that will force the tpcc_aet signal to be asserted (high)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x704++0x3
line.long 0x00 "EDMA_TPCC_AETSTAT,Advanced Event Trigger Stat"
bitfld.long 0x00 0. " STAT      ,AET Status - . - ." "0,1"
wgroup.long 0x708++0x3
line.long 0x00 "EDMA_TPCC_AETCMD,AET Command"
bitfld.long 0x00 0. " CLR       ,AET Clear command - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the CLR bit causes the tpcc_aet output signal and[0]STAT register to be cleared. . - ." "0,1"
rgroup.long 0x800++0x3
line.long 0x00 "EDMA_TPCC_MPFAR,MMemory Protection Fault Address"
hexmask.long 0x00 0.--31. 1. " FADDR     ,Fault Address: 32-bit read-only status register containing the faulting address when a mMemory protection violation is detected. This register can only be cleared via theEDMA_TPCC_MPFCR."
rgroup.long 0x804++0x3
line.long 0x00 "EDMA_TPCC_MPFSR,Memory Protection Fault Status Register"
bitfld.long 0x00 9.--12. " FID       ,Faulted ID: FID register contains valid info if any of the MP error bits (UXE, UWE, URE, SXE, SWE, SRE) are non-zero (i.e., if an error has been detected.) The FID field contains the VBus PrivID for the specific request/requestor that resul..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 5. "                     SRE        ,Supervisor Read Error - . - ." "No_error_detected.,1"
bitfld.long 0x00 4. "   SWE      ,Supervisor Write Error - . - ." "No_error_detected.,1"
textline "                             "
bitfld.long 0x00 3. " SXE       ,Supervisor Execute Error - . - ." "No_error_detected.,1"
bitfld.long 0x00 2. "     URE        ,User Read Error - . - ." "No_error_detected.,1"
bitfld.long 0x00 1. "   UWE      ,User Write Error - . - ." "No_error_detected.,1"
textline "                             "
bitfld.long 0x00 0. " UXE       ,User Execute Error - . - ." "No_error_detected,1"
wgroup.long 0x808++0x3
line.long 0x00 "EDMA_TPCC_MPFCR,Memory Protection Fault Command Register"
bitfld.long 0x00 0. " MPFCLR    ,Fault Clear register - . - ." "has_no_effect,1"
group.long 0x80C++0x3
line.long 0x00 "EDMA_TPCC_MPPAG,Memory Protection Page Attribute for Global registers"
bitfld.long 0x00 15. " AID5      ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                      AID4       ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "                    AID3     ,Allowed ID 3 - . - ." "0,1"
textline "                             "
bitfld.long 0x00 12. " AID2      ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                      AID1       ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "                    AID0     ,Allowed ID 0 - . - ." "0,1"
textline "                             "
bitfld.long 0x00 9. " EXT       ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                      SR         ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "                    SW       ,Supervisor Write permission - . - ." "0,1"
textline "                             "
bitfld.long 0x00 3. " SX        ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                      UR         ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "                    UW       ,User Write permission - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0. " UX        ,User Execute permission - . - ." "0,1"
rgroup.long 0x1000++0x3
line.long 0x00 "EDMA_TPCC_ER,Event Register: If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive (low) ..."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x1004++0x3
line.long 0x00 "EDMA_TPCC_ERH,Event Register (High Part): If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from in..."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1008++0x3
line.long 0x00 "EDMA_TPCC_ECR,Event Clear Register: CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x100C++0x3
line.long 0x00 "EDMA_TPCC_ECRH,Event Clear Register (High Part): CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1010++0x3
line.long 0x00 "EDMA_TPCC_ESR,Event Set Register: CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1014++0x3
line.long 0x00 "EDMA_TPCC_ESRH,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
rgroup.long 0x1018++0x3
line.long 0x00 "EDMA_TPCC_CER,Chained Event Register: If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is returned fr..."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x101C++0x3
line.long 0x00 "EDMA_TPCC_CERH,Chained Event Register (High Part): If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code i..."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
rgroup.long 0x1020++0x3
line.long 0x00 "EDMA_TPCC_EER,Event Enable Register: Enables DMA transfers for.En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). Note that if a bit..."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x1024++0x3
line.long 0x00 "EDMA_TPCC_EERH,Event Enable Register (High Part): Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). Note..."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1028++0x3
line.long 0x00 "EDMA_TPCC_EECR,Event Enable Clear Register CPU writes of '1' to the .En bit causes the .En bit to be cleared. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x102C++0x3
line.long 0x00 "EDMA_TPCC_EECRH,Event Enable Clear Register (High Part) CPU writes of '1' to the .En bit causes the EERH.En bit to be cleared. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1030++0x3
line.long 0x00 "EDMA_TPCC_EESR,Event Enable Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1034++0x3
line.long 0x00 "EDMA_TPCC_EESRH,Event Enable Set Register (High Part) CPU writes of '1' to the .En bit causes the .En bit to be set. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
rgroup.long 0x1038++0x3
line.long 0x00 "EDMA_TPCC_SER,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored in Even..."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x103C++0x3
line.long 0x00 "EDMA_TPCC_SERH,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently s..."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1040++0x3
line.long 0x00 "EDMA_TPCC_SECR,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '1' to the .En bit clears the register. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1044++0x3
line.long 0x00 "EDMA_TPCC_SECRH,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '1' to the .En bit clears the register. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
rgroup.long 0x1050++0x3
line.long 0x00 "EDMA_TPCC_IER,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. . In = 0: .In is NOT enabled for interrupts. . In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x1054++0x3
line.long 0x00 "EDMA_TPCC_IERH,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. . In = 0: .In is NOT enabled for interrupts. . In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x1058++0x3
line.long 0x00 "EDMA_TPCC_IECR,Int Enable Clear Register CPU writes of '1' to the .In bit causes the .In bit to be cleared. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x105C++0x3
line.long 0x00 "EDMA_TPCC_IECRH,Int Enable Clear Register (High Part) CPU write of '1' to the .In bit causes the .In bit to be cleared. CPU write of '0' has no effect.."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x1060++0x3
line.long 0x00 "EDMA_TPCC_IESR,Int Enable Set Register CPU write of '1' to the .In bit causes the .In bit to be set. CPU write of '0' has no effect.."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x1064++0x3
line.long 0x00 "EDMA_TPCC_IESRH,Int Enable Set Register (High Part) CPU write of '1' to the .In bit causes the .In bit to be set. CPU write of '0' has no effect.."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x1068++0x3
line.long 0x00 "EDMA_TPCC_IPR,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x106C++0x3
line.long 0x00 "EDMA_TPCC_IPRH,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. . In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x1070++0x3
line.long 0x00 "EDMA_TPCC_ICR,Interrupt Clear Register CPU write of '1' to the .In bit causes the .In bit to be cleared. CPU write of '0' has no effect. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x1074++0x3
line.long 0x00 "EDMA_TPCC_ICRH,Interrupt Clear Register (High Part) CPU write of '1' to the .In bit causes the .In bit to be cleared. CPU write of '0' has no effect. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x1078++0x3
line.long 0x00 "EDMA_TPCC_IEVAL,Interrupt Eval Register"
bitfld.long 0x00 1. " SET       ,Interrupt Set: CPU write of '1' to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). CPU write of '0' has no effect." "0,1"
bitfld.long 0x00 0. "                      EVAL       ,Interrupt Evaluate: CPU write of '1' to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). CPU write of '0' has no effect." "0,1"
rgroup.long 0x1080++0x3
line.long 0x00 "EDMA_TPCC_QER,QDMA Event Register: If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .En bit ..."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x1084++0x3
line.long 0x00 "EDMA_TPCC_QEER,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. QDMA channels can be enabled via writes to and can be disabled via writes to register. .En = 1, The corresponding QDMA..."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1088++0x3
line.long 0x00 "EDMA_TPCC_QEECR,QDMA Event Enable Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect.."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x108C++0x3
line.long 0x00 "EDMA_TPCC_QEESR,QDMA Event Enable Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect.."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x1090++0x3
line.long 0x00 "EDMA_TPCC_QSER,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1094++0x3
line.long 0x00 "EDMA_TPCC_QSECR,QDMA Secondary Event Clear Register The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear the .En register). CPU write of '1' to..."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
width 0x0B
tree.end
tree "DSP2_EDMA_TPCC"
base ad:0x41510000
tree "DMA_Channel_0"
width 24.
group.long 0x4008++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_0,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4010++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_0,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x401C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_0,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x201C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_0,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2018++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_0,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4018++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_0,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x100++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_0,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x240++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_0,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "      E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "      E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x344++0x3
line.long 0x00 "EDMA_TPCC_DRAEHM_k_0,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enable..."
bitfld.long 0x00 31. " E63     ,DMA Region Access enable for Region M, bit #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,DMA Region Access enable for Region M, bit #62" "0,1"
bitfld.long 0x00 29. "      E61     ,DMA Region Access enable for Region M, bit #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,DMA Region Access enable for Region M, bit #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,DMA Region Access enable for Region M, bit #59" "0,1"
bitfld.long 0x00 26. "      E58     ,DMA Region Access enable for Region M, bit #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,DMA Region Access enable for Region M, bit #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,DMA Region Access enable for Region M, bit #56" "0,1"
bitfld.long 0x00 23. "      E55     ,DMA Region Access enable for Region M, bit #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,DMA Region Access enable for Region M, bit #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,DMA Region Access enable for Region M, bit #53" "0,1"
bitfld.long 0x00 20. "      E52     ,DMA Region Access enable for Region M, bit #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,DMA Region Access enable for Region M, bit #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,DMA Region Access enable for Region M, bit #50" "0,1"
bitfld.long 0x00 17. "      E49     ,DMA Region Access enable for Region M, bit #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,DMA Region Access enable for Region M, bit #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,DMA Region Access enable for Region M, bit #47" "0,1"
bitfld.long 0x00 14. "      E46     ,DMA Region Access enable for Region M, bit #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,DMA Region Access enable for Region M, bit #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,DMA Region Access enable for Region M, bit #44" "0,1"
bitfld.long 0x00 11. "      E43     ,DMA Region Access enable for Region M, bit #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,DMA Region Access enable for Region M, bit #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,DMA Region Access enable for Region M, bit #41" "0,1"
bitfld.long 0x00 8. "      E40     ,DMA Region Access enable for Region M, bit #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,DMA Region Access enable for Region M, bit #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,DMA Region Access enable for Region M, bit #38" "0,1"
bitfld.long 0x00 5. "      E37     ,DMA Region Access enable for Region M, bit #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,DMA Region Access enable for Region M, bit #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,DMA Region Access enable for Region M, bit #35" "0,1"
bitfld.long 0x00 2. "      E34     ,DMA Region Access enable for Region M, bit #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,DMA Region Access enable for Region M, bit #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,DMA Region Access enable for Region M, bit #32" "0,1"
group.long 0x340++0x3
line.long 0x00 "EDMA_TPCC_DRAEM_k_0,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled..."
bitfld.long 0x00 31. " E31     ,DMA Region Access enable for Region M, bit #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,DMA Region Access enable for Region M, bit #30" "0,1"
bitfld.long 0x00 29. "      E29     ,DMA Region Access enable for Region M, bit #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,DMA Region Access enable for Region M, bit #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,DMA Region Access enable for Region M, bit #27" "0,1"
bitfld.long 0x00 26. "      E26     ,DMA Region Access enable for Region M, bit #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,DMA Region Access enable for Region M, bit #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,DMA Region Access enable for Region M, bit #24" "0,1"
bitfld.long 0x00 23. "      E23     ,DMA Region Access enable for Region M, bit #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,DMA Region Access enable for Region M, bit #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,DMA Region Access enable for Region M, bit #21" "0,1"
bitfld.long 0x00 20. "      E20     ,DMA Region Access enable for Region M, bit #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,DMA Region Access enable for Region M, bit #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,DMA Region Access enable for Region M, bit #18" "0,1"
bitfld.long 0x00 17. "      E17     ,DMA Region Access enable for Region M, bit #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,DMA Region Access enable for Region M, bit #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,DMA Region Access enable for Region M, bit #15" "0,1"
bitfld.long 0x00 14. "      E14     ,DMA Region Access enable for Region M, bit #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,DMA Region Access enable for Region M, bit #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,DMA Region Access enable for Region M, bit #12" "0,1"
bitfld.long 0x00 11. "      E11     ,DMA Region Access enable for Region M, bit #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,DMA Region Access enable for Region M, bit #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,DMA Region Access enable for Region M, bit #9" "0,1"
bitfld.long 0x00 8. "      E8      ,DMA Region Access enable for Region M, bit #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,DMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,DMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "      E5      ,DMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,DMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,DMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "      E2      ,DMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,DMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,DMA Region Access enable for Region M, bit #0" "0,1"
group.long 0x400C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_0,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x200C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_0,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2008++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_0,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x202C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_0,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2028++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_0,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2024++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_0,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2020++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_0,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2034++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_0,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2030++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_0,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2004++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_0,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2000++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_0,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2014++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_0,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2010++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_0,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2074++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_0,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2070++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_0,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x205C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_0,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2058++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_0,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2054++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_0,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2050++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_0,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2064++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_0,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2060++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_0,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2078++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_0,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x206C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_0,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2068++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_0,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4014++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_0,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x810++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_0,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "      AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "      AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission se..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "      SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "      UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4000++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_0,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "     ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "      TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "     TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "      SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x400++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_0,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x440++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_0,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x200++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_0,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2088++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_0,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2084++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_0,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x208C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_0,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2080++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_0,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x380++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_0,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "      E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "      E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2094++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_0,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2090++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_0,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x600++0x3
line.long 0x00 "EDMA_TPCC_QSTATN_i_0,QSTATn Register Set"
bitfld.long 0x00 24. " THRXCD  ,Threshold Exceeded - . - . - THRXCD is cleared via. WMCLRn bit. . - ." "0,1"
bitfld.long 0x00 16.--20. "                     WM       ,Watermark for Maximum Queue Usage: Watermark tracks the most entries that have been in QueueN since reset or since the last time that the watermark (WM) was cleared. QSTATn. WM is cleared via EDMA_TPCC_CCERR.WMCLRn bit. L..." "empty,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,full,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "  NUMVAL  ,Number of Valid Entries in QueueN: Represents the total number of entries residing in the Queue Manager FIFO at a given instant. Always enabled. Legal values: = 0x0 (empty) to 0x10 (full) - . - ." "empty,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,full,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                 "
bitfld.long 0x00 0.--3. " STRTPTR ,Start Pointer: Represents the offset to the head entry of QueueN, in units of *entries*. Always enabled. Legal values: - . - ." "0th_entry,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15th_entry"
wgroup.long 0x2044++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_0,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2040++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_0,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x203C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_0,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2038++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_0,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4004++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_0,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_1"
width 24.
group.long 0x4028++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_1,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4030++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_1,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x403C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_1,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x221C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_1,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2218++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_1,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4038++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_1,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x104++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_1,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x244++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_1,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "      E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "      E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x34C++0x3
line.long 0x00 "EDMA_TPCC_DRAEHM_k_1,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enable..."
bitfld.long 0x00 31. " E63     ,DMA Region Access enable for Region M, bit #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,DMA Region Access enable for Region M, bit #62" "0,1"
bitfld.long 0x00 29. "      E61     ,DMA Region Access enable for Region M, bit #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,DMA Region Access enable for Region M, bit #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,DMA Region Access enable for Region M, bit #59" "0,1"
bitfld.long 0x00 26. "      E58     ,DMA Region Access enable for Region M, bit #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,DMA Region Access enable for Region M, bit #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,DMA Region Access enable for Region M, bit #56" "0,1"
bitfld.long 0x00 23. "      E55     ,DMA Region Access enable for Region M, bit #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,DMA Region Access enable for Region M, bit #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,DMA Region Access enable for Region M, bit #53" "0,1"
bitfld.long 0x00 20. "      E52     ,DMA Region Access enable for Region M, bit #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,DMA Region Access enable for Region M, bit #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,DMA Region Access enable for Region M, bit #50" "0,1"
bitfld.long 0x00 17. "      E49     ,DMA Region Access enable for Region M, bit #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,DMA Region Access enable for Region M, bit #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,DMA Region Access enable for Region M, bit #47" "0,1"
bitfld.long 0x00 14. "      E46     ,DMA Region Access enable for Region M, bit #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,DMA Region Access enable for Region M, bit #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,DMA Region Access enable for Region M, bit #44" "0,1"
bitfld.long 0x00 11. "      E43     ,DMA Region Access enable for Region M, bit #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,DMA Region Access enable for Region M, bit #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,DMA Region Access enable for Region M, bit #41" "0,1"
bitfld.long 0x00 8. "      E40     ,DMA Region Access enable for Region M, bit #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,DMA Region Access enable for Region M, bit #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,DMA Region Access enable for Region M, bit #38" "0,1"
bitfld.long 0x00 5. "      E37     ,DMA Region Access enable for Region M, bit #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,DMA Region Access enable for Region M, bit #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,DMA Region Access enable for Region M, bit #35" "0,1"
bitfld.long 0x00 2. "      E34     ,DMA Region Access enable for Region M, bit #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,DMA Region Access enable for Region M, bit #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,DMA Region Access enable for Region M, bit #32" "0,1"
group.long 0x348++0x3
line.long 0x00 "EDMA_TPCC_DRAEM_k_1,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled..."
bitfld.long 0x00 31. " E31     ,DMA Region Access enable for Region M, bit #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,DMA Region Access enable for Region M, bit #30" "0,1"
bitfld.long 0x00 29. "      E29     ,DMA Region Access enable for Region M, bit #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,DMA Region Access enable for Region M, bit #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,DMA Region Access enable for Region M, bit #27" "0,1"
bitfld.long 0x00 26. "      E26     ,DMA Region Access enable for Region M, bit #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,DMA Region Access enable for Region M, bit #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,DMA Region Access enable for Region M, bit #24" "0,1"
bitfld.long 0x00 23. "      E23     ,DMA Region Access enable for Region M, bit #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,DMA Region Access enable for Region M, bit #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,DMA Region Access enable for Region M, bit #21" "0,1"
bitfld.long 0x00 20. "      E20     ,DMA Region Access enable for Region M, bit #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,DMA Region Access enable for Region M, bit #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,DMA Region Access enable for Region M, bit #18" "0,1"
bitfld.long 0x00 17. "      E17     ,DMA Region Access enable for Region M, bit #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,DMA Region Access enable for Region M, bit #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,DMA Region Access enable for Region M, bit #15" "0,1"
bitfld.long 0x00 14. "      E14     ,DMA Region Access enable for Region M, bit #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,DMA Region Access enable for Region M, bit #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,DMA Region Access enable for Region M, bit #12" "0,1"
bitfld.long 0x00 11. "      E11     ,DMA Region Access enable for Region M, bit #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,DMA Region Access enable for Region M, bit #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,DMA Region Access enable for Region M, bit #9" "0,1"
bitfld.long 0x00 8. "      E8      ,DMA Region Access enable for Region M, bit #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,DMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,DMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "      E5      ,DMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,DMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,DMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "      E2      ,DMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,DMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,DMA Region Access enable for Region M, bit #0" "0,1"
group.long 0x402C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_1,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x220C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_1,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2208++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_1,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x222C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_1,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2228++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_1,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2224++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_1,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2220++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_1,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2234++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_1,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2230++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_1,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2204++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_1,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2200++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_1,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2214++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_1,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2210++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_1,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2274++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_1,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2270++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_1,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x225C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_1,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2258++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_1,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2254++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_1,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2250++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_1,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2264++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_1,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2260++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_1,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2278++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_1,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x226C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_1,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2268++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_1,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4034++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_1,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x814++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_1,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "      AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "      AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission se..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "      SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "      UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4020++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_1,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "     ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "      TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "     TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "      SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x404++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_1,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x444++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_1,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x204++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_1,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2288++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_1,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2284++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_1,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x228C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_1,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2280++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_1,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x384++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_1,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "      E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "      E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2294++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_1,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2290++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_1,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x604++0x3
line.long 0x00 "EDMA_TPCC_QSTATN_i_1,QSTATn Register Set"
bitfld.long 0x00 24. " THRXCD  ,Threshold Exceeded - . - . - THRXCD is cleared via. WMCLRn bit. . - ." "0,1"
bitfld.long 0x00 16.--20. "                     WM       ,Watermark for Maximum Queue Usage: Watermark tracks the most entries that have been in QueueN since reset or since the last time that the watermark (WM) was cleared. QSTATn. WM is cleared via EDMA_TPCC_CCERR.WMCLRn bit. L..." "empty,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,full,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "  NUMVAL  ,Number of Valid Entries in QueueN: Represents the total number of entries residing in the Queue Manager FIFO at a given instant. Always enabled. Legal values: = 0x0 (empty) to 0x10 (full) - . - ." "empty,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,full,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                 "
bitfld.long 0x00 0.--3. " STRTPTR ,Start Pointer: Represents the offset to the head entry of QueueN, in units of *entries*. Always enabled. Legal values: - . - ." "0th_entry,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15th_entry"
wgroup.long 0x2244++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_1,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2240++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_1,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x223C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_1,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2238++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_1,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4024++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_1,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_2"
width 24.
group.long 0x4048++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_2,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4050++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_2,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x405C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_2,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x241C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_2,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2418++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_2,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4058++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_2,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x108++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_2,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x248++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_2,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x354++0x3
line.long 0x00 "EDMA_TPCC_DRAEHM_k_2,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enable..."
bitfld.long 0x00 31. " E63     ,DMA Region Access enable for Region M, bit #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,DMA Region Access enable for Region M, bit #62" "0,1"
bitfld.long 0x00 29. "     E61     ,DMA Region Access enable for Region M, bit #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,DMA Region Access enable for Region M, bit #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,DMA Region Access enable for Region M, bit #59" "0,1"
bitfld.long 0x00 26. "     E58     ,DMA Region Access enable for Region M, bit #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,DMA Region Access enable for Region M, bit #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,DMA Region Access enable for Region M, bit #56" "0,1"
bitfld.long 0x00 23. "     E55     ,DMA Region Access enable for Region M, bit #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,DMA Region Access enable for Region M, bit #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,DMA Region Access enable for Region M, bit #53" "0,1"
bitfld.long 0x00 20. "     E52     ,DMA Region Access enable for Region M, bit #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,DMA Region Access enable for Region M, bit #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,DMA Region Access enable for Region M, bit #50" "0,1"
bitfld.long 0x00 17. "     E49     ,DMA Region Access enable for Region M, bit #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,DMA Region Access enable for Region M, bit #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,DMA Region Access enable for Region M, bit #47" "0,1"
bitfld.long 0x00 14. "     E46     ,DMA Region Access enable for Region M, bit #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,DMA Region Access enable for Region M, bit #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,DMA Region Access enable for Region M, bit #44" "0,1"
bitfld.long 0x00 11. "     E43     ,DMA Region Access enable for Region M, bit #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,DMA Region Access enable for Region M, bit #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,DMA Region Access enable for Region M, bit #41" "0,1"
bitfld.long 0x00 8. "     E40     ,DMA Region Access enable for Region M, bit #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,DMA Region Access enable for Region M, bit #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,DMA Region Access enable for Region M, bit #38" "0,1"
bitfld.long 0x00 5. "     E37     ,DMA Region Access enable for Region M, bit #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,DMA Region Access enable for Region M, bit #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,DMA Region Access enable for Region M, bit #35" "0,1"
bitfld.long 0x00 2. "     E34     ,DMA Region Access enable for Region M, bit #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,DMA Region Access enable for Region M, bit #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,DMA Region Access enable for Region M, bit #32" "0,1"
group.long 0x350++0x3
line.long 0x00 "EDMA_TPCC_DRAEM_k_2,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled..."
bitfld.long 0x00 31. " E31     ,DMA Region Access enable for Region M, bit #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,DMA Region Access enable for Region M, bit #30" "0,1"
bitfld.long 0x00 29. "     E29     ,DMA Region Access enable for Region M, bit #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,DMA Region Access enable for Region M, bit #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,DMA Region Access enable for Region M, bit #27" "0,1"
bitfld.long 0x00 26. "     E26     ,DMA Region Access enable for Region M, bit #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,DMA Region Access enable for Region M, bit #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,DMA Region Access enable for Region M, bit #24" "0,1"
bitfld.long 0x00 23. "     E23     ,DMA Region Access enable for Region M, bit #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,DMA Region Access enable for Region M, bit #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,DMA Region Access enable for Region M, bit #21" "0,1"
bitfld.long 0x00 20. "     E20     ,DMA Region Access enable for Region M, bit #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,DMA Region Access enable for Region M, bit #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,DMA Region Access enable for Region M, bit #18" "0,1"
bitfld.long 0x00 17. "     E17     ,DMA Region Access enable for Region M, bit #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,DMA Region Access enable for Region M, bit #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,DMA Region Access enable for Region M, bit #15" "0,1"
bitfld.long 0x00 14. "     E14     ,DMA Region Access enable for Region M, bit #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,DMA Region Access enable for Region M, bit #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,DMA Region Access enable for Region M, bit #12" "0,1"
bitfld.long 0x00 11. "     E11     ,DMA Region Access enable for Region M, bit #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,DMA Region Access enable for Region M, bit #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,DMA Region Access enable for Region M, bit #9" "0,1"
bitfld.long 0x00 8. "     E8      ,DMA Region Access enable for Region M, bit #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,DMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,DMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,DMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,DMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,DMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,DMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,DMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,DMA Region Access enable for Region M, bit #0" "0,1"
group.long 0x404C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_2,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x240C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_2,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2408++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_2,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x242C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_2,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2428++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_2,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2424++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_2,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2420++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_2,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2434++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_2,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2430++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_2,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2404++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_2,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2400++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_2,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2414++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_2,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2410++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_2,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2474++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_2,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2470++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_2,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x245C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_2,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2458++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_2,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2454++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_2,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2450++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_2,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2464++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_2,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2460++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_2,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2478++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_2,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x246C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_2,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2468++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_2,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4054++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_2,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x818++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_2,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4040++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_2,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x408++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_2,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x448++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_2,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x208++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_2,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2488++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_2,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2484++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_2,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x248C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_2,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2480++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_2,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x388++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_2,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2494++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_2,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2490++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_2,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2444++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_2,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2440++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_2,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x243C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_2,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2438++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_2,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4044++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_2,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_3"
width 24.
group.long 0x4068++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_3,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4070++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_3,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x407C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_3,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x261C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_3,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2618++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_3,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4078++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_3,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x10C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_3,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x24C++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_3,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x35C++0x3
line.long 0x00 "EDMA_TPCC_DRAEHM_k_3,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enable..."
bitfld.long 0x00 31. " E63     ,DMA Region Access enable for Region M, bit #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,DMA Region Access enable for Region M, bit #62" "0,1"
bitfld.long 0x00 29. "     E61     ,DMA Region Access enable for Region M, bit #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,DMA Region Access enable for Region M, bit #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,DMA Region Access enable for Region M, bit #59" "0,1"
bitfld.long 0x00 26. "     E58     ,DMA Region Access enable for Region M, bit #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,DMA Region Access enable for Region M, bit #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,DMA Region Access enable for Region M, bit #56" "0,1"
bitfld.long 0x00 23. "     E55     ,DMA Region Access enable for Region M, bit #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,DMA Region Access enable for Region M, bit #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,DMA Region Access enable for Region M, bit #53" "0,1"
bitfld.long 0x00 20. "     E52     ,DMA Region Access enable for Region M, bit #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,DMA Region Access enable for Region M, bit #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,DMA Region Access enable for Region M, bit #50" "0,1"
bitfld.long 0x00 17. "     E49     ,DMA Region Access enable for Region M, bit #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,DMA Region Access enable for Region M, bit #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,DMA Region Access enable for Region M, bit #47" "0,1"
bitfld.long 0x00 14. "     E46     ,DMA Region Access enable for Region M, bit #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,DMA Region Access enable for Region M, bit #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,DMA Region Access enable for Region M, bit #44" "0,1"
bitfld.long 0x00 11. "     E43     ,DMA Region Access enable for Region M, bit #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,DMA Region Access enable for Region M, bit #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,DMA Region Access enable for Region M, bit #41" "0,1"
bitfld.long 0x00 8. "     E40     ,DMA Region Access enable for Region M, bit #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,DMA Region Access enable for Region M, bit #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,DMA Region Access enable for Region M, bit #38" "0,1"
bitfld.long 0x00 5. "     E37     ,DMA Region Access enable for Region M, bit #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,DMA Region Access enable for Region M, bit #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,DMA Region Access enable for Region M, bit #35" "0,1"
bitfld.long 0x00 2. "     E34     ,DMA Region Access enable for Region M, bit #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,DMA Region Access enable for Region M, bit #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,DMA Region Access enable for Region M, bit #32" "0,1"
group.long 0x358++0x3
line.long 0x00 "EDMA_TPCC_DRAEM_k_3,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled..."
bitfld.long 0x00 31. " E31     ,DMA Region Access enable for Region M, bit #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,DMA Region Access enable for Region M, bit #30" "0,1"
bitfld.long 0x00 29. "     E29     ,DMA Region Access enable for Region M, bit #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,DMA Region Access enable for Region M, bit #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,DMA Region Access enable for Region M, bit #27" "0,1"
bitfld.long 0x00 26. "     E26     ,DMA Region Access enable for Region M, bit #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,DMA Region Access enable for Region M, bit #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,DMA Region Access enable for Region M, bit #24" "0,1"
bitfld.long 0x00 23. "     E23     ,DMA Region Access enable for Region M, bit #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,DMA Region Access enable for Region M, bit #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,DMA Region Access enable for Region M, bit #21" "0,1"
bitfld.long 0x00 20. "     E20     ,DMA Region Access enable for Region M, bit #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,DMA Region Access enable for Region M, bit #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,DMA Region Access enable for Region M, bit #18" "0,1"
bitfld.long 0x00 17. "     E17     ,DMA Region Access enable for Region M, bit #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,DMA Region Access enable for Region M, bit #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,DMA Region Access enable for Region M, bit #15" "0,1"
bitfld.long 0x00 14. "     E14     ,DMA Region Access enable for Region M, bit #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,DMA Region Access enable for Region M, bit #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,DMA Region Access enable for Region M, bit #12" "0,1"
bitfld.long 0x00 11. "     E11     ,DMA Region Access enable for Region M, bit #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,DMA Region Access enable for Region M, bit #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,DMA Region Access enable for Region M, bit #9" "0,1"
bitfld.long 0x00 8. "     E8      ,DMA Region Access enable for Region M, bit #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,DMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,DMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,DMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,DMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,DMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,DMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,DMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,DMA Region Access enable for Region M, bit #0" "0,1"
group.long 0x406C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_3,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x260C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_3,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2608++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_3,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x262C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_3,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2628++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_3,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2624++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_3,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2620++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_3,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2634++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_3,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2630++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_3,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2604++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_3,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2600++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_3,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2614++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_3,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2610++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_3,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2674++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_3,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2670++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_3,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x265C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_3,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2658++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_3,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2654++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_3,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2650++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_3,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2664++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_3,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2660++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_3,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2678++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_3,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x266C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_3,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2668++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_3,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4074++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_3,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x81C++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_3,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4060++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_3,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x40C++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_3,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x44C++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_3,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x20C++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_3,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2688++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_3,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2684++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_3,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x268C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_3,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2680++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_3,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x38C++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_3,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2694++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_3,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2690++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_3,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2644++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_3,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2640++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_3,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x263C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_3,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2638++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_3,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4064++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_3,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_4"
width 24.
group.long 0x4088++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_4,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4090++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_4,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x409C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_4,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x281C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_4,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2818++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_4,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4098++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_4,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x110++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_4,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x250++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_4,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x364++0x3
line.long 0x00 "EDMA_TPCC_DRAEHM_k_4,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enable..."
bitfld.long 0x00 31. " E63     ,DMA Region Access enable for Region M, bit #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,DMA Region Access enable for Region M, bit #62" "0,1"
bitfld.long 0x00 29. "     E61     ,DMA Region Access enable for Region M, bit #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,DMA Region Access enable for Region M, bit #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,DMA Region Access enable for Region M, bit #59" "0,1"
bitfld.long 0x00 26. "     E58     ,DMA Region Access enable for Region M, bit #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,DMA Region Access enable for Region M, bit #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,DMA Region Access enable for Region M, bit #56" "0,1"
bitfld.long 0x00 23. "     E55     ,DMA Region Access enable for Region M, bit #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,DMA Region Access enable for Region M, bit #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,DMA Region Access enable for Region M, bit #53" "0,1"
bitfld.long 0x00 20. "     E52     ,DMA Region Access enable for Region M, bit #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,DMA Region Access enable for Region M, bit #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,DMA Region Access enable for Region M, bit #50" "0,1"
bitfld.long 0x00 17. "     E49     ,DMA Region Access enable for Region M, bit #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,DMA Region Access enable for Region M, bit #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,DMA Region Access enable for Region M, bit #47" "0,1"
bitfld.long 0x00 14. "     E46     ,DMA Region Access enable for Region M, bit #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,DMA Region Access enable for Region M, bit #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,DMA Region Access enable for Region M, bit #44" "0,1"
bitfld.long 0x00 11. "     E43     ,DMA Region Access enable for Region M, bit #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,DMA Region Access enable for Region M, bit #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,DMA Region Access enable for Region M, bit #41" "0,1"
bitfld.long 0x00 8. "     E40     ,DMA Region Access enable for Region M, bit #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,DMA Region Access enable for Region M, bit #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,DMA Region Access enable for Region M, bit #38" "0,1"
bitfld.long 0x00 5. "     E37     ,DMA Region Access enable for Region M, bit #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,DMA Region Access enable for Region M, bit #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,DMA Region Access enable for Region M, bit #35" "0,1"
bitfld.long 0x00 2. "     E34     ,DMA Region Access enable for Region M, bit #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,DMA Region Access enable for Region M, bit #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,DMA Region Access enable for Region M, bit #32" "0,1"
group.long 0x360++0x3
line.long 0x00 "EDMA_TPCC_DRAEM_k_4,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled..."
bitfld.long 0x00 31. " E31     ,DMA Region Access enable for Region M, bit #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,DMA Region Access enable for Region M, bit #30" "0,1"
bitfld.long 0x00 29. "     E29     ,DMA Region Access enable for Region M, bit #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,DMA Region Access enable for Region M, bit #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,DMA Region Access enable for Region M, bit #27" "0,1"
bitfld.long 0x00 26. "     E26     ,DMA Region Access enable for Region M, bit #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,DMA Region Access enable for Region M, bit #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,DMA Region Access enable for Region M, bit #24" "0,1"
bitfld.long 0x00 23. "     E23     ,DMA Region Access enable for Region M, bit #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,DMA Region Access enable for Region M, bit #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,DMA Region Access enable for Region M, bit #21" "0,1"
bitfld.long 0x00 20. "     E20     ,DMA Region Access enable for Region M, bit #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,DMA Region Access enable for Region M, bit #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,DMA Region Access enable for Region M, bit #18" "0,1"
bitfld.long 0x00 17. "     E17     ,DMA Region Access enable for Region M, bit #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,DMA Region Access enable for Region M, bit #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,DMA Region Access enable for Region M, bit #15" "0,1"
bitfld.long 0x00 14. "     E14     ,DMA Region Access enable for Region M, bit #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,DMA Region Access enable for Region M, bit #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,DMA Region Access enable for Region M, bit #12" "0,1"
bitfld.long 0x00 11. "     E11     ,DMA Region Access enable for Region M, bit #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,DMA Region Access enable for Region M, bit #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,DMA Region Access enable for Region M, bit #9" "0,1"
bitfld.long 0x00 8. "     E8      ,DMA Region Access enable for Region M, bit #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,DMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,DMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,DMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,DMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,DMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,DMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,DMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,DMA Region Access enable for Region M, bit #0" "0,1"
group.long 0x408C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_4,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x280C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_4,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2808++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_4,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x282C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_4,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2828++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_4,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2824++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_4,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2820++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_4,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2834++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_4,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2830++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_4,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2804++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_4,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2800++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_4,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2814++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_4,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2810++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_4,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2874++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_4,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2870++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_4,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x285C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_4,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2858++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_4,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2854++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_4,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2850++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_4,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2864++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_4,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2860++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_4,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2878++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_4,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x286C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_4,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2868++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_4,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4094++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_4,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x820++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_4,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4080++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_4,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x410++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_4,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x450++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_4,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
wgroup.long 0x2888++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_4,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2884++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_4,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x288C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_4,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2880++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_4,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x390++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_4,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2894++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_4,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2890++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_4,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2844++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_4,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2840++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_4,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x283C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_4,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2838++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_4,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4084++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_4,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_5"
width 24.
group.long 0x40A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_5,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x40B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_5,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x40BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_5,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x2A1C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_5,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2A18++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_5,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_5,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x114++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_5,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x254++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_5,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x36C++0x3
line.long 0x00 "EDMA_TPCC_DRAEHM_k_5,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enable..."
bitfld.long 0x00 31. " E63     ,DMA Region Access enable for Region M, bit #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,DMA Region Access enable for Region M, bit #62" "0,1"
bitfld.long 0x00 29. "     E61     ,DMA Region Access enable for Region M, bit #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,DMA Region Access enable for Region M, bit #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,DMA Region Access enable for Region M, bit #59" "0,1"
bitfld.long 0x00 26. "     E58     ,DMA Region Access enable for Region M, bit #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,DMA Region Access enable for Region M, bit #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,DMA Region Access enable for Region M, bit #56" "0,1"
bitfld.long 0x00 23. "     E55     ,DMA Region Access enable for Region M, bit #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,DMA Region Access enable for Region M, bit #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,DMA Region Access enable for Region M, bit #53" "0,1"
bitfld.long 0x00 20. "     E52     ,DMA Region Access enable for Region M, bit #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,DMA Region Access enable for Region M, bit #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,DMA Region Access enable for Region M, bit #50" "0,1"
bitfld.long 0x00 17. "     E49     ,DMA Region Access enable for Region M, bit #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,DMA Region Access enable for Region M, bit #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,DMA Region Access enable for Region M, bit #47" "0,1"
bitfld.long 0x00 14. "     E46     ,DMA Region Access enable for Region M, bit #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,DMA Region Access enable for Region M, bit #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,DMA Region Access enable for Region M, bit #44" "0,1"
bitfld.long 0x00 11. "     E43     ,DMA Region Access enable for Region M, bit #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,DMA Region Access enable for Region M, bit #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,DMA Region Access enable for Region M, bit #41" "0,1"
bitfld.long 0x00 8. "     E40     ,DMA Region Access enable for Region M, bit #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,DMA Region Access enable for Region M, bit #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,DMA Region Access enable for Region M, bit #38" "0,1"
bitfld.long 0x00 5. "     E37     ,DMA Region Access enable for Region M, bit #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,DMA Region Access enable for Region M, bit #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,DMA Region Access enable for Region M, bit #35" "0,1"
bitfld.long 0x00 2. "     E34     ,DMA Region Access enable for Region M, bit #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,DMA Region Access enable for Region M, bit #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,DMA Region Access enable for Region M, bit #32" "0,1"
group.long 0x368++0x3
line.long 0x00 "EDMA_TPCC_DRAEM_k_5,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled..."
bitfld.long 0x00 31. " E31     ,DMA Region Access enable for Region M, bit #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,DMA Region Access enable for Region M, bit #30" "0,1"
bitfld.long 0x00 29. "     E29     ,DMA Region Access enable for Region M, bit #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,DMA Region Access enable for Region M, bit #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,DMA Region Access enable for Region M, bit #27" "0,1"
bitfld.long 0x00 26. "     E26     ,DMA Region Access enable for Region M, bit #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,DMA Region Access enable for Region M, bit #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,DMA Region Access enable for Region M, bit #24" "0,1"
bitfld.long 0x00 23. "     E23     ,DMA Region Access enable for Region M, bit #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,DMA Region Access enable for Region M, bit #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,DMA Region Access enable for Region M, bit #21" "0,1"
bitfld.long 0x00 20. "     E20     ,DMA Region Access enable for Region M, bit #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,DMA Region Access enable for Region M, bit #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,DMA Region Access enable for Region M, bit #18" "0,1"
bitfld.long 0x00 17. "     E17     ,DMA Region Access enable for Region M, bit #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,DMA Region Access enable for Region M, bit #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,DMA Region Access enable for Region M, bit #15" "0,1"
bitfld.long 0x00 14. "     E14     ,DMA Region Access enable for Region M, bit #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,DMA Region Access enable for Region M, bit #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,DMA Region Access enable for Region M, bit #12" "0,1"
bitfld.long 0x00 11. "     E11     ,DMA Region Access enable for Region M, bit #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,DMA Region Access enable for Region M, bit #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,DMA Region Access enable for Region M, bit #9" "0,1"
bitfld.long 0x00 8. "     E8      ,DMA Region Access enable for Region M, bit #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,DMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,DMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,DMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,DMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,DMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,DMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,DMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,DMA Region Access enable for Region M, bit #0" "0,1"
group.long 0x40AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_5,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x2A0C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_5,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A08++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_5,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A2C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_5,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A28++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_5,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A24++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_5,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2A20++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_5,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A34++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_5,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A30++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_5,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A04++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_5,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2A00++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_5,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A14++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_5,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A10++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_5,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A74++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_5,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2A70++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_5,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2A5C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_5,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2A58++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_5,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2A54++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_5,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2A50++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_5,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2A64++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_5,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2A60++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_5,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2A78++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_5,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x2A6C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_5,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2A68++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_5,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x40B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_5,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x824++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_5,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x40A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_5,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x414++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_5,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x454++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_5,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
wgroup.long 0x2A88++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_5,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A84++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_5,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A8C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_5,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A80++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_5,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x394++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_5,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2A94++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_5,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A90++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_5,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A44++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_5,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A40++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_5,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A3C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_5,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2A38++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_5,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_5,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_6"
width 24.
group.long 0x40C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_6,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x40D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_6,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x40DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_6,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x2C1C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_6,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2C18++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_6,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_6,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x118++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_6,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x258++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_6,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x374++0x3
line.long 0x00 "EDMA_TPCC_DRAEHM_k_6,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enable..."
bitfld.long 0x00 31. " E63     ,DMA Region Access enable for Region M, bit #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,DMA Region Access enable for Region M, bit #62" "0,1"
bitfld.long 0x00 29. "     E61     ,DMA Region Access enable for Region M, bit #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,DMA Region Access enable for Region M, bit #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,DMA Region Access enable for Region M, bit #59" "0,1"
bitfld.long 0x00 26. "     E58     ,DMA Region Access enable for Region M, bit #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,DMA Region Access enable for Region M, bit #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,DMA Region Access enable for Region M, bit #56" "0,1"
bitfld.long 0x00 23. "     E55     ,DMA Region Access enable for Region M, bit #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,DMA Region Access enable for Region M, bit #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,DMA Region Access enable for Region M, bit #53" "0,1"
bitfld.long 0x00 20. "     E52     ,DMA Region Access enable for Region M, bit #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,DMA Region Access enable for Region M, bit #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,DMA Region Access enable for Region M, bit #50" "0,1"
bitfld.long 0x00 17. "     E49     ,DMA Region Access enable for Region M, bit #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,DMA Region Access enable for Region M, bit #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,DMA Region Access enable for Region M, bit #47" "0,1"
bitfld.long 0x00 14. "     E46     ,DMA Region Access enable for Region M, bit #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,DMA Region Access enable for Region M, bit #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,DMA Region Access enable for Region M, bit #44" "0,1"
bitfld.long 0x00 11. "     E43     ,DMA Region Access enable for Region M, bit #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,DMA Region Access enable for Region M, bit #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,DMA Region Access enable for Region M, bit #41" "0,1"
bitfld.long 0x00 8. "     E40     ,DMA Region Access enable for Region M, bit #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,DMA Region Access enable for Region M, bit #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,DMA Region Access enable for Region M, bit #38" "0,1"
bitfld.long 0x00 5. "     E37     ,DMA Region Access enable for Region M, bit #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,DMA Region Access enable for Region M, bit #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,DMA Region Access enable for Region M, bit #35" "0,1"
bitfld.long 0x00 2. "     E34     ,DMA Region Access enable for Region M, bit #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,DMA Region Access enable for Region M, bit #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,DMA Region Access enable for Region M, bit #32" "0,1"
group.long 0x370++0x3
line.long 0x00 "EDMA_TPCC_DRAEM_k_6,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled..."
bitfld.long 0x00 31. " E31     ,DMA Region Access enable for Region M, bit #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,DMA Region Access enable for Region M, bit #30" "0,1"
bitfld.long 0x00 29. "     E29     ,DMA Region Access enable for Region M, bit #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,DMA Region Access enable for Region M, bit #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,DMA Region Access enable for Region M, bit #27" "0,1"
bitfld.long 0x00 26. "     E26     ,DMA Region Access enable for Region M, bit #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,DMA Region Access enable for Region M, bit #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,DMA Region Access enable for Region M, bit #24" "0,1"
bitfld.long 0x00 23. "     E23     ,DMA Region Access enable for Region M, bit #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,DMA Region Access enable for Region M, bit #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,DMA Region Access enable for Region M, bit #21" "0,1"
bitfld.long 0x00 20. "     E20     ,DMA Region Access enable for Region M, bit #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,DMA Region Access enable for Region M, bit #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,DMA Region Access enable for Region M, bit #18" "0,1"
bitfld.long 0x00 17. "     E17     ,DMA Region Access enable for Region M, bit #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,DMA Region Access enable for Region M, bit #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,DMA Region Access enable for Region M, bit #15" "0,1"
bitfld.long 0x00 14. "     E14     ,DMA Region Access enable for Region M, bit #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,DMA Region Access enable for Region M, bit #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,DMA Region Access enable for Region M, bit #12" "0,1"
bitfld.long 0x00 11. "     E11     ,DMA Region Access enable for Region M, bit #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,DMA Region Access enable for Region M, bit #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,DMA Region Access enable for Region M, bit #9" "0,1"
bitfld.long 0x00 8. "     E8      ,DMA Region Access enable for Region M, bit #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,DMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,DMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,DMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,DMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,DMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,DMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,DMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,DMA Region Access enable for Region M, bit #0" "0,1"
group.long 0x40CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_6,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x2C0C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_6,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C08++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_6,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C2C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_6,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C28++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_6,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C24++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_6,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2C20++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_6,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C34++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_6,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C30++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_6,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C04++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_6,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2C00++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_6,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C14++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_6,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C10++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_6,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C74++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_6,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2C70++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_6,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2C5C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_6,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2C58++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_6,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2C54++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_6,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2C50++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_6,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2C64++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_6,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2C60++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_6,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2C78++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_6,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x2C6C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_6,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2C68++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_6,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x40D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_6,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x828++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_6,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x40C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_6,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x418++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_6,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x458++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_6,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
wgroup.long 0x2C88++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_6,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C84++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_6,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C8C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_6,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C80++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_6,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x398++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_6,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2C94++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_6,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C90++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_6,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C44++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_6,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C40++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_6,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C3C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_6,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2C38++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_6,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_6,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_7"
width 24.
group.long 0x40E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_7,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x40F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_7,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x40FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_7,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x2E1C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_7,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2E18++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_7,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_7,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x11C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_7,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x25C++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_7,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x37C++0x3
line.long 0x00 "EDMA_TPCC_DRAEHM_k_7,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enable..."
bitfld.long 0x00 31. " E63     ,DMA Region Access enable for Region M, bit #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,DMA Region Access enable for Region M, bit #62" "0,1"
bitfld.long 0x00 29. "     E61     ,DMA Region Access enable for Region M, bit #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,DMA Region Access enable for Region M, bit #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,DMA Region Access enable for Region M, bit #59" "0,1"
bitfld.long 0x00 26. "     E58     ,DMA Region Access enable for Region M, bit #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,DMA Region Access enable for Region M, bit #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,DMA Region Access enable for Region M, bit #56" "0,1"
bitfld.long 0x00 23. "     E55     ,DMA Region Access enable for Region M, bit #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,DMA Region Access enable for Region M, bit #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,DMA Region Access enable for Region M, bit #53" "0,1"
bitfld.long 0x00 20. "     E52     ,DMA Region Access enable for Region M, bit #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,DMA Region Access enable for Region M, bit #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,DMA Region Access enable for Region M, bit #50" "0,1"
bitfld.long 0x00 17. "     E49     ,DMA Region Access enable for Region M, bit #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,DMA Region Access enable for Region M, bit #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,DMA Region Access enable for Region M, bit #47" "0,1"
bitfld.long 0x00 14. "     E46     ,DMA Region Access enable for Region M, bit #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,DMA Region Access enable for Region M, bit #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,DMA Region Access enable for Region M, bit #44" "0,1"
bitfld.long 0x00 11. "     E43     ,DMA Region Access enable for Region M, bit #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,DMA Region Access enable for Region M, bit #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,DMA Region Access enable for Region M, bit #41" "0,1"
bitfld.long 0x00 8. "     E40     ,DMA Region Access enable for Region M, bit #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,DMA Region Access enable for Region M, bit #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,DMA Region Access enable for Region M, bit #38" "0,1"
bitfld.long 0x00 5. "     E37     ,DMA Region Access enable for Region M, bit #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,DMA Region Access enable for Region M, bit #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,DMA Region Access enable for Region M, bit #35" "0,1"
bitfld.long 0x00 2. "     E34     ,DMA Region Access enable for Region M, bit #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,DMA Region Access enable for Region M, bit #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,DMA Region Access enable for Region M, bit #32" "0,1"
group.long 0x378++0x3
line.long 0x00 "EDMA_TPCC_DRAEM_k_7,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled..."
bitfld.long 0x00 31. " E31     ,DMA Region Access enable for Region M, bit #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,DMA Region Access enable for Region M, bit #30" "0,1"
bitfld.long 0x00 29. "     E29     ,DMA Region Access enable for Region M, bit #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,DMA Region Access enable for Region M, bit #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,DMA Region Access enable for Region M, bit #27" "0,1"
bitfld.long 0x00 26. "     E26     ,DMA Region Access enable for Region M, bit #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,DMA Region Access enable for Region M, bit #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,DMA Region Access enable for Region M, bit #24" "0,1"
bitfld.long 0x00 23. "     E23     ,DMA Region Access enable for Region M, bit #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,DMA Region Access enable for Region M, bit #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,DMA Region Access enable for Region M, bit #21" "0,1"
bitfld.long 0x00 20. "     E20     ,DMA Region Access enable for Region M, bit #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,DMA Region Access enable for Region M, bit #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,DMA Region Access enable for Region M, bit #18" "0,1"
bitfld.long 0x00 17. "     E17     ,DMA Region Access enable for Region M, bit #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,DMA Region Access enable for Region M, bit #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,DMA Region Access enable for Region M, bit #15" "0,1"
bitfld.long 0x00 14. "     E14     ,DMA Region Access enable for Region M, bit #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,DMA Region Access enable for Region M, bit #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,DMA Region Access enable for Region M, bit #12" "0,1"
bitfld.long 0x00 11. "     E11     ,DMA Region Access enable for Region M, bit #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,DMA Region Access enable for Region M, bit #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,DMA Region Access enable for Region M, bit #9" "0,1"
bitfld.long 0x00 8. "     E8      ,DMA Region Access enable for Region M, bit #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,DMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,DMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,DMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,DMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,DMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,DMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,DMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,DMA Region Access enable for Region M, bit #0" "0,1"
group.long 0x40EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_7,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x2E0C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_7,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E08++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_7,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E2C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_7,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E28++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_7,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E24++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_7,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2E20++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_7,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E34++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_7,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E30++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_7,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E04++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_7,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2E00++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_7,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E14++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_7,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E10++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_7,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E74++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_7,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2E70++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_7,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2E5C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_7,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2E58++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_7,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2E54++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_7,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2E50++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_7,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2E64++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_7,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2E60++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_7,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2E78++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_7,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x2E6C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_7,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2E68++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_7,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x40F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_7,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x82C++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_7,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x40E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_7,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x41C++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_7,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x45C++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_7,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
wgroup.long 0x2E88++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_7,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E84++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_7,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E8C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_7,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E80++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_7,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x39C++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_7,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2E94++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_7,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E90++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_7,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E44++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_7,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E40++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_7,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E3C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_7,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2E38++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_7,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_7,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_8"
width 23.
group.long 0x4108++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_8,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4110++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_8,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x411C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_8,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4118++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_8,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x120++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_8,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x410C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_8,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4114++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_8,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4100++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_8,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x420++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_8,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x460++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_8,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x4104++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_8,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_9"
width 23.
group.long 0x4128++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_9,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4130++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_9,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x413C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_9,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4138++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_9,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x124++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_9,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x412C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_9,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4134++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_9,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4120++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_9,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x424++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_9,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x464++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_9,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x4124++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_9,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_10"
width 24.
group.long 0x4148++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_10,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4150++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_10,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x415C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_10,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4158++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_10,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x128++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_10,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x414C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_10,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4154++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_10,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4140++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_10,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x428++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_10,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x468++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_10,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x4144++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_10,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_11"
width 24.
group.long 0x4168++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_11,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4170++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_11,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x417C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_11,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4178++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_11,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x12C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_11,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x416C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_11,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4174++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_11,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4160++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_11,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x42C++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_11,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x46C++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_11,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x4164++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_11,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_12"
width 24.
group.long 0x4188++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_12,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4190++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_12,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x419C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_12,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4198++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_12,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x130++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_12,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x418C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_12,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4194++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_12,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4180++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_12,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x430++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_12,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x470++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_12,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x4184++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_12,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_13"
width 24.
group.long 0x41A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_13,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x41B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_13,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x41BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_13,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x41B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_13,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x134++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_13,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x41AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_13,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x41B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_13,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x41A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_13,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x434++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_13,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x474++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_13,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x41A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_13,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_14"
width 24.
group.long 0x41C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_14,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x41D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_14,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x41DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_14,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x41D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_14,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x138++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_14,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x41CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_14,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x41D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_14,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x41C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_14,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x438++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_14,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x478++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_14,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x41C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_14,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_15"
width 24.
group.long 0x41E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_15,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x41F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_15,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x41FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_15,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x41F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_15,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x13C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_15,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x41EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_15,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x41F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_15,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x41E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_15,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x43C++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_15,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x47C++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_15,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x41E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_15,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_16"
width 24.
group.long 0x4208++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_16,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4210++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_16,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x421C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_16,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4218++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_16,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x140++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_16,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x420C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_16,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4214++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_16,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4200++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_16,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4204++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_16,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_17"
width 24.
group.long 0x4228++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_17,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4230++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_17,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x423C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_17,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4238++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_17,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x144++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_17,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x422C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_17,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4234++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_17,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4220++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_17,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4224++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_17,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_18"
width 24.
group.long 0x4248++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_18,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4250++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_18,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x425C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_18,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4258++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_18,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x148++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_18,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x424C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_18,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4254++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_18,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4240++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_18,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4244++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_18,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_19"
width 24.
group.long 0x4268++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_19,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4270++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_19,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x427C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_19,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4278++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_19,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x14C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_19,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x426C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_19,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4274++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_19,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4260++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_19,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4264++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_19,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_20"
width 24.
group.long 0x4288++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_20,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4290++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_20,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x429C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_20,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4298++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_20,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x150++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_20,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x428C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_20,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4294++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_20,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4280++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_20,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4284++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_20,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_21"
width 24.
group.long 0x42A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_21,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x42B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_21,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x42BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_21,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x42B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_21,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x154++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_21,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x42AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_21,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x42B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_21,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x42A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_21,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x42A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_21,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_22"
width 24.
group.long 0x42C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_22,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x42D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_22,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x42DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_22,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x42D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_22,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x158++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_22,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x42CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_22,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x42D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_22,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x42C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_22,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x42C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_22,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_23"
width 24.
group.long 0x42E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_23,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x42F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_23,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x42FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_23,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x42F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_23,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x15C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_23,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x42EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_23,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x42F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_23,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x42E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_23,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x42E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_23,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_24"
width 24.
group.long 0x4308++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_24,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4310++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_24,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x431C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_24,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4318++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_24,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x160++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_24,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x430C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_24,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4314++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_24,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4300++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_24,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4304++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_24,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_25"
width 24.
group.long 0x4328++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_25,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4330++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_25,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x433C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_25,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4338++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_25,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x164++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_25,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x432C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_25,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4334++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_25,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4320++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_25,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4324++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_25,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_26"
width 24.
group.long 0x4348++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_26,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4350++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_26,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x435C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_26,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4358++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_26,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x168++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_26,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x434C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_26,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4354++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_26,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4340++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_26,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4344++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_26,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_27"
width 24.
group.long 0x4368++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_27,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4370++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_27,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x437C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_27,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4378++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_27,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x16C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_27,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x436C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_27,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4374++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_27,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4360++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_27,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4364++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_27,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_28"
width 24.
group.long 0x4388++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_28,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4390++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_28,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x439C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_28,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4398++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_28,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x170++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_28,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x438C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_28,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4394++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_28,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4380++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_28,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4384++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_28,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_29"
width 24.
group.long 0x43A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_29,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x43B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_29,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x43BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_29,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x43B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_29,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x174++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_29,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x43AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_29,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x43B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_29,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x43A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_29,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x43A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_29,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_30"
width 24.
group.long 0x43C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_30,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x43D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_30,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x43DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_30,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x43D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_30,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x178++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_30,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x43CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_30,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x43D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_30,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x43C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_30,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x43C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_30,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_31"
width 24.
group.long 0x43E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_31,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x43F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_31,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x43FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_31,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x43F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_31,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x17C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_31,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x43EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_31,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x43F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_31,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x43E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_31,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x43E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_31,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_32"
width 24.
group.long 0x4408++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_32,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4410++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_32,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x441C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_32,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4418++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_32,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x180++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_32,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x440C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_32,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4414++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_32,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4400++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_32,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4404++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_32,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_33"
width 24.
group.long 0x4428++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_33,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4430++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_33,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x443C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_33,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4438++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_33,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x184++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_33,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x442C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_33,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4434++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_33,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4420++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_33,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4424++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_33,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_34"
width 24.
group.long 0x4448++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_34,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4450++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_34,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x445C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_34,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4458++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_34,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x188++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_34,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x444C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_34,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4454++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_34,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4440++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_34,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4444++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_34,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_35"
width 24.
group.long 0x4468++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_35,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4470++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_35,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x447C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_35,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4478++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_35,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x18C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_35,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x446C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_35,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4474++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_35,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4460++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_35,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4464++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_35,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_36"
width 24.
group.long 0x4488++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_36,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4490++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_36,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x449C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_36,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4498++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_36,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x190++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_36,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x448C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_36,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4494++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_36,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4480++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_36,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4484++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_36,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_37"
width 24.
group.long 0x44A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_37,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x44B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_37,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x44BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_37,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x44B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_37,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x194++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_37,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x44AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_37,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x44B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_37,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x44A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_37,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x44A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_37,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_38"
width 24.
group.long 0x44C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_38,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x44D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_38,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x44DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_38,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x44D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_38,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x198++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_38,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x44CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_38,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x44D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_38,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x44C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_38,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x44C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_38,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_39"
width 24.
group.long 0x44E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_39,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x44F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_39,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x44FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_39,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x44F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_39,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x19C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_39,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x44EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_39,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x44F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_39,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x44E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_39,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x44E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_39,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_40"
width 24.
group.long 0x4508++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_40,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4510++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_40,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x451C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_40,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4518++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_40,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1A0++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_40,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x450C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_40,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4514++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_40,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4500++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_40,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4504++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_40,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_41"
width 24.
group.long 0x4528++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_41,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4530++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_41,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x453C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_41,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4538++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_41,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1A4++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_41,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x452C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_41,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4534++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_41,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4520++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_41,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4524++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_41,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_42"
width 24.
group.long 0x4548++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_42,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4550++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_42,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x455C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_42,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4558++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_42,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1A8++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_42,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x454C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_42,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4554++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_42,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4540++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_42,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4544++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_42,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_43"
width 24.
group.long 0x4568++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_43,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4570++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_43,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x457C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_43,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4578++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_43,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1AC++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_43,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x456C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_43,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4574++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_43,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4560++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_43,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4564++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_43,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_44"
width 24.
group.long 0x4588++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_44,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4590++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_44,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x459C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_44,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4598++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_44,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1B0++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_44,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x458C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_44,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4594++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_44,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4580++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_44,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4584++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_44,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_45"
width 24.
group.long 0x45A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_45,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x45B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_45,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x45BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_45,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x45B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_45,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1B4++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_45,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x45AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_45,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x45B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_45,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x45A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_45,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x45A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_45,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_46"
width 24.
group.long 0x45C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_46,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x45D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_46,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x45DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_46,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x45D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_46,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1B8++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_46,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x45CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_46,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x45D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_46,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x45C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_46,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x45C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_46,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_47"
width 24.
group.long 0x45E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_47,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x45F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_47,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x45FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_47,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x45F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_47,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1BC++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_47,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x45EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_47,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x45F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_47,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x45E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_47,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x45E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_47,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_48"
width 24.
group.long 0x4608++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_48,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4610++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_48,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x461C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_48,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4618++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_48,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1C0++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_48,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x460C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_48,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4614++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_48,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4600++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_48,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4604++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_48,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_49"
width 24.
group.long 0x4628++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_49,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4630++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_49,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x463C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_49,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4638++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_49,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1C4++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_49,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x462C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_49,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4634++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_49,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4620++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_49,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4624++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_49,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_50"
width 24.
group.long 0x4648++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_50,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4650++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_50,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x465C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_50,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4658++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_50,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1C8++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_50,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x464C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_50,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4654++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_50,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4640++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_50,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4644++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_50,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_51"
width 24.
group.long 0x4668++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_51,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4670++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_51,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x467C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_51,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4678++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_51,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1CC++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_51,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x466C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_51,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4674++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_51,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4660++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_51,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4664++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_51,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_52"
width 24.
group.long 0x4688++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_52,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4690++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_52,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x469C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_52,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4698++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_52,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1D0++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_52,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x468C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_52,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4694++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_52,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4680++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_52,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4684++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_52,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_53"
width 24.
group.long 0x46A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_53,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x46B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_53,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x46BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_53,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x46B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_53,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1D4++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_53,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x46AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_53,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x46B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_53,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x46A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_53,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x46A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_53,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_54"
width 24.
group.long 0x46C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_54,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x46D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_54,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x46DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_54,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x46D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_54,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1D8++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_54,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x46CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_54,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x46D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_54,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x46C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_54,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x46C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_54,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_55"
width 24.
group.long 0x46E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_55,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x46F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_55,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x46FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_55,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x46F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_55,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1DC++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_55,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x46EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_55,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x46F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_55,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x46E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_55,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x46E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_55,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_56"
width 24.
group.long 0x4708++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_56,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4710++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_56,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x471C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_56,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4718++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_56,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1E0++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_56,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x470C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_56,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4714++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_56,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4700++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_56,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4704++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_56,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_57"
width 24.
group.long 0x4728++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_57,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4730++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_57,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x473C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_57,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4738++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_57,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1E4++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_57,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x472C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_57,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4734++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_57,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4720++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_57,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4724++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_57,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_58"
width 24.
group.long 0x4748++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_58,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4750++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_58,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x475C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_58,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4758++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_58,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1E8++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_58,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x474C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_58,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4754++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_58,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4740++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_58,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4744++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_58,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_59"
width 24.
group.long 0x4768++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_59,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4770++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_59,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x477C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_59,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4778++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_59,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1EC++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_59,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x476C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_59,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4774++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_59,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4760++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_59,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4764++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_59,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_60"
width 24.
group.long 0x4788++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_60,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4790++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_60,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x479C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_60,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4798++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_60,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1F0++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_60,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x478C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_60,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4794++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_60,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4780++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_60,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4784++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_60,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_61"
width 24.
group.long 0x47A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_61,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x47B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_61,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x47BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_61,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x47B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_61,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1F4++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_61,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x47AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_61,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x47B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_61,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x47A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_61,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x47A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_61,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_62"
width 24.
group.long 0x47C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_62,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x47D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_62,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x47DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_62,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x47D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_62,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1F8++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_62,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x47CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_62,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x47D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_62,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x47C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_62,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x47C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_62,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_63"
width 24.
group.long 0x47E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_63,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x47F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_63,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x47FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_63,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x47F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_63,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1FC++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_63,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x47EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_63,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x47F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_63,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x47E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_63,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x47E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_63,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_64"
width 22.
group.long 0x4808++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_64,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4810++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_64,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x481C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_64,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4818++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_64,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x480C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_64,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4814++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_64,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4800++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_64,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4804++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_64,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_65"
width 22.
group.long 0x4828++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_65,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4830++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_65,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x483C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_65,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4838++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_65,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x482C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_65,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4834++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_65,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4820++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_65,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4824++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_65,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_66"
width 22.
group.long 0x4848++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_66,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4850++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_66,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x485C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_66,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4858++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_66,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x484C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_66,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4854++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_66,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4840++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_66,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4844++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_66,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_67"
width 22.
group.long 0x4868++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_67,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4870++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_67,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x487C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_67,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4878++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_67,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x486C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_67,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4874++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_67,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4860++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_67,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4864++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_67,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_68"
width 22.
group.long 0x4888++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_68,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4890++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_68,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x489C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_68,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4898++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_68,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x488C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_68,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4894++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_68,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4880++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_68,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4884++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_68,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_69"
width 22.
group.long 0x48A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_69,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x48B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_69,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x48BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_69,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x48B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_69,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x48AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_69,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x48B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_69,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x48A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_69,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x48A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_69,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_70"
width 22.
group.long 0x48C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_70,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x48D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_70,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x48DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_70,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x48D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_70,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x48CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_70,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x48D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_70,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x48C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_70,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x48C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_70,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_71"
width 22.
group.long 0x48E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_71,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x48F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_71,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x48FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_71,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x48F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_71,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x48EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_71,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x48F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_71,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x48E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_71,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x48E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_71,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_72"
width 22.
group.long 0x4908++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_72,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4910++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_72,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x491C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_72,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4918++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_72,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x490C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_72,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4914++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_72,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4900++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_72,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4904++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_72,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_73"
width 22.
group.long 0x4928++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_73,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4930++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_73,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x493C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_73,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4938++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_73,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x492C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_73,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4934++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_73,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4920++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_73,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4924++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_73,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_74"
width 22.
group.long 0x4948++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_74,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4950++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_74,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x495C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_74,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4958++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_74,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x494C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_74,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4954++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_74,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4940++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_74,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4944++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_74,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_75"
width 22.
group.long 0x4968++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_75,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4970++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_75,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x497C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_75,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4978++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_75,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x496C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_75,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4974++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_75,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4960++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_75,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4964++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_75,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_76"
width 22.
group.long 0x4988++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_76,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4990++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_76,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x499C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_76,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4998++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_76,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x498C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_76,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4994++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_76,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4980++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_76,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4984++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_76,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_77"
width 22.
group.long 0x49A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_77,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x49B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_77,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x49BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_77,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x49B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_77,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x49AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_77,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x49B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_77,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x49A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_77,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x49A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_77,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_78"
width 22.
group.long 0x49C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_78,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x49D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_78,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x49DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_78,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x49D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_78,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x49CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_78,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x49D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_78,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x49C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_78,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x49C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_78,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_79"
width 22.
group.long 0x49E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_79,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x49F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_79,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x49FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_79,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x49F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_79,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x49EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_79,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x49F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_79,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x49E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_79,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x49E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_79,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_80"
width 22.
group.long 0x4A08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_80,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_80,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_80,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_80,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_80,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_80,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_80,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_80,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_81"
width 22.
group.long 0x4A28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_81,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_81,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_81,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_81,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_81,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_81,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_81,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_81,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_82"
width 22.
group.long 0x4A48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_82,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_82,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_82,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_82,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_82,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_82,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_82,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_82,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_83"
width 22.
group.long 0x4A68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_83,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_83,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_83,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_83,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_83,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_83,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_83,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_83,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_84"
width 22.
group.long 0x4A88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_84,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_84,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_84,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_84,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_84,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_84,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_84,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_84,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_85"
width 22.
group.long 0x4AA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_85,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4AB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_85,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4ABC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_85,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4AB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_85,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4AAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_85,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4AB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_85,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4AA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_85,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4AA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_85,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_86"
width 22.
group.long 0x4AC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_86,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4AD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_86,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4ADC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_86,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4AD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_86,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4ACC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_86,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4AD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_86,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4AC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_86,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4AC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_86,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_87"
width 22.
group.long 0x4AE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_87,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4AF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_87,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4AFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_87,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4AF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_87,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4AEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_87,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4AF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_87,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4AE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_87,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4AE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_87,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_88"
width 22.
group.long 0x4B08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_88,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_88,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_88,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_88,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_88,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_88,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_88,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_88,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_89"
width 22.
group.long 0x4B28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_89,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_89,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_89,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_89,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_89,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_89,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_89,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_89,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_90"
width 22.
group.long 0x4B48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_90,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_90,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_90,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_90,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_90,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_90,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_90,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_90,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_91"
width 22.
group.long 0x4B68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_91,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_91,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_91,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_91,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_91,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_91,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_91,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_91,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_92"
width 22.
group.long 0x4B88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_92,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_92,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_92,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_92,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_92,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_92,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_92,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_92,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_93"
width 22.
group.long 0x4BA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_93,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4BB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_93,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4BBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_93,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4BB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_93,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4BAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_93,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4BB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_93,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4BA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_93,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4BA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_93,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_94"
width 22.
group.long 0x4BC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_94,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4BD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_94,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4BDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_94,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4BD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_94,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4BCC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_94,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4BD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_94,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4BC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_94,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4BC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_94,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_95"
width 22.
group.long 0x4BE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_95,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4BF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_95,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4BFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_95,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4BF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_95,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4BEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_95,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4BF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_95,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4BE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_95,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4BE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_95,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_96"
width 22.
group.long 0x4C08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_96,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_96,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_96,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_96,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_96,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_96,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_96,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_96,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_97"
width 22.
group.long 0x4C28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_97,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_97,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_97,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_97,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_97,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_97,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_97,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_97,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_98"
width 22.
group.long 0x4C48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_98,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_98,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_98,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_98,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_98,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_98,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_98,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_98,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_99"
width 22.
group.long 0x4C68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_99,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_99,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_99,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_99,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_99,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_99,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_99,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_99,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_100"
width 23.
group.long 0x4C88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_100,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_100,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_100,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_100,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_100,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_100,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_100,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_100,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_101"
width 23.
group.long 0x4CA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_101,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4CB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_101,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4CBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_101,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4CB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_101,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4CAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_101,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4CB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_101,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4CA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_101,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4CA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_101,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_102"
width 23.
group.long 0x4CC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_102,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4CD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_102,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4CDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_102,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4CD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_102,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4CCC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_102,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4CD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_102,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4CC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_102,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4CC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_102,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_103"
width 23.
group.long 0x4CE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_103,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4CF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_103,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4CFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_103,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4CF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_103,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4CEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_103,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4CF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_103,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4CE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_103,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4CE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_103,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_104"
width 23.
group.long 0x4D08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_104,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_104,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_104,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_104,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_104,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_104,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_104,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_104,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_105"
width 23.
group.long 0x4D28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_105,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_105,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_105,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_105,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_105,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_105,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_105,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_105,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_106"
width 23.
group.long 0x4D48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_106,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_106,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_106,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_106,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_106,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_106,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_106,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_106,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_107"
width 23.
group.long 0x4D68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_107,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_107,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_107,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_107,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_107,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_107,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_107,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_107,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_108"
width 23.
group.long 0x4D88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_108,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_108,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_108,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_108,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_108,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_108,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_108,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_108,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_109"
width 23.
group.long 0x4DA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_109,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4DB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_109,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4DBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_109,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4DB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_109,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4DAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_109,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4DB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_109,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4DA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_109,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4DA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_109,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_110"
width 23.
group.long 0x4DC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_110,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4DD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_110,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4DDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_110,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4DD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_110,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4DCC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_110,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4DD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_110,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4DC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_110,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4DC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_110,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_111"
width 23.
group.long 0x4DE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_111,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4DF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_111,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4DFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_111,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4DF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_111,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4DEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_111,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4DF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_111,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4DE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_111,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4DE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_111,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_112"
width 23.
group.long 0x4E08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_112,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_112,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_112,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_112,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_112,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_112,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_112,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_112,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_113"
width 23.
group.long 0x4E28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_113,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_113,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_113,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_113,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_113,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_113,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_113,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_113,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_114"
width 23.
group.long 0x4E48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_114,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_114,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_114,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_114,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_114,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_114,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_114,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_114,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_115"
width 23.
group.long 0x4E68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_115,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_115,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_115,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_115,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_115,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_115,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_115,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_115,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_116"
width 23.
group.long 0x4E88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_116,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_116,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_116,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_116,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_116,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_116,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_116,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_116,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_117"
width 23.
group.long 0x4EA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_117,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4EB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_117,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4EBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_117,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4EB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_117,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4EAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_117,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4EB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_117,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4EA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_117,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4EA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_117,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_118"
width 23.
group.long 0x4EC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_118,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4ED0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_118,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4EDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_118,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4ED8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_118,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4ECC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_118,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4ED4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_118,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4EC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_118,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4EC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_118,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_119"
width 23.
group.long 0x4EE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_119,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4EF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_119,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4EFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_119,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4EF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_119,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4EEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_119,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4EF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_119,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4EE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_119,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4EE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_119,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_120"
width 23.
group.long 0x4F08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_120,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_120,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_120,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_120,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_120,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_120,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_120,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_120,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_121"
width 23.
group.long 0x4F28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_121,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_121,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_121,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_121,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_121,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_121,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_121,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_121,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_122"
width 23.
group.long 0x4F48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_122,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_122,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_122,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_122,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_122,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_122,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_122,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_122,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_123"
width 23.
group.long 0x4F68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_123,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_123,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_123,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_123,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_123,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_123,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_123,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_123,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_124"
width 23.
group.long 0x4F88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_124,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_124,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_124,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_124,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_124,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_124,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_124,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_124,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_125"
width 23.
group.long 0x4FA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_125,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4FB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_125,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4FBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_125,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4FB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_125,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4FAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_125,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4FB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_125,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4FA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_125,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4FA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_125,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_126"
width 23.
group.long 0x4FC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_126,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4FD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_126,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4FDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_126,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4FD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_126,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4FCC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_126,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4FD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_126,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4FC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_126,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4FC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_126,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_127"
width 23.
group.long 0x4FE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_127,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4FF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_127,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4FFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_127,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4FF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_127,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4FEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_127,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4FF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_127,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4FE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_127,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4FE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_127,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
textline ""
width 20.
rgroup.long 0x0++0x3
line.long 0x00 "EDMA_TPCC_PID,Peripheral ID Register"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP revision"
rgroup.long 0x4++0x3
line.long 0x00 "EDMA_TPCC_CCCFG,CC Configuration Register"
bitfld.long 0x00 25. " MPEXIST   ,Memory Protection Existence - . - ." "No_mMemory_protection,1"
bitfld.long 0x00 24. "  CHMAPEXIST ,Channel Mapping Existence - . - ." "No_Channel_mapping.,1"
bitfld.long 0x00 20.--21. "  NUMREGN  ,Number of MP and Shadow regions" "0,1,2,3"
textline "                             "
bitfld.long 0x00 16.--18. " NUMTC     ,Number of Queues/Number of TCs" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                      NUMPAENTRY ,Number of PaRAM entries" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "                    NUMINTCH ,Number of Interrupt Channels" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 4.--6. " NUMQDMACH ,Number of QDMA Channels" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                      NUMDMACH   ,Number of DMA Channels" "0,1,2,3,4,5,6,7"
group.long 0xFC++0x3
line.long 0x00 "EDMA_TPCC_CLKGDIS,Auto Clock Gate Disable"
bitfld.long 0x00 0. " CLKGDIS   ,Auto Clock Gate Disable" "0,1"
group.long 0x260++0x3
line.long 0x00 "EDMA_TPCC_QDMAQNUM,QDMA Queue Number Register Contains the Event queue number to be used for the corresponding QDMA Channel."
bitfld.long 0x00 28.--30. " E7        ,QDMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                      E6         ,QDMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "                    E5       ,QDMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 16.--18. " E4        ,QDMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                      E3         ,QDMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "                    E2       ,QDMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 4.--6. " E1        ,QDMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                      E0         ,QDMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x280++0x3
line.long 0x00 "EDMA_TPCC_QUETCMAP,Queue to TC Mapping"
bitfld.long 0x00 4.--6. " TCNUMQ1   ,TC Number for Queue N: Defines the TC number that Event Queue N TRs are written to." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                      TCNUMQ0    ,TC Number for Queue N: Defines the TC number that Event Queue N TRs are written to." "0,1,2,3,4,5,6,7"
group.long 0x284++0x3
line.long 0x00 "EDMA_TPCC_QUEPRI,Queue Priority"
bitfld.long 0x00 4.--6. " PRIQ1     ,Priority Level for Queue 1 Dictates the priority level used for the OPTIONS field programmation for Qn TRs. Sets the priority used for TC read and write commands." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                      PRIQ0      ,Priority Level for Queue 0 Dictates the priority level used for the OPTIONS field programmation for Qn TRs. Sets the priority used for TC read and write commands." "0,1,2,3,4,5,6,7"
rgroup.long 0x300++0x3
line.long 0x00 "EDMA_TPCC_EMR,Event Missed Register: The Event Missed register is set if 2 events are received without the first event being cleared or if a Null TR is serviced. Chained events (CER), Set Events (ESR), and normal events (ER) are treated individually. I..."
bitfld.long 0x00 31. " E31       ,Event Missed #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event Missed #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event Missed #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event Missed #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event Missed #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event Missed #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event Missed #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event Missed #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event Missed #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event Missed #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event Missed #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event Missed #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event Missed #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event Missed #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event Missed #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event Missed #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event Missed #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event Missed #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event Missed #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event Missed #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event Missed #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event Missed #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event Missed #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event Missed #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event Missed #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event Missed #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event Missed #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event Missed #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event Missed #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event Missed #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event Missed #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event Missed #0" "0,1"
rgroup.long 0x304++0x3
line.long 0x00 "EDMA_TPCC_EMRH,Event Missed Register (High Part): The Event Missed register is set if 2 events are received without the first event being cleared or if a Null TR is serviced. Chained events (CER), Set Events (ESR), and normal events (ER) are treated in..."
bitfld.long 0x00 31. " E63       ,Event Missed #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event Missed #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event Missed #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event Missed #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event Missed #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event Missed #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event Missed #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event Missed #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event Missed #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event Missed #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event Missed #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event Missed #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event Missed #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event Missed #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event Missed #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event Missed #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event Missed #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event Missed #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event Missed #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event Missed #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event Missed #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event Missed #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event Missed #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event Missed #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event Missed #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event Missed #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event Missed #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event Missed #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event Missed #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event Missed #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event Missed #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event Missed #32" "0,1"
wgroup.long 0x308++0x3
line.long 0x00 "EDMA_TPCC_EMCR,Event Missed Clear Register: CPU write of '1' to the.En bit causes the .En bit to be cleared. CPU write of '0' has no effect.. All error bits must be cleared before additional error interrupts will be asserted by CC."
bitfld.long 0x00 31. " E31       ,Event Missed Clear #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event Missed Clear #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event Missed Clear #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event Missed Clear #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event Missed Clear #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event Missed Clear #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event Missed Clear #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event Missed Clear #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event Missed Clear #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event Missed Clear #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event Missed Clear #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event Missed Clear #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event Missed Clear #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event Missed Clear #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event Missed Clear #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event Missed Clear #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event Missed Clear #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event Missed Clear #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event Missed Clear #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event Missed Clear #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event Missed Clear #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event Missed Clear #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event Missed Clear #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event Missed Clear #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event Missed Clear #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event Missed Clear #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event Missed Clear #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event Missed Clear #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event Missed Clear #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event Missed Clear #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event Missed Clear #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event Missed Clear #0" "0,1"
wgroup.long 0x30C++0x3
line.long 0x00 "EDMA_TPCC_EMCRH,Event Missed Clear Register (High Part): CPU write of '1' to the.En bit causes the .En bit to be cleared. CPU write of '0' has no effect. All error bits must be cleared before additional error interrupts will be asserted by CC."
bitfld.long 0x00 31. " E63       ,Event Missed Clear #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event Missed Clear #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event Missed Clear #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event Missed Clear #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event Missed Clear #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event Missed Clear #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event Missed Clear #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event Missed Clear #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event Missed Clear #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event Missed Clear #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event Missed Clear #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event Missed Clear #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event Missed Clear #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event Missed Clear #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event Missed Clear #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event Missed Clear #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event Missed Clear #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event Missed Clear #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event Missed Clear #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event Missed Clear #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event Missed Clear #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event Missed Clear #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event Missed Clear #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event Missed Clear #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event Missed Clear #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event Missed Clear #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event Missed Clear #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event Missed Clear #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event Missed Clear #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event Missed Clear #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event Missed Clear #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event Missed Clear #32" "0,1"
rgroup.long 0x310++0x3
line.long 0x00 "EDMA_TPCC_QEMR,QDMA Event Missed Register: The QDMA Event Missed register is set if 2 QDMA events are detected without the first event being cleared or if a Null TR is serviced. If any bit in the register is set (and all errors (including / ) were prev..."
bitfld.long 0x00 7. " E7        ,Event Missed #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event Missed #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event Missed #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event Missed #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event Missed #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event Missed #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event Missed #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event Missed #0" "0,1"
wgroup.long 0x314++0x3
line.long 0x00 "EDMA_TPCC_QEMCR,QDMA Event Missed Clear Register: CPU write of '1' to the.En bit causes the .En bit to be cleared. CPU write of '0' has no effect. All error bits must be cleared before additional error interrupts will be asserted by CC."
bitfld.long 0x00 7. " E7        ,Event Missed Clear #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event Missed Clear #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event Missed Clear #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event Missed Clear #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event Missed Clear #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event Missed Clear #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event Missed Clear #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event Missed Clear #0" "0,1"
rgroup.long 0x318++0x3
line.long 0x00 "EDMA_TPCC_CCERR,CC Error Register"
bitfld.long 0x00 16. " TCERR     ,Transfer Completion Code Error - . - . - TCERR can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors were previously clear), then an error will be signaled with TPCC error interr..." "0,1"
bitfld.long 0x00 7. "                      QTHRXCD7   ,Queue Threshold Error for Q7 - . - . - QTHRXCD7 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error wi..." "0,1"
bitfld.long 0x00 6. "                    QTHRXCD6 ,Queue Threshold Error for Q6 - . - . - QTHRXCD6 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will b..." "0,1"
textline "                             "
bitfld.long 0x00 5. " QTHRXCD5  ,Queue Threshold Error for Q5 - . - . - QTHRXCD5 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will be signaled with th..." "0,1"
bitfld.long 0x00 4. "                      QTHRXCD4   ,Queue Threshold Error for Q4 - . - . - QTHRXCD4 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error wi..." "0,1"
bitfld.long 0x00 3. "                    QTHRXCD3 ,Queue Threshold Error for Q3 - . - . - QTHRXCD3 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will b..." "0,1"
textline "                             "
bitfld.long 0x00 2. " QTHRXCD2  ,Queue Threshold Error for Q2 - . - . - QTHRXCD2 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will be signaled with th..." "0,1"
bitfld.long 0x00 1. "                      QTHRXCD1   ,Queue Threshold Error for Q1 - . - . - QTHRXCD1 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error wi..." "0,1"
bitfld.long 0x00 0. "                    QTHRXCD0 ,Queue Threshold Error for Q0: - . - . - QTHRXCD0 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will ..." "0,1"
wgroup.long 0x31C++0x3
line.long 0x00 "EDMA_TPCC_CCERRCLR,CC Error Clear Register"
bitfld.long 0x00 16. " TCERR     ,Clear Error forEDMA_TPCC_CCERR[16] TR. - Write 0x1 to clear the value of[16] TCERR. . - . - Write 0x0 have no affect. . - ." "0,1"
bitfld.long 0x00 7. "                      QTHRXCD7   ,Clear error forEDMA_TPCC_CCERR[7]QTHRXCD7 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT7.WM, QSTAT7.THRXCD,[7] QTHRXCD7 . - ." "0,1"
bitfld.long 0x00 6. "                    QTHRXCD6 ,Clear error forEDMA_TPCC_CCERR[6] QTHRXCD6 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT6.WM, QSTAT6.THRXCD,[6]QTHRXCD6 . - ." "0,1"
textline "                             "
bitfld.long 0x00 5. " QTHRXCD5  ,Clear error forEDMA_TPCC_CCERR[5] QTHRXCD5 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT5.WM, QSTAT5.THRXCD,[5]QTHRXCD5 . - ." "0,1"
bitfld.long 0x00 4. "                      QTHRXCD4   ,Clear error forEDMA_TPCC_CCERR[4] QTHRXCD4: - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT4.WM, QSTAT4.THRXCD,[4] QTHRXCD4 . - ." "0,1"
bitfld.long 0x00 3. "                    QTHRXCD3 ,Clear error forEDMA_TPCC_CCERR[3] QTHRXCD3 - Write 0x1 to clear the values of QSTAT3.WM, QSTAT3.THRXCD,[3] QTHRXCD3 . - . - Write 0x0 have no affect. . - ." "0,1"
textline "                             "
bitfld.long 0x00 2. " QTHRXCD2  ,Clear error forEDMA_TPCC_CCERR[2] QTHRXCD2 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT2.WM, QSTAT2.THRXCD,[2] QTHRXCD2 . - ." "0,1"
bitfld.long 0x00 1. "                      QTHRXCD1   ,Clear error forEDMA_TPCC_CCERR[1] QTHRXCD1 - Write 0x1 to clear the values of QSTAT1.WM, QSTAT1.THRXCD,[1] QTHRXCD1 . - . - Write 0x0 have no affect. . - ." "0,1"
bitfld.long 0x00 0. "                    QTHRXCD0 ,Clear error forEDMA_TPCC_CCERR[0] QTHRXCD0 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT0.WM, QSTAT0.THRXCD,[0] QTHRXCD0 . - ." "0,1"
wgroup.long 0x320++0x3
line.long 0x00 "EDMA_TPCC_EEVAL,Error Eval Register"
bitfld.long 0x00 1. " SET       ,Error Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SET bit causes the TPCC error interrupt to be pulsed regardless of state of/, , or . . - ." "0,1"
bitfld.long 0x00 0. "                      EVAL       ,Error Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVAL bit causes the TPCC error interrupt to be pulsed if any errors have not been cleared in the/, , or registers. The CPU must als..." "0,1"
group.long 0x620++0x3
line.long 0x00 "EDMA_TPCC_QWMTHRA,Queue Threshold A, for Q[3:0]:.QTHRXCDn and QSTATn[24] THRXCD error bit is set when the number of Events in QueueN at an instant in time (visible via QSTATn[12:8] NUMVAL) equals or exceeds the value specified by .Qn. Legal values = 0x..."
bitfld.long 0x00 24.--28. " Q3        ,Queue Threshold for Q3 value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "                     Q2         ,Queue Threshold for Q2 value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "                   Q1       ,Queue Threshold for Q1 value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                             "
bitfld.long 0x00 0.--4. " Q0        ,Queue Threshold for Q0 value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x624++0x3
line.long 0x00 "EDMA_TPCC_QWMTHRB,Queue Threshold B, for Q[7:4]:.QTHRXCDn and QSTATn[24]THRXCD error bit is set when the number of Events in QueueN at an instant in time (visible via QSTATn[12:8] NUMVAL) equals or exceeds the value specified by QWMTHRB.Qn. Legal value..."
bitfld.long 0x00 24.--28. " Q7        ,Queue Threshold for Q7 value (unused in the context of IVAHD)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "                     Q6         ,Queue Threshold for Q6 value (unused in the context of IVAHD)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "                   Q5       ,Queue Threshold for Q5 value (unused in the context of IVAHD)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                             "
bitfld.long 0x00 0.--4. " Q4        ,Queue Threshold for Q4 value (unused in the context of IVAHD)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rgroup.long 0x640++0x3
line.long 0x00 "EDMA_TPCC_CCSTAT,CC Status Register"
bitfld.long 0x00 23. " QUEACTV7  ,Queue 7 Active - . - ." "0,1"
bitfld.long 0x00 22. "                      QUEACTV6   ,Queue 6 Active - . - ." "0,1"
bitfld.long 0x00 21. "                    QUEACTV5 ,Queue 5 Active - . - ." "0,1"
textline "                             "
bitfld.long 0x00 20. " QUEACTV4  ,Queue 4 Active - . - ." "0,1"
bitfld.long 0x00 19. "                      QUEACTV3   ,Queue 3 Active - . - ." "0,1"
bitfld.long 0x00 18. "                    QUEACTV2 ,Queue 2 Active QUEACTV2 = 0 : No Evts are queued in Q2. QUEACTV2 = 1 : At least one TR is queued in Q2. - . - ." "UNKN_MNEMO,UNKN_MNEMO"
textline "                             "
bitfld.long 0x00 17. " QUEACTV1  ,Queue 1 Active - . - ." "0,1"
bitfld.long 0x00 16. "                      QUEACTV0   ,Queue 0 Active - . - ." "0,1"
bitfld.long 0x00 8.--13. "                    COMPACTV ,Completion Request Active: Counter that tracks the total number of completion requests submitted to the TC. The counter increments when a TR is submitted with TCINTEN or TCCHEN set to '1'. The counter decrements for every ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                             "
bitfld.long 0x00 4. " ACTV      ,Channel Controller Active Channel Controller Active is a logical-OR of each of the *ACTV signals. The ACTV bit must remain high through the life of a: - . - ." "Channel_is_idle.,Channel_is_busy."
bitfld.long 0x00 2. "       TRACTV     ,Transfer Request Active TRACTV = 0 : Transfer Request processing/submission logic is inactive. TRACTV = 1 : Transfer Request processing/submission logic is active. - . - ." "UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 1. "           QEVTACTV ,QDMA Event Active - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0. " EVTACTV   ,DMA Event Active - . - ." "0,1"
group.long 0x700++0x3
line.long 0x00 "EDMA_TPCC_AETCTL,Advanced Event Trigger Control"
bitfld.long 0x00 31. " EN        ,AET Enable - . - ." "0,1"
bitfld.long 0x00 8.--13. "                      ENDINT     ,AET End Interrupt: Dictates the completion interrupt number that will force the tpcc_aet signal to be deasserted (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 6. "                   TYPE     ,AET Event Type - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0.--5. " STRTEVT   ,AET Start Event: Dictates the Event Number that will force the tpcc_aet signal to be asserted (high)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x704++0x3
line.long 0x00 "EDMA_TPCC_AETSTAT,Advanced Event Trigger Stat"
bitfld.long 0x00 0. " STAT      ,AET Status - . - ." "0,1"
wgroup.long 0x708++0x3
line.long 0x00 "EDMA_TPCC_AETCMD,AET Command"
bitfld.long 0x00 0. " CLR       ,AET Clear command - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the CLR bit causes the tpcc_aet output signal and[0]STAT register to be cleared. . - ." "0,1"
rgroup.long 0x800++0x3
line.long 0x00 "EDMA_TPCC_MPFAR,MMemory Protection Fault Address"
hexmask.long 0x00 0.--31. 1. " FADDR     ,Fault Address: 32-bit read-only status register containing the faulting address when a mMemory protection violation is detected. This register can only be cleared via theEDMA_TPCC_MPFCR."
rgroup.long 0x804++0x3
line.long 0x00 "EDMA_TPCC_MPFSR,Memory Protection Fault Status Register"
bitfld.long 0x00 9.--12. " FID       ,Faulted ID: FID register contains valid info if any of the MP error bits (UXE, UWE, URE, SXE, SWE, SRE) are non-zero (i.e., if an error has been detected.) The FID field contains the VBus PrivID for the specific request/requestor that resul..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 5. "                     SRE        ,Supervisor Read Error - . - ." "No_error_detected.,1"
bitfld.long 0x00 4. "   SWE      ,Supervisor Write Error - . - ." "No_error_detected.,1"
textline "                             "
bitfld.long 0x00 3. " SXE       ,Supervisor Execute Error - . - ." "No_error_detected.,1"
bitfld.long 0x00 2. "     URE        ,User Read Error - . - ." "No_error_detected.,1"
bitfld.long 0x00 1. "   UWE      ,User Write Error - . - ." "No_error_detected.,1"
textline "                             "
bitfld.long 0x00 0. " UXE       ,User Execute Error - . - ." "No_error_detected,1"
wgroup.long 0x808++0x3
line.long 0x00 "EDMA_TPCC_MPFCR,Memory Protection Fault Command Register"
bitfld.long 0x00 0. " MPFCLR    ,Fault Clear register - . - ." "has_no_effect,1"
group.long 0x80C++0x3
line.long 0x00 "EDMA_TPCC_MPPAG,Memory Protection Page Attribute for Global registers"
bitfld.long 0x00 15. " AID5      ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                      AID4       ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "                    AID3     ,Allowed ID 3 - . - ." "0,1"
textline "                             "
bitfld.long 0x00 12. " AID2      ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                      AID1       ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "                    AID0     ,Allowed ID 0 - . - ." "0,1"
textline "                             "
bitfld.long 0x00 9. " EXT       ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                      SR         ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "                    SW       ,Supervisor Write permission - . - ." "0,1"
textline "                             "
bitfld.long 0x00 3. " SX        ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                      UR         ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "                    UW       ,User Write permission - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0. " UX        ,User Execute permission - . - ." "0,1"
rgroup.long 0x1000++0x3
line.long 0x00 "EDMA_TPCC_ER,Event Register: If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive (low) ..."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x1004++0x3
line.long 0x00 "EDMA_TPCC_ERH,Event Register (High Part): If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from in..."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1008++0x3
line.long 0x00 "EDMA_TPCC_ECR,Event Clear Register: CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x100C++0x3
line.long 0x00 "EDMA_TPCC_ECRH,Event Clear Register (High Part): CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1010++0x3
line.long 0x00 "EDMA_TPCC_ESR,Event Set Register: CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1014++0x3
line.long 0x00 "EDMA_TPCC_ESRH,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
rgroup.long 0x1018++0x3
line.long 0x00 "EDMA_TPCC_CER,Chained Event Register: If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is returned fr..."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x101C++0x3
line.long 0x00 "EDMA_TPCC_CERH,Chained Event Register (High Part): If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code i..."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
rgroup.long 0x1020++0x3
line.long 0x00 "EDMA_TPCC_EER,Event Enable Register: Enables DMA transfers for.En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). Note that if a bit..."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x1024++0x3
line.long 0x00 "EDMA_TPCC_EERH,Event Enable Register (High Part): Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). Note..."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1028++0x3
line.long 0x00 "EDMA_TPCC_EECR,Event Enable Clear Register CPU writes of '1' to the .En bit causes the .En bit to be cleared. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x102C++0x3
line.long 0x00 "EDMA_TPCC_EECRH,Event Enable Clear Register (High Part) CPU writes of '1' to the .En bit causes the EERH.En bit to be cleared. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1030++0x3
line.long 0x00 "EDMA_TPCC_EESR,Event Enable Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1034++0x3
line.long 0x00 "EDMA_TPCC_EESRH,Event Enable Set Register (High Part) CPU writes of '1' to the .En bit causes the .En bit to be set. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
rgroup.long 0x1038++0x3
line.long 0x00 "EDMA_TPCC_SER,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored in Even..."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x103C++0x3
line.long 0x00 "EDMA_TPCC_SERH,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently s..."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1040++0x3
line.long 0x00 "EDMA_TPCC_SECR,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '1' to the .En bit clears the register. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1044++0x3
line.long 0x00 "EDMA_TPCC_SECRH,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '1' to the .En bit clears the register. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
rgroup.long 0x1050++0x3
line.long 0x00 "EDMA_TPCC_IER,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. . In = 0: .In is NOT enabled for interrupts. . In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x1054++0x3
line.long 0x00 "EDMA_TPCC_IERH,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. . In = 0: .In is NOT enabled for interrupts. . In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x1058++0x3
line.long 0x00 "EDMA_TPCC_IECR,Int Enable Clear Register CPU writes of '1' to the .In bit causes the .In bit to be cleared. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x105C++0x3
line.long 0x00 "EDMA_TPCC_IECRH,Int Enable Clear Register (High Part) CPU write of '1' to the .In bit causes the .In bit to be cleared. CPU write of '0' has no effect.."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x1060++0x3
line.long 0x00 "EDMA_TPCC_IESR,Int Enable Set Register CPU write of '1' to the .In bit causes the .In bit to be set. CPU write of '0' has no effect.."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x1064++0x3
line.long 0x00 "EDMA_TPCC_IESRH,Int Enable Set Register (High Part) CPU write of '1' to the .In bit causes the .In bit to be set. CPU write of '0' has no effect.."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x1068++0x3
line.long 0x00 "EDMA_TPCC_IPR,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x106C++0x3
line.long 0x00 "EDMA_TPCC_IPRH,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. . In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x1070++0x3
line.long 0x00 "EDMA_TPCC_ICR,Interrupt Clear Register CPU write of '1' to the .In bit causes the .In bit to be cleared. CPU write of '0' has no effect. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x1074++0x3
line.long 0x00 "EDMA_TPCC_ICRH,Interrupt Clear Register (High Part) CPU write of '1' to the .In bit causes the .In bit to be cleared. CPU write of '0' has no effect. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x1078++0x3
line.long 0x00 "EDMA_TPCC_IEVAL,Interrupt Eval Register"
bitfld.long 0x00 1. " SET       ,Interrupt Set: CPU write of '1' to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). CPU write of '0' has no effect." "0,1"
bitfld.long 0x00 0. "                      EVAL       ,Interrupt Evaluate: CPU write of '1' to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). CPU write of '0' has no effect." "0,1"
rgroup.long 0x1080++0x3
line.long 0x00 "EDMA_TPCC_QER,QDMA Event Register: If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .En bit ..."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x1084++0x3
line.long 0x00 "EDMA_TPCC_QEER,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. QDMA channels can be enabled via writes to and can be disabled via writes to register. .En = 1, The corresponding QDMA..."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1088++0x3
line.long 0x00 "EDMA_TPCC_QEECR,QDMA Event Enable Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect.."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x108C++0x3
line.long 0x00 "EDMA_TPCC_QEESR,QDMA Event Enable Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect.."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x1090++0x3
line.long 0x00 "EDMA_TPCC_QSER,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1094++0x3
line.long 0x00 "EDMA_TPCC_QSECR,QDMA Secondary Event Clear Register The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear the .En register). CPU write of '1' to..."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
width 0x0B
tree.end
tree "SYS_EDMA_TPCC"
base ad:0x43300000
tree "DMA_Channel_0"
width 24.
group.long 0x4008++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_0,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4010++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_0,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x401C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_0,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x201C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_0,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2018++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_0,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4018++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_0,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x100++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_0,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x240++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_0,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "      E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "      E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x344++0x3
line.long 0x00 "EDMA_TPCC_DRAEHM_k_0,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enable..."
bitfld.long 0x00 31. " E63     ,DMA Region Access enable for Region M, bit #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,DMA Region Access enable for Region M, bit #62" "0,1"
bitfld.long 0x00 29. "      E61     ,DMA Region Access enable for Region M, bit #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,DMA Region Access enable for Region M, bit #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,DMA Region Access enable for Region M, bit #59" "0,1"
bitfld.long 0x00 26. "      E58     ,DMA Region Access enable for Region M, bit #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,DMA Region Access enable for Region M, bit #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,DMA Region Access enable for Region M, bit #56" "0,1"
bitfld.long 0x00 23. "      E55     ,DMA Region Access enable for Region M, bit #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,DMA Region Access enable for Region M, bit #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,DMA Region Access enable for Region M, bit #53" "0,1"
bitfld.long 0x00 20. "      E52     ,DMA Region Access enable for Region M, bit #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,DMA Region Access enable for Region M, bit #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,DMA Region Access enable for Region M, bit #50" "0,1"
bitfld.long 0x00 17. "      E49     ,DMA Region Access enable for Region M, bit #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,DMA Region Access enable for Region M, bit #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,DMA Region Access enable for Region M, bit #47" "0,1"
bitfld.long 0x00 14. "      E46     ,DMA Region Access enable for Region M, bit #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,DMA Region Access enable for Region M, bit #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,DMA Region Access enable for Region M, bit #44" "0,1"
bitfld.long 0x00 11. "      E43     ,DMA Region Access enable for Region M, bit #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,DMA Region Access enable for Region M, bit #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,DMA Region Access enable for Region M, bit #41" "0,1"
bitfld.long 0x00 8. "      E40     ,DMA Region Access enable for Region M, bit #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,DMA Region Access enable for Region M, bit #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,DMA Region Access enable for Region M, bit #38" "0,1"
bitfld.long 0x00 5. "      E37     ,DMA Region Access enable for Region M, bit #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,DMA Region Access enable for Region M, bit #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,DMA Region Access enable for Region M, bit #35" "0,1"
bitfld.long 0x00 2. "      E34     ,DMA Region Access enable for Region M, bit #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,DMA Region Access enable for Region M, bit #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,DMA Region Access enable for Region M, bit #32" "0,1"
group.long 0x340++0x3
line.long 0x00 "EDMA_TPCC_DRAEM_k_0,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled..."
bitfld.long 0x00 31. " E31     ,DMA Region Access enable for Region M, bit #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,DMA Region Access enable for Region M, bit #30" "0,1"
bitfld.long 0x00 29. "      E29     ,DMA Region Access enable for Region M, bit #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,DMA Region Access enable for Region M, bit #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,DMA Region Access enable for Region M, bit #27" "0,1"
bitfld.long 0x00 26. "      E26     ,DMA Region Access enable for Region M, bit #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,DMA Region Access enable for Region M, bit #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,DMA Region Access enable for Region M, bit #24" "0,1"
bitfld.long 0x00 23. "      E23     ,DMA Region Access enable for Region M, bit #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,DMA Region Access enable for Region M, bit #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,DMA Region Access enable for Region M, bit #21" "0,1"
bitfld.long 0x00 20. "      E20     ,DMA Region Access enable for Region M, bit #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,DMA Region Access enable for Region M, bit #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,DMA Region Access enable for Region M, bit #18" "0,1"
bitfld.long 0x00 17. "      E17     ,DMA Region Access enable for Region M, bit #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,DMA Region Access enable for Region M, bit #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,DMA Region Access enable for Region M, bit #15" "0,1"
bitfld.long 0x00 14. "      E14     ,DMA Region Access enable for Region M, bit #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,DMA Region Access enable for Region M, bit #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,DMA Region Access enable for Region M, bit #12" "0,1"
bitfld.long 0x00 11. "      E11     ,DMA Region Access enable for Region M, bit #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,DMA Region Access enable for Region M, bit #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,DMA Region Access enable for Region M, bit #9" "0,1"
bitfld.long 0x00 8. "      E8      ,DMA Region Access enable for Region M, bit #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,DMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,DMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "      E5      ,DMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,DMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,DMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "      E2      ,DMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,DMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,DMA Region Access enable for Region M, bit #0" "0,1"
group.long 0x400C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_0,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x200C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_0,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2008++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_0,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x202C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_0,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2028++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_0,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2024++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_0,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2020++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_0,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2034++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_0,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2030++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_0,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2004++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_0,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2000++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_0,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2014++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_0,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2010++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_0,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2074++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_0,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2070++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_0,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x205C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_0,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2058++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_0,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2054++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_0,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2050++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_0,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2064++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_0,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2060++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_0,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2078++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_0,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x206C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_0,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2068++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_0,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4014++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_0,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x810++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_0,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "      AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "      AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission se..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "      SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "      UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4000++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_0,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "     ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "      TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "     TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "      SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x400++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_0,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x440++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_0,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x200++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_0,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2088++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_0,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2084++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_0,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x208C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_0,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2080++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_0,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x380++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_0,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "      E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "      E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2094++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_0,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2090++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_0,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x600++0x3
line.long 0x00 "EDMA_TPCC_QSTATN_i_0,QSTATn Register Set"
bitfld.long 0x00 24. " THRXCD  ,Threshold Exceeded - . - . - THRXCD is cleared via. WMCLRn bit. . - ." "0,1"
bitfld.long 0x00 16.--20. "                     WM       ,Watermark for Maximum Queue Usage: Watermark tracks the most entries that have been in QueueN since reset or since the last time that the watermark (WM) was cleared. QSTATn. WM is cleared via EDMA_TPCC_CCERR.WMCLRn bit. L..." "empty,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,full,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "  NUMVAL  ,Number of Valid Entries in QueueN: Represents the total number of entries residing in the Queue Manager FIFO at a given instant. Always enabled. Legal values: = 0x0 (empty) to 0x10 (full) - . - ." "empty,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,full,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                 "
bitfld.long 0x00 0.--3. " STRTPTR ,Start Pointer: Represents the offset to the head entry of QueueN, in units of *entries*. Always enabled. Legal values: - . - ." "0th_entry,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15th_entry"
wgroup.long 0x2044++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_0,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2040++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_0,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x203C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_0,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2038++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_0,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4004++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_0,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_1"
width 24.
group.long 0x4028++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_1,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4030++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_1,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x403C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_1,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x221C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_1,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2218++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_1,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4038++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_1,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x104++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_1,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x244++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_1,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "      E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "      E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x34C++0x3
line.long 0x00 "EDMA_TPCC_DRAEHM_k_1,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enable..."
bitfld.long 0x00 31. " E63     ,DMA Region Access enable for Region M, bit #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,DMA Region Access enable for Region M, bit #62" "0,1"
bitfld.long 0x00 29. "      E61     ,DMA Region Access enable for Region M, bit #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,DMA Region Access enable for Region M, bit #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,DMA Region Access enable for Region M, bit #59" "0,1"
bitfld.long 0x00 26. "      E58     ,DMA Region Access enable for Region M, bit #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,DMA Region Access enable for Region M, bit #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,DMA Region Access enable for Region M, bit #56" "0,1"
bitfld.long 0x00 23. "      E55     ,DMA Region Access enable for Region M, bit #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,DMA Region Access enable for Region M, bit #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,DMA Region Access enable for Region M, bit #53" "0,1"
bitfld.long 0x00 20. "      E52     ,DMA Region Access enable for Region M, bit #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,DMA Region Access enable for Region M, bit #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,DMA Region Access enable for Region M, bit #50" "0,1"
bitfld.long 0x00 17. "      E49     ,DMA Region Access enable for Region M, bit #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,DMA Region Access enable for Region M, bit #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,DMA Region Access enable for Region M, bit #47" "0,1"
bitfld.long 0x00 14. "      E46     ,DMA Region Access enable for Region M, bit #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,DMA Region Access enable for Region M, bit #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,DMA Region Access enable for Region M, bit #44" "0,1"
bitfld.long 0x00 11. "      E43     ,DMA Region Access enable for Region M, bit #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,DMA Region Access enable for Region M, bit #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,DMA Region Access enable for Region M, bit #41" "0,1"
bitfld.long 0x00 8. "      E40     ,DMA Region Access enable for Region M, bit #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,DMA Region Access enable for Region M, bit #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,DMA Region Access enable for Region M, bit #38" "0,1"
bitfld.long 0x00 5. "      E37     ,DMA Region Access enable for Region M, bit #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,DMA Region Access enable for Region M, bit #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,DMA Region Access enable for Region M, bit #35" "0,1"
bitfld.long 0x00 2. "      E34     ,DMA Region Access enable for Region M, bit #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,DMA Region Access enable for Region M, bit #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,DMA Region Access enable for Region M, bit #32" "0,1"
group.long 0x348++0x3
line.long 0x00 "EDMA_TPCC_DRAEM_k_1,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled..."
bitfld.long 0x00 31. " E31     ,DMA Region Access enable for Region M, bit #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,DMA Region Access enable for Region M, bit #30" "0,1"
bitfld.long 0x00 29. "      E29     ,DMA Region Access enable for Region M, bit #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,DMA Region Access enable for Region M, bit #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,DMA Region Access enable for Region M, bit #27" "0,1"
bitfld.long 0x00 26. "      E26     ,DMA Region Access enable for Region M, bit #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,DMA Region Access enable for Region M, bit #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,DMA Region Access enable for Region M, bit #24" "0,1"
bitfld.long 0x00 23. "      E23     ,DMA Region Access enable for Region M, bit #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,DMA Region Access enable for Region M, bit #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,DMA Region Access enable for Region M, bit #21" "0,1"
bitfld.long 0x00 20. "      E20     ,DMA Region Access enable for Region M, bit #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,DMA Region Access enable for Region M, bit #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,DMA Region Access enable for Region M, bit #18" "0,1"
bitfld.long 0x00 17. "      E17     ,DMA Region Access enable for Region M, bit #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,DMA Region Access enable for Region M, bit #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,DMA Region Access enable for Region M, bit #15" "0,1"
bitfld.long 0x00 14. "      E14     ,DMA Region Access enable for Region M, bit #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,DMA Region Access enable for Region M, bit #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,DMA Region Access enable for Region M, bit #12" "0,1"
bitfld.long 0x00 11. "      E11     ,DMA Region Access enable for Region M, bit #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,DMA Region Access enable for Region M, bit #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,DMA Region Access enable for Region M, bit #9" "0,1"
bitfld.long 0x00 8. "      E8      ,DMA Region Access enable for Region M, bit #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,DMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,DMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "      E5      ,DMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,DMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,DMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "      E2      ,DMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,DMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,DMA Region Access enable for Region M, bit #0" "0,1"
group.long 0x402C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_1,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x220C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_1,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2208++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_1,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x222C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_1,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2228++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_1,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2224++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_1,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2220++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_1,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2234++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_1,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2230++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_1,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2204++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_1,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2200++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_1,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2214++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_1,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2210++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_1,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2274++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_1,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2270++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_1,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x225C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_1,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2258++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_1,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2254++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_1,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2250++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_1,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2264++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_1,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2260++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_1,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2278++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_1,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x226C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_1,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "      I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "      I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "      I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "      I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "      I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "      I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "      I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "      I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "      I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "      I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2268++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_1,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "      I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "      I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "      I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "      I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "      I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "      I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "      I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "      I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "      I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "      I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4034++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_1,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x814++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_1,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "      AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "      AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission se..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "      SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "      UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4020++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_1,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "     ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "      TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "     TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "      SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x404++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_1,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x444++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_1,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x204++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_1,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2288++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_1,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2284++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_1,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x228C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_1,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2280++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_1,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x384++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_1,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "      E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "      E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2294++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_1,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2290++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_1,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x604++0x3
line.long 0x00 "EDMA_TPCC_QSTATN_i_1,QSTATn Register Set"
bitfld.long 0x00 24. " THRXCD  ,Threshold Exceeded - . - . - THRXCD is cleared via. WMCLRn bit. . - ." "0,1"
bitfld.long 0x00 16.--20. "                     WM       ,Watermark for Maximum Queue Usage: Watermark tracks the most entries that have been in QueueN since reset or since the last time that the watermark (WM) was cleared. QSTATn. WM is cleared via EDMA_TPCC_CCERR.WMCLRn bit. L..." "empty,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,full,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "  NUMVAL  ,Number of Valid Entries in QueueN: Represents the total number of entries residing in the Queue Manager FIFO at a given instant. Always enabled. Legal values: = 0x0 (empty) to 0x10 (full) - . - ." "empty,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,full,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                 "
bitfld.long 0x00 0.--3. " STRTPTR ,Start Pointer: Represents the offset to the head entry of QueueN, in units of *entries*. Always enabled. Legal values: - . - ." "0th_entry,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15th_entry"
wgroup.long 0x2244++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_1,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2240++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_1,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x223C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_1,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "      E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "      E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "      E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "      E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "      E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "      E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "      E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "      E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "      E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "      E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2238++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_1,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "      E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "      E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "      E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "      E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "      E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "      E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "      E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "      E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "      E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "      E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4024++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_1,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_2"
width 24.
group.long 0x4048++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_2,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4050++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_2,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x405C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_2,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x241C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_2,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2418++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_2,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4058++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_2,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x108++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_2,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x248++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_2,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x354++0x3
line.long 0x00 "EDMA_TPCC_DRAEHM_k_2,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enable..."
bitfld.long 0x00 31. " E63     ,DMA Region Access enable for Region M, bit #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,DMA Region Access enable for Region M, bit #62" "0,1"
bitfld.long 0x00 29. "     E61     ,DMA Region Access enable for Region M, bit #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,DMA Region Access enable for Region M, bit #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,DMA Region Access enable for Region M, bit #59" "0,1"
bitfld.long 0x00 26. "     E58     ,DMA Region Access enable for Region M, bit #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,DMA Region Access enable for Region M, bit #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,DMA Region Access enable for Region M, bit #56" "0,1"
bitfld.long 0x00 23. "     E55     ,DMA Region Access enable for Region M, bit #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,DMA Region Access enable for Region M, bit #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,DMA Region Access enable for Region M, bit #53" "0,1"
bitfld.long 0x00 20. "     E52     ,DMA Region Access enable for Region M, bit #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,DMA Region Access enable for Region M, bit #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,DMA Region Access enable for Region M, bit #50" "0,1"
bitfld.long 0x00 17. "     E49     ,DMA Region Access enable for Region M, bit #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,DMA Region Access enable for Region M, bit #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,DMA Region Access enable for Region M, bit #47" "0,1"
bitfld.long 0x00 14. "     E46     ,DMA Region Access enable for Region M, bit #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,DMA Region Access enable for Region M, bit #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,DMA Region Access enable for Region M, bit #44" "0,1"
bitfld.long 0x00 11. "     E43     ,DMA Region Access enable for Region M, bit #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,DMA Region Access enable for Region M, bit #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,DMA Region Access enable for Region M, bit #41" "0,1"
bitfld.long 0x00 8. "     E40     ,DMA Region Access enable for Region M, bit #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,DMA Region Access enable for Region M, bit #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,DMA Region Access enable for Region M, bit #38" "0,1"
bitfld.long 0x00 5. "     E37     ,DMA Region Access enable for Region M, bit #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,DMA Region Access enable for Region M, bit #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,DMA Region Access enable for Region M, bit #35" "0,1"
bitfld.long 0x00 2. "     E34     ,DMA Region Access enable for Region M, bit #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,DMA Region Access enable for Region M, bit #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,DMA Region Access enable for Region M, bit #32" "0,1"
group.long 0x350++0x3
line.long 0x00 "EDMA_TPCC_DRAEM_k_2,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled..."
bitfld.long 0x00 31. " E31     ,DMA Region Access enable for Region M, bit #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,DMA Region Access enable for Region M, bit #30" "0,1"
bitfld.long 0x00 29. "     E29     ,DMA Region Access enable for Region M, bit #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,DMA Region Access enable for Region M, bit #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,DMA Region Access enable for Region M, bit #27" "0,1"
bitfld.long 0x00 26. "     E26     ,DMA Region Access enable for Region M, bit #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,DMA Region Access enable for Region M, bit #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,DMA Region Access enable for Region M, bit #24" "0,1"
bitfld.long 0x00 23. "     E23     ,DMA Region Access enable for Region M, bit #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,DMA Region Access enable for Region M, bit #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,DMA Region Access enable for Region M, bit #21" "0,1"
bitfld.long 0x00 20. "     E20     ,DMA Region Access enable for Region M, bit #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,DMA Region Access enable for Region M, bit #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,DMA Region Access enable for Region M, bit #18" "0,1"
bitfld.long 0x00 17. "     E17     ,DMA Region Access enable for Region M, bit #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,DMA Region Access enable for Region M, bit #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,DMA Region Access enable for Region M, bit #15" "0,1"
bitfld.long 0x00 14. "     E14     ,DMA Region Access enable for Region M, bit #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,DMA Region Access enable for Region M, bit #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,DMA Region Access enable for Region M, bit #12" "0,1"
bitfld.long 0x00 11. "     E11     ,DMA Region Access enable for Region M, bit #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,DMA Region Access enable for Region M, bit #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,DMA Region Access enable for Region M, bit #9" "0,1"
bitfld.long 0x00 8. "     E8      ,DMA Region Access enable for Region M, bit #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,DMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,DMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,DMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,DMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,DMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,DMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,DMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,DMA Region Access enable for Region M, bit #0" "0,1"
group.long 0x404C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_2,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x240C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_2,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2408++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_2,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x242C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_2,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2428++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_2,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2424++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_2,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2420++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_2,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2434++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_2,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2430++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_2,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2404++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_2,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2400++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_2,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2414++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_2,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2410++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_2,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2474++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_2,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2470++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_2,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x245C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_2,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2458++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_2,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2454++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_2,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2450++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_2,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2464++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_2,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2460++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_2,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2478++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_2,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x246C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_2,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2468++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_2,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4054++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_2,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x818++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_2,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4040++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_2,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x408++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_2,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x448++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_2,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x208++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_2,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2488++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_2,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2484++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_2,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x248C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_2,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2480++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_2,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x388++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_2,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2494++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_2,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2490++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_2,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2444++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_2,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2440++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_2,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x243C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_2,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2438++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_2,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4044++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_2,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_3"
width 24.
group.long 0x4068++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_3,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4070++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_3,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x407C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_3,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x261C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_3,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2618++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_3,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4078++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_3,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x10C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_3,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x24C++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_3,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x35C++0x3
line.long 0x00 "EDMA_TPCC_DRAEHM_k_3,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enable..."
bitfld.long 0x00 31. " E63     ,DMA Region Access enable for Region M, bit #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,DMA Region Access enable for Region M, bit #62" "0,1"
bitfld.long 0x00 29. "     E61     ,DMA Region Access enable for Region M, bit #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,DMA Region Access enable for Region M, bit #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,DMA Region Access enable for Region M, bit #59" "0,1"
bitfld.long 0x00 26. "     E58     ,DMA Region Access enable for Region M, bit #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,DMA Region Access enable for Region M, bit #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,DMA Region Access enable for Region M, bit #56" "0,1"
bitfld.long 0x00 23. "     E55     ,DMA Region Access enable for Region M, bit #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,DMA Region Access enable for Region M, bit #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,DMA Region Access enable for Region M, bit #53" "0,1"
bitfld.long 0x00 20. "     E52     ,DMA Region Access enable for Region M, bit #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,DMA Region Access enable for Region M, bit #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,DMA Region Access enable for Region M, bit #50" "0,1"
bitfld.long 0x00 17. "     E49     ,DMA Region Access enable for Region M, bit #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,DMA Region Access enable for Region M, bit #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,DMA Region Access enable for Region M, bit #47" "0,1"
bitfld.long 0x00 14. "     E46     ,DMA Region Access enable for Region M, bit #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,DMA Region Access enable for Region M, bit #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,DMA Region Access enable for Region M, bit #44" "0,1"
bitfld.long 0x00 11. "     E43     ,DMA Region Access enable for Region M, bit #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,DMA Region Access enable for Region M, bit #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,DMA Region Access enable for Region M, bit #41" "0,1"
bitfld.long 0x00 8. "     E40     ,DMA Region Access enable for Region M, bit #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,DMA Region Access enable for Region M, bit #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,DMA Region Access enable for Region M, bit #38" "0,1"
bitfld.long 0x00 5. "     E37     ,DMA Region Access enable for Region M, bit #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,DMA Region Access enable for Region M, bit #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,DMA Region Access enable for Region M, bit #35" "0,1"
bitfld.long 0x00 2. "     E34     ,DMA Region Access enable for Region M, bit #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,DMA Region Access enable for Region M, bit #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,DMA Region Access enable for Region M, bit #32" "0,1"
group.long 0x358++0x3
line.long 0x00 "EDMA_TPCC_DRAEM_k_3,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled..."
bitfld.long 0x00 31. " E31     ,DMA Region Access enable for Region M, bit #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,DMA Region Access enable for Region M, bit #30" "0,1"
bitfld.long 0x00 29. "     E29     ,DMA Region Access enable for Region M, bit #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,DMA Region Access enable for Region M, bit #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,DMA Region Access enable for Region M, bit #27" "0,1"
bitfld.long 0x00 26. "     E26     ,DMA Region Access enable for Region M, bit #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,DMA Region Access enable for Region M, bit #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,DMA Region Access enable for Region M, bit #24" "0,1"
bitfld.long 0x00 23. "     E23     ,DMA Region Access enable for Region M, bit #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,DMA Region Access enable for Region M, bit #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,DMA Region Access enable for Region M, bit #21" "0,1"
bitfld.long 0x00 20. "     E20     ,DMA Region Access enable for Region M, bit #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,DMA Region Access enable for Region M, bit #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,DMA Region Access enable for Region M, bit #18" "0,1"
bitfld.long 0x00 17. "     E17     ,DMA Region Access enable for Region M, bit #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,DMA Region Access enable for Region M, bit #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,DMA Region Access enable for Region M, bit #15" "0,1"
bitfld.long 0x00 14. "     E14     ,DMA Region Access enable for Region M, bit #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,DMA Region Access enable for Region M, bit #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,DMA Region Access enable for Region M, bit #12" "0,1"
bitfld.long 0x00 11. "     E11     ,DMA Region Access enable for Region M, bit #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,DMA Region Access enable for Region M, bit #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,DMA Region Access enable for Region M, bit #9" "0,1"
bitfld.long 0x00 8. "     E8      ,DMA Region Access enable for Region M, bit #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,DMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,DMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,DMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,DMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,DMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,DMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,DMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,DMA Region Access enable for Region M, bit #0" "0,1"
group.long 0x406C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_3,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x260C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_3,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2608++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_3,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x262C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_3,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2628++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_3,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2624++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_3,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2620++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_3,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2634++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_3,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2630++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_3,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2604++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_3,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2600++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_3,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2614++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_3,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2610++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_3,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2674++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_3,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2670++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_3,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x265C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_3,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2658++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_3,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2654++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_3,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2650++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_3,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2664++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_3,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2660++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_3,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2678++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_3,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x266C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_3,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2668++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_3,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4074++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_3,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x81C++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_3,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4060++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_3,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x40C++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_3,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x44C++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_3,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x20C++0x3
line.long 0x00 "EDMA_TPCC_QCHMAPN_j_3,QDMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for QDMA Channel N."
bitfld.long 0x00 2.--4. "                  TRWORD   ,TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized." "0,1,2,3,4,5,6,7"
wgroup.long 0x2688++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_3,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2684++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_3,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x268C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_3,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2680++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_3,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x38C++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_3,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2694++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_3,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2690++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_3,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2644++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_3,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2640++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_3,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x263C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_3,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2638++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_3,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4064++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_3,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_4"
width 24.
group.long 0x4088++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_4,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4090++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_4,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x409C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_4,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x281C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_4,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2818++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_4,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4098++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_4,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x110++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_4,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x250++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_4,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x364++0x3
line.long 0x00 "EDMA_TPCC_DRAEHM_k_4,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enable..."
bitfld.long 0x00 31. " E63     ,DMA Region Access enable for Region M, bit #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,DMA Region Access enable for Region M, bit #62" "0,1"
bitfld.long 0x00 29. "     E61     ,DMA Region Access enable for Region M, bit #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,DMA Region Access enable for Region M, bit #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,DMA Region Access enable for Region M, bit #59" "0,1"
bitfld.long 0x00 26. "     E58     ,DMA Region Access enable for Region M, bit #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,DMA Region Access enable for Region M, bit #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,DMA Region Access enable for Region M, bit #56" "0,1"
bitfld.long 0x00 23. "     E55     ,DMA Region Access enable for Region M, bit #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,DMA Region Access enable for Region M, bit #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,DMA Region Access enable for Region M, bit #53" "0,1"
bitfld.long 0x00 20. "     E52     ,DMA Region Access enable for Region M, bit #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,DMA Region Access enable for Region M, bit #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,DMA Region Access enable for Region M, bit #50" "0,1"
bitfld.long 0x00 17. "     E49     ,DMA Region Access enable for Region M, bit #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,DMA Region Access enable for Region M, bit #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,DMA Region Access enable for Region M, bit #47" "0,1"
bitfld.long 0x00 14. "     E46     ,DMA Region Access enable for Region M, bit #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,DMA Region Access enable for Region M, bit #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,DMA Region Access enable for Region M, bit #44" "0,1"
bitfld.long 0x00 11. "     E43     ,DMA Region Access enable for Region M, bit #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,DMA Region Access enable for Region M, bit #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,DMA Region Access enable for Region M, bit #41" "0,1"
bitfld.long 0x00 8. "     E40     ,DMA Region Access enable for Region M, bit #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,DMA Region Access enable for Region M, bit #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,DMA Region Access enable for Region M, bit #38" "0,1"
bitfld.long 0x00 5. "     E37     ,DMA Region Access enable for Region M, bit #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,DMA Region Access enable for Region M, bit #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,DMA Region Access enable for Region M, bit #35" "0,1"
bitfld.long 0x00 2. "     E34     ,DMA Region Access enable for Region M, bit #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,DMA Region Access enable for Region M, bit #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,DMA Region Access enable for Region M, bit #32" "0,1"
group.long 0x360++0x3
line.long 0x00 "EDMA_TPCC_DRAEM_k_4,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled..."
bitfld.long 0x00 31. " E31     ,DMA Region Access enable for Region M, bit #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,DMA Region Access enable for Region M, bit #30" "0,1"
bitfld.long 0x00 29. "     E29     ,DMA Region Access enable for Region M, bit #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,DMA Region Access enable for Region M, bit #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,DMA Region Access enable for Region M, bit #27" "0,1"
bitfld.long 0x00 26. "     E26     ,DMA Region Access enable for Region M, bit #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,DMA Region Access enable for Region M, bit #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,DMA Region Access enable for Region M, bit #24" "0,1"
bitfld.long 0x00 23. "     E23     ,DMA Region Access enable for Region M, bit #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,DMA Region Access enable for Region M, bit #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,DMA Region Access enable for Region M, bit #21" "0,1"
bitfld.long 0x00 20. "     E20     ,DMA Region Access enable for Region M, bit #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,DMA Region Access enable for Region M, bit #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,DMA Region Access enable for Region M, bit #18" "0,1"
bitfld.long 0x00 17. "     E17     ,DMA Region Access enable for Region M, bit #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,DMA Region Access enable for Region M, bit #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,DMA Region Access enable for Region M, bit #15" "0,1"
bitfld.long 0x00 14. "     E14     ,DMA Region Access enable for Region M, bit #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,DMA Region Access enable for Region M, bit #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,DMA Region Access enable for Region M, bit #12" "0,1"
bitfld.long 0x00 11. "     E11     ,DMA Region Access enable for Region M, bit #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,DMA Region Access enable for Region M, bit #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,DMA Region Access enable for Region M, bit #9" "0,1"
bitfld.long 0x00 8. "     E8      ,DMA Region Access enable for Region M, bit #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,DMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,DMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,DMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,DMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,DMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,DMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,DMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,DMA Region Access enable for Region M, bit #0" "0,1"
group.long 0x408C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_4,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x280C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_4,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2808++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_4,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x282C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_4,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2828++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_4,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2824++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_4,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2820++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_4,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2834++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_4,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2830++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_4,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2804++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_4,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2800++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_4,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2814++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_4,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2810++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_4,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2874++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_4,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2870++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_4,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x285C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_4,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2858++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_4,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2854++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_4,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2850++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_4,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2864++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_4,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2860++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_4,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2878++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_4,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x286C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_4,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2868++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_4,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x4094++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_4,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x820++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_4,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x4080++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_4,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x410++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_4,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x450++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_4,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
wgroup.long 0x2888++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_4,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2884++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_4,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x288C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_4,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2880++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_4,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x390++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_4,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2894++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_4,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2890++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_4,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2844++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_4,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2840++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_4,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x283C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_4,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2838++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_4,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x4084++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_4,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_5"
width 24.
group.long 0x40A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_5,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x40B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_5,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x40BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_5,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x2A1C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_5,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2A18++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_5,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_5,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x114++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_5,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x254++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_5,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x36C++0x3
line.long 0x00 "EDMA_TPCC_DRAEHM_k_5,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enable..."
bitfld.long 0x00 31. " E63     ,DMA Region Access enable for Region M, bit #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,DMA Region Access enable for Region M, bit #62" "0,1"
bitfld.long 0x00 29. "     E61     ,DMA Region Access enable for Region M, bit #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,DMA Region Access enable for Region M, bit #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,DMA Region Access enable for Region M, bit #59" "0,1"
bitfld.long 0x00 26. "     E58     ,DMA Region Access enable for Region M, bit #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,DMA Region Access enable for Region M, bit #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,DMA Region Access enable for Region M, bit #56" "0,1"
bitfld.long 0x00 23. "     E55     ,DMA Region Access enable for Region M, bit #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,DMA Region Access enable for Region M, bit #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,DMA Region Access enable for Region M, bit #53" "0,1"
bitfld.long 0x00 20. "     E52     ,DMA Region Access enable for Region M, bit #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,DMA Region Access enable for Region M, bit #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,DMA Region Access enable for Region M, bit #50" "0,1"
bitfld.long 0x00 17. "     E49     ,DMA Region Access enable for Region M, bit #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,DMA Region Access enable for Region M, bit #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,DMA Region Access enable for Region M, bit #47" "0,1"
bitfld.long 0x00 14. "     E46     ,DMA Region Access enable for Region M, bit #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,DMA Region Access enable for Region M, bit #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,DMA Region Access enable for Region M, bit #44" "0,1"
bitfld.long 0x00 11. "     E43     ,DMA Region Access enable for Region M, bit #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,DMA Region Access enable for Region M, bit #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,DMA Region Access enable for Region M, bit #41" "0,1"
bitfld.long 0x00 8. "     E40     ,DMA Region Access enable for Region M, bit #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,DMA Region Access enable for Region M, bit #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,DMA Region Access enable for Region M, bit #38" "0,1"
bitfld.long 0x00 5. "     E37     ,DMA Region Access enable for Region M, bit #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,DMA Region Access enable for Region M, bit #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,DMA Region Access enable for Region M, bit #35" "0,1"
bitfld.long 0x00 2. "     E34     ,DMA Region Access enable for Region M, bit #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,DMA Region Access enable for Region M, bit #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,DMA Region Access enable for Region M, bit #32" "0,1"
group.long 0x368++0x3
line.long 0x00 "EDMA_TPCC_DRAEM_k_5,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled..."
bitfld.long 0x00 31. " E31     ,DMA Region Access enable for Region M, bit #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,DMA Region Access enable for Region M, bit #30" "0,1"
bitfld.long 0x00 29. "     E29     ,DMA Region Access enable for Region M, bit #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,DMA Region Access enable for Region M, bit #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,DMA Region Access enable for Region M, bit #27" "0,1"
bitfld.long 0x00 26. "     E26     ,DMA Region Access enable for Region M, bit #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,DMA Region Access enable for Region M, bit #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,DMA Region Access enable for Region M, bit #24" "0,1"
bitfld.long 0x00 23. "     E23     ,DMA Region Access enable for Region M, bit #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,DMA Region Access enable for Region M, bit #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,DMA Region Access enable for Region M, bit #21" "0,1"
bitfld.long 0x00 20. "     E20     ,DMA Region Access enable for Region M, bit #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,DMA Region Access enable for Region M, bit #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,DMA Region Access enable for Region M, bit #18" "0,1"
bitfld.long 0x00 17. "     E17     ,DMA Region Access enable for Region M, bit #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,DMA Region Access enable for Region M, bit #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,DMA Region Access enable for Region M, bit #15" "0,1"
bitfld.long 0x00 14. "     E14     ,DMA Region Access enable for Region M, bit #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,DMA Region Access enable for Region M, bit #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,DMA Region Access enable for Region M, bit #12" "0,1"
bitfld.long 0x00 11. "     E11     ,DMA Region Access enable for Region M, bit #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,DMA Region Access enable for Region M, bit #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,DMA Region Access enable for Region M, bit #9" "0,1"
bitfld.long 0x00 8. "     E8      ,DMA Region Access enable for Region M, bit #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,DMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,DMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,DMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,DMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,DMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,DMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,DMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,DMA Region Access enable for Region M, bit #0" "0,1"
group.long 0x40AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_5,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x2A0C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_5,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A08++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_5,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A2C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_5,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A28++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_5,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A24++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_5,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2A20++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_5,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A34++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_5,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A30++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_5,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A04++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_5,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2A00++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_5,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A14++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_5,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A10++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_5,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A74++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_5,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2A70++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_5,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2A5C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_5,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2A58++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_5,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2A54++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_5,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2A50++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_5,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2A64++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_5,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2A60++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_5,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2A78++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_5,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x2A6C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_5,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2A68++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_5,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x40B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_5,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x824++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_5,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x40A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_5,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x414++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_5,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x454++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_5,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
wgroup.long 0x2A88++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_5,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A84++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_5,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A8C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_5,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A80++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_5,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x394++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_5,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2A94++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_5,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A90++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_5,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2A44++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_5,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2A40++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_5,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2A3C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_5,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2A38++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_5,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_5,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_6"
width 24.
group.long 0x40C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_6,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x40D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_6,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x40DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_6,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x2C1C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_6,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2C18++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_6,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_6,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x118++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_6,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x258++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_6,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x374++0x3
line.long 0x00 "EDMA_TPCC_DRAEHM_k_6,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enable..."
bitfld.long 0x00 31. " E63     ,DMA Region Access enable for Region M, bit #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,DMA Region Access enable for Region M, bit #62" "0,1"
bitfld.long 0x00 29. "     E61     ,DMA Region Access enable for Region M, bit #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,DMA Region Access enable for Region M, bit #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,DMA Region Access enable for Region M, bit #59" "0,1"
bitfld.long 0x00 26. "     E58     ,DMA Region Access enable for Region M, bit #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,DMA Region Access enable for Region M, bit #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,DMA Region Access enable for Region M, bit #56" "0,1"
bitfld.long 0x00 23. "     E55     ,DMA Region Access enable for Region M, bit #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,DMA Region Access enable for Region M, bit #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,DMA Region Access enable for Region M, bit #53" "0,1"
bitfld.long 0x00 20. "     E52     ,DMA Region Access enable for Region M, bit #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,DMA Region Access enable for Region M, bit #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,DMA Region Access enable for Region M, bit #50" "0,1"
bitfld.long 0x00 17. "     E49     ,DMA Region Access enable for Region M, bit #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,DMA Region Access enable for Region M, bit #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,DMA Region Access enable for Region M, bit #47" "0,1"
bitfld.long 0x00 14. "     E46     ,DMA Region Access enable for Region M, bit #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,DMA Region Access enable for Region M, bit #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,DMA Region Access enable for Region M, bit #44" "0,1"
bitfld.long 0x00 11. "     E43     ,DMA Region Access enable for Region M, bit #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,DMA Region Access enable for Region M, bit #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,DMA Region Access enable for Region M, bit #41" "0,1"
bitfld.long 0x00 8. "     E40     ,DMA Region Access enable for Region M, bit #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,DMA Region Access enable for Region M, bit #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,DMA Region Access enable for Region M, bit #38" "0,1"
bitfld.long 0x00 5. "     E37     ,DMA Region Access enable for Region M, bit #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,DMA Region Access enable for Region M, bit #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,DMA Region Access enable for Region M, bit #35" "0,1"
bitfld.long 0x00 2. "     E34     ,DMA Region Access enable for Region M, bit #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,DMA Region Access enable for Region M, bit #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,DMA Region Access enable for Region M, bit #32" "0,1"
group.long 0x370++0x3
line.long 0x00 "EDMA_TPCC_DRAEM_k_6,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled..."
bitfld.long 0x00 31. " E31     ,DMA Region Access enable for Region M, bit #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,DMA Region Access enable for Region M, bit #30" "0,1"
bitfld.long 0x00 29. "     E29     ,DMA Region Access enable for Region M, bit #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,DMA Region Access enable for Region M, bit #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,DMA Region Access enable for Region M, bit #27" "0,1"
bitfld.long 0x00 26. "     E26     ,DMA Region Access enable for Region M, bit #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,DMA Region Access enable for Region M, bit #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,DMA Region Access enable for Region M, bit #24" "0,1"
bitfld.long 0x00 23. "     E23     ,DMA Region Access enable for Region M, bit #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,DMA Region Access enable for Region M, bit #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,DMA Region Access enable for Region M, bit #21" "0,1"
bitfld.long 0x00 20. "     E20     ,DMA Region Access enable for Region M, bit #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,DMA Region Access enable for Region M, bit #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,DMA Region Access enable for Region M, bit #18" "0,1"
bitfld.long 0x00 17. "     E17     ,DMA Region Access enable for Region M, bit #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,DMA Region Access enable for Region M, bit #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,DMA Region Access enable for Region M, bit #15" "0,1"
bitfld.long 0x00 14. "     E14     ,DMA Region Access enable for Region M, bit #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,DMA Region Access enable for Region M, bit #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,DMA Region Access enable for Region M, bit #12" "0,1"
bitfld.long 0x00 11. "     E11     ,DMA Region Access enable for Region M, bit #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,DMA Region Access enable for Region M, bit #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,DMA Region Access enable for Region M, bit #9" "0,1"
bitfld.long 0x00 8. "     E8      ,DMA Region Access enable for Region M, bit #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,DMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,DMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,DMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,DMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,DMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,DMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,DMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,DMA Region Access enable for Region M, bit #0" "0,1"
group.long 0x40CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_6,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x2C0C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_6,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C08++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_6,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C2C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_6,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C28++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_6,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C24++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_6,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2C20++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_6,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C34++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_6,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C30++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_6,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C04++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_6,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2C00++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_6,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C14++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_6,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C10++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_6,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C74++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_6,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2C70++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_6,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2C5C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_6,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2C58++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_6,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2C54++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_6,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2C50++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_6,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2C64++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_6,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2C60++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_6,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2C78++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_6,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x2C6C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_6,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2C68++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_6,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x40D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_6,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x828++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_6,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x40C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_6,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x418++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_6,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x458++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_6,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
wgroup.long 0x2C88++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_6,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C84++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_6,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C8C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_6,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C80++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_6,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x398++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_6,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2C94++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_6,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C90++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_6,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2C44++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_6,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2C40++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_6,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2C3C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_6,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2C38++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_6,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_6,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_7"
width 24.
group.long 0x40E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_7,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x40F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_7,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x40FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_7,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
rgroup.long 0x2E1C++0x3
line.long 0x00 "EDMA_TPCC_CERH_RN_k_7,Chained Event Register (High Part) If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion ..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2E18++0x3
line.long 0x00 "EDMA_TPCC_CER_RN_k_7,Chained Event Register If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is retur..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_7,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x11C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_7,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x25C++0x3
line.long 0x00 "EDMA_TPCC_DMAQNUMN_k_7,DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel."
bitfld.long 0x00 28.--30. " E7      ,DMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                     E6       ,DMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     E5      ,DMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 16.--18. " E4      ,DMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                     E3       ,DMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     E2      ,DMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                                 "
bitfld.long 0x00 4.--6. " E1      ,DMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     E0       ,DMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x37C++0x3
line.long 0x00 "EDMA_TPCC_DRAEHM_k_7,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enable..."
bitfld.long 0x00 31. " E63     ,DMA Region Access enable for Region M, bit #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,DMA Region Access enable for Region M, bit #62" "0,1"
bitfld.long 0x00 29. "     E61     ,DMA Region Access enable for Region M, bit #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,DMA Region Access enable for Region M, bit #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,DMA Region Access enable for Region M, bit #59" "0,1"
bitfld.long 0x00 26. "     E58     ,DMA Region Access enable for Region M, bit #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,DMA Region Access enable for Region M, bit #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,DMA Region Access enable for Region M, bit #56" "0,1"
bitfld.long 0x00 23. "     E55     ,DMA Region Access enable for Region M, bit #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,DMA Region Access enable for Region M, bit #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,DMA Region Access enable for Region M, bit #53" "0,1"
bitfld.long 0x00 20. "     E52     ,DMA Region Access enable for Region M, bit #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,DMA Region Access enable for Region M, bit #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,DMA Region Access enable for Region M, bit #50" "0,1"
bitfld.long 0x00 17. "     E49     ,DMA Region Access enable for Region M, bit #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,DMA Region Access enable for Region M, bit #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,DMA Region Access enable for Region M, bit #47" "0,1"
bitfld.long 0x00 14. "     E46     ,DMA Region Access enable for Region M, bit #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,DMA Region Access enable for Region M, bit #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,DMA Region Access enable for Region M, bit #44" "0,1"
bitfld.long 0x00 11. "     E43     ,DMA Region Access enable for Region M, bit #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,DMA Region Access enable for Region M, bit #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,DMA Region Access enable for Region M, bit #41" "0,1"
bitfld.long 0x00 8. "     E40     ,DMA Region Access enable for Region M, bit #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,DMA Region Access enable for Region M, bit #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,DMA Region Access enable for Region M, bit #38" "0,1"
bitfld.long 0x00 5. "     E37     ,DMA Region Access enable for Region M, bit #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,DMA Region Access enable for Region M, bit #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,DMA Region Access enable for Region M, bit #35" "0,1"
bitfld.long 0x00 2. "     E34     ,DMA Region Access enable for Region M, bit #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,DMA Region Access enable for Region M, bit #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,DMA Region Access enable for Region M, bit #32" "0,1"
group.long 0x378++0x3
line.long 0x00 "EDMA_TPCC_DRAEM_k_7,DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled..."
bitfld.long 0x00 31. " E31     ,DMA Region Access enable for Region M, bit #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,DMA Region Access enable for Region M, bit #30" "0,1"
bitfld.long 0x00 29. "     E29     ,DMA Region Access enable for Region M, bit #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,DMA Region Access enable for Region M, bit #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,DMA Region Access enable for Region M, bit #27" "0,1"
bitfld.long 0x00 26. "     E26     ,DMA Region Access enable for Region M, bit #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,DMA Region Access enable for Region M, bit #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,DMA Region Access enable for Region M, bit #24" "0,1"
bitfld.long 0x00 23. "     E23     ,DMA Region Access enable for Region M, bit #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,DMA Region Access enable for Region M, bit #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,DMA Region Access enable for Region M, bit #21" "0,1"
bitfld.long 0x00 20. "     E20     ,DMA Region Access enable for Region M, bit #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,DMA Region Access enable for Region M, bit #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,DMA Region Access enable for Region M, bit #18" "0,1"
bitfld.long 0x00 17. "     E17     ,DMA Region Access enable for Region M, bit #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,DMA Region Access enable for Region M, bit #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,DMA Region Access enable for Region M, bit #15" "0,1"
bitfld.long 0x00 14. "     E14     ,DMA Region Access enable for Region M, bit #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,DMA Region Access enable for Region M, bit #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,DMA Region Access enable for Region M, bit #12" "0,1"
bitfld.long 0x00 11. "     E11     ,DMA Region Access enable for Region M, bit #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,DMA Region Access enable for Region M, bit #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,DMA Region Access enable for Region M, bit #9" "0,1"
bitfld.long 0x00 8. "     E8      ,DMA Region Access enable for Region M, bit #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,DMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,DMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,DMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,DMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,DMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,DMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,DMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,DMA Region Access enable for Region M, bit #0" "0,1"
group.long 0x40EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_7,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
wgroup.long 0x2E0C++0x3
line.long 0x00 "EDMA_TPCC_ECRH_RN_k_7,Event Clear Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E08++0x3
line.long 0x00 "EDMA_TPCC_ECR_RN_k_7,Event Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E2C++0x3
line.long 0x00 "EDMA_TPCC_EECRH_RN_k_7,Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E28++0x3
line.long 0x00 "EDMA_TPCC_EECR_RN_k_7,Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E24++0x3
line.long 0x00 "EDMA_TPCC_EERH_RN_k_7,Event Enable Register (High Part) Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register ()..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2E20++0x3
line.long 0x00 "EDMA_TPCC_EER_RN_k_7,Event Enable Register Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). NOTE: If a ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E34++0x3
line.long 0x00 "EDMA_TPCC_EESRH_RN_k_7,Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E30++0x3
line.long 0x00 "EDMA_TPCC_EESR_RN_k_7,Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E04++0x3
line.long 0x00 "EDMA_TPCC_ERH_RN_k_7,Event Register (High Part) If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions f..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2E00++0x3
line.long 0x00 "EDMA_TPCC_ER_RN_k_7,Event Register If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E14++0x3
line.long 0x00 "EDMA_TPCC_ESRH_RN_k_7,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E10++0x3
line.long 0x00 "EDMA_TPCC_ESR_RN_k_7,Event Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E74++0x3
line.long 0x00 "EDMA_TPCC_ICRH_RN_k_7,Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2E70++0x3
line.long 0x00 "EDMA_TPCC_ICR_RN_k_7,Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2E5C++0x3
line.long 0x00 "EDMA_TPCC_IECRH_RN_k_7,Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2E58++0x3
line.long 0x00 "EDMA_TPCC_IECR_RN_k_7,Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be cleared."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x2E54++0x3
line.long 0x00 "EDMA_TPCC_IERH_RN_k_7,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2E50++0x3
line.long 0x00 "EDMA_TPCC_IER_RN_k_7,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. .In = 0: .In is NOT enabled for interrupts. .In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2E64++0x3
line.long 0x00 "EDMA_TPCC_IESRH_RN_k_7,Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x2E60++0x3
line.long 0x00 "EDMA_TPCC_IESR_RN_k_7,Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .In bit causes the .In bit to be set."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x2E78++0x3
line.long 0x00 "EDMA_TPCC_IEVAL_RN_k_7,Interrupt Eval Register"
bitfld.long 0x00 1. " SET     ,Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). . - ." "0,1"
bitfld.long 0x00 0. "                     EVAL     ,Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). . - ." "0,1"
rgroup.long 0x2E6C++0x3
line.long 0x00 "EDMA_TPCC_IPRH_RN_k_7,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63     ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                     I62      ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "     I61     ,Interrupt associated with TCC #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I60     ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                     I59      ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "     I58     ,Interrupt associated with TCC #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I57     ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                     I56      ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "     I55     ,Interrupt associated with TCC #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I54     ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                     I53      ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "     I52     ,Interrupt associated with TCC #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I51     ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                     I50      ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "     I49     ,Interrupt associated with TCC #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I48     ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                     I47      ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "     I46     ,Interrupt associated with TCC #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I45     ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                     I44      ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "     I43     ,Interrupt associated with TCC #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I42     ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                     I41      ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "     I40     ,Interrupt associated with TCC #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I39     ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                     I38      ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "     I37     ,Interrupt associated with TCC #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I36     ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                     I35      ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "     I34     ,Interrupt associated with TCC #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I33     ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                     I32      ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x2E68++0x3
line.long 0x00 "EDMA_TPCC_IPR_RN_k_7,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31     ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                     I30      ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "     I29     ,Interrupt associated with TCC #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " I28     ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                     I27      ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "     I26     ,Interrupt associated with TCC #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " I25     ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                     I24      ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "     I23     ,Interrupt associated with TCC #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " I22     ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                     I21      ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "     I20     ,Interrupt associated with TCC #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " I19     ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                     I18      ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "     I17     ,Interrupt associated with TCC #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " I16     ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                     I15      ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "     I14     ,Interrupt associated with TCC #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " I13     ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                     I12      ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "     I11     ,Interrupt associated with TCC #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " I10     ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                     I9       ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "     I8      ,Interrupt associated with TCC #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " I7      ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                     I6       ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "     I5      ,Interrupt associated with TCC #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " I4      ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                     I3       ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "     I2      ,Interrupt associated with TCC #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " I1      ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                     I0       ,Interrupt associated with TCC #0" "0,1"
group.long 0x40F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_7,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x82C++0x3
line.long 0x00 "EDMA_TPCC_MPPAN_k_7,P Permission Attribute for DMA Region n"
bitfld.long 0x00 15. " AID5    ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                     AID4     ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "     AID3    ,Allowed ID 3 - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 12. " AID2    ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                     AID1     ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "     AID0    ,Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission set..." "UNKN_MNEMO,UNKN_MNEMO"
textline "                                 "
bitfld.long 0x00 9. " EXT     ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                     SR       ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "     SW      ,Supervisor Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 3. " SX      ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                     UR       ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "     UW      ,User Write permission - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " UX      ,User Execute permission - . - ." "0,1"
group.long 0x40E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_7,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x41C++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_7,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x45C++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_7,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
wgroup.long 0x2E88++0x3
line.long 0x00 "EDMA_TPCC_QEECR_RN_k_7,QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be cleared."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E84++0x3
line.long 0x00 "EDMA_TPCC_QEER_RN_k_7,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in .En. .En = 0,..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E8C++0x3
line.long 0x00 "EDMA_TPCC_QEESR_RN_k_7,QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the .En bit causes the .En bit to be set."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E80++0x3
line.long 0x00 "EDMA_TPCC_QER_RN_k_7,QDMA Event Register If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .E..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x39C++0x3
line.long 0x00 "EDMA_TPCC_QRAEN_k_7,QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabl..."
bitfld.long 0x00 7. " E7      ,QDMA Region Access enable for Region M, bit #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,QDMA Region Access enable for Region M, bit #6" "0,1"
bitfld.long 0x00 5. "     E5      ,QDMA Region Access enable for Region M, bit #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,QDMA Region Access enable for Region M, bit #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,QDMA Region Access enable for Region M, bit #3" "0,1"
bitfld.long 0x00 2. "     E2      ,QDMA Region Access enable for Region M, bit #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,QDMA Region Access enable for Region M, bit #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,QDMA Region Access enable for Region M, bit #0" "0,1"
wgroup.long 0x2E94++0x3
line.long 0x00 "EDMA_TPCC_QSECR_RN_k_7,QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E90++0x3
line.long 0x00 "EDMA_TPCC_QSER_RN_k_7,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event ..."
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
wgroup.long 0x2E44++0x3
line.long 0x00 "EDMA_TPCC_SECRH_RN_k_7,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
wgroup.long 0x2E40++0x3
line.long 0x00 "EDMA_TPCC_SECR_RN_k_7,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '0' has no effect. CPU write of '1' to the .En bit clears the register."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
rgroup.long 0x2E3C++0x3
line.long 0x00 "EDMA_TPCC_SERH_RN_k_7,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 31. " E63     ,Event #63" "0,1"
bitfld.long 0x00 30. "                     E62      ,Event #62" "0,1"
bitfld.long 0x00 29. "     E61     ,Event #61" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E60     ,Event #60" "0,1"
bitfld.long 0x00 27. "                     E59      ,Event #59" "0,1"
bitfld.long 0x00 26. "     E58     ,Event #58" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E57     ,Event #57" "0,1"
bitfld.long 0x00 24. "                     E56      ,Event #56" "0,1"
bitfld.long 0x00 23. "     E55     ,Event #55" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E54     ,Event #54" "0,1"
bitfld.long 0x00 21. "                     E53      ,Event #53" "0,1"
bitfld.long 0x00 20. "     E52     ,Event #52" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E51     ,Event #51" "0,1"
bitfld.long 0x00 18. "                     E50      ,Event #50" "0,1"
bitfld.long 0x00 17. "     E49     ,Event #49" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E48     ,Event #48" "0,1"
bitfld.long 0x00 15. "                     E47      ,Event #47" "0,1"
bitfld.long 0x00 14. "     E46     ,Event #46" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E45     ,Event #45" "0,1"
bitfld.long 0x00 12. "                     E44      ,Event #44" "0,1"
bitfld.long 0x00 11. "     E43     ,Event #43" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E42     ,Event #42" "0,1"
bitfld.long 0x00 9. "                     E41      ,Event #41" "0,1"
bitfld.long 0x00 8. "     E40     ,Event #40" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E39     ,Event #39" "0,1"
bitfld.long 0x00 6. "                     E38      ,Event #38" "0,1"
bitfld.long 0x00 5. "     E37     ,Event #37" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E36     ,Event #36" "0,1"
bitfld.long 0x00 3. "                     E35      ,Event #35" "0,1"
bitfld.long 0x00 2. "     E34     ,Event #34" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E33     ,Event #33" "0,1"
bitfld.long 0x00 0. "                     E32      ,Event #32" "0,1"
rgroup.long 0x2E38++0x3
line.long 0x00 "EDMA_TPCC_SER_RN_k_7,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored ..."
bitfld.long 0x00 31. " E31     ,Event #31" "0,1"
bitfld.long 0x00 30. "                     E30      ,Event #30" "0,1"
bitfld.long 0x00 29. "     E29     ,Event #29" "0,1"
textline "                                 "
bitfld.long 0x00 28. " E28     ,Event #28" "0,1"
bitfld.long 0x00 27. "                     E27      ,Event #27" "0,1"
bitfld.long 0x00 26. "     E26     ,Event #26" "0,1"
textline "                                 "
bitfld.long 0x00 25. " E25     ,Event #25" "0,1"
bitfld.long 0x00 24. "                     E24      ,Event #24" "0,1"
bitfld.long 0x00 23. "     E23     ,Event #23" "0,1"
textline "                                 "
bitfld.long 0x00 22. " E22     ,Event #22" "0,1"
bitfld.long 0x00 21. "                     E21      ,Event #21" "0,1"
bitfld.long 0x00 20. "     E20     ,Event #20" "0,1"
textline "                                 "
bitfld.long 0x00 19. " E19     ,Event #19" "0,1"
bitfld.long 0x00 18. "                     E18      ,Event #18" "0,1"
bitfld.long 0x00 17. "     E17     ,Event #17" "0,1"
textline "                                 "
bitfld.long 0x00 16. " E16     ,Event #16" "0,1"
bitfld.long 0x00 15. "                     E15      ,Event #15" "0,1"
bitfld.long 0x00 14. "     E14     ,Event #14" "0,1"
textline "                                 "
bitfld.long 0x00 13. " E13     ,Event #13" "0,1"
bitfld.long 0x00 12. "                     E12      ,Event #12" "0,1"
bitfld.long 0x00 11. "     E11     ,Event #11" "0,1"
textline "                                 "
bitfld.long 0x00 10. " E10     ,Event #10" "0,1"
bitfld.long 0x00 9. "                     E9       ,Event #9" "0,1"
bitfld.long 0x00 8. "     E8      ,Event #8" "0,1"
textline "                                 "
bitfld.long 0x00 7. " E7      ,Event #7" "0,1"
bitfld.long 0x00 6. "                     E6       ,Event #6" "0,1"
bitfld.long 0x00 5. "     E5      ,Event #5" "0,1"
textline "                                 "
bitfld.long 0x00 4. " E4      ,Event #4" "0,1"
bitfld.long 0x00 3. "                     E3       ,Event #3" "0,1"
bitfld.long 0x00 2. "     E2      ,Event #2" "0,1"
textline "                                 "
bitfld.long 0x00 1. " E1      ,Event #1" "0,1"
bitfld.long 0x00 0. "                     E0       ,Event #0" "0,1"
group.long 0x40E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_7,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_8"
width 23.
group.long 0x4108++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_8,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4110++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_8,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x411C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_8,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4118++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_8,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x120++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_8,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x410C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_8,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4114++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_8,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4100++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_8,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x420++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_8,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x460++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_8,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x4104++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_8,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_9"
width 23.
group.long 0x4128++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_9,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4130++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_9,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x413C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_9,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4138++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_9,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x124++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_9,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x412C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_9,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4134++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_9,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4120++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_9,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x424++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_9,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x464++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_9,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x4124++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_9,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_10"
width 24.
group.long 0x4148++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_10,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4150++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_10,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x415C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_10,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4158++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_10,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x128++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_10,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x414C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_10,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4154++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_10,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4140++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_10,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x428++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_10,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x468++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_10,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x4144++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_10,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_11"
width 24.
group.long 0x4168++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_11,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4170++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_11,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x417C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_11,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4178++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_11,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x12C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_11,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x416C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_11,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4174++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_11,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4160++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_11,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x42C++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_11,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x46C++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_11,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x4164++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_11,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_12"
width 24.
group.long 0x4188++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_12,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4190++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_12,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x419C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_12,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4198++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_12,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x130++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_12,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x418C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_12,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4194++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_12,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4180++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_12,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x430++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_12,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x470++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_12,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x4184++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_12,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_13"
width 24.
group.long 0x41A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_13,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x41B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_13,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x41BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_13,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x41B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_13,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x134++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_13,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x41AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_13,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x41B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_13,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x41A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_13,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x434++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_13,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x474++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_13,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x41A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_13,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_14"
width 24.
group.long 0x41C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_14,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x41D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_14,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x41DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_14,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x41D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_14,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x138++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_14,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x41CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_14,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x41D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_14,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x41C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_14,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x438++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_14,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x478++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_14,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x41C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_14,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_15"
width 24.
group.long 0x41E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_15,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x41F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_15,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x41FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_15,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x41F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_15,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x13C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_15,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x41EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_15,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x41F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_15,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x41E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_15,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
rgroup.long 0x43C++0x3
line.long 0x00 "EDMA_TPCC_Q0E_p_15,Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Cha..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x47C++0x3
line.long 0x00 "EDMA_TPCC_Q1E_p_15,Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15"
bitfld.long 0x00 6.--7. " ETYPE   ,Event Type: Specifies the specific Event Type for the given entry in the Event Queue." "0,1,2,3"
bitfld.long 0x00 0.--5. "                     ENUM     ,Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x41E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_15,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_16"
width 24.
group.long 0x4208++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_16,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4210++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_16,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x421C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_16,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4218++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_16,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x140++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_16,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x420C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_16,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4214++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_16,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4200++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_16,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4204++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_16,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_17"
width 24.
group.long 0x4228++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_17,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4230++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_17,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x423C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_17,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4238++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_17,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x144++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_17,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x422C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_17,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4234++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_17,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4220++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_17,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4224++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_17,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_18"
width 24.
group.long 0x4248++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_18,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4250++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_18,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x425C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_18,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4258++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_18,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x148++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_18,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x424C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_18,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4254++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_18,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4240++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_18,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4244++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_18,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_19"
width 24.
group.long 0x4268++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_19,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4270++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_19,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x427C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_19,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4278++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_19,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x14C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_19,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x426C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_19,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4274++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_19,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4260++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_19,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4264++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_19,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_20"
width 24.
group.long 0x4288++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_20,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4290++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_20,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x429C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_20,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4298++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_20,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x150++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_20,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x428C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_20,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4294++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_20,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4280++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_20,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4284++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_20,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_21"
width 24.
group.long 0x42A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_21,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x42B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_21,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x42BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_21,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x42B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_21,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x154++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_21,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x42AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_21,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x42B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_21,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x42A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_21,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x42A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_21,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_22"
width 24.
group.long 0x42C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_22,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x42D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_22,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x42DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_22,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x42D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_22,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x158++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_22,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x42CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_22,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x42D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_22,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x42C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_22,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x42C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_22,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_23"
width 24.
group.long 0x42E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_23,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x42F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_23,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x42FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_23,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x42F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_23,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x15C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_23,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x42EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_23,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x42F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_23,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x42E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_23,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x42E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_23,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_24"
width 24.
group.long 0x4308++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_24,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4310++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_24,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x431C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_24,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4318++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_24,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x160++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_24,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x430C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_24,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4314++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_24,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4300++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_24,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4304++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_24,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_25"
width 24.
group.long 0x4328++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_25,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4330++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_25,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x433C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_25,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4338++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_25,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x164++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_25,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x432C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_25,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4334++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_25,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4320++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_25,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4324++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_25,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_26"
width 24.
group.long 0x4348++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_26,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4350++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_26,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x435C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_26,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4358++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_26,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x168++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_26,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x434C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_26,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4354++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_26,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4340++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_26,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4344++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_26,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_27"
width 24.
group.long 0x4368++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_27,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4370++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_27,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x437C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_27,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4378++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_27,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x16C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_27,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x436C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_27,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4374++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_27,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4360++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_27,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4364++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_27,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_28"
width 24.
group.long 0x4388++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_28,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4390++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_28,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x439C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_28,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4398++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_28,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x170++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_28,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x438C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_28,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4394++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_28,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4380++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_28,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4384++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_28,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_29"
width 24.
group.long 0x43A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_29,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x43B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_29,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x43BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_29,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x43B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_29,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x174++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_29,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x43AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_29,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x43B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_29,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x43A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_29,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x43A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_29,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_30"
width 24.
group.long 0x43C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_30,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x43D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_30,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x43DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_30,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x43D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_30,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x178++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_30,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x43CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_30,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x43D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_30,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x43C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_30,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x43C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_30,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_31"
width 24.
group.long 0x43E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_31,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x43F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_31,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x43FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_31,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x43F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_31,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x17C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_31,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x43EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_31,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x43F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_31,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x43E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_31,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x43E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_31,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_32"
width 24.
group.long 0x4408++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_32,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4410++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_32,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x441C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_32,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4418++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_32,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x180++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_32,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x440C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_32,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4414++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_32,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4400++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_32,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4404++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_32,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_33"
width 24.
group.long 0x4428++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_33,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4430++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_33,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x443C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_33,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4438++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_33,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x184++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_33,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x442C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_33,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4434++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_33,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4420++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_33,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4424++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_33,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_34"
width 24.
group.long 0x4448++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_34,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4450++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_34,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x445C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_34,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4458++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_34,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x188++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_34,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x444C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_34,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4454++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_34,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4440++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_34,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4444++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_34,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_35"
width 24.
group.long 0x4468++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_35,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4470++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_35,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x447C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_35,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4478++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_35,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x18C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_35,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x446C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_35,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4474++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_35,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4460++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_35,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4464++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_35,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_36"
width 24.
group.long 0x4488++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_36,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4490++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_36,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x449C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_36,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4498++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_36,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x190++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_36,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x448C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_36,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4494++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_36,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4480++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_36,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4484++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_36,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_37"
width 24.
group.long 0x44A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_37,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x44B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_37,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x44BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_37,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x44B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_37,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x194++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_37,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x44AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_37,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x44B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_37,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x44A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_37,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x44A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_37,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_38"
width 24.
group.long 0x44C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_38,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x44D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_38,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x44DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_38,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x44D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_38,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x198++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_38,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x44CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_38,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x44D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_38,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x44C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_38,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x44C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_38,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_39"
width 24.
group.long 0x44E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_39,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x44F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_39,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x44FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_39,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x44F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_39,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x19C++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_39,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x44EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_39,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x44F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_39,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x44E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_39,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x44E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_39,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_40"
width 24.
group.long 0x4508++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_40,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4510++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_40,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x451C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_40,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4518++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_40,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1A0++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_40,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x450C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_40,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4514++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_40,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4500++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_40,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4504++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_40,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_41"
width 24.
group.long 0x4528++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_41,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4530++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_41,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x453C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_41,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4538++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_41,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1A4++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_41,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x452C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_41,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4534++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_41,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4520++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_41,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4524++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_41,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_42"
width 24.
group.long 0x4548++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_42,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4550++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_42,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x455C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_42,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4558++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_42,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1A8++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_42,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x454C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_42,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4554++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_42,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4540++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_42,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4544++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_42,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_43"
width 24.
group.long 0x4568++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_43,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4570++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_43,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x457C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_43,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4578++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_43,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1AC++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_43,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x456C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_43,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4574++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_43,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4560++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_43,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4564++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_43,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_44"
width 24.
group.long 0x4588++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_44,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4590++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_44,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x459C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_44,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4598++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_44,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1B0++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_44,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x458C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_44,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4594++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_44,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4580++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_44,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4584++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_44,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_45"
width 24.
group.long 0x45A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_45,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x45B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_45,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x45BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_45,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x45B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_45,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1B4++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_45,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x45AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_45,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x45B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_45,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x45A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_45,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x45A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_45,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_46"
width 24.
group.long 0x45C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_46,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x45D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_46,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x45DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_46,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x45D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_46,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1B8++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_46,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x45CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_46,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x45D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_46,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x45C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_46,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x45C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_46,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_47"
width 24.
group.long 0x45E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_47,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x45F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_47,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x45FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_47,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x45F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_47,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1BC++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_47,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x45EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_47,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x45F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_47,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x45E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_47,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x45E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_47,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_48"
width 24.
group.long 0x4608++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_48,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4610++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_48,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x461C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_48,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4618++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_48,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1C0++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_48,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x460C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_48,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4614++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_48,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4600++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_48,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4604++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_48,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_49"
width 24.
group.long 0x4628++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_49,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4630++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_49,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x463C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_49,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4638++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_49,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1C4++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_49,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x462C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_49,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4634++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_49,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4620++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_49,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4624++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_49,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_50"
width 24.
group.long 0x4648++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_50,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4650++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_50,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x465C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_50,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4658++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_50,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1C8++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_50,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x464C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_50,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4654++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_50,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4640++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_50,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4644++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_50,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_51"
width 24.
group.long 0x4668++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_51,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4670++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_51,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x467C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_51,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4678++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_51,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1CC++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_51,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x466C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_51,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4674++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_51,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4660++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_51,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4664++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_51,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_52"
width 24.
group.long 0x4688++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_52,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4690++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_52,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x469C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_52,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4698++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_52,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1D0++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_52,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x468C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_52,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4694++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_52,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4680++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_52,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4684++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_52,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_53"
width 24.
group.long 0x46A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_53,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x46B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_53,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x46BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_53,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x46B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_53,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1D4++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_53,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x46AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_53,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x46B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_53,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x46A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_53,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x46A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_53,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_54"
width 24.
group.long 0x46C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_54,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x46D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_54,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x46DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_54,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x46D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_54,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1D8++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_54,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x46CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_54,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x46D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_54,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x46C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_54,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x46C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_54,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_55"
width 24.
group.long 0x46E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_55,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x46F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_55,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x46FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_55,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x46F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_55,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1DC++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_55,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x46EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_55,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x46F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_55,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x46E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_55,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x46E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_55,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_56"
width 24.
group.long 0x4708++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_56,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4710++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_56,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x471C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_56,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4718++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_56,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1E0++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_56,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x470C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_56,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4714++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_56,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4700++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_56,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4704++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_56,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_57"
width 24.
group.long 0x4728++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_57,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4730++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_57,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x473C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_57,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4738++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_57,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1E4++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_57,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x472C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_57,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4734++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_57,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4720++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_57,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4724++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_57,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_58"
width 24.
group.long 0x4748++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_58,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4750++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_58,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x475C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_58,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4758++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_58,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1E8++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_58,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x474C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_58,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4754++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_58,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4740++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_58,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4744++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_58,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_59"
width 24.
group.long 0x4768++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_59,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4770++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_59,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x477C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_59,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4778++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_59,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1EC++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_59,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x476C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_59,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4774++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_59,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4760++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_59,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4764++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_59,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_60"
width 24.
group.long 0x4788++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_60,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4790++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_60,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x479C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_60,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4798++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_60,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1F0++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_60,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x478C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_60,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4794++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_60,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4780++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_60,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4784++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_60,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_61"
width 24.
group.long 0x47A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_61,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x47B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_61,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x47BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_61,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x47B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_61,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1F4++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_61,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x47AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_61,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x47B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_61,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x47A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_61,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x47A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_61,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_62"
width 24.
group.long 0x47C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_62,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x47D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_62,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x47DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_62,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x47D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_62,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1F8++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_62,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x47CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_62,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x47D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_62,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x47C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_62,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x47C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_62,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_63"
width 24.
group.long 0x47E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_63,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x47F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_63,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x47FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_63,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x47F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_63,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x1FC++0x3
line.long 0x00 "EDMA_TPCC_DCHMAPN_m_63,DMA Channel N Mapping Register"
hexmask.long.word 0x00 5.--13. 1. " PAENTRY ,PaRAM Entry number for DMA Channel N."
group.long 0x47EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_63,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x47F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_63,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x47E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_63,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x47E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_63,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_64"
width 22.
group.long 0x4808++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_64,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4810++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_64,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x481C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_64,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4818++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_64,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x480C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_64,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4814++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_64,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4800++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_64,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4804++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_64,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_65"
width 22.
group.long 0x4828++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_65,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4830++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_65,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x483C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_65,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4838++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_65,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x482C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_65,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4834++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_65,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4820++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_65,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4824++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_65,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_66"
width 22.
group.long 0x4848++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_66,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4850++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_66,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x485C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_66,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4858++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_66,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x484C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_66,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4854++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_66,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4840++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_66,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4844++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_66,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_67"
width 22.
group.long 0x4868++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_67,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4870++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_67,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x487C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_67,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4878++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_67,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x486C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_67,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4874++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_67,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4860++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_67,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4864++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_67,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_68"
width 22.
group.long 0x4888++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_68,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4890++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_68,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x489C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_68,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4898++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_68,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x488C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_68,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4894++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_68,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4880++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_68,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4884++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_68,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_69"
width 22.
group.long 0x48A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_69,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x48B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_69,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x48BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_69,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x48B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_69,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x48AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_69,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x48B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_69,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x48A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_69,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x48A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_69,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_70"
width 22.
group.long 0x48C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_70,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x48D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_70,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x48DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_70,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x48D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_70,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x48CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_70,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x48D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_70,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x48C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_70,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x48C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_70,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_71"
width 22.
group.long 0x48E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_71,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x48F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_71,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x48FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_71,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x48F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_71,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x48EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_71,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x48F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_71,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x48E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_71,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x48E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_71,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_72"
width 22.
group.long 0x4908++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_72,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4910++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_72,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x491C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_72,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4918++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_72,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x490C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_72,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4914++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_72,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4900++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_72,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4904++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_72,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_73"
width 22.
group.long 0x4928++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_73,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4930++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_73,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x493C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_73,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4938++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_73,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x492C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_73,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4934++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_73,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4920++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_73,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4924++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_73,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_74"
width 22.
group.long 0x4948++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_74,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4950++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_74,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x495C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_74,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4958++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_74,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x494C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_74,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4954++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_74,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4940++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_74,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4944++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_74,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_75"
width 22.
group.long 0x4968++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_75,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4970++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_75,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x497C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_75,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4978++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_75,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x496C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_75,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4974++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_75,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4960++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_75,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4964++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_75,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_76"
width 22.
group.long 0x4988++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_76,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4990++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_76,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x499C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_76,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4998++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_76,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x498C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_76,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4994++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_76,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4980++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_76,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4984++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_76,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_77"
width 22.
group.long 0x49A8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_77,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x49B0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_77,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x49BC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_77,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x49B8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_77,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x49AC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_77,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x49B4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_77,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x49A0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_77,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x49A4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_77,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_78"
width 22.
group.long 0x49C8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_78,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x49D0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_78,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x49DC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_78,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x49D8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_78,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x49CC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_78,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x49D4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_78,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x49C0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_78,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x49C4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_78,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_79"
width 22.
group.long 0x49E8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_79,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x49F0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_79,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x49FC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_79,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x49F8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_79,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x49EC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_79,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x49F4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_79,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x49E0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_79,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x49E4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_79,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_80"
width 22.
group.long 0x4A08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_80,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_80,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_80,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_80,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_80,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_80,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_80,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_80,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_81"
width 22.
group.long 0x4A28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_81,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_81,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_81,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_81,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_81,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_81,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_81,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_81,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_82"
width 22.
group.long 0x4A48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_82,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_82,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_82,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_82,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_82,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_82,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_82,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_82,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_83"
width 22.
group.long 0x4A68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_83,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_83,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_83,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_83,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_83,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_83,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_83,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_83,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_84"
width 22.
group.long 0x4A88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_84,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4A90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_84,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4A9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_84,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4A98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_84,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4A8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_84,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4A94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_84,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4A80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_84,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4A84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_84,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_85"
width 22.
group.long 0x4AA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_85,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4AB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_85,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4ABC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_85,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4AB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_85,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4AAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_85,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4AB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_85,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4AA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_85,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4AA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_85,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_86"
width 22.
group.long 0x4AC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_86,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4AD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_86,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4ADC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_86,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4AD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_86,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4ACC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_86,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4AD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_86,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4AC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_86,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4AC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_86,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_87"
width 22.
group.long 0x4AE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_87,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4AF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_87,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4AFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_87,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4AF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_87,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4AEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_87,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4AF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_87,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4AE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_87,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4AE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_87,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_88"
width 22.
group.long 0x4B08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_88,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_88,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_88,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_88,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_88,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_88,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_88,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_88,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_89"
width 22.
group.long 0x4B28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_89,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_89,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_89,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_89,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_89,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_89,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_89,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_89,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_90"
width 22.
group.long 0x4B48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_90,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_90,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_90,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_90,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_90,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_90,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_90,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_90,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_91"
width 22.
group.long 0x4B68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_91,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_91,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_91,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_91,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_91,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_91,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_91,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_91,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_92"
width 22.
group.long 0x4B88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_92,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4B90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_92,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4B9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_92,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4B98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_92,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4B8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_92,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4B94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_92,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4B80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_92,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4B84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_92,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_93"
width 22.
group.long 0x4BA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_93,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4BB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_93,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4BBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_93,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4BB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_93,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4BAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_93,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4BB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_93,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4BA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_93,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4BA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_93,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_94"
width 22.
group.long 0x4BC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_94,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4BD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_94,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4BDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_94,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4BD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_94,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4BCC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_94,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4BD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_94,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4BC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_94,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4BC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_94,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_95"
width 22.
group.long 0x4BE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_95,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4BF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_95,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4BFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_95,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4BF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_95,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4BEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_95,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4BF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_95,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4BE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_95,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4BE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_95,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_96"
width 22.
group.long 0x4C08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_96,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_96,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_96,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_96,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_96,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_96,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_96,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_96,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_97"
width 22.
group.long 0x4C28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_97,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_97,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_97,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_97,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_97,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_97,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_97,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_97,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_98"
width 22.
group.long 0x4C48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_98,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_98,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_98,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_98,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_98,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_98,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_98,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_98,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_99"
width 22.
group.long 0x4C68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_99,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_99,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_99,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_99,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_99,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_99,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_99,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                               "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                               "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                               "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_99,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_100"
width 23.
group.long 0x4C88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_100,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4C90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_100,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4C9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_100,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4C98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_100,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4C8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_100,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4C94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_100,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4C80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_100,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4C84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_100,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_101"
width 23.
group.long 0x4CA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_101,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4CB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_101,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4CBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_101,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4CB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_101,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4CAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_101,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4CB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_101,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4CA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_101,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4CA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_101,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_102"
width 23.
group.long 0x4CC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_102,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4CD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_102,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4CDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_102,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4CD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_102,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4CCC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_102,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4CD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_102,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4CC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_102,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4CC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_102,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_103"
width 23.
group.long 0x4CE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_103,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4CF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_103,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4CFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_103,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4CF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_103,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4CEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_103,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4CF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_103,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4CE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_103,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4CE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_103,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_104"
width 23.
group.long 0x4D08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_104,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_104,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_104,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_104,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_104,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_104,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_104,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_104,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_105"
width 23.
group.long 0x4D28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_105,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_105,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_105,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_105,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_105,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_105,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_105,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_105,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_106"
width 23.
group.long 0x4D48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_106,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_106,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_106,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_106,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_106,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_106,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_106,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_106,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_107"
width 23.
group.long 0x4D68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_107,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_107,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_107,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_107,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_107,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_107,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_107,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_107,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_108"
width 23.
group.long 0x4D88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_108,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4D90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_108,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4D9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_108,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4D98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_108,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4D8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_108,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4D94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_108,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4D80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_108,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4D84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_108,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_109"
width 23.
group.long 0x4DA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_109,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4DB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_109,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4DBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_109,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4DB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_109,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4DAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_109,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4DB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_109,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4DA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_109,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4DA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_109,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_110"
width 23.
group.long 0x4DC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_110,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4DD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_110,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4DDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_110,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4DD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_110,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4DCC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_110,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4DD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_110,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4DC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_110,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4DC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_110,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_111"
width 23.
group.long 0x4DE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_111,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4DF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_111,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4DFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_111,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4DF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_111,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4DEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_111,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4DF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_111,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4DE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_111,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4DE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_111,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_112"
width 23.
group.long 0x4E08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_112,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_112,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_112,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_112,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_112,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_112,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_112,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_112,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_113"
width 23.
group.long 0x4E28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_113,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_113,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_113,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_113,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_113,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_113,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_113,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_113,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_114"
width 23.
group.long 0x4E48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_114,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_114,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_114,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_114,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_114,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_114,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_114,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_114,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_115"
width 23.
group.long 0x4E68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_115,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_115,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_115,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_115,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_115,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_115,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_115,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_115,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_116"
width 23.
group.long 0x4E88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_116,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4E90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_116,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4E9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_116,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4E98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_116,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4E8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_116,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4E94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_116,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4E80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_116,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4E84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_116,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_117"
width 23.
group.long 0x4EA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_117,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4EB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_117,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4EBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_117,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4EB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_117,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4EAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_117,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4EB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_117,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4EA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_117,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4EA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_117,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_118"
width 23.
group.long 0x4EC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_118,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4ED0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_118,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4EDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_118,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4ED8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_118,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4ECC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_118,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4ED4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_118,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4EC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_118,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4EC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_118,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_119"
width 23.
group.long 0x4EE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_119,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4EF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_119,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4EFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_119,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4EF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_119,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4EEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_119,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4EF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_119,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4EE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_119,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4EE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_119,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_120"
width 23.
group.long 0x4F08++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_120,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F10++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_120,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F1C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_120,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F18++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_120,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F0C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_120,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F14++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_120,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F00++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_120,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F04++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_120,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_121"
width 23.
group.long 0x4F28++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_121,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F30++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_121,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F3C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_121,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F38++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_121,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F2C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_121,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F34++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_121,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F20++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_121,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F24++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_121,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_122"
width 23.
group.long 0x4F48++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_122,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F50++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_122,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F5C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_122,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F58++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_122,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F4C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_122,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F54++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_122,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F40++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_122,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F44++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_122,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_123"
width 23.
group.long 0x4F68++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_123,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F70++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_123,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F7C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_123,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F78++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_123,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F6C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_123,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F74++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_123,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F60++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_123,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F64++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_123,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_124"
width 23.
group.long 0x4F88++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_124,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4F90++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_124,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4F9C++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_124,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4F98++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_124,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4F8C++0x3
line.long 0x00 "EDMA_TPCC_DST_n_124,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4F94++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_124,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4F80++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_124,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4F84++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_124,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_125"
width 23.
group.long 0x4FA8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_125,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4FB0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_125,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4FBC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_125,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4FB8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_125,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4FAC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_125,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4FB4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_125,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4FA0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_125,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4FA4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_125,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_126"
width 23.
group.long 0x4FC8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_126,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4FD0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_126,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4FDC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_126,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4FD8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_126,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4FCC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_126,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4FD4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_126,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4FC0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_126,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4FC4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_126,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
tree "DMA_Channel_127"
width 23.
group.long 0x4FE8++0x3
line.long 0x00 "EDMA_TPCC_ABCNT_n_127,A and B byte count"
hexmask.long.word 0x00 16.--31. 1. " BCNT    ,BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a f..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT     ,ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of by..."
group.long 0x4FF0++0x3
line.long 0x00 "EDMA_TPCC_BIDX_n_127,"
hexmask.long.word 0x00 16.--31. 1. " DBIDX   ,Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address o..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX    ,Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte a..."
group.long 0x4FFC++0x3
line.long 0x00 "EDMA_TPCC_CCNT_n_127,C byte count"
hexmask.long.word 0x00 0.--15. 1. " CCNT    ,CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frame..."
group.long 0x4FF8++0x3
line.long 0x00 "EDMA_TPCC_CIDX_n_127,Source and destination frame indexes"
hexmask.long.word 0x00 16.--31. 1. " DCIDX   ,Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of t..."
hexmask.long.word 0x00 0.--15. 1. "                  SCIDX    ,Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginn..."
group.long 0x4FEC++0x3
line.long 0x00 "EDMA_TPCC_DST_n_127,Destination Address"
hexmask.long 0x00 0.--31. 1. " DST     ,Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by theED..."
group.long 0x4FF4++0x3
line.long 0x00 "EDMA_TPCC_LNK_n_127,Link and Reload parameters"
hexmask.long.word 0x00 16.--31. 1. " BCNTRLD ,BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on e..."
hexmask.long.word 0x00 0.--15. 1. "                  LINK     ,Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit paramete..."
group.long 0x4FE0++0x3
line.long 0x00 "EDMA_TPCC_OPT_n_127,Options Parameter"
bitfld.long 0x00 31. " PRIV    ,Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via ..." "User_level_privilege,1"
bitfld.long 0x00 24.--27. "  PRIVID   ,Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "    ITCCHEN ,Intermediate transfer completion chaining enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 22. " TCCHEN  ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 21. "                     ITCINTEN ,Intermediate transfer completion interrupt enable - . - ." "0,1"
bitfld.long 0x00 20. "     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
textline "                                "
bitfld.long 0x00 19. " WIMODE  ,Backward compatibility mode - . - ." "Normal_operation,1"
bitfld.long 0x00 12.--17. "      TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 11. "    TCCMODE ,Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt. - . - ." "0,1"
textline "                                "
bitfld.long 0x00 8.--10. " FWID    ,FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3. "                     STATIC   ,Static Entry - . - ." "0,1"
bitfld.long 0x00 2. "     SYNCDIM ,Transfer Synchronization Dimension: - . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " DAM     ,Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
bitfld.long 0x00 0. "                     SAM      ,Source Address Mode: Source Address Mode within an array. Pass-thru to TC. - . - ." "0,1"
group.long 0x4FE4++0x3
line.long 0x00 "EDMA_TPCC_SRC_n_127,Source Address"
hexmask.long 0x00 0.--31. 1. " SRC     ,Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] ..."
tree.end
textline ""
width 20.
rgroup.long 0x0++0x3
line.long 0x00 "EDMA_TPCC_PID,Peripheral ID Register"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP revision"
rgroup.long 0x4++0x3
line.long 0x00 "EDMA_TPCC_CCCFG,CC Configuration Register"
bitfld.long 0x00 25. " MPEXIST   ,Memory Protection Existence - . - ." "No_mMemory_protection,1"
bitfld.long 0x00 24. "  CHMAPEXIST ,Channel Mapping Existence - . - ." "No_Channel_mapping.,1"
bitfld.long 0x00 20.--21. "  NUMREGN  ,Number of MP and Shadow regions" "0,1,2,3"
textline "                             "
bitfld.long 0x00 16.--18. " NUMTC     ,Number of Queues/Number of TCs" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                      NUMPAENTRY ,Number of PaRAM entries" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "                    NUMINTCH ,Number of Interrupt Channels" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 4.--6. " NUMQDMACH ,Number of QDMA Channels" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                      NUMDMACH   ,Number of DMA Channels" "0,1,2,3,4,5,6,7"
group.long 0xFC++0x3
line.long 0x00 "EDMA_TPCC_CLKGDIS,Auto Clock Gate Disable"
bitfld.long 0x00 0. " CLKGDIS   ,Auto Clock Gate Disable" "0,1"
group.long 0x260++0x3
line.long 0x00 "EDMA_TPCC_QDMAQNUM,QDMA Queue Number Register Contains the Event queue number to be used for the corresponding QDMA Channel."
bitfld.long 0x00 28.--30. " E7        ,QDMA Queue Number for event #7" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "                      E6         ,QDMA Queue Number for event #6" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "                    E5       ,QDMA Queue Number for event #5" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 16.--18. " E4        ,QDMA Queue Number for event #4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "                      E3         ,QDMA Queue Number for event #3" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "                    E2       ,QDMA Queue Number for event #2" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 4.--6. " E1        ,QDMA Queue Number for event #1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                      E0         ,QDMA Queue Number for event #0" "0,1,2,3,4,5,6,7"
group.long 0x280++0x3
line.long 0x00 "EDMA_TPCC_QUETCMAP,Queue to TC Mapping"
bitfld.long 0x00 4.--6. " TCNUMQ1   ,TC Number for Queue N: Defines the TC number that Event Queue N TRs are written to." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                      TCNUMQ0    ,TC Number for Queue N: Defines the TC number that Event Queue N TRs are written to." "0,1,2,3,4,5,6,7"
group.long 0x284++0x3
line.long 0x00 "EDMA_TPCC_QUEPRI,Queue Priority"
bitfld.long 0x00 4.--6. " PRIQ1     ,Priority Level for Queue 1 Dictates the priority level used for the OPTIONS field programmation for Qn TRs. Sets the priority used for TC read and write commands." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                      PRIQ0      ,Priority Level for Queue 0 Dictates the priority level used for the OPTIONS field programmation for Qn TRs. Sets the priority used for TC read and write commands." "0,1,2,3,4,5,6,7"
rgroup.long 0x300++0x3
line.long 0x00 "EDMA_TPCC_EMR,Event Missed Register: The Event Missed register is set if 2 events are received without the first event being cleared or if a Null TR is serviced. Chained events (CER), Set Events (ESR), and normal events (ER) are treated individually. I..."
bitfld.long 0x00 31. " E31       ,Event Missed #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event Missed #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event Missed #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event Missed #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event Missed #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event Missed #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event Missed #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event Missed #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event Missed #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event Missed #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event Missed #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event Missed #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event Missed #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event Missed #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event Missed #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event Missed #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event Missed #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event Missed #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event Missed #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event Missed #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event Missed #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event Missed #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event Missed #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event Missed #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event Missed #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event Missed #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event Missed #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event Missed #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event Missed #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event Missed #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event Missed #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event Missed #0" "0,1"
rgroup.long 0x304++0x3
line.long 0x00 "EDMA_TPCC_EMRH,Event Missed Register (High Part): The Event Missed register is set if 2 events are received without the first event being cleared or if a Null TR is serviced. Chained events (CER), Set Events (ESR), and normal events (ER) are treated in..."
bitfld.long 0x00 31. " E63       ,Event Missed #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event Missed #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event Missed #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event Missed #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event Missed #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event Missed #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event Missed #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event Missed #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event Missed #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event Missed #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event Missed #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event Missed #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event Missed #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event Missed #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event Missed #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event Missed #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event Missed #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event Missed #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event Missed #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event Missed #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event Missed #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event Missed #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event Missed #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event Missed #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event Missed #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event Missed #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event Missed #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event Missed #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event Missed #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event Missed #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event Missed #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event Missed #32" "0,1"
wgroup.long 0x308++0x3
line.long 0x00 "EDMA_TPCC_EMCR,Event Missed Clear Register: CPU write of '1' to the.En bit causes the .En bit to be cleared. CPU write of '0' has no effect.. All error bits must be cleared before additional error interrupts will be asserted by CC."
bitfld.long 0x00 31. " E31       ,Event Missed Clear #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event Missed Clear #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event Missed Clear #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event Missed Clear #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event Missed Clear #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event Missed Clear #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event Missed Clear #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event Missed Clear #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event Missed Clear #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event Missed Clear #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event Missed Clear #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event Missed Clear #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event Missed Clear #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event Missed Clear #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event Missed Clear #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event Missed Clear #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event Missed Clear #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event Missed Clear #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event Missed Clear #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event Missed Clear #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event Missed Clear #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event Missed Clear #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event Missed Clear #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event Missed Clear #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event Missed Clear #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event Missed Clear #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event Missed Clear #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event Missed Clear #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event Missed Clear #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event Missed Clear #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event Missed Clear #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event Missed Clear #0" "0,1"
wgroup.long 0x30C++0x3
line.long 0x00 "EDMA_TPCC_EMCRH,Event Missed Clear Register (High Part): CPU write of '1' to the.En bit causes the .En bit to be cleared. CPU write of '0' has no effect. All error bits must be cleared before additional error interrupts will be asserted by CC."
bitfld.long 0x00 31. " E63       ,Event Missed Clear #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event Missed Clear #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event Missed Clear #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event Missed Clear #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event Missed Clear #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event Missed Clear #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event Missed Clear #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event Missed Clear #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event Missed Clear #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event Missed Clear #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event Missed Clear #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event Missed Clear #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event Missed Clear #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event Missed Clear #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event Missed Clear #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event Missed Clear #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event Missed Clear #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event Missed Clear #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event Missed Clear #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event Missed Clear #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event Missed Clear #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event Missed Clear #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event Missed Clear #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event Missed Clear #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event Missed Clear #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event Missed Clear #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event Missed Clear #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event Missed Clear #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event Missed Clear #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event Missed Clear #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event Missed Clear #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event Missed Clear #32" "0,1"
rgroup.long 0x310++0x3
line.long 0x00 "EDMA_TPCC_QEMR,QDMA Event Missed Register: The QDMA Event Missed register is set if 2 QDMA events are detected without the first event being cleared or if a Null TR is serviced. If any bit in the register is set (and all errors (including / ) were prev..."
bitfld.long 0x00 7. " E7        ,Event Missed #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event Missed #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event Missed #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event Missed #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event Missed #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event Missed #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event Missed #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event Missed #0" "0,1"
wgroup.long 0x314++0x3
line.long 0x00 "EDMA_TPCC_QEMCR,QDMA Event Missed Clear Register: CPU write of '1' to the.En bit causes the .En bit to be cleared. CPU write of '0' has no effect. All error bits must be cleared before additional error interrupts will be asserted by CC."
bitfld.long 0x00 7. " E7        ,Event Missed Clear #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event Missed Clear #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event Missed Clear #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event Missed Clear #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event Missed Clear #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event Missed Clear #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event Missed Clear #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event Missed Clear #0" "0,1"
rgroup.long 0x318++0x3
line.long 0x00 "EDMA_TPCC_CCERR,CC Error Register"
bitfld.long 0x00 16. " TCERR     ,Transfer Completion Code Error - . - . - TCERR can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors were previously clear), then an error will be signaled with TPCC error interr..." "0,1"
bitfld.long 0x00 7. "                      QTHRXCD7   ,Queue Threshold Error for Q7 - . - . - QTHRXCD7 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error wi..." "0,1"
bitfld.long 0x00 6. "                    QTHRXCD6 ,Queue Threshold Error for Q6 - . - . - QTHRXCD6 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will b..." "0,1"
textline "                             "
bitfld.long 0x00 5. " QTHRXCD5  ,Queue Threshold Error for Q5 - . - . - QTHRXCD5 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will be signaled with th..." "0,1"
bitfld.long 0x00 4. "                      QTHRXCD4   ,Queue Threshold Error for Q4 - . - . - QTHRXCD4 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error wi..." "0,1"
bitfld.long 0x00 3. "                    QTHRXCD3 ,Queue Threshold Error for Q3 - . - . - QTHRXCD3 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will b..." "0,1"
textline "                             "
bitfld.long 0x00 2. " QTHRXCD2  ,Queue Threshold Error for Q2 - . - . - QTHRXCD2 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will be signaled with th..." "0,1"
bitfld.long 0x00 1. "                      QTHRXCD1   ,Queue Threshold Error for Q1 - . - . - QTHRXCD1 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error wi..." "0,1"
bitfld.long 0x00 0. "                    QTHRXCD0 ,Queue Threshold Error for Q0: - . - . - QTHRXCD0 can be cleared by writing a '1' to corresponding bit in register. If any bit in the register is set (and all errors (including /) were previously clear), then an error will ..." "0,1"
wgroup.long 0x31C++0x3
line.long 0x00 "EDMA_TPCC_CCERRCLR,CC Error Clear Register"
bitfld.long 0x00 16. " TCERR     ,Clear Error forEDMA_TPCC_CCERR[16] TR. - Write 0x1 to clear the value of[16] TCERR. . - . - Write 0x0 have no affect. . - ." "0,1"
bitfld.long 0x00 7. "                      QTHRXCD7   ,Clear error forEDMA_TPCC_CCERR[7]QTHRXCD7 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT7.WM, QSTAT7.THRXCD,[7] QTHRXCD7 . - ." "0,1"
bitfld.long 0x00 6. "                    QTHRXCD6 ,Clear error forEDMA_TPCC_CCERR[6] QTHRXCD6 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT6.WM, QSTAT6.THRXCD,[6]QTHRXCD6 . - ." "0,1"
textline "                             "
bitfld.long 0x00 5. " QTHRXCD5  ,Clear error forEDMA_TPCC_CCERR[5] QTHRXCD5 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT5.WM, QSTAT5.THRXCD,[5]QTHRXCD5 . - ." "0,1"
bitfld.long 0x00 4. "                      QTHRXCD4   ,Clear error forEDMA_TPCC_CCERR[4] QTHRXCD4: - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT4.WM, QSTAT4.THRXCD,[4] QTHRXCD4 . - ." "0,1"
bitfld.long 0x00 3. "                    QTHRXCD3 ,Clear error forEDMA_TPCC_CCERR[3] QTHRXCD3 - Write 0x1 to clear the values of QSTAT3.WM, QSTAT3.THRXCD,[3] QTHRXCD3 . - . - Write 0x0 have no affect. . - ." "0,1"
textline "                             "
bitfld.long 0x00 2. " QTHRXCD2  ,Clear error forEDMA_TPCC_CCERR[2] QTHRXCD2 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT2.WM, QSTAT2.THRXCD,[2] QTHRXCD2 . - ." "0,1"
bitfld.long 0x00 1. "                      QTHRXCD1   ,Clear error forEDMA_TPCC_CCERR[1] QTHRXCD1 - Write 0x1 to clear the values of QSTAT1.WM, QSTAT1.THRXCD,[1] QTHRXCD1 . - . - Write 0x0 have no affect. . - ." "0,1"
bitfld.long 0x00 0. "                    QTHRXCD0 ,Clear error forEDMA_TPCC_CCERR[0] QTHRXCD0 - Write 0x0 have no affect. . - . - Write 0x1 to clear the values of QSTAT0.WM, QSTAT0.THRXCD,[0] QTHRXCD0 . - ." "0,1"
wgroup.long 0x320++0x3
line.long 0x00 "EDMA_TPCC_EEVAL,Error Eval Register"
bitfld.long 0x00 1. " SET       ,Error Interrupt Set - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the SET bit causes the TPCC error interrupt to be pulsed regardless of state of/, , or . . - ." "0,1"
bitfld.long 0x00 0. "                      EVAL       ,Error Interrupt Evaluate - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the EVAL bit causes the TPCC error interrupt to be pulsed if any errors have not been cleared in the/, , or registers. The CPU must als..." "0,1"
group.long 0x620++0x3
line.long 0x00 "EDMA_TPCC_QWMTHRA,Queue Threshold A, for Q[3:0]:.QTHRXCDn and QSTATn[24] THRXCD error bit is set when the number of Events in QueueN at an instant in time (visible via QSTATn[12:8] NUMVAL) equals or exceeds the value specified by .Qn. Legal values = 0x..."
bitfld.long 0x00 24.--28. " Q3        ,Queue Threshold for Q3 value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "                     Q2         ,Queue Threshold for Q2 value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "                   Q1       ,Queue Threshold for Q1 value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                             "
bitfld.long 0x00 0.--4. " Q0        ,Queue Threshold for Q0 value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x624++0x3
line.long 0x00 "EDMA_TPCC_QWMTHRB,Queue Threshold B, for Q[7:4]:.QTHRXCDn and QSTATn[24]THRXCD error bit is set when the number of Events in QueueN at an instant in time (visible via QSTATn[12:8] NUMVAL) equals or exceeds the value specified by QWMTHRB.Qn. Legal value..."
bitfld.long 0x00 24.--28. " Q7        ,Queue Threshold for Q7 value (unused in the context of IVAHD)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "                     Q6         ,Queue Threshold for Q6 value (unused in the context of IVAHD)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--12. "                   Q5       ,Queue Threshold for Q5 value (unused in the context of IVAHD)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                             "
bitfld.long 0x00 0.--4. " Q4        ,Queue Threshold for Q4 value (unused in the context of IVAHD)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rgroup.long 0x640++0x3
line.long 0x00 "EDMA_TPCC_CCSTAT,CC Status Register"
bitfld.long 0x00 23. " QUEACTV7  ,Queue 7 Active - . - ." "0,1"
bitfld.long 0x00 22. "                      QUEACTV6   ,Queue 6 Active - . - ." "0,1"
bitfld.long 0x00 21. "                    QUEACTV5 ,Queue 5 Active - . - ." "0,1"
textline "                             "
bitfld.long 0x00 20. " QUEACTV4  ,Queue 4 Active - . - ." "0,1"
bitfld.long 0x00 19. "                      QUEACTV3   ,Queue 3 Active - . - ." "0,1"
bitfld.long 0x00 18. "                    QUEACTV2 ,Queue 2 Active QUEACTV2 = 0 : No Evts are queued in Q2. QUEACTV2 = 1 : At least one TR is queued in Q2. - . - ." "UNKN_MNEMO,UNKN_MNEMO"
textline "                             "
bitfld.long 0x00 17. " QUEACTV1  ,Queue 1 Active - . - ." "0,1"
bitfld.long 0x00 16. "                      QUEACTV0   ,Queue 0 Active - . - ." "0,1"
bitfld.long 0x00 8.--13. "                    COMPACTV ,Completion Request Active: Counter that tracks the total number of completion requests submitted to the TC. The counter increments when a TR is submitted with TCINTEN or TCCHEN set to '1'. The counter decrements for every ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                             "
bitfld.long 0x00 4. " ACTV      ,Channel Controller Active Channel Controller Active is a logical-OR of each of the *ACTV signals. The ACTV bit must remain high through the life of a: - . - ." "Channel_is_idle.,Channel_is_busy."
bitfld.long 0x00 2. "       TRACTV     ,Transfer Request Active TRACTV = 0 : Transfer Request processing/submission logic is inactive. TRACTV = 1 : Transfer Request processing/submission logic is active. - . - ." "UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 1. "           QEVTACTV ,QDMA Event Active - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0. " EVTACTV   ,DMA Event Active - . - ." "0,1"
group.long 0x700++0x3
line.long 0x00 "EDMA_TPCC_AETCTL,Advanced Event Trigger Control"
bitfld.long 0x00 31. " EN        ,AET Enable - . - ." "0,1"
bitfld.long 0x00 8.--13. "                      ENDINT     ,AET End Interrupt: Dictates the completion interrupt number that will force the tpcc_aet signal to be deasserted (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 6. "                   TYPE     ,AET Event Type - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0.--5. " STRTEVT   ,AET Start Event: Dictates the Event Number that will force the tpcc_aet signal to be asserted (high)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x704++0x3
line.long 0x00 "EDMA_TPCC_AETSTAT,Advanced Event Trigger Stat"
bitfld.long 0x00 0. " STAT      ,AET Status - . - ." "0,1"
wgroup.long 0x708++0x3
line.long 0x00 "EDMA_TPCC_AETCMD,AET Command"
bitfld.long 0x00 0. " CLR       ,AET Clear command - CPU writes 0x0 has no effect. . - . - CPU writes 0x1 to the CLR bit causes the tpcc_aet output signal and[0]STAT register to be cleared. . - ." "0,1"
rgroup.long 0x800++0x3
line.long 0x00 "EDMA_TPCC_MPFAR,MMemory Protection Fault Address"
hexmask.long 0x00 0.--31. 1. " FADDR     ,Fault Address: 32-bit read-only status register containing the faulting address when a mMemory protection violation is detected. This register can only be cleared via theEDMA_TPCC_MPFCR."
rgroup.long 0x804++0x3
line.long 0x00 "EDMA_TPCC_MPFSR,Memory Protection Fault Status Register"
bitfld.long 0x00 9.--12. " FID       ,Faulted ID: FID register contains valid info if any of the MP error bits (UXE, UWE, URE, SXE, SWE, SRE) are non-zero (i.e., if an error has been detected.) The FID field contains the VBus PrivID for the specific request/requestor that resul..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 5. "                     SRE        ,Supervisor Read Error - . - ." "No_error_detected.,1"
bitfld.long 0x00 4. "   SWE      ,Supervisor Write Error - . - ." "No_error_detected.,1"
textline "                             "
bitfld.long 0x00 3. " SXE       ,Supervisor Execute Error - . - ." "No_error_detected.,1"
bitfld.long 0x00 2. "     URE        ,User Read Error - . - ." "No_error_detected.,1"
bitfld.long 0x00 1. "   UWE      ,User Write Error - . - ." "No_error_detected.,1"
textline "                             "
bitfld.long 0x00 0. " UXE       ,User Execute Error - . - ." "No_error_detected,1"
wgroup.long 0x808++0x3
line.long 0x00 "EDMA_TPCC_MPFCR,Memory Protection Fault Command Register"
bitfld.long 0x00 0. " MPFCLR    ,Fault Clear register - . - ." "has_no_effect,1"
group.long 0x80C++0x3
line.long 0x00 "EDMA_TPCC_MPPAG,Memory Protection Page Attribute for Global registers"
bitfld.long 0x00 15. " AID5      ,Allowed ID 5 - . - ." "0,1"
bitfld.long 0x00 14. "                      AID4       ,Allowed ID 4 - . - ." "0,1"
bitfld.long 0x00 13. "                    AID3     ,Allowed ID 3 - . - ." "0,1"
textline "                             "
bitfld.long 0x00 12. " AID2      ,Allowed ID 2 - . - ." "0,1"
bitfld.long 0x00 11. "                      AID1       ,Allowed ID 1 - . - ." "0,1"
bitfld.long 0x00 10. "                    AID0     ,Allowed ID 0 - . - ." "0,1"
textline "                             "
bitfld.long 0x00 9. " EXT       ,External Allowed ID - . - ." "0,1"
bitfld.long 0x00 5. "                      SR         ,Supervisor Read permission - . - ." "0,1"
bitfld.long 0x00 4. "                    SW       ,Supervisor Write permission - . - ." "0,1"
textline "                             "
bitfld.long 0x00 3. " SX        ,Supervisor Execute permission - . - ." "0,1"
bitfld.long 0x00 2. "                      UR         ,User Read permission - . - ." "0,1"
bitfld.long 0x00 1. "                    UW       ,User Write permission - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0. " UX        ,User Execute permission - . - ." "0,1"
rgroup.long 0x1000++0x3
line.long 0x00 "EDMA_TPCC_ER,Event Register: If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from inactive (low) ..."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x1004++0x3
line.long 0x00 "EDMA_TPCC_ERH,Event Register (High Part): If .En bit is set and the .En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when the input event #n transitions from in..."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1008++0x3
line.long 0x00 "EDMA_TPCC_ECR,Event Clear Register: CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x100C++0x3
line.long 0x00 "EDMA_TPCC_ECRH,Event Clear Register (High Part): CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1010++0x3
line.long 0x00 "EDMA_TPCC_ESR,Event Set Register: CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1014++0x3
line.long 0x00 "EDMA_TPCC_ESRH,Event Set Register (High Part) CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
rgroup.long 0x1018++0x3
line.long 0x00 "EDMA_TPCC_CER,Chained Event Register: If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code is returned fr..."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x101C++0x3
line.long 0x00 "EDMA_TPCC_CERH,Chained Event Register (High Part): If .En bit is set (regardless of state of .En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. .En bit is set when a chaining completion code i..."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
rgroup.long 0x1020++0x3
line.long 0x00 "EDMA_TPCC_EER,Event Enable Register: Enables DMA transfers for.En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). Note that if a bit..."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x1024++0x3
line.long 0x00 "EDMA_TPCC_EERH,Event Enable Register (High Part): Enables DMA transfers for .En pending events. .En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register () or Event Set Register (). Note..."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1028++0x3
line.long 0x00 "EDMA_TPCC_EECR,Event Enable Clear Register CPU writes of '1' to the .En bit causes the .En bit to be cleared. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x102C++0x3
line.long 0x00 "EDMA_TPCC_EECRH,Event Enable Clear Register (High Part) CPU writes of '1' to the .En bit causes the EERH.En bit to be cleared. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1030++0x3
line.long 0x00 "EDMA_TPCC_EESR,Event Enable Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1034++0x3
line.long 0x00 "EDMA_TPCC_EESRH,Event Enable Set Register (High Part) CPU writes of '1' to the .En bit causes the .En bit to be set. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
rgroup.long 0x1038++0x3
line.long 0x00 "EDMA_TPCC_SER,Secondary Event Register The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored in Even..."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x103C++0x3
line.long 0x00 "EDMA_TPCC_SERH,Secondary Event Register (High Part) The secondary event register is used along with the Event Register () to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently s..."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
wgroup.long 0x1040++0x3
line.long 0x00 "EDMA_TPCC_SECR,Secondary Event Clear Register The secondary event clear register is used to clear the status of the registers. CPU write of '1' to the .En bit clears the register. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E31       ,Event #31" "0,1"
bitfld.long 0x00 30. "                      E30        ,Event #30" "0,1"
bitfld.long 0x00 29. "                    E29      ,Event #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " E28       ,Event #28" "0,1"
bitfld.long 0x00 27. "                      E27        ,Event #27" "0,1"
bitfld.long 0x00 26. "                    E26      ,Event #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " E25       ,Event #25" "0,1"
bitfld.long 0x00 24. "                      E24        ,Event #24" "0,1"
bitfld.long 0x00 23. "                    E23      ,Event #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " E22       ,Event #22" "0,1"
bitfld.long 0x00 21. "                      E21        ,Event #21" "0,1"
bitfld.long 0x00 20. "                    E20      ,Event #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " E19       ,Event #19" "0,1"
bitfld.long 0x00 18. "                      E18        ,Event #18" "0,1"
bitfld.long 0x00 17. "                    E17      ,Event #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " E16       ,Event #16" "0,1"
bitfld.long 0x00 15. "                      E15        ,Event #15" "0,1"
bitfld.long 0x00 14. "                    E14      ,Event #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " E13       ,Event #13" "0,1"
bitfld.long 0x00 12. "                      E12        ,Event #12" "0,1"
bitfld.long 0x00 11. "                    E11      ,Event #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " E10       ,Event #10" "0,1"
bitfld.long 0x00 9. "                      E9         ,Event #9" "0,1"
bitfld.long 0x00 8. "                    E8       ,Event #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1044++0x3
line.long 0x00 "EDMA_TPCC_SECRH,Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the registers. CPU write of '1' to the .En bit clears the register. CPU write of '0' has no effect."
bitfld.long 0x00 31. " E63       ,Event #63" "0,1"
bitfld.long 0x00 30. "                      E62        ,Event #62" "0,1"
bitfld.long 0x00 29. "                    E61      ,Event #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " E60       ,Event #60" "0,1"
bitfld.long 0x00 27. "                      E59        ,Event #59" "0,1"
bitfld.long 0x00 26. "                    E58      ,Event #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " E57       ,Event #57" "0,1"
bitfld.long 0x00 24. "                      E56        ,Event #56" "0,1"
bitfld.long 0x00 23. "                    E55      ,Event #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " E54       ,Event #54" "0,1"
bitfld.long 0x00 21. "                      E53        ,Event #53" "0,1"
bitfld.long 0x00 20. "                    E52      ,Event #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " E51       ,Event #51" "0,1"
bitfld.long 0x00 18. "                      E50        ,Event #50" "0,1"
bitfld.long 0x00 17. "                    E49      ,Event #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " E48       ,Event #48" "0,1"
bitfld.long 0x00 15. "                      E47        ,Event #47" "0,1"
bitfld.long 0x00 14. "                    E46      ,Event #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " E45       ,Event #45" "0,1"
bitfld.long 0x00 12. "                      E44        ,Event #44" "0,1"
bitfld.long 0x00 11. "                    E43      ,Event #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " E42       ,Event #42" "0,1"
bitfld.long 0x00 9. "                      E41        ,Event #41" "0,1"
bitfld.long 0x00 8. "                    E40      ,Event #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " E39       ,Event #39" "0,1"
bitfld.long 0x00 6. "                      E38        ,Event #38" "0,1"
bitfld.long 0x00 5. "                    E37      ,Event #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " E36       ,Event #36" "0,1"
bitfld.long 0x00 3. "                      E35        ,Event #35" "0,1"
bitfld.long 0x00 2. "                    E34      ,Event #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " E33       ,Event #33" "0,1"
bitfld.long 0x00 0. "                      E32        ,Event #32" "0,1"
rgroup.long 0x1050++0x3
line.long 0x00 "EDMA_TPCC_IER,Int Enable Register .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. . In = 0: .In is NOT enabled for interrupts. . In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x1054++0x3
line.long 0x00 "EDMA_TPCC_IERH,Int Enable Register (High Part) .In is not directly writeable. Interrupts can be enabled via writes to and can be disabled via writes to register. . In = 0: .In is NOT enabled for interrupts. . In = 1: .In IS enabled for interrupts."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x1058++0x3
line.long 0x00 "EDMA_TPCC_IECR,Int Enable Clear Register CPU writes of '1' to the .In bit causes the .In bit to be cleared. CPU writes of '0' has no effect.."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x105C++0x3
line.long 0x00 "EDMA_TPCC_IECRH,Int Enable Clear Register (High Part) CPU write of '1' to the .In bit causes the .In bit to be cleared. CPU write of '0' has no effect.."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x1060++0x3
line.long 0x00 "EDMA_TPCC_IESR,Int Enable Set Register CPU write of '1' to the .In bit causes the .In bit to be set. CPU write of '0' has no effect.."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x1064++0x3
line.long 0x00 "EDMA_TPCC_IESRH,Int Enable Set Register (High Part) CPU write of '1' to the .In bit causes the .In bit to be set. CPU write of '0' has no effect.."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
rgroup.long 0x1068++0x3
line.long 0x00 "EDMA_TPCC_IPR,Interrupt Pending Register .In bit is set when a interrupt completion code with TCC of N is detected. .In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
rgroup.long 0x106C++0x3
line.long 0x00 "EDMA_TPCC_IPRH,Interrupt Pending Register (High Part) .In bit is set when a interrupt completion code with TCC of N is detected. . In bit is cleared via software by writing a '1' to .In bit."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x1070++0x3
line.long 0x00 "EDMA_TPCC_ICR,Interrupt Clear Register CPU write of '1' to the .In bit causes the .In bit to be cleared. CPU write of '0' has no effect. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I31       ,Interrupt associated with TCC #31" "0,1"
bitfld.long 0x00 30. "                      I30        ,Interrupt associated with TCC #30" "0,1"
bitfld.long 0x00 29. "                    I29      ,Interrupt associated with TCC #29" "0,1"
textline "                             "
bitfld.long 0x00 28. " I28       ,Interrupt associated with TCC #28" "0,1"
bitfld.long 0x00 27. "                      I27        ,Interrupt associated with TCC #27" "0,1"
bitfld.long 0x00 26. "                    I26      ,Interrupt associated with TCC #26" "0,1"
textline "                             "
bitfld.long 0x00 25. " I25       ,Interrupt associated with TCC #25" "0,1"
bitfld.long 0x00 24. "                      I24        ,Interrupt associated with TCC #24" "0,1"
bitfld.long 0x00 23. "                    I23      ,Interrupt associated with TCC #23" "0,1"
textline "                             "
bitfld.long 0x00 22. " I22       ,Interrupt associated with TCC #22" "0,1"
bitfld.long 0x00 21. "                      I21        ,Interrupt associated with TCC #21" "0,1"
bitfld.long 0x00 20. "                    I20      ,Interrupt associated with TCC #20" "0,1"
textline "                             "
bitfld.long 0x00 19. " I19       ,Interrupt associated with TCC #19" "0,1"
bitfld.long 0x00 18. "                      I18        ,Interrupt associated with TCC #18" "0,1"
bitfld.long 0x00 17. "                    I17      ,Interrupt associated with TCC #17" "0,1"
textline "                             "
bitfld.long 0x00 16. " I16       ,Interrupt associated with TCC #16" "0,1"
bitfld.long 0x00 15. "                      I15        ,Interrupt associated with TCC #15" "0,1"
bitfld.long 0x00 14. "                    I14      ,Interrupt associated with TCC #14" "0,1"
textline "                             "
bitfld.long 0x00 13. " I13       ,Interrupt associated with TCC #13" "0,1"
bitfld.long 0x00 12. "                      I12        ,Interrupt associated with TCC #12" "0,1"
bitfld.long 0x00 11. "                    I11      ,Interrupt associated with TCC #11" "0,1"
textline "                             "
bitfld.long 0x00 10. " I10       ,Interrupt associated with TCC #10" "0,1"
bitfld.long 0x00 9. "                      I9         ,Interrupt associated with TCC #9" "0,1"
bitfld.long 0x00 8. "                    I8       ,Interrupt associated with TCC #8" "0,1"
textline "                             "
bitfld.long 0x00 7. " I7        ,Interrupt associated with TCC #7" "0,1"
bitfld.long 0x00 6. "                      I6         ,Interrupt associated with TCC #6" "0,1"
bitfld.long 0x00 5. "                    I5       ,Interrupt associated with TCC #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " I4        ,Interrupt associated with TCC #4" "0,1"
bitfld.long 0x00 3. "                      I3         ,Interrupt associated with TCC #3" "0,1"
bitfld.long 0x00 2. "                    I2       ,Interrupt associated with TCC #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " I1        ,Interrupt associated with TCC #1" "0,1"
bitfld.long 0x00 0. "                      I0         ,Interrupt associated with TCC #0" "0,1"
wgroup.long 0x1074++0x3
line.long 0x00 "EDMA_TPCC_ICRH,Interrupt Clear Register (High Part) CPU write of '1' to the .In bit causes the .In bit to be cleared. CPU write of '0' has no effect. All .In bits must be cleared before additional interrupts will be asserted by CC."
bitfld.long 0x00 31. " I63       ,Interrupt associated with TCC #63" "0,1"
bitfld.long 0x00 30. "                      I62        ,Interrupt associated with TCC #62" "0,1"
bitfld.long 0x00 29. "                    I61      ,Interrupt associated with TCC #61" "0,1"
textline "                             "
bitfld.long 0x00 28. " I60       ,Interrupt associated with TCC #60" "0,1"
bitfld.long 0x00 27. "                      I59        ,Interrupt associated with TCC #59" "0,1"
bitfld.long 0x00 26. "                    I58      ,Interrupt associated with TCC #58" "0,1"
textline "                             "
bitfld.long 0x00 25. " I57       ,Interrupt associated with TCC #57" "0,1"
bitfld.long 0x00 24. "                      I56        ,Interrupt associated with TCC #56" "0,1"
bitfld.long 0x00 23. "                    I55      ,Interrupt associated with TCC #55" "0,1"
textline "                             "
bitfld.long 0x00 22. " I54       ,Interrupt associated with TCC #54" "0,1"
bitfld.long 0x00 21. "                      I53        ,Interrupt associated with TCC #53" "0,1"
bitfld.long 0x00 20. "                    I52      ,Interrupt associated with TCC #52" "0,1"
textline "                             "
bitfld.long 0x00 19. " I51       ,Interrupt associated with TCC #51" "0,1"
bitfld.long 0x00 18. "                      I50        ,Interrupt associated with TCC #50" "0,1"
bitfld.long 0x00 17. "                    I49      ,Interrupt associated with TCC #49" "0,1"
textline "                             "
bitfld.long 0x00 16. " I48       ,Interrupt associated with TCC #48" "0,1"
bitfld.long 0x00 15. "                      I47        ,Interrupt associated with TCC #47" "0,1"
bitfld.long 0x00 14. "                    I46      ,Interrupt associated with TCC #46" "0,1"
textline "                             "
bitfld.long 0x00 13. " I45       ,Interrupt associated with TCC #45" "0,1"
bitfld.long 0x00 12. "                      I44        ,Interrupt associated with TCC #44" "0,1"
bitfld.long 0x00 11. "                    I43      ,Interrupt associated with TCC #43" "0,1"
textline "                             "
bitfld.long 0x00 10. " I42       ,Interrupt associated with TCC #42" "0,1"
bitfld.long 0x00 9. "                      I41        ,Interrupt associated with TCC #41" "0,1"
bitfld.long 0x00 8. "                    I40      ,Interrupt associated with TCC #40" "0,1"
textline "                             "
bitfld.long 0x00 7. " I39       ,Interrupt associated with TCC #39" "0,1"
bitfld.long 0x00 6. "                      I38        ,Interrupt associated with TCC #38" "0,1"
bitfld.long 0x00 5. "                    I37      ,Interrupt associated with TCC #37" "0,1"
textline "                             "
bitfld.long 0x00 4. " I36       ,Interrupt associated with TCC #36" "0,1"
bitfld.long 0x00 3. "                      I35        ,Interrupt associated with TCC #35" "0,1"
bitfld.long 0x00 2. "                    I34      ,Interrupt associated with TCC #34" "0,1"
textline "                             "
bitfld.long 0x00 1. " I33       ,Interrupt associated with TCC #33" "0,1"
bitfld.long 0x00 0. "                      I32        ,Interrupt associated with TCC #32" "0,1"
wgroup.long 0x1078++0x3
line.long 0x00 "EDMA_TPCC_IEVAL,Interrupt Eval Register"
bitfld.long 0x00 1. " SET       ,Interrupt Set: CPU write of '1' to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). CPU write of '0' has no effect." "0,1"
bitfld.long 0x00 0. "                      EVAL       ,Interrupt Evaluate: CPU write of '1' to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). CPU write of '0' has no effect." "0,1"
rgroup.long 0x1080++0x3
line.long 0x00 "EDMA_TPCC_QER,QDMA Event Register: If .En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. .En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. .En bit ..."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x1084++0x3
line.long 0x00 "EDMA_TPCC_QEER,QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. .En is not directly writeable. QDMA channels can be enabled via writes to and can be disabled via writes to register. .En = 1, The corresponding QDMA..."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1088++0x3
line.long 0x00 "EDMA_TPCC_QEECR,QDMA Event Enable Clear Register CPU write of '1' to the .En bit causes the .En bit to be cleared. CPU write of '0' has no effect.."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x108C++0x3
line.long 0x00 "EDMA_TPCC_QEESR,QDMA Event Enable Set Register CPU write of '1' to the .En bit causes the .En bit to be set. CPU write of '0' has no effect.."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
rgroup.long 0x1090++0x3
line.long 0x00 "EDMA_TPCC_QSER,QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register () to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is curr..."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
wgroup.long 0x1094++0x3
line.long 0x00 "EDMA_TPCC_QSECR,QDMA Secondary Event Clear Register The secondary event clear register is used to clear the status of the and register (note that this is slightly different than the operation, which does not clear the .En register). CPU write of '1' to..."
bitfld.long 0x00 7. " E7        ,Event #7" "0,1"
bitfld.long 0x00 6. "                      E6         ,Event #6" "0,1"
bitfld.long 0x00 5. "                    E5       ,Event #5" "0,1"
textline "                             "
bitfld.long 0x00 4. " E4        ,Event #4" "0,1"
bitfld.long 0x00 3. "                      E3         ,Event #3" "0,1"
bitfld.long 0x00 2. "                    E2       ,Event #2" "0,1"
textline "                             "
bitfld.long 0x00 1. " E1        ,Event #1" "0,1"
bitfld.long 0x00 0. "                      E0         ,Event #0" "0,1"
width 0x0B
tree.end
tree.end
tree.open "DSP_EDMA_TPTC0"
tree "DSP_EDMA_TPTC0"
base ad:0x1D05000
tree "DMA_Channel_0"
width 24.
rgroup.long 0x310++0x3
line.long 0x00 "EDMA_TPTCn_DFBIDXi_0,The destination FIFO B-index register"
hexmask.long.word 0x00 16.--31. 1. " DBIDX  ,Dest B-Idx for Dest FIFO Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACN..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX   ,Dest B-Idx for Dest FIFO Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays..."
rgroup.long 0x308++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTi_0,Destination FIFO count register"
hexmask.long.word 0x00 16.--31. 1. " BCNT   ,B-Count Remaining for Dst Register Set: Number of arrays to be transferred, where each array is ACNT in length. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT    ,A-Count Remaining for Dst Register Set: Number of bytes to be transferred in first dimension. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
rgroup.long 0x30C++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTi_0,The destination FIFO destination address register"
hexmask.long 0x00 0.--31. 1. " DADDR  ,Destination address for Dst FIFO Register Set: Initial value is copied from EDMA_TPTCn_PDST[31:0] DADDR. TC updates value according to destination addressing mode (EDMA_TPCC_OPT_n. SAM) and/or dest index value (BIDX. DBIDX) after each write co..."
rgroup.long 0x314++0x3
line.long 0x00 "EDMA_TPTCn_DFMPPRXYi_0,The destination FIFO memory protection proxy register"
bitfld.long 0x00 8. " PRIV   ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "  PRIVID  ,Privilege ID: DFMPPRXY0.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the valu..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x300++0x3
line.long 0x00 "EDMA_TPTCn_DFOPTi_0,Destination FIFO Set Options"
bitfld.long 0x00 22. " TCCHEN ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "           TCC ,Transfer Complete Code The 6-bit code is used to set the relevant bit in CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID   ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                     PRI     ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "  DAM ,Destination Address Mode within an array - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " SAM    ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x304++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCi_0,Destination FIFO source address register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDR  ,Source address is not applicable for Dst FIFO Register Set: Reads return 0x0."
tree.end
tree "DMA_Channel_1"
width 24.
rgroup.long 0x350++0x3
line.long 0x00 "EDMA_TPTCn_DFBIDXi_1,The destination FIFO B-index register"
hexmask.long.word 0x00 16.--31. 1. " DBIDX  ,Dest B-Idx for Dest FIFO Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACN..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX   ,Dest B-Idx for Dest FIFO Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays..."
rgroup.long 0x348++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTi_1,Destination FIFO count register"
hexmask.long.word 0x00 16.--31. 1. " BCNT   ,B-Count Remaining for Dst Register Set: Number of arrays to be transferred, where each array is ACNT in length. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT    ,A-Count Remaining for Dst Register Set: Number of bytes to be transferred in first dimension. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
rgroup.long 0x34C++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTi_1,The destination FIFO destination address register"
hexmask.long 0x00 0.--31. 1. " DADDR  ,Destination address for Dst FIFO Register Set: Initial value is copied from EDMA_TPTCn_PDST[31:0] DADDR. TC updates value according to destination addressing mode (EDMA_TPCC_OPT_n. SAM) and/or dest index value (BIDX. DBIDX) after each write co..."
rgroup.long 0x354++0x3
line.long 0x00 "EDMA_TPTCn_DFMPPRXYi_1,The destination FIFO memory protection proxy register"
bitfld.long 0x00 8. " PRIV   ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "  PRIVID  ,Privilege ID: DFMPPRXY0.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the valu..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x340++0x3
line.long 0x00 "EDMA_TPTCn_DFOPTi_1,Destination FIFO Set Options"
bitfld.long 0x00 22. " TCCHEN ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "           TCC ,Transfer Complete Code The 6-bit code is used to set the relevant bit in CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID   ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                     PRI     ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "  DAM ,Destination Address Mode within an array - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " SAM    ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x344++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCi_1,Destination FIFO source address register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDR  ,Source address is not applicable for Dst FIFO Register Set: Reads return 0x0."
tree.end
textline ""
width 22.
rgroup.long 0x0++0x3
line.long 0x00 "EDMA_TPTCn_PID,Peripheral ID Register"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
rgroup.long 0x4++0x3
line.long 0x00 "EDMA_TPTCn_TCCFG,TC Configuration Register"
bitfld.long 0x00 8.--9. " DREGDEPTH ,Destination Register FIFO Depth Parameterization" "0,1,2,3"
bitfld.long 0x00 4.--5. "                        BUSWIDTH  ,Bus Width Parameterization" "0,1,2,3"
bitfld.long 0x00 0.--2. "                       FIFOSIZE ,Fifo Size Parameterization" "0,1,2,3,4,5,6,7"
rgroup.long 0x100++0x3
line.long 0x00 "EDMA_TPTCn_TCSTAT,TC Status Register"
bitfld.long 0x00 11.--12. " DFSTRTPTR ,Dst FIFO Start Pointer Represents the offset to the head entry of Dst Register FIFO, in units of *entries*. Legal values = 0x0 to 0x3" "0,1,2,3"
bitfld.long 0x00 8. "                        ACTV      ,Channel Active Channel Active is a logical-OR of each of the *BUSY/ACTV signals. The ACTV bit must remain high through the life of a TR. - . - ." "Channel_is_idle,Channel_is_busy"
bitfld.long 0x00 4.--6. "         DSTACTV  ,Destination Active State Specifies the number of TRs that are resident in the Dst Register FIFO at a given instant. Legal values are constrained by the DSTREGDEPTH parameter." "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 2. " WSACTV    ,Write Status Active - . - ." "0,1"
bitfld.long 0x00 1. "                        SRCACTV   ,Source Active State - . - ." "0,1"
bitfld.long 0x00 0. "                       PROGBUSY ,Program Register Set Busy - . - ." "0,1"
rgroup.long 0x104++0x3
line.long 0x00 "EDMA_TPTCn_INTSTAT,Interrupt Status Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Status - . - ." "Condition_not_detected.,1"
bitfld.long 0x00 0. "  PROGEMPTY ,Program Set Empty Event Status - . - ." "Condition_not_detected,1"
group.long 0x108++0x3
line.long 0x00 "EDMA_TPTCn_INTEN,Interrupt Enable Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Enable - . - ." "0,1"
bitfld.long 0x00 0. "                        PROGEMPTY ,Program Set Empty Event Enable - . - ." "0,1"
wgroup.long 0x10C++0x3
line.long 0x00 "EDMA_TPTCn_INTCLR,Interrupt Clear Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Clear - . - ." "have_no_effect.,Clear"
bitfld.long 0x00 0. "          PROGEMPTY ,Program Set Empty Event Clear - . - ." "have_no_effect.,Clear"
wgroup.long 0x110++0x3
line.long 0x00 "EDMA_TPTCn_INTCMD,Interrupt Command Register"
bitfld.long 0x00 1. " SET       ,Set TPTC interrupt - . - ." "have_no_affect.,1"
bitfld.long 0x00 0. "          EVAL      ,Evaluate state of TPTC interrupt - . - ." "have_no_affect.,1"
rgroup.long 0x120++0x3
line.long 0x00 "EDMA_TPTCn_ERRSTAT,Error Status Register"
bitfld.long 0x00 3. " MMRAERR   ,MR Address Error - . - ." "Condition_not_detected,1"
bitfld.long 0x00 2. "   TRERR     ,TR Error: TR detected that violates FIFO Mode transfer (SAM or DAM is '1') alignment rules or has ACNT or BCNT == 0. No additional error information is recorded." "0,1"
bitfld.long 0x00 0. "                       BUSERR   ,Bus Error Event - . - ." "Condition_not_detected.,1"
group.long 0x124++0x3
line.long 0x00 "EDMA_TPTCn_ERREN,Error Enable Register"
bitfld.long 0x00 3. " MMRAERR   ,Interrupt enable forEDMA_TPTCn_ERRSTAT[3] MMRAERR - . - ." "BUSERR_is_disabled,1"
bitfld.long 0x00 2. "       TRERR     ,Interrupt enable forEDMA_TPTCn_ERRSTAT[2] TRERR - . - ." "BUSERR_is_disabled.,1"
bitfld.long 0x00 0. "     BUSERR   ,Interrupt enable forEDMA_TPTCn_ERRSTAT[0] BUSERR - . - ." "BUSERR_is_disabled.,1"
wgroup.long 0x128++0x3
line.long 0x00 "EDMA_TPTCn_ERRCLR,Error Clear Register"
bitfld.long 0x00 3. " MMRAERR   ,Interrupt clear forEDMA_TPTCn_ERRSTAT[3] MMRAERR - . - ." "have_no_effect,1"
bitfld.long 0x00 2. "           TRERR     ,Interrupt clear forEDMA_TPTCn_ERRSTAT[2] TRERR - . - ." "have_no_effect,1"
bitfld.long 0x00 0. "          BUSERR   ,Interrupt clear forEDMA_TPTCn_ERRSTAT[0] BUSERR - . - ." "have_no_effect,1"
rgroup.long 0x12C++0x3
line.long 0x00 "EDMA_TPTCn_ERRDET,Error Details Register"
bitfld.long 0x00 17. " TCCHEN    ,Contains theEDMA_TPCC_OPT_n[17] TCCHEN value programmed by the user for the Read or Write transaction that resulted in an error." "0,1"
bitfld.long 0x00 16. "                        TCINTEN   ,Contains theEDMA_TPCC_OPT_n[16] TCINTEN value programmed by the user for the Read or Write transaction that resulted in an error." "0,1"
bitfld.long 0x00 8.--13. "                       TCC      ,Transfer Complete Code: Contains theEDMA_TPCC_OPT_n[13:8] TCC value programmed by the user for the Read or Write transaction that resulted in an error." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0.--3. " STAT      ,Transaction Status: Stores the non-zero status/error code that was detected on the read status or write status bus. MS-bit effectively serves as the read vs. write error code. If read status and write status are returned on the same cycle, ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
wgroup.long 0x130++0x3
line.long 0x00 "EDMA_TPTCn_ERRCMD,Error Command Register"
bitfld.long 0x00 1. " SET       ,Set TPTC error interrupt - . - ." "have_no_affect,1"
bitfld.long 0x00 0. "           EVAL      ,Evaluate state of TPTC error interrupt Write of '1' - . - ." "have_no_affect,1"
group.long 0x140++0x3
line.long 0x00 "EDMA_TPTCn_RDRATE,Read Rate Register"
bitfld.long 0x00 0.--2. " RDRATE    ,Read Rate Control: Controls the number of cycles between read commands. This is a global setting that applies to all TRs for this TC." "0,1,2,3,4,5,6,7"
group.long 0x200++0x3
line.long 0x00 "EDMA_TPTCn_POPT,Program Set Options"
bitfld.long 0x00 22. " TCCHEN    ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                        TCINTEN   ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "                       TCC      ,Transfer Complete Code: The 6-bit code is used to set the relevant bit in CER orEDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 8.--10. " FWID      ,FIFO width control: Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                        PRI       ,Transfer Priority: 0x0: Priority 0 - Highest priority 0x1: Priority 1 ... 0x7: Priority 7 - Lowest priority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 1. "                       DAM      ,Destination Address Mode within an array - . - ." "0,1"
textline "                               "
bitfld.long 0x00 0. " SAM       ,Source Address Mode within an array - . - ." "0,1"
group.long 0x204++0x3
line.long 0x00 "EDMA_TPTCn_PSRC,Program Set Source Address"
hexmask.long 0x00 0.--31. 1. " SADDR     ,Source address for Program Register Set"
group.long 0x208++0x3
line.long 0x00 "EDMA_TPTCn_PCNT,Program Set Count"
hexmask.long.word 0x00 16.--31. 1. " BCNT      ,B-Dimension count. Number of arrays to be transferred, where each array is ACNT in length."
hexmask.long.word 0x00 0.--15. 1. "                     ACNT      ,A-Dimension count. Number of bytes to be transferred in first dimension."
group.long 0x20C++0x3
line.long 0x00 "EDMA_TPTCn_PDST,Program Set Destination Address"
hexmask.long 0x00 0.--31. 1. " DADDR     ,Destination address for Program Register Set"
group.long 0x210++0x3
line.long 0x00 "EDMA_TPTCn_PBIDX,Program Set B-Dim Idx"
hexmask.long.word 0x00 16.--31. 1. " DBIDX     ,Dest B-Idx for Program Register Set: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACNT elements). DBIDX is always used, ..."
hexmask.long.word 0x00 0.--15. 1. "                     SBIDX     ,Source B-Idx for Program Register Set: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays of ACNT elements). SBIDX is a..."
rgroup.long 0x214++0x3
line.long 0x00 "EDMA_TPTCn_PMPPRXY,Program Set Memory Protect Proxy"
bitfld.long 0x00 8. " PRIV      ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "     PRIVID    ,Privilege ID: EDMA_TPTCn_PMPPRXY.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x240++0x3
line.long 0x00 "EDMA_TPTCn_SAOPT,Source Actve Set Options"
bitfld.long 0x00 22. " TCCHEN    ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                        TCINTEN   ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "                       TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 8.--10. " FWID      ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                        PRI       ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "              DAM      ,Destination Address Mode within an array - . - ." "0,1"
textline "                               "
bitfld.long 0x00 0. " SAM       ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x244++0x3
line.long 0x00 "EDMA_TPTCn_SASRC,Source Active Set Source Address"
hexmask.long 0x00 0.--31. 1. " SADDR     ,Source address for Source Active Register Set: Initial value is copied from EDMA_TPTCn_PSRC.SADDR. TC updates value according to source addressing mode (EDMA_TPCC_OPT_n.SAM) and/or source index value (BIDX.SBIDX) after each read command is ..."
rgroup.long 0x248++0x3
line.long 0x00 "EDMA_TPTCn_SACNT,Source Active Set Count"
hexmask.long.word 0x00 16.--31. 1. " BCNT      ,B-Dimension count: Number of arrays to be transferred, where each array is ACNT in length. Count Remaining for Source Active Register Set. Represents the amount of data remaining to be read. Initial value is copied from EDMA_TPTCn_PCNT. TC ..."
hexmask.long.word 0x00 0.--15. 1. "                     ACNT      ,A-Dimension count: Number of bytes to be transferred in first dimension. Count Remaining for Source Active Register Set. Represents the amount of data remaining to be read. Initial value is copied from EDMA_TPTCn_PCNT. T..."
rgroup.long 0x24C++0x3
line.long 0x00 "EDMA_TPTCn_SADST,Source Active Destination Address Register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " DADDR     ,Destination address is not applicable for Source Active Register Set. Reads return 0x0"
rgroup.long 0x250++0x3
line.long 0x00 "EDMA_TPTCn_SABIDX,Source Active Set B-Dim Idx"
hexmask.long.word 0x00 16.--31. 1. " DBIDX     ,Destination B-Idx for Source Active Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT..."
hexmask.long.word 0x00 0.--15. 1. "                     SBIDX     ,Source B-Idx for Source Active Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are ..."
rgroup.long 0x254++0x3
line.long 0x00 "EDMA_TPTCn_SAMPPRXY,Source Active Set Mem Protect Proxy"
bitfld.long 0x00 8. " PRIV      ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "     PRIVID    ,Privilege ID SAMPPRXY.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the v..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x258++0x3
line.long 0x00 "EDMA_TPTCn_SACNTRLD,Source Active Set Count Reload"
hexmask.long.word 0x00 0.--15. 1. " ACNTRLD   ,A-Cnt Reload value for Source Active Register set. Value copied from EDMA_TPTCn_PCNT[15:0] ACNT: Represents the originally programmed value of ACNT. The Reload value is used to reinitialize ACNT after each array is serviced (i.e., ACNT decr..."
rgroup.long 0x25C++0x3
line.long 0x00 "EDMA_TPTCn_SASRCBREF,Source Active Set Source Address A-Reference"
hexmask.long 0x00 0.--31. 1. " SADDRBREF ,Source address reference for Source Active Register Set: Represents the starting address for the array currently being read. The next array's starting address is calculated as the 'reference address' plus the 'source b-idx' value."
rgroup.long 0x260++0x3
line.long 0x00 "EDMA_TPTCn_SADSTBREF,Source Active Destination Address B-Reference Register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " DADDRBREF ,Destination address reference is not applicable for Src Active Register Set. Reads return 0x0."
rgroup.long 0x280++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTRLD,Destination FIFO Set Count Reload"
hexmask.long.word 0x00 0.--15. 1. " ACNTRLD   ,A-Cnt Reload value for Destination FIFO Register set. Value copied fromEDMA_TPTCn_PCNT[15:0] ACNT: Represents the originally programmed value of ACNT. The Reload value is used to reinitialize ACNT after each array is serviced (i.e., ACNT de..."
rgroup.long 0x284++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCBREF,Destination FIFO Set Destination Address B Reference Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDRBREF ,Source address reference is not applicable for Dst FIFO Register Set. Reads return 0x0."
rgroup.long 0x288++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTBREF,Destination FIFO Set Destination Address A-Reference"
hexmask.long 0x00 0.--31. 1. " DADDRBREF ,Destination address reference for Dst FIFO Register Set: Represents the starting address for the array currently being written. The next array's starting address is calculated as the 'reference address' plus the 'dest bidx' value."
width 0x0B
tree.end
tree "DSP_EDMA_TPTC1"
base ad:0x1D06000
tree "DMA_Channel_0"
width 24.
rgroup.long 0x310++0x3
line.long 0x00 "EDMA_TPTCn_DFBIDXi_0,The destination FIFO B-index register"
hexmask.long.word 0x00 16.--31. 1. " DBIDX  ,Dest B-Idx for Dest FIFO Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACN..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX   ,Dest B-Idx for Dest FIFO Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays..."
rgroup.long 0x308++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTi_0,Destination FIFO count register"
hexmask.long.word 0x00 16.--31. 1. " BCNT   ,B-Count Remaining for Dst Register Set: Number of arrays to be transferred, where each array is ACNT in length. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT    ,A-Count Remaining for Dst Register Set: Number of bytes to be transferred in first dimension. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
rgroup.long 0x30C++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTi_0,The destination FIFO destination address register"
hexmask.long 0x00 0.--31. 1. " DADDR  ,Destination address for Dst FIFO Register Set: Initial value is copied from EDMA_TPTCn_PDST[31:0] DADDR. TC updates value according to destination addressing mode (EDMA_TPCC_OPT_n. SAM) and/or dest index value (BIDX. DBIDX) after each write co..."
rgroup.long 0x314++0x3
line.long 0x00 "EDMA_TPTCn_DFMPPRXYi_0,The destination FIFO memory protection proxy register"
bitfld.long 0x00 8. " PRIV   ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "  PRIVID  ,Privilege ID: DFMPPRXY0.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the valu..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x300++0x3
line.long 0x00 "EDMA_TPTCn_DFOPTi_0,Destination FIFO Set Options"
bitfld.long 0x00 22. " TCCHEN ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "           TCC ,Transfer Complete Code The 6-bit code is used to set the relevant bit in CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID   ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                     PRI     ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "  DAM ,Destination Address Mode within an array - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " SAM    ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x304++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCi_0,Destination FIFO source address register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDR  ,Source address is not applicable for Dst FIFO Register Set: Reads return 0x0."
tree.end
tree "DMA_Channel_1"
width 24.
rgroup.long 0x350++0x3
line.long 0x00 "EDMA_TPTCn_DFBIDXi_1,The destination FIFO B-index register"
hexmask.long.word 0x00 16.--31. 1. " DBIDX  ,Dest B-Idx for Dest FIFO Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACN..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX   ,Dest B-Idx for Dest FIFO Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays..."
rgroup.long 0x348++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTi_1,Destination FIFO count register"
hexmask.long.word 0x00 16.--31. 1. " BCNT   ,B-Count Remaining for Dst Register Set: Number of arrays to be transferred, where each array is ACNT in length. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT    ,A-Count Remaining for Dst Register Set: Number of bytes to be transferred in first dimension. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
rgroup.long 0x34C++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTi_1,The destination FIFO destination address register"
hexmask.long 0x00 0.--31. 1. " DADDR  ,Destination address for Dst FIFO Register Set: Initial value is copied from EDMA_TPTCn_PDST[31:0] DADDR. TC updates value according to destination addressing mode (EDMA_TPCC_OPT_n. SAM) and/or dest index value (BIDX. DBIDX) after each write co..."
rgroup.long 0x354++0x3
line.long 0x00 "EDMA_TPTCn_DFMPPRXYi_1,The destination FIFO memory protection proxy register"
bitfld.long 0x00 8. " PRIV   ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "  PRIVID  ,Privilege ID: DFMPPRXY0.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the valu..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x340++0x3
line.long 0x00 "EDMA_TPTCn_DFOPTi_1,Destination FIFO Set Options"
bitfld.long 0x00 22. " TCCHEN ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "           TCC ,Transfer Complete Code The 6-bit code is used to set the relevant bit in CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID   ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                     PRI     ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "  DAM ,Destination Address Mode within an array - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " SAM    ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x344++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCi_1,Destination FIFO source address register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDR  ,Source address is not applicable for Dst FIFO Register Set: Reads return 0x0."
tree.end
textline ""
width 22.
rgroup.long 0x0++0x3
line.long 0x00 "EDMA_TPTCn_PID,Peripheral ID Register"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
rgroup.long 0x4++0x3
line.long 0x00 "EDMA_TPTCn_TCCFG,TC Configuration Register"
bitfld.long 0x00 8.--9. " DREGDEPTH ,Destination Register FIFO Depth Parameterization" "0,1,2,3"
bitfld.long 0x00 4.--5. "                        BUSWIDTH  ,Bus Width Parameterization" "0,1,2,3"
bitfld.long 0x00 0.--2. "                       FIFOSIZE ,Fifo Size Parameterization" "0,1,2,3,4,5,6,7"
rgroup.long 0x100++0x3
line.long 0x00 "EDMA_TPTCn_TCSTAT,TC Status Register"
bitfld.long 0x00 11.--12. " DFSTRTPTR ,Dst FIFO Start Pointer Represents the offset to the head entry of Dst Register FIFO, in units of *entries*. Legal values = 0x0 to 0x3" "0,1,2,3"
bitfld.long 0x00 8. "                        ACTV      ,Channel Active Channel Active is a logical-OR of each of the *BUSY/ACTV signals. The ACTV bit must remain high through the life of a TR. - . - ." "Channel_is_idle,Channel_is_busy"
bitfld.long 0x00 4.--6. "         DSTACTV  ,Destination Active State Specifies the number of TRs that are resident in the Dst Register FIFO at a given instant. Legal values are constrained by the DSTREGDEPTH parameter." "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 2. " WSACTV    ,Write Status Active - . - ." "0,1"
bitfld.long 0x00 1. "                        SRCACTV   ,Source Active State - . - ." "0,1"
bitfld.long 0x00 0. "                       PROGBUSY ,Program Register Set Busy - . - ." "0,1"
rgroup.long 0x104++0x3
line.long 0x00 "EDMA_TPTCn_INTSTAT,Interrupt Status Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Status - . - ." "Condition_not_detected.,1"
bitfld.long 0x00 0. "  PROGEMPTY ,Program Set Empty Event Status - . - ." "Condition_not_detected,1"
group.long 0x108++0x3
line.long 0x00 "EDMA_TPTCn_INTEN,Interrupt Enable Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Enable - . - ." "0,1"
bitfld.long 0x00 0. "                        PROGEMPTY ,Program Set Empty Event Enable - . - ." "0,1"
wgroup.long 0x10C++0x3
line.long 0x00 "EDMA_TPTCn_INTCLR,Interrupt Clear Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Clear - . - ." "have_no_effect.,Clear"
bitfld.long 0x00 0. "          PROGEMPTY ,Program Set Empty Event Clear - . - ." "have_no_effect.,Clear"
wgroup.long 0x110++0x3
line.long 0x00 "EDMA_TPTCn_INTCMD,Interrupt Command Register"
bitfld.long 0x00 1. " SET       ,Set TPTC interrupt - . - ." "have_no_affect.,1"
bitfld.long 0x00 0. "          EVAL      ,Evaluate state of TPTC interrupt - . - ." "have_no_affect.,1"
rgroup.long 0x120++0x3
line.long 0x00 "EDMA_TPTCn_ERRSTAT,Error Status Register"
bitfld.long 0x00 3. " MMRAERR   ,MR Address Error - . - ." "Condition_not_detected,1"
bitfld.long 0x00 2. "   TRERR     ,TR Error: TR detected that violates FIFO Mode transfer (SAM or DAM is '1') alignment rules or has ACNT or BCNT == 0. No additional error information is recorded." "0,1"
bitfld.long 0x00 0. "                       BUSERR   ,Bus Error Event - . - ." "Condition_not_detected.,1"
group.long 0x124++0x3
line.long 0x00 "EDMA_TPTCn_ERREN,Error Enable Register"
bitfld.long 0x00 3. " MMRAERR   ,Interrupt enable forEDMA_TPTCn_ERRSTAT[3] MMRAERR - . - ." "BUSERR_is_disabled,1"
bitfld.long 0x00 2. "       TRERR     ,Interrupt enable forEDMA_TPTCn_ERRSTAT[2] TRERR - . - ." "BUSERR_is_disabled.,1"
bitfld.long 0x00 0. "     BUSERR   ,Interrupt enable forEDMA_TPTCn_ERRSTAT[0] BUSERR - . - ." "BUSERR_is_disabled.,1"
wgroup.long 0x128++0x3
line.long 0x00 "EDMA_TPTCn_ERRCLR,Error Clear Register"
bitfld.long 0x00 3. " MMRAERR   ,Interrupt clear forEDMA_TPTCn_ERRSTAT[3] MMRAERR - . - ." "have_no_effect,1"
bitfld.long 0x00 2. "           TRERR     ,Interrupt clear forEDMA_TPTCn_ERRSTAT[2] TRERR - . - ." "have_no_effect,1"
bitfld.long 0x00 0. "          BUSERR   ,Interrupt clear forEDMA_TPTCn_ERRSTAT[0] BUSERR - . - ." "have_no_effect,1"
rgroup.long 0x12C++0x3
line.long 0x00 "EDMA_TPTCn_ERRDET,Error Details Register"
bitfld.long 0x00 17. " TCCHEN    ,Contains theEDMA_TPCC_OPT_n[17] TCCHEN value programmed by the user for the Read or Write transaction that resulted in an error." "0,1"
bitfld.long 0x00 16. "                        TCINTEN   ,Contains theEDMA_TPCC_OPT_n[16] TCINTEN value programmed by the user for the Read or Write transaction that resulted in an error." "0,1"
bitfld.long 0x00 8.--13. "                       TCC      ,Transfer Complete Code: Contains theEDMA_TPCC_OPT_n[13:8] TCC value programmed by the user for the Read or Write transaction that resulted in an error." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0.--3. " STAT      ,Transaction Status: Stores the non-zero status/error code that was detected on the read status or write status bus. MS-bit effectively serves as the read vs. write error code. If read status and write status are returned on the same cycle, ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
wgroup.long 0x130++0x3
line.long 0x00 "EDMA_TPTCn_ERRCMD,Error Command Register"
bitfld.long 0x00 1. " SET       ,Set TPTC error interrupt - . - ." "have_no_affect,1"
bitfld.long 0x00 0. "           EVAL      ,Evaluate state of TPTC error interrupt Write of '1' - . - ." "have_no_affect,1"
group.long 0x140++0x3
line.long 0x00 "EDMA_TPTCn_RDRATE,Read Rate Register"
bitfld.long 0x00 0.--2. " RDRATE    ,Read Rate Control: Controls the number of cycles between read commands. This is a global setting that applies to all TRs for this TC." "0,1,2,3,4,5,6,7"
group.long 0x200++0x3
line.long 0x00 "EDMA_TPTCn_POPT,Program Set Options"
bitfld.long 0x00 22. " TCCHEN    ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                        TCINTEN   ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "                       TCC      ,Transfer Complete Code: The 6-bit code is used to set the relevant bit in CER orEDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 8.--10. " FWID      ,FIFO width control: Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                        PRI       ,Transfer Priority: 0x0: Priority 0 - Highest priority 0x1: Priority 1 ... 0x7: Priority 7 - Lowest priority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 1. "                       DAM      ,Destination Address Mode within an array - . - ." "0,1"
textline "                               "
bitfld.long 0x00 0. " SAM       ,Source Address Mode within an array - . - ." "0,1"
group.long 0x204++0x3
line.long 0x00 "EDMA_TPTCn_PSRC,Program Set Source Address"
hexmask.long 0x00 0.--31. 1. " SADDR     ,Source address for Program Register Set"
group.long 0x208++0x3
line.long 0x00 "EDMA_TPTCn_PCNT,Program Set Count"
hexmask.long.word 0x00 16.--31. 1. " BCNT      ,B-Dimension count. Number of arrays to be transferred, where each array is ACNT in length."
hexmask.long.word 0x00 0.--15. 1. "                     ACNT      ,A-Dimension count. Number of bytes to be transferred in first dimension."
group.long 0x20C++0x3
line.long 0x00 "EDMA_TPTCn_PDST,Program Set Destination Address"
hexmask.long 0x00 0.--31. 1. " DADDR     ,Destination address for Program Register Set"
group.long 0x210++0x3
line.long 0x00 "EDMA_TPTCn_PBIDX,Program Set B-Dim Idx"
hexmask.long.word 0x00 16.--31. 1. " DBIDX     ,Dest B-Idx for Program Register Set: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACNT elements). DBIDX is always used, ..."
hexmask.long.word 0x00 0.--15. 1. "                     SBIDX     ,Source B-Idx for Program Register Set: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays of ACNT elements). SBIDX is a..."
rgroup.long 0x214++0x3
line.long 0x00 "EDMA_TPTCn_PMPPRXY,Program Set Memory Protect Proxy"
bitfld.long 0x00 8. " PRIV      ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "     PRIVID    ,Privilege ID: EDMA_TPTCn_PMPPRXY.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x240++0x3
line.long 0x00 "EDMA_TPTCn_SAOPT,Source Actve Set Options"
bitfld.long 0x00 22. " TCCHEN    ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                        TCINTEN   ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "                       TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 8.--10. " FWID      ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                        PRI       ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "              DAM      ,Destination Address Mode within an array - . - ." "0,1"
textline "                               "
bitfld.long 0x00 0. " SAM       ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x244++0x3
line.long 0x00 "EDMA_TPTCn_SASRC,Source Active Set Source Address"
hexmask.long 0x00 0.--31. 1. " SADDR     ,Source address for Source Active Register Set: Initial value is copied from EDMA_TPTCn_PSRC.SADDR. TC updates value according to source addressing mode (EDMA_TPCC_OPT_n.SAM) and/or source index value (BIDX.SBIDX) after each read command is ..."
rgroup.long 0x248++0x3
line.long 0x00 "EDMA_TPTCn_SACNT,Source Active Set Count"
hexmask.long.word 0x00 16.--31. 1. " BCNT      ,B-Dimension count: Number of arrays to be transferred, where each array is ACNT in length. Count Remaining for Source Active Register Set. Represents the amount of data remaining to be read. Initial value is copied from EDMA_TPTCn_PCNT. TC ..."
hexmask.long.word 0x00 0.--15. 1. "                     ACNT      ,A-Dimension count: Number of bytes to be transferred in first dimension. Count Remaining for Source Active Register Set. Represents the amount of data remaining to be read. Initial value is copied from EDMA_TPTCn_PCNT. T..."
rgroup.long 0x24C++0x3
line.long 0x00 "EDMA_TPTCn_SADST,Source Active Destination Address Register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " DADDR     ,Destination address is not applicable for Source Active Register Set. Reads return 0x0"
rgroup.long 0x250++0x3
line.long 0x00 "EDMA_TPTCn_SABIDX,Source Active Set B-Dim Idx"
hexmask.long.word 0x00 16.--31. 1. " DBIDX     ,Destination B-Idx for Source Active Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT..."
hexmask.long.word 0x00 0.--15. 1. "                     SBIDX     ,Source B-Idx for Source Active Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are ..."
rgroup.long 0x254++0x3
line.long 0x00 "EDMA_TPTCn_SAMPPRXY,Source Active Set Mem Protect Proxy"
bitfld.long 0x00 8. " PRIV      ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "     PRIVID    ,Privilege ID SAMPPRXY.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the v..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x258++0x3
line.long 0x00 "EDMA_TPTCn_SACNTRLD,Source Active Set Count Reload"
hexmask.long.word 0x00 0.--15. 1. " ACNTRLD   ,A-Cnt Reload value for Source Active Register set. Value copied from EDMA_TPTCn_PCNT[15:0] ACNT: Represents the originally programmed value of ACNT. The Reload value is used to reinitialize ACNT after each array is serviced (i.e., ACNT decr..."
rgroup.long 0x25C++0x3
line.long 0x00 "EDMA_TPTCn_SASRCBREF,Source Active Set Source Address A-Reference"
hexmask.long 0x00 0.--31. 1. " SADDRBREF ,Source address reference for Source Active Register Set: Represents the starting address for the array currently being read. The next array's starting address is calculated as the 'reference address' plus the 'source b-idx' value."
rgroup.long 0x260++0x3
line.long 0x00 "EDMA_TPTCn_SADSTBREF,Source Active Destination Address B-Reference Register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " DADDRBREF ,Destination address reference is not applicable for Src Active Register Set. Reads return 0x0."
rgroup.long 0x280++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTRLD,Destination FIFO Set Count Reload"
hexmask.long.word 0x00 0.--15. 1. " ACNTRLD   ,A-Cnt Reload value for Destination FIFO Register set. Value copied fromEDMA_TPTCn_PCNT[15:0] ACNT: Represents the originally programmed value of ACNT. The Reload value is used to reinitialize ACNT after each array is serviced (i.e., ACNT de..."
rgroup.long 0x284++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCBREF,Destination FIFO Set Destination Address B Reference Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDRBREF ,Source address reference is not applicable for Dst FIFO Register Set. Reads return 0x0."
rgroup.long 0x288++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTBREF,Destination FIFO Set Destination Address A-Reference"
hexmask.long 0x00 0.--31. 1. " DADDRBREF ,Destination address reference for Dst FIFO Register Set: Represents the starting address for the array currently being written. The next array's starting address is calculated as the 'reference address' plus the 'dest bidx' value."
width 0x0B
tree.end
tree "DSP1_EDMA_TPTC0"
base ad:0x40D05000
tree "DMA_Channel_0"
width 24.
rgroup.long 0x310++0x3
line.long 0x00 "EDMA_TPTCn_DFBIDXi_0,The destination FIFO B-index register"
hexmask.long.word 0x00 16.--31. 1. " DBIDX  ,Dest B-Idx for Dest FIFO Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACN..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX   ,Dest B-Idx for Dest FIFO Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays..."
rgroup.long 0x308++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTi_0,Destination FIFO count register"
hexmask.long.word 0x00 16.--31. 1. " BCNT   ,B-Count Remaining for Dst Register Set: Number of arrays to be transferred, where each array is ACNT in length. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT    ,A-Count Remaining for Dst Register Set: Number of bytes to be transferred in first dimension. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
rgroup.long 0x30C++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTi_0,The destination FIFO destination address register"
hexmask.long 0x00 0.--31. 1. " DADDR  ,Destination address for Dst FIFO Register Set: Initial value is copied from EDMA_TPTCn_PDST[31:0] DADDR. TC updates value according to destination addressing mode (EDMA_TPCC_OPT_n. SAM) and/or dest index value (BIDX. DBIDX) after each write co..."
rgroup.long 0x314++0x3
line.long 0x00 "EDMA_TPTCn_DFMPPRXYi_0,The destination FIFO memory protection proxy register"
bitfld.long 0x00 8. " PRIV   ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "  PRIVID  ,Privilege ID: DFMPPRXY0.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the valu..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x300++0x3
line.long 0x00 "EDMA_TPTCn_DFOPTi_0,Destination FIFO Set Options"
bitfld.long 0x00 22. " TCCHEN ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "           TCC ,Transfer Complete Code The 6-bit code is used to set the relevant bit in CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID   ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                     PRI     ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "  DAM ,Destination Address Mode within an array - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " SAM    ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x304++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCi_0,Destination FIFO source address register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDR  ,Source address is not applicable for Dst FIFO Register Set: Reads return 0x0."
tree.end
tree "DMA_Channel_1"
width 24.
rgroup.long 0x350++0x3
line.long 0x00 "EDMA_TPTCn_DFBIDXi_1,The destination FIFO B-index register"
hexmask.long.word 0x00 16.--31. 1. " DBIDX  ,Dest B-Idx for Dest FIFO Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACN..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX   ,Dest B-Idx for Dest FIFO Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays..."
rgroup.long 0x348++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTi_1,Destination FIFO count register"
hexmask.long.word 0x00 16.--31. 1. " BCNT   ,B-Count Remaining for Dst Register Set: Number of arrays to be transferred, where each array is ACNT in length. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT    ,A-Count Remaining for Dst Register Set: Number of bytes to be transferred in first dimension. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
rgroup.long 0x34C++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTi_1,The destination FIFO destination address register"
hexmask.long 0x00 0.--31. 1. " DADDR  ,Destination address for Dst FIFO Register Set: Initial value is copied from EDMA_TPTCn_PDST[31:0] DADDR. TC updates value according to destination addressing mode (EDMA_TPCC_OPT_n. SAM) and/or dest index value (BIDX. DBIDX) after each write co..."
rgroup.long 0x354++0x3
line.long 0x00 "EDMA_TPTCn_DFMPPRXYi_1,The destination FIFO memory protection proxy register"
bitfld.long 0x00 8. " PRIV   ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "  PRIVID  ,Privilege ID: DFMPPRXY0.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the valu..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x340++0x3
line.long 0x00 "EDMA_TPTCn_DFOPTi_1,Destination FIFO Set Options"
bitfld.long 0x00 22. " TCCHEN ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "           TCC ,Transfer Complete Code The 6-bit code is used to set the relevant bit in CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID   ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                     PRI     ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "  DAM ,Destination Address Mode within an array - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " SAM    ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x344++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCi_1,Destination FIFO source address register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDR  ,Source address is not applicable for Dst FIFO Register Set: Reads return 0x0."
tree.end
textline ""
width 22.
rgroup.long 0x0++0x3
line.long 0x00 "EDMA_TPTCn_PID,Peripheral ID Register"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
rgroup.long 0x4++0x3
line.long 0x00 "EDMA_TPTCn_TCCFG,TC Configuration Register"
bitfld.long 0x00 8.--9. " DREGDEPTH ,Destination Register FIFO Depth Parameterization" "0,1,2,3"
bitfld.long 0x00 4.--5. "                        BUSWIDTH  ,Bus Width Parameterization" "0,1,2,3"
bitfld.long 0x00 0.--2. "                       FIFOSIZE ,Fifo Size Parameterization" "0,1,2,3,4,5,6,7"
rgroup.long 0x100++0x3
line.long 0x00 "EDMA_TPTCn_TCSTAT,TC Status Register"
bitfld.long 0x00 11.--12. " DFSTRTPTR ,Dst FIFO Start Pointer Represents the offset to the head entry of Dst Register FIFO, in units of *entries*. Legal values = 0x0 to 0x3" "0,1,2,3"
bitfld.long 0x00 8. "                        ACTV      ,Channel Active Channel Active is a logical-OR of each of the *BUSY/ACTV signals. The ACTV bit must remain high through the life of a TR. - . - ." "Channel_is_idle,Channel_is_busy"
bitfld.long 0x00 4.--6. "         DSTACTV  ,Destination Active State Specifies the number of TRs that are resident in the Dst Register FIFO at a given instant. Legal values are constrained by the DSTREGDEPTH parameter." "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 2. " WSACTV    ,Write Status Active - . - ." "0,1"
bitfld.long 0x00 1. "                        SRCACTV   ,Source Active State - . - ." "0,1"
bitfld.long 0x00 0. "                       PROGBUSY ,Program Register Set Busy - . - ." "0,1"
rgroup.long 0x104++0x3
line.long 0x00 "EDMA_TPTCn_INTSTAT,Interrupt Status Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Status - . - ." "Condition_not_detected.,1"
bitfld.long 0x00 0. "  PROGEMPTY ,Program Set Empty Event Status - . - ." "Condition_not_detected,1"
group.long 0x108++0x3
line.long 0x00 "EDMA_TPTCn_INTEN,Interrupt Enable Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Enable - . - ." "0,1"
bitfld.long 0x00 0. "                        PROGEMPTY ,Program Set Empty Event Enable - . - ." "0,1"
wgroup.long 0x10C++0x3
line.long 0x00 "EDMA_TPTCn_INTCLR,Interrupt Clear Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Clear - . - ." "have_no_effect.,Clear"
bitfld.long 0x00 0. "          PROGEMPTY ,Program Set Empty Event Clear - . - ." "have_no_effect.,Clear"
wgroup.long 0x110++0x3
line.long 0x00 "EDMA_TPTCn_INTCMD,Interrupt Command Register"
bitfld.long 0x00 1. " SET       ,Set TPTC interrupt - . - ." "have_no_affect.,1"
bitfld.long 0x00 0. "          EVAL      ,Evaluate state of TPTC interrupt - . - ." "have_no_affect.,1"
rgroup.long 0x120++0x3
line.long 0x00 "EDMA_TPTCn_ERRSTAT,Error Status Register"
bitfld.long 0x00 3. " MMRAERR   ,MR Address Error - . - ." "Condition_not_detected,1"
bitfld.long 0x00 2. "   TRERR     ,TR Error: TR detected that violates FIFO Mode transfer (SAM or DAM is '1') alignment rules or has ACNT or BCNT == 0. No additional error information is recorded." "0,1"
bitfld.long 0x00 0. "                       BUSERR   ,Bus Error Event - . - ." "Condition_not_detected.,1"
group.long 0x124++0x3
line.long 0x00 "EDMA_TPTCn_ERREN,Error Enable Register"
bitfld.long 0x00 3. " MMRAERR   ,Interrupt enable forEDMA_TPTCn_ERRSTAT[3] MMRAERR - . - ." "BUSERR_is_disabled,1"
bitfld.long 0x00 2. "       TRERR     ,Interrupt enable forEDMA_TPTCn_ERRSTAT[2] TRERR - . - ." "BUSERR_is_disabled.,1"
bitfld.long 0x00 0. "     BUSERR   ,Interrupt enable forEDMA_TPTCn_ERRSTAT[0] BUSERR - . - ." "BUSERR_is_disabled.,1"
wgroup.long 0x128++0x3
line.long 0x00 "EDMA_TPTCn_ERRCLR,Error Clear Register"
bitfld.long 0x00 3. " MMRAERR   ,Interrupt clear forEDMA_TPTCn_ERRSTAT[3] MMRAERR - . - ." "have_no_effect,1"
bitfld.long 0x00 2. "           TRERR     ,Interrupt clear forEDMA_TPTCn_ERRSTAT[2] TRERR - . - ." "have_no_effect,1"
bitfld.long 0x00 0. "          BUSERR   ,Interrupt clear forEDMA_TPTCn_ERRSTAT[0] BUSERR - . - ." "have_no_effect,1"
rgroup.long 0x12C++0x3
line.long 0x00 "EDMA_TPTCn_ERRDET,Error Details Register"
bitfld.long 0x00 17. " TCCHEN    ,Contains theEDMA_TPCC_OPT_n[17] TCCHEN value programmed by the user for the Read or Write transaction that resulted in an error." "0,1"
bitfld.long 0x00 16. "                        TCINTEN   ,Contains theEDMA_TPCC_OPT_n[16] TCINTEN value programmed by the user for the Read or Write transaction that resulted in an error." "0,1"
bitfld.long 0x00 8.--13. "                       TCC      ,Transfer Complete Code: Contains theEDMA_TPCC_OPT_n[13:8] TCC value programmed by the user for the Read or Write transaction that resulted in an error." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0.--3. " STAT      ,Transaction Status: Stores the non-zero status/error code that was detected on the read status or write status bus. MS-bit effectively serves as the read vs. write error code. If read status and write status are returned on the same cycle, ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
wgroup.long 0x130++0x3
line.long 0x00 "EDMA_TPTCn_ERRCMD,Error Command Register"
bitfld.long 0x00 1. " SET       ,Set TPTC error interrupt - . - ." "have_no_affect,1"
bitfld.long 0x00 0. "           EVAL      ,Evaluate state of TPTC error interrupt Write of '1' - . - ." "have_no_affect,1"
group.long 0x140++0x3
line.long 0x00 "EDMA_TPTCn_RDRATE,Read Rate Register"
bitfld.long 0x00 0.--2. " RDRATE    ,Read Rate Control: Controls the number of cycles between read commands. This is a global setting that applies to all TRs for this TC." "0,1,2,3,4,5,6,7"
group.long 0x200++0x3
line.long 0x00 "EDMA_TPTCn_POPT,Program Set Options"
bitfld.long 0x00 22. " TCCHEN    ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                        TCINTEN   ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "                       TCC      ,Transfer Complete Code: The 6-bit code is used to set the relevant bit in CER orEDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 8.--10. " FWID      ,FIFO width control: Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                        PRI       ,Transfer Priority: 0x0: Priority 0 - Highest priority 0x1: Priority 1 ... 0x7: Priority 7 - Lowest priority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 1. "                       DAM      ,Destination Address Mode within an array - . - ." "0,1"
textline "                               "
bitfld.long 0x00 0. " SAM       ,Source Address Mode within an array - . - ." "0,1"
group.long 0x204++0x3
line.long 0x00 "EDMA_TPTCn_PSRC,Program Set Source Address"
hexmask.long 0x00 0.--31. 1. " SADDR     ,Source address for Program Register Set"
group.long 0x208++0x3
line.long 0x00 "EDMA_TPTCn_PCNT,Program Set Count"
hexmask.long.word 0x00 16.--31. 1. " BCNT      ,B-Dimension count. Number of arrays to be transferred, where each array is ACNT in length."
hexmask.long.word 0x00 0.--15. 1. "                     ACNT      ,A-Dimension count. Number of bytes to be transferred in first dimension."
group.long 0x20C++0x3
line.long 0x00 "EDMA_TPTCn_PDST,Program Set Destination Address"
hexmask.long 0x00 0.--31. 1. " DADDR     ,Destination address for Program Register Set"
group.long 0x210++0x3
line.long 0x00 "EDMA_TPTCn_PBIDX,Program Set B-Dim Idx"
hexmask.long.word 0x00 16.--31. 1. " DBIDX     ,Dest B-Idx for Program Register Set: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACNT elements). DBIDX is always used, ..."
hexmask.long.word 0x00 0.--15. 1. "                     SBIDX     ,Source B-Idx for Program Register Set: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays of ACNT elements). SBIDX is a..."
rgroup.long 0x214++0x3
line.long 0x00 "EDMA_TPTCn_PMPPRXY,Program Set Memory Protect Proxy"
bitfld.long 0x00 8. " PRIV      ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "     PRIVID    ,Privilege ID: EDMA_TPTCn_PMPPRXY.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x240++0x3
line.long 0x00 "EDMA_TPTCn_SAOPT,Source Actve Set Options"
bitfld.long 0x00 22. " TCCHEN    ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                        TCINTEN   ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "                       TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 8.--10. " FWID      ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                        PRI       ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "              DAM      ,Destination Address Mode within an array - . - ." "0,1"
textline "                               "
bitfld.long 0x00 0. " SAM       ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x244++0x3
line.long 0x00 "EDMA_TPTCn_SASRC,Source Active Set Source Address"
hexmask.long 0x00 0.--31. 1. " SADDR     ,Source address for Source Active Register Set: Initial value is copied from EDMA_TPTCn_PSRC.SADDR. TC updates value according to source addressing mode (EDMA_TPCC_OPT_n.SAM) and/or source index value (BIDX.SBIDX) after each read command is ..."
rgroup.long 0x248++0x3
line.long 0x00 "EDMA_TPTCn_SACNT,Source Active Set Count"
hexmask.long.word 0x00 16.--31. 1. " BCNT      ,B-Dimension count: Number of arrays to be transferred, where each array is ACNT in length. Count Remaining for Source Active Register Set. Represents the amount of data remaining to be read. Initial value is copied from EDMA_TPTCn_PCNT. TC ..."
hexmask.long.word 0x00 0.--15. 1. "                     ACNT      ,A-Dimension count: Number of bytes to be transferred in first dimension. Count Remaining for Source Active Register Set. Represents the amount of data remaining to be read. Initial value is copied from EDMA_TPTCn_PCNT. T..."
rgroup.long 0x24C++0x3
line.long 0x00 "EDMA_TPTCn_SADST,Source Active Destination Address Register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " DADDR     ,Destination address is not applicable for Source Active Register Set. Reads return 0x0"
rgroup.long 0x250++0x3
line.long 0x00 "EDMA_TPTCn_SABIDX,Source Active Set B-Dim Idx"
hexmask.long.word 0x00 16.--31. 1. " DBIDX     ,Destination B-Idx for Source Active Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT..."
hexmask.long.word 0x00 0.--15. 1. "                     SBIDX     ,Source B-Idx for Source Active Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are ..."
rgroup.long 0x254++0x3
line.long 0x00 "EDMA_TPTCn_SAMPPRXY,Source Active Set Mem Protect Proxy"
bitfld.long 0x00 8. " PRIV      ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "     PRIVID    ,Privilege ID SAMPPRXY.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the v..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x258++0x3
line.long 0x00 "EDMA_TPTCn_SACNTRLD,Source Active Set Count Reload"
hexmask.long.word 0x00 0.--15. 1. " ACNTRLD   ,A-Cnt Reload value for Source Active Register set. Value copied from EDMA_TPTCn_PCNT[15:0] ACNT: Represents the originally programmed value of ACNT. The Reload value is used to reinitialize ACNT after each array is serviced (i.e., ACNT decr..."
rgroup.long 0x25C++0x3
line.long 0x00 "EDMA_TPTCn_SASRCBREF,Source Active Set Source Address A-Reference"
hexmask.long 0x00 0.--31. 1. " SADDRBREF ,Source address reference for Source Active Register Set: Represents the starting address for the array currently being read. The next array's starting address is calculated as the 'reference address' plus the 'source b-idx' value."
rgroup.long 0x260++0x3
line.long 0x00 "EDMA_TPTCn_SADSTBREF,Source Active Destination Address B-Reference Register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " DADDRBREF ,Destination address reference is not applicable for Src Active Register Set. Reads return 0x0."
rgroup.long 0x280++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTRLD,Destination FIFO Set Count Reload"
hexmask.long.word 0x00 0.--15. 1. " ACNTRLD   ,A-Cnt Reload value for Destination FIFO Register set. Value copied fromEDMA_TPTCn_PCNT[15:0] ACNT: Represents the originally programmed value of ACNT. The Reload value is used to reinitialize ACNT after each array is serviced (i.e., ACNT de..."
rgroup.long 0x284++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCBREF,Destination FIFO Set Destination Address B Reference Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDRBREF ,Source address reference is not applicable for Dst FIFO Register Set. Reads return 0x0."
rgroup.long 0x288++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTBREF,Destination FIFO Set Destination Address A-Reference"
hexmask.long 0x00 0.--31. 1. " DADDRBREF ,Destination address reference for Dst FIFO Register Set: Represents the starting address for the array currently being written. The next array's starting address is calculated as the 'reference address' plus the 'dest bidx' value."
width 0x0B
tree.end
tree "DSP1_EDMA_TPTC1"
base ad:0x40D06000
tree "DMA_Channel_0"
width 24.
rgroup.long 0x310++0x3
line.long 0x00 "EDMA_TPTCn_DFBIDXi_0,The destination FIFO B-index register"
hexmask.long.word 0x00 16.--31. 1. " DBIDX  ,Dest B-Idx for Dest FIFO Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACN..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX   ,Dest B-Idx for Dest FIFO Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays..."
rgroup.long 0x308++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTi_0,Destination FIFO count register"
hexmask.long.word 0x00 16.--31. 1. " BCNT   ,B-Count Remaining for Dst Register Set: Number of arrays to be transferred, where each array is ACNT in length. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT    ,A-Count Remaining for Dst Register Set: Number of bytes to be transferred in first dimension. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
rgroup.long 0x30C++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTi_0,The destination FIFO destination address register"
hexmask.long 0x00 0.--31. 1. " DADDR  ,Destination address for Dst FIFO Register Set: Initial value is copied from EDMA_TPTCn_PDST[31:0] DADDR. TC updates value according to destination addressing mode (EDMA_TPCC_OPT_n. SAM) and/or dest index value (BIDX. DBIDX) after each write co..."
rgroup.long 0x314++0x3
line.long 0x00 "EDMA_TPTCn_DFMPPRXYi_0,The destination FIFO memory protection proxy register"
bitfld.long 0x00 8. " PRIV   ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "  PRIVID  ,Privilege ID: DFMPPRXY0.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the valu..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x300++0x3
line.long 0x00 "EDMA_TPTCn_DFOPTi_0,Destination FIFO Set Options"
bitfld.long 0x00 22. " TCCHEN ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "           TCC ,Transfer Complete Code The 6-bit code is used to set the relevant bit in CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID   ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                     PRI     ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "  DAM ,Destination Address Mode within an array - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " SAM    ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x304++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCi_0,Destination FIFO source address register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDR  ,Source address is not applicable for Dst FIFO Register Set: Reads return 0x0."
tree.end
tree "DMA_Channel_1"
width 24.
rgroup.long 0x350++0x3
line.long 0x00 "EDMA_TPTCn_DFBIDXi_1,The destination FIFO B-index register"
hexmask.long.word 0x00 16.--31. 1. " DBIDX  ,Dest B-Idx for Dest FIFO Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACN..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX   ,Dest B-Idx for Dest FIFO Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays..."
rgroup.long 0x348++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTi_1,Destination FIFO count register"
hexmask.long.word 0x00 16.--31. 1. " BCNT   ,B-Count Remaining for Dst Register Set: Number of arrays to be transferred, where each array is ACNT in length. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT    ,A-Count Remaining for Dst Register Set: Number of bytes to be transferred in first dimension. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
rgroup.long 0x34C++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTi_1,The destination FIFO destination address register"
hexmask.long 0x00 0.--31. 1. " DADDR  ,Destination address for Dst FIFO Register Set: Initial value is copied from EDMA_TPTCn_PDST[31:0] DADDR. TC updates value according to destination addressing mode (EDMA_TPCC_OPT_n. SAM) and/or dest index value (BIDX. DBIDX) after each write co..."
rgroup.long 0x354++0x3
line.long 0x00 "EDMA_TPTCn_DFMPPRXYi_1,The destination FIFO memory protection proxy register"
bitfld.long 0x00 8. " PRIV   ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "  PRIVID  ,Privilege ID: DFMPPRXY0.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the valu..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x340++0x3
line.long 0x00 "EDMA_TPTCn_DFOPTi_1,Destination FIFO Set Options"
bitfld.long 0x00 22. " TCCHEN ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "           TCC ,Transfer Complete Code The 6-bit code is used to set the relevant bit in CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID   ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                     PRI     ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "  DAM ,Destination Address Mode within an array - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " SAM    ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x344++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCi_1,Destination FIFO source address register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDR  ,Source address is not applicable for Dst FIFO Register Set: Reads return 0x0."
tree.end
textline ""
width 22.
rgroup.long 0x0++0x3
line.long 0x00 "EDMA_TPTCn_PID,Peripheral ID Register"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
rgroup.long 0x4++0x3
line.long 0x00 "EDMA_TPTCn_TCCFG,TC Configuration Register"
bitfld.long 0x00 8.--9. " DREGDEPTH ,Destination Register FIFO Depth Parameterization" "0,1,2,3"
bitfld.long 0x00 4.--5. "                        BUSWIDTH  ,Bus Width Parameterization" "0,1,2,3"
bitfld.long 0x00 0.--2. "                       FIFOSIZE ,Fifo Size Parameterization" "0,1,2,3,4,5,6,7"
rgroup.long 0x100++0x3
line.long 0x00 "EDMA_TPTCn_TCSTAT,TC Status Register"
bitfld.long 0x00 11.--12. " DFSTRTPTR ,Dst FIFO Start Pointer Represents the offset to the head entry of Dst Register FIFO, in units of *entries*. Legal values = 0x0 to 0x3" "0,1,2,3"
bitfld.long 0x00 8. "                        ACTV      ,Channel Active Channel Active is a logical-OR of each of the *BUSY/ACTV signals. The ACTV bit must remain high through the life of a TR. - . - ." "Channel_is_idle,Channel_is_busy"
bitfld.long 0x00 4.--6. "         DSTACTV  ,Destination Active State Specifies the number of TRs that are resident in the Dst Register FIFO at a given instant. Legal values are constrained by the DSTREGDEPTH parameter." "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 2. " WSACTV    ,Write Status Active - . - ." "0,1"
bitfld.long 0x00 1. "                        SRCACTV   ,Source Active State - . - ." "0,1"
bitfld.long 0x00 0. "                       PROGBUSY ,Program Register Set Busy - . - ." "0,1"
rgroup.long 0x104++0x3
line.long 0x00 "EDMA_TPTCn_INTSTAT,Interrupt Status Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Status - . - ." "Condition_not_detected.,1"
bitfld.long 0x00 0. "  PROGEMPTY ,Program Set Empty Event Status - . - ." "Condition_not_detected,1"
group.long 0x108++0x3
line.long 0x00 "EDMA_TPTCn_INTEN,Interrupt Enable Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Enable - . - ." "0,1"
bitfld.long 0x00 0. "                        PROGEMPTY ,Program Set Empty Event Enable - . - ." "0,1"
wgroup.long 0x10C++0x3
line.long 0x00 "EDMA_TPTCn_INTCLR,Interrupt Clear Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Clear - . - ." "have_no_effect.,Clear"
bitfld.long 0x00 0. "          PROGEMPTY ,Program Set Empty Event Clear - . - ." "have_no_effect.,Clear"
wgroup.long 0x110++0x3
line.long 0x00 "EDMA_TPTCn_INTCMD,Interrupt Command Register"
bitfld.long 0x00 1. " SET       ,Set TPTC interrupt - . - ." "have_no_affect.,1"
bitfld.long 0x00 0. "          EVAL      ,Evaluate state of TPTC interrupt - . - ." "have_no_affect.,1"
rgroup.long 0x120++0x3
line.long 0x00 "EDMA_TPTCn_ERRSTAT,Error Status Register"
bitfld.long 0x00 3. " MMRAERR   ,MR Address Error - . - ." "Condition_not_detected,1"
bitfld.long 0x00 2. "   TRERR     ,TR Error: TR detected that violates FIFO Mode transfer (SAM or DAM is '1') alignment rules or has ACNT or BCNT == 0. No additional error information is recorded." "0,1"
bitfld.long 0x00 0. "                       BUSERR   ,Bus Error Event - . - ." "Condition_not_detected.,1"
group.long 0x124++0x3
line.long 0x00 "EDMA_TPTCn_ERREN,Error Enable Register"
bitfld.long 0x00 3. " MMRAERR   ,Interrupt enable forEDMA_TPTCn_ERRSTAT[3] MMRAERR - . - ." "BUSERR_is_disabled,1"
bitfld.long 0x00 2. "       TRERR     ,Interrupt enable forEDMA_TPTCn_ERRSTAT[2] TRERR - . - ." "BUSERR_is_disabled.,1"
bitfld.long 0x00 0. "     BUSERR   ,Interrupt enable forEDMA_TPTCn_ERRSTAT[0] BUSERR - . - ." "BUSERR_is_disabled.,1"
wgroup.long 0x128++0x3
line.long 0x00 "EDMA_TPTCn_ERRCLR,Error Clear Register"
bitfld.long 0x00 3. " MMRAERR   ,Interrupt clear forEDMA_TPTCn_ERRSTAT[3] MMRAERR - . - ." "have_no_effect,1"
bitfld.long 0x00 2. "           TRERR     ,Interrupt clear forEDMA_TPTCn_ERRSTAT[2] TRERR - . - ." "have_no_effect,1"
bitfld.long 0x00 0. "          BUSERR   ,Interrupt clear forEDMA_TPTCn_ERRSTAT[0] BUSERR - . - ." "have_no_effect,1"
rgroup.long 0x12C++0x3
line.long 0x00 "EDMA_TPTCn_ERRDET,Error Details Register"
bitfld.long 0x00 17. " TCCHEN    ,Contains theEDMA_TPCC_OPT_n[17] TCCHEN value programmed by the user for the Read or Write transaction that resulted in an error." "0,1"
bitfld.long 0x00 16. "                        TCINTEN   ,Contains theEDMA_TPCC_OPT_n[16] TCINTEN value programmed by the user for the Read or Write transaction that resulted in an error." "0,1"
bitfld.long 0x00 8.--13. "                       TCC      ,Transfer Complete Code: Contains theEDMA_TPCC_OPT_n[13:8] TCC value programmed by the user for the Read or Write transaction that resulted in an error." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0.--3. " STAT      ,Transaction Status: Stores the non-zero status/error code that was detected on the read status or write status bus. MS-bit effectively serves as the read vs. write error code. If read status and write status are returned on the same cycle, ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
wgroup.long 0x130++0x3
line.long 0x00 "EDMA_TPTCn_ERRCMD,Error Command Register"
bitfld.long 0x00 1. " SET       ,Set TPTC error interrupt - . - ." "have_no_affect,1"
bitfld.long 0x00 0. "           EVAL      ,Evaluate state of TPTC error interrupt Write of '1' - . - ." "have_no_affect,1"
group.long 0x140++0x3
line.long 0x00 "EDMA_TPTCn_RDRATE,Read Rate Register"
bitfld.long 0x00 0.--2. " RDRATE    ,Read Rate Control: Controls the number of cycles between read commands. This is a global setting that applies to all TRs for this TC." "0,1,2,3,4,5,6,7"
group.long 0x200++0x3
line.long 0x00 "EDMA_TPTCn_POPT,Program Set Options"
bitfld.long 0x00 22. " TCCHEN    ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                        TCINTEN   ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "                       TCC      ,Transfer Complete Code: The 6-bit code is used to set the relevant bit in CER orEDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 8.--10. " FWID      ,FIFO width control: Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                        PRI       ,Transfer Priority: 0x0: Priority 0 - Highest priority 0x1: Priority 1 ... 0x7: Priority 7 - Lowest priority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 1. "                       DAM      ,Destination Address Mode within an array - . - ." "0,1"
textline "                               "
bitfld.long 0x00 0. " SAM       ,Source Address Mode within an array - . - ." "0,1"
group.long 0x204++0x3
line.long 0x00 "EDMA_TPTCn_PSRC,Program Set Source Address"
hexmask.long 0x00 0.--31. 1. " SADDR     ,Source address for Program Register Set"
group.long 0x208++0x3
line.long 0x00 "EDMA_TPTCn_PCNT,Program Set Count"
hexmask.long.word 0x00 16.--31. 1. " BCNT      ,B-Dimension count. Number of arrays to be transferred, where each array is ACNT in length."
hexmask.long.word 0x00 0.--15. 1. "                     ACNT      ,A-Dimension count. Number of bytes to be transferred in first dimension."
group.long 0x20C++0x3
line.long 0x00 "EDMA_TPTCn_PDST,Program Set Destination Address"
hexmask.long 0x00 0.--31. 1. " DADDR     ,Destination address for Program Register Set"
group.long 0x210++0x3
line.long 0x00 "EDMA_TPTCn_PBIDX,Program Set B-Dim Idx"
hexmask.long.word 0x00 16.--31. 1. " DBIDX     ,Dest B-Idx for Program Register Set: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACNT elements). DBIDX is always used, ..."
hexmask.long.word 0x00 0.--15. 1. "                     SBIDX     ,Source B-Idx for Program Register Set: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays of ACNT elements). SBIDX is a..."
rgroup.long 0x214++0x3
line.long 0x00 "EDMA_TPTCn_PMPPRXY,Program Set Memory Protect Proxy"
bitfld.long 0x00 8. " PRIV      ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "     PRIVID    ,Privilege ID: EDMA_TPTCn_PMPPRXY.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x240++0x3
line.long 0x00 "EDMA_TPTCn_SAOPT,Source Actve Set Options"
bitfld.long 0x00 22. " TCCHEN    ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                        TCINTEN   ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "                       TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 8.--10. " FWID      ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                        PRI       ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "              DAM      ,Destination Address Mode within an array - . - ." "0,1"
textline "                               "
bitfld.long 0x00 0. " SAM       ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x244++0x3
line.long 0x00 "EDMA_TPTCn_SASRC,Source Active Set Source Address"
hexmask.long 0x00 0.--31. 1. " SADDR     ,Source address for Source Active Register Set: Initial value is copied from EDMA_TPTCn_PSRC.SADDR. TC updates value according to source addressing mode (EDMA_TPCC_OPT_n.SAM) and/or source index value (BIDX.SBIDX) after each read command is ..."
rgroup.long 0x248++0x3
line.long 0x00 "EDMA_TPTCn_SACNT,Source Active Set Count"
hexmask.long.word 0x00 16.--31. 1. " BCNT      ,B-Dimension count: Number of arrays to be transferred, where each array is ACNT in length. Count Remaining for Source Active Register Set. Represents the amount of data remaining to be read. Initial value is copied from EDMA_TPTCn_PCNT. TC ..."
hexmask.long.word 0x00 0.--15. 1. "                     ACNT      ,A-Dimension count: Number of bytes to be transferred in first dimension. Count Remaining for Source Active Register Set. Represents the amount of data remaining to be read. Initial value is copied from EDMA_TPTCn_PCNT. T..."
rgroup.long 0x24C++0x3
line.long 0x00 "EDMA_TPTCn_SADST,Source Active Destination Address Register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " DADDR     ,Destination address is not applicable for Source Active Register Set. Reads return 0x0"
rgroup.long 0x250++0x3
line.long 0x00 "EDMA_TPTCn_SABIDX,Source Active Set B-Dim Idx"
hexmask.long.word 0x00 16.--31. 1. " DBIDX     ,Destination B-Idx for Source Active Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT..."
hexmask.long.word 0x00 0.--15. 1. "                     SBIDX     ,Source B-Idx for Source Active Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are ..."
rgroup.long 0x254++0x3
line.long 0x00 "EDMA_TPTCn_SAMPPRXY,Source Active Set Mem Protect Proxy"
bitfld.long 0x00 8. " PRIV      ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "     PRIVID    ,Privilege ID SAMPPRXY.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the v..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x258++0x3
line.long 0x00 "EDMA_TPTCn_SACNTRLD,Source Active Set Count Reload"
hexmask.long.word 0x00 0.--15. 1. " ACNTRLD   ,A-Cnt Reload value for Source Active Register set. Value copied from EDMA_TPTCn_PCNT[15:0] ACNT: Represents the originally programmed value of ACNT. The Reload value is used to reinitialize ACNT after each array is serviced (i.e., ACNT decr..."
rgroup.long 0x25C++0x3
line.long 0x00 "EDMA_TPTCn_SASRCBREF,Source Active Set Source Address A-Reference"
hexmask.long 0x00 0.--31. 1. " SADDRBREF ,Source address reference for Source Active Register Set: Represents the starting address for the array currently being read. The next array's starting address is calculated as the 'reference address' plus the 'source b-idx' value."
rgroup.long 0x260++0x3
line.long 0x00 "EDMA_TPTCn_SADSTBREF,Source Active Destination Address B-Reference Register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " DADDRBREF ,Destination address reference is not applicable for Src Active Register Set. Reads return 0x0."
rgroup.long 0x280++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTRLD,Destination FIFO Set Count Reload"
hexmask.long.word 0x00 0.--15. 1. " ACNTRLD   ,A-Cnt Reload value for Destination FIFO Register set. Value copied fromEDMA_TPTCn_PCNT[15:0] ACNT: Represents the originally programmed value of ACNT. The Reload value is used to reinitialize ACNT after each array is serviced (i.e., ACNT de..."
rgroup.long 0x284++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCBREF,Destination FIFO Set Destination Address B Reference Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDRBREF ,Source address reference is not applicable for Dst FIFO Register Set. Reads return 0x0."
rgroup.long 0x288++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTBREF,Destination FIFO Set Destination Address A-Reference"
hexmask.long 0x00 0.--31. 1. " DADDRBREF ,Destination address reference for Dst FIFO Register Set: Represents the starting address for the array currently being written. The next array's starting address is calculated as the 'reference address' plus the 'dest bidx' value."
width 0x0B
tree.end
tree "DSP2_EDMA_TPTC0"
base ad:0x41505000
tree "DMA_Channel_0"
width 24.
rgroup.long 0x310++0x3
line.long 0x00 "EDMA_TPTCn_DFBIDXi_0,The destination FIFO B-index register"
hexmask.long.word 0x00 16.--31. 1. " DBIDX  ,Dest B-Idx for Dest FIFO Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACN..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX   ,Dest B-Idx for Dest FIFO Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays..."
rgroup.long 0x308++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTi_0,Destination FIFO count register"
hexmask.long.word 0x00 16.--31. 1. " BCNT   ,B-Count Remaining for Dst Register Set: Number of arrays to be transferred, where each array is ACNT in length. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT    ,A-Count Remaining for Dst Register Set: Number of bytes to be transferred in first dimension. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
rgroup.long 0x30C++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTi_0,The destination FIFO destination address register"
hexmask.long 0x00 0.--31. 1. " DADDR  ,Destination address for Dst FIFO Register Set: Initial value is copied from EDMA_TPTCn_PDST[31:0] DADDR. TC updates value according to destination addressing mode (EDMA_TPCC_OPT_n. SAM) and/or dest index value (BIDX. DBIDX) after each write co..."
rgroup.long 0x314++0x3
line.long 0x00 "EDMA_TPTCn_DFMPPRXYi_0,The destination FIFO memory protection proxy register"
bitfld.long 0x00 8. " PRIV   ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "  PRIVID  ,Privilege ID: DFMPPRXY0.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the valu..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x300++0x3
line.long 0x00 "EDMA_TPTCn_DFOPTi_0,Destination FIFO Set Options"
bitfld.long 0x00 22. " TCCHEN ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "           TCC ,Transfer Complete Code The 6-bit code is used to set the relevant bit in CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID   ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                     PRI     ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "  DAM ,Destination Address Mode within an array - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " SAM    ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x304++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCi_0,Destination FIFO source address register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDR  ,Source address is not applicable for Dst FIFO Register Set: Reads return 0x0."
tree.end
tree "DMA_Channel_1"
width 24.
rgroup.long 0x350++0x3
line.long 0x00 "EDMA_TPTCn_DFBIDXi_1,The destination FIFO B-index register"
hexmask.long.word 0x00 16.--31. 1. " DBIDX  ,Dest B-Idx for Dest FIFO Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACN..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX   ,Dest B-Idx for Dest FIFO Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays..."
rgroup.long 0x348++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTi_1,Destination FIFO count register"
hexmask.long.word 0x00 16.--31. 1. " BCNT   ,B-Count Remaining for Dst Register Set: Number of arrays to be transferred, where each array is ACNT in length. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT    ,A-Count Remaining for Dst Register Set: Number of bytes to be transferred in first dimension. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
rgroup.long 0x34C++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTi_1,The destination FIFO destination address register"
hexmask.long 0x00 0.--31. 1. " DADDR  ,Destination address for Dst FIFO Register Set: Initial value is copied from EDMA_TPTCn_PDST[31:0] DADDR. TC updates value according to destination addressing mode (EDMA_TPCC_OPT_n. SAM) and/or dest index value (BIDX. DBIDX) after each write co..."
rgroup.long 0x354++0x3
line.long 0x00 "EDMA_TPTCn_DFMPPRXYi_1,The destination FIFO memory protection proxy register"
bitfld.long 0x00 8. " PRIV   ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "  PRIVID  ,Privilege ID: DFMPPRXY0.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the valu..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x340++0x3
line.long 0x00 "EDMA_TPTCn_DFOPTi_1,Destination FIFO Set Options"
bitfld.long 0x00 22. " TCCHEN ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "           TCC ,Transfer Complete Code The 6-bit code is used to set the relevant bit in CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID   ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                     PRI     ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "  DAM ,Destination Address Mode within an array - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " SAM    ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x344++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCi_1,Destination FIFO source address register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDR  ,Source address is not applicable for Dst FIFO Register Set: Reads return 0x0."
tree.end
textline ""
width 22.
rgroup.long 0x0++0x3
line.long 0x00 "EDMA_TPTCn_PID,Peripheral ID Register"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
rgroup.long 0x4++0x3
line.long 0x00 "EDMA_TPTCn_TCCFG,TC Configuration Register"
bitfld.long 0x00 8.--9. " DREGDEPTH ,Destination Register FIFO Depth Parameterization" "0,1,2,3"
bitfld.long 0x00 4.--5. "                        BUSWIDTH  ,Bus Width Parameterization" "0,1,2,3"
bitfld.long 0x00 0.--2. "                       FIFOSIZE ,Fifo Size Parameterization" "0,1,2,3,4,5,6,7"
rgroup.long 0x100++0x3
line.long 0x00 "EDMA_TPTCn_TCSTAT,TC Status Register"
bitfld.long 0x00 11.--12. " DFSTRTPTR ,Dst FIFO Start Pointer Represents the offset to the head entry of Dst Register FIFO, in units of *entries*. Legal values = 0x0 to 0x3" "0,1,2,3"
bitfld.long 0x00 8. "                        ACTV      ,Channel Active Channel Active is a logical-OR of each of the *BUSY/ACTV signals. The ACTV bit must remain high through the life of a TR. - . - ." "Channel_is_idle,Channel_is_busy"
bitfld.long 0x00 4.--6. "         DSTACTV  ,Destination Active State Specifies the number of TRs that are resident in the Dst Register FIFO at a given instant. Legal values are constrained by the DSTREGDEPTH parameter." "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 2. " WSACTV    ,Write Status Active - . - ." "0,1"
bitfld.long 0x00 1. "                        SRCACTV   ,Source Active State - . - ." "0,1"
bitfld.long 0x00 0. "                       PROGBUSY ,Program Register Set Busy - . - ." "0,1"
rgroup.long 0x104++0x3
line.long 0x00 "EDMA_TPTCn_INTSTAT,Interrupt Status Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Status - . - ." "Condition_not_detected.,1"
bitfld.long 0x00 0. "  PROGEMPTY ,Program Set Empty Event Status - . - ." "Condition_not_detected,1"
group.long 0x108++0x3
line.long 0x00 "EDMA_TPTCn_INTEN,Interrupt Enable Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Enable - . - ." "0,1"
bitfld.long 0x00 0. "                        PROGEMPTY ,Program Set Empty Event Enable - . - ." "0,1"
wgroup.long 0x10C++0x3
line.long 0x00 "EDMA_TPTCn_INTCLR,Interrupt Clear Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Clear - . - ." "have_no_effect.,Clear"
bitfld.long 0x00 0. "          PROGEMPTY ,Program Set Empty Event Clear - . - ." "have_no_effect.,Clear"
wgroup.long 0x110++0x3
line.long 0x00 "EDMA_TPTCn_INTCMD,Interrupt Command Register"
bitfld.long 0x00 1. " SET       ,Set TPTC interrupt - . - ." "have_no_affect.,1"
bitfld.long 0x00 0. "          EVAL      ,Evaluate state of TPTC interrupt - . - ." "have_no_affect.,1"
rgroup.long 0x120++0x3
line.long 0x00 "EDMA_TPTCn_ERRSTAT,Error Status Register"
bitfld.long 0x00 3. " MMRAERR   ,MR Address Error - . - ." "Condition_not_detected,1"
bitfld.long 0x00 2. "   TRERR     ,TR Error: TR detected that violates FIFO Mode transfer (SAM or DAM is '1') alignment rules or has ACNT or BCNT == 0. No additional error information is recorded." "0,1"
bitfld.long 0x00 0. "                       BUSERR   ,Bus Error Event - . - ." "Condition_not_detected.,1"
group.long 0x124++0x3
line.long 0x00 "EDMA_TPTCn_ERREN,Error Enable Register"
bitfld.long 0x00 3. " MMRAERR   ,Interrupt enable forEDMA_TPTCn_ERRSTAT[3] MMRAERR - . - ." "BUSERR_is_disabled,1"
bitfld.long 0x00 2. "       TRERR     ,Interrupt enable forEDMA_TPTCn_ERRSTAT[2] TRERR - . - ." "BUSERR_is_disabled.,1"
bitfld.long 0x00 0. "     BUSERR   ,Interrupt enable forEDMA_TPTCn_ERRSTAT[0] BUSERR - . - ." "BUSERR_is_disabled.,1"
wgroup.long 0x128++0x3
line.long 0x00 "EDMA_TPTCn_ERRCLR,Error Clear Register"
bitfld.long 0x00 3. " MMRAERR   ,Interrupt clear forEDMA_TPTCn_ERRSTAT[3] MMRAERR - . - ." "have_no_effect,1"
bitfld.long 0x00 2. "           TRERR     ,Interrupt clear forEDMA_TPTCn_ERRSTAT[2] TRERR - . - ." "have_no_effect,1"
bitfld.long 0x00 0. "          BUSERR   ,Interrupt clear forEDMA_TPTCn_ERRSTAT[0] BUSERR - . - ." "have_no_effect,1"
rgroup.long 0x12C++0x3
line.long 0x00 "EDMA_TPTCn_ERRDET,Error Details Register"
bitfld.long 0x00 17. " TCCHEN    ,Contains theEDMA_TPCC_OPT_n[17] TCCHEN value programmed by the user for the Read or Write transaction that resulted in an error." "0,1"
bitfld.long 0x00 16. "                        TCINTEN   ,Contains theEDMA_TPCC_OPT_n[16] TCINTEN value programmed by the user for the Read or Write transaction that resulted in an error." "0,1"
bitfld.long 0x00 8.--13. "                       TCC      ,Transfer Complete Code: Contains theEDMA_TPCC_OPT_n[13:8] TCC value programmed by the user for the Read or Write transaction that resulted in an error." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0.--3. " STAT      ,Transaction Status: Stores the non-zero status/error code that was detected on the read status or write status bus. MS-bit effectively serves as the read vs. write error code. If read status and write status are returned on the same cycle, ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
wgroup.long 0x130++0x3
line.long 0x00 "EDMA_TPTCn_ERRCMD,Error Command Register"
bitfld.long 0x00 1. " SET       ,Set TPTC error interrupt - . - ." "have_no_affect,1"
bitfld.long 0x00 0. "           EVAL      ,Evaluate state of TPTC error interrupt Write of '1' - . - ." "have_no_affect,1"
group.long 0x140++0x3
line.long 0x00 "EDMA_TPTCn_RDRATE,Read Rate Register"
bitfld.long 0x00 0.--2. " RDRATE    ,Read Rate Control: Controls the number of cycles between read commands. This is a global setting that applies to all TRs for this TC." "0,1,2,3,4,5,6,7"
group.long 0x200++0x3
line.long 0x00 "EDMA_TPTCn_POPT,Program Set Options"
bitfld.long 0x00 22. " TCCHEN    ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                        TCINTEN   ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "                       TCC      ,Transfer Complete Code: The 6-bit code is used to set the relevant bit in CER orEDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 8.--10. " FWID      ,FIFO width control: Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                        PRI       ,Transfer Priority: 0x0: Priority 0 - Highest priority 0x1: Priority 1 ... 0x7: Priority 7 - Lowest priority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 1. "                       DAM      ,Destination Address Mode within an array - . - ." "0,1"
textline "                               "
bitfld.long 0x00 0. " SAM       ,Source Address Mode within an array - . - ." "0,1"
group.long 0x204++0x3
line.long 0x00 "EDMA_TPTCn_PSRC,Program Set Source Address"
hexmask.long 0x00 0.--31. 1. " SADDR     ,Source address for Program Register Set"
group.long 0x208++0x3
line.long 0x00 "EDMA_TPTCn_PCNT,Program Set Count"
hexmask.long.word 0x00 16.--31. 1. " BCNT      ,B-Dimension count. Number of arrays to be transferred, where each array is ACNT in length."
hexmask.long.word 0x00 0.--15. 1. "                     ACNT      ,A-Dimension count. Number of bytes to be transferred in first dimension."
group.long 0x20C++0x3
line.long 0x00 "EDMA_TPTCn_PDST,Program Set Destination Address"
hexmask.long 0x00 0.--31. 1. " DADDR     ,Destination address for Program Register Set"
group.long 0x210++0x3
line.long 0x00 "EDMA_TPTCn_PBIDX,Program Set B-Dim Idx"
hexmask.long.word 0x00 16.--31. 1. " DBIDX     ,Dest B-Idx for Program Register Set: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACNT elements). DBIDX is always used, ..."
hexmask.long.word 0x00 0.--15. 1. "                     SBIDX     ,Source B-Idx for Program Register Set: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays of ACNT elements). SBIDX is a..."
rgroup.long 0x214++0x3
line.long 0x00 "EDMA_TPTCn_PMPPRXY,Program Set Memory Protect Proxy"
bitfld.long 0x00 8. " PRIV      ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "     PRIVID    ,Privilege ID: EDMA_TPTCn_PMPPRXY.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x240++0x3
line.long 0x00 "EDMA_TPTCn_SAOPT,Source Actve Set Options"
bitfld.long 0x00 22. " TCCHEN    ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                        TCINTEN   ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "                       TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 8.--10. " FWID      ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                        PRI       ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "              DAM      ,Destination Address Mode within an array - . - ." "0,1"
textline "                               "
bitfld.long 0x00 0. " SAM       ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x244++0x3
line.long 0x00 "EDMA_TPTCn_SASRC,Source Active Set Source Address"
hexmask.long 0x00 0.--31. 1. " SADDR     ,Source address for Source Active Register Set: Initial value is copied from EDMA_TPTCn_PSRC.SADDR. TC updates value according to source addressing mode (EDMA_TPCC_OPT_n.SAM) and/or source index value (BIDX.SBIDX) after each read command is ..."
rgroup.long 0x248++0x3
line.long 0x00 "EDMA_TPTCn_SACNT,Source Active Set Count"
hexmask.long.word 0x00 16.--31. 1. " BCNT      ,B-Dimension count: Number of arrays to be transferred, where each array is ACNT in length. Count Remaining for Source Active Register Set. Represents the amount of data remaining to be read. Initial value is copied from EDMA_TPTCn_PCNT. TC ..."
hexmask.long.word 0x00 0.--15. 1. "                     ACNT      ,A-Dimension count: Number of bytes to be transferred in first dimension. Count Remaining for Source Active Register Set. Represents the amount of data remaining to be read. Initial value is copied from EDMA_TPTCn_PCNT. T..."
rgroup.long 0x24C++0x3
line.long 0x00 "EDMA_TPTCn_SADST,Source Active Destination Address Register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " DADDR     ,Destination address is not applicable for Source Active Register Set. Reads return 0x0"
rgroup.long 0x250++0x3
line.long 0x00 "EDMA_TPTCn_SABIDX,Source Active Set B-Dim Idx"
hexmask.long.word 0x00 16.--31. 1. " DBIDX     ,Destination B-Idx for Source Active Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT..."
hexmask.long.word 0x00 0.--15. 1. "                     SBIDX     ,Source B-Idx for Source Active Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are ..."
rgroup.long 0x254++0x3
line.long 0x00 "EDMA_TPTCn_SAMPPRXY,Source Active Set Mem Protect Proxy"
bitfld.long 0x00 8. " PRIV      ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "     PRIVID    ,Privilege ID SAMPPRXY.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the v..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x258++0x3
line.long 0x00 "EDMA_TPTCn_SACNTRLD,Source Active Set Count Reload"
hexmask.long.word 0x00 0.--15. 1. " ACNTRLD   ,A-Cnt Reload value for Source Active Register set. Value copied from EDMA_TPTCn_PCNT[15:0] ACNT: Represents the originally programmed value of ACNT. The Reload value is used to reinitialize ACNT after each array is serviced (i.e., ACNT decr..."
rgroup.long 0x25C++0x3
line.long 0x00 "EDMA_TPTCn_SASRCBREF,Source Active Set Source Address A-Reference"
hexmask.long 0x00 0.--31. 1. " SADDRBREF ,Source address reference for Source Active Register Set: Represents the starting address for the array currently being read. The next array's starting address is calculated as the 'reference address' plus the 'source b-idx' value."
rgroup.long 0x260++0x3
line.long 0x00 "EDMA_TPTCn_SADSTBREF,Source Active Destination Address B-Reference Register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " DADDRBREF ,Destination address reference is not applicable for Src Active Register Set. Reads return 0x0."
rgroup.long 0x280++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTRLD,Destination FIFO Set Count Reload"
hexmask.long.word 0x00 0.--15. 1. " ACNTRLD   ,A-Cnt Reload value for Destination FIFO Register set. Value copied fromEDMA_TPTCn_PCNT[15:0] ACNT: Represents the originally programmed value of ACNT. The Reload value is used to reinitialize ACNT after each array is serviced (i.e., ACNT de..."
rgroup.long 0x284++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCBREF,Destination FIFO Set Destination Address B Reference Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDRBREF ,Source address reference is not applicable for Dst FIFO Register Set. Reads return 0x0."
rgroup.long 0x288++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTBREF,Destination FIFO Set Destination Address A-Reference"
hexmask.long 0x00 0.--31. 1. " DADDRBREF ,Destination address reference for Dst FIFO Register Set: Represents the starting address for the array currently being written. The next array's starting address is calculated as the 'reference address' plus the 'dest bidx' value."
width 0x0B
tree.end
tree "DSP2_EDMA_TPTC1"
base ad:0x41506000
tree "DMA_Channel_0"
width 24.
rgroup.long 0x310++0x3
line.long 0x00 "EDMA_TPTCn_DFBIDXi_0,The destination FIFO B-index register"
hexmask.long.word 0x00 16.--31. 1. " DBIDX  ,Dest B-Idx for Dest FIFO Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACN..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX   ,Dest B-Idx for Dest FIFO Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays..."
rgroup.long 0x308++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTi_0,Destination FIFO count register"
hexmask.long.word 0x00 16.--31. 1. " BCNT   ,B-Count Remaining for Dst Register Set: Number of arrays to be transferred, where each array is ACNT in length. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT    ,A-Count Remaining for Dst Register Set: Number of bytes to be transferred in first dimension. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
rgroup.long 0x30C++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTi_0,The destination FIFO destination address register"
hexmask.long 0x00 0.--31. 1. " DADDR  ,Destination address for Dst FIFO Register Set: Initial value is copied from EDMA_TPTCn_PDST[31:0] DADDR. TC updates value according to destination addressing mode (EDMA_TPCC_OPT_n. SAM) and/or dest index value (BIDX. DBIDX) after each write co..."
rgroup.long 0x314++0x3
line.long 0x00 "EDMA_TPTCn_DFMPPRXYi_0,The destination FIFO memory protection proxy register"
bitfld.long 0x00 8. " PRIV   ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "  PRIVID  ,Privilege ID: DFMPPRXY0.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the valu..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x300++0x3
line.long 0x00 "EDMA_TPTCn_DFOPTi_0,Destination FIFO Set Options"
bitfld.long 0x00 22. " TCCHEN ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "           TCC ,Transfer Complete Code The 6-bit code is used to set the relevant bit in CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID   ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                     PRI     ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "  DAM ,Destination Address Mode within an array - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " SAM    ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x304++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCi_0,Destination FIFO source address register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDR  ,Source address is not applicable for Dst FIFO Register Set: Reads return 0x0."
tree.end
tree "DMA_Channel_1"
width 24.
rgroup.long 0x350++0x3
line.long 0x00 "EDMA_TPTCn_DFBIDXi_1,The destination FIFO B-index register"
hexmask.long.word 0x00 16.--31. 1. " DBIDX  ,Dest B-Idx for Dest FIFO Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACN..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX   ,Dest B-Idx for Dest FIFO Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays..."
rgroup.long 0x348++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTi_1,Destination FIFO count register"
hexmask.long.word 0x00 16.--31. 1. " BCNT   ,B-Count Remaining for Dst Register Set: Number of arrays to be transferred, where each array is ACNT in length. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT    ,A-Count Remaining for Dst Register Set: Number of bytes to be transferred in first dimension. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
rgroup.long 0x34C++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTi_1,The destination FIFO destination address register"
hexmask.long 0x00 0.--31. 1. " DADDR  ,Destination address for Dst FIFO Register Set: Initial value is copied from EDMA_TPTCn_PDST[31:0] DADDR. TC updates value according to destination addressing mode (EDMA_TPCC_OPT_n. SAM) and/or dest index value (BIDX. DBIDX) after each write co..."
rgroup.long 0x354++0x3
line.long 0x00 "EDMA_TPTCn_DFMPPRXYi_1,The destination FIFO memory protection proxy register"
bitfld.long 0x00 8. " PRIV   ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "  PRIVID  ,Privilege ID: DFMPPRXY0.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the valu..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x340++0x3
line.long 0x00 "EDMA_TPTCn_DFOPTi_1,Destination FIFO Set Options"
bitfld.long 0x00 22. " TCCHEN ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "           TCC ,Transfer Complete Code The 6-bit code is used to set the relevant bit in CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID   ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                     PRI     ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "  DAM ,Destination Address Mode within an array - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " SAM    ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x344++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCi_1,Destination FIFO source address register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDR  ,Source address is not applicable for Dst FIFO Register Set: Reads return 0x0."
tree.end
textline ""
width 22.
rgroup.long 0x0++0x3
line.long 0x00 "EDMA_TPTCn_PID,Peripheral ID Register"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
rgroup.long 0x4++0x3
line.long 0x00 "EDMA_TPTCn_TCCFG,TC Configuration Register"
bitfld.long 0x00 8.--9. " DREGDEPTH ,Destination Register FIFO Depth Parameterization" "0,1,2,3"
bitfld.long 0x00 4.--5. "                        BUSWIDTH  ,Bus Width Parameterization" "0,1,2,3"
bitfld.long 0x00 0.--2. "                       FIFOSIZE ,Fifo Size Parameterization" "0,1,2,3,4,5,6,7"
rgroup.long 0x100++0x3
line.long 0x00 "EDMA_TPTCn_TCSTAT,TC Status Register"
bitfld.long 0x00 11.--12. " DFSTRTPTR ,Dst FIFO Start Pointer Represents the offset to the head entry of Dst Register FIFO, in units of *entries*. Legal values = 0x0 to 0x3" "0,1,2,3"
bitfld.long 0x00 8. "                        ACTV      ,Channel Active Channel Active is a logical-OR of each of the *BUSY/ACTV signals. The ACTV bit must remain high through the life of a TR. - . - ." "Channel_is_idle,Channel_is_busy"
bitfld.long 0x00 4.--6. "         DSTACTV  ,Destination Active State Specifies the number of TRs that are resident in the Dst Register FIFO at a given instant. Legal values are constrained by the DSTREGDEPTH parameter." "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 2. " WSACTV    ,Write Status Active - . - ." "0,1"
bitfld.long 0x00 1. "                        SRCACTV   ,Source Active State - . - ." "0,1"
bitfld.long 0x00 0. "                       PROGBUSY ,Program Register Set Busy - . - ." "0,1"
rgroup.long 0x104++0x3
line.long 0x00 "EDMA_TPTCn_INTSTAT,Interrupt Status Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Status - . - ." "Condition_not_detected.,1"
bitfld.long 0x00 0. "  PROGEMPTY ,Program Set Empty Event Status - . - ." "Condition_not_detected,1"
group.long 0x108++0x3
line.long 0x00 "EDMA_TPTCn_INTEN,Interrupt Enable Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Enable - . - ." "0,1"
bitfld.long 0x00 0. "                        PROGEMPTY ,Program Set Empty Event Enable - . - ." "0,1"
wgroup.long 0x10C++0x3
line.long 0x00 "EDMA_TPTCn_INTCLR,Interrupt Clear Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Clear - . - ." "have_no_effect.,Clear"
bitfld.long 0x00 0. "          PROGEMPTY ,Program Set Empty Event Clear - . - ." "have_no_effect.,Clear"
wgroup.long 0x110++0x3
line.long 0x00 "EDMA_TPTCn_INTCMD,Interrupt Command Register"
bitfld.long 0x00 1. " SET       ,Set TPTC interrupt - . - ." "have_no_affect.,1"
bitfld.long 0x00 0. "          EVAL      ,Evaluate state of TPTC interrupt - . - ." "have_no_affect.,1"
rgroup.long 0x120++0x3
line.long 0x00 "EDMA_TPTCn_ERRSTAT,Error Status Register"
bitfld.long 0x00 3. " MMRAERR   ,MR Address Error - . - ." "Condition_not_detected,1"
bitfld.long 0x00 2. "   TRERR     ,TR Error: TR detected that violates FIFO Mode transfer (SAM or DAM is '1') alignment rules or has ACNT or BCNT == 0. No additional error information is recorded." "0,1"
bitfld.long 0x00 0. "                       BUSERR   ,Bus Error Event - . - ." "Condition_not_detected.,1"
group.long 0x124++0x3
line.long 0x00 "EDMA_TPTCn_ERREN,Error Enable Register"
bitfld.long 0x00 3. " MMRAERR   ,Interrupt enable forEDMA_TPTCn_ERRSTAT[3] MMRAERR - . - ." "BUSERR_is_disabled,1"
bitfld.long 0x00 2. "       TRERR     ,Interrupt enable forEDMA_TPTCn_ERRSTAT[2] TRERR - . - ." "BUSERR_is_disabled.,1"
bitfld.long 0x00 0. "     BUSERR   ,Interrupt enable forEDMA_TPTCn_ERRSTAT[0] BUSERR - . - ." "BUSERR_is_disabled.,1"
wgroup.long 0x128++0x3
line.long 0x00 "EDMA_TPTCn_ERRCLR,Error Clear Register"
bitfld.long 0x00 3. " MMRAERR   ,Interrupt clear forEDMA_TPTCn_ERRSTAT[3] MMRAERR - . - ." "have_no_effect,1"
bitfld.long 0x00 2. "           TRERR     ,Interrupt clear forEDMA_TPTCn_ERRSTAT[2] TRERR - . - ." "have_no_effect,1"
bitfld.long 0x00 0. "          BUSERR   ,Interrupt clear forEDMA_TPTCn_ERRSTAT[0] BUSERR - . - ." "have_no_effect,1"
rgroup.long 0x12C++0x3
line.long 0x00 "EDMA_TPTCn_ERRDET,Error Details Register"
bitfld.long 0x00 17. " TCCHEN    ,Contains theEDMA_TPCC_OPT_n[17] TCCHEN value programmed by the user for the Read or Write transaction that resulted in an error." "0,1"
bitfld.long 0x00 16. "                        TCINTEN   ,Contains theEDMA_TPCC_OPT_n[16] TCINTEN value programmed by the user for the Read or Write transaction that resulted in an error." "0,1"
bitfld.long 0x00 8.--13. "                       TCC      ,Transfer Complete Code: Contains theEDMA_TPCC_OPT_n[13:8] TCC value programmed by the user for the Read or Write transaction that resulted in an error." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0.--3. " STAT      ,Transaction Status: Stores the non-zero status/error code that was detected on the read status or write status bus. MS-bit effectively serves as the read vs. write error code. If read status and write status are returned on the same cycle, ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
wgroup.long 0x130++0x3
line.long 0x00 "EDMA_TPTCn_ERRCMD,Error Command Register"
bitfld.long 0x00 1. " SET       ,Set TPTC error interrupt - . - ." "have_no_affect,1"
bitfld.long 0x00 0. "           EVAL      ,Evaluate state of TPTC error interrupt Write of '1' - . - ." "have_no_affect,1"
group.long 0x140++0x3
line.long 0x00 "EDMA_TPTCn_RDRATE,Read Rate Register"
bitfld.long 0x00 0.--2. " RDRATE    ,Read Rate Control: Controls the number of cycles between read commands. This is a global setting that applies to all TRs for this TC." "0,1,2,3,4,5,6,7"
group.long 0x200++0x3
line.long 0x00 "EDMA_TPTCn_POPT,Program Set Options"
bitfld.long 0x00 22. " TCCHEN    ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                        TCINTEN   ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "                       TCC      ,Transfer Complete Code: The 6-bit code is used to set the relevant bit in CER orEDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 8.--10. " FWID      ,FIFO width control: Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                        PRI       ,Transfer Priority: 0x0: Priority 0 - Highest priority 0x1: Priority 1 ... 0x7: Priority 7 - Lowest priority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 1. "                       DAM      ,Destination Address Mode within an array - . - ." "0,1"
textline "                               "
bitfld.long 0x00 0. " SAM       ,Source Address Mode within an array - . - ." "0,1"
group.long 0x204++0x3
line.long 0x00 "EDMA_TPTCn_PSRC,Program Set Source Address"
hexmask.long 0x00 0.--31. 1. " SADDR     ,Source address for Program Register Set"
group.long 0x208++0x3
line.long 0x00 "EDMA_TPTCn_PCNT,Program Set Count"
hexmask.long.word 0x00 16.--31. 1. " BCNT      ,B-Dimension count. Number of arrays to be transferred, where each array is ACNT in length."
hexmask.long.word 0x00 0.--15. 1. "                     ACNT      ,A-Dimension count. Number of bytes to be transferred in first dimension."
group.long 0x20C++0x3
line.long 0x00 "EDMA_TPTCn_PDST,Program Set Destination Address"
hexmask.long 0x00 0.--31. 1. " DADDR     ,Destination address for Program Register Set"
group.long 0x210++0x3
line.long 0x00 "EDMA_TPTCn_PBIDX,Program Set B-Dim Idx"
hexmask.long.word 0x00 16.--31. 1. " DBIDX     ,Dest B-Idx for Program Register Set: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACNT elements). DBIDX is always used, ..."
hexmask.long.word 0x00 0.--15. 1. "                     SBIDX     ,Source B-Idx for Program Register Set: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays of ACNT elements). SBIDX is a..."
rgroup.long 0x214++0x3
line.long 0x00 "EDMA_TPTCn_PMPPRXY,Program Set Memory Protect Proxy"
bitfld.long 0x00 8. " PRIV      ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "     PRIVID    ,Privilege ID: EDMA_TPTCn_PMPPRXY.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x240++0x3
line.long 0x00 "EDMA_TPTCn_SAOPT,Source Actve Set Options"
bitfld.long 0x00 22. " TCCHEN    ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                        TCINTEN   ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "                       TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 8.--10. " FWID      ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                        PRI       ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "              DAM      ,Destination Address Mode within an array - . - ." "0,1"
textline "                               "
bitfld.long 0x00 0. " SAM       ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x244++0x3
line.long 0x00 "EDMA_TPTCn_SASRC,Source Active Set Source Address"
hexmask.long 0x00 0.--31. 1. " SADDR     ,Source address for Source Active Register Set: Initial value is copied from EDMA_TPTCn_PSRC.SADDR. TC updates value according to source addressing mode (EDMA_TPCC_OPT_n.SAM) and/or source index value (BIDX.SBIDX) after each read command is ..."
rgroup.long 0x248++0x3
line.long 0x00 "EDMA_TPTCn_SACNT,Source Active Set Count"
hexmask.long.word 0x00 16.--31. 1. " BCNT      ,B-Dimension count: Number of arrays to be transferred, where each array is ACNT in length. Count Remaining for Source Active Register Set. Represents the amount of data remaining to be read. Initial value is copied from EDMA_TPTCn_PCNT. TC ..."
hexmask.long.word 0x00 0.--15. 1. "                     ACNT      ,A-Dimension count: Number of bytes to be transferred in first dimension. Count Remaining for Source Active Register Set. Represents the amount of data remaining to be read. Initial value is copied from EDMA_TPTCn_PCNT. T..."
rgroup.long 0x24C++0x3
line.long 0x00 "EDMA_TPTCn_SADST,Source Active Destination Address Register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " DADDR     ,Destination address is not applicable for Source Active Register Set. Reads return 0x0"
rgroup.long 0x250++0x3
line.long 0x00 "EDMA_TPTCn_SABIDX,Source Active Set B-Dim Idx"
hexmask.long.word 0x00 16.--31. 1. " DBIDX     ,Destination B-Idx for Source Active Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT..."
hexmask.long.word 0x00 0.--15. 1. "                     SBIDX     ,Source B-Idx for Source Active Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are ..."
rgroup.long 0x254++0x3
line.long 0x00 "EDMA_TPTCn_SAMPPRXY,Source Active Set Mem Protect Proxy"
bitfld.long 0x00 8. " PRIV      ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "     PRIVID    ,Privilege ID SAMPPRXY.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the v..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x258++0x3
line.long 0x00 "EDMA_TPTCn_SACNTRLD,Source Active Set Count Reload"
hexmask.long.word 0x00 0.--15. 1. " ACNTRLD   ,A-Cnt Reload value for Source Active Register set. Value copied from EDMA_TPTCn_PCNT[15:0] ACNT: Represents the originally programmed value of ACNT. The Reload value is used to reinitialize ACNT after each array is serviced (i.e., ACNT decr..."
rgroup.long 0x25C++0x3
line.long 0x00 "EDMA_TPTCn_SASRCBREF,Source Active Set Source Address A-Reference"
hexmask.long 0x00 0.--31. 1. " SADDRBREF ,Source address reference for Source Active Register Set: Represents the starting address for the array currently being read. The next array's starting address is calculated as the 'reference address' plus the 'source b-idx' value."
rgroup.long 0x260++0x3
line.long 0x00 "EDMA_TPTCn_SADSTBREF,Source Active Destination Address B-Reference Register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " DADDRBREF ,Destination address reference is not applicable for Src Active Register Set. Reads return 0x0."
rgroup.long 0x280++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTRLD,Destination FIFO Set Count Reload"
hexmask.long.word 0x00 0.--15. 1. " ACNTRLD   ,A-Cnt Reload value for Destination FIFO Register set. Value copied fromEDMA_TPTCn_PCNT[15:0] ACNT: Represents the originally programmed value of ACNT. The Reload value is used to reinitialize ACNT after each array is serviced (i.e., ACNT de..."
rgroup.long 0x284++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCBREF,Destination FIFO Set Destination Address B Reference Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDRBREF ,Source address reference is not applicable for Dst FIFO Register Set. Reads return 0x0."
rgroup.long 0x288++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTBREF,Destination FIFO Set Destination Address A-Reference"
hexmask.long 0x00 0.--31. 1. " DADDRBREF ,Destination address reference for Dst FIFO Register Set: Represents the starting address for the array currently being written. The next array's starting address is calculated as the 'reference address' plus the 'dest bidx' value."
width 0x0B
tree.end
tree "SYS_EDMA_TPTC0"
base ad:0x43400000
tree "DMA_Channel_0"
width 24.
rgroup.long 0x310++0x3
line.long 0x00 "EDMA_TPTCn_DFBIDXi_0,The destination FIFO B-index register"
hexmask.long.word 0x00 16.--31. 1. " DBIDX  ,Dest B-Idx for Dest FIFO Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACN..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX   ,Dest B-Idx for Dest FIFO Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays..."
rgroup.long 0x308++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTi_0,Destination FIFO count register"
hexmask.long.word 0x00 16.--31. 1. " BCNT   ,B-Count Remaining for Dst Register Set: Number of arrays to be transferred, where each array is ACNT in length. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT    ,A-Count Remaining for Dst Register Set: Number of bytes to be transferred in first dimension. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
rgroup.long 0x30C++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTi_0,The destination FIFO destination address register"
hexmask.long 0x00 0.--31. 1. " DADDR  ,Destination address for Dst FIFO Register Set: Initial value is copied from EDMA_TPTCn_PDST[31:0] DADDR. TC updates value according to destination addressing mode (EDMA_TPCC_OPT_n. SAM) and/or dest index value (BIDX. DBIDX) after each write co..."
rgroup.long 0x314++0x3
line.long 0x00 "EDMA_TPTCn_DFMPPRXYi_0,The destination FIFO memory protection proxy register"
bitfld.long 0x00 8. " PRIV   ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "  PRIVID  ,Privilege ID: DFMPPRXY0.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the valu..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x300++0x3
line.long 0x00 "EDMA_TPTCn_DFOPTi_0,Destination FIFO Set Options"
bitfld.long 0x00 22. " TCCHEN ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "           TCC ,Transfer Complete Code The 6-bit code is used to set the relevant bit in CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID   ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                     PRI     ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "  DAM ,Destination Address Mode within an array - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " SAM    ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x304++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCi_0,Destination FIFO source address register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDR  ,Source address is not applicable for Dst FIFO Register Set: Reads return 0x0."
tree.end
tree "DMA_Channel_1"
width 24.
rgroup.long 0x350++0x3
line.long 0x00 "EDMA_TPTCn_DFBIDXi_1,The destination FIFO B-index register"
hexmask.long.word 0x00 16.--31. 1. " DBIDX  ,Dest B-Idx for Dest FIFO Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACN..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX   ,Dest B-Idx for Dest FIFO Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays..."
rgroup.long 0x348++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTi_1,Destination FIFO count register"
hexmask.long.word 0x00 16.--31. 1. " BCNT   ,B-Count Remaining for Dst Register Set: Number of arrays to be transferred, where each array is ACNT in length. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT    ,A-Count Remaining for Dst Register Set: Number of bytes to be transferred in first dimension. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
rgroup.long 0x34C++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTi_1,The destination FIFO destination address register"
hexmask.long 0x00 0.--31. 1. " DADDR  ,Destination address for Dst FIFO Register Set: Initial value is copied from EDMA_TPTCn_PDST[31:0] DADDR. TC updates value according to destination addressing mode (EDMA_TPCC_OPT_n. SAM) and/or dest index value (BIDX. DBIDX) after each write co..."
rgroup.long 0x354++0x3
line.long 0x00 "EDMA_TPTCn_DFMPPRXYi_1,The destination FIFO memory protection proxy register"
bitfld.long 0x00 8. " PRIV   ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "  PRIVID  ,Privilege ID: DFMPPRXY0.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the valu..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x340++0x3
line.long 0x00 "EDMA_TPTCn_DFOPTi_1,Destination FIFO Set Options"
bitfld.long 0x00 22. " TCCHEN ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "           TCC ,Transfer Complete Code The 6-bit code is used to set the relevant bit in CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID   ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                     PRI     ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "  DAM ,Destination Address Mode within an array - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " SAM    ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x344++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCi_1,Destination FIFO source address register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDR  ,Source address is not applicable for Dst FIFO Register Set: Reads return 0x0."
tree.end
textline ""
width 22.
rgroup.long 0x0++0x3
line.long 0x00 "EDMA_TPTCn_PID,Peripheral ID Register"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
rgroup.long 0x4++0x3
line.long 0x00 "EDMA_TPTCn_TCCFG,TC Configuration Register"
bitfld.long 0x00 8.--9. " DREGDEPTH ,Destination Register FIFO Depth Parameterization" "0,1,2,3"
bitfld.long 0x00 4.--5. "                        BUSWIDTH  ,Bus Width Parameterization" "0,1,2,3"
bitfld.long 0x00 0.--2. "                       FIFOSIZE ,Fifo Size Parameterization" "0,1,2,3,4,5,6,7"
rgroup.long 0x100++0x3
line.long 0x00 "EDMA_TPTCn_TCSTAT,TC Status Register"
bitfld.long 0x00 11.--12. " DFSTRTPTR ,Dst FIFO Start Pointer Represents the offset to the head entry of Dst Register FIFO, in units of *entries*. Legal values = 0x0 to 0x3" "0,1,2,3"
bitfld.long 0x00 8. "                        ACTV      ,Channel Active Channel Active is a logical-OR of each of the *BUSY/ACTV signals. The ACTV bit must remain high through the life of a TR. - . - ." "Channel_is_idle,Channel_is_busy"
bitfld.long 0x00 4.--6. "         DSTACTV  ,Destination Active State Specifies the number of TRs that are resident in the Dst Register FIFO at a given instant. Legal values are constrained by the DSTREGDEPTH parameter." "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 2. " WSACTV    ,Write Status Active - . - ." "0,1"
bitfld.long 0x00 1. "                        SRCACTV   ,Source Active State - . - ." "0,1"
bitfld.long 0x00 0. "                       PROGBUSY ,Program Register Set Busy - . - ." "0,1"
rgroup.long 0x104++0x3
line.long 0x00 "EDMA_TPTCn_INTSTAT,Interrupt Status Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Status - . - ." "Condition_not_detected.,1"
bitfld.long 0x00 0. "  PROGEMPTY ,Program Set Empty Event Status - . - ." "Condition_not_detected,1"
group.long 0x108++0x3
line.long 0x00 "EDMA_TPTCn_INTEN,Interrupt Enable Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Enable - . - ." "0,1"
bitfld.long 0x00 0. "                        PROGEMPTY ,Program Set Empty Event Enable - . - ." "0,1"
wgroup.long 0x10C++0x3
line.long 0x00 "EDMA_TPTCn_INTCLR,Interrupt Clear Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Clear - . - ." "have_no_effect.,Clear"
bitfld.long 0x00 0. "          PROGEMPTY ,Program Set Empty Event Clear - . - ." "have_no_effect.,Clear"
wgroup.long 0x110++0x3
line.long 0x00 "EDMA_TPTCn_INTCMD,Interrupt Command Register"
bitfld.long 0x00 1. " SET       ,Set TPTC interrupt - . - ." "have_no_affect.,1"
bitfld.long 0x00 0. "          EVAL      ,Evaluate state of TPTC interrupt - . - ." "have_no_affect.,1"
rgroup.long 0x120++0x3
line.long 0x00 "EDMA_TPTCn_ERRSTAT,Error Status Register"
bitfld.long 0x00 3. " MMRAERR   ,MR Address Error - . - ." "Condition_not_detected,1"
bitfld.long 0x00 2. "   TRERR     ,TR Error: TR detected that violates FIFO Mode transfer (SAM or DAM is '1') alignment rules or has ACNT or BCNT == 0. No additional error information is recorded." "0,1"
bitfld.long 0x00 0. "                       BUSERR   ,Bus Error Event - . - ." "Condition_not_detected.,1"
group.long 0x124++0x3
line.long 0x00 "EDMA_TPTCn_ERREN,Error Enable Register"
bitfld.long 0x00 3. " MMRAERR   ,Interrupt enable forEDMA_TPTCn_ERRSTAT[3] MMRAERR - . - ." "BUSERR_is_disabled,1"
bitfld.long 0x00 2. "       TRERR     ,Interrupt enable forEDMA_TPTCn_ERRSTAT[2] TRERR - . - ." "BUSERR_is_disabled.,1"
bitfld.long 0x00 0. "     BUSERR   ,Interrupt enable forEDMA_TPTCn_ERRSTAT[0] BUSERR - . - ." "BUSERR_is_disabled.,1"
wgroup.long 0x128++0x3
line.long 0x00 "EDMA_TPTCn_ERRCLR,Error Clear Register"
bitfld.long 0x00 3. " MMRAERR   ,Interrupt clear forEDMA_TPTCn_ERRSTAT[3] MMRAERR - . - ." "have_no_effect,1"
bitfld.long 0x00 2. "           TRERR     ,Interrupt clear forEDMA_TPTCn_ERRSTAT[2] TRERR - . - ." "have_no_effect,1"
bitfld.long 0x00 0. "          BUSERR   ,Interrupt clear forEDMA_TPTCn_ERRSTAT[0] BUSERR - . - ." "have_no_effect,1"
rgroup.long 0x12C++0x3
line.long 0x00 "EDMA_TPTCn_ERRDET,Error Details Register"
bitfld.long 0x00 17. " TCCHEN    ,Contains theEDMA_TPCC_OPT_n[17] TCCHEN value programmed by the user for the Read or Write transaction that resulted in an error." "0,1"
bitfld.long 0x00 16. "                        TCINTEN   ,Contains theEDMA_TPCC_OPT_n[16] TCINTEN value programmed by the user for the Read or Write transaction that resulted in an error." "0,1"
bitfld.long 0x00 8.--13. "                       TCC      ,Transfer Complete Code: Contains theEDMA_TPCC_OPT_n[13:8] TCC value programmed by the user for the Read or Write transaction that resulted in an error." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0.--3. " STAT      ,Transaction Status: Stores the non-zero status/error code that was detected on the read status or write status bus. MS-bit effectively serves as the read vs. write error code. If read status and write status are returned on the same cycle, ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
wgroup.long 0x130++0x3
line.long 0x00 "EDMA_TPTCn_ERRCMD,Error Command Register"
bitfld.long 0x00 1. " SET       ,Set TPTC error interrupt - . - ." "have_no_affect,1"
bitfld.long 0x00 0. "           EVAL      ,Evaluate state of TPTC error interrupt Write of '1' - . - ." "have_no_affect,1"
group.long 0x140++0x3
line.long 0x00 "EDMA_TPTCn_RDRATE,Read Rate Register"
bitfld.long 0x00 0.--2. " RDRATE    ,Read Rate Control: Controls the number of cycles between read commands. This is a global setting that applies to all TRs for this TC." "0,1,2,3,4,5,6,7"
group.long 0x200++0x3
line.long 0x00 "EDMA_TPTCn_POPT,Program Set Options"
bitfld.long 0x00 22. " TCCHEN    ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                        TCINTEN   ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "                       TCC      ,Transfer Complete Code: The 6-bit code is used to set the relevant bit in CER orEDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 8.--10. " FWID      ,FIFO width control: Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                        PRI       ,Transfer Priority: 0x0: Priority 0 - Highest priority 0x1: Priority 1 ... 0x7: Priority 7 - Lowest priority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 1. "                       DAM      ,Destination Address Mode within an array - . - ." "0,1"
textline "                               "
bitfld.long 0x00 0. " SAM       ,Source Address Mode within an array - . - ." "0,1"
group.long 0x204++0x3
line.long 0x00 "EDMA_TPTCn_PSRC,Program Set Source Address"
hexmask.long 0x00 0.--31. 1. " SADDR     ,Source address for Program Register Set"
group.long 0x208++0x3
line.long 0x00 "EDMA_TPTCn_PCNT,Program Set Count"
hexmask.long.word 0x00 16.--31. 1. " BCNT      ,B-Dimension count. Number of arrays to be transferred, where each array is ACNT in length."
hexmask.long.word 0x00 0.--15. 1. "                     ACNT      ,A-Dimension count. Number of bytes to be transferred in first dimension."
group.long 0x20C++0x3
line.long 0x00 "EDMA_TPTCn_PDST,Program Set Destination Address"
hexmask.long 0x00 0.--31. 1. " DADDR     ,Destination address for Program Register Set"
group.long 0x210++0x3
line.long 0x00 "EDMA_TPTCn_PBIDX,Program Set B-Dim Idx"
hexmask.long.word 0x00 16.--31. 1. " DBIDX     ,Dest B-Idx for Program Register Set: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACNT elements). DBIDX is always used, ..."
hexmask.long.word 0x00 0.--15. 1. "                     SBIDX     ,Source B-Idx for Program Register Set: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays of ACNT elements). SBIDX is a..."
rgroup.long 0x214++0x3
line.long 0x00 "EDMA_TPTCn_PMPPRXY,Program Set Memory Protect Proxy"
bitfld.long 0x00 8. " PRIV      ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "     PRIVID    ,Privilege ID: EDMA_TPTCn_PMPPRXY.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x240++0x3
line.long 0x00 "EDMA_TPTCn_SAOPT,Source Actve Set Options"
bitfld.long 0x00 22. " TCCHEN    ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                        TCINTEN   ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "                       TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 8.--10. " FWID      ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                        PRI       ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "              DAM      ,Destination Address Mode within an array - . - ." "0,1"
textline "                               "
bitfld.long 0x00 0. " SAM       ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x244++0x3
line.long 0x00 "EDMA_TPTCn_SASRC,Source Active Set Source Address"
hexmask.long 0x00 0.--31. 1. " SADDR     ,Source address for Source Active Register Set: Initial value is copied from EDMA_TPTCn_PSRC.SADDR. TC updates value according to source addressing mode (EDMA_TPCC_OPT_n.SAM) and/or source index value (BIDX.SBIDX) after each read command is ..."
rgroup.long 0x248++0x3
line.long 0x00 "EDMA_TPTCn_SACNT,Source Active Set Count"
hexmask.long.word 0x00 16.--31. 1. " BCNT      ,B-Dimension count: Number of arrays to be transferred, where each array is ACNT in length. Count Remaining for Source Active Register Set. Represents the amount of data remaining to be read. Initial value is copied from EDMA_TPTCn_PCNT. TC ..."
hexmask.long.word 0x00 0.--15. 1. "                     ACNT      ,A-Dimension count: Number of bytes to be transferred in first dimension. Count Remaining for Source Active Register Set. Represents the amount of data remaining to be read. Initial value is copied from EDMA_TPTCn_PCNT. T..."
rgroup.long 0x24C++0x3
line.long 0x00 "EDMA_TPTCn_SADST,Source Active Destination Address Register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " DADDR     ,Destination address is not applicable for Source Active Register Set. Reads return 0x0"
rgroup.long 0x250++0x3
line.long 0x00 "EDMA_TPTCn_SABIDX,Source Active Set B-Dim Idx"
hexmask.long.word 0x00 16.--31. 1. " DBIDX     ,Destination B-Idx for Source Active Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT..."
hexmask.long.word 0x00 0.--15. 1. "                     SBIDX     ,Source B-Idx for Source Active Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are ..."
rgroup.long 0x254++0x3
line.long 0x00 "EDMA_TPTCn_SAMPPRXY,Source Active Set Mem Protect Proxy"
bitfld.long 0x00 8. " PRIV      ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "     PRIVID    ,Privilege ID SAMPPRXY.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the v..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x258++0x3
line.long 0x00 "EDMA_TPTCn_SACNTRLD,Source Active Set Count Reload"
hexmask.long.word 0x00 0.--15. 1. " ACNTRLD   ,A-Cnt Reload value for Source Active Register set. Value copied from EDMA_TPTCn_PCNT[15:0] ACNT: Represents the originally programmed value of ACNT. The Reload value is used to reinitialize ACNT after each array is serviced (i.e., ACNT decr..."
rgroup.long 0x25C++0x3
line.long 0x00 "EDMA_TPTCn_SASRCBREF,Source Active Set Source Address A-Reference"
hexmask.long 0x00 0.--31. 1. " SADDRBREF ,Source address reference for Source Active Register Set: Represents the starting address for the array currently being read. The next array's starting address is calculated as the 'reference address' plus the 'source b-idx' value."
rgroup.long 0x260++0x3
line.long 0x00 "EDMA_TPTCn_SADSTBREF,Source Active Destination Address B-Reference Register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " DADDRBREF ,Destination address reference is not applicable for Src Active Register Set. Reads return 0x0."
rgroup.long 0x280++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTRLD,Destination FIFO Set Count Reload"
hexmask.long.word 0x00 0.--15. 1. " ACNTRLD   ,A-Cnt Reload value for Destination FIFO Register set. Value copied fromEDMA_TPTCn_PCNT[15:0] ACNT: Represents the originally programmed value of ACNT. The Reload value is used to reinitialize ACNT after each array is serviced (i.e., ACNT de..."
rgroup.long 0x284++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCBREF,Destination FIFO Set Destination Address B Reference Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDRBREF ,Source address reference is not applicable for Dst FIFO Register Set. Reads return 0x0."
rgroup.long 0x288++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTBREF,Destination FIFO Set Destination Address A-Reference"
hexmask.long 0x00 0.--31. 1. " DADDRBREF ,Destination address reference for Dst FIFO Register Set: Represents the starting address for the array currently being written. The next array's starting address is calculated as the 'reference address' plus the 'dest bidx' value."
width 0x0B
tree.end
tree "SYS_EDMA_TPTC1"
base ad:0x43500000
tree "DMA_Channel_0"
width 24.
rgroup.long 0x310++0x3
line.long 0x00 "EDMA_TPTCn_DFBIDXi_0,The destination FIFO B-index register"
hexmask.long.word 0x00 16.--31. 1. " DBIDX  ,Dest B-Idx for Dest FIFO Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACN..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX   ,Dest B-Idx for Dest FIFO Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays..."
rgroup.long 0x308++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTi_0,Destination FIFO count register"
hexmask.long.word 0x00 16.--31. 1. " BCNT   ,B-Count Remaining for Dst Register Set: Number of arrays to be transferred, where each array is ACNT in length. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT    ,A-Count Remaining for Dst Register Set: Number of bytes to be transferred in first dimension. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
rgroup.long 0x30C++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTi_0,The destination FIFO destination address register"
hexmask.long 0x00 0.--31. 1. " DADDR  ,Destination address for Dst FIFO Register Set: Initial value is copied from EDMA_TPTCn_PDST[31:0] DADDR. TC updates value according to destination addressing mode (EDMA_TPCC_OPT_n. SAM) and/or dest index value (BIDX. DBIDX) after each write co..."
rgroup.long 0x314++0x3
line.long 0x00 "EDMA_TPTCn_DFMPPRXYi_0,The destination FIFO memory protection proxy register"
bitfld.long 0x00 8. " PRIV   ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "  PRIVID  ,Privilege ID: DFMPPRXY0.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the valu..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x300++0x3
line.long 0x00 "EDMA_TPTCn_DFOPTi_0,Destination FIFO Set Options"
bitfld.long 0x00 22. " TCCHEN ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "           TCC ,Transfer Complete Code The 6-bit code is used to set the relevant bit in CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID   ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                     PRI     ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "  DAM ,Destination Address Mode within an array - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " SAM    ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x304++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCi_0,Destination FIFO source address register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDR  ,Source address is not applicable for Dst FIFO Register Set: Reads return 0x0."
tree.end
tree "DMA_Channel_1"
width 24.
rgroup.long 0x350++0x3
line.long 0x00 "EDMA_TPTCn_DFBIDXi_1,The destination FIFO B-index register"
hexmask.long.word 0x00 16.--31. 1. " DBIDX  ,Dest B-Idx for Dest FIFO Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACN..."
hexmask.long.word 0x00 0.--15. 1. "                  SBIDX   ,Dest B-Idx for Dest FIFO Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays..."
rgroup.long 0x348++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTi_1,Destination FIFO count register"
hexmask.long.word 0x00 16.--31. 1. " BCNT   ,B-Count Remaining for Dst Register Set: Number of arrays to be transferred, where each array is ACNT in length. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
hexmask.long.word 0x00 0.--15. 1. "                  ACNT    ,A-Count Remaining for Dst Register Set: Number of bytes to be transferred in first dimension. Represents the amount of data remaining to be written. Initial value is copied from EDMA_TPTCn_PCNT. TC decrements ACNT and BCNT as..."
rgroup.long 0x34C++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTi_1,The destination FIFO destination address register"
hexmask.long 0x00 0.--31. 1. " DADDR  ,Destination address for Dst FIFO Register Set: Initial value is copied from EDMA_TPTCn_PDST[31:0] DADDR. TC updates value according to destination addressing mode (EDMA_TPCC_OPT_n. SAM) and/or dest index value (BIDX. DBIDX) after each write co..."
rgroup.long 0x354++0x3
line.long 0x00 "EDMA_TPTCn_DFMPPRXYi_1,The destination FIFO memory protection proxy register"
bitfld.long 0x00 8. " PRIV   ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "  PRIVID  ,Privilege ID: DFMPPRXY0.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the valu..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x340++0x3
line.long 0x00 "EDMA_TPTCn_DFOPTi_1,Destination FIFO Set Options"
bitfld.long 0x00 22. " TCCHEN ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                     TCINTEN ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "           TCC ,Transfer Complete Code The 6-bit code is used to set the relevant bit in CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                 "
bitfld.long 0x00 8.--10. " FWID   ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                     PRI     ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "  DAM ,Destination Address Mode within an array - . - ." "0,1"
textline "                                 "
bitfld.long 0x00 0. " SAM    ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x344++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCi_1,Destination FIFO source address register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDR  ,Source address is not applicable for Dst FIFO Register Set: Reads return 0x0."
tree.end
textline ""
width 22.
rgroup.long 0x0++0x3
line.long 0x00 "EDMA_TPTCn_PID,Peripheral ID Register"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
rgroup.long 0x4++0x3
line.long 0x00 "EDMA_TPTCn_TCCFG,TC Configuration Register"
bitfld.long 0x00 8.--9. " DREGDEPTH ,Destination Register FIFO Depth Parameterization" "0,1,2,3"
bitfld.long 0x00 4.--5. "                        BUSWIDTH  ,Bus Width Parameterization" "0,1,2,3"
bitfld.long 0x00 0.--2. "                       FIFOSIZE ,Fifo Size Parameterization" "0,1,2,3,4,5,6,7"
rgroup.long 0x100++0x3
line.long 0x00 "EDMA_TPTCn_TCSTAT,TC Status Register"
bitfld.long 0x00 11.--12. " DFSTRTPTR ,Dst FIFO Start Pointer Represents the offset to the head entry of Dst Register FIFO, in units of *entries*. Legal values = 0x0 to 0x3" "0,1,2,3"
bitfld.long 0x00 8. "                        ACTV      ,Channel Active Channel Active is a logical-OR of each of the *BUSY/ACTV signals. The ACTV bit must remain high through the life of a TR. - . - ." "Channel_is_idle,Channel_is_busy"
bitfld.long 0x00 4.--6. "         DSTACTV  ,Destination Active State Specifies the number of TRs that are resident in the Dst Register FIFO at a given instant. Legal values are constrained by the DSTREGDEPTH parameter." "0,1,2,3,4,5,6,7"
textline "                               "
bitfld.long 0x00 2. " WSACTV    ,Write Status Active - . - ." "0,1"
bitfld.long 0x00 1. "                        SRCACTV   ,Source Active State - . - ." "0,1"
bitfld.long 0x00 0. "                       PROGBUSY ,Program Register Set Busy - . - ." "0,1"
rgroup.long 0x104++0x3
line.long 0x00 "EDMA_TPTCn_INTSTAT,Interrupt Status Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Status - . - ." "Condition_not_detected.,1"
bitfld.long 0x00 0. "  PROGEMPTY ,Program Set Empty Event Status - . - ." "Condition_not_detected,1"
group.long 0x108++0x3
line.long 0x00 "EDMA_TPTCn_INTEN,Interrupt Enable Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Enable - . - ." "0,1"
bitfld.long 0x00 0. "                        PROGEMPTY ,Program Set Empty Event Enable - . - ." "0,1"
wgroup.long 0x10C++0x3
line.long 0x00 "EDMA_TPTCn_INTCLR,Interrupt Clear Register"
bitfld.long 0x00 1. " TRDONE    ,TR Done Event Clear - . - ." "have_no_effect.,Clear"
bitfld.long 0x00 0. "          PROGEMPTY ,Program Set Empty Event Clear - . - ." "have_no_effect.,Clear"
wgroup.long 0x110++0x3
line.long 0x00 "EDMA_TPTCn_INTCMD,Interrupt Command Register"
bitfld.long 0x00 1. " SET       ,Set TPTC interrupt - . - ." "have_no_affect.,1"
bitfld.long 0x00 0. "          EVAL      ,Evaluate state of TPTC interrupt - . - ." "have_no_affect.,1"
rgroup.long 0x120++0x3
line.long 0x00 "EDMA_TPTCn_ERRSTAT,Error Status Register"
bitfld.long 0x00 3. " MMRAERR   ,MR Address Error - . - ." "Condition_not_detected,1"
bitfld.long 0x00 2. "   TRERR     ,TR Error: TR detected that violates FIFO Mode transfer (SAM or DAM is '1') alignment rules or has ACNT or BCNT == 0. No additional error information is recorded." "0,1"
bitfld.long 0x00 0. "                       BUSERR   ,Bus Error Event - . - ." "Condition_not_detected.,1"
group.long 0x124++0x3
line.long 0x00 "EDMA_TPTCn_ERREN,Error Enable Register"
bitfld.long 0x00 3. " MMRAERR   ,Interrupt enable forEDMA_TPTCn_ERRSTAT[3] MMRAERR - . - ." "BUSERR_is_disabled,1"
bitfld.long 0x00 2. "       TRERR     ,Interrupt enable forEDMA_TPTCn_ERRSTAT[2] TRERR - . - ." "BUSERR_is_disabled.,1"
bitfld.long 0x00 0. "     BUSERR   ,Interrupt enable forEDMA_TPTCn_ERRSTAT[0] BUSERR - . - ." "BUSERR_is_disabled.,1"
wgroup.long 0x128++0x3
line.long 0x00 "EDMA_TPTCn_ERRCLR,Error Clear Register"
bitfld.long 0x00 3. " MMRAERR   ,Interrupt clear forEDMA_TPTCn_ERRSTAT[3] MMRAERR - . - ." "have_no_effect,1"
bitfld.long 0x00 2. "           TRERR     ,Interrupt clear forEDMA_TPTCn_ERRSTAT[2] TRERR - . - ." "have_no_effect,1"
bitfld.long 0x00 0. "          BUSERR   ,Interrupt clear forEDMA_TPTCn_ERRSTAT[0] BUSERR - . - ." "have_no_effect,1"
rgroup.long 0x12C++0x3
line.long 0x00 "EDMA_TPTCn_ERRDET,Error Details Register"
bitfld.long 0x00 17. " TCCHEN    ,Contains theEDMA_TPCC_OPT_n[17] TCCHEN value programmed by the user for the Read or Write transaction that resulted in an error." "0,1"
bitfld.long 0x00 16. "                        TCINTEN   ,Contains theEDMA_TPCC_OPT_n[16] TCINTEN value programmed by the user for the Read or Write transaction that resulted in an error." "0,1"
bitfld.long 0x00 8.--13. "                       TCC      ,Transfer Complete Code: Contains theEDMA_TPCC_OPT_n[13:8] TCC value programmed by the user for the Read or Write transaction that resulted in an error." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 0.--3. " STAT      ,Transaction Status: Stores the non-zero status/error code that was detected on the read status or write status bus. MS-bit effectively serves as the read vs. write error code. If read status and write status are returned on the same cycle, ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
wgroup.long 0x130++0x3
line.long 0x00 "EDMA_TPTCn_ERRCMD,Error Command Register"
bitfld.long 0x00 1. " SET       ,Set TPTC error interrupt - . - ." "have_no_affect,1"
bitfld.long 0x00 0. "           EVAL      ,Evaluate state of TPTC error interrupt Write of '1' - . - ." "have_no_affect,1"
group.long 0x140++0x3
line.long 0x00 "EDMA_TPTCn_RDRATE,Read Rate Register"
bitfld.long 0x00 0.--2. " RDRATE    ,Read Rate Control: Controls the number of cycles between read commands. This is a global setting that applies to all TRs for this TC." "0,1,2,3,4,5,6,7"
group.long 0x200++0x3
line.long 0x00 "EDMA_TPTCn_POPT,Program Set Options"
bitfld.long 0x00 22. " TCCHEN    ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                        TCINTEN   ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "                       TCC      ,Transfer Complete Code: The 6-bit code is used to set the relevant bit in CER orEDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 8.--10. " FWID      ,FIFO width control: Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                        PRI       ,Transfer Priority: 0x0: Priority 0 - Highest priority 0x1: Priority 1 ... 0x7: Priority 7 - Lowest priority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 1. "                       DAM      ,Destination Address Mode within an array - . - ." "0,1"
textline "                               "
bitfld.long 0x00 0. " SAM       ,Source Address Mode within an array - . - ." "0,1"
group.long 0x204++0x3
line.long 0x00 "EDMA_TPTCn_PSRC,Program Set Source Address"
hexmask.long 0x00 0.--31. 1. " SADDR     ,Source address for Program Register Set"
group.long 0x208++0x3
line.long 0x00 "EDMA_TPTCn_PCNT,Program Set Count"
hexmask.long.word 0x00 16.--31. 1. " BCNT      ,B-Dimension count. Number of arrays to be transferred, where each array is ACNT in length."
hexmask.long.word 0x00 0.--15. 1. "                     ACNT      ,A-Dimension count. Number of bytes to be transferred in first dimension."
group.long 0x20C++0x3
line.long 0x00 "EDMA_TPTCn_PDST,Program Set Destination Address"
hexmask.long 0x00 0.--31. 1. " DADDR     ,Destination address for Program Register Set"
group.long 0x210++0x3
line.long 0x00 "EDMA_TPTCn_PBIDX,Program Set B-Dim Idx"
hexmask.long.word 0x00 16.--31. 1. " DBIDX     ,Dest B-Idx for Program Register Set: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT arrays of ACNT elements). DBIDX is always used, ..."
hexmask.long.word 0x00 0.--15. 1. "                     SBIDX     ,Source B-Idx for Program Register Set: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are BCNT arrays of ACNT elements). SBIDX is a..."
rgroup.long 0x214++0x3
line.long 0x00 "EDMA_TPTCn_PMPPRXY,Program Set Memory Protect Proxy"
bitfld.long 0x00 8. " PRIV      ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "     PRIVID    ,Privilege ID: EDMA_TPTCn_PMPPRXY.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x240++0x3
line.long 0x00 "EDMA_TPTCn_SAOPT,Source Actve Set Options"
bitfld.long 0x00 22. " TCCHEN    ,Transfer complete chaining enable - . - ." "0,1"
bitfld.long 0x00 20. "                        TCINTEN   ,Transfer complete interrupt enable - . - ." "0,1"
bitfld.long 0x00 12.--17. "                       TCC      ,Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER or EDMA_TPCC_IPR of the TPCC module." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                               "
bitfld.long 0x00 8.--10. " FWID      ,FIFO width control Applies if either SAM or DAM is set to FIFO mode." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "                        PRI       ,Transfer Priority - . - . - ... . - . - ." "0,Priority_1,2,3,4,5,6,7"
bitfld.long 0x00 1. "              DAM      ,Destination Address Mode within an array - . - ." "0,1"
textline "                               "
bitfld.long 0x00 0. " SAM       ,Source Address Mode within an array - . - ." "0,1"
rgroup.long 0x244++0x3
line.long 0x00 "EDMA_TPTCn_SASRC,Source Active Set Source Address"
hexmask.long 0x00 0.--31. 1. " SADDR     ,Source address for Source Active Register Set: Initial value is copied from EDMA_TPTCn_PSRC.SADDR. TC updates value according to source addressing mode (EDMA_TPCC_OPT_n.SAM) and/or source index value (BIDX.SBIDX) after each read command is ..."
rgroup.long 0x248++0x3
line.long 0x00 "EDMA_TPTCn_SACNT,Source Active Set Count"
hexmask.long.word 0x00 16.--31. 1. " BCNT      ,B-Dimension count: Number of arrays to be transferred, where each array is ACNT in length. Count Remaining for Source Active Register Set. Represents the amount of data remaining to be read. Initial value is copied from EDMA_TPTCn_PCNT. TC ..."
hexmask.long.word 0x00 0.--15. 1. "                     ACNT      ,A-Dimension count: Number of bytes to be transferred in first dimension. Count Remaining for Source Active Register Set. Represents the amount of data remaining to be read. Initial value is copied from EDMA_TPTCn_PCNT. T..."
rgroup.long 0x24C++0x3
line.long 0x00 "EDMA_TPTCn_SADST,Source Active Destination Address Register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " DADDR     ,Destination address is not applicable for Source Active Register Set. Reads return 0x0"
rgroup.long 0x250++0x3
line.long 0x00 "EDMA_TPTCn_SABIDX,Source Active Set B-Dim Idx"
hexmask.long.word 0x00 16.--31. 1. " DBIDX     ,Destination B-Idx for Source Active Register Set. Value copied from EDMA_TPTCn_PBIDX: B-Idx offset between Destination arrays: Represents the offset in bytes between the starting address of each destination array (recall that there are BCNT..."
hexmask.long.word 0x00 0.--15. 1. "                     SBIDX     ,Source B-Idx for Source Active Register Set. Value copied fromEDMA_TPTCn_PBIDX: B-Idx offset between Source arrays: Represents the offset in bytes between the starting address of each source array (recall that there are ..."
rgroup.long 0x254++0x3
line.long 0x00 "EDMA_TPTCn_SAMPPRXY,Source Active Set Mem Protect Proxy"
bitfld.long 0x00 8. " PRIV      ,Privilege Level - . - ." "User_level_privilege,1"
bitfld.long 0x00 0.--3. "     PRIVID    ,Privilege ID SAMPPRXY.PRIVID is always updated with the value from configuration bus privilege ID field on any/every write to Program Set BIDX Register (trigger register). The PRIVID value for the SA Set and DF Set are copied from the v..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x258++0x3
line.long 0x00 "EDMA_TPTCn_SACNTRLD,Source Active Set Count Reload"
hexmask.long.word 0x00 0.--15. 1. " ACNTRLD   ,A-Cnt Reload value for Source Active Register set. Value copied from EDMA_TPTCn_PCNT[15:0] ACNT: Represents the originally programmed value of ACNT. The Reload value is used to reinitialize ACNT after each array is serviced (i.e., ACNT decr..."
rgroup.long 0x25C++0x3
line.long 0x00 "EDMA_TPTCn_SASRCBREF,Source Active Set Source Address A-Reference"
hexmask.long 0x00 0.--31. 1. " SADDRBREF ,Source address reference for Source Active Register Set: Represents the starting address for the array currently being read. The next array's starting address is calculated as the 'reference address' plus the 'source b-idx' value."
rgroup.long 0x260++0x3
line.long 0x00 "EDMA_TPTCn_SADSTBREF,Source Active Destination Address B-Reference Register Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " DADDRBREF ,Destination address reference is not applicable for Src Active Register Set. Reads return 0x0."
rgroup.long 0x280++0x3
line.long 0x00 "EDMA_TPTCn_DFCNTRLD,Destination FIFO Set Count Reload"
hexmask.long.word 0x00 0.--15. 1. " ACNTRLD   ,A-Cnt Reload value for Destination FIFO Register set. Value copied fromEDMA_TPTCn_PCNT[15:0] ACNT: Represents the originally programmed value of ACNT. The Reload value is used to reinitialize ACNT after each array is serviced (i.e., ACNT de..."
rgroup.long 0x284++0x3
line.long 0x00 "EDMA_TPTCn_DFSRCBREF,Destination FIFO Set Destination Address B Reference Reserved, return 0x0 w/o AERROR"
hexmask.long 0x00 0.--31. 1. " SADDRBREF ,Source address reference is not applicable for Dst FIFO Register Set. Reads return 0x0."
rgroup.long 0x288++0x3
line.long 0x00 "EDMA_TPTCn_DFDSTBREF,Destination FIFO Set Destination Address A-Reference"
hexmask.long 0x00 0.--31. 1. " DADDRBREF ,Destination address reference for Dst FIFO Register Set: Represents the starting address for the array currently being written. The next array's starting address is calculated as the 'reference address' plus the 'dest bidx' value."
width 0x0B
tree.end
tree.end
tree.end
tree.open "System_DMA"
tree "DMA_SYSTEM"
base ad:0x4A056000
tree "DMA_Channel_0"
width 21.
group.long 0xD8++0x3
line.long 0x00 "DMA4_CCDNi_0,"
hexmask.long.word 0x00 0.--15. 1. " CURRENT_DESCRIPTOR_NBR                  ,This register when read contains the current active descriptor number in the link list. This register is Read/write to allow user initialization."
group.long 0xBC++0x3
line.long 0x00 "DMA4_CCENi_0,Channel Current Transferred Element Number in the current frame. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.tbyte 0x00 0.--23. 1. " CURRENT_ELMNT_NBR                       ,Channel current transferred element number in the current frame"
group.long 0xC0++0x3
line.long 0x00 "DMA4_CCFNi_0,Channel Current Transferred Frame Number in the current transfer. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.word 0x00 0.--15. 1. " CURRENT_FRAME_NBR                       ,Channel current transferred frame number in the current transfer"
group.long 0x80++0x3
line.long 0x00 "DMA4_CCRi_0,Channel Control Register"
bitfld.long 0x00 26. " WRITE_PRIORITY                          ,Channel priority on the Write side - . - ." "0,1"
bitfld.long 0x00 25. "                      BUFFERING_DISABLE       ,This bit allows to disable the default buffering functionality when transfer is source synchronized. - . - ." "0,1"
bitfld.long 0x00 24. "                          SEL_SRC_DST_SYNC      ,Specifies that element, packet, frame or block transfer (depending on CCR.bs and CCR.fs) is triggered by the source or the destination on the DMA request - . - ." "0,1"
textline "                              "
bitfld.long 0x00 23. " PREFETCH                                ,Enables the prefetch mode - . - ." "0,1"
bitfld.long 0x00 22. "                      SUPERVISOR              ,Enables the supervisor mode - . - ." "0,1"
bitfld.long 0x00 19.--20. "                          SYNCHRO_CONTROL_UPPER ,Channel Synchronization control upper (used in conjunction with the 5 bits of synchro channelDMA4_CCRi[4:0]) Used in conjunction, as 2 MSB, with the 5 bits of the synchro channel bit field." "0,1,2,3"
textline "                              "
bitfld.long 0x00 18. " BS                                      ,Block synchronization This bit used in conjunction with the fs to see how the DMA request is serviced in a synchronized transfer." "0,1"
bitfld.long 0x00 17. "                      TRANSPARENT_COPY_ENABLE ,Transparent copy enable - . - ." "0,1"
bitfld.long 0x00 16. "                          CONST_FILL_ENABLE     ,Constant fill enable - . - ." "0,1"
textline "                              "
bitfld.long 0x00 14.--15. " DST_AMODE                               ,Selects the addressing mode on the Write Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 12.--13. "  SRC_AMODE               ,Selects the addressing mode on the Read Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 10. "      WR_ACTIVE             ,Indicates if the channel write context is active or not - . - ." "0,1"
textline "                              "
bitfld.long 0x00 9. " RD_ACTIVE                               ,Indicates if the channel read context is active or not - . - ." "0,1"
bitfld.long 0x00 8. "                      SUSPEND_SENSITIVE       ,Logical channel suspend enable bit - . - ." "0,1"
bitfld.long 0x00 7. "                          ENABLE                ,Logical channel enable. It is SW responsibility to clear the CSR register and the IRQSTATUS bit for the different interrupt lines before enabling the channel. - . - ." "0,1"
textline "                              "
bitfld.long 0x00 6. " READ_PRIORITY                           ,Channel priority on the read side - . - ." "0,1"
bitfld.long 0x00 5. "                      FS                      ,Frame synchronization This bit used in conjunction with the BS to see how the DMA request is serviced in a synchronized transfer FS = 0 and BS = 0: An element is transferred once a DMA request is made. FS ..." "0,1"
bitfld.long 0x00 0.--4. "                          SYNCHRO_CONTROL       ,Channel synchronization control This bit field used in conjunction with the second_level_ synchro_control_upper (as 2 MSB) 0000000 : Is reserved for non synchronized LCH transfer xxxxxxx (from 1 to 127)T..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xB8++0x3
line.long 0x00 "DMA4_CDACi_0,Channel Destination Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " DST_ELMNT_ADRS                          ,Current destination address counter value"
group.long 0xAC++0x3
line.long 0x00 "DMA4_CDEIi_0,Channel Destination Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_DST_ELMNT_INDEX                 ,Channel destination element index"
group.long 0xB0++0x3
line.long 0x00 "DMA4_CDFIi_0,Channel Destination Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_DST_FRM_IDX_OR_16BIT_PKT_ELNT_NBR    ,Channel destination frame index value if destination address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC]=0; the bit field [15:0] gives the number of element in packet. The field [31:16]..."
group.long 0xD0++0x3
line.long 0x00 "DMA4_CDPi_0,This register controls the various parameters of the link list mechanism"
bitfld.long 0x00 10. " FAST                                    ,Sets the fast-start mode for linked list descriptor types 1, 2 and 3 - . - ." "No_fast-start_mode,1"
bitfld.long 0x00 8.--9. "     TRANSFER_MODE           ,Enable linked-list transfer mode - . - . - . - ." "0,1,Undefined,Undefined"
bitfld.long 0x00 7. "                  PAUSE_LINK_LIST       ,Suspend the linked-list transfer at completion of the current block transfer. - . - ." "0,1"
textline "                              "
bitfld.long 0x00 4.--6. " NEXT_DESCRIPTOR_TYPE                    ,Next Descriptor Type - . - . - . - . - . - . - . - ." "Undefined,1,2,3,Undefined,Undefined,Undefined,Undefined"
bitfld.long 0x00 2.--3. "              SRC_VALID               ,Source address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
bitfld.long 0x00 0.--1. "  DEST_VALID            ,Destination address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
group.long 0xA0++0x3
line.long 0x00 "DMA4_CDSAi_0,Channel Destination Start Address"
hexmask.long 0x00 0.--31. 1. " DST_START_ADRS                          ,32 bits of the destination start address"
group.long 0x94++0x3
line.long 0x00 "DMA4_CENi_0,Channel Element Number"
hexmask.long.tbyte 0x00 0.--23. 1. " CHANNEL_ELMNT_NBR                       ,Number of elements within a frame (unsigned) to transfer"
group.long 0x98++0x3
line.long 0x00 "DMA4_CFNi_0,Channel Frame Number"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_FRAME_NBR                       ,Number of frames within the block to be transferred (unsigned)"
group.long 0x88++0x3
line.long 0x00 "DMA4_CICRi_0,Channel Interrupt Control Register"
bitfld.long 0x00 14. " SUPER_BLOCK_IE                          ,Enables the end of super block interrupt" "0,1"
bitfld.long 0x00 12. "                      DRAIN_IE                ,Enables the end of draining interrupt" "0,1"
bitfld.long 0x00 11. "                          MISALIGNED_ERR_IE     ,Enables the address misaligned error event interrupt - . - ." "0,1"
textline "                              "
bitfld.long 0x00 10. " SUPERVISOR_ERR_IE                       ,Enables the supervisor transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 8. "                      TRANS_ERR_IE            ,Enables the transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 7. "                          PKT_IE                ,Enables the end of Packet interrupt - . - ." "0,1"
textline "                              "
bitfld.long 0x00 5. " BLOCK_IE                                ,Enables the end of block interrupt - . - ." "0,1"
bitfld.long 0x00 4. "                      LAST_IE                 ,Last frame interrupt enable (start of last frame) - . - ." "0,1"
bitfld.long 0x00 3. "                          FRAME_IE              ,Frame interrupt enable (end of frame) - . - ." "0,1"
textline "                              "
bitfld.long 0x00 2. " HALF_IE                                 ,Enables or disables the half frame interrupt. - . - ." "0,1"
bitfld.long 0x00 1. "                      DROP_IE                 ,Synchronization event drop interrupt enable (request collision) - . - ." "0,1"
group.long 0x84++0x3
line.long 0x00 "DMA4_CLNK_CTRLi_0,Channel Link Control Register"
bitfld.long 0x00 15. " ENABLE_LNK                              ,Enables or disable the channel linking. - . - ." "0,1"
bitfld.long 0x00 0.--4. "                      NEXTLCH_ID              ,Defines the NextLCh_ID, which is used to build logical channel chaining queue." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xD4++0x3
line.long 0x00 "DMA4_CNDPi_0,This register contains the Next descriptor Address Pointer for the link list Mechanism"
hexmask.long 0x00 2.--31. 1. " NEXT_DESCRIPTOR_POINTER                 ,This register contains the Next descriptor Address Pointer for the link list Mechanism"
group.long 0xC4++0x3
line.long 0x00 "DMA4_COLORi_0,Channel DMA COLOR KEY /SOLID COLOR"
hexmask.long.tbyte 0x00 0.--23. 1. " CH_BLT_FRGRND_COLOR_OR_SOLID_COLOR_PTRN ,Color key or solid color pattern: The pattern is replicated according to the data type. If the data-type is 8-bit the pattern is replicated 4 times to fill the register in order to enhance processing when data ..."
rgroup.long 0xB4++0x3
line.long 0x00 "DMA4_CSACi_0,Channel Source Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " SRC_ELMNT_ADRS                          ,Current source address counter value"
group.long 0x90++0x3
line.long 0x00 "DMA4_CSDPi_0,Channel Source Destination Parameters"
bitfld.long 0x00 21. " SRC_ENDIAN                              ,Channel source endianness control - . - ." "0,1"
bitfld.long 0x00 20. "                      SRC_ENDIAN_LOCK         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 19. "           DST_ENDIAN            ,Channel Destination endianness control - . - ." "0,1"
textline "                              "
bitfld.long 0x00 18. " DST_ENDIAN_LOCK                         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 16.--17. "       WRITE_MODE              ,Used to enable writing mode without posting or with posting - . - . - . - ." "0,Write_(Posted),2,Undefined"
bitfld.long 0x00 14.--15. "             DST_BURST_EN          ,Used to enable bursting on the Write Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
textline "                              "
bitfld.long 0x00 13. " DST_PACKED                              ,Destination receives packed data. - . - ." "0,1"
bitfld.long 0x00 7.--8. "                      SRC_BURST_EN            ,Used to enable bursting on the Read Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
bitfld.long 0x00 6. "              SRC_PACKED            ,Source provides packed data. - . - ." "0,1"
textline "                              "
bitfld.long 0x00 0.--1. " DATA_TYPE                               ,Defines the type of the data moved in the channel. - . - . - . - ." "8_bits_scalar,16_bits_scalar,32_bits_scalar,Reserved"
group.long 0xA4++0x3
line.long 0x00 "DMA4_CSEIi_0,Channel Source Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_SRC_ELMNT_INDEX                 ,Channel source element index"
group.long 0xA8++0x3
line.long 0x00 "DMA4_CSFIi_0,Channel Source Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_SRC_FRM_INDEX_OR_16BIT_PKT_ELNT_NBR  ,Channel source frame index value if source address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC] = 1; the bit field [15:0] gives the number of element in packet. The field [31:16] is unus..."
group.long 0x8C++0x3
line.long 0x00 "DMA4_CSRi_0,Channel Status Register"
eventfld.long 0x00 14. " SUPER_BLOCK                             ,End of Super block event Read 0x0: The current Super block transfer has not been finished Write 0x0: Status bit unchanged Read 0x1: The current Super block has been transferred Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 12. "                      DRAIN_END               ,End of channel draining Read 0x0: No drain end in the current transfer Write 0x0: Status bit unchanged Read 0x1: The current channel draining is completed Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 11. "                          MISALIGNED_ADRS_ERR   ,Misaligned address error event - . - . - . - ." "No_address_error,1"
textline "                              "
eventfld.long 0x00 10. " SUPERVISOR_ERR                          ,Supervisor transaction error event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 8. "   TRANS_ERR               ,Transaction error event - . - . - . - ." "No_transaction_error,1"
eventfld.long 0x00 7. "       PKT                   ,End of Packet transfer - . - . - . - ." "Status_bit_unchanged,1"
textline "                              "
eventfld.long 0x00 6. " SYNC                                    ,Synchronization status of a channel. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 5. "   BLOCK                   ,End of block event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 4. "       LAST                  ,Last frame (start of last frame) - . - . - . - ." "Status_bit_unchanged,1"
textline "                              "
eventfld.long 0x00 3. " FRAME                                   ,End of frame event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 2. "   HALF                    ,Half of frame event. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 1. "       DROP                  ,Synchronization event drop occured during the transfer - . - . - . - ." "Status_bit_unchanged,1"
group.long 0x9C++0x3
line.long 0x00 "DMA4_CSSAi_0,Channel Source Start Address"
hexmask.long 0x00 0.--31. 1. " SRC_START_ADRS                          ,32 bits of the source start address"
group.long 0x18++0x3
line.long 0x00 "DMA4_IRQENABLE_Lj_0,The interrupt enable register allows to mask/unmask the module internal sources of interrupt, on line Lj"
hexmask.long 0x00 0.--31. 1. " CH_31_0_Lj_EN                           ,Channel Interrupt on Lj mask/unmask : to Mask/Unmask a channel i interrupt on Lj the user writes 0/1 on the bit field i. - . - ."
group.long 0x8++0x3
line.long 0x00 "DMA4_IRQSTATUS_Lj_0,The interrupt status register regroups all the status of the DMA_SYSTEM channels that can generate an interrupt over line Lj."
hexmask.long 0x00 0.--31. 1. " CH_31_0_Lj                              ,Channel 31 Interrupt on Lj: When an interrupt is seen on the line Lj the status of a interrupting channel i is read in the bit field i. - . - . - . - ."
tree.end
tree "DMA_Channel_1"
width 21.
group.long 0x138++0x3
line.long 0x00 "DMA4_CCDNi_1,"
hexmask.long.word 0x00 0.--15. 1. " CURRENT_DESCRIPTOR_NBR                  ,This register when read contains the current active descriptor number in the link list. This register is Read/write to allow user initialization."
group.long 0x11C++0x3
line.long 0x00 "DMA4_CCENi_1,Channel Current Transferred Element Number in the current frame. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.tbyte 0x00 0.--23. 1. " CURRENT_ELMNT_NBR                       ,Channel current transferred element number in the current frame"
group.long 0x120++0x3
line.long 0x00 "DMA4_CCFNi_1,Channel Current Transferred Frame Number in the current transfer. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.word 0x00 0.--15. 1. " CURRENT_FRAME_NBR                       ,Channel current transferred frame number in the current transfer"
group.long 0xE0++0x3
line.long 0x00 "DMA4_CCRi_1,Channel Control Register"
bitfld.long 0x00 26. " WRITE_PRIORITY                          ,Channel priority on the Write side - . - ." "0,1"
bitfld.long 0x00 25. "                      BUFFERING_DISABLE       ,This bit allows to disable the default buffering functionality when transfer is source synchronized. - . - ." "0,1"
bitfld.long 0x00 24. "                          SEL_SRC_DST_SYNC      ,Specifies that element, packet, frame or block transfer (depending on CCR.bs and CCR.fs) is triggered by the source or the destination on the DMA request - . - ." "0,1"
textline "                              "
bitfld.long 0x00 23. " PREFETCH                                ,Enables the prefetch mode - . - ." "0,1"
bitfld.long 0x00 22. "                      SUPERVISOR              ,Enables the supervisor mode - . - ." "0,1"
bitfld.long 0x00 19.--20. "                          SYNCHRO_CONTROL_UPPER ,Channel Synchronization control upper (used in conjunction with the 5 bits of synchro channelDMA4_CCRi[4:0]) Used in conjunction, as 2 MSB, with the 5 bits of the synchro channel bit field." "0,1,2,3"
textline "                              "
bitfld.long 0x00 18. " BS                                      ,Block synchronization This bit used in conjunction with the fs to see how the DMA request is serviced in a synchronized transfer." "0,1"
bitfld.long 0x00 17. "                      TRANSPARENT_COPY_ENABLE ,Transparent copy enable - . - ." "0,1"
bitfld.long 0x00 16. "                          CONST_FILL_ENABLE     ,Constant fill enable - . - ." "0,1"
textline "                              "
bitfld.long 0x00 14.--15. " DST_AMODE                               ,Selects the addressing mode on the Write Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 12.--13. "  SRC_AMODE               ,Selects the addressing mode on the Read Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 10. "      WR_ACTIVE             ,Indicates if the channel write context is active or not - . - ." "0,1"
textline "                              "
bitfld.long 0x00 9. " RD_ACTIVE                               ,Indicates if the channel read context is active or not - . - ." "0,1"
bitfld.long 0x00 8. "                      SUSPEND_SENSITIVE       ,Logical channel suspend enable bit - . - ." "0,1"
bitfld.long 0x00 7. "                          ENABLE                ,Logical channel enable. It is SW responsibility to clear the CSR register and the IRQSTATUS bit for the different interrupt lines before enabling the channel. - . - ." "0,1"
textline "                              "
bitfld.long 0x00 6. " READ_PRIORITY                           ,Channel priority on the read side - . - ." "0,1"
bitfld.long 0x00 5. "                      FS                      ,Frame synchronization This bit used in conjunction with the BS to see how the DMA request is serviced in a synchronized transfer FS = 0 and BS = 0: An element is transferred once a DMA request is made. FS ..." "0,1"
bitfld.long 0x00 0.--4. "                          SYNCHRO_CONTROL       ,Channel synchronization control This bit field used in conjunction with the second_level_ synchro_control_upper (as 2 MSB) 0000000 : Is reserved for non synchronized LCH transfer xxxxxxx (from 1 to 127)T..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x118++0x3
line.long 0x00 "DMA4_CDACi_1,Channel Destination Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " DST_ELMNT_ADRS                          ,Current destination address counter value"
group.long 0x10C++0x3
line.long 0x00 "DMA4_CDEIi_1,Channel Destination Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_DST_ELMNT_INDEX                 ,Channel destination element index"
group.long 0x110++0x3
line.long 0x00 "DMA4_CDFIi_1,Channel Destination Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_DST_FRM_IDX_OR_16BIT_PKT_ELNT_NBR    ,Channel destination frame index value if destination address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC]=0; the bit field [15:0] gives the number of element in packet. The field [31:16]..."
group.long 0x130++0x3
line.long 0x00 "DMA4_CDPi_1,This register controls the various parameters of the link list mechanism"
bitfld.long 0x00 10. " FAST                                    ,Sets the fast-start mode for linked list descriptor types 1, 2 and 3 - . - ." "No_fast-start_mode,1"
bitfld.long 0x00 8.--9. "     TRANSFER_MODE           ,Enable linked-list transfer mode - . - . - . - ." "0,1,Undefined,Undefined"
bitfld.long 0x00 7. "                  PAUSE_LINK_LIST       ,Suspend the linked-list transfer at completion of the current block transfer. - . - ." "0,1"
textline "                              "
bitfld.long 0x00 4.--6. " NEXT_DESCRIPTOR_TYPE                    ,Next Descriptor Type - . - . - . - . - . - . - . - ." "Undefined,1,2,3,Undefined,Undefined,Undefined,Undefined"
bitfld.long 0x00 2.--3. "              SRC_VALID               ,Source address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
bitfld.long 0x00 0.--1. "  DEST_VALID            ,Destination address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
group.long 0x100++0x3
line.long 0x00 "DMA4_CDSAi_1,Channel Destination Start Address"
hexmask.long 0x00 0.--31. 1. " DST_START_ADRS                          ,32 bits of the destination start address"
group.long 0xF4++0x3
line.long 0x00 "DMA4_CENi_1,Channel Element Number"
hexmask.long.tbyte 0x00 0.--23. 1. " CHANNEL_ELMNT_NBR                       ,Number of elements within a frame (unsigned) to transfer"
group.long 0xF8++0x3
line.long 0x00 "DMA4_CFNi_1,Channel Frame Number"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_FRAME_NBR                       ,Number of frames within the block to be transferred (unsigned)"
group.long 0xE8++0x3
line.long 0x00 "DMA4_CICRi_1,Channel Interrupt Control Register"
bitfld.long 0x00 14. " SUPER_BLOCK_IE                          ,Enables the end of super block interrupt" "0,1"
bitfld.long 0x00 12. "                      DRAIN_IE                ,Enables the end of draining interrupt" "0,1"
bitfld.long 0x00 11. "                          MISALIGNED_ERR_IE     ,Enables the address misaligned error event interrupt - . - ." "0,1"
textline "                              "
bitfld.long 0x00 10. " SUPERVISOR_ERR_IE                       ,Enables the supervisor transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 8. "                      TRANS_ERR_IE            ,Enables the transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 7. "                          PKT_IE                ,Enables the end of Packet interrupt - . - ." "0,1"
textline "                              "
bitfld.long 0x00 5. " BLOCK_IE                                ,Enables the end of block interrupt - . - ." "0,1"
bitfld.long 0x00 4. "                      LAST_IE                 ,Last frame interrupt enable (start of last frame) - . - ." "0,1"
bitfld.long 0x00 3. "                          FRAME_IE              ,Frame interrupt enable (end of frame) - . - ." "0,1"
textline "                              "
bitfld.long 0x00 2. " HALF_IE                                 ,Enables or disables the half frame interrupt. - . - ." "0,1"
bitfld.long 0x00 1. "                      DROP_IE                 ,Synchronization event drop interrupt enable (request collision) - . - ." "0,1"
group.long 0xE4++0x3
line.long 0x00 "DMA4_CLNK_CTRLi_1,Channel Link Control Register"
bitfld.long 0x00 15. " ENABLE_LNK                              ,Enables or disable the channel linking. - . - ." "0,1"
bitfld.long 0x00 0.--4. "                      NEXTLCH_ID              ,Defines the NextLCh_ID, which is used to build logical channel chaining queue." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x134++0x3
line.long 0x00 "DMA4_CNDPi_1,This register contains the Next descriptor Address Pointer for the link list Mechanism"
hexmask.long 0x00 2.--31. 1. " NEXT_DESCRIPTOR_POINTER                 ,This register contains the Next descriptor Address Pointer for the link list Mechanism"
group.long 0x124++0x3
line.long 0x00 "DMA4_COLORi_1,Channel DMA COLOR KEY /SOLID COLOR"
hexmask.long.tbyte 0x00 0.--23. 1. " CH_BLT_FRGRND_COLOR_OR_SOLID_COLOR_PTRN ,Color key or solid color pattern: The pattern is replicated according to the data type. If the data-type is 8-bit the pattern is replicated 4 times to fill the register in order to enhance processing when data ..."
rgroup.long 0x114++0x3
line.long 0x00 "DMA4_CSACi_1,Channel Source Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " SRC_ELMNT_ADRS                          ,Current source address counter value"
group.long 0xF0++0x3
line.long 0x00 "DMA4_CSDPi_1,Channel Source Destination Parameters"
bitfld.long 0x00 21. " SRC_ENDIAN                              ,Channel source endianness control - . - ." "0,1"
bitfld.long 0x00 20. "                      SRC_ENDIAN_LOCK         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 19. "           DST_ENDIAN            ,Channel Destination endianness control - . - ." "0,1"
textline "                              "
bitfld.long 0x00 18. " DST_ENDIAN_LOCK                         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 16.--17. "       WRITE_MODE              ,Used to enable writing mode without posting or with posting - . - . - . - ." "0,Write_(Posted),2,Undefined"
bitfld.long 0x00 14.--15. "             DST_BURST_EN          ,Used to enable bursting on the Write Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
textline "                              "
bitfld.long 0x00 13. " DST_PACKED                              ,Destination receives packed data. - . - ." "0,1"
bitfld.long 0x00 7.--8. "                      SRC_BURST_EN            ,Used to enable bursting on the Read Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
bitfld.long 0x00 6. "              SRC_PACKED            ,Source provides packed data. - . - ." "0,1"
textline "                              "
bitfld.long 0x00 0.--1. " DATA_TYPE                               ,Defines the type of the data moved in the channel. - . - . - . - ." "8_bits_scalar,16_bits_scalar,32_bits_scalar,Reserved"
group.long 0x104++0x3
line.long 0x00 "DMA4_CSEIi_1,Channel Source Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_SRC_ELMNT_INDEX                 ,Channel source element index"
group.long 0x108++0x3
line.long 0x00 "DMA4_CSFIi_1,Channel Source Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_SRC_FRM_INDEX_OR_16BIT_PKT_ELNT_NBR  ,Channel source frame index value if source address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC] = 1; the bit field [15:0] gives the number of element in packet. The field [31:16] is unus..."
group.long 0xEC++0x3
line.long 0x00 "DMA4_CSRi_1,Channel Status Register"
eventfld.long 0x00 14. " SUPER_BLOCK                             ,End of Super block event Read 0x0: The current Super block transfer has not been finished Write 0x0: Status bit unchanged Read 0x1: The current Super block has been transferred Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 12. "                      DRAIN_END               ,End of channel draining Read 0x0: No drain end in the current transfer Write 0x0: Status bit unchanged Read 0x1: The current channel draining is completed Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 11. "                          MISALIGNED_ADRS_ERR   ,Misaligned address error event - . - . - . - ." "No_address_error,1"
textline "                              "
eventfld.long 0x00 10. " SUPERVISOR_ERR                          ,Supervisor transaction error event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 8. "   TRANS_ERR               ,Transaction error event - . - . - . - ." "No_transaction_error,1"
eventfld.long 0x00 7. "       PKT                   ,End of Packet transfer - . - . - . - ." "Status_bit_unchanged,1"
textline "                              "
eventfld.long 0x00 6. " SYNC                                    ,Synchronization status of a channel. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 5. "   BLOCK                   ,End of block event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 4. "       LAST                  ,Last frame (start of last frame) - . - . - . - ." "Status_bit_unchanged,1"
textline "                              "
eventfld.long 0x00 3. " FRAME                                   ,End of frame event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 2. "   HALF                    ,Half of frame event. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 1. "       DROP                  ,Synchronization event drop occured during the transfer - . - . - . - ." "Status_bit_unchanged,1"
group.long 0xFC++0x3
line.long 0x00 "DMA4_CSSAi_1,Channel Source Start Address"
hexmask.long 0x00 0.--31. 1. " SRC_START_ADRS                          ,32 bits of the source start address"
group.long 0x1C++0x3
line.long 0x00 "DMA4_IRQENABLE_Lj_1,The interrupt enable register allows to mask/unmask the module internal sources of interrupt, on line Lj"
hexmask.long 0x00 0.--31. 1. " CH_31_0_Lj_EN                           ,Channel Interrupt on Lj mask/unmask : to Mask/Unmask a channel i interrupt on Lj the user writes 0/1 on the bit field i. - . - ."
group.long 0xC++0x3
line.long 0x00 "DMA4_IRQSTATUS_Lj_1,The interrupt status register regroups all the status of the DMA_SYSTEM channels that can generate an interrupt over line Lj."
hexmask.long 0x00 0.--31. 1. " CH_31_0_Lj                              ,Channel 31 Interrupt on Lj: When an interrupt is seen on the line Lj the status of a interrupting channel i is read in the bit field i. - . - . - . - ."
tree.end
tree "DMA_Channel_2"
width 21.
group.long 0x198++0x3
line.long 0x00 "DMA4_CCDNi_2,"
hexmask.long.word 0x00 0.--15. 1. " CURRENT_DESCRIPTOR_NBR                  ,This register when read contains the current active descriptor number in the link list. This register is Read/write to allow user initialization."
group.long 0x17C++0x3
line.long 0x00 "DMA4_CCENi_2,Channel Current Transferred Element Number in the current frame. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.tbyte 0x00 0.--23. 1. " CURRENT_ELMNT_NBR                       ,Channel current transferred element number in the current frame"
group.long 0x180++0x3
line.long 0x00 "DMA4_CCFNi_2,Channel Current Transferred Frame Number in the current transfer. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.word 0x00 0.--15. 1. " CURRENT_FRAME_NBR                       ,Channel current transferred frame number in the current transfer"
group.long 0x140++0x3
line.long 0x00 "DMA4_CCRi_2,Channel Control Register"
bitfld.long 0x00 26. " WRITE_PRIORITY                          ,Channel priority on the Write side - . - ." "0,1"
bitfld.long 0x00 25. "                      BUFFERING_DISABLE       ,This bit allows to disable the default buffering functionality when transfer is source synchronized. - . - ." "0,1"
bitfld.long 0x00 24. "                          SEL_SRC_DST_SYNC      ,Specifies that element, packet, frame or block transfer (depending on CCR.bs and CCR.fs) is triggered by the source or the destination on the DMA request - . - ." "0,1"
textline "                              "
bitfld.long 0x00 23. " PREFETCH                                ,Enables the prefetch mode - . - ." "0,1"
bitfld.long 0x00 22. "                      SUPERVISOR              ,Enables the supervisor mode - . - ." "0,1"
bitfld.long 0x00 19.--20. "                          SYNCHRO_CONTROL_UPPER ,Channel Synchronization control upper (used in conjunction with the 5 bits of synchro channelDMA4_CCRi[4:0]) Used in conjunction, as 2 MSB, with the 5 bits of the synchro channel bit field." "0,1,2,3"
textline "                              "
bitfld.long 0x00 18. " BS                                      ,Block synchronization This bit used in conjunction with the fs to see how the DMA request is serviced in a synchronized transfer." "0,1"
bitfld.long 0x00 17. "                      TRANSPARENT_COPY_ENABLE ,Transparent copy enable - . - ." "0,1"
bitfld.long 0x00 16. "                          CONST_FILL_ENABLE     ,Constant fill enable - . - ." "0,1"
textline "                              "
bitfld.long 0x00 14.--15. " DST_AMODE                               ,Selects the addressing mode on the Write Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 12.--13. "  SRC_AMODE               ,Selects the addressing mode on the Read Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 10. "      WR_ACTIVE             ,Indicates if the channel write context is active or not - . - ." "0,1"
textline "                              "
bitfld.long 0x00 9. " RD_ACTIVE                               ,Indicates if the channel read context is active or not - . - ." "0,1"
bitfld.long 0x00 8. "                      SUSPEND_SENSITIVE       ,Logical channel suspend enable bit - . - ." "0,1"
bitfld.long 0x00 7. "                          ENABLE                ,Logical channel enable. It is SW responsibility to clear the CSR register and the IRQSTATUS bit for the different interrupt lines before enabling the channel. - . - ." "0,1"
textline "                              "
bitfld.long 0x00 6. " READ_PRIORITY                           ,Channel priority on the read side - . - ." "0,1"
bitfld.long 0x00 5. "                      FS                      ,Frame synchronization This bit used in conjunction with the BS to see how the DMA request is serviced in a synchronized transfer FS = 0 and BS = 0: An element is transferred once a DMA request is made. FS ..." "0,1"
bitfld.long 0x00 0.--4. "                          SYNCHRO_CONTROL       ,Channel synchronization control This bit field used in conjunction with the second_level_ synchro_control_upper (as 2 MSB) 0000000 : Is reserved for non synchronized LCH transfer xxxxxxx (from 1 to 127)T..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x178++0x3
line.long 0x00 "DMA4_CDACi_2,Channel Destination Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " DST_ELMNT_ADRS                          ,Current destination address counter value"
group.long 0x16C++0x3
line.long 0x00 "DMA4_CDEIi_2,Channel Destination Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_DST_ELMNT_INDEX                 ,Channel destination element index"
group.long 0x170++0x3
line.long 0x00 "DMA4_CDFIi_2,Channel Destination Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_DST_FRM_IDX_OR_16BIT_PKT_ELNT_NBR    ,Channel destination frame index value if destination address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC]=0; the bit field [15:0] gives the number of element in packet. The field [31:16]..."
group.long 0x190++0x3
line.long 0x00 "DMA4_CDPi_2,This register controls the various parameters of the link list mechanism"
bitfld.long 0x00 10. " FAST                                    ,Sets the fast-start mode for linked list descriptor types 1, 2 and 3 - . - ." "No_fast-start_mode,1"
bitfld.long 0x00 8.--9. "     TRANSFER_MODE           ,Enable linked-list transfer mode - . - . - . - ." "0,1,Undefined,Undefined"
bitfld.long 0x00 7. "                  PAUSE_LINK_LIST       ,Suspend the linked-list transfer at completion of the current block transfer. - . - ." "0,1"
textline "                              "
bitfld.long 0x00 4.--6. " NEXT_DESCRIPTOR_TYPE                    ,Next Descriptor Type - . - . - . - . - . - . - . - ." "Undefined,1,2,3,Undefined,Undefined,Undefined,Undefined"
bitfld.long 0x00 2.--3. "              SRC_VALID               ,Source address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
bitfld.long 0x00 0.--1. "  DEST_VALID            ,Destination address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
group.long 0x160++0x3
line.long 0x00 "DMA4_CDSAi_2,Channel Destination Start Address"
hexmask.long 0x00 0.--31. 1. " DST_START_ADRS                          ,32 bits of the destination start address"
group.long 0x154++0x3
line.long 0x00 "DMA4_CENi_2,Channel Element Number"
hexmask.long.tbyte 0x00 0.--23. 1. " CHANNEL_ELMNT_NBR                       ,Number of elements within a frame (unsigned) to transfer"
group.long 0x158++0x3
line.long 0x00 "DMA4_CFNi_2,Channel Frame Number"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_FRAME_NBR                       ,Number of frames within the block to be transferred (unsigned)"
group.long 0x148++0x3
line.long 0x00 "DMA4_CICRi_2,Channel Interrupt Control Register"
bitfld.long 0x00 14. " SUPER_BLOCK_IE                          ,Enables the end of super block interrupt" "0,1"
bitfld.long 0x00 12. "                      DRAIN_IE                ,Enables the end of draining interrupt" "0,1"
bitfld.long 0x00 11. "                          MISALIGNED_ERR_IE     ,Enables the address misaligned error event interrupt - . - ." "0,1"
textline "                              "
bitfld.long 0x00 10. " SUPERVISOR_ERR_IE                       ,Enables the supervisor transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 8. "                      TRANS_ERR_IE            ,Enables the transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 7. "                          PKT_IE                ,Enables the end of Packet interrupt - . - ." "0,1"
textline "                              "
bitfld.long 0x00 5. " BLOCK_IE                                ,Enables the end of block interrupt - . - ." "0,1"
bitfld.long 0x00 4. "                      LAST_IE                 ,Last frame interrupt enable (start of last frame) - . - ." "0,1"
bitfld.long 0x00 3. "                          FRAME_IE              ,Frame interrupt enable (end of frame) - . - ." "0,1"
textline "                              "
bitfld.long 0x00 2. " HALF_IE                                 ,Enables or disables the half frame interrupt. - . - ." "0,1"
bitfld.long 0x00 1. "                      DROP_IE                 ,Synchronization event drop interrupt enable (request collision) - . - ." "0,1"
group.long 0x144++0x3
line.long 0x00 "DMA4_CLNK_CTRLi_2,Channel Link Control Register"
bitfld.long 0x00 15. " ENABLE_LNK                              ,Enables or disable the channel linking. - . - ." "0,1"
bitfld.long 0x00 0.--4. "                      NEXTLCH_ID              ,Defines the NextLCh_ID, which is used to build logical channel chaining queue." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x194++0x3
line.long 0x00 "DMA4_CNDPi_2,This register contains the Next descriptor Address Pointer for the link list Mechanism"
hexmask.long 0x00 2.--31. 1. " NEXT_DESCRIPTOR_POINTER                 ,This register contains the Next descriptor Address Pointer for the link list Mechanism"
group.long 0x184++0x3
line.long 0x00 "DMA4_COLORi_2,Channel DMA COLOR KEY /SOLID COLOR"
hexmask.long.tbyte 0x00 0.--23. 1. " CH_BLT_FRGRND_COLOR_OR_SOLID_COLOR_PTRN ,Color key or solid color pattern: The pattern is replicated according to the data type. If the data-type is 8-bit the pattern is replicated 4 times to fill the register in order to enhance processing when data ..."
rgroup.long 0x174++0x3
line.long 0x00 "DMA4_CSACi_2,Channel Source Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " SRC_ELMNT_ADRS                          ,Current source address counter value"
group.long 0x150++0x3
line.long 0x00 "DMA4_CSDPi_2,Channel Source Destination Parameters"
bitfld.long 0x00 21. " SRC_ENDIAN                              ,Channel source endianness control - . - ." "0,1"
bitfld.long 0x00 20. "                      SRC_ENDIAN_LOCK         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 19. "           DST_ENDIAN            ,Channel Destination endianness control - . - ." "0,1"
textline "                              "
bitfld.long 0x00 18. " DST_ENDIAN_LOCK                         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 16.--17. "       WRITE_MODE              ,Used to enable writing mode without posting or with posting - . - . - . - ." "0,Write_(Posted),2,Undefined"
bitfld.long 0x00 14.--15. "             DST_BURST_EN          ,Used to enable bursting on the Write Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
textline "                              "
bitfld.long 0x00 13. " DST_PACKED                              ,Destination receives packed data. - . - ." "0,1"
bitfld.long 0x00 7.--8. "                      SRC_BURST_EN            ,Used to enable bursting on the Read Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
bitfld.long 0x00 6. "              SRC_PACKED            ,Source provides packed data. - . - ." "0,1"
textline "                              "
bitfld.long 0x00 0.--1. " DATA_TYPE                               ,Defines the type of the data moved in the channel. - . - . - . - ." "8_bits_scalar,16_bits_scalar,32_bits_scalar,Reserved"
group.long 0x164++0x3
line.long 0x00 "DMA4_CSEIi_2,Channel Source Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_SRC_ELMNT_INDEX                 ,Channel source element index"
group.long 0x168++0x3
line.long 0x00 "DMA4_CSFIi_2,Channel Source Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_SRC_FRM_INDEX_OR_16BIT_PKT_ELNT_NBR  ,Channel source frame index value if source address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC] = 1; the bit field [15:0] gives the number of element in packet. The field [31:16] is unus..."
group.long 0x14C++0x3
line.long 0x00 "DMA4_CSRi_2,Channel Status Register"
eventfld.long 0x00 14. " SUPER_BLOCK                             ,End of Super block event Read 0x0: The current Super block transfer has not been finished Write 0x0: Status bit unchanged Read 0x1: The current Super block has been transferred Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 12. "                      DRAIN_END               ,End of channel draining Read 0x0: No drain end in the current transfer Write 0x0: Status bit unchanged Read 0x1: The current channel draining is completed Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 11. "                          MISALIGNED_ADRS_ERR   ,Misaligned address error event - . - . - . - ." "No_address_error,1"
textline "                              "
eventfld.long 0x00 10. " SUPERVISOR_ERR                          ,Supervisor transaction error event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 8. "   TRANS_ERR               ,Transaction error event - . - . - . - ." "No_transaction_error,1"
eventfld.long 0x00 7. "       PKT                   ,End of Packet transfer - . - . - . - ." "Status_bit_unchanged,1"
textline "                              "
eventfld.long 0x00 6. " SYNC                                    ,Synchronization status of a channel. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 5. "   BLOCK                   ,End of block event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 4. "       LAST                  ,Last frame (start of last frame) - . - . - . - ." "Status_bit_unchanged,1"
textline "                              "
eventfld.long 0x00 3. " FRAME                                   ,End of frame event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 2. "   HALF                    ,Half of frame event. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 1. "       DROP                  ,Synchronization event drop occured during the transfer - . - . - . - ." "Status_bit_unchanged,1"
group.long 0x15C++0x3
line.long 0x00 "DMA4_CSSAi_2,Channel Source Start Address"
hexmask.long 0x00 0.--31. 1. " SRC_START_ADRS                          ,32 bits of the source start address"
group.long 0x20++0x3
line.long 0x00 "DMA4_IRQENABLE_Lj_2,The interrupt enable register allows to mask/unmask the module internal sources of interrupt, on line Lj"
hexmask.long 0x00 0.--31. 1. " CH_31_0_Lj_EN                           ,Channel Interrupt on Lj mask/unmask : to Mask/Unmask a channel i interrupt on Lj the user writes 0/1 on the bit field i. - . - ."
group.long 0x10++0x3
line.long 0x00 "DMA4_IRQSTATUS_Lj_2,The interrupt status register regroups all the status of the DMA_SYSTEM channels that can generate an interrupt over line Lj."
hexmask.long 0x00 0.--31. 1. " CH_31_0_Lj                              ,Channel 31 Interrupt on Lj: When an interrupt is seen on the line Lj the status of a interrupting channel i is read in the bit field i. - . - . - . - ."
tree.end
tree "DMA_Channel_3"
width 21.
group.long 0x1F8++0x3
line.long 0x00 "DMA4_CCDNi_3,"
hexmask.long.word 0x00 0.--15. 1. " CURRENT_DESCRIPTOR_NBR                  ,This register when read contains the current active descriptor number in the link list. This register is Read/write to allow user initialization."
group.long 0x1DC++0x3
line.long 0x00 "DMA4_CCENi_3,Channel Current Transferred Element Number in the current frame. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.tbyte 0x00 0.--23. 1. " CURRENT_ELMNT_NBR                       ,Channel current transferred element number in the current frame"
group.long 0x1E0++0x3
line.long 0x00 "DMA4_CCFNi_3,Channel Current Transferred Frame Number in the current transfer. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.word 0x00 0.--15. 1. " CURRENT_FRAME_NBR                       ,Channel current transferred frame number in the current transfer"
group.long 0x1A0++0x3
line.long 0x00 "DMA4_CCRi_3,Channel Control Register"
bitfld.long 0x00 26. " WRITE_PRIORITY                          ,Channel priority on the Write side - . - ." "0,1"
bitfld.long 0x00 25. "                      BUFFERING_DISABLE       ,This bit allows to disable the default buffering functionality when transfer is source synchronized. - . - ." "0,1"
bitfld.long 0x00 24. "                          SEL_SRC_DST_SYNC      ,Specifies that element, packet, frame or block transfer (depending on CCR.bs and CCR.fs) is triggered by the source or the destination on the DMA request - . - ." "0,1"
textline "                              "
bitfld.long 0x00 23. " PREFETCH                                ,Enables the prefetch mode - . - ." "0,1"
bitfld.long 0x00 22. "                      SUPERVISOR              ,Enables the supervisor mode - . - ." "0,1"
bitfld.long 0x00 19.--20. "                          SYNCHRO_CONTROL_UPPER ,Channel Synchronization control upper (used in conjunction with the 5 bits of synchro channelDMA4_CCRi[4:0]) Used in conjunction, as 2 MSB, with the 5 bits of the synchro channel bit field." "0,1,2,3"
textline "                              "
bitfld.long 0x00 18. " BS                                      ,Block synchronization This bit used in conjunction with the fs to see how the DMA request is serviced in a synchronized transfer." "0,1"
bitfld.long 0x00 17. "                      TRANSPARENT_COPY_ENABLE ,Transparent copy enable - . - ." "0,1"
bitfld.long 0x00 16. "                          CONST_FILL_ENABLE     ,Constant fill enable - . - ." "0,1"
textline "                              "
bitfld.long 0x00 14.--15. " DST_AMODE                               ,Selects the addressing mode on the Write Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 12.--13. "  SRC_AMODE               ,Selects the addressing mode on the Read Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 10. "      WR_ACTIVE             ,Indicates if the channel write context is active or not - . - ." "0,1"
textline "                              "
bitfld.long 0x00 9. " RD_ACTIVE                               ,Indicates if the channel read context is active or not - . - ." "0,1"
bitfld.long 0x00 8. "                      SUSPEND_SENSITIVE       ,Logical channel suspend enable bit - . - ." "0,1"
bitfld.long 0x00 7. "                          ENABLE                ,Logical channel enable. It is SW responsibility to clear the CSR register and the IRQSTATUS bit for the different interrupt lines before enabling the channel. - . - ." "0,1"
textline "                              "
bitfld.long 0x00 6. " READ_PRIORITY                           ,Channel priority on the read side - . - ." "0,1"
bitfld.long 0x00 5. "                      FS                      ,Frame synchronization This bit used in conjunction with the BS to see how the DMA request is serviced in a synchronized transfer FS = 0 and BS = 0: An element is transferred once a DMA request is made. FS ..." "0,1"
bitfld.long 0x00 0.--4. "                          SYNCHRO_CONTROL       ,Channel synchronization control This bit field used in conjunction with the second_level_ synchro_control_upper (as 2 MSB) 0000000 : Is reserved for non synchronized LCH transfer xxxxxxx (from 1 to 127)T..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x1D8++0x3
line.long 0x00 "DMA4_CDACi_3,Channel Destination Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " DST_ELMNT_ADRS                          ,Current destination address counter value"
group.long 0x1CC++0x3
line.long 0x00 "DMA4_CDEIi_3,Channel Destination Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_DST_ELMNT_INDEX                 ,Channel destination element index"
group.long 0x1D0++0x3
line.long 0x00 "DMA4_CDFIi_3,Channel Destination Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_DST_FRM_IDX_OR_16BIT_PKT_ELNT_NBR    ,Channel destination frame index value if destination address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC]=0; the bit field [15:0] gives the number of element in packet. The field [31:16]..."
group.long 0x1F0++0x3
line.long 0x00 "DMA4_CDPi_3,This register controls the various parameters of the link list mechanism"
bitfld.long 0x00 10. " FAST                                    ,Sets the fast-start mode for linked list descriptor types 1, 2 and 3 - . - ." "No_fast-start_mode,1"
bitfld.long 0x00 8.--9. "     TRANSFER_MODE           ,Enable linked-list transfer mode - . - . - . - ." "0,1,Undefined,Undefined"
bitfld.long 0x00 7. "                  PAUSE_LINK_LIST       ,Suspend the linked-list transfer at completion of the current block transfer. - . - ." "0,1"
textline "                              "
bitfld.long 0x00 4.--6. " NEXT_DESCRIPTOR_TYPE                    ,Next Descriptor Type - . - . - . - . - . - . - . - ." "Undefined,1,2,3,Undefined,Undefined,Undefined,Undefined"
bitfld.long 0x00 2.--3. "              SRC_VALID               ,Source address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
bitfld.long 0x00 0.--1. "  DEST_VALID            ,Destination address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
group.long 0x1C0++0x3
line.long 0x00 "DMA4_CDSAi_3,Channel Destination Start Address"
hexmask.long 0x00 0.--31. 1. " DST_START_ADRS                          ,32 bits of the destination start address"
group.long 0x1B4++0x3
line.long 0x00 "DMA4_CENi_3,Channel Element Number"
hexmask.long.tbyte 0x00 0.--23. 1. " CHANNEL_ELMNT_NBR                       ,Number of elements within a frame (unsigned) to transfer"
group.long 0x1B8++0x3
line.long 0x00 "DMA4_CFNi_3,Channel Frame Number"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_FRAME_NBR                       ,Number of frames within the block to be transferred (unsigned)"
group.long 0x1A8++0x3
line.long 0x00 "DMA4_CICRi_3,Channel Interrupt Control Register"
bitfld.long 0x00 14. " SUPER_BLOCK_IE                          ,Enables the end of super block interrupt" "0,1"
bitfld.long 0x00 12. "                      DRAIN_IE                ,Enables the end of draining interrupt" "0,1"
bitfld.long 0x00 11. "                          MISALIGNED_ERR_IE     ,Enables the address misaligned error event interrupt - . - ." "0,1"
textline "                              "
bitfld.long 0x00 10. " SUPERVISOR_ERR_IE                       ,Enables the supervisor transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 8. "                      TRANS_ERR_IE            ,Enables the transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 7. "                          PKT_IE                ,Enables the end of Packet interrupt - . - ." "0,1"
textline "                              "
bitfld.long 0x00 5. " BLOCK_IE                                ,Enables the end of block interrupt - . - ." "0,1"
bitfld.long 0x00 4. "                      LAST_IE                 ,Last frame interrupt enable (start of last frame) - . - ." "0,1"
bitfld.long 0x00 3. "                          FRAME_IE              ,Frame interrupt enable (end of frame) - . - ." "0,1"
textline "                              "
bitfld.long 0x00 2. " HALF_IE                                 ,Enables or disables the half frame interrupt. - . - ." "0,1"
bitfld.long 0x00 1. "                      DROP_IE                 ,Synchronization event drop interrupt enable (request collision) - . - ." "0,1"
group.long 0x1A4++0x3
line.long 0x00 "DMA4_CLNK_CTRLi_3,Channel Link Control Register"
bitfld.long 0x00 15. " ENABLE_LNK                              ,Enables or disable the channel linking. - . - ." "0,1"
bitfld.long 0x00 0.--4. "                      NEXTLCH_ID              ,Defines the NextLCh_ID, which is used to build logical channel chaining queue." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x1F4++0x3
line.long 0x00 "DMA4_CNDPi_3,This register contains the Next descriptor Address Pointer for the link list Mechanism"
hexmask.long 0x00 2.--31. 1. " NEXT_DESCRIPTOR_POINTER                 ,This register contains the Next descriptor Address Pointer for the link list Mechanism"
group.long 0x1E4++0x3
line.long 0x00 "DMA4_COLORi_3,Channel DMA COLOR KEY /SOLID COLOR"
hexmask.long.tbyte 0x00 0.--23. 1. " CH_BLT_FRGRND_COLOR_OR_SOLID_COLOR_PTRN ,Color key or solid color pattern: The pattern is replicated according to the data type. If the data-type is 8-bit the pattern is replicated 4 times to fill the register in order to enhance processing when data ..."
rgroup.long 0x1D4++0x3
line.long 0x00 "DMA4_CSACi_3,Channel Source Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " SRC_ELMNT_ADRS                          ,Current source address counter value"
group.long 0x1B0++0x3
line.long 0x00 "DMA4_CSDPi_3,Channel Source Destination Parameters"
bitfld.long 0x00 21. " SRC_ENDIAN                              ,Channel source endianness control - . - ." "0,1"
bitfld.long 0x00 20. "                      SRC_ENDIAN_LOCK         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 19. "           DST_ENDIAN            ,Channel Destination endianness control - . - ." "0,1"
textline "                              "
bitfld.long 0x00 18. " DST_ENDIAN_LOCK                         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 16.--17. "       WRITE_MODE              ,Used to enable writing mode without posting or with posting - . - . - . - ." "0,Write_(Posted),2,Undefined"
bitfld.long 0x00 14.--15. "             DST_BURST_EN          ,Used to enable bursting on the Write Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
textline "                              "
bitfld.long 0x00 13. " DST_PACKED                              ,Destination receives packed data. - . - ." "0,1"
bitfld.long 0x00 7.--8. "                      SRC_BURST_EN            ,Used to enable bursting on the Read Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
bitfld.long 0x00 6. "              SRC_PACKED            ,Source provides packed data. - . - ." "0,1"
textline "                              "
bitfld.long 0x00 0.--1. " DATA_TYPE                               ,Defines the type of the data moved in the channel. - . - . - . - ." "8_bits_scalar,16_bits_scalar,32_bits_scalar,Reserved"
group.long 0x1C4++0x3
line.long 0x00 "DMA4_CSEIi_3,Channel Source Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_SRC_ELMNT_INDEX                 ,Channel source element index"
group.long 0x1C8++0x3
line.long 0x00 "DMA4_CSFIi_3,Channel Source Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_SRC_FRM_INDEX_OR_16BIT_PKT_ELNT_NBR  ,Channel source frame index value if source address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC] = 1; the bit field [15:0] gives the number of element in packet. The field [31:16] is unus..."
group.long 0x1AC++0x3
line.long 0x00 "DMA4_CSRi_3,Channel Status Register"
eventfld.long 0x00 14. " SUPER_BLOCK                             ,End of Super block event Read 0x0: The current Super block transfer has not been finished Write 0x0: Status bit unchanged Read 0x1: The current Super block has been transferred Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 12. "                      DRAIN_END               ,End of channel draining Read 0x0: No drain end in the current transfer Write 0x0: Status bit unchanged Read 0x1: The current channel draining is completed Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 11. "                          MISALIGNED_ADRS_ERR   ,Misaligned address error event - . - . - . - ." "No_address_error,1"
textline "                              "
eventfld.long 0x00 10. " SUPERVISOR_ERR                          ,Supervisor transaction error event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 8. "   TRANS_ERR               ,Transaction error event - . - . - . - ." "No_transaction_error,1"
eventfld.long 0x00 7. "       PKT                   ,End of Packet transfer - . - . - . - ." "Status_bit_unchanged,1"
textline "                              "
eventfld.long 0x00 6. " SYNC                                    ,Synchronization status of a channel. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 5. "   BLOCK                   ,End of block event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 4. "       LAST                  ,Last frame (start of last frame) - . - . - . - ." "Status_bit_unchanged,1"
textline "                              "
eventfld.long 0x00 3. " FRAME                                   ,End of frame event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 2. "   HALF                    ,Half of frame event. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 1. "       DROP                  ,Synchronization event drop occured during the transfer - . - . - . - ." "Status_bit_unchanged,1"
group.long 0x1BC++0x3
line.long 0x00 "DMA4_CSSAi_3,Channel Source Start Address"
hexmask.long 0x00 0.--31. 1. " SRC_START_ADRS                          ,32 bits of the source start address"
group.long 0x24++0x3
line.long 0x00 "DMA4_IRQENABLE_Lj_3,The interrupt enable register allows to mask/unmask the module internal sources of interrupt, on line Lj"
hexmask.long 0x00 0.--31. 1. " CH_31_0_Lj_EN                           ,Channel Interrupt on Lj mask/unmask : to Mask/Unmask a channel i interrupt on Lj the user writes 0/1 on the bit field i. - . - ."
group.long 0x14++0x3
line.long 0x00 "DMA4_IRQSTATUS_Lj_3,The interrupt status register regroups all the status of the DMA_SYSTEM channels that can generate an interrupt over line Lj."
hexmask.long 0x00 0.--31. 1. " CH_31_0_Lj                              ,Channel 31 Interrupt on Lj: When an interrupt is seen on the line Lj the status of a interrupting channel i is read in the bit field i. - . - . - . - ."
tree.end
tree "DMA_Channel_4"
width 19.
group.long 0x258++0x3
line.long 0x00 "DMA4_CCDNi_4,"
hexmask.long.word 0x00 0.--15. 1. " CURRENT_DESCRIPTOR_NBR                  ,This register when read contains the current active descriptor number in the link list. This register is Read/write to allow user initialization."
group.long 0x23C++0x3
line.long 0x00 "DMA4_CCENi_4,Channel Current Transferred Element Number in the current frame. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.tbyte 0x00 0.--23. 1. " CURRENT_ELMNT_NBR                       ,Channel current transferred element number in the current frame"
group.long 0x240++0x3
line.long 0x00 "DMA4_CCFNi_4,Channel Current Transferred Frame Number in the current transfer. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.word 0x00 0.--15. 1. " CURRENT_FRAME_NBR                       ,Channel current transferred frame number in the current transfer"
group.long 0x200++0x3
line.long 0x00 "DMA4_CCRi_4,Channel Control Register"
bitfld.long 0x00 26. " WRITE_PRIORITY                          ,Channel priority on the Write side - . - ." "0,1"
bitfld.long 0x00 25. "                      BUFFERING_DISABLE       ,This bit allows to disable the default buffering functionality when transfer is source synchronized. - . - ." "0,1"
bitfld.long 0x00 24. "                          SEL_SRC_DST_SYNC      ,Specifies that element, packet, frame or block transfer (depending on CCR.bs and CCR.fs) is triggered by the source or the destination on the DMA request - . - ." "0,1"
textline "                            "
bitfld.long 0x00 23. " PREFETCH                                ,Enables the prefetch mode - . - ." "0,1"
bitfld.long 0x00 22. "                      SUPERVISOR              ,Enables the supervisor mode - . - ." "0,1"
bitfld.long 0x00 19.--20. "                          SYNCHRO_CONTROL_UPPER ,Channel Synchronization control upper (used in conjunction with the 5 bits of synchro channelDMA4_CCRi[4:0]) Used in conjunction, as 2 MSB, with the 5 bits of the synchro channel bit field." "0,1,2,3"
textline "                            "
bitfld.long 0x00 18. " BS                                      ,Block synchronization This bit used in conjunction with the fs to see how the DMA request is serviced in a synchronized transfer." "0,1"
bitfld.long 0x00 17. "                      TRANSPARENT_COPY_ENABLE ,Transparent copy enable - . - ." "0,1"
bitfld.long 0x00 16. "                          CONST_FILL_ENABLE     ,Constant fill enable - . - ." "0,1"
textline "                            "
bitfld.long 0x00 14.--15. " DST_AMODE                               ,Selects the addressing mode on the Write Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 12.--13. "  SRC_AMODE               ,Selects the addressing mode on the Read Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 10. "      WR_ACTIVE             ,Indicates if the channel write context is active or not - . - ." "0,1"
textline "                            "
bitfld.long 0x00 9. " RD_ACTIVE                               ,Indicates if the channel read context is active or not - . - ." "0,1"
bitfld.long 0x00 8. "                      SUSPEND_SENSITIVE       ,Logical channel suspend enable bit - . - ." "0,1"
bitfld.long 0x00 7. "                          ENABLE                ,Logical channel enable. It is SW responsibility to clear the CSR register and the IRQSTATUS bit for the different interrupt lines before enabling the channel. - . - ." "0,1"
textline "                            "
bitfld.long 0x00 6. " READ_PRIORITY                           ,Channel priority on the read side - . - ." "0,1"
bitfld.long 0x00 5. "                      FS                      ,Frame synchronization This bit used in conjunction with the BS to see how the DMA request is serviced in a synchronized transfer FS = 0 and BS = 0: An element is transferred once a DMA request is made. FS ..." "0,1"
bitfld.long 0x00 0.--4. "                          SYNCHRO_CONTROL       ,Channel synchronization control This bit field used in conjunction with the second_level_ synchro_control_upper (as 2 MSB) 0000000 : Is reserved for non synchronized LCH transfer xxxxxxx (from 1 to 127)T..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x238++0x3
line.long 0x00 "DMA4_CDACi_4,Channel Destination Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " DST_ELMNT_ADRS                          ,Current destination address counter value"
group.long 0x22C++0x3
line.long 0x00 "DMA4_CDEIi_4,Channel Destination Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_DST_ELMNT_INDEX                 ,Channel destination element index"
group.long 0x230++0x3
line.long 0x00 "DMA4_CDFIi_4,Channel Destination Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_DST_FRM_IDX_OR_16BIT_PKT_ELNT_NBR    ,Channel destination frame index value if destination address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC]=0; the bit field [15:0] gives the number of element in packet. The field [31:16]..."
group.long 0x250++0x3
line.long 0x00 "DMA4_CDPi_4,This register controls the various parameters of the link list mechanism"
bitfld.long 0x00 10. " FAST                                    ,Sets the fast-start mode for linked list descriptor types 1, 2 and 3 - . - ." "No_fast-start_mode,1"
bitfld.long 0x00 8.--9. "     TRANSFER_MODE           ,Enable linked-list transfer mode - . - . - . - ." "0,1,Undefined,Undefined"
bitfld.long 0x00 7. "                  PAUSE_LINK_LIST       ,Suspend the linked-list transfer at completion of the current block transfer. - . - ." "0,1"
textline "                            "
bitfld.long 0x00 4.--6. " NEXT_DESCRIPTOR_TYPE                    ,Next Descriptor Type - . - . - . - . - . - . - . - ." "Undefined,1,2,3,Undefined,Undefined,Undefined,Undefined"
bitfld.long 0x00 2.--3. "              SRC_VALID               ,Source address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
bitfld.long 0x00 0.--1. "  DEST_VALID            ,Destination address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
group.long 0x220++0x3
line.long 0x00 "DMA4_CDSAi_4,Channel Destination Start Address"
hexmask.long 0x00 0.--31. 1. " DST_START_ADRS                          ,32 bits of the destination start address"
group.long 0x214++0x3
line.long 0x00 "DMA4_CENi_4,Channel Element Number"
hexmask.long.tbyte 0x00 0.--23. 1. " CHANNEL_ELMNT_NBR                       ,Number of elements within a frame (unsigned) to transfer"
group.long 0x218++0x3
line.long 0x00 "DMA4_CFNi_4,Channel Frame Number"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_FRAME_NBR                       ,Number of frames within the block to be transferred (unsigned)"
group.long 0x208++0x3
line.long 0x00 "DMA4_CICRi_4,Channel Interrupt Control Register"
bitfld.long 0x00 14. " SUPER_BLOCK_IE                          ,Enables the end of super block interrupt" "0,1"
bitfld.long 0x00 12. "                      DRAIN_IE                ,Enables the end of draining interrupt" "0,1"
bitfld.long 0x00 11. "                          MISALIGNED_ERR_IE     ,Enables the address misaligned error event interrupt - . - ." "0,1"
textline "                            "
bitfld.long 0x00 10. " SUPERVISOR_ERR_IE                       ,Enables the supervisor transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 8. "                      TRANS_ERR_IE            ,Enables the transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 7. "                          PKT_IE                ,Enables the end of Packet interrupt - . - ." "0,1"
textline "                            "
bitfld.long 0x00 5. " BLOCK_IE                                ,Enables the end of block interrupt - . - ." "0,1"
bitfld.long 0x00 4. "                      LAST_IE                 ,Last frame interrupt enable (start of last frame) - . - ." "0,1"
bitfld.long 0x00 3. "                          FRAME_IE              ,Frame interrupt enable (end of frame) - . - ." "0,1"
textline "                            "
bitfld.long 0x00 2. " HALF_IE                                 ,Enables or disables the half frame interrupt. - . - ." "0,1"
bitfld.long 0x00 1. "                      DROP_IE                 ,Synchronization event drop interrupt enable (request collision) - . - ." "0,1"
group.long 0x204++0x3
line.long 0x00 "DMA4_CLNK_CTRLi_4,Channel Link Control Register"
bitfld.long 0x00 15. " ENABLE_LNK                              ,Enables or disable the channel linking. - . - ." "0,1"
bitfld.long 0x00 0.--4. "                      NEXTLCH_ID              ,Defines the NextLCh_ID, which is used to build logical channel chaining queue." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x254++0x3
line.long 0x00 "DMA4_CNDPi_4,This register contains the Next descriptor Address Pointer for the link list Mechanism"
hexmask.long 0x00 2.--31. 1. " NEXT_DESCRIPTOR_POINTER                 ,This register contains the Next descriptor Address Pointer for the link list Mechanism"
group.long 0x244++0x3
line.long 0x00 "DMA4_COLORi_4,Channel DMA COLOR KEY /SOLID COLOR"
hexmask.long.tbyte 0x00 0.--23. 1. " CH_BLT_FRGRND_COLOR_OR_SOLID_COLOR_PTRN ,Color key or solid color pattern: The pattern is replicated according to the data type. If the data-type is 8-bit the pattern is replicated 4 times to fill the register in order to enhance processing when data ..."
rgroup.long 0x234++0x3
line.long 0x00 "DMA4_CSACi_4,Channel Source Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " SRC_ELMNT_ADRS                          ,Current source address counter value"
group.long 0x210++0x3
line.long 0x00 "DMA4_CSDPi_4,Channel Source Destination Parameters"
bitfld.long 0x00 21. " SRC_ENDIAN                              ,Channel source endianness control - . - ." "0,1"
bitfld.long 0x00 20. "                      SRC_ENDIAN_LOCK         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 19. "           DST_ENDIAN            ,Channel Destination endianness control - . - ." "0,1"
textline "                            "
bitfld.long 0x00 18. " DST_ENDIAN_LOCK                         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 16.--17. "       WRITE_MODE              ,Used to enable writing mode without posting or with posting - . - . - . - ." "0,Write_(Posted),2,Undefined"
bitfld.long 0x00 14.--15. "             DST_BURST_EN          ,Used to enable bursting on the Write Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
textline "                            "
bitfld.long 0x00 13. " DST_PACKED                              ,Destination receives packed data. - . - ." "0,1"
bitfld.long 0x00 7.--8. "                      SRC_BURST_EN            ,Used to enable bursting on the Read Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
bitfld.long 0x00 6. "              SRC_PACKED            ,Source provides packed data. - . - ." "0,1"
textline "                            "
bitfld.long 0x00 0.--1. " DATA_TYPE                               ,Defines the type of the data moved in the channel. - . - . - . - ." "8_bits_scalar,16_bits_scalar,32_bits_scalar,Reserved"
group.long 0x224++0x3
line.long 0x00 "DMA4_CSEIi_4,Channel Source Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_SRC_ELMNT_INDEX                 ,Channel source element index"
group.long 0x228++0x3
line.long 0x00 "DMA4_CSFIi_4,Channel Source Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_SRC_FRM_INDEX_OR_16BIT_PKT_ELNT_NBR  ,Channel source frame index value if source address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC] = 1; the bit field [15:0] gives the number of element in packet. The field [31:16] is unus..."
group.long 0x20C++0x3
line.long 0x00 "DMA4_CSRi_4,Channel Status Register"
eventfld.long 0x00 14. " SUPER_BLOCK                             ,End of Super block event Read 0x0: The current Super block transfer has not been finished Write 0x0: Status bit unchanged Read 0x1: The current Super block has been transferred Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 12. "                      DRAIN_END               ,End of channel draining Read 0x0: No drain end in the current transfer Write 0x0: Status bit unchanged Read 0x1: The current channel draining is completed Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 11. "                          MISALIGNED_ADRS_ERR   ,Misaligned address error event - . - . - . - ." "No_address_error,1"
textline "                            "
eventfld.long 0x00 10. " SUPERVISOR_ERR                          ,Supervisor transaction error event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 8. "   TRANS_ERR               ,Transaction error event - . - . - . - ." "No_transaction_error,1"
eventfld.long 0x00 7. "       PKT                   ,End of Packet transfer - . - . - . - ." "Status_bit_unchanged,1"
textline "                            "
eventfld.long 0x00 6. " SYNC                                    ,Synchronization status of a channel. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 5. "   BLOCK                   ,End of block event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 4. "       LAST                  ,Last frame (start of last frame) - . - . - . - ." "Status_bit_unchanged,1"
textline "                            "
eventfld.long 0x00 3. " FRAME                                   ,End of frame event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 2. "   HALF                    ,Half of frame event. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 1. "       DROP                  ,Synchronization event drop occured during the transfer - . - . - . - ." "Status_bit_unchanged,1"
group.long 0x21C++0x3
line.long 0x00 "DMA4_CSSAi_4,Channel Source Start Address"
hexmask.long 0x00 0.--31. 1. " SRC_START_ADRS                          ,32 bits of the source start address"
tree.end
tree "DMA_Channel_5"
width 19.
group.long 0x2B8++0x3
line.long 0x00 "DMA4_CCDNi_5,"
hexmask.long.word 0x00 0.--15. 1. " CURRENT_DESCRIPTOR_NBR                  ,This register when read contains the current active descriptor number in the link list. This register is Read/write to allow user initialization."
group.long 0x29C++0x3
line.long 0x00 "DMA4_CCENi_5,Channel Current Transferred Element Number in the current frame. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.tbyte 0x00 0.--23. 1. " CURRENT_ELMNT_NBR                       ,Channel current transferred element number in the current frame"
group.long 0x2A0++0x3
line.long 0x00 "DMA4_CCFNi_5,Channel Current Transferred Frame Number in the current transfer. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.word 0x00 0.--15. 1. " CURRENT_FRAME_NBR                       ,Channel current transferred frame number in the current transfer"
group.long 0x260++0x3
line.long 0x00 "DMA4_CCRi_5,Channel Control Register"
bitfld.long 0x00 26. " WRITE_PRIORITY                          ,Channel priority on the Write side - . - ." "0,1"
bitfld.long 0x00 25. "                      BUFFERING_DISABLE       ,This bit allows to disable the default buffering functionality when transfer is source synchronized. - . - ." "0,1"
bitfld.long 0x00 24. "                          SEL_SRC_DST_SYNC      ,Specifies that element, packet, frame or block transfer (depending on CCR.bs and CCR.fs) is triggered by the source or the destination on the DMA request - . - ." "0,1"
textline "                            "
bitfld.long 0x00 23. " PREFETCH                                ,Enables the prefetch mode - . - ." "0,1"
bitfld.long 0x00 22. "                      SUPERVISOR              ,Enables the supervisor mode - . - ." "0,1"
bitfld.long 0x00 19.--20. "                          SYNCHRO_CONTROL_UPPER ,Channel Synchronization control upper (used in conjunction with the 5 bits of synchro channelDMA4_CCRi[4:0]) Used in conjunction, as 2 MSB, with the 5 bits of the synchro channel bit field." "0,1,2,3"
textline "                            "
bitfld.long 0x00 18. " BS                                      ,Block synchronization This bit used in conjunction with the fs to see how the DMA request is serviced in a synchronized transfer." "0,1"
bitfld.long 0x00 17. "                      TRANSPARENT_COPY_ENABLE ,Transparent copy enable - . - ." "0,1"
bitfld.long 0x00 16. "                          CONST_FILL_ENABLE     ,Constant fill enable - . - ." "0,1"
textline "                            "
bitfld.long 0x00 14.--15. " DST_AMODE                               ,Selects the addressing mode on the Write Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 12.--13. "  SRC_AMODE               ,Selects the addressing mode on the Read Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 10. "      WR_ACTIVE             ,Indicates if the channel write context is active or not - . - ." "0,1"
textline "                            "
bitfld.long 0x00 9. " RD_ACTIVE                               ,Indicates if the channel read context is active or not - . - ." "0,1"
bitfld.long 0x00 8. "                      SUSPEND_SENSITIVE       ,Logical channel suspend enable bit - . - ." "0,1"
bitfld.long 0x00 7. "                          ENABLE                ,Logical channel enable. It is SW responsibility to clear the CSR register and the IRQSTATUS bit for the different interrupt lines before enabling the channel. - . - ." "0,1"
textline "                            "
bitfld.long 0x00 6. " READ_PRIORITY                           ,Channel priority on the read side - . - ." "0,1"
bitfld.long 0x00 5. "                      FS                      ,Frame synchronization This bit used in conjunction with the BS to see how the DMA request is serviced in a synchronized transfer FS = 0 and BS = 0: An element is transferred once a DMA request is made. FS ..." "0,1"
bitfld.long 0x00 0.--4. "                          SYNCHRO_CONTROL       ,Channel synchronization control This bit field used in conjunction with the second_level_ synchro_control_upper (as 2 MSB) 0000000 : Is reserved for non synchronized LCH transfer xxxxxxx (from 1 to 127)T..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x298++0x3
line.long 0x00 "DMA4_CDACi_5,Channel Destination Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " DST_ELMNT_ADRS                          ,Current destination address counter value"
group.long 0x28C++0x3
line.long 0x00 "DMA4_CDEIi_5,Channel Destination Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_DST_ELMNT_INDEX                 ,Channel destination element index"
group.long 0x290++0x3
line.long 0x00 "DMA4_CDFIi_5,Channel Destination Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_DST_FRM_IDX_OR_16BIT_PKT_ELNT_NBR    ,Channel destination frame index value if destination address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC]=0; the bit field [15:0] gives the number of element in packet. The field [31:16]..."
group.long 0x2B0++0x3
line.long 0x00 "DMA4_CDPi_5,This register controls the various parameters of the link list mechanism"
bitfld.long 0x00 10. " FAST                                    ,Sets the fast-start mode for linked list descriptor types 1, 2 and 3 - . - ." "No_fast-start_mode,1"
bitfld.long 0x00 8.--9. "     TRANSFER_MODE           ,Enable linked-list transfer mode - . - . - . - ." "0,1,Undefined,Undefined"
bitfld.long 0x00 7. "                  PAUSE_LINK_LIST       ,Suspend the linked-list transfer at completion of the current block transfer. - . - ." "0,1"
textline "                            "
bitfld.long 0x00 4.--6. " NEXT_DESCRIPTOR_TYPE                    ,Next Descriptor Type - . - . - . - . - . - . - . - ." "Undefined,1,2,3,Undefined,Undefined,Undefined,Undefined"
bitfld.long 0x00 2.--3. "              SRC_VALID               ,Source address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
bitfld.long 0x00 0.--1. "  DEST_VALID            ,Destination address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
group.long 0x280++0x3
line.long 0x00 "DMA4_CDSAi_5,Channel Destination Start Address"
hexmask.long 0x00 0.--31. 1. " DST_START_ADRS                          ,32 bits of the destination start address"
group.long 0x274++0x3
line.long 0x00 "DMA4_CENi_5,Channel Element Number"
hexmask.long.tbyte 0x00 0.--23. 1. " CHANNEL_ELMNT_NBR                       ,Number of elements within a frame (unsigned) to transfer"
group.long 0x278++0x3
line.long 0x00 "DMA4_CFNi_5,Channel Frame Number"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_FRAME_NBR                       ,Number of frames within the block to be transferred (unsigned)"
group.long 0x268++0x3
line.long 0x00 "DMA4_CICRi_5,Channel Interrupt Control Register"
bitfld.long 0x00 14. " SUPER_BLOCK_IE                          ,Enables the end of super block interrupt" "0,1"
bitfld.long 0x00 12. "                      DRAIN_IE                ,Enables the end of draining interrupt" "0,1"
bitfld.long 0x00 11. "                          MISALIGNED_ERR_IE     ,Enables the address misaligned error event interrupt - . - ." "0,1"
textline "                            "
bitfld.long 0x00 10. " SUPERVISOR_ERR_IE                       ,Enables the supervisor transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 8. "                      TRANS_ERR_IE            ,Enables the transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 7. "                          PKT_IE                ,Enables the end of Packet interrupt - . - ." "0,1"
textline "                            "
bitfld.long 0x00 5. " BLOCK_IE                                ,Enables the end of block interrupt - . - ." "0,1"
bitfld.long 0x00 4. "                      LAST_IE                 ,Last frame interrupt enable (start of last frame) - . - ." "0,1"
bitfld.long 0x00 3. "                          FRAME_IE              ,Frame interrupt enable (end of frame) - . - ." "0,1"
textline "                            "
bitfld.long 0x00 2. " HALF_IE                                 ,Enables or disables the half frame interrupt. - . - ." "0,1"
bitfld.long 0x00 1. "                      DROP_IE                 ,Synchronization event drop interrupt enable (request collision) - . - ." "0,1"
group.long 0x264++0x3
line.long 0x00 "DMA4_CLNK_CTRLi_5,Channel Link Control Register"
bitfld.long 0x00 15. " ENABLE_LNK                              ,Enables or disable the channel linking. - . - ." "0,1"
bitfld.long 0x00 0.--4. "                      NEXTLCH_ID              ,Defines the NextLCh_ID, which is used to build logical channel chaining queue." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x2B4++0x3
line.long 0x00 "DMA4_CNDPi_5,This register contains the Next descriptor Address Pointer for the link list Mechanism"
hexmask.long 0x00 2.--31. 1. " NEXT_DESCRIPTOR_POINTER                 ,This register contains the Next descriptor Address Pointer for the link list Mechanism"
group.long 0x2A4++0x3
line.long 0x00 "DMA4_COLORi_5,Channel DMA COLOR KEY /SOLID COLOR"
hexmask.long.tbyte 0x00 0.--23. 1. " CH_BLT_FRGRND_COLOR_OR_SOLID_COLOR_PTRN ,Color key or solid color pattern: The pattern is replicated according to the data type. If the data-type is 8-bit the pattern is replicated 4 times to fill the register in order to enhance processing when data ..."
rgroup.long 0x294++0x3
line.long 0x00 "DMA4_CSACi_5,Channel Source Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " SRC_ELMNT_ADRS                          ,Current source address counter value"
group.long 0x270++0x3
line.long 0x00 "DMA4_CSDPi_5,Channel Source Destination Parameters"
bitfld.long 0x00 21. " SRC_ENDIAN                              ,Channel source endianness control - . - ." "0,1"
bitfld.long 0x00 20. "                      SRC_ENDIAN_LOCK         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 19. "           DST_ENDIAN            ,Channel Destination endianness control - . - ." "0,1"
textline "                            "
bitfld.long 0x00 18. " DST_ENDIAN_LOCK                         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 16.--17. "       WRITE_MODE              ,Used to enable writing mode without posting or with posting - . - . - . - ." "0,Write_(Posted),2,Undefined"
bitfld.long 0x00 14.--15. "             DST_BURST_EN          ,Used to enable bursting on the Write Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
textline "                            "
bitfld.long 0x00 13. " DST_PACKED                              ,Destination receives packed data. - . - ." "0,1"
bitfld.long 0x00 7.--8. "                      SRC_BURST_EN            ,Used to enable bursting on the Read Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
bitfld.long 0x00 6. "              SRC_PACKED            ,Source provides packed data. - . - ." "0,1"
textline "                            "
bitfld.long 0x00 0.--1. " DATA_TYPE                               ,Defines the type of the data moved in the channel. - . - . - . - ." "8_bits_scalar,16_bits_scalar,32_bits_scalar,Reserved"
group.long 0x284++0x3
line.long 0x00 "DMA4_CSEIi_5,Channel Source Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_SRC_ELMNT_INDEX                 ,Channel source element index"
group.long 0x288++0x3
line.long 0x00 "DMA4_CSFIi_5,Channel Source Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_SRC_FRM_INDEX_OR_16BIT_PKT_ELNT_NBR  ,Channel source frame index value if source address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC] = 1; the bit field [15:0] gives the number of element in packet. The field [31:16] is unus..."
group.long 0x26C++0x3
line.long 0x00 "DMA4_CSRi_5,Channel Status Register"
eventfld.long 0x00 14. " SUPER_BLOCK                             ,End of Super block event Read 0x0: The current Super block transfer has not been finished Write 0x0: Status bit unchanged Read 0x1: The current Super block has been transferred Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 12. "                      DRAIN_END               ,End of channel draining Read 0x0: No drain end in the current transfer Write 0x0: Status bit unchanged Read 0x1: The current channel draining is completed Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 11. "                          MISALIGNED_ADRS_ERR   ,Misaligned address error event - . - . - . - ." "No_address_error,1"
textline "                            "
eventfld.long 0x00 10. " SUPERVISOR_ERR                          ,Supervisor transaction error event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 8. "   TRANS_ERR               ,Transaction error event - . - . - . - ." "No_transaction_error,1"
eventfld.long 0x00 7. "       PKT                   ,End of Packet transfer - . - . - . - ." "Status_bit_unchanged,1"
textline "                            "
eventfld.long 0x00 6. " SYNC                                    ,Synchronization status of a channel. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 5. "   BLOCK                   ,End of block event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 4. "       LAST                  ,Last frame (start of last frame) - . - . - . - ." "Status_bit_unchanged,1"
textline "                            "
eventfld.long 0x00 3. " FRAME                                   ,End of frame event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 2. "   HALF                    ,Half of frame event. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 1. "       DROP                  ,Synchronization event drop occured during the transfer - . - . - . - ." "Status_bit_unchanged,1"
group.long 0x27C++0x3
line.long 0x00 "DMA4_CSSAi_5,Channel Source Start Address"
hexmask.long 0x00 0.--31. 1. " SRC_START_ADRS                          ,32 bits of the source start address"
tree.end
tree "DMA_Channel_6"
width 19.
group.long 0x318++0x3
line.long 0x00 "DMA4_CCDNi_6,"
hexmask.long.word 0x00 0.--15. 1. " CURRENT_DESCRIPTOR_NBR                  ,This register when read contains the current active descriptor number in the link list. This register is Read/write to allow user initialization."
group.long 0x2FC++0x3
line.long 0x00 "DMA4_CCENi_6,Channel Current Transferred Element Number in the current frame. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.tbyte 0x00 0.--23. 1. " CURRENT_ELMNT_NBR                       ,Channel current transferred element number in the current frame"
group.long 0x300++0x3
line.long 0x00 "DMA4_CCFNi_6,Channel Current Transferred Frame Number in the current transfer. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.word 0x00 0.--15. 1. " CURRENT_FRAME_NBR                       ,Channel current transferred frame number in the current transfer"
group.long 0x2C0++0x3
line.long 0x00 "DMA4_CCRi_6,Channel Control Register"
bitfld.long 0x00 26. " WRITE_PRIORITY                          ,Channel priority on the Write side - . - ." "0,1"
bitfld.long 0x00 25. "                      BUFFERING_DISABLE       ,This bit allows to disable the default buffering functionality when transfer is source synchronized. - . - ." "0,1"
bitfld.long 0x00 24. "                          SEL_SRC_DST_SYNC      ,Specifies that element, packet, frame or block transfer (depending on CCR.bs and CCR.fs) is triggered by the source or the destination on the DMA request - . - ." "0,1"
textline "                            "
bitfld.long 0x00 23. " PREFETCH                                ,Enables the prefetch mode - . - ." "0,1"
bitfld.long 0x00 22. "                      SUPERVISOR              ,Enables the supervisor mode - . - ." "0,1"
bitfld.long 0x00 19.--20. "                          SYNCHRO_CONTROL_UPPER ,Channel Synchronization control upper (used in conjunction with the 5 bits of synchro channelDMA4_CCRi[4:0]) Used in conjunction, as 2 MSB, with the 5 bits of the synchro channel bit field." "0,1,2,3"
textline "                            "
bitfld.long 0x00 18. " BS                                      ,Block synchronization This bit used in conjunction with the fs to see how the DMA request is serviced in a synchronized transfer." "0,1"
bitfld.long 0x00 17. "                      TRANSPARENT_COPY_ENABLE ,Transparent copy enable - . - ." "0,1"
bitfld.long 0x00 16. "                          CONST_FILL_ENABLE     ,Constant fill enable - . - ." "0,1"
textline "                            "
bitfld.long 0x00 14.--15. " DST_AMODE                               ,Selects the addressing mode on the Write Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 12.--13. "  SRC_AMODE               ,Selects the addressing mode on the Read Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 10. "      WR_ACTIVE             ,Indicates if the channel write context is active or not - . - ." "0,1"
textline "                            "
bitfld.long 0x00 9. " RD_ACTIVE                               ,Indicates if the channel read context is active or not - . - ." "0,1"
bitfld.long 0x00 8. "                      SUSPEND_SENSITIVE       ,Logical channel suspend enable bit - . - ." "0,1"
bitfld.long 0x00 7. "                          ENABLE                ,Logical channel enable. It is SW responsibility to clear the CSR register and the IRQSTATUS bit for the different interrupt lines before enabling the channel. - . - ." "0,1"
textline "                            "
bitfld.long 0x00 6. " READ_PRIORITY                           ,Channel priority on the read side - . - ." "0,1"
bitfld.long 0x00 5. "                      FS                      ,Frame synchronization This bit used in conjunction with the BS to see how the DMA request is serviced in a synchronized transfer FS = 0 and BS = 0: An element is transferred once a DMA request is made. FS ..." "0,1"
bitfld.long 0x00 0.--4. "                          SYNCHRO_CONTROL       ,Channel synchronization control This bit field used in conjunction with the second_level_ synchro_control_upper (as 2 MSB) 0000000 : Is reserved for non synchronized LCH transfer xxxxxxx (from 1 to 127)T..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x2F8++0x3
line.long 0x00 "DMA4_CDACi_6,Channel Destination Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " DST_ELMNT_ADRS                          ,Current destination address counter value"
group.long 0x2EC++0x3
line.long 0x00 "DMA4_CDEIi_6,Channel Destination Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_DST_ELMNT_INDEX                 ,Channel destination element index"
group.long 0x2F0++0x3
line.long 0x00 "DMA4_CDFIi_6,Channel Destination Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_DST_FRM_IDX_OR_16BIT_PKT_ELNT_NBR    ,Channel destination frame index value if destination address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC]=0; the bit field [15:0] gives the number of element in packet. The field [31:16]..."
group.long 0x310++0x3
line.long 0x00 "DMA4_CDPi_6,This register controls the various parameters of the link list mechanism"
bitfld.long 0x00 10. " FAST                                    ,Sets the fast-start mode for linked list descriptor types 1, 2 and 3 - . - ." "No_fast-start_mode,1"
bitfld.long 0x00 8.--9. "     TRANSFER_MODE           ,Enable linked-list transfer mode - . - . - . - ." "0,1,Undefined,Undefined"
bitfld.long 0x00 7. "                  PAUSE_LINK_LIST       ,Suspend the linked-list transfer at completion of the current block transfer. - . - ." "0,1"
textline "                            "
bitfld.long 0x00 4.--6. " NEXT_DESCRIPTOR_TYPE                    ,Next Descriptor Type - . - . - . - . - . - . - . - ." "Undefined,1,2,3,Undefined,Undefined,Undefined,Undefined"
bitfld.long 0x00 2.--3. "              SRC_VALID               ,Source address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
bitfld.long 0x00 0.--1. "  DEST_VALID            ,Destination address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
group.long 0x2E0++0x3
line.long 0x00 "DMA4_CDSAi_6,Channel Destination Start Address"
hexmask.long 0x00 0.--31. 1. " DST_START_ADRS                          ,32 bits of the destination start address"
group.long 0x2D4++0x3
line.long 0x00 "DMA4_CENi_6,Channel Element Number"
hexmask.long.tbyte 0x00 0.--23. 1. " CHANNEL_ELMNT_NBR                       ,Number of elements within a frame (unsigned) to transfer"
group.long 0x2D8++0x3
line.long 0x00 "DMA4_CFNi_6,Channel Frame Number"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_FRAME_NBR                       ,Number of frames within the block to be transferred (unsigned)"
group.long 0x2C8++0x3
line.long 0x00 "DMA4_CICRi_6,Channel Interrupt Control Register"
bitfld.long 0x00 14. " SUPER_BLOCK_IE                          ,Enables the end of super block interrupt" "0,1"
bitfld.long 0x00 12. "                      DRAIN_IE                ,Enables the end of draining interrupt" "0,1"
bitfld.long 0x00 11. "                          MISALIGNED_ERR_IE     ,Enables the address misaligned error event interrupt - . - ." "0,1"
textline "                            "
bitfld.long 0x00 10. " SUPERVISOR_ERR_IE                       ,Enables the supervisor transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 8. "                      TRANS_ERR_IE            ,Enables the transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 7. "                          PKT_IE                ,Enables the end of Packet interrupt - . - ." "0,1"
textline "                            "
bitfld.long 0x00 5. " BLOCK_IE                                ,Enables the end of block interrupt - . - ." "0,1"
bitfld.long 0x00 4. "                      LAST_IE                 ,Last frame interrupt enable (start of last frame) - . - ." "0,1"
bitfld.long 0x00 3. "                          FRAME_IE              ,Frame interrupt enable (end of frame) - . - ." "0,1"
textline "                            "
bitfld.long 0x00 2. " HALF_IE                                 ,Enables or disables the half frame interrupt. - . - ." "0,1"
bitfld.long 0x00 1. "                      DROP_IE                 ,Synchronization event drop interrupt enable (request collision) - . - ." "0,1"
group.long 0x2C4++0x3
line.long 0x00 "DMA4_CLNK_CTRLi_6,Channel Link Control Register"
bitfld.long 0x00 15. " ENABLE_LNK                              ,Enables or disable the channel linking. - . - ." "0,1"
bitfld.long 0x00 0.--4. "                      NEXTLCH_ID              ,Defines the NextLCh_ID, which is used to build logical channel chaining queue." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x314++0x3
line.long 0x00 "DMA4_CNDPi_6,This register contains the Next descriptor Address Pointer for the link list Mechanism"
hexmask.long 0x00 2.--31. 1. " NEXT_DESCRIPTOR_POINTER                 ,This register contains the Next descriptor Address Pointer for the link list Mechanism"
group.long 0x304++0x3
line.long 0x00 "DMA4_COLORi_6,Channel DMA COLOR KEY /SOLID COLOR"
hexmask.long.tbyte 0x00 0.--23. 1. " CH_BLT_FRGRND_COLOR_OR_SOLID_COLOR_PTRN ,Color key or solid color pattern: The pattern is replicated according to the data type. If the data-type is 8-bit the pattern is replicated 4 times to fill the register in order to enhance processing when data ..."
rgroup.long 0x2F4++0x3
line.long 0x00 "DMA4_CSACi_6,Channel Source Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " SRC_ELMNT_ADRS                          ,Current source address counter value"
group.long 0x2D0++0x3
line.long 0x00 "DMA4_CSDPi_6,Channel Source Destination Parameters"
bitfld.long 0x00 21. " SRC_ENDIAN                              ,Channel source endianness control - . - ." "0,1"
bitfld.long 0x00 20. "                      SRC_ENDIAN_LOCK         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 19. "           DST_ENDIAN            ,Channel Destination endianness control - . - ." "0,1"
textline "                            "
bitfld.long 0x00 18. " DST_ENDIAN_LOCK                         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 16.--17. "       WRITE_MODE              ,Used to enable writing mode without posting or with posting - . - . - . - ." "0,Write_(Posted),2,Undefined"
bitfld.long 0x00 14.--15. "             DST_BURST_EN          ,Used to enable bursting on the Write Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
textline "                            "
bitfld.long 0x00 13. " DST_PACKED                              ,Destination receives packed data. - . - ." "0,1"
bitfld.long 0x00 7.--8. "                      SRC_BURST_EN            ,Used to enable bursting on the Read Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
bitfld.long 0x00 6. "              SRC_PACKED            ,Source provides packed data. - . - ." "0,1"
textline "                            "
bitfld.long 0x00 0.--1. " DATA_TYPE                               ,Defines the type of the data moved in the channel. - . - . - . - ." "8_bits_scalar,16_bits_scalar,32_bits_scalar,Reserved"
group.long 0x2E4++0x3
line.long 0x00 "DMA4_CSEIi_6,Channel Source Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_SRC_ELMNT_INDEX                 ,Channel source element index"
group.long 0x2E8++0x3
line.long 0x00 "DMA4_CSFIi_6,Channel Source Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_SRC_FRM_INDEX_OR_16BIT_PKT_ELNT_NBR  ,Channel source frame index value if source address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC] = 1; the bit field [15:0] gives the number of element in packet. The field [31:16] is unus..."
group.long 0x2CC++0x3
line.long 0x00 "DMA4_CSRi_6,Channel Status Register"
eventfld.long 0x00 14. " SUPER_BLOCK                             ,End of Super block event Read 0x0: The current Super block transfer has not been finished Write 0x0: Status bit unchanged Read 0x1: The current Super block has been transferred Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 12. "                      DRAIN_END               ,End of channel draining Read 0x0: No drain end in the current transfer Write 0x0: Status bit unchanged Read 0x1: The current channel draining is completed Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 11. "                          MISALIGNED_ADRS_ERR   ,Misaligned address error event - . - . - . - ." "No_address_error,1"
textline "                            "
eventfld.long 0x00 10. " SUPERVISOR_ERR                          ,Supervisor transaction error event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 8. "   TRANS_ERR               ,Transaction error event - . - . - . - ." "No_transaction_error,1"
eventfld.long 0x00 7. "       PKT                   ,End of Packet transfer - . - . - . - ." "Status_bit_unchanged,1"
textline "                            "
eventfld.long 0x00 6. " SYNC                                    ,Synchronization status of a channel. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 5. "   BLOCK                   ,End of block event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 4. "       LAST                  ,Last frame (start of last frame) - . - . - . - ." "Status_bit_unchanged,1"
textline "                            "
eventfld.long 0x00 3. " FRAME                                   ,End of frame event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 2. "   HALF                    ,Half of frame event. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 1. "       DROP                  ,Synchronization event drop occured during the transfer - . - . - . - ." "Status_bit_unchanged,1"
group.long 0x2DC++0x3
line.long 0x00 "DMA4_CSSAi_6,Channel Source Start Address"
hexmask.long 0x00 0.--31. 1. " SRC_START_ADRS                          ,32 bits of the source start address"
tree.end
tree "DMA_Channel_7"
width 19.
group.long 0x378++0x3
line.long 0x00 "DMA4_CCDNi_7,"
hexmask.long.word 0x00 0.--15. 1. " CURRENT_DESCRIPTOR_NBR                  ,This register when read contains the current active descriptor number in the link list. This register is Read/write to allow user initialization."
group.long 0x35C++0x3
line.long 0x00 "DMA4_CCENi_7,Channel Current Transferred Element Number in the current frame. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.tbyte 0x00 0.--23. 1. " CURRENT_ELMNT_NBR                       ,Channel current transferred element number in the current frame"
group.long 0x360++0x3
line.long 0x00 "DMA4_CCFNi_7,Channel Current Transferred Frame Number in the current transfer. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.word 0x00 0.--15. 1. " CURRENT_FRAME_NBR                       ,Channel current transferred frame number in the current transfer"
group.long 0x320++0x3
line.long 0x00 "DMA4_CCRi_7,Channel Control Register"
bitfld.long 0x00 26. " WRITE_PRIORITY                          ,Channel priority on the Write side - . - ." "0,1"
bitfld.long 0x00 25. "                      BUFFERING_DISABLE       ,This bit allows to disable the default buffering functionality when transfer is source synchronized. - . - ." "0,1"
bitfld.long 0x00 24. "                          SEL_SRC_DST_SYNC      ,Specifies that element, packet, frame or block transfer (depending on CCR.bs and CCR.fs) is triggered by the source or the destination on the DMA request - . - ." "0,1"
textline "                            "
bitfld.long 0x00 23. " PREFETCH                                ,Enables the prefetch mode - . - ." "0,1"
bitfld.long 0x00 22. "                      SUPERVISOR              ,Enables the supervisor mode - . - ." "0,1"
bitfld.long 0x00 19.--20. "                          SYNCHRO_CONTROL_UPPER ,Channel Synchronization control upper (used in conjunction with the 5 bits of synchro channelDMA4_CCRi[4:0]) Used in conjunction, as 2 MSB, with the 5 bits of the synchro channel bit field." "0,1,2,3"
textline "                            "
bitfld.long 0x00 18. " BS                                      ,Block synchronization This bit used in conjunction with the fs to see how the DMA request is serviced in a synchronized transfer." "0,1"
bitfld.long 0x00 17. "                      TRANSPARENT_COPY_ENABLE ,Transparent copy enable - . - ." "0,1"
bitfld.long 0x00 16. "                          CONST_FILL_ENABLE     ,Constant fill enable - . - ." "0,1"
textline "                            "
bitfld.long 0x00 14.--15. " DST_AMODE                               ,Selects the addressing mode on the Write Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 12.--13. "  SRC_AMODE               ,Selects the addressing mode on the Read Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 10. "      WR_ACTIVE             ,Indicates if the channel write context is active or not - . - ." "0,1"
textline "                            "
bitfld.long 0x00 9. " RD_ACTIVE                               ,Indicates if the channel read context is active or not - . - ." "0,1"
bitfld.long 0x00 8. "                      SUSPEND_SENSITIVE       ,Logical channel suspend enable bit - . - ." "0,1"
bitfld.long 0x00 7. "                          ENABLE                ,Logical channel enable. It is SW responsibility to clear the CSR register and the IRQSTATUS bit for the different interrupt lines before enabling the channel. - . - ." "0,1"
textline "                            "
bitfld.long 0x00 6. " READ_PRIORITY                           ,Channel priority on the read side - . - ." "0,1"
bitfld.long 0x00 5. "                      FS                      ,Frame synchronization This bit used in conjunction with the BS to see how the DMA request is serviced in a synchronized transfer FS = 0 and BS = 0: An element is transferred once a DMA request is made. FS ..." "0,1"
bitfld.long 0x00 0.--4. "                          SYNCHRO_CONTROL       ,Channel synchronization control This bit field used in conjunction with the second_level_ synchro_control_upper (as 2 MSB) 0000000 : Is reserved for non synchronized LCH transfer xxxxxxx (from 1 to 127)T..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x358++0x3
line.long 0x00 "DMA4_CDACi_7,Channel Destination Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " DST_ELMNT_ADRS                          ,Current destination address counter value"
group.long 0x34C++0x3
line.long 0x00 "DMA4_CDEIi_7,Channel Destination Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_DST_ELMNT_INDEX                 ,Channel destination element index"
group.long 0x350++0x3
line.long 0x00 "DMA4_CDFIi_7,Channel Destination Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_DST_FRM_IDX_OR_16BIT_PKT_ELNT_NBR    ,Channel destination frame index value if destination address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC]=0; the bit field [15:0] gives the number of element in packet. The field [31:16]..."
group.long 0x370++0x3
line.long 0x00 "DMA4_CDPi_7,This register controls the various parameters of the link list mechanism"
bitfld.long 0x00 10. " FAST                                    ,Sets the fast-start mode for linked list descriptor types 1, 2 and 3 - . - ." "No_fast-start_mode,1"
bitfld.long 0x00 8.--9. "     TRANSFER_MODE           ,Enable linked-list transfer mode - . - . - . - ." "0,1,Undefined,Undefined"
bitfld.long 0x00 7. "                  PAUSE_LINK_LIST       ,Suspend the linked-list transfer at completion of the current block transfer. - . - ." "0,1"
textline "                            "
bitfld.long 0x00 4.--6. " NEXT_DESCRIPTOR_TYPE                    ,Next Descriptor Type - . - . - . - . - . - . - . - ." "Undefined,1,2,3,Undefined,Undefined,Undefined,Undefined"
bitfld.long 0x00 2.--3. "              SRC_VALID               ,Source address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
bitfld.long 0x00 0.--1. "  DEST_VALID            ,Destination address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
group.long 0x340++0x3
line.long 0x00 "DMA4_CDSAi_7,Channel Destination Start Address"
hexmask.long 0x00 0.--31. 1. " DST_START_ADRS                          ,32 bits of the destination start address"
group.long 0x334++0x3
line.long 0x00 "DMA4_CENi_7,Channel Element Number"
hexmask.long.tbyte 0x00 0.--23. 1. " CHANNEL_ELMNT_NBR                       ,Number of elements within a frame (unsigned) to transfer"
group.long 0x338++0x3
line.long 0x00 "DMA4_CFNi_7,Channel Frame Number"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_FRAME_NBR                       ,Number of frames within the block to be transferred (unsigned)"
group.long 0x328++0x3
line.long 0x00 "DMA4_CICRi_7,Channel Interrupt Control Register"
bitfld.long 0x00 14. " SUPER_BLOCK_IE                          ,Enables the end of super block interrupt" "0,1"
bitfld.long 0x00 12. "                      DRAIN_IE                ,Enables the end of draining interrupt" "0,1"
bitfld.long 0x00 11. "                          MISALIGNED_ERR_IE     ,Enables the address misaligned error event interrupt - . - ." "0,1"
textline "                            "
bitfld.long 0x00 10. " SUPERVISOR_ERR_IE                       ,Enables the supervisor transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 8. "                      TRANS_ERR_IE            ,Enables the transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 7. "                          PKT_IE                ,Enables the end of Packet interrupt - . - ." "0,1"
textline "                            "
bitfld.long 0x00 5. " BLOCK_IE                                ,Enables the end of block interrupt - . - ." "0,1"
bitfld.long 0x00 4. "                      LAST_IE                 ,Last frame interrupt enable (start of last frame) - . - ." "0,1"
bitfld.long 0x00 3. "                          FRAME_IE              ,Frame interrupt enable (end of frame) - . - ." "0,1"
textline "                            "
bitfld.long 0x00 2. " HALF_IE                                 ,Enables or disables the half frame interrupt. - . - ." "0,1"
bitfld.long 0x00 1. "                      DROP_IE                 ,Synchronization event drop interrupt enable (request collision) - . - ." "0,1"
group.long 0x324++0x3
line.long 0x00 "DMA4_CLNK_CTRLi_7,Channel Link Control Register"
bitfld.long 0x00 15. " ENABLE_LNK                              ,Enables or disable the channel linking. - . - ." "0,1"
bitfld.long 0x00 0.--4. "                      NEXTLCH_ID              ,Defines the NextLCh_ID, which is used to build logical channel chaining queue." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x374++0x3
line.long 0x00 "DMA4_CNDPi_7,This register contains the Next descriptor Address Pointer for the link list Mechanism"
hexmask.long 0x00 2.--31. 1. " NEXT_DESCRIPTOR_POINTER                 ,This register contains the Next descriptor Address Pointer for the link list Mechanism"
group.long 0x364++0x3
line.long 0x00 "DMA4_COLORi_7,Channel DMA COLOR KEY /SOLID COLOR"
hexmask.long.tbyte 0x00 0.--23. 1. " CH_BLT_FRGRND_COLOR_OR_SOLID_COLOR_PTRN ,Color key or solid color pattern: The pattern is replicated according to the data type. If the data-type is 8-bit the pattern is replicated 4 times to fill the register in order to enhance processing when data ..."
rgroup.long 0x354++0x3
line.long 0x00 "DMA4_CSACi_7,Channel Source Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " SRC_ELMNT_ADRS                          ,Current source address counter value"
group.long 0x330++0x3
line.long 0x00 "DMA4_CSDPi_7,Channel Source Destination Parameters"
bitfld.long 0x00 21. " SRC_ENDIAN                              ,Channel source endianness control - . - ." "0,1"
bitfld.long 0x00 20. "                      SRC_ENDIAN_LOCK         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 19. "           DST_ENDIAN            ,Channel Destination endianness control - . - ." "0,1"
textline "                            "
bitfld.long 0x00 18. " DST_ENDIAN_LOCK                         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 16.--17. "       WRITE_MODE              ,Used to enable writing mode without posting or with posting - . - . - . - ." "0,Write_(Posted),2,Undefined"
bitfld.long 0x00 14.--15. "             DST_BURST_EN          ,Used to enable bursting on the Write Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
textline "                            "
bitfld.long 0x00 13. " DST_PACKED                              ,Destination receives packed data. - . - ." "0,1"
bitfld.long 0x00 7.--8. "                      SRC_BURST_EN            ,Used to enable bursting on the Read Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
bitfld.long 0x00 6. "              SRC_PACKED            ,Source provides packed data. - . - ." "0,1"
textline "                            "
bitfld.long 0x00 0.--1. " DATA_TYPE                               ,Defines the type of the data moved in the channel. - . - . - . - ." "8_bits_scalar,16_bits_scalar,32_bits_scalar,Reserved"
group.long 0x344++0x3
line.long 0x00 "DMA4_CSEIi_7,Channel Source Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_SRC_ELMNT_INDEX                 ,Channel source element index"
group.long 0x348++0x3
line.long 0x00 "DMA4_CSFIi_7,Channel Source Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_SRC_FRM_INDEX_OR_16BIT_PKT_ELNT_NBR  ,Channel source frame index value if source address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC] = 1; the bit field [15:0] gives the number of element in packet. The field [31:16] is unus..."
group.long 0x32C++0x3
line.long 0x00 "DMA4_CSRi_7,Channel Status Register"
eventfld.long 0x00 14. " SUPER_BLOCK                             ,End of Super block event Read 0x0: The current Super block transfer has not been finished Write 0x0: Status bit unchanged Read 0x1: The current Super block has been transferred Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 12. "                      DRAIN_END               ,End of channel draining Read 0x0: No drain end in the current transfer Write 0x0: Status bit unchanged Read 0x1: The current channel draining is completed Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 11. "                          MISALIGNED_ADRS_ERR   ,Misaligned address error event - . - . - . - ." "No_address_error,1"
textline "                            "
eventfld.long 0x00 10. " SUPERVISOR_ERR                          ,Supervisor transaction error event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 8. "   TRANS_ERR               ,Transaction error event - . - . - . - ." "No_transaction_error,1"
eventfld.long 0x00 7. "       PKT                   ,End of Packet transfer - . - . - . - ." "Status_bit_unchanged,1"
textline "                            "
eventfld.long 0x00 6. " SYNC                                    ,Synchronization status of a channel. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 5. "   BLOCK                   ,End of block event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 4. "       LAST                  ,Last frame (start of last frame) - . - . - . - ." "Status_bit_unchanged,1"
textline "                            "
eventfld.long 0x00 3. " FRAME                                   ,End of frame event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 2. "   HALF                    ,Half of frame event. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 1. "       DROP                  ,Synchronization event drop occured during the transfer - . - . - . - ." "Status_bit_unchanged,1"
group.long 0x33C++0x3
line.long 0x00 "DMA4_CSSAi_7,Channel Source Start Address"
hexmask.long 0x00 0.--31. 1. " SRC_START_ADRS                          ,32 bits of the source start address"
tree.end
tree "DMA_Channel_8"
width 19.
group.long 0x3D8++0x3
line.long 0x00 "DMA4_CCDNi_8,"
hexmask.long.word 0x00 0.--15. 1. " CURRENT_DESCRIPTOR_NBR                  ,This register when read contains the current active descriptor number in the link list. This register is Read/write to allow user initialization."
group.long 0x3BC++0x3
line.long 0x00 "DMA4_CCENi_8,Channel Current Transferred Element Number in the current frame. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.tbyte 0x00 0.--23. 1. " CURRENT_ELMNT_NBR                       ,Channel current transferred element number in the current frame"
group.long 0x3C0++0x3
line.long 0x00 "DMA4_CCFNi_8,Channel Current Transferred Frame Number in the current transfer. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.word 0x00 0.--15. 1. " CURRENT_FRAME_NBR                       ,Channel current transferred frame number in the current transfer"
group.long 0x380++0x3
line.long 0x00 "DMA4_CCRi_8,Channel Control Register"
bitfld.long 0x00 26. " WRITE_PRIORITY                          ,Channel priority on the Write side - . - ." "0,1"
bitfld.long 0x00 25. "                      BUFFERING_DISABLE       ,This bit allows to disable the default buffering functionality when transfer is source synchronized. - . - ." "0,1"
bitfld.long 0x00 24. "                          SEL_SRC_DST_SYNC      ,Specifies that element, packet, frame or block transfer (depending on CCR.bs and CCR.fs) is triggered by the source or the destination on the DMA request - . - ." "0,1"
textline "                            "
bitfld.long 0x00 23. " PREFETCH                                ,Enables the prefetch mode - . - ." "0,1"
bitfld.long 0x00 22. "                      SUPERVISOR              ,Enables the supervisor mode - . - ." "0,1"
bitfld.long 0x00 19.--20. "                          SYNCHRO_CONTROL_UPPER ,Channel Synchronization control upper (used in conjunction with the 5 bits of synchro channelDMA4_CCRi[4:0]) Used in conjunction, as 2 MSB, with the 5 bits of the synchro channel bit field." "0,1,2,3"
textline "                            "
bitfld.long 0x00 18. " BS                                      ,Block synchronization This bit used in conjunction with the fs to see how the DMA request is serviced in a synchronized transfer." "0,1"
bitfld.long 0x00 17. "                      TRANSPARENT_COPY_ENABLE ,Transparent copy enable - . - ." "0,1"
bitfld.long 0x00 16. "                          CONST_FILL_ENABLE     ,Constant fill enable - . - ." "0,1"
textline "                            "
bitfld.long 0x00 14.--15. " DST_AMODE                               ,Selects the addressing mode on the Write Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 12.--13. "  SRC_AMODE               ,Selects the addressing mode on the Read Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 10. "      WR_ACTIVE             ,Indicates if the channel write context is active or not - . - ." "0,1"
textline "                            "
bitfld.long 0x00 9. " RD_ACTIVE                               ,Indicates if the channel read context is active or not - . - ." "0,1"
bitfld.long 0x00 8. "                      SUSPEND_SENSITIVE       ,Logical channel suspend enable bit - . - ." "0,1"
bitfld.long 0x00 7. "                          ENABLE                ,Logical channel enable. It is SW responsibility to clear the CSR register and the IRQSTATUS bit for the different interrupt lines before enabling the channel. - . - ." "0,1"
textline "                            "
bitfld.long 0x00 6. " READ_PRIORITY                           ,Channel priority on the read side - . - ." "0,1"
bitfld.long 0x00 5. "                      FS                      ,Frame synchronization This bit used in conjunction with the BS to see how the DMA request is serviced in a synchronized transfer FS = 0 and BS = 0: An element is transferred once a DMA request is made. FS ..." "0,1"
bitfld.long 0x00 0.--4. "                          SYNCHRO_CONTROL       ,Channel synchronization control This bit field used in conjunction with the second_level_ synchro_control_upper (as 2 MSB) 0000000 : Is reserved for non synchronized LCH transfer xxxxxxx (from 1 to 127)T..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x3B8++0x3
line.long 0x00 "DMA4_CDACi_8,Channel Destination Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " DST_ELMNT_ADRS                          ,Current destination address counter value"
group.long 0x3AC++0x3
line.long 0x00 "DMA4_CDEIi_8,Channel Destination Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_DST_ELMNT_INDEX                 ,Channel destination element index"
group.long 0x3B0++0x3
line.long 0x00 "DMA4_CDFIi_8,Channel Destination Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_DST_FRM_IDX_OR_16BIT_PKT_ELNT_NBR    ,Channel destination frame index value if destination address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC]=0; the bit field [15:0] gives the number of element in packet. The field [31:16]..."
group.long 0x3D0++0x3
line.long 0x00 "DMA4_CDPi_8,This register controls the various parameters of the link list mechanism"
bitfld.long 0x00 10. " FAST                                    ,Sets the fast-start mode for linked list descriptor types 1, 2 and 3 - . - ." "No_fast-start_mode,1"
bitfld.long 0x00 8.--9. "     TRANSFER_MODE           ,Enable linked-list transfer mode - . - . - . - ." "0,1,Undefined,Undefined"
bitfld.long 0x00 7. "                  PAUSE_LINK_LIST       ,Suspend the linked-list transfer at completion of the current block transfer. - . - ." "0,1"
textline "                            "
bitfld.long 0x00 4.--6. " NEXT_DESCRIPTOR_TYPE                    ,Next Descriptor Type - . - . - . - . - . - . - . - ." "Undefined,1,2,3,Undefined,Undefined,Undefined,Undefined"
bitfld.long 0x00 2.--3. "              SRC_VALID               ,Source address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
bitfld.long 0x00 0.--1. "  DEST_VALID            ,Destination address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
group.long 0x3A0++0x3
line.long 0x00 "DMA4_CDSAi_8,Channel Destination Start Address"
hexmask.long 0x00 0.--31. 1. " DST_START_ADRS                          ,32 bits of the destination start address"
group.long 0x394++0x3
line.long 0x00 "DMA4_CENi_8,Channel Element Number"
hexmask.long.tbyte 0x00 0.--23. 1. " CHANNEL_ELMNT_NBR                       ,Number of elements within a frame (unsigned) to transfer"
group.long 0x398++0x3
line.long 0x00 "DMA4_CFNi_8,Channel Frame Number"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_FRAME_NBR                       ,Number of frames within the block to be transferred (unsigned)"
group.long 0x388++0x3
line.long 0x00 "DMA4_CICRi_8,Channel Interrupt Control Register"
bitfld.long 0x00 14. " SUPER_BLOCK_IE                          ,Enables the end of super block interrupt" "0,1"
bitfld.long 0x00 12. "                      DRAIN_IE                ,Enables the end of draining interrupt" "0,1"
bitfld.long 0x00 11. "                          MISALIGNED_ERR_IE     ,Enables the address misaligned error event interrupt - . - ." "0,1"
textline "                            "
bitfld.long 0x00 10. " SUPERVISOR_ERR_IE                       ,Enables the supervisor transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 8. "                      TRANS_ERR_IE            ,Enables the transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 7. "                          PKT_IE                ,Enables the end of Packet interrupt - . - ." "0,1"
textline "                            "
bitfld.long 0x00 5. " BLOCK_IE                                ,Enables the end of block interrupt - . - ." "0,1"
bitfld.long 0x00 4. "                      LAST_IE                 ,Last frame interrupt enable (start of last frame) - . - ." "0,1"
bitfld.long 0x00 3. "                          FRAME_IE              ,Frame interrupt enable (end of frame) - . - ." "0,1"
textline "                            "
bitfld.long 0x00 2. " HALF_IE                                 ,Enables or disables the half frame interrupt. - . - ." "0,1"
bitfld.long 0x00 1. "                      DROP_IE                 ,Synchronization event drop interrupt enable (request collision) - . - ." "0,1"
group.long 0x384++0x3
line.long 0x00 "DMA4_CLNK_CTRLi_8,Channel Link Control Register"
bitfld.long 0x00 15. " ENABLE_LNK                              ,Enables or disable the channel linking. - . - ." "0,1"
bitfld.long 0x00 0.--4. "                      NEXTLCH_ID              ,Defines the NextLCh_ID, which is used to build logical channel chaining queue." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x3D4++0x3
line.long 0x00 "DMA4_CNDPi_8,This register contains the Next descriptor Address Pointer for the link list Mechanism"
hexmask.long 0x00 2.--31. 1. " NEXT_DESCRIPTOR_POINTER                 ,This register contains the Next descriptor Address Pointer for the link list Mechanism"
group.long 0x3C4++0x3
line.long 0x00 "DMA4_COLORi_8,Channel DMA COLOR KEY /SOLID COLOR"
hexmask.long.tbyte 0x00 0.--23. 1. " CH_BLT_FRGRND_COLOR_OR_SOLID_COLOR_PTRN ,Color key or solid color pattern: The pattern is replicated according to the data type. If the data-type is 8-bit the pattern is replicated 4 times to fill the register in order to enhance processing when data ..."
rgroup.long 0x3B4++0x3
line.long 0x00 "DMA4_CSACi_8,Channel Source Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " SRC_ELMNT_ADRS                          ,Current source address counter value"
group.long 0x390++0x3
line.long 0x00 "DMA4_CSDPi_8,Channel Source Destination Parameters"
bitfld.long 0x00 21. " SRC_ENDIAN                              ,Channel source endianness control - . - ." "0,1"
bitfld.long 0x00 20. "                      SRC_ENDIAN_LOCK         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 19. "           DST_ENDIAN            ,Channel Destination endianness control - . - ." "0,1"
textline "                            "
bitfld.long 0x00 18. " DST_ENDIAN_LOCK                         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 16.--17. "       WRITE_MODE              ,Used to enable writing mode without posting or with posting - . - . - . - ." "0,Write_(Posted),2,Undefined"
bitfld.long 0x00 14.--15. "             DST_BURST_EN          ,Used to enable bursting on the Write Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
textline "                            "
bitfld.long 0x00 13. " DST_PACKED                              ,Destination receives packed data. - . - ." "0,1"
bitfld.long 0x00 7.--8. "                      SRC_BURST_EN            ,Used to enable bursting on the Read Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
bitfld.long 0x00 6. "              SRC_PACKED            ,Source provides packed data. - . - ." "0,1"
textline "                            "
bitfld.long 0x00 0.--1. " DATA_TYPE                               ,Defines the type of the data moved in the channel. - . - . - . - ." "8_bits_scalar,16_bits_scalar,32_bits_scalar,Reserved"
group.long 0x3A4++0x3
line.long 0x00 "DMA4_CSEIi_8,Channel Source Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_SRC_ELMNT_INDEX                 ,Channel source element index"
group.long 0x3A8++0x3
line.long 0x00 "DMA4_CSFIi_8,Channel Source Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_SRC_FRM_INDEX_OR_16BIT_PKT_ELNT_NBR  ,Channel source frame index value if source address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC] = 1; the bit field [15:0] gives the number of element in packet. The field [31:16] is unus..."
group.long 0x38C++0x3
line.long 0x00 "DMA4_CSRi_8,Channel Status Register"
eventfld.long 0x00 14. " SUPER_BLOCK                             ,End of Super block event Read 0x0: The current Super block transfer has not been finished Write 0x0: Status bit unchanged Read 0x1: The current Super block has been transferred Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 12. "                      DRAIN_END               ,End of channel draining Read 0x0: No drain end in the current transfer Write 0x0: Status bit unchanged Read 0x1: The current channel draining is completed Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 11. "                          MISALIGNED_ADRS_ERR   ,Misaligned address error event - . - . - . - ." "No_address_error,1"
textline "                            "
eventfld.long 0x00 10. " SUPERVISOR_ERR                          ,Supervisor transaction error event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 8. "   TRANS_ERR               ,Transaction error event - . - . - . - ." "No_transaction_error,1"
eventfld.long 0x00 7. "       PKT                   ,End of Packet transfer - . - . - . - ." "Status_bit_unchanged,1"
textline "                            "
eventfld.long 0x00 6. " SYNC                                    ,Synchronization status of a channel. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 5. "   BLOCK                   ,End of block event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 4. "       LAST                  ,Last frame (start of last frame) - . - . - . - ." "Status_bit_unchanged,1"
textline "                            "
eventfld.long 0x00 3. " FRAME                                   ,End of frame event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 2. "   HALF                    ,Half of frame event. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 1. "       DROP                  ,Synchronization event drop occured during the transfer - . - . - . - ." "Status_bit_unchanged,1"
group.long 0x39C++0x3
line.long 0x00 "DMA4_CSSAi_8,Channel Source Start Address"
hexmask.long 0x00 0.--31. 1. " SRC_START_ADRS                          ,32 bits of the source start address"
tree.end
tree "DMA_Channel_9"
width 19.
group.long 0x438++0x3
line.long 0x00 "DMA4_CCDNi_9,"
hexmask.long.word 0x00 0.--15. 1. " CURRENT_DESCRIPTOR_NBR                  ,This register when read contains the current active descriptor number in the link list. This register is Read/write to allow user initialization."
group.long 0x41C++0x3
line.long 0x00 "DMA4_CCENi_9,Channel Current Transferred Element Number in the current frame. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.tbyte 0x00 0.--23. 1. " CURRENT_ELMNT_NBR                       ,Channel current transferred element number in the current frame"
group.long 0x420++0x3
line.long 0x00 "DMA4_CCFNi_9,Channel Current Transferred Frame Number in the current transfer. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.word 0x00 0.--15. 1. " CURRENT_FRAME_NBR                       ,Channel current transferred frame number in the current transfer"
group.long 0x3E0++0x3
line.long 0x00 "DMA4_CCRi_9,Channel Control Register"
bitfld.long 0x00 26. " WRITE_PRIORITY                          ,Channel priority on the Write side - . - ." "0,1"
bitfld.long 0x00 25. "                      BUFFERING_DISABLE       ,This bit allows to disable the default buffering functionality when transfer is source synchronized. - . - ." "0,1"
bitfld.long 0x00 24. "                          SEL_SRC_DST_SYNC      ,Specifies that element, packet, frame or block transfer (depending on CCR.bs and CCR.fs) is triggered by the source or the destination on the DMA request - . - ." "0,1"
textline "                            "
bitfld.long 0x00 23. " PREFETCH                                ,Enables the prefetch mode - . - ." "0,1"
bitfld.long 0x00 22. "                      SUPERVISOR              ,Enables the supervisor mode - . - ." "0,1"
bitfld.long 0x00 19.--20. "                          SYNCHRO_CONTROL_UPPER ,Channel Synchronization control upper (used in conjunction with the 5 bits of synchro channelDMA4_CCRi[4:0]) Used in conjunction, as 2 MSB, with the 5 bits of the synchro channel bit field." "0,1,2,3"
textline "                            "
bitfld.long 0x00 18. " BS                                      ,Block synchronization This bit used in conjunction with the fs to see how the DMA request is serviced in a synchronized transfer." "0,1"
bitfld.long 0x00 17. "                      TRANSPARENT_COPY_ENABLE ,Transparent copy enable - . - ." "0,1"
bitfld.long 0x00 16. "                          CONST_FILL_ENABLE     ,Constant fill enable - . - ." "0,1"
textline "                            "
bitfld.long 0x00 14.--15. " DST_AMODE                               ,Selects the addressing mode on the Write Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 12.--13. "  SRC_AMODE               ,Selects the addressing mode on the Read Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 10. "      WR_ACTIVE             ,Indicates if the channel write context is active or not - . - ." "0,1"
textline "                            "
bitfld.long 0x00 9. " RD_ACTIVE                               ,Indicates if the channel read context is active or not - . - ." "0,1"
bitfld.long 0x00 8. "                      SUSPEND_SENSITIVE       ,Logical channel suspend enable bit - . - ." "0,1"
bitfld.long 0x00 7. "                          ENABLE                ,Logical channel enable. It is SW responsibility to clear the CSR register and the IRQSTATUS bit for the different interrupt lines before enabling the channel. - . - ." "0,1"
textline "                            "
bitfld.long 0x00 6. " READ_PRIORITY                           ,Channel priority on the read side - . - ." "0,1"
bitfld.long 0x00 5. "                      FS                      ,Frame synchronization This bit used in conjunction with the BS to see how the DMA request is serviced in a synchronized transfer FS = 0 and BS = 0: An element is transferred once a DMA request is made. FS ..." "0,1"
bitfld.long 0x00 0.--4. "                          SYNCHRO_CONTROL       ,Channel synchronization control This bit field used in conjunction with the second_level_ synchro_control_upper (as 2 MSB) 0000000 : Is reserved for non synchronized LCH transfer xxxxxxx (from 1 to 127)T..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x418++0x3
line.long 0x00 "DMA4_CDACi_9,Channel Destination Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " DST_ELMNT_ADRS                          ,Current destination address counter value"
group.long 0x40C++0x3
line.long 0x00 "DMA4_CDEIi_9,Channel Destination Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_DST_ELMNT_INDEX                 ,Channel destination element index"
group.long 0x410++0x3
line.long 0x00 "DMA4_CDFIi_9,Channel Destination Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_DST_FRM_IDX_OR_16BIT_PKT_ELNT_NBR    ,Channel destination frame index value if destination address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC]=0; the bit field [15:0] gives the number of element in packet. The field [31:16]..."
group.long 0x430++0x3
line.long 0x00 "DMA4_CDPi_9,This register controls the various parameters of the link list mechanism"
bitfld.long 0x00 10. " FAST                                    ,Sets the fast-start mode for linked list descriptor types 1, 2 and 3 - . - ." "No_fast-start_mode,1"
bitfld.long 0x00 8.--9. "     TRANSFER_MODE           ,Enable linked-list transfer mode - . - . - . - ." "0,1,Undefined,Undefined"
bitfld.long 0x00 7. "                  PAUSE_LINK_LIST       ,Suspend the linked-list transfer at completion of the current block transfer. - . - ." "0,1"
textline "                            "
bitfld.long 0x00 4.--6. " NEXT_DESCRIPTOR_TYPE                    ,Next Descriptor Type - . - . - . - . - . - . - . - ." "Undefined,1,2,3,Undefined,Undefined,Undefined,Undefined"
bitfld.long 0x00 2.--3. "              SRC_VALID               ,Source address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
bitfld.long 0x00 0.--1. "  DEST_VALID            ,Destination address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
group.long 0x400++0x3
line.long 0x00 "DMA4_CDSAi_9,Channel Destination Start Address"
hexmask.long 0x00 0.--31. 1. " DST_START_ADRS                          ,32 bits of the destination start address"
group.long 0x3F4++0x3
line.long 0x00 "DMA4_CENi_9,Channel Element Number"
hexmask.long.tbyte 0x00 0.--23. 1. " CHANNEL_ELMNT_NBR                       ,Number of elements within a frame (unsigned) to transfer"
group.long 0x3F8++0x3
line.long 0x00 "DMA4_CFNi_9,Channel Frame Number"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_FRAME_NBR                       ,Number of frames within the block to be transferred (unsigned)"
group.long 0x3E8++0x3
line.long 0x00 "DMA4_CICRi_9,Channel Interrupt Control Register"
bitfld.long 0x00 14. " SUPER_BLOCK_IE                          ,Enables the end of super block interrupt" "0,1"
bitfld.long 0x00 12. "                      DRAIN_IE                ,Enables the end of draining interrupt" "0,1"
bitfld.long 0x00 11. "                          MISALIGNED_ERR_IE     ,Enables the address misaligned error event interrupt - . - ." "0,1"
textline "                            "
bitfld.long 0x00 10. " SUPERVISOR_ERR_IE                       ,Enables the supervisor transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 8. "                      TRANS_ERR_IE            ,Enables the transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 7. "                          PKT_IE                ,Enables the end of Packet interrupt - . - ." "0,1"
textline "                            "
bitfld.long 0x00 5. " BLOCK_IE                                ,Enables the end of block interrupt - . - ." "0,1"
bitfld.long 0x00 4. "                      LAST_IE                 ,Last frame interrupt enable (start of last frame) - . - ." "0,1"
bitfld.long 0x00 3. "                          FRAME_IE              ,Frame interrupt enable (end of frame) - . - ." "0,1"
textline "                            "
bitfld.long 0x00 2. " HALF_IE                                 ,Enables or disables the half frame interrupt. - . - ." "0,1"
bitfld.long 0x00 1. "                      DROP_IE                 ,Synchronization event drop interrupt enable (request collision) - . - ." "0,1"
group.long 0x3E4++0x3
line.long 0x00 "DMA4_CLNK_CTRLi_9,Channel Link Control Register"
bitfld.long 0x00 15. " ENABLE_LNK                              ,Enables or disable the channel linking. - . - ." "0,1"
bitfld.long 0x00 0.--4. "                      NEXTLCH_ID              ,Defines the NextLCh_ID, which is used to build logical channel chaining queue." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x434++0x3
line.long 0x00 "DMA4_CNDPi_9,This register contains the Next descriptor Address Pointer for the link list Mechanism"
hexmask.long 0x00 2.--31. 1. " NEXT_DESCRIPTOR_POINTER                 ,This register contains the Next descriptor Address Pointer for the link list Mechanism"
group.long 0x424++0x3
line.long 0x00 "DMA4_COLORi_9,Channel DMA COLOR KEY /SOLID COLOR"
hexmask.long.tbyte 0x00 0.--23. 1. " CH_BLT_FRGRND_COLOR_OR_SOLID_COLOR_PTRN ,Color key or solid color pattern: The pattern is replicated according to the data type. If the data-type is 8-bit the pattern is replicated 4 times to fill the register in order to enhance processing when data ..."
rgroup.long 0x414++0x3
line.long 0x00 "DMA4_CSACi_9,Channel Source Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " SRC_ELMNT_ADRS                          ,Current source address counter value"
group.long 0x3F0++0x3
line.long 0x00 "DMA4_CSDPi_9,Channel Source Destination Parameters"
bitfld.long 0x00 21. " SRC_ENDIAN                              ,Channel source endianness control - . - ." "0,1"
bitfld.long 0x00 20. "                      SRC_ENDIAN_LOCK         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 19. "           DST_ENDIAN            ,Channel Destination endianness control - . - ." "0,1"
textline "                            "
bitfld.long 0x00 18. " DST_ENDIAN_LOCK                         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 16.--17. "       WRITE_MODE              ,Used to enable writing mode without posting or with posting - . - . - . - ." "0,Write_(Posted),2,Undefined"
bitfld.long 0x00 14.--15. "             DST_BURST_EN          ,Used to enable bursting on the Write Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
textline "                            "
bitfld.long 0x00 13. " DST_PACKED                              ,Destination receives packed data. - . - ." "0,1"
bitfld.long 0x00 7.--8. "                      SRC_BURST_EN            ,Used to enable bursting on the Read Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
bitfld.long 0x00 6. "              SRC_PACKED            ,Source provides packed data. - . - ." "0,1"
textline "                            "
bitfld.long 0x00 0.--1. " DATA_TYPE                               ,Defines the type of the data moved in the channel. - . - . - . - ." "8_bits_scalar,16_bits_scalar,32_bits_scalar,Reserved"
group.long 0x404++0x3
line.long 0x00 "DMA4_CSEIi_9,Channel Source Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_SRC_ELMNT_INDEX                 ,Channel source element index"
group.long 0x408++0x3
line.long 0x00 "DMA4_CSFIi_9,Channel Source Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_SRC_FRM_INDEX_OR_16BIT_PKT_ELNT_NBR  ,Channel source frame index value if source address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC] = 1; the bit field [15:0] gives the number of element in packet. The field [31:16] is unus..."
group.long 0x3EC++0x3
line.long 0x00 "DMA4_CSRi_9,Channel Status Register"
eventfld.long 0x00 14. " SUPER_BLOCK                             ,End of Super block event Read 0x0: The current Super block transfer has not been finished Write 0x0: Status bit unchanged Read 0x1: The current Super block has been transferred Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 12. "                      DRAIN_END               ,End of channel draining Read 0x0: No drain end in the current transfer Write 0x0: Status bit unchanged Read 0x1: The current channel draining is completed Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 11. "                          MISALIGNED_ADRS_ERR   ,Misaligned address error event - . - . - . - ." "No_address_error,1"
textline "                            "
eventfld.long 0x00 10. " SUPERVISOR_ERR                          ,Supervisor transaction error event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 8. "   TRANS_ERR               ,Transaction error event - . - . - . - ." "No_transaction_error,1"
eventfld.long 0x00 7. "       PKT                   ,End of Packet transfer - . - . - . - ." "Status_bit_unchanged,1"
textline "                            "
eventfld.long 0x00 6. " SYNC                                    ,Synchronization status of a channel. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 5. "   BLOCK                   ,End of block event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 4. "       LAST                  ,Last frame (start of last frame) - . - . - . - ." "Status_bit_unchanged,1"
textline "                            "
eventfld.long 0x00 3. " FRAME                                   ,End of frame event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 2. "   HALF                    ,Half of frame event. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 1. "       DROP                  ,Synchronization event drop occured during the transfer - . - . - . - ." "Status_bit_unchanged,1"
group.long 0x3FC++0x3
line.long 0x00 "DMA4_CSSAi_9,Channel Source Start Address"
hexmask.long 0x00 0.--31. 1. " SRC_START_ADRS                          ,32 bits of the source start address"
tree.end
tree "DMA_Channel_10"
width 20.
group.long 0x498++0x3
line.long 0x00 "DMA4_CCDNi_10,"
hexmask.long.word 0x00 0.--15. 1. " CURRENT_DESCRIPTOR_NBR                  ,This register when read contains the current active descriptor number in the link list. This register is Read/write to allow user initialization."
group.long 0x47C++0x3
line.long 0x00 "DMA4_CCENi_10,Channel Current Transferred Element Number in the current frame. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.tbyte 0x00 0.--23. 1. " CURRENT_ELMNT_NBR                       ,Channel current transferred element number in the current frame"
group.long 0x480++0x3
line.long 0x00 "DMA4_CCFNi_10,Channel Current Transferred Frame Number in the current transfer. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.word 0x00 0.--15. 1. " CURRENT_FRAME_NBR                       ,Channel current transferred frame number in the current transfer"
group.long 0x440++0x3
line.long 0x00 "DMA4_CCRi_10,Channel Control Register"
bitfld.long 0x00 26. " WRITE_PRIORITY                          ,Channel priority on the Write side - . - ." "0,1"
bitfld.long 0x00 25. "                      BUFFERING_DISABLE       ,This bit allows to disable the default buffering functionality when transfer is source synchronized. - . - ." "0,1"
bitfld.long 0x00 24. "                          SEL_SRC_DST_SYNC      ,Specifies that element, packet, frame or block transfer (depending on CCR.bs and CCR.fs) is triggered by the source or the destination on the DMA request - . - ." "0,1"
textline "                             "
bitfld.long 0x00 23. " PREFETCH                                ,Enables the prefetch mode - . - ." "0,1"
bitfld.long 0x00 22. "                      SUPERVISOR              ,Enables the supervisor mode - . - ." "0,1"
bitfld.long 0x00 19.--20. "                          SYNCHRO_CONTROL_UPPER ,Channel Synchronization control upper (used in conjunction with the 5 bits of synchro channelDMA4_CCRi[4:0]) Used in conjunction, as 2 MSB, with the 5 bits of the synchro channel bit field." "0,1,2,3"
textline "                             "
bitfld.long 0x00 18. " BS                                      ,Block synchronization This bit used in conjunction with the fs to see how the DMA request is serviced in a synchronized transfer." "0,1"
bitfld.long 0x00 17. "                      TRANSPARENT_COPY_ENABLE ,Transparent copy enable - . - ." "0,1"
bitfld.long 0x00 16. "                          CONST_FILL_ENABLE     ,Constant fill enable - . - ." "0,1"
textline "                             "
bitfld.long 0x00 14.--15. " DST_AMODE                               ,Selects the addressing mode on the Write Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 12.--13. "  SRC_AMODE               ,Selects the addressing mode on the Read Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 10. "      WR_ACTIVE             ,Indicates if the channel write context is active or not - . - ." "0,1"
textline "                             "
bitfld.long 0x00 9. " RD_ACTIVE                               ,Indicates if the channel read context is active or not - . - ." "0,1"
bitfld.long 0x00 8. "                      SUSPEND_SENSITIVE       ,Logical channel suspend enable bit - . - ." "0,1"
bitfld.long 0x00 7. "                          ENABLE                ,Logical channel enable. It is SW responsibility to clear the CSR register and the IRQSTATUS bit for the different interrupt lines before enabling the channel. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 6. " READ_PRIORITY                           ,Channel priority on the read side - . - ." "0,1"
bitfld.long 0x00 5. "                      FS                      ,Frame synchronization This bit used in conjunction with the BS to see how the DMA request is serviced in a synchronized transfer FS = 0 and BS = 0: An element is transferred once a DMA request is made. FS ..." "0,1"
bitfld.long 0x00 0.--4. "                          SYNCHRO_CONTROL       ,Channel synchronization control This bit field used in conjunction with the second_level_ synchro_control_upper (as 2 MSB) 0000000 : Is reserved for non synchronized LCH transfer xxxxxxx (from 1 to 127)T..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x478++0x3
line.long 0x00 "DMA4_CDACi_10,Channel Destination Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " DST_ELMNT_ADRS                          ,Current destination address counter value"
group.long 0x46C++0x3
line.long 0x00 "DMA4_CDEIi_10,Channel Destination Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_DST_ELMNT_INDEX                 ,Channel destination element index"
group.long 0x470++0x3
line.long 0x00 "DMA4_CDFIi_10,Channel Destination Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_DST_FRM_IDX_OR_16BIT_PKT_ELNT_NBR    ,Channel destination frame index value if destination address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC]=0; the bit field [15:0] gives the number of element in packet. The field [31:16]..."
group.long 0x490++0x3
line.long 0x00 "DMA4_CDPi_10,This register controls the various parameters of the link list mechanism"
bitfld.long 0x00 10. " FAST                                    ,Sets the fast-start mode for linked list descriptor types 1, 2 and 3 - . - ." "No_fast-start_mode,1"
bitfld.long 0x00 8.--9. "     TRANSFER_MODE           ,Enable linked-list transfer mode - . - . - . - ." "0,1,Undefined,Undefined"
bitfld.long 0x00 7. "                  PAUSE_LINK_LIST       ,Suspend the linked-list transfer at completion of the current block transfer. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 4.--6. " NEXT_DESCRIPTOR_TYPE                    ,Next Descriptor Type - . - . - . - . - . - . - . - ." "Undefined,1,2,3,Undefined,Undefined,Undefined,Undefined"
bitfld.long 0x00 2.--3. "              SRC_VALID               ,Source address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
bitfld.long 0x00 0.--1. "  DEST_VALID            ,Destination address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
group.long 0x460++0x3
line.long 0x00 "DMA4_CDSAi_10,Channel Destination Start Address"
hexmask.long 0x00 0.--31. 1. " DST_START_ADRS                          ,32 bits of the destination start address"
group.long 0x454++0x3
line.long 0x00 "DMA4_CENi_10,Channel Element Number"
hexmask.long.tbyte 0x00 0.--23. 1. " CHANNEL_ELMNT_NBR                       ,Number of elements within a frame (unsigned) to transfer"
group.long 0x458++0x3
line.long 0x00 "DMA4_CFNi_10,Channel Frame Number"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_FRAME_NBR                       ,Number of frames within the block to be transferred (unsigned)"
group.long 0x448++0x3
line.long 0x00 "DMA4_CICRi_10,Channel Interrupt Control Register"
bitfld.long 0x00 14. " SUPER_BLOCK_IE                          ,Enables the end of super block interrupt" "0,1"
bitfld.long 0x00 12. "                      DRAIN_IE                ,Enables the end of draining interrupt" "0,1"
bitfld.long 0x00 11. "                          MISALIGNED_ERR_IE     ,Enables the address misaligned error event interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 10. " SUPERVISOR_ERR_IE                       ,Enables the supervisor transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 8. "                      TRANS_ERR_IE            ,Enables the transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 7. "                          PKT_IE                ,Enables the end of Packet interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 5. " BLOCK_IE                                ,Enables the end of block interrupt - . - ." "0,1"
bitfld.long 0x00 4. "                      LAST_IE                 ,Last frame interrupt enable (start of last frame) - . - ." "0,1"
bitfld.long 0x00 3. "                          FRAME_IE              ,Frame interrupt enable (end of frame) - . - ." "0,1"
textline "                             "
bitfld.long 0x00 2. " HALF_IE                                 ,Enables or disables the half frame interrupt. - . - ." "0,1"
bitfld.long 0x00 1. "                      DROP_IE                 ,Synchronization event drop interrupt enable (request collision) - . - ." "0,1"
group.long 0x444++0x3
line.long 0x00 "DMA4_CLNK_CTRLi_10,Channel Link Control Register"
bitfld.long 0x00 15. " ENABLE_LNK                              ,Enables or disable the channel linking. - . - ." "0,1"
bitfld.long 0x00 0.--4. "                      NEXTLCH_ID              ,Defines the NextLCh_ID, which is used to build logical channel chaining queue." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x494++0x3
line.long 0x00 "DMA4_CNDPi_10,This register contains the Next descriptor Address Pointer for the link list Mechanism"
hexmask.long 0x00 2.--31. 1. " NEXT_DESCRIPTOR_POINTER                 ,This register contains the Next descriptor Address Pointer for the link list Mechanism"
group.long 0x484++0x3
line.long 0x00 "DMA4_COLORi_10,Channel DMA COLOR KEY /SOLID COLOR"
hexmask.long.tbyte 0x00 0.--23. 1. " CH_BLT_FRGRND_COLOR_OR_SOLID_COLOR_PTRN ,Color key or solid color pattern: The pattern is replicated according to the data type. If the data-type is 8-bit the pattern is replicated 4 times to fill the register in order to enhance processing when data ..."
rgroup.long 0x474++0x3
line.long 0x00 "DMA4_CSACi_10,Channel Source Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " SRC_ELMNT_ADRS                          ,Current source address counter value"
group.long 0x450++0x3
line.long 0x00 "DMA4_CSDPi_10,Channel Source Destination Parameters"
bitfld.long 0x00 21. " SRC_ENDIAN                              ,Channel source endianness control - . - ." "0,1"
bitfld.long 0x00 20. "                      SRC_ENDIAN_LOCK         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 19. "           DST_ENDIAN            ,Channel Destination endianness control - . - ." "0,1"
textline "                             "
bitfld.long 0x00 18. " DST_ENDIAN_LOCK                         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 16.--17. "       WRITE_MODE              ,Used to enable writing mode without posting or with posting - . - . - . - ." "0,Write_(Posted),2,Undefined"
bitfld.long 0x00 14.--15. "             DST_BURST_EN          ,Used to enable bursting on the Write Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
textline "                             "
bitfld.long 0x00 13. " DST_PACKED                              ,Destination receives packed data. - . - ." "0,1"
bitfld.long 0x00 7.--8. "                      SRC_BURST_EN            ,Used to enable bursting on the Read Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
bitfld.long 0x00 6. "              SRC_PACKED            ,Source provides packed data. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0.--1. " DATA_TYPE                               ,Defines the type of the data moved in the channel. - . - . - . - ." "8_bits_scalar,16_bits_scalar,32_bits_scalar,Reserved"
group.long 0x464++0x3
line.long 0x00 "DMA4_CSEIi_10,Channel Source Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_SRC_ELMNT_INDEX                 ,Channel source element index"
group.long 0x468++0x3
line.long 0x00 "DMA4_CSFIi_10,Channel Source Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_SRC_FRM_INDEX_OR_16BIT_PKT_ELNT_NBR  ,Channel source frame index value if source address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC] = 1; the bit field [15:0] gives the number of element in packet. The field [31:16] is unus..."
group.long 0x44C++0x3
line.long 0x00 "DMA4_CSRi_10,Channel Status Register"
eventfld.long 0x00 14. " SUPER_BLOCK                             ,End of Super block event Read 0x0: The current Super block transfer has not been finished Write 0x0: Status bit unchanged Read 0x1: The current Super block has been transferred Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 12. "                      DRAIN_END               ,End of channel draining Read 0x0: No drain end in the current transfer Write 0x0: Status bit unchanged Read 0x1: The current channel draining is completed Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 11. "                          MISALIGNED_ADRS_ERR   ,Misaligned address error event - . - . - . - ." "No_address_error,1"
textline "                             "
eventfld.long 0x00 10. " SUPERVISOR_ERR                          ,Supervisor transaction error event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 8. "   TRANS_ERR               ,Transaction error event - . - . - . - ." "No_transaction_error,1"
eventfld.long 0x00 7. "       PKT                   ,End of Packet transfer - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 6. " SYNC                                    ,Synchronization status of a channel. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 5. "   BLOCK                   ,End of block event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 4. "       LAST                  ,Last frame (start of last frame) - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 3. " FRAME                                   ,End of frame event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 2. "   HALF                    ,Half of frame event. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 1. "       DROP                  ,Synchronization event drop occured during the transfer - . - . - . - ." "Status_bit_unchanged,1"
group.long 0x45C++0x3
line.long 0x00 "DMA4_CSSAi_10,Channel Source Start Address"
hexmask.long 0x00 0.--31. 1. " SRC_START_ADRS                          ,32 bits of the source start address"
tree.end
tree "DMA_Channel_11"
width 20.
group.long 0x4F8++0x3
line.long 0x00 "DMA4_CCDNi_11,"
hexmask.long.word 0x00 0.--15. 1. " CURRENT_DESCRIPTOR_NBR                  ,This register when read contains the current active descriptor number in the link list. This register is Read/write to allow user initialization."
group.long 0x4DC++0x3
line.long 0x00 "DMA4_CCENi_11,Channel Current Transferred Element Number in the current frame. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.tbyte 0x00 0.--23. 1. " CURRENT_ELMNT_NBR                       ,Channel current transferred element number in the current frame"
group.long 0x4E0++0x3
line.long 0x00 "DMA4_CCFNi_11,Channel Current Transferred Frame Number in the current transfer. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.word 0x00 0.--15. 1. " CURRENT_FRAME_NBR                       ,Channel current transferred frame number in the current transfer"
group.long 0x4A0++0x3
line.long 0x00 "DMA4_CCRi_11,Channel Control Register"
bitfld.long 0x00 26. " WRITE_PRIORITY                          ,Channel priority on the Write side - . - ." "0,1"
bitfld.long 0x00 25. "                      BUFFERING_DISABLE       ,This bit allows to disable the default buffering functionality when transfer is source synchronized. - . - ." "0,1"
bitfld.long 0x00 24. "                          SEL_SRC_DST_SYNC      ,Specifies that element, packet, frame or block transfer (depending on CCR.bs and CCR.fs) is triggered by the source or the destination on the DMA request - . - ." "0,1"
textline "                             "
bitfld.long 0x00 23. " PREFETCH                                ,Enables the prefetch mode - . - ." "0,1"
bitfld.long 0x00 22. "                      SUPERVISOR              ,Enables the supervisor mode - . - ." "0,1"
bitfld.long 0x00 19.--20. "                          SYNCHRO_CONTROL_UPPER ,Channel Synchronization control upper (used in conjunction with the 5 bits of synchro channelDMA4_CCRi[4:0]) Used in conjunction, as 2 MSB, with the 5 bits of the synchro channel bit field." "0,1,2,3"
textline "                             "
bitfld.long 0x00 18. " BS                                      ,Block synchronization This bit used in conjunction with the fs to see how the DMA request is serviced in a synchronized transfer." "0,1"
bitfld.long 0x00 17. "                      TRANSPARENT_COPY_ENABLE ,Transparent copy enable - . - ." "0,1"
bitfld.long 0x00 16. "                          CONST_FILL_ENABLE     ,Constant fill enable - . - ." "0,1"
textline "                             "
bitfld.long 0x00 14.--15. " DST_AMODE                               ,Selects the addressing mode on the Write Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 12.--13. "  SRC_AMODE               ,Selects the addressing mode on the Read Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 10. "      WR_ACTIVE             ,Indicates if the channel write context is active or not - . - ." "0,1"
textline "                             "
bitfld.long 0x00 9. " RD_ACTIVE                               ,Indicates if the channel read context is active or not - . - ." "0,1"
bitfld.long 0x00 8. "                      SUSPEND_SENSITIVE       ,Logical channel suspend enable bit - . - ." "0,1"
bitfld.long 0x00 7. "                          ENABLE                ,Logical channel enable. It is SW responsibility to clear the CSR register and the IRQSTATUS bit for the different interrupt lines before enabling the channel. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 6. " READ_PRIORITY                           ,Channel priority on the read side - . - ." "0,1"
bitfld.long 0x00 5. "                      FS                      ,Frame synchronization This bit used in conjunction with the BS to see how the DMA request is serviced in a synchronized transfer FS = 0 and BS = 0: An element is transferred once a DMA request is made. FS ..." "0,1"
bitfld.long 0x00 0.--4. "                          SYNCHRO_CONTROL       ,Channel synchronization control This bit field used in conjunction with the second_level_ synchro_control_upper (as 2 MSB) 0000000 : Is reserved for non synchronized LCH transfer xxxxxxx (from 1 to 127)T..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x4D8++0x3
line.long 0x00 "DMA4_CDACi_11,Channel Destination Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " DST_ELMNT_ADRS                          ,Current destination address counter value"
group.long 0x4CC++0x3
line.long 0x00 "DMA4_CDEIi_11,Channel Destination Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_DST_ELMNT_INDEX                 ,Channel destination element index"
group.long 0x4D0++0x3
line.long 0x00 "DMA4_CDFIi_11,Channel Destination Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_DST_FRM_IDX_OR_16BIT_PKT_ELNT_NBR    ,Channel destination frame index value if destination address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC]=0; the bit field [15:0] gives the number of element in packet. The field [31:16]..."
group.long 0x4F0++0x3
line.long 0x00 "DMA4_CDPi_11,This register controls the various parameters of the link list mechanism"
bitfld.long 0x00 10. " FAST                                    ,Sets the fast-start mode for linked list descriptor types 1, 2 and 3 - . - ." "No_fast-start_mode,1"
bitfld.long 0x00 8.--9. "     TRANSFER_MODE           ,Enable linked-list transfer mode - . - . - . - ." "0,1,Undefined,Undefined"
bitfld.long 0x00 7. "                  PAUSE_LINK_LIST       ,Suspend the linked-list transfer at completion of the current block transfer. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 4.--6. " NEXT_DESCRIPTOR_TYPE                    ,Next Descriptor Type - . - . - . - . - . - . - . - ." "Undefined,1,2,3,Undefined,Undefined,Undefined,Undefined"
bitfld.long 0x00 2.--3. "              SRC_VALID               ,Source address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
bitfld.long 0x00 0.--1. "  DEST_VALID            ,Destination address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
group.long 0x4C0++0x3
line.long 0x00 "DMA4_CDSAi_11,Channel Destination Start Address"
hexmask.long 0x00 0.--31. 1. " DST_START_ADRS                          ,32 bits of the destination start address"
group.long 0x4B4++0x3
line.long 0x00 "DMA4_CENi_11,Channel Element Number"
hexmask.long.tbyte 0x00 0.--23. 1. " CHANNEL_ELMNT_NBR                       ,Number of elements within a frame (unsigned) to transfer"
group.long 0x4B8++0x3
line.long 0x00 "DMA4_CFNi_11,Channel Frame Number"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_FRAME_NBR                       ,Number of frames within the block to be transferred (unsigned)"
group.long 0x4A8++0x3
line.long 0x00 "DMA4_CICRi_11,Channel Interrupt Control Register"
bitfld.long 0x00 14. " SUPER_BLOCK_IE                          ,Enables the end of super block interrupt" "0,1"
bitfld.long 0x00 12. "                      DRAIN_IE                ,Enables the end of draining interrupt" "0,1"
bitfld.long 0x00 11. "                          MISALIGNED_ERR_IE     ,Enables the address misaligned error event interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 10. " SUPERVISOR_ERR_IE                       ,Enables the supervisor transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 8. "                      TRANS_ERR_IE            ,Enables the transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 7. "                          PKT_IE                ,Enables the end of Packet interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 5. " BLOCK_IE                                ,Enables the end of block interrupt - . - ." "0,1"
bitfld.long 0x00 4. "                      LAST_IE                 ,Last frame interrupt enable (start of last frame) - . - ." "0,1"
bitfld.long 0x00 3. "                          FRAME_IE              ,Frame interrupt enable (end of frame) - . - ." "0,1"
textline "                             "
bitfld.long 0x00 2. " HALF_IE                                 ,Enables or disables the half frame interrupt. - . - ." "0,1"
bitfld.long 0x00 1. "                      DROP_IE                 ,Synchronization event drop interrupt enable (request collision) - . - ." "0,1"
group.long 0x4A4++0x3
line.long 0x00 "DMA4_CLNK_CTRLi_11,Channel Link Control Register"
bitfld.long 0x00 15. " ENABLE_LNK                              ,Enables or disable the channel linking. - . - ." "0,1"
bitfld.long 0x00 0.--4. "                      NEXTLCH_ID              ,Defines the NextLCh_ID, which is used to build logical channel chaining queue." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x4F4++0x3
line.long 0x00 "DMA4_CNDPi_11,This register contains the Next descriptor Address Pointer for the link list Mechanism"
hexmask.long 0x00 2.--31. 1. " NEXT_DESCRIPTOR_POINTER                 ,This register contains the Next descriptor Address Pointer for the link list Mechanism"
group.long 0x4E4++0x3
line.long 0x00 "DMA4_COLORi_11,Channel DMA COLOR KEY /SOLID COLOR"
hexmask.long.tbyte 0x00 0.--23. 1. " CH_BLT_FRGRND_COLOR_OR_SOLID_COLOR_PTRN ,Color key or solid color pattern: The pattern is replicated according to the data type. If the data-type is 8-bit the pattern is replicated 4 times to fill the register in order to enhance processing when data ..."
rgroup.long 0x4D4++0x3
line.long 0x00 "DMA4_CSACi_11,Channel Source Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " SRC_ELMNT_ADRS                          ,Current source address counter value"
group.long 0x4B0++0x3
line.long 0x00 "DMA4_CSDPi_11,Channel Source Destination Parameters"
bitfld.long 0x00 21. " SRC_ENDIAN                              ,Channel source endianness control - . - ." "0,1"
bitfld.long 0x00 20. "                      SRC_ENDIAN_LOCK         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 19. "           DST_ENDIAN            ,Channel Destination endianness control - . - ." "0,1"
textline "                             "
bitfld.long 0x00 18. " DST_ENDIAN_LOCK                         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 16.--17. "       WRITE_MODE              ,Used to enable writing mode without posting or with posting - . - . - . - ." "0,Write_(Posted),2,Undefined"
bitfld.long 0x00 14.--15. "             DST_BURST_EN          ,Used to enable bursting on the Write Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
textline "                             "
bitfld.long 0x00 13. " DST_PACKED                              ,Destination receives packed data. - . - ." "0,1"
bitfld.long 0x00 7.--8. "                      SRC_BURST_EN            ,Used to enable bursting on the Read Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
bitfld.long 0x00 6. "              SRC_PACKED            ,Source provides packed data. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0.--1. " DATA_TYPE                               ,Defines the type of the data moved in the channel. - . - . - . - ." "8_bits_scalar,16_bits_scalar,32_bits_scalar,Reserved"
group.long 0x4C4++0x3
line.long 0x00 "DMA4_CSEIi_11,Channel Source Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_SRC_ELMNT_INDEX                 ,Channel source element index"
group.long 0x4C8++0x3
line.long 0x00 "DMA4_CSFIi_11,Channel Source Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_SRC_FRM_INDEX_OR_16BIT_PKT_ELNT_NBR  ,Channel source frame index value if source address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC] = 1; the bit field [15:0] gives the number of element in packet. The field [31:16] is unus..."
group.long 0x4AC++0x3
line.long 0x00 "DMA4_CSRi_11,Channel Status Register"
eventfld.long 0x00 14. " SUPER_BLOCK                             ,End of Super block event Read 0x0: The current Super block transfer has not been finished Write 0x0: Status bit unchanged Read 0x1: The current Super block has been transferred Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 12. "                      DRAIN_END               ,End of channel draining Read 0x0: No drain end in the current transfer Write 0x0: Status bit unchanged Read 0x1: The current channel draining is completed Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 11. "                          MISALIGNED_ADRS_ERR   ,Misaligned address error event - . - . - . - ." "No_address_error,1"
textline "                             "
eventfld.long 0x00 10. " SUPERVISOR_ERR                          ,Supervisor transaction error event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 8. "   TRANS_ERR               ,Transaction error event - . - . - . - ." "No_transaction_error,1"
eventfld.long 0x00 7. "       PKT                   ,End of Packet transfer - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 6. " SYNC                                    ,Synchronization status of a channel. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 5. "   BLOCK                   ,End of block event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 4. "       LAST                  ,Last frame (start of last frame) - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 3. " FRAME                                   ,End of frame event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 2. "   HALF                    ,Half of frame event. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 1. "       DROP                  ,Synchronization event drop occured during the transfer - . - . - . - ." "Status_bit_unchanged,1"
group.long 0x4BC++0x3
line.long 0x00 "DMA4_CSSAi_11,Channel Source Start Address"
hexmask.long 0x00 0.--31. 1. " SRC_START_ADRS                          ,32 bits of the source start address"
tree.end
tree "DMA_Channel_12"
width 20.
group.long 0x558++0x3
line.long 0x00 "DMA4_CCDNi_12,"
hexmask.long.word 0x00 0.--15. 1. " CURRENT_DESCRIPTOR_NBR                  ,This register when read contains the current active descriptor number in the link list. This register is Read/write to allow user initialization."
group.long 0x53C++0x3
line.long 0x00 "DMA4_CCENi_12,Channel Current Transferred Element Number in the current frame. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.tbyte 0x00 0.--23. 1. " CURRENT_ELMNT_NBR                       ,Channel current transferred element number in the current frame"
group.long 0x540++0x3
line.long 0x00 "DMA4_CCFNi_12,Channel Current Transferred Frame Number in the current transfer. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.word 0x00 0.--15. 1. " CURRENT_FRAME_NBR                       ,Channel current transferred frame number in the current transfer"
group.long 0x500++0x3
line.long 0x00 "DMA4_CCRi_12,Channel Control Register"
bitfld.long 0x00 26. " WRITE_PRIORITY                          ,Channel priority on the Write side - . - ." "0,1"
bitfld.long 0x00 25. "                      BUFFERING_DISABLE       ,This bit allows to disable the default buffering functionality when transfer is source synchronized. - . - ." "0,1"
bitfld.long 0x00 24. "                          SEL_SRC_DST_SYNC      ,Specifies that element, packet, frame or block transfer (depending on CCR.bs and CCR.fs) is triggered by the source or the destination on the DMA request - . - ." "0,1"
textline "                             "
bitfld.long 0x00 23. " PREFETCH                                ,Enables the prefetch mode - . - ." "0,1"
bitfld.long 0x00 22. "                      SUPERVISOR              ,Enables the supervisor mode - . - ." "0,1"
bitfld.long 0x00 19.--20. "                          SYNCHRO_CONTROL_UPPER ,Channel Synchronization control upper (used in conjunction with the 5 bits of synchro channelDMA4_CCRi[4:0]) Used in conjunction, as 2 MSB, with the 5 bits of the synchro channel bit field." "0,1,2,3"
textline "                             "
bitfld.long 0x00 18. " BS                                      ,Block synchronization This bit used in conjunction with the fs to see how the DMA request is serviced in a synchronized transfer." "0,1"
bitfld.long 0x00 17. "                      TRANSPARENT_COPY_ENABLE ,Transparent copy enable - . - ." "0,1"
bitfld.long 0x00 16. "                          CONST_FILL_ENABLE     ,Constant fill enable - . - ." "0,1"
textline "                             "
bitfld.long 0x00 14.--15. " DST_AMODE                               ,Selects the addressing mode on the Write Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 12.--13. "  SRC_AMODE               ,Selects the addressing mode on the Read Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 10. "      WR_ACTIVE             ,Indicates if the channel write context is active or not - . - ." "0,1"
textline "                             "
bitfld.long 0x00 9. " RD_ACTIVE                               ,Indicates if the channel read context is active or not - . - ." "0,1"
bitfld.long 0x00 8. "                      SUSPEND_SENSITIVE       ,Logical channel suspend enable bit - . - ." "0,1"
bitfld.long 0x00 7. "                          ENABLE                ,Logical channel enable. It is SW responsibility to clear the CSR register and the IRQSTATUS bit for the different interrupt lines before enabling the channel. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 6. " READ_PRIORITY                           ,Channel priority on the read side - . - ." "0,1"
bitfld.long 0x00 5. "                      FS                      ,Frame synchronization This bit used in conjunction with the BS to see how the DMA request is serviced in a synchronized transfer FS = 0 and BS = 0: An element is transferred once a DMA request is made. FS ..." "0,1"
bitfld.long 0x00 0.--4. "                          SYNCHRO_CONTROL       ,Channel synchronization control This bit field used in conjunction with the second_level_ synchro_control_upper (as 2 MSB) 0000000 : Is reserved for non synchronized LCH transfer xxxxxxx (from 1 to 127)T..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x538++0x3
line.long 0x00 "DMA4_CDACi_12,Channel Destination Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " DST_ELMNT_ADRS                          ,Current destination address counter value"
group.long 0x52C++0x3
line.long 0x00 "DMA4_CDEIi_12,Channel Destination Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_DST_ELMNT_INDEX                 ,Channel destination element index"
group.long 0x530++0x3
line.long 0x00 "DMA4_CDFIi_12,Channel Destination Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_DST_FRM_IDX_OR_16BIT_PKT_ELNT_NBR    ,Channel destination frame index value if destination address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC]=0; the bit field [15:0] gives the number of element in packet. The field [31:16]..."
group.long 0x550++0x3
line.long 0x00 "DMA4_CDPi_12,This register controls the various parameters of the link list mechanism"
bitfld.long 0x00 10. " FAST                                    ,Sets the fast-start mode for linked list descriptor types 1, 2 and 3 - . - ." "No_fast-start_mode,1"
bitfld.long 0x00 8.--9. "     TRANSFER_MODE           ,Enable linked-list transfer mode - . - . - . - ." "0,1,Undefined,Undefined"
bitfld.long 0x00 7. "                  PAUSE_LINK_LIST       ,Suspend the linked-list transfer at completion of the current block transfer. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 4.--6. " NEXT_DESCRIPTOR_TYPE                    ,Next Descriptor Type - . - . - . - . - . - . - . - ." "Undefined,1,2,3,Undefined,Undefined,Undefined,Undefined"
bitfld.long 0x00 2.--3. "              SRC_VALID               ,Source address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
bitfld.long 0x00 0.--1. "  DEST_VALID            ,Destination address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
group.long 0x520++0x3
line.long 0x00 "DMA4_CDSAi_12,Channel Destination Start Address"
hexmask.long 0x00 0.--31. 1. " DST_START_ADRS                          ,32 bits of the destination start address"
group.long 0x514++0x3
line.long 0x00 "DMA4_CENi_12,Channel Element Number"
hexmask.long.tbyte 0x00 0.--23. 1. " CHANNEL_ELMNT_NBR                       ,Number of elements within a frame (unsigned) to transfer"
group.long 0x518++0x3
line.long 0x00 "DMA4_CFNi_12,Channel Frame Number"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_FRAME_NBR                       ,Number of frames within the block to be transferred (unsigned)"
group.long 0x508++0x3
line.long 0x00 "DMA4_CICRi_12,Channel Interrupt Control Register"
bitfld.long 0x00 14. " SUPER_BLOCK_IE                          ,Enables the end of super block interrupt" "0,1"
bitfld.long 0x00 12. "                      DRAIN_IE                ,Enables the end of draining interrupt" "0,1"
bitfld.long 0x00 11. "                          MISALIGNED_ERR_IE     ,Enables the address misaligned error event interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 10. " SUPERVISOR_ERR_IE                       ,Enables the supervisor transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 8. "                      TRANS_ERR_IE            ,Enables the transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 7. "                          PKT_IE                ,Enables the end of Packet interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 5. " BLOCK_IE                                ,Enables the end of block interrupt - . - ." "0,1"
bitfld.long 0x00 4. "                      LAST_IE                 ,Last frame interrupt enable (start of last frame) - . - ." "0,1"
bitfld.long 0x00 3. "                          FRAME_IE              ,Frame interrupt enable (end of frame) - . - ." "0,1"
textline "                             "
bitfld.long 0x00 2. " HALF_IE                                 ,Enables or disables the half frame interrupt. - . - ." "0,1"
bitfld.long 0x00 1. "                      DROP_IE                 ,Synchronization event drop interrupt enable (request collision) - . - ." "0,1"
group.long 0x504++0x3
line.long 0x00 "DMA4_CLNK_CTRLi_12,Channel Link Control Register"
bitfld.long 0x00 15. " ENABLE_LNK                              ,Enables or disable the channel linking. - . - ." "0,1"
bitfld.long 0x00 0.--4. "                      NEXTLCH_ID              ,Defines the NextLCh_ID, which is used to build logical channel chaining queue." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x554++0x3
line.long 0x00 "DMA4_CNDPi_12,This register contains the Next descriptor Address Pointer for the link list Mechanism"
hexmask.long 0x00 2.--31. 1. " NEXT_DESCRIPTOR_POINTER                 ,This register contains the Next descriptor Address Pointer for the link list Mechanism"
group.long 0x544++0x3
line.long 0x00 "DMA4_COLORi_12,Channel DMA COLOR KEY /SOLID COLOR"
hexmask.long.tbyte 0x00 0.--23. 1. " CH_BLT_FRGRND_COLOR_OR_SOLID_COLOR_PTRN ,Color key or solid color pattern: The pattern is replicated according to the data type. If the data-type is 8-bit the pattern is replicated 4 times to fill the register in order to enhance processing when data ..."
rgroup.long 0x534++0x3
line.long 0x00 "DMA4_CSACi_12,Channel Source Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " SRC_ELMNT_ADRS                          ,Current source address counter value"
group.long 0x510++0x3
line.long 0x00 "DMA4_CSDPi_12,Channel Source Destination Parameters"
bitfld.long 0x00 21. " SRC_ENDIAN                              ,Channel source endianness control - . - ." "0,1"
bitfld.long 0x00 20. "                      SRC_ENDIAN_LOCK         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 19. "           DST_ENDIAN            ,Channel Destination endianness control - . - ." "0,1"
textline "                             "
bitfld.long 0x00 18. " DST_ENDIAN_LOCK                         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 16.--17. "       WRITE_MODE              ,Used to enable writing mode without posting or with posting - . - . - . - ." "0,Write_(Posted),2,Undefined"
bitfld.long 0x00 14.--15. "             DST_BURST_EN          ,Used to enable bursting on the Write Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
textline "                             "
bitfld.long 0x00 13. " DST_PACKED                              ,Destination receives packed data. - . - ." "0,1"
bitfld.long 0x00 7.--8. "                      SRC_BURST_EN            ,Used to enable bursting on the Read Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
bitfld.long 0x00 6. "              SRC_PACKED            ,Source provides packed data. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0.--1. " DATA_TYPE                               ,Defines the type of the data moved in the channel. - . - . - . - ." "8_bits_scalar,16_bits_scalar,32_bits_scalar,Reserved"
group.long 0x524++0x3
line.long 0x00 "DMA4_CSEIi_12,Channel Source Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_SRC_ELMNT_INDEX                 ,Channel source element index"
group.long 0x528++0x3
line.long 0x00 "DMA4_CSFIi_12,Channel Source Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_SRC_FRM_INDEX_OR_16BIT_PKT_ELNT_NBR  ,Channel source frame index value if source address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC] = 1; the bit field [15:0] gives the number of element in packet. The field [31:16] is unus..."
group.long 0x50C++0x3
line.long 0x00 "DMA4_CSRi_12,Channel Status Register"
eventfld.long 0x00 14. " SUPER_BLOCK                             ,End of Super block event Read 0x0: The current Super block transfer has not been finished Write 0x0: Status bit unchanged Read 0x1: The current Super block has been transferred Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 12. "                      DRAIN_END               ,End of channel draining Read 0x0: No drain end in the current transfer Write 0x0: Status bit unchanged Read 0x1: The current channel draining is completed Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 11. "                          MISALIGNED_ADRS_ERR   ,Misaligned address error event - . - . - . - ." "No_address_error,1"
textline "                             "
eventfld.long 0x00 10. " SUPERVISOR_ERR                          ,Supervisor transaction error event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 8. "   TRANS_ERR               ,Transaction error event - . - . - . - ." "No_transaction_error,1"
eventfld.long 0x00 7. "       PKT                   ,End of Packet transfer - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 6. " SYNC                                    ,Synchronization status of a channel. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 5. "   BLOCK                   ,End of block event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 4. "       LAST                  ,Last frame (start of last frame) - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 3. " FRAME                                   ,End of frame event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 2. "   HALF                    ,Half of frame event. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 1. "       DROP                  ,Synchronization event drop occured during the transfer - . - . - . - ." "Status_bit_unchanged,1"
group.long 0x51C++0x3
line.long 0x00 "DMA4_CSSAi_12,Channel Source Start Address"
hexmask.long 0x00 0.--31. 1. " SRC_START_ADRS                          ,32 bits of the source start address"
tree.end
tree "DMA_Channel_13"
width 20.
group.long 0x5B8++0x3
line.long 0x00 "DMA4_CCDNi_13,"
hexmask.long.word 0x00 0.--15. 1. " CURRENT_DESCRIPTOR_NBR                  ,This register when read contains the current active descriptor number in the link list. This register is Read/write to allow user initialization."
group.long 0x59C++0x3
line.long 0x00 "DMA4_CCENi_13,Channel Current Transferred Element Number in the current frame. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.tbyte 0x00 0.--23. 1. " CURRENT_ELMNT_NBR                       ,Channel current transferred element number in the current frame"
group.long 0x5A0++0x3
line.long 0x00 "DMA4_CCFNi_13,Channel Current Transferred Frame Number in the current transfer. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.word 0x00 0.--15. 1. " CURRENT_FRAME_NBR                       ,Channel current transferred frame number in the current transfer"
group.long 0x560++0x3
line.long 0x00 "DMA4_CCRi_13,Channel Control Register"
bitfld.long 0x00 26. " WRITE_PRIORITY                          ,Channel priority on the Write side - . - ." "0,1"
bitfld.long 0x00 25. "                      BUFFERING_DISABLE       ,This bit allows to disable the default buffering functionality when transfer is source synchronized. - . - ." "0,1"
bitfld.long 0x00 24. "                          SEL_SRC_DST_SYNC      ,Specifies that element, packet, frame or block transfer (depending on CCR.bs and CCR.fs) is triggered by the source or the destination on the DMA request - . - ." "0,1"
textline "                             "
bitfld.long 0x00 23. " PREFETCH                                ,Enables the prefetch mode - . - ." "0,1"
bitfld.long 0x00 22. "                      SUPERVISOR              ,Enables the supervisor mode - . - ." "0,1"
bitfld.long 0x00 19.--20. "                          SYNCHRO_CONTROL_UPPER ,Channel Synchronization control upper (used in conjunction with the 5 bits of synchro channelDMA4_CCRi[4:0]) Used in conjunction, as 2 MSB, with the 5 bits of the synchro channel bit field." "0,1,2,3"
textline "                             "
bitfld.long 0x00 18. " BS                                      ,Block synchronization This bit used in conjunction with the fs to see how the DMA request is serviced in a synchronized transfer." "0,1"
bitfld.long 0x00 17. "                      TRANSPARENT_COPY_ENABLE ,Transparent copy enable - . - ." "0,1"
bitfld.long 0x00 16. "                          CONST_FILL_ENABLE     ,Constant fill enable - . - ." "0,1"
textline "                             "
bitfld.long 0x00 14.--15. " DST_AMODE                               ,Selects the addressing mode on the Write Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 12.--13. "  SRC_AMODE               ,Selects the addressing mode on the Read Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 10. "      WR_ACTIVE             ,Indicates if the channel write context is active or not - . - ." "0,1"
textline "                             "
bitfld.long 0x00 9. " RD_ACTIVE                               ,Indicates if the channel read context is active or not - . - ." "0,1"
bitfld.long 0x00 8. "                      SUSPEND_SENSITIVE       ,Logical channel suspend enable bit - . - ." "0,1"
bitfld.long 0x00 7. "                          ENABLE                ,Logical channel enable. It is SW responsibility to clear the CSR register and the IRQSTATUS bit for the different interrupt lines before enabling the channel. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 6. " READ_PRIORITY                           ,Channel priority on the read side - . - ." "0,1"
bitfld.long 0x00 5. "                      FS                      ,Frame synchronization This bit used in conjunction with the BS to see how the DMA request is serviced in a synchronized transfer FS = 0 and BS = 0: An element is transferred once a DMA request is made. FS ..." "0,1"
bitfld.long 0x00 0.--4. "                          SYNCHRO_CONTROL       ,Channel synchronization control This bit field used in conjunction with the second_level_ synchro_control_upper (as 2 MSB) 0000000 : Is reserved for non synchronized LCH transfer xxxxxxx (from 1 to 127)T..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x598++0x3
line.long 0x00 "DMA4_CDACi_13,Channel Destination Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " DST_ELMNT_ADRS                          ,Current destination address counter value"
group.long 0x58C++0x3
line.long 0x00 "DMA4_CDEIi_13,Channel Destination Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_DST_ELMNT_INDEX                 ,Channel destination element index"
group.long 0x590++0x3
line.long 0x00 "DMA4_CDFIi_13,Channel Destination Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_DST_FRM_IDX_OR_16BIT_PKT_ELNT_NBR    ,Channel destination frame index value if destination address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC]=0; the bit field [15:0] gives the number of element in packet. The field [31:16]..."
group.long 0x5B0++0x3
line.long 0x00 "DMA4_CDPi_13,This register controls the various parameters of the link list mechanism"
bitfld.long 0x00 10. " FAST                                    ,Sets the fast-start mode for linked list descriptor types 1, 2 and 3 - . - ." "No_fast-start_mode,1"
bitfld.long 0x00 8.--9. "     TRANSFER_MODE           ,Enable linked-list transfer mode - . - . - . - ." "0,1,Undefined,Undefined"
bitfld.long 0x00 7. "                  PAUSE_LINK_LIST       ,Suspend the linked-list transfer at completion of the current block transfer. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 4.--6. " NEXT_DESCRIPTOR_TYPE                    ,Next Descriptor Type - . - . - . - . - . - . - . - ." "Undefined,1,2,3,Undefined,Undefined,Undefined,Undefined"
bitfld.long 0x00 2.--3. "              SRC_VALID               ,Source address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
bitfld.long 0x00 0.--1. "  DEST_VALID            ,Destination address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
group.long 0x580++0x3
line.long 0x00 "DMA4_CDSAi_13,Channel Destination Start Address"
hexmask.long 0x00 0.--31. 1. " DST_START_ADRS                          ,32 bits of the destination start address"
group.long 0x574++0x3
line.long 0x00 "DMA4_CENi_13,Channel Element Number"
hexmask.long.tbyte 0x00 0.--23. 1. " CHANNEL_ELMNT_NBR                       ,Number of elements within a frame (unsigned) to transfer"
group.long 0x578++0x3
line.long 0x00 "DMA4_CFNi_13,Channel Frame Number"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_FRAME_NBR                       ,Number of frames within the block to be transferred (unsigned)"
group.long 0x568++0x3
line.long 0x00 "DMA4_CICRi_13,Channel Interrupt Control Register"
bitfld.long 0x00 14. " SUPER_BLOCK_IE                          ,Enables the end of super block interrupt" "0,1"
bitfld.long 0x00 12. "                      DRAIN_IE                ,Enables the end of draining interrupt" "0,1"
bitfld.long 0x00 11. "                          MISALIGNED_ERR_IE     ,Enables the address misaligned error event interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 10. " SUPERVISOR_ERR_IE                       ,Enables the supervisor transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 8. "                      TRANS_ERR_IE            ,Enables the transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 7. "                          PKT_IE                ,Enables the end of Packet interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 5. " BLOCK_IE                                ,Enables the end of block interrupt - . - ." "0,1"
bitfld.long 0x00 4. "                      LAST_IE                 ,Last frame interrupt enable (start of last frame) - . - ." "0,1"
bitfld.long 0x00 3. "                          FRAME_IE              ,Frame interrupt enable (end of frame) - . - ." "0,1"
textline "                             "
bitfld.long 0x00 2. " HALF_IE                                 ,Enables or disables the half frame interrupt. - . - ." "0,1"
bitfld.long 0x00 1. "                      DROP_IE                 ,Synchronization event drop interrupt enable (request collision) - . - ." "0,1"
group.long 0x564++0x3
line.long 0x00 "DMA4_CLNK_CTRLi_13,Channel Link Control Register"
bitfld.long 0x00 15. " ENABLE_LNK                              ,Enables or disable the channel linking. - . - ." "0,1"
bitfld.long 0x00 0.--4. "                      NEXTLCH_ID              ,Defines the NextLCh_ID, which is used to build logical channel chaining queue." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x5B4++0x3
line.long 0x00 "DMA4_CNDPi_13,This register contains the Next descriptor Address Pointer for the link list Mechanism"
hexmask.long 0x00 2.--31. 1. " NEXT_DESCRIPTOR_POINTER                 ,This register contains the Next descriptor Address Pointer for the link list Mechanism"
group.long 0x5A4++0x3
line.long 0x00 "DMA4_COLORi_13,Channel DMA COLOR KEY /SOLID COLOR"
hexmask.long.tbyte 0x00 0.--23. 1. " CH_BLT_FRGRND_COLOR_OR_SOLID_COLOR_PTRN ,Color key or solid color pattern: The pattern is replicated according to the data type. If the data-type is 8-bit the pattern is replicated 4 times to fill the register in order to enhance processing when data ..."
rgroup.long 0x594++0x3
line.long 0x00 "DMA4_CSACi_13,Channel Source Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " SRC_ELMNT_ADRS                          ,Current source address counter value"
group.long 0x570++0x3
line.long 0x00 "DMA4_CSDPi_13,Channel Source Destination Parameters"
bitfld.long 0x00 21. " SRC_ENDIAN                              ,Channel source endianness control - . - ." "0,1"
bitfld.long 0x00 20. "                      SRC_ENDIAN_LOCK         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 19. "           DST_ENDIAN            ,Channel Destination endianness control - . - ." "0,1"
textline "                             "
bitfld.long 0x00 18. " DST_ENDIAN_LOCK                         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 16.--17. "       WRITE_MODE              ,Used to enable writing mode without posting or with posting - . - . - . - ." "0,Write_(Posted),2,Undefined"
bitfld.long 0x00 14.--15. "             DST_BURST_EN          ,Used to enable bursting on the Write Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
textline "                             "
bitfld.long 0x00 13. " DST_PACKED                              ,Destination receives packed data. - . - ." "0,1"
bitfld.long 0x00 7.--8. "                      SRC_BURST_EN            ,Used to enable bursting on the Read Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
bitfld.long 0x00 6. "              SRC_PACKED            ,Source provides packed data. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0.--1. " DATA_TYPE                               ,Defines the type of the data moved in the channel. - . - . - . - ." "8_bits_scalar,16_bits_scalar,32_bits_scalar,Reserved"
group.long 0x584++0x3
line.long 0x00 "DMA4_CSEIi_13,Channel Source Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_SRC_ELMNT_INDEX                 ,Channel source element index"
group.long 0x588++0x3
line.long 0x00 "DMA4_CSFIi_13,Channel Source Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_SRC_FRM_INDEX_OR_16BIT_PKT_ELNT_NBR  ,Channel source frame index value if source address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC] = 1; the bit field [15:0] gives the number of element in packet. The field [31:16] is unus..."
group.long 0x56C++0x3
line.long 0x00 "DMA4_CSRi_13,Channel Status Register"
eventfld.long 0x00 14. " SUPER_BLOCK                             ,End of Super block event Read 0x0: The current Super block transfer has not been finished Write 0x0: Status bit unchanged Read 0x1: The current Super block has been transferred Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 12. "                      DRAIN_END               ,End of channel draining Read 0x0: No drain end in the current transfer Write 0x0: Status bit unchanged Read 0x1: The current channel draining is completed Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 11. "                          MISALIGNED_ADRS_ERR   ,Misaligned address error event - . - . - . - ." "No_address_error,1"
textline "                             "
eventfld.long 0x00 10. " SUPERVISOR_ERR                          ,Supervisor transaction error event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 8. "   TRANS_ERR               ,Transaction error event - . - . - . - ." "No_transaction_error,1"
eventfld.long 0x00 7. "       PKT                   ,End of Packet transfer - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 6. " SYNC                                    ,Synchronization status of a channel. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 5. "   BLOCK                   ,End of block event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 4. "       LAST                  ,Last frame (start of last frame) - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 3. " FRAME                                   ,End of frame event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 2. "   HALF                    ,Half of frame event. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 1. "       DROP                  ,Synchronization event drop occured during the transfer - . - . - . - ." "Status_bit_unchanged,1"
group.long 0x57C++0x3
line.long 0x00 "DMA4_CSSAi_13,Channel Source Start Address"
hexmask.long 0x00 0.--31. 1. " SRC_START_ADRS                          ,32 bits of the source start address"
tree.end
tree "DMA_Channel_14"
width 20.
group.long 0x618++0x3
line.long 0x00 "DMA4_CCDNi_14,"
hexmask.long.word 0x00 0.--15. 1. " CURRENT_DESCRIPTOR_NBR                  ,This register when read contains the current active descriptor number in the link list. This register is Read/write to allow user initialization."
group.long 0x5FC++0x3
line.long 0x00 "DMA4_CCENi_14,Channel Current Transferred Element Number in the current frame. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.tbyte 0x00 0.--23. 1. " CURRENT_ELMNT_NBR                       ,Channel current transferred element number in the current frame"
group.long 0x600++0x3
line.long 0x00 "DMA4_CCFNi_14,Channel Current Transferred Frame Number in the current transfer. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.word 0x00 0.--15. 1. " CURRENT_FRAME_NBR                       ,Channel current transferred frame number in the current transfer"
group.long 0x5C0++0x3
line.long 0x00 "DMA4_CCRi_14,Channel Control Register"
bitfld.long 0x00 26. " WRITE_PRIORITY                          ,Channel priority on the Write side - . - ." "0,1"
bitfld.long 0x00 25. "                      BUFFERING_DISABLE       ,This bit allows to disable the default buffering functionality when transfer is source synchronized. - . - ." "0,1"
bitfld.long 0x00 24. "                          SEL_SRC_DST_SYNC      ,Specifies that element, packet, frame or block transfer (depending on CCR.bs and CCR.fs) is triggered by the source or the destination on the DMA request - . - ." "0,1"
textline "                             "
bitfld.long 0x00 23. " PREFETCH                                ,Enables the prefetch mode - . - ." "0,1"
bitfld.long 0x00 22. "                      SUPERVISOR              ,Enables the supervisor mode - . - ." "0,1"
bitfld.long 0x00 19.--20. "                          SYNCHRO_CONTROL_UPPER ,Channel Synchronization control upper (used in conjunction with the 5 bits of synchro channelDMA4_CCRi[4:0]) Used in conjunction, as 2 MSB, with the 5 bits of the synchro channel bit field." "0,1,2,3"
textline "                             "
bitfld.long 0x00 18. " BS                                      ,Block synchronization This bit used in conjunction with the fs to see how the DMA request is serviced in a synchronized transfer." "0,1"
bitfld.long 0x00 17. "                      TRANSPARENT_COPY_ENABLE ,Transparent copy enable - . - ." "0,1"
bitfld.long 0x00 16. "                          CONST_FILL_ENABLE     ,Constant fill enable - . - ." "0,1"
textline "                             "
bitfld.long 0x00 14.--15. " DST_AMODE                               ,Selects the addressing mode on the Write Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 12.--13. "  SRC_AMODE               ,Selects the addressing mode on the Read Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 10. "      WR_ACTIVE             ,Indicates if the channel write context is active or not - . - ." "0,1"
textline "                             "
bitfld.long 0x00 9. " RD_ACTIVE                               ,Indicates if the channel read context is active or not - . - ." "0,1"
bitfld.long 0x00 8. "                      SUSPEND_SENSITIVE       ,Logical channel suspend enable bit - . - ." "0,1"
bitfld.long 0x00 7. "                          ENABLE                ,Logical channel enable. It is SW responsibility to clear the CSR register and the IRQSTATUS bit for the different interrupt lines before enabling the channel. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 6. " READ_PRIORITY                           ,Channel priority on the read side - . - ." "0,1"
bitfld.long 0x00 5. "                      FS                      ,Frame synchronization This bit used in conjunction with the BS to see how the DMA request is serviced in a synchronized transfer FS = 0 and BS = 0: An element is transferred once a DMA request is made. FS ..." "0,1"
bitfld.long 0x00 0.--4. "                          SYNCHRO_CONTROL       ,Channel synchronization control This bit field used in conjunction with the second_level_ synchro_control_upper (as 2 MSB) 0000000 : Is reserved for non synchronized LCH transfer xxxxxxx (from 1 to 127)T..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x5F8++0x3
line.long 0x00 "DMA4_CDACi_14,Channel Destination Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " DST_ELMNT_ADRS                          ,Current destination address counter value"
group.long 0x5EC++0x3
line.long 0x00 "DMA4_CDEIi_14,Channel Destination Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_DST_ELMNT_INDEX                 ,Channel destination element index"
group.long 0x5F0++0x3
line.long 0x00 "DMA4_CDFIi_14,Channel Destination Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_DST_FRM_IDX_OR_16BIT_PKT_ELNT_NBR    ,Channel destination frame index value if destination address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC]=0; the bit field [15:0] gives the number of element in packet. The field [31:16]..."
group.long 0x610++0x3
line.long 0x00 "DMA4_CDPi_14,This register controls the various parameters of the link list mechanism"
bitfld.long 0x00 10. " FAST                                    ,Sets the fast-start mode for linked list descriptor types 1, 2 and 3 - . - ." "No_fast-start_mode,1"
bitfld.long 0x00 8.--9. "     TRANSFER_MODE           ,Enable linked-list transfer mode - . - . - . - ." "0,1,Undefined,Undefined"
bitfld.long 0x00 7. "                  PAUSE_LINK_LIST       ,Suspend the linked-list transfer at completion of the current block transfer. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 4.--6. " NEXT_DESCRIPTOR_TYPE                    ,Next Descriptor Type - . - . - . - . - . - . - . - ." "Undefined,1,2,3,Undefined,Undefined,Undefined,Undefined"
bitfld.long 0x00 2.--3. "              SRC_VALID               ,Source address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
bitfld.long 0x00 0.--1. "  DEST_VALID            ,Destination address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
group.long 0x5E0++0x3
line.long 0x00 "DMA4_CDSAi_14,Channel Destination Start Address"
hexmask.long 0x00 0.--31. 1. " DST_START_ADRS                          ,32 bits of the destination start address"
group.long 0x5D4++0x3
line.long 0x00 "DMA4_CENi_14,Channel Element Number"
hexmask.long.tbyte 0x00 0.--23. 1. " CHANNEL_ELMNT_NBR                       ,Number of elements within a frame (unsigned) to transfer"
group.long 0x5D8++0x3
line.long 0x00 "DMA4_CFNi_14,Channel Frame Number"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_FRAME_NBR                       ,Number of frames within the block to be transferred (unsigned)"
group.long 0x5C8++0x3
line.long 0x00 "DMA4_CICRi_14,Channel Interrupt Control Register"
bitfld.long 0x00 14. " SUPER_BLOCK_IE                          ,Enables the end of super block interrupt" "0,1"
bitfld.long 0x00 12. "                      DRAIN_IE                ,Enables the end of draining interrupt" "0,1"
bitfld.long 0x00 11. "                          MISALIGNED_ERR_IE     ,Enables the address misaligned error event interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 10. " SUPERVISOR_ERR_IE                       ,Enables the supervisor transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 8. "                      TRANS_ERR_IE            ,Enables the transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 7. "                          PKT_IE                ,Enables the end of Packet interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 5. " BLOCK_IE                                ,Enables the end of block interrupt - . - ." "0,1"
bitfld.long 0x00 4. "                      LAST_IE                 ,Last frame interrupt enable (start of last frame) - . - ." "0,1"
bitfld.long 0x00 3. "                          FRAME_IE              ,Frame interrupt enable (end of frame) - . - ." "0,1"
textline "                             "
bitfld.long 0x00 2. " HALF_IE                                 ,Enables or disables the half frame interrupt. - . - ." "0,1"
bitfld.long 0x00 1. "                      DROP_IE                 ,Synchronization event drop interrupt enable (request collision) - . - ." "0,1"
group.long 0x5C4++0x3
line.long 0x00 "DMA4_CLNK_CTRLi_14,Channel Link Control Register"
bitfld.long 0x00 15. " ENABLE_LNK                              ,Enables or disable the channel linking. - . - ." "0,1"
bitfld.long 0x00 0.--4. "                      NEXTLCH_ID              ,Defines the NextLCh_ID, which is used to build logical channel chaining queue." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x614++0x3
line.long 0x00 "DMA4_CNDPi_14,This register contains the Next descriptor Address Pointer for the link list Mechanism"
hexmask.long 0x00 2.--31. 1. " NEXT_DESCRIPTOR_POINTER                 ,This register contains the Next descriptor Address Pointer for the link list Mechanism"
group.long 0x604++0x3
line.long 0x00 "DMA4_COLORi_14,Channel DMA COLOR KEY /SOLID COLOR"
hexmask.long.tbyte 0x00 0.--23. 1. " CH_BLT_FRGRND_COLOR_OR_SOLID_COLOR_PTRN ,Color key or solid color pattern: The pattern is replicated according to the data type. If the data-type is 8-bit the pattern is replicated 4 times to fill the register in order to enhance processing when data ..."
rgroup.long 0x5F4++0x3
line.long 0x00 "DMA4_CSACi_14,Channel Source Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " SRC_ELMNT_ADRS                          ,Current source address counter value"
group.long 0x5D0++0x3
line.long 0x00 "DMA4_CSDPi_14,Channel Source Destination Parameters"
bitfld.long 0x00 21. " SRC_ENDIAN                              ,Channel source endianness control - . - ." "0,1"
bitfld.long 0x00 20. "                      SRC_ENDIAN_LOCK         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 19. "           DST_ENDIAN            ,Channel Destination endianness control - . - ." "0,1"
textline "                             "
bitfld.long 0x00 18. " DST_ENDIAN_LOCK                         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 16.--17. "       WRITE_MODE              ,Used to enable writing mode without posting or with posting - . - . - . - ." "0,Write_(Posted),2,Undefined"
bitfld.long 0x00 14.--15. "             DST_BURST_EN          ,Used to enable bursting on the Write Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
textline "                             "
bitfld.long 0x00 13. " DST_PACKED                              ,Destination receives packed data. - . - ." "0,1"
bitfld.long 0x00 7.--8. "                      SRC_BURST_EN            ,Used to enable bursting on the Read Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
bitfld.long 0x00 6. "              SRC_PACKED            ,Source provides packed data. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0.--1. " DATA_TYPE                               ,Defines the type of the data moved in the channel. - . - . - . - ." "8_bits_scalar,16_bits_scalar,32_bits_scalar,Reserved"
group.long 0x5E4++0x3
line.long 0x00 "DMA4_CSEIi_14,Channel Source Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_SRC_ELMNT_INDEX                 ,Channel source element index"
group.long 0x5E8++0x3
line.long 0x00 "DMA4_CSFIi_14,Channel Source Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_SRC_FRM_INDEX_OR_16BIT_PKT_ELNT_NBR  ,Channel source frame index value if source address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC] = 1; the bit field [15:0] gives the number of element in packet. The field [31:16] is unus..."
group.long 0x5CC++0x3
line.long 0x00 "DMA4_CSRi_14,Channel Status Register"
eventfld.long 0x00 14. " SUPER_BLOCK                             ,End of Super block event Read 0x0: The current Super block transfer has not been finished Write 0x0: Status bit unchanged Read 0x1: The current Super block has been transferred Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 12. "                      DRAIN_END               ,End of channel draining Read 0x0: No drain end in the current transfer Write 0x0: Status bit unchanged Read 0x1: The current channel draining is completed Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 11. "                          MISALIGNED_ADRS_ERR   ,Misaligned address error event - . - . - . - ." "No_address_error,1"
textline "                             "
eventfld.long 0x00 10. " SUPERVISOR_ERR                          ,Supervisor transaction error event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 8. "   TRANS_ERR               ,Transaction error event - . - . - . - ." "No_transaction_error,1"
eventfld.long 0x00 7. "       PKT                   ,End of Packet transfer - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 6. " SYNC                                    ,Synchronization status of a channel. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 5. "   BLOCK                   ,End of block event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 4. "       LAST                  ,Last frame (start of last frame) - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 3. " FRAME                                   ,End of frame event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 2. "   HALF                    ,Half of frame event. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 1. "       DROP                  ,Synchronization event drop occured during the transfer - . - . - . - ." "Status_bit_unchanged,1"
group.long 0x5DC++0x3
line.long 0x00 "DMA4_CSSAi_14,Channel Source Start Address"
hexmask.long 0x00 0.--31. 1. " SRC_START_ADRS                          ,32 bits of the source start address"
tree.end
tree "DMA_Channel_15"
width 20.
group.long 0x678++0x3
line.long 0x00 "DMA4_CCDNi_15,"
hexmask.long.word 0x00 0.--15. 1. " CURRENT_DESCRIPTOR_NBR                  ,This register when read contains the current active descriptor number in the link list. This register is Read/write to allow user initialization."
group.long 0x65C++0x3
line.long 0x00 "DMA4_CCENi_15,Channel Current Transferred Element Number in the current frame. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.tbyte 0x00 0.--23. 1. " CURRENT_ELMNT_NBR                       ,Channel current transferred element number in the current frame"
group.long 0x660++0x3
line.long 0x00 "DMA4_CCFNi_15,Channel Current Transferred Frame Number in the current transfer. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.word 0x00 0.--15. 1. " CURRENT_FRAME_NBR                       ,Channel current transferred frame number in the current transfer"
group.long 0x620++0x3
line.long 0x00 "DMA4_CCRi_15,Channel Control Register"
bitfld.long 0x00 26. " WRITE_PRIORITY                          ,Channel priority on the Write side - . - ." "0,1"
bitfld.long 0x00 25. "                      BUFFERING_DISABLE       ,This bit allows to disable the default buffering functionality when transfer is source synchronized. - . - ." "0,1"
bitfld.long 0x00 24. "                          SEL_SRC_DST_SYNC      ,Specifies that element, packet, frame or block transfer (depending on CCR.bs and CCR.fs) is triggered by the source or the destination on the DMA request - . - ." "0,1"
textline "                             "
bitfld.long 0x00 23. " PREFETCH                                ,Enables the prefetch mode - . - ." "0,1"
bitfld.long 0x00 22. "                      SUPERVISOR              ,Enables the supervisor mode - . - ." "0,1"
bitfld.long 0x00 19.--20. "                          SYNCHRO_CONTROL_UPPER ,Channel Synchronization control upper (used in conjunction with the 5 bits of synchro channelDMA4_CCRi[4:0]) Used in conjunction, as 2 MSB, with the 5 bits of the synchro channel bit field." "0,1,2,3"
textline "                             "
bitfld.long 0x00 18. " BS                                      ,Block synchronization This bit used in conjunction with the fs to see how the DMA request is serviced in a synchronized transfer." "0,1"
bitfld.long 0x00 17. "                      TRANSPARENT_COPY_ENABLE ,Transparent copy enable - . - ." "0,1"
bitfld.long 0x00 16. "                          CONST_FILL_ENABLE     ,Constant fill enable - . - ." "0,1"
textline "                             "
bitfld.long 0x00 14.--15. " DST_AMODE                               ,Selects the addressing mode on the Write Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 12.--13. "  SRC_AMODE               ,Selects the addressing mode on the Read Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 10. "      WR_ACTIVE             ,Indicates if the channel write context is active or not - . - ." "0,1"
textline "                             "
bitfld.long 0x00 9. " RD_ACTIVE                               ,Indicates if the channel read context is active or not - . - ." "0,1"
bitfld.long 0x00 8. "                      SUSPEND_SENSITIVE       ,Logical channel suspend enable bit - . - ." "0,1"
bitfld.long 0x00 7. "                          ENABLE                ,Logical channel enable. It is SW responsibility to clear the CSR register and the IRQSTATUS bit for the different interrupt lines before enabling the channel. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 6. " READ_PRIORITY                           ,Channel priority on the read side - . - ." "0,1"
bitfld.long 0x00 5. "                      FS                      ,Frame synchronization This bit used in conjunction with the BS to see how the DMA request is serviced in a synchronized transfer FS = 0 and BS = 0: An element is transferred once a DMA request is made. FS ..." "0,1"
bitfld.long 0x00 0.--4. "                          SYNCHRO_CONTROL       ,Channel synchronization control This bit field used in conjunction with the second_level_ synchro_control_upper (as 2 MSB) 0000000 : Is reserved for non synchronized LCH transfer xxxxxxx (from 1 to 127)T..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x658++0x3
line.long 0x00 "DMA4_CDACi_15,Channel Destination Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " DST_ELMNT_ADRS                          ,Current destination address counter value"
group.long 0x64C++0x3
line.long 0x00 "DMA4_CDEIi_15,Channel Destination Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_DST_ELMNT_INDEX                 ,Channel destination element index"
group.long 0x650++0x3
line.long 0x00 "DMA4_CDFIi_15,Channel Destination Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_DST_FRM_IDX_OR_16BIT_PKT_ELNT_NBR    ,Channel destination frame index value if destination address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC]=0; the bit field [15:0] gives the number of element in packet. The field [31:16]..."
group.long 0x670++0x3
line.long 0x00 "DMA4_CDPi_15,This register controls the various parameters of the link list mechanism"
bitfld.long 0x00 10. " FAST                                    ,Sets the fast-start mode for linked list descriptor types 1, 2 and 3 - . - ." "No_fast-start_mode,1"
bitfld.long 0x00 8.--9. "     TRANSFER_MODE           ,Enable linked-list transfer mode - . - . - . - ." "0,1,Undefined,Undefined"
bitfld.long 0x00 7. "                  PAUSE_LINK_LIST       ,Suspend the linked-list transfer at completion of the current block transfer. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 4.--6. " NEXT_DESCRIPTOR_TYPE                    ,Next Descriptor Type - . - . - . - . - . - . - . - ." "Undefined,1,2,3,Undefined,Undefined,Undefined,Undefined"
bitfld.long 0x00 2.--3. "              SRC_VALID               ,Source address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
bitfld.long 0x00 0.--1. "  DEST_VALID            ,Destination address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
group.long 0x640++0x3
line.long 0x00 "DMA4_CDSAi_15,Channel Destination Start Address"
hexmask.long 0x00 0.--31. 1. " DST_START_ADRS                          ,32 bits of the destination start address"
group.long 0x634++0x3
line.long 0x00 "DMA4_CENi_15,Channel Element Number"
hexmask.long.tbyte 0x00 0.--23. 1. " CHANNEL_ELMNT_NBR                       ,Number of elements within a frame (unsigned) to transfer"
group.long 0x638++0x3
line.long 0x00 "DMA4_CFNi_15,Channel Frame Number"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_FRAME_NBR                       ,Number of frames within the block to be transferred (unsigned)"
group.long 0x628++0x3
line.long 0x00 "DMA4_CICRi_15,Channel Interrupt Control Register"
bitfld.long 0x00 14. " SUPER_BLOCK_IE                          ,Enables the end of super block interrupt" "0,1"
bitfld.long 0x00 12. "                      DRAIN_IE                ,Enables the end of draining interrupt" "0,1"
bitfld.long 0x00 11. "                          MISALIGNED_ERR_IE     ,Enables the address misaligned error event interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 10. " SUPERVISOR_ERR_IE                       ,Enables the supervisor transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 8. "                      TRANS_ERR_IE            ,Enables the transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 7. "                          PKT_IE                ,Enables the end of Packet interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 5. " BLOCK_IE                                ,Enables the end of block interrupt - . - ." "0,1"
bitfld.long 0x00 4. "                      LAST_IE                 ,Last frame interrupt enable (start of last frame) - . - ." "0,1"
bitfld.long 0x00 3. "                          FRAME_IE              ,Frame interrupt enable (end of frame) - . - ." "0,1"
textline "                             "
bitfld.long 0x00 2. " HALF_IE                                 ,Enables or disables the half frame interrupt. - . - ." "0,1"
bitfld.long 0x00 1. "                      DROP_IE                 ,Synchronization event drop interrupt enable (request collision) - . - ." "0,1"
group.long 0x624++0x3
line.long 0x00 "DMA4_CLNK_CTRLi_15,Channel Link Control Register"
bitfld.long 0x00 15. " ENABLE_LNK                              ,Enables or disable the channel linking. - . - ." "0,1"
bitfld.long 0x00 0.--4. "                      NEXTLCH_ID              ,Defines the NextLCh_ID, which is used to build logical channel chaining queue." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x674++0x3
line.long 0x00 "DMA4_CNDPi_15,This register contains the Next descriptor Address Pointer for the link list Mechanism"
hexmask.long 0x00 2.--31. 1. " NEXT_DESCRIPTOR_POINTER                 ,This register contains the Next descriptor Address Pointer for the link list Mechanism"
group.long 0x664++0x3
line.long 0x00 "DMA4_COLORi_15,Channel DMA COLOR KEY /SOLID COLOR"
hexmask.long.tbyte 0x00 0.--23. 1. " CH_BLT_FRGRND_COLOR_OR_SOLID_COLOR_PTRN ,Color key or solid color pattern: The pattern is replicated according to the data type. If the data-type is 8-bit the pattern is replicated 4 times to fill the register in order to enhance processing when data ..."
rgroup.long 0x654++0x3
line.long 0x00 "DMA4_CSACi_15,Channel Source Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " SRC_ELMNT_ADRS                          ,Current source address counter value"
group.long 0x630++0x3
line.long 0x00 "DMA4_CSDPi_15,Channel Source Destination Parameters"
bitfld.long 0x00 21. " SRC_ENDIAN                              ,Channel source endianness control - . - ." "0,1"
bitfld.long 0x00 20. "                      SRC_ENDIAN_LOCK         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 19. "           DST_ENDIAN            ,Channel Destination endianness control - . - ." "0,1"
textline "                             "
bitfld.long 0x00 18. " DST_ENDIAN_LOCK                         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 16.--17. "       WRITE_MODE              ,Used to enable writing mode without posting or with posting - . - . - . - ." "0,Write_(Posted),2,Undefined"
bitfld.long 0x00 14.--15. "             DST_BURST_EN          ,Used to enable bursting on the Write Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
textline "                             "
bitfld.long 0x00 13. " DST_PACKED                              ,Destination receives packed data. - . - ." "0,1"
bitfld.long 0x00 7.--8. "                      SRC_BURST_EN            ,Used to enable bursting on the Read Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
bitfld.long 0x00 6. "              SRC_PACKED            ,Source provides packed data. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0.--1. " DATA_TYPE                               ,Defines the type of the data moved in the channel. - . - . - . - ." "8_bits_scalar,16_bits_scalar,32_bits_scalar,Reserved"
group.long 0x644++0x3
line.long 0x00 "DMA4_CSEIi_15,Channel Source Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_SRC_ELMNT_INDEX                 ,Channel source element index"
group.long 0x648++0x3
line.long 0x00 "DMA4_CSFIi_15,Channel Source Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_SRC_FRM_INDEX_OR_16BIT_PKT_ELNT_NBR  ,Channel source frame index value if source address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC] = 1; the bit field [15:0] gives the number of element in packet. The field [31:16] is unus..."
group.long 0x62C++0x3
line.long 0x00 "DMA4_CSRi_15,Channel Status Register"
eventfld.long 0x00 14. " SUPER_BLOCK                             ,End of Super block event Read 0x0: The current Super block transfer has not been finished Write 0x0: Status bit unchanged Read 0x1: The current Super block has been transferred Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 12. "                      DRAIN_END               ,End of channel draining Read 0x0: No drain end in the current transfer Write 0x0: Status bit unchanged Read 0x1: The current channel draining is completed Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 11. "                          MISALIGNED_ADRS_ERR   ,Misaligned address error event - . - . - . - ." "No_address_error,1"
textline "                             "
eventfld.long 0x00 10. " SUPERVISOR_ERR                          ,Supervisor transaction error event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 8. "   TRANS_ERR               ,Transaction error event - . - . - . - ." "No_transaction_error,1"
eventfld.long 0x00 7. "       PKT                   ,End of Packet transfer - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 6. " SYNC                                    ,Synchronization status of a channel. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 5. "   BLOCK                   ,End of block event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 4. "       LAST                  ,Last frame (start of last frame) - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 3. " FRAME                                   ,End of frame event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 2. "   HALF                    ,Half of frame event. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 1. "       DROP                  ,Synchronization event drop occured during the transfer - . - . - . - ." "Status_bit_unchanged,1"
group.long 0x63C++0x3
line.long 0x00 "DMA4_CSSAi_15,Channel Source Start Address"
hexmask.long 0x00 0.--31. 1. " SRC_START_ADRS                          ,32 bits of the source start address"
tree.end
tree "DMA_Channel_16"
width 20.
group.long 0x6D8++0x3
line.long 0x00 "DMA4_CCDNi_16,"
hexmask.long.word 0x00 0.--15. 1. " CURRENT_DESCRIPTOR_NBR                  ,This register when read contains the current active descriptor number in the link list. This register is Read/write to allow user initialization."
group.long 0x6BC++0x3
line.long 0x00 "DMA4_CCENi_16,Channel Current Transferred Element Number in the current frame. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.tbyte 0x00 0.--23. 1. " CURRENT_ELMNT_NBR                       ,Channel current transferred element number in the current frame"
group.long 0x6C0++0x3
line.long 0x00 "DMA4_CCFNi_16,Channel Current Transferred Frame Number in the current transfer. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.word 0x00 0.--15. 1. " CURRENT_FRAME_NBR                       ,Channel current transferred frame number in the current transfer"
group.long 0x680++0x3
line.long 0x00 "DMA4_CCRi_16,Channel Control Register"
bitfld.long 0x00 26. " WRITE_PRIORITY                          ,Channel priority on the Write side - . - ." "0,1"
bitfld.long 0x00 25. "                      BUFFERING_DISABLE       ,This bit allows to disable the default buffering functionality when transfer is source synchronized. - . - ." "0,1"
bitfld.long 0x00 24. "                          SEL_SRC_DST_SYNC      ,Specifies that element, packet, frame or block transfer (depending on CCR.bs and CCR.fs) is triggered by the source or the destination on the DMA request - . - ." "0,1"
textline "                             "
bitfld.long 0x00 23. " PREFETCH                                ,Enables the prefetch mode - . - ." "0,1"
bitfld.long 0x00 22. "                      SUPERVISOR              ,Enables the supervisor mode - . - ." "0,1"
bitfld.long 0x00 19.--20. "                          SYNCHRO_CONTROL_UPPER ,Channel Synchronization control upper (used in conjunction with the 5 bits of synchro channelDMA4_CCRi[4:0]) Used in conjunction, as 2 MSB, with the 5 bits of the synchro channel bit field." "0,1,2,3"
textline "                             "
bitfld.long 0x00 18. " BS                                      ,Block synchronization This bit used in conjunction with the fs to see how the DMA request is serviced in a synchronized transfer." "0,1"
bitfld.long 0x00 17. "                      TRANSPARENT_COPY_ENABLE ,Transparent copy enable - . - ." "0,1"
bitfld.long 0x00 16. "                          CONST_FILL_ENABLE     ,Constant fill enable - . - ." "0,1"
textline "                             "
bitfld.long 0x00 14.--15. " DST_AMODE                               ,Selects the addressing mode on the Write Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 12.--13. "  SRC_AMODE               ,Selects the addressing mode on the Read Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 10. "      WR_ACTIVE             ,Indicates if the channel write context is active or not - . - ." "0,1"
textline "                             "
bitfld.long 0x00 9. " RD_ACTIVE                               ,Indicates if the channel read context is active or not - . - ." "0,1"
bitfld.long 0x00 8. "                      SUSPEND_SENSITIVE       ,Logical channel suspend enable bit - . - ." "0,1"
bitfld.long 0x00 7. "                          ENABLE                ,Logical channel enable. It is SW responsibility to clear the CSR register and the IRQSTATUS bit for the different interrupt lines before enabling the channel. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 6. " READ_PRIORITY                           ,Channel priority on the read side - . - ." "0,1"
bitfld.long 0x00 5. "                      FS                      ,Frame synchronization This bit used in conjunction with the BS to see how the DMA request is serviced in a synchronized transfer FS = 0 and BS = 0: An element is transferred once a DMA request is made. FS ..." "0,1"
bitfld.long 0x00 0.--4. "                          SYNCHRO_CONTROL       ,Channel synchronization control This bit field used in conjunction with the second_level_ synchro_control_upper (as 2 MSB) 0000000 : Is reserved for non synchronized LCH transfer xxxxxxx (from 1 to 127)T..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x6B8++0x3
line.long 0x00 "DMA4_CDACi_16,Channel Destination Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " DST_ELMNT_ADRS                          ,Current destination address counter value"
group.long 0x6AC++0x3
line.long 0x00 "DMA4_CDEIi_16,Channel Destination Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_DST_ELMNT_INDEX                 ,Channel destination element index"
group.long 0x6B0++0x3
line.long 0x00 "DMA4_CDFIi_16,Channel Destination Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_DST_FRM_IDX_OR_16BIT_PKT_ELNT_NBR    ,Channel destination frame index value if destination address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC]=0; the bit field [15:0] gives the number of element in packet. The field [31:16]..."
group.long 0x6D0++0x3
line.long 0x00 "DMA4_CDPi_16,This register controls the various parameters of the link list mechanism"
bitfld.long 0x00 10. " FAST                                    ,Sets the fast-start mode for linked list descriptor types 1, 2 and 3 - . - ." "No_fast-start_mode,1"
bitfld.long 0x00 8.--9. "     TRANSFER_MODE           ,Enable linked-list transfer mode - . - . - . - ." "0,1,Undefined,Undefined"
bitfld.long 0x00 7. "                  PAUSE_LINK_LIST       ,Suspend the linked-list transfer at completion of the current block transfer. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 4.--6. " NEXT_DESCRIPTOR_TYPE                    ,Next Descriptor Type - . - . - . - . - . - . - . - ." "Undefined,1,2,3,Undefined,Undefined,Undefined,Undefined"
bitfld.long 0x00 2.--3. "              SRC_VALID               ,Source address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
bitfld.long 0x00 0.--1. "  DEST_VALID            ,Destination address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
group.long 0x6A0++0x3
line.long 0x00 "DMA4_CDSAi_16,Channel Destination Start Address"
hexmask.long 0x00 0.--31. 1. " DST_START_ADRS                          ,32 bits of the destination start address"
group.long 0x694++0x3
line.long 0x00 "DMA4_CENi_16,Channel Element Number"
hexmask.long.tbyte 0x00 0.--23. 1. " CHANNEL_ELMNT_NBR                       ,Number of elements within a frame (unsigned) to transfer"
group.long 0x698++0x3
line.long 0x00 "DMA4_CFNi_16,Channel Frame Number"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_FRAME_NBR                       ,Number of frames within the block to be transferred (unsigned)"
group.long 0x688++0x3
line.long 0x00 "DMA4_CICRi_16,Channel Interrupt Control Register"
bitfld.long 0x00 14. " SUPER_BLOCK_IE                          ,Enables the end of super block interrupt" "0,1"
bitfld.long 0x00 12. "                      DRAIN_IE                ,Enables the end of draining interrupt" "0,1"
bitfld.long 0x00 11. "                          MISALIGNED_ERR_IE     ,Enables the address misaligned error event interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 10. " SUPERVISOR_ERR_IE                       ,Enables the supervisor transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 8. "                      TRANS_ERR_IE            ,Enables the transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 7. "                          PKT_IE                ,Enables the end of Packet interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 5. " BLOCK_IE                                ,Enables the end of block interrupt - . - ." "0,1"
bitfld.long 0x00 4. "                      LAST_IE                 ,Last frame interrupt enable (start of last frame) - . - ." "0,1"
bitfld.long 0x00 3. "                          FRAME_IE              ,Frame interrupt enable (end of frame) - . - ." "0,1"
textline "                             "
bitfld.long 0x00 2. " HALF_IE                                 ,Enables or disables the half frame interrupt. - . - ." "0,1"
bitfld.long 0x00 1. "                      DROP_IE                 ,Synchronization event drop interrupt enable (request collision) - . - ." "0,1"
group.long 0x684++0x3
line.long 0x00 "DMA4_CLNK_CTRLi_16,Channel Link Control Register"
bitfld.long 0x00 15. " ENABLE_LNK                              ,Enables or disable the channel linking. - . - ." "0,1"
bitfld.long 0x00 0.--4. "                      NEXTLCH_ID              ,Defines the NextLCh_ID, which is used to build logical channel chaining queue." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x6D4++0x3
line.long 0x00 "DMA4_CNDPi_16,This register contains the Next descriptor Address Pointer for the link list Mechanism"
hexmask.long 0x00 2.--31. 1. " NEXT_DESCRIPTOR_POINTER                 ,This register contains the Next descriptor Address Pointer for the link list Mechanism"
group.long 0x6C4++0x3
line.long 0x00 "DMA4_COLORi_16,Channel DMA COLOR KEY /SOLID COLOR"
hexmask.long.tbyte 0x00 0.--23. 1. " CH_BLT_FRGRND_COLOR_OR_SOLID_COLOR_PTRN ,Color key or solid color pattern: The pattern is replicated according to the data type. If the data-type is 8-bit the pattern is replicated 4 times to fill the register in order to enhance processing when data ..."
rgroup.long 0x6B4++0x3
line.long 0x00 "DMA4_CSACi_16,Channel Source Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " SRC_ELMNT_ADRS                          ,Current source address counter value"
group.long 0x690++0x3
line.long 0x00 "DMA4_CSDPi_16,Channel Source Destination Parameters"
bitfld.long 0x00 21. " SRC_ENDIAN                              ,Channel source endianness control - . - ." "0,1"
bitfld.long 0x00 20. "                      SRC_ENDIAN_LOCK         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 19. "           DST_ENDIAN            ,Channel Destination endianness control - . - ." "0,1"
textline "                             "
bitfld.long 0x00 18. " DST_ENDIAN_LOCK                         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 16.--17. "       WRITE_MODE              ,Used to enable writing mode without posting or with posting - . - . - . - ." "0,Write_(Posted),2,Undefined"
bitfld.long 0x00 14.--15. "             DST_BURST_EN          ,Used to enable bursting on the Write Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
textline "                             "
bitfld.long 0x00 13. " DST_PACKED                              ,Destination receives packed data. - . - ." "0,1"
bitfld.long 0x00 7.--8. "                      SRC_BURST_EN            ,Used to enable bursting on the Read Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
bitfld.long 0x00 6. "              SRC_PACKED            ,Source provides packed data. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0.--1. " DATA_TYPE                               ,Defines the type of the data moved in the channel. - . - . - . - ." "8_bits_scalar,16_bits_scalar,32_bits_scalar,Reserved"
group.long 0x6A4++0x3
line.long 0x00 "DMA4_CSEIi_16,Channel Source Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_SRC_ELMNT_INDEX                 ,Channel source element index"
group.long 0x6A8++0x3
line.long 0x00 "DMA4_CSFIi_16,Channel Source Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_SRC_FRM_INDEX_OR_16BIT_PKT_ELNT_NBR  ,Channel source frame index value if source address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC] = 1; the bit field [15:0] gives the number of element in packet. The field [31:16] is unus..."
group.long 0x68C++0x3
line.long 0x00 "DMA4_CSRi_16,Channel Status Register"
eventfld.long 0x00 14. " SUPER_BLOCK                             ,End of Super block event Read 0x0: The current Super block transfer has not been finished Write 0x0: Status bit unchanged Read 0x1: The current Super block has been transferred Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 12. "                      DRAIN_END               ,End of channel draining Read 0x0: No drain end in the current transfer Write 0x0: Status bit unchanged Read 0x1: The current channel draining is completed Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 11. "                          MISALIGNED_ADRS_ERR   ,Misaligned address error event - . - . - . - ." "No_address_error,1"
textline "                             "
eventfld.long 0x00 10. " SUPERVISOR_ERR                          ,Supervisor transaction error event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 8. "   TRANS_ERR               ,Transaction error event - . - . - . - ." "No_transaction_error,1"
eventfld.long 0x00 7. "       PKT                   ,End of Packet transfer - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 6. " SYNC                                    ,Synchronization status of a channel. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 5. "   BLOCK                   ,End of block event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 4. "       LAST                  ,Last frame (start of last frame) - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 3. " FRAME                                   ,End of frame event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 2. "   HALF                    ,Half of frame event. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 1. "       DROP                  ,Synchronization event drop occured during the transfer - . - . - . - ." "Status_bit_unchanged,1"
group.long 0x69C++0x3
line.long 0x00 "DMA4_CSSAi_16,Channel Source Start Address"
hexmask.long 0x00 0.--31. 1. " SRC_START_ADRS                          ,32 bits of the source start address"
tree.end
tree "DMA_Channel_17"
width 20.
group.long 0x738++0x3
line.long 0x00 "DMA4_CCDNi_17,"
hexmask.long.word 0x00 0.--15. 1. " CURRENT_DESCRIPTOR_NBR                  ,This register when read contains the current active descriptor number in the link list. This register is Read/write to allow user initialization."
group.long 0x71C++0x3
line.long 0x00 "DMA4_CCENi_17,Channel Current Transferred Element Number in the current frame. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.tbyte 0x00 0.--23. 1. " CURRENT_ELMNT_NBR                       ,Channel current transferred element number in the current frame"
group.long 0x720++0x3
line.long 0x00 "DMA4_CCFNi_17,Channel Current Transferred Frame Number in the current transfer. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.word 0x00 0.--15. 1. " CURRENT_FRAME_NBR                       ,Channel current transferred frame number in the current transfer"
group.long 0x6E0++0x3
line.long 0x00 "DMA4_CCRi_17,Channel Control Register"
bitfld.long 0x00 26. " WRITE_PRIORITY                          ,Channel priority on the Write side - . - ." "0,1"
bitfld.long 0x00 25. "                      BUFFERING_DISABLE       ,This bit allows to disable the default buffering functionality when transfer is source synchronized. - . - ." "0,1"
bitfld.long 0x00 24. "                          SEL_SRC_DST_SYNC      ,Specifies that element, packet, frame or block transfer (depending on CCR.bs and CCR.fs) is triggered by the source or the destination on the DMA request - . - ." "0,1"
textline "                             "
bitfld.long 0x00 23. " PREFETCH                                ,Enables the prefetch mode - . - ." "0,1"
bitfld.long 0x00 22. "                      SUPERVISOR              ,Enables the supervisor mode - . - ." "0,1"
bitfld.long 0x00 19.--20. "                          SYNCHRO_CONTROL_UPPER ,Channel Synchronization control upper (used in conjunction with the 5 bits of synchro channelDMA4_CCRi[4:0]) Used in conjunction, as 2 MSB, with the 5 bits of the synchro channel bit field." "0,1,2,3"
textline "                             "
bitfld.long 0x00 18. " BS                                      ,Block synchronization This bit used in conjunction with the fs to see how the DMA request is serviced in a synchronized transfer." "0,1"
bitfld.long 0x00 17. "                      TRANSPARENT_COPY_ENABLE ,Transparent copy enable - . - ." "0,1"
bitfld.long 0x00 16. "                          CONST_FILL_ENABLE     ,Constant fill enable - . - ." "0,1"
textline "                             "
bitfld.long 0x00 14.--15. " DST_AMODE                               ,Selects the addressing mode on the Write Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 12.--13. "  SRC_AMODE               ,Selects the addressing mode on the Read Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 10. "      WR_ACTIVE             ,Indicates if the channel write context is active or not - . - ." "0,1"
textline "                             "
bitfld.long 0x00 9. " RD_ACTIVE                               ,Indicates if the channel read context is active or not - . - ." "0,1"
bitfld.long 0x00 8. "                      SUSPEND_SENSITIVE       ,Logical channel suspend enable bit - . - ." "0,1"
bitfld.long 0x00 7. "                          ENABLE                ,Logical channel enable. It is SW responsibility to clear the CSR register and the IRQSTATUS bit for the different interrupt lines before enabling the channel. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 6. " READ_PRIORITY                           ,Channel priority on the read side - . - ." "0,1"
bitfld.long 0x00 5. "                      FS                      ,Frame synchronization This bit used in conjunction with the BS to see how the DMA request is serviced in a synchronized transfer FS = 0 and BS = 0: An element is transferred once a DMA request is made. FS ..." "0,1"
bitfld.long 0x00 0.--4. "                          SYNCHRO_CONTROL       ,Channel synchronization control This bit field used in conjunction with the second_level_ synchro_control_upper (as 2 MSB) 0000000 : Is reserved for non synchronized LCH transfer xxxxxxx (from 1 to 127)T..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x718++0x3
line.long 0x00 "DMA4_CDACi_17,Channel Destination Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " DST_ELMNT_ADRS                          ,Current destination address counter value"
group.long 0x70C++0x3
line.long 0x00 "DMA4_CDEIi_17,Channel Destination Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_DST_ELMNT_INDEX                 ,Channel destination element index"
group.long 0x710++0x3
line.long 0x00 "DMA4_CDFIi_17,Channel Destination Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_DST_FRM_IDX_OR_16BIT_PKT_ELNT_NBR    ,Channel destination frame index value if destination address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC]=0; the bit field [15:0] gives the number of element in packet. The field [31:16]..."
group.long 0x730++0x3
line.long 0x00 "DMA4_CDPi_17,This register controls the various parameters of the link list mechanism"
bitfld.long 0x00 10. " FAST                                    ,Sets the fast-start mode for linked list descriptor types 1, 2 and 3 - . - ." "No_fast-start_mode,1"
bitfld.long 0x00 8.--9. "     TRANSFER_MODE           ,Enable linked-list transfer mode - . - . - . - ." "0,1,Undefined,Undefined"
bitfld.long 0x00 7. "                  PAUSE_LINK_LIST       ,Suspend the linked-list transfer at completion of the current block transfer. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 4.--6. " NEXT_DESCRIPTOR_TYPE                    ,Next Descriptor Type - . - . - . - . - . - . - . - ." "Undefined,1,2,3,Undefined,Undefined,Undefined,Undefined"
bitfld.long 0x00 2.--3. "              SRC_VALID               ,Source address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
bitfld.long 0x00 0.--1. "  DEST_VALID            ,Destination address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
group.long 0x700++0x3
line.long 0x00 "DMA4_CDSAi_17,Channel Destination Start Address"
hexmask.long 0x00 0.--31. 1. " DST_START_ADRS                          ,32 bits of the destination start address"
group.long 0x6F4++0x3
line.long 0x00 "DMA4_CENi_17,Channel Element Number"
hexmask.long.tbyte 0x00 0.--23. 1. " CHANNEL_ELMNT_NBR                       ,Number of elements within a frame (unsigned) to transfer"
group.long 0x6F8++0x3
line.long 0x00 "DMA4_CFNi_17,Channel Frame Number"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_FRAME_NBR                       ,Number of frames within the block to be transferred (unsigned)"
group.long 0x6E8++0x3
line.long 0x00 "DMA4_CICRi_17,Channel Interrupt Control Register"
bitfld.long 0x00 14. " SUPER_BLOCK_IE                          ,Enables the end of super block interrupt" "0,1"
bitfld.long 0x00 12. "                      DRAIN_IE                ,Enables the end of draining interrupt" "0,1"
bitfld.long 0x00 11. "                          MISALIGNED_ERR_IE     ,Enables the address misaligned error event interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 10. " SUPERVISOR_ERR_IE                       ,Enables the supervisor transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 8. "                      TRANS_ERR_IE            ,Enables the transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 7. "                          PKT_IE                ,Enables the end of Packet interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 5. " BLOCK_IE                                ,Enables the end of block interrupt - . - ." "0,1"
bitfld.long 0x00 4. "                      LAST_IE                 ,Last frame interrupt enable (start of last frame) - . - ." "0,1"
bitfld.long 0x00 3. "                          FRAME_IE              ,Frame interrupt enable (end of frame) - . - ." "0,1"
textline "                             "
bitfld.long 0x00 2. " HALF_IE                                 ,Enables or disables the half frame interrupt. - . - ." "0,1"
bitfld.long 0x00 1. "                      DROP_IE                 ,Synchronization event drop interrupt enable (request collision) - . - ." "0,1"
group.long 0x6E4++0x3
line.long 0x00 "DMA4_CLNK_CTRLi_17,Channel Link Control Register"
bitfld.long 0x00 15. " ENABLE_LNK                              ,Enables or disable the channel linking. - . - ." "0,1"
bitfld.long 0x00 0.--4. "                      NEXTLCH_ID              ,Defines the NextLCh_ID, which is used to build logical channel chaining queue." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x734++0x3
line.long 0x00 "DMA4_CNDPi_17,This register contains the Next descriptor Address Pointer for the link list Mechanism"
hexmask.long 0x00 2.--31. 1. " NEXT_DESCRIPTOR_POINTER                 ,This register contains the Next descriptor Address Pointer for the link list Mechanism"
group.long 0x724++0x3
line.long 0x00 "DMA4_COLORi_17,Channel DMA COLOR KEY /SOLID COLOR"
hexmask.long.tbyte 0x00 0.--23. 1. " CH_BLT_FRGRND_COLOR_OR_SOLID_COLOR_PTRN ,Color key or solid color pattern: The pattern is replicated according to the data type. If the data-type is 8-bit the pattern is replicated 4 times to fill the register in order to enhance processing when data ..."
rgroup.long 0x714++0x3
line.long 0x00 "DMA4_CSACi_17,Channel Source Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " SRC_ELMNT_ADRS                          ,Current source address counter value"
group.long 0x6F0++0x3
line.long 0x00 "DMA4_CSDPi_17,Channel Source Destination Parameters"
bitfld.long 0x00 21. " SRC_ENDIAN                              ,Channel source endianness control - . - ." "0,1"
bitfld.long 0x00 20. "                      SRC_ENDIAN_LOCK         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 19. "           DST_ENDIAN            ,Channel Destination endianness control - . - ." "0,1"
textline "                             "
bitfld.long 0x00 18. " DST_ENDIAN_LOCK                         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 16.--17. "       WRITE_MODE              ,Used to enable writing mode without posting or with posting - . - . - . - ." "0,Write_(Posted),2,Undefined"
bitfld.long 0x00 14.--15. "             DST_BURST_EN          ,Used to enable bursting on the Write Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
textline "                             "
bitfld.long 0x00 13. " DST_PACKED                              ,Destination receives packed data. - . - ." "0,1"
bitfld.long 0x00 7.--8. "                      SRC_BURST_EN            ,Used to enable bursting on the Read Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
bitfld.long 0x00 6. "              SRC_PACKED            ,Source provides packed data. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0.--1. " DATA_TYPE                               ,Defines the type of the data moved in the channel. - . - . - . - ." "8_bits_scalar,16_bits_scalar,32_bits_scalar,Reserved"
group.long 0x704++0x3
line.long 0x00 "DMA4_CSEIi_17,Channel Source Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_SRC_ELMNT_INDEX                 ,Channel source element index"
group.long 0x708++0x3
line.long 0x00 "DMA4_CSFIi_17,Channel Source Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_SRC_FRM_INDEX_OR_16BIT_PKT_ELNT_NBR  ,Channel source frame index value if source address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC] = 1; the bit field [15:0] gives the number of element in packet. The field [31:16] is unus..."
group.long 0x6EC++0x3
line.long 0x00 "DMA4_CSRi_17,Channel Status Register"
eventfld.long 0x00 14. " SUPER_BLOCK                             ,End of Super block event Read 0x0: The current Super block transfer has not been finished Write 0x0: Status bit unchanged Read 0x1: The current Super block has been transferred Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 12. "                      DRAIN_END               ,End of channel draining Read 0x0: No drain end in the current transfer Write 0x0: Status bit unchanged Read 0x1: The current channel draining is completed Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 11. "                          MISALIGNED_ADRS_ERR   ,Misaligned address error event - . - . - . - ." "No_address_error,1"
textline "                             "
eventfld.long 0x00 10. " SUPERVISOR_ERR                          ,Supervisor transaction error event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 8. "   TRANS_ERR               ,Transaction error event - . - . - . - ." "No_transaction_error,1"
eventfld.long 0x00 7. "       PKT                   ,End of Packet transfer - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 6. " SYNC                                    ,Synchronization status of a channel. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 5. "   BLOCK                   ,End of block event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 4. "       LAST                  ,Last frame (start of last frame) - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 3. " FRAME                                   ,End of frame event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 2. "   HALF                    ,Half of frame event. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 1. "       DROP                  ,Synchronization event drop occured during the transfer - . - . - . - ." "Status_bit_unchanged,1"
group.long 0x6FC++0x3
line.long 0x00 "DMA4_CSSAi_17,Channel Source Start Address"
hexmask.long 0x00 0.--31. 1. " SRC_START_ADRS                          ,32 bits of the source start address"
tree.end
tree "DMA_Channel_18"
width 20.
group.long 0x798++0x3
line.long 0x00 "DMA4_CCDNi_18,"
hexmask.long.word 0x00 0.--15. 1. " CURRENT_DESCRIPTOR_NBR                  ,This register when read contains the current active descriptor number in the link list. This register is Read/write to allow user initialization."
group.long 0x77C++0x3
line.long 0x00 "DMA4_CCENi_18,Channel Current Transferred Element Number in the current frame. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.tbyte 0x00 0.--23. 1. " CURRENT_ELMNT_NBR                       ,Channel current transferred element number in the current frame"
group.long 0x780++0x3
line.long 0x00 "DMA4_CCFNi_18,Channel Current Transferred Frame Number in the current transfer. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.word 0x00 0.--15. 1. " CURRENT_FRAME_NBR                       ,Channel current transferred frame number in the current transfer"
group.long 0x740++0x3
line.long 0x00 "DMA4_CCRi_18,Channel Control Register"
bitfld.long 0x00 26. " WRITE_PRIORITY                          ,Channel priority on the Write side - . - ." "0,1"
bitfld.long 0x00 25. "                      BUFFERING_DISABLE       ,This bit allows to disable the default buffering functionality when transfer is source synchronized. - . - ." "0,1"
bitfld.long 0x00 24. "                          SEL_SRC_DST_SYNC      ,Specifies that element, packet, frame or block transfer (depending on CCR.bs and CCR.fs) is triggered by the source or the destination on the DMA request - . - ." "0,1"
textline "                             "
bitfld.long 0x00 23. " PREFETCH                                ,Enables the prefetch mode - . - ." "0,1"
bitfld.long 0x00 22. "                      SUPERVISOR              ,Enables the supervisor mode - . - ." "0,1"
bitfld.long 0x00 19.--20. "                          SYNCHRO_CONTROL_UPPER ,Channel Synchronization control upper (used in conjunction with the 5 bits of synchro channelDMA4_CCRi[4:0]) Used in conjunction, as 2 MSB, with the 5 bits of the synchro channel bit field." "0,1,2,3"
textline "                             "
bitfld.long 0x00 18. " BS                                      ,Block synchronization This bit used in conjunction with the fs to see how the DMA request is serviced in a synchronized transfer." "0,1"
bitfld.long 0x00 17. "                      TRANSPARENT_COPY_ENABLE ,Transparent copy enable - . - ." "0,1"
bitfld.long 0x00 16. "                          CONST_FILL_ENABLE     ,Constant fill enable - . - ." "0,1"
textline "                             "
bitfld.long 0x00 14.--15. " DST_AMODE                               ,Selects the addressing mode on the Write Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 12.--13. "  SRC_AMODE               ,Selects the addressing mode on the Read Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 10. "      WR_ACTIVE             ,Indicates if the channel write context is active or not - . - ." "0,1"
textline "                             "
bitfld.long 0x00 9. " RD_ACTIVE                               ,Indicates if the channel read context is active or not - . - ." "0,1"
bitfld.long 0x00 8. "                      SUSPEND_SENSITIVE       ,Logical channel suspend enable bit - . - ." "0,1"
bitfld.long 0x00 7. "                          ENABLE                ,Logical channel enable. It is SW responsibility to clear the CSR register and the IRQSTATUS bit for the different interrupt lines before enabling the channel. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 6. " READ_PRIORITY                           ,Channel priority on the read side - . - ." "0,1"
bitfld.long 0x00 5. "                      FS                      ,Frame synchronization This bit used in conjunction with the BS to see how the DMA request is serviced in a synchronized transfer FS = 0 and BS = 0: An element is transferred once a DMA request is made. FS ..." "0,1"
bitfld.long 0x00 0.--4. "                          SYNCHRO_CONTROL       ,Channel synchronization control This bit field used in conjunction with the second_level_ synchro_control_upper (as 2 MSB) 0000000 : Is reserved for non synchronized LCH transfer xxxxxxx (from 1 to 127)T..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x778++0x3
line.long 0x00 "DMA4_CDACi_18,Channel Destination Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " DST_ELMNT_ADRS                          ,Current destination address counter value"
group.long 0x76C++0x3
line.long 0x00 "DMA4_CDEIi_18,Channel Destination Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_DST_ELMNT_INDEX                 ,Channel destination element index"
group.long 0x770++0x3
line.long 0x00 "DMA4_CDFIi_18,Channel Destination Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_DST_FRM_IDX_OR_16BIT_PKT_ELNT_NBR    ,Channel destination frame index value if destination address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC]=0; the bit field [15:0] gives the number of element in packet. The field [31:16]..."
group.long 0x790++0x3
line.long 0x00 "DMA4_CDPi_18,This register controls the various parameters of the link list mechanism"
bitfld.long 0x00 10. " FAST                                    ,Sets the fast-start mode for linked list descriptor types 1, 2 and 3 - . - ." "No_fast-start_mode,1"
bitfld.long 0x00 8.--9. "     TRANSFER_MODE           ,Enable linked-list transfer mode - . - . - . - ." "0,1,Undefined,Undefined"
bitfld.long 0x00 7. "                  PAUSE_LINK_LIST       ,Suspend the linked-list transfer at completion of the current block transfer. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 4.--6. " NEXT_DESCRIPTOR_TYPE                    ,Next Descriptor Type - . - . - . - . - . - . - . - ." "Undefined,1,2,3,Undefined,Undefined,Undefined,Undefined"
bitfld.long 0x00 2.--3. "              SRC_VALID               ,Source address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
bitfld.long 0x00 0.--1. "  DEST_VALID            ,Destination address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
group.long 0x760++0x3
line.long 0x00 "DMA4_CDSAi_18,Channel Destination Start Address"
hexmask.long 0x00 0.--31. 1. " DST_START_ADRS                          ,32 bits of the destination start address"
group.long 0x754++0x3
line.long 0x00 "DMA4_CENi_18,Channel Element Number"
hexmask.long.tbyte 0x00 0.--23. 1. " CHANNEL_ELMNT_NBR                       ,Number of elements within a frame (unsigned) to transfer"
group.long 0x758++0x3
line.long 0x00 "DMA4_CFNi_18,Channel Frame Number"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_FRAME_NBR                       ,Number of frames within the block to be transferred (unsigned)"
group.long 0x748++0x3
line.long 0x00 "DMA4_CICRi_18,Channel Interrupt Control Register"
bitfld.long 0x00 14. " SUPER_BLOCK_IE                          ,Enables the end of super block interrupt" "0,1"
bitfld.long 0x00 12. "                      DRAIN_IE                ,Enables the end of draining interrupt" "0,1"
bitfld.long 0x00 11. "                          MISALIGNED_ERR_IE     ,Enables the address misaligned error event interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 10. " SUPERVISOR_ERR_IE                       ,Enables the supervisor transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 8. "                      TRANS_ERR_IE            ,Enables the transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 7. "                          PKT_IE                ,Enables the end of Packet interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 5. " BLOCK_IE                                ,Enables the end of block interrupt - . - ." "0,1"
bitfld.long 0x00 4. "                      LAST_IE                 ,Last frame interrupt enable (start of last frame) - . - ." "0,1"
bitfld.long 0x00 3. "                          FRAME_IE              ,Frame interrupt enable (end of frame) - . - ." "0,1"
textline "                             "
bitfld.long 0x00 2. " HALF_IE                                 ,Enables or disables the half frame interrupt. - . - ." "0,1"
bitfld.long 0x00 1. "                      DROP_IE                 ,Synchronization event drop interrupt enable (request collision) - . - ." "0,1"
group.long 0x744++0x3
line.long 0x00 "DMA4_CLNK_CTRLi_18,Channel Link Control Register"
bitfld.long 0x00 15. " ENABLE_LNK                              ,Enables or disable the channel linking. - . - ." "0,1"
bitfld.long 0x00 0.--4. "                      NEXTLCH_ID              ,Defines the NextLCh_ID, which is used to build logical channel chaining queue." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x794++0x3
line.long 0x00 "DMA4_CNDPi_18,This register contains the Next descriptor Address Pointer for the link list Mechanism"
hexmask.long 0x00 2.--31. 1. " NEXT_DESCRIPTOR_POINTER                 ,This register contains the Next descriptor Address Pointer for the link list Mechanism"
group.long 0x784++0x3
line.long 0x00 "DMA4_COLORi_18,Channel DMA COLOR KEY /SOLID COLOR"
hexmask.long.tbyte 0x00 0.--23. 1. " CH_BLT_FRGRND_COLOR_OR_SOLID_COLOR_PTRN ,Color key or solid color pattern: The pattern is replicated according to the data type. If the data-type is 8-bit the pattern is replicated 4 times to fill the register in order to enhance processing when data ..."
rgroup.long 0x774++0x3
line.long 0x00 "DMA4_CSACi_18,Channel Source Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " SRC_ELMNT_ADRS                          ,Current source address counter value"
group.long 0x750++0x3
line.long 0x00 "DMA4_CSDPi_18,Channel Source Destination Parameters"
bitfld.long 0x00 21. " SRC_ENDIAN                              ,Channel source endianness control - . - ." "0,1"
bitfld.long 0x00 20. "                      SRC_ENDIAN_LOCK         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 19. "           DST_ENDIAN            ,Channel Destination endianness control - . - ." "0,1"
textline "                             "
bitfld.long 0x00 18. " DST_ENDIAN_LOCK                         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 16.--17. "       WRITE_MODE              ,Used to enable writing mode without posting or with posting - . - . - . - ." "0,Write_(Posted),2,Undefined"
bitfld.long 0x00 14.--15. "             DST_BURST_EN          ,Used to enable bursting on the Write Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
textline "                             "
bitfld.long 0x00 13. " DST_PACKED                              ,Destination receives packed data. - . - ." "0,1"
bitfld.long 0x00 7.--8. "                      SRC_BURST_EN            ,Used to enable bursting on the Read Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
bitfld.long 0x00 6. "              SRC_PACKED            ,Source provides packed data. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0.--1. " DATA_TYPE                               ,Defines the type of the data moved in the channel. - . - . - . - ." "8_bits_scalar,16_bits_scalar,32_bits_scalar,Reserved"
group.long 0x764++0x3
line.long 0x00 "DMA4_CSEIi_18,Channel Source Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_SRC_ELMNT_INDEX                 ,Channel source element index"
group.long 0x768++0x3
line.long 0x00 "DMA4_CSFIi_18,Channel Source Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_SRC_FRM_INDEX_OR_16BIT_PKT_ELNT_NBR  ,Channel source frame index value if source address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC] = 1; the bit field [15:0] gives the number of element in packet. The field [31:16] is unus..."
group.long 0x74C++0x3
line.long 0x00 "DMA4_CSRi_18,Channel Status Register"
eventfld.long 0x00 14. " SUPER_BLOCK                             ,End of Super block event Read 0x0: The current Super block transfer has not been finished Write 0x0: Status bit unchanged Read 0x1: The current Super block has been transferred Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 12. "                      DRAIN_END               ,End of channel draining Read 0x0: No drain end in the current transfer Write 0x0: Status bit unchanged Read 0x1: The current channel draining is completed Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 11. "                          MISALIGNED_ADRS_ERR   ,Misaligned address error event - . - . - . - ." "No_address_error,1"
textline "                             "
eventfld.long 0x00 10. " SUPERVISOR_ERR                          ,Supervisor transaction error event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 8. "   TRANS_ERR               ,Transaction error event - . - . - . - ." "No_transaction_error,1"
eventfld.long 0x00 7. "       PKT                   ,End of Packet transfer - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 6. " SYNC                                    ,Synchronization status of a channel. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 5. "   BLOCK                   ,End of block event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 4. "       LAST                  ,Last frame (start of last frame) - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 3. " FRAME                                   ,End of frame event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 2. "   HALF                    ,Half of frame event. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 1. "       DROP                  ,Synchronization event drop occured during the transfer - . - . - . - ." "Status_bit_unchanged,1"
group.long 0x75C++0x3
line.long 0x00 "DMA4_CSSAi_18,Channel Source Start Address"
hexmask.long 0x00 0.--31. 1. " SRC_START_ADRS                          ,32 bits of the source start address"
tree.end
tree "DMA_Channel_19"
width 20.
group.long 0x7F8++0x3
line.long 0x00 "DMA4_CCDNi_19,"
hexmask.long.word 0x00 0.--15. 1. " CURRENT_DESCRIPTOR_NBR                  ,This register when read contains the current active descriptor number in the link list. This register is Read/write to allow user initialization."
group.long 0x7DC++0x3
line.long 0x00 "DMA4_CCENi_19,Channel Current Transferred Element Number in the current frame. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.tbyte 0x00 0.--23. 1. " CURRENT_ELMNT_NBR                       ,Channel current transferred element number in the current frame"
group.long 0x7E0++0x3
line.long 0x00 "DMA4_CCFNi_19,Channel Current Transferred Frame Number in the current transfer. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.word 0x00 0.--15. 1. " CURRENT_FRAME_NBR                       ,Channel current transferred frame number in the current transfer"
group.long 0x7A0++0x3
line.long 0x00 "DMA4_CCRi_19,Channel Control Register"
bitfld.long 0x00 26. " WRITE_PRIORITY                          ,Channel priority on the Write side - . - ." "0,1"
bitfld.long 0x00 25. "                      BUFFERING_DISABLE       ,This bit allows to disable the default buffering functionality when transfer is source synchronized. - . - ." "0,1"
bitfld.long 0x00 24. "                          SEL_SRC_DST_SYNC      ,Specifies that element, packet, frame or block transfer (depending on CCR.bs and CCR.fs) is triggered by the source or the destination on the DMA request - . - ." "0,1"
textline "                             "
bitfld.long 0x00 23. " PREFETCH                                ,Enables the prefetch mode - . - ." "0,1"
bitfld.long 0x00 22. "                      SUPERVISOR              ,Enables the supervisor mode - . - ." "0,1"
bitfld.long 0x00 19.--20. "                          SYNCHRO_CONTROL_UPPER ,Channel Synchronization control upper (used in conjunction with the 5 bits of synchro channelDMA4_CCRi[4:0]) Used in conjunction, as 2 MSB, with the 5 bits of the synchro channel bit field." "0,1,2,3"
textline "                             "
bitfld.long 0x00 18. " BS                                      ,Block synchronization This bit used in conjunction with the fs to see how the DMA request is serviced in a synchronized transfer." "0,1"
bitfld.long 0x00 17. "                      TRANSPARENT_COPY_ENABLE ,Transparent copy enable - . - ." "0,1"
bitfld.long 0x00 16. "                          CONST_FILL_ENABLE     ,Constant fill enable - . - ." "0,1"
textline "                             "
bitfld.long 0x00 14.--15. " DST_AMODE                               ,Selects the addressing mode on the Write Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 12.--13. "  SRC_AMODE               ,Selects the addressing mode on the Read Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 10. "      WR_ACTIVE             ,Indicates if the channel write context is active or not - . - ." "0,1"
textline "                             "
bitfld.long 0x00 9. " RD_ACTIVE                               ,Indicates if the channel read context is active or not - . - ." "0,1"
bitfld.long 0x00 8. "                      SUSPEND_SENSITIVE       ,Logical channel suspend enable bit - . - ." "0,1"
bitfld.long 0x00 7. "                          ENABLE                ,Logical channel enable. It is SW responsibility to clear the CSR register and the IRQSTATUS bit for the different interrupt lines before enabling the channel. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 6. " READ_PRIORITY                           ,Channel priority on the read side - . - ." "0,1"
bitfld.long 0x00 5. "                      FS                      ,Frame synchronization This bit used in conjunction with the BS to see how the DMA request is serviced in a synchronized transfer FS = 0 and BS = 0: An element is transferred once a DMA request is made. FS ..." "0,1"
bitfld.long 0x00 0.--4. "                          SYNCHRO_CONTROL       ,Channel synchronization control This bit field used in conjunction with the second_level_ synchro_control_upper (as 2 MSB) 0000000 : Is reserved for non synchronized LCH transfer xxxxxxx (from 1 to 127)T..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x7D8++0x3
line.long 0x00 "DMA4_CDACi_19,Channel Destination Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " DST_ELMNT_ADRS                          ,Current destination address counter value"
group.long 0x7CC++0x3
line.long 0x00 "DMA4_CDEIi_19,Channel Destination Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_DST_ELMNT_INDEX                 ,Channel destination element index"
group.long 0x7D0++0x3
line.long 0x00 "DMA4_CDFIi_19,Channel Destination Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_DST_FRM_IDX_OR_16BIT_PKT_ELNT_NBR    ,Channel destination frame index value if destination address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC]=0; the bit field [15:0] gives the number of element in packet. The field [31:16]..."
group.long 0x7F0++0x3
line.long 0x00 "DMA4_CDPi_19,This register controls the various parameters of the link list mechanism"
bitfld.long 0x00 10. " FAST                                    ,Sets the fast-start mode for linked list descriptor types 1, 2 and 3 - . - ." "No_fast-start_mode,1"
bitfld.long 0x00 8.--9. "     TRANSFER_MODE           ,Enable linked-list transfer mode - . - . - . - ." "0,1,Undefined,Undefined"
bitfld.long 0x00 7. "                  PAUSE_LINK_LIST       ,Suspend the linked-list transfer at completion of the current block transfer. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 4.--6. " NEXT_DESCRIPTOR_TYPE                    ,Next Descriptor Type - . - . - . - . - . - . - . - ." "Undefined,1,2,3,Undefined,Undefined,Undefined,Undefined"
bitfld.long 0x00 2.--3. "              SRC_VALID               ,Source address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
bitfld.long 0x00 0.--1. "  DEST_VALID            ,Destination address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
group.long 0x7C0++0x3
line.long 0x00 "DMA4_CDSAi_19,Channel Destination Start Address"
hexmask.long 0x00 0.--31. 1. " DST_START_ADRS                          ,32 bits of the destination start address"
group.long 0x7B4++0x3
line.long 0x00 "DMA4_CENi_19,Channel Element Number"
hexmask.long.tbyte 0x00 0.--23. 1. " CHANNEL_ELMNT_NBR                       ,Number of elements within a frame (unsigned) to transfer"
group.long 0x7B8++0x3
line.long 0x00 "DMA4_CFNi_19,Channel Frame Number"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_FRAME_NBR                       ,Number of frames within the block to be transferred (unsigned)"
group.long 0x7A8++0x3
line.long 0x00 "DMA4_CICRi_19,Channel Interrupt Control Register"
bitfld.long 0x00 14. " SUPER_BLOCK_IE                          ,Enables the end of super block interrupt" "0,1"
bitfld.long 0x00 12. "                      DRAIN_IE                ,Enables the end of draining interrupt" "0,1"
bitfld.long 0x00 11. "                          MISALIGNED_ERR_IE     ,Enables the address misaligned error event interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 10. " SUPERVISOR_ERR_IE                       ,Enables the supervisor transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 8. "                      TRANS_ERR_IE            ,Enables the transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 7. "                          PKT_IE                ,Enables the end of Packet interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 5. " BLOCK_IE                                ,Enables the end of block interrupt - . - ." "0,1"
bitfld.long 0x00 4. "                      LAST_IE                 ,Last frame interrupt enable (start of last frame) - . - ." "0,1"
bitfld.long 0x00 3. "                          FRAME_IE              ,Frame interrupt enable (end of frame) - . - ." "0,1"
textline "                             "
bitfld.long 0x00 2. " HALF_IE                                 ,Enables or disables the half frame interrupt. - . - ." "0,1"
bitfld.long 0x00 1. "                      DROP_IE                 ,Synchronization event drop interrupt enable (request collision) - . - ." "0,1"
group.long 0x7A4++0x3
line.long 0x00 "DMA4_CLNK_CTRLi_19,Channel Link Control Register"
bitfld.long 0x00 15. " ENABLE_LNK                              ,Enables or disable the channel linking. - . - ." "0,1"
bitfld.long 0x00 0.--4. "                      NEXTLCH_ID              ,Defines the NextLCh_ID, which is used to build logical channel chaining queue." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x7F4++0x3
line.long 0x00 "DMA4_CNDPi_19,This register contains the Next descriptor Address Pointer for the link list Mechanism"
hexmask.long 0x00 2.--31. 1. " NEXT_DESCRIPTOR_POINTER                 ,This register contains the Next descriptor Address Pointer for the link list Mechanism"
group.long 0x7E4++0x3
line.long 0x00 "DMA4_COLORi_19,Channel DMA COLOR KEY /SOLID COLOR"
hexmask.long.tbyte 0x00 0.--23. 1. " CH_BLT_FRGRND_COLOR_OR_SOLID_COLOR_PTRN ,Color key or solid color pattern: The pattern is replicated according to the data type. If the data-type is 8-bit the pattern is replicated 4 times to fill the register in order to enhance processing when data ..."
rgroup.long 0x7D4++0x3
line.long 0x00 "DMA4_CSACi_19,Channel Source Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " SRC_ELMNT_ADRS                          ,Current source address counter value"
group.long 0x7B0++0x3
line.long 0x00 "DMA4_CSDPi_19,Channel Source Destination Parameters"
bitfld.long 0x00 21. " SRC_ENDIAN                              ,Channel source endianness control - . - ." "0,1"
bitfld.long 0x00 20. "                      SRC_ENDIAN_LOCK         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 19. "           DST_ENDIAN            ,Channel Destination endianness control - . - ." "0,1"
textline "                             "
bitfld.long 0x00 18. " DST_ENDIAN_LOCK                         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 16.--17. "       WRITE_MODE              ,Used to enable writing mode without posting or with posting - . - . - . - ." "0,Write_(Posted),2,Undefined"
bitfld.long 0x00 14.--15. "             DST_BURST_EN          ,Used to enable bursting on the Write Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
textline "                             "
bitfld.long 0x00 13. " DST_PACKED                              ,Destination receives packed data. - . - ." "0,1"
bitfld.long 0x00 7.--8. "                      SRC_BURST_EN            ,Used to enable bursting on the Read Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
bitfld.long 0x00 6. "              SRC_PACKED            ,Source provides packed data. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0.--1. " DATA_TYPE                               ,Defines the type of the data moved in the channel. - . - . - . - ." "8_bits_scalar,16_bits_scalar,32_bits_scalar,Reserved"
group.long 0x7C4++0x3
line.long 0x00 "DMA4_CSEIi_19,Channel Source Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_SRC_ELMNT_INDEX                 ,Channel source element index"
group.long 0x7C8++0x3
line.long 0x00 "DMA4_CSFIi_19,Channel Source Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_SRC_FRM_INDEX_OR_16BIT_PKT_ELNT_NBR  ,Channel source frame index value if source address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC] = 1; the bit field [15:0] gives the number of element in packet. The field [31:16] is unus..."
group.long 0x7AC++0x3
line.long 0x00 "DMA4_CSRi_19,Channel Status Register"
eventfld.long 0x00 14. " SUPER_BLOCK                             ,End of Super block event Read 0x0: The current Super block transfer has not been finished Write 0x0: Status bit unchanged Read 0x1: The current Super block has been transferred Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 12. "                      DRAIN_END               ,End of channel draining Read 0x0: No drain end in the current transfer Write 0x0: Status bit unchanged Read 0x1: The current channel draining is completed Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 11. "                          MISALIGNED_ADRS_ERR   ,Misaligned address error event - . - . - . - ." "No_address_error,1"
textline "                             "
eventfld.long 0x00 10. " SUPERVISOR_ERR                          ,Supervisor transaction error event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 8. "   TRANS_ERR               ,Transaction error event - . - . - . - ." "No_transaction_error,1"
eventfld.long 0x00 7. "       PKT                   ,End of Packet transfer - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 6. " SYNC                                    ,Synchronization status of a channel. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 5. "   BLOCK                   ,End of block event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 4. "       LAST                  ,Last frame (start of last frame) - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 3. " FRAME                                   ,End of frame event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 2. "   HALF                    ,Half of frame event. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 1. "       DROP                  ,Synchronization event drop occured during the transfer - . - . - . - ." "Status_bit_unchanged,1"
group.long 0x7BC++0x3
line.long 0x00 "DMA4_CSSAi_19,Channel Source Start Address"
hexmask.long 0x00 0.--31. 1. " SRC_START_ADRS                          ,32 bits of the source start address"
tree.end
tree "DMA_Channel_20"
width 20.
group.long 0x858++0x3
line.long 0x00 "DMA4_CCDNi_20,"
hexmask.long.word 0x00 0.--15. 1. " CURRENT_DESCRIPTOR_NBR                  ,This register when read contains the current active descriptor number in the link list. This register is Read/write to allow user initialization."
group.long 0x83C++0x3
line.long 0x00 "DMA4_CCENi_20,Channel Current Transferred Element Number in the current frame. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.tbyte 0x00 0.--23. 1. " CURRENT_ELMNT_NBR                       ,Channel current transferred element number in the current frame"
group.long 0x840++0x3
line.long 0x00 "DMA4_CCFNi_20,Channel Current Transferred Frame Number in the current transfer. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.word 0x00 0.--15. 1. " CURRENT_FRAME_NBR                       ,Channel current transferred frame number in the current transfer"
group.long 0x800++0x3
line.long 0x00 "DMA4_CCRi_20,Channel Control Register"
bitfld.long 0x00 26. " WRITE_PRIORITY                          ,Channel priority on the Write side - . - ." "0,1"
bitfld.long 0x00 25. "                      BUFFERING_DISABLE       ,This bit allows to disable the default buffering functionality when transfer is source synchronized. - . - ." "0,1"
bitfld.long 0x00 24. "                          SEL_SRC_DST_SYNC      ,Specifies that element, packet, frame or block transfer (depending on CCR.bs and CCR.fs) is triggered by the source or the destination on the DMA request - . - ." "0,1"
textline "                             "
bitfld.long 0x00 23. " PREFETCH                                ,Enables the prefetch mode - . - ." "0,1"
bitfld.long 0x00 22. "                      SUPERVISOR              ,Enables the supervisor mode - . - ." "0,1"
bitfld.long 0x00 19.--20. "                          SYNCHRO_CONTROL_UPPER ,Channel Synchronization control upper (used in conjunction with the 5 bits of synchro channelDMA4_CCRi[4:0]) Used in conjunction, as 2 MSB, with the 5 bits of the synchro channel bit field." "0,1,2,3"
textline "                             "
bitfld.long 0x00 18. " BS                                      ,Block synchronization This bit used in conjunction with the fs to see how the DMA request is serviced in a synchronized transfer." "0,1"
bitfld.long 0x00 17. "                      TRANSPARENT_COPY_ENABLE ,Transparent copy enable - . - ." "0,1"
bitfld.long 0x00 16. "                          CONST_FILL_ENABLE     ,Constant fill enable - . - ." "0,1"
textline "                             "
bitfld.long 0x00 14.--15. " DST_AMODE                               ,Selects the addressing mode on the Write Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 12.--13. "  SRC_AMODE               ,Selects the addressing mode on the Read Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 10. "      WR_ACTIVE             ,Indicates if the channel write context is active or not - . - ." "0,1"
textline "                             "
bitfld.long 0x00 9. " RD_ACTIVE                               ,Indicates if the channel read context is active or not - . - ." "0,1"
bitfld.long 0x00 8. "                      SUSPEND_SENSITIVE       ,Logical channel suspend enable bit - . - ." "0,1"
bitfld.long 0x00 7. "                          ENABLE                ,Logical channel enable. It is SW responsibility to clear the CSR register and the IRQSTATUS bit for the different interrupt lines before enabling the channel. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 6. " READ_PRIORITY                           ,Channel priority on the read side - . - ." "0,1"
bitfld.long 0x00 5. "                      FS                      ,Frame synchronization This bit used in conjunction with the BS to see how the DMA request is serviced in a synchronized transfer FS = 0 and BS = 0: An element is transferred once a DMA request is made. FS ..." "0,1"
bitfld.long 0x00 0.--4. "                          SYNCHRO_CONTROL       ,Channel synchronization control This bit field used in conjunction with the second_level_ synchro_control_upper (as 2 MSB) 0000000 : Is reserved for non synchronized LCH transfer xxxxxxx (from 1 to 127)T..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x838++0x3
line.long 0x00 "DMA4_CDACi_20,Channel Destination Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " DST_ELMNT_ADRS                          ,Current destination address counter value"
group.long 0x82C++0x3
line.long 0x00 "DMA4_CDEIi_20,Channel Destination Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_DST_ELMNT_INDEX                 ,Channel destination element index"
group.long 0x830++0x3
line.long 0x00 "DMA4_CDFIi_20,Channel Destination Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_DST_FRM_IDX_OR_16BIT_PKT_ELNT_NBR    ,Channel destination frame index value if destination address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC]=0; the bit field [15:0] gives the number of element in packet. The field [31:16]..."
group.long 0x850++0x3
line.long 0x00 "DMA4_CDPi_20,This register controls the various parameters of the link list mechanism"
bitfld.long 0x00 10. " FAST                                    ,Sets the fast-start mode for linked list descriptor types 1, 2 and 3 - . - ." "No_fast-start_mode,1"
bitfld.long 0x00 8.--9. "     TRANSFER_MODE           ,Enable linked-list transfer mode - . - . - . - ." "0,1,Undefined,Undefined"
bitfld.long 0x00 7. "                  PAUSE_LINK_LIST       ,Suspend the linked-list transfer at completion of the current block transfer. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 4.--6. " NEXT_DESCRIPTOR_TYPE                    ,Next Descriptor Type - . - . - . - . - . - . - . - ." "Undefined,1,2,3,Undefined,Undefined,Undefined,Undefined"
bitfld.long 0x00 2.--3. "              SRC_VALID               ,Source address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
bitfld.long 0x00 0.--1. "  DEST_VALID            ,Destination address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
group.long 0x820++0x3
line.long 0x00 "DMA4_CDSAi_20,Channel Destination Start Address"
hexmask.long 0x00 0.--31. 1. " DST_START_ADRS                          ,32 bits of the destination start address"
group.long 0x814++0x3
line.long 0x00 "DMA4_CENi_20,Channel Element Number"
hexmask.long.tbyte 0x00 0.--23. 1. " CHANNEL_ELMNT_NBR                       ,Number of elements within a frame (unsigned) to transfer"
group.long 0x818++0x3
line.long 0x00 "DMA4_CFNi_20,Channel Frame Number"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_FRAME_NBR                       ,Number of frames within the block to be transferred (unsigned)"
group.long 0x808++0x3
line.long 0x00 "DMA4_CICRi_20,Channel Interrupt Control Register"
bitfld.long 0x00 14. " SUPER_BLOCK_IE                          ,Enables the end of super block interrupt" "0,1"
bitfld.long 0x00 12. "                      DRAIN_IE                ,Enables the end of draining interrupt" "0,1"
bitfld.long 0x00 11. "                          MISALIGNED_ERR_IE     ,Enables the address misaligned error event interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 10. " SUPERVISOR_ERR_IE                       ,Enables the supervisor transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 8. "                      TRANS_ERR_IE            ,Enables the transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 7. "                          PKT_IE                ,Enables the end of Packet interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 5. " BLOCK_IE                                ,Enables the end of block interrupt - . - ." "0,1"
bitfld.long 0x00 4. "                      LAST_IE                 ,Last frame interrupt enable (start of last frame) - . - ." "0,1"
bitfld.long 0x00 3. "                          FRAME_IE              ,Frame interrupt enable (end of frame) - . - ." "0,1"
textline "                             "
bitfld.long 0x00 2. " HALF_IE                                 ,Enables or disables the half frame interrupt. - . - ." "0,1"
bitfld.long 0x00 1. "                      DROP_IE                 ,Synchronization event drop interrupt enable (request collision) - . - ." "0,1"
group.long 0x804++0x3
line.long 0x00 "DMA4_CLNK_CTRLi_20,Channel Link Control Register"
bitfld.long 0x00 15. " ENABLE_LNK                              ,Enables or disable the channel linking. - . - ." "0,1"
bitfld.long 0x00 0.--4. "                      NEXTLCH_ID              ,Defines the NextLCh_ID, which is used to build logical channel chaining queue." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x854++0x3
line.long 0x00 "DMA4_CNDPi_20,This register contains the Next descriptor Address Pointer for the link list Mechanism"
hexmask.long 0x00 2.--31. 1. " NEXT_DESCRIPTOR_POINTER                 ,This register contains the Next descriptor Address Pointer for the link list Mechanism"
group.long 0x844++0x3
line.long 0x00 "DMA4_COLORi_20,Channel DMA COLOR KEY /SOLID COLOR"
hexmask.long.tbyte 0x00 0.--23. 1. " CH_BLT_FRGRND_COLOR_OR_SOLID_COLOR_PTRN ,Color key or solid color pattern: The pattern is replicated according to the data type. If the data-type is 8-bit the pattern is replicated 4 times to fill the register in order to enhance processing when data ..."
rgroup.long 0x834++0x3
line.long 0x00 "DMA4_CSACi_20,Channel Source Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " SRC_ELMNT_ADRS                          ,Current source address counter value"
group.long 0x810++0x3
line.long 0x00 "DMA4_CSDPi_20,Channel Source Destination Parameters"
bitfld.long 0x00 21. " SRC_ENDIAN                              ,Channel source endianness control - . - ." "0,1"
bitfld.long 0x00 20. "                      SRC_ENDIAN_LOCK         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 19. "           DST_ENDIAN            ,Channel Destination endianness control - . - ." "0,1"
textline "                             "
bitfld.long 0x00 18. " DST_ENDIAN_LOCK                         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 16.--17. "       WRITE_MODE              ,Used to enable writing mode without posting or with posting - . - . - . - ." "0,Write_(Posted),2,Undefined"
bitfld.long 0x00 14.--15. "             DST_BURST_EN          ,Used to enable bursting on the Write Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
textline "                             "
bitfld.long 0x00 13. " DST_PACKED                              ,Destination receives packed data. - . - ." "0,1"
bitfld.long 0x00 7.--8. "                      SRC_BURST_EN            ,Used to enable bursting on the Read Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
bitfld.long 0x00 6. "              SRC_PACKED            ,Source provides packed data. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0.--1. " DATA_TYPE                               ,Defines the type of the data moved in the channel. - . - . - . - ." "8_bits_scalar,16_bits_scalar,32_bits_scalar,Reserved"
group.long 0x824++0x3
line.long 0x00 "DMA4_CSEIi_20,Channel Source Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_SRC_ELMNT_INDEX                 ,Channel source element index"
group.long 0x828++0x3
line.long 0x00 "DMA4_CSFIi_20,Channel Source Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_SRC_FRM_INDEX_OR_16BIT_PKT_ELNT_NBR  ,Channel source frame index value if source address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC] = 1; the bit field [15:0] gives the number of element in packet. The field [31:16] is unus..."
group.long 0x80C++0x3
line.long 0x00 "DMA4_CSRi_20,Channel Status Register"
eventfld.long 0x00 14. " SUPER_BLOCK                             ,End of Super block event Read 0x0: The current Super block transfer has not been finished Write 0x0: Status bit unchanged Read 0x1: The current Super block has been transferred Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 12. "                      DRAIN_END               ,End of channel draining Read 0x0: No drain end in the current transfer Write 0x0: Status bit unchanged Read 0x1: The current channel draining is completed Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 11. "                          MISALIGNED_ADRS_ERR   ,Misaligned address error event - . - . - . - ." "No_address_error,1"
textline "                             "
eventfld.long 0x00 10. " SUPERVISOR_ERR                          ,Supervisor transaction error event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 8. "   TRANS_ERR               ,Transaction error event - . - . - . - ." "No_transaction_error,1"
eventfld.long 0x00 7. "       PKT                   ,End of Packet transfer - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 6. " SYNC                                    ,Synchronization status of a channel. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 5. "   BLOCK                   ,End of block event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 4. "       LAST                  ,Last frame (start of last frame) - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 3. " FRAME                                   ,End of frame event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 2. "   HALF                    ,Half of frame event. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 1. "       DROP                  ,Synchronization event drop occured during the transfer - . - . - . - ." "Status_bit_unchanged,1"
group.long 0x81C++0x3
line.long 0x00 "DMA4_CSSAi_20,Channel Source Start Address"
hexmask.long 0x00 0.--31. 1. " SRC_START_ADRS                          ,32 bits of the source start address"
tree.end
tree "DMA_Channel_21"
width 20.
group.long 0x8B8++0x3
line.long 0x00 "DMA4_CCDNi_21,"
hexmask.long.word 0x00 0.--15. 1. " CURRENT_DESCRIPTOR_NBR                  ,This register when read contains the current active descriptor number in the link list. This register is Read/write to allow user initialization."
group.long 0x89C++0x3
line.long 0x00 "DMA4_CCENi_21,Channel Current Transferred Element Number in the current frame. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.tbyte 0x00 0.--23. 1. " CURRENT_ELMNT_NBR                       ,Channel current transferred element number in the current frame"
group.long 0x8A0++0x3
line.long 0x00 "DMA4_CCFNi_21,Channel Current Transferred Frame Number in the current transfer. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.word 0x00 0.--15. 1. " CURRENT_FRAME_NBR                       ,Channel current transferred frame number in the current transfer"
group.long 0x860++0x3
line.long 0x00 "DMA4_CCRi_21,Channel Control Register"
bitfld.long 0x00 26. " WRITE_PRIORITY                          ,Channel priority on the Write side - . - ." "0,1"
bitfld.long 0x00 25. "                      BUFFERING_DISABLE       ,This bit allows to disable the default buffering functionality when transfer is source synchronized. - . - ." "0,1"
bitfld.long 0x00 24. "                          SEL_SRC_DST_SYNC      ,Specifies that element, packet, frame or block transfer (depending on CCR.bs and CCR.fs) is triggered by the source or the destination on the DMA request - . - ." "0,1"
textline "                             "
bitfld.long 0x00 23. " PREFETCH                                ,Enables the prefetch mode - . - ." "0,1"
bitfld.long 0x00 22. "                      SUPERVISOR              ,Enables the supervisor mode - . - ." "0,1"
bitfld.long 0x00 19.--20. "                          SYNCHRO_CONTROL_UPPER ,Channel Synchronization control upper (used in conjunction with the 5 bits of synchro channelDMA4_CCRi[4:0]) Used in conjunction, as 2 MSB, with the 5 bits of the synchro channel bit field." "0,1,2,3"
textline "                             "
bitfld.long 0x00 18. " BS                                      ,Block synchronization This bit used in conjunction with the fs to see how the DMA request is serviced in a synchronized transfer." "0,1"
bitfld.long 0x00 17. "                      TRANSPARENT_COPY_ENABLE ,Transparent copy enable - . - ." "0,1"
bitfld.long 0x00 16. "                          CONST_FILL_ENABLE     ,Constant fill enable - . - ." "0,1"
textline "                             "
bitfld.long 0x00 14.--15. " DST_AMODE                               ,Selects the addressing mode on the Write Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 12.--13. "  SRC_AMODE               ,Selects the addressing mode on the Read Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 10. "      WR_ACTIVE             ,Indicates if the channel write context is active or not - . - ." "0,1"
textline "                             "
bitfld.long 0x00 9. " RD_ACTIVE                               ,Indicates if the channel read context is active or not - . - ." "0,1"
bitfld.long 0x00 8. "                      SUSPEND_SENSITIVE       ,Logical channel suspend enable bit - . - ." "0,1"
bitfld.long 0x00 7. "                          ENABLE                ,Logical channel enable. It is SW responsibility to clear the CSR register and the IRQSTATUS bit for the different interrupt lines before enabling the channel. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 6. " READ_PRIORITY                           ,Channel priority on the read side - . - ." "0,1"
bitfld.long 0x00 5. "                      FS                      ,Frame synchronization This bit used in conjunction with the BS to see how the DMA request is serviced in a synchronized transfer FS = 0 and BS = 0: An element is transferred once a DMA request is made. FS ..." "0,1"
bitfld.long 0x00 0.--4. "                          SYNCHRO_CONTROL       ,Channel synchronization control This bit field used in conjunction with the second_level_ synchro_control_upper (as 2 MSB) 0000000 : Is reserved for non synchronized LCH transfer xxxxxxx (from 1 to 127)T..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x898++0x3
line.long 0x00 "DMA4_CDACi_21,Channel Destination Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " DST_ELMNT_ADRS                          ,Current destination address counter value"
group.long 0x88C++0x3
line.long 0x00 "DMA4_CDEIi_21,Channel Destination Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_DST_ELMNT_INDEX                 ,Channel destination element index"
group.long 0x890++0x3
line.long 0x00 "DMA4_CDFIi_21,Channel Destination Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_DST_FRM_IDX_OR_16BIT_PKT_ELNT_NBR    ,Channel destination frame index value if destination address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC]=0; the bit field [15:0] gives the number of element in packet. The field [31:16]..."
group.long 0x8B0++0x3
line.long 0x00 "DMA4_CDPi_21,This register controls the various parameters of the link list mechanism"
bitfld.long 0x00 10. " FAST                                    ,Sets the fast-start mode for linked list descriptor types 1, 2 and 3 - . - ." "No_fast-start_mode,1"
bitfld.long 0x00 8.--9. "     TRANSFER_MODE           ,Enable linked-list transfer mode - . - . - . - ." "0,1,Undefined,Undefined"
bitfld.long 0x00 7. "                  PAUSE_LINK_LIST       ,Suspend the linked-list transfer at completion of the current block transfer. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 4.--6. " NEXT_DESCRIPTOR_TYPE                    ,Next Descriptor Type - . - . - . - . - . - . - . - ." "Undefined,1,2,3,Undefined,Undefined,Undefined,Undefined"
bitfld.long 0x00 2.--3. "              SRC_VALID               ,Source address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
bitfld.long 0x00 0.--1. "  DEST_VALID            ,Destination address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
group.long 0x880++0x3
line.long 0x00 "DMA4_CDSAi_21,Channel Destination Start Address"
hexmask.long 0x00 0.--31. 1. " DST_START_ADRS                          ,32 bits of the destination start address"
group.long 0x874++0x3
line.long 0x00 "DMA4_CENi_21,Channel Element Number"
hexmask.long.tbyte 0x00 0.--23. 1. " CHANNEL_ELMNT_NBR                       ,Number of elements within a frame (unsigned) to transfer"
group.long 0x878++0x3
line.long 0x00 "DMA4_CFNi_21,Channel Frame Number"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_FRAME_NBR                       ,Number of frames within the block to be transferred (unsigned)"
group.long 0x868++0x3
line.long 0x00 "DMA4_CICRi_21,Channel Interrupt Control Register"
bitfld.long 0x00 14. " SUPER_BLOCK_IE                          ,Enables the end of super block interrupt" "0,1"
bitfld.long 0x00 12. "                      DRAIN_IE                ,Enables the end of draining interrupt" "0,1"
bitfld.long 0x00 11. "                          MISALIGNED_ERR_IE     ,Enables the address misaligned error event interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 10. " SUPERVISOR_ERR_IE                       ,Enables the supervisor transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 8. "                      TRANS_ERR_IE            ,Enables the transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 7. "                          PKT_IE                ,Enables the end of Packet interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 5. " BLOCK_IE                                ,Enables the end of block interrupt - . - ." "0,1"
bitfld.long 0x00 4. "                      LAST_IE                 ,Last frame interrupt enable (start of last frame) - . - ." "0,1"
bitfld.long 0x00 3. "                          FRAME_IE              ,Frame interrupt enable (end of frame) - . - ." "0,1"
textline "                             "
bitfld.long 0x00 2. " HALF_IE                                 ,Enables or disables the half frame interrupt. - . - ." "0,1"
bitfld.long 0x00 1. "                      DROP_IE                 ,Synchronization event drop interrupt enable (request collision) - . - ." "0,1"
group.long 0x864++0x3
line.long 0x00 "DMA4_CLNK_CTRLi_21,Channel Link Control Register"
bitfld.long 0x00 15. " ENABLE_LNK                              ,Enables or disable the channel linking. - . - ." "0,1"
bitfld.long 0x00 0.--4. "                      NEXTLCH_ID              ,Defines the NextLCh_ID, which is used to build logical channel chaining queue." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x8B4++0x3
line.long 0x00 "DMA4_CNDPi_21,This register contains the Next descriptor Address Pointer for the link list Mechanism"
hexmask.long 0x00 2.--31. 1. " NEXT_DESCRIPTOR_POINTER                 ,This register contains the Next descriptor Address Pointer for the link list Mechanism"
group.long 0x8A4++0x3
line.long 0x00 "DMA4_COLORi_21,Channel DMA COLOR KEY /SOLID COLOR"
hexmask.long.tbyte 0x00 0.--23. 1. " CH_BLT_FRGRND_COLOR_OR_SOLID_COLOR_PTRN ,Color key or solid color pattern: The pattern is replicated according to the data type. If the data-type is 8-bit the pattern is replicated 4 times to fill the register in order to enhance processing when data ..."
rgroup.long 0x894++0x3
line.long 0x00 "DMA4_CSACi_21,Channel Source Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " SRC_ELMNT_ADRS                          ,Current source address counter value"
group.long 0x870++0x3
line.long 0x00 "DMA4_CSDPi_21,Channel Source Destination Parameters"
bitfld.long 0x00 21. " SRC_ENDIAN                              ,Channel source endianness control - . - ." "0,1"
bitfld.long 0x00 20. "                      SRC_ENDIAN_LOCK         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 19. "           DST_ENDIAN            ,Channel Destination endianness control - . - ." "0,1"
textline "                             "
bitfld.long 0x00 18. " DST_ENDIAN_LOCK                         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 16.--17. "       WRITE_MODE              ,Used to enable writing mode without posting or with posting - . - . - . - ." "0,Write_(Posted),2,Undefined"
bitfld.long 0x00 14.--15. "             DST_BURST_EN          ,Used to enable bursting on the Write Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
textline "                             "
bitfld.long 0x00 13. " DST_PACKED                              ,Destination receives packed data. - . - ." "0,1"
bitfld.long 0x00 7.--8. "                      SRC_BURST_EN            ,Used to enable bursting on the Read Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
bitfld.long 0x00 6. "              SRC_PACKED            ,Source provides packed data. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0.--1. " DATA_TYPE                               ,Defines the type of the data moved in the channel. - . - . - . - ." "8_bits_scalar,16_bits_scalar,32_bits_scalar,Reserved"
group.long 0x884++0x3
line.long 0x00 "DMA4_CSEIi_21,Channel Source Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_SRC_ELMNT_INDEX                 ,Channel source element index"
group.long 0x888++0x3
line.long 0x00 "DMA4_CSFIi_21,Channel Source Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_SRC_FRM_INDEX_OR_16BIT_PKT_ELNT_NBR  ,Channel source frame index value if source address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC] = 1; the bit field [15:0] gives the number of element in packet. The field [31:16] is unus..."
group.long 0x86C++0x3
line.long 0x00 "DMA4_CSRi_21,Channel Status Register"
eventfld.long 0x00 14. " SUPER_BLOCK                             ,End of Super block event Read 0x0: The current Super block transfer has not been finished Write 0x0: Status bit unchanged Read 0x1: The current Super block has been transferred Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 12. "                      DRAIN_END               ,End of channel draining Read 0x0: No drain end in the current transfer Write 0x0: Status bit unchanged Read 0x1: The current channel draining is completed Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 11. "                          MISALIGNED_ADRS_ERR   ,Misaligned address error event - . - . - . - ." "No_address_error,1"
textline "                             "
eventfld.long 0x00 10. " SUPERVISOR_ERR                          ,Supervisor transaction error event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 8. "   TRANS_ERR               ,Transaction error event - . - . - . - ." "No_transaction_error,1"
eventfld.long 0x00 7. "       PKT                   ,End of Packet transfer - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 6. " SYNC                                    ,Synchronization status of a channel. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 5. "   BLOCK                   ,End of block event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 4. "       LAST                  ,Last frame (start of last frame) - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 3. " FRAME                                   ,End of frame event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 2. "   HALF                    ,Half of frame event. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 1. "       DROP                  ,Synchronization event drop occured during the transfer - . - . - . - ." "Status_bit_unchanged,1"
group.long 0x87C++0x3
line.long 0x00 "DMA4_CSSAi_21,Channel Source Start Address"
hexmask.long 0x00 0.--31. 1. " SRC_START_ADRS                          ,32 bits of the source start address"
tree.end
tree "DMA_Channel_22"
width 20.
group.long 0x918++0x3
line.long 0x00 "DMA4_CCDNi_22,"
hexmask.long.word 0x00 0.--15. 1. " CURRENT_DESCRIPTOR_NBR                  ,This register when read contains the current active descriptor number in the link list. This register is Read/write to allow user initialization."
group.long 0x8FC++0x3
line.long 0x00 "DMA4_CCENi_22,Channel Current Transferred Element Number in the current frame. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.tbyte 0x00 0.--23. 1. " CURRENT_ELMNT_NBR                       ,Channel current transferred element number in the current frame"
group.long 0x900++0x3
line.long 0x00 "DMA4_CCFNi_22,Channel Current Transferred Frame Number in the current transfer. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.word 0x00 0.--15. 1. " CURRENT_FRAME_NBR                       ,Channel current transferred frame number in the current transfer"
group.long 0x8C0++0x3
line.long 0x00 "DMA4_CCRi_22,Channel Control Register"
bitfld.long 0x00 26. " WRITE_PRIORITY                          ,Channel priority on the Write side - . - ." "0,1"
bitfld.long 0x00 25. "                      BUFFERING_DISABLE       ,This bit allows to disable the default buffering functionality when transfer is source synchronized. - . - ." "0,1"
bitfld.long 0x00 24. "                          SEL_SRC_DST_SYNC      ,Specifies that element, packet, frame or block transfer (depending on CCR.bs and CCR.fs) is triggered by the source or the destination on the DMA request - . - ." "0,1"
textline "                             "
bitfld.long 0x00 23. " PREFETCH                                ,Enables the prefetch mode - . - ." "0,1"
bitfld.long 0x00 22. "                      SUPERVISOR              ,Enables the supervisor mode - . - ." "0,1"
bitfld.long 0x00 19.--20. "                          SYNCHRO_CONTROL_UPPER ,Channel Synchronization control upper (used in conjunction with the 5 bits of synchro channelDMA4_CCRi[4:0]) Used in conjunction, as 2 MSB, with the 5 bits of the synchro channel bit field." "0,1,2,3"
textline "                             "
bitfld.long 0x00 18. " BS                                      ,Block synchronization This bit used in conjunction with the fs to see how the DMA request is serviced in a synchronized transfer." "0,1"
bitfld.long 0x00 17. "                      TRANSPARENT_COPY_ENABLE ,Transparent copy enable - . - ." "0,1"
bitfld.long 0x00 16. "                          CONST_FILL_ENABLE     ,Constant fill enable - . - ." "0,1"
textline "                             "
bitfld.long 0x00 14.--15. " DST_AMODE                               ,Selects the addressing mode on the Write Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 12.--13. "  SRC_AMODE               ,Selects the addressing mode on the Read Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 10. "      WR_ACTIVE             ,Indicates if the channel write context is active or not - . - ." "0,1"
textline "                             "
bitfld.long 0x00 9. " RD_ACTIVE                               ,Indicates if the channel read context is active or not - . - ." "0,1"
bitfld.long 0x00 8. "                      SUSPEND_SENSITIVE       ,Logical channel suspend enable bit - . - ." "0,1"
bitfld.long 0x00 7. "                          ENABLE                ,Logical channel enable. It is SW responsibility to clear the CSR register and the IRQSTATUS bit for the different interrupt lines before enabling the channel. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 6. " READ_PRIORITY                           ,Channel priority on the read side - . - ." "0,1"
bitfld.long 0x00 5. "                      FS                      ,Frame synchronization This bit used in conjunction with the BS to see how the DMA request is serviced in a synchronized transfer FS = 0 and BS = 0: An element is transferred once a DMA request is made. FS ..." "0,1"
bitfld.long 0x00 0.--4. "                          SYNCHRO_CONTROL       ,Channel synchronization control This bit field used in conjunction with the second_level_ synchro_control_upper (as 2 MSB) 0000000 : Is reserved for non synchronized LCH transfer xxxxxxx (from 1 to 127)T..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x8F8++0x3
line.long 0x00 "DMA4_CDACi_22,Channel Destination Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " DST_ELMNT_ADRS                          ,Current destination address counter value"
group.long 0x8EC++0x3
line.long 0x00 "DMA4_CDEIi_22,Channel Destination Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_DST_ELMNT_INDEX                 ,Channel destination element index"
group.long 0x8F0++0x3
line.long 0x00 "DMA4_CDFIi_22,Channel Destination Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_DST_FRM_IDX_OR_16BIT_PKT_ELNT_NBR    ,Channel destination frame index value if destination address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC]=0; the bit field [15:0] gives the number of element in packet. The field [31:16]..."
group.long 0x910++0x3
line.long 0x00 "DMA4_CDPi_22,This register controls the various parameters of the link list mechanism"
bitfld.long 0x00 10. " FAST                                    ,Sets the fast-start mode for linked list descriptor types 1, 2 and 3 - . - ." "No_fast-start_mode,1"
bitfld.long 0x00 8.--9. "     TRANSFER_MODE           ,Enable linked-list transfer mode - . - . - . - ." "0,1,Undefined,Undefined"
bitfld.long 0x00 7. "                  PAUSE_LINK_LIST       ,Suspend the linked-list transfer at completion of the current block transfer. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 4.--6. " NEXT_DESCRIPTOR_TYPE                    ,Next Descriptor Type - . - . - . - . - . - . - . - ." "Undefined,1,2,3,Undefined,Undefined,Undefined,Undefined"
bitfld.long 0x00 2.--3. "              SRC_VALID               ,Source address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
bitfld.long 0x00 0.--1. "  DEST_VALID            ,Destination address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
group.long 0x8E0++0x3
line.long 0x00 "DMA4_CDSAi_22,Channel Destination Start Address"
hexmask.long 0x00 0.--31. 1. " DST_START_ADRS                          ,32 bits of the destination start address"
group.long 0x8D4++0x3
line.long 0x00 "DMA4_CENi_22,Channel Element Number"
hexmask.long.tbyte 0x00 0.--23. 1. " CHANNEL_ELMNT_NBR                       ,Number of elements within a frame (unsigned) to transfer"
group.long 0x8D8++0x3
line.long 0x00 "DMA4_CFNi_22,Channel Frame Number"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_FRAME_NBR                       ,Number of frames within the block to be transferred (unsigned)"
group.long 0x8C8++0x3
line.long 0x00 "DMA4_CICRi_22,Channel Interrupt Control Register"
bitfld.long 0x00 14. " SUPER_BLOCK_IE                          ,Enables the end of super block interrupt" "0,1"
bitfld.long 0x00 12. "                      DRAIN_IE                ,Enables the end of draining interrupt" "0,1"
bitfld.long 0x00 11. "                          MISALIGNED_ERR_IE     ,Enables the address misaligned error event interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 10. " SUPERVISOR_ERR_IE                       ,Enables the supervisor transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 8. "                      TRANS_ERR_IE            ,Enables the transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 7. "                          PKT_IE                ,Enables the end of Packet interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 5. " BLOCK_IE                                ,Enables the end of block interrupt - . - ." "0,1"
bitfld.long 0x00 4. "                      LAST_IE                 ,Last frame interrupt enable (start of last frame) - . - ." "0,1"
bitfld.long 0x00 3. "                          FRAME_IE              ,Frame interrupt enable (end of frame) - . - ." "0,1"
textline "                             "
bitfld.long 0x00 2. " HALF_IE                                 ,Enables or disables the half frame interrupt. - . - ." "0,1"
bitfld.long 0x00 1. "                      DROP_IE                 ,Synchronization event drop interrupt enable (request collision) - . - ." "0,1"
group.long 0x8C4++0x3
line.long 0x00 "DMA4_CLNK_CTRLi_22,Channel Link Control Register"
bitfld.long 0x00 15. " ENABLE_LNK                              ,Enables or disable the channel linking. - . - ." "0,1"
bitfld.long 0x00 0.--4. "                      NEXTLCH_ID              ,Defines the NextLCh_ID, which is used to build logical channel chaining queue." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x914++0x3
line.long 0x00 "DMA4_CNDPi_22,This register contains the Next descriptor Address Pointer for the link list Mechanism"
hexmask.long 0x00 2.--31. 1. " NEXT_DESCRIPTOR_POINTER                 ,This register contains the Next descriptor Address Pointer for the link list Mechanism"
group.long 0x904++0x3
line.long 0x00 "DMA4_COLORi_22,Channel DMA COLOR KEY /SOLID COLOR"
hexmask.long.tbyte 0x00 0.--23. 1. " CH_BLT_FRGRND_COLOR_OR_SOLID_COLOR_PTRN ,Color key or solid color pattern: The pattern is replicated according to the data type. If the data-type is 8-bit the pattern is replicated 4 times to fill the register in order to enhance processing when data ..."
rgroup.long 0x8F4++0x3
line.long 0x00 "DMA4_CSACi_22,Channel Source Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " SRC_ELMNT_ADRS                          ,Current source address counter value"
group.long 0x8D0++0x3
line.long 0x00 "DMA4_CSDPi_22,Channel Source Destination Parameters"
bitfld.long 0x00 21. " SRC_ENDIAN                              ,Channel source endianness control - . - ." "0,1"
bitfld.long 0x00 20. "                      SRC_ENDIAN_LOCK         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 19. "           DST_ENDIAN            ,Channel Destination endianness control - . - ." "0,1"
textline "                             "
bitfld.long 0x00 18. " DST_ENDIAN_LOCK                         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 16.--17. "       WRITE_MODE              ,Used to enable writing mode without posting or with posting - . - . - . - ." "0,Write_(Posted),2,Undefined"
bitfld.long 0x00 14.--15. "             DST_BURST_EN          ,Used to enable bursting on the Write Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
textline "                             "
bitfld.long 0x00 13. " DST_PACKED                              ,Destination receives packed data. - . - ." "0,1"
bitfld.long 0x00 7.--8. "                      SRC_BURST_EN            ,Used to enable bursting on the Read Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
bitfld.long 0x00 6. "              SRC_PACKED            ,Source provides packed data. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0.--1. " DATA_TYPE                               ,Defines the type of the data moved in the channel. - . - . - . - ." "8_bits_scalar,16_bits_scalar,32_bits_scalar,Reserved"
group.long 0x8E4++0x3
line.long 0x00 "DMA4_CSEIi_22,Channel Source Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_SRC_ELMNT_INDEX                 ,Channel source element index"
group.long 0x8E8++0x3
line.long 0x00 "DMA4_CSFIi_22,Channel Source Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_SRC_FRM_INDEX_OR_16BIT_PKT_ELNT_NBR  ,Channel source frame index value if source address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC] = 1; the bit field [15:0] gives the number of element in packet. The field [31:16] is unus..."
group.long 0x8CC++0x3
line.long 0x00 "DMA4_CSRi_22,Channel Status Register"
eventfld.long 0x00 14. " SUPER_BLOCK                             ,End of Super block event Read 0x0: The current Super block transfer has not been finished Write 0x0: Status bit unchanged Read 0x1: The current Super block has been transferred Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 12. "                      DRAIN_END               ,End of channel draining Read 0x0: No drain end in the current transfer Write 0x0: Status bit unchanged Read 0x1: The current channel draining is completed Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 11. "                          MISALIGNED_ADRS_ERR   ,Misaligned address error event - . - . - . - ." "No_address_error,1"
textline "                             "
eventfld.long 0x00 10. " SUPERVISOR_ERR                          ,Supervisor transaction error event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 8. "   TRANS_ERR               ,Transaction error event - . - . - . - ." "No_transaction_error,1"
eventfld.long 0x00 7. "       PKT                   ,End of Packet transfer - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 6. " SYNC                                    ,Synchronization status of a channel. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 5. "   BLOCK                   ,End of block event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 4. "       LAST                  ,Last frame (start of last frame) - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 3. " FRAME                                   ,End of frame event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 2. "   HALF                    ,Half of frame event. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 1. "       DROP                  ,Synchronization event drop occured during the transfer - . - . - . - ." "Status_bit_unchanged,1"
group.long 0x8DC++0x3
line.long 0x00 "DMA4_CSSAi_22,Channel Source Start Address"
hexmask.long 0x00 0.--31. 1. " SRC_START_ADRS                          ,32 bits of the source start address"
tree.end
tree "DMA_Channel_23"
width 20.
group.long 0x978++0x3
line.long 0x00 "DMA4_CCDNi_23,"
hexmask.long.word 0x00 0.--15. 1. " CURRENT_DESCRIPTOR_NBR                  ,This register when read contains the current active descriptor number in the link list. This register is Read/write to allow user initialization."
group.long 0x95C++0x3
line.long 0x00 "DMA4_CCENi_23,Channel Current Transferred Element Number in the current frame. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.tbyte 0x00 0.--23. 1. " CURRENT_ELMNT_NBR                       ,Channel current transferred element number in the current frame"
group.long 0x960++0x3
line.long 0x00 "DMA4_CCFNi_23,Channel Current Transferred Frame Number in the current transfer. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.word 0x00 0.--15. 1. " CURRENT_FRAME_NBR                       ,Channel current transferred frame number in the current transfer"
group.long 0x920++0x3
line.long 0x00 "DMA4_CCRi_23,Channel Control Register"
bitfld.long 0x00 26. " WRITE_PRIORITY                          ,Channel priority on the Write side - . - ." "0,1"
bitfld.long 0x00 25. "                      BUFFERING_DISABLE       ,This bit allows to disable the default buffering functionality when transfer is source synchronized. - . - ." "0,1"
bitfld.long 0x00 24. "                          SEL_SRC_DST_SYNC      ,Specifies that element, packet, frame or block transfer (depending on CCR.bs and CCR.fs) is triggered by the source or the destination on the DMA request - . - ." "0,1"
textline "                             "
bitfld.long 0x00 23. " PREFETCH                                ,Enables the prefetch mode - . - ." "0,1"
bitfld.long 0x00 22. "                      SUPERVISOR              ,Enables the supervisor mode - . - ." "0,1"
bitfld.long 0x00 19.--20. "                          SYNCHRO_CONTROL_UPPER ,Channel Synchronization control upper (used in conjunction with the 5 bits of synchro channelDMA4_CCRi[4:0]) Used in conjunction, as 2 MSB, with the 5 bits of the synchro channel bit field." "0,1,2,3"
textline "                             "
bitfld.long 0x00 18. " BS                                      ,Block synchronization This bit used in conjunction with the fs to see how the DMA request is serviced in a synchronized transfer." "0,1"
bitfld.long 0x00 17. "                      TRANSPARENT_COPY_ENABLE ,Transparent copy enable - . - ." "0,1"
bitfld.long 0x00 16. "                          CONST_FILL_ENABLE     ,Constant fill enable - . - ." "0,1"
textline "                             "
bitfld.long 0x00 14.--15. " DST_AMODE                               ,Selects the addressing mode on the Write Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 12.--13. "  SRC_AMODE               ,Selects the addressing mode on the Read Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 10. "      WR_ACTIVE             ,Indicates if the channel write context is active or not - . - ." "0,1"
textline "                             "
bitfld.long 0x00 9. " RD_ACTIVE                               ,Indicates if the channel read context is active or not - . - ." "0,1"
bitfld.long 0x00 8. "                      SUSPEND_SENSITIVE       ,Logical channel suspend enable bit - . - ." "0,1"
bitfld.long 0x00 7. "                          ENABLE                ,Logical channel enable. It is SW responsibility to clear the CSR register and the IRQSTATUS bit for the different interrupt lines before enabling the channel. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 6. " READ_PRIORITY                           ,Channel priority on the read side - . - ." "0,1"
bitfld.long 0x00 5. "                      FS                      ,Frame synchronization This bit used in conjunction with the BS to see how the DMA request is serviced in a synchronized transfer FS = 0 and BS = 0: An element is transferred once a DMA request is made. FS ..." "0,1"
bitfld.long 0x00 0.--4. "                          SYNCHRO_CONTROL       ,Channel synchronization control This bit field used in conjunction with the second_level_ synchro_control_upper (as 2 MSB) 0000000 : Is reserved for non synchronized LCH transfer xxxxxxx (from 1 to 127)T..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x958++0x3
line.long 0x00 "DMA4_CDACi_23,Channel Destination Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " DST_ELMNT_ADRS                          ,Current destination address counter value"
group.long 0x94C++0x3
line.long 0x00 "DMA4_CDEIi_23,Channel Destination Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_DST_ELMNT_INDEX                 ,Channel destination element index"
group.long 0x950++0x3
line.long 0x00 "DMA4_CDFIi_23,Channel Destination Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_DST_FRM_IDX_OR_16BIT_PKT_ELNT_NBR    ,Channel destination frame index value if destination address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC]=0; the bit field [15:0] gives the number of element in packet. The field [31:16]..."
group.long 0x970++0x3
line.long 0x00 "DMA4_CDPi_23,This register controls the various parameters of the link list mechanism"
bitfld.long 0x00 10. " FAST                                    ,Sets the fast-start mode for linked list descriptor types 1, 2 and 3 - . - ." "No_fast-start_mode,1"
bitfld.long 0x00 8.--9. "     TRANSFER_MODE           ,Enable linked-list transfer mode - . - . - . - ." "0,1,Undefined,Undefined"
bitfld.long 0x00 7. "                  PAUSE_LINK_LIST       ,Suspend the linked-list transfer at completion of the current block transfer. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 4.--6. " NEXT_DESCRIPTOR_TYPE                    ,Next Descriptor Type - . - . - . - . - . - . - . - ." "Undefined,1,2,3,Undefined,Undefined,Undefined,Undefined"
bitfld.long 0x00 2.--3. "              SRC_VALID               ,Source address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
bitfld.long 0x00 0.--1. "  DEST_VALID            ,Destination address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
group.long 0x940++0x3
line.long 0x00 "DMA4_CDSAi_23,Channel Destination Start Address"
hexmask.long 0x00 0.--31. 1. " DST_START_ADRS                          ,32 bits of the destination start address"
group.long 0x934++0x3
line.long 0x00 "DMA4_CENi_23,Channel Element Number"
hexmask.long.tbyte 0x00 0.--23. 1. " CHANNEL_ELMNT_NBR                       ,Number of elements within a frame (unsigned) to transfer"
group.long 0x938++0x3
line.long 0x00 "DMA4_CFNi_23,Channel Frame Number"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_FRAME_NBR                       ,Number of frames within the block to be transferred (unsigned)"
group.long 0x928++0x3
line.long 0x00 "DMA4_CICRi_23,Channel Interrupt Control Register"
bitfld.long 0x00 14. " SUPER_BLOCK_IE                          ,Enables the end of super block interrupt" "0,1"
bitfld.long 0x00 12. "                      DRAIN_IE                ,Enables the end of draining interrupt" "0,1"
bitfld.long 0x00 11. "                          MISALIGNED_ERR_IE     ,Enables the address misaligned error event interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 10. " SUPERVISOR_ERR_IE                       ,Enables the supervisor transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 8. "                      TRANS_ERR_IE            ,Enables the transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 7. "                          PKT_IE                ,Enables the end of Packet interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 5. " BLOCK_IE                                ,Enables the end of block interrupt - . - ." "0,1"
bitfld.long 0x00 4. "                      LAST_IE                 ,Last frame interrupt enable (start of last frame) - . - ." "0,1"
bitfld.long 0x00 3. "                          FRAME_IE              ,Frame interrupt enable (end of frame) - . - ." "0,1"
textline "                             "
bitfld.long 0x00 2. " HALF_IE                                 ,Enables or disables the half frame interrupt. - . - ." "0,1"
bitfld.long 0x00 1. "                      DROP_IE                 ,Synchronization event drop interrupt enable (request collision) - . - ." "0,1"
group.long 0x924++0x3
line.long 0x00 "DMA4_CLNK_CTRLi_23,Channel Link Control Register"
bitfld.long 0x00 15. " ENABLE_LNK                              ,Enables or disable the channel linking. - . - ." "0,1"
bitfld.long 0x00 0.--4. "                      NEXTLCH_ID              ,Defines the NextLCh_ID, which is used to build logical channel chaining queue." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x974++0x3
line.long 0x00 "DMA4_CNDPi_23,This register contains the Next descriptor Address Pointer for the link list Mechanism"
hexmask.long 0x00 2.--31. 1. " NEXT_DESCRIPTOR_POINTER                 ,This register contains the Next descriptor Address Pointer for the link list Mechanism"
group.long 0x964++0x3
line.long 0x00 "DMA4_COLORi_23,Channel DMA COLOR KEY /SOLID COLOR"
hexmask.long.tbyte 0x00 0.--23. 1. " CH_BLT_FRGRND_COLOR_OR_SOLID_COLOR_PTRN ,Color key or solid color pattern: The pattern is replicated according to the data type. If the data-type is 8-bit the pattern is replicated 4 times to fill the register in order to enhance processing when data ..."
rgroup.long 0x954++0x3
line.long 0x00 "DMA4_CSACi_23,Channel Source Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " SRC_ELMNT_ADRS                          ,Current source address counter value"
group.long 0x930++0x3
line.long 0x00 "DMA4_CSDPi_23,Channel Source Destination Parameters"
bitfld.long 0x00 21. " SRC_ENDIAN                              ,Channel source endianness control - . - ." "0,1"
bitfld.long 0x00 20. "                      SRC_ENDIAN_LOCK         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 19. "           DST_ENDIAN            ,Channel Destination endianness control - . - ." "0,1"
textline "                             "
bitfld.long 0x00 18. " DST_ENDIAN_LOCK                         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 16.--17. "       WRITE_MODE              ,Used to enable writing mode without posting or with posting - . - . - . - ." "0,Write_(Posted),2,Undefined"
bitfld.long 0x00 14.--15. "             DST_BURST_EN          ,Used to enable bursting on the Write Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
textline "                             "
bitfld.long 0x00 13. " DST_PACKED                              ,Destination receives packed data. - . - ." "0,1"
bitfld.long 0x00 7.--8. "                      SRC_BURST_EN            ,Used to enable bursting on the Read Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
bitfld.long 0x00 6. "              SRC_PACKED            ,Source provides packed data. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0.--1. " DATA_TYPE                               ,Defines the type of the data moved in the channel. - . - . - . - ." "8_bits_scalar,16_bits_scalar,32_bits_scalar,Reserved"
group.long 0x944++0x3
line.long 0x00 "DMA4_CSEIi_23,Channel Source Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_SRC_ELMNT_INDEX                 ,Channel source element index"
group.long 0x948++0x3
line.long 0x00 "DMA4_CSFIi_23,Channel Source Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_SRC_FRM_INDEX_OR_16BIT_PKT_ELNT_NBR  ,Channel source frame index value if source address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC] = 1; the bit field [15:0] gives the number of element in packet. The field [31:16] is unus..."
group.long 0x92C++0x3
line.long 0x00 "DMA4_CSRi_23,Channel Status Register"
eventfld.long 0x00 14. " SUPER_BLOCK                             ,End of Super block event Read 0x0: The current Super block transfer has not been finished Write 0x0: Status bit unchanged Read 0x1: The current Super block has been transferred Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 12. "                      DRAIN_END               ,End of channel draining Read 0x0: No drain end in the current transfer Write 0x0: Status bit unchanged Read 0x1: The current channel draining is completed Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 11. "                          MISALIGNED_ADRS_ERR   ,Misaligned address error event - . - . - . - ." "No_address_error,1"
textline "                             "
eventfld.long 0x00 10. " SUPERVISOR_ERR                          ,Supervisor transaction error event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 8. "   TRANS_ERR               ,Transaction error event - . - . - . - ." "No_transaction_error,1"
eventfld.long 0x00 7. "       PKT                   ,End of Packet transfer - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 6. " SYNC                                    ,Synchronization status of a channel. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 5. "   BLOCK                   ,End of block event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 4. "       LAST                  ,Last frame (start of last frame) - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 3. " FRAME                                   ,End of frame event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 2. "   HALF                    ,Half of frame event. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 1. "       DROP                  ,Synchronization event drop occured during the transfer - . - . - . - ." "Status_bit_unchanged,1"
group.long 0x93C++0x3
line.long 0x00 "DMA4_CSSAi_23,Channel Source Start Address"
hexmask.long 0x00 0.--31. 1. " SRC_START_ADRS                          ,32 bits of the source start address"
tree.end
tree "DMA_Channel_24"
width 20.
group.long 0x9D8++0x3
line.long 0x00 "DMA4_CCDNi_24,"
hexmask.long.word 0x00 0.--15. 1. " CURRENT_DESCRIPTOR_NBR                  ,This register when read contains the current active descriptor number in the link list. This register is Read/write to allow user initialization."
group.long 0x9BC++0x3
line.long 0x00 "DMA4_CCENi_24,Channel Current Transferred Element Number in the current frame. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.tbyte 0x00 0.--23. 1. " CURRENT_ELMNT_NBR                       ,Channel current transferred element number in the current frame"
group.long 0x9C0++0x3
line.long 0x00 "DMA4_CCFNi_24,Channel Current Transferred Frame Number in the current transfer. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.word 0x00 0.--15. 1. " CURRENT_FRAME_NBR                       ,Channel current transferred frame number in the current transfer"
group.long 0x980++0x3
line.long 0x00 "DMA4_CCRi_24,Channel Control Register"
bitfld.long 0x00 26. " WRITE_PRIORITY                          ,Channel priority on the Write side - . - ." "0,1"
bitfld.long 0x00 25. "                      BUFFERING_DISABLE       ,This bit allows to disable the default buffering functionality when transfer is source synchronized. - . - ." "0,1"
bitfld.long 0x00 24. "                          SEL_SRC_DST_SYNC      ,Specifies that element, packet, frame or block transfer (depending on CCR.bs and CCR.fs) is triggered by the source or the destination on the DMA request - . - ." "0,1"
textline "                             "
bitfld.long 0x00 23. " PREFETCH                                ,Enables the prefetch mode - . - ." "0,1"
bitfld.long 0x00 22. "                      SUPERVISOR              ,Enables the supervisor mode - . - ." "0,1"
bitfld.long 0x00 19.--20. "                          SYNCHRO_CONTROL_UPPER ,Channel Synchronization control upper (used in conjunction with the 5 bits of synchro channelDMA4_CCRi[4:0]) Used in conjunction, as 2 MSB, with the 5 bits of the synchro channel bit field." "0,1,2,3"
textline "                             "
bitfld.long 0x00 18. " BS                                      ,Block synchronization This bit used in conjunction with the fs to see how the DMA request is serviced in a synchronized transfer." "0,1"
bitfld.long 0x00 17. "                      TRANSPARENT_COPY_ENABLE ,Transparent copy enable - . - ." "0,1"
bitfld.long 0x00 16. "                          CONST_FILL_ENABLE     ,Constant fill enable - . - ." "0,1"
textline "                             "
bitfld.long 0x00 14.--15. " DST_AMODE                               ,Selects the addressing mode on the Write Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 12.--13. "  SRC_AMODE               ,Selects the addressing mode on the Read Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 10. "      WR_ACTIVE             ,Indicates if the channel write context is active or not - . - ." "0,1"
textline "                             "
bitfld.long 0x00 9. " RD_ACTIVE                               ,Indicates if the channel read context is active or not - . - ." "0,1"
bitfld.long 0x00 8. "                      SUSPEND_SENSITIVE       ,Logical channel suspend enable bit - . - ." "0,1"
bitfld.long 0x00 7. "                          ENABLE                ,Logical channel enable. It is SW responsibility to clear the CSR register and the IRQSTATUS bit for the different interrupt lines before enabling the channel. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 6. " READ_PRIORITY                           ,Channel priority on the read side - . - ." "0,1"
bitfld.long 0x00 5. "                      FS                      ,Frame synchronization This bit used in conjunction with the BS to see how the DMA request is serviced in a synchronized transfer FS = 0 and BS = 0: An element is transferred once a DMA request is made. FS ..." "0,1"
bitfld.long 0x00 0.--4. "                          SYNCHRO_CONTROL       ,Channel synchronization control This bit field used in conjunction with the second_level_ synchro_control_upper (as 2 MSB) 0000000 : Is reserved for non synchronized LCH transfer xxxxxxx (from 1 to 127)T..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x9B8++0x3
line.long 0x00 "DMA4_CDACi_24,Channel Destination Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " DST_ELMNT_ADRS                          ,Current destination address counter value"
group.long 0x9AC++0x3
line.long 0x00 "DMA4_CDEIi_24,Channel Destination Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_DST_ELMNT_INDEX                 ,Channel destination element index"
group.long 0x9B0++0x3
line.long 0x00 "DMA4_CDFIi_24,Channel Destination Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_DST_FRM_IDX_OR_16BIT_PKT_ELNT_NBR    ,Channel destination frame index value if destination address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC]=0; the bit field [15:0] gives the number of element in packet. The field [31:16]..."
group.long 0x9D0++0x3
line.long 0x00 "DMA4_CDPi_24,This register controls the various parameters of the link list mechanism"
bitfld.long 0x00 10. " FAST                                    ,Sets the fast-start mode for linked list descriptor types 1, 2 and 3 - . - ." "No_fast-start_mode,1"
bitfld.long 0x00 8.--9. "     TRANSFER_MODE           ,Enable linked-list transfer mode - . - . - . - ." "0,1,Undefined,Undefined"
bitfld.long 0x00 7. "                  PAUSE_LINK_LIST       ,Suspend the linked-list transfer at completion of the current block transfer. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 4.--6. " NEXT_DESCRIPTOR_TYPE                    ,Next Descriptor Type - . - . - . - . - . - . - . - ." "Undefined,1,2,3,Undefined,Undefined,Undefined,Undefined"
bitfld.long 0x00 2.--3. "              SRC_VALID               ,Source address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
bitfld.long 0x00 0.--1. "  DEST_VALID            ,Destination address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
group.long 0x9A0++0x3
line.long 0x00 "DMA4_CDSAi_24,Channel Destination Start Address"
hexmask.long 0x00 0.--31. 1. " DST_START_ADRS                          ,32 bits of the destination start address"
group.long 0x994++0x3
line.long 0x00 "DMA4_CENi_24,Channel Element Number"
hexmask.long.tbyte 0x00 0.--23. 1. " CHANNEL_ELMNT_NBR                       ,Number of elements within a frame (unsigned) to transfer"
group.long 0x998++0x3
line.long 0x00 "DMA4_CFNi_24,Channel Frame Number"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_FRAME_NBR                       ,Number of frames within the block to be transferred (unsigned)"
group.long 0x988++0x3
line.long 0x00 "DMA4_CICRi_24,Channel Interrupt Control Register"
bitfld.long 0x00 14. " SUPER_BLOCK_IE                          ,Enables the end of super block interrupt" "0,1"
bitfld.long 0x00 12. "                      DRAIN_IE                ,Enables the end of draining interrupt" "0,1"
bitfld.long 0x00 11. "                          MISALIGNED_ERR_IE     ,Enables the address misaligned error event interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 10. " SUPERVISOR_ERR_IE                       ,Enables the supervisor transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 8. "                      TRANS_ERR_IE            ,Enables the transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 7. "                          PKT_IE                ,Enables the end of Packet interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 5. " BLOCK_IE                                ,Enables the end of block interrupt - . - ." "0,1"
bitfld.long 0x00 4. "                      LAST_IE                 ,Last frame interrupt enable (start of last frame) - . - ." "0,1"
bitfld.long 0x00 3. "                          FRAME_IE              ,Frame interrupt enable (end of frame) - . - ." "0,1"
textline "                             "
bitfld.long 0x00 2. " HALF_IE                                 ,Enables or disables the half frame interrupt. - . - ." "0,1"
bitfld.long 0x00 1. "                      DROP_IE                 ,Synchronization event drop interrupt enable (request collision) - . - ." "0,1"
group.long 0x984++0x3
line.long 0x00 "DMA4_CLNK_CTRLi_24,Channel Link Control Register"
bitfld.long 0x00 15. " ENABLE_LNK                              ,Enables or disable the channel linking. - . - ." "0,1"
bitfld.long 0x00 0.--4. "                      NEXTLCH_ID              ,Defines the NextLCh_ID, which is used to build logical channel chaining queue." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x9D4++0x3
line.long 0x00 "DMA4_CNDPi_24,This register contains the Next descriptor Address Pointer for the link list Mechanism"
hexmask.long 0x00 2.--31. 1. " NEXT_DESCRIPTOR_POINTER                 ,This register contains the Next descriptor Address Pointer for the link list Mechanism"
group.long 0x9C4++0x3
line.long 0x00 "DMA4_COLORi_24,Channel DMA COLOR KEY /SOLID COLOR"
hexmask.long.tbyte 0x00 0.--23. 1. " CH_BLT_FRGRND_COLOR_OR_SOLID_COLOR_PTRN ,Color key or solid color pattern: The pattern is replicated according to the data type. If the data-type is 8-bit the pattern is replicated 4 times to fill the register in order to enhance processing when data ..."
rgroup.long 0x9B4++0x3
line.long 0x00 "DMA4_CSACi_24,Channel Source Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " SRC_ELMNT_ADRS                          ,Current source address counter value"
group.long 0x990++0x3
line.long 0x00 "DMA4_CSDPi_24,Channel Source Destination Parameters"
bitfld.long 0x00 21. " SRC_ENDIAN                              ,Channel source endianness control - . - ." "0,1"
bitfld.long 0x00 20. "                      SRC_ENDIAN_LOCK         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 19. "           DST_ENDIAN            ,Channel Destination endianness control - . - ." "0,1"
textline "                             "
bitfld.long 0x00 18. " DST_ENDIAN_LOCK                         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 16.--17. "       WRITE_MODE              ,Used to enable writing mode without posting or with posting - . - . - . - ." "0,Write_(Posted),2,Undefined"
bitfld.long 0x00 14.--15. "             DST_BURST_EN          ,Used to enable bursting on the Write Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
textline "                             "
bitfld.long 0x00 13. " DST_PACKED                              ,Destination receives packed data. - . - ." "0,1"
bitfld.long 0x00 7.--8. "                      SRC_BURST_EN            ,Used to enable bursting on the Read Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
bitfld.long 0x00 6. "              SRC_PACKED            ,Source provides packed data. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0.--1. " DATA_TYPE                               ,Defines the type of the data moved in the channel. - . - . - . - ." "8_bits_scalar,16_bits_scalar,32_bits_scalar,Reserved"
group.long 0x9A4++0x3
line.long 0x00 "DMA4_CSEIi_24,Channel Source Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_SRC_ELMNT_INDEX                 ,Channel source element index"
group.long 0x9A8++0x3
line.long 0x00 "DMA4_CSFIi_24,Channel Source Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_SRC_FRM_INDEX_OR_16BIT_PKT_ELNT_NBR  ,Channel source frame index value if source address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC] = 1; the bit field [15:0] gives the number of element in packet. The field [31:16] is unus..."
group.long 0x98C++0x3
line.long 0x00 "DMA4_CSRi_24,Channel Status Register"
eventfld.long 0x00 14. " SUPER_BLOCK                             ,End of Super block event Read 0x0: The current Super block transfer has not been finished Write 0x0: Status bit unchanged Read 0x1: The current Super block has been transferred Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 12. "                      DRAIN_END               ,End of channel draining Read 0x0: No drain end in the current transfer Write 0x0: Status bit unchanged Read 0x1: The current channel draining is completed Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 11. "                          MISALIGNED_ADRS_ERR   ,Misaligned address error event - . - . - . - ." "No_address_error,1"
textline "                             "
eventfld.long 0x00 10. " SUPERVISOR_ERR                          ,Supervisor transaction error event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 8. "   TRANS_ERR               ,Transaction error event - . - . - . - ." "No_transaction_error,1"
eventfld.long 0x00 7. "       PKT                   ,End of Packet transfer - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 6. " SYNC                                    ,Synchronization status of a channel. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 5. "   BLOCK                   ,End of block event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 4. "       LAST                  ,Last frame (start of last frame) - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 3. " FRAME                                   ,End of frame event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 2. "   HALF                    ,Half of frame event. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 1. "       DROP                  ,Synchronization event drop occured during the transfer - . - . - . - ." "Status_bit_unchanged,1"
group.long 0x99C++0x3
line.long 0x00 "DMA4_CSSAi_24,Channel Source Start Address"
hexmask.long 0x00 0.--31. 1. " SRC_START_ADRS                          ,32 bits of the source start address"
tree.end
tree "DMA_Channel_25"
width 20.
group.long 0xA38++0x3
line.long 0x00 "DMA4_CCDNi_25,"
hexmask.long.word 0x00 0.--15. 1. " CURRENT_DESCRIPTOR_NBR                  ,This register when read contains the current active descriptor number in the link list. This register is Read/write to allow user initialization."
group.long 0xA1C++0x3
line.long 0x00 "DMA4_CCENi_25,Channel Current Transferred Element Number in the current frame. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.tbyte 0x00 0.--23. 1. " CURRENT_ELMNT_NBR                       ,Channel current transferred element number in the current frame"
group.long 0xA20++0x3
line.long 0x00 "DMA4_CCFNi_25,Channel Current Transferred Frame Number in the current transfer. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.word 0x00 0.--15. 1. " CURRENT_FRAME_NBR                       ,Channel current transferred frame number in the current transfer"
group.long 0x9E0++0x3
line.long 0x00 "DMA4_CCRi_25,Channel Control Register"
bitfld.long 0x00 26. " WRITE_PRIORITY                          ,Channel priority on the Write side - . - ." "0,1"
bitfld.long 0x00 25. "                      BUFFERING_DISABLE       ,This bit allows to disable the default buffering functionality when transfer is source synchronized. - . - ." "0,1"
bitfld.long 0x00 24. "                          SEL_SRC_DST_SYNC      ,Specifies that element, packet, frame or block transfer (depending on CCR.bs and CCR.fs) is triggered by the source or the destination on the DMA request - . - ." "0,1"
textline "                             "
bitfld.long 0x00 23. " PREFETCH                                ,Enables the prefetch mode - . - ." "0,1"
bitfld.long 0x00 22. "                      SUPERVISOR              ,Enables the supervisor mode - . - ." "0,1"
bitfld.long 0x00 19.--20. "                          SYNCHRO_CONTROL_UPPER ,Channel Synchronization control upper (used in conjunction with the 5 bits of synchro channelDMA4_CCRi[4:0]) Used in conjunction, as 2 MSB, with the 5 bits of the synchro channel bit field." "0,1,2,3"
textline "                             "
bitfld.long 0x00 18. " BS                                      ,Block synchronization This bit used in conjunction with the fs to see how the DMA request is serviced in a synchronized transfer." "0,1"
bitfld.long 0x00 17. "                      TRANSPARENT_COPY_ENABLE ,Transparent copy enable - . - ." "0,1"
bitfld.long 0x00 16. "                          CONST_FILL_ENABLE     ,Constant fill enable - . - ." "0,1"
textline "                             "
bitfld.long 0x00 14.--15. " DST_AMODE                               ,Selects the addressing mode on the Write Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 12.--13. "  SRC_AMODE               ,Selects the addressing mode on the Read Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 10. "      WR_ACTIVE             ,Indicates if the channel write context is active or not - . - ." "0,1"
textline "                             "
bitfld.long 0x00 9. " RD_ACTIVE                               ,Indicates if the channel read context is active or not - . - ." "0,1"
bitfld.long 0x00 8. "                      SUSPEND_SENSITIVE       ,Logical channel suspend enable bit - . - ." "0,1"
bitfld.long 0x00 7. "                          ENABLE                ,Logical channel enable. It is SW responsibility to clear the CSR register and the IRQSTATUS bit for the different interrupt lines before enabling the channel. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 6. " READ_PRIORITY                           ,Channel priority on the read side - . - ." "0,1"
bitfld.long 0x00 5. "                      FS                      ,Frame synchronization This bit used in conjunction with the BS to see how the DMA request is serviced in a synchronized transfer FS = 0 and BS = 0: An element is transferred once a DMA request is made. FS ..." "0,1"
bitfld.long 0x00 0.--4. "                          SYNCHRO_CONTROL       ,Channel synchronization control This bit field used in conjunction with the second_level_ synchro_control_upper (as 2 MSB) 0000000 : Is reserved for non synchronized LCH transfer xxxxxxx (from 1 to 127)T..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xA18++0x3
line.long 0x00 "DMA4_CDACi_25,Channel Destination Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " DST_ELMNT_ADRS                          ,Current destination address counter value"
group.long 0xA0C++0x3
line.long 0x00 "DMA4_CDEIi_25,Channel Destination Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_DST_ELMNT_INDEX                 ,Channel destination element index"
group.long 0xA10++0x3
line.long 0x00 "DMA4_CDFIi_25,Channel Destination Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_DST_FRM_IDX_OR_16BIT_PKT_ELNT_NBR    ,Channel destination frame index value if destination address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC]=0; the bit field [15:0] gives the number of element in packet. The field [31:16]..."
group.long 0xA30++0x3
line.long 0x00 "DMA4_CDPi_25,This register controls the various parameters of the link list mechanism"
bitfld.long 0x00 10. " FAST                                    ,Sets the fast-start mode for linked list descriptor types 1, 2 and 3 - . - ." "No_fast-start_mode,1"
bitfld.long 0x00 8.--9. "     TRANSFER_MODE           ,Enable linked-list transfer mode - . - . - . - ." "0,1,Undefined,Undefined"
bitfld.long 0x00 7. "                  PAUSE_LINK_LIST       ,Suspend the linked-list transfer at completion of the current block transfer. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 4.--6. " NEXT_DESCRIPTOR_TYPE                    ,Next Descriptor Type - . - . - . - . - . - . - . - ." "Undefined,1,2,3,Undefined,Undefined,Undefined,Undefined"
bitfld.long 0x00 2.--3. "              SRC_VALID               ,Source address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
bitfld.long 0x00 0.--1. "  DEST_VALID            ,Destination address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
group.long 0xA00++0x3
line.long 0x00 "DMA4_CDSAi_25,Channel Destination Start Address"
hexmask.long 0x00 0.--31. 1. " DST_START_ADRS                          ,32 bits of the destination start address"
group.long 0x9F4++0x3
line.long 0x00 "DMA4_CENi_25,Channel Element Number"
hexmask.long.tbyte 0x00 0.--23. 1. " CHANNEL_ELMNT_NBR                       ,Number of elements within a frame (unsigned) to transfer"
group.long 0x9F8++0x3
line.long 0x00 "DMA4_CFNi_25,Channel Frame Number"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_FRAME_NBR                       ,Number of frames within the block to be transferred (unsigned)"
group.long 0x9E8++0x3
line.long 0x00 "DMA4_CICRi_25,Channel Interrupt Control Register"
bitfld.long 0x00 14. " SUPER_BLOCK_IE                          ,Enables the end of super block interrupt" "0,1"
bitfld.long 0x00 12. "                      DRAIN_IE                ,Enables the end of draining interrupt" "0,1"
bitfld.long 0x00 11. "                          MISALIGNED_ERR_IE     ,Enables the address misaligned error event interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 10. " SUPERVISOR_ERR_IE                       ,Enables the supervisor transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 8. "                      TRANS_ERR_IE            ,Enables the transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 7. "                          PKT_IE                ,Enables the end of Packet interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 5. " BLOCK_IE                                ,Enables the end of block interrupt - . - ." "0,1"
bitfld.long 0x00 4. "                      LAST_IE                 ,Last frame interrupt enable (start of last frame) - . - ." "0,1"
bitfld.long 0x00 3. "                          FRAME_IE              ,Frame interrupt enable (end of frame) - . - ." "0,1"
textline "                             "
bitfld.long 0x00 2. " HALF_IE                                 ,Enables or disables the half frame interrupt. - . - ." "0,1"
bitfld.long 0x00 1. "                      DROP_IE                 ,Synchronization event drop interrupt enable (request collision) - . - ." "0,1"
group.long 0x9E4++0x3
line.long 0x00 "DMA4_CLNK_CTRLi_25,Channel Link Control Register"
bitfld.long 0x00 15. " ENABLE_LNK                              ,Enables or disable the channel linking. - . - ." "0,1"
bitfld.long 0x00 0.--4. "                      NEXTLCH_ID              ,Defines the NextLCh_ID, which is used to build logical channel chaining queue." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xA34++0x3
line.long 0x00 "DMA4_CNDPi_25,This register contains the Next descriptor Address Pointer for the link list Mechanism"
hexmask.long 0x00 2.--31. 1. " NEXT_DESCRIPTOR_POINTER                 ,This register contains the Next descriptor Address Pointer for the link list Mechanism"
group.long 0xA24++0x3
line.long 0x00 "DMA4_COLORi_25,Channel DMA COLOR KEY /SOLID COLOR"
hexmask.long.tbyte 0x00 0.--23. 1. " CH_BLT_FRGRND_COLOR_OR_SOLID_COLOR_PTRN ,Color key or solid color pattern: The pattern is replicated according to the data type. If the data-type is 8-bit the pattern is replicated 4 times to fill the register in order to enhance processing when data ..."
rgroup.long 0xA14++0x3
line.long 0x00 "DMA4_CSACi_25,Channel Source Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " SRC_ELMNT_ADRS                          ,Current source address counter value"
group.long 0x9F0++0x3
line.long 0x00 "DMA4_CSDPi_25,Channel Source Destination Parameters"
bitfld.long 0x00 21. " SRC_ENDIAN                              ,Channel source endianness control - . - ." "0,1"
bitfld.long 0x00 20. "                      SRC_ENDIAN_LOCK         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 19. "           DST_ENDIAN            ,Channel Destination endianness control - . - ." "0,1"
textline "                             "
bitfld.long 0x00 18. " DST_ENDIAN_LOCK                         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 16.--17. "       WRITE_MODE              ,Used to enable writing mode without posting or with posting - . - . - . - ." "0,Write_(Posted),2,Undefined"
bitfld.long 0x00 14.--15. "             DST_BURST_EN          ,Used to enable bursting on the Write Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
textline "                             "
bitfld.long 0x00 13. " DST_PACKED                              ,Destination receives packed data. - . - ." "0,1"
bitfld.long 0x00 7.--8. "                      SRC_BURST_EN            ,Used to enable bursting on the Read Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
bitfld.long 0x00 6. "              SRC_PACKED            ,Source provides packed data. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0.--1. " DATA_TYPE                               ,Defines the type of the data moved in the channel. - . - . - . - ." "8_bits_scalar,16_bits_scalar,32_bits_scalar,Reserved"
group.long 0xA04++0x3
line.long 0x00 "DMA4_CSEIi_25,Channel Source Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_SRC_ELMNT_INDEX                 ,Channel source element index"
group.long 0xA08++0x3
line.long 0x00 "DMA4_CSFIi_25,Channel Source Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_SRC_FRM_INDEX_OR_16BIT_PKT_ELNT_NBR  ,Channel source frame index value if source address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC] = 1; the bit field [15:0] gives the number of element in packet. The field [31:16] is unus..."
group.long 0x9EC++0x3
line.long 0x00 "DMA4_CSRi_25,Channel Status Register"
eventfld.long 0x00 14. " SUPER_BLOCK                             ,End of Super block event Read 0x0: The current Super block transfer has not been finished Write 0x0: Status bit unchanged Read 0x1: The current Super block has been transferred Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 12. "                      DRAIN_END               ,End of channel draining Read 0x0: No drain end in the current transfer Write 0x0: Status bit unchanged Read 0x1: The current channel draining is completed Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 11. "                          MISALIGNED_ADRS_ERR   ,Misaligned address error event - . - . - . - ." "No_address_error,1"
textline "                             "
eventfld.long 0x00 10. " SUPERVISOR_ERR                          ,Supervisor transaction error event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 8. "   TRANS_ERR               ,Transaction error event - . - . - . - ." "No_transaction_error,1"
eventfld.long 0x00 7. "       PKT                   ,End of Packet transfer - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 6. " SYNC                                    ,Synchronization status of a channel. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 5. "   BLOCK                   ,End of block event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 4. "       LAST                  ,Last frame (start of last frame) - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 3. " FRAME                                   ,End of frame event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 2. "   HALF                    ,Half of frame event. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 1. "       DROP                  ,Synchronization event drop occured during the transfer - . - . - . - ." "Status_bit_unchanged,1"
group.long 0x9FC++0x3
line.long 0x00 "DMA4_CSSAi_25,Channel Source Start Address"
hexmask.long 0x00 0.--31. 1. " SRC_START_ADRS                          ,32 bits of the source start address"
tree.end
tree "DMA_Channel_26"
width 20.
group.long 0xA98++0x3
line.long 0x00 "DMA4_CCDNi_26,"
hexmask.long.word 0x00 0.--15. 1. " CURRENT_DESCRIPTOR_NBR                  ,This register when read contains the current active descriptor number in the link list. This register is Read/write to allow user initialization."
group.long 0xA7C++0x3
line.long 0x00 "DMA4_CCENi_26,Channel Current Transferred Element Number in the current frame. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.tbyte 0x00 0.--23. 1. " CURRENT_ELMNT_NBR                       ,Channel current transferred element number in the current frame"
group.long 0xA80++0x3
line.long 0x00 "DMA4_CCFNi_26,Channel Current Transferred Frame Number in the current transfer. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.word 0x00 0.--15. 1. " CURRENT_FRAME_NBR                       ,Channel current transferred frame number in the current transfer"
group.long 0xA40++0x3
line.long 0x00 "DMA4_CCRi_26,Channel Control Register"
bitfld.long 0x00 26. " WRITE_PRIORITY                          ,Channel priority on the Write side - . - ." "0,1"
bitfld.long 0x00 25. "                      BUFFERING_DISABLE       ,This bit allows to disable the default buffering functionality when transfer is source synchronized. - . - ." "0,1"
bitfld.long 0x00 24. "                          SEL_SRC_DST_SYNC      ,Specifies that element, packet, frame or block transfer (depending on CCR.bs and CCR.fs) is triggered by the source or the destination on the DMA request - . - ." "0,1"
textline "                             "
bitfld.long 0x00 23. " PREFETCH                                ,Enables the prefetch mode - . - ." "0,1"
bitfld.long 0x00 22. "                      SUPERVISOR              ,Enables the supervisor mode - . - ." "0,1"
bitfld.long 0x00 19.--20. "                          SYNCHRO_CONTROL_UPPER ,Channel Synchronization control upper (used in conjunction with the 5 bits of synchro channelDMA4_CCRi[4:0]) Used in conjunction, as 2 MSB, with the 5 bits of the synchro channel bit field." "0,1,2,3"
textline "                             "
bitfld.long 0x00 18. " BS                                      ,Block synchronization This bit used in conjunction with the fs to see how the DMA request is serviced in a synchronized transfer." "0,1"
bitfld.long 0x00 17. "                      TRANSPARENT_COPY_ENABLE ,Transparent copy enable - . - ." "0,1"
bitfld.long 0x00 16. "                          CONST_FILL_ENABLE     ,Constant fill enable - . - ." "0,1"
textline "                             "
bitfld.long 0x00 14.--15. " DST_AMODE                               ,Selects the addressing mode on the Write Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 12.--13. "  SRC_AMODE               ,Selects the addressing mode on the Read Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 10. "      WR_ACTIVE             ,Indicates if the channel write context is active or not - . - ." "0,1"
textline "                             "
bitfld.long 0x00 9. " RD_ACTIVE                               ,Indicates if the channel read context is active or not - . - ." "0,1"
bitfld.long 0x00 8. "                      SUSPEND_SENSITIVE       ,Logical channel suspend enable bit - . - ." "0,1"
bitfld.long 0x00 7. "                          ENABLE                ,Logical channel enable. It is SW responsibility to clear the CSR register and the IRQSTATUS bit for the different interrupt lines before enabling the channel. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 6. " READ_PRIORITY                           ,Channel priority on the read side - . - ." "0,1"
bitfld.long 0x00 5. "                      FS                      ,Frame synchronization This bit used in conjunction with the BS to see how the DMA request is serviced in a synchronized transfer FS = 0 and BS = 0: An element is transferred once a DMA request is made. FS ..." "0,1"
bitfld.long 0x00 0.--4. "                          SYNCHRO_CONTROL       ,Channel synchronization control This bit field used in conjunction with the second_level_ synchro_control_upper (as 2 MSB) 0000000 : Is reserved for non synchronized LCH transfer xxxxxxx (from 1 to 127)T..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xA78++0x3
line.long 0x00 "DMA4_CDACi_26,Channel Destination Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " DST_ELMNT_ADRS                          ,Current destination address counter value"
group.long 0xA6C++0x3
line.long 0x00 "DMA4_CDEIi_26,Channel Destination Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_DST_ELMNT_INDEX                 ,Channel destination element index"
group.long 0xA70++0x3
line.long 0x00 "DMA4_CDFIi_26,Channel Destination Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_DST_FRM_IDX_OR_16BIT_PKT_ELNT_NBR    ,Channel destination frame index value if destination address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC]=0; the bit field [15:0] gives the number of element in packet. The field [31:16]..."
group.long 0xA90++0x3
line.long 0x00 "DMA4_CDPi_26,This register controls the various parameters of the link list mechanism"
bitfld.long 0x00 10. " FAST                                    ,Sets the fast-start mode for linked list descriptor types 1, 2 and 3 - . - ." "No_fast-start_mode,1"
bitfld.long 0x00 8.--9. "     TRANSFER_MODE           ,Enable linked-list transfer mode - . - . - . - ." "0,1,Undefined,Undefined"
bitfld.long 0x00 7. "                  PAUSE_LINK_LIST       ,Suspend the linked-list transfer at completion of the current block transfer. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 4.--6. " NEXT_DESCRIPTOR_TYPE                    ,Next Descriptor Type - . - . - . - . - . - . - . - ." "Undefined,1,2,3,Undefined,Undefined,Undefined,Undefined"
bitfld.long 0x00 2.--3. "              SRC_VALID               ,Source address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
bitfld.long 0x00 0.--1. "  DEST_VALID            ,Destination address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
group.long 0xA60++0x3
line.long 0x00 "DMA4_CDSAi_26,Channel Destination Start Address"
hexmask.long 0x00 0.--31. 1. " DST_START_ADRS                          ,32 bits of the destination start address"
group.long 0xA54++0x3
line.long 0x00 "DMA4_CENi_26,Channel Element Number"
hexmask.long.tbyte 0x00 0.--23. 1. " CHANNEL_ELMNT_NBR                       ,Number of elements within a frame (unsigned) to transfer"
group.long 0xA58++0x3
line.long 0x00 "DMA4_CFNi_26,Channel Frame Number"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_FRAME_NBR                       ,Number of frames within the block to be transferred (unsigned)"
group.long 0xA48++0x3
line.long 0x00 "DMA4_CICRi_26,Channel Interrupt Control Register"
bitfld.long 0x00 14. " SUPER_BLOCK_IE                          ,Enables the end of super block interrupt" "0,1"
bitfld.long 0x00 12. "                      DRAIN_IE                ,Enables the end of draining interrupt" "0,1"
bitfld.long 0x00 11. "                          MISALIGNED_ERR_IE     ,Enables the address misaligned error event interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 10. " SUPERVISOR_ERR_IE                       ,Enables the supervisor transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 8. "                      TRANS_ERR_IE            ,Enables the transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 7. "                          PKT_IE                ,Enables the end of Packet interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 5. " BLOCK_IE                                ,Enables the end of block interrupt - . - ." "0,1"
bitfld.long 0x00 4. "                      LAST_IE                 ,Last frame interrupt enable (start of last frame) - . - ." "0,1"
bitfld.long 0x00 3. "                          FRAME_IE              ,Frame interrupt enable (end of frame) - . - ." "0,1"
textline "                             "
bitfld.long 0x00 2. " HALF_IE                                 ,Enables or disables the half frame interrupt. - . - ." "0,1"
bitfld.long 0x00 1. "                      DROP_IE                 ,Synchronization event drop interrupt enable (request collision) - . - ." "0,1"
group.long 0xA44++0x3
line.long 0x00 "DMA4_CLNK_CTRLi_26,Channel Link Control Register"
bitfld.long 0x00 15. " ENABLE_LNK                              ,Enables or disable the channel linking. - . - ." "0,1"
bitfld.long 0x00 0.--4. "                      NEXTLCH_ID              ,Defines the NextLCh_ID, which is used to build logical channel chaining queue." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xA94++0x3
line.long 0x00 "DMA4_CNDPi_26,This register contains the Next descriptor Address Pointer for the link list Mechanism"
hexmask.long 0x00 2.--31. 1. " NEXT_DESCRIPTOR_POINTER                 ,This register contains the Next descriptor Address Pointer for the link list Mechanism"
group.long 0xA84++0x3
line.long 0x00 "DMA4_COLORi_26,Channel DMA COLOR KEY /SOLID COLOR"
hexmask.long.tbyte 0x00 0.--23. 1. " CH_BLT_FRGRND_COLOR_OR_SOLID_COLOR_PTRN ,Color key or solid color pattern: The pattern is replicated according to the data type. If the data-type is 8-bit the pattern is replicated 4 times to fill the register in order to enhance processing when data ..."
rgroup.long 0xA74++0x3
line.long 0x00 "DMA4_CSACi_26,Channel Source Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " SRC_ELMNT_ADRS                          ,Current source address counter value"
group.long 0xA50++0x3
line.long 0x00 "DMA4_CSDPi_26,Channel Source Destination Parameters"
bitfld.long 0x00 21. " SRC_ENDIAN                              ,Channel source endianness control - . - ." "0,1"
bitfld.long 0x00 20. "                      SRC_ENDIAN_LOCK         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 19. "           DST_ENDIAN            ,Channel Destination endianness control - . - ." "0,1"
textline "                             "
bitfld.long 0x00 18. " DST_ENDIAN_LOCK                         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 16.--17. "       WRITE_MODE              ,Used to enable writing mode without posting or with posting - . - . - . - ." "0,Write_(Posted),2,Undefined"
bitfld.long 0x00 14.--15. "             DST_BURST_EN          ,Used to enable bursting on the Write Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
textline "                             "
bitfld.long 0x00 13. " DST_PACKED                              ,Destination receives packed data. - . - ." "0,1"
bitfld.long 0x00 7.--8. "                      SRC_BURST_EN            ,Used to enable bursting on the Read Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
bitfld.long 0x00 6. "              SRC_PACKED            ,Source provides packed data. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0.--1. " DATA_TYPE                               ,Defines the type of the data moved in the channel. - . - . - . - ." "8_bits_scalar,16_bits_scalar,32_bits_scalar,Reserved"
group.long 0xA64++0x3
line.long 0x00 "DMA4_CSEIi_26,Channel Source Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_SRC_ELMNT_INDEX                 ,Channel source element index"
group.long 0xA68++0x3
line.long 0x00 "DMA4_CSFIi_26,Channel Source Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_SRC_FRM_INDEX_OR_16BIT_PKT_ELNT_NBR  ,Channel source frame index value if source address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC] = 1; the bit field [15:0] gives the number of element in packet. The field [31:16] is unus..."
group.long 0xA4C++0x3
line.long 0x00 "DMA4_CSRi_26,Channel Status Register"
eventfld.long 0x00 14. " SUPER_BLOCK                             ,End of Super block event Read 0x0: The current Super block transfer has not been finished Write 0x0: Status bit unchanged Read 0x1: The current Super block has been transferred Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 12. "                      DRAIN_END               ,End of channel draining Read 0x0: No drain end in the current transfer Write 0x0: Status bit unchanged Read 0x1: The current channel draining is completed Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 11. "                          MISALIGNED_ADRS_ERR   ,Misaligned address error event - . - . - . - ." "No_address_error,1"
textline "                             "
eventfld.long 0x00 10. " SUPERVISOR_ERR                          ,Supervisor transaction error event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 8. "   TRANS_ERR               ,Transaction error event - . - . - . - ." "No_transaction_error,1"
eventfld.long 0x00 7. "       PKT                   ,End of Packet transfer - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 6. " SYNC                                    ,Synchronization status of a channel. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 5. "   BLOCK                   ,End of block event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 4. "       LAST                  ,Last frame (start of last frame) - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 3. " FRAME                                   ,End of frame event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 2. "   HALF                    ,Half of frame event. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 1. "       DROP                  ,Synchronization event drop occured during the transfer - . - . - . - ." "Status_bit_unchanged,1"
group.long 0xA5C++0x3
line.long 0x00 "DMA4_CSSAi_26,Channel Source Start Address"
hexmask.long 0x00 0.--31. 1. " SRC_START_ADRS                          ,32 bits of the source start address"
tree.end
tree "DMA_Channel_27"
width 20.
group.long 0xAF8++0x3
line.long 0x00 "DMA4_CCDNi_27,"
hexmask.long.word 0x00 0.--15. 1. " CURRENT_DESCRIPTOR_NBR                  ,This register when read contains the current active descriptor number in the link list. This register is Read/write to allow user initialization."
group.long 0xADC++0x3
line.long 0x00 "DMA4_CCENi_27,Channel Current Transferred Element Number in the current frame. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.tbyte 0x00 0.--23. 1. " CURRENT_ELMNT_NBR                       ,Channel current transferred element number in the current frame"
group.long 0xAE0++0x3
line.long 0x00 "DMA4_CCFNi_27,Channel Current Transferred Frame Number in the current transfer. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.word 0x00 0.--15. 1. " CURRENT_FRAME_NBR                       ,Channel current transferred frame number in the current transfer"
group.long 0xAA0++0x3
line.long 0x00 "DMA4_CCRi_27,Channel Control Register"
bitfld.long 0x00 26. " WRITE_PRIORITY                          ,Channel priority on the Write side - . - ." "0,1"
bitfld.long 0x00 25. "                      BUFFERING_DISABLE       ,This bit allows to disable the default buffering functionality when transfer is source synchronized. - . - ." "0,1"
bitfld.long 0x00 24. "                          SEL_SRC_DST_SYNC      ,Specifies that element, packet, frame or block transfer (depending on CCR.bs and CCR.fs) is triggered by the source or the destination on the DMA request - . - ." "0,1"
textline "                             "
bitfld.long 0x00 23. " PREFETCH                                ,Enables the prefetch mode - . - ." "0,1"
bitfld.long 0x00 22. "                      SUPERVISOR              ,Enables the supervisor mode - . - ." "0,1"
bitfld.long 0x00 19.--20. "                          SYNCHRO_CONTROL_UPPER ,Channel Synchronization control upper (used in conjunction with the 5 bits of synchro channelDMA4_CCRi[4:0]) Used in conjunction, as 2 MSB, with the 5 bits of the synchro channel bit field." "0,1,2,3"
textline "                             "
bitfld.long 0x00 18. " BS                                      ,Block synchronization This bit used in conjunction with the fs to see how the DMA request is serviced in a synchronized transfer." "0,1"
bitfld.long 0x00 17. "                      TRANSPARENT_COPY_ENABLE ,Transparent copy enable - . - ." "0,1"
bitfld.long 0x00 16. "                          CONST_FILL_ENABLE     ,Constant fill enable - . - ." "0,1"
textline "                             "
bitfld.long 0x00 14.--15. " DST_AMODE                               ,Selects the addressing mode on the Write Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 12.--13. "  SRC_AMODE               ,Selects the addressing mode on the Read Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 10. "      WR_ACTIVE             ,Indicates if the channel write context is active or not - . - ." "0,1"
textline "                             "
bitfld.long 0x00 9. " RD_ACTIVE                               ,Indicates if the channel read context is active or not - . - ." "0,1"
bitfld.long 0x00 8. "                      SUSPEND_SENSITIVE       ,Logical channel suspend enable bit - . - ." "0,1"
bitfld.long 0x00 7. "                          ENABLE                ,Logical channel enable. It is SW responsibility to clear the CSR register and the IRQSTATUS bit for the different interrupt lines before enabling the channel. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 6. " READ_PRIORITY                           ,Channel priority on the read side - . - ." "0,1"
bitfld.long 0x00 5. "                      FS                      ,Frame synchronization This bit used in conjunction with the BS to see how the DMA request is serviced in a synchronized transfer FS = 0 and BS = 0: An element is transferred once a DMA request is made. FS ..." "0,1"
bitfld.long 0x00 0.--4. "                          SYNCHRO_CONTROL       ,Channel synchronization control This bit field used in conjunction with the second_level_ synchro_control_upper (as 2 MSB) 0000000 : Is reserved for non synchronized LCH transfer xxxxxxx (from 1 to 127)T..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xAD8++0x3
line.long 0x00 "DMA4_CDACi_27,Channel Destination Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " DST_ELMNT_ADRS                          ,Current destination address counter value"
group.long 0xACC++0x3
line.long 0x00 "DMA4_CDEIi_27,Channel Destination Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_DST_ELMNT_INDEX                 ,Channel destination element index"
group.long 0xAD0++0x3
line.long 0x00 "DMA4_CDFIi_27,Channel Destination Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_DST_FRM_IDX_OR_16BIT_PKT_ELNT_NBR    ,Channel destination frame index value if destination address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC]=0; the bit field [15:0] gives the number of element in packet. The field [31:16]..."
group.long 0xAF0++0x3
line.long 0x00 "DMA4_CDPi_27,This register controls the various parameters of the link list mechanism"
bitfld.long 0x00 10. " FAST                                    ,Sets the fast-start mode for linked list descriptor types 1, 2 and 3 - . - ." "No_fast-start_mode,1"
bitfld.long 0x00 8.--9. "     TRANSFER_MODE           ,Enable linked-list transfer mode - . - . - . - ." "0,1,Undefined,Undefined"
bitfld.long 0x00 7. "                  PAUSE_LINK_LIST       ,Suspend the linked-list transfer at completion of the current block transfer. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 4.--6. " NEXT_DESCRIPTOR_TYPE                    ,Next Descriptor Type - . - . - . - . - . - . - . - ." "Undefined,1,2,3,Undefined,Undefined,Undefined,Undefined"
bitfld.long 0x00 2.--3. "              SRC_VALID               ,Source address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
bitfld.long 0x00 0.--1. "  DEST_VALID            ,Destination address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
group.long 0xAC0++0x3
line.long 0x00 "DMA4_CDSAi_27,Channel Destination Start Address"
hexmask.long 0x00 0.--31. 1. " DST_START_ADRS                          ,32 bits of the destination start address"
group.long 0xAB4++0x3
line.long 0x00 "DMA4_CENi_27,Channel Element Number"
hexmask.long.tbyte 0x00 0.--23. 1. " CHANNEL_ELMNT_NBR                       ,Number of elements within a frame (unsigned) to transfer"
group.long 0xAB8++0x3
line.long 0x00 "DMA4_CFNi_27,Channel Frame Number"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_FRAME_NBR                       ,Number of frames within the block to be transferred (unsigned)"
group.long 0xAA8++0x3
line.long 0x00 "DMA4_CICRi_27,Channel Interrupt Control Register"
bitfld.long 0x00 14. " SUPER_BLOCK_IE                          ,Enables the end of super block interrupt" "0,1"
bitfld.long 0x00 12. "                      DRAIN_IE                ,Enables the end of draining interrupt" "0,1"
bitfld.long 0x00 11. "                          MISALIGNED_ERR_IE     ,Enables the address misaligned error event interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 10. " SUPERVISOR_ERR_IE                       ,Enables the supervisor transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 8. "                      TRANS_ERR_IE            ,Enables the transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 7. "                          PKT_IE                ,Enables the end of Packet interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 5. " BLOCK_IE                                ,Enables the end of block interrupt - . - ." "0,1"
bitfld.long 0x00 4. "                      LAST_IE                 ,Last frame interrupt enable (start of last frame) - . - ." "0,1"
bitfld.long 0x00 3. "                          FRAME_IE              ,Frame interrupt enable (end of frame) - . - ." "0,1"
textline "                             "
bitfld.long 0x00 2. " HALF_IE                                 ,Enables or disables the half frame interrupt. - . - ." "0,1"
bitfld.long 0x00 1. "                      DROP_IE                 ,Synchronization event drop interrupt enable (request collision) - . - ." "0,1"
group.long 0xAA4++0x3
line.long 0x00 "DMA4_CLNK_CTRLi_27,Channel Link Control Register"
bitfld.long 0x00 15. " ENABLE_LNK                              ,Enables or disable the channel linking. - . - ." "0,1"
bitfld.long 0x00 0.--4. "                      NEXTLCH_ID              ,Defines the NextLCh_ID, which is used to build logical channel chaining queue." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xAF4++0x3
line.long 0x00 "DMA4_CNDPi_27,This register contains the Next descriptor Address Pointer for the link list Mechanism"
hexmask.long 0x00 2.--31. 1. " NEXT_DESCRIPTOR_POINTER                 ,This register contains the Next descriptor Address Pointer for the link list Mechanism"
group.long 0xAE4++0x3
line.long 0x00 "DMA4_COLORi_27,Channel DMA COLOR KEY /SOLID COLOR"
hexmask.long.tbyte 0x00 0.--23. 1. " CH_BLT_FRGRND_COLOR_OR_SOLID_COLOR_PTRN ,Color key or solid color pattern: The pattern is replicated according to the data type. If the data-type is 8-bit the pattern is replicated 4 times to fill the register in order to enhance processing when data ..."
rgroup.long 0xAD4++0x3
line.long 0x00 "DMA4_CSACi_27,Channel Source Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " SRC_ELMNT_ADRS                          ,Current source address counter value"
group.long 0xAB0++0x3
line.long 0x00 "DMA4_CSDPi_27,Channel Source Destination Parameters"
bitfld.long 0x00 21. " SRC_ENDIAN                              ,Channel source endianness control - . - ." "0,1"
bitfld.long 0x00 20. "                      SRC_ENDIAN_LOCK         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 19. "           DST_ENDIAN            ,Channel Destination endianness control - . - ." "0,1"
textline "                             "
bitfld.long 0x00 18. " DST_ENDIAN_LOCK                         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 16.--17. "       WRITE_MODE              ,Used to enable writing mode without posting or with posting - . - . - . - ." "0,Write_(Posted),2,Undefined"
bitfld.long 0x00 14.--15. "             DST_BURST_EN          ,Used to enable bursting on the Write Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
textline "                             "
bitfld.long 0x00 13. " DST_PACKED                              ,Destination receives packed data. - . - ." "0,1"
bitfld.long 0x00 7.--8. "                      SRC_BURST_EN            ,Used to enable bursting on the Read Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
bitfld.long 0x00 6. "              SRC_PACKED            ,Source provides packed data. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0.--1. " DATA_TYPE                               ,Defines the type of the data moved in the channel. - . - . - . - ." "8_bits_scalar,16_bits_scalar,32_bits_scalar,Reserved"
group.long 0xAC4++0x3
line.long 0x00 "DMA4_CSEIi_27,Channel Source Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_SRC_ELMNT_INDEX                 ,Channel source element index"
group.long 0xAC8++0x3
line.long 0x00 "DMA4_CSFIi_27,Channel Source Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_SRC_FRM_INDEX_OR_16BIT_PKT_ELNT_NBR  ,Channel source frame index value if source address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC] = 1; the bit field [15:0] gives the number of element in packet. The field [31:16] is unus..."
group.long 0xAAC++0x3
line.long 0x00 "DMA4_CSRi_27,Channel Status Register"
eventfld.long 0x00 14. " SUPER_BLOCK                             ,End of Super block event Read 0x0: The current Super block transfer has not been finished Write 0x0: Status bit unchanged Read 0x1: The current Super block has been transferred Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 12. "                      DRAIN_END               ,End of channel draining Read 0x0: No drain end in the current transfer Write 0x0: Status bit unchanged Read 0x1: The current channel draining is completed Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 11. "                          MISALIGNED_ADRS_ERR   ,Misaligned address error event - . - . - . - ." "No_address_error,1"
textline "                             "
eventfld.long 0x00 10. " SUPERVISOR_ERR                          ,Supervisor transaction error event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 8. "   TRANS_ERR               ,Transaction error event - . - . - . - ." "No_transaction_error,1"
eventfld.long 0x00 7. "       PKT                   ,End of Packet transfer - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 6. " SYNC                                    ,Synchronization status of a channel. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 5. "   BLOCK                   ,End of block event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 4. "       LAST                  ,Last frame (start of last frame) - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 3. " FRAME                                   ,End of frame event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 2. "   HALF                    ,Half of frame event. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 1. "       DROP                  ,Synchronization event drop occured during the transfer - . - . - . - ." "Status_bit_unchanged,1"
group.long 0xABC++0x3
line.long 0x00 "DMA4_CSSAi_27,Channel Source Start Address"
hexmask.long 0x00 0.--31. 1. " SRC_START_ADRS                          ,32 bits of the source start address"
tree.end
tree "DMA_Channel_28"
width 20.
group.long 0xB58++0x3
line.long 0x00 "DMA4_CCDNi_28,"
hexmask.long.word 0x00 0.--15. 1. " CURRENT_DESCRIPTOR_NBR                  ,This register when read contains the current active descriptor number in the link list. This register is Read/write to allow user initialization."
group.long 0xB3C++0x3
line.long 0x00 "DMA4_CCENi_28,Channel Current Transferred Element Number in the current frame. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.tbyte 0x00 0.--23. 1. " CURRENT_ELMNT_NBR                       ,Channel current transferred element number in the current frame"
group.long 0xB40++0x3
line.long 0x00 "DMA4_CCFNi_28,Channel Current Transferred Frame Number in the current transfer. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.word 0x00 0.--15. 1. " CURRENT_FRAME_NBR                       ,Channel current transferred frame number in the current transfer"
group.long 0xB00++0x3
line.long 0x00 "DMA4_CCRi_28,Channel Control Register"
bitfld.long 0x00 26. " WRITE_PRIORITY                          ,Channel priority on the Write side - . - ." "0,1"
bitfld.long 0x00 25. "                      BUFFERING_DISABLE       ,This bit allows to disable the default buffering functionality when transfer is source synchronized. - . - ." "0,1"
bitfld.long 0x00 24. "                          SEL_SRC_DST_SYNC      ,Specifies that element, packet, frame or block transfer (depending on CCR.bs and CCR.fs) is triggered by the source or the destination on the DMA request - . - ." "0,1"
textline "                             "
bitfld.long 0x00 23. " PREFETCH                                ,Enables the prefetch mode - . - ." "0,1"
bitfld.long 0x00 22. "                      SUPERVISOR              ,Enables the supervisor mode - . - ." "0,1"
bitfld.long 0x00 19.--20. "                          SYNCHRO_CONTROL_UPPER ,Channel Synchronization control upper (used in conjunction with the 5 bits of synchro channelDMA4_CCRi[4:0]) Used in conjunction, as 2 MSB, with the 5 bits of the synchro channel bit field." "0,1,2,3"
textline "                             "
bitfld.long 0x00 18. " BS                                      ,Block synchronization This bit used in conjunction with the fs to see how the DMA request is serviced in a synchronized transfer." "0,1"
bitfld.long 0x00 17. "                      TRANSPARENT_COPY_ENABLE ,Transparent copy enable - . - ." "0,1"
bitfld.long 0x00 16. "                          CONST_FILL_ENABLE     ,Constant fill enable - . - ." "0,1"
textline "                             "
bitfld.long 0x00 14.--15. " DST_AMODE                               ,Selects the addressing mode on the Write Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 12.--13. "  SRC_AMODE               ,Selects the addressing mode on the Read Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 10. "      WR_ACTIVE             ,Indicates if the channel write context is active or not - . - ." "0,1"
textline "                             "
bitfld.long 0x00 9. " RD_ACTIVE                               ,Indicates if the channel read context is active or not - . - ." "0,1"
bitfld.long 0x00 8. "                      SUSPEND_SENSITIVE       ,Logical channel suspend enable bit - . - ." "0,1"
bitfld.long 0x00 7. "                          ENABLE                ,Logical channel enable. It is SW responsibility to clear the CSR register and the IRQSTATUS bit for the different interrupt lines before enabling the channel. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 6. " READ_PRIORITY                           ,Channel priority on the read side - . - ." "0,1"
bitfld.long 0x00 5. "                      FS                      ,Frame synchronization This bit used in conjunction with the BS to see how the DMA request is serviced in a synchronized transfer FS = 0 and BS = 0: An element is transferred once a DMA request is made. FS ..." "0,1"
bitfld.long 0x00 0.--4. "                          SYNCHRO_CONTROL       ,Channel synchronization control This bit field used in conjunction with the second_level_ synchro_control_upper (as 2 MSB) 0000000 : Is reserved for non synchronized LCH transfer xxxxxxx (from 1 to 127)T..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xB38++0x3
line.long 0x00 "DMA4_CDACi_28,Channel Destination Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " DST_ELMNT_ADRS                          ,Current destination address counter value"
group.long 0xB2C++0x3
line.long 0x00 "DMA4_CDEIi_28,Channel Destination Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_DST_ELMNT_INDEX                 ,Channel destination element index"
group.long 0xB30++0x3
line.long 0x00 "DMA4_CDFIi_28,Channel Destination Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_DST_FRM_IDX_OR_16BIT_PKT_ELNT_NBR    ,Channel destination frame index value if destination address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC]=0; the bit field [15:0] gives the number of element in packet. The field [31:16]..."
group.long 0xB50++0x3
line.long 0x00 "DMA4_CDPi_28,This register controls the various parameters of the link list mechanism"
bitfld.long 0x00 10. " FAST                                    ,Sets the fast-start mode for linked list descriptor types 1, 2 and 3 - . - ." "No_fast-start_mode,1"
bitfld.long 0x00 8.--9. "     TRANSFER_MODE           ,Enable linked-list transfer mode - . - . - . - ." "0,1,Undefined,Undefined"
bitfld.long 0x00 7. "                  PAUSE_LINK_LIST       ,Suspend the linked-list transfer at completion of the current block transfer. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 4.--6. " NEXT_DESCRIPTOR_TYPE                    ,Next Descriptor Type - . - . - . - . - . - . - . - ." "Undefined,1,2,3,Undefined,Undefined,Undefined,Undefined"
bitfld.long 0x00 2.--3. "              SRC_VALID               ,Source address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
bitfld.long 0x00 0.--1. "  DEST_VALID            ,Destination address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
group.long 0xB20++0x3
line.long 0x00 "DMA4_CDSAi_28,Channel Destination Start Address"
hexmask.long 0x00 0.--31. 1. " DST_START_ADRS                          ,32 bits of the destination start address"
group.long 0xB14++0x3
line.long 0x00 "DMA4_CENi_28,Channel Element Number"
hexmask.long.tbyte 0x00 0.--23. 1. " CHANNEL_ELMNT_NBR                       ,Number of elements within a frame (unsigned) to transfer"
group.long 0xB18++0x3
line.long 0x00 "DMA4_CFNi_28,Channel Frame Number"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_FRAME_NBR                       ,Number of frames within the block to be transferred (unsigned)"
group.long 0xB08++0x3
line.long 0x00 "DMA4_CICRi_28,Channel Interrupt Control Register"
bitfld.long 0x00 14. " SUPER_BLOCK_IE                          ,Enables the end of super block interrupt" "0,1"
bitfld.long 0x00 12. "                      DRAIN_IE                ,Enables the end of draining interrupt" "0,1"
bitfld.long 0x00 11. "                          MISALIGNED_ERR_IE     ,Enables the address misaligned error event interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 10. " SUPERVISOR_ERR_IE                       ,Enables the supervisor transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 8. "                      TRANS_ERR_IE            ,Enables the transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 7. "                          PKT_IE                ,Enables the end of Packet interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 5. " BLOCK_IE                                ,Enables the end of block interrupt - . - ." "0,1"
bitfld.long 0x00 4. "                      LAST_IE                 ,Last frame interrupt enable (start of last frame) - . - ." "0,1"
bitfld.long 0x00 3. "                          FRAME_IE              ,Frame interrupt enable (end of frame) - . - ." "0,1"
textline "                             "
bitfld.long 0x00 2. " HALF_IE                                 ,Enables or disables the half frame interrupt. - . - ." "0,1"
bitfld.long 0x00 1. "                      DROP_IE                 ,Synchronization event drop interrupt enable (request collision) - . - ." "0,1"
group.long 0xB04++0x3
line.long 0x00 "DMA4_CLNK_CTRLi_28,Channel Link Control Register"
bitfld.long 0x00 15. " ENABLE_LNK                              ,Enables or disable the channel linking. - . - ." "0,1"
bitfld.long 0x00 0.--4. "                      NEXTLCH_ID              ,Defines the NextLCh_ID, which is used to build logical channel chaining queue." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xB54++0x3
line.long 0x00 "DMA4_CNDPi_28,This register contains the Next descriptor Address Pointer for the link list Mechanism"
hexmask.long 0x00 2.--31. 1. " NEXT_DESCRIPTOR_POINTER                 ,This register contains the Next descriptor Address Pointer for the link list Mechanism"
group.long 0xB44++0x3
line.long 0x00 "DMA4_COLORi_28,Channel DMA COLOR KEY /SOLID COLOR"
hexmask.long.tbyte 0x00 0.--23. 1. " CH_BLT_FRGRND_COLOR_OR_SOLID_COLOR_PTRN ,Color key or solid color pattern: The pattern is replicated according to the data type. If the data-type is 8-bit the pattern is replicated 4 times to fill the register in order to enhance processing when data ..."
rgroup.long 0xB34++0x3
line.long 0x00 "DMA4_CSACi_28,Channel Source Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " SRC_ELMNT_ADRS                          ,Current source address counter value"
group.long 0xB10++0x3
line.long 0x00 "DMA4_CSDPi_28,Channel Source Destination Parameters"
bitfld.long 0x00 21. " SRC_ENDIAN                              ,Channel source endianness control - . - ." "0,1"
bitfld.long 0x00 20. "                      SRC_ENDIAN_LOCK         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 19. "           DST_ENDIAN            ,Channel Destination endianness control - . - ." "0,1"
textline "                             "
bitfld.long 0x00 18. " DST_ENDIAN_LOCK                         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 16.--17. "       WRITE_MODE              ,Used to enable writing mode without posting or with posting - . - . - . - ." "0,Write_(Posted),2,Undefined"
bitfld.long 0x00 14.--15. "             DST_BURST_EN          ,Used to enable bursting on the Write Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
textline "                             "
bitfld.long 0x00 13. " DST_PACKED                              ,Destination receives packed data. - . - ." "0,1"
bitfld.long 0x00 7.--8. "                      SRC_BURST_EN            ,Used to enable bursting on the Read Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
bitfld.long 0x00 6. "              SRC_PACKED            ,Source provides packed data. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0.--1. " DATA_TYPE                               ,Defines the type of the data moved in the channel. - . - . - . - ." "8_bits_scalar,16_bits_scalar,32_bits_scalar,Reserved"
group.long 0xB24++0x3
line.long 0x00 "DMA4_CSEIi_28,Channel Source Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_SRC_ELMNT_INDEX                 ,Channel source element index"
group.long 0xB28++0x3
line.long 0x00 "DMA4_CSFIi_28,Channel Source Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_SRC_FRM_INDEX_OR_16BIT_PKT_ELNT_NBR  ,Channel source frame index value if source address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC] = 1; the bit field [15:0] gives the number of element in packet. The field [31:16] is unus..."
group.long 0xB0C++0x3
line.long 0x00 "DMA4_CSRi_28,Channel Status Register"
eventfld.long 0x00 14. " SUPER_BLOCK                             ,End of Super block event Read 0x0: The current Super block transfer has not been finished Write 0x0: Status bit unchanged Read 0x1: The current Super block has been transferred Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 12. "                      DRAIN_END               ,End of channel draining Read 0x0: No drain end in the current transfer Write 0x0: Status bit unchanged Read 0x1: The current channel draining is completed Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 11. "                          MISALIGNED_ADRS_ERR   ,Misaligned address error event - . - . - . - ." "No_address_error,1"
textline "                             "
eventfld.long 0x00 10. " SUPERVISOR_ERR                          ,Supervisor transaction error event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 8. "   TRANS_ERR               ,Transaction error event - . - . - . - ." "No_transaction_error,1"
eventfld.long 0x00 7. "       PKT                   ,End of Packet transfer - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 6. " SYNC                                    ,Synchronization status of a channel. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 5. "   BLOCK                   ,End of block event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 4. "       LAST                  ,Last frame (start of last frame) - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 3. " FRAME                                   ,End of frame event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 2. "   HALF                    ,Half of frame event. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 1. "       DROP                  ,Synchronization event drop occured during the transfer - . - . - . - ." "Status_bit_unchanged,1"
group.long 0xB1C++0x3
line.long 0x00 "DMA4_CSSAi_28,Channel Source Start Address"
hexmask.long 0x00 0.--31. 1. " SRC_START_ADRS                          ,32 bits of the source start address"
tree.end
tree "DMA_Channel_29"
width 20.
group.long 0xBB8++0x3
line.long 0x00 "DMA4_CCDNi_29,"
hexmask.long.word 0x00 0.--15. 1. " CURRENT_DESCRIPTOR_NBR                  ,This register when read contains the current active descriptor number in the link list. This register is Read/write to allow user initialization."
group.long 0xB9C++0x3
line.long 0x00 "DMA4_CCENi_29,Channel Current Transferred Element Number in the current frame. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.tbyte 0x00 0.--23. 1. " CURRENT_ELMNT_NBR                       ,Channel current transferred element number in the current frame"
group.long 0xBA0++0x3
line.long 0x00 "DMA4_CCFNi_29,Channel Current Transferred Frame Number in the current transfer. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.word 0x00 0.--15. 1. " CURRENT_FRAME_NBR                       ,Channel current transferred frame number in the current transfer"
group.long 0xB60++0x3
line.long 0x00 "DMA4_CCRi_29,Channel Control Register"
bitfld.long 0x00 26. " WRITE_PRIORITY                          ,Channel priority on the Write side - . - ." "0,1"
bitfld.long 0x00 25. "                      BUFFERING_DISABLE       ,This bit allows to disable the default buffering functionality when transfer is source synchronized. - . - ." "0,1"
bitfld.long 0x00 24. "                          SEL_SRC_DST_SYNC      ,Specifies that element, packet, frame or block transfer (depending on CCR.bs and CCR.fs) is triggered by the source or the destination on the DMA request - . - ." "0,1"
textline "                             "
bitfld.long 0x00 23. " PREFETCH                                ,Enables the prefetch mode - . - ." "0,1"
bitfld.long 0x00 22. "                      SUPERVISOR              ,Enables the supervisor mode - . - ." "0,1"
bitfld.long 0x00 19.--20. "                          SYNCHRO_CONTROL_UPPER ,Channel Synchronization control upper (used in conjunction with the 5 bits of synchro channelDMA4_CCRi[4:0]) Used in conjunction, as 2 MSB, with the 5 bits of the synchro channel bit field." "0,1,2,3"
textline "                             "
bitfld.long 0x00 18. " BS                                      ,Block synchronization This bit used in conjunction with the fs to see how the DMA request is serviced in a synchronized transfer." "0,1"
bitfld.long 0x00 17. "                      TRANSPARENT_COPY_ENABLE ,Transparent copy enable - . - ." "0,1"
bitfld.long 0x00 16. "                          CONST_FILL_ENABLE     ,Constant fill enable - . - ." "0,1"
textline "                             "
bitfld.long 0x00 14.--15. " DST_AMODE                               ,Selects the addressing mode on the Write Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 12.--13. "  SRC_AMODE               ,Selects the addressing mode on the Read Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 10. "      WR_ACTIVE             ,Indicates if the channel write context is active or not - . - ." "0,1"
textline "                             "
bitfld.long 0x00 9. " RD_ACTIVE                               ,Indicates if the channel read context is active or not - . - ." "0,1"
bitfld.long 0x00 8. "                      SUSPEND_SENSITIVE       ,Logical channel suspend enable bit - . - ." "0,1"
bitfld.long 0x00 7. "                          ENABLE                ,Logical channel enable. It is SW responsibility to clear the CSR register and the IRQSTATUS bit for the different interrupt lines before enabling the channel. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 6. " READ_PRIORITY                           ,Channel priority on the read side - . - ." "0,1"
bitfld.long 0x00 5. "                      FS                      ,Frame synchronization This bit used in conjunction with the BS to see how the DMA request is serviced in a synchronized transfer FS = 0 and BS = 0: An element is transferred once a DMA request is made. FS ..." "0,1"
bitfld.long 0x00 0.--4. "                          SYNCHRO_CONTROL       ,Channel synchronization control This bit field used in conjunction with the second_level_ synchro_control_upper (as 2 MSB) 0000000 : Is reserved for non synchronized LCH transfer xxxxxxx (from 1 to 127)T..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xB98++0x3
line.long 0x00 "DMA4_CDACi_29,Channel Destination Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " DST_ELMNT_ADRS                          ,Current destination address counter value"
group.long 0xB8C++0x3
line.long 0x00 "DMA4_CDEIi_29,Channel Destination Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_DST_ELMNT_INDEX                 ,Channel destination element index"
group.long 0xB90++0x3
line.long 0x00 "DMA4_CDFIi_29,Channel Destination Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_DST_FRM_IDX_OR_16BIT_PKT_ELNT_NBR    ,Channel destination frame index value if destination address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC]=0; the bit field [15:0] gives the number of element in packet. The field [31:16]..."
group.long 0xBB0++0x3
line.long 0x00 "DMA4_CDPi_29,This register controls the various parameters of the link list mechanism"
bitfld.long 0x00 10. " FAST                                    ,Sets the fast-start mode for linked list descriptor types 1, 2 and 3 - . - ." "No_fast-start_mode,1"
bitfld.long 0x00 8.--9. "     TRANSFER_MODE           ,Enable linked-list transfer mode - . - . - . - ." "0,1,Undefined,Undefined"
bitfld.long 0x00 7. "                  PAUSE_LINK_LIST       ,Suspend the linked-list transfer at completion of the current block transfer. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 4.--6. " NEXT_DESCRIPTOR_TYPE                    ,Next Descriptor Type - . - . - . - . - . - . - . - ." "Undefined,1,2,3,Undefined,Undefined,Undefined,Undefined"
bitfld.long 0x00 2.--3. "              SRC_VALID               ,Source address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
bitfld.long 0x00 0.--1. "  DEST_VALID            ,Destination address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
group.long 0xB80++0x3
line.long 0x00 "DMA4_CDSAi_29,Channel Destination Start Address"
hexmask.long 0x00 0.--31. 1. " DST_START_ADRS                          ,32 bits of the destination start address"
group.long 0xB74++0x3
line.long 0x00 "DMA4_CENi_29,Channel Element Number"
hexmask.long.tbyte 0x00 0.--23. 1. " CHANNEL_ELMNT_NBR                       ,Number of elements within a frame (unsigned) to transfer"
group.long 0xB78++0x3
line.long 0x00 "DMA4_CFNi_29,Channel Frame Number"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_FRAME_NBR                       ,Number of frames within the block to be transferred (unsigned)"
group.long 0xB68++0x3
line.long 0x00 "DMA4_CICRi_29,Channel Interrupt Control Register"
bitfld.long 0x00 14. " SUPER_BLOCK_IE                          ,Enables the end of super block interrupt" "0,1"
bitfld.long 0x00 12. "                      DRAIN_IE                ,Enables the end of draining interrupt" "0,1"
bitfld.long 0x00 11. "                          MISALIGNED_ERR_IE     ,Enables the address misaligned error event interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 10. " SUPERVISOR_ERR_IE                       ,Enables the supervisor transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 8. "                      TRANS_ERR_IE            ,Enables the transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 7. "                          PKT_IE                ,Enables the end of Packet interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 5. " BLOCK_IE                                ,Enables the end of block interrupt - . - ." "0,1"
bitfld.long 0x00 4. "                      LAST_IE                 ,Last frame interrupt enable (start of last frame) - . - ." "0,1"
bitfld.long 0x00 3. "                          FRAME_IE              ,Frame interrupt enable (end of frame) - . - ." "0,1"
textline "                             "
bitfld.long 0x00 2. " HALF_IE                                 ,Enables or disables the half frame interrupt. - . - ." "0,1"
bitfld.long 0x00 1. "                      DROP_IE                 ,Synchronization event drop interrupt enable (request collision) - . - ." "0,1"
group.long 0xB64++0x3
line.long 0x00 "DMA4_CLNK_CTRLi_29,Channel Link Control Register"
bitfld.long 0x00 15. " ENABLE_LNK                              ,Enables or disable the channel linking. - . - ." "0,1"
bitfld.long 0x00 0.--4. "                      NEXTLCH_ID              ,Defines the NextLCh_ID, which is used to build logical channel chaining queue." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xBB4++0x3
line.long 0x00 "DMA4_CNDPi_29,This register contains the Next descriptor Address Pointer for the link list Mechanism"
hexmask.long 0x00 2.--31. 1. " NEXT_DESCRIPTOR_POINTER                 ,This register contains the Next descriptor Address Pointer for the link list Mechanism"
group.long 0xBA4++0x3
line.long 0x00 "DMA4_COLORi_29,Channel DMA COLOR KEY /SOLID COLOR"
hexmask.long.tbyte 0x00 0.--23. 1. " CH_BLT_FRGRND_COLOR_OR_SOLID_COLOR_PTRN ,Color key or solid color pattern: The pattern is replicated according to the data type. If the data-type is 8-bit the pattern is replicated 4 times to fill the register in order to enhance processing when data ..."
rgroup.long 0xB94++0x3
line.long 0x00 "DMA4_CSACi_29,Channel Source Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " SRC_ELMNT_ADRS                          ,Current source address counter value"
group.long 0xB70++0x3
line.long 0x00 "DMA4_CSDPi_29,Channel Source Destination Parameters"
bitfld.long 0x00 21. " SRC_ENDIAN                              ,Channel source endianness control - . - ." "0,1"
bitfld.long 0x00 20. "                      SRC_ENDIAN_LOCK         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 19. "           DST_ENDIAN            ,Channel Destination endianness control - . - ." "0,1"
textline "                             "
bitfld.long 0x00 18. " DST_ENDIAN_LOCK                         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 16.--17. "       WRITE_MODE              ,Used to enable writing mode without posting or with posting - . - . - . - ." "0,Write_(Posted),2,Undefined"
bitfld.long 0x00 14.--15. "             DST_BURST_EN          ,Used to enable bursting on the Write Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
textline "                             "
bitfld.long 0x00 13. " DST_PACKED                              ,Destination receives packed data. - . - ." "0,1"
bitfld.long 0x00 7.--8. "                      SRC_BURST_EN            ,Used to enable bursting on the Read Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
bitfld.long 0x00 6. "              SRC_PACKED            ,Source provides packed data. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0.--1. " DATA_TYPE                               ,Defines the type of the data moved in the channel. - . - . - . - ." "8_bits_scalar,16_bits_scalar,32_bits_scalar,Reserved"
group.long 0xB84++0x3
line.long 0x00 "DMA4_CSEIi_29,Channel Source Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_SRC_ELMNT_INDEX                 ,Channel source element index"
group.long 0xB88++0x3
line.long 0x00 "DMA4_CSFIi_29,Channel Source Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_SRC_FRM_INDEX_OR_16BIT_PKT_ELNT_NBR  ,Channel source frame index value if source address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC] = 1; the bit field [15:0] gives the number of element in packet. The field [31:16] is unus..."
group.long 0xB6C++0x3
line.long 0x00 "DMA4_CSRi_29,Channel Status Register"
eventfld.long 0x00 14. " SUPER_BLOCK                             ,End of Super block event Read 0x0: The current Super block transfer has not been finished Write 0x0: Status bit unchanged Read 0x1: The current Super block has been transferred Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 12. "                      DRAIN_END               ,End of channel draining Read 0x0: No drain end in the current transfer Write 0x0: Status bit unchanged Read 0x1: The current channel draining is completed Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 11. "                          MISALIGNED_ADRS_ERR   ,Misaligned address error event - . - . - . - ." "No_address_error,1"
textline "                             "
eventfld.long 0x00 10. " SUPERVISOR_ERR                          ,Supervisor transaction error event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 8. "   TRANS_ERR               ,Transaction error event - . - . - . - ." "No_transaction_error,1"
eventfld.long 0x00 7. "       PKT                   ,End of Packet transfer - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 6. " SYNC                                    ,Synchronization status of a channel. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 5. "   BLOCK                   ,End of block event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 4. "       LAST                  ,Last frame (start of last frame) - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 3. " FRAME                                   ,End of frame event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 2. "   HALF                    ,Half of frame event. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 1. "       DROP                  ,Synchronization event drop occured during the transfer - . - . - . - ." "Status_bit_unchanged,1"
group.long 0xB7C++0x3
line.long 0x00 "DMA4_CSSAi_29,Channel Source Start Address"
hexmask.long 0x00 0.--31. 1. " SRC_START_ADRS                          ,32 bits of the source start address"
tree.end
tree "DMA_Channel_30"
width 20.
group.long 0xC18++0x3
line.long 0x00 "DMA4_CCDNi_30,"
hexmask.long.word 0x00 0.--15. 1. " CURRENT_DESCRIPTOR_NBR                  ,This register when read contains the current active descriptor number in the link list. This register is Read/write to allow user initialization."
group.long 0xBFC++0x3
line.long 0x00 "DMA4_CCENi_30,Channel Current Transferred Element Number in the current frame. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.tbyte 0x00 0.--23. 1. " CURRENT_ELMNT_NBR                       ,Channel current transferred element number in the current frame"
group.long 0xC00++0x3
line.long 0x00 "DMA4_CCFNi_30,Channel Current Transferred Frame Number in the current transfer. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.word 0x00 0.--15. 1. " CURRENT_FRAME_NBR                       ,Channel current transferred frame number in the current transfer"
group.long 0xBC0++0x3
line.long 0x00 "DMA4_CCRi_30,Channel Control Register"
bitfld.long 0x00 26. " WRITE_PRIORITY                          ,Channel priority on the Write side - . - ." "0,1"
bitfld.long 0x00 25. "                      BUFFERING_DISABLE       ,This bit allows to disable the default buffering functionality when transfer is source synchronized. - . - ." "0,1"
bitfld.long 0x00 24. "                          SEL_SRC_DST_SYNC      ,Specifies that element, packet, frame or block transfer (depending on CCR.bs and CCR.fs) is triggered by the source or the destination on the DMA request - . - ." "0,1"
textline "                             "
bitfld.long 0x00 23. " PREFETCH                                ,Enables the prefetch mode - . - ." "0,1"
bitfld.long 0x00 22. "                      SUPERVISOR              ,Enables the supervisor mode - . - ." "0,1"
bitfld.long 0x00 19.--20. "                          SYNCHRO_CONTROL_UPPER ,Channel Synchronization control upper (used in conjunction with the 5 bits of synchro channelDMA4_CCRi[4:0]) Used in conjunction, as 2 MSB, with the 5 bits of the synchro channel bit field." "0,1,2,3"
textline "                             "
bitfld.long 0x00 18. " BS                                      ,Block synchronization This bit used in conjunction with the fs to see how the DMA request is serviced in a synchronized transfer." "0,1"
bitfld.long 0x00 17. "                      TRANSPARENT_COPY_ENABLE ,Transparent copy enable - . - ." "0,1"
bitfld.long 0x00 16. "                          CONST_FILL_ENABLE     ,Constant fill enable - . - ." "0,1"
textline "                             "
bitfld.long 0x00 14.--15. " DST_AMODE                               ,Selects the addressing mode on the Write Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 12.--13. "  SRC_AMODE               ,Selects the addressing mode on the Read Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 10. "      WR_ACTIVE             ,Indicates if the channel write context is active or not - . - ." "0,1"
textline "                             "
bitfld.long 0x00 9. " RD_ACTIVE                               ,Indicates if the channel read context is active or not - . - ." "0,1"
bitfld.long 0x00 8. "                      SUSPEND_SENSITIVE       ,Logical channel suspend enable bit - . - ." "0,1"
bitfld.long 0x00 7. "                          ENABLE                ,Logical channel enable. It is SW responsibility to clear the CSR register and the IRQSTATUS bit for the different interrupt lines before enabling the channel. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 6. " READ_PRIORITY                           ,Channel priority on the read side - . - ." "0,1"
bitfld.long 0x00 5. "                      FS                      ,Frame synchronization This bit used in conjunction with the BS to see how the DMA request is serviced in a synchronized transfer FS = 0 and BS = 0: An element is transferred once a DMA request is made. FS ..." "0,1"
bitfld.long 0x00 0.--4. "                          SYNCHRO_CONTROL       ,Channel synchronization control This bit field used in conjunction with the second_level_ synchro_control_upper (as 2 MSB) 0000000 : Is reserved for non synchronized LCH transfer xxxxxxx (from 1 to 127)T..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xBF8++0x3
line.long 0x00 "DMA4_CDACi_30,Channel Destination Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " DST_ELMNT_ADRS                          ,Current destination address counter value"
group.long 0xBEC++0x3
line.long 0x00 "DMA4_CDEIi_30,Channel Destination Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_DST_ELMNT_INDEX                 ,Channel destination element index"
group.long 0xBF0++0x3
line.long 0x00 "DMA4_CDFIi_30,Channel Destination Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_DST_FRM_IDX_OR_16BIT_PKT_ELNT_NBR    ,Channel destination frame index value if destination address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC]=0; the bit field [15:0] gives the number of element in packet. The field [31:16]..."
group.long 0xC10++0x3
line.long 0x00 "DMA4_CDPi_30,This register controls the various parameters of the link list mechanism"
bitfld.long 0x00 10. " FAST                                    ,Sets the fast-start mode for linked list descriptor types 1, 2 and 3 - . - ." "No_fast-start_mode,1"
bitfld.long 0x00 8.--9. "     TRANSFER_MODE           ,Enable linked-list transfer mode - . - . - . - ." "0,1,Undefined,Undefined"
bitfld.long 0x00 7. "                  PAUSE_LINK_LIST       ,Suspend the linked-list transfer at completion of the current block transfer. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 4.--6. " NEXT_DESCRIPTOR_TYPE                    ,Next Descriptor Type - . - . - . - . - . - . - . - ." "Undefined,1,2,3,Undefined,Undefined,Undefined,Undefined"
bitfld.long 0x00 2.--3. "              SRC_VALID               ,Source address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
bitfld.long 0x00 0.--1. "  DEST_VALID            ,Destination address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
group.long 0xBE0++0x3
line.long 0x00 "DMA4_CDSAi_30,Channel Destination Start Address"
hexmask.long 0x00 0.--31. 1. " DST_START_ADRS                          ,32 bits of the destination start address"
group.long 0xBD4++0x3
line.long 0x00 "DMA4_CENi_30,Channel Element Number"
hexmask.long.tbyte 0x00 0.--23. 1. " CHANNEL_ELMNT_NBR                       ,Number of elements within a frame (unsigned) to transfer"
group.long 0xBD8++0x3
line.long 0x00 "DMA4_CFNi_30,Channel Frame Number"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_FRAME_NBR                       ,Number of frames within the block to be transferred (unsigned)"
group.long 0xBC8++0x3
line.long 0x00 "DMA4_CICRi_30,Channel Interrupt Control Register"
bitfld.long 0x00 14. " SUPER_BLOCK_IE                          ,Enables the end of super block interrupt" "0,1"
bitfld.long 0x00 12. "                      DRAIN_IE                ,Enables the end of draining interrupt" "0,1"
bitfld.long 0x00 11. "                          MISALIGNED_ERR_IE     ,Enables the address misaligned error event interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 10. " SUPERVISOR_ERR_IE                       ,Enables the supervisor transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 8. "                      TRANS_ERR_IE            ,Enables the transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 7. "                          PKT_IE                ,Enables the end of Packet interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 5. " BLOCK_IE                                ,Enables the end of block interrupt - . - ." "0,1"
bitfld.long 0x00 4. "                      LAST_IE                 ,Last frame interrupt enable (start of last frame) - . - ." "0,1"
bitfld.long 0x00 3. "                          FRAME_IE              ,Frame interrupt enable (end of frame) - . - ." "0,1"
textline "                             "
bitfld.long 0x00 2. " HALF_IE                                 ,Enables or disables the half frame interrupt. - . - ." "0,1"
bitfld.long 0x00 1. "                      DROP_IE                 ,Synchronization event drop interrupt enable (request collision) - . - ." "0,1"
group.long 0xBC4++0x3
line.long 0x00 "DMA4_CLNK_CTRLi_30,Channel Link Control Register"
bitfld.long 0x00 15. " ENABLE_LNK                              ,Enables or disable the channel linking. - . - ." "0,1"
bitfld.long 0x00 0.--4. "                      NEXTLCH_ID              ,Defines the NextLCh_ID, which is used to build logical channel chaining queue." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xC14++0x3
line.long 0x00 "DMA4_CNDPi_30,This register contains the Next descriptor Address Pointer for the link list Mechanism"
hexmask.long 0x00 2.--31. 1. " NEXT_DESCRIPTOR_POINTER                 ,This register contains the Next descriptor Address Pointer for the link list Mechanism"
group.long 0xC04++0x3
line.long 0x00 "DMA4_COLORi_30,Channel DMA COLOR KEY /SOLID COLOR"
hexmask.long.tbyte 0x00 0.--23. 1. " CH_BLT_FRGRND_COLOR_OR_SOLID_COLOR_PTRN ,Color key or solid color pattern: The pattern is replicated according to the data type. If the data-type is 8-bit the pattern is replicated 4 times to fill the register in order to enhance processing when data ..."
rgroup.long 0xBF4++0x3
line.long 0x00 "DMA4_CSACi_30,Channel Source Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " SRC_ELMNT_ADRS                          ,Current source address counter value"
group.long 0xBD0++0x3
line.long 0x00 "DMA4_CSDPi_30,Channel Source Destination Parameters"
bitfld.long 0x00 21. " SRC_ENDIAN                              ,Channel source endianness control - . - ." "0,1"
bitfld.long 0x00 20. "                      SRC_ENDIAN_LOCK         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 19. "           DST_ENDIAN            ,Channel Destination endianness control - . - ." "0,1"
textline "                             "
bitfld.long 0x00 18. " DST_ENDIAN_LOCK                         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 16.--17. "       WRITE_MODE              ,Used to enable writing mode without posting or with posting - . - . - . - ." "0,Write_(Posted),2,Undefined"
bitfld.long 0x00 14.--15. "             DST_BURST_EN          ,Used to enable bursting on the Write Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
textline "                             "
bitfld.long 0x00 13. " DST_PACKED                              ,Destination receives packed data. - . - ." "0,1"
bitfld.long 0x00 7.--8. "                      SRC_BURST_EN            ,Used to enable bursting on the Read Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
bitfld.long 0x00 6. "              SRC_PACKED            ,Source provides packed data. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0.--1. " DATA_TYPE                               ,Defines the type of the data moved in the channel. - . - . - . - ." "8_bits_scalar,16_bits_scalar,32_bits_scalar,Reserved"
group.long 0xBE4++0x3
line.long 0x00 "DMA4_CSEIi_30,Channel Source Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_SRC_ELMNT_INDEX                 ,Channel source element index"
group.long 0xBE8++0x3
line.long 0x00 "DMA4_CSFIi_30,Channel Source Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_SRC_FRM_INDEX_OR_16BIT_PKT_ELNT_NBR  ,Channel source frame index value if source address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC] = 1; the bit field [15:0] gives the number of element in packet. The field [31:16] is unus..."
group.long 0xBCC++0x3
line.long 0x00 "DMA4_CSRi_30,Channel Status Register"
eventfld.long 0x00 14. " SUPER_BLOCK                             ,End of Super block event Read 0x0: The current Super block transfer has not been finished Write 0x0: Status bit unchanged Read 0x1: The current Super block has been transferred Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 12. "                      DRAIN_END               ,End of channel draining Read 0x0: No drain end in the current transfer Write 0x0: Status bit unchanged Read 0x1: The current channel draining is completed Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 11. "                          MISALIGNED_ADRS_ERR   ,Misaligned address error event - . - . - . - ." "No_address_error,1"
textline "                             "
eventfld.long 0x00 10. " SUPERVISOR_ERR                          ,Supervisor transaction error event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 8. "   TRANS_ERR               ,Transaction error event - . - . - . - ." "No_transaction_error,1"
eventfld.long 0x00 7. "       PKT                   ,End of Packet transfer - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 6. " SYNC                                    ,Synchronization status of a channel. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 5. "   BLOCK                   ,End of block event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 4. "       LAST                  ,Last frame (start of last frame) - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 3. " FRAME                                   ,End of frame event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 2. "   HALF                    ,Half of frame event. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 1. "       DROP                  ,Synchronization event drop occured during the transfer - . - . - . - ." "Status_bit_unchanged,1"
group.long 0xBDC++0x3
line.long 0x00 "DMA4_CSSAi_30,Channel Source Start Address"
hexmask.long 0x00 0.--31. 1. " SRC_START_ADRS                          ,32 bits of the source start address"
tree.end
tree "DMA_Channel_31"
width 20.
group.long 0xC78++0x3
line.long 0x00 "DMA4_CCDNi_31,"
hexmask.long.word 0x00 0.--15. 1. " CURRENT_DESCRIPTOR_NBR                  ,This register when read contains the current active descriptor number in the link list. This register is Read/write to allow user initialization."
group.long 0xC5C++0x3
line.long 0x00 "DMA4_CCENi_31,Channel Current Transferred Element Number in the current frame. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.tbyte 0x00 0.--23. 1. " CURRENT_ELMNT_NBR                       ,Channel current transferred element number in the current frame"
group.long 0xC60++0x3
line.long 0x00 "DMA4_CCFNi_31,Channel Current Transferred Frame Number in the current transfer. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long.word 0x00 0.--15. 1. " CURRENT_FRAME_NBR                       ,Channel current transferred frame number in the current transfer"
group.long 0xC20++0x3
line.long 0x00 "DMA4_CCRi_31,Channel Control Register"
bitfld.long 0x00 26. " WRITE_PRIORITY                          ,Channel priority on the Write side - . - ." "0,1"
bitfld.long 0x00 25. "                      BUFFERING_DISABLE       ,This bit allows to disable the default buffering functionality when transfer is source synchronized. - . - ." "0,1"
bitfld.long 0x00 24. "                          SEL_SRC_DST_SYNC      ,Specifies that element, packet, frame or block transfer (depending on CCR.bs and CCR.fs) is triggered by the source or the destination on the DMA request - . - ." "0,1"
textline "                             "
bitfld.long 0x00 23. " PREFETCH                                ,Enables the prefetch mode - . - ." "0,1"
bitfld.long 0x00 22. "                      SUPERVISOR              ,Enables the supervisor mode - . - ." "0,1"
bitfld.long 0x00 19.--20. "                          SYNCHRO_CONTROL_UPPER ,Channel Synchronization control upper (used in conjunction with the 5 bits of synchro channelDMA4_CCRi[4:0]) Used in conjunction, as 2 MSB, with the 5 bits of the synchro channel bit field." "0,1,2,3"
textline "                             "
bitfld.long 0x00 18. " BS                                      ,Block synchronization This bit used in conjunction with the fs to see how the DMA request is serviced in a synchronized transfer." "0,1"
bitfld.long 0x00 17. "                      TRANSPARENT_COPY_ENABLE ,Transparent copy enable - . - ." "0,1"
bitfld.long 0x00 16. "                          CONST_FILL_ENABLE     ,Constant fill enable - . - ." "0,1"
textline "                             "
bitfld.long 0x00 14.--15. " DST_AMODE                               ,Selects the addressing mode on the Write Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 12.--13. "  SRC_AMODE               ,Selects the addressing mode on the Read Port of a channel. - . - . - . - ." "Constant_address_mode,1,2,3"
bitfld.long 0x00 10. "      WR_ACTIVE             ,Indicates if the channel write context is active or not - . - ." "0,1"
textline "                             "
bitfld.long 0x00 9. " RD_ACTIVE                               ,Indicates if the channel read context is active or not - . - ." "0,1"
bitfld.long 0x00 8. "                      SUSPEND_SENSITIVE       ,Logical channel suspend enable bit - . - ." "0,1"
bitfld.long 0x00 7. "                          ENABLE                ,Logical channel enable. It is SW responsibility to clear the CSR register and the IRQSTATUS bit for the different interrupt lines before enabling the channel. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 6. " READ_PRIORITY                           ,Channel priority on the read side - . - ." "0,1"
bitfld.long 0x00 5. "                      FS                      ,Frame synchronization This bit used in conjunction with the BS to see how the DMA request is serviced in a synchronized transfer FS = 0 and BS = 0: An element is transferred once a DMA request is made. FS ..." "0,1"
bitfld.long 0x00 0.--4. "                          SYNCHRO_CONTROL       ,Channel synchronization control This bit field used in conjunction with the second_level_ synchro_control_upper (as 2 MSB) 0000000 : Is reserved for non synchronized LCH transfer xxxxxxx (from 1 to 127)T..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xC58++0x3
line.long 0x00 "DMA4_CDACi_31,Channel Destination Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " DST_ELMNT_ADRS                          ,Current destination address counter value"
group.long 0xC4C++0x3
line.long 0x00 "DMA4_CDEIi_31,Channel Destination Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_DST_ELMNT_INDEX                 ,Channel destination element index"
group.long 0xC50++0x3
line.long 0x00 "DMA4_CDFIi_31,Channel Destination Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_DST_FRM_IDX_OR_16BIT_PKT_ELNT_NBR    ,Channel destination frame index value if destination address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC]=0; the bit field [15:0] gives the number of element in packet. The field [31:16]..."
group.long 0xC70++0x3
line.long 0x00 "DMA4_CDPi_31,This register controls the various parameters of the link list mechanism"
bitfld.long 0x00 10. " FAST                                    ,Sets the fast-start mode for linked list descriptor types 1, 2 and 3 - . - ." "No_fast-start_mode,1"
bitfld.long 0x00 8.--9. "     TRANSFER_MODE           ,Enable linked-list transfer mode - . - . - . - ." "0,1,Undefined,Undefined"
bitfld.long 0x00 7. "                  PAUSE_LINK_LIST       ,Suspend the linked-list transfer at completion of the current block transfer. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 4.--6. " NEXT_DESCRIPTOR_TYPE                    ,Next Descriptor Type - . - . - . - . - . - . - . - ." "Undefined,1,2,3,Undefined,Undefined,Undefined,Undefined"
bitfld.long 0x00 2.--3. "              SRC_VALID               ,Source address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
bitfld.long 0x00 0.--1. "  DEST_VALID            ,Destination address valid - . - . - . - ." "0,1,2,Undefined_addressing_mode"
group.long 0xC40++0x3
line.long 0x00 "DMA4_CDSAi_31,Channel Destination Start Address"
hexmask.long 0x00 0.--31. 1. " DST_START_ADRS                          ,32 bits of the destination start address"
group.long 0xC34++0x3
line.long 0x00 "DMA4_CENi_31,Channel Element Number"
hexmask.long.tbyte 0x00 0.--23. 1. " CHANNEL_ELMNT_NBR                       ,Number of elements within a frame (unsigned) to transfer"
group.long 0xC38++0x3
line.long 0x00 "DMA4_CFNi_31,Channel Frame Number"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_FRAME_NBR                       ,Number of frames within the block to be transferred (unsigned)"
group.long 0xC28++0x3
line.long 0x00 "DMA4_CICRi_31,Channel Interrupt Control Register"
bitfld.long 0x00 14. " SUPER_BLOCK_IE                          ,Enables the end of super block interrupt" "0,1"
bitfld.long 0x00 12. "                      DRAIN_IE                ,Enables the end of draining interrupt" "0,1"
bitfld.long 0x00 11. "                          MISALIGNED_ERR_IE     ,Enables the address misaligned error event interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 10. " SUPERVISOR_ERR_IE                       ,Enables the supervisor transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 8. "                      TRANS_ERR_IE            ,Enables the transaction error event interrupt - . - ." "0,1"
bitfld.long 0x00 7. "                          PKT_IE                ,Enables the end of Packet interrupt - . - ." "0,1"
textline "                             "
bitfld.long 0x00 5. " BLOCK_IE                                ,Enables the end of block interrupt - . - ." "0,1"
bitfld.long 0x00 4. "                      LAST_IE                 ,Last frame interrupt enable (start of last frame) - . - ." "0,1"
bitfld.long 0x00 3. "                          FRAME_IE              ,Frame interrupt enable (end of frame) - . - ." "0,1"
textline "                             "
bitfld.long 0x00 2. " HALF_IE                                 ,Enables or disables the half frame interrupt. - . - ." "0,1"
bitfld.long 0x00 1. "                      DROP_IE                 ,Synchronization event drop interrupt enable (request collision) - . - ." "0,1"
group.long 0xC24++0x3
line.long 0x00 "DMA4_CLNK_CTRLi_31,Channel Link Control Register"
bitfld.long 0x00 15. " ENABLE_LNK                              ,Enables or disable the channel linking. - . - ." "0,1"
bitfld.long 0x00 0.--4. "                      NEXTLCH_ID              ,Defines the NextLCh_ID, which is used to build logical channel chaining queue." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xC74++0x3
line.long 0x00 "DMA4_CNDPi_31,This register contains the Next descriptor Address Pointer for the link list Mechanism"
hexmask.long 0x00 2.--31. 1. " NEXT_DESCRIPTOR_POINTER                 ,This register contains the Next descriptor Address Pointer for the link list Mechanism"
group.long 0xC64++0x3
line.long 0x00 "DMA4_COLORi_31,Channel DMA COLOR KEY /SOLID COLOR"
hexmask.long.tbyte 0x00 0.--23. 1. " CH_BLT_FRGRND_COLOR_OR_SOLID_COLOR_PTRN ,Color key or solid color pattern: The pattern is replicated according to the data type. If the data-type is 8-bit the pattern is replicated 4 times to fill the register in order to enhance processing when data ..."
rgroup.long 0xC54++0x3
line.long 0x00 "DMA4_CSACi_31,Channel Source Address Value. User has to access this register only in 32-bit access. If accessed in 8-bit or 16bit data may be corrupted."
hexmask.long 0x00 0.--31. 1. " SRC_ELMNT_ADRS                          ,Current source address counter value"
group.long 0xC30++0x3
line.long 0x00 "DMA4_CSDPi_31,Channel Source Destination Parameters"
bitfld.long 0x00 21. " SRC_ENDIAN                              ,Channel source endianness control - . - ." "0,1"
bitfld.long 0x00 20. "                      SRC_ENDIAN_LOCK         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 19. "           DST_ENDIAN            ,Channel Destination endianness control - . - ." "0,1"
textline "                             "
bitfld.long 0x00 18. " DST_ENDIAN_LOCK                         ,Endianness Lock - . - ." "Endianness_adapt,Endianness_lock"
bitfld.long 0x00 16.--17. "       WRITE_MODE              ,Used to enable writing mode without posting or with posting - . - . - . - ." "0,Write_(Posted),2,Undefined"
bitfld.long 0x00 14.--15. "             DST_BURST_EN          ,Used to enable bursting on the Write Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
textline "                             "
bitfld.long 0x00 13. " DST_PACKED                              ,Destination receives packed data. - . - ." "0,1"
bitfld.long 0x00 7.--8. "                      SRC_BURST_EN            ,Used to enable bursting on the Read Port. Smaller burst size than the programmed burst size is also allowed - . - . - . - ." "single_access,1,2,3"
bitfld.long 0x00 6. "              SRC_PACKED            ,Source provides packed data. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0.--1. " DATA_TYPE                               ,Defines the type of the data moved in the channel. - . - . - . - ." "8_bits_scalar,16_bits_scalar,32_bits_scalar,Reserved"
group.long 0xC44++0x3
line.long 0x00 "DMA4_CSEIi_31,Channel Source Element Index (Signed)"
hexmask.long.word 0x00 0.--15. 1. " CHANNEL_SRC_ELMNT_INDEX                 ,Channel source element index"
group.long 0xC48++0x3
line.long 0x00 "DMA4_CSFIi_31,Channel Source Frame Index (Signed) or 16-bit Packet size"
hexmask.long 0x00 0.--31. 1. " CH_SRC_FRM_INDEX_OR_16BIT_PKT_ELNT_NBR  ,Channel source frame index value if source address is in double index mode. Or if fs=bs=1 and DMA_CCR[SEL_SRC_DST_SYNC] = 1; the bit field [15:0] gives the number of element in packet. The field [31:16] is unus..."
group.long 0xC2C++0x3
line.long 0x00 "DMA4_CSRi_31,Channel Status Register"
eventfld.long 0x00 14. " SUPER_BLOCK                             ,End of Super block event Read 0x0: The current Super block transfer has not been finished Write 0x0: Status bit unchanged Read 0x1: The current Super block has been transferred Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 12. "                      DRAIN_END               ,End of channel draining Read 0x0: No drain end in the current transfer Write 0x0: Status bit unchanged Read 0x1: The current channel draining is completed Write 0x1: Status bit is reset" "0,1"
eventfld.long 0x00 11. "                          MISALIGNED_ADRS_ERR   ,Misaligned address error event - . - . - . - ." "No_address_error,1"
textline "                             "
eventfld.long 0x00 10. " SUPERVISOR_ERR                          ,Supervisor transaction error event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 8. "   TRANS_ERR               ,Transaction error event - . - . - . - ." "No_transaction_error,1"
eventfld.long 0x00 7. "       PKT                   ,End of Packet transfer - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 6. " SYNC                                    ,Synchronization status of a channel. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 5. "   BLOCK                   ,End of block event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 4. "       LAST                  ,Last frame (start of last frame) - . - . - . - ." "Status_bit_unchanged,1"
textline "                             "
eventfld.long 0x00 3. " FRAME                                   ,End of frame event - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 2. "   HALF                    ,Half of frame event. - . - . - . - ." "Status_bit_unchanged,1"
eventfld.long 0x00 1. "       DROP                  ,Synchronization event drop occured during the transfer - . - . - . - ." "Status_bit_unchanged,1"
group.long 0xC3C++0x3
line.long 0x00 "DMA4_CSSAi_31,Channel Source Start Address"
hexmask.long 0x00 0.--31. 1. " SRC_START_ADRS                          ,32 bits of the source start address"
tree.end
textline ""
width 20.
rgroup.long 0x0++0x3
line.long 0x00 "DMA4_REVISION,This register contains the DMA revision code"
hexmask.long 0x00 0.--31. 1. " REVISION                          ,Reserved, Write 0's for future compatibility. Read returns 0"
rgroup.long 0x28++0x3
line.long 0x00 "DMA4_SYSSTATUS,The register provides status information about the module excluding the interrupt status information (see interrupt status register)"
bitfld.long 0x00 0. " RESETDONE                         ,Internal reset monitoring - OnGoing. - Completed." "OnGoing,Completed"
group.long 0x2C++0x3
line.long 0x00 "DMA4_OCP_SYSCONFIG,DMA system configuration register"
bitfld.long 0x00 12.--13. " MIDLEMODE                         ,Read write power management, standby/wait control - Force. - No. - Smart. - reserved." "Force,No,Smart,reserved"
bitfld.long 0x00 8.--9. "       CLOCKACTIVITY                  ,Clocks activities during wake-up Bit 8: Interface clock 0x0: Interface clock can be switched-off Bit 9: Functional clock 0x0: Functional clock can be switched-off" "0,1,2,3"
bitfld.long 0x00 5. "              EMUFREE                              ,Enable sensitivity to MSuspend - Frozen. - Ignored." "Frozen,Ignored"
textline "                             "
bitfld.long 0x00 3.--4. " SIDLEMODE                         ,Configuration port power management, Idle req/ack control - Force. - No. - Smart. - reserved." "Force,No,Smart,reserved"
bitfld.long 0x00 0. "       AUTOIDLE                       ,Internal interface clock gating strategy - FreeRunning. - ClockGating." "FreeRunning,ClockGating"
rgroup.long 0x64++0x3
line.long 0x00 "DMA4_CAPS_0,DMA Capabilities Register 0 LSW"
bitfld.long 0x00 21. " LINK_LIST_CPBLTY_TYPE4            ,Link List capability for type4 descriptor capability" "Low,High"
bitfld.long 0x00 20. "           LINK_LIST_CPBLTY_TYPE123       ,Link List capability for type123 descriptor capability" "Low,High"
bitfld.long 0x00 19. "           CONST_FILL_CPBLTY                    ,Constant_Fill_Capability - NoLCH. - AnyLCH." "NoLCH,AnyLCH"
textline "                             "
bitfld.long 0x00 18. " TRANSPARENT_BLT_CPBLTY            ,Transparent_BLT_Capability - NoLCH. - AnyLCH." "NoLCH,AnyLCH"
rgroup.long 0x6C++0x3
line.long 0x00 "DMA4_CAPS_2,DMA Capabilities Register 2"
bitfld.long 0x00 8. " SEPARATE_SRC_AND_DST_INDEX_CPBLTY ,Separate_source/destination_index_capability - NotSupported. - Supported." "NotSupported,Supported"
bitfld.long 0x00 7. "   DST_DOUBLE_INDEX_ADRS_CPBLTY   ,Destination_double_index_address_capability - NotSupported. - Supported." "NotSupported,Supported"
bitfld.long 0x00 6. "   DST_SINGLE_INDEX_ADRS_CPBLTY         ,Destination_single_index_address_capability - NotSupported. - Supported." "NotSupported,Supported"
textline "                             "
bitfld.long 0x00 5. " DST_POST_INCRMNT_ADRS_CPBLTY      ,Destination_post_increment_address_capability - NotSupported. - NotSupported." "NotSupported,NotSupported"
bitfld.long 0x00 4. "   DST_CONST_ADRS_CPBLTY          ,Destination_constant_address_capability - NotSupported. - NotSupported." "NotSupported,NotSupported"
bitfld.long 0x00 3. "   SRC_DOUBLE_INDEX_ADRS_CPBLTY         ,Source_double_index_address_capability - NotSupported. - Supported." "NotSupported,Supported"
textline "                             "
bitfld.long 0x00 2. " SRC_SINGLE_INDEX_ADRS_CPBLTY      ,Source_single_index_address_capability - NotSupported. - Supported." "NotSupported,Supported"
bitfld.long 0x00 1. "   SRC_POST_INCREMENT_ADRS_CPBLTY ,Source_post_increment_address_capability - NotSupported. - NotSupported." "NotSupported,NotSupported"
bitfld.long 0x00 0. "   SRC_CONST_ADRS_CPBLTY                ,Source_constant_address_capability - NotSupported. - NotSupported." "NotSupported,NotSupported"
rgroup.long 0x70++0x3
line.long 0x00 "DMA4_CAPS_3,DMA Capabilities Register 3"
bitfld.long 0x00 7. " BLOCK_SYNCHR_CPBLTY               ,Block_synchronization_capability - NotSupported. - Supported." "NotSupported,Supported"
bitfld.long 0x00 6. "   PKT_SYNCHR_CPBLTY              ,Packet_synchronization_capability - NotSupported. - Supported." "NotSupported,Supported"
bitfld.long 0x00 5. "   CHANNEL_CHANINIG_CPBLTY              ,Channel_Chaninig_capability - . - ." "Not_Supported,Supported"
textline "                             "
bitfld.long 0x00 4. " CHANNEL_INTERLEAVE_CPBLTY         ,Channel_interleave_capability - . - ." "Not_Supported,Supported"
bitfld.long 0x00 1. "  FRAME_SYNCHR_CPBLTY            ,Frame_synchronization_capability - . - ." "Not_Supported,Supported"
bitfld.long 0x00 0. "  ELMNT_SYNCHR_CPBLTY                  ,Element_synchronization_capability - . - ." "Not_Supported,Supported"
rgroup.long 0x74++0x3
line.long 0x00 "DMA4_CAPS_4,DMA Capabilities Register 4"
bitfld.long 0x00 14. " EOSB_INTERRUPT_CPBLTY             ,End of Super Block detection capability." "Not_Supported,Supported"
bitfld.long 0x00 12. "  DRAIN_END_INTERRUPT_CPBLTY     ,Drain End detection capability." "Not_Supported,Supported"
bitfld.long 0x00 11. "  MISALIGNED_ADRS_ERR_INTERRUPT_CPBLTY ,Misaligned error detection capability." "Not_Supported,Supported"
textline "                             "
bitfld.long 0x00 10. " SUPERVISOR_ERR_INTERRUPT_CPBLTY   ,Supervisor error detection capability." "Not_Supported,Supported"
bitfld.long 0x00 8. "  TRANS_ERR_INTERRUPT_CPBLTY     ,Transaction error detection capability." "Not_Supported,Supported"
bitfld.long 0x00 7. "  PKT_INTERRUPT_CPBLTY                 ,End of Packet detection capability. - NotSupported. - Supported." "NotSupported,Supported"
textline "                             "
bitfld.long 0x00 6. " SYNC_STATUS_CPBLTY                ,Sync_status_capability - NotSupported. - Supported." "NotSupported,Supported"
bitfld.long 0x00 5. "   BLOCK_INTERRUPT_CPBLTY         ,End of block detection capability. - NotSupported. - Supported." "NotSupported,Supported"
bitfld.long 0x00 4. "   LAST_FRAME_INTERRUPT_CPBLTY          ,Start of last frame detection capability. - NotSupported. - Supported." "NotSupported,Supported"
textline "                             "
bitfld.long 0x00 3. " FRAME_INTERRUPT_CPBLTY            ,End of frame detection capability. - NotSupported. - Supported." "NotSupported,Supported"
bitfld.long 0x00 2. "   HALF_FRAME_INTERRUPT_CPBLTY    ,Detection capability of the half of frame end. - NotSupported. - Supported." "NotSupported,Supported"
bitfld.long 0x00 1. "   EVENT_DROP_INTERRUPT_CPBLTY          ,Request collision detection capability. - NotSupported. - Supported." "NotSupported,Supported"
group.long 0x78++0x3
line.long 0x00 "DMA4_GCR,FIFO sharing between high and low priority channel. The Maximum per channel FIFO depth is bounded by the low and high channel FIFO budget. The high respectively low priority channels maximum burst size must be less than the min (high respectiv..."
bitfld.long 0x00 24. " CHANNEL_ID_GATE                   ,Gates the Channel ID bus monitoring on both Read and Write ports 0x0: Gates the Channel ID qualifiers on both Read and Write Ports 0x1: Does not gate the Channel ID qualifiers on both Read and Write Ports" "0,1"
hexmask.long.byte 0x00 16.--23. 1. "              ARBITRATION_RATE               ,Arbitration switching rate between prioritized and regular channel queues"
bitfld.long 0x00 14.--15. "             HI_LO_FIFO_BUDGET                    ,Allow to have a separate Global FIFO budget for high and low priority channels. For Hi priority Channel: (Per_channel_Maximum FIFO depth + 1) x Number of active High priority Channel =< High Bud..." "No_budget,75%/25%,25%/75%,50%/50%"
textline "                             "
bitfld.long 0x00 12.--13. " HI_THREAD_RESERVED                ,Allow thread reservation for high priority channel on both read and write ports. - NoThrRsrv. - OneThrRsrv. - TwoThrRsrv. - ThreeThrRsrv." "NoThrRsrv,OneThrRsrv,TwoThrRsrv,ThreeThrRsrv"
hexmask.long.byte 0x00 0.--7. 1. "   MAX_CHANNEL_FIFO_DEPTH         ,Maximum FIFO depth allocated to one logical channel. Maximum FIFO depth can not be 0x0. It should be at least 0x1 or greater. Note that If channel limit is less than destination burst size enough data will not be accu..."
width 0x0B
tree.end
tree.end
tree.open "IODELAYCONFIG_Module"
tree "IODELAYCONFIG"
base ad:0x4844A000
width 25.
group.long 0xC++0x3
line.long 0x00 "CONFIG_REG_0,Calibration Control Register"
bitfld.long 0x00 1. " ROM_READ           ,Triggers complete ROM read when '1' is written. Cleared when ROM read is complete." "0,1"
bitfld.long 0x00 0. "     CALIBRATION_START ,Triggers hardware calibration when '1' is written. Cleared when hardware completes calibration." "0,1"
group.long 0x14++0x3
line.long 0x00 "CONFIG_REG_2,Reference Clock Period Register."
hexmask.long.word 0x00 0.--15. 1. " REFCLK_PERIOD      ,15:0 stores the binary equivalent of reference clock period in units of 10ps. This value (along with calibration results) is used for computing the coarse/fine element delay Example: 0xF0 means 2400ps."
group.long 0x18++0x3
line.long 0x00 "CONFIG_REG_3,coarse calibration results register"
hexmask.long.word 0x00 16.--31. 1. " COARSE_DELAY_COUNT ,Results of 16 bit counter clocked by 'delay line oscillator' clock during calibration."
hexmask.long.word 0x00 0.--15. 1. "  COARSE_REF_COUNT  ,Results of 16 bit counter clocked by 'reference' clock during coarse calibration."
group.long 0x1C++0x3
line.long 0x00 "CONFIG_REG_4,fine calibration results register"
hexmask.long.word 0x00 16.--31. 1. " FINE_DELAY_COUNT   ,Results of 16 bit counter clocked by 'delay line oscillator' clock during fine calibration."
hexmask.long.word 0x00 0.--15. 1. "  FINE_REF_COUNT    ,Results of 16 bit counter clocked by 'reference' clock during fine calibration."
group.long 0x2C++0x3
line.long 0x00 "CONFIG_REG_8,Global Lock Register."
bitfld.long 0x00 0. " GLOBAL_LOCK_BIT    ,Global Lock Bit Register. A '1' in this bit protects the writes to MMRs that store delay line select values. A '0' in this bit indicates that MMRs that store delay line select values are writeable. To write a '0' to this bit, signa..." "0,1"
group.long 0x30++0x3
line.long 0x00 "CFG_RMII_MHZ_50_CLK_IN,Delay Select Value in binary coded form for cfg_RMII_MHZ_50_CLK_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x34++0x3
line.long 0x00 "CFG_RMII_MHZ_50_CLK_OEN,Delay Select Value in binary coded form for cfg_RMII_MHZ_50_CLK_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x38++0x3
line.long 0x00 "CFG_RMII_MHZ_50_CLK_OUT,Delay Select Value in binary coded form for cfg_RMII_MHZ_50_CLK_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x3C++0x3
line.long 0x00 "CFG_WAKEUP0_IN,Delay Select Value in binary coded form for cfg_Wakeup0_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x40++0x3
line.long 0x00 "CFG_WAKEUP0_OEN,Delay Select Value in binary coded form for cfg_Wakeup0_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x44++0x3
line.long 0x00 "CFG_WAKEUP0_OUT,Delay Select Value in binary coded form for cfg_Wakeup0_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x48++0x3
line.long 0x00 "CFG_WAKEUP1_IN,Delay Select Value in binary coded form for cfg_Wakeup1_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x4C++0x3
line.long 0x00 "CFG_WAKEUP1_OEN,Delay Select Value in binary coded form for cfg_Wakeup1_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x50++0x3
line.long 0x00 "CFG_WAKEUP1_OUT,Delay Select Value in binary coded form for cfg_Wakeup1_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x54++0x3
line.long 0x00 "CFG_WAKEUP2_IN,Delay Select Value in binary coded form for cfg_Wakeup2_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x58++0x3
line.long 0x00 "CFG_WAKEUP2_OEN,Delay Select Value in binary coded form for cfg_Wakeup2_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x5C++0x3
line.long 0x00 "CFG_WAKEUP2_OUT,Delay Select Value in binary coded form for cfg_Wakeup2_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x60++0x3
line.long 0x00 "CFG_WAKEUP3_IN,Delay Select Value in binary coded form for cfg_Wakeup3_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x64++0x3
line.long 0x00 "CFG_WAKEUP3_OEN,Delay Select Value in binary coded form for cfg_Wakeup3_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x68++0x3
line.long 0x00 "CFG_WAKEUP3_OUT,Delay Select Value in binary coded form for cfg_Wakeup3_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x6C++0x3
line.long 0x00 "CFG_DCAN1_RX_IN,Delay Select Value in binary coded form for cfg_dcan1_rx_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x70++0x3
line.long 0x00 "CFG_DCAN1_RX_OEN,Delay Select Value in binary coded form for cfg_dcan1_rx_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x74++0x3
line.long 0x00 "CFG_DCAN1_RX_OUT,Delay Select Value in binary coded form for cfg_dcan1_rx_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x78++0x3
line.long 0x00 "CFG_DCAN1_TX_IN,Delay Select Value in binary coded form for cfg_dcan1_tx_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x7C++0x3
line.long 0x00 "CFG_DCAN1_TX_OEN,Delay Select Value in binary coded form for cfg_dcan1_tx_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x80++0x3
line.long 0x00 "CFG_DCAN1_TX_OUT,Delay Select Value in binary coded form for cfg_dcan1_tx_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x84++0x3
line.long 0x00 "CFG_DCAN2_RX_IN,Delay Select Value in binary coded form for cfg_dcan2_rx_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x88++0x3
line.long 0x00 "CFG_DCAN2_RX_OEN,Delay Select Value in binary coded form for cfg_dcan2_rx_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x8C++0x3
line.long 0x00 "CFG_DCAN2_RX_OUT,Delay Select Value in binary coded form for cfg_dcan2_rx_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x90++0x3
line.long 0x00 "CFG_DCAN2_TX_IN,Delay Select Value in binary coded form for cfg_dcan2_tx_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x94++0x3
line.long 0x00 "CFG_DCAN2_TX_OEN,Delay Select Value in binary coded form for cfg_dcan2_tx_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x98++0x3
line.long 0x00 "CFG_DCAN2_TX_OUT,Delay Select Value in binary coded form for cfg_dcan2_tx_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x9C++0x3
line.long 0x00 "CFG_EMU0_IN,Delay Select Value in binary coded form for cfg_emu0_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA0++0x3
line.long 0x00 "CFG_EMU0_OEN,Delay Select Value in binary coded form for cfg_emu0_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA4++0x3
line.long 0x00 "CFG_EMU0_OUT,Delay Select Value in binary coded form for cfg_emu0_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA8++0x3
line.long 0x00 "CFG_EMU1_IN,Delay Select Value in binary coded form for cfg_emu1_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xAC++0x3
line.long 0x00 "CFG_EMU1_OEN,Delay Select Value in binary coded form for cfg_emu1_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB0++0x3
line.long 0x00 "CFG_EMU1_OUT,Delay Select Value in binary coded form for cfg_emu1_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB4++0x3
line.long 0x00 "CFG_EMU2_IN,Delay Select Value in binary coded form for cfg_emu2_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB8++0x3
line.long 0x00 "CFG_EMU2_OEN,Delay Select Value in binary coded form for cfg_emu2_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xBC++0x3
line.long 0x00 "CFG_EMU2_OUT,Delay Select Value in binary coded form for cfg_emu2_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC0++0x3
line.long 0x00 "CFG_EMU3_IN,Delay Select Value in binary coded form for cfg_emu3_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC4++0x3
line.long 0x00 "CFG_EMU3_OEN,Delay Select Value in binary coded form for cfg_emu3_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC8++0x3
line.long 0x00 "CFG_EMU3_OUT,Delay Select Value in binary coded form for cfg_emu3_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xCC++0x3
line.long 0x00 "CFG_EMU4_IN,Delay Select Value in binary coded form for cfg_emu4_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xD0++0x3
line.long 0x00 "CFG_EMU4_OEN,Delay Select Value in binary coded form for cfg_emu4_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xD4++0x3
line.long 0x00 "CFG_EMU4_OUT,Delay Select Value in binary coded form for cfg_emu4_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xD8++0x3
line.long 0x00 "CFG_GPIO6_10_IN,Delay Select Value in binary coded form for cfg_gpio6_10_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xDC++0x3
line.long 0x00 "CFG_GPIO6_10_OEN,Delay Select Value in binary coded form for cfg_gpio6_10_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xE0++0x3
line.long 0x00 "CFG_GPIO6_10_OUT,Delay Select Value in binary coded form for cfg_gpio6_10_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xE4++0x3
line.long 0x00 "CFG_GPIO6_11_IN,Delay Select Value in binary coded form for cfg_gpio6_11_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xE8++0x3
line.long 0x00 "CFG_GPIO6_11_OEN,Delay Select Value in binary coded form for cfg_gpio6_11_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xEC++0x3
line.long 0x00 "CFG_GPIO6_11_OUT,Delay Select Value in binary coded form for cfg_gpio6_11_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xF0++0x3
line.long 0x00 "CFG_GPIO6_14_IN,Delay Select Value in binary coded form for cfg_gpio6_14_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xF4++0x3
line.long 0x00 "CFG_GPIO6_14_OEN,Delay Select Value in binary coded form for cfg_gpio6_14_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xF8++0x3
line.long 0x00 "CFG_GPIO6_14_OUT,Delay Select Value in binary coded form for cfg_gpio6_14_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xFC++0x3
line.long 0x00 "CFG_GPIO6_15_IN,Delay Select Value in binary coded form for cfg_gpio6_15_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x100++0x3
line.long 0x00 "CFG_GPIO6_15_OEN,Delay Select Value in binary coded form for cfg_gpio6_15_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x104++0x3
line.long 0x00 "CFG_GPIO6_15_OUT,Delay Select Value in binary coded form for cfg_gpio6_15_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x108++0x3
line.long 0x00 "CFG_GPIO6_16_IN,Delay Select Value in binary coded form for cfg_gpio6_16_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x10C++0x3
line.long 0x00 "CFG_GPIO6_16_OEN,Delay Select Value in binary coded form for cfg_gpio6_16_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x110++0x3
line.long 0x00 "CFG_GPIO6_16_OUT,Delay Select Value in binary coded form for cfg_gpio6_16_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x114++0x3
line.long 0x00 "CFG_GPMC_A0_IN,Delay Select Value in binary coded form for cfg_gpmc_a0_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x118++0x3
line.long 0x00 "CFG_GPMC_A0_OEN,Delay Select Value in binary coded form for cfg_gpmc_a0_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x11C++0x3
line.long 0x00 "CFG_GPMC_A0_OUT,Delay Select Value in binary coded form for cfg_gpmc_a0_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x120++0x3
line.long 0x00 "CFG_GPMC_A10_IN,Delay Select Value in binary coded form for cfg_gpmc_a10_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x124++0x3
line.long 0x00 "CFG_GPMC_A10_OEN,Delay Select Value in binary coded form for cfg_gpmc_a10_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x128++0x3
line.long 0x00 "CFG_GPMC_A10_OUT,Delay Select Value in binary coded form for cfg_gpmc_a10_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x12C++0x3
line.long 0x00 "CFG_GPMC_A11_IN,Delay Select Value in binary coded form for cfg_gpmc_a11_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x130++0x3
line.long 0x00 "CFG_GPMC_A11_OEN,Delay Select Value in binary coded form for cfg_gpmc_a11_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x134++0x3
line.long 0x00 "CFG_GPMC_A11_OUT,Delay Select Value in binary coded form for cfg_gpmc_a11_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x138++0x3
line.long 0x00 "CFG_GPMC_A12_IN,Delay Select Value in binary coded form for cfg_gpmc_a12_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x13C++0x3
line.long 0x00 "CFG_GPMC_A12_OEN,Delay Select Value in binary coded form for cfg_gpmc_a12_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x140++0x3
line.long 0x00 "CFG_GPMC_A12_OUT,Delay Select Value in binary coded form for cfg_gpmc_a12_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x144++0x3
line.long 0x00 "CFG_GPMC_A13_IN,Delay Select Value in binary coded form for cfg_gpmc_a13_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x148++0x3
line.long 0x00 "CFG_GPMC_A13_OEN,Delay Select Value in binary coded form for cfg_gpmc_a13_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x14C++0x3
line.long 0x00 "CFG_GPMC_A13_OUT,Delay Select Value in binary coded form for cfg_gpmc_a13_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x150++0x3
line.long 0x00 "CFG_GPMC_A14_IN,Delay Select Value in binary coded form for cfg_gpmc_a14_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x154++0x3
line.long 0x00 "CFG_GPMC_A14_OEN,Delay Select Value in binary coded form for cfg_gpmc_a14_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x158++0x3
line.long 0x00 "CFG_GPMC_A14_OUT,Delay Select Value in binary coded form for cfg_gpmc_a14_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x15C++0x3
line.long 0x00 "CFG_GPMC_A15_IN,Delay Select Value in binary coded form for cfg_gpmc_a15_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x160++0x3
line.long 0x00 "CFG_GPMC_A15_OEN,Delay Select Value in binary coded form for cfg_gpmc_a15_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x164++0x3
line.long 0x00 "CFG_GPMC_A15_OUT,Delay Select Value in binary coded form for cfg_gpmc_a15_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x168++0x3
line.long 0x00 "CFG_GPMC_A16_IN,Delay Select Value in binary coded form for cfg_gpmc_a16_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x16C++0x3
line.long 0x00 "CFG_GPMC_A16_OEN,Delay Select Value in binary coded form for cfg_gpmc_a16_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x170++0x3
line.long 0x00 "CFG_GPMC_A16_OUT,Delay Select Value in binary coded form for cfg_gpmc_a16_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x174++0x3
line.long 0x00 "CFG_GPMC_A17_IN,Delay Select Value in binary coded form for cfg_gpmc_a17_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x178++0x3
line.long 0x00 "CFG_GPMC_A17_OEN,Delay Select Value in binary coded form for cfg_gpmc_a17_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x17C++0x3
line.long 0x00 "CFG_GPMC_A17_OUT,Delay Select Value in binary coded form for cfg_gpmc_a17_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x180++0x3
line.long 0x00 "CFG_GPMC_A18_IN,Delay Select Value in binary coded form for cfg_gpmc_a18_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x184++0x3
line.long 0x00 "CFG_GPMC_A18_OEN,Delay Select Value in binary coded form for cfg_gpmc_a18_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x188++0x3
line.long 0x00 "CFG_GPMC_A18_OUT,Delay Select Value in binary coded form for cfg_gpmc_a18_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x18C++0x3
line.long 0x00 "CFG_GPMC_A19_IN,Delay Select Value in binary coded form for cfg_gpmc_a19_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x190++0x3
line.long 0x00 "CFG_GPMC_A19_OEN,Delay Select Value in binary coded form for cfg_gpmc_a19_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x194++0x3
line.long 0x00 "CFG_GPMC_A19_OUT,Delay Select Value in binary coded form for cfg_gpmc_a19_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x198++0x3
line.long 0x00 "CFG_GPMC_A1_IN,Delay Select Value in binary coded form for cfg_gpmc_a1_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x19C++0x3
line.long 0x00 "CFG_GPMC_A1_OEN,Delay Select Value in binary coded form for cfg_gpmc_a1_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x1A0++0x3
line.long 0x00 "CFG_GPMC_A1_OUT,Delay Select Value in binary coded form for cfg_gpmc_a1_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x1A4++0x3
line.long 0x00 "CFG_GPMC_A20_IN,Delay Select Value in binary coded form for cfg_gpmc_a20_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x1A8++0x3
line.long 0x00 "CFG_GPMC_A20_OEN,Delay Select Value in binary coded form for cfg_gpmc_a20_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x1AC++0x3
line.long 0x00 "CFG_GPMC_A20_OUT,Delay Select Value in binary coded form for cfg_gpmc_a20_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x1B0++0x3
line.long 0x00 "CFG_GPMC_A21_IN,Delay Select Value in binary coded form for cfg_gpmc_a21_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x1B4++0x3
line.long 0x00 "CFG_GPMC_A21_OEN,Delay Select Value in binary coded form for cfg_gpmc_a21_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x1B8++0x3
line.long 0x00 "CFG_GPMC_A21_OUT,Delay Select Value in binary coded form for cfg_gpmc_a21_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x1BC++0x3
line.long 0x00 "CFG_GPMC_A22_IN,Delay Select Value in binary coded form for cfg_gpmc_a22_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x1C0++0x3
line.long 0x00 "CFG_GPMC_A22_OEN,Delay Select Value in binary coded form for cfg_gpmc_a22_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x1C4++0x3
line.long 0x00 "CFG_GPMC_A22_OUT,Delay Select Value in binary coded form for cfg_gpmc_a22_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x1C8++0x3
line.long 0x00 "CFG_GPMC_A23_IN,Delay Select Value in binary coded form for cfg_gpmc_a23_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x1CC++0x3
line.long 0x00 "CFG_GPMC_A23_OEN,Delay Select Value in binary coded form for cfg_gpmc_a23_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x1D0++0x3
line.long 0x00 "CFG_GPMC_A23_OUT,Delay Select Value in binary coded form for cfg_gpmc_a23_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x1D4++0x3
line.long 0x00 "CFG_GPMC_A24_IN,Delay Select Value in binary coded form for cfg_gpmc_a24_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x1D8++0x3
line.long 0x00 "CFG_GPMC_A24_OEN,Delay Select Value in binary coded form for cfg_gpmc_a24_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x1DC++0x3
line.long 0x00 "CFG_GPMC_A24_OUT,Delay Select Value in binary coded form for cfg_gpmc_a24_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x1E0++0x3
line.long 0x00 "CFG_GPMC_A25_IN,Delay Select Value in binary coded form for cfg_gpmc_a25_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x1E4++0x3
line.long 0x00 "CFG_GPMC_A25_OEN,Delay Select Value in binary coded form for cfg_gpmc_a25_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x1E8++0x3
line.long 0x00 "CFG_GPMC_A25_OUT,Delay Select Value in binary coded form for cfg_gpmc_a25_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x1EC++0x3
line.long 0x00 "CFG_GPMC_A26_IN,Delay Select Value in binary coded form for cfg_gpmc_a26_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x1F0++0x3
line.long 0x00 "CFG_GPMC_A26_OEN,Delay Select Value in binary coded form for cfg_gpmc_a26_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x1F4++0x3
line.long 0x00 "CFG_GPMC_A26_OUT,Delay Select Value in binary coded form for cfg_gpmc_a26_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x1F8++0x3
line.long 0x00 "CFG_GPMC_A27_IN,Delay Select Value in binary coded form for cfg_gpmc_a27_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x1FC++0x3
line.long 0x00 "CFG_GPMC_A27_OEN,Delay Select Value in binary coded form for cfg_gpmc_a27_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x200++0x3
line.long 0x00 "CFG_GPMC_A27_OUT,Delay Select Value in binary coded form for cfg_gpmc_a27_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x204++0x3
line.long 0x00 "CFG_GPMC_A2_IN,Delay Select Value in binary coded form for cfg_gpmc_a2_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x208++0x3
line.long 0x00 "CFG_GPMC_A2_OEN,Delay Select Value in binary coded form for cfg_gpmc_a2_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x20C++0x3
line.long 0x00 "CFG_GPMC_A2_OUT,Delay Select Value in binary coded form for cfg_gpmc_a2_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x210++0x3
line.long 0x00 "CFG_GPMC_A3_IN,Delay Select Value in binary coded form for cfg_gpmc_a3_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x214++0x3
line.long 0x00 "CFG_GPMC_A3_OEN,Delay Select Value in binary coded form for cfg_gpmc_a3_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x218++0x3
line.long 0x00 "CFG_GPMC_A3_OUT,Delay Select Value in binary coded form for cfg_gpmc_a3_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x21C++0x3
line.long 0x00 "CFG_GPMC_A4_IN,Delay Select Value in binary coded form for cfg_gpmc_a4_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x220++0x3
line.long 0x00 "CFG_GPMC_A4_OEN,Delay Select Value in binary coded form for cfg_gpmc_a4_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x224++0x3
line.long 0x00 "CFG_GPMC_A4_OUT,Delay Select Value in binary coded form for cfg_gpmc_a4_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x228++0x3
line.long 0x00 "CFG_GPMC_A5_IN,Delay Select Value in binary coded form for cfg_gpmc_a5_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x22C++0x3
line.long 0x00 "CFG_GPMC_A5_OEN,Delay Select Value in binary coded form for cfg_gpmc_a5_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x230++0x3
line.long 0x00 "CFG_GPMC_A5_OUT,Delay Select Value in binary coded form for cfg_gpmc_a5_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x234++0x3
line.long 0x00 "CFG_GPMC_A6_IN,Delay Select Value in binary coded form for cfg_gpmc_a6_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x238++0x3
line.long 0x00 "CFG_GPMC_A6_OEN,Delay Select Value in binary coded form for cfg_gpmc_a6_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x23C++0x3
line.long 0x00 "CFG_GPMC_A6_OUT,Delay Select Value in binary coded form for cfg_gpmc_a6_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x240++0x3
line.long 0x00 "CFG_GPMC_A7_IN,Delay Select Value in binary coded form for cfg_gpmc_a7_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x244++0x3
line.long 0x00 "CFG_GPMC_A7_OEN,Delay Select Value in binary coded form for cfg_gpmc_a7_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x248++0x3
line.long 0x00 "CFG_GPMC_A7_OUT,Delay Select Value in binary coded form for cfg_gpmc_a7_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x24C++0x3
line.long 0x00 "CFG_GPMC_A8_IN,Delay Select Value in binary coded form for cfg_gpmc_a8_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x250++0x3
line.long 0x00 "CFG_GPMC_A8_OEN,Delay Select Value in binary coded form for cfg_gpmc_a8_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x254++0x3
line.long 0x00 "CFG_GPMC_A8_OUT,Delay Select Value in binary coded form for cfg_gpmc_a8_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x258++0x3
line.long 0x00 "CFG_GPMC_A9_IN,Delay Select Value in binary coded form for cfg_gpmc_a9_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x25C++0x3
line.long 0x00 "CFG_GPMC_A9_OEN,Delay Select Value in binary coded form for cfg_gpmc_a9_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x260++0x3
line.long 0x00 "CFG_GPMC_A9_OUT,Delay Select Value in binary coded form for cfg_gpmc_a9_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x264++0x3
line.long 0x00 "CFG_GPMC_AD0_IN,Delay Select Value in binary coded form for cfg_gpmc_ad0_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x268++0x3
line.long 0x00 "CFG_GPMC_AD0_OEN,Delay Select Value in binary coded form for cfg_gpmc_ad0_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x26C++0x3
line.long 0x00 "CFG_GPMC_AD0_OUT,Delay Select Value in binary coded form for cfg_gpmc_ad0_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x270++0x3
line.long 0x00 "CFG_GPMC_AD10_IN,Delay Select Value in binary coded form for cfg_gpmc_ad10_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x274++0x3
line.long 0x00 "CFG_GPMC_AD10_OEN,Delay Select Value in binary coded form for cfg_gpmc_ad10_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x278++0x3
line.long 0x00 "CFG_GPMC_AD10_OUT,Delay Select Value in binary coded form for cfg_gpmc_ad10_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x27C++0x3
line.long 0x00 "CFG_GPMC_AD11_IN,Delay Select Value in binary coded form for cfg_gpmc_ad11_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x280++0x3
line.long 0x00 "CFG_GPMC_AD11_OEN,Delay Select Value in binary coded form for cfg_gpmc_ad11_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x284++0x3
line.long 0x00 "CFG_GPMC_AD11_OUT,Delay Select Value in binary coded form for cfg_gpmc_ad11_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x288++0x3
line.long 0x00 "CFG_GPMC_AD12_IN,Delay Select Value in binary coded form for cfg_gpmc_ad12_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x28C++0x3
line.long 0x00 "CFG_GPMC_AD12_OEN,Delay Select Value in binary coded form for cfg_gpmc_ad12_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x290++0x3
line.long 0x00 "CFG_GPMC_AD12_OUT,Delay Select Value in binary coded form for cfg_gpmc_ad12_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x294++0x3
line.long 0x00 "CFG_GPMC_AD13_IN,Delay Select Value in binary coded form for cfg_gpmc_ad13_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x298++0x3
line.long 0x00 "CFG_GPMC_AD13_OEN,Delay Select Value in binary coded form for cfg_gpmc_ad13_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x29C++0x3
line.long 0x00 "CFG_GPMC_AD13_OUT,Delay Select Value in binary coded form for cfg_gpmc_ad13_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x2A0++0x3
line.long 0x00 "CFG_GPMC_AD14_IN,Delay Select Value in binary coded form for cfg_gpmc_ad14_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x2A4++0x3
line.long 0x00 "CFG_GPMC_AD14_OEN,Delay Select Value in binary coded form for cfg_gpmc_ad14_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x2A8++0x3
line.long 0x00 "CFG_GPMC_AD14_OUT,Delay Select Value in binary coded form for cfg_gpmc_ad14_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x2AC++0x3
line.long 0x00 "CFG_GPMC_AD15_IN,Delay Select Value in binary coded form for cfg_gpmc_ad15_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x2B0++0x3
line.long 0x00 "CFG_GPMC_AD15_OEN,Delay Select Value in binary coded form for cfg_gpmc_ad15_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x2B4++0x3
line.long 0x00 "CFG_GPMC_AD15_OUT,Delay Select Value in binary coded form for cfg_gpmc_ad15_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x2B8++0x3
line.long 0x00 "CFG_GPMC_AD1_IN,Delay Select Value in binary coded form for cfg_gpmc_ad1_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x2BC++0x3
line.long 0x00 "CFG_GPMC_AD1_OEN,Delay Select Value in binary coded form for cfg_gpmc_ad1_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x2C0++0x3
line.long 0x00 "CFG_GPMC_AD1_OUT,Delay Select Value in binary coded form for cfg_gpmc_ad1_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x2C4++0x3
line.long 0x00 "CFG_GPMC_AD2_IN,Delay Select Value in binary coded form for cfg_gpmc_ad2_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x2C8++0x3
line.long 0x00 "CFG_GPMC_AD2_OEN,Delay Select Value in binary coded form for cfg_gpmc_ad2_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x2CC++0x3
line.long 0x00 "CFG_GPMC_AD2_OUT,Delay Select Value in binary coded form for cfg_gpmc_ad2_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x2D0++0x3
line.long 0x00 "CFG_GPMC_AD3_IN,Delay Select Value in binary coded form for cfg_gpmc_ad3_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x2D4++0x3
line.long 0x00 "CFG_GPMC_AD3_OEN,Delay Select Value in binary coded form for cfg_gpmc_ad3_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x2D8++0x3
line.long 0x00 "CFG_GPMC_AD3_OUT,Delay Select Value in binary coded form for cfg_gpmc_ad3_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x2DC++0x3
line.long 0x00 "CFG_GPMC_AD4_IN,Delay Select Value in binary coded form for cfg_gpmc_ad4_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x2E0++0x3
line.long 0x00 "CFG_GPMC_AD4_OEN,Delay Select Value in binary coded form for cfg_gpmc_ad4_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x2E4++0x3
line.long 0x00 "CFG_GPMC_AD4_OUT,Delay Select Value in binary coded form for cfg_gpmc_ad4_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x2E8++0x3
line.long 0x00 "CFG_GPMC_AD5_IN,Delay Select Value in binary coded form for cfg_gpmc_ad5_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x2EC++0x3
line.long 0x00 "CFG_GPMC_AD5_OEN,Delay Select Value in binary coded form for cfg_gpmc_ad5_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x2F0++0x3
line.long 0x00 "CFG_GPMC_AD5_OUT,Delay Select Value in binary coded form for cfg_gpmc_ad5_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x2F4++0x3
line.long 0x00 "CFG_GPMC_AD6_IN,Delay Select Value in binary coded form for cfg_gpmc_ad6_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x2F8++0x3
line.long 0x00 "CFG_GPMC_AD6_OEN,Delay Select Value in binary coded form for cfg_gpmc_ad6_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x2FC++0x3
line.long 0x00 "CFG_GPMC_AD6_OUT,Delay Select Value in binary coded form for cfg_gpmc_ad6_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x300++0x3
line.long 0x00 "CFG_GPMC_AD7_IN,Delay Select Value in binary coded form for cfg_gpmc_ad7_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x304++0x3
line.long 0x00 "CFG_GPMC_AD7_OEN,Delay Select Value in binary coded form for cfg_gpmc_ad7_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x308++0x3
line.long 0x00 "CFG_GPMC_AD7_OUT,Delay Select Value in binary coded form for cfg_gpmc_ad7_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x30C++0x3
line.long 0x00 "CFG_GPMC_AD8_IN,Delay Select Value in binary coded form for cfg_gpmc_ad8_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x310++0x3
line.long 0x00 "CFG_GPMC_AD8_OEN,Delay Select Value in binary coded form for cfg_gpmc_ad8_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x314++0x3
line.long 0x00 "CFG_GPMC_AD8_OUT,Delay Select Value in binary coded form for cfg_gpmc_ad8_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x318++0x3
line.long 0x00 "CFG_GPMC_AD9_IN,Delay Select Value in binary coded form for cfg_gpmc_ad9_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x31C++0x3
line.long 0x00 "CFG_GPMC_AD9_OEN,Delay Select Value in binary coded form for cfg_gpmc_ad9_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x320++0x3
line.long 0x00 "CFG_GPMC_AD9_OUT,Delay Select Value in binary coded form for cfg_gpmc_ad9_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x324++0x3
line.long 0x00 "CFG_GPMC_ADVN_ALE_IN,Delay Select Value in binary coded form for cfg_gpmc_advn_ale_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x328++0x3
line.long 0x00 "CFG_GPMC_ADVN_ALE_OEN,Delay Select Value in binary coded form for cfg_gpmc_advn_ale_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x32C++0x3
line.long 0x00 "CFG_GPMC_ADVN_ALE_OUT,Delay Select Value in binary coded form for cfg_gpmc_advn_ale_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x330++0x3
line.long 0x00 "CFG_GPMC_BEN0_IN,Delay Select Value in binary coded form for cfg_gpmc_ben0_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x334++0x3
line.long 0x00 "CFG_GPMC_BEN0_OEN,Delay Select Value in binary coded form for cfg_gpmc_ben0_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x338++0x3
line.long 0x00 "CFG_GPMC_BEN0_OUT,Delay Select Value in binary coded form for cfg_gpmc_ben0_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x33C++0x3
line.long 0x00 "CFG_GPMC_BEN1_IN,Delay Select Value in binary coded form for cfg_gpmc_ben1_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x340++0x3
line.long 0x00 "CFG_GPMC_BEN1_OEN,Delay Select Value in binary coded form for cfg_gpmc_ben1_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x344++0x3
line.long 0x00 "CFG_GPMC_BEN1_OUT,Delay Select Value in binary coded form for cfg_gpmc_ben1_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x348++0x3
line.long 0x00 "CFG_GPMC_CLK_IN,Delay Select Value in binary coded form for cfg_gpmc_clk_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x34C++0x3
line.long 0x00 "CFG_GPMC_CLK_OEN,Delay Select Value in binary coded form for cfg_gpmc_clk_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x350++0x3
line.long 0x00 "CFG_GPMC_CLK_OUT,Delay Select Value in binary coded form for cfg_gpmc_clk_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x354++0x3
line.long 0x00 "CFG_GPMC_CS0_IN,Delay Select Value in binary coded form for cfg_gpmc_cs0_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x358++0x3
line.long 0x00 "CFG_GPMC_CS0_OEN,Delay Select Value in binary coded form for cfg_gpmc_cs0_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x35C++0x3
line.long 0x00 "CFG_GPMC_CS0_OUT,Delay Select Value in binary coded form for cfg_gpmc_cs0_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x360++0x3
line.long 0x00 "CFG_GPMC_CS1_IN,Delay Select Value in binary coded form for cfg_gpmc_cs1_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x364++0x3
line.long 0x00 "CFG_GPMC_CS1_OEN,Delay Select Value in binary coded form for cfg_gpmc_cs1_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x368++0x3
line.long 0x00 "CFG_GPMC_CS1_OUT,Delay Select Value in binary coded form for cfg_gpmc_cs1_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x36C++0x3
line.long 0x00 "CFG_GPMC_CS2_IN,Delay Select Value in binary coded form for cfg_gpmc_cs2_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x370++0x3
line.long 0x00 "CFG_GPMC_CS2_OEN,Delay Select Value in binary coded form for cfg_gpmc_cs2_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x374++0x3
line.long 0x00 "CFG_GPMC_CS2_OUT,Delay Select Value in binary coded form for cfg_gpmc_cs2_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x378++0x3
line.long 0x00 "CFG_GPMC_CS3_IN,Delay Select Value in binary coded form for cfg_gpmc_cs3_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x37C++0x3
line.long 0x00 "CFG_GPMC_CS3_OEN,Delay Select Value in binary coded form for cfg_gpmc_cs3_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x380++0x3
line.long 0x00 "CFG_GPMC_CS3_OUT,Delay Select Value in binary coded form for cfg_gpmc_cs3_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x384++0x3
line.long 0x00 "CFG_GPMC_OEN_REN_IN,Delay Select Value in binary coded form for cfg_gpmc_oen_ren_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x388++0x3
line.long 0x00 "CFG_GPMC_OEN_REN_OEN,Delay Select Value in binary coded form for cfg_gpmc_oen_ren_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x38C++0x3
line.long 0x00 "CFG_GPMC_OEN_REN_OUT,Delay Select Value in binary coded form for cfg_gpmc_oen_ren_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x390++0x3
line.long 0x00 "CFG_GPMC_WAIT0_IN,Delay Select Value in binary coded form for cfg_gpmc_wait0_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x394++0x3
line.long 0x00 "CFG_GPMC_WAIT0_OEN,Delay Select Value in binary coded form for cfg_gpmc_wait0_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x398++0x3
line.long 0x00 "CFG_GPMC_WAIT0_OUT,Delay Select Value in binary coded form for cfg_gpmc_wait0_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x39C++0x3
line.long 0x00 "CFG_GPMC_WEN_IN,Delay Select Value in binary coded form for cfg_gpmc_wen_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x3A0++0x3
line.long 0x00 "CFG_GPMC_WEN_OEN,Delay Select Value in binary coded form for cfg_gpmc_wen_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x3A4++0x3
line.long 0x00 "CFG_GPMC_WEN_OUT,Delay Select Value in binary coded form for cfg_gpmc_wen_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x3A8++0x3
line.long 0x00 "CFG_MCASP1_ACLKR_IN,Delay Select Value in binary coded form for cfg_mcasp1_aclkr_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x3AC++0x3
line.long 0x00 "CFG_MCASP1_ACLKR_OEN,Delay Select Value in binary coded form for cfg_mcasp1_aclkr_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x3B0++0x3
line.long 0x00 "CFG_MCASP1_ACLKR_OUT,Delay Select Value in binary coded form for cfg_mcasp1_aclkr_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x3B4++0x3
line.long 0x00 "CFG_MCASP1_ACLKX_IN,Delay Select Value in binary coded form for cfg_mcasp1_aclkx_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x3B8++0x3
line.long 0x00 "CFG_MCASP1_ACLKX_OEN,Delay Select Value in binary coded form for cfg_mcasp1_aclkx_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x3BC++0x3
line.long 0x00 "CFG_MCASP1_ACLKX_OUT,Delay Select Value in binary coded form for cfg_mcasp1_aclkx_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x3C0++0x3
line.long 0x00 "CFG_MCASP1_AXR0_IN,Delay Select Value in binary coded form for cfg_mcasp1_axr0_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x3C4++0x3
line.long 0x00 "CFG_MCASP1_AXR0_OEN,Delay Select Value in binary coded form for cfg_mcasp1_axr0_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x3C8++0x3
line.long 0x00 "CFG_MCASP1_AXR0_OUT,Delay Select Value in binary coded form for cfg_mcasp1_axr0_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x3CC++0x3
line.long 0x00 "CFG_MCASP1_AXR10_IN,Delay Select Value in binary coded form for cfg_mcasp1_axr10_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x3D0++0x3
line.long 0x00 "CFG_MCASP1_AXR10_OEN,Delay Select Value in binary coded form for cfg_mcasp1_axr10_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x3D4++0x3
line.long 0x00 "CFG_MCASP1_AXR10_OUT,Delay Select Value in binary coded form for cfg_mcasp1_axr10_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x3D8++0x3
line.long 0x00 "CFG_MCASP1_AXR11_IN,Delay Select Value in binary coded form for cfg_mcasp1_axr11_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x3DC++0x3
line.long 0x00 "CFG_MCASP1_AXR11_OEN,Delay Select Value in binary coded form for cfg_mcasp1_axr11_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x3E0++0x3
line.long 0x00 "CFG_MCASP1_AXR11_OUT,Delay Select Value in binary coded form for cfg_mcasp1_axr11_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x3E4++0x3
line.long 0x00 "CFG_MCASP1_AXR12_IN,Delay Select Value in binary coded form for cfg_mcasp1_axr12_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x3E8++0x3
line.long 0x00 "CFG_MCASP1_AXR12_OEN,Delay Select Value in binary coded form for cfg_mcasp1_axr12_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x3EC++0x3
line.long 0x00 "CFG_MCASP1_AXR12_OUT,Delay Select Value in binary coded form for cfg_mcasp1_axr12_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x3F0++0x3
line.long 0x00 "CFG_MCASP1_AXR13_IN,Delay Select Value in binary coded form for cfg_mcasp1_axr13_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x3F4++0x3
line.long 0x00 "CFG_MCASP1_AXR13_OEN,Delay Select Value in binary coded form for cfg_mcasp1_axr13_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x3F8++0x3
line.long 0x00 "CFG_MCASP1_AXR13_OUT,Delay Select Value in binary coded form for cfg_mcasp1_axr13_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x3FC++0x3
line.long 0x00 "CFG_MCASP1_AXR14_IN,Delay Select Value in binary coded form for cfg_mcasp1_axr14_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x400++0x3
line.long 0x00 "CFG_MCASP1_AXR14_OEN,Delay Select Value in binary coded form for cfg_mcasp1_axr14_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x404++0x3
line.long 0x00 "CFG_MCASP1_AXR14_OUT,Delay Select Value in binary coded form for cfg_mcasp1_axr14_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x408++0x3
line.long 0x00 "CFG_MCASP1_AXR15_IN,Delay Select Value in binary coded form for cfg_mcasp1_axr15_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x40C++0x3
line.long 0x00 "CFG_MCASP1_AXR15_OEN,Delay Select Value in binary coded form for cfg_mcasp1_axr15_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x410++0x3
line.long 0x00 "CFG_MCASP1_AXR15_OUT,Delay Select Value in binary coded form for cfg_mcasp1_axr15_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x414++0x3
line.long 0x00 "CFG_MCASP1_AXR1_IN,Delay Select Value in binary coded form for cfg_mcasp1_axr1_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x418++0x3
line.long 0x00 "CFG_MCASP1_AXR1_OEN,Delay Select Value in binary coded form for cfg_mcasp1_axr1_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x41C++0x3
line.long 0x00 "CFG_MCASP1_AXR1_OUT,Delay Select Value in binary coded form for cfg_mcasp1_axr1_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x420++0x3
line.long 0x00 "CFG_MCASP1_AXR2_IN,Delay Select Value in binary coded form for cfg_mcasp1_axr2_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x424++0x3
line.long 0x00 "CFG_MCASP1_AXR2_OEN,Delay Select Value in binary coded form for cfg_mcasp1_axr2_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x428++0x3
line.long 0x00 "CFG_MCASP1_AXR2_OUT,Delay Select Value in binary coded form for cfg_mcasp1_axr2_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x42C++0x3
line.long 0x00 "CFG_MCASP1_AXR3_IN,Delay Select Value in binary coded form for cfg_mcasp1_axr3_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x430++0x3
line.long 0x00 "CFG_MCASP1_AXR3_OEN,Delay Select Value in binary coded form for cfg_mcasp1_axr3_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x434++0x3
line.long 0x00 "CFG_MCASP1_AXR3_OUT,Delay Select Value in binary coded form for cfg_mcasp1_axr3_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x438++0x3
line.long 0x00 "CFG_MCASP1_AXR4_IN,Delay Select Value in binary coded form for cfg_mcasp1_axr4_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x43C++0x3
line.long 0x00 "CFG_MCASP1_AXR4_OEN,Delay Select Value in binary coded form for cfg_mcasp1_axr4_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x440++0x3
line.long 0x00 "CFG_MCASP1_AXR4_OUT,Delay Select Value in binary coded form for cfg_mcasp1_axr4_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x444++0x3
line.long 0x00 "CFG_MCASP1_AXR5_IN,Delay Select Value in binary coded form for cfg_mcasp1_axr5_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x448++0x3
line.long 0x00 "CFG_MCASP1_AXR5_OEN,Delay Select Value in binary coded form for cfg_mcasp1_axr5_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x44C++0x3
line.long 0x00 "CFG_MCASP1_AXR5_OUT,Delay Select Value in binary coded form for cfg_mcasp1_axr5_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x450++0x3
line.long 0x00 "CFG_MCASP1_AXR6_IN,Delay Select Value in binary coded form for cfg_mcasp1_axr6_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x454++0x3
line.long 0x00 "CFG_MCASP1_AXR6_OEN,Delay Select Value in binary coded form for cfg_mcasp1_axr6_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x458++0x3
line.long 0x00 "CFG_MCASP1_AXR6_OUT,Delay Select Value in binary coded form for cfg_mcasp1_axr6_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x45C++0x3
line.long 0x00 "CFG_MCASP1_AXR7_IN,Delay Select Value in binary coded form for cfg_mcasp1_axr7_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x460++0x3
line.long 0x00 "CFG_MCASP1_AXR7_OEN,Delay Select Value in binary coded form for cfg_mcasp1_axr7_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x464++0x3
line.long 0x00 "CFG_MCASP1_AXR7_OUT,Delay Select Value in binary coded form for cfg_mcasp1_axr7_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x468++0x3
line.long 0x00 "CFG_MCASP1_AXR8_IN,Delay Select Value in binary coded form for cfg_mcasp1_axr8_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x46C++0x3
line.long 0x00 "CFG_MCASP1_AXR8_OEN,Delay Select Value in binary coded form for cfg_mcasp1_axr8_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x470++0x3
line.long 0x00 "CFG_MCASP1_AXR8_OUT,Delay Select Value in binary coded form for cfg_mcasp1_axr8_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x474++0x3
line.long 0x00 "CFG_MCASP1_AXR9_IN,Delay Select Value in binary coded form for cfg_mcasp1_axr9_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x478++0x3
line.long 0x00 "CFG_MCASP1_AXR9_OEN,Delay Select Value in binary coded form for cfg_mcasp1_axr9_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x47C++0x3
line.long 0x00 "CFG_MCASP1_AXR9_OUT,Delay Select Value in binary coded form for cfg_mcasp1_axr9_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x480++0x3
line.long 0x00 "CFG_MCASP1_FSR_IN,Delay Select Value in binary coded form for cfg_mcasp1_fsr_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x484++0x3
line.long 0x00 "CFG_MCASP1_FSR_OEN,Delay Select Value in binary coded form for cfg_mcasp1_fsr_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x488++0x3
line.long 0x00 "CFG_MCASP1_FSR_OUT,Delay Select Value in binary coded form for cfg_mcasp1_fsr_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x48C++0x3
line.long 0x00 "CFG_MCASP1_FSX_IN,Delay Select Value in binary coded form for cfg_mcasp1_fsx_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x490++0x3
line.long 0x00 "CFG_MCASP1_FSX_OEN,Delay Select Value in binary coded form for cfg_mcasp1_fsx_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x494++0x3
line.long 0x00 "CFG_MCASP1_FSX_OUT,Delay Select Value in binary coded form for cfg_mcasp1_fsx_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x498++0x3
line.long 0x00 "CFG_MCASP2_ACLKR_IN,Delay Select Value in binary coded form for cfg_mcasp2_aclkr_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x49C++0x3
line.long 0x00 "CFG_MCASP2_ACLKR_OEN,Delay Select Value in binary coded form for cfg_mcasp2_aclkr_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x4A0++0x3
line.long 0x00 "CFG_MCASP2_ACLKR_OUT,Delay Select Value in binary coded form for cfg_mcasp2_aclkr_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x4A4++0x3
line.long 0x00 "CFG_MCASP2_ACLKX_IN,Delay Select Value in binary coded form for cfg_mcasp2_aclkx_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x4A8++0x3
line.long 0x00 "CFG_MCASP2_ACLKX_OEN,Delay Select Value in binary coded form for cfg_mcasp2_aclkx_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x4AC++0x3
line.long 0x00 "CFG_MCASP2_ACLKX_OUT,Delay Select Value in binary coded form for cfg_mcasp2_aclkx_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x4B0++0x3
line.long 0x00 "CFG_MCASP2_AXR0_IN,Delay Select Value in binary coded form for cfg_mcasp2_axr0_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x4B4++0x3
line.long 0x00 "CFG_MCASP2_AXR0_OEN,Delay Select Value in binary coded form for cfg_mcasp2_axr0_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x4B8++0x3
line.long 0x00 "CFG_MCASP2_AXR0_OUT,Delay Select Value in binary coded form for cfg_mcasp2_axr0_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x4BC++0x3
line.long 0x00 "CFG_MCASP2_AXR1_IN,Delay Select Value in binary coded form for cfg_mcasp2_axr1_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x4C0++0x3
line.long 0x00 "CFG_MCASP2_AXR1_OEN,Delay Select Value in binary coded form for cfg_mcasp2_axr1_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x4C4++0x3
line.long 0x00 "CFG_MCASP2_AXR1_OUT,Delay Select Value in binary coded form for cfg_mcasp2_axr1_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x4C8++0x3
line.long 0x00 "CFG_MCASP2_AXR2_IN,Delay Select Value in binary coded form for cfg_mcasp2_axr2_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x4CC++0x3
line.long 0x00 "CFG_MCASP2_AXR2_OEN,Delay Select Value in binary coded form for cfg_mcasp2_axr2_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x4D0++0x3
line.long 0x00 "CFG_MCASP2_AXR2_OUT,Delay Select Value in binary coded form for cfg_mcasp2_axr2_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x4D4++0x3
line.long 0x00 "CFG_MCASP2_AXR3_IN,Delay Select Value in binary coded form for cfg_mcasp2_axr3_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x4D8++0x3
line.long 0x00 "CFG_MCASP2_AXR3_OEN,Delay Select Value in binary coded form for cfg_mcasp2_axr3_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x4DC++0x3
line.long 0x00 "CFG_MCASP2_AXR3_OUT,Delay Select Value in binary coded form for cfg_mcasp2_axr3_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x4E0++0x3
line.long 0x00 "CFG_MCASP2_AXR4_IN,Delay Select Value in binary coded form for cfg_mcasp2_axr4_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x4E4++0x3
line.long 0x00 "CFG_MCASP2_AXR4_OEN,Delay Select Value in binary coded form for cfg_mcasp2_axr4_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x4E8++0x3
line.long 0x00 "CFG_MCASP2_AXR4_OUT,Delay Select Value in binary coded form for cfg_mcasp2_axr4_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x4EC++0x3
line.long 0x00 "CFG_MCASP2_AXR5_IN,Delay Select Value in binary coded form for cfg_mcasp2_axr5_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x4F0++0x3
line.long 0x00 "CFG_MCASP2_AXR5_OEN,Delay Select Value in binary coded form for cfg_mcasp2_axr5_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x4F4++0x3
line.long 0x00 "CFG_MCASP2_AXR5_OUT,Delay Select Value in binary coded form for cfg_mcasp2_axr5_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x4F8++0x3
line.long 0x00 "CFG_MCASP2_AXR6_IN,Delay Select Value in binary coded form for cfg_mcasp2_axr6_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x4FC++0x3
line.long 0x00 "CFG_MCASP2_AXR6_OEN,Delay Select Value in binary coded form for cfg_mcasp2_axr6_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x500++0x3
line.long 0x00 "CFG_MCASP2_AXR6_OUT,Delay Select Value in binary coded form for cfg_mcasp2_axr6_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x504++0x3
line.long 0x00 "CFG_MCASP2_AXR7_IN,Delay Select Value in binary coded form for cfg_mcasp2_axr7_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x508++0x3
line.long 0x00 "CFG_MCASP2_AXR7_OEN,Delay Select Value in binary coded form for cfg_mcasp2_axr7_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x50C++0x3
line.long 0x00 "CFG_MCASP2_AXR7_OUT,Delay Select Value in binary coded form for cfg_mcasp2_axr7_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x510++0x3
line.long 0x00 "CFG_MCASP2_FSR_IN,Delay Select Value in binary coded form for cfg_mcasp2_fsr_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x514++0x3
line.long 0x00 "CFG_MCASP2_FSR_OEN,Delay Select Value in binary coded form for cfg_mcasp2_fsr_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x518++0x3
line.long 0x00 "CFG_MCASP2_FSR_OUT,Delay Select Value in binary coded form for cfg_mcasp2_fsr_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x51C++0x3
line.long 0x00 "CFG_MCASP2_FSX_IN,Delay Select Value in binary coded form for cfg_mcasp2_fsx_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x520++0x3
line.long 0x00 "CFG_MCASP2_FSX_OEN,Delay Select Value in binary coded form for cfg_mcasp2_fsx_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x524++0x3
line.long 0x00 "CFG_MCASP2_FSX_OUT,Delay Select Value in binary coded form for cfg_mcasp2_fsx_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x528++0x3
line.long 0x00 "CFG_MCASP3_ACLKX_IN,Delay Select Value in binary coded form for cfg_mcasp3_aclkx_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x52C++0x3
line.long 0x00 "CFG_MCASP3_ACLKX_OEN,Delay Select Value in binary coded form for cfg_mcasp3_aclkx_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x530++0x3
line.long 0x00 "CFG_MCASP3_ACLKX_OUT,Delay Select Value in binary coded form for cfg_mcasp3_aclkx_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x534++0x3
line.long 0x00 "CFG_MCASP3_AXR0_IN,Delay Select Value in binary coded form for cfg_mcasp3_axr0_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x538++0x3
line.long 0x00 "CFG_MCASP3_AXR0_OEN,Delay Select Value in binary coded form for cfg_mcasp3_axr0_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x53C++0x3
line.long 0x00 "CFG_MCASP3_AXR0_OUT,Delay Select Value in binary coded form for cfg_mcasp3_axr0_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x540++0x3
line.long 0x00 "CFG_MCASP3_AXR1_IN,Delay Select Value in binary coded form for cfg_mcasp3_axr1_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x544++0x3
line.long 0x00 "CFG_MCASP3_AXR1_OEN,Delay Select Value in binary coded form for cfg_mcasp3_axr1_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x548++0x3
line.long 0x00 "CFG_MCASP3_AXR1_OUT,Delay Select Value in binary coded form for cfg_mcasp3_axr1_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x54C++0x3
line.long 0x00 "CFG_MCASP3_FSX_IN,Delay Select Value in binary coded form for cfg_mcasp3_fsx_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x550++0x3
line.long 0x00 "CFG_MCASP3_FSX_OEN,Delay Select Value in binary coded form for cfg_mcasp3_fsx_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x554++0x3
line.long 0x00 "CFG_MCASP3_FSX_OUT,Delay Select Value in binary coded form for cfg_mcasp3_fsx_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x558++0x3
line.long 0x00 "CFG_MCASP4_ACLKX_IN,Delay Select Value in binary coded form for cfg_mcasp4_aclkx_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x55C++0x3
line.long 0x00 "CFG_MCASP4_ACLKX_OEN,Delay Select Value in binary coded form for cfg_mcasp4_aclkx_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x560++0x3
line.long 0x00 "CFG_MCASP4_ACLKX_OUT,Delay Select Value in binary coded form for cfg_mcasp4_aclkx_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x564++0x3
line.long 0x00 "CFG_MCASP4_AXR0_IN,Delay Select Value in binary coded form for cfg_mcasp4_axr0_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x568++0x3
line.long 0x00 "CFG_MCASP4_AXR0_OEN,Delay Select Value in binary coded form for cfg_mcasp4_axr0_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x56C++0x3
line.long 0x00 "CFG_MCASP4_AXR0_OUT,Delay Select Value in binary coded form for cfg_mcasp4_axr0_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x570++0x3
line.long 0x00 "CFG_MCASP4_AXR1_IN,Delay Select Value in binary coded form for cfg_mcasp4_axr1_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x574++0x3
line.long 0x00 "CFG_MCASP4_AXR1_OEN,Delay Select Value in binary coded form for cfg_mcasp4_axr1_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x578++0x3
line.long 0x00 "CFG_MCASP4_AXR1_OUT,Delay Select Value in binary coded form for cfg_mcasp4_axr1_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x57C++0x3
line.long 0x00 "CFG_MCASP4_FSX_IN,Delay Select Value in binary coded form for cfg_mcasp4_fsx_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x580++0x3
line.long 0x00 "CFG_MCASP4_FSX_OEN,Delay Select Value in binary coded form for cfg_mcasp4_fsx_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x584++0x3
line.long 0x00 "CFG_MCASP4_FSX_OUT,Delay Select Value in binary coded form for cfg_mcasp4_fsx_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x588++0x3
line.long 0x00 "CFG_MCASP5_ACLKX_IN,Delay Select Value in binary coded form for cfg_mcasp5_aclkx_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x58C++0x3
line.long 0x00 "CFG_MCASP5_ACLKX_OEN,Delay Select Value in binary coded form for cfg_mcasp5_aclkx_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x590++0x3
line.long 0x00 "CFG_MCASP5_ACLKX_OUT,Delay Select Value in binary coded form for cfg_mcasp5_aclkx_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x594++0x3
line.long 0x00 "CFG_MCASP5_AXR0_IN,Delay Select Value in binary coded form for cfg_mcasp5_axr0_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x598++0x3
line.long 0x00 "CFG_MCASP5_AXR0_OEN,Delay Select Value in binary coded form for cfg_mcasp5_axr0_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x59C++0x3
line.long 0x00 "CFG_MCASP5_AXR0_OUT,Delay Select Value in binary coded form for cfg_mcasp5_axr0_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x5A0++0x3
line.long 0x00 "CFG_MCASP5_AXR1_IN,Delay Select Value in binary coded form for cfg_mcasp5_axr1_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x5A4++0x3
line.long 0x00 "CFG_MCASP5_AXR1_OEN,Delay Select Value in binary coded form for cfg_mcasp5_axr1_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x5A8++0x3
line.long 0x00 "CFG_MCASP5_AXR1_OUT,Delay Select Value in binary coded form for cfg_mcasp5_axr1_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x5AC++0x3
line.long 0x00 "CFG_MCASP5_FSX_IN,Delay Select Value in binary coded form for cfg_mcasp5_fsx_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x5B0++0x3
line.long 0x00 "CFG_MCASP5_FSX_OEN,Delay Select Value in binary coded form for cfg_mcasp5_fsx_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x5B4++0x3
line.long 0x00 "CFG_MCASP5_FSX_OUT,Delay Select Value in binary coded form for cfg_mcasp5_fsx_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x5B8++0x3
line.long 0x00 "CFG_MDIO_D_IN,Delay Select Value in binary coded form for cfg_mdio_d_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x5BC++0x3
line.long 0x00 "CFG_MDIO_D_OEN,Delay Select Value in binary coded form for cfg_mdio_d_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x5C0++0x3
line.long 0x00 "CFG_MDIO_D_OUT,Delay Select Value in binary coded form for cfg_mdio_d_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x5C4++0x3
line.long 0x00 "CFG_MDIO_MCLK_IN,Delay Select Value in binary coded form for cfg_mdio_mclk_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x5C8++0x3
line.long 0x00 "CFG_MDIO_MCLK_OEN,Delay Select Value in binary coded form for cfg_mdio_mclk_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x5CC++0x3
line.long 0x00 "CFG_MDIO_MCLK_OUT,Delay Select Value in binary coded form for cfg_mdio_mclk_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x5D0++0x3
line.long 0x00 "CFG_MLBP_CLK_N_IN,Delay Select Value in binary coded form for cfg_mlbp_clk_n_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x5D4++0x3
line.long 0x00 "CFG_MLBP_CLK_N_OEN,Delay Select Value in binary coded form for cfg_mlbp_clk_n_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x5D8++0x3
line.long 0x00 "CFG_MLBP_CLK_N_OUT,Delay Select Value in binary coded form for cfg_mlbp_clk_n_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x5DC++0x3
line.long 0x00 "CFG_MLBP_CLK_P_IN,Delay Select Value in binary coded form for cfg_mlbp_clk_p_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x5E0++0x3
line.long 0x00 "CFG_MLBP_CLK_P_OEN,Delay Select Value in binary coded form for cfg_mlbp_clk_p_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x5E4++0x3
line.long 0x00 "CFG_MLBP_CLK_P_OUT,Delay Select Value in binary coded form for cfg_mlbp_clk_p_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x5E8++0x3
line.long 0x00 "CFG_MLBP_DAT_N_IN,Delay Select Value in binary coded form for cfg_mlbp_dat_n_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x5EC++0x3
line.long 0x00 "CFG_MLBP_DAT_N_OEN,Delay Select Value in binary coded form for cfg_mlbp_dat_n_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x5F0++0x3
line.long 0x00 "CFG_MLBP_DAT_N_OUT,Delay Select Value in binary coded form for cfg_mlbp_dat_n_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x5F4++0x3
line.long 0x00 "CFG_MLBP_DAT_P_IN,Delay Select Value in binary coded form for cfg_mlbp_dat_p_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x5F8++0x3
line.long 0x00 "CFG_MLBP_DAT_P_OEN,Delay Select Value in binary coded form for cfg_mlbp_dat_p_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x5FC++0x3
line.long 0x00 "CFG_MLBP_DAT_P_OUT,Delay Select Value in binary coded form for cfg_mlbp_dat_p_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x600++0x3
line.long 0x00 "CFG_MLBP_SIG_N_IN,Delay Select Value in binary coded form for cfg_mlbp_sig_n_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x604++0x3
line.long 0x00 "CFG_MLBP_SIG_N_OEN,Delay Select Value in binary coded form for cfg_mlbp_sig_n_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x608++0x3
line.long 0x00 "CFG_MLBP_SIG_N_OUT,Delay Select Value in binary coded form for cfg_mlbp_sig_n_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x60C++0x3
line.long 0x00 "CFG_MLBP_SIG_P_IN,Delay Select Value in binary coded form for cfg_mlbp_sig_p_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x610++0x3
line.long 0x00 "CFG_MLBP_SIG_P_OEN,Delay Select Value in binary coded form for cfg_mlbp_sig_p_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x614++0x3
line.long 0x00 "CFG_MLBP_SIG_P_OUT,Delay Select Value in binary coded form for cfg_mlbp_sig_p_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x618++0x3
line.long 0x00 "CFG_MMC1_CLK_IN,Delay Select Value in binary coded form for cfg_mmc1_clk_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x61C++0x3
line.long 0x00 "CFG_MMC1_CLK_OEN,Delay Select Value in binary coded form for cfg_mmc1_clk_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x620++0x3
line.long 0x00 "CFG_MMC1_CLK_OUT,Delay Select Value in binary coded form for cfg_mmc1_clk_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x624++0x3
line.long 0x00 "CFG_MMC1_CMD_IN,Delay Select Value in binary coded form for cfg_mmc1_cmd_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x628++0x3
line.long 0x00 "CFG_MMC1_CMD_OEN,Delay Select Value in binary coded form for cfg_mmc1_cmd_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x62C++0x3
line.long 0x00 "CFG_MMC1_CMD_OUT,Delay Select Value in binary coded form for cfg_mmc1_cmd_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x630++0x3
line.long 0x00 "CFG_MMC1_DAT0_IN,Delay Select Value in binary coded form for cfg_mmc1_dat0_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x634++0x3
line.long 0x00 "CFG_MMC1_DAT0_OEN,Delay Select Value in binary coded form for cfg_mmc1_dat0_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x638++0x3
line.long 0x00 "CFG_MMC1_DAT0_OUT,Delay Select Value in binary coded form for cfg_mmc1_dat0_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x63C++0x3
line.long 0x00 "CFG_MMC1_DAT1_IN,Delay Select Value in binary coded form for cfg_mmc1_dat1_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x640++0x3
line.long 0x00 "CFG_MMC1_DAT1_OEN,Delay Select Value in binary coded form for cfg_mmc1_dat1_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x644++0x3
line.long 0x00 "CFG_MMC1_DAT1_OUT,Delay Select Value in binary coded form for cfg_mmc1_dat1_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x648++0x3
line.long 0x00 "CFG_MMC1_DAT2_IN,Delay Select Value in binary coded form for cfg_mmc1_dat2_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x64C++0x3
line.long 0x00 "CFG_MMC1_DAT2_OEN,Delay Select Value in binary coded form for cfg_mmc1_dat2_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x650++0x3
line.long 0x00 "CFG_MMC1_DAT2_OUT,Delay Select Value in binary coded form for cfg_mmc1_dat2_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x654++0x3
line.long 0x00 "CFG_MMC1_DAT3_IN,Delay Select Value in binary coded form for cfg_mmc1_dat3_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x658++0x3
line.long 0x00 "CFG_MMC1_DAT3_OEN,Delay Select Value in binary coded form for cfg_mmc1_dat3_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x65C++0x3
line.long 0x00 "CFG_MMC1_DAT3_OUT,Delay Select Value in binary coded form for cfg_mmc1_dat3_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x660++0x3
line.long 0x00 "CFG_MMC1_SDCD_IN,Delay Select Value in binary coded form for cfg_mmc1_sdcd_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x664++0x3
line.long 0x00 "CFG_MMC1_SDCD_OEN,Delay Select Value in binary coded form for cfg_mmc1_sdcd_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x668++0x3
line.long 0x00 "CFG_MMC1_SDCD_OUT,Delay Select Value in binary coded form for cfg_mmc1_sdcd_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x66C++0x3
line.long 0x00 "CFG_MMC1_SDWP_IN,Delay Select Value in binary coded form for cfg_mmc1_sdwp_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x670++0x3
line.long 0x00 "CFG_MMC1_SDWP_OEN,Delay Select Value in binary coded form for cfg_mmc1_sdwp_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x674++0x3
line.long 0x00 "CFG_MMC1_SDWP_OUT,Delay Select Value in binary coded form for cfg_mmc1_sdwp_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x678++0x3
line.long 0x00 "CFG_MMC3_CLK_IN,Delay Select Value in binary coded form for cfg_mmc3_clk_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x67C++0x3
line.long 0x00 "CFG_MMC3_CLK_OEN,Delay Select Value in binary coded form for cfg_mmc3_clk_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x680++0x3
line.long 0x00 "CFG_MMC3_CLK_OUT,Delay Select Value in binary coded form for cfg_mmc3_clk_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x684++0x3
line.long 0x00 "CFG_MMC3_CMD_IN,Delay Select Value in binary coded form for cfg_mmc3_cmd_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x688++0x3
line.long 0x00 "CFG_MMC3_CMD_OEN,Delay Select Value in binary coded form for cfg_mmc3_cmd_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x68C++0x3
line.long 0x00 "CFG_MMC3_CMD_OUT,Delay Select Value in binary coded form for cfg_mmc3_cmd_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x690++0x3
line.long 0x00 "CFG_MMC3_DAT0_IN,Delay Select Value in binary coded form for cfg_mmc3_dat0_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x694++0x3
line.long 0x00 "CFG_MMC3_DAT0_OEN,Delay Select Value in binary coded form for cfg_mmc3_dat0_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x698++0x3
line.long 0x00 "CFG_MMC3_DAT0_OUT,Delay Select Value in binary coded form for cfg_mmc3_dat0_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x69C++0x3
line.long 0x00 "CFG_MMC3_DAT1_IN,Delay Select Value in binary coded form for cfg_mmc3_dat1_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x6A0++0x3
line.long 0x00 "CFG_MMC3_DAT1_OEN,Delay Select Value in binary coded form for cfg_mmc3_dat1_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x6A4++0x3
line.long 0x00 "CFG_MMC3_DAT1_OUT,Delay Select Value in binary coded form for cfg_mmc3_dat1_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x6A8++0x3
line.long 0x00 "CFG_MMC3_DAT2_IN,Delay Select Value in binary coded form for cfg_mmc3_dat2_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x6AC++0x3
line.long 0x00 "CFG_MMC3_DAT2_OEN,Delay Select Value in binary coded form for cfg_mmc3_dat2_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x6B0++0x3
line.long 0x00 "CFG_MMC3_DAT2_OUT,Delay Select Value in binary coded form for cfg_mmc3_dat2_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x6B4++0x3
line.long 0x00 "CFG_MMC3_DAT3_IN,Delay Select Value in binary coded form for cfg_mmc3_dat3_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x6B8++0x3
line.long 0x00 "CFG_MMC3_DAT3_OEN,Delay Select Value in binary coded form for cfg_mmc3_dat3_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x6BC++0x3
line.long 0x00 "CFG_MMC3_DAT3_OUT,Delay Select Value in binary coded form for cfg_mmc3_dat3_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x6C0++0x3
line.long 0x00 "CFG_MMC3_DAT4_IN,Delay Select Value in binary coded form for cfg_mmc3_dat4_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x6C4++0x3
line.long 0x00 "CFG_MMC3_DAT4_OEN,Delay Select Value in binary coded form for cfg_mmc3_dat4_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x6C8++0x3
line.long 0x00 "CFG_MMC3_DAT4_OUT,Delay Select Value in binary coded form for cfg_mmc3_dat4_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x6CC++0x3
line.long 0x00 "CFG_MMC3_DAT5_IN,Delay Select Value in binary coded form for cfg_mmc3_dat5_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x6D0++0x3
line.long 0x00 "CFG_MMC3_DAT5_OEN,Delay Select Value in binary coded form for cfg_mmc3_dat5_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x6D4++0x3
line.long 0x00 "CFG_MMC3_DAT5_OUT,Delay Select Value in binary coded form for cfg_mmc3_dat5_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x6D8++0x3
line.long 0x00 "CFG_MMC3_DAT6_IN,Delay Select Value in binary coded form for cfg_mmc3_dat6_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x6DC++0x3
line.long 0x00 "CFG_MMC3_DAT6_OEN,Delay Select Value in binary coded form for cfg_mmc3_dat6_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x6E0++0x3
line.long 0x00 "CFG_MMC3_DAT6_OUT,Delay Select Value in binary coded form for cfg_mmc3_dat6_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x6E4++0x3
line.long 0x00 "CFG_MMC3_DAT7_IN,Delay Select Value in binary coded form for cfg_mmc3_dat7_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x6E8++0x3
line.long 0x00 "CFG_MMC3_DAT7_OEN,Delay Select Value in binary coded form for cfg_mmc3_dat7_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x6EC++0x3
line.long 0x00 "CFG_MMC3_DAT7_OUT,Delay Select Value in binary coded form for cfg_mmc3_dat7_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x6F0++0x3
line.long 0x00 "CFG_RGMII0_RXC_IN,Delay Select Value in binary coded form for cfg_rgmii0_rxc_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x6F4++0x3
line.long 0x00 "CFG_RGMII0_RXC_OEN,Delay Select Value in binary coded form for cfg_rgmii0_rxc_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x6F8++0x3
line.long 0x00 "CFG_RGMII0_RXC_OUT,Delay Select Value in binary coded form for cfg_rgmii0_rxc_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x6FC++0x3
line.long 0x00 "CFG_RGMII0_RXCTL_IN,Delay Select Value in binary coded form for cfg_rgmii0_rxctl_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x700++0x3
line.long 0x00 "CFG_RGMII0_RXCTL_OEN,Delay Select Value in binary coded form for cfg_rgmii0_rxctl_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x704++0x3
line.long 0x00 "CFG_RGMII0_RXCTL_OUT,Delay Select Value in binary coded form for cfg_rgmii0_rxctl_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x708++0x3
line.long 0x00 "CFG_RGMII0_RXD0_IN,Delay Select Value in binary coded form for cfg_rgmii0_rxd0_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x70C++0x3
line.long 0x00 "CFG_RGMII0_RXD0_OEN,Delay Select Value in binary coded form for cfg_rgmii0_rxd0_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x710++0x3
line.long 0x00 "CFG_RGMII0_RXD0_OUT,Delay Select Value in binary coded form for cfg_rgmii0_rxd0_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x714++0x3
line.long 0x00 "CFG_RGMII0_RXD1_IN,Delay Select Value in binary coded form for cfg_rgmii0_rxd1_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x718++0x3
line.long 0x00 "CFG_RGMII0_RXD1_OEN,Delay Select Value in binary coded form for cfg_rgmii0_rxd1_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x71C++0x3
line.long 0x00 "CFG_RGMII0_RXD1_OUT,Delay Select Value in binary coded form for cfg_rgmii0_rxd1_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x720++0x3
line.long 0x00 "CFG_RGMII0_RXD2_IN,Delay Select Value in binary coded form for cfg_rgmii0_rxd2_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x724++0x3
line.long 0x00 "CFG_RGMII0_RXD2_OEN,Delay Select Value in binary coded form for cfg_rgmii0_rxd2_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x728++0x3
line.long 0x00 "CFG_RGMII0_RXD2_OUT,Delay Select Value in binary coded form for cfg_rgmii0_rxd2_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x72C++0x3
line.long 0x00 "CFG_RGMII0_RXD3_IN,Delay Select Value in binary coded form for cfg_rgmii0_rxd3_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x730++0x3
line.long 0x00 "CFG_RGMII0_RXD3_OEN,Delay Select Value in binary coded form for cfg_rgmii0_rxd3_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x734++0x3
line.long 0x00 "CFG_RGMII0_RXD3_OUT,Delay Select Value in binary coded form for cfg_rgmii0_rxd3_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x738++0x3
line.long 0x00 "CFG_RGMII0_TXC_IN,Delay Select Value in binary coded form for cfg_rgmii0_txc_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x73C++0x3
line.long 0x00 "CFG_RGMII0_TXC_OEN,Delay Select Value in binary coded form for cfg_rgmii0_txc_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x740++0x3
line.long 0x00 "CFG_RGMII0_TXC_OUT,Delay Select Value in binary coded form for cfg_rgmii0_txc_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x744++0x3
line.long 0x00 "CFG_RGMII0_TXCTL_IN,Delay Select Value in binary coded form for cfg_rgmii0_txctl_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x748++0x3
line.long 0x00 "CFG_RGMII0_TXCTL_OEN,Delay Select Value in binary coded form for cfg_rgmii0_txctl_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x74C++0x3
line.long 0x00 "CFG_RGMII0_TXCTL_OUT,Delay Select Value in binary coded form for cfg_rgmii0_txctl_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x750++0x3
line.long 0x00 "CFG_RGMII0_TXD0_IN,Delay Select Value in binary coded form for cfg_rgmii0_txd0_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x754++0x3
line.long 0x00 "CFG_RGMII0_TXD0_OEN,Delay Select Value in binary coded form for cfg_rgmii0_txd0_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x758++0x3
line.long 0x00 "CFG_RGMII0_TXD0_OUT,Delay Select Value in binary coded form for cfg_rgmii0_txd0_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x75C++0x3
line.long 0x00 "CFG_RGMII0_TXD1_IN,Delay Select Value in binary coded form for cfg_rgmii0_txd1_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x760++0x3
line.long 0x00 "CFG_RGMII0_TXD1_OEN,Delay Select Value in binary coded form for cfg_rgmii0_txd1_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x764++0x3
line.long 0x00 "CFG_RGMII0_TXD1_OUT,Delay Select Value in binary coded form for cfg_rgmii0_txd1_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x768++0x3
line.long 0x00 "CFG_RGMII0_TXD2_IN,Delay Select Value in binary coded form for cfg_rgmii0_txd2_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x76C++0x3
line.long 0x00 "CFG_RGMII0_TXD2_OEN,Delay Select Value in binary coded form for cfg_rgmii0_txd2_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x770++0x3
line.long 0x00 "CFG_RGMII0_TXD2_OUT,Delay Select Value in binary coded form for cfg_rgmii0_txd2_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x774++0x3
line.long 0x00 "CFG_RGMII0_TXD3_IN,Delay Select Value in binary coded form for cfg_rgmii0_txd3_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x778++0x3
line.long 0x00 "CFG_RGMII0_TXD3_OEN,Delay Select Value in binary coded form for cfg_rgmii0_txd3_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x77C++0x3
line.long 0x00 "CFG_RGMII0_TXD3_OUT,Delay Select Value in binary coded form for cfg_rgmii0_txd3_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x780++0x3
line.long 0x00 "CFG_RTCK_IN,Delay Select Value in binary coded form for cfg_rtck_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x784++0x3
line.long 0x00 "CFG_RTCK_OEN,Delay Select Value in binary coded form for cfg_rtck_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x788++0x3
line.long 0x00 "CFG_RTCK_OUT,Delay Select Value in binary coded form for cfg_rtck_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x78C++0x3
line.long 0x00 "CFG_SPI1_CS0_IN,Delay Select Value in binary coded form for cfg_spi1_cs0_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x790++0x3
line.long 0x00 "CFG_SPI1_CS0_OEN,Delay Select Value in binary coded form for cfg_spi1_cs0_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x794++0x3
line.long 0x00 "CFG_SPI1_CS0_OUT,Delay Select Value in binary coded form for cfg_spi1_cs0_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x798++0x3
line.long 0x00 "CFG_SPI1_CS1_IN,Delay Select Value in binary coded form for cfg_spi1_cs1_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x79C++0x3
line.long 0x00 "CFG_SPI1_CS1_OEN,Delay Select Value in binary coded form for cfg_spi1_cs1_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x7A0++0x3
line.long 0x00 "CFG_SPI1_CS1_OUT,Delay Select Value in binary coded form for cfg_spi1_cs1_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x7A4++0x3
line.long 0x00 "CFG_SPI1_CS2_IN,Delay Select Value in binary coded form for cfg_spi1_cs2_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x7A8++0x3
line.long 0x00 "CFG_SPI1_CS2_OEN,Delay Select Value in binary coded form for cfg_spi1_cs2_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x7AC++0x3
line.long 0x00 "CFG_SPI1_CS2_OUT,Delay Select Value in binary coded form for cfg_spi1_cs2_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x7B0++0x3
line.long 0x00 "CFG_SPI1_CS3_IN,Delay Select Value in binary coded form for cfg_spi1_cs3_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x7B4++0x3
line.long 0x00 "CFG_SPI1_CS3_OEN,Delay Select Value in binary coded form for cfg_spi1_cs3_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x7B8++0x3
line.long 0x00 "CFG_SPI1_CS3_OUT,Delay Select Value in binary coded form for cfg_spi1_cs3_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x7BC++0x3
line.long 0x00 "CFG_SPI1_D0_IN,Delay Select Value in binary coded form for cfg_spi1_d0_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x7C0++0x3
line.long 0x00 "CFG_SPI1_D0_OEN,Delay Select Value in binary coded form for cfg_spi1_d0_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x7C4++0x3
line.long 0x00 "CFG_SPI1_D0_OUT,Delay Select Value in binary coded form for cfg_spi1_d0_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x7C8++0x3
line.long 0x00 "CFG_SPI1_D1_IN,Delay Select Value in binary coded form for cfg_spi1_d1_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x7CC++0x3
line.long 0x00 "CFG_SPI1_D1_OEN,Delay Select Value in binary coded form for cfg_spi1_d1_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x7D0++0x3
line.long 0x00 "CFG_SPI1_D1_OUT,Delay Select Value in binary coded form for cfg_spi1_d1_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x7D4++0x3
line.long 0x00 "CFG_SPI1_SCLK_IN,Delay Select Value in binary coded form for cfg_spi1_sclk_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x7D8++0x3
line.long 0x00 "CFG_SPI1_SCLK_OEN,Delay Select Value in binary coded form for cfg_spi1_sclk_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x7DC++0x3
line.long 0x00 "CFG_SPI1_SCLK_OUT,Delay Select Value in binary coded form for cfg_spi1_sclk_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x7E0++0x3
line.long 0x00 "CFG_SPI2_CS0_IN,Delay Select Value in binary coded form for cfg_spi2_cs0_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x7E4++0x3
line.long 0x00 "CFG_SPI2_CS0_OEN,Delay Select Value in binary coded form for cfg_spi2_cs0_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x7E8++0x3
line.long 0x00 "CFG_SPI2_CS0_OUT,Delay Select Value in binary coded form for cfg_spi2_cs0_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x7EC++0x3
line.long 0x00 "CFG_SPI2_D0_IN,Delay Select Value in binary coded form for cfg_spi2_d0_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x7F0++0x3
line.long 0x00 "CFG_SPI2_D0_OEN,Delay Select Value in binary coded form for cfg_spi2_d0_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x7F4++0x3
line.long 0x00 "CFG_SPI2_D0_OUT,Delay Select Value in binary coded form for cfg_spi2_d0_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x7F8++0x3
line.long 0x00 "CFG_SPI2_D1_IN,Delay Select Value in binary coded form for cfg_spi2_d1_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x7FC++0x3
line.long 0x00 "CFG_SPI2_D1_OEN,Delay Select Value in binary coded form for cfg_spi2_d1_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x800++0x3
line.long 0x00 "CFG_SPI2_D1_OUT,Delay Select Value in binary coded form for cfg_spi2_d1_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x804++0x3
line.long 0x00 "CFG_SPI2_SCLK_IN,Delay Select Value in binary coded form for cfg_spi2_sclk_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x808++0x3
line.long 0x00 "CFG_SPI2_SCLK_OEN,Delay Select Value in binary coded form for cfg_spi2_sclk_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x80C++0x3
line.long 0x00 "CFG_SPI2_SCLK_OUT,Delay Select Value in binary coded form for cfg_spi2_sclk_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x810++0x3
line.long 0x00 "CFG_TDI_IN,Delay Select Value in binary coded form for cfg_tdi_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x814++0x3
line.long 0x00 "CFG_TDI_OEN,Delay Select Value in binary coded form for cfg_tdi_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x818++0x3
line.long 0x00 "CFG_TDI_OUT,Delay Select Value in binary coded form for cfg_tdi_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x81C++0x3
line.long 0x00 "CFG_TDO_IN,Delay Select Value in binary coded form for cfg_tdo_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x820++0x3
line.long 0x00 "CFG_TDO_OEN,Delay Select Value in binary coded form for cfg_tdo_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x824++0x3
line.long 0x00 "CFG_TDO_OUT,Delay Select Value in binary coded form for cfg_tdo_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x828++0x3
line.long 0x00 "CFG_TMS_IN,Delay Select Value in binary coded form for cfg_tms_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x82C++0x3
line.long 0x00 "CFG_TMS_OEN,Delay Select Value in binary coded form for cfg_tms_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x830++0x3
line.long 0x00 "CFG_TMS_OUT,Delay Select Value in binary coded form for cfg_tms_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x834++0x3
line.long 0x00 "CFG_TRSTN_IN,Delay Select Value in binary coded form for cfg_trstn_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x838++0x3
line.long 0x00 "CFG_TRSTN_OEN,Delay Select Value in binary coded form for cfg_trstn_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x83C++0x3
line.long 0x00 "CFG_TRSTN_OUT,Delay Select Value in binary coded form for cfg_trstn_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x840++0x3
line.long 0x00 "CFG_UART1_CTSN_IN,Delay Select Value in binary coded form for cfg_uart1_ctsn_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x844++0x3
line.long 0x00 "CFG_UART1_CTSN_OEN,Delay Select Value in binary coded form for cfg_uart1_ctsn_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x848++0x3
line.long 0x00 "CFG_UART1_CTSN_OUT,Delay Select Value in binary coded form for cfg_uart1_ctsn_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x84C++0x3
line.long 0x00 "CFG_UART1_RTSN_IN,Delay Select Value in binary coded form for cfg_uart1_rtsn_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x850++0x3
line.long 0x00 "CFG_UART1_RTSN_OEN,Delay Select Value in binary coded form for cfg_uart1_rtsn_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x854++0x3
line.long 0x00 "CFG_UART1_RTSN_OUT,Delay Select Value in binary coded form for cfg_uart1_rtsn_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x858++0x3
line.long 0x00 "CFG_UART1_RXD_IN,Delay Select Value in binary coded form for cfg_uart1_rxd_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x85C++0x3
line.long 0x00 "CFG_UART1_RXD_OEN,Delay Select Value in binary coded form for cfg_uart1_rxd_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x860++0x3
line.long 0x00 "CFG_UART1_RXD_OUT,Delay Select Value in binary coded form for cfg_uart1_rxd_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x864++0x3
line.long 0x00 "CFG_UART1_TXD_IN,Delay Select Value in binary coded form for cfg_uart1_txd_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x868++0x3
line.long 0x00 "CFG_UART1_TXD_OEN,Delay Select Value in binary coded form for cfg_uart1_txd_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x86C++0x3
line.long 0x00 "CFG_UART1_TXD_OUT,Delay Select Value in binary coded form for cfg_uart1_txd_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x870++0x3
line.long 0x00 "CFG_UART2_CTSN_IN,Delay Select Value in binary coded form for cfg_uart2_ctsn_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x874++0x3
line.long 0x00 "CFG_UART2_CTSN_OEN,Delay Select Value in binary coded form for cfg_uart2_ctsn_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x878++0x3
line.long 0x00 "CFG_UART2_CTSN_OUT,Delay Select Value in binary coded form for cfg_uart2_ctsn_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x87C++0x3
line.long 0x00 "CFG_UART2_RTSN_IN,Delay Select Value in binary coded form for cfg_uart2_rtsn_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x880++0x3
line.long 0x00 "CFG_UART2_RTSN_OEN,Delay Select Value in binary coded form for cfg_uart2_rtsn_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x884++0x3
line.long 0x00 "CFG_UART2_RTSN_OUT,Delay Select Value in binary coded form for cfg_uart2_rtsn_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x888++0x3
line.long 0x00 "CFG_UART2_RXD_IN,Delay Select Value in binary coded form for cfg_uart2_rxd_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x88C++0x3
line.long 0x00 "CFG_UART2_RXD_OEN,Delay Select Value in binary coded form for cfg_uart2_rxd_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x890++0x3
line.long 0x00 "CFG_UART2_RXD_OUT,Delay Select Value in binary coded form for cfg_uart2_rxd_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x894++0x3
line.long 0x00 "CFG_UART2_TXD_IN,Delay Select Value in binary coded form for cfg_uart2_txd_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x898++0x3
line.long 0x00 "CFG_UART2_TXD_OEN,Delay Select Value in binary coded form for cfg_uart2_txd_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x89C++0x3
line.long 0x00 "CFG_UART2_TXD_OUT,Delay Select Value in binary coded form for cfg_uart2_txd_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x8A0++0x3
line.long 0x00 "CFG_UART3_RXD_IN,Delay Select Value in binary coded form for cfg_uart3_rxd_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x8A4++0x3
line.long 0x00 "CFG_UART3_RXD_OEN,Delay Select Value in binary coded form for cfg_uart3_rxd_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x8A8++0x3
line.long 0x00 "CFG_UART3_RXD_OUT,Delay Select Value in binary coded form for cfg_uart3_rxd_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x8AC++0x3
line.long 0x00 "CFG_UART3_TXD_IN,Delay Select Value in binary coded form for cfg_uart3_txd_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x8B0++0x3
line.long 0x00 "CFG_UART3_TXD_OEN,Delay Select Value in binary coded form for cfg_uart3_txd_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x8B4++0x3
line.long 0x00 "CFG_UART3_TXD_OUT,Delay Select Value in binary coded form for cfg_uart3_txd_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x8B8++0x3
line.long 0x00 "CFG_USB1_DRVVBUS_IN,Delay Select Value in binary coded form for cfg_usb1_drvvbus_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x8BC++0x3
line.long 0x00 "CFG_USB1_DRVVBUS_OEN,Delay Select Value in binary coded form for cfg_usb1_drvvbus_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x8C0++0x3
line.long 0x00 "CFG_USB1_DRVVBUS_OUT,Delay Select Value in binary coded form for cfg_usb1_drvvbus_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x8C4++0x3
line.long 0x00 "CFG_USB2_DRVVBUS_IN,Delay Select Value in binary coded form for cfg_usb2_drvvbus_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x8C8++0x3
line.long 0x00 "CFG_USB2_DRVVBUS_OEN,Delay Select Value in binary coded form for cfg_usb2_drvvbus_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x8CC++0x3
line.long 0x00 "CFG_USB2_DRVVBUS_OUT,Delay Select Value in binary coded form for cfg_usb2_drvvbus_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x8D0++0x3
line.long 0x00 "CFG_VIN1A_CLK0_IN,Delay Select Value in binary coded form for cfg_vin1a_clk0_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x8D4++0x3
line.long 0x00 "CFG_VIN1A_CLK0_OEN,Delay Select Value in binary coded form for cfg_vin1a_clk0_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x8D8++0x3
line.long 0x00 "CFG_VIN1A_CLK0_OUT,Delay Select Value in binary coded form for cfg_vin1a_clk0_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x8DC++0x3
line.long 0x00 "CFG_VIN1A_D0_IN,Delay Select Value in binary coded form for cfg_vin1a_d0_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x8E0++0x3
line.long 0x00 "CFG_VIN1A_D0_OEN,Delay Select Value in binary coded form for cfg_vin1a_d0_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x8E4++0x3
line.long 0x00 "CFG_VIN1A_D0_OUT,Delay Select Value in binary coded form for cfg_vin1a_d0_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x8E8++0x3
line.long 0x00 "CFG_VIN1A_D10_IN,Delay Select Value in binary coded form for cfg_vin1a_d10_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x8EC++0x3
line.long 0x00 "CFG_VIN1A_D10_OEN,Delay Select Value in binary coded form for cfg_vin1a_d10_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x8F0++0x3
line.long 0x00 "CFG_VIN1A_D10_OUT,Delay Select Value in binary coded form for cfg_vin1a_d10_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x8F4++0x3
line.long 0x00 "CFG_VIN1A_D11_IN,Delay Select Value in binary coded form for cfg_vin1a_d11_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x8F8++0x3
line.long 0x00 "CFG_VIN1A_D11_OEN,Delay Select Value in binary coded form for cfg_vin1a_d11_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x8FC++0x3
line.long 0x00 "CFG_VIN1A_D11_OUT,Delay Select Value in binary coded form for cfg_vin1a_d11_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x900++0x3
line.long 0x00 "CFG_VIN1A_D12_IN,Delay Select Value in binary coded form for cfg_vin1a_d12_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x904++0x3
line.long 0x00 "CFG_VIN1A_D12_OEN,Delay Select Value in binary coded form for cfg_vin1a_d12_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x908++0x3
line.long 0x00 "CFG_VIN1A_D12_OUT,Delay Select Value in binary coded form for cfg_vin1a_d12_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x90C++0x3
line.long 0x00 "CFG_VIN1A_D13_IN,Delay Select Value in binary coded form for cfg_vin1a_d13_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x910++0x3
line.long 0x00 "CFG_VIN1A_D13_OEN,Delay Select Value in binary coded form for cfg_vin1a_d13_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x914++0x3
line.long 0x00 "CFG_VIN1A_D13_OUT,Delay Select Value in binary coded form for cfg_vin1a_d13_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x918++0x3
line.long 0x00 "CFG_VIN1A_D14_IN,Delay Select Value in binary coded form for cfg_vin1a_d14_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x91C++0x3
line.long 0x00 "CFG_VIN1A_D14_OEN,Delay Select Value in binary coded form for cfg_vin1a_d14_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x920++0x3
line.long 0x00 "CFG_VIN1A_D14_OUT,Delay Select Value in binary coded form for cfg_vin1a_d14_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x924++0x3
line.long 0x00 "CFG_VIN1A_D15_IN,Delay Select Value in binary coded form for cfg_vin1a_d15_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x928++0x3
line.long 0x00 "CFG_VIN1A_D15_OEN,Delay Select Value in binary coded form for cfg_vin1a_d15_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x92C++0x3
line.long 0x00 "CFG_VIN1A_D15_OUT,Delay Select Value in binary coded form for cfg_vin1a_d15_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x930++0x3
line.long 0x00 "CFG_VIN1A_D16_IN,Delay Select Value in binary coded form for cfg_vin1a_d16_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x934++0x3
line.long 0x00 "CFG_VIN1A_D16_OEN,Delay Select Value in binary coded form for cfg_vin1a_d16_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x938++0x3
line.long 0x00 "CFG_VIN1A_D16_OUT,Delay Select Value in binary coded form for cfg_vin1a_d16_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x93C++0x3
line.long 0x00 "CFG_VIN1A_D17_IN,Delay Select Value in binary coded form for cfg_vin1a_d17_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x940++0x3
line.long 0x00 "CFG_VIN1A_D17_OEN,Delay Select Value in binary coded form for cfg_vin1a_d17_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x944++0x3
line.long 0x00 "CFG_VIN1A_D17_OUT,Delay Select Value in binary coded form for cfg_vin1a_d17_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x948++0x3
line.long 0x00 "CFG_VIN1A_D18_IN,Delay Select Value in binary coded form for cfg_vin1a_d18_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x94C++0x3
line.long 0x00 "CFG_VIN1A_D18_OEN,Delay Select Value in binary coded form for cfg_vin1a_d18_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x950++0x3
line.long 0x00 "CFG_VIN1A_D18_OUT,Delay Select Value in binary coded form for cfg_vin1a_d18_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x954++0x3
line.long 0x00 "CFG_VIN1A_D19_IN,Delay Select Value in binary coded form for cfg_vin1a_d19_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x958++0x3
line.long 0x00 "CFG_VIN1A_D19_OEN,Delay Select Value in binary coded form for cfg_vin1a_d19_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x95C++0x3
line.long 0x00 "CFG_VIN1A_D19_OUT,Delay Select Value in binary coded form for cfg_vin1a_d19_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x960++0x3
line.long 0x00 "CFG_VIN1A_D1_IN,Delay Select Value in binary coded form for cfg_vin1a_d1_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x964++0x3
line.long 0x00 "CFG_VIN1A_D1_OEN,Delay Select Value in binary coded form for cfg_vin1a_d1_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x968++0x3
line.long 0x00 "CFG_VIN1A_D1_OUT,Delay Select Value in binary coded form for cfg_vin1a_d1_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x96C++0x3
line.long 0x00 "CFG_VIN1A_D20_IN,Delay Select Value in binary coded form for cfg_vin1a_d20_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x970++0x3
line.long 0x00 "CFG_VIN1A_D20_OEN,Delay Select Value in binary coded form for cfg_vin1a_d20_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x974++0x3
line.long 0x00 "CFG_VIN1A_D20_OUT,Delay Select Value in binary coded form for cfg_vin1a_d20_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x978++0x3
line.long 0x00 "CFG_VIN1A_D21_IN,Delay Select Value in binary coded form for cfg_vin1a_d21_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x97C++0x3
line.long 0x00 "CFG_VIN1A_D21_OEN,Delay Select Value in binary coded form for cfg_vin1a_d21_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x980++0x3
line.long 0x00 "CFG_VIN1A_D21_OUT,Delay Select Value in binary coded form for cfg_vin1a_d21_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x984++0x3
line.long 0x00 "CFG_VIN1A_D22_IN,Delay Select Value in binary coded form for cfg_vin1a_d22_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x988++0x3
line.long 0x00 "CFG_VIN1A_D22_OEN,Delay Select Value in binary coded form for cfg_vin1a_d22_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x98C++0x3
line.long 0x00 "CFG_VIN1A_D22_OUT,Delay Select Value in binary coded form for cfg_vin1a_d22_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x990++0x3
line.long 0x00 "CFG_VIN1A_D23_IN,Delay Select Value in binary coded form for cfg_vin1a_d23_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x994++0x3
line.long 0x00 "CFG_VIN1A_D23_OEN,Delay Select Value in binary coded form for cfg_vin1a_d23_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x998++0x3
line.long 0x00 "CFG_VIN1A_D23_OUT,Delay Select Value in binary coded form for cfg_vin1a_d23_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x99C++0x3
line.long 0x00 "CFG_VIN1A_D2_IN,Delay Select Value in binary coded form for cfg_vin1a_d2_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x9A0++0x3
line.long 0x00 "CFG_VIN1A_D2_OEN,Delay Select Value in binary coded form for cfg_vin1a_d2_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x9A4++0x3
line.long 0x00 "CFG_VIN1A_D2_OUT,Delay Select Value in binary coded form for cfg_vin1a_d2_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x9A8++0x3
line.long 0x00 "CFG_VIN1A_D3_IN,Delay Select Value in binary coded form for cfg_vin1a_d3_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x9AC++0x3
line.long 0x00 "CFG_VIN1A_D3_OEN,Delay Select Value in binary coded form for cfg_vin1a_d3_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x9B0++0x3
line.long 0x00 "CFG_VIN1A_D3_OUT,Delay Select Value in binary coded form for cfg_vin1a_d3_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x9B4++0x3
line.long 0x00 "CFG_VIN1A_D4_IN,Delay Select Value in binary coded form for cfg_vin1a_d4_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x9B8++0x3
line.long 0x00 "CFG_VIN1A_D4_OEN,Delay Select Value in binary coded form for cfg_vin1a_d4_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x9BC++0x3
line.long 0x00 "CFG_VIN1A_D4_OUT,Delay Select Value in binary coded form for cfg_vin1a_d4_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x9C0++0x3
line.long 0x00 "CFG_VIN1A_D5_IN,Delay Select Value in binary coded form for cfg_vin1a_d5_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x9C4++0x3
line.long 0x00 "CFG_VIN1A_D5_OEN,Delay Select Value in binary coded form for cfg_vin1a_d5_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x9C8++0x3
line.long 0x00 "CFG_VIN1A_D5_OUT,Delay Select Value in binary coded form for cfg_vin1a_d5_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x9CC++0x3
line.long 0x00 "CFG_VIN1A_D6_IN,Delay Select Value in binary coded form for cfg_vin1a_d6_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x9D0++0x3
line.long 0x00 "CFG_VIN1A_D6_OEN,Delay Select Value in binary coded form for cfg_vin1a_d6_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x9D4++0x3
line.long 0x00 "CFG_VIN1A_D6_OUT,Delay Select Value in binary coded form for cfg_vin1a_d6_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x9D8++0x3
line.long 0x00 "CFG_VIN1A_D7_IN,Delay Select Value in binary coded form for cfg_vin1a_d7_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x9DC++0x3
line.long 0x00 "CFG_VIN1A_D7_OEN,Delay Select Value in binary coded form for cfg_vin1a_d7_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x9E0++0x3
line.long 0x00 "CFG_VIN1A_D7_OUT,Delay Select Value in binary coded form for cfg_vin1a_d7_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x9E4++0x3
line.long 0x00 "CFG_VIN1A_D8_IN,Delay Select Value in binary coded form for cfg_vin1a_d8_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x9E8++0x3
line.long 0x00 "CFG_VIN1A_D8_OEN,Delay Select Value in binary coded form for cfg_vin1a_d8_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x9EC++0x3
line.long 0x00 "CFG_VIN1A_D8_OUT,Delay Select Value in binary coded form for cfg_vin1a_d8_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x9F0++0x3
line.long 0x00 "CFG_VIN1A_D9_IN,Delay Select Value in binary coded form for cfg_vin1a_d9_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x9F4++0x3
line.long 0x00 "CFG_VIN1A_D9_OEN,Delay Select Value in binary coded form for cfg_vin1a_d9_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x9F8++0x3
line.long 0x00 "CFG_VIN1A_D9_OUT,Delay Select Value in binary coded form for cfg_vin1a_d9_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0x9FC++0x3
line.long 0x00 "CFG_VIN1A_DE0_IN,Delay Select Value in binary coded form for cfg_vin1a_de0_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA00++0x3
line.long 0x00 "CFG_VIN1A_DE0_OEN,Delay Select Value in binary coded form for cfg_vin1a_de0_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA04++0x3
line.long 0x00 "CFG_VIN1A_DE0_OUT,Delay Select Value in binary coded form for cfg_vin1a_de0_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA08++0x3
line.long 0x00 "CFG_VIN1A_FLD0_IN,Delay Select Value in binary coded form for cfg_vin1a_fld0_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA0C++0x3
line.long 0x00 "CFG_VIN1A_FLD0_OEN,Delay Select Value in binary coded form for cfg_vin1a_fld0_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA10++0x3
line.long 0x00 "CFG_VIN1A_FLD0_OUT,Delay Select Value in binary coded form for cfg_vin1a_fld0_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA14++0x3
line.long 0x00 "CFG_VIN1A_HSYNC0_IN,Delay Select Value in binary coded form for cfg_vin1a_hsync0_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA18++0x3
line.long 0x00 "CFG_VIN1A_HSYNC0_OEN,Delay Select Value in binary coded form for cfg_vin1a_hsync0_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA1C++0x3
line.long 0x00 "CFG_VIN1A_HSYNC0_OUT,Delay Select Value in binary coded form for cfg_vin1a_hsync0_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA20++0x3
line.long 0x00 "CFG_VIN1A_VSYNC0_IN,Delay Select Value in binary coded form for cfg_vin1a_vsync0_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA24++0x3
line.long 0x00 "CFG_VIN1A_VSYNC0_OEN,Delay Select Value in binary coded form for cfg_vin1a_vsync0_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA28++0x3
line.long 0x00 "CFG_VIN1A_VSYNC0_OUT,Delay Select Value in binary coded form for cfg_vin1a_vsync0_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA2C++0x3
line.long 0x00 "CFG_VIN1B_CLK1_IN,Delay Select Value in binary coded form for cfg_vin1b_clk1_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA30++0x3
line.long 0x00 "CFG_VIN1B_CLK1_OEN,Delay Select Value in binary coded form for cfg_vin1b_clk1_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA34++0x3
line.long 0x00 "CFG_VIN1B_CLK1_OUT,Delay Select Value in binary coded form for cfg_vin1b_clk1_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA38++0x3
line.long 0x00 "CFG_VIN2A_CLK0_IN,Delay Select Value in binary coded form for cfg_vin2a_clk0_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA3C++0x3
line.long 0x00 "CFG_VIN2A_CLK0_OEN,Delay Select Value in binary coded form for cfg_vin2a_clk0_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA40++0x3
line.long 0x00 "CFG_VIN2A_CLK0_OUT,Delay Select Value in binary coded form for cfg_vin2a_clk0_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA44++0x3
line.long 0x00 "CFG_VIN2A_D0_IN,Delay Select Value in binary coded form for cfg_vin2a_d0_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA48++0x3
line.long 0x00 "CFG_VIN2A_D0_OEN,Delay Select Value in binary coded form for cfg_vin2a_d0_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA4C++0x3
line.long 0x00 "CFG_VIN2A_D0_OUT,Delay Select Value in binary coded form for cfg_vin2a_d0_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA50++0x3
line.long 0x00 "CFG_VIN2A_D10_IN,Delay Select Value in binary coded form for cfg_vin2a_d10_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA54++0x3
line.long 0x00 "CFG_VIN2A_D10_OEN,Delay Select Value in binary coded form for cfg_vin2a_d10_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA58++0x3
line.long 0x00 "CFG_VIN2A_D10_OUT,Delay Select Value in binary coded form for cfg_vin2a_d10_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA5C++0x3
line.long 0x00 "CFG_VIN2A_D11_IN,Delay Select Value in binary coded form for cfg_vin2a_d11_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA60++0x3
line.long 0x00 "CFG_VIN2A_D11_OEN,Delay Select Value in binary coded form for cfg_vin2a_d11_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA64++0x3
line.long 0x00 "CFG_VIN2A_D11_OUT,Delay Select Value in binary coded form for cfg_vin2a_d11_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA68++0x3
line.long 0x00 "CFG_VIN2A_D12_IN,Delay Select Value in binary coded form for cfg_vin2a_d12_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA6C++0x3
line.long 0x00 "CFG_VIN2A_D12_OEN,Delay Select Value in binary coded form for cfg_vin2a_d12_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA70++0x3
line.long 0x00 "CFG_VIN2A_D12_OUT,Delay Select Value in binary coded form for cfg_vin2a_d12_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA74++0x3
line.long 0x00 "CFG_VIN2A_D13_IN,Delay Select Value in binary coded form for cfg_vin2a_d13_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA78++0x3
line.long 0x00 "CFG_VIN2A_D13_OEN,Delay Select Value in binary coded form for cfg_vin2a_d13_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA7C++0x3
line.long 0x00 "CFG_VIN2A_D13_OUT,Delay Select Value in binary coded form for cfg_vin2a_d13_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA80++0x3
line.long 0x00 "CFG_VIN2A_D14_IN,Delay Select Value in binary coded form for cfg_vin2a_d14_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA84++0x3
line.long 0x00 "CFG_VIN2A_D14_OEN,Delay Select Value in binary coded form for cfg_vin2a_d14_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA88++0x3
line.long 0x00 "CFG_VIN2A_D14_OUT,Delay Select Value in binary coded form for cfg_vin2a_d14_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA8C++0x3
line.long 0x00 "CFG_VIN2A_D15_IN,Delay Select Value in binary coded form for cfg_vin2a_d15_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA90++0x3
line.long 0x00 "CFG_VIN2A_D15_OEN,Delay Select Value in binary coded form for cfg_vin2a_d15_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA94++0x3
line.long 0x00 "CFG_VIN2A_D15_OUT,Delay Select Value in binary coded form for cfg_vin2a_d15_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA98++0x3
line.long 0x00 "CFG_VIN2A_D16_IN,Delay Select Value in binary coded form for cfg_vin2a_d16_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xA9C++0x3
line.long 0x00 "CFG_VIN2A_D16_OEN,Delay Select Value in binary coded form for cfg_vin2a_d16_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xAA0++0x3
line.long 0x00 "CFG_VIN2A_D16_OUT,Delay Select Value in binary coded form for cfg_vin2a_d16_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xAA4++0x3
line.long 0x00 "CFG_VIN2A_D17_IN,Delay Select Value in binary coded form for cfg_vin2a_d17_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xAA8++0x3
line.long 0x00 "CFG_VIN2A_D17_OEN,Delay Select Value in binary coded form for cfg_vin2a_d17_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xAAC++0x3
line.long 0x00 "CFG_VIN2A_D17_OUT,Delay Select Value in binary coded form for cfg_vin2a_d17_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xAB0++0x3
line.long 0x00 "CFG_VIN2A_D18_IN,Delay Select Value in binary coded form for cfg_vin2a_d18_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xAB4++0x3
line.long 0x00 "CFG_VIN2A_D18_OEN,Delay Select Value in binary coded form for cfg_vin2a_d18_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xAB8++0x3
line.long 0x00 "CFG_VIN2A_D18_OUT,Delay Select Value in binary coded form for cfg_vin2a_d18_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xABC++0x3
line.long 0x00 "CFG_VIN2A_D19_IN,Delay Select Value in binary coded form for cfg_vin2a_d19_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xAC0++0x3
line.long 0x00 "CFG_VIN2A_D19_OEN,Delay Select Value in binary coded form for cfg_vin2a_d19_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xAC4++0x3
line.long 0x00 "CFG_VIN2A_D19_OUT,Delay Select Value in binary coded form for cfg_vin2a_d19_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xAC8++0x3
line.long 0x00 "CFG_VIN2A_D1_IN,Delay Select Value in binary coded form for cfg_vin2a_d1_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xACC++0x3
line.long 0x00 "CFG_VIN2A_D1_OEN,Delay Select Value in binary coded form for cfg_vin2a_d1_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xAD0++0x3
line.long 0x00 "CFG_VIN2A_D1_OUT,Delay Select Value in binary coded form for cfg_vin2a_d1_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xAD4++0x3
line.long 0x00 "CFG_VIN2A_D20_IN,Delay Select Value in binary coded form for cfg_vin2a_d20_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xAD8++0x3
line.long 0x00 "CFG_VIN2A_D20_OEN,Delay Select Value in binary coded form for cfg_vin2a_d20_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xADC++0x3
line.long 0x00 "CFG_VIN2A_D20_OUT,Delay Select Value in binary coded form for cfg_vin2a_d20_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xAE0++0x3
line.long 0x00 "CFG_VIN2A_D21_IN,Delay Select Value in binary coded form for cfg_vin2a_d21_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xAE4++0x3
line.long 0x00 "CFG_VIN2A_D21_OEN,Delay Select Value in binary coded form for cfg_vin2a_d21_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xAE8++0x3
line.long 0x00 "CFG_VIN2A_D21_OUT,Delay Select Value in binary coded form for cfg_vin2a_d21_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xAEC++0x3
line.long 0x00 "CFG_VIN2A_D22_IN,Delay Select Value in binary coded form for cfg_vin2a_d22_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xAF0++0x3
line.long 0x00 "CFG_VIN2A_D22_OEN,Delay Select Value in binary coded form for cfg_vin2a_d22_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xAF4++0x3
line.long 0x00 "CFG_VIN2A_D22_OUT,Delay Select Value in binary coded form for cfg_vin2a_d22_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xAF8++0x3
line.long 0x00 "CFG_VIN2A_D23_IN,Delay Select Value in binary coded form for cfg_vin2a_d23_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xAFC++0x3
line.long 0x00 "CFG_VIN2A_D23_OEN,Delay Select Value in binary coded form for cfg_vin2a_d23_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB00++0x3
line.long 0x00 "CFG_VIN2A_D23_OUT,Delay Select Value in binary coded form for cfg_vin2a_d23_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB04++0x3
line.long 0x00 "CFG_VIN2A_D2_IN,Delay Select Value in binary coded form for cfg_vin2a_d2_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB08++0x3
line.long 0x00 "CFG_VIN2A_D2_OEN,Delay Select Value in binary coded form for cfg_vin2a_d2_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB0C++0x3
line.long 0x00 "CFG_VIN2A_D2_OUT,Delay Select Value in binary coded form for cfg_vin2a_d2_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB10++0x3
line.long 0x00 "CFG_VIN2A_D3_IN,Delay Select Value in binary coded form for cfg_vin2a_d3_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB14++0x3
line.long 0x00 "CFG_VIN2A_D3_OEN,Delay Select Value in binary coded form for cfg_vin2a_d3_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB18++0x3
line.long 0x00 "CFG_VIN2A_D3_OUT,Delay Select Value in binary coded form for cfg_vin2a_d3_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB1C++0x3
line.long 0x00 "CFG_VIN2A_D4_IN,Delay Select Value in binary coded form for cfg_vin2a_d4_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB20++0x3
line.long 0x00 "CFG_VIN2A_D4_OEN,Delay Select Value in binary coded form for cfg_vin2a_d4_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB24++0x3
line.long 0x00 "CFG_VIN2A_D4_OUT,Delay Select Value in binary coded form for cfg_vin2a_d4_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB28++0x3
line.long 0x00 "CFG_VIN2A_D5_IN,Delay Select Value in binary coded form for cfg_vin2a_d5_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB2C++0x3
line.long 0x00 "CFG_VIN2A_D5_OEN,Delay Select Value in binary coded form for cfg_vin2a_d5_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB30++0x3
line.long 0x00 "CFG_VIN2A_D5_OUT,Delay Select Value in binary coded form for cfg_vin2a_d5_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB34++0x3
line.long 0x00 "CFG_VIN2A_D6_IN,Delay Select Value in binary coded form for cfg_vin2a_d6_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB38++0x3
line.long 0x00 "CFG_VIN2A_D6_OEN,Delay Select Value in binary coded form for cfg_vin2a_d6_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB3C++0x3
line.long 0x00 "CFG_VIN2A_D6_OUT,Delay Select Value in binary coded form for cfg_vin2a_d6_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB40++0x3
line.long 0x00 "CFG_VIN2A_D7_IN,Delay Select Value in binary coded form for cfg_vin2a_d7_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB44++0x3
line.long 0x00 "CFG_VIN2A_D7_OEN,Delay Select Value in binary coded form for cfg_vin2a_d7_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB48++0x3
line.long 0x00 "CFG_VIN2A_D7_OUT,Delay Select Value in binary coded form for cfg_vin2a_d7_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB4C++0x3
line.long 0x00 "CFG_VIN2A_D8_IN,Delay Select Value in binary coded form for cfg_vin2a_d8_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB50++0x3
line.long 0x00 "CFG_VIN2A_D8_OEN,Delay Select Value in binary coded form for cfg_vin2a_d8_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB54++0x3
line.long 0x00 "CFG_VIN2A_D8_OUT,Delay Select Value in binary coded form for cfg_vin2a_d8_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB58++0x3
line.long 0x00 "CFG_VIN2A_D9_IN,Delay Select Value in binary coded form for cfg_vin2a_d9_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB5C++0x3
line.long 0x00 "CFG_VIN2A_D9_OEN,Delay Select Value in binary coded form for cfg_vin2a_d9_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB60++0x3
line.long 0x00 "CFG_VIN2A_D9_OUT,Delay Select Value in binary coded form for cfg_vin2a_d9_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB64++0x3
line.long 0x00 "CFG_VIN2A_DE0_IN,Delay Select Value in binary coded form for cfg_vin2a_de0_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB68++0x3
line.long 0x00 "CFG_VIN2A_DE0_OEN,Delay Select Value in binary coded form for cfg_vin2a_de0_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB6C++0x3
line.long 0x00 "CFG_VIN2A_DE0_OUT,Delay Select Value in binary coded form for cfg_vin2a_de0_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB70++0x3
line.long 0x00 "CFG_VIN2A_FLD0_IN,Delay Select Value in binary coded form for cfg_vin2a_fld0_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB74++0x3
line.long 0x00 "CFG_VIN2A_FLD0_OEN,Delay Select Value in binary coded form for cfg_vin2a_fld0_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB78++0x3
line.long 0x00 "CFG_VIN2A_FLD0_OUT,Delay Select Value in binary coded form for cfg_vin2a_fld0_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB7C++0x3
line.long 0x00 "CFG_VIN2A_HSYNC0_IN,Delay Select Value in binary coded form for cfg_vin2a_hsync0_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB80++0x3
line.long 0x00 "CFG_VIN2A_HSYNC0_OEN,Delay Select Value in binary coded form for cfg_vin2a_hsync0_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB84++0x3
line.long 0x00 "CFG_VIN2A_HSYNC0_OUT,Delay Select Value in binary coded form for cfg_vin2a_hsync0_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB88++0x3
line.long 0x00 "CFG_VIN2A_VSYNC0_IN,Delay Select Value in binary coded form for cfg_vin2a_vsync0_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB8C++0x3
line.long 0x00 "CFG_VIN2A_VSYNC0_OEN,Delay Select Value in binary coded form for cfg_vin2a_vsync0_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB90++0x3
line.long 0x00 "CFG_VIN2A_VSYNC0_OUT,Delay Select Value in binary coded form for cfg_vin2a_vsync0_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB94++0x3
line.long 0x00 "CFG_VOUT1_CLK_IN,Delay Select Value in binary coded form for cfg_vout1_clk_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB98++0x3
line.long 0x00 "CFG_VOUT1_CLK_OEN,Delay Select Value in binary coded form for cfg_vout1_clk_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xB9C++0x3
line.long 0x00 "CFG_VOUT1_CLK_OUT,Delay Select Value in binary coded form for cfg_vout1_clk_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xBA0++0x3
line.long 0x00 "CFG_VOUT1_D0_IN,Delay Select Value in binary coded form for cfg_vout1_d0_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xBA4++0x3
line.long 0x00 "CFG_VOUT1_D0_OEN,Delay Select Value in binary coded form for cfg_vout1_d0_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xBA8++0x3
line.long 0x00 "CFG_VOUT1_D0_OUT,Delay Select Value in binary coded form for cfg_vout1_d0_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xBAC++0x3
line.long 0x00 "CFG_VOUT1_D10_IN,Delay Select Value in binary coded form for cfg_vout1_d10_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xBB0++0x3
line.long 0x00 "CFG_VOUT1_D10_OEN,Delay Select Value in binary coded form for cfg_vout1_d10_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xBB4++0x3
line.long 0x00 "CFG_VOUT1_D10_OUT,Delay Select Value in binary coded form for cfg_vout1_d10_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xBB8++0x3
line.long 0x00 "CFG_VOUT1_D11_IN,Delay Select Value in binary coded form for cfg_vout1_d11_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xBBC++0x3
line.long 0x00 "CFG_VOUT1_D11_OEN,Delay Select Value in binary coded form for cfg_vout1_d11_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xBC0++0x3
line.long 0x00 "CFG_VOUT1_D11_OUT,Delay Select Value in binary coded form for cfg_vout1_d11_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xBC4++0x3
line.long 0x00 "CFG_VOUT1_D12_IN,Delay Select Value in binary coded form for cfg_vout1_d12_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xBC8++0x3
line.long 0x00 "CFG_VOUT1_D12_OEN,Delay Select Value in binary coded form for cfg_vout1_d12_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xBCC++0x3
line.long 0x00 "CFG_VOUT1_D12_OUT,Delay Select Value in binary coded form for cfg_vout1_d12_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xBD0++0x3
line.long 0x00 "CFG_VOUT1_D13_IN,Delay Select Value in binary coded form for cfg_vout1_d13_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xBD4++0x3
line.long 0x00 "CFG_VOUT1_D13_OEN,Delay Select Value in binary coded form for cfg_vout1_d13_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xBD8++0x3
line.long 0x00 "CFG_VOUT1_D13_OUT,Delay Select Value in binary coded form for cfg_vout1_d13_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xBDC++0x3
line.long 0x00 "CFG_VOUT1_D14_IN,Delay Select Value in binary coded form for cfg_vout1_d14_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xBE0++0x3
line.long 0x00 "CFG_VOUT1_D14_OEN,Delay Select Value in binary coded form for cfg_vout1_d14_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xBE4++0x3
line.long 0x00 "CFG_VOUT1_D14_OUT,Delay Select Value in binary coded form for cfg_vout1_d14_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xBE8++0x3
line.long 0x00 "CFG_VOUT1_D15_IN,Delay Select Value in binary coded form for cfg_vout1_d15_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xBEC++0x3
line.long 0x00 "CFG_VOUT1_D15_OEN,Delay Select Value in binary coded form for cfg_vout1_d15_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xBF0++0x3
line.long 0x00 "CFG_VOUT1_D15_OUT,Delay Select Value in binary coded form for cfg_vout1_d15_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xBF4++0x3
line.long 0x00 "CFG_VOUT1_D16_IN,Delay Select Value in binary coded form for cfg_vout1_d16_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xBF8++0x3
line.long 0x00 "CFG_VOUT1_D16_OEN,Delay Select Value in binary coded form for cfg_vout1_d16_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xBFC++0x3
line.long 0x00 "CFG_VOUT1_D16_OUT,Delay Select Value in binary coded form for cfg_vout1_d16_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC00++0x3
line.long 0x00 "CFG_VOUT1_D17_IN,Delay Select Value in binary coded form for cfg_vout1_d17_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC04++0x3
line.long 0x00 "CFG_VOUT1_D17_OEN,Delay Select Value in binary coded form for cfg_vout1_d17_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC08++0x3
line.long 0x00 "CFG_VOUT1_D17_OUT,Delay Select Value in binary coded form for cfg_vout1_d17_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC0C++0x3
line.long 0x00 "CFG_VOUT1_D18_IN,Delay Select Value in binary coded form for cfg_vout1_d18_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC10++0x3
line.long 0x00 "CFG_VOUT1_D18_OEN,Delay Select Value in binary coded form for cfg_vout1_d18_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC14++0x3
line.long 0x00 "CFG_VOUT1_D18_OUT,Delay Select Value in binary coded form for cfg_vout1_d18_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC18++0x3
line.long 0x00 "CFG_VOUT1_D19_IN,Delay Select Value in binary coded form for cfg_vout1_d19_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC1C++0x3
line.long 0x00 "CFG_VOUT1_D19_OEN,Delay Select Value in binary coded form for cfg_vout1_d19_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC20++0x3
line.long 0x00 "CFG_VOUT1_D19_OUT,Delay Select Value in binary coded form for cfg_vout1_d19_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC24++0x3
line.long 0x00 "CFG_VOUT1_D1_IN,Delay Select Value in binary coded form for cfg_vout1_d1_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC28++0x3
line.long 0x00 "CFG_VOUT1_D1_OEN,Delay Select Value in binary coded form for cfg_vout1_d1_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC2C++0x3
line.long 0x00 "CFG_VOUT1_D1_OUT,Delay Select Value in binary coded form for cfg_vout1_d1_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC30++0x3
line.long 0x00 "CFG_VOUT1_D20_IN,Delay Select Value in binary coded form for cfg_vout1_d20_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC34++0x3
line.long 0x00 "CFG_VOUT1_D20_OEN,Delay Select Value in binary coded form for cfg_vout1_d20_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC38++0x3
line.long 0x00 "CFG_VOUT1_D20_OUT,Delay Select Value in binary coded form for cfg_vout1_d20_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC3C++0x3
line.long 0x00 "CFG_VOUT1_D21_IN,Delay Select Value in binary coded form for cfg_vout1_d21_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC40++0x3
line.long 0x00 "CFG_VOUT1_D21_OEN,Delay Select Value in binary coded form for cfg_vout1_d21_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC44++0x3
line.long 0x00 "CFG_VOUT1_D21_OUT,Delay Select Value in binary coded form for cfg_vout1_d21_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC48++0x3
line.long 0x00 "CFG_VOUT1_D22_IN,Delay Select Value in binary coded form for cfg_vout1_d22_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC4C++0x3
line.long 0x00 "CFG_VOUT1_D22_OEN,Delay Select Value in binary coded form for cfg_vout1_d22_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC50++0x3
line.long 0x00 "CFG_VOUT1_D22_OUT,Delay Select Value in binary coded form for cfg_vout1_d22_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC54++0x3
line.long 0x00 "CFG_VOUT1_D23_IN,Delay Select Value in binary coded form for cfg_vout1_d23_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC58++0x3
line.long 0x00 "CFG_VOUT1_D23_OEN,Delay Select Value in binary coded form for cfg_vout1_d23_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC5C++0x3
line.long 0x00 "CFG_VOUT1_D23_OUT,Delay Select Value in binary coded form for cfg_vout1_d23_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC60++0x3
line.long 0x00 "CFG_VOUT1_D2_IN,Delay Select Value in binary coded form for cfg_vout1_d2_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC64++0x3
line.long 0x00 "CFG_VOUT1_D2_OEN,Delay Select Value in binary coded form for cfg_vout1_d2_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC68++0x3
line.long 0x00 "CFG_VOUT1_D2_OUT,Delay Select Value in binary coded form for cfg_vout1_d2_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC6C++0x3
line.long 0x00 "CFG_VOUT1_D3_IN,Delay Select Value in binary coded form for cfg_vout1_d3_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC70++0x3
line.long 0x00 "CFG_VOUT1_D3_OEN,Delay Select Value in binary coded form for cfg_vout1_d3_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC74++0x3
line.long 0x00 "CFG_VOUT1_D3_OUT,Delay Select Value in binary coded form for cfg_vout1_d3_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC78++0x3
line.long 0x00 "CFG_VOUT1_D4_IN,Delay Select Value in binary coded form for cfg_vout1_d4_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC7C++0x3
line.long 0x00 "CFG_VOUT1_D4_OEN,Delay Select Value in binary coded form for cfg_vout1_d4_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC80++0x3
line.long 0x00 "CFG_VOUT1_D4_OUT,Delay Select Value in binary coded form for cfg_vout1_d4_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC84++0x3
line.long 0x00 "CFG_VOUT1_D5_IN,Delay Select Value in binary coded form for cfg_vout1_d5_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC88++0x3
line.long 0x00 "CFG_VOUT1_D5_OEN,Delay Select Value in binary coded form for cfg_vout1_d5_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC8C++0x3
line.long 0x00 "CFG_VOUT1_D5_OUT,Delay Select Value in binary coded form for cfg_vout1_d5_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC90++0x3
line.long 0x00 "CFG_VOUT1_D6_IN,Delay Select Value in binary coded form for cfg_vout1_d6_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC94++0x3
line.long 0x00 "CFG_VOUT1_D6_OEN,Delay Select Value in binary coded form for cfg_vout1_d6_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC98++0x3
line.long 0x00 "CFG_VOUT1_D6_OUT,Delay Select Value in binary coded form for cfg_vout1_d6_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xC9C++0x3
line.long 0x00 "CFG_VOUT1_D7_IN,Delay Select Value in binary coded form for cfg_vout1_d7_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xCA0++0x3
line.long 0x00 "CFG_VOUT1_D7_OEN,Delay Select Value in binary coded form for cfg_vout1_d7_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xCA4++0x3
line.long 0x00 "CFG_VOUT1_D7_OUT,Delay Select Value in binary coded form for cfg_vout1_d7_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xCA8++0x3
line.long 0x00 "CFG_VOUT1_D8_IN,Delay Select Value in binary coded form for cfg_vout1_d8_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xCAC++0x3
line.long 0x00 "CFG_VOUT1_D8_OEN,Delay Select Value in binary coded form for cfg_vout1_d8_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xCB0++0x3
line.long 0x00 "CFG_VOUT1_D8_OUT,Delay Select Value in binary coded form for cfg_vout1_d8_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xCB4++0x3
line.long 0x00 "CFG_VOUT1_D9_IN,Delay Select Value in binary coded form for cfg_vout1_d9_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xCB8++0x3
line.long 0x00 "CFG_VOUT1_D9_OEN,Delay Select Value in binary coded form for cfg_vout1_d9_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xCBC++0x3
line.long 0x00 "CFG_VOUT1_D9_OUT,Delay Select Value in binary coded form for cfg_vout1_d9_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xCC0++0x3
line.long 0x00 "CFG_VOUT1_DE_IN,Delay Select Value in binary coded form for cfg_vout1_de_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xCC4++0x3
line.long 0x00 "CFG_VOUT1_DE_OEN,Delay Select Value in binary coded form for cfg_vout1_de_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xCC8++0x3
line.long 0x00 "CFG_VOUT1_DE_OUT,Delay Select Value in binary coded form for cfg_vout1_de_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xCCC++0x3
line.long 0x00 "CFG_VOUT1_FLD_IN,Delay Select Value in binary coded form for cfg_vout1_fld_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xCD0++0x3
line.long 0x00 "CFG_VOUT1_FLD_OEN,Delay Select Value in binary coded form for cfg_vout1_fld_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xCD4++0x3
line.long 0x00 "CFG_VOUT1_FLD_OUT,Delay Select Value in binary coded form for cfg_vout1_fld_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xCD8++0x3
line.long 0x00 "CFG_VOUT1_HSYNC_IN,Delay Select Value in binary coded form for cfg_vout1_hsync_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xCDC++0x3
line.long 0x00 "CFG_VOUT1_HSYNC_OEN,Delay Select Value in binary coded form for cfg_vout1_hsync_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xCE0++0x3
line.long 0x00 "CFG_VOUT1_HSYNC_OUT,Delay Select Value in binary coded form for cfg_vout1_hsync_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xCE4++0x3
line.long 0x00 "CFG_VOUT1_VSYNC_IN,Delay Select Value in binary coded form for cfg_vout1_vsync_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xCE8++0x3
line.long 0x00 "CFG_VOUT1_VSYNC_OEN,Delay Select Value in binary coded form for cfg_vout1_vsync_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xCEC++0x3
line.long 0x00 "CFG_VOUT1_VSYNC_OUT,Delay Select Value in binary coded form for cfg_vout1_vsync_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xCF0++0x3
line.long 0x00 "CFG_XREF_CLK0_IN,Delay Select Value in binary coded form for cfg_xref_clk0_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xCF4++0x3
line.long 0x00 "CFG_XREF_CLK0_OEN,Delay Select Value in binary coded form for cfg_xref_clk0_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xCF8++0x3
line.long 0x00 "CFG_XREF_CLK0_OUT,Delay Select Value in binary coded form for cfg_xref_clk0_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xCFC++0x3
line.long 0x00 "CFG_XREF_CLK1_IN,Delay Select Value in binary coded form for cfg_xref_clk1_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xD00++0x3
line.long 0x00 "CFG_XREF_CLK1_OEN,Delay Select Value in binary coded form for cfg_xref_clk1_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xD04++0x3
line.long 0x00 "CFG_XREF_CLK1_OUT,Delay Select Value in binary coded form for cfg_xref_clk1_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xD08++0x3
line.long 0x00 "CFG_XREF_CLK2_IN,Delay Select Value in binary coded form for cfg_xref_clk2_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xD0C++0x3
line.long 0x00 "CFG_XREF_CLK2_OEN,Delay Select Value in binary coded form for cfg_xref_clk2_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xD10++0x3
line.long 0x00 "CFG_XREF_CLK2_OUT,Delay Select Value in binary coded form for cfg_xref_clk2_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xD14++0x3
line.long 0x00 "CFG_XREF_CLK3_IN,Delay Select Value in binary coded form for cfg_xref_clk3_in interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xD18++0x3
line.long 0x00 "CFG_XREF_CLK3_OEN,Delay Select Value in binary coded form for cfg_xref_clk3_oen interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
group.long 0xD1C++0x3
line.long 0x00 "CFG_XREF_CLK3_OUT,Delay Select Value in binary coded form for cfg_xref_clk3_out interface"
bitfld.long 0x00 12.--17. " SIGNATURE          ,Write to this register will succeed only if data on these bits carries a signature of 6'h29 (6'b101001)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10. "    LOCK_BIT          ,When '1', prevents HW update to this MMR. When '0', allows HW update of this MMR." "0,1"
hexmask.long.word 0x00 0.--9. 1. "     BINARY_DELAY ,Delay Select Value in binary coded form. Indicates the number of coarse (9:5) and fine (4:0) delay elements to be used on the delay line connected to this pad."
width 0x0B
tree.end
tree.end
tree.open "Control_Module"
tree "CTRL_MODULE_CORE"
base ad:0x4A002000
width 49.
rgroup.long 0x134++0x3
line.long 0x00 "CTRL_CORE_STATUS,Control Module Status Register"
bitfld.long 0x00 6.--8. " DEVICE_TYPE                           ,Device type captured at reset time. Read 0x3 = General Purpose (GP)" "0,1,2,3,4,5,6,7"
group.long 0x148++0x3
line.long 0x00 "CTRL_CORE_SEC_ERR_STATUS_FUNC_1,Firewall Error Status functional Register 1"
eventfld.long 0x00 31. " EVE4_FW_ERROR                         ,EVE4 firewall 0x0 = No error firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 30. "             EVE3_FW_ERROR                       ,EVE3 firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 29. "           EVE2_FW_ERROR                        ,EVE2 firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
textline "                                                          "
eventfld.long 0x00 28. " EVE1_FW_ERROR                         ,EVE1 firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 23. "             BB2D_FW_ERROR                       ,BB2D firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 22. "           L4_WAKEUP_FW_ERROR                   ,L4 wakeup firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
textline "                                                          "
eventfld.long 0x00 18. " DEBUGSS_FW_ERROR                      ,DebugSS firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 17. "             L4_CONFIG_FW_ERROR                  ,L4 config firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 16. "           L4_PERIPH1_FW_ERROR                  ,L4 periph1 firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
textline "                                                          "
eventfld.long 0x00 14. " DSS_FW_ERROR                          ,DSS firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 13. "             GPU_FW_ERROR                        ,GPU firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 6. "           IVAHD_SL2_FW_ERROR                   ,IVAHD SL2 firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
textline "                                                          "
eventfld.long 0x00 5. " IPU1_FW_ERROR                         ,IPU1 firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 4. "             IVAHD_FW_ERROR                      ,IVAHD firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 3. "           EMIF_FW_ERROR                        ,EMIF firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
textline "                                                          "
eventfld.long 0x00 2. " GPMC_FW_ERROR                         ,GPMC firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 1. "             L3RAM1_FW_ERROR                     ,L3RAM1 firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
group.long 0x150++0x3
line.long 0x00 "CTRL_CORE_SEC_ERR_STATUS_DEBUG_1,Firewall Error Status Debug Register 1"
eventfld.long 0x00 31. " EVE4_DBGFW_ERROR                      ,EVE4 firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 30. "             EVE3_DBGFW_ERROR                    ,EVE3 firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 29. "           EVE2_DBGFW_ERROR                     ,EVE2 firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
textline "                                                          "
eventfld.long 0x00 28. " EVE1_DBGFW_ERROR                      ,EVE1 firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 23. "             BB2D_DBGFW_ERROR                    ,BB2D firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 22. "           L4_WAKEUP_DBGFW_ERROR                ,L4 wakeup firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
textline "                                                          "
eventfld.long 0x00 18. " DEBUGSS_DBGFW_ERROR                   ,DebugSS firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 17. "             L4_CONFIG_DBGFW_ERROR               ,L4 config firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 16. "           L4_PERIPH1_DBGFW_ERROR               ,L4 periph1 firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
textline "                                                          "
eventfld.long 0x00 14. " DSS_DBGFW_ERROR                       ,DSS debug firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 13. "             GPU_DBGFW_ERROR                     ,GPU debug firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 6. "           IVAHD_SL2_DBGFW_ERROR                ,IVAHD SL2 debug firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
textline "                                                          "
eventfld.long 0x00 5. " IPU1_DBGFW_ERROR                      ,IPU1 debug firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 4. "             IVAHD_DBGFW_ERROR                   ,IVAHD debug firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 3. "           EMIF_DBGFW_ERROR                     ,EMIF debug firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
textline "                                                          "
eventfld.long 0x00 2. " GPMC_DBGFW_ERROR                      ,GPMC debug firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 1. "             L3RAM1_DBGFW_ERROR                  ,L3RAM1 debug firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
group.long 0x15C++0x3
line.long 0x00 "CTRL_CORE_MPU_FORCEWRNP,FORCE WRITE NON POSTED"
bitfld.long 0x00 0. " MPU_FORCEWRNP                         ,Force mpu write non posted transactions 0x0 = disable force wrnp 0x1 = force wrnp" "0,1"
rgroup.long 0x194++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_GPU_0,Standard Fuse OPP VDD_GPU [31:0]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_GPU_0                ,"
rgroup.long 0x198++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_GPU_1,Standard Fuse OPP VDD_GPU [63:32]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_GPU_1                ,"
rgroup.long 0x19C++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_GPU_2,Standard Fuse OPP VDD_GPU [95:64]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_GPU_2                ,"
rgroup.long 0x1A0++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_GPU_3,Standard Fuse OPP VDD_GPU [127:96]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_GPU_3                ,"
rgroup.long 0x1A4++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_GPU_4,Standard Fuse OPP VDD_GPU [159:128]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_GPU_4                ,"
rgroup.long 0x1A8++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_GPU_5,Standard Fuse OPP VDD_GPU [191:160]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_GPU_5                ,"
rgroup.long 0x1AC++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_MPU_0,Standard Fuse OPP VDD_MPU [31:0]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_MPU_0                ,"
rgroup.long 0x1B0++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_MPU_1,Standard Fuse OPP VDD_MPU [63:32]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_MPU_1                ,"
rgroup.long 0x1B4++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_MPU_2,Standard Fuse OPP VDD_MPU [95:64]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_MPU_2                ,"
rgroup.long 0x1B8++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_MPU_3,Standard Fuse OPP VDD_MPU [127:96]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_MPU_3                ,"
rgroup.long 0x1BC++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_MPU_4,Standard Fuse OPP VDD_MPU [159:128]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_MPU_4                ,"
rgroup.long 0x1C0++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_MPU_5,Standard Fuse OPP VDD_MPU [191:160]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_MPU_5                ,"
rgroup.long 0x1C4++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_MPU_6,Standard Fuse OPP VDD_MPU [223:192]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_MPU_6                ,"
rgroup.long 0x1C8++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_MPU_7,Standard Fuse OPP VDD_MPU [255:224]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_MPU_7                ,"
rgroup.long 0x1CC++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_CORE_0,Standard Fuse OPP VDD_CORE [31:0]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_CORE_0               ,"
rgroup.long 0x1D0++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_CORE_1,Standard Fuse OPP VDD_CORE [63:32]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_CORE_1               ,"
rgroup.long 0x1D4++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_CORE_2,Standard Fuse OPP VDD_CORE [95:64]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_CORE_2               ,"
rgroup.long 0x1D8++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_CORE_3,Standard Fuse OPP VDD_CORE [127:96]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_CORE_3               ,"
rgroup.long 0x1DC++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_CORE_4,Standard Fuse OPP VDD_CORE [159:128]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_CORE_4               ,"
rgroup.long 0x1E0++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_BGAP_GPU,Trim values for GPU associated temperature sensor and bandgap. Contains TI Internal information, not intended for application use."
hexmask.long.byte 0x00 24.--31. 1. " STD_FUSE_OPP_BGAP_GPU_0               ,Trim values for GPU associated temperature sensor and bandgap. Contains TI Internal information, not intended for application use."
hexmask.long.byte 0x00 16.--23. 1. "            STD_FUSE_OPP_BGAP_GPU_1             ,Trim values for GPU associated temperature sensor and bandgap. Contains TI Internal information, not intended for application use."
hexmask.long.byte 0x00 8.--15. 1. "          STD_FUSE_OPP_BGAP_GPU_2              ,Trim values for GPU associated temperature sensor and bandgap. Contains TI Internal information, not intended for application use."
textline "                                                          "
hexmask.long.byte 0x00 0.--7. 1. " STD_FUSE_OPP_BGAP_GPU_3               ,Trim values for GPU associated temperature sensor and bandgap. Contains TI Internal information, not intended for application use."
rgroup.long 0x1E4++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_BGAP_MPU,Trim values for MPU associated temperature sensor and bandgap. Contains TI Internal information, not intended for application use."
hexmask.long.byte 0x00 24.--31. 1. " STD_FUSE_OPP_BGAP_MPU_0               ,Trim values for MPU associated temperature sensor and bandgap. Contains TI Internal information, not intended for application use."
hexmask.long.byte 0x00 16.--23. 1. "            STD_FUSE_OPP_BGAP_MPU_1             ,Trim values for MPU associated temperature sensor and bandgap. Contains TI Internal information, not intended for application use."
hexmask.long.byte 0x00 8.--15. 1. "          STD_FUSE_OPP_BGAP_MPU_2              ,Trim values for MPU associated temperature sensor and bandgap. Contains TI Internal information, not intended for application use."
textline "                                                          "
hexmask.long.byte 0x00 0.--7. 1. " STD_FUSE_OPP_BGAP_MPU_3               ,Trim values for MPU associated temperature sensor and bandgap. Contains TI Internal information, not intended for application use."
rgroup.long 0x1E8++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_BGAP_CORE,Trim values for CORE associated temperature sensor and bandgap. Contains TI Internal information, not intended for application use."
hexmask.long.byte 0x00 24.--31. 1. " STD_FUSE_OPP_BGAP_CORE_0              ,Trim values for CORE associated temperature sensor and bandgap. Contains TI Internal information, not intended for application use."
hexmask.long.byte 0x00 16.--23. 1. "            STD_FUSE_OPP_BGAP_CORE_1            ,Trim values for CORE associated temperature sensor and bandgap. Contains TI Internal information, not intended for application use."
hexmask.long.byte 0x00 8.--15. 1. "          STD_FUSE_OPP_BGAP_CORE_2             ,Trim values for CORE associated temperature sensor and bandgap. Contains TI Internal information, not intended for application use."
textline "                                                          "
hexmask.long.byte 0x00 0.--7. 1. " STD_FUSE_OPP_BGAP_CORE_3              ,Trim values for CORE associated temperature sensor and bandgap. Contains TI Internal information, not intended for application use."
rgroup.long 0x1EC++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_BGAP_MPU23,Standard Fuse OPP BGAP. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long.word 0x00 16.--31. 1. " STD_FUSE_OPP_BGAP_MPU3                ,"
hexmask.long.word 0x00 0.--15. 1. "          STD_FUSE_OPP_BGAP_MPU2              ,"
rgroup.long 0x220++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_MPK_0,Standard Fuse keys. Root_public_key_hash [31:0]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_MPK_0                        ,"
rgroup.long 0x224++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_MPK_1,Standard Fuse keys. Root_public_key_hash [63:32]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_MPK_1                        ,"
rgroup.long 0x228++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_MPK_2,Standard Fuse keys. Root_public_key_hash [95:64]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_MPK_2                        ,"
rgroup.long 0x22C++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_MPK_3,Standard Fuse keys. Root_public_key_hash [127:96]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_MPK_3                        ,"
rgroup.long 0x230++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_MPK_4,Standard Fuse keys. Root_public_key_hash [159:128]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_MPK_4                        ,"
rgroup.long 0x234++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_MPK_5,Standard Fuse keys. Root_public_key_hash [191:160]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_MPK_5                        ,"
rgroup.long 0x238++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_MPK_6,Standard Fuse keys. Root_public_key_hash [223:192]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_MPK_6                        ,"
rgroup.long 0x23C++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_MPK_7,Standard Fuse keys. Root_public_key_hash [255:224]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_MPK_7                        ,"
rgroup.long 0x240++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_GPU_LVT_0,Standard Fuse OPP VDD_GPU [31:0]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_GPU_LVT_0            ,"
rgroup.long 0x244++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_GPU_LVT_1,Standard Fuse OPP VDD_GPU [63:32]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_GPU_LVT_1            ,"
rgroup.long 0x248++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_GPU_LVT_2,Standard Fuse OPP VDD_GPU [95:64]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_GPU_LVT_2            ,"
rgroup.long 0x24C++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_GPU_LVT_3,Standard Fuse OPP VDD_GPU [127:96]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_GPU_LVT_3            ,"
rgroup.long 0x250++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_GPU_LVT_4,Standard Fuse OPP VDD_GPU [159:128]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_GPU_LVT_4            ,"
rgroup.long 0x254++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_GPU_LVT_5,Standard Fuse OPP VDD_GPU [191:160]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_GPU_LVT_5            ,"
rgroup.long 0x258++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_MPU_LVT_0,Standard Fuse OPP VDD_MPU [31:0]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_MPU_LVT_0            ,"
rgroup.long 0x25C++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_MPU_LVT_1,Standard Fuse OPP VDD_MPU [63:32]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_MPU_LVT_1            ,"
rgroup.long 0x260++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_MPU_LVT_2,Standard Fuse OPP VDD_MPU [95:64]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_MPU_LVT_2            ,"
rgroup.long 0x264++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_MPU_LVT_3,Standard Fuse OPP VDD_MPU [127:96]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_MPU_LVT_3            ,"
rgroup.long 0x268++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_MPU_LVT_4,Standard Fuse OPP VDD_MPU [159:128]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_MPU_LVT_4            ,"
rgroup.long 0x26C++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_MPU_LVT_5,Standard Fuse OPP VDD_MPU [191:160]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_MPU_LVT_5            ,"
rgroup.long 0x270++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_MPU_LVT_6,Standard Fuse OPP VDD_MPU [223:192]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_MPU_LVT_6            ,"
rgroup.long 0x274++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_MPU_LVT_7,Standard Fuse OPP VDD_MPU [255:224]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_MPU_LVT_7            ,"
rgroup.long 0x2BC++0x3
line.long 0x00 "CTRL_CORE_CUST_FUSE_SWRV_0,Customer Fuse keys. Software Version Control [031:000] (16 bits upper Redundant field) [FIELD OVERFLOW]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registe..."
hexmask.long 0x00 0.--31. 1. " CUST_FUSE_SWRV_0                      ,"
rgroup.long 0x2C0++0x3
line.long 0x00 "CTRL_CORE_CUST_FUSE_SWRV_1,Customer Fuse keys. Software Version Control [063:032] (16 bits upper Redundant field) [FIELD F]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers prov..."
hexmask.long 0x00 0.--31. 1. " CUST_FUSE_SWRV_1                      ,"
rgroup.long 0x2C4++0x3
line.long 0x00 "CTRL_CORE_CUST_FUSE_SWRV_2,Customer Fuse keys. Software Version Control [095:064] (16 bits upper Redundant field) [FIELD E]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers prov..."
hexmask.long 0x00 0.--31. 1. " CUST_FUSE_SWRV_2                      ,"
rgroup.long 0x2C8++0x3
line.long 0x00 "CTRL_CORE_CUST_FUSE_SWRV_3,Customer Fuse keys. Software Version Control [127:096] (16 bits upper Redundant field) [FIELD D]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers prov..."
hexmask.long 0x00 0.--31. 1. " CUST_FUSE_SWRV_3                      ,"
rgroup.long 0x2CC++0x3
line.long 0x00 "CTRL_CORE_CUST_FUSE_SWRV_4,Customer Fuse keys. Software Version Control [159:127] (16 bits upper Redundant field) [FIELD C]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers prov..."
hexmask.long 0x00 0.--31. 1. " CUST_FUSE_SWRV_4                      ,"
rgroup.long 0x2D0++0x3
line.long 0x00 "CTRL_CORE_CUST_FUSE_SWRV_5,Customer Fuse keys. Software Version Control [191:160] (16 bits upper Redundant field) [FIELD B]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers prov..."
hexmask.long 0x00 0.--31. 1. " CUST_FUSE_SWRV_5                      ,"
rgroup.long 0x2D4++0x3
line.long 0x00 "CTRL_CORE_CUST_FUSE_SWRV_6,Customer Fuse keys. Software Version Control [223:192] (16 bits upper Redundant field) [FIELD A]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers prov..."
hexmask.long 0x00 0.--31. 1. " CUST_FUSE_SWRV_6                      ,"
group.long 0x2E0++0x3
line.long 0x00 "CTRL_CORE_BREG_SELECTION,DPLL selection"
bitfld.long 0x00 14. " SEL_DDR                               ,Selection ddr 0x0 = no dpll selected 0x1 = rdpll selected" "0,1"
bitfld.long 0x00 13. "             SEL_GPU                             ,Selection gpu 0x0 = no dpll selected 0x1 = rdpll selected" "0,1"
bitfld.long 0x00 12. "           SEL_GMAC                             ,Selection gmac 0x0 = no dpll selected 0x1 = rdpll selected" "0,1"
textline "                                                          "
bitfld.long 0x00 11. " SEL_DSP                               ,Selection dsp 0x0 = no dpll selected 0x1 = rdpll selected" "0,1"
bitfld.long 0x00 10. "             SEL_EVE                             ,Selection eve 0x0 = no dpll selected 0x1 = rdpll selected" "0,1"
bitfld.long 0x00 9. "           SEL_USB                              ,Selection usb 0x0 = no dpll selected 0x1 = rdpll selected" "0,1"
textline "                                                          "
bitfld.long 0x00 8. " SEL_IVA                               ,Selection iva 0x0 = no dpll selected 0x1 = rdpll selected" "0,1"
bitfld.long 0x00 7. "             SEL_PCIE                            ,Selection pcie 0x0 = no dpll selected 0x1 = rdpll selected" "0,1"
bitfld.long 0x00 6. "           SEL_SATA                             ,Selection sata 0x0 = no dpll selected 0x1 = rdpll selected" "0,1"
textline "                                                          "
bitfld.long 0x00 5. " SEL_PER                               ,Selection per 0x0 = no dpll selected 0x1 = rdpll selected" "0,1"
bitfld.long 0x00 4. "             SEL_HDMI                            ,Selection hdmi 0x0 = no dpll selected 0x1 = rdpll selected" "0,1"
bitfld.long 0x00 1. "           SEL_CORE                             ,Selection core 0x0 = no dpll selected 0x1 = rdpll selected" "0,1"
textline "                                                          "
bitfld.long 0x00 0. " SEL_IPU                               ,Selection ipu 0x0 = no dpll selected 0x1 = rdpll selected" "0,1"
group.long 0x2E4++0x3
line.long 0x00 "CTRL_CORE_DPLL_BCLK,DPPL obs"
bitfld.long 0x00 1. " BRW                                   ,Reset 0x0 = no reset 0x1 = reset" "0,1"
bitfld.long 0x00 0. "             BCLK                                ,clock" "0,1"
group.long 0x2E8++0x3
line.long 0x00 "CTRL_CORE_DPLL_BADDR_BDATAW,DPLL addr and dataw"
bitfld.long 0x00 16.--19. " BADDR                                 ,baddr" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 0.--15. 1. "            BDATAW                              ,bdataw"
rgroup.long 0x2EC++0x3
line.long 0x00 "CTRL_CORE_DPLL_BDATAR,DPLL datar"
hexmask.long.word 0x00 0.--15. 1. " BDATAR                                ,datar"
group.long 0x300++0x3
line.long 0x00 "CTRL_CORE_DEV_CONF,This register is used to power down the USB2_PHY1"
bitfld.long 0x00 0. " USBPHY_PD                             ,Power down the entire USB2_PHY1 (data, common module and UTMI). 0x0: Normal operation 0x1: Power down the USB2_PHY1" "0,1"
rgroup.long 0x32C++0x3
line.long 0x00 "CTRL_CORE_TEMP_SENSOR_MPU,Control VBGAPTS temperature sensor and thermal comparator shutdown register"
bitfld.long 0x00 11. " BGAP_TMPSOFF_MPU                      ,This bit indicates the temperature sensor state." "0,1"
bitfld.long 0x00 10. "             BGAP_EOCZ_MPU                       ,ADC End of Conversion. Active low, when BGAP_DTEMP_MPU is valid." "0,1"
hexmask.long.word 0x00 0.--9. 1. "           BGAP_DTEMP_MPU                       ,Temperature data from the ADC. Valid if EOCZ is low."
rgroup.long 0x330++0x3
line.long 0x00 "CTRL_CORE_TEMP_SENSOR_GPU,Control VBGAPTS temperature sensor and thermal comparator shutdown register"
bitfld.long 0x00 11. " BGAP_TMPSOFF_GPU                      ,This bit indicates the temperature sensor state." "0,1"
bitfld.long 0x00 10. "             BGAP_EOCZ_GPU                       ,ADC End of Conversion. Active low, when BGAP_DTEMP_GPU is valid." "0,1"
hexmask.long.word 0x00 0.--9. 1. "           BGAP_DTEMP_GPU                       ,Temperature data from the ADC. Valid if EOCZ is low."
rgroup.long 0x334++0x3
line.long 0x00 "CTRL_CORE_TEMP_SENSOR_CORE,Control VBGAPTS temperature sensor and thermal comparator shutdown register"
bitfld.long 0x00 11. " BGAP_TMPSOFF_CORE                     ,This bit indicates the temperature sensor state." "0,1"
bitfld.long 0x00 10. "             BGAP_EOCZ_CORE                      ,ADC End of Conversion. Active low, when BGAP_DTEMP_CORE is valid." "0,1"
hexmask.long.word 0x00 0.--9. 1. "           BGAP_DTEMP_CORE                      ,Temperature data from the ADC. Valid if EOCZ is low."
group.long 0x358++0x3
line.long 0x00 "CTRL_CORE_CORTEX_M4_MMUADDRTRANSLTR,Cortex M4 register"
hexmask.long.tbyte 0x00 0.--19. 1. " CORTEX_M4_MMUADDRTRANSLTR             ,Used to save the mmu address boot"
group.long 0x35C++0x3
line.long 0x00 "CTRL_CORE_CORTEX_M4_MMUADDRLOGICTR,"
hexmask.long.tbyte 0x00 0.--19. 1. " CORTEX_M4_MMUADDRLOGICTR              ,"
group.long 0x360++0x3
line.long 0x00 "CTRL_CORE_HWOBS_CONTROL,HW observability control. This register enables or disables HW observability outputs (to save power primarily)"
bitfld.long 0x00 14.--18. " HWOBS_CLKDIV_SEL_2                    ,Clock divider selection on po_hwobs(2). 0x1 = output is not divided 0x2 = output is divided by 2 0x4 = output is divided by 4 0x8 = output is divided by 8 0x10 = output is divided by 16" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 9.--13. "            HWOBS_CLKDIV_SEL_1                  ,Clock divider selection on po_hwobs(1). 0x1 = output is not divided 0x2 = output is divided by 2 0x4 = output is divided by 4 0x8 = output is divided by 8 0x10 = output is divided by 16" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3.--7. "          HWOBS_CLKDIV_SEL                     ,Clock divider selection on po_hwobs(0). 0x1 = output is not divided 0x2 = output is divided by 2 0x4 = output is divided by 4 0x8 = output is divided by 8 0x10 = output is divided by 16" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                                          "
bitfld.long 0x00 2. " HWOBS_ALL_ZERO_MODE                   ,Used to gate observable signals. When set all outputs are set to zero (can be used to check the path from HW observability to external pads). 0x0 = hw observability ports are not gated 0x1 = hw observability port..." "0,1"
bitfld.long 0x00 1. "             HWOBS_ALL_ONE_MODE                  ,Used to gate observable signals. When set all outputs are set to one (can be used to check the path from HW observability to external pads). 0x0 = hw observability ports are not gated 0x1 = hw observabi..." "0,1"
bitfld.long 0x00 0. "           HWOBS_MACRO_ENABLE                   ,Used to gate observable signals coming from macros using the 32:bit HWOBS bus definition. When deasserted all outputs of the HWOBS busdef are set to zero. 0x0 = hw observability ports from macros are gat..." "0,1"
group.long 0x364++0x3
line.long 0x00 "CTRL_CORE_PCS1,pcs1"
hexmask.long.word 0x00 22.--31. 1. " USB_TEST_TXDATA                       ,"
hexmask.long.word 0x00 12.--21. 1. "          USB_ERR_USB_BIT_EN                  ,"
hexmask.long.byte 0x00 4.--11. 1. "        USB_CFG_HOLDOFF                      ,"
textline "                                                          "
bitfld.long 0x00 0.--3. " USB_DET_DELAY                         ," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x368++0x3
line.long 0x00 "CTRL_CORE_PCS2,pcs2"
bitfld.long 0x00 27.--31. " USB_CFG_SYNC                          ," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 23.--26. "            USB_CFG_EQ_FUNC                     ," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 19.--22. "          USB_CFG_EQ_HOLD                      ," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                                          "
bitfld.long 0x00 15.--18. " USB_CFG_EQ_INIT                       ," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--14. "            USB_TEST_OSEL                       ," "0,1,2,3,4,5,6,7"
bitfld.long 0x00 10.--11. "           USB_RC_DELAY                         ," "0,1,2,3"
textline "                                                          "
bitfld.long 0x00 9. " USB_TEST_LSEL                         ," "0,1"
bitfld.long 0x00 6.--7. "             USB_ERR_USB_MODE                    ," "0,1,2,3"
bitfld.long 0x00 5. "           USB_L1_SLEEP                         ," "0,1"
textline "                                                          "
bitfld.long 0x00 4. " USB_TEST_MODE                         ," "0,1"
bitfld.long 0x00 3. "             USB_ERR_USB_LN_EN                   ," "0,1"
bitfld.long 0x00 0. "           USB_SHORT_TIMES                      ," "0,1"
rgroup.long 0x36C++0x3
line.long 0x00 "CTRL_CORE_PCS_REVISION,pcs_revision"
bitfld.long 0x00 29.--31. " USB_REVISION                          ," "0,1,2,3,4,5,6,7"
group.long 0x370++0x3
line.long 0x00 "CTRL_CORE_PHY_POWER_USB,phy_power_usb"
hexmask.long.word 0x00 22.--31. 1. " USB_PWRCTL_CLK_FREQ                   ,Frequency of SYSCLK1 in MHz (rounded). For example, for 20MHz, program 0x14."
hexmask.long.byte 0x00 14.--21. 1. "          USB_PWRCTL_CLK_CMD                  ,Powers up/down the USB3_PHY_TX and USB3_PHY_RX modules. This bit field is also used for partially power down these TX and RX modules. Each bit has the following meaning: Bit[14] - 0x1: Powers-up the USB3_P..."
group.long 0x374++0x3
line.long 0x00 "CTRL_CORE_PHY_POWER_SATA,phy_power_sata"
hexmask.long.word 0x00 22.--31. 1. " SATA_PWRCTL_CLK_FREQ                  ,Frequency of SYSCLK1 in MHz (rounded). For example, for 20MHz, program 0x14."
hexmask.long.byte 0x00 14.--21. 1. "          SATA_PWRCTL_CLK_CMD                 ,Powers up/down the SATA_PHY_TX and SATA_PHY_RX modules. 0x0: Powers down SATA_PHY_TX and SATA_PHY_RX 0x1: Powers up SATA_PHY_RX 0x2: Powers up SATA_PHY_TX 0x3: Powers up SATA_PHY_TX and SATA_PHY_RX0x4-0xFF..."
group.long 0x380++0x3
line.long 0x00 "CTRL_CORE_BANDGAP_MASK_1,bgap_mask"
bitfld.long 0x00 30.--31. " SIDLEMODE                             ,sidlemode for bandgap 0x0 = No Idle 0x1 = Force Idle 0x2 = Smart Idle 0x3 = Reserved" "0,1,2,3"
bitfld.long 0x00 27.--29. "             COUNTER_DELAY                       ,Counter delay 0x0 = Imediat 0x1 = Delay of 1ms 0x2 = Delay of 10ms 0x3 = Delay of 100ms 0x4 = Delay of 250ms 0x5 = Delay of 500ms" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 23. "           FREEZE_CORE                          ,Freeze the FIFO CORE 0x0 = No operation 0x1 = Freeze the FIFO" "0,1"
textline "                                                          "
bitfld.long 0x00 22. " FREEZE_GPU                            ,Freeze the FIFO GPU 0x0 = No operation 0x1 = Freeze the FIFO" "0,1"
bitfld.long 0x00 21. "             FREEZE_MPU                          ,Freeze the FIFO MPU 0x0 = No operation 0x1 = Freeze the FIFO" "0,1"
bitfld.long 0x00 20. "           CLEAR_CORE                           ,Reset the FIFO CORE 0x0 = No operation 0x1 = Reset the FIFO" "0,1"
textline "                                                          "
bitfld.long 0x00 19. " CLEAR_GPU                             ,Reset the FIFO GPU 0x0 = No operation 0x1 = Reset the FIFO" "0,1"
bitfld.long 0x00 18. "             CLEAR_MPU                           ,Reset the FIFO MPU 0x0 = No operation 0x1 = Reset the FIFO" "0,1"
bitfld.long 0x00 5. "           MASK_HOT_CORE                        ,Mask for hot event CORE 0x0 = hot event is masked 0x1 = hot event is not masked" "0,1"
textline "                                                          "
bitfld.long 0x00 4. " MASK_COLD_CORE                        ,Mask for cold event CORE 0x0 = cold event is masked 0x1 = cold event is not masked" "0,1"
bitfld.long 0x00 3. "             MASK_HOT_GPU                        ,Mask for hot event GPU 0x0 = hot event is masked 0x1 = hot event is not masked" "0,1"
bitfld.long 0x00 2. "           MASK_COLD_GPU                        ,Mask for cold event GPU 0x0 = cold event is masked 0x1 = cold event is not masked" "0,1"
textline "                                                          "
bitfld.long 0x00 1. " MASK_HOT_MPU                          ,Mask for hot event MPU 0x0 = hot event is masked 0x1 = hot event is not masked" "0,1"
bitfld.long 0x00 0. "             MASK_COLD_MPU                       ,Mask for cold event MPU 0x0 = cold event is masked 0x1 = cold event is not masked" "0,1"
group.long 0x384++0x3
line.long 0x00 "CTRL_CORE_BANDGAP_THRESHOLD_MPU,BGAP THRESHOLD MPU"
hexmask.long.word 0x00 16.--25. 1. " THOLD_HOT_MPU                         ,Value for the high temperature threshold. The values for loading this bit field are listed in."
hexmask.long.word 0x00 0.--9. 1. "          THOLD_COLD_MPU                      ,Value for the low temperature threshold. The values for loading this bit field are listed in."
group.long 0x388++0x3
line.long 0x00 "CTRL_CORE_BANDGAP_THRESHOLD_GPU,BGAP THRESHOLD MM"
hexmask.long.word 0x00 16.--25. 1. " THOLD_HOT_GPU                         ,Value for the high temperature threshold. The values for loading this bit field are listed in."
hexmask.long.word 0x00 0.--9. 1. "          THOLD_COLD_GPU                      ,Value for the low temperature threshold. The values for loading this bit field are listed in."
group.long 0x38C++0x3
line.long 0x00 "CTRL_CORE_BANDGAP_THRESHOLD_CORE,BGAP THRESHOLD CORE"
hexmask.long.word 0x00 16.--25. 1. " THOLD_HOT_CORE                        ,Value for the high temperature threshold. The values for loading this bit field are listed in."
hexmask.long.word 0x00 0.--9. 1. "          THOLD_COLD_CORE                     ,Value for the low temperature threshold. The values for loading this bit field are listed in."
group.long 0x390++0x3
line.long 0x00 "CTRL_CORE_BANDGAP_TSHUT_MPU,BGAP TSHUT THRESHOLD MPU"
hexmask.long.word 0x00 16.--25. 1. " TSHUT_HOT_MPU                         ,tshut value hot Software should not modify this bit field."
hexmask.long.word 0x00 0.--9. 1. "          TSHUT_COLD_MPU                      ,tshut value cold Software should not modify this bit field."
group.long 0x394++0x3
line.long 0x00 "CTRL_CORE_BANDGAP_TSHUT_GPU,BGAP TSHUT THRESHOLD GPU"
hexmask.long.word 0x00 16.--25. 1. " TSHUT_HOT_GPU                         ,tshut value hot Software should not modify this bit field."
hexmask.long.word 0x00 0.--9. 1. "          TSHUT_COLD_GPU                      ,tshut value cold Software should not modify this bit field."
group.long 0x398++0x3
line.long 0x00 "CTRL_CORE_BANDGAP_TSHUT_CORE,BGAP TSHUT THRESHOLD CORE"
hexmask.long.word 0x00 16.--25. 1. " TSHUT_HOT_CORE                        ,tshut value hot Software should not modify this bit field."
hexmask.long.word 0x00 0.--9. 1. "          TSHUT_COLD_CORE                     ,tshut value cold Software should not modify this bit field."
rgroup.long 0x3A8++0x3
line.long 0x00 "CTRL_CORE_BANDGAP_STATUS_1,BGAP STATUS"
bitfld.long 0x00 31. " ALERT                                 ,Alert temperature when '1'" "0,1"
bitfld.long 0x00 5. "             HOT_CORE                            ,Event for hot temperature mpu bandgap when '1' 0x0 = event not detected 0x1 = event detected" "0,1"
bitfld.long 0x00 4. "           COLD_CORE                            ,Event for cold temperature mpu bandgap when '1' 0x0 = event not detected 0x1 = event detected" "0,1"
textline "                                                          "
bitfld.long 0x00 3. " HOT_GPU                               ,Event for hot temperature gpu bandgap when '1' 0x0 = event not detected 0x1 = event detected" "0,1"
bitfld.long 0x00 2. "             COLD_GPU                            ,Event for cold temperature gpu bandgap when '1' 0x0 = event not detected 0x1 = event detected" "0,1"
bitfld.long 0x00 1. "           HOT_MPU                              ,Event for hot temperature core bandgap when '1' 0x0 = event not detected 0x1 = event detected" "0,1"
textline "                                                          "
bitfld.long 0x00 0. " COLD_MPU                              ,Event for cold temperature core bandgap when '1' 0x0 = event not detected 0x1 = event detected" "0,1"
group.long 0x3AC++0x3
line.long 0x00 "CTRL_CORE_SATA_EXT_MODE,SATA EXTENDED MODE"
bitfld.long 0x00 0. " SATA_EXTENDED_MODE                    ,sata extended mode 0x0 = no extended mode 0x1 = extended mode" "0,1"
rgroup.long 0x3C0++0x3
line.long 0x00 "CTRL_CORE_DTEMP_MPU_0,TAGGED TEMPERATURE MPU DOMAIN. Most recent sample"
hexmask.long.tbyte 0x00 10.--31. 1. " DTEMP_TAG_MPU_0                       ,tag. Indicate number of times in the bgap state machine."
hexmask.long.word 0x00 0.--9. 1. "        DTEMP_TEMPERATURE_MPU_0             ,temperature"
rgroup.long 0x3C4++0x3
line.long 0x00 "CTRL_CORE_DTEMP_MPU_1,TAGGED TEMPERATURE MPU DOMAIN"
hexmask.long.tbyte 0x00 10.--31. 1. " DTEMP_TAG_MPU_1                       ,tag. Indicate number of times in the bgap state machine."
hexmask.long.word 0x00 0.--9. 1. "        DTEMP_TEMPERATURE_MPU_1             ,temperature"
rgroup.long 0x3C8++0x3
line.long 0x00 "CTRL_CORE_DTEMP_MPU_2,TAGGED TEMPERATURE MPU DOMAIN"
hexmask.long.tbyte 0x00 10.--31. 1. " DTEMP_TAG_MPU_2                       ,tag. Indicate number of times in the bgap state machine."
hexmask.long.word 0x00 0.--9. 1. "        DTEMP_TEMPERATURE_MPU_2             ,temperature"
rgroup.long 0x3CC++0x3
line.long 0x00 "CTRL_CORE_DTEMP_MPU_3,TAGGED TEMPERATURE MPU DOMAIN"
hexmask.long.tbyte 0x00 10.--31. 1. " DTEMP_TAG_MPU_3                       ,tag. Indicate number of times in the bgap state machine."
hexmask.long.word 0x00 0.--9. 1. "        DTEMP_TEMPERATURE_MPU_3             ,temperature"
rgroup.long 0x3D0++0x3
line.long 0x00 "CTRL_CORE_DTEMP_MPU_4,TAGGED TEMPERATURE MPU DOMAIN. Oldest sample"
hexmask.long.tbyte 0x00 10.--31. 1. " DTEMP_TAG_MPU_4                       ,tag. Indicate number of times in the bgap state machine."
hexmask.long.word 0x00 0.--9. 1. "        DTEMP_TEMPERATURE_MPU_4             ,temperature"
rgroup.long 0x3D4++0x3
line.long 0x00 "CTRL_CORE_DTEMP_GPU_0,TAGGED TEMPERATURE GPU DOMAIN. Most recent sample."
hexmask.long.tbyte 0x00 10.--31. 1. " DTEMP_TAG_GPU_0                       ,tag. Indicate number of times in the bgap state machine."
hexmask.long.word 0x00 0.--9. 1. "        DTEMP_TEMPERATURE_GPU_0             ,temperature"
rgroup.long 0x3D8++0x3
line.long 0x00 "CTRL_CORE_DTEMP_GPU_1,TAGGED TEMPERATURE GPU DOMAIN."
hexmask.long.tbyte 0x00 10.--31. 1. " DTEMP_TAG_GPU_1                       ,tag. Indicate number of times in the bgap state machine."
hexmask.long.word 0x00 0.--9. 1. "        DTEMP_TEMPERATURE_GPU_1             ,temperature"
rgroup.long 0x3DC++0x3
line.long 0x00 "CTRL_CORE_DTEMP_GPU_2,TAGGED TEMPERATURE GPU DOMAIN."
hexmask.long.tbyte 0x00 10.--31. 1. " DTEMP_TAG_GPU_2                       ,tag. Indicate number of times in the bgap state machine."
hexmask.long.word 0x00 0.--9. 1. "        DTEMP_TEMPERATURE_GPU_2             ,temperature"
rgroup.long 0x3E0++0x3
line.long 0x00 "CTRL_CORE_DTEMP_GPU_3,TAGGED TEMPERATURE GPU DOMAIN."
hexmask.long.tbyte 0x00 10.--31. 1. " DTEMP_TAG_GPU_3                       ,tag. Indicate number of times in the bgap state machine."
hexmask.long.word 0x00 0.--9. 1. "        DTEMP_TEMPERATURE_GPU_3             ,temperature"
rgroup.long 0x3E4++0x3
line.long 0x00 "CTRL_CORE_DTEMP_GPU_4,TAGGED TEMPERATURE GPU DOMAIN. Oldest sample."
hexmask.long.tbyte 0x00 10.--31. 1. " DTEMP_TAG_GPU_4                       ,tag. Indicate number of times in the bgap state machine."
hexmask.long.word 0x00 0.--9. 1. "        DTEMP_TEMPERATURE_GPU_4             ,temperature"
rgroup.long 0x3E8++0x3
line.long 0x00 "CTRL_CORE_DTEMP_CORE_0,TAGGED TEMPERATURE CORE DOMAIN. Most recent sample."
hexmask.long.tbyte 0x00 10.--31. 1. " DTEMP_TAG_CORE_0                      ,tag. Indicate number of times in the bgap state machine."
hexmask.long.word 0x00 0.--9. 1. "        DTEMP_TEMPERATURE_CORE_0            ,temperature"
rgroup.long 0x3EC++0x3
line.long 0x00 "CTRL_CORE_DTEMP_CORE_1,TAGGED TEMPERATURE CORE DOMAIN"
hexmask.long.tbyte 0x00 10.--31. 1. " DTEMP_TAG_CORE_1                      ,tag. Indicate number of times in the bgap state machine."
hexmask.long.word 0x00 0.--9. 1. "        DTEMP_TEMPERATURE_CORE_1            ,temperature"
rgroup.long 0x3F0++0x3
line.long 0x00 "CTRL_CORE_DTEMP_CORE_2,TAGGED TEMPERATURE CORE DOMAIN"
hexmask.long.tbyte 0x00 10.--31. 1. " DTEMP_TAG_CORE_2                      ,tag. Indicate number of times in the bgap state machine."
hexmask.long.word 0x00 0.--9. 1. "        DTEMP_TEMPERATURE_CORE_2            ,temperature"
rgroup.long 0x3F4++0x3
line.long 0x00 "CTRL_CORE_DTEMP_CORE_3,TAGGED TEMPERATURE CORE DOMAIN"
hexmask.long.tbyte 0x00 10.--31. 1. " DTEMP_TAG_CORE_3                      ,tag. Indicate number of times in the bgap state machine."
hexmask.long.word 0x00 0.--9. 1. "        DTEMP_TEMPERATURE_CORE_3            ,temperature"
rgroup.long 0x3F8++0x3
line.long 0x00 "CTRL_CORE_DTEMP_CORE_4,TAGGED TEMPERATURE CORE DOMAIN. Oldest sample."
hexmask.long.tbyte 0x00 10.--31. 1. " DTEMP_TAG_CORE_4                      ,tag. Indicate number of times in the bgap state machine."
hexmask.long.word 0x00 0.--9. 1. "        DTEMP_TEMPERATURE_CORE_4            ,temperature"
group.long 0x3FC++0x3
line.long 0x00 "CTRL_CORE_SMA_SW_0,OCP Spare Register"
bitfld.long 0x00 18. " SATA_PLL_SOFT_RESET                   ,Software reset control for SATA PLL" "0,1"
bitfld.long 0x00 2. "             ISOLATE                             ,This bit is used during the isolation/de-isolation sequence described in, ." "0,1"
bitfld.long 0x00 1. "           EMIF2_CKE_GATING_CTRL                ,Forces the EMIF2 CKE pad to tri-state. 0x0: The CKE pad is not in tri-state and can be controlled by EMIF2 0x1: The CKE pad is in tri-state" "0,1"
textline "                                                          "
bitfld.long 0x00 0. " EMIF1_CKE_GATING_CTRL                 ,Forces the EMIF1 CKE pad to tri-state. 0x0: The CKE pad is not in tri-state and can be controlled by EMIF1 0x1: The CKE pad is in tri-state" "0,1"
group.long 0x414++0x3
line.long 0x00 "CTRL_CORE_SEC_ERR_STATUS_FUNC_2,Firewall Error Status functional Register 2"
eventfld.long 0x00 26. " TC1_EDMA_FW_ERROR                     ,EDMA TC1 firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 22. "             QSPI_FW_ERROR                       ,QSPI firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 20. "           PRUSS1_FW_ERROR                      ,PRU-ICSS1 firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
textline "                                                          "
eventfld.long 0x00 17. " TPCC_EDMA_FW_ERROR                    ,EDMA TPCC firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 16. "             TC0_EDMA_FW_ERROR                   ,EDMA TC0 firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 13. "           MCASP3_FW_ERROR                      ,McASP3 firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
textline "                                                          "
eventfld.long 0x00 12. " MCASP2_FW_ERROR                       ,McASP2 firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 11. "             MCASP1_FW_ERROR                     ,McASP1 firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 8. "           PCIESS2_FW_ERROR                     ,PCIeSS2 firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
textline "                                                          "
eventfld.long 0x00 7. " PCIESS1_FW_ERROR                      ,PCIeSS1 firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 6. "             IPU2_FW_ERROR                       ,IPU2 firewall. 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 5. "           L4_PERIPH3_FW_ERROR                  ,L4 periph3 init firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
textline "                                                          "
eventfld.long 0x00 4. " L4_PERIPH2_FW_ERROR                   ,L4 periph2 init firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 3. "             L3RAM3_FW_ERROR                     ,L3RAM3 firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 2. "           L3RAM2_FW_ERROR                      ,L3RAM2 target firewall. 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
textline "                                                          "
eventfld.long 0x00 1. " DSP2_FW_ERROR                         ,DSP2 firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
bitfld.long 0x00 0. "             DSP1_FW_ERROR                       ,DSP1 firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
group.long 0x41C++0x3
line.long 0x00 "CTRL_CORE_SEC_ERR_STATUS_DEBUG_2,Firewall Error Status debug Register 2"
eventfld.long 0x00 26. " TC1_EDMA_DBGFW_ERROR                  ,EDMA TC1 debug firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 22. "             QSPI_DBGFW_ERROR                    ,QSPI debug firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 20. "           PRUSS1_DBGFW_ERROR                   ,PRU-ICSS1 debug firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
textline "                                                          "
eventfld.long 0x00 17. " TPCC_EDMA_DBGFW_ERROR                 ,EDMA TPCC debug firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 16. "             TC0_EDMA_DBGFW_ERROR                ,EDMA TC0 debug firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 13. "           MCASP3_DBGFW_ERROR                   ,McASP3 debug firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
textline "                                                          "
eventfld.long 0x00 12. " MCASP2_DBGFW_ERROR                    ,McASP2 debug firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 11. "             MCASP1_DBGFW_ERROR                  ,McASP1 debug firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 8. "           PCIESS2_DBGFW_ERROR                  ,PCIeSS2 debug firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
textline "                                                          "
eventfld.long 0x00 7. " PCIESS1_DBGFW_ERROR                   ,PCIeSS1 debug firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 6. "             IPU2_DBGFW_ERROR                    ,IPU2 debug firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 5. "           L4_PERIPH3_DBGFW_ERROR               ,L4 periph3 init firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
textline "                                                          "
eventfld.long 0x00 4. " L4_PERIPH2_DBGFW_ERROR                ,L4 periph2 init firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 3. "             L3RAM3_DBGFW_ERROR                  ,L3RAM3 firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 2. "           L3RAM2_DBGFW_ERROR                   ,L3RAM2 target debug firewall. 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
textline "                                                          "
eventfld.long 0x00 1. " DSP2_DBGFW_ERROR                      ,DSP2 firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
eventfld.long 0x00 0. "             DSP1_DBGFW_ERROR                    ,DSP1 firewall 0x0 = No error from firewall 0x1 = Error from firewall" "0,1"
group.long 0x420++0x3
line.long 0x00 "CTRL_CORE_EMIF_INITIATOR_PRIORITY_1,Register for priority settings for EMIF arbitration"
bitfld.long 0x00 28.--30. " MPU_EMIF_PRIORITY                     ,MPU priority setting 0x0 = highest priority 0x7 = lowest prority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 16.--18. "             DSP1_MDMA_EMIF_PRIORITY             ,DSP1 MDMA priority setting 0x0 = highest priority 0x7 = lowest prority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "           DSP1_CFG_EMIF_PRIORITY               ,DSP1 CFG priority setting 0x0 = highest priority 0x7 = lowest prority" "0,1,2,3,4,5,6,7"
textline "                                                          "
bitfld.long 0x00 8.--10. " DSP1_EDMA_EMIF_PRIORITY               ,DSP1 EDMA priority setting 0x0 = highest priority 0x7 = lowest prority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "             DSP2_EDMA_EMIF_PRIORITY             ,DSP2 EDMA priority setting 0x0 = highest priority 0x7 = lowest prority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "           DSP2_CFG_EMIF_PRIORITY               ,DSP2 CFG priority setting 0x0 = highest priority 0x7 = lowest prority" "0,1,2,3,4,5,6,7"
group.long 0x424++0x3
line.long 0x00 "CTRL_CORE_EMIF_INITIATOR_PRIORITY_2,Register for priority settings for EMIF arbitration"
bitfld.long 0x00 28.--30. " DSP2_MDMA_EMIF_PRIORITY               ,DSP2 MDMA priority setting 0x0 = highest priority 0x7 = lowest prority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "             IVA_ICONT1_EMIF_PRIORITY            ,IVA ICONT1 priority setting 0x0 = highest priority 0x7 = lowest prority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 16.--18. "           EVE1_TC0_EMIF_PRIORITY               ,EVE1 TC0 priority setting 0x0 = highest priority 0x7 = lowest prority" "0,1,2,3,4,5,6,7"
textline "                                                          "
bitfld.long 0x00 12.--14. " EVE2_TC0_EMIF_PRIORITY                ,EVE2 TC0 priority setting 0x0 = highest priority 0x7 = lowest prority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "             EVE3_TC0_EMIF_PRIORITY              ,EVE3 TC0 priority setting 0x0 = highest priority 0x7 = lowest prority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "           EVE4_TC0_EMIF_PRIORITY               ,EVE4 TC0 priority setting 0x0 = highest priority 0x7 = lowest prority" "0,1,2,3,4,5,6,7"
textline "                                                          "
bitfld.long 0x00 0.--2. " PRUSS1_PRU0_EMIF_PRIORITY             ,PRU-ICSS1 PRU0 priority setting 0x0 = highest priority 0x7 = lowest prority" "0,1,2,3,4,5,6,7"
group.long 0x428++0x3
line.long 0x00 "CTRL_CORE_EMIF_INITIATOR_PRIORITY_3,Register for priority settings for EMIF arbitration"
bitfld.long 0x00 28.--30. " PRUSS1_PRU1_EMIF_PRIORITY             ,PRU-ICSS1 PRU1 priority setting 0x0 = highest priority 0x7 = lowest prority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 16.--18. "             IPU1_EMIF_PRIORITY                  ,IPU1 priority setting 0x0 = highest priority 0x7 = lowest prority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "           IPU2_EMIF_PRIORITY                   ,IPU2 priority setting 0x0 = highest priority 0x7 = lowest priority" "0,1,2,3,4,5,6,7"
textline "                                                          "
bitfld.long 0x00 8.--10. " DMA_SYSTEM_EMIF_PRIORITY              ,DMA SYSTEM priority setting 0x0 = highest priority 0x7 = lowest priority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "             EDMA_TC0_EMIF_PRIORITY              ,EDMA TC0 priority setting 0x0 = highest priority 0x7 = lowest prority" "0,1,2,3,4,5,6,7"
group.long 0x42C++0x3
line.long 0x00 "CTRL_CORE_EMIF_INITIATOR_PRIORITY_4,Register for priority settings for EMIF arbitration"
bitfld.long 0x00 28.--30. " EDMA_TC1_EMIF_PRIORITY                ,EDMA TC1 priority setting 0x0 = highest priority 0x7 = lowest prority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "             DSS_EMIF_PRIORITY                   ,DSS priority setting 0x0 = highest priority 0x7 = lowest prority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 16.--18. "           PCIESS1_EMIF_PRIORITY                ,PCIeSS1 priority setting 0x0 = highest priority 0x7 = lowest prority" "0,1,2,3,4,5,6,7"
textline "                                                          "
bitfld.long 0x00 12.--14. " PCIESS2_EMIF_PRIORITY                 ,PCIeSS2 priority setting 0x0 = highest priority 0x7 = lowest priority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "             VIP1_P1_P2_EMIF_PRIORITY            ,VIP1 priority setting 0x0 = highest priority 0x7 = lowest prority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "           VIP2_P1_P2_EMIF_PRIORITY             ,VIP2 priority setting 0x0 = highest priority 0x7 = lowest prority" "0,1,2,3,4,5,6,7"
textline "                                                          "
bitfld.long 0x00 0.--2. " VIP3_P1_P2_EMIF_PRIORITY              ,VIP3 priority setting 0x0 = highest priority 0x7 = lowest prority" "0,1,2,3,4,5,6,7"
group.long 0x430++0x3
line.long 0x00 "CTRL_CORE_EMIF_INITIATOR_PRIORITY_5,Register for priority settings for EMIF arbitration"
bitfld.long 0x00 28.--30. " VPE_P1_P2_EMIF_PRIORITY               ,VPE priority setting 0x0 = highest priority 0x7 = lowest priority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "             MMC1_GPU_P1_EMIF_PRIORITY           ,MMC1, GPU P1 priority setting 0x0 = highest priority 0x7 = lowest priority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "           MMC2_GPU_P2_EMIF_PRIORITY            ,MMC2, GPU P2 priority setting 0x0 = highest priority 0x7 = lowest priority" "0,1,2,3,4,5,6,7"
textline "                                                          "
bitfld.long 0x00 16.--18. " BB2D_P1_P2_EMIF_PRIORITY              ,BB2D priority setting 0x0 = highest priority 0x7 = lowest priority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "             GMAC_SW_EMIF_PRIORITY               ,GMAC_SW priority setting 0x0 = highest priority 0x7 = lowest priority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "           USB1_EMIF_PRIORITY                   ,USB1 priority setting 0x0 = highest priority 0x7 = lowest priority" "0,1,2,3,4,5,6,7"
textline "                                                          "
bitfld.long 0x00 4.--6. " USB2_EMIF_PRIORITY                    ,USB2 priority setting 0x0 = highest priority 0x7 = lowest priority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "             USB3_EMIF_PRIORITY                  ,USB3 priority setting 0x0 = highest priority 0x7 = lowest priorty" "0,1,2,3,4,5,6,7"
group.long 0x434++0x3
line.long 0x00 "CTRL_CORE_EMIF_INITIATOR_PRIORITY_6,Register for priority settings for EMIF arbitration"
bitfld.long 0x00 28.--30. " USB4_EMIF_PRIORITY                    ,USB4 priority setting 0x0 = highest priority 0x7 = lowest prority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "             SATA_EMIF_PRIORITY                  ,SATA priority setting 0x0 = highest priority 0x7 = lowest priority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "           EVE1_TC1_EMIF_PRIORITY               ,EVE1 TC1 priority setting 0x0 = highest priority 0x7 = lowest prority" "0,1,2,3,4,5,6,7"
textline "                                                          "
bitfld.long 0x00 4.--6. " EVE2_TC1_EMIF_PRIORITY                ,EVE2 TC1 priority setting 0x0 = highest priority 0x7 = lowest prority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "             EVE3_TC1_EMIF_PRIORITY              ,EVE3 TC1 priority setting 0x0 = highest priority 0x7 = lowest prority" "0,1,2,3,4,5,6,7"
group.long 0x438++0x3
line.long 0x00 "CTRL_CORE_EMIF_INITIATOR_PRIORITY_7,Register for priority settings for EMIF arbitration"
bitfld.long 0x00 28.--30. " EVE4_TC1_EMIF_PRIORITY                ,EVE4 TC1 priority setting 0x0 = highest priority 0x7 = lowest prority" "0,1,2,3,4,5,6,7"
group.long 0x43C++0x3
line.long 0x00 "CTRL_CORE_L3_INITIATOR_PRESSURE_1,Register for pressure settings for L3 arbitration"
bitfld.long 0x00 26.--27. " MPU_L3_PRESSURE                       ,MPU pressure setting 0x0 = lowest 0x3 = highest" "0,1,2,3"
bitfld.long 0x00 17.--18. "             DSP1_CFG_L3_PRESSURE                ,DSP1 CFG pressure setting 0x0 = lowest 0x3 = highest" "0,1,2,3"
bitfld.long 0x00 9.--10. "           DSP2_CFG_L3_PRESSURE                 ,DSP2 CFG pressure setting 0x0 = lowest 0x3 = highest" "0,1,2,3"
group.long 0x440++0x3
line.long 0x00 "CTRL_CORE_L3_INITIATOR_PRESSURE_2,Register for pressure settings for L3 arbitration"
bitfld.long 0x00 12.--13. " IPU1_L3_PRESSURE                      ,IPU1 pressure setting 0x0 = lowest 0x3 = highest" "0,1,2,3"
bitfld.long 0x00 9.--10. "             IPU2_L3_PRESSURE                    ,IPU2 pressure setting 0x0 = lowest 0x3 = highest" "0,1,2,3"
bitfld.long 0x00 6.--7. "           PRUSS1_PRU0_L3_PRESSURE              ,PRU-ICSS1 PRU0 pressure setting 0x0 = lowest 0x3 = highest" "0,1,2,3"
textline "                                                          "
bitfld.long 0x00 3.--4. " PRUSS1_PRU1_L3_PRESSURE               ,PRU-ICSS1 PRU1 pressure setting 0x0 = lowest 0x3 = highest" "0,1,2,3"
group.long 0x448++0x3
line.long 0x00 "CTRL_CORE_L3_INITIATOR_PRESSURE_4,Register for pressure settings for L3 arbitration"
bitfld.long 0x00 23.--24. " GPU_P1_L3_PRESSURE                    ,GPU P1 pressure setting 0x0 = lowest 0x3 = highest" "0,1,2,3"
bitfld.long 0x00 20.--21. "             GPU_P2_L3_PRESSURE                  ,GPU P2 pressure setting 0x0 = lowest 0x3 = highest" "0,1,2,3"
group.long 0x44C++0x3
line.long 0x00 "CTRL_CORE_L3_INITIATOR_PRESSURE_5,Register for pressure settings for L3 arbitration"
bitfld.long 0x00 3.--4. " SATA_L3_PRESSURE                      ,SATA pressure setting 0x0 = lowest 0x3 = highest" "0,1,2,3"
bitfld.long 0x00 0.--1. "             MMC1_L3_PRESSURE                    ,MMC1 pressure setting 0x0 = lowest 0x3 = highest" "0,1,2,3"
group.long 0x450++0x3
line.long 0x00 "CTRL_CORE_L3_INITIATOR_PRESSURE_6,Register for pressure settings for L3 arbitration"
bitfld.long 0x00 17.--18. " MMC2_L3_PRESSURE                      ,MMC2 pressure setting 0x0 = lowest 0x3 = highest" "0,1,2,3"
bitfld.long 0x00 15.--16. "             USB1_L3_PRESSURE                    ,USB1 pressure setting 0x0 = lowest 0x3 = highest" "0,1,2,3"
bitfld.long 0x00 12.--13. "           USB2_L3_PRESSURE                     ,USB2 pressure setting 0x0 = lowest 0x3 = highest" "0,1,2,3"
textline "                                                          "
bitfld.long 0x00 9.--10. " USB3_L3_PRESSURE                      ,USB3 pressure setting 0x0 = lowest 0x3 = highest" "0,1,2,3"
bitfld.long 0x00 6.--7. "             USB4_L3_PRESSURE                    ,USB4 pressure setting 0x0 = lowest 0x3 = highest" "0,1,2,3"
rgroup.long 0x458++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_IVA_0,Standard Fuse OPP VDD_iva [31:0]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_IVA_0                ,"
rgroup.long 0x45C++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_IVA_1,Standard Fuse OPP VDD_iva [63:32]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_IVA_1                ,"
rgroup.long 0x460++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_IVA_2,Standard Fuse OPP VDD_iva [95:64]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_IVA_2                ,"
rgroup.long 0x464++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_IVA_3,Standard Fuse OPP VDD_iva [127:96]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_IVA_3                ,"
rgroup.long 0x468++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_IVA_4,Standard Fuse OPP VDD_iva [159:128]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_IVA_4                ,"
group.long 0x46C++0x3
line.long 0x00 "CTRL_CORE_LDOVBB_DSPEVE_VOLTAGE_CTRL,DSPEVE Voltage Body Bias LDO Control register"
bitfld.long 0x00 10. " LDOVBBDSPEVE_FBB_MUX_CTRL             ,Override control of EFUSE Forward Body Bias voltage value 0x0 = efuse value is used 0x1 = override value is used" "0,1"
bitfld.long 0x00 5.--9. "             LDOVBBDSPEVE_FBB_VSET_IN            ,EFUSE Forward Body Bias voltage value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "          LDOVBBDSPEVE_FBB_VSET_OUT            ,Override value for Forward Body Bias voltage. If ABB is used, depending on the OPP this bit field should be loaded with a value read from one of the CTRL_CORE_STD_FUSE_OPP_VMIN_DSPEVE_x[24:20] VSETABB bit..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x470++0x3
line.long 0x00 "CTRL_CORE_LDOVBB_IVA_VOLTAGE_CTRL,IVA Voltage Body Bias LDO Control register"
bitfld.long 0x00 10. " LDOVBBIVA_FBB_MUX_CTRL                ,Override control of EFUSE Forward Body Bias voltage value 0x0 = efuse value is used 0x1 = override value is used" "0,1"
bitfld.long 0x00 5.--9. "             LDOVBBIVA_FBB_VSET_IN               ,EFUSE Forward Body Bias voltage value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "          LDOVBBIVA_FBB_VSET_OUT               ,Override value for Forward Body Bias voltage. If ABB is used, depending on the OPP this bit field should be loaded with a value read from one of the CTRL_CORE_STD_FUSE_OPP_VMIN_IVA_x[24:20] VSETABB bit fi..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rgroup.long 0x4E8++0x3
line.long 0x00 "CTRL_CORE_CUST_FUSE_UID_0,Customer Fuse keys. UID [031:000] (16 bits upper Redundant field) [FIELD OVERFLOW]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct v..."
hexmask.long 0x00 0.--31. 1. " CUST_FUSE_UID_0                       ,"
rgroup.long 0x4EC++0x3
line.long 0x00 "CTRL_CORE_CUST_FUSE_UID_1,Customer Fuse keys. UID [063:032] (16 bits upper Redundant field) [FIELD F]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view int..."
hexmask.long 0x00 0.--31. 1. " CUST_FUSE_UID_1                       ,"
rgroup.long 0x4F0++0x3
line.long 0x00 "CTRL_CORE_CUST_FUSE_UID_2,Customer Fuse keys. UID [095:064] (16 bits upper Redundant field) [FIELD E]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view int..."
hexmask.long 0x00 0.--31. 1. " CUST_FUSE_UID_2                       ,"
rgroup.long 0x4F4++0x3
line.long 0x00 "CTRL_CORE_CUST_FUSE_UID_3,Customer Fuse keys. UID [127:096] (16 bits upper Redundant field) [FIELD D]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view int..."
hexmask.long 0x00 0.--31. 1. " CUST_FUSE_UID_3                       ,"
rgroup.long 0x4F8++0x3
line.long 0x00 "CTRL_CORE_CUST_FUSE_UID_4,Customer Fuse keys. UID [159:127] (16 bits upper Redundant field) [FIELD C]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view int..."
hexmask.long 0x00 0.--31. 1. " CUST_FUSE_UID_4                       ,"
rgroup.long 0x4FC++0x3
line.long 0x00 "CTRL_CORE_CUST_FUSE_UID_5,Customer Fuse keys. UID [191:160] (16 bits upper Redundant field) [FIELD B]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view int..."
hexmask.long 0x00 0.--31. 1. " CUST_FUSE_UID_5                       ,"
rgroup.long 0x500++0x3
line.long 0x00 "CTRL_CORE_CUST_FUSE_UID_6,Customer Fuse keys. UID [223:192] (16 bits upper Redundant field) [FIELD A]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view int..."
hexmask.long 0x00 0.--31. 1. " CUST_FUSE_UID_6                       ,"
rgroup.long 0x508++0x3
line.long 0x00 "CTRL_CORE_CUST_FUSE_PCIE_ID_0,Customer Fuse keys. PCIe ID [031:000] (16 bits upper Redundant field) [FIELD OVERFLOW]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a ..."
hexmask.long 0x00 0.--31. 1. " CUST_FUSE_PCIE_ID_0                   ,"
rgroup.long 0x510++0x3
line.long 0x00 "CTRL_CORE_CUST_FUSE_USB_ID_0,Customer Fuse keys. USB ID [031:000] (16 bits upper Redundant field) [FIELD OVERFLOW]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a di..."
hexmask.long 0x00 0.--31. 1. " CUST_FUSE_USB_ID_0                    ,"
rgroup.long 0x514++0x3
line.long 0x00 "CTRL_CORE_MAC_ID_SW_0,Standard Fuse keys, MAC ID_1 [63:32]."
hexmask.long 0x00 0.--24. 1. " STD_FUSE_MAC_ID_SW_0                  ,This bit field contains the last three octets (NIC specific) of the MAC address of the GMAC_SW port 0. Bits [23:16] contain the 4th octet of the MAC address. Bits [15:8] contain the 5th octet of the MAC address. ..."
rgroup.long 0x518++0x3
line.long 0x00 "CTRL_CORE_MAC_ID_SW_1,Standard Fuse keys, MAC ID_1 [31:0]."
hexmask.long 0x00 0.--24. 1. " STD_FUSE_MAC_ID_SW_1                  ,This bit field contains the first three octets (the OUI) of the MAC address of the GMAC_SW port 0. Bits [23:16] contain the first octet of the MAC address. Bits [15:8] contain the second octet of the MAC address...."
rgroup.long 0x51C++0x3
line.long 0x00 "CTRL_CORE_MAC_ID_SW_2,Standard Fuse keys, MAC ID_2 [63:32]."
hexmask.long 0x00 0.--24. 1. " STD_FUSE_MAC_ID_SW_2                  ,This bit field contains the last three octets (NIC specific) of the MAC address of the GMAC_SW port 1. Bits [23:16] contain the 4th octet of the MAC address. Bits [15:8] contain the 5th octet of the MAC address. ..."
rgroup.long 0x520++0x3
line.long 0x00 "CTRL_CORE_MAC_ID_SW_3,Standard Fuse keys, MAC ID_2 [31:0]."
hexmask.long 0x00 0.--24. 1. " STD_FUSE_MAC_ID_SW_3                  ,This bit field contains the first three octets (the OUI) of the MAC address of the GMAC_SW port 1. Bits [23:16] contain the first octet of the MAC address. Bits [15:8] contain the second octet of the MAC address...."
group.long 0x534++0x3
line.long 0x00 "CTRL_CORE_SMA_SW_1,OCP Spare Register"
bitfld.long 0x00 26. " RGMII2_ID_MODE_N                      ,Ethernet RGMII port 2 internal delay on transmit (SR2.0) 0x0: Internal delay enabled 0x1: Internal delay disabled" "0,1"
bitfld.long 0x00 25. "             RGMII1_ID_MODE_N                    ,Ethernet RGMII port 1 internal delay on transmit (SR2.0) 0x0: Internal delay enabled 0x1: Internal delay disabled" "0,1"
bitfld.long 0x00 22. "           DSS_CH0_ON_OFF                       ,DSS Channel 0 Pixel clock control On/Off 0x0: HSYNC and VSYNC are driven on opposite edges of pixel clock than pixel data 0x1: HSYNC and VSYNC are driven according to bit DSS_CH0_RF" "0,1"
textline "                                                          "
bitfld.long 0x00 19. " DSS_CH0_IPC                           ,DSS Channel 0 IPC control 0x0: Data is driven on the LCD data lines on the rising edge of the pixel clock 0x1: Data is driven on the LCD data lines on the falling edge of the pixel clock" "0,1"
bitfld.long 0x00 16. "             DSS_CH0_RF                          ,DSS Channel 0 Rise/Fall control 0x0: HSYNC and VSYNC are driven on falling edge of pixel clock (if bit DSS_CH0_ON_OFF set to 1) 0x1: HSYNC and VSYNC are driven on rising edge of pixel clock (if bit DSS_..." "0,1"
bitfld.long 0x00 10. "           VIP3_CLK_INV_PORT_1A                 ,VIP3 Slice 1 Clock inversion for Port A enable 0x0: clock inversion is disabled 0x1: clock inversion is enabled" "0,1"
textline "                                                          "
bitfld.long 0x00 9. " VIP3_CLK_INV_PORT_2A                  ,VIP3 Slice 0 Clock inversion for Port A enable 0x0: clock inversion is disabled 0x1: clock inversion is enabled" "0,1"
bitfld.long 0x00 8. "             VPE_CLK_DIV_BY_2_EN                 ,Selects alternative clock source for VPE. 0x0: Default clock source from DPLL_CORE is selected 0x1: Alternative clock source from DPLL_VIDEO1 is selected" "0,1"
bitfld.long 0x00 7. "           VIP2_CLK_INV_PORT_2B                 ,VIP2 Slice 1 Clock inversion for Port B enable 0x0: clock inversion is disabled 0x1: clock inversion is enabled" "0,1"
textline "                                                          "
bitfld.long 0x00 6. " VIP2_CLK_INV_PORT_1B                  ,VIP2 Slice 0 Clock inversion for Port B enable 0x0: clock inversion is disabled 0x1: clock inversion is enabled" "0,1"
bitfld.long 0x00 5. "             VIP2_CLK_INV_PORT_2A                ,VIP2 Slice 1 Clock inversion for Port A enable 0x0: clock inversion is disabled 0x1: clock inversion is enabled" "0,1"
bitfld.long 0x00 4. "           VIP2_CLK_INV_PORT_1A                 ,VIP2 Slice 0 Clock inversion for Port A enable 0x0: clock inversion is disabled 0x1: clock inversion is enabled" "0,1"
textline "                                                          "
bitfld.long 0x00 3. " VIP1_CLK_INV_PORT_2B                  ,VIP1 Slice 1 Clock inversion for Port B enable 0x0: clock inversion is disabled 0x1: clock inversion is enabled" "0,1"
bitfld.long 0x00 2. "             VIP1_CLK_INV_PORT_1B                ,VIP1 Slice 0 Clock inversion for Port B enable 0x0: clock inversion is disabled 0x1: clock inversion is enabled" "0,1"
bitfld.long 0x00 1. "           VIP1_CLK_INV_PORT_2A                 ,VIP1 Slice 1 Clock inversion for Port A enable 0x0: clock inversion is disabled 0x1: clock inversion is enabled" "0,1"
textline "                                                          "
bitfld.long 0x00 0. " VIP1_CLK_INV_PORT_1A                  ,VIP1 Slice 0 Clock inversion for Port A enable 0x0: clock inversion is disabled 0x1: clock inversion is enabled" "0,1"
group.long 0x538++0x3
line.long 0x00 "CTRL_CORE_DSS_PLL_CONTROL,DSS PLLs Mux control register"
bitfld.long 0x00 9.--10. " SDVENC_CLK_SELECTION                  ,SDVENC_CLK mux configuration 0x0 = HDMI_CLK 0x1 = DPLL_VIDEO1_HSDIVIDER_clkout3" "0,1,2,3"
bitfld.long 0x00 7.--8. "             DSI1_C_CLK1_SELECTION               ,DSI1_C_CLK1 mux configuration 0x0 = DPLL_VIDEO2 0x1 = DPLL_VIDEO1 0x2 = DPLL_HDMI" "0,1,2,3"
bitfld.long 0x00 5.--6. "           DSI1_B_CLK1_SELECTION                ,DSI1_B_CLK1 mux configuration 0x0 = DPLL_VIDEO1 0x1 = DPLL_VIDEO2 0x2 = DPLL_HDMI 0x3 = DPLL_ABE" "0,1,2,3"
textline "                                                          "
bitfld.long 0x00 3.--4. " DSI1_A_CLK1_SELECTION                 ,DSI1_A_CLK1 mux configuration 0x0 = DPLL_VIDEO1 0x1 = DPLL_HDMI" "0,1,2,3"
bitfld.long 0x00 2. "             PLL_HDMI_DSS_CONTROL_DISABLE        ,HDMI PLL disable 0x0 = PLL enabled 0x1 = PLL disabled" "0,1"
bitfld.long 0x00 1. "           PLL_VIDEO2_DSS_CONTROL_DISABLE       ,VIDEO2 PLL disable 0x0 = PLL enabled 0x1 = PLL disabled" "0,1"
textline "                                                          "
bitfld.long 0x00 0. " PLL_VIDEO1_DSS_CONTROL_DISABLE        ,VIDEO1 PLL disable 0x0 = PLL enabled 0x1 = PLL disabled" "0,1"
group.long 0x540++0x3
line.long 0x00 "CTRL_CORE_MMR_LOCK_1,Register to lock memory region starting at address offset 0x0000 0100 and ending at address offset 0x0000 079F"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK_1                            ,Lock value for region 0x0000 0100 to 0x0000 079F 0x1A1C8144 = lock value 0x2FF1AC2B = unlock value"
group.long 0x544++0x3
line.long 0x00 "CTRL_CORE_MMR_LOCK_2,Register to lock memory region starting at address offset 0x0000 07A0 and ending at address offset 0x0000 0D9F"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK_2                            ,Lock value for region 0x0000 07A0 to 0x0000 0D9F 0xFDF45530 = lock value 0xF757FDC0 = unlock value"
group.long 0x548++0x3
line.long 0x00 "CTRL_CORE_MMR_LOCK_3,Register to lock memory region starting at address offset 0x0000 0DA0 and ending at address offset 0x0000 0FFF"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK_3                            ,Lock value for region 0x0000 0DA0 to 0x0000 0FFF 0x1AE6E320 = lock value 0xE2BC3A6D = unlock value"
group.long 0x54C++0x3
line.long 0x00 "CTRL_CORE_MMR_LOCK_4,Register to lock memory region starting at address offset 0x0000 1000 and ending at address offset 0x0000 13FF"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK_4                            ,Lock value for region 0x0000 1000 to 0x0000 13FF 0x2FFA927C = lock value 0x1EBF131D = unlock value"
group.long 0x550++0x3
line.long 0x00 "CTRL_CORE_MMR_LOCK_5,Register to lock memory region starting at address offset 0x0000 1400 and ending at address offset 0x0000 1FFF"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK_5                            ,Lock value for region 0x0000 1400 to 0x0000 1FFF 0x143F832C = lock value 0x6F361E05 = unlock value"
group.long 0x554++0x3
line.long 0x00 "CTRL_CORE_CONTROL_IO_1,Register to configure some IP level signals"
bitfld.long 0x00 20. " MMU2_DISABLE                          ,MMU2 DISABLE setting" "0,1"
bitfld.long 0x00 16. "             MMU1_DISABLE                        ,MMU1 DISABLE setting" "0,1"
bitfld.long 0x00 12.--13. "           TC1_DEFAULT_BURST_SIZE               ,EDMA TC1 DEFAULT BURST SIZE setting" "0,1,2,3"
textline "                                                          "
bitfld.long 0x00 8.--9. " TC0_DEFAULT_BURST_SIZE                ,EDMA TC0 DEFAULT BURST SIZE setting" "0,1,2,3"
bitfld.long 0x00 4.--5. "             GMII2_SEL                           ,GMII2 selection setting 0x0: GMII/MII 0x1: RMII 0x2: RGMII 0x3: Reserved" "0,1,2,3"
bitfld.long 0x00 0.--1. "           GMII1_SEL                            ,GMII1 selection setting 0x0: GMII/MII 0x1: RMII 0x2: RGMII 0x3: Reserved" "0,1,2,3"
group.long 0x558++0x3
line.long 0x00 "CTRL_CORE_CONTROL_IO_2,Register to configure some IP level signals"
bitfld.long 0x00 23. " GMAC_RESET_ISOLATION_ENABLE           ,Reset isolation enable setting 0x0 = Reset is not isolated 0x1 = Reset is isolated" "0,1"
bitfld.long 0x00 22. "             PWMSS3_TBCLKEN                      ,PWMSS3 CLOCK ENABLE setting" "0,1"
bitfld.long 0x00 21. "           PWMSS2_TBCLKEN                       ,PWMSS2 CLOCK ENABLE setting" "0,1"
textline "                                                          "
bitfld.long 0x00 20. " PWMSS1_TBCLKEN                        ,PWMSS1 CLOCK ENABLE setting" "0,1"
bitfld.long 0x00 13. "             PCIE_1LANE_2LANE_SELECTION          ,PCIe one or two lane selection setting 0x0 = One PCIe lane is selected 0x1 = Two PCIe lanes are selected" "0,1"
bitfld.long 0x00 8.--10. "           QSPI_MEMMAPPED_CS                    ,QSPI CS MAPPING setting. 0x0: The QSPI configuration registers are accessed 0x1: An external device connected to CS0 is accessed 0x2: An external device connected to CS1 is accessed 0x3: An external devi..." "0,1,2,3,4,5,6,7"
textline "                                                          "
bitfld.long 0x00 5. " DCAN2_RAMINIT_START                   ,DCAN2 RAM INIT START setting To initialize DCAN2 RAM, the bit should be set to 0x1. It is not auto cleared by hardware. : If DCAN RAMINIT sequence needs to be redone, this bit should be first cleared and then set..." "0,1"
bitfld.long 0x00 4. "             DSS_DESHDCP_DISABLE                 ,DSS DESHDCP DISABLE setting" "0,1"
bitfld.long 0x00 3. "           DCAN1_RAMINIT_START                  ,DCAN1 RAM INIT START setting To initialize DCAN1 RAM, the bit should be set to 0x1. It is not auto cleared by hardware. : If DCAN RAMINIT sequence needs to be redone, this bit should be first cleared and..." "0,1"
textline "                                                          "
bitfld.long 0x00 2. " DCAN2_RAMINIT_DONE                    ,DCAN2 RAM INIT DONE status" "0,1"
bitfld.long 0x00 1. "             DCAN1_RAMINIT_DONE                  ,DCAN1 RAM INIT DONE status" "0,1"
bitfld.long 0x00 0. "           DSS_DESHDCP_CLKEN                    ,DSS DESHDCP CLOCK ENABLE setting" "0,1"
group.long 0x55C++0x3
line.long 0x00 "CTRL_CORE_CONTROL_DSP1_RST_VECT,Register for storing DSP1 reset vector"
bitfld.long 0x00 24.--26. " DSP1_NUM_MM                           ,Number of DSP instances in the SoC 0x1 = 1 0x2 = 2" "0,1,2,3,4,5,6,7"
hexmask.long.tbyte 0x00 0.--21. 1. "             DSP1_RST_VECT                       ,DSP1 reset vector address"
group.long 0x560++0x3
line.long 0x00 "CTRL_CORE_CONTROL_DSP2_RST_VECT,Register for storing DSP2 reset vector"
bitfld.long 0x00 24.--26. " DSP2_NUM_MM                           ,Number of DSP instances in the SoC 0x1 = 1 0x2 = 2" "0,1,2,3,4,5,6,7"
hexmask.long.tbyte 0x00 0.--21. 1. "             DSP2_RST_VECT                       ,DSP2 reset vector address"
rgroup.long 0x564++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_BGAP_DSPEVE,Trim values for DSPEVE associated bandgap. Contains TI Internal information, not intended for application use."
hexmask.long.byte 0x00 8.--15. 1. " STD_FUSE_OPP_BGAP_DSPEVE_0            ,Trim values for DSPEVE associated bandgap. Contains TI Internal information, not intended for application use."
hexmask.long.byte 0x00 0.--7. 1. "            STD_FUSE_OPP_BGAP_DSPEVE_1          ,Trim values for DSPEVE associated bandgap. Contains TI Internal information, not intended for application use."
rgroup.long 0x568++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_BGAP_IVA,Trim values for IVA associated temperature sensor and bandgap. Contains TI Internal information, not intended for application use."
hexmask.long.byte 0x00 24.--31. 1. " STD_FUSE_OPP_BGAP_IVA_0               ,Trim values for IVA associated temperature sensor and bandgap. Contains TI Internal information, not intended for application use."
hexmask.long.byte 0x00 16.--23. 1. "            STD_FUSE_OPP_BGAP_IVA_1             ,Trim values for IVA associated temperature sensor and bandgap. Contains TI Internal information, not intended for application use."
hexmask.long.byte 0x00 8.--15. 1. "          STD_FUSE_OPP_BGAP_IVA_2              ,Trim values for IVA associated temperature sensor and bandgap. Contains TI Internal information, not intended for application use."
textline "                                                          "
hexmask.long.byte 0x00 0.--7. 1. " STD_FUSE_OPP_BGAP_IVA_3               ,Trim values for IVA associated temperature sensor and bandgap. Contains TI Internal information, not intended for application use."
group.long 0x56C++0x3
line.long 0x00 "CTRL_CORE_LDOSRAM_DSPEVE_VOLTAGE_CTRL,DSPEVE SRAM LDO Control register"
bitfld.long 0x00 26. " LDOSRAMDSPEVE_RETMODE_MUX_CTRL        ,Override control of EFUSE Retention Mode Voltage value - EFUSE. - OCP." "EFUSE,OCP"
bitfld.long 0x00 21.--25. "         LDOSRAMDSPEVE_RETMODE_VSET_IN       ,EFUSE Retention Mode Voltage value (vset[9:5])" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "          LDOSRAMDSPEVE_RETMODE_VSET_OUT       ,Override value for Retention Mode Voltage" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                                          "
bitfld.long 0x00 10. " LDOSRAMDSPEVE_ACTMODE_MUX_CTRL        ,Override control of EFUSE Active Mode Voltage value - EFUSE. - OCP." "EFUSE,OCP"
bitfld.long 0x00 5.--9. "         LDOSRAMDSPEVE_ACTMODE_VSET_IN       ,EFUSE Active Mode Voltage value (vset[4:0])" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "          LDOSRAMDSPEVE_ACTMODE_VSET_OUT       ,Override value for Active Mode Voltage value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x570++0x3
line.long 0x00 "CTRL_CORE_LDOSRAM_IVA_VOLTAGE_CTRL,IVA SRAM LDO Control register"
bitfld.long 0x00 26. " LDOSRAMIVA_RETMODE_MUX_CTRL           ,Override control of EFUSE Retention Mode Voltage value - EFUSE. - OCP." "EFUSE,OCP"
bitfld.long 0x00 21.--25. "         LDOSRAMIVA_RETMODE_VSET_IN          ,EFUSE Retention Mode Voltage value (vset[9:5])" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "          LDOSRAMIVA_RETMODE_VSET_OUT          ,Override value for Retention Mode Voltage" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                                          "
bitfld.long 0x00 10. " LDOSRAMIVA_ACTMODE_MUX_CTRL           ,Override control of EFUSE Active Mode Voltage value - EFUSE. - OCP." "EFUSE,OCP"
bitfld.long 0x00 5.--9. "         LDOSRAMIVA_ACTMODE_VSET_IN          ,EFUSE Active Mode Voltage value (vset[4:0])" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "          LDOSRAMIVA_ACTMODE_VSET_OUT          ,Override value for Active Mode Voltage value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rgroup.long 0x574++0x3
line.long 0x00 "CTRL_CORE_TEMP_SENSOR_DSPEVE,Control VBGAPTS temperature sensor and thermal comparator shutdown register"
bitfld.long 0x00 11. " BGAP_TMPSOFF_DSPEVE                   ,This bit indicates the temperature sensor state." "0,1"
bitfld.long 0x00 10. "             BGAP_EOCZ_DSPEVE                    ,ADC End of Conversion. Active low, when BGAP_DTEMP_DSPEVE is valid." "0,1"
hexmask.long.word 0x00 0.--9. 1. "           BGAP_DTEMP_DSPEVE                    ,Temperature data from the ADC. Valid if EOCZ is low."
rgroup.long 0x578++0x3
line.long 0x00 "CTRL_CORE_TEMP_SENSOR_IVA,Control VBGAPTS temperature sensor and thermal comparator shutdown register"
bitfld.long 0x00 11. " BGAP_TMPSOFF_IVA                      ,This bit indicates the temperature sensor state." "0,1"
bitfld.long 0x00 10. "             BGAP_EOCZ_IVA                       ,ADC End of Conversion. Active low, when BGAP_DTEMP_IVA is valid." "0,1"
hexmask.long.word 0x00 0.--9. 1. "           BGAP_DTEMP_IVA                       ,Temperature data from the ADC. Valid if EOCZ is low."
group.long 0x57C++0x3
line.long 0x00 "CTRL_CORE_BANDGAP_MASK_2,bgap_mask"
bitfld.long 0x00 22. " FREEZE_IVA                            ,Freeze the FIFO IVA 0x0 = No operation 0x1 = Freeze the FIFO" "0,1"
bitfld.long 0x00 21. "             FREEZE_DSPEVE                       ,Freeze the FIFO DSPEVE 0x0 = No operation 0x1 = Freeze the FIFO" "0,1"
bitfld.long 0x00 19. "           CLEAR_IVA                            ,Reset the FIFO IVA 0x0 = No operation 0x1 = Reset the FIFO" "0,1"
textline "                                                          "
bitfld.long 0x00 18. " CLEAR_DSPEVE                          ,Reset the FIFO DSPEVE 0x0 = No operation 0x1 = Reset the FIFO" "0,1"
bitfld.long 0x00 3. "             MASK_HOT_IVA                        ,Mask for hot event IVA 0x0 = hot event is masked 0x1 = hot event is not masked" "0,1"
bitfld.long 0x00 2. "           MASK_COLD_IVA                        ,Mask for cold event IVA 0x0 = cold event is masked 0x1 = cold event is not masked" "0,1"
textline "                                                          "
bitfld.long 0x00 1. " MASK_HOT_DSPEVE                       ,Mask for hot event DSPEVE 0x0 = hot event is masked 0x1 = hot event is not masked" "0,1"
bitfld.long 0x00 0. "             MASK_COLD_DSPEVE                    ,Mask for cold event DSPEVE 0x0 = cold event is masked 0x1 = cold event is not masked" "0,1"
group.long 0x580++0x3
line.long 0x00 "CTRL_CORE_BANDGAP_THRESHOLD_DSPEVE,BGAP THRESHOLD DSPEVE"
hexmask.long.word 0x00 16.--25. 1. " THOLD_HOT_DSPEVE                      ,Value for the high temperature threshold. The values for loading this bit field are listed in."
hexmask.long.word 0x00 0.--9. 1. "          THOLD_COLD_DSPEVE                   ,Value for the low temperature threshold. The values for loading this bit field are listed in."
group.long 0x584++0x3
line.long 0x00 "CTRL_CORE_BANDGAP_THRESHOLD_IVA,BGAP THRESHOLD IVA"
hexmask.long.word 0x00 16.--25. 1. " THOLD_HOT_IVA                         ,Value for the high temperature threshold. The values for loading this bit field are listed in."
hexmask.long.word 0x00 0.--9. 1. "          THOLD_COLD_IVA                      ,Value for the low temperature threshold. The values for loading this bit field are listed in."
group.long 0x588++0x3
line.long 0x00 "CTRL_CORE_BANDGAP_TSHUT_DSPEVE,BGAP TSHUT THRESHOLD IVA"
hexmask.long.word 0x00 16.--25. 1. " TSHUT_HOT_DSPEVE                      ,tshut value hot Software should not modify this bit field."
hexmask.long.word 0x00 0.--9. 1. "          TSHUT_COLD_DSPEVE                   ,tshut value cold Software should not modify this bit field."
group.long 0x58C++0x3
line.long 0x00 "CTRL_CORE_BANDGAP_TSHUT_IVA,BGAP TSHUT THRESHOLD IVA"
hexmask.long.word 0x00 16.--25. 1. " TSHUT_HOT_IVA                         ,tshut value hot Software should not modify this bit field."
hexmask.long.word 0x00 0.--9. 1. "          TSHUT_COLD_IVA                      ,tshut value cold Software should not modify this bit field."
rgroup.long 0x598++0x3
line.long 0x00 "CTRL_CORE_BANDGAP_STATUS_2,BGAP STATUS"
bitfld.long 0x00 3. " HOT_IVA                               ,Event for hot temperature iva bandgap when '1' 0x0 = event not detected 0x1 = event detected" "0,1"
bitfld.long 0x00 2. "             COLD_IVA                            ,Event for cold temperature iva bandgap when '1' 0x0 = event not detected 0x1 = event detected" "0,1"
bitfld.long 0x00 1. "           HOT_DSPEVE                           ,Event for hot temperature dspeve bandgap when '1' 0x0 = event not detected 0x1 = event detected" "0,1"
textline "                                                          "
bitfld.long 0x00 0. " COLD_DSPEVE                           ,Event for cold temperature dspeve bandgap when '1' 0x0 = event not detected 0x1 = event detected" "0,1"
rgroup.long 0x59C++0x3
line.long 0x00 "CTRL_CORE_DTEMP_DSPEVE_0,TAGGED TEMPERATURE DSPEVE DOMAIN. Most recent sample"
hexmask.long.tbyte 0x00 10.--31. 1. " DTEMP_TAG_DSPEVE_0                    ,tag. Indicate number of times in the bgap state machine."
hexmask.long.word 0x00 0.--9. 1. "        DTEMP_TEMPERATURE_DSPEVE_0          ,temperature"
rgroup.long 0x5A0++0x3
line.long 0x00 "CTRL_CORE_DTEMP_DSPEVE_1,TAGGED TEMPERATURE DSPEVE DOMAIN"
hexmask.long.tbyte 0x00 10.--31. 1. " DTEMP_TAG_DSPEVE_1                    ,tag. Indicate number of times in the bgap state machine."
hexmask.long.word 0x00 0.--9. 1. "        DTEMP_TEMPERATURE_DSPEVE_1          ,temperature"
rgroup.long 0x5A4++0x3
line.long 0x00 "CTRL_CORE_DTEMP_DSPEVE_2,TAGGED TEMPERATURE DSPEVE DOMAIN"
hexmask.long.tbyte 0x00 10.--31. 1. " DTEMP_TAG_DSPEVE_2                    ,tag. Indicate number of times in the bgap state machine."
hexmask.long.word 0x00 0.--9. 1. "        DTEMP_TEMPERATURE_DSPEVE_2          ,temperature"
rgroup.long 0x5A8++0x3
line.long 0x00 "CTRL_CORE_DTEMP_DSPEVE_3,TAGGED TEMPERATURE DSPEVE DOMAIN"
hexmask.long.tbyte 0x00 10.--31. 1. " DTEMP_TAG_DSPEVE_3                    ,tag. Indicate number of times in the bgap state machine."
hexmask.long.word 0x00 0.--9. 1. "        DTEMP_TEMPERATURE_DSPEVE_3          ,temperature"
rgroup.long 0x5AC++0x3
line.long 0x00 "CTRL_CORE_DTEMP_DSPEVE_4,TAGGED TEMPERATURE DSPEVE DOMAIN. Oldest sample"
hexmask.long.tbyte 0x00 10.--31. 1. " DTEMP_TAG_DSPEVE_4                    ,tag. Indicate number of times in the bgap state machine."
hexmask.long.word 0x00 0.--9. 1. "        DTEMP_TEMPERATURE_DSPEVE_4          ,temperature"
rgroup.long 0x5B0++0x3
line.long 0x00 "CTRL_CORE_DTEMP_IVA_0,TAGGED TEMPERATURE IVA DOMAIN. Most recent sample"
hexmask.long.tbyte 0x00 10.--31. 1. " DTEMP_TAG_IVA_0                       ,tag. Indicate number of times in the bgap state machine."
hexmask.long.word 0x00 0.--9. 1. "        DTEMP_TEMPERATURE_IVA_0             ,temperature"
rgroup.long 0x5B4++0x3
line.long 0x00 "CTRL_CORE_DTEMP_IVA_1,TAGGED TEMPERATURE IVA DOMAIN"
hexmask.long.tbyte 0x00 10.--31. 1. " DTEMP_TAG_IVA_1                       ,tag. Indicate number of times in the bgap state machine."
hexmask.long.word 0x00 0.--9. 1. "        DTEMP_TEMPERATURE_IVA_1             ,temperature"
rgroup.long 0x5B8++0x3
line.long 0x00 "CTRL_CORE_DTEMP_IVA_2,TAGGED TEMPERATURE IVA DOMAIN"
hexmask.long.tbyte 0x00 10.--31. 1. " DTEMP_TAG_IVA_2                       ,tag. Indicate number of times in the bgap state machine."
hexmask.long.word 0x00 0.--9. 1. "        DTEMP_TEMPERATURE_IVA_2             ,temperature"
rgroup.long 0x5BC++0x3
line.long 0x00 "CTRL_CORE_DTEMP_IVA_3,TAGGED TEMPERATURE IVA DOMAIN"
hexmask.long.tbyte 0x00 10.--31. 1. " DTEMP_TAG_IVA_3                       ,tag. Indicate number of times in the bgap state machine."
hexmask.long.word 0x00 0.--9. 1. "        DTEMP_TEMPERATURE_IVA_3             ,temperature"
rgroup.long 0x5C0++0x3
line.long 0x00 "CTRL_CORE_DTEMP_IVA_4,TAGGED TEMPERATURE IVA DOMAIN. Oldest sample"
hexmask.long.tbyte 0x00 10.--31. 1. " DTEMP_TAG_IVA_4                       ,tag. Indicate number of times in the bgap state machine."
hexmask.long.word 0x00 0.--9. 1. "        DTEMP_TEMPERATURE_IVA_4             ,temperature"
rgroup.long 0x5CC++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VMIN_IVA_2,This register contains the AVS Class 0 voltage value for the vdd_iva voltage rail when running at OPP_NOM. This register also stores information about ABB configuration for that OPP."
bitfld.long 0x00 25. " ABBEN                                 ,- ABB_disabled. - ABB_enabled." "ABB_disabled,ABB_enabled"
bitfld.long 0x00 20.--24. "  VSETABB                             ,This bit field shows the ABB LDO target value for OPP_NOM which has to be written to theCTRL_CORE_LDOVBB_IVA_VOLTAGE_CTRL [4:0] LDOVBBIVA_FBB_VSET_OUT bit field, if ABB is enabled." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.word 0x00 0.--11. 1. "          STD_FUSE_OPP_VMIN_IVA_2              ,AVS Class 0 voltage value for the vdd_iva voltage rail when running at OPP_NOM. To get the actual value in mV, the value read from this bit field must be converted to decimal value."
rgroup.long 0x5D0++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VMIN_IVA_3,This register contains the AVS Class 0 voltage value for the vdd_iva voltage rail when running at OPP_OD. This register also stores information about ABB configuration for that OPP."
bitfld.long 0x00 25. " ABBEN                                 ,- ABB_disabled. - ABB_enabled." "ABB_disabled,ABB_enabled"
bitfld.long 0x00 20.--24. "  VSETABB                             ,This bit field shows the ABB LDO target value for OPP_OD which has to be written to theCTRL_CORE_LDOVBB_IVA_VOLTAGE_CTRL [4:0] LDOVBBIVA_FBB_VSET_OUT bit field, if ABB is enabled." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.word 0x00 0.--11. 1. "          STD_FUSE_OPP_VMIN_IVA_3              ,AVS Class 0 voltage value for the vdd_iva voltage rail when running at OPP_OD. To get the actual value in mV, the value read from this bit field must be converted to decimal value."
rgroup.long 0x5D4++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VMIN_IVA_4,This register contains the AVS Class 0 voltage value for the vdd_iva voltage rail when running at OPP_HIGH. This register also stores information about ABB configuration for that OPP."
bitfld.long 0x00 25. " ABBEN                                 ,- ABB_disabled. - ABB_enabled." "ABB_disabled,ABB_enabled"
bitfld.long 0x00 20.--24. "  VSETABB                             ,This bit field shows the ABB LDO target value for OPP_HIGH which has to be written to theCTRL_CORE_LDOVBB_IVA_VOLTAGE_CTRL [4:0] LDOVBBIVA_FBB_VSET_OUT bit field, if ABB is enabled." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.word 0x00 0.--11. 1. "          STD_FUSE_OPP_VMIN_IVA_4              ,AVS Class 0 voltage value for the vdd_iva voltage rail when running at OPP_HIGH. To get the actual value in mV, the value read from this bit field must be converted to decimal value."
rgroup.long 0x5E0++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VMIN_DSPEVE_2,This register contains the AVS Class 0 voltage value for the vdd_dspeve voltage rail when running at OPP_NOM. This register also stores information about ABB configuration for that OPP."
bitfld.long 0x00 25. " ABBEN                                 ,- ABB_disabled. - ABB_enabled." "ABB_disabled,ABB_enabled"
bitfld.long 0x00 20.--24. "  VSETABB                             ,This bit field shows the ABB LDO target value for OPP_NOM which has to be written to theCTRL_CORE_LDOVBB_DSPEVE_VOLTAGE_CTRL [4:0] LDOVBBDSPEVE_FBB_VSET_OUT bit field, if ABB is enabled." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.word 0x00 0.--11. 1. "          STD_FUSE_OPP_VMIN_DSPEVE_2           ,AVS Class 0 voltage value for the vdd_dspeve voltage rail when running at OPP_NOM. To get the actual value in mV, the value read from this bit field must be converted to decimal value."
rgroup.long 0x5E4++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VMIN_DSPEVE_3,This register contains the AVS Class 0 voltage value for the vdd_dspeve voltage rail when running at OPP_OD. This register also stores information about ABB configuration for that OPP."
bitfld.long 0x00 25. " ABBEN                                 ,- ABB_disabled. - ABB_enabled." "ABB_disabled,ABB_enabled"
bitfld.long 0x00 20.--24. "  VSETABB                             ,This bit field shows the ABB LDO target value for OPP_OD which has to be written to theCTRL_CORE_LDOVBB_DSPEVE_VOLTAGE_CTRL [4:0] LDOVBBDSPEVE_FBB_VSET_OUT bit field, if ABB is enabled." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.word 0x00 0.--11. 1. "          STD_FUSE_OPP_VMIN_DSPEVE_3           ,AVS Class 0 voltage value for the vdd_dspeve voltage rail when running at OPP_OD. To get the actual value in mV, the value read from this bit field must be converted to decimal value."
rgroup.long 0x5E8++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VMIN_DSPEVE_4,This register contains the AVS Class 0 voltage value for the vdd_dspeve voltage rail when running at OPP_HIGH. This register also stores information about ABB configuration for that OPP."
bitfld.long 0x00 25. " ABBEN                                 ,- ABB_disabled. - ABB_enabled." "ABB_disabled,ABB_enabled"
bitfld.long 0x00 20.--24. "  VSETABB                             ,This bit field shows the ABB LDO target value for OPP_HIGH which has to be written to theCTRL_CORE_LDOVBB_DSPEVE_VOLTAGE_CTRL [4:0] LDOVBBDSPEVE_FBB_VSET_OUT bit field, if ABB is enabled." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.word 0x00 0.--11. 1. "          STD_FUSE_OPP_VMIN_DSPEVE_4           ,AVS Class 0 voltage value for the vdd_dspeve voltage rail when running at OPP_HIGH. To get the actual value in mV, the value read from this bit field must be converted to decimal value."
rgroup.long 0x5F4++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VMIN_CORE_2,This register contains the AVS Class 0 voltage value for the vdd voltage rail when running at OPP_NOM."
hexmask.long.word 0x00 0.--11. 1. " STD_FUSE_OPP_VMIN_MPU_3               ,AVS Class 0 voltage value for the vdd voltage rail when running at OPP_NOM. To get the actual value in mV, the value read from this bit field must be converted to decimal value."
group.long 0x680++0x3
line.long 0x00 "CTRL_CORE_LDOSRAM_CORE_2_VOLTAGE_CTRL,CORE 2nd SRAM LDO Control register"
bitfld.long 0x00 26. " LDOSRAMCORE_2_RETMODE_MUX_CTRL        ,Override control of EFUSE Retention Mode Voltage value - EFUSE. - OCP." "EFUSE,OCP"
bitfld.long 0x00 21.--25. "         LDOSRAMCORE_2_RETMODE_VSET_IN       ,EFUSE Retention Mode Voltage value (vset[9:5])" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "          LDOSRAMCORE_2_RETMODE_VSET_OUT       ,Override value for Retention Mode Voltage" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                                          "
bitfld.long 0x00 10. " LDOSRAMCORE_2_ACTMODE_MUX_CTRL        ,Override control of EFUSE Active Mode Voltage value - EFUSE. - OCP." "EFUSE,OCP"
bitfld.long 0x00 5.--9. "         LDOSRAMCORE_2_ACTMODE_VSET_IN       ,EFUSE Active Mode Voltage value (vset[4:0])" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "          LDOSRAMCORE_2_ACTMODE_VSET_OUT       ,Override value for Active Mode Voltage value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x684++0x3
line.long 0x00 "CTRL_CORE_LDOSRAM_CORE_3_VOLTAGE_CTRL,CORE 3rd SRAM LDO Control register"
bitfld.long 0x00 26. " LDOSRAMCORE_3_RETMODE_MUX_CTRL        ,Override control of EFUSE Retention Mode Voltage value - EFUSE. - OCP." "EFUSE,OCP"
bitfld.long 0x00 21.--25. "         LDOSRAMCORE_3_RETMODE_VSET_IN       ,EFUSE Retention Mode Voltage value (vset[9:5])" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "          LDOSRAMCORE_3_RETMODE_VSET_OUT       ,Override value for Retention Mode Voltage" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                                          "
bitfld.long 0x00 10. " LDOSRAMCORE_3_ACTMODE_MUX_CTRL        ,Override control of EFUSE Active Mode Voltage value - EFUSE. - OCP." "EFUSE,OCP"
bitfld.long 0x00 5.--9. "         LDOSRAMCORE_3_ACTMODE_VSET_IN       ,EFUSE Active Mode Voltage value (vset[4:0])" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "          LDOSRAMCORE_3_ACTMODE_VSET_OUT       ,Override value for Active Mode Voltage value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x68C++0x3
line.long 0x00 "CTRL_CORE_NMI_DESTINATION_1,Register for routing NMI interrupt to respective cores"
hexmask.long.byte 0x00 16.--23. 1. " IPU2_C1                               ,Enable IPU2 CORE1 to receive the NMI interrupt 0x0 = NMI disabled 0x1 = NMI enabled"
hexmask.long.byte 0x00 8.--15. 1. "            IPU2_C0                             ,Enable IPU2 CORE0 to receive the NMI interrupt 0x0 = NMI disabled 0x1 = NMI enabled"
hexmask.long.byte 0x00 0.--7. 1. "          IPU1_C1                              ,Enable IPU1 CORE1 to receive the NMI interrupt 0x0 = NMI disabled 0x1 = NMI enabled"
group.long 0x690++0x3
line.long 0x00 "CTRL_CORE_NMI_DESTINATION_2,Register for routing NMI interrupt to respective cores"
hexmask.long.byte 0x00 24.--31. 1. " IPU1_C0                               ,Enable IPU1 CORE0 to receive the NMI interrupt 0x0 = NMI disabled 0x1 = NMI enabled"
hexmask.long.byte 0x00 16.--23. 1. "            DSP2                                ,Enable DSP2 to receive the NMI interrupt 0x0 = NMI disabled 0x1 = NMI enabled"
hexmask.long.byte 0x00 8.--15. 1. "          DSP1                                 ,Enable DSP1 to receive the NMI interrupt 0x0 = NMI disabled 0x1 = NMI enabled"
textline "                                                          "
hexmask.long.byte 0x00 0.--7. 1. " MPU                                   ,Comes from Efuse (MPU_EN) 0x0 = NMI disabled 0x1 = NMI enabled"
rgroup.long 0x6A0++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_DSPEVE_0,Standard Fuse OPP VDD_DSPEVE [31:0]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_DSPEVE_0             ,"
rgroup.long 0x6A4++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_DSPEVE_1,Standard Fuse OPP VDD_DSPEVE [63:32]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_DSPEVE_1             ,"
rgroup.long 0x6A8++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_DSPEVE_2,Standard Fuse OPP VDD_DSPEVE [95:64]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_DSPEVE_2             ,"
rgroup.long 0x6AC++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_DSPEVE_3,Standard Fuse OPP VDD_DSPEVE [127:96]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_DSPEVE_3             ,"
rgroup.long 0x6B0++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_DSPEVE_4,Standard Fuse OPP VDD_DSPEVE [159:128]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_DSPEVE_4             ,"
rgroup.long 0x6B4++0x3
line.long 0x00 "CTRL_CORE_CUST_FUSE_SWRV_7,Customer Fuse keys. SWRV [31:0] (16 bits upper Redundant field) [FIELD A]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into..."
hexmask.long 0x00 0.--31. 1. " CUST_FUSE_SWRV_7                      ,"
rgroup.long 0x6B8++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_CALIBRATION_OVERRIDE_VALUE_0,Standard Fuse Calibration override value [31:0]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a pa..."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_CALIBRATION_OVERRIDE_VALUE_0 ,"
rgroup.long 0x6BC++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_CALIBRATION_OVERRIDE_VALUE_1,Standard Fuse Calibration override value [63:32]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a p..."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_CALIBRATION_OVERRIDE_VALUE_1 ,"
group.long 0x6C0++0x3
line.long 0x00 "CTRL_CORE_PCIE_POWER_STATE,Register to PCIe related controls"
bitfld.long 0x00 31. " BYPASS_EN_APLL_PCIE                   ,Bypass enable bit setting for APLL_PCIe" "0,1"
bitfld.long 0x00 30. "             CLKOOUTEN_APLL_PCIE                 ,Clock output enable bit setting for APLL_PCIe" "0,1"
hexmask.long.word 0x00 16.--25. 1. "           EFUSE_TRIM_ACS_PCIE                  ,MMR override capability for ACS_PCIe efuse trim bits"
textline "                                                          "
hexmask.long.word 0x00 0.--15. 1. " EFUSE_TRIM_PCIE_PLL                   ,MMR override capability for PCIe PLL efuse trim bits"
rgroup.long 0x6C4++0x3
line.long 0x00 "CTRL_CORE_BOOTSTRAP,Register to view all the sysboot settings"
bitfld.long 0x00 15. " DSP_CLOCK_DIVIDER                     ,Divide factor for DSP clock" "0,1"
bitfld.long 0x00 13. "             BOOTDEVICESIZE                      ,Select the size of the flash device on CS0. 0x0: 8-bit 0x1: 16-bit" "0,1"
bitfld.long 0x00 11.--12. "           MUXCS0DEVICE                         ,Select IC boot sequence to be executed from a multiplexed address and data device attached to CS0. 0x0: Non-muxed device attached 0x1: Addr-Data Mux device attached 0x2: Reserved 0x3: Reserved" "0,1,2,3"
textline "                                                          "
bitfld.long 0x00 10. " BOOTWAITEN                            ,Enable the monitoring on CS0 of the wait pin at IC reset release time for read accesses. 0x0: Wait pin is not monitored for read accesses 0x1: Wait pin is monitored for read accesses" "0,1"
bitfld.long 0x00 8.--9. "             SPEEDSELECT                         ,Indicates the SYS_CLK1 frequency (from osc0). Note that the internal FUNC_32K_CLK is equal to SYS_CLK1/610, which is nominally 32.7869 kHz with 20 MHz clock. 0x0: Reserved 0x1: 20 MHz 0x2: 27 MHz 0x3: 1..." "0,1,2,3"
bitfld.long 0x00 0.--5. "           BOOTMODE                             ,SYSBOOT mode" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x7A0++0x3
line.long 0x00 "CTRL_CORE_EVE1_IRQ_0_1,"
hexmask.long.word 0x00 16.--24. 1. " EVE1_IRQ_1                            ,"
hexmask.long.word 0x00 0.--8. 1. "          EVE1_IRQ_0                          ,"
group.long 0x7A4++0x3
line.long 0x00 "CTRL_CORE_EVE1_IRQ_2_3,"
hexmask.long.word 0x00 16.--24. 1. " EVE1_IRQ_3                            ,"
hexmask.long.word 0x00 0.--8. 1. "          EVE1_IRQ_2                          ,"
group.long 0x7A8++0x3
line.long 0x00 "CTRL_CORE_EVE1_IRQ_4_5,"
hexmask.long.word 0x00 16.--24. 1. " EVE1_IRQ_5                            ,"
hexmask.long.word 0x00 0.--8. 1. "          EVE1_IRQ_4                          ,"
group.long 0x7AC++0x3
line.long 0x00 "CTRL_CORE_EVE1_IRQ_6_7,"
hexmask.long.word 0x00 16.--24. 1. " EVE1_IRQ_7                            ,"
hexmask.long.word 0x00 0.--8. 1. "          EVE1_IRQ_6                          ,"
group.long 0x7B0++0x3
line.long 0x00 "CTRL_CORE_EVE2_IRQ_0_1,"
hexmask.long.word 0x00 16.--24. 1. " EVE2_IRQ_1                            ,"
hexmask.long.word 0x00 0.--8. 1. "          EVE2_IRQ_0                          ,"
group.long 0x7B4++0x3
line.long 0x00 "CTRL_CORE_EVE2_IRQ_2_3,"
hexmask.long.word 0x00 16.--24. 1. " EVE2_IRQ_3                            ,"
hexmask.long.word 0x00 0.--8. 1. "          EVE2_IRQ_2                          ,"
group.long 0x7B8++0x3
line.long 0x00 "CTRL_CORE_EVE2_IRQ_4_5,"
hexmask.long.word 0x00 16.--24. 1. " EVE2_IRQ_5                            ,"
hexmask.long.word 0x00 0.--8. 1. "          EVE2_IRQ_4                          ,"
group.long 0x7BC++0x3
line.long 0x00 "CTRL_CORE_EVE2_IRQ_6_7,"
hexmask.long.word 0x00 16.--24. 1. " EVE2_IRQ_7                            ,"
hexmask.long.word 0x00 0.--8. 1. "          EVE2_IRQ_6                          ,"
group.long 0x7C0++0x3
line.long 0x00 "CTRL_CORE_EVE3_IRQ_0_1,"
hexmask.long.word 0x00 16.--24. 1. " EVE3_IRQ_1                            ,"
hexmask.long.word 0x00 0.--8. 1. "          EVE3_IRQ_0                          ,"
group.long 0x7C4++0x3
line.long 0x00 "CTRL_CORE_EVE3_IRQ_2_3,"
hexmask.long.word 0x00 16.--24. 1. " EVE3_IRQ_3                            ,"
hexmask.long.word 0x00 0.--8. 1. "          EVE3_IRQ_2                          ,"
group.long 0x7C8++0x3
line.long 0x00 "CTRL_CORE_EVE3_IRQ_4_5,"
hexmask.long.word 0x00 16.--24. 1. " EVE3_IRQ_5                            ,"
hexmask.long.word 0x00 0.--8. 1. "          EVE3_IRQ_4                          ,"
group.long 0x7CC++0x3
line.long 0x00 "CTRL_CORE_EVE3_IRQ_6_7,"
hexmask.long.word 0x00 16.--24. 1. " EVE3_IRQ_7                            ,"
hexmask.long.word 0x00 0.--8. 1. "          EVE3_IRQ_6                          ,"
group.long 0x7D0++0x3
line.long 0x00 "CTRL_CORE_EVE4_IRQ_0_1,"
hexmask.long.word 0x00 16.--24. 1. " EVE4_IRQ_1                            ,"
hexmask.long.word 0x00 0.--8. 1. "          EVE4_IRQ_0                          ,"
group.long 0x7D4++0x3
line.long 0x00 "CTRL_CORE_EVE4_IRQ_2_3,"
hexmask.long.word 0x00 16.--24. 1. " EVE4_IRQ_3                            ,"
hexmask.long.word 0x00 0.--8. 1. "          EVE4_IRQ_2                          ,"
group.long 0x7D8++0x3
line.long 0x00 "CTRL_CORE_EVE4_IRQ_4_5,"
hexmask.long.word 0x00 16.--24. 1. " EVE4_IRQ_5                            ,"
hexmask.long.word 0x00 0.--8. 1. "          EVE4_IRQ_4                          ,"
group.long 0x7DC++0x3
line.long 0x00 "CTRL_CORE_EVE4_IRQ_6_7,"
hexmask.long.word 0x00 16.--24. 1. " EVE4_IRQ_7                            ,"
hexmask.long.word 0x00 0.--8. 1. "          EVE4_IRQ_6                          ,"
group.long 0x7E0++0x3
line.long 0x00 "CTRL_CORE_IPU1_IRQ_23_24,"
hexmask.long.word 0x00 16.--24. 1. " IPU1_IRQ_24                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU1_IRQ_23                         ,"
group.long 0x7E4++0x3
line.long 0x00 "CTRL_CORE_IPU1_IRQ_25_26,"
hexmask.long.word 0x00 16.--24. 1. " IPU1_IRQ_26                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU1_IRQ_25                         ,"
group.long 0x7E8++0x3
line.long 0x00 "CTRL_CORE_IPU1_IRQ_27_28,"
hexmask.long.word 0x00 16.--24. 1. " IPU1_IRQ_28                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU1_IRQ_27                         ,"
group.long 0x7EC++0x3
line.long 0x00 "CTRL_CORE_IPU1_IRQ_29_30,"
hexmask.long.word 0x00 16.--24. 1. " IPU1_IRQ_30                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU1_IRQ_29                         ,"
group.long 0x7F0++0x3
line.long 0x00 "CTRL_CORE_IPU1_IRQ_31_32,"
hexmask.long.word 0x00 16.--24. 1. " IPU1_IRQ_32                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU1_IRQ_31                         ,"
group.long 0x7F4++0x3
line.long 0x00 "CTRL_CORE_IPU1_IRQ_33_34,"
hexmask.long.word 0x00 16.--24. 1. " IPU1_IRQ_34                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU1_IRQ_33                         ,"
group.long 0x7F8++0x3
line.long 0x00 "CTRL_CORE_IPU1_IRQ_35_36,"
hexmask.long.word 0x00 16.--24. 1. " IPU1_IRQ_36                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU1_IRQ_35                         ,"
group.long 0x7FC++0x3
line.long 0x00 "CTRL_CORE_IPU1_IRQ_37_38,"
hexmask.long.word 0x00 16.--24. 1. " IPU1_IRQ_38                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU1_IRQ_37                         ,"
group.long 0x800++0x3
line.long 0x00 "CTRL_CORE_IPU1_IRQ_39_40,"
hexmask.long.word 0x00 16.--24. 1. " IPU1_IRQ_40                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU1_IRQ_39                         ,"
group.long 0x804++0x3
line.long 0x00 "CTRL_CORE_IPU1_IRQ_41_42,"
hexmask.long.word 0x00 16.--24. 1. " IPU1_IRQ_42                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU1_IRQ_41                         ,"
group.long 0x808++0x3
line.long 0x00 "CTRL_CORE_IPU1_IRQ_43_44,"
hexmask.long.word 0x00 16.--24. 1. " IPU1_IRQ_44                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU1_IRQ_43                         ,"
group.long 0x80C++0x3
line.long 0x00 "CTRL_CORE_IPU1_IRQ_45_46,"
hexmask.long.word 0x00 16.--24. 1. " IPU1_IRQ_46                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU1_IRQ_45                         ,"
group.long 0x810++0x3
line.long 0x00 "CTRL_CORE_IPU1_IRQ_47_48,"
hexmask.long.word 0x00 16.--24. 1. " IPU1_IRQ_48                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU1_IRQ_47                         ,"
group.long 0x814++0x3
line.long 0x00 "CTRL_CORE_IPU1_IRQ_49_50,"
hexmask.long.word 0x00 16.--24. 1. " IPU1_IRQ_50                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU1_IRQ_49                         ,"
group.long 0x818++0x3
line.long 0x00 "CTRL_CORE_IPU1_IRQ_51_52,"
hexmask.long.word 0x00 16.--24. 1. " IPU1_IRQ_52                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU1_IRQ_51                         ,"
group.long 0x81C++0x3
line.long 0x00 "CTRL_CORE_IPU1_IRQ_53_54,"
hexmask.long.word 0x00 16.--24. 1. " IPU1_IRQ_54                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU1_IRQ_53                         ,"
group.long 0x820++0x3
line.long 0x00 "CTRL_CORE_IPU1_IRQ_55_56,"
hexmask.long.word 0x00 16.--24. 1. " IPU1_IRQ_56                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU1_IRQ_55                         ,"
group.long 0x824++0x3
line.long 0x00 "CTRL_CORE_IPU1_IRQ_57_58,"
hexmask.long.word 0x00 16.--24. 1. " IPU1_IRQ_58                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU1_IRQ_57                         ,"
group.long 0x828++0x3
line.long 0x00 "CTRL_CORE_IPU1_IRQ_59_60,"
hexmask.long.word 0x00 16.--24. 1. " IPU1_IRQ_60                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU1_IRQ_59                         ,"
group.long 0x82C++0x3
line.long 0x00 "CTRL_CORE_IPU1_IRQ_61_62,"
hexmask.long.word 0x00 16.--24. 1. " IPU1_IRQ_62                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU1_IRQ_61                         ,"
group.long 0x830++0x3
line.long 0x00 "CTRL_CORE_IPU1_IRQ_63_64,"
hexmask.long.word 0x00 16.--24. 1. " IPU1_IRQ_64                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU1_IRQ_63                         ,"
group.long 0x834++0x3
line.long 0x00 "CTRL_CORE_IPU1_IRQ_65_66,"
hexmask.long.word 0x00 16.--24. 1. " IPU1_IRQ_66                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU1_IRQ_65                         ,"
group.long 0x838++0x3
line.long 0x00 "CTRL_CORE_IPU1_IRQ_67_68,"
hexmask.long.word 0x00 16.--24. 1. " IPU1_IRQ_68                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU1_IRQ_67                         ,"
group.long 0x83C++0x3
line.long 0x00 "CTRL_CORE_IPU1_IRQ_69_70,"
hexmask.long.word 0x00 16.--24. 1. " IPU1_IRQ_70                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU1_IRQ_69                         ,"
group.long 0x840++0x3
line.long 0x00 "CTRL_CORE_IPU1_IRQ_71_72,"
hexmask.long.word 0x00 16.--24. 1. " IPU1_IRQ_72                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU1_IRQ_71                         ,"
group.long 0x844++0x3
line.long 0x00 "CTRL_CORE_IPU1_IRQ_73_74,"
hexmask.long.word 0x00 16.--24. 1. " IPU1_IRQ_74                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU1_IRQ_73                         ,"
group.long 0x848++0x3
line.long 0x00 "CTRL_CORE_IPU1_IRQ_75_76,"
hexmask.long.word 0x00 16.--24. 1. " IPU1_IRQ_76                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU1_IRQ_75                         ,"
group.long 0x84C++0x3
line.long 0x00 "CTRL_CORE_IPU1_IRQ_77_78,"
hexmask.long.word 0x00 16.--24. 1. " IPU1_IRQ_78                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU1_IRQ_77                         ,"
group.long 0x850++0x3
line.long 0x00 "CTRL_CORE_IPU1_IRQ_79_80,"
hexmask.long.word 0x00 0.--8. 1. " IPU1_IRQ_79                           ,"
group.long 0x854++0x3
line.long 0x00 "CTRL_CORE_IPU2_IRQ_23_24,"
hexmask.long.word 0x00 16.--24. 1. " IPU2_IRQ_24                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU2_IRQ_23                         ,"
group.long 0x858++0x3
line.long 0x00 "CTRL_CORE_IPU2_IRQ_25_26,"
hexmask.long.word 0x00 16.--24. 1. " IPU2_IRQ_26                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU2_IRQ_25                         ,"
group.long 0x85C++0x3
line.long 0x00 "CTRL_CORE_IPU2_IRQ_27_28,"
hexmask.long.word 0x00 16.--24. 1. " IPU2_IRQ_28                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU2_IRQ_27                         ,"
group.long 0x860++0x3
line.long 0x00 "CTRL_CORE_IPU2_IRQ_29_30,"
hexmask.long.word 0x00 16.--24. 1. " IPU2_IRQ_30                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU2_IRQ_29                         ,"
group.long 0x864++0x3
line.long 0x00 "CTRL_CORE_IPU2_IRQ_31_32,"
hexmask.long.word 0x00 16.--24. 1. " IPU2_IRQ_32                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU2_IRQ_31                         ,"
group.long 0x868++0x3
line.long 0x00 "CTRL_CORE_IPU2_IRQ_33_34,"
hexmask.long.word 0x00 16.--24. 1. " IPU2_IRQ_34                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU2_IRQ_33                         ,"
group.long 0x86C++0x3
line.long 0x00 "CTRL_CORE_IPU2_IRQ_35_36,"
hexmask.long.word 0x00 16.--24. 1. " IPU2_IRQ_36                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU2_IRQ_35                         ,"
group.long 0x870++0x3
line.long 0x00 "CTRL_CORE_IPU2_IRQ_37_38,"
hexmask.long.word 0x00 16.--24. 1. " IPU2_IRQ_38                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU2_IRQ_37                         ,"
group.long 0x874++0x3
line.long 0x00 "CTRL_CORE_IPU2_IRQ_39_40,"
hexmask.long.word 0x00 16.--24. 1. " IPU2_IRQ_40                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU2_IRQ_39                         ,"
group.long 0x878++0x3
line.long 0x00 "CTRL_CORE_IPU2_IRQ_41_42,"
hexmask.long.word 0x00 16.--24. 1. " IPU2_IRQ_42                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU2_IRQ_41                         ,"
group.long 0x87C++0x3
line.long 0x00 "CTRL_CORE_IPU2_IRQ_43_44,"
hexmask.long.word 0x00 16.--24. 1. " IPU2_IRQ_44                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU2_IRQ_43                         ,"
group.long 0x880++0x3
line.long 0x00 "CTRL_CORE_IPU2_IRQ_45_46,"
hexmask.long.word 0x00 16.--24. 1. " IPU2_IRQ_46                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU2_IRQ_45                         ,"
group.long 0x884++0x3
line.long 0x00 "CTRL_CORE_IPU2_IRQ_47_48,"
hexmask.long.word 0x00 16.--24. 1. " IPU2_IRQ_48                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU2_IRQ_47                         ,"
group.long 0x888++0x3
line.long 0x00 "CTRL_CORE_IPU2_IRQ_49_50,"
hexmask.long.word 0x00 16.--24. 1. " IPU2_IRQ_50                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU2_IRQ_49                         ,"
group.long 0x88C++0x3
line.long 0x00 "CTRL_CORE_IPU2_IRQ_51_52,"
hexmask.long.word 0x00 16.--24. 1. " IPU2_IRQ_52                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU2_IRQ_51                         ,"
group.long 0x890++0x3
line.long 0x00 "CTRL_CORE_IPU2_IRQ_53_54,"
hexmask.long.word 0x00 16.--24. 1. " IPU2_IRQ_54                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU2_IRQ_53                         ,"
group.long 0x894++0x3
line.long 0x00 "CTRL_CORE_IPU2_IRQ_55_56,"
hexmask.long.word 0x00 16.--24. 1. " IPU2_IRQ_56                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU2_IRQ_55                         ,"
group.long 0x898++0x3
line.long 0x00 "CTRL_CORE_IPU2_IRQ_57_58,"
hexmask.long.word 0x00 16.--24. 1. " IPU2_IRQ_58                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU2_IRQ_57                         ,"
group.long 0x89C++0x3
line.long 0x00 "CTRL_CORE_IPU2_IRQ_59_60,"
hexmask.long.word 0x00 16.--24. 1. " IPU2_IRQ_60                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU2_IRQ_59                         ,"
group.long 0x8A0++0x3
line.long 0x00 "CTRL_CORE_IPU2_IRQ_61_62,"
hexmask.long.word 0x00 16.--24. 1. " IPU2_IRQ_62                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU2_IRQ_61                         ,"
group.long 0x8A4++0x3
line.long 0x00 "CTRL_CORE_IPU2_IRQ_63_64,"
hexmask.long.word 0x00 16.--24. 1. " IPU2_IRQ_64                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU2_IRQ_63                         ,"
group.long 0x8A8++0x3
line.long 0x00 "CTRL_CORE_IPU2_IRQ_65_66,"
hexmask.long.word 0x00 16.--24. 1. " IPU2_IRQ_66                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU2_IRQ_65                         ,"
group.long 0x8AC++0x3
line.long 0x00 "CTRL_CORE_IPU2_IRQ_67_68,"
hexmask.long.word 0x00 16.--24. 1. " IPU2_IRQ_68                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU2_IRQ_67                         ,"
group.long 0x8B0++0x3
line.long 0x00 "CTRL_CORE_IPU2_IRQ_69_70,"
hexmask.long.word 0x00 16.--24. 1. " IPU2_IRQ_70                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU2_IRQ_69                         ,"
group.long 0x8B4++0x3
line.long 0x00 "CTRL_CORE_IPU2_IRQ_71_72,"
hexmask.long.word 0x00 16.--24. 1. " IPU2_IRQ_72                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU2_IRQ_71                         ,"
group.long 0x8B8++0x3
line.long 0x00 "CTRL_CORE_IPU2_IRQ_73_74,"
hexmask.long.word 0x00 16.--24. 1. " IPU2_IRQ_74                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU2_IRQ_73                         ,"
group.long 0x8BC++0x3
line.long 0x00 "CTRL_CORE_IPU2_IRQ_75_76,"
hexmask.long.word 0x00 16.--24. 1. " IPU2_IRQ_76                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU2_IRQ_75                         ,"
group.long 0x8C0++0x3
line.long 0x00 "CTRL_CORE_IPU2_IRQ_77_78,"
hexmask.long.word 0x00 16.--24. 1. " IPU2_IRQ_78                           ,"
hexmask.long.word 0x00 0.--8. 1. "          IPU2_IRQ_77                         ,"
group.long 0x8C4++0x3
line.long 0x00 "CTRL_CORE_IPU2_IRQ_79_80,"
hexmask.long.word 0x00 0.--8. 1. " IPU2_IRQ_79                           ,"
group.long 0x8C8++0x3
line.long 0x00 "CTRL_CORE_PRUSS1_IRQ_32_33,"
hexmask.long.word 0x00 16.--24. 1. " PRUSS1_IRQ_33                         ,"
hexmask.long.word 0x00 0.--8. 1. "          PRUSS1_IRQ_32                       ,"
group.long 0x8CC++0x3
line.long 0x00 "CTRL_CORE_PRUSS1_IRQ_34_35,"
hexmask.long.word 0x00 16.--24. 1. " PRUSS1_IRQ_35                         ,"
hexmask.long.word 0x00 0.--8. 1. "          PRUSS1_IRQ_34                       ,"
group.long 0x8D0++0x3
line.long 0x00 "CTRL_CORE_PRUSS1_IRQ_36_37,"
hexmask.long.word 0x00 16.--24. 1. " PRUSS1_IRQ_37                         ,"
hexmask.long.word 0x00 0.--8. 1. "          PRUSS1_IRQ_36                       ,"
group.long 0x8D4++0x3
line.long 0x00 "CTRL_CORE_PRUSS1_IRQ_38_39,"
hexmask.long.word 0x00 16.--24. 1. " PRUSS1_IRQ_39                         ,"
hexmask.long.word 0x00 0.--8. 1. "          PRUSS1_IRQ_38                       ,"
group.long 0x8D8++0x3
line.long 0x00 "CTRL_CORE_PRUSS1_IRQ_40_41,"
hexmask.long.word 0x00 16.--24. 1. " PRUSS1_IRQ_41                         ,"
hexmask.long.word 0x00 0.--8. 1. "          PRUSS1_IRQ_40                       ,"
group.long 0x8DC++0x3
line.long 0x00 "CTRL_CORE_PRUSS1_IRQ_42_43,"
hexmask.long.word 0x00 16.--24. 1. " PRUSS1_IRQ_43                         ,"
hexmask.long.word 0x00 0.--8. 1. "          PRUSS1_IRQ_42                       ,"
group.long 0x8E0++0x3
line.long 0x00 "CTRL_CORE_PRUSS1_IRQ_44_45,"
hexmask.long.word 0x00 16.--24. 1. " PRUSS1_IRQ_45                         ,"
hexmask.long.word 0x00 0.--8. 1. "          PRUSS1_IRQ_44                       ,"
group.long 0x8E4++0x3
line.long 0x00 "CTRL_CORE_PRUSS1_IRQ_46_47,"
hexmask.long.word 0x00 16.--24. 1. " PRUSS1_IRQ_47                         ,"
hexmask.long.word 0x00 0.--8. 1. "          PRUSS1_IRQ_46                       ,"
group.long 0x8E8++0x3
line.long 0x00 "CTRL_CORE_PRUSS1_IRQ_48_49,"
hexmask.long.word 0x00 16.--24. 1. " PRUSS1_IRQ_49                         ,"
hexmask.long.word 0x00 0.--8. 1. "          PRUSS1_IRQ_48                       ,"
group.long 0x8EC++0x3
line.long 0x00 "CTRL_CORE_PRUSS1_IRQ_50_51,"
hexmask.long.word 0x00 16.--24. 1. " PRUSS1_IRQ_51                         ,"
hexmask.long.word 0x00 0.--8. 1. "          PRUSS1_IRQ_50                       ,"
group.long 0x8F0++0x3
line.long 0x00 "CTRL_CORE_PRUSS1_IRQ_52_53,"
hexmask.long.word 0x00 16.--24. 1. " PRUSS1_IRQ_53                         ,"
hexmask.long.word 0x00 0.--8. 1. "          PRUSS1_IRQ_52                       ,"
group.long 0x8F4++0x3
line.long 0x00 "CTRL_CORE_PRUSS1_IRQ_54_55,"
hexmask.long.word 0x00 16.--24. 1. " PRUSS1_IRQ_55                         ,"
hexmask.long.word 0x00 0.--8. 1. "          PRUSS1_IRQ_54                       ,"
group.long 0x8F8++0x3
line.long 0x00 "CTRL_CORE_PRUSS1_IRQ_56_57,"
hexmask.long.word 0x00 16.--24. 1. " PRUSS1_IRQ_57                         ,"
hexmask.long.word 0x00 0.--8. 1. "          PRUSS1_IRQ_56                       ,"
group.long 0x8FC++0x3
line.long 0x00 "CTRL_CORE_PRUSS1_IRQ_58_59,"
hexmask.long.word 0x00 16.--24. 1. " PRUSS1_IRQ_59                         ,"
hexmask.long.word 0x00 0.--8. 1. "          PRUSS1_IRQ_58                       ,"
group.long 0x900++0x3
line.long 0x00 "CTRL_CORE_PRUSS1_IRQ_60_61,"
hexmask.long.word 0x00 16.--24. 1. " PRUSS1_IRQ_61                         ,"
hexmask.long.word 0x00 0.--8. 1. "          PRUSS1_IRQ_60                       ,"
group.long 0x904++0x3
line.long 0x00 "CTRL_CORE_PRUSS1_IRQ_62_63,"
hexmask.long.word 0x00 16.--24. 1. " PRUSS1_IRQ_63                         ,"
hexmask.long.word 0x00 0.--8. 1. "          PRUSS1_IRQ_62                       ,"
group.long 0x948++0x3
line.long 0x00 "CTRL_CORE_DSP1_IRQ_32_33,"
hexmask.long.word 0x00 16.--24. 1. " DSP1_IRQ_33                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP1_IRQ_32                         ,"
group.long 0x94C++0x3
line.long 0x00 "CTRL_CORE_DSP1_IRQ_34_35,"
hexmask.long.word 0x00 16.--24. 1. " DSP1_IRQ_35                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP1_IRQ_34                         ,"
group.long 0x950++0x3
line.long 0x00 "CTRL_CORE_DSP1_IRQ_36_37,"
hexmask.long.word 0x00 16.--24. 1. " DSP1_IRQ_37                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP1_IRQ_36                         ,"
group.long 0x954++0x3
line.long 0x00 "CTRL_CORE_DSP1_IRQ_38_39,"
hexmask.long.word 0x00 16.--24. 1. " DSP1_IRQ_39                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP1_IRQ_38                         ,"
group.long 0x958++0x3
line.long 0x00 "CTRL_CORE_DSP1_IRQ_40_41,"
hexmask.long.word 0x00 16.--24. 1. " DSP1_IRQ_41                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP1_IRQ_40                         ,"
group.long 0x95C++0x3
line.long 0x00 "CTRL_CORE_DSP1_IRQ_42_43,"
hexmask.long.word 0x00 16.--24. 1. " DSP1_IRQ_43                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP1_IRQ_42                         ,"
group.long 0x960++0x3
line.long 0x00 "CTRL_CORE_DSP1_IRQ_44_45,"
hexmask.long.word 0x00 16.--24. 1. " DSP1_IRQ_45                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP1_IRQ_44                         ,"
group.long 0x964++0x3
line.long 0x00 "CTRL_CORE_DSP1_IRQ_46_47,"
hexmask.long.word 0x00 16.--24. 1. " DSP1_IRQ_47                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP1_IRQ_46                         ,"
group.long 0x968++0x3
line.long 0x00 "CTRL_CORE_DSP1_IRQ_48_49,"
hexmask.long.word 0x00 16.--24. 1. " DSP1_IRQ_49                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP1_IRQ_48                         ,"
group.long 0x96C++0x3
line.long 0x00 "CTRL_CORE_DSP1_IRQ_50_51,"
hexmask.long.word 0x00 16.--24. 1. " DSP1_IRQ_51                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP1_IRQ_50                         ,"
group.long 0x970++0x3
line.long 0x00 "CTRL_CORE_DSP1_IRQ_52_53,"
hexmask.long.word 0x00 16.--24. 1. " DSP1_IRQ_53                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP1_IRQ_52                         ,"
group.long 0x974++0x3
line.long 0x00 "CTRL_CORE_DSP1_IRQ_54_55,"
hexmask.long.word 0x00 16.--24. 1. " DSP1_IRQ_55                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP1_IRQ_54                         ,"
group.long 0x978++0x3
line.long 0x00 "CTRL_CORE_DSP1_IRQ_56_57,"
hexmask.long.word 0x00 16.--24. 1. " DSP1_IRQ_57                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP1_IRQ_56                         ,"
group.long 0x97C++0x3
line.long 0x00 "CTRL_CORE_DSP1_IRQ_58_59,"
hexmask.long.word 0x00 16.--24. 1. " DSP1_IRQ_59                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP1_IRQ_58                         ,"
group.long 0x980++0x3
line.long 0x00 "CTRL_CORE_DSP1_IRQ_60_61,"
hexmask.long.word 0x00 16.--24. 1. " DSP1_IRQ_61                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP1_IRQ_60                         ,"
group.long 0x984++0x3
line.long 0x00 "CTRL_CORE_DSP1_IRQ_62_63,"
hexmask.long.word 0x00 16.--24. 1. " DSP1_IRQ_63                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP1_IRQ_62                         ,"
group.long 0x988++0x3
line.long 0x00 "CTRL_CORE_DSP1_IRQ_64_65,"
hexmask.long.word 0x00 16.--24. 1. " DSP1_IRQ_65                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP1_IRQ_64                         ,"
group.long 0x98C++0x3
line.long 0x00 "CTRL_CORE_DSP1_IRQ_66_67,"
hexmask.long.word 0x00 16.--24. 1. " DSP1_IRQ_67                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP1_IRQ_66                         ,"
group.long 0x990++0x3
line.long 0x00 "CTRL_CORE_DSP1_IRQ_68_69,"
hexmask.long.word 0x00 16.--24. 1. " DSP1_IRQ_69                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP1_IRQ_68                         ,"
group.long 0x994++0x3
line.long 0x00 "CTRL_CORE_DSP1_IRQ_70_71,"
hexmask.long.word 0x00 16.--24. 1. " DSP1_IRQ_71                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP1_IRQ_70                         ,"
group.long 0x998++0x3
line.long 0x00 "CTRL_CORE_DSP1_IRQ_72_73,"
hexmask.long.word 0x00 16.--24. 1. " DSP1_IRQ_73                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP1_IRQ_72                         ,"
group.long 0x99C++0x3
line.long 0x00 "CTRL_CORE_DSP1_IRQ_74_75,"
hexmask.long.word 0x00 16.--24. 1. " DSP1_IRQ_75                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP1_IRQ_74                         ,"
group.long 0x9A0++0x3
line.long 0x00 "CTRL_CORE_DSP1_IRQ_76_77,"
hexmask.long.word 0x00 16.--24. 1. " DSP1_IRQ_77                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP1_IRQ_76                         ,"
group.long 0x9A4++0x3
line.long 0x00 "CTRL_CORE_DSP1_IRQ_78_79,"
hexmask.long.word 0x00 16.--24. 1. " DSP1_IRQ_79                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP1_IRQ_78                         ,"
group.long 0x9A8++0x3
line.long 0x00 "CTRL_CORE_DSP1_IRQ_80_81,"
hexmask.long.word 0x00 16.--24. 1. " DSP1_IRQ_81                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP1_IRQ_80                         ,"
group.long 0x9AC++0x3
line.long 0x00 "CTRL_CORE_DSP1_IRQ_82_83,"
hexmask.long.word 0x00 16.--24. 1. " DSP1_IRQ_83                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP1_IRQ_82                         ,"
group.long 0x9B0++0x3
line.long 0x00 "CTRL_CORE_DSP1_IRQ_84_85,"
hexmask.long.word 0x00 16.--24. 1. " DSP1_IRQ_85                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP1_IRQ_84                         ,"
group.long 0x9B4++0x3
line.long 0x00 "CTRL_CORE_DSP1_IRQ_86_87,"
hexmask.long.word 0x00 16.--24. 1. " DSP1_IRQ_87                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP1_IRQ_86                         ,"
group.long 0x9B8++0x3
line.long 0x00 "CTRL_CORE_DSP1_IRQ_88_89,"
hexmask.long.word 0x00 16.--24. 1. " DSP1_IRQ_89                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP1_IRQ_88                         ,"
group.long 0x9BC++0x3
line.long 0x00 "CTRL_CORE_DSP1_IRQ_90_91,"
hexmask.long.word 0x00 16.--24. 1. " DSP1_IRQ_91                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP1_IRQ_90                         ,"
group.long 0x9C0++0x3
line.long 0x00 "CTRL_CORE_DSP1_IRQ_92_93,"
hexmask.long.word 0x00 16.--24. 1. " DSP1_IRQ_93                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP1_IRQ_92                         ,"
group.long 0x9C4++0x3
line.long 0x00 "CTRL_CORE_DSP1_IRQ_94_95,"
hexmask.long.word 0x00 16.--24. 1. " DSP1_IRQ_95                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP1_IRQ_94                         ,"
group.long 0x9C8++0x3
line.long 0x00 "CTRL_CORE_DSP2_IRQ_32_33,"
hexmask.long.word 0x00 16.--24. 1. " DSP2_IRQ_33                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP2_IRQ_32                         ,"
group.long 0x9CC++0x3
line.long 0x00 "CTRL_CORE_DSP2_IRQ_34_35,"
hexmask.long.word 0x00 16.--24. 1. " DSP2_IRQ_35                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP2_IRQ_34                         ,"
group.long 0x9D0++0x3
line.long 0x00 "CTRL_CORE_DSP2_IRQ_36_37,"
hexmask.long.word 0x00 16.--24. 1. " DSP2_IRQ_37                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP2_IRQ_36                         ,"
group.long 0x9D4++0x3
line.long 0x00 "CTRL_CORE_DSP2_IRQ_38_39,"
hexmask.long.word 0x00 16.--24. 1. " DSP2_IRQ_39                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP2_IRQ_38                         ,"
group.long 0x9D8++0x3
line.long 0x00 "CTRL_CORE_DSP2_IRQ_40_41,"
hexmask.long.word 0x00 16.--24. 1. " DSP2_IRQ_41                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP2_IRQ_40                         ,"
group.long 0x9DC++0x3
line.long 0x00 "CTRL_CORE_DSP2_IRQ_42_43,"
hexmask.long.word 0x00 16.--24. 1. " DSP2_IRQ_43                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP2_IRQ_42                         ,"
group.long 0x9E0++0x3
line.long 0x00 "CTRL_CORE_DSP2_IRQ_44_45,"
hexmask.long.word 0x00 16.--24. 1. " DSP2_IRQ_45                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP2_IRQ_44                         ,"
group.long 0x9E4++0x3
line.long 0x00 "CTRL_CORE_DSP2_IRQ_46_47,"
hexmask.long.word 0x00 16.--24. 1. " DSP2_IRQ_47                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP2_IRQ_46                         ,"
group.long 0x9E8++0x3
line.long 0x00 "CTRL_CORE_DSP2_IRQ_48_49,"
hexmask.long.word 0x00 16.--24. 1. " DSP2_IRQ_49                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP2_IRQ_48                         ,"
group.long 0x9EC++0x3
line.long 0x00 "CTRL_CORE_DSP2_IRQ_50_51,"
hexmask.long.word 0x00 16.--24. 1. " DSP2_IRQ_51                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP2_IRQ_50                         ,"
group.long 0x9F0++0x3
line.long 0x00 "CTRL_CORE_DSP2_IRQ_52_53,"
hexmask.long.word 0x00 16.--24. 1. " DSP2_IRQ_53                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP2_IRQ_52                         ,"
group.long 0x9F4++0x3
line.long 0x00 "CTRL_CORE_DSP2_IRQ_54_55,"
hexmask.long.word 0x00 16.--24. 1. " DSP2_IRQ_55                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP2_IRQ_54                         ,"
group.long 0x9F8++0x3
line.long 0x00 "CTRL_CORE_DSP2_IRQ_56_57,"
hexmask.long.word 0x00 16.--24. 1. " DSP2_IRQ_57                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP2_IRQ_56                         ,"
group.long 0x9FC++0x3
line.long 0x00 "CTRL_CORE_DSP2_IRQ_58_59,"
hexmask.long.word 0x00 16.--24. 1. " DSP2_IRQ_59                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP2_IRQ_58                         ,"
group.long 0xA00++0x3
line.long 0x00 "CTRL_CORE_DSP2_IRQ_60_61,"
hexmask.long.word 0x00 16.--24. 1. " DSP2_IRQ_61                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP2_IRQ_60                         ,"
group.long 0xA04++0x3
line.long 0x00 "CTRL_CORE_DSP2_IRQ_62_63,"
hexmask.long.word 0x00 16.--24. 1. " DSP2_IRQ_63                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP2_IRQ_62                         ,"
group.long 0xA08++0x3
line.long 0x00 "CTRL_CORE_DSP2_IRQ_64_65,"
hexmask.long.word 0x00 16.--24. 1. " DSP2_IRQ_65                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP2_IRQ_64                         ,"
group.long 0xA0C++0x3
line.long 0x00 "CTRL_CORE_DSP2_IRQ_66_67,"
hexmask.long.word 0x00 16.--24. 1. " DSP2_IRQ_67                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP2_IRQ_66                         ,"
group.long 0xA10++0x3
line.long 0x00 "CTRL_CORE_DSP2_IRQ_68_69,"
hexmask.long.word 0x00 16.--24. 1. " DSP2_IRQ_69                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP2_IRQ_68                         ,"
group.long 0xA14++0x3
line.long 0x00 "CTRL_CORE_DSP2_IRQ_70_71,"
hexmask.long.word 0x00 16.--24. 1. " DSP2_IRQ_71                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP2_IRQ_70                         ,"
group.long 0xA18++0x3
line.long 0x00 "CTRL_CORE_DSP2_IRQ_72_73,"
hexmask.long.word 0x00 16.--24. 1. " DSP2_IRQ_73                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP2_IRQ_72                         ,"
group.long 0xA1C++0x3
line.long 0x00 "CTRL_CORE_DSP2_IRQ_74_75,"
hexmask.long.word 0x00 16.--24. 1. " DSP2_IRQ_75                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP2_IRQ_74                         ,"
group.long 0xA20++0x3
line.long 0x00 "CTRL_CORE_DSP2_IRQ_76_77,"
hexmask.long.word 0x00 16.--24. 1. " DSP2_IRQ_77                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP2_IRQ_76                         ,"
group.long 0xA24++0x3
line.long 0x00 "CTRL_CORE_DSP2_IRQ_78_79,"
hexmask.long.word 0x00 16.--24. 1. " DSP2_IRQ_79                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP2_IRQ_78                         ,"
group.long 0xA28++0x3
line.long 0x00 "CTRL_CORE_DSP2_IRQ_80_81,"
hexmask.long.word 0x00 16.--24. 1. " DSP2_IRQ_81                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP2_IRQ_80                         ,"
group.long 0xA2C++0x3
line.long 0x00 "CTRL_CORE_DSP2_IRQ_82_83,"
hexmask.long.word 0x00 16.--24. 1. " DSP2_IRQ_83                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP2_IRQ_82                         ,"
group.long 0xA30++0x3
line.long 0x00 "CTRL_CORE_DSP2_IRQ_84_85,"
hexmask.long.word 0x00 16.--24. 1. " DSP2_IRQ_85                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP2_IRQ_84                         ,"
group.long 0xA34++0x3
line.long 0x00 "CTRL_CORE_DSP2_IRQ_86_87,"
hexmask.long.word 0x00 16.--24. 1. " DSP2_IRQ_87                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP2_IRQ_86                         ,"
group.long 0xA38++0x3
line.long 0x00 "CTRL_CORE_DSP2_IRQ_88_89,"
hexmask.long.word 0x00 16.--24. 1. " DSP2_IRQ_89                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP2_IRQ_88                         ,"
group.long 0xA3C++0x3
line.long 0x00 "CTRL_CORE_DSP2_IRQ_90_91,"
hexmask.long.word 0x00 16.--24. 1. " DSP2_IRQ_91                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP2_IRQ_90                         ,"
group.long 0xA40++0x3
line.long 0x00 "CTRL_CORE_DSP2_IRQ_92_93,"
hexmask.long.word 0x00 16.--24. 1. " DSP2_IRQ_93                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP2_IRQ_92                         ,"
group.long 0xA44++0x3
line.long 0x00 "CTRL_CORE_DSP2_IRQ_94_95,"
hexmask.long.word 0x00 16.--24. 1. " DSP2_IRQ_95                           ,"
hexmask.long.word 0x00 0.--8. 1. "          DSP2_IRQ_94                         ,"
group.long 0xA48++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_4_7,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_7                             ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_4                           ,"
group.long 0xA4C++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_8_9,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_9                             ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_8                           ,"
group.long 0xA50++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_10_11,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_11                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_10                          ,NOTE: This bit field is not functional"
group.long 0xA54++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_12_13,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_13                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_12                          ,"
group.long 0xA58++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_14_15,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_15                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_14                          ,"
group.long 0xA5C++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_16_17,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_17                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_16                          ,"
group.long 0xA60++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_18_19,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_19                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_18                          ,"
group.long 0xA64++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_20_21,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_21                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_20                          ,"
group.long 0xA68++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_22_23,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_23                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_22                          ,"
group.long 0xA6C++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_24_25,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_25                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_24                          ,"
group.long 0xA70++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_26_27,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_27                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_26                          ,"
group.long 0xA74++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_28_29,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_29                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_28                          ,"
group.long 0xA78++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_30_31,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_31                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_30                          ,"
group.long 0xA7C++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_32_33,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_33                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_32                          ,"
group.long 0xA80++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_34_35,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_35                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_34                          ,"
group.long 0xA84++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_36_37,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_37                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_36                          ,"
group.long 0xA88++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_38_39,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_39                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_38                          ,"
group.long 0xA8C++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_40_41,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_41                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_40                          ,"
group.long 0xA90++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_42_43,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_43                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_42                          ,"
group.long 0xA94++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_44_45,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_45                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_44                          ,"
group.long 0xA98++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_46_47,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_47                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_46                          ,"
group.long 0xA9C++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_48_49,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_49                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_48                          ,"
group.long 0xAA0++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_50_51,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_51                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_50                          ,"
group.long 0xAA4++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_52_53,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_53                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_52                          ,"
group.long 0xAA8++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_54_55,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_55                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_54                          ,"
group.long 0xAAC++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_56_57,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_57                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_56                          ,"
group.long 0xAB0++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_58_59,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_59                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_58                          ,"
group.long 0xAB4++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_60_61,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_61                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_60                          ,"
group.long 0xAB8++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_62_63,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_63                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_62                          ,"
group.long 0xABC++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_64_65,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_65                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_64                          ,"
group.long 0xAC0++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_66_67,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_67                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_66                          ,"
group.long 0xAC4++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_68_69,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_69                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_68                          ,"
group.long 0xAC8++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_70_71,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_71                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_70                          ,"
group.long 0xACC++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_72_73,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_73                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_72                          ,"
group.long 0xAD0++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_74_75,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_75                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_74                          ,"
group.long 0xAD4++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_76_77,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_77                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_76                          ,"
group.long 0xAD8++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_78_79,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_79                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_78                          ,"
group.long 0xADC++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_80_81,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_81                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_80                          ,"
group.long 0xAE0++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_82_83,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_83                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_82                          ,"
group.long 0xAE4++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_84_85,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_85                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_84                          ,"
group.long 0xAE8++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_86_87,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_87                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_86                          ,"
group.long 0xAEC++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_88_89,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_89                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_88                          ,"
group.long 0xAF0++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_90_91,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_91                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_90                          ,"
group.long 0xAF4++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_92_93,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_93                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_92                          ,"
group.long 0xAF8++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_94_95,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_95                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_94                          ,"
group.long 0xAFC++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_96_97,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_97                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_96                          ,"
group.long 0xB00++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_98_99,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_99                            ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_98                          ,"
group.long 0xB04++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_100_101,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_101                           ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_100                         ,"
group.long 0xB08++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_102_103,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_103                           ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_102                         ,"
group.long 0xB0C++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_104_105,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_105                           ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_104                         ,"
group.long 0xB10++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_106_107,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_107                           ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_106                         ,"
group.long 0xB14++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_108_109,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_109                           ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_108                         ,"
group.long 0xB18++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_110_111,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_111                           ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_110                         ,"
group.long 0xB1C++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_112_113,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_113                           ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_112                         ,"
group.long 0xB20++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_114_115,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_115                           ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_114                         ,"
group.long 0xB24++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_116_117,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_117                           ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_116                         ,"
group.long 0xB28++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_118_119,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_119                           ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_118                         ,"
group.long 0xB2C++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_120_121,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_121                           ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_120                         ,"
group.long 0xB30++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_122_123,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_123                           ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_122                         ,"
group.long 0xB34++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_124_125,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_125                           ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_124                         ,"
group.long 0xB38++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_126_127,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_127                           ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_126                         ,"
group.long 0xB3C++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_128_129,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_129                           ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_128                         ,"
group.long 0xB40++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_130_133,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_133                           ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_130                         ,"
group.long 0xB44++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_134_135,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_135                           ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_134                         ,"
group.long 0xB48++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_136_137,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_137                           ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_136                         ,"
group.long 0xB4C++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_138_139,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_139                           ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_138                         ,"
group.long 0xB50++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_140_141,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_141                           ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_140                         ,"
group.long 0xB54++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_142_143,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_143                           ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_142                         ,"
group.long 0xB58++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_144_145,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_145                           ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_144                         ,"
group.long 0xB5C++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_146_147,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_147                           ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_146                         ,"
group.long 0xB60++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_148_149,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_149                           ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_148                         ,"
group.long 0xB64++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_150_151,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_151                           ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_150                         ,"
group.long 0xB68++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_152_153,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_153                           ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_152                         ,"
group.long 0xB6C++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_154_155,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_155                           ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_154                         ,"
group.long 0xB70++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_156_157,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_157                           ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_156                         ,"
group.long 0xB74++0x3
line.long 0x00 "CTRL_CORE_MPU_IRQ_158_159,"
hexmask.long.word 0x00 16.--24. 1. " MPU_IRQ_159                           ,"
hexmask.long.word 0x00 0.--8. 1. "          MPU_IRQ_158                         ,"
group.long 0xB78++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_0_1,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_1_IRQ_1               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_0_IRQ_0             ,"
group.long 0xB7C++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_2_3,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_3_IRQ_3               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_2_IRQ_2             ,"
group.long 0xB80++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_4_5,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_5_IRQ_5               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_4_IRQ_4             ,"
group.long 0xB84++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_6_7,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_7_IRQ_7               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_6_IRQ_6             ,"
group.long 0xB88++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_8_9,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_9_IRQ_9               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_8_IRQ_8             ,"
group.long 0xB8C++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_10_11,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_11_IRQ_11             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_10_IRQ_10           ,"
group.long 0xB90++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_12_13,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_13_IRQ_13             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_12_IRQ_12           ,"
group.long 0xB94++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_14_15,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_15_IRQ_15             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_14_IRQ_14           ,"
group.long 0xB98++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_16_17,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_17_IRQ_17             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_16_IRQ_16           ,"
group.long 0xB9C++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_18_19,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_19_IRQ_19             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_18_IRQ_18           ,"
group.long 0xBA0++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_20_21,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_21_IRQ_21             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_20_IRQ_20           ,"
group.long 0xBA4++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_22_23,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_23_IRQ_23             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_22_IRQ_22           ,"
group.long 0xBA8++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_24_25,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_25_IRQ_25             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_24_IRQ_24           ,"
group.long 0xBAC++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_26_27,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_27_IRQ_27             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_26_IRQ_26           ,"
group.long 0xBB0++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_28_29,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_29_IRQ_29             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_28_IRQ_28           ,"
group.long 0xBB4++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_30_31,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_31_IRQ_31             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_30_IRQ_30           ,"
group.long 0xBB8++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_32_33,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_33_IRQ_33             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_32_IRQ_32           ,"
group.long 0xBBC++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_34_35,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_35_IRQ_35             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_34_IRQ_34           ,"
group.long 0xBC0++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_36_37,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_37_IRQ_37             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_36_IRQ_36           ,"
group.long 0xBC4++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_38_39,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_39_IRQ_39             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_38_IRQ_38           ,"
group.long 0xBC8++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_40_41,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_41_IRQ_41             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_40_IRQ_40           ,"
group.long 0xBCC++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_42_43,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_43_IRQ_43             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_42_IRQ_42           ,"
group.long 0xBD0++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_44_45,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_45_IRQ_45             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_44_IRQ_44           ,"
group.long 0xBD4++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_46_47,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_47_IRQ_47             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_46_IRQ_46           ,"
group.long 0xBD8++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_48_49,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_49_IRQ_49             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_48_IRQ_48           ,"
group.long 0xBDC++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_50_51,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_51_IRQ_51             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_50_IRQ_50           ,"
group.long 0xBE0++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_52_53,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_53_IRQ_53             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_52_IRQ_52           ,"
group.long 0xBE4++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_54_55,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_55_IRQ_55             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_54_IRQ_54           ,"
group.long 0xBE8++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_56_57,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_57_IRQ_57             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_56_IRQ_56           ,"
group.long 0xBEC++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_58_59,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_59_IRQ_59             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_58_IRQ_58           ,"
group.long 0xBF0++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_60_61,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_61_IRQ_61             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_60_IRQ_60           ,"
group.long 0xBF4++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_62_63,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_63_IRQ_63             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_62_IRQ_62           ,"
group.long 0xBF8++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_64_65,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_65_IRQ_65             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_64_IRQ_64           ,"
group.long 0xBFC++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_66_67,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_67_IRQ_67             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_66_IRQ_66           ,"
group.long 0xC00++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_68_69,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_69_IRQ_69             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_68_IRQ_68           ,"
group.long 0xC04++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_70_71,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_71_IRQ_71             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_70_IRQ_70           ,"
group.long 0xC08++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_72_73,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_73_IRQ_73             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_72_IRQ_72           ,"
group.long 0xC0C++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_74_75,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_75_IRQ_75             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_74_IRQ_74           ,"
group.long 0xC10++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_76_77,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_77_IRQ_77             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_76_IRQ_76           ,"
group.long 0xC14++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_78_79,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_79_IRQ_79             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_78_IRQ_78           ,"
group.long 0xC18++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_80_81,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_81_IRQ_81             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_80_IRQ_80           ,"
group.long 0xC1C++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_82_83,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_83_IRQ_83             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_82_IRQ_82           ,"
group.long 0xC20++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_84_85,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_85_IRQ_85             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_84_IRQ_84           ,"
group.long 0xC24++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_86_87,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_87_IRQ_87             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_86_IRQ_86           ,"
group.long 0xC28++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_88_89,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_89_IRQ_89             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_88_IRQ_88           ,"
group.long 0xC2C++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_90_91,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_91_IRQ_91             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_90_IRQ_90           ,"
group.long 0xC30++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_92_93,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_93_IRQ_93             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_92_IRQ_92           ,"
group.long 0xC34++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_94_95,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_95_IRQ_95             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_94_IRQ_94           ,"
group.long 0xC38++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_96_97,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_97_IRQ_97             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_96_IRQ_96           ,"
group.long 0xC3C++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_98_99,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_99_IRQ_99             ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_98_IRQ_98           ,"
group.long 0xC40++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_100_101,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_101_IRQ_101           ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_100_IRQ_100         ,"
group.long 0xC44++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_102_103,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_103_IRQ_103           ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_102_IRQ_102         ,"
group.long 0xC48++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_104_105,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_105_IRQ_105           ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_104_IRQ_104         ,"
group.long 0xC4C++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_106_107,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_107_IRQ_107           ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_106_IRQ_106         ,"
group.long 0xC50++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_108_109,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_109_IRQ_109           ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_108_IRQ_108         ,"
group.long 0xC54++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_110_111,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_111_IRQ_111           ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_110_IRQ_110         ,"
group.long 0xC58++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_112_113,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_113_IRQ_113           ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_112_IRQ_112         ,"
group.long 0xC5C++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_114_115,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_115_IRQ_115           ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_114_IRQ_114         ,"
group.long 0xC60++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_116_117,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_117_IRQ_117           ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_116_IRQ_116         ,"
group.long 0xC64++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_118_119,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_119_IRQ_119           ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_118_IRQ_118         ,"
group.long 0xC68++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_120_121,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_121_IRQ_121           ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_120_IRQ_120         ,"
group.long 0xC6C++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_122_123,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_123_IRQ_123           ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_122_IRQ_122         ,"
group.long 0xC70++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_124_125,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_SYSTEM_DREQ_125_IRQ_125           ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_SYSTEM_DREQ_124_IRQ_124         ,"
group.long 0xC74++0x3
line.long 0x00 "CTRL_CORE_DMA_SYSTEM_DREQ_126_127,"
hexmask.long.byte 0x00 0.--7. 1. " DMA_SYSTEM_DREQ_126_IRQ_126           ,"
group.long 0xC78++0x3
line.long 0x00 "CTRL_CORE_DMA_EDMA_DREQ_0_1,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_EDMA_DREQ_1_IRQ_1                 ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_EDMA_DREQ_0_IRQ_0               ,"
group.long 0xC7C++0x3
line.long 0x00 "CTRL_CORE_DMA_EDMA_DREQ_2_3,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_EDMA_DREQ_3_IRQ_3                 ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_EDMA_DREQ_2_IRQ_2               ,"
group.long 0xC80++0x3
line.long 0x00 "CTRL_CORE_DMA_EDMA_DREQ_4_5,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_EDMA_DREQ_5_IRQ_5                 ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_EDMA_DREQ_4_IRQ_4               ,"
group.long 0xC84++0x3
line.long 0x00 "CTRL_CORE_DMA_EDMA_DREQ_6_7,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_EDMA_DREQ_7_IRQ_7                 ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_EDMA_DREQ_6_IRQ_6               ,"
group.long 0xC88++0x3
line.long 0x00 "CTRL_CORE_DMA_EDMA_DREQ_8_9,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_EDMA_DREQ_9_IRQ_9                 ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_EDMA_DREQ_8_IRQ_8               ,"
group.long 0xC8C++0x3
line.long 0x00 "CTRL_CORE_DMA_EDMA_DREQ_10_11,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_EDMA_DREQ_11_IRQ_11               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_EDMA_DREQ_10_IRQ_10             ,"
group.long 0xC90++0x3
line.long 0x00 "CTRL_CORE_DMA_EDMA_DREQ_12_13,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_EDMA_DREQ_13_IRQ_13               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_EDMA_DREQ_12_IRQ_12             ,"
group.long 0xC94++0x3
line.long 0x00 "CTRL_CORE_DMA_EDMA_DREQ_14_15,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_EDMA_DREQ_15_IRQ_15               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_EDMA_DREQ_14_IRQ_14             ,"
group.long 0xC98++0x3
line.long 0x00 "CTRL_CORE_DMA_EDMA_DREQ_16_17,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_EDMA_DREQ_17_IRQ_17               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_EDMA_DREQ_16_IRQ_16             ,"
group.long 0xC9C++0x3
line.long 0x00 "CTRL_CORE_DMA_EDMA_DREQ_18_19,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_EDMA_DREQ_19_IRQ_19               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_EDMA_DREQ_18_IRQ_18             ,"
group.long 0xCA0++0x3
line.long 0x00 "CTRL_CORE_DMA_EDMA_DREQ_20_21,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_EDMA_DREQ_21_IRQ_21               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_EDMA_DREQ_20_IRQ_20             ,"
group.long 0xCA4++0x3
line.long 0x00 "CTRL_CORE_DMA_EDMA_DREQ_22_23,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_EDMA_DREQ_23_IRQ_23               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_EDMA_DREQ_22_IRQ_22             ,"
group.long 0xCA8++0x3
line.long 0x00 "CTRL_CORE_DMA_EDMA_DREQ_24_25,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_EDMA_DREQ_25_IRQ_25               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_EDMA_DREQ_24_IRQ_24             ,"
group.long 0xCAC++0x3
line.long 0x00 "CTRL_CORE_DMA_EDMA_DREQ_26_27,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_EDMA_DREQ_27_IRQ_27               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_EDMA_DREQ_26_IRQ_26             ,"
group.long 0xCB0++0x3
line.long 0x00 "CTRL_CORE_DMA_EDMA_DREQ_28_29,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_EDMA_DREQ_29_IRQ_29               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_EDMA_DREQ_28_IRQ_28             ,"
group.long 0xCB4++0x3
line.long 0x00 "CTRL_CORE_DMA_EDMA_DREQ_30_31,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_EDMA_DREQ_31_IRQ_31               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_EDMA_DREQ_30_IRQ_30             ,"
group.long 0xCB8++0x3
line.long 0x00 "CTRL_CORE_DMA_EDMA_DREQ_32_33,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_EDMA_DREQ_33_IRQ_33               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_EDMA_DREQ_32_IRQ_32             ,"
group.long 0xCBC++0x3
line.long 0x00 "CTRL_CORE_DMA_EDMA_DREQ_34_35,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_EDMA_DREQ_35_IRQ_35               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_EDMA_DREQ_34_IRQ_34             ,"
group.long 0xCC0++0x3
line.long 0x00 "CTRL_CORE_DMA_EDMA_DREQ_36_37,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_EDMA_DREQ_37_IRQ_37               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_EDMA_DREQ_36_IRQ_36             ,"
group.long 0xCC4++0x3
line.long 0x00 "CTRL_CORE_DMA_EDMA_DREQ_38_39,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_EDMA_DREQ_39_IRQ_39               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_EDMA_DREQ_38_IRQ_38             ,"
group.long 0xCC8++0x3
line.long 0x00 "CTRL_CORE_DMA_EDMA_DREQ_40_41,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_EDMA_DREQ_41_IRQ_41               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_EDMA_DREQ_40_IRQ_40             ,"
group.long 0xCCC++0x3
line.long 0x00 "CTRL_CORE_DMA_EDMA_DREQ_42_43,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_EDMA_DREQ_43_IRQ_43               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_EDMA_DREQ_42_IRQ_42             ,"
group.long 0xCD0++0x3
line.long 0x00 "CTRL_CORE_DMA_EDMA_DREQ_44_45,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_EDMA_DREQ_45_IRQ_45               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_EDMA_DREQ_44_IRQ_44             ,"
group.long 0xCD4++0x3
line.long 0x00 "CTRL_CORE_DMA_EDMA_DREQ_46_47,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_EDMA_DREQ_47_IRQ_47               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_EDMA_DREQ_46_IRQ_46             ,"
group.long 0xCD8++0x3
line.long 0x00 "CTRL_CORE_DMA_EDMA_DREQ_48_49,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_EDMA_DREQ_49_IRQ_49               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_EDMA_DREQ_48_IRQ_48             ,"
group.long 0xCDC++0x3
line.long 0x00 "CTRL_CORE_DMA_EDMA_DREQ_50_51,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_EDMA_DREQ_51_IRQ_51               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_EDMA_DREQ_50_IRQ_50             ,"
group.long 0xCE0++0x3
line.long 0x00 "CTRL_CORE_DMA_EDMA_DREQ_52_53,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_EDMA_DREQ_53_IRQ_53               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_EDMA_DREQ_52_IRQ_52             ,"
group.long 0xCE4++0x3
line.long 0x00 "CTRL_CORE_DMA_EDMA_DREQ_54_55,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_EDMA_DREQ_55_IRQ_55               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_EDMA_DREQ_54_IRQ_54             ,"
group.long 0xCE8++0x3
line.long 0x00 "CTRL_CORE_DMA_EDMA_DREQ_56_57,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_EDMA_DREQ_57_IRQ_57               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_EDMA_DREQ_56_IRQ_56             ,"
group.long 0xCEC++0x3
line.long 0x00 "CTRL_CORE_DMA_EDMA_DREQ_58_59,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_EDMA_DREQ_59_IRQ_59               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_EDMA_DREQ_58_IRQ_58             ,"
group.long 0xCF0++0x3
line.long 0x00 "CTRL_CORE_DMA_EDMA_DREQ_60_61,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_EDMA_DREQ_61_IRQ_61               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_EDMA_DREQ_60_IRQ_60             ,"
group.long 0xCF4++0x3
line.long 0x00 "CTRL_CORE_DMA_EDMA_DREQ_62_63,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_EDMA_DREQ_63_IRQ_63               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_EDMA_DREQ_62_IRQ_62             ,"
group.long 0xCF8++0x3
line.long 0x00 "CTRL_CORE_DMA_DSP1_DREQ_0_1,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_DSP1_DREQ_1_IRQ_1                 ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_DSP1_DREQ_0_IRQ_0               ,"
group.long 0xCFC++0x3
line.long 0x00 "CTRL_CORE_DMA_DSP1_DREQ_2_3,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_DSP1_DREQ_3_IRQ_3                 ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_DSP1_DREQ_2_IRQ_2               ,"
group.long 0xD00++0x3
line.long 0x00 "CTRL_CORE_DMA_DSP1_DREQ_4_5,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_DSP1_DREQ_5_IRQ_5                 ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_DSP1_DREQ_4_IRQ_4               ,"
group.long 0xD04++0x3
line.long 0x00 "CTRL_CORE_DMA_DSP1_DREQ_6_7,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_DSP1_DREQ_7_IRQ_7                 ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_DSP1_DREQ_6_IRQ_6               ,"
group.long 0xD08++0x3
line.long 0x00 "CTRL_CORE_DMA_DSP1_DREQ_8_9,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_DSP1_DREQ_9_IRQ_9                 ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_DSP1_DREQ_8_IRQ_8               ,"
group.long 0xD0C++0x3
line.long 0x00 "CTRL_CORE_DMA_DSP1_DREQ_10_11,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_DSP1_DREQ_11_IRQ_11               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_DSP1_DREQ_10_IRQ_10             ,"
group.long 0xD10++0x3
line.long 0x00 "CTRL_CORE_DMA_DSP1_DREQ_12_13,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_DSP1_DREQ_13_IRQ_13               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_DSP1_DREQ_12_IRQ_12             ,"
group.long 0xD14++0x3
line.long 0x00 "CTRL_CORE_DMA_DSP1_DREQ_14_15,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_DSP1_DREQ_15_IRQ_15               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_DSP1_DREQ_14_IRQ_14             ,"
group.long 0xD18++0x3
line.long 0x00 "CTRL_CORE_DMA_DSP1_DREQ_16_17,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_DSP1_DREQ_17_IRQ_17               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_DSP1_DREQ_16_IRQ_16             ,"
group.long 0xD1C++0x3
line.long 0x00 "CTRL_CORE_DMA_DSP1_DREQ_18_19,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_DSP1_DREQ_19_IRQ_19               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_DSP1_DREQ_18_IRQ_18             ,"
group.long 0xD20++0x3
line.long 0x00 "CTRL_CORE_DMA_DSP2_DREQ_0_1,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_DSP2_DREQ_1_IRQ_1                 ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_DSP2_DREQ_0_IRQ_0               ,"
group.long 0xD24++0x3
line.long 0x00 "CTRL_CORE_DMA_DSP2_DREQ_2_3,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_DSP2_DREQ_3_IRQ_3                 ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_DSP2_DREQ_2_IRQ_2               ,"
group.long 0xD28++0x3
line.long 0x00 "CTRL_CORE_DMA_DSP2_DREQ_4_5,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_DSP2_DREQ_5_IRQ_5                 ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_DSP2_DREQ_4_IRQ_4               ,"
group.long 0xD2C++0x3
line.long 0x00 "CTRL_CORE_DMA_DSP2_DREQ_6_7,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_DSP2_DREQ_7_IRQ_7                 ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_DSP2_DREQ_6_IRQ_6               ,"
group.long 0xD30++0x3
line.long 0x00 "CTRL_CORE_DMA_DSP2_DREQ_8_9,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_DSP2_DREQ_9_IRQ_9                 ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_DSP2_DREQ_8_IRQ_8               ,"
group.long 0xD34++0x3
line.long 0x00 "CTRL_CORE_DMA_DSP2_DREQ_10_11,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_DSP2_DREQ_11_IRQ_11               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_DSP2_DREQ_10_IRQ_10             ,"
group.long 0xD38++0x3
line.long 0x00 "CTRL_CORE_DMA_DSP2_DREQ_12_13,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_DSP2_DREQ_13_IRQ_13               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_DSP2_DREQ_12_IRQ_12             ,"
group.long 0xD3C++0x3
line.long 0x00 "CTRL_CORE_DMA_DSP2_DREQ_14_15,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_DSP2_DREQ_15_IRQ_15               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_DSP2_DREQ_14_IRQ_14             ,"
group.long 0xD40++0x3
line.long 0x00 "CTRL_CORE_DMA_DSP2_DREQ_16_17,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_DSP2_DREQ_17_IRQ_17               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_DSP2_DREQ_16_IRQ_16             ,"
group.long 0xD44++0x3
line.long 0x00 "CTRL_CORE_DMA_DSP2_DREQ_18_19,"
hexmask.long.byte 0x00 16.--23. 1. " DMA_DSP2_DREQ_19_IRQ_19               ,"
hexmask.long.byte 0x00 0.--7. 1. "            DMA_DSP2_DREQ_18_IRQ_18             ,"
group.long 0xD4C++0x3
line.long 0x00 "CTRL_CORE_OVS_DMARQ_IO_MUX,"
hexmask.long.byte 0x00 8.--15. 1. " OVS_DMARQ_IO_MUX_2                    ,"
hexmask.long.byte 0x00 0.--7. 1. "            OVS_DMARQ_IO_MUX_1                  ,"
group.long 0xD50++0x3
line.long 0x00 "CTRL_CORE_OVS_IRQ_IO_MUX,"
hexmask.long.word 0x00 9.--17. 1. " OVS_IRQ_IO_MUX_2                      ,"
hexmask.long.word 0x00 0.--8. 1. "          OVS_IRQ_IO_MUX_1                    ,"
group.long 0xE00++0x3
line.long 0x00 "CTRL_CORE_CONTROL_PBIAS,PBIASLITE control"
bitfld.long 0x00 27. " SDCARD_BIAS_PWRDNZ                    ,PWRDNZ control to SDCARD BIAS 0x0 = This signal is used to protect SDCARD BIAS when VDDS is not stable 0x1 = SW keep this bit to 1'b1 after VDDS stabilizing" "0,1"
bitfld.long 0x00 26. "             SDCARD_IO_PWRDNZ                    ,PWRDNZ control to SDCARD IO 0x0 = This signal is used to protect SDCARD IOs when VDDS is not stable 0x1 = SW keep this bit to 1'b1 after VDDS stabilizing" "0,1"
bitfld.long 0x00 25. "           SDCARD_BIAS_HIZ_MODE                 ,HIZ_MODE from SDCARD PBIAS 0x0 = PBIAS in normal operation mode 0x1 = PBIAS output is in high impedance state" "0,1"
textline "                                                          "
bitfld.long 0x00 24. " SDCARD_BIAS_SUPPLY_HI_OUT             ,SUPPLY_HI_OUT from SDCARD PBIAS 0x0 = VDDS = 1.8V 0x1 = VDDS = 3.3V" "0,1"
bitfld.long 0x00 23. "             SDCARD_BIAS_VMODE_ERROR             ,VMODE ERROR from SDCARD PBIAS 0x0 = VMODE level is same as SUPPLY_HI_OUT 0x1 = VMODE level is not same as SUPPLY_HI_OUT" "0,1"
bitfld.long 0x00 21. "           SDCARD_BIAS_VMODE                    ,VMODE control to SDCARD PBIAS 0x0 = VDDS = 1.8V 0x1 = VDDS = 3.3V" "0,1"
group.long 0xE0C++0x3
line.long 0x00 "CTRL_CORE_CONTROL_HDMI_TX_PHY,HDMI TX PHY control"
bitfld.long 0x00 30. " HDMITXPHY_TXVALID                     ,0x1= Valid data on the HDMI_TXPHY input data interface , sampled on the rising edge of TMDSCLK" "0,1"
bitfld.long 0x00 29. "             HDMITXPHY_ENBYPASSCLK               ,0x1 = Enables the HFBYPASSCLK to be used in place of the HFBITCLK" "0,1"
bitfld.long 0x00 28. "           HDMITXPHY_PD_PULLUPDET               ,0x0 = Set this bit to 0x0 if RX connection is required to be detected, even when HDMI_TXPHY is powered down 0x1 = Disables the low power RX detection functionality" "0,1"
group.long 0xE1C++0x3
line.long 0x00 "CTRL_CORE_CONTROL_USB2PHYCORE,This register is related to the USB2_PHY1."
bitfld.long 0x00 31. " USB2PHY_AUTORESUME_EN                 ,Auto resume enable 0x0 = disable autoresume 0x1 = enable autoresume" "0,1"
bitfld.long 0x00 30. "             USB2PHY_DISCHGDET                   ,Disable charger detect 0x0 = charger detect function enabled 0x1 = charger detect function disabled" "0,1"
bitfld.long 0x00 29. "           USB2PHY_GPIOMODE                     ,GPIO mode 0x0 = USB mode enabled 0x1 = GPIO mode enabled" "0,1"
textline "                                                          "
bitfld.long 0x00 28. " USB2PHY_CHG_DET_EXT_CTL               ,Charge detect external control 0x0 = charger detect internal state machine used 0x1 = charge detect statemachine is bypassed" "0,1"
bitfld.long 0x00 27. "             USB2PHY_RDM_PD_CHGDET_EN            ,DM Pull down control 0x0 = PD disabled 0x1 = PD enabled" "0,1"
bitfld.long 0x00 26. "           USB2PHY_RDP_PU_CHGDET_EN             ,DP Pull up control 0x0 = PU disabled 0x1 = PU enabled" "0,1"
textline "                                                          "
bitfld.long 0x00 25. " USB2PHY_CHG_VSRC_EN                   ,VSRC enable on DP line:Host charger case 0x0 = disable VSRC drive on DP 0x1 = drives VSRC 600mV on DP line" "0,1"
bitfld.long 0x00 24. "             USB2PHY_CHG_ISINK_EN                ,ISINK enable on DM line:Host charger case 0x0 = disable the isink on DM 0x1 = enables the ISINK (100uA) on DM line" "0,1"
bitfld.long 0x00 21.--23. "           USB2PHY_CHG_DET_STATUS               ,Status of charger detection 0x0 = Wait state 0x1 = No contact 0x2 = PS/2 0x3 = Unknown error 0x4 = Dedicated charger 0x5 = HOST charger 0x6 = PC 0x7 = Interrupt" "0,1,2,3,4,5,6,7"
textline "                                                          "
bitfld.long 0x00 20. " USB2PHY_CHG_DET_DM_COMP               ,Output of the comparator on DM during the resistor host detect protocol 0x0 = DM line is below 0.75V to 0.95V 0x1 = DM line is above 0.75V to 0.95V" "0,1"
bitfld.long 0x00 19. "             USB2PHY_CHG_DET_DP_COMP             ,Output of the comparator on DP during the resistor host detect protocol 0x0 = DP line is below 0.75V to 0.95V 0x1 = DP line is above 0.75V to 0.95V" "0,1"
bitfld.long 0x00 18. "           USB2PHY_DATADET                      ,Output of the charger detect comparator 0x0 = DM line is below 0.25V to 0.4V 0x1 = DM line is above 0.25V to 0.4V" "0,1"
textline "                                                          "
bitfld.long 0x00 17. " USB2PHY_SINKONDP                      ,When '1' current sink is connected to DP instead of DM 0x0 = Default value 0x1 = enables the ISINK on DP instead of DM" "0,1"
bitfld.long 0x00 16. "             USB2PHY_SRCONDM                     ,When '1' voltage source is connected to DP instead of DM 0x0 = Default value 0x1 = enable the VSRC on DM instead of DP" "0,1"
bitfld.long 0x00 15. "           USB2PHY_RESTARTCHGDET                ,restartchgdet = '1' for 1 msec cause the CD_START to reset 0x0 = Default value 0x1 = a high pulse of 1 msec causes the charger detect to restart on negative edge of restartchgdet" "0,1"
textline "                                                          "
bitfld.long 0x00 14. " USB2PHY_CHGDETDONE                    ,Status indicates that charger detection protocol is over 0x0 = charger detection protocol is not over 0x1 = charger detection protocol is over" "0,1"
bitfld.long 0x00 13. "             USB2PHY_CHGDETECTED                 ,Output of the charger detection protocol 0x0 = charger not detected 0x1 = charger detected" "0,1"
bitfld.long 0x00 12. "           USB2PHY_MCPCPUEN                     ,MCPC Pull up enable 0x0 = disable the MCPC pull up 0x1 = enable the 4.7K to10K pull up on receive line DP when datapolarityn is 0 and DM when datapolarityn is 1" "0,1"
textline "                                                          "
bitfld.long 0x00 11. " USB2PHY_MCPCMODEEN                    ,MCPC Mode enable 0x0 = disable MCPC mode 0x1 = enable MCPC mode" "0,1"
bitfld.long 0x00 10. "             USB2PHY_RESETDONEMCLK               ,OCP reset status 0x0 = OCP domain is in reset 0x1 = OCP domain is out of reset" "0,1"
bitfld.long 0x00 9. "           USB2PHY_UTMIRESETDONE                ,UTMI FSM reset status 0x0 = UTMI FSMs are in reset 0x1 = UTMI FSMs are out of reset" "0,1"
textline "                                                          "
bitfld.long 0x00 7. " USB2PHY_DATAPOLARITYN                 ,Data polarity 0x0 = DP functionality is on DP and DM funcationality is on DM 0x1 = DP functionality is on DM and DM functionality is on DP" "0,1"
bitfld.long 0x00 6. "             USBDPLL_FREQLOCK                    ,Status from USB DPLL" "0,1"
bitfld.long 0x00 5. "           USB2PHY_RESETDONETCLK                ,resetdonetclk status from USB2PHY" "0,1"
group.long 0xE20++0x3
line.long 0x00 "CTRL_CORE_CONTROL_HDMI_1,HDMI pads control 1"
bitfld.long 0x00 31. " HDMI_DDC_SDA_GLFENB                   ,Active_high glitch free operation enable pin for hdmi_ddc_sda receiver - DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 30. "       HDMI_DDC_SDA_PULLUPRESX             ,Active_low internal pull_up resistor enabled for hdmi_ddc_sda - ENABLE. - DISABLE." "ENABLE,DISABLE"
bitfld.long 0x00 29. "     HDMI_DDC_SCL_GLFENB                  ,Active_high glitch free operation enable pin for hdmi_ddc_scl receiver - DISABLE. - ENABLE." "DISABLE,ENABLE"
textline "                                                          "
bitfld.long 0x00 28. " HDMI_DDC_SCL_PULLUPRESX               ,Active_low internal pull_up resistor enabled for hdmi_ddc_scl - ENABLE. - DISABLE." "ENABLE,DISABLE"
bitfld.long 0x00 27. "       HDMI_DDC_SDA_HSMODE                 ,Active-high selection for I2C High-Speed mode - DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 26. "     HDMI_DDC_SCL_HSMODE                  ,Active-high selection for I2C High-Speed mode - DISABLE. - ENABLE." "DISABLE,ENABLE"
group.long 0xE30++0x3
line.long 0x00 "CTRL_CORE_CONTROL_DDRCACH1_0,ddrcaCH1 control"
bitfld.long 0x00 29.--31. " DDRCH1_PART0_I                        ,PART0 Impedence control I[2:0] 0x0: Imp80 0x1: Imp60 0x2: Imp48 0x3: Imp40 0x4: Imp34 0x5: Reserved 0x6: Reserved 0x7: Reserved" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 26.--28. "             DDRCH1_PART0_SR                     ,PART0 Slew Rate control SR[2:0]. All 8 values are valid. 0x0: Fastest .... 0x7: Slowest" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--25. "           DDRCH1_PART0_WD                      ,PART0 Weak driver control WD[1:0] -For single-ended operation: 0x0: Pull logic is disabled 0x1: Pull-up selected 0x2: Pull-down selected 0x3: Maintain the previous output value -For differential pair ope..." "0,1,2,3"
textline "                                                          "
bitfld.long 0x00 21.--23. " DDRCH1_PART5A_I                       ,PART5A Impedence control I[2:0] 0x0: Imp80 0x1: Imp60 0x2: Imp48 0x3: Imp40 0x4: Imp34 0x5: Reserved 0x6: Reserved 0x7: Reserved" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 18.--20. "             DDRCH1_PART5A_SR                    ,PART5A Slew Rate control SR[2:0]. All 8 values are valid. 0x0: Fastest .... 0x7: Slowest" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 16.--17. "           DDRCH1_PART5A_WD                     ,PART5A Weak driver control WD[1:0] -For single-ended operation: 0x0: Pull logic is disabled 0x1: Pull-up selected 0x2: Pull-down selected 0x3: Maintain the previous output value -For differential pair op..." "0,1,2,3"
textline "                                                          "
bitfld.long 0x00 13.--15. " DDRCH1_PART5B_I                       ,PART5B Impedence control I[2:0] 0x0: Imp80 0x1: Imp60 0x2: Imp48 0x3: Imp40 0x4: Imp34 0x5: Reserved 0x6: Reserved 0x7: Reserved" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 10.--12. "             DDRCH1_PART5B_SR                    ,PART5B Slew Rate control SR[2:0]. All 8 values are valid. 0x0: Fastest .... 0x7: Slowest" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--9. "           DDRCH1_PART5B_WD                     ,PART5B Weak driver control WD[1:0] -For single-ended operation: 0x0: Pull logic is disabled 0x1: Pull-up selected 0x2: Pull-down selected 0x3: Maintain the previous output value -For differential pair op..." "0,1,2,3"
textline "                                                          "
bitfld.long 0x00 5.--7. " DDRCH1_PART6_I                        ,PART6 Impedence control I[2:0] 0x0: Imp80 0x1: Imp60 0x2: Imp48 0x3: Imp40 0x4: Imp34 0x5: Reserved 0x6: Reserved 0x7: Reserved" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 2.--4. "             DDRCH1_PART6_SR                     ,PART6 Slew Rate control SR[2:0]. All 8 values are valid. 0x0: Fastest .... 0x7: Slowest" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--1. "           DDRCH1_PART6_WD                      ,PART6 Weak driver control WD[1:0] -For single-ended operation: 0x0: Pull logic is disabled 0x1: Pull-up selected 0x2: Pull-down selected 0x3: Maintain the previous output value -For differential pair ope..." "0,1,2,3"
group.long 0xE34++0x3
line.long 0x00 "CTRL_CORE_CONTROL_DDRCACH2_0,ddrcaCH2 control"
bitfld.long 0x00 29.--31. " DDRCH2_PART0_I                        ,PART0 Impedence control I[2:0] 0x0: Imp80 0x1: Imp60 0x2: Imp48 0x3: Imp40 0x4: Imp34 0x5: Reserved 0x6: Reserved 0x7: Reserved" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 26.--28. "             DDRCH2_PART0_SR                     ,PART0 Slew Rate control SR[2:0]. All 8 values are valid. 0x0: Fastest .... 0x7: Slowest" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--25. "           DDRCH2_PART0_WD                      ,PART0 Weak driver control WD[1:0] -For single-ended operation: 0x0: Pull logic is disabled 0x1: Pull-up selected 0x2: Pull-down selected 0x3: Maintain the previous output value -For differential pair ope..." "0,1,2,3"
textline "                                                          "
bitfld.long 0x00 21.--23. " DDRCH2_PART5A_I                       ,PART5A Impedence control I[2:0] 0x0: Imp80 0x1: Imp60 0x2: Imp48 0x3: Imp40 0x4: Imp34 0x5: Reserved 0x6: Reserved 0x7: Reserved" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 18.--20. "             DDRCH2_PART5A_SR                    ,PART5A Slew Rate control SR[2:0]. All 8 values are valid. 0x0: Fastest .... 0x7: Slowest" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 16.--17. "           DDRCH2_PART5A_WD                     ,PART5A Weak driver control WD[1:0] -For single-ended operation: 0x0: Pull logic is disabled 0x1: Pull-up selected 0x2: Pull-down selected 0x3: Maintain the previous output value -For differential pair op..." "0,1,2,3"
textline "                                                          "
bitfld.long 0x00 13.--15. " DDRCH2_PART5B_I                       ,PART5B Impedence control I[2:0] 0x0: Imp80 0x1: Imp60 0x2: Imp48 0x3: Imp40 0x4: Imp34 0x5: Reserved 0x6: Reserved 0x7: Reserved" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 10.--12. "             DDRCH2_PART5B_SR                    ,PART5B Slew Rate control SR[2:0]. All 8 values are valid. 0x0: Fastest .... 0x7: Slowest" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--9. "           DDRCH2_PART5B_WD                     ,PART5B Weak driver control WD[1:0] -For single-ended operation: 0x0: Pull logic is disabled 0x1: Pull-up selected 0x2: Pull-down selected 0x3: Maintain the previous output value -For differential pair op..." "0,1,2,3"
textline "                                                          "
bitfld.long 0x00 5.--7. " DDRCH2_PART6_I                        ,PART6 Impedence control I[2:0] 0x0: Imp80 0x1: Imp60 0x2: Imp48 0x3: Imp40 0x4: Imp34 0x5: Reserved 0x6: Reserved 0x7: Reserved" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 2.--4. "             DDRCH2_PART6_SR                     ,PART6 Slew Rate control SR[2:0]. All 8 values are valid. 0x0: Fastest .... 0x7: Slowest" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--1. "           DDRCH2_PART6_WD                      ,PART6 Weak driver control WD[1:0] -For single-ended operation: 0x0: Pull logic is disabled 0x1: Pull-up selected 0x2: Pull-down selected 0x3: Maintain the previous output value -For differential pair ope..." "0,1,2,3"
group.long 0xE38++0x3
line.long 0x00 "CTRL_CORE_CONTROL_DDRCH1_0,DDRCH1 control 0"
bitfld.long 0x00 29.--31. " DDRCH1_PART1A_I                       ,PART1A Impedence control I[2:0] 0x0: Imp80 0x1: Imp60 0x2: Imp48 0x3: Imp40 0x4: Imp34 0x5: Reserved 0x6: Reserved 0x7: Reserved" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 26.--28. "             DDRCH1_PART1A_SR                    ,PART1A Slew Rate control SR[2:0]. All 8 values are valid. 0x0: Fastest .... 0x7: Slowest" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--25. "           DDRCH1_PART1A_WD                     ,PART1A Weak driver control WD[1:0] -For single-ended operation: 0x0: Pull logic is disabled 0x1: Pull-up selected 0x2: Pull-down selected 0x3: Maintain the previous output value -For differential pair op..." "0,1,2,3"
textline "                                                          "
bitfld.long 0x00 21.--23. " DDRCH1_PART1B_I                       ,PART1B Impedence control I[2:0] 0x0: Imp80 0x1: Imp60 0x2: Imp48 0x3: Imp40 0x4: Imp34 0x5: Reserved 0x6: Reserved 0x7: Reserved" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 18.--20. "             DDRCH1_PART1B_SR                    ,PART1B Slew Rate control SR[2:0]. All 8 values are valid. 0x0: Fastest .... 0x7: Slowest" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 16.--17. "           DDRCH1_PART1B_WD                     ,PART1B Weak driver control WD[1:0] -For single-ended operation: 0x0: Pull logic is disabled 0x1: Pull-up selected 0x2: Pull-down selected 0x3: Maintain the previous output value -For differential pair op..." "0,1,2,3"
textline "                                                          "
bitfld.long 0x00 13.--15. " DDRCH1_PART2A_I                       ,PART2A Impedence control I[2:0] 0x0: Imp80 0x1: Imp60 0x2: Imp48 0x3: Imp40 0x4: Imp34 0x5: Reserved 0x6: Reserved 0x7: Reserved" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 10.--12. "             DDRCH1_PART2A_SR                    ,PART2A Slew Rate control SR[2:0]. All 8 values are valid. 0x0: Fastest .... 0x7: Slowest" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--9. "           DDRCH1_PART2A_WD                     ,PART2A Weak driver control WD[1:0] -For single-ended operation: 0x0: Pull logic is disabled 0x1: Pull-up selected 0x2: Pull-down selected 0x3: Maintain the previous output value -For differential pair op..." "0,1,2,3"
textline "                                                          "
bitfld.long 0x00 5.--7. " DDRCH1_PART2B_I                       ,PART2B Impedence control I[2:0] 0x0: Imp80 0x1: Imp60 0x2: Imp48 0x3: Imp40 0x4: Imp34 0x5: Reserved 0x6: Reserved 0x7: Reserved" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 2.--4. "             DDRCH1_PART2B_SR                    ,PART2B Slew Rate control SR[2:0]. All 8 values are valid. 0x0: Fastest .... 0x7: Slowest" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--1. "           DDRCH1_PART2B_WD                     ,PART2B Weak driver control WD[1:0] -For single-ended operation: 0x0: Pull logic is disabled 0x1: Pull-up selected 0x2: Pull-down selected 0x3: Maintain the previous output value -For differential pair op..." "0,1,2,3"
group.long 0xE3C++0x3
line.long 0x00 "CTRL_CORE_CONTROL_DDRCH1_1,DDRCH1 control 1"
bitfld.long 0x00 29.--31. " DDRCH1_PART3A_I                       ,PART3A Impedence control I[2:0] 0x0: Imp80 0x1: Imp60 0x2: Imp48 0x3: Imp40 0x4: Imp34 0x5: Reserved 0x6: Reserved 0x7: Reserved" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 26.--28. "             DDRCH1_PART3A_SR                    ,PART3A Slew Rate control SR[2:0]. All 8 values are valid. 0x0: Fastest .... 0x7: Slowest" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--25. "           DDRCH1_PART3A_WD                     ,PART3A Weak driver control WD[1:0] -For single-ended operation: 0x0: Pull logic is disabled 0x1: Pull-up selected 0x2: Pull-down selected 0x3: Maintain the previous output value -For differential pair op..." "0,1,2,3"
textline "                                                          "
bitfld.long 0x00 21.--23. " DDRCH1_PART3B_I                       ,PART3B Impedence control I[2:0] 0x0: Imp80 0x1: Imp60 0x2: Imp48 0x3: Imp40 0x4: Imp34 0x5: Reserved 0x6: Reserved 0x7: Reserved" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 18.--20. "             DDRCH1_PART3B_SR                    ,PART3B Slew Rate control SR[2:0]. All 8 values are valid. 0x0: Fastest .... 0x7: Slowest" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 16.--17. "           DDRCH1_PART3B_WD                     ,PART3B Weak driver control WD[1:0] -For single-ended operation: 0x0: Pull logic is disabled 0x1: Pull-up selected 0x2: Pull-down selected 0x3: Maintain the previous output value -For differential pair op..." "0,1,2,3"
textline "                                                          "
bitfld.long 0x00 13.--15. " DDRCH1_PART4A_I                       ,PART4A Impedence control I[2:0] 0x0: Imp80 0x1: Imp60 0x2: Imp48 0x3: Imp40 0x4: Imp34 0x5: Reserved 0x6: Reserved 0x7: Reserved" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 10.--12. "             DDRCH1_PART4A_SR                    ,PART4A Slew Rate control SR[2:0]. All 8 values are valid. 0x0: Fastest .... 0x7: Slowest" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--9. "           DDRCH1_PART4A_WD                     ,PART4A Weak driver control WD[1:0] -For single-ended operation: 0x0: Pull logic is disabled 0x1: Pull-up selected 0x2: Pull-down selected 0x3: Maintain the previous output value -For differential pair op..." "0,1,2,3"
textline "                                                          "
bitfld.long 0x00 5.--7. " DDRCH1_PART4B_I                       ,PART4B Impedence control I[2:0] 0x0: Imp80 0x1: Imp60 0x2: Imp48 0x3: Imp40 0x4: Imp34 0x5: Reserved 0x6: Reserved 0x7: Reserved" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 2.--4. "             DDRCH1_PART4B_SR                    ,PART4B Slew Rate control SR[2:0]. All 8 values are valid. 0x0: Fastest .... 0x7: Slowest" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--1. "           DDRCH1_PART4B_WD                     ,PART4B Weak driver control WD[1:0] -For single-ended operation: 0x0: Pull logic is disabled 0x1: Pull-up selected 0x2: Pull-down selected 0x3: Maintain the previous output value -For differential pair op..." "0,1,2,3"
group.long 0xE40++0x3
line.long 0x00 "CTRL_CORE_CONTROL_DDRCH2_0,DDRCH2 control 0"
bitfld.long 0x00 29.--31. " DDRCH2_PART1A_I                       ,PART1A Impedence control I[2:0] 0x0: Imp80 0x1: Imp60 0x2: Imp48 0x3: Imp40 0x4: Imp34 0x5: Reserved 0x6: Reserved 0x7: Reserved" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 26.--28. "             DDRCH2_PART1A_SR                    ,PART1A Slew Rate control SR[2:0]. All 8 values are valid. 0x0: Fastest .... 0x7: Slowest" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--25. "           DDRCH2_PART1A_WD                     ,PART1A Weak driver control WD[1:0] -For single-ended operation: 0x0: Pull logic is disabled 0x1: Pull-up selected 0x2: Pull-down selected 0x3: Maintain the previous output value -For differential pair op..." "0,1,2,3"
textline "                                                          "
bitfld.long 0x00 21.--23. " DDRCH2_PART1B_I                       ,PART1B Impedence control I[2:0] 0x0: Imp80 0x1: Imp60 0x2: Imp48 0x3: Imp40 0x4: Imp34 0x5: Reserved 0x6: Reserved 0x7: Reserved" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 18.--20. "             DDRCH2_PART1B_SR                    ,PART1B Slew Rate control SR[2:0]. All 8 values are valid. 0x0: Fastest .... 0x7: Slowest" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 16.--17. "           DDRCH2_PART1B_WD                     ,PART1B Weak driver control WD[1:0] -For single-ended operation: 0x0: Pull logic is disabled 0x1: Pull-up selected 0x2: Pull-down selected 0x3: Maintain the previous output value -For differential pair op..." "0,1,2,3"
textline "                                                          "
bitfld.long 0x00 13.--15. " DDRCH2_PART2A_I                       ,PART2A Impedence control I[2:0] 0x0: Imp80 0x1: Imp60 0x2: Imp48 0x3: Imp40 0x4: Imp34 0x5: Reserved 0x6: Reserved 0x7: Reserved" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 10.--12. "             DDRCH2_PART2A_SR                    ,PART2A Slew Rate control SR[2:0]. All 8 values are valid. 0x0: Fastest .... 0x7: Slowest" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--9. "           DDRCH2_PART2A_WD                     ,PART2A Weak driver control WD[1:0] -For single-ended operation: 0x0: Pull logic is disabled 0x1: Pull-up selected 0x2: Pull-down selected 0x3: Maintain the previous output value -For differential pair op..." "0,1,2,3"
textline "                                                          "
bitfld.long 0x00 5.--7. " DDRCH2_PART2B_I                       ,PART2B Impedence control I[2:0] 0x0: Imp80 0x1: Imp60 0x2: Imp48 0x3: Imp40 0x4: Imp34 0x5: Reserved 0x6: Reserved 0x7: Reserved" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 2.--4. "             DDRCH2_PART2B_SR                    ,PART2B Slew Rate control SR[2:0]. All 8 values are valid. 0x0: Fastest .... 0x7: Slowest" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--1. "           DDRCH2_PART2B_WD                     ,PART2B Weak driver control WD[1:0] -For single-ended operation: 0x0: Pull logic is disabled 0x1: Pull-up selected 0x2: Pull-down selected 0x3: Maintain the previous output value -For differential pair op..." "0,1,2,3"
group.long 0xE44++0x3
line.long 0x00 "CTRL_CORE_CONTROL_DDRCH2_1,DDRCH2 control 1"
bitfld.long 0x00 29.--31. " DDRCH2_PART3A_I                       ,PART3A Impedence control I[2:0] 0x0: Imp80 0x1: Imp60 0x2: Imp48 0x3: Imp40 0x4: Imp34 0x5: Reserved 0x6: Reserved 0x7: Reserved" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 26.--28. "             DDRCH2_PART3A_SR                    ,PART3A Slew Rate control SR[2:0]. All 8 values are valid. 0x0: Fastest .... 0x7: Slowest" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--25. "           DDRCH2_PART3A_WD                     ,PART3A Weak driver control WD[1:0] -For single-ended operation: 0x0: Pull logic is disabled 0x1: Pull-up selected 0x2: Pull-down selected 0x3: Maintain the previous output value -For differential pair op..." "0,1,2,3"
textline "                                                          "
bitfld.long 0x00 21.--23. " DDRCH2_PART3B_I                       ,PART3B Impedence control I[2:0] 0x0: Imp80 0x1: Imp60 0x2: Imp48 0x3: Imp40 0x4: Imp34 0x5: Reserved 0x6: Reserved 0x7: Reserved" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 18.--20. "             DDRCH2_PART3B_SR                    ,PART3B Slew Rate control SR[2:0]. All 8 values are valid. 0x0: Fastest .... 0x7: Slowest" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 16.--17. "           DDRCH2_PART3B_WD                     ,PART3B Weak driver control WD[1:0] -For single-ended operation: 0x0: Pull logic is disabled 0x1: Pull-up selected 0x2: Pull-down selected 0x3: Maintain the previous output value -For differential pair op..." "0,1,2,3"
textline "                                                          "
bitfld.long 0x00 13.--15. " DDRCH2_PART4A_I                       ,PART4A Impedence control I[2:0] 0x0: Imp80 0x1: Imp60 0x2: Imp48 0x3: Imp40 0x4: Imp34 0x5: Reserved 0x6: Reserved 0x7: Reserved" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 10.--12. "             DDRCH2_PART4A_SR                    ,PART4A Slew Rate control SR[2:0]. All 8 values are valid. 0x0: Fastest .... 0x7: Slowest" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--9. "           DDRCH2_PART4A_WD                     ,PART4A Weak driver control WD[1:0] -For single-ended operation: 0x0: Pull logic is disabled 0x1: Pull-up selected 0x2: Pull-down selected 0x3: Maintain the previous output value -For differential pair op..." "0,1,2,3"
textline "                                                          "
bitfld.long 0x00 5.--7. " DDRCH2_PART4B_I                       ,PART4B Impedence control I[2:0] 0x0: Imp80 0x1: Imp60 0x2: Imp48 0x3: Imp40 0x4: Imp34 0x5: Reserved 0x6: Reserved 0x7: Reserved" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 2.--4. "             DDRCH2_PART4B_SR                    ,PART4B Slew Rate control SR[2:0]. All 8 values are valid. 0x0: Fastest .... 0x7: Slowest" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--1. "           DDRCH2_PART4B_WD                     ,PART4B Weak driver control WD[1:0] -For single-ended operation: 0x0: Pull logic is disabled 0x1: Pull-up selected 0x2: Pull-down selected 0x3: Maintain the previous output value -For differential pair op..." "0,1,2,3"
group.long 0xE48++0x3
line.long 0x00 "CTRL_CORE_CONTROL_DDRCH1_2,"
bitfld.long 0x00 21.--23. " DDRCH1_PART7A_I                       ,PART7A Impedence control I[2:0] 0x0: Imp80 0x1: Imp60 0x2: Imp48 0x3: Imp40 0x4: Imp34 0x5: Reserved 0x6: Reserved 0x7: Reserved" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 18.--20. "             DDRCH1_PART7A_SR                    ,PART7A Slew Rate control SR[2:0]. All 8 values are valid. 0x0: Fastest .... 0x7: Slowest" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 16.--17. "           DDRCH1_PART7A_WD                     ,PART7A Weak driver control WD[1:0] -For single-ended operation: 0x0: Pull logic is disabled 0x1: Pull-up selected 0x2: Pull-down selected 0x3: Maintain the previous output value -For differential pair op..." "0,1,2,3"
textline "                                                          "
bitfld.long 0x00 13.--15. " DDRCH1_PART7B_I                       ,PART7B Impedence control I[2:0] 0x0: Imp80 0x1: Imp60 0x2: Imp48 0x3: Imp40 0x4: Imp34 0x5: Reserved 0x6: Reserved 0x7: Reserved" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 10.--12. "             DDRCH1_PART7B_SR                    ,PART7B Slew Rate control SR[2:0]. All 8 values are valid. 0x0: Fastest .... 0x7: Slowest" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--9. "           DDRCH1_PART7B_WD                     ,PART7B Weak driver control WD[1:0] -For single-ended operation: 0x0: Pull logic is disabled 0x1: Pull-up selected 0x2: Pull-down selected 0x3: Maintain the previous output value -For differential pair op..." "0,1,2,3"
group.long 0xE50++0x3
line.long 0x00 "CTRL_CORE_CONTROL_DDRIO_0,"
bitfld.long 0x00 19. " DDRCH1_VREF_DQ0_INT_CCAP0             ,Selection for coupling cap connection - DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 18. "       DDRCH1_VREF_DQ0_INT_CCAP1           ,Selection for coupling cap connection - DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "     DDRCH1_VREF_DQ0_INT_TAP0             ,Selection for internal reference voltage drive - DISABLE. - ENABLE." "DISABLE,ENABLE"
textline "                                                          "
bitfld.long 0x00 16. " DDRCH1_VREF_DQ0_INT_TAP1              ,Selection for internal reference voltage drive - DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 15. "       DDRCH1_VREF_DQ0_INT_EN              ,Enable - DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 14. "     DDRCH1_VREF_DQ1_INT_CCAP0            ,Selection for coupling cap connection - DISABLE. - ENABLE." "DISABLE,ENABLE"
textline "                                                          "
bitfld.long 0x00 13. " DDRCH1_VREF_DQ1_INT_CCAP1             ,Selection for coupling cap connection - DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 12. "       DDRCH1_VREF_DQ1_INT_TAP0            ,Selection for internal reference voltage drive - DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 11. "     DDRCH1_VREF_DQ1_INT_TAP1             ,Selection for internal reference voltage drive - DISABLE. - ENABLE." "DISABLE,ENABLE"
textline "                                                          "
bitfld.long 0x00 10. " DDRCH1_VREF_DQ1_INT_EN                ,Enable - DISABLE. - ENABLE." "DISABLE,ENABLE"
group.long 0xE54++0x3
line.long 0x00 "CTRL_CORE_CONTROL_DDRIO_1,"
bitfld.long 0x00 26. " DDRCH2_VREF_DQ0_INT_CCAP0             ,Selection for coupling cap connection - DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 25. "       DDRCH2_VREF_DQ0_INT_CCAP1           ,Selection for coupling cap connection - DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 24. "     DDRCH2_VREF_DQ0_INT_TAP0             ,Selection for internal reference voltage drive - DISABLE. - ENABLE." "DISABLE,ENABLE"
textline "                                                          "
bitfld.long 0x00 23. " DDRCH2_VREF_DQ0_INT_TAP1              ,Selection for internal reference voltage drive - DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 22. "       DDRCH2_VREF_DQ0_INT_EN              ,Enable - DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 21. "     DDRCH2_VREF_DQ1_INT_CCAP0            ,Selection for coupling cap connection - DISABLE. - ENABLE." "DISABLE,ENABLE"
textline "                                                          "
bitfld.long 0x00 20. " DDRCH2_VREF_DQ1_INT_CCAP1             ,Selection for coupling cap connection - DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "       DDRCH2_VREF_DQ1_INT_TAP0            ,Selection for internal reference voltage drive - DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 18. "     DDRCH2_VREF_DQ1_INT_TAP1             ,Selection for internal reference voltage drive - DISABLE. - ENABLE." "DISABLE,ENABLE"
textline "                                                          "
bitfld.long 0x00 17. " DDRCH2_VREF_DQ1_INT_EN                ,Enable - DISABLE. - ENABLE." "DISABLE,ENABLE"
group.long 0xE5C++0x3
line.long 0x00 "CTRL_CORE_CONTROL_HYST_1,Register for hysteresis control of the MMC1 pads"
bitfld.long 0x00 31. " SDCARD_HYST                           ,hysteresis control for the pads associated with the PBIAS cell 0x0 = Disabled 0x1 = Enabled" "0,1"
bitfld.long 0x00 29.--30. "             SDCARD_IC                           ,Drive strength control for MMC1 pads In 3.3V signaling mode: 0x0: Reserved 0x1: 33 Ohms Drive Strength 0x2: 66 Ohms Drive Strength 0x3: Reserved In 1.8V signaling mode: 0x0: 44 Ohms Drive Strength 0x1: ..." "0,1,2,3"
group.long 0xE68++0x3
line.long 0x00 "CTRL_CORE_CONTROL_SPARE_RW,"
hexmask.long 0x00 2.--31. 1. " CORE_CONTROL_SPARE_RW                 ,Spare bits."
bitfld.long 0x00 1. "      CORE_CONTROL_SPARE_RW_MMC2_LOOPBACK ,Selects the source of loopback clock for mmc2_clk. 0x0: Loopback clock from the I/O pad is selected 0x1: Internal loopback clock is selected" "0,1"
bitfld.long 0x00 0. "           CORE_CONTROL_SPARE_RW_MMC1_LOOPBACK  ,Selects the source of loopback clock for mmc1_clk." "0,1"
group.long 0xE74++0x3
line.long 0x00 "CTRL_CORE_SRCOMP_NORTH_SIDE,This register is related to the USB2_PHY2."
bitfld.long 0x00 30. " USB2PHY_AUTORESUME_EN                 ,Auto resume enable 0x0: disable autoresume 0x1: enable autoresume" "0,1"
bitfld.long 0x00 29. "             USB2PHY_DISCHGDET                   ,Disable charger detect 0x0: charger detect function enabled 0x1: charger detect function disabled" "0,1"
bitfld.long 0x00 28. "           USB2PHY_PD                           ,Power down the entire USB2_PHY2 (data, common module and UTMI). 0x0: Normal operation 0x1: Power down the USB2_PHY2" "0,1"
textline "                                                          "
bitfld.long 0x00 20. " USB2PHY_CHG_DET_DM_COMP               ,Output of the comparator on DM during the resistor host detect protocol. 0x0: DM line is below 0.75V to 0.95V 0x1: DM line is above 0.75V to 0.95V" "0,1"
bitfld.long 0x00 19. "             USB2PHY_CHG_DET_DP_COMP             ,Output of the comparator on DP during the resistor host detect protocol 0x0: DP line is below 0.75V to 0.95V 0x1: DP line is above 0.75V to 0.95V" "0,1"
bitfld.long 0x00 18. "           USB2PHY_DATADET                      ,Output of the charger detect comparator 0x0: DM line is below 0.25V to 0.4V 0x1: DM line is above 0.25V to 0.4V" "0,1"
textline "                                                          "
bitfld.long 0x00 17. " USB2PHY_CHGDETDONE                    ,Status indicates that charger detection protocol is over 0x0: charger detection protocol is not over 0x1: charger detection protocol is over" "0,1"
bitfld.long 0x00 16. "             USB2PHY_CHGDETECTED                 ,Output of the charger detection protocol 0x0: charger not detected 0x1: charger detected" "0,1"
bitfld.long 0x00 15. "           USB2PHY_RESETDONEMCLK                ,OCP reset status 0x0: OCP domain is in reset 0x1: OCP domain is out of reset" "0,1"
textline "                                                          "
bitfld.long 0x00 14. " USB2PHY_UTMIRESETDONE                 ,UTMI FSM reset status 0x0: UTMI FSMs are in reset 0x1: UTMI FSMs are out of reset" "0,1"
bitfld.long 0x00 13. "             USBDPLL_FREQLOCK                    ,Status from USB DPLL" "0,1"
bitfld.long 0x00 12. "           USB2PHY_RESETDONETCLK                ,resetdonetclk status from USB2_PHY2" "0,1"
textline "                                                          "
bitfld.long 0x00 11. " USB2PHY_GPIOMODE                      ,GPIO mode 0x0: USB mode enabled 0x1: GPIO mode enabled" "0,1"
bitfld.long 0x00 10. "             USB2PHY_CHG_DET_EXT_CTL             ,Charge detect external control 0x0: charger detect internal state machine used 0x1: charge detect statemachine is bypassed" "0,1"
bitfld.long 0x00 9. "           USB2PHY_RDM_PD_CHGDET_EN             ,DM Pull down control 0x0: PD disabled 0x1: PD enabled" "0,1"
textline "                                                          "
bitfld.long 0x00 8. " USB2PHY_RDP_PU_CHGDET_EN              ,DP Pull up control 0x0: PU disabled 0x1: PU enabled" "0,1"
bitfld.long 0x00 7. "             USB2PHY_CHG_VSRC_EN                 ,VSRC enable on DP line: Host charger case 0x0: disable VSRC drive on DP 0x1: drives VSRC 600mV on DP line" "0,1"
bitfld.long 0x00 6. "           USB2PHY_CHG_ISINK_EN                 ,ISINK enable on DM line: Host charger case 0x0: disable the ISINK on DM 0x1: enables the ISINK (100?A) on DM line" "0,1"
textline "                                                          "
bitfld.long 0x00 5. " USB2PHY_SINKONDP                      ,When '1' current sink is connected to DP instead of DM 0x0: Default value 0x1: enables the ISINK on DP instead of DM" "0,1"
bitfld.long 0x00 4. "             USB2PHY_SRCONDM                     ,When '1' voltage source is connected to DP instead of DM 0x0: Default value 0x1: enable the VSRC on DM instead of DP" "0,1"
bitfld.long 0x00 3. "           USB2PHY_RESTARTCHGDET                ,restartchgdet: '1' for 1 msec cause the CD_START to reset 0x0: Default value 0x1: a high pulse of 1 msec causes the charger detect to restart on negative edge of restartchgdet" "0,1"
textline "                                                          "
bitfld.long 0x00 2. " USB2PHY_MCPCPUEN                      ,MCPC Pull up enable 0x0: disable the MCPC pull up 0x1: enable the 4.7K to10K pull up on receive line DP when datapolarityn is 0 and DM when datapolarityn is 1" "0,1"
bitfld.long 0x00 1. "             USB2PHY_MCPCMODEEN                  ,MCPC Mode enable 0x0: disable MCPC mode 0x1: enable MCPC mode" "0,1"
bitfld.long 0x00 0. "           USB2PHY_DATAPOLARITYN                ,Data polarity 0x0: DP functionality is on DP and DM funcationality is on DM 0x1: DP functionality is on DM and DM functionality is on DP" "0,1"
rgroup.long 0xE78++0x3
line.long 0x00 "CTRL_CORE_SRCOMP_SOUTH_SIDE,This register is related to the USB2_PHY2."
bitfld.long 0x00 12.--14. " USB2PHY_CHG_DET_STATUS                ,Status of charger detection 0x0: Wait state 0x1: No contact 0x2: PS/2 0x3: Unknown error 0x4: Dedicated charger 0x5: HOST charger 0x6: PC 0x7: Interrupt" "0,1,2,3,4,5,6,7"
group.long 0x1400++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_AD0,"
bitfld.long 0x00 25. " GPMC_AD0_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_AD0_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_AD0_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_AD0_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_AD0_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_AD0_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_AD0_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_AD0_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_AD0_MUXMODE                     ,- GPMC_AD0. - VIN3A_D0. - VOUT3_D0. - GPIO1_6. - SYSBOOT0." "GPMC_AD0,1,VIN3A_D0,VOUT3_D0,4,5,6,7,8,9,10,11,12,13,GPIO1_6,SYSBOOT0"
group.long 0x1404++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_AD1,"
bitfld.long 0x00 25. " GPMC_AD1_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_AD1_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_AD1_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_AD1_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_AD1_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_AD1_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_AD1_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_AD1_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_AD1_MUXMODE                     ,- GPMC_AD1. - VIN3A_D1. - VOUT3_D1. - GPIO1_7. - SYSBOOT1." "GPMC_AD1,1,VIN3A_D1,VOUT3_D1,4,5,6,7,8,9,10,11,12,13,GPIO1_7,SYSBOOT1"
group.long 0x1408++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_AD2,"
bitfld.long 0x00 25. " GPMC_AD2_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_AD2_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_AD2_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_AD2_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_AD2_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_AD2_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_AD2_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_AD2_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_AD2_MUXMODE                     ,- GPMC_AD2. - VIN3A_D2. - VOUT3_D2. - GPIO1_8. - SYSBOOT2." "GPMC_AD2,1,VIN3A_D2,VOUT3_D2,4,5,6,7,8,9,10,11,12,13,GPIO1_8,SYSBOOT2"
group.long 0x140C++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_AD3,"
bitfld.long 0x00 25. " GPMC_AD3_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_AD3_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_AD3_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_AD3_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_AD3_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_AD3_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_AD3_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_AD3_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_AD3_MUXMODE                     ,- GPMC_AD3. - VIN3A_D3. - VOUT3_D3. - GPIO1_9. - SYSBOOT3." "GPMC_AD3,1,VIN3A_D3,VOUT3_D3,4,5,6,7,8,9,10,11,12,13,GPIO1_9,SYSBOOT3"
group.long 0x1410++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_AD4,"
bitfld.long 0x00 25. " GPMC_AD4_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_AD4_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_AD4_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_AD4_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_AD4_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_AD4_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_AD4_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_AD4_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_AD4_MUXMODE                     ,- GPMC_AD4. - VIN3A_D4. - VOUT3_D4. - GPIO1_10. - SYSBOOT4." "GPMC_AD4,1,VIN3A_D4,VOUT3_D4,4,5,6,7,8,9,10,11,12,13,GPIO1_10,SYSBOOT4"
group.long 0x1414++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_AD5,"
bitfld.long 0x00 25. " GPMC_AD5_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_AD5_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_AD5_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_AD5_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_AD5_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_AD5_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_AD5_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_AD5_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_AD5_MUXMODE                     ,- GPMC_AD5. - VIN3A_D5. - VOUT3_D5. - GPIO1_11. - SYSBOOT5." "GPMC_AD5,1,VIN3A_D5,VOUT3_D5,4,5,6,7,8,9,10,11,12,13,GPIO1_11,SYSBOOT5"
group.long 0x1418++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_AD6,"
bitfld.long 0x00 25. " GPMC_AD6_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_AD6_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_AD6_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_AD6_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_AD6_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_AD6_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_AD6_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_AD6_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_AD6_MUXMODE                     ,- GPMC_AD6. - VIN3A_D6. - VOUT3_D6. - GPIO1_12. - SYSBOOT6." "GPMC_AD6,1,VIN3A_D6,VOUT3_D6,4,5,6,7,8,9,10,11,12,13,GPIO1_12,SYSBOOT6"
group.long 0x141C++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_AD7,"
bitfld.long 0x00 25. " GPMC_AD7_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_AD7_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_AD7_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_AD7_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_AD7_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_AD7_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_AD7_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_AD7_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_AD7_MUXMODE                     ,- GPMC_AD7. - VIN3A_D7. - VOUT3_D7. - GPIO1_13. - SYSBOOT7." "GPMC_AD7,1,VIN3A_D7,VOUT3_D7,4,5,6,7,8,9,10,11,12,13,GPIO1_13,SYSBOOT7"
group.long 0x1420++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_AD8,"
bitfld.long 0x00 25. " GPMC_AD8_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_AD8_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_AD8_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_AD8_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_AD8_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_AD8_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_AD8_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_AD8_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_AD8_MUXMODE                     ,- GPMC_AD8. - VIN3A_D8. - VOUT3_D8. - GPIO7_18. - SYSBOOT8." "GPMC_AD8,1,VIN3A_D8,VOUT3_D8,4,5,6,7,8,9,10,11,12,13,GPIO7_18,SYSBOOT8"
group.long 0x1424++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_AD9,"
bitfld.long 0x00 25. " GPMC_AD9_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_AD9_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_AD9_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_AD9_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_AD9_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_AD9_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_AD9_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_AD9_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_AD9_MUXMODE                     ,- GPMC_AD9. - VIN3A_D9. - VOUT3_D9. - GPIO7_19. - SYSBOOT9." "GPMC_AD9,1,VIN3A_D9,VOUT3_D9,4,5,6,7,8,9,10,11,12,13,GPIO7_19,SYSBOOT9"
group.long 0x1428++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_AD10,"
bitfld.long 0x00 25. " GPMC_AD10_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_AD10_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_AD10_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_AD10_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_AD10_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_AD10_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_AD10_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_AD10_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_AD10_MUXMODE                    ,- GPMC_AD10. - VIN3A_D10. - VOUT3_D10. - GPIO7_28. - SYSBOOT10." "GPMC_AD10,1,VIN3A_D10,VOUT3_D10,4,5,6,7,8,9,10,11,12,13,GPIO7_28,SYSBOOT10"
group.long 0x142C++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_AD11,"
bitfld.long 0x00 25. " GPMC_AD11_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_AD11_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_AD11_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_AD11_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_AD11_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_AD11_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_AD11_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_AD11_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_AD11_MUXMODE                    ,- GPMC_AD11. - VIN3A_D11. - VOUT3_D11. - GPIO7_29. - SYSBOOT11." "GPMC_AD11,1,VIN3A_D11,VOUT3_D11,4,5,6,7,8,9,10,11,12,13,GPIO7_29,SYSBOOT11"
group.long 0x1430++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_AD12,"
bitfld.long 0x00 25. " GPMC_AD12_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_AD12_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_AD12_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_AD12_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_AD12_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_AD12_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_AD12_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_AD12_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_AD12_MUXMODE                    ,- GPMC_AD12. - VIN3A_D12. - VOUT3_D12. - GPIO1_18. - SYSBOOT12." "GPMC_AD12,1,VIN3A_D12,VOUT3_D12,4,5,6,7,8,9,10,11,12,13,GPIO1_18,SYSBOOT12"
group.long 0x1434++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_AD13,"
bitfld.long 0x00 25. " GPMC_AD13_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_AD13_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_AD13_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_AD13_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_AD13_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_AD13_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_AD13_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_AD13_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_AD13_MUXMODE                    ,- GPMC_AD13. - VIN3A_D13. - VOUT3_D13. - GPIO1_19. - SYSBOOT13." "GPMC_AD13,1,VIN3A_D13,VOUT3_D13,4,5,6,7,8,9,10,11,12,13,GPIO1_19,SYSBOOT13"
group.long 0x1438++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_AD14,"
bitfld.long 0x00 25. " GPMC_AD14_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_AD14_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_AD14_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_AD14_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_AD14_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_AD14_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_AD14_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_AD14_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_AD14_MUXMODE                    ,- GPMC_AD14. - VIN3A_D14. - VOUT3_D14. - GPIO1_20. - SYSBOOT14." "GPMC_AD14,1,VIN3A_D14,VOUT3_D14,4,5,6,7,8,9,10,11,12,13,GPIO1_20,SYSBOOT14"
group.long 0x143C++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_AD15,"
bitfld.long 0x00 25. " GPMC_AD15_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_AD15_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_AD15_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_AD15_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_AD15_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_AD15_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_AD15_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_AD15_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_AD15_MUXMODE                    ,- GPMC_AD15. - VIN3A_D15. - VOUT3_D15. - GPIO1_21. - SYSBOOT15." "GPMC_AD15,1,VIN3A_D15,VOUT3_D15,4,5,6,7,8,9,10,11,12,13,GPIO1_21,SYSBOOT15"
group.long 0x1440++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_A0,"
bitfld.long 0x00 25. " GPMC_A0_WAKEUPEVENT                   ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_A0_WAKEUPENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_A0_SLEWCONTROL                  ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_A0_INPUTENABLE                   ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_A0_PULLTYPESELECT              ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_A0_PULLUDENABLE                 ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_A0_MODESELECT                    ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_A0_DELAYMODE                   ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_A0_MUXMODE                      ,- GPMC_A0. - VIN3A_D16. - VOUT3_D16. - VIN4A_D0. - VIN4B_D0. - I2C4_SCL. - UART5_RXD. - GPIO7_3. - DRIVER OFF." "GPMC_A0,1,VIN3A_D16,VOUT3_D16,VIN4A_D0,5,VIN4B_D0,I2C4_SCL,UART5_RXD,9,10,11,12,13,GPIO7_3,DRIVER_OFF"
group.long 0x1444++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_A1,"
bitfld.long 0x00 25. " GPMC_A1_WAKEUPEVENT                   ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_A1_WAKEUPENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_A1_SLEWCONTROL                  ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_A1_INPUTENABLE                   ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_A1_PULLTYPESELECT              ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_A1_PULLUDENABLE                 ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_A1_MODESELECT                    ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_A1_DELAYMODE                   ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_A1_MUXMODE                      ,- GPMC_A1. - VIN3A_D17. - VOUT3_D17. - VIN4A_D1. - VIN4B_D1. - I2C4_SDA. - UART5_TXD. - GPIO7_4. - DRIVER OFF." "GPMC_A1,1,VIN3A_D17,VOUT3_D17,VIN4A_D1,5,VIN4B_D1,I2C4_SDA,UART5_TXD,9,10,11,12,13,GPIO7_4,DRIVER_OFF"
group.long 0x1448++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_A2,"
bitfld.long 0x00 25. " GPMC_A2_WAKEUPEVENT                   ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_A2_WAKEUPENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_A2_SLEWCONTROL                  ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_A2_INPUTENABLE                   ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_A2_PULLTYPESELECT              ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_A2_PULLUDENABLE                 ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_A2_MODESELECT                    ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_A2_DELAYMODE                   ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_A2_MUXMODE                      ,- GPMC_A2. - VIN3A_D18. - VOUT3_D18. - VIN4A_D2. - VIN4B_D2. - UART7_RXD. - UART5_CTSN. - GPIO7_5. - DRIVER OFF." "GPMC_A2,1,VIN3A_D18,VOUT3_D18,VIN4A_D2,5,VIN4B_D2,UART7_RXD,UART5_CTSN,9,10,11,12,13,GPIO7_5,DRIVER_OFF"
group.long 0x144C++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_A3,"
bitfld.long 0x00 25. " GPMC_A3_WAKEUPEVENT                   ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_A3_WAKEUPENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_A3_SLEWCONTROL                  ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_A3_INPUTENABLE                   ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_A3_PULLTYPESELECT              ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_A3_PULLUDENABLE                 ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_A3_MODESELECT                    ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_A3_DELAYMODE                   ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_A3_MUXMODE                      ,- GPMC_A3. - QSPI1_CS2. - VIN3A_D19. - VOUT3_D19. - VIN4A_D3. - VIN4B_D3. - UART7_TXD. - UART5_RTSN. - GPIO7_6. - DRIVER OFF." "GPMC_A3,QSPI1_CS2,VIN3A_D19,VOUT3_D19,VIN4A_D3,5,VIN4B_D3,UART7_TXD,UART5_RTSN,9,10,11,12,13,GPIO7_6,DRIVER_OFF"
group.long 0x1450++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_A4,"
bitfld.long 0x00 25. " GPMC_A4_WAKEUPEVENT                   ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_A4_WAKEUPENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_A4_SLEWCONTROL                  ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_A4_INPUTENABLE                   ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_A4_PULLTYPESELECT              ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_A4_PULLUDENABLE                 ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_A4_MODESELECT                    ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_A4_DELAYMODE                   ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_A4_MUXMODE                      ,- GPMC_A4. - QSPI1_CS3. - VIN3A_D20. - VOUT3_D20. - VIN4A_D4. - VIN4B_D4. - I2C5_SCL. - UART6_RXD. - GPIO1_26. - DRIVER OFF." "GPMC_A4,QSPI1_CS3,VIN3A_D20,VOUT3_D20,VIN4A_D4,5,VIN4B_D4,I2C5_SCL,UART6_RXD,9,10,11,12,13,GPIO1_26,DRIVER_OFF"
group.long 0x1454++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_A5,"
bitfld.long 0x00 25. " GPMC_A5_WAKEUPEVENT                   ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_A5_WAKEUPENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_A5_SLEWCONTROL                  ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_A5_INPUTENABLE                   ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_A5_PULLTYPESELECT              ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_A5_PULLUDENABLE                 ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_A5_MODESELECT                    ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_A5_DELAYMODE                   ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_A5_MUXMODE                      ,- GPMC_A5. - VIN3A_D21. - VOUT3_D21. - VIN4A_D5. - VIN4B_D5. - I2C5_SDA. - UART6_TXD. - GPIO1_27. - DRIVER OFF." "GPMC_A5,1,VIN3A_D21,VOUT3_D21,VIN4A_D5,5,VIN4B_D5,I2C5_SDA,UART6_TXD,9,10,11,12,13,GPIO1_27,DRIVER_OFF"
group.long 0x1458++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_A6,"
bitfld.long 0x00 25. " GPMC_A6_WAKEUPEVENT                   ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_A6_WAKEUPENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_A6_SLEWCONTROL                  ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_A6_INPUTENABLE                   ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_A6_PULLTYPESELECT              ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_A6_PULLUDENABLE                 ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_A6_MODESELECT                    ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_A6_DELAYMODE                   ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_A6_MUXMODE                      ,- GPMC_A6. - VIN3A_D22. - VOUT3_D22. - VIN4A_D6. - VIN4B_D6. - UART8_RXD. - UART6_CTSN. - GPIO1_28. - DRIVER OFF." "GPMC_A6,1,VIN3A_D22,VOUT3_D22,VIN4A_D6,5,VIN4B_D6,UART8_RXD,UART6_CTSN,9,10,11,12,13,GPIO1_28,DRIVER_OFF"
group.long 0x145C++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_A7,"
bitfld.long 0x00 25. " GPMC_A7_WAKEUPEVENT                   ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_A7_WAKEUPENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_A7_SLEWCONTROL                  ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_A7_INPUTENABLE                   ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_A7_PULLTYPESELECT              ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_A7_PULLUDENABLE                 ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_A7_MODESELECT                    ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_A7_DELAYMODE                   ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_A7_MUXMODE                      ,- GPMC_A7. - VIN3A_D23. - VOUT3_D23. - VIN4A_D7. - VIN4B_D7. - UART8_TXD. - UART6_RTSN. - GPIO1_29. - DRIVER OFF." "GPMC_A7,1,VIN3A_D23,VOUT3_D23,VIN4A_D7,5,VIN4B_D7,UART8_TXD,UART6_RTSN,9,10,11,12,13,GPIO1_29,DRIVER_OFF"
group.long 0x1460++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_A8,"
bitfld.long 0x00 25. " GPMC_A8_WAKEUPEVENT                   ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_A8_WAKEUPENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_A8_SLEWCONTROL                  ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_A8_INPUTENABLE                   ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_A8_PULLTYPESELECT              ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_A8_PULLUDENABLE                 ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_A8_MODESELECT                    ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_A8_DELAYMODE                   ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_A8_MUXMODE                      ,- GPMC_A8. - VIN3A_HSYNC0. - VOUT3_HSYNC. - VIN4B_HSYNC1. - TIMER12. - SPI4_SCLK. - GPIO1_30. - DRIVER OFF." "GPMC_A8,1,VIN3A_HSYNC0,VOUT3_HSYNC,4,5,VIN4B_HSYNC1,TIMER12,SPI4_SCLK,9,10,11,12,13,GPIO1_30,DRIVER_OFF"
group.long 0x1464++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_A9,"
bitfld.long 0x00 25. " GPMC_A9_WAKEUPEVENT                   ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_A9_WAKEUPENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_A9_SLEWCONTROL                  ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_A9_INPUTENABLE                   ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_A9_PULLTYPESELECT              ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_A9_PULLUDENABLE                 ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_A9_MODESELECT                    ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_A9_DELAYMODE                   ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_A9_MUXMODE                      ,- GPMC_A9. - VIN3A_VSYNC0. - VOUT3_VSYNC. - VIN4B_VSYNC1. - TIMER11. - SPI4_D1. - GPIO1_31. - DRIVER OFF." "GPMC_A9,1,VIN3A_VSYNC0,VOUT3_VSYNC,4,5,VIN4B_VSYNC1,TIMER11,SPI4_D1,9,10,11,12,13,GPIO1_31,DRIVER_OFF"
group.long 0x1468++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_A10,"
bitfld.long 0x00 25. " GPMC_A10_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_A10_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_A10_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_A10_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_A10_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_A10_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_A10_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_A10_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_A10_MUXMODE                     ,- GPMC_A10. - VIN3A_DE0. - VOUT3_DE. - VIN4B_CLK1. - TIMER10. - SPI4_D0. - GPIO2_0. - DRIVER OFF." "GPMC_A10,1,VIN3A_DE0,VOUT3_DE,4,5,VIN4B_CLK1,TIMER10,SPI4_D0,9,10,11,12,13,GPIO2_0,DRIVER_OFF"
group.long 0x146C++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_A11,"
bitfld.long 0x00 25. " GPMC_A11_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_A11_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_A11_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_A11_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_A11_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_A11_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_A11_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_A11_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_A11_MUXMODE                     ,- GPMC_A11. - VIN3A_FLD0. - VOUT3_FLD. - VIN4A_FLD0. - VIN4B_DE1. - TIMER9. - SPI4_CS0. - GPIO2_1. - DRIVER OFF." "GPMC_A11,1,VIN3A_FLD0,VOUT3_FLD,VIN4A_FLD0,5,VIN4B_DE1,TIMER9,SPI4_CS0,9,10,11,12,13,GPIO2_1,DRIVER_OFF"
group.long 0x1470++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_A12,"
bitfld.long 0x00 25. " GPMC_A12_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_A12_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_A12_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_A12_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_A12_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_A12_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_A12_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_A12_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_A12_MUXMODE                     ,- GPMC_A12. - VIN4A_CLK0. - GPMC_A0. - VIN4B_FLD1. - TIMER8. - SPI4_CS1. - DMA_EVT1. - GPIO2_2. - DRIVER OFF." "GPMC_A12,1,2,3,VIN4A_CLK0,GPMC_A0,VIN4B_FLD1,TIMER8,SPI4_CS1,DMA_EVT1,10,11,12,13,GPIO2_2,DRIVER_OFF"
group.long 0x1474++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_A13,"
bitfld.long 0x00 25. " GPMC_A13_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_A13_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_A13_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_A13_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_A13_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_A13_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_A13_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_A13_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_A13_MUXMODE                     ,- GPMC_A13. - QSPI1_RTCLK. - VIN4A_HSYNC0. - TIMER7. - SPI4_CS2. - DMA_EVT2. - GPIO2_3. - DRIVER OFF." "GPMC_A13,QSPI1_RTCLK,2,3,VIN4A_HSYNC0,5,6,TIMER7,SPI4_CS2,DMA_EVT2,10,11,12,13,GPIO2_3,DRIVER_OFF"
group.long 0x1478++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_A14,"
bitfld.long 0x00 25. " GPMC_A14_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_A14_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_A14_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_A14_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_A14_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_A14_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_A14_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_A14_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_A14_MUXMODE                     ,- GPMC_A14. - QSPI1_D3. - VIN4A_VSYNC0. - TIMER6. - SPI4_CS3. - GPIO2_4. - DRIVER OFF." "GPMC_A14,QSPI1_D3,2,3,VIN4A_VSYNC0,5,6,TIMER6,SPI4_CS3,9,10,11,12,13,GPIO2_4,DRIVER_OFF"
group.long 0x147C++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_A15,"
bitfld.long 0x00 25. " GPMC_A15_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_A15_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_A15_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_A15_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_A15_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_A15_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_A15_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_A15_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_A15_MUXMODE                     ,- GPMC_A15. - QSPI1_D2. - VIN4A_D8. - TIMER5. - GPIO2_5. - DRIVER OFF." "GPMC_A15,QSPI1_D2,2,3,VIN4A_D8,5,6,TIMER5,8,9,10,11,12,13,GPIO2_5,DRIVER_OFF"
group.long 0x1480++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_A16,"
bitfld.long 0x00 25. " GPMC_A16_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_A16_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_A16_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_A16_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_A16_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_A16_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_A16_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_A16_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_A16_MUXMODE                     ,- GPMC_A16. - QSPI1_D0. - VIN4A_D9. - GPIO2_6. - DRIVER OFF." "GPMC_A16,QSPI1_D0,2,3,VIN4A_D9,5,6,7,8,9,10,11,12,13,GPIO2_6,DRIVER_OFF"
group.long 0x1484++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_A17,"
bitfld.long 0x00 25. " GPMC_A17_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_A17_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_A17_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_A17_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_A17_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_A17_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_A17_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_A17_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_A17_MUXMODE                     ,- GPMC_A17. - QSPI1_D1. - VIN4A_D10. - GPIO2_7. - DRIVER OFF." "GPMC_A17,QSPI1_D1,2,3,VIN4A_D10,5,6,7,8,9,10,11,12,13,GPIO2_7,DRIVER_OFF"
group.long 0x1488++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_A18,"
bitfld.long 0x00 25. " GPMC_A18_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_A18_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_A18_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_A18_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_A18_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_A18_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_A18_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_A18_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_A18_MUXMODE                     ,- GPMC_A18. - QSPI1_SCLK. - VIN4A_D11. - GPIO2_8. - DRIVER OFF." "GPMC_A18,QSPI1_SCLK,2,3,VIN4A_D11,5,6,7,8,9,10,11,12,13,GPIO2_8,DRIVER_OFF"
group.long 0x148C++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_A19,"
bitfld.long 0x00 25. " GPMC_A19_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_A19_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_A19_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_A19_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_A19_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_A19_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_A19_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_A19_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_A19_MUXMODE                     ,- GPMC_A19. - MMC2_DAT4. - GPMC_A13. - VIN4A_D12. - VIN3B_D0. - GPIO2_9. - DRIVER OFF." "GPMC_A19,MMC2_DAT4,GPMC_A13,3,VIN4A_D12,5,VIN3B_D0,7,8,9,10,11,12,13,GPIO2_9,DRIVER_OFF"
group.long 0x1490++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_A20,"
bitfld.long 0x00 25. " GPMC_A20_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_A20_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_A20_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_A20_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_A20_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_A20_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_A20_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_A20_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_A20_MUXMODE                     ,- GPMC_A20. - MMC2_DAT5. - GPMC_A14. - VIN4A_D13. - VIN3B_D1. - GPIO2_10. - DRIVER OFF." "GPMC_A20,MMC2_DAT5,GPMC_A14,3,VIN4A_D13,5,VIN3B_D1,7,8,9,10,11,12,13,GPIO2_10,DRIVER_OFF"
group.long 0x1494++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_A21,"
bitfld.long 0x00 25. " GPMC_A21_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_A21_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_A21_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_A21_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_A21_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_A21_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_A21_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_A21_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_A21_MUXMODE                     ,- GPMC_A21. - MMC2_DAT6. - GPMC_A15. - VIN4A_D14. - VIN3B_D2. - GPIO2_11. - DRIVER OFF." "GPMC_A21,MMC2_DAT6,GPMC_A15,3,VIN4A_D14,5,VIN3B_D2,7,8,9,10,11,12,13,GPIO2_11,DRIVER_OFF"
group.long 0x1498++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_A22,"
bitfld.long 0x00 25. " GPMC_A22_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_A22_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_A22_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_A22_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_A22_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_A22_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_A22_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_A22_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_A22_MUXMODE                     ,- GPMC_A22. - MMC2_DAT7. - GPMC_A16. - VIN4A_D15. - VIN3B_D3. - GPIO2_12. - DRIVER OFF." "GPMC_A22,MMC2_DAT7,GPMC_A16,3,VIN4A_D15,5,VIN3B_D3,7,8,9,10,11,12,13,GPIO2_12,DRIVER_OFF"
group.long 0x149C++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_A23,"
bitfld.long 0x00 25. " GPMC_A23_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_A23_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_A23_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_A23_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_A23_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_A23_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_A23_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_A23_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_A23_MUXMODE                     ,- GPMC_A23. - MMC2_CLK. - GPMC_A17. - VIN4A_FLD0. - VIN3B_D4. - GPIO2_13. - DRIVER OFF." "GPMC_A23,MMC2_CLK,GPMC_A17,3,VIN4A_FLD0,5,VIN3B_D4,7,8,9,10,11,12,13,GPIO2_13,DRIVER_OFF"
group.long 0x14A0++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_A24,"
bitfld.long 0x00 25. " GPMC_A24_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_A24_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_A24_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_A24_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_A24_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_A24_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_A24_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_A24_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_A24_MUXMODE                     ,- GPMC_A24. - MMC2_DAT0. - GPMC_A18. - VIN4A_D8. - VIN3B_D5. - GPIO2_14. - DRIVER OFF." "GPMC_A24,MMC2_DAT0,GPMC_A18,3,VIN4A_D8,5,VIN3B_D5,7,8,9,10,11,12,13,GPIO2_14,DRIVER_OFF"
group.long 0x14A4++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_A25,"
bitfld.long 0x00 25. " GPMC_A25_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_A25_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_A25_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_A25_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_A25_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_A25_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_A25_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_A25_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_A25_MUXMODE                     ,- GPMC_A25. - MMC2_DAT1. - GPMC_A19. - VIN4A_D9. - VIN3B_D6. - GPIO2_15. - DRIVER OFF." "GPMC_A25,MMC2_DAT1,GPMC_A19,3,VIN4A_D9,5,VIN3B_D6,7,8,9,10,11,12,13,GPIO2_15,DRIVER_OFF"
group.long 0x14A8++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_A26,"
bitfld.long 0x00 25. " GPMC_A26_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_A26_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_A26_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_A26_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_A26_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_A26_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_A26_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_A26_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_A26_MUXMODE                     ,- GPMC_A26. - MMC2_DAT2. - GPMC_A20. - VIN4A_D10. - VIN3B_D7. - GPIO2_16. - DRIVER OFF." "GPMC_A26,MMC2_DAT2,GPMC_A20,3,VIN4A_D10,5,VIN3B_D7,7,8,9,10,11,12,13,GPIO2_16,DRIVER_OFF"
group.long 0x14AC++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_A27,"
bitfld.long 0x00 25. " GPMC_A27_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_A27_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_A27_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_A27_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_A27_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_A27_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_A27_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_A27_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_A27_MUXMODE                     ,- GPMC_A27. - MMC2_DAT3. - GPMC_A21. - VIN4A_D11. - VIN3B_HSYNC1. - GPIO2_17. - DRIVER OFF." "GPMC_A27,MMC2_DAT3,GPMC_A21,3,VIN4A_D11,5,VIN3B_HSYNC1,7,8,9,10,11,12,13,GPIO2_17,DRIVER_OFF"
group.long 0x14B0++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_CS1,"
bitfld.long 0x00 25. " GPMC_CS1_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_CS1_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_CS1_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_CS1_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_CS1_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_CS1_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_CS1_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_CS1_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_CS1_MUXMODE                     ,- GPMC_CS1. - MMC2_CMD. - GPMC_A22. - VIN4A_DE0. - VIN3B_VSYNC1. - GPIO2_18. - DRIVER OFF." "GPMC_CS1,MMC2_CMD,GPMC_A22,3,VIN4A_DE0,5,VIN3B_VSYNC1,7,8,9,10,11,12,13,GPIO2_18,DRIVER_OFF"
group.long 0x14B4++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_CS0,"
bitfld.long 0x00 25. " GPMC_CS0_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_CS0_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_CS0_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_CS0_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_CS0_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_CS0_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_CS0_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_CS0_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_CS0_MUXMODE                     ,- GPMC_CS0. - GPIO2_19. - DRIVER OFF." "GPMC_CS0,1,2,3,4,5,6,7,8,9,10,11,12,13,GPIO2_19,DRIVER_OFF"
group.long 0x14B8++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_CS2,"
bitfld.long 0x00 25. " GPMC_CS2_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_CS2_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_CS2_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_CS2_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_CS2_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_CS2_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_CS2_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_CS2_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_CS2_MUXMODE                     ,- GPMC_CS2. - QSPI1_CS0. - GPIO2_20. - DRIVER OFF." "GPMC_CS2,QSPI1_CS0,2,3,4,5,6,7,8,9,10,11,12,13,GPIO2_20,DRIVER_OFF"
group.long 0x14BC++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_CS3,"
bitfld.long 0x00 25. " GPMC_CS3_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_CS3_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_CS3_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_CS3_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_CS3_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_CS3_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_CS3_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_CS3_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_CS3_MUXMODE                     ,- GPMC_CS3. - QSPI1_CS1. - VIN3A_CLK0. - VOUT3_CLK. - GPMC_A1. - GPIO2_21. - DRIVER OFF." "GPMC_CS3,QSPI1_CS1,VIN3A_CLK0,VOUT3_CLK,4,GPMC_A1,6,7,8,9,10,11,12,13,GPIO2_21,DRIVER_OFF"
group.long 0x14C0++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_CLK,"
bitfld.long 0x00 25. " GPMC_CLK_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_CLK_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_CLK_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_CLK_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_CLK_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_CLK_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_CLK_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_CLK_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_CLK_MUXMODE                     ,- GPMC_CLK. - GPMC_CS7. - CLKOUT1. - GPMC_WAIT1. - VIN4A_HSYNC0. - VIN4A_DE0. - VIN3B_CLK1. - TIMER4. - I2C3_SCL. - DMA_EVT1. - GPIO2_22. - DRIVER OFF." "GPMC_CLK,GPMC_CS7,CLKOUT1,GPMC_WAIT1,VIN4A_HSYNC0,VIN4A_DE0,VIN3B_CLK1,TIMER4,I2C3_SCL,DMA_EVT1,10,11,12,13,GPIO2_22,DRIVER_OFF"
group.long 0x14C4++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_ADVN_ALE,"
bitfld.long 0x00 25. " GPMC_ADVN_ALE_WAKEUPEVENT             ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_ADVN_ALE_WAKEUPENABLE          ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_ADVN_ALE_SLEWCONTROL            ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_ADVN_ALE_INPUTENABLE             ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_ADVN_ALE_PULLTYPESELECT        ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_ADVN_ALE_PULLUDENABLE           ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_ADVN_ALE_MODESELECT              ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_ADVN_ALE_DELAYMODE             ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_ADVN_ALE_MUXMODE                ,- GPMC_ADVN_ALE. - GPMC_CS6. - CLKOUT2. - GPMC_WAIT1. - VIN4A_VSYNC0. - GPMC_A2. - GPMC_A23. - TIMER3. - I2C3_SDA. - DMA_EVT2. - GPIO2_23. - DRIVER OFF." "GPMC_ADVN_ALE,GPMC_CS6,CLKOUT2,GPMC_WAIT1,VIN4A_VSYNC0,GPMC_A2,GPMC_A23,TIMER3,I2C3_SDA,DMA_EVT2,10,11,12,13,GPIO2_23,DRIVER_OFF"
group.long 0x14C8++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_OEN_REN,"
bitfld.long 0x00 25. " GPMC_OEN_REN_WAKEUPEVENT              ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_OEN_REN_WAKEUPENABLE           ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_OEN_REN_SLEWCONTROL             ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_OEN_REN_INPUTENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_OEN_REN_PULLTYPESELECT         ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_OEN_REN_PULLUDENABLE            ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_OEN_REN_MODESELECT               ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_OEN_REN_DELAYMODE              ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_OEN_REN_MUXMODE                 ,- GPMC_OEN_REN. - GPIO2_24. - DRIVER OFF." "GPMC_OEN_REN,1,2,3,4,5,6,7,8,9,10,11,12,13,GPIO2_24,DRIVER_OFF"
group.long 0x14CC++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_WEN,"
bitfld.long 0x00 25. " GPMC_WEN_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_WEN_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_WEN_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_WEN_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_WEN_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_WEN_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_WEN_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_WEN_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_WEN_MUXMODE                     ,- GPMC_WEN. - GPIO2_25. - DRIVER OFF." "GPMC_WEN,1,2,3,4,5,6,7,8,9,10,11,12,13,GPIO2_25,DRIVER_OFF"
group.long 0x14D0++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_BEN0,"
bitfld.long 0x00 25. " GPMC_BEN0_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_BEN0_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_BEN0_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_BEN0_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_BEN0_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_BEN0_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_BEN0_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_BEN0_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_BEN0_MUXMODE                    ,- GPMC_BEN0. - GPMC_CS4. - VIN1B_HSYNC1. - VIN3B_DE1. - TIMER2. - DMA_EVT3. - GPIO2_26. - DRIVER OFF." "GPMC_BEN0,GPMC_CS4,2,VIN1B_HSYNC1,4,5,VIN3B_DE1,TIMER2,8,DMA_EVT3,10,11,12,13,GPIO2_26,DRIVER_OFF"
group.long 0x14D4++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_BEN1,"
bitfld.long 0x00 25. " GPMC_BEN1_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_BEN1_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_BEN1_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_BEN1_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_BEN1_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_BEN1_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_BEN1_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_BEN1_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_BEN1_MUXMODE                    ,- GPMC_BEN1. - GPMC_CS5. - VIN1B_DE1. - VIN3B_CLK1. - GPMC_A3. - VIN3B_FLD1. - TIMER1. - DMA_EVT4. - GPIO2_27. - DRIVER OFF." "GPMC_BEN1,GPMC_CS5,2,VIN1B_DE1,VIN3B_CLK1,GPMC_A3,VIN3B_FLD1,TIMER1,8,DMA_EVT4,10,11,12,13,GPIO2_27,DRIVER_OFF"
group.long 0x14D8++0x3
line.long 0x00 "CTRL_CORE_PAD_GPMC_WAIT0,"
bitfld.long 0x00 25. " GPMC_WAIT0_WAKEUPEVENT                ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPMC_WAIT0_WAKEUPENABLE             ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPMC_WAIT0_SLEWCONTROL               ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPMC_WAIT0_INPUTENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPMC_WAIT0_PULLTYPESELECT           ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPMC_WAIT0_PULLUDENABLE              ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPMC_WAIT0_MODESELECT                 ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPMC_WAIT0_DELAYMODE                ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPMC_WAIT0_MUXMODE                   ,- GPMC_WAIT0. - GPIO2_28. - DRIVER OFF." "GPMC_WAIT0,1,2,3,4,5,6,7,8,9,10,11,12,13,GPIO2_28,DRIVER_OFF"
group.long 0x14DC++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN1A_CLK0,"
bitfld.long 0x00 25. " VIN1A_CLK0_WAKEUPEVENT                ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN1A_CLK0_WAKEUPENABLE             ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN1A_CLK0_SLEWCONTROL               ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN1A_CLK0_INPUTENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN1A_CLK0_PULLTYPESELECT           ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN1A_CLK0_PULLUDENABLE              ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN1A_CLK0_MODESELECT                 ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN1A_CLK0_DELAYMODE                ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN1A_CLK0_MUXMODE                   ,- VIN1A_CLK0. - VOUT3_D16. - VOUT3_FLD. - GPIO2_30. - DRIVER OFF." "VIN1A_CLK0,1,2,VOUT3_D16,VOUT3_FLD,5,6,7,8,9,10,11,12,13,GPIO2_30,DRIVER_OFF"
group.long 0x14E0++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN1B_CLK1,"
bitfld.long 0x00 25. " VIN1B_CLK1_WAKEUPEVENT                ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN1B_CLK1_WAKEUPENABLE             ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN1B_CLK1_SLEWCONTROL               ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN1B_CLK1_INPUTENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN1B_CLK1_PULLTYPESELECT           ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN1B_CLK1_PULLUDENABLE              ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN1B_CLK1_MODESELECT                 ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN1B_CLK1_DELAYMODE                ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN1B_CLK1_MUXMODE                   ,- VIN1B_CLK1. - VIN3A_CLK0. - GPIO2_31. - DRIVER OFF." "VIN1B_CLK1,1,2,3,4,5,VIN3A_CLK0,7,8,9,10,11,12,13,GPIO2_31,DRIVER_OFF"
group.long 0x14E4++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN1A_DE0,"
bitfld.long 0x00 25. " VIN1A_DE0_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN1A_DE0_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN1A_DE0_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN1A_DE0_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN1A_DE0_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN1A_DE0_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN1A_DE0_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN1A_DE0_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN1A_DE0_MUXMODE                    ,- VIN1A_DE0. - VIN1B_HSYNC1. - VOUT3_D17. - VOUT3_DE. - UART7_RXD. - TIMER16. - SPI3_SCLK. - EQEP1A_IN. - GPIO3_0. - DRIVER OFF." "VIN1A_DE0,VIN1B_HSYNC1,2,VOUT3_D17,VOUT3_DE,UART7_RXD,6,TIMER16,SPI3_SCLK,9,EQEP1A_IN,11,12,13,GPIO3_0,DRIVER_OFF"
group.long 0x14E8++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN1A_FLD0,"
bitfld.long 0x00 25. " VIN1A_FLD0_WAKEUPEVENT                ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN1A_FLD0_WAKEUPENABLE             ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN1A_FLD0_SLEWCONTROL               ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN1A_FLD0_INPUTENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN1A_FLD0_PULLTYPESELECT           ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN1A_FLD0_PULLUDENABLE              ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN1A_FLD0_MODESELECT                 ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN1A_FLD0_DELAYMODE                ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN1A_FLD0_MUXMODE                   ,- VIN1A_FLD0. - VIN1B_VSYNC1. - VOUT3_CLK. - UART7_TXD. - TIMER15. - SPI3_D1. - EQEP1B_IN. - GPIO3_1. - DRIVER OFF." "VIN1A_FLD0,VIN1B_VSYNC1,2,3,VOUT3_CLK,UART7_TXD,6,TIMER15,SPI3_D1,9,EQEP1B_IN,11,12,13,GPIO3_1,DRIVER_OFF"
group.long 0x14EC++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN1A_HSYNC0,"
bitfld.long 0x00 25. " VIN1A_HSYNC0_WAKEUPEVENT              ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN1A_HSYNC0_WAKEUPENABLE           ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN1A_HSYNC0_SLEWCONTROL             ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN1A_HSYNC0_INPUTENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN1A_HSYNC0_PULLTYPESELECT         ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN1A_HSYNC0_PULLUDENABLE            ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN1A_HSYNC0_MODESELECT               ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN1A_HSYNC0_DELAYMODE              ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN1A_HSYNC0_MUXMODE                 ,- VIN1A_HSYNC0. - VIN1B_FLD1. - VOUT3_HSYNC. - UART7_CTSN. - TIMER14. - SPI3_D0. - EQEP1_INDEX. - GPIO3_2. - DRIVER OFF." "VIN1A_HSYNC0,VIN1B_FLD1,2,3,VOUT3_HSYNC,UART7_CTSN,6,TIMER14,SPI3_D0,9,EQEP1_INDEX,11,12,13,GPIO3_2,DRIVER_OFF"
group.long 0x14F0++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN1A_VSYNC0,"
bitfld.long 0x00 25. " VIN1A_VSYNC0_WAKEUPEVENT              ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN1A_VSYNC0_WAKEUPENABLE           ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN1A_VSYNC0_SLEWCONTROL             ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN1A_VSYNC0_INPUTENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN1A_VSYNC0_PULLTYPESELECT         ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN1A_VSYNC0_PULLUDENABLE            ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN1A_VSYNC0_MODESELECT               ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN1A_VSYNC0_DELAYMODE              ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN1A_VSYNC0_MUXMODE                 ,- VIN1A_VSYNC0. - VIN1B_DE1. - VOUT3_VSYNC. - UART7_RTSN. - TIMER13. - SPI3_CS0. - EQEP1_STROBE. - GPIO3_3. - DRIVER OFF." "VIN1A_VSYNC0,VIN1B_DE1,2,3,VOUT3_VSYNC,UART7_RTSN,6,TIMER13,SPI3_CS0,9,EQEP1_STROBE,11,12,13,GPIO3_3,DRIVER_OFF"
group.long 0x14F4++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN1A_D0,"
bitfld.long 0x00 25. " VIN1A_D0_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN1A_D0_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN1A_D0_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN1A_D0_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN1A_D0_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN1A_D0_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN1A_D0_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN1A_D0_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN1A_D0_MUXMODE                     ,- VIN1A_D0. - VOUT3_D7. - VOUT3_D23. - UART8_RXD. - EHRPWM1A. - GPIO3_4. - DRIVER OFF." "VIN1A_D0,1,2,VOUT3_D7,VOUT3_D23,UART8_RXD,6,7,8,9,EHRPWM1A,11,12,13,GPIO3_4,DRIVER_OFF"
group.long 0x14F8++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN1A_D1,"
bitfld.long 0x00 25. " VIN1A_D1_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN1A_D1_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN1A_D1_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN1A_D1_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN1A_D1_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN1A_D1_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN1A_D1_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN1A_D1_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN1A_D1_MUXMODE                     ,- VIN1A_D1. - VOUT3_D6. - VOUT3_D22. - UART8_TXD. - EHRPWM1B. - GPIO3_5. - DRIVER OFF." "VIN1A_D1,1,2,VOUT3_D6,VOUT3_D22,UART8_TXD,6,7,8,9,EHRPWM1B,11,12,13,GPIO3_5,DRIVER_OFF"
group.long 0x14FC++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN1A_D2,"
bitfld.long 0x00 25. " VIN1A_D2_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN1A_D2_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN1A_D2_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN1A_D2_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN1A_D2_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN1A_D2_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN1A_D2_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN1A_D2_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN1A_D2_MUXMODE                     ,- VIN1A_D2. - VOUT3_D5. - VOUT3_D21. - UART8_CTSN. - EHRPWM1_TRIPZONE_INPUT. - GPIO3_6. - DRIVER OFF." "VIN1A_D2,1,2,VOUT3_D5,VOUT3_D21,UART8_CTSN,6,7,8,9,EHRPWM1_TRIPZONE_INPUT,11,12,13,GPIO3_6,DRIVER_OFF"
group.long 0x1500++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN1A_D3,"
bitfld.long 0x00 25. " VIN1A_D3_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN1A_D3_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN1A_D3_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN1A_D3_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN1A_D3_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN1A_D3_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN1A_D3_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN1A_D3_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN1A_D3_MUXMODE                     ,- VIN1A_D3. - VOUT3_D4. - VOUT3_D20. - UART8_RTSN. - ECAP1_IN_PWM1_OUT. - GPIO3_7. - DRIVER OFF." "VIN1A_D3,1,2,VOUT3_D4,VOUT3_D20,UART8_RTSN,6,7,8,9,ECAP1_IN_PWM1_OUT,11,12,13,GPIO3_7,DRIVER_OFF"
group.long 0x1504++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN1A_D4,"
bitfld.long 0x00 25. " VIN1A_D4_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN1A_D4_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN1A_D4_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN1A_D4_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN1A_D4_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN1A_D4_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN1A_D4_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN1A_D4_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN1A_D4_MUXMODE                     ,- VIN1A_D4. - VOUT3_D3. - VOUT3_D19. - EHRPWM1_SYNCI. - GPIO3_8. - DRIVER OFF." "VIN1A_D4,1,2,VOUT3_D3,VOUT3_D19,5,6,7,8,9,EHRPWM1_SYNCI,11,12,13,GPIO3_8,DRIVER_OFF"
group.long 0x1508++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN1A_D5,"
bitfld.long 0x00 25. " VIN1A_D5_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN1A_D5_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN1A_D5_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN1A_D5_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN1A_D5_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN1A_D5_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN1A_D5_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN1A_D5_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN1A_D5_MUXMODE                     ,- VIN1A_D5. - VOUT3_D2. - VOUT3_D18. - EHRPWM1_SYNCO. - GPIO3_9. - DRIVER OFF." "VIN1A_D5,1,2,VOUT3_D2,VOUT3_D18,5,6,7,8,9,EHRPWM1_SYNCO,11,12,13,GPIO3_9,DRIVER_OFF"
group.long 0x150C++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN1A_D6,"
bitfld.long 0x00 25. " VIN1A_D6_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN1A_D6_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN1A_D6_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN1A_D6_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN1A_D6_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN1A_D6_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN1A_D6_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN1A_D6_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN1A_D6_MUXMODE                     ,- VIN1A_D6. - VOUT3_D1. - VOUT3_D17. - EQEP2A_IN. - GPIO3_10. - DRIVER OFF." "VIN1A_D6,1,2,VOUT3_D1,VOUT3_D17,5,6,7,8,9,EQEP2A_IN,11,12,13,GPIO3_10,DRIVER_OFF"
group.long 0x1510++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN1A_D7,"
bitfld.long 0x00 25. " VIN1A_D7_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN1A_D7_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN1A_D7_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN1A_D7_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN1A_D7_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN1A_D7_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN1A_D7_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN1A_D7_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN1A_D7_MUXMODE                     ,- VIN1A_D7. - VOUT3_D0. - VOUT3_D16. - EQEP2B_IN. - GPIO3_11. - DRIVER OFF." "VIN1A_D7,1,2,VOUT3_D0,VOUT3_D16,5,6,7,8,9,EQEP2B_IN,11,12,13,GPIO3_11,DRIVER_OFF"
group.long 0x1514++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN1A_D8,"
bitfld.long 0x00 25. " VIN1A_D8_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN1A_D8_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN1A_D8_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN1A_D8_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN1A_D8_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN1A_D8_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN1A_D8_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN1A_D8_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN1A_D8_MUXMODE                     ,- VIN1A_D8. - VIN1B_D7. - VOUT3_D15. - EQEP2_INDEX. - GPIO3_12. - DRIVER OFF." "VIN1A_D8,VIN1B_D7,2,3,VOUT3_D15,5,6,7,8,9,EQEP2_INDEX,11,12,13,GPIO3_12,DRIVER_OFF"
group.long 0x1518++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN1A_D9,"
bitfld.long 0x00 25. " VIN1A_D9_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN1A_D9_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN1A_D9_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN1A_D9_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN1A_D9_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN1A_D9_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN1A_D9_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN1A_D9_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN1A_D9_MUXMODE                     ,- VIN1A_D9. - VIN1B_D6. - VOUT3_D14. - EQEP2_STROBE. - GPIO3_13. - DRIVER OFF." "VIN1A_D9,VIN1B_D6,2,3,VOUT3_D14,5,6,7,8,9,EQEP2_STROBE,11,12,13,GPIO3_13,DRIVER_OFF"
group.long 0x151C++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN1A_D10,"
bitfld.long 0x00 25. " VIN1A_D10_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN1A_D10_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN1A_D10_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN1A_D10_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN1A_D10_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN1A_D10_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN1A_D10_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN1A_D10_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN1A_D10_MUXMODE                    ,- VIN1A_D10. - VIN1B_D5. - VOUT3_D13. - GPIO3_14. - DRIVER OFF." "VIN1A_D10,VIN1B_D5,2,3,VOUT3_D13,5,6,7,8,9,10,11,12,13,GPIO3_14,DRIVER_OFF"
group.long 0x1520++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN1A_D11,"
bitfld.long 0x00 25. " VIN1A_D11_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN1A_D11_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN1A_D11_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN1A_D11_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN1A_D11_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN1A_D11_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN1A_D11_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN1A_D11_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN1A_D11_MUXMODE                    ,- VIN1A_D11. - VIN1B_D4. - VOUT3_D12. - GPMC_A23. - GPIO3_15. - DRIVER OFF." "VIN1A_D11,VIN1B_D4,2,3,VOUT3_D12,GPMC_A23,6,7,8,9,10,11,12,13,GPIO3_15,DRIVER_OFF"
group.long 0x1524++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN1A_D12,"
bitfld.long 0x00 25. " VIN1A_D12_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN1A_D12_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN1A_D12_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN1A_D12_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN1A_D12_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN1A_D12_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN1A_D12_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN1A_D12_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN1A_D12_MUXMODE                    ,- VIN1A_D12. - VIN1B_D3. - USB3_ULPI_D7. - VOUT3_D11. - GPMC_A24. - GPIO3_16. - DRIVER OFF." "VIN1A_D12,VIN1B_D3,USB3_ULPI_D7,3,VOUT3_D11,GPMC_A24,6,7,8,9,10,11,12,13,GPIO3_16,DRIVER_OFF"
group.long 0x1528++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN1A_D13,"
bitfld.long 0x00 25. " VIN1A_D13_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN1A_D13_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN1A_D13_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN1A_D13_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN1A_D13_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN1A_D13_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN1A_D13_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN1A_D13_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN1A_D13_MUXMODE                    ,- VIN1A_D13. - VIN1B_D2. - USB3_ULPI_D6. - VOUT3_D10. - GPMC_A25. - GPIO3_17. - DRIVER OFF." "VIN1A_D13,VIN1B_D2,USB3_ULPI_D6,3,VOUT3_D10,GPMC_A25,6,7,8,9,10,11,12,13,GPIO3_17,DRIVER_OFF"
group.long 0x152C++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN1A_D14,"
bitfld.long 0x00 25. " VIN1A_D14_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN1A_D14_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN1A_D14_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN1A_D14_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN1A_D14_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN1A_D14_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN1A_D14_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN1A_D14_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN1A_D14_MUXMODE                    ,- VIN1A_D14. - VIN1B_D1. - USB3_ULPI_D5. - VOUT3_D9. - GPMC_A26. - GPIO3_18. - DRIVER OFF." "VIN1A_D14,VIN1B_D1,USB3_ULPI_D5,3,VOUT3_D9,GPMC_A26,6,7,8,9,10,11,12,13,GPIO3_18,DRIVER_OFF"
group.long 0x1530++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN1A_D15,"
bitfld.long 0x00 25. " VIN1A_D15_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN1A_D15_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN1A_D15_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN1A_D15_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN1A_D15_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN1A_D15_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN1A_D15_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN1A_D15_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN1A_D15_MUXMODE                    ,- VIN1A_D15. - VIN1B_D0. - USB3_ULPI_D4. - VOUT3_D8. - GPMC_A27. - GPIO3_19. - DRIVER OFF." "VIN1A_D15,VIN1B_D0,USB3_ULPI_D4,3,VOUT3_D8,GPMC_A27,6,7,8,9,10,11,12,13,GPIO3_19,DRIVER_OFF"
group.long 0x1534++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN1A_D16,"
bitfld.long 0x00 25. " VIN1A_D16_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN1A_D16_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN1A_D16_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN1A_D16_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN1A_D16_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN1A_D16_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN1A_D16_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN1A_D16_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN1A_D16_MUXMODE                    ,- VIN1A_D16. - VIN1B_D7. - USB3_ULPI_D3. - VOUT3_D7. - VIN3A_D0. - GPIO3_20. - DRIVER OFF." "VIN1A_D16,VIN1B_D7,USB3_ULPI_D3,3,VOUT3_D7,5,VIN3A_D0,7,8,9,10,11,12,13,GPIO3_20,DRIVER_OFF"
group.long 0x1538++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN1A_D17,"
bitfld.long 0x00 25. " VIN1A_D17_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN1A_D17_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN1A_D17_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN1A_D17_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN1A_D17_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN1A_D17_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN1A_D17_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN1A_D17_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN1A_D17_MUXMODE                    ,- VIN1A_D17. - VIN1B_D6. - USB3_ULPI_D2. - VOUT3_D6. - VIN3A_D1. - GPIO3_21. - DRIVER OFF." "VIN1A_D17,VIN1B_D6,USB3_ULPI_D2,3,VOUT3_D6,5,VIN3A_D1,7,8,9,10,11,12,13,GPIO3_21,DRIVER_OFF"
group.long 0x153C++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN1A_D18,"
bitfld.long 0x00 25. " VIN1A_D18_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN1A_D18_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN1A_D18_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN1A_D18_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN1A_D18_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN1A_D18_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN1A_D18_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN1A_D18_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN1A_D18_MUXMODE                    ,- VIN1A_D18. - VIN1B_D5. - USB3_ULPI_D1. - VOUT3_D5. - VIN3A_D2. - GPIO3_22. - DRIVER OFF." "VIN1A_D18,VIN1B_D5,USB3_ULPI_D1,3,VOUT3_D5,5,VIN3A_D2,7,8,9,10,11,12,13,GPIO3_22,DRIVER_OFF"
group.long 0x1540++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN1A_D19,"
bitfld.long 0x00 25. " VIN1A_D19_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN1A_D19_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN1A_D19_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN1A_D19_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN1A_D19_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN1A_D19_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN1A_D19_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN1A_D19_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN1A_D19_MUXMODE                    ,- VIN1A_D19. - VIN1B_D4. - USB3_ULPI_D0. - VOUT3_D4. - VIN3A_D3. - GPIO3_23. - DRIVER OFF." "VIN1A_D19,VIN1B_D4,USB3_ULPI_D0,3,VOUT3_D4,5,VIN3A_D3,7,8,9,10,11,12,13,GPIO3_23,DRIVER_OFF"
group.long 0x1544++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN1A_D20,"
bitfld.long 0x00 25. " VIN1A_D20_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN1A_D20_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN1A_D20_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN1A_D20_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN1A_D20_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN1A_D20_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN1A_D20_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN1A_D20_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN1A_D20_MUXMODE                    ,- VIN1A_D20. - VIN1B_D3. - USB3_ULPI_NXT. - VOUT3_D3. - VIN3A_D4. - GPIO3_24. - DRIVER OFF." "VIN1A_D20,VIN1B_D3,USB3_ULPI_NXT,3,VOUT3_D3,5,VIN3A_D4,7,8,9,10,11,12,13,GPIO3_24,DRIVER_OFF"
group.long 0x1548++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN1A_D21,"
bitfld.long 0x00 25. " VIN1A_D21_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN1A_D21_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN1A_D21_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN1A_D21_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN1A_D21_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN1A_D21_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN1A_D21_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN1A_D21_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN1A_D21_MUXMODE                    ,- VIN1A_D21. - VIN1B_D2. - USB3_ULPI_DIR. - VOUT3_D2. - VIN3A_D5. - GPIO3_25. - DRIVER OFF." "VIN1A_D21,VIN1B_D2,USB3_ULPI_DIR,3,VOUT3_D2,5,VIN3A_D5,7,8,9,10,11,12,13,GPIO3_25,DRIVER_OFF"
group.long 0x154C++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN1A_D22,"
bitfld.long 0x00 25. " VIN1A_D22_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN1A_D22_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN1A_D22_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN1A_D22_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN1A_D22_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN1A_D22_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN1A_D22_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN1A_D22_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN1A_D22_MUXMODE                    ,- VIN1A_D22. - VIN1B_D1. - USB3_ULPI_STP. - VOUT3_D1. - VIN3A_D6. - GPIO3_26. - DRIVER OFF." "VIN1A_D22,VIN1B_D1,USB3_ULPI_STP,3,VOUT3_D1,5,VIN3A_D6,7,8,9,10,11,12,13,GPIO3_26,DRIVER_OFF"
group.long 0x1550++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN1A_D23,"
bitfld.long 0x00 25. " VIN1A_D23_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN1A_D23_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN1A_D23_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN1A_D23_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN1A_D23_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN1A_D23_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN1A_D23_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN1A_D23_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN1A_D23_MUXMODE                    ,- VIN1A_D23. - VIN1B_D0. - USB3_ULPI_CLK. - VOUT3_D0. - VIN3A_D7. - GPIO3_27. - DRIVER OFF." "VIN1A_D23,VIN1B_D0,USB3_ULPI_CLK,3,VOUT3_D0,5,VIN3A_D7,7,8,9,10,11,12,13,GPIO3_27,DRIVER_OFF"
group.long 0x1554++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN2A_CLK0,"
bitfld.long 0x00 25. " VIN2A_CLK0_WAKEUPEVENT                ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN2A_CLK0_WAKEUPENABLE             ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN2A_CLK0_SLEWCONTROL               ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN2A_CLK0_INPUTENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN2A_CLK0_PULLTYPESELECT           ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN2A_CLK0_PULLUDENABLE              ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN2A_CLK0_MODESELECT                 ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN2A_CLK0_DELAYMODE                ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN2A_CLK0_MUXMODE                   ,- VIN2A_CLK0. - VOUT2_FLD. - EMU5. - EQEP1A_IN. - GPIO3_28. - DRIVER OFF." "VIN2A_CLK0,1,2,3,VOUT2_FLD,EMU5,6,7,8,9,EQEP1A_IN,11,12,13,GPIO3_28,DRIVER_OFF"
group.long 0x1558++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN2A_DE0,"
bitfld.long 0x00 25. " VIN2A_DE0_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN2A_DE0_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN2A_DE0_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN2A_DE0_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN2A_DE0_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN2A_DE0_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN2A_DE0_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN2A_DE0_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN2A_DE0_MUXMODE                    ,- VIN2A_DE0. - VIN2A_FLD0. - VIN2B_FLD1. - VIN2B_DE1. - VOUT2_DE. - EMU6. - EQEP1B_IN. - GPIO3_29. - DRIVER OFF." "VIN2A_DE0,VIN2A_FLD0,VIN2B_FLD1,VIN2B_DE1,VOUT2_DE,EMU6,6,7,8,9,EQEP1B_IN,11,12,13,GPIO3_29,DRIVER_OFF"
group.long 0x155C++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN2A_FLD0,"
bitfld.long 0x00 25. " VIN2A_FLD0_WAKEUPEVENT                ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN2A_FLD0_WAKEUPENABLE             ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN2A_FLD0_SLEWCONTROL               ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN2A_FLD0_INPUTENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN2A_FLD0_PULLTYPESELECT           ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN2A_FLD0_PULLUDENABLE              ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN2A_FLD0_MODESELECT                 ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN2A_FLD0_DELAYMODE                ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN2A_FLD0_MUXMODE                   ,- VIN2A_FLD0. - VIN2B_CLK1. - VOUT2_CLK. - EMU7. - EQEP1_INDEX. - GPIO3_30. - DRIVER OFF." "VIN2A_FLD0,1,VIN2B_CLK1,3,VOUT2_CLK,EMU7,6,7,8,9,EQEP1_INDEX,11,12,13,GPIO3_30,DRIVER_OFF"
group.long 0x1560++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN2A_HSYNC0,"
bitfld.long 0x00 25. " VIN2A_HSYNC0_WAKEUPEVENT              ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN2A_HSYNC0_WAKEUPENABLE           ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN2A_HSYNC0_SLEWCONTROL             ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN2A_HSYNC0_INPUTENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN2A_HSYNC0_PULLTYPESELECT         ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN2A_HSYNC0_PULLUDENABLE            ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN2A_HSYNC0_MODESELECT               ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN2A_HSYNC0_DELAYMODE              ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN2A_HSYNC0_MUXMODE                 ,- VIN2A_HSYNC0. - VIN2B_HSYNC1. - VOUT2_HSYNC. - EMU8. - UART9_RXD. - SPI4_SCLK. - EQEP1_STROBE. - GPIO3_31. - DRIVER OFF." "VIN2A_HSYNC0,1,2,VIN2B_HSYNC1,VOUT2_HSYNC,EMU8,6,UART9_RXD,SPI4_SCLK,9,EQEP1_STROBE,11,12,13,GPIO3_31,DRIVER_OFF"
group.long 0x1564++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN2A_VSYNC0,"
bitfld.long 0x00 25. " VIN2A_VSYNC0_WAKEUPEVENT              ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN2A_VSYNC0_WAKEUPENABLE           ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN2A_VSYNC0_SLEWCONTROL             ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN2A_VSYNC0_INPUTENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN2A_VSYNC0_PULLTYPESELECT         ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN2A_VSYNC0_PULLUDENABLE            ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN2A_VSYNC0_MODESELECT               ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN2A_VSYNC0_DELAYMODE              ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN2A_VSYNC0_MUXMODE                 ,- VIN2A_VSYNC0. - VIN2B_VSYNC1. - VOUT2_VSYNC. - EMU9. - UART9_TXD. - SPI4_D1. - EHRPWM1A. - GPIO4_0. - DRIVER OFF." "VIN2A_VSYNC0,1,2,VIN2B_VSYNC1,VOUT2_VSYNC,EMU9,6,UART9_TXD,SPI4_D1,9,EHRPWM1A,11,12,13,GPIO4_0,DRIVER_OFF"
group.long 0x1568++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN2A_D0,"
bitfld.long 0x00 25. " VIN2A_D0_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN2A_D0_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN2A_D0_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN2A_D0_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN2A_D0_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN2A_D0_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN2A_D0_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN2A_D0_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN2A_D0_MUXMODE                     ,- VIN2A_D0. - VOUT2_D23. - EMU10. - UART9_CTSN. - SPI4_D0. - EHRPWM1B. - GPIO4_1. - DRIVER OFF." "VIN2A_D0,1,2,3,VOUT2_D23,EMU10,6,UART9_CTSN,SPI4_D0,9,EHRPWM1B,11,12,13,GPIO4_1,DRIVER_OFF"
group.long 0x156C++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN2A_D1,"
bitfld.long 0x00 25. " VIN2A_D1_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN2A_D1_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN2A_D1_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN2A_D1_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN2A_D1_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN2A_D1_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN2A_D1_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN2A_D1_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN2A_D1_MUXMODE                     ,- VIN2A_D1. - VOUT2_D22. - EMU11. - UART9_RTSN. - SPI4_CS0. - EHRPWM1_TRIPZONE_INPUT. - GPIO4_2. - DRIVER OFF." "VIN2A_D1,1,2,3,VOUT2_D22,EMU11,6,UART9_RTSN,SPI4_CS0,9,EHRPWM1_TRIPZONE_INPUT,11,12,13,GPIO4_2,DRIVER_OFF"
group.long 0x1570++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN2A_D2,"
bitfld.long 0x00 25. " VIN2A_D2_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN2A_D2_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN2A_D2_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN2A_D2_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN2A_D2_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN2A_D2_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN2A_D2_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN2A_D2_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN2A_D2_MUXMODE                     ,- VIN2A_D2. - VOUT2_D21. - EMU12. - UART10_RXD. - ECAP1_IN_PWM1_OUT. - GPIO4_3. - DRIVER OFF." "VIN2A_D2,1,2,3,VOUT2_D21,EMU12,6,7,UART10_RXD,9,ECAP1_IN_PWM1_OUT,11,12,13,GPIO4_3,DRIVER_OFF"
group.long 0x1574++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN2A_D3,"
bitfld.long 0x00 25. " VIN2A_D3_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN2A_D3_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN2A_D3_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN2A_D3_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN2A_D3_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN2A_D3_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN2A_D3_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN2A_D3_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN2A_D3_MUXMODE                     ,- VIN2A_D3. - VOUT2_D20. - EMU13. - UART10_TXD. - EHRPWM1_SYNCI. - GPIO4_4. - DRIVER OFF." "VIN2A_D3,1,2,3,VOUT2_D20,EMU13,6,7,UART10_TXD,9,EHRPWM1_SYNCI,11,12,13,GPIO4_4,DRIVER_OFF"
group.long 0x1578++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN2A_D4,"
bitfld.long 0x00 25. " VIN2A_D4_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN2A_D4_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN2A_D4_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN2A_D4_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN2A_D4_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN2A_D4_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN2A_D4_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN2A_D4_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN2A_D4_MUXMODE                     ,- VIN2A_D4. - VOUT2_D19. - EMU14. - UART10_CTSN. - EHRPWM1_SYNCO. - GPIO4_5. - DRIVER OFF." "VIN2A_D4,1,2,3,VOUT2_D19,EMU14,6,7,UART10_CTSN,9,EHRPWM1_SYNCO,11,12,13,GPIO4_5,DRIVER_OFF"
group.long 0x157C++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN2A_D5,"
bitfld.long 0x00 25. " VIN2A_D5_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN2A_D5_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN2A_D5_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN2A_D5_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN2A_D5_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN2A_D5_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN2A_D5_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN2A_D5_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN2A_D5_MUXMODE                     ,- VIN2A_D5. - VOUT2_D18. - EMU15. - UART10_RTSN. - EQEP2A_IN. - GPIO4_6. - DRIVER OFF." "VIN2A_D5,1,2,3,VOUT2_D18,EMU15,6,7,UART10_RTSN,9,EQEP2A_IN,11,12,13,GPIO4_6,DRIVER_OFF"
group.long 0x1580++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN2A_D6,"
bitfld.long 0x00 25. " VIN2A_D6_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN2A_D6_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN2A_D6_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN2A_D6_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN2A_D6_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN2A_D6_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN2A_D6_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN2A_D6_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN2A_D6_MUXMODE                     ,- VIN2A_D6. - VOUT2_D17. - EMU16. - MII1_RXD1. - EQEP2B_IN. - GPIO4_7. - DRIVER OFF." "VIN2A_D6,1,2,3,VOUT2_D17,EMU16,6,7,MII1_RXD1,9,EQEP2B_IN,11,12,13,GPIO4_7,DRIVER_OFF"
group.long 0x1584++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN2A_D7,"
bitfld.long 0x00 25. " VIN2A_D7_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN2A_D7_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN2A_D7_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN2A_D7_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN2A_D7_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN2A_D7_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN2A_D7_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN2A_D7_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN2A_D7_MUXMODE                     ,- VIN2A_D7. - VOUT2_D16. - EMU17. - MII1_RXD2. - EQEP2_INDEX. - GPIO4_8. - DRIVER OFF." "VIN2A_D7,1,2,3,VOUT2_D16,EMU17,6,7,MII1_RXD2,9,EQEP2_INDEX,11,12,13,GPIO4_8,DRIVER_OFF"
group.long 0x1588++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN2A_D8,"
bitfld.long 0x00 25. " VIN2A_D8_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN2A_D8_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN2A_D8_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN2A_D8_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN2A_D8_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN2A_D8_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN2A_D8_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN2A_D8_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN2A_D8_MUXMODE                     ,- VIN2A_D8. - VOUT2_D15. - EMU18. - MII1_RXD3. - EQEP2_STROBE. - GPIO4_9. - DRIVER OFF." "VIN2A_D8,1,2,3,VOUT2_D15,EMU18,6,7,MII1_RXD3,9,EQEP2_STROBE,11,12,13,GPIO4_9,DRIVER_OFF"
group.long 0x158C++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN2A_D9,"
bitfld.long 0x00 25. " VIN2A_D9_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN2A_D9_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN2A_D9_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN2A_D9_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN2A_D9_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN2A_D9_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN2A_D9_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN2A_D9_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN2A_D9_MUXMODE                     ,- VIN2A_D9. - VOUT2_D14. - EMU19. - MII1_RXD0. - EHRPWM2A. - GPIO4_10. - DRIVER OFF." "VIN2A_D9,1,2,3,VOUT2_D14,EMU19,6,7,MII1_RXD0,9,EHRPWM2A,11,12,13,GPIO4_10,DRIVER_OFF"
group.long 0x1590++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN2A_D10,"
bitfld.long 0x00 25. " VIN2A_D10_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN2A_D10_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN2A_D10_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN2A_D10_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN2A_D10_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN2A_D10_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN2A_D10_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN2A_D10_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN2A_D10_MUXMODE                    ,- VIN2A_D10. - MDIO_MCLK. - VOUT2_D13. - EHRPWM2B. - GPIO4_11. - DRIVER OFF." "VIN2A_D10,1,2,MDIO_MCLK,VOUT2_D13,5,6,7,8,9,EHRPWM2B,11,12,13,GPIO4_11,DRIVER_OFF"
group.long 0x1594++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN2A_D11,"
bitfld.long 0x00 25. " VIN2A_D11_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN2A_D11_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN2A_D11_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN2A_D11_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN2A_D11_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN2A_D11_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN2A_D11_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN2A_D11_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN2A_D11_MUXMODE                    ,- VIN2A_D11. - MDIO_D. - VOUT2_D12. - EHRPWM2_TRIPZONE_INPUT. - GPIO4_12. - DRIVER OFF." "VIN2A_D11,1,2,MDIO_D,VOUT2_D12,5,6,7,8,9,EHRPWM2_TRIPZONE_INPUT,11,12,13,GPIO4_12,DRIVER_OFF"
group.long 0x1598++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN2A_D12,"
bitfld.long 0x00 25. " VIN2A_D12_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN2A_D12_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN2A_D12_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN2A_D12_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN2A_D12_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN2A_D12_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN2A_D12_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN2A_D12_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN2A_D12_MUXMODE                    ,- VIN2A_D12. - RGMII1_TXC. - VOUT2_D11. - MII1_RXCLK. - ECAP2_IN_PWM2_OUT. - GPIO4_13. - DRIVER OFF." "VIN2A_D12,1,2,RGMII1_TXC,VOUT2_D11,5,6,7,MII1_RXCLK,9,ECAP2_IN_PWM2_OUT,11,12,13,GPIO4_13,DRIVER_OFF"
group.long 0x159C++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN2A_D13,"
bitfld.long 0x00 25. " VIN2A_D13_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN2A_D13_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN2A_D13_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN2A_D13_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN2A_D13_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN2A_D13_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN2A_D13_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN2A_D13_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN2A_D13_MUXMODE                    ,- VIN2A_D13. - RGMII1_TXCTL. - VOUT2_D10. - MII1_RXDV. - EQEP3A_IN. - GPIO4_14. - DRIVER OFF." "VIN2A_D13,1,2,RGMII1_TXCTL,VOUT2_D10,5,6,7,MII1_RXDV,9,EQEP3A_IN,11,12,13,GPIO4_14,DRIVER_OFF"
group.long 0x15A0++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN2A_D14,"
bitfld.long 0x00 25. " VIN2A_D14_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN2A_D14_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN2A_D14_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN2A_D14_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN2A_D14_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN2A_D14_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN2A_D14_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN2A_D14_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN2A_D14_MUXMODE                    ,- VIN2A_D14. - RGMII1_TXD3. - VOUT2_D9. - MII1_TXCLK. - EQEP3B_IN. - GPIO4_15. - DRIVER OFF." "VIN2A_D14,1,2,RGMII1_TXD3,VOUT2_D9,5,6,7,MII1_TXCLK,9,EQEP3B_IN,11,12,13,GPIO4_15,DRIVER_OFF"
group.long 0x15A4++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN2A_D15,"
bitfld.long 0x00 25. " VIN2A_D15_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN2A_D15_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN2A_D15_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN2A_D15_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN2A_D15_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN2A_D15_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN2A_D15_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN2A_D15_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN2A_D15_MUXMODE                    ,- VIN2A_D15. - RGMII1_TXD2. - VOUT2_D8. - MII1_TXD0. - EQEP3_INDEX. - GPIO4_16. - DRIVER OFF." "VIN2A_D15,1,2,RGMII1_TXD2,VOUT2_D8,5,6,7,MII1_TXD0,9,EQEP3_INDEX,11,12,13,GPIO4_16,DRIVER_OFF"
group.long 0x15A8++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN2A_D16,"
bitfld.long 0x00 25. " VIN2A_D16_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN2A_D16_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN2A_D16_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN2A_D16_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN2A_D16_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN2A_D16_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN2A_D16_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN2A_D16_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN2A_D16_MUXMODE                    ,- VIN2A_D16. - VIN2B_D7. - RGMII1_TXD1. - VOUT2_D7. - VIN3A_D8. - MII1_TXD1. - EQEP3_STROBE. - GPIO4_24. - DRIVER OFF." "VIN2A_D16,1,VIN2B_D7,RGMII1_TXD1,VOUT2_D7,5,VIN3A_D8,7,MII1_TXD1,9,EQEP3_STROBE,11,12,13,GPIO4_24,DRIVER_OFF"
group.long 0x15AC++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN2A_D17,"
bitfld.long 0x00 25. " VIN2A_D17_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN2A_D17_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN2A_D17_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN2A_D17_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN2A_D17_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN2A_D17_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN2A_D17_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN2A_D17_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN2A_D17_MUXMODE                    ,- VIN2A_D17. - VIN2B_D6. - RGMII1_TXD0. - VOUT2_D6. - VIN3A_D9. - MII1_TXD2. - EHRPWM3A. - GPIO4_25. - DRIVER OFF." "VIN2A_D17,1,VIN2B_D6,RGMII1_TXD0,VOUT2_D6,5,VIN3A_D9,7,MII1_TXD2,9,EHRPWM3A,11,12,13,GPIO4_25,DRIVER_OFF"
group.long 0x15B0++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN2A_D18,"
bitfld.long 0x00 25. " VIN2A_D18_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN2A_D18_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN2A_D18_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN2A_D18_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN2A_D18_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN2A_D18_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN2A_D18_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN2A_D18_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN2A_D18_MUXMODE                    ,- VIN2A_D18. - VIN2B_D5. - RGMII1_RXC. - VOUT2_D5. - VIN3A_D10. - MII1_TXD3. - EHRPWM3B. - GPIO4_26. - DRIVER OFF." "VIN2A_D18,1,VIN2B_D5,RGMII1_RXC,VOUT2_D5,5,VIN3A_D10,7,MII1_TXD3,9,EHRPWM3B,11,12,13,GPIO4_26,DRIVER_OFF"
group.long 0x15B4++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN2A_D19,"
bitfld.long 0x00 25. " VIN2A_D19_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN2A_D19_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN2A_D19_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN2A_D19_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN2A_D19_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN2A_D19_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN2A_D19_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN2A_D19_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN2A_D19_MUXMODE                    ,- VIN2A_D19. - VIN2B_D4. - RGMII1_RXCTL. - VOUT2_D4. - VIN3A_D11. - MII1_TXER. - EHRPWM3_TRIPZONE_INPUT. - GPIO4_27. - DRIVER OFF." "VIN2A_D19,1,VIN2B_D4,RGMII1_RXCTL,VOUT2_D4,5,VIN3A_D11,7,MII1_TXER,9,EHRPWM3_TRIPZONE_INPUT,11,12,13,GPIO4_27,DRIVER_OFF"
group.long 0x15B8++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN2A_D20,"
bitfld.long 0x00 25. " VIN2A_D20_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN2A_D20_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN2A_D20_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN2A_D20_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN2A_D20_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN2A_D20_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN2A_D20_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN2A_D20_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN2A_D20_MUXMODE                    ,- VIN2A_D20. - VIN2B_D3. - RGMII1_RXD3. - VOUT2_D3. - VIN3A_DE0. - VIN3A_D12. - MII1_RXER. - ECAP3_IN_PWM3_OUT. - GPIO4_28. - DRIVER OFF." "VIN2A_D20,1,VIN2B_D3,RGMII1_RXD3,VOUT2_D3,VIN3A_DE0,VIN3A_D12,7,MII1_RXER,9,ECAP3_IN_PWM3_OUT,11,12,13,GPIO4_28,DRIVER_OFF"
group.long 0x15BC++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN2A_D21,"
bitfld.long 0x00 25. " VIN2A_D21_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN2A_D21_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN2A_D21_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN2A_D21_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN2A_D21_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN2A_D21_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN2A_D21_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN2A_D21_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN2A_D21_MUXMODE                    ,- VIN2A_D21. - VIN2B_D2. - RGMII1_RXD2. - VOUT2_D2. - VIN3A_FLD0. - VIN3A_D13. - MII1_COL. - GPIO4_29. - DRIVER OFF." "VIN2A_D21,1,VIN2B_D2,RGMII1_RXD2,VOUT2_D2,VIN3A_FLD0,VIN3A_D13,7,MII1_COL,9,10,11,12,13,GPIO4_29,DRIVER_OFF"
group.long 0x15C0++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN2A_D22,"
bitfld.long 0x00 25. " VIN2A_D22_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN2A_D22_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN2A_D22_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN2A_D22_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN2A_D22_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN2A_D22_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN2A_D22_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN2A_D22_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN2A_D22_MUXMODE                    ,- VIN2A_D22. - VIN2B_D1. - RGMII1_RXD1. - VOUT2_D1. - VIN3A_HSYNC0. - VIN3A_D14. - MII1_CRS. - GPIO4_30. - DRIVER OFF." "VIN2A_D22,1,VIN2B_D1,RGMII1_RXD1,VOUT2_D1,VIN3A_HSYNC0,VIN3A_D14,7,MII1_CRS,9,10,11,12,13,GPIO4_30,DRIVER_OFF"
group.long 0x15C4++0x3
line.long 0x00 "CTRL_CORE_PAD_VIN2A_D23,"
bitfld.long 0x00 25. " VIN2A_D23_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VIN2A_D23_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VIN2A_D23_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VIN2A_D23_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VIN2A_D23_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VIN2A_D23_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VIN2A_D23_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VIN2A_D23_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VIN2A_D23_MUXMODE                    ,- VIN2A_D23. - VIN2B_D0. - RGMII1_RXD0. - VOUT2_D0. - VIN3A_VSYNC0. - VIN3A_D15. - MII1_TXEN. - GPIO4_31. - DRIVER OFF." "VIN2A_D23,1,VIN2B_D0,RGMII1_RXD0,VOUT2_D0,VIN3A_VSYNC0,VIN3A_D15,7,MII1_TXEN,9,10,11,12,13,GPIO4_31,DRIVER_OFF"
group.long 0x15C8++0x3
line.long 0x00 "CTRL_CORE_PAD_VOUT1_CLK,"
bitfld.long 0x00 25. " VOUT1_CLK_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VOUT1_CLK_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VOUT1_CLK_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VOUT1_CLK_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VOUT1_CLK_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VOUT1_CLK_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VOUT1_CLK_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VOUT1_CLK_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VOUT1_CLK_MUXMODE                    ,- VOUT1_CLK. - VIN4A_FLD0. - VIN3A_FLD0. - SPI3_CS0. - GPIO4_19. - DRIVER OFF." "VOUT1_CLK,1,2,VIN4A_FLD0,VIN3A_FLD0,5,6,7,SPI3_CS0,9,10,11,12,13,GPIO4_19,DRIVER_OFF"
group.long 0x15CC++0x3
line.long 0x00 "CTRL_CORE_PAD_VOUT1_DE,"
bitfld.long 0x00 25. " VOUT1_DE_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VOUT1_DE_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VOUT1_DE_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VOUT1_DE_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VOUT1_DE_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VOUT1_DE_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VOUT1_DE_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VOUT1_DE_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VOUT1_DE_MUXMODE                     ,- VOUT1_DE. - VIN4A_DE0. - VIN3A_DE0. - SPI3_D1. - GPIO4_20. - DRIVER OFF." "VOUT1_DE,1,2,VIN4A_DE0,VIN3A_DE0,5,6,7,SPI3_D1,9,10,11,12,13,GPIO4_20,DRIVER_OFF"
group.long 0x15D0++0x3
line.long 0x00 "CTRL_CORE_PAD_VOUT1_FLD,"
bitfld.long 0x00 25. " VOUT1_FLD_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VOUT1_FLD_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VOUT1_FLD_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VOUT1_FLD_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VOUT1_FLD_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VOUT1_FLD_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VOUT1_FLD_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VOUT1_FLD_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VOUT1_FLD_MUXMODE                    ,- VOUT1_FLD. - VIN4A_CLK0. - VIN3A_CLK0. - SPI3_CS1. - GPIO4_21. - DRIVER OFF." "VOUT1_FLD,1,2,VIN4A_CLK0,VIN3A_CLK0,5,6,7,SPI3_CS1,9,10,11,12,13,GPIO4_21,DRIVER_OFF"
group.long 0x15D4++0x3
line.long 0x00 "CTRL_CORE_PAD_VOUT1_HSYNC,"
bitfld.long 0x00 25. " VOUT1_HSYNC_WAKEUPEVENT               ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VOUT1_HSYNC_WAKEUPENABLE            ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VOUT1_HSYNC_SLEWCONTROL              ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VOUT1_HSYNC_INPUTENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VOUT1_HSYNC_PULLTYPESELECT          ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VOUT1_HSYNC_PULLUDENABLE             ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VOUT1_HSYNC_MODESELECT                ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VOUT1_HSYNC_DELAYMODE               ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VOUT1_HSYNC_MUXMODE                  ,- VOUT1_HSYNC. - VIN4A_HSYNC0. - VIN3A_HSYNC0. - SPI3_D0. - GPIO4_22. - DRIVER OFF." "VOUT1_HSYNC,1,2,VIN4A_HSYNC0,VIN3A_HSYNC0,5,6,7,SPI3_D0,9,10,11,12,13,GPIO4_22,DRIVER_OFF"
group.long 0x15D8++0x3
line.long 0x00 "CTRL_CORE_PAD_VOUT1_VSYNC,"
bitfld.long 0x00 25. " VOUT1_VSYNC_WAKEUPEVENT               ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VOUT1_VSYNC_WAKEUPENABLE            ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VOUT1_VSYNC_SLEWCONTROL              ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VOUT1_VSYNC_INPUTENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VOUT1_VSYNC_PULLTYPESELECT          ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VOUT1_VSYNC_PULLUDENABLE             ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VOUT1_VSYNC_MODESELECT                ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VOUT1_VSYNC_DELAYMODE               ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VOUT1_VSYNC_MUXMODE                  ,- VOUT1_VSYNC. - VIN4A_VSYNC0. - VIN3A_VSYNC0. - SPI3_SCLK. - GPIO4_23. - DRIVER OFF." "VOUT1_VSYNC,1,2,VIN4A_VSYNC0,VIN3A_VSYNC0,5,6,7,SPI3_SCLK,9,10,11,12,13,GPIO4_23,DRIVER_OFF"
group.long 0x15DC++0x3
line.long 0x00 "CTRL_CORE_PAD_VOUT1_D0,"
bitfld.long 0x00 25. " VOUT1_D0_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VOUT1_D0_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VOUT1_D0_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VOUT1_D0_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VOUT1_D0_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VOUT1_D0_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VOUT1_D0_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VOUT1_D0_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VOUT1_D0_MUXMODE                     ,- VOUT1_D0. - UART5_RXD. - VIN4A_D16. - VIN3A_D16. - SPI3_CS2. - GPIO8_0. - DRIVER OFF." "VOUT1_D0,1,UART5_RXD,VIN4A_D16,VIN3A_D16,5,6,7,SPI3_CS2,9,10,11,12,13,GPIO8_0,DRIVER_OFF"
group.long 0x15E0++0x3
line.long 0x00 "CTRL_CORE_PAD_VOUT1_D1,"
bitfld.long 0x00 25. " VOUT1_D1_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VOUT1_D1_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VOUT1_D1_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VOUT1_D1_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VOUT1_D1_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VOUT1_D1_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VOUT1_D1_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VOUT1_D1_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VOUT1_D1_MUXMODE                     ,- VOUT1_D1. - UART5_TXD. - VIN4A_D17. - VIN3A_D17. - GPIO8_1. - DRIVER OFF." "VOUT1_D1,1,UART5_TXD,VIN4A_D17,VIN3A_D17,5,6,7,8,9,10,11,12,13,GPIO8_1,DRIVER_OFF"
group.long 0x15E4++0x3
line.long 0x00 "CTRL_CORE_PAD_VOUT1_D2,"
bitfld.long 0x00 25. " VOUT1_D2_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VOUT1_D2_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VOUT1_D2_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VOUT1_D2_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VOUT1_D2_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VOUT1_D2_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VOUT1_D2_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VOUT1_D2_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VOUT1_D2_MUXMODE                     ,- VOUT1_D2. - EMU2. - VIN4A_D18. - VIN3A_D18. - OBS0. - OBS16. - OBS_IRQ1. - GPIO8_2. - DRIVER OFF." "VOUT1_D2,1,EMU2,VIN4A_D18,VIN3A_D18,OBS0,OBS16,OBS_IRQ1,8,9,10,11,12,13,GPIO8_2,DRIVER_OFF"
group.long 0x15E8++0x3
line.long 0x00 "CTRL_CORE_PAD_VOUT1_D3,"
bitfld.long 0x00 25. " VOUT1_D3_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VOUT1_D3_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VOUT1_D3_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VOUT1_D3_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VOUT1_D3_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VOUT1_D3_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VOUT1_D3_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VOUT1_D3_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VOUT1_D3_MUXMODE                     ,- VOUT1_D3. - EMU5. - VIN4A_D19. - VIN3A_D19. - OBS1. - OBS17. - OBS_DMARQ1. - GPIO8_3. - DRIVER OFF." "VOUT1_D3,1,EMU5,VIN4A_D19,VIN3A_D19,OBS1,OBS17,OBS_DMARQ1,8,9,10,11,12,13,GPIO8_3,DRIVER_OFF"
group.long 0x15EC++0x3
line.long 0x00 "CTRL_CORE_PAD_VOUT1_D4,"
bitfld.long 0x00 25. " VOUT1_D4_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VOUT1_D4_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VOUT1_D4_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VOUT1_D4_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VOUT1_D4_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VOUT1_D4_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VOUT1_D4_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VOUT1_D4_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VOUT1_D4_MUXMODE                     ,- VOUT1_D4. - EMU6. - VIN4A_D20. - VIN3A_D20. - OBS2. - OBS18. - GPIO8_4. - DRIVER OFF." "VOUT1_D4,1,EMU6,VIN4A_D20,VIN3A_D20,OBS2,OBS18,7,8,9,10,11,12,13,GPIO8_4,DRIVER_OFF"
group.long 0x15F0++0x3
line.long 0x00 "CTRL_CORE_PAD_VOUT1_D5,"
bitfld.long 0x00 25. " VOUT1_D5_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VOUT1_D5_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VOUT1_D5_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VOUT1_D5_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VOUT1_D5_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VOUT1_D5_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VOUT1_D5_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VOUT1_D5_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VOUT1_D5_MUXMODE                     ,- VOUT1_D5. - EMU7. - VIN4A_D21. - VIN3A_D21. - OBS3. - OBS19. - GPIO8_5. - DRIVER OFF." "VOUT1_D5,1,EMU7,VIN4A_D21,VIN3A_D21,OBS3,OBS19,7,8,9,10,11,12,13,GPIO8_5,DRIVER_OFF"
group.long 0x15F4++0x3
line.long 0x00 "CTRL_CORE_PAD_VOUT1_D6,"
bitfld.long 0x00 25. " VOUT1_D6_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VOUT1_D6_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VOUT1_D6_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VOUT1_D6_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VOUT1_D6_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VOUT1_D6_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VOUT1_D6_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VOUT1_D6_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VOUT1_D6_MUXMODE                     ,- VOUT1_D6. - EMU8. - VIN4A_D22. - VIN3A_D22. - OBS4. - OBS20. - GPIO8_6. - DRIVER OFF." "VOUT1_D6,1,EMU8,VIN4A_D22,VIN3A_D22,OBS4,OBS20,7,8,9,10,11,12,13,GPIO8_6,DRIVER_OFF"
group.long 0x15F8++0x3
line.long 0x00 "CTRL_CORE_PAD_VOUT1_D7,"
bitfld.long 0x00 25. " VOUT1_D7_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VOUT1_D7_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VOUT1_D7_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VOUT1_D7_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VOUT1_D7_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VOUT1_D7_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VOUT1_D7_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VOUT1_D7_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VOUT1_D7_MUXMODE                     ,- VOUT1_D7. - EMU9. - VIN4A_D23. - VIN3A_D23. - GPIO8_7. - DRIVER OFF." "VOUT1_D7,1,EMU9,VIN4A_D23,VIN3A_D23,5,6,7,8,9,10,11,12,13,GPIO8_7,DRIVER_OFF"
group.long 0x15FC++0x3
line.long 0x00 "CTRL_CORE_PAD_VOUT1_D8,"
bitfld.long 0x00 25. " VOUT1_D8_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VOUT1_D8_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VOUT1_D8_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VOUT1_D8_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VOUT1_D8_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VOUT1_D8_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VOUT1_D8_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VOUT1_D8_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VOUT1_D8_MUXMODE                     ,- VOUT1_D8. - UART6_RXD. - VIN4A_D8. - VIN3A_D8. - GPIO8_8. - DRIVER OFF." "VOUT1_D8,1,UART6_RXD,VIN4A_D8,VIN3A_D8,5,6,7,8,9,10,11,12,13,GPIO8_8,DRIVER_OFF"
group.long 0x1600++0x3
line.long 0x00 "CTRL_CORE_PAD_VOUT1_D9,"
bitfld.long 0x00 25. " VOUT1_D9_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VOUT1_D9_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VOUT1_D9_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VOUT1_D9_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VOUT1_D9_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VOUT1_D9_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VOUT1_D9_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VOUT1_D9_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VOUT1_D9_MUXMODE                     ,- VOUT1_D9. - UART6_TXD. - VIN4A_D9. - VIN3A_D9. - GPIO8_9. - DRIVER OFF." "VOUT1_D9,1,UART6_TXD,VIN4A_D9,VIN3A_D9,5,6,7,8,9,10,11,12,13,GPIO8_9,DRIVER_OFF"
group.long 0x1604++0x3
line.long 0x00 "CTRL_CORE_PAD_VOUT1_D10,"
bitfld.long 0x00 25. " VOUT1_D10_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VOUT1_D10_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VOUT1_D10_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VOUT1_D10_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VOUT1_D10_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VOUT1_D10_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VOUT1_D10_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VOUT1_D10_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VOUT1_D10_MUXMODE                    ,- VOUT1_D10. - EMU3. - VIN4A_D10. - VIN3A_D10. - OBS5. - OBS21. - OBS_IRQ2. - GPIO8_10. - DRIVER OFF." "VOUT1_D10,1,EMU3,VIN4A_D10,VIN3A_D10,OBS5,OBS21,OBS_IRQ2,8,9,10,11,12,13,GPIO8_10,DRIVER_OFF"
group.long 0x1608++0x3
line.long 0x00 "CTRL_CORE_PAD_VOUT1_D11,"
bitfld.long 0x00 25. " VOUT1_D11_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VOUT1_D11_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VOUT1_D11_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VOUT1_D11_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VOUT1_D11_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VOUT1_D11_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VOUT1_D11_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VOUT1_D11_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VOUT1_D11_MUXMODE                    ,- VOUT1_D11. - EMU10. - VIN4A_D11. - VIN3A_D11. - OBS6. - OBS22. - OBS_DMARQ2. - GPIO8_11. - DRIVER OFF." "VOUT1_D11,1,EMU10,VIN4A_D11,VIN3A_D11,OBS6,OBS22,OBS_DMARQ2,8,9,10,11,12,13,GPIO8_11,DRIVER_OFF"
group.long 0x160C++0x3
line.long 0x00 "CTRL_CORE_PAD_VOUT1_D12,"
bitfld.long 0x00 25. " VOUT1_D12_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VOUT1_D12_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VOUT1_D12_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VOUT1_D12_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VOUT1_D12_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VOUT1_D12_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VOUT1_D12_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VOUT1_D12_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VOUT1_D12_MUXMODE                    ,- VOUT1_D12. - EMU11. - VIN4A_D12. - VIN3A_D12. - OBS7. - OBS23. - GPIO8_12. - DRIVER OFF." "VOUT1_D12,1,EMU11,VIN4A_D12,VIN3A_D12,OBS7,OBS23,7,8,9,10,11,12,13,GPIO8_12,DRIVER_OFF"
group.long 0x1610++0x3
line.long 0x00 "CTRL_CORE_PAD_VOUT1_D13,"
bitfld.long 0x00 25. " VOUT1_D13_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VOUT1_D13_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VOUT1_D13_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VOUT1_D13_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VOUT1_D13_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VOUT1_D13_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VOUT1_D13_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VOUT1_D13_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VOUT1_D13_MUXMODE                    ,- VOUT1_D13. - EMU12. - VIN4A_D13. - VIN3A_D13. - OBS8. - OBS24. - GPIO8_13. - DRIVER OFF." "VOUT1_D13,1,EMU12,VIN4A_D13,VIN3A_D13,OBS8,OBS24,7,8,9,10,11,12,13,GPIO8_13,DRIVER_OFF"
group.long 0x1614++0x3
line.long 0x00 "CTRL_CORE_PAD_VOUT1_D14,"
bitfld.long 0x00 25. " VOUT1_D14_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VOUT1_D14_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VOUT1_D14_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VOUT1_D14_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VOUT1_D14_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VOUT1_D14_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VOUT1_D14_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VOUT1_D14_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VOUT1_D14_MUXMODE                    ,- VOUT1_D14. - EMU13. - VIN4A_D14. - VIN3A_D14. - OBS9. - OBS25. - GPIO8_14. - DRIVER OFF." "VOUT1_D14,1,EMU13,VIN4A_D14,VIN3A_D14,OBS9,OBS25,7,8,9,10,11,12,13,GPIO8_14,DRIVER_OFF"
group.long 0x1618++0x3
line.long 0x00 "CTRL_CORE_PAD_VOUT1_D15,"
bitfld.long 0x00 25. " VOUT1_D15_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VOUT1_D15_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VOUT1_D15_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VOUT1_D15_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VOUT1_D15_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VOUT1_D15_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VOUT1_D15_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VOUT1_D15_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VOUT1_D15_MUXMODE                    ,- VOUT1_D15. - EMU14. - VIN4A_D15. - VIN3A_D15. - OBS10. - OBS26. - GPIO8_15. - DRIVER OFF." "VOUT1_D15,1,EMU14,VIN4A_D15,VIN3A_D15,OBS10,OBS26,7,8,9,10,11,12,13,GPIO8_15,DRIVER_OFF"
group.long 0x161C++0x3
line.long 0x00 "CTRL_CORE_PAD_VOUT1_D16,"
bitfld.long 0x00 25. " VOUT1_D16_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VOUT1_D16_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VOUT1_D16_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VOUT1_D16_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VOUT1_D16_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VOUT1_D16_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VOUT1_D16_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VOUT1_D16_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VOUT1_D16_MUXMODE                    ,- VOUT1_D16. - UART7_RXD. - VIN4A_D0. - VIN3A_D0. - GPIO8_16. - DRIVER OFF." "VOUT1_D16,1,UART7_RXD,VIN4A_D0,VIN3A_D0,5,6,7,8,9,10,11,12,13,GPIO8_16,DRIVER_OFF"
group.long 0x1620++0x3
line.long 0x00 "CTRL_CORE_PAD_VOUT1_D17,"
bitfld.long 0x00 25. " VOUT1_D17_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VOUT1_D17_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VOUT1_D17_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VOUT1_D17_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VOUT1_D17_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VOUT1_D17_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VOUT1_D17_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VOUT1_D17_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VOUT1_D17_MUXMODE                    ,- VOUT1_D17. - UART7_TXD. - VIN4A_D1. - VIN3A_D1. - GPIO8_17. - DRIVER OFF." "VOUT1_D17,1,UART7_TXD,VIN4A_D1,VIN3A_D1,5,6,7,8,9,10,11,12,13,GPIO8_17,DRIVER_OFF"
group.long 0x1624++0x3
line.long 0x00 "CTRL_CORE_PAD_VOUT1_D18,"
bitfld.long 0x00 25. " VOUT1_D18_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VOUT1_D18_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VOUT1_D18_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VOUT1_D18_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VOUT1_D18_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VOUT1_D18_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VOUT1_D18_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VOUT1_D18_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VOUT1_D18_MUXMODE                    ,- VOUT1_D18. - EMU4. - VIN4A_D2. - VIN3A_D2. - OBS11. - OBS27. - GPIO8_18. - DRIVER OFF." "VOUT1_D18,1,EMU4,VIN4A_D2,VIN3A_D2,OBS11,OBS27,7,8,9,10,11,12,13,GPIO8_18,DRIVER_OFF"
group.long 0x1628++0x3
line.long 0x00 "CTRL_CORE_PAD_VOUT1_D19,"
bitfld.long 0x00 25. " VOUT1_D19_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VOUT1_D19_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VOUT1_D19_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VOUT1_D19_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VOUT1_D19_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VOUT1_D19_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VOUT1_D19_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VOUT1_D19_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VOUT1_D19_MUXMODE                    ,- VOUT1_D19. - EMU15. - VIN4A_D3. - VIN3A_D3. - OBS12. - OBS28. - GPIO8_19. - DRIVER OFF." "VOUT1_D19,1,EMU15,VIN4A_D3,VIN3A_D3,OBS12,OBS28,7,8,9,10,11,12,13,GPIO8_19,DRIVER_OFF"
group.long 0x162C++0x3
line.long 0x00 "CTRL_CORE_PAD_VOUT1_D20,"
bitfld.long 0x00 25. " VOUT1_D20_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VOUT1_D20_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VOUT1_D20_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VOUT1_D20_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VOUT1_D20_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VOUT1_D20_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VOUT1_D20_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VOUT1_D20_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VOUT1_D20_MUXMODE                    ,- VOUT1_D20. - EMU16. - VIN4A_D4. - VIN3A_D4. - OBS13. - OBS29. - GPIO8_20. - DRIVER OFF." "VOUT1_D20,1,EMU16,VIN4A_D4,VIN3A_D4,OBS13,OBS29,7,8,9,10,11,12,13,GPIO8_20,DRIVER_OFF"
group.long 0x1630++0x3
line.long 0x00 "CTRL_CORE_PAD_VOUT1_D21,"
bitfld.long 0x00 25. " VOUT1_D21_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VOUT1_D21_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VOUT1_D21_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VOUT1_D21_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VOUT1_D21_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VOUT1_D21_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VOUT1_D21_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VOUT1_D21_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VOUT1_D21_MUXMODE                    ,- VOUT1_D21. - EMU17. - VIN4A_D5. - VIN3A_D5. - OBS14. - OBS30. - GPIO8_21. - DRIVER OFF." "VOUT1_D21,1,EMU17,VIN4A_D5,VIN3A_D5,OBS14,OBS30,7,8,9,10,11,12,13,GPIO8_21,DRIVER_OFF"
group.long 0x1634++0x3
line.long 0x00 "CTRL_CORE_PAD_VOUT1_D22,"
bitfld.long 0x00 25. " VOUT1_D22_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VOUT1_D22_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VOUT1_D22_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VOUT1_D22_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VOUT1_D22_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VOUT1_D22_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VOUT1_D22_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VOUT1_D22_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VOUT1_D22_MUXMODE                    ,- VOUT1_D22. - EMU18. - VIN4A_D6. - VIN3A_D6. - OBS15. - OBS31. - GPIO8_22. - DRIVER OFF." "VOUT1_D22,1,EMU18,VIN4A_D6,VIN3A_D6,OBS15,OBS31,7,8,9,10,11,12,13,GPIO8_22,DRIVER_OFF"
group.long 0x1638++0x3
line.long 0x00 "CTRL_CORE_PAD_VOUT1_D23,"
bitfld.long 0x00 25. " VOUT1_D23_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      VOUT1_D23_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     VOUT1_D23_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " VOUT1_D23_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       VOUT1_D23_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   VOUT1_D23_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " VOUT1_D23_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    VOUT1_D23_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          VOUT1_D23_MUXMODE                    ,- VOUT1_D23. - EMU19. - VIN4A_D7. - VIN3A_D7. - SPI3_CS3. - GPIO8_23. - DRIVER OFF." "VOUT1_D23,1,EMU19,VIN4A_D7,VIN3A_D7,5,6,7,SPI3_CS3,9,10,11,12,13,GPIO8_23,DRIVER_OFF"
group.long 0x163C++0x3
line.long 0x00 "CTRL_CORE_PAD_MDIO_MCLK,"
bitfld.long 0x00 25. " MDIO_MCLK_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MDIO_MCLK_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MDIO_MCLK_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MDIO_MCLK_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MDIO_MCLK_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MDIO_MCLK_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MDIO_MCLK_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MDIO_MCLK_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MDIO_MCLK_MUXMODE                    ,- MDIO_MCLK. - UART3_RTSN. - MII0_COL. - VIN2A_CLK0. - VIN4B_CLK1. - GPIO5_15. - DRIVER OFF." "MDIO_MCLK,UART3_RTSN,2,MII0_COL,VIN2A_CLK0,VIN4B_CLK1,6,7,8,9,10,11,12,13,GPIO5_15,DRIVER_OFF"
group.long 0x1640++0x3
line.long 0x00 "CTRL_CORE_PAD_MDIO_D,"
bitfld.long 0x00 25. " MDIO_D_WAKEUPEVENT                    ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MDIO_D_WAKEUPENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MDIO_D_SLEWCONTROL                   ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MDIO_D_INPUTENABLE                    ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MDIO_D_PULLTYPESELECT               ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MDIO_D_PULLUDENABLE                  ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MDIO_D_MODESELECT                     ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MDIO_D_DELAYMODE                    ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MDIO_D_MUXMODE                       ,- MDIO_D. - UART3_CTSN. - MII0_TXER. - VIN2A_D0. - VIN4B_D0. - GPIO5_16. - DRIVER OFF." "MDIO_D,UART3_CTSN,2,MII0_TXER,VIN2A_D0,VIN4B_D0,6,7,8,9,10,11,12,13,GPIO5_16,DRIVER_OFF"
group.long 0x1644++0x3
line.long 0x00 "CTRL_CORE_PAD_RMII_MHZ_50_CLK,"
bitfld.long 0x00 25. " RMII_MHZ_50_CLK_WAKEUPEVENT           ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      RMII_MHZ_50_CLK_WAKEUPENABLE        ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     RMII_MHZ_50_CLK_SLEWCONTROL          ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " RMII_MHZ_50_CLK_INPUTENABLE           ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       RMII_MHZ_50_CLK_PULLTYPESELECT      ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   RMII_MHZ_50_CLK_PULLUDENABLE         ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " RMII_MHZ_50_CLK_MODESELECT            ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    RMII_MHZ_50_CLK_DELAYMODE           ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          RMII_MHZ_50_CLK_MUXMODE              ,- RMII_MHZ_50_CLK. - VIN2A_D11. - GPIO5_17. - DRIVER OFF." "RMII_MHZ_50_CLK,1,2,3,VIN2A_D11,5,6,7,8,9,10,11,12,13,GPIO5_17,DRIVER_OFF"
group.long 0x1648++0x3
line.long 0x00 "CTRL_CORE_PAD_UART3_RXD,"
bitfld.long 0x00 25. " UART3_RXD_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      UART3_RXD_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     UART3_RXD_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " UART3_RXD_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       UART3_RXD_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   UART3_RXD_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " UART3_RXD_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    UART3_RXD_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          UART3_RXD_MUXMODE                    ,- UART3_RXD. - RMII1_CRS. - MII0_RXDV. - VIN2A_D1. - VIN4B_D1. - SPI3_SCLK. - GPIO5_18. - DRIVER OFF." "UART3_RXD,1,RMII1_CRS,MII0_RXDV,VIN2A_D1,VIN4B_D1,6,SPI3_SCLK,8,9,10,11,12,13,GPIO5_18,DRIVER_OFF"
group.long 0x164C++0x3
line.long 0x00 "CTRL_CORE_PAD_UART3_TXD,"
bitfld.long 0x00 25. " UART3_TXD_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      UART3_TXD_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     UART3_TXD_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " UART3_TXD_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       UART3_TXD_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   UART3_TXD_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " UART3_TXD_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    UART3_TXD_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          UART3_TXD_MUXMODE                    ,- UART3_TXD. - RMII1_RXER. - MII0_RXCLK. - VIN2A_D2. - VIN4B_D2. - SPI3_D1. - SPI4_CS1. - GPIO5_19. - DRIVER OFF." "UART3_TXD,1,RMII1_RXER,MII0_RXCLK,VIN2A_D2,VIN4B_D2,6,SPI3_D1,SPI4_CS1,9,10,11,12,13,GPIO5_19,DRIVER_OFF"
group.long 0x1650++0x3
line.long 0x00 "CTRL_CORE_PAD_RGMII0_TXC,"
bitfld.long 0x00 25. " RGMII0_TXC_WAKEUPEVENT                ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      RGMII0_TXC_WAKEUPENABLE             ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     RGMII0_TXC_SLEWCONTROL               ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " RGMII0_TXC_INPUTENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       RGMII0_TXC_PULLTYPESELECT           ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   RGMII0_TXC_PULLUDENABLE              ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " RGMII0_TXC_MODESELECT                 ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    RGMII0_TXC_DELAYMODE                ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          RGMII0_TXC_MUXMODE                   ,- RGMII0_TXC. - UART3_CTSN. - RMII1_RXD1. - MII0_RXD3. - VIN2A_D3. - VIN4B_D3. - USB4_ULPI_CLK. - SPI3_D0. - SPI4_CS2. - GPIO5_20. - DRIVER OFF." "RGMII0_TXC,UART3_CTSN,RMII1_RXD1,MII0_RXD3,VIN2A_D3,VIN4B_D3,USB4_ULPI_CLK,SPI3_D0,SPI4_CS2,9,10,11,12,13,GPIO5_20,DRIVER_OFF"
group.long 0x1654++0x3
line.long 0x00 "CTRL_CORE_PAD_RGMII0_TXCTL,"
bitfld.long 0x00 25. " RGMII0_TXCTL_WAKEUPEVENT              ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      RGMII0_TXCTL_WAKEUPENABLE           ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     RGMII0_TXCTL_SLEWCONTROL             ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " RGMII0_TXCTL_INPUTENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       RGMII0_TXCTL_PULLTYPESELECT         ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   RGMII0_TXCTL_PULLUDENABLE            ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " RGMII0_TXCTL_MODESELECT               ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    RGMII0_TXCTL_DELAYMODE              ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          RGMII0_TXCTL_MUXMODE                 ,- RGMII0_TXCTL. - UART3_RTSN. - RMII1_RXD0. - MII0_RXD2. - VIN2A_D4. - VIN4B_D4. - USB4_ULPI_STP. - SPI3_CS0. - SPI4_CS3. - GPIO5_21. - DRIVER OFF." "RGMII0_TXCTL,UART3_RTSN,RMII1_RXD0,MII0_RXD2,VIN2A_D4,VIN4B_D4,USB4_ULPI_STP,SPI3_CS0,SPI4_CS3,9,10,11,12,13,GPIO5_21,DRIVER_OFF"
group.long 0x1658++0x3
line.long 0x00 "CTRL_CORE_PAD_RGMII0_TXD3,"
bitfld.long 0x00 25. " RGMII0_TXD3_WAKEUPEVENT               ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      RGMII0_TXD3_WAKEUPENABLE            ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     RGMII0_TXD3_SLEWCONTROL              ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " RGMII0_TXD3_INPUTENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       RGMII0_TXD3_PULLTYPESELECT          ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   RGMII0_TXD3_PULLUDENABLE             ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " RGMII0_TXD3_MODESELECT                ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    RGMII0_TXD3_DELAYMODE               ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          RGMII0_TXD3_MUXMODE                  ,- RGMII0_TXD3. - RMII0_CRS. - MII0_CRS. - VIN2A_DE0. - VIN4B_DE1. - USB4_ULPI_DIR. - SPI4_SCLK. - UART4_RXD. - GPIO5_22. - DRIVER OFF." "RGMII0_TXD3,RMII0_CRS,2,MII0_CRS,VIN2A_DE0,VIN4B_DE1,USB4_ULPI_DIR,SPI4_SCLK,UART4_RXD,9,10,11,12,13,GPIO5_22,DRIVER_OFF"
group.long 0x165C++0x3
line.long 0x00 "CTRL_CORE_PAD_RGMII0_TXD2,"
bitfld.long 0x00 25. " RGMII0_TXD2_WAKEUPEVENT               ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      RGMII0_TXD2_WAKEUPENABLE            ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     RGMII0_TXD2_SLEWCONTROL              ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " RGMII0_TXD2_INPUTENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       RGMII0_TXD2_PULLTYPESELECT          ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   RGMII0_TXD2_PULLUDENABLE             ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " RGMII0_TXD2_MODESELECT                ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    RGMII0_TXD2_DELAYMODE               ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          RGMII0_TXD2_MUXMODE                  ,- RGMII0_TXD2. - RMII0_RXER. - MII0_RXER. - VIN2A_HSYNC0. - VIN4B_HSYNC1. - USB4_ULPI_NXT. - SPI4_D1. - UART4_TXD. - GPIO5_23. - DRIVER OFF." "RGMII0_TXD2,RMII0_RXER,2,MII0_RXER,VIN2A_HSYNC0,VIN4B_HSYNC1,USB4_ULPI_NXT,SPI4_D1,UART4_TXD,9,10,11,12,13,GPIO5_23,DRIVER_OFF"
group.long 0x1660++0x3
line.long 0x00 "CTRL_CORE_PAD_RGMII0_TXD1,"
bitfld.long 0x00 25. " RGMII0_TXD1_WAKEUPEVENT               ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      RGMII0_TXD1_WAKEUPENABLE            ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     RGMII0_TXD1_SLEWCONTROL              ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " RGMII0_TXD1_INPUTENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       RGMII0_TXD1_PULLTYPESELECT          ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   RGMII0_TXD1_PULLUDENABLE             ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " RGMII0_TXD1_MODESELECT                ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    RGMII0_TXD1_DELAYMODE               ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          RGMII0_TXD1_MUXMODE                  ,- RGMII0_TXD1. - RMII0_RXD1. - MII0_RXD1. - VIN2A_VSYNC0. - VIN4B_VSYNC1. - USB4_ULPI_D0. - SPI4_D0. - UART4_CTSN. - GPIO5_24. - DRIVER OFF." "RGMII0_TXD1,RMII0_RXD1,2,MII0_RXD1,VIN2A_VSYNC0,VIN4B_VSYNC1,USB4_ULPI_D0,SPI4_D0,UART4_CTSN,9,10,11,12,13,GPIO5_24,DRIVER_OFF"
group.long 0x1664++0x3
line.long 0x00 "CTRL_CORE_PAD_RGMII0_TXD0,"
bitfld.long 0x00 25. " RGMII0_TXD0_WAKEUPEVENT               ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      RGMII0_TXD0_WAKEUPENABLE            ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     RGMII0_TXD0_SLEWCONTROL              ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " RGMII0_TXD0_INPUTENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       RGMII0_TXD0_PULLTYPESELECT          ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   RGMII0_TXD0_PULLUDENABLE             ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " RGMII0_TXD0_MODESELECT                ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    RGMII0_TXD0_DELAYMODE               ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          RGMII0_TXD0_MUXMODE                  ,- RGMII0_TXD0. - RMII0_RXD0. - MII0_RXD0. - VIN2A_D10. - USB4_ULPI_D1. - SPI4_CS0. - UART4_RTSN. - GPIO5_25. - DRIVER OFF." "RGMII0_TXD0,RMII0_RXD0,2,MII0_RXD0,VIN2A_D10,5,USB4_ULPI_D1,SPI4_CS0,UART4_RTSN,9,10,11,12,13,GPIO5_25,DRIVER_OFF"
group.long 0x1668++0x3
line.long 0x00 "CTRL_CORE_PAD_RGMII0_RXC,"
bitfld.long 0x00 25. " RGMII0_RXC_WAKEUPEVENT                ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      RGMII0_RXC_WAKEUPENABLE             ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     RGMII0_RXC_SLEWCONTROL               ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " RGMII0_RXC_INPUTENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       RGMII0_RXC_PULLTYPESELECT           ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   RGMII0_RXC_PULLUDENABLE              ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " RGMII0_RXC_MODESELECT                 ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    RGMII0_RXC_DELAYMODE                ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          RGMII0_RXC_MUXMODE                   ,- RGMII0_RXC. - RMII1_TXEN. - MII0_TXCLK. - VIN2A_D5. - VIN4B_D5. - USB4_ULPI_D2. - GPIO5_26. - DRIVER OFF." "RGMII0_RXC,1,RMII1_TXEN,MII0_TXCLK,VIN2A_D5,VIN4B_D5,USB4_ULPI_D2,7,8,9,10,11,12,13,GPIO5_26,DRIVER_OFF"
group.long 0x166C++0x3
line.long 0x00 "CTRL_CORE_PAD_RGMII0_RXCTL,"
bitfld.long 0x00 25. " RGMII0_RXCTL_WAKEUPEVENT              ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      RGMII0_RXCTL_WAKEUPENABLE           ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     RGMII0_RXCTL_SLEWCONTROL             ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " RGMII0_RXCTL_INPUTENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       RGMII0_RXCTL_PULLTYPESELECT         ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   RGMII0_RXCTL_PULLUDENABLE            ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " RGMII0_RXCTL_MODESELECT               ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    RGMII0_RXCTL_DELAYMODE              ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          RGMII0_RXCTL_MUXMODE                 ,- RGMII0_RXCTL. - RMII1_TXD1. - MII0_TXD3. - VIN2A_D6. - VIN4B_D6. - USB4_ULPI_D3. - GPIO5_27. - DRIVER OFF." "RGMII0_RXCTL,1,RMII1_TXD1,MII0_TXD3,VIN2A_D6,VIN4B_D6,USB4_ULPI_D3,7,8,9,10,11,12,13,GPIO5_27,DRIVER_OFF"
group.long 0x1670++0x3
line.long 0x00 "CTRL_CORE_PAD_RGMII0_RXD3,"
bitfld.long 0x00 25. " RGMII0_RXD3_WAKEUPEVENT               ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      RGMII0_RXD3_WAKEUPENABLE            ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     RGMII0_RXD3_SLEWCONTROL              ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " RGMII0_RXD3_INPUTENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       RGMII0_RXD3_PULLTYPESELECT          ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   RGMII0_RXD3_PULLUDENABLE             ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " RGMII0_RXD3_MODESELECT                ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    RGMII0_RXD3_DELAYMODE               ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          RGMII0_RXD3_MUXMODE                  ,- RGMII0_RXD3. - RMII1_TXD0. - MII0_TXD2. - VIN2A_D7. - VIN4B_D7. - USB4_ULPI_D4. - GPIO5_28. - DRIVER OFF." "RGMII0_RXD3,1,RMII1_TXD0,MII0_TXD2,VIN2A_D7,VIN4B_D7,USB4_ULPI_D4,7,8,9,10,11,12,13,GPIO5_28,DRIVER_OFF"
group.long 0x1674++0x3
line.long 0x00 "CTRL_CORE_PAD_RGMII0_RXD2,"
bitfld.long 0x00 25. " RGMII0_RXD2_WAKEUPEVENT               ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      RGMII0_RXD2_WAKEUPENABLE            ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     RGMII0_RXD2_SLEWCONTROL              ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " RGMII0_RXD2_INPUTENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       RGMII0_RXD2_PULLTYPESELECT          ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   RGMII0_RXD2_PULLUDENABLE             ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " RGMII0_RXD2_MODESELECT                ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    RGMII0_RXD2_DELAYMODE               ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          RGMII0_RXD2_MUXMODE                  ,- RGMII0_RXD2. - RMII0_TXEN. - MII0_TXEN. - VIN2A_D8. - USB4_ULPI_D5. - GPIO5_29. - DRIVER OFF." "RGMII0_RXD2,RMII0_TXEN,2,MII0_TXEN,VIN2A_D8,5,USB4_ULPI_D5,7,8,9,10,11,12,13,GPIO5_29,DRIVER_OFF"
group.long 0x1678++0x3
line.long 0x00 "CTRL_CORE_PAD_RGMII0_RXD1,"
bitfld.long 0x00 25. " RGMII0_RXD1_WAKEUPEVENT               ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      RGMII0_RXD1_WAKEUPENABLE            ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     RGMII0_RXD1_SLEWCONTROL              ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " RGMII0_RXD1_INPUTENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       RGMII0_RXD1_PULLTYPESELECT          ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   RGMII0_RXD1_PULLUDENABLE             ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " RGMII0_RXD1_MODESELECT                ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    RGMII0_RXD1_DELAYMODE               ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          RGMII0_RXD1_MUXMODE                  ,- RGMII0_RXD1. - RMII0_TXD1. - MII0_TXD1. - VIN2A_D9. - USB4_ULPI_D6. - GPIO5_30. - DRIVER OFF." "RGMII0_RXD1,RMII0_TXD1,2,MII0_TXD1,VIN2A_D9,5,USB4_ULPI_D6,7,8,9,10,11,12,13,GPIO5_30,DRIVER_OFF"
group.long 0x167C++0x3
line.long 0x00 "CTRL_CORE_PAD_RGMII0_RXD0,"
bitfld.long 0x00 25. " RGMII0_RXD0_WAKEUPEVENT               ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      RGMII0_RXD0_WAKEUPENABLE            ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     RGMII0_RXD0_SLEWCONTROL              ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " RGMII0_RXD0_INPUTENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       RGMII0_RXD0_PULLTYPESELECT          ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   RGMII0_RXD0_PULLUDENABLE             ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " RGMII0_RXD0_MODESELECT                ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    RGMII0_RXD0_DELAYMODE               ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          RGMII0_RXD0_MUXMODE                  ,- RGMII0_RXD0. - RMII0_TXD0. - MII0_TXD0. - VIN2A_FLD0. - VIN4B_FLD1. - USB4_ULPI_D7. - GPIO5_31. - DRIVER OFF." "RGMII0_RXD0,RMII0_TXD0,2,MII0_TXD0,VIN2A_FLD0,VIN4B_FLD1,USB4_ULPI_D7,7,8,9,10,11,12,13,GPIO5_31,DRIVER_OFF"
group.long 0x1680++0x3
line.long 0x00 "CTRL_CORE_PAD_USB1_DRVVBUS,"
bitfld.long 0x00 25. " USB1_DRVVBUS_WAKEUPEVENT              ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      USB1_DRVVBUS_WAKEUPENABLE           ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     USB1_DRVVBUS_SLEWCONTROL             ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " USB1_DRVVBUS_INPUTENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       USB1_DRVVBUS_PULLTYPESELECT         ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   USB1_DRVVBUS_PULLUDENABLE            ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " USB1_DRVVBUS_MODESELECT               ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    USB1_DRVVBUS_DELAYMODE              ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          USB1_DRVVBUS_MUXMODE                 ,- USB1_DRVVBUS. - TIMER16. - GPIO6_12. - DRIVER OFF." "USB1_DRVVBUS,1,2,3,4,5,6,TIMER16,8,9,10,11,12,13,GPIO6_12,DRIVER_OFF"
group.long 0x1684++0x3
line.long 0x00 "CTRL_CORE_PAD_USB2_DRVVBUS,"
bitfld.long 0x00 25. " USB2_DRVVBUS_WAKEUPEVENT              ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      USB2_DRVVBUS_WAKEUPENABLE           ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     USB2_DRVVBUS_SLEWCONTROL             ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " USB2_DRVVBUS_INPUTENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       USB2_DRVVBUS_PULLTYPESELECT         ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   USB2_DRVVBUS_PULLUDENABLE            ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " USB2_DRVVBUS_MODESELECT               ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    USB2_DRVVBUS_DELAYMODE              ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          USB2_DRVVBUS_MUXMODE                 ,- USB2_DRVVBUS. - TIMER15. - GPIO6_13. - DRIVER OFF." "USB2_DRVVBUS,1,2,3,4,5,6,TIMER15,8,9,10,11,12,13,GPIO6_13,DRIVER_OFF"
group.long 0x1688++0x3
line.long 0x00 "CTRL_CORE_PAD_GPIO6_14,"
bitfld.long 0x00 25. " GPIO6_14_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPIO6_14_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPIO6_14_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPIO6_14_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPIO6_14_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPIO6_14_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPIO6_14_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPIO6_14_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPIO6_14_MUXMODE                     ,- GPIO6_14. - MCASP1_AXR8. - DCAN2_TX. - UART10_RXD. - VOUT2_HSYNC. - VIN4A_HSYNC0. - I2C3_SDA. - TIMER1. - GPIO6_14. - DRIVER OFF." "GPIO6_14,MCASP1_AXR8,DCAN2_TX,UART10_RXD,4,5,VOUT2_HSYNC,7,VIN4A_HSYNC0,I2C3_SDA,TIMER1,11,12,13,GPIO6_14,DRIVER_OFF"
group.long 0x168C++0x3
line.long 0x00 "CTRL_CORE_PAD_GPIO6_15,"
bitfld.long 0x00 25. " GPIO6_15_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPIO6_15_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPIO6_15_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPIO6_15_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPIO6_15_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPIO6_15_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPIO6_15_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPIO6_15_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPIO6_15_MUXMODE                     ,- GPIO6_15. - MCASP1_AXR9. - DCAN2_RX. - UART10_TXD. - VOUT2_VSYNC. - VIN4A_VSYNC0. - I2C3_SCL. - TIMER2. - GPIO6_15. - DRIVER OFF." "GPIO6_15,MCASP1_AXR9,DCAN2_RX,UART10_TXD,4,5,VOUT2_VSYNC,7,VIN4A_VSYNC0,I2C3_SCL,TIMER2,11,12,13,GPIO6_15,DRIVER_OFF"
group.long 0x1690++0x3
line.long 0x00 "CTRL_CORE_PAD_GPIO6_16,"
bitfld.long 0x00 25. " GPIO6_16_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPIO6_16_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPIO6_16_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPIO6_16_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPIO6_16_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPIO6_16_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPIO6_16_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPIO6_16_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPIO6_16_MUXMODE                     ,- GPIO6_16. - MCASP1_AXR10. - VOUT2_FLD. - VIN4A_FLD0. - CLKOUT1. - TIMER3. - GPIO6_16. - DRIVER OFF." "GPIO6_16,MCASP1_AXR10,2,3,4,5,VOUT2_FLD,7,VIN4A_FLD0,CLKOUT1,TIMER3,11,12,13,GPIO6_16,DRIVER_OFF"
group.long 0x1694++0x3
line.long 0x00 "CTRL_CORE_PAD_XREF_CLK0,"
bitfld.long 0x00 25. " XREF_CLK0_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      XREF_CLK0_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     XREF_CLK0_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " XREF_CLK0_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       XREF_CLK0_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   XREF_CLK0_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " XREF_CLK0_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    XREF_CLK0_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          XREF_CLK0_MUXMODE                    ,- XREF_CLK0. - MCASP2_AXR8. - MCASP1_AXR4. - MCASP1_AHCLKX. - MCASP5_AHCLKX. - VIN6A_D0. - CLKOUT2. - TIMER13. - GPIO6_17. - DRIVER OFF." "XREF_CLK0,MCASP2_AXR8,MCASP1_AXR4,MCASP1_AHCLKX,MCASP5_AHCLKX,5,6,VIN6A_D0,8,CLKOUT2,TIMER13,11,12,13,GPIO6_17,DRIVER_OFF"
group.long 0x1698++0x3
line.long 0x00 "CTRL_CORE_PAD_XREF_CLK1,"
bitfld.long 0x00 25. " XREF_CLK1_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      XREF_CLK1_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     XREF_CLK1_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " XREF_CLK1_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       XREF_CLK1_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   XREF_CLK1_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " XREF_CLK1_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    XREF_CLK1_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          XREF_CLK1_MUXMODE                    ,- XREF_CLK1. - MCASP2_AXR9. - MCASP1_AXR5. - MCASP2_AHCLKX. - MCASP6_AHCLKX. - VIN6A_CLK0. - TIMER14. - GPIO6_18. - DRIVER OFF." "XREF_CLK1,MCASP2_AXR9,MCASP1_AXR5,MCASP2_AHCLKX,MCASP6_AHCLKX,5,6,VIN6A_CLK0,8,9,TIMER14,11,12,13,GPIO6_18,DRIVER_OFF"
group.long 0x169C++0x3
line.long 0x00 "CTRL_CORE_PAD_XREF_CLK2,"
bitfld.long 0x00 25. " XREF_CLK2_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      XREF_CLK2_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     XREF_CLK2_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " XREF_CLK2_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       XREF_CLK2_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   XREF_CLK2_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " XREF_CLK2_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    XREF_CLK2_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          XREF_CLK2_MUXMODE                    ,- XREF_CLK2. - MCASP2_AXR10. - MCASP1_AXR6. - MCASP3_AHCLKX. - MCASP7_AHCLKX. - VOUT2_CLK. - VIN4A_CLK0. - TIMER15. - GPIO6_19. - DRIVER OFF." "XREF_CLK2,MCASP2_AXR10,MCASP1_AXR6,MCASP3_AHCLKX,MCASP7_AHCLKX,5,VOUT2_CLK,7,VIN4A_CLK0,9,TIMER15,11,12,13,GPIO6_19,DRIVER_OFF"
group.long 0x16A0++0x3
line.long 0x00 "CTRL_CORE_PAD_XREF_CLK3,"
bitfld.long 0x00 25. " XREF_CLK3_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      XREF_CLK3_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     XREF_CLK3_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " XREF_CLK3_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       XREF_CLK3_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   XREF_CLK3_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " XREF_CLK3_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    XREF_CLK3_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          XREF_CLK3_MUXMODE                    ,- XREF_CLK3. - MCASP2_AXR11. - MCASP1_AXR7. - MCASP4_AHCLKX. - MCASP8_AHCLKX. - VOUT2_DE. - VIN4A_DE0. - CLKOUT3. - TIMER16. - GPIO6_20. - DRIVER OFF." "XREF_CLK3,MCASP2_AXR11,MCASP1_AXR7,MCASP4_AHCLKX,MCASP8_AHCLKX,5,VOUT2_DE,7,VIN4A_DE0,CLKOUT3,TIMER16,11,12,13,GPIO6_20,DRIVER_OFF"
group.long 0x16A4++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP1_ACLKX,"
bitfld.long 0x00 25. " MCASP1_ACLKX_WAKEUPEVENT              ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP1_ACLKX_WAKEUPENABLE           ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP1_ACLKX_SLEWCONTROL             ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP1_ACLKX_INPUTENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP1_ACLKX_PULLTYPESELECT         ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP1_ACLKX_PULLUDENABLE            ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP1_ACLKX_MODESELECT               ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP1_ACLKX_DELAYMODE              ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP1_ACLKX_MUXMODE                 ,- MCASP1_ACLKX. - VIN6A_FLD0. - I2C3_SDA. - GPIO7_31. - DRIVER OFF." "MCASP1_ACLKX,1,2,3,4,5,6,VIN6A_FLD0,8,9,I2C3_SDA,11,12,13,GPIO7_31,DRIVER_OFF"
group.long 0x16A8++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP1_FSX,"
bitfld.long 0x00 25. " MCASP1_FSX_WAKEUPEVENT                ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP1_FSX_WAKEUPENABLE             ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP1_FSX_SLEWCONTROL               ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP1_FSX_INPUTENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP1_FSX_PULLTYPESELECT           ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP1_FSX_PULLUDENABLE              ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP1_FSX_MODESELECT                 ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP1_FSX_DELAYMODE                ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP1_FSX_MUXMODE                   ,- MCASP1_FSX. - VIN6A_DE0. - I2C3_SCL. - GPIO7_30. - DRIVER OFF." "MCASP1_FSX,1,2,3,4,5,6,VIN6A_DE0,8,9,I2C3_SCL,11,12,13,GPIO7_30,DRIVER_OFF"
group.long 0x16AC++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP1_ACLKR,"
bitfld.long 0x00 25. " MCASP1_ACLKR_WAKEUPEVENT              ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP1_ACLKR_WAKEUPENABLE           ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP1_ACLKR_SLEWCONTROL             ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP1_ACLKR_INPUTENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP1_ACLKR_PULLTYPESELECT         ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP1_ACLKR_PULLUDENABLE            ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP1_ACLKR_MODESELECT               ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP1_ACLKR_DELAYMODE              ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP1_ACLKR_MUXMODE                 ,- MCASP1_ACLKR. - MCASP7_AXR2. - VOUT2_D0. - VIN4A_D0. - I2C4_SDA. - GPIO5_0. - DRIVER OFF." "MCASP1_ACLKR,MCASP7_AXR2,2,3,4,5,VOUT2_D0,7,VIN4A_D0,9,I2C4_SDA,11,12,13,GPIO5_0,DRIVER_OFF"
group.long 0x16B0++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP1_FSR,"
bitfld.long 0x00 25. " MCASP1_FSR_WAKEUPEVENT                ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP1_FSR_WAKEUPENABLE             ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP1_FSR_SLEWCONTROL               ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP1_FSR_INPUTENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP1_FSR_PULLTYPESELECT           ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP1_FSR_PULLUDENABLE              ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP1_FSR_MODESELECT                 ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP1_FSR_DELAYMODE                ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP1_FSR_MUXMODE                   ,- MCASP1_FSR. - MCASP7_AXR3. - VOUT2_D1. - VIN4A_D1. - I2C4_SCL. - GPIO5_1. - DRIVER OFF." "MCASP1_FSR,MCASP7_AXR3,2,3,4,5,VOUT2_D1,7,VIN4A_D1,9,I2C4_SCL,11,12,13,GPIO5_1,DRIVER_OFF"
group.long 0x16B4++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP1_AXR0,"
bitfld.long 0x00 25. " MCASP1_AXR0_WAKEUPEVENT               ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP1_AXR0_WAKEUPENABLE            ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP1_AXR0_SLEWCONTROL              ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP1_AXR0_INPUTENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP1_AXR0_PULLTYPESELECT          ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP1_AXR0_PULLUDENABLE             ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP1_AXR0_MODESELECT                ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP1_AXR0_DELAYMODE               ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP1_AXR0_MUXMODE                  ,- MCASP1_AXR0. - UART6_RXD. - VIN6A_VSYNC0. - I2C5_SDA. - GPIO5_2. - DRIVER OFF." "MCASP1_AXR0,1,2,UART6_RXD,4,5,6,VIN6A_VSYNC0,8,9,I2C5_SDA,11,12,13,GPIO5_2,DRIVER_OFF"
group.long 0x16B8++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP1_AXR1,"
bitfld.long 0x00 25. " MCASP1_AXR1_WAKEUPEVENT               ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP1_AXR1_WAKEUPENABLE            ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP1_AXR1_SLEWCONTROL              ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP1_AXR1_INPUTENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP1_AXR1_PULLTYPESELECT          ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP1_AXR1_PULLUDENABLE             ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP1_AXR1_MODESELECT                ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP1_AXR1_DELAYMODE               ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP1_AXR1_MUXMODE                  ,- MCASP1_AXR1. - UART6_TXD. - VIN6A_HSYNC0. - I2C5_SCL. - GPIO5_3. - DRIVER OFF." "MCASP1_AXR1,1,2,UART6_TXD,4,5,6,VIN6A_HSYNC0,8,9,I2C5_SCL,11,12,13,GPIO5_3,DRIVER_OFF"
group.long 0x16BC++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP1_AXR2,"
bitfld.long 0x00 25. " MCASP1_AXR2_WAKEUPEVENT               ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP1_AXR2_WAKEUPENABLE            ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP1_AXR2_SLEWCONTROL              ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP1_AXR2_INPUTENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP1_AXR2_PULLTYPESELECT          ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP1_AXR2_PULLUDENABLE             ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP1_AXR2_MODESELECT                ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP1_AXR2_DELAYMODE               ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP1_AXR2_MUXMODE                  ,- MCASP1_AXR2. - MCASP6_AXR2. - UART6_CTSN. - VOUT2_D2. - VIN4A_D2. - GPIO5_4. - DRIVER OFF." "MCASP1_AXR2,MCASP6_AXR2,2,UART6_CTSN,4,5,VOUT2_D2,7,VIN4A_D2,9,10,11,12,13,GPIO5_4,DRIVER_OFF"
group.long 0x16C0++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP1_AXR3,"
bitfld.long 0x00 25. " MCASP1_AXR3_WAKEUPEVENT               ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP1_AXR3_WAKEUPENABLE            ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP1_AXR3_SLEWCONTROL              ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP1_AXR3_INPUTENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP1_AXR3_PULLTYPESELECT          ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP1_AXR3_PULLUDENABLE             ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP1_AXR3_MODESELECT                ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP1_AXR3_DELAYMODE               ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP1_AXR3_MUXMODE                  ,- MCASP1_AXR3. - MCASP6_AXR3. - UART6_RTSN. - VOUT2_D3. - VIN4A_D3. - GPIO5_5. - DRIVER OFF." "MCASP1_AXR3,MCASP6_AXR3,2,UART6_RTSN,4,5,VOUT2_D3,7,VIN4A_D3,9,10,11,12,13,GPIO5_5,DRIVER_OFF"
group.long 0x16C4++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP1_AXR4,"
bitfld.long 0x00 25. " MCASP1_AXR4_WAKEUPEVENT               ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP1_AXR4_WAKEUPENABLE            ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP1_AXR4_SLEWCONTROL              ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP1_AXR4_INPUTENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP1_AXR4_PULLTYPESELECT          ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP1_AXR4_PULLUDENABLE             ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP1_AXR4_MODESELECT                ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP1_AXR4_DELAYMODE               ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP1_AXR4_MUXMODE                  ,- MCASP1_AXR4. - MCASP4_AXR2. - VOUT2_D4. - VIN4A_D4. - GPIO5_6. - DRIVER OFF." "MCASP1_AXR4,MCASP4_AXR2,2,3,4,5,VOUT2_D4,7,VIN4A_D4,9,10,11,12,13,GPIO5_6,DRIVER_OFF"
group.long 0x16C8++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP1_AXR5,"
bitfld.long 0x00 25. " MCASP1_AXR5_WAKEUPEVENT               ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP1_AXR5_WAKEUPENABLE            ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP1_AXR5_SLEWCONTROL              ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP1_AXR5_INPUTENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP1_AXR5_PULLTYPESELECT          ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP1_AXR5_PULLUDENABLE             ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP1_AXR5_MODESELECT                ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP1_AXR5_DELAYMODE               ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP1_AXR5_MUXMODE                  ,- MCASP1_AXR5. - MCASP4_AXR3. - VOUT2_D5. - VIN4A_D5. - GPIO5_7. - DRIVER OFF." "MCASP1_AXR5,MCASP4_AXR3,2,3,4,5,VOUT2_D5,7,VIN4A_D5,9,10,11,12,13,GPIO5_7,DRIVER_OFF"
group.long 0x16CC++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP1_AXR6,"
bitfld.long 0x00 25. " MCASP1_AXR6_WAKEUPEVENT               ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP1_AXR6_WAKEUPENABLE            ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP1_AXR6_SLEWCONTROL              ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP1_AXR6_INPUTENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP1_AXR6_PULLTYPESELECT          ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP1_AXR6_PULLUDENABLE             ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP1_AXR6_MODESELECT                ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP1_AXR6_DELAYMODE               ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP1_AXR6_MUXMODE                  ,- MCASP1_AXR6. - MCASP5_AXR2. - VOUT2_D6. - VIN4A_D6. - GPIO5_8. - DRIVER OFF." "MCASP1_AXR6,MCASP5_AXR2,2,3,4,5,VOUT2_D6,7,VIN4A_D6,9,10,11,12,13,GPIO5_8,DRIVER_OFF"
group.long 0x16D0++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP1_AXR7,"
bitfld.long 0x00 25. " MCASP1_AXR7_WAKEUPEVENT               ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP1_AXR7_WAKEUPENABLE            ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP1_AXR7_SLEWCONTROL              ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP1_AXR7_INPUTENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP1_AXR7_PULLTYPESELECT          ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP1_AXR7_PULLUDENABLE             ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP1_AXR7_MODESELECT                ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP1_AXR7_DELAYMODE               ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP1_AXR7_MUXMODE                  ,- MCASP1_AXR7. - MCASP5_AXR3. - VOUT2_D7. - VIN4A_D7. - TIMER4. - GPIO5_9. - DRIVER OFF." "MCASP1_AXR7,MCASP5_AXR3,2,3,4,5,VOUT2_D7,7,VIN4A_D7,9,TIMER4,11,12,13,GPIO5_9,DRIVER_OFF"
group.long 0x16D4++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP1_AXR8,"
bitfld.long 0x00 25. " MCASP1_AXR8_WAKEUPEVENT               ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP1_AXR8_WAKEUPENABLE            ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP1_AXR8_SLEWCONTROL              ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP1_AXR8_INPUTENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP1_AXR8_PULLTYPESELECT          ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP1_AXR8_PULLUDENABLE             ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP1_AXR8_MODESELECT                ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP1_AXR8_DELAYMODE               ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP1_AXR8_MUXMODE                  ,- MCASP1_AXR8. - MCASP6_AXR0. - SPI3_SCLK. - VIN6A_D15. - TIMER5. - GPIO5_10. - DRIVER OFF." "MCASP1_AXR8,MCASP6_AXR0,2,SPI3_SCLK,4,5,6,VIN6A_D15,8,9,TIMER5,11,12,13,GPIO5_10,DRIVER_OFF"
group.long 0x16D8++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP1_AXR9,"
bitfld.long 0x00 25. " MCASP1_AXR9_WAKEUPEVENT               ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP1_AXR9_WAKEUPENABLE            ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP1_AXR9_SLEWCONTROL              ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP1_AXR9_INPUTENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP1_AXR9_PULLTYPESELECT          ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP1_AXR9_PULLUDENABLE             ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP1_AXR9_MODESELECT                ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP1_AXR9_DELAYMODE               ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP1_AXR9_MUXMODE                  ,- MCASP1_AXR9. - MCASP6_AXR1. - SPI3_D1. - VIN6A_D14. - TIMER6. - GPIO5_11. - DRIVER OFF." "MCASP1_AXR9,MCASP6_AXR1,2,SPI3_D1,4,5,6,VIN6A_D14,8,9,TIMER6,11,12,13,GPIO5_11,DRIVER_OFF"
group.long 0x16DC++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP1_AXR10,"
bitfld.long 0x00 25. " MCASP1_AXR10_WAKEUPEVENT              ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP1_AXR10_WAKEUPENABLE           ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP1_AXR10_SLEWCONTROL             ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP1_AXR10_INPUTENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP1_AXR10_PULLTYPESELECT         ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP1_AXR10_PULLUDENABLE            ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP1_AXR10_MODESELECT               ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP1_AXR10_DELAYMODE              ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP1_AXR10_MUXMODE                 ,- MCASP1_AXR10. - MCASP6_ACLKX. - MCASP6_ACLKR. - SPI3_D0. - VIN6A_D13. - TIMER7. - GPIO5_12. - DRIVER OFF." "MCASP1_AXR10,MCASP6_ACLKX,MCASP6_ACLKR,SPI3_D0,4,5,6,VIN6A_D13,8,9,TIMER7,11,12,13,GPIO5_12,DRIVER_OFF"
group.long 0x16E0++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP1_AXR11,"
bitfld.long 0x00 25. " MCASP1_AXR11_WAKEUPEVENT              ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP1_AXR11_WAKEUPENABLE           ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP1_AXR11_SLEWCONTROL             ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP1_AXR11_INPUTENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP1_AXR11_PULLTYPESELECT         ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP1_AXR11_PULLUDENABLE            ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP1_AXR11_MODESELECT               ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP1_AXR11_DELAYMODE              ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP1_AXR11_MUXMODE                 ,- MCASP1_AXR11. - MCASP6_FSX. - MCASP6_FSR. - SPI3_CS0. - VIN6A_D12. - TIMER8. - GPIO4_17. - DRIVER OFF." "MCASP1_AXR11,MCASP6_FSX,MCASP6_FSR,SPI3_CS0,4,5,6,VIN6A_D12,8,9,TIMER8,11,12,13,GPIO4_17,DRIVER_OFF"
group.long 0x16E4++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP1_AXR12,"
bitfld.long 0x00 25. " MCASP1_AXR12_WAKEUPEVENT              ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP1_AXR12_WAKEUPENABLE           ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP1_AXR12_SLEWCONTROL             ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP1_AXR12_INPUTENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP1_AXR12_PULLTYPESELECT         ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP1_AXR12_PULLUDENABLE            ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP1_AXR12_MODESELECT               ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP1_AXR12_DELAYMODE              ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP1_AXR12_MUXMODE                 ,- MCASP1_AXR12. - MCASP7_AXR0. - SPI3_CS1. - VIN6A_D11. - TIMER9. - GPIO4_18. - DRIVER OFF." "MCASP1_AXR12,MCASP7_AXR0,2,SPI3_CS1,4,5,6,VIN6A_D11,8,9,TIMER9,11,12,13,GPIO4_18,DRIVER_OFF"
group.long 0x16E8++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP1_AXR13,"
bitfld.long 0x00 25. " MCASP1_AXR13_WAKEUPEVENT              ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP1_AXR13_WAKEUPENABLE           ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP1_AXR13_SLEWCONTROL             ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP1_AXR13_INPUTENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP1_AXR13_PULLTYPESELECT         ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP1_AXR13_PULLUDENABLE            ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP1_AXR13_MODESELECT               ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP1_AXR13_DELAYMODE              ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP1_AXR13_MUXMODE                 ,- MCASP1_AXR13. - MCASP7_AXR1. - VIN6A_D10. - TIMER10. - GPIO6_4. - DRIVER OFF." "MCASP1_AXR13,MCASP7_AXR1,2,3,4,5,6,VIN6A_D10,8,9,TIMER10,11,12,13,GPIO6_4,DRIVER_OFF"
group.long 0x16EC++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP1_AXR14,"
bitfld.long 0x00 25. " MCASP1_AXR14_WAKEUPEVENT              ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP1_AXR14_WAKEUPENABLE           ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP1_AXR14_SLEWCONTROL             ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP1_AXR14_INPUTENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP1_AXR14_PULLTYPESELECT         ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP1_AXR14_PULLUDENABLE            ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP1_AXR14_MODESELECT               ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP1_AXR14_DELAYMODE              ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP1_AXR14_MUXMODE                 ,- MCASP1_AXR14. - MCASP7_ACLKX. - MCASP7_ACLKR. - VIN6A_D9. - TIMER11. - GPIO6_5. - DRIVER OFF." "MCASP1_AXR14,MCASP7_ACLKX,MCASP7_ACLKR,3,4,5,6,VIN6A_D9,8,9,TIMER11,11,12,13,GPIO6_5,DRIVER_OFF"
group.long 0x16F0++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP1_AXR15,"
bitfld.long 0x00 25. " MCASP1_AXR15_WAKEUPEVENT              ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP1_AXR15_WAKEUPENABLE           ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP1_AXR15_SLEWCONTROL             ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP1_AXR15_INPUTENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP1_AXR15_PULLTYPESELECT         ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP1_AXR15_PULLUDENABLE            ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP1_AXR15_MODESELECT               ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP1_AXR15_DELAYMODE              ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP1_AXR15_MUXMODE                 ,- MCASP1_AXR15. - MCASP7_FSX. - MCASP7_FSR. - VIN6A_D8. - TIMER12. - GPIO6_6. - DRIVER OFF." "MCASP1_AXR15,MCASP7_FSX,MCASP7_FSR,3,4,5,6,VIN6A_D8,8,9,TIMER12,11,12,13,GPIO6_6,DRIVER_OFF"
group.long 0x16F4++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP2_ACLKX,"
bitfld.long 0x00 25. " MCASP2_ACLKX_WAKEUPEVENT              ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP2_ACLKX_WAKEUPENABLE           ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP2_ACLKX_SLEWCONTROL             ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP2_ACLKX_INPUTENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP2_ACLKX_PULLTYPESELECT         ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP2_ACLKX_PULLUDENABLE            ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP2_ACLKX_MODESELECT               ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP2_ACLKX_DELAYMODE              ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP2_ACLKX_MUXMODE                 ,- MCASP2_ACLKX. - VIN6A_D7. - DRIVER OFF." "MCASP2_ACLKX,1,2,3,4,5,6,VIN6A_D7,8,9,10,11,12,13,14,DRIVER_OFF"
group.long 0x16F8++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP2_FSX,"
bitfld.long 0x00 25. " MCASP2_FSX_WAKEUPEVENT                ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP2_FSX_WAKEUPENABLE             ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP2_FSX_SLEWCONTROL               ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP2_FSX_INPUTENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP2_FSX_PULLTYPESELECT           ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP2_FSX_PULLUDENABLE              ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP2_FSX_MODESELECT                 ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP2_FSX_DELAYMODE                ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP2_FSX_MUXMODE                   ,- MCASP2_FSX. - VIN6A_D6. - DRIVER OFF." "MCASP2_FSX,1,2,3,4,5,6,VIN6A_D6,8,9,10,11,12,13,14,DRIVER_OFF"
group.long 0x16FC++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP2_ACLKR,"
bitfld.long 0x00 25. " MCASP2_ACLKR_WAKEUPEVENT              ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP2_ACLKR_WAKEUPENABLE           ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP2_ACLKR_SLEWCONTROL             ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP2_ACLKR_INPUTENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP2_ACLKR_PULLTYPESELECT         ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP2_ACLKR_PULLUDENABLE            ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP2_ACLKR_MODESELECT               ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP2_ACLKR_DELAYMODE              ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP2_ACLKR_MUXMODE                 ,- MCASP2_ACLKR. - MCASP8_AXR2. - VOUT2_D8. - VIN4A_D8. - DRIVER OFF." "MCASP2_ACLKR,MCASP8_AXR2,2,3,4,5,VOUT2_D8,7,VIN4A_D8,9,10,11,12,13,14,DRIVER_OFF"
group.long 0x1700++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP2_FSR,"
bitfld.long 0x00 25. " MCASP2_FSR_WAKEUPEVENT                ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP2_FSR_WAKEUPENABLE             ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP2_FSR_SLEWCONTROL               ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP2_FSR_INPUTENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP2_FSR_PULLTYPESELECT           ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP2_FSR_PULLUDENABLE              ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP2_FSR_MODESELECT                 ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP2_FSR_DELAYMODE                ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP2_FSR_MUXMODE                   ,- MCASP2_FSR. - MCASP8_AXR3. - VOUT2_D9. - VIN4A_D9. - DRIVER OFF." "MCASP2_FSR,MCASP8_AXR3,2,3,4,5,VOUT2_D9,7,VIN4A_D9,9,10,11,12,13,14,DRIVER_OFF"
group.long 0x1704++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP2_AXR0,"
bitfld.long 0x00 25. " MCASP2_AXR0_WAKEUPEVENT               ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP2_AXR0_WAKEUPENABLE            ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP2_AXR0_SLEWCONTROL              ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP2_AXR0_INPUTENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP2_AXR0_PULLTYPESELECT          ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP2_AXR0_PULLUDENABLE             ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP2_AXR0_MODESELECT                ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP2_AXR0_DELAYMODE               ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP2_AXR0_MUXMODE                  ,- MCASP2_AXR0. - VOUT2_D10. - VIN4A_D10. - DRIVER OFF." "MCASP2_AXR0,1,2,3,4,5,VOUT2_D10,7,VIN4A_D10,9,10,11,12,13,14,DRIVER_OFF"
group.long 0x1708++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP2_AXR1,"
bitfld.long 0x00 25. " MCASP2_AXR1_WAKEUPEVENT               ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP2_AXR1_WAKEUPENABLE            ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP2_AXR1_SLEWCONTROL              ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP2_AXR1_INPUTENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP2_AXR1_PULLTYPESELECT          ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP2_AXR1_PULLUDENABLE             ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP2_AXR1_MODESELECT                ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP2_AXR1_DELAYMODE               ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP2_AXR1_MUXMODE                  ,- MCASP2_AXR1. - VOUT2_D11. - VIN4A_D11. - DRIVER OFF." "MCASP2_AXR1,1,2,3,4,5,VOUT2_D11,7,VIN4A_D11,9,10,11,12,13,14,DRIVER_OFF"
group.long 0x170C++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP2_AXR2,"
bitfld.long 0x00 25. " MCASP2_AXR2_WAKEUPEVENT               ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP2_AXR2_WAKEUPENABLE            ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP2_AXR2_SLEWCONTROL              ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP2_AXR2_INPUTENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP2_AXR2_PULLTYPESELECT          ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP2_AXR2_PULLUDENABLE             ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP2_AXR2_MODESELECT                ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP2_AXR2_DELAYMODE               ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP2_AXR2_MUXMODE                  ,- MCASP2_AXR2. - MCASP3_AXR2. - VIN6A_D5. - GPIO6_8. - DRIVER OFF." "MCASP2_AXR2,MCASP3_AXR2,2,3,4,5,6,VIN6A_D5,8,9,10,11,12,13,GPIO6_8,DRIVER_OFF"
group.long 0x1710++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP2_AXR3,"
bitfld.long 0x00 25. " MCASP2_AXR3_WAKEUPEVENT               ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP2_AXR3_WAKEUPENABLE            ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP2_AXR3_SLEWCONTROL              ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP2_AXR3_INPUTENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP2_AXR3_PULLTYPESELECT          ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP2_AXR3_PULLUDENABLE             ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP2_AXR3_MODESELECT                ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP2_AXR3_DELAYMODE               ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP2_AXR3_MUXMODE                  ,- MCASP2_AXR3. - MCASP3_AXR3. - VIN6A_D4. - GPIO6_9. - DRIVER OFF." "MCASP2_AXR3,MCASP3_AXR3,2,3,4,5,6,VIN6A_D4,8,9,10,11,12,13,GPIO6_9,DRIVER_OFF"
group.long 0x1714++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP2_AXR4,"
bitfld.long 0x00 25. " MCASP2_AXR4_WAKEUPEVENT               ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP2_AXR4_WAKEUPENABLE            ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP2_AXR4_SLEWCONTROL              ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP2_AXR4_INPUTENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP2_AXR4_PULLTYPESELECT          ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP2_AXR4_PULLUDENABLE             ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP2_AXR4_MODESELECT                ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP2_AXR4_DELAYMODE               ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP2_AXR4_MUXMODE                  ,- MCASP2_AXR4. - MCASP8_AXR0. - VOUT2_D12. - VIN4A_D12. - GPIO1_4. - DRIVER OFF." "MCASP2_AXR4,MCASP8_AXR0,2,3,4,5,VOUT2_D12,7,VIN4A_D12,9,10,11,12,13,GPIO1_4,DRIVER_OFF"
group.long 0x1718++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP2_AXR5,"
bitfld.long 0x00 25. " MCASP2_AXR5_WAKEUPEVENT               ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP2_AXR5_WAKEUPENABLE            ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP2_AXR5_SLEWCONTROL              ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP2_AXR5_INPUTENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP2_AXR5_PULLTYPESELECT          ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP2_AXR5_PULLUDENABLE             ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP2_AXR5_MODESELECT                ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP2_AXR5_DELAYMODE               ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP2_AXR5_MUXMODE                  ,- MCASP2_AXR5. - MCASP8_AXR1. - VOUT2_D13. - VIN4A_D13. - GPIO6_7. - DRIVER OFF." "MCASP2_AXR5,MCASP8_AXR1,2,3,4,5,VOUT2_D13,7,VIN4A_D13,9,10,11,12,13,GPIO6_7,DRIVER_OFF"
group.long 0x171C++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP2_AXR6,"
bitfld.long 0x00 25. " MCASP2_AXR6_WAKEUPEVENT               ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP2_AXR6_WAKEUPENABLE            ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP2_AXR6_SLEWCONTROL              ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP2_AXR6_INPUTENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP2_AXR6_PULLTYPESELECT          ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP2_AXR6_PULLUDENABLE             ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP2_AXR6_MODESELECT                ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP2_AXR6_DELAYMODE               ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP2_AXR6_MUXMODE                  ,- MCASP2_AXR6. - MCASP8_ACLKX. - MCASP8_ACLKR. - VOUT2_D14. - VIN4A_D14. - GPIO2_29. - DRIVER OFF." "MCASP2_AXR6,MCASP8_ACLKX,MCASP8_ACLKR,3,4,5,VOUT2_D14,7,VIN4A_D14,9,10,11,12,13,GPIO2_29,DRIVER_OFF"
group.long 0x1720++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP2_AXR7,"
bitfld.long 0x00 25. " MCASP2_AXR7_WAKEUPEVENT               ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP2_AXR7_WAKEUPENABLE            ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP2_AXR7_SLEWCONTROL              ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP2_AXR7_INPUTENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP2_AXR7_PULLTYPESELECT          ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP2_AXR7_PULLUDENABLE             ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP2_AXR7_MODESELECT                ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP2_AXR7_DELAYMODE               ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP2_AXR7_MUXMODE                  ,- MCASP2_AXR7. - MCASP8_FSX. - MCASP8_FSR. - VOUT2_D15. - VIN4A_D15. - GPIO1_5. - DRIVER OFF." "MCASP2_AXR7,MCASP8_FSX,MCASP8_FSR,3,4,5,VOUT2_D15,7,VIN4A_D15,9,10,11,12,13,GPIO1_5,DRIVER_OFF"
group.long 0x1724++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP3_ACLKX,"
bitfld.long 0x00 25. " MCASP3_ACLKX_WAKEUPEVENT              ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP3_ACLKX_WAKEUPENABLE           ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP3_ACLKX_SLEWCONTROL             ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP3_ACLKX_INPUTENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP3_ACLKX_PULLTYPESELECT         ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP3_ACLKX_PULLUDENABLE            ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP3_ACLKX_MODESELECT               ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP3_ACLKX_DELAYMODE              ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP3_ACLKX_MUXMODE                 ,- MCASP3_ACLKX. - MCASP3_ACLKR. - MCASP2_AXR12. - UART7_RXD. - VIN6A_D3. - GPIO5_13. - DRIVER OFF." "MCASP3_ACLKX,MCASP3_ACLKR,MCASP2_AXR12,UART7_RXD,4,5,6,VIN6A_D3,8,9,10,11,12,13,GPIO5_13,DRIVER_OFF"
group.long 0x1728++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP3_FSX,"
bitfld.long 0x00 25. " MCASP3_FSX_WAKEUPEVENT                ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP3_FSX_WAKEUPENABLE             ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP3_FSX_SLEWCONTROL               ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP3_FSX_INPUTENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP3_FSX_PULLTYPESELECT           ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP3_FSX_PULLUDENABLE              ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP3_FSX_MODESELECT                 ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP3_FSX_DELAYMODE                ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP3_FSX_MUXMODE                   ,- MCASP3_FSX. - MCASP3_FSR. - MCASP2_AXR13. - UART7_TXD. - VIN6A_D2. - GPIO5_14. - DRIVER OFF." "MCASP3_FSX,MCASP3_FSR,MCASP2_AXR13,UART7_TXD,4,5,6,VIN6A_D2,8,9,10,11,12,13,GPIO5_14,DRIVER_OFF"
group.long 0x172C++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP3_AXR0,"
bitfld.long 0x00 25. " MCASP3_AXR0_WAKEUPEVENT               ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP3_AXR0_WAKEUPENABLE            ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP3_AXR0_SLEWCONTROL              ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP3_AXR0_INPUTENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP3_AXR0_PULLTYPESELECT          ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP3_AXR0_PULLUDENABLE             ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP3_AXR0_MODESELECT                ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP3_AXR0_DELAYMODE               ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP3_AXR0_MUXMODE                  ,- MCASP3_AXR0. - MCASP2_AXR14. - UART7_CTSN. - UART5_RXD. - VIN6A_D1. - DRIVER OFF." "MCASP3_AXR0,1,MCASP2_AXR14,UART7_CTSN,UART5_RXD,5,6,VIN6A_D1,8,9,10,11,12,13,14,DRIVER_OFF"
group.long 0x1730++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP3_AXR1,"
bitfld.long 0x00 25. " MCASP3_AXR1_WAKEUPEVENT               ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP3_AXR1_WAKEUPENABLE            ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP3_AXR1_SLEWCONTROL              ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP3_AXR1_INPUTENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP3_AXR1_PULLTYPESELECT          ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP3_AXR1_PULLUDENABLE             ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP3_AXR1_MODESELECT                ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP3_AXR1_DELAYMODE               ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP3_AXR1_MUXMODE                  ,- MCASP3_AXR1. - MCASP2_AXR15. - UART7_RTSN. - UART5_TXD. - VIN6A_D0. - VIN5A_FLD0. - DRIVER OFF." "MCASP3_AXR1,1,MCASP2_AXR15,UART7_RTSN,UART5_TXD,5,6,VIN6A_D0,8,VIN5A_FLD0,10,11,12,13,14,DRIVER_OFF"
group.long 0x1734++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP4_ACLKX,"
bitfld.long 0x00 25. " MCASP4_ACLKX_WAKEUPEVENT              ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP4_ACLKX_WAKEUPENABLE           ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP4_ACLKX_SLEWCONTROL             ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP4_ACLKX_INPUTENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP4_ACLKX_PULLTYPESELECT         ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP4_ACLKX_PULLUDENABLE            ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP4_ACLKX_MODESELECT               ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP4_ACLKX_DELAYMODE              ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP4_ACLKX_MUXMODE                 ,- MCASP4_ACLKX. - MCASP4_ACLKR. - SPI3_SCLK. - UART8_RXD. - I2C4_SDA. - VOUT2_D16. - VIN4A_D16. - VIN5A_D15. - DRIVER OFF." "MCASP4_ACLKX,MCASP4_ACLKR,SPI3_SCLK,UART8_RXD,I2C4_SDA,5,VOUT2_D16,7,VIN4A_D16,VIN5A_D15,10,11,12,13,14,DRIVER_OFF"
group.long 0x1738++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP4_FSX,"
bitfld.long 0x00 25. " MCASP4_FSX_WAKEUPEVENT                ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP4_FSX_WAKEUPENABLE             ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP4_FSX_SLEWCONTROL               ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP4_FSX_INPUTENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP4_FSX_PULLTYPESELECT           ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP4_FSX_PULLUDENABLE              ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP4_FSX_MODESELECT                 ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP4_FSX_DELAYMODE                ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP4_FSX_MUXMODE                   ,- MCASP4_FSX. - MCASP4_FSR. - SPI3_D1. - UART8_TXD. - I2C4_SCL. - VOUT2_D17. - VIN4A_D17. - VIN5A_D14. - DRIVER OFF." "MCASP4_FSX,MCASP4_FSR,SPI3_D1,UART8_TXD,I2C4_SCL,5,VOUT2_D17,7,VIN4A_D17,VIN5A_D14,10,11,12,13,14,DRIVER_OFF"
group.long 0x173C++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP4_AXR0,"
bitfld.long 0x00 25. " MCASP4_AXR0_WAKEUPEVENT               ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP4_AXR0_WAKEUPENABLE            ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP4_AXR0_SLEWCONTROL              ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP4_AXR0_INPUTENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP4_AXR0_PULLTYPESELECT          ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP4_AXR0_PULLUDENABLE             ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP4_AXR0_MODESELECT                ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP4_AXR0_DELAYMODE               ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP4_AXR0_MUXMODE                  ,- MCASP4_AXR0. - SPI3_D0. - UART8_CTSN. - UART4_RXD. - VOUT2_D18. - VIN4A_D18. - VIN5A_D13. - DRIVER OFF." "MCASP4_AXR0,1,SPI3_D0,UART8_CTSN,UART4_RXD,5,VOUT2_D18,7,VIN4A_D18,VIN5A_D13,10,11,12,13,14,DRIVER_OFF"
group.long 0x1740++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP4_AXR1,"
bitfld.long 0x00 25. " MCASP4_AXR1_WAKEUPEVENT               ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP4_AXR1_WAKEUPENABLE            ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP4_AXR1_SLEWCONTROL              ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP4_AXR1_INPUTENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP4_AXR1_PULLTYPESELECT          ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP4_AXR1_PULLUDENABLE             ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP4_AXR1_MODESELECT                ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP4_AXR1_DELAYMODE               ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP4_AXR1_MUXMODE                  ,- MCASP4_AXR1. - SPI3_CS0. - UART8_RTSN. - UART4_TXD. - VOUT2_D19. - VIN4A_D19. - VIN5A_D12. - DRIVER OFF." "MCASP4_AXR1,1,SPI3_CS0,UART8_RTSN,UART4_TXD,5,VOUT2_D19,7,VIN4A_D19,VIN5A_D12,10,11,12,13,14,DRIVER_OFF"
group.long 0x1744++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP5_ACLKX,"
bitfld.long 0x00 25. " MCASP5_ACLKX_WAKEUPEVENT              ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP5_ACLKX_WAKEUPENABLE           ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP5_ACLKX_SLEWCONTROL             ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP5_ACLKX_INPUTENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP5_ACLKX_PULLTYPESELECT         ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP5_ACLKX_PULLUDENABLE            ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP5_ACLKX_MODESELECT               ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP5_ACLKX_DELAYMODE              ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP5_ACLKX_MUXMODE                 ,- MCASP5_ACLKX. - MCASP5_ACLKR. - SPI4_SCLK. - UART9_RXD. - I2C5_SDA. - VOUT2_D20. - VIN4A_D20. - VIN5A_D11. - DRIVER OFF." "MCASP5_ACLKX,MCASP5_ACLKR,SPI4_SCLK,UART9_RXD,I2C5_SDA,5,VOUT2_D20,7,VIN4A_D20,VIN5A_D11,10,11,12,13,14,DRIVER_OFF"
group.long 0x1748++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP5_FSX,"
bitfld.long 0x00 25. " MCASP5_FSX_WAKEUPEVENT                ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP5_FSX_WAKEUPENABLE             ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP5_FSX_SLEWCONTROL               ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP5_FSX_INPUTENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP5_FSX_PULLTYPESELECT           ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP5_FSX_PULLUDENABLE              ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP5_FSX_MODESELECT                 ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP5_FSX_DELAYMODE                ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP5_FSX_MUXMODE                   ,- MCASP5_FSX. - MCASP5_FSR. - SPI4_D1. - UART9_TXD. - I2C5_SCL. - VOUT2_D21. - VIN4A_D21. - VIN5A_D10. - DRIVER OFF." "MCASP5_FSX,MCASP5_FSR,SPI4_D1,UART9_TXD,I2C5_SCL,5,VOUT2_D21,7,VIN4A_D21,VIN5A_D10,10,11,12,13,14,DRIVER_OFF"
group.long 0x174C++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP5_AXR0,"
bitfld.long 0x00 25. " MCASP5_AXR0_WAKEUPEVENT               ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP5_AXR0_WAKEUPENABLE            ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP5_AXR0_SLEWCONTROL              ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP5_AXR0_INPUTENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP5_AXR0_PULLTYPESELECT          ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP5_AXR0_PULLUDENABLE             ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP5_AXR0_MODESELECT                ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP5_AXR0_DELAYMODE               ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP5_AXR0_MUXMODE                  ,- MCASP5_AXR0. - SPI4_D0. - UART9_CTSN. - UART3_RXD. - VOUT2_D22. - VIN4A_D22. - VIN5A_D9. - DRIVER OFF." "MCASP5_AXR0,1,SPI4_D0,UART9_CTSN,UART3_RXD,5,VOUT2_D22,7,VIN4A_D22,VIN5A_D9,10,11,12,13,14,DRIVER_OFF"
group.long 0x1750++0x3
line.long 0x00 "CTRL_CORE_PAD_MCASP5_AXR1,"
bitfld.long 0x00 25. " MCASP5_AXR1_WAKEUPEVENT               ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MCASP5_AXR1_WAKEUPENABLE            ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MCASP5_AXR1_SLEWCONTROL              ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MCASP5_AXR1_INPUTENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MCASP5_AXR1_PULLTYPESELECT          ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MCASP5_AXR1_PULLUDENABLE             ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MCASP5_AXR1_MODESELECT                ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MCASP5_AXR1_DELAYMODE               ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MCASP5_AXR1_MUXMODE                  ,- MCASP5_AXR1. - SPI4_CS0. - UART9_RTSN. - UART3_TXD. - VOUT2_D23. - VIN4A_D23. - VIN5A_D8. - DRIVER OFF." "MCASP5_AXR1,1,SPI4_CS0,UART9_RTSN,UART3_TXD,5,VOUT2_D23,7,VIN4A_D23,VIN5A_D8,10,11,12,13,14,DRIVER_OFF"
group.long 0x1754++0x3
line.long 0x00 "CTRL_CORE_PAD_MMC1_CLK,"
bitfld.long 0x00 25. " MMC1_CLK_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MMC1_CLK_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 18. "     MMC1_CLK_ACTIVE                      ,Controls enabling/disabling of the input buffer. 0x0: Input buffer is disabled 0x1: Input buffer is enabled" "0,1"
textline "                                                          "
bitfld.long 0x00 17. " MMC1_CLK_PULLTYPESELECT               ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "     MMC1_CLK_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
bitfld.long 0x00 8. "     MMC1_CLK_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a..." "MUX_MODE,DELAY_MODE"
textline "                                                          "
bitfld.long 0x00 4.--7. " MMC1_CLK_DELAYMODE                    ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "            MMC1_CLK_MUXMODE                    ,- MMC1_CLK. - GPIO6_21. - DRIVER OFF." "MMC1_CLK,1,2,3,4,5,6,7,8,9,10,11,12,13,GPIO6_21,DRIVER_OFF"
group.long 0x1758++0x3
line.long 0x00 "CTRL_CORE_PAD_MMC1_CMD,"
bitfld.long 0x00 25. " MMC1_CMD_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MMC1_CMD_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 18. "     MMC1_CMD_ACTIVE                      ,Controls enabling/disabling of the input buffer. 0x0: Input buffer is disabled 0x1: Input buffer is enabled" "0,1"
textline "                                                          "
bitfld.long 0x00 17. " MMC1_CMD_PULLTYPESELECT               ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "     MMC1_CMD_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
bitfld.long 0x00 8. "     MMC1_CMD_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a..." "MUX_MODE,DELAY_MODE"
textline "                                                          "
bitfld.long 0x00 4.--7. " MMC1_CMD_DELAYMODE                    ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "            MMC1_CMD_MUXMODE                    ,- MMC1_CMD. - GPIO6_22. - DRIVER OFF." "MMC1_CMD,1,2,3,4,5,6,7,8,9,10,11,12,13,GPIO6_22,DRIVER_OFF"
group.long 0x175C++0x3
line.long 0x00 "CTRL_CORE_PAD_MMC1_DAT0,"
bitfld.long 0x00 25. " MMC1_DAT0_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MMC1_DAT0_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 18. "     MMC1_DAT0_ACTIVE                     ,Controls enabling/disabling of the input buffer. 0x0: Input buffer is disabled 0x1: Input buffer is enabled" "0,1"
textline "                                                          "
bitfld.long 0x00 17. " MMC1_DAT0_PULLTYPESELECT              ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "     MMC1_DAT0_PULLUDENABLE              ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
bitfld.long 0x00 8. "     MMC1_DAT0_MODESELECT                 ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a..." "MUX_MODE,DELAY_MODE"
textline "                                                          "
bitfld.long 0x00 4.--7. " MMC1_DAT0_DELAYMODE                   ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "            MMC1_DAT0_MUXMODE                   ,- MMC1_DAT0. - GPIO6_23. - DRIVER OFF." "MMC1_DAT0,1,2,3,4,5,6,7,8,9,10,11,12,13,GPIO6_23,DRIVER_OFF"
group.long 0x1760++0x3
line.long 0x00 "CTRL_CORE_PAD_MMC1_DAT1,"
bitfld.long 0x00 25. " MMC1_DAT1_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MMC1_DAT1_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 18. "     MMC1_DAT1_ACTIVE                     ,Controls enabling/disabling of the input buffer. 0x0: Input buffer is disabled 0x1: Input buffer is enabled" "0,1"
textline "                                                          "
bitfld.long 0x00 17. " MMC1_DAT1_PULLTYPESELECT              ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "     MMC1_DAT1_PULLUDENABLE              ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
bitfld.long 0x00 8. "     MMC1_DAT1_MODESELECT                 ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a..." "MUX_MODE,DELAY_MODE"
textline "                                                          "
bitfld.long 0x00 4.--7. " MMC1_DAT1_DELAYMODE                   ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "            MMC1_DAT1_MUXMODE                   ,- MMC1_DAT1. - GPIO6_24. - DRIVER OFF." "MMC1_DAT1,1,2,3,4,5,6,7,8,9,10,11,12,13,GPIO6_24,DRIVER_OFF"
group.long 0x1764++0x3
line.long 0x00 "CTRL_CORE_PAD_MMC1_DAT2,"
bitfld.long 0x00 25. " MMC1_DAT2_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MMC1_DAT2_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 18. "     MMC1_DAT2_ACTIVE                     ,Controls enabling/disabling of the input buffer. 0x0: Input buffer is disabled 0x1: Input buffer is enabled" "0,1"
textline "                                                          "
bitfld.long 0x00 17. " MMC1_DAT2_PULLTYPESELECT              ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "     MMC1_DAT2_PULLUDENABLE              ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
bitfld.long 0x00 8. "     MMC1_DAT2_MODESELECT                 ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a..." "MUX_MODE,DELAY_MODE"
textline "                                                          "
bitfld.long 0x00 4.--7. " MMC1_DAT2_DELAYMODE                   ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "            MMC1_DAT2_MUXMODE                   ,- MMC1_DAT2. - GPIO6_25. - DRIVER OFF." "MMC1_DAT2,1,2,3,4,5,6,7,8,9,10,11,12,13,GPIO6_25,DRIVER_OFF"
group.long 0x1768++0x3
line.long 0x00 "CTRL_CORE_PAD_MMC1_DAT3,"
bitfld.long 0x00 25. " MMC1_DAT3_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MMC1_DAT3_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 18. "     MMC1_DAT3_ACTIVE                     ,Controls enabling/disabling of the input buffer. 0x0: Input buffer is disabled 0x1: Input buffer is enabled" "0,1"
textline "                                                          "
bitfld.long 0x00 17. " MMC1_DAT3_PULLTYPESELECT              ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "     MMC1_DAT3_PULLUDENABLE              ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
bitfld.long 0x00 8. "     MMC1_DAT3_MODESELECT                 ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a..." "MUX_MODE,DELAY_MODE"
textline "                                                          "
bitfld.long 0x00 4.--7. " MMC1_DAT3_DELAYMODE                   ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "            MMC1_DAT3_MUXMODE                   ,- MMC1_DAT3. - GPIO6_26. - DRIVER OFF." "MMC1_DAT3,1,2,3,4,5,6,7,8,9,10,11,12,13,GPIO6_26,DRIVER_OFF"
group.long 0x176C++0x3
line.long 0x00 "CTRL_CORE_PAD_MMC1_SDCD,"
bitfld.long 0x00 25. " MMC1_SDCD_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MMC1_SDCD_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MMC1_SDCD_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MMC1_SDCD_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MMC1_SDCD_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MMC1_SDCD_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MMC1_SDCD_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MMC1_SDCD_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MMC1_SDCD_MUXMODE                    ,- MMC1_SDCD. - UART6_RXD. - I2C4_SDA. - GPIO6_27. - DRIVER OFF." "MMC1_SDCD,1,2,UART6_RXD,I2C4_SDA,5,6,7,8,9,10,11,12,13,GPIO6_27,DRIVER_OFF"
group.long 0x1770++0x3
line.long 0x00 "CTRL_CORE_PAD_MMC1_SDWP,"
bitfld.long 0x00 25. " MMC1_SDWP_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MMC1_SDWP_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MMC1_SDWP_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MMC1_SDWP_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MMC1_SDWP_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MMC1_SDWP_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MMC1_SDWP_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MMC1_SDWP_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MMC1_SDWP_MUXMODE                    ,- MMC1_SDWP. - UART6_TXD. - I2C4_SCL. - GPIO6_28. - DRIVER OFF." "MMC1_SDWP,1,2,UART6_TXD,I2C4_SCL,5,6,7,8,9,10,11,12,13,GPIO6_28,DRIVER_OFF"
group.long 0x1774++0x3
line.long 0x00 "CTRL_CORE_PAD_GPIO6_10,"
bitfld.long 0x00 25. " GPIO6_10_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPIO6_10_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPIO6_10_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPIO6_10_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPIO6_10_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPIO6_10_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPIO6_10_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPIO6_10_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPIO6_10_MUXMODE                     ,- GPIO6_10. - MDIO_MCLK. - I2C3_SDA. - USB3_ULPI_D7. - VIN2B_HSYNC1. - VIN5A_CLK0. - EHRPWM2A. - GPIO6_10. - DRIVER OFF." "GPIO6_10,MDIO_MCLK,I2C3_SDA,USB3_ULPI_D7,VIN2B_HSYNC1,5,6,7,8,VIN5A_CLK0,EHRPWM2A,11,12,13,GPIO6_10,DRIVER_OFF"
group.long 0x1778++0x3
line.long 0x00 "CTRL_CORE_PAD_GPIO6_11,"
bitfld.long 0x00 25. " GPIO6_11_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      GPIO6_11_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     GPIO6_11_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " GPIO6_11_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       GPIO6_11_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   GPIO6_11_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " GPIO6_11_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    GPIO6_11_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          GPIO6_11_MUXMODE                     ,- GPIO6_11. - MDIO_D. - I2C3_SCL. - USB3_ULPI_D6. - VIN2B_VSYNC1. - VIN5A_DE0. - EHRPWM2B. - GPIO6_11. - DRIVER OFF." "GPIO6_11,MDIO_D,I2C3_SCL,USB3_ULPI_D6,VIN2B_VSYNC1,5,6,7,8,VIN5A_DE0,EHRPWM2B,11,12,13,GPIO6_11,DRIVER_OFF"
group.long 0x177C++0x3
line.long 0x00 "CTRL_CORE_PAD_MMC3_CLK,"
bitfld.long 0x00 25. " MMC3_CLK_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MMC3_CLK_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MMC3_CLK_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MMC3_CLK_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MMC3_CLK_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MMC3_CLK_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MMC3_CLK_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MMC3_CLK_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MMC3_CLK_MUXMODE                     ,- MMC3_CLK. - USB3_ULPI_D5. - VIN2B_D7. - VIN5A_D7. - EHRPWM2_TRIPZONE_INPUT. - GPIO6_29. - DRIVER OFF." "MMC3_CLK,1,2,USB3_ULPI_D5,VIN2B_D7,5,6,7,8,VIN5A_D7,EHRPWM2_TRIPZONE_INPUT,11,12,13,GPIO6_29,DRIVER_OFF"
group.long 0x1780++0x3
line.long 0x00 "CTRL_CORE_PAD_MMC3_CMD,"
bitfld.long 0x00 25. " MMC3_CMD_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MMC3_CMD_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MMC3_CMD_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MMC3_CMD_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MMC3_CMD_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MMC3_CMD_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MMC3_CMD_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MMC3_CMD_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MMC3_CMD_MUXMODE                     ,- MMC3_CMD. - SPI3_SCLK. - USB3_ULPI_D4. - VIN2B_D6. - VIN5A_D6. - ECAP2_IN_PWM2_OUT. - GPIO6_30. - DRIVER OFF." "MMC3_CMD,SPI3_SCLK,2,USB3_ULPI_D4,VIN2B_D6,5,6,7,8,VIN5A_D6,ECAP2_IN_PWM2_OUT,11,12,13,GPIO6_30,DRIVER_OFF"
group.long 0x1784++0x3
line.long 0x00 "CTRL_CORE_PAD_MMC3_DAT0,"
bitfld.long 0x00 25. " MMC3_DAT0_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MMC3_DAT0_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MMC3_DAT0_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MMC3_DAT0_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MMC3_DAT0_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MMC3_DAT0_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MMC3_DAT0_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MMC3_DAT0_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MMC3_DAT0_MUXMODE                    ,- MMC3_DAT0. - SPI3_D1. - UART5_RXD. - USB3_ULPI_D3. - VIN2B_D5. - VIN5A_D5. - EQEP3A_IN. - GPIO6_31. - DRIVER OFF." "MMC3_DAT0,SPI3_D1,UART5_RXD,USB3_ULPI_D3,VIN2B_D5,5,6,7,8,VIN5A_D5,EQEP3A_IN,11,12,13,GPIO6_31,DRIVER_OFF"
group.long 0x1788++0x3
line.long 0x00 "CTRL_CORE_PAD_MMC3_DAT1,"
bitfld.long 0x00 25. " MMC3_DAT1_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MMC3_DAT1_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MMC3_DAT1_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MMC3_DAT1_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MMC3_DAT1_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MMC3_DAT1_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MMC3_DAT1_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MMC3_DAT1_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MMC3_DAT1_MUXMODE                    ,- MMC3_DAT1. - SPI3_D0. - UART5_TXD. - USB3_ULPI_D2. - VIN2B_D4. - VIN5A_D4. - EQEP3B_IN. - GPIO7_0. - DRIVER OFF." "MMC3_DAT1,SPI3_D0,UART5_TXD,USB3_ULPI_D2,VIN2B_D4,5,6,7,8,VIN5A_D4,EQEP3B_IN,11,12,13,GPIO7_0,DRIVER_OFF"
group.long 0x178C++0x3
line.long 0x00 "CTRL_CORE_PAD_MMC3_DAT2,"
bitfld.long 0x00 25. " MMC3_DAT2_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MMC3_DAT2_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MMC3_DAT2_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MMC3_DAT2_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MMC3_DAT2_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MMC3_DAT2_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MMC3_DAT2_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MMC3_DAT2_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MMC3_DAT2_MUXMODE                    ,- MMC3_DAT2. - SPI3_CS0. - UART5_CTSN. - USB3_ULPI_D1. - VIN2B_D3. - VIN5A_D3. - EQEP3_INDEX. - GPIO7_1. - DRIVER OFF." "MMC3_DAT2,SPI3_CS0,UART5_CTSN,USB3_ULPI_D1,VIN2B_D3,5,6,7,8,VIN5A_D3,EQEP3_INDEX,11,12,13,GPIO7_1,DRIVER_OFF"
group.long 0x1790++0x3
line.long 0x00 "CTRL_CORE_PAD_MMC3_DAT3,"
bitfld.long 0x00 25. " MMC3_DAT3_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MMC3_DAT3_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MMC3_DAT3_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MMC3_DAT3_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MMC3_DAT3_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MMC3_DAT3_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MMC3_DAT3_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MMC3_DAT3_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MMC3_DAT3_MUXMODE                    ,- MMC3_DAT3. - SPI3_CS1. - UART5_RTSN. - USB3_ULPI_D0. - VIN2B_D2. - VIN5A_D2. - EQEP3_STROBE. - GPIO7_2. - DRIVER OFF." "MMC3_DAT3,SPI3_CS1,UART5_RTSN,USB3_ULPI_D0,VIN2B_D2,5,6,7,8,VIN5A_D2,EQEP3_STROBE,11,12,13,GPIO7_2,DRIVER_OFF"
group.long 0x1794++0x3
line.long 0x00 "CTRL_CORE_PAD_MMC3_DAT4,"
bitfld.long 0x00 25. " MMC3_DAT4_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MMC3_DAT4_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MMC3_DAT4_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MMC3_DAT4_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MMC3_DAT4_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MMC3_DAT4_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MMC3_DAT4_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MMC3_DAT4_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MMC3_DAT4_MUXMODE                    ,- MMC3_DAT4. - SPI4_SCLK. - UART10_RXD. - USB3_ULPI_NXT. - VIN2B_D1. - VIN5A_D1. - EHRPWM3A. - GPIO1_22. - DRIVER OFF." "MMC3_DAT4,SPI4_SCLK,UART10_RXD,USB3_ULPI_NXT,VIN2B_D1,5,6,7,8,VIN5A_D1,EHRPWM3A,11,12,13,GPIO1_22,DRIVER_OFF"
group.long 0x1798++0x3
line.long 0x00 "CTRL_CORE_PAD_MMC3_DAT5,"
bitfld.long 0x00 25. " MMC3_DAT5_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MMC3_DAT5_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MMC3_DAT5_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MMC3_DAT5_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MMC3_DAT5_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MMC3_DAT5_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MMC3_DAT5_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MMC3_DAT5_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MMC3_DAT5_MUXMODE                    ,- MMC3_DAT5. - SPI4_D1. - UART10_TXD. - USB3_ULPI_DIR. - VIN2B_D0. - VIN5A_D0. - EHRPWM3B. - GPIO1_23. - DRIVER OFF." "MMC3_DAT5,SPI4_D1,UART10_TXD,USB3_ULPI_DIR,VIN2B_D0,5,6,7,8,VIN5A_D0,EHRPWM3B,11,12,13,GPIO1_23,DRIVER_OFF"
group.long 0x179C++0x3
line.long 0x00 "CTRL_CORE_PAD_MMC3_DAT6,"
bitfld.long 0x00 25. " MMC3_DAT6_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MMC3_DAT6_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MMC3_DAT6_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MMC3_DAT6_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MMC3_DAT6_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MMC3_DAT6_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MMC3_DAT6_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MMC3_DAT6_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MMC3_DAT6_MUXMODE                    ,- MMC3_DAT6. - SPI4_D0. - UART10_CTSN. - USB3_ULPI_STP. - VIN2B_DE1. - VIN5A_HSYNC0. - EHRPWM3_TRIPZONE_INPUT. - GPIO1_24. - DRIVER OFF." "MMC3_DAT6,SPI4_D0,UART10_CTSN,USB3_ULPI_STP,VIN2B_DE1,5,6,7,8,VIN5A_HSYNC0,EHRPWM3_TRIPZONE_INPUT,11,12,13,GPIO1_24,DRIVER_OFF"
group.long 0x17A0++0x3
line.long 0x00 "CTRL_CORE_PAD_MMC3_DAT7,"
bitfld.long 0x00 25. " MMC3_DAT7_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      MMC3_DAT7_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     MMC3_DAT7_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " MMC3_DAT7_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       MMC3_DAT7_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   MMC3_DAT7_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " MMC3_DAT7_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    MMC3_DAT7_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          MMC3_DAT7_MUXMODE                    ,- MMC3_DAT7. - SPI4_CS0. - UART10_RTSN. - USB3_ULPI_CLK. - VIN2B_CLK1. - VIN5A_VSYNC0. - ECAP3_IN_PWM3_OUT. - GPIO1_25. - DRIVER OFF." "MMC3_DAT7,SPI4_CS0,UART10_RTSN,USB3_ULPI_CLK,VIN2B_CLK1,5,6,7,8,VIN5A_VSYNC0,ECAP3_IN_PWM3_OUT,11,12,13,GPIO1_25,DRIVER_OFF"
group.long 0x17A4++0x3
line.long 0x00 "CTRL_CORE_PAD_SPI1_SCLK,"
bitfld.long 0x00 25. " SPI1_SCLK_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      SPI1_SCLK_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     SPI1_SCLK_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " SPI1_SCLK_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       SPI1_SCLK_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   SPI1_SCLK_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " SPI1_SCLK_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    SPI1_SCLK_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          SPI1_SCLK_MUXMODE                    ,- SPI1_SCLK. - GPIO7_7. - DRIVER OFF." "SPI1_SCLK,1,2,3,4,5,6,7,8,9,10,11,12,13,GPIO7_7,DRIVER_OFF"
group.long 0x17A8++0x3
line.long 0x00 "CTRL_CORE_PAD_SPI1_D1,"
bitfld.long 0x00 25. " SPI1_D1_WAKEUPEVENT                   ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      SPI1_D1_WAKEUPENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     SPI1_D1_SLEWCONTROL                  ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " SPI1_D1_INPUTENABLE                   ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       SPI1_D1_PULLTYPESELECT              ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   SPI1_D1_PULLUDENABLE                 ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " SPI1_D1_MODESELECT                    ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    SPI1_D1_DELAYMODE                   ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          SPI1_D1_MUXMODE                      ,- SPI1_D1. - GPIO7_8. - DRIVER OFF." "SPI1_D1,1,2,3,4,5,6,7,8,9,10,11,12,13,GPIO7_8,DRIVER_OFF"
group.long 0x17AC++0x3
line.long 0x00 "CTRL_CORE_PAD_SPI1_D0,"
bitfld.long 0x00 25. " SPI1_D0_WAKEUPEVENT                   ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      SPI1_D0_WAKEUPENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     SPI1_D0_SLEWCONTROL                  ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " SPI1_D0_INPUTENABLE                   ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       SPI1_D0_PULLTYPESELECT              ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   SPI1_D0_PULLUDENABLE                 ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " SPI1_D0_MODESELECT                    ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    SPI1_D0_DELAYMODE                   ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          SPI1_D0_MUXMODE                      ,- SPI1_D0. - GPIO7_9. - DRIVER OFF." "SPI1_D0,1,2,3,4,5,6,7,8,9,10,11,12,13,GPIO7_9,DRIVER_OFF"
group.long 0x17B0++0x3
line.long 0x00 "CTRL_CORE_PAD_SPI1_CS0,"
bitfld.long 0x00 25. " SPI1_CS0_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      SPI1_CS0_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     SPI1_CS0_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " SPI1_CS0_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       SPI1_CS0_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   SPI1_CS0_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " SPI1_CS0_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    SPI1_CS0_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          SPI1_CS0_MUXMODE                     ,- SPI1_CS0. - GPIO7_10. - DRIVER OFF." "SPI1_CS0,1,2,3,4,5,6,7,8,9,10,11,12,13,GPIO7_10,DRIVER_OFF"
group.long 0x17B4++0x3
line.long 0x00 "CTRL_CORE_PAD_SPI1_CS1,"
bitfld.long 0x00 25. " SPI1_CS1_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      SPI1_CS1_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     SPI1_CS1_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " SPI1_CS1_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       SPI1_CS1_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   SPI1_CS1_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " SPI1_CS1_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    SPI1_CS1_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          SPI1_CS1_MUXMODE                     ,- SPI1_CS1. - SATA1_LED. - SPI2_CS1. - GPIO7_11. - DRIVER OFF." "SPI1_CS1,1,SATA1_LED,SPI2_CS1,4,5,6,7,8,9,10,11,12,13,GPIO7_11,DRIVER_OFF"
group.long 0x17B8++0x3
line.long 0x00 "CTRL_CORE_PAD_SPI1_CS2,"
bitfld.long 0x00 25. " SPI1_CS2_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      SPI1_CS2_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     SPI1_CS2_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " SPI1_CS2_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       SPI1_CS2_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   SPI1_CS2_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " SPI1_CS2_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    SPI1_CS2_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          SPI1_CS2_MUXMODE                     ,- SPI1_CS2. - UART4_RXD. - MMC3_SDCD. - SPI2_CS2. - DCAN2_TX. - MDIO_MCLK. - HDMI1_HPD. - GPIO7_12. - DRIVER OFF." "SPI1_CS2,UART4_RXD,MMC3_SDCD,SPI2_CS2,DCAN2_TX,MDIO_MCLK,HDMI1_HPD,7,8,9,10,11,12,13,GPIO7_12,DRIVER_OFF"
group.long 0x17BC++0x3
line.long 0x00 "CTRL_CORE_PAD_SPI1_CS3,"
bitfld.long 0x00 25. " SPI1_CS3_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      SPI1_CS3_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     SPI1_CS3_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " SPI1_CS3_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       SPI1_CS3_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   SPI1_CS3_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " SPI1_CS3_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    SPI1_CS3_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          SPI1_CS3_MUXMODE                     ,- SPI1_CS3. - UART4_TXD. - MMC3_SDWP. - SPI2_CS3. - DCAN2_RX. - MDIO_D. - HDMI1_CEC. - GPIO7_13. - DRIVER OFF." "SPI1_CS3,UART4_TXD,MMC3_SDWP,SPI2_CS3,DCAN2_RX,MDIO_D,HDMI1_CEC,7,8,9,10,11,12,13,GPIO7_13,DRIVER_OFF"
group.long 0x17C0++0x3
line.long 0x00 "CTRL_CORE_PAD_SPI2_SCLK,"
bitfld.long 0x00 25. " SPI2_SCLK_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      SPI2_SCLK_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     SPI2_SCLK_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " SPI2_SCLK_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       SPI2_SCLK_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   SPI2_SCLK_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " SPI2_SCLK_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    SPI2_SCLK_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          SPI2_SCLK_MUXMODE                    ,- SPI2_SCLK. - UART3_RXD. - GPIO7_14. - DRIVER OFF." "SPI2_SCLK,UART3_RXD,2,3,4,5,6,7,8,9,10,11,12,13,GPIO7_14,DRIVER_OFF"
group.long 0x17C4++0x3
line.long 0x00 "CTRL_CORE_PAD_SPI2_D1,"
bitfld.long 0x00 25. " SPI2_D1_WAKEUPEVENT                   ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      SPI2_D1_WAKEUPENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     SPI2_D1_SLEWCONTROL                  ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " SPI2_D1_INPUTENABLE                   ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       SPI2_D1_PULLTYPESELECT              ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   SPI2_D1_PULLUDENABLE                 ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " SPI2_D1_MODESELECT                    ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    SPI2_D1_DELAYMODE                   ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          SPI2_D1_MUXMODE                      ,- SPI2_D1. - UART3_TXD. - GPIO7_15. - DRIVER OFF." "SPI2_D1,UART3_TXD,2,3,4,5,6,7,8,9,10,11,12,13,GPIO7_15,DRIVER_OFF"
group.long 0x17C8++0x3
line.long 0x00 "CTRL_CORE_PAD_SPI2_D0,"
bitfld.long 0x00 25. " SPI2_D0_WAKEUPEVENT                   ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      SPI2_D0_WAKEUPENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     SPI2_D0_SLEWCONTROL                  ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " SPI2_D0_INPUTENABLE                   ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       SPI2_D0_PULLTYPESELECT              ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   SPI2_D0_PULLUDENABLE                 ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " SPI2_D0_MODESELECT                    ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    SPI2_D0_DELAYMODE                   ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          SPI2_D0_MUXMODE                      ,- SPI2_D0. - UART3_CTSN. - UART5_RXD. - GPIO7_16. - DRIVER OFF." "SPI2_D0,UART3_CTSN,UART5_RXD,3,4,5,6,7,8,9,10,11,12,13,GPIO7_16,DRIVER_OFF"
group.long 0x17CC++0x3
line.long 0x00 "CTRL_CORE_PAD_SPI2_CS0,"
bitfld.long 0x00 25. " SPI2_CS0_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      SPI2_CS0_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     SPI2_CS0_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " SPI2_CS0_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       SPI2_CS0_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   SPI2_CS0_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " SPI2_CS0_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    SPI2_CS0_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          SPI2_CS0_MUXMODE                     ,- SPI2_CS0. - UART3_RTSN. - UART5_TXD. - GPIO7_17. - DRIVER OFF." "SPI2_CS0,UART3_RTSN,UART5_TXD,3,4,5,6,7,8,9,10,11,12,13,GPIO7_17,DRIVER_OFF"
group.long 0x17D0++0x3
line.long 0x00 "CTRL_CORE_PAD_DCAN1_TX,"
bitfld.long 0x00 25. " DCAN1_TX_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      DCAN1_TX_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     DCAN1_TX_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " DCAN1_TX_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       DCAN1_TX_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   DCAN1_TX_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " DCAN1_TX_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    DCAN1_TX_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          DCAN1_TX_MUXMODE                     ,- DCAN1_TX. - UART8_RXD. - MMC2_SDCD. - HDMI1_HPD. - GPIO1_14. - DRIVER OFF." "DCAN1_TX,1,UART8_RXD,MMC2_SDCD,4,5,HDMI1_HPD,7,8,9,10,11,12,13,GPIO1_14,DRIVER_OFF"
group.long 0x17D4++0x3
line.long 0x00 "CTRL_CORE_PAD_DCAN1_RX,"
bitfld.long 0x00 25. " DCAN1_RX_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      DCAN1_RX_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     DCAN1_RX_SLEWCONTROL                 ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " DCAN1_RX_INPUTENABLE                  ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       DCAN1_RX_PULLTYPESELECT             ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   DCAN1_RX_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " DCAN1_RX_MODESELECT                   ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    DCAN1_RX_DELAYMODE                  ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          DCAN1_RX_MUXMODE                     ,- DCAN1_RX. - UART8_TXD. - MMC2_SDWP. - SATA1_LED. - HDMI1_CEC. - GPIO1_15. - DRIVER OFF." "DCAN1_RX,1,UART8_TXD,MMC2_SDWP,SATA1_LED,5,HDMI1_CEC,7,8,9,10,11,12,13,GPIO1_15,DRIVER_OFF"
group.long 0x17E0++0x3
line.long 0x00 "CTRL_CORE_PAD_UART1_RXD,"
bitfld.long 0x00 25. " UART1_RXD_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      UART1_RXD_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     UART1_RXD_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " UART1_RXD_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       UART1_RXD_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   UART1_RXD_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " UART1_RXD_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    UART1_RXD_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          UART1_RXD_MUXMODE                    ,- UART1_RXD. - MMC4_SDCD. - GPIO7_22. - DRIVER OFF." "UART1_RXD,1,2,MMC4_SDCD,4,5,6,7,8,9,10,11,12,13,GPIO7_22,DRIVER_OFF"
group.long 0x17E4++0x3
line.long 0x00 "CTRL_CORE_PAD_UART1_TXD,"
bitfld.long 0x00 25. " UART1_TXD_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      UART1_TXD_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     UART1_TXD_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " UART1_TXD_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       UART1_TXD_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   UART1_TXD_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " UART1_TXD_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    UART1_TXD_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          UART1_TXD_MUXMODE                    ,- UART1_TXD. - MMC4_SDWP. - GPIO7_23. - DRIVER OFF." "UART1_TXD,1,2,MMC4_SDWP,4,5,6,7,8,9,10,11,12,13,GPIO7_23,DRIVER_OFF"
group.long 0x17E8++0x3
line.long 0x00 "CTRL_CORE_PAD_UART1_CTSN,"
bitfld.long 0x00 25. " UART1_CTSN_WAKEUPEVENT                ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      UART1_CTSN_WAKEUPENABLE             ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     UART1_CTSN_SLEWCONTROL               ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " UART1_CTSN_INPUTENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       UART1_CTSN_PULLTYPESELECT           ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   UART1_CTSN_PULLUDENABLE              ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " UART1_CTSN_MODESELECT                 ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    UART1_CTSN_DELAYMODE                ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          UART1_CTSN_MUXMODE                   ,- UART1_CTSN. - UART9_RXD. - MMC4_CLK. - GPIO7_24. - DRIVER OFF." "UART1_CTSN,1,UART9_RXD,MMC4_CLK,4,5,6,7,8,9,10,11,12,13,GPIO7_24,DRIVER_OFF"
group.long 0x17EC++0x3
line.long 0x00 "CTRL_CORE_PAD_UART1_RTSN,"
bitfld.long 0x00 25. " UART1_RTSN_WAKEUPEVENT                ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      UART1_RTSN_WAKEUPENABLE             ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     UART1_RTSN_SLEWCONTROL               ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " UART1_RTSN_INPUTENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       UART1_RTSN_PULLTYPESELECT           ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   UART1_RTSN_PULLUDENABLE              ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " UART1_RTSN_MODESELECT                 ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    UART1_RTSN_DELAYMODE                ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          UART1_RTSN_MUXMODE                   ,- UART1_RTSN. - UART9_TXD. - MMC4_CMD. - GPIO7_25. - DRIVER OFF." "UART1_RTSN,1,UART9_TXD,MMC4_CMD,4,5,6,7,8,9,10,11,12,13,GPIO7_25,DRIVER_OFF"
group.long 0x17F0++0x3
line.long 0x00 "CTRL_CORE_PAD_UART2_RXD,"
bitfld.long 0x00 25. " UART2_RXD_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      UART2_RXD_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     UART2_RXD_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " UART2_RXD_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       UART2_RXD_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   UART2_RXD_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " UART2_RXD_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    UART2_RXD_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          UART2_RXD_MUXMODE                    ,- UART3_CTSN. - UART3_RCTX. - MMC4_DAT0. - UART2_RXD. - UART1_DCDN. - GPIO7_26. - DRIVER OFF." "0,UART3_CTSN,UART3_RCTX,MMC4_DAT0,UART2_RXD,UART1_DCDN,6,7,8,9,10,11,12,13,GPIO7_26,DRIVER_OFF"
group.long 0x17F4++0x3
line.long 0x00 "CTRL_CORE_PAD_UART2_TXD,"
bitfld.long 0x00 25. " UART2_TXD_WAKEUPEVENT                 ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      UART2_TXD_WAKEUPENABLE              ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     UART2_TXD_SLEWCONTROL                ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " UART2_TXD_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       UART2_TXD_PULLTYPESELECT            ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   UART2_TXD_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " UART2_TXD_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    UART2_TXD_DELAYMODE                 ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          UART2_TXD_MUXMODE                    ,- UART2_TXD. - UART3_RTSN. - UART3_SD. - MMC4_DAT1. - UART2_TXD. - UART1_DSRN. - GPIO7_27. - DRIVER OFF." "UART2_TXD,UART3_RTSN,UART3_SD,MMC4_DAT1,UART2_TXD,UART1_DSRN,6,7,8,9,10,11,12,13,GPIO7_27,DRIVER_OFF"
group.long 0x17F8++0x3
line.long 0x00 "CTRL_CORE_PAD_UART2_CTSN,"
bitfld.long 0x00 25. " UART2_CTSN_WAKEUPEVENT                ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      UART2_CTSN_WAKEUPENABLE             ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     UART2_CTSN_SLEWCONTROL               ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " UART2_CTSN_INPUTENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       UART2_CTSN_PULLTYPESELECT           ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   UART2_CTSN_PULLUDENABLE              ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " UART2_CTSN_MODESELECT                 ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    UART2_CTSN_DELAYMODE                ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          UART2_CTSN_MUXMODE                   ,- UART2_CTSN. - UART3_RXD. - MMC4_DAT2. - UART10_RXD. - UART1_DTRN. - GPIO1_16. - DRIVER OFF." "UART2_CTSN,1,UART3_RXD,MMC4_DAT2,UART10_RXD,UART1_DTRN,6,7,8,9,10,11,12,13,GPIO1_16,DRIVER_OFF"
group.long 0x17FC++0x3
line.long 0x00 "CTRL_CORE_PAD_UART2_RTSN,"
bitfld.long 0x00 25. " UART2_RTSN_WAKEUPEVENT                ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      UART2_RTSN_WAKEUPENABLE             ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     UART2_RTSN_SLEWCONTROL               ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " UART2_RTSN_INPUTENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       UART2_RTSN_PULLTYPESELECT           ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   UART2_RTSN_PULLUDENABLE              ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " UART2_RTSN_MODESELECT                 ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    UART2_RTSN_DELAYMODE                ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          UART2_RTSN_MUXMODE                   ,- UART2_RTSN. - UART3_TXD. - UART3_IRTX. - MMC4_DAT3. - UART10_TXD. - UART1_RIN. - GPIO1_17. - DRIVER OFF." "UART2_RTSN,UART3_TXD,UART3_IRTX,MMC4_DAT3,UART10_TXD,UART1_RIN,6,7,8,9,10,11,12,13,GPIO1_17,DRIVER_OFF"
group.long 0x1800++0x3
line.long 0x00 "CTRL_CORE_PAD_I2C1_SDA,"
bitfld.long 0x00 25. " I2C1_SDA_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      I2C1_SDA_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 18. "     I2C1_SDA_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
textline "                                                          "
bitfld.long 0x00 17. " I2C1_SDA_PULLTYPESELECT               ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "     I2C1_SDA_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
group.long 0x1804++0x3
line.long 0x00 "CTRL_CORE_PAD_I2C1_SCL,"
bitfld.long 0x00 25. " I2C1_SCL_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      I2C1_SCL_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 18. "     I2C1_SCL_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
textline "                                                          "
bitfld.long 0x00 17. " I2C1_SCL_PULLTYPESELECT               ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "     I2C1_SCL_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
group.long 0x1808++0x3
line.long 0x00 "CTRL_CORE_PAD_I2C2_SDA,"
bitfld.long 0x00 25. " I2C2_SDA_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      I2C2_SDA_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 18. "     I2C2_SDA_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
textline "                                                          "
bitfld.long 0x00 17. " I2C2_SDA_PULLTYPESELECT               ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "     I2C2_SDA_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
bitfld.long 0x00 0.--3. "     I2C2_SDA_MUXMODE                     ,- I2C2_SDA. - HDMI1_DDC_SCL. - DRIVER OFF." "I2C2_SDA,HDMI1_DDC_SCL,2,3,4,5,6,7,8,9,10,11,12,13,14,DRIVER_OFF"
group.long 0x180C++0x3
line.long 0x00 "CTRL_CORE_PAD_I2C2_SCL,"
bitfld.long 0x00 25. " I2C2_SCL_WAKEUPEVENT                  ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      I2C2_SCL_WAKEUPENABLE               ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 18. "     I2C2_SCL_INPUTENABLE                 ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
textline "                                                          "
bitfld.long 0x00 17. " I2C2_SCL_PULLTYPESELECT               ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "     I2C2_SCL_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
bitfld.long 0x00 0.--3. "     I2C2_SCL_MUXMODE                     ,- I2C2_SCL. - HDMI1_DDC_SDA. - DRIVER OFF." "I2C2_SCL,HDMI1_DDC_SDA,2,3,4,5,6,7,8,9,10,11,12,13,14,DRIVER_OFF"
group.long 0x1818++0x3
line.long 0x00 "CTRL_CORE_PAD_WAKEUP0,"
bitfld.long 0x00 25. " WAKEUP0_WAKEUPEVENT                   ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      WAKEUP0_WAKEUPENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "     WAKEUP0_PULLTYPESELECT               ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
textline "                                                          "
bitfld.long 0x00 16. " WAKEUP0_PULLUDENABLE                  ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
bitfld.long 0x00 8. "       WAKEUP0_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, ..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "  WAKEUP0_DELAYMODE                    ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                                          "
bitfld.long 0x00 0.--3. " WAKEUP0_MUXMODE                       ,- WAKEUP0. - DCAN1_RX. - GPIO1_0. - DRIVER OFF." "WAKEUP0,DCAN1_RX,2,3,4,5,6,7,8,9,10,11,12,13,GPIO1_0,DRIVER_OFF"
group.long 0x181C++0x3
line.long 0x00 "CTRL_CORE_PAD_WAKEUP1,"
bitfld.long 0x00 25. " WAKEUP1_WAKEUPEVENT                   ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      WAKEUP1_WAKEUPENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "     WAKEUP1_PULLTYPESELECT               ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
textline "                                                          "
bitfld.long 0x00 16. " WAKEUP1_PULLUDENABLE                  ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
bitfld.long 0x00 8. "       WAKEUP1_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, ..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "  WAKEUP1_DELAYMODE                    ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                                          "
bitfld.long 0x00 0.--3. " WAKEUP1_MUXMODE                       ,- WAKEUP1. - DCAN2_RX. - GPIO1_1. - DRIVER OFF." "WAKEUP1,DCAN2_RX,2,3,4,5,6,7,8,9,10,11,12,13,GPIO1_1,DRIVER_OFF"
group.long 0x1820++0x3
line.long 0x00 "CTRL_CORE_PAD_WAKEUP2,"
bitfld.long 0x00 25. " WAKEUP2_WAKEUPEVENT                   ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      WAKEUP2_WAKEUPENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "     WAKEUP2_PULLTYPESELECT               ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
textline "                                                          "
bitfld.long 0x00 16. " WAKEUP2_PULLUDENABLE                  ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
bitfld.long 0x00 8. "       WAKEUP2_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, ..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "  WAKEUP2_DELAYMODE                    ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                                          "
bitfld.long 0x00 0.--3. " WAKEUP2_MUXMODE                       ,- WAKEUP2. - SYS_NIRQ2. - GPIO1_2. - DRIVER OFF." "WAKEUP2,SYS_NIRQ2,2,3,4,5,6,7,8,9,10,11,12,13,GPIO1_2,DRIVER_OFF"
group.long 0x1824++0x3
line.long 0x00 "CTRL_CORE_PAD_WAKEUP3,"
bitfld.long 0x00 25. " WAKEUP3_WAKEUPEVENT                   ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      WAKEUP3_WAKEUPENABLE                ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "     WAKEUP3_PULLTYPESELECT               ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
textline "                                                          "
bitfld.long 0x00 16. " WAKEUP3_PULLUDENABLE                  ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
bitfld.long 0x00 8. "       WAKEUP3_MODESELECT                  ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, ..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "  WAKEUP3_DELAYMODE                    ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                                          "
bitfld.long 0x00 0.--3. " WAKEUP3_MUXMODE                       ,- WAKEUP3. - SYS_NIRQ1. - GPIO1_3. - DRIVER OFF." "WAKEUP3,SYS_NIRQ1,2,3,4,5,6,7,8,9,10,11,12,13,GPIO1_3,DRIVER_OFF"
group.long 0x1828++0x3
line.long 0x00 "CTRL_CORE_PAD_ON_OFF,"
bitfld.long 0x00 17. " ON_OFF_PULLTYPESELECT                 ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "     ON_OFF_PULLUDENABLE                 ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
group.long 0x182C++0x3
line.long 0x00 "CTRL_CORE_PAD_RTC_PORZ,"
bitfld.long 0x00 17. " RTC_PORZ_PULLTYPESELECT               ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "     RTC_PORZ_PULLUDENABLE               ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
group.long 0x1830++0x3
line.long 0x00 "CTRL_CORE_PAD_TMS,"
bitfld.long 0x00 19. " TMS_SLEWCONTROL                       ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
bitfld.long 0x00 18. "     TMS_INPUTENABLE                     ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "     TMS_PULLTYPESELECT                   ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
textline "                                                          "
bitfld.long 0x00 16. " TMS_PULLUDENABLE                      ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
group.long 0x1834++0x3
line.long 0x00 "CTRL_CORE_PAD_TDI,"
bitfld.long 0x00 25. " TDI_WAKEUPEVENT                       ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      TDI_WAKEUPENABLE                    ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     TDI_SLEWCONTROL                      ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " TDI_INPUTENABLE                       ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       TDI_PULLTYPESELECT                  ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   TDI_PULLUDENABLE                     ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " TDI_MODESELECT                        ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    TDI_DELAYMODE                       ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          TDI_MUXMODE                          ,- TDI. - GPIO8_27." "TDI,1,2,3,4,5,6,7,8,9,10,11,12,13,GPIO8_27,15"
group.long 0x1838++0x3
line.long 0x00 "CTRL_CORE_PAD_TDO,"
bitfld.long 0x00 25. " TDO_WAKEUPEVENT                       ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      TDO_WAKEUPENABLE                    ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     TDO_SLEWCONTROL                      ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " TDO_INPUTENABLE                       ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       TDO_PULLTYPESELECT                  ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   TDO_PULLUDENABLE                     ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " TDO_MODESELECT                        ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    TDO_DELAYMODE                       ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          TDO_MUXMODE                          ,- TDO. - GPIO8_28." "TDO,1,2,3,4,5,6,7,8,9,10,11,12,13,GPIO8_28,15"
group.long 0x183C++0x3
line.long 0x00 "CTRL_CORE_PAD_TCLK,"
bitfld.long 0x00 18. " TCLK_INPUTENABLE                      ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       TCLK_PULLTYPESELECT                 ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   TCLK_PULLUDENABLE                    ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
group.long 0x1840++0x3
line.long 0x00 "CTRL_CORE_PAD_TRSTN,"
bitfld.long 0x00 19. " TRSTN_SLEWCONTROL                     ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
bitfld.long 0x00 18. "     TRSTN_INPUTENABLE                   ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "     TRSTN_PULLTYPESELECT                 ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
textline "                                                          "
bitfld.long 0x00 16. " TRSTN_PULLUDENABLE                    ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
group.long 0x1844++0x3
line.long 0x00 "CTRL_CORE_PAD_RTCK,"
bitfld.long 0x00 25. " RTCK_WAKEUPEVENT                      ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      RTCK_WAKEUPENABLE                   ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     RTCK_SLEWCONTROL                     ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " RTCK_INPUTENABLE                      ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       RTCK_PULLTYPESELECT                 ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   RTCK_PULLUDENABLE                    ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " RTCK_MODESELECT                       ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    RTCK_DELAYMODE                      ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          RTCK_MUXMODE                         ,- RTCK. - GPIO8_29." "RTCK,1,2,3,4,5,6,7,8,9,10,11,12,13,GPIO8_29,15"
group.long 0x1848++0x3
line.long 0x00 "CTRL_CORE_PAD_EMU0,"
bitfld.long 0x00 25. " EMU0_WAKEUPEVENT                      ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      EMU0_WAKEUPENABLE                   ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     EMU0_SLEWCONTROL                     ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " EMU0_INPUTENABLE                      ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       EMU0_PULLTYPESELECT                 ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   EMU0_PULLUDENABLE                    ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " EMU0_MODESELECT                       ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    EMU0_DELAYMODE                      ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          EMU0_MUXMODE                         ,- EMU0. - GPIO8_30." "EMU0,1,2,3,4,5,6,7,8,9,10,11,12,13,GPIO8_30,15"
group.long 0x184C++0x3
line.long 0x00 "CTRL_CORE_PAD_EMU1,"
bitfld.long 0x00 25. " EMU1_WAKEUPEVENT                      ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      EMU1_WAKEUPENABLE                   ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 19. "     EMU1_SLEWCONTROL                     ,- FAST_SLEW. - SLOW_SLEW." "FAST_SLEW,SLOW_SLEW"
textline "                                                          "
bitfld.long 0x00 18. " EMU1_INPUTENABLE                      ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "       EMU1_PULLTYPESELECT                 ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "   EMU1_PULLUDENABLE                    ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
textline "                                                          "
bitfld.long 0x00 8. " EMU1_MODESELECT                       ,Selects between the Default IO Timing Mode and a Virtual or Manual IO Timing Mode. Refer to the device Data Manual for definition of the required settings for a given mode of operation. When this bit is 0b1, a Vi..." "MUX_MODE,DELAY_MODE"
bitfld.long 0x00 4.--7. "    EMU1_DELAYMODE                      ,This bit field selects the Virtual Timing Mode used when the MODESELECT bit is set to 0b1. See, Virtual IO Timing Modes for details." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "          EMU1_MUXMODE                         ,- EMU1. - GPIO8_31." "EMU1,1,2,3,4,5,6,7,8,9,10,11,12,13,GPIO8_31,15"
group.long 0x185C++0x3
line.long 0x00 "CTRL_CORE_PAD_RESETN,"
bitfld.long 0x00 17. " RESETN_PULLTYPESELECT                 ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "     RESETN_PULLUDENABLE                 ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
group.long 0x1860++0x3
line.long 0x00 "CTRL_CORE_PAD_NMIN_DSP,"
bitfld.long 0x00 25. " NMIN_WAKEUPEVENT                      ,- NOWAKEUP. - WAKEUP." "NOWAKEUP,WAKEUP"
bitfld.long 0x00 24. "      NMIN_WAKEUPENABLE                   ,- DISABLE. - ENABLE." "DISABLE,ENABLE"
bitfld.long 0x00 17. "     NMIN_PULLTYPESELECT                  ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
textline "                                                          "
bitfld.long 0x00 16. " NMIN_PULLUDENABLE                     ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
group.long 0x1864++0x3
line.long 0x00 "CTRL_CORE_PAD_RSTOUTN,"
bitfld.long 0x00 17. " RSTOUTN_PULLTYPESELECT                ,- PULL_DOWN. - PULL_UP." "PULL_DOWN,PULL_UP"
bitfld.long 0x00 16. "     RSTOUTN_PULLUDENABLE                ,- ENABLE. - DISABLE." "ENABLE,DISABLE"
rgroup.long 0x1868++0x3
line.long 0x00 "CTRL_CORE_PADCONF_WAKEUPEVENT_0,"
bitfld.long 0x00 31. " GPMC_A15_DUPLICATEWAKEUPEVENT         ," "0,1"
bitfld.long 0x00 30. "             GPMC_A14_DUPLICATEWAKEUPEVENT       ," "0,1"
bitfld.long 0x00 29. "           GPMC_A13_DUPLICATEWAKEUPEVENT        ," "0,1"
textline "                                                          "
bitfld.long 0x00 28. " GPMC_A12_DUPLICATEWAKEUPEVENT         ," "0,1"
bitfld.long 0x00 27. "             GPMC_A11_DUPLICATEWAKEUPEVENT       ," "0,1"
bitfld.long 0x00 26. "           GPMC_A10_DUPLICATEWAKEUPEVENT        ," "0,1"
textline "                                                          "
bitfld.long 0x00 25. " GPMC_A9_DUPLICATEWAKEUPEVENT          ," "0,1"
bitfld.long 0x00 24. "             GPMC_A8_DUPLICATEWAKEUPEVENT        ," "0,1"
bitfld.long 0x00 23. "           GPMC_A7_DUPLICATEWAKEUPEVENT         ," "0,1"
textline "                                                          "
bitfld.long 0x00 22. " GPMC_A6_DUPLICATEWAKEUPEVENT          ," "0,1"
bitfld.long 0x00 21. "             GPMC_A5_DUPLICATEWAKEUPEVENT        ," "0,1"
bitfld.long 0x00 20. "           GPMC_A4_DUPLICATEWAKEUPEVENT         ," "0,1"
textline "                                                          "
bitfld.long 0x00 19. " GPMC_A3_DUPLICATEWAKEUPEVENT          ," "0,1"
bitfld.long 0x00 18. "             GPMC_A2_DUPLICATEWAKEUPEVENT        ," "0,1"
bitfld.long 0x00 17. "           GPMC_A1_DUPLICATEWAKEUPEVENT         ," "0,1"
textline "                                                          "
bitfld.long 0x00 16. " GPMC_A0_DUPLICATEWAKEUPEVENT          ," "0,1"
bitfld.long 0x00 15. "             GPMC_AD15_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 14. "           GPMC_AD14_DUPLICATEWAKEUPEVENT       ," "0,1"
textline "                                                          "
bitfld.long 0x00 13. " GPMC_AD13_DUPLICATEWAKEUPEVENT        ," "0,1"
bitfld.long 0x00 12. "             GPMC_AD12_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 11. "           GPMC_AD11_DUPLICATEWAKEUPEVENT       ," "0,1"
textline "                                                          "
bitfld.long 0x00 10. " GPMC_AD10_DUPLICATEWAKEUPEVENT        ," "0,1"
bitfld.long 0x00 9. "             GPMC_AD9_DUPLICATEWAKEUPEVENT       ," "0,1"
bitfld.long 0x00 8. "           GPMC_AD8_DUPLICATEWAKEUPEVENT        ," "0,1"
textline "                                                          "
bitfld.long 0x00 7. " GPMC_AD7_DUPLICATEWAKEUPEVENT         ," "0,1"
bitfld.long 0x00 6. "             GPMC_AD6_DUPLICATEWAKEUPEVENT       ," "0,1"
bitfld.long 0x00 5. "           GPMC_AD5_DUPLICATEWAKEUPEVENT        ," "0,1"
textline "                                                          "
bitfld.long 0x00 4. " GPMC_AD4_DUPLICATEWAKEUPEVENT         ," "0,1"
bitfld.long 0x00 3. "             GPMC_AD3_DUPLICATEWAKEUPEVENT       ," "0,1"
bitfld.long 0x00 2. "           GPMC_AD2_DUPLICATEWAKEUPEVENT        ," "0,1"
textline "                                                          "
bitfld.long 0x00 1. " GPMC_AD1_DUPLICATEWAKEUPEVENT         ," "0,1"
bitfld.long 0x00 0. "             GPMC_AD0_DUPLICATEWAKEUPEVENT       ," "0,1"
rgroup.long 0x186C++0x3
line.long 0x00 "CTRL_CORE_PADCONF_WAKEUPEVENT_1,"
bitfld.long 0x00 31. " VIN1A_D2_DUPLICATEWAKEUPEVENT         ," "0,1"
bitfld.long 0x00 30. "             VIN1A_D1_DUPLICATEWAKEUPEVENT       ," "0,1"
bitfld.long 0x00 29. "           VIN1A_D0_DUPLICATEWAKEUPEVENT        ," "0,1"
textline "                                                          "
bitfld.long 0x00 28. " VIN1A_VSYNC0_DUPLICATEWAKEUPEVENT     ," "0,1"
bitfld.long 0x00 27. "             VIN1A_HSYNC0_DUPLICATEWAKEUPEVENT   ," "0,1"
bitfld.long 0x00 26. "           VIN1A_FLD0_DUPLICATEWAKEUPEVENT      ," "0,1"
textline "                                                          "
bitfld.long 0x00 25. " VIN1A_DE0_DUPLICATEWAKEUPEVENT        ," "0,1"
bitfld.long 0x00 24. "             VIN1B_CLK1_DUPLICATEWAKEUPEVENT     ," "0,1"
bitfld.long 0x00 23. "           VIN1A_CLK0_DUPLICATEWAKEUPEVENT      ," "0,1"
textline "                                                          "
bitfld.long 0x00 22. " GPMC_WAIT0_DUPLICATEWAKEUPEVENT       ," "0,1"
bitfld.long 0x00 21. "             GPMC_BEN1_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 20. "           GPMC_BEN0_DUPLICATEWAKEUPEVENT       ," "0,1"
textline "                                                          "
bitfld.long 0x00 19. " GPMC_WEN_DUPLICATEWAKEUPEVENT         ," "0,1"
bitfld.long 0x00 18. "             GPMC_OEN_REN_DUPLICATEWAKEUPEVENT   ," "0,1"
bitfld.long 0x00 17. "           GPMC_ADVN_ALE_DUPLICATEWAKEUPEVENT   ," "0,1"
textline "                                                          "
bitfld.long 0x00 16. " GPMC_CLK_DUPLICATEWAKEUPEVENT         ," "0,1"
bitfld.long 0x00 15. "             GPMC_CS3_DUPLICATEWAKEUPEVENT       ," "0,1"
bitfld.long 0x00 14. "           GPMC_CS2_DUPLICATEWAKEUPEVENT        ," "0,1"
textline "                                                          "
bitfld.long 0x00 13. " GPMC_CS0_DUPLICATEWAKEUPEVENT         ," "0,1"
bitfld.long 0x00 12. "             GPMC_CS1_DUPLICATEWAKEUPEVENT       ," "0,1"
bitfld.long 0x00 11. "           GPMC_A27_DUPLICATEWAKEUPEVENT        ," "0,1"
textline "                                                          "
bitfld.long 0x00 10. " GPMC_A26_DUPLICATEWAKEUPEVENT         ," "0,1"
bitfld.long 0x00 9. "             GPMC_A25_DUPLICATEWAKEUPEVENT       ," "0,1"
bitfld.long 0x00 8. "           GPMC_A24_DUPLICATEWAKEUPEVENT        ," "0,1"
textline "                                                          "
bitfld.long 0x00 7. " GPMC_A23_DUPLICATEWAKEUPEVENT         ," "0,1"
bitfld.long 0x00 6. "             GPMC_A22_DUPLICATEWAKEUPEVENT       ," "0,1"
bitfld.long 0x00 5. "           GPMC_A21_DUPLICATEWAKEUPEVENT        ," "0,1"
textline "                                                          "
bitfld.long 0x00 4. " GPMC_A20_DUPLICATEWAKEUPEVENT         ," "0,1"
bitfld.long 0x00 3. "             GPMC_A19_DUPLICATEWAKEUPEVENT       ," "0,1"
bitfld.long 0x00 2. "           GPMC_A18_DUPLICATEWAKEUPEVENT        ," "0,1"
textline "                                                          "
bitfld.long 0x00 1. " GPMC_A17_DUPLICATEWAKEUPEVENT         ," "0,1"
bitfld.long 0x00 0. "             GPMC_A16_DUPLICATEWAKEUPEVENT       ," "0,1"
rgroup.long 0x1870++0x3
line.long 0x00 "CTRL_CORE_PADCONF_WAKEUPEVENT_2,"
bitfld.long 0x00 31. " VIN2A_D5_DUPLICATEWAKEUPEVENT         ," "0,1"
bitfld.long 0x00 30. "             VIN2A_D4_DUPLICATEWAKEUPEVENT       ," "0,1"
bitfld.long 0x00 29. "           VIN2A_D3_DUPLICATEWAKEUPEVENT        ," "0,1"
textline "                                                          "
bitfld.long 0x00 28. " VIN2A_D2_DUPLICATEWAKEUPEVENT         ," "0,1"
bitfld.long 0x00 27. "             VIN2A_D1_DUPLICATEWAKEUPEVENT       ," "0,1"
bitfld.long 0x00 26. "           VIN2A_D0_DUPLICATEWAKEUPEVENT        ," "0,1"
textline "                                                          "
bitfld.long 0x00 25. " VIN2A_VSYNC0_DUPLICATEWAKEUPEVENT     ," "0,1"
bitfld.long 0x00 24. "             VIN2A_HSYNC0_DUPLICATEWAKEUPEVENT   ," "0,1"
bitfld.long 0x00 23. "           VIN2A_FLD0_DUPLICATEWAKEUPEVENT      ," "0,1"
textline "                                                          "
bitfld.long 0x00 22. " VIN2A_DE0_DUPLICATEWAKEUPEVENT        ," "0,1"
bitfld.long 0x00 21. "             VIN2A_CLK0_DUPLICATEWAKEUPEVENT     ," "0,1"
bitfld.long 0x00 20. "           VIN1A_D23_DUPLICATEWAKEUPEVENT       ," "0,1"
textline "                                                          "
bitfld.long 0x00 19. " VIN1A_D22_DUPLICATEWAKEUPEVENT        ," "0,1"
bitfld.long 0x00 18. "             VIN1A_D21_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 17. "           VIN1A_D20_DUPLICATEWAKEUPEVENT       ," "0,1"
textline "                                                          "
bitfld.long 0x00 16. " VIN1A_D19_DUPLICATEWAKEUPEVENT        ," "0,1"
bitfld.long 0x00 15. "             VIN1A_D18_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 14. "           VIN1A_D17_DUPLICATEWAKEUPEVENT       ," "0,1"
textline "                                                          "
bitfld.long 0x00 13. " VIN1A_D16_DUPLICATEWAKEUPEVENT        ," "0,1"
bitfld.long 0x00 12. "             VIN1A_D15_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 11. "           VIN1A_D14_DUPLICATEWAKEUPEVENT       ," "0,1"
textline "                                                          "
bitfld.long 0x00 10. " VIN1A_D13_DUPLICATEWAKEUPEVENT        ," "0,1"
bitfld.long 0x00 9. "             VIN1A_D12_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 8. "           VIN1A_D11_DUPLICATEWAKEUPEVENT       ," "0,1"
textline "                                                          "
bitfld.long 0x00 7. " VIN1A_D10_DUPLICATEWAKEUPEVENT        ," "0,1"
bitfld.long 0x00 6. "             VIN1A_D9_DUPLICATEWAKEUPEVENT       ," "0,1"
bitfld.long 0x00 5. "           VIN1A_D8_DUPLICATEWAKEUPEVENT        ," "0,1"
textline "                                                          "
bitfld.long 0x00 4. " VIN1A_D7_DUPLICATEWAKEUPEVENT         ," "0,1"
bitfld.long 0x00 3. "             VIN1A_D6_DUPLICATEWAKEUPEVENT       ," "0,1"
bitfld.long 0x00 2. "           VIN1A_D5_DUPLICATEWAKEUPEVENT        ," "0,1"
textline "                                                          "
bitfld.long 0x00 1. " VIN1A_D4_DUPLICATEWAKEUPEVENT         ," "0,1"
bitfld.long 0x00 0. "             VIN1A_D3_DUPLICATEWAKEUPEVENT       ," "0,1"
rgroup.long 0x1874++0x3
line.long 0x00 "CTRL_CORE_PADCONF_WAKEUPEVENT_3,"
bitfld.long 0x00 31. " VOUT1_D8_DUPLICATEWAKEUPEVENT         ," "0,1"
bitfld.long 0x00 30. "             VOUT1_D7_DUPLICATEWAKEUPEVENT       ," "0,1"
bitfld.long 0x00 29. "           VOUT1_D6_DUPLICATEWAKEUPEVENT        ," "0,1"
textline "                                                          "
bitfld.long 0x00 28. " VOUT1_D5_DUPLICATEWAKEUPEVENT         ," "0,1"
bitfld.long 0x00 27. "             VOUT1_D4_DUPLICATEWAKEUPEVENT       ," "0,1"
bitfld.long 0x00 26. "           VOUT1_D3_DUPLICATEWAKEUPEVENT        ," "0,1"
textline "                                                          "
bitfld.long 0x00 25. " VOUT1_D2_DUPLICATEWAKEUPEVENT         ," "0,1"
bitfld.long 0x00 24. "             VOUT1_D1_DUPLICATEWAKEUPEVENT       ," "0,1"
bitfld.long 0x00 23. "           VOUT1_D0_DUPLICATEWAKEUPEVENT        ," "0,1"
textline "                                                          "
bitfld.long 0x00 22. " VOUT1_VSYNC_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 21. "             VOUT1_HSYNC_DUPLICATEWAKEUPEVENT    ," "0,1"
bitfld.long 0x00 20. "           VOUT1_FLD_DUPLICATEWAKEUPEVENT       ," "0,1"
textline "                                                          "
bitfld.long 0x00 19. " VOUT1_DE_DUPLICATEWAKEUPEVENT         ," "0,1"
bitfld.long 0x00 18. "             VOUT1_CLK_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 17. "           VIN2A_D23_DUPLICATEWAKEUPEVENT       ," "0,1"
textline "                                                          "
bitfld.long 0x00 16. " VIN2A_D22_DUPLICATEWAKEUPEVENT        ," "0,1"
bitfld.long 0x00 15. "             VIN2A_D21_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 14. "           VIN2A_D20_DUPLICATEWAKEUPEVENT       ," "0,1"
textline "                                                          "
bitfld.long 0x00 13. " VIN2A_D19_DUPLICATEWAKEUPEVENT        ," "0,1"
bitfld.long 0x00 12. "             VIN2A_D18_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 11. "           VIN2A_D17_DUPLICATEWAKEUPEVENT       ," "0,1"
textline "                                                          "
bitfld.long 0x00 10. " VIN2A_D16_DUPLICATEWAKEUPEVENT        ," "0,1"
bitfld.long 0x00 9. "             VIN2A_D15_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 8. "           VIN2A_D14_DUPLICATEWAKEUPEVENT       ," "0,1"
textline "                                                          "
bitfld.long 0x00 7. " VIN2A_D13_DUPLICATEWAKEUPEVENT        ," "0,1"
bitfld.long 0x00 6. "             VIN2A_D12_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 5. "           VIN2A_D11_DUPLICATEWAKEUPEVENT       ," "0,1"
textline "                                                          "
bitfld.long 0x00 4. " VIN2A_D10_DUPLICATEWAKEUPEVENT        ," "0,1"
bitfld.long 0x00 3. "             VIN2A_D9_DUPLICATEWAKEUPEVENT       ," "0,1"
bitfld.long 0x00 2. "           VIN2A_D8_DUPLICATEWAKEUPEVENT        ," "0,1"
textline "                                                          "
bitfld.long 0x00 1. " VIN2A_D7_DUPLICATEWAKEUPEVENT         ," "0,1"
bitfld.long 0x00 0. "             VIN2A_D6_DUPLICATEWAKEUPEVENT       ," "0,1"
rgroup.long 0x1878++0x3
line.long 0x00 "CTRL_CORE_PADCONF_WAKEUPEVENT_4,"
bitfld.long 0x00 31. " RGMII0_RXD0_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 30. "             RGMII0_RXD1_DUPLICATEWAKEUPEVENT    ," "0,1"
bitfld.long 0x00 29. "           RGMII0_RXD2_DUPLICATEWAKEUPEVENT     ," "0,1"
textline "                                                          "
bitfld.long 0x00 28. " RGMII0_RXD3_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 27. "             RGMII0_RXCTL_DUPLICATEWAKEUPEVENT   ," "0,1"
bitfld.long 0x00 26. "           RGMII0_RXC_DUPLICATEWAKEUPEVENT      ," "0,1"
textline "                                                          "
bitfld.long 0x00 25. " RGMII0_TXD0_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 24. "             RGMII0_TXD1_DUPLICATEWAKEUPEVENT    ," "0,1"
bitfld.long 0x00 23. "           RGMII0_TXD2_DUPLICATEWAKEUPEVENT     ," "0,1"
textline "                                                          "
bitfld.long 0x00 22. " RGMII0_TXD3_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 21. "             RGMII0_TXCTL_DUPLICATEWAKEUPEVENT   ," "0,1"
bitfld.long 0x00 20. "           RGMII0_TXC_DUPLICATEWAKEUPEVENT      ," "0,1"
textline "                                                          "
bitfld.long 0x00 19. " UART3_TXD_DUPLICATEWAKEUPEVENT        ," "0,1"
bitfld.long 0x00 18. "             UART3_RXD_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 17. "           RMII_MHZ_50_CLK_DUPLICATEWAKEUPEVENT ," "0,1"
textline "                                                          "
bitfld.long 0x00 16. " MDIO_D_DUPLICATEWAKEUPEVENT           ," "0,1"
bitfld.long 0x00 15. "             MDIO_MCLK_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 14. "           VOUT1_D23_DUPLICATEWAKEUPEVENT       ," "0,1"
textline "                                                          "
bitfld.long 0x00 13. " VOUT1_D22_DUPLICATEWAKEUPEVENT        ," "0,1"
bitfld.long 0x00 12. "             VOUT1_D21_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 11. "           VOUT1_D20_DUPLICATEWAKEUPEVENT       ," "0,1"
textline "                                                          "
bitfld.long 0x00 10. " VOUT1_D19_DUPLICATEWAKEUPEVENT        ," "0,1"
bitfld.long 0x00 9. "             VOUT1_D18_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 8. "           VOUT1_D17_DUPLICATEWAKEUPEVENT       ," "0,1"
textline "                                                          "
bitfld.long 0x00 7. " VOUT1_D16_DUPLICATEWAKEUPEVENT        ," "0,1"
bitfld.long 0x00 6. "             VOUT1_D15_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 5. "           VOUT1_D14_DUPLICATEWAKEUPEVENT       ," "0,1"
textline "                                                          "
bitfld.long 0x00 4. " VOUT1_D13_DUPLICATEWAKEUPEVENT        ," "0,1"
bitfld.long 0x00 3. "             VOUT1_D12_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 2. "           VOUT1_D11_DUPLICATEWAKEUPEVENT       ," "0,1"
textline "                                                          "
bitfld.long 0x00 1. " VOUT1_D10_DUPLICATEWAKEUPEVENT        ," "0,1"
bitfld.long 0x00 0. "             VOUT1_D9_DUPLICATEWAKEUPEVENT       ," "0,1"
rgroup.long 0x187C++0x3
line.long 0x00 "CTRL_CORE_PADCONF_WAKEUPEVENT_5,"
bitfld.long 0x00 31. " MCASP2_ACLKR_DUPLICATEWAKEUPEVENT     ," "0,1"
bitfld.long 0x00 30. "             MCASP2_FSX_DUPLICATEWAKEUPEVENT     ," "0,1"
bitfld.long 0x00 29. "           MCASP2_ACLKX_DUPLICATEWAKEUPEVENT    ," "0,1"
textline "                                                          "
bitfld.long 0x00 28. " MCASP1_AXR15_DUPLICATEWAKEUPEVENT     ," "0,1"
bitfld.long 0x00 27. "             MCASP1_AXR14_DUPLICATEWAKEUPEVENT   ," "0,1"
bitfld.long 0x00 26. "           MCASP1_AXR13_DUPLICATEWAKEUPEVENT    ," "0,1"
textline "                                                          "
bitfld.long 0x00 25. " MCASP1_AXR12_DUPLICATEWAKEUPEVENT     ," "0,1"
bitfld.long 0x00 24. "             MCASP1_AXR11_DUPLICATEWAKEUPEVENT   ," "0,1"
bitfld.long 0x00 23. "           MCASP1_AXR10_DUPLICATEWAKEUPEVENT    ," "0,1"
textline "                                                          "
bitfld.long 0x00 22. " MCASP1_AXR9_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 21. "             MCASP1_AXR8_DUPLICATEWAKEUPEVENT    ," "0,1"
bitfld.long 0x00 20. "           MCASP1_AXR7_DUPLICATEWAKEUPEVENT     ," "0,1"
textline "                                                          "
bitfld.long 0x00 19. " MCASP1_AXR6_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 18. "             MCASP1_AXR5_DUPLICATEWAKEUPEVENT    ," "0,1"
bitfld.long 0x00 17. "           MCASP1_AXR4_DUPLICATEWAKEUPEVENT     ," "0,1"
textline "                                                          "
bitfld.long 0x00 16. " MCASP1_AXR3_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 15. "             MCASP1_AXR2_DUPLICATEWAKEUPEVENT    ," "0,1"
bitfld.long 0x00 14. "           MCASP1_AXR1_DUPLICATEWAKEUPEVENT     ," "0,1"
textline "                                                          "
bitfld.long 0x00 13. " MCASP1_AXR0_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 12. "             MCASP1_FSR_DUPLICATEWAKEUPEVENT     ," "0,1"
bitfld.long 0x00 11. "           MCASP1_ACLKR_DUPLICATEWAKEUPEVENT    ," "0,1"
textline "                                                          "
bitfld.long 0x00 10. " MCASP1_FSX_DUPLICATEWAKEUPEVENT       ," "0,1"
bitfld.long 0x00 9. "             MCASP1_ACLKX_DUPLICATEWAKEUPEVENT   ," "0,1"
bitfld.long 0x00 8. "           XREF_CLK3_DUPLICATEWAKEUPEVENT       ," "0,1"
textline "                                                          "
bitfld.long 0x00 7. " XREF_CLK2_DUPLICATEWAKEUPEVENT        ," "0,1"
bitfld.long 0x00 6. "             XREF_CLK1_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 5. "           XREF_CLK0_DUPLICATEWAKEUPEVENT       ," "0,1"
textline "                                                          "
bitfld.long 0x00 4. " GPIO6_16_DUPLICATEWAKEUPEVENT         ," "0,1"
bitfld.long 0x00 3. "             GPIO6_15_DUPLICATEWAKEUPEVENT       ," "0,1"
bitfld.long 0x00 2. "           GPIO6_14_DUPLICATEWAKEUPEVENT        ," "0,1"
textline "                                                          "
bitfld.long 0x00 1. " USB2_DRVVBUS_DUPLICATEWAKEUPEVENT     ," "0,1"
bitfld.long 0x00 0. "             USB1_DRVVBUS_DUPLICATEWAKEUPEVENT   ," "0,1"
rgroup.long 0x1880++0x3
line.long 0x00 "CTRL_CORE_PADCONF_WAKEUPEVENT_6,"
bitfld.long 0x00 31. " MMC3_CLK_DUPLICATEWAKEUPEVENT         ," "0,1"
bitfld.long 0x00 30. "             GPIO6_11_DUPLICATEWAKEUPEVENT       ," "0,1"
bitfld.long 0x00 29. "           GPIO6_10_DUPLICATEWAKEUPEVENT        ," "0,1"
textline "                                                          "
bitfld.long 0x00 28. " MMC1_SDWP_DUPLICATEWAKEUPEVENT        ," "0,1"
bitfld.long 0x00 27. "             MMC1_SDCD_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 26. "           MMC1_DAT3_DUPLICATEWAKEUPEVENT       ," "0,1"
textline "                                                          "
bitfld.long 0x00 25. " MMC1_DAT2_DUPLICATEWAKEUPEVENT        ," "0,1"
bitfld.long 0x00 24. "             MMC1_DAT1_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 23. "           MMC1_DAT0_DUPLICATEWAKEUPEVENT       ," "0,1"
textline "                                                          "
bitfld.long 0x00 22. " MMC1_CMD_DUPLICATEWAKEUPEVENT         ," "0,1"
bitfld.long 0x00 21. "             MMC1_CLK_DUPLICATEWAKEUPEVENT       ," "0,1"
bitfld.long 0x00 20. "           MCASP5_AXR1_DUPLICATEWAKEUPEVENT     ," "0,1"
textline "                                                          "
bitfld.long 0x00 19. " MCASP5_AXR0_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 18. "             MCASP5_FSX_DUPLICATEWAKEUPEVENT     ," "0,1"
bitfld.long 0x00 17. "           MCASP5_ACLKX_DUPLICATEWAKEUPEVENT    ," "0,1"
textline "                                                          "
bitfld.long 0x00 16. " MCASP4_AXR1_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 15. "             MCASP4_AXR0_DUPLICATEWAKEUPEVENT    ," "0,1"
bitfld.long 0x00 14. "           MCASP4_FSX_DUPLICATEWAKEUPEVENT      ," "0,1"
textline "                                                          "
bitfld.long 0x00 13. " MCASP4_ACLKX_DUPLICATEWAKEUPEVENT     ," "0,1"
bitfld.long 0x00 12. "             MCASP3_AXR1_DUPLICATEWAKEUPEVENT    ," "0,1"
bitfld.long 0x00 11. "           MCASP3_AXR0_DUPLICATEWAKEUPEVENT     ," "0,1"
textline "                                                          "
bitfld.long 0x00 10. " MCASP3_FSX_DUPLICATEWAKEUPEVENT       ," "0,1"
bitfld.long 0x00 9. "             MCASP3_ACLKX_DUPLICATEWAKEUPEVENT   ," "0,1"
bitfld.long 0x00 8. "           MCASP2_AXR7_DUPLICATEWAKEUPEVENT     ," "0,1"
textline "                                                          "
bitfld.long 0x00 7. " MCASP2_AXR6_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 6. "             MCASP2_AXR5_DUPLICATEWAKEUPEVENT    ," "0,1"
bitfld.long 0x00 5. "           MCASP2_AXR4_DUPLICATEWAKEUPEVENT     ," "0,1"
textline "                                                          "
bitfld.long 0x00 4. " MCASP2_AXR3_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 3. "             MCASP2_AXR2_DUPLICATEWAKEUPEVENT    ," "0,1"
bitfld.long 0x00 2. "           MCASP2_AXR1_DUPLICATEWAKEUPEVENT     ," "0,1"
textline "                                                          "
bitfld.long 0x00 1. " MCASP2_AXR0_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 0. "             MCASP2_FSR_DUPLICATEWAKEUPEVENT     ," "0,1"
rgroup.long 0x1884++0x3
line.long 0x00 "CTRL_CORE_PADCONF_WAKEUPEVENT_7,"
bitfld.long 0x00 31. " UART2_RTSN_DUPLICATEWAKEUPEVENT       ," "0,1"
bitfld.long 0x00 30. "             UART2_CTSN_DUPLICATEWAKEUPEVENT     ," "0,1"
bitfld.long 0x00 29. "           UART2_TXD_DUPLICATEWAKEUPEVENT       ," "0,1"
textline "                                                          "
bitfld.long 0x00 28. " UART2_RXD_DUPLICATEWAKEUPEVENT        ," "0,1"
bitfld.long 0x00 27. "             UART1_RTSN_DUPLICATEWAKEUPEVENT     ," "0,1"
bitfld.long 0x00 26. "           UART1_CTSN_DUPLICATEWAKEUPEVENT      ," "0,1"
textline "                                                          "
bitfld.long 0x00 25. " UART1_TXD_DUPLICATEWAKEUPEVENT        ," "0,1"
bitfld.long 0x00 24. "             UART1_RXD_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 23. "           DCAN2_RX_DUPLICATEWAKEUPEVENT        ," "0,1"
textline "                                                          "
bitfld.long 0x00 22. " DCAN2_TX_DUPLICATEWAKEUPEVENT         ," "0,1"
bitfld.long 0x00 21. "             DCAN1_RX_DUPLICATEWAKEUPEVENT       ," "0,1"
bitfld.long 0x00 20. "           DCAN1_TX_DUPLICATEWAKEUPEVENT        ," "0,1"
textline "                                                          "
bitfld.long 0x00 19. " SPI2_CS0_DUPLICATEWAKEUPEVENT         ," "0,1"
bitfld.long 0x00 18. "             SPI2_D0_DUPLICATEWAKEUPEVENT        ," "0,1"
bitfld.long 0x00 17. "           SPI2_D1_DUPLICATEWAKEUPEVENT         ," "0,1"
textline "                                                          "
bitfld.long 0x00 16. " SPI2_SCLK_DUPLICATEWAKEUPEVENT        ," "0,1"
bitfld.long 0x00 15. "             SPI1_CS3_DUPLICATEWAKEUPEVENT       ," "0,1"
bitfld.long 0x00 14. "           SPI1_CS2_DUPLICATEWAKEUPEVENT        ," "0,1"
textline "                                                          "
bitfld.long 0x00 13. " SPI1_CS1_DUPLICATEWAKEUPEVENT         ," "0,1"
bitfld.long 0x00 12. "             SPI1_CS0_DUPLICATEWAKEUPEVENT       ," "0,1"
bitfld.long 0x00 11. "           SPI1_D0_DUPLICATEWAKEUPEVENT         ," "0,1"
textline "                                                          "
bitfld.long 0x00 10. " SPI1_D1_DUPLICATEWAKEUPEVENT          ," "0,1"
bitfld.long 0x00 9. "             SPI1_SCLK_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 8. "           MMC3_DAT7_DUPLICATEWAKEUPEVENT       ," "0,1"
textline "                                                          "
bitfld.long 0x00 7. " MMC3_DAT6_DUPLICATEWAKEUPEVENT        ," "0,1"
bitfld.long 0x00 6. "             MMC3_DAT5_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 5. "           MMC3_DAT4_DUPLICATEWAKEUPEVENT       ," "0,1"
textline "                                                          "
bitfld.long 0x00 4. " MMC3_DAT3_DUPLICATEWAKEUPEVENT        ," "0,1"
bitfld.long 0x00 3. "             MMC3_DAT2_DUPLICATEWAKEUPEVENT      ," "0,1"
bitfld.long 0x00 2. "           MMC3_DAT1_DUPLICATEWAKEUPEVENT       ," "0,1"
textline "                                                          "
bitfld.long 0x00 1. " MMC3_DAT0_DUPLICATEWAKEUPEVENT        ," "0,1"
bitfld.long 0x00 0. "             MMC3_CMD_DUPLICATEWAKEUPEVENT       ," "0,1"
rgroup.long 0x1888++0x3
line.long 0x00 "CTRL_CORE_PADCONF_WAKEUPEVENT_8,"
bitfld.long 0x00 18. " NMIN_DUPLICATEWAKEUPEVENT             ," "0,1"
bitfld.long 0x00 17. "             EMU4_DUPLICATEWAKEUPEVENT           ," "0,1"
bitfld.long 0x00 16. "           EMU3_DUPLICATEWAKEUPEVENT            ," "0,1"
textline "                                                          "
bitfld.long 0x00 15. " EMU2_DUPLICATEWAKEUPEVENT             ," "0,1"
bitfld.long 0x00 14. "             EMU1_DUPLICATEWAKEUPEVENT           ," "0,1"
bitfld.long 0x00 13. "           EMU0_DUPLICATEWAKEUPEVENT            ," "0,1"
textline "                                                          "
bitfld.long 0x00 12. " RTCK_DUPLICATEWAKEUPEVENT             ," "0,1"
bitfld.long 0x00 11. "             TDO_DUPLICATEWAKEUPEVENT            ," "0,1"
bitfld.long 0x00 10. "           TDI_DUPLICATEWAKEUPEVENT             ," "0,1"
textline "                                                          "
bitfld.long 0x00 9. " WAKEUP3_DUPLICATEWAKEUPEVENT          ," "0,1"
bitfld.long 0x00 8. "             WAKEUP2_DUPLICATEWAKEUPEVENT        ," "0,1"
bitfld.long 0x00 7. "           WAKEUP1_DUPLICATEWAKEUPEVENT         ," "0,1"
textline "                                                          "
bitfld.long 0x00 6. " WAKEUP0_DUPLICATEWAKEUPEVENT          ," "0,1"
bitfld.long 0x00 5. "             I2C3_SCL_DUPLICATEWAKEUPEVENT       ," "0,1"
bitfld.long 0x00 4. "           I2C3_SDA_DUPLICATEWAKEUPEVENT        ," "0,1"
textline "                                                          "
bitfld.long 0x00 3. " I2C2_SCL_DUPLICATEWAKEUPEVENT         ," "0,1"
bitfld.long 0x00 2. "             I2C2_SDA_DUPLICATEWAKEUPEVENT       ," "0,1"
bitfld.long 0x00 1. "           I2C1_SCL_DUPLICATEWAKEUPEVENT        ," "0,1"
textline "                                                          "
bitfld.long 0x00 0. " I2C1_SDA_DUPLICATEWAKEUPEVENT         ," "0,1"
rgroup.long 0x1B08++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VMIN_GPU_2,This register contains the AVS Class 0 voltage value for the vdd_gpu voltage rail when running at OPP_NOM. This register also stores information about ABB configuration for that OPP."
bitfld.long 0x00 25. " ABBEN                                 ,- ABB_disabled. - ABB_enabled." "ABB_disabled,ABB_enabled"
bitfld.long 0x00 20.--24. "  VSETABB                             ,This bit field shows the ABB LDO target value for OPP_NOM which has to be written to theCTRL_WKUP_LDOVBB_GPU_VOLTAGE_CTRL [4:0] LDOVBBGPU_FBB_VSET_OUT bit field, if ABB is enabled." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.word 0x00 0.--11. 1. "          STD_FUSE_OPP_VMIN_GPU_2              ,AVS Class 0 voltage value for the vdd_gpu voltage rail when running at OPP_NOM. To get the actual value in mV, the value read from this bit field must be converted to decimal value."
rgroup.long 0x1B0C++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VMIN_GPU_3,This register contains the AVS Class 0 voltage value for the vdd_gpu voltage rail when running at OPP_OD. This register also stores information about ABB configuration for that OPP."
bitfld.long 0x00 25. " ABBEN                                 ,- ABB_disabled. - ABB_enabled." "ABB_disabled,ABB_enabled"
bitfld.long 0x00 20.--24. "  VSETABB                             ,This bit field shows the ABB LDO target value for OPP_OD which has to be written to theCTRL_WKUP_LDOVBB_GPU_VOLTAGE_CTRL [4:0] LDOVBBGPU_FBB_VSET_OUT bit field, if ABB is enabled." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.word 0x00 0.--11. 1. "          STD_FUSE_OPP_VMIN_GPU_3              ,AVS Class 0 voltage value for the vdd_gpu voltage rail when running at OPP_OD. To get the actual value in mV, the value read from this bit field must be converted to decimal value."
rgroup.long 0x1B10++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VMIN_GPU_4,This register contains the AVS Class 0 voltage value for the vdd_gpu voltage rail when running at OPP_HIGH. This register also stores information about ABB configuration for that OPP."
bitfld.long 0x00 25. " ABBEN                                 ,- ABB_disabled. - ABB_enabled." "ABB_disabled,ABB_enabled"
bitfld.long 0x00 20.--24. "  VSETABB                             ,This bit field shows the ABB LDO target value for OPP_HIGH which has to be written to theCTRL_WKUP_LDOVBB_GPU_VOLTAGE_CTRL[4:0] LDOVBBGPU_FBB_VSET_OUT bit field, if ABB is enabled." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.word 0x00 0.--11. 1. "          STD_FUSE_OPP_VMIN_GPU_4              ,AVS Class 0 voltage value for the vdd_gpu voltage rail when running at OPP_HIGH. To get the actual value in mV, the value read from this bit field must be converted to decimal value."
rgroup.long 0x1B1C++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VMIN_MPU_1,This register contains the AVS Class 0 voltage value for the vdd_mpu voltage rail when running at OPP_LOW. This register also stores information about ABB configuration for that OPP."
bitfld.long 0x00 25. " ABBEN                                 ,- ABB_disabled. - ABB_enabled." "ABB_disabled,ABB_enabled"
bitfld.long 0x00 20.--24. "  VSETABB                             ,This bit field shows the ABB LDO target value for OPP_LOW which has to be written to theCTRL_WKUP_LDOVBB_MPU_VOLTAGE_CTRL[4:0] LDOVBBMPU_FBB_VSET_OUT bit field, if ABB is enabled." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.word 0x00 0.--11. 1. "          STD_FUSE_OPP_VMIN_MPU_1              ,AVS Class 0 voltage value for the vdd_mpu voltage rail when running at OPP_LOW. To get the actual value in mV, the value read from this bit field must be converted to decimal value."
rgroup.long 0x1B20++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VMIN_MPU_2,This register contains the AVS Class 0 voltage value for the vdd_mpu voltage rail when running at OPP_NOM. This register also stores information about ABB configuration for that OPP."
bitfld.long 0x00 25. " ABBEN                                 ,- ABB_disabled. - ABB_enabled." "ABB_disabled,ABB_enabled"
bitfld.long 0x00 20.--24. "  VSETABB                             ,This bit field shows the ABB LDO target value for OPP_NOM which has to be written to theCTRL_WKUP_LDOVBB_MPU_VOLTAGE_CTRL [4:0] LDOVBBMPU_FBB_VSET_OUT bit field, if ABB is enabled." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.word 0x00 0.--11. 1. "          STD_FUSE_OPP_VMIN_MPU_2              ,AVS Class 0 voltage value for the vdd_mpu voltage rail when running at OPP_NOM. To get the actual value in mV, the value read from this bit field must be converted to decimal value."
rgroup.long 0x1B24++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VMIN_MPU_3,This register contains the AVS Class 0 voltage value for the vdd_mpu voltage rail when running at OPP_OD. This register also stores information about ABB configuration for that OPP."
bitfld.long 0x00 25. " ABBEN                                 ,- ABB_disabled. - ABB_enabled." "ABB_disabled,ABB_enabled"
bitfld.long 0x00 20.--24. "  VSETABB                             ,This bit field shows the ABB LDO target value for OPP_OD which has to be written to theCTRL_WKUP_LDOVBB_MPU_VOLTAGE_CTRL [4:0] LDOVBBMPU_FBB_VSET_OUT bit field, if ABB is enabled." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.word 0x00 0.--11. 1. "          STD_FUSE_OPP_VMIN_MPU_3              ,AVS Class 0 voltage value for the vdd_mpu voltage rail when running at OPP_OD. To get the actual value in mV, the value read from this bit field must be converted to decimal value."
rgroup.long 0x1B28++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VMIN_MPU_4,This register contains the AVS Class 0 voltage value for the vdd_mpu voltage rail when running at OPP_HIGH This register also stores information about ABB configuration for that OPP."
bitfld.long 0x00 25. " ABBEN                                 ,- ABB_disabled. - ABB_enabled." "ABB_disabled,ABB_enabled"
bitfld.long 0x00 20.--24. "  VSETABB                             ,This bit field shows the ABB LDO target value for OPP_HIGH which has to be written to theCTRL_WKUP_LDOVBB_MPU_VOLTAGE_CTRL[4:0] LDOVBBMPU_FBB_VSET_OUT bit field, if ABB is enabled." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.word 0x00 0.--11. 1. "          STD_FUSE_OPP_VMIN_MPU_4              ,AVS Class 0 voltage value for the vdd_mpu voltage rail when running at OPP_HIGH. To get the actual value in mV, the value read from this bit field must be converted to decimal value."
rgroup.long 0x1B38++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_DSPEVE_LVT_0,Standard Fuse OPP VDD_GPU [31:0]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_DSPEVE_LVT_0         ,"
rgroup.long 0x1B3C++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_DSPEVE_LVT_1,Standard Fuse OPP VDD_GPU [63:32]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_DSPEVE_LVT_1         ,"
rgroup.long 0x1B40++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_DSPEVE_LVT_2,Standard Fuse OPP VDD_GPU [95:64]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_DSPEVE_LVT_2         ,"
rgroup.long 0x1B44++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_DSPEVE_LVT_3,Standard Fuse OPP VDD_GPU [127:96]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_DSPEVE_LVT_3         ,"
rgroup.long 0x1B48++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_DSPEVE_LVT_4,Standard Fuse OPP VDD_GPU [159:128]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_DSPEVE_LVT_4         ,"
rgroup.long 0x1B4C++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_IVA_LVT_0,Standard Fuse OPP VDD_IVA [31:0]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_IVA_LVT_0            ,"
rgroup.long 0x1B50++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_IVA_LVT_1,Standard Fuse OPP VDD_IVA [63:32]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_IVA_LVT_1            ,"
rgroup.long 0x1B54++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_IVA_LVT_2,Standard Fuse OPP VDD_IVA [95:64]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_IVA_LVT_2            ,"
rgroup.long 0x1B58++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_IVA_LVT_3,Standard Fuse OPP VDD_IVA [127:96]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_IVA_LVT_3            ,"
rgroup.long 0x1B5C++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_IVA_LVT_4,Standard Fuse OPP VDD_IVA [159:128]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_IVA_LVT_4            ,"
rgroup.long 0x1B60++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_CORE_LVT_0,Standard Fuse OPP VDD_CORE [31:0]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_CORE_LVT_0           ,"
rgroup.long 0x1B64++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_CORE_LVT_1,Standard Fuse OPP VDD_CORE [63:32]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_CORE_LVT_1           ,"
rgroup.long 0x1B68++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_CORE_LVT_2,Standard Fuse OPP VDD_CORE [95:64]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_CORE_LVT_2           ,"
rgroup.long 0x1B6C++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_CORE_LVT_3,Standard Fuse OPP VDD_CORE [127:96]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_CORE_LVT_3           ,"
rgroup.long 0x1B70++0x3
line.long 0x00 "CTRL_CORE_STD_FUSE_OPP_VDD_CORE_LVT_4,Standard Fuse OPP VDD_CORE [159:128]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_OPP_VDD_CORE_LVT_4           ,"
group.long 0x1B74++0x3
line.long 0x00 "CTRL_CORE_LDOSRAM_CORE_4_VOLTAGE_CTRL,CORE 4th SRAM LDO Control register"
bitfld.long 0x00 26. " LDOSRAMCORE_4_RETMODE_MUX_CTRL        ,Override control of EFUSE Retention Mode Voltage value - EFUSE. - OCP." "EFUSE,OCP"
bitfld.long 0x00 21.--25. "         LDOSRAMCORE_4_RETMODE_VSET_IN       ,EFUSE Retention Mode Voltage value (vset[9:5])" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "          LDOSRAMCORE_4_RETMODE_VSET_OUT       ,Override value for Retention Mode Voltage" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                                          "
bitfld.long 0x00 10. " LDOSRAMCORE_4_ACTMODE_MUX_CTRL        ,Override control of EFUSE Active Mode Voltage value - EFUSE. - OCP." "EFUSE,OCP"
bitfld.long 0x00 5.--9. "         LDOSRAMCORE_4_ACTMODE_VSET_IN       ,EFUSE Active Mode Voltage value (vset[4:0])" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "          LDOSRAMCORE_4_ACTMODE_VSET_OUT       ,Override value for Active Mode Voltage value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x1B78++0x3
line.long 0x00 "CTRL_CORE_LDOSRAM_CORE_5_VOLTAGE_CTRL,CORE 5th SRAM LDO Control register"
bitfld.long 0x00 26. " LDOSRAMCORE_5_RETMODE_MUX_CTRL        ,Override control of EFUSE Retention Mode Voltage value - EFUSE. - OCP." "EFUSE,OCP"
bitfld.long 0x00 21.--25. "         LDOSRAMCORE_5_RETMODE_VSET_IN       ,EFUSE Retention Mode Voltage value (vset[9:5])" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "          LDOSRAMCORE_5_RETMODE_VSET_OUT       ,Override value for Retention Mode Voltage" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                                          "
bitfld.long 0x00 10. " LDOSRAMCORE_5_ACTMODE_MUX_CTRL        ,Override control of EFUSE Active Mode Voltage value - EFUSE. - OCP." "EFUSE,OCP"
bitfld.long 0x00 5.--9. "         LDOSRAMCORE_5_ACTMODE_VSET_IN       ,EFUSE Active Mode Voltage value (vset[4:0])" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "          LDOSRAMCORE_5_ACTMODE_VSET_OUT       ,Override value for Active Mode Voltage value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x1B7C++0x3
line.long 0x00 "CTRL_CORE_LDOSRAM_DSPEVE_2_VOLTAGE_CTRL,DSPEVE 2nd SRAM LDO Control register"
bitfld.long 0x00 26. " LDOSRAMDSPEVE_2_RETMODE_MUX_CTRL      ,Override control of EFUSE Retention Mode Voltage value - EFUSE. - OCP." "EFUSE,OCP"
bitfld.long 0x00 21.--25. "         LDOSRAMDSPEVE_2_RETMODE_VSET_IN     ,EFUSE Retention Mode Voltage value (vset[9:5])" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "          LDOSRAMDSPEVE_2_RETMODE_VSET_OUT     ,Override value for Retention Mode Voltage" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                                          "
bitfld.long 0x00 10. " LDOSRAMDSPEVE_2_ACTMODE_MUX_CTRL      ,Override control of EFUSE Active Mode Voltage value - EFUSE. - OCP." "EFUSE,OCP"
bitfld.long 0x00 5.--9. "         LDOSRAMDSPEVE_2_ACTMODE_VSET_IN     ,EFUSE Active Mode Voltage value (vset[4:0])" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "          LDOSRAMDSPEVE_2_ACTMODE_VSET_OUT     ,Override value for Active Mode Voltage value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x1C04++0x3
line.long 0x00 "CTRL_CORE_SMA_SW_2,OCP Spare Register"
hexmask.long 0x00 0.--31. 1. " SMA_SW_2                              ,OCP spare register"
group.long 0x1C08++0x3
line.long 0x00 "CTRL_CORE_SMA_SW_3,OCP Spare Register"
hexmask.long 0x00 0.--31. 1. " SMA_SW_3                              ,OCP spare register"
group.long 0x1C14++0x3
line.long 0x00 "CTRL_CORE_SMA_SW_6,OCP Spare Register"
bitfld.long 0x00 27.--28. " PLLEN_CONTROL                         ,PLLEN control setting. Bit [28] ? Controls the CLKOUT of DPLL_USB_OTG 0x0: CLKOUT is disabled. 0x1: CLKOUT is enabled. Bit [27] ? Controls the CLKOUT of DPLL_SATA 0x0: CLKOUT is disabled. 0x1: CLKOUT is enabled." "0,1,2,3"
bitfld.long 0x00 16.--17. "             PCIE_TX_RX_CONTROL                  ,PCIe RX and TX control of ACSPCIe. 0x0: ACSPCIe Power Down Mode 0x1: ACSPCIe TX Mode 0x2: ACSPCIe RX Mode 0x3: Reserved" "0,1,2,3"
bitfld.long 0x00 8. "           RMII_CLK_SETTING                     ,RMII CLK setting 0x0: Internal clock from DPLL_GMAC 0x1: External clock from RMII_MHZ_50_CLK pin" "0,1"
textline "                                                          "
bitfld.long 0x00 0. " MUXSEL_32K_CLKIN                      ,Setting for mux to select 32KHz clock input to PRCM. This bit must NOT be modified by software. The 32kHz clock selection is done through the device sysboot[9:8] signals." "0,1"
group.long 0x1C18++0x3
line.long 0x00 "CTRL_CORE_SMA_SW_7,OCP Spare Register"
bitfld.long 0x00 17. " MMU2_ABORT_ENABLE                     ,MMU2 abort enable" "0,1"
bitfld.long 0x00 16. "             MMU1_ABORT_ENABLE                   ,MMU1 abort enable" "0,1"
bitfld.long 0x00 13. "           PCIE_SS1_MMU_ROUTE_ENABLE            ,PCIe_SS1 MMU route enable" "0,1"
textline "                                                          "
bitfld.long 0x00 12. " PCIE_SS2_MMU_ROUTE_ENABLE             ,PCIe_SS2 MMU route enable" "0,1"
bitfld.long 0x00 11. "             EDMA_TC0_RD_MMU_ROUTE_ENABLE        ,EDMA TC0 RD traffic MMU route enable" "0,1"
bitfld.long 0x00 10. "           EDMA_TC1_RD_MMU_ROUTE_ENABLE         ,EDMA TC1 RD traffic MMU route enable" "0,1"
textline "                                                          "
bitfld.long 0x00 9. " EDMA_TC0_WR_MMU_ROUTE_ENABLE          ,EDMA TC0 WR traffic MMU route enable" "0,1"
bitfld.long 0x00 8. "             EDMA_TC1_WR_MMU_ROUTE_ENABLE        ,EDMA TC1 WR traffic MMU route enable" "0,1"
bitfld.long 0x00 1. "           PCIE_SS1_AXI2OCP_LEGACY_MODE_ENABLE  ,PCIe_SS1 AXI2OCP legacy mode enable" "0,1"
textline "                                                          "
bitfld.long 0x00 0. " PCIE_SS2_AXI2OCP_LEGACY_MODE_ENABLE   ,PCIe_SS2 AXI2OCP legacy mode enable" "0,1"
group.long 0x1C1C++0x3
line.long 0x00 "CTRL_CORE_SMA_SW_8,Test control inputs used by the module"
hexmask.long 0x00 0.--31. 1. " PCIE_PLL_TEST_INPUT_1                 ,Test control inputs used by the module"
group.long 0x1C20++0x3
line.long 0x00 "CTRL_CORE_SMA_SW_9,Test control inputs used by the module"
hexmask.long 0x00 0.--31. 1. " PCIE_PLL_TEST_INPUT_2                 ,Test control inputs used by the module"
group.long 0x1C24++0x3
line.long 0x00 "CTRL_CORE_PCIESS1_PCS1,"
hexmask.long.word 0x00 22.--31. 1. " PCIESS1_PCS_TEST_TXDATA               ,"
hexmask.long.word 0x00 12.--21. 1. "          PCIESS1_PCS_ERR_BIT_EN              ,"
hexmask.long.byte 0x00 4.--11. 1. "        PCIESS1_PCS_CFG_HOLDOFF              ,"
textline "                                                          "
bitfld.long 0x00 0.--3. " PCIESS1_PCS_DET_DELAY                 ," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x1C28++0x3
line.long 0x00 "CTRL_CORE_PCIESS1_PCS2,"
bitfld.long 0x00 27.--31. " PCIESS1_PCS_CFG_SYNC                  ," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 23.--26. "            PCIESS1_PCS_CFG_EQ_FUNC             ," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 19.--22. "          PCIESS1_PCS_CFG_EQ_HOLD              ," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                                          "
bitfld.long 0x00 15.--18. " PCIESS1_PCS_CFG_EQ_INIT               ," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--14. "            PCIESS1_PCS_TEST_OSEL               ," "0,1,2,3,4,5,6,7"
bitfld.long 0x00 9. "           PCIESS1_PCS_TEST_LSEL                ," "0,1"
textline "                                                          "
bitfld.long 0x00 6.--7. " PCIESS1_PCS_ERR_MODE                  ," "0,1,2,3"
bitfld.long 0x00 5. "             PCIESS1_PCS_L1_SLEEP                ," "0,1"
bitfld.long 0x00 4. "           PCIESS1_PCS_TEST_MODE                ," "0,1"
textline "                                                          "
bitfld.long 0x00 2.--3. " PCIESS1_PCS_ERR_LN_EN                 ," "0,1,2,3"
bitfld.long 0x00 0. "             PCIESS1_PCS_SHORT_TIMES             ," "0,1"
group.long 0x1C2C++0x3
line.long 0x00 "CTRL_CORE_PCIESS2_PCS1,"
hexmask.long.word 0x00 22.--31. 1. " PCIESS2_PCS_TEST_TXDATA               ,"
hexmask.long.word 0x00 12.--21. 1. "          PCIESS2_PCS_ERR_BIT_EN              ,"
hexmask.long.byte 0x00 4.--11. 1. "        PCIESS2_PCS_CFG_HOLDOFF              ,"
textline "                                                          "
bitfld.long 0x00 0.--3. " PCIESS2_PCS_DET_DELAY                 ," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x1C30++0x3
line.long 0x00 "CTRL_CORE_PCIESS2_PCS2,"
bitfld.long 0x00 27.--31. " PCIESS2_PCS_CFG_SYNC                  ," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 23.--26. "            PCIESS2_PCS_CFG_EQ_FUNC             ," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 19.--22. "          PCIESS2_PCS_CFG_EQ_HOLD              ," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                                          "
bitfld.long 0x00 15.--18. " PCIESS2_PCS_CFG_EQ_INIT               ," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--14. "            PCIESS2_PCS_TEST_OSEL               ," "0,1,2,3,4,5,6,7"
bitfld.long 0x00 9. "           PCIESS2_PCS_TEST_LSEL                ," "0,1"
textline "                                                          "
bitfld.long 0x00 6.--7. " PCIESS2_PCS_ERR_MODE                  ," "0,1,2,3"
bitfld.long 0x00 5. "             PCIESS2_PCS_L1_SLEEP                ," "0,1"
bitfld.long 0x00 4. "           PCIESS2_PCS_TEST_MODE                ," "0,1"
textline "                                                          "
bitfld.long 0x00 2.--3. " PCIESS2_PCS_ERR_LN_EN                 ," "0,1,2,3"
bitfld.long 0x00 0. "             PCIESS2_PCS_SHORT_TIMES             ," "0,1"
group.long 0x1C34++0x3
line.long 0x00 "CTRL_CORE_PCIE_PCS,"
hexmask.long.byte 0x00 16.--23. 1. " PCIESS_PCS_RC_DELAY_COUNT             ,Set to 0x96 for proper functional and compliance-mode behavior on both PCIESS1 and PCIESS2."
rgroup.long 0x1C38++0x3
line.long 0x00 "CTRL_CORE_PCIE_PCS_REVISION,pcs_revision"
bitfld.long 0x00 23.--25. " PCIESS2_PCS_REVISION                  ," "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "             PCIESS1_PCS_REVISION                ," "0,1,2,3,4,5,6,7"
group.long 0x1C3C++0x3
line.long 0x00 "CTRL_CORE_PCIE_CONTROL,serdes control selection PCIE C0 (0 default) vs PCIE B1 (1)"
bitfld.long 0x00 2. " PCIE_B1C0_MODE_SEL                    ,0x0: PCIESS1 x1 Mode and/or PCIESS2 x1 Mode0x1: PCIESS1 x2 Mode, PCIESS2 Unused" "0,1"
bitfld.long 0x00 0. "             PCIE_B0_B1_TSYNCEN                  ,0x0: PCIESS1 x1 Mode and/or PCIESS2 x1 Mode0x1: PCIESS1 x2 Mode, PCIESS2 Unused" "0,1"
group.long 0x1C40++0x3
line.long 0x00 "CTRL_CORE_PHY_POWER_PCIESS1,"
hexmask.long.word 0x00 22.--31. 1. " PCIESS1_PWRCTL_CLKFREQ                ,Frequency of SYSCLK1 in MHz (rounded). For example, for 20MHz, program 0x14."
hexmask.long.byte 0x00 14.--21. 1. "          PCIESS1_PWRCTL_CMD                  ,Powers up/down the PCIESS1_PHY_TX and PCIESS1_PHY_RX modules.0x0: Powers down PCIESS1_PHY_TX and PCIESS1_PHY_RX0x1: Powers up PCIESS1_PHY_RX0x2: Powers up PCIESS1_PHY_TX0x3: Powers up PCIESS1_PHY_TX and PC..."
group.long 0x1C44++0x3
line.long 0x00 "CTRL_CORE_PHY_POWER_PCIESS2,"
hexmask.long.word 0x00 22.--31. 1. " PCIESS2_PWRCTL_CLKFREQ                ,Frequency of SYSCLK1 in MHz (rounded). For example, for 20MHz, program 0x14."
hexmask.long.byte 0x00 14.--21. 1. "          PCIESS2_PWRCTL_CMD                  ,Powers up/down the PCIESS2_PHY_TX and PCIESS2_PHY_RX modules.0x0: Powers down PCIESS2_PHY_TX and PCIESS2_PHY_RX0x1: Powers up PCIESS2_PHY_RX0x2: Powers up PCIESS2_PHY_TX0x3: Powers up PCIESS2_PHY_TX and PC..."
width 0x0B
tree.end
tree "CTRL_MODULE_WKUP"
base ad:0x4AE0C000
width 38.
group.long 0x100++0x3
line.long 0x00 "CTRL_WKUP_SEC_CTRL,Control Register"
bitfld.long 0x00 31. " SECCTRLWRDISABLE                 ,Control Register write disable control. 0x0 = Write in this register is allowed 0x1 = Write in this register is forbidden" "0,1"
bitfld.long 0x00 4. "         SECURE_EMIF_CONFIG_RO_EN           ,Access mode for registers: CTRL_WKUP_EMIF1_SDRAM_CONFIG CTRL_WKUP_EMIF2_SDRAM_CONFIG 0x0 = These registers are RW 0x1 = These registers are RO" "0,1"
group.long 0x108++0x3
line.long 0x00 "CTRL_WKUP_SEC_TAP,TAP controllers register."
bitfld.long 0x00 31. " SECTAPWR_DISABLE                 ,TAP controllers register write disable control" "0,1"
bitfld.long 0x00 13. "         IPU2_TAPENABLE                     ,IPU2 TAP control - . - ." "0,1"
bitfld.long 0x00 12. "         DSP2_TAPENABLE                     ,DSP2 TAP control - . - ." "0,1"
textline "                                               "
bitfld.long 0x00 11. " JTAGEXT_TAPENABLE                ,External JTAG expansion TAP control. - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 10. "  IVA_TAPENABLE                      ,IVA TAP control - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 9. "  MPUGLOBALDEBUG_ENABLE              ,MPU TAP control - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                               "
bitfld.long 0x00 4. " IEEE1500_ENABLE                  ,IEEE1500 and P1500 access enable" "0,1"
bitfld.long 0x00 3. "         P1500_ENABLE                       ,P1500 access enable - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 2. "  IPU1_TAPENABLE                     ,IPU1 TAP control - DISABLED. - ENABLED." "DISABLED,ENABLED"
textline "                                               "
bitfld.long 0x00 1. " DSP1_TAPENABLE                   ,DSP1 TAP control - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 0. "  DAP_TAPENABLE                      ,DAP TAP control - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x10C++0x3
line.long 0x00 "CTRL_WKUP_OCPREG_SPARE,OCP Spare Register"
bitfld.long 0x00 31. " OCPREG_SPARE31                   ,OCP spare register 31" "0,1"
bitfld.long 0x00 30. "         OCPREG_SPARE30                     ,OCP spare register 30" "0,1"
bitfld.long 0x00 29. "         OCPREG_SPARE29                     ,OCP spare register 29" "0,1"
textline "                                               "
bitfld.long 0x00 28. " OCPREG_SPARE28                   ,OCP spare register 28" "0,1"
bitfld.long 0x00 27. "         OCPREG_SPARE27                     ,OCP spare register 27" "0,1"
bitfld.long 0x00 26. "         OCPREG_SPARE26                     ,OCP spare register 26" "0,1"
textline "                                               "
bitfld.long 0x00 25. " OCPREG_SPARE25                   ,OCP spare register 25" "0,1"
bitfld.long 0x00 24. "         OCPREG_SPARE24                     ,OCP spare register 24" "0,1"
bitfld.long 0x00 23. "         OCPREG_SPARE23                     ,OCP spare register 23" "0,1"
textline "                                               "
bitfld.long 0x00 22. " OCPREG_SPARE22                   ,OCP spare register 22" "0,1"
bitfld.long 0x00 21. "         OCPREG_SPARE21                     ,OCP spare register 21" "0,1"
bitfld.long 0x00 20. "         OCPREG_SPARE20                     ,OCP spare register 20" "0,1"
textline "                                               "
bitfld.long 0x00 19. " OCPREG_SPARE19                   ,OCP spare register 19" "0,1"
bitfld.long 0x00 18. "         OCPREG_SPARE18                     ,OCP spare register 18" "0,1"
bitfld.long 0x00 17. "         OCPREG_SPARE17                     ,OCP spare register 17" "0,1"
textline "                                               "
bitfld.long 0x00 16. " OCPREG_SPARE16                   ,OCP spare register 16" "0,1"
bitfld.long 0x00 15. "         OCPREG_SPARE15                     ,OCP spare register 15" "0,1"
bitfld.long 0x00 14. "         OCPREG_SPARE14                     ,OCP spare register 14" "0,1"
textline "                                               "
bitfld.long 0x00 13. " OCPREG_SPARE13                   ,OCP spare register 13" "0,1"
bitfld.long 0x00 12. "         OCPREG_SPARE12                     ,OCP spare register 12" "0,1"
bitfld.long 0x00 11. "         OCPREG_SPARE11                     ,OCP spare register 11" "0,1"
textline "                                               "
bitfld.long 0x00 10. " OCPREG_SPARE10                   ,OCP spare register 10" "0,1"
bitfld.long 0x00 9. "         OCPREG_SPARE9                      ,OCP spare register 9" "0,1"
bitfld.long 0x00 8. "         OCPREG_SPARE8                      ,OCP spare register 8" "0,1"
textline "                                               "
bitfld.long 0x00 7. " OCPREG_SPARE7                    ,OCP spare register 7" "0,1"
bitfld.long 0x00 6. "         OCPREG_SPARE6                      ,OCP spare register 6" "0,1"
bitfld.long 0x00 5. "         OCPREG_SPARE5                      ,OCP spare register 5" "0,1"
textline "                                               "
bitfld.long 0x00 4. " OCPREG_SPARE4                    ,OCP spare register 4" "0,1"
bitfld.long 0x00 3. "         OCPREG_SPARE3                      ,OCP spare register 3" "0,1"
bitfld.long 0x00 2. "         OCPREG_SPARE2                      ,OCP spare register 2" "0,1"
textline "                                               "
bitfld.long 0x00 1. " OCPREG_SPARE1                    ,OCP spare register 1" "0,1"
group.long 0x110++0x3
line.long 0x00 "CTRL_WKUP_SECURE_EMIF1_SDRAM_CONFIG,EMIF1 SDRAM configuration register. Its values are exported to EMIF_SDRAM_CONFIG register at POR. For bit field descriptions see EMIF_SDRAM_CONFIG register in, EMIF Controller, in , Memory Subsystem. Write to this re..."
bitfld.long 0x00 27.--28. " EMIF1_SDRAM_IBANK_POS            ,Internal bank position." "0,1,2,3"
bitfld.long 0x00 24.--26. "         EMIF1_SDRAM_DDR_TERM               ,DDR2 and DDR3 termination resistor value." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 23. "         EMIF1_SDRAM_DDR2_DDQS              ,DDR2 differential DQS enable." "0,1"
textline "                                               "
bitfld.long 0x00 21.--22. " EMIF1_SDRAM_DYN_ODT              ,DDR3 Dynamic ODT." "0,1,2,3"
bitfld.long 0x00 20. "         EMIF1_SDRAM_DDR_DISABLE_DLL        ,Disable DLL select." "0,1"
bitfld.long 0x00 18.--19. "         EMIF1_SDRAM_DRIVE                  ,SDRAM drive strength." "0,1,2,3"
textline "                                               "
bitfld.long 0x00 16.--17. " EMIF1_SDRAM_CWL                  ,DDR3 CAS Write latency." "0,1,2,3"
bitfld.long 0x00 10.--13. "         EMIF1_SDRAM_CL                     ,CAS Latency." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 7.--9. "        EMIF1_SDRAM_ROWSIZE                ,Row Size." "0,1,2,3,4,5,6,7"
textline "                                               "
bitfld.long 0x00 4.--6. " EMIF1_SDRAM_IBANK                ,Internal Bank setup." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "         EMIF1_SDRAM_PAGESIZE               ,Page Size." "0,1,2,3,4,5,6,7"
group.long 0x118++0x3
line.long 0x00 "CTRL_WKUP_SECURE_EMIF2_SDRAM_CONFIG,EMIF2 SDRAM register. Its values are exported to EMIF_SDRAM_CONFIG register at POR. For bit field descriptions see EMIF_SDRAM_CONFIG register in, EMIF Controller, in , Memory Subsystem. Write to this register is allo..."
bitfld.long 0x00 27.--28. " EMIF2_SDRAM_IBANK_POS            ,Internal bank position." "0,1,2,3"
bitfld.long 0x00 24.--26. "         EMIF2_SDRAM_DDR_TERM               ,DDR2 and DDR3 termination resistor value." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 23. "         EMIF2_SDRAM_DDR2_DDQS              ,DDR2 differential DQS enable." "0,1"
textline "                                               "
bitfld.long 0x00 21.--22. " EMIF2_SDRAM_DYN_ODT              ,DDR3 Dynamic ODT." "0,1,2,3"
bitfld.long 0x00 20. "         EMIF2_SDRAM_DDR_DISABLE_DLL        ,Disable DLL select." "0,1"
bitfld.long 0x00 18.--19. "         EMIF2_SDRAM_DRIVE                  ,SDRAM drive strength." "0,1,2,3"
textline "                                               "
bitfld.long 0x00 16.--17. " EMIF2_SDRAM_CWL                  ,DDR3 CAS Write latency." "0,1,2,3"
bitfld.long 0x00 10.--13. "         EMIF2_SDRAM_CL                     ,CAS Latency." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 7.--9. "        EMIF2_SDRAM_ROWSIZE                ,Row Size." "0,1,2,3,4,5,6,7"
textline "                                               "
bitfld.long 0x00 4.--6. " EMIF2_SDRAM_IBANK                ,Internal Bank setup." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "         EMIF2_SDRAM_PAGESIZE               ,Page Size." "0,1,2,3,4,5,6,7"
rgroup.long 0x138++0x3
line.long 0x00 "CTRL_WKUP_STD_FUSE_USB_CONF,Standard Fuse conf [31:0]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long.word 0x00 16.--31. 1. " USB_PROD_ID                      ,USB Product Identification"
hexmask.long.word 0x00 0.--15. 1. "      USB_VENDOR_ID                      ,USB Vendor Identification"
rgroup.long 0x13C++0x3
line.long 0x00 "CTRL_WKUP_STD_FUSE_CONF,Standard Fuse conf [63:32]. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
bitfld.long 0x00 21. " STD_FUSE_EMIF2_INITREF_DEF_DIS   ,Disable EMIF2 DDR refresh and initialization sequence 0x1 = refresh and initialization sequence are disabled 0x0 = refresh and initialization sequence are enabled" "0,1"
bitfld.long 0x00 20. "         STD_FUSE_EMIF2_DDR3_LPDDR2N        ,EMIF2 DDR3 0x1= DDR3 configured 0x0 = reserved" "0,1"
bitfld.long 0x00 19. "         STD_FUSE_EMIF1_INITREF_DEF_DIS     ,Disable EMIF1 DDR refresh and initialization sequence 0x1 = refresh and initialization sequence are disabled 0x0 = refresh and initialization sequence are enabled" "0,1"
textline "                                               "
bitfld.long 0x00 18. " STD_FUSE_EMIF1_DDR3_LPDDR2N      ,EMIF1 DDR3 0x1= DDR3 configured 0x0 = reserved" "0,1"
bitfld.long 0x00 16. "         STD_FUSE_HDCP_ENABLE               ,Enable hdcp 0x0 = enables hdcp 0x1 = disables hdcp" "0,1"
bitfld.long 0x00 12. "         STD_FUSE_CH_SPEEDUP_DISABLE        ,ROM code settings for configuration header block and speedup block. Only SW access (no hardware access). 0x0 = enables CH and speedup 0x1 = disables CH and speedup" "0,1"
textline "                                               "
bitfld.long 0x00 4. " STD_FUSE_SGX540_3D_CLOCK_SOURCE  ,Functional clock selection for the 3D accelerator engine 0x0 = GPU is fully enabled (DPLL_CORE/PER) 0x1 = GPU is partially enabled (DPLL_PER/8 max)" "0,1"
bitfld.long 0x00 3. "         STD_FUSE_SGX540_3D_DISABLE         ,Disable the 3D accelerator engine 0x1 = SGX is disabled 0x0 = SGX is enable" "0,1"
group.long 0x144++0x3
line.long 0x00 "CTRL_WKUP_EMIF1_SDRAM_CONFIG_EXT,SLICE register for emif1 and emif2"
bitfld.long 0x00 17. " EMIF1_NARROW_ONLY                ,EMIF1 operates in narrow mode, to allow for data macros to be powered down to save power 0x0 = narrow mode disabled 0x1 = narrow mode enabled" "0,1"
bitfld.long 0x00 16. "         EMIF1_EN_ECC                       ,EMIF1 ECC enable 0x0 = ECC is disabled 0x1 = ECC is enabled" "0,1"
bitfld.long 0x00 14.--15. "         EMIF1_REG_PHY_NUM_OF_SAMPLES       ,Controls the number of DQ samples required for read leveling. The recommended setting for full leveling is 0x3 (128 samples) and for incremental leveling is 0x0 (4 samples). 0x0 = 4 samples 0x1 = 8 samples. ..." "0,1,2,3"
textline "                                               "
bitfld.long 0x00 13. " EMIF1_REG_PHY_SEL_LOGIC          ,Selects an algorithm for read leveling. The use of algorithm 1 (set by default) is recommended. 0x0 = Algorithm 1 is used 0x1 = Algorithm 2 is used" "0,1"
bitfld.long 0x00 12. "         EMIF1_REG_PHY_ALL_DQ_MPR_RD_RESP   ,Analysis method of DQ bits during read leveling. 0x0: if the DRAM provides a read response on only one DQ bit. This is the default setting and works with all memory types (memories send responses on all DQ b..." "0,1"
bitfld.long 0x00 9.--11. "         EMIF1_REG_PHY_OUTPUT_STATUS_SELECT ,Selects the status to be observed on the outputs of the DDR PHYs through 0x0 = selects phy_reg_rdlvl_start_ratio[7:0] 0x1 = selects phy_reg_rdlvl_start_ratio[15:8] 0x2 = selects phy_reg_rdlvl_end_ratio[7:0] ..." "0,1,2,3,4,5,6,7"
textline "                                               "
bitfld.long 0x00 7. " EMIF1_SDRAM_DISABLE_RESET        ,DDR3 SDRAM reset disable. 0x0 = DDR3 SDRAM reset signal is enabled. It can be asserted by EMIF 0x1 = DDR3 SDRAM reset signal is disabled. It is forbidden to EMIF to assert it." "0,1"
bitfld.long 0x00 5.--6. "         EMIF1_PHY_RD_LOCAL_ODT             ,Control of ODT (on ? die termination) settings for the device DDR I/Os. ODT is enabled only during read operations when termination is required. 0x0 = ODT disabled 0x1= 60 Ohms 0x2 = 80 Ohms 0x3 =120 Ohms" "0,1,2,3"
bitfld.long 0x00 3. "         EMIF1_DFI_CLOCK_PHASE_CTRL         ,EMIF_FICLK clock phase control (shifting by 180?). For normal operation this bit must always be set to 0x0 (disabled)." "0,1"
textline "                                               "
bitfld.long 0x00 2. " EMIF1_EN_SLICE_2                 ,Enable command PHY 2. When using DDR3 this bit can be set to 0x0 or 0x1. For lower power consumption 0x0 is used." "0,1"
bitfld.long 0x00 1. "         EMIF1_EN_SLICE_1                   ,Enable command PHY 1. 0x1 is the mandatory setting if DDR3 is used. EMIF1_EN_SLICE_0 and EMIF1_EN_SLICE_1 have to be programmed with the same value." "0,1"
bitfld.long 0x00 0. "         EMIF1_EN_SLICE_0                   ,Enable command PHY 0. 0x1 is the mandatory setting if DDR3 is used. EMIF1_EN_SLICE_0 and EMIF1_EN_SLICE_1 have to be programmed with the same value." "0,1"
group.long 0x148++0x3
line.long 0x00 "CTRL_WKUP_EMIF2_SDRAM_CONFIG_EXT,SLICE register for emif1 and emif2"
bitfld.long 0x00 17. " EMIF2_NARROW_ONLY                ,EMIF2 operates in narrow mode, to allow for data macros to be powered down to save power 0x0 = narrow mode disabled 0x1 = narrow mode enabled" "0,1"
bitfld.long 0x00 14.--15. "         EMIF2_REG_PHY_NUM_OF_SAMPLES       ,Controls the number of DQ samples required for read leveling. The recommended setting for full leveling is 0x3 (128 samples) and for incremental leveling is 0x0 (4 samples). 0x0 = 4 samples 0x1 = 8 samples. ..." "0,1,2,3"
bitfld.long 0x00 13. "         EMIF2_REG_PHY_SEL_LOGIC            ,Selects an algorithm for read leveling. The use of algorithm 1 (set by default) is recommended. 0x0 = Algorithm 1 is used 0x1 = Algorithm 2 is used" "0,1"
textline "                                               "
bitfld.long 0x00 12. " EMIF2_REG_PHY_ALL_DQ_MPR_RD_RESP ,Analysis method of DQ bits during read leveling. 0x0: if the DRAM provides a read response on only one DQ bit. This is the default setting and works with all memory types (memories send responses on all DQ bits or on ..." "0,1"
bitfld.long 0x00 9.--11. "         EMIF2_REG_PHY_OUTPUT_STATUS_SELECT ,Selects the status to be observed on the outputs of the DDR PHYs through 0x0 = selects phy_reg_rdlvl_start_ratio[7:0] 0x1 = selects phy_reg_rdlvl_start_ratio[15:8] 0x2 = selects phy_reg_rdlvl_end_ratio[7:0] ..." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 7. "         EMIF2_SDRAM_DISABLE_RESET          ,DDR3 SDRAM reset disable. 0x0 = DDR3 SDRAM reset signal is enabled. It can be asserted by EMIF 0x1 = DDR3 SDRAM reset signal is disabled. It is forbidden to EMIF to assert it." "0,1"
textline "                                               "
bitfld.long 0x00 5.--6. " EMIF2_PHY_RD_LOCAL_ODT           ,Control of ODT (on ? die termination) settings for the device DDR I/Os. ODT is enabled only during read operations when termination is required. 0x0 = ODT disabled 0x1= 60 Ohms 0x2 = 80 Ohms 0x3 =120 Ohms" "0,1,2,3"
bitfld.long 0x00 3. "         EMIF2_DFI_CLOCK_PHASE_CTRL         ,EMIF_FICLK clock phase control (shifting by 180?). For normal operation this bit must always be set to 0x0 (disabled)." "0,1"
bitfld.long 0x00 2. "         EMIF2_EN_SLICE_2                   ,Enable command PHY 2. When using DDR3 this bit can be set to 0x0 or 0x1. For lower power consumption 0x0 is used." "0,1"
textline "                                               "
bitfld.long 0x00 1. " EMIF2_EN_SLICE_1                 ,Enable command PHY 1. 0x1 is the mandatory setting if DDR3 is used. EMIF2_EN_SLICE_0 and EMIF2_EN_SLICE_1 have to be programmed with the same value." "0,1"
bitfld.long 0x00 0. "         EMIF2_EN_SLICE_0                   ,Enable command PHY 0. 0x1 is the mandatory setting if DDR3 is used. EMIF2_EN_SLICE_0 and EMIF2_EN_SLICE_1 have to be programmed with the same value." "0,1"
rgroup.long 0x14C++0x3
line.long 0x00 "CTRL_WKUP_EMIF1_SDRAM_CONFIG_EXT_1,"
hexmask.long 0x00 0.--31. 1. " EMIF1_PHY_REG_READ_DATA_EYE_LVL  ,"
rgroup.long 0x150++0x3
line.long 0x00 "CTRL_WKUP_EMIF2_SDRAM_CONFIG_EXT_2,"
hexmask.long 0x00 0.--31. 1. " EMIF2_PHY_REG_READ_DATA_EYE_LVL  ,"
group.long 0x154++0x3
line.long 0x00 "CTRL_WKUP_LDOVBB_GPU_VOLTAGE_CTRL,GPU Voltage Body Bias LDO Control register"
bitfld.long 0x00 10. " LDOVBBGPU_FBB_MUX_CTRL           ,Override control of EFUSE Forward Body Bias voltage value 0x0 = efuse value is used 0x1 = override value is used" "0,1"
bitfld.long 0x00 5.--9. "         LDOVBBGPU_FBB_VSET_IN              ,EFUSE Forward Body Bias voltage value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "        LDOVBBGPU_FBB_VSET_OUT             ,Override value for Forward Body Bias voltage. If ABB is used, depending on the OPP this bit field should be loaded with a value read from one of the CTRL_CORE_STD_FUSE_OPP_VMIN_GPU_x[24:20] VSETABB bit fields..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x158++0x3
line.long 0x00 "CTRL_WKUP_LDOVBB_MPU_VOLTAGE_CTRL,MPU Voltage Body Bias LDO Control register"
bitfld.long 0x00 10. " LDOVBBMPU_FBB_MUX_CTRL           ,Override control of EFUSE Forward Body Bias voltage value 0x0 = efuse value is used 0x1 = override value is used" "0,1"
bitfld.long 0x00 5.--9. "         LDOVBBMPU_FBB_VSET_IN              ,EFUSE Forward Body Bias voltage value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "        LDOVBBMPU_FBB_VSET_OUT             ,Override value for Forward Body Bias voltage. If ABB is used, depending on the OPP this bit field should be loaded with a value read from one of the CTRL_CORE_STD_FUSE_OPP_VMIN_MPU_x[24:20] VSETABB bit fields..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x15C++0x3
line.long 0x00 "CTRL_WKUP_LDOSRAM_GPU_VOLTAGE_CTRL,GPU SRAM LDO Control register"
bitfld.long 0x00 26. " LDOSRAMGPU_RETMODE_MUX_CTRL      ,Override control of EFUSE Retention Mode Voltage value - EFUSE. - OCP." "EFUSE,OCP"
bitfld.long 0x00 21.--25. "     LDOSRAMGPU_RETMODE_VSET_IN         ,EFUSE Retention Mode Voltage value (vset[9:5])" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "        LDOSRAMGPU_RETMODE_VSET_OUT        ,Override value for Retention Mode Voltage" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                               "
bitfld.long 0x00 10. " LDOSRAMGPU_ACTMODE_MUX_CTRL      ,Override control of EFUSE Active Mode Voltage value - EFUSE. - OCP." "EFUSE,OCP"
bitfld.long 0x00 5.--9. "     LDOSRAMGPU_ACTMODE_VSET_IN         ,EFUSE Active Mode Voltage value (vset[4:0])" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "        LDOSRAMGPU_ACTMODE_VSET_OUT        ,Override value for Active Mode Voltage value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x160++0x3
line.long 0x00 "CTRL_WKUP_LDOSRAM_MPU_VOLTAGE_CTRL,MPU SRAM LDO Control register"
bitfld.long 0x00 26. " LDOSRAMMPU_RETMODE_MUX_CTRL      ,Override control of EFUSE Retention Mode Voltage value - EFUSE. - OCP." "EFUSE,OCP"
bitfld.long 0x00 21.--25. "     LDOSRAMMPU_RETMODE_VSET_IN         ,EFUSE Retention Mode Voltage value (vset[9:5])" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "        LDOSRAMMPU_RETMODE_VSET_OUT        ,Override value for Retention Mode Voltage" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                               "
bitfld.long 0x00 10. " LDOSRAMMPU_ACTMODE_MUX_CTRL      ,Override control of EFUSE Active Mode Voltage value - EFUSE. - OCP." "EFUSE,OCP"
bitfld.long 0x00 5.--9. "     LDOSRAMMPU_ACTMODE_VSET_IN         ,EFUSE Active Mode Voltage value (vset[4:0])" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "        LDOSRAMMPU_ACTMODE_VSET_OUT        ,Override value for Active Mode Voltage value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x164++0x3
line.long 0x00 "CTRL_WKUP_LDOSRAM_CORE_VOLTAGE_CTRL,Core SRAM LDO Control register"
bitfld.long 0x00 26. " LDOSRAMCORE_RETMODE_MUX_CTRL     ,Override control of EFUSE Retention Mode Voltage value - EFUSE. - OCP." "EFUSE,OCP"
bitfld.long 0x00 21.--25. "     LDOSRAMCORE_RETMODE_VSET_IN        ,EFUSE Retention Mode Voltage value (vset[9:5])" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "        LDOSRAMCORE_RETMODE_VSET_OUT       ,Override value for Retention Mode Voltage" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                               "
bitfld.long 0x00 10. " LDOSRAMCORE_ACTMODE_MUX_CTRL     ,Override control of EFUSE Active Mode Voltage value - EFUSE. - OCP." "EFUSE,OCP"
bitfld.long 0x00 5.--9. "     LDOSRAMCORE_ACTMODE_VSET_IN        ,EFUSE Active Mode Voltage value (vset[4:0])" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "        LDOSRAMCORE_ACTMODE_VSET_OUT       ,Override value for Active Mode Voltage value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x168++0x3
line.long 0x00 "CTRL_WKUP_LDOSRAM_MPU_2_VOLTAGE_CTRL,MPU 2nd SRAM LDO Control register"
bitfld.long 0x00 26. " LDOSRAMMPU_2_RETMODE_MUX_CTRL    ,Override control of EFUSE Retention Mode Voltage value - EFUSE. - OCP." "EFUSE,OCP"
bitfld.long 0x00 21.--25. "     LDOSRAMMPU_2_RETMODE_VSET_IN       ,EFUSE Retention Mode Voltage value (vset[9:5])" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "        LDOSRAMMPU_2_RETMODE_VSET_OUT      ,Override value for Retention Mode Voltage" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                                               "
bitfld.long 0x00 10. " LDOSRAMMPU_2_ACTMODE_MUX_CTRL    ,Override control of EFUSE Active Mode Voltage value - EFUSE. - OCP." "EFUSE,OCP"
bitfld.long 0x00 5.--9. "     LDOSRAMMPU_2_ACTMODE_VSET_IN       ,EFUSE Active Mode Voltage value (vset[4:0])" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "        LDOSRAMMPU_2_ACTMODE_VSET_OUT      ,Override value for Active Mode Voltage value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rgroup.long 0x200++0x3
line.long 0x00 "CTRL_WKUP_STD_FUSE_DIE_ID_0,Die ID Register : Part 0. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_DIE_ID_0                ,"
rgroup.long 0x204++0x3
line.long 0x00 "CTRL_WKUP_ID_CODE,ID_CODE Key Register"
hexmask.long 0x00 0.--31. 1. " STD_FUSE_IDCODE                  ,"
rgroup.long 0x208++0x3
line.long 0x00 "CTRL_WKUP_STD_FUSE_DIE_ID_1,Die ID Register : Part 1. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_DIE_ID_1                ,"
rgroup.long 0x20C++0x3
line.long 0x00 "CTRL_WKUP_STD_FUSE_DIE_ID_2,Die ID Register : Part 2. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_DIE_ID_2                ,"
rgroup.long 0x210++0x3
line.long 0x00 "CTRL_WKUP_STD_FUSE_DIE_ID_3,Die ID Register : Part 3. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_DIE_ID_3                ,"
rgroup.long 0x214++0x3
line.long 0x00 "CTRL_WKUP_STD_FUSE_PROD_ID_0,Prod ID Register : Part 0. Register shows part of the chip eFuse configuration on the OCP interface. Reading at the address of one of these registers provides a direct view into a part of the eFuse chain."
hexmask.long 0x00 0.--31. 1. " STD_FUSE_PROD_ID                 ,"
group.long 0x5AC++0x3
line.long 0x00 "CTRL_WKUP_CONTROL_XTAL_OSCILLATOR,XTAL OSCILLATOR control"
bitfld.long 0x00 31. " OSCILLATOR0_BOOST                ,Fast startup control of OSC0 0x0 = Fast startup is disabled 0x1 = Fast startup is enabled" "0,1"
bitfld.long 0x00 30. "         OSCILLATOR0_OS_OUT                 ,Oscillator output of OSC0 0x0 = low to high transition in BOOST mode 0x1 = BOOST is disabled" "0,1"
bitfld.long 0x00 29. "         OSCILLATOR1_BOOST                  ,Fast startup control of OSC1 0x0 = Fast startup is disabled 0x1 = Fast startup is enabled" "0,1"
textline "                                               "
bitfld.long 0x00 28. " OSCILLATOR1_OS_OUT               ,Oscillator output of OSC1 0x0 = low to high transition in BOOST mode 0x1 = BOOST is disabled" "0,1"
group.long 0x5C8++0x3
line.long 0x00 "CTRL_WKUP_EFUSE_1,EFUSE compensation 1"
bitfld.long 0x00 31. " DDRDIFF_PTV_NORTH_SIDE_N5        ," "0,1"
bitfld.long 0x00 30. "         DDRDIFF_PTV_NORTH_SIDE_N4          ," "0,1"
bitfld.long 0x00 29. "         DDRDIFF_PTV_NORTH_SIDE_N3          ," "0,1"
textline "                                               "
bitfld.long 0x00 28. " DDRDIFF_PTV_NORTH_SIDE_N2        ," "0,1"
bitfld.long 0x00 27. "         DDRDIFF_PTV_NORTH_SIDE_N1          ," "0,1"
bitfld.long 0x00 26. "         DDRDIFF_PTV_NORTH_SIDE_N0          ," "0,1"
textline "                                               "
bitfld.long 0x00 25. " DDRDIFF_PTV_NORTH_SIDE_P5        ," "0,1"
bitfld.long 0x00 24. "         DDRDIFF_PTV_NORTH_SIDE_P4          ," "0,1"
bitfld.long 0x00 23. "         DDRDIFF_PTV_NORTH_SIDE_P3          ," "0,1"
textline "                                               "
bitfld.long 0x00 22. " DDRDIFF_PTV_NORTH_SIDE_P2        ," "0,1"
bitfld.long 0x00 21. "         DDRDIFF_PTV_NORTH_SIDE_P1          ," "0,1"
bitfld.long 0x00 20. "         DDRDIFF_PTV_NORTH_SIDE_P0          ," "0,1"
textline "                                               "
bitfld.long 0x00 19. " DDRDIFF_PTV_EAST_SIDE_N5         ," "0,1"
bitfld.long 0x00 18. "         DDRDIFF_PTV_EAST_SIDE_N4           ," "0,1"
bitfld.long 0x00 17. "         DDRDIFF_PTV_EAST_SIDE_N3           ," "0,1"
textline "                                               "
bitfld.long 0x00 16. " DDRDIFF_PTV_EAST_SIDE_N2         ," "0,1"
bitfld.long 0x00 15. "         DDRDIFF_PTV_EAST_SIDE_N1           ," "0,1"
bitfld.long 0x00 14. "         DDRDIFF_PTV_EAST_SIDE_N0           ," "0,1"
textline "                                               "
bitfld.long 0x00 13. " DDRDIFF_PTV_EAST_SIDE_P5         ," "0,1"
bitfld.long 0x00 12. "         DDRDIFF_PTV_EAST_SIDE_P4           ," "0,1"
bitfld.long 0x00 11. "         DDRDIFF_PTV_EAST_SIDE_P3           ," "0,1"
textline "                                               "
bitfld.long 0x00 10. " DDRDIFF_PTV_EAST_SIDE_P2         ," "0,1"
bitfld.long 0x00 9. "         DDRDIFF_PTV_EAST_SIDE_P1           ," "0,1"
bitfld.long 0x00 8. "         DDRDIFF_PTV_EAST_SIDE_P0           ," "0,1"
group.long 0x5CC++0x3
line.long 0x00 "CTRL_WKUP_EFUSE_2,EFUSE compensation 2"
bitfld.long 0x00 31. " DDRDIFF_PTV_SOUTH_SIDE_N5        ," "0,1"
bitfld.long 0x00 30. "         DDRDIFF_PTV_SOUTH_SIDE_N4          ," "0,1"
bitfld.long 0x00 29. "         DDRDIFF_PTV_SOUTH_SIDE_N3          ," "0,1"
textline "                                               "
bitfld.long 0x00 28. " DDRDIFF_PTV_SOUTH_SIDE_N2        ," "0,1"
bitfld.long 0x00 27. "         DDRDIFF_PTV_SOUTH_SIDE_N1          ," "0,1"
bitfld.long 0x00 26. "         DDRDIFF_PTV_SOUTH_SIDE_N0          ," "0,1"
textline "                                               "
bitfld.long 0x00 25. " DDRDIFF_PTV_SOUTH_SIDE_P5        ," "0,1"
bitfld.long 0x00 24. "         DDRDIFF_PTV_SOUTH_SIDE_P4          ," "0,1"
bitfld.long 0x00 23. "         DDRDIFF_PTV_SOUTH_SIDE_P3          ," "0,1"
textline "                                               "
bitfld.long 0x00 22. " DDRDIFF_PTV_SOUTH_SIDE_P2        ," "0,1"
bitfld.long 0x00 21. "         DDRDIFF_PTV_SOUTH_SIDE_P1          ," "0,1"
bitfld.long 0x00 20. "         DDRDIFF_PTV_SOUTH_SIDE_P0          ," "0,1"
textline "                                               "
bitfld.long 0x00 19. " DDRDIFF_PTV_WEST_SIDE_N5         ," "0,1"
bitfld.long 0x00 18. "         DDRDIFF_PTV_WEST_SIDE_N4           ," "0,1"
bitfld.long 0x00 17. "         DDRDIFF_PTV_WEST_SIDE_N3           ," "0,1"
textline "                                               "
bitfld.long 0x00 16. " DDRDIFF_PTV_WEST_SIDE_N2         ," "0,1"
bitfld.long 0x00 15. "         DDRDIFF_PTV_WEST_SIDE_N1           ," "0,1"
bitfld.long 0x00 14. "         DDRDIFF_PTV_WEST_SIDE_N0           ," "0,1"
textline "                                               "
bitfld.long 0x00 13. " DDRDIFF_PTV_WEST_SIDE_P5         ," "0,1"
bitfld.long 0x00 12. "         DDRDIFF_PTV_WEST_SIDE_P4           ," "0,1"
bitfld.long 0x00 11. "         DDRDIFF_PTV_WEST_SIDE_P3           ," "0,1"
textline "                                               "
bitfld.long 0x00 10. " DDRDIFF_PTV_WEST_SIDE_P2         ," "0,1"
bitfld.long 0x00 9. "         DDRDIFF_PTV_WEST_SIDE_P1           ," "0,1"
bitfld.long 0x00 8. "         DDRDIFF_PTV_WEST_SIDE_P0           ," "0,1"
group.long 0x5D0++0x3
line.long 0x00 "CTRL_WKUP_EFUSE_3,EFUSE compensation 3"
bitfld.long 0x00 31. " DDRSE_PTV_NORTH_SIDE_N5          ," "0,1"
bitfld.long 0x00 30. "         DDRSE_PTV_NORTH_SIDE_N4            ," "0,1"
bitfld.long 0x00 29. "         DDRSE_PTV_NORTH_SIDE_N3            ," "0,1"
textline "                                               "
bitfld.long 0x00 28. " DDRSE_PTV_NORTH_SIDE_N2          ," "0,1"
bitfld.long 0x00 27. "         DDRSE_PTV_NORTH_SIDE_N1            ," "0,1"
bitfld.long 0x00 26. "         DDRSE_PTV_NORTH_SIDE_N0            ," "0,1"
textline "                                               "
bitfld.long 0x00 25. " DDRSE_PTV_NORTH_SIDE_P5          ," "0,1"
bitfld.long 0x00 24. "         DDRSE_PTV_NORTH_SIDE_P4            ," "0,1"
bitfld.long 0x00 23. "         DDRSE_PTV_NORTH_SIDE_P3            ," "0,1"
textline "                                               "
bitfld.long 0x00 22. " DDRSE_PTV_NORTH_SIDE_P2          ," "0,1"
bitfld.long 0x00 21. "         DDRSE_PTV_NORTH_SIDE_P1            ," "0,1"
bitfld.long 0x00 20. "         DDRSE_PTV_NORTH_SIDE_P0            ," "0,1"
textline "                                               "
bitfld.long 0x00 19. " DDRSE_PTV_EAST_SIDE_N5           ," "0,1"
bitfld.long 0x00 18. "         DDRSE_PTV_EAST_SIDE_N4             ," "0,1"
bitfld.long 0x00 17. "         DDRSE_PTV_EAST_SIDE_N3             ," "0,1"
textline "                                               "
bitfld.long 0x00 16. " DDRSE_PTV_EAST_SIDE_N2           ," "0,1"
bitfld.long 0x00 15. "         DDRSE_PTV_EAST_SIDE_N1             ," "0,1"
bitfld.long 0x00 14. "         DDRSE_PTV_EAST_SIDE_N0             ," "0,1"
textline "                                               "
bitfld.long 0x00 13. " DDRSE_PTV_EAST_SIDE_P5           ," "0,1"
bitfld.long 0x00 12. "         DDRSE_PTV_EAST_SIDE_P4             ," "0,1"
bitfld.long 0x00 11. "         DDRSE_PTV_EAST_SIDE_P3             ," "0,1"
textline "                                               "
bitfld.long 0x00 10. " DDRSE_PTV_EAST_SIDE_P2           ," "0,1"
bitfld.long 0x00 9. "         DDRSE_PTV_EAST_SIDE_P1             ," "0,1"
bitfld.long 0x00 8. "         DDRSE_PTV_EAST_SIDE_P0             ," "0,1"
group.long 0x5D4++0x3
line.long 0x00 "CTRL_WKUP_EFUSE_4,EFUSE compensation 4"
bitfld.long 0x00 31. " DDRSE_PTV_SOUTH_SIDE_N5          ," "0,1"
bitfld.long 0x00 30. "         DDRSE_PTV_SOUTH_SIDE_N4            ," "0,1"
bitfld.long 0x00 29. "         DDRSE_PTV_SOUTH_SIDE_N3            ," "0,1"
textline "                                               "
bitfld.long 0x00 28. " DDRSE_PTV_SOUTH_SIDE_N2          ," "0,1"
bitfld.long 0x00 27. "         DDRSE_PTV_SOUTH_SIDE_N1            ," "0,1"
bitfld.long 0x00 26. "         DDRSE_PTV_SOUTH_SIDE_N0            ," "0,1"
textline "                                               "
bitfld.long 0x00 25. " DDRSE_PTV_SOUTH_SIDE_P5          ," "0,1"
bitfld.long 0x00 24. "         DDRSE_PTV_SOUTH_SIDE_P4            ," "0,1"
bitfld.long 0x00 23. "         DDRSE_PTV_SOUTH_SIDE_P3            ," "0,1"
textline "                                               "
bitfld.long 0x00 22. " DDRSE_PTV_SOUTH_SIDE_P2          ," "0,1"
bitfld.long 0x00 21. "         DDRSE_PTV_SOUTH_SIDE_P1            ," "0,1"
bitfld.long 0x00 20. "         DDRSE_PTV_SOUTH_SIDE_P0            ," "0,1"
textline "                                               "
bitfld.long 0x00 19. " DDRSE_PTV_WEST_SIDE_N5           ," "0,1"
bitfld.long 0x00 18. "         DDRSE_PTV_WEST_SIDE_N4             ," "0,1"
bitfld.long 0x00 17. "         DDRSE_PTV_WEST_SIDE_N3             ," "0,1"
textline "                                               "
bitfld.long 0x00 16. " DDRSE_PTV_WEST_SIDE_N2           ," "0,1"
bitfld.long 0x00 15. "         DDRSE_PTV_WEST_SIDE_N1             ," "0,1"
bitfld.long 0x00 14. "         DDRSE_PTV_WEST_SIDE_N0             ," "0,1"
textline "                                               "
bitfld.long 0x00 13. " DDRSE_PTV_WEST_SIDE_P5           ," "0,1"
bitfld.long 0x00 12. "         DDRSE_PTV_WEST_SIDE_P4             ," "0,1"
bitfld.long 0x00 11. "         DDRSE_PTV_WEST_SIDE_P3             ," "0,1"
textline "                                               "
bitfld.long 0x00 10. " DDRSE_PTV_WEST_SIDE_P2           ," "0,1"
bitfld.long 0x00 9. "         DDRSE_PTV_WEST_SIDE_P1             ," "0,1"
bitfld.long 0x00 8. "         DDRSE_PTV_WEST_SIDE_P0             ," "0,1"
group.long 0x5F8++0x3
line.long 0x00 "CTRL_WKUP_EFUSE_13,"
bitfld.long 0x00 31. " SDIO1833_PTV_N5                  ," "0,1"
bitfld.long 0x00 30. "         SDIO1833_PTV_N4                    ," "0,1"
bitfld.long 0x00 29. "         SDIO1833_PTV_N3                    ," "0,1"
textline "                                               "
bitfld.long 0x00 28. " SDIO1833_PTV_N2                  ," "0,1"
bitfld.long 0x00 27. "         SDIO1833_PTV_N1                    ," "0,1"
bitfld.long 0x00 26. "         SDIO1833_PTV_N0                    ," "0,1"
textline "                                               "
bitfld.long 0x00 25. " SDIO1833_PTV_P5                  ," "0,1"
bitfld.long 0x00 24. "         SDIO1833_PTV_P4                    ," "0,1"
bitfld.long 0x00 23. "         SDIO1833_PTV_P3                    ," "0,1"
textline "                                               "
bitfld.long 0x00 22. " SDIO1833_PTV_P2                  ," "0,1"
bitfld.long 0x00 21. "         SDIO1833_PTV_P1                    ," "0,1"
bitfld.long 0x00 20. "         SDIO1833_PTV_P0                    ," "0,1"
width 0x0B
tree.end
tree.end
tree.open "Mailbox"
tree.open "EVE1_MBOX0"
tree "EVE1_MBOX0"
base ad:0x4208B000
tree "Channel_0"
width 27.
rgroup.long 0x80++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_0,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_0,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x108++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_0,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_0,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_0,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_0,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 27.
rgroup.long 0x84++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_1,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_1,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x118++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_1,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x114++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_1,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x110++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_1,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_1,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 27.
rgroup.long 0x88++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_2,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_2,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x128++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_2,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x124++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_2,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x120++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_2,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x48++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_2,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 27.
rgroup.long 0x8C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_3,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_3,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x138++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_3,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_3,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x130++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_3,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xCC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_3,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
width 24.
rgroup.long 0x90++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_4,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x50++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_4,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
width 24.
rgroup.long 0x94++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_5,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_5,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_6"
width 24.
rgroup.long 0x98++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_6,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x58++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_6,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_6,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_7"
width 24.
rgroup.long 0x9C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_7,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x5C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_7,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xDC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_7,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_8"
width 24.
rgroup.long 0xA0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_8,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_8,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_8,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_9"
width 24.
rgroup.long 0xA4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_9,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x64++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_9,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_9,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_10"
width 25.
rgroup.long 0xA8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_10,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x68++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_10,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_10,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_11"
width 25.
rgroup.long 0xAC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_11,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x6C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_11,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xEC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_11,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_12"
width 25.
rgroup.long 0xB0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_12,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x70++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_12,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_12,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_13"
width 25.
rgroup.long 0xB4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_13,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x74++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_13,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_13,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_14"
width 25.
rgroup.long 0xB8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_14,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x78++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_14,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_14,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_15"
width 25.
rgroup.long 0xBC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_15,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x7C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_15,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xFC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_15,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. " SIDLEMODE ,Idle Mode - b00. - b01. - b10. - b11." "b00,b01,b10,b11"
bitfld.long 0x00 0. "       SOFTRESET ,Softreset - b0. - b0. - b1. - b1." "b0,b1"
wgroup.long 0x140++0x3
line.long 0x00 "MAILBOX_IRQ_EOI,This register is used for the software EOI clearance of the pulse. This register being write only gives 0 on read."
bitfld.long 0x00 0.--1. " EOIVAL    ,EOI value - B0. - B1." "B0,B1,2,3"
width 0x0B
tree.end
tree "EVE1_MBOX1"
base ad:0x4208C000
tree "Channel_0"
width 27.
rgroup.long 0x80++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_0,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_0,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x108++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_0,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_0,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_0,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_0,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 27.
rgroup.long 0x84++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_1,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_1,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x118++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_1,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x114++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_1,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x110++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_1,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_1,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 27.
rgroup.long 0x88++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_2,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_2,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x128++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_2,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x124++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_2,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x120++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_2,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x48++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_2,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 27.
rgroup.long 0x8C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_3,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_3,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x138++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_3,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_3,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x130++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_3,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xCC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_3,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
width 24.
rgroup.long 0x90++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_4,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x50++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_4,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
width 24.
rgroup.long 0x94++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_5,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_5,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_6"
width 24.
rgroup.long 0x98++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_6,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x58++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_6,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_6,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_7"
width 24.
rgroup.long 0x9C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_7,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x5C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_7,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xDC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_7,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_8"
width 24.
rgroup.long 0xA0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_8,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_8,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_8,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_9"
width 24.
rgroup.long 0xA4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_9,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x64++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_9,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_9,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_10"
width 25.
rgroup.long 0xA8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_10,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x68++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_10,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_10,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_11"
width 25.
rgroup.long 0xAC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_11,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x6C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_11,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xEC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_11,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_12"
width 25.
rgroup.long 0xB0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_12,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x70++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_12,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_12,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_13"
width 25.
rgroup.long 0xB4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_13,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x74++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_13,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_13,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_14"
width 25.
rgroup.long 0xB8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_14,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x78++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_14,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_14,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_15"
width 25.
rgroup.long 0xBC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_15,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x7C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_15,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xFC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_15,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. " SIDLEMODE ,Idle Mode - b00. - b01. - b10. - b11." "b00,b01,b10,b11"
bitfld.long 0x00 0. "       SOFTRESET ,Softreset - b0. - b0. - b1. - b1." "b0,b1"
wgroup.long 0x140++0x3
line.long 0x00 "MAILBOX_IRQ_EOI,This register is used for the software EOI clearance of the pulse. This register being write only gives 0 on read."
bitfld.long 0x00 0.--1. " EOIVAL    ,EOI value - B0. - B1." "B0,B1,2,3"
width 0x0B
tree.end
tree "EVE1_MBOX2"
base ad:0x4208D000
tree "Channel_0"
width 27.
rgroup.long 0x80++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_0,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_0,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x108++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_0,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_0,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_0,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_0,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 27.
rgroup.long 0x84++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_1,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_1,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x118++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_1,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x114++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_1,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x110++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_1,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_1,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 27.
rgroup.long 0x88++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_2,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_2,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x128++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_2,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x124++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_2,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x120++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_2,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x48++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_2,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 27.
rgroup.long 0x8C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_3,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_3,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x138++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_3,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_3,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x130++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_3,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xCC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_3,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
width 24.
rgroup.long 0x90++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_4,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x50++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_4,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
width 24.
rgroup.long 0x94++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_5,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_5,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_6"
width 24.
rgroup.long 0x98++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_6,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x58++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_6,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_6,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_7"
width 24.
rgroup.long 0x9C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_7,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x5C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_7,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xDC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_7,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_8"
width 24.
rgroup.long 0xA0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_8,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_8,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_8,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_9"
width 24.
rgroup.long 0xA4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_9,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x64++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_9,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_9,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_10"
width 25.
rgroup.long 0xA8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_10,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x68++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_10,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_10,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_11"
width 25.
rgroup.long 0xAC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_11,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x6C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_11,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xEC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_11,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_12"
width 25.
rgroup.long 0xB0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_12,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x70++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_12,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_12,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_13"
width 25.
rgroup.long 0xB4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_13,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x74++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_13,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_13,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_14"
width 25.
rgroup.long 0xB8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_14,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x78++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_14,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_14,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_15"
width 25.
rgroup.long 0xBC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_15,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x7C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_15,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xFC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_15,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. " SIDLEMODE ,Idle Mode - b00. - b01. - b10. - b11." "b00,b01,b10,b11"
bitfld.long 0x00 0. "       SOFTRESET ,Softreset - b0. - b0. - b1. - b1." "b0,b1"
wgroup.long 0x140++0x3
line.long 0x00 "MAILBOX_IRQ_EOI,This register is used for the software EOI clearance of the pulse. This register being write only gives 0 on read."
bitfld.long 0x00 0.--1. " EOIVAL    ,EOI value - B0. - B1." "B0,B1,2,3"
width 0x0B
tree.end
tree "EVE1_MBOX3"
base ad:0x4208E000
tree "Channel_0"
width 27.
rgroup.long 0x80++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_0,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_0,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x108++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_0,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_0,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_0,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_0,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 27.
rgroup.long 0x84++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_1,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_1,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x118++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_1,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x114++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_1,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x110++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_1,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_1,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 27.
rgroup.long 0x88++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_2,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_2,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x128++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_2,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x124++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_2,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x120++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_2,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x48++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_2,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 27.
rgroup.long 0x8C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_3,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_3,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x138++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_3,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_3,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x130++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_3,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xCC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_3,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
width 24.
rgroup.long 0x90++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_4,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x50++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_4,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
width 24.
rgroup.long 0x94++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_5,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_5,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_6"
width 24.
rgroup.long 0x98++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_6,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x58++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_6,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_6,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_7"
width 24.
rgroup.long 0x9C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_7,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x5C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_7,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xDC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_7,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_8"
width 24.
rgroup.long 0xA0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_8,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_8,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_8,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_9"
width 24.
rgroup.long 0xA4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_9,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x64++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_9,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_9,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_10"
width 25.
rgroup.long 0xA8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_10,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x68++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_10,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_10,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_11"
width 25.
rgroup.long 0xAC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_11,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x6C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_11,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xEC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_11,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_12"
width 25.
rgroup.long 0xB0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_12,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x70++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_12,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_12,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_13"
width 25.
rgroup.long 0xB4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_13,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x74++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_13,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_13,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_14"
width 25.
rgroup.long 0xB8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_14,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x78++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_14,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_14,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_15"
width 25.
rgroup.long 0xBC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_15,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x7C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_15,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xFC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_15,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. " SIDLEMODE ,Idle Mode - b00. - b01. - b10. - b11." "b00,b01,b10,b11"
bitfld.long 0x00 0. "       SOFTRESET ,Softreset - b0. - b0. - b1. - b1." "b0,b1"
wgroup.long 0x140++0x3
line.long 0x00 "MAILBOX_IRQ_EOI,This register is used for the software EOI clearance of the pulse. This register being write only gives 0 on read."
bitfld.long 0x00 0.--1. " EOIVAL    ,EOI value - B0. - B1." "B0,B1,2,3"
width 0x0B
tree.end
tree "EVE1_MBOX4"
base ad:0x4208F000
tree "Channel_0"
width 27.
rgroup.long 0x80++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_0,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_0,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x108++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_0,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_0,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_0,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_0,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 27.
rgroup.long 0x84++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_1,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_1,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x118++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_1,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x114++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_1,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x110++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_1,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_1,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 27.
rgroup.long 0x88++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_2,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_2,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x128++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_2,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x124++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_2,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x120++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_2,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x48++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_2,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 27.
rgroup.long 0x8C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_3,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_3,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x138++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_3,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_3,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x130++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_3,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xCC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_3,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
width 24.
rgroup.long 0x90++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_4,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x50++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_4,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
width 24.
rgroup.long 0x94++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_5,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_5,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_6"
width 24.
rgroup.long 0x98++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_6,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x58++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_6,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_6,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_7"
width 24.
rgroup.long 0x9C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_7,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x5C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_7,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xDC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_7,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_8"
width 24.
rgroup.long 0xA0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_8,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_8,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_8,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_9"
width 24.
rgroup.long 0xA4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_9,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x64++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_9,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_9,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_10"
width 25.
rgroup.long 0xA8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_10,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x68++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_10,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_10,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_11"
width 25.
rgroup.long 0xAC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_11,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x6C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_11,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xEC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_11,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_12"
width 25.
rgroup.long 0xB0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_12,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x70++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_12,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_12,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_13"
width 25.
rgroup.long 0xB4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_13,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x74++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_13,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_13,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_14"
width 25.
rgroup.long 0xB8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_14,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x78++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_14,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_14,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_15"
width 25.
rgroup.long 0xBC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_15,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x7C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_15,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xFC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_15,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. " SIDLEMODE ,Idle Mode - b00. - b01. - b10. - b11." "b00,b01,b10,b11"
bitfld.long 0x00 0. "       SOFTRESET ,Softreset - b0. - b0. - b1. - b1." "b0,b1"
wgroup.long 0x140++0x3
line.long 0x00 "MAILBOX_IRQ_EOI,This register is used for the software EOI clearance of the pulse. This register being write only gives 0 on read."
bitfld.long 0x00 0.--1. " EOIVAL    ,EOI value - B0. - B1." "B0,B1,2,3"
width 0x0B
tree.end
tree "EVE2_MBOX0"
base ad:0x4218B000
tree "Channel_0"
width 27.
rgroup.long 0x80++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_0,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_0,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x108++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_0,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_0,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_0,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_0,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 27.
rgroup.long 0x84++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_1,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_1,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x118++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_1,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x114++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_1,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x110++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_1,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_1,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 27.
rgroup.long 0x88++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_2,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_2,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x128++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_2,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x124++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_2,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x120++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_2,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x48++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_2,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 27.
rgroup.long 0x8C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_3,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_3,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x138++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_3,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_3,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x130++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_3,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xCC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_3,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
width 24.
rgroup.long 0x90++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_4,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x50++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_4,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
width 24.
rgroup.long 0x94++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_5,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_5,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_6"
width 24.
rgroup.long 0x98++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_6,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x58++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_6,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_6,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_7"
width 24.
rgroup.long 0x9C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_7,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x5C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_7,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xDC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_7,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_8"
width 24.
rgroup.long 0xA0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_8,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_8,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_8,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_9"
width 24.
rgroup.long 0xA4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_9,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x64++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_9,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_9,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_10"
width 25.
rgroup.long 0xA8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_10,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x68++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_10,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_10,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_11"
width 25.
rgroup.long 0xAC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_11,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x6C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_11,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xEC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_11,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_12"
width 25.
rgroup.long 0xB0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_12,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x70++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_12,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_12,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_13"
width 25.
rgroup.long 0xB4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_13,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x74++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_13,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_13,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_14"
width 25.
rgroup.long 0xB8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_14,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x78++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_14,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_14,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_15"
width 25.
rgroup.long 0xBC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_15,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x7C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_15,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xFC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_15,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. " SIDLEMODE ,Idle Mode - b00. - b01. - b10. - b11." "b00,b01,b10,b11"
bitfld.long 0x00 0. "       SOFTRESET ,Softreset - b0. - b0. - b1. - b1." "b0,b1"
wgroup.long 0x140++0x3
line.long 0x00 "MAILBOX_IRQ_EOI,This register is used for the software EOI clearance of the pulse. This register being write only gives 0 on read."
bitfld.long 0x00 0.--1. " EOIVAL    ,EOI value - B0. - B1." "B0,B1,2,3"
width 0x0B
tree.end
tree "EVE2_MBOX1"
base ad:0x4218C000
tree "Channel_0"
width 27.
rgroup.long 0x80++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_0,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_0,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x108++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_0,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_0,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_0,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_0,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 27.
rgroup.long 0x84++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_1,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_1,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x118++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_1,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x114++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_1,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x110++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_1,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_1,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 27.
rgroup.long 0x88++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_2,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_2,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x128++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_2,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x124++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_2,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x120++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_2,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x48++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_2,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 27.
rgroup.long 0x8C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_3,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_3,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x138++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_3,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_3,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x130++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_3,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xCC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_3,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
width 24.
rgroup.long 0x90++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_4,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x50++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_4,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
width 24.
rgroup.long 0x94++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_5,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_5,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_6"
width 24.
rgroup.long 0x98++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_6,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x58++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_6,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_6,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_7"
width 24.
rgroup.long 0x9C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_7,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x5C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_7,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xDC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_7,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_8"
width 24.
rgroup.long 0xA0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_8,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_8,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_8,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_9"
width 24.
rgroup.long 0xA4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_9,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x64++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_9,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_9,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_10"
width 25.
rgroup.long 0xA8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_10,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x68++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_10,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_10,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_11"
width 25.
rgroup.long 0xAC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_11,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x6C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_11,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xEC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_11,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_12"
width 25.
rgroup.long 0xB0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_12,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x70++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_12,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_12,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_13"
width 25.
rgroup.long 0xB4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_13,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x74++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_13,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_13,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_14"
width 25.
rgroup.long 0xB8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_14,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x78++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_14,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_14,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_15"
width 25.
rgroup.long 0xBC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_15,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x7C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_15,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xFC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_15,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. " SIDLEMODE ,Idle Mode - b00. - b01. - b10. - b11." "b00,b01,b10,b11"
bitfld.long 0x00 0. "       SOFTRESET ,Softreset - b0. - b0. - b1. - b1." "b0,b1"
wgroup.long 0x140++0x3
line.long 0x00 "MAILBOX_IRQ_EOI,This register is used for the software EOI clearance of the pulse. This register being write only gives 0 on read."
bitfld.long 0x00 0.--1. " EOIVAL    ,EOI value - B0. - B1." "B0,B1,2,3"
width 0x0B
tree.end
tree "EVE2_MBOX2"
base ad:0x4218D000
tree "Channel_0"
width 27.
rgroup.long 0x80++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_0,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_0,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x108++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_0,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_0,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_0,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_0,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 27.
rgroup.long 0x84++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_1,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_1,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x118++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_1,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x114++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_1,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x110++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_1,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_1,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 27.
rgroup.long 0x88++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_2,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_2,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x128++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_2,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x124++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_2,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x120++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_2,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x48++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_2,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 27.
rgroup.long 0x8C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_3,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_3,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x138++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_3,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_3,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x130++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_3,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xCC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_3,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
width 24.
rgroup.long 0x90++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_4,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x50++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_4,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
width 24.
rgroup.long 0x94++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_5,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_5,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_6"
width 24.
rgroup.long 0x98++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_6,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x58++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_6,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_6,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_7"
width 24.
rgroup.long 0x9C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_7,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x5C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_7,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xDC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_7,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_8"
width 24.
rgroup.long 0xA0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_8,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_8,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_8,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_9"
width 24.
rgroup.long 0xA4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_9,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x64++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_9,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_9,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_10"
width 25.
rgroup.long 0xA8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_10,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x68++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_10,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_10,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_11"
width 25.
rgroup.long 0xAC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_11,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x6C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_11,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xEC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_11,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_12"
width 25.
rgroup.long 0xB0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_12,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x70++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_12,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_12,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_13"
width 25.
rgroup.long 0xB4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_13,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x74++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_13,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_13,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_14"
width 25.
rgroup.long 0xB8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_14,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x78++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_14,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_14,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_15"
width 25.
rgroup.long 0xBC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_15,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x7C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_15,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xFC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_15,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. " SIDLEMODE ,Idle Mode - b00. - b01. - b10. - b11." "b00,b01,b10,b11"
bitfld.long 0x00 0. "       SOFTRESET ,Softreset - b0. - b0. - b1. - b1." "b0,b1"
wgroup.long 0x140++0x3
line.long 0x00 "MAILBOX_IRQ_EOI,This register is used for the software EOI clearance of the pulse. This register being write only gives 0 on read."
bitfld.long 0x00 0.--1. " EOIVAL    ,EOI value - B0. - B1." "B0,B1,2,3"
width 0x0B
tree.end
tree "EVE2_MBOX3"
base ad:0x4218E000
tree "Channel_0"
width 27.
rgroup.long 0x80++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_0,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_0,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x108++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_0,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_0,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_0,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_0,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 27.
rgroup.long 0x84++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_1,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_1,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x118++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_1,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x114++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_1,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x110++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_1,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_1,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 27.
rgroup.long 0x88++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_2,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_2,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x128++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_2,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x124++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_2,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x120++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_2,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x48++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_2,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 27.
rgroup.long 0x8C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_3,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_3,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x138++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_3,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_3,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x130++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_3,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xCC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_3,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
width 24.
rgroup.long 0x90++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_4,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x50++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_4,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
width 24.
rgroup.long 0x94++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_5,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_5,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_6"
width 24.
rgroup.long 0x98++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_6,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x58++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_6,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_6,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_7"
width 24.
rgroup.long 0x9C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_7,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x5C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_7,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xDC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_7,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_8"
width 24.
rgroup.long 0xA0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_8,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_8,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_8,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_9"
width 24.
rgroup.long 0xA4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_9,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x64++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_9,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_9,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_10"
width 25.
rgroup.long 0xA8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_10,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x68++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_10,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_10,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_11"
width 25.
rgroup.long 0xAC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_11,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x6C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_11,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xEC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_11,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_12"
width 25.
rgroup.long 0xB0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_12,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x70++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_12,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_12,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_13"
width 25.
rgroup.long 0xB4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_13,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x74++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_13,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_13,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_14"
width 25.
rgroup.long 0xB8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_14,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x78++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_14,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_14,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_15"
width 25.
rgroup.long 0xBC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_15,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x7C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_15,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xFC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_15,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. " SIDLEMODE ,Idle Mode - b00. - b01. - b10. - b11." "b00,b01,b10,b11"
bitfld.long 0x00 0. "       SOFTRESET ,Softreset - b0. - b0. - b1. - b1." "b0,b1"
wgroup.long 0x140++0x3
line.long 0x00 "MAILBOX_IRQ_EOI,This register is used for the software EOI clearance of the pulse. This register being write only gives 0 on read."
bitfld.long 0x00 0.--1. " EOIVAL    ,EOI value - B0. - B1." "B0,B1,2,3"
width 0x0B
tree.end
tree "EVE2_MBOX4"
base ad:0x4218F000
tree "Channel_0"
width 27.
rgroup.long 0x80++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_0,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_0,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x108++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_0,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_0,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_0,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_0,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 27.
rgroup.long 0x84++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_1,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_1,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x118++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_1,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x114++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_1,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x110++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_1,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_1,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 27.
rgroup.long 0x88++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_2,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_2,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x128++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_2,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x124++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_2,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x120++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_2,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x48++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_2,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 27.
rgroup.long 0x8C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_3,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_3,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x138++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_3,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_3,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x130++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_3,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xCC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_3,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
width 24.
rgroup.long 0x90++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_4,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x50++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_4,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
width 24.
rgroup.long 0x94++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_5,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_5,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_6"
width 24.
rgroup.long 0x98++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_6,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x58++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_6,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_6,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_7"
width 24.
rgroup.long 0x9C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_7,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x5C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_7,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xDC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_7,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_8"
width 24.
rgroup.long 0xA0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_8,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_8,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_8,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_9"
width 24.
rgroup.long 0xA4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_9,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x64++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_9,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_9,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_10"
width 25.
rgroup.long 0xA8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_10,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x68++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_10,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_10,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_11"
width 25.
rgroup.long 0xAC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_11,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x6C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_11,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xEC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_11,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_12"
width 25.
rgroup.long 0xB0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_12,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x70++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_12,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_12,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_13"
width 25.
rgroup.long 0xB4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_13,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x74++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_13,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_13,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_14"
width 25.
rgroup.long 0xB8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_14,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x78++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_14,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_14,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_15"
width 25.
rgroup.long 0xBC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_15,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x7C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_15,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xFC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_15,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. " SIDLEMODE ,Idle Mode - b00. - b01. - b10. - b11." "b00,b01,b10,b11"
bitfld.long 0x00 0. "       SOFTRESET ,Softreset - b0. - b0. - b1. - b1." "b0,b1"
wgroup.long 0x140++0x3
line.long 0x00 "MAILBOX_IRQ_EOI,This register is used for the software EOI clearance of the pulse. This register being write only gives 0 on read."
bitfld.long 0x00 0.--1. " EOIVAL    ,EOI value - B0. - B1." "B0,B1,2,3"
width 0x0B
tree.end
tree "EVE3_MBOX0"
base ad:0x4228B000
tree "Channel_0"
width 27.
rgroup.long 0x80++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_0,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_0,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x108++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_0,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_0,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_0,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_0,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 27.
rgroup.long 0x84++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_1,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_1,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x118++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_1,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x114++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_1,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x110++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_1,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_1,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 27.
rgroup.long 0x88++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_2,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_2,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x128++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_2,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x124++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_2,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x120++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_2,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x48++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_2,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 27.
rgroup.long 0x8C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_3,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_3,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x138++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_3,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_3,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x130++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_3,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xCC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_3,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
width 24.
rgroup.long 0x90++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_4,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x50++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_4,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
width 24.
rgroup.long 0x94++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_5,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_5,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_6"
width 24.
rgroup.long 0x98++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_6,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x58++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_6,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_6,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_7"
width 24.
rgroup.long 0x9C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_7,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x5C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_7,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xDC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_7,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_8"
width 24.
rgroup.long 0xA0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_8,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_8,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_8,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_9"
width 24.
rgroup.long 0xA4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_9,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x64++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_9,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_9,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_10"
width 25.
rgroup.long 0xA8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_10,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x68++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_10,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_10,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_11"
width 25.
rgroup.long 0xAC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_11,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x6C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_11,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xEC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_11,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_12"
width 25.
rgroup.long 0xB0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_12,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x70++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_12,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_12,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_13"
width 25.
rgroup.long 0xB4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_13,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x74++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_13,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_13,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_14"
width 25.
rgroup.long 0xB8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_14,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x78++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_14,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_14,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_15"
width 25.
rgroup.long 0xBC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_15,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x7C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_15,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xFC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_15,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. " SIDLEMODE ,Idle Mode - b00. - b01. - b10. - b11." "b00,b01,b10,b11"
bitfld.long 0x00 0. "       SOFTRESET ,Softreset - b0. - b0. - b1. - b1." "b0,b1"
wgroup.long 0x140++0x3
line.long 0x00 "MAILBOX_IRQ_EOI,This register is used for the software EOI clearance of the pulse. This register being write only gives 0 on read."
bitfld.long 0x00 0.--1. " EOIVAL    ,EOI value - B0. - B1." "B0,B1,2,3"
width 0x0B
tree.end
tree "EVE3_MBOX1"
base ad:0x4228C000
tree "Channel_0"
width 27.
rgroup.long 0x80++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_0,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_0,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x108++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_0,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_0,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_0,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_0,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 27.
rgroup.long 0x84++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_1,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_1,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x118++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_1,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x114++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_1,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x110++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_1,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_1,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 27.
rgroup.long 0x88++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_2,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_2,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x128++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_2,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x124++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_2,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x120++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_2,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x48++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_2,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 27.
rgroup.long 0x8C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_3,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_3,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x138++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_3,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_3,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x130++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_3,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xCC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_3,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
width 24.
rgroup.long 0x90++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_4,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x50++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_4,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
width 24.
rgroup.long 0x94++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_5,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_5,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_6"
width 24.
rgroup.long 0x98++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_6,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x58++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_6,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_6,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_7"
width 24.
rgroup.long 0x9C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_7,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x5C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_7,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xDC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_7,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_8"
width 24.
rgroup.long 0xA0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_8,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_8,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_8,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_9"
width 24.
rgroup.long 0xA4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_9,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x64++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_9,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_9,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_10"
width 25.
rgroup.long 0xA8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_10,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x68++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_10,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_10,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_11"
width 25.
rgroup.long 0xAC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_11,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x6C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_11,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xEC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_11,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_12"
width 25.
rgroup.long 0xB0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_12,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x70++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_12,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_12,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_13"
width 25.
rgroup.long 0xB4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_13,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x74++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_13,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_13,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_14"
width 25.
rgroup.long 0xB8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_14,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x78++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_14,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_14,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_15"
width 25.
rgroup.long 0xBC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_15,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x7C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_15,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xFC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_15,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. " SIDLEMODE ,Idle Mode - b00. - b01. - b10. - b11." "b00,b01,b10,b11"
bitfld.long 0x00 0. "       SOFTRESET ,Softreset - b0. - b0. - b1. - b1." "b0,b1"
wgroup.long 0x140++0x3
line.long 0x00 "MAILBOX_IRQ_EOI,This register is used for the software EOI clearance of the pulse. This register being write only gives 0 on read."
bitfld.long 0x00 0.--1. " EOIVAL    ,EOI value - B0. - B1." "B0,B1,2,3"
width 0x0B
tree.end
tree "EVE3_MBOX2"
base ad:0x4228D000
tree "Channel_0"
width 27.
rgroup.long 0x80++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_0,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_0,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x108++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_0,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_0,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_0,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_0,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 27.
rgroup.long 0x84++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_1,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_1,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x118++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_1,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x114++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_1,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x110++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_1,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_1,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 27.
rgroup.long 0x88++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_2,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_2,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x128++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_2,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x124++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_2,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x120++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_2,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x48++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_2,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 27.
rgroup.long 0x8C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_3,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_3,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x138++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_3,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_3,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x130++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_3,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xCC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_3,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
width 24.
rgroup.long 0x90++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_4,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x50++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_4,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
width 24.
rgroup.long 0x94++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_5,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_5,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_6"
width 24.
rgroup.long 0x98++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_6,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x58++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_6,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_6,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_7"
width 24.
rgroup.long 0x9C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_7,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x5C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_7,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xDC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_7,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_8"
width 24.
rgroup.long 0xA0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_8,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_8,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_8,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_9"
width 24.
rgroup.long 0xA4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_9,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x64++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_9,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_9,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_10"
width 25.
rgroup.long 0xA8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_10,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x68++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_10,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_10,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_11"
width 25.
rgroup.long 0xAC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_11,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x6C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_11,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xEC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_11,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_12"
width 25.
rgroup.long 0xB0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_12,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x70++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_12,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_12,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_13"
width 25.
rgroup.long 0xB4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_13,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x74++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_13,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_13,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_14"
width 25.
rgroup.long 0xB8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_14,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x78++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_14,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_14,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_15"
width 25.
rgroup.long 0xBC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_15,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x7C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_15,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xFC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_15,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. " SIDLEMODE ,Idle Mode - b00. - b01. - b10. - b11." "b00,b01,b10,b11"
bitfld.long 0x00 0. "       SOFTRESET ,Softreset - b0. - b0. - b1. - b1." "b0,b1"
wgroup.long 0x140++0x3
line.long 0x00 "MAILBOX_IRQ_EOI,This register is used for the software EOI clearance of the pulse. This register being write only gives 0 on read."
bitfld.long 0x00 0.--1. " EOIVAL    ,EOI value - B0. - B1." "B0,B1,2,3"
width 0x0B
tree.end
tree "EVE3_MBOX3"
base ad:0x4228E000
tree "Channel_0"
width 27.
rgroup.long 0x80++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_0,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_0,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x108++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_0,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_0,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_0,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_0,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 27.
rgroup.long 0x84++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_1,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_1,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x118++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_1,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x114++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_1,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x110++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_1,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_1,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 27.
rgroup.long 0x88++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_2,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_2,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x128++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_2,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x124++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_2,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x120++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_2,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x48++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_2,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 27.
rgroup.long 0x8C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_3,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_3,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x138++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_3,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_3,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x130++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_3,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xCC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_3,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
width 24.
rgroup.long 0x90++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_4,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x50++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_4,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
width 24.
rgroup.long 0x94++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_5,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_5,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_6"
width 24.
rgroup.long 0x98++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_6,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x58++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_6,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_6,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_7"
width 24.
rgroup.long 0x9C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_7,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x5C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_7,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xDC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_7,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_8"
width 24.
rgroup.long 0xA0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_8,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_8,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_8,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_9"
width 24.
rgroup.long 0xA4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_9,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x64++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_9,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_9,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_10"
width 25.
rgroup.long 0xA8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_10,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x68++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_10,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_10,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_11"
width 25.
rgroup.long 0xAC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_11,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x6C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_11,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xEC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_11,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_12"
width 25.
rgroup.long 0xB0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_12,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x70++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_12,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_12,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_13"
width 25.
rgroup.long 0xB4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_13,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x74++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_13,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_13,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_14"
width 25.
rgroup.long 0xB8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_14,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x78++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_14,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_14,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_15"
width 25.
rgroup.long 0xBC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_15,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x7C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_15,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xFC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_15,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. " SIDLEMODE ,Idle Mode - b00. - b01. - b10. - b11." "b00,b01,b10,b11"
bitfld.long 0x00 0. "       SOFTRESET ,Softreset - b0. - b0. - b1. - b1." "b0,b1"
wgroup.long 0x140++0x3
line.long 0x00 "MAILBOX_IRQ_EOI,This register is used for the software EOI clearance of the pulse. This register being write only gives 0 on read."
bitfld.long 0x00 0.--1. " EOIVAL    ,EOI value - B0. - B1." "B0,B1,2,3"
width 0x0B
tree.end
tree "EVE3_MBOX4"
base ad:0x4228F000
tree "Channel_0"
width 27.
rgroup.long 0x80++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_0,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_0,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x108++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_0,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_0,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_0,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_0,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 27.
rgroup.long 0x84++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_1,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_1,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x118++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_1,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x114++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_1,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x110++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_1,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_1,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 27.
rgroup.long 0x88++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_2,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_2,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x128++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_2,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x124++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_2,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x120++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_2,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x48++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_2,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 27.
rgroup.long 0x8C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_3,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_3,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x138++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_3,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_3,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x130++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_3,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xCC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_3,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
width 24.
rgroup.long 0x90++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_4,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x50++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_4,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
width 24.
rgroup.long 0x94++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_5,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_5,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_6"
width 24.
rgroup.long 0x98++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_6,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x58++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_6,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_6,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_7"
width 24.
rgroup.long 0x9C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_7,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x5C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_7,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xDC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_7,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_8"
width 24.
rgroup.long 0xA0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_8,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_8,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_8,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_9"
width 24.
rgroup.long 0xA4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_9,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x64++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_9,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_9,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_10"
width 25.
rgroup.long 0xA8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_10,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x68++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_10,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_10,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_11"
width 25.
rgroup.long 0xAC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_11,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x6C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_11,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xEC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_11,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_12"
width 25.
rgroup.long 0xB0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_12,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x70++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_12,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_12,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_13"
width 25.
rgroup.long 0xB4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_13,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x74++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_13,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_13,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_14"
width 25.
rgroup.long 0xB8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_14,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x78++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_14,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_14,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_15"
width 25.
rgroup.long 0xBC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_15,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x7C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_15,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xFC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_15,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. " SIDLEMODE ,Idle Mode - b00. - b01. - b10. - b11." "b00,b01,b10,b11"
bitfld.long 0x00 0. "       SOFTRESET ,Softreset - b0. - b0. - b1. - b1." "b0,b1"
wgroup.long 0x140++0x3
line.long 0x00 "MAILBOX_IRQ_EOI,This register is used for the software EOI clearance of the pulse. This register being write only gives 0 on read."
bitfld.long 0x00 0.--1. " EOIVAL    ,EOI value - B0. - B1." "B0,B1,2,3"
width 0x0B
tree.end
tree "EVE4_MBOX0"
base ad:0x4238B000
tree "Channel_0"
width 27.
rgroup.long 0x80++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_0,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_0,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x108++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_0,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_0,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_0,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_0,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 27.
rgroup.long 0x84++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_1,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_1,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x118++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_1,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x114++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_1,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x110++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_1,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_1,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 27.
rgroup.long 0x88++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_2,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_2,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x128++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_2,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x124++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_2,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x120++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_2,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x48++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_2,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 27.
rgroup.long 0x8C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_3,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_3,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x138++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_3,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_3,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x130++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_3,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xCC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_3,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
width 24.
rgroup.long 0x90++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_4,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x50++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_4,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
width 24.
rgroup.long 0x94++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_5,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_5,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_6"
width 24.
rgroup.long 0x98++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_6,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x58++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_6,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_6,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_7"
width 24.
rgroup.long 0x9C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_7,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x5C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_7,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xDC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_7,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_8"
width 24.
rgroup.long 0xA0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_8,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_8,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_8,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_9"
width 24.
rgroup.long 0xA4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_9,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x64++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_9,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_9,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_10"
width 25.
rgroup.long 0xA8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_10,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x68++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_10,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_10,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_11"
width 25.
rgroup.long 0xAC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_11,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x6C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_11,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xEC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_11,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_12"
width 25.
rgroup.long 0xB0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_12,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x70++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_12,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_12,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_13"
width 25.
rgroup.long 0xB4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_13,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x74++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_13,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_13,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_14"
width 25.
rgroup.long 0xB8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_14,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x78++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_14,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_14,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_15"
width 25.
rgroup.long 0xBC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_15,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x7C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_15,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xFC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_15,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. " SIDLEMODE ,Idle Mode - b00. - b01. - b10. - b11." "b00,b01,b10,b11"
bitfld.long 0x00 0. "       SOFTRESET ,Softreset - b0. - b0. - b1. - b1." "b0,b1"
wgroup.long 0x140++0x3
line.long 0x00 "MAILBOX_IRQ_EOI,This register is used for the software EOI clearance of the pulse. This register being write only gives 0 on read."
bitfld.long 0x00 0.--1. " EOIVAL    ,EOI value - B0. - B1." "B0,B1,2,3"
width 0x0B
tree.end
tree "EVE4_MBOX1"
base ad:0x4238C000
tree "Channel_0"
width 27.
rgroup.long 0x80++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_0,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_0,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x108++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_0,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_0,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_0,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_0,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 27.
rgroup.long 0x84++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_1,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_1,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x118++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_1,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x114++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_1,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x110++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_1,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_1,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 27.
rgroup.long 0x88++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_2,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_2,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x128++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_2,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x124++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_2,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x120++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_2,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x48++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_2,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 27.
rgroup.long 0x8C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_3,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_3,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x138++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_3,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_3,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x130++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_3,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xCC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_3,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
width 24.
rgroup.long 0x90++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_4,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x50++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_4,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
width 24.
rgroup.long 0x94++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_5,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_5,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_6"
width 24.
rgroup.long 0x98++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_6,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x58++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_6,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_6,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_7"
width 24.
rgroup.long 0x9C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_7,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x5C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_7,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xDC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_7,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_8"
width 24.
rgroup.long 0xA0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_8,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_8,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_8,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_9"
width 24.
rgroup.long 0xA4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_9,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x64++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_9,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_9,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_10"
width 25.
rgroup.long 0xA8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_10,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x68++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_10,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_10,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_11"
width 25.
rgroup.long 0xAC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_11,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x6C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_11,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xEC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_11,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_12"
width 25.
rgroup.long 0xB0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_12,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x70++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_12,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_12,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_13"
width 25.
rgroup.long 0xB4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_13,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x74++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_13,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_13,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_14"
width 25.
rgroup.long 0xB8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_14,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x78++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_14,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_14,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_15"
width 25.
rgroup.long 0xBC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_15,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x7C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_15,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xFC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_15,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. " SIDLEMODE ,Idle Mode - b00. - b01. - b10. - b11." "b00,b01,b10,b11"
bitfld.long 0x00 0. "       SOFTRESET ,Softreset - b0. - b0. - b1. - b1." "b0,b1"
wgroup.long 0x140++0x3
line.long 0x00 "MAILBOX_IRQ_EOI,This register is used for the software EOI clearance of the pulse. This register being write only gives 0 on read."
bitfld.long 0x00 0.--1. " EOIVAL    ,EOI value - B0. - B1." "B0,B1,2,3"
width 0x0B
tree.end
tree "EVE4_MBOX2"
base ad:0x4238D000
tree "Channel_0"
width 27.
rgroup.long 0x80++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_0,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_0,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x108++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_0,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_0,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_0,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_0,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 27.
rgroup.long 0x84++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_1,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_1,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x118++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_1,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x114++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_1,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x110++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_1,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_1,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 27.
rgroup.long 0x88++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_2,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_2,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x128++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_2,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x124++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_2,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x120++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_2,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x48++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_2,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 27.
rgroup.long 0x8C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_3,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_3,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x138++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_3,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_3,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x130++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_3,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xCC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_3,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
width 24.
rgroup.long 0x90++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_4,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x50++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_4,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
width 24.
rgroup.long 0x94++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_5,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_5,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_6"
width 24.
rgroup.long 0x98++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_6,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x58++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_6,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_6,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_7"
width 24.
rgroup.long 0x9C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_7,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x5C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_7,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xDC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_7,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_8"
width 24.
rgroup.long 0xA0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_8,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_8,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_8,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_9"
width 24.
rgroup.long 0xA4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_9,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x64++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_9,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_9,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_10"
width 25.
rgroup.long 0xA8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_10,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x68++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_10,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_10,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_11"
width 25.
rgroup.long 0xAC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_11,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x6C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_11,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xEC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_11,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_12"
width 25.
rgroup.long 0xB0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_12,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x70++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_12,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_12,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_13"
width 25.
rgroup.long 0xB4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_13,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x74++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_13,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_13,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_14"
width 25.
rgroup.long 0xB8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_14,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x78++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_14,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_14,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_15"
width 25.
rgroup.long 0xBC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_15,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x7C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_15,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xFC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_15,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. " SIDLEMODE ,Idle Mode - b00. - b01. - b10. - b11." "b00,b01,b10,b11"
bitfld.long 0x00 0. "       SOFTRESET ,Softreset - b0. - b0. - b1. - b1." "b0,b1"
wgroup.long 0x140++0x3
line.long 0x00 "MAILBOX_IRQ_EOI,This register is used for the software EOI clearance of the pulse. This register being write only gives 0 on read."
bitfld.long 0x00 0.--1. " EOIVAL    ,EOI value - B0. - B1." "B0,B1,2,3"
width 0x0B
tree.end
tree "EVE4_MBOX3"
base ad:0x4238E000
tree "Channel_0"
width 27.
rgroup.long 0x80++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_0,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_0,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x108++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_0,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_0,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_0,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_0,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 27.
rgroup.long 0x84++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_1,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_1,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x118++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_1,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x114++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_1,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x110++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_1,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_1,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 27.
rgroup.long 0x88++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_2,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_2,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x128++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_2,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x124++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_2,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x120++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_2,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x48++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_2,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 27.
rgroup.long 0x8C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_3,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_3,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x138++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_3,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_3,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x130++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_3,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xCC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_3,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
width 24.
rgroup.long 0x90++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_4,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x50++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_4,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
width 24.
rgroup.long 0x94++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_5,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_5,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_6"
width 24.
rgroup.long 0x98++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_6,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x58++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_6,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_6,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_7"
width 24.
rgroup.long 0x9C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_7,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x5C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_7,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xDC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_7,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_8"
width 24.
rgroup.long 0xA0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_8,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_8,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_8,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_9"
width 24.
rgroup.long 0xA4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_9,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x64++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_9,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_9,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_10"
width 25.
rgroup.long 0xA8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_10,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x68++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_10,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_10,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_11"
width 25.
rgroup.long 0xAC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_11,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x6C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_11,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xEC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_11,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_12"
width 25.
rgroup.long 0xB0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_12,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x70++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_12,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_12,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_13"
width 25.
rgroup.long 0xB4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_13,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x74++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_13,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_13,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_14"
width 25.
rgroup.long 0xB8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_14,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x78++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_14,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_14,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_15"
width 25.
rgroup.long 0xBC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_15,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x7C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_15,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xFC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_15,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. " SIDLEMODE ,Idle Mode - b00. - b01. - b10. - b11." "b00,b01,b10,b11"
bitfld.long 0x00 0. "       SOFTRESET ,Softreset - b0. - b0. - b1. - b1." "b0,b1"
wgroup.long 0x140++0x3
line.long 0x00 "MAILBOX_IRQ_EOI,This register is used for the software EOI clearance of the pulse. This register being write only gives 0 on read."
bitfld.long 0x00 0.--1. " EOIVAL    ,EOI value - B0. - B1." "B0,B1,2,3"
width 0x0B
tree.end
tree "EVE4_MBOX4"
base ad:0x4238F000
tree "Channel_0"
width 27.
rgroup.long 0x80++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_0,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_0,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x108++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_0,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_0,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_0,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_0,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 27.
rgroup.long 0x84++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_1,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_1,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x118++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_1,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x114++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_1,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x110++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_1,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_1,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 27.
rgroup.long 0x88++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_2,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_2,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x128++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_2,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x124++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_2,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x120++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_2,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x48++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_2,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 27.
rgroup.long 0x8C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_3,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_3,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x138++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_3,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_3,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x130++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_3,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xCC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_3,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
width 24.
rgroup.long 0x90++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_4,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x50++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_4,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
width 24.
rgroup.long 0x94++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_5,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_5,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_6"
width 24.
rgroup.long 0x98++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_6,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x58++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_6,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_6,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_7"
width 24.
rgroup.long 0x9C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_7,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x5C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_7,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xDC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_7,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_8"
width 24.
rgroup.long 0xA0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_8,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_8,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_8,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_9"
width 24.
rgroup.long 0xA4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_9,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x64++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_9,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_9,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_10"
width 25.
rgroup.long 0xA8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_10,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x68++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_10,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_10,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_11"
width 25.
rgroup.long 0xAC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_11,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x6C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_11,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xEC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_11,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_12"
width 25.
rgroup.long 0xB0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_12,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x70++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_12,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_12,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_13"
width 25.
rgroup.long 0xB4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_13,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x74++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_13,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_13,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_14"
width 25.
rgroup.long 0xB8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_14,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x78++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_14,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xF8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_14,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_15"
width 25.
rgroup.long 0xBC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_15,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x7C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_15,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xFC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_15,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. " SIDLEMODE ,Idle Mode - b00. - b01. - b10. - b11." "b00,b01,b10,b11"
bitfld.long 0x00 0. "       SOFTRESET ,Softreset - b0. - b0. - b1. - b1." "b0,b1"
wgroup.long 0x140++0x3
line.long 0x00 "MAILBOX_IRQ_EOI,This register is used for the software EOI clearance of the pulse. This register being write only gives 0 on read."
bitfld.long 0x00 0.--1. " EOIVAL    ,EOI value - B0. - B1." "B0,B1,2,3"
width 0x0B
tree.end
tree.end
tree.open "MAILBOX13"
tree "MAILBOX13"
base ad:0x48802000
tree "Channel_0"
width 27.
rgroup.long 0x80++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_0,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_0,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x108++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_0,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_0,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_0,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_0,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 27.
rgroup.long 0x84++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_1,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_1,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x118++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_1,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x114++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_1,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x110++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_1,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_1,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 27.
rgroup.long 0x88++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_2,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_2,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x128++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_2,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x124++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_2,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x120++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_2,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x48++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_2,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 27.
rgroup.long 0x8C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_3,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_3,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x138++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_3,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_3,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x130++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_3,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xCC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_3,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
width 24.
rgroup.long 0x90++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_4,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x50++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_4,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
width 24.
rgroup.long 0x94++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_5,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_5,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_6"
width 24.
rgroup.long 0x98++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_6,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x58++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_6,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_6,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_7"
width 24.
rgroup.long 0x9C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_7,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x5C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_7,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xDC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_7,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_8"
width 24.
rgroup.long 0xA0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_8,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_8,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_8,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_9"
width 24.
rgroup.long 0xA4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_9,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x64++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_9,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_9,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_10"
width 25.
rgroup.long 0xA8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_10,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x68++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_10,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_10,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_11"
width 25.
rgroup.long 0xAC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_11,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x6C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_11,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xEC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_11,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. " SIDLEMODE ,Idle Mode - b00. - b01. - b10. - b11." "b00,b01,b10,b11"
bitfld.long 0x00 0. "       SOFTRESET ,Softreset - b0. - b0. - b1. - b1." "b0,b1"
wgroup.long 0x140++0x3
line.long 0x00 "MAILBOX_IRQ_EOI,This register is used for the software EOI clearance of the pulse. This register being write only gives 0 on read."
bitfld.long 0x00 0.--1. " EOIVAL    ,EOI value - B0. - B1." "B0,B1,2,3"
width 0x0B
tree.end
tree "MAILBOX2"
base ad:0x4883A000
tree "Channel_0"
width 27.
rgroup.long 0x80++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_0,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_0,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x108++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_0,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_0,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_0,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_0,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 27.
rgroup.long 0x84++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_1,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_1,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x118++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_1,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x114++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_1,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x110++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_1,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_1,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 27.
rgroup.long 0x88++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_2,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_2,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x128++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_2,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x124++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_2,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x120++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_2,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x48++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_2,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 27.
rgroup.long 0x8C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_3,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_3,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x138++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_3,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_3,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x130++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_3,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xCC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_3,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
width 24.
rgroup.long 0x90++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_4,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x50++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_4,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
width 24.
rgroup.long 0x94++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_5,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_5,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_6"
width 24.
rgroup.long 0x98++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_6,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x58++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_6,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_6,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_7"
width 24.
rgroup.long 0x9C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_7,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x5C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_7,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xDC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_7,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_8"
width 24.
rgroup.long 0xA0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_8,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_8,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_8,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_9"
width 24.
rgroup.long 0xA4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_9,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x64++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_9,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_9,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_10"
width 25.
rgroup.long 0xA8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_10,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x68++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_10,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_10,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_11"
width 25.
rgroup.long 0xAC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_11,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x6C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_11,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xEC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_11,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. " SIDLEMODE ,Idle Mode - b00. - b01. - b10. - b11." "b00,b01,b10,b11"
bitfld.long 0x00 0. "       SOFTRESET ,Softreset - b0. - b0. - b1. - b1." "b0,b1"
wgroup.long 0x140++0x3
line.long 0x00 "MAILBOX_IRQ_EOI,This register is used for the software EOI clearance of the pulse. This register being write only gives 0 on read."
bitfld.long 0x00 0.--1. " EOIVAL    ,EOI value - B0. - B1." "B0,B1,2,3"
width 0x0B
tree.end
tree "MAILBOX3"
base ad:0x4883C000
tree "Channel_0"
width 27.
rgroup.long 0x80++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_0,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_0,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x108++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_0,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_0,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_0,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_0,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 27.
rgroup.long 0x84++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_1,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_1,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x118++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_1,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x114++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_1,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x110++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_1,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_1,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 27.
rgroup.long 0x88++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_2,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_2,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x128++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_2,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x124++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_2,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x120++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_2,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x48++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_2,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 27.
rgroup.long 0x8C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_3,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_3,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x138++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_3,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_3,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x130++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_3,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xCC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_3,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
width 24.
rgroup.long 0x90++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_4,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x50++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_4,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
width 24.
rgroup.long 0x94++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_5,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_5,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_6"
width 24.
rgroup.long 0x98++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_6,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x58++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_6,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_6,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_7"
width 24.
rgroup.long 0x9C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_7,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x5C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_7,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xDC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_7,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_8"
width 24.
rgroup.long 0xA0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_8,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_8,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_8,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_9"
width 24.
rgroup.long 0xA4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_9,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x64++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_9,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_9,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_10"
width 25.
rgroup.long 0xA8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_10,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x68++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_10,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_10,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_11"
width 25.
rgroup.long 0xAC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_11,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x6C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_11,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xEC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_11,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. " SIDLEMODE ,Idle Mode - b00. - b01. - b10. - b11." "b00,b01,b10,b11"
bitfld.long 0x00 0. "       SOFTRESET ,Softreset - b0. - b0. - b1. - b1." "b0,b1"
wgroup.long 0x140++0x3
line.long 0x00 "MAILBOX_IRQ_EOI,This register is used for the software EOI clearance of the pulse. This register being write only gives 0 on read."
bitfld.long 0x00 0.--1. " EOIVAL    ,EOI value - B0. - B1." "B0,B1,2,3"
width 0x0B
tree.end
tree "MAILBOX4"
base ad:0x4883E000
tree "Channel_0"
width 27.
rgroup.long 0x80++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_0,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_0,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x108++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_0,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_0,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_0,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_0,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 27.
rgroup.long 0x84++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_1,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_1,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x118++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_1,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x114++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_1,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x110++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_1,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_1,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 27.
rgroup.long 0x88++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_2,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_2,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x128++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_2,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x124++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_2,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x120++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_2,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x48++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_2,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 27.
rgroup.long 0x8C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_3,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_3,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x138++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_3,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_3,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x130++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_3,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xCC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_3,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
width 24.
rgroup.long 0x90++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_4,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x50++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_4,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
width 24.
rgroup.long 0x94++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_5,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_5,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_6"
width 24.
rgroup.long 0x98++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_6,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x58++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_6,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_6,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_7"
width 24.
rgroup.long 0x9C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_7,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x5C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_7,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xDC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_7,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_8"
width 24.
rgroup.long 0xA0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_8,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_8,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_8,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_9"
width 24.
rgroup.long 0xA4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_9,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x64++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_9,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_9,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_10"
width 25.
rgroup.long 0xA8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_10,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x68++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_10,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_10,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_11"
width 25.
rgroup.long 0xAC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_11,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x6C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_11,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xEC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_11,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. " SIDLEMODE ,Idle Mode - b00. - b01. - b10. - b11." "b00,b01,b10,b11"
bitfld.long 0x00 0. "       SOFTRESET ,Softreset - b0. - b0. - b1. - b1." "b0,b1"
wgroup.long 0x140++0x3
line.long 0x00 "MAILBOX_IRQ_EOI,This register is used for the software EOI clearance of the pulse. This register being write only gives 0 on read."
bitfld.long 0x00 0.--1. " EOIVAL    ,EOI value - B0. - B1." "B0,B1,2,3"
width 0x0B
tree.end
tree "MAILBOX5"
base ad:0x48840000
tree "Channel_0"
width 27.
rgroup.long 0x80++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_0,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_0,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x108++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_0,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_0,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_0,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_0,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 27.
rgroup.long 0x84++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_1,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_1,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x118++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_1,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x114++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_1,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x110++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_1,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_1,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 27.
rgroup.long 0x88++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_2,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_2,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x128++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_2,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x124++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_2,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x120++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_2,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x48++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_2,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 27.
rgroup.long 0x8C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_3,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_3,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x138++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_3,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_3,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x130++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_3,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xCC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_3,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
width 24.
rgroup.long 0x90++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_4,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x50++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_4,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
width 24.
rgroup.long 0x94++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_5,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_5,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_6"
width 24.
rgroup.long 0x98++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_6,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x58++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_6,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_6,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_7"
width 24.
rgroup.long 0x9C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_7,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x5C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_7,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xDC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_7,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_8"
width 24.
rgroup.long 0xA0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_8,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_8,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_8,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_9"
width 24.
rgroup.long 0xA4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_9,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x64++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_9,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_9,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_10"
width 25.
rgroup.long 0xA8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_10,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x68++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_10,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_10,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_11"
width 25.
rgroup.long 0xAC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_11,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x6C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_11,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xEC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_11,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. " SIDLEMODE ,Idle Mode - b00. - b01. - b10. - b11." "b00,b01,b10,b11"
bitfld.long 0x00 0. "       SOFTRESET ,Softreset - b0. - b0. - b1. - b1." "b0,b1"
wgroup.long 0x140++0x3
line.long 0x00 "MAILBOX_IRQ_EOI,This register is used for the software EOI clearance of the pulse. This register being write only gives 0 on read."
bitfld.long 0x00 0.--1. " EOIVAL    ,EOI value - B0. - B1." "B0,B1,2,3"
width 0x0B
tree.end
tree "MAILBOX6"
base ad:0x48842000
tree "Channel_0"
width 27.
rgroup.long 0x80++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_0,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_0,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x108++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_0,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_0,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_0,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_0,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 27.
rgroup.long 0x84++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_1,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_1,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x118++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_1,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x114++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_1,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x110++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_1,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_1,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 27.
rgroup.long 0x88++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_2,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_2,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x128++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_2,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x124++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_2,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x120++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_2,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x48++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_2,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 27.
rgroup.long 0x8C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_3,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_3,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x138++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_3,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_3,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x130++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_3,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xCC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_3,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
width 24.
rgroup.long 0x90++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_4,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x50++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_4,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
width 24.
rgroup.long 0x94++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_5,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_5,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_6"
width 24.
rgroup.long 0x98++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_6,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x58++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_6,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_6,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_7"
width 24.
rgroup.long 0x9C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_7,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x5C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_7,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xDC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_7,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_8"
width 24.
rgroup.long 0xA0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_8,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_8,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_8,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_9"
width 24.
rgroup.long 0xA4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_9,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x64++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_9,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_9,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_10"
width 25.
rgroup.long 0xA8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_10,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x68++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_10,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_10,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_11"
width 25.
rgroup.long 0xAC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_11,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x6C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_11,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xEC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_11,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. " SIDLEMODE ,Idle Mode - b00. - b01. - b10. - b11." "b00,b01,b10,b11"
bitfld.long 0x00 0. "       SOFTRESET ,Softreset - b0. - b0. - b1. - b1." "b0,b1"
wgroup.long 0x140++0x3
line.long 0x00 "MAILBOX_IRQ_EOI,This register is used for the software EOI clearance of the pulse. This register being write only gives 0 on read."
bitfld.long 0x00 0.--1. " EOIVAL    ,EOI value - B0. - B1." "B0,B1,2,3"
width 0x0B
tree.end
tree "MAILBOX7"
base ad:0x48844000
tree "Channel_0"
width 27.
rgroup.long 0x80++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_0,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_0,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x108++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_0,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_0,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_0,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_0,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 27.
rgroup.long 0x84++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_1,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_1,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x118++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_1,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x114++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_1,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x110++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_1,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_1,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 27.
rgroup.long 0x88++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_2,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_2,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x128++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_2,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x124++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_2,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x120++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_2,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x48++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_2,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 27.
rgroup.long 0x8C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_3,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_3,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x138++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_3,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_3,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x130++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_3,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xCC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_3,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
width 24.
rgroup.long 0x90++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_4,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x50++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_4,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
width 24.
rgroup.long 0x94++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_5,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_5,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_6"
width 24.
rgroup.long 0x98++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_6,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x58++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_6,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_6,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_7"
width 24.
rgroup.long 0x9C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_7,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x5C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_7,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xDC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_7,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_8"
width 24.
rgroup.long 0xA0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_8,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_8,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_8,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_9"
width 24.
rgroup.long 0xA4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_9,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x64++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_9,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_9,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_10"
width 25.
rgroup.long 0xA8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_10,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x68++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_10,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_10,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_11"
width 25.
rgroup.long 0xAC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_11,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x6C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_11,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xEC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_11,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. " SIDLEMODE ,Idle Mode - b00. - b01. - b10. - b11." "b00,b01,b10,b11"
bitfld.long 0x00 0. "       SOFTRESET ,Softreset - b0. - b0. - b1. - b1." "b0,b1"
wgroup.long 0x140++0x3
line.long 0x00 "MAILBOX_IRQ_EOI,This register is used for the software EOI clearance of the pulse. This register being write only gives 0 on read."
bitfld.long 0x00 0.--1. " EOIVAL    ,EOI value - B0. - B1." "B0,B1,2,3"
width 0x0B
tree.end
tree "MAILBOX8"
base ad:0x48846000
tree "Channel_0"
width 27.
rgroup.long 0x80++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_0,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_0,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x108++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_0,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_0,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_0,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_0,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 27.
rgroup.long 0x84++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_1,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_1,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x118++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_1,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x114++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_1,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x110++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_1,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_1,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 27.
rgroup.long 0x88++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_2,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_2,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x128++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_2,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x124++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_2,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x120++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_2,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x48++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_2,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 27.
rgroup.long 0x8C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_3,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_3,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x138++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_3,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_3,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x130++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_3,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xCC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_3,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
width 24.
rgroup.long 0x90++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_4,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x50++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_4,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
width 24.
rgroup.long 0x94++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_5,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_5,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_6"
width 24.
rgroup.long 0x98++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_6,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x58++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_6,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_6,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_7"
width 24.
rgroup.long 0x9C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_7,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x5C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_7,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xDC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_7,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_8"
width 24.
rgroup.long 0xA0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_8,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_8,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_8,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_9"
width 24.
rgroup.long 0xA4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_9,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x64++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_9,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_9,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_10"
width 25.
rgroup.long 0xA8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_10,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x68++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_10,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_10,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_11"
width 25.
rgroup.long 0xAC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_11,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x6C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_11,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xEC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_11,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. " SIDLEMODE ,Idle Mode - b00. - b01. - b10. - b11." "b00,b01,b10,b11"
bitfld.long 0x00 0. "       SOFTRESET ,Softreset - b0. - b0. - b1. - b1." "b0,b1"
wgroup.long 0x140++0x3
line.long 0x00 "MAILBOX_IRQ_EOI,This register is used for the software EOI clearance of the pulse. This register being write only gives 0 on read."
bitfld.long 0x00 0.--1. " EOIVAL    ,EOI value - B0. - B1." "B0,B1,2,3"
width 0x0B
tree.end
tree "MAILBOX9"
base ad:0x4885E000
tree "Channel_0"
width 27.
rgroup.long 0x80++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_0,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_0,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x108++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_0,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_0,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_0,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_0,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 27.
rgroup.long 0x84++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_1,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_1,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x118++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_1,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x114++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_1,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x110++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_1,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_1,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 27.
rgroup.long 0x88++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_2,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_2,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x128++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_2,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x124++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_2,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x120++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_2,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x48++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_2,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 27.
rgroup.long 0x8C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_3,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_3,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x138++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_3,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_3,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x130++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_3,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xCC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_3,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
width 24.
rgroup.long 0x90++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_4,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x50++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_4,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
width 24.
rgroup.long 0x94++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_5,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_5,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_6"
width 24.
rgroup.long 0x98++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_6,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x58++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_6,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_6,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_7"
width 24.
rgroup.long 0x9C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_7,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x5C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_7,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xDC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_7,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_8"
width 24.
rgroup.long 0xA0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_8,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_8,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_8,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_9"
width 24.
rgroup.long 0xA4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_9,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x64++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_9,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_9,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_10"
width 25.
rgroup.long 0xA8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_10,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x68++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_10,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_10,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_11"
width 25.
rgroup.long 0xAC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_11,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x6C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_11,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xEC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_11,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. " SIDLEMODE ,Idle Mode - b00. - b01. - b10. - b11." "b00,b01,b10,b11"
bitfld.long 0x00 0. "       SOFTRESET ,Softreset - b0. - b0. - b1. - b1." "b0,b1"
wgroup.long 0x140++0x3
line.long 0x00 "MAILBOX_IRQ_EOI,This register is used for the software EOI clearance of the pulse. This register being write only gives 0 on read."
bitfld.long 0x00 0.--1. " EOIVAL    ,EOI value - B0. - B1." "B0,B1,2,3"
width 0x0B
tree.end
tree "MAILBOX10"
base ad:0x48860000
tree "Channel_0"
width 27.
rgroup.long 0x80++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_0,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_0,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x108++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_0,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_0,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_0,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_0,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 27.
rgroup.long 0x84++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_1,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_1,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x118++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_1,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x114++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_1,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x110++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_1,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_1,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 27.
rgroup.long 0x88++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_2,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_2,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x128++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_2,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x124++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_2,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x120++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_2,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x48++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_2,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 27.
rgroup.long 0x8C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_3,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_3,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x138++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_3,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_3,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x130++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_3,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xCC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_3,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
width 24.
rgroup.long 0x90++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_4,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x50++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_4,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
width 24.
rgroup.long 0x94++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_5,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_5,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_6"
width 24.
rgroup.long 0x98++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_6,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x58++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_6,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_6,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_7"
width 24.
rgroup.long 0x9C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_7,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x5C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_7,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xDC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_7,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_8"
width 24.
rgroup.long 0xA0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_8,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_8,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_8,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_9"
width 24.
rgroup.long 0xA4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_9,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x64++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_9,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_9,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_10"
width 25.
rgroup.long 0xA8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_10,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x68++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_10,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_10,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_11"
width 25.
rgroup.long 0xAC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_11,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x6C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_11,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xEC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_11,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. " SIDLEMODE ,Idle Mode - b00. - b01. - b10. - b11." "b00,b01,b10,b11"
bitfld.long 0x00 0. "       SOFTRESET ,Softreset - b0. - b0. - b1. - b1." "b0,b1"
wgroup.long 0x140++0x3
line.long 0x00 "MAILBOX_IRQ_EOI,This register is used for the software EOI clearance of the pulse. This register being write only gives 0 on read."
bitfld.long 0x00 0.--1. " EOIVAL    ,EOI value - B0. - B1." "B0,B1,2,3"
width 0x0B
tree.end
tree "MAILBOX11"
base ad:0x48862000
tree "Channel_0"
width 27.
rgroup.long 0x80++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_0,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_0,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x108++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_0,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_0,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_0,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_0,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 27.
rgroup.long 0x84++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_1,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_1,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x118++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_1,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x114++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_1,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x110++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_1,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_1,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 27.
rgroup.long 0x88++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_2,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_2,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x128++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_2,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x124++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_2,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x120++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_2,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x48++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_2,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 27.
rgroup.long 0x8C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_3,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_3,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x138++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_3,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_3,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x130++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_3,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xCC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_3,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
width 24.
rgroup.long 0x90++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_4,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x50++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_4,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
width 24.
rgroup.long 0x94++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_5,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_5,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_6"
width 24.
rgroup.long 0x98++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_6,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x58++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_6,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_6,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_7"
width 24.
rgroup.long 0x9C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_7,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x5C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_7,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xDC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_7,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_8"
width 24.
rgroup.long 0xA0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_8,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_8,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_8,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_9"
width 24.
rgroup.long 0xA4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_9,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x64++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_9,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_9,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_10"
width 25.
rgroup.long 0xA8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_10,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x68++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_10,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_10,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_11"
width 25.
rgroup.long 0xAC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_11,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x6C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_11,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xEC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_11,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. " SIDLEMODE ,Idle Mode - b00. - b01. - b10. - b11." "b00,b01,b10,b11"
bitfld.long 0x00 0. "       SOFTRESET ,Softreset - b0. - b0. - b1. - b1." "b0,b1"
wgroup.long 0x140++0x3
line.long 0x00 "MAILBOX_IRQ_EOI,This register is used for the software EOI clearance of the pulse. This register being write only gives 0 on read."
bitfld.long 0x00 0.--1. " EOIVAL    ,EOI value - B0. - B1." "B0,B1,2,3"
width 0x0B
tree.end
tree "MAILBOX12"
base ad:0x48864000
tree "Channel_0"
width 27.
rgroup.long 0x80++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_0,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_0,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x108++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_0,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_0,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_0,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_0,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 27.
rgroup.long 0x84++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_1,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_1,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x118++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_1,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x114++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_1,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x110++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_1,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_1,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 27.
rgroup.long 0x88++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_2,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_2,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x128++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_2,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x124++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_2,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x120++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_2,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x48++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_2,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 27.
rgroup.long 0x8C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_3,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_3,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x138++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_3,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_3,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x130++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_3,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xCC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_3,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
width 24.
rgroup.long 0x90++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_4,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x50++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_4,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
width 24.
rgroup.long 0x94++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_5,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_5,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_6"
width 24.
rgroup.long 0x98++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_6,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x58++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_6,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_6,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_7"
width 24.
rgroup.long 0x9C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_7,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x5C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_7,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xDC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_7,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_8"
width 24.
rgroup.long 0xA0++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_8,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_8,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_8,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_9"
width 24.
rgroup.long 0xA4++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_9,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x64++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_9,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_9,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_10"
width 25.
rgroup.long 0xA8++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_10,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x68++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_10,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xE8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_10,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_11"
width 25.
rgroup.long 0xAC++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_11,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x6C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_11,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xEC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_11,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. " SIDLEMODE ,Idle Mode - b00. - b01. - b10. - b11." "b00,b01,b10,b11"
bitfld.long 0x00 0. "       SOFTRESET ,Softreset - b0. - b0. - b1. - b1." "b0,b1"
wgroup.long 0x140++0x3
line.long 0x00 "MAILBOX_IRQ_EOI,This register is used for the software EOI clearance of the pulse. This register being write only gives 0 on read."
bitfld.long 0x00 0.--1. " EOIVAL    ,EOI value - B0. - B1." "B0,B1,2,3"
width 0x0B
tree.end
tree.end
tree "IVA_MBOX"
base ad:0x5A05A800
tree "Channel_0"
width 27.
rgroup.long 0x80++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_0,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_0,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x108++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_0,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_0,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_0,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_0,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 27.
rgroup.long 0x84++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_1,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_1,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x118++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_1,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x114++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_1,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x110++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_1,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_1,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 27.
rgroup.long 0x88++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_2,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_2,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x128++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_2,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x124++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_2,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x120++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_2,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x48++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_2,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 27.
rgroup.long 0x8C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_3,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x13C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_3,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x138++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_3,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_3,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x130++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_3,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xCC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_3,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
width 24.
rgroup.long 0x90++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_4,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x50++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_4,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
width 24.
rgroup.long 0x94++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_5,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_5,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. " SIDLEMODE ,Idle Mode - b00. - b01. - b10. - b11." "b00,b01,b10,b11"
bitfld.long 0x00 0. "       SOFTRESET ,Softreset - b0. - b0. - b1. - b1." "b0,b1"
wgroup.long 0x140++0x3
line.long 0x00 "MAILBOX_IRQ_EOI,This register is used for the software EOI clearance of the pulse. This register being write only gives 0 on read."
bitfld.long 0x00 0.--1. " EOIVAL    ,EOI value - B0. - B1." "B0,B1,2,3"
width 0x0B
tree.end
tree "MAILBOX1"
base ad:0x4A0F4000
tree "Channel_0"
width 27.
rgroup.long 0x80++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_0,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x10C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_0,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x108++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_0,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x104++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_0,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x100++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_0,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x40++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_0,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
width 27.
rgroup.long 0x84++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_1,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x11C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_1,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x118++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_1,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x114++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_1,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x110++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_1,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x44++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_1,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
width 27.
rgroup.long 0x88++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_2,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM           ,Full flag for Mailbox - . - ." "0,1"
group.long 0x12C++0x3
line.long 0x00 "MAILBOX_IRQENABLE_CLR_u_2,The interrupt enable register enables to mask the module internal source of interrupt to the corresponding user. This register is write 1 to clear."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x128++0x3
line.long 0x00 "MAILBOX_IRQENABLE_SET_u_2,The interrupt enable register enables to unmask the module internal source of interrupt to the corresponding user. This register is write 1 to set."
bitfld.long 0x00 31. " NOTFULLENABLEUUMB15   ,NotFull Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGENABLEUUMB15    ,NewMessage Enable bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLENABLEUUMB14   ,NotFull Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGENABLEUUMB14    ,NewMessage Enable bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLENABLEUUMB13   ,NotFull Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGENABLEUUMB13    ,NewMessage Enable bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLENABLEUUMB12   ,NotFull Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGENABLEUUMB12    ,NewMessage Enable bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLENABLEUUMB11   ,NotFull Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGENABLEUUMB11    ,NewMessage Enable bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLENABLEUUMB10   ,NotFull Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGENABLEUUMB10    ,NewMessage Enable bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLENABLEUUMB9    ,NotFull Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGENABLEUUMB9     ,NewMessage Enable bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLENABLEUUMB8    ,NotFull Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGENABLEUUMB8     ,NewMessage Enable bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLENABLEUUMB7    ,NotFull Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGENABLEUUMB7     ,NewMessage Enable bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLENABLEUUMB6    ,NotFull Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGENABLEUUMB6     ,NewMessage Enable bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLENABLEUUMB5    ,NotFull Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGENABLEUUMB5     ,NewMessage Enable bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLENABLEUUMB4    ,NotFull Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGENABLEUUMB4     ,NewMessage Enable bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLENABLEUUMB3    ,NotFull Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGENABLEUUMB3     ,NewMessage Enable bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLENABLEUUMB2    ,NotFull Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGENABLEUUMB2     ,NewMessage Enable bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLENABLEUUMB1    ,NotFull Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGENABLEUUMB1     ,NewMessage Enable bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLENABLEUUMB0    ,NotFull Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGENABLEUUMB0     ,NewMessage Enable bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x124++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_CLR_u_2,The interrupt status register has the status combined with irq-enable for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit resets this bit"
bitfld.long 0x00 31. " NOTFULLSTATUSENUUMB15 ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSENUUMB15  ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSENUUMB14 ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSENUUMB14  ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSENUUMB13 ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSENUUMB13  ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSENUUMB12 ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSENUUMB12  ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSENUUMB11 ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSENUUMB11  ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSENUUMB10 ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSENUUMB10  ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSENUUMB9  ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSENUUMB9   ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSENUUMB8  ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSENUUMB8   ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSENUUMB7  ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSENUUMB7   ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSENUUMB6  ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSENUUMB6   ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSENUUMB5  ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSENUUMB5   ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSENUUMB4  ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSENUUMB4   ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSENUUMB3  ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSENUUMB3   ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSENUUMB2  ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSENUUMB2   ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSENUUMB1  ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSENUUMB1   ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSENUUMB0  ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSENUUMB0   ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x120++0x3
line.long 0x00 "MAILBOX_IRQSTATUS_RAW_u_2,The interrupt status register has the raw status for each event that may be responsible for the generation of an interrupt to the corresponding user - write 1 to a given bit sets this bit. This register is mainly used for debu..."
bitfld.long 0x00 31. " NOTFULLSTATUSUUMB15   ,NotFull Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 30. "         NEWMSGSTATUSUUMB15    ,NewMessage Status bit for User u, Mailbox 15 - . - . - . - ." "0,1"
bitfld.long 0x00 29. "  NOTFULLSTATUSUUMB14   ,NotFull Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 28. " NEWMSGSTATUSUUMB14    ,NewMessage Status bit for User u, Mailbox 14 - . - . - . - ." "0,1"
bitfld.long 0x00 27. "         NOTFULLSTATUSUUMB13   ,NotFull Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
bitfld.long 0x00 26. "  NEWMSGSTATUSUUMB13    ,NewMessage Status bit for User u, Mailbox 13 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 25. " NOTFULLSTATUSUUMB12   ,NotFull Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 24. "         NEWMSGSTATUSUUMB12    ,NewMessage Status bit for User u, Mailbox 12 - . - . - . - ." "0,1"
bitfld.long 0x00 23. "  NOTFULLSTATUSUUMB11   ,NotFull Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 22. " NEWMSGSTATUSUUMB11    ,NewMessage Status bit for User u, Mailbox 11 - . - . - . - ." "0,1"
bitfld.long 0x00 21. "         NOTFULLSTATUSUUMB10   ,NotFull Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
bitfld.long 0x00 20. "  NEWMSGSTATUSUUMB10    ,NewMessage Status bit for User u, Mailbox 10 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 19. " NOTFULLSTATUSUUMB9    ,NotFull Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 18. "         NEWMSGSTATUSUUMB9     ,NewMessage Status bit for User u, Mailbox 9 - . - . - . - ." "0,1"
bitfld.long 0x00 17. "  NOTFULLSTATUSUUMB8    ,NotFull Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 16. " NEWMSGSTATUSUUMB8     ,NewMessage Status bit for User u, Mailbox 8 - . - . - . - ." "0,1"
bitfld.long 0x00 15. "         NOTFULLSTATUSUUMB7    ,NotFull Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
bitfld.long 0x00 14. "  NEWMSGSTATUSUUMB7     ,NewMessage Status bit for User u, Mailbox 7 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 13. " NOTFULLSTATUSUUMB6    ,NotFull Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 12. "         NEWMSGSTATUSUUMB6     ,NewMessage Status bit for User u, Mailbox 6 - . - . - . - ." "0,1"
bitfld.long 0x00 11. "  NOTFULLSTATUSUUMB5    ,NotFull Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 10. " NEWMSGSTATUSUUMB5     ,NewMessage Status bit for User u, Mailbox 5 - . - . - . - ." "0,1"
bitfld.long 0x00 9. "         NOTFULLSTATUSUUMB4    ,NotFull Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
bitfld.long 0x00 8. "  NEWMSGSTATUSUUMB4     ,NewMessage Status bit for User u, Mailbox 4 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " NOTFULLSTATUSUUMB3    ,NotFull Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 6. "         NEWMSGSTATUSUUMB3     ,NewMessage Status bit for User u, Mailbox 3 - . - . - . - ." "0,1"
bitfld.long 0x00 5. "  NOTFULLSTATUSUUMB2    ,NotFull Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 4. " NEWMSGSTATUSUUMB2     ,NewMessage Status bit for User u, Mailbox 2 - . - . - . - ." "0,1"
bitfld.long 0x00 3. "         NOTFULLSTATUSUUMB1    ,NotFull Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
bitfld.long 0x00 2. "  NEWMSGSTATUSUUMB1     ,NewMessage Status bit for User u, Mailbox 1 - . - . - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 1. " NOTFULLSTATUSUUMB0    ,NotFull Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
bitfld.long 0x00 0. "         NEWMSGSTATUSUUMB0     ,NewMessage Status bit for User u, Mailbox 0 - . - . - . - ." "0,1"
group.long 0x48++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM       ,Message in Mailbox"
rgroup.long 0xC8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_2,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM            ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
width 24.
rgroup.long 0x8C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_3,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x4C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xCC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_3,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
width 24.
rgroup.long 0x90++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_4,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x50++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD0++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_4,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
width 24.
rgroup.long 0x94++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_5,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x54++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD4++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_5,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_6"
width 24.
rgroup.long 0x98++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_6,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x58++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_6,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xD8++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_6,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_7"
width 24.
rgroup.long 0x9C++0x3
line.long 0x00 "MAILBOX_FIFOSTATUS_m_7,The FIFO status register has the status related to the mailbox internal FIFO"
bitfld.long 0x00 0. " FIFOFULLMBM     ,Full flag for Mailbox - . - ." "0,1"
group.long 0x5C++0x3
line.long 0x00 "MAILBOX_MESSAGE_m_7,The message register stores the next to be read message of the mailbox. Reads remove the message from the FIFO queue."
hexmask.long 0x00 0.--31. 1. " MESSAGEVALUEMBM ,Message in Mailbox"
rgroup.long 0xDC++0x3
line.long 0x00 "MAILBOX_MSGSTATUS_m_7,The message status register has the status of the messages in the mailbox."
bitfld.long 0x00 0.--2. " NBOFMSGMBM      ,Number of unread messages in Mailbox Note: Limited to four messages per mailbox." "0,1,2,3,4,5,6,7"
tree.end
textline ""
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. " SIDLEMODE ,Idle Mode - b00. - b01. - b10. - b11." "b00,b01,b10,b11"
bitfld.long 0x00 0. "       SOFTRESET ,Softreset - b0. - b0. - b1. - b1." "b0,b1"
wgroup.long 0x140++0x3
line.long 0x00 "MAILBOX_IRQ_EOI,This register is used for the software EOI clearance of the pulse. This register being write only gives 0 on read."
bitfld.long 0x00 0.--1. " EOIVAL    ,EOI value - B0. - B1." "B0,B1,2,3"
width 0x0B
tree.end
tree.end
tree.open "MMU"
tree.open "IPU2_MMU"
tree "IPU2_MMU"
base ad:0x55082000
width 18.
rgroup.long 0x0++0x3
line.long 0x00 "MMU_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION           ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MMU_SYSCONFIG,This register controls the various parameters of the OCP interface"
bitfld.long 0x00 8.--9. " CLOCKACTIVITY      ,Clock activity during wake-up mode - ." "0,1,2,3"
bitfld.long 0x00 3.--4. "                IDLEMODE       ,Idle mode - SFIDLE. - SNIDLE. - SSIDLE. - RES." "SFIDLE,SNIDLE,SSIDLE,RES"
bitfld.long 0x00 1. "      SOFTRESET      ,Software reset. This bit is automatically reset by the hardware. During reads, it always return 0 - NOFUN_W. - RSTMODE_W." "NOFUN_W,RSTMODE_W"
textline "                           "
bitfld.long 0x00 0. " AUTOIDLE           ,Internal OCP clock gating strategy - CLKFREE. - AUTOCLKGATE." "CLKFREE,AUTOCLKGATE"
rgroup.long 0x14++0x3
line.long 0x00 "MMU_SYSSTATUS,This register provides status information about the module, excluding the interrupt status information"
bitfld.long 0x00 0. " RESETDONE          ,Internal reset monitoring - RSTONGOING. - RSTCOMP." "RSTONGOING,RSTCOMP"
group.long 0x18++0x3
line.long 0x00 "MMU_IRQSTATUS,This interrupt status register regroups all the status of the module internal events that can generate an interrupt."
eventfld.long 0x00 4. " MULTIHITFAULT      ,Error due to multiple matches in the TLB - NMHF_R. - MHFSTAT_W. - RMHFSTAT_W. - MHF_R." "NMHF_R,RMHFSTAT_W"
eventfld.long 0x00 3. "       TABLEWALKFAULT ,Error response received during a Table Walk - NTWF_R. - TWFSTAT_W. - RTWFSTAT_W. - TWF_R." "NTWF_R,RTWFSTAT_W"
eventfld.long 0x00 2. "  EMUMISS        ,Unrecoverable TLB miss during debug (hardware TWL disabled) - NEMUM_R. - ESTAT_W. - RESTAT_W. - EMUM_R." "NEMUM_R,RESTAT_W"
textline "                           "
eventfld.long 0x00 1. " TRANSLATIONFAULT   ,Invalid descriptor in translation tables (translation fault) - NFAULT_R. - FSTAT_W. - RFSTAT_W. - FAULT_R." "NFAULT_R,RFSTAT_W"
eventfld.long 0x00 0. "         TLBMISS        ,Unrecoverable TLB miss (hardware TWL disabled) - NTLBM_R. - MSTAT_W. - RMSTAT_W. - TLBM_R." "NTLBM_R,RMSTAT_W"
group.long 0x1C++0x3
line.long 0x00 "MMU_IRQENABLE,The interrupt enable register allows to mask/unmask the module internal sources of interrupt, on a event-by-event basis."
bitfld.long 0x00 4. " MULTIHITFAULT      ,Error due to multiple matches in the TLB - MHFLTMASK. - MHFLTGINT." "MHFLTMASK,MHFLTGINT"
bitfld.long 0x00 3. "        TABLEWALKFAULT ,Error response received during a Table Walk - TWLFLTMASK. - TWLFLTGINT." "TWLFLTMASK,TWLFLTGINT"
bitfld.long 0x00 2. "  EMUMISS        ,Unrecoverable TLB miss during debug (hardware TWL disabled) - EMUMFLTMASK. - EMUMFLTGINT." "EMUMFLTMASK,EMUMFLTGINT"
textline "                           "
bitfld.long 0x00 1. " TRANSLATIONFAULT   ,Invalid descriptor in translation tables (translation fault) - TRANFLTMASK. - TRANFLTGINT." "TRANFLTMASK,TRANFLTGINT"
bitfld.long 0x00 0. "      TLBMISS        ,Unrecoverable TLB miss (hardware TWL disabled) - TRMISSINTM. - TRMISSGINT." "TRMISSINTM,TRMISSGINT"
rgroup.long 0x40++0x3
line.long 0x00 "MMU_WALKING_ST,This register provides status information about the table walking logic"
bitfld.long 0x00 0. " TWLRUNNING         ,Table Walking Logic is running - TWLCOMP. - TWLRUN." "TWLCOMP,TWLRUN"
group.long 0x44++0x3
line.long 0x00 "MMU_CNTL,This register programs the MMU features"
bitfld.long 0x00 3. " EMUTLBUPDATE       ,Enable TLB update on emulator table walk - EMUDIS. - EMUEN." "EMUDIS,EMUEN"
bitfld.long 0x00 2. "           TWLENABLE      ,Table Walking Logic enable - TWLDIS. - TWLEN." "TWLDIS,TWLEN"
bitfld.long 0x00 1. "      MMUENABLE      ,MMU enable - MMUDIS. - MMUEN." "MMUDIS,MMUEN"
rgroup.long 0x48++0x3
line.long 0x00 "MMU_FAULT_AD,This register contains the virtual address that generated the interrupt"
hexmask.long 0x00 0.--31. 1. " FAULTADDRESS       ,Virtual address of the access that generated a fault"
group.long 0x4C++0x3
line.long 0x00 "MMU_TTB,This register contains the Translation Table Base address"
hexmask.long 0x00 7.--31. 1. " TTBADDRESS         ,Translation Table Base Address"
group.long 0x50++0x3
line.long 0x00 "MMU_LOCK,This register locks some of the TLB entries"
bitfld.long 0x00 10.--14. " BASEVALUE          ,Locked entries base value." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 4.--8. "               CURRENTVICTIM  ,Current entry to be updated either by the TWL or by the software." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
wgroup.long 0x54++0x3
line.long 0x00 "MMU_LD_TLB,This register loads a TLB entry (CAM+RAM)"
bitfld.long 0x00 0. " LDTLBITEM          ,Write (load) data in the TLB. Reads return 0. - NOEFFECT_W. - LDTLB_W." "NOEFFECT_W,LDTLB_W"
group.long 0x58++0x3
line.long 0x00 "MMU_CAM,This register holds a CAM entry"
hexmask.long.tbyte 0x00 12.--31. 1. " VATAG              ,Virtual address tag"
bitfld.long 0x00 3. "           P              ,Preserved bit - CANFLUSH. - NOFLUSH." "CANFLUSH,NOFLUSH"
bitfld.long 0x00 2. "    V              ,Valid bit - INVALID. - VALID." "INVALID,VALID"
textline "                           "
bitfld.long 0x00 0.--1. " PAGESIZE           ,Page size - SECTION. - LARGE. - SMALL. - SUPER." "SECTION,LARGE,SMALL,SUPER"
group.long 0x5C++0x3
line.long 0x00 "MMU_RAM,This register contains bits [31:12] of the physical address to be written to a TLB entry pointed to by CURRENTVICTIM field of register."
hexmask.long.tbyte 0x00 12.--31. 1. " PHYSICALADDRESS    ,Physical address of the page"
wgroup.long 0x60++0x3
line.long 0x00 "MMU_GFLUSH,This register flushes all the non-protected TLB entries"
bitfld.long 0x00 0. " GLOBALFLUSH        ,Flush all the non-protected TLB entries when set. Reads return 0. - NFT_W. - FLUSH_W." "NFT_W,FLUSH_W"
wgroup.long 0x64++0x3
line.long 0x00 "MMU_FLUSH_ENTRY,This register flushes the entry pointed to by the CAM virtual address"
bitfld.long 0x00 0. " FLUSHENTRY         ,Flush the TLB entry pointed by the virtual address (VATag) inMMU_CAM register, even if this entry is set protected. Reads return 0. - NOFUN_W. - FLUSHTLB_W." "NOFUN_W,FLUSHTLB_W"
rgroup.long 0x68++0x3
line.long 0x00 "MMU_READ_CAM,This register reads CAM data from a CAM entry"
hexmask.long.tbyte 0x00 12.--31. 1. " VATAG              ,Virtual address tag"
bitfld.long 0x00 3. "           P              ,Preserved bit - CANFLUSH. - NOFLUSH." "CANFLUSH,NOFLUSH"
bitfld.long 0x00 2. "    V              ,Valid bit - INVALID. - VALID." "INVALID,VALID"
textline "                           "
bitfld.long 0x00 0.--1. " PAGESIZE           ,Page size - SECTION. - LARGE. - SMALL. - SUPER." "SECTION,LARGE,SMALL,SUPER"
rgroup.long 0x6C++0x3
line.long 0x00 "MMU_READ_RAM,This register reads bits [31:12] of the physical address from the TLB entry pointed to by CURRENTVICTIM field of the register."
hexmask.long.tbyte 0x00 12.--31. 1. " PHYSICALADDRESS    ,Physical address of the page"
rgroup.long 0x70++0x3
line.long 0x00 "MMU_EMU_FAULT_AD,This register contains the last virtual address of a fault caused by the debugger"
hexmask.long 0x00 0.--31. 1. " EMUFAULTADDRESS    ,Virtual address of the last emulator access that generated a fault"
rgroup.long 0x80++0x3
line.long 0x00 "MMU_FAULT_PC,Typically CPU program counter value of instruction generating MMU fault. The address value is captured at [31:0] EMUFAULTADDRESS. Data-Read-access : corresponding PC. Data-write-access : not perfect accuracy due to posted-write."
hexmask.long 0x00 0.--31. 1. " PC                 ,Typically CPU program counter value of instruction generating MMU fault"
group.long 0x84++0x3
line.long 0x00 "MMU_FAULT_STATUS,Fault status register"
bitfld.long 0x00 4.--8. " MMU_FAULT_TRANS_ID ,MtagID of the transaction that caused fault" "DMA_RD1,DMA_RD2,DMA_WR1,DMA_WR2,CACHE_MISC,CACHE_CPU,CACHE_DMA,7,MMU_HW_TBL_WALK,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  RD_WR          ,Indicates read or write - WRITE. - READ." "WRITE,READ"
bitfld.long 0x00 1.--2. "       MMU_FAULT_TYPE ,MReqInfo[1:0] is captured as fault type" "LD_ST,FETCH,DMA,3"
textline "                           "
eventfld.long 0x00 0. " FAULTINDICATION    ,Indicates an MMU fault" "0,1"
group.long 0x88++0x3
line.long 0x00 "MMU_GPR,General purpose register"
hexmask.long.word 0x00 16.--31. 1. " GPO                ,General purpose output sent out as MMU output"
bitfld.long 0x00 0. "             FAULT_INTR_DIS ,Disable generation of interrupt on fault. Error response is returned instead on the slave port" "0,1"
width 0x0B
tree.end
tree "IPU1_MMU"
base ad:0x58882000
width 18.
rgroup.long 0x0++0x3
line.long 0x00 "MMU_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION           ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MMU_SYSCONFIG,This register controls the various parameters of the OCP interface"
bitfld.long 0x00 8.--9. " CLOCKACTIVITY      ,Clock activity during wake-up mode - ." "0,1,2,3"
bitfld.long 0x00 3.--4. "                IDLEMODE       ,Idle mode - SFIDLE. - SNIDLE. - SSIDLE. - RES." "SFIDLE,SNIDLE,SSIDLE,RES"
bitfld.long 0x00 1. "      SOFTRESET      ,Software reset. This bit is automatically reset by the hardware. During reads, it always return 0 - NOFUN_W. - RSTMODE_W." "NOFUN_W,RSTMODE_W"
textline "                           "
bitfld.long 0x00 0. " AUTOIDLE           ,Internal OCP clock gating strategy - CLKFREE. - AUTOCLKGATE." "CLKFREE,AUTOCLKGATE"
rgroup.long 0x14++0x3
line.long 0x00 "MMU_SYSSTATUS,This register provides status information about the module, excluding the interrupt status information"
bitfld.long 0x00 0. " RESETDONE          ,Internal reset monitoring - RSTONGOING. - RSTCOMP." "RSTONGOING,RSTCOMP"
group.long 0x18++0x3
line.long 0x00 "MMU_IRQSTATUS,This interrupt status register regroups all the status of the module internal events that can generate an interrupt."
eventfld.long 0x00 4. " MULTIHITFAULT      ,Error due to multiple matches in the TLB - NMHF_R. - MHFSTAT_W. - RMHFSTAT_W. - MHF_R." "NMHF_R,RMHFSTAT_W"
eventfld.long 0x00 3. "       TABLEWALKFAULT ,Error response received during a Table Walk - NTWF_R. - TWFSTAT_W. - RTWFSTAT_W. - TWF_R." "NTWF_R,RTWFSTAT_W"
eventfld.long 0x00 2. "  EMUMISS        ,Unrecoverable TLB miss during debug (hardware TWL disabled) - NEMUM_R. - ESTAT_W. - RESTAT_W. - EMUM_R." "NEMUM_R,RESTAT_W"
textline "                           "
eventfld.long 0x00 1. " TRANSLATIONFAULT   ,Invalid descriptor in translation tables (translation fault) - NFAULT_R. - FSTAT_W. - RFSTAT_W. - FAULT_R." "NFAULT_R,RFSTAT_W"
eventfld.long 0x00 0. "         TLBMISS        ,Unrecoverable TLB miss (hardware TWL disabled) - NTLBM_R. - MSTAT_W. - RMSTAT_W. - TLBM_R." "NTLBM_R,RMSTAT_W"
group.long 0x1C++0x3
line.long 0x00 "MMU_IRQENABLE,The interrupt enable register allows to mask/unmask the module internal sources of interrupt, on a event-by-event basis."
bitfld.long 0x00 4. " MULTIHITFAULT      ,Error due to multiple matches in the TLB - MHFLTMASK. - MHFLTGINT." "MHFLTMASK,MHFLTGINT"
bitfld.long 0x00 3. "        TABLEWALKFAULT ,Error response received during a Table Walk - TWLFLTMASK. - TWLFLTGINT." "TWLFLTMASK,TWLFLTGINT"
bitfld.long 0x00 2. "  EMUMISS        ,Unrecoverable TLB miss during debug (hardware TWL disabled) - EMUMFLTMASK. - EMUMFLTGINT." "EMUMFLTMASK,EMUMFLTGINT"
textline "                           "
bitfld.long 0x00 1. " TRANSLATIONFAULT   ,Invalid descriptor in translation tables (translation fault) - TRANFLTMASK. - TRANFLTGINT." "TRANFLTMASK,TRANFLTGINT"
bitfld.long 0x00 0. "      TLBMISS        ,Unrecoverable TLB miss (hardware TWL disabled) - TRMISSINTM. - TRMISSGINT." "TRMISSINTM,TRMISSGINT"
rgroup.long 0x40++0x3
line.long 0x00 "MMU_WALKING_ST,This register provides status information about the table walking logic"
bitfld.long 0x00 0. " TWLRUNNING         ,Table Walking Logic is running - TWLCOMP. - TWLRUN." "TWLCOMP,TWLRUN"
group.long 0x44++0x3
line.long 0x00 "MMU_CNTL,This register programs the MMU features"
bitfld.long 0x00 3. " EMUTLBUPDATE       ,Enable TLB update on emulator table walk - EMUDIS. - EMUEN." "EMUDIS,EMUEN"
bitfld.long 0x00 2. "           TWLENABLE      ,Table Walking Logic enable - TWLDIS. - TWLEN." "TWLDIS,TWLEN"
bitfld.long 0x00 1. "      MMUENABLE      ,MMU enable - MMUDIS. - MMUEN." "MMUDIS,MMUEN"
rgroup.long 0x48++0x3
line.long 0x00 "MMU_FAULT_AD,This register contains the virtual address that generated the interrupt"
hexmask.long 0x00 0.--31. 1. " FAULTADDRESS       ,Virtual address of the access that generated a fault"
group.long 0x4C++0x3
line.long 0x00 "MMU_TTB,This register contains the Translation Table Base address"
hexmask.long 0x00 7.--31. 1. " TTBADDRESS         ,Translation Table Base Address"
group.long 0x50++0x3
line.long 0x00 "MMU_LOCK,This register locks some of the TLB entries"
bitfld.long 0x00 10.--14. " BASEVALUE          ,Locked entries base value." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 4.--8. "               CURRENTVICTIM  ,Current entry to be updated either by the TWL or by the software." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
wgroup.long 0x54++0x3
line.long 0x00 "MMU_LD_TLB,This register loads a TLB entry (CAM+RAM)"
bitfld.long 0x00 0. " LDTLBITEM          ,Write (load) data in the TLB. Reads return 0. - NOEFFECT_W. - LDTLB_W." "NOEFFECT_W,LDTLB_W"
group.long 0x58++0x3
line.long 0x00 "MMU_CAM,This register holds a CAM entry"
hexmask.long.tbyte 0x00 12.--31. 1. " VATAG              ,Virtual address tag"
bitfld.long 0x00 3. "           P              ,Preserved bit - CANFLUSH. - NOFLUSH." "CANFLUSH,NOFLUSH"
bitfld.long 0x00 2. "    V              ,Valid bit - INVALID. - VALID." "INVALID,VALID"
textline "                           "
bitfld.long 0x00 0.--1. " PAGESIZE           ,Page size - SECTION. - LARGE. - SMALL. - SUPER." "SECTION,LARGE,SMALL,SUPER"
group.long 0x5C++0x3
line.long 0x00 "MMU_RAM,This register contains bits [31:12] of the physical address to be written to a TLB entry pointed to by CURRENTVICTIM field of register."
hexmask.long.tbyte 0x00 12.--31. 1. " PHYSICALADDRESS    ,Physical address of the page"
wgroup.long 0x60++0x3
line.long 0x00 "MMU_GFLUSH,This register flushes all the non-protected TLB entries"
bitfld.long 0x00 0. " GLOBALFLUSH        ,Flush all the non-protected TLB entries when set. Reads return 0. - NFT_W. - FLUSH_W." "NFT_W,FLUSH_W"
wgroup.long 0x64++0x3
line.long 0x00 "MMU_FLUSH_ENTRY,This register flushes the entry pointed to by the CAM virtual address"
bitfld.long 0x00 0. " FLUSHENTRY         ,Flush the TLB entry pointed by the virtual address (VATag) inMMU_CAM register, even if this entry is set protected. Reads return 0. - NOFUN_W. - FLUSHTLB_W." "NOFUN_W,FLUSHTLB_W"
rgroup.long 0x68++0x3
line.long 0x00 "MMU_READ_CAM,This register reads CAM data from a CAM entry"
hexmask.long.tbyte 0x00 12.--31. 1. " VATAG              ,Virtual address tag"
bitfld.long 0x00 3. "           P              ,Preserved bit - CANFLUSH. - NOFLUSH." "CANFLUSH,NOFLUSH"
bitfld.long 0x00 2. "    V              ,Valid bit - INVALID. - VALID." "INVALID,VALID"
textline "                           "
bitfld.long 0x00 0.--1. " PAGESIZE           ,Page size - SECTION. - LARGE. - SMALL. - SUPER." "SECTION,LARGE,SMALL,SUPER"
rgroup.long 0x6C++0x3
line.long 0x00 "MMU_READ_RAM,This register reads bits [31:12] of the physical address from the TLB entry pointed to by CURRENTVICTIM field of the register."
hexmask.long.tbyte 0x00 12.--31. 1. " PHYSICALADDRESS    ,Physical address of the page"
rgroup.long 0x70++0x3
line.long 0x00 "MMU_EMU_FAULT_AD,This register contains the last virtual address of a fault caused by the debugger"
hexmask.long 0x00 0.--31. 1. " EMUFAULTADDRESS    ,Virtual address of the last emulator access that generated a fault"
rgroup.long 0x80++0x3
line.long 0x00 "MMU_FAULT_PC,Typically CPU program counter value of instruction generating MMU fault. The address value is captured at [31:0] EMUFAULTADDRESS. Data-Read-access : corresponding PC. Data-write-access : not perfect accuracy due to posted-write."
hexmask.long 0x00 0.--31. 1. " PC                 ,Typically CPU program counter value of instruction generating MMU fault"
group.long 0x84++0x3
line.long 0x00 "MMU_FAULT_STATUS,Fault status register"
bitfld.long 0x00 4.--8. " MMU_FAULT_TRANS_ID ,MtagID of the transaction that caused fault" "DMA_RD1,DMA_RD2,DMA_WR1,DMA_WR2,CACHE_MISC,CACHE_CPU,CACHE_DMA,7,MMU_HW_TBL_WALK,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  RD_WR          ,Indicates read or write - WRITE. - READ." "WRITE,READ"
bitfld.long 0x00 1.--2. "       MMU_FAULT_TYPE ,MReqInfo[1:0] is captured as fault type" "LD_ST,FETCH,DMA,3"
textline "                           "
eventfld.long 0x00 0. " FAULTINDICATION    ,Indicates an MMU fault" "0,1"
group.long 0x88++0x3
line.long 0x00 "MMU_GPR,General purpose register"
hexmask.long.word 0x00 16.--31. 1. " GPO                ,General purpose output sent out as MMU output"
bitfld.long 0x00 0. "             FAULT_INTR_DIS ,Disable generation of interrupt on fault. Error response is returned instead on the slave port" "0,1"
width 0x0B
tree.end
tree.end
tree.open "DSP1_MMU0"
tree "DSP1_MMU0"
base ad:0x40D01000
width 25.
rgroup.long 0x0++0x3
line.long 0x00 "MMU_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION           ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MMU_SYSCONFIG,This register controls the various parameters of the OCP interface"
bitfld.long 0x00 8.--9. " CLOCKACTIVITY      ,Clock activity during wake-up mode - ." "0,1,2,3"
bitfld.long 0x00 3.--4. "                IDLEMODE       ,Idle mode - SFIDLE. - SNIDLE. - SSIDLE. - RES." "SFIDLE,SNIDLE,SSIDLE,RES"
bitfld.long 0x00 1. "      SOFTRESET      ,Software reset. This bit is automatically reset by the hardware. During reads, it always return 0 - NOFUN_W. - RSTMODE_W." "NOFUN_W,RSTMODE_W"
textline "                                  "
bitfld.long 0x00 0. " AUTOIDLE           ,Internal OCP clock gating strategy - CLKFREE. - AUTOCLKGATE." "CLKFREE,AUTOCLKGATE"
rgroup.long 0x14++0x3
line.long 0x00 "MMU_SYSSTATUS,This register provides status information about the module, excluding the interrupt status information"
bitfld.long 0x00 0. " RESETDONE          ,Internal reset monitoring - RSTONGOING. - RSTCOMP." "RSTONGOING,RSTCOMP"
group.long 0x18++0x3
line.long 0x00 "MMU_IRQSTATUS,This interrupt status register regroups all the status of the module internal events that can generate an interrupt."
eventfld.long 0x00 4. " MULTIHITFAULT      ,Error due to multiple matches in the TLB - NMHF_R. - MHFSTAT_W. - RMHFSTAT_W. - MHF_R." "NMHF_R,RMHFSTAT_W"
eventfld.long 0x00 3. "       TABLEWALKFAULT ,Error response received during a Table Walk - NTWF_R. - TWFSTAT_W. - RTWFSTAT_W. - TWF_R." "NTWF_R,RTWFSTAT_W"
eventfld.long 0x00 2. "  EMUMISS        ,Unrecoverable TLB miss during debug (hardware TWL disabled) - NEMUM_R. - ESTAT_W. - RESTAT_W. - EMUM_R." "NEMUM_R,RESTAT_W"
textline "                                  "
eventfld.long 0x00 1. " TRANSLATIONFAULT   ,Invalid descriptor in translation tables (translation fault) - NFAULT_R. - FSTAT_W. - RFSTAT_W. - FAULT_R." "NFAULT_R,RFSTAT_W"
eventfld.long 0x00 0. "         TLBMISS        ,Unrecoverable TLB miss (hardware TWL disabled) - NTLBM_R. - MSTAT_W. - RMSTAT_W. - TLBM_R." "NTLBM_R,RMSTAT_W"
group.long 0x1C++0x3
line.long 0x00 "MMU_IRQENABLE,The interrupt enable register allows to mask/unmask the module internal sources of interrupt, on a event-by-event basis."
bitfld.long 0x00 4. " MULTIHITFAULT      ,Error due to multiple matches in the TLB - MHFLTMASK. - MHFLTGINT." "MHFLTMASK,MHFLTGINT"
bitfld.long 0x00 3. "        TABLEWALKFAULT ,Error response received during a Table Walk - TWLFLTMASK. - TWLFLTGINT." "TWLFLTMASK,TWLFLTGINT"
bitfld.long 0x00 2. "  EMUMISS        ,Unrecoverable TLB miss during debug (hardware TWL disabled) - EMUMFLTMASK. - EMUMFLTGINT." "EMUMFLTMASK,EMUMFLTGINT"
textline "                                  "
bitfld.long 0x00 1. " TRANSLATIONFAULT   ,Invalid descriptor in translation tables (translation fault) - TRANFLTMASK. - TRANFLTGINT." "TRANFLTMASK,TRANFLTGINT"
bitfld.long 0x00 0. "      TLBMISS        ,Unrecoverable TLB miss (hardware TWL disabled) - TRMISSINTM. - TRMISSGINT." "TRMISSINTM,TRMISSGINT"
rgroup.long 0x40++0x3
line.long 0x00 "MMU_WALKING_ST,This register provides status information about the table walking logic"
bitfld.long 0x00 0. " TWLRUNNING         ,Table Walking Logic is running - TWLCOMP. - TWLRUN." "TWLCOMP,TWLRUN"
group.long 0x44++0x3
line.long 0x00 "MMU_CNTL,This register programs the MMU features"
bitfld.long 0x00 3. " EMUTLBUPDATE       ,Enable TLB update on emulator table walk - EMUDIS. - EMUEN." "EMUDIS,EMUEN"
bitfld.long 0x00 2. "           TWLENABLE      ,Table Walking Logic enable - TWLDIS. - TWLEN." "TWLDIS,TWLEN"
bitfld.long 0x00 1. "      MMUENABLE      ,MMU enable - MMUDIS. - MMUEN." "MMUDIS,MMUEN"
rgroup.long 0x48++0x3
line.long 0x00 "MMU_FAULT_AD,This register contains the virtual address that generated the interrupt"
hexmask.long 0x00 0.--31. 1. " FAULTADDRESS       ,Virtual address of the access that generated a fault"
group.long 0x4C++0x3
line.long 0x00 "MMU_TTB,This register contains the Translation Table Base address"
hexmask.long 0x00 7.--31. 1. " TTBADDRESS         ,Translation Table Base Address"
group.long 0x50++0x3
line.long 0x00 "MMU_LOCK,This register locks some of the TLB entries"
bitfld.long 0x00 10.--14. " BASEVALUE          ,Locked entries base value." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 4.--8. "               CURRENTVICTIM  ,Current entry to be updated either by the TWL or by the software." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
wgroup.long 0x54++0x3
line.long 0x00 "MMU_LD_TLB,This register loads a TLB entry (CAM+RAM)"
bitfld.long 0x00 0. " LDTLBITEM          ,Write (load) data in the TLB. Reads return 0. - NOEFFECT_W. - LDTLB_W." "NOEFFECT_W,LDTLB_W"
group.long 0x58++0x3
line.long 0x00 "MMU_CAM,This register holds a CAM entry"
hexmask.long.tbyte 0x00 12.--31. 1. " VATAG              ,Virtual address tag"
bitfld.long 0x00 3. "           P              ,Preserved bit - CANFLUSH. - NOFLUSH." "CANFLUSH,NOFLUSH"
bitfld.long 0x00 2. "    V              ,Valid bit - INVALID. - VALID." "INVALID,VALID"
textline "                                  "
bitfld.long 0x00 0.--1. " PAGESIZE           ,Page size - SECTION. - LARGE. - SMALL. - SUPER." "SECTION,LARGE,SMALL,SUPER"
group.long 0x5C++0x3
line.long 0x00 "MMU_RAM,This register contains bits [31:12] of the physical address to be written to a TLB entry pointed to by CURRENTVICTIM field of register."
hexmask.long.tbyte 0x00 12.--31. 1. " PHYSICALADDRESS    ,Physical address of the page"
wgroup.long 0x60++0x3
line.long 0x00 "MMU_GFLUSH,This register flushes all the non-protected TLB entries"
bitfld.long 0x00 0. " GLOBALFLUSH        ,Flush all the non-protected TLB entries when set. Reads return 0. - NFT_W. - FLUSH_W." "NFT_W,FLUSH_W"
wgroup.long 0x64++0x3
line.long 0x00 "MMU_FLUSH_ENTRY,This register flushes the entry pointed to by the CAM virtual address"
bitfld.long 0x00 0. " FLUSHENTRY         ,Flush the TLB entry pointed by the virtual address (VATag) inMMU_CAM register, even if this entry is set protected. Reads return 0. - NOFUN_W. - FLUSHTLB_W." "NOFUN_W,FLUSHTLB_W"
rgroup.long 0x68++0x3
line.long 0x00 "MMU_READ_CAM,This register reads CAM data from a CAM entry"
hexmask.long.tbyte 0x00 12.--31. 1. " VATAG              ,Virtual address tag"
bitfld.long 0x00 3. "           P              ,Preserved bit - CANFLUSH. - NOFLUSH." "CANFLUSH,NOFLUSH"
bitfld.long 0x00 2. "    V              ,Valid bit - INVALID. - VALID." "INVALID,VALID"
textline "                                  "
bitfld.long 0x00 0.--1. " PAGESIZE           ,Page size - SECTION. - LARGE. - SMALL. - SUPER." "SECTION,LARGE,SMALL,SUPER"
rgroup.long 0x6C++0x3
line.long 0x00 "MMU_READ_RAM,This register reads bits [31:12] of the physical address from the TLB entry pointed to by CURRENTVICTIM field of the register."
hexmask.long.tbyte 0x00 12.--31. 1. " PHYSICALADDRESS    ,Physical address of the page"
rgroup.long 0x70++0x3
line.long 0x00 "MMU_EMU_FAULT_AD,This register contains the last virtual address of a fault caused by the debugger"
hexmask.long 0x00 0.--31. 1. " EMUFAULTADDRESS    ,Virtual address of the last emulator access that generated a fault"
rgroup.long 0x80++0x3
line.long 0x00 "MMU_FAULT_PC,Typically CPU program counter value of instruction generating MMU fault. The address value is captured at [31:0] EMUFAULTADDRESS. Data-Read-access : corresponding PC. Data-write-access : not perfect accuracy due to posted-write."
hexmask.long 0x00 0.--31. 1. " PC                 ,Typically CPU program counter value of instruction generating MMU fault"
group.long 0x84++0x3
line.long 0x00 "MMU_FAULT_STATUS,Fault status register"
bitfld.long 0x00 4.--8. " MMU_FAULT_TRANS_ID ,MtagID of the transaction that caused fault" "DMA_RD1,DMA_RD2,DMA_WR1,DMA_WR2,CACHE_MISC,CACHE_CPU,CACHE_DMA,7,MMU_HW_TBL_WALK,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  RD_WR          ,Indicates read or write - WRITE. - READ." "WRITE,READ"
bitfld.long 0x00 1.--2. "       MMU_FAULT_TYPE ,MReqInfo[1:0] is captured as fault type" "LD_ST,FETCH,DMA,3"
textline "                                  "
eventfld.long 0x00 0. " FAULTINDICATION    ,Indicates an MMU fault" "0,1"
group.long 0x88++0x3
line.long 0x00 "MMU_GPR,General purpose register"
hexmask.long.word 0x00 16.--31. 1. " GPO                ,General purpose output sent out as MMU output"
bitfld.long 0x00 0. "             FAULT_INTR_DIS ,Disable generation of interrupt on fault. Error response is returned instead on the slave port" "0,1"
group.long 0x90++0x3
line.long 0x00 "MMU_BYPASS_REGION1_ADDR,This register contains the start address of the first NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION1_SIZE"
group.long 0x94++0x3
line.long 0x00 "MMU_BYPASS_REGION1_SIZE,This register contains the size of first NO TRANSLATION REGION for"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x98++0x3
line.long 0x00 "MMU_BYPASS_REGION2_ADDR,This register contains the start address of the second NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0x9C++0x3
line.long 0x00 "MMU_BYPASS_REGION2_SIZE,This register contains the size of second NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA0++0x3
line.long 0x00 "MMU_BYPASS_REGION3_ADDR,This register contains the start address of the third NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0xA4++0x3
line.long 0x00 "MMU_BYPASS_REGION3_SIZE,This register contains the size of third NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA8++0x3
line.long 0x00 "MMU_BYPASS_REGION4_ADDR,This register contains the start address of the fourth NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0xAC++0x3
line.long 0x00 "MMU_BYPASS_REGION4_SIZE,This register contains the size of fourth NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree "DSP1_MMU1"
base ad:0x40D02000
width 25.
rgroup.long 0x0++0x3
line.long 0x00 "MMU_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION           ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MMU_SYSCONFIG,This register controls the various parameters of the OCP interface"
bitfld.long 0x00 8.--9. " CLOCKACTIVITY      ,Clock activity during wake-up mode - ." "0,1,2,3"
bitfld.long 0x00 3.--4. "                IDLEMODE       ,Idle mode - SFIDLE. - SNIDLE. - SSIDLE. - RES." "SFIDLE,SNIDLE,SSIDLE,RES"
bitfld.long 0x00 1. "      SOFTRESET      ,Software reset. This bit is automatically reset by the hardware. During reads, it always return 0 - NOFUN_W. - RSTMODE_W." "NOFUN_W,RSTMODE_W"
textline "                                  "
bitfld.long 0x00 0. " AUTOIDLE           ,Internal OCP clock gating strategy - CLKFREE. - AUTOCLKGATE." "CLKFREE,AUTOCLKGATE"
rgroup.long 0x14++0x3
line.long 0x00 "MMU_SYSSTATUS,This register provides status information about the module, excluding the interrupt status information"
bitfld.long 0x00 0. " RESETDONE          ,Internal reset monitoring - RSTONGOING. - RSTCOMP." "RSTONGOING,RSTCOMP"
group.long 0x18++0x3
line.long 0x00 "MMU_IRQSTATUS,This interrupt status register regroups all the status of the module internal events that can generate an interrupt."
eventfld.long 0x00 4. " MULTIHITFAULT      ,Error due to multiple matches in the TLB - NMHF_R. - MHFSTAT_W. - RMHFSTAT_W. - MHF_R." "NMHF_R,RMHFSTAT_W"
eventfld.long 0x00 3. "       TABLEWALKFAULT ,Error response received during a Table Walk - NTWF_R. - TWFSTAT_W. - RTWFSTAT_W. - TWF_R." "NTWF_R,RTWFSTAT_W"
eventfld.long 0x00 2. "  EMUMISS        ,Unrecoverable TLB miss during debug (hardware TWL disabled) - NEMUM_R. - ESTAT_W. - RESTAT_W. - EMUM_R." "NEMUM_R,RESTAT_W"
textline "                                  "
eventfld.long 0x00 1. " TRANSLATIONFAULT   ,Invalid descriptor in translation tables (translation fault) - NFAULT_R. - FSTAT_W. - RFSTAT_W. - FAULT_R." "NFAULT_R,RFSTAT_W"
eventfld.long 0x00 0. "         TLBMISS        ,Unrecoverable TLB miss (hardware TWL disabled) - NTLBM_R. - MSTAT_W. - RMSTAT_W. - TLBM_R." "NTLBM_R,RMSTAT_W"
group.long 0x1C++0x3
line.long 0x00 "MMU_IRQENABLE,The interrupt enable register allows to mask/unmask the module internal sources of interrupt, on a event-by-event basis."
bitfld.long 0x00 4. " MULTIHITFAULT      ,Error due to multiple matches in the TLB - MHFLTMASK. - MHFLTGINT." "MHFLTMASK,MHFLTGINT"
bitfld.long 0x00 3. "        TABLEWALKFAULT ,Error response received during a Table Walk - TWLFLTMASK. - TWLFLTGINT." "TWLFLTMASK,TWLFLTGINT"
bitfld.long 0x00 2. "  EMUMISS        ,Unrecoverable TLB miss during debug (hardware TWL disabled) - EMUMFLTMASK. - EMUMFLTGINT." "EMUMFLTMASK,EMUMFLTGINT"
textline "                                  "
bitfld.long 0x00 1. " TRANSLATIONFAULT   ,Invalid descriptor in translation tables (translation fault) - TRANFLTMASK. - TRANFLTGINT." "TRANFLTMASK,TRANFLTGINT"
bitfld.long 0x00 0. "      TLBMISS        ,Unrecoverable TLB miss (hardware TWL disabled) - TRMISSINTM. - TRMISSGINT." "TRMISSINTM,TRMISSGINT"
rgroup.long 0x40++0x3
line.long 0x00 "MMU_WALKING_ST,This register provides status information about the table walking logic"
bitfld.long 0x00 0. " TWLRUNNING         ,Table Walking Logic is running - TWLCOMP. - TWLRUN." "TWLCOMP,TWLRUN"
group.long 0x44++0x3
line.long 0x00 "MMU_CNTL,This register programs the MMU features"
bitfld.long 0x00 3. " EMUTLBUPDATE       ,Enable TLB update on emulator table walk - EMUDIS. - EMUEN." "EMUDIS,EMUEN"
bitfld.long 0x00 2. "           TWLENABLE      ,Table Walking Logic enable - TWLDIS. - TWLEN." "TWLDIS,TWLEN"
bitfld.long 0x00 1. "      MMUENABLE      ,MMU enable - MMUDIS. - MMUEN." "MMUDIS,MMUEN"
rgroup.long 0x48++0x3
line.long 0x00 "MMU_FAULT_AD,This register contains the virtual address that generated the interrupt"
hexmask.long 0x00 0.--31. 1. " FAULTADDRESS       ,Virtual address of the access that generated a fault"
group.long 0x4C++0x3
line.long 0x00 "MMU_TTB,This register contains the Translation Table Base address"
hexmask.long 0x00 7.--31. 1. " TTBADDRESS         ,Translation Table Base Address"
group.long 0x50++0x3
line.long 0x00 "MMU_LOCK,This register locks some of the TLB entries"
bitfld.long 0x00 10.--14. " BASEVALUE          ,Locked entries base value." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 4.--8. "               CURRENTVICTIM  ,Current entry to be updated either by the TWL or by the software." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
wgroup.long 0x54++0x3
line.long 0x00 "MMU_LD_TLB,This register loads a TLB entry (CAM+RAM)"
bitfld.long 0x00 0. " LDTLBITEM          ,Write (load) data in the TLB. Reads return 0. - NOEFFECT_W. - LDTLB_W." "NOEFFECT_W,LDTLB_W"
group.long 0x58++0x3
line.long 0x00 "MMU_CAM,This register holds a CAM entry"
hexmask.long.tbyte 0x00 12.--31. 1. " VATAG              ,Virtual address tag"
bitfld.long 0x00 3. "           P              ,Preserved bit - CANFLUSH. - NOFLUSH." "CANFLUSH,NOFLUSH"
bitfld.long 0x00 2. "    V              ,Valid bit - INVALID. - VALID." "INVALID,VALID"
textline "                                  "
bitfld.long 0x00 0.--1. " PAGESIZE           ,Page size - SECTION. - LARGE. - SMALL. - SUPER." "SECTION,LARGE,SMALL,SUPER"
group.long 0x5C++0x3
line.long 0x00 "MMU_RAM,This register contains bits [31:12] of the physical address to be written to a TLB entry pointed to by CURRENTVICTIM field of register."
hexmask.long.tbyte 0x00 12.--31. 1. " PHYSICALADDRESS    ,Physical address of the page"
wgroup.long 0x60++0x3
line.long 0x00 "MMU_GFLUSH,This register flushes all the non-protected TLB entries"
bitfld.long 0x00 0. " GLOBALFLUSH        ,Flush all the non-protected TLB entries when set. Reads return 0. - NFT_W. - FLUSH_W." "NFT_W,FLUSH_W"
wgroup.long 0x64++0x3
line.long 0x00 "MMU_FLUSH_ENTRY,This register flushes the entry pointed to by the CAM virtual address"
bitfld.long 0x00 0. " FLUSHENTRY         ,Flush the TLB entry pointed by the virtual address (VATag) inMMU_CAM register, even if this entry is set protected. Reads return 0. - NOFUN_W. - FLUSHTLB_W." "NOFUN_W,FLUSHTLB_W"
rgroup.long 0x68++0x3
line.long 0x00 "MMU_READ_CAM,This register reads CAM data from a CAM entry"
hexmask.long.tbyte 0x00 12.--31. 1. " VATAG              ,Virtual address tag"
bitfld.long 0x00 3. "           P              ,Preserved bit - CANFLUSH. - NOFLUSH." "CANFLUSH,NOFLUSH"
bitfld.long 0x00 2. "    V              ,Valid bit - INVALID. - VALID." "INVALID,VALID"
textline "                                  "
bitfld.long 0x00 0.--1. " PAGESIZE           ,Page size - SECTION. - LARGE. - SMALL. - SUPER." "SECTION,LARGE,SMALL,SUPER"
rgroup.long 0x6C++0x3
line.long 0x00 "MMU_READ_RAM,This register reads bits [31:12] of the physical address from the TLB entry pointed to by CURRENTVICTIM field of the register."
hexmask.long.tbyte 0x00 12.--31. 1. " PHYSICALADDRESS    ,Physical address of the page"
rgroup.long 0x70++0x3
line.long 0x00 "MMU_EMU_FAULT_AD,This register contains the last virtual address of a fault caused by the debugger"
hexmask.long 0x00 0.--31. 1. " EMUFAULTADDRESS    ,Virtual address of the last emulator access that generated a fault"
rgroup.long 0x80++0x3
line.long 0x00 "MMU_FAULT_PC,Typically CPU program counter value of instruction generating MMU fault. The address value is captured at [31:0] EMUFAULTADDRESS. Data-Read-access : corresponding PC. Data-write-access : not perfect accuracy due to posted-write."
hexmask.long 0x00 0.--31. 1. " PC                 ,Typically CPU program counter value of instruction generating MMU fault"
group.long 0x84++0x3
line.long 0x00 "MMU_FAULT_STATUS,Fault status register"
bitfld.long 0x00 4.--8. " MMU_FAULT_TRANS_ID ,MtagID of the transaction that caused fault" "DMA_RD1,DMA_RD2,DMA_WR1,DMA_WR2,CACHE_MISC,CACHE_CPU,CACHE_DMA,7,MMU_HW_TBL_WALK,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  RD_WR          ,Indicates read or write - WRITE. - READ." "WRITE,READ"
bitfld.long 0x00 1.--2. "       MMU_FAULT_TYPE ,MReqInfo[1:0] is captured as fault type" "LD_ST,FETCH,DMA,3"
textline "                                  "
eventfld.long 0x00 0. " FAULTINDICATION    ,Indicates an MMU fault" "0,1"
group.long 0x88++0x3
line.long 0x00 "MMU_GPR,General purpose register"
hexmask.long.word 0x00 16.--31. 1. " GPO                ,General purpose output sent out as MMU output"
bitfld.long 0x00 0. "             FAULT_INTR_DIS ,Disable generation of interrupt on fault. Error response is returned instead on the slave port" "0,1"
group.long 0x90++0x3
line.long 0x00 "MMU_BYPASS_REGION1_ADDR,This register contains the start address of the first NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION1_SIZE"
group.long 0x94++0x3
line.long 0x00 "MMU_BYPASS_REGION1_SIZE,This register contains the size of first NO TRANSLATION REGION for"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x98++0x3
line.long 0x00 "MMU_BYPASS_REGION2_ADDR,This register contains the start address of the second NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0x9C++0x3
line.long 0x00 "MMU_BYPASS_REGION2_SIZE,This register contains the size of second NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA0++0x3
line.long 0x00 "MMU_BYPASS_REGION3_ADDR,This register contains the start address of the third NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0xA4++0x3
line.long 0x00 "MMU_BYPASS_REGION3_SIZE,This register contains the size of third NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA8++0x3
line.long 0x00 "MMU_BYPASS_REGION4_ADDR,This register contains the start address of the fourth NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0xAC++0x3
line.long 0x00 "MMU_BYPASS_REGION4_SIZE,This register contains the size of fourth NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree "DSP2_MMU0"
base ad:0x41501000
width 25.
rgroup.long 0x0++0x3
line.long 0x00 "MMU_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION           ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MMU_SYSCONFIG,This register controls the various parameters of the OCP interface"
bitfld.long 0x00 8.--9. " CLOCKACTIVITY      ,Clock activity during wake-up mode - ." "0,1,2,3"
bitfld.long 0x00 3.--4. "                IDLEMODE       ,Idle mode - SFIDLE. - SNIDLE. - SSIDLE. - RES." "SFIDLE,SNIDLE,SSIDLE,RES"
bitfld.long 0x00 1. "      SOFTRESET      ,Software reset. This bit is automatically reset by the hardware. During reads, it always return 0 - NOFUN_W. - RSTMODE_W." "NOFUN_W,RSTMODE_W"
textline "                                  "
bitfld.long 0x00 0. " AUTOIDLE           ,Internal OCP clock gating strategy - CLKFREE. - AUTOCLKGATE." "CLKFREE,AUTOCLKGATE"
rgroup.long 0x14++0x3
line.long 0x00 "MMU_SYSSTATUS,This register provides status information about the module, excluding the interrupt status information"
bitfld.long 0x00 0. " RESETDONE          ,Internal reset monitoring - RSTONGOING. - RSTCOMP." "RSTONGOING,RSTCOMP"
group.long 0x18++0x3
line.long 0x00 "MMU_IRQSTATUS,This interrupt status register regroups all the status of the module internal events that can generate an interrupt."
eventfld.long 0x00 4. " MULTIHITFAULT      ,Error due to multiple matches in the TLB - NMHF_R. - MHFSTAT_W. - RMHFSTAT_W. - MHF_R." "NMHF_R,RMHFSTAT_W"
eventfld.long 0x00 3. "       TABLEWALKFAULT ,Error response received during a Table Walk - NTWF_R. - TWFSTAT_W. - RTWFSTAT_W. - TWF_R." "NTWF_R,RTWFSTAT_W"
eventfld.long 0x00 2. "  EMUMISS        ,Unrecoverable TLB miss during debug (hardware TWL disabled) - NEMUM_R. - ESTAT_W. - RESTAT_W. - EMUM_R." "NEMUM_R,RESTAT_W"
textline "                                  "
eventfld.long 0x00 1. " TRANSLATIONFAULT   ,Invalid descriptor in translation tables (translation fault) - NFAULT_R. - FSTAT_W. - RFSTAT_W. - FAULT_R." "NFAULT_R,RFSTAT_W"
eventfld.long 0x00 0. "         TLBMISS        ,Unrecoverable TLB miss (hardware TWL disabled) - NTLBM_R. - MSTAT_W. - RMSTAT_W. - TLBM_R." "NTLBM_R,RMSTAT_W"
group.long 0x1C++0x3
line.long 0x00 "MMU_IRQENABLE,The interrupt enable register allows to mask/unmask the module internal sources of interrupt, on a event-by-event basis."
bitfld.long 0x00 4. " MULTIHITFAULT      ,Error due to multiple matches in the TLB - MHFLTMASK. - MHFLTGINT." "MHFLTMASK,MHFLTGINT"
bitfld.long 0x00 3. "        TABLEWALKFAULT ,Error response received during a Table Walk - TWLFLTMASK. - TWLFLTGINT." "TWLFLTMASK,TWLFLTGINT"
bitfld.long 0x00 2. "  EMUMISS        ,Unrecoverable TLB miss during debug (hardware TWL disabled) - EMUMFLTMASK. - EMUMFLTGINT." "EMUMFLTMASK,EMUMFLTGINT"
textline "                                  "
bitfld.long 0x00 1. " TRANSLATIONFAULT   ,Invalid descriptor in translation tables (translation fault) - TRANFLTMASK. - TRANFLTGINT." "TRANFLTMASK,TRANFLTGINT"
bitfld.long 0x00 0. "      TLBMISS        ,Unrecoverable TLB miss (hardware TWL disabled) - TRMISSINTM. - TRMISSGINT." "TRMISSINTM,TRMISSGINT"
rgroup.long 0x40++0x3
line.long 0x00 "MMU_WALKING_ST,This register provides status information about the table walking logic"
bitfld.long 0x00 0. " TWLRUNNING         ,Table Walking Logic is running - TWLCOMP. - TWLRUN." "TWLCOMP,TWLRUN"
group.long 0x44++0x3
line.long 0x00 "MMU_CNTL,This register programs the MMU features"
bitfld.long 0x00 3. " EMUTLBUPDATE       ,Enable TLB update on emulator table walk - EMUDIS. - EMUEN." "EMUDIS,EMUEN"
bitfld.long 0x00 2. "           TWLENABLE      ,Table Walking Logic enable - TWLDIS. - TWLEN." "TWLDIS,TWLEN"
bitfld.long 0x00 1. "      MMUENABLE      ,MMU enable - MMUDIS. - MMUEN." "MMUDIS,MMUEN"
rgroup.long 0x48++0x3
line.long 0x00 "MMU_FAULT_AD,This register contains the virtual address that generated the interrupt"
hexmask.long 0x00 0.--31. 1. " FAULTADDRESS       ,Virtual address of the access that generated a fault"
group.long 0x4C++0x3
line.long 0x00 "MMU_TTB,This register contains the Translation Table Base address"
hexmask.long 0x00 7.--31. 1. " TTBADDRESS         ,Translation Table Base Address"
group.long 0x50++0x3
line.long 0x00 "MMU_LOCK,This register locks some of the TLB entries"
bitfld.long 0x00 10.--14. " BASEVALUE          ,Locked entries base value." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 4.--8. "               CURRENTVICTIM  ,Current entry to be updated either by the TWL or by the software." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
wgroup.long 0x54++0x3
line.long 0x00 "MMU_LD_TLB,This register loads a TLB entry (CAM+RAM)"
bitfld.long 0x00 0. " LDTLBITEM          ,Write (load) data in the TLB. Reads return 0. - NOEFFECT_W. - LDTLB_W." "NOEFFECT_W,LDTLB_W"
group.long 0x58++0x3
line.long 0x00 "MMU_CAM,This register holds a CAM entry"
hexmask.long.tbyte 0x00 12.--31. 1. " VATAG              ,Virtual address tag"
bitfld.long 0x00 3. "           P              ,Preserved bit - CANFLUSH. - NOFLUSH." "CANFLUSH,NOFLUSH"
bitfld.long 0x00 2. "    V              ,Valid bit - INVALID. - VALID." "INVALID,VALID"
textline "                                  "
bitfld.long 0x00 0.--1. " PAGESIZE           ,Page size - SECTION. - LARGE. - SMALL. - SUPER." "SECTION,LARGE,SMALL,SUPER"
group.long 0x5C++0x3
line.long 0x00 "MMU_RAM,This register contains bits [31:12] of the physical address to be written to a TLB entry pointed to by CURRENTVICTIM field of register."
hexmask.long.tbyte 0x00 12.--31. 1. " PHYSICALADDRESS    ,Physical address of the page"
wgroup.long 0x60++0x3
line.long 0x00 "MMU_GFLUSH,This register flushes all the non-protected TLB entries"
bitfld.long 0x00 0. " GLOBALFLUSH        ,Flush all the non-protected TLB entries when set. Reads return 0. - NFT_W. - FLUSH_W." "NFT_W,FLUSH_W"
wgroup.long 0x64++0x3
line.long 0x00 "MMU_FLUSH_ENTRY,This register flushes the entry pointed to by the CAM virtual address"
bitfld.long 0x00 0. " FLUSHENTRY         ,Flush the TLB entry pointed by the virtual address (VATag) inMMU_CAM register, even if this entry is set protected. Reads return 0. - NOFUN_W. - FLUSHTLB_W." "NOFUN_W,FLUSHTLB_W"
rgroup.long 0x68++0x3
line.long 0x00 "MMU_READ_CAM,This register reads CAM data from a CAM entry"
hexmask.long.tbyte 0x00 12.--31. 1. " VATAG              ,Virtual address tag"
bitfld.long 0x00 3. "           P              ,Preserved bit - CANFLUSH. - NOFLUSH." "CANFLUSH,NOFLUSH"
bitfld.long 0x00 2. "    V              ,Valid bit - INVALID. - VALID." "INVALID,VALID"
textline "                                  "
bitfld.long 0x00 0.--1. " PAGESIZE           ,Page size - SECTION. - LARGE. - SMALL. - SUPER." "SECTION,LARGE,SMALL,SUPER"
rgroup.long 0x6C++0x3
line.long 0x00 "MMU_READ_RAM,This register reads bits [31:12] of the physical address from the TLB entry pointed to by CURRENTVICTIM field of the register."
hexmask.long.tbyte 0x00 12.--31. 1. " PHYSICALADDRESS    ,Physical address of the page"
rgroup.long 0x70++0x3
line.long 0x00 "MMU_EMU_FAULT_AD,This register contains the last virtual address of a fault caused by the debugger"
hexmask.long 0x00 0.--31. 1. " EMUFAULTADDRESS    ,Virtual address of the last emulator access that generated a fault"
rgroup.long 0x80++0x3
line.long 0x00 "MMU_FAULT_PC,Typically CPU program counter value of instruction generating MMU fault. The address value is captured at [31:0] EMUFAULTADDRESS. Data-Read-access : corresponding PC. Data-write-access : not perfect accuracy due to posted-write."
hexmask.long 0x00 0.--31. 1. " PC                 ,Typically CPU program counter value of instruction generating MMU fault"
group.long 0x84++0x3
line.long 0x00 "MMU_FAULT_STATUS,Fault status register"
bitfld.long 0x00 4.--8. " MMU_FAULT_TRANS_ID ,MtagID of the transaction that caused fault" "DMA_RD1,DMA_RD2,DMA_WR1,DMA_WR2,CACHE_MISC,CACHE_CPU,CACHE_DMA,7,MMU_HW_TBL_WALK,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  RD_WR          ,Indicates read or write - WRITE. - READ." "WRITE,READ"
bitfld.long 0x00 1.--2. "       MMU_FAULT_TYPE ,MReqInfo[1:0] is captured as fault type" "LD_ST,FETCH,DMA,3"
textline "                                  "
eventfld.long 0x00 0. " FAULTINDICATION    ,Indicates an MMU fault" "0,1"
group.long 0x88++0x3
line.long 0x00 "MMU_GPR,General purpose register"
hexmask.long.word 0x00 16.--31. 1. " GPO                ,General purpose output sent out as MMU output"
bitfld.long 0x00 0. "             FAULT_INTR_DIS ,Disable generation of interrupt on fault. Error response is returned instead on the slave port" "0,1"
group.long 0x90++0x3
line.long 0x00 "MMU_BYPASS_REGION1_ADDR,This register contains the start address of the first NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION1_SIZE"
group.long 0x94++0x3
line.long 0x00 "MMU_BYPASS_REGION1_SIZE,This register contains the size of first NO TRANSLATION REGION for"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x98++0x3
line.long 0x00 "MMU_BYPASS_REGION2_ADDR,This register contains the start address of the second NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0x9C++0x3
line.long 0x00 "MMU_BYPASS_REGION2_SIZE,This register contains the size of second NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA0++0x3
line.long 0x00 "MMU_BYPASS_REGION3_ADDR,This register contains the start address of the third NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0xA4++0x3
line.long 0x00 "MMU_BYPASS_REGION3_SIZE,This register contains the size of third NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA8++0x3
line.long 0x00 "MMU_BYPASS_REGION4_ADDR,This register contains the start address of the fourth NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0xAC++0x3
line.long 0x00 "MMU_BYPASS_REGION4_SIZE,This register contains the size of fourth NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree "DSP2_MMU1"
base ad:0x41502000
width 25.
rgroup.long 0x0++0x3
line.long 0x00 "MMU_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION           ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MMU_SYSCONFIG,This register controls the various parameters of the OCP interface"
bitfld.long 0x00 8.--9. " CLOCKACTIVITY      ,Clock activity during wake-up mode - ." "0,1,2,3"
bitfld.long 0x00 3.--4. "                IDLEMODE       ,Idle mode - SFIDLE. - SNIDLE. - SSIDLE. - RES." "SFIDLE,SNIDLE,SSIDLE,RES"
bitfld.long 0x00 1. "      SOFTRESET      ,Software reset. This bit is automatically reset by the hardware. During reads, it always return 0 - NOFUN_W. - RSTMODE_W." "NOFUN_W,RSTMODE_W"
textline "                                  "
bitfld.long 0x00 0. " AUTOIDLE           ,Internal OCP clock gating strategy - CLKFREE. - AUTOCLKGATE." "CLKFREE,AUTOCLKGATE"
rgroup.long 0x14++0x3
line.long 0x00 "MMU_SYSSTATUS,This register provides status information about the module, excluding the interrupt status information"
bitfld.long 0x00 0. " RESETDONE          ,Internal reset monitoring - RSTONGOING. - RSTCOMP." "RSTONGOING,RSTCOMP"
group.long 0x18++0x3
line.long 0x00 "MMU_IRQSTATUS,This interrupt status register regroups all the status of the module internal events that can generate an interrupt."
eventfld.long 0x00 4. " MULTIHITFAULT      ,Error due to multiple matches in the TLB - NMHF_R. - MHFSTAT_W. - RMHFSTAT_W. - MHF_R." "NMHF_R,RMHFSTAT_W"
eventfld.long 0x00 3. "       TABLEWALKFAULT ,Error response received during a Table Walk - NTWF_R. - TWFSTAT_W. - RTWFSTAT_W. - TWF_R." "NTWF_R,RTWFSTAT_W"
eventfld.long 0x00 2. "  EMUMISS        ,Unrecoverable TLB miss during debug (hardware TWL disabled) - NEMUM_R. - ESTAT_W. - RESTAT_W. - EMUM_R." "NEMUM_R,RESTAT_W"
textline "                                  "
eventfld.long 0x00 1. " TRANSLATIONFAULT   ,Invalid descriptor in translation tables (translation fault) - NFAULT_R. - FSTAT_W. - RFSTAT_W. - FAULT_R." "NFAULT_R,RFSTAT_W"
eventfld.long 0x00 0. "         TLBMISS        ,Unrecoverable TLB miss (hardware TWL disabled) - NTLBM_R. - MSTAT_W. - RMSTAT_W. - TLBM_R." "NTLBM_R,RMSTAT_W"
group.long 0x1C++0x3
line.long 0x00 "MMU_IRQENABLE,The interrupt enable register allows to mask/unmask the module internal sources of interrupt, on a event-by-event basis."
bitfld.long 0x00 4. " MULTIHITFAULT      ,Error due to multiple matches in the TLB - MHFLTMASK. - MHFLTGINT." "MHFLTMASK,MHFLTGINT"
bitfld.long 0x00 3. "        TABLEWALKFAULT ,Error response received during a Table Walk - TWLFLTMASK. - TWLFLTGINT." "TWLFLTMASK,TWLFLTGINT"
bitfld.long 0x00 2. "  EMUMISS        ,Unrecoverable TLB miss during debug (hardware TWL disabled) - EMUMFLTMASK. - EMUMFLTGINT." "EMUMFLTMASK,EMUMFLTGINT"
textline "                                  "
bitfld.long 0x00 1. " TRANSLATIONFAULT   ,Invalid descriptor in translation tables (translation fault) - TRANFLTMASK. - TRANFLTGINT." "TRANFLTMASK,TRANFLTGINT"
bitfld.long 0x00 0. "      TLBMISS        ,Unrecoverable TLB miss (hardware TWL disabled) - TRMISSINTM. - TRMISSGINT." "TRMISSINTM,TRMISSGINT"
rgroup.long 0x40++0x3
line.long 0x00 "MMU_WALKING_ST,This register provides status information about the table walking logic"
bitfld.long 0x00 0. " TWLRUNNING         ,Table Walking Logic is running - TWLCOMP. - TWLRUN." "TWLCOMP,TWLRUN"
group.long 0x44++0x3
line.long 0x00 "MMU_CNTL,This register programs the MMU features"
bitfld.long 0x00 3. " EMUTLBUPDATE       ,Enable TLB update on emulator table walk - EMUDIS. - EMUEN." "EMUDIS,EMUEN"
bitfld.long 0x00 2. "           TWLENABLE      ,Table Walking Logic enable - TWLDIS. - TWLEN." "TWLDIS,TWLEN"
bitfld.long 0x00 1. "      MMUENABLE      ,MMU enable - MMUDIS. - MMUEN." "MMUDIS,MMUEN"
rgroup.long 0x48++0x3
line.long 0x00 "MMU_FAULT_AD,This register contains the virtual address that generated the interrupt"
hexmask.long 0x00 0.--31. 1. " FAULTADDRESS       ,Virtual address of the access that generated a fault"
group.long 0x4C++0x3
line.long 0x00 "MMU_TTB,This register contains the Translation Table Base address"
hexmask.long 0x00 7.--31. 1. " TTBADDRESS         ,Translation Table Base Address"
group.long 0x50++0x3
line.long 0x00 "MMU_LOCK,This register locks some of the TLB entries"
bitfld.long 0x00 10.--14. " BASEVALUE          ,Locked entries base value." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 4.--8. "               CURRENTVICTIM  ,Current entry to be updated either by the TWL or by the software." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
wgroup.long 0x54++0x3
line.long 0x00 "MMU_LD_TLB,This register loads a TLB entry (CAM+RAM)"
bitfld.long 0x00 0. " LDTLBITEM          ,Write (load) data in the TLB. Reads return 0. - NOEFFECT_W. - LDTLB_W." "NOEFFECT_W,LDTLB_W"
group.long 0x58++0x3
line.long 0x00 "MMU_CAM,This register holds a CAM entry"
hexmask.long.tbyte 0x00 12.--31. 1. " VATAG              ,Virtual address tag"
bitfld.long 0x00 3. "           P              ,Preserved bit - CANFLUSH. - NOFLUSH." "CANFLUSH,NOFLUSH"
bitfld.long 0x00 2. "    V              ,Valid bit - INVALID. - VALID." "INVALID,VALID"
textline "                                  "
bitfld.long 0x00 0.--1. " PAGESIZE           ,Page size - SECTION. - LARGE. - SMALL. - SUPER." "SECTION,LARGE,SMALL,SUPER"
group.long 0x5C++0x3
line.long 0x00 "MMU_RAM,This register contains bits [31:12] of the physical address to be written to a TLB entry pointed to by CURRENTVICTIM field of register."
hexmask.long.tbyte 0x00 12.--31. 1. " PHYSICALADDRESS    ,Physical address of the page"
wgroup.long 0x60++0x3
line.long 0x00 "MMU_GFLUSH,This register flushes all the non-protected TLB entries"
bitfld.long 0x00 0. " GLOBALFLUSH        ,Flush all the non-protected TLB entries when set. Reads return 0. - NFT_W. - FLUSH_W." "NFT_W,FLUSH_W"
wgroup.long 0x64++0x3
line.long 0x00 "MMU_FLUSH_ENTRY,This register flushes the entry pointed to by the CAM virtual address"
bitfld.long 0x00 0. " FLUSHENTRY         ,Flush the TLB entry pointed by the virtual address (VATag) inMMU_CAM register, even if this entry is set protected. Reads return 0. - NOFUN_W. - FLUSHTLB_W." "NOFUN_W,FLUSHTLB_W"
rgroup.long 0x68++0x3
line.long 0x00 "MMU_READ_CAM,This register reads CAM data from a CAM entry"
hexmask.long.tbyte 0x00 12.--31. 1. " VATAG              ,Virtual address tag"
bitfld.long 0x00 3. "           P              ,Preserved bit - CANFLUSH. - NOFLUSH." "CANFLUSH,NOFLUSH"
bitfld.long 0x00 2. "    V              ,Valid bit - INVALID. - VALID." "INVALID,VALID"
textline "                                  "
bitfld.long 0x00 0.--1. " PAGESIZE           ,Page size - SECTION. - LARGE. - SMALL. - SUPER." "SECTION,LARGE,SMALL,SUPER"
rgroup.long 0x6C++0x3
line.long 0x00 "MMU_READ_RAM,This register reads bits [31:12] of the physical address from the TLB entry pointed to by CURRENTVICTIM field of the register."
hexmask.long.tbyte 0x00 12.--31. 1. " PHYSICALADDRESS    ,Physical address of the page"
rgroup.long 0x70++0x3
line.long 0x00 "MMU_EMU_FAULT_AD,This register contains the last virtual address of a fault caused by the debugger"
hexmask.long 0x00 0.--31. 1. " EMUFAULTADDRESS    ,Virtual address of the last emulator access that generated a fault"
rgroup.long 0x80++0x3
line.long 0x00 "MMU_FAULT_PC,Typically CPU program counter value of instruction generating MMU fault. The address value is captured at [31:0] EMUFAULTADDRESS. Data-Read-access : corresponding PC. Data-write-access : not perfect accuracy due to posted-write."
hexmask.long 0x00 0.--31. 1. " PC                 ,Typically CPU program counter value of instruction generating MMU fault"
group.long 0x84++0x3
line.long 0x00 "MMU_FAULT_STATUS,Fault status register"
bitfld.long 0x00 4.--8. " MMU_FAULT_TRANS_ID ,MtagID of the transaction that caused fault" "DMA_RD1,DMA_RD2,DMA_WR1,DMA_WR2,CACHE_MISC,CACHE_CPU,CACHE_DMA,7,MMU_HW_TBL_WALK,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  RD_WR          ,Indicates read or write - WRITE. - READ." "WRITE,READ"
bitfld.long 0x00 1.--2. "       MMU_FAULT_TYPE ,MReqInfo[1:0] is captured as fault type" "LD_ST,FETCH,DMA,3"
textline "                                  "
eventfld.long 0x00 0. " FAULTINDICATION    ,Indicates an MMU fault" "0,1"
group.long 0x88++0x3
line.long 0x00 "MMU_GPR,General purpose register"
hexmask.long.word 0x00 16.--31. 1. " GPO                ,General purpose output sent out as MMU output"
bitfld.long 0x00 0. "             FAULT_INTR_DIS ,Disable generation of interrupt on fault. Error response is returned instead on the slave port" "0,1"
group.long 0x90++0x3
line.long 0x00 "MMU_BYPASS_REGION1_ADDR,This register contains the start address of the first NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION1_SIZE"
group.long 0x94++0x3
line.long 0x00 "MMU_BYPASS_REGION1_SIZE,This register contains the size of first NO TRANSLATION REGION for"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x98++0x3
line.long 0x00 "MMU_BYPASS_REGION2_ADDR,This register contains the start address of the second NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0x9C++0x3
line.long 0x00 "MMU_BYPASS_REGION2_SIZE,This register contains the size of second NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA0++0x3
line.long 0x00 "MMU_BYPASS_REGION3_ADDR,This register contains the start address of the third NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0xA4++0x3
line.long 0x00 "MMU_BYPASS_REGION3_SIZE,This register contains the size of third NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA8++0x3
line.long 0x00 "MMU_BYPASS_REGION4_ADDR,This register contains the start address of the fourth NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0xAC++0x3
line.long 0x00 "MMU_BYPASS_REGION4_SIZE,This register contains the size of fourth NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree "EVE1_MMU0"
base ad:0x42081000
width 25.
rgroup.long 0x0++0x3
line.long 0x00 "MMU_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION           ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MMU_SYSCONFIG,This register controls the various parameters of the OCP interface"
bitfld.long 0x00 8.--9. " CLOCKACTIVITY      ,Clock activity during wake-up mode - ." "0,1,2,3"
bitfld.long 0x00 3.--4. "                IDLEMODE       ,Idle mode - SFIDLE. - SNIDLE. - SSIDLE. - RES." "SFIDLE,SNIDLE,SSIDLE,RES"
bitfld.long 0x00 1. "      SOFTRESET      ,Software reset. This bit is automatically reset by the hardware. During reads, it always return 0 - NOFUN_W. - RSTMODE_W." "NOFUN_W,RSTMODE_W"
textline "                                  "
bitfld.long 0x00 0. " AUTOIDLE           ,Internal OCP clock gating strategy - CLKFREE. - AUTOCLKGATE." "CLKFREE,AUTOCLKGATE"
rgroup.long 0x14++0x3
line.long 0x00 "MMU_SYSSTATUS,This register provides status information about the module, excluding the interrupt status information"
bitfld.long 0x00 0. " RESETDONE          ,Internal reset monitoring - RSTONGOING. - RSTCOMP." "RSTONGOING,RSTCOMP"
group.long 0x18++0x3
line.long 0x00 "MMU_IRQSTATUS,This interrupt status register regroups all the status of the module internal events that can generate an interrupt."
eventfld.long 0x00 4. " MULTIHITFAULT      ,Error due to multiple matches in the TLB - NMHF_R. - MHFSTAT_W. - RMHFSTAT_W. - MHF_R." "NMHF_R,RMHFSTAT_W"
eventfld.long 0x00 3. "       TABLEWALKFAULT ,Error response received during a Table Walk - NTWF_R. - TWFSTAT_W. - RTWFSTAT_W. - TWF_R." "NTWF_R,RTWFSTAT_W"
eventfld.long 0x00 2. "  EMUMISS        ,Unrecoverable TLB miss during debug (hardware TWL disabled) - NEMUM_R. - ESTAT_W. - RESTAT_W. - EMUM_R." "NEMUM_R,RESTAT_W"
textline "                                  "
eventfld.long 0x00 1. " TRANSLATIONFAULT   ,Invalid descriptor in translation tables (translation fault) - NFAULT_R. - FSTAT_W. - RFSTAT_W. - FAULT_R." "NFAULT_R,RFSTAT_W"
eventfld.long 0x00 0. "         TLBMISS        ,Unrecoverable TLB miss (hardware TWL disabled) - NTLBM_R. - MSTAT_W. - RMSTAT_W. - TLBM_R." "NTLBM_R,RMSTAT_W"
group.long 0x1C++0x3
line.long 0x00 "MMU_IRQENABLE,The interrupt enable register allows to mask/unmask the module internal sources of interrupt, on a event-by-event basis."
bitfld.long 0x00 4. " MULTIHITFAULT      ,Error due to multiple matches in the TLB - MHFLTMASK. - MHFLTGINT." "MHFLTMASK,MHFLTGINT"
bitfld.long 0x00 3. "        TABLEWALKFAULT ,Error response received during a Table Walk - TWLFLTMASK. - TWLFLTGINT." "TWLFLTMASK,TWLFLTGINT"
bitfld.long 0x00 2. "  EMUMISS        ,Unrecoverable TLB miss during debug (hardware TWL disabled) - EMUMFLTMASK. - EMUMFLTGINT." "EMUMFLTMASK,EMUMFLTGINT"
textline "                                  "
bitfld.long 0x00 1. " TRANSLATIONFAULT   ,Invalid descriptor in translation tables (translation fault) - TRANFLTMASK. - TRANFLTGINT." "TRANFLTMASK,TRANFLTGINT"
bitfld.long 0x00 0. "      TLBMISS        ,Unrecoverable TLB miss (hardware TWL disabled) - TRMISSINTM. - TRMISSGINT." "TRMISSINTM,TRMISSGINT"
rgroup.long 0x40++0x3
line.long 0x00 "MMU_WALKING_ST,This register provides status information about the table walking logic"
bitfld.long 0x00 0. " TWLRUNNING         ,Table Walking Logic is running - TWLCOMP. - TWLRUN." "TWLCOMP,TWLRUN"
group.long 0x44++0x3
line.long 0x00 "MMU_CNTL,This register programs the MMU features"
bitfld.long 0x00 3. " EMUTLBUPDATE       ,Enable TLB update on emulator table walk - EMUDIS. - EMUEN." "EMUDIS,EMUEN"
bitfld.long 0x00 2. "           TWLENABLE      ,Table Walking Logic enable - TWLDIS. - TWLEN." "TWLDIS,TWLEN"
bitfld.long 0x00 1. "      MMUENABLE      ,MMU enable - MMUDIS. - MMUEN." "MMUDIS,MMUEN"
rgroup.long 0x48++0x3
line.long 0x00 "MMU_FAULT_AD,This register contains the virtual address that generated the interrupt"
hexmask.long 0x00 0.--31. 1. " FAULTADDRESS       ,Virtual address of the access that generated a fault"
group.long 0x4C++0x3
line.long 0x00 "MMU_TTB,This register contains the Translation Table Base address"
hexmask.long 0x00 7.--31. 1. " TTBADDRESS         ,Translation Table Base Address"
group.long 0x50++0x3
line.long 0x00 "MMU_LOCK,This register locks some of the TLB entries"
bitfld.long 0x00 10.--14. " BASEVALUE          ,Locked entries base value." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 4.--8. "               CURRENTVICTIM  ,Current entry to be updated either by the TWL or by the software." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
wgroup.long 0x54++0x3
line.long 0x00 "MMU_LD_TLB,This register loads a TLB entry (CAM+RAM)"
bitfld.long 0x00 0. " LDTLBITEM          ,Write (load) data in the TLB. Reads return 0. - NOEFFECT_W. - LDTLB_W." "NOEFFECT_W,LDTLB_W"
group.long 0x58++0x3
line.long 0x00 "MMU_CAM,This register holds a CAM entry"
hexmask.long.tbyte 0x00 12.--31. 1. " VATAG              ,Virtual address tag"
bitfld.long 0x00 3. "           P              ,Preserved bit - CANFLUSH. - NOFLUSH." "CANFLUSH,NOFLUSH"
bitfld.long 0x00 2. "    V              ,Valid bit - INVALID. - VALID." "INVALID,VALID"
textline "                                  "
bitfld.long 0x00 0.--1. " PAGESIZE           ,Page size - SECTION. - LARGE. - SMALL. - SUPER." "SECTION,LARGE,SMALL,SUPER"
group.long 0x5C++0x3
line.long 0x00 "MMU_RAM,This register contains bits [31:12] of the physical address to be written to a TLB entry pointed to by CURRENTVICTIM field of register."
hexmask.long.tbyte 0x00 12.--31. 1. " PHYSICALADDRESS    ,Physical address of the page"
wgroup.long 0x60++0x3
line.long 0x00 "MMU_GFLUSH,This register flushes all the non-protected TLB entries"
bitfld.long 0x00 0. " GLOBALFLUSH        ,Flush all the non-protected TLB entries when set. Reads return 0. - NFT_W. - FLUSH_W." "NFT_W,FLUSH_W"
wgroup.long 0x64++0x3
line.long 0x00 "MMU_FLUSH_ENTRY,This register flushes the entry pointed to by the CAM virtual address"
bitfld.long 0x00 0. " FLUSHENTRY         ,Flush the TLB entry pointed by the virtual address (VATag) inMMU_CAM register, even if this entry is set protected. Reads return 0. - NOFUN_W. - FLUSHTLB_W." "NOFUN_W,FLUSHTLB_W"
rgroup.long 0x68++0x3
line.long 0x00 "MMU_READ_CAM,This register reads CAM data from a CAM entry"
hexmask.long.tbyte 0x00 12.--31. 1. " VATAG              ,Virtual address tag"
bitfld.long 0x00 3. "           P              ,Preserved bit - CANFLUSH. - NOFLUSH." "CANFLUSH,NOFLUSH"
bitfld.long 0x00 2. "    V              ,Valid bit - INVALID. - VALID." "INVALID,VALID"
textline "                                  "
bitfld.long 0x00 0.--1. " PAGESIZE           ,Page size - SECTION. - LARGE. - SMALL. - SUPER." "SECTION,LARGE,SMALL,SUPER"
rgroup.long 0x6C++0x3
line.long 0x00 "MMU_READ_RAM,This register reads bits [31:12] of the physical address from the TLB entry pointed to by CURRENTVICTIM field of the register."
hexmask.long.tbyte 0x00 12.--31. 1. " PHYSICALADDRESS    ,Physical address of the page"
rgroup.long 0x70++0x3
line.long 0x00 "MMU_EMU_FAULT_AD,This register contains the last virtual address of a fault caused by the debugger"
hexmask.long 0x00 0.--31. 1. " EMUFAULTADDRESS    ,Virtual address of the last emulator access that generated a fault"
rgroup.long 0x80++0x3
line.long 0x00 "MMU_FAULT_PC,Typically CPU program counter value of instruction generating MMU fault. The address value is captured at [31:0] EMUFAULTADDRESS. Data-Read-access : corresponding PC. Data-write-access : not perfect accuracy due to posted-write."
hexmask.long 0x00 0.--31. 1. " PC                 ,Typically CPU program counter value of instruction generating MMU fault"
group.long 0x84++0x3
line.long 0x00 "MMU_FAULT_STATUS,Fault status register"
bitfld.long 0x00 4.--8. " MMU_FAULT_TRANS_ID ,MtagID of the transaction that caused fault" "DMA_RD1,DMA_RD2,DMA_WR1,DMA_WR2,CACHE_MISC,CACHE_CPU,CACHE_DMA,7,MMU_HW_TBL_WALK,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  RD_WR          ,Indicates read or write - WRITE. - READ." "WRITE,READ"
bitfld.long 0x00 1.--2. "       MMU_FAULT_TYPE ,MReqInfo[1:0] is captured as fault type" "LD_ST,FETCH,DMA,3"
textline "                                  "
eventfld.long 0x00 0. " FAULTINDICATION    ,Indicates an MMU fault" "0,1"
group.long 0x88++0x3
line.long 0x00 "MMU_GPR,General purpose register"
hexmask.long.word 0x00 16.--31. 1. " GPO                ,General purpose output sent out as MMU output"
bitfld.long 0x00 0. "             FAULT_INTR_DIS ,Disable generation of interrupt on fault. Error response is returned instead on the slave port" "0,1"
group.long 0x90++0x3
line.long 0x00 "MMU_BYPASS_REGION1_ADDR,This register contains the start address of the first NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION1_SIZE"
group.long 0x94++0x3
line.long 0x00 "MMU_BYPASS_REGION1_SIZE,This register contains the size of first NO TRANSLATION REGION for"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x98++0x3
line.long 0x00 "MMU_BYPASS_REGION2_ADDR,This register contains the start address of the second NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0x9C++0x3
line.long 0x00 "MMU_BYPASS_REGION2_SIZE,This register contains the size of second NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA0++0x3
line.long 0x00 "MMU_BYPASS_REGION3_ADDR,This register contains the start address of the third NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0xA4++0x3
line.long 0x00 "MMU_BYPASS_REGION3_SIZE,This register contains the size of third NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA8++0x3
line.long 0x00 "MMU_BYPASS_REGION4_ADDR,This register contains the start address of the fourth NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0xAC++0x3
line.long 0x00 "MMU_BYPASS_REGION4_SIZE,This register contains the size of fourth NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree "EVE1_MMU1"
base ad:0x42082000
width 25.
rgroup.long 0x0++0x3
line.long 0x00 "MMU_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION           ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MMU_SYSCONFIG,This register controls the various parameters of the OCP interface"
bitfld.long 0x00 8.--9. " CLOCKACTIVITY      ,Clock activity during wake-up mode - ." "0,1,2,3"
bitfld.long 0x00 3.--4. "                IDLEMODE       ,Idle mode - SFIDLE. - SNIDLE. - SSIDLE. - RES." "SFIDLE,SNIDLE,SSIDLE,RES"
bitfld.long 0x00 1. "      SOFTRESET      ,Software reset. This bit is automatically reset by the hardware. During reads, it always return 0 - NOFUN_W. - RSTMODE_W." "NOFUN_W,RSTMODE_W"
textline "                                  "
bitfld.long 0x00 0. " AUTOIDLE           ,Internal OCP clock gating strategy - CLKFREE. - AUTOCLKGATE." "CLKFREE,AUTOCLKGATE"
rgroup.long 0x14++0x3
line.long 0x00 "MMU_SYSSTATUS,This register provides status information about the module, excluding the interrupt status information"
bitfld.long 0x00 0. " RESETDONE          ,Internal reset monitoring - RSTONGOING. - RSTCOMP." "RSTONGOING,RSTCOMP"
group.long 0x18++0x3
line.long 0x00 "MMU_IRQSTATUS,This interrupt status register regroups all the status of the module internal events that can generate an interrupt."
eventfld.long 0x00 4. " MULTIHITFAULT      ,Error due to multiple matches in the TLB - NMHF_R. - MHFSTAT_W. - RMHFSTAT_W. - MHF_R." "NMHF_R,RMHFSTAT_W"
eventfld.long 0x00 3. "       TABLEWALKFAULT ,Error response received during a Table Walk - NTWF_R. - TWFSTAT_W. - RTWFSTAT_W. - TWF_R." "NTWF_R,RTWFSTAT_W"
eventfld.long 0x00 2. "  EMUMISS        ,Unrecoverable TLB miss during debug (hardware TWL disabled) - NEMUM_R. - ESTAT_W. - RESTAT_W. - EMUM_R." "NEMUM_R,RESTAT_W"
textline "                                  "
eventfld.long 0x00 1. " TRANSLATIONFAULT   ,Invalid descriptor in translation tables (translation fault) - NFAULT_R. - FSTAT_W. - RFSTAT_W. - FAULT_R." "NFAULT_R,RFSTAT_W"
eventfld.long 0x00 0. "         TLBMISS        ,Unrecoverable TLB miss (hardware TWL disabled) - NTLBM_R. - MSTAT_W. - RMSTAT_W. - TLBM_R." "NTLBM_R,RMSTAT_W"
group.long 0x1C++0x3
line.long 0x00 "MMU_IRQENABLE,The interrupt enable register allows to mask/unmask the module internal sources of interrupt, on a event-by-event basis."
bitfld.long 0x00 4. " MULTIHITFAULT      ,Error due to multiple matches in the TLB - MHFLTMASK. - MHFLTGINT." "MHFLTMASK,MHFLTGINT"
bitfld.long 0x00 3. "        TABLEWALKFAULT ,Error response received during a Table Walk - TWLFLTMASK. - TWLFLTGINT." "TWLFLTMASK,TWLFLTGINT"
bitfld.long 0x00 2. "  EMUMISS        ,Unrecoverable TLB miss during debug (hardware TWL disabled) - EMUMFLTMASK. - EMUMFLTGINT." "EMUMFLTMASK,EMUMFLTGINT"
textline "                                  "
bitfld.long 0x00 1. " TRANSLATIONFAULT   ,Invalid descriptor in translation tables (translation fault) - TRANFLTMASK. - TRANFLTGINT." "TRANFLTMASK,TRANFLTGINT"
bitfld.long 0x00 0. "      TLBMISS        ,Unrecoverable TLB miss (hardware TWL disabled) - TRMISSINTM. - TRMISSGINT." "TRMISSINTM,TRMISSGINT"
rgroup.long 0x40++0x3
line.long 0x00 "MMU_WALKING_ST,This register provides status information about the table walking logic"
bitfld.long 0x00 0. " TWLRUNNING         ,Table Walking Logic is running - TWLCOMP. - TWLRUN." "TWLCOMP,TWLRUN"
group.long 0x44++0x3
line.long 0x00 "MMU_CNTL,This register programs the MMU features"
bitfld.long 0x00 3. " EMUTLBUPDATE       ,Enable TLB update on emulator table walk - EMUDIS. - EMUEN." "EMUDIS,EMUEN"
bitfld.long 0x00 2. "           TWLENABLE      ,Table Walking Logic enable - TWLDIS. - TWLEN." "TWLDIS,TWLEN"
bitfld.long 0x00 1. "      MMUENABLE      ,MMU enable - MMUDIS. - MMUEN." "MMUDIS,MMUEN"
rgroup.long 0x48++0x3
line.long 0x00 "MMU_FAULT_AD,This register contains the virtual address that generated the interrupt"
hexmask.long 0x00 0.--31. 1. " FAULTADDRESS       ,Virtual address of the access that generated a fault"
group.long 0x4C++0x3
line.long 0x00 "MMU_TTB,This register contains the Translation Table Base address"
hexmask.long 0x00 7.--31. 1. " TTBADDRESS         ,Translation Table Base Address"
group.long 0x50++0x3
line.long 0x00 "MMU_LOCK,This register locks some of the TLB entries"
bitfld.long 0x00 10.--14. " BASEVALUE          ,Locked entries base value." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 4.--8. "               CURRENTVICTIM  ,Current entry to be updated either by the TWL or by the software." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
wgroup.long 0x54++0x3
line.long 0x00 "MMU_LD_TLB,This register loads a TLB entry (CAM+RAM)"
bitfld.long 0x00 0. " LDTLBITEM          ,Write (load) data in the TLB. Reads return 0. - NOEFFECT_W. - LDTLB_W." "NOEFFECT_W,LDTLB_W"
group.long 0x58++0x3
line.long 0x00 "MMU_CAM,This register holds a CAM entry"
hexmask.long.tbyte 0x00 12.--31. 1. " VATAG              ,Virtual address tag"
bitfld.long 0x00 3. "           P              ,Preserved bit - CANFLUSH. - NOFLUSH." "CANFLUSH,NOFLUSH"
bitfld.long 0x00 2. "    V              ,Valid bit - INVALID. - VALID." "INVALID,VALID"
textline "                                  "
bitfld.long 0x00 0.--1. " PAGESIZE           ,Page size - SECTION. - LARGE. - SMALL. - SUPER." "SECTION,LARGE,SMALL,SUPER"
group.long 0x5C++0x3
line.long 0x00 "MMU_RAM,This register contains bits [31:12] of the physical address to be written to a TLB entry pointed to by CURRENTVICTIM field of register."
hexmask.long.tbyte 0x00 12.--31. 1. " PHYSICALADDRESS    ,Physical address of the page"
wgroup.long 0x60++0x3
line.long 0x00 "MMU_GFLUSH,This register flushes all the non-protected TLB entries"
bitfld.long 0x00 0. " GLOBALFLUSH        ,Flush all the non-protected TLB entries when set. Reads return 0. - NFT_W. - FLUSH_W." "NFT_W,FLUSH_W"
wgroup.long 0x64++0x3
line.long 0x00 "MMU_FLUSH_ENTRY,This register flushes the entry pointed to by the CAM virtual address"
bitfld.long 0x00 0. " FLUSHENTRY         ,Flush the TLB entry pointed by the virtual address (VATag) inMMU_CAM register, even if this entry is set protected. Reads return 0. - NOFUN_W. - FLUSHTLB_W." "NOFUN_W,FLUSHTLB_W"
rgroup.long 0x68++0x3
line.long 0x00 "MMU_READ_CAM,This register reads CAM data from a CAM entry"
hexmask.long.tbyte 0x00 12.--31. 1. " VATAG              ,Virtual address tag"
bitfld.long 0x00 3. "           P              ,Preserved bit - CANFLUSH. - NOFLUSH." "CANFLUSH,NOFLUSH"
bitfld.long 0x00 2. "    V              ,Valid bit - INVALID. - VALID." "INVALID,VALID"
textline "                                  "
bitfld.long 0x00 0.--1. " PAGESIZE           ,Page size - SECTION. - LARGE. - SMALL. - SUPER." "SECTION,LARGE,SMALL,SUPER"
rgroup.long 0x6C++0x3
line.long 0x00 "MMU_READ_RAM,This register reads bits [31:12] of the physical address from the TLB entry pointed to by CURRENTVICTIM field of the register."
hexmask.long.tbyte 0x00 12.--31. 1. " PHYSICALADDRESS    ,Physical address of the page"
rgroup.long 0x70++0x3
line.long 0x00 "MMU_EMU_FAULT_AD,This register contains the last virtual address of a fault caused by the debugger"
hexmask.long 0x00 0.--31. 1. " EMUFAULTADDRESS    ,Virtual address of the last emulator access that generated a fault"
rgroup.long 0x80++0x3
line.long 0x00 "MMU_FAULT_PC,Typically CPU program counter value of instruction generating MMU fault. The address value is captured at [31:0] EMUFAULTADDRESS. Data-Read-access : corresponding PC. Data-write-access : not perfect accuracy due to posted-write."
hexmask.long 0x00 0.--31. 1. " PC                 ,Typically CPU program counter value of instruction generating MMU fault"
group.long 0x84++0x3
line.long 0x00 "MMU_FAULT_STATUS,Fault status register"
bitfld.long 0x00 4.--8. " MMU_FAULT_TRANS_ID ,MtagID of the transaction that caused fault" "DMA_RD1,DMA_RD2,DMA_WR1,DMA_WR2,CACHE_MISC,CACHE_CPU,CACHE_DMA,7,MMU_HW_TBL_WALK,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  RD_WR          ,Indicates read or write - WRITE. - READ." "WRITE,READ"
bitfld.long 0x00 1.--2. "       MMU_FAULT_TYPE ,MReqInfo[1:0] is captured as fault type" "LD_ST,FETCH,DMA,3"
textline "                                  "
eventfld.long 0x00 0. " FAULTINDICATION    ,Indicates an MMU fault" "0,1"
group.long 0x88++0x3
line.long 0x00 "MMU_GPR,General purpose register"
hexmask.long.word 0x00 16.--31. 1. " GPO                ,General purpose output sent out as MMU output"
bitfld.long 0x00 0. "             FAULT_INTR_DIS ,Disable generation of interrupt on fault. Error response is returned instead on the slave port" "0,1"
group.long 0x90++0x3
line.long 0x00 "MMU_BYPASS_REGION1_ADDR,This register contains the start address of the first NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION1_SIZE"
group.long 0x94++0x3
line.long 0x00 "MMU_BYPASS_REGION1_SIZE,This register contains the size of first NO TRANSLATION REGION for"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x98++0x3
line.long 0x00 "MMU_BYPASS_REGION2_ADDR,This register contains the start address of the second NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0x9C++0x3
line.long 0x00 "MMU_BYPASS_REGION2_SIZE,This register contains the size of second NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA0++0x3
line.long 0x00 "MMU_BYPASS_REGION3_ADDR,This register contains the start address of the third NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0xA4++0x3
line.long 0x00 "MMU_BYPASS_REGION3_SIZE,This register contains the size of third NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA8++0x3
line.long 0x00 "MMU_BYPASS_REGION4_ADDR,This register contains the start address of the fourth NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0xAC++0x3
line.long 0x00 "MMU_BYPASS_REGION4_SIZE,This register contains the size of fourth NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree "EVE2_MMU0"
base ad:0x42181000
width 25.
rgroup.long 0x0++0x3
line.long 0x00 "MMU_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION           ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MMU_SYSCONFIG,This register controls the various parameters of the OCP interface"
bitfld.long 0x00 8.--9. " CLOCKACTIVITY      ,Clock activity during wake-up mode - ." "0,1,2,3"
bitfld.long 0x00 3.--4. "                IDLEMODE       ,Idle mode - SFIDLE. - SNIDLE. - SSIDLE. - RES." "SFIDLE,SNIDLE,SSIDLE,RES"
bitfld.long 0x00 1. "      SOFTRESET      ,Software reset. This bit is automatically reset by the hardware. During reads, it always return 0 - NOFUN_W. - RSTMODE_W." "NOFUN_W,RSTMODE_W"
textline "                                  "
bitfld.long 0x00 0. " AUTOIDLE           ,Internal OCP clock gating strategy - CLKFREE. - AUTOCLKGATE." "CLKFREE,AUTOCLKGATE"
rgroup.long 0x14++0x3
line.long 0x00 "MMU_SYSSTATUS,This register provides status information about the module, excluding the interrupt status information"
bitfld.long 0x00 0. " RESETDONE          ,Internal reset monitoring - RSTONGOING. - RSTCOMP." "RSTONGOING,RSTCOMP"
group.long 0x18++0x3
line.long 0x00 "MMU_IRQSTATUS,This interrupt status register regroups all the status of the module internal events that can generate an interrupt."
eventfld.long 0x00 4. " MULTIHITFAULT      ,Error due to multiple matches in the TLB - NMHF_R. - MHFSTAT_W. - RMHFSTAT_W. - MHF_R." "NMHF_R,RMHFSTAT_W"
eventfld.long 0x00 3. "       TABLEWALKFAULT ,Error response received during a Table Walk - NTWF_R. - TWFSTAT_W. - RTWFSTAT_W. - TWF_R." "NTWF_R,RTWFSTAT_W"
eventfld.long 0x00 2. "  EMUMISS        ,Unrecoverable TLB miss during debug (hardware TWL disabled) - NEMUM_R. - ESTAT_W. - RESTAT_W. - EMUM_R." "NEMUM_R,RESTAT_W"
textline "                                  "
eventfld.long 0x00 1. " TRANSLATIONFAULT   ,Invalid descriptor in translation tables (translation fault) - NFAULT_R. - FSTAT_W. - RFSTAT_W. - FAULT_R." "NFAULT_R,RFSTAT_W"
eventfld.long 0x00 0. "         TLBMISS        ,Unrecoverable TLB miss (hardware TWL disabled) - NTLBM_R. - MSTAT_W. - RMSTAT_W. - TLBM_R." "NTLBM_R,RMSTAT_W"
group.long 0x1C++0x3
line.long 0x00 "MMU_IRQENABLE,The interrupt enable register allows to mask/unmask the module internal sources of interrupt, on a event-by-event basis."
bitfld.long 0x00 4. " MULTIHITFAULT      ,Error due to multiple matches in the TLB - MHFLTMASK. - MHFLTGINT." "MHFLTMASK,MHFLTGINT"
bitfld.long 0x00 3. "        TABLEWALKFAULT ,Error response received during a Table Walk - TWLFLTMASK. - TWLFLTGINT." "TWLFLTMASK,TWLFLTGINT"
bitfld.long 0x00 2. "  EMUMISS        ,Unrecoverable TLB miss during debug (hardware TWL disabled) - EMUMFLTMASK. - EMUMFLTGINT." "EMUMFLTMASK,EMUMFLTGINT"
textline "                                  "
bitfld.long 0x00 1. " TRANSLATIONFAULT   ,Invalid descriptor in translation tables (translation fault) - TRANFLTMASK. - TRANFLTGINT." "TRANFLTMASK,TRANFLTGINT"
bitfld.long 0x00 0. "      TLBMISS        ,Unrecoverable TLB miss (hardware TWL disabled) - TRMISSINTM. - TRMISSGINT." "TRMISSINTM,TRMISSGINT"
rgroup.long 0x40++0x3
line.long 0x00 "MMU_WALKING_ST,This register provides status information about the table walking logic"
bitfld.long 0x00 0. " TWLRUNNING         ,Table Walking Logic is running - TWLCOMP. - TWLRUN." "TWLCOMP,TWLRUN"
group.long 0x44++0x3
line.long 0x00 "MMU_CNTL,This register programs the MMU features"
bitfld.long 0x00 3. " EMUTLBUPDATE       ,Enable TLB update on emulator table walk - EMUDIS. - EMUEN." "EMUDIS,EMUEN"
bitfld.long 0x00 2. "           TWLENABLE      ,Table Walking Logic enable - TWLDIS. - TWLEN." "TWLDIS,TWLEN"
bitfld.long 0x00 1. "      MMUENABLE      ,MMU enable - MMUDIS. - MMUEN." "MMUDIS,MMUEN"
rgroup.long 0x48++0x3
line.long 0x00 "MMU_FAULT_AD,This register contains the virtual address that generated the interrupt"
hexmask.long 0x00 0.--31. 1. " FAULTADDRESS       ,Virtual address of the access that generated a fault"
group.long 0x4C++0x3
line.long 0x00 "MMU_TTB,This register contains the Translation Table Base address"
hexmask.long 0x00 7.--31. 1. " TTBADDRESS         ,Translation Table Base Address"
group.long 0x50++0x3
line.long 0x00 "MMU_LOCK,This register locks some of the TLB entries"
bitfld.long 0x00 10.--14. " BASEVALUE          ,Locked entries base value." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 4.--8. "               CURRENTVICTIM  ,Current entry to be updated either by the TWL or by the software." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
wgroup.long 0x54++0x3
line.long 0x00 "MMU_LD_TLB,This register loads a TLB entry (CAM+RAM)"
bitfld.long 0x00 0. " LDTLBITEM          ,Write (load) data in the TLB. Reads return 0. - NOEFFECT_W. - LDTLB_W." "NOEFFECT_W,LDTLB_W"
group.long 0x58++0x3
line.long 0x00 "MMU_CAM,This register holds a CAM entry"
hexmask.long.tbyte 0x00 12.--31. 1. " VATAG              ,Virtual address tag"
bitfld.long 0x00 3. "           P              ,Preserved bit - CANFLUSH. - NOFLUSH." "CANFLUSH,NOFLUSH"
bitfld.long 0x00 2. "    V              ,Valid bit - INVALID. - VALID." "INVALID,VALID"
textline "                                  "
bitfld.long 0x00 0.--1. " PAGESIZE           ,Page size - SECTION. - LARGE. - SMALL. - SUPER." "SECTION,LARGE,SMALL,SUPER"
group.long 0x5C++0x3
line.long 0x00 "MMU_RAM,This register contains bits [31:12] of the physical address to be written to a TLB entry pointed to by CURRENTVICTIM field of register."
hexmask.long.tbyte 0x00 12.--31. 1. " PHYSICALADDRESS    ,Physical address of the page"
wgroup.long 0x60++0x3
line.long 0x00 "MMU_GFLUSH,This register flushes all the non-protected TLB entries"
bitfld.long 0x00 0. " GLOBALFLUSH        ,Flush all the non-protected TLB entries when set. Reads return 0. - NFT_W. - FLUSH_W." "NFT_W,FLUSH_W"
wgroup.long 0x64++0x3
line.long 0x00 "MMU_FLUSH_ENTRY,This register flushes the entry pointed to by the CAM virtual address"
bitfld.long 0x00 0. " FLUSHENTRY         ,Flush the TLB entry pointed by the virtual address (VATag) inMMU_CAM register, even if this entry is set protected. Reads return 0. - NOFUN_W. - FLUSHTLB_W." "NOFUN_W,FLUSHTLB_W"
rgroup.long 0x68++0x3
line.long 0x00 "MMU_READ_CAM,This register reads CAM data from a CAM entry"
hexmask.long.tbyte 0x00 12.--31. 1. " VATAG              ,Virtual address tag"
bitfld.long 0x00 3. "           P              ,Preserved bit - CANFLUSH. - NOFLUSH." "CANFLUSH,NOFLUSH"
bitfld.long 0x00 2. "    V              ,Valid bit - INVALID. - VALID." "INVALID,VALID"
textline "                                  "
bitfld.long 0x00 0.--1. " PAGESIZE           ,Page size - SECTION. - LARGE. - SMALL. - SUPER." "SECTION,LARGE,SMALL,SUPER"
rgroup.long 0x6C++0x3
line.long 0x00 "MMU_READ_RAM,This register reads bits [31:12] of the physical address from the TLB entry pointed to by CURRENTVICTIM field of the register."
hexmask.long.tbyte 0x00 12.--31. 1. " PHYSICALADDRESS    ,Physical address of the page"
rgroup.long 0x70++0x3
line.long 0x00 "MMU_EMU_FAULT_AD,This register contains the last virtual address of a fault caused by the debugger"
hexmask.long 0x00 0.--31. 1. " EMUFAULTADDRESS    ,Virtual address of the last emulator access that generated a fault"
rgroup.long 0x80++0x3
line.long 0x00 "MMU_FAULT_PC,Typically CPU program counter value of instruction generating MMU fault. The address value is captured at [31:0] EMUFAULTADDRESS. Data-Read-access : corresponding PC. Data-write-access : not perfect accuracy due to posted-write."
hexmask.long 0x00 0.--31. 1. " PC                 ,Typically CPU program counter value of instruction generating MMU fault"
group.long 0x84++0x3
line.long 0x00 "MMU_FAULT_STATUS,Fault status register"
bitfld.long 0x00 4.--8. " MMU_FAULT_TRANS_ID ,MtagID of the transaction that caused fault" "DMA_RD1,DMA_RD2,DMA_WR1,DMA_WR2,CACHE_MISC,CACHE_CPU,CACHE_DMA,7,MMU_HW_TBL_WALK,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  RD_WR          ,Indicates read or write - WRITE. - READ." "WRITE,READ"
bitfld.long 0x00 1.--2. "       MMU_FAULT_TYPE ,MReqInfo[1:0] is captured as fault type" "LD_ST,FETCH,DMA,3"
textline "                                  "
eventfld.long 0x00 0. " FAULTINDICATION    ,Indicates an MMU fault" "0,1"
group.long 0x88++0x3
line.long 0x00 "MMU_GPR,General purpose register"
hexmask.long.word 0x00 16.--31. 1. " GPO                ,General purpose output sent out as MMU output"
bitfld.long 0x00 0. "             FAULT_INTR_DIS ,Disable generation of interrupt on fault. Error response is returned instead on the slave port" "0,1"
group.long 0x90++0x3
line.long 0x00 "MMU_BYPASS_REGION1_ADDR,This register contains the start address of the first NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION1_SIZE"
group.long 0x94++0x3
line.long 0x00 "MMU_BYPASS_REGION1_SIZE,This register contains the size of first NO TRANSLATION REGION for"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x98++0x3
line.long 0x00 "MMU_BYPASS_REGION2_ADDR,This register contains the start address of the second NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0x9C++0x3
line.long 0x00 "MMU_BYPASS_REGION2_SIZE,This register contains the size of second NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA0++0x3
line.long 0x00 "MMU_BYPASS_REGION3_ADDR,This register contains the start address of the third NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0xA4++0x3
line.long 0x00 "MMU_BYPASS_REGION3_SIZE,This register contains the size of third NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA8++0x3
line.long 0x00 "MMU_BYPASS_REGION4_ADDR,This register contains the start address of the fourth NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0xAC++0x3
line.long 0x00 "MMU_BYPASS_REGION4_SIZE,This register contains the size of fourth NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree "EVE2_MMU1"
base ad:0x42182000
width 25.
rgroup.long 0x0++0x3
line.long 0x00 "MMU_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION           ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MMU_SYSCONFIG,This register controls the various parameters of the OCP interface"
bitfld.long 0x00 8.--9. " CLOCKACTIVITY      ,Clock activity during wake-up mode - ." "0,1,2,3"
bitfld.long 0x00 3.--4. "                IDLEMODE       ,Idle mode - SFIDLE. - SNIDLE. - SSIDLE. - RES." "SFIDLE,SNIDLE,SSIDLE,RES"
bitfld.long 0x00 1. "      SOFTRESET      ,Software reset. This bit is automatically reset by the hardware. During reads, it always return 0 - NOFUN_W. - RSTMODE_W." "NOFUN_W,RSTMODE_W"
textline "                                  "
bitfld.long 0x00 0. " AUTOIDLE           ,Internal OCP clock gating strategy - CLKFREE. - AUTOCLKGATE." "CLKFREE,AUTOCLKGATE"
rgroup.long 0x14++0x3
line.long 0x00 "MMU_SYSSTATUS,This register provides status information about the module, excluding the interrupt status information"
bitfld.long 0x00 0. " RESETDONE          ,Internal reset monitoring - RSTONGOING. - RSTCOMP." "RSTONGOING,RSTCOMP"
group.long 0x18++0x3
line.long 0x00 "MMU_IRQSTATUS,This interrupt status register regroups all the status of the module internal events that can generate an interrupt."
eventfld.long 0x00 4. " MULTIHITFAULT      ,Error due to multiple matches in the TLB - NMHF_R. - MHFSTAT_W. - RMHFSTAT_W. - MHF_R." "NMHF_R,RMHFSTAT_W"
eventfld.long 0x00 3. "       TABLEWALKFAULT ,Error response received during a Table Walk - NTWF_R. - TWFSTAT_W. - RTWFSTAT_W. - TWF_R." "NTWF_R,RTWFSTAT_W"
eventfld.long 0x00 2. "  EMUMISS        ,Unrecoverable TLB miss during debug (hardware TWL disabled) - NEMUM_R. - ESTAT_W. - RESTAT_W. - EMUM_R." "NEMUM_R,RESTAT_W"
textline "                                  "
eventfld.long 0x00 1. " TRANSLATIONFAULT   ,Invalid descriptor in translation tables (translation fault) - NFAULT_R. - FSTAT_W. - RFSTAT_W. - FAULT_R." "NFAULT_R,RFSTAT_W"
eventfld.long 0x00 0. "         TLBMISS        ,Unrecoverable TLB miss (hardware TWL disabled) - NTLBM_R. - MSTAT_W. - RMSTAT_W. - TLBM_R." "NTLBM_R,RMSTAT_W"
group.long 0x1C++0x3
line.long 0x00 "MMU_IRQENABLE,The interrupt enable register allows to mask/unmask the module internal sources of interrupt, on a event-by-event basis."
bitfld.long 0x00 4. " MULTIHITFAULT      ,Error due to multiple matches in the TLB - MHFLTMASK. - MHFLTGINT." "MHFLTMASK,MHFLTGINT"
bitfld.long 0x00 3. "        TABLEWALKFAULT ,Error response received during a Table Walk - TWLFLTMASK. - TWLFLTGINT." "TWLFLTMASK,TWLFLTGINT"
bitfld.long 0x00 2. "  EMUMISS        ,Unrecoverable TLB miss during debug (hardware TWL disabled) - EMUMFLTMASK. - EMUMFLTGINT." "EMUMFLTMASK,EMUMFLTGINT"
textline "                                  "
bitfld.long 0x00 1. " TRANSLATIONFAULT   ,Invalid descriptor in translation tables (translation fault) - TRANFLTMASK. - TRANFLTGINT." "TRANFLTMASK,TRANFLTGINT"
bitfld.long 0x00 0. "      TLBMISS        ,Unrecoverable TLB miss (hardware TWL disabled) - TRMISSINTM. - TRMISSGINT." "TRMISSINTM,TRMISSGINT"
rgroup.long 0x40++0x3
line.long 0x00 "MMU_WALKING_ST,This register provides status information about the table walking logic"
bitfld.long 0x00 0. " TWLRUNNING         ,Table Walking Logic is running - TWLCOMP. - TWLRUN." "TWLCOMP,TWLRUN"
group.long 0x44++0x3
line.long 0x00 "MMU_CNTL,This register programs the MMU features"
bitfld.long 0x00 3. " EMUTLBUPDATE       ,Enable TLB update on emulator table walk - EMUDIS. - EMUEN." "EMUDIS,EMUEN"
bitfld.long 0x00 2. "           TWLENABLE      ,Table Walking Logic enable - TWLDIS. - TWLEN." "TWLDIS,TWLEN"
bitfld.long 0x00 1. "      MMUENABLE      ,MMU enable - MMUDIS. - MMUEN." "MMUDIS,MMUEN"
rgroup.long 0x48++0x3
line.long 0x00 "MMU_FAULT_AD,This register contains the virtual address that generated the interrupt"
hexmask.long 0x00 0.--31. 1. " FAULTADDRESS       ,Virtual address of the access that generated a fault"
group.long 0x4C++0x3
line.long 0x00 "MMU_TTB,This register contains the Translation Table Base address"
hexmask.long 0x00 7.--31. 1. " TTBADDRESS         ,Translation Table Base Address"
group.long 0x50++0x3
line.long 0x00 "MMU_LOCK,This register locks some of the TLB entries"
bitfld.long 0x00 10.--14. " BASEVALUE          ,Locked entries base value." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 4.--8. "               CURRENTVICTIM  ,Current entry to be updated either by the TWL or by the software." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
wgroup.long 0x54++0x3
line.long 0x00 "MMU_LD_TLB,This register loads a TLB entry (CAM+RAM)"
bitfld.long 0x00 0. " LDTLBITEM          ,Write (load) data in the TLB. Reads return 0. - NOEFFECT_W. - LDTLB_W." "NOEFFECT_W,LDTLB_W"
group.long 0x58++0x3
line.long 0x00 "MMU_CAM,This register holds a CAM entry"
hexmask.long.tbyte 0x00 12.--31. 1. " VATAG              ,Virtual address tag"
bitfld.long 0x00 3. "           P              ,Preserved bit - CANFLUSH. - NOFLUSH." "CANFLUSH,NOFLUSH"
bitfld.long 0x00 2. "    V              ,Valid bit - INVALID. - VALID." "INVALID,VALID"
textline "                                  "
bitfld.long 0x00 0.--1. " PAGESIZE           ,Page size - SECTION. - LARGE. - SMALL. - SUPER." "SECTION,LARGE,SMALL,SUPER"
group.long 0x5C++0x3
line.long 0x00 "MMU_RAM,This register contains bits [31:12] of the physical address to be written to a TLB entry pointed to by CURRENTVICTIM field of register."
hexmask.long.tbyte 0x00 12.--31. 1. " PHYSICALADDRESS    ,Physical address of the page"
wgroup.long 0x60++0x3
line.long 0x00 "MMU_GFLUSH,This register flushes all the non-protected TLB entries"
bitfld.long 0x00 0. " GLOBALFLUSH        ,Flush all the non-protected TLB entries when set. Reads return 0. - NFT_W. - FLUSH_W." "NFT_W,FLUSH_W"
wgroup.long 0x64++0x3
line.long 0x00 "MMU_FLUSH_ENTRY,This register flushes the entry pointed to by the CAM virtual address"
bitfld.long 0x00 0. " FLUSHENTRY         ,Flush the TLB entry pointed by the virtual address (VATag) inMMU_CAM register, even if this entry is set protected. Reads return 0. - NOFUN_W. - FLUSHTLB_W." "NOFUN_W,FLUSHTLB_W"
rgroup.long 0x68++0x3
line.long 0x00 "MMU_READ_CAM,This register reads CAM data from a CAM entry"
hexmask.long.tbyte 0x00 12.--31. 1. " VATAG              ,Virtual address tag"
bitfld.long 0x00 3. "           P              ,Preserved bit - CANFLUSH. - NOFLUSH." "CANFLUSH,NOFLUSH"
bitfld.long 0x00 2. "    V              ,Valid bit - INVALID. - VALID." "INVALID,VALID"
textline "                                  "
bitfld.long 0x00 0.--1. " PAGESIZE           ,Page size - SECTION. - LARGE. - SMALL. - SUPER." "SECTION,LARGE,SMALL,SUPER"
rgroup.long 0x6C++0x3
line.long 0x00 "MMU_READ_RAM,This register reads bits [31:12] of the physical address from the TLB entry pointed to by CURRENTVICTIM field of the register."
hexmask.long.tbyte 0x00 12.--31. 1. " PHYSICALADDRESS    ,Physical address of the page"
rgroup.long 0x70++0x3
line.long 0x00 "MMU_EMU_FAULT_AD,This register contains the last virtual address of a fault caused by the debugger"
hexmask.long 0x00 0.--31. 1. " EMUFAULTADDRESS    ,Virtual address of the last emulator access that generated a fault"
rgroup.long 0x80++0x3
line.long 0x00 "MMU_FAULT_PC,Typically CPU program counter value of instruction generating MMU fault. The address value is captured at [31:0] EMUFAULTADDRESS. Data-Read-access : corresponding PC. Data-write-access : not perfect accuracy due to posted-write."
hexmask.long 0x00 0.--31. 1. " PC                 ,Typically CPU program counter value of instruction generating MMU fault"
group.long 0x84++0x3
line.long 0x00 "MMU_FAULT_STATUS,Fault status register"
bitfld.long 0x00 4.--8. " MMU_FAULT_TRANS_ID ,MtagID of the transaction that caused fault" "DMA_RD1,DMA_RD2,DMA_WR1,DMA_WR2,CACHE_MISC,CACHE_CPU,CACHE_DMA,7,MMU_HW_TBL_WALK,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  RD_WR          ,Indicates read or write - WRITE. - READ." "WRITE,READ"
bitfld.long 0x00 1.--2. "       MMU_FAULT_TYPE ,MReqInfo[1:0] is captured as fault type" "LD_ST,FETCH,DMA,3"
textline "                                  "
eventfld.long 0x00 0. " FAULTINDICATION    ,Indicates an MMU fault" "0,1"
group.long 0x88++0x3
line.long 0x00 "MMU_GPR,General purpose register"
hexmask.long.word 0x00 16.--31. 1. " GPO                ,General purpose output sent out as MMU output"
bitfld.long 0x00 0. "             FAULT_INTR_DIS ,Disable generation of interrupt on fault. Error response is returned instead on the slave port" "0,1"
group.long 0x90++0x3
line.long 0x00 "MMU_BYPASS_REGION1_ADDR,This register contains the start address of the first NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION1_SIZE"
group.long 0x94++0x3
line.long 0x00 "MMU_BYPASS_REGION1_SIZE,This register contains the size of first NO TRANSLATION REGION for"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x98++0x3
line.long 0x00 "MMU_BYPASS_REGION2_ADDR,This register contains the start address of the second NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0x9C++0x3
line.long 0x00 "MMU_BYPASS_REGION2_SIZE,This register contains the size of second NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA0++0x3
line.long 0x00 "MMU_BYPASS_REGION3_ADDR,This register contains the start address of the third NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0xA4++0x3
line.long 0x00 "MMU_BYPASS_REGION3_SIZE,This register contains the size of third NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA8++0x3
line.long 0x00 "MMU_BYPASS_REGION4_ADDR,This register contains the start address of the fourth NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0xAC++0x3
line.long 0x00 "MMU_BYPASS_REGION4_SIZE,This register contains the size of fourth NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree "EVE3_MMU0"
base ad:0x42281000
width 25.
rgroup.long 0x0++0x3
line.long 0x00 "MMU_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION           ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MMU_SYSCONFIG,This register controls the various parameters of the OCP interface"
bitfld.long 0x00 8.--9. " CLOCKACTIVITY      ,Clock activity during wake-up mode - ." "0,1,2,3"
bitfld.long 0x00 3.--4. "                IDLEMODE       ,Idle mode - SFIDLE. - SNIDLE. - SSIDLE. - RES." "SFIDLE,SNIDLE,SSIDLE,RES"
bitfld.long 0x00 1. "      SOFTRESET      ,Software reset. This bit is automatically reset by the hardware. During reads, it always return 0 - NOFUN_W. - RSTMODE_W." "NOFUN_W,RSTMODE_W"
textline "                                  "
bitfld.long 0x00 0. " AUTOIDLE           ,Internal OCP clock gating strategy - CLKFREE. - AUTOCLKGATE." "CLKFREE,AUTOCLKGATE"
rgroup.long 0x14++0x3
line.long 0x00 "MMU_SYSSTATUS,This register provides status information about the module, excluding the interrupt status information"
bitfld.long 0x00 0. " RESETDONE          ,Internal reset monitoring - RSTONGOING. - RSTCOMP." "RSTONGOING,RSTCOMP"
group.long 0x18++0x3
line.long 0x00 "MMU_IRQSTATUS,This interrupt status register regroups all the status of the module internal events that can generate an interrupt."
eventfld.long 0x00 4. " MULTIHITFAULT      ,Error due to multiple matches in the TLB - NMHF_R. - MHFSTAT_W. - RMHFSTAT_W. - MHF_R." "NMHF_R,RMHFSTAT_W"
eventfld.long 0x00 3. "       TABLEWALKFAULT ,Error response received during a Table Walk - NTWF_R. - TWFSTAT_W. - RTWFSTAT_W. - TWF_R." "NTWF_R,RTWFSTAT_W"
eventfld.long 0x00 2. "  EMUMISS        ,Unrecoverable TLB miss during debug (hardware TWL disabled) - NEMUM_R. - ESTAT_W. - RESTAT_W. - EMUM_R." "NEMUM_R,RESTAT_W"
textline "                                  "
eventfld.long 0x00 1. " TRANSLATIONFAULT   ,Invalid descriptor in translation tables (translation fault) - NFAULT_R. - FSTAT_W. - RFSTAT_W. - FAULT_R." "NFAULT_R,RFSTAT_W"
eventfld.long 0x00 0. "         TLBMISS        ,Unrecoverable TLB miss (hardware TWL disabled) - NTLBM_R. - MSTAT_W. - RMSTAT_W. - TLBM_R." "NTLBM_R,RMSTAT_W"
group.long 0x1C++0x3
line.long 0x00 "MMU_IRQENABLE,The interrupt enable register allows to mask/unmask the module internal sources of interrupt, on a event-by-event basis."
bitfld.long 0x00 4. " MULTIHITFAULT      ,Error due to multiple matches in the TLB - MHFLTMASK. - MHFLTGINT." "MHFLTMASK,MHFLTGINT"
bitfld.long 0x00 3. "        TABLEWALKFAULT ,Error response received during a Table Walk - TWLFLTMASK. - TWLFLTGINT." "TWLFLTMASK,TWLFLTGINT"
bitfld.long 0x00 2. "  EMUMISS        ,Unrecoverable TLB miss during debug (hardware TWL disabled) - EMUMFLTMASK. - EMUMFLTGINT." "EMUMFLTMASK,EMUMFLTGINT"
textline "                                  "
bitfld.long 0x00 1. " TRANSLATIONFAULT   ,Invalid descriptor in translation tables (translation fault) - TRANFLTMASK. - TRANFLTGINT." "TRANFLTMASK,TRANFLTGINT"
bitfld.long 0x00 0. "      TLBMISS        ,Unrecoverable TLB miss (hardware TWL disabled) - TRMISSINTM. - TRMISSGINT." "TRMISSINTM,TRMISSGINT"
rgroup.long 0x40++0x3
line.long 0x00 "MMU_WALKING_ST,This register provides status information about the table walking logic"
bitfld.long 0x00 0. " TWLRUNNING         ,Table Walking Logic is running - TWLCOMP. - TWLRUN." "TWLCOMP,TWLRUN"
group.long 0x44++0x3
line.long 0x00 "MMU_CNTL,This register programs the MMU features"
bitfld.long 0x00 3. " EMUTLBUPDATE       ,Enable TLB update on emulator table walk - EMUDIS. - EMUEN." "EMUDIS,EMUEN"
bitfld.long 0x00 2. "           TWLENABLE      ,Table Walking Logic enable - TWLDIS. - TWLEN." "TWLDIS,TWLEN"
bitfld.long 0x00 1. "      MMUENABLE      ,MMU enable - MMUDIS. - MMUEN." "MMUDIS,MMUEN"
rgroup.long 0x48++0x3
line.long 0x00 "MMU_FAULT_AD,This register contains the virtual address that generated the interrupt"
hexmask.long 0x00 0.--31. 1. " FAULTADDRESS       ,Virtual address of the access that generated a fault"
group.long 0x4C++0x3
line.long 0x00 "MMU_TTB,This register contains the Translation Table Base address"
hexmask.long 0x00 7.--31. 1. " TTBADDRESS         ,Translation Table Base Address"
group.long 0x50++0x3
line.long 0x00 "MMU_LOCK,This register locks some of the TLB entries"
bitfld.long 0x00 10.--14. " BASEVALUE          ,Locked entries base value." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 4.--8. "               CURRENTVICTIM  ,Current entry to be updated either by the TWL or by the software." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
wgroup.long 0x54++0x3
line.long 0x00 "MMU_LD_TLB,This register loads a TLB entry (CAM+RAM)"
bitfld.long 0x00 0. " LDTLBITEM          ,Write (load) data in the TLB. Reads return 0. - NOEFFECT_W. - LDTLB_W." "NOEFFECT_W,LDTLB_W"
group.long 0x58++0x3
line.long 0x00 "MMU_CAM,This register holds a CAM entry"
hexmask.long.tbyte 0x00 12.--31. 1. " VATAG              ,Virtual address tag"
bitfld.long 0x00 3. "           P              ,Preserved bit - CANFLUSH. - NOFLUSH." "CANFLUSH,NOFLUSH"
bitfld.long 0x00 2. "    V              ,Valid bit - INVALID. - VALID." "INVALID,VALID"
textline "                                  "
bitfld.long 0x00 0.--1. " PAGESIZE           ,Page size - SECTION. - LARGE. - SMALL. - SUPER." "SECTION,LARGE,SMALL,SUPER"
group.long 0x5C++0x3
line.long 0x00 "MMU_RAM,This register contains bits [31:12] of the physical address to be written to a TLB entry pointed to by CURRENTVICTIM field of register."
hexmask.long.tbyte 0x00 12.--31. 1. " PHYSICALADDRESS    ,Physical address of the page"
wgroup.long 0x60++0x3
line.long 0x00 "MMU_GFLUSH,This register flushes all the non-protected TLB entries"
bitfld.long 0x00 0. " GLOBALFLUSH        ,Flush all the non-protected TLB entries when set. Reads return 0. - NFT_W. - FLUSH_W." "NFT_W,FLUSH_W"
wgroup.long 0x64++0x3
line.long 0x00 "MMU_FLUSH_ENTRY,This register flushes the entry pointed to by the CAM virtual address"
bitfld.long 0x00 0. " FLUSHENTRY         ,Flush the TLB entry pointed by the virtual address (VATag) inMMU_CAM register, even if this entry is set protected. Reads return 0. - NOFUN_W. - FLUSHTLB_W." "NOFUN_W,FLUSHTLB_W"
rgroup.long 0x68++0x3
line.long 0x00 "MMU_READ_CAM,This register reads CAM data from a CAM entry"
hexmask.long.tbyte 0x00 12.--31. 1. " VATAG              ,Virtual address tag"
bitfld.long 0x00 3. "           P              ,Preserved bit - CANFLUSH. - NOFLUSH." "CANFLUSH,NOFLUSH"
bitfld.long 0x00 2. "    V              ,Valid bit - INVALID. - VALID." "INVALID,VALID"
textline "                                  "
bitfld.long 0x00 0.--1. " PAGESIZE           ,Page size - SECTION. - LARGE. - SMALL. - SUPER." "SECTION,LARGE,SMALL,SUPER"
rgroup.long 0x6C++0x3
line.long 0x00 "MMU_READ_RAM,This register reads bits [31:12] of the physical address from the TLB entry pointed to by CURRENTVICTIM field of the register."
hexmask.long.tbyte 0x00 12.--31. 1. " PHYSICALADDRESS    ,Physical address of the page"
rgroup.long 0x70++0x3
line.long 0x00 "MMU_EMU_FAULT_AD,This register contains the last virtual address of a fault caused by the debugger"
hexmask.long 0x00 0.--31. 1. " EMUFAULTADDRESS    ,Virtual address of the last emulator access that generated a fault"
rgroup.long 0x80++0x3
line.long 0x00 "MMU_FAULT_PC,Typically CPU program counter value of instruction generating MMU fault. The address value is captured at [31:0] EMUFAULTADDRESS. Data-Read-access : corresponding PC. Data-write-access : not perfect accuracy due to posted-write."
hexmask.long 0x00 0.--31. 1. " PC                 ,Typically CPU program counter value of instruction generating MMU fault"
group.long 0x84++0x3
line.long 0x00 "MMU_FAULT_STATUS,Fault status register"
bitfld.long 0x00 4.--8. " MMU_FAULT_TRANS_ID ,MtagID of the transaction that caused fault" "DMA_RD1,DMA_RD2,DMA_WR1,DMA_WR2,CACHE_MISC,CACHE_CPU,CACHE_DMA,7,MMU_HW_TBL_WALK,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  RD_WR          ,Indicates read or write - WRITE. - READ." "WRITE,READ"
bitfld.long 0x00 1.--2. "       MMU_FAULT_TYPE ,MReqInfo[1:0] is captured as fault type" "LD_ST,FETCH,DMA,3"
textline "                                  "
eventfld.long 0x00 0. " FAULTINDICATION    ,Indicates an MMU fault" "0,1"
group.long 0x88++0x3
line.long 0x00 "MMU_GPR,General purpose register"
hexmask.long.word 0x00 16.--31. 1. " GPO                ,General purpose output sent out as MMU output"
bitfld.long 0x00 0. "             FAULT_INTR_DIS ,Disable generation of interrupt on fault. Error response is returned instead on the slave port" "0,1"
group.long 0x90++0x3
line.long 0x00 "MMU_BYPASS_REGION1_ADDR,This register contains the start address of the first NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION1_SIZE"
group.long 0x94++0x3
line.long 0x00 "MMU_BYPASS_REGION1_SIZE,This register contains the size of first NO TRANSLATION REGION for"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x98++0x3
line.long 0x00 "MMU_BYPASS_REGION2_ADDR,This register contains the start address of the second NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0x9C++0x3
line.long 0x00 "MMU_BYPASS_REGION2_SIZE,This register contains the size of second NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA0++0x3
line.long 0x00 "MMU_BYPASS_REGION3_ADDR,This register contains the start address of the third NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0xA4++0x3
line.long 0x00 "MMU_BYPASS_REGION3_SIZE,This register contains the size of third NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA8++0x3
line.long 0x00 "MMU_BYPASS_REGION4_ADDR,This register contains the start address of the fourth NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0xAC++0x3
line.long 0x00 "MMU_BYPASS_REGION4_SIZE,This register contains the size of fourth NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree "EVE3_MMU1"
base ad:0x42282000
width 25.
rgroup.long 0x0++0x3
line.long 0x00 "MMU_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION           ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MMU_SYSCONFIG,This register controls the various parameters of the OCP interface"
bitfld.long 0x00 8.--9. " CLOCKACTIVITY      ,Clock activity during wake-up mode - ." "0,1,2,3"
bitfld.long 0x00 3.--4. "                IDLEMODE       ,Idle mode - SFIDLE. - SNIDLE. - SSIDLE. - RES." "SFIDLE,SNIDLE,SSIDLE,RES"
bitfld.long 0x00 1. "      SOFTRESET      ,Software reset. This bit is automatically reset by the hardware. During reads, it always return 0 - NOFUN_W. - RSTMODE_W." "NOFUN_W,RSTMODE_W"
textline "                                  "
bitfld.long 0x00 0. " AUTOIDLE           ,Internal OCP clock gating strategy - CLKFREE. - AUTOCLKGATE." "CLKFREE,AUTOCLKGATE"
rgroup.long 0x14++0x3
line.long 0x00 "MMU_SYSSTATUS,This register provides status information about the module, excluding the interrupt status information"
bitfld.long 0x00 0. " RESETDONE          ,Internal reset monitoring - RSTONGOING. - RSTCOMP." "RSTONGOING,RSTCOMP"
group.long 0x18++0x3
line.long 0x00 "MMU_IRQSTATUS,This interrupt status register regroups all the status of the module internal events that can generate an interrupt."
eventfld.long 0x00 4. " MULTIHITFAULT      ,Error due to multiple matches in the TLB - NMHF_R. - MHFSTAT_W. - RMHFSTAT_W. - MHF_R." "NMHF_R,RMHFSTAT_W"
eventfld.long 0x00 3. "       TABLEWALKFAULT ,Error response received during a Table Walk - NTWF_R. - TWFSTAT_W. - RTWFSTAT_W. - TWF_R." "NTWF_R,RTWFSTAT_W"
eventfld.long 0x00 2. "  EMUMISS        ,Unrecoverable TLB miss during debug (hardware TWL disabled) - NEMUM_R. - ESTAT_W. - RESTAT_W. - EMUM_R." "NEMUM_R,RESTAT_W"
textline "                                  "
eventfld.long 0x00 1. " TRANSLATIONFAULT   ,Invalid descriptor in translation tables (translation fault) - NFAULT_R. - FSTAT_W. - RFSTAT_W. - FAULT_R." "NFAULT_R,RFSTAT_W"
eventfld.long 0x00 0. "         TLBMISS        ,Unrecoverable TLB miss (hardware TWL disabled) - NTLBM_R. - MSTAT_W. - RMSTAT_W. - TLBM_R." "NTLBM_R,RMSTAT_W"
group.long 0x1C++0x3
line.long 0x00 "MMU_IRQENABLE,The interrupt enable register allows to mask/unmask the module internal sources of interrupt, on a event-by-event basis."
bitfld.long 0x00 4. " MULTIHITFAULT      ,Error due to multiple matches in the TLB - MHFLTMASK. - MHFLTGINT." "MHFLTMASK,MHFLTGINT"
bitfld.long 0x00 3. "        TABLEWALKFAULT ,Error response received during a Table Walk - TWLFLTMASK. - TWLFLTGINT." "TWLFLTMASK,TWLFLTGINT"
bitfld.long 0x00 2. "  EMUMISS        ,Unrecoverable TLB miss during debug (hardware TWL disabled) - EMUMFLTMASK. - EMUMFLTGINT." "EMUMFLTMASK,EMUMFLTGINT"
textline "                                  "
bitfld.long 0x00 1. " TRANSLATIONFAULT   ,Invalid descriptor in translation tables (translation fault) - TRANFLTMASK. - TRANFLTGINT." "TRANFLTMASK,TRANFLTGINT"
bitfld.long 0x00 0. "      TLBMISS        ,Unrecoverable TLB miss (hardware TWL disabled) - TRMISSINTM. - TRMISSGINT." "TRMISSINTM,TRMISSGINT"
rgroup.long 0x40++0x3
line.long 0x00 "MMU_WALKING_ST,This register provides status information about the table walking logic"
bitfld.long 0x00 0. " TWLRUNNING         ,Table Walking Logic is running - TWLCOMP. - TWLRUN." "TWLCOMP,TWLRUN"
group.long 0x44++0x3
line.long 0x00 "MMU_CNTL,This register programs the MMU features"
bitfld.long 0x00 3. " EMUTLBUPDATE       ,Enable TLB update on emulator table walk - EMUDIS. - EMUEN." "EMUDIS,EMUEN"
bitfld.long 0x00 2. "           TWLENABLE      ,Table Walking Logic enable - TWLDIS. - TWLEN." "TWLDIS,TWLEN"
bitfld.long 0x00 1. "      MMUENABLE      ,MMU enable - MMUDIS. - MMUEN." "MMUDIS,MMUEN"
rgroup.long 0x48++0x3
line.long 0x00 "MMU_FAULT_AD,This register contains the virtual address that generated the interrupt"
hexmask.long 0x00 0.--31. 1. " FAULTADDRESS       ,Virtual address of the access that generated a fault"
group.long 0x4C++0x3
line.long 0x00 "MMU_TTB,This register contains the Translation Table Base address"
hexmask.long 0x00 7.--31. 1. " TTBADDRESS         ,Translation Table Base Address"
group.long 0x50++0x3
line.long 0x00 "MMU_LOCK,This register locks some of the TLB entries"
bitfld.long 0x00 10.--14. " BASEVALUE          ,Locked entries base value." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 4.--8. "               CURRENTVICTIM  ,Current entry to be updated either by the TWL or by the software." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
wgroup.long 0x54++0x3
line.long 0x00 "MMU_LD_TLB,This register loads a TLB entry (CAM+RAM)"
bitfld.long 0x00 0. " LDTLBITEM          ,Write (load) data in the TLB. Reads return 0. - NOEFFECT_W. - LDTLB_W." "NOEFFECT_W,LDTLB_W"
group.long 0x58++0x3
line.long 0x00 "MMU_CAM,This register holds a CAM entry"
hexmask.long.tbyte 0x00 12.--31. 1. " VATAG              ,Virtual address tag"
bitfld.long 0x00 3. "           P              ,Preserved bit - CANFLUSH. - NOFLUSH." "CANFLUSH,NOFLUSH"
bitfld.long 0x00 2. "    V              ,Valid bit - INVALID. - VALID." "INVALID,VALID"
textline "                                  "
bitfld.long 0x00 0.--1. " PAGESIZE           ,Page size - SECTION. - LARGE. - SMALL. - SUPER." "SECTION,LARGE,SMALL,SUPER"
group.long 0x5C++0x3
line.long 0x00 "MMU_RAM,This register contains bits [31:12] of the physical address to be written to a TLB entry pointed to by CURRENTVICTIM field of register."
hexmask.long.tbyte 0x00 12.--31. 1. " PHYSICALADDRESS    ,Physical address of the page"
wgroup.long 0x60++0x3
line.long 0x00 "MMU_GFLUSH,This register flushes all the non-protected TLB entries"
bitfld.long 0x00 0. " GLOBALFLUSH        ,Flush all the non-protected TLB entries when set. Reads return 0. - NFT_W. - FLUSH_W." "NFT_W,FLUSH_W"
wgroup.long 0x64++0x3
line.long 0x00 "MMU_FLUSH_ENTRY,This register flushes the entry pointed to by the CAM virtual address"
bitfld.long 0x00 0. " FLUSHENTRY         ,Flush the TLB entry pointed by the virtual address (VATag) inMMU_CAM register, even if this entry is set protected. Reads return 0. - NOFUN_W. - FLUSHTLB_W." "NOFUN_W,FLUSHTLB_W"
rgroup.long 0x68++0x3
line.long 0x00 "MMU_READ_CAM,This register reads CAM data from a CAM entry"
hexmask.long.tbyte 0x00 12.--31. 1. " VATAG              ,Virtual address tag"
bitfld.long 0x00 3. "           P              ,Preserved bit - CANFLUSH. - NOFLUSH." "CANFLUSH,NOFLUSH"
bitfld.long 0x00 2. "    V              ,Valid bit - INVALID. - VALID." "INVALID,VALID"
textline "                                  "
bitfld.long 0x00 0.--1. " PAGESIZE           ,Page size - SECTION. - LARGE. - SMALL. - SUPER." "SECTION,LARGE,SMALL,SUPER"
rgroup.long 0x6C++0x3
line.long 0x00 "MMU_READ_RAM,This register reads bits [31:12] of the physical address from the TLB entry pointed to by CURRENTVICTIM field of the register."
hexmask.long.tbyte 0x00 12.--31. 1. " PHYSICALADDRESS    ,Physical address of the page"
rgroup.long 0x70++0x3
line.long 0x00 "MMU_EMU_FAULT_AD,This register contains the last virtual address of a fault caused by the debugger"
hexmask.long 0x00 0.--31. 1. " EMUFAULTADDRESS    ,Virtual address of the last emulator access that generated a fault"
rgroup.long 0x80++0x3
line.long 0x00 "MMU_FAULT_PC,Typically CPU program counter value of instruction generating MMU fault. The address value is captured at [31:0] EMUFAULTADDRESS. Data-Read-access : corresponding PC. Data-write-access : not perfect accuracy due to posted-write."
hexmask.long 0x00 0.--31. 1. " PC                 ,Typically CPU program counter value of instruction generating MMU fault"
group.long 0x84++0x3
line.long 0x00 "MMU_FAULT_STATUS,Fault status register"
bitfld.long 0x00 4.--8. " MMU_FAULT_TRANS_ID ,MtagID of the transaction that caused fault" "DMA_RD1,DMA_RD2,DMA_WR1,DMA_WR2,CACHE_MISC,CACHE_CPU,CACHE_DMA,7,MMU_HW_TBL_WALK,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  RD_WR          ,Indicates read or write - WRITE. - READ." "WRITE,READ"
bitfld.long 0x00 1.--2. "       MMU_FAULT_TYPE ,MReqInfo[1:0] is captured as fault type" "LD_ST,FETCH,DMA,3"
textline "                                  "
eventfld.long 0x00 0. " FAULTINDICATION    ,Indicates an MMU fault" "0,1"
group.long 0x88++0x3
line.long 0x00 "MMU_GPR,General purpose register"
hexmask.long.word 0x00 16.--31. 1. " GPO                ,General purpose output sent out as MMU output"
bitfld.long 0x00 0. "             FAULT_INTR_DIS ,Disable generation of interrupt on fault. Error response is returned instead on the slave port" "0,1"
group.long 0x90++0x3
line.long 0x00 "MMU_BYPASS_REGION1_ADDR,This register contains the start address of the first NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION1_SIZE"
group.long 0x94++0x3
line.long 0x00 "MMU_BYPASS_REGION1_SIZE,This register contains the size of first NO TRANSLATION REGION for"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x98++0x3
line.long 0x00 "MMU_BYPASS_REGION2_ADDR,This register contains the start address of the second NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0x9C++0x3
line.long 0x00 "MMU_BYPASS_REGION2_SIZE,This register contains the size of second NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA0++0x3
line.long 0x00 "MMU_BYPASS_REGION3_ADDR,This register contains the start address of the third NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0xA4++0x3
line.long 0x00 "MMU_BYPASS_REGION3_SIZE,This register contains the size of third NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA8++0x3
line.long 0x00 "MMU_BYPASS_REGION4_ADDR,This register contains the start address of the fourth NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0xAC++0x3
line.long 0x00 "MMU_BYPASS_REGION4_SIZE,This register contains the size of fourth NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree "EVE4_MMU0"
base ad:0x42381000
width 25.
rgroup.long 0x0++0x3
line.long 0x00 "MMU_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION           ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MMU_SYSCONFIG,This register controls the various parameters of the OCP interface"
bitfld.long 0x00 8.--9. " CLOCKACTIVITY      ,Clock activity during wake-up mode - ." "0,1,2,3"
bitfld.long 0x00 3.--4. "                IDLEMODE       ,Idle mode - SFIDLE. - SNIDLE. - SSIDLE. - RES." "SFIDLE,SNIDLE,SSIDLE,RES"
bitfld.long 0x00 1. "      SOFTRESET      ,Software reset. This bit is automatically reset by the hardware. During reads, it always return 0 - NOFUN_W. - RSTMODE_W." "NOFUN_W,RSTMODE_W"
textline "                                  "
bitfld.long 0x00 0. " AUTOIDLE           ,Internal OCP clock gating strategy - CLKFREE. - AUTOCLKGATE." "CLKFREE,AUTOCLKGATE"
rgroup.long 0x14++0x3
line.long 0x00 "MMU_SYSSTATUS,This register provides status information about the module, excluding the interrupt status information"
bitfld.long 0x00 0. " RESETDONE          ,Internal reset monitoring - RSTONGOING. - RSTCOMP." "RSTONGOING,RSTCOMP"
group.long 0x18++0x3
line.long 0x00 "MMU_IRQSTATUS,This interrupt status register regroups all the status of the module internal events that can generate an interrupt."
eventfld.long 0x00 4. " MULTIHITFAULT      ,Error due to multiple matches in the TLB - NMHF_R. - MHFSTAT_W. - RMHFSTAT_W. - MHF_R." "NMHF_R,RMHFSTAT_W"
eventfld.long 0x00 3. "       TABLEWALKFAULT ,Error response received during a Table Walk - NTWF_R. - TWFSTAT_W. - RTWFSTAT_W. - TWF_R." "NTWF_R,RTWFSTAT_W"
eventfld.long 0x00 2. "  EMUMISS        ,Unrecoverable TLB miss during debug (hardware TWL disabled) - NEMUM_R. - ESTAT_W. - RESTAT_W. - EMUM_R." "NEMUM_R,RESTAT_W"
textline "                                  "
eventfld.long 0x00 1. " TRANSLATIONFAULT   ,Invalid descriptor in translation tables (translation fault) - NFAULT_R. - FSTAT_W. - RFSTAT_W. - FAULT_R." "NFAULT_R,RFSTAT_W"
eventfld.long 0x00 0. "         TLBMISS        ,Unrecoverable TLB miss (hardware TWL disabled) - NTLBM_R. - MSTAT_W. - RMSTAT_W. - TLBM_R." "NTLBM_R,RMSTAT_W"
group.long 0x1C++0x3
line.long 0x00 "MMU_IRQENABLE,The interrupt enable register allows to mask/unmask the module internal sources of interrupt, on a event-by-event basis."
bitfld.long 0x00 4. " MULTIHITFAULT      ,Error due to multiple matches in the TLB - MHFLTMASK. - MHFLTGINT." "MHFLTMASK,MHFLTGINT"
bitfld.long 0x00 3. "        TABLEWALKFAULT ,Error response received during a Table Walk - TWLFLTMASK. - TWLFLTGINT." "TWLFLTMASK,TWLFLTGINT"
bitfld.long 0x00 2. "  EMUMISS        ,Unrecoverable TLB miss during debug (hardware TWL disabled) - EMUMFLTMASK. - EMUMFLTGINT." "EMUMFLTMASK,EMUMFLTGINT"
textline "                                  "
bitfld.long 0x00 1. " TRANSLATIONFAULT   ,Invalid descriptor in translation tables (translation fault) - TRANFLTMASK. - TRANFLTGINT." "TRANFLTMASK,TRANFLTGINT"
bitfld.long 0x00 0. "      TLBMISS        ,Unrecoverable TLB miss (hardware TWL disabled) - TRMISSINTM. - TRMISSGINT." "TRMISSINTM,TRMISSGINT"
rgroup.long 0x40++0x3
line.long 0x00 "MMU_WALKING_ST,This register provides status information about the table walking logic"
bitfld.long 0x00 0. " TWLRUNNING         ,Table Walking Logic is running - TWLCOMP. - TWLRUN." "TWLCOMP,TWLRUN"
group.long 0x44++0x3
line.long 0x00 "MMU_CNTL,This register programs the MMU features"
bitfld.long 0x00 3. " EMUTLBUPDATE       ,Enable TLB update on emulator table walk - EMUDIS. - EMUEN." "EMUDIS,EMUEN"
bitfld.long 0x00 2. "           TWLENABLE      ,Table Walking Logic enable - TWLDIS. - TWLEN." "TWLDIS,TWLEN"
bitfld.long 0x00 1. "      MMUENABLE      ,MMU enable - MMUDIS. - MMUEN." "MMUDIS,MMUEN"
rgroup.long 0x48++0x3
line.long 0x00 "MMU_FAULT_AD,This register contains the virtual address that generated the interrupt"
hexmask.long 0x00 0.--31. 1. " FAULTADDRESS       ,Virtual address of the access that generated a fault"
group.long 0x4C++0x3
line.long 0x00 "MMU_TTB,This register contains the Translation Table Base address"
hexmask.long 0x00 7.--31. 1. " TTBADDRESS         ,Translation Table Base Address"
group.long 0x50++0x3
line.long 0x00 "MMU_LOCK,This register locks some of the TLB entries"
bitfld.long 0x00 10.--14. " BASEVALUE          ,Locked entries base value." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 4.--8. "               CURRENTVICTIM  ,Current entry to be updated either by the TWL or by the software." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
wgroup.long 0x54++0x3
line.long 0x00 "MMU_LD_TLB,This register loads a TLB entry (CAM+RAM)"
bitfld.long 0x00 0. " LDTLBITEM          ,Write (load) data in the TLB. Reads return 0. - NOEFFECT_W. - LDTLB_W." "NOEFFECT_W,LDTLB_W"
group.long 0x58++0x3
line.long 0x00 "MMU_CAM,This register holds a CAM entry"
hexmask.long.tbyte 0x00 12.--31. 1. " VATAG              ,Virtual address tag"
bitfld.long 0x00 3. "           P              ,Preserved bit - CANFLUSH. - NOFLUSH." "CANFLUSH,NOFLUSH"
bitfld.long 0x00 2. "    V              ,Valid bit - INVALID. - VALID." "INVALID,VALID"
textline "                                  "
bitfld.long 0x00 0.--1. " PAGESIZE           ,Page size - SECTION. - LARGE. - SMALL. - SUPER." "SECTION,LARGE,SMALL,SUPER"
group.long 0x5C++0x3
line.long 0x00 "MMU_RAM,This register contains bits [31:12] of the physical address to be written to a TLB entry pointed to by CURRENTVICTIM field of register."
hexmask.long.tbyte 0x00 12.--31. 1. " PHYSICALADDRESS    ,Physical address of the page"
wgroup.long 0x60++0x3
line.long 0x00 "MMU_GFLUSH,This register flushes all the non-protected TLB entries"
bitfld.long 0x00 0. " GLOBALFLUSH        ,Flush all the non-protected TLB entries when set. Reads return 0. - NFT_W. - FLUSH_W." "NFT_W,FLUSH_W"
wgroup.long 0x64++0x3
line.long 0x00 "MMU_FLUSH_ENTRY,This register flushes the entry pointed to by the CAM virtual address"
bitfld.long 0x00 0. " FLUSHENTRY         ,Flush the TLB entry pointed by the virtual address (VATag) inMMU_CAM register, even if this entry is set protected. Reads return 0. - NOFUN_W. - FLUSHTLB_W." "NOFUN_W,FLUSHTLB_W"
rgroup.long 0x68++0x3
line.long 0x00 "MMU_READ_CAM,This register reads CAM data from a CAM entry"
hexmask.long.tbyte 0x00 12.--31. 1. " VATAG              ,Virtual address tag"
bitfld.long 0x00 3. "           P              ,Preserved bit - CANFLUSH. - NOFLUSH." "CANFLUSH,NOFLUSH"
bitfld.long 0x00 2. "    V              ,Valid bit - INVALID. - VALID." "INVALID,VALID"
textline "                                  "
bitfld.long 0x00 0.--1. " PAGESIZE           ,Page size - SECTION. - LARGE. - SMALL. - SUPER." "SECTION,LARGE,SMALL,SUPER"
rgroup.long 0x6C++0x3
line.long 0x00 "MMU_READ_RAM,This register reads bits [31:12] of the physical address from the TLB entry pointed to by CURRENTVICTIM field of the register."
hexmask.long.tbyte 0x00 12.--31. 1. " PHYSICALADDRESS    ,Physical address of the page"
rgroup.long 0x70++0x3
line.long 0x00 "MMU_EMU_FAULT_AD,This register contains the last virtual address of a fault caused by the debugger"
hexmask.long 0x00 0.--31. 1. " EMUFAULTADDRESS    ,Virtual address of the last emulator access that generated a fault"
rgroup.long 0x80++0x3
line.long 0x00 "MMU_FAULT_PC,Typically CPU program counter value of instruction generating MMU fault. The address value is captured at [31:0] EMUFAULTADDRESS. Data-Read-access : corresponding PC. Data-write-access : not perfect accuracy due to posted-write."
hexmask.long 0x00 0.--31. 1. " PC                 ,Typically CPU program counter value of instruction generating MMU fault"
group.long 0x84++0x3
line.long 0x00 "MMU_FAULT_STATUS,Fault status register"
bitfld.long 0x00 4.--8. " MMU_FAULT_TRANS_ID ,MtagID of the transaction that caused fault" "DMA_RD1,DMA_RD2,DMA_WR1,DMA_WR2,CACHE_MISC,CACHE_CPU,CACHE_DMA,7,MMU_HW_TBL_WALK,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  RD_WR          ,Indicates read or write - WRITE. - READ." "WRITE,READ"
bitfld.long 0x00 1.--2. "       MMU_FAULT_TYPE ,MReqInfo[1:0] is captured as fault type" "LD_ST,FETCH,DMA,3"
textline "                                  "
eventfld.long 0x00 0. " FAULTINDICATION    ,Indicates an MMU fault" "0,1"
group.long 0x88++0x3
line.long 0x00 "MMU_GPR,General purpose register"
hexmask.long.word 0x00 16.--31. 1. " GPO                ,General purpose output sent out as MMU output"
bitfld.long 0x00 0. "             FAULT_INTR_DIS ,Disable generation of interrupt on fault. Error response is returned instead on the slave port" "0,1"
group.long 0x90++0x3
line.long 0x00 "MMU_BYPASS_REGION1_ADDR,This register contains the start address of the first NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION1_SIZE"
group.long 0x94++0x3
line.long 0x00 "MMU_BYPASS_REGION1_SIZE,This register contains the size of first NO TRANSLATION REGION for"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x98++0x3
line.long 0x00 "MMU_BYPASS_REGION2_ADDR,This register contains the start address of the second NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0x9C++0x3
line.long 0x00 "MMU_BYPASS_REGION2_SIZE,This register contains the size of second NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA0++0x3
line.long 0x00 "MMU_BYPASS_REGION3_ADDR,This register contains the start address of the third NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0xA4++0x3
line.long 0x00 "MMU_BYPASS_REGION3_SIZE,This register contains the size of third NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA8++0x3
line.long 0x00 "MMU_BYPASS_REGION4_ADDR,This register contains the start address of the fourth NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0xAC++0x3
line.long 0x00 "MMU_BYPASS_REGION4_SIZE,This register contains the size of fourth NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree "EVE4_MMU1"
base ad:0x42382000
width 25.
rgroup.long 0x0++0x3
line.long 0x00 "MMU_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION           ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MMU_SYSCONFIG,This register controls the various parameters of the OCP interface"
bitfld.long 0x00 8.--9. " CLOCKACTIVITY      ,Clock activity during wake-up mode - ." "0,1,2,3"
bitfld.long 0x00 3.--4. "                IDLEMODE       ,Idle mode - SFIDLE. - SNIDLE. - SSIDLE. - RES." "SFIDLE,SNIDLE,SSIDLE,RES"
bitfld.long 0x00 1. "      SOFTRESET      ,Software reset. This bit is automatically reset by the hardware. During reads, it always return 0 - NOFUN_W. - RSTMODE_W." "NOFUN_W,RSTMODE_W"
textline "                                  "
bitfld.long 0x00 0. " AUTOIDLE           ,Internal OCP clock gating strategy - CLKFREE. - AUTOCLKGATE." "CLKFREE,AUTOCLKGATE"
rgroup.long 0x14++0x3
line.long 0x00 "MMU_SYSSTATUS,This register provides status information about the module, excluding the interrupt status information"
bitfld.long 0x00 0. " RESETDONE          ,Internal reset monitoring - RSTONGOING. - RSTCOMP." "RSTONGOING,RSTCOMP"
group.long 0x18++0x3
line.long 0x00 "MMU_IRQSTATUS,This interrupt status register regroups all the status of the module internal events that can generate an interrupt."
eventfld.long 0x00 4. " MULTIHITFAULT      ,Error due to multiple matches in the TLB - NMHF_R. - MHFSTAT_W. - RMHFSTAT_W. - MHF_R." "NMHF_R,RMHFSTAT_W"
eventfld.long 0x00 3. "       TABLEWALKFAULT ,Error response received during a Table Walk - NTWF_R. - TWFSTAT_W. - RTWFSTAT_W. - TWF_R." "NTWF_R,RTWFSTAT_W"
eventfld.long 0x00 2. "  EMUMISS        ,Unrecoverable TLB miss during debug (hardware TWL disabled) - NEMUM_R. - ESTAT_W. - RESTAT_W. - EMUM_R." "NEMUM_R,RESTAT_W"
textline "                                  "
eventfld.long 0x00 1. " TRANSLATIONFAULT   ,Invalid descriptor in translation tables (translation fault) - NFAULT_R. - FSTAT_W. - RFSTAT_W. - FAULT_R." "NFAULT_R,RFSTAT_W"
eventfld.long 0x00 0. "         TLBMISS        ,Unrecoverable TLB miss (hardware TWL disabled) - NTLBM_R. - MSTAT_W. - RMSTAT_W. - TLBM_R." "NTLBM_R,RMSTAT_W"
group.long 0x1C++0x3
line.long 0x00 "MMU_IRQENABLE,The interrupt enable register allows to mask/unmask the module internal sources of interrupt, on a event-by-event basis."
bitfld.long 0x00 4. " MULTIHITFAULT      ,Error due to multiple matches in the TLB - MHFLTMASK. - MHFLTGINT." "MHFLTMASK,MHFLTGINT"
bitfld.long 0x00 3. "        TABLEWALKFAULT ,Error response received during a Table Walk - TWLFLTMASK. - TWLFLTGINT." "TWLFLTMASK,TWLFLTGINT"
bitfld.long 0x00 2. "  EMUMISS        ,Unrecoverable TLB miss during debug (hardware TWL disabled) - EMUMFLTMASK. - EMUMFLTGINT." "EMUMFLTMASK,EMUMFLTGINT"
textline "                                  "
bitfld.long 0x00 1. " TRANSLATIONFAULT   ,Invalid descriptor in translation tables (translation fault) - TRANFLTMASK. - TRANFLTGINT." "TRANFLTMASK,TRANFLTGINT"
bitfld.long 0x00 0. "      TLBMISS        ,Unrecoverable TLB miss (hardware TWL disabled) - TRMISSINTM. - TRMISSGINT." "TRMISSINTM,TRMISSGINT"
rgroup.long 0x40++0x3
line.long 0x00 "MMU_WALKING_ST,This register provides status information about the table walking logic"
bitfld.long 0x00 0. " TWLRUNNING         ,Table Walking Logic is running - TWLCOMP. - TWLRUN." "TWLCOMP,TWLRUN"
group.long 0x44++0x3
line.long 0x00 "MMU_CNTL,This register programs the MMU features"
bitfld.long 0x00 3. " EMUTLBUPDATE       ,Enable TLB update on emulator table walk - EMUDIS. - EMUEN." "EMUDIS,EMUEN"
bitfld.long 0x00 2. "           TWLENABLE      ,Table Walking Logic enable - TWLDIS. - TWLEN." "TWLDIS,TWLEN"
bitfld.long 0x00 1. "      MMUENABLE      ,MMU enable - MMUDIS. - MMUEN." "MMUDIS,MMUEN"
rgroup.long 0x48++0x3
line.long 0x00 "MMU_FAULT_AD,This register contains the virtual address that generated the interrupt"
hexmask.long 0x00 0.--31. 1. " FAULTADDRESS       ,Virtual address of the access that generated a fault"
group.long 0x4C++0x3
line.long 0x00 "MMU_TTB,This register contains the Translation Table Base address"
hexmask.long 0x00 7.--31. 1. " TTBADDRESS         ,Translation Table Base Address"
group.long 0x50++0x3
line.long 0x00 "MMU_LOCK,This register locks some of the TLB entries"
bitfld.long 0x00 10.--14. " BASEVALUE          ,Locked entries base value." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 4.--8. "               CURRENTVICTIM  ,Current entry to be updated either by the TWL or by the software." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
wgroup.long 0x54++0x3
line.long 0x00 "MMU_LD_TLB,This register loads a TLB entry (CAM+RAM)"
bitfld.long 0x00 0. " LDTLBITEM          ,Write (load) data in the TLB. Reads return 0. - NOEFFECT_W. - LDTLB_W." "NOEFFECT_W,LDTLB_W"
group.long 0x58++0x3
line.long 0x00 "MMU_CAM,This register holds a CAM entry"
hexmask.long.tbyte 0x00 12.--31. 1. " VATAG              ,Virtual address tag"
bitfld.long 0x00 3. "           P              ,Preserved bit - CANFLUSH. - NOFLUSH." "CANFLUSH,NOFLUSH"
bitfld.long 0x00 2. "    V              ,Valid bit - INVALID. - VALID." "INVALID,VALID"
textline "                                  "
bitfld.long 0x00 0.--1. " PAGESIZE           ,Page size - SECTION. - LARGE. - SMALL. - SUPER." "SECTION,LARGE,SMALL,SUPER"
group.long 0x5C++0x3
line.long 0x00 "MMU_RAM,This register contains bits [31:12] of the physical address to be written to a TLB entry pointed to by CURRENTVICTIM field of register."
hexmask.long.tbyte 0x00 12.--31. 1. " PHYSICALADDRESS    ,Physical address of the page"
wgroup.long 0x60++0x3
line.long 0x00 "MMU_GFLUSH,This register flushes all the non-protected TLB entries"
bitfld.long 0x00 0. " GLOBALFLUSH        ,Flush all the non-protected TLB entries when set. Reads return 0. - NFT_W. - FLUSH_W." "NFT_W,FLUSH_W"
wgroup.long 0x64++0x3
line.long 0x00 "MMU_FLUSH_ENTRY,This register flushes the entry pointed to by the CAM virtual address"
bitfld.long 0x00 0. " FLUSHENTRY         ,Flush the TLB entry pointed by the virtual address (VATag) inMMU_CAM register, even if this entry is set protected. Reads return 0. - NOFUN_W. - FLUSHTLB_W." "NOFUN_W,FLUSHTLB_W"
rgroup.long 0x68++0x3
line.long 0x00 "MMU_READ_CAM,This register reads CAM data from a CAM entry"
hexmask.long.tbyte 0x00 12.--31. 1. " VATAG              ,Virtual address tag"
bitfld.long 0x00 3. "           P              ,Preserved bit - CANFLUSH. - NOFLUSH." "CANFLUSH,NOFLUSH"
bitfld.long 0x00 2. "    V              ,Valid bit - INVALID. - VALID." "INVALID,VALID"
textline "                                  "
bitfld.long 0x00 0.--1. " PAGESIZE           ,Page size - SECTION. - LARGE. - SMALL. - SUPER." "SECTION,LARGE,SMALL,SUPER"
rgroup.long 0x6C++0x3
line.long 0x00 "MMU_READ_RAM,This register reads bits [31:12] of the physical address from the TLB entry pointed to by CURRENTVICTIM field of the register."
hexmask.long.tbyte 0x00 12.--31. 1. " PHYSICALADDRESS    ,Physical address of the page"
rgroup.long 0x70++0x3
line.long 0x00 "MMU_EMU_FAULT_AD,This register contains the last virtual address of a fault caused by the debugger"
hexmask.long 0x00 0.--31. 1. " EMUFAULTADDRESS    ,Virtual address of the last emulator access that generated a fault"
rgroup.long 0x80++0x3
line.long 0x00 "MMU_FAULT_PC,Typically CPU program counter value of instruction generating MMU fault. The address value is captured at [31:0] EMUFAULTADDRESS. Data-Read-access : corresponding PC. Data-write-access : not perfect accuracy due to posted-write."
hexmask.long 0x00 0.--31. 1. " PC                 ,Typically CPU program counter value of instruction generating MMU fault"
group.long 0x84++0x3
line.long 0x00 "MMU_FAULT_STATUS,Fault status register"
bitfld.long 0x00 4.--8. " MMU_FAULT_TRANS_ID ,MtagID of the transaction that caused fault" "DMA_RD1,DMA_RD2,DMA_WR1,DMA_WR2,CACHE_MISC,CACHE_CPU,CACHE_DMA,7,MMU_HW_TBL_WALK,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  RD_WR          ,Indicates read or write - WRITE. - READ." "WRITE,READ"
bitfld.long 0x00 1.--2. "       MMU_FAULT_TYPE ,MReqInfo[1:0] is captured as fault type" "LD_ST,FETCH,DMA,3"
textline "                                  "
eventfld.long 0x00 0. " FAULTINDICATION    ,Indicates an MMU fault" "0,1"
group.long 0x88++0x3
line.long 0x00 "MMU_GPR,General purpose register"
hexmask.long.word 0x00 16.--31. 1. " GPO                ,General purpose output sent out as MMU output"
bitfld.long 0x00 0. "             FAULT_INTR_DIS ,Disable generation of interrupt on fault. Error response is returned instead on the slave port" "0,1"
group.long 0x90++0x3
line.long 0x00 "MMU_BYPASS_REGION1_ADDR,This register contains the start address of the first NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION1_SIZE"
group.long 0x94++0x3
line.long 0x00 "MMU_BYPASS_REGION1_SIZE,This register contains the size of first NO TRANSLATION REGION for"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x98++0x3
line.long 0x00 "MMU_BYPASS_REGION2_ADDR,This register contains the start address of the second NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0x9C++0x3
line.long 0x00 "MMU_BYPASS_REGION2_SIZE,This register contains the size of second NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA0++0x3
line.long 0x00 "MMU_BYPASS_REGION3_ADDR,This register contains the start address of the third NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0xA4++0x3
line.long 0x00 "MMU_BYPASS_REGION3_SIZE,This register contains the size of third NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA8++0x3
line.long 0x00 "MMU_BYPASS_REGION4_ADDR,This register contains the start address of the fourth NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0xAC++0x3
line.long 0x00 "MMU_BYPASS_REGION4_SIZE,This register contains the size of fourth NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree "System_MMU1"
base ad:0x4881C000
width 25.
rgroup.long 0x0++0x3
line.long 0x00 "MMU_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION           ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MMU_SYSCONFIG,This register controls the various parameters of the OCP interface"
bitfld.long 0x00 8.--9. " CLOCKACTIVITY      ,Clock activity during wake-up mode - ." "0,1,2,3"
bitfld.long 0x00 3.--4. "                IDLEMODE       ,Idle mode - SFIDLE. - SNIDLE. - SSIDLE. - RES." "SFIDLE,SNIDLE,SSIDLE,RES"
bitfld.long 0x00 1. "      SOFTRESET      ,Software reset. This bit is automatically reset by the hardware. During reads, it always return 0 - NOFUN_W. - RSTMODE_W." "NOFUN_W,RSTMODE_W"
textline "                                  "
bitfld.long 0x00 0. " AUTOIDLE           ,Internal OCP clock gating strategy - CLKFREE. - AUTOCLKGATE." "CLKFREE,AUTOCLKGATE"
rgroup.long 0x14++0x3
line.long 0x00 "MMU_SYSSTATUS,This register provides status information about the module, excluding the interrupt status information"
bitfld.long 0x00 0. " RESETDONE          ,Internal reset monitoring - RSTONGOING. - RSTCOMP." "RSTONGOING,RSTCOMP"
group.long 0x18++0x3
line.long 0x00 "MMU_IRQSTATUS,This interrupt status register regroups all the status of the module internal events that can generate an interrupt."
eventfld.long 0x00 4. " MULTIHITFAULT      ,Error due to multiple matches in the TLB - NMHF_R. - MHFSTAT_W. - RMHFSTAT_W. - MHF_R." "NMHF_R,RMHFSTAT_W"
eventfld.long 0x00 3. "       TABLEWALKFAULT ,Error response received during a Table Walk - NTWF_R. - TWFSTAT_W. - RTWFSTAT_W. - TWF_R." "NTWF_R,RTWFSTAT_W"
eventfld.long 0x00 2. "  EMUMISS        ,Unrecoverable TLB miss during debug (hardware TWL disabled) - NEMUM_R. - ESTAT_W. - RESTAT_W. - EMUM_R." "NEMUM_R,RESTAT_W"
textline "                                  "
eventfld.long 0x00 1. " TRANSLATIONFAULT   ,Invalid descriptor in translation tables (translation fault) - NFAULT_R. - FSTAT_W. - RFSTAT_W. - FAULT_R." "NFAULT_R,RFSTAT_W"
eventfld.long 0x00 0. "         TLBMISS        ,Unrecoverable TLB miss (hardware TWL disabled) - NTLBM_R. - MSTAT_W. - RMSTAT_W. - TLBM_R." "NTLBM_R,RMSTAT_W"
group.long 0x1C++0x3
line.long 0x00 "MMU_IRQENABLE,The interrupt enable register allows to mask/unmask the module internal sources of interrupt, on a event-by-event basis."
bitfld.long 0x00 4. " MULTIHITFAULT      ,Error due to multiple matches in the TLB - MHFLTMASK. - MHFLTGINT." "MHFLTMASK,MHFLTGINT"
bitfld.long 0x00 3. "        TABLEWALKFAULT ,Error response received during a Table Walk - TWLFLTMASK. - TWLFLTGINT." "TWLFLTMASK,TWLFLTGINT"
bitfld.long 0x00 2. "  EMUMISS        ,Unrecoverable TLB miss during debug (hardware TWL disabled) - EMUMFLTMASK. - EMUMFLTGINT." "EMUMFLTMASK,EMUMFLTGINT"
textline "                                  "
bitfld.long 0x00 1. " TRANSLATIONFAULT   ,Invalid descriptor in translation tables (translation fault) - TRANFLTMASK. - TRANFLTGINT." "TRANFLTMASK,TRANFLTGINT"
bitfld.long 0x00 0. "      TLBMISS        ,Unrecoverable TLB miss (hardware TWL disabled) - TRMISSINTM. - TRMISSGINT." "TRMISSINTM,TRMISSGINT"
rgroup.long 0x40++0x3
line.long 0x00 "MMU_WALKING_ST,This register provides status information about the table walking logic"
bitfld.long 0x00 0. " TWLRUNNING         ,Table Walking Logic is running - TWLCOMP. - TWLRUN." "TWLCOMP,TWLRUN"
group.long 0x44++0x3
line.long 0x00 "MMU_CNTL,This register programs the MMU features"
bitfld.long 0x00 3. " EMUTLBUPDATE       ,Enable TLB update on emulator table walk - EMUDIS. - EMUEN." "EMUDIS,EMUEN"
bitfld.long 0x00 2. "           TWLENABLE      ,Table Walking Logic enable - TWLDIS. - TWLEN." "TWLDIS,TWLEN"
bitfld.long 0x00 1. "      MMUENABLE      ,MMU enable - MMUDIS. - MMUEN." "MMUDIS,MMUEN"
rgroup.long 0x48++0x3
line.long 0x00 "MMU_FAULT_AD,This register contains the virtual address that generated the interrupt"
hexmask.long 0x00 0.--31. 1. " FAULTADDRESS       ,Virtual address of the access that generated a fault"
group.long 0x4C++0x3
line.long 0x00 "MMU_TTB,This register contains the Translation Table Base address"
hexmask.long 0x00 7.--31. 1. " TTBADDRESS         ,Translation Table Base Address"
group.long 0x50++0x3
line.long 0x00 "MMU_LOCK,This register locks some of the TLB entries"
bitfld.long 0x00 10.--14. " BASEVALUE          ,Locked entries base value." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 4.--8. "               CURRENTVICTIM  ,Current entry to be updated either by the TWL or by the software." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
wgroup.long 0x54++0x3
line.long 0x00 "MMU_LD_TLB,This register loads a TLB entry (CAM+RAM)"
bitfld.long 0x00 0. " LDTLBITEM          ,Write (load) data in the TLB. Reads return 0. - NOEFFECT_W. - LDTLB_W." "NOEFFECT_W,LDTLB_W"
group.long 0x58++0x3
line.long 0x00 "MMU_CAM,This register holds a CAM entry"
hexmask.long.tbyte 0x00 12.--31. 1. " VATAG              ,Virtual address tag"
bitfld.long 0x00 3. "           P              ,Preserved bit - CANFLUSH. - NOFLUSH." "CANFLUSH,NOFLUSH"
bitfld.long 0x00 2. "    V              ,Valid bit - INVALID. - VALID." "INVALID,VALID"
textline "                                  "
bitfld.long 0x00 0.--1. " PAGESIZE           ,Page size - SECTION. - LARGE. - SMALL. - SUPER." "SECTION,LARGE,SMALL,SUPER"
group.long 0x5C++0x3
line.long 0x00 "MMU_RAM,This register contains bits [31:12] of the physical address to be written to a TLB entry pointed to by CURRENTVICTIM field of register."
hexmask.long.tbyte 0x00 12.--31. 1. " PHYSICALADDRESS    ,Physical address of the page"
wgroup.long 0x60++0x3
line.long 0x00 "MMU_GFLUSH,This register flushes all the non-protected TLB entries"
bitfld.long 0x00 0. " GLOBALFLUSH        ,Flush all the non-protected TLB entries when set. Reads return 0. - NFT_W. - FLUSH_W." "NFT_W,FLUSH_W"
wgroup.long 0x64++0x3
line.long 0x00 "MMU_FLUSH_ENTRY,This register flushes the entry pointed to by the CAM virtual address"
bitfld.long 0x00 0. " FLUSHENTRY         ,Flush the TLB entry pointed by the virtual address (VATag) inMMU_CAM register, even if this entry is set protected. Reads return 0. - NOFUN_W. - FLUSHTLB_W." "NOFUN_W,FLUSHTLB_W"
rgroup.long 0x68++0x3
line.long 0x00 "MMU_READ_CAM,This register reads CAM data from a CAM entry"
hexmask.long.tbyte 0x00 12.--31. 1. " VATAG              ,Virtual address tag"
bitfld.long 0x00 3. "           P              ,Preserved bit - CANFLUSH. - NOFLUSH." "CANFLUSH,NOFLUSH"
bitfld.long 0x00 2. "    V              ,Valid bit - INVALID. - VALID." "INVALID,VALID"
textline "                                  "
bitfld.long 0x00 0.--1. " PAGESIZE           ,Page size - SECTION. - LARGE. - SMALL. - SUPER." "SECTION,LARGE,SMALL,SUPER"
rgroup.long 0x6C++0x3
line.long 0x00 "MMU_READ_RAM,This register reads bits [31:12] of the physical address from the TLB entry pointed to by CURRENTVICTIM field of the register."
hexmask.long.tbyte 0x00 12.--31. 1. " PHYSICALADDRESS    ,Physical address of the page"
rgroup.long 0x70++0x3
line.long 0x00 "MMU_EMU_FAULT_AD,This register contains the last virtual address of a fault caused by the debugger"
hexmask.long 0x00 0.--31. 1. " EMUFAULTADDRESS    ,Virtual address of the last emulator access that generated a fault"
rgroup.long 0x80++0x3
line.long 0x00 "MMU_FAULT_PC,Typically CPU program counter value of instruction generating MMU fault. The address value is captured at [31:0] EMUFAULTADDRESS. Data-Read-access : corresponding PC. Data-write-access : not perfect accuracy due to posted-write."
hexmask.long 0x00 0.--31. 1. " PC                 ,Typically CPU program counter value of instruction generating MMU fault"
group.long 0x84++0x3
line.long 0x00 "MMU_FAULT_STATUS,Fault status register"
bitfld.long 0x00 4.--8. " MMU_FAULT_TRANS_ID ,MtagID of the transaction that caused fault" "DMA_RD1,DMA_RD2,DMA_WR1,DMA_WR2,CACHE_MISC,CACHE_CPU,CACHE_DMA,7,MMU_HW_TBL_WALK,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  RD_WR          ,Indicates read or write - WRITE. - READ." "WRITE,READ"
bitfld.long 0x00 1.--2. "       MMU_FAULT_TYPE ,MReqInfo[1:0] is captured as fault type" "LD_ST,FETCH,DMA,3"
textline "                                  "
eventfld.long 0x00 0. " FAULTINDICATION    ,Indicates an MMU fault" "0,1"
group.long 0x88++0x3
line.long 0x00 "MMU_GPR,General purpose register"
hexmask.long.word 0x00 16.--31. 1. " GPO                ,General purpose output sent out as MMU output"
bitfld.long 0x00 0. "             FAULT_INTR_DIS ,Disable generation of interrupt on fault. Error response is returned instead on the slave port" "0,1"
group.long 0x90++0x3
line.long 0x00 "MMU_BYPASS_REGION1_ADDR,This register contains the start address of the first NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION1_SIZE"
group.long 0x94++0x3
line.long 0x00 "MMU_BYPASS_REGION1_SIZE,This register contains the size of first NO TRANSLATION REGION for"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x98++0x3
line.long 0x00 "MMU_BYPASS_REGION2_ADDR,This register contains the start address of the second NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0x9C++0x3
line.long 0x00 "MMU_BYPASS_REGION2_SIZE,This register contains the size of second NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA0++0x3
line.long 0x00 "MMU_BYPASS_REGION3_ADDR,This register contains the start address of the third NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0xA4++0x3
line.long 0x00 "MMU_BYPASS_REGION3_SIZE,This register contains the size of third NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA8++0x3
line.long 0x00 "MMU_BYPASS_REGION4_ADDR,This register contains the start address of the fourth NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0xAC++0x3
line.long 0x00 "MMU_BYPASS_REGION4_SIZE,This register contains the size of fourth NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree "System_MMU2"
base ad:0x4881E000
width 25.
rgroup.long 0x0++0x3
line.long 0x00 "MMU_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION           ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "MMU_SYSCONFIG,This register controls the various parameters of the OCP interface"
bitfld.long 0x00 8.--9. " CLOCKACTIVITY      ,Clock activity during wake-up mode - ." "0,1,2,3"
bitfld.long 0x00 3.--4. "                IDLEMODE       ,Idle mode - SFIDLE. - SNIDLE. - SSIDLE. - RES." "SFIDLE,SNIDLE,SSIDLE,RES"
bitfld.long 0x00 1. "      SOFTRESET      ,Software reset. This bit is automatically reset by the hardware. During reads, it always return 0 - NOFUN_W. - RSTMODE_W." "NOFUN_W,RSTMODE_W"
textline "                                  "
bitfld.long 0x00 0. " AUTOIDLE           ,Internal OCP clock gating strategy - CLKFREE. - AUTOCLKGATE." "CLKFREE,AUTOCLKGATE"
rgroup.long 0x14++0x3
line.long 0x00 "MMU_SYSSTATUS,This register provides status information about the module, excluding the interrupt status information"
bitfld.long 0x00 0. " RESETDONE          ,Internal reset monitoring - RSTONGOING. - RSTCOMP." "RSTONGOING,RSTCOMP"
group.long 0x18++0x3
line.long 0x00 "MMU_IRQSTATUS,This interrupt status register regroups all the status of the module internal events that can generate an interrupt."
eventfld.long 0x00 4. " MULTIHITFAULT      ,Error due to multiple matches in the TLB - NMHF_R. - MHFSTAT_W. - RMHFSTAT_W. - MHF_R." "NMHF_R,RMHFSTAT_W"
eventfld.long 0x00 3. "       TABLEWALKFAULT ,Error response received during a Table Walk - NTWF_R. - TWFSTAT_W. - RTWFSTAT_W. - TWF_R." "NTWF_R,RTWFSTAT_W"
eventfld.long 0x00 2. "  EMUMISS        ,Unrecoverable TLB miss during debug (hardware TWL disabled) - NEMUM_R. - ESTAT_W. - RESTAT_W. - EMUM_R." "NEMUM_R,RESTAT_W"
textline "                                  "
eventfld.long 0x00 1. " TRANSLATIONFAULT   ,Invalid descriptor in translation tables (translation fault) - NFAULT_R. - FSTAT_W. - RFSTAT_W. - FAULT_R." "NFAULT_R,RFSTAT_W"
eventfld.long 0x00 0. "         TLBMISS        ,Unrecoverable TLB miss (hardware TWL disabled) - NTLBM_R. - MSTAT_W. - RMSTAT_W. - TLBM_R." "NTLBM_R,RMSTAT_W"
group.long 0x1C++0x3
line.long 0x00 "MMU_IRQENABLE,The interrupt enable register allows to mask/unmask the module internal sources of interrupt, on a event-by-event basis."
bitfld.long 0x00 4. " MULTIHITFAULT      ,Error due to multiple matches in the TLB - MHFLTMASK. - MHFLTGINT." "MHFLTMASK,MHFLTGINT"
bitfld.long 0x00 3. "        TABLEWALKFAULT ,Error response received during a Table Walk - TWLFLTMASK. - TWLFLTGINT." "TWLFLTMASK,TWLFLTGINT"
bitfld.long 0x00 2. "  EMUMISS        ,Unrecoverable TLB miss during debug (hardware TWL disabled) - EMUMFLTMASK. - EMUMFLTGINT." "EMUMFLTMASK,EMUMFLTGINT"
textline "                                  "
bitfld.long 0x00 1. " TRANSLATIONFAULT   ,Invalid descriptor in translation tables (translation fault) - TRANFLTMASK. - TRANFLTGINT." "TRANFLTMASK,TRANFLTGINT"
bitfld.long 0x00 0. "      TLBMISS        ,Unrecoverable TLB miss (hardware TWL disabled) - TRMISSINTM. - TRMISSGINT." "TRMISSINTM,TRMISSGINT"
rgroup.long 0x40++0x3
line.long 0x00 "MMU_WALKING_ST,This register provides status information about the table walking logic"
bitfld.long 0x00 0. " TWLRUNNING         ,Table Walking Logic is running - TWLCOMP. - TWLRUN." "TWLCOMP,TWLRUN"
group.long 0x44++0x3
line.long 0x00 "MMU_CNTL,This register programs the MMU features"
bitfld.long 0x00 3. " EMUTLBUPDATE       ,Enable TLB update on emulator table walk - EMUDIS. - EMUEN." "EMUDIS,EMUEN"
bitfld.long 0x00 2. "           TWLENABLE      ,Table Walking Logic enable - TWLDIS. - TWLEN." "TWLDIS,TWLEN"
bitfld.long 0x00 1. "      MMUENABLE      ,MMU enable - MMUDIS. - MMUEN." "MMUDIS,MMUEN"
rgroup.long 0x48++0x3
line.long 0x00 "MMU_FAULT_AD,This register contains the virtual address that generated the interrupt"
hexmask.long 0x00 0.--31. 1. " FAULTADDRESS       ,Virtual address of the access that generated a fault"
group.long 0x4C++0x3
line.long 0x00 "MMU_TTB,This register contains the Translation Table Base address"
hexmask.long 0x00 7.--31. 1. " TTBADDRESS         ,Translation Table Base Address"
group.long 0x50++0x3
line.long 0x00 "MMU_LOCK,This register locks some of the TLB entries"
bitfld.long 0x00 10.--14. " BASEVALUE          ,Locked entries base value." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 4.--8. "               CURRENTVICTIM  ,Current entry to be updated either by the TWL or by the software." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
wgroup.long 0x54++0x3
line.long 0x00 "MMU_LD_TLB,This register loads a TLB entry (CAM+RAM)"
bitfld.long 0x00 0. " LDTLBITEM          ,Write (load) data in the TLB. Reads return 0. - NOEFFECT_W. - LDTLB_W." "NOEFFECT_W,LDTLB_W"
group.long 0x58++0x3
line.long 0x00 "MMU_CAM,This register holds a CAM entry"
hexmask.long.tbyte 0x00 12.--31. 1. " VATAG              ,Virtual address tag"
bitfld.long 0x00 3. "           P              ,Preserved bit - CANFLUSH. - NOFLUSH." "CANFLUSH,NOFLUSH"
bitfld.long 0x00 2. "    V              ,Valid bit - INVALID. - VALID." "INVALID,VALID"
textline "                                  "
bitfld.long 0x00 0.--1. " PAGESIZE           ,Page size - SECTION. - LARGE. - SMALL. - SUPER." "SECTION,LARGE,SMALL,SUPER"
group.long 0x5C++0x3
line.long 0x00 "MMU_RAM,This register contains bits [31:12] of the physical address to be written to a TLB entry pointed to by CURRENTVICTIM field of register."
hexmask.long.tbyte 0x00 12.--31. 1. " PHYSICALADDRESS    ,Physical address of the page"
wgroup.long 0x60++0x3
line.long 0x00 "MMU_GFLUSH,This register flushes all the non-protected TLB entries"
bitfld.long 0x00 0. " GLOBALFLUSH        ,Flush all the non-protected TLB entries when set. Reads return 0. - NFT_W. - FLUSH_W." "NFT_W,FLUSH_W"
wgroup.long 0x64++0x3
line.long 0x00 "MMU_FLUSH_ENTRY,This register flushes the entry pointed to by the CAM virtual address"
bitfld.long 0x00 0. " FLUSHENTRY         ,Flush the TLB entry pointed by the virtual address (VATag) inMMU_CAM register, even if this entry is set protected. Reads return 0. - NOFUN_W. - FLUSHTLB_W." "NOFUN_W,FLUSHTLB_W"
rgroup.long 0x68++0x3
line.long 0x00 "MMU_READ_CAM,This register reads CAM data from a CAM entry"
hexmask.long.tbyte 0x00 12.--31. 1. " VATAG              ,Virtual address tag"
bitfld.long 0x00 3. "           P              ,Preserved bit - CANFLUSH. - NOFLUSH." "CANFLUSH,NOFLUSH"
bitfld.long 0x00 2. "    V              ,Valid bit - INVALID. - VALID." "INVALID,VALID"
textline "                                  "
bitfld.long 0x00 0.--1. " PAGESIZE           ,Page size - SECTION. - LARGE. - SMALL. - SUPER." "SECTION,LARGE,SMALL,SUPER"
rgroup.long 0x6C++0x3
line.long 0x00 "MMU_READ_RAM,This register reads bits [31:12] of the physical address from the TLB entry pointed to by CURRENTVICTIM field of the register."
hexmask.long.tbyte 0x00 12.--31. 1. " PHYSICALADDRESS    ,Physical address of the page"
rgroup.long 0x70++0x3
line.long 0x00 "MMU_EMU_FAULT_AD,This register contains the last virtual address of a fault caused by the debugger"
hexmask.long 0x00 0.--31. 1. " EMUFAULTADDRESS    ,Virtual address of the last emulator access that generated a fault"
rgroup.long 0x80++0x3
line.long 0x00 "MMU_FAULT_PC,Typically CPU program counter value of instruction generating MMU fault. The address value is captured at [31:0] EMUFAULTADDRESS. Data-Read-access : corresponding PC. Data-write-access : not perfect accuracy due to posted-write."
hexmask.long 0x00 0.--31. 1. " PC                 ,Typically CPU program counter value of instruction generating MMU fault"
group.long 0x84++0x3
line.long 0x00 "MMU_FAULT_STATUS,Fault status register"
bitfld.long 0x00 4.--8. " MMU_FAULT_TRANS_ID ,MtagID of the transaction that caused fault" "DMA_RD1,DMA_RD2,DMA_WR1,DMA_WR2,CACHE_MISC,CACHE_CPU,CACHE_DMA,7,MMU_HW_TBL_WALK,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  RD_WR          ,Indicates read or write - WRITE. - READ." "WRITE,READ"
bitfld.long 0x00 1.--2. "       MMU_FAULT_TYPE ,MReqInfo[1:0] is captured as fault type" "LD_ST,FETCH,DMA,3"
textline "                                  "
eventfld.long 0x00 0. " FAULTINDICATION    ,Indicates an MMU fault" "0,1"
group.long 0x88++0x3
line.long 0x00 "MMU_GPR,General purpose register"
hexmask.long.word 0x00 16.--31. 1. " GPO                ,General purpose output sent out as MMU output"
bitfld.long 0x00 0. "             FAULT_INTR_DIS ,Disable generation of interrupt on fault. Error response is returned instead on the slave port" "0,1"
group.long 0x90++0x3
line.long 0x00 "MMU_BYPASS_REGION1_ADDR,This register contains the start address of the first NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION1_SIZE"
group.long 0x94++0x3
line.long 0x00 "MMU_BYPASS_REGION1_SIZE,This register contains the size of first NO TRANSLATION REGION for"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x98++0x3
line.long 0x00 "MMU_BYPASS_REGION2_ADDR,This register contains the start address of the second NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0x9C++0x3
line.long 0x00 "MMU_BYPASS_REGION2_SIZE,This register contains the size of second NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA0++0x3
line.long 0x00 "MMU_BYPASS_REGION3_ADDR,This register contains the start address of the third NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0xA4++0x3
line.long 0x00 "MMU_BYPASS_REGION3_SIZE,This register contains the size of third NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA8++0x3
line.long 0x00 "MMU_BYPASS_REGION4_ADDR,This register contains the start address of the fourth NO TRANSLATION REGION for 2D bursts"
hexmask.long.word 0x00 16.--31. 1. " START_ADDR         ,Start address of NO TRANSLATION REGION for 2D bursts. This has to be aligned to SIZE inMMU_BYPASS_REGION2_SIZE."
group.long 0xAC++0x3
line.long 0x00 "MMU_BYPASS_REGION4_SIZE,This register contains the size of fourth NO TRANSLATION REGION for 2D bursts"
bitfld.long 0x00 0.--3. " SIZE               ,Size of the NO TRANSLATION REGION of 2D bursts. 0x0 = region not valid 0x1 = 64K bytes 0x2 = 128K bytes 0x3 = 256K bytes 0x4 = 512K bytes 0x5 = 1M bytes 0x6 = 2M bytes 0x7 = 4M bytes 0x8 = 8M bytes 0x9 = 16M bytes 0xA = 32M bytes 0..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree.end
tree.end
tree.open "Spinlock"
tree "Spinlock"
base ad:0x4A0F6000
tree "REG_Bundle_0"
width 25.
group.long 0x800++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_0,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x804++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_1,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x808++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_2,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x80C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_3,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x810++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_4,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x814++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_5,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x818++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_6,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x81C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_7,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x820++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_8,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x824++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_9,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x828++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_10,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x82C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_11,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x830++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_12,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x834++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_13,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x838++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_14,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x83C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_15,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x840++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_16,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x844++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_17,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x848++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_18,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x84C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_19,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x850++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_20,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x854++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_21,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x858++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_22,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x85C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_23,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x860++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_24,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x864++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_25,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x868++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_26,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x86C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_27,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x870++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_28,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x874++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_29,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x878++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_30,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x87C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_31,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x880++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_32,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x884++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_33,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x888++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_34,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x88C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_35,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x890++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_36,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x894++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_37,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x898++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_38,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x89C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_39,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x8A0++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_40,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x8A4++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_41,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x8A8++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_42,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x8AC++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_43,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x8B0++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_44,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x8B4++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_45,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x8B8++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_46,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x8BC++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_47,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x8C0++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_48,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x8C4++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_49,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x8C8++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_50,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x8CC++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_51,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x8D0++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_52,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x8D4++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_53,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x8D8++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_54,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x8DC++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_55,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x8E0++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_56,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x8E4++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_57,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x8E8++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_58,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x8EC++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_59,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x8F0++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_60,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x8F4++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_61,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x8F8++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_62,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x8FC++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_63,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x900++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_64,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x904++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_65,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x908++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_66,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x90C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_67,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x910++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_68,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x914++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_69,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x918++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_70,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x91C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_71,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x920++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_72,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x924++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_73,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x928++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_74,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x92C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_75,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x930++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_76,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x934++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_77,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x938++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_78,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x93C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_79,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x940++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_80,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x944++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_81,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x948++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_82,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x94C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_83,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x950++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_84,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x954++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_85,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x958++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_86,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x95C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_87,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x960++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_88,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x964++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_89,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x968++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_90,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x96C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_91,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x970++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_92,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x974++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_93,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x978++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_94,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x97C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_95,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x980++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_96,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x984++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_97,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x988++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_98,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x98C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_99,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x990++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_100,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x994++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_101,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x998++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_102,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x99C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_103,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x9A0++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_104,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x9A4++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_105,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x9A8++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_106,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x9AC++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_107,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x9B0++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_108,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x9B4++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_109,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x9B8++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_110,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x9BC++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_111,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x9C0++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_112,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x9C4++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_113,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x9C8++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_114,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x9CC++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_115,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x9D0++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_116,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x9D4++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_117,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x9D8++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_118,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x9DC++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_119,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x9E0++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_120,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x9E4++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_121,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x9E8++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_122,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x9EC++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_123,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x9F0++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_124,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x9F4++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_125,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x9F8++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_126,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0x9FC++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_127,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA00++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_128,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA04++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_129,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA08++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_130,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA0C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_131,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA10++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_132,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA14++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_133,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA18++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_134,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA1C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_135,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA20++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_136,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA24++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_137,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA28++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_138,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA2C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_139,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA30++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_140,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA34++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_141,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA38++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_142,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA3C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_143,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA40++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_144,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA44++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_145,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA48++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_146,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA4C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_147,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA50++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_148,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA54++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_149,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA58++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_150,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA5C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_151,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA60++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_152,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA64++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_153,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA68++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_154,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA6C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_155,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA70++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_156,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA74++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_157,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA78++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_158,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA7C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_159,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA80++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_160,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA84++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_161,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA88++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_162,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA8C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_163,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA90++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_164,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA94++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_165,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA98++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_166,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xA9C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_167,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xAA0++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_168,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xAA4++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_169,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xAA8++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_170,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xAAC++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_171,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xAB0++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_172,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xAB4++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_173,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xAB8++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_174,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xABC++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_175,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xAC0++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_176,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xAC4++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_177,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xAC8++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_178,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xACC++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_179,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xAD0++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_180,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xAD4++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_181,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xAD8++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_182,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xADC++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_183,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xAE0++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_184,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xAE4++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_185,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xAE8++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_186,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xAEC++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_187,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xAF0++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_188,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xAF4++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_189,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xAF8++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_190,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xAFC++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_191,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB00++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_192,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB04++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_193,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB08++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_194,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB0C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_195,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB10++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_196,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB14++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_197,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB18++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_198,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB1C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_199,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB20++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_200,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB24++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_201,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB28++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_202,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB2C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_203,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB30++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_204,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB34++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_205,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB38++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_206,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB3C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_207,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB40++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_208,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB44++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_209,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB48++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_210,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB4C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_211,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB50++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_212,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB54++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_213,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB58++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_214,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB5C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_215,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB60++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_216,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB64++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_217,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB68++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_218,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB6C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_219,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB70++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_220,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB74++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_221,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB78++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_222,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB7C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_223,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB80++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_224,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB84++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_225,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB88++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_226,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB8C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_227,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB90++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_228,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB94++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_229,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB98++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_230,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xB9C++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_231,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xBA0++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_232,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xBA4++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_233,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xBA8++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_234,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xBAC++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_235,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xBB0++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_236,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xBB4++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_237,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xBB8++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_238,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xBBC++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_239,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xBC0++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_240,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xBC4++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_241,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xBC8++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_242,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xBCC++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_243,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xBD0++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_244,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xBD4++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_245,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xBD8++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_246,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xBDC++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_247,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xBE0++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_248,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xBE4++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_249,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xBE8++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_250,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xBEC++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_251,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xBF0++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_252,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xBF4++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_253,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xBF8++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_254,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
group.long 0xBFC++0x3
line.long 0x00 "SPINLOCK_LOCK_REG_i_255,This register contains the state of one lock."
bitfld.long 0x00 0. " TAKEN ,Lock State - FREE. - FREE. - BUSY. - BUSY." "FREE,BUSY"
tree.end
textline ""
width 20.
rgroup.long 0x0++0x3
line.long 0x00 "SPINLOCK_REVISION,This register contains the IP revision code"
hexmask.long 0x00 0.--31. 1. " REVISION   ,IP revision"
group.long 0x10++0x3
line.long 0x00 "SPINLOCK_SYSCONFIG,This register controls the various parameters of the OCP interface. Note that most fields are read-only."
bitfld.long 0x00 3.--4. " SIDLEMODE  ,Slave interface power management (IDLE request/acknowledgement control). - . - . - . - ." "0,1,2,3"
bitfld.long 0x00 2. "                    ENWAKEUP ,Asynchronous wakeup gereration. - NOWAKEUPGEN. - WAKEUPGEN." "NOWAKEUPGEN,WAKEUPGEN"
bitfld.long 0x00 1. "  SOFTRESET ,Module software reset. - NOOP. - DORESET." "NOOP,DORESET"
textline "                             "
bitfld.long 0x00 0. " AUTOGATING ,Internal interface clock gating strategy. - FREERUNNING. - GATED." "FREERUNNING,GATED"
rgroup.long 0x14++0x3
line.long 0x00 "SPINLOCK_SYSTATUS,This register provides status information about this instance of the Spinlock module."
hexmask.long.byte 0x00 24.--31. 1. " NUMLOCKS   ,Number of lock registers implemeted. - . - . - . - ."
bitfld.long 0x00 15. "                   IU7      ,In-Use flag 0, covering lock registers 224 - 255. - . - ." "0,1"
bitfld.long 0x00 14. "            IU6       ,In-Use flag 0, covering lock registers 192 - 223. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 13. " IU5        ,In-Use flag 0, covering lock registers 160 - 191. - . - ." "0,1"
bitfld.long 0x00 12. "                    IU4      ,In-Use flag 0, covering lock registers 128 - 159. - . - ." "0,1"
bitfld.long 0x00 11. "            IU3       ,In-Use flag 0, covering lock registers 96 - 127. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 10. " IU2        ,In-Use flag 0, covering lock registers 64 - 95. - . - ." "0,1"
bitfld.long 0x00 9. "                    IU1      ,In-Use flag 0, covering lock registers 32 - 63. - . - ." "0,1"
bitfld.long 0x00 8. "            IU0       ,In-Use flag 0, covering lock registers 0 - 31. - . - ." "0,1"
textline "                             "
bitfld.long 0x00 0. " RESETDONE  ,Reset done status. - . - ." "Reset_in_progress.,Reset_is_completed."
width 0x0B
tree.end
tree.end
tree.open "General_Purpose_Timers"
tree.open "TIMER3_L4_PER1Interconnect"
tree "TIMER3_L4_PER1Interconnect"
base ad:0x48034000
width 15.
rgroup.long 0x0++0x3
line.long 0x00 "TIDR,This read-only register contains the revision number of the module. A write to this register has no effect. This register is used by software to track features, bugs, and compatibility."
hexmask.long 0x00 0.--31. 1. " REVISION       ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "TIOCP_CFG,This register controls the various parameters of the L4 interface."
bitfld.long 0x00 2.--3. " IDLEMODE       ,Power management, req/ack control - Idle_Mode_0x0. - Idle_Mode_0x1. - Idle_Mode_0x2. - Idle_Mode_0x3." "Idle_Mode_0x0,Idle_Mode_0x1,Idle_Mode_0x2,Idle_Mode_0x3"
bitfld.long 0x00 1. "         EMUFREE     ,Emulation mode - timer_frozen. - timer_free." "timer_frozen,timer_free"
bitfld.long 0x00 0. "         SOFTRESET   ,Software reset - SoftReset_Value_0. - SoftReset_Value_1." "SoftReset_Value_0,SoftReset_Value_1"
group.long 0x20++0x3
line.long 0x00 "IRQ_EOI,Software End-Of-Interrupt: Allows the generation of further pulses on the interrupt line, if a new interrupt event is pending, when using the pulsed output. Unused when using the level interrupt line (depending on module integration)."
bitfld.long 0x00 0. " LINE_NUMBER    ,Write the number of the interrupt line to apply a SW EOI to it. Note that there is only a single line (i.e. number 0). Read: Read always returns 0 Write 0: SW EOI on interrupt line Write 1: No action" "0,1"
group.long 0x24++0x3
line.long 0x00 "IRQSTATUS_RAW,Component interrupt-request status. Check the corresponding secondary status register. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 2. " TCAR_IT_FLAG   ,IRQ status for capture Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
bitfld.long 0x00 1. "                     OVF_IT_FLAG ,IRQ status for overflow Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
bitfld.long 0x00 0. "                    MAT_IT_FLAG ,IRQ status for match Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
group.long 0x28++0x3
line.long 0x00 "IRQSTATUS,Component interrupt-request status. Check the corresponding secondary status register. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if..."
bitfld.long 0x00 2. " TCAR_IT_FLAG   ,IRQ status for capture Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
bitfld.long 0x00 1. "                     OVF_IT_FLAG ,IRQ status for overflow Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
bitfld.long 0x00 0. "                    MAT_IT_FLAG ,IRQ status for match Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
group.long 0x2C++0x3
line.long 0x00 "IRQENABLE_SET,Component interrupt-request enable. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 2. " TCAR_EN_FLAG   ,IRQ enable for compare Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled Write 1: Set IRQ enable." "0,1"
bitfld.long 0x00 1. "                     OVF_EN_FLAG ,IRQ enable for overflow Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Set IRQ enable." "0,1"
bitfld.long 0x00 0. "                    MAT_EN_FLAG ,IRQ enable for match Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Set IRQ enable." "0,1"
group.long 0x30++0x3
line.long 0x00 "IRQENABLE_CLR,Component interrupt-request enable. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
bitfld.long 0x00 2. " TCAR_EN_FLAG   ,IRQ enable for compare Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
bitfld.long 0x00 1. "                     OVF_EN_FLAG ,IRQ enable for overflow Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
bitfld.long 0x00 0. "                    MAT_EN_FLAG ,IRQ enable for match Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
group.long 0x34++0x3
line.long 0x00 "IRQWAKEEN,Wake-up-enabled events taking place when module is idle should generate an asynchronous wake-up."
bitfld.long 0x00 2. " TCAR_WUP_ENA   ,Wake-up generation for compare - TCAR_WUP_ENA_Value_0. - TCAR_WUP_ENA_Value_1." "TCAR_WUP_ENA_Value_0,TCAR_WUP_ENA_Value_1"
bitfld.long 0x00 1. "  OVF_WUP_ENA ,Wake-up generation for overflow - OVF_WUP_ENA_Value_0. - OVF_WUP_ENA_Value_1." "OVF_WUP_ENA_Value_0,OVF_WUP_ENA_Value_1"
bitfld.long 0x00 0. "  MAT_WUP_ENA ,Wake-up generation for match - MAT_WUP_ENA_VALUE_0. - MAT_WUP_ENA_VALUE_1." "MAT_WUP_ENA_VALUE_0,MAT_WUP_ENA_VALUE_1"
group.long 0x38++0x3
line.long 0x00 "TCLR,This register controls optional features specific to the timer functionality."
bitfld.long 0x00 14. " GPO_CFG        ,General-purpose output - this register directly drives the PO_GPOCFG output pin. For specific use of the GPO_CFG bit, see, . - GPO_CFG_0. - GPO_CFG_1." "GPO_CFG_0,GPO_CFG_1"
bitfld.long 0x00 13. "             CAPT_MODE   ,Capture mode select bit (first/second) - First_capt. - Sec_capt." "First_capt,Sec_capt"
bitfld.long 0x00 12. "           PT          ,Pulse or toggle mode on TIMERi_PWM_out output pin - pulse. - toggle." "pulse,toggle"
textline "                        "
bitfld.long 0x00 10.--11. " TRG            ,Trigger output mode on TIMERi_PWM_out output pin - no_trg. - ovf_trg. - ovf_mat_trg. - reserved." "no_trg,ovf_trg,ovf_mat_trg,reserved"
bitfld.long 0x00 8.--9. "           TCM         ,Transition capture mode on TIMERi_EVENT_CAPTURE input pin (When the TCM field passed from (00) to any other combination, the TCAR_IT_FLAG and the edge detection logic are cleared.) - no_edge. - rise_edge. - fall_edge. - both_edges." "no_edge,rise_edge,fall_edge,both_edges"
bitfld.long 0x00 7. "           SCPWM       ,Pulse width modulation output pin default setting This bit must be set or clear while the timer is stopped or the trigger is off. - def_low. - def_high." "def_low,def_high"
textline "                        "
bitfld.long 0x00 6. " CE             ,Compare enable - dsb_cmp. - enb_cmp." "dsb_cmp,enb_cmp"
bitfld.long 0x00 5. "               PRE         ,Prescaler enable - no_prescal. - prescal_on." "no_prescal,prescal_on"
bitfld.long 0x00 2.--4. "           PTV         ,Prescale clock timer value The timer counter is prescaled with the value 2. Example: PTV = 3, counter increases value (if started) after 16 functional clock periods." "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 1. " AR             ,Autoreload mode - one_shot. - auto_rel." "one_shot,auto_rel"
bitfld.long 0x00 0. "              ST          ,Start/stop timer control - cnt_stop. - cnt_start." "cnt_stop,cnt_start"
group.long 0x3C++0x3
line.long 0x00 "TCRR,This register holds the value of the internal counter."
hexmask.long 0x00 0.--31. 1. " TIMER_COUNTER  ,Value of TIMER counter"
group.long 0x40++0x3
line.long 0x00 "TLDR,This register holds the timer load value."
hexmask.long 0x00 0.--31. 1. " LOAD_VALUE     ,Timer counter value loaded on overflow in autoreload mode or onTTGR write access. LOAD_VALUE must be different than the timer overflow value (0xFFFF FFFF)."
group.long 0x44++0x3
line.long 0x00 "TTGR,The read value of this register is always 0xFFFF FFFF."
hexmask.long 0x00 0.--31. 1. " TTGR_VALUE     ,Writing to theTTGR register causes the TCRR to be loaded from TLDR and the prescaler counter to be cleared. Reload is done regardless of the AR field value of the TCLR register."
rgroup.long 0x48++0x3
line.long 0x00 "TWPS,This register contains the write posting bits for all writable functional registers."
bitfld.long 0x00 9. " W_PEND_TOWR    ,Write pending for theTOWR register - . - ." "No_write_pending,Write_pending"
bitfld.long 0x00 8. "      W_PEND_TOCR ,Write pending for theTOCR register - . - ." "No_write_pending,Write_pending"
bitfld.long 0x00 7. "     W_PEND_TCVR ,Write pending for theTCVR register - . - ." "No_write_pending,Write_pending"
textline "                        "
bitfld.long 0x00 6. " W_PEND_TNIR    ,Write pending for theTNIR register - . - ." "0,1"
bitfld.long 0x00 5. "                     W_PEND_TPIR ,Write pending for theTPIR register - . - ." "0,1"
bitfld.long 0x00 4. "                    W_PEND_TMAR ,When equal to 1, a write is pending to theTMAR register." "0,1"
textline "                        "
bitfld.long 0x00 3. " W_PEND_TTGR    ,When equal to 1, a write is pending to theTTGR register." "0,1"
bitfld.long 0x00 2. "                     W_PEND_TLDR ,When equal to 1, a write is pending to theTLDR register." "0,1"
bitfld.long 0x00 1. "                    W_PEND_TCRR ,When equal to 1, a write is pending to theTCRR register." "0,1"
textline "                        "
bitfld.long 0x00 0. " W_PEND_TCLR    ,When equal to 1, a write is pending to theTCLR register." "0,1"
group.long 0x4C++0x3
line.long 0x00 "TMAR,The compare logic consists of a 32-bit-wide, read/write data register and logic to compare counter."
hexmask.long 0x00 0.--31. 1. " COMPARE_VALUE  ,Value to be compared to the timer counter"
rgroup.long 0x50++0x3
line.long 0x00 "TCAR1,This register holds the first captured value of the counter register."
hexmask.long 0x00 0.--31. 1. " CAPTURE_VALUE1 ,First timer counter value captured on an external event trigger"
group.long 0x54++0x3
line.long 0x00 "TSICR,Timer synchronous interface control register"
bitfld.long 0x00 3. " READ_MODE      ,Select posted/non-posted mode for read operation: - . - . NOTE: When the module is configured in posted mode (POSTED = '1'), this bit is not used.. - . NOTE: For GP TIMER1, TIMER2 and TIMER10 this bit is write only.. - ." "0,1"
bitfld.long 0x00 2. "                     POSTED      ,Posted mode selection - POSTED_Value_0. - POSTED_Value_1." "POSTED_Value_0,POSTED_Value_1"
bitfld.long 0x00 1. "       SFT         ,This bit resets all the functional part of the module. - SFT_0. - SFT_1." "SFT_0,SFT_1"
rgroup.long 0x58++0x3
line.long 0x00 "TCAR2,This register holds the second captured value of the counter register."
hexmask.long 0x00 0.--31. 1. " CAPTURE_VALUE2 ,Second timer counter value captured on an external event trigger"
width 0x0B
tree.end
tree "TIMER4_L4_PER1Interconnect"
base ad:0x48036000
width 15.
rgroup.long 0x0++0x3
line.long 0x00 "TIDR,This read-only register contains the revision number of the module. A write to this register has no effect. This register is used by software to track features, bugs, and compatibility."
hexmask.long 0x00 0.--31. 1. " REVISION       ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "TIOCP_CFG,This register controls the various parameters of the L4 interface."
bitfld.long 0x00 2.--3. " IDLEMODE       ,Power management, req/ack control - Idle_Mode_0x0. - Idle_Mode_0x1. - Idle_Mode_0x2. - Idle_Mode_0x3." "Idle_Mode_0x0,Idle_Mode_0x1,Idle_Mode_0x2,Idle_Mode_0x3"
bitfld.long 0x00 1. "         EMUFREE     ,Emulation mode - timer_frozen. - timer_free." "timer_frozen,timer_free"
bitfld.long 0x00 0. "         SOFTRESET   ,Software reset - SoftReset_Value_0. - SoftReset_Value_1." "SoftReset_Value_0,SoftReset_Value_1"
group.long 0x20++0x3
line.long 0x00 "IRQ_EOI,Software End-Of-Interrupt: Allows the generation of further pulses on the interrupt line, if a new interrupt event is pending, when using the pulsed output. Unused when using the level interrupt line (depending on module integration)."
bitfld.long 0x00 0. " LINE_NUMBER    ,Write the number of the interrupt line to apply a SW EOI to it. Note that there is only a single line (i.e. number 0). Read: Read always returns 0 Write 0: SW EOI on interrupt line Write 1: No action" "0,1"
group.long 0x24++0x3
line.long 0x00 "IRQSTATUS_RAW,Component interrupt-request status. Check the corresponding secondary status register. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 2. " TCAR_IT_FLAG   ,IRQ status for capture Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
bitfld.long 0x00 1. "                     OVF_IT_FLAG ,IRQ status for overflow Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
bitfld.long 0x00 0. "                    MAT_IT_FLAG ,IRQ status for match Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
group.long 0x28++0x3
line.long 0x00 "IRQSTATUS,Component interrupt-request status. Check the corresponding secondary status register. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if..."
bitfld.long 0x00 2. " TCAR_IT_FLAG   ,IRQ status for capture Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
bitfld.long 0x00 1. "                     OVF_IT_FLAG ,IRQ status for overflow Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
bitfld.long 0x00 0. "                    MAT_IT_FLAG ,IRQ status for match Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
group.long 0x2C++0x3
line.long 0x00 "IRQENABLE_SET,Component interrupt-request enable. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 2. " TCAR_EN_FLAG   ,IRQ enable for compare Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled Write 1: Set IRQ enable." "0,1"
bitfld.long 0x00 1. "                     OVF_EN_FLAG ,IRQ enable for overflow Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Set IRQ enable." "0,1"
bitfld.long 0x00 0. "                    MAT_EN_FLAG ,IRQ enable for match Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Set IRQ enable." "0,1"
group.long 0x30++0x3
line.long 0x00 "IRQENABLE_CLR,Component interrupt-request enable. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
bitfld.long 0x00 2. " TCAR_EN_FLAG   ,IRQ enable for compare Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
bitfld.long 0x00 1. "                     OVF_EN_FLAG ,IRQ enable for overflow Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
bitfld.long 0x00 0. "                    MAT_EN_FLAG ,IRQ enable for match Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
group.long 0x34++0x3
line.long 0x00 "IRQWAKEEN,Wake-up-enabled events taking place when module is idle should generate an asynchronous wake-up."
bitfld.long 0x00 2. " TCAR_WUP_ENA   ,Wake-up generation for compare - TCAR_WUP_ENA_Value_0. - TCAR_WUP_ENA_Value_1." "TCAR_WUP_ENA_Value_0,TCAR_WUP_ENA_Value_1"
bitfld.long 0x00 1. "  OVF_WUP_ENA ,Wake-up generation for overflow - OVF_WUP_ENA_Value_0. - OVF_WUP_ENA_Value_1." "OVF_WUP_ENA_Value_0,OVF_WUP_ENA_Value_1"
bitfld.long 0x00 0. "  MAT_WUP_ENA ,Wake-up generation for match - MAT_WUP_ENA_VALUE_0. - MAT_WUP_ENA_VALUE_1." "MAT_WUP_ENA_VALUE_0,MAT_WUP_ENA_VALUE_1"
group.long 0x38++0x3
line.long 0x00 "TCLR,This register controls optional features specific to the timer functionality."
bitfld.long 0x00 14. " GPO_CFG        ,General-purpose output - this register directly drives the PO_GPOCFG output pin. For specific use of the GPO_CFG bit, see, . - GPO_CFG_0. - GPO_CFG_1." "GPO_CFG_0,GPO_CFG_1"
bitfld.long 0x00 13. "             CAPT_MODE   ,Capture mode select bit (first/second) - First_capt. - Sec_capt." "First_capt,Sec_capt"
bitfld.long 0x00 12. "           PT          ,Pulse or toggle mode on TIMERi_PWM_out output pin - pulse. - toggle." "pulse,toggle"
textline "                        "
bitfld.long 0x00 10.--11. " TRG            ,Trigger output mode on TIMERi_PWM_out output pin - no_trg. - ovf_trg. - ovf_mat_trg. - reserved." "no_trg,ovf_trg,ovf_mat_trg,reserved"
bitfld.long 0x00 8.--9. "           TCM         ,Transition capture mode on TIMERi_EVENT_CAPTURE input pin (When the TCM field passed from (00) to any other combination, the TCAR_IT_FLAG and the edge detection logic are cleared.) - no_edge. - rise_edge. - fall_edge. - both_edges." "no_edge,rise_edge,fall_edge,both_edges"
bitfld.long 0x00 7. "           SCPWM       ,Pulse width modulation output pin default setting This bit must be set or clear while the timer is stopped or the trigger is off. - def_low. - def_high." "def_low,def_high"
textline "                        "
bitfld.long 0x00 6. " CE             ,Compare enable - dsb_cmp. - enb_cmp." "dsb_cmp,enb_cmp"
bitfld.long 0x00 5. "               PRE         ,Prescaler enable - no_prescal. - prescal_on." "no_prescal,prescal_on"
bitfld.long 0x00 2.--4. "           PTV         ,Prescale clock timer value The timer counter is prescaled with the value 2. Example: PTV = 3, counter increases value (if started) after 16 functional clock periods." "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 1. " AR             ,Autoreload mode - one_shot. - auto_rel." "one_shot,auto_rel"
bitfld.long 0x00 0. "              ST          ,Start/stop timer control - cnt_stop. - cnt_start." "cnt_stop,cnt_start"
group.long 0x3C++0x3
line.long 0x00 "TCRR,This register holds the value of the internal counter."
hexmask.long 0x00 0.--31. 1. " TIMER_COUNTER  ,Value of TIMER counter"
group.long 0x40++0x3
line.long 0x00 "TLDR,This register holds the timer load value."
hexmask.long 0x00 0.--31. 1. " LOAD_VALUE     ,Timer counter value loaded on overflow in autoreload mode or onTTGR write access. LOAD_VALUE must be different than the timer overflow value (0xFFFF FFFF)."
group.long 0x44++0x3
line.long 0x00 "TTGR,The read value of this register is always 0xFFFF FFFF."
hexmask.long 0x00 0.--31. 1. " TTGR_VALUE     ,Writing to theTTGR register causes the TCRR to be loaded from TLDR and the prescaler counter to be cleared. Reload is done regardless of the AR field value of the TCLR register."
rgroup.long 0x48++0x3
line.long 0x00 "TWPS,This register contains the write posting bits for all writable functional registers."
bitfld.long 0x00 9. " W_PEND_TOWR    ,Write pending for theTOWR register - . - ." "No_write_pending,Write_pending"
bitfld.long 0x00 8. "      W_PEND_TOCR ,Write pending for theTOCR register - . - ." "No_write_pending,Write_pending"
bitfld.long 0x00 7. "     W_PEND_TCVR ,Write pending for theTCVR register - . - ." "No_write_pending,Write_pending"
textline "                        "
bitfld.long 0x00 6. " W_PEND_TNIR    ,Write pending for theTNIR register - . - ." "0,1"
bitfld.long 0x00 5. "                     W_PEND_TPIR ,Write pending for theTPIR register - . - ." "0,1"
bitfld.long 0x00 4. "                    W_PEND_TMAR ,When equal to 1, a write is pending to theTMAR register." "0,1"
textline "                        "
bitfld.long 0x00 3. " W_PEND_TTGR    ,When equal to 1, a write is pending to theTTGR register." "0,1"
bitfld.long 0x00 2. "                     W_PEND_TLDR ,When equal to 1, a write is pending to theTLDR register." "0,1"
bitfld.long 0x00 1. "                    W_PEND_TCRR ,When equal to 1, a write is pending to theTCRR register." "0,1"
textline "                        "
bitfld.long 0x00 0. " W_PEND_TCLR    ,When equal to 1, a write is pending to theTCLR register." "0,1"
group.long 0x4C++0x3
line.long 0x00 "TMAR,The compare logic consists of a 32-bit-wide, read/write data register and logic to compare counter."
hexmask.long 0x00 0.--31. 1. " COMPARE_VALUE  ,Value to be compared to the timer counter"
rgroup.long 0x50++0x3
line.long 0x00 "TCAR1,This register holds the first captured value of the counter register."
hexmask.long 0x00 0.--31. 1. " CAPTURE_VALUE1 ,First timer counter value captured on an external event trigger"
group.long 0x54++0x3
line.long 0x00 "TSICR,Timer synchronous interface control register"
bitfld.long 0x00 3. " READ_MODE      ,Select posted/non-posted mode for read operation: - . - . NOTE: When the module is configured in posted mode (POSTED = '1'), this bit is not used.. - . NOTE: For GP TIMER1, TIMER2 and TIMER10 this bit is write only.. - ." "0,1"
bitfld.long 0x00 2. "                     POSTED      ,Posted mode selection - POSTED_Value_0. - POSTED_Value_1." "POSTED_Value_0,POSTED_Value_1"
bitfld.long 0x00 1. "       SFT         ,This bit resets all the functional part of the module. - SFT_0. - SFT_1." "SFT_0,SFT_1"
rgroup.long 0x58++0x3
line.long 0x00 "TCAR2,This register holds the second captured value of the counter register."
hexmask.long 0x00 0.--31. 1. " CAPTURE_VALUE2 ,Second timer counter value captured on an external event trigger"
width 0x0B
tree.end
tree "TIMER9_L4_PER1Interconnect"
base ad:0x4803E000
width 15.
rgroup.long 0x0++0x3
line.long 0x00 "TIDR,This read-only register contains the revision number of the module. A write to this register has no effect. This register is used by software to track features, bugs, and compatibility."
hexmask.long 0x00 0.--31. 1. " REVISION       ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "TIOCP_CFG,This register controls the various parameters of the L4 interface."
bitfld.long 0x00 2.--3. " IDLEMODE       ,Power management, req/ack control - Idle_Mode_0x0. - Idle_Mode_0x1. - Idle_Mode_0x2. - Idle_Mode_0x3." "Idle_Mode_0x0,Idle_Mode_0x1,Idle_Mode_0x2,Idle_Mode_0x3"
bitfld.long 0x00 1. "         EMUFREE     ,Emulation mode - timer_frozen. - timer_free." "timer_frozen,timer_free"
bitfld.long 0x00 0. "         SOFTRESET   ,Software reset - SoftReset_Value_0. - SoftReset_Value_1." "SoftReset_Value_0,SoftReset_Value_1"
group.long 0x20++0x3
line.long 0x00 "IRQ_EOI,Software End-Of-Interrupt: Allows the generation of further pulses on the interrupt line, if a new interrupt event is pending, when using the pulsed output. Unused when using the level interrupt line (depending on module integration)."
bitfld.long 0x00 0. " LINE_NUMBER    ,Write the number of the interrupt line to apply a SW EOI to it. Note that there is only a single line (i.e. number 0). Read: Read always returns 0 Write 0: SW EOI on interrupt line Write 1: No action" "0,1"
group.long 0x24++0x3
line.long 0x00 "IRQSTATUS_RAW,Component interrupt-request status. Check the corresponding secondary status register. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 2. " TCAR_IT_FLAG   ,IRQ status for capture Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
bitfld.long 0x00 1. "                     OVF_IT_FLAG ,IRQ status for overflow Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
bitfld.long 0x00 0. "                    MAT_IT_FLAG ,IRQ status for match Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
group.long 0x28++0x3
line.long 0x00 "IRQSTATUS,Component interrupt-request status. Check the corresponding secondary status register. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if..."
bitfld.long 0x00 2. " TCAR_IT_FLAG   ,IRQ status for capture Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
bitfld.long 0x00 1. "                     OVF_IT_FLAG ,IRQ status for overflow Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
bitfld.long 0x00 0. "                    MAT_IT_FLAG ,IRQ status for match Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
group.long 0x2C++0x3
line.long 0x00 "IRQENABLE_SET,Component interrupt-request enable. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 2. " TCAR_EN_FLAG   ,IRQ enable for compare Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled Write 1: Set IRQ enable." "0,1"
bitfld.long 0x00 1. "                     OVF_EN_FLAG ,IRQ enable for overflow Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Set IRQ enable." "0,1"
bitfld.long 0x00 0. "                    MAT_EN_FLAG ,IRQ enable for match Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Set IRQ enable." "0,1"
group.long 0x30++0x3
line.long 0x00 "IRQENABLE_CLR,Component interrupt-request enable. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
bitfld.long 0x00 2. " TCAR_EN_FLAG   ,IRQ enable for compare Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
bitfld.long 0x00 1. "                     OVF_EN_FLAG ,IRQ enable for overflow Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
bitfld.long 0x00 0. "                    MAT_EN_FLAG ,IRQ enable for match Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
group.long 0x34++0x3
line.long 0x00 "IRQWAKEEN,Wake-up-enabled events taking place when module is idle should generate an asynchronous wake-up."
bitfld.long 0x00 2. " TCAR_WUP_ENA   ,Wake-up generation for compare - TCAR_WUP_ENA_Value_0. - TCAR_WUP_ENA_Value_1." "TCAR_WUP_ENA_Value_0,TCAR_WUP_ENA_Value_1"
bitfld.long 0x00 1. "  OVF_WUP_ENA ,Wake-up generation for overflow - OVF_WUP_ENA_Value_0. - OVF_WUP_ENA_Value_1." "OVF_WUP_ENA_Value_0,OVF_WUP_ENA_Value_1"
bitfld.long 0x00 0. "  MAT_WUP_ENA ,Wake-up generation for match - MAT_WUP_ENA_VALUE_0. - MAT_WUP_ENA_VALUE_1." "MAT_WUP_ENA_VALUE_0,MAT_WUP_ENA_VALUE_1"
group.long 0x38++0x3
line.long 0x00 "TCLR,This register controls optional features specific to the timer functionality."
bitfld.long 0x00 14. " GPO_CFG        ,General-purpose output - this register directly drives the PO_GPOCFG output pin. For specific use of the GPO_CFG bit, see, . - GPO_CFG_0. - GPO_CFG_1." "GPO_CFG_0,GPO_CFG_1"
bitfld.long 0x00 13. "             CAPT_MODE   ,Capture mode select bit (first/second) - First_capt. - Sec_capt." "First_capt,Sec_capt"
bitfld.long 0x00 12. "           PT          ,Pulse or toggle mode on TIMERi_PWM_out output pin - pulse. - toggle." "pulse,toggle"
textline "                        "
bitfld.long 0x00 10.--11. " TRG            ,Trigger output mode on TIMERi_PWM_out output pin - no_trg. - ovf_trg. - ovf_mat_trg. - reserved." "no_trg,ovf_trg,ovf_mat_trg,reserved"
bitfld.long 0x00 8.--9. "           TCM         ,Transition capture mode on TIMERi_EVENT_CAPTURE input pin (When the TCM field passed from (00) to any other combination, the TCAR_IT_FLAG and the edge detection logic are cleared.) - no_edge. - rise_edge. - fall_edge. - both_edges." "no_edge,rise_edge,fall_edge,both_edges"
bitfld.long 0x00 7. "           SCPWM       ,Pulse width modulation output pin default setting This bit must be set or clear while the timer is stopped or the trigger is off. - def_low. - def_high." "def_low,def_high"
textline "                        "
bitfld.long 0x00 6. " CE             ,Compare enable - dsb_cmp. - enb_cmp." "dsb_cmp,enb_cmp"
bitfld.long 0x00 5. "               PRE         ,Prescaler enable - no_prescal. - prescal_on." "no_prescal,prescal_on"
bitfld.long 0x00 2.--4. "           PTV         ,Prescale clock timer value The timer counter is prescaled with the value 2. Example: PTV = 3, counter increases value (if started) after 16 functional clock periods." "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 1. " AR             ,Autoreload mode - one_shot. - auto_rel." "one_shot,auto_rel"
bitfld.long 0x00 0. "              ST          ,Start/stop timer control - cnt_stop. - cnt_start." "cnt_stop,cnt_start"
group.long 0x3C++0x3
line.long 0x00 "TCRR,This register holds the value of the internal counter."
hexmask.long 0x00 0.--31. 1. " TIMER_COUNTER  ,Value of TIMER counter"
group.long 0x40++0x3
line.long 0x00 "TLDR,This register holds the timer load value."
hexmask.long 0x00 0.--31. 1. " LOAD_VALUE     ,Timer counter value loaded on overflow in autoreload mode or onTTGR write access. LOAD_VALUE must be different than the timer overflow value (0xFFFF FFFF)."
group.long 0x44++0x3
line.long 0x00 "TTGR,The read value of this register is always 0xFFFF FFFF."
hexmask.long 0x00 0.--31. 1. " TTGR_VALUE     ,Writing to theTTGR register causes the TCRR to be loaded from TLDR and the prescaler counter to be cleared. Reload is done regardless of the AR field value of the TCLR register."
rgroup.long 0x48++0x3
line.long 0x00 "TWPS,This register contains the write posting bits for all writable functional registers."
bitfld.long 0x00 9. " W_PEND_TOWR    ,Write pending for theTOWR register - . - ." "No_write_pending,Write_pending"
bitfld.long 0x00 8. "      W_PEND_TOCR ,Write pending for theTOCR register - . - ." "No_write_pending,Write_pending"
bitfld.long 0x00 7. "     W_PEND_TCVR ,Write pending for theTCVR register - . - ." "No_write_pending,Write_pending"
textline "                        "
bitfld.long 0x00 6. " W_PEND_TNIR    ,Write pending for theTNIR register - . - ." "0,1"
bitfld.long 0x00 5. "                     W_PEND_TPIR ,Write pending for theTPIR register - . - ." "0,1"
bitfld.long 0x00 4. "                    W_PEND_TMAR ,When equal to 1, a write is pending to theTMAR register." "0,1"
textline "                        "
bitfld.long 0x00 3. " W_PEND_TTGR    ,When equal to 1, a write is pending to theTTGR register." "0,1"
bitfld.long 0x00 2. "                     W_PEND_TLDR ,When equal to 1, a write is pending to theTLDR register." "0,1"
bitfld.long 0x00 1. "                    W_PEND_TCRR ,When equal to 1, a write is pending to theTCRR register." "0,1"
textline "                        "
bitfld.long 0x00 0. " W_PEND_TCLR    ,When equal to 1, a write is pending to theTCLR register." "0,1"
group.long 0x4C++0x3
line.long 0x00 "TMAR,The compare logic consists of a 32-bit-wide, read/write data register and logic to compare counter."
hexmask.long 0x00 0.--31. 1. " COMPARE_VALUE  ,Value to be compared to the timer counter"
rgroup.long 0x50++0x3
line.long 0x00 "TCAR1,This register holds the first captured value of the counter register."
hexmask.long 0x00 0.--31. 1. " CAPTURE_VALUE1 ,First timer counter value captured on an external event trigger"
group.long 0x54++0x3
line.long 0x00 "TSICR,Timer synchronous interface control register"
bitfld.long 0x00 3. " READ_MODE      ,Select posted/non-posted mode for read operation: - . - . NOTE: When the module is configured in posted mode (POSTED = '1'), this bit is not used.. - . NOTE: For GP TIMER1, TIMER2 and TIMER10 this bit is write only.. - ." "0,1"
bitfld.long 0x00 2. "                     POSTED      ,Posted mode selection - POSTED_Value_0. - POSTED_Value_1." "POSTED_Value_0,POSTED_Value_1"
bitfld.long 0x00 1. "       SFT         ,This bit resets all the functional part of the module. - SFT_0. - SFT_1." "SFT_0,SFT_1"
rgroup.long 0x58++0x3
line.long 0x00 "TCAR2,This register holds the second captured value of the counter register."
hexmask.long 0x00 0.--31. 1. " CAPTURE_VALUE2 ,Second timer counter value captured on an external event trigger"
width 0x0B
tree.end
tree "TIMER11_L4_PER1Interconnect"
base ad:0x48088000
width 15.
rgroup.long 0x0++0x3
line.long 0x00 "TIDR,This read-only register contains the revision number of the module. A write to this register has no effect. This register is used by software to track features, bugs, and compatibility."
hexmask.long 0x00 0.--31. 1. " REVISION       ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "TIOCP_CFG,This register controls the various parameters of the L4 interface."
bitfld.long 0x00 2.--3. " IDLEMODE       ,Power management, req/ack control - Idle_Mode_0x0. - Idle_Mode_0x1. - Idle_Mode_0x2. - Idle_Mode_0x3." "Idle_Mode_0x0,Idle_Mode_0x1,Idle_Mode_0x2,Idle_Mode_0x3"
bitfld.long 0x00 1. "         EMUFREE     ,Emulation mode - timer_frozen. - timer_free." "timer_frozen,timer_free"
bitfld.long 0x00 0. "         SOFTRESET   ,Software reset - SoftReset_Value_0. - SoftReset_Value_1." "SoftReset_Value_0,SoftReset_Value_1"
group.long 0x20++0x3
line.long 0x00 "IRQ_EOI,Software End-Of-Interrupt: Allows the generation of further pulses on the interrupt line, if a new interrupt event is pending, when using the pulsed output. Unused when using the level interrupt line (depending on module integration)."
bitfld.long 0x00 0. " LINE_NUMBER    ,Write the number of the interrupt line to apply a SW EOI to it. Note that there is only a single line (i.e. number 0). Read: Read always returns 0 Write 0: SW EOI on interrupt line Write 1: No action" "0,1"
group.long 0x24++0x3
line.long 0x00 "IRQSTATUS_RAW,Component interrupt-request status. Check the corresponding secondary status register. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 2. " TCAR_IT_FLAG   ,IRQ status for capture Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
bitfld.long 0x00 1. "                     OVF_IT_FLAG ,IRQ status for overflow Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
bitfld.long 0x00 0. "                    MAT_IT_FLAG ,IRQ status for match Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
group.long 0x28++0x3
line.long 0x00 "IRQSTATUS,Component interrupt-request status. Check the corresponding secondary status register. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if..."
bitfld.long 0x00 2. " TCAR_IT_FLAG   ,IRQ status for capture Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
bitfld.long 0x00 1. "                     OVF_IT_FLAG ,IRQ status for overflow Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
bitfld.long 0x00 0. "                    MAT_IT_FLAG ,IRQ status for match Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
group.long 0x2C++0x3
line.long 0x00 "IRQENABLE_SET,Component interrupt-request enable. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 2. " TCAR_EN_FLAG   ,IRQ enable for compare Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled Write 1: Set IRQ enable." "0,1"
bitfld.long 0x00 1. "                     OVF_EN_FLAG ,IRQ enable for overflow Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Set IRQ enable." "0,1"
bitfld.long 0x00 0. "                    MAT_EN_FLAG ,IRQ enable for match Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Set IRQ enable." "0,1"
group.long 0x30++0x3
line.long 0x00 "IRQENABLE_CLR,Component interrupt-request enable. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
bitfld.long 0x00 2. " TCAR_EN_FLAG   ,IRQ enable for compare Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
bitfld.long 0x00 1. "                     OVF_EN_FLAG ,IRQ enable for overflow Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
bitfld.long 0x00 0. "                    MAT_EN_FLAG ,IRQ enable for match Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
group.long 0x34++0x3
line.long 0x00 "IRQWAKEEN,Wake-up-enabled events taking place when module is idle should generate an asynchronous wake-up."
bitfld.long 0x00 2. " TCAR_WUP_ENA   ,Wake-up generation for compare - TCAR_WUP_ENA_Value_0. - TCAR_WUP_ENA_Value_1." "TCAR_WUP_ENA_Value_0,TCAR_WUP_ENA_Value_1"
bitfld.long 0x00 1. "  OVF_WUP_ENA ,Wake-up generation for overflow - OVF_WUP_ENA_Value_0. - OVF_WUP_ENA_Value_1." "OVF_WUP_ENA_Value_0,OVF_WUP_ENA_Value_1"
bitfld.long 0x00 0. "  MAT_WUP_ENA ,Wake-up generation for match - MAT_WUP_ENA_VALUE_0. - MAT_WUP_ENA_VALUE_1." "MAT_WUP_ENA_VALUE_0,MAT_WUP_ENA_VALUE_1"
group.long 0x38++0x3
line.long 0x00 "TCLR,This register controls optional features specific to the timer functionality."
bitfld.long 0x00 14. " GPO_CFG        ,General-purpose output - this register directly drives the PO_GPOCFG output pin. For specific use of the GPO_CFG bit, see, . - GPO_CFG_0. - GPO_CFG_1." "GPO_CFG_0,GPO_CFG_1"
bitfld.long 0x00 13. "             CAPT_MODE   ,Capture mode select bit (first/second) - First_capt. - Sec_capt." "First_capt,Sec_capt"
bitfld.long 0x00 12. "           PT          ,Pulse or toggle mode on TIMERi_PWM_out output pin - pulse. - toggle." "pulse,toggle"
textline "                        "
bitfld.long 0x00 10.--11. " TRG            ,Trigger output mode on TIMERi_PWM_out output pin - no_trg. - ovf_trg. - ovf_mat_trg. - reserved." "no_trg,ovf_trg,ovf_mat_trg,reserved"
bitfld.long 0x00 8.--9. "           TCM         ,Transition capture mode on TIMERi_EVENT_CAPTURE input pin (When the TCM field passed from (00) to any other combination, the TCAR_IT_FLAG and the edge detection logic are cleared.) - no_edge. - rise_edge. - fall_edge. - both_edges." "no_edge,rise_edge,fall_edge,both_edges"
bitfld.long 0x00 7. "           SCPWM       ,Pulse width modulation output pin default setting This bit must be set or clear while the timer is stopped or the trigger is off. - def_low. - def_high." "def_low,def_high"
textline "                        "
bitfld.long 0x00 6. " CE             ,Compare enable - dsb_cmp. - enb_cmp." "dsb_cmp,enb_cmp"
bitfld.long 0x00 5. "               PRE         ,Prescaler enable - no_prescal. - prescal_on." "no_prescal,prescal_on"
bitfld.long 0x00 2.--4. "           PTV         ,Prescale clock timer value The timer counter is prescaled with the value 2. Example: PTV = 3, counter increases value (if started) after 16 functional clock periods." "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 1. " AR             ,Autoreload mode - one_shot. - auto_rel." "one_shot,auto_rel"
bitfld.long 0x00 0. "              ST          ,Start/stop timer control - cnt_stop. - cnt_start." "cnt_stop,cnt_start"
group.long 0x3C++0x3
line.long 0x00 "TCRR,This register holds the value of the internal counter."
hexmask.long 0x00 0.--31. 1. " TIMER_COUNTER  ,Value of TIMER counter"
group.long 0x40++0x3
line.long 0x00 "TLDR,This register holds the timer load value."
hexmask.long 0x00 0.--31. 1. " LOAD_VALUE     ,Timer counter value loaded on overflow in autoreload mode or onTTGR write access. LOAD_VALUE must be different than the timer overflow value (0xFFFF FFFF)."
group.long 0x44++0x3
line.long 0x00 "TTGR,The read value of this register is always 0xFFFF FFFF."
hexmask.long 0x00 0.--31. 1. " TTGR_VALUE     ,Writing to theTTGR register causes the TCRR to be loaded from TLDR and the prescaler counter to be cleared. Reload is done regardless of the AR field value of the TCLR register."
rgroup.long 0x48++0x3
line.long 0x00 "TWPS,This register contains the write posting bits for all writable functional registers."
bitfld.long 0x00 9. " W_PEND_TOWR    ,Write pending for theTOWR register - . - ." "No_write_pending,Write_pending"
bitfld.long 0x00 8. "      W_PEND_TOCR ,Write pending for theTOCR register - . - ." "No_write_pending,Write_pending"
bitfld.long 0x00 7. "     W_PEND_TCVR ,Write pending for theTCVR register - . - ." "No_write_pending,Write_pending"
textline "                        "
bitfld.long 0x00 6. " W_PEND_TNIR    ,Write pending for theTNIR register - . - ." "0,1"
bitfld.long 0x00 5. "                     W_PEND_TPIR ,Write pending for theTPIR register - . - ." "0,1"
bitfld.long 0x00 4. "                    W_PEND_TMAR ,When equal to 1, a write is pending to theTMAR register." "0,1"
textline "                        "
bitfld.long 0x00 3. " W_PEND_TTGR    ,When equal to 1, a write is pending to theTTGR register." "0,1"
bitfld.long 0x00 2. "                     W_PEND_TLDR ,When equal to 1, a write is pending to theTLDR register." "0,1"
bitfld.long 0x00 1. "                    W_PEND_TCRR ,When equal to 1, a write is pending to theTCRR register." "0,1"
textline "                        "
bitfld.long 0x00 0. " W_PEND_TCLR    ,When equal to 1, a write is pending to theTCLR register." "0,1"
group.long 0x4C++0x3
line.long 0x00 "TMAR,The compare logic consists of a 32-bit-wide, read/write data register and logic to compare counter."
hexmask.long 0x00 0.--31. 1. " COMPARE_VALUE  ,Value to be compared to the timer counter"
rgroup.long 0x50++0x3
line.long 0x00 "TCAR1,This register holds the first captured value of the counter register."
hexmask.long 0x00 0.--31. 1. " CAPTURE_VALUE1 ,First timer counter value captured on an external event trigger"
group.long 0x54++0x3
line.long 0x00 "TSICR,Timer synchronous interface control register"
bitfld.long 0x00 3. " READ_MODE      ,Select posted/non-posted mode for read operation: - . - . NOTE: When the module is configured in posted mode (POSTED = '1'), this bit is not used.. - . NOTE: For GP TIMER1, TIMER2 and TIMER10 this bit is write only.. - ." "0,1"
bitfld.long 0x00 2. "                     POSTED      ,Posted mode selection - POSTED_Value_0. - POSTED_Value_1." "POSTED_Value_0,POSTED_Value_1"
bitfld.long 0x00 1. "       SFT         ,This bit resets all the functional part of the module. - SFT_0. - SFT_1." "SFT_0,SFT_1"
rgroup.long 0x58++0x3
line.long 0x00 "TCAR2,This register holds the second captured value of the counter register."
hexmask.long 0x00 0.--31. 1. " CAPTURE_VALUE2 ,Second timer counter value captured on an external event trigger"
width 0x0B
tree.end
tree "TIMER5_L4_PER3Interconnect"
base ad:0x48820000
width 15.
rgroup.long 0x0++0x3
line.long 0x00 "TIDR,This read-only register contains the revision number of the module. A write to this register has no effect. This register is used by software to track features, bugs, and compatibility."
hexmask.long 0x00 0.--31. 1. " REVISION       ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "TIOCP_CFG,This register controls the various parameters of the L4 interface."
bitfld.long 0x00 2.--3. " IDLEMODE       ,Power management, req/ack control - Idle_Mode_0x0. - Idle_Mode_0x1. - Idle_Mode_0x2. - Idle_Mode_0x3." "Idle_Mode_0x0,Idle_Mode_0x1,Idle_Mode_0x2,Idle_Mode_0x3"
bitfld.long 0x00 1. "         EMUFREE     ,Emulation mode - timer_frozen. - timer_free." "timer_frozen,timer_free"
bitfld.long 0x00 0. "         SOFTRESET   ,Software reset - SoftReset_Value_0. - SoftReset_Value_1." "SoftReset_Value_0,SoftReset_Value_1"
group.long 0x20++0x3
line.long 0x00 "IRQ_EOI,Software End-Of-Interrupt: Allows the generation of further pulses on the interrupt line, if a new interrupt event is pending, when using the pulsed output. Unused when using the level interrupt line (depending on module integration)."
bitfld.long 0x00 0. " LINE_NUMBER    ,Write the number of the interrupt line to apply a SW EOI to it. Note that there is only a single line (i.e. number 0). Read: Read always returns 0 Write 0: SW EOI on interrupt line Write 1: No action" "0,1"
group.long 0x24++0x3
line.long 0x00 "IRQSTATUS_RAW,Component interrupt-request status. Check the corresponding secondary status register. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 2. " TCAR_IT_FLAG   ,IRQ status for capture Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
bitfld.long 0x00 1. "                     OVF_IT_FLAG ,IRQ status for overflow Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
bitfld.long 0x00 0. "                    MAT_IT_FLAG ,IRQ status for match Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
group.long 0x28++0x3
line.long 0x00 "IRQSTATUS,Component interrupt-request status. Check the corresponding secondary status register. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if..."
bitfld.long 0x00 2. " TCAR_IT_FLAG   ,IRQ status for capture Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
bitfld.long 0x00 1. "                     OVF_IT_FLAG ,IRQ status for overflow Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
bitfld.long 0x00 0. "                    MAT_IT_FLAG ,IRQ status for match Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
group.long 0x2C++0x3
line.long 0x00 "IRQENABLE_SET,Component interrupt-request enable. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 2. " TCAR_EN_FLAG   ,IRQ enable for compare Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled Write 1: Set IRQ enable." "0,1"
bitfld.long 0x00 1. "                     OVF_EN_FLAG ,IRQ enable for overflow Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Set IRQ enable." "0,1"
bitfld.long 0x00 0. "                    MAT_EN_FLAG ,IRQ enable for match Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Set IRQ enable." "0,1"
group.long 0x30++0x3
line.long 0x00 "IRQENABLE_CLR,Component interrupt-request enable. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
bitfld.long 0x00 2. " TCAR_EN_FLAG   ,IRQ enable for compare Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
bitfld.long 0x00 1. "                     OVF_EN_FLAG ,IRQ enable for overflow Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
bitfld.long 0x00 0. "                    MAT_EN_FLAG ,IRQ enable for match Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
group.long 0x34++0x3
line.long 0x00 "IRQWAKEEN,Wake-up-enabled events taking place when module is idle should generate an asynchronous wake-up."
bitfld.long 0x00 2. " TCAR_WUP_ENA   ,Wake-up generation for compare - TCAR_WUP_ENA_Value_0. - TCAR_WUP_ENA_Value_1." "TCAR_WUP_ENA_Value_0,TCAR_WUP_ENA_Value_1"
bitfld.long 0x00 1. "  OVF_WUP_ENA ,Wake-up generation for overflow - OVF_WUP_ENA_Value_0. - OVF_WUP_ENA_Value_1." "OVF_WUP_ENA_Value_0,OVF_WUP_ENA_Value_1"
bitfld.long 0x00 0. "  MAT_WUP_ENA ,Wake-up generation for match - MAT_WUP_ENA_VALUE_0. - MAT_WUP_ENA_VALUE_1." "MAT_WUP_ENA_VALUE_0,MAT_WUP_ENA_VALUE_1"
group.long 0x38++0x3
line.long 0x00 "TCLR,This register controls optional features specific to the timer functionality."
bitfld.long 0x00 14. " GPO_CFG        ,General-purpose output - this register directly drives the PO_GPOCFG output pin. For specific use of the GPO_CFG bit, see, . - GPO_CFG_0. - GPO_CFG_1." "GPO_CFG_0,GPO_CFG_1"
bitfld.long 0x00 13. "             CAPT_MODE   ,Capture mode select bit (first/second) - First_capt. - Sec_capt." "First_capt,Sec_capt"
bitfld.long 0x00 12. "           PT          ,Pulse or toggle mode on TIMERi_PWM_out output pin - pulse. - toggle." "pulse,toggle"
textline "                        "
bitfld.long 0x00 10.--11. " TRG            ,Trigger output mode on TIMERi_PWM_out output pin - no_trg. - ovf_trg. - ovf_mat_trg. - reserved." "no_trg,ovf_trg,ovf_mat_trg,reserved"
bitfld.long 0x00 8.--9. "           TCM         ,Transition capture mode on TIMERi_EVENT_CAPTURE input pin (When the TCM field passed from (00) to any other combination, the TCAR_IT_FLAG and the edge detection logic are cleared.) - no_edge. - rise_edge. - fall_edge. - both_edges." "no_edge,rise_edge,fall_edge,both_edges"
bitfld.long 0x00 7. "           SCPWM       ,Pulse width modulation output pin default setting This bit must be set or clear while the timer is stopped or the trigger is off. - def_low. - def_high." "def_low,def_high"
textline "                        "
bitfld.long 0x00 6. " CE             ,Compare enable - dsb_cmp. - enb_cmp." "dsb_cmp,enb_cmp"
bitfld.long 0x00 5. "               PRE         ,Prescaler enable - no_prescal. - prescal_on." "no_prescal,prescal_on"
bitfld.long 0x00 2.--4. "           PTV         ,Prescale clock timer value The timer counter is prescaled with the value 2. Example: PTV = 3, counter increases value (if started) after 16 functional clock periods." "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 1. " AR             ,Autoreload mode - one_shot. - auto_rel." "one_shot,auto_rel"
bitfld.long 0x00 0. "              ST          ,Start/stop timer control - cnt_stop. - cnt_start." "cnt_stop,cnt_start"
group.long 0x3C++0x3
line.long 0x00 "TCRR,This register holds the value of the internal counter."
hexmask.long 0x00 0.--31. 1. " TIMER_COUNTER  ,Value of TIMER counter"
group.long 0x40++0x3
line.long 0x00 "TLDR,This register holds the timer load value."
hexmask.long 0x00 0.--31. 1. " LOAD_VALUE     ,Timer counter value loaded on overflow in autoreload mode or onTTGR write access. LOAD_VALUE must be different than the timer overflow value (0xFFFF FFFF)."
group.long 0x44++0x3
line.long 0x00 "TTGR,The read value of this register is always 0xFFFF FFFF."
hexmask.long 0x00 0.--31. 1. " TTGR_VALUE     ,Writing to theTTGR register causes the TCRR to be loaded from TLDR and the prescaler counter to be cleared. Reload is done regardless of the AR field value of the TCLR register."
rgroup.long 0x48++0x3
line.long 0x00 "TWPS,This register contains the write posting bits for all writable functional registers."
bitfld.long 0x00 9. " W_PEND_TOWR    ,Write pending for theTOWR register - . - ." "No_write_pending,Write_pending"
bitfld.long 0x00 8. "      W_PEND_TOCR ,Write pending for theTOCR register - . - ." "No_write_pending,Write_pending"
bitfld.long 0x00 7. "     W_PEND_TCVR ,Write pending for theTCVR register - . - ." "No_write_pending,Write_pending"
textline "                        "
bitfld.long 0x00 6. " W_PEND_TNIR    ,Write pending for theTNIR register - . - ." "0,1"
bitfld.long 0x00 5. "                     W_PEND_TPIR ,Write pending for theTPIR register - . - ." "0,1"
bitfld.long 0x00 4. "                    W_PEND_TMAR ,When equal to 1, a write is pending to theTMAR register." "0,1"
textline "                        "
bitfld.long 0x00 3. " W_PEND_TTGR    ,When equal to 1, a write is pending to theTTGR register." "0,1"
bitfld.long 0x00 2. "                     W_PEND_TLDR ,When equal to 1, a write is pending to theTLDR register." "0,1"
bitfld.long 0x00 1. "                    W_PEND_TCRR ,When equal to 1, a write is pending to theTCRR register." "0,1"
textline "                        "
bitfld.long 0x00 0. " W_PEND_TCLR    ,When equal to 1, a write is pending to theTCLR register." "0,1"
group.long 0x4C++0x3
line.long 0x00 "TMAR,The compare logic consists of a 32-bit-wide, read/write data register and logic to compare counter."
hexmask.long 0x00 0.--31. 1. " COMPARE_VALUE  ,Value to be compared to the timer counter"
rgroup.long 0x50++0x3
line.long 0x00 "TCAR1,This register holds the first captured value of the counter register."
hexmask.long 0x00 0.--31. 1. " CAPTURE_VALUE1 ,First timer counter value captured on an external event trigger"
group.long 0x54++0x3
line.long 0x00 "TSICR,Timer synchronous interface control register"
bitfld.long 0x00 3. " READ_MODE      ,Select posted/non-posted mode for read operation: - . - . NOTE: When the module is configured in posted mode (POSTED = '1'), this bit is not used.. - . NOTE: For GP TIMER1, TIMER2 and TIMER10 this bit is write only.. - ." "0,1"
bitfld.long 0x00 2. "                     POSTED      ,Posted mode selection - POSTED_Value_0. - POSTED_Value_1." "POSTED_Value_0,POSTED_Value_1"
bitfld.long 0x00 1. "       SFT         ,This bit resets all the functional part of the module. - SFT_0. - SFT_1." "SFT_0,SFT_1"
rgroup.long 0x58++0x3
line.long 0x00 "TCAR2,This register holds the second captured value of the counter register."
hexmask.long 0x00 0.--31. 1. " CAPTURE_VALUE2 ,Second timer counter value captured on an external event trigger"
width 0x0B
tree.end
tree "TIMER6_L4_PER3Interconnect"
base ad:0x48822000
width 15.
rgroup.long 0x0++0x3
line.long 0x00 "TIDR,This read-only register contains the revision number of the module. A write to this register has no effect. This register is used by software to track features, bugs, and compatibility."
hexmask.long 0x00 0.--31. 1. " REVISION       ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "TIOCP_CFG,This register controls the various parameters of the L4 interface."
bitfld.long 0x00 2.--3. " IDLEMODE       ,Power management, req/ack control - Idle_Mode_0x0. - Idle_Mode_0x1. - Idle_Mode_0x2. - Idle_Mode_0x3." "Idle_Mode_0x0,Idle_Mode_0x1,Idle_Mode_0x2,Idle_Mode_0x3"
bitfld.long 0x00 1. "         EMUFREE     ,Emulation mode - timer_frozen. - timer_free." "timer_frozen,timer_free"
bitfld.long 0x00 0. "         SOFTRESET   ,Software reset - SoftReset_Value_0. - SoftReset_Value_1." "SoftReset_Value_0,SoftReset_Value_1"
group.long 0x20++0x3
line.long 0x00 "IRQ_EOI,Software End-Of-Interrupt: Allows the generation of further pulses on the interrupt line, if a new interrupt event is pending, when using the pulsed output. Unused when using the level interrupt line (depending on module integration)."
bitfld.long 0x00 0. " LINE_NUMBER    ,Write the number of the interrupt line to apply a SW EOI to it. Note that there is only a single line (i.e. number 0). Read: Read always returns 0 Write 0: SW EOI on interrupt line Write 1: No action" "0,1"
group.long 0x24++0x3
line.long 0x00 "IRQSTATUS_RAW,Component interrupt-request status. Check the corresponding secondary status register. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 2. " TCAR_IT_FLAG   ,IRQ status for capture Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
bitfld.long 0x00 1. "                     OVF_IT_FLAG ,IRQ status for overflow Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
bitfld.long 0x00 0. "                    MAT_IT_FLAG ,IRQ status for match Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
group.long 0x28++0x3
line.long 0x00 "IRQSTATUS,Component interrupt-request status. Check the corresponding secondary status register. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if..."
bitfld.long 0x00 2. " TCAR_IT_FLAG   ,IRQ status for capture Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
bitfld.long 0x00 1. "                     OVF_IT_FLAG ,IRQ status for overflow Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
bitfld.long 0x00 0. "                    MAT_IT_FLAG ,IRQ status for match Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
group.long 0x2C++0x3
line.long 0x00 "IRQENABLE_SET,Component interrupt-request enable. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 2. " TCAR_EN_FLAG   ,IRQ enable for compare Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled Write 1: Set IRQ enable." "0,1"
bitfld.long 0x00 1. "                     OVF_EN_FLAG ,IRQ enable for overflow Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Set IRQ enable." "0,1"
bitfld.long 0x00 0. "                    MAT_EN_FLAG ,IRQ enable for match Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Set IRQ enable." "0,1"
group.long 0x30++0x3
line.long 0x00 "IRQENABLE_CLR,Component interrupt-request enable. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
bitfld.long 0x00 2. " TCAR_EN_FLAG   ,IRQ enable for compare Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
bitfld.long 0x00 1. "                     OVF_EN_FLAG ,IRQ enable for overflow Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
bitfld.long 0x00 0. "                    MAT_EN_FLAG ,IRQ enable for match Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
group.long 0x34++0x3
line.long 0x00 "IRQWAKEEN,Wake-up-enabled events taking place when module is idle should generate an asynchronous wake-up."
bitfld.long 0x00 2. " TCAR_WUP_ENA   ,Wake-up generation for compare - TCAR_WUP_ENA_Value_0. - TCAR_WUP_ENA_Value_1." "TCAR_WUP_ENA_Value_0,TCAR_WUP_ENA_Value_1"
bitfld.long 0x00 1. "  OVF_WUP_ENA ,Wake-up generation for overflow - OVF_WUP_ENA_Value_0. - OVF_WUP_ENA_Value_1." "OVF_WUP_ENA_Value_0,OVF_WUP_ENA_Value_1"
bitfld.long 0x00 0. "  MAT_WUP_ENA ,Wake-up generation for match - MAT_WUP_ENA_VALUE_0. - MAT_WUP_ENA_VALUE_1." "MAT_WUP_ENA_VALUE_0,MAT_WUP_ENA_VALUE_1"
group.long 0x38++0x3
line.long 0x00 "TCLR,This register controls optional features specific to the timer functionality."
bitfld.long 0x00 14. " GPO_CFG        ,General-purpose output - this register directly drives the PO_GPOCFG output pin. For specific use of the GPO_CFG bit, see, . - GPO_CFG_0. - GPO_CFG_1." "GPO_CFG_0,GPO_CFG_1"
bitfld.long 0x00 13. "             CAPT_MODE   ,Capture mode select bit (first/second) - First_capt. - Sec_capt." "First_capt,Sec_capt"
bitfld.long 0x00 12. "           PT          ,Pulse or toggle mode on TIMERi_PWM_out output pin - pulse. - toggle." "pulse,toggle"
textline "                        "
bitfld.long 0x00 10.--11. " TRG            ,Trigger output mode on TIMERi_PWM_out output pin - no_trg. - ovf_trg. - ovf_mat_trg. - reserved." "no_trg,ovf_trg,ovf_mat_trg,reserved"
bitfld.long 0x00 8.--9. "           TCM         ,Transition capture mode on TIMERi_EVENT_CAPTURE input pin (When the TCM field passed from (00) to any other combination, the TCAR_IT_FLAG and the edge detection logic are cleared.) - no_edge. - rise_edge. - fall_edge. - both_edges." "no_edge,rise_edge,fall_edge,both_edges"
bitfld.long 0x00 7. "           SCPWM       ,Pulse width modulation output pin default setting This bit must be set or clear while the timer is stopped or the trigger is off. - def_low. - def_high." "def_low,def_high"
textline "                        "
bitfld.long 0x00 6. " CE             ,Compare enable - dsb_cmp. - enb_cmp." "dsb_cmp,enb_cmp"
bitfld.long 0x00 5. "               PRE         ,Prescaler enable - no_prescal. - prescal_on." "no_prescal,prescal_on"
bitfld.long 0x00 2.--4. "           PTV         ,Prescale clock timer value The timer counter is prescaled with the value 2. Example: PTV = 3, counter increases value (if started) after 16 functional clock periods." "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 1. " AR             ,Autoreload mode - one_shot. - auto_rel." "one_shot,auto_rel"
bitfld.long 0x00 0. "              ST          ,Start/stop timer control - cnt_stop. - cnt_start." "cnt_stop,cnt_start"
group.long 0x3C++0x3
line.long 0x00 "TCRR,This register holds the value of the internal counter."
hexmask.long 0x00 0.--31. 1. " TIMER_COUNTER  ,Value of TIMER counter"
group.long 0x40++0x3
line.long 0x00 "TLDR,This register holds the timer load value."
hexmask.long 0x00 0.--31. 1. " LOAD_VALUE     ,Timer counter value loaded on overflow in autoreload mode or onTTGR write access. LOAD_VALUE must be different than the timer overflow value (0xFFFF FFFF)."
group.long 0x44++0x3
line.long 0x00 "TTGR,The read value of this register is always 0xFFFF FFFF."
hexmask.long 0x00 0.--31. 1. " TTGR_VALUE     ,Writing to theTTGR register causes the TCRR to be loaded from TLDR and the prescaler counter to be cleared. Reload is done regardless of the AR field value of the TCLR register."
rgroup.long 0x48++0x3
line.long 0x00 "TWPS,This register contains the write posting bits for all writable functional registers."
bitfld.long 0x00 9. " W_PEND_TOWR    ,Write pending for theTOWR register - . - ." "No_write_pending,Write_pending"
bitfld.long 0x00 8. "      W_PEND_TOCR ,Write pending for theTOCR register - . - ." "No_write_pending,Write_pending"
bitfld.long 0x00 7. "     W_PEND_TCVR ,Write pending for theTCVR register - . - ." "No_write_pending,Write_pending"
textline "                        "
bitfld.long 0x00 6. " W_PEND_TNIR    ,Write pending for theTNIR register - . - ." "0,1"
bitfld.long 0x00 5. "                     W_PEND_TPIR ,Write pending for theTPIR register - . - ." "0,1"
bitfld.long 0x00 4. "                    W_PEND_TMAR ,When equal to 1, a write is pending to theTMAR register." "0,1"
textline "                        "
bitfld.long 0x00 3. " W_PEND_TTGR    ,When equal to 1, a write is pending to theTTGR register." "0,1"
bitfld.long 0x00 2. "                     W_PEND_TLDR ,When equal to 1, a write is pending to theTLDR register." "0,1"
bitfld.long 0x00 1. "                    W_PEND_TCRR ,When equal to 1, a write is pending to theTCRR register." "0,1"
textline "                        "
bitfld.long 0x00 0. " W_PEND_TCLR    ,When equal to 1, a write is pending to theTCLR register." "0,1"
group.long 0x4C++0x3
line.long 0x00 "TMAR,The compare logic consists of a 32-bit-wide, read/write data register and logic to compare counter."
hexmask.long 0x00 0.--31. 1. " COMPARE_VALUE  ,Value to be compared to the timer counter"
rgroup.long 0x50++0x3
line.long 0x00 "TCAR1,This register holds the first captured value of the counter register."
hexmask.long 0x00 0.--31. 1. " CAPTURE_VALUE1 ,First timer counter value captured on an external event trigger"
group.long 0x54++0x3
line.long 0x00 "TSICR,Timer synchronous interface control register"
bitfld.long 0x00 3. " READ_MODE      ,Select posted/non-posted mode for read operation: - . - . NOTE: When the module is configured in posted mode (POSTED = '1'), this bit is not used.. - . NOTE: For GP TIMER1, TIMER2 and TIMER10 this bit is write only.. - ." "0,1"
bitfld.long 0x00 2. "                     POSTED      ,Posted mode selection - POSTED_Value_0. - POSTED_Value_1." "POSTED_Value_0,POSTED_Value_1"
bitfld.long 0x00 1. "       SFT         ,This bit resets all the functional part of the module. - SFT_0. - SFT_1." "SFT_0,SFT_1"
rgroup.long 0x58++0x3
line.long 0x00 "TCAR2,This register holds the second captured value of the counter register."
hexmask.long 0x00 0.--31. 1. " CAPTURE_VALUE2 ,Second timer counter value captured on an external event trigger"
width 0x0B
tree.end
tree "TIMER7_L4_PER3Interconnect"
base ad:0x48824000
width 15.
rgroup.long 0x0++0x3
line.long 0x00 "TIDR,This read-only register contains the revision number of the module. A write to this register has no effect. This register is used by software to track features, bugs, and compatibility."
hexmask.long 0x00 0.--31. 1. " REVISION       ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "TIOCP_CFG,This register controls the various parameters of the L4 interface."
bitfld.long 0x00 2.--3. " IDLEMODE       ,Power management, req/ack control - Idle_Mode_0x0. - Idle_Mode_0x1. - Idle_Mode_0x2. - Idle_Mode_0x3." "Idle_Mode_0x0,Idle_Mode_0x1,Idle_Mode_0x2,Idle_Mode_0x3"
bitfld.long 0x00 1. "         EMUFREE     ,Emulation mode - timer_frozen. - timer_free." "timer_frozen,timer_free"
bitfld.long 0x00 0. "         SOFTRESET   ,Software reset - SoftReset_Value_0. - SoftReset_Value_1." "SoftReset_Value_0,SoftReset_Value_1"
group.long 0x20++0x3
line.long 0x00 "IRQ_EOI,Software End-Of-Interrupt: Allows the generation of further pulses on the interrupt line, if a new interrupt event is pending, when using the pulsed output. Unused when using the level interrupt line (depending on module integration)."
bitfld.long 0x00 0. " LINE_NUMBER    ,Write the number of the interrupt line to apply a SW EOI to it. Note that there is only a single line (i.e. number 0). Read: Read always returns 0 Write 0: SW EOI on interrupt line Write 1: No action" "0,1"
group.long 0x24++0x3
line.long 0x00 "IRQSTATUS_RAW,Component interrupt-request status. Check the corresponding secondary status register. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 2. " TCAR_IT_FLAG   ,IRQ status for capture Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
bitfld.long 0x00 1. "                     OVF_IT_FLAG ,IRQ status for overflow Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
bitfld.long 0x00 0. "                    MAT_IT_FLAG ,IRQ status for match Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
group.long 0x28++0x3
line.long 0x00 "IRQSTATUS,Component interrupt-request status. Check the corresponding secondary status register. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if..."
bitfld.long 0x00 2. " TCAR_IT_FLAG   ,IRQ status for capture Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
bitfld.long 0x00 1. "                     OVF_IT_FLAG ,IRQ status for overflow Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
bitfld.long 0x00 0. "                    MAT_IT_FLAG ,IRQ status for match Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
group.long 0x2C++0x3
line.long 0x00 "IRQENABLE_SET,Component interrupt-request enable. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 2. " TCAR_EN_FLAG   ,IRQ enable for compare Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled Write 1: Set IRQ enable." "0,1"
bitfld.long 0x00 1. "                     OVF_EN_FLAG ,IRQ enable for overflow Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Set IRQ enable." "0,1"
bitfld.long 0x00 0. "                    MAT_EN_FLAG ,IRQ enable for match Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Set IRQ enable." "0,1"
group.long 0x30++0x3
line.long 0x00 "IRQENABLE_CLR,Component interrupt-request enable. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
bitfld.long 0x00 2. " TCAR_EN_FLAG   ,IRQ enable for compare Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
bitfld.long 0x00 1. "                     OVF_EN_FLAG ,IRQ enable for overflow Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
bitfld.long 0x00 0. "                    MAT_EN_FLAG ,IRQ enable for match Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
group.long 0x34++0x3
line.long 0x00 "IRQWAKEEN,Wake-up-enabled events taking place when module is idle should generate an asynchronous wake-up."
bitfld.long 0x00 2. " TCAR_WUP_ENA   ,Wake-up generation for compare - TCAR_WUP_ENA_Value_0. - TCAR_WUP_ENA_Value_1." "TCAR_WUP_ENA_Value_0,TCAR_WUP_ENA_Value_1"
bitfld.long 0x00 1. "  OVF_WUP_ENA ,Wake-up generation for overflow - OVF_WUP_ENA_Value_0. - OVF_WUP_ENA_Value_1." "OVF_WUP_ENA_Value_0,OVF_WUP_ENA_Value_1"
bitfld.long 0x00 0. "  MAT_WUP_ENA ,Wake-up generation for match - MAT_WUP_ENA_VALUE_0. - MAT_WUP_ENA_VALUE_1." "MAT_WUP_ENA_VALUE_0,MAT_WUP_ENA_VALUE_1"
group.long 0x38++0x3
line.long 0x00 "TCLR,This register controls optional features specific to the timer functionality."
bitfld.long 0x00 14. " GPO_CFG        ,General-purpose output - this register directly drives the PO_GPOCFG output pin. For specific use of the GPO_CFG bit, see, . - GPO_CFG_0. - GPO_CFG_1." "GPO_CFG_0,GPO_CFG_1"
bitfld.long 0x00 13. "             CAPT_MODE   ,Capture mode select bit (first/second) - First_capt. - Sec_capt." "First_capt,Sec_capt"
bitfld.long 0x00 12. "           PT          ,Pulse or toggle mode on TIMERi_PWM_out output pin - pulse. - toggle." "pulse,toggle"
textline "                        "
bitfld.long 0x00 10.--11. " TRG            ,Trigger output mode on TIMERi_PWM_out output pin - no_trg. - ovf_trg. - ovf_mat_trg. - reserved." "no_trg,ovf_trg,ovf_mat_trg,reserved"
bitfld.long 0x00 8.--9. "           TCM         ,Transition capture mode on TIMERi_EVENT_CAPTURE input pin (When the TCM field passed from (00) to any other combination, the TCAR_IT_FLAG and the edge detection logic are cleared.) - no_edge. - rise_edge. - fall_edge. - both_edges." "no_edge,rise_edge,fall_edge,both_edges"
bitfld.long 0x00 7. "           SCPWM       ,Pulse width modulation output pin default setting This bit must be set or clear while the timer is stopped or the trigger is off. - def_low. - def_high." "def_low,def_high"
textline "                        "
bitfld.long 0x00 6. " CE             ,Compare enable - dsb_cmp. - enb_cmp." "dsb_cmp,enb_cmp"
bitfld.long 0x00 5. "               PRE         ,Prescaler enable - no_prescal. - prescal_on." "no_prescal,prescal_on"
bitfld.long 0x00 2.--4. "           PTV         ,Prescale clock timer value The timer counter is prescaled with the value 2. Example: PTV = 3, counter increases value (if started) after 16 functional clock periods." "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 1. " AR             ,Autoreload mode - one_shot. - auto_rel." "one_shot,auto_rel"
bitfld.long 0x00 0. "              ST          ,Start/stop timer control - cnt_stop. - cnt_start." "cnt_stop,cnt_start"
group.long 0x3C++0x3
line.long 0x00 "TCRR,This register holds the value of the internal counter."
hexmask.long 0x00 0.--31. 1. " TIMER_COUNTER  ,Value of TIMER counter"
group.long 0x40++0x3
line.long 0x00 "TLDR,This register holds the timer load value."
hexmask.long 0x00 0.--31. 1. " LOAD_VALUE     ,Timer counter value loaded on overflow in autoreload mode or onTTGR write access. LOAD_VALUE must be different than the timer overflow value (0xFFFF FFFF)."
group.long 0x44++0x3
line.long 0x00 "TTGR,The read value of this register is always 0xFFFF FFFF."
hexmask.long 0x00 0.--31. 1. " TTGR_VALUE     ,Writing to theTTGR register causes the TCRR to be loaded from TLDR and the prescaler counter to be cleared. Reload is done regardless of the AR field value of the TCLR register."
rgroup.long 0x48++0x3
line.long 0x00 "TWPS,This register contains the write posting bits for all writable functional registers."
bitfld.long 0x00 9. " W_PEND_TOWR    ,Write pending for theTOWR register - . - ." "No_write_pending,Write_pending"
bitfld.long 0x00 8. "      W_PEND_TOCR ,Write pending for theTOCR register - . - ." "No_write_pending,Write_pending"
bitfld.long 0x00 7. "     W_PEND_TCVR ,Write pending for theTCVR register - . - ." "No_write_pending,Write_pending"
textline "                        "
bitfld.long 0x00 6. " W_PEND_TNIR    ,Write pending for theTNIR register - . - ." "0,1"
bitfld.long 0x00 5. "                     W_PEND_TPIR ,Write pending for theTPIR register - . - ." "0,1"
bitfld.long 0x00 4. "                    W_PEND_TMAR ,When equal to 1, a write is pending to theTMAR register." "0,1"
textline "                        "
bitfld.long 0x00 3. " W_PEND_TTGR    ,When equal to 1, a write is pending to theTTGR register." "0,1"
bitfld.long 0x00 2. "                     W_PEND_TLDR ,When equal to 1, a write is pending to theTLDR register." "0,1"
bitfld.long 0x00 1. "                    W_PEND_TCRR ,When equal to 1, a write is pending to theTCRR register." "0,1"
textline "                        "
bitfld.long 0x00 0. " W_PEND_TCLR    ,When equal to 1, a write is pending to theTCLR register." "0,1"
group.long 0x4C++0x3
line.long 0x00 "TMAR,The compare logic consists of a 32-bit-wide, read/write data register and logic to compare counter."
hexmask.long 0x00 0.--31. 1. " COMPARE_VALUE  ,Value to be compared to the timer counter"
rgroup.long 0x50++0x3
line.long 0x00 "TCAR1,This register holds the first captured value of the counter register."
hexmask.long 0x00 0.--31. 1. " CAPTURE_VALUE1 ,First timer counter value captured on an external event trigger"
group.long 0x54++0x3
line.long 0x00 "TSICR,Timer synchronous interface control register"
bitfld.long 0x00 3. " READ_MODE      ,Select posted/non-posted mode for read operation: - . - . NOTE: When the module is configured in posted mode (POSTED = '1'), this bit is not used.. - . NOTE: For GP TIMER1, TIMER2 and TIMER10 this bit is write only.. - ." "0,1"
bitfld.long 0x00 2. "                     POSTED      ,Posted mode selection - POSTED_Value_0. - POSTED_Value_1." "POSTED_Value_0,POSTED_Value_1"
bitfld.long 0x00 1. "       SFT         ,This bit resets all the functional part of the module. - SFT_0. - SFT_1." "SFT_0,SFT_1"
rgroup.long 0x58++0x3
line.long 0x00 "TCAR2,This register holds the second captured value of the counter register."
hexmask.long 0x00 0.--31. 1. " CAPTURE_VALUE2 ,Second timer counter value captured on an external event trigger"
width 0x0B
tree.end
tree "TIMER8_L4_PER3Interconnect"
base ad:0x48826000
width 15.
rgroup.long 0x0++0x3
line.long 0x00 "TIDR,This read-only register contains the revision number of the module. A write to this register has no effect. This register is used by software to track features, bugs, and compatibility."
hexmask.long 0x00 0.--31. 1. " REVISION       ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "TIOCP_CFG,This register controls the various parameters of the L4 interface."
bitfld.long 0x00 2.--3. " IDLEMODE       ,Power management, req/ack control - Idle_Mode_0x0. - Idle_Mode_0x1. - Idle_Mode_0x2. - Idle_Mode_0x3." "Idle_Mode_0x0,Idle_Mode_0x1,Idle_Mode_0x2,Idle_Mode_0x3"
bitfld.long 0x00 1. "         EMUFREE     ,Emulation mode - timer_frozen. - timer_free." "timer_frozen,timer_free"
bitfld.long 0x00 0. "         SOFTRESET   ,Software reset - SoftReset_Value_0. - SoftReset_Value_1." "SoftReset_Value_0,SoftReset_Value_1"
group.long 0x20++0x3
line.long 0x00 "IRQ_EOI,Software End-Of-Interrupt: Allows the generation of further pulses on the interrupt line, if a new interrupt event is pending, when using the pulsed output. Unused when using the level interrupt line (depending on module integration)."
bitfld.long 0x00 0. " LINE_NUMBER    ,Write the number of the interrupt line to apply a SW EOI to it. Note that there is only a single line (i.e. number 0). Read: Read always returns 0 Write 0: SW EOI on interrupt line Write 1: No action" "0,1"
group.long 0x24++0x3
line.long 0x00 "IRQSTATUS_RAW,Component interrupt-request status. Check the corresponding secondary status register. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 2. " TCAR_IT_FLAG   ,IRQ status for capture Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
bitfld.long 0x00 1. "                     OVF_IT_FLAG ,IRQ status for overflow Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
bitfld.long 0x00 0. "                    MAT_IT_FLAG ,IRQ status for match Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
group.long 0x28++0x3
line.long 0x00 "IRQSTATUS,Component interrupt-request status. Check the corresponding secondary status register. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if..."
bitfld.long 0x00 2. " TCAR_IT_FLAG   ,IRQ status for capture Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
bitfld.long 0x00 1. "                     OVF_IT_FLAG ,IRQ status for overflow Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
bitfld.long 0x00 0. "                    MAT_IT_FLAG ,IRQ status for match Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
group.long 0x2C++0x3
line.long 0x00 "IRQENABLE_SET,Component interrupt-request enable. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 2. " TCAR_EN_FLAG   ,IRQ enable for compare Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled Write 1: Set IRQ enable." "0,1"
bitfld.long 0x00 1. "                     OVF_EN_FLAG ,IRQ enable for overflow Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Set IRQ enable." "0,1"
bitfld.long 0x00 0. "                    MAT_EN_FLAG ,IRQ enable for match Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Set IRQ enable." "0,1"
group.long 0x30++0x3
line.long 0x00 "IRQENABLE_CLR,Component interrupt-request enable. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
bitfld.long 0x00 2. " TCAR_EN_FLAG   ,IRQ enable for compare Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
bitfld.long 0x00 1. "                     OVF_EN_FLAG ,IRQ enable for overflow Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
bitfld.long 0x00 0. "                    MAT_EN_FLAG ,IRQ enable for match Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
group.long 0x34++0x3
line.long 0x00 "IRQWAKEEN,Wake-up-enabled events taking place when module is idle should generate an asynchronous wake-up."
bitfld.long 0x00 2. " TCAR_WUP_ENA   ,Wake-up generation for compare - TCAR_WUP_ENA_Value_0. - TCAR_WUP_ENA_Value_1." "TCAR_WUP_ENA_Value_0,TCAR_WUP_ENA_Value_1"
bitfld.long 0x00 1. "  OVF_WUP_ENA ,Wake-up generation for overflow - OVF_WUP_ENA_Value_0. - OVF_WUP_ENA_Value_1." "OVF_WUP_ENA_Value_0,OVF_WUP_ENA_Value_1"
bitfld.long 0x00 0. "  MAT_WUP_ENA ,Wake-up generation for match - MAT_WUP_ENA_VALUE_0. - MAT_WUP_ENA_VALUE_1." "MAT_WUP_ENA_VALUE_0,MAT_WUP_ENA_VALUE_1"
group.long 0x38++0x3
line.long 0x00 "TCLR,This register controls optional features specific to the timer functionality."
bitfld.long 0x00 14. " GPO_CFG        ,General-purpose output - this register directly drives the PO_GPOCFG output pin. For specific use of the GPO_CFG bit, see, . - GPO_CFG_0. - GPO_CFG_1." "GPO_CFG_0,GPO_CFG_1"
bitfld.long 0x00 13. "             CAPT_MODE   ,Capture mode select bit (first/second) - First_capt. - Sec_capt." "First_capt,Sec_capt"
bitfld.long 0x00 12. "           PT          ,Pulse or toggle mode on TIMERi_PWM_out output pin - pulse. - toggle." "pulse,toggle"
textline "                        "
bitfld.long 0x00 10.--11. " TRG            ,Trigger output mode on TIMERi_PWM_out output pin - no_trg. - ovf_trg. - ovf_mat_trg. - reserved." "no_trg,ovf_trg,ovf_mat_trg,reserved"
bitfld.long 0x00 8.--9. "           TCM         ,Transition capture mode on TIMERi_EVENT_CAPTURE input pin (When the TCM field passed from (00) to any other combination, the TCAR_IT_FLAG and the edge detection logic are cleared.) - no_edge. - rise_edge. - fall_edge. - both_edges." "no_edge,rise_edge,fall_edge,both_edges"
bitfld.long 0x00 7. "           SCPWM       ,Pulse width modulation output pin default setting This bit must be set or clear while the timer is stopped or the trigger is off. - def_low. - def_high." "def_low,def_high"
textline "                        "
bitfld.long 0x00 6. " CE             ,Compare enable - dsb_cmp. - enb_cmp." "dsb_cmp,enb_cmp"
bitfld.long 0x00 5. "               PRE         ,Prescaler enable - no_prescal. - prescal_on." "no_prescal,prescal_on"
bitfld.long 0x00 2.--4. "           PTV         ,Prescale clock timer value The timer counter is prescaled with the value 2. Example: PTV = 3, counter increases value (if started) after 16 functional clock periods." "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 1. " AR             ,Autoreload mode - one_shot. - auto_rel." "one_shot,auto_rel"
bitfld.long 0x00 0. "              ST          ,Start/stop timer control - cnt_stop. - cnt_start." "cnt_stop,cnt_start"
group.long 0x3C++0x3
line.long 0x00 "TCRR,This register holds the value of the internal counter."
hexmask.long 0x00 0.--31. 1. " TIMER_COUNTER  ,Value of TIMER counter"
group.long 0x40++0x3
line.long 0x00 "TLDR,This register holds the timer load value."
hexmask.long 0x00 0.--31. 1. " LOAD_VALUE     ,Timer counter value loaded on overflow in autoreload mode or onTTGR write access. LOAD_VALUE must be different than the timer overflow value (0xFFFF FFFF)."
group.long 0x44++0x3
line.long 0x00 "TTGR,The read value of this register is always 0xFFFF FFFF."
hexmask.long 0x00 0.--31. 1. " TTGR_VALUE     ,Writing to theTTGR register causes the TCRR to be loaded from TLDR and the prescaler counter to be cleared. Reload is done regardless of the AR field value of the TCLR register."
rgroup.long 0x48++0x3
line.long 0x00 "TWPS,This register contains the write posting bits for all writable functional registers."
bitfld.long 0x00 9. " W_PEND_TOWR    ,Write pending for theTOWR register - . - ." "No_write_pending,Write_pending"
bitfld.long 0x00 8. "      W_PEND_TOCR ,Write pending for theTOCR register - . - ." "No_write_pending,Write_pending"
bitfld.long 0x00 7. "     W_PEND_TCVR ,Write pending for theTCVR register - . - ." "No_write_pending,Write_pending"
textline "                        "
bitfld.long 0x00 6. " W_PEND_TNIR    ,Write pending for theTNIR register - . - ." "0,1"
bitfld.long 0x00 5. "                     W_PEND_TPIR ,Write pending for theTPIR register - . - ." "0,1"
bitfld.long 0x00 4. "                    W_PEND_TMAR ,When equal to 1, a write is pending to theTMAR register." "0,1"
textline "                        "
bitfld.long 0x00 3. " W_PEND_TTGR    ,When equal to 1, a write is pending to theTTGR register." "0,1"
bitfld.long 0x00 2. "                     W_PEND_TLDR ,When equal to 1, a write is pending to theTLDR register." "0,1"
bitfld.long 0x00 1. "                    W_PEND_TCRR ,When equal to 1, a write is pending to theTCRR register." "0,1"
textline "                        "
bitfld.long 0x00 0. " W_PEND_TCLR    ,When equal to 1, a write is pending to theTCLR register." "0,1"
group.long 0x4C++0x3
line.long 0x00 "TMAR,The compare logic consists of a 32-bit-wide, read/write data register and logic to compare counter."
hexmask.long 0x00 0.--31. 1. " COMPARE_VALUE  ,Value to be compared to the timer counter"
rgroup.long 0x50++0x3
line.long 0x00 "TCAR1,This register holds the first captured value of the counter register."
hexmask.long 0x00 0.--31. 1. " CAPTURE_VALUE1 ,First timer counter value captured on an external event trigger"
group.long 0x54++0x3
line.long 0x00 "TSICR,Timer synchronous interface control register"
bitfld.long 0x00 3. " READ_MODE      ,Select posted/non-posted mode for read operation: - . - . NOTE: When the module is configured in posted mode (POSTED = '1'), this bit is not used.. - . NOTE: For GP TIMER1, TIMER2 and TIMER10 this bit is write only.. - ." "0,1"
bitfld.long 0x00 2. "                     POSTED      ,Posted mode selection - POSTED_Value_0. - POSTED_Value_1." "POSTED_Value_0,POSTED_Value_1"
bitfld.long 0x00 1. "       SFT         ,This bit resets all the functional part of the module. - SFT_0. - SFT_1." "SFT_0,SFT_1"
rgroup.long 0x58++0x3
line.long 0x00 "TCAR2,This register holds the second captured value of the counter register."
hexmask.long 0x00 0.--31. 1. " CAPTURE_VALUE2 ,Second timer counter value captured on an external event trigger"
width 0x0B
tree.end
tree "TIMER13_L4_PER3Interconnect"
base ad:0x48828000
width 15.
rgroup.long 0x0++0x3
line.long 0x00 "TIDR,This read-only register contains the revision number of the module. A write to this register has no effect. This register is used by software to track features, bugs, and compatibility."
hexmask.long 0x00 0.--31. 1. " REVISION       ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "TIOCP_CFG,This register controls the various parameters of the L4 interface."
bitfld.long 0x00 2.--3. " IDLEMODE       ,Power management, req/ack control - Idle_Mode_0x0. - Idle_Mode_0x1. - Idle_Mode_0x2. - Idle_Mode_0x3." "Idle_Mode_0x0,Idle_Mode_0x1,Idle_Mode_0x2,Idle_Mode_0x3"
bitfld.long 0x00 1. "         EMUFREE     ,Emulation mode - timer_frozen. - timer_free." "timer_frozen,timer_free"
bitfld.long 0x00 0. "         SOFTRESET   ,Software reset - SoftReset_Value_0. - SoftReset_Value_1." "SoftReset_Value_0,SoftReset_Value_1"
group.long 0x20++0x3
line.long 0x00 "IRQ_EOI,Software End-Of-Interrupt: Allows the generation of further pulses on the interrupt line, if a new interrupt event is pending, when using the pulsed output. Unused when using the level interrupt line (depending on module integration)."
bitfld.long 0x00 0. " LINE_NUMBER    ,Write the number of the interrupt line to apply a SW EOI to it. Note that there is only a single line (i.e. number 0). Read: Read always returns 0 Write 0: SW EOI on interrupt line Write 1: No action" "0,1"
group.long 0x24++0x3
line.long 0x00 "IRQSTATUS_RAW,Component interrupt-request status. Check the corresponding secondary status register. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 2. " TCAR_IT_FLAG   ,IRQ status for capture Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
bitfld.long 0x00 1. "                     OVF_IT_FLAG ,IRQ status for overflow Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
bitfld.long 0x00 0. "                    MAT_IT_FLAG ,IRQ status for match Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
group.long 0x28++0x3
line.long 0x00 "IRQSTATUS,Component interrupt-request status. Check the corresponding secondary status register. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if..."
bitfld.long 0x00 2. " TCAR_IT_FLAG   ,IRQ status for capture Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
bitfld.long 0x00 1. "                     OVF_IT_FLAG ,IRQ status for overflow Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
bitfld.long 0x00 0. "                    MAT_IT_FLAG ,IRQ status for match Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
group.long 0x2C++0x3
line.long 0x00 "IRQENABLE_SET,Component interrupt-request enable. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 2. " TCAR_EN_FLAG   ,IRQ enable for compare Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled Write 1: Set IRQ enable." "0,1"
bitfld.long 0x00 1. "                     OVF_EN_FLAG ,IRQ enable for overflow Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Set IRQ enable." "0,1"
bitfld.long 0x00 0. "                    MAT_EN_FLAG ,IRQ enable for match Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Set IRQ enable." "0,1"
group.long 0x30++0x3
line.long 0x00 "IRQENABLE_CLR,Component interrupt-request enable. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
bitfld.long 0x00 2. " TCAR_EN_FLAG   ,IRQ enable for compare Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
bitfld.long 0x00 1. "                     OVF_EN_FLAG ,IRQ enable for overflow Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
bitfld.long 0x00 0. "                    MAT_EN_FLAG ,IRQ enable for match Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
group.long 0x34++0x3
line.long 0x00 "IRQWAKEEN,Wake-up-enabled events taking place when module is idle should generate an asynchronous wake-up."
bitfld.long 0x00 2. " TCAR_WUP_ENA   ,Wake-up generation for compare - TCAR_WUP_ENA_Value_0. - TCAR_WUP_ENA_Value_1." "TCAR_WUP_ENA_Value_0,TCAR_WUP_ENA_Value_1"
bitfld.long 0x00 1. "  OVF_WUP_ENA ,Wake-up generation for overflow - OVF_WUP_ENA_Value_0. - OVF_WUP_ENA_Value_1." "OVF_WUP_ENA_Value_0,OVF_WUP_ENA_Value_1"
bitfld.long 0x00 0. "  MAT_WUP_ENA ,Wake-up generation for match - MAT_WUP_ENA_VALUE_0. - MAT_WUP_ENA_VALUE_1." "MAT_WUP_ENA_VALUE_0,MAT_WUP_ENA_VALUE_1"
group.long 0x38++0x3
line.long 0x00 "TCLR,This register controls optional features specific to the timer functionality."
bitfld.long 0x00 14. " GPO_CFG        ,General-purpose output - this register directly drives the PO_GPOCFG output pin. For specific use of the GPO_CFG bit, see, . - GPO_CFG_0. - GPO_CFG_1." "GPO_CFG_0,GPO_CFG_1"
bitfld.long 0x00 13. "             CAPT_MODE   ,Capture mode select bit (first/second) - First_capt. - Sec_capt." "First_capt,Sec_capt"
bitfld.long 0x00 12. "           PT          ,Pulse or toggle mode on TIMERi_PWM_out output pin - pulse. - toggle." "pulse,toggle"
textline "                        "
bitfld.long 0x00 10.--11. " TRG            ,Trigger output mode on TIMERi_PWM_out output pin - no_trg. - ovf_trg. - ovf_mat_trg. - reserved." "no_trg,ovf_trg,ovf_mat_trg,reserved"
bitfld.long 0x00 8.--9. "           TCM         ,Transition capture mode on TIMERi_EVENT_CAPTURE input pin (When the TCM field passed from (00) to any other combination, the TCAR_IT_FLAG and the edge detection logic are cleared.) - no_edge. - rise_edge. - fall_edge. - both_edges." "no_edge,rise_edge,fall_edge,both_edges"
bitfld.long 0x00 7. "           SCPWM       ,Pulse width modulation output pin default setting This bit must be set or clear while the timer is stopped or the trigger is off. - def_low. - def_high." "def_low,def_high"
textline "                        "
bitfld.long 0x00 6. " CE             ,Compare enable - dsb_cmp. - enb_cmp." "dsb_cmp,enb_cmp"
bitfld.long 0x00 5. "               PRE         ,Prescaler enable - no_prescal. - prescal_on." "no_prescal,prescal_on"
bitfld.long 0x00 2.--4. "           PTV         ,Prescale clock timer value The timer counter is prescaled with the value 2. Example: PTV = 3, counter increases value (if started) after 16 functional clock periods." "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 1. " AR             ,Autoreload mode - one_shot. - auto_rel." "one_shot,auto_rel"
bitfld.long 0x00 0. "              ST          ,Start/stop timer control - cnt_stop. - cnt_start." "cnt_stop,cnt_start"
group.long 0x3C++0x3
line.long 0x00 "TCRR,This register holds the value of the internal counter."
hexmask.long 0x00 0.--31. 1. " TIMER_COUNTER  ,Value of TIMER counter"
group.long 0x40++0x3
line.long 0x00 "TLDR,This register holds the timer load value."
hexmask.long 0x00 0.--31. 1. " LOAD_VALUE     ,Timer counter value loaded on overflow in autoreload mode or onTTGR write access. LOAD_VALUE must be different than the timer overflow value (0xFFFF FFFF)."
group.long 0x44++0x3
line.long 0x00 "TTGR,The read value of this register is always 0xFFFF FFFF."
hexmask.long 0x00 0.--31. 1. " TTGR_VALUE     ,Writing to theTTGR register causes the TCRR to be loaded from TLDR and the prescaler counter to be cleared. Reload is done regardless of the AR field value of the TCLR register."
rgroup.long 0x48++0x3
line.long 0x00 "TWPS,This register contains the write posting bits for all writable functional registers."
bitfld.long 0x00 9. " W_PEND_TOWR    ,Write pending for theTOWR register - . - ." "No_write_pending,Write_pending"
bitfld.long 0x00 8. "      W_PEND_TOCR ,Write pending for theTOCR register - . - ." "No_write_pending,Write_pending"
bitfld.long 0x00 7. "     W_PEND_TCVR ,Write pending for theTCVR register - . - ." "No_write_pending,Write_pending"
textline "                        "
bitfld.long 0x00 6. " W_PEND_TNIR    ,Write pending for theTNIR register - . - ." "0,1"
bitfld.long 0x00 5. "                     W_PEND_TPIR ,Write pending for theTPIR register - . - ." "0,1"
bitfld.long 0x00 4. "                    W_PEND_TMAR ,When equal to 1, a write is pending to theTMAR register." "0,1"
textline "                        "
bitfld.long 0x00 3. " W_PEND_TTGR    ,When equal to 1, a write is pending to theTTGR register." "0,1"
bitfld.long 0x00 2. "                     W_PEND_TLDR ,When equal to 1, a write is pending to theTLDR register." "0,1"
bitfld.long 0x00 1. "                    W_PEND_TCRR ,When equal to 1, a write is pending to theTCRR register." "0,1"
textline "                        "
bitfld.long 0x00 0. " W_PEND_TCLR    ,When equal to 1, a write is pending to theTCLR register." "0,1"
group.long 0x4C++0x3
line.long 0x00 "TMAR,The compare logic consists of a 32-bit-wide, read/write data register and logic to compare counter."
hexmask.long 0x00 0.--31. 1. " COMPARE_VALUE  ,Value to be compared to the timer counter"
rgroup.long 0x50++0x3
line.long 0x00 "TCAR1,This register holds the first captured value of the counter register."
hexmask.long 0x00 0.--31. 1. " CAPTURE_VALUE1 ,First timer counter value captured on an external event trigger"
group.long 0x54++0x3
line.long 0x00 "TSICR,Timer synchronous interface control register"
bitfld.long 0x00 3. " READ_MODE      ,Select posted/non-posted mode for read operation: - . - . NOTE: When the module is configured in posted mode (POSTED = '1'), this bit is not used.. - . NOTE: For GP TIMER1, TIMER2 and TIMER10 this bit is write only.. - ." "0,1"
bitfld.long 0x00 2. "                     POSTED      ,Posted mode selection - POSTED_Value_0. - POSTED_Value_1." "POSTED_Value_0,POSTED_Value_1"
bitfld.long 0x00 1. "       SFT         ,This bit resets all the functional part of the module. - SFT_0. - SFT_1." "SFT_0,SFT_1"
rgroup.long 0x58++0x3
line.long 0x00 "TCAR2,This register holds the second captured value of the counter register."
hexmask.long 0x00 0.--31. 1. " CAPTURE_VALUE2 ,Second timer counter value captured on an external event trigger"
width 0x0B
tree.end
tree "TIMER14_L4_PER3Interconnect"
base ad:0x4882A000
width 15.
rgroup.long 0x0++0x3
line.long 0x00 "TIDR,This read-only register contains the revision number of the module. A write to this register has no effect. This register is used by software to track features, bugs, and compatibility."
hexmask.long 0x00 0.--31. 1. " REVISION       ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "TIOCP_CFG,This register controls the various parameters of the L4 interface."
bitfld.long 0x00 2.--3. " IDLEMODE       ,Power management, req/ack control - Idle_Mode_0x0. - Idle_Mode_0x1. - Idle_Mode_0x2. - Idle_Mode_0x3." "Idle_Mode_0x0,Idle_Mode_0x1,Idle_Mode_0x2,Idle_Mode_0x3"
bitfld.long 0x00 1. "         EMUFREE     ,Emulation mode - timer_frozen. - timer_free." "timer_frozen,timer_free"
bitfld.long 0x00 0. "         SOFTRESET   ,Software reset - SoftReset_Value_0. - SoftReset_Value_1." "SoftReset_Value_0,SoftReset_Value_1"
group.long 0x20++0x3
line.long 0x00 "IRQ_EOI,Software End-Of-Interrupt: Allows the generation of further pulses on the interrupt line, if a new interrupt event is pending, when using the pulsed output. Unused when using the level interrupt line (depending on module integration)."
bitfld.long 0x00 0. " LINE_NUMBER    ,Write the number of the interrupt line to apply a SW EOI to it. Note that there is only a single line (i.e. number 0). Read: Read always returns 0 Write 0: SW EOI on interrupt line Write 1: No action" "0,1"
group.long 0x24++0x3
line.long 0x00 "IRQSTATUS_RAW,Component interrupt-request status. Check the corresponding secondary status register. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 2. " TCAR_IT_FLAG   ,IRQ status for capture Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
bitfld.long 0x00 1. "                     OVF_IT_FLAG ,IRQ status for overflow Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
bitfld.long 0x00 0. "                    MAT_IT_FLAG ,IRQ status for match Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
group.long 0x28++0x3
line.long 0x00 "IRQSTATUS,Component interrupt-request status. Check the corresponding secondary status register. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if..."
bitfld.long 0x00 2. " TCAR_IT_FLAG   ,IRQ status for capture Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
bitfld.long 0x00 1. "                     OVF_IT_FLAG ,IRQ status for overflow Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
bitfld.long 0x00 0. "                    MAT_IT_FLAG ,IRQ status for match Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
group.long 0x2C++0x3
line.long 0x00 "IRQENABLE_SET,Component interrupt-request enable. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 2. " TCAR_EN_FLAG   ,IRQ enable for compare Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled Write 1: Set IRQ enable." "0,1"
bitfld.long 0x00 1. "                     OVF_EN_FLAG ,IRQ enable for overflow Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Set IRQ enable." "0,1"
bitfld.long 0x00 0. "                    MAT_EN_FLAG ,IRQ enable for match Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Set IRQ enable." "0,1"
group.long 0x30++0x3
line.long 0x00 "IRQENABLE_CLR,Component interrupt-request enable. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
bitfld.long 0x00 2. " TCAR_EN_FLAG   ,IRQ enable for compare Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
bitfld.long 0x00 1. "                     OVF_EN_FLAG ,IRQ enable for overflow Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
bitfld.long 0x00 0. "                    MAT_EN_FLAG ,IRQ enable for match Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
group.long 0x34++0x3
line.long 0x00 "IRQWAKEEN,Wake-up-enabled events taking place when module is idle should generate an asynchronous wake-up."
bitfld.long 0x00 2. " TCAR_WUP_ENA   ,Wake-up generation for compare - TCAR_WUP_ENA_Value_0. - TCAR_WUP_ENA_Value_1." "TCAR_WUP_ENA_Value_0,TCAR_WUP_ENA_Value_1"
bitfld.long 0x00 1. "  OVF_WUP_ENA ,Wake-up generation for overflow - OVF_WUP_ENA_Value_0. - OVF_WUP_ENA_Value_1." "OVF_WUP_ENA_Value_0,OVF_WUP_ENA_Value_1"
bitfld.long 0x00 0. "  MAT_WUP_ENA ,Wake-up generation for match - MAT_WUP_ENA_VALUE_0. - MAT_WUP_ENA_VALUE_1." "MAT_WUP_ENA_VALUE_0,MAT_WUP_ENA_VALUE_1"
group.long 0x38++0x3
line.long 0x00 "TCLR,This register controls optional features specific to the timer functionality."
bitfld.long 0x00 14. " GPO_CFG        ,General-purpose output - this register directly drives the PO_GPOCFG output pin. For specific use of the GPO_CFG bit, see, . - GPO_CFG_0. - GPO_CFG_1." "GPO_CFG_0,GPO_CFG_1"
bitfld.long 0x00 13. "             CAPT_MODE   ,Capture mode select bit (first/second) - First_capt. - Sec_capt." "First_capt,Sec_capt"
bitfld.long 0x00 12. "           PT          ,Pulse or toggle mode on TIMERi_PWM_out output pin - pulse. - toggle." "pulse,toggle"
textline "                        "
bitfld.long 0x00 10.--11. " TRG            ,Trigger output mode on TIMERi_PWM_out output pin - no_trg. - ovf_trg. - ovf_mat_trg. - reserved." "no_trg,ovf_trg,ovf_mat_trg,reserved"
bitfld.long 0x00 8.--9. "           TCM         ,Transition capture mode on TIMERi_EVENT_CAPTURE input pin (When the TCM field passed from (00) to any other combination, the TCAR_IT_FLAG and the edge detection logic are cleared.) - no_edge. - rise_edge. - fall_edge. - both_edges." "no_edge,rise_edge,fall_edge,both_edges"
bitfld.long 0x00 7. "           SCPWM       ,Pulse width modulation output pin default setting This bit must be set or clear while the timer is stopped or the trigger is off. - def_low. - def_high." "def_low,def_high"
textline "                        "
bitfld.long 0x00 6. " CE             ,Compare enable - dsb_cmp. - enb_cmp." "dsb_cmp,enb_cmp"
bitfld.long 0x00 5. "               PRE         ,Prescaler enable - no_prescal. - prescal_on." "no_prescal,prescal_on"
bitfld.long 0x00 2.--4. "           PTV         ,Prescale clock timer value The timer counter is prescaled with the value 2. Example: PTV = 3, counter increases value (if started) after 16 functional clock periods." "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 1. " AR             ,Autoreload mode - one_shot. - auto_rel." "one_shot,auto_rel"
bitfld.long 0x00 0. "              ST          ,Start/stop timer control - cnt_stop. - cnt_start." "cnt_stop,cnt_start"
group.long 0x3C++0x3
line.long 0x00 "TCRR,This register holds the value of the internal counter."
hexmask.long 0x00 0.--31. 1. " TIMER_COUNTER  ,Value of TIMER counter"
group.long 0x40++0x3
line.long 0x00 "TLDR,This register holds the timer load value."
hexmask.long 0x00 0.--31. 1. " LOAD_VALUE     ,Timer counter value loaded on overflow in autoreload mode or onTTGR write access. LOAD_VALUE must be different than the timer overflow value (0xFFFF FFFF)."
group.long 0x44++0x3
line.long 0x00 "TTGR,The read value of this register is always 0xFFFF FFFF."
hexmask.long 0x00 0.--31. 1. " TTGR_VALUE     ,Writing to theTTGR register causes the TCRR to be loaded from TLDR and the prescaler counter to be cleared. Reload is done regardless of the AR field value of the TCLR register."
rgroup.long 0x48++0x3
line.long 0x00 "TWPS,This register contains the write posting bits for all writable functional registers."
bitfld.long 0x00 9. " W_PEND_TOWR    ,Write pending for theTOWR register - . - ." "No_write_pending,Write_pending"
bitfld.long 0x00 8. "      W_PEND_TOCR ,Write pending for theTOCR register - . - ." "No_write_pending,Write_pending"
bitfld.long 0x00 7. "     W_PEND_TCVR ,Write pending for theTCVR register - . - ." "No_write_pending,Write_pending"
textline "                        "
bitfld.long 0x00 6. " W_PEND_TNIR    ,Write pending for theTNIR register - . - ." "0,1"
bitfld.long 0x00 5. "                     W_PEND_TPIR ,Write pending for theTPIR register - . - ." "0,1"
bitfld.long 0x00 4. "                    W_PEND_TMAR ,When equal to 1, a write is pending to theTMAR register." "0,1"
textline "                        "
bitfld.long 0x00 3. " W_PEND_TTGR    ,When equal to 1, a write is pending to theTTGR register." "0,1"
bitfld.long 0x00 2. "                     W_PEND_TLDR ,When equal to 1, a write is pending to theTLDR register." "0,1"
bitfld.long 0x00 1. "                    W_PEND_TCRR ,When equal to 1, a write is pending to theTCRR register." "0,1"
textline "                        "
bitfld.long 0x00 0. " W_PEND_TCLR    ,When equal to 1, a write is pending to theTCLR register." "0,1"
group.long 0x4C++0x3
line.long 0x00 "TMAR,The compare logic consists of a 32-bit-wide, read/write data register and logic to compare counter."
hexmask.long 0x00 0.--31. 1. " COMPARE_VALUE  ,Value to be compared to the timer counter"
rgroup.long 0x50++0x3
line.long 0x00 "TCAR1,This register holds the first captured value of the counter register."
hexmask.long 0x00 0.--31. 1. " CAPTURE_VALUE1 ,First timer counter value captured on an external event trigger"
group.long 0x54++0x3
line.long 0x00 "TSICR,Timer synchronous interface control register"
bitfld.long 0x00 3. " READ_MODE      ,Select posted/non-posted mode for read operation: - . - . NOTE: When the module is configured in posted mode (POSTED = '1'), this bit is not used.. - . NOTE: For GP TIMER1, TIMER2 and TIMER10 this bit is write only.. - ." "0,1"
bitfld.long 0x00 2. "                     POSTED      ,Posted mode selection - POSTED_Value_0. - POSTED_Value_1." "POSTED_Value_0,POSTED_Value_1"
bitfld.long 0x00 1. "       SFT         ,This bit resets all the functional part of the module. - SFT_0. - SFT_1." "SFT_0,SFT_1"
rgroup.long 0x58++0x3
line.long 0x00 "TCAR2,This register holds the second captured value of the counter register."
hexmask.long 0x00 0.--31. 1. " CAPTURE_VALUE2 ,Second timer counter value captured on an external event trigger"
width 0x0B
tree.end
tree "TIMER15_L4_PER3Interconnect"
base ad:0x4882C000
width 15.
rgroup.long 0x0++0x3
line.long 0x00 "TIDR,This read-only register contains the revision number of the module. A write to this register has no effect. This register is used by software to track features, bugs, and compatibility."
hexmask.long 0x00 0.--31. 1. " REVISION       ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "TIOCP_CFG,This register controls the various parameters of the L4 interface."
bitfld.long 0x00 2.--3. " IDLEMODE       ,Power management, req/ack control - Idle_Mode_0x0. - Idle_Mode_0x1. - Idle_Mode_0x2. - Idle_Mode_0x3." "Idle_Mode_0x0,Idle_Mode_0x1,Idle_Mode_0x2,Idle_Mode_0x3"
bitfld.long 0x00 1. "         EMUFREE     ,Emulation mode - timer_frozen. - timer_free." "timer_frozen,timer_free"
bitfld.long 0x00 0. "         SOFTRESET   ,Software reset - SoftReset_Value_0. - SoftReset_Value_1." "SoftReset_Value_0,SoftReset_Value_1"
group.long 0x20++0x3
line.long 0x00 "IRQ_EOI,Software End-Of-Interrupt: Allows the generation of further pulses on the interrupt line, if a new interrupt event is pending, when using the pulsed output. Unused when using the level interrupt line (depending on module integration)."
bitfld.long 0x00 0. " LINE_NUMBER    ,Write the number of the interrupt line to apply a SW EOI to it. Note that there is only a single line (i.e. number 0). Read: Read always returns 0 Write 0: SW EOI on interrupt line Write 1: No action" "0,1"
group.long 0x24++0x3
line.long 0x00 "IRQSTATUS_RAW,Component interrupt-request status. Check the corresponding secondary status register. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 2. " TCAR_IT_FLAG   ,IRQ status for capture Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
bitfld.long 0x00 1. "                     OVF_IT_FLAG ,IRQ status for overflow Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
bitfld.long 0x00 0. "                    MAT_IT_FLAG ,IRQ status for match Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
group.long 0x28++0x3
line.long 0x00 "IRQSTATUS,Component interrupt-request status. Check the corresponding secondary status register. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if..."
bitfld.long 0x00 2. " TCAR_IT_FLAG   ,IRQ status for capture Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
bitfld.long 0x00 1. "                     OVF_IT_FLAG ,IRQ status for overflow Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
bitfld.long 0x00 0. "                    MAT_IT_FLAG ,IRQ status for match Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
group.long 0x2C++0x3
line.long 0x00 "IRQENABLE_SET,Component interrupt-request enable. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 2. " TCAR_EN_FLAG   ,IRQ enable for compare Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled Write 1: Set IRQ enable." "0,1"
bitfld.long 0x00 1. "                     OVF_EN_FLAG ,IRQ enable for overflow Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Set IRQ enable." "0,1"
bitfld.long 0x00 0. "                    MAT_EN_FLAG ,IRQ enable for match Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Set IRQ enable." "0,1"
group.long 0x30++0x3
line.long 0x00 "IRQENABLE_CLR,Component interrupt-request enable. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
bitfld.long 0x00 2. " TCAR_EN_FLAG   ,IRQ enable for compare Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
bitfld.long 0x00 1. "                     OVF_EN_FLAG ,IRQ enable for overflow Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
bitfld.long 0x00 0. "                    MAT_EN_FLAG ,IRQ enable for match Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
group.long 0x34++0x3
line.long 0x00 "IRQWAKEEN,Wake-up-enabled events taking place when module is idle should generate an asynchronous wake-up."
bitfld.long 0x00 2. " TCAR_WUP_ENA   ,Wake-up generation for compare - TCAR_WUP_ENA_Value_0. - TCAR_WUP_ENA_Value_1." "TCAR_WUP_ENA_Value_0,TCAR_WUP_ENA_Value_1"
bitfld.long 0x00 1. "  OVF_WUP_ENA ,Wake-up generation for overflow - OVF_WUP_ENA_Value_0. - OVF_WUP_ENA_Value_1." "OVF_WUP_ENA_Value_0,OVF_WUP_ENA_Value_1"
bitfld.long 0x00 0. "  MAT_WUP_ENA ,Wake-up generation for match - MAT_WUP_ENA_VALUE_0. - MAT_WUP_ENA_VALUE_1." "MAT_WUP_ENA_VALUE_0,MAT_WUP_ENA_VALUE_1"
group.long 0x38++0x3
line.long 0x00 "TCLR,This register controls optional features specific to the timer functionality."
bitfld.long 0x00 14. " GPO_CFG        ,General-purpose output - this register directly drives the PO_GPOCFG output pin. For specific use of the GPO_CFG bit, see, . - GPO_CFG_0. - GPO_CFG_1." "GPO_CFG_0,GPO_CFG_1"
bitfld.long 0x00 13. "             CAPT_MODE   ,Capture mode select bit (first/second) - First_capt. - Sec_capt." "First_capt,Sec_capt"
bitfld.long 0x00 12. "           PT          ,Pulse or toggle mode on TIMERi_PWM_out output pin - pulse. - toggle." "pulse,toggle"
textline "                        "
bitfld.long 0x00 10.--11. " TRG            ,Trigger output mode on TIMERi_PWM_out output pin - no_trg. - ovf_trg. - ovf_mat_trg. - reserved." "no_trg,ovf_trg,ovf_mat_trg,reserved"
bitfld.long 0x00 8.--9. "           TCM         ,Transition capture mode on TIMERi_EVENT_CAPTURE input pin (When the TCM field passed from (00) to any other combination, the TCAR_IT_FLAG and the edge detection logic are cleared.) - no_edge. - rise_edge. - fall_edge. - both_edges." "no_edge,rise_edge,fall_edge,both_edges"
bitfld.long 0x00 7. "           SCPWM       ,Pulse width modulation output pin default setting This bit must be set or clear while the timer is stopped or the trigger is off. - def_low. - def_high." "def_low,def_high"
textline "                        "
bitfld.long 0x00 6. " CE             ,Compare enable - dsb_cmp. - enb_cmp." "dsb_cmp,enb_cmp"
bitfld.long 0x00 5. "               PRE         ,Prescaler enable - no_prescal. - prescal_on." "no_prescal,prescal_on"
bitfld.long 0x00 2.--4. "           PTV         ,Prescale clock timer value The timer counter is prescaled with the value 2. Example: PTV = 3, counter increases value (if started) after 16 functional clock periods." "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 1. " AR             ,Autoreload mode - one_shot. - auto_rel." "one_shot,auto_rel"
bitfld.long 0x00 0. "              ST          ,Start/stop timer control - cnt_stop. - cnt_start." "cnt_stop,cnt_start"
group.long 0x3C++0x3
line.long 0x00 "TCRR,This register holds the value of the internal counter."
hexmask.long 0x00 0.--31. 1. " TIMER_COUNTER  ,Value of TIMER counter"
group.long 0x40++0x3
line.long 0x00 "TLDR,This register holds the timer load value."
hexmask.long 0x00 0.--31. 1. " LOAD_VALUE     ,Timer counter value loaded on overflow in autoreload mode or onTTGR write access. LOAD_VALUE must be different than the timer overflow value (0xFFFF FFFF)."
group.long 0x44++0x3
line.long 0x00 "TTGR,The read value of this register is always 0xFFFF FFFF."
hexmask.long 0x00 0.--31. 1. " TTGR_VALUE     ,Writing to theTTGR register causes the TCRR to be loaded from TLDR and the prescaler counter to be cleared. Reload is done regardless of the AR field value of the TCLR register."
rgroup.long 0x48++0x3
line.long 0x00 "TWPS,This register contains the write posting bits for all writable functional registers."
bitfld.long 0x00 9. " W_PEND_TOWR    ,Write pending for theTOWR register - . - ." "No_write_pending,Write_pending"
bitfld.long 0x00 8. "      W_PEND_TOCR ,Write pending for theTOCR register - . - ." "No_write_pending,Write_pending"
bitfld.long 0x00 7. "     W_PEND_TCVR ,Write pending for theTCVR register - . - ." "No_write_pending,Write_pending"
textline "                        "
bitfld.long 0x00 6. " W_PEND_TNIR    ,Write pending for theTNIR register - . - ." "0,1"
bitfld.long 0x00 5. "                     W_PEND_TPIR ,Write pending for theTPIR register - . - ." "0,1"
bitfld.long 0x00 4. "                    W_PEND_TMAR ,When equal to 1, a write is pending to theTMAR register." "0,1"
textline "                        "
bitfld.long 0x00 3. " W_PEND_TTGR    ,When equal to 1, a write is pending to theTTGR register." "0,1"
bitfld.long 0x00 2. "                     W_PEND_TLDR ,When equal to 1, a write is pending to theTLDR register." "0,1"
bitfld.long 0x00 1. "                    W_PEND_TCRR ,When equal to 1, a write is pending to theTCRR register." "0,1"
textline "                        "
bitfld.long 0x00 0. " W_PEND_TCLR    ,When equal to 1, a write is pending to theTCLR register." "0,1"
group.long 0x4C++0x3
line.long 0x00 "TMAR,The compare logic consists of a 32-bit-wide, read/write data register and logic to compare counter."
hexmask.long 0x00 0.--31. 1. " COMPARE_VALUE  ,Value to be compared to the timer counter"
rgroup.long 0x50++0x3
line.long 0x00 "TCAR1,This register holds the first captured value of the counter register."
hexmask.long 0x00 0.--31. 1. " CAPTURE_VALUE1 ,First timer counter value captured on an external event trigger"
group.long 0x54++0x3
line.long 0x00 "TSICR,Timer synchronous interface control register"
bitfld.long 0x00 3. " READ_MODE      ,Select posted/non-posted mode for read operation: - . - . NOTE: When the module is configured in posted mode (POSTED = '1'), this bit is not used.. - . NOTE: For GP TIMER1, TIMER2 and TIMER10 this bit is write only.. - ." "0,1"
bitfld.long 0x00 2. "                     POSTED      ,Posted mode selection - POSTED_Value_0. - POSTED_Value_1." "POSTED_Value_0,POSTED_Value_1"
bitfld.long 0x00 1. "       SFT         ,This bit resets all the functional part of the module. - SFT_0. - SFT_1." "SFT_0,SFT_1"
rgroup.long 0x58++0x3
line.long 0x00 "TCAR2,This register holds the second captured value of the counter register."
hexmask.long 0x00 0.--31. 1. " CAPTURE_VALUE2 ,Second timer counter value captured on an external event trigger"
width 0x0B
tree.end
tree "TIMER16_L4_PER3Interconnect"
base ad:0x4882E000
width 15.
rgroup.long 0x0++0x3
line.long 0x00 "TIDR,This read-only register contains the revision number of the module. A write to this register has no effect. This register is used by software to track features, bugs, and compatibility."
hexmask.long 0x00 0.--31. 1. " REVISION       ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "TIOCP_CFG,This register controls the various parameters of the L4 interface."
bitfld.long 0x00 2.--3. " IDLEMODE       ,Power management, req/ack control - Idle_Mode_0x0. - Idle_Mode_0x1. - Idle_Mode_0x2. - Idle_Mode_0x3." "Idle_Mode_0x0,Idle_Mode_0x1,Idle_Mode_0x2,Idle_Mode_0x3"
bitfld.long 0x00 1. "         EMUFREE     ,Emulation mode - timer_frozen. - timer_free." "timer_frozen,timer_free"
bitfld.long 0x00 0. "         SOFTRESET   ,Software reset - SoftReset_Value_0. - SoftReset_Value_1." "SoftReset_Value_0,SoftReset_Value_1"
group.long 0x20++0x3
line.long 0x00 "IRQ_EOI,Software End-Of-Interrupt: Allows the generation of further pulses on the interrupt line, if a new interrupt event is pending, when using the pulsed output. Unused when using the level interrupt line (depending on module integration)."
bitfld.long 0x00 0. " LINE_NUMBER    ,Write the number of the interrupt line to apply a SW EOI to it. Note that there is only a single line (i.e. number 0). Read: Read always returns 0 Write 0: SW EOI on interrupt line Write 1: No action" "0,1"
group.long 0x24++0x3
line.long 0x00 "IRQSTATUS_RAW,Component interrupt-request status. Check the corresponding secondary status register. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 2. " TCAR_IT_FLAG   ,IRQ status for capture Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
bitfld.long 0x00 1. "                     OVF_IT_FLAG ,IRQ status for overflow Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
bitfld.long 0x00 0. "                    MAT_IT_FLAG ,IRQ status for match Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
group.long 0x28++0x3
line.long 0x00 "IRQSTATUS,Component interrupt-request status. Check the corresponding secondary status register. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if..."
bitfld.long 0x00 2. " TCAR_IT_FLAG   ,IRQ status for capture Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
bitfld.long 0x00 1. "                     OVF_IT_FLAG ,IRQ status for overflow Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
bitfld.long 0x00 0. "                    MAT_IT_FLAG ,IRQ status for match Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
group.long 0x2C++0x3
line.long 0x00 "IRQENABLE_SET,Component interrupt-request enable. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 2. " TCAR_EN_FLAG   ,IRQ enable for compare Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled Write 1: Set IRQ enable." "0,1"
bitfld.long 0x00 1. "                     OVF_EN_FLAG ,IRQ enable for overflow Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Set IRQ enable." "0,1"
bitfld.long 0x00 0. "                    MAT_EN_FLAG ,IRQ enable for match Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Set IRQ enable." "0,1"
group.long 0x30++0x3
line.long 0x00 "IRQENABLE_CLR,Component interrupt-request enable. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
bitfld.long 0x00 2. " TCAR_EN_FLAG   ,IRQ enable for compare Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
bitfld.long 0x00 1. "                     OVF_EN_FLAG ,IRQ enable for overflow Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
bitfld.long 0x00 0. "                    MAT_EN_FLAG ,IRQ enable for match Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
group.long 0x34++0x3
line.long 0x00 "IRQWAKEEN,Wake-up-enabled events taking place when module is idle should generate an asynchronous wake-up."
bitfld.long 0x00 2. " TCAR_WUP_ENA   ,Wake-up generation for compare - TCAR_WUP_ENA_Value_0. - TCAR_WUP_ENA_Value_1." "TCAR_WUP_ENA_Value_0,TCAR_WUP_ENA_Value_1"
bitfld.long 0x00 1. "  OVF_WUP_ENA ,Wake-up generation for overflow - OVF_WUP_ENA_Value_0. - OVF_WUP_ENA_Value_1." "OVF_WUP_ENA_Value_0,OVF_WUP_ENA_Value_1"
bitfld.long 0x00 0. "  MAT_WUP_ENA ,Wake-up generation for match - MAT_WUP_ENA_VALUE_0. - MAT_WUP_ENA_VALUE_1." "MAT_WUP_ENA_VALUE_0,MAT_WUP_ENA_VALUE_1"
group.long 0x38++0x3
line.long 0x00 "TCLR,This register controls optional features specific to the timer functionality."
bitfld.long 0x00 14. " GPO_CFG        ,General-purpose output - this register directly drives the PO_GPOCFG output pin. For specific use of the GPO_CFG bit, see, . - GPO_CFG_0. - GPO_CFG_1." "GPO_CFG_0,GPO_CFG_1"
bitfld.long 0x00 13. "             CAPT_MODE   ,Capture mode select bit (first/second) - First_capt. - Sec_capt." "First_capt,Sec_capt"
bitfld.long 0x00 12. "           PT          ,Pulse or toggle mode on TIMERi_PWM_out output pin - pulse. - toggle." "pulse,toggle"
textline "                        "
bitfld.long 0x00 10.--11. " TRG            ,Trigger output mode on TIMERi_PWM_out output pin - no_trg. - ovf_trg. - ovf_mat_trg. - reserved." "no_trg,ovf_trg,ovf_mat_trg,reserved"
bitfld.long 0x00 8.--9. "           TCM         ,Transition capture mode on TIMERi_EVENT_CAPTURE input pin (When the TCM field passed from (00) to any other combination, the TCAR_IT_FLAG and the edge detection logic are cleared.) - no_edge. - rise_edge. - fall_edge. - both_edges." "no_edge,rise_edge,fall_edge,both_edges"
bitfld.long 0x00 7. "           SCPWM       ,Pulse width modulation output pin default setting This bit must be set or clear while the timer is stopped or the trigger is off. - def_low. - def_high." "def_low,def_high"
textline "                        "
bitfld.long 0x00 6. " CE             ,Compare enable - dsb_cmp. - enb_cmp." "dsb_cmp,enb_cmp"
bitfld.long 0x00 5. "               PRE         ,Prescaler enable - no_prescal. - prescal_on." "no_prescal,prescal_on"
bitfld.long 0x00 2.--4. "           PTV         ,Prescale clock timer value The timer counter is prescaled with the value 2. Example: PTV = 3, counter increases value (if started) after 16 functional clock periods." "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 1. " AR             ,Autoreload mode - one_shot. - auto_rel." "one_shot,auto_rel"
bitfld.long 0x00 0. "              ST          ,Start/stop timer control - cnt_stop. - cnt_start." "cnt_stop,cnt_start"
group.long 0x3C++0x3
line.long 0x00 "TCRR,This register holds the value of the internal counter."
hexmask.long 0x00 0.--31. 1. " TIMER_COUNTER  ,Value of TIMER counter"
group.long 0x40++0x3
line.long 0x00 "TLDR,This register holds the timer load value."
hexmask.long 0x00 0.--31. 1. " LOAD_VALUE     ,Timer counter value loaded on overflow in autoreload mode or onTTGR write access. LOAD_VALUE must be different than the timer overflow value (0xFFFF FFFF)."
group.long 0x44++0x3
line.long 0x00 "TTGR,The read value of this register is always 0xFFFF FFFF."
hexmask.long 0x00 0.--31. 1. " TTGR_VALUE     ,Writing to theTTGR register causes the TCRR to be loaded from TLDR and the prescaler counter to be cleared. Reload is done regardless of the AR field value of the TCLR register."
rgroup.long 0x48++0x3
line.long 0x00 "TWPS,This register contains the write posting bits for all writable functional registers."
bitfld.long 0x00 9. " W_PEND_TOWR    ,Write pending for theTOWR register - . - ." "No_write_pending,Write_pending"
bitfld.long 0x00 8. "      W_PEND_TOCR ,Write pending for theTOCR register - . - ." "No_write_pending,Write_pending"
bitfld.long 0x00 7. "     W_PEND_TCVR ,Write pending for theTCVR register - . - ." "No_write_pending,Write_pending"
textline "                        "
bitfld.long 0x00 6. " W_PEND_TNIR    ,Write pending for theTNIR register - . - ." "0,1"
bitfld.long 0x00 5. "                     W_PEND_TPIR ,Write pending for theTPIR register - . - ." "0,1"
bitfld.long 0x00 4. "                    W_PEND_TMAR ,When equal to 1, a write is pending to theTMAR register." "0,1"
textline "                        "
bitfld.long 0x00 3. " W_PEND_TTGR    ,When equal to 1, a write is pending to theTTGR register." "0,1"
bitfld.long 0x00 2. "                     W_PEND_TLDR ,When equal to 1, a write is pending to theTLDR register." "0,1"
bitfld.long 0x00 1. "                    W_PEND_TCRR ,When equal to 1, a write is pending to theTCRR register." "0,1"
textline "                        "
bitfld.long 0x00 0. " W_PEND_TCLR    ,When equal to 1, a write is pending to theTCLR register." "0,1"
group.long 0x4C++0x3
line.long 0x00 "TMAR,The compare logic consists of a 32-bit-wide, read/write data register and logic to compare counter."
hexmask.long 0x00 0.--31. 1. " COMPARE_VALUE  ,Value to be compared to the timer counter"
rgroup.long 0x50++0x3
line.long 0x00 "TCAR1,This register holds the first captured value of the counter register."
hexmask.long 0x00 0.--31. 1. " CAPTURE_VALUE1 ,First timer counter value captured on an external event trigger"
group.long 0x54++0x3
line.long 0x00 "TSICR,Timer synchronous interface control register"
bitfld.long 0x00 3. " READ_MODE      ,Select posted/non-posted mode for read operation: - . - . NOTE: When the module is configured in posted mode (POSTED = '1'), this bit is not used.. - . NOTE: For GP TIMER1, TIMER2 and TIMER10 this bit is write only.. - ." "0,1"
bitfld.long 0x00 2. "                     POSTED      ,Posted mode selection - POSTED_Value_0. - POSTED_Value_1." "POSTED_Value_0,POSTED_Value_1"
bitfld.long 0x00 1. "       SFT         ,This bit resets all the functional part of the module. - SFT_0. - SFT_1." "SFT_0,SFT_1"
rgroup.long 0x58++0x3
line.long 0x00 "TCAR2,This register holds the second captured value of the counter register."
hexmask.long 0x00 0.--31. 1. " CAPTURE_VALUE2 ,Second timer counter value captured on an external event trigger"
width 0x0B
tree.end
tree "TIMER12_L4_WKUPInterconnect"
base ad:0x4AE20000
width 15.
rgroup.long 0x0++0x3
line.long 0x00 "TIDR,This read-only register contains the revision number of the module. A write to this register has no effect. This register is used by software to track features, bugs, and compatibility."
hexmask.long 0x00 0.--31. 1. " REVISION       ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "TIOCP_CFG,This register controls the various parameters of the L4 interface."
bitfld.long 0x00 2.--3. " IDLEMODE       ,Power management, req/ack control - Idle_Mode_0x0. - Idle_Mode_0x1. - Idle_Mode_0x2. - Idle_Mode_0x3." "Idle_Mode_0x0,Idle_Mode_0x1,Idle_Mode_0x2,Idle_Mode_0x3"
bitfld.long 0x00 1. "         EMUFREE     ,Emulation mode - timer_frozen. - timer_free." "timer_frozen,timer_free"
bitfld.long 0x00 0. "         SOFTRESET   ,Software reset - SoftReset_Value_0. - SoftReset_Value_1." "SoftReset_Value_0,SoftReset_Value_1"
group.long 0x20++0x3
line.long 0x00 "IRQ_EOI,Software End-Of-Interrupt: Allows the generation of further pulses on the interrupt line, if a new interrupt event is pending, when using the pulsed output. Unused when using the level interrupt line (depending on module integration)."
bitfld.long 0x00 0. " LINE_NUMBER    ,Write the number of the interrupt line to apply a SW EOI to it. Note that there is only a single line (i.e. number 0). Read: Read always returns 0 Write 0: SW EOI on interrupt line Write 1: No action" "0,1"
group.long 0x24++0x3
line.long 0x00 "IRQSTATUS_RAW,Component interrupt-request status. Check the corresponding secondary status register. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 2. " TCAR_IT_FLAG   ,IRQ status for capture Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
bitfld.long 0x00 1. "                     OVF_IT_FLAG ,IRQ status for overflow Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
bitfld.long 0x00 0. "                    MAT_IT_FLAG ,IRQ status for match Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
group.long 0x28++0x3
line.long 0x00 "IRQSTATUS,Component interrupt-request status. Check the corresponding secondary status register. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if..."
bitfld.long 0x00 2. " TCAR_IT_FLAG   ,IRQ status for capture Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
bitfld.long 0x00 1. "                     OVF_IT_FLAG ,IRQ status for overflow Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
bitfld.long 0x00 0. "                    MAT_IT_FLAG ,IRQ status for match Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
group.long 0x2C++0x3
line.long 0x00 "IRQENABLE_SET,Component interrupt-request enable. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 2. " TCAR_EN_FLAG   ,IRQ enable for compare Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled Write 1: Set IRQ enable." "0,1"
bitfld.long 0x00 1. "                     OVF_EN_FLAG ,IRQ enable for overflow Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Set IRQ enable." "0,1"
bitfld.long 0x00 0. "                    MAT_EN_FLAG ,IRQ enable for match Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Set IRQ enable." "0,1"
group.long 0x30++0x3
line.long 0x00 "IRQENABLE_CLR,Component interrupt-request enable. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
bitfld.long 0x00 2. " TCAR_EN_FLAG   ,IRQ enable for compare Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
bitfld.long 0x00 1. "                     OVF_EN_FLAG ,IRQ enable for overflow Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
bitfld.long 0x00 0. "                    MAT_EN_FLAG ,IRQ enable for match Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
group.long 0x34++0x3
line.long 0x00 "IRQWAKEEN,Wake-up-enabled events taking place when module is idle should generate an asynchronous wake-up."
bitfld.long 0x00 2. " TCAR_WUP_ENA   ,Wake-up generation for compare - TCAR_WUP_ENA_Value_0. - TCAR_WUP_ENA_Value_1." "TCAR_WUP_ENA_Value_0,TCAR_WUP_ENA_Value_1"
bitfld.long 0x00 1. "  OVF_WUP_ENA ,Wake-up generation for overflow - OVF_WUP_ENA_Value_0. - OVF_WUP_ENA_Value_1." "OVF_WUP_ENA_Value_0,OVF_WUP_ENA_Value_1"
bitfld.long 0x00 0. "  MAT_WUP_ENA ,Wake-up generation for match - MAT_WUP_ENA_VALUE_0. - MAT_WUP_ENA_VALUE_1." "MAT_WUP_ENA_VALUE_0,MAT_WUP_ENA_VALUE_1"
group.long 0x38++0x3
line.long 0x00 "TCLR,This register controls optional features specific to the timer functionality."
bitfld.long 0x00 14. " GPO_CFG        ,General-purpose output - this register directly drives the PO_GPOCFG output pin. For specific use of the GPO_CFG bit, see, . - GPO_CFG_0. - GPO_CFG_1." "GPO_CFG_0,GPO_CFG_1"
bitfld.long 0x00 13. "             CAPT_MODE   ,Capture mode select bit (first/second) - First_capt. - Sec_capt." "First_capt,Sec_capt"
bitfld.long 0x00 12. "           PT          ,Pulse or toggle mode on TIMERi_PWM_out output pin - pulse. - toggle." "pulse,toggle"
textline "                        "
bitfld.long 0x00 10.--11. " TRG            ,Trigger output mode on TIMERi_PWM_out output pin - no_trg. - ovf_trg. - ovf_mat_trg. - reserved." "no_trg,ovf_trg,ovf_mat_trg,reserved"
bitfld.long 0x00 8.--9. "           TCM         ,Transition capture mode on TIMERi_EVENT_CAPTURE input pin (When the TCM field passed from (00) to any other combination, the TCAR_IT_FLAG and the edge detection logic are cleared.) - no_edge. - rise_edge. - fall_edge. - both_edges." "no_edge,rise_edge,fall_edge,both_edges"
bitfld.long 0x00 7. "           SCPWM       ,Pulse width modulation output pin default setting This bit must be set or clear while the timer is stopped or the trigger is off. - def_low. - def_high." "def_low,def_high"
textline "                        "
bitfld.long 0x00 6. " CE             ,Compare enable - dsb_cmp. - enb_cmp." "dsb_cmp,enb_cmp"
bitfld.long 0x00 5. "               PRE         ,Prescaler enable - no_prescal. - prescal_on." "no_prescal,prescal_on"
bitfld.long 0x00 2.--4. "           PTV         ,Prescale clock timer value The timer counter is prescaled with the value 2. Example: PTV = 3, counter increases value (if started) after 16 functional clock periods." "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 1. " AR             ,Autoreload mode - one_shot. - auto_rel." "one_shot,auto_rel"
bitfld.long 0x00 0. "              ST          ,Start/stop timer control - cnt_stop. - cnt_start." "cnt_stop,cnt_start"
group.long 0x3C++0x3
line.long 0x00 "TCRR,This register holds the value of the internal counter."
hexmask.long 0x00 0.--31. 1. " TIMER_COUNTER  ,Value of TIMER counter"
group.long 0x40++0x3
line.long 0x00 "TLDR,This register holds the timer load value."
hexmask.long 0x00 0.--31. 1. " LOAD_VALUE     ,Timer counter value loaded on overflow in autoreload mode or onTTGR write access. LOAD_VALUE must be different than the timer overflow value (0xFFFF FFFF)."
group.long 0x44++0x3
line.long 0x00 "TTGR,The read value of this register is always 0xFFFF FFFF."
hexmask.long 0x00 0.--31. 1. " TTGR_VALUE     ,Writing to theTTGR register causes the TCRR to be loaded from TLDR and the prescaler counter to be cleared. Reload is done regardless of the AR field value of the TCLR register."
rgroup.long 0x48++0x3
line.long 0x00 "TWPS,This register contains the write posting bits for all writable functional registers."
bitfld.long 0x00 9. " W_PEND_TOWR    ,Write pending for theTOWR register - . - ." "No_write_pending,Write_pending"
bitfld.long 0x00 8. "      W_PEND_TOCR ,Write pending for theTOCR register - . - ." "No_write_pending,Write_pending"
bitfld.long 0x00 7. "     W_PEND_TCVR ,Write pending for theTCVR register - . - ." "No_write_pending,Write_pending"
textline "                        "
bitfld.long 0x00 6. " W_PEND_TNIR    ,Write pending for theTNIR register - . - ." "0,1"
bitfld.long 0x00 5. "                     W_PEND_TPIR ,Write pending for theTPIR register - . - ." "0,1"
bitfld.long 0x00 4. "                    W_PEND_TMAR ,When equal to 1, a write is pending to theTMAR register." "0,1"
textline "                        "
bitfld.long 0x00 3. " W_PEND_TTGR    ,When equal to 1, a write is pending to theTTGR register." "0,1"
bitfld.long 0x00 2. "                     W_PEND_TLDR ,When equal to 1, a write is pending to theTLDR register." "0,1"
bitfld.long 0x00 1. "                    W_PEND_TCRR ,When equal to 1, a write is pending to theTCRR register." "0,1"
textline "                        "
bitfld.long 0x00 0. " W_PEND_TCLR    ,When equal to 1, a write is pending to theTCLR register." "0,1"
group.long 0x4C++0x3
line.long 0x00 "TMAR,The compare logic consists of a 32-bit-wide, read/write data register and logic to compare counter."
hexmask.long 0x00 0.--31. 1. " COMPARE_VALUE  ,Value to be compared to the timer counter"
rgroup.long 0x50++0x3
line.long 0x00 "TCAR1,This register holds the first captured value of the counter register."
hexmask.long 0x00 0.--31. 1. " CAPTURE_VALUE1 ,First timer counter value captured on an external event trigger"
group.long 0x54++0x3
line.long 0x00 "TSICR,Timer synchronous interface control register"
bitfld.long 0x00 3. " READ_MODE      ,Select posted/non-posted mode for read operation: - . - . NOTE: When the module is configured in posted mode (POSTED = '1'), this bit is not used.. - . NOTE: For GP TIMER1, TIMER2 and TIMER10 this bit is write only.. - ." "0,1"
bitfld.long 0x00 2. "                     POSTED      ,Posted mode selection - POSTED_Value_0. - POSTED_Value_1." "POSTED_Value_0,POSTED_Value_1"
bitfld.long 0x00 1. "       SFT         ,This bit resets all the functional part of the module. - SFT_0. - SFT_1." "SFT_0,SFT_1"
rgroup.long 0x58++0x3
line.long 0x00 "TCAR2,This register holds the second captured value of the counter register."
hexmask.long 0x00 0.--31. 1. " CAPTURE_VALUE2 ,Second timer counter value captured on an external event trigger"
width 0x0B
tree.end
tree.end
tree.open "TIMER2_L4_PER1Interconnect"
tree "TIMER2_L4_PER1Interconnect"
base ad:0x48032000
width 15.
rgroup.long 0x0++0x3
line.long 0x00 "TIDR,This read-only register contains the revision number of the module. A write to this register has no effect. This register is used by software to track features, bugs, and compatibility."
hexmask.long 0x00 0.--31. 1. " REVISION           ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "TIOCP_CFG,This register controls the various parameters of the L4 interface."
bitfld.long 0x00 2.--3. " IDLEMODE           ,Power management, req/ack control - Idle_Mode_0x0. - Idle_Mode_0x1. - Idle_Mode_0x2. - Idle_Mode_0x3." "Idle_Mode_0x0,Idle_Mode_0x1,Idle_Mode_0x2,Idle_Mode_0x3"
bitfld.long 0x00 1. "         EMUFREE     ,Emulation mode - timer_frozen. - timer_free." "timer_frozen,timer_free"
bitfld.long 0x00 0. "         SOFTRESET   ,Software reset - SoftReset_Value_0. - SoftReset_Value_1." "SoftReset_Value_0,SoftReset_Value_1"
group.long 0x20++0x3
line.long 0x00 "IRQ_EOI,Software End-Of-Interrupt: Allows the generation of further pulses on the interrupt line, if a new interrupt event is pending, when using the pulsed output. Unused when using the level interrupt line (depending on module integration)."
bitfld.long 0x00 0. " LINE_NUMBER        ,Write the number of the interrupt line to apply a SW EOI to it. Note that there is only a single line (i.e. number 0). Read: Read always returns 0 Write 0: SW EOI on interrupt line Write 1: No action" "0,1"
group.long 0x24++0x3
line.long 0x00 "IRQSTATUS_RAW,Component interrupt-request status. Check the corresponding secondary status register. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 2. " TCAR_IT_FLAG       ,IRQ status for capture Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
bitfld.long 0x00 1. "                     OVF_IT_FLAG ,IRQ status for overflow Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
bitfld.long 0x00 0. "                    MAT_IT_FLAG ,IRQ status for match Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
group.long 0x28++0x3
line.long 0x00 "IRQSTATUS,Component interrupt-request status. Check the corresponding secondary status register. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if..."
bitfld.long 0x00 2. " TCAR_IT_FLAG       ,IRQ status for capture Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
bitfld.long 0x00 1. "                     OVF_IT_FLAG ,IRQ status for overflow Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
bitfld.long 0x00 0. "                    MAT_IT_FLAG ,IRQ status for match Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
group.long 0x2C++0x3
line.long 0x00 "IRQSTATUS_SET,Component interrupt-request enable. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 2. " TCAR_EN_FLAG       ,IRQ enable for compare Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled Write 1: Set IRQ enable." "0,1"
bitfld.long 0x00 1. "                     OVF_EN_FLAG ,IRQ enable for overflow Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Set IRQ enable." "0,1"
bitfld.long 0x00 0. "                    MAT_EN_FLAG ,IRQ enable for match Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Set IRQ enable." "0,1"
group.long 0x30++0x3
line.long 0x00 "IRQSTATUS_CLR,Component interrupt-request enable. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
bitfld.long 0x00 2. " TCAR_EN_FLAG       ,IRQ enable for compare Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
bitfld.long 0x00 1. "                     OVF_EN_FLAG ,IRQ enable for overflow Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
bitfld.long 0x00 0. "                    MAT_EN_FLAG ,IRQ enable for match Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
group.long 0x34++0x3
line.long 0x00 "IRQWAKEEN,Wake-up-enabled events taking place when module is idle should generate an asynchronous wake-up."
bitfld.long 0x00 2. " TCAR_WUP_ENA       ,Wake-up generation for compare - TCAR_WUP_ENA_Value_0. - TCAR_WUP_ENA_Value_1." "TCAR_WUP_ENA_Value_0,TCAR_WUP_ENA_Value_1"
bitfld.long 0x00 1. "  OVF_WUP_ENA ,Wake-up generation for overflow - OVF_WUP_ENA_Value_0. - OVF_WUP_ENA_Value_1." "OVF_WUP_ENA_Value_0,OVF_WUP_ENA_Value_1"
bitfld.long 0x00 0. "  MAT_WUP_ENA ,Wake-up generation for match - MAT_WUP_ENA_VALUE_0. - MAT_WUP_ENA_VALUE_1." "MAT_WUP_ENA_VALUE_0,MAT_WUP_ENA_VALUE_1"
group.long 0x38++0x3
line.long 0x00 "TCLR,This register controls optional features specific to the timer functionality."
bitfld.long 0x00 14. " GPO_CFG            ,General-purpose output - this register directly drives the PO_GPOCFG output pin. For specific use of the GPO_CFG bit, see, . - GPO_CFG_0. - GPO_CFG_1." "GPO_CFG_0,GPO_CFG_1"
bitfld.long 0x00 13. "             CAPT_MODE   ,Capture mode select bit (first/second) - First_capt. - Sec_capt." "First_capt,Sec_capt"
bitfld.long 0x00 12. "           PT          ,Pulse or toggle mode on TIMERi_PWM_out output pin - pulse. - toggle." "pulse,toggle"
textline "                        "
bitfld.long 0x00 10.--11. " TRG                ,Trigger output mode on TIMERi_PWM_out output pin - no_trg. - ovf_trg. - ovf_mat_trg. - reserved." "no_trg,ovf_trg,ovf_mat_trg,reserved"
bitfld.long 0x00 8.--9. "           TCM         ,Transition capture mode on TIMERi_EVENT_CAPTURE input pin (When the TCM field passed from (00) to any other combination, the TCAR_IT_FLAG and the edge detection logic are cleared.) - no_edge. - rise_edge. - fall_edge. - both_edges." "no_edge,rise_edge,fall_edge,both_edges"
bitfld.long 0x00 7. "           SCPWM       ,Pulse width modulation output pin default setting This bit must be set or clear while the timer is stopped or the trigger is off. - def_low. - def_high." "def_low,def_high"
textline "                        "
bitfld.long 0x00 6. " CE                 ,Compare enable - dsb_cmp. - enb_cmp." "dsb_cmp,enb_cmp"
bitfld.long 0x00 5. "               PRE         ,Prescaler enable - no_prescal. - prescal_on." "no_prescal,prescal_on"
bitfld.long 0x00 2.--4. "           PTV         ,Prescale clock timer value The timer counter is prescaled with the value 2. Example: PTV = 3, counter increases value (if started) after 16 functional clock periods." "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 1. " AR                 ,Autoreload mode - one_shot. - auto_rel." "one_shot,auto_rel"
bitfld.long 0x00 0. "              ST          ,Start/stop timer control - cnt_stop. - cnt_start." "cnt_stop,cnt_start"
group.long 0x3C++0x3
line.long 0x00 "TCRR,This register holds the value of the internal counter."
hexmask.long 0x00 0.--31. 1. " TIMER_COUNTER      ,Value of TIMER counter"
group.long 0x40++0x3
line.long 0x00 "TLDR,This register holds the timer load value."
hexmask.long 0x00 0.--31. 1. " LOAD_VALUE         ,Timer counter value loaded on overflow in autoreload mode or onTTGR write access. LOAD_VALUE must be different than the timer overflow value (0xFFFF FFFF)."
group.long 0x44++0x3
line.long 0x00 "TTGR,The read value of this register is always 0xFFFF FFFF."
hexmask.long 0x00 0.--31. 1. " TTGR_VALUE         ,Writing to theTTGR register causes the TCRR to be loaded from TLDR and the prescaler counter to be cleared. Reload is done regardless of the AR field value of the TCLR register."
rgroup.long 0x48++0x3
line.long 0x00 "TWPS,This register contains the write posting bits for all writable functional registers."
bitfld.long 0x00 9. " W_PEND_TOWR        ,Write pending for theTOWR register - . - ." "No_write_pending,Write_pending"
bitfld.long 0x00 8. "      W_PEND_TOCR ,Write pending for theTOCR register - . - ." "No_write_pending,Write_pending"
bitfld.long 0x00 7. "     W_PEND_TCVR ,Write pending for theTCVR register - . - ." "No_write_pending,Write_pending"
textline "                        "
bitfld.long 0x00 6. " W_PEND_TNIR        ,Write pending for theTNIR register - . - ." "0,1"
bitfld.long 0x00 5. "                     W_PEND_TPIR ,Write pending for theTPIR register - . - ." "0,1"
bitfld.long 0x00 4. "                    W_PEND_TMAR ,When equal to 1, a write is pending to theTMAR register." "0,1"
textline "                        "
bitfld.long 0x00 3. " W_PEND_TTGR        ,When equal to 1, a write is pending to theTTGR register." "0,1"
bitfld.long 0x00 2. "                     W_PEND_TLDR ,When equal to 1, a write is pending to theTLDR register." "0,1"
bitfld.long 0x00 1. "                    W_PEND_TCRR ,When equal to 1, a write is pending to theTCRR register." "0,1"
textline "                        "
bitfld.long 0x00 0. " W_PEND_TCLR        ,When equal to 1, a write is pending to theTCLR register." "0,1"
group.long 0x4C++0x3
line.long 0x00 "TMAR,The compare logic consists of a 32-bit-wide, read/write data register and logic to compare counter."
hexmask.long 0x00 0.--31. 1. " COMPARE_VALUE      ,Value to be compared to the timer counter"
rgroup.long 0x50++0x3
line.long 0x00 "TCAR1,This register holds the first captured value of the counter register."
hexmask.long 0x00 0.--31. 1. " CAPTURE_VALUE1     ,First timer counter value captured on an external event trigger"
group.long 0x54++0x3
line.long 0x00 "TSICR,Timer synchronous interface control register"
bitfld.long 0x00 3. " READ_MODE          ,Select posted/non-posted mode for read operation: - . - . NOTE: When the module is configured in posted mode (POSTED = '1'), this bit is not used.. - . NOTE: For GP TIMER1, TIMER2 and TIMER10 this bit is write only.. - ." "0,1"
bitfld.long 0x00 2. "                     POSTED      ,Posted mode selection - POSTED_Value_0. - POSTED_Value_1." "POSTED_Value_0,POSTED_Value_1"
bitfld.long 0x00 1. "       SFT         ,This bit resets all the functional part of the module. - SFT_0. - SFT_1." "SFT_0,SFT_1"
rgroup.long 0x58++0x3
line.long 0x00 "TCAR2,This register holds the second captured value of the counter register."
hexmask.long 0x00 0.--31. 1. " CAPTURE_VALUE2     ,Second timer counter value captured on an external event trigger"
group.long 0x5C++0x3
line.long 0x00 "TPIR,This register is used for 1-ms tick generation. The register holds the value of the positive increment. The value of this register is added to the value of to determine whether next value loaded in is the subperiod value or the overperiod value."
hexmask.long 0x00 0.--31. 1. " POSITIVE_INC_VALUE ,Value of the positive increment"
group.long 0x60++0x3
line.long 0x00 "TNIR,This register is used for 1-ms tick generation. The register holds the value of the negative increment. The value of this register is added to the value of the to determine whether next value loaded in is the subperiod value or the overperiod value."
hexmask.long 0x00 0.--31. 1. " NEGATIVE_INV_VALUE ,Value of the negative increment"
group.long 0x64++0x3
line.long 0x00 "TCVR,This register is used for 1-ms tick generation. The register determines whether next value loaded in is the subperiod value or the overperiod value."
hexmask.long 0x00 0.--31. 1. " COUNTER_VALUE      ,Value of CVR counter"
group.long 0x68++0x3
line.long 0x00 "TOCR,This register is used to mask the tick interrupt for a selected number of ticks."
hexmask.long.tbyte 0x00 0.--23. 1. " OVF_COUNTER_VALUE  ,Number of overflow events"
group.long 0x6C++0x3
line.long 0x00 "TOWR,This register holds the number of masked overflow interrupts."
hexmask.long.tbyte 0x00 0.--23. 1. " OVF_WRAPPING_VALUE ,Number of masked interrupts"
width 0x0B
tree.end
tree "TIMER10_L4_PER1Interconnect"
base ad:0x48086000
width 15.
rgroup.long 0x0++0x3
line.long 0x00 "TIDR,This read-only register contains the revision number of the module. A write to this register has no effect. This register is used by software to track features, bugs, and compatibility."
hexmask.long 0x00 0.--31. 1. " REVISION           ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "TIOCP_CFG,This register controls the various parameters of the L4 interface."
bitfld.long 0x00 2.--3. " IDLEMODE           ,Power management, req/ack control - Idle_Mode_0x0. - Idle_Mode_0x1. - Idle_Mode_0x2. - Idle_Mode_0x3." "Idle_Mode_0x0,Idle_Mode_0x1,Idle_Mode_0x2,Idle_Mode_0x3"
bitfld.long 0x00 1. "         EMUFREE     ,Emulation mode - timer_frozen. - timer_free." "timer_frozen,timer_free"
bitfld.long 0x00 0. "         SOFTRESET   ,Software reset - SoftReset_Value_0. - SoftReset_Value_1." "SoftReset_Value_0,SoftReset_Value_1"
group.long 0x20++0x3
line.long 0x00 "IRQ_EOI,Software End-Of-Interrupt: Allows the generation of further pulses on the interrupt line, if a new interrupt event is pending, when using the pulsed output. Unused when using the level interrupt line (depending on module integration)."
bitfld.long 0x00 0. " LINE_NUMBER        ,Write the number of the interrupt line to apply a SW EOI to it. Note that there is only a single line (i.e. number 0). Read: Read always returns 0 Write 0: SW EOI on interrupt line Write 1: No action" "0,1"
group.long 0x24++0x3
line.long 0x00 "IRQSTATUS_RAW,Component interrupt-request status. Check the corresponding secondary status register. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 2. " TCAR_IT_FLAG       ,IRQ status for capture Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
bitfld.long 0x00 1. "                     OVF_IT_FLAG ,IRQ status for overflow Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
bitfld.long 0x00 0. "                    MAT_IT_FLAG ,IRQ status for match Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
group.long 0x28++0x3
line.long 0x00 "IRQSTATUS,Component interrupt-request status. Check the corresponding secondary status register. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if..."
bitfld.long 0x00 2. " TCAR_IT_FLAG       ,IRQ status for capture Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
bitfld.long 0x00 1. "                     OVF_IT_FLAG ,IRQ status for overflow Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
bitfld.long 0x00 0. "                    MAT_IT_FLAG ,IRQ status for match Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
group.long 0x2C++0x3
line.long 0x00 "IRQSTATUS_SET,Component interrupt-request enable. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 2. " TCAR_EN_FLAG       ,IRQ enable for compare Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled Write 1: Set IRQ enable." "0,1"
bitfld.long 0x00 1. "                     OVF_EN_FLAG ,IRQ enable for overflow Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Set IRQ enable." "0,1"
bitfld.long 0x00 0. "                    MAT_EN_FLAG ,IRQ enable for match Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Set IRQ enable." "0,1"
group.long 0x30++0x3
line.long 0x00 "IRQSTATUS_CLR,Component interrupt-request enable. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
bitfld.long 0x00 2. " TCAR_EN_FLAG       ,IRQ enable for compare Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
bitfld.long 0x00 1. "                     OVF_EN_FLAG ,IRQ enable for overflow Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
bitfld.long 0x00 0. "                    MAT_EN_FLAG ,IRQ enable for match Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
group.long 0x34++0x3
line.long 0x00 "IRQWAKEEN,Wake-up-enabled events taking place when module is idle should generate an asynchronous wake-up."
bitfld.long 0x00 2. " TCAR_WUP_ENA       ,Wake-up generation for compare - TCAR_WUP_ENA_Value_0. - TCAR_WUP_ENA_Value_1." "TCAR_WUP_ENA_Value_0,TCAR_WUP_ENA_Value_1"
bitfld.long 0x00 1. "  OVF_WUP_ENA ,Wake-up generation for overflow - OVF_WUP_ENA_Value_0. - OVF_WUP_ENA_Value_1." "OVF_WUP_ENA_Value_0,OVF_WUP_ENA_Value_1"
bitfld.long 0x00 0. "  MAT_WUP_ENA ,Wake-up generation for match - MAT_WUP_ENA_VALUE_0. - MAT_WUP_ENA_VALUE_1." "MAT_WUP_ENA_VALUE_0,MAT_WUP_ENA_VALUE_1"
group.long 0x38++0x3
line.long 0x00 "TCLR,This register controls optional features specific to the timer functionality."
bitfld.long 0x00 14. " GPO_CFG            ,General-purpose output - this register directly drives the PO_GPOCFG output pin. For specific use of the GPO_CFG bit, see, . - GPO_CFG_0. - GPO_CFG_1." "GPO_CFG_0,GPO_CFG_1"
bitfld.long 0x00 13. "             CAPT_MODE   ,Capture mode select bit (first/second) - First_capt. - Sec_capt." "First_capt,Sec_capt"
bitfld.long 0x00 12. "           PT          ,Pulse or toggle mode on TIMERi_PWM_out output pin - pulse. - toggle." "pulse,toggle"
textline "                        "
bitfld.long 0x00 10.--11. " TRG                ,Trigger output mode on TIMERi_PWM_out output pin - no_trg. - ovf_trg. - ovf_mat_trg. - reserved." "no_trg,ovf_trg,ovf_mat_trg,reserved"
bitfld.long 0x00 8.--9. "           TCM         ,Transition capture mode on TIMERi_EVENT_CAPTURE input pin (When the TCM field passed from (00) to any other combination, the TCAR_IT_FLAG and the edge detection logic are cleared.) - no_edge. - rise_edge. - fall_edge. - both_edges." "no_edge,rise_edge,fall_edge,both_edges"
bitfld.long 0x00 7. "           SCPWM       ,Pulse width modulation output pin default setting This bit must be set or clear while the timer is stopped or the trigger is off. - def_low. - def_high." "def_low,def_high"
textline "                        "
bitfld.long 0x00 6. " CE                 ,Compare enable - dsb_cmp. - enb_cmp." "dsb_cmp,enb_cmp"
bitfld.long 0x00 5. "               PRE         ,Prescaler enable - no_prescal. - prescal_on." "no_prescal,prescal_on"
bitfld.long 0x00 2.--4. "           PTV         ,Prescale clock timer value The timer counter is prescaled with the value 2. Example: PTV = 3, counter increases value (if started) after 16 functional clock periods." "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 1. " AR                 ,Autoreload mode - one_shot. - auto_rel." "one_shot,auto_rel"
bitfld.long 0x00 0. "              ST          ,Start/stop timer control - cnt_stop. - cnt_start." "cnt_stop,cnt_start"
group.long 0x3C++0x3
line.long 0x00 "TCRR,This register holds the value of the internal counter."
hexmask.long 0x00 0.--31. 1. " TIMER_COUNTER      ,Value of TIMER counter"
group.long 0x40++0x3
line.long 0x00 "TLDR,This register holds the timer load value."
hexmask.long 0x00 0.--31. 1. " LOAD_VALUE         ,Timer counter value loaded on overflow in autoreload mode or onTTGR write access. LOAD_VALUE must be different than the timer overflow value (0xFFFF FFFF)."
group.long 0x44++0x3
line.long 0x00 "TTGR,The read value of this register is always 0xFFFF FFFF."
hexmask.long 0x00 0.--31. 1. " TTGR_VALUE         ,Writing to theTTGR register causes the TCRR to be loaded from TLDR and the prescaler counter to be cleared. Reload is done regardless of the AR field value of the TCLR register."
rgroup.long 0x48++0x3
line.long 0x00 "TWPS,This register contains the write posting bits for all writable functional registers."
bitfld.long 0x00 9. " W_PEND_TOWR        ,Write pending for theTOWR register - . - ." "No_write_pending,Write_pending"
bitfld.long 0x00 8. "      W_PEND_TOCR ,Write pending for theTOCR register - . - ." "No_write_pending,Write_pending"
bitfld.long 0x00 7. "     W_PEND_TCVR ,Write pending for theTCVR register - . - ." "No_write_pending,Write_pending"
textline "                        "
bitfld.long 0x00 6. " W_PEND_TNIR        ,Write pending for theTNIR register - . - ." "0,1"
bitfld.long 0x00 5. "                     W_PEND_TPIR ,Write pending for theTPIR register - . - ." "0,1"
bitfld.long 0x00 4. "                    W_PEND_TMAR ,When equal to 1, a write is pending to theTMAR register." "0,1"
textline "                        "
bitfld.long 0x00 3. " W_PEND_TTGR        ,When equal to 1, a write is pending to theTTGR register." "0,1"
bitfld.long 0x00 2. "                     W_PEND_TLDR ,When equal to 1, a write is pending to theTLDR register." "0,1"
bitfld.long 0x00 1. "                    W_PEND_TCRR ,When equal to 1, a write is pending to theTCRR register." "0,1"
textline "                        "
bitfld.long 0x00 0. " W_PEND_TCLR        ,When equal to 1, a write is pending to theTCLR register." "0,1"
group.long 0x4C++0x3
line.long 0x00 "TMAR,The compare logic consists of a 32-bit-wide, read/write data register and logic to compare counter."
hexmask.long 0x00 0.--31. 1. " COMPARE_VALUE      ,Value to be compared to the timer counter"
rgroup.long 0x50++0x3
line.long 0x00 "TCAR1,This register holds the first captured value of the counter register."
hexmask.long 0x00 0.--31. 1. " CAPTURE_VALUE1     ,First timer counter value captured on an external event trigger"
group.long 0x54++0x3
line.long 0x00 "TSICR,Timer synchronous interface control register"
bitfld.long 0x00 3. " READ_MODE          ,Select posted/non-posted mode for read operation: - . - . NOTE: When the module is configured in posted mode (POSTED = '1'), this bit is not used.. - . NOTE: For GP TIMER1, TIMER2 and TIMER10 this bit is write only.. - ." "0,1"
bitfld.long 0x00 2. "                     POSTED      ,Posted mode selection - POSTED_Value_0. - POSTED_Value_1." "POSTED_Value_0,POSTED_Value_1"
bitfld.long 0x00 1. "       SFT         ,This bit resets all the functional part of the module. - SFT_0. - SFT_1." "SFT_0,SFT_1"
rgroup.long 0x58++0x3
line.long 0x00 "TCAR2,This register holds the second captured value of the counter register."
hexmask.long 0x00 0.--31. 1. " CAPTURE_VALUE2     ,Second timer counter value captured on an external event trigger"
group.long 0x5C++0x3
line.long 0x00 "TPIR,This register is used for 1-ms tick generation. The register holds the value of the positive increment. The value of this register is added to the value of to determine whether next value loaded in is the subperiod value or the overperiod value."
hexmask.long 0x00 0.--31. 1. " POSITIVE_INC_VALUE ,Value of the positive increment"
group.long 0x60++0x3
line.long 0x00 "TNIR,This register is used for 1-ms tick generation. The register holds the value of the negative increment. The value of this register is added to the value of the to determine whether next value loaded in is the subperiod value or the overperiod value."
hexmask.long 0x00 0.--31. 1. " NEGATIVE_INV_VALUE ,Value of the negative increment"
group.long 0x64++0x3
line.long 0x00 "TCVR,This register is used for 1-ms tick generation. The register determines whether next value loaded in is the subperiod value or the overperiod value."
hexmask.long 0x00 0.--31. 1. " COUNTER_VALUE      ,Value of CVR counter"
group.long 0x68++0x3
line.long 0x00 "TOCR,This register is used to mask the tick interrupt for a selected number of ticks."
hexmask.long.tbyte 0x00 0.--23. 1. " OVF_COUNTER_VALUE  ,Number of overflow events"
group.long 0x6C++0x3
line.long 0x00 "TOWR,This register holds the number of masked overflow interrupts."
hexmask.long.tbyte 0x00 0.--23. 1. " OVF_WRAPPING_VALUE ,Number of masked interrupts"
width 0x0B
tree.end
tree "TIMER1_L4_WKUPInterconnect"
base ad:0x4AE18000
width 15.
rgroup.long 0x0++0x3
line.long 0x00 "TIDR,This read-only register contains the revision number of the module. A write to this register has no effect. This register is used by software to track features, bugs, and compatibility."
hexmask.long 0x00 0.--31. 1. " REVISION           ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "TIOCP_CFG,This register controls the various parameters of the L4 interface."
bitfld.long 0x00 2.--3. " IDLEMODE           ,Power management, req/ack control - Idle_Mode_0x0. - Idle_Mode_0x1. - Idle_Mode_0x2. - Idle_Mode_0x3." "Idle_Mode_0x0,Idle_Mode_0x1,Idle_Mode_0x2,Idle_Mode_0x3"
bitfld.long 0x00 1. "         EMUFREE     ,Emulation mode - timer_frozen. - timer_free." "timer_frozen,timer_free"
bitfld.long 0x00 0. "         SOFTRESET   ,Software reset - SoftReset_Value_0. - SoftReset_Value_1." "SoftReset_Value_0,SoftReset_Value_1"
group.long 0x20++0x3
line.long 0x00 "IRQ_EOI,Software End-Of-Interrupt: Allows the generation of further pulses on the interrupt line, if a new interrupt event is pending, when using the pulsed output. Unused when using the level interrupt line (depending on module integration)."
bitfld.long 0x00 0. " LINE_NUMBER        ,Write the number of the interrupt line to apply a SW EOI to it. Note that there is only a single line (i.e. number 0). Read: Read always returns 0 Write 0: SW EOI on interrupt line Write 1: No action" "0,1"
group.long 0x24++0x3
line.long 0x00 "IRQSTATUS_RAW,Component interrupt-request status. Check the corresponding secondary status register. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 2. " TCAR_IT_FLAG       ,IRQ status for capture Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
bitfld.long 0x00 1. "                     OVF_IT_FLAG ,IRQ status for overflow Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
bitfld.long 0x00 0. "                    MAT_IT_FLAG ,IRQ status for match Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Trigger IRQ event by software." "0,1"
group.long 0x28++0x3
line.long 0x00 "IRQSTATUS,Component interrupt-request status. Check the corresponding secondary status register. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if..."
bitfld.long 0x00 2. " TCAR_IT_FLAG       ,IRQ status for capture Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
bitfld.long 0x00 1. "                     OVF_IT_FLAG ,IRQ status for overflow Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
bitfld.long 0x00 0. "                    MAT_IT_FLAG ,IRQ status for match Read 0: No event pending Write 0: No action Read 1: IRQ event pending Write 1: Clear any pending event." "0,1"
group.long 0x2C++0x3
line.long 0x00 "IRQSTATUS_SET,Component interrupt-request enable. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 2. " TCAR_EN_FLAG       ,IRQ enable for compare Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled Write 1: Set IRQ enable." "0,1"
bitfld.long 0x00 1. "                     OVF_EN_FLAG ,IRQ enable for overflow Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Set IRQ enable." "0,1"
bitfld.long 0x00 0. "                    MAT_EN_FLAG ,IRQ enable for match Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Set IRQ enable." "0,1"
group.long 0x30++0x3
line.long 0x00 "IRQSTATUS_CLR,Component interrupt-request enable. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
bitfld.long 0x00 2. " TCAR_EN_FLAG       ,IRQ enable for compare Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
bitfld.long 0x00 1. "                     OVF_EN_FLAG ,IRQ enable for overflow Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
bitfld.long 0x00 0. "                    MAT_EN_FLAG ,IRQ enable for match Read 0: IRQ event is disabled. Write 0: No action Read 1: IRQ event is enabled. Write 1: Clear IRQ enable." "0,1"
group.long 0x34++0x3
line.long 0x00 "IRQWAKEEN,Wake-up-enabled events taking place when module is idle should generate an asynchronous wake-up."
bitfld.long 0x00 2. " TCAR_WUP_ENA       ,Wake-up generation for compare - TCAR_WUP_ENA_Value_0. - TCAR_WUP_ENA_Value_1." "TCAR_WUP_ENA_Value_0,TCAR_WUP_ENA_Value_1"
bitfld.long 0x00 1. "  OVF_WUP_ENA ,Wake-up generation for overflow - OVF_WUP_ENA_Value_0. - OVF_WUP_ENA_Value_1." "OVF_WUP_ENA_Value_0,OVF_WUP_ENA_Value_1"
bitfld.long 0x00 0. "  MAT_WUP_ENA ,Wake-up generation for match - MAT_WUP_ENA_VALUE_0. - MAT_WUP_ENA_VALUE_1." "MAT_WUP_ENA_VALUE_0,MAT_WUP_ENA_VALUE_1"
group.long 0x38++0x3
line.long 0x00 "TCLR,This register controls optional features specific to the timer functionality."
bitfld.long 0x00 14. " GPO_CFG            ,General-purpose output - this register directly drives the PO_GPOCFG output pin. For specific use of the GPO_CFG bit, see, . - GPO_CFG_0. - GPO_CFG_1." "GPO_CFG_0,GPO_CFG_1"
bitfld.long 0x00 13. "             CAPT_MODE   ,Capture mode select bit (first/second) - First_capt. - Sec_capt." "First_capt,Sec_capt"
bitfld.long 0x00 12. "           PT          ,Pulse or toggle mode on TIMERi_PWM_out output pin - pulse. - toggle." "pulse,toggle"
textline "                        "
bitfld.long 0x00 10.--11. " TRG                ,Trigger output mode on TIMERi_PWM_out output pin - no_trg. - ovf_trg. - ovf_mat_trg. - reserved." "no_trg,ovf_trg,ovf_mat_trg,reserved"
bitfld.long 0x00 8.--9. "           TCM         ,Transition capture mode on TIMERi_EVENT_CAPTURE input pin (When the TCM field passed from (00) to any other combination, the TCAR_IT_FLAG and the edge detection logic are cleared.) - no_edge. - rise_edge. - fall_edge. - both_edges." "no_edge,rise_edge,fall_edge,both_edges"
bitfld.long 0x00 7. "           SCPWM       ,Pulse width modulation output pin default setting This bit must be set or clear while the timer is stopped or the trigger is off. - def_low. - def_high." "def_low,def_high"
textline "                        "
bitfld.long 0x00 6. " CE                 ,Compare enable - dsb_cmp. - enb_cmp." "dsb_cmp,enb_cmp"
bitfld.long 0x00 5. "               PRE         ,Prescaler enable - no_prescal. - prescal_on." "no_prescal,prescal_on"
bitfld.long 0x00 2.--4. "           PTV         ,Prescale clock timer value The timer counter is prescaled with the value 2. Example: PTV = 3, counter increases value (if started) after 16 functional clock periods." "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 1. " AR                 ,Autoreload mode - one_shot. - auto_rel." "one_shot,auto_rel"
bitfld.long 0x00 0. "              ST          ,Start/stop timer control - cnt_stop. - cnt_start." "cnt_stop,cnt_start"
group.long 0x3C++0x3
line.long 0x00 "TCRR,This register holds the value of the internal counter."
hexmask.long 0x00 0.--31. 1. " TIMER_COUNTER      ,Value of TIMER counter"
group.long 0x40++0x3
line.long 0x00 "TLDR,This register holds the timer load value."
hexmask.long 0x00 0.--31. 1. " LOAD_VALUE         ,Timer counter value loaded on overflow in autoreload mode or onTTGR write access. LOAD_VALUE must be different than the timer overflow value (0xFFFF FFFF)."
group.long 0x44++0x3
line.long 0x00 "TTGR,The read value of this register is always 0xFFFF FFFF."
hexmask.long 0x00 0.--31. 1. " TTGR_VALUE         ,Writing to theTTGR register causes the TCRR to be loaded from TLDR and the prescaler counter to be cleared. Reload is done regardless of the AR field value of the TCLR register."
rgroup.long 0x48++0x3
line.long 0x00 "TWPS,This register contains the write posting bits for all writable functional registers."
bitfld.long 0x00 9. " W_PEND_TOWR        ,Write pending for theTOWR register - . - ." "No_write_pending,Write_pending"
bitfld.long 0x00 8. "      W_PEND_TOCR ,Write pending for theTOCR register - . - ." "No_write_pending,Write_pending"
bitfld.long 0x00 7. "     W_PEND_TCVR ,Write pending for theTCVR register - . - ." "No_write_pending,Write_pending"
textline "                        "
bitfld.long 0x00 6. " W_PEND_TNIR        ,Write pending for theTNIR register - . - ." "0,1"
bitfld.long 0x00 5. "                     W_PEND_TPIR ,Write pending for theTPIR register - . - ." "0,1"
bitfld.long 0x00 4. "                    W_PEND_TMAR ,When equal to 1, a write is pending to theTMAR register." "0,1"
textline "                        "
bitfld.long 0x00 3. " W_PEND_TTGR        ,When equal to 1, a write is pending to theTTGR register." "0,1"
bitfld.long 0x00 2. "                     W_PEND_TLDR ,When equal to 1, a write is pending to theTLDR register." "0,1"
bitfld.long 0x00 1. "                    W_PEND_TCRR ,When equal to 1, a write is pending to theTCRR register." "0,1"
textline "                        "
bitfld.long 0x00 0. " W_PEND_TCLR        ,When equal to 1, a write is pending to theTCLR register." "0,1"
group.long 0x4C++0x3
line.long 0x00 "TMAR,The compare logic consists of a 32-bit-wide, read/write data register and logic to compare counter."
hexmask.long 0x00 0.--31. 1. " COMPARE_VALUE      ,Value to be compared to the timer counter"
rgroup.long 0x50++0x3
line.long 0x00 "TCAR1,This register holds the first captured value of the counter register."
hexmask.long 0x00 0.--31. 1. " CAPTURE_VALUE1     ,First timer counter value captured on an external event trigger"
group.long 0x54++0x3
line.long 0x00 "TSICR,Timer synchronous interface control register"
bitfld.long 0x00 3. " READ_MODE          ,Select posted/non-posted mode for read operation: - . - . NOTE: When the module is configured in posted mode (POSTED = '1'), this bit is not used.. - . NOTE: For GP TIMER1, TIMER2 and TIMER10 this bit is write only.. - ." "0,1"
bitfld.long 0x00 2. "                     POSTED      ,Posted mode selection - POSTED_Value_0. - POSTED_Value_1." "POSTED_Value_0,POSTED_Value_1"
bitfld.long 0x00 1. "       SFT         ,This bit resets all the functional part of the module. - SFT_0. - SFT_1." "SFT_0,SFT_1"
rgroup.long 0x58++0x3
line.long 0x00 "TCAR2,This register holds the second captured value of the counter register."
hexmask.long 0x00 0.--31. 1. " CAPTURE_VALUE2     ,Second timer counter value captured on an external event trigger"
group.long 0x5C++0x3
line.long 0x00 "TPIR,This register is used for 1-ms tick generation. The register holds the value of the positive increment. The value of this register is added to the value of to determine whether next value loaded in is the subperiod value or the overperiod value."
hexmask.long 0x00 0.--31. 1. " POSITIVE_INC_VALUE ,Value of the positive increment"
group.long 0x60++0x3
line.long 0x00 "TNIR,This register is used for 1-ms tick generation. The register holds the value of the negative increment. The value of this register is added to the value of the to determine whether next value loaded in is the subperiod value or the overperiod value."
hexmask.long 0x00 0.--31. 1. " NEGATIVE_INV_VALUE ,Value of the negative increment"
group.long 0x64++0x3
line.long 0x00 "TCVR,This register is used for 1-ms tick generation. The register determines whether next value loaded in is the subperiod value or the overperiod value."
hexmask.long 0x00 0.--31. 1. " COUNTER_VALUE      ,Value of CVR counter"
group.long 0x68++0x3
line.long 0x00 "TOCR,This register is used to mask the tick interrupt for a selected number of ticks."
hexmask.long.tbyte 0x00 0.--23. 1. " OVF_COUNTER_VALUE  ,Number of overflow events"
group.long 0x6C++0x3
line.long 0x00 "TOWR,This register holds the number of masked overflow interrupts."
hexmask.long.tbyte 0x00 0.--23. 1. " OVF_WRAPPING_VALUE ,Number of masked interrupts"
width 0x0B
tree.end
tree.end
tree.end
tree.open "Watchdog_Timer"
tree "WD_TIMER2"
base ad:0x4AE14000
width 13.
rgroup.long 0x0++0x3
line.long 0x00 "WIDR,IP revision identifier"
hexmask.long 0x00 0.--31. 1. " REV           ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "WDSC,This register controls the various parameters of the L4 interface."
bitfld.long 0x00 5. " EMUFREE       ,Emulation mode - Disabled. - Enabled." "Disabled,Enabled"
bitfld.long 0x00 3.--4. "   IDLEMODE    ,Configuration of the local target state management mode. By definition, target can handle read/write transaction as long as it is out of IDLE state. - ForceIdle. - NoIdle. - SmartIdle. - SmartIdleWakeup." "ForceIdle,NoIdle,SmartIdle,SmartIdleWakeup"
bitfld.long 0x00 1. "  SOFTRESET   ,Software reset. (Optional) - ResetCompleted. - ResetCompleted. - ResetOngoing. - ResetOngoing." "ResetCompleted,ResetOngoing"
rgroup.long 0x14++0x3
line.long 0x00 "WDST,This register provides status information about the module."
bitfld.long 0x00 0. " RESETDONE     ,Internal module reset monitoring - Ongoing. - ResetDone." "Ongoing,ResetDone"
group.long 0x18++0x3
line.long 0x00 "WISR,This register shows which interrupt events are pending inside the module."
eventfld.long 0x00 1. " DLY_IT_FLAG   ,Pending delay interrupt status. - Read_0. - Read_0. - Write_1. - Write_1." "Read_0,Write_1"
eventfld.long 0x00 0. "    OVF_IT_FLAG ,Pending overflow interrupt status. - Read_0. - Read_0. - Write_1. - Write_1." "Read_0,Write_1"
group.long 0x1C++0x3
line.long 0x00 "WIER,This register controls (enable/disable) the interrupt events."
bitfld.long 0x00 1. " DLY_IT_ENA    ,Delay interrupt enable/disable - Disabled. - Enabled." "Disabled,Enabled"
bitfld.long 0x00 0. "   OVF_IT_ENA  ,Overflow interrupt enable/disable - Disabled. - Enabled." "Disabled,Enabled"
group.long 0x20++0x3
line.long 0x00 "WWER,This register controls (enable/disable) the wake-up events."
bitfld.long 0x00 1. " DLY_WK_ENA    ,Delay wake-up enable - Disabled. - Enabled." "Disabled,Enabled"
bitfld.long 0x00 0. "   OVF_WK_ENA  ,Overflow wake-up enable - Disabled. - Enabled." "Disabled,Enabled"
group.long 0x24++0x3
line.long 0x00 "WCLR,This register controls the prescaler stage of the counter."
bitfld.long 0x00 5. " PRE           ,Prescaler enable/disable configuration - Disabled. - Enabled." "Disabled,Enabled"
bitfld.long 0x00 2.--4. "   PTV         ,Prescaler value The timer counter is prescaled with the value: 2. Example: PTV = 3 -> counter increases value if started after 8 functional clock periods. On reset, it is loaded from PI_PTV_RESET_VALUE input port." "0,1,2,3,4,5,6,7"
group.long 0x28++0x3
line.long 0x00 "WCRR,This register holds the value of the internal counter."
hexmask.long 0x00 0.--31. 1. " TIMER_COUNTER ,Value of the timer counter register"
group.long 0x2C++0x3
line.long 0x00 "WLDR,This register holds the timer load value."
hexmask.long 0x00 0.--31. 1. " TIMER_LOAD    ,Value of the timer load register"
group.long 0x30++0x3
line.long 0x00 "WTGR,Writing a different value than the one already written in this register does a watchdog counter reload."
hexmask.long 0x00 0.--31. 1. " TTGR_VALUE    ,Value of the trigger register"
rgroup.long 0x34++0x3
line.long 0x00 "WWPS,This register contains the write posting bits for all writeable functional registers."
bitfld.long 0x00 5. " W_PEND_WDLY   ,Write pending for registerWDLY - Ready. - Ready." "Ready,Ready"
bitfld.long 0x00 4. "      W_PEND_WSPR ,Write pending for registerWSPR - Ready. - Ready." "Ready,Ready"
bitfld.long 0x00 3. "            W_PEND_WTGR ,Write pending for registerWTGR - Ready. - Ready." "Ready,Ready"
textline "                      "
bitfld.long 0x00 2. " W_PEND_WLDR   ,Write pending for registerWLDR - Ready. - Ready." "Ready,Ready"
bitfld.long 0x00 1. "      W_PEND_WCRR ,Write pending for registerWCRR - Ready. - Ready." "Ready,Ready"
bitfld.long 0x00 0. "            W_PEND_WCLR ,Write pending for registerWCLR - Ready. - Ready." "Ready,Ready"
group.long 0x44++0x3
line.long 0x00 "WDLY,This register holds the delay value that controls the internal pre-overflow event detection."
hexmask.long 0x00 0.--31. 1. " WDLY_VALUE    ,Value of the delay register"
group.long 0x48++0x3
line.long 0x00 "WSPR,This register holds the start-stop value that controls the internal start-stop FSM."
hexmask.long 0x00 0.--31. 1. " WSPR_VALUE    ,Value of the start-stop register"
group.long 0x50++0x3
line.long 0x00 "WIRQEOI,Software End Of Interrupt"
bitfld.long 0x00 0. " LINE_NUMBER   ,EOI for interrupt output line Reads always 0 (no EOI memory)" "0,1"
group.long 0x54++0x3
line.long 0x00 "WIRQSTATRAW,IRQ unmasked status, status set per-event raw interrupt status vector, line 0. Raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug."
bitfld.long 0x00 1. " EVENT_DLY     ,Settable raw status for delay event - Read_0. - Read_0. - Write_1. - Write_1." "Read_0,Write_1"
bitfld.long 0x00 0. "    EVENT_OVF   ,Settable raw status for overflow event - Read_0. - Read_0. - Write_1. - Write_1." "Read_0,Write_1"
group.long 0x58++0x3
line.long 0x00 "WIRQSTAT,IRQ masked status, status clear per-event enabled interrupt status vector, line 0. Enabled status is not set unless event is enabled. Write 1 to clear the status after interrupt has been serviced (raw status gets cleared, that is, even if not ..."
eventfld.long 0x00 1. " EVENT_DLY     ,Clearable, enabled status for delay event - Read_0. - Read_0. - Write_1. - Write_1." "Read_0,Write_1"
eventfld.long 0x00 0. "    EVENT_OVF   ,Clearable, enabled status for overflow event - Read_0. - Read_0. - Write_1. - Write_1." "Read_0,Write_1"
group.long 0x5C++0x3
line.long 0x00 "WIRQENSET,IRQ enable set per-event interrupt enable bit vector, line 0. Write 1 to set (enable interrupt). Readout equal to corresponding _CLR register."
bitfld.long 0x00 1. " ENABLE_DLY    ,Enable for delay event - Read_0. - Read_0. - Read_1. - Read_1." "Read_0,Read_1"
bitfld.long 0x00 0. "     ENABLE_OVF  ,Enable for overflow event - Read_0. - Read_0. - Read_1. - Read_1." "Read_0,Read_1"
group.long 0x60++0x3
line.long 0x00 "WIRQENCLR,IRQ enable clear per-event interrupt enable bit vector, line 0. Write 1 to clear (disable interrupt). Readout equal to corresponding _SET register."
eventfld.long 0x00 1. " ENABLE_DLY    ,Enable for delay event - Read_0. - Read_0. - Read_1. - Read_1." "Read_0,Read_1"
eventfld.long 0x00 0. "     ENABLE_OVF  ,Enable for overflow event - Read_0. - Read_0. - Read_1. - Read_1." "Read_0,Read_1"
group.long 0x64++0x3
line.long 0x00 "WIRQWAKEEN,This register controls (enable/disable) the wake-up events."
bitfld.long 0x00 1. " DLY_WK_ENA    ,Enable delay wake-up - Disabled. - Enabled." "Disabled,Enabled"
bitfld.long 0x00 0. "   OVF_WK_ENA  ,Enable overflow wakeup - Disabled. - Enabled." "Disabled,Enabled"
width 0x0B
tree.end
tree.end
tree.open "_32_kHz_Synchronized_Timer_COUNTER_32K"
tree "L4_WKUP_COUNTER_32K"
base ad:0x4AE04000
width 11.
rgroup.long 0x0++0x3
line.long 0x00 "REVISION,This register contains the sync counter IP revision code."
hexmask.long 0x00 0.--31. 1. " REVISION      ,IP revision"
group.long 0x10++0x3
line.long 0x00 "SYSCONFIG,This register is used for idle modes only."
hexmask.long 0x00 5.--31. 1. " Reserved      ,Reads return 0."
bitfld.long 0x00 3.--4. "  IDLEMODE ,Power management REQ/ACK control" "IDLEMODE_Value_0,IDLEMODE_Value_1,IDLEMODE_Value_2,IDLEMODE_Value_3"
bitfld.long 0x00 1.--2. "  Reserved ,Reads return 0." "0,1,2,3"
textline "                    "
bitfld.long 0x00 0. " SYNCMODE      ,Synchronization scheme - 0x0 Gray synchronization scheme. Ensures that a stable value of the register is read. . - . - 0x1 Legacy synchronization scheme. . - ." "0,1"
rgroup.long 0x30++0x3
line.long 0x00 "CR,This register contains the 32-kHz sync counter value."
hexmask.long 0x00 0.--31. 1. " COUNTER_VALUE ,Counter register value"
width 0x0B
tree.end
tree.end
tree.open "RTC"
tree "RTC_SS"
base ad:0x48838000
width 24.
group.long 0x0++0x3
line.long 0x00 "RTC_SECONDS_REG,Used to program the required seconds value of the current time. Seconds are stored in BCD format, the decimal numbers are encoded with their binary equivalent. That is, if seconds value is 45, then SEC0 = 5 and SEC1 = 4."
bitfld.long 0x00 4.--6. " SEC1              ,Second digit of seconds. Range is 0 to 5" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--3. "         SEC0             ,First digit of seconds. Range is 0 to 9" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4++0x3
line.long 0x00 "RTC_MINUTES_REG,Used to program the required minutes value of the current time. Minutes are stored in BCD format, the decimal numbers are encoded with their binary equivalent. That is, if minutes value is 32, then MIN0 = 2 and MIN1 = 3."
bitfld.long 0x00 4.--6. " MIN1              ,Second digit of minutes Range is 0 to 5" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--3. "         MIN0             ,First digit of minutes Range is 0 to 9" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x8++0x3
line.long 0x00 "RTC_HOURS_REG,Used to program the hours value of the current time. Hours are stored in BCD format, the decimal numbers are encoded with their binary equivalent. That is, if hour is 18, then HOUR0 = 8 and HOUR1 = 1."
bitfld.long 0x00 7. " PM_NAM            ,Only used in PM_AM mode (otherwise 0) 0 = AM 1 = PM" "0,1"
bitfld.long 0x00 4.--5. "         HOUR1            ,Second digit of hours Range is 0 to 2" "0,1,2,3"
bitfld.long 0x00 0.--3. "   HOUR0          ,First digit of hours Range is 0 to 9" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xC++0x3
line.long 0x00 "RTC_DAYS_REG,Used to program the day of the month value of the current date. Days are stored as BCD format. In BCD format, the decimal numbers 0 through 9 are encoded with their binary equivalent. If the day value of the date is 28, DAY0 is set as 8 an..."
bitfld.long 0x00 4.--5. " DAY1              ,Second digit of days Range from 0 to 3" "0,1,2,3"
bitfld.long 0x00 0.--3. "         DAY0             ,First digit of days Range from 0 to 9" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10++0x3
line.long 0x00 "RTC_MONTHS_REG,MONTHS_REG is used to set the month in the year value of the current date. Months are stored as BCD format. In BCD format, the decimal numbers 0 through 9 are encoded with their binary equivalent."
bitfld.long 0x00 4. " MONTH1            ,Second digit of months Range from 0 to 1" "0,1"
bitfld.long 0x00 0.--3. "         MONTH0           ,First digit of months Range from 0 to 9" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x14++0x3
line.long 0x00 "RTC_YEARS_REG,YEARS_REG is used to program the year value of the current date. The year value is represented by only the last two digits and is stored as BCD format. In BCD format, the decimal numbers 0 through 9 are encoded with their binary equivalen..."
bitfld.long 0x00 4.--7. " YEAR1             ,Second digit of Years Range from 0 to 9" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "        YEAR0            ,First digit of Years Range from 0 to 9" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x18++0x3
line.long 0x00 "RTC_WEEKS_REG,WEEKS_REG is used to program the day of the week value of the current date. The day of the week is stored as BCD format. In BCD format, the decimal numbers 0 through 9 are encoded with their binary equivalent."
bitfld.long 0x00 0.--2. " WEEK              ,First digit of Days in a week Range from 0 (Sunday) to 6 (Saturday)" "0,1,2,3,4,5,6,7"
group.long 0x20++0x3
line.long 0x00 "RTC_ALARM_SECONDS_REG,ALARM_SECONDS_REG is used to program the seconds value for the alarm interrupt. Seconds are stored as BCD format. In BCD format, the decimal numbers 0 through 9 are encoded with their binary equivalent."
bitfld.long 0x00 4.--6. " ALARM_SEC1        ,Second digit of seconds Range is 0 to 5" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--3. "         ALARM_SEC0       ,First digit of seconds Range is 0 to 9" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x24++0x3
line.long 0x00 "RTC_ALARM_MINUTES_REG,ALARM_MINUTES_REG is used to program the minute value for the alarm interrupt. Minutes are stored as BCD format. In BCD format, the decimal numbers 0 through 9 are encoded with their binary equivalent."
bitfld.long 0x00 4.--6. " ALARM_MIN1        ,Second digit of minutes Range is 0 to 5" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--3. "         ALARM_MIN0       ,First digit of minutes Range is 0 to 9" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x28++0x3
line.long 0x00 "RTC_ALARM_HOURS_REG,ALARM_HOURS_REG is used to program the hour value for the alarm interrupt. Hours are stored as BCD format. In BCD format, the decimal numbers 0 through 9 are encoded with their binary equivalent."
bitfld.long 0x00 7. " ALARM_PM_NAM      ,Only used in PM_AM mode (otherwise 0) 0 = AM 1 = PM" "0,1"
bitfld.long 0x00 4.--5. "         ALARM_HOUR1      ,Second digit of hours. Range is 0 to 2" "0,1,2,3"
bitfld.long 0x00 0.--3. "   ALARM_HOUR0    ,First digit of hours. Range is 0 to 9" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x2C++0x3
line.long 0x00 "RTC_ALARM_DAYS_REG,ALARM_DAYS_REG is used to program the day of the month value for the alarm interrupt. Days are stored as BCD format. In BCD format, the decimal numbers 0 through 9 are encoded with their binary equivalent."
bitfld.long 0x00 4.--5. " ALARM_DAY1        ,Second digit for days. Range from 0 to 3" "0,1,2,3"
bitfld.long 0x00 0.--3. "         ALARM_DAY0       ,First digit for days. Range from 0 to 9" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x30++0x3
line.long 0x00 "RTC_ALARM_MONTHS_REG,ALARM_MONTHS_REG is used to program the month in the year value for the alarm interrupt. The month is stored as BCD format. In BCD format, the decimal numbers 0 through 9 are encoded with their binary equivalent"
bitfld.long 0x00 4. " ALARM_MONTH1      ,Second digit of months. Range from 0 to 1" "0,1"
bitfld.long 0x00 0.--3. "         ALARM_MONTH0     ,First digit of months. Range from 0 to 9" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x34++0x3
line.long 0x00 "RTC_ALARM_YEARS_REG,ALARM_YEARS_REG is used to program the year for the alarm interrupt. Only the last two digits are used to represent the year and is stored as BCD format. In BCD format, the decimal numbers 0 through 9 are encoded with their binary e..."
bitfld.long 0x00 4.--7. " ALARM_YEAR1       ,Second digit of years. Range from 0 to 9" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "        ALARM_YEAR0      ,First digit of years. Range from 0 to 9" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x40++0x3
line.long 0x00 "RTC_CTRL_REG,CTRL_REG contains the controls to enable/disable RTC."
bitfld.long 0x00 6. " RTC_DISABLE       ,0: RTC enable 1: RTC disable (no 32-kHz clock)" "0,1"
bitfld.long 0x00 5. "         SET_32_COUNTER   ,0: No action 1: Set the 32-kHz counter with comp_reg value" "0,1"
bitfld.long 0x00 4. "   TEST_MODE      ,0: Functional mode 1: Test mode (Auto compensation is enabled when the 32-kHz counter reaches its end.)" "0,1"
textline "                                 "
bitfld.long 0x00 3. " MODE_12_24        ,0: 24-hour mode 1: 12-hour mode (PM-AM mode)" "0,1"
bitfld.long 0x00 2. "         AUTO_COMP        ,0: No auto compensation 1: Auto compensation enabled" "0,1"
bitfld.long 0x00 1. "   ROUND_30S      ,0: No update 1: When a 1 is written, the time is rounded to the closest minute." "0,1"
textline "                                 "
bitfld.long 0x00 0. " STOP_RTC          ,0: RTC is frozen. 1: RTC is running." "0,1"
group.long 0x44++0x3
line.long 0x00 "RTC_STATUS_REG,RTC STATUS_REG contains bits that signal the status of interrupts, events to the processor. Status for the alarm interrupt and timer events are notified by the register."
bitfld.long 0x00 7. " ALARM2            ,Indicates that an alarm2 interrupt has been generated. Software must wait 31 ?s before it clears this status to allow PMIC_PWR_ENABLE 1 - 0 transmission." "0,1"
bitfld.long 0x00 6. "         ALARM            ,Indicates that an alarm interrupt has been generated. Writing 1 to the bit clears the interrupt." "0,1"
bitfld.long 0x00 5. "   EVENT_1D       ,One day has occurred." "0,1"
textline "                                 "
bitfld.long 0x00 4. " EVENT_1H          ,One hour has occurred." "0,1"
bitfld.long 0x00 3. "         EVENT_1M         ,One minute has occurred." "0,1"
bitfld.long 0x00 2. "   EVENT_1S       ,One second has occurred." "0,1"
textline "                                 "
bitfld.long 0x00 1. " RUN               ,0: RTC is frozen. 1: RTC is running." "0,1"
bitfld.long 0x00 0. "         BUSY             ,0: Updating event in more than 15 ?s. 1: Updating event. This bit will give the status of RTC module. The time and alarm registers can be modified only when this bit is 0." "0,1"
group.long 0x48++0x3
line.long 0x00 "RTC_INTERRUPTS_REG,INTERRUPTS_REG is used to enable or disable RTC from generating interrupts. The timer interrupt and alarm interrupt can be controlled using this register."
bitfld.long 0x00 4. " IT_ALARM2         ,Enable one interrupt when the alarm value is reached (TC ALARM2 registers) by the TC registers" "0,1"
bitfld.long 0x00 3. "         IT_ALARM         ,Enable one interrupt when the alarm value is reached (TC ALARM registers) by the TC registers" "0,1"
bitfld.long 0x00 2. "   IT_TIMER       ,Enable periodic interrupt 0 = interrupt disabled 1 = interrupt enabled" "0,1"
textline "                                 "
bitfld.long 0x00 0.--1. " EVERY             ,Interrupt period: 0 - every second 1 - every minute 2 - every hour 3 - every day" "0,1,2,3"
group.long 0x4C++0x3
line.long 0x00 "RTC_COMP_LSB_REG,COMP_LSB_REG is used to program the LSB value of the 32-kHz periods to be added to the 32-kHz counter every hour. This is used to compensate the oscillator drift. The COMP_LSB_REG works with the compensation (MSB) register (COMP_MSB_RE..."
hexmask.long.byte 0x00 0.--7. 1. " RTC_COMP_LSB      ,Indicates number of 32-kHz periods to be added into the 32-kHz counter every hour."
group.long 0x50++0x3
line.long 0x00 "RTC_COMP_MSB_REG,COMP_MSB_REG is used to program the MSB value of the 32-kHz periods to be added to the 32-kHz counter every hour. This is used to compensate the oscillator drift. The COMP_MSB_REG works with the compensation (LSB) register (COMP_LSB_RE..."
hexmask.long.byte 0x00 0.--7. 1. " RTC_COMP_MSB      ,Indicates number of 32-kHz periods to be added into the 32-kHz counter every hour"
group.long 0x54++0x3
line.long 0x00 "RTC_OSC_REG,OSC_REG is used to program the oscillator resistance value, and to select and enable the clock source."
bitfld.long 0x00 6. " K32CLK_EN         ,32-kHz clock enable post clock mux of rtc_32k_clk_rtc_32k_aux_clk and rtc_32k_clk_rtc_32k_clk." "0,1"
bitfld.long 0x00 4. "         OSC32K_GZ        ,Disable the oscillator and applies high impedance to the output. 0: Enable 1: Disabled and high impedance" "0,1"
bitfld.long 0x00 3. "   K32CLK_SEL     ,32khz clock source select. 0: Selects internal clock source, namely rtc_32k_clk_rtc_32k_aux_clk. 1: Selects external clock source namely rtc_32k_clk_rtc_32k_clk, from the 32KHz Osc." "0,1"
textline "                                 "
bitfld.long 0x00 2. " RES_SELECT        ,External feedback resistor selection. 0: Internal 1: External" "0,1"
bitfld.long 0x00 1. "         SW2              ,Inverter size adjustment." "0,1"
bitfld.long 0x00 0. "   SW1            ,Inverter size adjustment." "0,1"
group.long 0x60++0x3
line.long 0x00 "RTC_SCRATCH0_REG,Used to hold some required values for the RTC register."
hexmask.long 0x00 0.--31. 1. " RTCSCRATCH0       ,Scratch registers, available to program."
group.long 0x64++0x3
line.long 0x00 "RTC_SCRATCH1_REG,Used to hold some required values for the RTC register."
hexmask.long 0x00 0.--31. 1. " RTCSCRATCH1       ,Scratch registers, available to program"
group.long 0x68++0x3
line.long 0x00 "RTC_SCRATCH2_REG,Used to hold some required values for the RTC register."
hexmask.long 0x00 0.--31. 1. " RTCSCRATCH2       ,Scratch registers, available to program."
wgroup.long 0x6C++0x3
line.long 0x00 "RTC_KICK0_REG,The KICK0 register allows writing to unlock the kick0 data. To disable RTC register write protection, the value of 83E7 0B13h must be written to KICK0R, followed by the value of 95A4 F1E0h written to KICK1R. RTC register write protection ..."
hexmask.long 0x00 0.--31. 1. " KICK0             ,Kick0 data."
wgroup.long 0x70++0x3
line.long 0x00 "RTC_KICK1_REG,Kick1 data. The KICK1 register allows writing to unlock the kick1 data and the kicker mechanism to write to other MMRs. To disable RTC register write protection, the value of 83E7 0B13h must be written to KICK0R, followed by the value of ..."
hexmask.long 0x00 0.--31. 1. " KICK1             ,Kick1 data."
rgroup.long 0x74++0x3
line.long 0x00 "RTC_REVISION_REG,"
hexmask.long 0x00 0.--31. 1. " REVISION          ,IP Revision"
group.long 0x78++0x3
line.long 0x00 "RTC_SYSCONFIG_REG,"
bitfld.long 0x00 0.--1. " IDLEMODE          ,Configuration of the local target state management mode, By definition target can handle read/write transaction as long as it is out of IDLE state. - . - . - . - ." "0,1,2,3"
group.long 0x7C++0x3
line.long 0x00 "RTC_IRQWAKEEN,"
bitfld.long 0x00 1. " ALARM_WAKEEN      ,Wakeup generation for event Alarm 0: Wakeup disabled 1: Wakeup enable" "0,1"
bitfld.long 0x00 0. "         TIMMER_WAKEEN    ,Wakeup generation for event Timer 0: Wakeup disabled 1: Wakeup enable Timer wakeup should not get used." "0,1"
group.long 0x80++0x3
line.long 0x00 "RTC_ALARM2_SECONDS_REG,ALARM2_SECONDS_REG is used to program the seconds value of the ALARM2 time"
bitfld.long 0x00 4.--6. " ALARM2_SEC1       ,Second digit of seconds Range is 0 to 5" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--3. "         ALARM2_SEC0      ,First digit of seconds Range is 0 to 9" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x84++0x3
line.long 0x00 "RTC_ALARM2_MINUTES_REG,"
bitfld.long 0x00 4.--6. " ALARM2_MIN1       ,Second digit of minutes Range is 0 to 5" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--3. "         ALARM2_MIN0      ,First digit of minutes Range is 0 to 9" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x88++0x3
line.long 0x00 "RTC_ALARM2_HOURS_REG,"
bitfld.long 0x00 7. " ALARM2_PM_NAM     ,Only used in PM_AM mode (otherwise 0) 0 = AM 1 = PM" "0,1"
bitfld.long 0x00 4.--5. "         ALARM2_HOUR1     ,Second digit of hours Range is 0 to 2" "0,1,2,3"
bitfld.long 0x00 0.--3. "   ALARM2_HOUR0   ,First digit of hours Range is 0 to 9" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x8C++0x3
line.long 0x00 "RTC_ALARM2_DAYS_REG,"
bitfld.long 0x00 4.--5. " ALARM_DAY1        ,Second digit for days Range from 0 to 3" "0,1,2,3"
bitfld.long 0x00 0.--3. "         ALARM_DAY0       ,First digit for days Range from 0 to 9" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x90++0x3
line.long 0x00 "RTC_ALARM2_MONTHS_REG,"
bitfld.long 0x00 4. " ALARM2_MONTH1     ,Second digit of months Range from 0 to 1" "0,1"
bitfld.long 0x00 0.--3. "         ALARM2_MONTH0    ,First digit of months Range from 0 to 9" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x94++0x3
line.long 0x00 "RTC_ALARM2_YEARS_REG,"
bitfld.long 0x00 4.--7. " ALARM2_YEAR1      ,Second digit of Years Range from 0 to 9" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "        ALARM2_YEAR0     ,First digit of Years Range from 0 to 9" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x98++0x3
line.long 0x00 "RTC_PMIC_REG,"
bitfld.long 0x00 19.--22. " EXT_WAKEUP_POL_HL ,External wakeup inputs polarity enable for Active High and Active Low 0: Disabled 1: Enabled, Active High and Active Low EXT_WAKEUP_POL_HL[0] controls ext_wakeup0; EXT_WAKEUP_POL_HL[N] controls ext_wakeup n ; Note when enabled EXT_W..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 17.--18. "        PWR_ENABLE_SM    ,Power State Machine state 00 = Idle/Default 01 = Shutdown (ALARM2 and pwr_enable enable is set, note 31uS latency from ALARM2 event.) 10 = Time based wakeup (ALARM status is set) 11 = External event based wakeup (one or more b..." "0,1,2,3"
bitfld.long 0x00 16. "   PWR_ENABLE_EN  ,pwr_enable enable 0: Disable When Disabled, PMIC_PWR_ENABLE will always be drive 1, ON state 1: Enable When enabled: PMIC_PWR_ENABLE will be controlled by ext_wakeup 3:0 , alarm , and alarm2. ON - OFF (Turn OFF) By ALARM2 event OFF -..." "0,1"
textline "                                 "
bitfld.long 0x00 12.--15. " EXT_WAKEUP_STATUS ,External wakeup status 0: External wakeup event has not occurred 1: External wakeup event has occurred Wrt 1 to Clear EXT_WAKEUP_STATUS[0] status of ext_wakeup0 event EXT_WAKEUP_STATUS[N] status of ext_wakeup n event. SW must clear ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "        EXT_WAKEUP_DB_EN ,External wakeup debounce enabled 0: Disable 1: Enable EXT_WAKEUP_DB_EN[0] controls ext_wakeup0; EXT_WAKEUP_DB_EN[N] controls ext_wakeup n ; When enabled RTL_DEBOUNCE_REG defines the debounce time." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 4.--7. "  EXT_WAKEUP_POL ,External wakeup inputs polarity 0: Active High 1: Active Low EXT_WAKEUP_POL[0] controls ext_wakeup0; EXT_WAKEUP_POL[N] controls ext_wakeup n ;" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                 "
bitfld.long 0x00 0.--3. " EXT_WAKEUP_EN     ,Enable External wakeup inputs 0: Ext Wakeup disabled 1: Ext Wakeup enable EXT_WAKEUP_EN[0] controls ext_wakeup0; EXT_WAKEUP_EN[N] controls ext_wakeup n ;" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x9C++0x3
line.long 0x00 "RTC_RTL_DEBOUNCE_REG,"
hexmask.long.byte 0x00 0.--7. 1. " DEBOUNCE_REG      ,Debounce time, see for details."
width 0x0B
tree.end
tree.end
tree.open "Multimaster_High_Speed_I2C_Controller"
tree.open "I2C3"
tree "I2C3"
base ad:0x48060000
width 21.
rgroup.word 0x0++0x1
line.word 0x00 "I2C_REVNB_LO,IP Revision Identifier (X.Y.R) Used by software to track features, bugs, and compatibility"
hexmask.word 0x00 0.--15. 1. " REVISION           ,IP Revision"
rgroup.word 0x4++0x1
line.word 0x00 "I2C_REVNB_HI,IP Revision Identifier (X.Y.R) Used by software to track features, bugs, and compatibility"
hexmask.word 0x00 0.--15. 1. " REVISION           ,IP Revision"
group.word 0x10++0x1
line.word 0x00 "I2C_SYSC,System Configuration register"
bitfld.word 0x00 8.--9. " CLKACTIVITY        ,Clock Activity selection bits - boothoff. - ocpon. - boothon. - syson." "boothoff,ocpon,boothon,syson"
bitfld.word 0x00 3.--4. "        IDLEMODE   ,Idle Mode selection bits - smartidle. - smartidle_wakeup. - smartidle_wakeup. - smartidle." "smartidle,smartidle_wakeup,smartidle_wakeup,smartidle"
bitfld.word 0x00 2. "  ENAWAKEUP  ,Enable Wakeup control bit - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 1. " SRST               ,SoftReset bit - nmode. - rstmode." "nmode,rstmode"
bitfld.word 0x00 0. "         AUTOIDLE   ,Autoidle bit - disable. - enable." "disable,enable"
wgroup.word 0x20++0x1
line.word 0x00 "I2C_EOI,End Of Interrupt number specification"
bitfld.word 0x00 0. " LINE_NUMBER        ,Software End Of Interrupt (EOI) control. Write number of interrupt output." "0,1"
group.word 0x24++0x1
line.word 0x00 "I2C_IRQSTATUS_RAW,Per-event raw interrupt status vector. The raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug"
bitfld.word 0x00 14. " XDR                ,Transmit draining IRQ status. - clear. - set." "clear,set"
bitfld.word 0x00 13. "           RDR        ,Receive draining IRQ status. - clear. - set." "clear,set"
bitfld.word 0x00 12. "             BB         ,Bus busy status. Writing into this bit has no effect. - set. - clear." "clear,set"
textline "                          "
bitfld.word 0x00 11. " ROVR               ,Receive overrun status. Writing into this bit has no effect. - set. - clear." "clear,set"
bitfld.word 0x00 10. "           XUDF       ,Transmit underflow status. Writing into this bit has no effect. - set. - clear." "clear,set"
bitfld.word 0x00 9. "             AAS        ,Address recognized as slave IRQ status. - clear. - set." "clear,set"
textline "                          "
bitfld.word 0x00 8. " BF                 ,Bus Free IRQ status. - clear. - set." "clear,set"
bitfld.word 0x00 7. "           AERR       ,Access Error IRQ status. - clear. - set." "clear,set"
bitfld.word 0x00 6. "             STC        ,Start Condition IRQ status. - clear. - set." "clear,set"
textline "                          "
bitfld.word 0x00 5. " GC                 ,General call IRQ status. Set to 1 by core when General call address detected and interrupt signaled to IRQ_Crossbar. - clear. - set." "clear,set"
bitfld.word 0x00 4. "           XRDY       ,Transmit data ready IRQ status. Set to 1 by core when transmitter and when new data is requested. When set to 1 by core, an interrupt is signaled to IRQ_Crossbar. - clear. - set." "clear,set"
bitfld.word 0x00 3. "             RRDY       ,Receive data ready IRQ status. Set to 1 by core when receiver mode, a new data is able to be read. When set to 1 by core, an interrupt is signaled to IRQ_Crossbar. - clear. - set." "clear,set"
textline "                          "
bitfld.word 0x00 2. " ARDY               ,Register access ready IRQ status. When set to 1 it indicates that previous access has been performed and registers are ready to be accessed again. An interrupt is signaled to IRQ_Crossbar. - clear. - set." "clear,set"
bitfld.word 0x00 1. "           NACK       ,No acknowledgement IRQ status. Bit is set when No Acknowledge has been received, an interrupt is signaled to IRQ_Crossbar. - clear. - set." "clear,set"
bitfld.word 0x00 0. "             AL         ,Arbitration lost IRQ status. This bit is automatically set by the hardware when it loses the Arbitration in master transmit mode, an interrupt is signaled to IRQ_Crossbar. During reads, it always returns 0. - clear. - set." "clear,set"
group.word 0x28++0x1
line.word 0x00 "I2C_IRQSTATUS,Per-event enabled interrupt status vector"
eventfld.word 0x00 14. " XDR                ,Transmit draining IRQ enabled status. - clear. - set." "clear,set"
eventfld.word 0x00 13. "           RDR        ,Receive draining IRQ enabled status. - clear. - set." "clear,set"
bitfld.word 0x00 12. "             BB         ,Bus busy enabled status. Writing into this bit has no effect. - set. - clear." "clear,set"
textline "                          "
eventfld.word 0x00 11. " ROVR               ,Receive overrun enabled status. Writing into this bit has no effect. - set. - clear." "clear,set"
eventfld.word 0x00 10. "           XUDF       ,Transmit underflow enabled status. Writing into this bit has no effect. - set. - clear." "clear,set"
eventfld.word 0x00 9. "             AAS        ,Address recognized as slave IRQ enabled status. - clear. - set." "clear,set"
textline "                          "
eventfld.word 0x00 8. " BF                 ,Bus Free IRQ enabled status. - clear. - set." "clear,set"
eventfld.word 0x00 7. "           AERR       ,Access Error IRQ enabled status. - clear. - set." "clear,set"
eventfld.word 0x00 6. "             STC        ,Start Condition IRQ enabled status. - clear. - set." "clear,set"
textline "                          "
eventfld.word 0x00 5. " GC                 ,General call IRQ enabled status. Set to 1 by core when General call address detected and interrupt signaled to IRQ_Crossbar. Write 1 to clear. - clear. - set." "clear,set"
eventfld.word 0x00 4. "           XRDY       ,Transmit data ready IRQ enabled status. Set to 1 by core when transmitter and when new data is requested. When set to 1 by core, an interrupt is signaled to IRQ_Crossbar. Write 1 to clear. - clear. - set." "clear,set"
eventfld.word 0x00 3. "             RRDY       ,Receive data ready IRQ enabled status. Set to 1 by core when receiver mode, a new data is able to be read. When set to 1 by core, an interrupt is signaled to IRQ_Crossbar. Write 1 to clear. - clear. - set." "clear,set"
textline "                          "
eventfld.word 0x00 2. " ARDY               ,Register access ready IRQ enabled status. When set to 1 it indicates that previous access has been performed and registers are ready to be accessed again. An interrupt is signaled to IRQ_Crossbar. Write 1 to clear. - clear. - set." "clear,set"
eventfld.word 0x00 1. "           NACK       ,No acknowledgement IRQ enabled status. Bit is set when No Acknowledge has been received, an interrupt is signaled to IRQ_Crossbar. Write 1 to clear this bit. - clear. - set." "clear,set"
eventfld.word 0x00 0. "             AL         ,Arbitration lost IRQ enabled status. This bit is automatically set by the hardware when it loses the Arbitration in master transmit mode, an interrupt is signaled to IRQ_Crossbar. During reads, it always returns 0. - clear. - set." "clear,set"
group.word 0x2C++0x1
line.word 0x00 "I2C_IRQENABLE_SET,Per-event interrupt enable bit vector."
bitfld.word 0x00 14. " XDR_IE             ,Transmit Draining interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW[XDR].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 13. "         RDR_IE     ,Receive Draining interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [RDR].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 11. "           ROVR       ,Receive overrun enable set.Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 10. " XUDF               ,Transmit underflow enable set.Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 9. "         AAS_IE     ,Addressed as Slave interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [AAS].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 8. "           BF_IE      ,Bus Free interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [BF].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 7. " AERR_IE            ,Access Error interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [AERR].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 6. "         STC_IE     ,Start Condition interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [STC].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 5. "           GC_IE      ,General call Interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [GC]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 4. " XRDY_IE            ,Transmit data ready interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [XRDY]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 3. "         RRDY_IE    ,Receive data ready interrupt enable set. Unmask the interrupt signaled by bit in I2C_IRQSTTUS_RAW [RRDY]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 2. "           ARDY_IE    ,Register access ready interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [ARDY]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 1. " NACK_IE            ,No acknowledgement interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [NACK]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 0. "         AL_IE      ,Arbitration lost interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [AL]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
group.word 0x30++0x1
line.word 0x00 "I2C_IRQENABLE_CLR,Per-event interrupt clear bit vector."
eventfld.word 0x00 14. " XDR_IE             ,Transmit Draining interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [XDR].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 13. "         RDR_IE     ,Receive Draining interrupt enable clear. Mask the interrupt signaled by bit in I2C_IRQSTAUS_RAW [RDR].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 11. "           ROVR       ,Receive overrun enable clear.Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
eventfld.word 0x00 10. " XUDF               ,Transmit underflow enable clear.Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 9. "         AAS_IE     ,Addressed as Slave interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [AAS].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 8. "           BF_IE      ,Bus Free interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [BF].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
eventfld.word 0x00 7. " AERR_IE            ,Access Error interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [AERR].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 6. "         STC_IE     ,Start Condition interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [STC].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 5. "           GC_IE      ,General call Interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [GC]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
eventfld.word 0x00 4. " XRDY_IE            ,Transmit data ready interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [XRDY]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 3. "         RRDY_IE    ,Receive data ready interrupt enable clear. Mask the interrupt signaled by bit in I2C_IRQSTAUS_RAW [RRDY]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 2. "           ARDY_IE    ,Register access ready interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [ARDY]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
eventfld.word 0x00 1. " NACK_IE            ,No acknowledgement interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [NACK]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 0. "         AL_IE      ,Arbitration lost interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW[AL]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
group.word 0x34++0x1
line.word 0x00 "I2C_WE,I2C wakeup enable vector."
bitfld.word 0x00 14. " XDR                ,Transmit Draining wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 13. "         RDR        ,Receive Draining wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 11. "           ROVR       ,Receive overrun wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 10. " XUDF               ,Transmit underflow wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 9. "         AAS        ,Address as slave IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 8. "           BF         ,Bus Free IRQ wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 6. " STC                ,Start Condition IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 5. "         GC         ,General call IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 3. "           DRDY       ,Receive/Transmit data ready IRQ wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 2. " ARDY               ,Register access ready IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 1. "         NACK       ,No acknowledgment IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 0. "           AL         ,Arbitration lost IRQ wakeup set. - disable. - enable." "disable,enable"
group.word 0x38++0x1
line.word 0x00 "I2C_DMARXENABLE_SET,Per-event DMA RX enable set."
bitfld.word 0x00 0. " DMARX_ENABLE_SET   ,Receive DMA channel enable set." "Disabled,Enabled"
group.word 0x3C++0x1
line.word 0x00 "I2C_DMATXENABLE_SET,Per-event DMA TX enable set."
bitfld.word 0x00 0. " DMATX_ENABLE_SET   ,Transmit DMA channel enable set." "Disabled,Enabled"
group.word 0x40++0x1
line.word 0x00 "I2C_DMARXENABLE_CLR,Per-event DMA RX enable clear."
bitfld.word 0x00 0. " DMARX_ENABLE_CLEAR ,Receive DMA channel enable clear." "No_effect,Cleared"
group.word 0x44++0x1
line.word 0x00 "I2C_DMATXENABLE_CLR,Per-event DMA TX enable clear."
bitfld.word 0x00 0. " DMATX_ENABLE_CLEAR ,Transmit DMA channel enable clear." "No_effect,Cleared"
group.word 0x48++0x1
line.word 0x00 "I2C_DMARXWAKE_EN,Per-event DMA RX wakeup enable."
bitfld.word 0x00 14. " XDR                ,Transmit Draining wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 13. "         RDR        ,Receive Draining wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 11. "           ROVR       ,Receive overrun wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 10. " XUDF               ,Transmit underflow wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 9. "         AAS        ,Address as slave IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 8. "           BF         ,Bus Free IRQ wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 6. " STC                ,Start Condition IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 5. "         GC         ,General call IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 3. "           DRDY       ,Receive/Transmit data ready IRQ wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 2. " ARDY               ,Register access ready IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 1. "         NACK       ,No acknowledgment IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 0. "           AL         ,Arbitration lost IRQ wakeup set. - disable. - enable." "disable,enable"
group.word 0x4C++0x1
line.word 0x00 "I2C_DMATXWAKE_EN,Per-event DMA TX wakeup enable."
bitfld.word 0x00 14. " XDR                ,Transmit Draining wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 13. "         RDR        ,Receive Draining wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 11. "           ROVR       ,Receive overrun wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 10. " XUDF               ,Transmit underflow wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 9. "         AAS        ,Address as slave IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 8. "           BF         ,Bus Free IRQ wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 6. " STC                ,Start Condition IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 5. "         GC         ,General call IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 3. "           DRDY       ,Receive/Transmit data ready IRQ wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 2. " ARDY               ,Register access ready IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 1. "         NACK       ,No acknowledgment IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 0. "           AL         ,Arbitration lost IRQ wakeup set. - disable. - enable." "disable,enable"
group.word 0x90++0x1
line.word 0x00 "I2C_SYSS,System Status register"
bitfld.word 0x00 0. " RDONE              ,Reset done bit - rstcomp. - rstongoing." "rstongoing,rstcomp"
group.word 0x94++0x1
line.word 0x00 "I2C_BUF,Buffer Configuration register"
bitfld.word 0x00 15. " RDMA_EN            ,Receive DMA channel enable - disable. - enable." "disable,enable"
bitfld.word 0x00 14. "         RXFIFO_CLR ,Receive FIFO clear - nmode. - rstmode." "nmode,rstmode"
bitfld.word 0x00 8.--13. "           RXTRSH     ,Threshold value for FIFO buffer in RX mode" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                          "
bitfld.word 0x00 7. " XDMA_EN            ,Transmit DMA channel enable - disable. - enable." "disable,enable"
bitfld.word 0x00 6. "         TXFIFO_CLR ,Transmit FIFO clear - nmode. - rstmode." "nmode,rstmode"
bitfld.word 0x00 0.--5. "           TXTRSH     ,Threshold value for FIFO buffer in TX mode" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.word 0x98++0x1
line.word 0x00 "I2C_CNT,Data counter register"
hexmask.word 0x00 0.--15. 1. " DCOUNT             ,Data count"
group.word 0x9C++0x1
line.word 0x00 "I2C_DATA,Data access register"
hexmask.word.byte 0x00 0.--7. 1. " DATA               ,Transmit/Receive data FIFO endpoint"
group.word 0xA4++0x1
line.word 0x00 "I2C_CON,I2C configuration register."
bitfld.word 0x00 15. " I2C_EN             ,I2C module enable. - disable. - enable." "disable,enable"
bitfld.word 0x00 12.--13. "         OPMODE     ,Operation mode selection. - fsi2c. - hsi2c. - reserved. - sccb." "fsi2c,hsi2c,sccb,reserved"
bitfld.word 0x00 11. "          STB        ,Start byte mode (master mode only). - normal. - stb." "normal,stb"
textline "                          "
bitfld.word 0x00 10. " MST                ,Master/slave mode. - slv. - mst." "slv,mst"
bitfld.word 0x00 9. "             TRX        ,Transmitter/Receiver mode (master mode only). - rcv. - trx." "rcv,trx"
bitfld.word 0x00 8. "               XSA        ,Expand Slave address. - b07. - b10." "b07,b10"
textline "                          "
bitfld.word 0x00 7. " XOA0               ,Expand Own address 0. - b07. - b10." "b07,b10"
bitfld.word 0x00 6. "             XOA1       ,Expand Own address 1. - b07. - b10." "b07,b10"
bitfld.word 0x00 5. "               XOA2       ,Expand Own address 2. - b07. - b10." "b07,b10"
textline "                          "
bitfld.word 0x00 4. " XOA3               ,Expand Own address 3. - b07. - b10." "b07,b10"
bitfld.word 0x00 1. "             STP        ,Stop condition (master mode only). - nstp. - stp." "nstp,stp"
bitfld.word 0x00 0. "              STT        ,Start condition (master mode only). - nstt. - stt." "nstt,stt"
group.word 0xA8++0x1
line.word 0x00 "I2C_OA,Own address register"
bitfld.word 0x00 13.--15. " MCODE              ,Master Code" "0,1,2,3,4,5,6,7"
hexmask.word 0x00 0.--9. 1. "               OA         ,Own address"
group.word 0xAC++0x1
line.word 0x00 "I2C_SA,Slave address register"
hexmask.word 0x00 0.--9. 1. " SA                 ,Slave address"
group.word 0xB0++0x1
line.word 0x00 "I2C_PSC,I2C Clock Prescaler Register"
hexmask.word.byte 0x00 0.--7. 1. " PSC                ,Fast/Standard mode prescale sampling clock divider value 0x0: Divide by 1 0x1: Divide by 2 .............................. 0xFF: Divide by 256"
group.word 0xB4++0x1
line.word 0x00 "I2C_SCLL,I2C SCL Low Time Register."
hexmask.word.byte 0x00 8.--15. 1. " HSSCLL             ,High speed mode SCL low time - The value of the bit field is automatically increased by 7. . - ."
hexmask.word.byte 0x00 0.--7. 1. "              SCLL       ,Fast/standard mode SCL low time - The value of the bit field is automatically increased by 7. . - ."
group.word 0xB8++0x1
line.word 0x00 "I2C_SCLH,I2C SCL High Time Register."
hexmask.word.byte 0x00 8.--15. 1. " HSSCLH             ,High speed mode SCL high time - The value of the bit field is automatically increased by 5. . - ."
hexmask.word.byte 0x00 0.--7. 1. "              SCLH       ,Fast/standard mode SCL high time - The value of the bit field is automatically increased by 5. . - ."
group.word 0xBC++0x1
line.word 0x00 "I2C_SYSTEST,I2C System Test Register."
bitfld.word 0x00 15. " ST_EN              ,System test enable. - disable. - enable." "disable,enable"
bitfld.word 0x00 14. "         FREE       ,Free running mode (on breakpoint) - stop. - free." "stop,free"
bitfld.word 0x00 12.--13. "              TMODE      ,Test mode select. - functional. - reserved. - loopback. - test." "functional,reserved,test,loopback"
textline "                          "
bitfld.word 0x00 11. " SSB                ,Set all status bits inI2C_IRQSTATUS_RAW [14:0]. - noaction. - setstatus." "noaction,setstatus"
bitfld.word 0x00 8. "       SCL_I_FUNC ,SCL line input value (functional mode). - sclih. - sclil." "sclil,sclih"
bitfld.word 0x00 7. "             SCL_O_FUNC ,SCL line output value (functional mode). - sclih. - sclil." "sclil,sclih"
textline "                          "
bitfld.word 0x00 6. " SDA_I_FUNC         ,SDA line input value (functional mode). - sdaih. - sdail." "sdail,sdaih"
bitfld.word 0x00 5. "           SDA_O_FUNC ,SDA line output value (functional mode). - sdaoh. - sdaol." "sdaol,sdaoh"
bitfld.word 0x00 3. "             SCL_I      ,SCL line sense input value - sclih. - sclil." "sclil,sclih"
textline "                          "
bitfld.word 0x00 2. " SCL_O              ,SCL line drive output value. - sclol. - scloh." "sclol,scloh"
bitfld.word 0x00 1. "           SDA_I      ,SDA line sense input value. - sdaih. - sdail." "sdail,sdaih"
bitfld.word 0x00 0. "             SDA_O      ,SDA line drive output value. - sdaol. - sdaoh." "sdaol,sdaoh"
rgroup.word 0xC0++0x1
line.word 0x00 "I2C_BUFSTAT,I2C Buffer Status Register."
bitfld.word 0x00 14.--15. " FIFODEPTH          ,Internal FIFO buffers depth. - . - . - . - ." "8-bytes_FIFO.,16-bytes_FIFO.,32-bytes_FIFO.,64-bytes_FIFO."
bitfld.word 0x00 8.--13. "  RXSTAT     ,RX Buffer Status" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.word 0x00 0.--5. "                TXSTAT     ,TX Buffer Status." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.word 0xC4++0x1
line.word 0x00 "I2C_OA1,I2C Own Address 1 Register"
hexmask.word 0x00 0.--9. 1. " OA1                ,Own address 1"
group.word 0xC8++0x1
line.word 0x00 "I2C_OA2,I2C Own Address 2 Register"
hexmask.word 0x00 0.--9. 1. " OA2                ,Own address 2"
group.word 0xCC++0x1
line.word 0x00 "I2C_OA3,I2C Own Address 3 Register"
hexmask.word 0x00 0.--9. 1. " OA3                ,Own address 3"
rgroup.word 0xD0++0x1
line.word 0x00 "I2C_ACTOA,I2C Active Own Address Register."
bitfld.word 0x00 3. " OA3_ACT            ,Own Address 3 active. - active. - inactive." "inactive,active"
bitfld.word 0x00 2. "        OA2_ACT    ,Own Address 2 active. - active. - inactive." "inactive,active"
bitfld.word 0x00 1. "          OA1_ACT    ,Own Address 1 active. - active. - inactive." "inactive,active"
textline "                          "
bitfld.word 0x00 0. " OA0_ACT            ,Own Address 0 active. - active. - inactive." "inactive,active"
group.word 0xD4++0x1
line.word 0x00 "I2C_SBLOCK,I2C Clock Blocking Enable Register."
bitfld.word 0x00 3. " OA3_EN             ,Enable I2C Clock Blocking for Own Address 3. - unlock. - lock." "unlock,lock"
bitfld.word 0x00 2. "          OA2_EN     ,Enable I2C Clock Blocking for Own Address 2. - unlock. - lock." "unlock,lock"
bitfld.word 0x00 1. "            OA1_EN     ,Enable I2C Clock Blocking for Own Address 1. - unlock. - lock." "unlock,lock"
textline "                          "
bitfld.word 0x00 0. " OA0_EN             ,Enable I2C Clock Blocking for Own Address 0. - unlock. - lock." "unlock,lock"
width 0x0B
tree.end
tree "I2C1"
base ad:0x48070000
width 21.
rgroup.word 0x0++0x1
line.word 0x00 "I2C_REVNB_LO,IP Revision Identifier (X.Y.R) Used by software to track features, bugs, and compatibility"
hexmask.word 0x00 0.--15. 1. " REVISION           ,IP Revision"
rgroup.word 0x4++0x1
line.word 0x00 "I2C_REVNB_HI,IP Revision Identifier (X.Y.R) Used by software to track features, bugs, and compatibility"
hexmask.word 0x00 0.--15. 1. " REVISION           ,IP Revision"
group.word 0x10++0x1
line.word 0x00 "I2C_SYSC,System Configuration register"
bitfld.word 0x00 8.--9. " CLKACTIVITY        ,Clock Activity selection bits - boothoff. - ocpon. - boothon. - syson." "boothoff,ocpon,boothon,syson"
bitfld.word 0x00 3.--4. "        IDLEMODE   ,Idle Mode selection bits - smartidle. - smartidle_wakeup. - smartidle_wakeup. - smartidle." "smartidle,smartidle_wakeup,smartidle_wakeup,smartidle"
bitfld.word 0x00 2. "  ENAWAKEUP  ,Enable Wakeup control bit - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 1. " SRST               ,SoftReset bit - nmode. - rstmode." "nmode,rstmode"
bitfld.word 0x00 0. "         AUTOIDLE   ,Autoidle bit - disable. - enable." "disable,enable"
wgroup.word 0x20++0x1
line.word 0x00 "I2C_EOI,End Of Interrupt number specification"
bitfld.word 0x00 0. " LINE_NUMBER        ,Software End Of Interrupt (EOI) control. Write number of interrupt output." "0,1"
group.word 0x24++0x1
line.word 0x00 "I2C_IRQSTATUS_RAW,Per-event raw interrupt status vector. The raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug"
bitfld.word 0x00 14. " XDR                ,Transmit draining IRQ status. - clear. - set." "clear,set"
bitfld.word 0x00 13. "           RDR        ,Receive draining IRQ status. - clear. - set." "clear,set"
bitfld.word 0x00 12. "             BB         ,Bus busy status. Writing into this bit has no effect. - set. - clear." "clear,set"
textline "                          "
bitfld.word 0x00 11. " ROVR               ,Receive overrun status. Writing into this bit has no effect. - set. - clear." "clear,set"
bitfld.word 0x00 10. "           XUDF       ,Transmit underflow status. Writing into this bit has no effect. - set. - clear." "clear,set"
bitfld.word 0x00 9. "             AAS        ,Address recognized as slave IRQ status. - clear. - set." "clear,set"
textline "                          "
bitfld.word 0x00 8. " BF                 ,Bus Free IRQ status. - clear. - set." "clear,set"
bitfld.word 0x00 7. "           AERR       ,Access Error IRQ status. - clear. - set." "clear,set"
bitfld.word 0x00 6. "             STC        ,Start Condition IRQ status. - clear. - set." "clear,set"
textline "                          "
bitfld.word 0x00 5. " GC                 ,General call IRQ status. Set to 1 by core when General call address detected and interrupt signaled to IRQ_Crossbar. - clear. - set." "clear,set"
bitfld.word 0x00 4. "           XRDY       ,Transmit data ready IRQ status. Set to 1 by core when transmitter and when new data is requested. When set to 1 by core, an interrupt is signaled to IRQ_Crossbar. - clear. - set." "clear,set"
bitfld.word 0x00 3. "             RRDY       ,Receive data ready IRQ status. Set to 1 by core when receiver mode, a new data is able to be read. When set to 1 by core, an interrupt is signaled to IRQ_Crossbar. - clear. - set." "clear,set"
textline "                          "
bitfld.word 0x00 2. " ARDY               ,Register access ready IRQ status. When set to 1 it indicates that previous access has been performed and registers are ready to be accessed again. An interrupt is signaled to IRQ_Crossbar. - clear. - set." "clear,set"
bitfld.word 0x00 1. "           NACK       ,No acknowledgement IRQ status. Bit is set when No Acknowledge has been received, an interrupt is signaled to IRQ_Crossbar. - clear. - set." "clear,set"
bitfld.word 0x00 0. "             AL         ,Arbitration lost IRQ status. This bit is automatically set by the hardware when it loses the Arbitration in master transmit mode, an interrupt is signaled to IRQ_Crossbar. During reads, it always returns 0. - clear. - set." "clear,set"
group.word 0x28++0x1
line.word 0x00 "I2C_IRQSTATUS,Per-event enabled interrupt status vector"
eventfld.word 0x00 14. " XDR                ,Transmit draining IRQ enabled status. - clear. - set." "clear,set"
eventfld.word 0x00 13. "           RDR        ,Receive draining IRQ enabled status. - clear. - set." "clear,set"
bitfld.word 0x00 12. "             BB         ,Bus busy enabled status. Writing into this bit has no effect. - set. - clear." "clear,set"
textline "                          "
eventfld.word 0x00 11. " ROVR               ,Receive overrun enabled status. Writing into this bit has no effect. - set. - clear." "clear,set"
eventfld.word 0x00 10. "           XUDF       ,Transmit underflow enabled status. Writing into this bit has no effect. - set. - clear." "clear,set"
eventfld.word 0x00 9. "             AAS        ,Address recognized as slave IRQ enabled status. - clear. - set." "clear,set"
textline "                          "
eventfld.word 0x00 8. " BF                 ,Bus Free IRQ enabled status. - clear. - set." "clear,set"
eventfld.word 0x00 7. "           AERR       ,Access Error IRQ enabled status. - clear. - set." "clear,set"
eventfld.word 0x00 6. "             STC        ,Start Condition IRQ enabled status. - clear. - set." "clear,set"
textline "                          "
eventfld.word 0x00 5. " GC                 ,General call IRQ enabled status. Set to 1 by core when General call address detected and interrupt signaled to IRQ_Crossbar. Write 1 to clear. - clear. - set." "clear,set"
eventfld.word 0x00 4. "           XRDY       ,Transmit data ready IRQ enabled status. Set to 1 by core when transmitter and when new data is requested. When set to 1 by core, an interrupt is signaled to IRQ_Crossbar. Write 1 to clear. - clear. - set." "clear,set"
eventfld.word 0x00 3. "             RRDY       ,Receive data ready IRQ enabled status. Set to 1 by core when receiver mode, a new data is able to be read. When set to 1 by core, an interrupt is signaled to IRQ_Crossbar. Write 1 to clear. - clear. - set." "clear,set"
textline "                          "
eventfld.word 0x00 2. " ARDY               ,Register access ready IRQ enabled status. When set to 1 it indicates that previous access has been performed and registers are ready to be accessed again. An interrupt is signaled to IRQ_Crossbar. Write 1 to clear. - clear. - set." "clear,set"
eventfld.word 0x00 1. "           NACK       ,No acknowledgement IRQ enabled status. Bit is set when No Acknowledge has been received, an interrupt is signaled to IRQ_Crossbar. Write 1 to clear this bit. - clear. - set." "clear,set"
eventfld.word 0x00 0. "             AL         ,Arbitration lost IRQ enabled status. This bit is automatically set by the hardware when it loses the Arbitration in master transmit mode, an interrupt is signaled to IRQ_Crossbar. During reads, it always returns 0. - clear. - set." "clear,set"
group.word 0x2C++0x1
line.word 0x00 "I2C_IRQENABLE_SET,Per-event interrupt enable bit vector."
bitfld.word 0x00 14. " XDR_IE             ,Transmit Draining interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW[XDR].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 13. "         RDR_IE     ,Receive Draining interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [RDR].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 11. "           ROVR       ,Receive overrun enable set.Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 10. " XUDF               ,Transmit underflow enable set.Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 9. "         AAS_IE     ,Addressed as Slave interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [AAS].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 8. "           BF_IE      ,Bus Free interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [BF].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 7. " AERR_IE            ,Access Error interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [AERR].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 6. "         STC_IE     ,Start Condition interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [STC].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 5. "           GC_IE      ,General call Interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [GC]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 4. " XRDY_IE            ,Transmit data ready interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [XRDY]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 3. "         RRDY_IE    ,Receive data ready interrupt enable set. Unmask the interrupt signaled by bit in I2C_IRQSTTUS_RAW [RRDY]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 2. "           ARDY_IE    ,Register access ready interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [ARDY]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 1. " NACK_IE            ,No acknowledgement interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [NACK]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 0. "         AL_IE      ,Arbitration lost interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [AL]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
group.word 0x30++0x1
line.word 0x00 "I2C_IRQENABLE_CLR,Per-event interrupt clear bit vector."
eventfld.word 0x00 14. " XDR_IE             ,Transmit Draining interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [XDR].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 13. "         RDR_IE     ,Receive Draining interrupt enable clear. Mask the interrupt signaled by bit in I2C_IRQSTAUS_RAW [RDR].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 11. "           ROVR       ,Receive overrun enable clear.Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
eventfld.word 0x00 10. " XUDF               ,Transmit underflow enable clear.Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 9. "         AAS_IE     ,Addressed as Slave interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [AAS].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 8. "           BF_IE      ,Bus Free interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [BF].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
eventfld.word 0x00 7. " AERR_IE            ,Access Error interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [AERR].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 6. "         STC_IE     ,Start Condition interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [STC].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 5. "           GC_IE      ,General call Interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [GC]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
eventfld.word 0x00 4. " XRDY_IE            ,Transmit data ready interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [XRDY]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 3. "         RRDY_IE    ,Receive data ready interrupt enable clear. Mask the interrupt signaled by bit in I2C_IRQSTAUS_RAW [RRDY]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 2. "           ARDY_IE    ,Register access ready interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [ARDY]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
eventfld.word 0x00 1. " NACK_IE            ,No acknowledgement interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [NACK]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 0. "         AL_IE      ,Arbitration lost interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW[AL]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
group.word 0x34++0x1
line.word 0x00 "I2C_WE,I2C wakeup enable vector."
bitfld.word 0x00 14. " XDR                ,Transmit Draining wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 13. "         RDR        ,Receive Draining wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 11. "           ROVR       ,Receive overrun wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 10. " XUDF               ,Transmit underflow wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 9. "         AAS        ,Address as slave IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 8. "           BF         ,Bus Free IRQ wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 6. " STC                ,Start Condition IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 5. "         GC         ,General call IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 3. "           DRDY       ,Receive/Transmit data ready IRQ wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 2. " ARDY               ,Register access ready IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 1. "         NACK       ,No acknowledgment IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 0. "           AL         ,Arbitration lost IRQ wakeup set. - disable. - enable." "disable,enable"
group.word 0x38++0x1
line.word 0x00 "I2C_DMARXENABLE_SET,Per-event DMA RX enable set."
bitfld.word 0x00 0. " DMARX_ENABLE_SET   ,Receive DMA channel enable set." "Disabled,Enabled"
group.word 0x3C++0x1
line.word 0x00 "I2C_DMATXENABLE_SET,Per-event DMA TX enable set."
bitfld.word 0x00 0. " DMATX_ENABLE_SET   ,Transmit DMA channel enable set." "Disabled,Enabled"
group.word 0x40++0x1
line.word 0x00 "I2C_DMARXENABLE_CLR,Per-event DMA RX enable clear."
bitfld.word 0x00 0. " DMARX_ENABLE_CLEAR ,Receive DMA channel enable clear." "No_effect,Cleared"
group.word 0x44++0x1
line.word 0x00 "I2C_DMATXENABLE_CLR,Per-event DMA TX enable clear."
bitfld.word 0x00 0. " DMATX_ENABLE_CLEAR ,Transmit DMA channel enable clear." "No_effect,Cleared"
group.word 0x48++0x1
line.word 0x00 "I2C_DMARXWAKE_EN,Per-event DMA RX wakeup enable."
bitfld.word 0x00 14. " XDR                ,Transmit Draining wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 13. "         RDR        ,Receive Draining wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 11. "           ROVR       ,Receive overrun wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 10. " XUDF               ,Transmit underflow wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 9. "         AAS        ,Address as slave IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 8. "           BF         ,Bus Free IRQ wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 6. " STC                ,Start Condition IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 5. "         GC         ,General call IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 3. "           DRDY       ,Receive/Transmit data ready IRQ wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 2. " ARDY               ,Register access ready IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 1. "         NACK       ,No acknowledgment IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 0. "           AL         ,Arbitration lost IRQ wakeup set. - disable. - enable." "disable,enable"
group.word 0x4C++0x1
line.word 0x00 "I2C_DMATXWAKE_EN,Per-event DMA TX wakeup enable."
bitfld.word 0x00 14. " XDR                ,Transmit Draining wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 13. "         RDR        ,Receive Draining wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 11. "           ROVR       ,Receive overrun wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 10. " XUDF               ,Transmit underflow wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 9. "         AAS        ,Address as slave IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 8. "           BF         ,Bus Free IRQ wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 6. " STC                ,Start Condition IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 5. "         GC         ,General call IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 3. "           DRDY       ,Receive/Transmit data ready IRQ wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 2. " ARDY               ,Register access ready IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 1. "         NACK       ,No acknowledgment IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 0. "           AL         ,Arbitration lost IRQ wakeup set. - disable. - enable." "disable,enable"
group.word 0x90++0x1
line.word 0x00 "I2C_SYSS,System Status register"
bitfld.word 0x00 0. " RDONE              ,Reset done bit - rstcomp. - rstongoing." "rstongoing,rstcomp"
group.word 0x94++0x1
line.word 0x00 "I2C_BUF,Buffer Configuration register"
bitfld.word 0x00 15. " RDMA_EN            ,Receive DMA channel enable - disable. - enable." "disable,enable"
bitfld.word 0x00 14. "         RXFIFO_CLR ,Receive FIFO clear - nmode. - rstmode." "nmode,rstmode"
bitfld.word 0x00 8.--13. "           RXTRSH     ,Threshold value for FIFO buffer in RX mode" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                          "
bitfld.word 0x00 7. " XDMA_EN            ,Transmit DMA channel enable - disable. - enable." "disable,enable"
bitfld.word 0x00 6. "         TXFIFO_CLR ,Transmit FIFO clear - nmode. - rstmode." "nmode,rstmode"
bitfld.word 0x00 0.--5. "           TXTRSH     ,Threshold value for FIFO buffer in TX mode" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.word 0x98++0x1
line.word 0x00 "I2C_CNT,Data counter register"
hexmask.word 0x00 0.--15. 1. " DCOUNT             ,Data count"
group.word 0x9C++0x1
line.word 0x00 "I2C_DATA,Data access register"
hexmask.word.byte 0x00 0.--7. 1. " DATA               ,Transmit/Receive data FIFO endpoint"
group.word 0xA4++0x1
line.word 0x00 "I2C_CON,I2C configuration register."
bitfld.word 0x00 15. " I2C_EN             ,I2C module enable. - disable. - enable." "disable,enable"
bitfld.word 0x00 12.--13. "         OPMODE     ,Operation mode selection. - fsi2c. - hsi2c. - reserved. - sccb." "fsi2c,hsi2c,sccb,reserved"
bitfld.word 0x00 11. "          STB        ,Start byte mode (master mode only). - normal. - stb." "normal,stb"
textline "                          "
bitfld.word 0x00 10. " MST                ,Master/slave mode. - slv. - mst." "slv,mst"
bitfld.word 0x00 9. "             TRX        ,Transmitter/Receiver mode (master mode only). - rcv. - trx." "rcv,trx"
bitfld.word 0x00 8. "               XSA        ,Expand Slave address. - b07. - b10." "b07,b10"
textline "                          "
bitfld.word 0x00 7. " XOA0               ,Expand Own address 0. - b07. - b10." "b07,b10"
bitfld.word 0x00 6. "             XOA1       ,Expand Own address 1. - b07. - b10." "b07,b10"
bitfld.word 0x00 5. "               XOA2       ,Expand Own address 2. - b07. - b10." "b07,b10"
textline "                          "
bitfld.word 0x00 4. " XOA3               ,Expand Own address 3. - b07. - b10." "b07,b10"
bitfld.word 0x00 1. "             STP        ,Stop condition (master mode only). - nstp. - stp." "nstp,stp"
bitfld.word 0x00 0. "              STT        ,Start condition (master mode only). - nstt. - stt." "nstt,stt"
group.word 0xA8++0x1
line.word 0x00 "I2C_OA,Own address register"
bitfld.word 0x00 13.--15. " MCODE              ,Master Code" "0,1,2,3,4,5,6,7"
hexmask.word 0x00 0.--9. 1. "               OA         ,Own address"
group.word 0xAC++0x1
line.word 0x00 "I2C_SA,Slave address register"
hexmask.word 0x00 0.--9. 1. " SA                 ,Slave address"
group.word 0xB0++0x1
line.word 0x00 "I2C_PSC,I2C Clock Prescaler Register"
hexmask.word.byte 0x00 0.--7. 1. " PSC                ,Fast/Standard mode prescale sampling clock divider value 0x0: Divide by 1 0x1: Divide by 2 .............................. 0xFF: Divide by 256"
group.word 0xB4++0x1
line.word 0x00 "I2C_SCLL,I2C SCL Low Time Register."
hexmask.word.byte 0x00 8.--15. 1. " HSSCLL             ,High speed mode SCL low time - The value of the bit field is automatically increased by 7. . - ."
hexmask.word.byte 0x00 0.--7. 1. "              SCLL       ,Fast/standard mode SCL low time - The value of the bit field is automatically increased by 7. . - ."
group.word 0xB8++0x1
line.word 0x00 "I2C_SCLH,I2C SCL High Time Register."
hexmask.word.byte 0x00 8.--15. 1. " HSSCLH             ,High speed mode SCL high time - The value of the bit field is automatically increased by 5. . - ."
hexmask.word.byte 0x00 0.--7. 1. "              SCLH       ,Fast/standard mode SCL high time - The value of the bit field is automatically increased by 5. . - ."
group.word 0xBC++0x1
line.word 0x00 "I2C_SYSTEST,I2C System Test Register."
bitfld.word 0x00 15. " ST_EN              ,System test enable. - disable. - enable." "disable,enable"
bitfld.word 0x00 14. "         FREE       ,Free running mode (on breakpoint) - stop. - free." "stop,free"
bitfld.word 0x00 12.--13. "              TMODE      ,Test mode select. - functional. - reserved. - loopback. - test." "functional,reserved,test,loopback"
textline "                          "
bitfld.word 0x00 11. " SSB                ,Set all status bits inI2C_IRQSTATUS_RAW [14:0]. - noaction. - setstatus." "noaction,setstatus"
bitfld.word 0x00 8. "       SCL_I_FUNC ,SCL line input value (functional mode). - sclih. - sclil." "sclil,sclih"
bitfld.word 0x00 7. "             SCL_O_FUNC ,SCL line output value (functional mode). - sclih. - sclil." "sclil,sclih"
textline "                          "
bitfld.word 0x00 6. " SDA_I_FUNC         ,SDA line input value (functional mode). - sdaih. - sdail." "sdail,sdaih"
bitfld.word 0x00 5. "           SDA_O_FUNC ,SDA line output value (functional mode). - sdaoh. - sdaol." "sdaol,sdaoh"
bitfld.word 0x00 3. "             SCL_I      ,SCL line sense input value - sclih. - sclil." "sclil,sclih"
textline "                          "
bitfld.word 0x00 2. " SCL_O              ,SCL line drive output value. - sclol. - scloh." "sclol,scloh"
bitfld.word 0x00 1. "           SDA_I      ,SDA line sense input value. - sdaih. - sdail." "sdail,sdaih"
bitfld.word 0x00 0. "             SDA_O      ,SDA line drive output value. - sdaol. - sdaoh." "sdaol,sdaoh"
rgroup.word 0xC0++0x1
line.word 0x00 "I2C_BUFSTAT,I2C Buffer Status Register."
bitfld.word 0x00 14.--15. " FIFODEPTH          ,Internal FIFO buffers depth. - . - . - . - ." "8-bytes_FIFO.,16-bytes_FIFO.,32-bytes_FIFO.,64-bytes_FIFO."
bitfld.word 0x00 8.--13. "  RXSTAT     ,RX Buffer Status" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.word 0x00 0.--5. "                TXSTAT     ,TX Buffer Status." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.word 0xC4++0x1
line.word 0x00 "I2C_OA1,I2C Own Address 1 Register"
hexmask.word 0x00 0.--9. 1. " OA1                ,Own address 1"
group.word 0xC8++0x1
line.word 0x00 "I2C_OA2,I2C Own Address 2 Register"
hexmask.word 0x00 0.--9. 1. " OA2                ,Own address 2"
group.word 0xCC++0x1
line.word 0x00 "I2C_OA3,I2C Own Address 3 Register"
hexmask.word 0x00 0.--9. 1. " OA3                ,Own address 3"
rgroup.word 0xD0++0x1
line.word 0x00 "I2C_ACTOA,I2C Active Own Address Register."
bitfld.word 0x00 3. " OA3_ACT            ,Own Address 3 active. - active. - inactive." "inactive,active"
bitfld.word 0x00 2. "        OA2_ACT    ,Own Address 2 active. - active. - inactive." "inactive,active"
bitfld.word 0x00 1. "          OA1_ACT    ,Own Address 1 active. - active. - inactive." "inactive,active"
textline "                          "
bitfld.word 0x00 0. " OA0_ACT            ,Own Address 0 active. - active. - inactive." "inactive,active"
group.word 0xD4++0x1
line.word 0x00 "I2C_SBLOCK,I2C Clock Blocking Enable Register."
bitfld.word 0x00 3. " OA3_EN             ,Enable I2C Clock Blocking for Own Address 3. - unlock. - lock." "unlock,lock"
bitfld.word 0x00 2. "          OA2_EN     ,Enable I2C Clock Blocking for Own Address 2. - unlock. - lock." "unlock,lock"
bitfld.word 0x00 1. "            OA1_EN     ,Enable I2C Clock Blocking for Own Address 1. - unlock. - lock." "unlock,lock"
textline "                          "
bitfld.word 0x00 0. " OA0_EN             ,Enable I2C Clock Blocking for Own Address 0. - unlock. - lock." "unlock,lock"
width 0x0B
tree.end
tree "I2C2"
base ad:0x48072000
width 21.
rgroup.word 0x0++0x1
line.word 0x00 "I2C_REVNB_LO,IP Revision Identifier (X.Y.R) Used by software to track features, bugs, and compatibility"
hexmask.word 0x00 0.--15. 1. " REVISION           ,IP Revision"
rgroup.word 0x4++0x1
line.word 0x00 "I2C_REVNB_HI,IP Revision Identifier (X.Y.R) Used by software to track features, bugs, and compatibility"
hexmask.word 0x00 0.--15. 1. " REVISION           ,IP Revision"
group.word 0x10++0x1
line.word 0x00 "I2C_SYSC,System Configuration register"
bitfld.word 0x00 8.--9. " CLKACTIVITY        ,Clock Activity selection bits - boothoff. - ocpon. - boothon. - syson." "boothoff,ocpon,boothon,syson"
bitfld.word 0x00 3.--4. "        IDLEMODE   ,Idle Mode selection bits - smartidle. - smartidle_wakeup. - smartidle_wakeup. - smartidle." "smartidle,smartidle_wakeup,smartidle_wakeup,smartidle"
bitfld.word 0x00 2. "  ENAWAKEUP  ,Enable Wakeup control bit - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 1. " SRST               ,SoftReset bit - nmode. - rstmode." "nmode,rstmode"
bitfld.word 0x00 0. "         AUTOIDLE   ,Autoidle bit - disable. - enable." "disable,enable"
wgroup.word 0x20++0x1
line.word 0x00 "I2C_EOI,End Of Interrupt number specification"
bitfld.word 0x00 0. " LINE_NUMBER        ,Software End Of Interrupt (EOI) control. Write number of interrupt output." "0,1"
group.word 0x24++0x1
line.word 0x00 "I2C_IRQSTATUS_RAW,Per-event raw interrupt status vector. The raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug"
bitfld.word 0x00 14. " XDR                ,Transmit draining IRQ status. - clear. - set." "clear,set"
bitfld.word 0x00 13. "           RDR        ,Receive draining IRQ status. - clear. - set." "clear,set"
bitfld.word 0x00 12. "             BB         ,Bus busy status. Writing into this bit has no effect. - set. - clear." "clear,set"
textline "                          "
bitfld.word 0x00 11. " ROVR               ,Receive overrun status. Writing into this bit has no effect. - set. - clear." "clear,set"
bitfld.word 0x00 10. "           XUDF       ,Transmit underflow status. Writing into this bit has no effect. - set. - clear." "clear,set"
bitfld.word 0x00 9. "             AAS        ,Address recognized as slave IRQ status. - clear. - set." "clear,set"
textline "                          "
bitfld.word 0x00 8. " BF                 ,Bus Free IRQ status. - clear. - set." "clear,set"
bitfld.word 0x00 7. "           AERR       ,Access Error IRQ status. - clear. - set." "clear,set"
bitfld.word 0x00 6. "             STC        ,Start Condition IRQ status. - clear. - set." "clear,set"
textline "                          "
bitfld.word 0x00 5. " GC                 ,General call IRQ status. Set to 1 by core when General call address detected and interrupt signaled to IRQ_Crossbar. - clear. - set." "clear,set"
bitfld.word 0x00 4. "           XRDY       ,Transmit data ready IRQ status. Set to 1 by core when transmitter and when new data is requested. When set to 1 by core, an interrupt is signaled to IRQ_Crossbar. - clear. - set." "clear,set"
bitfld.word 0x00 3. "             RRDY       ,Receive data ready IRQ status. Set to 1 by core when receiver mode, a new data is able to be read. When set to 1 by core, an interrupt is signaled to IRQ_Crossbar. - clear. - set." "clear,set"
textline "                          "
bitfld.word 0x00 2. " ARDY               ,Register access ready IRQ status. When set to 1 it indicates that previous access has been performed and registers are ready to be accessed again. An interrupt is signaled to IRQ_Crossbar. - clear. - set." "clear,set"
bitfld.word 0x00 1. "           NACK       ,No acknowledgement IRQ status. Bit is set when No Acknowledge has been received, an interrupt is signaled to IRQ_Crossbar. - clear. - set." "clear,set"
bitfld.word 0x00 0. "             AL         ,Arbitration lost IRQ status. This bit is automatically set by the hardware when it loses the Arbitration in master transmit mode, an interrupt is signaled to IRQ_Crossbar. During reads, it always returns 0. - clear. - set." "clear,set"
group.word 0x28++0x1
line.word 0x00 "I2C_IRQSTATUS,Per-event enabled interrupt status vector"
eventfld.word 0x00 14. " XDR                ,Transmit draining IRQ enabled status. - clear. - set." "clear,set"
eventfld.word 0x00 13. "           RDR        ,Receive draining IRQ enabled status. - clear. - set." "clear,set"
bitfld.word 0x00 12. "             BB         ,Bus busy enabled status. Writing into this bit has no effect. - set. - clear." "clear,set"
textline "                          "
eventfld.word 0x00 11. " ROVR               ,Receive overrun enabled status. Writing into this bit has no effect. - set. - clear." "clear,set"
eventfld.word 0x00 10. "           XUDF       ,Transmit underflow enabled status. Writing into this bit has no effect. - set. - clear." "clear,set"
eventfld.word 0x00 9. "             AAS        ,Address recognized as slave IRQ enabled status. - clear. - set." "clear,set"
textline "                          "
eventfld.word 0x00 8. " BF                 ,Bus Free IRQ enabled status. - clear. - set." "clear,set"
eventfld.word 0x00 7. "           AERR       ,Access Error IRQ enabled status. - clear. - set." "clear,set"
eventfld.word 0x00 6. "             STC        ,Start Condition IRQ enabled status. - clear. - set." "clear,set"
textline "                          "
eventfld.word 0x00 5. " GC                 ,General call IRQ enabled status. Set to 1 by core when General call address detected and interrupt signaled to IRQ_Crossbar. Write 1 to clear. - clear. - set." "clear,set"
eventfld.word 0x00 4. "           XRDY       ,Transmit data ready IRQ enabled status. Set to 1 by core when transmitter and when new data is requested. When set to 1 by core, an interrupt is signaled to IRQ_Crossbar. Write 1 to clear. - clear. - set." "clear,set"
eventfld.word 0x00 3. "             RRDY       ,Receive data ready IRQ enabled status. Set to 1 by core when receiver mode, a new data is able to be read. When set to 1 by core, an interrupt is signaled to IRQ_Crossbar. Write 1 to clear. - clear. - set." "clear,set"
textline "                          "
eventfld.word 0x00 2. " ARDY               ,Register access ready IRQ enabled status. When set to 1 it indicates that previous access has been performed and registers are ready to be accessed again. An interrupt is signaled to IRQ_Crossbar. Write 1 to clear. - clear. - set." "clear,set"
eventfld.word 0x00 1. "           NACK       ,No acknowledgement IRQ enabled status. Bit is set when No Acknowledge has been received, an interrupt is signaled to IRQ_Crossbar. Write 1 to clear this bit. - clear. - set." "clear,set"
eventfld.word 0x00 0. "             AL         ,Arbitration lost IRQ enabled status. This bit is automatically set by the hardware when it loses the Arbitration in master transmit mode, an interrupt is signaled to IRQ_Crossbar. During reads, it always returns 0. - clear. - set." "clear,set"
group.word 0x2C++0x1
line.word 0x00 "I2C_IRQENABLE_SET,Per-event interrupt enable bit vector."
bitfld.word 0x00 14. " XDR_IE             ,Transmit Draining interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW[XDR].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 13. "         RDR_IE     ,Receive Draining interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [RDR].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 11. "           ROVR       ,Receive overrun enable set.Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 10. " XUDF               ,Transmit underflow enable set.Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 9. "         AAS_IE     ,Addressed as Slave interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [AAS].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 8. "           BF_IE      ,Bus Free interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [BF].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 7. " AERR_IE            ,Access Error interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [AERR].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 6. "         STC_IE     ,Start Condition interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [STC].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 5. "           GC_IE      ,General call Interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [GC]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 4. " XRDY_IE            ,Transmit data ready interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [XRDY]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 3. "         RRDY_IE    ,Receive data ready interrupt enable set. Unmask the interrupt signaled by bit in I2C_IRQSTTUS_RAW [RRDY]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 2. "           ARDY_IE    ,Register access ready interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [ARDY]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 1. " NACK_IE            ,No acknowledgement interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [NACK]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 0. "         AL_IE      ,Arbitration lost interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [AL]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
group.word 0x30++0x1
line.word 0x00 "I2C_IRQENABLE_CLR,Per-event interrupt clear bit vector."
eventfld.word 0x00 14. " XDR_IE             ,Transmit Draining interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [XDR].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 13. "         RDR_IE     ,Receive Draining interrupt enable clear. Mask the interrupt signaled by bit in I2C_IRQSTAUS_RAW [RDR].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 11. "           ROVR       ,Receive overrun enable clear.Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
eventfld.word 0x00 10. " XUDF               ,Transmit underflow enable clear.Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 9. "         AAS_IE     ,Addressed as Slave interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [AAS].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 8. "           BF_IE      ,Bus Free interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [BF].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
eventfld.word 0x00 7. " AERR_IE            ,Access Error interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [AERR].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 6. "         STC_IE     ,Start Condition interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [STC].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 5. "           GC_IE      ,General call Interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [GC]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
eventfld.word 0x00 4. " XRDY_IE            ,Transmit data ready interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [XRDY]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 3. "         RRDY_IE    ,Receive data ready interrupt enable clear. Mask the interrupt signaled by bit in I2C_IRQSTAUS_RAW [RRDY]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 2. "           ARDY_IE    ,Register access ready interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [ARDY]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
eventfld.word 0x00 1. " NACK_IE            ,No acknowledgement interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [NACK]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 0. "         AL_IE      ,Arbitration lost interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW[AL]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
group.word 0x34++0x1
line.word 0x00 "I2C_WE,I2C wakeup enable vector."
bitfld.word 0x00 14. " XDR                ,Transmit Draining wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 13. "         RDR        ,Receive Draining wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 11. "           ROVR       ,Receive overrun wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 10. " XUDF               ,Transmit underflow wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 9. "         AAS        ,Address as slave IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 8. "           BF         ,Bus Free IRQ wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 6. " STC                ,Start Condition IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 5. "         GC         ,General call IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 3. "           DRDY       ,Receive/Transmit data ready IRQ wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 2. " ARDY               ,Register access ready IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 1. "         NACK       ,No acknowledgment IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 0. "           AL         ,Arbitration lost IRQ wakeup set. - disable. - enable." "disable,enable"
group.word 0x38++0x1
line.word 0x00 "I2C_DMARXENABLE_SET,Per-event DMA RX enable set."
bitfld.word 0x00 0. " DMARX_ENABLE_SET   ,Receive DMA channel enable set." "Disabled,Enabled"
group.word 0x3C++0x1
line.word 0x00 "I2C_DMATXENABLE_SET,Per-event DMA TX enable set."
bitfld.word 0x00 0. " DMATX_ENABLE_SET   ,Transmit DMA channel enable set." "Disabled,Enabled"
group.word 0x40++0x1
line.word 0x00 "I2C_DMARXENABLE_CLR,Per-event DMA RX enable clear."
bitfld.word 0x00 0. " DMARX_ENABLE_CLEAR ,Receive DMA channel enable clear." "No_effect,Cleared"
group.word 0x44++0x1
line.word 0x00 "I2C_DMATXENABLE_CLR,Per-event DMA TX enable clear."
bitfld.word 0x00 0. " DMATX_ENABLE_CLEAR ,Transmit DMA channel enable clear." "No_effect,Cleared"
group.word 0x48++0x1
line.word 0x00 "I2C_DMARXWAKE_EN,Per-event DMA RX wakeup enable."
bitfld.word 0x00 14. " XDR                ,Transmit Draining wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 13. "         RDR        ,Receive Draining wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 11. "           ROVR       ,Receive overrun wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 10. " XUDF               ,Transmit underflow wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 9. "         AAS        ,Address as slave IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 8. "           BF         ,Bus Free IRQ wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 6. " STC                ,Start Condition IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 5. "         GC         ,General call IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 3. "           DRDY       ,Receive/Transmit data ready IRQ wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 2. " ARDY               ,Register access ready IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 1. "         NACK       ,No acknowledgment IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 0. "           AL         ,Arbitration lost IRQ wakeup set. - disable. - enable." "disable,enable"
group.word 0x4C++0x1
line.word 0x00 "I2C_DMATXWAKE_EN,Per-event DMA TX wakeup enable."
bitfld.word 0x00 14. " XDR                ,Transmit Draining wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 13. "         RDR        ,Receive Draining wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 11. "           ROVR       ,Receive overrun wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 10. " XUDF               ,Transmit underflow wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 9. "         AAS        ,Address as slave IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 8. "           BF         ,Bus Free IRQ wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 6. " STC                ,Start Condition IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 5. "         GC         ,General call IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 3. "           DRDY       ,Receive/Transmit data ready IRQ wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 2. " ARDY               ,Register access ready IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 1. "         NACK       ,No acknowledgment IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 0. "           AL         ,Arbitration lost IRQ wakeup set. - disable. - enable." "disable,enable"
group.word 0x90++0x1
line.word 0x00 "I2C_SYSS,System Status register"
bitfld.word 0x00 0. " RDONE              ,Reset done bit - rstcomp. - rstongoing." "rstongoing,rstcomp"
group.word 0x94++0x1
line.word 0x00 "I2C_BUF,Buffer Configuration register"
bitfld.word 0x00 15. " RDMA_EN            ,Receive DMA channel enable - disable. - enable." "disable,enable"
bitfld.word 0x00 14. "         RXFIFO_CLR ,Receive FIFO clear - nmode. - rstmode." "nmode,rstmode"
bitfld.word 0x00 8.--13. "           RXTRSH     ,Threshold value for FIFO buffer in RX mode" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                          "
bitfld.word 0x00 7. " XDMA_EN            ,Transmit DMA channel enable - disable. - enable." "disable,enable"
bitfld.word 0x00 6. "         TXFIFO_CLR ,Transmit FIFO clear - nmode. - rstmode." "nmode,rstmode"
bitfld.word 0x00 0.--5. "           TXTRSH     ,Threshold value for FIFO buffer in TX mode" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.word 0x98++0x1
line.word 0x00 "I2C_CNT,Data counter register"
hexmask.word 0x00 0.--15. 1. " DCOUNT             ,Data count"
group.word 0x9C++0x1
line.word 0x00 "I2C_DATA,Data access register"
hexmask.word.byte 0x00 0.--7. 1. " DATA               ,Transmit/Receive data FIFO endpoint"
group.word 0xA4++0x1
line.word 0x00 "I2C_CON,I2C configuration register."
bitfld.word 0x00 15. " I2C_EN             ,I2C module enable. - disable. - enable." "disable,enable"
bitfld.word 0x00 12.--13. "         OPMODE     ,Operation mode selection. - fsi2c. - hsi2c. - reserved. - sccb." "fsi2c,hsi2c,sccb,reserved"
bitfld.word 0x00 11. "          STB        ,Start byte mode (master mode only). - normal. - stb." "normal,stb"
textline "                          "
bitfld.word 0x00 10. " MST                ,Master/slave mode. - slv. - mst." "slv,mst"
bitfld.word 0x00 9. "             TRX        ,Transmitter/Receiver mode (master mode only). - rcv. - trx." "rcv,trx"
bitfld.word 0x00 8. "               XSA        ,Expand Slave address. - b07. - b10." "b07,b10"
textline "                          "
bitfld.word 0x00 7. " XOA0               ,Expand Own address 0. - b07. - b10." "b07,b10"
bitfld.word 0x00 6. "             XOA1       ,Expand Own address 1. - b07. - b10." "b07,b10"
bitfld.word 0x00 5. "               XOA2       ,Expand Own address 2. - b07. - b10." "b07,b10"
textline "                          "
bitfld.word 0x00 4. " XOA3               ,Expand Own address 3. - b07. - b10." "b07,b10"
bitfld.word 0x00 1. "             STP        ,Stop condition (master mode only). - nstp. - stp." "nstp,stp"
bitfld.word 0x00 0. "              STT        ,Start condition (master mode only). - nstt. - stt." "nstt,stt"
group.word 0xA8++0x1
line.word 0x00 "I2C_OA,Own address register"
bitfld.word 0x00 13.--15. " MCODE              ,Master Code" "0,1,2,3,4,5,6,7"
hexmask.word 0x00 0.--9. 1. "               OA         ,Own address"
group.word 0xAC++0x1
line.word 0x00 "I2C_SA,Slave address register"
hexmask.word 0x00 0.--9. 1. " SA                 ,Slave address"
group.word 0xB0++0x1
line.word 0x00 "I2C_PSC,I2C Clock Prescaler Register"
hexmask.word.byte 0x00 0.--7. 1. " PSC                ,Fast/Standard mode prescale sampling clock divider value 0x0: Divide by 1 0x1: Divide by 2 .............................. 0xFF: Divide by 256"
group.word 0xB4++0x1
line.word 0x00 "I2C_SCLL,I2C SCL Low Time Register."
hexmask.word.byte 0x00 8.--15. 1. " HSSCLL             ,High speed mode SCL low time - The value of the bit field is automatically increased by 7. . - ."
hexmask.word.byte 0x00 0.--7. 1. "              SCLL       ,Fast/standard mode SCL low time - The value of the bit field is automatically increased by 7. . - ."
group.word 0xB8++0x1
line.word 0x00 "I2C_SCLH,I2C SCL High Time Register."
hexmask.word.byte 0x00 8.--15. 1. " HSSCLH             ,High speed mode SCL high time - The value of the bit field is automatically increased by 5. . - ."
hexmask.word.byte 0x00 0.--7. 1. "              SCLH       ,Fast/standard mode SCL high time - The value of the bit field is automatically increased by 5. . - ."
group.word 0xBC++0x1
line.word 0x00 "I2C_SYSTEST,I2C System Test Register."
bitfld.word 0x00 15. " ST_EN              ,System test enable. - disable. - enable." "disable,enable"
bitfld.word 0x00 14. "         FREE       ,Free running mode (on breakpoint) - stop. - free." "stop,free"
bitfld.word 0x00 12.--13. "              TMODE      ,Test mode select. - functional. - reserved. - loopback. - test." "functional,reserved,test,loopback"
textline "                          "
bitfld.word 0x00 11. " SSB                ,Set all status bits inI2C_IRQSTATUS_RAW [14:0]. - noaction. - setstatus." "noaction,setstatus"
bitfld.word 0x00 8. "       SCL_I_FUNC ,SCL line input value (functional mode). - sclih. - sclil." "sclil,sclih"
bitfld.word 0x00 7. "             SCL_O_FUNC ,SCL line output value (functional mode). - sclih. - sclil." "sclil,sclih"
textline "                          "
bitfld.word 0x00 6. " SDA_I_FUNC         ,SDA line input value (functional mode). - sdaih. - sdail." "sdail,sdaih"
bitfld.word 0x00 5. "           SDA_O_FUNC ,SDA line output value (functional mode). - sdaoh. - sdaol." "sdaol,sdaoh"
bitfld.word 0x00 3. "             SCL_I      ,SCL line sense input value - sclih. - sclil." "sclil,sclih"
textline "                          "
bitfld.word 0x00 2. " SCL_O              ,SCL line drive output value. - sclol. - scloh." "sclol,scloh"
bitfld.word 0x00 1. "           SDA_I      ,SDA line sense input value. - sdaih. - sdail." "sdail,sdaih"
bitfld.word 0x00 0. "             SDA_O      ,SDA line drive output value. - sdaol. - sdaoh." "sdaol,sdaoh"
rgroup.word 0xC0++0x1
line.word 0x00 "I2C_BUFSTAT,I2C Buffer Status Register."
bitfld.word 0x00 14.--15. " FIFODEPTH          ,Internal FIFO buffers depth. - . - . - . - ." "8-bytes_FIFO.,16-bytes_FIFO.,32-bytes_FIFO.,64-bytes_FIFO."
bitfld.word 0x00 8.--13. "  RXSTAT     ,RX Buffer Status" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.word 0x00 0.--5. "                TXSTAT     ,TX Buffer Status." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.word 0xC4++0x1
line.word 0x00 "I2C_OA1,I2C Own Address 1 Register"
hexmask.word 0x00 0.--9. 1. " OA1                ,Own address 1"
group.word 0xC8++0x1
line.word 0x00 "I2C_OA2,I2C Own Address 2 Register"
hexmask.word 0x00 0.--9. 1. " OA2                ,Own address 2"
group.word 0xCC++0x1
line.word 0x00 "I2C_OA3,I2C Own Address 3 Register"
hexmask.word 0x00 0.--9. 1. " OA3                ,Own address 3"
rgroup.word 0xD0++0x1
line.word 0x00 "I2C_ACTOA,I2C Active Own Address Register."
bitfld.word 0x00 3. " OA3_ACT            ,Own Address 3 active. - active. - inactive." "inactive,active"
bitfld.word 0x00 2. "        OA2_ACT    ,Own Address 2 active. - active. - inactive." "inactive,active"
bitfld.word 0x00 1. "          OA1_ACT    ,Own Address 1 active. - active. - inactive." "inactive,active"
textline "                          "
bitfld.word 0x00 0. " OA0_ACT            ,Own Address 0 active. - active. - inactive." "inactive,active"
group.word 0xD4++0x1
line.word 0x00 "I2C_SBLOCK,I2C Clock Blocking Enable Register."
bitfld.word 0x00 3. " OA3_EN             ,Enable I2C Clock Blocking for Own Address 3. - unlock. - lock." "unlock,lock"
bitfld.word 0x00 2. "          OA2_EN     ,Enable I2C Clock Blocking for Own Address 2. - unlock. - lock." "unlock,lock"
bitfld.word 0x00 1. "            OA1_EN     ,Enable I2C Clock Blocking for Own Address 1. - unlock. - lock." "unlock,lock"
textline "                          "
bitfld.word 0x00 0. " OA0_EN             ,Enable I2C Clock Blocking for Own Address 0. - unlock. - lock." "unlock,lock"
width 0x0B
tree.end
tree "I2C4"
base ad:0x4807A000
width 21.
rgroup.word 0x0++0x1
line.word 0x00 "I2C_REVNB_LO,IP Revision Identifier (X.Y.R) Used by software to track features, bugs, and compatibility"
hexmask.word 0x00 0.--15. 1. " REVISION           ,IP Revision"
rgroup.word 0x4++0x1
line.word 0x00 "I2C_REVNB_HI,IP Revision Identifier (X.Y.R) Used by software to track features, bugs, and compatibility"
hexmask.word 0x00 0.--15. 1. " REVISION           ,IP Revision"
group.word 0x10++0x1
line.word 0x00 "I2C_SYSC,System Configuration register"
bitfld.word 0x00 8.--9. " CLKACTIVITY        ,Clock Activity selection bits - boothoff. - ocpon. - boothon. - syson." "boothoff,ocpon,boothon,syson"
bitfld.word 0x00 3.--4. "        IDLEMODE   ,Idle Mode selection bits - smartidle. - smartidle_wakeup. - smartidle_wakeup. - smartidle." "smartidle,smartidle_wakeup,smartidle_wakeup,smartidle"
bitfld.word 0x00 2. "  ENAWAKEUP  ,Enable Wakeup control bit - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 1. " SRST               ,SoftReset bit - nmode. - rstmode." "nmode,rstmode"
bitfld.word 0x00 0. "         AUTOIDLE   ,Autoidle bit - disable. - enable." "disable,enable"
wgroup.word 0x20++0x1
line.word 0x00 "I2C_EOI,End Of Interrupt number specification"
bitfld.word 0x00 0. " LINE_NUMBER        ,Software End Of Interrupt (EOI) control. Write number of interrupt output." "0,1"
group.word 0x24++0x1
line.word 0x00 "I2C_IRQSTATUS_RAW,Per-event raw interrupt status vector. The raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug"
bitfld.word 0x00 14. " XDR                ,Transmit draining IRQ status. - clear. - set." "clear,set"
bitfld.word 0x00 13. "           RDR        ,Receive draining IRQ status. - clear. - set." "clear,set"
bitfld.word 0x00 12. "             BB         ,Bus busy status. Writing into this bit has no effect. - set. - clear." "clear,set"
textline "                          "
bitfld.word 0x00 11. " ROVR               ,Receive overrun status. Writing into this bit has no effect. - set. - clear." "clear,set"
bitfld.word 0x00 10. "           XUDF       ,Transmit underflow status. Writing into this bit has no effect. - set. - clear." "clear,set"
bitfld.word 0x00 9. "             AAS        ,Address recognized as slave IRQ status. - clear. - set." "clear,set"
textline "                          "
bitfld.word 0x00 8. " BF                 ,Bus Free IRQ status. - clear. - set." "clear,set"
bitfld.word 0x00 7. "           AERR       ,Access Error IRQ status. - clear. - set." "clear,set"
bitfld.word 0x00 6. "             STC        ,Start Condition IRQ status. - clear. - set." "clear,set"
textline "                          "
bitfld.word 0x00 5. " GC                 ,General call IRQ status. Set to 1 by core when General call address detected and interrupt signaled to IRQ_Crossbar. - clear. - set." "clear,set"
bitfld.word 0x00 4. "           XRDY       ,Transmit data ready IRQ status. Set to 1 by core when transmitter and when new data is requested. When set to 1 by core, an interrupt is signaled to IRQ_Crossbar. - clear. - set." "clear,set"
bitfld.word 0x00 3. "             RRDY       ,Receive data ready IRQ status. Set to 1 by core when receiver mode, a new data is able to be read. When set to 1 by core, an interrupt is signaled to IRQ_Crossbar. - clear. - set." "clear,set"
textline "                          "
bitfld.word 0x00 2. " ARDY               ,Register access ready IRQ status. When set to 1 it indicates that previous access has been performed and registers are ready to be accessed again. An interrupt is signaled to IRQ_Crossbar. - clear. - set." "clear,set"
bitfld.word 0x00 1. "           NACK       ,No acknowledgement IRQ status. Bit is set when No Acknowledge has been received, an interrupt is signaled to IRQ_Crossbar. - clear. - set." "clear,set"
bitfld.word 0x00 0. "             AL         ,Arbitration lost IRQ status. This bit is automatically set by the hardware when it loses the Arbitration in master transmit mode, an interrupt is signaled to IRQ_Crossbar. During reads, it always returns 0. - clear. - set." "clear,set"
group.word 0x28++0x1
line.word 0x00 "I2C_IRQSTATUS,Per-event enabled interrupt status vector"
eventfld.word 0x00 14. " XDR                ,Transmit draining IRQ enabled status. - clear. - set." "clear,set"
eventfld.word 0x00 13. "           RDR        ,Receive draining IRQ enabled status. - clear. - set." "clear,set"
bitfld.word 0x00 12. "             BB         ,Bus busy enabled status. Writing into this bit has no effect. - set. - clear." "clear,set"
textline "                          "
eventfld.word 0x00 11. " ROVR               ,Receive overrun enabled status. Writing into this bit has no effect. - set. - clear." "clear,set"
eventfld.word 0x00 10. "           XUDF       ,Transmit underflow enabled status. Writing into this bit has no effect. - set. - clear." "clear,set"
eventfld.word 0x00 9. "             AAS        ,Address recognized as slave IRQ enabled status. - clear. - set." "clear,set"
textline "                          "
eventfld.word 0x00 8. " BF                 ,Bus Free IRQ enabled status. - clear. - set." "clear,set"
eventfld.word 0x00 7. "           AERR       ,Access Error IRQ enabled status. - clear. - set." "clear,set"
eventfld.word 0x00 6. "             STC        ,Start Condition IRQ enabled status. - clear. - set." "clear,set"
textline "                          "
eventfld.word 0x00 5. " GC                 ,General call IRQ enabled status. Set to 1 by core when General call address detected and interrupt signaled to IRQ_Crossbar. Write 1 to clear. - clear. - set." "clear,set"
eventfld.word 0x00 4. "           XRDY       ,Transmit data ready IRQ enabled status. Set to 1 by core when transmitter and when new data is requested. When set to 1 by core, an interrupt is signaled to IRQ_Crossbar. Write 1 to clear. - clear. - set." "clear,set"
eventfld.word 0x00 3. "             RRDY       ,Receive data ready IRQ enabled status. Set to 1 by core when receiver mode, a new data is able to be read. When set to 1 by core, an interrupt is signaled to IRQ_Crossbar. Write 1 to clear. - clear. - set." "clear,set"
textline "                          "
eventfld.word 0x00 2. " ARDY               ,Register access ready IRQ enabled status. When set to 1 it indicates that previous access has been performed and registers are ready to be accessed again. An interrupt is signaled to IRQ_Crossbar. Write 1 to clear. - clear. - set." "clear,set"
eventfld.word 0x00 1. "           NACK       ,No acknowledgement IRQ enabled status. Bit is set when No Acknowledge has been received, an interrupt is signaled to IRQ_Crossbar. Write 1 to clear this bit. - clear. - set." "clear,set"
eventfld.word 0x00 0. "             AL         ,Arbitration lost IRQ enabled status. This bit is automatically set by the hardware when it loses the Arbitration in master transmit mode, an interrupt is signaled to IRQ_Crossbar. During reads, it always returns 0. - clear. - set." "clear,set"
group.word 0x2C++0x1
line.word 0x00 "I2C_IRQENABLE_SET,Per-event interrupt enable bit vector."
bitfld.word 0x00 14. " XDR_IE             ,Transmit Draining interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW[XDR].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 13. "         RDR_IE     ,Receive Draining interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [RDR].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 11. "           ROVR       ,Receive overrun enable set.Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 10. " XUDF               ,Transmit underflow enable set.Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 9. "         AAS_IE     ,Addressed as Slave interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [AAS].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 8. "           BF_IE      ,Bus Free interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [BF].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 7. " AERR_IE            ,Access Error interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [AERR].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 6. "         STC_IE     ,Start Condition interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [STC].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 5. "           GC_IE      ,General call Interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [GC]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 4. " XRDY_IE            ,Transmit data ready interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [XRDY]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 3. "         RRDY_IE    ,Receive data ready interrupt enable set. Unmask the interrupt signaled by bit in I2C_IRQSTTUS_RAW [RRDY]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 2. "           ARDY_IE    ,Register access ready interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [ARDY]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 1. " NACK_IE            ,No acknowledgement interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [NACK]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 0. "         AL_IE      ,Arbitration lost interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [AL]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
group.word 0x30++0x1
line.word 0x00 "I2C_IRQENABLE_CLR,Per-event interrupt clear bit vector."
eventfld.word 0x00 14. " XDR_IE             ,Transmit Draining interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [XDR].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 13. "         RDR_IE     ,Receive Draining interrupt enable clear. Mask the interrupt signaled by bit in I2C_IRQSTAUS_RAW [RDR].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 11. "           ROVR       ,Receive overrun enable clear.Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
eventfld.word 0x00 10. " XUDF               ,Transmit underflow enable clear.Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 9. "         AAS_IE     ,Addressed as Slave interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [AAS].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 8. "           BF_IE      ,Bus Free interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [BF].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
eventfld.word 0x00 7. " AERR_IE            ,Access Error interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [AERR].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 6. "         STC_IE     ,Start Condition interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [STC].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 5. "           GC_IE      ,General call Interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [GC]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
eventfld.word 0x00 4. " XRDY_IE            ,Transmit data ready interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [XRDY]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 3. "         RRDY_IE    ,Receive data ready interrupt enable clear. Mask the interrupt signaled by bit in I2C_IRQSTAUS_RAW [RRDY]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 2. "           ARDY_IE    ,Register access ready interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [ARDY]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
eventfld.word 0x00 1. " NACK_IE            ,No acknowledgement interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [NACK]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 0. "         AL_IE      ,Arbitration lost interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW[AL]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
group.word 0x34++0x1
line.word 0x00 "I2C_WE,I2C wakeup enable vector."
bitfld.word 0x00 14. " XDR                ,Transmit Draining wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 13. "         RDR        ,Receive Draining wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 11. "           ROVR       ,Receive overrun wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 10. " XUDF               ,Transmit underflow wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 9. "         AAS        ,Address as slave IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 8. "           BF         ,Bus Free IRQ wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 6. " STC                ,Start Condition IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 5. "         GC         ,General call IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 3. "           DRDY       ,Receive/Transmit data ready IRQ wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 2. " ARDY               ,Register access ready IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 1. "         NACK       ,No acknowledgment IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 0. "           AL         ,Arbitration lost IRQ wakeup set. - disable. - enable." "disable,enable"
group.word 0x38++0x1
line.word 0x00 "I2C_DMARXENABLE_SET,Per-event DMA RX enable set."
bitfld.word 0x00 0. " DMARX_ENABLE_SET   ,Receive DMA channel enable set." "Disabled,Enabled"
group.word 0x3C++0x1
line.word 0x00 "I2C_DMATXENABLE_SET,Per-event DMA TX enable set."
bitfld.word 0x00 0. " DMATX_ENABLE_SET   ,Transmit DMA channel enable set." "Disabled,Enabled"
group.word 0x40++0x1
line.word 0x00 "I2C_DMARXENABLE_CLR,Per-event DMA RX enable clear."
bitfld.word 0x00 0. " DMARX_ENABLE_CLEAR ,Receive DMA channel enable clear." "No_effect,Cleared"
group.word 0x44++0x1
line.word 0x00 "I2C_DMATXENABLE_CLR,Per-event DMA TX enable clear."
bitfld.word 0x00 0. " DMATX_ENABLE_CLEAR ,Transmit DMA channel enable clear." "No_effect,Cleared"
group.word 0x48++0x1
line.word 0x00 "I2C_DMARXWAKE_EN,Per-event DMA RX wakeup enable."
bitfld.word 0x00 14. " XDR                ,Transmit Draining wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 13. "         RDR        ,Receive Draining wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 11. "           ROVR       ,Receive overrun wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 10. " XUDF               ,Transmit underflow wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 9. "         AAS        ,Address as slave IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 8. "           BF         ,Bus Free IRQ wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 6. " STC                ,Start Condition IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 5. "         GC         ,General call IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 3. "           DRDY       ,Receive/Transmit data ready IRQ wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 2. " ARDY               ,Register access ready IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 1. "         NACK       ,No acknowledgment IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 0. "           AL         ,Arbitration lost IRQ wakeup set. - disable. - enable." "disable,enable"
group.word 0x4C++0x1
line.word 0x00 "I2C_DMATXWAKE_EN,Per-event DMA TX wakeup enable."
bitfld.word 0x00 14. " XDR                ,Transmit Draining wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 13. "         RDR        ,Receive Draining wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 11. "           ROVR       ,Receive overrun wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 10. " XUDF               ,Transmit underflow wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 9. "         AAS        ,Address as slave IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 8. "           BF         ,Bus Free IRQ wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 6. " STC                ,Start Condition IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 5. "         GC         ,General call IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 3. "           DRDY       ,Receive/Transmit data ready IRQ wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 2. " ARDY               ,Register access ready IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 1. "         NACK       ,No acknowledgment IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 0. "           AL         ,Arbitration lost IRQ wakeup set. - disable. - enable." "disable,enable"
group.word 0x90++0x1
line.word 0x00 "I2C_SYSS,System Status register"
bitfld.word 0x00 0. " RDONE              ,Reset done bit - rstcomp. - rstongoing." "rstongoing,rstcomp"
group.word 0x94++0x1
line.word 0x00 "I2C_BUF,Buffer Configuration register"
bitfld.word 0x00 15. " RDMA_EN            ,Receive DMA channel enable - disable. - enable." "disable,enable"
bitfld.word 0x00 14. "         RXFIFO_CLR ,Receive FIFO clear - nmode. - rstmode." "nmode,rstmode"
bitfld.word 0x00 8.--13. "           RXTRSH     ,Threshold value for FIFO buffer in RX mode" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                          "
bitfld.word 0x00 7. " XDMA_EN            ,Transmit DMA channel enable - disable. - enable." "disable,enable"
bitfld.word 0x00 6. "         TXFIFO_CLR ,Transmit FIFO clear - nmode. - rstmode." "nmode,rstmode"
bitfld.word 0x00 0.--5. "           TXTRSH     ,Threshold value for FIFO buffer in TX mode" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.word 0x98++0x1
line.word 0x00 "I2C_CNT,Data counter register"
hexmask.word 0x00 0.--15. 1. " DCOUNT             ,Data count"
group.word 0x9C++0x1
line.word 0x00 "I2C_DATA,Data access register"
hexmask.word.byte 0x00 0.--7. 1. " DATA               ,Transmit/Receive data FIFO endpoint"
group.word 0xA4++0x1
line.word 0x00 "I2C_CON,I2C configuration register."
bitfld.word 0x00 15. " I2C_EN             ,I2C module enable. - disable. - enable." "disable,enable"
bitfld.word 0x00 12.--13. "         OPMODE     ,Operation mode selection. - fsi2c. - hsi2c. - reserved. - sccb." "fsi2c,hsi2c,sccb,reserved"
bitfld.word 0x00 11. "          STB        ,Start byte mode (master mode only). - normal. - stb." "normal,stb"
textline "                          "
bitfld.word 0x00 10. " MST                ,Master/slave mode. - slv. - mst." "slv,mst"
bitfld.word 0x00 9. "             TRX        ,Transmitter/Receiver mode (master mode only). - rcv. - trx." "rcv,trx"
bitfld.word 0x00 8. "               XSA        ,Expand Slave address. - b07. - b10." "b07,b10"
textline "                          "
bitfld.word 0x00 7. " XOA0               ,Expand Own address 0. - b07. - b10." "b07,b10"
bitfld.word 0x00 6. "             XOA1       ,Expand Own address 1. - b07. - b10." "b07,b10"
bitfld.word 0x00 5. "               XOA2       ,Expand Own address 2. - b07. - b10." "b07,b10"
textline "                          "
bitfld.word 0x00 4. " XOA3               ,Expand Own address 3. - b07. - b10." "b07,b10"
bitfld.word 0x00 1. "             STP        ,Stop condition (master mode only). - nstp. - stp." "nstp,stp"
bitfld.word 0x00 0. "              STT        ,Start condition (master mode only). - nstt. - stt." "nstt,stt"
group.word 0xA8++0x1
line.word 0x00 "I2C_OA,Own address register"
bitfld.word 0x00 13.--15. " MCODE              ,Master Code" "0,1,2,3,4,5,6,7"
hexmask.word 0x00 0.--9. 1. "               OA         ,Own address"
group.word 0xAC++0x1
line.word 0x00 "I2C_SA,Slave address register"
hexmask.word 0x00 0.--9. 1. " SA                 ,Slave address"
group.word 0xB0++0x1
line.word 0x00 "I2C_PSC,I2C Clock Prescaler Register"
hexmask.word.byte 0x00 0.--7. 1. " PSC                ,Fast/Standard mode prescale sampling clock divider value 0x0: Divide by 1 0x1: Divide by 2 .............................. 0xFF: Divide by 256"
group.word 0xB4++0x1
line.word 0x00 "I2C_SCLL,I2C SCL Low Time Register."
hexmask.word.byte 0x00 8.--15. 1. " HSSCLL             ,High speed mode SCL low time - The value of the bit field is automatically increased by 7. . - ."
hexmask.word.byte 0x00 0.--7. 1. "              SCLL       ,Fast/standard mode SCL low time - The value of the bit field is automatically increased by 7. . - ."
group.word 0xB8++0x1
line.word 0x00 "I2C_SCLH,I2C SCL High Time Register."
hexmask.word.byte 0x00 8.--15. 1. " HSSCLH             ,High speed mode SCL high time - The value of the bit field is automatically increased by 5. . - ."
hexmask.word.byte 0x00 0.--7. 1. "              SCLH       ,Fast/standard mode SCL high time - The value of the bit field is automatically increased by 5. . - ."
group.word 0xBC++0x1
line.word 0x00 "I2C_SYSTEST,I2C System Test Register."
bitfld.word 0x00 15. " ST_EN              ,System test enable. - disable. - enable." "disable,enable"
bitfld.word 0x00 14. "         FREE       ,Free running mode (on breakpoint) - stop. - free." "stop,free"
bitfld.word 0x00 12.--13. "              TMODE      ,Test mode select. - functional. - reserved. - loopback. - test." "functional,reserved,test,loopback"
textline "                          "
bitfld.word 0x00 11. " SSB                ,Set all status bits inI2C_IRQSTATUS_RAW [14:0]. - noaction. - setstatus." "noaction,setstatus"
bitfld.word 0x00 8. "       SCL_I_FUNC ,SCL line input value (functional mode). - sclih. - sclil." "sclil,sclih"
bitfld.word 0x00 7. "             SCL_O_FUNC ,SCL line output value (functional mode). - sclih. - sclil." "sclil,sclih"
textline "                          "
bitfld.word 0x00 6. " SDA_I_FUNC         ,SDA line input value (functional mode). - sdaih. - sdail." "sdail,sdaih"
bitfld.word 0x00 5. "           SDA_O_FUNC ,SDA line output value (functional mode). - sdaoh. - sdaol." "sdaol,sdaoh"
bitfld.word 0x00 3. "             SCL_I      ,SCL line sense input value - sclih. - sclil." "sclil,sclih"
textline "                          "
bitfld.word 0x00 2. " SCL_O              ,SCL line drive output value. - sclol. - scloh." "sclol,scloh"
bitfld.word 0x00 1. "           SDA_I      ,SDA line sense input value. - sdaih. - sdail." "sdail,sdaih"
bitfld.word 0x00 0. "             SDA_O      ,SDA line drive output value. - sdaol. - sdaoh." "sdaol,sdaoh"
rgroup.word 0xC0++0x1
line.word 0x00 "I2C_BUFSTAT,I2C Buffer Status Register."
bitfld.word 0x00 14.--15. " FIFODEPTH          ,Internal FIFO buffers depth. - . - . - . - ." "8-bytes_FIFO.,16-bytes_FIFO.,32-bytes_FIFO.,64-bytes_FIFO."
bitfld.word 0x00 8.--13. "  RXSTAT     ,RX Buffer Status" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.word 0x00 0.--5. "                TXSTAT     ,TX Buffer Status." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.word 0xC4++0x1
line.word 0x00 "I2C_OA1,I2C Own Address 1 Register"
hexmask.word 0x00 0.--9. 1. " OA1                ,Own address 1"
group.word 0xC8++0x1
line.word 0x00 "I2C_OA2,I2C Own Address 2 Register"
hexmask.word 0x00 0.--9. 1. " OA2                ,Own address 2"
group.word 0xCC++0x1
line.word 0x00 "I2C_OA3,I2C Own Address 3 Register"
hexmask.word 0x00 0.--9. 1. " OA3                ,Own address 3"
rgroup.word 0xD0++0x1
line.word 0x00 "I2C_ACTOA,I2C Active Own Address Register."
bitfld.word 0x00 3. " OA3_ACT            ,Own Address 3 active. - active. - inactive." "inactive,active"
bitfld.word 0x00 2. "        OA2_ACT    ,Own Address 2 active. - active. - inactive." "inactive,active"
bitfld.word 0x00 1. "          OA1_ACT    ,Own Address 1 active. - active. - inactive." "inactive,active"
textline "                          "
bitfld.word 0x00 0. " OA0_ACT            ,Own Address 0 active. - active. - inactive." "inactive,active"
group.word 0xD4++0x1
line.word 0x00 "I2C_SBLOCK,I2C Clock Blocking Enable Register."
bitfld.word 0x00 3. " OA3_EN             ,Enable I2C Clock Blocking for Own Address 3. - unlock. - lock." "unlock,lock"
bitfld.word 0x00 2. "          OA2_EN     ,Enable I2C Clock Blocking for Own Address 2. - unlock. - lock." "unlock,lock"
bitfld.word 0x00 1. "            OA1_EN     ,Enable I2C Clock Blocking for Own Address 1. - unlock. - lock." "unlock,lock"
textline "                          "
bitfld.word 0x00 0. " OA0_EN             ,Enable I2C Clock Blocking for Own Address 0. - unlock. - lock." "unlock,lock"
width 0x0B
tree.end
tree "I2C5"
base ad:0x4807C000
width 21.
rgroup.word 0x0++0x1
line.word 0x00 "I2C_REVNB_LO,IP Revision Identifier (X.Y.R) Used by software to track features, bugs, and compatibility"
hexmask.word 0x00 0.--15. 1. " REVISION           ,IP Revision"
rgroup.word 0x4++0x1
line.word 0x00 "I2C_REVNB_HI,IP Revision Identifier (X.Y.R) Used by software to track features, bugs, and compatibility"
hexmask.word 0x00 0.--15. 1. " REVISION           ,IP Revision"
group.word 0x10++0x1
line.word 0x00 "I2C_SYSC,System Configuration register"
bitfld.word 0x00 8.--9. " CLKACTIVITY        ,Clock Activity selection bits - boothoff. - ocpon. - boothon. - syson." "boothoff,ocpon,boothon,syson"
bitfld.word 0x00 3.--4. "        IDLEMODE   ,Idle Mode selection bits - smartidle. - smartidle_wakeup. - smartidle_wakeup. - smartidle." "smartidle,smartidle_wakeup,smartidle_wakeup,smartidle"
bitfld.word 0x00 2. "  ENAWAKEUP  ,Enable Wakeup control bit - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 1. " SRST               ,SoftReset bit - nmode. - rstmode." "nmode,rstmode"
bitfld.word 0x00 0. "         AUTOIDLE   ,Autoidle bit - disable. - enable." "disable,enable"
wgroup.word 0x20++0x1
line.word 0x00 "I2C_EOI,End Of Interrupt number specification"
bitfld.word 0x00 0. " LINE_NUMBER        ,Software End Of Interrupt (EOI) control. Write number of interrupt output." "0,1"
group.word 0x24++0x1
line.word 0x00 "I2C_IRQSTATUS_RAW,Per-event raw interrupt status vector. The raw status is set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug"
bitfld.word 0x00 14. " XDR                ,Transmit draining IRQ status. - clear. - set." "clear,set"
bitfld.word 0x00 13. "           RDR        ,Receive draining IRQ status. - clear. - set." "clear,set"
bitfld.word 0x00 12. "             BB         ,Bus busy status. Writing into this bit has no effect. - set. - clear." "clear,set"
textline "                          "
bitfld.word 0x00 11. " ROVR               ,Receive overrun status. Writing into this bit has no effect. - set. - clear." "clear,set"
bitfld.word 0x00 10. "           XUDF       ,Transmit underflow status. Writing into this bit has no effect. - set. - clear." "clear,set"
bitfld.word 0x00 9. "             AAS        ,Address recognized as slave IRQ status. - clear. - set." "clear,set"
textline "                          "
bitfld.word 0x00 8. " BF                 ,Bus Free IRQ status. - clear. - set." "clear,set"
bitfld.word 0x00 7. "           AERR       ,Access Error IRQ status. - clear. - set." "clear,set"
bitfld.word 0x00 6. "             STC        ,Start Condition IRQ status. - clear. - set." "clear,set"
textline "                          "
bitfld.word 0x00 5. " GC                 ,General call IRQ status. Set to 1 by core when General call address detected and interrupt signaled to IRQ_Crossbar. - clear. - set." "clear,set"
bitfld.word 0x00 4. "           XRDY       ,Transmit data ready IRQ status. Set to 1 by core when transmitter and when new data is requested. When set to 1 by core, an interrupt is signaled to IRQ_Crossbar. - clear. - set." "clear,set"
bitfld.word 0x00 3. "             RRDY       ,Receive data ready IRQ status. Set to 1 by core when receiver mode, a new data is able to be read. When set to 1 by core, an interrupt is signaled to IRQ_Crossbar. - clear. - set." "clear,set"
textline "                          "
bitfld.word 0x00 2. " ARDY               ,Register access ready IRQ status. When set to 1 it indicates that previous access has been performed and registers are ready to be accessed again. An interrupt is signaled to IRQ_Crossbar. - clear. - set." "clear,set"
bitfld.word 0x00 1. "           NACK       ,No acknowledgement IRQ status. Bit is set when No Acknowledge has been received, an interrupt is signaled to IRQ_Crossbar. - clear. - set." "clear,set"
bitfld.word 0x00 0. "             AL         ,Arbitration lost IRQ status. This bit is automatically set by the hardware when it loses the Arbitration in master transmit mode, an interrupt is signaled to IRQ_Crossbar. During reads, it always returns 0. - clear. - set." "clear,set"
group.word 0x28++0x1
line.word 0x00 "I2C_IRQSTATUS,Per-event enabled interrupt status vector"
eventfld.word 0x00 14. " XDR                ,Transmit draining IRQ enabled status. - clear. - set." "clear,set"
eventfld.word 0x00 13. "           RDR        ,Receive draining IRQ enabled status. - clear. - set." "clear,set"
bitfld.word 0x00 12. "             BB         ,Bus busy enabled status. Writing into this bit has no effect. - set. - clear." "clear,set"
textline "                          "
eventfld.word 0x00 11. " ROVR               ,Receive overrun enabled status. Writing into this bit has no effect. - set. - clear." "clear,set"
eventfld.word 0x00 10. "           XUDF       ,Transmit underflow enabled status. Writing into this bit has no effect. - set. - clear." "clear,set"
eventfld.word 0x00 9. "             AAS        ,Address recognized as slave IRQ enabled status. - clear. - set." "clear,set"
textline "                          "
eventfld.word 0x00 8. " BF                 ,Bus Free IRQ enabled status. - clear. - set." "clear,set"
eventfld.word 0x00 7. "           AERR       ,Access Error IRQ enabled status. - clear. - set." "clear,set"
eventfld.word 0x00 6. "             STC        ,Start Condition IRQ enabled status. - clear. - set." "clear,set"
textline "                          "
eventfld.word 0x00 5. " GC                 ,General call IRQ enabled status. Set to 1 by core when General call address detected and interrupt signaled to IRQ_Crossbar. Write 1 to clear. - clear. - set." "clear,set"
eventfld.word 0x00 4. "           XRDY       ,Transmit data ready IRQ enabled status. Set to 1 by core when transmitter and when new data is requested. When set to 1 by core, an interrupt is signaled to IRQ_Crossbar. Write 1 to clear. - clear. - set." "clear,set"
eventfld.word 0x00 3. "             RRDY       ,Receive data ready IRQ enabled status. Set to 1 by core when receiver mode, a new data is able to be read. When set to 1 by core, an interrupt is signaled to IRQ_Crossbar. Write 1 to clear. - clear. - set." "clear,set"
textline "                          "
eventfld.word 0x00 2. " ARDY               ,Register access ready IRQ enabled status. When set to 1 it indicates that previous access has been performed and registers are ready to be accessed again. An interrupt is signaled to IRQ_Crossbar. Write 1 to clear. - clear. - set." "clear,set"
eventfld.word 0x00 1. "           NACK       ,No acknowledgement IRQ enabled status. Bit is set when No Acknowledge has been received, an interrupt is signaled to IRQ_Crossbar. Write 1 to clear this bit. - clear. - set." "clear,set"
eventfld.word 0x00 0. "             AL         ,Arbitration lost IRQ enabled status. This bit is automatically set by the hardware when it loses the Arbitration in master transmit mode, an interrupt is signaled to IRQ_Crossbar. During reads, it always returns 0. - clear. - set." "clear,set"
group.word 0x2C++0x1
line.word 0x00 "I2C_IRQENABLE_SET,Per-event interrupt enable bit vector."
bitfld.word 0x00 14. " XDR_IE             ,Transmit Draining interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW[XDR].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 13. "         RDR_IE     ,Receive Draining interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [RDR].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 11. "           ROVR       ,Receive overrun enable set.Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 10. " XUDF               ,Transmit underflow enable set.Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 9. "         AAS_IE     ,Addressed as Slave interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [AAS].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 8. "           BF_IE      ,Bus Free interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [BF].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 7. " AERR_IE            ,Access Error interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [AERR].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 6. "         STC_IE     ,Start Condition interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [STC].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 5. "           GC_IE      ,General call Interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [GC]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 4. " XRDY_IE            ,Transmit data ready interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [XRDY]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 3. "         RRDY_IE    ,Receive data ready interrupt enable set. Unmask the interrupt signaled by bit in I2C_IRQSTTUS_RAW [RRDY]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 2. "           ARDY_IE    ,Register access ready interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [ARDY]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 1. " NACK_IE            ,No acknowledgement interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [NACK]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
bitfld.word 0x00 0. "         AL_IE      ,Arbitration lost interrupt enable set. Unmask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [AL]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
group.word 0x30++0x1
line.word 0x00 "I2C_IRQENABLE_CLR,Per-event interrupt clear bit vector."
eventfld.word 0x00 14. " XDR_IE             ,Transmit Draining interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [XDR].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 13. "         RDR_IE     ,Receive Draining interrupt enable clear. Mask the interrupt signaled by bit in I2C_IRQSTAUS_RAW [RDR].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 11. "           ROVR       ,Receive overrun enable clear.Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
eventfld.word 0x00 10. " XUDF               ,Transmit underflow enable clear.Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 9. "         AAS_IE     ,Addressed as Slave interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [AAS].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 8. "           BF_IE      ,Bus Free interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [BF].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
eventfld.word 0x00 7. " AERR_IE            ,Access Error interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [AERR].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 6. "         STC_IE     ,Start Condition interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [STC].Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 5. "           GC_IE      ,General call Interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [GC]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
eventfld.word 0x00 4. " XRDY_IE            ,Transmit data ready interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [XRDY]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 3. "         RRDY_IE    ,Receive data ready interrupt enable clear. Mask the interrupt signaled by bit in I2C_IRQSTAUS_RAW [RRDY]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 2. "           ARDY_IE    ,Register access ready interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [ARDY]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
textline "                          "
eventfld.word 0x00 1. " NACK_IE            ,No acknowledgement interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW [NACK]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
eventfld.word 0x00 0. "         AL_IE      ,Arbitration lost interrupt enable clear. Mask the interrupt signaled by bit inI2C_IRQSTATUS_RAW[AL]Read:. - disable. - disable. - enable. Write:. - enable. - enable. - enable." "disable,enable"
group.word 0x34++0x1
line.word 0x00 "I2C_WE,I2C wakeup enable vector."
bitfld.word 0x00 14. " XDR                ,Transmit Draining wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 13. "         RDR        ,Receive Draining wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 11. "           ROVR       ,Receive overrun wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 10. " XUDF               ,Transmit underflow wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 9. "         AAS        ,Address as slave IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 8. "           BF         ,Bus Free IRQ wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 6. " STC                ,Start Condition IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 5. "         GC         ,General call IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 3. "           DRDY       ,Receive/Transmit data ready IRQ wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 2. " ARDY               ,Register access ready IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 1. "         NACK       ,No acknowledgment IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 0. "           AL         ,Arbitration lost IRQ wakeup set. - disable. - enable." "disable,enable"
group.word 0x38++0x1
line.word 0x00 "I2C_DMARXENABLE_SET,Per-event DMA RX enable set."
bitfld.word 0x00 0. " DMARX_ENABLE_SET   ,Receive DMA channel enable set." "Disabled,Enabled"
group.word 0x3C++0x1
line.word 0x00 "I2C_DMATXENABLE_SET,Per-event DMA TX enable set."
bitfld.word 0x00 0. " DMATX_ENABLE_SET   ,Transmit DMA channel enable set." "Disabled,Enabled"
group.word 0x40++0x1
line.word 0x00 "I2C_DMARXENABLE_CLR,Per-event DMA RX enable clear."
bitfld.word 0x00 0. " DMARX_ENABLE_CLEAR ,Receive DMA channel enable clear." "No_effect,Cleared"
group.word 0x44++0x1
line.word 0x00 "I2C_DMATXENABLE_CLR,Per-event DMA TX enable clear."
bitfld.word 0x00 0. " DMATX_ENABLE_CLEAR ,Transmit DMA channel enable clear." "No_effect,Cleared"
group.word 0x48++0x1
line.word 0x00 "I2C_DMARXWAKE_EN,Per-event DMA RX wakeup enable."
bitfld.word 0x00 14. " XDR                ,Transmit Draining wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 13. "         RDR        ,Receive Draining wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 11. "           ROVR       ,Receive overrun wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 10. " XUDF               ,Transmit underflow wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 9. "         AAS        ,Address as slave IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 8. "           BF         ,Bus Free IRQ wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 6. " STC                ,Start Condition IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 5. "         GC         ,General call IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 3. "           DRDY       ,Receive/Transmit data ready IRQ wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 2. " ARDY               ,Register access ready IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 1. "         NACK       ,No acknowledgment IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 0. "           AL         ,Arbitration lost IRQ wakeup set. - disable. - enable." "disable,enable"
group.word 0x4C++0x1
line.word 0x00 "I2C_DMATXWAKE_EN,Per-event DMA TX wakeup enable."
bitfld.word 0x00 14. " XDR                ,Transmit Draining wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 13. "         RDR        ,Receive Draining wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 11. "           ROVR       ,Receive overrun wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 10. " XUDF               ,Transmit underflow wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 9. "         AAS        ,Address as slave IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 8. "           BF         ,Bus Free IRQ wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 6. " STC                ,Start Condition IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 5. "         GC         ,General call IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 3. "           DRDY       ,Receive/Transmit data ready IRQ wakeup set. - disable. - enable." "disable,enable"
textline "                          "
bitfld.word 0x00 2. " ARDY               ,Register access ready IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 1. "         NACK       ,No acknowledgment IRQ wakeup set. - disable. - enable." "disable,enable"
bitfld.word 0x00 0. "           AL         ,Arbitration lost IRQ wakeup set. - disable. - enable." "disable,enable"
group.word 0x90++0x1
line.word 0x00 "I2C_SYSS,System Status register"
bitfld.word 0x00 0. " RDONE              ,Reset done bit - rstcomp. - rstongoing." "rstongoing,rstcomp"
group.word 0x94++0x1
line.word 0x00 "I2C_BUF,Buffer Configuration register"
bitfld.word 0x00 15. " RDMA_EN            ,Receive DMA channel enable - disable. - enable." "disable,enable"
bitfld.word 0x00 14. "         RXFIFO_CLR ,Receive FIFO clear - nmode. - rstmode." "nmode,rstmode"
bitfld.word 0x00 8.--13. "           RXTRSH     ,Threshold value for FIFO buffer in RX mode" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                          "
bitfld.word 0x00 7. " XDMA_EN            ,Transmit DMA channel enable - disable. - enable." "disable,enable"
bitfld.word 0x00 6. "         TXFIFO_CLR ,Transmit FIFO clear - nmode. - rstmode." "nmode,rstmode"
bitfld.word 0x00 0.--5. "           TXTRSH     ,Threshold value for FIFO buffer in TX mode" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.word 0x98++0x1
line.word 0x00 "I2C_CNT,Data counter register"
hexmask.word 0x00 0.--15. 1. " DCOUNT             ,Data count"
group.word 0x9C++0x1
line.word 0x00 "I2C_DATA,Data access register"
hexmask.word.byte 0x00 0.--7. 1. " DATA               ,Transmit/Receive data FIFO endpoint"
group.word 0xA4++0x1
line.word 0x00 "I2C_CON,I2C configuration register."
bitfld.word 0x00 15. " I2C_EN             ,I2C module enable. - disable. - enable." "disable,enable"
bitfld.word 0x00 12.--13. "         OPMODE     ,Operation mode selection. - fsi2c. - hsi2c. - reserved. - sccb." "fsi2c,hsi2c,sccb,reserved"
bitfld.word 0x00 11. "          STB        ,Start byte mode (master mode only). - normal. - stb." "normal,stb"
textline "                          "
bitfld.word 0x00 10. " MST                ,Master/slave mode. - slv. - mst." "slv,mst"
bitfld.word 0x00 9. "             TRX        ,Transmitter/Receiver mode (master mode only). - rcv. - trx." "rcv,trx"
bitfld.word 0x00 8. "               XSA        ,Expand Slave address. - b07. - b10." "b07,b10"
textline "                          "
bitfld.word 0x00 7. " XOA0               ,Expand Own address 0. - b07. - b10." "b07,b10"
bitfld.word 0x00 6. "             XOA1       ,Expand Own address 1. - b07. - b10." "b07,b10"
bitfld.word 0x00 5. "               XOA2       ,Expand Own address 2. - b07. - b10." "b07,b10"
textline "                          "
bitfld.word 0x00 4. " XOA3               ,Expand Own address 3. - b07. - b10." "b07,b10"
bitfld.word 0x00 1. "             STP        ,Stop condition (master mode only). - nstp. - stp." "nstp,stp"
bitfld.word 0x00 0. "              STT        ,Start condition (master mode only). - nstt. - stt." "nstt,stt"
group.word 0xA8++0x1
line.word 0x00 "I2C_OA,Own address register"
bitfld.word 0x00 13.--15. " MCODE              ,Master Code" "0,1,2,3,4,5,6,7"
hexmask.word 0x00 0.--9. 1. "               OA         ,Own address"
group.word 0xAC++0x1
line.word 0x00 "I2C_SA,Slave address register"
hexmask.word 0x00 0.--9. 1. " SA                 ,Slave address"
group.word 0xB0++0x1
line.word 0x00 "I2C_PSC,I2C Clock Prescaler Register"
hexmask.word.byte 0x00 0.--7. 1. " PSC                ,Fast/Standard mode prescale sampling clock divider value 0x0: Divide by 1 0x1: Divide by 2 .............................. 0xFF: Divide by 256"
group.word 0xB4++0x1
line.word 0x00 "I2C_SCLL,I2C SCL Low Time Register."
hexmask.word.byte 0x00 8.--15. 1. " HSSCLL             ,High speed mode SCL low time - The value of the bit field is automatically increased by 7. . - ."
hexmask.word.byte 0x00 0.--7. 1. "              SCLL       ,Fast/standard mode SCL low time - The value of the bit field is automatically increased by 7. . - ."
group.word 0xB8++0x1
line.word 0x00 "I2C_SCLH,I2C SCL High Time Register."
hexmask.word.byte 0x00 8.--15. 1. " HSSCLH             ,High speed mode SCL high time - The value of the bit field is automatically increased by 5. . - ."
hexmask.word.byte 0x00 0.--7. 1. "              SCLH       ,Fast/standard mode SCL high time - The value of the bit field is automatically increased by 5. . - ."
group.word 0xBC++0x1
line.word 0x00 "I2C_SYSTEST,I2C System Test Register."
bitfld.word 0x00 15. " ST_EN              ,System test enable. - disable. - enable." "disable,enable"
bitfld.word 0x00 14. "         FREE       ,Free running mode (on breakpoint) - stop. - free." "stop,free"
bitfld.word 0x00 12.--13. "              TMODE      ,Test mode select. - functional. - reserved. - loopback. - test." "functional,reserved,test,loopback"
textline "                          "
bitfld.word 0x00 11. " SSB                ,Set all status bits inI2C_IRQSTATUS_RAW [14:0]. - noaction. - setstatus." "noaction,setstatus"
bitfld.word 0x00 8. "       SCL_I_FUNC ,SCL line input value (functional mode). - sclih. - sclil." "sclil,sclih"
bitfld.word 0x00 7. "             SCL_O_FUNC ,SCL line output value (functional mode). - sclih. - sclil." "sclil,sclih"
textline "                          "
bitfld.word 0x00 6. " SDA_I_FUNC         ,SDA line input value (functional mode). - sdaih. - sdail." "sdail,sdaih"
bitfld.word 0x00 5. "           SDA_O_FUNC ,SDA line output value (functional mode). - sdaoh. - sdaol." "sdaol,sdaoh"
bitfld.word 0x00 3. "             SCL_I      ,SCL line sense input value - sclih. - sclil." "sclil,sclih"
textline "                          "
bitfld.word 0x00 2. " SCL_O              ,SCL line drive output value. - sclol. - scloh." "sclol,scloh"
bitfld.word 0x00 1. "           SDA_I      ,SDA line sense input value. - sdaih. - sdail." "sdail,sdaih"
bitfld.word 0x00 0. "             SDA_O      ,SDA line drive output value. - sdaol. - sdaoh." "sdaol,sdaoh"
rgroup.word 0xC0++0x1
line.word 0x00 "I2C_BUFSTAT,I2C Buffer Status Register."
bitfld.word 0x00 14.--15. " FIFODEPTH          ,Internal FIFO buffers depth. - . - . - . - ." "8-bytes_FIFO.,16-bytes_FIFO.,32-bytes_FIFO.,64-bytes_FIFO."
bitfld.word 0x00 8.--13. "  RXSTAT     ,RX Buffer Status" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.word 0x00 0.--5. "                TXSTAT     ,TX Buffer Status." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.word 0xC4++0x1
line.word 0x00 "I2C_OA1,I2C Own Address 1 Register"
hexmask.word 0x00 0.--9. 1. " OA1                ,Own address 1"
group.word 0xC8++0x1
line.word 0x00 "I2C_OA2,I2C Own Address 2 Register"
hexmask.word 0x00 0.--9. 1. " OA2                ,Own address 2"
group.word 0xCC++0x1
line.word 0x00 "I2C_OA3,I2C Own Address 3 Register"
hexmask.word 0x00 0.--9. 1. " OA3                ,Own address 3"
rgroup.word 0xD0++0x1
line.word 0x00 "I2C_ACTOA,I2C Active Own Address Register."
bitfld.word 0x00 3. " OA3_ACT            ,Own Address 3 active. - active. - inactive." "inactive,active"
bitfld.word 0x00 2. "        OA2_ACT    ,Own Address 2 active. - active. - inactive." "inactive,active"
bitfld.word 0x00 1. "          OA1_ACT    ,Own Address 1 active. - active. - inactive." "inactive,active"
textline "                          "
bitfld.word 0x00 0. " OA0_ACT            ,Own Address 0 active. - active. - inactive." "inactive,active"
group.word 0xD4++0x1
line.word 0x00 "I2C_SBLOCK,I2C Clock Blocking Enable Register."
bitfld.word 0x00 3. " OA3_EN             ,Enable I2C Clock Blocking for Own Address 3. - unlock. - lock." "unlock,lock"
bitfld.word 0x00 2. "          OA2_EN     ,Enable I2C Clock Blocking for Own Address 2. - unlock. - lock." "unlock,lock"
bitfld.word 0x00 1. "            OA1_EN     ,Enable I2C Clock Blocking for Own Address 1. - unlock. - lock." "unlock,lock"
textline "                          "
bitfld.word 0x00 0. " OA0_EN             ,Enable I2C Clock Blocking for Own Address 0. - unlock. - lock." "unlock,lock"
width 0x0B
tree.end
tree.end
tree.end
tree.open "UART_IrDA_CIR"
tree.open "UART3"
tree "UART3"
base ad:0x48020000
width 23.
group.long 0x0++0x3
line.long 0x00 "UART_DLL,This register, with, stores the 14-bit divisor for generation of the baud clock in the baud rate generator. DLH stores the most-significant part of the divisor. DLL stores the least-significant part of the divisor."
hexmask.long.byte 0x00 0.--7. 1. " CLOCK_LSB                 ,Stores the 8-bit LSB divisor value"
rgroup.long 0x0++0x3
line.long 0x00 "UART_RHR,The receiver section consists of the receiver holding register (RHR) and the receiver shift register. The RHR is a 64-byte FIFO. The receiver shift register receives serial data from RX input. The data is converted to parallel data and moved t..."
hexmask.long.byte 0x00 0.--7. 1. " RHR                       ,Receive holding register"
wgroup.long 0x0++0x3
line.long 0x00 "UART_THR,The transmitter section consists of the transmit holding register (THR) and the transmit shift register. The THR is a 64-byte FIFO. The local host (LH) writes data to the THR. The data is placed in the transmit shift register where it is shift..."
hexmask.long.byte 0x00 0.--7. 1. " THR                       ,Transmit holding register"
group.long 0x4++0x3
line.long 0x00 "UART_DLH,This register, with, stores the 14-bit divisor for generating the baud clock in the baud rate generator. DLH stores the most-significant part of the divisor. DLL stores the least-significant part of the divisor."
bitfld.long 0x00 0.--5. " CLOCK_MSB                 ,Stores the 6-bit MSB divisor value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x4++0x3
line.long 0x00 "UART_IER,Interrupt enable register"
bitfld.long 0x00 7. " CTS_IT                    ,- . - ." "Disabled,Enabled"
bitfld.long 0x00 6. "                RTS_IT                                 ,- . - ." "Disabled,Enabled"
bitfld.long 0x00 5. "                                      XOFF_IT               ,- . - ." "Disabled,Enabled"
textline "                                "
bitfld.long 0x00 4. " SLEEP_MODE                ,- . - ." "Disabled,Enabled"
bitfld.long 0x00 3. "                MODEM_STS_IT                           ,- . - ." "Disabled,Enabled"
bitfld.long 0x00 2. "                                      LINE_STS_IT           ,- . - ." "Disabled,Enabled"
textline "                                "
bitfld.long 0x00 1. " THR_IT                    ,- . - ." "Disabled,Enabled"
bitfld.long 0x00 0. "                RHR_IT                                 ,- . - ." "Disabled,Enabled"
group.long 0x4++0x3
line.long 0x00 "UART_IER_CIR,There are 6 types of interrupt in these modes, TX status, status FIFO interrupt, RX overrun, last byte in RX FIFO, THR interrupt and RHR interrupt and they can be enabled/disabled individually. Notes: The RX_STOP_IT interrupt is generated ..."
bitfld.long 0x00 5. " TX_STATUS_IT              ,- . - ." "0,1"
bitfld.long 0x00 3. "                       RX_OVERRUN_IT                          ,- . - ." "0,1"
bitfld.long 0x00 2. "                                             RX_STOP_IT            ,- . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " THR_IT                    ,- . - ." "0,1"
bitfld.long 0x00 0. "                       RHR_IT                                 ,- . - ." "0,1"
group.long 0x4++0x3
line.long 0x00 "UART_IER_IRDA,There are 8 types of interrupt in these modes, received EOF, LSR interrupt, TX status, status FIFO interrupt, RX overrun, last byte in RX FIFO, THR interrupt and RHR interrupt and they can be enabled/disabled individually. Note: The TX_ST..."
bitfld.long 0x00 7. " EOF_IT                    ,- . - ." "0,1"
bitfld.long 0x00 6. "                       LINE_STS_IT                            ,- . - ." "0,1"
bitfld.long 0x00 5. "                                             TX_STATUS_IT          ,- . - ." "0,1"
textline "                                "
bitfld.long 0x00 4. " STS_FIFO_TRIG_IT          ,- . - ." "0,1"
bitfld.long 0x00 3. "                       RX_OVERRUN_IT                          ,- . - ." "0,1"
bitfld.long 0x00 2. "                                             LAST_RX_BYTE_IT       ,- . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " THR_IT                    ,- . - ." "0,1"
bitfld.long 0x00 0. "                       RHR_IT                                 ,- . - ." "0,1"
group.long 0x8++0x3
line.long 0x00 "UART_EFR,Enhanced feature register"
bitfld.long 0x00 7. " AUTO_CTS_EN               ,Auto-CTS enable bit - . - ." "Disabled,Enabled"
bitfld.long 0x00 6. "                AUTO_RTS_EN                            ,Auto-RTS enable bit - . - ." "Disabled,Enabled"
bitfld.long 0x00 5. "                                      SPECIAL_CHAR_DETECT   ,- . - ." "Disabled,Enabled"
textline "                                "
bitfld.long 0x00 4. " ENHANCED_EN               ,Enhanced functions write enable bit - . - ." "Disabled,Enabled"
bitfld.long 0x00 0.--3. "                SW_FLOW_CONTROL                        ,Combinations of software flow control can be selected by programming bit 3 - bit 0. See." "No_transmit/No_receive,No_transmit/Rx_comp._XON2;XOFF2,No_transmit/Rx_comp._XON1;XOFF1,No_transmit/Rx_comp._XON1;XON2:XOFF1;XOFF2,Tx_XON2;XOFF2/No_receive,Tx_XON2;XOFF2/Rx_comp._XON2;XOFF2,Tx_XON2;XOFF2/Rx_comp._XON1;XOFF1,Tx_XON2;XOFF2/Rx_comp._XON1;XON2:XOFF1;XOFF2,Tx_XON1;XOFF1/No_receive,Tx_XON1;XOFF1/Rx_comp._XON2;XOFF2,Tx_XON1;XOFF1/Rx_comp._XON1;XOFF1,Tx_XON1;XOFF1/Rx_comp._XON1;XON2:XOFF1;XOFF2,Tx_XON1;XON2:XOFF1;XOFF2/No_receive,Tx_XON1;XON2:XOFF1;XOFF2/Rx_comp._XON2;XOFF2,Tx_XON1;XON2:XOFF1;XOFF2/Rx_comp._XON1;XOFF1,Tx/Rx_comp._XON1;XON2:XOFF1;XOFF2"
wgroup.long 0x8++0x3
line.long 0x00 "UART_FCR,FIFO control register"
bitfld.long 0x00 6.--7. " RX_FIFO_TRIG              ,Sets the trigger level for the RX FIFO: If UART_SCR[7] = 0 and UART_TLR[7:4] = 0000: 00: 8 characters 01: 16 characters 10: 56 characters 11: 60 characters If UART_SCR[7] = 0 and UART_TLR[7:4] != 0000, RX_FIFO_TRIG is not co..." "8,16,56,60"
bitfld.long 0x00 4.--5. "                      TX_FIFO_TRIG                           ,Sets the trigger level for the TX FIFO: If UART_SCR[6] = 0 and UART_TLR[3:0] = 0000: 00: 8 spaces 01: 16 spaces 10: 32 spaces 11: 56 spaces If UART_SCR[6] = 0 and UART_TLR[3:0] != 0000, TX_F..." "8,16,32,56"
bitfld.long 0x00 3. "                                            DMA_MODE              ,This register is considered ifUART_SCR[0] = 0. - . - ." "Disabled,Enabled"
textline "                                "
bitfld.long 0x00 2. " TX_FIFO_CLEAR             ,- . - ." "No_effect,Clear"
bitfld.long 0x00 1. "               RX_FIFO_CLEAR                          ,- . - ." "No_effect,Clear"
bitfld.long 0x00 0. "                                     FIFO_EN               ,- . - ." "Disabled,Enabled"
rgroup.long 0x8++0x3
line.long 0x00 "UART_IIR,Interrupt identification register."
bitfld.long 0x00 6.--7. " FCR_MIRROR                ,Mirror the contents ofUART_FCR[0] on both bits." "0,1,2,3"
bitfld.long 0x00 1.--5. "                       IT_TYPE                                ,Read 0x0: Modem interrupt. Priority = 4 - . - . - . - . - . - ." "0,THR,RHR,Receiver_line_status_error,4,5,Rx_time-out,7,XOFF/special_character,9,10,11,12,13,14,15,CTS/RTS/DSR_change,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0. "                    IT_PENDING            ,Read 0x0: An interrupt is pending. - ." "0,Not_pending"
rgroup.long 0x8++0x3
line.long 0x00 "UART_IIR_CIR,The interrupt line is activated whenever one of the 6 interrupts is active."
bitfld.long 0x00 5. " TX_STATUS_IT              ,Read 0x0: TX status interrupt inactive - ." "0,1"
bitfld.long 0x00 3. "                       RX_OE_IT                               ,Read 0x0: RX overrun interrupt inactive - ." "0,1"
bitfld.long 0x00 2. "                                             RX_STOP_IT            ,Read 0x0: Receive stop interrupt inactive - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " THR_IT                    ,Read 0x0: THR interrupt inactive - ." "0,THR_interrupt_active"
bitfld.long 0x00 0. "    RHR_IT                                 ,Read 0x0: RHR interrupt inactive - ." "0,RHR_interrupt_active"
rgroup.long 0x8++0x3
line.long 0x00 "UART_IIR_IRDA,The interrupt line is activated whenever one of the 8 interrupts is active."
bitfld.long 0x00 7. " EOF_IT                    ,- . - ." "0,1"
bitfld.long 0x00 6. "                       LINE_STS_IT                            ,- . - ." "0,1"
bitfld.long 0x00 5. "                                             TX_STATUS_IT          ,- . - ." "0,1"
textline "                                "
bitfld.long 0x00 4. " STS_FIFO_IT               ,- . - ." "0,1"
bitfld.long 0x00 3. "                       RX_OE_IT                               ,- . - ." "0,1"
bitfld.long 0x00 2. "                                             RX_FIFO_LAST_BYTE_IT  ,- . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " THR_IT                    ,- . - ." "THR_interrupt_inactive,THR_interrupt_active"
bitfld.long 0x00 0. "  RHR_IT                                 ,- . - ." "RHR_interrupt_inactive,RHR_interrupt_active"
group.long 0xC++0x3
line.long 0x00 "UART_LCR,Line control register"
bitfld.long 0x00 7. " DIV_EN                    ,- . - ." "Disabled,Enabled"
bitfld.long 0x00 6. "                BREAK_EN                               ,Break control bit - . - ." "Normal,Forced_low"
bitfld.long 0x00 5. "                                    PARITY_TYPE2          ,Selects the forced parity format (ifUART_LCR[3] = 1). If UART_LCR[5] = 1 and UART_LCR[4] = 0, the parity bit is forced to 1 in the transmitted and received data. If UART_LCR[5] = 1 and UART_LCR..." "No_parity,Odd_parity"
textline "                                "
bitfld.long 0x00 4. " PARITY_TYPE1              ,- . - ." "0,1"
bitfld.long 0x00 3. "                       PARITY_EN                              ,0x0: No parity - ." "0,1"
bitfld.long 0x00 2. "                                             NB_STOP               ,Specifies the number of stop-bits - . - ." "1,1.5"
textline "                                "
bitfld.long 0x00 0.--1. " CHAR_LENGTH               ,Specifies the word length to be transmitted or received - . - . - . - ." "5,6,7,8"
group.long 0x10++0x3
line.long 0x00 "UART_MCR,Modem control register"
bitfld.long 0x00 6. " TCR_TLR                   ,0x0: No action - ." "0,Enabled"
bitfld.long 0x00 5. "                 XON_EN                                 ,0x0: Disable XON any function. - ." "0,Enabled"
bitfld.long 0x00 4. "                                       LOOPBACK_EN           ,0x0: Normal operating mode - ." "0,Enabled"
textline "                                "
bitfld.long 0x00 3. " CD_STS_CH                 ,0x0: In loopback, forces DCD* input high and IRQ outputs to inactive state - ." "0,Low"
bitfld.long 0x00 2. "                     RI_STS_CH                              ,0x0: In loopback, forces RI* input high - ." "0,Low"
bitfld.long 0x00 1. "                                           RTS                   ,In loopback, controls theUART_MSR[4] bit. If auto-RTS is enabled, the RTS* output is controlled by hardware flow control. - . - ." "Disabled,Enabled"
textline "                                "
bitfld.long 0x00 0. " DTR                       ,0x0: Force DTR* output to inactive (high). - ." "0,Enabled"
group.long 0x10++0x3
line.long 0x00 "UART_XON1_ADDR1,UART mode: XON1 character, IrDA mode: ADDR1 address"
hexmask.long.byte 0x00 0.--7. 1. " XON_WORD1                 ,Stores the 8-bit XON1 character in UART modes and ADDR1 address 1 for IrDA modes"
rgroup.long 0x14++0x3
line.long 0x00 "UART_LSR,Line status register"
bitfld.long 0x00 7. " RX_FIFO_STS               ,Read 0x0: Normal operation - ." "0,Error"
bitfld.long 0x00 6. "                   TX_SR_E                                ,Read 0x0: Transmitter hold (TX FIFO) and shift registers are not empty. - ." "0,Empty"
bitfld.long 0x00 5. "                                         TX_FIFO_E             ,Read 0x0: Transmit hold register (TX FIFO) is not empty. - ." "0,Empty"
textline "                                "
bitfld.long 0x00 4. " RX_BI                     ,Read 0x0: No break condition - ." "0,Detected"
bitfld.long 0x00 3. "                RX_FE                                  ,Read 0x0: No framing error in data RX FIFO - ." "0,Error"
bitfld.long 0x00 2. "                                         RX_PE                 ,Read 0x0: No parity error in data from RX FIFO - ." "0,Error"
textline "                                "
bitfld.long 0x00 1. " RX_OE                     ,Read 0x0: No overrun error - ." "0,Error"
bitfld.long 0x00 0. "                   RX_FIFO_E                              ,Read 0x0: No data in the RX FIFO - ." "0,One_data"
rgroup.long 0x14++0x3
line.long 0x00 "UART_LSR_CIR,Line status register in CIR mode"
bitfld.long 0x00 7. " THR_EMPTY                 ,Read 0x0: Transmit holding register (TX FIFO) is not empty. - ." "0,1"
bitfld.long 0x00 5. "                       RX_STOP                                ,The RX_STOP is generated based on the value set in the BOF Length register (UART_EBLR). It is cleared on a single read of the UART_LSR register. - . - ." "0,Reception_is_complete."
bitfld.long 0x00 0. "                        RX_FIFO_E             ,Read 0x0: At least one data character in the RX FIFO - ." "0,1"
rgroup.long 0x14++0x3
line.long 0x00 "UART_LSR_IRDA,When the LSR is read, LSR[4:2] reflect the error bits [FL, CRC, ABORT] of the frame at the top of the STATUS FIFO (next frame status to be read)."
bitfld.long 0x00 7. " THR_EMPTY                 ,Read 0x0: Transmit holding register (TX FIFO) is not empty. - ." "0,1"
bitfld.long 0x00 6. "                       STS_FIFO_FULL                          ,Read 0x0: Status FIFO not full - ." "0,Status_FIFO_full"
bitfld.long 0x00 5. "                              RX_LAST_BYTE          ,Read 0x0: The RX FIFO (RHR) does not contain the last byte of the frame to be read. - ." "0,1"
textline "                                "
bitfld.long 0x00 4. " FRAME_TOO_LONG            ,Read 0x0: No frame-too-long error in frame - ." "0,1"
bitfld.long 0x00 3. "                       ABORT                                  ,Read 0x0: No abort pattern error in frame - ." "0,1"
bitfld.long 0x00 2. "                                             CRC                   ,Read 0x0: No CRC error in frame - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " STS_FIFO_E                ,Read 0x0: Status FIFO not empty - ." "0,Status_FIFO_empty"
bitfld.long 0x00 0. "       RX_FIFO_E                              ,Read 0x0: No data in the RX FIFO - ." "0,1"
group.long 0x14++0x3
line.long 0x00 "UART_XON2_ADDR2,Stores the 8-bit XON2 character in UART moldes and ADDR2 address 2 for IrDA modes"
hexmask.long.byte 0x00 0.--7. 1. " XON_WORD2                 ,Stores the 8-bit XON2 character in UART modes and ADDR2 address 2 for IrDA modes"
rgroup.long 0x18++0x3
line.long 0x00 "UART_MSR,Modem status register. UART mode only."
bitfld.long 0x00 7. " NCD_STS                   ,This bit is the complement of the DCD* input. In loopback mode, it is equivalent toUART_MCR[3]." "0,1"
bitfld.long 0x00 6. "                       NRI_STS                                ,This bit is the complement of the RI* input. In loopback mode, it is equivalent toUART_MCR[2]." "0,1"
bitfld.long 0x00 5. "                                             NDSR_STS              ,This bit is the complement of the DSR* input. In loopback mode, it is equivalent toUART_MCR[0]." "0,1"
textline "                                "
bitfld.long 0x00 4. " NCTS_STS                  ,This bit is the complement of the CTS* input. In loopback mode, it is equivalent toUART_MCR[1]." "0,1"
bitfld.long 0x00 3. "                       DCD_STS                                ,Indicates that DCD* input (orUART_MCR[3] in loopback) changed. Cleared on a read." "0,1"
bitfld.long 0x00 2. "                                             RI_STS                ,Indicates that RI* input (orUART_MCR[2] in loopback) changed state from low to high. Cleared on a read." "0,1"
textline "                                "
bitfld.long 0x00 1. " DSR_STS                   ,- ." "0,1"
bitfld.long 0x00 0. "                       CTS_STS                                ,- ." "0,1"
group.long 0x18++0x3
line.long 0x00 "UART_TCR,Transmission control register"
bitfld.long 0x00 4.--7. " RX_FIFO_TRIG_START        ,RX FIFO trigger level to RESTORE transmission (0 - 60)" "0,4,8,12,16,20,24,28,32,36,40,44,48,52,56,60"
bitfld.long 0x00 0.--3. "                      RX_FIFO_TRIG_HALT                      ,RX FIFO trigger level to HALT transmission (0 - 60)" "0,4,8,12,16,20,24,28,32,36,40,44,48,52,56,60"
group.long 0x18++0x3
line.long 0x00 "UART_XOFF1,UART mode XOFF1 character"
hexmask.long.byte 0x00 0.--7. 1. " XOFF_WORD1                ,Stores the 8-bit XOFF1 character used in UART modes"
group.long 0x1C++0x3
line.long 0x00 "UART_SPR,Scratchpad register"
hexmask.long.byte 0x00 0.--7. 1. " SPR_WORD                  ,Scratchpad register"
group.long 0x1C++0x3
line.long 0x00 "UART_TLR,Trigger level register"
bitfld.long 0x00 4.--7. " RX_FIFO_TRIG_DMA          ,Receive FIFO trigger level" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "                      TX_FIFO_TRIG_DMA                       ,Transmit FIFO trigger level" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x1C++0x3
line.long 0x00 "UART_XOFF2,UART mode XOFF2 character"
hexmask.long.byte 0x00 0.--7. 1. " XOFF_WORD2                ,Stores the 8-bit XOFF2 character used in UART modes."
group.long 0x20++0x3
line.long 0x00 "UART_MDR1,Mode definition register 1"
bitfld.long 0x00 7. " FRAME_END_MODE            ,IrDA mode only - . - ." "Frame-length,EOT"
bitfld.long 0x00 6. "            SIP_MODE                               ,MIR/FIR modes only - . - ." "Manual_SIP,Automatic_SIP"
bitfld.long 0x00 5. "                                 SCT                   ,Store and control the transmission. - . - ." "THR,ACREG[2]"
textline "                                "
bitfld.long 0x00 4. " SET_TXIR                  ,Used to configure the infrared transceiver - . - ." "TXIR_low,IRTX_high"
bitfld.long 0x00 3. "               IR_SLEEP                               ,0x0: IrDA/CIR sleep mode disabled - ." "0,Enabled"
bitfld.long 0x00 0.--2. "                                       MODE_SELECT           ,0x0: UART 16x mode - . - . - . - . - . - . - ." "0,Reserved,UART_16x_auto-baud,UART_13x,Reserved,Reserved,Reserved,Disabled"
group.long 0x24++0x3
line.long 0x00 "UART_MDR2,Mode definition register 2"
bitfld.long 0x00 7. " SET_TXIR_ALT              ,Provide alternate function forUART_MDR1[4] (SET_TXIR). - . - ." "Normal,Alternate"
bitfld.long 0x00 6. "               IRRXINVERT                             ,IR mode only (IrDA and CIR). Invert RX pin in the module before the voting or sampling system logic of the infrared block. This does not affect the RX path in UART modem modes. - . - ." "Inversion_is_performed.,1"
bitfld.long 0x00 4.--5. "                       CIR_PULSE_MODE        ,CIR pulse modulation definition. Defines high level of the pulse width associated with a digit: - . - . - . - ." "0,1,2,3"
textline "                                "
bitfld.long 0x00 3. " UART_PULSE                ,UART mode only. Allows pulse shaping in UART mode. - . - ." "Normal_UART_mode,1"
bitfld.long 0x00 1.--2. "        STS_FIFO_TRIG                          ,IR-IrDA mode only. Frame status FIFO threshold select: - . - . - . - ." "1_entry,4_entries,7_entries,8_entries"
bitfld.long 0x00 0. "                                     IRTX_UNDERRUN         ,IrDA transmission status interrupt. When theUART_IIR[5] interrupt occurs, the meaning of the interrupt is: - . - ." "0,1"
rgroup.long 0x28++0x3
line.long 0x00 "UART_SFLSR,Status FIFO line status register"
bitfld.long 0x00 4. " OE_ERROR                  ,Read 0x1: Overrun error in RX FIFO when frame at top of RX FIFO was received Top of RX FIFO = Next frame to be read from RX FIFO" "No_error,Error"
bitfld.long 0x00 3. "                FRAME_TOO_LONG_ERROR                   ,Read 0x1: Frame-length too long error in frame at top of RX FIFO" "No_error,Error"
bitfld.long 0x00 2. "                                      ABORT_DETECT          ,Read 0x1: Abort pattern detected in frame at top of RX FIFO" "No_error,Error"
textline "                                "
bitfld.long 0x00 1. " CRC_ERROR                 ,Read 0x1: CRC error in frame at top of RX FIFO" "No_error,Error"
wgroup.long 0x28++0x3
line.long 0x00 "UART_TXFLL,Transmit frame length register low"
hexmask.long.byte 0x00 0.--7. 1. " TXFLL                     ,LSB register used to specify the frame length"
rgroup.long 0x2C++0x3
line.long 0x00 "UART_RESUME,IR-IrDA and IR-CIR modes only. This register is used to clear internal flags, which halt transmission/reception when an underrun/overrun error occurs. Reading this register resumes the halted operation. This register does not physically exi..."
hexmask.long.byte 0x00 0.--7. 1. " RESUME                    ,Dummy read to restart the TX or RX"
wgroup.long 0x2C++0x3
line.long 0x00 "UART_TXFLH,Transmit frame length register high"
bitfld.long 0x00 0.--4. " TXFLH                     ,MSB register used to specify the frame length" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
wgroup.long 0x30++0x3
line.long 0x00 "UART_RXFLL,Received frame length register low"
hexmask.long.byte 0x00 0.--7. 1. " RXFLL                     ,LSB register used to specify the frame length in reception"
rgroup.long 0x30++0x3
line.long 0x00 "UART_SFREGL,Status FIFO register low"
hexmask.long.byte 0x00 0.--7. 1. " SFREGL                    ,LSB part of the frame length"
wgroup.long 0x34++0x3
line.long 0x00 "UART_RXFLH,Received frame length register high"
bitfld.long 0x00 0.--3. " RXFLH                     ,MSB register used to specify the frame length in reception" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x34++0x3
line.long 0x00 "UART_SFREGH,Status FIFO register high"
bitfld.long 0x00 0.--3. " SFREGH                    ,MSB part of the frame length" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x38++0x3
line.long 0x00 "UART_BLR,BOF control register"
bitfld.long 0x00 7. " STS_FIFO_RESET            ,Status FIFO reset. This bit is self-clearing." "No_reset,Reset"
bitfld.long 0x00 6. "                XBOF_TYPE                              ,SIR xBOF select - . - ." "0xFF,0xC0"
rgroup.long 0x38++0x3
line.long 0x00 "UART_UASR,UART autobauding status register"
bitfld.long 0x00 6.--7. " PARITY_TYPE               ,Read 0x0: No parity identified - . - . - ." "0,Parity_space,Even,Odd"
bitfld.long 0x00 5. "            BIT_BY_CHAR                            ,Read 0x0: 7-bit character identified - ." "0,8"
bitfld.long 0x00 0.--4. "                                             SPEED                 ,Used to report the speed identified - . - . - . - . - . - . - . - . - . - . - ." "No_speed,115_200,57_600,38_400,28_800,19_200,14_400,9_600,4_800,2_400,1_200,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x3C++0x3
line.long 0x00 "UART_ACREG,Auxiliary control register. IR-IrDA and IR-CIR modes only."
bitfld.long 0x00 7. " PULSE_TYPE                ,SIR pulse width select - . - ." "3/16_of_baud-rate,1.6_us"
bitfld.long 0x00 6. "       SD_MOD                                 ,Primary output used to configure transceivers. Connected to the SD/MODE input pin of IrDA transceivers. - . - ." "High,Low"
bitfld.long 0x00 5. "                                          DIS_IR_RX             ,0x0: Normal operation (RX input automatically disabled during transmit but enabled outside of transmit operation) - ." "0,Yes"
textline "                                "
bitfld.long 0x00 4. " DIS_TX_UNDERRUN           ,It is recommended to disable TX FIFO underrun capability by masking corresponding underrun interrupt. When disabling underrun by settingUART_ACREG[4] = 1, garbage data is sent over TX line. - . - ." "No,Yes"
bitfld.long 0x00 3. "                     SEND_SIP                               ,MIR/FIR modes only. Send serial infrared interaction pulse (SIP). If this bit is set during an MIR/FIR transmission, the SIP is sent at the end of it. This bit is cleared automatically at the..." "No_action,Sent"
bitfld.long 0x00 2. "                                     SCTX_EN               ,Store and controlled TX start. WhenUART_MDR1[5] = 1 and the LH writes 1 to this bit, the TX state-machine starts frame transmission. This bit is self-clearing." "Disabled,Enabled"
textline "                                "
bitfld.long 0x00 1. " ABORT_EN                  ,Frame abort. The LH can intentionally abort transmission of a frame by writing 1 to this bit. Neither the end flag nor the CRC bits are appended to the frame. If TX FIFO is not empty andUART_MDR1[5] = 1, UART IrDA starts a n..." "Disabled,Enabled"
bitfld.long 0x00 0. "                EOT_EN                                 ,EOT (end of transmission) bit. The LH writes 1 to this bit just before it writes the last byte to the TX FIFO in set-EOT bit frame closing method. This bit is cleared automatically when the LH wri..." "Disabled,Enabled"
group.long 0x40++0x3
line.long 0x00 "UART_SCR,Supplementary control register"
bitfld.long 0x00 7. " RX_TRIG_GRANU1            ,0x0: Disables the granularity of 1 for trigger RX level - ." "0,Enabled"
bitfld.long 0x00 6. "                 TX_TRIG_GRANU1                         ,0x0: Disables the granularity of 1 for trigger TX level - ." "0,Enabled"
bitfld.long 0x00 5. "                                       DSR_IT                ,0x0: Disables DSR* interrupt - ." "0,Enabled"
textline "                                "
bitfld.long 0x00 4. " RX_CTS_DSR_WAKE_UP_ENABLE ,0x0: Disables the wake-up interrupt and clears SSR[1] - ." "0,Enabled"
bitfld.long 0x00 3. "                 TX_EMPTY_CTL_IT                        ,0x0: Normal mode for THR interrupt (see UART mode interrupts table) - ." "0,Interrupt"
bitfld.long 0x00 1.--2. "                                     DMA_MODE_2            ,Used to specify the DMA mode valid if theUART_SCR[0] bit = 1 - . - . - . - ." "No_DMA,UART_nDMA_REQ[0/1]_in_TX/RX;,UART_nDMA_REQ[0]_in_RX,UART_nDMA_REQ[0]_in_TX"
textline "                                "
bitfld.long 0x00 0. " DMA_MODE_CTL              ,0x0: The DMA_MODE is set withUART_FCR[3]. - ." "0,UART_SCR[2:1]"
group.long 0x44++0x3
line.long 0x00 "UART_SSR,Supplementary status register"
bitfld.long 0x00 2. " DMA_COUNTER_RST           ,0x0: The DMA counter will not be reset if the corresponding FIFO is reset (throughUART_FCR[1] or UART_FCR[2]). - ." "0,Reset"
bitfld.long 0x00 1. "                   RX_CTS_DSR_WAKE_UP_STS                 ,Read 0x0: No falling edge event on RX, CTS*, and DSR* - ." "0,Occurred"
bitfld.long 0x00 0. "                                      TX_FIFO_FULL          ,Read 0x0: TX FIFO is not full. - ." "0,Full"
group.long 0x48++0x3
line.long 0x00 "UART_EBLR,BOF length register"
hexmask.long.byte 0x00 0.--7. 1. " EBLR                      ,IR-IrDA mode: This register allows definition of up to 176 xBOFs, the maximum required by IrDA specification."
rgroup.long 0x50++0x3
line.long 0x00 "UART_MVR,Module version register"
hexmask.long 0x00 0.--31. 1. " REV                       ,Revision number"
group.long 0x54++0x3
line.long 0x00 "UART_SYSC,System configuration register"
bitfld.long 0x00 3.--4. " IDLEMODE                  ,Power management req/ack control ref: OCP Design Guidelines Version 1.1 - . - . - . - ." "Force_idle,No-idle,Smart_idle,Reserved"
bitfld.long 0x00 2. "              ENAWAKEUP                              ,Wake-up feature control - . - ." "Disabled,Enabled"
bitfld.long 0x00 1. "                                      SOFTRESET             ,Software reset. Set this bit to 1 to trigger a module reset. This bit is automatically reset by the hardware. Read returns 0. - . - ." "No_reset,Reset"
textline "                                "
bitfld.long 0x00 0. " AUTOIDLE                  ,Internal OCP clock gating strategy - . - ." "Running,Gated"
rgroup.long 0x58++0x3
line.long 0x00 "UART_SYSS,System status register"
bitfld.long 0x00 0. " RESETDONE                 ,Internal reset monitoring - . - ." "Not_completed,Completed"
group.long 0x5C++0x3
line.long 0x00 "UART_WER,Wake-up enable register"
bitfld.long 0x00 7. " TX_WAKEUP_EN              ,0x0: Event is not allowed to wake up the system. - ." "0,1"
bitfld.long 0x00 6. "                       EVENT_6_RECEIVER_LINE_STATUS_INTERRUPT ,0x0: Event is not allowed to wake up the system. - ." "0,1"
bitfld.long 0x00 5. "                                             EVENT_5_RHR_INTERRUPT ,0x0: Event is not allowed to wake up the system. - ." "0,1"
textline "                                "
bitfld.long 0x00 4. " EVENT_4_RX_ACTIVITY       ,0x0: Event is not allowed to wake up the system. - ." "0,1"
bitfld.long 0x00 3. "                       EVENT_3_DCD_CD_ACTIVITY                ,0x0: Event is not allowed to wake up the system - ." "0,1"
bitfld.long 0x00 2. "                                             EVENT_2_RI_ACTIVITY   ,0x0: Event is not allowed to wake up the system. - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " EVENT_1_DSR_ACTIVITY      ,0x0: Event is not allowed to wake up the system. - ." "0,1"
bitfld.long 0x00 0. "                       EVENT_0_CTS_ACTIVITY                   ,0x0: Event is not allowed to wake up the system. - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "UART_CFPS,Carrier frequency prescaler"
hexmask.long.byte 0x00 0.--7. 1. " CFPS                      ,System clock frequency prescaler at (12x multiple). Examples for CFPS values: - Target Freq (kHz) CFPS (decimal) Actual Freq (kHz) . - . - 30 133 30.08 . - . - 32.75 122 32.79 . - . - 36 111 36.04 . - . - 36.7 109 36.69 . - ..."
rgroup.long 0x64++0x3
line.long 0x00 "UART_RXFIFO_LVL,Level of the RX FIFO"
hexmask.long.byte 0x00 0.--7. 1. " RXFIFO_LVL                ,Shows the number of received bytes in the RX FIFO"
rgroup.long 0x68++0x3
line.long 0x00 "UART_TXFIFO_LVL,Level of the TX FIFO"
hexmask.long.byte 0x00 0.--7. 1. " TXFIFO_LVL                ,Shows the number of written bytes in the TX FIFO"
group.long 0x6C++0x3
line.long 0x00 "UART_IER2,Enables RX/TX FIFOs empty corresponding interrupts"
bitfld.long 0x00 1. " EN_TXFIFO_EMPTY           ,Enables TX FIFO empty corresponding interrupt - . - ." "Enabled,Disabled"
bitfld.long 0x00 0. "                EN_RXFIFO_EMPTY                        ,Enables RX FIFO empty corresponding interrupt - . - ." "Enabled,Disabled"
group.long 0x70++0x3
line.long 0x00 "UART_ISR2,Status of RX/TX FIFOs empty corresponding interrupts"
bitfld.long 0x00 1. " TXFIFO_EMPTY_STS          ,Used to generate interrupt if the TX_FIFO is empty (software flow control) - . - ." "No_interrupt,Interrupt"
bitfld.long 0x00 0. "            RXFIFO_EMPTY_STS                       ,Used to generate interrupt if the RX_FIFO is empty (software flow control) - . - ." "No_interrupt,Interrupt"
group.long 0x74++0x3
line.long 0x00 "UART_FREQ_SEL,Sample per bit selector"
hexmask.long.byte 0x00 0.--7. 1. " FREQ_SEL                  ,Sets the sample per bit if nondefault frequency is used.UART_MDR3[1] must be set to 1 after this value is set. Must be equal to or higher then 6."
group.long 0x80++0x3
line.long 0x00 "UART_MDR3,Mode definition register 3"
bitfld.long 0x00 2. " SET_DMA_TX_THRESHOLD      ,Enable to set different TXDMA threshold inUART_TX_DMA_THRESHOLD register." "0,1"
bitfld.long 0x00 1. "                       NONDEFAULT_FREQ                        ,Used to enable the NONDEFAULT fclk frequencies. - . - ." "0,1"
bitfld.long 0x00 0. "                                             DISABLE_CIR_RX_DEMOD  ,Used to enable CIR RX demodulation. - . - ." "0,1"
group.long 0x84++0x3
line.long 0x00 "UART_TX_DMA_THRESHOLD,Use to manually set the TX DMA threshold level. [2] SET_TX_DMA_THRESHOLD must be 1 and must be value + tx_trigger_level = 64 (TX FIFO size). If not, 64-tx_trigger_level will be used without modifying the value of this register."
bitfld.long 0x00 0.--5. " TX_DMA_THRESHOLD          ,Used to manually set the TX DMA threshold level" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
width 0x0B
tree.end
tree "UART1"
base ad:0x4806A000
width 23.
group.long 0x0++0x3
line.long 0x00 "UART_DLL,This register, with, stores the 14-bit divisor for generation of the baud clock in the baud rate generator. DLH stores the most-significant part of the divisor. DLL stores the least-significant part of the divisor."
hexmask.long.byte 0x00 0.--7. 1. " CLOCK_LSB                 ,Stores the 8-bit LSB divisor value"
rgroup.long 0x0++0x3
line.long 0x00 "UART_RHR,The receiver section consists of the receiver holding register (RHR) and the receiver shift register. The RHR is a 64-byte FIFO. The receiver shift register receives serial data from RX input. The data is converted to parallel data and moved t..."
hexmask.long.byte 0x00 0.--7. 1. " RHR                       ,Receive holding register"
wgroup.long 0x0++0x3
line.long 0x00 "UART_THR,The transmitter section consists of the transmit holding register (THR) and the transmit shift register. The THR is a 64-byte FIFO. The local host (LH) writes data to the THR. The data is placed in the transmit shift register where it is shift..."
hexmask.long.byte 0x00 0.--7. 1. " THR                       ,Transmit holding register"
group.long 0x4++0x3
line.long 0x00 "UART_DLH,This register, with, stores the 14-bit divisor for generating the baud clock in the baud rate generator. DLH stores the most-significant part of the divisor. DLL stores the least-significant part of the divisor."
bitfld.long 0x00 0.--5. " CLOCK_MSB                 ,Stores the 6-bit MSB divisor value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x4++0x3
line.long 0x00 "UART_IER,Interrupt enable register"
bitfld.long 0x00 7. " CTS_IT                    ,- . - ." "Disabled,Enabled"
bitfld.long 0x00 6. "                RTS_IT                                 ,- . - ." "Disabled,Enabled"
bitfld.long 0x00 5. "                                      XOFF_IT               ,- . - ." "Disabled,Enabled"
textline "                                "
bitfld.long 0x00 4. " SLEEP_MODE                ,- . - ." "Disabled,Enabled"
bitfld.long 0x00 3. "                MODEM_STS_IT                           ,- . - ." "Disabled,Enabled"
bitfld.long 0x00 2. "                                      LINE_STS_IT           ,- . - ." "Disabled,Enabled"
textline "                                "
bitfld.long 0x00 1. " THR_IT                    ,- . - ." "Disabled,Enabled"
bitfld.long 0x00 0. "                RHR_IT                                 ,- . - ." "Disabled,Enabled"
group.long 0x4++0x3
line.long 0x00 "UART_IER_CIR,There are 6 types of interrupt in these modes, TX status, status FIFO interrupt, RX overrun, last byte in RX FIFO, THR interrupt and RHR interrupt and they can be enabled/disabled individually. Notes: The RX_STOP_IT interrupt is generated ..."
bitfld.long 0x00 5. " TX_STATUS_IT              ,- . - ." "0,1"
bitfld.long 0x00 3. "                       RX_OVERRUN_IT                          ,- . - ." "0,1"
bitfld.long 0x00 2. "                                             RX_STOP_IT            ,- . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " THR_IT                    ,- . - ." "0,1"
bitfld.long 0x00 0. "                       RHR_IT                                 ,- . - ." "0,1"
group.long 0x4++0x3
line.long 0x00 "UART_IER_IRDA,There are 8 types of interrupt in these modes, received EOF, LSR interrupt, TX status, status FIFO interrupt, RX overrun, last byte in RX FIFO, THR interrupt and RHR interrupt and they can be enabled/disabled individually. Note: The TX_ST..."
bitfld.long 0x00 7. " EOF_IT                    ,- . - ." "0,1"
bitfld.long 0x00 6. "                       LINE_STS_IT                            ,- . - ." "0,1"
bitfld.long 0x00 5. "                                             TX_STATUS_IT          ,- . - ." "0,1"
textline "                                "
bitfld.long 0x00 4. " STS_FIFO_TRIG_IT          ,- . - ." "0,1"
bitfld.long 0x00 3. "                       RX_OVERRUN_IT                          ,- . - ." "0,1"
bitfld.long 0x00 2. "                                             LAST_RX_BYTE_IT       ,- . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " THR_IT                    ,- . - ." "0,1"
bitfld.long 0x00 0. "                       RHR_IT                                 ,- . - ." "0,1"
group.long 0x8++0x3
line.long 0x00 "UART_EFR,Enhanced feature register"
bitfld.long 0x00 7. " AUTO_CTS_EN               ,Auto-CTS enable bit - . - ." "Disabled,Enabled"
bitfld.long 0x00 6. "                AUTO_RTS_EN                            ,Auto-RTS enable bit - . - ." "Disabled,Enabled"
bitfld.long 0x00 5. "                                      SPECIAL_CHAR_DETECT   ,- . - ." "Disabled,Enabled"
textline "                                "
bitfld.long 0x00 4. " ENHANCED_EN               ,Enhanced functions write enable bit - . - ." "Disabled,Enabled"
bitfld.long 0x00 0.--3. "                SW_FLOW_CONTROL                        ,Combinations of software flow control can be selected by programming bit 3 - bit 0. See." "No_transmit/No_receive,No_transmit/Rx_comp._XON2;XOFF2,No_transmit/Rx_comp._XON1;XOFF1,No_transmit/Rx_comp._XON1;XON2:XOFF1;XOFF2,Tx_XON2;XOFF2/No_receive,Tx_XON2;XOFF2/Rx_comp._XON2;XOFF2,Tx_XON2;XOFF2/Rx_comp._XON1;XOFF1,Tx_XON2;XOFF2/Rx_comp._XON1;XON2:XOFF1;XOFF2,Tx_XON1;XOFF1/No_receive,Tx_XON1;XOFF1/Rx_comp._XON2;XOFF2,Tx_XON1;XOFF1/Rx_comp._XON1;XOFF1,Tx_XON1;XOFF1/Rx_comp._XON1;XON2:XOFF1;XOFF2,Tx_XON1;XON2:XOFF1;XOFF2/No_receive,Tx_XON1;XON2:XOFF1;XOFF2/Rx_comp._XON2;XOFF2,Tx_XON1;XON2:XOFF1;XOFF2/Rx_comp._XON1;XOFF1,Tx/Rx_comp._XON1;XON2:XOFF1;XOFF2"
wgroup.long 0x8++0x3
line.long 0x00 "UART_FCR,FIFO control register"
bitfld.long 0x00 6.--7. " RX_FIFO_TRIG              ,Sets the trigger level for the RX FIFO: If UART_SCR[7] = 0 and UART_TLR[7:4] = 0000: 00: 8 characters 01: 16 characters 10: 56 characters 11: 60 characters If UART_SCR[7] = 0 and UART_TLR[7:4] != 0000, RX_FIFO_TRIG is not co..." "8,16,56,60"
bitfld.long 0x00 4.--5. "                      TX_FIFO_TRIG                           ,Sets the trigger level for the TX FIFO: If UART_SCR[6] = 0 and UART_TLR[3:0] = 0000: 00: 8 spaces 01: 16 spaces 10: 32 spaces 11: 56 spaces If UART_SCR[6] = 0 and UART_TLR[3:0] != 0000, TX_F..." "8,16,32,56"
bitfld.long 0x00 3. "                                            DMA_MODE              ,This register is considered ifUART_SCR[0] = 0. - . - ." "Disabled,Enabled"
textline "                                "
bitfld.long 0x00 2. " TX_FIFO_CLEAR             ,- . - ." "No_effect,Clear"
bitfld.long 0x00 1. "               RX_FIFO_CLEAR                          ,- . - ." "No_effect,Clear"
bitfld.long 0x00 0. "                                     FIFO_EN               ,- . - ." "Disabled,Enabled"
rgroup.long 0x8++0x3
line.long 0x00 "UART_IIR,Interrupt identification register."
bitfld.long 0x00 6.--7. " FCR_MIRROR                ,Mirror the contents ofUART_FCR[0] on both bits." "0,1,2,3"
bitfld.long 0x00 1.--5. "                       IT_TYPE                                ,Read 0x0: Modem interrupt. Priority = 4 - . - . - . - . - . - ." "0,THR,RHR,Receiver_line_status_error,4,5,Rx_time-out,7,XOFF/special_character,9,10,11,12,13,14,15,CTS/RTS/DSR_change,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0. "                    IT_PENDING            ,Read 0x0: An interrupt is pending. - ." "0,Not_pending"
rgroup.long 0x8++0x3
line.long 0x00 "UART_IIR_CIR,The interrupt line is activated whenever one of the 6 interrupts is active."
bitfld.long 0x00 5. " TX_STATUS_IT              ,Read 0x0: TX status interrupt inactive - ." "0,1"
bitfld.long 0x00 3. "                       RX_OE_IT                               ,Read 0x0: RX overrun interrupt inactive - ." "0,1"
bitfld.long 0x00 2. "                                             RX_STOP_IT            ,Read 0x0: Receive stop interrupt inactive - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " THR_IT                    ,Read 0x0: THR interrupt inactive - ." "0,THR_interrupt_active"
bitfld.long 0x00 0. "    RHR_IT                                 ,Read 0x0: RHR interrupt inactive - ." "0,RHR_interrupt_active"
rgroup.long 0x8++0x3
line.long 0x00 "UART_IIR_IRDA,The interrupt line is activated whenever one of the 8 interrupts is active."
bitfld.long 0x00 7. " EOF_IT                    ,- . - ." "0,1"
bitfld.long 0x00 6. "                       LINE_STS_IT                            ,- . - ." "0,1"
bitfld.long 0x00 5. "                                             TX_STATUS_IT          ,- . - ." "0,1"
textline "                                "
bitfld.long 0x00 4. " STS_FIFO_IT               ,- . - ." "0,1"
bitfld.long 0x00 3. "                       RX_OE_IT                               ,- . - ." "0,1"
bitfld.long 0x00 2. "                                             RX_FIFO_LAST_BYTE_IT  ,- . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " THR_IT                    ,- . - ." "THR_interrupt_inactive,THR_interrupt_active"
bitfld.long 0x00 0. "  RHR_IT                                 ,- . - ." "RHR_interrupt_inactive,RHR_interrupt_active"
group.long 0xC++0x3
line.long 0x00 "UART_LCR,Line control register"
bitfld.long 0x00 7. " DIV_EN                    ,- . - ." "Disabled,Enabled"
bitfld.long 0x00 6. "                BREAK_EN                               ,Break control bit - . - ." "Normal,Forced_low"
bitfld.long 0x00 5. "                                    PARITY_TYPE2          ,Selects the forced parity format (ifUART_LCR[3] = 1). If UART_LCR[5] = 1 and UART_LCR[4] = 0, the parity bit is forced to 1 in the transmitted and received data. If UART_LCR[5] = 1 and UART_LCR..." "No_parity,Odd_parity"
textline "                                "
bitfld.long 0x00 4. " PARITY_TYPE1              ,- . - ." "0,1"
bitfld.long 0x00 3. "                       PARITY_EN                              ,0x0: No parity - ." "0,1"
bitfld.long 0x00 2. "                                             NB_STOP               ,Specifies the number of stop-bits - . - ." "1,1.5"
textline "                                "
bitfld.long 0x00 0.--1. " CHAR_LENGTH               ,Specifies the word length to be transmitted or received - . - . - . - ." "5,6,7,8"
group.long 0x10++0x3
line.long 0x00 "UART_MCR,Modem control register"
bitfld.long 0x00 6. " TCR_TLR                   ,0x0: No action - ." "0,Enabled"
bitfld.long 0x00 5. "                 XON_EN                                 ,0x0: Disable XON any function. - ." "0,Enabled"
bitfld.long 0x00 4. "                                       LOOPBACK_EN           ,0x0: Normal operating mode - ." "0,Enabled"
textline "                                "
bitfld.long 0x00 3. " CD_STS_CH                 ,0x0: In loopback, forces DCD* input high and IRQ outputs to inactive state - ." "0,Low"
bitfld.long 0x00 2. "                     RI_STS_CH                              ,0x0: In loopback, forces RI* input high - ." "0,Low"
bitfld.long 0x00 1. "                                           RTS                   ,In loopback, controls theUART_MSR[4] bit. If auto-RTS is enabled, the RTS* output is controlled by hardware flow control. - . - ." "Disabled,Enabled"
textline "                                "
bitfld.long 0x00 0. " DTR                       ,0x0: Force DTR* output to inactive (high). - ." "0,Enabled"
group.long 0x10++0x3
line.long 0x00 "UART_XON1_ADDR1,UART mode: XON1 character, IrDA mode: ADDR1 address"
hexmask.long.byte 0x00 0.--7. 1. " XON_WORD1                 ,Stores the 8-bit XON1 character in UART modes and ADDR1 address 1 for IrDA modes"
rgroup.long 0x14++0x3
line.long 0x00 "UART_LSR,Line status register"
bitfld.long 0x00 7. " RX_FIFO_STS               ,Read 0x0: Normal operation - ." "0,Error"
bitfld.long 0x00 6. "                   TX_SR_E                                ,Read 0x0: Transmitter hold (TX FIFO) and shift registers are not empty. - ." "0,Empty"
bitfld.long 0x00 5. "                                         TX_FIFO_E             ,Read 0x0: Transmit hold register (TX FIFO) is not empty. - ." "0,Empty"
textline "                                "
bitfld.long 0x00 4. " RX_BI                     ,Read 0x0: No break condition - ." "0,Detected"
bitfld.long 0x00 3. "                RX_FE                                  ,Read 0x0: No framing error in data RX FIFO - ." "0,Error"
bitfld.long 0x00 2. "                                         RX_PE                 ,Read 0x0: No parity error in data from RX FIFO - ." "0,Error"
textline "                                "
bitfld.long 0x00 1. " RX_OE                     ,Read 0x0: No overrun error - ." "0,Error"
bitfld.long 0x00 0. "                   RX_FIFO_E                              ,Read 0x0: No data in the RX FIFO - ." "0,One_data"
rgroup.long 0x14++0x3
line.long 0x00 "UART_LSR_CIR,Line status register in CIR mode"
bitfld.long 0x00 7. " THR_EMPTY                 ,Read 0x0: Transmit holding register (TX FIFO) is not empty. - ." "0,1"
bitfld.long 0x00 5. "                       RX_STOP                                ,The RX_STOP is generated based on the value set in the BOF Length register (UART_EBLR). It is cleared on a single read of the UART_LSR register. - . - ." "0,Reception_is_complete."
bitfld.long 0x00 0. "                        RX_FIFO_E             ,Read 0x0: At least one data character in the RX FIFO - ." "0,1"
rgroup.long 0x14++0x3
line.long 0x00 "UART_LSR_IRDA,When the LSR is read, LSR[4:2] reflect the error bits [FL, CRC, ABORT] of the frame at the top of the STATUS FIFO (next frame status to be read)."
bitfld.long 0x00 7. " THR_EMPTY                 ,Read 0x0: Transmit holding register (TX FIFO) is not empty. - ." "0,1"
bitfld.long 0x00 6. "                       STS_FIFO_FULL                          ,Read 0x0: Status FIFO not full - ." "0,Status_FIFO_full"
bitfld.long 0x00 5. "                              RX_LAST_BYTE          ,Read 0x0: The RX FIFO (RHR) does not contain the last byte of the frame to be read. - ." "0,1"
textline "                                "
bitfld.long 0x00 4. " FRAME_TOO_LONG            ,Read 0x0: No frame-too-long error in frame - ." "0,1"
bitfld.long 0x00 3. "                       ABORT                                  ,Read 0x0: No abort pattern error in frame - ." "0,1"
bitfld.long 0x00 2. "                                             CRC                   ,Read 0x0: No CRC error in frame - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " STS_FIFO_E                ,Read 0x0: Status FIFO not empty - ." "0,Status_FIFO_empty"
bitfld.long 0x00 0. "       RX_FIFO_E                              ,Read 0x0: No data in the RX FIFO - ." "0,1"
group.long 0x14++0x3
line.long 0x00 "UART_XON2_ADDR2,Stores the 8-bit XON2 character in UART moldes and ADDR2 address 2 for IrDA modes"
hexmask.long.byte 0x00 0.--7. 1. " XON_WORD2                 ,Stores the 8-bit XON2 character in UART modes and ADDR2 address 2 for IrDA modes"
rgroup.long 0x18++0x3
line.long 0x00 "UART_MSR,Modem status register. UART mode only."
bitfld.long 0x00 7. " NCD_STS                   ,This bit is the complement of the DCD* input. In loopback mode, it is equivalent toUART_MCR[3]." "0,1"
bitfld.long 0x00 6. "                       NRI_STS                                ,This bit is the complement of the RI* input. In loopback mode, it is equivalent toUART_MCR[2]." "0,1"
bitfld.long 0x00 5. "                                             NDSR_STS              ,This bit is the complement of the DSR* input. In loopback mode, it is equivalent toUART_MCR[0]." "0,1"
textline "                                "
bitfld.long 0x00 4. " NCTS_STS                  ,This bit is the complement of the CTS* input. In loopback mode, it is equivalent toUART_MCR[1]." "0,1"
bitfld.long 0x00 3. "                       DCD_STS                                ,Indicates that DCD* input (orUART_MCR[3] in loopback) changed. Cleared on a read." "0,1"
bitfld.long 0x00 2. "                                             RI_STS                ,Indicates that RI* input (orUART_MCR[2] in loopback) changed state from low to high. Cleared on a read." "0,1"
textline "                                "
bitfld.long 0x00 1. " DSR_STS                   ,- ." "0,1"
bitfld.long 0x00 0. "                       CTS_STS                                ,- ." "0,1"
group.long 0x18++0x3
line.long 0x00 "UART_TCR,Transmission control register"
bitfld.long 0x00 4.--7. " RX_FIFO_TRIG_START        ,RX FIFO trigger level to RESTORE transmission (0 - 60)" "0,4,8,12,16,20,24,28,32,36,40,44,48,52,56,60"
bitfld.long 0x00 0.--3. "                      RX_FIFO_TRIG_HALT                      ,RX FIFO trigger level to HALT transmission (0 - 60)" "0,4,8,12,16,20,24,28,32,36,40,44,48,52,56,60"
group.long 0x18++0x3
line.long 0x00 "UART_XOFF1,UART mode XOFF1 character"
hexmask.long.byte 0x00 0.--7. 1. " XOFF_WORD1                ,Stores the 8-bit XOFF1 character used in UART modes"
group.long 0x1C++0x3
line.long 0x00 "UART_SPR,Scratchpad register"
hexmask.long.byte 0x00 0.--7. 1. " SPR_WORD                  ,Scratchpad register"
group.long 0x1C++0x3
line.long 0x00 "UART_TLR,Trigger level register"
bitfld.long 0x00 4.--7. " RX_FIFO_TRIG_DMA          ,Receive FIFO trigger level" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "                      TX_FIFO_TRIG_DMA                       ,Transmit FIFO trigger level" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x1C++0x3
line.long 0x00 "UART_XOFF2,UART mode XOFF2 character"
hexmask.long.byte 0x00 0.--7. 1. " XOFF_WORD2                ,Stores the 8-bit XOFF2 character used in UART modes."
group.long 0x20++0x3
line.long 0x00 "UART_MDR1,Mode definition register 1"
bitfld.long 0x00 7. " FRAME_END_MODE            ,IrDA mode only - . - ." "Frame-length,EOT"
bitfld.long 0x00 6. "            SIP_MODE                               ,MIR/FIR modes only - . - ." "Manual_SIP,Automatic_SIP"
bitfld.long 0x00 5. "                                 SCT                   ,Store and control the transmission. - . - ." "THR,ACREG[2]"
textline "                                "
bitfld.long 0x00 4. " SET_TXIR                  ,Used to configure the infrared transceiver - . - ." "TXIR_low,IRTX_high"
bitfld.long 0x00 3. "               IR_SLEEP                               ,0x0: IrDA/CIR sleep mode disabled - ." "0,Enabled"
bitfld.long 0x00 0.--2. "                                       MODE_SELECT           ,0x0: UART 16x mode - . - . - . - . - . - . - ." "0,Reserved,UART_16x_auto-baud,UART_13x,Reserved,Reserved,Reserved,Disabled"
group.long 0x24++0x3
line.long 0x00 "UART_MDR2,Mode definition register 2"
bitfld.long 0x00 7. " SET_TXIR_ALT              ,Provide alternate function forUART_MDR1[4] (SET_TXIR). - . - ." "Normal,Alternate"
bitfld.long 0x00 6. "               IRRXINVERT                             ,IR mode only (IrDA and CIR). Invert RX pin in the module before the voting or sampling system logic of the infrared block. This does not affect the RX path in UART modem modes. - . - ." "Inversion_is_performed.,1"
bitfld.long 0x00 4.--5. "                       CIR_PULSE_MODE        ,CIR pulse modulation definition. Defines high level of the pulse width associated with a digit: - . - . - . - ." "0,1,2,3"
textline "                                "
bitfld.long 0x00 3. " UART_PULSE                ,UART mode only. Allows pulse shaping in UART mode. - . - ." "Normal_UART_mode,1"
bitfld.long 0x00 1.--2. "        STS_FIFO_TRIG                          ,IR-IrDA mode only. Frame status FIFO threshold select: - . - . - . - ." "1_entry,4_entries,7_entries,8_entries"
bitfld.long 0x00 0. "                                     IRTX_UNDERRUN         ,IrDA transmission status interrupt. When theUART_IIR[5] interrupt occurs, the meaning of the interrupt is: - . - ." "0,1"
rgroup.long 0x28++0x3
line.long 0x00 "UART_SFLSR,Status FIFO line status register"
bitfld.long 0x00 4. " OE_ERROR                  ,Read 0x1: Overrun error in RX FIFO when frame at top of RX FIFO was received Top of RX FIFO = Next frame to be read from RX FIFO" "No_error,Error"
bitfld.long 0x00 3. "                FRAME_TOO_LONG_ERROR                   ,Read 0x1: Frame-length too long error in frame at top of RX FIFO" "No_error,Error"
bitfld.long 0x00 2. "                                      ABORT_DETECT          ,Read 0x1: Abort pattern detected in frame at top of RX FIFO" "No_error,Error"
textline "                                "
bitfld.long 0x00 1. " CRC_ERROR                 ,Read 0x1: CRC error in frame at top of RX FIFO" "No_error,Error"
wgroup.long 0x28++0x3
line.long 0x00 "UART_TXFLL,Transmit frame length register low"
hexmask.long.byte 0x00 0.--7. 1. " TXFLL                     ,LSB register used to specify the frame length"
rgroup.long 0x2C++0x3
line.long 0x00 "UART_RESUME,IR-IrDA and IR-CIR modes only. This register is used to clear internal flags, which halt transmission/reception when an underrun/overrun error occurs. Reading this register resumes the halted operation. This register does not physically exi..."
hexmask.long.byte 0x00 0.--7. 1. " RESUME                    ,Dummy read to restart the TX or RX"
wgroup.long 0x2C++0x3
line.long 0x00 "UART_TXFLH,Transmit frame length register high"
bitfld.long 0x00 0.--4. " TXFLH                     ,MSB register used to specify the frame length" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
wgroup.long 0x30++0x3
line.long 0x00 "UART_RXFLL,Received frame length register low"
hexmask.long.byte 0x00 0.--7. 1. " RXFLL                     ,LSB register used to specify the frame length in reception"
rgroup.long 0x30++0x3
line.long 0x00 "UART_SFREGL,Status FIFO register low"
hexmask.long.byte 0x00 0.--7. 1. " SFREGL                    ,LSB part of the frame length"
wgroup.long 0x34++0x3
line.long 0x00 "UART_RXFLH,Received frame length register high"
bitfld.long 0x00 0.--3. " RXFLH                     ,MSB register used to specify the frame length in reception" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x34++0x3
line.long 0x00 "UART_SFREGH,Status FIFO register high"
bitfld.long 0x00 0.--3. " SFREGH                    ,MSB part of the frame length" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x38++0x3
line.long 0x00 "UART_BLR,BOF control register"
bitfld.long 0x00 7. " STS_FIFO_RESET            ,Status FIFO reset. This bit is self-clearing." "No_reset,Reset"
bitfld.long 0x00 6. "                XBOF_TYPE                              ,SIR xBOF select - . - ." "0xFF,0xC0"
rgroup.long 0x38++0x3
line.long 0x00 "UART_UASR,UART autobauding status register"
bitfld.long 0x00 6.--7. " PARITY_TYPE               ,Read 0x0: No parity identified - . - . - ." "0,Parity_space,Even,Odd"
bitfld.long 0x00 5. "            BIT_BY_CHAR                            ,Read 0x0: 7-bit character identified - ." "0,8"
bitfld.long 0x00 0.--4. "                                             SPEED                 ,Used to report the speed identified - . - . - . - . - . - . - . - . - . - . - ." "No_speed,115_200,57_600,38_400,28_800,19_200,14_400,9_600,4_800,2_400,1_200,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x3C++0x3
line.long 0x00 "UART_ACREG,Auxiliary control register. IR-IrDA and IR-CIR modes only."
bitfld.long 0x00 7. " PULSE_TYPE                ,SIR pulse width select - . - ." "3/16_of_baud-rate,1.6_us"
bitfld.long 0x00 6. "       SD_MOD                                 ,Primary output used to configure transceivers. Connected to the SD/MODE input pin of IrDA transceivers. - . - ." "High,Low"
bitfld.long 0x00 5. "                                          DIS_IR_RX             ,0x0: Normal operation (RX input automatically disabled during transmit but enabled outside of transmit operation) - ." "0,Yes"
textline "                                "
bitfld.long 0x00 4. " DIS_TX_UNDERRUN           ,It is recommended to disable TX FIFO underrun capability by masking corresponding underrun interrupt. When disabling underrun by settingUART_ACREG[4] = 1, garbage data is sent over TX line. - . - ." "No,Yes"
bitfld.long 0x00 3. "                     SEND_SIP                               ,MIR/FIR modes only. Send serial infrared interaction pulse (SIP). If this bit is set during an MIR/FIR transmission, the SIP is sent at the end of it. This bit is cleared automatically at the..." "No_action,Sent"
bitfld.long 0x00 2. "                                     SCTX_EN               ,Store and controlled TX start. WhenUART_MDR1[5] = 1 and the LH writes 1 to this bit, the TX state-machine starts frame transmission. This bit is self-clearing." "Disabled,Enabled"
textline "                                "
bitfld.long 0x00 1. " ABORT_EN                  ,Frame abort. The LH can intentionally abort transmission of a frame by writing 1 to this bit. Neither the end flag nor the CRC bits are appended to the frame. If TX FIFO is not empty andUART_MDR1[5] = 1, UART IrDA starts a n..." "Disabled,Enabled"
bitfld.long 0x00 0. "                EOT_EN                                 ,EOT (end of transmission) bit. The LH writes 1 to this bit just before it writes the last byte to the TX FIFO in set-EOT bit frame closing method. This bit is cleared automatically when the LH wri..." "Disabled,Enabled"
group.long 0x40++0x3
line.long 0x00 "UART_SCR,Supplementary control register"
bitfld.long 0x00 7. " RX_TRIG_GRANU1            ,0x0: Disables the granularity of 1 for trigger RX level - ." "0,Enabled"
bitfld.long 0x00 6. "                 TX_TRIG_GRANU1                         ,0x0: Disables the granularity of 1 for trigger TX level - ." "0,Enabled"
bitfld.long 0x00 5. "                                       DSR_IT                ,0x0: Disables DSR* interrupt - ." "0,Enabled"
textline "                                "
bitfld.long 0x00 4. " RX_CTS_DSR_WAKE_UP_ENABLE ,0x0: Disables the wake-up interrupt and clears SSR[1] - ." "0,Enabled"
bitfld.long 0x00 3. "                 TX_EMPTY_CTL_IT                        ,0x0: Normal mode for THR interrupt (see UART mode interrupts table) - ." "0,Interrupt"
bitfld.long 0x00 1.--2. "                                     DMA_MODE_2            ,Used to specify the DMA mode valid if theUART_SCR[0] bit = 1 - . - . - . - ." "No_DMA,UART_nDMA_REQ[0/1]_in_TX/RX;,UART_nDMA_REQ[0]_in_RX,UART_nDMA_REQ[0]_in_TX"
textline "                                "
bitfld.long 0x00 0. " DMA_MODE_CTL              ,0x0: The DMA_MODE is set withUART_FCR[3]. - ." "0,UART_SCR[2:1]"
group.long 0x44++0x3
line.long 0x00 "UART_SSR,Supplementary status register"
bitfld.long 0x00 2. " DMA_COUNTER_RST           ,0x0: The DMA counter will not be reset if the corresponding FIFO is reset (throughUART_FCR[1] or UART_FCR[2]). - ." "0,Reset"
bitfld.long 0x00 1. "                   RX_CTS_DSR_WAKE_UP_STS                 ,Read 0x0: No falling edge event on RX, CTS*, and DSR* - ." "0,Occurred"
bitfld.long 0x00 0. "                                      TX_FIFO_FULL          ,Read 0x0: TX FIFO is not full. - ." "0,Full"
group.long 0x48++0x3
line.long 0x00 "UART_EBLR,BOF length register"
hexmask.long.byte 0x00 0.--7. 1. " EBLR                      ,IR-IrDA mode: This register allows definition of up to 176 xBOFs, the maximum required by IrDA specification."
rgroup.long 0x50++0x3
line.long 0x00 "UART_MVR,Module version register"
hexmask.long 0x00 0.--31. 1. " REV                       ,Revision number"
group.long 0x54++0x3
line.long 0x00 "UART_SYSC,System configuration register"
bitfld.long 0x00 3.--4. " IDLEMODE                  ,Power management req/ack control ref: OCP Design Guidelines Version 1.1 - . - . - . - ." "Force_idle,No-idle,Smart_idle,Reserved"
bitfld.long 0x00 2. "              ENAWAKEUP                              ,Wake-up feature control - . - ." "Disabled,Enabled"
bitfld.long 0x00 1. "                                      SOFTRESET             ,Software reset. Set this bit to 1 to trigger a module reset. This bit is automatically reset by the hardware. Read returns 0. - . - ." "No_reset,Reset"
textline "                                "
bitfld.long 0x00 0. " AUTOIDLE                  ,Internal OCP clock gating strategy - . - ." "Running,Gated"
rgroup.long 0x58++0x3
line.long 0x00 "UART_SYSS,System status register"
bitfld.long 0x00 0. " RESETDONE                 ,Internal reset monitoring - . - ." "Not_completed,Completed"
group.long 0x5C++0x3
line.long 0x00 "UART_WER,Wake-up enable register"
bitfld.long 0x00 7. " TX_WAKEUP_EN              ,0x0: Event is not allowed to wake up the system. - ." "0,1"
bitfld.long 0x00 6. "                       EVENT_6_RECEIVER_LINE_STATUS_INTERRUPT ,0x0: Event is not allowed to wake up the system. - ." "0,1"
bitfld.long 0x00 5. "                                             EVENT_5_RHR_INTERRUPT ,0x0: Event is not allowed to wake up the system. - ." "0,1"
textline "                                "
bitfld.long 0x00 4. " EVENT_4_RX_ACTIVITY       ,0x0: Event is not allowed to wake up the system. - ." "0,1"
bitfld.long 0x00 3. "                       EVENT_3_DCD_CD_ACTIVITY                ,0x0: Event is not allowed to wake up the system - ." "0,1"
bitfld.long 0x00 2. "                                             EVENT_2_RI_ACTIVITY   ,0x0: Event is not allowed to wake up the system. - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " EVENT_1_DSR_ACTIVITY      ,0x0: Event is not allowed to wake up the system. - ." "0,1"
bitfld.long 0x00 0. "                       EVENT_0_CTS_ACTIVITY                   ,0x0: Event is not allowed to wake up the system. - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "UART_CFPS,Carrier frequency prescaler"
hexmask.long.byte 0x00 0.--7. 1. " CFPS                      ,System clock frequency prescaler at (12x multiple). Examples for CFPS values: - Target Freq (kHz) CFPS (decimal) Actual Freq (kHz) . - . - 30 133 30.08 . - . - 32.75 122 32.79 . - . - 36 111 36.04 . - . - 36.7 109 36.69 . - ..."
rgroup.long 0x64++0x3
line.long 0x00 "UART_RXFIFO_LVL,Level of the RX FIFO"
hexmask.long.byte 0x00 0.--7. 1. " RXFIFO_LVL                ,Shows the number of received bytes in the RX FIFO"
rgroup.long 0x68++0x3
line.long 0x00 "UART_TXFIFO_LVL,Level of the TX FIFO"
hexmask.long.byte 0x00 0.--7. 1. " TXFIFO_LVL                ,Shows the number of written bytes in the TX FIFO"
group.long 0x6C++0x3
line.long 0x00 "UART_IER2,Enables RX/TX FIFOs empty corresponding interrupts"
bitfld.long 0x00 1. " EN_TXFIFO_EMPTY           ,Enables TX FIFO empty corresponding interrupt - . - ." "Enabled,Disabled"
bitfld.long 0x00 0. "                EN_RXFIFO_EMPTY                        ,Enables RX FIFO empty corresponding interrupt - . - ." "Enabled,Disabled"
group.long 0x70++0x3
line.long 0x00 "UART_ISR2,Status of RX/TX FIFOs empty corresponding interrupts"
bitfld.long 0x00 1. " TXFIFO_EMPTY_STS          ,Used to generate interrupt if the TX_FIFO is empty (software flow control) - . - ." "No_interrupt,Interrupt"
bitfld.long 0x00 0. "            RXFIFO_EMPTY_STS                       ,Used to generate interrupt if the RX_FIFO is empty (software flow control) - . - ." "No_interrupt,Interrupt"
group.long 0x74++0x3
line.long 0x00 "UART_FREQ_SEL,Sample per bit selector"
hexmask.long.byte 0x00 0.--7. 1. " FREQ_SEL                  ,Sets the sample per bit if nondefault frequency is used.UART_MDR3[1] must be set to 1 after this value is set. Must be equal to or higher then 6."
group.long 0x80++0x3
line.long 0x00 "UART_MDR3,Mode definition register 3"
bitfld.long 0x00 2. " SET_DMA_TX_THRESHOLD      ,Enable to set different TXDMA threshold inUART_TX_DMA_THRESHOLD register." "0,1"
bitfld.long 0x00 1. "                       NONDEFAULT_FREQ                        ,Used to enable the NONDEFAULT fclk frequencies. - . - ." "0,1"
bitfld.long 0x00 0. "                                             DISABLE_CIR_RX_DEMOD  ,Used to enable CIR RX demodulation. - . - ." "0,1"
group.long 0x84++0x3
line.long 0x00 "UART_TX_DMA_THRESHOLD,Use to manually set the TX DMA threshold level. [2] SET_TX_DMA_THRESHOLD must be 1 and must be value + tx_trigger_level = 64 (TX FIFO size). If not, 64-tx_trigger_level will be used without modifying the value of this register."
bitfld.long 0x00 0.--5. " TX_DMA_THRESHOLD          ,Used to manually set the TX DMA threshold level" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
width 0x0B
tree.end
tree "UART2"
base ad:0x4806C000
width 23.
group.long 0x0++0x3
line.long 0x00 "UART_DLL,This register, with, stores the 14-bit divisor for generation of the baud clock in the baud rate generator. DLH stores the most-significant part of the divisor. DLL stores the least-significant part of the divisor."
hexmask.long.byte 0x00 0.--7. 1. " CLOCK_LSB                 ,Stores the 8-bit LSB divisor value"
rgroup.long 0x0++0x3
line.long 0x00 "UART_RHR,The receiver section consists of the receiver holding register (RHR) and the receiver shift register. The RHR is a 64-byte FIFO. The receiver shift register receives serial data from RX input. The data is converted to parallel data and moved t..."
hexmask.long.byte 0x00 0.--7. 1. " RHR                       ,Receive holding register"
wgroup.long 0x0++0x3
line.long 0x00 "UART_THR,The transmitter section consists of the transmit holding register (THR) and the transmit shift register. The THR is a 64-byte FIFO. The local host (LH) writes data to the THR. The data is placed in the transmit shift register where it is shift..."
hexmask.long.byte 0x00 0.--7. 1. " THR                       ,Transmit holding register"
group.long 0x4++0x3
line.long 0x00 "UART_DLH,This register, with, stores the 14-bit divisor for generating the baud clock in the baud rate generator. DLH stores the most-significant part of the divisor. DLL stores the least-significant part of the divisor."
bitfld.long 0x00 0.--5. " CLOCK_MSB                 ,Stores the 6-bit MSB divisor value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x4++0x3
line.long 0x00 "UART_IER,Interrupt enable register"
bitfld.long 0x00 7. " CTS_IT                    ,- . - ." "Disabled,Enabled"
bitfld.long 0x00 6. "                RTS_IT                                 ,- . - ." "Disabled,Enabled"
bitfld.long 0x00 5. "                                      XOFF_IT               ,- . - ." "Disabled,Enabled"
textline "                                "
bitfld.long 0x00 4. " SLEEP_MODE                ,- . - ." "Disabled,Enabled"
bitfld.long 0x00 3. "                MODEM_STS_IT                           ,- . - ." "Disabled,Enabled"
bitfld.long 0x00 2. "                                      LINE_STS_IT           ,- . - ." "Disabled,Enabled"
textline "                                "
bitfld.long 0x00 1. " THR_IT                    ,- . - ." "Disabled,Enabled"
bitfld.long 0x00 0. "                RHR_IT                                 ,- . - ." "Disabled,Enabled"
group.long 0x4++0x3
line.long 0x00 "UART_IER_CIR,There are 6 types of interrupt in these modes, TX status, status FIFO interrupt, RX overrun, last byte in RX FIFO, THR interrupt and RHR interrupt and they can be enabled/disabled individually. Notes: The RX_STOP_IT interrupt is generated ..."
bitfld.long 0x00 5. " TX_STATUS_IT              ,- . - ." "0,1"
bitfld.long 0x00 3. "                       RX_OVERRUN_IT                          ,- . - ." "0,1"
bitfld.long 0x00 2. "                                             RX_STOP_IT            ,- . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " THR_IT                    ,- . - ." "0,1"
bitfld.long 0x00 0. "                       RHR_IT                                 ,- . - ." "0,1"
group.long 0x4++0x3
line.long 0x00 "UART_IER_IRDA,There are 8 types of interrupt in these modes, received EOF, LSR interrupt, TX status, status FIFO interrupt, RX overrun, last byte in RX FIFO, THR interrupt and RHR interrupt and they can be enabled/disabled individually. Note: The TX_ST..."
bitfld.long 0x00 7. " EOF_IT                    ,- . - ." "0,1"
bitfld.long 0x00 6. "                       LINE_STS_IT                            ,- . - ." "0,1"
bitfld.long 0x00 5. "                                             TX_STATUS_IT          ,- . - ." "0,1"
textline "                                "
bitfld.long 0x00 4. " STS_FIFO_TRIG_IT          ,- . - ." "0,1"
bitfld.long 0x00 3. "                       RX_OVERRUN_IT                          ,- . - ." "0,1"
bitfld.long 0x00 2. "                                             LAST_RX_BYTE_IT       ,- . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " THR_IT                    ,- . - ." "0,1"
bitfld.long 0x00 0. "                       RHR_IT                                 ,- . - ." "0,1"
group.long 0x8++0x3
line.long 0x00 "UART_EFR,Enhanced feature register"
bitfld.long 0x00 7. " AUTO_CTS_EN               ,Auto-CTS enable bit - . - ." "Disabled,Enabled"
bitfld.long 0x00 6. "                AUTO_RTS_EN                            ,Auto-RTS enable bit - . - ." "Disabled,Enabled"
bitfld.long 0x00 5. "                                      SPECIAL_CHAR_DETECT   ,- . - ." "Disabled,Enabled"
textline "                                "
bitfld.long 0x00 4. " ENHANCED_EN               ,Enhanced functions write enable bit - . - ." "Disabled,Enabled"
bitfld.long 0x00 0.--3. "                SW_FLOW_CONTROL                        ,Combinations of software flow control can be selected by programming bit 3 - bit 0. See." "No_transmit/No_receive,No_transmit/Rx_comp._XON2;XOFF2,No_transmit/Rx_comp._XON1;XOFF1,No_transmit/Rx_comp._XON1;XON2:XOFF1;XOFF2,Tx_XON2;XOFF2/No_receive,Tx_XON2;XOFF2/Rx_comp._XON2;XOFF2,Tx_XON2;XOFF2/Rx_comp._XON1;XOFF1,Tx_XON2;XOFF2/Rx_comp._XON1;XON2:XOFF1;XOFF2,Tx_XON1;XOFF1/No_receive,Tx_XON1;XOFF1/Rx_comp._XON2;XOFF2,Tx_XON1;XOFF1/Rx_comp._XON1;XOFF1,Tx_XON1;XOFF1/Rx_comp._XON1;XON2:XOFF1;XOFF2,Tx_XON1;XON2:XOFF1;XOFF2/No_receive,Tx_XON1;XON2:XOFF1;XOFF2/Rx_comp._XON2;XOFF2,Tx_XON1;XON2:XOFF1;XOFF2/Rx_comp._XON1;XOFF1,Tx/Rx_comp._XON1;XON2:XOFF1;XOFF2"
wgroup.long 0x8++0x3
line.long 0x00 "UART_FCR,FIFO control register"
bitfld.long 0x00 6.--7. " RX_FIFO_TRIG              ,Sets the trigger level for the RX FIFO: If UART_SCR[7] = 0 and UART_TLR[7:4] = 0000: 00: 8 characters 01: 16 characters 10: 56 characters 11: 60 characters If UART_SCR[7] = 0 and UART_TLR[7:4] != 0000, RX_FIFO_TRIG is not co..." "8,16,56,60"
bitfld.long 0x00 4.--5. "                      TX_FIFO_TRIG                           ,Sets the trigger level for the TX FIFO: If UART_SCR[6] = 0 and UART_TLR[3:0] = 0000: 00: 8 spaces 01: 16 spaces 10: 32 spaces 11: 56 spaces If UART_SCR[6] = 0 and UART_TLR[3:0] != 0000, TX_F..." "8,16,32,56"
bitfld.long 0x00 3. "                                            DMA_MODE              ,This register is considered ifUART_SCR[0] = 0. - . - ." "Disabled,Enabled"
textline "                                "
bitfld.long 0x00 2. " TX_FIFO_CLEAR             ,- . - ." "No_effect,Clear"
bitfld.long 0x00 1. "               RX_FIFO_CLEAR                          ,- . - ." "No_effect,Clear"
bitfld.long 0x00 0. "                                     FIFO_EN               ,- . - ." "Disabled,Enabled"
rgroup.long 0x8++0x3
line.long 0x00 "UART_IIR,Interrupt identification register."
bitfld.long 0x00 6.--7. " FCR_MIRROR                ,Mirror the contents ofUART_FCR[0] on both bits." "0,1,2,3"
bitfld.long 0x00 1.--5. "                       IT_TYPE                                ,Read 0x0: Modem interrupt. Priority = 4 - . - . - . - . - . - ." "0,THR,RHR,Receiver_line_status_error,4,5,Rx_time-out,7,XOFF/special_character,9,10,11,12,13,14,15,CTS/RTS/DSR_change,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0. "                    IT_PENDING            ,Read 0x0: An interrupt is pending. - ." "0,Not_pending"
rgroup.long 0x8++0x3
line.long 0x00 "UART_IIR_CIR,The interrupt line is activated whenever one of the 6 interrupts is active."
bitfld.long 0x00 5. " TX_STATUS_IT              ,Read 0x0: TX status interrupt inactive - ." "0,1"
bitfld.long 0x00 3. "                       RX_OE_IT                               ,Read 0x0: RX overrun interrupt inactive - ." "0,1"
bitfld.long 0x00 2. "                                             RX_STOP_IT            ,Read 0x0: Receive stop interrupt inactive - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " THR_IT                    ,Read 0x0: THR interrupt inactive - ." "0,THR_interrupt_active"
bitfld.long 0x00 0. "    RHR_IT                                 ,Read 0x0: RHR interrupt inactive - ." "0,RHR_interrupt_active"
rgroup.long 0x8++0x3
line.long 0x00 "UART_IIR_IRDA,The interrupt line is activated whenever one of the 8 interrupts is active."
bitfld.long 0x00 7. " EOF_IT                    ,- . - ." "0,1"
bitfld.long 0x00 6. "                       LINE_STS_IT                            ,- . - ." "0,1"
bitfld.long 0x00 5. "                                             TX_STATUS_IT          ,- . - ." "0,1"
textline "                                "
bitfld.long 0x00 4. " STS_FIFO_IT               ,- . - ." "0,1"
bitfld.long 0x00 3. "                       RX_OE_IT                               ,- . - ." "0,1"
bitfld.long 0x00 2. "                                             RX_FIFO_LAST_BYTE_IT  ,- . - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " THR_IT                    ,- . - ." "THR_interrupt_inactive,THR_interrupt_active"
bitfld.long 0x00 0. "  RHR_IT                                 ,- . - ." "RHR_interrupt_inactive,RHR_interrupt_active"
group.long 0xC++0x3
line.long 0x00 "UART_LCR,Line control register"
bitfld.long 0x00 7. " DIV_EN                    ,- . - ." "Disabled,Enabled"
bitfld.long 0x00 6. "                BREAK_EN                               ,Break control bit - . - ." "Normal,Forced_low"
bitfld.long 0x00 5. "                                    PARITY_TYPE2          ,Selects the forced parity format (ifUART_LCR[3] = 1). If UART_LCR[5] = 1 and UART_LCR[4] = 0, the parity bit is forced to 1 in the transmitted and received data. If UART_LCR[5] = 1 and UART_LCR..." "No_parity,Odd_parity"
textline "                                "
bitfld.long 0x00 4. " PARITY_TYPE1              ,- . - ." "0,1"
bitfld.long 0x00 3. "                       PARITY_EN                              ,0x0: No parity - ." "0,1"
bitfld.long 0x00 2. "                                             NB_STOP               ,Specifies the number of stop-bits - . - ." "1,1.5"
textline "                                "
bitfld.long 0x00 0.--1. " CHAR_LENGTH               ,Specifies the word length to be transmitted or received - . - . - . - ." "5,6,7,8"
group.long 0x10++0x3
line.long 0x00 "UART_MCR,Modem control register"
bitfld.long 0x00 6. " TCR_TLR                   ,0x0: No action - ." "0,Enabled"
bitfld.long 0x00 5. "                 XON_EN                                 ,0x0: Disable XON any function. - ." "0,Enabled"
bitfld.long 0x00 4. "                                       LOOPBACK_EN           ,0x0: Normal operating mode - ." "0,Enabled"
textline "                                "
bitfld.long 0x00 3. " CD_STS_CH                 ,0x0: In loopback, forces DCD* input high and IRQ outputs to inactive state - ." "0,Low"
bitfld.long 0x00 2. "                     RI_STS_CH                              ,0x0: In loopback, forces RI* input high - ." "0,Low"
bitfld.long 0x00 1. "                                           RTS                   ,In loopback, controls theUART_MSR[4] bit. If auto-RTS is enabled, the RTS* output is controlled by hardware flow control. - . - ." "Disabled,Enabled"
textline "                                "
bitfld.long 0x00 0. " DTR                       ,0x0: Force DTR* output to inactive (high). - ." "0,Enabled"
group.long 0x10++0x3
line.long 0x00 "UART_XON1_ADDR1,UART mode: XON1 character, IrDA mode: ADDR1 address"
hexmask.long.byte 0x00 0.--7. 1. " XON_WORD1                 ,Stores the 8-bit XON1 character in UART modes and ADDR1 address 1 for IrDA modes"
rgroup.long 0x14++0x3
line.long 0x00 "UART_LSR,Line status register"
bitfld.long 0x00 7. " RX_FIFO_STS               ,Read 0x0: Normal operation - ." "0,Error"
bitfld.long 0x00 6. "                   TX_SR_E                                ,Read 0x0: Transmitter hold (TX FIFO) and shift registers are not empty. - ." "0,Empty"
bitfld.long 0x00 5. "                                         TX_FIFO_E             ,Read 0x0: Transmit hold register (TX FIFO) is not empty. - ." "0,Empty"
textline "                                "
bitfld.long 0x00 4. " RX_BI                     ,Read 0x0: No break condition - ." "0,Detected"
bitfld.long 0x00 3. "                RX_FE                                  ,Read 0x0: No framing error in data RX FIFO - ." "0,Error"
bitfld.long 0x00 2. "                                         RX_PE                 ,Read 0x0: No parity error in data from RX FIFO - ." "0,Error"
textline "                                "
bitfld.long 0x00 1. " RX_OE                     ,Read 0x0: No overrun error - ." "0,Error"
bitfld.long 0x00 0. "                   RX_FIFO_E                              ,Read 0x0: No data in the RX FIFO - ." "0,One_data"
rgroup.long 0x14++0x3
line.long 0x00 "UART_LSR_CIR,Line status register in CIR mode"
bitfld.long 0x00 7. " THR_EMPTY                 ,Read 0x0: Transmit holding register (TX FIFO) is not empty. - ." "0,1"
bitfld.long 0x00 5. "                       RX_STOP                                ,The RX_STOP is generated based on the value set in the BOF Length register (UART_EBLR). It is cleared on a single read of the UART_LSR register. - . - ." "0,Reception_is_complete."
bitfld.long 0x00 0. "                        RX_FIFO_E             ,Read 0x0: At least one data character in the RX FIFO - ." "0,1"
rgroup.long 0x14++0x3
line.long 0x00 "UART_LSR_IRDA,When the LSR is read, LSR[4:2] reflect the error bits [FL, CRC, ABORT] of the frame at the top of the STATUS FIFO (next frame status to be read)."
bitfld.long 0x00 7. " THR_EMPTY                 ,Read 0x0: Transmit holding register (TX FIFO) is not empty. - ." "0,1"
bitfld.long 0x00 6. "                       STS_FIFO_FULL                          ,Read 0x0: Status FIFO not full - ." "0,Status_FIFO_full"
bitfld.long 0x00 5. "                              RX_LAST_BYTE          ,Read 0x0: The RX FIFO (RHR) does not contain the last byte of the frame to be read. - ." "0,1"
textline "                                "
bitfld.long 0x00 4. " FRAME_TOO_LONG            ,Read 0x0: No frame-too-long error in frame - ." "0,1"
bitfld.long 0x00 3. "                       ABORT                                  ,Read 0x0: No abort pattern error in frame - ." "0,1"
bitfld.long 0x00 2. "                                             CRC                   ,Read 0x0: No CRC error in frame - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " STS_FIFO_E                ,Read 0x0: Status FIFO not empty - ." "0,Status_FIFO_empty"
bitfld.long 0x00 0. "       RX_FIFO_E                              ,Read 0x0: No data in the RX FIFO - ." "0,1"
group.long 0x14++0x3
line.long 0x00 "UART_XON2_ADDR2,Stores the 8-bit XON2 character in UART moldes and ADDR2 address 2 for IrDA modes"
hexmask.long.byte 0x00 0.--7. 1. " XON_WORD2                 ,Stores the 8-bit XON2 character in UART modes and ADDR2 address 2 for IrDA modes"
rgroup.long 0x18++0x3
line.long 0x00 "UART_MSR,Modem status register. UART mode only."
bitfld.long 0x00 7. " NCD_STS                   ,This bit is the complement of the DCD* input. In loopback mode, it is equivalent toUART_MCR[3]." "0,1"
bitfld.long 0x00 6. "                       NRI_STS                                ,This bit is the complement of the RI* input. In loopback mode, it is equivalent toUART_MCR[2]." "0,1"
bitfld.long 0x00 5. "                                             NDSR_STS              ,This bit is the complement of the DSR* input. In loopback mode, it is equivalent toUART_MCR[0]." "0,1"
textline "                                "
bitfld.long 0x00 4. " NCTS_STS                  ,This bit is the complement of the CTS* input. In loopback mode, it is equivalent toUART_MCR[1]." "0,1"
bitfld.long 0x00 3. "                       DCD_STS                                ,Indicates that DCD* input (orUART_MCR[3] in loopback) changed. Cleared on a read." "0,1"
bitfld.long 0x00 2. "                                             RI_STS                ,Indicates that RI* input (orUART_MCR[2] in loopback) changed state from low to high. Cleared on a read." "0,1"
textline "                                "
bitfld.long 0x00 1. " DSR_STS                   ,- ." "0,1"
bitfld.long 0x00 0. "                       CTS_STS                                ,- ." "0,1"
group.long 0x18++0x3
line.long 0x00 "UART_TCR,Transmission control register"
bitfld.long 0x00 4.--7. " RX_FIFO_TRIG_START        ,RX FIFO trigger level to RESTORE transmission (0 - 60)" "0,4,8,12,16,20,24,28,32,36,40,44,48,52,56,60"
bitfld.long 0x00 0.--3. "                      RX_FIFO_TRIG_HALT                      ,RX FIFO trigger level to HALT transmission (0 - 60)" "0,4,8,12,16,20,24,28,32,36,40,44,48,52,56,60"
group.long 0x18++0x3
line.long 0x00 "UART_XOFF1,UART mode XOFF1 character"
hexmask.long.byte 0x00 0.--7. 1. " XOFF_WORD1                ,Stores the 8-bit XOFF1 character used in UART modes"
group.long 0x1C++0x3
line.long 0x00 "UART_SPR,Scratchpad register"
hexmask.long.byte 0x00 0.--7. 1. " SPR_WORD                  ,Scratchpad register"
group.long 0x1C++0x3
line.long 0x00 "UART_TLR,Trigger level register"
bitfld.long 0x00 4.--7. " RX_FIFO_TRIG_DMA          ,Receive FIFO trigger level" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "                      TX_FIFO_TRIG_DMA                       ,Transmit FIFO trigger level" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x1C++0x3
line.long 0x00 "UART_XOFF2,UART mode XOFF2 character"
hexmask.long.byte 0x00 0.--7. 1. " XOFF_WORD2                ,Stores the 8-bit XOFF2 character used in UART modes."
group.long 0x20++0x3
line.long 0x00 "UART_MDR1,Mode definition register 1"
bitfld.long 0x00 7. " FRAME_END_MODE            ,IrDA mode only - . - ." "Frame-length,EOT"
bitfld.long 0x00 6. "            SIP_MODE                               ,MIR/FIR modes only - . - ." "Manual_SIP,Automatic_SIP"
bitfld.long 0x00 5. "                                 SCT                   ,Store and control the transmission. - . - ." "THR,ACREG[2]"
textline "                                "
bitfld.long 0x00 4. " SET_TXIR                  ,Used to configure the infrared transceiver - . - ." "TXIR_low,IRTX_high"
bitfld.long 0x00 3. "               IR_SLEEP                               ,0x0: IrDA/CIR sleep mode disabled - ." "0,Enabled"
bitfld.long 0x00 0.--2. "                                       MODE_SELECT           ,0x0: UART 16x mode - . - . - . - . - . - . - ." "0,Reserved,UART_16x_auto-baud,UART_13x,Reserved,Reserved,Reserved,Disabled"
group.long 0x24++0x3
line.long 0x00 "UART_MDR2,Mode definition register 2"
bitfld.long 0x00 7. " SET_TXIR_ALT              ,Provide alternate function forUART_MDR1[4] (SET_TXIR). - . - ." "Normal,Alternate"
bitfld.long 0x00 6. "               IRRXINVERT                             ,IR mode only (IrDA and CIR). Invert RX pin in the module before the voting or sampling system logic of the infrared block. This does not affect the RX path in UART modem modes. - . - ." "Inversion_is_performed.,1"
bitfld.long 0x00 4.--5. "                       CIR_PULSE_MODE        ,CIR pulse modulation definition. Defines high level of the pulse width associated with a digit: - . - . - . - ." "0,1,2,3"
textline "                                "
bitfld.long 0x00 3. " UART_PULSE                ,UART mode only. Allows pulse shaping in UART mode. - . - ." "Normal_UART_mode,1"
bitfld.long 0x00 1.--2. "        STS_FIFO_TRIG                          ,IR-IrDA mode only. Frame status FIFO threshold select: - . - . - . - ." "1_entry,4_entries,7_entries,8_entries"
bitfld.long 0x00 0. "                                     IRTX_UNDERRUN         ,IrDA transmission status interrupt. When theUART_IIR[5] interrupt occurs, the meaning of the interrupt is: - . - ." "0,1"
rgroup.long 0x28++0x3
line.long 0x00 "UART_SFLSR,Status FIFO line status register"
bitfld.long 0x00 4. " OE_ERROR                  ,Read 0x1: Overrun error in RX FIFO when frame at top of RX FIFO was received Top of RX FIFO = Next frame to be read from RX FIFO" "No_error,Error"
bitfld.long 0x00 3. "                FRAME_TOO_LONG_ERROR                   ,Read 0x1: Frame-length too long error in frame at top of RX FIFO" "No_error,Error"
bitfld.long 0x00 2. "                                      ABORT_DETECT          ,Read 0x1: Abort pattern detected in frame at top of RX FIFO" "No_error,Error"
textline "                                "
bitfld.long 0x00 1. " CRC_ERROR                 ,Read 0x1: CRC error in frame at top of RX FIFO" "No_error,Error"
wgroup.long 0x28++0x3
line.long 0x00 "UART_TXFLL,Transmit frame length register low"
hexmask.long.byte 0x00 0.--7. 1. " TXFLL                     ,LSB register used to specify the frame length"
rgroup.long 0x2C++0x3
line.long 0x00 "UART_RESUME,IR-IrDA and IR-CIR modes only. This register is used to clear internal flags, which halt transmission/reception when an underrun/overrun error occurs. Reading this register resumes the halted operation. This register does not physically exi..."
hexmask.long.byte 0x00 0.--7. 1. " RESUME                    ,Dummy read to restart the TX or RX"
wgroup.long 0x2C++0x3
line.long 0x00 "UART_TXFLH,Transmit frame length register high"
bitfld.long 0x00 0.--4. " TXFLH                     ,MSB register used to specify the frame length" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
wgroup.long 0x30++0x3
line.long 0x00 "UART_RXFLL,Received frame length register low"
hexmask.long.byte 0x00 0.--7. 1. " RXFLL                     ,LSB register used to specify the frame length in reception"
rgroup.long 0x30++0x3
line.long 0x00 "UART_SFREGL,Status FIFO register low"
hexmask.long.byte 0x00 0.--7. 1. " SFREGL                    ,LSB part of the frame length"
wgroup.long 0x34++0x3
line.long 0x00 "UART_RXFLH,Received frame length register high"
bitfld.long 0x00 0.--3. " RXFLH                     ,MSB register used to specify the frame length in reception" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x34++0x3
line.long 0x00 "UART_SFREGH,Status FIFO register high"
bitfld.long 0x00 0.--3. " SFREGH                    ,MSB part of the frame length" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x38++0x3
line.long 0x00 "UART_BLR,BOF control register"
bitfld.long 0x00 7. " STS_FIFO_RESET            ,Status FIFO reset. This bit is self-clearing." "No_reset,Reset"
bitfld.long 0x00 6. "                XBOF_TYPE                              ,SIR xBOF select - . - ." "0xFF,0xC0"
rgroup.long 0x38++0x3
line.long 0x00 "UART_UASR,UART autobauding status register"
bitfld.long 0x00 6.--7. " PARITY_TYPE               ,Read 0x0: No parity identified - . - . - ." "0,Parity_space,Even,Odd"
bitfld.long 0x00 5. "            BIT_BY_CHAR                            ,Read 0x0: 7-bit character identified - ." "0,8"
bitfld.long 0x00 0.--4. "                                             SPEED                 ,Used to report the speed identified - . - . - . - . - . - . - . - . - . - . - ." "No_speed,115_200,57_600,38_400,28_800,19_200,14_400,9_600,4_800,2_400,1_200,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x3C++0x3
line.long 0x00 "UART_ACREG,Auxiliary control register. IR-IrDA and IR-CIR modes only."
bitfld.long 0x00 7. " PULSE_TYPE                ,SIR pulse width select - . - ." "3/16_of_baud-rate,1.6_us"
bitfld.long 0x00 6. "       SD_MOD                                 ,Primary output used to configure transceivers. Connected to the SD/MODE input pin of IrDA transceivers. - . - ." "High,Low"
bitfld.long 0x00 5. "                                          DIS_IR_RX             ,0x0: Normal operation (RX input automatically disabled during transmit but enabled outside of transmit operation) - ." "0,Yes"
textline "                                "
bitfld.long 0x00 4. " DIS_TX_UNDERRUN           ,It is recommended to disable TX FIFO underrun capability by masking corresponding underrun interrupt. When disabling underrun by settingUART_ACREG[4] = 1, garbage data is sent over TX line. - . - ." "No,Yes"
bitfld.long 0x00 3. "                     SEND_SIP                               ,MIR/FIR modes only. Send serial infrared interaction pulse (SIP). If this bit is set during an MIR/FIR transmission, the SIP is sent at the end of it. This bit is cleared automatically at the..." "No_action,Sent"
bitfld.long 0x00 2. "                                     SCTX_EN               ,Store and controlled TX start. WhenUART_MDR1[5] = 1 and the LH writes 1 to this bit, the TX state-machine starts frame transmission. This bit is self-clearing." "Disabled,Enabled"
textline "                                "
bitfld.long 0x00 1. " ABORT_EN                  ,Frame abort. The LH can intentionally abort transmission of a frame by writing 1 to this bit. Neither the end flag nor the CRC bits are appended to the frame. If TX FIFO is not empty andUART_MDR1[5] = 1, UART IrDA starts a n..." "Disabled,Enabled"
bitfld.long 0x00 0. "                EOT_EN                                 ,EOT (end of transmission) bit. The LH writes 1 to this bit just before it writes the last byte to the TX FIFO in set-EOT bit frame closing method. This bit is cleared automatically when the LH wri..." "Disabled,Enabled"
group.long 0x40++0x3
line.long 0x00 "UART_SCR,Supplementary control register"
bitfld.long 0x00 7. " RX_TRIG_GRANU1            ,0x0: Disables the granularity of 1 for trigger RX level - ." "0,Enabled"
bitfld.long 0x00 6. "                 TX_TRIG_GRANU1                         ,0x0: Disables the granularity of 1 for trigger TX level - ." "0,Enabled"
bitfld.long 0x00 5. "                                       DSR_IT                ,0x0: Disables DSR* interrupt - ." "0,Enabled"
textline "                                "
bitfld.long 0x00 4. " RX_CTS_DSR_WAKE_UP_ENABLE ,0x0: Disables the wake-up interrupt and clears SSR[1] - ." "0,Enabled"
bitfld.long 0x00 3. "                 TX_EMPTY_CTL_IT                        ,0x0: Normal mode for THR interrupt (see UART mode interrupts table) - ." "0,Interrupt"
bitfld.long 0x00 1.--2. "                                     DMA_MODE_2            ,Used to specify the DMA mode valid if theUART_SCR[0] bit = 1 - . - . - . - ." "No_DMA,UART_nDMA_REQ[0/1]_in_TX/RX;,UART_nDMA_REQ[0]_in_RX,UART_nDMA_REQ[0]_in_TX"
textline "                                "
bitfld.long 0x00 0. " DMA_MODE_CTL              ,0x0: The DMA_MODE is set withUART_FCR[3]. - ." "0,UART_SCR[2:1]"
group.long 0x44++0x3
line.long 0x00 "UART_SSR,Supplementary status register"
bitfld.long 0x00 2. " DMA_COUNTER_RST           ,0x0: The DMA counter will not be reset if the corresponding FIFO is reset (throughUART_FCR[1] or UART_FCR[2]). - ." "0,Reset"
bitfld.long 0x00 1. "                   RX_CTS_DSR_WAKE_UP_STS                 ,Read 0x0: No falling edge event on RX, CTS*, and DSR* - ." "0,Occurred"
bitfld.long 0x00 0. "                                      TX_FIFO_FULL          ,Read 0x0: TX FIFO is not full. - ." "0,Full"
group.long 0x48++0x3
line.long 0x00 "UART_EBLR,BOF length register"
hexmask.long.byte 0x00 0.--7. 1. " EBLR                      ,IR-IrDA mode: This register allows definition of up to 176 xBOFs, the maximum required by IrDA specification."
rgroup.long 0x50++0x3
line.long 0x00 "UART_MVR,Module version register"
hexmask.long 0x00 0.--31. 1. " REV                       ,Revision number"
group.long 0x54++0x3
line.long 0x00 "UART_SYSC,System configuration register"
bitfld.long 0x00 3.--4. " IDLEMODE                  ,Power management req/ack control ref: OCP Design Guidelines Version 1.1 - . - . - . - ." "Force_idle,No-idle,Smart_idle,Reserved"
bitfld.long 0x00 2. "              ENAWAKEUP                              ,Wake-up feature control - . - ." "Disabled,Enabled"
bitfld.long 0x00 1. "                                      SOFTRESET             ,Software reset. Set this bit to 1 to trigger a module reset. This bit is automatically reset by the hardware. Read returns 0. - . - ." "No_reset,Reset"
textline "                                "
bitfld.long 0x00 0. " AUTOIDLE                  ,Internal OCP clock gating strategy - . - ." "Running,Gated"
rgroup.long 0x58++0x3
line.long 0x00 "UART_SYSS,System status register"
bitfld.long 0x00 0. " RESETDONE                 ,Internal reset monitoring - . - ." "Not_completed,Completed"
group.long 0x5C++0x3
line.long 0x00 "UART_WER,Wake-up enable register"
bitfld.long 0x00 7. " TX_WAKEUP_EN              ,0x0: Event is not allowed to wake up the system. - ." "0,1"
bitfld.long 0x00 6. "                       EVENT_6_RECEIVER_LINE_STATUS_INTERRUPT ,0x0: Event is not allowed to wake up the system. - ." "0,1"
bitfld.long 0x00 5. "                                             EVENT_5_RHR_INTERRUPT ,0x0: Event is not allowed to wake up the system. - ." "0,1"
textline "                                "
bitfld.long 0x00 4. " EVENT_4_RX_ACTIVITY       ,0x0: Event is not allowed to wake up the system. - ." "0,1"
bitfld.long 0x00 3. "                       EVENT_3_DCD_CD_ACTIVITY                ,0x0: Event is not allowed to wake up the system - ." "0,1"
bitfld.long 0x00 2. "                                             EVENT_2_RI_ACTIVITY   ,0x0: Event is not allowed to wake up the system. - ." "0,1"
textline "                                "
bitfld.long 0x00 1. " EVENT_1_DSR_ACTIVITY      ,0x0: Event is not allowed to wake up the system. - ." "0,1"
bitfld.long 0x00 0. "                       EVENT_0_CTS_ACTIVITY                   ,0x0: Event is not allowed to wake up the system. - ." "0,1"
group.long 0x60++0x3
line.long 0x00 "UART_CFPS,Carrier frequency prescaler"
hexmask.long.byte 0x00 0.--7. 1. " CFPS                      ,System clock frequency prescaler at (12x multiple). Examples for CFPS values: - Target Freq (kHz) CFPS (decimal) Actual Freq (kHz) . - . - 30 133 30.08 . - . - 32.75 122 32.79 . - . - 36 111 36.04 . - . - 36.7 109 36.69 . - ..."
rgroup.long 0x64++0x3
line.long 0x00 "UART_RXFIFO_LVL,Level of the RX FIFO"
hexmask.long.byte 0x00 0.--7. 1. " RXFIFO_LVL                ,Shows the number of received bytes in the RX FIFO"
rgroup.long 0x68++0x3
line.long 0x00 "UART_TXFIFO_LVL,Level of the TX FIFO"
hexmask.long.byte 0x00 0.--7. 1. " TXFIFO_LVL                ,Shows the number of written bytes in the TX FIFO"
group.long 0x6C++0x3
line.long 0x00 "UART_IER2,Enables RX/TX FIFOs empty corresponding interrupts"
bitfld.long 0x00 1. " EN_TXFIFO_EMPTY           ,Enables TX FIFO empty corresponding interrupt - . - ." "Enabled,Disabled"
bitfld.long 0x00 0. "                EN_RXFIFO_EMPTY                        ,Enables RX FIFO empty corresponding interrupt - . - ." "Enabled,Disabled"
group.long 0x70++0x3
line.long 0x00 "UART_ISR2,Status of RX/TX FIFOs empty corresponding interrupts"
bitfld.long 0x00 1. " TXFIFO_EMPTY_STS          ,Used to generate interrupt if the TX_FIFO is empty (software flow control) - . - ." "No_interrupt,Interrupt"
bitfld.long 0x00 0. "            RXFIFO_EMPTY_STS                       ,Used to generate interrupt if the RX_FIFO is empty (software flow control) - . - ." "No_interrupt,Interrupt"
group.long 0x74++0x3
line.long 0x00 "UART_FREQ_SEL,Sample per bit selector"
hexmask.long.byte 0x00 0.--7. 1. " FREQ_SEL                  ,Sets the sample per bit if nondefault frequency is used.UART_MDR3[1] must be set to 1 after this value is set. Must be equal to or higher then 6."
group.long 0x80++0x3
line.long 0x00 "UART_MDR3,Mode definition register 3"
bitfld.long 0x00 2. " SET_DMA_TX_THRESHOLD      ,Enable to set different TXDMA threshold inUART_TX_DMA_THRESHOLD register." "0,1"
bitfld.long 0x00 1. "                       NONDEFAULT_FREQ                        ,Used to enable the NONDEFAULT fclk frequencies. - . - ." "0,1"
bitfld.long 0x00 0. "                                             DISABLE_CIR_RX_DEMOD  ,Used to enable CIR RX demodulation. - . - ." "0,1"
group.long 0x84++0x3
line.long 0x00 "UART_TX_DMA_THRESHOLD,Use to manually set the TX DMA threshold level. [2] SET_TX_DMA_THRESHOLD must be 1 and must be value + tx_trigger_level = 64 (TX FIFO size). If not, 64-tx_trigger_level will be used without modifying the value of this register."
bitfld.long 0x00 0.--5. " TX_DMA_THRESHOLD          ,Used to manually set the TX DMA threshold level" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
width 0x0B
tree.end
tree.end
tree.end
tree.open "Multichannel_Serial_Peripheral_Interface"
tree.open "MCSPI1"
tree "MCSPI1"
base ad:0x48098000
tree "Channel_0"
width 17.
group.long 0x12C++0x3
line.long 0x00 "MCSPI_CHxCONF_0,This register is dedicated to the configuration of the channel x"
bitfld.long 0x00 29. " CLKG     ,Clock divider granularity this bit defines the granularity of channel clock divider: power of 2 or one clock cycle granularity. When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divide..." "0,1"
bitfld.long 0x00 28. "                   FFER  ,FIFO enabled for receive: Only one channel can have this bit field set. - . - ." "0,1"
bitfld.long 0x00 27. "  FFEW  ,FIFO enabled for transmit: Only one channel can have this bit field set. - . - ." "0,1"
textline "                          "
bitfld.long 0x00 25.--26. " TCS0     ,Chip-select time control This 2-bit field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock. - . - . - . - ." "0.5_clock_cycle,1.5_clock_cycles,2.5_clock_cycles,3.5_clock_cycles"
bitfld.long 0x00 24. "    SBPOL ,Start-bit polarity - . - ." "0,1"
bitfld.long 0x00 23. "  SBE   ,Start-bit enable for SPI transfer - . - ." "0,1"
textline "                          "
bitfld.long 0x00 21.--22. " SPIENSLV ,Channel 0 only and slave mode only: SPI slave select signal detection. Reserved bits for other cases. - . - . - . - ." "0,1,2,3"
bitfld.long 0x00 20. "                   FORCE ,Manual SPIEN assertion to keep SPIEN active between SPI words (single channel master mode only). - . - ." "0,1"
bitfld.long 0x00 19. "  TURBO ,Turbo mode - . - ." "0,1"
textline "                          "
bitfld.long 0x00 18. " IS       ,Input Select - . - ." "0,1"
bitfld.long 0x00 17. "                   DPE1  ,Transmission enable for data line 1 - . - ." "0,1"
bitfld.long 0x00 16. "  DPE0  ,Transmission Enable for data line 0 - . - ." "0,1"
textline "                          "
bitfld.long 0x00 15. " DMAR     ,DMA read request The DMA read request line is asserted when the channel is enabled and a new data is available in the receive register of the channel. The DMA read request line is deasserted on read completion of the receive register of the ..." "0,1"
bitfld.long 0x00 14. "                   DMAW  ,DMA write request. The DMA write request line is asserted when The channel is enabled and the transmitter register of the channel is empty. The DMA write request line is deasserted on load completion of the transmitter registe..." "0,1"
bitfld.long 0x00 12.--13. "  TRM   ,Transmit/receive modes - . - . - . - ." "Transmit-and-receive_mode,Receive-only_mode,Transmit-only_mode,Reserved"
textline "                          "
bitfld.long 0x00 7.--11. " WL       ,SPI word length - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - ." "Reserved,Reserved,Reserved,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 6. "            EPOL  ,SPIEN polarity - . - ." "0,1"
bitfld.long 0x00 2.--5. "  CLKD  ,Frequency divider for SPICLK (only when the module is a Master SPI device). A programmable clock divider divides the SPI reference clock (CLKSPIREF) with a 4-bit value, and results in a new clock SPICLK available to shift-in and shift-out data..." "1,2,4,8,16,32,64,128,256,512,1024,2048,4096,8192,16384,32768"
textline "                          "
bitfld.long 0x00 1. " POL      ,SPICLK polarity (see, ) - . - ." "0,1"
bitfld.long 0x00 0. "                   PHA   ,SPICLK phase (see, ) - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MCSPI_CHxCTRL_0,This register is dedicated to enable channel x."
hexmask.long.byte 0x00 8.--15. 1. " EXTCLK   ,Clock ratio extension: this field is used to concatenate with MCSPI_CHCONF[CLKD] register for clock ratio only when granularity is one clock cycle (MCSPI_CHCONF[CLKG] set to 1). Then the maximum value reached is 4096 clock divider ratio. - ...."
bitfld.long 0x00 0. "                  EN    ,Channel enable - . - ." "0,1"
rgroup.long 0x130++0x3
line.long 0x00 "MCSPI_CHxSTAT_0,This register provides status information about transmitter and receiver registers of channel x."
bitfld.long 0x00 6. " RXFFF    ,Channel 'i' FIFO receive buffer full status - . - ." "0,1"
bitfld.long 0x00 5. "                   RXFFE ,Channel 'i' FIFO receive buffer empty status - . - ." "0,1"
bitfld.long 0x00 4. "  TXFFF ,Channel 'i' FIFO transmit buffer full status - . - ." "0,1"
textline "                          "
bitfld.long 0x00 3. " TXFFE    ,Channel 'i' FIFO transmit buffer empty status - . - ." "0,1"
bitfld.long 0x00 2. "                   EOT   ,Channel 'i' end of transfer status. The definitions of beginning and end of transfer vary with master versus slave and the transfer format (transmit/receive modes, turbo mode). See dedicated chapters for details. - . - ." "0,1"
bitfld.long 0x00 1. "  TXS   ,Channel 'i' transmitter register status - . - ." "Register_is_full.,Register_is_empty."
textline "                          "
bitfld.long 0x00 0. " RXS      ,Channel 'i' receiver register status - . - ." "Register_is_empty.,Register_is_full."
rgroup.long 0x13C++0x3
line.long 0x00 "MCSPI_RXx_0,This register contains a single SPI word for channel x received through the serial link, whatever SPI word length is."
hexmask.long 0x00 0.--31. 1. " RDATA    ,Channel x received data"
group.long 0x138++0x3
line.long 0x00 "MCSPI_TXx_0,This register contains a single SPI word for channel x to transmit on the serial link, whatever SPI word length is."
hexmask.long 0x00 0.--31. 1. " TDATA    ,Channel x data to transmit"
tree.end
tree "Channel_1"
width 17.
group.long 0x140++0x3
line.long 0x00 "MCSPI_CHxCONF_1,This register is dedicated to the configuration of the channel x"
bitfld.long 0x00 29. " CLKG     ,Clock divider granularity this bit defines the granularity of channel clock divider: power of 2 or one clock cycle granularity. When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divide..." "0,1"
bitfld.long 0x00 28. "                   FFER  ,FIFO enabled for receive: Only one channel can have this bit field set. - . - ." "0,1"
bitfld.long 0x00 27. "  FFEW  ,FIFO enabled for transmit: Only one channel can have this bit field set. - . - ." "0,1"
textline "                          "
bitfld.long 0x00 25.--26. " TCS0     ,Chip-select time control This 2-bit field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock. - . - . - . - ." "0.5_clock_cycle,1.5_clock_cycles,2.5_clock_cycles,3.5_clock_cycles"
bitfld.long 0x00 24. "    SBPOL ,Start-bit polarity - . - ." "0,1"
bitfld.long 0x00 23. "  SBE   ,Start-bit enable for SPI transfer - . - ." "0,1"
textline "                          "
bitfld.long 0x00 21.--22. " SPIENSLV ,Channel 0 only and slave mode only: SPI slave select signal detection. Reserved bits for other cases. - . - . - . - ." "0,1,2,3"
bitfld.long 0x00 20. "                   FORCE ,Manual SPIEN assertion to keep SPIEN active between SPI words (single channel master mode only). - . - ." "0,1"
bitfld.long 0x00 19. "  TURBO ,Turbo mode - . - ." "0,1"
textline "                          "
bitfld.long 0x00 18. " IS       ,Input Select - . - ." "0,1"
bitfld.long 0x00 17. "                   DPE1  ,Transmission enable for data line 1 - . - ." "0,1"
bitfld.long 0x00 16. "  DPE0  ,Transmission Enable for data line 0 - . - ." "0,1"
textline "                          "
bitfld.long 0x00 15. " DMAR     ,DMA read request The DMA read request line is asserted when the channel is enabled and a new data is available in the receive register of the channel. The DMA read request line is deasserted on read completion of the receive register of the ..." "0,1"
bitfld.long 0x00 14. "                   DMAW  ,DMA write request. The DMA write request line is asserted when The channel is enabled and the transmitter register of the channel is empty. The DMA write request line is deasserted on load completion of the transmitter registe..." "0,1"
bitfld.long 0x00 12.--13. "  TRM   ,Transmit/receive modes - . - . - . - ." "Transmit-and-receive_mode,Receive-only_mode,Transmit-only_mode,Reserved"
textline "                          "
bitfld.long 0x00 7.--11. " WL       ,SPI word length - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - ." "Reserved,Reserved,Reserved,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 6. "            EPOL  ,SPIEN polarity - . - ." "0,1"
bitfld.long 0x00 2.--5. "  CLKD  ,Frequency divider for SPICLK (only when the module is a Master SPI device). A programmable clock divider divides the SPI reference clock (CLKSPIREF) with a 4-bit value, and results in a new clock SPICLK available to shift-in and shift-out data..." "1,2,4,8,16,32,64,128,256,512,1024,2048,4096,8192,16384,32768"
textline "                          "
bitfld.long 0x00 1. " POL      ,SPICLK polarity (see, ) - . - ." "0,1"
bitfld.long 0x00 0. "                   PHA   ,SPICLK phase (see, ) - . - ." "0,1"
group.long 0x148++0x3
line.long 0x00 "MCSPI_CHxCTRL_1,This register is dedicated to enable channel x."
hexmask.long.byte 0x00 8.--15. 1. " EXTCLK   ,Clock ratio extension: this field is used to concatenate with MCSPI_CHCONF[CLKD] register for clock ratio only when granularity is one clock cycle (MCSPI_CHCONF[CLKG] set to 1). Then the maximum value reached is 4096 clock divider ratio. - ...."
bitfld.long 0x00 0. "                  EN    ,Channel enable - . - ." "0,1"
rgroup.long 0x144++0x3
line.long 0x00 "MCSPI_CHxSTAT_1,This register provides status information about transmitter and receiver registers of channel x."
bitfld.long 0x00 6. " RXFFF    ,Channel 'i' FIFO receive buffer full status - . - ." "0,1"
bitfld.long 0x00 5. "                   RXFFE ,Channel 'i' FIFO receive buffer empty status - . - ." "0,1"
bitfld.long 0x00 4. "  TXFFF ,Channel 'i' FIFO transmit buffer full status - . - ." "0,1"
textline "                          "
bitfld.long 0x00 3. " TXFFE    ,Channel 'i' FIFO transmit buffer empty status - . - ." "0,1"
bitfld.long 0x00 2. "                   EOT   ,Channel 'i' end of transfer status. The definitions of beginning and end of transfer vary with master versus slave and the transfer format (transmit/receive modes, turbo mode). See dedicated chapters for details. - . - ." "0,1"
bitfld.long 0x00 1. "  TXS   ,Channel 'i' transmitter register status - . - ." "Register_is_full.,Register_is_empty."
textline "                          "
bitfld.long 0x00 0. " RXS      ,Channel 'i' receiver register status - . - ." "Register_is_empty.,Register_is_full."
rgroup.long 0x150++0x3
line.long 0x00 "MCSPI_RXx_1,This register contains a single SPI word for channel x received through the serial link, whatever SPI word length is."
hexmask.long 0x00 0.--31. 1. " RDATA    ,Channel x received data"
group.long 0x14C++0x3
line.long 0x00 "MCSPI_TXx_1,This register contains a single SPI word for channel x to transmit on the serial link, whatever SPI word length is."
hexmask.long 0x00 0.--31. 1. " TDATA    ,Channel x data to transmit"
tree.end
tree "Channel_2"
width 17.
group.long 0x154++0x3
line.long 0x00 "MCSPI_CHxCONF_2,This register is dedicated to the configuration of the channel x"
bitfld.long 0x00 29. " CLKG     ,Clock divider granularity this bit defines the granularity of channel clock divider: power of 2 or one clock cycle granularity. When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divide..." "0,1"
bitfld.long 0x00 28. "                   FFER  ,FIFO enabled for receive: Only one channel can have this bit field set. - . - ." "0,1"
bitfld.long 0x00 27. "  FFEW  ,FIFO enabled for transmit: Only one channel can have this bit field set. - . - ." "0,1"
textline "                          "
bitfld.long 0x00 25.--26. " TCS0     ,Chip-select time control This 2-bit field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock. - . - . - . - ." "0.5_clock_cycle,1.5_clock_cycles,2.5_clock_cycles,3.5_clock_cycles"
bitfld.long 0x00 24. "    SBPOL ,Start-bit polarity - . - ." "0,1"
bitfld.long 0x00 23. "  SBE   ,Start-bit enable for SPI transfer - . - ." "0,1"
textline "                          "
bitfld.long 0x00 21.--22. " SPIENSLV ,Channel 0 only and slave mode only: SPI slave select signal detection. Reserved bits for other cases. - . - . - . - ." "0,1,2,3"
bitfld.long 0x00 20. "                   FORCE ,Manual SPIEN assertion to keep SPIEN active between SPI words (single channel master mode only). - . - ." "0,1"
bitfld.long 0x00 19. "  TURBO ,Turbo mode - . - ." "0,1"
textline "                          "
bitfld.long 0x00 18. " IS       ,Input Select - . - ." "0,1"
bitfld.long 0x00 17. "                   DPE1  ,Transmission enable for data line 1 - . - ." "0,1"
bitfld.long 0x00 16. "  DPE0  ,Transmission Enable for data line 0 - . - ." "0,1"
textline "                          "
bitfld.long 0x00 15. " DMAR     ,DMA read request The DMA read request line is asserted when the channel is enabled and a new data is available in the receive register of the channel. The DMA read request line is deasserted on read completion of the receive register of the ..." "0,1"
bitfld.long 0x00 14. "                   DMAW  ,DMA write request. The DMA write request line is asserted when The channel is enabled and the transmitter register of the channel is empty. The DMA write request line is deasserted on load completion of the transmitter registe..." "0,1"
bitfld.long 0x00 12.--13. "  TRM   ,Transmit/receive modes - . - . - . - ." "Transmit-and-receive_mode,Receive-only_mode,Transmit-only_mode,Reserved"
textline "                          "
bitfld.long 0x00 7.--11. " WL       ,SPI word length - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - ." "Reserved,Reserved,Reserved,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 6. "            EPOL  ,SPIEN polarity - . - ." "0,1"
bitfld.long 0x00 2.--5. "  CLKD  ,Frequency divider for SPICLK (only when the module is a Master SPI device). A programmable clock divider divides the SPI reference clock (CLKSPIREF) with a 4-bit value, and results in a new clock SPICLK available to shift-in and shift-out data..." "1,2,4,8,16,32,64,128,256,512,1024,2048,4096,8192,16384,32768"
textline "                          "
bitfld.long 0x00 1. " POL      ,SPICLK polarity (see, ) - . - ." "0,1"
bitfld.long 0x00 0. "                   PHA   ,SPICLK phase (see, ) - . - ." "0,1"
group.long 0x15C++0x3
line.long 0x00 "MCSPI_CHxCTRL_2,This register is dedicated to enable channel x."
hexmask.long.byte 0x00 8.--15. 1. " EXTCLK   ,Clock ratio extension: this field is used to concatenate with MCSPI_CHCONF[CLKD] register for clock ratio only when granularity is one clock cycle (MCSPI_CHCONF[CLKG] set to 1). Then the maximum value reached is 4096 clock divider ratio. - ...."
bitfld.long 0x00 0. "                  EN    ,Channel enable - . - ." "0,1"
rgroup.long 0x158++0x3
line.long 0x00 "MCSPI_CHxSTAT_2,This register provides status information about transmitter and receiver registers of channel x."
bitfld.long 0x00 6. " RXFFF    ,Channel 'i' FIFO receive buffer full status - . - ." "0,1"
bitfld.long 0x00 5. "                   RXFFE ,Channel 'i' FIFO receive buffer empty status - . - ." "0,1"
bitfld.long 0x00 4. "  TXFFF ,Channel 'i' FIFO transmit buffer full status - . - ." "0,1"
textline "                          "
bitfld.long 0x00 3. " TXFFE    ,Channel 'i' FIFO transmit buffer empty status - . - ." "0,1"
bitfld.long 0x00 2. "                   EOT   ,Channel 'i' end of transfer status. The definitions of beginning and end of transfer vary with master versus slave and the transfer format (transmit/receive modes, turbo mode). See dedicated chapters for details. - . - ." "0,1"
bitfld.long 0x00 1. "  TXS   ,Channel 'i' transmitter register status - . - ." "Register_is_full.,Register_is_empty."
textline "                          "
bitfld.long 0x00 0. " RXS      ,Channel 'i' receiver register status - . - ." "Register_is_empty.,Register_is_full."
rgroup.long 0x164++0x3
line.long 0x00 "MCSPI_RXx_2,This register contains a single SPI word for channel x received through the serial link, whatever SPI word length is."
hexmask.long 0x00 0.--31. 1. " RDATA    ,Channel x received data"
group.long 0x160++0x3
line.long 0x00 "MCSPI_TXx_2,This register contains a single SPI word for channel x to transmit on the serial link, whatever SPI word length is."
hexmask.long 0x00 0.--31. 1. " TDATA    ,Channel x data to transmit"
tree.end
tree "Channel_3"
width 17.
group.long 0x168++0x3
line.long 0x00 "MCSPI_CHxCONF_3,This register is dedicated to the configuration of the channel x"
bitfld.long 0x00 29. " CLKG     ,Clock divider granularity this bit defines the granularity of channel clock divider: power of 2 or one clock cycle granularity. When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divide..." "0,1"
bitfld.long 0x00 28. "                   FFER  ,FIFO enabled for receive: Only one channel can have this bit field set. - . - ." "0,1"
bitfld.long 0x00 27. "  FFEW  ,FIFO enabled for transmit: Only one channel can have this bit field set. - . - ." "0,1"
textline "                          "
bitfld.long 0x00 25.--26. " TCS0     ,Chip-select time control This 2-bit field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock. - . - . - . - ." "0.5_clock_cycle,1.5_clock_cycles,2.5_clock_cycles,3.5_clock_cycles"
bitfld.long 0x00 24. "    SBPOL ,Start-bit polarity - . - ." "0,1"
bitfld.long 0x00 23. "  SBE   ,Start-bit enable for SPI transfer - . - ." "0,1"
textline "                          "
bitfld.long 0x00 21.--22. " SPIENSLV ,Channel 0 only and slave mode only: SPI slave select signal detection. Reserved bits for other cases. - . - . - . - ." "0,1,2,3"
bitfld.long 0x00 20. "                   FORCE ,Manual SPIEN assertion to keep SPIEN active between SPI words (single channel master mode only). - . - ." "0,1"
bitfld.long 0x00 19. "  TURBO ,Turbo mode - . - ." "0,1"
textline "                          "
bitfld.long 0x00 18. " IS       ,Input Select - . - ." "0,1"
bitfld.long 0x00 17. "                   DPE1  ,Transmission enable for data line 1 - . - ." "0,1"
bitfld.long 0x00 16. "  DPE0  ,Transmission Enable for data line 0 - . - ." "0,1"
textline "                          "
bitfld.long 0x00 15. " DMAR     ,DMA read request The DMA read request line is asserted when the channel is enabled and a new data is available in the receive register of the channel. The DMA read request line is deasserted on read completion of the receive register of the ..." "0,1"
bitfld.long 0x00 14. "                   DMAW  ,DMA write request. The DMA write request line is asserted when The channel is enabled and the transmitter register of the channel is empty. The DMA write request line is deasserted on load completion of the transmitter registe..." "0,1"
bitfld.long 0x00 12.--13. "  TRM   ,Transmit/receive modes - . - . - . - ." "Transmit-and-receive_mode,Receive-only_mode,Transmit-only_mode,Reserved"
textline "                          "
bitfld.long 0x00 7.--11. " WL       ,SPI word length - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - ." "Reserved,Reserved,Reserved,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 6. "            EPOL  ,SPIEN polarity - . - ." "0,1"
bitfld.long 0x00 2.--5. "  CLKD  ,Frequency divider for SPICLK (only when the module is a Master SPI device). A programmable clock divider divides the SPI reference clock (CLKSPIREF) with a 4-bit value, and results in a new clock SPICLK available to shift-in and shift-out data..." "1,2,4,8,16,32,64,128,256,512,1024,2048,4096,8192,16384,32768"
textline "                          "
bitfld.long 0x00 1. " POL      ,SPICLK polarity (see, ) - . - ." "0,1"
bitfld.long 0x00 0. "                   PHA   ,SPICLK phase (see, ) - . - ." "0,1"
group.long 0x170++0x3
line.long 0x00 "MCSPI_CHxCTRL_3,This register is dedicated to enable channel x."
hexmask.long.byte 0x00 8.--15. 1. " EXTCLK   ,Clock ratio extension: this field is used to concatenate with MCSPI_CHCONF[CLKD] register for clock ratio only when granularity is one clock cycle (MCSPI_CHCONF[CLKG] set to 1). Then the maximum value reached is 4096 clock divider ratio. - ...."
bitfld.long 0x00 0. "                  EN    ,Channel enable - . - ." "0,1"
rgroup.long 0x16C++0x3
line.long 0x00 "MCSPI_CHxSTAT_3,This register provides status information about transmitter and receiver registers of channel x."
bitfld.long 0x00 6. " RXFFF    ,Channel 'i' FIFO receive buffer full status - . - ." "0,1"
bitfld.long 0x00 5. "                   RXFFE ,Channel 'i' FIFO receive buffer empty status - . - ." "0,1"
bitfld.long 0x00 4. "  TXFFF ,Channel 'i' FIFO transmit buffer full status - . - ." "0,1"
textline "                          "
bitfld.long 0x00 3. " TXFFE    ,Channel 'i' FIFO transmit buffer empty status - . - ." "0,1"
bitfld.long 0x00 2. "                   EOT   ,Channel 'i' end of transfer status. The definitions of beginning and end of transfer vary with master versus slave and the transfer format (transmit/receive modes, turbo mode). See dedicated chapters for details. - . - ." "0,1"
bitfld.long 0x00 1. "  TXS   ,Channel 'i' transmitter register status - . - ." "Register_is_full.,Register_is_empty."
textline "                          "
bitfld.long 0x00 0. " RXS      ,Channel 'i' receiver register status - . - ." "Register_is_empty.,Register_is_full."
rgroup.long 0x178++0x3
line.long 0x00 "MCSPI_RXx_3,This register contains a single SPI word for channel x received through the serial link, whatever SPI word length is."
hexmask.long 0x00 0.--31. 1. " RDATA    ,Channel x received data"
group.long 0x174++0x3
line.long 0x00 "MCSPI_TXx_3,This register contains a single SPI word for channel x to transmit on the serial link, whatever SPI word length is."
hexmask.long 0x00 0.--31. 1. " TDATA    ,Channel x data to transmit"
tree.end
textline ""
width 20.
rgroup.long 0x0++0x3
line.long 0x00 "MCSPI_HL_REV,IP Revision Identifier (X.Y.R) Used by software to track features, bugs, and compatibility"
hexmask.long 0x00 0.--31. 1. " REVISION             ,IP Revision"
rgroup.long 0x4++0x3
line.long 0x00 "MCSPI_HL_HWINFO,Information about the IP module's hardware configuration, that is, typically the module's HDL generics (if any). Actual field format and encoding is up to the module's designer to decide."
hexmask.long 0x00 7.--31. 1. " RSVD                 ,Reserved These bits are initialized to 0, and writes to them are ignored."
bitfld.long 0x00 6. "      RETMODE              ,Retention Mode generic parameter. This bit field indicates whether the retention mode is supported using the pin PIRFFRET. 0x0: Retention mode disabled 0x1: Retention mode enabled" "0,1"
bitfld.long 0x00 1.--5. "                  FFNBYTE             ,FIFO number of byte generic parameter This field defines the value of FFNBYTE generic parameter, only MSB bits from 8 down to 4 are taken into account. - FF16bytes. - FF32bytes. - FF64bytes. - FF128bytes. - FF256b..." "0,FF16bytes,FF32bytes,3,FF64bytes,5,6,7,FF128bytes,9,10,11,12,13,14,15,FF256bytes,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                             "
bitfld.long 0x00 0. " USEFIFO              ,Use of a FIFO enable: This bit indicates if a FIFO is integrated within controller design with its management. - NoFIFO. - FIFOEn." "NoFIFO,FIFOEn"
group.long 0x10++0x3
line.long 0x00 "MCSPI_HL_SYSCONFIG,Clock management configuration"
hexmask.long 0x00 4.--31. 1. " RSVD                 ,"
bitfld.long 0x00 2.--3. "      IDLEMODE             ,Configuration of the local target state management mode. By definition, target can handle read/write transaction as long as it is out of IDLE state. - ForceIdle. - NoIdle. - SmartIdle. - SmartIdleWakeUp." "ForceIdle,NoIdle,SmartIdle,SmartIdleWakeUp"
bitfld.long 0x00 1. "    FREEEMU             ,Sensitivity to emulation (debug) suspend input signal. - EmuEn. - EmuDis." "EmuEn,EmuDis"
textline "                             "
bitfld.long 0x00 0. " SOFTRESET            ,Software reset. (Optional) - ResetDone. - ResetDone. - ResetOnGoing. - ResetOnGoing." "ResetDone,ResetOnGoing"
rgroup.long 0x100++0x3
line.long 0x00 "MCSPI_REVISION,This register contains the revision number."
hexmask.long 0x00 0.--31. 1. " REVISION             ,IP revision"
group.long 0x110++0x3
line.long 0x00 "MCSPI_SYSCONFIG,This register allows controlling various parameters of the OCP interface."
bitfld.long 0x00 8.--9. " CLOCKACTIVITY        ,Clocks activity during wake-up mode period - None. - OCP. - FUNC. - Both." "None,OCP,FUNC,Both"
bitfld.long 0x00 3.--4. "          SIDLEMODE            ,Power management - Force. - No. - Smart. - SMART_IDLE_WAKEUP." "Force,No,Smart,SMART_IDLE_WAKEUP"
bitfld.long 0x00 2. "  ENAWAKEUP           ,Wake-up feature control - NoWakeUp. - On." "NoWakeUp,On"
textline "                             "
bitfld.long 0x00 1. " SOFTRESET            ,Software reset. During reads it always returns 0. - Off. - On." "Off,On"
bitfld.long 0x00 0. "           AUTOIDLE             ,Internal OCP clock-gating strategy - Off. - On." "Off,On"
rgroup.long 0x114++0x3
line.long 0x00 "MCSPI_SYSSTATUS,This register provides status information about the module excluding the interrupt status information."
bitfld.long 0x00 0. " RESETDONE            ,Internal reset monitoring - InProgress. - Completed." "InProgress,Completed"
group.long 0x118++0x3
line.long 0x00 "MCSPI_IRQSTATUS,The interrupt status regroups all the status of the module internal events that can generate an interrupt."
eventfld.long 0x00 17. " EOW                  ,End of word count event when a channel is enabled using the FIFO buffer and the channel had sent the number of SPI word defined byMCSPI_XFERLEVEL[WCNT]. - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 16. "      WKS                  ,Wake-up event in slave mode when an active control signal is detected on the SPIEN line programmed in the field MCSPI_CH0CONF[SPIENSLV] - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 14. "           RX3_FULL            ,Receiver register is full or almost full. Only when Channel 3 is enabled - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
textline "                             "
eventfld.long 0x00 13. " TX3_UNDERFLOW        ,Transmitter register underflow. Only when Channel 3 is enabled. The transmitter register is empty (not updated by host or DMA with new data) before its time slot assignment. Exception: No TX_underflow event when no data has been ..." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 12. "      TX3_EMPTY            ,Transmitter register is empty or almost empty. Note: Enabling the channel automatically rises this event. - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 10. "           RX2_FULL            ,Receiver register full or almost full. Channel 2 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
textline "                             "
eventfld.long 0x00 9. " TX2_UNDERFLOW        ,Transmitter register underflow. Channel 2 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 8. "      TX2_EMPTY            ,Transmitter register empty or almost empty. Channel 2 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 6. "           RX1_FULL            ,Receiver register full or almost full. Channel 1 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
textline "                             "
eventfld.long 0x00 5. " TX1_UNDERFLOW        ,Transmitter register underflow. Channel 1 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 4. "      TX1_EMPTY            ,Transmitter register empty or almost empty. Channel 1 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 3. "           RX0_OVERFLOW        ,Receiver register overflow (slave mode only). Channel 0 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
textline "                             "
eventfld.long 0x00 2. " RX0_FULL             ,Receiver register full or almost full. Channel 0 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 1. "      TX0_UNDERFLOW        ,Transmitter register underflow. Channel 0 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 0. "           TX0_EMPTY           ,Transmitter register empty or almost empty. Channel 0 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
group.long 0x11C++0x3
line.long 0x00 "MCSPI_IRQENABLE,This register allows enabling/disabling of the module internal sources of interrupt, on an event-by-event basis."
bitfld.long 0x00 17. " EOW_ENABLE           ,End of Word count Interrupt Enable. - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 16. "   WKE                  ,Wake-up event interrupt enable in slave mode when an active control signal is detected on the SPIEN line programmed in the MCSPI_CH0CONF[SPIENSLV] bit - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 14. "        RX3_FULL_ENABLE     ,Receiver register Full Interrupt Enable. Channel 3 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
textline "                             "
bitfld.long 0x00 13. " TX3_UNDERFLOW_ENABLE ,Transmitter register Underflow Interrupt Enable. Channel 3 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 12. "   TX3_EMPTY_ENABLE     ,Transmitter register Empty Interrupt Enable. Channel 3 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 10. "        RX2_FULL_ENABLE     ,Receiver register Full Interrupt Enable. Channel 2 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
textline "                             "
bitfld.long 0x00 9. " TX2_UNDERFLOW_ENABLE ,Transmitter register Underflow Interrupt Enable. Channel 2 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 8. "   TX2_EMPTY_ENABLE     ,Transmitter register Empty Interrupt Enable. Channel 2 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 6. "        RX1_FULL_ENABLE     ,Receiver register Full Interrupt Enable. Channel 1 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
textline "                             "
bitfld.long 0x00 5. " TX1_UNDERFLOW_ENABLE ,Transmitter register Underflow Interrupt Enable. Channel 1 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 4. "   TX1_EMPTY_ENABLE     ,Transmitter register Empty Interrupt Enable. Channel 1 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 3. "        RX0_OVERFLOW_ENABLE ,Receiver register Overflow Interrupt Enable. Channel 0 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
textline "                             "
bitfld.long 0x00 2. " RX0_FULL_ENABLE      ,Receiver register Full Interrupt Enable. Channel 0 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 1. "   TX0_UNDERFLOW_ENABLE ,Transmitter register Underflow Interrupt Enable. Channel 0 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 0. "        TX0_EMPTY_ENABLE    ,Transmitter register Empty Interrupt Enable. Channel 0 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
group.long 0x120++0x3
line.long 0x00 "MCSPI_WAKEUPENABLE,The wake-up enable register allows enabling and disabling of the module internal sources of wakeup on event-by-event basis."
bitfld.long 0x00 0. " WKEN                 ,Wake-up functionality in slave mode when an active control signal is detected on the SPIEN line programmed in the MCSPI_CH0CONF[SPIENSLV] bit - NoWakeUp. - WakeUp." "NoWakeUp,WakeUp"
group.long 0x124++0x3
line.long 0x00 "MCSPI_SYST,This register is used to check the correctness of the system interconnect either internally to peripheral bus, or externally to device I/O pads, when the module is configured in system test (SYSTEST) mode."
bitfld.long 0x00 11. " SSB                  ,Set status bit - Off. - SetThemAll." "Off,SetThemAll"
bitfld.long 0x00 10. "    SPIENDIR             ,Set the direction of the SPIEN[3:0] lines and SPICLK line. - Out. - In." "Out,In"
bitfld.long 0x00 9. "                SPIDATDIR1          ,Set the direction of the SPIDAT[1]. - Out. - In." "Out,In"
textline "                             "
bitfld.long 0x00 8. " SPIDATDIR0           ,Set the direction of the SPIDAT[0]. - Out. - In." "Out,In"
bitfld.long 0x00 7. "           WAKD                 ,SWAKEUP output (signal data value of internal signal to system). The signal is driven high or low according to the value written into this bit. - DrivenLow. - DrivenHigh." "DrivenLow,DrivenHigh"
bitfld.long 0x00 6. "         SPICLK              ,SPICLK line (signal data value) If MCSPI_SYST[SPIENDIR] = 1 (input mode direction), this bit returns the value on the CLKSPI line (high or low), and a write into this bit has no effect. If MCSPI_SYST[SPIENDIR] = 0 (output ..." "0,1"
textline "                             "
bitfld.long 0x00 5. " SPIDAT_1             ,SPIDAT[1] line (signal data value) If MCSPI_SYST[SPIDATDIR1] = 0 (output mode direction), the SPIDAT[1] line is driven high or low according to the value written into this bit. If MCSPI_SYST[SPIDATDIR1] = 1 (input mode direction)..." "0,1"
bitfld.long 0x00 4. "             SPIDAT_0             ,SPIDAT[0] line (signal data value) If MCSPI_SYST[SPIDATDIR0] = 0 (output mode direction), the SPIDAT[0] line is driven high or low according to the value written into this bit. If MCSPI_SYST[SPIDATDIR0] = 1 (input mod..." "0,1"
bitfld.long 0x00 3. "                  SPIEN_3             ,SPIEN[3] line (signal data value) If MCSPI_SYST[SPIENDIR] = 0 (output mode direction), the SPIENT[3] line is driven high or low according to the value written into this bit. If MCSPI_SYST[SPIENDIR] = 1 (input mode..." "0,1"
textline "                             "
bitfld.long 0x00 2. " SPIEN_2              ,SPIEN[2] line (signal data value) If MCSPI_SYST[SPIENDIR] = 0 (output mode direction), the SPIENT[2] line is driven high or low according to the value written into this bit. If MCSPI_SYST[SPIENDIR] = 1 (input mode direction), thi..." "0,1"
bitfld.long 0x00 1. "             SPIEN_1              ,SPIEN[1] line (signal data value) If MCSPI_SYST[SPIENDIR] = 0 (output mode direction), the SPIENT[1] line is driven high or low according to the value written into this bit. If MCSPI_SYST[SPIENDIR] = 1 (input mode dir..." "0,1"
bitfld.long 0x00 0. "                  SPIEN_0             ,SPIEN[0] line (signal data value) If MCSPI_SYST[SPIENDIR] = 0 (output mode direction), the SPIENT[0] line is driven high or low according to the value written into this bit. If MCSPI_SYST[SPIENDIR] = 1 (input mode..." "0,1"
group.long 0x128++0x3
line.long 0x00 "MCSPI_MODULCTRL,This register is dedicated to the configuration of the serial peripheral interface."
bitfld.long 0x00 8. " FDAA                 ,FIFO DMA address 256-bit aligned this bit is used when a FIFO is managed by the module and DMA connected to the controller provides only 256-bit aligned address. If this bit is set the enabled channel which uses the FIFO has its ..." "NoShadowReg,ShadowRegen"
bitfld.long 0x00 7. "   MOA                  ,Multiple word OCP access: this bit can only be used when a channel is enabled using a FIFO. It allows the system to perform multiple SPI word access for a single 32-bit OCP word access. This is possible for WL < 16. - No..." "NoMultiAccess,MultiAcces"
bitfld.long 0x00 4.--6. "      INITDLY             ,Initial SPI delay for first transfer: this field is an option only available in SINGLE master mode. The controller waits for a delay to transmit the first SPI word after channel enabled and corresponding TX register filled. T..." "Nodelay,4ClkDly,8ClkDly,16ClkDly,32ClkDly,5,6,7"
textline "                             "
bitfld.long 0x00 3. " SYSTEM_TEST          ,Enables the system test mode - Off. - On." "Off,On"
bitfld.long 0x00 2. "           MS                   ,Master/slave - Master. - Slave." "Master,Slave"
bitfld.long 0x00 1. "             PIN34               ,Pin mode selection: This bit is used in master or slave mode to configure the SPI pin mode (3-pin or 4-pin). If asserted the controller only uses SIMO, SOMI, and SPICLK clock pin for SPI transfers. - 4PinMode. - 3PinMode." "4PinMode,3PinMode"
textline "                             "
bitfld.long 0x00 0. " SINGLE               ,Single channel/Multi Channel (master mode only) - Multi. - Single." "Multi,Single"
group.long 0x17C++0x3
line.long 0x00 "MCSPI_XFERLEVEL,This register provides transfer levels needed while using FIFO buffer during transfer."
hexmask.long.word 0x00 16.--31. 1. " WCNT                 ,SPI word counter. this field holds the programmable value of number of SPI word to be transferred on channel which is using the FIFO buffer. When transfer had started, a read back in this field returns the current SPI word transf..."
hexmask.long.byte 0x00 8.--15. 1. "          AFL                  ,Buffer almost full this field holds the programmable almost full level value used to determine almost full buffer condition. If the user wants an interrupt or a DMA read request to be issued during a receive operation wh..."
hexmask.long.byte 0x00 0.--7. 1. "                 AEL                 ,Buffer almost empty. this field holds the programmable almost empty level value used to determine almost empty buffer condition. If the user wants an interrupt or a DMA write request to be issued during a transmit ..."
group.long 0x180++0x3
line.long 0x00 "MCSPI_DAFTX,This register contains the SPI words to be transmitted on the SPI bus when FIFO is used and DMA address is aligned on 256 bit. This register is an image of one of the registers corresponding to the channel which has its FIFO enabled."
hexmask.long 0x00 0.--31. 1. " DAFTDATA             ,FIFO data to transmit with DMA 256 bit aligned address. - This field is only used when[8] FDAA is set to 0x1 and only one of the enabled channels has the [27] FFEW bit set to 0x1. If these conditions are not met any access to thi..."
rgroup.long 0x1A0++0x3
line.long 0x00 "MCSPI_DAFRX,This register contains the SPI words received from the SPI bus when FIFO is used and DMA address is aligned on 256 bit. This register is an image of one of the registers corresponding to the channel which has its FIFO enabled."
hexmask.long 0x00 0.--31. 1. " DAFRDATA             ,FIFO data received with DMA 256 bit aligned address. - This field is only used when[8] FDAA is set to 0x1 and only one of the enabled channels has the [28] FFER bit set to 0x1. If these conditions are not met any access to this f..."
width 0x0B
tree.end
tree "MCSPI2"
base ad:0x4809A000
tree "Channel_0"
width 17.
group.long 0x12C++0x3
line.long 0x00 "MCSPI_CHxCONF_0,This register is dedicated to the configuration of the channel x"
bitfld.long 0x00 29. " CLKG     ,Clock divider granularity this bit defines the granularity of channel clock divider: power of 2 or one clock cycle granularity. When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divide..." "0,1"
bitfld.long 0x00 28. "                   FFER  ,FIFO enabled for receive: Only one channel can have this bit field set. - . - ." "0,1"
bitfld.long 0x00 27. "  FFEW  ,FIFO enabled for transmit: Only one channel can have this bit field set. - . - ." "0,1"
textline "                          "
bitfld.long 0x00 25.--26. " TCS0     ,Chip-select time control This 2-bit field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock. - . - . - . - ." "0.5_clock_cycle,1.5_clock_cycles,2.5_clock_cycles,3.5_clock_cycles"
bitfld.long 0x00 24. "    SBPOL ,Start-bit polarity - . - ." "0,1"
bitfld.long 0x00 23. "  SBE   ,Start-bit enable for SPI transfer - . - ." "0,1"
textline "                          "
bitfld.long 0x00 21.--22. " SPIENSLV ,Channel 0 only and slave mode only: SPI slave select signal detection. Reserved bits for other cases. - . - . - . - ." "0,1,2,3"
bitfld.long 0x00 20. "                   FORCE ,Manual SPIEN assertion to keep SPIEN active between SPI words (single channel master mode only). - . - ." "0,1"
bitfld.long 0x00 19. "  TURBO ,Turbo mode - . - ." "0,1"
textline "                          "
bitfld.long 0x00 18. " IS       ,Input Select - . - ." "0,1"
bitfld.long 0x00 17. "                   DPE1  ,Transmission enable for data line 1 - . - ." "0,1"
bitfld.long 0x00 16. "  DPE0  ,Transmission Enable for data line 0 - . - ." "0,1"
textline "                          "
bitfld.long 0x00 15. " DMAR     ,DMA read request The DMA read request line is asserted when the channel is enabled and a new data is available in the receive register of the channel. The DMA read request line is deasserted on read completion of the receive register of the ..." "0,1"
bitfld.long 0x00 14. "                   DMAW  ,DMA write request. The DMA write request line is asserted when The channel is enabled and the transmitter register of the channel is empty. The DMA write request line is deasserted on load completion of the transmitter registe..." "0,1"
bitfld.long 0x00 12.--13. "  TRM   ,Transmit/receive modes - . - . - . - ." "Transmit-and-receive_mode,Receive-only_mode,Transmit-only_mode,Reserved"
textline "                          "
bitfld.long 0x00 7.--11. " WL       ,SPI word length - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - ." "Reserved,Reserved,Reserved,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 6. "            EPOL  ,SPIEN polarity - . - ." "0,1"
bitfld.long 0x00 2.--5. "  CLKD  ,Frequency divider for SPICLK (only when the module is a Master SPI device). A programmable clock divider divides the SPI reference clock (CLKSPIREF) with a 4-bit value, and results in a new clock SPICLK available to shift-in and shift-out data..." "1,2,4,8,16,32,64,128,256,512,1024,2048,4096,8192,16384,32768"
textline "                          "
bitfld.long 0x00 1. " POL      ,SPICLK polarity (see, ) - . - ." "0,1"
bitfld.long 0x00 0. "                   PHA   ,SPICLK phase (see, ) - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MCSPI_CHxCTRL_0,This register is dedicated to enable channel x."
hexmask.long.byte 0x00 8.--15. 1. " EXTCLK   ,Clock ratio extension: this field is used to concatenate with MCSPI_CHCONF[CLKD] register for clock ratio only when granularity is one clock cycle (MCSPI_CHCONF[CLKG] set to 1). Then the maximum value reached is 4096 clock divider ratio. - ...."
bitfld.long 0x00 0. "                  EN    ,Channel enable - . - ." "0,1"
rgroup.long 0x130++0x3
line.long 0x00 "MCSPI_CHxSTAT_0,This register provides status information about transmitter and receiver registers of channel x."
bitfld.long 0x00 6. " RXFFF    ,Channel 'i' FIFO receive buffer full status - . - ." "0,1"
bitfld.long 0x00 5. "                   RXFFE ,Channel 'i' FIFO receive buffer empty status - . - ." "0,1"
bitfld.long 0x00 4. "  TXFFF ,Channel 'i' FIFO transmit buffer full status - . - ." "0,1"
textline "                          "
bitfld.long 0x00 3. " TXFFE    ,Channel 'i' FIFO transmit buffer empty status - . - ." "0,1"
bitfld.long 0x00 2. "                   EOT   ,Channel 'i' end of transfer status. The definitions of beginning and end of transfer vary with master versus slave and the transfer format (transmit/receive modes, turbo mode). See dedicated chapters for details. - . - ." "0,1"
bitfld.long 0x00 1. "  TXS   ,Channel 'i' transmitter register status - . - ." "Register_is_full.,Register_is_empty."
textline "                          "
bitfld.long 0x00 0. " RXS      ,Channel 'i' receiver register status - . - ." "Register_is_empty.,Register_is_full."
rgroup.long 0x13C++0x3
line.long 0x00 "MCSPI_RXx_0,This register contains a single SPI word for channel x received through the serial link, whatever SPI word length is."
hexmask.long 0x00 0.--31. 1. " RDATA    ,Channel x received data"
group.long 0x138++0x3
line.long 0x00 "MCSPI_TXx_0,This register contains a single SPI word for channel x to transmit on the serial link, whatever SPI word length is."
hexmask.long 0x00 0.--31. 1. " TDATA    ,Channel x data to transmit"
tree.end
tree "Channel_1"
width 17.
group.long 0x140++0x3
line.long 0x00 "MCSPI_CHxCONF_1,This register is dedicated to the configuration of the channel x"
bitfld.long 0x00 29. " CLKG     ,Clock divider granularity this bit defines the granularity of channel clock divider: power of 2 or one clock cycle granularity. When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divide..." "0,1"
bitfld.long 0x00 28. "                   FFER  ,FIFO enabled for receive: Only one channel can have this bit field set. - . - ." "0,1"
bitfld.long 0x00 27. "  FFEW  ,FIFO enabled for transmit: Only one channel can have this bit field set. - . - ." "0,1"
textline "                          "
bitfld.long 0x00 25.--26. " TCS0     ,Chip-select time control This 2-bit field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock. - . - . - . - ." "0.5_clock_cycle,1.5_clock_cycles,2.5_clock_cycles,3.5_clock_cycles"
bitfld.long 0x00 24. "    SBPOL ,Start-bit polarity - . - ." "0,1"
bitfld.long 0x00 23. "  SBE   ,Start-bit enable for SPI transfer - . - ." "0,1"
textline "                          "
bitfld.long 0x00 21.--22. " SPIENSLV ,Channel 0 only and slave mode only: SPI slave select signal detection. Reserved bits for other cases. - . - . - . - ." "0,1,2,3"
bitfld.long 0x00 20. "                   FORCE ,Manual SPIEN assertion to keep SPIEN active between SPI words (single channel master mode only). - . - ." "0,1"
bitfld.long 0x00 19. "  TURBO ,Turbo mode - . - ." "0,1"
textline "                          "
bitfld.long 0x00 18. " IS       ,Input Select - . - ." "0,1"
bitfld.long 0x00 17. "                   DPE1  ,Transmission enable for data line 1 - . - ." "0,1"
bitfld.long 0x00 16. "  DPE0  ,Transmission Enable for data line 0 - . - ." "0,1"
textline "                          "
bitfld.long 0x00 15. " DMAR     ,DMA read request The DMA read request line is asserted when the channel is enabled and a new data is available in the receive register of the channel. The DMA read request line is deasserted on read completion of the receive register of the ..." "0,1"
bitfld.long 0x00 14. "                   DMAW  ,DMA write request. The DMA write request line is asserted when The channel is enabled and the transmitter register of the channel is empty. The DMA write request line is deasserted on load completion of the transmitter registe..." "0,1"
bitfld.long 0x00 12.--13. "  TRM   ,Transmit/receive modes - . - . - . - ." "Transmit-and-receive_mode,Receive-only_mode,Transmit-only_mode,Reserved"
textline "                          "
bitfld.long 0x00 7.--11. " WL       ,SPI word length - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - ." "Reserved,Reserved,Reserved,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 6. "            EPOL  ,SPIEN polarity - . - ." "0,1"
bitfld.long 0x00 2.--5. "  CLKD  ,Frequency divider for SPICLK (only when the module is a Master SPI device). A programmable clock divider divides the SPI reference clock (CLKSPIREF) with a 4-bit value, and results in a new clock SPICLK available to shift-in and shift-out data..." "1,2,4,8,16,32,64,128,256,512,1024,2048,4096,8192,16384,32768"
textline "                          "
bitfld.long 0x00 1. " POL      ,SPICLK polarity (see, ) - . - ." "0,1"
bitfld.long 0x00 0. "                   PHA   ,SPICLK phase (see, ) - . - ." "0,1"
group.long 0x148++0x3
line.long 0x00 "MCSPI_CHxCTRL_1,This register is dedicated to enable channel x."
hexmask.long.byte 0x00 8.--15. 1. " EXTCLK   ,Clock ratio extension: this field is used to concatenate with MCSPI_CHCONF[CLKD] register for clock ratio only when granularity is one clock cycle (MCSPI_CHCONF[CLKG] set to 1). Then the maximum value reached is 4096 clock divider ratio. - ...."
bitfld.long 0x00 0. "                  EN    ,Channel enable - . - ." "0,1"
rgroup.long 0x144++0x3
line.long 0x00 "MCSPI_CHxSTAT_1,This register provides status information about transmitter and receiver registers of channel x."
bitfld.long 0x00 6. " RXFFF    ,Channel 'i' FIFO receive buffer full status - . - ." "0,1"
bitfld.long 0x00 5. "                   RXFFE ,Channel 'i' FIFO receive buffer empty status - . - ." "0,1"
bitfld.long 0x00 4. "  TXFFF ,Channel 'i' FIFO transmit buffer full status - . - ." "0,1"
textline "                          "
bitfld.long 0x00 3. " TXFFE    ,Channel 'i' FIFO transmit buffer empty status - . - ." "0,1"
bitfld.long 0x00 2. "                   EOT   ,Channel 'i' end of transfer status. The definitions of beginning and end of transfer vary with master versus slave and the transfer format (transmit/receive modes, turbo mode). See dedicated chapters for details. - . - ." "0,1"
bitfld.long 0x00 1. "  TXS   ,Channel 'i' transmitter register status - . - ." "Register_is_full.,Register_is_empty."
textline "                          "
bitfld.long 0x00 0. " RXS      ,Channel 'i' receiver register status - . - ." "Register_is_empty.,Register_is_full."
rgroup.long 0x150++0x3
line.long 0x00 "MCSPI_RXx_1,This register contains a single SPI word for channel x received through the serial link, whatever SPI word length is."
hexmask.long 0x00 0.--31. 1. " RDATA    ,Channel x received data"
group.long 0x14C++0x3
line.long 0x00 "MCSPI_TXx_1,This register contains a single SPI word for channel x to transmit on the serial link, whatever SPI word length is."
hexmask.long 0x00 0.--31. 1. " TDATA    ,Channel x data to transmit"
tree.end
tree "Channel_2"
width 17.
group.long 0x154++0x3
line.long 0x00 "MCSPI_CHxCONF_2,This register is dedicated to the configuration of the channel x"
bitfld.long 0x00 29. " CLKG     ,Clock divider granularity this bit defines the granularity of channel clock divider: power of 2 or one clock cycle granularity. When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divide..." "0,1"
bitfld.long 0x00 28. "                   FFER  ,FIFO enabled for receive: Only one channel can have this bit field set. - . - ." "0,1"
bitfld.long 0x00 27. "  FFEW  ,FIFO enabled for transmit: Only one channel can have this bit field set. - . - ." "0,1"
textline "                          "
bitfld.long 0x00 25.--26. " TCS0     ,Chip-select time control This 2-bit field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock. - . - . - . - ." "0.5_clock_cycle,1.5_clock_cycles,2.5_clock_cycles,3.5_clock_cycles"
bitfld.long 0x00 24. "    SBPOL ,Start-bit polarity - . - ." "0,1"
bitfld.long 0x00 23. "  SBE   ,Start-bit enable for SPI transfer - . - ." "0,1"
textline "                          "
bitfld.long 0x00 21.--22. " SPIENSLV ,Channel 0 only and slave mode only: SPI slave select signal detection. Reserved bits for other cases. - . - . - . - ." "0,1,2,3"
bitfld.long 0x00 20. "                   FORCE ,Manual SPIEN assertion to keep SPIEN active between SPI words (single channel master mode only). - . - ." "0,1"
bitfld.long 0x00 19. "  TURBO ,Turbo mode - . - ." "0,1"
textline "                          "
bitfld.long 0x00 18. " IS       ,Input Select - . - ." "0,1"
bitfld.long 0x00 17. "                   DPE1  ,Transmission enable for data line 1 - . - ." "0,1"
bitfld.long 0x00 16. "  DPE0  ,Transmission Enable for data line 0 - . - ." "0,1"
textline "                          "
bitfld.long 0x00 15. " DMAR     ,DMA read request The DMA read request line is asserted when the channel is enabled and a new data is available in the receive register of the channel. The DMA read request line is deasserted on read completion of the receive register of the ..." "0,1"
bitfld.long 0x00 14. "                   DMAW  ,DMA write request. The DMA write request line is asserted when The channel is enabled and the transmitter register of the channel is empty. The DMA write request line is deasserted on load completion of the transmitter registe..." "0,1"
bitfld.long 0x00 12.--13. "  TRM   ,Transmit/receive modes - . - . - . - ." "Transmit-and-receive_mode,Receive-only_mode,Transmit-only_mode,Reserved"
textline "                          "
bitfld.long 0x00 7.--11. " WL       ,SPI word length - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - ." "Reserved,Reserved,Reserved,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 6. "            EPOL  ,SPIEN polarity - . - ." "0,1"
bitfld.long 0x00 2.--5. "  CLKD  ,Frequency divider for SPICLK (only when the module is a Master SPI device). A programmable clock divider divides the SPI reference clock (CLKSPIREF) with a 4-bit value, and results in a new clock SPICLK available to shift-in and shift-out data..." "1,2,4,8,16,32,64,128,256,512,1024,2048,4096,8192,16384,32768"
textline "                          "
bitfld.long 0x00 1. " POL      ,SPICLK polarity (see, ) - . - ." "0,1"
bitfld.long 0x00 0. "                   PHA   ,SPICLK phase (see, ) - . - ." "0,1"
group.long 0x15C++0x3
line.long 0x00 "MCSPI_CHxCTRL_2,This register is dedicated to enable channel x."
hexmask.long.byte 0x00 8.--15. 1. " EXTCLK   ,Clock ratio extension: this field is used to concatenate with MCSPI_CHCONF[CLKD] register for clock ratio only when granularity is one clock cycle (MCSPI_CHCONF[CLKG] set to 1). Then the maximum value reached is 4096 clock divider ratio. - ...."
bitfld.long 0x00 0. "                  EN    ,Channel enable - . - ." "0,1"
rgroup.long 0x158++0x3
line.long 0x00 "MCSPI_CHxSTAT_2,This register provides status information about transmitter and receiver registers of channel x."
bitfld.long 0x00 6. " RXFFF    ,Channel 'i' FIFO receive buffer full status - . - ." "0,1"
bitfld.long 0x00 5. "                   RXFFE ,Channel 'i' FIFO receive buffer empty status - . - ." "0,1"
bitfld.long 0x00 4. "  TXFFF ,Channel 'i' FIFO transmit buffer full status - . - ." "0,1"
textline "                          "
bitfld.long 0x00 3. " TXFFE    ,Channel 'i' FIFO transmit buffer empty status - . - ." "0,1"
bitfld.long 0x00 2. "                   EOT   ,Channel 'i' end of transfer status. The definitions of beginning and end of transfer vary with master versus slave and the transfer format (transmit/receive modes, turbo mode). See dedicated chapters for details. - . - ." "0,1"
bitfld.long 0x00 1. "  TXS   ,Channel 'i' transmitter register status - . - ." "Register_is_full.,Register_is_empty."
textline "                          "
bitfld.long 0x00 0. " RXS      ,Channel 'i' receiver register status - . - ." "Register_is_empty.,Register_is_full."
rgroup.long 0x164++0x3
line.long 0x00 "MCSPI_RXx_2,This register contains a single SPI word for channel x received through the serial link, whatever SPI word length is."
hexmask.long 0x00 0.--31. 1. " RDATA    ,Channel x received data"
group.long 0x160++0x3
line.long 0x00 "MCSPI_TXx_2,This register contains a single SPI word for channel x to transmit on the serial link, whatever SPI word length is."
hexmask.long 0x00 0.--31. 1. " TDATA    ,Channel x data to transmit"
tree.end
tree "Channel_3"
width 17.
group.long 0x168++0x3
line.long 0x00 "MCSPI_CHxCONF_3,This register is dedicated to the configuration of the channel x"
bitfld.long 0x00 29. " CLKG     ,Clock divider granularity this bit defines the granularity of channel clock divider: power of 2 or one clock cycle granularity. When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divide..." "0,1"
bitfld.long 0x00 28. "                   FFER  ,FIFO enabled for receive: Only one channel can have this bit field set. - . - ." "0,1"
bitfld.long 0x00 27. "  FFEW  ,FIFO enabled for transmit: Only one channel can have this bit field set. - . - ." "0,1"
textline "                          "
bitfld.long 0x00 25.--26. " TCS0     ,Chip-select time control This 2-bit field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock. - . - . - . - ." "0.5_clock_cycle,1.5_clock_cycles,2.5_clock_cycles,3.5_clock_cycles"
bitfld.long 0x00 24. "    SBPOL ,Start-bit polarity - . - ." "0,1"
bitfld.long 0x00 23. "  SBE   ,Start-bit enable for SPI transfer - . - ." "0,1"
textline "                          "
bitfld.long 0x00 21.--22. " SPIENSLV ,Channel 0 only and slave mode only: SPI slave select signal detection. Reserved bits for other cases. - . - . - . - ." "0,1,2,3"
bitfld.long 0x00 20. "                   FORCE ,Manual SPIEN assertion to keep SPIEN active between SPI words (single channel master mode only). - . - ." "0,1"
bitfld.long 0x00 19. "  TURBO ,Turbo mode - . - ." "0,1"
textline "                          "
bitfld.long 0x00 18. " IS       ,Input Select - . - ." "0,1"
bitfld.long 0x00 17. "                   DPE1  ,Transmission enable for data line 1 - . - ." "0,1"
bitfld.long 0x00 16. "  DPE0  ,Transmission Enable for data line 0 - . - ." "0,1"
textline "                          "
bitfld.long 0x00 15. " DMAR     ,DMA read request The DMA read request line is asserted when the channel is enabled and a new data is available in the receive register of the channel. The DMA read request line is deasserted on read completion of the receive register of the ..." "0,1"
bitfld.long 0x00 14. "                   DMAW  ,DMA write request. The DMA write request line is asserted when The channel is enabled and the transmitter register of the channel is empty. The DMA write request line is deasserted on load completion of the transmitter registe..." "0,1"
bitfld.long 0x00 12.--13. "  TRM   ,Transmit/receive modes - . - . - . - ." "Transmit-and-receive_mode,Receive-only_mode,Transmit-only_mode,Reserved"
textline "                          "
bitfld.long 0x00 7.--11. " WL       ,SPI word length - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - ." "Reserved,Reserved,Reserved,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 6. "            EPOL  ,SPIEN polarity - . - ." "0,1"
bitfld.long 0x00 2.--5. "  CLKD  ,Frequency divider for SPICLK (only when the module is a Master SPI device). A programmable clock divider divides the SPI reference clock (CLKSPIREF) with a 4-bit value, and results in a new clock SPICLK available to shift-in and shift-out data..." "1,2,4,8,16,32,64,128,256,512,1024,2048,4096,8192,16384,32768"
textline "                          "
bitfld.long 0x00 1. " POL      ,SPICLK polarity (see, ) - . - ." "0,1"
bitfld.long 0x00 0. "                   PHA   ,SPICLK phase (see, ) - . - ." "0,1"
group.long 0x170++0x3
line.long 0x00 "MCSPI_CHxCTRL_3,This register is dedicated to enable channel x."
hexmask.long.byte 0x00 8.--15. 1. " EXTCLK   ,Clock ratio extension: this field is used to concatenate with MCSPI_CHCONF[CLKD] register for clock ratio only when granularity is one clock cycle (MCSPI_CHCONF[CLKG] set to 1). Then the maximum value reached is 4096 clock divider ratio. - ...."
bitfld.long 0x00 0. "                  EN    ,Channel enable - . - ." "0,1"
rgroup.long 0x16C++0x3
line.long 0x00 "MCSPI_CHxSTAT_3,This register provides status information about transmitter and receiver registers of channel x."
bitfld.long 0x00 6. " RXFFF    ,Channel 'i' FIFO receive buffer full status - . - ." "0,1"
bitfld.long 0x00 5. "                   RXFFE ,Channel 'i' FIFO receive buffer empty status - . - ." "0,1"
bitfld.long 0x00 4. "  TXFFF ,Channel 'i' FIFO transmit buffer full status - . - ." "0,1"
textline "                          "
bitfld.long 0x00 3. " TXFFE    ,Channel 'i' FIFO transmit buffer empty status - . - ." "0,1"
bitfld.long 0x00 2. "                   EOT   ,Channel 'i' end of transfer status. The definitions of beginning and end of transfer vary with master versus slave and the transfer format (transmit/receive modes, turbo mode). See dedicated chapters for details. - . - ." "0,1"
bitfld.long 0x00 1. "  TXS   ,Channel 'i' transmitter register status - . - ." "Register_is_full.,Register_is_empty."
textline "                          "
bitfld.long 0x00 0. " RXS      ,Channel 'i' receiver register status - . - ." "Register_is_empty.,Register_is_full."
rgroup.long 0x178++0x3
line.long 0x00 "MCSPI_RXx_3,This register contains a single SPI word for channel x received through the serial link, whatever SPI word length is."
hexmask.long 0x00 0.--31. 1. " RDATA    ,Channel x received data"
group.long 0x174++0x3
line.long 0x00 "MCSPI_TXx_3,This register contains a single SPI word for channel x to transmit on the serial link, whatever SPI word length is."
hexmask.long 0x00 0.--31. 1. " TDATA    ,Channel x data to transmit"
tree.end
textline ""
width 20.
rgroup.long 0x0++0x3
line.long 0x00 "MCSPI_HL_REV,IP Revision Identifier (X.Y.R) Used by software to track features, bugs, and compatibility"
hexmask.long 0x00 0.--31. 1. " REVISION             ,IP Revision"
rgroup.long 0x4++0x3
line.long 0x00 "MCSPI_HL_HWINFO,Information about the IP module's hardware configuration, that is, typically the module's HDL generics (if any). Actual field format and encoding is up to the module's designer to decide."
hexmask.long 0x00 7.--31. 1. " RSVD                 ,Reserved These bits are initialized to 0, and writes to them are ignored."
bitfld.long 0x00 6. "      RETMODE              ,Retention Mode generic parameter. This bit field indicates whether the retention mode is supported using the pin PIRFFRET. 0x0: Retention mode disabled 0x1: Retention mode enabled" "0,1"
bitfld.long 0x00 1.--5. "                  FFNBYTE             ,FIFO number of byte generic parameter This field defines the value of FFNBYTE generic parameter, only MSB bits from 8 down to 4 are taken into account. - FF16bytes. - FF32bytes. - FF64bytes. - FF128bytes. - FF256b..." "0,FF16bytes,FF32bytes,3,FF64bytes,5,6,7,FF128bytes,9,10,11,12,13,14,15,FF256bytes,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                             "
bitfld.long 0x00 0. " USEFIFO              ,Use of a FIFO enable: This bit indicates if a FIFO is integrated within controller design with its management. - NoFIFO. - FIFOEn." "NoFIFO,FIFOEn"
group.long 0x10++0x3
line.long 0x00 "MCSPI_HL_SYSCONFIG,Clock management configuration"
hexmask.long 0x00 4.--31. 1. " RSVD                 ,"
bitfld.long 0x00 2.--3. "      IDLEMODE             ,Configuration of the local target state management mode. By definition, target can handle read/write transaction as long as it is out of IDLE state. - ForceIdle. - NoIdle. - SmartIdle. - SmartIdleWakeUp." "ForceIdle,NoIdle,SmartIdle,SmartIdleWakeUp"
bitfld.long 0x00 1. "    FREEEMU             ,Sensitivity to emulation (debug) suspend input signal. - EmuEn. - EmuDis." "EmuEn,EmuDis"
textline "                             "
bitfld.long 0x00 0. " SOFTRESET            ,Software reset. (Optional) - ResetDone. - ResetDone. - ResetOnGoing. - ResetOnGoing." "ResetDone,ResetOnGoing"
rgroup.long 0x100++0x3
line.long 0x00 "MCSPI_REVISION,This register contains the revision number."
hexmask.long 0x00 0.--31. 1. " REVISION             ,IP revision"
group.long 0x110++0x3
line.long 0x00 "MCSPI_SYSCONFIG,This register allows controlling various parameters of the OCP interface."
bitfld.long 0x00 8.--9. " CLOCKACTIVITY        ,Clocks activity during wake-up mode period - None. - OCP. - FUNC. - Both." "None,OCP,FUNC,Both"
bitfld.long 0x00 3.--4. "          SIDLEMODE            ,Power management - Force. - No. - Smart. - SMART_IDLE_WAKEUP." "Force,No,Smart,SMART_IDLE_WAKEUP"
bitfld.long 0x00 2. "  ENAWAKEUP           ,Wake-up feature control - NoWakeUp. - On." "NoWakeUp,On"
textline "                             "
bitfld.long 0x00 1. " SOFTRESET            ,Software reset. During reads it always returns 0. - Off. - On." "Off,On"
bitfld.long 0x00 0. "           AUTOIDLE             ,Internal OCP clock-gating strategy - Off. - On." "Off,On"
rgroup.long 0x114++0x3
line.long 0x00 "MCSPI_SYSSTATUS,This register provides status information about the module excluding the interrupt status information."
bitfld.long 0x00 0. " RESETDONE            ,Internal reset monitoring - InProgress. - Completed." "InProgress,Completed"
group.long 0x118++0x3
line.long 0x00 "MCSPI_IRQSTATUS,The interrupt status regroups all the status of the module internal events that can generate an interrupt."
eventfld.long 0x00 17. " EOW                  ,End of word count event when a channel is enabled using the FIFO buffer and the channel had sent the number of SPI word defined byMCSPI_XFERLEVEL[WCNT]. - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 16. "      WKS                  ,Wake-up event in slave mode when an active control signal is detected on the SPIEN line programmed in the field MCSPI_CH0CONF[SPIENSLV] - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 14. "           RX3_FULL            ,Receiver register is full or almost full. Only when Channel 3 is enabled - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
textline "                             "
eventfld.long 0x00 13. " TX3_UNDERFLOW        ,Transmitter register underflow. Only when Channel 3 is enabled. The transmitter register is empty (not updated by host or DMA with new data) before its time slot assignment. Exception: No TX_underflow event when no data has been ..." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 12. "      TX3_EMPTY            ,Transmitter register is empty or almost empty. Note: Enabling the channel automatically rises this event. - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 10. "           RX2_FULL            ,Receiver register full or almost full. Channel 2 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
textline "                             "
eventfld.long 0x00 9. " TX2_UNDERFLOW        ,Transmitter register underflow. Channel 2 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 8. "      TX2_EMPTY            ,Transmitter register empty or almost empty. Channel 2 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 6. "           RX1_FULL            ,Receiver register full or almost full. Channel 1 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
textline "                             "
eventfld.long 0x00 5. " TX1_UNDERFLOW        ,Transmitter register underflow. Channel 1 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 4. "      TX1_EMPTY            ,Transmitter register empty or almost empty. Channel 1 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 3. "           RX0_OVERFLOW        ,Receiver register overflow (slave mode only). Channel 0 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
textline "                             "
eventfld.long 0x00 2. " RX0_FULL             ,Receiver register full or almost full. Channel 0 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 1. "      TX0_UNDERFLOW        ,Transmitter register underflow. Channel 0 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 0. "           TX0_EMPTY           ,Transmitter register empty or almost empty. Channel 0 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
group.long 0x11C++0x3
line.long 0x00 "MCSPI_IRQENABLE,This register allows enabling/disabling of the module internal sources of interrupt, on an event-by-event basis."
bitfld.long 0x00 17. " EOW_ENABLE           ,End of Word count Interrupt Enable. - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 16. "   WKE                  ,Wake-up event interrupt enable in slave mode when an active control signal is detected on the SPIEN line programmed in the MCSPI_CH0CONF[SPIENSLV] bit - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 14. "        RX3_FULL_ENABLE     ,Receiver register Full Interrupt Enable. Channel 3 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
textline "                             "
bitfld.long 0x00 13. " TX3_UNDERFLOW_ENABLE ,Transmitter register Underflow Interrupt Enable. Channel 3 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 12. "   TX3_EMPTY_ENABLE     ,Transmitter register Empty Interrupt Enable. Channel 3 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 10. "        RX2_FULL_ENABLE     ,Receiver register Full Interrupt Enable. Channel 2 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
textline "                             "
bitfld.long 0x00 9. " TX2_UNDERFLOW_ENABLE ,Transmitter register Underflow Interrupt Enable. Channel 2 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 8. "   TX2_EMPTY_ENABLE     ,Transmitter register Empty Interrupt Enable. Channel 2 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 6. "        RX1_FULL_ENABLE     ,Receiver register Full Interrupt Enable. Channel 1 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
textline "                             "
bitfld.long 0x00 5. " TX1_UNDERFLOW_ENABLE ,Transmitter register Underflow Interrupt Enable. Channel 1 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 4. "   TX1_EMPTY_ENABLE     ,Transmitter register Empty Interrupt Enable. Channel 1 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 3. "        RX0_OVERFLOW_ENABLE ,Receiver register Overflow Interrupt Enable. Channel 0 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
textline "                             "
bitfld.long 0x00 2. " RX0_FULL_ENABLE      ,Receiver register Full Interrupt Enable. Channel 0 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 1. "   TX0_UNDERFLOW_ENABLE ,Transmitter register Underflow Interrupt Enable. Channel 0 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 0. "        TX0_EMPTY_ENABLE    ,Transmitter register Empty Interrupt Enable. Channel 0 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
group.long 0x120++0x3
line.long 0x00 "MCSPI_WAKEUPENABLE,The wake-up enable register allows enabling and disabling of the module internal sources of wakeup on event-by-event basis."
bitfld.long 0x00 0. " WKEN                 ,Wake-up functionality in slave mode when an active control signal is detected on the SPIEN line programmed in the MCSPI_CH0CONF[SPIENSLV] bit - NoWakeUp. - WakeUp." "NoWakeUp,WakeUp"
group.long 0x124++0x3
line.long 0x00 "MCSPI_SYST,This register is used to check the correctness of the system interconnect either internally to peripheral bus, or externally to device I/O pads, when the module is configured in system test (SYSTEST) mode."
bitfld.long 0x00 11. " SSB                  ,Set status bit - Off. - SetThemAll." "Off,SetThemAll"
bitfld.long 0x00 10. "    SPIENDIR             ,Set the direction of the SPIEN[3:0] lines and SPICLK line. - Out. - In." "Out,In"
bitfld.long 0x00 9. "                SPIDATDIR1          ,Set the direction of the SPIDAT[1]. - Out. - In." "Out,In"
textline "                             "
bitfld.long 0x00 8. " SPIDATDIR0           ,Set the direction of the SPIDAT[0]. - Out. - In." "Out,In"
bitfld.long 0x00 7. "           WAKD                 ,SWAKEUP output (signal data value of internal signal to system). The signal is driven high or low according to the value written into this bit. - DrivenLow. - DrivenHigh." "DrivenLow,DrivenHigh"
bitfld.long 0x00 6. "         SPICLK              ,SPICLK line (signal data value) If MCSPI_SYST[SPIENDIR] = 1 (input mode direction), this bit returns the value on the CLKSPI line (high or low), and a write into this bit has no effect. If MCSPI_SYST[SPIENDIR] = 0 (output ..." "0,1"
textline "                             "
bitfld.long 0x00 5. " SPIDAT_1             ,SPIDAT[1] line (signal data value) If MCSPI_SYST[SPIDATDIR1] = 0 (output mode direction), the SPIDAT[1] line is driven high or low according to the value written into this bit. If MCSPI_SYST[SPIDATDIR1] = 1 (input mode direction)..." "0,1"
bitfld.long 0x00 4. "             SPIDAT_0             ,SPIDAT[0] line (signal data value) If MCSPI_SYST[SPIDATDIR0] = 0 (output mode direction), the SPIDAT[0] line is driven high or low according to the value written into this bit. If MCSPI_SYST[SPIDATDIR0] = 1 (input mod..." "0,1"
bitfld.long 0x00 3. "                  SPIEN_3             ,SPIEN[3] line (signal data value) If MCSPI_SYST[SPIENDIR] = 0 (output mode direction), the SPIENT[3] line is driven high or low according to the value written into this bit. If MCSPI_SYST[SPIENDIR] = 1 (input mode..." "0,1"
textline "                             "
bitfld.long 0x00 2. " SPIEN_2              ,SPIEN[2] line (signal data value) If MCSPI_SYST[SPIENDIR] = 0 (output mode direction), the SPIENT[2] line is driven high or low according to the value written into this bit. If MCSPI_SYST[SPIENDIR] = 1 (input mode direction), thi..." "0,1"
bitfld.long 0x00 1. "             SPIEN_1              ,SPIEN[1] line (signal data value) If MCSPI_SYST[SPIENDIR] = 0 (output mode direction), the SPIENT[1] line is driven high or low according to the value written into this bit. If MCSPI_SYST[SPIENDIR] = 1 (input mode dir..." "0,1"
bitfld.long 0x00 0. "                  SPIEN_0             ,SPIEN[0] line (signal data value) If MCSPI_SYST[SPIENDIR] = 0 (output mode direction), the SPIENT[0] line is driven high or low according to the value written into this bit. If MCSPI_SYST[SPIENDIR] = 1 (input mode..." "0,1"
group.long 0x128++0x3
line.long 0x00 "MCSPI_MODULCTRL,This register is dedicated to the configuration of the serial peripheral interface."
bitfld.long 0x00 8. " FDAA                 ,FIFO DMA address 256-bit aligned this bit is used when a FIFO is managed by the module and DMA connected to the controller provides only 256-bit aligned address. If this bit is set the enabled channel which uses the FIFO has its ..." "NoShadowReg,ShadowRegen"
bitfld.long 0x00 7. "   MOA                  ,Multiple word OCP access: this bit can only be used when a channel is enabled using a FIFO. It allows the system to perform multiple SPI word access for a single 32-bit OCP word access. This is possible for WL < 16. - No..." "NoMultiAccess,MultiAcces"
bitfld.long 0x00 4.--6. "      INITDLY             ,Initial SPI delay for first transfer: this field is an option only available in SINGLE master mode. The controller waits for a delay to transmit the first SPI word after channel enabled and corresponding TX register filled. T..." "Nodelay,4ClkDly,8ClkDly,16ClkDly,32ClkDly,5,6,7"
textline "                             "
bitfld.long 0x00 3. " SYSTEM_TEST          ,Enables the system test mode - Off. - On." "Off,On"
bitfld.long 0x00 2. "           MS                   ,Master/slave - Master. - Slave." "Master,Slave"
bitfld.long 0x00 1. "             PIN34               ,Pin mode selection: This bit is used in master or slave mode to configure the SPI pin mode (3-pin or 4-pin). If asserted the controller only uses SIMO, SOMI, and SPICLK clock pin for SPI transfers. - 4PinMode. - 3PinMode." "4PinMode,3PinMode"
textline "                             "
bitfld.long 0x00 0. " SINGLE               ,Single channel/Multi Channel (master mode only) - Multi. - Single." "Multi,Single"
group.long 0x17C++0x3
line.long 0x00 "MCSPI_XFERLEVEL,This register provides transfer levels needed while using FIFO buffer during transfer."
hexmask.long.word 0x00 16.--31. 1. " WCNT                 ,SPI word counter. this field holds the programmable value of number of SPI word to be transferred on channel which is using the FIFO buffer. When transfer had started, a read back in this field returns the current SPI word transf..."
hexmask.long.byte 0x00 8.--15. 1. "          AFL                  ,Buffer almost full this field holds the programmable almost full level value used to determine almost full buffer condition. If the user wants an interrupt or a DMA read request to be issued during a receive operation wh..."
hexmask.long.byte 0x00 0.--7. 1. "                 AEL                 ,Buffer almost empty. this field holds the programmable almost empty level value used to determine almost empty buffer condition. If the user wants an interrupt or a DMA write request to be issued during a transmit ..."
group.long 0x180++0x3
line.long 0x00 "MCSPI_DAFTX,This register contains the SPI words to be transmitted on the SPI bus when FIFO is used and DMA address is aligned on 256 bit. This register is an image of one of the registers corresponding to the channel which has its FIFO enabled."
hexmask.long 0x00 0.--31. 1. " DAFTDATA             ,FIFO data to transmit with DMA 256 bit aligned address. - This field is only used when[8] FDAA is set to 0x1 and only one of the enabled channels has the [27] FFEW bit set to 0x1. If these conditions are not met any access to thi..."
rgroup.long 0x1A0++0x3
line.long 0x00 "MCSPI_DAFRX,This register contains the SPI words received from the SPI bus when FIFO is used and DMA address is aligned on 256 bit. This register is an image of one of the registers corresponding to the channel which has its FIFO enabled."
hexmask.long 0x00 0.--31. 1. " DAFRDATA             ,FIFO data received with DMA 256 bit aligned address. - This field is only used when[8] FDAA is set to 0x1 and only one of the enabled channels has the [28] FFER bit set to 0x1. If these conditions are not met any access to this f..."
width 0x0B
tree.end
tree "MCSPI3"
base ad:0x480B8000
tree "Channel_0"
width 17.
group.long 0x12C++0x3
line.long 0x00 "MCSPI_CHxCONF_0,This register is dedicated to the configuration of the channel x"
bitfld.long 0x00 29. " CLKG     ,Clock divider granularity this bit defines the granularity of channel clock divider: power of 2 or one clock cycle granularity. When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divide..." "0,1"
bitfld.long 0x00 28. "                   FFER  ,FIFO enabled for receive: Only one channel can have this bit field set. - . - ." "0,1"
bitfld.long 0x00 27. "  FFEW  ,FIFO enabled for transmit: Only one channel can have this bit field set. - . - ." "0,1"
textline "                          "
bitfld.long 0x00 25.--26. " TCS0     ,Chip-select time control This 2-bit field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock. - . - . - . - ." "0.5_clock_cycle,1.5_clock_cycles,2.5_clock_cycles,3.5_clock_cycles"
bitfld.long 0x00 24. "    SBPOL ,Start-bit polarity - . - ." "0,1"
bitfld.long 0x00 23. "  SBE   ,Start-bit enable for SPI transfer - . - ." "0,1"
textline "                          "
bitfld.long 0x00 21.--22. " SPIENSLV ,Channel 0 only and slave mode only: SPI slave select signal detection. Reserved bits for other cases. - . - . - . - ." "0,1,2,3"
bitfld.long 0x00 20. "                   FORCE ,Manual SPIEN assertion to keep SPIEN active between SPI words (single channel master mode only). - . - ." "0,1"
bitfld.long 0x00 19. "  TURBO ,Turbo mode - . - ." "0,1"
textline "                          "
bitfld.long 0x00 18. " IS       ,Input Select - . - ." "0,1"
bitfld.long 0x00 17. "                   DPE1  ,Transmission enable for data line 1 - . - ." "0,1"
bitfld.long 0x00 16. "  DPE0  ,Transmission Enable for data line 0 - . - ." "0,1"
textline "                          "
bitfld.long 0x00 15. " DMAR     ,DMA read request The DMA read request line is asserted when the channel is enabled and a new data is available in the receive register of the channel. The DMA read request line is deasserted on read completion of the receive register of the ..." "0,1"
bitfld.long 0x00 14. "                   DMAW  ,DMA write request. The DMA write request line is asserted when The channel is enabled and the transmitter register of the channel is empty. The DMA write request line is deasserted on load completion of the transmitter registe..." "0,1"
bitfld.long 0x00 12.--13. "  TRM   ,Transmit/receive modes - . - . - . - ." "Transmit-and-receive_mode,Receive-only_mode,Transmit-only_mode,Reserved"
textline "                          "
bitfld.long 0x00 7.--11. " WL       ,SPI word length - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - ." "Reserved,Reserved,Reserved,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 6. "            EPOL  ,SPIEN polarity - . - ." "0,1"
bitfld.long 0x00 2.--5. "  CLKD  ,Frequency divider for SPICLK (only when the module is a Master SPI device). A programmable clock divider divides the SPI reference clock (CLKSPIREF) with a 4-bit value, and results in a new clock SPICLK available to shift-in and shift-out data..." "1,2,4,8,16,32,64,128,256,512,1024,2048,4096,8192,16384,32768"
textline "                          "
bitfld.long 0x00 1. " POL      ,SPICLK polarity (see, ) - . - ." "0,1"
bitfld.long 0x00 0. "                   PHA   ,SPICLK phase (see, ) - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MCSPI_CHxCTRL_0,This register is dedicated to enable channel x."
hexmask.long.byte 0x00 8.--15. 1. " EXTCLK   ,Clock ratio extension: this field is used to concatenate with MCSPI_CHCONF[CLKD] register for clock ratio only when granularity is one clock cycle (MCSPI_CHCONF[CLKG] set to 1). Then the maximum value reached is 4096 clock divider ratio. - ...."
bitfld.long 0x00 0. "                  EN    ,Channel enable - . - ." "0,1"
rgroup.long 0x130++0x3
line.long 0x00 "MCSPI_CHxSTAT_0,This register provides status information about transmitter and receiver registers of channel x."
bitfld.long 0x00 6. " RXFFF    ,Channel 'i' FIFO receive buffer full status - . - ." "0,1"
bitfld.long 0x00 5. "                   RXFFE ,Channel 'i' FIFO receive buffer empty status - . - ." "0,1"
bitfld.long 0x00 4. "  TXFFF ,Channel 'i' FIFO transmit buffer full status - . - ." "0,1"
textline "                          "
bitfld.long 0x00 3. " TXFFE    ,Channel 'i' FIFO transmit buffer empty status - . - ." "0,1"
bitfld.long 0x00 2. "                   EOT   ,Channel 'i' end of transfer status. The definitions of beginning and end of transfer vary with master versus slave and the transfer format (transmit/receive modes, turbo mode). See dedicated chapters for details. - . - ." "0,1"
bitfld.long 0x00 1. "  TXS   ,Channel 'i' transmitter register status - . - ." "Register_is_full.,Register_is_empty."
textline "                          "
bitfld.long 0x00 0. " RXS      ,Channel 'i' receiver register status - . - ." "Register_is_empty.,Register_is_full."
rgroup.long 0x13C++0x3
line.long 0x00 "MCSPI_RXx_0,This register contains a single SPI word for channel x received through the serial link, whatever SPI word length is."
hexmask.long 0x00 0.--31. 1. " RDATA    ,Channel x received data"
group.long 0x138++0x3
line.long 0x00 "MCSPI_TXx_0,This register contains a single SPI word for channel x to transmit on the serial link, whatever SPI word length is."
hexmask.long 0x00 0.--31. 1. " TDATA    ,Channel x data to transmit"
tree.end
tree "Channel_1"
width 17.
group.long 0x140++0x3
line.long 0x00 "MCSPI_CHxCONF_1,This register is dedicated to the configuration of the channel x"
bitfld.long 0x00 29. " CLKG     ,Clock divider granularity this bit defines the granularity of channel clock divider: power of 2 or one clock cycle granularity. When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divide..." "0,1"
bitfld.long 0x00 28. "                   FFER  ,FIFO enabled for receive: Only one channel can have this bit field set. - . - ." "0,1"
bitfld.long 0x00 27. "  FFEW  ,FIFO enabled for transmit: Only one channel can have this bit field set. - . - ." "0,1"
textline "                          "
bitfld.long 0x00 25.--26. " TCS0     ,Chip-select time control This 2-bit field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock. - . - . - . - ." "0.5_clock_cycle,1.5_clock_cycles,2.5_clock_cycles,3.5_clock_cycles"
bitfld.long 0x00 24. "    SBPOL ,Start-bit polarity - . - ." "0,1"
bitfld.long 0x00 23. "  SBE   ,Start-bit enable for SPI transfer - . - ." "0,1"
textline "                          "
bitfld.long 0x00 21.--22. " SPIENSLV ,Channel 0 only and slave mode only: SPI slave select signal detection. Reserved bits for other cases. - . - . - . - ." "0,1,2,3"
bitfld.long 0x00 20. "                   FORCE ,Manual SPIEN assertion to keep SPIEN active between SPI words (single channel master mode only). - . - ." "0,1"
bitfld.long 0x00 19. "  TURBO ,Turbo mode - . - ." "0,1"
textline "                          "
bitfld.long 0x00 18. " IS       ,Input Select - . - ." "0,1"
bitfld.long 0x00 17. "                   DPE1  ,Transmission enable for data line 1 - . - ." "0,1"
bitfld.long 0x00 16. "  DPE0  ,Transmission Enable for data line 0 - . - ." "0,1"
textline "                          "
bitfld.long 0x00 15. " DMAR     ,DMA read request The DMA read request line is asserted when the channel is enabled and a new data is available in the receive register of the channel. The DMA read request line is deasserted on read completion of the receive register of the ..." "0,1"
bitfld.long 0x00 14. "                   DMAW  ,DMA write request. The DMA write request line is asserted when The channel is enabled and the transmitter register of the channel is empty. The DMA write request line is deasserted on load completion of the transmitter registe..." "0,1"
bitfld.long 0x00 12.--13. "  TRM   ,Transmit/receive modes - . - . - . - ." "Transmit-and-receive_mode,Receive-only_mode,Transmit-only_mode,Reserved"
textline "                          "
bitfld.long 0x00 7.--11. " WL       ,SPI word length - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - ." "Reserved,Reserved,Reserved,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 6. "            EPOL  ,SPIEN polarity - . - ." "0,1"
bitfld.long 0x00 2.--5. "  CLKD  ,Frequency divider for SPICLK (only when the module is a Master SPI device). A programmable clock divider divides the SPI reference clock (CLKSPIREF) with a 4-bit value, and results in a new clock SPICLK available to shift-in and shift-out data..." "1,2,4,8,16,32,64,128,256,512,1024,2048,4096,8192,16384,32768"
textline "                          "
bitfld.long 0x00 1. " POL      ,SPICLK polarity (see, ) - . - ." "0,1"
bitfld.long 0x00 0. "                   PHA   ,SPICLK phase (see, ) - . - ." "0,1"
group.long 0x148++0x3
line.long 0x00 "MCSPI_CHxCTRL_1,This register is dedicated to enable channel x."
hexmask.long.byte 0x00 8.--15. 1. " EXTCLK   ,Clock ratio extension: this field is used to concatenate with MCSPI_CHCONF[CLKD] register for clock ratio only when granularity is one clock cycle (MCSPI_CHCONF[CLKG] set to 1). Then the maximum value reached is 4096 clock divider ratio. - ...."
bitfld.long 0x00 0. "                  EN    ,Channel enable - . - ." "0,1"
rgroup.long 0x144++0x3
line.long 0x00 "MCSPI_CHxSTAT_1,This register provides status information about transmitter and receiver registers of channel x."
bitfld.long 0x00 6. " RXFFF    ,Channel 'i' FIFO receive buffer full status - . - ." "0,1"
bitfld.long 0x00 5. "                   RXFFE ,Channel 'i' FIFO receive buffer empty status - . - ." "0,1"
bitfld.long 0x00 4. "  TXFFF ,Channel 'i' FIFO transmit buffer full status - . - ." "0,1"
textline "                          "
bitfld.long 0x00 3. " TXFFE    ,Channel 'i' FIFO transmit buffer empty status - . - ." "0,1"
bitfld.long 0x00 2. "                   EOT   ,Channel 'i' end of transfer status. The definitions of beginning and end of transfer vary with master versus slave and the transfer format (transmit/receive modes, turbo mode). See dedicated chapters for details. - . - ." "0,1"
bitfld.long 0x00 1. "  TXS   ,Channel 'i' transmitter register status - . - ." "Register_is_full.,Register_is_empty."
textline "                          "
bitfld.long 0x00 0. " RXS      ,Channel 'i' receiver register status - . - ." "Register_is_empty.,Register_is_full."
rgroup.long 0x150++0x3
line.long 0x00 "MCSPI_RXx_1,This register contains a single SPI word for channel x received through the serial link, whatever SPI word length is."
hexmask.long 0x00 0.--31. 1. " RDATA    ,Channel x received data"
group.long 0x14C++0x3
line.long 0x00 "MCSPI_TXx_1,This register contains a single SPI word for channel x to transmit on the serial link, whatever SPI word length is."
hexmask.long 0x00 0.--31. 1. " TDATA    ,Channel x data to transmit"
tree.end
tree "Channel_2"
width 17.
group.long 0x154++0x3
line.long 0x00 "MCSPI_CHxCONF_2,This register is dedicated to the configuration of the channel x"
bitfld.long 0x00 29. " CLKG     ,Clock divider granularity this bit defines the granularity of channel clock divider: power of 2 or one clock cycle granularity. When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divide..." "0,1"
bitfld.long 0x00 28. "                   FFER  ,FIFO enabled for receive: Only one channel can have this bit field set. - . - ." "0,1"
bitfld.long 0x00 27. "  FFEW  ,FIFO enabled for transmit: Only one channel can have this bit field set. - . - ." "0,1"
textline "                          "
bitfld.long 0x00 25.--26. " TCS0     ,Chip-select time control This 2-bit field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock. - . - . - . - ." "0.5_clock_cycle,1.5_clock_cycles,2.5_clock_cycles,3.5_clock_cycles"
bitfld.long 0x00 24. "    SBPOL ,Start-bit polarity - . - ." "0,1"
bitfld.long 0x00 23. "  SBE   ,Start-bit enable for SPI transfer - . - ." "0,1"
textline "                          "
bitfld.long 0x00 21.--22. " SPIENSLV ,Channel 0 only and slave mode only: SPI slave select signal detection. Reserved bits for other cases. - . - . - . - ." "0,1,2,3"
bitfld.long 0x00 20. "                   FORCE ,Manual SPIEN assertion to keep SPIEN active between SPI words (single channel master mode only). - . - ." "0,1"
bitfld.long 0x00 19. "  TURBO ,Turbo mode - . - ." "0,1"
textline "                          "
bitfld.long 0x00 18. " IS       ,Input Select - . - ." "0,1"
bitfld.long 0x00 17. "                   DPE1  ,Transmission enable for data line 1 - . - ." "0,1"
bitfld.long 0x00 16. "  DPE0  ,Transmission Enable for data line 0 - . - ." "0,1"
textline "                          "
bitfld.long 0x00 15. " DMAR     ,DMA read request The DMA read request line is asserted when the channel is enabled and a new data is available in the receive register of the channel. The DMA read request line is deasserted on read completion of the receive register of the ..." "0,1"
bitfld.long 0x00 14. "                   DMAW  ,DMA write request. The DMA write request line is asserted when The channel is enabled and the transmitter register of the channel is empty. The DMA write request line is deasserted on load completion of the transmitter registe..." "0,1"
bitfld.long 0x00 12.--13. "  TRM   ,Transmit/receive modes - . - . - . - ." "Transmit-and-receive_mode,Receive-only_mode,Transmit-only_mode,Reserved"
textline "                          "
bitfld.long 0x00 7.--11. " WL       ,SPI word length - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - ." "Reserved,Reserved,Reserved,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 6. "            EPOL  ,SPIEN polarity - . - ." "0,1"
bitfld.long 0x00 2.--5. "  CLKD  ,Frequency divider for SPICLK (only when the module is a Master SPI device). A programmable clock divider divides the SPI reference clock (CLKSPIREF) with a 4-bit value, and results in a new clock SPICLK available to shift-in and shift-out data..." "1,2,4,8,16,32,64,128,256,512,1024,2048,4096,8192,16384,32768"
textline "                          "
bitfld.long 0x00 1. " POL      ,SPICLK polarity (see, ) - . - ." "0,1"
bitfld.long 0x00 0. "                   PHA   ,SPICLK phase (see, ) - . - ." "0,1"
group.long 0x15C++0x3
line.long 0x00 "MCSPI_CHxCTRL_2,This register is dedicated to enable channel x."
hexmask.long.byte 0x00 8.--15. 1. " EXTCLK   ,Clock ratio extension: this field is used to concatenate with MCSPI_CHCONF[CLKD] register for clock ratio only when granularity is one clock cycle (MCSPI_CHCONF[CLKG] set to 1). Then the maximum value reached is 4096 clock divider ratio. - ...."
bitfld.long 0x00 0. "                  EN    ,Channel enable - . - ." "0,1"
rgroup.long 0x158++0x3
line.long 0x00 "MCSPI_CHxSTAT_2,This register provides status information about transmitter and receiver registers of channel x."
bitfld.long 0x00 6. " RXFFF    ,Channel 'i' FIFO receive buffer full status - . - ." "0,1"
bitfld.long 0x00 5. "                   RXFFE ,Channel 'i' FIFO receive buffer empty status - . - ." "0,1"
bitfld.long 0x00 4. "  TXFFF ,Channel 'i' FIFO transmit buffer full status - . - ." "0,1"
textline "                          "
bitfld.long 0x00 3. " TXFFE    ,Channel 'i' FIFO transmit buffer empty status - . - ." "0,1"
bitfld.long 0x00 2. "                   EOT   ,Channel 'i' end of transfer status. The definitions of beginning and end of transfer vary with master versus slave and the transfer format (transmit/receive modes, turbo mode). See dedicated chapters for details. - . - ." "0,1"
bitfld.long 0x00 1. "  TXS   ,Channel 'i' transmitter register status - . - ." "Register_is_full.,Register_is_empty."
textline "                          "
bitfld.long 0x00 0. " RXS      ,Channel 'i' receiver register status - . - ." "Register_is_empty.,Register_is_full."
rgroup.long 0x164++0x3
line.long 0x00 "MCSPI_RXx_2,This register contains a single SPI word for channel x received through the serial link, whatever SPI word length is."
hexmask.long 0x00 0.--31. 1. " RDATA    ,Channel x received data"
group.long 0x160++0x3
line.long 0x00 "MCSPI_TXx_2,This register contains a single SPI word for channel x to transmit on the serial link, whatever SPI word length is."
hexmask.long 0x00 0.--31. 1. " TDATA    ,Channel x data to transmit"
tree.end
tree "Channel_3"
width 17.
group.long 0x168++0x3
line.long 0x00 "MCSPI_CHxCONF_3,This register is dedicated to the configuration of the channel x"
bitfld.long 0x00 29. " CLKG     ,Clock divider granularity this bit defines the granularity of channel clock divider: power of 2 or one clock cycle granularity. When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divide..." "0,1"
bitfld.long 0x00 28. "                   FFER  ,FIFO enabled for receive: Only one channel can have this bit field set. - . - ." "0,1"
bitfld.long 0x00 27. "  FFEW  ,FIFO enabled for transmit: Only one channel can have this bit field set. - . - ." "0,1"
textline "                          "
bitfld.long 0x00 25.--26. " TCS0     ,Chip-select time control This 2-bit field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock. - . - . - . - ." "0.5_clock_cycle,1.5_clock_cycles,2.5_clock_cycles,3.5_clock_cycles"
bitfld.long 0x00 24. "    SBPOL ,Start-bit polarity - . - ." "0,1"
bitfld.long 0x00 23. "  SBE   ,Start-bit enable for SPI transfer - . - ." "0,1"
textline "                          "
bitfld.long 0x00 21.--22. " SPIENSLV ,Channel 0 only and slave mode only: SPI slave select signal detection. Reserved bits for other cases. - . - . - . - ." "0,1,2,3"
bitfld.long 0x00 20. "                   FORCE ,Manual SPIEN assertion to keep SPIEN active between SPI words (single channel master mode only). - . - ." "0,1"
bitfld.long 0x00 19. "  TURBO ,Turbo mode - . - ." "0,1"
textline "                          "
bitfld.long 0x00 18. " IS       ,Input Select - . - ." "0,1"
bitfld.long 0x00 17. "                   DPE1  ,Transmission enable for data line 1 - . - ." "0,1"
bitfld.long 0x00 16. "  DPE0  ,Transmission Enable for data line 0 - . - ." "0,1"
textline "                          "
bitfld.long 0x00 15. " DMAR     ,DMA read request The DMA read request line is asserted when the channel is enabled and a new data is available in the receive register of the channel. The DMA read request line is deasserted on read completion of the receive register of the ..." "0,1"
bitfld.long 0x00 14. "                   DMAW  ,DMA write request. The DMA write request line is asserted when The channel is enabled and the transmitter register of the channel is empty. The DMA write request line is deasserted on load completion of the transmitter registe..." "0,1"
bitfld.long 0x00 12.--13. "  TRM   ,Transmit/receive modes - . - . - . - ." "Transmit-and-receive_mode,Receive-only_mode,Transmit-only_mode,Reserved"
textline "                          "
bitfld.long 0x00 7.--11. " WL       ,SPI word length - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - ." "Reserved,Reserved,Reserved,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 6. "            EPOL  ,SPIEN polarity - . - ." "0,1"
bitfld.long 0x00 2.--5. "  CLKD  ,Frequency divider for SPICLK (only when the module is a Master SPI device). A programmable clock divider divides the SPI reference clock (CLKSPIREF) with a 4-bit value, and results in a new clock SPICLK available to shift-in and shift-out data..." "1,2,4,8,16,32,64,128,256,512,1024,2048,4096,8192,16384,32768"
textline "                          "
bitfld.long 0x00 1. " POL      ,SPICLK polarity (see, ) - . - ." "0,1"
bitfld.long 0x00 0. "                   PHA   ,SPICLK phase (see, ) - . - ." "0,1"
group.long 0x170++0x3
line.long 0x00 "MCSPI_CHxCTRL_3,This register is dedicated to enable channel x."
hexmask.long.byte 0x00 8.--15. 1. " EXTCLK   ,Clock ratio extension: this field is used to concatenate with MCSPI_CHCONF[CLKD] register for clock ratio only when granularity is one clock cycle (MCSPI_CHCONF[CLKG] set to 1). Then the maximum value reached is 4096 clock divider ratio. - ...."
bitfld.long 0x00 0. "                  EN    ,Channel enable - . - ." "0,1"
rgroup.long 0x16C++0x3
line.long 0x00 "MCSPI_CHxSTAT_3,This register provides status information about transmitter and receiver registers of channel x."
bitfld.long 0x00 6. " RXFFF    ,Channel 'i' FIFO receive buffer full status - . - ." "0,1"
bitfld.long 0x00 5. "                   RXFFE ,Channel 'i' FIFO receive buffer empty status - . - ." "0,1"
bitfld.long 0x00 4. "  TXFFF ,Channel 'i' FIFO transmit buffer full status - . - ." "0,1"
textline "                          "
bitfld.long 0x00 3. " TXFFE    ,Channel 'i' FIFO transmit buffer empty status - . - ." "0,1"
bitfld.long 0x00 2. "                   EOT   ,Channel 'i' end of transfer status. The definitions of beginning and end of transfer vary with master versus slave and the transfer format (transmit/receive modes, turbo mode). See dedicated chapters for details. - . - ." "0,1"
bitfld.long 0x00 1. "  TXS   ,Channel 'i' transmitter register status - . - ." "Register_is_full.,Register_is_empty."
textline "                          "
bitfld.long 0x00 0. " RXS      ,Channel 'i' receiver register status - . - ." "Register_is_empty.,Register_is_full."
rgroup.long 0x178++0x3
line.long 0x00 "MCSPI_RXx_3,This register contains a single SPI word for channel x received through the serial link, whatever SPI word length is."
hexmask.long 0x00 0.--31. 1. " RDATA    ,Channel x received data"
group.long 0x174++0x3
line.long 0x00 "MCSPI_TXx_3,This register contains a single SPI word for channel x to transmit on the serial link, whatever SPI word length is."
hexmask.long 0x00 0.--31. 1. " TDATA    ,Channel x data to transmit"
tree.end
textline ""
width 20.
rgroup.long 0x0++0x3
line.long 0x00 "MCSPI_HL_REV,IP Revision Identifier (X.Y.R) Used by software to track features, bugs, and compatibility"
hexmask.long 0x00 0.--31. 1. " REVISION             ,IP Revision"
rgroup.long 0x4++0x3
line.long 0x00 "MCSPI_HL_HWINFO,Information about the IP module's hardware configuration, that is, typically the module's HDL generics (if any). Actual field format and encoding is up to the module's designer to decide."
hexmask.long 0x00 7.--31. 1. " RSVD                 ,Reserved These bits are initialized to 0, and writes to them are ignored."
bitfld.long 0x00 6. "      RETMODE              ,Retention Mode generic parameter. This bit field indicates whether the retention mode is supported using the pin PIRFFRET. 0x0: Retention mode disabled 0x1: Retention mode enabled" "0,1"
bitfld.long 0x00 1.--5. "                  FFNBYTE             ,FIFO number of byte generic parameter This field defines the value of FFNBYTE generic parameter, only MSB bits from 8 down to 4 are taken into account. - FF16bytes. - FF32bytes. - FF64bytes. - FF128bytes. - FF256b..." "0,FF16bytes,FF32bytes,3,FF64bytes,5,6,7,FF128bytes,9,10,11,12,13,14,15,FF256bytes,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                             "
bitfld.long 0x00 0. " USEFIFO              ,Use of a FIFO enable: This bit indicates if a FIFO is integrated within controller design with its management. - NoFIFO. - FIFOEn." "NoFIFO,FIFOEn"
group.long 0x10++0x3
line.long 0x00 "MCSPI_HL_SYSCONFIG,Clock management configuration"
hexmask.long 0x00 4.--31. 1. " RSVD                 ,"
bitfld.long 0x00 2.--3. "      IDLEMODE             ,Configuration of the local target state management mode. By definition, target can handle read/write transaction as long as it is out of IDLE state. - ForceIdle. - NoIdle. - SmartIdle. - SmartIdleWakeUp." "ForceIdle,NoIdle,SmartIdle,SmartIdleWakeUp"
bitfld.long 0x00 1. "    FREEEMU             ,Sensitivity to emulation (debug) suspend input signal. - EmuEn. - EmuDis." "EmuEn,EmuDis"
textline "                             "
bitfld.long 0x00 0. " SOFTRESET            ,Software reset. (Optional) - ResetDone. - ResetDone. - ResetOnGoing. - ResetOnGoing." "ResetDone,ResetOnGoing"
rgroup.long 0x100++0x3
line.long 0x00 "MCSPI_REVISION,This register contains the revision number."
hexmask.long 0x00 0.--31. 1. " REVISION             ,IP revision"
group.long 0x110++0x3
line.long 0x00 "MCSPI_SYSCONFIG,This register allows controlling various parameters of the OCP interface."
bitfld.long 0x00 8.--9. " CLOCKACTIVITY        ,Clocks activity during wake-up mode period - None. - OCP. - FUNC. - Both." "None,OCP,FUNC,Both"
bitfld.long 0x00 3.--4. "          SIDLEMODE            ,Power management - Force. - No. - Smart. - SMART_IDLE_WAKEUP." "Force,No,Smart,SMART_IDLE_WAKEUP"
bitfld.long 0x00 2. "  ENAWAKEUP           ,Wake-up feature control - NoWakeUp. - On." "NoWakeUp,On"
textline "                             "
bitfld.long 0x00 1. " SOFTRESET            ,Software reset. During reads it always returns 0. - Off. - On." "Off,On"
bitfld.long 0x00 0. "           AUTOIDLE             ,Internal OCP clock-gating strategy - Off. - On." "Off,On"
rgroup.long 0x114++0x3
line.long 0x00 "MCSPI_SYSSTATUS,This register provides status information about the module excluding the interrupt status information."
bitfld.long 0x00 0. " RESETDONE            ,Internal reset monitoring - InProgress. - Completed." "InProgress,Completed"
group.long 0x118++0x3
line.long 0x00 "MCSPI_IRQSTATUS,The interrupt status regroups all the status of the module internal events that can generate an interrupt."
eventfld.long 0x00 17. " EOW                  ,End of word count event when a channel is enabled using the FIFO buffer and the channel had sent the number of SPI word defined byMCSPI_XFERLEVEL[WCNT]. - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 16. "      WKS                  ,Wake-up event in slave mode when an active control signal is detected on the SPIEN line programmed in the field MCSPI_CH0CONF[SPIENSLV] - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 14. "           RX3_FULL            ,Receiver register is full or almost full. Only when Channel 3 is enabled - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
textline "                             "
eventfld.long 0x00 13. " TX3_UNDERFLOW        ,Transmitter register underflow. Only when Channel 3 is enabled. The transmitter register is empty (not updated by host or DMA with new data) before its time slot assignment. Exception: No TX_underflow event when no data has been ..." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 12. "      TX3_EMPTY            ,Transmitter register is empty or almost empty. Note: Enabling the channel automatically rises this event. - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 10. "           RX2_FULL            ,Receiver register full or almost full. Channel 2 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
textline "                             "
eventfld.long 0x00 9. " TX2_UNDERFLOW        ,Transmitter register underflow. Channel 2 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 8. "      TX2_EMPTY            ,Transmitter register empty or almost empty. Channel 2 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 6. "           RX1_FULL            ,Receiver register full or almost full. Channel 1 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
textline "                             "
eventfld.long 0x00 5. " TX1_UNDERFLOW        ,Transmitter register underflow. Channel 1 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 4. "      TX1_EMPTY            ,Transmitter register empty or almost empty. Channel 1 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 3. "           RX0_OVERFLOW        ,Receiver register overflow (slave mode only). Channel 0 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
textline "                             "
eventfld.long 0x00 2. " RX0_FULL             ,Receiver register full or almost full. Channel 0 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 1. "      TX0_UNDERFLOW        ,Transmitter register underflow. Channel 0 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 0. "           TX0_EMPTY           ,Transmitter register empty or almost empty. Channel 0 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
group.long 0x11C++0x3
line.long 0x00 "MCSPI_IRQENABLE,This register allows enabling/disabling of the module internal sources of interrupt, on an event-by-event basis."
bitfld.long 0x00 17. " EOW_ENABLE           ,End of Word count Interrupt Enable. - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 16. "   WKE                  ,Wake-up event interrupt enable in slave mode when an active control signal is detected on the SPIEN line programmed in the MCSPI_CH0CONF[SPIENSLV] bit - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 14. "        RX3_FULL_ENABLE     ,Receiver register Full Interrupt Enable. Channel 3 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
textline "                             "
bitfld.long 0x00 13. " TX3_UNDERFLOW_ENABLE ,Transmitter register Underflow Interrupt Enable. Channel 3 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 12. "   TX3_EMPTY_ENABLE     ,Transmitter register Empty Interrupt Enable. Channel 3 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 10. "        RX2_FULL_ENABLE     ,Receiver register Full Interrupt Enable. Channel 2 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
textline "                             "
bitfld.long 0x00 9. " TX2_UNDERFLOW_ENABLE ,Transmitter register Underflow Interrupt Enable. Channel 2 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 8. "   TX2_EMPTY_ENABLE     ,Transmitter register Empty Interrupt Enable. Channel 2 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 6. "        RX1_FULL_ENABLE     ,Receiver register Full Interrupt Enable. Channel 1 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
textline "                             "
bitfld.long 0x00 5. " TX1_UNDERFLOW_ENABLE ,Transmitter register Underflow Interrupt Enable. Channel 1 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 4. "   TX1_EMPTY_ENABLE     ,Transmitter register Empty Interrupt Enable. Channel 1 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 3. "        RX0_OVERFLOW_ENABLE ,Receiver register Overflow Interrupt Enable. Channel 0 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
textline "                             "
bitfld.long 0x00 2. " RX0_FULL_ENABLE      ,Receiver register Full Interrupt Enable. Channel 0 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 1. "   TX0_UNDERFLOW_ENABLE ,Transmitter register Underflow Interrupt Enable. Channel 0 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 0. "        TX0_EMPTY_ENABLE    ,Transmitter register Empty Interrupt Enable. Channel 0 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
group.long 0x120++0x3
line.long 0x00 "MCSPI_WAKEUPENABLE,The wake-up enable register allows enabling and disabling of the module internal sources of wakeup on event-by-event basis."
bitfld.long 0x00 0. " WKEN                 ,Wake-up functionality in slave mode when an active control signal is detected on the SPIEN line programmed in the MCSPI_CH0CONF[SPIENSLV] bit - NoWakeUp. - WakeUp." "NoWakeUp,WakeUp"
group.long 0x124++0x3
line.long 0x00 "MCSPI_SYST,This register is used to check the correctness of the system interconnect either internally to peripheral bus, or externally to device I/O pads, when the module is configured in system test (SYSTEST) mode."
bitfld.long 0x00 11. " SSB                  ,Set status bit - Off. - SetThemAll." "Off,SetThemAll"
bitfld.long 0x00 10. "    SPIENDIR             ,Set the direction of the SPIEN[3:0] lines and SPICLK line. - Out. - In." "Out,In"
bitfld.long 0x00 9. "                SPIDATDIR1          ,Set the direction of the SPIDAT[1]. - Out. - In." "Out,In"
textline "                             "
bitfld.long 0x00 8. " SPIDATDIR0           ,Set the direction of the SPIDAT[0]. - Out. - In." "Out,In"
bitfld.long 0x00 7. "           WAKD                 ,SWAKEUP output (signal data value of internal signal to system). The signal is driven high or low according to the value written into this bit. - DrivenLow. - DrivenHigh." "DrivenLow,DrivenHigh"
bitfld.long 0x00 6. "         SPICLK              ,SPICLK line (signal data value) If MCSPI_SYST[SPIENDIR] = 1 (input mode direction), this bit returns the value on the CLKSPI line (high or low), and a write into this bit has no effect. If MCSPI_SYST[SPIENDIR] = 0 (output ..." "0,1"
textline "                             "
bitfld.long 0x00 5. " SPIDAT_1             ,SPIDAT[1] line (signal data value) If MCSPI_SYST[SPIDATDIR1] = 0 (output mode direction), the SPIDAT[1] line is driven high or low according to the value written into this bit. If MCSPI_SYST[SPIDATDIR1] = 1 (input mode direction)..." "0,1"
bitfld.long 0x00 4. "             SPIDAT_0             ,SPIDAT[0] line (signal data value) If MCSPI_SYST[SPIDATDIR0] = 0 (output mode direction), the SPIDAT[0] line is driven high or low according to the value written into this bit. If MCSPI_SYST[SPIDATDIR0] = 1 (input mod..." "0,1"
bitfld.long 0x00 3. "                  SPIEN_3             ,SPIEN[3] line (signal data value) If MCSPI_SYST[SPIENDIR] = 0 (output mode direction), the SPIENT[3] line is driven high or low according to the value written into this bit. If MCSPI_SYST[SPIENDIR] = 1 (input mode..." "0,1"
textline "                             "
bitfld.long 0x00 2. " SPIEN_2              ,SPIEN[2] line (signal data value) If MCSPI_SYST[SPIENDIR] = 0 (output mode direction), the SPIENT[2] line is driven high or low according to the value written into this bit. If MCSPI_SYST[SPIENDIR] = 1 (input mode direction), thi..." "0,1"
bitfld.long 0x00 1. "             SPIEN_1              ,SPIEN[1] line (signal data value) If MCSPI_SYST[SPIENDIR] = 0 (output mode direction), the SPIENT[1] line is driven high or low according to the value written into this bit. If MCSPI_SYST[SPIENDIR] = 1 (input mode dir..." "0,1"
bitfld.long 0x00 0. "                  SPIEN_0             ,SPIEN[0] line (signal data value) If MCSPI_SYST[SPIENDIR] = 0 (output mode direction), the SPIENT[0] line is driven high or low according to the value written into this bit. If MCSPI_SYST[SPIENDIR] = 1 (input mode..." "0,1"
group.long 0x128++0x3
line.long 0x00 "MCSPI_MODULCTRL,This register is dedicated to the configuration of the serial peripheral interface."
bitfld.long 0x00 8. " FDAA                 ,FIFO DMA address 256-bit aligned this bit is used when a FIFO is managed by the module and DMA connected to the controller provides only 256-bit aligned address. If this bit is set the enabled channel which uses the FIFO has its ..." "NoShadowReg,ShadowRegen"
bitfld.long 0x00 7. "   MOA                  ,Multiple word OCP access: this bit can only be used when a channel is enabled using a FIFO. It allows the system to perform multiple SPI word access for a single 32-bit OCP word access. This is possible for WL < 16. - No..." "NoMultiAccess,MultiAcces"
bitfld.long 0x00 4.--6. "      INITDLY             ,Initial SPI delay for first transfer: this field is an option only available in SINGLE master mode. The controller waits for a delay to transmit the first SPI word after channel enabled and corresponding TX register filled. T..." "Nodelay,4ClkDly,8ClkDly,16ClkDly,32ClkDly,5,6,7"
textline "                             "
bitfld.long 0x00 3. " SYSTEM_TEST          ,Enables the system test mode - Off. - On." "Off,On"
bitfld.long 0x00 2. "           MS                   ,Master/slave - Master. - Slave." "Master,Slave"
bitfld.long 0x00 1. "             PIN34               ,Pin mode selection: This bit is used in master or slave mode to configure the SPI pin mode (3-pin or 4-pin). If asserted the controller only uses SIMO, SOMI, and SPICLK clock pin for SPI transfers. - 4PinMode. - 3PinMode." "4PinMode,3PinMode"
textline "                             "
bitfld.long 0x00 0. " SINGLE               ,Single channel/Multi Channel (master mode only) - Multi. - Single." "Multi,Single"
group.long 0x17C++0x3
line.long 0x00 "MCSPI_XFERLEVEL,This register provides transfer levels needed while using FIFO buffer during transfer."
hexmask.long.word 0x00 16.--31. 1. " WCNT                 ,SPI word counter. this field holds the programmable value of number of SPI word to be transferred on channel which is using the FIFO buffer. When transfer had started, a read back in this field returns the current SPI word transf..."
hexmask.long.byte 0x00 8.--15. 1. "          AFL                  ,Buffer almost full this field holds the programmable almost full level value used to determine almost full buffer condition. If the user wants an interrupt or a DMA read request to be issued during a receive operation wh..."
hexmask.long.byte 0x00 0.--7. 1. "                 AEL                 ,Buffer almost empty. this field holds the programmable almost empty level value used to determine almost empty buffer condition. If the user wants an interrupt or a DMA write request to be issued during a transmit ..."
group.long 0x180++0x3
line.long 0x00 "MCSPI_DAFTX,This register contains the SPI words to be transmitted on the SPI bus when FIFO is used and DMA address is aligned on 256 bit. This register is an image of one of the registers corresponding to the channel which has its FIFO enabled."
hexmask.long 0x00 0.--31. 1. " DAFTDATA             ,FIFO data to transmit with DMA 256 bit aligned address. - This field is only used when[8] FDAA is set to 0x1 and only one of the enabled channels has the [27] FFEW bit set to 0x1. If these conditions are not met any access to thi..."
rgroup.long 0x1A0++0x3
line.long 0x00 "MCSPI_DAFRX,This register contains the SPI words received from the SPI bus when FIFO is used and DMA address is aligned on 256 bit. This register is an image of one of the registers corresponding to the channel which has its FIFO enabled."
hexmask.long 0x00 0.--31. 1. " DAFRDATA             ,FIFO data received with DMA 256 bit aligned address. - This field is only used when[8] FDAA is set to 0x1 and only one of the enabled channels has the [28] FFER bit set to 0x1. If these conditions are not met any access to this f..."
width 0x0B
tree.end
tree "MCSPI4"
base ad:0x480BA000
tree "Channel_0"
width 17.
group.long 0x12C++0x3
line.long 0x00 "MCSPI_CHxCONF_0,This register is dedicated to the configuration of the channel x"
bitfld.long 0x00 29. " CLKG     ,Clock divider granularity this bit defines the granularity of channel clock divider: power of 2 or one clock cycle granularity. When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divide..." "0,1"
bitfld.long 0x00 28. "                   FFER  ,FIFO enabled for receive: Only one channel can have this bit field set. - . - ." "0,1"
bitfld.long 0x00 27. "  FFEW  ,FIFO enabled for transmit: Only one channel can have this bit field set. - . - ." "0,1"
textline "                          "
bitfld.long 0x00 25.--26. " TCS0     ,Chip-select time control This 2-bit field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock. - . - . - . - ." "0.5_clock_cycle,1.5_clock_cycles,2.5_clock_cycles,3.5_clock_cycles"
bitfld.long 0x00 24. "    SBPOL ,Start-bit polarity - . - ." "0,1"
bitfld.long 0x00 23. "  SBE   ,Start-bit enable for SPI transfer - . - ." "0,1"
textline "                          "
bitfld.long 0x00 21.--22. " SPIENSLV ,Channel 0 only and slave mode only: SPI slave select signal detection. Reserved bits for other cases. - . - . - . - ." "0,1,2,3"
bitfld.long 0x00 20. "                   FORCE ,Manual SPIEN assertion to keep SPIEN active between SPI words (single channel master mode only). - . - ." "0,1"
bitfld.long 0x00 19. "  TURBO ,Turbo mode - . - ." "0,1"
textline "                          "
bitfld.long 0x00 18. " IS       ,Input Select - . - ." "0,1"
bitfld.long 0x00 17. "                   DPE1  ,Transmission enable for data line 1 - . - ." "0,1"
bitfld.long 0x00 16. "  DPE0  ,Transmission Enable for data line 0 - . - ." "0,1"
textline "                          "
bitfld.long 0x00 15. " DMAR     ,DMA read request The DMA read request line is asserted when the channel is enabled and a new data is available in the receive register of the channel. The DMA read request line is deasserted on read completion of the receive register of the ..." "0,1"
bitfld.long 0x00 14. "                   DMAW  ,DMA write request. The DMA write request line is asserted when The channel is enabled and the transmitter register of the channel is empty. The DMA write request line is deasserted on load completion of the transmitter registe..." "0,1"
bitfld.long 0x00 12.--13. "  TRM   ,Transmit/receive modes - . - . - . - ." "Transmit-and-receive_mode,Receive-only_mode,Transmit-only_mode,Reserved"
textline "                          "
bitfld.long 0x00 7.--11. " WL       ,SPI word length - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - ." "Reserved,Reserved,Reserved,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 6. "            EPOL  ,SPIEN polarity - . - ." "0,1"
bitfld.long 0x00 2.--5. "  CLKD  ,Frequency divider for SPICLK (only when the module is a Master SPI device). A programmable clock divider divides the SPI reference clock (CLKSPIREF) with a 4-bit value, and results in a new clock SPICLK available to shift-in and shift-out data..." "1,2,4,8,16,32,64,128,256,512,1024,2048,4096,8192,16384,32768"
textline "                          "
bitfld.long 0x00 1. " POL      ,SPICLK polarity (see, ) - . - ." "0,1"
bitfld.long 0x00 0. "                   PHA   ,SPICLK phase (see, ) - . - ." "0,1"
group.long 0x134++0x3
line.long 0x00 "MCSPI_CHxCTRL_0,This register is dedicated to enable channel x."
hexmask.long.byte 0x00 8.--15. 1. " EXTCLK   ,Clock ratio extension: this field is used to concatenate with MCSPI_CHCONF[CLKD] register for clock ratio only when granularity is one clock cycle (MCSPI_CHCONF[CLKG] set to 1). Then the maximum value reached is 4096 clock divider ratio. - ...."
bitfld.long 0x00 0. "                  EN    ,Channel enable - . - ." "0,1"
rgroup.long 0x130++0x3
line.long 0x00 "MCSPI_CHxSTAT_0,This register provides status information about transmitter and receiver registers of channel x."
bitfld.long 0x00 6. " RXFFF    ,Channel 'i' FIFO receive buffer full status - . - ." "0,1"
bitfld.long 0x00 5. "                   RXFFE ,Channel 'i' FIFO receive buffer empty status - . - ." "0,1"
bitfld.long 0x00 4. "  TXFFF ,Channel 'i' FIFO transmit buffer full status - . - ." "0,1"
textline "                          "
bitfld.long 0x00 3. " TXFFE    ,Channel 'i' FIFO transmit buffer empty status - . - ." "0,1"
bitfld.long 0x00 2. "                   EOT   ,Channel 'i' end of transfer status. The definitions of beginning and end of transfer vary with master versus slave and the transfer format (transmit/receive modes, turbo mode). See dedicated chapters for details. - . - ." "0,1"
bitfld.long 0x00 1. "  TXS   ,Channel 'i' transmitter register status - . - ." "Register_is_full.,Register_is_empty."
textline "                          "
bitfld.long 0x00 0. " RXS      ,Channel 'i' receiver register status - . - ." "Register_is_empty.,Register_is_full."
rgroup.long 0x13C++0x3
line.long 0x00 "MCSPI_RXx_0,This register contains a single SPI word for channel x received through the serial link, whatever SPI word length is."
hexmask.long 0x00 0.--31. 1. " RDATA    ,Channel x received data"
group.long 0x138++0x3
line.long 0x00 "MCSPI_TXx_0,This register contains a single SPI word for channel x to transmit on the serial link, whatever SPI word length is."
hexmask.long 0x00 0.--31. 1. " TDATA    ,Channel x data to transmit"
tree.end
tree "Channel_1"
width 17.
group.long 0x140++0x3
line.long 0x00 "MCSPI_CHxCONF_1,This register is dedicated to the configuration of the channel x"
bitfld.long 0x00 29. " CLKG     ,Clock divider granularity this bit defines the granularity of channel clock divider: power of 2 or one clock cycle granularity. When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divide..." "0,1"
bitfld.long 0x00 28. "                   FFER  ,FIFO enabled for receive: Only one channel can have this bit field set. - . - ." "0,1"
bitfld.long 0x00 27. "  FFEW  ,FIFO enabled for transmit: Only one channel can have this bit field set. - . - ." "0,1"
textline "                          "
bitfld.long 0x00 25.--26. " TCS0     ,Chip-select time control This 2-bit field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock. - . - . - . - ." "0.5_clock_cycle,1.5_clock_cycles,2.5_clock_cycles,3.5_clock_cycles"
bitfld.long 0x00 24. "    SBPOL ,Start-bit polarity - . - ." "0,1"
bitfld.long 0x00 23. "  SBE   ,Start-bit enable for SPI transfer - . - ." "0,1"
textline "                          "
bitfld.long 0x00 21.--22. " SPIENSLV ,Channel 0 only and slave mode only: SPI slave select signal detection. Reserved bits for other cases. - . - . - . - ." "0,1,2,3"
bitfld.long 0x00 20. "                   FORCE ,Manual SPIEN assertion to keep SPIEN active between SPI words (single channel master mode only). - . - ." "0,1"
bitfld.long 0x00 19. "  TURBO ,Turbo mode - . - ." "0,1"
textline "                          "
bitfld.long 0x00 18. " IS       ,Input Select - . - ." "0,1"
bitfld.long 0x00 17. "                   DPE1  ,Transmission enable for data line 1 - . - ." "0,1"
bitfld.long 0x00 16. "  DPE0  ,Transmission Enable for data line 0 - . - ." "0,1"
textline "                          "
bitfld.long 0x00 15. " DMAR     ,DMA read request The DMA read request line is asserted when the channel is enabled and a new data is available in the receive register of the channel. The DMA read request line is deasserted on read completion of the receive register of the ..." "0,1"
bitfld.long 0x00 14. "                   DMAW  ,DMA write request. The DMA write request line is asserted when The channel is enabled and the transmitter register of the channel is empty. The DMA write request line is deasserted on load completion of the transmitter registe..." "0,1"
bitfld.long 0x00 12.--13. "  TRM   ,Transmit/receive modes - . - . - . - ." "Transmit-and-receive_mode,Receive-only_mode,Transmit-only_mode,Reserved"
textline "                          "
bitfld.long 0x00 7.--11. " WL       ,SPI word length - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - ." "Reserved,Reserved,Reserved,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 6. "            EPOL  ,SPIEN polarity - . - ." "0,1"
bitfld.long 0x00 2.--5. "  CLKD  ,Frequency divider for SPICLK (only when the module is a Master SPI device). A programmable clock divider divides the SPI reference clock (CLKSPIREF) with a 4-bit value, and results in a new clock SPICLK available to shift-in and shift-out data..." "1,2,4,8,16,32,64,128,256,512,1024,2048,4096,8192,16384,32768"
textline "                          "
bitfld.long 0x00 1. " POL      ,SPICLK polarity (see, ) - . - ." "0,1"
bitfld.long 0x00 0. "                   PHA   ,SPICLK phase (see, ) - . - ." "0,1"
group.long 0x148++0x3
line.long 0x00 "MCSPI_CHxCTRL_1,This register is dedicated to enable channel x."
hexmask.long.byte 0x00 8.--15. 1. " EXTCLK   ,Clock ratio extension: this field is used to concatenate with MCSPI_CHCONF[CLKD] register for clock ratio only when granularity is one clock cycle (MCSPI_CHCONF[CLKG] set to 1). Then the maximum value reached is 4096 clock divider ratio. - ...."
bitfld.long 0x00 0. "                  EN    ,Channel enable - . - ." "0,1"
rgroup.long 0x144++0x3
line.long 0x00 "MCSPI_CHxSTAT_1,This register provides status information about transmitter and receiver registers of channel x."
bitfld.long 0x00 6. " RXFFF    ,Channel 'i' FIFO receive buffer full status - . - ." "0,1"
bitfld.long 0x00 5. "                   RXFFE ,Channel 'i' FIFO receive buffer empty status - . - ." "0,1"
bitfld.long 0x00 4. "  TXFFF ,Channel 'i' FIFO transmit buffer full status - . - ." "0,1"
textline "                          "
bitfld.long 0x00 3. " TXFFE    ,Channel 'i' FIFO transmit buffer empty status - . - ." "0,1"
bitfld.long 0x00 2. "                   EOT   ,Channel 'i' end of transfer status. The definitions of beginning and end of transfer vary with master versus slave and the transfer format (transmit/receive modes, turbo mode). See dedicated chapters for details. - . - ." "0,1"
bitfld.long 0x00 1. "  TXS   ,Channel 'i' transmitter register status - . - ." "Register_is_full.,Register_is_empty."
textline "                          "
bitfld.long 0x00 0. " RXS      ,Channel 'i' receiver register status - . - ." "Register_is_empty.,Register_is_full."
rgroup.long 0x150++0x3
line.long 0x00 "MCSPI_RXx_1,This register contains a single SPI word for channel x received through the serial link, whatever SPI word length is."
hexmask.long 0x00 0.--31. 1. " RDATA    ,Channel x received data"
group.long 0x14C++0x3
line.long 0x00 "MCSPI_TXx_1,This register contains a single SPI word for channel x to transmit on the serial link, whatever SPI word length is."
hexmask.long 0x00 0.--31. 1. " TDATA    ,Channel x data to transmit"
tree.end
tree "Channel_2"
width 17.
group.long 0x154++0x3
line.long 0x00 "MCSPI_CHxCONF_2,This register is dedicated to the configuration of the channel x"
bitfld.long 0x00 29. " CLKG     ,Clock divider granularity this bit defines the granularity of channel clock divider: power of 2 or one clock cycle granularity. When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divide..." "0,1"
bitfld.long 0x00 28. "                   FFER  ,FIFO enabled for receive: Only one channel can have this bit field set. - . - ." "0,1"
bitfld.long 0x00 27. "  FFEW  ,FIFO enabled for transmit: Only one channel can have this bit field set. - . - ." "0,1"
textline "                          "
bitfld.long 0x00 25.--26. " TCS0     ,Chip-select time control This 2-bit field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock. - . - . - . - ." "0.5_clock_cycle,1.5_clock_cycles,2.5_clock_cycles,3.5_clock_cycles"
bitfld.long 0x00 24. "    SBPOL ,Start-bit polarity - . - ." "0,1"
bitfld.long 0x00 23. "  SBE   ,Start-bit enable for SPI transfer - . - ." "0,1"
textline "                          "
bitfld.long 0x00 21.--22. " SPIENSLV ,Channel 0 only and slave mode only: SPI slave select signal detection. Reserved bits for other cases. - . - . - . - ." "0,1,2,3"
bitfld.long 0x00 20. "                   FORCE ,Manual SPIEN assertion to keep SPIEN active between SPI words (single channel master mode only). - . - ." "0,1"
bitfld.long 0x00 19. "  TURBO ,Turbo mode - . - ." "0,1"
textline "                          "
bitfld.long 0x00 18. " IS       ,Input Select - . - ." "0,1"
bitfld.long 0x00 17. "                   DPE1  ,Transmission enable for data line 1 - . - ." "0,1"
bitfld.long 0x00 16. "  DPE0  ,Transmission Enable for data line 0 - . - ." "0,1"
textline "                          "
bitfld.long 0x00 15. " DMAR     ,DMA read request The DMA read request line is asserted when the channel is enabled and a new data is available in the receive register of the channel. The DMA read request line is deasserted on read completion of the receive register of the ..." "0,1"
bitfld.long 0x00 14. "                   DMAW  ,DMA write request. The DMA write request line is asserted when The channel is enabled and the transmitter register of the channel is empty. The DMA write request line is deasserted on load completion of the transmitter registe..." "0,1"
bitfld.long 0x00 12.--13. "  TRM   ,Transmit/receive modes - . - . - . - ." "Transmit-and-receive_mode,Receive-only_mode,Transmit-only_mode,Reserved"
textline "                          "
bitfld.long 0x00 7.--11. " WL       ,SPI word length - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - ." "Reserved,Reserved,Reserved,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 6. "            EPOL  ,SPIEN polarity - . - ." "0,1"
bitfld.long 0x00 2.--5. "  CLKD  ,Frequency divider for SPICLK (only when the module is a Master SPI device). A programmable clock divider divides the SPI reference clock (CLKSPIREF) with a 4-bit value, and results in a new clock SPICLK available to shift-in and shift-out data..." "1,2,4,8,16,32,64,128,256,512,1024,2048,4096,8192,16384,32768"
textline "                          "
bitfld.long 0x00 1. " POL      ,SPICLK polarity (see, ) - . - ." "0,1"
bitfld.long 0x00 0. "                   PHA   ,SPICLK phase (see, ) - . - ." "0,1"
group.long 0x15C++0x3
line.long 0x00 "MCSPI_CHxCTRL_2,This register is dedicated to enable channel x."
hexmask.long.byte 0x00 8.--15. 1. " EXTCLK   ,Clock ratio extension: this field is used to concatenate with MCSPI_CHCONF[CLKD] register for clock ratio only when granularity is one clock cycle (MCSPI_CHCONF[CLKG] set to 1). Then the maximum value reached is 4096 clock divider ratio. - ...."
bitfld.long 0x00 0. "                  EN    ,Channel enable - . - ." "0,1"
rgroup.long 0x158++0x3
line.long 0x00 "MCSPI_CHxSTAT_2,This register provides status information about transmitter and receiver registers of channel x."
bitfld.long 0x00 6. " RXFFF    ,Channel 'i' FIFO receive buffer full status - . - ." "0,1"
bitfld.long 0x00 5. "                   RXFFE ,Channel 'i' FIFO receive buffer empty status - . - ." "0,1"
bitfld.long 0x00 4. "  TXFFF ,Channel 'i' FIFO transmit buffer full status - . - ." "0,1"
textline "                          "
bitfld.long 0x00 3. " TXFFE    ,Channel 'i' FIFO transmit buffer empty status - . - ." "0,1"
bitfld.long 0x00 2. "                   EOT   ,Channel 'i' end of transfer status. The definitions of beginning and end of transfer vary with master versus slave and the transfer format (transmit/receive modes, turbo mode). See dedicated chapters for details. - . - ." "0,1"
bitfld.long 0x00 1. "  TXS   ,Channel 'i' transmitter register status - . - ." "Register_is_full.,Register_is_empty."
textline "                          "
bitfld.long 0x00 0. " RXS      ,Channel 'i' receiver register status - . - ." "Register_is_empty.,Register_is_full."
rgroup.long 0x164++0x3
line.long 0x00 "MCSPI_RXx_2,This register contains a single SPI word for channel x received through the serial link, whatever SPI word length is."
hexmask.long 0x00 0.--31. 1. " RDATA    ,Channel x received data"
group.long 0x160++0x3
line.long 0x00 "MCSPI_TXx_2,This register contains a single SPI word for channel x to transmit on the serial link, whatever SPI word length is."
hexmask.long 0x00 0.--31. 1. " TDATA    ,Channel x data to transmit"
tree.end
tree "Channel_3"
width 17.
group.long 0x168++0x3
line.long 0x00 "MCSPI_CHxCONF_3,This register is dedicated to the configuration of the channel x"
bitfld.long 0x00 29. " CLKG     ,Clock divider granularity this bit defines the granularity of channel clock divider: power of 2 or one clock cycle granularity. When this bit is set the register MCSPI_CHCTRL[EXTCLK] must be configured to reach a maximum of 4096 clock divide..." "0,1"
bitfld.long 0x00 28. "                   FFER  ,FIFO enabled for receive: Only one channel can have this bit field set. - . - ." "0,1"
bitfld.long 0x00 27. "  FFEW  ,FIFO enabled for transmit: Only one channel can have this bit field set. - . - ." "0,1"
textline "                          "
bitfld.long 0x00 25.--26. " TCS0     ,Chip-select time control This 2-bit field defines the number of interface clock cycles between CS toggling and first or last edge of SPI clock. - . - . - . - ." "0.5_clock_cycle,1.5_clock_cycles,2.5_clock_cycles,3.5_clock_cycles"
bitfld.long 0x00 24. "    SBPOL ,Start-bit polarity - . - ." "0,1"
bitfld.long 0x00 23. "  SBE   ,Start-bit enable for SPI transfer - . - ." "0,1"
textline "                          "
bitfld.long 0x00 21.--22. " SPIENSLV ,Channel 0 only and slave mode only: SPI slave select signal detection. Reserved bits for other cases. - . - . - . - ." "0,1,2,3"
bitfld.long 0x00 20. "                   FORCE ,Manual SPIEN assertion to keep SPIEN active between SPI words (single channel master mode only). - . - ." "0,1"
bitfld.long 0x00 19. "  TURBO ,Turbo mode - . - ." "0,1"
textline "                          "
bitfld.long 0x00 18. " IS       ,Input Select - . - ." "0,1"
bitfld.long 0x00 17. "                   DPE1  ,Transmission enable for data line 1 - . - ." "0,1"
bitfld.long 0x00 16. "  DPE0  ,Transmission Enable for data line 0 - . - ." "0,1"
textline "                          "
bitfld.long 0x00 15. " DMAR     ,DMA read request The DMA read request line is asserted when the channel is enabled and a new data is available in the receive register of the channel. The DMA read request line is deasserted on read completion of the receive register of the ..." "0,1"
bitfld.long 0x00 14. "                   DMAW  ,DMA write request. The DMA write request line is asserted when The channel is enabled and the transmitter register of the channel is empty. The DMA write request line is deasserted on load completion of the transmitter registe..." "0,1"
bitfld.long 0x00 12.--13. "  TRM   ,Transmit/receive modes - . - . - . - ." "Transmit-and-receive_mode,Receive-only_mode,Transmit-only_mode,Reserved"
textline "                          "
bitfld.long 0x00 7.--11. " WL       ,SPI word length - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - ." "Reserved,Reserved,Reserved,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 6. "            EPOL  ,SPIEN polarity - . - ." "0,1"
bitfld.long 0x00 2.--5. "  CLKD  ,Frequency divider for SPICLK (only when the module is a Master SPI device). A programmable clock divider divides the SPI reference clock (CLKSPIREF) with a 4-bit value, and results in a new clock SPICLK available to shift-in and shift-out data..." "1,2,4,8,16,32,64,128,256,512,1024,2048,4096,8192,16384,32768"
textline "                          "
bitfld.long 0x00 1. " POL      ,SPICLK polarity (see, ) - . - ." "0,1"
bitfld.long 0x00 0. "                   PHA   ,SPICLK phase (see, ) - . - ." "0,1"
group.long 0x170++0x3
line.long 0x00 "MCSPI_CHxCTRL_3,This register is dedicated to enable channel x."
hexmask.long.byte 0x00 8.--15. 1. " EXTCLK   ,Clock ratio extension: this field is used to concatenate with MCSPI_CHCONF[CLKD] register for clock ratio only when granularity is one clock cycle (MCSPI_CHCONF[CLKG] set to 1). Then the maximum value reached is 4096 clock divider ratio. - ...."
bitfld.long 0x00 0. "                  EN    ,Channel enable - . - ." "0,1"
rgroup.long 0x16C++0x3
line.long 0x00 "MCSPI_CHxSTAT_3,This register provides status information about transmitter and receiver registers of channel x."
bitfld.long 0x00 6. " RXFFF    ,Channel 'i' FIFO receive buffer full status - . - ." "0,1"
bitfld.long 0x00 5. "                   RXFFE ,Channel 'i' FIFO receive buffer empty status - . - ." "0,1"
bitfld.long 0x00 4. "  TXFFF ,Channel 'i' FIFO transmit buffer full status - . - ." "0,1"
textline "                          "
bitfld.long 0x00 3. " TXFFE    ,Channel 'i' FIFO transmit buffer empty status - . - ." "0,1"
bitfld.long 0x00 2. "                   EOT   ,Channel 'i' end of transfer status. The definitions of beginning and end of transfer vary with master versus slave and the transfer format (transmit/receive modes, turbo mode). See dedicated chapters for details. - . - ." "0,1"
bitfld.long 0x00 1. "  TXS   ,Channel 'i' transmitter register status - . - ." "Register_is_full.,Register_is_empty."
textline "                          "
bitfld.long 0x00 0. " RXS      ,Channel 'i' receiver register status - . - ." "Register_is_empty.,Register_is_full."
rgroup.long 0x178++0x3
line.long 0x00 "MCSPI_RXx_3,This register contains a single SPI word for channel x received through the serial link, whatever SPI word length is."
hexmask.long 0x00 0.--31. 1. " RDATA    ,Channel x received data"
group.long 0x174++0x3
line.long 0x00 "MCSPI_TXx_3,This register contains a single SPI word for channel x to transmit on the serial link, whatever SPI word length is."
hexmask.long 0x00 0.--31. 1. " TDATA    ,Channel x data to transmit"
tree.end
textline ""
width 20.
rgroup.long 0x0++0x3
line.long 0x00 "MCSPI_HL_REV,IP Revision Identifier (X.Y.R) Used by software to track features, bugs, and compatibility"
hexmask.long 0x00 0.--31. 1. " REVISION             ,IP Revision"
rgroup.long 0x4++0x3
line.long 0x00 "MCSPI_HL_HWINFO,Information about the IP module's hardware configuration, that is, typically the module's HDL generics (if any). Actual field format and encoding is up to the module's designer to decide."
hexmask.long 0x00 7.--31. 1. " RSVD                 ,Reserved These bits are initialized to 0, and writes to them are ignored."
bitfld.long 0x00 6. "      RETMODE              ,Retention Mode generic parameter. This bit field indicates whether the retention mode is supported using the pin PIRFFRET. 0x0: Retention mode disabled 0x1: Retention mode enabled" "0,1"
bitfld.long 0x00 1.--5. "                  FFNBYTE             ,FIFO number of byte generic parameter This field defines the value of FFNBYTE generic parameter, only MSB bits from 8 down to 4 are taken into account. - FF16bytes. - FF32bytes. - FF64bytes. - FF128bytes. - FF256b..." "0,FF16bytes,FF32bytes,3,FF64bytes,5,6,7,FF128bytes,9,10,11,12,13,14,15,FF256bytes,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                             "
bitfld.long 0x00 0. " USEFIFO              ,Use of a FIFO enable: This bit indicates if a FIFO is integrated within controller design with its management. - NoFIFO. - FIFOEn." "NoFIFO,FIFOEn"
group.long 0x10++0x3
line.long 0x00 "MCSPI_HL_SYSCONFIG,Clock management configuration"
hexmask.long 0x00 4.--31. 1. " RSVD                 ,"
bitfld.long 0x00 2.--3. "      IDLEMODE             ,Configuration of the local target state management mode. By definition, target can handle read/write transaction as long as it is out of IDLE state. - ForceIdle. - NoIdle. - SmartIdle. - SmartIdleWakeUp." "ForceIdle,NoIdle,SmartIdle,SmartIdleWakeUp"
bitfld.long 0x00 1. "    FREEEMU             ,Sensitivity to emulation (debug) suspend input signal. - EmuEn. - EmuDis." "EmuEn,EmuDis"
textline "                             "
bitfld.long 0x00 0. " SOFTRESET            ,Software reset. (Optional) - ResetDone. - ResetDone. - ResetOnGoing. - ResetOnGoing." "ResetDone,ResetOnGoing"
rgroup.long 0x100++0x3
line.long 0x00 "MCSPI_REVISION,This register contains the revision number."
hexmask.long 0x00 0.--31. 1. " REVISION             ,IP revision"
group.long 0x110++0x3
line.long 0x00 "MCSPI_SYSCONFIG,This register allows controlling various parameters of the OCP interface."
bitfld.long 0x00 8.--9. " CLOCKACTIVITY        ,Clocks activity during wake-up mode period - None. - OCP. - FUNC. - Both." "None,OCP,FUNC,Both"
bitfld.long 0x00 3.--4. "          SIDLEMODE            ,Power management - Force. - No. - Smart. - SMART_IDLE_WAKEUP." "Force,No,Smart,SMART_IDLE_WAKEUP"
bitfld.long 0x00 2. "  ENAWAKEUP           ,Wake-up feature control - NoWakeUp. - On." "NoWakeUp,On"
textline "                             "
bitfld.long 0x00 1. " SOFTRESET            ,Software reset. During reads it always returns 0. - Off. - On." "Off,On"
bitfld.long 0x00 0. "           AUTOIDLE             ,Internal OCP clock-gating strategy - Off. - On." "Off,On"
rgroup.long 0x114++0x3
line.long 0x00 "MCSPI_SYSSTATUS,This register provides status information about the module excluding the interrupt status information."
bitfld.long 0x00 0. " RESETDONE            ,Internal reset monitoring - InProgress. - Completed." "InProgress,Completed"
group.long 0x118++0x3
line.long 0x00 "MCSPI_IRQSTATUS,The interrupt status regroups all the status of the module internal events that can generate an interrupt."
eventfld.long 0x00 17. " EOW                  ,End of word count event when a channel is enabled using the FIFO buffer and the channel had sent the number of SPI word defined byMCSPI_XFERLEVEL[WCNT]. - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 16. "      WKS                  ,Wake-up event in slave mode when an active control signal is detected on the SPIEN line programmed in the field MCSPI_CH0CONF[SPIENSLV] - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 14. "           RX3_FULL            ,Receiver register is full or almost full. Only when Channel 3 is enabled - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
textline "                             "
eventfld.long 0x00 13. " TX3_UNDERFLOW        ,Transmitter register underflow. Only when Channel 3 is enabled. The transmitter register is empty (not updated by host or DMA with new data) before its time slot assignment. Exception: No TX_underflow event when no data has been ..." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 12. "      TX3_EMPTY            ,Transmitter register is empty or almost empty. Note: Enabling the channel automatically rises this event. - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 10. "           RX2_FULL            ,Receiver register full or almost full. Channel 2 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
textline "                             "
eventfld.long 0x00 9. " TX2_UNDERFLOW        ,Transmitter register underflow. Channel 2 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 8. "      TX2_EMPTY            ,Transmitter register empty or almost empty. Channel 2 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 6. "           RX1_FULL            ,Receiver register full or almost full. Channel 1 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
textline "                             "
eventfld.long 0x00 5. " TX1_UNDERFLOW        ,Transmitter register underflow. Channel 1 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 4. "      TX1_EMPTY            ,Transmitter register empty or almost empty. Channel 1 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 3. "           RX0_OVERFLOW        ,Receiver register overflow (slave mode only). Channel 0 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
textline "                             "
eventfld.long 0x00 2. " RX0_FULL             ,Receiver register full or almost full. Channel 0 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 1. "      TX0_UNDERFLOW        ,Transmitter register underflow. Channel 0 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
eventfld.long 0x00 0. "           TX0_EMPTY           ,Transmitter register empty or almost empty. Channel 0 - NoEvnt_r. - NoEvnt_r. - Evnt_r. - Evnt_r." "NoEvnt_r,Evnt_r"
group.long 0x11C++0x3
line.long 0x00 "MCSPI_IRQENABLE,This register allows enabling/disabling of the module internal sources of interrupt, on an event-by-event basis."
bitfld.long 0x00 17. " EOW_ENABLE           ,End of Word count Interrupt Enable. - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 16. "   WKE                  ,Wake-up event interrupt enable in slave mode when an active control signal is detected on the SPIEN line programmed in the MCSPI_CH0CONF[SPIENSLV] bit - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 14. "        RX3_FULL_ENABLE     ,Receiver register Full Interrupt Enable. Channel 3 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
textline "                             "
bitfld.long 0x00 13. " TX3_UNDERFLOW_ENABLE ,Transmitter register Underflow Interrupt Enable. Channel 3 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 12. "   TX3_EMPTY_ENABLE     ,Transmitter register Empty Interrupt Enable. Channel 3 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 10. "        RX2_FULL_ENABLE     ,Receiver register Full Interrupt Enable. Channel 2 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
textline "                             "
bitfld.long 0x00 9. " TX2_UNDERFLOW_ENABLE ,Transmitter register Underflow Interrupt Enable. Channel 2 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 8. "   TX2_EMPTY_ENABLE     ,Transmitter register Empty Interrupt Enable. Channel 2 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 6. "        RX1_FULL_ENABLE     ,Receiver register Full Interrupt Enable. Channel 1 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
textline "                             "
bitfld.long 0x00 5. " TX1_UNDERFLOW_ENABLE ,Transmitter register Underflow Interrupt Enable. Channel 1 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 4. "   TX1_EMPTY_ENABLE     ,Transmitter register Empty Interrupt Enable. Channel 1 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 3. "        RX0_OVERFLOW_ENABLE ,Receiver register Overflow Interrupt Enable. Channel 0 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
textline "                             "
bitfld.long 0x00 2. " RX0_FULL_ENABLE      ,Receiver register Full Interrupt Enable. Channel 0 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 1. "   TX0_UNDERFLOW_ENABLE ,Transmitter register Underflow Interrupt Enable. Channel 0 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
bitfld.long 0x00 0. "        TX0_EMPTY_ENABLE    ,Transmitter register Empty Interrupt Enable. Channel 0 - IrqDisabled. - IrqEnabled." "IrqDisabled,IrqEnabled"
group.long 0x120++0x3
line.long 0x00 "MCSPI_WAKEUPENABLE,The wake-up enable register allows enabling and disabling of the module internal sources of wakeup on event-by-event basis."
bitfld.long 0x00 0. " WKEN                 ,Wake-up functionality in slave mode when an active control signal is detected on the SPIEN line programmed in the MCSPI_CH0CONF[SPIENSLV] bit - NoWakeUp. - WakeUp." "NoWakeUp,WakeUp"
group.long 0x124++0x3
line.long 0x00 "MCSPI_SYST,This register is used to check the correctness of the system interconnect either internally to peripheral bus, or externally to device I/O pads, when the module is configured in system test (SYSTEST) mode."
bitfld.long 0x00 11. " SSB                  ,Set status bit - Off. - SetThemAll." "Off,SetThemAll"
bitfld.long 0x00 10. "    SPIENDIR             ,Set the direction of the SPIEN[3:0] lines and SPICLK line. - Out. - In." "Out,In"
bitfld.long 0x00 9. "                SPIDATDIR1          ,Set the direction of the SPIDAT[1]. - Out. - In." "Out,In"
textline "                             "
bitfld.long 0x00 8. " SPIDATDIR0           ,Set the direction of the SPIDAT[0]. - Out. - In." "Out,In"
bitfld.long 0x00 7. "           WAKD                 ,SWAKEUP output (signal data value of internal signal to system). The signal is driven high or low according to the value written into this bit. - DrivenLow. - DrivenHigh." "DrivenLow,DrivenHigh"
bitfld.long 0x00 6. "         SPICLK              ,SPICLK line (signal data value) If MCSPI_SYST[SPIENDIR] = 1 (input mode direction), this bit returns the value on the CLKSPI line (high or low), and a write into this bit has no effect. If MCSPI_SYST[SPIENDIR] = 0 (output ..." "0,1"
textline "                             "
bitfld.long 0x00 5. " SPIDAT_1             ,SPIDAT[1] line (signal data value) If MCSPI_SYST[SPIDATDIR1] = 0 (output mode direction), the SPIDAT[1] line is driven high or low according to the value written into this bit. If MCSPI_SYST[SPIDATDIR1] = 1 (input mode direction)..." "0,1"
bitfld.long 0x00 4. "             SPIDAT_0             ,SPIDAT[0] line (signal data value) If MCSPI_SYST[SPIDATDIR0] = 0 (output mode direction), the SPIDAT[0] line is driven high or low according to the value written into this bit. If MCSPI_SYST[SPIDATDIR0] = 1 (input mod..." "0,1"
bitfld.long 0x00 3. "                  SPIEN_3             ,SPIEN[3] line (signal data value) If MCSPI_SYST[SPIENDIR] = 0 (output mode direction), the SPIENT[3] line is driven high or low according to the value written into this bit. If MCSPI_SYST[SPIENDIR] = 1 (input mode..." "0,1"
textline "                             "
bitfld.long 0x00 2. " SPIEN_2              ,SPIEN[2] line (signal data value) If MCSPI_SYST[SPIENDIR] = 0 (output mode direction), the SPIENT[2] line is driven high or low according to the value written into this bit. If MCSPI_SYST[SPIENDIR] = 1 (input mode direction), thi..." "0,1"
bitfld.long 0x00 1. "             SPIEN_1              ,SPIEN[1] line (signal data value) If MCSPI_SYST[SPIENDIR] = 0 (output mode direction), the SPIENT[1] line is driven high or low according to the value written into this bit. If MCSPI_SYST[SPIENDIR] = 1 (input mode dir..." "0,1"
bitfld.long 0x00 0. "                  SPIEN_0             ,SPIEN[0] line (signal data value) If MCSPI_SYST[SPIENDIR] = 0 (output mode direction), the SPIENT[0] line is driven high or low according to the value written into this bit. If MCSPI_SYST[SPIENDIR] = 1 (input mode..." "0,1"
group.long 0x128++0x3
line.long 0x00 "MCSPI_MODULCTRL,This register is dedicated to the configuration of the serial peripheral interface."
bitfld.long 0x00 8. " FDAA                 ,FIFO DMA address 256-bit aligned this bit is used when a FIFO is managed by the module and DMA connected to the controller provides only 256-bit aligned address. If this bit is set the enabled channel which uses the FIFO has its ..." "NoShadowReg,ShadowRegen"
bitfld.long 0x00 7. "   MOA                  ,Multiple word OCP access: this bit can only be used when a channel is enabled using a FIFO. It allows the system to perform multiple SPI word access for a single 32-bit OCP word access. This is possible for WL < 16. - No..." "NoMultiAccess,MultiAcces"
bitfld.long 0x00 4.--6. "      INITDLY             ,Initial SPI delay for first transfer: this field is an option only available in SINGLE master mode. The controller waits for a delay to transmit the first SPI word after channel enabled and corresponding TX register filled. T..." "Nodelay,4ClkDly,8ClkDly,16ClkDly,32ClkDly,5,6,7"
textline "                             "
bitfld.long 0x00 3. " SYSTEM_TEST          ,Enables the system test mode - Off. - On." "Off,On"
bitfld.long 0x00 2. "           MS                   ,Master/slave - Master. - Slave." "Master,Slave"
bitfld.long 0x00 1. "             PIN34               ,Pin mode selection: This bit is used in master or slave mode to configure the SPI pin mode (3-pin or 4-pin). If asserted the controller only uses SIMO, SOMI, and SPICLK clock pin for SPI transfers. - 4PinMode. - 3PinMode." "4PinMode,3PinMode"
textline "                             "
bitfld.long 0x00 0. " SINGLE               ,Single channel/Multi Channel (master mode only) - Multi. - Single." "Multi,Single"
group.long 0x17C++0x3
line.long 0x00 "MCSPI_XFERLEVEL,This register provides transfer levels needed while using FIFO buffer during transfer."
hexmask.long.word 0x00 16.--31. 1. " WCNT                 ,SPI word counter. this field holds the programmable value of number of SPI word to be transferred on channel which is using the FIFO buffer. When transfer had started, a read back in this field returns the current SPI word transf..."
hexmask.long.byte 0x00 8.--15. 1. "          AFL                  ,Buffer almost full this field holds the programmable almost full level value used to determine almost full buffer condition. If the user wants an interrupt or a DMA read request to be issued during a receive operation wh..."
hexmask.long.byte 0x00 0.--7. 1. "                 AEL                 ,Buffer almost empty. this field holds the programmable almost empty level value used to determine almost empty buffer condition. If the user wants an interrupt or a DMA write request to be issued during a transmit ..."
group.long 0x180++0x3
line.long 0x00 "MCSPI_DAFTX,This register contains the SPI words to be transmitted on the SPI bus when FIFO is used and DMA address is aligned on 256 bit. This register is an image of one of the registers corresponding to the channel which has its FIFO enabled."
hexmask.long 0x00 0.--31. 1. " DAFTDATA             ,FIFO data to transmit with DMA 256 bit aligned address. - This field is only used when[8] FDAA is set to 0x1 and only one of the enabled channels has the [27] FFEW bit set to 0x1. If these conditions are not met any access to thi..."
rgroup.long 0x1A0++0x3
line.long 0x00 "MCSPI_DAFRX,This register contains the SPI words received from the SPI bus when FIFO is used and DMA address is aligned on 256 bit. This register is an image of one of the registers corresponding to the channel which has its FIFO enabled."
hexmask.long 0x00 0.--31. 1. " DAFRDATA             ,FIFO data received with DMA 256 bit aligned address. - This field is only used when[8] FDAA is set to 0x1 and only one of the enabled channels has the [28] FFER bit set to 0x1. If these conditions are not met any access to this f..."
width 0x0B
tree.end
tree.end
tree.end
tree.open "Quad_Serial_Peripheral_Interface"
tree "QSPI"
base ad:0x4B300000
width 32.
rgroup.long 0x0++0x3
line.long 0x00 "QSPI_PID,Revision register"
hexmask.long 0x00 0.--31. 1. " REVISION     ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "QSPI_SYSCONFIG,"
bitfld.long 0x00 2.--3. " IDLE_MODE    ,Configuration of the local target state management mode. By definition, target can handle read/write transaction as long as it is out of IDLE state. 0x0: Force-idle mode 0x1: No-idle mode 0x2: Smart-idle mode 0x3: Reserved." "0,1,2,3"
group.long 0x20++0x3
line.long 0x00 "QSPI_INTR_STATUS_RAW_SET,This register contains raw interrupt status flags."
bitfld.long 0x00 1. " WIRQ_RAW     ,Word Interrupt Status. Read indicates the raw status.Read:. - . - READ_INACTIVE. - READ_ACTIVE. Write:. - . - READ_INACTIVE. - READ_ACTIVE." "READ_INACTIVE,READ_ACTIVE"
bitfld.long 0x00 0. "            FIRQ_RAW     ,Frame Interrupt Status. Read indicates the raw status.Read:. - . - READ_INACTIVE. - READ_ACTIVE. Write:. - . - . - ." "READ_INACTIVE,READ_ACTIVE"
group.long 0x24++0x3
line.long 0x00 "QSPI_INTR_STATUS_ENABLED_CLEAR,This register contains status flags of the enabled interrupts."
bitfld.long 0x00 1. " WIRQ_ENA     ,Word Interrupt Enabled Status. Read indicates enabled status.Read:. - . - INACTIVE. - ACTIVE. Write:. - . - INACTIVE. - ACTIVE." "INACTIVE,ACTIVE"
bitfld.long 0x00 0. "                 FIRQ_ENA     ,Frame Interrupt Enabled Status. Read indicates enabled status.Read:. - . - INACTIVE. - ACTIVE. Write:. - . - INACTIVE. - ACTIVE." "INACTIVE,ACTIVE"
group.long 0x28++0x3
line.long 0x00 "QSPI_INTR_ENABLE_SET_REG,This register enables the interrupts."
bitfld.long 0x00 1. " WIRQ_ENA_SET ,Word interrupt enable.Read:. - . - Disabled. - Enabled. Write:. - . - . - ." "Disabled,Enabled"
bitfld.long 0x00 0. "                 FIRQ_ENA_SET ,Frame interrupt enable.Read:. - . - Disabled. - Enabled. Write:. - . - . - ." "Disabled,Enabled"
group.long 0x2C++0x3
line.long 0x00 "QSPI_INTR_ENABLE_CLEAR_REG,This register disables the interrupts."
bitfld.long 0x00 1. " WIRQ_ENA_CLR ,Word interrupt disable.Read:. - . - Disabled. - Enabled. Write:. - . - . - ." "Disabled,Enabled"
bitfld.long 0x00 0. "                 FIRQ_ENA_CLR ,Frame interrupt disable.Read:. - . - Disabled. - Enabled. Write:. - . - . - ." "Disabled,Enabled"
group.long 0x30++0x3
line.long 0x00 "QSPI_INTC_EOI_REG,Software End-Of-Interrupt: Allows the generation of further pulses on the interrupt line, if a new interrupt event is pending, when using the pulsed output. Unused when using the level interrupt line (depending on module integration)."
hexmask.long 0x00 0.--31. 1. " EOI_VECTOR   ,Number associated with the interrupt outputs. There is one interrupt output. Write 0x0 after servicing the interrupt to be able to generate another interrupt if pulse interrupts are used. Any other write value is ignored."
group.long 0x40++0x3
line.long 0x00 "QSPI_SPI_CLOCK_CNTRL_REG,This register controls the external SPI clock generation. This register can only be written when the QSPI module is not busy, as identified by the[0] BUSY bit."
bitfld.long 0x00 31. " CLKEN        ,External SPI clock (qspi1_sclk) enable. - DCLOCK_OFF. - DCLOCK_ON." "DCLOCK_OFF,DCLOCK_ON"
hexmask.long.word 0x00 0.--15. 1. "               DCLK_DIV     ,Divide ratio for the external SPI clock (qspi1_sclk)"
group.long 0x44++0x3
line.long 0x00 "QSPI_SPI_DC_REG,This register controls the different modes for each output chip select. This register can only be written when the QSPI module is not busy, as identified by the[0] BUSY bit."
bitfld.long 0x00 27.--28. " DD3          ,Data delay for chip select 3 0x0: Data is output on the same cycle as the qspi1_cs[3] goes active 0x1: Data is output 1 qspi1_sclk cycle after the qspi1_cs[3] goes active 0x2: Data is output 2 qspi1_sclk cycles after the qspi1_cs[3] goes..." "0,1,2,3"
bitfld.long 0x00 26. "                        CKPH3        ,Clock phase for chip select 3. If CKP3 = 0: 0x0: Data shifted out on falling edge; input on 0x1: Data shifted out on rising edge; input on If CKP3 = 1: 0x0: Data shifted out on rising edge; input on 0x1: Data shift..." "0,1"
bitfld.long 0x00 25. "                            CSP3      ,Chip select polarity for chip select 3. - ACTIVE_LOW. - ACTIVE_HIGH." "ACTIVE_LOW,ACTIVE_HIGH"
textline "                                         "
bitfld.long 0x00 24. " CKP3         ,Clock polarity for chip select 3. - NO_DATA_DCLK_0. - NO_DATA_DCLK_1." "NO_DATA_DCLK_0,NO_DATA_DCLK_1"
bitfld.long 0x00 19.--20. "           DD2          ,Data delay for chip select 2 0x0: Data is output on the same cycle as the qspi1_cs[2] goes active 0x1: Data is output 1 qspi1_sclk cycle after the qspi1_cs[2] goes active 0x2: Data is output 2 qspi1_sclk cycles after the qspi1_..." "0,1,2,3"
bitfld.long 0x00 18. "                            CKPH2     ,Clock phase for chip select 2. If CKP2 = 0: 0x0: Data shifted out on falling edge; input on 0x1: Data shifted out on rising edge; input on If CKP2 = 1: 0x0: Data shifted out on rising edge; input on 0x1: Data shif..." "0,1"
textline "                                         "
bitfld.long 0x00 17. " CSP2         ,Chip select polarity for chip select 2. - ACTIVE_LOW. - ACTIVE_HIGH." "ACTIVE_LOW,ACTIVE_HIGH"
bitfld.long 0x00 16. "              CKP2         ,Clock polarity for chip select 2. - NO_DATA_DCLK_0. - NO_DATA_DCLK_1." "NO_DATA_DCLK_0,NO_DATA_DCLK_1"
bitfld.long 0x00 11.--12. "               DD1       ,Data delay for chip select 1 0x0: Data is output on the same cycle as the qspi1_cs[1] goes active 0x1: Data is output 1 qspi1_sclk cycle after the qspi1_cs[1] goes active 0x2: Data is output 2 qspi1_sclk cycles after the qspi1..." "0,1,2,3"
textline "                                         "
bitfld.long 0x00 10. " CKPH1        ,Clock phase for chip select 1. If CKP1 = 0: 0x0: Data shifted out on falling edge; input on 0x1: Data shifted out on rising edge; input on If CKP1 = 1: 0x0: Data shifted out on rising edge; input on 0x1: Data shifted out on falling edge;..." "0,1"
bitfld.long 0x00 9. "                        CSP1         ,Chip select polarity for chip select 1. - ACTIVE_LOW. - ACTIVE_HIGH." "ACTIVE_LOW,ACTIVE_HIGH"
bitfld.long 0x00 8. "                  CKP1      ,Clock polarity for chip select 1. - NO_DATA_DCLK_0. - NO_DATA_DCLK_1." "NO_DATA_DCLK_0,NO_DATA_DCLK_1"
textline "                                         "
bitfld.long 0x00 3.--4. " DD0          ,Data delay for chip select 0 0x0: Data is output on the same cycle as the qspi1_cs[0] goes active 0x1: Data is output 1 qspi1_sclk cycle after the qspi1_cs[0] goes active 0x2: Data is output 2 qspi1_sclk cycles after the qspi1_cs[0] goes..." "0,1,2,3"
bitfld.long 0x00 2. "                        CKPH0        ,Clock phase for chip select 0. If CKP0 = 0: 0x0: Data shifted out on falling edge; input on 0x1: Data shifted out on rising edge; input on If CKP0 = 1: 0x0: Data shifted out on rising edge; input on 0x1: Data shift..." "0,1"
bitfld.long 0x00 1. "                            CSP0      ,Chip select polarity for chip select 0. - ACTIVE_LOW. - ACTIVE_HIGH." "ACTIVE_LOW,ACTIVE_HIGH"
textline "                                         "
bitfld.long 0x00 0. " CKP0         ,Clock polarity for chip select 0. - NO_DATA_DCLK_0. - NO_DATA_DCLK_1." "NO_DATA_DCLK_0,NO_DATA_DCLK_1"
group.long 0x48++0x3
line.long 0x00 "QSPI_SPI_CMD_REG,This register sets up the SPI command. This register can only be written when the QSPI module is not busy, as identified by the[0] BUSY bit."
bitfld.long 0x00 28.--29. " CSNUM        ,Device select. Sets the active chip select for the current transfer. 0x0: Chip Select 0 active 0x1: Chip Select 1 active 0x2: Chip Select 2 active 0x3: Chip Select 3 active" "0,1,2,3"
hexmask.long.byte 0x00 19.--25. 1. "                        WLEN         ,Word length. Sets the size of the individual transfers from 1 to 128 bits. When a word length greater than 32 bits is configured, not only the 0x0: 1 bit 0x1: 2 bits ... 0x7F: 128 bits"
bitfld.long 0x00 16.--18. "                           CMD       ,Transfer command. 0x0: Reserved 0x1: 4-pin Read Single 0x2: 4-pin Write Single 0x3: 4-pin Read Dual 0x4: Reserved 0x5: 3-pin Read Single 0x6: 3-pin Write Single 0x7: 6-pin Read Quad" "0,1,2,3,4,5,6,7"
textline "                                         "
bitfld.long 0x00 15. " FIRQ         ,Frame complete interrupt enable. - FRAME_COUNT_IRQ_DISABLE. - FRAME_COUNT_IRQ_ENABLE." "FRAME_COUNT_IRQ_DISABLE,FRAME_COUNT_IRQ_ENABLE"
bitfld.long 0x00 14. "  WIRQ         ,Word complete interrupt enable - WORD_COUNT_IRQ_DISABLE. - WORD_COUNT_IRQ_ENABLE." "WORD_COUNT_IRQ_DISABLE,WORD_COUNT_IRQ_ENABLE"
hexmask.long.word 0x00 0.--11. 1. "       FLEN      ,Frame Length. 0x0: 1 word 0x1: 2 words ... 0xFFF: 4096 words"
rgroup.long 0x4C++0x3
line.long 0x00 "QSPI_SPI_STATUS_REG,This register contains indicators to allow the user to monitor the progression of a frame transfer. This register can only be written when the QSPI module is not busy, as identified by the[0] BUSY bit."
hexmask.long.word 0x00 16.--27. 1. " WDCNT        ,Word count. This field will reflect the 1-4096 words transferred"
bitfld.long 0x00 2. "                     FC           ,Frame complete. This bit is set after the transmision of all the requested words completes. This bit is reset whenQSPI_SPI_STATUS_REG register is read. - FRAME_TRANSFER_NOT_COMPLETE. - FRAME_TRANSFER_COMPLETE." "FRAME_TRANSFER_NOT_COMPLETE,FRAME_TRANSFER_COMPLETE"
bitfld.long 0x00 1. "  WC        ,Word complete. This bit is set after each word transfer completes. This bit is reset whenQSPI_SPI_STATUS_REG register is read. - WORD_TRANSFER_NOT_COMPLETE. - WORD_TRANSFER_COMPLETE." "WORD_TRANSFER_NOT_COMPLETE,WORD_TRANSFER_COMPLETE"
textline "                                         "
bitfld.long 0x00 0. " BUSY         ,Busy bit. Active transfer in progress. This bit is only set during an active word transfer. Between words it is cleared. - IDLE. - BUSY." "IDLE,BUSY"
group.long 0x50++0x3
line.long 0x00 "QSPI_SPI_DATA_REG,The data received in this register is shifted to the LSB position and the content of the register is shifted to the left. This register acts as the first 32-bit register of the 128-bit shift in/out register. This register is cleared b..."
hexmask.long 0x00 0.--31. 1. " DATA         ,Data register for read and write operations"
group.long 0x54++0x3
line.long 0x00 "QSPI_SPI_SETUP0_REG,This register contains the read/write command setup for the memory mapped protocol translator (effecting chip select 0 output). By default (reset), the device uses a write command of 2, read command of 3 and address bytes number of ..."
bitfld.long 0x00 24.--28. " NUM_D_BITS   ,Number of dummy bits to use if NUM_D_BYTES = 0x0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.byte 0x00 16.--23. 1. "                       WCMD         ,Write command"
bitfld.long 0x00 12.--13. "                           READ_TYPE ,Determines if the read command is a single, dual or quad read mode command. 0x0: Normal read (all data input on qspi1_d[1]) 0x1: Dual read (odd bytes input on qspi1_d[1]; even bytes on qspi1_d[0]) 0x2: Normal read ..." "0,1,2,3"
textline "                                         "
bitfld.long 0x00 10.--11. " NUM_D_BYTES  ,Number of dummy bytes to be used for fast read. 0x0: No dummy bytes required. Use the value in NUM_D_BITS 0x1: Use 8 bits 0x2: Use 16 bits 0x3: Use 24 bits" "0,1,2,3"
bitfld.long 0x00 8.--9. "                        NUM_A_BYTES  ,Number of address bytes to be sent. 0x0: 1 byte 0x1: 2 bytes 0x2: 3 bytes 0x3: 4 bytes" "0,1,2,3"
hexmask.long.byte 0x00 0.--7. 1. "                            RCMD      ,Read Command"
group.long 0x58++0x3
line.long 0x00 "QSPI_SPI_SETUP1_REG,This register contains the read/write command setup for the memory mapped protocol translator (effecting chip select 1 output). By default (reset), the device uses a write command of 2, read command of 3 and address bytes number of ..."
bitfld.long 0x00 24.--28. " NUM_D_BITS   ,Number of dummy bits to use if NUM_D_BYTES = 0x0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.byte 0x00 16.--23. 1. "                       WCMD         ,Write command"
bitfld.long 0x00 12.--13. "                           READ_TYPE ,Determines if the read command is a single, dual or quad read mode command. 0x0: Normal read (all data input on qspi1_d[1]) 0x1: Dual read (odd bytes input on qspi1_d[1]; even bytes on qspi1_d[0]) 0x2: Normal read ..." "0,1,2,3"
textline "                                         "
bitfld.long 0x00 10.--11. " NUM_D_BYTES  ,Number of dummy bytes to be used for fast read. 0x0: No dummy bytes required. Use the value in NUM_D_BITS 0x1: Use 8 bits 0x2: Use 16 bits 0x3: Use 24 bits" "0,1,2,3"
bitfld.long 0x00 8.--9. "                        NUM_A_BYTES  ,Number of address bytes to be sent. 0x0: 1 byte 0x1: 2 bytes 0x2: 3 bytes 0x3: 4 bytes" "0,1,2,3"
hexmask.long.byte 0x00 0.--7. 1. "                            RCMD      ,Read Command"
group.long 0x5C++0x3
line.long 0x00 "QSPI_SPI_SETUP2_REG,This register contains the read/write command setup for the memory mapped protocol translator (effecting chip select 2 output). By default (reset), the device uses a write command of 2, read command of 3 and address bytes number of ..."
bitfld.long 0x00 24.--28. " NUM_D_BITS   ,Number of dummy bits to use if NUM_D_BYTES = 0x0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.byte 0x00 16.--23. 1. "                       WCMD         ,Write command"
bitfld.long 0x00 12.--13. "                           READ_TYPE ,Determines if the read command is a single, dual or quad read mode command. 0x0: Normal read (all data input on qspi1_d[1]) 0x1: Dual read (odd bytes input on qspi1_d[1]; even bytes on qspi1_d[0]) 0x2: Normal read ..." "0,1,2,3"
textline "                                         "
bitfld.long 0x00 10.--11. " NUM_D_BYTES  ,Number of dummy bytes to be used for fast read. 0x0: No dummy bytes required. Use the value in NUM_D_BITS 0x1: Use 8 bits 0x2: Use 16 bits 0x3: Use 24 bits" "0,1,2,3"
bitfld.long 0x00 8.--9. "                        NUM_A_BYTES  ,Number of address bytes to be sent. 0x0: 1 byte 0x1: 2 bytes 0x2: 3 bytes 0x3: 4 bytes" "0,1,2,3"
hexmask.long.byte 0x00 0.--7. 1. "                            RCMD      ,Read Command"
group.long 0x60++0x3
line.long 0x00 "QSPI_SPI_SETUP3_REG,This register contains the read/write command setup for the memory mapped protocol translator (effecting chip select 3 output). By default (reset), the device uses a write command of 2, read command of 3 and address bytes number of ..."
bitfld.long 0x00 24.--28. " NUM_D_BITS   ,Number of dummy bits to use if NUM_D_BYTES = 0x0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.byte 0x00 16.--23. 1. "                       WCMD         ,Write command"
bitfld.long 0x00 12.--13. "                           READ_TYPE ,Determines if the read command is a single, dual or quad read mode command. 0x0: Normal read (all data input on qspi1_d[1]) 0x1: Dual read (odd bytes input on qspi1_d[1]; even bytes on qspi1_d[0]) 0x2: Normal read ..." "0,1,2,3"
textline "                                         "
bitfld.long 0x00 10.--11. " NUM_D_BYTES  ,Number of dummy bytes to be used for fast read. 0x0: No dummy bytes required. Use the value in NUM_D_BITS 0x1: Use 8 bits 0x2: Use 16 bits 0x3: Use 24 bits" "0,1,2,3"
bitfld.long 0x00 8.--9. "                        NUM_A_BYTES  ,Number of address bytes to be sent. 0x0: 1 byte 0x1: 2 bytes 0x2: 3 bytes 0x3: 4 bytes" "0,1,2,3"
hexmask.long.byte 0x00 0.--7. 1. "                            RCMD      ,Read Command"
group.long 0x64++0x3
line.long 0x00 "QSPI_SPI_SWITCH_REG,This register allows initiators to switch control of the SPI core port between the configuration port and the SFI translator. In addition, an interrupt enable field is defined which is used to enable or disable word complete interru..."
bitfld.long 0x00 1. " MM_INT_EN    ,Memory mapped mode interrupt enable. - MM_MODE_INTR_DISABLED. - MM_MODE_INTR_ENABLED." "MM_MODE_INTR_DISABLED,MM_MODE_INTR_ENABLED"
bitfld.long 0x00 0. "    MMPT_S       ,MPT select. - SEL_CFG_PORT. - SEL_MM_PORT." "SEL_CFG_PORT,SEL_MM_PORT"
group.long 0x68++0x3
line.long 0x00 "QSPI_SPI_DATA_REG_1,The data received in this register is shifted to the LSB position and the content of the register is shifted to the left. This register acts as the second 32-bit register of the 128-bit shift in/out register. This register is cleare..."
hexmask.long 0x00 0.--31. 1. " DATA         ,Data register for read and write operations"
group.long 0x6C++0x3
line.long 0x00 "QSPI_SPI_DATA_REG_2,The data received in this register is shifted to the LSB position and the content of the register is shifted to the left. This register acts as the third 32-bit register of the 128-bit shift in/out register. This register is cleared..."
hexmask.long 0x00 0.--31. 1. " DATA         ,Data register for read and write operations"
group.long 0x70++0x3
line.long 0x00 "QSPI_SPI_DATA_REG_3,The data received in this register is shifted to the LSB position and the content of the register is shifted to the left. This register acts as the fourth 32-bit register of the 128-bit shift in/out register. This register is cleare..."
hexmask.long 0x00 0.--31. 1. " DATA         ,Data register for read and write operations"
width 0x0B
tree.end
tree.end
tree.open "Multichannel_Audio_Serial_Port"
tree "MCASP1_CFG"
base ad:0x48460000
tree "Channel_0"
width 18.
group.long 0x100++0x3
line.long 0x00 "MCASP_DITCSRAi_0,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x118++0x3
line.long 0x00 "MCASP_DITCSRBi_0,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x130++0x3
line.long 0x00 "MCASP_DITUDRAi_0,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x148++0x3
line.long 0x00 "MCASP_DITUDRBi_0,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
group.long 0x280++0x3
line.long 0x00 "MCASP_RXBUFn_0,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn    ,Receive Buffer n"
group.long 0x200++0x3
line.long 0x00 "MCASP_TXBUFn_0,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn    ,Transmit buffer n"
group.long 0x180++0x3
line.long 0x00 "MCASP_XRSRCTLn_0,Serializer n control register."
bitfld.long 0x00 5. " RRDY     ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                           "
bitfld.long 0x00 0.--1. " SRMOD    ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_1"
width 18.
group.long 0x104++0x3
line.long 0x00 "MCASP_DITCSRAi_1,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x11C++0x3
line.long 0x00 "MCASP_DITCSRBi_1,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x134++0x3
line.long 0x00 "MCASP_DITUDRAi_1,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x14C++0x3
line.long 0x00 "MCASP_DITUDRBi_1,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
group.long 0x284++0x3
line.long 0x00 "MCASP_RXBUFn_1,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn    ,Receive Buffer n"
group.long 0x204++0x3
line.long 0x00 "MCASP_TXBUFn_1,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn    ,Transmit buffer n"
group.long 0x184++0x3
line.long 0x00 "MCASP_XRSRCTLn_1,Serializer n control register."
bitfld.long 0x00 5. " RRDY     ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                           "
bitfld.long 0x00 0.--1. " SRMOD    ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_2"
width 18.
group.long 0x108++0x3
line.long 0x00 "MCASP_DITCSRAi_2,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x120++0x3
line.long 0x00 "MCASP_DITCSRBi_2,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x138++0x3
line.long 0x00 "MCASP_DITUDRAi_2,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x150++0x3
line.long 0x00 "MCASP_DITUDRBi_2,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
group.long 0x288++0x3
line.long 0x00 "MCASP_RXBUFn_2,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn    ,Receive Buffer n"
group.long 0x208++0x3
line.long 0x00 "MCASP_TXBUFn_2,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn    ,Transmit buffer n"
group.long 0x188++0x3
line.long 0x00 "MCASP_XRSRCTLn_2,Serializer n control register."
bitfld.long 0x00 5. " RRDY     ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                           "
bitfld.long 0x00 0.--1. " SRMOD    ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_3"
width 18.
group.long 0x10C++0x3
line.long 0x00 "MCASP_DITCSRAi_3,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x124++0x3
line.long 0x00 "MCASP_DITCSRBi_3,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x13C++0x3
line.long 0x00 "MCASP_DITUDRAi_3,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x154++0x3
line.long 0x00 "MCASP_DITUDRBi_3,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
group.long 0x28C++0x3
line.long 0x00 "MCASP_RXBUFn_3,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn    ,Receive Buffer n"
group.long 0x20C++0x3
line.long 0x00 "MCASP_TXBUFn_3,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn    ,Transmit buffer n"
group.long 0x18C++0x3
line.long 0x00 "MCASP_XRSRCTLn_3,Serializer n control register."
bitfld.long 0x00 5. " RRDY     ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                           "
bitfld.long 0x00 0.--1. " SRMOD    ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_4"
width 18.
group.long 0x110++0x3
line.long 0x00 "MCASP_DITCSRAi_4,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x128++0x3
line.long 0x00 "MCASP_DITCSRBi_4,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x140++0x3
line.long 0x00 "MCASP_DITUDRAi_4,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x158++0x3
line.long 0x00 "MCASP_DITUDRBi_4,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
group.long 0x290++0x3
line.long 0x00 "MCASP_RXBUFn_4,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn    ,Receive Buffer n"
group.long 0x210++0x3
line.long 0x00 "MCASP_TXBUFn_4,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn    ,Transmit buffer n"
group.long 0x190++0x3
line.long 0x00 "MCASP_XRSRCTLn_4,Serializer n control register."
bitfld.long 0x00 5. " RRDY     ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                           "
bitfld.long 0x00 0.--1. " SRMOD    ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_5"
width 18.
group.long 0x114++0x3
line.long 0x00 "MCASP_DITCSRAi_5,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x12C++0x3
line.long 0x00 "MCASP_DITCSRBi_5,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x144++0x3
line.long 0x00 "MCASP_DITUDRAi_5,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x15C++0x3
line.long 0x00 "MCASP_DITUDRBi_5,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
group.long 0x294++0x3
line.long 0x00 "MCASP_RXBUFn_5,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn    ,Receive Buffer n"
group.long 0x214++0x3
line.long 0x00 "MCASP_TXBUFn_5,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn    ,Transmit buffer n"
group.long 0x194++0x3
line.long 0x00 "MCASP_XRSRCTLn_5,Serializer n control register."
bitfld.long 0x00 5. " RRDY     ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                           "
bitfld.long 0x00 0.--1. " SRMOD    ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_6"
width 18.
group.long 0x298++0x3
line.long 0x00 "MCASP_RXBUFn_6,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn ,Receive Buffer n"
group.long 0x218++0x3
line.long 0x00 "MCASP_TXBUFn_6,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn ,Transmit buffer n"
group.long 0x198++0x3
line.long 0x00 "MCASP_XRSRCTLn_6,Serializer n control register."
bitfld.long 0x00 5. " RRDY  ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn to..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                           "
bitfld.long 0x00 0.--1. " SRMOD ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_7"
width 18.
group.long 0x29C++0x3
line.long 0x00 "MCASP_RXBUFn_7,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn ,Receive Buffer n"
group.long 0x21C++0x3
line.long 0x00 "MCASP_TXBUFn_7,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn ,Transmit buffer n"
group.long 0x19C++0x3
line.long 0x00 "MCASP_XRSRCTLn_7,Serializer n control register."
bitfld.long 0x00 5. " RRDY  ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn to..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                           "
bitfld.long 0x00 0.--1. " SRMOD ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_8"
width 18.
group.long 0x2A0++0x3
line.long 0x00 "MCASP_RXBUFn_8,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn ,Receive Buffer n"
group.long 0x220++0x3
line.long 0x00 "MCASP_TXBUFn_8,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn ,Transmit buffer n"
group.long 0x1A0++0x3
line.long 0x00 "MCASP_XRSRCTLn_8,Serializer n control register."
bitfld.long 0x00 5. " RRDY  ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn to..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                           "
bitfld.long 0x00 0.--1. " SRMOD ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_9"
width 18.
group.long 0x2A4++0x3
line.long 0x00 "MCASP_RXBUFn_9,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn ,Receive Buffer n"
group.long 0x224++0x3
line.long 0x00 "MCASP_TXBUFn_9,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn ,Transmit buffer n"
group.long 0x1A4++0x3
line.long 0x00 "MCASP_XRSRCTLn_9,Serializer n control register."
bitfld.long 0x00 5. " RRDY  ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn to..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                           "
bitfld.long 0x00 0.--1. " SRMOD ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_10"
width 19.
group.long 0x2A8++0x3
line.long 0x00 "MCASP_RXBUFn_10,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn ,Receive Buffer n"
group.long 0x228++0x3
line.long 0x00 "MCASP_TXBUFn_10,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn ,Transmit buffer n"
group.long 0x1A8++0x3
line.long 0x00 "MCASP_XRSRCTLn_10,Serializer n control register."
bitfld.long 0x00 5. " RRDY  ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn to..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                            "
bitfld.long 0x00 0.--1. " SRMOD ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_11"
width 19.
group.long 0x2AC++0x3
line.long 0x00 "MCASP_RXBUFn_11,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn ,Receive Buffer n"
group.long 0x22C++0x3
line.long 0x00 "MCASP_TXBUFn_11,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn ,Transmit buffer n"
group.long 0x1AC++0x3
line.long 0x00 "MCASP_XRSRCTLn_11,Serializer n control register."
bitfld.long 0x00 5. " RRDY  ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn to..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                            "
bitfld.long 0x00 0.--1. " SRMOD ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_12"
width 19.
group.long 0x2B0++0x3
line.long 0x00 "MCASP_RXBUFn_12,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn ,Receive Buffer n"
group.long 0x230++0x3
line.long 0x00 "MCASP_TXBUFn_12,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn ,Transmit buffer n"
group.long 0x1B0++0x3
line.long 0x00 "MCASP_XRSRCTLn_12,Serializer n control register."
bitfld.long 0x00 5. " RRDY  ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn to..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                            "
bitfld.long 0x00 0.--1. " SRMOD ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_13"
width 19.
group.long 0x2B4++0x3
line.long 0x00 "MCASP_RXBUFn_13,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn ,Receive Buffer n"
group.long 0x234++0x3
line.long 0x00 "MCASP_TXBUFn_13,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn ,Transmit buffer n"
group.long 0x1B4++0x3
line.long 0x00 "MCASP_XRSRCTLn_13,Serializer n control register."
bitfld.long 0x00 5. " RRDY  ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn to..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                            "
bitfld.long 0x00 0.--1. " SRMOD ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_14"
width 19.
group.long 0x2B8++0x3
line.long 0x00 "MCASP_RXBUFn_14,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn ,Receive Buffer n"
group.long 0x238++0x3
line.long 0x00 "MCASP_TXBUFn_14,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn ,Transmit buffer n"
group.long 0x1B8++0x3
line.long 0x00 "MCASP_XRSRCTLn_14,Serializer n control register."
bitfld.long 0x00 5. " RRDY  ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn to..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                            "
bitfld.long 0x00 0.--1. " SRMOD ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_15"
width 19.
group.long 0x2BC++0x3
line.long 0x00 "MCASP_RXBUFn_15,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn ,Receive Buffer n"
group.long 0x23C++0x3
line.long 0x00 "MCASP_TXBUFn_15,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn ,Transmit buffer n"
group.long 0x1BC++0x3
line.long 0x00 "MCASP_XRSRCTLn_15,Serializer n control register."
bitfld.long 0x00 5. " RRDY  ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn to..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                            "
bitfld.long 0x00 0.--1. " SRMOD ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
textline ""
width 18.
rgroup.long 0x0++0x3
line.long 0x00 "MCASP_PID,Peripheral identification register"
bitfld.long 0x00 30.--31. " SCHEME      ,Scheme. Distinguishes between old scheme and current." "0,1,2,3"
bitfld.long 0x00 28.--29. "            RESV      ,Reserved." "0,1,2,3"
hexmask.long.word 0x00 16.--27. 1. "            FUNCTION ,MCASP. Indicates a software-compatible module family."
textline "                           "
bitfld.long 0x00 11.--15. " RTL         ,RTL version." "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 8.--10. "   REVMAJOR  ,Major revision number." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6.--7. "            CUSTOM   ,Non-custom. Indicates a special version for a given device." "0,1,2,3"
textline "                           "
bitfld.long 0x00 0.--5. " REVMINOR    ,Minor revision number." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x4++0x3
line.long 0x00 "PWRIDLESYSCONFIG,Power idle module configuration register."
bitfld.long 0x00 2.--5. " OTHER       ,Reserved for future expansion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--1. "           IDLE_MODE ,0x0: Force-idle mode 0x1: No-idle mode 0x2: Smart-idle mode - default state 0x3: Reserved" "0,1,2,3"
group.long 0x10++0x3
line.long 0x00 "MCASP_PFUNC,Specifies the function of the pins as either a MCASP pin or a GPIO pin"
bitfld.long 0x00 31. " AFSR        ,Determines if AFSR pin (device level MCASPi_fsr signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 29. "        ACLKR     ,Determines if ACLKR pin (device level MCASPi_aclkr signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 28. "        AFSX     ,Determines if AFSX pin (device level MCASPi_fsx signal) functions as MCASP or GPIO. - GPIO. - ." "GPIO,GPIO"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Determines if AHCLKX pin (device level MCASPi_ahclkx signal) functions as MCASP or GPIO. - GPIO. - ." "GPIO,GPIO"
bitfld.long 0x00 26. "         ACLKX     ,Determines if ACLKX pin (device level MCASPi_aclkx signal) functions as MCASP or GPIO. - GPIO. - ." "GPIO,GPIO"
bitfld.long 0x00 15. "         AXR15    ,Determines if AXR15 pin (device level MCASPx_axr[15] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Determines if AXR14 pin (device level MCASPx_axr[14] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 13. "        AXR13     ,Determines if AXR13 pin (device level MCASPx_axr[13] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 12. "        AXR12    ,Determines if AXR12 pin (device level MCASPx_axr[12] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Determines if AXR11 pin (device level MCASPx_axr[11] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 10. "        AXR10     ,Determines if AXR10 pin (device level MCASPx_axr[10] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 9. "        AXR9     ,Determines if AXR9 pin (device level MCASPx_axr[9] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Determines if AXR8 pin (device level MCASPx_axr[8] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 7. "        AXR7      ,Determines if AXR7 pin (device level MCASPx_axr[7] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 6. "        AXR6     ,Determines if AXR6 pin (device level MCASPx_axr[6] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Determines if AXR5 pin (device level MCASPx_axr[5] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 4. "        AXR4      ,Determines if AXR4 pin (device level MCASPx_axr[4] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 3. "        AXR3     ,Determines if AXR3 pin (device level MCASPi_axr[3] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Determines if AXR2 pin (device level MCASPi_axr[2] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 1. "        AXR1      ,Determines if AXR1 pin (device level MCASPi_axr[1] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 0. "        AXR0     ,Determines if AXR0 pin (device level MCASPi_axr[0] signal) functions as MCASP or GPIO. - GPIO. - ." "GPIO,GPIO"
group.long 0x14++0x3
line.long 0x00 "MCASP_PDIR,Pin direction register - specifies the direction of the MCASP pins as either an input or an output pin."
bitfld.long 0x00 31. " AFSR        ,Determines if AFSR pin (device level MCASPi_fsr signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 29. "       ACLKR     ,Determines if ACLKR pin (device level MCASPi_aclkr signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 28. "       AFSX     ,Determines if AFSX pin (device level MCASPi_fsx signal) functions as an input or output. - OUTPUT. - ." "OUTPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Determines if AHCLKX pin (device level MCASPi_ahclkx signal) functions as an input or output. - OUTPUT. - ." "OUTPUT,OUTPUT"
bitfld.long 0x00 26. "       ACLKX     ,Determines if ACLKX pin (device level MCASPi_aclkx signal) functions as an input or output. - OUTPUT. - ." "OUTPUT,OUTPUT"
bitfld.long 0x00 15. "       AXR15    ,Determines if AXR15 pin (device level MCASPi_axr[15] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Determines if AXR14 pin (device level MCASPi_axr[14] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 13. "       AXR13     ,Determines if AXR13 pin (device level MCASPi_axr[13] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 12. "       AXR12    ,Determines if AXR12 pin (device level MCASPi_axr[12] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Determines if AXR11 pin (device level MCASPi_axr[11] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 10. "       AXR10     ,Determines if AXR10 pin (device level MCASPi_axr[10] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 9. "       AXR9     ,Determines if AXR9 pin (device level MCASPi_axr[9] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Determines if AXR8 pin (device level MCASPi_axr[8] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 7. "       AXR7      ,Determines if AXR7 pin (device level MCASPi_axr[7] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 6. "       AXR6     ,Determines if AXR6 pin (device level MCASPi_axr[6] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Determines if AXR5 pin (device level MCASPi_axr[5] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 4. "       AXR4      ,Determines if AXR4 pin (device level MCASPi_axr[4] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 3. "       AXR3     ,Determines if AXR3 pin (device level MCASPi_axr[3] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Determines if AXR2 pin (device level MCASPi_axr[2] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 1. "       AXR1      ,Determines if AXR1 pin (device level MCASPi_axr[1] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 0. "       AXR0     ,Determines if AXR0 pin (device level MCASPi_axr[0] signal) functions as an input or output. - OUTPUT. - ." "OUTPUT,OUTPUT"
group.long 0x18++0x3
line.long 0x00 "MCASP_PDOUT,Pin data output register - holds a value for data out at all times, and may be read back at all times. The value held by is not affected by writing to and . However, the data value in is driven out onto the MCASP pin only if the correspondi..."
bitfld.long 0x00 31. " AFSR        ,Determines drive on AFSR output pin when the correspondingMCASP_PFUNC[31] and MCASP_PDIR[31] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 30. "         AHCLKR    ,Determines drive on AHCLKR output pin when the correspondingMCASP_PFUNC[30] and MCASP_PDIR[30] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 29. "         ACLKR    ,Determines drive on ACLKR output pin when the correspondingMCASP_PFUNC[29] and MCASP_PDIR[29] bits are set to 1 - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 28. " AFSX        ,Determines drive on AFSX output pin when the correspondingMCASP_PFUNC[28] and MCASP_PDIR[28] bits are set to 1. - DRV1. - ." "DRV1,DRV1"
bitfld.long 0x00 27. "         AHCLKX    ,Determines drive on AHCLKX output pin when the correspondingMCASP_PFUNC[27] and MCASP_PDIR[27] bits are set to 1. - DRV1. - ." "DRV1,DRV1"
bitfld.long 0x00 26. "         ACLKX    ,Determines drive on ACLKX output pin when the correspondingMCASP_PFUNC[26] and MCASP_PDIR[26] bits are set to 1 - DRV1. - ." "DRV1,DRV1"
textline "                           "
bitfld.long 0x00 15. " AXR15       ,Determines drive on AXR15 output pin when the correspondingMCASP_PFUNC[15] and MCASP_PDIR[15] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 14. "         AXR14     ,Determines drive on AXR14 output pin when the correspondingMCASP_PFUNC[14] and MCASP_PDIR[14] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 13. "         AXR13    ,Determines drive on AXR13 output pin when the correspondingMCASP_PFUNC[13] and MCASP_PDIR[13] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 12. " AXR12       ,Determines drive on AXR12 output pin when the correspondingMCASP_PFUNC[12] and MCASP_PDIR[12] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 11. "         AXR11     ,Determines drive on AXR11 output pin when the correspondingMCASP_PFUNC[11] and MCASP_PDIR[11] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 10. "         AXR10    ,Determines drive on AXR10 output pin when the correspondingMCASP_PFUNC[10] and MCASP_PDIR[10] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 9. " AXR9        ,Determines drive on AXR9 output pin when the correspondingMCASP_PFUNC[9] and MCASP_PDIR[9] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 8. "         AXR8      ,Determines drive on AXR8 output pin when the correspondingMCASP_PFUNC[8] and MCASP_PDIR[8] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 7. "         AXR7     ,Determines drive on AXR7 output pin when the correspondingMCASP_PFUNC[7] and MCASP_PDIR[7] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 6. " AXR6        ,Determines drive on AXR6 output pin when the correspondingMCASP_PFUNC[6] and MCASP_PDIR[6] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 5. "         AXR5      ,Determines drive on AXR5 output pin when the correspondingMCASP_PFUNC[5] and MCASP_PDIR[5] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 4. "         AXR4     ,Determines drive on AXR4 output pin when the correspondingMCASP_PFUNC[4] and MCASP_PDIR[4] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 3. " AXR3        ,Determines drive on AXR3 output pin when the correspondingMCASP_PFUNC[3] and MCASP_PDIR[3] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 2. "         AXR2      ,Determines drive on AXR2 output pin when the correspondingMCASP_PFUNC[2] and MCASP_PDIR[2] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 1. "         AXR1     ,Determines drive on AXR1 output pin when the correspondingMCASP_PFUNC[1] and MCASP_PDIR[1] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 0. " AXR0        ,Determines drive on AXR0 output pin when the correspondingMCASP_PFUNC[0] and MCASP_PDIR[0] bits are set to 1. - DRV1. - ." "DRV1,DRV1"
rgroup.long 0x1C++0x3
line.long 0x00 "MCASP_PDIN,Pin data input register - holds the state of all the MCASP pins. allows reading the actual value of the pin, regardless of the state of and ."
bitfld.long 0x00 31. " AFSR        ,Logic level on AFSR pin (device level MCASPi_fsr signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 29. "         ACLKR     ,Logic level on ACLKR pin (device level MCASPi_aclkr signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 28. "         AFSX     ,Logic level on AFSX pin (device level MCASPi_fsx signal). - LOW. - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Logic level on AHCLKX pin (device level MCASPi_ahclkx signal). - LOW. - ." "LOW,HIGH"
bitfld.long 0x00 26. "         ACLKX     ,Logic level on ACLKX pin (device level MCASPi_aclkx signal). - LOW. - ." "LOW,HIGH"
bitfld.long 0x00 15. "         AXR15    ,Logic level on AXR15 pin (device level MCASPi_axr[15] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Logic level on AXR14 pin (device level MCASPi_axr[14] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 13. "         AXR13     ,Logic level on AXR13 pin (device level MCASPi_axr[13] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 12. "         AXR12    ,Logic level on AXR12 pin (device level MCASPi_axr[12] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Logic level on AXR11 pin (device level MCASPi_axr[11] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 10. "         AXR10     ,Logic level on AXR10 pin (device level MCASPi_axr[10] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 9. "         AXR9     ,Logic level on AXR9 pin (device level MCASPi_axr[9] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Logic level on AXR8 pin (device level MCASPi_axr[8] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 7. "         AXR7      ,Logic level on AXR7 pin (device level MCASPi_axr[7] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 6. "         AXR6     ,Logic level on AXR6 pin (device level MCASPi_axr[6] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Logic level on AXR5 pin (device level MCASPi_axr[5] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 4. "         AXR4      ,Logic level on AXR4 pin (device level MCASPi_axr[4] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 3. "         AXR3     ,Logic level on AXR3 pin (device level MCASPi_axr[3] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Logic level on AXR2 pin (device level MCASPi_axr[2] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 1. "         AXR1      ,Logic level on AXR1 pin (device level MCASPi_axr[1] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 0. "         AXR0     ,Logic level on AXR0 pin (device level MCASPi_axr[0] signal). - LOW. - ." "LOW,HIGH"
wgroup.long 0x1C++0x3
line.long 0x00 "MCASP_PDSET,The pin data set register is an alias of the pin data output register () for writes only. Writing a 1 to the bit sets the corresponding bit in and, if = 1 (GPIO function) and = 1 (output), drives a logic high on the pin."
bitfld.long 0x00 31. " AFSR        ,Allows the corresponding AFSR bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 29. "     ACLKR     ,Allows the corresponding ACLKR bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 28. "     AFSX     ,Allows the corresponding AFSX bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - SET. - ." "SET,SET"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Allows the corresponding AHCLKX bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - SET. - ." "SET,SET"
bitfld.long 0x00 26. "          ACLKX     ,Allows the corresponding ACLKX bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - SET. - ." "SET,SET"
bitfld.long 0x00 15. "          AXR15    ,Allows the AXR15 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Allows the AXR14 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 13. "     AXR13     ,Allows the AXR13 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 12. "     AXR12    ,Allows the AXR12 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Allows the AXR11 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 10. "     AXR10     ,Allows the AXR10 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 9. "     AXR9     ,Allows the AXR9 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Allows the AXR8 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 7. "     AXR7      ,Allows the AXR7 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 6. "     AXR6     ,Allows the AXR6 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Allows the AXR5 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 4. "     AXR4      ,Allows the AXR4 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 3. "     AXR3     ,Allows the AXR3 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Allows the AXR2 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 1. "     AXR1      ,Allows the AXR1 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 0. "     AXR0     ,Allows the AXR0 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - SET. - ." "SET,SET"
group.long 0x20++0x3
line.long 0x00 "MCASP_PDCLR,The pin data clear register is an alias of the pin data output register () for writes only. Writing a 1 to the bit clears the corresponding bit in and, if = 1 (GPIO function) and = 1 (output), drives a logic low on the pin."
bitfld.long 0x00 31. " AFSR        ,Allows the corresponding AFSR bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 29. "     ACLKR     ,Allows the corresponding ACLKR bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 28. "     AFSX     ,Allows the corresponding AFSX bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - CLEAR. - ." "CLEAR,CLEAR"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Allows the corresponding AHCLKX bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - CLEAR. - ." "CLEAR,CLEAR"
bitfld.long 0x00 26. "        ACLKX     ,Allows the corresponding ACLKX bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - CLEAR. - ." "CLEAR,CLEAR"
bitfld.long 0x00 15. "        AXR15    ,Allows the AXR15 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Allows the AXR14 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 13. "     AXR13     ,Allows the AXR13 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 12. "     AXR12    ,Allows the AXR12 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Allows the AXR11 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 10. "     AXR10     ,Allows the AXR10 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 9. "     AXR9     ,Allows the AXR9 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Allows the AXR8 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 7. "     AXR7      ,Allows the AXR7 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 6. "     AXR6     ,Allows the AXR6 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Allows the AXR5 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 4. "     AXR4      ,Allows the AXR4 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 3. "     AXR3     ,Allows the AXR3 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Allows the AXR2 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 1. "     AXR1      ,Allows the AXR1 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 0. "     AXR0     ,Allows the AXR0 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - CLEAR. - ." "CLEAR,CLEAR"
group.long 0x44++0x3
line.long 0x00 "MCASP_GBLCTL,Global transmit control register - provides initialization of the transmit and receive sections. The bit fields in are synchronized and latched by the transmitter and receiver corresponding clocks - MCASPi_aclkx clock ( bits [12:8] ) and M..."
bitfld.long 0x00 12. " XFRST       ,Transmit frame-sync generator reset enable bit - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 11. "       XSMRST    ,Transmit state-machine reset enable bit - RESET. AXR[n] pin state : If[n] = 0 and [n] = 1, the corresponding serializer [n] drives the AXR[n] pin to the state specified for inactive time slot.. - . - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 10. "       XSRCLR   ,Transmit serializer clear enable bit. By clearing and then setting this bit, the transmit buffer is flushed to an empty state (XDATA = 1). If XSMRST = 1, XSRCLR = 1, XDATA = 1, and XBUF is not loaded with new data before the start of t..." "CLEAR,ACTIVE"
textline "                           "
bitfld.long 0x00 9. " XHCLKRST    ,Transmit high-frequency clock divider reset enable bit - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 8. "       XCLKRST   ,Transmit clock divider reset enable bit - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 4. "       RFRST    ,Receive frame sync generator reset enable bit. - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 3. " RSMRST      ,Receive state machine reset enable bit. - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 2. "       RSRCLR    ,Receive serializer clear enable bit. By clearing then setting this bit, the receive buffer is flushed. - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
bitfld.long 0x00 1. "       RHCLKRST ,Receive high-frequency clock divider reset enable bit. - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 0. " RCLKRST     ,Receive clock divider reset enable bit. - RESET. - ACTIVE." "RESET,ACTIVE"
group.long 0x48++0x3
line.long 0x00 "MCASP_AMUTE,Mute control register - Controls the MCASP mute output pin - AMUTE (device level - not implemented)"
group.long 0x4C++0x3
line.long 0x00 "MCASP_LBCTL,The digital loopback control register () controls the internal (MCASP module)- level and chip-level loopback settings of the MCASP in TDM mode. Note that loopback is NOT supported if MCASP is configured in DIT mode."
bitfld.long 0x00 4. " IOLBEN      ,If DLBEN=0b1, the IOLBEN bit selects between and loopback modes. IOLBEN bit value is irrelevant, If DLBEN=0b0. - INTERNAL_LB. - CHIP_LB." "INTERNAL_LB,CHIP_LB"
bitfld.long 0x00 2.--3. "  MODE      ,Loopback generator mode bits. - NO_LOOPBACK. - LOOPBACK. 0x2, 0x3: Reserved. - RESERVED." "NO_LOOPBACK,LOOPBACK,2,3"
bitfld.long 0x00 1. "  ORD      ,Loopback order bit when loopback mode is enabled (DLBEN = 1). - ODD. - EVEN." "ODD,EVEN"
textline "                           "
bitfld.long 0x00 0. " DLBEN       ,Loop back mode enable bit. - DISABLE. - ENABLE." "DISABLE,ENABLE"
group.long 0x50++0x3
line.long 0x00 "MCASP_TXDITCTL,Transmit DIT mode control register, controls DIT operations of the MCASP"
bitfld.long 0x00 3. " VB          ,Valid bit for odd time slots (DIT right subframe). - ONESTUFF. - ." "ONESTUFF,ONESTUFF"
bitfld.long 0x00 2. "     VA        ,Valid bit for even time slots (DIT left subframe). - ONESTUFF. - ." "ONESTUFF,ONESTUFF"
bitfld.long 0x00 0. "     DITEN    ,DIT mode enable bit - I2S. - DIT." "I2S,DIT"
group.long 0x60++0x3
line.long 0x00 "MCASP_GBLCTLR,Alias of GBLCTL. When writing to this register, only the TRANSMIT bits of GBLCTL are affected (This means GBLCTL bits 8,9,10,11,12). Reads return GBLCTL"
bitfld.long 0x00 12. " XFRST       ,Frame sync generator reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 11. "       XSMRST    ,XMT state machine reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 10. "       XSRCLR   ,XMT serializer clear - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
textline "                           "
bitfld.long 0x00 9. " XHCLKRST    ,XMT High Freq. clk Divider - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 8. "       XCLKRST   ,XMT clock divder reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 4. "       RFRST    ,Frame sync generator reset - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 3. " RSMRST      ,RCV state machine reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 2. "       RSRCLR    ,RCV serializer clear - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
bitfld.long 0x00 1. "       RHCLKRST ,RCV High Freq. clk Divider - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 0. " RCLKRST     ,RCV clock divder reset - RESET. - ACTIVE." "RESET,ACTIVE"
group.long 0x64++0x3
line.long 0x00 "MCASP_RXMASK,The receive format unit bit mask register () determines which bits of the received data are masked off and padded with a known value before being read by the CPU."
hexmask.long 0x00 0.--31. 1. " RMASK[31:0] ,Receive data mask enable bit. - USEMASK. - NOMASK."
group.long 0x68++0x3
line.long 0x00 "MCASP_RXFMT,The receive bit stream format register () configures the receive data format."
bitfld.long 0x00 16.--17. " RDATDLY     ,Receive Frame sync delay of AXR[n] - 0BIT. - 1BIT. - 2BIT. - 2BIT." "0BIT,1BIT,2BIT,2BIT"
bitfld.long 0x00 15. "         RRVRS     ,Receive serial bitstream order - LSBFIRST. - MSBFIRST." "LSBFIRST,MSBFIRST"
bitfld.long 0x00 13.--14. "     RPAD     ,Pad value for extra bits in slot not belonging to the word. This field only applies to bits when RMASK[n] = 0. - ZERO. - ONE. - RPBIT. - RPBIT." "ZERO,ONE,RPBIT,RPBIT"
textline "                           "
bitfld.long 0x00 8.--12. " RPBIT       ,RPBIT value determines which bit (as read by the CPU from RBUF[n]) is used to pad the extra bits. This field only applies when RPAD = 2h. - . 0x01 - 0x1F: Pad with value of the bit positioned within the range RBUFn[31:1].. - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 4.--7. "           RSSZ      ,Receive slot size.0x0 - 0x2 : Reserved. - RSVD. - 8BITS. - RSVD. - 12BITS. - RSVD. - 16BITS. - RSVD. - 20BITS. - RSVD. - 24BITS. - RSVD. - 28BITS. - 32BITS. - 32BITS." "0,1,2,8BITS,RSVD,12BITS,RSVD,16BITS,RSVD,20BITS,RSVD,24BITS,RSVD,28BITS,32BITS,32BITS"
bitfld.long 0x00 3. "       RBUSEL   ,Selects whether reads from serializer buffer RBUF[n] originate from the peripheral configuration CFG port or the DATA port. - VBUSP. - VBUS." "VBUSP,VBUS"
textline "                           "
bitfld.long 0x00 0.--2. " RROT        ,Right-rotation value for receive rotate right format unit. - NONE. - 4BITS. - 8BITS. - 12BITS. - 16BITS. - 20BITS. - 24BITS. - 28BITS." "NONE,4BITS,8BITS,12BITS,16BITS,20BITS,24BITS,28BITS"
group.long 0x6C++0x3
line.long 0x00 "MCASP_RXFMCTL,The receive frame sync control register () configures the receive frame sync (AFSR)."
hexmask.long.word 0x00 7.--15. 1. " RMOD        ,Receive frame sync mode select bits. - . - . - . 0x3 - 0x20: 3-slot TDM to 32-slot TDM mode. - . 0x21 - 0x17F: Reserved. - . - . 0x181 - 0x1FF: Reserved. - ."
bitfld.long 0x00 4. "         FRWID     ,Receive frame sync width select bit indicates the width of the receive frame sync (AFSR) during its active period. - BIT. - WORD." "BIT,WORD"
bitfld.long 0x00 1. "         FSRM     ,Receive frame sync generation select bit. - EXTERNAL. - INTERNAL." "EXTERNAL,INTERNAL"
textline "                           "
bitfld.long 0x00 0. " FSRP        ,Receive frame sync polarity select bit. - RISINGEDGE. - FALLINGEDGE." "RISINGEDGE,FALLINGEDGE"
group.long 0x70++0x3
line.long 0x00 "MCASP_ACLKRCTL,The receive clock control register () configures the receive bit clock (ACLKR) and the receive clock generator."
bitfld.long 0x00 20. " BUSY        ,Status: logical OR of DIVBUSY, ADJBUSY. Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 19. "      DIVBUSY   ,Status: divide ratio change in progress? Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 18. "      ADJBUSY  ,Status: one-shot adjustment in progress? Not supported. - . - ." "NOTBUSY,BUSY"
textline "                           "
bitfld.long 0x00 16.--17. " CLKRADJ     ,CLKRDIV one-shot adjustment. Not supported. Bit field must always be written as 0x0.If CLKRDIV is set such that there are ?m? input clocks per one output clock, then for one output cycle: - 00 = (m+0) input clocks per output clock, i.e. n..." "PLUSZERO,MINUSONE,PLUSONE,PLUSZER0"
bitfld.long 0x00 7. "     CLKRP     ,Receive bitstream clock polarity select bit. Note that this bitfield does not have any effect, ifMCASP_ACLKXCTL[6] ASYNC = 0 - FALLINGEDGE. - RISINGEDGE." "FALLINGEDGE,RISINGEDGE"
bitfld.long 0x00 5. "  CLKRM    ,Receive bit clock source bit. Note that this bitfield does not have any effect, ifMCASP_ACLKXCTL[6] ASYNC = 0 - EXTERNAL. - INTERNAL." "EXTERNAL,INTERNAL"
textline "                           "
bitfld.long 0x00 0.--4. " CLKRDIV     ,Receive bit clock divide ratio bits determine the divide-down ratio from AHCLKR to ACLKR. Note that this bitfield does not have any effect, ifMCASP_ACLKXCTL[6] ASYNC = 0. - . - . 0x2 - 0x1F: Divide-by-3 to divide-by-32. - ." "0,0x01,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x74++0x3
line.long 0x00 "MCASP_AHCLKRCTL,The receive high-frequency clock control register () configures the receive high-frequency master clock (AHCLKR) and the receive clock generator."
bitfld.long 0x00 20. " BUSY        ,Status: logical OR of DIVBUSY, ADJBUSY. Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 19. "      DIVBUSY   ,Status: divide ratio change in progress? Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 18. "      ADJBUSY  ,Status: one-shot adjustment in progress? Not supported. - . - ." "NOTBUSY,BUSY"
textline "                           "
bitfld.long 0x00 16.--17. " HCLKRADJ    ,HCLKRDIV one-shot adjustment. Not supported. Bit field must always be written as 0x0. If HCLKRDIV is set such that there are ?m? input clocks per one output clock, then for one output cycle: - 00 = (m+0) input clocks per output clock, i.e..." "PLUSZERO,MINUSONE,PLUSONE,PLUSZER0"
bitfld.long 0x00 15. "     HCLKRM    ,High Freq. RCV clock Source - . - ." "EXTERNAL,INTERNAL"
bitfld.long 0x00 14. "     HCLKRP   ,Receive bitstream high-frequency clock polarity select bit. - NOTINVERTED. - INVERTED." "NOTINVERTED,INVERTED"
textline "                           "
hexmask.long.word 0x00 0.--11. 1. " HCLKRDIV    ,Receive high-frequency clock divide ratio bits determine the divide-down ratio from AUXCLK to AHCLKR. - . - . 0x2 - 0xFFF: Divide-by-3 to divide-by-4096. - ."
group.long 0x78++0x3
line.long 0x00 "MCASP_RXTDM,The receive TDM time slot register () specifies which TDM time slot the receiver is active."
hexmask.long 0x00 0.--31. 1. " RTDMS[31:0] ,Receiver mode during TDM time slot n. - INACTIVE. - ACTIVE."
group.long 0x7C++0x3
line.long 0x00 "MCASP_EVTCTLR,Receiver Interrupt control register - controls generation of the MCASP receive interrupt (RINT). When the register bit(s) is set to 1, the occurrence of the enabled MCASP condition(s) generates RINT."
bitfld.long 0x00 7. " RSTAFRM     ,Receive start of frame interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 5. "       RDATA     ,Receive data-ready interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 4. "       RLAST    ,Receive last slot interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
textline "                           "
bitfld.long 0x00 3. " RDMAERR     ,Receive DMA error interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 2. "       RCKFAIL   ,Receive clock failure interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 1. "       RSYNCERR ,Unexpected receive frame-sync interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
textline "                           "
bitfld.long 0x00 0. " ROVRN       ,Receiver overrun interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
group.long 0x80++0x3
line.long 0x00 "MCASP_RXSTAT,The receiver status register () provides the receiver status and receive TDM time slot number."
bitfld.long 0x00 8. " RERR        ,RERR bit always returns a logic-OR of: ROVRN | RSYNCERR | RCKFAIL | RDMAERR Allows a single bit to be checked to determine if a receiver error has occurred. - NOERROR. - ERROR." "NOERROR,ERROR"
bitfld.long 0x00 7. "      RDMAERR   ,Receive DMA error flag. RDMAERR is set when the CPU or DMA reads more serializers through the DMA port in a given time slot than were programmed as receivers. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has ..." "NOTOCCUR,OCCUR"
bitfld.long 0x00 6. "     RSTAFRM  ,Receive start of frame flag. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
textline "                           "
bitfld.long 0x00 5. " RDATA       ,Receive data ready flag. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
bitfld.long 0x00 4. "     RLAST     ,Receive last slot flag. RLAST is set along with RDATA, if the current slot is the last slot in a frame. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
bitfld.long 0x00 3. "     RTDMSLOT ,Returns the LSB of RSLOT. Allows a single read ofMCASP_RXSTAT to determine whether the current TDM time slot is even or odd. - ODDSLOT. - EVENSLOT." "ODDSLOT,EVENSLOT"
textline "                           "
bitfld.long 0x00 2. " RCKFAIL     ,Receive clock failure flag. RCKFAIL is set when the receive clock failure detection circuit reports an error. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
bitfld.long 0x00 1. "     RSYNCERR  ,Unexpected receive frame sync flag. RSYNCERR is set when a new receive frame sync (AFSR) occurs before it is expected. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
bitfld.long 0x00 0. "     ROVRN    ,Receiver overrun flag. ROVRN is set when the receive serializer is instructed to transfer data from XRSR to RBUF, but the former data in RBUF has not yet been read by the CPU or DMA. This bit is cleared by writing a 1 to this bit. Writin..." "NOTOCCUR,OCCUR"
rgroup.long 0x84++0x3
line.long 0x00 "MCASP_RXTDMSLOT,The current receive TDM time slot register () indicates the current time slot for the receive data frame."
hexmask.long.word 0x00 0.--8. 1. " RSLOTCNT    ,0x0 - 0x17F: Current receive time slot count. Legal values: 0 to 383 (17Fh). TDM function is not supported for > 32 time slots. However, TDM time slot counter may count to 383 when used to receive a DIR block (transferred over TDM ..."
group.long 0x88++0x3
line.long 0x00 "MCASP_RXCLKCHK,The receive clock check control register (RCLKCHK) configures the receive clock failure detection circuit."
hexmask.long.byte 0x00 24.--31. 1. " RCNT        ,0x0 - 0xFF: Receive clock count value (from previous measurement). The clock circuit continually counts the number of interface clocks for every 32 receive high-frequency master clock (AHCLKR) signals, and stores the count in RCNT until t..."
hexmask.long.byte 0x00 16.--23. 1. "           RMAX      ,0x00-0xFF: Receive clock maximum boundary. This 8-bit unsigned value sets the maximum allowed boundary for the clock check counter after 32 receive high-frequency master clock (AHCLKR) signals have been received. If the current co..."
hexmask.long.byte 0x00 8.--15. 1. "           RMIN     ,0x00 - 0xFF: Receive clock minimum boundary. This 8-bit unsigned value sets the minimum allowed boundary for the clock check counter after 32 receive high-frequency master clock (AHCLKR) signals have been received. If RCNT is less ..."
textline "                           "
bitfld.long 0x00 0.--3. " RPS         ,Receive clock check prescaler value. - DIVBY64. - DIVBY2. - DIVBY128. - DIVBY1. - DIVBY4. - DIVBY256. - DIVBY16. - DIVBY32. - DIVBY8. 0x9 - 0xF: Reserved. - DIVBY8." "DIVBY64,DIVBY2,DIVBY128,DIVBY1,DIVBY4,DIVBY256,DIVBY16,DIVBY32,DIVBY8,9,10,11,12,13,14,15"
group.long 0x8C++0x3
line.long 0x00 "MCASP_REVTCTL,Receiver DMA event control register"
bitfld.long 0x00 0. " RDATDMA     ,Receive data DMA request enable bit. - . - ." "ENABLE,DISABLE"
group.long 0xA0++0x3
line.long 0x00 "MCASP_GBLCTLX,Alias of GBLCTL. When writing to this register, only the TRANSMIT bits of GBLCTL are affected (This means GBLCTL bits 8,9,10,11,12.). Reads return GBLCTL."
bitfld.long 0x00 12. " XFRST       ,Frame sync generator reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 11. "       XSMRST    ,XMT state machine reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 10. "       XSRCLR   ,XMT serializer clear - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
textline "                           "
bitfld.long 0x00 9. " XHCLKRST    ,XMT High Freq. clk Divider - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 8. "       XCLKRST   ,XMT clock divder reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 4. "       RFRST    ,Frame sync generator reset - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 3. " RSMRST      ,RCV state machine reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 2. "       RSRCLKR   ,RCV serializer clear - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
bitfld.long 0x00 1. "       RHCLKRST ,RCV High Freq. clk Divider - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 0. " RCLKRST     ,RCV clock divder reset - RESET. - ACTIVE." "RESET,ACTIVE"
group.long 0xA4++0x3
line.long 0x00 "MCASP_TXMASK,Transmit format unit bit mask register - Determines which bits of the transmitted data are masked off before being shifted out the MCASP"
hexmask.long 0x00 0.--31. 1. " XMASK[31:0] ,Transmit data mask enable bit - . - ."
group.long 0xA8++0x3
line.long 0x00 "MCASP_TXFMT,Transmit bitstream format register - configures the transmit data format"
bitfld.long 0x00 16.--17. " XDATDLY     ,Transmit sync bit delay - 0BIT. - 1BIT. - 2BIT. - 2BIT." "0BIT,1BIT,2BIT,2BIT"
bitfld.long 0x00 15. "         XRVRS     ,Transmit serial bitstream order - . - ." "LSBFIRST,MSBFIRST"
bitfld.long 0x00 13.--14. "     XPAD     ,Pad value for extra bits in slot not belonging to word defined by XMASK. This field only applies to bits when XMASK[n] = 0. - . - . - . - ." "ZERO,ONE,XPBIT,3"
textline "                           "
bitfld.long 0x00 8.--12. " XPBIT       ,XPBIT value determines which bit (as written by the CPU or DMA to XBUF[n]) is used to pad the extra bits before shifting. This field only applies when XPAD = 0x2." "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 4.--7. "   XSSZ      ,Transmit slot size0x0 - 0x2 : Reserved. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - ." "0,1,2,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,32BITS"
bitfld.long 0x00 3. "       XBUSEL   ,Selects whether writes to the serializer buffer XBUF[n] originate from the peripheral configuration CFG port or the DATA port. - VBUSP. - VBUS." "VBUSP,VBUS"
textline "                           "
bitfld.long 0x00 0.--2. " XROT        ,Right-rotation value for transmit rotate right format unit - 12BITS. - . - . - . - . - . - . - ." "12BITS,4BITS,8BITS,12BITS,16BITS,20BITS,24BITS,28BITS"
group.long 0xAC++0x3
line.long 0x00 "MCASP_TXFMCTL,Transmit frame-sync control register - configures the transmit frame sync (MCASPi_fsx)."
hexmask.long.word 0x00 7.--15. 1. " XMOD        ,Transmit frame-sync mode select bits 0x0: Burst mode 0x1: Reserved 0x2: 2-slot TDM mode () 0x3 - 0x20: 3-slot TDM to 32-slot TDM mode 0x21 - 0x17F: Reserved 0x180: 384-slot DIT mode All other: Reserved"
bitfld.long 0x00 4. "         FXWID     ,The transmit frame-sync width select bit indicates the width of the transmit frame sync (MCASPi_fsx) during its active period. - WORD. - ." "WORD,WORD"
bitfld.long 0x00 1. "         FSXM     ,Transmit frame-sync generation select bit - INTERNAL. - ." "INTERNAL,INTERNAL"
textline "                           "
bitfld.long 0x00 0. " FSXP        ,Transmit frame-sync polarity select bit - FALLINGEDGE. - ." "FALLINGEDGE,FALLINGEDGE"
group.long 0xB0++0x3
line.long 0x00 "MCASP_ACLKXCTL,Transmit clock control register - Configures the transmit bit clock (MCASPi_aclkx) and the transmit clock generator."
bitfld.long 0x00 20. " BUSY        ,Status: logical OR of DIVBUSY, ADJBUSY. Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 19. "      DIVBUSY   ,Status: divide ratio change in progress? Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 18. "      ADJBUSY  ,Status: one-shot adjustment in progress? Not supported. - . - ." "NOTBUSY,BUSY"
textline "                           "
bitfld.long 0x00 16.--17. " CLKXADJ     ,CLKXDIV one-shot adjustment. Not supported. Bit field must always be written as 0x0. If CLKXDIV is set such that there are ?m? input clocks per one output clock, then for one output cycle: - 00 = (m+0) input clocks per output clock, i.e. ..." "PLUSZERO,MINUSONE,PLUSONE,PLUSZER0"
bitfld.long 0x00 7. "     CLKXP     ,Transmit bitstream clock polarity select bit. - . - ." "RISINGEDGE,FALLINGEDGE"
bitfld.long 0x00 6. "  ASYNC    ,Transmit operation asynchronous enable bit - ASYNC. - ." "ASYNC,ASYNC"
textline "                           "
bitfld.long 0x00 5. " CLKXM       ,Transmit bit clock source bit - INTERNAL. - ." "INTERNAL,INTERNAL"
bitfld.long 0x00 0.--4. "     CLKXDIV   ,Transmit bit clock divide ratio bits, determine the divide-down ratio from AHCLKX to ACLKX. 0x0: Divide-by-1 0x1: Divide-by-2 0x2 to 0x1F: Divide-by-3 to divide-by-32" "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
group.long 0xB4++0x3
line.long 0x00 "MCASP_AHCLKXCTL,High-frequency transmit clock control register - Configures the transmit high-frequency master clock (MCASPi_ahclkx) and the transmit clock generator."
bitfld.long 0x00 20. " BUSY        ,Status: logical OR of DIVBUSY, ADJBUSY. Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 19. "      DIVBUSY   ,Status: divide ratio change in progress? Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 18. "      ADJBUSY  ,Status: one-shot adjustment in progress? Not supported. - . - ." "NOTBUSY,BUSY"
textline "                           "
bitfld.long 0x00 16.--17. " HCLKXADJ    ,HCLKXDIV one-shot adjustment. Not supported. Bit field must always be written as 0x0. If HCLKXDIV is set such that there are ?m? input clocks per one output clock, then for one output cycle: - 00 = (m+0) input clocks per output clock, i.e..." "PLUSZERO,MINUSONE,PLUSONE,PLUSZER0"
bitfld.long 0x00 15. "     HCLKXM    ,Transmit high-frequency clock source bit - INTERNAL. - ." "INTERNAL,INTERNAL"
bitfld.long 0x00 14. "     HCLKXP   ,Transmit bitstream high-frequency clock polarity select bit. - . - ." "NOTINVERTED,INVERTED"
textline "                           "
hexmask.long.word 0x00 0.--11. 1. " HCLKXDIV    ,Transmit high-frequency clock divide ratio bits determine the divide-down ratio from AUXCLK to MCASPi_ahclkx. 0x0: Divide-by-1 0x1: Divide-by-2 0x2 to 0xFFF: Divide-by-3 to divide-by-4096"
group.long 0xB8++0x3
line.long 0x00 "MCASP_TXTDM,Transmit TDM slot 0-31 register - TDM time slot counter range is to 384 slots (to support SPDIF blocks of 384 subframes)."
hexmask.long 0x00 0.--31. 1. " XTDMS[31:0] ,Transmitter mode during TDM time slot n (n = 0..31) - . - ."
group.long 0xBC++0x3
line.long 0x00 "MCASP_EVTCTLX,Transmitter Interrupt control register - controls generation of the MCASP transmit interrupt (XINT). When the register bit(s) is set to 1, the occurrence of the enabled MCASP condition(s) generates XINT."
bitfld.long 0x00 7. " XSTAFRM     ,Transmit start of frame interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 5. "       XDATA     ,Transmit data-ready interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 4. "       XLAST    ,Transmit last slot interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
textline "                           "
bitfld.long 0x00 3. " XDMAERR     ,Transmit DMA error interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 2. "       XCKFAIL   ,Transmit clock failure interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 1. "       XSYNCERR ,Unexpected transmit frame-sync interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
textline "                           "
bitfld.long 0x00 0. " XUNDRN      ,Transmitter underrun interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
group.long 0xC0++0x3
line.long 0x00 "MCASP_TXSTAT,Transmitter status register - If the MCASP logic attempts to set an interrupt flag in the same cycle that the CPU writes to the flag to clear it, the MCASP logic has priority and the flag remains set. This also causes the generation of a n..."
bitfld.long 0x00 8. " XERR        ,XERR bit always returns a logic-OR of: XUNDRN | XSYNCERR | XCKFAIL | XDMAERR. Allows a single bit to be checked to determine if a transmitter error interrupt has occurred. - ERROR. - ." "ERROR,ERROR"
bitfld.long 0x00 7. "        XDMAERR   ,Transmit DMA error flag. XDMAERR is set when the CPU or DMA writes more words to the DATA port of the MCASP in a given time slot than it should. Causes a transmit interrupt (XINT) if this bit and XDMAERR inMCASP_EVTCTLX are set. This..." "OCCUR,OCCUR"
bitfld.long 0x00 6. "        XSTAFRM  ,Transmit start of frame flag. Causes a transmit interrupt (XINT) if this bit and XSTAFRM inMCASP_EVTCTLX are set. This bit is cleared by writing a 1 to it. Writing a 0 has no effect. - OCCUR. - ." "OCCUR,OCCUR"
textline "                           "
bitfld.long 0x00 5. " XDATA       ,Transmit data ready flag. Causes a transmit interrupt (XINT) if this bit and XDATA inMCASP_EVTCTLX are set. This bit is cleared by writing a 1 to iit. Writing a 0 has no effect - OCCUR. - ." "OCCUR,OCCUR"
bitfld.long 0x00 4. "        XLAST     ,Transmit last slot flag. XLAST, along with XDATA, are set if the current slot is the last slot in a frame. Causes a transmit interrupt (XINT) if this bit and XLAST inMCASP_EVTCTLX are set. This bit is cleared by writing a 1 to iit. W..." "OCCUR,OCCUR"
bitfld.long 0x00 3. "        XTDMSLOT ,Returns the LSB of XSLOT. Allows a single read of XSTAT to determine whether the current TDM time slot is even or odd. - EVENSLOT. - ." "EVENSLOT,EVENSLOT"
textline "                           "
bitfld.long 0x00 2. " XCKFAIL     ,Transmit clock failure flag. XCKFAIL is set when the transmit clock failure detection circuit reports an error. Causes a transmit interrupt (XINT) if this bit and XCKFAIL inMCASP_EVTCTLX are set. This bit is cleared by writing a 1 to iit...." "OCCUR,OCCUR"
bitfld.long 0x00 1. "        XSYNCERR  ,Unexpected transmit frame-sync flag. XSYNCERR is set when a new transmit frame sync (AFSX) occurs before it is expected. Causes a transmit interrupt (XINT) if this bit and XSYNCERR inMCASP_EVTCTLX are set. This bit is cleared by writ..." "OCCUR,OCCUR"
bitfld.long 0x00 0. "        XUNDRN   ,Transmitter underrun flag. XUNDRN is set when the transmit serializer is instructed to transfer data from XBUF[n] to XRSR[n], but XBUF[n] has not yet been serviced with new data since the last transfer. Causes a transmit interrupt (XI..." "OCCUR,OCCUR"
rgroup.long 0xC4++0x3
line.long 0x00 "MCASP_TXTDMSLOT,Current transmit TDM time slot register"
hexmask.long.word 0x00 0.--8. 1. " XSLOTCNT    ,Current transmit time slot count. the value of this register is 0b0101111111 (0x17f) during reset and 0 after reset."
group.long 0xC8++0x3
line.long 0x00 "MCASP_TXCLKCHK,Transmit clock check control register - configures the transmit clock failure detection circuit."
hexmask.long.byte 0x00 24.--31. 1. " XCNT        ,Transmit clock count value (from previous measurement). The clock circuit continually counts the number of interface clocks for every 32 transmit high-frequency master clock (MCASPi_ahclkx) signals, and stores the count in XCNT until the ..."
hexmask.long.byte 0x00 16.--23. 1. "           XMAX      ,0x0 to 0xFF: Transmit clock maximum boundary. This 8-bit unsigned value sets the maximum allowed boundary for the clock check counter after 32 transmit high-frequency master clock (MCASPi_ahclkx) signals have been received. If the..."
hexmask.long.byte 0x00 8.--15. 1. "           XMIN     ,0x0 to 0xFF: Transmit clock minimum boundary. This 8-bit unsigned value sets the minimum allowed boundary for the clock check counter after 32 transmit high-frequency master clock (MCASPi_ahclkx) signals have been received. If XCNT..."
textline "                           "
bitfld.long 0x00 0.--3. " XPS         ,Transmit clock check prescaler value 0x0: MCASP interface clock divided by 1 0x1: MCASP interface clock divided by 2 0x2: MCASP interface clock divided by 4 0x3: MCASP interface clock divided by 8 0x4: MCASP interface clock divided by 16 ..." "DIVBY1,DIVBY2,DIVBY4,DIVBY8,DIVBY16,DIVBY32,DIVBY64,DIVBY128,DIVBY256,9,10,11,12,13,14,15"
group.long 0xCC++0x3
line.long 0x00 "MCASP_XEVTCTL,Transmitter DMA event control register"
bitfld.long 0x00 0. " XDATDMA     ,Transmit data DMA request enable bit. - . - ." "ENABLE,DISABLE"
group.long 0xD0++0x3
line.long 0x00 "MCASP_CLKADJEN,One-Shot Clock Adjustment Enable"
bitfld.long 0x00 0. " ENABLE      ,One-shot clock adjust enable. Not supported. Bit field must always be written as 0x0. - DISABLE. - ENABLE." "DISABLE,ENABLE"
width 0x0B
tree.end
tree.open "MCASP1_DAT"
tree "MCASP1_DAT"
base ad:0x45800000
width 13.
rgroup.long 0x0++0x3
line.long 0x00 "MCASP_RXBUF,Through the DATA port , the Host can service all serializers through a single address and the MCASP automatically cycles through the appropriate serializers. For receive operations through the DATA port, the Host should read from the same R..."
hexmask.long 0x00 0.--31. 1. " RXBUF ,Rx buffer data."
wgroup.long 0x0++0x3
line.long 0x00 "MCASP_TXBUF,Through the DATA port , the Host can service all serializers through a single address and the MCASP automatically cycles through the appropriate serializers. For transmit operations through the DATA port, the Host should write to the same D..."
hexmask.long 0x00 0.--31. 1. " TXBUF ,Tx buffer data."
width 0x0B
tree.end
tree "MCASP2_DAT"
base ad:0x45C00000
width 13.
rgroup.long 0x0++0x3
line.long 0x00 "MCASP_RXBUF,Through the DATA port , the Host can service all serializers through a single address and the MCASP automatically cycles through the appropriate serializers. For receive operations through the DATA port, the Host should read from the same R..."
hexmask.long 0x00 0.--31. 1. " RXBUF ,Rx buffer data."
wgroup.long 0x0++0x3
line.long 0x00 "MCASP_TXBUF,Through the DATA port , the Host can service all serializers through a single address and the MCASP automatically cycles through the appropriate serializers. For transmit operations through the DATA port, the Host should write to the same D..."
hexmask.long 0x00 0.--31. 1. " TXBUF ,Tx buffer data."
width 0x0B
tree.end
tree "MCASP3_DAT"
base ad:0x46000000
width 13.
rgroup.long 0x0++0x3
line.long 0x00 "MCASP_RXBUF,Through the DATA port , the Host can service all serializers through a single address and the MCASP automatically cycles through the appropriate serializers. For receive operations through the DATA port, the Host should read from the same R..."
hexmask.long 0x00 0.--31. 1. " RXBUF ,Rx buffer data."
wgroup.long 0x0++0x3
line.long 0x00 "MCASP_TXBUF,Through the DATA port , the Host can service all serializers through a single address and the MCASP automatically cycles through the appropriate serializers. For transmit operations through the DATA port, the Host should write to the same D..."
hexmask.long 0x00 0.--31. 1. " TXBUF ,Tx buffer data."
width 0x0B
tree.end
tree "MCASP4_DAT"
base ad:0x48436000
width 13.
rgroup.long 0x0++0x3
line.long 0x00 "MCASP_RXBUF,Through the DATA port , the Host can service all serializers through a single address and the MCASP automatically cycles through the appropriate serializers. For receive operations through the DATA port, the Host should read from the same R..."
hexmask.long 0x00 0.--31. 1. " RXBUF ,Rx buffer data."
wgroup.long 0x0++0x3
line.long 0x00 "MCASP_TXBUF,Through the DATA port , the Host can service all serializers through a single address and the MCASP automatically cycles through the appropriate serializers. For transmit operations through the DATA port, the Host should write to the same D..."
hexmask.long 0x00 0.--31. 1. " TXBUF ,Tx buffer data."
width 0x0B
tree.end
tree "MCASP5_DAT"
base ad:0x4843A000
width 13.
rgroup.long 0x0++0x3
line.long 0x00 "MCASP_RXBUF,Through the DATA port , the Host can service all serializers through a single address and the MCASP automatically cycles through the appropriate serializers. For receive operations through the DATA port, the Host should read from the same R..."
hexmask.long 0x00 0.--31. 1. " RXBUF ,Rx buffer data."
wgroup.long 0x0++0x3
line.long 0x00 "MCASP_TXBUF,Through the DATA port , the Host can service all serializers through a single address and the MCASP automatically cycles through the appropriate serializers. For transmit operations through the DATA port, the Host should write to the same D..."
hexmask.long 0x00 0.--31. 1. " TXBUF ,Tx buffer data."
width 0x0B
tree.end
tree "MCASP6_DAT"
base ad:0x4844C000
width 13.
rgroup.long 0x0++0x3
line.long 0x00 "MCASP_RXBUF,Through the DATA port , the Host can service all serializers through a single address and the MCASP automatically cycles through the appropriate serializers. For receive operations through the DATA port, the Host should read from the same R..."
hexmask.long 0x00 0.--31. 1. " RXBUF ,Rx buffer data."
wgroup.long 0x0++0x3
line.long 0x00 "MCASP_TXBUF,Through the DATA port , the Host can service all serializers through a single address and the MCASP automatically cycles through the appropriate serializers. For transmit operations through the DATA port, the Host should write to the same D..."
hexmask.long 0x00 0.--31. 1. " TXBUF ,Tx buffer data."
width 0x0B
tree.end
tree "MCASP7_DAT"
base ad:0x48450000
width 13.
rgroup.long 0x0++0x3
line.long 0x00 "MCASP_RXBUF,Through the DATA port , the Host can service all serializers through a single address and the MCASP automatically cycles through the appropriate serializers. For receive operations through the DATA port, the Host should read from the same R..."
hexmask.long 0x00 0.--31. 1. " RXBUF ,Rx buffer data."
wgroup.long 0x0++0x3
line.long 0x00 "MCASP_TXBUF,Through the DATA port , the Host can service all serializers through a single address and the MCASP automatically cycles through the appropriate serializers. For transmit operations through the DATA port, the Host should write to the same D..."
hexmask.long 0x00 0.--31. 1. " TXBUF ,Tx buffer data."
width 0x0B
tree.end
tree "MCASP8_DAT"
base ad:0x48454000
width 13.
rgroup.long 0x0++0x3
line.long 0x00 "MCASP_RXBUF,Through the DATA port , the Host can service all serializers through a single address and the MCASP automatically cycles through the appropriate serializers. For receive operations through the DATA port, the Host should read from the same R..."
hexmask.long 0x00 0.--31. 1. " RXBUF ,Rx buffer data."
wgroup.long 0x0++0x3
line.long 0x00 "MCASP_TXBUF,Through the DATA port , the Host can service all serializers through a single address and the MCASP automatically cycles through the appropriate serializers. For transmit operations through the DATA port, the Host should write to the same D..."
hexmask.long 0x00 0.--31. 1. " TXBUF ,Tx buffer data."
width 0x0B
tree.end
tree.end
tree "MCASP2_CFG"
base ad:0x48464000
width 10.
group.long 0x1000++0x3
line.long 0x00 "WFIFOCTL,The Write FIFO control register. The WNUMEVT and WNUMDMA values must be set prior to enabling the Write FIFO. If the Write FIFO is to be enabled, it must be enabled prior to taking the MCASP out of reset."
bitfld.long 0x00 16. " WENA ,Write FIFO enable bit. - . - ." "0,1"
hexmask.long.byte 0x00 8.--15. 1. "   WNUMEVT ,Write word count (32-bit) to generate TX event to host. When Write FIFO has word space for more or equal to this value then transmit event will be generated to host/DMA.. - . - . - . 0x3 - 0x40: 3 to 64 words currently in write FIFO.. - . 0..."
hexmask.long.byte 0x00 0.--7. 1. "  WNUMDMA ,Write word count (32-bit words). On the transmit DMA event from MCASP the WNUMDMA word will be transferred from DMA engine to MCASP. This value must equal the number of MCASP serializers used as transmitters. - . - . - . 0x3 - 0x10: 3 to 16 ..."
rgroup.long 0x1004++0x3
line.long 0x00 "WFIFOSTS,The Write FIFO status register."
hexmask.long.byte 0x00 0.--7. 1. " WLVL ,Write level (read-only). Number of 32-bit words currently in write FIFO. - . - . - . 0x3 - 0x40: 3 to 64 words currently in write FIFO.. - . 0x41 - 0xFF: Reserved.. - ."
group.long 0x1008++0x3
line.long 0x00 "RFIFOCTL,The Read FIFO control register. The RNUMEVT and RNUMDMA values must be set prior to enabling the Read FIFO. If the Read FIFO is to be enabled, it must be enabled prior to taking the MCASP out of reset."
bitfld.long 0x00 16. " RENA ,Read FIFO enable bit. - . - ." "0,1"
hexmask.long.byte 0x00 8.--15. 1. "   RNUMEVT ,Read word count (32-bit) to generate RX event to host. When Read FIFO has number of word available which is more or equal to this value then receive event will be generated to host/DMA. - . - . - . 0x3 - 0x40: 3 to 64 words currently in rea..."
hexmask.long.byte 0x00 0.--7. 1. "  RNUMDMA ,Read word count (32-bit words). On receive DMA event from MCASP, the DMA engine will read specified number of words from MCASP. This value must equal the number of MCASP serializers used as transmitters. - . - . - . 0x3 - 0x10: 3-16 words. -..."
rgroup.long 0x100C++0x3
line.long 0x00 "RFIFOSTS,The Read FIFO status register"
hexmask.long.byte 0x00 0.--7. 1. " RLVL ,Read level (read-only). Number of 32-bit words currently in read FIFO. - . - . - . 0x3 - 0x40: 3 to 64 words currently in read FIFO.. - . 0x41 - 0xFF: Reserved.. - ."
width 0x0B
tree.end
tree.open "MCASP3_CFG"
tree "MCASP3_CFG"
base ad:0x48468000
tree "Channel_0"
width 18.
group.long 0x100++0x3
line.long 0x00 "MCASP_DITCSRAi_0,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x118++0x3
line.long 0x00 "MCASP_DITCSRBi_0,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x130++0x3
line.long 0x00 "MCASP_DITUDRAi_0,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x148++0x3
line.long 0x00 "MCASP_DITUDRBi_0,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
group.long 0x280++0x3
line.long 0x00 "MCASP_RXBUFn_0,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn    ,Receive Buffer n"
group.long 0x200++0x3
line.long 0x00 "MCASP_TXBUFn_0,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn    ,Transmit buffer n"
group.long 0x180++0x3
line.long 0x00 "MCASP_XRSRCTLn_0,Serializer n control register."
bitfld.long 0x00 5. " RRDY     ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                           "
bitfld.long 0x00 0.--1. " SRMOD    ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_1"
width 18.
group.long 0x104++0x3
line.long 0x00 "MCASP_DITCSRAi_1,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x11C++0x3
line.long 0x00 "MCASP_DITCSRBi_1,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x134++0x3
line.long 0x00 "MCASP_DITUDRAi_1,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x14C++0x3
line.long 0x00 "MCASP_DITUDRBi_1,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
group.long 0x284++0x3
line.long 0x00 "MCASP_RXBUFn_1,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn    ,Receive Buffer n"
group.long 0x204++0x3
line.long 0x00 "MCASP_TXBUFn_1,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn    ,Transmit buffer n"
group.long 0x184++0x3
line.long 0x00 "MCASP_XRSRCTLn_1,Serializer n control register."
bitfld.long 0x00 5. " RRDY     ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                           "
bitfld.long 0x00 0.--1. " SRMOD    ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_2"
width 18.
group.long 0x108++0x3
line.long 0x00 "MCASP_DITCSRAi_2,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x120++0x3
line.long 0x00 "MCASP_DITCSRBi_2,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x138++0x3
line.long 0x00 "MCASP_DITUDRAi_2,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x150++0x3
line.long 0x00 "MCASP_DITUDRBi_2,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
group.long 0x288++0x3
line.long 0x00 "MCASP_RXBUFn_2,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn    ,Receive Buffer n"
group.long 0x208++0x3
line.long 0x00 "MCASP_TXBUFn_2,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn    ,Transmit buffer n"
group.long 0x188++0x3
line.long 0x00 "MCASP_XRSRCTLn_2,Serializer n control register."
bitfld.long 0x00 5. " RRDY     ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                           "
bitfld.long 0x00 0.--1. " SRMOD    ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_3"
width 18.
group.long 0x10C++0x3
line.long 0x00 "MCASP_DITCSRAi_3,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x124++0x3
line.long 0x00 "MCASP_DITCSRBi_3,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x13C++0x3
line.long 0x00 "MCASP_DITUDRAi_3,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x154++0x3
line.long 0x00 "MCASP_DITUDRBi_3,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
group.long 0x28C++0x3
line.long 0x00 "MCASP_RXBUFn_3,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn    ,Receive Buffer n"
group.long 0x20C++0x3
line.long 0x00 "MCASP_TXBUFn_3,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn    ,Transmit buffer n"
group.long 0x18C++0x3
line.long 0x00 "MCASP_XRSRCTLn_3,Serializer n control register."
bitfld.long 0x00 5. " RRDY     ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                           "
bitfld.long 0x00 0.--1. " SRMOD    ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_4"
width 18.
group.long 0x110++0x3
line.long 0x00 "MCASP_DITCSRAi_4,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x128++0x3
line.long 0x00 "MCASP_DITCSRBi_4,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x140++0x3
line.long 0x00 "MCASP_DITUDRAi_4,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x158++0x3
line.long 0x00 "MCASP_DITUDRBi_4,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
tree.end
tree "Channel_5"
width 18.
group.long 0x114++0x3
line.long 0x00 "MCASP_DITCSRAi_5,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x12C++0x3
line.long 0x00 "MCASP_DITCSRBi_5,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x144++0x3
line.long 0x00 "MCASP_DITUDRAi_5,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x15C++0x3
line.long 0x00 "MCASP_DITUDRBi_5,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
tree.end
textline ""
width 18.
rgroup.long 0x0++0x3
line.long 0x00 "MCASP_PID,Peripheral identification register"
bitfld.long 0x00 30.--31. " SCHEME      ,Scheme. Distinguishes between old scheme and current." "0,1,2,3"
bitfld.long 0x00 28.--29. "            RESV      ,Reserved." "0,1,2,3"
hexmask.long.word 0x00 16.--27. 1. "            FUNCTION ,MCASP. Indicates a software-compatible module family."
textline "                           "
bitfld.long 0x00 11.--15. " RTL         ,RTL version." "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 8.--10. "   REVMAJOR  ,Major revision number." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6.--7. "            CUSTOM   ,Non-custom. Indicates a special version for a given device." "0,1,2,3"
textline "                           "
bitfld.long 0x00 0.--5. " REVMINOR    ,Minor revision number." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x4++0x3
line.long 0x00 "PWRIDLESYSCONFIG,Power idle module configuration register."
bitfld.long 0x00 2.--5. " OTHER       ,Reserved for future expansion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--1. "           IDLE_MODE ,0x0: Force-idle mode 0x1: No-idle mode 0x2: Smart-idle mode - default state 0x3: Reserved" "0,1,2,3"
group.long 0x10++0x3
line.long 0x00 "MCASP_PFUNC,Specifies the function of the pins as either a MCASP pin or a GPIO pin"
bitfld.long 0x00 31. " AFSR        ,Determines if AFSR pin (device level MCASPi_fsr signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 29. "        ACLKR     ,Determines if ACLKR pin (device level MCASPi_aclkr signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 28. "        AFSX     ,Determines if AFSX pin (device level MCASPi_fsx signal) functions as MCASP or GPIO. - GPIO. - ." "GPIO,GPIO"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Determines if AHCLKX pin (device level MCASPi_ahclkx signal) functions as MCASP or GPIO. - GPIO. - ." "GPIO,GPIO"
bitfld.long 0x00 26. "         ACLKX     ,Determines if ACLKX pin (device level MCASPi_aclkx signal) functions as MCASP or GPIO. - GPIO. - ." "GPIO,GPIO"
bitfld.long 0x00 15. "         AXR15    ,Determines if AXR15 pin (device level MCASPx_axr[15] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Determines if AXR14 pin (device level MCASPx_axr[14] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 13. "        AXR13     ,Determines if AXR13 pin (device level MCASPx_axr[13] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 12. "        AXR12    ,Determines if AXR12 pin (device level MCASPx_axr[12] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Determines if AXR11 pin (device level MCASPx_axr[11] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 10. "        AXR10     ,Determines if AXR10 pin (device level MCASPx_axr[10] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 9. "        AXR9     ,Determines if AXR9 pin (device level MCASPx_axr[9] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Determines if AXR8 pin (device level MCASPx_axr[8] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 7. "        AXR7      ,Determines if AXR7 pin (device level MCASPx_axr[7] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 6. "        AXR6     ,Determines if AXR6 pin (device level MCASPx_axr[6] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Determines if AXR5 pin (device level MCASPx_axr[5] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 4. "        AXR4      ,Determines if AXR4 pin (device level MCASPx_axr[4] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 3. "        AXR3     ,Determines if AXR3 pin (device level MCASPi_axr[3] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Determines if AXR2 pin (device level MCASPi_axr[2] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 1. "        AXR1      ,Determines if AXR1 pin (device level MCASPi_axr[1] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 0. "        AXR0     ,Determines if AXR0 pin (device level MCASPi_axr[0] signal) functions as MCASP or GPIO. - GPIO. - ." "GPIO,GPIO"
group.long 0x14++0x3
line.long 0x00 "MCASP_PDIR,Pin direction register - specifies the direction of the MCASP pins as either an input or an output pin."
bitfld.long 0x00 31. " AFSR        ,Determines if AFSR pin (device level MCASPi_fsr signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 29. "       ACLKR     ,Determines if ACLKR pin (device level MCASPi_aclkr signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 28. "       AFSX     ,Determines if AFSX pin (device level MCASPi_fsx signal) functions as an input or output. - OUTPUT. - ." "OUTPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Determines if AHCLKX pin (device level MCASPi_ahclkx signal) functions as an input or output. - OUTPUT. - ." "OUTPUT,OUTPUT"
bitfld.long 0x00 26. "       ACLKX     ,Determines if ACLKX pin (device level MCASPi_aclkx signal) functions as an input or output. - OUTPUT. - ." "OUTPUT,OUTPUT"
bitfld.long 0x00 15. "       AXR15    ,Determines if AXR15 pin (device level MCASPi_axr[15] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Determines if AXR14 pin (device level MCASPi_axr[14] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 13. "       AXR13     ,Determines if AXR13 pin (device level MCASPi_axr[13] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 12. "       AXR12    ,Determines if AXR12 pin (device level MCASPi_axr[12] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Determines if AXR11 pin (device level MCASPi_axr[11] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 10. "       AXR10     ,Determines if AXR10 pin (device level MCASPi_axr[10] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 9. "       AXR9     ,Determines if AXR9 pin (device level MCASPi_axr[9] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Determines if AXR8 pin (device level MCASPi_axr[8] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 7. "       AXR7      ,Determines if AXR7 pin (device level MCASPi_axr[7] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 6. "       AXR6     ,Determines if AXR6 pin (device level MCASPi_axr[6] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Determines if AXR5 pin (device level MCASPi_axr[5] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 4. "       AXR4      ,Determines if AXR4 pin (device level MCASPi_axr[4] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 3. "       AXR3     ,Determines if AXR3 pin (device level MCASPi_axr[3] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Determines if AXR2 pin (device level MCASPi_axr[2] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 1. "       AXR1      ,Determines if AXR1 pin (device level MCASPi_axr[1] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 0. "       AXR0     ,Determines if AXR0 pin (device level MCASPi_axr[0] signal) functions as an input or output. - OUTPUT. - ." "OUTPUT,OUTPUT"
group.long 0x18++0x3
line.long 0x00 "MCASP_PDOUT,Pin data output register - holds a value for data out at all times, and may be read back at all times. The value held by is not affected by writing to and . However, the data value in is driven out onto the MCASP pin only if the correspondi..."
bitfld.long 0x00 31. " AFSR        ,Determines drive on AFSR output pin when the correspondingMCASP_PFUNC[31] and MCASP_PDIR[31] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 30. "         AHCLKR    ,Determines drive on AHCLKR output pin when the correspondingMCASP_PFUNC[30] and MCASP_PDIR[30] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 29. "         ACLKR    ,Determines drive on ACLKR output pin when the correspondingMCASP_PFUNC[29] and MCASP_PDIR[29] bits are set to 1 - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 28. " AFSX        ,Determines drive on AFSX output pin when the correspondingMCASP_PFUNC[28] and MCASP_PDIR[28] bits are set to 1. - DRV1. - ." "DRV1,DRV1"
bitfld.long 0x00 27. "         AHCLKX    ,Determines drive on AHCLKX output pin when the correspondingMCASP_PFUNC[27] and MCASP_PDIR[27] bits are set to 1. - DRV1. - ." "DRV1,DRV1"
bitfld.long 0x00 26. "         ACLKX    ,Determines drive on ACLKX output pin when the correspondingMCASP_PFUNC[26] and MCASP_PDIR[26] bits are set to 1 - DRV1. - ." "DRV1,DRV1"
textline "                           "
bitfld.long 0x00 15. " AXR15       ,Determines drive on AXR15 output pin when the correspondingMCASP_PFUNC[15] and MCASP_PDIR[15] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 14. "         AXR14     ,Determines drive on AXR14 output pin when the correspondingMCASP_PFUNC[14] and MCASP_PDIR[14] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 13. "         AXR13    ,Determines drive on AXR13 output pin when the correspondingMCASP_PFUNC[13] and MCASP_PDIR[13] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 12. " AXR12       ,Determines drive on AXR12 output pin when the correspondingMCASP_PFUNC[12] and MCASP_PDIR[12] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 11. "         AXR11     ,Determines drive on AXR11 output pin when the correspondingMCASP_PFUNC[11] and MCASP_PDIR[11] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 10. "         AXR10    ,Determines drive on AXR10 output pin when the correspondingMCASP_PFUNC[10] and MCASP_PDIR[10] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 9. " AXR9        ,Determines drive on AXR9 output pin when the correspondingMCASP_PFUNC[9] and MCASP_PDIR[9] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 8. "         AXR8      ,Determines drive on AXR8 output pin when the correspondingMCASP_PFUNC[8] and MCASP_PDIR[8] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 7. "         AXR7     ,Determines drive on AXR7 output pin when the correspondingMCASP_PFUNC[7] and MCASP_PDIR[7] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 6. " AXR6        ,Determines drive on AXR6 output pin when the correspondingMCASP_PFUNC[6] and MCASP_PDIR[6] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 5. "         AXR5      ,Determines drive on AXR5 output pin when the correspondingMCASP_PFUNC[5] and MCASP_PDIR[5] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 4. "         AXR4     ,Determines drive on AXR4 output pin when the correspondingMCASP_PFUNC[4] and MCASP_PDIR[4] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 3. " AXR3        ,Determines drive on AXR3 output pin when the correspondingMCASP_PFUNC[3] and MCASP_PDIR[3] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 2. "         AXR2      ,Determines drive on AXR2 output pin when the correspondingMCASP_PFUNC[2] and MCASP_PDIR[2] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 1. "         AXR1     ,Determines drive on AXR1 output pin when the correspondingMCASP_PFUNC[1] and MCASP_PDIR[1] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 0. " AXR0        ,Determines drive on AXR0 output pin when the correspondingMCASP_PFUNC[0] and MCASP_PDIR[0] bits are set to 1. - DRV1. - ." "DRV1,DRV1"
rgroup.long 0x1C++0x3
line.long 0x00 "MCASP_PDIN,Pin data input register - holds the state of all the MCASP pins. allows reading the actual value of the pin, regardless of the state of and ."
bitfld.long 0x00 31. " AFSR        ,Logic level on AFSR pin (device level MCASPi_fsr signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 29. "         ACLKR     ,Logic level on ACLKR pin (device level MCASPi_aclkr signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 28. "         AFSX     ,Logic level on AFSX pin (device level MCASPi_fsx signal). - LOW. - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Logic level on AHCLKX pin (device level MCASPi_ahclkx signal). - LOW. - ." "LOW,HIGH"
bitfld.long 0x00 26. "         ACLKX     ,Logic level on ACLKX pin (device level MCASPi_aclkx signal). - LOW. - ." "LOW,HIGH"
bitfld.long 0x00 15. "         AXR15    ,Logic level on AXR15 pin (device level MCASPi_axr[15] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Logic level on AXR14 pin (device level MCASPi_axr[14] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 13. "         AXR13     ,Logic level on AXR13 pin (device level MCASPi_axr[13] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 12. "         AXR12    ,Logic level on AXR12 pin (device level MCASPi_axr[12] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Logic level on AXR11 pin (device level MCASPi_axr[11] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 10. "         AXR10     ,Logic level on AXR10 pin (device level MCASPi_axr[10] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 9. "         AXR9     ,Logic level on AXR9 pin (device level MCASPi_axr[9] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Logic level on AXR8 pin (device level MCASPi_axr[8] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 7. "         AXR7      ,Logic level on AXR7 pin (device level MCASPi_axr[7] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 6. "         AXR6     ,Logic level on AXR6 pin (device level MCASPi_axr[6] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Logic level on AXR5 pin (device level MCASPi_axr[5] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 4. "         AXR4      ,Logic level on AXR4 pin (device level MCASPi_axr[4] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 3. "         AXR3     ,Logic level on AXR3 pin (device level MCASPi_axr[3] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Logic level on AXR2 pin (device level MCASPi_axr[2] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 1. "         AXR1      ,Logic level on AXR1 pin (device level MCASPi_axr[1] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 0. "         AXR0     ,Logic level on AXR0 pin (device level MCASPi_axr[0] signal). - LOW. - ." "LOW,HIGH"
wgroup.long 0x1C++0x3
line.long 0x00 "MCASP_PDSET,The pin data set register is an alias of the pin data output register () for writes only. Writing a 1 to the bit sets the corresponding bit in and, if = 1 (GPIO function) and = 1 (output), drives a logic high on the pin."
bitfld.long 0x00 31. " AFSR        ,Allows the corresponding AFSR bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 29. "     ACLKR     ,Allows the corresponding ACLKR bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 28. "     AFSX     ,Allows the corresponding AFSX bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - SET. - ." "SET,SET"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Allows the corresponding AHCLKX bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - SET. - ." "SET,SET"
bitfld.long 0x00 26. "          ACLKX     ,Allows the corresponding ACLKX bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - SET. - ." "SET,SET"
bitfld.long 0x00 15. "          AXR15    ,Allows the AXR15 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Allows the AXR14 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 13. "     AXR13     ,Allows the AXR13 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 12. "     AXR12    ,Allows the AXR12 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Allows the AXR11 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 10. "     AXR10     ,Allows the AXR10 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 9. "     AXR9     ,Allows the AXR9 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Allows the AXR8 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 7. "     AXR7      ,Allows the AXR7 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 6. "     AXR6     ,Allows the AXR6 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Allows the AXR5 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 4. "     AXR4      ,Allows the AXR4 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 3. "     AXR3     ,Allows the AXR3 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Allows the AXR2 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 1. "     AXR1      ,Allows the AXR1 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 0. "     AXR0     ,Allows the AXR0 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - SET. - ." "SET,SET"
group.long 0x20++0x3
line.long 0x00 "MCASP_PDCLR,The pin data clear register is an alias of the pin data output register () for writes only. Writing a 1 to the bit clears the corresponding bit in and, if = 1 (GPIO function) and = 1 (output), drives a logic low on the pin."
bitfld.long 0x00 31. " AFSR        ,Allows the corresponding AFSR bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 29. "     ACLKR     ,Allows the corresponding ACLKR bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 28. "     AFSX     ,Allows the corresponding AFSX bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - CLEAR. - ." "CLEAR,CLEAR"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Allows the corresponding AHCLKX bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - CLEAR. - ." "CLEAR,CLEAR"
bitfld.long 0x00 26. "        ACLKX     ,Allows the corresponding ACLKX bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - CLEAR. - ." "CLEAR,CLEAR"
bitfld.long 0x00 15. "        AXR15    ,Allows the AXR15 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Allows the AXR14 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 13. "     AXR13     ,Allows the AXR13 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 12. "     AXR12    ,Allows the AXR12 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Allows the AXR11 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 10. "     AXR10     ,Allows the AXR10 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 9. "     AXR9     ,Allows the AXR9 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Allows the AXR8 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 7. "     AXR7      ,Allows the AXR7 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 6. "     AXR6     ,Allows the AXR6 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Allows the AXR5 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 4. "     AXR4      ,Allows the AXR4 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 3. "     AXR3     ,Allows the AXR3 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Allows the AXR2 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 1. "     AXR1      ,Allows the AXR1 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 0. "     AXR0     ,Allows the AXR0 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - CLEAR. - ." "CLEAR,CLEAR"
group.long 0x44++0x3
line.long 0x00 "MCASP_GBLCTL,Global transmit control register - provides initialization of the transmit and receive sections. The bit fields in are synchronized and latched by the transmitter and receiver corresponding clocks - MCASPi_aclkx clock ( bits [12:8] ) and M..."
bitfld.long 0x00 12. " XFRST       ,Transmit frame-sync generator reset enable bit - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 11. "       XSMRST    ,Transmit state-machine reset enable bit - RESET. AXR[n] pin state : If[n] = 0 and [n] = 1, the corresponding serializer [n] drives the AXR[n] pin to the state specified for inactive time slot.. - . - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 10. "       XSRCLR   ,Transmit serializer clear enable bit. By clearing and then setting this bit, the transmit buffer is flushed to an empty state (XDATA = 1). If XSMRST = 1, XSRCLR = 1, XDATA = 1, and XBUF is not loaded with new data before the start of t..." "CLEAR,ACTIVE"
textline "                           "
bitfld.long 0x00 9. " XHCLKRST    ,Transmit high-frequency clock divider reset enable bit - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 8. "       XCLKRST   ,Transmit clock divider reset enable bit - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 4. "       RFRST    ,Receive frame sync generator reset enable bit. - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 3. " RSMRST      ,Receive state machine reset enable bit. - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 2. "       RSRCLR    ,Receive serializer clear enable bit. By clearing then setting this bit, the receive buffer is flushed. - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
bitfld.long 0x00 1. "       RHCLKRST ,Receive high-frequency clock divider reset enable bit. - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 0. " RCLKRST     ,Receive clock divider reset enable bit. - RESET. - ACTIVE." "RESET,ACTIVE"
group.long 0x48++0x3
line.long 0x00 "MCASP_AMUTE,Mute control register - Controls the MCASP mute output pin - AMUTE (device level - not implemented)"
group.long 0x4C++0x3
line.long 0x00 "MCASP_LBCTL,The digital loopback control register () controls the internal (MCASP module)- level and chip-level loopback settings of the MCASP in TDM mode. Note that loopback is NOT supported if MCASP is configured in DIT mode."
bitfld.long 0x00 4. " IOLBEN      ,If DLBEN=0b1, the IOLBEN bit selects between and loopback modes. IOLBEN bit value is irrelevant, If DLBEN=0b0. - INTERNAL_LB. - CHIP_LB." "INTERNAL_LB,CHIP_LB"
bitfld.long 0x00 2.--3. "  MODE      ,Loopback generator mode bits. - NO_LOOPBACK. - LOOPBACK. 0x2, 0x3: Reserved. - RESERVED." "NO_LOOPBACK,LOOPBACK,2,3"
bitfld.long 0x00 1. "  ORD      ,Loopback order bit when loopback mode is enabled (DLBEN = 1). - ODD. - EVEN." "ODD,EVEN"
textline "                           "
bitfld.long 0x00 0. " DLBEN       ,Loop back mode enable bit. - DISABLE. - ENABLE." "DISABLE,ENABLE"
group.long 0x50++0x3
line.long 0x00 "MCASP_TXDITCTL,Transmit DIT mode control register, controls DIT operations of the MCASP"
bitfld.long 0x00 3. " VB          ,Valid bit for odd time slots (DIT right subframe). - ONESTUFF. - ." "ONESTUFF,ONESTUFF"
bitfld.long 0x00 2. "     VA        ,Valid bit for even time slots (DIT left subframe). - ONESTUFF. - ." "ONESTUFF,ONESTUFF"
bitfld.long 0x00 0. "     DITEN    ,DIT mode enable bit - I2S. - DIT." "I2S,DIT"
group.long 0x60++0x3
line.long 0x00 "MCASP_GBLCTLR,Alias of GBLCTL. When writing to this register, only the TRANSMIT bits of GBLCTL are affected (This means GBLCTL bits 8,9,10,11,12). Reads return GBLCTL"
bitfld.long 0x00 12. " XFRST       ,Frame sync generator reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 11. "       XSMRST    ,XMT state machine reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 10. "       XSRCLR   ,XMT serializer clear - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
textline "                           "
bitfld.long 0x00 9. " XHCLKRST    ,XMT High Freq. clk Divider - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 8. "       XCLKRST   ,XMT clock divder reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 4. "       RFRST    ,Frame sync generator reset - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 3. " RSMRST      ,RCV state machine reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 2. "       RSRCLR    ,RCV serializer clear - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
bitfld.long 0x00 1. "       RHCLKRST ,RCV High Freq. clk Divider - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 0. " RCLKRST     ,RCV clock divder reset - RESET. - ACTIVE." "RESET,ACTIVE"
group.long 0x64++0x3
line.long 0x00 "MCASP_RXMASK,The receive format unit bit mask register () determines which bits of the received data are masked off and padded with a known value before being read by the CPU."
hexmask.long 0x00 0.--31. 1. " RMASK[31:0] ,Receive data mask enable bit. - USEMASK. - NOMASK."
group.long 0x68++0x3
line.long 0x00 "MCASP_RXFMT,The receive bit stream format register () configures the receive data format."
bitfld.long 0x00 16.--17. " RDATDLY     ,Receive Frame sync delay of AXR[n] - 0BIT. - 1BIT. - 2BIT. - 2BIT." "0BIT,1BIT,2BIT,2BIT"
bitfld.long 0x00 15. "         RRVRS     ,Receive serial bitstream order - LSBFIRST. - MSBFIRST." "LSBFIRST,MSBFIRST"
bitfld.long 0x00 13.--14. "     RPAD     ,Pad value for extra bits in slot not belonging to the word. This field only applies to bits when RMASK[n] = 0. - ZERO. - ONE. - RPBIT. - RPBIT." "ZERO,ONE,RPBIT,RPBIT"
textline "                           "
bitfld.long 0x00 8.--12. " RPBIT       ,RPBIT value determines which bit (as read by the CPU from RBUF[n]) is used to pad the extra bits. This field only applies when RPAD = 2h. - . 0x01 - 0x1F: Pad with value of the bit positioned within the range RBUFn[31:1].. - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 4.--7. "           RSSZ      ,Receive slot size.0x0 - 0x2 : Reserved. - RSVD. - 8BITS. - RSVD. - 12BITS. - RSVD. - 16BITS. - RSVD. - 20BITS. - RSVD. - 24BITS. - RSVD. - 28BITS. - 32BITS. - 32BITS." "0,1,2,8BITS,RSVD,12BITS,RSVD,16BITS,RSVD,20BITS,RSVD,24BITS,RSVD,28BITS,32BITS,32BITS"
bitfld.long 0x00 3. "       RBUSEL   ,Selects whether reads from serializer buffer RBUF[n] originate from the peripheral configuration CFG port or the DATA port. - VBUSP. - VBUS." "VBUSP,VBUS"
textline "                           "
bitfld.long 0x00 0.--2. " RROT        ,Right-rotation value for receive rotate right format unit. - NONE. - 4BITS. - 8BITS. - 12BITS. - 16BITS. - 20BITS. - 24BITS. - 28BITS." "NONE,4BITS,8BITS,12BITS,16BITS,20BITS,24BITS,28BITS"
group.long 0x6C++0x3
line.long 0x00 "MCASP_RXFMCTL,The receive frame sync control register () configures the receive frame sync (AFSR)."
hexmask.long.word 0x00 7.--15. 1. " RMOD        ,Receive frame sync mode select bits. - . - . - . 0x3 - 0x20: 3-slot TDM to 32-slot TDM mode. - . 0x21 - 0x17F: Reserved. - . - . 0x181 - 0x1FF: Reserved. - ."
bitfld.long 0x00 4. "         FRWID     ,Receive frame sync width select bit indicates the width of the receive frame sync (AFSR) during its active period. - BIT. - WORD." "BIT,WORD"
bitfld.long 0x00 1. "         FSRM     ,Receive frame sync generation select bit. - EXTERNAL. - INTERNAL." "EXTERNAL,INTERNAL"
textline "                           "
bitfld.long 0x00 0. " FSRP        ,Receive frame sync polarity select bit. - RISINGEDGE. - FALLINGEDGE." "RISINGEDGE,FALLINGEDGE"
group.long 0x70++0x3
line.long 0x00 "MCASP_ACLKRCTL,The receive clock control register () configures the receive bit clock (ACLKR) and the receive clock generator."
bitfld.long 0x00 20. " BUSY        ,Status: logical OR of DIVBUSY, ADJBUSY. Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 19. "      DIVBUSY   ,Status: divide ratio change in progress? Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 18. "      ADJBUSY  ,Status: one-shot adjustment in progress? Not supported. - . - ." "NOTBUSY,BUSY"
textline "                           "
bitfld.long 0x00 16.--17. " CLKRADJ     ,CLKRDIV one-shot adjustment. Not supported. Bit field must always be written as 0x0.If CLKRDIV is set such that there are ?m? input clocks per one output clock, then for one output cycle: - 00 = (m+0) input clocks per output clock, i.e. n..." "PLUSZERO,MINUSONE,PLUSONE,PLUSZER0"
bitfld.long 0x00 7. "     CLKRP     ,Receive bitstream clock polarity select bit. Note that this bitfield does not have any effect, ifMCASP_ACLKXCTL[6] ASYNC = 0 - FALLINGEDGE. - RISINGEDGE." "FALLINGEDGE,RISINGEDGE"
bitfld.long 0x00 5. "  CLKRM    ,Receive bit clock source bit. Note that this bitfield does not have any effect, ifMCASP_ACLKXCTL[6] ASYNC = 0 - EXTERNAL. - INTERNAL." "EXTERNAL,INTERNAL"
textline "                           "
bitfld.long 0x00 0.--4. " CLKRDIV     ,Receive bit clock divide ratio bits determine the divide-down ratio from AHCLKR to ACLKR. Note that this bitfield does not have any effect, ifMCASP_ACLKXCTL[6] ASYNC = 0. - . - . 0x2 - 0x1F: Divide-by-3 to divide-by-32. - ." "0,0x01,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x74++0x3
line.long 0x00 "MCASP_AHCLKRCTL,The receive high-frequency clock control register () configures the receive high-frequency master clock (AHCLKR) and the receive clock generator."
bitfld.long 0x00 20. " BUSY        ,Status: logical OR of DIVBUSY, ADJBUSY. Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 19. "      DIVBUSY   ,Status: divide ratio change in progress? Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 18. "      ADJBUSY  ,Status: one-shot adjustment in progress? Not supported. - . - ." "NOTBUSY,BUSY"
textline "                           "
bitfld.long 0x00 16.--17. " HCLKRADJ    ,HCLKRDIV one-shot adjustment. Not supported. Bit field must always be written as 0x0. If HCLKRDIV is set such that there are ?m? input clocks per one output clock, then for one output cycle: - 00 = (m+0) input clocks per output clock, i.e..." "PLUSZERO,MINUSONE,PLUSONE,PLUSZER0"
bitfld.long 0x00 15. "     HCLKRM    ,High Freq. RCV clock Source - . - ." "EXTERNAL,INTERNAL"
bitfld.long 0x00 14. "     HCLKRP   ,Receive bitstream high-frequency clock polarity select bit. - NOTINVERTED. - INVERTED." "NOTINVERTED,INVERTED"
textline "                           "
hexmask.long.word 0x00 0.--11. 1. " HCLKRDIV    ,Receive high-frequency clock divide ratio bits determine the divide-down ratio from AUXCLK to AHCLKR. - . - . 0x2 - 0xFFF: Divide-by-3 to divide-by-4096. - ."
group.long 0x78++0x3
line.long 0x00 "MCASP_RXTDM,The receive TDM time slot register () specifies which TDM time slot the receiver is active."
hexmask.long 0x00 0.--31. 1. " RTDMS[31:0] ,Receiver mode during TDM time slot n. - INACTIVE. - ACTIVE."
group.long 0x7C++0x3
line.long 0x00 "MCASP_EVTCTLR,Receiver Interrupt control register - controls generation of the MCASP receive interrupt (RINT). When the register bit(s) is set to 1, the occurrence of the enabled MCASP condition(s) generates RINT."
bitfld.long 0x00 7. " RSTAFRM     ,Receive start of frame interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 5. "       RDATA     ,Receive data-ready interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 4. "       RLAST    ,Receive last slot interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
textline "                           "
bitfld.long 0x00 3. " RDMAERR     ,Receive DMA error interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 2. "       RCKFAIL   ,Receive clock failure interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 1. "       RSYNCERR ,Unexpected receive frame-sync interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
textline "                           "
bitfld.long 0x00 0. " ROVRN       ,Receiver overrun interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
group.long 0x80++0x3
line.long 0x00 "MCASP_RXSTAT,The receiver status register () provides the receiver status and receive TDM time slot number."
bitfld.long 0x00 8. " RERR        ,RERR bit always returns a logic-OR of: ROVRN | RSYNCERR | RCKFAIL | RDMAERR Allows a single bit to be checked to determine if a receiver error has occurred. - NOERROR. - ERROR." "NOERROR,ERROR"
bitfld.long 0x00 7. "      RDMAERR   ,Receive DMA error flag. RDMAERR is set when the CPU or DMA reads more serializers through the DMA port in a given time slot than were programmed as receivers. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has ..." "NOTOCCUR,OCCUR"
bitfld.long 0x00 6. "     RSTAFRM  ,Receive start of frame flag. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
textline "                           "
bitfld.long 0x00 5. " RDATA       ,Receive data ready flag. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
bitfld.long 0x00 4. "     RLAST     ,Receive last slot flag. RLAST is set along with RDATA, if the current slot is the last slot in a frame. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
bitfld.long 0x00 3. "     RTDMSLOT ,Returns the LSB of RSLOT. Allows a single read ofMCASP_RXSTAT to determine whether the current TDM time slot is even or odd. - ODDSLOT. - EVENSLOT." "ODDSLOT,EVENSLOT"
textline "                           "
bitfld.long 0x00 2. " RCKFAIL     ,Receive clock failure flag. RCKFAIL is set when the receive clock failure detection circuit reports an error. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
bitfld.long 0x00 1. "     RSYNCERR  ,Unexpected receive frame sync flag. RSYNCERR is set when a new receive frame sync (AFSR) occurs before it is expected. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
bitfld.long 0x00 0. "     ROVRN    ,Receiver overrun flag. ROVRN is set when the receive serializer is instructed to transfer data from XRSR to RBUF, but the former data in RBUF has not yet been read by the CPU or DMA. This bit is cleared by writing a 1 to this bit. Writin..." "NOTOCCUR,OCCUR"
rgroup.long 0x84++0x3
line.long 0x00 "MCASP_RXTDMSLOT,The current receive TDM time slot register () indicates the current time slot for the receive data frame."
hexmask.long.word 0x00 0.--8. 1. " RSLOTCNT    ,0x0 - 0x17F: Current receive time slot count. Legal values: 0 to 383 (17Fh). TDM function is not supported for > 32 time slots. However, TDM time slot counter may count to 383 when used to receive a DIR block (transferred over TDM ..."
group.long 0x88++0x3
line.long 0x00 "MCASP_RXCLKCHK,The receive clock check control register (RCLKCHK) configures the receive clock failure detection circuit."
hexmask.long.byte 0x00 24.--31. 1. " RCNT        ,0x0 - 0xFF: Receive clock count value (from previous measurement). The clock circuit continually counts the number of interface clocks for every 32 receive high-frequency master clock (AHCLKR) signals, and stores the count in RCNT until t..."
hexmask.long.byte 0x00 16.--23. 1. "           RMAX      ,0x00-0xFF: Receive clock maximum boundary. This 8-bit unsigned value sets the maximum allowed boundary for the clock check counter after 32 receive high-frequency master clock (AHCLKR) signals have been received. If the current co..."
hexmask.long.byte 0x00 8.--15. 1. "           RMIN     ,0x00 - 0xFF: Receive clock minimum boundary. This 8-bit unsigned value sets the minimum allowed boundary for the clock check counter after 32 receive high-frequency master clock (AHCLKR) signals have been received. If RCNT is less ..."
textline "                           "
bitfld.long 0x00 0.--3. " RPS         ,Receive clock check prescaler value. - DIVBY64. - DIVBY2. - DIVBY128. - DIVBY1. - DIVBY4. - DIVBY256. - DIVBY16. - DIVBY32. - DIVBY8. 0x9 - 0xF: Reserved. - DIVBY8." "DIVBY64,DIVBY2,DIVBY128,DIVBY1,DIVBY4,DIVBY256,DIVBY16,DIVBY32,DIVBY8,9,10,11,12,13,14,15"
group.long 0x8C++0x3
line.long 0x00 "MCASP_REVTCTL,Receiver DMA event control register"
bitfld.long 0x00 0. " RDATDMA     ,Receive data DMA request enable bit. - . - ." "ENABLE,DISABLE"
group.long 0xA0++0x3
line.long 0x00 "MCASP_GBLCTLX,Alias of GBLCTL. When writing to this register, only the TRANSMIT bits of GBLCTL are affected (This means GBLCTL bits 8,9,10,11,12.). Reads return GBLCTL."
bitfld.long 0x00 12. " XFRST       ,Frame sync generator reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 11. "       XSMRST    ,XMT state machine reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 10. "       XSRCLR   ,XMT serializer clear - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
textline "                           "
bitfld.long 0x00 9. " XHCLKRST    ,XMT High Freq. clk Divider - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 8. "       XCLKRST   ,XMT clock divder reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 4. "       RFRST    ,Frame sync generator reset - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 3. " RSMRST      ,RCV state machine reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 2. "       RSRCLKR   ,RCV serializer clear - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
bitfld.long 0x00 1. "       RHCLKRST ,RCV High Freq. clk Divider - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 0. " RCLKRST     ,RCV clock divder reset - RESET. - ACTIVE." "RESET,ACTIVE"
group.long 0xA4++0x3
line.long 0x00 "MCASP_TXMASK,Transmit format unit bit mask register - Determines which bits of the transmitted data are masked off before being shifted out the MCASP"
hexmask.long 0x00 0.--31. 1. " XMASK[31:0] ,Transmit data mask enable bit - . - ."
group.long 0xA8++0x3
line.long 0x00 "MCASP_TXFMT,Transmit bitstream format register - configures the transmit data format"
bitfld.long 0x00 16.--17. " XDATDLY     ,Transmit sync bit delay - 0BIT. - 1BIT. - 2BIT. - 2BIT." "0BIT,1BIT,2BIT,2BIT"
bitfld.long 0x00 15. "         XRVRS     ,Transmit serial bitstream order - . - ." "LSBFIRST,MSBFIRST"
bitfld.long 0x00 13.--14. "     XPAD     ,Pad value for extra bits in slot not belonging to word defined by XMASK. This field only applies to bits when XMASK[n] = 0. - . - . - . - ." "ZERO,ONE,XPBIT,3"
textline "                           "
bitfld.long 0x00 8.--12. " XPBIT       ,XPBIT value determines which bit (as written by the CPU or DMA to XBUF[n]) is used to pad the extra bits before shifting. This field only applies when XPAD = 0x2." "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 4.--7. "   XSSZ      ,Transmit slot size0x0 - 0x2 : Reserved. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - ." "0,1,2,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,32BITS"
bitfld.long 0x00 3. "       XBUSEL   ,Selects whether writes to the serializer buffer XBUF[n] originate from the peripheral configuration CFG port or the DATA port. - VBUSP. - VBUS." "VBUSP,VBUS"
textline "                           "
bitfld.long 0x00 0.--2. " XROT        ,Right-rotation value for transmit rotate right format unit - 12BITS. - . - . - . - . - . - . - ." "12BITS,4BITS,8BITS,12BITS,16BITS,20BITS,24BITS,28BITS"
group.long 0xAC++0x3
line.long 0x00 "MCASP_TXFMCTL,Transmit frame-sync control register - configures the transmit frame sync (MCASPi_fsx)."
hexmask.long.word 0x00 7.--15. 1. " XMOD        ,Transmit frame-sync mode select bits 0x0: Burst mode 0x1: Reserved 0x2: 2-slot TDM mode () 0x3 - 0x20: 3-slot TDM to 32-slot TDM mode 0x21 - 0x17F: Reserved 0x180: 384-slot DIT mode All other: Reserved"
bitfld.long 0x00 4. "         FXWID     ,The transmit frame-sync width select bit indicates the width of the transmit frame sync (MCASPi_fsx) during its active period. - WORD. - ." "WORD,WORD"
bitfld.long 0x00 1. "         FSXM     ,Transmit frame-sync generation select bit - INTERNAL. - ." "INTERNAL,INTERNAL"
textline "                           "
bitfld.long 0x00 0. " FSXP        ,Transmit frame-sync polarity select bit - FALLINGEDGE. - ." "FALLINGEDGE,FALLINGEDGE"
group.long 0xB0++0x3
line.long 0x00 "MCASP_ACLKXCTL,Transmit clock control register - Configures the transmit bit clock (MCASPi_aclkx) and the transmit clock generator."
bitfld.long 0x00 20. " BUSY        ,Status: logical OR of DIVBUSY, ADJBUSY. Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 19. "      DIVBUSY   ,Status: divide ratio change in progress? Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 18. "      ADJBUSY  ,Status: one-shot adjustment in progress? Not supported. - . - ." "NOTBUSY,BUSY"
textline "                           "
bitfld.long 0x00 16.--17. " CLKXADJ     ,CLKXDIV one-shot adjustment. Not supported. Bit field must always be written as 0x0. If CLKXDIV is set such that there are ?m? input clocks per one output clock, then for one output cycle: - 00 = (m+0) input clocks per output clock, i.e. ..." "PLUSZERO,MINUSONE,PLUSONE,PLUSZER0"
bitfld.long 0x00 7. "     CLKXP     ,Transmit bitstream clock polarity select bit. - . - ." "RISINGEDGE,FALLINGEDGE"
bitfld.long 0x00 6. "  ASYNC    ,Transmit operation asynchronous enable bit - ASYNC. - ." "ASYNC,ASYNC"
textline "                           "
bitfld.long 0x00 5. " CLKXM       ,Transmit bit clock source bit - INTERNAL. - ." "INTERNAL,INTERNAL"
bitfld.long 0x00 0.--4. "     CLKXDIV   ,Transmit bit clock divide ratio bits, determine the divide-down ratio from AHCLKX to ACLKX. 0x0: Divide-by-1 0x1: Divide-by-2 0x2 to 0x1F: Divide-by-3 to divide-by-32" "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
group.long 0xB4++0x3
line.long 0x00 "MCASP_AHCLKXCTL,High-frequency transmit clock control register - Configures the transmit high-frequency master clock (MCASPi_ahclkx) and the transmit clock generator."
bitfld.long 0x00 20. " BUSY        ,Status: logical OR of DIVBUSY, ADJBUSY. Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 19. "      DIVBUSY   ,Status: divide ratio change in progress? Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 18. "      ADJBUSY  ,Status: one-shot adjustment in progress? Not supported. - . - ." "NOTBUSY,BUSY"
textline "                           "
bitfld.long 0x00 16.--17. " HCLKXADJ    ,HCLKXDIV one-shot adjustment. Not supported. Bit field must always be written as 0x0. If HCLKXDIV is set such that there are ?m? input clocks per one output clock, then for one output cycle: - 00 = (m+0) input clocks per output clock, i.e..." "PLUSZERO,MINUSONE,PLUSONE,PLUSZER0"
bitfld.long 0x00 15. "     HCLKXM    ,Transmit high-frequency clock source bit - INTERNAL. - ." "INTERNAL,INTERNAL"
bitfld.long 0x00 14. "     HCLKXP   ,Transmit bitstream high-frequency clock polarity select bit. - . - ." "NOTINVERTED,INVERTED"
textline "                           "
hexmask.long.word 0x00 0.--11. 1. " HCLKXDIV    ,Transmit high-frequency clock divide ratio bits determine the divide-down ratio from AUXCLK to MCASPi_ahclkx. 0x0: Divide-by-1 0x1: Divide-by-2 0x2 to 0xFFF: Divide-by-3 to divide-by-4096"
group.long 0xB8++0x3
line.long 0x00 "MCASP_TXTDM,Transmit TDM slot 0-31 register - TDM time slot counter range is to 384 slots (to support SPDIF blocks of 384 subframes)."
hexmask.long 0x00 0.--31. 1. " XTDMS[31:0] ,Transmitter mode during TDM time slot n (n = 0..31) - . - ."
group.long 0xBC++0x3
line.long 0x00 "MCASP_EVTCTLX,Transmitter Interrupt control register - controls generation of the MCASP transmit interrupt (XINT). When the register bit(s) is set to 1, the occurrence of the enabled MCASP condition(s) generates XINT."
bitfld.long 0x00 7. " XSTAFRM     ,Transmit start of frame interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 5. "       XDATA     ,Transmit data-ready interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 4. "       XLAST    ,Transmit last slot interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
textline "                           "
bitfld.long 0x00 3. " XDMAERR     ,Transmit DMA error interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 2. "       XCKFAIL   ,Transmit clock failure interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 1. "       XSYNCERR ,Unexpected transmit frame-sync interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
textline "                           "
bitfld.long 0x00 0. " XUNDRN      ,Transmitter underrun interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
group.long 0xC0++0x3
line.long 0x00 "MCASP_TXSTAT,Transmitter status register - If the MCASP logic attempts to set an interrupt flag in the same cycle that the CPU writes to the flag to clear it, the MCASP logic has priority and the flag remains set. This also causes the generation of a n..."
bitfld.long 0x00 8. " XERR        ,XERR bit always returns a logic-OR of: XUNDRN | XSYNCERR | XCKFAIL | XDMAERR. Allows a single bit to be checked to determine if a transmitter error interrupt has occurred. - ERROR. - ." "ERROR,ERROR"
bitfld.long 0x00 7. "        XDMAERR   ,Transmit DMA error flag. XDMAERR is set when the CPU or DMA writes more words to the DATA port of the MCASP in a given time slot than it should. Causes a transmit interrupt (XINT) if this bit and XDMAERR inMCASP_EVTCTLX are set. This..." "OCCUR,OCCUR"
bitfld.long 0x00 6. "        XSTAFRM  ,Transmit start of frame flag. Causes a transmit interrupt (XINT) if this bit and XSTAFRM inMCASP_EVTCTLX are set. This bit is cleared by writing a 1 to it. Writing a 0 has no effect. - OCCUR. - ." "OCCUR,OCCUR"
textline "                           "
bitfld.long 0x00 5. " XDATA       ,Transmit data ready flag. Causes a transmit interrupt (XINT) if this bit and XDATA inMCASP_EVTCTLX are set. This bit is cleared by writing a 1 to iit. Writing a 0 has no effect - OCCUR. - ." "OCCUR,OCCUR"
bitfld.long 0x00 4. "        XLAST     ,Transmit last slot flag. XLAST, along with XDATA, are set if the current slot is the last slot in a frame. Causes a transmit interrupt (XINT) if this bit and XLAST inMCASP_EVTCTLX are set. This bit is cleared by writing a 1 to iit. W..." "OCCUR,OCCUR"
bitfld.long 0x00 3. "        XTDMSLOT ,Returns the LSB of XSLOT. Allows a single read of XSTAT to determine whether the current TDM time slot is even or odd. - EVENSLOT. - ." "EVENSLOT,EVENSLOT"
textline "                           "
bitfld.long 0x00 2. " XCKFAIL     ,Transmit clock failure flag. XCKFAIL is set when the transmit clock failure detection circuit reports an error. Causes a transmit interrupt (XINT) if this bit and XCKFAIL inMCASP_EVTCTLX are set. This bit is cleared by writing a 1 to iit...." "OCCUR,OCCUR"
bitfld.long 0x00 1. "        XSYNCERR  ,Unexpected transmit frame-sync flag. XSYNCERR is set when a new transmit frame sync (AFSX) occurs before it is expected. Causes a transmit interrupt (XINT) if this bit and XSYNCERR inMCASP_EVTCTLX are set. This bit is cleared by writ..." "OCCUR,OCCUR"
bitfld.long 0x00 0. "        XUNDRN   ,Transmitter underrun flag. XUNDRN is set when the transmit serializer is instructed to transfer data from XBUF[n] to XRSR[n], but XBUF[n] has not yet been serviced with new data since the last transfer. Causes a transmit interrupt (XI..." "OCCUR,OCCUR"
rgroup.long 0xC4++0x3
line.long 0x00 "MCASP_TXTDMSLOT,Current transmit TDM time slot register"
hexmask.long.word 0x00 0.--8. 1. " XSLOTCNT    ,Current transmit time slot count. the value of this register is 0b0101111111 (0x17f) during reset and 0 after reset."
group.long 0xC8++0x3
line.long 0x00 "MCASP_TXCLKCHK,Transmit clock check control register - configures the transmit clock failure detection circuit."
hexmask.long.byte 0x00 24.--31. 1. " XCNT        ,Transmit clock count value (from previous measurement). The clock circuit continually counts the number of interface clocks for every 32 transmit high-frequency master clock (MCASPi_ahclkx) signals, and stores the count in XCNT until the ..."
hexmask.long.byte 0x00 16.--23. 1. "           XMAX      ,0x0 to 0xFF: Transmit clock maximum boundary. This 8-bit unsigned value sets the maximum allowed boundary for the clock check counter after 32 transmit high-frequency master clock (MCASPi_ahclkx) signals have been received. If the..."
hexmask.long.byte 0x00 8.--15. 1. "           XMIN     ,0x0 to 0xFF: Transmit clock minimum boundary. This 8-bit unsigned value sets the minimum allowed boundary for the clock check counter after 32 transmit high-frequency master clock (MCASPi_ahclkx) signals have been received. If XCNT..."
textline "                           "
bitfld.long 0x00 0.--3. " XPS         ,Transmit clock check prescaler value 0x0: MCASP interface clock divided by 1 0x1: MCASP interface clock divided by 2 0x2: MCASP interface clock divided by 4 0x3: MCASP interface clock divided by 8 0x4: MCASP interface clock divided by 16 ..." "DIVBY1,DIVBY2,DIVBY4,DIVBY8,DIVBY16,DIVBY32,DIVBY64,DIVBY128,DIVBY256,9,10,11,12,13,14,15"
group.long 0xCC++0x3
line.long 0x00 "MCASP_XEVTCTL,Transmitter DMA event control register"
bitfld.long 0x00 0. " XDATDMA     ,Transmit data DMA request enable bit. - . - ." "ENABLE,DISABLE"
group.long 0xD0++0x3
line.long 0x00 "MCASP_CLKADJEN,One-Shot Clock Adjustment Enable"
bitfld.long 0x00 0. " ENABLE      ,One-shot clock adjust enable. Not supported. Bit field must always be written as 0x0. - DISABLE. - ENABLE." "DISABLE,ENABLE"
width 0x0B
tree.end
tree "MCASP4_CFG"
base ad:0x4846C000
tree "Channel_0"
width 18.
group.long 0x100++0x3
line.long 0x00 "MCASP_DITCSRAi_0,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x118++0x3
line.long 0x00 "MCASP_DITCSRBi_0,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x130++0x3
line.long 0x00 "MCASP_DITUDRAi_0,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x148++0x3
line.long 0x00 "MCASP_DITUDRBi_0,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
group.long 0x280++0x3
line.long 0x00 "MCASP_RXBUFn_0,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn    ,Receive Buffer n"
group.long 0x200++0x3
line.long 0x00 "MCASP_TXBUFn_0,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn    ,Transmit buffer n"
group.long 0x180++0x3
line.long 0x00 "MCASP_XRSRCTLn_0,Serializer n control register."
bitfld.long 0x00 5. " RRDY     ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                           "
bitfld.long 0x00 0.--1. " SRMOD    ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_1"
width 18.
group.long 0x104++0x3
line.long 0x00 "MCASP_DITCSRAi_1,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x11C++0x3
line.long 0x00 "MCASP_DITCSRBi_1,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x134++0x3
line.long 0x00 "MCASP_DITUDRAi_1,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x14C++0x3
line.long 0x00 "MCASP_DITUDRBi_1,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
group.long 0x284++0x3
line.long 0x00 "MCASP_RXBUFn_1,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn    ,Receive Buffer n"
group.long 0x204++0x3
line.long 0x00 "MCASP_TXBUFn_1,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn    ,Transmit buffer n"
group.long 0x184++0x3
line.long 0x00 "MCASP_XRSRCTLn_1,Serializer n control register."
bitfld.long 0x00 5. " RRDY     ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                           "
bitfld.long 0x00 0.--1. " SRMOD    ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_2"
width 18.
group.long 0x108++0x3
line.long 0x00 "MCASP_DITCSRAi_2,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x120++0x3
line.long 0x00 "MCASP_DITCSRBi_2,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x138++0x3
line.long 0x00 "MCASP_DITUDRAi_2,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x150++0x3
line.long 0x00 "MCASP_DITUDRBi_2,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
group.long 0x288++0x3
line.long 0x00 "MCASP_RXBUFn_2,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn    ,Receive Buffer n"
group.long 0x208++0x3
line.long 0x00 "MCASP_TXBUFn_2,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn    ,Transmit buffer n"
group.long 0x188++0x3
line.long 0x00 "MCASP_XRSRCTLn_2,Serializer n control register."
bitfld.long 0x00 5. " RRDY     ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                           "
bitfld.long 0x00 0.--1. " SRMOD    ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_3"
width 18.
group.long 0x10C++0x3
line.long 0x00 "MCASP_DITCSRAi_3,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x124++0x3
line.long 0x00 "MCASP_DITCSRBi_3,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x13C++0x3
line.long 0x00 "MCASP_DITUDRAi_3,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x154++0x3
line.long 0x00 "MCASP_DITUDRBi_3,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
group.long 0x28C++0x3
line.long 0x00 "MCASP_RXBUFn_3,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn    ,Receive Buffer n"
group.long 0x20C++0x3
line.long 0x00 "MCASP_TXBUFn_3,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn    ,Transmit buffer n"
group.long 0x18C++0x3
line.long 0x00 "MCASP_XRSRCTLn_3,Serializer n control register."
bitfld.long 0x00 5. " RRDY     ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                           "
bitfld.long 0x00 0.--1. " SRMOD    ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_4"
width 18.
group.long 0x110++0x3
line.long 0x00 "MCASP_DITCSRAi_4,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x128++0x3
line.long 0x00 "MCASP_DITCSRBi_4,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x140++0x3
line.long 0x00 "MCASP_DITUDRAi_4,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x158++0x3
line.long 0x00 "MCASP_DITUDRBi_4,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
tree.end
tree "Channel_5"
width 18.
group.long 0x114++0x3
line.long 0x00 "MCASP_DITCSRAi_5,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x12C++0x3
line.long 0x00 "MCASP_DITCSRBi_5,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x144++0x3
line.long 0x00 "MCASP_DITUDRAi_5,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x15C++0x3
line.long 0x00 "MCASP_DITUDRBi_5,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
tree.end
textline ""
width 18.
rgroup.long 0x0++0x3
line.long 0x00 "MCASP_PID,Peripheral identification register"
bitfld.long 0x00 30.--31. " SCHEME      ,Scheme. Distinguishes between old scheme and current." "0,1,2,3"
bitfld.long 0x00 28.--29. "            RESV      ,Reserved." "0,1,2,3"
hexmask.long.word 0x00 16.--27. 1. "            FUNCTION ,MCASP. Indicates a software-compatible module family."
textline "                           "
bitfld.long 0x00 11.--15. " RTL         ,RTL version." "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 8.--10. "   REVMAJOR  ,Major revision number." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6.--7. "            CUSTOM   ,Non-custom. Indicates a special version for a given device." "0,1,2,3"
textline "                           "
bitfld.long 0x00 0.--5. " REVMINOR    ,Minor revision number." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x4++0x3
line.long 0x00 "PWRIDLESYSCONFIG,Power idle module configuration register."
bitfld.long 0x00 2.--5. " OTHER       ,Reserved for future expansion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--1. "           IDLE_MODE ,0x0: Force-idle mode 0x1: No-idle mode 0x2: Smart-idle mode - default state 0x3: Reserved" "0,1,2,3"
group.long 0x10++0x3
line.long 0x00 "MCASP_PFUNC,Specifies the function of the pins as either a MCASP pin or a GPIO pin"
bitfld.long 0x00 31. " AFSR        ,Determines if AFSR pin (device level MCASPi_fsr signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 29. "        ACLKR     ,Determines if ACLKR pin (device level MCASPi_aclkr signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 28. "        AFSX     ,Determines if AFSX pin (device level MCASPi_fsx signal) functions as MCASP or GPIO. - GPIO. - ." "GPIO,GPIO"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Determines if AHCLKX pin (device level MCASPi_ahclkx signal) functions as MCASP or GPIO. - GPIO. - ." "GPIO,GPIO"
bitfld.long 0x00 26. "         ACLKX     ,Determines if ACLKX pin (device level MCASPi_aclkx signal) functions as MCASP or GPIO. - GPIO. - ." "GPIO,GPIO"
bitfld.long 0x00 15. "         AXR15    ,Determines if AXR15 pin (device level MCASPx_axr[15] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Determines if AXR14 pin (device level MCASPx_axr[14] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 13. "        AXR13     ,Determines if AXR13 pin (device level MCASPx_axr[13] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 12. "        AXR12    ,Determines if AXR12 pin (device level MCASPx_axr[12] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Determines if AXR11 pin (device level MCASPx_axr[11] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 10. "        AXR10     ,Determines if AXR10 pin (device level MCASPx_axr[10] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 9. "        AXR9     ,Determines if AXR9 pin (device level MCASPx_axr[9] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Determines if AXR8 pin (device level MCASPx_axr[8] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 7. "        AXR7      ,Determines if AXR7 pin (device level MCASPx_axr[7] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 6. "        AXR6     ,Determines if AXR6 pin (device level MCASPx_axr[6] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Determines if AXR5 pin (device level MCASPx_axr[5] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 4. "        AXR4      ,Determines if AXR4 pin (device level MCASPx_axr[4] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 3. "        AXR3     ,Determines if AXR3 pin (device level MCASPi_axr[3] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Determines if AXR2 pin (device level MCASPi_axr[2] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 1. "        AXR1      ,Determines if AXR1 pin (device level MCASPi_axr[1] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 0. "        AXR0     ,Determines if AXR0 pin (device level MCASPi_axr[0] signal) functions as MCASP or GPIO. - GPIO. - ." "GPIO,GPIO"
group.long 0x14++0x3
line.long 0x00 "MCASP_PDIR,Pin direction register - specifies the direction of the MCASP pins as either an input or an output pin."
bitfld.long 0x00 31. " AFSR        ,Determines if AFSR pin (device level MCASPi_fsr signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 29. "       ACLKR     ,Determines if ACLKR pin (device level MCASPi_aclkr signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 28. "       AFSX     ,Determines if AFSX pin (device level MCASPi_fsx signal) functions as an input or output. - OUTPUT. - ." "OUTPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Determines if AHCLKX pin (device level MCASPi_ahclkx signal) functions as an input or output. - OUTPUT. - ." "OUTPUT,OUTPUT"
bitfld.long 0x00 26. "       ACLKX     ,Determines if ACLKX pin (device level MCASPi_aclkx signal) functions as an input or output. - OUTPUT. - ." "OUTPUT,OUTPUT"
bitfld.long 0x00 15. "       AXR15    ,Determines if AXR15 pin (device level MCASPi_axr[15] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Determines if AXR14 pin (device level MCASPi_axr[14] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 13. "       AXR13     ,Determines if AXR13 pin (device level MCASPi_axr[13] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 12. "       AXR12    ,Determines if AXR12 pin (device level MCASPi_axr[12] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Determines if AXR11 pin (device level MCASPi_axr[11] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 10. "       AXR10     ,Determines if AXR10 pin (device level MCASPi_axr[10] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 9. "       AXR9     ,Determines if AXR9 pin (device level MCASPi_axr[9] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Determines if AXR8 pin (device level MCASPi_axr[8] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 7. "       AXR7      ,Determines if AXR7 pin (device level MCASPi_axr[7] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 6. "       AXR6     ,Determines if AXR6 pin (device level MCASPi_axr[6] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Determines if AXR5 pin (device level MCASPi_axr[5] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 4. "       AXR4      ,Determines if AXR4 pin (device level MCASPi_axr[4] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 3. "       AXR3     ,Determines if AXR3 pin (device level MCASPi_axr[3] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Determines if AXR2 pin (device level MCASPi_axr[2] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 1. "       AXR1      ,Determines if AXR1 pin (device level MCASPi_axr[1] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 0. "       AXR0     ,Determines if AXR0 pin (device level MCASPi_axr[0] signal) functions as an input or output. - OUTPUT. - ." "OUTPUT,OUTPUT"
group.long 0x18++0x3
line.long 0x00 "MCASP_PDOUT,Pin data output register - holds a value for data out at all times, and may be read back at all times. The value held by is not affected by writing to and . However, the data value in is driven out onto the MCASP pin only if the correspondi..."
bitfld.long 0x00 31. " AFSR        ,Determines drive on AFSR output pin when the correspondingMCASP_PFUNC[31] and MCASP_PDIR[31] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 30. "         AHCLKR    ,Determines drive on AHCLKR output pin when the correspondingMCASP_PFUNC[30] and MCASP_PDIR[30] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 29. "         ACLKR    ,Determines drive on ACLKR output pin when the correspondingMCASP_PFUNC[29] and MCASP_PDIR[29] bits are set to 1 - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 28. " AFSX        ,Determines drive on AFSX output pin when the correspondingMCASP_PFUNC[28] and MCASP_PDIR[28] bits are set to 1. - DRV1. - ." "DRV1,DRV1"
bitfld.long 0x00 27. "         AHCLKX    ,Determines drive on AHCLKX output pin when the correspondingMCASP_PFUNC[27] and MCASP_PDIR[27] bits are set to 1. - DRV1. - ." "DRV1,DRV1"
bitfld.long 0x00 26. "         ACLKX    ,Determines drive on ACLKX output pin when the correspondingMCASP_PFUNC[26] and MCASP_PDIR[26] bits are set to 1 - DRV1. - ." "DRV1,DRV1"
textline "                           "
bitfld.long 0x00 15. " AXR15       ,Determines drive on AXR15 output pin when the correspondingMCASP_PFUNC[15] and MCASP_PDIR[15] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 14. "         AXR14     ,Determines drive on AXR14 output pin when the correspondingMCASP_PFUNC[14] and MCASP_PDIR[14] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 13. "         AXR13    ,Determines drive on AXR13 output pin when the correspondingMCASP_PFUNC[13] and MCASP_PDIR[13] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 12. " AXR12       ,Determines drive on AXR12 output pin when the correspondingMCASP_PFUNC[12] and MCASP_PDIR[12] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 11. "         AXR11     ,Determines drive on AXR11 output pin when the correspondingMCASP_PFUNC[11] and MCASP_PDIR[11] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 10. "         AXR10    ,Determines drive on AXR10 output pin when the correspondingMCASP_PFUNC[10] and MCASP_PDIR[10] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 9. " AXR9        ,Determines drive on AXR9 output pin when the correspondingMCASP_PFUNC[9] and MCASP_PDIR[9] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 8. "         AXR8      ,Determines drive on AXR8 output pin when the correspondingMCASP_PFUNC[8] and MCASP_PDIR[8] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 7. "         AXR7     ,Determines drive on AXR7 output pin when the correspondingMCASP_PFUNC[7] and MCASP_PDIR[7] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 6. " AXR6        ,Determines drive on AXR6 output pin when the correspondingMCASP_PFUNC[6] and MCASP_PDIR[6] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 5. "         AXR5      ,Determines drive on AXR5 output pin when the correspondingMCASP_PFUNC[5] and MCASP_PDIR[5] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 4. "         AXR4     ,Determines drive on AXR4 output pin when the correspondingMCASP_PFUNC[4] and MCASP_PDIR[4] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 3. " AXR3        ,Determines drive on AXR3 output pin when the correspondingMCASP_PFUNC[3] and MCASP_PDIR[3] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 2. "         AXR2      ,Determines drive on AXR2 output pin when the correspondingMCASP_PFUNC[2] and MCASP_PDIR[2] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 1. "         AXR1     ,Determines drive on AXR1 output pin when the correspondingMCASP_PFUNC[1] and MCASP_PDIR[1] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 0. " AXR0        ,Determines drive on AXR0 output pin when the correspondingMCASP_PFUNC[0] and MCASP_PDIR[0] bits are set to 1. - DRV1. - ." "DRV1,DRV1"
rgroup.long 0x1C++0x3
line.long 0x00 "MCASP_PDIN,Pin data input register - holds the state of all the MCASP pins. allows reading the actual value of the pin, regardless of the state of and ."
bitfld.long 0x00 31. " AFSR        ,Logic level on AFSR pin (device level MCASPi_fsr signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 29. "         ACLKR     ,Logic level on ACLKR pin (device level MCASPi_aclkr signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 28. "         AFSX     ,Logic level on AFSX pin (device level MCASPi_fsx signal). - LOW. - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Logic level on AHCLKX pin (device level MCASPi_ahclkx signal). - LOW. - ." "LOW,HIGH"
bitfld.long 0x00 26. "         ACLKX     ,Logic level on ACLKX pin (device level MCASPi_aclkx signal). - LOW. - ." "LOW,HIGH"
bitfld.long 0x00 15. "         AXR15    ,Logic level on AXR15 pin (device level MCASPi_axr[15] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Logic level on AXR14 pin (device level MCASPi_axr[14] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 13. "         AXR13     ,Logic level on AXR13 pin (device level MCASPi_axr[13] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 12. "         AXR12    ,Logic level on AXR12 pin (device level MCASPi_axr[12] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Logic level on AXR11 pin (device level MCASPi_axr[11] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 10. "         AXR10     ,Logic level on AXR10 pin (device level MCASPi_axr[10] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 9. "         AXR9     ,Logic level on AXR9 pin (device level MCASPi_axr[9] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Logic level on AXR8 pin (device level MCASPi_axr[8] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 7. "         AXR7      ,Logic level on AXR7 pin (device level MCASPi_axr[7] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 6. "         AXR6     ,Logic level on AXR6 pin (device level MCASPi_axr[6] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Logic level on AXR5 pin (device level MCASPi_axr[5] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 4. "         AXR4      ,Logic level on AXR4 pin (device level MCASPi_axr[4] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 3. "         AXR3     ,Logic level on AXR3 pin (device level MCASPi_axr[3] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Logic level on AXR2 pin (device level MCASPi_axr[2] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 1. "         AXR1      ,Logic level on AXR1 pin (device level MCASPi_axr[1] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 0. "         AXR0     ,Logic level on AXR0 pin (device level MCASPi_axr[0] signal). - LOW. - ." "LOW,HIGH"
wgroup.long 0x1C++0x3
line.long 0x00 "MCASP_PDSET,The pin data set register is an alias of the pin data output register () for writes only. Writing a 1 to the bit sets the corresponding bit in and, if = 1 (GPIO function) and = 1 (output), drives a logic high on the pin."
bitfld.long 0x00 31. " AFSR        ,Allows the corresponding AFSR bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 29. "     ACLKR     ,Allows the corresponding ACLKR bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 28. "     AFSX     ,Allows the corresponding AFSX bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - SET. - ." "SET,SET"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Allows the corresponding AHCLKX bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - SET. - ." "SET,SET"
bitfld.long 0x00 26. "          ACLKX     ,Allows the corresponding ACLKX bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - SET. - ." "SET,SET"
bitfld.long 0x00 15. "          AXR15    ,Allows the AXR15 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Allows the AXR14 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 13. "     AXR13     ,Allows the AXR13 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 12. "     AXR12    ,Allows the AXR12 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Allows the AXR11 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 10. "     AXR10     ,Allows the AXR10 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 9. "     AXR9     ,Allows the AXR9 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Allows the AXR8 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 7. "     AXR7      ,Allows the AXR7 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 6. "     AXR6     ,Allows the AXR6 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Allows the AXR5 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 4. "     AXR4      ,Allows the AXR4 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 3. "     AXR3     ,Allows the AXR3 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Allows the AXR2 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 1. "     AXR1      ,Allows the AXR1 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 0. "     AXR0     ,Allows the AXR0 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - SET. - ." "SET,SET"
group.long 0x20++0x3
line.long 0x00 "MCASP_PDCLR,The pin data clear register is an alias of the pin data output register () for writes only. Writing a 1 to the bit clears the corresponding bit in and, if = 1 (GPIO function) and = 1 (output), drives a logic low on the pin."
bitfld.long 0x00 31. " AFSR        ,Allows the corresponding AFSR bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 29. "     ACLKR     ,Allows the corresponding ACLKR bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 28. "     AFSX     ,Allows the corresponding AFSX bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - CLEAR. - ." "CLEAR,CLEAR"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Allows the corresponding AHCLKX bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - CLEAR. - ." "CLEAR,CLEAR"
bitfld.long 0x00 26. "        ACLKX     ,Allows the corresponding ACLKX bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - CLEAR. - ." "CLEAR,CLEAR"
bitfld.long 0x00 15. "        AXR15    ,Allows the AXR15 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Allows the AXR14 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 13. "     AXR13     ,Allows the AXR13 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 12. "     AXR12    ,Allows the AXR12 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Allows the AXR11 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 10. "     AXR10     ,Allows the AXR10 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 9. "     AXR9     ,Allows the AXR9 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Allows the AXR8 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 7. "     AXR7      ,Allows the AXR7 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 6. "     AXR6     ,Allows the AXR6 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Allows the AXR5 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 4. "     AXR4      ,Allows the AXR4 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 3. "     AXR3     ,Allows the AXR3 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Allows the AXR2 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 1. "     AXR1      ,Allows the AXR1 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 0. "     AXR0     ,Allows the AXR0 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - CLEAR. - ." "CLEAR,CLEAR"
group.long 0x44++0x3
line.long 0x00 "MCASP_GBLCTL,Global transmit control register - provides initialization of the transmit and receive sections. The bit fields in are synchronized and latched by the transmitter and receiver corresponding clocks - MCASPi_aclkx clock ( bits [12:8] ) and M..."
bitfld.long 0x00 12. " XFRST       ,Transmit frame-sync generator reset enable bit - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 11. "       XSMRST    ,Transmit state-machine reset enable bit - RESET. AXR[n] pin state : If[n] = 0 and [n] = 1, the corresponding serializer [n] drives the AXR[n] pin to the state specified for inactive time slot.. - . - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 10. "       XSRCLR   ,Transmit serializer clear enable bit. By clearing and then setting this bit, the transmit buffer is flushed to an empty state (XDATA = 1). If XSMRST = 1, XSRCLR = 1, XDATA = 1, and XBUF is not loaded with new data before the start of t..." "CLEAR,ACTIVE"
textline "                           "
bitfld.long 0x00 9. " XHCLKRST    ,Transmit high-frequency clock divider reset enable bit - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 8. "       XCLKRST   ,Transmit clock divider reset enable bit - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 4. "       RFRST    ,Receive frame sync generator reset enable bit. - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 3. " RSMRST      ,Receive state machine reset enable bit. - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 2. "       RSRCLR    ,Receive serializer clear enable bit. By clearing then setting this bit, the receive buffer is flushed. - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
bitfld.long 0x00 1. "       RHCLKRST ,Receive high-frequency clock divider reset enable bit. - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 0. " RCLKRST     ,Receive clock divider reset enable bit. - RESET. - ACTIVE." "RESET,ACTIVE"
group.long 0x48++0x3
line.long 0x00 "MCASP_AMUTE,Mute control register - Controls the MCASP mute output pin - AMUTE (device level - not implemented)"
group.long 0x4C++0x3
line.long 0x00 "MCASP_LBCTL,The digital loopback control register () controls the internal (MCASP module)- level and chip-level loopback settings of the MCASP in TDM mode. Note that loopback is NOT supported if MCASP is configured in DIT mode."
bitfld.long 0x00 4. " IOLBEN      ,If DLBEN=0b1, the IOLBEN bit selects between and loopback modes. IOLBEN bit value is irrelevant, If DLBEN=0b0. - INTERNAL_LB. - CHIP_LB." "INTERNAL_LB,CHIP_LB"
bitfld.long 0x00 2.--3. "  MODE      ,Loopback generator mode bits. - NO_LOOPBACK. - LOOPBACK. 0x2, 0x3: Reserved. - RESERVED." "NO_LOOPBACK,LOOPBACK,2,3"
bitfld.long 0x00 1. "  ORD      ,Loopback order bit when loopback mode is enabled (DLBEN = 1). - ODD. - EVEN." "ODD,EVEN"
textline "                           "
bitfld.long 0x00 0. " DLBEN       ,Loop back mode enable bit. - DISABLE. - ENABLE." "DISABLE,ENABLE"
group.long 0x50++0x3
line.long 0x00 "MCASP_TXDITCTL,Transmit DIT mode control register, controls DIT operations of the MCASP"
bitfld.long 0x00 3. " VB          ,Valid bit for odd time slots (DIT right subframe). - ONESTUFF. - ." "ONESTUFF,ONESTUFF"
bitfld.long 0x00 2. "     VA        ,Valid bit for even time slots (DIT left subframe). - ONESTUFF. - ." "ONESTUFF,ONESTUFF"
bitfld.long 0x00 0. "     DITEN    ,DIT mode enable bit - I2S. - DIT." "I2S,DIT"
group.long 0x60++0x3
line.long 0x00 "MCASP_GBLCTLR,Alias of GBLCTL. When writing to this register, only the TRANSMIT bits of GBLCTL are affected (This means GBLCTL bits 8,9,10,11,12). Reads return GBLCTL"
bitfld.long 0x00 12. " XFRST       ,Frame sync generator reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 11. "       XSMRST    ,XMT state machine reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 10. "       XSRCLR   ,XMT serializer clear - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
textline "                           "
bitfld.long 0x00 9. " XHCLKRST    ,XMT High Freq. clk Divider - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 8. "       XCLKRST   ,XMT clock divder reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 4. "       RFRST    ,Frame sync generator reset - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 3. " RSMRST      ,RCV state machine reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 2. "       RSRCLR    ,RCV serializer clear - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
bitfld.long 0x00 1. "       RHCLKRST ,RCV High Freq. clk Divider - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 0. " RCLKRST     ,RCV clock divder reset - RESET. - ACTIVE." "RESET,ACTIVE"
group.long 0x64++0x3
line.long 0x00 "MCASP_RXMASK,The receive format unit bit mask register () determines which bits of the received data are masked off and padded with a known value before being read by the CPU."
hexmask.long 0x00 0.--31. 1. " RMASK[31:0] ,Receive data mask enable bit. - USEMASK. - NOMASK."
group.long 0x68++0x3
line.long 0x00 "MCASP_RXFMT,The receive bit stream format register () configures the receive data format."
bitfld.long 0x00 16.--17. " RDATDLY     ,Receive Frame sync delay of AXR[n] - 0BIT. - 1BIT. - 2BIT. - 2BIT." "0BIT,1BIT,2BIT,2BIT"
bitfld.long 0x00 15. "         RRVRS     ,Receive serial bitstream order - LSBFIRST. - MSBFIRST." "LSBFIRST,MSBFIRST"
bitfld.long 0x00 13.--14. "     RPAD     ,Pad value for extra bits in slot not belonging to the word. This field only applies to bits when RMASK[n] = 0. - ZERO. - ONE. - RPBIT. - RPBIT." "ZERO,ONE,RPBIT,RPBIT"
textline "                           "
bitfld.long 0x00 8.--12. " RPBIT       ,RPBIT value determines which bit (as read by the CPU from RBUF[n]) is used to pad the extra bits. This field only applies when RPAD = 2h. - . 0x01 - 0x1F: Pad with value of the bit positioned within the range RBUFn[31:1].. - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 4.--7. "           RSSZ      ,Receive slot size.0x0 - 0x2 : Reserved. - RSVD. - 8BITS. - RSVD. - 12BITS. - RSVD. - 16BITS. - RSVD. - 20BITS. - RSVD. - 24BITS. - RSVD. - 28BITS. - 32BITS. - 32BITS." "0,1,2,8BITS,RSVD,12BITS,RSVD,16BITS,RSVD,20BITS,RSVD,24BITS,RSVD,28BITS,32BITS,32BITS"
bitfld.long 0x00 3. "       RBUSEL   ,Selects whether reads from serializer buffer RBUF[n] originate from the peripheral configuration CFG port or the DATA port. - VBUSP. - VBUS." "VBUSP,VBUS"
textline "                           "
bitfld.long 0x00 0.--2. " RROT        ,Right-rotation value for receive rotate right format unit. - NONE. - 4BITS. - 8BITS. - 12BITS. - 16BITS. - 20BITS. - 24BITS. - 28BITS." "NONE,4BITS,8BITS,12BITS,16BITS,20BITS,24BITS,28BITS"
group.long 0x6C++0x3
line.long 0x00 "MCASP_RXFMCTL,The receive frame sync control register () configures the receive frame sync (AFSR)."
hexmask.long.word 0x00 7.--15. 1. " RMOD        ,Receive frame sync mode select bits. - . - . - . 0x3 - 0x20: 3-slot TDM to 32-slot TDM mode. - . 0x21 - 0x17F: Reserved. - . - . 0x181 - 0x1FF: Reserved. - ."
bitfld.long 0x00 4. "         FRWID     ,Receive frame sync width select bit indicates the width of the receive frame sync (AFSR) during its active period. - BIT. - WORD." "BIT,WORD"
bitfld.long 0x00 1. "         FSRM     ,Receive frame sync generation select bit. - EXTERNAL. - INTERNAL." "EXTERNAL,INTERNAL"
textline "                           "
bitfld.long 0x00 0. " FSRP        ,Receive frame sync polarity select bit. - RISINGEDGE. - FALLINGEDGE." "RISINGEDGE,FALLINGEDGE"
group.long 0x70++0x3
line.long 0x00 "MCASP_ACLKRCTL,The receive clock control register () configures the receive bit clock (ACLKR) and the receive clock generator."
bitfld.long 0x00 20. " BUSY        ,Status: logical OR of DIVBUSY, ADJBUSY. Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 19. "      DIVBUSY   ,Status: divide ratio change in progress? Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 18. "      ADJBUSY  ,Status: one-shot adjustment in progress? Not supported. - . - ." "NOTBUSY,BUSY"
textline "                           "
bitfld.long 0x00 16.--17. " CLKRADJ     ,CLKRDIV one-shot adjustment. Not supported. Bit field must always be written as 0x0.If CLKRDIV is set such that there are ?m? input clocks per one output clock, then for one output cycle: - 00 = (m+0) input clocks per output clock, i.e. n..." "PLUSZERO,MINUSONE,PLUSONE,PLUSZER0"
bitfld.long 0x00 7. "     CLKRP     ,Receive bitstream clock polarity select bit. Note that this bitfield does not have any effect, ifMCASP_ACLKXCTL[6] ASYNC = 0 - FALLINGEDGE. - RISINGEDGE." "FALLINGEDGE,RISINGEDGE"
bitfld.long 0x00 5. "  CLKRM    ,Receive bit clock source bit. Note that this bitfield does not have any effect, ifMCASP_ACLKXCTL[6] ASYNC = 0 - EXTERNAL. - INTERNAL." "EXTERNAL,INTERNAL"
textline "                           "
bitfld.long 0x00 0.--4. " CLKRDIV     ,Receive bit clock divide ratio bits determine the divide-down ratio from AHCLKR to ACLKR. Note that this bitfield does not have any effect, ifMCASP_ACLKXCTL[6] ASYNC = 0. - . - . 0x2 - 0x1F: Divide-by-3 to divide-by-32. - ." "0,0x01,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x74++0x3
line.long 0x00 "MCASP_AHCLKRCTL,The receive high-frequency clock control register () configures the receive high-frequency master clock (AHCLKR) and the receive clock generator."
bitfld.long 0x00 20. " BUSY        ,Status: logical OR of DIVBUSY, ADJBUSY. Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 19. "      DIVBUSY   ,Status: divide ratio change in progress? Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 18. "      ADJBUSY  ,Status: one-shot adjustment in progress? Not supported. - . - ." "NOTBUSY,BUSY"
textline "                           "
bitfld.long 0x00 16.--17. " HCLKRADJ    ,HCLKRDIV one-shot adjustment. Not supported. Bit field must always be written as 0x0. If HCLKRDIV is set such that there are ?m? input clocks per one output clock, then for one output cycle: - 00 = (m+0) input clocks per output clock, i.e..." "PLUSZERO,MINUSONE,PLUSONE,PLUSZER0"
bitfld.long 0x00 15. "     HCLKRM    ,High Freq. RCV clock Source - . - ." "EXTERNAL,INTERNAL"
bitfld.long 0x00 14. "     HCLKRP   ,Receive bitstream high-frequency clock polarity select bit. - NOTINVERTED. - INVERTED." "NOTINVERTED,INVERTED"
textline "                           "
hexmask.long.word 0x00 0.--11. 1. " HCLKRDIV    ,Receive high-frequency clock divide ratio bits determine the divide-down ratio from AUXCLK to AHCLKR. - . - . 0x2 - 0xFFF: Divide-by-3 to divide-by-4096. - ."
group.long 0x78++0x3
line.long 0x00 "MCASP_RXTDM,The receive TDM time slot register () specifies which TDM time slot the receiver is active."
hexmask.long 0x00 0.--31. 1. " RTDMS[31:0] ,Receiver mode during TDM time slot n. - INACTIVE. - ACTIVE."
group.long 0x7C++0x3
line.long 0x00 "MCASP_EVTCTLR,Receiver Interrupt control register - controls generation of the MCASP receive interrupt (RINT). When the register bit(s) is set to 1, the occurrence of the enabled MCASP condition(s) generates RINT."
bitfld.long 0x00 7. " RSTAFRM     ,Receive start of frame interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 5. "       RDATA     ,Receive data-ready interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 4. "       RLAST    ,Receive last slot interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
textline "                           "
bitfld.long 0x00 3. " RDMAERR     ,Receive DMA error interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 2. "       RCKFAIL   ,Receive clock failure interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 1. "       RSYNCERR ,Unexpected receive frame-sync interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
textline "                           "
bitfld.long 0x00 0. " ROVRN       ,Receiver overrun interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
group.long 0x80++0x3
line.long 0x00 "MCASP_RXSTAT,The receiver status register () provides the receiver status and receive TDM time slot number."
bitfld.long 0x00 8. " RERR        ,RERR bit always returns a logic-OR of: ROVRN | RSYNCERR | RCKFAIL | RDMAERR Allows a single bit to be checked to determine if a receiver error has occurred. - NOERROR. - ERROR." "NOERROR,ERROR"
bitfld.long 0x00 7. "      RDMAERR   ,Receive DMA error flag. RDMAERR is set when the CPU or DMA reads more serializers through the DMA port in a given time slot than were programmed as receivers. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has ..." "NOTOCCUR,OCCUR"
bitfld.long 0x00 6. "     RSTAFRM  ,Receive start of frame flag. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
textline "                           "
bitfld.long 0x00 5. " RDATA       ,Receive data ready flag. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
bitfld.long 0x00 4. "     RLAST     ,Receive last slot flag. RLAST is set along with RDATA, if the current slot is the last slot in a frame. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
bitfld.long 0x00 3. "     RTDMSLOT ,Returns the LSB of RSLOT. Allows a single read ofMCASP_RXSTAT to determine whether the current TDM time slot is even or odd. - ODDSLOT. - EVENSLOT." "ODDSLOT,EVENSLOT"
textline "                           "
bitfld.long 0x00 2. " RCKFAIL     ,Receive clock failure flag. RCKFAIL is set when the receive clock failure detection circuit reports an error. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
bitfld.long 0x00 1. "     RSYNCERR  ,Unexpected receive frame sync flag. RSYNCERR is set when a new receive frame sync (AFSR) occurs before it is expected. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
bitfld.long 0x00 0. "     ROVRN    ,Receiver overrun flag. ROVRN is set when the receive serializer is instructed to transfer data from XRSR to RBUF, but the former data in RBUF has not yet been read by the CPU or DMA. This bit is cleared by writing a 1 to this bit. Writin..." "NOTOCCUR,OCCUR"
rgroup.long 0x84++0x3
line.long 0x00 "MCASP_RXTDMSLOT,The current receive TDM time slot register () indicates the current time slot for the receive data frame."
hexmask.long.word 0x00 0.--8. 1. " RSLOTCNT    ,0x0 - 0x17F: Current receive time slot count. Legal values: 0 to 383 (17Fh). TDM function is not supported for > 32 time slots. However, TDM time slot counter may count to 383 when used to receive a DIR block (transferred over TDM ..."
group.long 0x88++0x3
line.long 0x00 "MCASP_RXCLKCHK,The receive clock check control register (RCLKCHK) configures the receive clock failure detection circuit."
hexmask.long.byte 0x00 24.--31. 1. " RCNT        ,0x0 - 0xFF: Receive clock count value (from previous measurement). The clock circuit continually counts the number of interface clocks for every 32 receive high-frequency master clock (AHCLKR) signals, and stores the count in RCNT until t..."
hexmask.long.byte 0x00 16.--23. 1. "           RMAX      ,0x00-0xFF: Receive clock maximum boundary. This 8-bit unsigned value sets the maximum allowed boundary for the clock check counter after 32 receive high-frequency master clock (AHCLKR) signals have been received. If the current co..."
hexmask.long.byte 0x00 8.--15. 1. "           RMIN     ,0x00 - 0xFF: Receive clock minimum boundary. This 8-bit unsigned value sets the minimum allowed boundary for the clock check counter after 32 receive high-frequency master clock (AHCLKR) signals have been received. If RCNT is less ..."
textline "                           "
bitfld.long 0x00 0.--3. " RPS         ,Receive clock check prescaler value. - DIVBY64. - DIVBY2. - DIVBY128. - DIVBY1. - DIVBY4. - DIVBY256. - DIVBY16. - DIVBY32. - DIVBY8. 0x9 - 0xF: Reserved. - DIVBY8." "DIVBY64,DIVBY2,DIVBY128,DIVBY1,DIVBY4,DIVBY256,DIVBY16,DIVBY32,DIVBY8,9,10,11,12,13,14,15"
group.long 0x8C++0x3
line.long 0x00 "MCASP_REVTCTL,Receiver DMA event control register"
bitfld.long 0x00 0. " RDATDMA     ,Receive data DMA request enable bit. - . - ." "ENABLE,DISABLE"
group.long 0xA0++0x3
line.long 0x00 "MCASP_GBLCTLX,Alias of GBLCTL. When writing to this register, only the TRANSMIT bits of GBLCTL are affected (This means GBLCTL bits 8,9,10,11,12.). Reads return GBLCTL."
bitfld.long 0x00 12. " XFRST       ,Frame sync generator reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 11. "       XSMRST    ,XMT state machine reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 10. "       XSRCLR   ,XMT serializer clear - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
textline "                           "
bitfld.long 0x00 9. " XHCLKRST    ,XMT High Freq. clk Divider - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 8. "       XCLKRST   ,XMT clock divder reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 4. "       RFRST    ,Frame sync generator reset - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 3. " RSMRST      ,RCV state machine reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 2. "       RSRCLKR   ,RCV serializer clear - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
bitfld.long 0x00 1. "       RHCLKRST ,RCV High Freq. clk Divider - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 0. " RCLKRST     ,RCV clock divder reset - RESET. - ACTIVE." "RESET,ACTIVE"
group.long 0xA4++0x3
line.long 0x00 "MCASP_TXMASK,Transmit format unit bit mask register - Determines which bits of the transmitted data are masked off before being shifted out the MCASP"
hexmask.long 0x00 0.--31. 1. " XMASK[31:0] ,Transmit data mask enable bit - . - ."
group.long 0xA8++0x3
line.long 0x00 "MCASP_TXFMT,Transmit bitstream format register - configures the transmit data format"
bitfld.long 0x00 16.--17. " XDATDLY     ,Transmit sync bit delay - 0BIT. - 1BIT. - 2BIT. - 2BIT." "0BIT,1BIT,2BIT,2BIT"
bitfld.long 0x00 15. "         XRVRS     ,Transmit serial bitstream order - . - ." "LSBFIRST,MSBFIRST"
bitfld.long 0x00 13.--14. "     XPAD     ,Pad value for extra bits in slot not belonging to word defined by XMASK. This field only applies to bits when XMASK[n] = 0. - . - . - . - ." "ZERO,ONE,XPBIT,3"
textline "                           "
bitfld.long 0x00 8.--12. " XPBIT       ,XPBIT value determines which bit (as written by the CPU or DMA to XBUF[n]) is used to pad the extra bits before shifting. This field only applies when XPAD = 0x2." "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 4.--7. "   XSSZ      ,Transmit slot size0x0 - 0x2 : Reserved. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - ." "0,1,2,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,32BITS"
bitfld.long 0x00 3. "       XBUSEL   ,Selects whether writes to the serializer buffer XBUF[n] originate from the peripheral configuration CFG port or the DATA port. - VBUSP. - VBUS." "VBUSP,VBUS"
textline "                           "
bitfld.long 0x00 0.--2. " XROT        ,Right-rotation value for transmit rotate right format unit - 12BITS. - . - . - . - . - . - . - ." "12BITS,4BITS,8BITS,12BITS,16BITS,20BITS,24BITS,28BITS"
group.long 0xAC++0x3
line.long 0x00 "MCASP_TXFMCTL,Transmit frame-sync control register - configures the transmit frame sync (MCASPi_fsx)."
hexmask.long.word 0x00 7.--15. 1. " XMOD        ,Transmit frame-sync mode select bits 0x0: Burst mode 0x1: Reserved 0x2: 2-slot TDM mode () 0x3 - 0x20: 3-slot TDM to 32-slot TDM mode 0x21 - 0x17F: Reserved 0x180: 384-slot DIT mode All other: Reserved"
bitfld.long 0x00 4. "         FXWID     ,The transmit frame-sync width select bit indicates the width of the transmit frame sync (MCASPi_fsx) during its active period. - WORD. - ." "WORD,WORD"
bitfld.long 0x00 1. "         FSXM     ,Transmit frame-sync generation select bit - INTERNAL. - ." "INTERNAL,INTERNAL"
textline "                           "
bitfld.long 0x00 0. " FSXP        ,Transmit frame-sync polarity select bit - FALLINGEDGE. - ." "FALLINGEDGE,FALLINGEDGE"
group.long 0xB0++0x3
line.long 0x00 "MCASP_ACLKXCTL,Transmit clock control register - Configures the transmit bit clock (MCASPi_aclkx) and the transmit clock generator."
bitfld.long 0x00 20. " BUSY        ,Status: logical OR of DIVBUSY, ADJBUSY. Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 19. "      DIVBUSY   ,Status: divide ratio change in progress? Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 18. "      ADJBUSY  ,Status: one-shot adjustment in progress? Not supported. - . - ." "NOTBUSY,BUSY"
textline "                           "
bitfld.long 0x00 16.--17. " CLKXADJ     ,CLKXDIV one-shot adjustment. Not supported. Bit field must always be written as 0x0. If CLKXDIV is set such that there are ?m? input clocks per one output clock, then for one output cycle: - 00 = (m+0) input clocks per output clock, i.e. ..." "PLUSZERO,MINUSONE,PLUSONE,PLUSZER0"
bitfld.long 0x00 7. "     CLKXP     ,Transmit bitstream clock polarity select bit. - . - ." "RISINGEDGE,FALLINGEDGE"
bitfld.long 0x00 6. "  ASYNC    ,Transmit operation asynchronous enable bit - ASYNC. - ." "ASYNC,ASYNC"
textline "                           "
bitfld.long 0x00 5. " CLKXM       ,Transmit bit clock source bit - INTERNAL. - ." "INTERNAL,INTERNAL"
bitfld.long 0x00 0.--4. "     CLKXDIV   ,Transmit bit clock divide ratio bits, determine the divide-down ratio from AHCLKX to ACLKX. 0x0: Divide-by-1 0x1: Divide-by-2 0x2 to 0x1F: Divide-by-3 to divide-by-32" "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
group.long 0xB4++0x3
line.long 0x00 "MCASP_AHCLKXCTL,High-frequency transmit clock control register - Configures the transmit high-frequency master clock (MCASPi_ahclkx) and the transmit clock generator."
bitfld.long 0x00 20. " BUSY        ,Status: logical OR of DIVBUSY, ADJBUSY. Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 19. "      DIVBUSY   ,Status: divide ratio change in progress? Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 18. "      ADJBUSY  ,Status: one-shot adjustment in progress? Not supported. - . - ." "NOTBUSY,BUSY"
textline "                           "
bitfld.long 0x00 16.--17. " HCLKXADJ    ,HCLKXDIV one-shot adjustment. Not supported. Bit field must always be written as 0x0. If HCLKXDIV is set such that there are ?m? input clocks per one output clock, then for one output cycle: - 00 = (m+0) input clocks per output clock, i.e..." "PLUSZERO,MINUSONE,PLUSONE,PLUSZER0"
bitfld.long 0x00 15. "     HCLKXM    ,Transmit high-frequency clock source bit - INTERNAL. - ." "INTERNAL,INTERNAL"
bitfld.long 0x00 14. "     HCLKXP   ,Transmit bitstream high-frequency clock polarity select bit. - . - ." "NOTINVERTED,INVERTED"
textline "                           "
hexmask.long.word 0x00 0.--11. 1. " HCLKXDIV    ,Transmit high-frequency clock divide ratio bits determine the divide-down ratio from AUXCLK to MCASPi_ahclkx. 0x0: Divide-by-1 0x1: Divide-by-2 0x2 to 0xFFF: Divide-by-3 to divide-by-4096"
group.long 0xB8++0x3
line.long 0x00 "MCASP_TXTDM,Transmit TDM slot 0-31 register - TDM time slot counter range is to 384 slots (to support SPDIF blocks of 384 subframes)."
hexmask.long 0x00 0.--31. 1. " XTDMS[31:0] ,Transmitter mode during TDM time slot n (n = 0..31) - . - ."
group.long 0xBC++0x3
line.long 0x00 "MCASP_EVTCTLX,Transmitter Interrupt control register - controls generation of the MCASP transmit interrupt (XINT). When the register bit(s) is set to 1, the occurrence of the enabled MCASP condition(s) generates XINT."
bitfld.long 0x00 7. " XSTAFRM     ,Transmit start of frame interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 5. "       XDATA     ,Transmit data-ready interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 4. "       XLAST    ,Transmit last slot interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
textline "                           "
bitfld.long 0x00 3. " XDMAERR     ,Transmit DMA error interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 2. "       XCKFAIL   ,Transmit clock failure interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 1. "       XSYNCERR ,Unexpected transmit frame-sync interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
textline "                           "
bitfld.long 0x00 0. " XUNDRN      ,Transmitter underrun interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
group.long 0xC0++0x3
line.long 0x00 "MCASP_TXSTAT,Transmitter status register - If the MCASP logic attempts to set an interrupt flag in the same cycle that the CPU writes to the flag to clear it, the MCASP logic has priority and the flag remains set. This also causes the generation of a n..."
bitfld.long 0x00 8. " XERR        ,XERR bit always returns a logic-OR of: XUNDRN | XSYNCERR | XCKFAIL | XDMAERR. Allows a single bit to be checked to determine if a transmitter error interrupt has occurred. - ERROR. - ." "ERROR,ERROR"
bitfld.long 0x00 7. "        XDMAERR   ,Transmit DMA error flag. XDMAERR is set when the CPU or DMA writes more words to the DATA port of the MCASP in a given time slot than it should. Causes a transmit interrupt (XINT) if this bit and XDMAERR inMCASP_EVTCTLX are set. This..." "OCCUR,OCCUR"
bitfld.long 0x00 6. "        XSTAFRM  ,Transmit start of frame flag. Causes a transmit interrupt (XINT) if this bit and XSTAFRM inMCASP_EVTCTLX are set. This bit is cleared by writing a 1 to it. Writing a 0 has no effect. - OCCUR. - ." "OCCUR,OCCUR"
textline "                           "
bitfld.long 0x00 5. " XDATA       ,Transmit data ready flag. Causes a transmit interrupt (XINT) if this bit and XDATA inMCASP_EVTCTLX are set. This bit is cleared by writing a 1 to iit. Writing a 0 has no effect - OCCUR. - ." "OCCUR,OCCUR"
bitfld.long 0x00 4. "        XLAST     ,Transmit last slot flag. XLAST, along with XDATA, are set if the current slot is the last slot in a frame. Causes a transmit interrupt (XINT) if this bit and XLAST inMCASP_EVTCTLX are set. This bit is cleared by writing a 1 to iit. W..." "OCCUR,OCCUR"
bitfld.long 0x00 3. "        XTDMSLOT ,Returns the LSB of XSLOT. Allows a single read of XSTAT to determine whether the current TDM time slot is even or odd. - EVENSLOT. - ." "EVENSLOT,EVENSLOT"
textline "                           "
bitfld.long 0x00 2. " XCKFAIL     ,Transmit clock failure flag. XCKFAIL is set when the transmit clock failure detection circuit reports an error. Causes a transmit interrupt (XINT) if this bit and XCKFAIL inMCASP_EVTCTLX are set. This bit is cleared by writing a 1 to iit...." "OCCUR,OCCUR"
bitfld.long 0x00 1. "        XSYNCERR  ,Unexpected transmit frame-sync flag. XSYNCERR is set when a new transmit frame sync (AFSX) occurs before it is expected. Causes a transmit interrupt (XINT) if this bit and XSYNCERR inMCASP_EVTCTLX are set. This bit is cleared by writ..." "OCCUR,OCCUR"
bitfld.long 0x00 0. "        XUNDRN   ,Transmitter underrun flag. XUNDRN is set when the transmit serializer is instructed to transfer data from XBUF[n] to XRSR[n], but XBUF[n] has not yet been serviced with new data since the last transfer. Causes a transmit interrupt (XI..." "OCCUR,OCCUR"
rgroup.long 0xC4++0x3
line.long 0x00 "MCASP_TXTDMSLOT,Current transmit TDM time slot register"
hexmask.long.word 0x00 0.--8. 1. " XSLOTCNT    ,Current transmit time slot count. the value of this register is 0b0101111111 (0x17f) during reset and 0 after reset."
group.long 0xC8++0x3
line.long 0x00 "MCASP_TXCLKCHK,Transmit clock check control register - configures the transmit clock failure detection circuit."
hexmask.long.byte 0x00 24.--31. 1. " XCNT        ,Transmit clock count value (from previous measurement). The clock circuit continually counts the number of interface clocks for every 32 transmit high-frequency master clock (MCASPi_ahclkx) signals, and stores the count in XCNT until the ..."
hexmask.long.byte 0x00 16.--23. 1. "           XMAX      ,0x0 to 0xFF: Transmit clock maximum boundary. This 8-bit unsigned value sets the maximum allowed boundary for the clock check counter after 32 transmit high-frequency master clock (MCASPi_ahclkx) signals have been received. If the..."
hexmask.long.byte 0x00 8.--15. 1. "           XMIN     ,0x0 to 0xFF: Transmit clock minimum boundary. This 8-bit unsigned value sets the minimum allowed boundary for the clock check counter after 32 transmit high-frequency master clock (MCASPi_ahclkx) signals have been received. If XCNT..."
textline "                           "
bitfld.long 0x00 0.--3. " XPS         ,Transmit clock check prescaler value 0x0: MCASP interface clock divided by 1 0x1: MCASP interface clock divided by 2 0x2: MCASP interface clock divided by 4 0x3: MCASP interface clock divided by 8 0x4: MCASP interface clock divided by 16 ..." "DIVBY1,DIVBY2,DIVBY4,DIVBY8,DIVBY16,DIVBY32,DIVBY64,DIVBY128,DIVBY256,9,10,11,12,13,14,15"
group.long 0xCC++0x3
line.long 0x00 "MCASP_XEVTCTL,Transmitter DMA event control register"
bitfld.long 0x00 0. " XDATDMA     ,Transmit data DMA request enable bit. - . - ." "ENABLE,DISABLE"
group.long 0xD0++0x3
line.long 0x00 "MCASP_CLKADJEN,One-Shot Clock Adjustment Enable"
bitfld.long 0x00 0. " ENABLE      ,One-shot clock adjust enable. Not supported. Bit field must always be written as 0x0. - DISABLE. - ENABLE." "DISABLE,ENABLE"
width 0x0B
tree.end
tree "MCASP5_CFG"
base ad:0x48470000
tree "Channel_0"
width 18.
group.long 0x100++0x3
line.long 0x00 "MCASP_DITCSRAi_0,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x118++0x3
line.long 0x00 "MCASP_DITCSRBi_0,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x130++0x3
line.long 0x00 "MCASP_DITUDRAi_0,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x148++0x3
line.long 0x00 "MCASP_DITUDRBi_0,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
group.long 0x280++0x3
line.long 0x00 "MCASP_RXBUFn_0,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn    ,Receive Buffer n"
group.long 0x200++0x3
line.long 0x00 "MCASP_TXBUFn_0,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn    ,Transmit buffer n"
group.long 0x180++0x3
line.long 0x00 "MCASP_XRSRCTLn_0,Serializer n control register."
bitfld.long 0x00 5. " RRDY     ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                           "
bitfld.long 0x00 0.--1. " SRMOD    ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_1"
width 18.
group.long 0x104++0x3
line.long 0x00 "MCASP_DITCSRAi_1,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x11C++0x3
line.long 0x00 "MCASP_DITCSRBi_1,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x134++0x3
line.long 0x00 "MCASP_DITUDRAi_1,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x14C++0x3
line.long 0x00 "MCASP_DITUDRBi_1,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
group.long 0x284++0x3
line.long 0x00 "MCASP_RXBUFn_1,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn    ,Receive Buffer n"
group.long 0x204++0x3
line.long 0x00 "MCASP_TXBUFn_1,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn    ,Transmit buffer n"
group.long 0x184++0x3
line.long 0x00 "MCASP_XRSRCTLn_1,Serializer n control register."
bitfld.long 0x00 5. " RRDY     ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                           "
bitfld.long 0x00 0.--1. " SRMOD    ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_2"
width 18.
group.long 0x108++0x3
line.long 0x00 "MCASP_DITCSRAi_2,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x120++0x3
line.long 0x00 "MCASP_DITCSRBi_2,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x138++0x3
line.long 0x00 "MCASP_DITUDRAi_2,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x150++0x3
line.long 0x00 "MCASP_DITUDRBi_2,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
group.long 0x288++0x3
line.long 0x00 "MCASP_RXBUFn_2,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn    ,Receive Buffer n"
group.long 0x208++0x3
line.long 0x00 "MCASP_TXBUFn_2,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn    ,Transmit buffer n"
group.long 0x188++0x3
line.long 0x00 "MCASP_XRSRCTLn_2,Serializer n control register."
bitfld.long 0x00 5. " RRDY     ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                           "
bitfld.long 0x00 0.--1. " SRMOD    ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_3"
width 18.
group.long 0x10C++0x3
line.long 0x00 "MCASP_DITCSRAi_3,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x124++0x3
line.long 0x00 "MCASP_DITCSRBi_3,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x13C++0x3
line.long 0x00 "MCASP_DITUDRAi_3,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x154++0x3
line.long 0x00 "MCASP_DITUDRBi_3,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
group.long 0x28C++0x3
line.long 0x00 "MCASP_RXBUFn_3,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn    ,Receive Buffer n"
group.long 0x20C++0x3
line.long 0x00 "MCASP_TXBUFn_3,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn    ,Transmit buffer n"
group.long 0x18C++0x3
line.long 0x00 "MCASP_XRSRCTLn_3,Serializer n control register."
bitfld.long 0x00 5. " RRDY     ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                           "
bitfld.long 0x00 0.--1. " SRMOD    ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_4"
width 18.
group.long 0x110++0x3
line.long 0x00 "MCASP_DITCSRAi_4,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x128++0x3
line.long 0x00 "MCASP_DITCSRBi_4,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x140++0x3
line.long 0x00 "MCASP_DITUDRAi_4,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x158++0x3
line.long 0x00 "MCASP_DITUDRBi_4,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
tree.end
tree "Channel_5"
width 18.
group.long 0x114++0x3
line.long 0x00 "MCASP_DITCSRAi_5,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x12C++0x3
line.long 0x00 "MCASP_DITCSRBi_5,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x144++0x3
line.long 0x00 "MCASP_DITUDRAi_5,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x15C++0x3
line.long 0x00 "MCASP_DITUDRBi_5,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
tree.end
textline ""
width 18.
rgroup.long 0x0++0x3
line.long 0x00 "MCASP_PID,Peripheral identification register"
bitfld.long 0x00 30.--31. " SCHEME      ,Scheme. Distinguishes between old scheme and current." "0,1,2,3"
bitfld.long 0x00 28.--29. "            RESV      ,Reserved." "0,1,2,3"
hexmask.long.word 0x00 16.--27. 1. "            FUNCTION ,MCASP. Indicates a software-compatible module family."
textline "                           "
bitfld.long 0x00 11.--15. " RTL         ,RTL version." "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 8.--10. "   REVMAJOR  ,Major revision number." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6.--7. "            CUSTOM   ,Non-custom. Indicates a special version for a given device." "0,1,2,3"
textline "                           "
bitfld.long 0x00 0.--5. " REVMINOR    ,Minor revision number." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x4++0x3
line.long 0x00 "PWRIDLESYSCONFIG,Power idle module configuration register."
bitfld.long 0x00 2.--5. " OTHER       ,Reserved for future expansion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--1. "           IDLE_MODE ,0x0: Force-idle mode 0x1: No-idle mode 0x2: Smart-idle mode - default state 0x3: Reserved" "0,1,2,3"
group.long 0x10++0x3
line.long 0x00 "MCASP_PFUNC,Specifies the function of the pins as either a MCASP pin or a GPIO pin"
bitfld.long 0x00 31. " AFSR        ,Determines if AFSR pin (device level MCASPi_fsr signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 29. "        ACLKR     ,Determines if ACLKR pin (device level MCASPi_aclkr signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 28. "        AFSX     ,Determines if AFSX pin (device level MCASPi_fsx signal) functions as MCASP or GPIO. - GPIO. - ." "GPIO,GPIO"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Determines if AHCLKX pin (device level MCASPi_ahclkx signal) functions as MCASP or GPIO. - GPIO. - ." "GPIO,GPIO"
bitfld.long 0x00 26. "         ACLKX     ,Determines if ACLKX pin (device level MCASPi_aclkx signal) functions as MCASP or GPIO. - GPIO. - ." "GPIO,GPIO"
bitfld.long 0x00 15. "         AXR15    ,Determines if AXR15 pin (device level MCASPx_axr[15] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Determines if AXR14 pin (device level MCASPx_axr[14] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 13. "        AXR13     ,Determines if AXR13 pin (device level MCASPx_axr[13] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 12. "        AXR12    ,Determines if AXR12 pin (device level MCASPx_axr[12] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Determines if AXR11 pin (device level MCASPx_axr[11] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 10. "        AXR10     ,Determines if AXR10 pin (device level MCASPx_axr[10] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 9. "        AXR9     ,Determines if AXR9 pin (device level MCASPx_axr[9] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Determines if AXR8 pin (device level MCASPx_axr[8] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 7. "        AXR7      ,Determines if AXR7 pin (device level MCASPx_axr[7] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 6. "        AXR6     ,Determines if AXR6 pin (device level MCASPx_axr[6] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Determines if AXR5 pin (device level MCASPx_axr[5] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 4. "        AXR4      ,Determines if AXR4 pin (device level MCASPx_axr[4] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 3. "        AXR3     ,Determines if AXR3 pin (device level MCASPi_axr[3] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Determines if AXR2 pin (device level MCASPi_axr[2] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 1. "        AXR1      ,Determines if AXR1 pin (device level MCASPi_axr[1] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 0. "        AXR0     ,Determines if AXR0 pin (device level MCASPi_axr[0] signal) functions as MCASP or GPIO. - GPIO. - ." "GPIO,GPIO"
group.long 0x14++0x3
line.long 0x00 "MCASP_PDIR,Pin direction register - specifies the direction of the MCASP pins as either an input or an output pin."
bitfld.long 0x00 31. " AFSR        ,Determines if AFSR pin (device level MCASPi_fsr signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 29. "       ACLKR     ,Determines if ACLKR pin (device level MCASPi_aclkr signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 28. "       AFSX     ,Determines if AFSX pin (device level MCASPi_fsx signal) functions as an input or output. - OUTPUT. - ." "OUTPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Determines if AHCLKX pin (device level MCASPi_ahclkx signal) functions as an input or output. - OUTPUT. - ." "OUTPUT,OUTPUT"
bitfld.long 0x00 26. "       ACLKX     ,Determines if ACLKX pin (device level MCASPi_aclkx signal) functions as an input or output. - OUTPUT. - ." "OUTPUT,OUTPUT"
bitfld.long 0x00 15. "       AXR15    ,Determines if AXR15 pin (device level MCASPi_axr[15] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Determines if AXR14 pin (device level MCASPi_axr[14] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 13. "       AXR13     ,Determines if AXR13 pin (device level MCASPi_axr[13] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 12. "       AXR12    ,Determines if AXR12 pin (device level MCASPi_axr[12] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Determines if AXR11 pin (device level MCASPi_axr[11] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 10. "       AXR10     ,Determines if AXR10 pin (device level MCASPi_axr[10] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 9. "       AXR9     ,Determines if AXR9 pin (device level MCASPi_axr[9] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Determines if AXR8 pin (device level MCASPi_axr[8] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 7. "       AXR7      ,Determines if AXR7 pin (device level MCASPi_axr[7] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 6. "       AXR6     ,Determines if AXR6 pin (device level MCASPi_axr[6] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Determines if AXR5 pin (device level MCASPi_axr[5] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 4. "       AXR4      ,Determines if AXR4 pin (device level MCASPi_axr[4] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 3. "       AXR3     ,Determines if AXR3 pin (device level MCASPi_axr[3] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Determines if AXR2 pin (device level MCASPi_axr[2] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 1. "       AXR1      ,Determines if AXR1 pin (device level MCASPi_axr[1] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 0. "       AXR0     ,Determines if AXR0 pin (device level MCASPi_axr[0] signal) functions as an input or output. - OUTPUT. - ." "OUTPUT,OUTPUT"
group.long 0x18++0x3
line.long 0x00 "MCASP_PDOUT,Pin data output register - holds a value for data out at all times, and may be read back at all times. The value held by is not affected by writing to and . However, the data value in is driven out onto the MCASP pin only if the correspondi..."
bitfld.long 0x00 31. " AFSR        ,Determines drive on AFSR output pin when the correspondingMCASP_PFUNC[31] and MCASP_PDIR[31] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 30. "         AHCLKR    ,Determines drive on AHCLKR output pin when the correspondingMCASP_PFUNC[30] and MCASP_PDIR[30] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 29. "         ACLKR    ,Determines drive on ACLKR output pin when the correspondingMCASP_PFUNC[29] and MCASP_PDIR[29] bits are set to 1 - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 28. " AFSX        ,Determines drive on AFSX output pin when the correspondingMCASP_PFUNC[28] and MCASP_PDIR[28] bits are set to 1. - DRV1. - ." "DRV1,DRV1"
bitfld.long 0x00 27. "         AHCLKX    ,Determines drive on AHCLKX output pin when the correspondingMCASP_PFUNC[27] and MCASP_PDIR[27] bits are set to 1. - DRV1. - ." "DRV1,DRV1"
bitfld.long 0x00 26. "         ACLKX    ,Determines drive on ACLKX output pin when the correspondingMCASP_PFUNC[26] and MCASP_PDIR[26] bits are set to 1 - DRV1. - ." "DRV1,DRV1"
textline "                           "
bitfld.long 0x00 15. " AXR15       ,Determines drive on AXR15 output pin when the correspondingMCASP_PFUNC[15] and MCASP_PDIR[15] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 14. "         AXR14     ,Determines drive on AXR14 output pin when the correspondingMCASP_PFUNC[14] and MCASP_PDIR[14] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 13. "         AXR13    ,Determines drive on AXR13 output pin when the correspondingMCASP_PFUNC[13] and MCASP_PDIR[13] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 12. " AXR12       ,Determines drive on AXR12 output pin when the correspondingMCASP_PFUNC[12] and MCASP_PDIR[12] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 11. "         AXR11     ,Determines drive on AXR11 output pin when the correspondingMCASP_PFUNC[11] and MCASP_PDIR[11] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 10. "         AXR10    ,Determines drive on AXR10 output pin when the correspondingMCASP_PFUNC[10] and MCASP_PDIR[10] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 9. " AXR9        ,Determines drive on AXR9 output pin when the correspondingMCASP_PFUNC[9] and MCASP_PDIR[9] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 8. "         AXR8      ,Determines drive on AXR8 output pin when the correspondingMCASP_PFUNC[8] and MCASP_PDIR[8] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 7. "         AXR7     ,Determines drive on AXR7 output pin when the correspondingMCASP_PFUNC[7] and MCASP_PDIR[7] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 6. " AXR6        ,Determines drive on AXR6 output pin when the correspondingMCASP_PFUNC[6] and MCASP_PDIR[6] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 5. "         AXR5      ,Determines drive on AXR5 output pin when the correspondingMCASP_PFUNC[5] and MCASP_PDIR[5] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 4. "         AXR4     ,Determines drive on AXR4 output pin when the correspondingMCASP_PFUNC[4] and MCASP_PDIR[4] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 3. " AXR3        ,Determines drive on AXR3 output pin when the correspondingMCASP_PFUNC[3] and MCASP_PDIR[3] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 2. "         AXR2      ,Determines drive on AXR2 output pin when the correspondingMCASP_PFUNC[2] and MCASP_PDIR[2] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 1. "         AXR1     ,Determines drive on AXR1 output pin when the correspondingMCASP_PFUNC[1] and MCASP_PDIR[1] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 0. " AXR0        ,Determines drive on AXR0 output pin when the correspondingMCASP_PFUNC[0] and MCASP_PDIR[0] bits are set to 1. - DRV1. - ." "DRV1,DRV1"
rgroup.long 0x1C++0x3
line.long 0x00 "MCASP_PDIN,Pin data input register - holds the state of all the MCASP pins. allows reading the actual value of the pin, regardless of the state of and ."
bitfld.long 0x00 31. " AFSR        ,Logic level on AFSR pin (device level MCASPi_fsr signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 29. "         ACLKR     ,Logic level on ACLKR pin (device level MCASPi_aclkr signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 28. "         AFSX     ,Logic level on AFSX pin (device level MCASPi_fsx signal). - LOW. - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Logic level on AHCLKX pin (device level MCASPi_ahclkx signal). - LOW. - ." "LOW,HIGH"
bitfld.long 0x00 26. "         ACLKX     ,Logic level on ACLKX pin (device level MCASPi_aclkx signal). - LOW. - ." "LOW,HIGH"
bitfld.long 0x00 15. "         AXR15    ,Logic level on AXR15 pin (device level MCASPi_axr[15] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Logic level on AXR14 pin (device level MCASPi_axr[14] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 13. "         AXR13     ,Logic level on AXR13 pin (device level MCASPi_axr[13] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 12. "         AXR12    ,Logic level on AXR12 pin (device level MCASPi_axr[12] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Logic level on AXR11 pin (device level MCASPi_axr[11] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 10. "         AXR10     ,Logic level on AXR10 pin (device level MCASPi_axr[10] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 9. "         AXR9     ,Logic level on AXR9 pin (device level MCASPi_axr[9] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Logic level on AXR8 pin (device level MCASPi_axr[8] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 7. "         AXR7      ,Logic level on AXR7 pin (device level MCASPi_axr[7] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 6. "         AXR6     ,Logic level on AXR6 pin (device level MCASPi_axr[6] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Logic level on AXR5 pin (device level MCASPi_axr[5] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 4. "         AXR4      ,Logic level on AXR4 pin (device level MCASPi_axr[4] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 3. "         AXR3     ,Logic level on AXR3 pin (device level MCASPi_axr[3] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Logic level on AXR2 pin (device level MCASPi_axr[2] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 1. "         AXR1      ,Logic level on AXR1 pin (device level MCASPi_axr[1] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 0. "         AXR0     ,Logic level on AXR0 pin (device level MCASPi_axr[0] signal). - LOW. - ." "LOW,HIGH"
wgroup.long 0x1C++0x3
line.long 0x00 "MCASP_PDSET,The pin data set register is an alias of the pin data output register () for writes only. Writing a 1 to the bit sets the corresponding bit in and, if = 1 (GPIO function) and = 1 (output), drives a logic high on the pin."
bitfld.long 0x00 31. " AFSR        ,Allows the corresponding AFSR bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 29. "     ACLKR     ,Allows the corresponding ACLKR bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 28. "     AFSX     ,Allows the corresponding AFSX bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - SET. - ." "SET,SET"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Allows the corresponding AHCLKX bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - SET. - ." "SET,SET"
bitfld.long 0x00 26. "          ACLKX     ,Allows the corresponding ACLKX bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - SET. - ." "SET,SET"
bitfld.long 0x00 15. "          AXR15    ,Allows the AXR15 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Allows the AXR14 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 13. "     AXR13     ,Allows the AXR13 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 12. "     AXR12    ,Allows the AXR12 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Allows the AXR11 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 10. "     AXR10     ,Allows the AXR10 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 9. "     AXR9     ,Allows the AXR9 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Allows the AXR8 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 7. "     AXR7      ,Allows the AXR7 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 6. "     AXR6     ,Allows the AXR6 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Allows the AXR5 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 4. "     AXR4      ,Allows the AXR4 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 3. "     AXR3     ,Allows the AXR3 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Allows the AXR2 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 1. "     AXR1      ,Allows the AXR1 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 0. "     AXR0     ,Allows the AXR0 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - SET. - ." "SET,SET"
group.long 0x20++0x3
line.long 0x00 "MCASP_PDCLR,The pin data clear register is an alias of the pin data output register () for writes only. Writing a 1 to the bit clears the corresponding bit in and, if = 1 (GPIO function) and = 1 (output), drives a logic low on the pin."
bitfld.long 0x00 31. " AFSR        ,Allows the corresponding AFSR bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 29. "     ACLKR     ,Allows the corresponding ACLKR bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 28. "     AFSX     ,Allows the corresponding AFSX bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - CLEAR. - ." "CLEAR,CLEAR"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Allows the corresponding AHCLKX bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - CLEAR. - ." "CLEAR,CLEAR"
bitfld.long 0x00 26. "        ACLKX     ,Allows the corresponding ACLKX bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - CLEAR. - ." "CLEAR,CLEAR"
bitfld.long 0x00 15. "        AXR15    ,Allows the AXR15 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Allows the AXR14 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 13. "     AXR13     ,Allows the AXR13 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 12. "     AXR12    ,Allows the AXR12 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Allows the AXR11 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 10. "     AXR10     ,Allows the AXR10 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 9. "     AXR9     ,Allows the AXR9 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Allows the AXR8 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 7. "     AXR7      ,Allows the AXR7 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 6. "     AXR6     ,Allows the AXR6 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Allows the AXR5 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 4. "     AXR4      ,Allows the AXR4 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 3. "     AXR3     ,Allows the AXR3 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Allows the AXR2 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 1. "     AXR1      ,Allows the AXR1 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 0. "     AXR0     ,Allows the AXR0 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - CLEAR. - ." "CLEAR,CLEAR"
group.long 0x44++0x3
line.long 0x00 "MCASP_GBLCTL,Global transmit control register - provides initialization of the transmit and receive sections. The bit fields in are synchronized and latched by the transmitter and receiver corresponding clocks - MCASPi_aclkx clock ( bits [12:8] ) and M..."
bitfld.long 0x00 12. " XFRST       ,Transmit frame-sync generator reset enable bit - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 11. "       XSMRST    ,Transmit state-machine reset enable bit - RESET. AXR[n] pin state : If[n] = 0 and [n] = 1, the corresponding serializer [n] drives the AXR[n] pin to the state specified for inactive time slot.. - . - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 10. "       XSRCLR   ,Transmit serializer clear enable bit. By clearing and then setting this bit, the transmit buffer is flushed to an empty state (XDATA = 1). If XSMRST = 1, XSRCLR = 1, XDATA = 1, and XBUF is not loaded with new data before the start of t..." "CLEAR,ACTIVE"
textline "                           "
bitfld.long 0x00 9. " XHCLKRST    ,Transmit high-frequency clock divider reset enable bit - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 8. "       XCLKRST   ,Transmit clock divider reset enable bit - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 4. "       RFRST    ,Receive frame sync generator reset enable bit. - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 3. " RSMRST      ,Receive state machine reset enable bit. - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 2. "       RSRCLR    ,Receive serializer clear enable bit. By clearing then setting this bit, the receive buffer is flushed. - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
bitfld.long 0x00 1. "       RHCLKRST ,Receive high-frequency clock divider reset enable bit. - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 0. " RCLKRST     ,Receive clock divider reset enable bit. - RESET. - ACTIVE." "RESET,ACTIVE"
group.long 0x48++0x3
line.long 0x00 "MCASP_AMUTE,Mute control register - Controls the MCASP mute output pin - AMUTE (device level - not implemented)"
group.long 0x4C++0x3
line.long 0x00 "MCASP_LBCTL,The digital loopback control register () controls the internal (MCASP module)- level and chip-level loopback settings of the MCASP in TDM mode. Note that loopback is NOT supported if MCASP is configured in DIT mode."
bitfld.long 0x00 4. " IOLBEN      ,If DLBEN=0b1, the IOLBEN bit selects between and loopback modes. IOLBEN bit value is irrelevant, If DLBEN=0b0. - INTERNAL_LB. - CHIP_LB." "INTERNAL_LB,CHIP_LB"
bitfld.long 0x00 2.--3. "  MODE      ,Loopback generator mode bits. - NO_LOOPBACK. - LOOPBACK. 0x2, 0x3: Reserved. - RESERVED." "NO_LOOPBACK,LOOPBACK,2,3"
bitfld.long 0x00 1. "  ORD      ,Loopback order bit when loopback mode is enabled (DLBEN = 1). - ODD. - EVEN." "ODD,EVEN"
textline "                           "
bitfld.long 0x00 0. " DLBEN       ,Loop back mode enable bit. - DISABLE. - ENABLE." "DISABLE,ENABLE"
group.long 0x50++0x3
line.long 0x00 "MCASP_TXDITCTL,Transmit DIT mode control register, controls DIT operations of the MCASP"
bitfld.long 0x00 3. " VB          ,Valid bit for odd time slots (DIT right subframe). - ONESTUFF. - ." "ONESTUFF,ONESTUFF"
bitfld.long 0x00 2. "     VA        ,Valid bit for even time slots (DIT left subframe). - ONESTUFF. - ." "ONESTUFF,ONESTUFF"
bitfld.long 0x00 0. "     DITEN    ,DIT mode enable bit - I2S. - DIT." "I2S,DIT"
group.long 0x60++0x3
line.long 0x00 "MCASP_GBLCTLR,Alias of GBLCTL. When writing to this register, only the TRANSMIT bits of GBLCTL are affected (This means GBLCTL bits 8,9,10,11,12). Reads return GBLCTL"
bitfld.long 0x00 12. " XFRST       ,Frame sync generator reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 11. "       XSMRST    ,XMT state machine reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 10. "       XSRCLR   ,XMT serializer clear - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
textline "                           "
bitfld.long 0x00 9. " XHCLKRST    ,XMT High Freq. clk Divider - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 8. "       XCLKRST   ,XMT clock divder reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 4. "       RFRST    ,Frame sync generator reset - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 3. " RSMRST      ,RCV state machine reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 2. "       RSRCLR    ,RCV serializer clear - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
bitfld.long 0x00 1. "       RHCLKRST ,RCV High Freq. clk Divider - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 0. " RCLKRST     ,RCV clock divder reset - RESET. - ACTIVE." "RESET,ACTIVE"
group.long 0x64++0x3
line.long 0x00 "MCASP_RXMASK,The receive format unit bit mask register () determines which bits of the received data are masked off and padded with a known value before being read by the CPU."
hexmask.long 0x00 0.--31. 1. " RMASK[31:0] ,Receive data mask enable bit. - USEMASK. - NOMASK."
group.long 0x68++0x3
line.long 0x00 "MCASP_RXFMT,The receive bit stream format register () configures the receive data format."
bitfld.long 0x00 16.--17. " RDATDLY     ,Receive Frame sync delay of AXR[n] - 0BIT. - 1BIT. - 2BIT. - 2BIT." "0BIT,1BIT,2BIT,2BIT"
bitfld.long 0x00 15. "         RRVRS     ,Receive serial bitstream order - LSBFIRST. - MSBFIRST." "LSBFIRST,MSBFIRST"
bitfld.long 0x00 13.--14. "     RPAD     ,Pad value for extra bits in slot not belonging to the word. This field only applies to bits when RMASK[n] = 0. - ZERO. - ONE. - RPBIT. - RPBIT." "ZERO,ONE,RPBIT,RPBIT"
textline "                           "
bitfld.long 0x00 8.--12. " RPBIT       ,RPBIT value determines which bit (as read by the CPU from RBUF[n]) is used to pad the extra bits. This field only applies when RPAD = 2h. - . 0x01 - 0x1F: Pad with value of the bit positioned within the range RBUFn[31:1].. - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 4.--7. "           RSSZ      ,Receive slot size.0x0 - 0x2 : Reserved. - RSVD. - 8BITS. - RSVD. - 12BITS. - RSVD. - 16BITS. - RSVD. - 20BITS. - RSVD. - 24BITS. - RSVD. - 28BITS. - 32BITS. - 32BITS." "0,1,2,8BITS,RSVD,12BITS,RSVD,16BITS,RSVD,20BITS,RSVD,24BITS,RSVD,28BITS,32BITS,32BITS"
bitfld.long 0x00 3. "       RBUSEL   ,Selects whether reads from serializer buffer RBUF[n] originate from the peripheral configuration CFG port or the DATA port. - VBUSP. - VBUS." "VBUSP,VBUS"
textline "                           "
bitfld.long 0x00 0.--2. " RROT        ,Right-rotation value for receive rotate right format unit. - NONE. - 4BITS. - 8BITS. - 12BITS. - 16BITS. - 20BITS. - 24BITS. - 28BITS." "NONE,4BITS,8BITS,12BITS,16BITS,20BITS,24BITS,28BITS"
group.long 0x6C++0x3
line.long 0x00 "MCASP_RXFMCTL,The receive frame sync control register () configures the receive frame sync (AFSR)."
hexmask.long.word 0x00 7.--15. 1. " RMOD        ,Receive frame sync mode select bits. - . - . - . 0x3 - 0x20: 3-slot TDM to 32-slot TDM mode. - . 0x21 - 0x17F: Reserved. - . - . 0x181 - 0x1FF: Reserved. - ."
bitfld.long 0x00 4. "         FRWID     ,Receive frame sync width select bit indicates the width of the receive frame sync (AFSR) during its active period. - BIT. - WORD." "BIT,WORD"
bitfld.long 0x00 1. "         FSRM     ,Receive frame sync generation select bit. - EXTERNAL. - INTERNAL." "EXTERNAL,INTERNAL"
textline "                           "
bitfld.long 0x00 0. " FSRP        ,Receive frame sync polarity select bit. - RISINGEDGE. - FALLINGEDGE." "RISINGEDGE,FALLINGEDGE"
group.long 0x70++0x3
line.long 0x00 "MCASP_ACLKRCTL,The receive clock control register () configures the receive bit clock (ACLKR) and the receive clock generator."
bitfld.long 0x00 20. " BUSY        ,Status: logical OR of DIVBUSY, ADJBUSY. Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 19. "      DIVBUSY   ,Status: divide ratio change in progress? Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 18. "      ADJBUSY  ,Status: one-shot adjustment in progress? Not supported. - . - ." "NOTBUSY,BUSY"
textline "                           "
bitfld.long 0x00 16.--17. " CLKRADJ     ,CLKRDIV one-shot adjustment. Not supported. Bit field must always be written as 0x0.If CLKRDIV is set such that there are ?m? input clocks per one output clock, then for one output cycle: - 00 = (m+0) input clocks per output clock, i.e. n..." "PLUSZERO,MINUSONE,PLUSONE,PLUSZER0"
bitfld.long 0x00 7. "     CLKRP     ,Receive bitstream clock polarity select bit. Note that this bitfield does not have any effect, ifMCASP_ACLKXCTL[6] ASYNC = 0 - FALLINGEDGE. - RISINGEDGE." "FALLINGEDGE,RISINGEDGE"
bitfld.long 0x00 5. "  CLKRM    ,Receive bit clock source bit. Note that this bitfield does not have any effect, ifMCASP_ACLKXCTL[6] ASYNC = 0 - EXTERNAL. - INTERNAL." "EXTERNAL,INTERNAL"
textline "                           "
bitfld.long 0x00 0.--4. " CLKRDIV     ,Receive bit clock divide ratio bits determine the divide-down ratio from AHCLKR to ACLKR. Note that this bitfield does not have any effect, ifMCASP_ACLKXCTL[6] ASYNC = 0. - . - . 0x2 - 0x1F: Divide-by-3 to divide-by-32. - ." "0,0x01,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x74++0x3
line.long 0x00 "MCASP_AHCLKRCTL,The receive high-frequency clock control register () configures the receive high-frequency master clock (AHCLKR) and the receive clock generator."
bitfld.long 0x00 20. " BUSY        ,Status: logical OR of DIVBUSY, ADJBUSY. Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 19. "      DIVBUSY   ,Status: divide ratio change in progress? Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 18. "      ADJBUSY  ,Status: one-shot adjustment in progress? Not supported. - . - ." "NOTBUSY,BUSY"
textline "                           "
bitfld.long 0x00 16.--17. " HCLKRADJ    ,HCLKRDIV one-shot adjustment. Not supported. Bit field must always be written as 0x0. If HCLKRDIV is set such that there are ?m? input clocks per one output clock, then for one output cycle: - 00 = (m+0) input clocks per output clock, i.e..." "PLUSZERO,MINUSONE,PLUSONE,PLUSZER0"
bitfld.long 0x00 15. "     HCLKRM    ,High Freq. RCV clock Source - . - ." "EXTERNAL,INTERNAL"
bitfld.long 0x00 14. "     HCLKRP   ,Receive bitstream high-frequency clock polarity select bit. - NOTINVERTED. - INVERTED." "NOTINVERTED,INVERTED"
textline "                           "
hexmask.long.word 0x00 0.--11. 1. " HCLKRDIV    ,Receive high-frequency clock divide ratio bits determine the divide-down ratio from AUXCLK to AHCLKR. - . - . 0x2 - 0xFFF: Divide-by-3 to divide-by-4096. - ."
group.long 0x78++0x3
line.long 0x00 "MCASP_RXTDM,The receive TDM time slot register () specifies which TDM time slot the receiver is active."
hexmask.long 0x00 0.--31. 1. " RTDMS[31:0] ,Receiver mode during TDM time slot n. - INACTIVE. - ACTIVE."
group.long 0x7C++0x3
line.long 0x00 "MCASP_EVTCTLR,Receiver Interrupt control register - controls generation of the MCASP receive interrupt (RINT). When the register bit(s) is set to 1, the occurrence of the enabled MCASP condition(s) generates RINT."
bitfld.long 0x00 7. " RSTAFRM     ,Receive start of frame interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 5. "       RDATA     ,Receive data-ready interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 4. "       RLAST    ,Receive last slot interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
textline "                           "
bitfld.long 0x00 3. " RDMAERR     ,Receive DMA error interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 2. "       RCKFAIL   ,Receive clock failure interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 1. "       RSYNCERR ,Unexpected receive frame-sync interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
textline "                           "
bitfld.long 0x00 0. " ROVRN       ,Receiver overrun interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
group.long 0x80++0x3
line.long 0x00 "MCASP_RXSTAT,The receiver status register () provides the receiver status and receive TDM time slot number."
bitfld.long 0x00 8. " RERR        ,RERR bit always returns a logic-OR of: ROVRN | RSYNCERR | RCKFAIL | RDMAERR Allows a single bit to be checked to determine if a receiver error has occurred. - NOERROR. - ERROR." "NOERROR,ERROR"
bitfld.long 0x00 7. "      RDMAERR   ,Receive DMA error flag. RDMAERR is set when the CPU or DMA reads more serializers through the DMA port in a given time slot than were programmed as receivers. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has ..." "NOTOCCUR,OCCUR"
bitfld.long 0x00 6. "     RSTAFRM  ,Receive start of frame flag. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
textline "                           "
bitfld.long 0x00 5. " RDATA       ,Receive data ready flag. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
bitfld.long 0x00 4. "     RLAST     ,Receive last slot flag. RLAST is set along with RDATA, if the current slot is the last slot in a frame. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
bitfld.long 0x00 3. "     RTDMSLOT ,Returns the LSB of RSLOT. Allows a single read ofMCASP_RXSTAT to determine whether the current TDM time slot is even or odd. - ODDSLOT. - EVENSLOT." "ODDSLOT,EVENSLOT"
textline "                           "
bitfld.long 0x00 2. " RCKFAIL     ,Receive clock failure flag. RCKFAIL is set when the receive clock failure detection circuit reports an error. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
bitfld.long 0x00 1. "     RSYNCERR  ,Unexpected receive frame sync flag. RSYNCERR is set when a new receive frame sync (AFSR) occurs before it is expected. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
bitfld.long 0x00 0. "     ROVRN    ,Receiver overrun flag. ROVRN is set when the receive serializer is instructed to transfer data from XRSR to RBUF, but the former data in RBUF has not yet been read by the CPU or DMA. This bit is cleared by writing a 1 to this bit. Writin..." "NOTOCCUR,OCCUR"
rgroup.long 0x84++0x3
line.long 0x00 "MCASP_RXTDMSLOT,The current receive TDM time slot register () indicates the current time slot for the receive data frame."
hexmask.long.word 0x00 0.--8. 1. " RSLOTCNT    ,0x0 - 0x17F: Current receive time slot count. Legal values: 0 to 383 (17Fh). TDM function is not supported for > 32 time slots. However, TDM time slot counter may count to 383 when used to receive a DIR block (transferred over TDM ..."
group.long 0x88++0x3
line.long 0x00 "MCASP_RXCLKCHK,The receive clock check control register (RCLKCHK) configures the receive clock failure detection circuit."
hexmask.long.byte 0x00 24.--31. 1. " RCNT        ,0x0 - 0xFF: Receive clock count value (from previous measurement). The clock circuit continually counts the number of interface clocks for every 32 receive high-frequency master clock (AHCLKR) signals, and stores the count in RCNT until t..."
hexmask.long.byte 0x00 16.--23. 1. "           RMAX      ,0x00-0xFF: Receive clock maximum boundary. This 8-bit unsigned value sets the maximum allowed boundary for the clock check counter after 32 receive high-frequency master clock (AHCLKR) signals have been received. If the current co..."
hexmask.long.byte 0x00 8.--15. 1. "           RMIN     ,0x00 - 0xFF: Receive clock minimum boundary. This 8-bit unsigned value sets the minimum allowed boundary for the clock check counter after 32 receive high-frequency master clock (AHCLKR) signals have been received. If RCNT is less ..."
textline "                           "
bitfld.long 0x00 0.--3. " RPS         ,Receive clock check prescaler value. - DIVBY64. - DIVBY2. - DIVBY128. - DIVBY1. - DIVBY4. - DIVBY256. - DIVBY16. - DIVBY32. - DIVBY8. 0x9 - 0xF: Reserved. - DIVBY8." "DIVBY64,DIVBY2,DIVBY128,DIVBY1,DIVBY4,DIVBY256,DIVBY16,DIVBY32,DIVBY8,9,10,11,12,13,14,15"
group.long 0x8C++0x3
line.long 0x00 "MCASP_REVTCTL,Receiver DMA event control register"
bitfld.long 0x00 0. " RDATDMA     ,Receive data DMA request enable bit. - . - ." "ENABLE,DISABLE"
group.long 0xA0++0x3
line.long 0x00 "MCASP_GBLCTLX,Alias of GBLCTL. When writing to this register, only the TRANSMIT bits of GBLCTL are affected (This means GBLCTL bits 8,9,10,11,12.). Reads return GBLCTL."
bitfld.long 0x00 12. " XFRST       ,Frame sync generator reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 11. "       XSMRST    ,XMT state machine reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 10. "       XSRCLR   ,XMT serializer clear - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
textline "                           "
bitfld.long 0x00 9. " XHCLKRST    ,XMT High Freq. clk Divider - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 8. "       XCLKRST   ,XMT clock divder reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 4. "       RFRST    ,Frame sync generator reset - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 3. " RSMRST      ,RCV state machine reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 2. "       RSRCLKR   ,RCV serializer clear - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
bitfld.long 0x00 1. "       RHCLKRST ,RCV High Freq. clk Divider - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 0. " RCLKRST     ,RCV clock divder reset - RESET. - ACTIVE." "RESET,ACTIVE"
group.long 0xA4++0x3
line.long 0x00 "MCASP_TXMASK,Transmit format unit bit mask register - Determines which bits of the transmitted data are masked off before being shifted out the MCASP"
hexmask.long 0x00 0.--31. 1. " XMASK[31:0] ,Transmit data mask enable bit - . - ."
group.long 0xA8++0x3
line.long 0x00 "MCASP_TXFMT,Transmit bitstream format register - configures the transmit data format"
bitfld.long 0x00 16.--17. " XDATDLY     ,Transmit sync bit delay - 0BIT. - 1BIT. - 2BIT. - 2BIT." "0BIT,1BIT,2BIT,2BIT"
bitfld.long 0x00 15. "         XRVRS     ,Transmit serial bitstream order - . - ." "LSBFIRST,MSBFIRST"
bitfld.long 0x00 13.--14. "     XPAD     ,Pad value for extra bits in slot not belonging to word defined by XMASK. This field only applies to bits when XMASK[n] = 0. - . - . - . - ." "ZERO,ONE,XPBIT,3"
textline "                           "
bitfld.long 0x00 8.--12. " XPBIT       ,XPBIT value determines which bit (as written by the CPU or DMA to XBUF[n]) is used to pad the extra bits before shifting. This field only applies when XPAD = 0x2." "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 4.--7. "   XSSZ      ,Transmit slot size0x0 - 0x2 : Reserved. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - ." "0,1,2,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,32BITS"
bitfld.long 0x00 3. "       XBUSEL   ,Selects whether writes to the serializer buffer XBUF[n] originate from the peripheral configuration CFG port or the DATA port. - VBUSP. - VBUS." "VBUSP,VBUS"
textline "                           "
bitfld.long 0x00 0.--2. " XROT        ,Right-rotation value for transmit rotate right format unit - 12BITS. - . - . - . - . - . - . - ." "12BITS,4BITS,8BITS,12BITS,16BITS,20BITS,24BITS,28BITS"
group.long 0xAC++0x3
line.long 0x00 "MCASP_TXFMCTL,Transmit frame-sync control register - configures the transmit frame sync (MCASPi_fsx)."
hexmask.long.word 0x00 7.--15. 1. " XMOD        ,Transmit frame-sync mode select bits 0x0: Burst mode 0x1: Reserved 0x2: 2-slot TDM mode () 0x3 - 0x20: 3-slot TDM to 32-slot TDM mode 0x21 - 0x17F: Reserved 0x180: 384-slot DIT mode All other: Reserved"
bitfld.long 0x00 4. "         FXWID     ,The transmit frame-sync width select bit indicates the width of the transmit frame sync (MCASPi_fsx) during its active period. - WORD. - ." "WORD,WORD"
bitfld.long 0x00 1. "         FSXM     ,Transmit frame-sync generation select bit - INTERNAL. - ." "INTERNAL,INTERNAL"
textline "                           "
bitfld.long 0x00 0. " FSXP        ,Transmit frame-sync polarity select bit - FALLINGEDGE. - ." "FALLINGEDGE,FALLINGEDGE"
group.long 0xB0++0x3
line.long 0x00 "MCASP_ACLKXCTL,Transmit clock control register - Configures the transmit bit clock (MCASPi_aclkx) and the transmit clock generator."
bitfld.long 0x00 20. " BUSY        ,Status: logical OR of DIVBUSY, ADJBUSY. Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 19. "      DIVBUSY   ,Status: divide ratio change in progress? Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 18. "      ADJBUSY  ,Status: one-shot adjustment in progress? Not supported. - . - ." "NOTBUSY,BUSY"
textline "                           "
bitfld.long 0x00 16.--17. " CLKXADJ     ,CLKXDIV one-shot adjustment. Not supported. Bit field must always be written as 0x0. If CLKXDIV is set such that there are ?m? input clocks per one output clock, then for one output cycle: - 00 = (m+0) input clocks per output clock, i.e. ..." "PLUSZERO,MINUSONE,PLUSONE,PLUSZER0"
bitfld.long 0x00 7. "     CLKXP     ,Transmit bitstream clock polarity select bit. - . - ." "RISINGEDGE,FALLINGEDGE"
bitfld.long 0x00 6. "  ASYNC    ,Transmit operation asynchronous enable bit - ASYNC. - ." "ASYNC,ASYNC"
textline "                           "
bitfld.long 0x00 5. " CLKXM       ,Transmit bit clock source bit - INTERNAL. - ." "INTERNAL,INTERNAL"
bitfld.long 0x00 0.--4. "     CLKXDIV   ,Transmit bit clock divide ratio bits, determine the divide-down ratio from AHCLKX to ACLKX. 0x0: Divide-by-1 0x1: Divide-by-2 0x2 to 0x1F: Divide-by-3 to divide-by-32" "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
group.long 0xB4++0x3
line.long 0x00 "MCASP_AHCLKXCTL,High-frequency transmit clock control register - Configures the transmit high-frequency master clock (MCASPi_ahclkx) and the transmit clock generator."
bitfld.long 0x00 20. " BUSY        ,Status: logical OR of DIVBUSY, ADJBUSY. Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 19. "      DIVBUSY   ,Status: divide ratio change in progress? Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 18. "      ADJBUSY  ,Status: one-shot adjustment in progress? Not supported. - . - ." "NOTBUSY,BUSY"
textline "                           "
bitfld.long 0x00 16.--17. " HCLKXADJ    ,HCLKXDIV one-shot adjustment. Not supported. Bit field must always be written as 0x0. If HCLKXDIV is set such that there are ?m? input clocks per one output clock, then for one output cycle: - 00 = (m+0) input clocks per output clock, i.e..." "PLUSZERO,MINUSONE,PLUSONE,PLUSZER0"
bitfld.long 0x00 15. "     HCLKXM    ,Transmit high-frequency clock source bit - INTERNAL. - ." "INTERNAL,INTERNAL"
bitfld.long 0x00 14. "     HCLKXP   ,Transmit bitstream high-frequency clock polarity select bit. - . - ." "NOTINVERTED,INVERTED"
textline "                           "
hexmask.long.word 0x00 0.--11. 1. " HCLKXDIV    ,Transmit high-frequency clock divide ratio bits determine the divide-down ratio from AUXCLK to MCASPi_ahclkx. 0x0: Divide-by-1 0x1: Divide-by-2 0x2 to 0xFFF: Divide-by-3 to divide-by-4096"
group.long 0xB8++0x3
line.long 0x00 "MCASP_TXTDM,Transmit TDM slot 0-31 register - TDM time slot counter range is to 384 slots (to support SPDIF blocks of 384 subframes)."
hexmask.long 0x00 0.--31. 1. " XTDMS[31:0] ,Transmitter mode during TDM time slot n (n = 0..31) - . - ."
group.long 0xBC++0x3
line.long 0x00 "MCASP_EVTCTLX,Transmitter Interrupt control register - controls generation of the MCASP transmit interrupt (XINT). When the register bit(s) is set to 1, the occurrence of the enabled MCASP condition(s) generates XINT."
bitfld.long 0x00 7. " XSTAFRM     ,Transmit start of frame interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 5. "       XDATA     ,Transmit data-ready interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 4. "       XLAST    ,Transmit last slot interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
textline "                           "
bitfld.long 0x00 3. " XDMAERR     ,Transmit DMA error interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 2. "       XCKFAIL   ,Transmit clock failure interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 1. "       XSYNCERR ,Unexpected transmit frame-sync interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
textline "                           "
bitfld.long 0x00 0. " XUNDRN      ,Transmitter underrun interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
group.long 0xC0++0x3
line.long 0x00 "MCASP_TXSTAT,Transmitter status register - If the MCASP logic attempts to set an interrupt flag in the same cycle that the CPU writes to the flag to clear it, the MCASP logic has priority and the flag remains set. This also causes the generation of a n..."
bitfld.long 0x00 8. " XERR        ,XERR bit always returns a logic-OR of: XUNDRN | XSYNCERR | XCKFAIL | XDMAERR. Allows a single bit to be checked to determine if a transmitter error interrupt has occurred. - ERROR. - ." "ERROR,ERROR"
bitfld.long 0x00 7. "        XDMAERR   ,Transmit DMA error flag. XDMAERR is set when the CPU or DMA writes more words to the DATA port of the MCASP in a given time slot than it should. Causes a transmit interrupt (XINT) if this bit and XDMAERR inMCASP_EVTCTLX are set. This..." "OCCUR,OCCUR"
bitfld.long 0x00 6. "        XSTAFRM  ,Transmit start of frame flag. Causes a transmit interrupt (XINT) if this bit and XSTAFRM inMCASP_EVTCTLX are set. This bit is cleared by writing a 1 to it. Writing a 0 has no effect. - OCCUR. - ." "OCCUR,OCCUR"
textline "                           "
bitfld.long 0x00 5. " XDATA       ,Transmit data ready flag. Causes a transmit interrupt (XINT) if this bit and XDATA inMCASP_EVTCTLX are set. This bit is cleared by writing a 1 to iit. Writing a 0 has no effect - OCCUR. - ." "OCCUR,OCCUR"
bitfld.long 0x00 4. "        XLAST     ,Transmit last slot flag. XLAST, along with XDATA, are set if the current slot is the last slot in a frame. Causes a transmit interrupt (XINT) if this bit and XLAST inMCASP_EVTCTLX are set. This bit is cleared by writing a 1 to iit. W..." "OCCUR,OCCUR"
bitfld.long 0x00 3. "        XTDMSLOT ,Returns the LSB of XSLOT. Allows a single read of XSTAT to determine whether the current TDM time slot is even or odd. - EVENSLOT. - ." "EVENSLOT,EVENSLOT"
textline "                           "
bitfld.long 0x00 2. " XCKFAIL     ,Transmit clock failure flag. XCKFAIL is set when the transmit clock failure detection circuit reports an error. Causes a transmit interrupt (XINT) if this bit and XCKFAIL inMCASP_EVTCTLX are set. This bit is cleared by writing a 1 to iit...." "OCCUR,OCCUR"
bitfld.long 0x00 1. "        XSYNCERR  ,Unexpected transmit frame-sync flag. XSYNCERR is set when a new transmit frame sync (AFSX) occurs before it is expected. Causes a transmit interrupt (XINT) if this bit and XSYNCERR inMCASP_EVTCTLX are set. This bit is cleared by writ..." "OCCUR,OCCUR"
bitfld.long 0x00 0. "        XUNDRN   ,Transmitter underrun flag. XUNDRN is set when the transmit serializer is instructed to transfer data from XBUF[n] to XRSR[n], but XBUF[n] has not yet been serviced with new data since the last transfer. Causes a transmit interrupt (XI..." "OCCUR,OCCUR"
rgroup.long 0xC4++0x3
line.long 0x00 "MCASP_TXTDMSLOT,Current transmit TDM time slot register"
hexmask.long.word 0x00 0.--8. 1. " XSLOTCNT    ,Current transmit time slot count. the value of this register is 0b0101111111 (0x17f) during reset and 0 after reset."
group.long 0xC8++0x3
line.long 0x00 "MCASP_TXCLKCHK,Transmit clock check control register - configures the transmit clock failure detection circuit."
hexmask.long.byte 0x00 24.--31. 1. " XCNT        ,Transmit clock count value (from previous measurement). The clock circuit continually counts the number of interface clocks for every 32 transmit high-frequency master clock (MCASPi_ahclkx) signals, and stores the count in XCNT until the ..."
hexmask.long.byte 0x00 16.--23. 1. "           XMAX      ,0x0 to 0xFF: Transmit clock maximum boundary. This 8-bit unsigned value sets the maximum allowed boundary for the clock check counter after 32 transmit high-frequency master clock (MCASPi_ahclkx) signals have been received. If the..."
hexmask.long.byte 0x00 8.--15. 1. "           XMIN     ,0x0 to 0xFF: Transmit clock minimum boundary. This 8-bit unsigned value sets the minimum allowed boundary for the clock check counter after 32 transmit high-frequency master clock (MCASPi_ahclkx) signals have been received. If XCNT..."
textline "                           "
bitfld.long 0x00 0.--3. " XPS         ,Transmit clock check prescaler value 0x0: MCASP interface clock divided by 1 0x1: MCASP interface clock divided by 2 0x2: MCASP interface clock divided by 4 0x3: MCASP interface clock divided by 8 0x4: MCASP interface clock divided by 16 ..." "DIVBY1,DIVBY2,DIVBY4,DIVBY8,DIVBY16,DIVBY32,DIVBY64,DIVBY128,DIVBY256,9,10,11,12,13,14,15"
group.long 0xCC++0x3
line.long 0x00 "MCASP_XEVTCTL,Transmitter DMA event control register"
bitfld.long 0x00 0. " XDATDMA     ,Transmit data DMA request enable bit. - . - ." "ENABLE,DISABLE"
group.long 0xD0++0x3
line.long 0x00 "MCASP_CLKADJEN,One-Shot Clock Adjustment Enable"
bitfld.long 0x00 0. " ENABLE      ,One-shot clock adjust enable. Not supported. Bit field must always be written as 0x0. - DISABLE. - ENABLE." "DISABLE,ENABLE"
width 0x0B
tree.end
tree "MCASP6_CFG"
base ad:0x48474000
tree "Channel_0"
width 18.
group.long 0x100++0x3
line.long 0x00 "MCASP_DITCSRAi_0,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x118++0x3
line.long 0x00 "MCASP_DITCSRBi_0,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x130++0x3
line.long 0x00 "MCASP_DITUDRAi_0,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x148++0x3
line.long 0x00 "MCASP_DITUDRBi_0,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
group.long 0x280++0x3
line.long 0x00 "MCASP_RXBUFn_0,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn    ,Receive Buffer n"
group.long 0x200++0x3
line.long 0x00 "MCASP_TXBUFn_0,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn    ,Transmit buffer n"
group.long 0x180++0x3
line.long 0x00 "MCASP_XRSRCTLn_0,Serializer n control register."
bitfld.long 0x00 5. " RRDY     ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                           "
bitfld.long 0x00 0.--1. " SRMOD    ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_1"
width 18.
group.long 0x104++0x3
line.long 0x00 "MCASP_DITCSRAi_1,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x11C++0x3
line.long 0x00 "MCASP_DITCSRBi_1,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x134++0x3
line.long 0x00 "MCASP_DITUDRAi_1,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x14C++0x3
line.long 0x00 "MCASP_DITUDRBi_1,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
group.long 0x284++0x3
line.long 0x00 "MCASP_RXBUFn_1,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn    ,Receive Buffer n"
group.long 0x204++0x3
line.long 0x00 "MCASP_TXBUFn_1,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn    ,Transmit buffer n"
group.long 0x184++0x3
line.long 0x00 "MCASP_XRSRCTLn_1,Serializer n control register."
bitfld.long 0x00 5. " RRDY     ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                           "
bitfld.long 0x00 0.--1. " SRMOD    ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_2"
width 18.
group.long 0x108++0x3
line.long 0x00 "MCASP_DITCSRAi_2,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x120++0x3
line.long 0x00 "MCASP_DITCSRBi_2,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x138++0x3
line.long 0x00 "MCASP_DITUDRAi_2,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x150++0x3
line.long 0x00 "MCASP_DITUDRBi_2,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
group.long 0x288++0x3
line.long 0x00 "MCASP_RXBUFn_2,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn    ,Receive Buffer n"
group.long 0x208++0x3
line.long 0x00 "MCASP_TXBUFn_2,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn    ,Transmit buffer n"
group.long 0x188++0x3
line.long 0x00 "MCASP_XRSRCTLn_2,Serializer n control register."
bitfld.long 0x00 5. " RRDY     ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                           "
bitfld.long 0x00 0.--1. " SRMOD    ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_3"
width 18.
group.long 0x10C++0x3
line.long 0x00 "MCASP_DITCSRAi_3,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x124++0x3
line.long 0x00 "MCASP_DITCSRBi_3,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x13C++0x3
line.long 0x00 "MCASP_DITUDRAi_3,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x154++0x3
line.long 0x00 "MCASP_DITUDRBi_3,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
group.long 0x28C++0x3
line.long 0x00 "MCASP_RXBUFn_3,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn    ,Receive Buffer n"
group.long 0x20C++0x3
line.long 0x00 "MCASP_TXBUFn_3,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn    ,Transmit buffer n"
group.long 0x18C++0x3
line.long 0x00 "MCASP_XRSRCTLn_3,Serializer n control register."
bitfld.long 0x00 5. " RRDY     ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                           "
bitfld.long 0x00 0.--1. " SRMOD    ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_4"
width 18.
group.long 0x110++0x3
line.long 0x00 "MCASP_DITCSRAi_4,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x128++0x3
line.long 0x00 "MCASP_DITCSRBi_4,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x140++0x3
line.long 0x00 "MCASP_DITUDRAi_4,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x158++0x3
line.long 0x00 "MCASP_DITUDRBi_4,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
tree.end
tree "Channel_5"
width 18.
group.long 0x114++0x3
line.long 0x00 "MCASP_DITCSRAi_5,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x12C++0x3
line.long 0x00 "MCASP_DITCSRBi_5,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x144++0x3
line.long 0x00 "MCASP_DITUDRAi_5,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x15C++0x3
line.long 0x00 "MCASP_DITUDRBi_5,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
tree.end
textline ""
width 18.
rgroup.long 0x0++0x3
line.long 0x00 "MCASP_PID,Peripheral identification register"
bitfld.long 0x00 30.--31. " SCHEME      ,Scheme. Distinguishes between old scheme and current." "0,1,2,3"
bitfld.long 0x00 28.--29. "            RESV      ,Reserved." "0,1,2,3"
hexmask.long.word 0x00 16.--27. 1. "            FUNCTION ,MCASP. Indicates a software-compatible module family."
textline "                           "
bitfld.long 0x00 11.--15. " RTL         ,RTL version." "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 8.--10. "   REVMAJOR  ,Major revision number." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6.--7. "            CUSTOM   ,Non-custom. Indicates a special version for a given device." "0,1,2,3"
textline "                           "
bitfld.long 0x00 0.--5. " REVMINOR    ,Minor revision number." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x4++0x3
line.long 0x00 "PWRIDLESYSCONFIG,Power idle module configuration register."
bitfld.long 0x00 2.--5. " OTHER       ,Reserved for future expansion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--1. "           IDLE_MODE ,0x0: Force-idle mode 0x1: No-idle mode 0x2: Smart-idle mode - default state 0x3: Reserved" "0,1,2,3"
group.long 0x10++0x3
line.long 0x00 "MCASP_PFUNC,Specifies the function of the pins as either a MCASP pin or a GPIO pin"
bitfld.long 0x00 31. " AFSR        ,Determines if AFSR pin (device level MCASPi_fsr signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 29. "        ACLKR     ,Determines if ACLKR pin (device level MCASPi_aclkr signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 28. "        AFSX     ,Determines if AFSX pin (device level MCASPi_fsx signal) functions as MCASP or GPIO. - GPIO. - ." "GPIO,GPIO"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Determines if AHCLKX pin (device level MCASPi_ahclkx signal) functions as MCASP or GPIO. - GPIO. - ." "GPIO,GPIO"
bitfld.long 0x00 26. "         ACLKX     ,Determines if ACLKX pin (device level MCASPi_aclkx signal) functions as MCASP or GPIO. - GPIO. - ." "GPIO,GPIO"
bitfld.long 0x00 15. "         AXR15    ,Determines if AXR15 pin (device level MCASPx_axr[15] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Determines if AXR14 pin (device level MCASPx_axr[14] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 13. "        AXR13     ,Determines if AXR13 pin (device level MCASPx_axr[13] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 12. "        AXR12    ,Determines if AXR12 pin (device level MCASPx_axr[12] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Determines if AXR11 pin (device level MCASPx_axr[11] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 10. "        AXR10     ,Determines if AXR10 pin (device level MCASPx_axr[10] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 9. "        AXR9     ,Determines if AXR9 pin (device level MCASPx_axr[9] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Determines if AXR8 pin (device level MCASPx_axr[8] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 7. "        AXR7      ,Determines if AXR7 pin (device level MCASPx_axr[7] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 6. "        AXR6     ,Determines if AXR6 pin (device level MCASPx_axr[6] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Determines if AXR5 pin (device level MCASPx_axr[5] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 4. "        AXR4      ,Determines if AXR4 pin (device level MCASPx_axr[4] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 3. "        AXR3     ,Determines if AXR3 pin (device level MCASPi_axr[3] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Determines if AXR2 pin (device level MCASPi_axr[2] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 1. "        AXR1      ,Determines if AXR1 pin (device level MCASPi_axr[1] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 0. "        AXR0     ,Determines if AXR0 pin (device level MCASPi_axr[0] signal) functions as MCASP or GPIO. - GPIO. - ." "GPIO,GPIO"
group.long 0x14++0x3
line.long 0x00 "MCASP_PDIR,Pin direction register - specifies the direction of the MCASP pins as either an input or an output pin."
bitfld.long 0x00 31. " AFSR        ,Determines if AFSR pin (device level MCASPi_fsr signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 29. "       ACLKR     ,Determines if ACLKR pin (device level MCASPi_aclkr signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 28. "       AFSX     ,Determines if AFSX pin (device level MCASPi_fsx signal) functions as an input or output. - OUTPUT. - ." "OUTPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Determines if AHCLKX pin (device level MCASPi_ahclkx signal) functions as an input or output. - OUTPUT. - ." "OUTPUT,OUTPUT"
bitfld.long 0x00 26. "       ACLKX     ,Determines if ACLKX pin (device level MCASPi_aclkx signal) functions as an input or output. - OUTPUT. - ." "OUTPUT,OUTPUT"
bitfld.long 0x00 15. "       AXR15    ,Determines if AXR15 pin (device level MCASPi_axr[15] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Determines if AXR14 pin (device level MCASPi_axr[14] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 13. "       AXR13     ,Determines if AXR13 pin (device level MCASPi_axr[13] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 12. "       AXR12    ,Determines if AXR12 pin (device level MCASPi_axr[12] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Determines if AXR11 pin (device level MCASPi_axr[11] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 10. "       AXR10     ,Determines if AXR10 pin (device level MCASPi_axr[10] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 9. "       AXR9     ,Determines if AXR9 pin (device level MCASPi_axr[9] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Determines if AXR8 pin (device level MCASPi_axr[8] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 7. "       AXR7      ,Determines if AXR7 pin (device level MCASPi_axr[7] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 6. "       AXR6     ,Determines if AXR6 pin (device level MCASPi_axr[6] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Determines if AXR5 pin (device level MCASPi_axr[5] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 4. "       AXR4      ,Determines if AXR4 pin (device level MCASPi_axr[4] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 3. "       AXR3     ,Determines if AXR3 pin (device level MCASPi_axr[3] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Determines if AXR2 pin (device level MCASPi_axr[2] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 1. "       AXR1      ,Determines if AXR1 pin (device level MCASPi_axr[1] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 0. "       AXR0     ,Determines if AXR0 pin (device level MCASPi_axr[0] signal) functions as an input or output. - OUTPUT. - ." "OUTPUT,OUTPUT"
group.long 0x18++0x3
line.long 0x00 "MCASP_PDOUT,Pin data output register - holds a value for data out at all times, and may be read back at all times. The value held by is not affected by writing to and . However, the data value in is driven out onto the MCASP pin only if the correspondi..."
bitfld.long 0x00 31. " AFSR        ,Determines drive on AFSR output pin when the correspondingMCASP_PFUNC[31] and MCASP_PDIR[31] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 30. "         AHCLKR    ,Determines drive on AHCLKR output pin when the correspondingMCASP_PFUNC[30] and MCASP_PDIR[30] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 29. "         ACLKR    ,Determines drive on ACLKR output pin when the correspondingMCASP_PFUNC[29] and MCASP_PDIR[29] bits are set to 1 - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 28. " AFSX        ,Determines drive on AFSX output pin when the correspondingMCASP_PFUNC[28] and MCASP_PDIR[28] bits are set to 1. - DRV1. - ." "DRV1,DRV1"
bitfld.long 0x00 27. "         AHCLKX    ,Determines drive on AHCLKX output pin when the correspondingMCASP_PFUNC[27] and MCASP_PDIR[27] bits are set to 1. - DRV1. - ." "DRV1,DRV1"
bitfld.long 0x00 26. "         ACLKX    ,Determines drive on ACLKX output pin when the correspondingMCASP_PFUNC[26] and MCASP_PDIR[26] bits are set to 1 - DRV1. - ." "DRV1,DRV1"
textline "                           "
bitfld.long 0x00 15. " AXR15       ,Determines drive on AXR15 output pin when the correspondingMCASP_PFUNC[15] and MCASP_PDIR[15] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 14. "         AXR14     ,Determines drive on AXR14 output pin when the correspondingMCASP_PFUNC[14] and MCASP_PDIR[14] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 13. "         AXR13    ,Determines drive on AXR13 output pin when the correspondingMCASP_PFUNC[13] and MCASP_PDIR[13] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 12. " AXR12       ,Determines drive on AXR12 output pin when the correspondingMCASP_PFUNC[12] and MCASP_PDIR[12] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 11. "         AXR11     ,Determines drive on AXR11 output pin when the correspondingMCASP_PFUNC[11] and MCASP_PDIR[11] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 10. "         AXR10    ,Determines drive on AXR10 output pin when the correspondingMCASP_PFUNC[10] and MCASP_PDIR[10] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 9. " AXR9        ,Determines drive on AXR9 output pin when the correspondingMCASP_PFUNC[9] and MCASP_PDIR[9] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 8. "         AXR8      ,Determines drive on AXR8 output pin when the correspondingMCASP_PFUNC[8] and MCASP_PDIR[8] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 7. "         AXR7     ,Determines drive on AXR7 output pin when the correspondingMCASP_PFUNC[7] and MCASP_PDIR[7] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 6. " AXR6        ,Determines drive on AXR6 output pin when the correspondingMCASP_PFUNC[6] and MCASP_PDIR[6] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 5. "         AXR5      ,Determines drive on AXR5 output pin when the correspondingMCASP_PFUNC[5] and MCASP_PDIR[5] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 4. "         AXR4     ,Determines drive on AXR4 output pin when the correspondingMCASP_PFUNC[4] and MCASP_PDIR[4] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 3. " AXR3        ,Determines drive on AXR3 output pin when the correspondingMCASP_PFUNC[3] and MCASP_PDIR[3] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 2. "         AXR2      ,Determines drive on AXR2 output pin when the correspondingMCASP_PFUNC[2] and MCASP_PDIR[2] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 1. "         AXR1     ,Determines drive on AXR1 output pin when the correspondingMCASP_PFUNC[1] and MCASP_PDIR[1] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 0. " AXR0        ,Determines drive on AXR0 output pin when the correspondingMCASP_PFUNC[0] and MCASP_PDIR[0] bits are set to 1. - DRV1. - ." "DRV1,DRV1"
rgroup.long 0x1C++0x3
line.long 0x00 "MCASP_PDIN,Pin data input register - holds the state of all the MCASP pins. allows reading the actual value of the pin, regardless of the state of and ."
bitfld.long 0x00 31. " AFSR        ,Logic level on AFSR pin (device level MCASPi_fsr signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 29. "         ACLKR     ,Logic level on ACLKR pin (device level MCASPi_aclkr signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 28. "         AFSX     ,Logic level on AFSX pin (device level MCASPi_fsx signal). - LOW. - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Logic level on AHCLKX pin (device level MCASPi_ahclkx signal). - LOW. - ." "LOW,HIGH"
bitfld.long 0x00 26. "         ACLKX     ,Logic level on ACLKX pin (device level MCASPi_aclkx signal). - LOW. - ." "LOW,HIGH"
bitfld.long 0x00 15. "         AXR15    ,Logic level on AXR15 pin (device level MCASPi_axr[15] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Logic level on AXR14 pin (device level MCASPi_axr[14] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 13. "         AXR13     ,Logic level on AXR13 pin (device level MCASPi_axr[13] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 12. "         AXR12    ,Logic level on AXR12 pin (device level MCASPi_axr[12] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Logic level on AXR11 pin (device level MCASPi_axr[11] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 10. "         AXR10     ,Logic level on AXR10 pin (device level MCASPi_axr[10] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 9. "         AXR9     ,Logic level on AXR9 pin (device level MCASPi_axr[9] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Logic level on AXR8 pin (device level MCASPi_axr[8] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 7. "         AXR7      ,Logic level on AXR7 pin (device level MCASPi_axr[7] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 6. "         AXR6     ,Logic level on AXR6 pin (device level MCASPi_axr[6] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Logic level on AXR5 pin (device level MCASPi_axr[5] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 4. "         AXR4      ,Logic level on AXR4 pin (device level MCASPi_axr[4] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 3. "         AXR3     ,Logic level on AXR3 pin (device level MCASPi_axr[3] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Logic level on AXR2 pin (device level MCASPi_axr[2] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 1. "         AXR1      ,Logic level on AXR1 pin (device level MCASPi_axr[1] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 0. "         AXR0     ,Logic level on AXR0 pin (device level MCASPi_axr[0] signal). - LOW. - ." "LOW,HIGH"
wgroup.long 0x1C++0x3
line.long 0x00 "MCASP_PDSET,The pin data set register is an alias of the pin data output register () for writes only. Writing a 1 to the bit sets the corresponding bit in and, if = 1 (GPIO function) and = 1 (output), drives a logic high on the pin."
bitfld.long 0x00 31. " AFSR        ,Allows the corresponding AFSR bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 29. "     ACLKR     ,Allows the corresponding ACLKR bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 28. "     AFSX     ,Allows the corresponding AFSX bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - SET. - ." "SET,SET"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Allows the corresponding AHCLKX bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - SET. - ." "SET,SET"
bitfld.long 0x00 26. "          ACLKX     ,Allows the corresponding ACLKX bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - SET. - ." "SET,SET"
bitfld.long 0x00 15. "          AXR15    ,Allows the AXR15 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Allows the AXR14 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 13. "     AXR13     ,Allows the AXR13 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 12. "     AXR12    ,Allows the AXR12 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Allows the AXR11 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 10. "     AXR10     ,Allows the AXR10 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 9. "     AXR9     ,Allows the AXR9 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Allows the AXR8 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 7. "     AXR7      ,Allows the AXR7 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 6. "     AXR6     ,Allows the AXR6 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Allows the AXR5 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 4. "     AXR4      ,Allows the AXR4 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 3. "     AXR3     ,Allows the AXR3 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Allows the AXR2 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 1. "     AXR1      ,Allows the AXR1 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 0. "     AXR0     ,Allows the AXR0 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - SET. - ." "SET,SET"
group.long 0x20++0x3
line.long 0x00 "MCASP_PDCLR,The pin data clear register is an alias of the pin data output register () for writes only. Writing a 1 to the bit clears the corresponding bit in and, if = 1 (GPIO function) and = 1 (output), drives a logic low on the pin."
bitfld.long 0x00 31. " AFSR        ,Allows the corresponding AFSR bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 29. "     ACLKR     ,Allows the corresponding ACLKR bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 28. "     AFSX     ,Allows the corresponding AFSX bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - CLEAR. - ." "CLEAR,CLEAR"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Allows the corresponding AHCLKX bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - CLEAR. - ." "CLEAR,CLEAR"
bitfld.long 0x00 26. "        ACLKX     ,Allows the corresponding ACLKX bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - CLEAR. - ." "CLEAR,CLEAR"
bitfld.long 0x00 15. "        AXR15    ,Allows the AXR15 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Allows the AXR14 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 13. "     AXR13     ,Allows the AXR13 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 12. "     AXR12    ,Allows the AXR12 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Allows the AXR11 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 10. "     AXR10     ,Allows the AXR10 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 9. "     AXR9     ,Allows the AXR9 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Allows the AXR8 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 7. "     AXR7      ,Allows the AXR7 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 6. "     AXR6     ,Allows the AXR6 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Allows the AXR5 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 4. "     AXR4      ,Allows the AXR4 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 3. "     AXR3     ,Allows the AXR3 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Allows the AXR2 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 1. "     AXR1      ,Allows the AXR1 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 0. "     AXR0     ,Allows the AXR0 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - CLEAR. - ." "CLEAR,CLEAR"
group.long 0x44++0x3
line.long 0x00 "MCASP_GBLCTL,Global transmit control register - provides initialization of the transmit and receive sections. The bit fields in are synchronized and latched by the transmitter and receiver corresponding clocks - MCASPi_aclkx clock ( bits [12:8] ) and M..."
bitfld.long 0x00 12. " XFRST       ,Transmit frame-sync generator reset enable bit - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 11. "       XSMRST    ,Transmit state-machine reset enable bit - RESET. AXR[n] pin state : If[n] = 0 and [n] = 1, the corresponding serializer [n] drives the AXR[n] pin to the state specified for inactive time slot.. - . - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 10. "       XSRCLR   ,Transmit serializer clear enable bit. By clearing and then setting this bit, the transmit buffer is flushed to an empty state (XDATA = 1). If XSMRST = 1, XSRCLR = 1, XDATA = 1, and XBUF is not loaded with new data before the start of t..." "CLEAR,ACTIVE"
textline "                           "
bitfld.long 0x00 9. " XHCLKRST    ,Transmit high-frequency clock divider reset enable bit - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 8. "       XCLKRST   ,Transmit clock divider reset enable bit - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 4. "       RFRST    ,Receive frame sync generator reset enable bit. - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 3. " RSMRST      ,Receive state machine reset enable bit. - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 2. "       RSRCLR    ,Receive serializer clear enable bit. By clearing then setting this bit, the receive buffer is flushed. - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
bitfld.long 0x00 1. "       RHCLKRST ,Receive high-frequency clock divider reset enable bit. - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 0. " RCLKRST     ,Receive clock divider reset enable bit. - RESET. - ACTIVE." "RESET,ACTIVE"
group.long 0x48++0x3
line.long 0x00 "MCASP_AMUTE,Mute control register - Controls the MCASP mute output pin - AMUTE (device level - not implemented)"
group.long 0x4C++0x3
line.long 0x00 "MCASP_LBCTL,The digital loopback control register () controls the internal (MCASP module)- level and chip-level loopback settings of the MCASP in TDM mode. Note that loopback is NOT supported if MCASP is configured in DIT mode."
bitfld.long 0x00 4. " IOLBEN      ,If DLBEN=0b1, the IOLBEN bit selects between and loopback modes. IOLBEN bit value is irrelevant, If DLBEN=0b0. - INTERNAL_LB. - CHIP_LB." "INTERNAL_LB,CHIP_LB"
bitfld.long 0x00 2.--3. "  MODE      ,Loopback generator mode bits. - NO_LOOPBACK. - LOOPBACK. 0x2, 0x3: Reserved. - RESERVED." "NO_LOOPBACK,LOOPBACK,2,3"
bitfld.long 0x00 1. "  ORD      ,Loopback order bit when loopback mode is enabled (DLBEN = 1). - ODD. - EVEN." "ODD,EVEN"
textline "                           "
bitfld.long 0x00 0. " DLBEN       ,Loop back mode enable bit. - DISABLE. - ENABLE." "DISABLE,ENABLE"
group.long 0x50++0x3
line.long 0x00 "MCASP_TXDITCTL,Transmit DIT mode control register, controls DIT operations of the MCASP"
bitfld.long 0x00 3. " VB          ,Valid bit for odd time slots (DIT right subframe). - ONESTUFF. - ." "ONESTUFF,ONESTUFF"
bitfld.long 0x00 2. "     VA        ,Valid bit for even time slots (DIT left subframe). - ONESTUFF. - ." "ONESTUFF,ONESTUFF"
bitfld.long 0x00 0. "     DITEN    ,DIT mode enable bit - I2S. - DIT." "I2S,DIT"
group.long 0x60++0x3
line.long 0x00 "MCASP_GBLCTLR,Alias of GBLCTL. When writing to this register, only the TRANSMIT bits of GBLCTL are affected (This means GBLCTL bits 8,9,10,11,12). Reads return GBLCTL"
bitfld.long 0x00 12. " XFRST       ,Frame sync generator reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 11. "       XSMRST    ,XMT state machine reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 10. "       XSRCLR   ,XMT serializer clear - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
textline "                           "
bitfld.long 0x00 9. " XHCLKRST    ,XMT High Freq. clk Divider - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 8. "       XCLKRST   ,XMT clock divder reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 4. "       RFRST    ,Frame sync generator reset - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 3. " RSMRST      ,RCV state machine reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 2. "       RSRCLR    ,RCV serializer clear - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
bitfld.long 0x00 1. "       RHCLKRST ,RCV High Freq. clk Divider - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 0. " RCLKRST     ,RCV clock divder reset - RESET. - ACTIVE." "RESET,ACTIVE"
group.long 0x64++0x3
line.long 0x00 "MCASP_RXMASK,The receive format unit bit mask register () determines which bits of the received data are masked off and padded with a known value before being read by the CPU."
hexmask.long 0x00 0.--31. 1. " RMASK[31:0] ,Receive data mask enable bit. - USEMASK. - NOMASK."
group.long 0x68++0x3
line.long 0x00 "MCASP_RXFMT,The receive bit stream format register () configures the receive data format."
bitfld.long 0x00 16.--17. " RDATDLY     ,Receive Frame sync delay of AXR[n] - 0BIT. - 1BIT. - 2BIT. - 2BIT." "0BIT,1BIT,2BIT,2BIT"
bitfld.long 0x00 15. "         RRVRS     ,Receive serial bitstream order - LSBFIRST. - MSBFIRST." "LSBFIRST,MSBFIRST"
bitfld.long 0x00 13.--14. "     RPAD     ,Pad value for extra bits in slot not belonging to the word. This field only applies to bits when RMASK[n] = 0. - ZERO. - ONE. - RPBIT. - RPBIT." "ZERO,ONE,RPBIT,RPBIT"
textline "                           "
bitfld.long 0x00 8.--12. " RPBIT       ,RPBIT value determines which bit (as read by the CPU from RBUF[n]) is used to pad the extra bits. This field only applies when RPAD = 2h. - . 0x01 - 0x1F: Pad with value of the bit positioned within the range RBUFn[31:1].. - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 4.--7. "           RSSZ      ,Receive slot size.0x0 - 0x2 : Reserved. - RSVD. - 8BITS. - RSVD. - 12BITS. - RSVD. - 16BITS. - RSVD. - 20BITS. - RSVD. - 24BITS. - RSVD. - 28BITS. - 32BITS. - 32BITS." "0,1,2,8BITS,RSVD,12BITS,RSVD,16BITS,RSVD,20BITS,RSVD,24BITS,RSVD,28BITS,32BITS,32BITS"
bitfld.long 0x00 3. "       RBUSEL   ,Selects whether reads from serializer buffer RBUF[n] originate from the peripheral configuration CFG port or the DATA port. - VBUSP. - VBUS." "VBUSP,VBUS"
textline "                           "
bitfld.long 0x00 0.--2. " RROT        ,Right-rotation value for receive rotate right format unit. - NONE. - 4BITS. - 8BITS. - 12BITS. - 16BITS. - 20BITS. - 24BITS. - 28BITS." "NONE,4BITS,8BITS,12BITS,16BITS,20BITS,24BITS,28BITS"
group.long 0x6C++0x3
line.long 0x00 "MCASP_RXFMCTL,The receive frame sync control register () configures the receive frame sync (AFSR)."
hexmask.long.word 0x00 7.--15. 1. " RMOD        ,Receive frame sync mode select bits. - . - . - . 0x3 - 0x20: 3-slot TDM to 32-slot TDM mode. - . 0x21 - 0x17F: Reserved. - . - . 0x181 - 0x1FF: Reserved. - ."
bitfld.long 0x00 4. "         FRWID     ,Receive frame sync width select bit indicates the width of the receive frame sync (AFSR) during its active period. - BIT. - WORD." "BIT,WORD"
bitfld.long 0x00 1. "         FSRM     ,Receive frame sync generation select bit. - EXTERNAL. - INTERNAL." "EXTERNAL,INTERNAL"
textline "                           "
bitfld.long 0x00 0. " FSRP        ,Receive frame sync polarity select bit. - RISINGEDGE. - FALLINGEDGE." "RISINGEDGE,FALLINGEDGE"
group.long 0x70++0x3
line.long 0x00 "MCASP_ACLKRCTL,The receive clock control register () configures the receive bit clock (ACLKR) and the receive clock generator."
bitfld.long 0x00 20. " BUSY        ,Status: logical OR of DIVBUSY, ADJBUSY. Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 19. "      DIVBUSY   ,Status: divide ratio change in progress? Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 18. "      ADJBUSY  ,Status: one-shot adjustment in progress? Not supported. - . - ." "NOTBUSY,BUSY"
textline "                           "
bitfld.long 0x00 16.--17. " CLKRADJ     ,CLKRDIV one-shot adjustment. Not supported. Bit field must always be written as 0x0.If CLKRDIV is set such that there are ?m? input clocks per one output clock, then for one output cycle: - 00 = (m+0) input clocks per output clock, i.e. n..." "PLUSZERO,MINUSONE,PLUSONE,PLUSZER0"
bitfld.long 0x00 7. "     CLKRP     ,Receive bitstream clock polarity select bit. Note that this bitfield does not have any effect, ifMCASP_ACLKXCTL[6] ASYNC = 0 - FALLINGEDGE. - RISINGEDGE." "FALLINGEDGE,RISINGEDGE"
bitfld.long 0x00 5. "  CLKRM    ,Receive bit clock source bit. Note that this bitfield does not have any effect, ifMCASP_ACLKXCTL[6] ASYNC = 0 - EXTERNAL. - INTERNAL." "EXTERNAL,INTERNAL"
textline "                           "
bitfld.long 0x00 0.--4. " CLKRDIV     ,Receive bit clock divide ratio bits determine the divide-down ratio from AHCLKR to ACLKR. Note that this bitfield does not have any effect, ifMCASP_ACLKXCTL[6] ASYNC = 0. - . - . 0x2 - 0x1F: Divide-by-3 to divide-by-32. - ." "0,0x01,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x74++0x3
line.long 0x00 "MCASP_AHCLKRCTL,The receive high-frequency clock control register () configures the receive high-frequency master clock (AHCLKR) and the receive clock generator."
bitfld.long 0x00 20. " BUSY        ,Status: logical OR of DIVBUSY, ADJBUSY. Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 19. "      DIVBUSY   ,Status: divide ratio change in progress? Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 18. "      ADJBUSY  ,Status: one-shot adjustment in progress? Not supported. - . - ." "NOTBUSY,BUSY"
textline "                           "
bitfld.long 0x00 16.--17. " HCLKRADJ    ,HCLKRDIV one-shot adjustment. Not supported. Bit field must always be written as 0x0. If HCLKRDIV is set such that there are ?m? input clocks per one output clock, then for one output cycle: - 00 = (m+0) input clocks per output clock, i.e..." "PLUSZERO,MINUSONE,PLUSONE,PLUSZER0"
bitfld.long 0x00 15. "     HCLKRM    ,High Freq. RCV clock Source - . - ." "EXTERNAL,INTERNAL"
bitfld.long 0x00 14. "     HCLKRP   ,Receive bitstream high-frequency clock polarity select bit. - NOTINVERTED. - INVERTED." "NOTINVERTED,INVERTED"
textline "                           "
hexmask.long.word 0x00 0.--11. 1. " HCLKRDIV    ,Receive high-frequency clock divide ratio bits determine the divide-down ratio from AUXCLK to AHCLKR. - . - . 0x2 - 0xFFF: Divide-by-3 to divide-by-4096. - ."
group.long 0x78++0x3
line.long 0x00 "MCASP_RXTDM,The receive TDM time slot register () specifies which TDM time slot the receiver is active."
hexmask.long 0x00 0.--31. 1. " RTDMS[31:0] ,Receiver mode during TDM time slot n. - INACTIVE. - ACTIVE."
group.long 0x7C++0x3
line.long 0x00 "MCASP_EVTCTLR,Receiver Interrupt control register - controls generation of the MCASP receive interrupt (RINT). When the register bit(s) is set to 1, the occurrence of the enabled MCASP condition(s) generates RINT."
bitfld.long 0x00 7. " RSTAFRM     ,Receive start of frame interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 5. "       RDATA     ,Receive data-ready interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 4. "       RLAST    ,Receive last slot interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
textline "                           "
bitfld.long 0x00 3. " RDMAERR     ,Receive DMA error interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 2. "       RCKFAIL   ,Receive clock failure interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 1. "       RSYNCERR ,Unexpected receive frame-sync interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
textline "                           "
bitfld.long 0x00 0. " ROVRN       ,Receiver overrun interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
group.long 0x80++0x3
line.long 0x00 "MCASP_RXSTAT,The receiver status register () provides the receiver status and receive TDM time slot number."
bitfld.long 0x00 8. " RERR        ,RERR bit always returns a logic-OR of: ROVRN | RSYNCERR | RCKFAIL | RDMAERR Allows a single bit to be checked to determine if a receiver error has occurred. - NOERROR. - ERROR." "NOERROR,ERROR"
bitfld.long 0x00 7. "      RDMAERR   ,Receive DMA error flag. RDMAERR is set when the CPU or DMA reads more serializers through the DMA port in a given time slot than were programmed as receivers. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has ..." "NOTOCCUR,OCCUR"
bitfld.long 0x00 6. "     RSTAFRM  ,Receive start of frame flag. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
textline "                           "
bitfld.long 0x00 5. " RDATA       ,Receive data ready flag. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
bitfld.long 0x00 4. "     RLAST     ,Receive last slot flag. RLAST is set along with RDATA, if the current slot is the last slot in a frame. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
bitfld.long 0x00 3. "     RTDMSLOT ,Returns the LSB of RSLOT. Allows a single read ofMCASP_RXSTAT to determine whether the current TDM time slot is even or odd. - ODDSLOT. - EVENSLOT." "ODDSLOT,EVENSLOT"
textline "                           "
bitfld.long 0x00 2. " RCKFAIL     ,Receive clock failure flag. RCKFAIL is set when the receive clock failure detection circuit reports an error. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
bitfld.long 0x00 1. "     RSYNCERR  ,Unexpected receive frame sync flag. RSYNCERR is set when a new receive frame sync (AFSR) occurs before it is expected. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
bitfld.long 0x00 0. "     ROVRN    ,Receiver overrun flag. ROVRN is set when the receive serializer is instructed to transfer data from XRSR to RBUF, but the former data in RBUF has not yet been read by the CPU or DMA. This bit is cleared by writing a 1 to this bit. Writin..." "NOTOCCUR,OCCUR"
rgroup.long 0x84++0x3
line.long 0x00 "MCASP_RXTDMSLOT,The current receive TDM time slot register () indicates the current time slot for the receive data frame."
hexmask.long.word 0x00 0.--8. 1. " RSLOTCNT    ,0x0 - 0x17F: Current receive time slot count. Legal values: 0 to 383 (17Fh). TDM function is not supported for > 32 time slots. However, TDM time slot counter may count to 383 when used to receive a DIR block (transferred over TDM ..."
group.long 0x88++0x3
line.long 0x00 "MCASP_RXCLKCHK,The receive clock check control register (RCLKCHK) configures the receive clock failure detection circuit."
hexmask.long.byte 0x00 24.--31. 1. " RCNT        ,0x0 - 0xFF: Receive clock count value (from previous measurement). The clock circuit continually counts the number of interface clocks for every 32 receive high-frequency master clock (AHCLKR) signals, and stores the count in RCNT until t..."
hexmask.long.byte 0x00 16.--23. 1. "           RMAX      ,0x00-0xFF: Receive clock maximum boundary. This 8-bit unsigned value sets the maximum allowed boundary for the clock check counter after 32 receive high-frequency master clock (AHCLKR) signals have been received. If the current co..."
hexmask.long.byte 0x00 8.--15. 1. "           RMIN     ,0x00 - 0xFF: Receive clock minimum boundary. This 8-bit unsigned value sets the minimum allowed boundary for the clock check counter after 32 receive high-frequency master clock (AHCLKR) signals have been received. If RCNT is less ..."
textline "                           "
bitfld.long 0x00 0.--3. " RPS         ,Receive clock check prescaler value. - DIVBY64. - DIVBY2. - DIVBY128. - DIVBY1. - DIVBY4. - DIVBY256. - DIVBY16. - DIVBY32. - DIVBY8. 0x9 - 0xF: Reserved. - DIVBY8." "DIVBY64,DIVBY2,DIVBY128,DIVBY1,DIVBY4,DIVBY256,DIVBY16,DIVBY32,DIVBY8,9,10,11,12,13,14,15"
group.long 0x8C++0x3
line.long 0x00 "MCASP_REVTCTL,Receiver DMA event control register"
bitfld.long 0x00 0. " RDATDMA     ,Receive data DMA request enable bit. - . - ." "ENABLE,DISABLE"
group.long 0xA0++0x3
line.long 0x00 "MCASP_GBLCTLX,Alias of GBLCTL. When writing to this register, only the TRANSMIT bits of GBLCTL are affected (This means GBLCTL bits 8,9,10,11,12.). Reads return GBLCTL."
bitfld.long 0x00 12. " XFRST       ,Frame sync generator reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 11. "       XSMRST    ,XMT state machine reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 10. "       XSRCLR   ,XMT serializer clear - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
textline "                           "
bitfld.long 0x00 9. " XHCLKRST    ,XMT High Freq. clk Divider - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 8. "       XCLKRST   ,XMT clock divder reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 4. "       RFRST    ,Frame sync generator reset - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 3. " RSMRST      ,RCV state machine reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 2. "       RSRCLKR   ,RCV serializer clear - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
bitfld.long 0x00 1. "       RHCLKRST ,RCV High Freq. clk Divider - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 0. " RCLKRST     ,RCV clock divder reset - RESET. - ACTIVE." "RESET,ACTIVE"
group.long 0xA4++0x3
line.long 0x00 "MCASP_TXMASK,Transmit format unit bit mask register - Determines which bits of the transmitted data are masked off before being shifted out the MCASP"
hexmask.long 0x00 0.--31. 1. " XMASK[31:0] ,Transmit data mask enable bit - . - ."
group.long 0xA8++0x3
line.long 0x00 "MCASP_TXFMT,Transmit bitstream format register - configures the transmit data format"
bitfld.long 0x00 16.--17. " XDATDLY     ,Transmit sync bit delay - 0BIT. - 1BIT. - 2BIT. - 2BIT." "0BIT,1BIT,2BIT,2BIT"
bitfld.long 0x00 15. "         XRVRS     ,Transmit serial bitstream order - . - ." "LSBFIRST,MSBFIRST"
bitfld.long 0x00 13.--14. "     XPAD     ,Pad value for extra bits in slot not belonging to word defined by XMASK. This field only applies to bits when XMASK[n] = 0. - . - . - . - ." "ZERO,ONE,XPBIT,3"
textline "                           "
bitfld.long 0x00 8.--12. " XPBIT       ,XPBIT value determines which bit (as written by the CPU or DMA to XBUF[n]) is used to pad the extra bits before shifting. This field only applies when XPAD = 0x2." "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 4.--7. "   XSSZ      ,Transmit slot size0x0 - 0x2 : Reserved. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - ." "0,1,2,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,32BITS"
bitfld.long 0x00 3. "       XBUSEL   ,Selects whether writes to the serializer buffer XBUF[n] originate from the peripheral configuration CFG port or the DATA port. - VBUSP. - VBUS." "VBUSP,VBUS"
textline "                           "
bitfld.long 0x00 0.--2. " XROT        ,Right-rotation value for transmit rotate right format unit - 12BITS. - . - . - . - . - . - . - ." "12BITS,4BITS,8BITS,12BITS,16BITS,20BITS,24BITS,28BITS"
group.long 0xAC++0x3
line.long 0x00 "MCASP_TXFMCTL,Transmit frame-sync control register - configures the transmit frame sync (MCASPi_fsx)."
hexmask.long.word 0x00 7.--15. 1. " XMOD        ,Transmit frame-sync mode select bits 0x0: Burst mode 0x1: Reserved 0x2: 2-slot TDM mode () 0x3 - 0x20: 3-slot TDM to 32-slot TDM mode 0x21 - 0x17F: Reserved 0x180: 384-slot DIT mode All other: Reserved"
bitfld.long 0x00 4. "         FXWID     ,The transmit frame-sync width select bit indicates the width of the transmit frame sync (MCASPi_fsx) during its active period. - WORD. - ." "WORD,WORD"
bitfld.long 0x00 1. "         FSXM     ,Transmit frame-sync generation select bit - INTERNAL. - ." "INTERNAL,INTERNAL"
textline "                           "
bitfld.long 0x00 0. " FSXP        ,Transmit frame-sync polarity select bit - FALLINGEDGE. - ." "FALLINGEDGE,FALLINGEDGE"
group.long 0xB0++0x3
line.long 0x00 "MCASP_ACLKXCTL,Transmit clock control register - Configures the transmit bit clock (MCASPi_aclkx) and the transmit clock generator."
bitfld.long 0x00 20. " BUSY        ,Status: logical OR of DIVBUSY, ADJBUSY. Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 19. "      DIVBUSY   ,Status: divide ratio change in progress? Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 18. "      ADJBUSY  ,Status: one-shot adjustment in progress? Not supported. - . - ." "NOTBUSY,BUSY"
textline "                           "
bitfld.long 0x00 16.--17. " CLKXADJ     ,CLKXDIV one-shot adjustment. Not supported. Bit field must always be written as 0x0. If CLKXDIV is set such that there are ?m? input clocks per one output clock, then for one output cycle: - 00 = (m+0) input clocks per output clock, i.e. ..." "PLUSZERO,MINUSONE,PLUSONE,PLUSZER0"
bitfld.long 0x00 7. "     CLKXP     ,Transmit bitstream clock polarity select bit. - . - ." "RISINGEDGE,FALLINGEDGE"
bitfld.long 0x00 6. "  ASYNC    ,Transmit operation asynchronous enable bit - ASYNC. - ." "ASYNC,ASYNC"
textline "                           "
bitfld.long 0x00 5. " CLKXM       ,Transmit bit clock source bit - INTERNAL. - ." "INTERNAL,INTERNAL"
bitfld.long 0x00 0.--4. "     CLKXDIV   ,Transmit bit clock divide ratio bits, determine the divide-down ratio from AHCLKX to ACLKX. 0x0: Divide-by-1 0x1: Divide-by-2 0x2 to 0x1F: Divide-by-3 to divide-by-32" "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
group.long 0xB4++0x3
line.long 0x00 "MCASP_AHCLKXCTL,High-frequency transmit clock control register - Configures the transmit high-frequency master clock (MCASPi_ahclkx) and the transmit clock generator."
bitfld.long 0x00 20. " BUSY        ,Status: logical OR of DIVBUSY, ADJBUSY. Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 19. "      DIVBUSY   ,Status: divide ratio change in progress? Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 18. "      ADJBUSY  ,Status: one-shot adjustment in progress? Not supported. - . - ." "NOTBUSY,BUSY"
textline "                           "
bitfld.long 0x00 16.--17. " HCLKXADJ    ,HCLKXDIV one-shot adjustment. Not supported. Bit field must always be written as 0x0. If HCLKXDIV is set such that there are ?m? input clocks per one output clock, then for one output cycle: - 00 = (m+0) input clocks per output clock, i.e..." "PLUSZERO,MINUSONE,PLUSONE,PLUSZER0"
bitfld.long 0x00 15. "     HCLKXM    ,Transmit high-frequency clock source bit - INTERNAL. - ." "INTERNAL,INTERNAL"
bitfld.long 0x00 14. "     HCLKXP   ,Transmit bitstream high-frequency clock polarity select bit. - . - ." "NOTINVERTED,INVERTED"
textline "                           "
hexmask.long.word 0x00 0.--11. 1. " HCLKXDIV    ,Transmit high-frequency clock divide ratio bits determine the divide-down ratio from AUXCLK to MCASPi_ahclkx. 0x0: Divide-by-1 0x1: Divide-by-2 0x2 to 0xFFF: Divide-by-3 to divide-by-4096"
group.long 0xB8++0x3
line.long 0x00 "MCASP_TXTDM,Transmit TDM slot 0-31 register - TDM time slot counter range is to 384 slots (to support SPDIF blocks of 384 subframes)."
hexmask.long 0x00 0.--31. 1. " XTDMS[31:0] ,Transmitter mode during TDM time slot n (n = 0..31) - . - ."
group.long 0xBC++0x3
line.long 0x00 "MCASP_EVTCTLX,Transmitter Interrupt control register - controls generation of the MCASP transmit interrupt (XINT). When the register bit(s) is set to 1, the occurrence of the enabled MCASP condition(s) generates XINT."
bitfld.long 0x00 7. " XSTAFRM     ,Transmit start of frame interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 5. "       XDATA     ,Transmit data-ready interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 4. "       XLAST    ,Transmit last slot interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
textline "                           "
bitfld.long 0x00 3. " XDMAERR     ,Transmit DMA error interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 2. "       XCKFAIL   ,Transmit clock failure interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 1. "       XSYNCERR ,Unexpected transmit frame-sync interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
textline "                           "
bitfld.long 0x00 0. " XUNDRN      ,Transmitter underrun interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
group.long 0xC0++0x3
line.long 0x00 "MCASP_TXSTAT,Transmitter status register - If the MCASP logic attempts to set an interrupt flag in the same cycle that the CPU writes to the flag to clear it, the MCASP logic has priority and the flag remains set. This also causes the generation of a n..."
bitfld.long 0x00 8. " XERR        ,XERR bit always returns a logic-OR of: XUNDRN | XSYNCERR | XCKFAIL | XDMAERR. Allows a single bit to be checked to determine if a transmitter error interrupt has occurred. - ERROR. - ." "ERROR,ERROR"
bitfld.long 0x00 7. "        XDMAERR   ,Transmit DMA error flag. XDMAERR is set when the CPU or DMA writes more words to the DATA port of the MCASP in a given time slot than it should. Causes a transmit interrupt (XINT) if this bit and XDMAERR inMCASP_EVTCTLX are set. This..." "OCCUR,OCCUR"
bitfld.long 0x00 6. "        XSTAFRM  ,Transmit start of frame flag. Causes a transmit interrupt (XINT) if this bit and XSTAFRM inMCASP_EVTCTLX are set. This bit is cleared by writing a 1 to it. Writing a 0 has no effect. - OCCUR. - ." "OCCUR,OCCUR"
textline "                           "
bitfld.long 0x00 5. " XDATA       ,Transmit data ready flag. Causes a transmit interrupt (XINT) if this bit and XDATA inMCASP_EVTCTLX are set. This bit is cleared by writing a 1 to iit. Writing a 0 has no effect - OCCUR. - ." "OCCUR,OCCUR"
bitfld.long 0x00 4. "        XLAST     ,Transmit last slot flag. XLAST, along with XDATA, are set if the current slot is the last slot in a frame. Causes a transmit interrupt (XINT) if this bit and XLAST inMCASP_EVTCTLX are set. This bit is cleared by writing a 1 to iit. W..." "OCCUR,OCCUR"
bitfld.long 0x00 3. "        XTDMSLOT ,Returns the LSB of XSLOT. Allows a single read of XSTAT to determine whether the current TDM time slot is even or odd. - EVENSLOT. - ." "EVENSLOT,EVENSLOT"
textline "                           "
bitfld.long 0x00 2. " XCKFAIL     ,Transmit clock failure flag. XCKFAIL is set when the transmit clock failure detection circuit reports an error. Causes a transmit interrupt (XINT) if this bit and XCKFAIL inMCASP_EVTCTLX are set. This bit is cleared by writing a 1 to iit...." "OCCUR,OCCUR"
bitfld.long 0x00 1. "        XSYNCERR  ,Unexpected transmit frame-sync flag. XSYNCERR is set when a new transmit frame sync (AFSX) occurs before it is expected. Causes a transmit interrupt (XINT) if this bit and XSYNCERR inMCASP_EVTCTLX are set. This bit is cleared by writ..." "OCCUR,OCCUR"
bitfld.long 0x00 0. "        XUNDRN   ,Transmitter underrun flag. XUNDRN is set when the transmit serializer is instructed to transfer data from XBUF[n] to XRSR[n], but XBUF[n] has not yet been serviced with new data since the last transfer. Causes a transmit interrupt (XI..." "OCCUR,OCCUR"
rgroup.long 0xC4++0x3
line.long 0x00 "MCASP_TXTDMSLOT,Current transmit TDM time slot register"
hexmask.long.word 0x00 0.--8. 1. " XSLOTCNT    ,Current transmit time slot count. the value of this register is 0b0101111111 (0x17f) during reset and 0 after reset."
group.long 0xC8++0x3
line.long 0x00 "MCASP_TXCLKCHK,Transmit clock check control register - configures the transmit clock failure detection circuit."
hexmask.long.byte 0x00 24.--31. 1. " XCNT        ,Transmit clock count value (from previous measurement). The clock circuit continually counts the number of interface clocks for every 32 transmit high-frequency master clock (MCASPi_ahclkx) signals, and stores the count in XCNT until the ..."
hexmask.long.byte 0x00 16.--23. 1. "           XMAX      ,0x0 to 0xFF: Transmit clock maximum boundary. This 8-bit unsigned value sets the maximum allowed boundary for the clock check counter after 32 transmit high-frequency master clock (MCASPi_ahclkx) signals have been received. If the..."
hexmask.long.byte 0x00 8.--15. 1. "           XMIN     ,0x0 to 0xFF: Transmit clock minimum boundary. This 8-bit unsigned value sets the minimum allowed boundary for the clock check counter after 32 transmit high-frequency master clock (MCASPi_ahclkx) signals have been received. If XCNT..."
textline "                           "
bitfld.long 0x00 0.--3. " XPS         ,Transmit clock check prescaler value 0x0: MCASP interface clock divided by 1 0x1: MCASP interface clock divided by 2 0x2: MCASP interface clock divided by 4 0x3: MCASP interface clock divided by 8 0x4: MCASP interface clock divided by 16 ..." "DIVBY1,DIVBY2,DIVBY4,DIVBY8,DIVBY16,DIVBY32,DIVBY64,DIVBY128,DIVBY256,9,10,11,12,13,14,15"
group.long 0xCC++0x3
line.long 0x00 "MCASP_XEVTCTL,Transmitter DMA event control register"
bitfld.long 0x00 0. " XDATDMA     ,Transmit data DMA request enable bit. - . - ." "ENABLE,DISABLE"
group.long 0xD0++0x3
line.long 0x00 "MCASP_CLKADJEN,One-Shot Clock Adjustment Enable"
bitfld.long 0x00 0. " ENABLE      ,One-shot clock adjust enable. Not supported. Bit field must always be written as 0x0. - DISABLE. - ENABLE." "DISABLE,ENABLE"
width 0x0B
tree.end
tree "MCASP7_CFG"
base ad:0x48478000
tree "Channel_0"
width 18.
group.long 0x100++0x3
line.long 0x00 "MCASP_DITCSRAi_0,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x118++0x3
line.long 0x00 "MCASP_DITCSRBi_0,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x130++0x3
line.long 0x00 "MCASP_DITUDRAi_0,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x148++0x3
line.long 0x00 "MCASP_DITUDRBi_0,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
group.long 0x280++0x3
line.long 0x00 "MCASP_RXBUFn_0,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn    ,Receive Buffer n"
group.long 0x200++0x3
line.long 0x00 "MCASP_TXBUFn_0,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn    ,Transmit buffer n"
group.long 0x180++0x3
line.long 0x00 "MCASP_XRSRCTLn_0,Serializer n control register."
bitfld.long 0x00 5. " RRDY     ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                           "
bitfld.long 0x00 0.--1. " SRMOD    ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_1"
width 18.
group.long 0x104++0x3
line.long 0x00 "MCASP_DITCSRAi_1,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x11C++0x3
line.long 0x00 "MCASP_DITCSRBi_1,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x134++0x3
line.long 0x00 "MCASP_DITUDRAi_1,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x14C++0x3
line.long 0x00 "MCASP_DITUDRBi_1,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
group.long 0x284++0x3
line.long 0x00 "MCASP_RXBUFn_1,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn    ,Receive Buffer n"
group.long 0x204++0x3
line.long 0x00 "MCASP_TXBUFn_1,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn    ,Transmit buffer n"
group.long 0x184++0x3
line.long 0x00 "MCASP_XRSRCTLn_1,Serializer n control register."
bitfld.long 0x00 5. " RRDY     ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                           "
bitfld.long 0x00 0.--1. " SRMOD    ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_2"
width 18.
group.long 0x108++0x3
line.long 0x00 "MCASP_DITCSRAi_2,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x120++0x3
line.long 0x00 "MCASP_DITCSRBi_2,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x138++0x3
line.long 0x00 "MCASP_DITUDRAi_2,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x150++0x3
line.long 0x00 "MCASP_DITUDRBi_2,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
group.long 0x288++0x3
line.long 0x00 "MCASP_RXBUFn_2,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn    ,Receive Buffer n"
group.long 0x208++0x3
line.long 0x00 "MCASP_TXBUFn_2,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn    ,Transmit buffer n"
group.long 0x188++0x3
line.long 0x00 "MCASP_XRSRCTLn_2,Serializer n control register."
bitfld.long 0x00 5. " RRDY     ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                           "
bitfld.long 0x00 0.--1. " SRMOD    ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_3"
width 18.
group.long 0x10C++0x3
line.long 0x00 "MCASP_DITCSRAi_3,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x124++0x3
line.long 0x00 "MCASP_DITCSRBi_3,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x13C++0x3
line.long 0x00 "MCASP_DITUDRAi_3,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x154++0x3
line.long 0x00 "MCASP_DITUDRBi_3,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
group.long 0x28C++0x3
line.long 0x00 "MCASP_RXBUFn_3,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn    ,Receive Buffer n"
group.long 0x20C++0x3
line.long 0x00 "MCASP_TXBUFn_3,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn    ,Transmit buffer n"
group.long 0x18C++0x3
line.long 0x00 "MCASP_XRSRCTLn_3,Serializer n control register."
bitfld.long 0x00 5. " RRDY     ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                           "
bitfld.long 0x00 0.--1. " SRMOD    ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_4"
width 18.
group.long 0x110++0x3
line.long 0x00 "MCASP_DITCSRAi_4,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x128++0x3
line.long 0x00 "MCASP_DITCSRBi_4,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x140++0x3
line.long 0x00 "MCASP_DITUDRAi_4,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x158++0x3
line.long 0x00 "MCASP_DITUDRBi_4,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
tree.end
tree "Channel_5"
width 18.
group.long 0x114++0x3
line.long 0x00 "MCASP_DITCSRAi_5,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x12C++0x3
line.long 0x00 "MCASP_DITCSRBi_5,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x144++0x3
line.long 0x00 "MCASP_DITUDRAi_5,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x15C++0x3
line.long 0x00 "MCASP_DITUDRBi_5,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
tree.end
textline ""
width 18.
rgroup.long 0x0++0x3
line.long 0x00 "MCASP_PID,Peripheral identification register"
bitfld.long 0x00 30.--31. " SCHEME      ,Scheme. Distinguishes between old scheme and current." "0,1,2,3"
bitfld.long 0x00 28.--29. "            RESV      ,Reserved." "0,1,2,3"
hexmask.long.word 0x00 16.--27. 1. "            FUNCTION ,MCASP. Indicates a software-compatible module family."
textline "                           "
bitfld.long 0x00 11.--15. " RTL         ,RTL version." "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 8.--10. "   REVMAJOR  ,Major revision number." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6.--7. "            CUSTOM   ,Non-custom. Indicates a special version for a given device." "0,1,2,3"
textline "                           "
bitfld.long 0x00 0.--5. " REVMINOR    ,Minor revision number." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x4++0x3
line.long 0x00 "PWRIDLESYSCONFIG,Power idle module configuration register."
bitfld.long 0x00 2.--5. " OTHER       ,Reserved for future expansion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--1. "           IDLE_MODE ,0x0: Force-idle mode 0x1: No-idle mode 0x2: Smart-idle mode - default state 0x3: Reserved" "0,1,2,3"
group.long 0x10++0x3
line.long 0x00 "MCASP_PFUNC,Specifies the function of the pins as either a MCASP pin or a GPIO pin"
bitfld.long 0x00 31. " AFSR        ,Determines if AFSR pin (device level MCASPi_fsr signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 29. "        ACLKR     ,Determines if ACLKR pin (device level MCASPi_aclkr signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 28. "        AFSX     ,Determines if AFSX pin (device level MCASPi_fsx signal) functions as MCASP or GPIO. - GPIO. - ." "GPIO,GPIO"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Determines if AHCLKX pin (device level MCASPi_ahclkx signal) functions as MCASP or GPIO. - GPIO. - ." "GPIO,GPIO"
bitfld.long 0x00 26. "         ACLKX     ,Determines if ACLKX pin (device level MCASPi_aclkx signal) functions as MCASP or GPIO. - GPIO. - ." "GPIO,GPIO"
bitfld.long 0x00 15. "         AXR15    ,Determines if AXR15 pin (device level MCASPx_axr[15] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Determines if AXR14 pin (device level MCASPx_axr[14] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 13. "        AXR13     ,Determines if AXR13 pin (device level MCASPx_axr[13] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 12. "        AXR12    ,Determines if AXR12 pin (device level MCASPx_axr[12] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Determines if AXR11 pin (device level MCASPx_axr[11] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 10. "        AXR10     ,Determines if AXR10 pin (device level MCASPx_axr[10] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 9. "        AXR9     ,Determines if AXR9 pin (device level MCASPx_axr[9] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Determines if AXR8 pin (device level MCASPx_axr[8] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 7. "        AXR7      ,Determines if AXR7 pin (device level MCASPx_axr[7] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 6. "        AXR6     ,Determines if AXR6 pin (device level MCASPx_axr[6] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Determines if AXR5 pin (device level MCASPx_axr[5] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 4. "        AXR4      ,Determines if AXR4 pin (device level MCASPx_axr[4] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 3. "        AXR3     ,Determines if AXR3 pin (device level MCASPi_axr[3] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Determines if AXR2 pin (device level MCASPi_axr[2] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 1. "        AXR1      ,Determines if AXR1 pin (device level MCASPi_axr[1] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 0. "        AXR0     ,Determines if AXR0 pin (device level MCASPi_axr[0] signal) functions as MCASP or GPIO. - GPIO. - ." "GPIO,GPIO"
group.long 0x14++0x3
line.long 0x00 "MCASP_PDIR,Pin direction register - specifies the direction of the MCASP pins as either an input or an output pin."
bitfld.long 0x00 31. " AFSR        ,Determines if AFSR pin (device level MCASPi_fsr signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 29. "       ACLKR     ,Determines if ACLKR pin (device level MCASPi_aclkr signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 28. "       AFSX     ,Determines if AFSX pin (device level MCASPi_fsx signal) functions as an input or output. - OUTPUT. - ." "OUTPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Determines if AHCLKX pin (device level MCASPi_ahclkx signal) functions as an input or output. - OUTPUT. - ." "OUTPUT,OUTPUT"
bitfld.long 0x00 26. "       ACLKX     ,Determines if ACLKX pin (device level MCASPi_aclkx signal) functions as an input or output. - OUTPUT. - ." "OUTPUT,OUTPUT"
bitfld.long 0x00 15. "       AXR15    ,Determines if AXR15 pin (device level MCASPi_axr[15] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Determines if AXR14 pin (device level MCASPi_axr[14] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 13. "       AXR13     ,Determines if AXR13 pin (device level MCASPi_axr[13] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 12. "       AXR12    ,Determines if AXR12 pin (device level MCASPi_axr[12] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Determines if AXR11 pin (device level MCASPi_axr[11] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 10. "       AXR10     ,Determines if AXR10 pin (device level MCASPi_axr[10] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 9. "       AXR9     ,Determines if AXR9 pin (device level MCASPi_axr[9] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Determines if AXR8 pin (device level MCASPi_axr[8] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 7. "       AXR7      ,Determines if AXR7 pin (device level MCASPi_axr[7] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 6. "       AXR6     ,Determines if AXR6 pin (device level MCASPi_axr[6] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Determines if AXR5 pin (device level MCASPi_axr[5] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 4. "       AXR4      ,Determines if AXR4 pin (device level MCASPi_axr[4] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 3. "       AXR3     ,Determines if AXR3 pin (device level MCASPi_axr[3] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Determines if AXR2 pin (device level MCASPi_axr[2] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 1. "       AXR1      ,Determines if AXR1 pin (device level MCASPi_axr[1] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 0. "       AXR0     ,Determines if AXR0 pin (device level MCASPi_axr[0] signal) functions as an input or output. - OUTPUT. - ." "OUTPUT,OUTPUT"
group.long 0x18++0x3
line.long 0x00 "MCASP_PDOUT,Pin data output register - holds a value for data out at all times, and may be read back at all times. The value held by is not affected by writing to and . However, the data value in is driven out onto the MCASP pin only if the correspondi..."
bitfld.long 0x00 31. " AFSR        ,Determines drive on AFSR output pin when the correspondingMCASP_PFUNC[31] and MCASP_PDIR[31] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 30. "         AHCLKR    ,Determines drive on AHCLKR output pin when the correspondingMCASP_PFUNC[30] and MCASP_PDIR[30] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 29. "         ACLKR    ,Determines drive on ACLKR output pin when the correspondingMCASP_PFUNC[29] and MCASP_PDIR[29] bits are set to 1 - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 28. " AFSX        ,Determines drive on AFSX output pin when the correspondingMCASP_PFUNC[28] and MCASP_PDIR[28] bits are set to 1. - DRV1. - ." "DRV1,DRV1"
bitfld.long 0x00 27. "         AHCLKX    ,Determines drive on AHCLKX output pin when the correspondingMCASP_PFUNC[27] and MCASP_PDIR[27] bits are set to 1. - DRV1. - ." "DRV1,DRV1"
bitfld.long 0x00 26. "         ACLKX    ,Determines drive on ACLKX output pin when the correspondingMCASP_PFUNC[26] and MCASP_PDIR[26] bits are set to 1 - DRV1. - ." "DRV1,DRV1"
textline "                           "
bitfld.long 0x00 15. " AXR15       ,Determines drive on AXR15 output pin when the correspondingMCASP_PFUNC[15] and MCASP_PDIR[15] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 14. "         AXR14     ,Determines drive on AXR14 output pin when the correspondingMCASP_PFUNC[14] and MCASP_PDIR[14] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 13. "         AXR13    ,Determines drive on AXR13 output pin when the correspondingMCASP_PFUNC[13] and MCASP_PDIR[13] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 12. " AXR12       ,Determines drive on AXR12 output pin when the correspondingMCASP_PFUNC[12] and MCASP_PDIR[12] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 11. "         AXR11     ,Determines drive on AXR11 output pin when the correspondingMCASP_PFUNC[11] and MCASP_PDIR[11] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 10. "         AXR10    ,Determines drive on AXR10 output pin when the correspondingMCASP_PFUNC[10] and MCASP_PDIR[10] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 9. " AXR9        ,Determines drive on AXR9 output pin when the correspondingMCASP_PFUNC[9] and MCASP_PDIR[9] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 8. "         AXR8      ,Determines drive on AXR8 output pin when the correspondingMCASP_PFUNC[8] and MCASP_PDIR[8] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 7. "         AXR7     ,Determines drive on AXR7 output pin when the correspondingMCASP_PFUNC[7] and MCASP_PDIR[7] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 6. " AXR6        ,Determines drive on AXR6 output pin when the correspondingMCASP_PFUNC[6] and MCASP_PDIR[6] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 5. "         AXR5      ,Determines drive on AXR5 output pin when the correspondingMCASP_PFUNC[5] and MCASP_PDIR[5] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 4. "         AXR4     ,Determines drive on AXR4 output pin when the correspondingMCASP_PFUNC[4] and MCASP_PDIR[4] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 3. " AXR3        ,Determines drive on AXR3 output pin when the correspondingMCASP_PFUNC[3] and MCASP_PDIR[3] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 2. "         AXR2      ,Determines drive on AXR2 output pin when the correspondingMCASP_PFUNC[2] and MCASP_PDIR[2] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 1. "         AXR1     ,Determines drive on AXR1 output pin when the correspondingMCASP_PFUNC[1] and MCASP_PDIR[1] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 0. " AXR0        ,Determines drive on AXR0 output pin when the correspondingMCASP_PFUNC[0] and MCASP_PDIR[0] bits are set to 1. - DRV1. - ." "DRV1,DRV1"
rgroup.long 0x1C++0x3
line.long 0x00 "MCASP_PDIN,Pin data input register - holds the state of all the MCASP pins. allows reading the actual value of the pin, regardless of the state of and ."
bitfld.long 0x00 31. " AFSR        ,Logic level on AFSR pin (device level MCASPi_fsr signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 29. "         ACLKR     ,Logic level on ACLKR pin (device level MCASPi_aclkr signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 28. "         AFSX     ,Logic level on AFSX pin (device level MCASPi_fsx signal). - LOW. - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Logic level on AHCLKX pin (device level MCASPi_ahclkx signal). - LOW. - ." "LOW,HIGH"
bitfld.long 0x00 26. "         ACLKX     ,Logic level on ACLKX pin (device level MCASPi_aclkx signal). - LOW. - ." "LOW,HIGH"
bitfld.long 0x00 15. "         AXR15    ,Logic level on AXR15 pin (device level MCASPi_axr[15] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Logic level on AXR14 pin (device level MCASPi_axr[14] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 13. "         AXR13     ,Logic level on AXR13 pin (device level MCASPi_axr[13] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 12. "         AXR12    ,Logic level on AXR12 pin (device level MCASPi_axr[12] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Logic level on AXR11 pin (device level MCASPi_axr[11] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 10. "         AXR10     ,Logic level on AXR10 pin (device level MCASPi_axr[10] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 9. "         AXR9     ,Logic level on AXR9 pin (device level MCASPi_axr[9] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Logic level on AXR8 pin (device level MCASPi_axr[8] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 7. "         AXR7      ,Logic level on AXR7 pin (device level MCASPi_axr[7] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 6. "         AXR6     ,Logic level on AXR6 pin (device level MCASPi_axr[6] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Logic level on AXR5 pin (device level MCASPi_axr[5] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 4. "         AXR4      ,Logic level on AXR4 pin (device level MCASPi_axr[4] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 3. "         AXR3     ,Logic level on AXR3 pin (device level MCASPi_axr[3] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Logic level on AXR2 pin (device level MCASPi_axr[2] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 1. "         AXR1      ,Logic level on AXR1 pin (device level MCASPi_axr[1] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 0. "         AXR0     ,Logic level on AXR0 pin (device level MCASPi_axr[0] signal). - LOW. - ." "LOW,HIGH"
wgroup.long 0x1C++0x3
line.long 0x00 "MCASP_PDSET,The pin data set register is an alias of the pin data output register () for writes only. Writing a 1 to the bit sets the corresponding bit in and, if = 1 (GPIO function) and = 1 (output), drives a logic high on the pin."
bitfld.long 0x00 31. " AFSR        ,Allows the corresponding AFSR bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 29. "     ACLKR     ,Allows the corresponding ACLKR bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 28. "     AFSX     ,Allows the corresponding AFSX bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - SET. - ." "SET,SET"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Allows the corresponding AHCLKX bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - SET. - ." "SET,SET"
bitfld.long 0x00 26. "          ACLKX     ,Allows the corresponding ACLKX bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - SET. - ." "SET,SET"
bitfld.long 0x00 15. "          AXR15    ,Allows the AXR15 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Allows the AXR14 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 13. "     AXR13     ,Allows the AXR13 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 12. "     AXR12    ,Allows the AXR12 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Allows the AXR11 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 10. "     AXR10     ,Allows the AXR10 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 9. "     AXR9     ,Allows the AXR9 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Allows the AXR8 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 7. "     AXR7      ,Allows the AXR7 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 6. "     AXR6     ,Allows the AXR6 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Allows the AXR5 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 4. "     AXR4      ,Allows the AXR4 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 3. "     AXR3     ,Allows the AXR3 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Allows the AXR2 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 1. "     AXR1      ,Allows the AXR1 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 0. "     AXR0     ,Allows the AXR0 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - SET. - ." "SET,SET"
group.long 0x20++0x3
line.long 0x00 "MCASP_PDCLR,The pin data clear register is an alias of the pin data output register () for writes only. Writing a 1 to the bit clears the corresponding bit in and, if = 1 (GPIO function) and = 1 (output), drives a logic low on the pin."
bitfld.long 0x00 31. " AFSR        ,Allows the corresponding AFSR bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 29. "     ACLKR     ,Allows the corresponding ACLKR bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 28. "     AFSX     ,Allows the corresponding AFSX bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - CLEAR. - ." "CLEAR,CLEAR"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Allows the corresponding AHCLKX bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - CLEAR. - ." "CLEAR,CLEAR"
bitfld.long 0x00 26. "        ACLKX     ,Allows the corresponding ACLKX bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - CLEAR. - ." "CLEAR,CLEAR"
bitfld.long 0x00 15. "        AXR15    ,Allows the AXR15 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Allows the AXR14 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 13. "     AXR13     ,Allows the AXR13 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 12. "     AXR12    ,Allows the AXR12 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Allows the AXR11 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 10. "     AXR10     ,Allows the AXR10 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 9. "     AXR9     ,Allows the AXR9 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Allows the AXR8 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 7. "     AXR7      ,Allows the AXR7 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 6. "     AXR6     ,Allows the AXR6 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Allows the AXR5 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 4. "     AXR4      ,Allows the AXR4 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 3. "     AXR3     ,Allows the AXR3 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Allows the AXR2 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 1. "     AXR1      ,Allows the AXR1 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 0. "     AXR0     ,Allows the AXR0 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - CLEAR. - ." "CLEAR,CLEAR"
group.long 0x44++0x3
line.long 0x00 "MCASP_GBLCTL,Global transmit control register - provides initialization of the transmit and receive sections. The bit fields in are synchronized and latched by the transmitter and receiver corresponding clocks - MCASPi_aclkx clock ( bits [12:8] ) and M..."
bitfld.long 0x00 12. " XFRST       ,Transmit frame-sync generator reset enable bit - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 11. "       XSMRST    ,Transmit state-machine reset enable bit - RESET. AXR[n] pin state : If[n] = 0 and [n] = 1, the corresponding serializer [n] drives the AXR[n] pin to the state specified for inactive time slot.. - . - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 10. "       XSRCLR   ,Transmit serializer clear enable bit. By clearing and then setting this bit, the transmit buffer is flushed to an empty state (XDATA = 1). If XSMRST = 1, XSRCLR = 1, XDATA = 1, and XBUF is not loaded with new data before the start of t..." "CLEAR,ACTIVE"
textline "                           "
bitfld.long 0x00 9. " XHCLKRST    ,Transmit high-frequency clock divider reset enable bit - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 8. "       XCLKRST   ,Transmit clock divider reset enable bit - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 4. "       RFRST    ,Receive frame sync generator reset enable bit. - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 3. " RSMRST      ,Receive state machine reset enable bit. - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 2. "       RSRCLR    ,Receive serializer clear enable bit. By clearing then setting this bit, the receive buffer is flushed. - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
bitfld.long 0x00 1. "       RHCLKRST ,Receive high-frequency clock divider reset enable bit. - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 0. " RCLKRST     ,Receive clock divider reset enable bit. - RESET. - ACTIVE." "RESET,ACTIVE"
group.long 0x48++0x3
line.long 0x00 "MCASP_AMUTE,Mute control register - Controls the MCASP mute output pin - AMUTE (device level - not implemented)"
group.long 0x4C++0x3
line.long 0x00 "MCASP_LBCTL,The digital loopback control register () controls the internal (MCASP module)- level and chip-level loopback settings of the MCASP in TDM mode. Note that loopback is NOT supported if MCASP is configured in DIT mode."
bitfld.long 0x00 4. " IOLBEN      ,If DLBEN=0b1, the IOLBEN bit selects between and loopback modes. IOLBEN bit value is irrelevant, If DLBEN=0b0. - INTERNAL_LB. - CHIP_LB." "INTERNAL_LB,CHIP_LB"
bitfld.long 0x00 2.--3. "  MODE      ,Loopback generator mode bits. - NO_LOOPBACK. - LOOPBACK. 0x2, 0x3: Reserved. - RESERVED." "NO_LOOPBACK,LOOPBACK,2,3"
bitfld.long 0x00 1. "  ORD      ,Loopback order bit when loopback mode is enabled (DLBEN = 1). - ODD. - EVEN." "ODD,EVEN"
textline "                           "
bitfld.long 0x00 0. " DLBEN       ,Loop back mode enable bit. - DISABLE. - ENABLE." "DISABLE,ENABLE"
group.long 0x50++0x3
line.long 0x00 "MCASP_TXDITCTL,Transmit DIT mode control register, controls DIT operations of the MCASP"
bitfld.long 0x00 3. " VB          ,Valid bit for odd time slots (DIT right subframe). - ONESTUFF. - ." "ONESTUFF,ONESTUFF"
bitfld.long 0x00 2. "     VA        ,Valid bit for even time slots (DIT left subframe). - ONESTUFF. - ." "ONESTUFF,ONESTUFF"
bitfld.long 0x00 0. "     DITEN    ,DIT mode enable bit - I2S. - DIT." "I2S,DIT"
group.long 0x60++0x3
line.long 0x00 "MCASP_GBLCTLR,Alias of GBLCTL. When writing to this register, only the TRANSMIT bits of GBLCTL are affected (This means GBLCTL bits 8,9,10,11,12). Reads return GBLCTL"
bitfld.long 0x00 12. " XFRST       ,Frame sync generator reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 11. "       XSMRST    ,XMT state machine reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 10. "       XSRCLR   ,XMT serializer clear - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
textline "                           "
bitfld.long 0x00 9. " XHCLKRST    ,XMT High Freq. clk Divider - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 8. "       XCLKRST   ,XMT clock divder reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 4. "       RFRST    ,Frame sync generator reset - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 3. " RSMRST      ,RCV state machine reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 2. "       RSRCLR    ,RCV serializer clear - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
bitfld.long 0x00 1. "       RHCLKRST ,RCV High Freq. clk Divider - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 0. " RCLKRST     ,RCV clock divder reset - RESET. - ACTIVE." "RESET,ACTIVE"
group.long 0x64++0x3
line.long 0x00 "MCASP_RXMASK,The receive format unit bit mask register () determines which bits of the received data are masked off and padded with a known value before being read by the CPU."
hexmask.long 0x00 0.--31. 1. " RMASK[31:0] ,Receive data mask enable bit. - USEMASK. - NOMASK."
group.long 0x68++0x3
line.long 0x00 "MCASP_RXFMT,The receive bit stream format register () configures the receive data format."
bitfld.long 0x00 16.--17. " RDATDLY     ,Receive Frame sync delay of AXR[n] - 0BIT. - 1BIT. - 2BIT. - 2BIT." "0BIT,1BIT,2BIT,2BIT"
bitfld.long 0x00 15. "         RRVRS     ,Receive serial bitstream order - LSBFIRST. - MSBFIRST." "LSBFIRST,MSBFIRST"
bitfld.long 0x00 13.--14. "     RPAD     ,Pad value for extra bits in slot not belonging to the word. This field only applies to bits when RMASK[n] = 0. - ZERO. - ONE. - RPBIT. - RPBIT." "ZERO,ONE,RPBIT,RPBIT"
textline "                           "
bitfld.long 0x00 8.--12. " RPBIT       ,RPBIT value determines which bit (as read by the CPU from RBUF[n]) is used to pad the extra bits. This field only applies when RPAD = 2h. - . 0x01 - 0x1F: Pad with value of the bit positioned within the range RBUFn[31:1].. - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 4.--7. "           RSSZ      ,Receive slot size.0x0 - 0x2 : Reserved. - RSVD. - 8BITS. - RSVD. - 12BITS. - RSVD. - 16BITS. - RSVD. - 20BITS. - RSVD. - 24BITS. - RSVD. - 28BITS. - 32BITS. - 32BITS." "0,1,2,8BITS,RSVD,12BITS,RSVD,16BITS,RSVD,20BITS,RSVD,24BITS,RSVD,28BITS,32BITS,32BITS"
bitfld.long 0x00 3. "       RBUSEL   ,Selects whether reads from serializer buffer RBUF[n] originate from the peripheral configuration CFG port or the DATA port. - VBUSP. - VBUS." "VBUSP,VBUS"
textline "                           "
bitfld.long 0x00 0.--2. " RROT        ,Right-rotation value for receive rotate right format unit. - NONE. - 4BITS. - 8BITS. - 12BITS. - 16BITS. - 20BITS. - 24BITS. - 28BITS." "NONE,4BITS,8BITS,12BITS,16BITS,20BITS,24BITS,28BITS"
group.long 0x6C++0x3
line.long 0x00 "MCASP_RXFMCTL,The receive frame sync control register () configures the receive frame sync (AFSR)."
hexmask.long.word 0x00 7.--15. 1. " RMOD        ,Receive frame sync mode select bits. - . - . - . 0x3 - 0x20: 3-slot TDM to 32-slot TDM mode. - . 0x21 - 0x17F: Reserved. - . - . 0x181 - 0x1FF: Reserved. - ."
bitfld.long 0x00 4. "         FRWID     ,Receive frame sync width select bit indicates the width of the receive frame sync (AFSR) during its active period. - BIT. - WORD." "BIT,WORD"
bitfld.long 0x00 1. "         FSRM     ,Receive frame sync generation select bit. - EXTERNAL. - INTERNAL." "EXTERNAL,INTERNAL"
textline "                           "
bitfld.long 0x00 0. " FSRP        ,Receive frame sync polarity select bit. - RISINGEDGE. - FALLINGEDGE." "RISINGEDGE,FALLINGEDGE"
group.long 0x70++0x3
line.long 0x00 "MCASP_ACLKRCTL,The receive clock control register () configures the receive bit clock (ACLKR) and the receive clock generator."
bitfld.long 0x00 20. " BUSY        ,Status: logical OR of DIVBUSY, ADJBUSY. Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 19. "      DIVBUSY   ,Status: divide ratio change in progress? Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 18. "      ADJBUSY  ,Status: one-shot adjustment in progress? Not supported. - . - ." "NOTBUSY,BUSY"
textline "                           "
bitfld.long 0x00 16.--17. " CLKRADJ     ,CLKRDIV one-shot adjustment. Not supported. Bit field must always be written as 0x0.If CLKRDIV is set such that there are ?m? input clocks per one output clock, then for one output cycle: - 00 = (m+0) input clocks per output clock, i.e. n..." "PLUSZERO,MINUSONE,PLUSONE,PLUSZER0"
bitfld.long 0x00 7. "     CLKRP     ,Receive bitstream clock polarity select bit. Note that this bitfield does not have any effect, ifMCASP_ACLKXCTL[6] ASYNC = 0 - FALLINGEDGE. - RISINGEDGE." "FALLINGEDGE,RISINGEDGE"
bitfld.long 0x00 5. "  CLKRM    ,Receive bit clock source bit. Note that this bitfield does not have any effect, ifMCASP_ACLKXCTL[6] ASYNC = 0 - EXTERNAL. - INTERNAL." "EXTERNAL,INTERNAL"
textline "                           "
bitfld.long 0x00 0.--4. " CLKRDIV     ,Receive bit clock divide ratio bits determine the divide-down ratio from AHCLKR to ACLKR. Note that this bitfield does not have any effect, ifMCASP_ACLKXCTL[6] ASYNC = 0. - . - . 0x2 - 0x1F: Divide-by-3 to divide-by-32. - ." "0,0x01,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x74++0x3
line.long 0x00 "MCASP_AHCLKRCTL,The receive high-frequency clock control register () configures the receive high-frequency master clock (AHCLKR) and the receive clock generator."
bitfld.long 0x00 20. " BUSY        ,Status: logical OR of DIVBUSY, ADJBUSY. Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 19. "      DIVBUSY   ,Status: divide ratio change in progress? Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 18. "      ADJBUSY  ,Status: one-shot adjustment in progress? Not supported. - . - ." "NOTBUSY,BUSY"
textline "                           "
bitfld.long 0x00 16.--17. " HCLKRADJ    ,HCLKRDIV one-shot adjustment. Not supported. Bit field must always be written as 0x0. If HCLKRDIV is set such that there are ?m? input clocks per one output clock, then for one output cycle: - 00 = (m+0) input clocks per output clock, i.e..." "PLUSZERO,MINUSONE,PLUSONE,PLUSZER0"
bitfld.long 0x00 15. "     HCLKRM    ,High Freq. RCV clock Source - . - ." "EXTERNAL,INTERNAL"
bitfld.long 0x00 14. "     HCLKRP   ,Receive bitstream high-frequency clock polarity select bit. - NOTINVERTED. - INVERTED." "NOTINVERTED,INVERTED"
textline "                           "
hexmask.long.word 0x00 0.--11. 1. " HCLKRDIV    ,Receive high-frequency clock divide ratio bits determine the divide-down ratio from AUXCLK to AHCLKR. - . - . 0x2 - 0xFFF: Divide-by-3 to divide-by-4096. - ."
group.long 0x78++0x3
line.long 0x00 "MCASP_RXTDM,The receive TDM time slot register () specifies which TDM time slot the receiver is active."
hexmask.long 0x00 0.--31. 1. " RTDMS[31:0] ,Receiver mode during TDM time slot n. - INACTIVE. - ACTIVE."
group.long 0x7C++0x3
line.long 0x00 "MCASP_EVTCTLR,Receiver Interrupt control register - controls generation of the MCASP receive interrupt (RINT). When the register bit(s) is set to 1, the occurrence of the enabled MCASP condition(s) generates RINT."
bitfld.long 0x00 7. " RSTAFRM     ,Receive start of frame interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 5. "       RDATA     ,Receive data-ready interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 4. "       RLAST    ,Receive last slot interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
textline "                           "
bitfld.long 0x00 3. " RDMAERR     ,Receive DMA error interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 2. "       RCKFAIL   ,Receive clock failure interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 1. "       RSYNCERR ,Unexpected receive frame-sync interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
textline "                           "
bitfld.long 0x00 0. " ROVRN       ,Receiver overrun interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
group.long 0x80++0x3
line.long 0x00 "MCASP_RXSTAT,The receiver status register () provides the receiver status and receive TDM time slot number."
bitfld.long 0x00 8. " RERR        ,RERR bit always returns a logic-OR of: ROVRN | RSYNCERR | RCKFAIL | RDMAERR Allows a single bit to be checked to determine if a receiver error has occurred. - NOERROR. - ERROR." "NOERROR,ERROR"
bitfld.long 0x00 7. "      RDMAERR   ,Receive DMA error flag. RDMAERR is set when the CPU or DMA reads more serializers through the DMA port in a given time slot than were programmed as receivers. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has ..." "NOTOCCUR,OCCUR"
bitfld.long 0x00 6. "     RSTAFRM  ,Receive start of frame flag. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
textline "                           "
bitfld.long 0x00 5. " RDATA       ,Receive data ready flag. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
bitfld.long 0x00 4. "     RLAST     ,Receive last slot flag. RLAST is set along with RDATA, if the current slot is the last slot in a frame. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
bitfld.long 0x00 3. "     RTDMSLOT ,Returns the LSB of RSLOT. Allows a single read ofMCASP_RXSTAT to determine whether the current TDM time slot is even or odd. - ODDSLOT. - EVENSLOT." "ODDSLOT,EVENSLOT"
textline "                           "
bitfld.long 0x00 2. " RCKFAIL     ,Receive clock failure flag. RCKFAIL is set when the receive clock failure detection circuit reports an error. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
bitfld.long 0x00 1. "     RSYNCERR  ,Unexpected receive frame sync flag. RSYNCERR is set when a new receive frame sync (AFSR) occurs before it is expected. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
bitfld.long 0x00 0. "     ROVRN    ,Receiver overrun flag. ROVRN is set when the receive serializer is instructed to transfer data from XRSR to RBUF, but the former data in RBUF has not yet been read by the CPU or DMA. This bit is cleared by writing a 1 to this bit. Writin..." "NOTOCCUR,OCCUR"
rgroup.long 0x84++0x3
line.long 0x00 "MCASP_RXTDMSLOT,The current receive TDM time slot register () indicates the current time slot for the receive data frame."
hexmask.long.word 0x00 0.--8. 1. " RSLOTCNT    ,0x0 - 0x17F: Current receive time slot count. Legal values: 0 to 383 (17Fh). TDM function is not supported for > 32 time slots. However, TDM time slot counter may count to 383 when used to receive a DIR block (transferred over TDM ..."
group.long 0x88++0x3
line.long 0x00 "MCASP_RXCLKCHK,The receive clock check control register (RCLKCHK) configures the receive clock failure detection circuit."
hexmask.long.byte 0x00 24.--31. 1. " RCNT        ,0x0 - 0xFF: Receive clock count value (from previous measurement). The clock circuit continually counts the number of interface clocks for every 32 receive high-frequency master clock (AHCLKR) signals, and stores the count in RCNT until t..."
hexmask.long.byte 0x00 16.--23. 1. "           RMAX      ,0x00-0xFF: Receive clock maximum boundary. This 8-bit unsigned value sets the maximum allowed boundary for the clock check counter after 32 receive high-frequency master clock (AHCLKR) signals have been received. If the current co..."
hexmask.long.byte 0x00 8.--15. 1. "           RMIN     ,0x00 - 0xFF: Receive clock minimum boundary. This 8-bit unsigned value sets the minimum allowed boundary for the clock check counter after 32 receive high-frequency master clock (AHCLKR) signals have been received. If RCNT is less ..."
textline "                           "
bitfld.long 0x00 0.--3. " RPS         ,Receive clock check prescaler value. - DIVBY64. - DIVBY2. - DIVBY128. - DIVBY1. - DIVBY4. - DIVBY256. - DIVBY16. - DIVBY32. - DIVBY8. 0x9 - 0xF: Reserved. - DIVBY8." "DIVBY64,DIVBY2,DIVBY128,DIVBY1,DIVBY4,DIVBY256,DIVBY16,DIVBY32,DIVBY8,9,10,11,12,13,14,15"
group.long 0x8C++0x3
line.long 0x00 "MCASP_REVTCTL,Receiver DMA event control register"
bitfld.long 0x00 0. " RDATDMA     ,Receive data DMA request enable bit. - . - ." "ENABLE,DISABLE"
group.long 0xA0++0x3
line.long 0x00 "MCASP_GBLCTLX,Alias of GBLCTL. When writing to this register, only the TRANSMIT bits of GBLCTL are affected (This means GBLCTL bits 8,9,10,11,12.). Reads return GBLCTL."
bitfld.long 0x00 12. " XFRST       ,Frame sync generator reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 11. "       XSMRST    ,XMT state machine reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 10. "       XSRCLR   ,XMT serializer clear - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
textline "                           "
bitfld.long 0x00 9. " XHCLKRST    ,XMT High Freq. clk Divider - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 8. "       XCLKRST   ,XMT clock divder reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 4. "       RFRST    ,Frame sync generator reset - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 3. " RSMRST      ,RCV state machine reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 2. "       RSRCLKR   ,RCV serializer clear - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
bitfld.long 0x00 1. "       RHCLKRST ,RCV High Freq. clk Divider - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 0. " RCLKRST     ,RCV clock divder reset - RESET. - ACTIVE." "RESET,ACTIVE"
group.long 0xA4++0x3
line.long 0x00 "MCASP_TXMASK,Transmit format unit bit mask register - Determines which bits of the transmitted data are masked off before being shifted out the MCASP"
hexmask.long 0x00 0.--31. 1. " XMASK[31:0] ,Transmit data mask enable bit - . - ."
group.long 0xA8++0x3
line.long 0x00 "MCASP_TXFMT,Transmit bitstream format register - configures the transmit data format"
bitfld.long 0x00 16.--17. " XDATDLY     ,Transmit sync bit delay - 0BIT. - 1BIT. - 2BIT. - 2BIT." "0BIT,1BIT,2BIT,2BIT"
bitfld.long 0x00 15. "         XRVRS     ,Transmit serial bitstream order - . - ." "LSBFIRST,MSBFIRST"
bitfld.long 0x00 13.--14. "     XPAD     ,Pad value for extra bits in slot not belonging to word defined by XMASK. This field only applies to bits when XMASK[n] = 0. - . - . - . - ." "ZERO,ONE,XPBIT,3"
textline "                           "
bitfld.long 0x00 8.--12. " XPBIT       ,XPBIT value determines which bit (as written by the CPU or DMA to XBUF[n]) is used to pad the extra bits before shifting. This field only applies when XPAD = 0x2." "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 4.--7. "   XSSZ      ,Transmit slot size0x0 - 0x2 : Reserved. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - ." "0,1,2,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,32BITS"
bitfld.long 0x00 3. "       XBUSEL   ,Selects whether writes to the serializer buffer XBUF[n] originate from the peripheral configuration CFG port or the DATA port. - VBUSP. - VBUS." "VBUSP,VBUS"
textline "                           "
bitfld.long 0x00 0.--2. " XROT        ,Right-rotation value for transmit rotate right format unit - 12BITS. - . - . - . - . - . - . - ." "12BITS,4BITS,8BITS,12BITS,16BITS,20BITS,24BITS,28BITS"
group.long 0xAC++0x3
line.long 0x00 "MCASP_TXFMCTL,Transmit frame-sync control register - configures the transmit frame sync (MCASPi_fsx)."
hexmask.long.word 0x00 7.--15. 1. " XMOD        ,Transmit frame-sync mode select bits 0x0: Burst mode 0x1: Reserved 0x2: 2-slot TDM mode () 0x3 - 0x20: 3-slot TDM to 32-slot TDM mode 0x21 - 0x17F: Reserved 0x180: 384-slot DIT mode All other: Reserved"
bitfld.long 0x00 4. "         FXWID     ,The transmit frame-sync width select bit indicates the width of the transmit frame sync (MCASPi_fsx) during its active period. - WORD. - ." "WORD,WORD"
bitfld.long 0x00 1. "         FSXM     ,Transmit frame-sync generation select bit - INTERNAL. - ." "INTERNAL,INTERNAL"
textline "                           "
bitfld.long 0x00 0. " FSXP        ,Transmit frame-sync polarity select bit - FALLINGEDGE. - ." "FALLINGEDGE,FALLINGEDGE"
group.long 0xB0++0x3
line.long 0x00 "MCASP_ACLKXCTL,Transmit clock control register - Configures the transmit bit clock (MCASPi_aclkx) and the transmit clock generator."
bitfld.long 0x00 20. " BUSY        ,Status: logical OR of DIVBUSY, ADJBUSY. Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 19. "      DIVBUSY   ,Status: divide ratio change in progress? Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 18. "      ADJBUSY  ,Status: one-shot adjustment in progress? Not supported. - . - ." "NOTBUSY,BUSY"
textline "                           "
bitfld.long 0x00 16.--17. " CLKXADJ     ,CLKXDIV one-shot adjustment. Not supported. Bit field must always be written as 0x0. If CLKXDIV is set such that there are ?m? input clocks per one output clock, then for one output cycle: - 00 = (m+0) input clocks per output clock, i.e. ..." "PLUSZERO,MINUSONE,PLUSONE,PLUSZER0"
bitfld.long 0x00 7. "     CLKXP     ,Transmit bitstream clock polarity select bit. - . - ." "RISINGEDGE,FALLINGEDGE"
bitfld.long 0x00 6. "  ASYNC    ,Transmit operation asynchronous enable bit - ASYNC. - ." "ASYNC,ASYNC"
textline "                           "
bitfld.long 0x00 5. " CLKXM       ,Transmit bit clock source bit - INTERNAL. - ." "INTERNAL,INTERNAL"
bitfld.long 0x00 0.--4. "     CLKXDIV   ,Transmit bit clock divide ratio bits, determine the divide-down ratio from AHCLKX to ACLKX. 0x0: Divide-by-1 0x1: Divide-by-2 0x2 to 0x1F: Divide-by-3 to divide-by-32" "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
group.long 0xB4++0x3
line.long 0x00 "MCASP_AHCLKXCTL,High-frequency transmit clock control register - Configures the transmit high-frequency master clock (MCASPi_ahclkx) and the transmit clock generator."
bitfld.long 0x00 20. " BUSY        ,Status: logical OR of DIVBUSY, ADJBUSY. Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 19. "      DIVBUSY   ,Status: divide ratio change in progress? Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 18. "      ADJBUSY  ,Status: one-shot adjustment in progress? Not supported. - . - ." "NOTBUSY,BUSY"
textline "                           "
bitfld.long 0x00 16.--17. " HCLKXADJ    ,HCLKXDIV one-shot adjustment. Not supported. Bit field must always be written as 0x0. If HCLKXDIV is set such that there are ?m? input clocks per one output clock, then for one output cycle: - 00 = (m+0) input clocks per output clock, i.e..." "PLUSZERO,MINUSONE,PLUSONE,PLUSZER0"
bitfld.long 0x00 15. "     HCLKXM    ,Transmit high-frequency clock source bit - INTERNAL. - ." "INTERNAL,INTERNAL"
bitfld.long 0x00 14. "     HCLKXP   ,Transmit bitstream high-frequency clock polarity select bit. - . - ." "NOTINVERTED,INVERTED"
textline "                           "
hexmask.long.word 0x00 0.--11. 1. " HCLKXDIV    ,Transmit high-frequency clock divide ratio bits determine the divide-down ratio from AUXCLK to MCASPi_ahclkx. 0x0: Divide-by-1 0x1: Divide-by-2 0x2 to 0xFFF: Divide-by-3 to divide-by-4096"
group.long 0xB8++0x3
line.long 0x00 "MCASP_TXTDM,Transmit TDM slot 0-31 register - TDM time slot counter range is to 384 slots (to support SPDIF blocks of 384 subframes)."
hexmask.long 0x00 0.--31. 1. " XTDMS[31:0] ,Transmitter mode during TDM time slot n (n = 0..31) - . - ."
group.long 0xBC++0x3
line.long 0x00 "MCASP_EVTCTLX,Transmitter Interrupt control register - controls generation of the MCASP transmit interrupt (XINT). When the register bit(s) is set to 1, the occurrence of the enabled MCASP condition(s) generates XINT."
bitfld.long 0x00 7. " XSTAFRM     ,Transmit start of frame interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 5. "       XDATA     ,Transmit data-ready interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 4. "       XLAST    ,Transmit last slot interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
textline "                           "
bitfld.long 0x00 3. " XDMAERR     ,Transmit DMA error interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 2. "       XCKFAIL   ,Transmit clock failure interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 1. "       XSYNCERR ,Unexpected transmit frame-sync interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
textline "                           "
bitfld.long 0x00 0. " XUNDRN      ,Transmitter underrun interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
group.long 0xC0++0x3
line.long 0x00 "MCASP_TXSTAT,Transmitter status register - If the MCASP logic attempts to set an interrupt flag in the same cycle that the CPU writes to the flag to clear it, the MCASP logic has priority and the flag remains set. This also causes the generation of a n..."
bitfld.long 0x00 8. " XERR        ,XERR bit always returns a logic-OR of: XUNDRN | XSYNCERR | XCKFAIL | XDMAERR. Allows a single bit to be checked to determine if a transmitter error interrupt has occurred. - ERROR. - ." "ERROR,ERROR"
bitfld.long 0x00 7. "        XDMAERR   ,Transmit DMA error flag. XDMAERR is set when the CPU or DMA writes more words to the DATA port of the MCASP in a given time slot than it should. Causes a transmit interrupt (XINT) if this bit and XDMAERR inMCASP_EVTCTLX are set. This..." "OCCUR,OCCUR"
bitfld.long 0x00 6. "        XSTAFRM  ,Transmit start of frame flag. Causes a transmit interrupt (XINT) if this bit and XSTAFRM inMCASP_EVTCTLX are set. This bit is cleared by writing a 1 to it. Writing a 0 has no effect. - OCCUR. - ." "OCCUR,OCCUR"
textline "                           "
bitfld.long 0x00 5. " XDATA       ,Transmit data ready flag. Causes a transmit interrupt (XINT) if this bit and XDATA inMCASP_EVTCTLX are set. This bit is cleared by writing a 1 to iit. Writing a 0 has no effect - OCCUR. - ." "OCCUR,OCCUR"
bitfld.long 0x00 4. "        XLAST     ,Transmit last slot flag. XLAST, along with XDATA, are set if the current slot is the last slot in a frame. Causes a transmit interrupt (XINT) if this bit and XLAST inMCASP_EVTCTLX are set. This bit is cleared by writing a 1 to iit. W..." "OCCUR,OCCUR"
bitfld.long 0x00 3. "        XTDMSLOT ,Returns the LSB of XSLOT. Allows a single read of XSTAT to determine whether the current TDM time slot is even or odd. - EVENSLOT. - ." "EVENSLOT,EVENSLOT"
textline "                           "
bitfld.long 0x00 2. " XCKFAIL     ,Transmit clock failure flag. XCKFAIL is set when the transmit clock failure detection circuit reports an error. Causes a transmit interrupt (XINT) if this bit and XCKFAIL inMCASP_EVTCTLX are set. This bit is cleared by writing a 1 to iit...." "OCCUR,OCCUR"
bitfld.long 0x00 1. "        XSYNCERR  ,Unexpected transmit frame-sync flag. XSYNCERR is set when a new transmit frame sync (AFSX) occurs before it is expected. Causes a transmit interrupt (XINT) if this bit and XSYNCERR inMCASP_EVTCTLX are set. This bit is cleared by writ..." "OCCUR,OCCUR"
bitfld.long 0x00 0. "        XUNDRN   ,Transmitter underrun flag. XUNDRN is set when the transmit serializer is instructed to transfer data from XBUF[n] to XRSR[n], but XBUF[n] has not yet been serviced with new data since the last transfer. Causes a transmit interrupt (XI..." "OCCUR,OCCUR"
rgroup.long 0xC4++0x3
line.long 0x00 "MCASP_TXTDMSLOT,Current transmit TDM time slot register"
hexmask.long.word 0x00 0.--8. 1. " XSLOTCNT    ,Current transmit time slot count. the value of this register is 0b0101111111 (0x17f) during reset and 0 after reset."
group.long 0xC8++0x3
line.long 0x00 "MCASP_TXCLKCHK,Transmit clock check control register - configures the transmit clock failure detection circuit."
hexmask.long.byte 0x00 24.--31. 1. " XCNT        ,Transmit clock count value (from previous measurement). The clock circuit continually counts the number of interface clocks for every 32 transmit high-frequency master clock (MCASPi_ahclkx) signals, and stores the count in XCNT until the ..."
hexmask.long.byte 0x00 16.--23. 1. "           XMAX      ,0x0 to 0xFF: Transmit clock maximum boundary. This 8-bit unsigned value sets the maximum allowed boundary for the clock check counter after 32 transmit high-frequency master clock (MCASPi_ahclkx) signals have been received. If the..."
hexmask.long.byte 0x00 8.--15. 1. "           XMIN     ,0x0 to 0xFF: Transmit clock minimum boundary. This 8-bit unsigned value sets the minimum allowed boundary for the clock check counter after 32 transmit high-frequency master clock (MCASPi_ahclkx) signals have been received. If XCNT..."
textline "                           "
bitfld.long 0x00 0.--3. " XPS         ,Transmit clock check prescaler value 0x0: MCASP interface clock divided by 1 0x1: MCASP interface clock divided by 2 0x2: MCASP interface clock divided by 4 0x3: MCASP interface clock divided by 8 0x4: MCASP interface clock divided by 16 ..." "DIVBY1,DIVBY2,DIVBY4,DIVBY8,DIVBY16,DIVBY32,DIVBY64,DIVBY128,DIVBY256,9,10,11,12,13,14,15"
group.long 0xCC++0x3
line.long 0x00 "MCASP_XEVTCTL,Transmitter DMA event control register"
bitfld.long 0x00 0. " XDATDMA     ,Transmit data DMA request enable bit. - . - ." "ENABLE,DISABLE"
group.long 0xD0++0x3
line.long 0x00 "MCASP_CLKADJEN,One-Shot Clock Adjustment Enable"
bitfld.long 0x00 0. " ENABLE      ,One-shot clock adjust enable. Not supported. Bit field must always be written as 0x0. - DISABLE. - ENABLE." "DISABLE,ENABLE"
width 0x0B
tree.end
tree "MCASP8_CFG"
base ad:0x4847C000
tree "Channel_0"
width 18.
group.long 0x100++0x3
line.long 0x00 "MCASP_DITCSRAi_0,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x118++0x3
line.long 0x00 "MCASP_DITCSRBi_0,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x130++0x3
line.long 0x00 "MCASP_DITUDRAi_0,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x148++0x3
line.long 0x00 "MCASP_DITUDRBi_0,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
group.long 0x280++0x3
line.long 0x00 "MCASP_RXBUFn_0,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn    ,Receive Buffer n"
group.long 0x200++0x3
line.long 0x00 "MCASP_TXBUFn_0,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn    ,Transmit buffer n"
group.long 0x180++0x3
line.long 0x00 "MCASP_XRSRCTLn_0,Serializer n control register."
bitfld.long 0x00 5. " RRDY     ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                           "
bitfld.long 0x00 0.--1. " SRMOD    ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_1"
width 18.
group.long 0x104++0x3
line.long 0x00 "MCASP_DITCSRAi_1,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x11C++0x3
line.long 0x00 "MCASP_DITCSRBi_1,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x134++0x3
line.long 0x00 "MCASP_DITUDRAi_1,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x14C++0x3
line.long 0x00 "MCASP_DITUDRBi_1,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
group.long 0x284++0x3
line.long 0x00 "MCASP_RXBUFn_1,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn    ,Receive Buffer n"
group.long 0x204++0x3
line.long 0x00 "MCASP_TXBUFn_1,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn    ,Transmit buffer n"
group.long 0x184++0x3
line.long 0x00 "MCASP_XRSRCTLn_1,Serializer n control register."
bitfld.long 0x00 5. " RRDY     ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                           "
bitfld.long 0x00 0.--1. " SRMOD    ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_2"
width 18.
group.long 0x108++0x3
line.long 0x00 "MCASP_DITCSRAi_2,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x120++0x3
line.long 0x00 "MCASP_DITCSRBi_2,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x138++0x3
line.long 0x00 "MCASP_DITUDRAi_2,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x150++0x3
line.long 0x00 "MCASP_DITUDRBi_2,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
group.long 0x288++0x3
line.long 0x00 "MCASP_RXBUFn_2,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn    ,Receive Buffer n"
group.long 0x208++0x3
line.long 0x00 "MCASP_TXBUFn_2,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn    ,Transmit buffer n"
group.long 0x188++0x3
line.long 0x00 "MCASP_XRSRCTLn_2,Serializer n control register."
bitfld.long 0x00 5. " RRDY     ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                           "
bitfld.long 0x00 0.--1. " SRMOD    ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_3"
width 18.
group.long 0x10C++0x3
line.long 0x00 "MCASP_DITCSRAi_3,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x124++0x3
line.long 0x00 "MCASP_DITCSRBi_3,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x13C++0x3
line.long 0x00 "MCASP_DITUDRAi_3,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x154++0x3
line.long 0x00 "MCASP_DITUDRBi_3,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
group.long 0x28C++0x3
line.long 0x00 "MCASP_RXBUFn_3,Receive buffer n - The receive buffer for the serializer n holds data before the data goes to the receive format unit."
hexmask.long 0x00 0.--31. 1. " RBUFn    ,Receive Buffer n"
group.long 0x20C++0x3
line.long 0x00 "MCASP_TXBUFn_3,Transmit buffer n - The transmit buffer for the serializer n holds data from the transmit format unit."
hexmask.long 0x00 0.--31. 1. " XBUFn    ,Transmit buffer n"
group.long 0x18C++0x3
line.long 0x00 "MCASP_XRSRCTLn_3,Serializer n control register."
bitfld.long 0x00 5. " RRDY     ,Receive buffer ready bit. RRDY indicates the current receive buffer state. Always reads 0 when programmed as a transmitter or as inactive. If SRMOD bit is set to receive (2h), RRDY switches from 0 to 1 whenever data is transferred from XRSRn..." "0,1"
bitfld.long 0x00 4. "         XRDY ,Transmit buffer ready bit. XRDY indicates the current transmit buffer state. Always reads 0 when programmed as a receiver or as inactive. If SRMOD bit is set to transmit (1h), XRDY switches from 0 to 1 when XSRCLR in GBLCTL is switched f..." "DATA,1"
bitfld.long 0x00 2.--3. "  DISMOD ,Serializer pin drive mode bit. Drive on pin when in inactive TDM slot of transmit mode or when serializer is inactive. This field only applies if the pin is configured as a MCASP pin (PFUNC = 0). - . - . - . - ." "0,Reserved,2,3"
textline "                           "
bitfld.long 0x00 0.--1. " SRMOD    ,Serializer mode bit - INACTIVE. - RCV. - RCV. - RCV." "INACTIVE,RCV,RCV,RCV"
tree.end
tree "Channel_4"
width 18.
group.long 0x110++0x3
line.long 0x00 "MCASP_DITCSRAi_4,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x128++0x3
line.long 0x00 "MCASP_DITCSRBi_4,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x140++0x3
line.long 0x00 "MCASP_DITUDRAi_4,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x158++0x3
line.long 0x00 "MCASP_DITUDRBi_4,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
tree.end
tree "Channel_5"
width 18.
group.long 0x114++0x3
line.long 0x00 "MCASP_DITCSRAi_5,DIT left channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register ..."
hexmask.long 0x00 0.--31. 1. " DITCSRAi ,Left (even TDM slot ) channel status"
group.long 0x12C++0x3
line.long 0x00 "MCASP_DITCSRBi_5,DIT right channel status register - All six 32-bit registers (i = 0 to 5) can store 192 bits of channel status data for a complete block of transmission. The DIT reuses the same data for the next block. Make sure to update the register..."
hexmask.long 0x00 0.--31. 1. " DITCSRBi ,Right (odd TDM slot ) channel status"
group.long 0x144++0x3
line.long 0x00 "MCASP_DITUDRAi_5,DIT left channel user data register - provides the user data of each left channel (even TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same..."
hexmask.long 0x00 0.--31. 1. " DITUDRAi ,Left (even TDM slot ) user data"
group.long 0x15C++0x3
line.long 0x00 "MCASP_DITUDRBi_5,DIT right user data register - provides the user data of each right channel (odd TDM time slot). All six 32-bit registers (i = 0 to 5) can store 192 bits of user data for a complete block of transmission. The DIT reuses the same data f..."
hexmask.long 0x00 0.--31. 1. " DITUDRBi ,Right (odd TDM slot ) user data"
tree.end
textline ""
width 18.
rgroup.long 0x0++0x3
line.long 0x00 "MCASP_PID,Peripheral identification register"
bitfld.long 0x00 30.--31. " SCHEME      ,Scheme. Distinguishes between old scheme and current." "0,1,2,3"
bitfld.long 0x00 28.--29. "            RESV      ,Reserved." "0,1,2,3"
hexmask.long.word 0x00 16.--27. 1. "            FUNCTION ,MCASP. Indicates a software-compatible module family."
textline "                           "
bitfld.long 0x00 11.--15. " RTL         ,RTL version." "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 8.--10. "   REVMAJOR  ,Major revision number." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6.--7. "            CUSTOM   ,Non-custom. Indicates a special version for a given device." "0,1,2,3"
textline "                           "
bitfld.long 0x00 0.--5. " REVMINOR    ,Minor revision number." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x4++0x3
line.long 0x00 "PWRIDLESYSCONFIG,Power idle module configuration register."
bitfld.long 0x00 2.--5. " OTHER       ,Reserved for future expansion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--1. "           IDLE_MODE ,0x0: Force-idle mode 0x1: No-idle mode 0x2: Smart-idle mode - default state 0x3: Reserved" "0,1,2,3"
group.long 0x10++0x3
line.long 0x00 "MCASP_PFUNC,Specifies the function of the pins as either a MCASP pin or a GPIO pin"
bitfld.long 0x00 31. " AFSR        ,Determines if AFSR pin (device level MCASPi_fsr signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 29. "        ACLKR     ,Determines if ACLKR pin (device level MCASPi_aclkr signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 28. "        AFSX     ,Determines if AFSX pin (device level MCASPi_fsx signal) functions as MCASP or GPIO. - GPIO. - ." "GPIO,GPIO"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Determines if AHCLKX pin (device level MCASPi_ahclkx signal) functions as MCASP or GPIO. - GPIO. - ." "GPIO,GPIO"
bitfld.long 0x00 26. "         ACLKX     ,Determines if ACLKX pin (device level MCASPi_aclkx signal) functions as MCASP or GPIO. - GPIO. - ." "GPIO,GPIO"
bitfld.long 0x00 15. "         AXR15    ,Determines if AXR15 pin (device level MCASPx_axr[15] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Determines if AXR14 pin (device level MCASPx_axr[14] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 13. "        AXR13     ,Determines if AXR13 pin (device level MCASPx_axr[13] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 12. "        AXR12    ,Determines if AXR12 pin (device level MCASPx_axr[12] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Determines if AXR11 pin (device level MCASPx_axr[11] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 10. "        AXR10     ,Determines if AXR10 pin (device level MCASPx_axr[10] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 9. "        AXR9     ,Determines if AXR9 pin (device level MCASPx_axr[9] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Determines if AXR8 pin (device level MCASPx_axr[8] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 7. "        AXR7      ,Determines if AXR7 pin (device level MCASPx_axr[7] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 6. "        AXR6     ,Determines if AXR6 pin (device level MCASPx_axr[6] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Determines if AXR5 pin (device level MCASPx_axr[5] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 4. "        AXR4      ,Determines if AXR4 pin (device level MCASPx_axr[4] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 3. "        AXR3     ,Determines if AXR3 pin (device level MCASPi_axr[3] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Determines if AXR2 pin (device level MCASPi_axr[2] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 1. "        AXR1      ,Determines if AXR1 pin (device level MCASPi_axr[1] signal) functions as MCASP or GPIO. - . - ." "MCASP,GPIO"
bitfld.long 0x00 0. "        AXR0     ,Determines if AXR0 pin (device level MCASPi_axr[0] signal) functions as MCASP or GPIO. - GPIO. - ." "GPIO,GPIO"
group.long 0x14++0x3
line.long 0x00 "MCASP_PDIR,Pin direction register - specifies the direction of the MCASP pins as either an input or an output pin."
bitfld.long 0x00 31. " AFSR        ,Determines if AFSR pin (device level MCASPi_fsr signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 29. "       ACLKR     ,Determines if ACLKR pin (device level MCASPi_aclkr signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 28. "       AFSX     ,Determines if AFSX pin (device level MCASPi_fsx signal) functions as an input or output. - OUTPUT. - ." "OUTPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Determines if AHCLKX pin (device level MCASPi_ahclkx signal) functions as an input or output. - OUTPUT. - ." "OUTPUT,OUTPUT"
bitfld.long 0x00 26. "       ACLKX     ,Determines if ACLKX pin (device level MCASPi_aclkx signal) functions as an input or output. - OUTPUT. - ." "OUTPUT,OUTPUT"
bitfld.long 0x00 15. "       AXR15    ,Determines if AXR15 pin (device level MCASPi_axr[15] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Determines if AXR14 pin (device level MCASPi_axr[14] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 13. "       AXR13     ,Determines if AXR13 pin (device level MCASPi_axr[13] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 12. "       AXR12    ,Determines if AXR12 pin (device level MCASPi_axr[12] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Determines if AXR11 pin (device level MCASPi_axr[11] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 10. "       AXR10     ,Determines if AXR10 pin (device level MCASPi_axr[10] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 9. "       AXR9     ,Determines if AXR9 pin (device level MCASPi_axr[9] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Determines if AXR8 pin (device level MCASPi_axr[8] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 7. "       AXR7      ,Determines if AXR7 pin (device level MCASPi_axr[7] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 6. "       AXR6     ,Determines if AXR6 pin (device level MCASPi_axr[6] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Determines if AXR5 pin (device level MCASPi_axr[5] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 4. "       AXR4      ,Determines if AXR4 pin (device level MCASPi_axr[4] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 3. "       AXR3     ,Determines if AXR3 pin (device level MCASPi_axr[3] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Determines if AXR2 pin (device level MCASPi_axr[2] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 1. "       AXR1      ,Determines if AXR1 pin (device level MCASPi_axr[1] signal) functions as an input or output. - . - ." "INPUT,OUTPUT"
bitfld.long 0x00 0. "       AXR0     ,Determines if AXR0 pin (device level MCASPi_axr[0] signal) functions as an input or output. - OUTPUT. - ." "OUTPUT,OUTPUT"
group.long 0x18++0x3
line.long 0x00 "MCASP_PDOUT,Pin data output register - holds a value for data out at all times, and may be read back at all times. The value held by is not affected by writing to and . However, the data value in is driven out onto the MCASP pin only if the correspondi..."
bitfld.long 0x00 31. " AFSR        ,Determines drive on AFSR output pin when the correspondingMCASP_PFUNC[31] and MCASP_PDIR[31] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 30. "         AHCLKR    ,Determines drive on AHCLKR output pin when the correspondingMCASP_PFUNC[30] and MCASP_PDIR[30] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 29. "         ACLKR    ,Determines drive on ACLKR output pin when the correspondingMCASP_PFUNC[29] and MCASP_PDIR[29] bits are set to 1 - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 28. " AFSX        ,Determines drive on AFSX output pin when the correspondingMCASP_PFUNC[28] and MCASP_PDIR[28] bits are set to 1. - DRV1. - ." "DRV1,DRV1"
bitfld.long 0x00 27. "         AHCLKX    ,Determines drive on AHCLKX output pin when the correspondingMCASP_PFUNC[27] and MCASP_PDIR[27] bits are set to 1. - DRV1. - ." "DRV1,DRV1"
bitfld.long 0x00 26. "         ACLKX    ,Determines drive on ACLKX output pin when the correspondingMCASP_PFUNC[26] and MCASP_PDIR[26] bits are set to 1 - DRV1. - ." "DRV1,DRV1"
textline "                           "
bitfld.long 0x00 15. " AXR15       ,Determines drive on AXR15 output pin when the correspondingMCASP_PFUNC[15] and MCASP_PDIR[15] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 14. "         AXR14     ,Determines drive on AXR14 output pin when the correspondingMCASP_PFUNC[14] and MCASP_PDIR[14] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 13. "         AXR13    ,Determines drive on AXR13 output pin when the correspondingMCASP_PFUNC[13] and MCASP_PDIR[13] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 12. " AXR12       ,Determines drive on AXR12 output pin when the correspondingMCASP_PFUNC[12] and MCASP_PDIR[12] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 11. "         AXR11     ,Determines drive on AXR11 output pin when the correspondingMCASP_PFUNC[11] and MCASP_PDIR[11] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 10. "         AXR10    ,Determines drive on AXR10 output pin when the correspondingMCASP_PFUNC[10] and MCASP_PDIR[10] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 9. " AXR9        ,Determines drive on AXR9 output pin when the correspondingMCASP_PFUNC[9] and MCASP_PDIR[9] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 8. "         AXR8      ,Determines drive on AXR8 output pin when the correspondingMCASP_PFUNC[8] and MCASP_PDIR[8] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 7. "         AXR7     ,Determines drive on AXR7 output pin when the correspondingMCASP_PFUNC[7] and MCASP_PDIR[7] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 6. " AXR6        ,Determines drive on AXR6 output pin when the correspondingMCASP_PFUNC[6] and MCASP_PDIR[6] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 5. "         AXR5      ,Determines drive on AXR5 output pin when the correspondingMCASP_PFUNC[5] and MCASP_PDIR[5] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 4. "         AXR4     ,Determines drive on AXR4 output pin when the correspondingMCASP_PFUNC[4] and MCASP_PDIR[4] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 3. " AXR3        ,Determines drive on AXR3 output pin when the correspondingMCASP_PFUNC[3] and MCASP_PDIR[3] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 2. "         AXR2      ,Determines drive on AXR2 output pin when the correspondingMCASP_PFUNC[2] and MCASP_PDIR[2] bits are set to 1. - . - ." "DRV0,DRV1"
bitfld.long 0x00 1. "         AXR1     ,Determines drive on AXR1 output pin when the correspondingMCASP_PFUNC[1] and MCASP_PDIR[1] bits are set to 1. - . - ." "DRV0,DRV1"
textline "                           "
bitfld.long 0x00 0. " AXR0        ,Determines drive on AXR0 output pin when the correspondingMCASP_PFUNC[0] and MCASP_PDIR[0] bits are set to 1. - DRV1. - ." "DRV1,DRV1"
rgroup.long 0x1C++0x3
line.long 0x00 "MCASP_PDIN,Pin data input register - holds the state of all the MCASP pins. allows reading the actual value of the pin, regardless of the state of and ."
bitfld.long 0x00 31. " AFSR        ,Logic level on AFSR pin (device level MCASPi_fsr signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 29. "         ACLKR     ,Logic level on ACLKR pin (device level MCASPi_aclkr signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 28. "         AFSX     ,Logic level on AFSX pin (device level MCASPi_fsx signal). - LOW. - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Logic level on AHCLKX pin (device level MCASPi_ahclkx signal). - LOW. - ." "LOW,HIGH"
bitfld.long 0x00 26. "         ACLKX     ,Logic level on ACLKX pin (device level MCASPi_aclkx signal). - LOW. - ." "LOW,HIGH"
bitfld.long 0x00 15. "         AXR15    ,Logic level on AXR15 pin (device level MCASPi_axr[15] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Logic level on AXR14 pin (device level MCASPi_axr[14] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 13. "         AXR13     ,Logic level on AXR13 pin (device level MCASPi_axr[13] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 12. "         AXR12    ,Logic level on AXR12 pin (device level MCASPi_axr[12] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Logic level on AXR11 pin (device level MCASPi_axr[11] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 10. "         AXR10     ,Logic level on AXR10 pin (device level MCASPi_axr[10] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 9. "         AXR9     ,Logic level on AXR9 pin (device level MCASPi_axr[9] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Logic level on AXR8 pin (device level MCASPi_axr[8] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 7. "         AXR7      ,Logic level on AXR7 pin (device level MCASPi_axr[7] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 6. "         AXR6     ,Logic level on AXR6 pin (device level MCASPi_axr[6] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Logic level on AXR5 pin (device level MCASPi_axr[5] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 4. "         AXR4      ,Logic level on AXR4 pin (device level MCASPi_axr[4] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 3. "         AXR3     ,Logic level on AXR3 pin (device level MCASPi_axr[3] signal). - . - ." "LOW,HIGH"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Logic level on AXR2 pin (device level MCASPi_axr[2] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 1. "         AXR1      ,Logic level on AXR1 pin (device level MCASPi_axr[1] signal). - . - ." "LOW,HIGH"
bitfld.long 0x00 0. "         AXR0     ,Logic level on AXR0 pin (device level MCASPi_axr[0] signal). - LOW. - ." "LOW,HIGH"
wgroup.long 0x1C++0x3
line.long 0x00 "MCASP_PDSET,The pin data set register is an alias of the pin data output register () for writes only. Writing a 1 to the bit sets the corresponding bit in and, if = 1 (GPIO function) and = 1 (output), drives a logic high on the pin."
bitfld.long 0x00 31. " AFSR        ,Allows the corresponding AFSR bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 29. "     ACLKR     ,Allows the corresponding ACLKR bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 28. "     AFSX     ,Allows the corresponding AFSX bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - SET. - ." "SET,SET"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Allows the corresponding AHCLKX bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - SET. - ." "SET,SET"
bitfld.long 0x00 26. "          ACLKX     ,Allows the corresponding ACLKX bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - SET. - ." "SET,SET"
bitfld.long 0x00 15. "          AXR15    ,Allows the AXR15 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Allows the AXR14 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 13. "     AXR13     ,Allows the AXR13 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 12. "     AXR12    ,Allows the AXR12 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Allows the AXR11 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 10. "     AXR10     ,Allows the AXR10 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 9. "     AXR9     ,Allows the AXR9 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Allows the AXR8 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 7. "     AXR7      ,Allows the AXR7 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 6. "     AXR6     ,Allows the AXR6 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Allows the AXR5 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 4. "     AXR4      ,Allows the AXR4 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 3. "     AXR3     ,Allows the AXR3 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Allows the AXR2 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 1. "     AXR1      ,Allows the AXR1 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,SET"
bitfld.long 0x00 0. "     AXR0     ,Allows the AXR0 bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port. - SET. - ." "SET,SET"
group.long 0x20++0x3
line.long 0x00 "MCASP_PDCLR,The pin data clear register is an alias of the pin data output register () for writes only. Writing a 1 to the bit clears the corresponding bit in and, if = 1 (GPIO function) and = 1 (output), drives a logic low on the pin."
bitfld.long 0x00 31. " AFSR        ,Allows the corresponding AFSR bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 29. "     ACLKR     ,Allows the corresponding ACLKR bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 28. "     AFSX     ,Allows the corresponding AFSX bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - CLEAR. - ." "CLEAR,CLEAR"
textline "                           "
bitfld.long 0x00 27. " AHCLKX      ,Allows the corresponding AHCLKX bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - CLEAR. - ." "CLEAR,CLEAR"
bitfld.long 0x00 26. "        ACLKX     ,Allows the corresponding ACLKX bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - CLEAR. - ." "CLEAR,CLEAR"
bitfld.long 0x00 15. "        AXR15    ,Allows the AXR15 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 14. " AXR14       ,Allows the AXR14 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 13. "     AXR13     ,Allows the AXR13 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 12. "     AXR12    ,Allows the AXR12 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 11. " AXR11       ,Allows the AXR11 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 10. "     AXR10     ,Allows the AXR10 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 9. "     AXR9     ,Allows the AXR9 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 8. " AXR8        ,Allows the AXR8 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 7. "     AXR7      ,Allows the AXR7 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 6. "     AXR6     ,Allows the AXR6 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 5. " AXR5        ,Allows the AXR5 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 4. "     AXR4      ,Allows the AXR4 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 3. "     AXR3     ,Allows the AXR3 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
textline "                           "
bitfld.long 0x00 2. " AXR2        ,Allows the AXR2 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 1. "     AXR1      ,Allows the AXR1 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - . - ." "NOEFFECT,CLEAR"
bitfld.long 0x00 0. "     AXR0     ,Allows the AXR0 bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port. - CLEAR. - ." "CLEAR,CLEAR"
group.long 0x44++0x3
line.long 0x00 "MCASP_GBLCTL,Global transmit control register - provides initialization of the transmit and receive sections. The bit fields in are synchronized and latched by the transmitter and receiver corresponding clocks - MCASPi_aclkx clock ( bits [12:8] ) and M..."
bitfld.long 0x00 12. " XFRST       ,Transmit frame-sync generator reset enable bit - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 11. "       XSMRST    ,Transmit state-machine reset enable bit - RESET. AXR[n] pin state : If[n] = 0 and [n] = 1, the corresponding serializer [n] drives the AXR[n] pin to the state specified for inactive time slot.. - . - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 10. "       XSRCLR   ,Transmit serializer clear enable bit. By clearing and then setting this bit, the transmit buffer is flushed to an empty state (XDATA = 1). If XSMRST = 1, XSRCLR = 1, XDATA = 1, and XBUF is not loaded with new data before the start of t..." "CLEAR,ACTIVE"
textline "                           "
bitfld.long 0x00 9. " XHCLKRST    ,Transmit high-frequency clock divider reset enable bit - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 8. "       XCLKRST   ,Transmit clock divider reset enable bit - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 4. "       RFRST    ,Receive frame sync generator reset enable bit. - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 3. " RSMRST      ,Receive state machine reset enable bit. - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 2. "       RSRCLR    ,Receive serializer clear enable bit. By clearing then setting this bit, the receive buffer is flushed. - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
bitfld.long 0x00 1. "       RHCLKRST ,Receive high-frequency clock divider reset enable bit. - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 0. " RCLKRST     ,Receive clock divider reset enable bit. - RESET. - ACTIVE." "RESET,ACTIVE"
group.long 0x48++0x3
line.long 0x00 "MCASP_AMUTE,Mute control register - Controls the MCASP mute output pin - AMUTE (device level - not implemented)"
group.long 0x4C++0x3
line.long 0x00 "MCASP_LBCTL,The digital loopback control register () controls the internal (MCASP module)- level and chip-level loopback settings of the MCASP in TDM mode. Note that loopback is NOT supported if MCASP is configured in DIT mode."
bitfld.long 0x00 4. " IOLBEN      ,If DLBEN=0b1, the IOLBEN bit selects between and loopback modes. IOLBEN bit value is irrelevant, If DLBEN=0b0. - INTERNAL_LB. - CHIP_LB." "INTERNAL_LB,CHIP_LB"
bitfld.long 0x00 2.--3. "  MODE      ,Loopback generator mode bits. - NO_LOOPBACK. - LOOPBACK. 0x2, 0x3: Reserved. - RESERVED." "NO_LOOPBACK,LOOPBACK,2,3"
bitfld.long 0x00 1. "  ORD      ,Loopback order bit when loopback mode is enabled (DLBEN = 1). - ODD. - EVEN." "ODD,EVEN"
textline "                           "
bitfld.long 0x00 0. " DLBEN       ,Loop back mode enable bit. - DISABLE. - ENABLE." "DISABLE,ENABLE"
group.long 0x50++0x3
line.long 0x00 "MCASP_TXDITCTL,Transmit DIT mode control register, controls DIT operations of the MCASP"
bitfld.long 0x00 3. " VB          ,Valid bit for odd time slots (DIT right subframe). - ONESTUFF. - ." "ONESTUFF,ONESTUFF"
bitfld.long 0x00 2. "     VA        ,Valid bit for even time slots (DIT left subframe). - ONESTUFF. - ." "ONESTUFF,ONESTUFF"
bitfld.long 0x00 0. "     DITEN    ,DIT mode enable bit - I2S. - DIT." "I2S,DIT"
group.long 0x60++0x3
line.long 0x00 "MCASP_GBLCTLR,Alias of GBLCTL. When writing to this register, only the TRANSMIT bits of GBLCTL are affected (This means GBLCTL bits 8,9,10,11,12). Reads return GBLCTL"
bitfld.long 0x00 12. " XFRST       ,Frame sync generator reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 11. "       XSMRST    ,XMT state machine reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 10. "       XSRCLR   ,XMT serializer clear - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
textline "                           "
bitfld.long 0x00 9. " XHCLKRST    ,XMT High Freq. clk Divider - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 8. "       XCLKRST   ,XMT clock divder reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 4. "       RFRST    ,Frame sync generator reset - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 3. " RSMRST      ,RCV state machine reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 2. "       RSRCLR    ,RCV serializer clear - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
bitfld.long 0x00 1. "       RHCLKRST ,RCV High Freq. clk Divider - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 0. " RCLKRST     ,RCV clock divder reset - RESET. - ACTIVE." "RESET,ACTIVE"
group.long 0x64++0x3
line.long 0x00 "MCASP_RXMASK,The receive format unit bit mask register () determines which bits of the received data are masked off and padded with a known value before being read by the CPU."
hexmask.long 0x00 0.--31. 1. " RMASK[31:0] ,Receive data mask enable bit. - USEMASK. - NOMASK."
group.long 0x68++0x3
line.long 0x00 "MCASP_RXFMT,The receive bit stream format register () configures the receive data format."
bitfld.long 0x00 16.--17. " RDATDLY     ,Receive Frame sync delay of AXR[n] - 0BIT. - 1BIT. - 2BIT. - 2BIT." "0BIT,1BIT,2BIT,2BIT"
bitfld.long 0x00 15. "         RRVRS     ,Receive serial bitstream order - LSBFIRST. - MSBFIRST." "LSBFIRST,MSBFIRST"
bitfld.long 0x00 13.--14. "     RPAD     ,Pad value for extra bits in slot not belonging to the word. This field only applies to bits when RMASK[n] = 0. - ZERO. - ONE. - RPBIT. - RPBIT." "ZERO,ONE,RPBIT,RPBIT"
textline "                           "
bitfld.long 0x00 8.--12. " RPBIT       ,RPBIT value determines which bit (as read by the CPU from RBUF[n]) is used to pad the extra bits. This field only applies when RPAD = 2h. - . 0x01 - 0x1F: Pad with value of the bit positioned within the range RBUFn[31:1].. - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 4.--7. "           RSSZ      ,Receive slot size.0x0 - 0x2 : Reserved. - RSVD. - 8BITS. - RSVD. - 12BITS. - RSVD. - 16BITS. - RSVD. - 20BITS. - RSVD. - 24BITS. - RSVD. - 28BITS. - 32BITS. - 32BITS." "0,1,2,8BITS,RSVD,12BITS,RSVD,16BITS,RSVD,20BITS,RSVD,24BITS,RSVD,28BITS,32BITS,32BITS"
bitfld.long 0x00 3. "       RBUSEL   ,Selects whether reads from serializer buffer RBUF[n] originate from the peripheral configuration CFG port or the DATA port. - VBUSP. - VBUS." "VBUSP,VBUS"
textline "                           "
bitfld.long 0x00 0.--2. " RROT        ,Right-rotation value for receive rotate right format unit. - NONE. - 4BITS. - 8BITS. - 12BITS. - 16BITS. - 20BITS. - 24BITS. - 28BITS." "NONE,4BITS,8BITS,12BITS,16BITS,20BITS,24BITS,28BITS"
group.long 0x6C++0x3
line.long 0x00 "MCASP_RXFMCTL,The receive frame sync control register () configures the receive frame sync (AFSR)."
hexmask.long.word 0x00 7.--15. 1. " RMOD        ,Receive frame sync mode select bits. - . - . - . 0x3 - 0x20: 3-slot TDM to 32-slot TDM mode. - . 0x21 - 0x17F: Reserved. - . - . 0x181 - 0x1FF: Reserved. - ."
bitfld.long 0x00 4. "         FRWID     ,Receive frame sync width select bit indicates the width of the receive frame sync (AFSR) during its active period. - BIT. - WORD." "BIT,WORD"
bitfld.long 0x00 1. "         FSRM     ,Receive frame sync generation select bit. - EXTERNAL. - INTERNAL." "EXTERNAL,INTERNAL"
textline "                           "
bitfld.long 0x00 0. " FSRP        ,Receive frame sync polarity select bit. - RISINGEDGE. - FALLINGEDGE." "RISINGEDGE,FALLINGEDGE"
group.long 0x70++0x3
line.long 0x00 "MCASP_ACLKRCTL,The receive clock control register () configures the receive bit clock (ACLKR) and the receive clock generator."
bitfld.long 0x00 20. " BUSY        ,Status: logical OR of DIVBUSY, ADJBUSY. Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 19. "      DIVBUSY   ,Status: divide ratio change in progress? Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 18. "      ADJBUSY  ,Status: one-shot adjustment in progress? Not supported. - . - ." "NOTBUSY,BUSY"
textline "                           "
bitfld.long 0x00 16.--17. " CLKRADJ     ,CLKRDIV one-shot adjustment. Not supported. Bit field must always be written as 0x0.If CLKRDIV is set such that there are ?m? input clocks per one output clock, then for one output cycle: - 00 = (m+0) input clocks per output clock, i.e. n..." "PLUSZERO,MINUSONE,PLUSONE,PLUSZER0"
bitfld.long 0x00 7. "     CLKRP     ,Receive bitstream clock polarity select bit. Note that this bitfield does not have any effect, ifMCASP_ACLKXCTL[6] ASYNC = 0 - FALLINGEDGE. - RISINGEDGE." "FALLINGEDGE,RISINGEDGE"
bitfld.long 0x00 5. "  CLKRM    ,Receive bit clock source bit. Note that this bitfield does not have any effect, ifMCASP_ACLKXCTL[6] ASYNC = 0 - EXTERNAL. - INTERNAL." "EXTERNAL,INTERNAL"
textline "                           "
bitfld.long 0x00 0.--4. " CLKRDIV     ,Receive bit clock divide ratio bits determine the divide-down ratio from AHCLKR to ACLKR. Note that this bitfield does not have any effect, ifMCASP_ACLKXCTL[6] ASYNC = 0. - . - . 0x2 - 0x1F: Divide-by-3 to divide-by-32. - ." "0,0x01,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x74++0x3
line.long 0x00 "MCASP_AHCLKRCTL,The receive high-frequency clock control register () configures the receive high-frequency master clock (AHCLKR) and the receive clock generator."
bitfld.long 0x00 20. " BUSY        ,Status: logical OR of DIVBUSY, ADJBUSY. Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 19. "      DIVBUSY   ,Status: divide ratio change in progress? Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 18. "      ADJBUSY  ,Status: one-shot adjustment in progress? Not supported. - . - ." "NOTBUSY,BUSY"
textline "                           "
bitfld.long 0x00 16.--17. " HCLKRADJ    ,HCLKRDIV one-shot adjustment. Not supported. Bit field must always be written as 0x0. If HCLKRDIV is set such that there are ?m? input clocks per one output clock, then for one output cycle: - 00 = (m+0) input clocks per output clock, i.e..." "PLUSZERO,MINUSONE,PLUSONE,PLUSZER0"
bitfld.long 0x00 15. "     HCLKRM    ,High Freq. RCV clock Source - . - ." "EXTERNAL,INTERNAL"
bitfld.long 0x00 14. "     HCLKRP   ,Receive bitstream high-frequency clock polarity select bit. - NOTINVERTED. - INVERTED." "NOTINVERTED,INVERTED"
textline "                           "
hexmask.long.word 0x00 0.--11. 1. " HCLKRDIV    ,Receive high-frequency clock divide ratio bits determine the divide-down ratio from AUXCLK to AHCLKR. - . - . 0x2 - 0xFFF: Divide-by-3 to divide-by-4096. - ."
group.long 0x78++0x3
line.long 0x00 "MCASP_RXTDM,The receive TDM time slot register () specifies which TDM time slot the receiver is active."
hexmask.long 0x00 0.--31. 1. " RTDMS[31:0] ,Receiver mode during TDM time slot n. - INACTIVE. - ACTIVE."
group.long 0x7C++0x3
line.long 0x00 "MCASP_EVTCTLR,Receiver Interrupt control register - controls generation of the MCASP receive interrupt (RINT). When the register bit(s) is set to 1, the occurrence of the enabled MCASP condition(s) generates RINT."
bitfld.long 0x00 7. " RSTAFRM     ,Receive start of frame interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 5. "       RDATA     ,Receive data-ready interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 4. "       RLAST    ,Receive last slot interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
textline "                           "
bitfld.long 0x00 3. " RDMAERR     ,Receive DMA error interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 2. "       RCKFAIL   ,Receive clock failure interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 1. "       RSYNCERR ,Unexpected receive frame-sync interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
textline "                           "
bitfld.long 0x00 0. " ROVRN       ,Receiver overrun interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
group.long 0x80++0x3
line.long 0x00 "MCASP_RXSTAT,The receiver status register () provides the receiver status and receive TDM time slot number."
bitfld.long 0x00 8. " RERR        ,RERR bit always returns a logic-OR of: ROVRN | RSYNCERR | RCKFAIL | RDMAERR Allows a single bit to be checked to determine if a receiver error has occurred. - NOERROR. - ERROR." "NOERROR,ERROR"
bitfld.long 0x00 7. "      RDMAERR   ,Receive DMA error flag. RDMAERR is set when the CPU or DMA reads more serializers through the DMA port in a given time slot than were programmed as receivers. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has ..." "NOTOCCUR,OCCUR"
bitfld.long 0x00 6. "     RSTAFRM  ,Receive start of frame flag. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
textline "                           "
bitfld.long 0x00 5. " RDATA       ,Receive data ready flag. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
bitfld.long 0x00 4. "     RLAST     ,Receive last slot flag. RLAST is set along with RDATA, if the current slot is the last slot in a frame. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
bitfld.long 0x00 3. "     RTDMSLOT ,Returns the LSB of RSLOT. Allows a single read ofMCASP_RXSTAT to determine whether the current TDM time slot is even or odd. - ODDSLOT. - EVENSLOT." "ODDSLOT,EVENSLOT"
textline "                           "
bitfld.long 0x00 2. " RCKFAIL     ,Receive clock failure flag. RCKFAIL is set when the receive clock failure detection circuit reports an error. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
bitfld.long 0x00 1. "     RSYNCERR  ,Unexpected receive frame sync flag. RSYNCERR is set when a new receive frame sync (AFSR) occurs before it is expected. This bit is cleared by writing a 1 to this bit. Writing a 0 to this bit has no effect. - NOTOCCUR. - OCCUR." "NOTOCCUR,OCCUR"
bitfld.long 0x00 0. "     ROVRN    ,Receiver overrun flag. ROVRN is set when the receive serializer is instructed to transfer data from XRSR to RBUF, but the former data in RBUF has not yet been read by the CPU or DMA. This bit is cleared by writing a 1 to this bit. Writin..." "NOTOCCUR,OCCUR"
rgroup.long 0x84++0x3
line.long 0x00 "MCASP_RXTDMSLOT,The current receive TDM time slot register () indicates the current time slot for the receive data frame."
hexmask.long.word 0x00 0.--8. 1. " RSLOTCNT    ,0x0 - 0x17F: Current receive time slot count. Legal values: 0 to 383 (17Fh). TDM function is not supported for > 32 time slots. However, TDM time slot counter may count to 383 when used to receive a DIR block (transferred over TDM ..."
group.long 0x88++0x3
line.long 0x00 "MCASP_RXCLKCHK,The receive clock check control register (RCLKCHK) configures the receive clock failure detection circuit."
hexmask.long.byte 0x00 24.--31. 1. " RCNT        ,0x0 - 0xFF: Receive clock count value (from previous measurement). The clock circuit continually counts the number of interface clocks for every 32 receive high-frequency master clock (AHCLKR) signals, and stores the count in RCNT until t..."
hexmask.long.byte 0x00 16.--23. 1. "           RMAX      ,0x00-0xFF: Receive clock maximum boundary. This 8-bit unsigned value sets the maximum allowed boundary for the clock check counter after 32 receive high-frequency master clock (AHCLKR) signals have been received. If the current co..."
hexmask.long.byte 0x00 8.--15. 1. "           RMIN     ,0x00 - 0xFF: Receive clock minimum boundary. This 8-bit unsigned value sets the minimum allowed boundary for the clock check counter after 32 receive high-frequency master clock (AHCLKR) signals have been received. If RCNT is less ..."
textline "                           "
bitfld.long 0x00 0.--3. " RPS         ,Receive clock check prescaler value. - DIVBY64. - DIVBY2. - DIVBY128. - DIVBY1. - DIVBY4. - DIVBY256. - DIVBY16. - DIVBY32. - DIVBY8. 0x9 - 0xF: Reserved. - DIVBY8." "DIVBY64,DIVBY2,DIVBY128,DIVBY1,DIVBY4,DIVBY256,DIVBY16,DIVBY32,DIVBY8,9,10,11,12,13,14,15"
group.long 0x8C++0x3
line.long 0x00 "MCASP_REVTCTL,Receiver DMA event control register"
bitfld.long 0x00 0. " RDATDMA     ,Receive data DMA request enable bit. - . - ." "ENABLE,DISABLE"
group.long 0xA0++0x3
line.long 0x00 "MCASP_GBLCTLX,Alias of GBLCTL. When writing to this register, only the TRANSMIT bits of GBLCTL are affected (This means GBLCTL bits 8,9,10,11,12.). Reads return GBLCTL."
bitfld.long 0x00 12. " XFRST       ,Frame sync generator reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 11. "       XSMRST    ,XMT state machine reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 10. "       XSRCLR   ,XMT serializer clear - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
textline "                           "
bitfld.long 0x00 9. " XHCLKRST    ,XMT High Freq. clk Divider - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 8. "       XCLKRST   ,XMT clock divder reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 4. "       RFRST    ,Frame sync generator reset - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 3. " RSMRST      ,RCV state machine reset - RESET. - ACTIVE." "RESET,ACTIVE"
bitfld.long 0x00 2. "       RSRCLKR   ,RCV serializer clear - CLEAR. - ACTIVE." "CLEAR,ACTIVE"
bitfld.long 0x00 1. "       RHCLKRST ,RCV High Freq. clk Divider - RESET. - ACTIVE." "RESET,ACTIVE"
textline "                           "
bitfld.long 0x00 0. " RCLKRST     ,RCV clock divder reset - RESET. - ACTIVE." "RESET,ACTIVE"
group.long 0xA4++0x3
line.long 0x00 "MCASP_TXMASK,Transmit format unit bit mask register - Determines which bits of the transmitted data are masked off before being shifted out the MCASP"
hexmask.long 0x00 0.--31. 1. " XMASK[31:0] ,Transmit data mask enable bit - . - ."
group.long 0xA8++0x3
line.long 0x00 "MCASP_TXFMT,Transmit bitstream format register - configures the transmit data format"
bitfld.long 0x00 16.--17. " XDATDLY     ,Transmit sync bit delay - 0BIT. - 1BIT. - 2BIT. - 2BIT." "0BIT,1BIT,2BIT,2BIT"
bitfld.long 0x00 15. "         XRVRS     ,Transmit serial bitstream order - . - ." "LSBFIRST,MSBFIRST"
bitfld.long 0x00 13.--14. "     XPAD     ,Pad value for extra bits in slot not belonging to word defined by XMASK. This field only applies to bits when XMASK[n] = 0. - . - . - . - ." "ZERO,ONE,XPBIT,3"
textline "                           "
bitfld.long 0x00 8.--12. " XPBIT       ,XPBIT value determines which bit (as written by the CPU or DMA to XBUF[n]) is used to pad the extra bits before shifting. This field only applies when XPAD = 0x2." "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
bitfld.long 0x00 4.--7. "   XSSZ      ,Transmit slot size0x0 - 0x2 : Reserved. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - RSV8. - ." "0,1,2,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,RSV8,32BITS"
bitfld.long 0x00 3. "       XBUSEL   ,Selects whether writes to the serializer buffer XBUF[n] originate from the peripheral configuration CFG port or the DATA port. - VBUSP. - VBUS." "VBUSP,VBUS"
textline "                           "
bitfld.long 0x00 0.--2. " XROT        ,Right-rotation value for transmit rotate right format unit - 12BITS. - . - . - . - . - . - . - ." "12BITS,4BITS,8BITS,12BITS,16BITS,20BITS,24BITS,28BITS"
group.long 0xAC++0x3
line.long 0x00 "MCASP_TXFMCTL,Transmit frame-sync control register - configures the transmit frame sync (MCASPi_fsx)."
hexmask.long.word 0x00 7.--15. 1. " XMOD        ,Transmit frame-sync mode select bits 0x0: Burst mode 0x1: Reserved 0x2: 2-slot TDM mode () 0x3 - 0x20: 3-slot TDM to 32-slot TDM mode 0x21 - 0x17F: Reserved 0x180: 384-slot DIT mode All other: Reserved"
bitfld.long 0x00 4. "         FXWID     ,The transmit frame-sync width select bit indicates the width of the transmit frame sync (MCASPi_fsx) during its active period. - WORD. - ." "WORD,WORD"
bitfld.long 0x00 1. "         FSXM     ,Transmit frame-sync generation select bit - INTERNAL. - ." "INTERNAL,INTERNAL"
textline "                           "
bitfld.long 0x00 0. " FSXP        ,Transmit frame-sync polarity select bit - FALLINGEDGE. - ." "FALLINGEDGE,FALLINGEDGE"
group.long 0xB0++0x3
line.long 0x00 "MCASP_ACLKXCTL,Transmit clock control register - Configures the transmit bit clock (MCASPi_aclkx) and the transmit clock generator."
bitfld.long 0x00 20. " BUSY        ,Status: logical OR of DIVBUSY, ADJBUSY. Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 19. "      DIVBUSY   ,Status: divide ratio change in progress? Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 18. "      ADJBUSY  ,Status: one-shot adjustment in progress? Not supported. - . - ." "NOTBUSY,BUSY"
textline "                           "
bitfld.long 0x00 16.--17. " CLKXADJ     ,CLKXDIV one-shot adjustment. Not supported. Bit field must always be written as 0x0. If CLKXDIV is set such that there are ?m? input clocks per one output clock, then for one output cycle: - 00 = (m+0) input clocks per output clock, i.e. ..." "PLUSZERO,MINUSONE,PLUSONE,PLUSZER0"
bitfld.long 0x00 7. "     CLKXP     ,Transmit bitstream clock polarity select bit. - . - ." "RISINGEDGE,FALLINGEDGE"
bitfld.long 0x00 6. "  ASYNC    ,Transmit operation asynchronous enable bit - ASYNC. - ." "ASYNC,ASYNC"
textline "                           "
bitfld.long 0x00 5. " CLKXM       ,Transmit bit clock source bit - INTERNAL. - ." "INTERNAL,INTERNAL"
bitfld.long 0x00 0.--4. "     CLKXDIV   ,Transmit bit clock divide ratio bits, determine the divide-down ratio from AHCLKX to ACLKX. 0x0: Divide-by-1 0x1: Divide-by-2 0x2 to 0x1F: Divide-by-3 to divide-by-32" "0,0x01,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO,UNKN_MNEMO"
group.long 0xB4++0x3
line.long 0x00 "MCASP_AHCLKXCTL,High-frequency transmit clock control register - Configures the transmit high-frequency master clock (MCASPi_ahclkx) and the transmit clock generator."
bitfld.long 0x00 20. " BUSY        ,Status: logical OR of DIVBUSY, ADJBUSY. Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 19. "      DIVBUSY   ,Status: divide ratio change in progress? Not supported. - . - ." "NOTBUSY,BUSY"
bitfld.long 0x00 18. "      ADJBUSY  ,Status: one-shot adjustment in progress? Not supported. - . - ." "NOTBUSY,BUSY"
textline "                           "
bitfld.long 0x00 16.--17. " HCLKXADJ    ,HCLKXDIV one-shot adjustment. Not supported. Bit field must always be written as 0x0. If HCLKXDIV is set such that there are ?m? input clocks per one output clock, then for one output cycle: - 00 = (m+0) input clocks per output clock, i.e..." "PLUSZERO,MINUSONE,PLUSONE,PLUSZER0"
bitfld.long 0x00 15. "     HCLKXM    ,Transmit high-frequency clock source bit - INTERNAL. - ." "INTERNAL,INTERNAL"
bitfld.long 0x00 14. "     HCLKXP   ,Transmit bitstream high-frequency clock polarity select bit. - . - ." "NOTINVERTED,INVERTED"
textline "                           "
hexmask.long.word 0x00 0.--11. 1. " HCLKXDIV    ,Transmit high-frequency clock divide ratio bits determine the divide-down ratio from AUXCLK to MCASPi_ahclkx. 0x0: Divide-by-1 0x1: Divide-by-2 0x2 to 0xFFF: Divide-by-3 to divide-by-4096"
group.long 0xB8++0x3
line.long 0x00 "MCASP_TXTDM,Transmit TDM slot 0-31 register - TDM time slot counter range is to 384 slots (to support SPDIF blocks of 384 subframes)."
hexmask.long 0x00 0.--31. 1. " XTDMS[31:0] ,Transmitter mode during TDM time slot n (n = 0..31) - . - ."
group.long 0xBC++0x3
line.long 0x00 "MCASP_EVTCTLX,Transmitter Interrupt control register - controls generation of the MCASP transmit interrupt (XINT). When the register bit(s) is set to 1, the occurrence of the enabled MCASP condition(s) generates XINT."
bitfld.long 0x00 7. " XSTAFRM     ,Transmit start of frame interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 5. "       XDATA     ,Transmit data-ready interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 4. "       XLAST    ,Transmit last slot interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
textline "                           "
bitfld.long 0x00 3. " XDMAERR     ,Transmit DMA error interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 2. "       XCKFAIL   ,Transmit clock failure interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
bitfld.long 0x00 1. "       XSYNCERR ,Unexpected transmit frame-sync interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
textline "                           "
bitfld.long 0x00 0. " XUNDRN      ,Transmitter underrun interrupt enable bit - ENABLE. - ." "ENABLE,ENABLE"
group.long 0xC0++0x3
line.long 0x00 "MCASP_TXSTAT,Transmitter status register - If the MCASP logic attempts to set an interrupt flag in the same cycle that the CPU writes to the flag to clear it, the MCASP logic has priority and the flag remains set. This also causes the generation of a n..."
bitfld.long 0x00 8. " XERR        ,XERR bit always returns a logic-OR of: XUNDRN | XSYNCERR | XCKFAIL | XDMAERR. Allows a single bit to be checked to determine if a transmitter error interrupt has occurred. - ERROR. - ." "ERROR,ERROR"
bitfld.long 0x00 7. "        XDMAERR   ,Transmit DMA error flag. XDMAERR is set when the CPU or DMA writes more words to the DATA port of the MCASP in a given time slot than it should. Causes a transmit interrupt (XINT) if this bit and XDMAERR inMCASP_EVTCTLX are set. This..." "OCCUR,OCCUR"
bitfld.long 0x00 6. "        XSTAFRM  ,Transmit start of frame flag. Causes a transmit interrupt (XINT) if this bit and XSTAFRM inMCASP_EVTCTLX are set. This bit is cleared by writing a 1 to it. Writing a 0 has no effect. - OCCUR. - ." "OCCUR,OCCUR"
textline "                           "
bitfld.long 0x00 5. " XDATA       ,Transmit data ready flag. Causes a transmit interrupt (XINT) if this bit and XDATA inMCASP_EVTCTLX are set. This bit is cleared by writing a 1 to iit. Writing a 0 has no effect - OCCUR. - ." "OCCUR,OCCUR"
bitfld.long 0x00 4. "        XLAST     ,Transmit last slot flag. XLAST, along with XDATA, are set if the current slot is the last slot in a frame. Causes a transmit interrupt (XINT) if this bit and XLAST inMCASP_EVTCTLX are set. This bit is cleared by writing a 1 to iit. W..." "OCCUR,OCCUR"
bitfld.long 0x00 3. "        XTDMSLOT ,Returns the LSB of XSLOT. Allows a single read of XSTAT to determine whether the current TDM time slot is even or odd. - EVENSLOT. - ." "EVENSLOT,EVENSLOT"
textline "                           "
bitfld.long 0x00 2. " XCKFAIL     ,Transmit clock failure flag. XCKFAIL is set when the transmit clock failure detection circuit reports an error. Causes a transmit interrupt (XINT) if this bit and XCKFAIL inMCASP_EVTCTLX are set. This bit is cleared by writing a 1 to iit...." "OCCUR,OCCUR"
bitfld.long 0x00 1. "        XSYNCERR  ,Unexpected transmit frame-sync flag. XSYNCERR is set when a new transmit frame sync (AFSX) occurs before it is expected. Causes a transmit interrupt (XINT) if this bit and XSYNCERR inMCASP_EVTCTLX are set. This bit is cleared by writ..." "OCCUR,OCCUR"
bitfld.long 0x00 0. "        XUNDRN   ,Transmitter underrun flag. XUNDRN is set when the transmit serializer is instructed to transfer data from XBUF[n] to XRSR[n], but XBUF[n] has not yet been serviced with new data since the last transfer. Causes a transmit interrupt (XI..." "OCCUR,OCCUR"
rgroup.long 0xC4++0x3
line.long 0x00 "MCASP_TXTDMSLOT,Current transmit TDM time slot register"
hexmask.long.word 0x00 0.--8. 1. " XSLOTCNT    ,Current transmit time slot count. the value of this register is 0b0101111111 (0x17f) during reset and 0 after reset."
group.long 0xC8++0x3
line.long 0x00 "MCASP_TXCLKCHK,Transmit clock check control register - configures the transmit clock failure detection circuit."
hexmask.long.byte 0x00 24.--31. 1. " XCNT        ,Transmit clock count value (from previous measurement). The clock circuit continually counts the number of interface clocks for every 32 transmit high-frequency master clock (MCASPi_ahclkx) signals, and stores the count in XCNT until the ..."
hexmask.long.byte 0x00 16.--23. 1. "           XMAX      ,0x0 to 0xFF: Transmit clock maximum boundary. This 8-bit unsigned value sets the maximum allowed boundary for the clock check counter after 32 transmit high-frequency master clock (MCASPi_ahclkx) signals have been received. If the..."
hexmask.long.byte 0x00 8.--15. 1. "           XMIN     ,0x0 to 0xFF: Transmit clock minimum boundary. This 8-bit unsigned value sets the minimum allowed boundary for the clock check counter after 32 transmit high-frequency master clock (MCASPi_ahclkx) signals have been received. If XCNT..."
textline "                           "
bitfld.long 0x00 0.--3. " XPS         ,Transmit clock check prescaler value 0x0: MCASP interface clock divided by 1 0x1: MCASP interface clock divided by 2 0x2: MCASP interface clock divided by 4 0x3: MCASP interface clock divided by 8 0x4: MCASP interface clock divided by 16 ..." "DIVBY1,DIVBY2,DIVBY4,DIVBY8,DIVBY16,DIVBY32,DIVBY64,DIVBY128,DIVBY256,9,10,11,12,13,14,15"
group.long 0xCC++0x3
line.long 0x00 "MCASP_XEVTCTL,Transmitter DMA event control register"
bitfld.long 0x00 0. " XDATDMA     ,Transmit data DMA request enable bit. - . - ." "ENABLE,DISABLE"
group.long 0xD0++0x3
line.long 0x00 "MCASP_CLKADJEN,One-Shot Clock Adjustment Enable"
bitfld.long 0x00 0. " ENABLE      ,One-shot clock adjust enable. Not supported. Bit field must always be written as 0x0. - DISABLE. - ENABLE." "DISABLE,ENABLE"
width 0x0B
tree.end
tree.end
tree.end
tree.open "SuperSpeed_USB_DRD"
tree.open "USB_DWC1"
tree "USB_DWC1"
base ad:0x48890000
tree "Channel_0"
width 20.
group.long 0x480++0x3
line.long 0x00 "USB_DB_j_0,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC808++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_0,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC804++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_0,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC800++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_0,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC80C++0x3
line.long 0x00 "USB_DEPCMD_i_0,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_1"
width 20.
group.long 0x484++0x3
line.long 0x00 "USB_DB_j_1,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC818++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_1,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC814++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_1,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC810++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_1,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC81C++0x3
line.long 0x00 "USB_DEPCMD_i_1,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_2"
width 20.
group.long 0x488++0x3
line.long 0x00 "USB_DB_j_2,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC828++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_2,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC824++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_2,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC820++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_2,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC82C++0x3
line.long 0x00 "USB_DEPCMD_i_2,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_3"
width 20.
group.long 0x48C++0x3
line.long 0x00 "USB_DB_j_3,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC838++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_3,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC834++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_3,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC830++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_3,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC83C++0x3
line.long 0x00 "USB_DEPCMD_i_3,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_4"
width 20.
group.long 0x490++0x3
line.long 0x00 "USB_DB_j_4,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC848++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_4,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC844++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_4,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC840++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_4,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC84C++0x3
line.long 0x00 "USB_DEPCMD_i_4,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_5"
width 20.
group.long 0x494++0x3
line.long 0x00 "USB_DB_j_5,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC858++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_5,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC854++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_5,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC850++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_5,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC85C++0x3
line.long 0x00 "USB_DEPCMD_i_5,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_6"
width 20.
group.long 0x498++0x3
line.long 0x00 "USB_DB_j_6,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC868++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_6,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC864++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_6,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC860++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_6,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC86C++0x3
line.long 0x00 "USB_DEPCMD_i_6,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_7"
width 20.
group.long 0x49C++0x3
line.long 0x00 "USB_DB_j_7,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC878++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_7,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC874++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_7,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC870++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_7,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC87C++0x3
line.long 0x00 "USB_DEPCMD_i_7,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_8"
width 20.
group.long 0x4A0++0x3
line.long 0x00 "USB_DB_j_8,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC888++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_8,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC884++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_8,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC880++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_8,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC88C++0x3
line.long 0x00 "USB_DEPCMD_i_8,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_9"
width 20.
group.long 0x4A4++0x3
line.long 0x00 "USB_DB_j_9,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC898++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_9,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC894++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_9,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC890++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_9,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC89C++0x3
line.long 0x00 "USB_DEPCMD_i_9,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_10"
width 21.
group.long 0x4A8++0x3
line.long 0x00 "USB_DB_j_10,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC8A8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_10,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC8A4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_10,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC8A0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_10,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC8AC++0x3
line.long 0x00 "USB_DEPCMD_i_10,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_11"
width 21.
group.long 0x4AC++0x3
line.long 0x00 "USB_DB_j_11,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC8B8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_11,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC8B4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_11,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC8B0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_11,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC8BC++0x3
line.long 0x00 "USB_DEPCMD_i_11,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_12"
width 21.
group.long 0x4B0++0x3
line.long 0x00 "USB_DB_j_12,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC8C8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_12,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC8C4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_12,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC8C0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_12,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC8CC++0x3
line.long 0x00 "USB_DEPCMD_i_12,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_13"
width 21.
group.long 0x4B4++0x3
line.long 0x00 "USB_DB_j_13,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC8D8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_13,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC8D4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_13,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC8D0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_13,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC8DC++0x3
line.long 0x00 "USB_DEPCMD_i_13,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_14"
width 21.
group.long 0x4B8++0x3
line.long 0x00 "USB_DB_j_14,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC8E8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_14,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC8E4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_14,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC8E0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_14,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC8EC++0x3
line.long 0x00 "USB_DEPCMD_i_14,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_15"
width 21.
group.long 0x4BC++0x3
line.long 0x00 "USB_DB_j_15,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC8F8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_15,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC8F4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_15,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC8F0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_15,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC8FC++0x3
line.long 0x00 "USB_DEPCMD_i_15,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_16"
width 21.
group.long 0x4C0++0x3
line.long 0x00 "USB_DB_j_16,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC908++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_16,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC904++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_16,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC900++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_16,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC90C++0x3
line.long 0x00 "USB_DEPCMD_i_16,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_17"
width 21.
group.long 0x4C4++0x3
line.long 0x00 "USB_DB_j_17,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC918++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_17,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC914++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_17,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC910++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_17,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC91C++0x3
line.long 0x00 "USB_DEPCMD_i_17,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_18"
width 21.
group.long 0x4C8++0x3
line.long 0x00 "USB_DB_j_18,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC928++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_18,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC924++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_18,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC920++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_18,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC92C++0x3
line.long 0x00 "USB_DEPCMD_i_18,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_19"
width 21.
group.long 0x4CC++0x3
line.long 0x00 "USB_DB_j_19,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC938++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_19,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC934++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_19,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC930++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_19,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC93C++0x3
line.long 0x00 "USB_DEPCMD_i_19,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_20"
width 21.
group.long 0x4D0++0x3
line.long 0x00 "USB_DB_j_20,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC948++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_20,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC944++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_20,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC940++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_20,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC94C++0x3
line.long 0x00 "USB_DEPCMD_i_20,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_21"
width 21.
group.long 0x4D4++0x3
line.long 0x00 "USB_DB_j_21,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC958++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_21,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC954++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_21,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC950++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_21,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC95C++0x3
line.long 0x00 "USB_DEPCMD_i_21,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_22"
width 21.
group.long 0x4D8++0x3
line.long 0x00 "USB_DB_j_22,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC968++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_22,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC964++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_22,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC960++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_22,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC96C++0x3
line.long 0x00 "USB_DEPCMD_i_22,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_23"
width 21.
group.long 0x4DC++0x3
line.long 0x00 "USB_DB_j_23,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC978++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_23,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC974++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_23,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC970++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_23,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC97C++0x3
line.long 0x00 "USB_DEPCMD_i_23,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_24"
width 21.
group.long 0x4E0++0x3
line.long 0x00 "USB_DB_j_24,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC988++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_24,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC984++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_24,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC980++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_24,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC98C++0x3
line.long 0x00 "USB_DEPCMD_i_24,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_25"
width 21.
group.long 0x4E4++0x3
line.long 0x00 "USB_DB_j_25,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC998++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_25,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC994++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_25,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC990++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_25,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC99C++0x3
line.long 0x00 "USB_DEPCMD_i_25,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_26"
width 21.
group.long 0x4E8++0x3
line.long 0x00 "USB_DB_j_26,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC9A8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_26,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC9A4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_26,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC9A0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_26,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC9AC++0x3
line.long 0x00 "USB_DEPCMD_i_26,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_27"
width 21.
group.long 0x4EC++0x3
line.long 0x00 "USB_DB_j_27,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC9B8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_27,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC9B4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_27,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC9B0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_27,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC9BC++0x3
line.long 0x00 "USB_DEPCMD_i_27,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_28"
width 21.
group.long 0x4F0++0x3
line.long 0x00 "USB_DB_j_28,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC9C8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_28,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC9C4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_28,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC9C0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_28,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC9CC++0x3
line.long 0x00 "USB_DEPCMD_i_28,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_29"
width 21.
group.long 0x4F4++0x3
line.long 0x00 "USB_DB_j_29,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC9D8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_29,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC9D4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_29,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC9D0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_29,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC9DC++0x3
line.long 0x00 "USB_DEPCMD_i_29,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_30"
width 21.
group.long 0x4F8++0x3
line.long 0x00 "USB_DB_j_30,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC9E8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_30,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC9E4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_30,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC9E0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_30,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC9EC++0x3
line.long 0x00 "USB_DEPCMD_i_30,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_31"
width 21.
group.long 0x4FC++0x3
line.long 0x00 "USB_DB_j_31,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC9F8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_31,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC9F4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_31,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC9F0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_31,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC9FC++0x3
line.long 0x00 "USB_DEPCMD_i_31,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x500++0x3
line.long 0x00 "USB_DB_j_32,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x504++0x3
line.long 0x00 "USB_DB_j_33,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x508++0x3
line.long 0x00 "USB_DB_j_34,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x50C++0x3
line.long 0x00 "USB_DB_j_35,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x510++0x3
line.long 0x00 "USB_DB_j_36,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x514++0x3
line.long 0x00 "USB_DB_j_37,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x518++0x3
line.long 0x00 "USB_DB_j_38,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x51C++0x3
line.long 0x00 "USB_DB_j_39,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x520++0x3
line.long 0x00 "USB_DB_j_40,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x524++0x3
line.long 0x00 "USB_DB_j_41,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x528++0x3
line.long 0x00 "USB_DB_j_42,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x52C++0x3
line.long 0x00 "USB_DB_j_43,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x530++0x3
line.long 0x00 "USB_DB_j_44,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x534++0x3
line.long 0x00 "USB_DB_j_45,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x538++0x3
line.long 0x00 "USB_DB_j_46,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x53C++0x3
line.long 0x00 "USB_DB_j_47,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x540++0x3
line.long 0x00 "USB_DB_j_48,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x544++0x3
line.long 0x00 "USB_DB_j_49,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x548++0x3
line.long 0x00 "USB_DB_j_50,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x54C++0x3
line.long 0x00 "USB_DB_j_51,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x550++0x3
line.long 0x00 "USB_DB_j_52,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x554++0x3
line.long 0x00 "USB_DB_j_53,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x558++0x3
line.long 0x00 "USB_DB_j_54,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x55C++0x3
line.long 0x00 "USB_DB_j_55,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x560++0x3
line.long 0x00 "USB_DB_j_56,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x564++0x3
line.long 0x00 "USB_DB_j_57,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x568++0x3
line.long 0x00 "USB_DB_j_58,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x56C++0x3
line.long 0x00 "USB_DB_j_59,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x570++0x3
line.long 0x00 "USB_DB_j_60,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x574++0x3
line.long 0x00 "USB_DB_j_61,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x578++0x3
line.long 0x00 "USB_DB_j_62,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x57C++0x3
line.long 0x00 "USB_DB_j_63,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
tree.end
textline ""
width 20.
rgroup.long 0x0++0x3
line.long 0x00 "USB_CAPLENGTH,Capability registers length + host controller interface (HCI) version number"
hexmask.long.word 0x00 16.--31. 1. " HCIVERSION                          ,Host Controller Interface Version (xHCI), in BCD. Set by USB_FLADJ[29] XHCI_REVISION field. - 0_96. - 1_00."
hexmask.long.byte 0x00 0.--7. 1. "                 CAPLENGTH                     ,Capability Register Length: length of the xHCI Capabilities registers bank, in bytes; also the offset of the xHCI Operational registers bank (starting withUSB_USBCMD), with respect to xHCI base (i.e. the ..."
rgroup.long 0x4++0x3
line.long 0x00 "USB_HCSPARAMS1,Host controller structural parameters 1 (xHCI)"
hexmask.long.byte 0x00 24.--31. 1. " MAXPORTS                            ,See xHCI specification."
hexmask.long.word 0x00 8.--18. 1. "                   MAXINTRS                      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "                    MAXSLOTS                         ,See xHCI specification."
rgroup.long 0x8++0x3
line.long 0x00 "USB_HCSPARAMS2,Host controller structural parameters 2 (xHCI)"
bitfld.long 0x00 27.--31. " MAXSCRATCHPADBUFS_LO                ,Max Scratchpad Buffers, lower bits: See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 26. "                   SPR                           ,Scratchpad Restore: See xHCI specification - yes. - no." "no,yes"
bitfld.long 0x00 21.--25. "                     MAXSCRATCHPADBUFS_HI             ,Max Scratchpad Buffers, higher bits: see xHCI 1.0 standard" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                             "
bitfld.long 0x00 4.--7. " ERSTMAX                             ,Event Ring Segment Table Max: See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "                   IST                           ,Isochronous Scheduling Threshold: See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0xC++0x3
line.long 0x00 "USB_HCSPARAMS3,Host controller structural parameters 3 (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " U2_DEVICE_EXIT_LAT                  ,U2 device exit latency: Worst-case latency to transition from U2 to U0, in ?s. Applies to all root hub ports. - . - . - . - ."
hexmask.long.byte 0x00 0.--7. 1. "                 U1_DEVICE_EXIT_LAT            ,U1 device exit latency: Worst-case latency to transition a root hub port link state (PLS) from U1 to U0, in ?s. - . - . - . - ."
rgroup.long 0x10++0x3
line.long 0x00 "USB_HCCPARAMS,Host controller capability parameters (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " XECP                                ,xHCI Extended Capabilties Pointer. 32-bit dword offset, with respect to xHCI base, of the first item of the capability list."
bitfld.long 0x00 12.--15. "                 MAXPSASIZE                    ,Maximum Primary Stream Array Size: See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8. "                      PAE                              ,Parse All Event data: see xHCI 1.0 standard w errata" "0,1"
textline "                             "
bitfld.long 0x00 7. " NSS                                 ,No Secondary SID Support See xHCI specification" "0,1"
bitfld.long 0x00 6. "                    LTC                           ,Latency Tolerance messaging Capability See xHCI specification" "0,1"
bitfld.long 0x00 5. "                       LHRC                             ,Light HC Reset Capability: See xHCI specification" "0,1"
textline "                             "
bitfld.long 0x00 4. " PIND                                ,Port Indicators: See xHCI specification" "0,1"
bitfld.long 0x00 3. "                    PPC                           ,Port Power Control: See xHCI specification" "0,1"
bitfld.long 0x00 2. "                       CSZ                              ,Context Size: See xHCI specification" "0,1"
textline "                             "
bitfld.long 0x00 1. " BNC                                 ,Bandwidth Negotiation Capability: See xHCI specification" "0,1"
bitfld.long 0x00 0. "                    AC64                          ,64-bit Address Capability: See xHCI specification" "0,1"
rgroup.long 0x14++0x3
line.long 0x00 "USB_DBOFF,Doorbell offset (xHCI): Byte offset of the doorbell register array (, with respect to the xHCI base (that is, register)"
hexmask.long 0x00 2.--31. 1. " DOORBELL_ARRAY_OFFSET               ,Byte address offset MSBs"
bitfld.long 0x00 0.--1. "             ZERO                          ,Byte address offset LSBs, always 0 (offset is 32-bit = 4-byte aligned)" "0,1,2,3"
rgroup.long 0x18++0x3
line.long 0x00 "USB_RTSOFF,RunTime space offset (xHCI): Byte offset of the runtime register bank (starting with), with respect to the xHCI base (that is, register)"
hexmask.long 0x00 5.--31. 1. " RUNTIME_REG_SPACE_OFFSET            ,Byte address offset MSBs"
bitfld.long 0x00 0.--4. "             ZERO                          ,Byte address offset LSBs, always 0 (offset is 32-byte aligned)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x20++0x3
line.long 0x00 "USB_USBCMD,USB command register (xHCI)"
bitfld.long 0x00 11. " EU3S                                ,Enable U3 MFINDEX Stop: See xHCI specification" "0,1"
bitfld.long 0x00 10. "                    EWE                           ,Enable Wrap Event: See xHCI specification" "0,1"
bitfld.long 0x00 9. "                       CRS                              ,Controller Restore State: See xHCI specification" "0,1"
textline "                             "
bitfld.long 0x00 8. " CSS                                 ,Controller Save State: See xHCI specification" "0,1"
bitfld.long 0x00 7. "                    LHCRST                        ,Light Host Controller Reset: See xHCI specification" "0,1"
bitfld.long 0x00 3. "                       HSEE                             ,Host System Error Enable: See xHCI specification" "0,1"
textline "                             "
bitfld.long 0x00 2. " INTE                                ,Interrupter Enable: See xHCI specification" "0,1"
bitfld.long 0x00 1. "                    HCRST                         ,Host Controller Reset: See xHCI specification" "0,1"
bitfld.long 0x00 0. "                       R_S                              ,Run/Stop: See xHCI specification" "0,1"
group.long 0x24++0x3
line.long 0x00 "USB_USBSTS,USB status register (xHCI)"
bitfld.long 0x00 12. " HCE                                 ,Host Controller Error: See xHCI specification." "0,1"
bitfld.long 0x00 11. "                    CNR                           ,Controller not ready (see xHCI specification). Runtime or other operational registers are not accessed until field is cleared. Beyond xHCI (that is, USB host mode) functionality, indicates when the res..." "ready,not_ready"
eventfld.long 0x00 10. "               SRE                              ,Save/Restore Error: See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 9. " RSS                                 ,Restore State Status: See xHCI specification." "0,1"
bitfld.long 0x00 8. "                    SSS                           ,Save State Status: See xHCI specification." "0,1"
eventfld.long 0x00 4. "                       PCD                              ,Port Change Detect: See xHCI specification." "0,1"
textline "                             "
eventfld.long 0x00 3. " EINT                                ,Event Interrupt: See xHCI specification." "0,1"
eventfld.long 0x00 2. "                    HSE                           ,Host System Error: See xHCI specification." "0,1"
bitfld.long 0x00 0. "                       HCH                              ,Host Controller Halted: See xHCI specification." "0,1"
rgroup.long 0x28++0x3
line.long 0x00 "USB_PAGESIZE,Page size register (xHCI)"
hexmask.long.word 0x00 0.--15. 1. " PAGE_SIZE                           ,Supported system memory page size. See xHCI specification. When bit n is set to 1, a page size of 2^(n+12) is supported. - ."
group.long 0x34++0x3
line.long 0x00 "USB_DNCTRL,Device notification control register (xHCI)"
bitfld.long 0x00 15. " N15                                 ,See xHCI specification." "0,1"
bitfld.long 0x00 14. "                    N14                           ,See xHCI specification." "0,1"
bitfld.long 0x00 13. "                       N13                              ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 12. " N12                                 ,See xHCI specification." "0,1"
bitfld.long 0x00 11. "                    N11                           ,See xHCI specification." "0,1"
bitfld.long 0x00 10. "                       N10                              ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 9. " N9                                  ,See xHCI specification." "0,1"
bitfld.long 0x00 8. "                    N8                            ,See xHCI specification." "0,1"
bitfld.long 0x00 7. "                       N7                               ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 6. " N6                                  ,See xHCI specification." "0,1"
bitfld.long 0x00 5. "                    N5                            ,See xHCI specification." "0,1"
bitfld.long 0x00 4. "                       N4                               ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 3. " N3                                  ,See xHCI specification." "0,1"
bitfld.long 0x00 2. "                    N2                            ,See xHCI specification." "0,1"
bitfld.long 0x00 1. "                       N1                               ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 0. " N0                                  ,See xHCI specification." "0,1"
group.long 0x38++0x3
line.long 0x00 "USB_CRCR_LO,Command ring control register, lower half (xHCI)"
hexmask.long 0x00 6.--31. 1. " CMD_RING_PNTR                       ,See xHCI specification."
bitfld.long 0x00 3. "             CRR                           ,See xHCI specification." "0,1"
bitfld.long 0x00 2. "                       CA                               ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 1. " CS                                  ,See xHCI specification." "0,1"
bitfld.long 0x00 0. "                    RCS                           ,See xHCI specification." "0,1"
group.long 0x3C++0x3
line.long 0x00 "USB_CRCR_HI,Command ring control register, upper half (xHCI)"
hexmask.long 0x00 0.--31. 1. " CMD_RING_PNTR                       ,See xHCI specification."
group.long 0x50++0x3
line.long 0x00 "USB_DCBAAP_LO,Device context base address array pointer, lower half (xHCI)"
hexmask.long 0x00 6.--31. 1. " DEVICE_CONTEXT_BAAP                 ,See xHCI specification."
group.long 0x54++0x3
line.long 0x00 "USB_DCBAAP_HI,Device context base address array pointer, upper half (xHCI)"
hexmask.long 0x00 0.--31. 1. " DEVICE_CONTEXT_BAAP                 ,See xHCI specification."
group.long 0x58++0x3
line.long 0x00 "USB_CONFIG,Configure (xHCI)"
hexmask.long.byte 0x00 0.--7. 1. " MAXSLOTSEN                          ,See xHCI specification."
group.long 0x420++0x3
line.long 0x00 "USB_PORTSC1,Port 1 (USB2.0) status and control (xHCI)"
bitfld.long 0x00 31. " WPR                                 ,See xHCI specification" "0,1"
bitfld.long 0x00 30. "                    DR                            ,See xHCI specification" "0,1"
bitfld.long 0x00 27. "                       WOE                              ,See xHCI specification" "0,1"
textline "                             "
bitfld.long 0x00 26. " WDE                                 ,See xHCI specification" "0,1"
bitfld.long 0x00 25. "                    WCE                           ,See xHCI specification" "0,1"
bitfld.long 0x00 24. "                       CAS                              ,See xHCI specification" "0,1"
textline "                             "
eventfld.long 0x00 23. " CEC                                 ,See xHCI specification" "0,1"
eventfld.long 0x00 22. "                    PLC                           ,See xHCI specification" "0,1"
eventfld.long 0x00 21. "                       PRC                              ,See xHCI specification" "0,1"
textline "                             "
eventfld.long 0x00 20. " OCC                                 ,See xHCI specification" "0,1"
eventfld.long 0x00 19. "                    WRC                           ,See xHCI specification" "0,1"
eventfld.long 0x00 18. "                       PEC                              ,See xHCI specification" "0,1"
textline "                             "
eventfld.long 0x00 17. " CSC                                 ,See xHCI specification" "0,1"
bitfld.long 0x00 16. "                    LWS                           ,See xHCI specification" "0,1"
bitfld.long 0x00 14.--15. "                       PIC                              ,See xHCI specification" "0,1,2,3"
textline "                             "
bitfld.long 0x00 10.--13. " PORTSPEED                           ,See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 9. "                   PP                            ,See xHCI specification" "0,1"
bitfld.long 0x00 5.--8. "                       PLS                              ,See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 4. " PR                                  ,See xHCI specification" "0,1"
bitfld.long 0x00 3. "                    OCA                           ,See xHCI specification" "0,1"
eventfld.long 0x00 1. "                       PED                              ,See xHCI specification" "0,1"
textline "                             "
bitfld.long 0x00 0. " CCS                                 ,See xHCI specification" "0,1"
group.long 0x424++0x3
line.long 0x00 "USB_PORTPMSC1,Port 1 (USB2.0) Power mManagement status and control (xHCI) Note that the PMSC register makeup is protocol-dependent (here: USB2.0)"
bitfld.long 0x00 28.--31. " PORT_TEST_CONTROL                   ,See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16. "                   HLE                           ,See xHCI specification" "0,1"
hexmask.long.byte 0x00 8.--15. 1. "                       L1_DEVICE_SLOT                   ,See xHCI specification"
textline "                             "
bitfld.long 0x00 4.--7. " BESL                                ,See xHCI 1.0 standard w. errata" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 3. "                   RWE                           ,See xHCI specification" "0,1"
bitfld.long 0x00 0.--2. "                       L1S                              ,See xHCI specification" "0,1,2,3,4,5,6,7"
rgroup.long 0x428++0x3
line.long 0x00 "USB_PORTLI1,Port 1 (USB2.0) link info (xHCI)"
hexmask.long.word 0x00 0.--15. 1. " LINK_ERROR_COUNT                    ,See xHCI specification."
group.long 0x42C++0x3
line.long 0x00 "USB_PORTHLPMC1,Port 1 (USB2.0) Hardware LPM Control (xHCI) Field structure is protocol-dependent (here: USB2.0)"
bitfld.long 0x00 10.--13. " BESLD                               ,See xHCI 1.0 standard w errata" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 2.--9. 1. "                   L1_TIMEOUT                    ,See xHCI 1.0 standard w errata"
bitfld.long 0x00 0.--1. "                      HIRDM                            ,See xHCI 1.0 standard w errata" "0,1,2,3"
group.long 0x430++0x3
line.long 0x00 "USB_PORTSC2,Port 2 (USB3.0) status and control (xHCI)"
bitfld.long 0x00 31. " WPR                                 ,See xHCI specification" "0,1"
bitfld.long 0x00 30. "                    DR                            ,See xHCI specification" "0,1"
bitfld.long 0x00 27. "                       WOE                              ,See xHCI specification" "0,1"
textline "                             "
bitfld.long 0x00 26. " WDE                                 ,See xHCI specification" "0,1"
bitfld.long 0x00 25. "                    WCE                           ,See xHCI specification" "0,1"
bitfld.long 0x00 24. "                       CAS                              ,See xHCI specification" "0,1"
textline "                             "
eventfld.long 0x00 23. " CEC                                 ,See xHCI specification" "0,1"
eventfld.long 0x00 22. "                    PLC                           ,See xHCI specification" "0,1"
eventfld.long 0x00 21. "                       PRC                              ,See xHCI specification" "0,1"
textline "                             "
eventfld.long 0x00 20. " OCC                                 ,See xHCI specification" "0,1"
eventfld.long 0x00 19. "                    WRC                           ,See xHCI specification" "0,1"
eventfld.long 0x00 18. "                       PEC                              ,See xHCI specification" "0,1"
textline "                             "
eventfld.long 0x00 17. " CSC                                 ,See xHCI specification" "0,1"
bitfld.long 0x00 16. "                    LWS                           ,See xHCI specification" "0,1"
bitfld.long 0x00 14.--15. "                       PIC                              ,See xHCI specification" "0,1,2,3"
textline "                             "
bitfld.long 0x00 10.--13. " PORTSPEED                           ,See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 9. "                   PP                            ,See xHCI specification" "0,1"
bitfld.long 0x00 5.--8. "                       PLS                              ,See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 4. " PR                                  ,See xHCI specification" "0,1"
bitfld.long 0x00 3. "                    OCA                           ,See xHCI specification" "0,1"
eventfld.long 0x00 1. "                       PED                              ,See xHCI specification" "0,1"
textline "                             "
bitfld.long 0x00 0. " CCS                                 ,See xHCI specification" "0,1"
group.long 0x434++0x3
line.long 0x00 "USB_PORTPMSC2,Port 2 (USB3.0) power management (LPM) status and control (xHCI) Note that the PMSC register makeup is protocol-dependent (here: USB3.0)"
bitfld.long 0x00 16. " FLA                                 ,See xHCI specification" "0,1"
hexmask.long.byte 0x00 8.--15. 1. "                    U2_TIMEOUT                    ,See xHCI specification"
hexmask.long.byte 0x00 0.--7. 1. "                      U1_TIMEOUT                       ,See xHCI specification"
rgroup.long 0x438++0x3
line.long 0x00 "USB_PORTLI2,Port 2 (USB3.0) link info (xHCI)"
hexmask.long.word 0x00 0.--15. 1. " LINK_ERROR_COUNT                    ,See xHCI specification."
group.long 0x43C++0x3
line.long 0x00 "USB_PORTHLPMC2,Port 2 (USB3.0) Hardware LPM Control (xHCI) Field structure is protocol-dependent (here: USB3.0)"
rgroup.long 0x440++0x3
line.long 0x00 "USB_MFINDEX,Microframe index (xHCI)"
hexmask.long.word 0x00 0.--13. 1. " MICROFRAME_INDEX                    ,See xHCI specification."
group.long 0x460++0x3
line.long 0x00 "USB_IMAN,Interrupter Management (xHCI)"
bitfld.long 0x00 1. " IE                                  ,Interrupt enable - DIS. - EN." "DIS,EN"
eventfld.long 0x00 0. "                  IP                            ,Interrupt pending. Set (to 1) when: IE = 1,USB_IMOD[31:16] IMODC = 0, the associated event ring is not empty, USB_ERDP_LO[3] EHB = 0. - IDLE. - PENDING." "IDLE,PENDING"
group.long 0x464++0x3
line.long 0x00 "USB_IMOD,Interrupter moderation (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " IMODC                               ,Interrupt moderation counter: Loaded to IMODI whenever IP is cleared to 0, counts down to 0, and stops. IRQ is generated when counter is 0, event ring is not empty, USB_IMAN[1] IE = 1, USB_IMAN[0] IP = 1, USB_ERDP_..."
hexmask.long.word 0x00 0.--15. 1. "                 IMODI                         ,Interrupt moderation interval: Minimum inter-IRQ interval, in 250-ns increments. - . - . - ."
group.long 0x468++0x3
line.long 0x00 "USB_ERSTSZ,Event ring segment table size (xHCI)"
hexmask.long.word 0x00 0.--15. 1. " ERS_TABLE_SIZE                      ,See xHCI specification."
group.long 0x470++0x3
line.long 0x00 "USB_ERSTBA_LO,Event ring segment table base address, lower half (xHCI)"
hexmask.long 0x00 6.--31. 1. " ERS_TABLE_BAR                       ,See xHCI specification."
group.long 0x474++0x3
line.long 0x00 "USB_ERSTBA_HI,Event ring segment table base address, upper half (xHCI)"
hexmask.long 0x00 0.--31. 1. " ERS_TABLE_BAR                       ,See xHCI specification."
group.long 0x478++0x3
line.long 0x00 "USB_ERDP_LO,Event ring dequeue pointer, lower half (xHCI)"
hexmask.long 0x00 4.--31. 1. " ERD_PNTR                            ,See xHCI specification."
eventfld.long 0x00 3. "             EHB                           ,See xHCI specification." "0,1"
bitfld.long 0x00 0.--2. "                       DESI                             ,See xHCI specification." "0,1,2,3,4,5,6,7"
group.long 0x47C++0x3
line.long 0x00 "USB_ERDP_HI,Event ring dequeue pointer, upper half (xHCI)"
hexmask.long 0x00 0.--31. 1. " ERD_PNTR                            ,See xHCI specification."
group.long 0x880++0x3
line.long 0x00 "USB_USBLEGSUP,USB legacy support capability"
bitfld.long 0x00 24. " HCOOS                               ,HC OS Owned Semaphore: See xHCI specification" "0,1"
bitfld.long 0x00 16. "                    HCBOS                         ,HC BIOS Owned Semaphore: See xHCI specification" "0,1"
hexmask.long.byte 0x00 8.--15. 1. "                       NCP                              ,Next Capability Pointer: 32-bit dword offset of the next capability. - eol."
textline "                             "
hexmask.long.byte 0x00 0.--7. 1. " ECID                                ,Extended Capability ID code (descriptor size, in bytes) - prot. - legacy. - dbc."
group.long 0x884++0x3
line.long 0x00 "USB_USBLEGCTLSTS,USB legacy control/status"
eventfld.long 0x00 31. " SB                                  ,See xHCI specification." "0,1"
eventfld.long 0x00 30. "                    SPC                           ,See xHCI specification." "0,1"
eventfld.long 0x00 29. "                       SOOC                             ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 20. " SHSE                                ,See xHCI specification." "0,1"
bitfld.long 0x00 16. "                    SEI                           ,See xHCI specification." "0,1"
bitfld.long 0x00 15. "                       SBE                              ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 14. " SPCE                                ,See xHCI specification." "0,1"
bitfld.long 0x00 13. "                    SOOE                          ,See xHCI specification." "0,1"
bitfld.long 0x00 4. "                       SHSEE                            ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 0. " USE                                 ,See xHCI specification." "0,1"
rgroup.long 0x890++0x3
line.long 0x00 "USB_SUPTPRT2_DW0,Supported protocol capability USB2.0, 32-bit dword 0"
hexmask.long.byte 0x00 24.--31. 1. " MAJREV                              ,Major Revision, BCD-encoded"
hexmask.long.byte 0x00 16.--23. 1. "                   MINREV                        ,Minor Revision, BCD-encoded"
hexmask.long.byte 0x00 8.--15. 1. "                      NCP                              ,Next Capability Pointer: 32-bit dword offset of the next capability. - eol."
textline "                             "
hexmask.long.byte 0x00 0.--7. 1. " ECID                                ,Extended Capability ID code (descriptor size, in bytes) - prot. - legacy. - dbc."
rgroup.long 0x894++0x3
line.long 0x00 "USB_SUPTPRT2_DW1,Supported protocol capability USB2.0, 32-bit dword 1: Name String 'USB '"
hexmask.long.byte 0x00 24.--31. 1. " CHAR3                               ,ASCII ' ' (space)"
hexmask.long.byte 0x00 16.--23. 1. "                   CHAR2                         ,ASCII 'B'"
hexmask.long.byte 0x00 8.--15. 1. "                      CHAR1                            ,ASCII 'S'"
textline "                             "
hexmask.long.byte 0x00 0.--7. 1. " CHAR0                               ,ASCII 'U'"
rgroup.long 0x898++0x3
line.long 0x00 "USB_SUPTPRT2_DW2,Supported protocol capability USB2.0, 32-bit dword 2"
bitfld.long 0x00 28.--31. " PSIC                                ,Port Speed ID Count. Reserved in xHCI 0.96 - all." "all,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 19. "                  HLC                           ,Hardware LPM Capability." "0,1"
bitfld.long 0x00 18. "                       IHI                              ,Integrated Hub Implemented." "0,1"
textline "                             "
bitfld.long 0x00 17. " HSO                                 ,High-Speed Only" "0,1"
hexmask.long.byte 0x00 8.--15. 1. "                    CPC                           ,Compatible Port Count: Number of consecutive ports of the root hub that support this protocol, from CPO to CPO+CPC-1"
hexmask.long.byte 0x00 0.--7. 1. "                      CPO                              ,Compatible Port Offset: Starting port number of root hub port(s) that support this protocol."
rgroup.long 0x89C++0x3
line.long 0x00 "USB_SUPTPRT2_DW3,Supported protocol capability USB2.0, 32-bit dword 3"
bitfld.long 0x00 0.--4. " PST                                 ,Protocol Slot Type, see xHCI 1.0 standard w errata" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rgroup.long 0x8A0++0x3
line.long 0x00 "USB_SUPTPRT3_DW0,Supported protocol capability USB3.0, 32-bit dword 0"
hexmask.long.byte 0x00 24.--31. 1. " MAJREV                              ,Major Revision, BCD-encoded"
hexmask.long.byte 0x00 16.--23. 1. "                   MINREV                        ,Minor Revision, BCD-encoded"
hexmask.long.byte 0x00 8.--15. 1. "                      NCP                              ,Next Capability Pointer: 32-bit dword offset of the next capability. - eol."
textline "                             "
hexmask.long.byte 0x00 0.--7. 1. " ECID                                ,Extended Capability ID code (descriptor size, in bytes) - prot. - legacy. - dbc."
rgroup.long 0x8A4++0x3
line.long 0x00 "USB_SUPTPRT3_DW1,Supported protocol capability USB3.0, 32-bit dword 1: Name String 'USB '"
hexmask.long.byte 0x00 24.--31. 1. " CHAR3                               ,ASCII ' ' (space)"
hexmask.long.byte 0x00 16.--23. 1. "                   CHAR2                         ,ASCII 'B'"
hexmask.long.byte 0x00 8.--15. 1. "                      CHAR1                            ,ASCII 'S'"
textline "                             "
hexmask.long.byte 0x00 0.--7. 1. " CHAR0                               ,ASCII 'U'"
rgroup.long 0x8A8++0x3
line.long 0x00 "USB_SUPTPRT3_DW2,Supported protocol capability USB3.0, 32-bit dword 2"
bitfld.long 0x00 28.--31. " PSIC                                ,Port Speed ID Count. Reserved in xHCI 0.96 - ss." "ss,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 8.--15. 1. "                   CPC                           ,Compatible Port Count: Number of consecutive ports of the root hub that support this protocol, from CPO to CPO+CPC-1"
hexmask.long.byte 0x00 0.--7. 1. "                      CPO                              ,Compatible Port Offset: Starting port number of root hub port(s) that support this protocol."
rgroup.long 0x8AC++0x3
line.long 0x00 "USB_SUPTPRT3_DW3,Supported protocol capability USB3.0, 32-bit dword 3"
bitfld.long 0x00 0.--4. " PST                                 ,Protocol Slot Type, see xHCI 1.0 standard with errata" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xC100++0x3
line.long 0x00 "USB_GSBUSCFG0,Global device Bus Configuration Register 0"
bitfld.long 0x00 12. " DESCBIGEND                          ,Endian mode for descriptor accesses. - little. - big." "little,big"
bitfld.long 0x00 11. "               DATBIGEND                     ,Endian mode for data accesses. - little. - big." "little,big"
bitfld.long 0x00 7. "                  INCR256BRSTENA                   ,INCR256 Burst Type Enable. 256?64/8= 2-kByte burst." "0,1"
textline "                             "
bitfld.long 0x00 6. " INCR128BRSTENA                      ,INCR128 Burst Type Enable. 128?64/8= 1-kByte burst." "0,1"
bitfld.long 0x00 5. "                    INCR64BRSTENA                 ,INCR64 Burst Type Enable. 64?64/8= 512-Byte burst." "0,1"
bitfld.long 0x00 4. "                       INCR32BRSTENA                    ,INCR32 Burst Type Enable. 32?64/8= 256-Byte burst." "0,1"
textline "                             "
bitfld.long 0x00 3. " INCR16BRSTENA                       ,INCR16 Burst Type Enable. 16?64/8= 128-Byte burst." "0,1"
bitfld.long 0x00 2. "                    INCR8BRSTENA                  ,INCR8 Burst Type Enable. 8?64/8= 64-Byte burst." "0,1"
bitfld.long 0x00 1. "                       INCR4BRSTENA                     ,INCR4 Burst Type Enable. 4?64/8= 32-Byte burst: RECOMMENDED Enables bursts of beat length 1, 2, 3, 4, and prevents (16-byte) descriptor accesses from being broken up: highly recommended." "0,1"
textline "                             "
bitfld.long 0x00 0. " INCRBRSTENA                         ,Undefined Length INCR Burst Type Enable: DO NOT ENABLE When enabled, this has higher priority than other burst types." "0,1"
group.long 0xC104++0x3
line.long 0x00 "USB_GSBUSCFG1,Global device bus configuration register 1"
bitfld.long 0x00 12. " EN1KPAGE                            ,1k-page boundary enable - DIS. - EN." "DIS,EN"
bitfld.long 0x00 8.--11. "                  PIPETRANSLIMIT                ,Maximum number of outstanding (read or write) pipelined sequential (i.e. in-order) transaction requests on the master interface (field value+1) - . - . - ." "Single_request_mode.,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xC108++0x3
line.long 0x00 "USB_GTXTHRCFG,Global TX threshold control register. Valid only in Host mode."
bitfld.long 0x00 29. " USBTXPKTCNTSEL                      ,USB Transmit Packet Count Enable: Enables/disables USB trasnmission multi-packet thresholding - dis. - en." "dis,en"
bitfld.long 0x00 24.--27. "                  USBTXPKTCNT                   ,USB Transmit Packet Count : Number of packets that must be in the TXFIFO before transmission for the corresponding USB transaction (burst) can start. Don't care if USBTXPKTCNTSEL=0. - max. - dis. - min." "dis,min,2,3,4,5,6,7,8,9,10,11,12,13,14,max"
hexmask.long.byte 0x00 16.--23. 1. "                     USBMAXTXBURSTSIZE                ,USB Maximum Transmit Burst Size. Max OUT burst size, when USBTXPKTCNTSEL=1. Avoids TX FIFO underrun when the system bus is slower than the USB. Only applies to SS Bulk / Iso / Int OUT endpoints in ..."
group.long 0xC10C++0x3
line.long 0x00 "USB_GRXTHRCFG,Global RX Threshold Control Register"
bitfld.long 0x00 29. " USBRXPKTCNTSEL                      ,USB ReceivePacket Count Enable Enables/disables USB reception multi-packet thresholding - dis. - en." "dis,en"
bitfld.long 0x00 24.--27. "                  USBRXPKTCNT                   ,USB Receive Packet Count: Number of packets that must be available in the RX FIFO before the core can start the corresponding USB RX transaction (burst). Don't care if USBRXPKTCNTSEL=0. - max. - dis. - m..." "dis,min,2,3,4,5,6,7,8,9,10,11,12,13,14,max"
bitfld.long 0x00 19.--23. "                     USBMAXRXBURSTSIZE                ,USB Maximum Receive Burst Size. Maxi IN burst size, when USBRXPKTCNTSEL = 1. When the system bus is slower than the USB, RX FIFO can overrun during a long burst. User can program a smaller value to..." "dis,min,2,3,4,5,6,7,8,9,10,11,12,13,14,15,max,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xC110++0x3
line.long 0x00 "USB_GCTL,Global control register"
hexmask.long.word 0x00 19.--31. 1. " PWRDNSCALE                          ,Power Down Scale: In P3 state, PIPE clock stops and is replaced internally by the suspend clock to create a 16kHz reference. Set field to Fs/16k, rounded up, with Fp suspend clock frequency. Required accuracy is 0-..."
bitfld.long 0x00 18. "                 MASTERFILTBYPASS              ,Master Filter Bypass. Bypasses the double-synchronizers and the 5 ms debounce filters on UTMI+ inputs (the latter are not implemented)." "0,1"
bitfld.long 0x00 17. "                       BYPSSETADDR                      ,Override of the device address, bypassing the SET ADDRESS control transfer. For simulation only. - func. - bypass." "func,bypass"
textline "                             "
bitfld.long 0x00 16. " U2RSTECN                            ,If the super speed connection fails during POLL or LMP exchange, the device connects at non-SS mode. If this bit is set, then device attempts three more times to connect at SS, even if it previously failed to opera..." "0,1"
bitfld.long 0x00 14.--15. "                    FRMSCLDWN                     ,Frame scale-down This field scales down device view of a SOF (FS/LS) / uSOF (HS) / ITP (SS) duration. - 0. - 1. - 3. - 2." "0,1,2,3"
bitfld.long 0x00 12.--13. "                       PRTCAPDIR                        ,Port Capability Direction - hst. - drd. - dev." "0,hst,dev,drd"
textline "                             "
bitfld.long 0x00 11. " CORESOFTRESET                       ,Core Soft Reset. When you reset PHYs (using USB_GUSB2PHYCFG or USB_GUSB3PIPECTL registers), you must keep the core in reset state until PHY clocks are stable. - no. - reset." "no,reset"
bitfld.long 0x00 8. "                DEBUGATTACH                   ,Debug Attach. When this bit is set: a) SS Link proceeds directly to the Polling link state (after RUN/STOP in the USB_DCTL register is asserted) without checking remote termination. b) Link LFPS polling ti..." "0,1"
bitfld.long 0x00 6.--7. "                       RAMCLKSEL                        ,RAM Clock Select. No action, hardware always uses bus clock (config 2'b00) - bus. - pipe. - mac. - pipe_50." "bus,pipe,pipe_50,mac"
textline "                             "
bitfld.long 0x00 4.--5. " SCALEDOWN                           ,Scale-Down Mode Enable Switches to shorter, non-standard protocol time intervals to speed up simulation. DO NOT MODIFY ON ACTUAL HARDWARE. - none. - 1. - 3. - 2." "none,1,2,3"
bitfld.long 0x00 3. "                 DISSCRAMBLE                   ,Disable Scrambling. Transmit request to Link Partner on next transition to Recovery or Polling." "0,1"
bitfld.long 0x00 0. "                       DSBLCLKGTNG                      ,Disable Clock Gating. When this bit is set to 1 and the core is in Low Power mode, internal clock gating is disabled." "0,1"
group.long 0xC118++0x3
line.long 0x00 "USB_GSTS,Global status register"
hexmask.long.word 0x00 20.--31. 1. " CBELT                               ,Current BELT Value In Host mode, this field indicates the minimum value of all received device BELT values and the BELT value that is set by the Set Latency Tolerance Value command."
bitfld.long 0x00 10. "                 OTG_IP                        ,OTG interrupt status - pend. - none." "none,pend"
bitfld.long 0x00 9. "                    BC_IP                            ,Battery Charger interrupt status: NOT IMPLEMENTED" "0,1"
textline "                             "
bitfld.long 0x00 8. " ADP_IP                              ,ADP interrupt status: NOT IMPLEMENTED" "0,1"
bitfld.long 0x00 7. "                    HOST_IP                       ,Host interrupt status - pend. - none." "none,pend"
bitfld.long 0x00 6. "                    DEVICE_IP                        ,Device interrupt status - pend. - none." "none,pend"
textline "                             "
bitfld.long 0x00 5. " CSRTIMEOUT                          ,Control/Status Register access Timeout status flag. - noaction. - clear. - set. - noevent." "noaction,clear"
bitfld.long 0x00 4. "             BUSERRADDRVLD                 ,Bus Error Address Valid status flag. Also flagged onUSB_USBSTS[2] HSE field (host mode) and DEPEVT[12] on XferComplete/XferInProgress event (device mode). - noaction. - clear. - set. - noevent." "noaction,clear"
bitfld.long 0x00 0.--1. "                CURMOD                           ,Current Mode of Operation. - drd. - host. - dev." "dev,host,drd,3"
rgroup.long 0xC120++0x3
line.long 0x00 "USB_GSNPSID,ID Core identification and release number. Software uses this register to configure release-specific features in the driver."
hexmask.long.word 0x00 16.--31. 1. " ID_CORE                             ,Core identifier - id."
hexmask.long.word 0x00 0.--15. 1. "                 ID_REL                        ,Version number For instance, version 1.00a => 0x100A - 1_83a. - 2_02a."
group.long 0xC124++0x3
line.long 0x00 "USB_GGPIO,Global general-purpose input/output register"
hexmask.long.word 0x00 16.--31. 1. " GPO                                 ,General-purpose output. DO NOT USE: NOT CONNECTED."
hexmask.long.word 0x00 0.--15. 1. "                 GPI                           ,General-purpose inputs. TIED LOW."
group.long 0xC128++0x3
line.long 0x00 "USB_GUID,Global user ID register"
hexmask.long 0x00 0.--31. 1. " USERID                              ,Application-programmable ID field"
group.long 0xC12C++0x3
line.long 0x00 "USB_GUCTL,Global user control register"
bitfld.long 0x00 21. " NOEXTRDL                            ,No Extra Delay between SOF and the 1st packet (when host) - dis. - en." "dis,en"
bitfld.long 0x00 18.--20. "                  PSQEXTRRESSP                  ,Protocol Status Queue Extra Reserved Space (Debug only). Additional space in the PSQ reserved before the USB3.0 protocol transaction layer (U3PTL) initiates a new USB transaction and burst beats. - dis. ..." "dis,en,2,3,4,5,6,7"
bitfld.long 0x00 17. "                     SPRSCTRLTRANSEN                  ,Sparse Control Transaction Enable. Valid in host mode only (any speed). - dis. - en." "dis,en"
textline "                             "
bitfld.long 0x00 16. " RESBWHSEPS                          ,Reserving (more) Bandwidth for HS Periodic EPs. Valid in host mode only. - 80. - 85." "80,85"
bitfld.long 0x00 15. "                   CMDEVADDR                     ,Compliance Mode for Device Address. Valid in host mode only. - eq. - diff." "eq,diff"
bitfld.long 0x00 14. "                    USBHSTINAUTORETRYEN              ,Host IN Auto Retry Enable: host core behaviour upon data packet CRC errors or internal overrun scenarios in non-isochronous IN transfers. - dis. - en." "dis,en"
textline "                             "
bitfld.long 0x00 9.--10. " DTCT                                ,Device Timeout Coarse Tuning: time the host waits for a response from device before timeout. Coarse setting. - fine. - 0m5. - 5ms. - 1m5." "fine,0m5,1m5,5ms"
hexmask.long.word 0x00 0.--8. 1. "                 DTFT                          ,Device Timeout Fine Tuning: time the host waits for a response from device before timeout. Fine setting. Timer runs on the 125 MHz clock (8 ns period), timeout is DTFT ? 256 ? 8 ns ~= DTFT ? 2 us Don't ca..."
rgroup.long 0xC130++0x3
line.long 0x00 "USB_GBUSERRADDRLO,Global Bus Error (non-precise) Address, LSbits: Base address of the first system bus DMA transfer that got a bus error. Note that each DMA transfer can contain several bursts, each spanning several addresses. Valid when the[4] BUSERRA..."
hexmask.long 0x00 0.--31. 1. " BUSERRADDRLO                        ,BUSERRADDR[31:0]"
rgroup.long 0xC134++0x3
line.long 0x00 "USB_GBUSERRADDRHI,Global Bus Error (non-precise) Address, MSbits: Base address of the first system bus DMA transfer that got a bus error. Note that each DMA transfer can contain several bursts, each spanning several addresses. Valid when the[4] BUSERRA..."
hexmask.long 0x00 0.--31. 1. " BUSERRADDRHI                        ,BUSERRADDR[63:32]"
group.long 0xC138++0x3
line.long 0x00 "USB_GPRTBIMAPLO,Global port-to-SS USB instance mapping, low bits [31:0]"
bitfld.long 0x00 0.--3. " BINUM1                              ,SS USB instance number for port number 1 Application-programmable ID field" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xC13C++0x3
line.long 0x00 "USB_GPRTBIMAPHI,Global Port-to-SS USB Instance Mapping, high bits [63:32]"
rgroup.long 0xC140++0x3
line.long 0x00 "USB_GHWPARAMS0,Global hardware parameters 0"
hexmask.long.byte 0x00 24.--31. 1. " DWC_USB3_AWIDTH                     ,Global hardware configuration parameter DWC_USB3_AWIDTH: (Master) Address Width (in bits)"
hexmask.long.byte 0x00 16.--23. 1. "                   DWC_USB3_SDWIDTH              ,Global hardware configuration parameter DWC_USB3_SDWIDTH: Slave Data Width (in bits)"
hexmask.long.byte 0x00 8.--15. 1. "                      DWC_USB3_MDWIDTH                 ,Global hardware configuration parameter DWC_USB3_MDWIDTH: Master Data Width (in bits)"
textline "                             "
bitfld.long 0x00 6.--7. " DWC_USB3_SBUS_TYPE                  ,Global hardware configuration parameter DWC_USB3_SBUS_TYPE: (System bus) Slave type - native." "native,1,2,3"
bitfld.long 0x00 3.--5. "               DWC_USB3_MBUS_TYPE            ,Global hardware configuration parameter DWC_USB3_MBUS_TYPE: (System bus) Master type - axi." "0,axi,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     DWC_USB3_MODE                    ,Global hardware configuration parameter DWC_USB3_MODE - drd. - hst. - dev." "dev,hst,drd,3,4,5,6,7"
rgroup.long 0xC144++0x3
line.long 0x00 "USB_GHWPARAMS1,Global hardware parameters 1"
bitfld.long 0x00 30. " DWC_USB3_RM_OPT_FEATURES            ,Global hardware configuration parameter DWC_USB3_RM_OPT_FEATURES: Remove Optional Features - yes. - no." "no,yes"
bitfld.long 0x00 28. "                  DWC_USB3_RAM_BUS_CLKS_SYNC    ,Global hardware configuration parameter DWC_USB3_RAM_BUS_CLKS_SYNC: RAM vs. BUS clocks synchronous ? - yes. - no." "no,yes"
bitfld.long 0x00 27. "                     DWC_USB3_MAC_RAM_CLKS_SYNC       ,Global hardware configuration parameter DWC_USB3_MAC_RAM_CLKS_SYNC: MAC vs. RAM clocks synchronous ? - yes. - no." "no,yes"
textline "                             "
bitfld.long 0x00 26. " DWC_USB3_MAC_PHY_CLKS_SYNC          ,Global hardware configuration parameter DWC_USB3_MAC_PHY_CLKS_SYNC: MAC vs. PHY clocks synchronous ? - yes. - no." "no,yes"
bitfld.long 0x00 24.--25. "                  DWC_USB3_EN_PWROPT            ,Global hardware configuration parameter DWC_USB3_EN_PWROPT: Power optimization - clock_hibernation. - clock. - none." "none,clock,clock_hibernation,3"
bitfld.long 0x00 23. "       DWC_USB3_SPRAM_TYP               ,Global hardware configuration parameter DWC_USB3_SPRAM_TYP - SP." "0,SP"
textline "                             "
bitfld.long 0x00 21.--22. " DWC_USB3_NUM_RAMS                   ,Global hardware configuration parameter DWC_USB3_NUM_RAMS: Number of internal RAMs - 3. - 2. - 1." "0,1,2,3"
bitfld.long 0x00 15.--20. "                    DWC_USB3_DEVICE_NUM_INT       ,Global hardware configuration parameter DWC_USB3_DEVICE_NUM_INT: Number of interrupts (and event buffers) in device mode" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 12.--14. "                      DWC_USB3_ASPACEWIDTH             ,Global hardware configuration parameter DWC_USB3_ASPACEWIDTH" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 9.--11. " DWC_USB3_REQINFOWIDTH               ,Global hardware configuration parameter DWC_USB3_REQINFOWIDTH" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6.--8. "                    DWC_USB3_DATAINFOWIDTH        ,Global hardware configuration parameter DWC_USB3_DATAINFOWIDTH" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3.--5. "                       DWC_USB3_BURSTWIDTH              ,Global hardware configuration parameter DWC_USB3_BURSTWIDTH minus one, fixed to 8-1=7" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 0.--2. " DWC_USB3_IDWIDTH                    ,Global hardware configuration parameter DWC_USB3_IDWIDTH minus 1 Note: Sets only the master port's ID width. Slave ID width is set by non-readable DWC_USB3_SIDWIDTH" "0,1,2,3,4,5,6,7"
rgroup.long 0xC148++0x3
line.long 0x00 "USB_GHWPARAMS2,Global hardware parameters 2"
hexmask.long 0x00 0.--31. 1. " DWC_USB3_USERID                     ,Global hardware configuration parameter DWC_USB3_USERID"
rgroup.long 0xC14C++0x3
line.long 0x00 "USB_GHWPARAMS3,Global hardware parameters 3"
hexmask.long.byte 0x00 23.--30. 1. " DWC_USB3_CACHE_TOTAL_XFER_RESOURCES ,Global hardware configuration parameter DWC_USB3_NUM_CACHE_TOTAL_XFER_RESOURCES: Cache total transfer resources"
bitfld.long 0x00 18.--22. "                   DWC_USB3_NUM_IN_EPS           ,Global hardware configuration parameter DWC_USB3_NUM_IN_EPS: Number of IN endpoints, with EP0 counting as one." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 12.--17. "                      DWC_USB3_NUM_EPS                 ,Global hardware configuration parameter DWC_USB3_NUM_EPS: Total number of endpoints (IN+OUT, with EP0 counting as 2 separate ones)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                             "
bitfld.long 0x00 11. " DWC_USB3_ULPI_CARKIT                ,Global hardware configuration parameter DWC_USB3_ULPI_CARKIT: ULPI (optional) car-kit mode implementation - vc. - no." "no,vc"
bitfld.long 0x00 10. "                   DWC_USB3_VENDOR_CTL_INTERFACE ,Global hardware configuration parameter DWC_USB3_VENDOR_CTL_INTERFACE: (UTMI) Vendor Control i/f implementation - vc. - no." "no,vc"
bitfld.long 0x00 6.--7. "                      DWC_USB3_HSPHY_DWIDTH            ,Global hardware configuration parameter DWC_USB3_HSPHY_DWIDTH: HS PHY data width - 8_16. - 16. - 8." "8,16,8_16,3"
textline "                             "
bitfld.long 0x00 4.--5. " DWC_USB3_FSPHY_INTERFACE            ,Global hardware configuration parameter DWC_USB3_FSPHY_INTERFACE: Full (/Low)-Speed (serial) PHY interface - none." "none,1,2,3"
bitfld.long 0x00 2.--3. "                 DWC_USB3_HSPHY_INTERFACE      ,Global hardware configuration parameter DWC_USB3_HSPHY_INTERFACE: High-speed PHY interface - both. - ulpi. - utmi. - none." "none,utmi,ulpi,both"
bitfld.long 0x00 0.--1. "                    DWC_USB3_SSPHY_INTERFACE         ,Global hardware configuration parameter DWC_USB3_SSPHY_INTERFACE: Super Speed PHY interface. - pipe. - none." "none,pipe,2,3"
rgroup.long 0xC150++0x3
line.long 0x00 "USB_GHWPARAMS4,Global hardware parameters 4"
bitfld.long 0x00 28.--31. " DWC_USB3_BMU_LSP_DEPTH              ,Global hardware configuration parameter DWC_USB3_BMU_LSP_DEPTH: Bus Management Unit / List Processor buffer depth" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "                   DWC_USB3_BMU_PTL_DEPTH        ,Global hardware configuration parameter DWC_USB3_BMU_PTL_DEPTH: Bus Management Unit / Protocol Transaction Layer buffer depth" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "                      DWC_USB3_EN_ISOC_SUPT            ,Global hardware configuration parameter DWC_USB3_EN_ISOC_SUPT: Enable Isochronous Support - iso. - none." "none,iso"
textline "                             "
bitfld.long 0x00 17.--20. " DWC_USB3_NUM_SS_USB_INSTANCES       ,Global hardware configuration parameter DWC_USB3_NUM_SS_USB_INSTANCES: Number of (independent) SS USB schedulers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 13.--16. "                   DWC_USB3_HIBER_SCRATCHBUFS    ,Global hardware configuration parameter DWC_USB3_HIBER_SCRATCHBUFS: Number of 4-kbyte buffers required in system memory to store context during hibernation. Don't care since hibernation is not enabled." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--5. "                      DWC_USB3_CACHE_TRBS_PER_TRANSFER ,Global hardware configuration parameter DWC_USB3_CACHE_TRBS_PER_TRANSFER" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0xC154++0x3
line.long 0x00 "USB_GHWPARAMS5,Global hardware parameters 5"
bitfld.long 0x00 22.--27. " DWC_USB3_DFQ_FIFO_DEPTH             ,Global hardware configuration parameter DWC_USB3_DFQ_FIFO_DEPTH" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 16.--21. "                   DWC_USB3_DWQ_FIFO_DEPTH       ,Global hardware configuration parameter DWC_USB3_DWQ_FIFO_DEPTH" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10.--15. "                      DWC_USB3_TXQ_FIFO_DEPTH          ,Global hardware configuration parameter DWC_USB3_TXQ_FIFO_DEPTH" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                             "
bitfld.long 0x00 4.--9. " DWC_USB3_RXQ_FIFO_DEPTH             ,Global hardware configuration parameter DWC_USB3_RXQ_FIFO_DEPTH" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--3. "                   DWC_USB3_BMU_BUSGM_DEPTH      ,Global hardware configuration parameter DWC_USB3_BMU_BUSGM_DEPTH" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0xC158++0x3
line.long 0x00 "USB_GHWPARAMS6,Global hardware parameters 6"
hexmask.long.word 0x00 16.--31. 1. " DWC_USB3_RAM0_DEPTH                 ,Depth of RAM 0, in 64-bit words. RAM0 contains data cache and Rx FIFOs."
bitfld.long 0x00 15. "                 BUSFLTRSSUPPORT               ,Filtering (debounce) on OTG UTMI+ inputs (iddig,vbusvalid,avalid,bvalid,sessend). Reflects DWC_USB3_EN_OTG_FILTERS. - imp. - no." "no,imp"
bitfld.long 0x00 14. "                     BCSUPPORT                        ,Battery Charger detection (ACA = Accessory Charger Adapter) support implemented internally. Reflects DWC_USB3_EN_BC. Note: Support can also be provided OUTSIDE the controller. - imp. - no." "no,imp"
textline "                             "
bitfld.long 0x00 13. " OTGSSSUPPORT                        ,OTG SuperSpeed support (aka OTG3.0) - yes. - no." "no,yes"
bitfld.long 0x00 12. "                  ADPSUPPORT                    ,OTG2.0 ADP (Attach Detection Protocol) support implemented internally. Reflects DWC_USB3_EN_ADP. Note: Support can also be provided OUTSIDE the controller. - imp. - no." "no,imp"
bitfld.long 0x00 11. "                     HNPSUPPORT                       ,OTG2.0 HNP (Host Negotiation Protocol) support. Set when in DRD mode. - support. - no." "no,support"
textline "                             "
bitfld.long 0x00 10. " SRPSUPPORT                          ,OTG2.0 SRP (Session Request Protocol) support. - support. - no." "no,support"
bitfld.long 0x00 7. "              DWC_USB3_EN_FPGA              ,Global hardware configuration parameter DWC_USB3_EN_FPGA" "0,1"
bitfld.long 0x00 0.--5. "                       DWC_USB3_PSQ_FIFO_DEPTH          ,Global hardware configuration parameter DWC_USB3_PSQ_FIFO_DEPTH" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0xC15C++0x3
line.long 0x00 "USB_GHWPARAMS7,Global hardware parameters 7"
hexmask.long.word 0x00 16.--31. 1. " DWC_USB3_RAM2_DEPTH                 ,Depth of RAM 2, in 64-bit words. RAM2 IS NOT IMPLEMENTED IN 2-RAM CONFIG: don't care"
hexmask.long.word 0x00 0.--15. 1. "                 DWC_USB3_RAM1_DEPTH           ,Depth of RAM 1, in 64-bit words. RAM1 contains Tx FIFOs."
group.long 0xC160++0x3
line.long 0x00 "USB_GDBGFIFOSPACE,Global debug FIFO/queue space available"
hexmask.long.word 0x00 16.--31. 1. " SPACE_AVAILABLE                     ,Space available (in the selected FIFO/queue), 64-bit words"
hexmask.long.byte 0x00 0.--7. 1. "                 FIFOQUEUESELECT_PORTSELECT    ,FIFO/queue select or port select. Default value, when indicated, is the space available when empty, that is, the size of the FIFO/queue. PORTSELECT[3:0] selects the port number when accessing the USB_GDBG..."
rgroup.long 0xC164++0x3
line.long 0x00 "USB_GDBGLTSSM,Global debug LTSSM Port number is defined by [3:0] PORTSELECT"
bitfld.long 0x00 29. " PORTSHUTDOWN                        ," "0,1"
bitfld.long 0x00 28. "                    PORTSWAPPING                  ," "0,1"
bitfld.long 0x00 27. "                       PORTDIRECTION                    ,Current direction of the port. - DS. - US." "US,DS"
textline "                             "
bitfld.long 0x00 26. " LTDBTIMEOUT                         ,LTSSM Debug Timeout" "0,1"
bitfld.long 0x00 22.--25. "                    LTDBLINKSTATE                 ,LTSSM Debug: Link State - U3. - SSdisabled. - Loopback. - U2. - U0. - Compliance. - SSinactive. - U1. - Recovery. - Polling. - HotReset. - RXdetect." "U0,U1,U2,U3,SSdisabled,RXdetect,SSinactive,Polling,Recovery,HotReset,Compliance,Loopback,12,13,14,15"
bitfld.long 0x00 18.--21. "              LTDBSUBSTATE                     ,LTSSM Debug: Link Sub-State. Note that the actual reset value (0x0) changes before the register can be read out." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 17. " ELASTICBUFFERMODE                   ,Debug PIPE Status: ElasticBufferMode" "0,1"
bitfld.long 0x00 16. "                    TXELECIDLE                    ,Debug PIPE Status: TxElecIdle" "0,1"
bitfld.long 0x00 15. "                       RXPOLARITY                       ,Debug PIPE Status: RxPolarity" "0,1"
textline "                             "
bitfld.long 0x00 14. " TXDETRXLOOPBACK                     ,Debug PIPE Status: TxDetRxLoopback" "0,1"
bitfld.long 0x00 11.--13. "                    LTDBPHYCMDSTATE               ,LTSSM Debug Phy Command State. - PHY_PWR_DLY. - PHY_PWR_A. - PHY_DET_3. - PHY_IDLE. - PHY_DET. - PHY_PWR_B." "PHY_IDLE,PHY_DET,PHY_DET_3,PHY_PWR_DLY,PHY_PWR_A,PHY_PWR_B,6,7"
bitfld.long 0x00 9.--10. "             POWERDOWN                        ,Debug PIPE Status: PowerDown" "0,1,2,3"
textline "                             "
bitfld.long 0x00 8. " RXEQTRAIN                           ,Debug PIPE Status: RxEqTrain" "0,1"
bitfld.long 0x00 6.--7. "                    TXDEEMPHASIS                  ,Debug PIPE Status: TxDeemphasis" "0,1,2,3"
bitfld.long 0x00 3.--5. "                       LTDBCLKSTATE                     ,LTSSM Debug Clock State - CLK_P3. - CLK_TO_P0. - CLK_WAIT1. - CLK_NORM. - CLK_TO_P3. - CLK_WAIT2." "CLK_NORM,CLK_TO_P3,CLK_WAIT1,CLK_P3,CLK_TO_P0,CLK_WAIT2,6,7"
textline "                             "
bitfld.long 0x00 2. " TXSWING                             ,Debug PIPE Status: TxSwing" "0,1"
bitfld.long 0x00 1. "                    RXTERMINATION                 ,Debug PIPE Status: RxTermination" "0,1"
bitfld.long 0x00 0. "                       TXONESZEROS                      ,Debug PIPE Status: TxOnesZeros" "0,1"
group.long 0xC170++0x3
line.long 0x00 "USB_GDBGLSPMUX,Global debug LSP MUX, for internal use only"
bitfld.long 0x00 16.--21. " TRACEPORTMUXSEL                     ,Select the 64-bit analyzer trace vector. Not sensitive to warm reset (i.e. including software reset), only to power-on reset. - zero." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,zero"
bitfld.long 0x00 8.--13. "                 HOSTSELECT                    ,Host LSP Select[13:8]. Valid only in Host mode." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 4.--7. "                      DEVSELECT                        ,Host LSP Select[7:4] in Host mode Device LSP Select in Device mode" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 0.--3. " EPSELECT                            ,Host LSP Select[3:0] in Host mode Device LSP Select in Device mode" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0xC174++0x3
line.long 0x00 "USB_GDBGLSP,Global debug LSP, for internal use only"
hexmask.long 0x00 0.--31. 1. " DEBUG                               ,LSP debug information"
rgroup.long 0xC178++0x3
line.long 0x00 "USB_GDBGEPINFO0,Global debug endpoint information register 0"
hexmask.long 0x00 0.--31. 1. " DEBUG                               ,EP debug information"
rgroup.long 0xC17C++0x3
line.long 0x00 "USB_GDBGEPINFO1,Global debug endpoint information register 1"
hexmask.long 0x00 0.--31. 1. " DEBUG                               ,EP debug information"
group.long 0xC180++0x3
line.long 0x00 "USB_GPRTBIMAP_HSLO,Global port to USB instance mapping register, high-speed, low bits [31:0]"
bitfld.long 0x00 0.--3. " BINUM1                              ,HS USB instance number for port number 1 Application-programmable ID field" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xC184++0x3
line.long 0x00 "USB_GPRTBIMAP_HSHI,Global port to USB instance mapping register, high-speed, high bits [63:32]"
group.long 0xC188++0x3
line.long 0x00 "USB_GPRTBIMAP_FSLO,Global port to USB instance mapping register, full/low-speed, low bits [31:0]"
bitfld.long 0x00 0.--3. " BINUM1                              ,FS USB instance number for port number 1 Application-programmable ID field" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xC18C++0x3
line.long 0x00 "USB_GPRTBIMAP_FSHI,Global port to USB instance mapping register, full/low-speed, high bits [63:32]"
group.long 0xC200++0x3
line.long 0x00 "USB_GUSB2PHYCFG,Global USB2.0 (UTMI/ULPI) PHY configuration"
bitfld.long 0x00 31. " PHYSOFTRST                          ,PHY Soft Reset. Active-high, fully static software reset for UTMI USB2.0 transceiver. - inactive. - active." "inactive,active"
bitfld.long 0x00 18. "             ULPIEXTVBUSINDICATOR          ,ULPI External VBUS Indicator Indicates the ULPI PHY VBUS over-current indicator. - int. - ext." "int,ext"
bitfld.long 0x00 17. "                     ULPIEXTVBUSDRV                   ,ULPI External VBUS Drive Selects supply source to drive 5V on VBUS, in the ULPI PHY. - int. - ext." "int,ext"
textline "                             "
bitfld.long 0x00 16. " ULPICLKSUSM                         ,Sets the ClockSuspendM bit in the Interface Control register on the ULPI PHY. Applicable only in serial FS/LS or Carkit modes. NOT APPLICABLE" "0,1"
bitfld.long 0x00 15. "                    ULPIAUTORES                   ,ULPI Auto Resume. Sets the AutoResume bit in Interface Control register on the ULPI PHY. - no. - auto." "no,auto"
bitfld.long 0x00 10.--13. "                    USBTRDTIM                        ,USB 2.0 Turnaround Time, in PHY clock cycles. Specifies the response time for a MAC request to the Packet FIFO Controller (PFC) to fetch data from the DFIFO (SPRAM)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 8. " ENBLSLPM                            ,Enable UTMI Sleep. Controls assertion of utmi_sleep_n, utmi_l1_suspend_n outputs to the PHY when in the L1 state. - no. - yes." "no,yes"
bitfld.long 0x00 7. "                  PHYSEL                        ,PHY Select. (HS vs. serial): Unused, since serial PHY is not supported." "0,1"
bitfld.long 0x00 6. "                       SUSPHY                           ,Suspend enable for USB2.0 HS/FS/LS PHY (ULPI or UTMI). Set to 1 only after core initialization is complete. - 0. - 1." "0,1"
textline "                             "
bitfld.long 0x00 5. " FSINTF                              ,Full-Speed Serial Interface Select. UNUSED." "0,1"
bitfld.long 0x00 4. "                    ULPI_UTMI_SEL                 ,ULPI or UTMI+ Select - utmi. - ulpi." "utmi,ulpi"
bitfld.long 0x00 3. "                    PHYIF                            ,PHY Interface. DO NOT USE. If UTMI+ is selected, configures 8- or 16-bit interface. If ULPI is selected, configures SDR or DDR mode. - zero. - one." "zero,one"
textline "                             "
bitfld.long 0x00 0.--2. " TOUTCAL                             ,HS/FS Timeout Calibration. The number of PHY clocks, as indicated by the application in this field, is multiplied by a bit-time factor; this factor is added to the high-speed/full-speed interpacket timeout duration..." "0,1,2,3,4,5,6,7"
group.long 0xC280++0x3
line.long 0x00 "USB_GUSB2PHYACC,Global USB2.0 PHY access"
bitfld.long 0x00 26. " DISULPIDRVR                         ,Disable ULPI drivers, for carkit mode. Auto-cleared. NOT USED." "0,1"
bitfld.long 0x00 25. "                    NEWREGREQ                     ,New register request. Auto-cleared. - . - . - . - ." "No_action,Access_request_pending"
bitfld.long 0x00 24. "  VSTSDONE                         ,VStatus Done - . - ." "0,access_is_done."
textline "                             "
bitfld.long 0x00 23. " VSTSBSY                             ,VStatus busy - . - ." "Access_is_done.,1"
bitfld.long 0x00 22. "      REGWR                         ,Register write - . - ." "Read,Write"
bitfld.long 0x00 16.--21. "                   REGADDR                          ,Register address ULPI PHY register address for immediate PHY register set access. Set to 6'h2F for extended PHY register set access." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                             "
bitfld.long 0x00 8.--13. " EXTREGADDR                          ,ULPI: PHY extended register address. UTMI+: Unused" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "                   REGDATA                       ,Register data (read and write data)"
group.long 0xC2C0++0x3
line.long 0x00 "USB_GUSB3PIPECTL,Global USB3.0 PIPE control"
bitfld.long 0x00 31. " PHYSOFTRST                          ,PHY Soft Reset. Active-high, fully static software reset for PIPE USB3.0 transceiver. - inactive. - active." "inactive,active"
bitfld.long 0x00 27. "             UX_EXIT_IN_PX                 ,Workaround for SS PHY injecting a glitch on RxElecIdle while receiving Ux exit LFPS, and PowerDown change is in progress. - default. - wa." "default,wa"
bitfld.long 0x00 26. "                 PING_ENHANCEMENT_EN              ,Ping Enhancement Enable: Extended downstream port U1 ping receive timeout. Invalid for Upstream port. - default. - 500." "default,500"
textline "                             "
bitfld.long 0x00 25. " U1U2EXITFAIL_TO_RECOV               ,Enhancement to prevent interoperability issue in case of incorrect LFPS handshake by the remote link. - default. - enhanced." "default,enhanced"
bitfld.long 0x00 24. "             REQUEST_P1P2P3                ,Control the systematic request of P1/P2/P3 for U1/U2/U3 - none. - always." "none,always"
bitfld.long 0x00 23. "                  STARTRXDETU3RXDET                ,Manual control for periodic Rx detection required in U3 and Rx.Detect, host mode. - noop. - detect." "noop,detect"
textline "                             "
bitfld.long 0x00 22. " DISRXDETU3RXDET                     ,Disable the HW-scheduled periodic Rx detection required in U3 and SS.Disabled, for host mode. - Auto. - Manual." "Auto,Manual"
bitfld.long 0x00 19.--21. "               P1P2P3DELAY                   ,If DelayP0toP1P2P3=1, delays the transition to P1/P2/P3 when entering U1/U2/U3 until P1P2P3Delay*8b10b errors occur, or RxValid=0 on PIPE." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 18. "                       DELAYP0TOP1P2P3                  ,Delay PHY change from P0 to P1/P2/P3 when link state changes from U0 to U1/U2/U3, respectively. - dis. - en." "dis,en"
textline "                             "
bitfld.long 0x00 17. " SUSPENDENABLE                       ,Suspend Enable for USB3.0 SS PHY. Set to 1 only after core initialization is complete. - 0. - 1." "0,1"
bitfld.long 0x00 15.--16. "                    DATWIDTH                      ,PIPE Data Width (input from phy: refer to PIPE standard) Field updated to the input's value immediately after reset. - 8. - 16. - 32." "32,16,8,3"
bitfld.long 0x00 14. "                      ABORTRXDETINU2                   ,Abort Rx Detect in U2. For Downstream port only. - no_abort. - abort." "no_abort,abort"
textline "                             "
bitfld.long 0x00 13. " SKIPRXDET                           ,Skip Rx Detect. When set, the core skips Rx Detection if PIPE signal 'RxElecIdle' is low. Skip is defined as waiting for the appropriate timeout, then repeating the operation." "0,1"
bitfld.long 0x00 12. "                    LFPSP0ALGN                    ,LFPS P0 Align. When set to 1: - The core deasserts LFPS transmission on the clock edge that it requests PHY power state 0 when exiting U1, U2, or U3 low power states. Otherwise, LFPS transmission is as..." "def,align"
bitfld.long 0x00 11. "                   P3P2TRANOK                       ,P3-to-P2 Transitions OK - notset. - set." "notset,set"
textline "                             "
bitfld.long 0x00 10. " P3EXSIGP2                           ,PHY power state behaviour upon U3 exit handshake. - default. - p2." "default,p2"
bitfld.long 0x00 9. "              LFPSFILT                      ,LFPS Filter. When set, filter LFPS reception with PIPE 'RxValid' signal in PHY power state P0, that is, ignore LFPS reception from the PHY unless both PIPE signals 'RxElecIdle' and 'RxValid' are deasserted." "0,1"
bitfld.long 0x00 6. "                       TXSWING                          ,Tx Swing (output to PHY: refer to PIPE standard)" "0,1"
textline "                             "
bitfld.long 0x00 3.--5. " TXMARGIN                            ,Tx Margin[2:0] (output to PHY: refer to PIPE standard)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 1.--2. "                    TXDEEMPHASIS                  ,Tx Deemphasis (output to PHY: refer to PIPE standard) The value driven to the PHY is controlled by the LTSSM during USB3.0 Compliance mode." "0,1,2,3"
bitfld.long 0x00 0. "                       ELASTICBUFFERMODE                ,Elastic Buffer Mode (output to PHY: refer to PIPE standard)" "0,1"
group.long 0xC300++0x3
line.long 0x00 "USB_GTXFIFOSIZ0,Global Transmit FIFO Size 0: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC304++0x3
line.long 0x00 "USB_GTXFIFOSIZ1,Global Transmit FIFO Size 1: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC308++0x3
line.long 0x00 "USB_GTXFIFOSIZ2,Global Transmit FIFO Size 2: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC30C++0x3
line.long 0x00 "USB_GTXFIFOSIZ3,Global Transmit FIFO Size 3: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC310++0x3
line.long 0x00 "USB_GTXFIFOSIZ4,Global Transmit FIFO Size 4: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC314++0x3
line.long 0x00 "USB_GTXFIFOSIZ5,Global Transmit FIFO Size 5: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC318++0x3
line.long 0x00 "USB_GTXFIFOSIZ6,Global Transmit FIFO Size 6: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC31C++0x3
line.long 0x00 "USB_GTXFIFOSIZ7,Global Transmit FIFO Size 7: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC320++0x3
line.long 0x00 "USB_GTXFIFOSIZ8,Global Transmit FIFO Size 8: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC324++0x3
line.long 0x00 "USB_GTXFIFOSIZ9,Global Transmit FIFO Size 9: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC328++0x3
line.long 0x00 "USB_GTXFIFOSIZ10,Global Transmit FIFO Size 10: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC32C++0x3
line.long 0x00 "USB_GTXFIFOSIZ11,Global Transmit FIFO Size 11: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC330++0x3
line.long 0x00 "USB_GTXFIFOSIZ12,Global Transmit FIFO Size 12: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC334++0x3
line.long 0x00 "USB_GTXFIFOSIZ13,Global Transmit FIFO Size 13: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC338++0x3
line.long 0x00 "USB_GTXFIFOSIZ14,Global Transmit FIFO Size 14: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC33C++0x3
line.long 0x00 "USB_GTXFIFOSIZ15,Global Transmit FIFO Size 15: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC380++0x3
line.long 0x00 "USB_GRXFIFOSIZ0,Global Receive FIFO Size 0: FIFO mapping in RAM0, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " RXFSTADDR                           ,Receive FIFO RAM Start Address, in 64-bit RAM words. - min. - max."
hexmask.long.word 0x00 0.--15. 1. "                 RXFDEP                        ,Receive FIFO Depth, in 64-bit RAM words - min. - max."
group.long 0xC384++0x3
line.long 0x00 "USB_GRXFIFOSIZ1,Global receive FIFO size 1: FIFO mapping in RAM0, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " RXFSTADDR                           ,Receive FIFO RAM Start Address, in 64-bit RAM words. - min. - max."
hexmask.long.word 0x00 0.--15. 1. "                 RXFDEP                        ,Receive FIFO Depth, in 64-bit RAM words - min. - max."
group.long 0xC388++0x3
line.long 0x00 "USB_GRXFIFOSIZ2,Global receive FIFO size 2: FIFO mapping in RAM0, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " RXFSTADDR                           ,Receive FIFO RAM Start Address, in 64-bit RAM words. - min. - max."
hexmask.long.word 0x00 0.--15. 1. "                 RXFDEP                        ,Receive FIFO Depth, in 64-bit RAM words - min. - max."
group.long 0xC400++0x3
line.long 0x00 "USB_GEVNTADRLO,Global event address: Lower 32 bits of start address of the external memory for the event buffer. During operation, hardware does not update this address."
hexmask.long 0x00 0.--31. 1. " EVNTADRLO                           ,EVNTADR[31:0]"
group.long 0xC404++0x3
line.long 0x00 "USB_GEVNTADRHI,Global event address: Upper 32 bits of start address of the external memory for the event buffer. During operation, hardware does not update this address."
hexmask.long 0x00 0.--31. 1. " EVNTADRHI                           ,EVNTADR[64:32]"
group.long 0xC408++0x3
line.long 0x00 "USB_GEVNTSIZ,Global event buffer size"
bitfld.long 0x00 31. " EVNTINTRPTMASK                      ,Event interrupt mask Prevents the interrupt from being generated when set to 1 The events are queued wven when the mask is set." "0,1"
hexmask.long.word 0x00 0.--15. 1. "                    EVENTSIZ                      ,Event buffer size Size of the event buffer in bytes; must be a multiple of 4. Programmed by software once during initialization."
group.long 0xC40C++0x3
line.long 0x00 "USB_GEVNTCOUNT,Global event buffer count"
hexmask.long.word 0x00 0.--15. 1. " EVNTCOUNT                           ,Event count When read, returns the number of valid events in the event buffer in bytes When written, hardware decrements the count by the value written. The interrupt remains active while count is not 0."
rgroup.long 0xC600++0x3
line.long 0x00 "USB_GHWPARAMS8,Global hardware parameters 8"
hexmask.long 0x00 0.--31. 1. " DWC_USB3_DCACHE_DEPTH_INFO          ,Depth of data cache, in 64-bit words (fixed). The cache occupies RAM0 from word 0 to DCACHE_DEPTH_INFO-1: Rx FIFOs shall be mapped from word DCACHE_DEPTH_INFO to RAM0_DEPTH-1."
rgroup.long 0xC604++0x3
line.long 0x00 "USB_GHWPARAMS9,Global hardware parameters 9"
hexmask.long 0x00 0.--31. 1. " GHWPARAMS9                          ,NOT USED"
group.long 0xC700++0x3
line.long 0x00 "USB_DCFG,Device configuration: Configures the core in device mode after power-on or after certain control commands or enumeration. Does not change after initial programming."
bitfld.long 0x00 23. " IGNORESTREAMPP                      ,Ignore Packet-Pending for Stream management. From stream-capable bulk endpoints only. - nochange. - ignore." "nochange,ignore"
bitfld.long 0x00 22. "             LPMCAP                        ,Link Power Management (LPM) Capability. - no. - yes." "no,yes"
bitfld.long 0x00 17.--21. "                     NUMP                             ,Number of Receive Buffers. Indicates number of receive buffers to be reported in ACK TP. Value based on RxFIFO size, buffer sizes programmed in descriptors, and system latency." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                             "
bitfld.long 0x00 12.--16. " INTRNUM                             ,Interrupt Number. Interrupt/EventQ number on which non-endpoint-specific device related interrupts (see DEVT) are generated." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--11. "                   PERFRINT                      ,Periodic Frame Interrupt. Time within a (micro)frame when the application must be notified using the End Of Periodic Frame Interrupt, which can be used to determine if all the periodic (isochronous, int..." "80,85,90,95"
hexmask.long.byte 0x00 3.--9. 1. "                      DEVADDR                          ,Device Address. Configure upon set-address USB command, clear to 0 upon USB reset. - def."
textline "                             "
bitfld.long 0x00 0.--2. " DEVSPD                              ,Device Speed: USB speed at which the core should connect. Actual bus speed is determined only after chirp completion, based on the speed of the attached USB host. - hs. - fs. - fs_serial. - ss. - ls_serial." "hs,fs,ls_serial,fs_serial,ss,5,6,7"
group.long 0xC704++0x3
line.long 0x00 "USB_DCTL,Device control"
bitfld.long 0x00 31. " RUNSTOP                             ,Run/Stop - stop. - start." "stop,start"
bitfld.long 0x00 30. "                CSFTRST                       ,Core Soft Reset. Auto-cleared. The reset has the following effect: - Interrupts are cleared. - Registers are cleared except: USB_GSTS, USB_GSNPSID, USB_GGPIO, USB_GUID, USB_GUSB2PHYCFG, USB_GUSB3PIPECTL, U..." "idle,reset"
bitfld.long 0x00 28. "                   HIRDTHRES_4                      ,Host Initiated Resume Duration (HIRD) Threshold, MSbit: See HIRDTHRES_TIME" "0,1"
textline "                             "
bitfld.long 0x00 24.--27. " HIRDTHRES_TIME                      ,Host Initiated Resume Duration (HIRD) Threshold, LSBits = timeout value. utmi_l1_suspend_n is asserted in L1 when : (HIRD value >= HIRDTHRES_TIME) and (HIRDTHRES_4=1) utmi_sleep_n is asserted in L1 when : (H..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "                   APPL1RES                      ,LPM Response Programmed by Application: Handshake response made to LPM token. Note that if USB_DCFG[22] LPMCAP = 0, the response is always timeout (no response). - can_nyet. - ack." "can_nyet,ack"
bitfld.long 0x00 19. "                KEEPCONNECT                      ,Used for Save-and-Restore operation. DO NOT USE, SAR NOT IMPLEMENTED - noaction. - keep." "noaction,keep"
textline "                             "
bitfld.long 0x00 18. " L1HIBERNATIONEN                     ,DO NOT USE, SAR NOT IMPLEMENTED" "0,1"
bitfld.long 0x00 17. "                    CRS                           ,Controller Restore State. DO NOT USE, SAR NOT IMPLEMENTED - restore. - noaction." "restore,noaction"
bitfld.long 0x00 16. "                CSS                              ,Controller Save State. DO NOT USE, SAR NOT IMPLEMENTED - save. - noaction." "save,noaction"
textline "                             "
bitfld.long 0x00 12. " INITU2ENA                           ,Initiate U2 Enable. Cleared to 0 by USB reset. - newEnum1. - newEnum2." "newEnum1,newEnum2"
bitfld.long 0x00 11. "             ACCEPTU2ENA                   ,Accept U2 Enable. Cleared to 0 by USB reset. - no. - yes." "no,yes"
bitfld.long 0x00 10. "                     INITU1ENA                        ,Initiate U1 Enable. Cleared to 0 by USB reset. - no. - yes." "no,yes"
textline "                             "
bitfld.long 0x00 9. " ACCEPTU1ENA                         ,Accept U1 Enable. Cleared to 0 by USB reset. - no. - yes." "no,yes"
bitfld.long 0x00 5.--8. "                  ULSTCHNGREQ                   ,USB/Link State Change Request. A new request is indicated by a change of value. To issue the same request back-to-back, a 0 shall be written between the two requests. State change request result is refle..." "noop,1,2,3,dis,rxdet,inact,7,rec,9,comp,loop,12,13,14,15"
bitfld.long 0x00 1.--4. "                   TSTCTL                           ,Test Control - 1. - 0. - 2. - 4. - 5. - 3." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xC708++0x3
line.long 0x00 "USB_DEVTEN,Device event enable: Enables the generation of device-specific events (see USB_DEVT)."
bitfld.long 0x00 13. " INACTTIMEOUTRCVEDEN                 ,U2 Inactive Timeout Received Event Enable" "0,1"
bitfld.long 0x00 12. "                    VNDRDEVTSTRCVEDEN             ,Vendor Device Test Received event Enable" "0,1"
bitfld.long 0x00 11. "                       EVNTOVERFLOWEN                   ,Event Overflow event Enable" "0,1"
textline "                             "
bitfld.long 0x00 10. " CMDCMPLTEN                          ,Command Complete event Enable" "0,1"
bitfld.long 0x00 9. "                    ERRTICERREN                   ,Erratic Error event Enable" "0,1"
bitfld.long 0x00 7. "                       SOFEN                            ,Start of (micro)Frame event Enable. For debug only." "0,1"
textline "                             "
bitfld.long 0x00 6. " EOPFEN                              ,End of Periodic Frame event Enable. For debug only." "0,1"
bitfld.long 0x00 5. "                    HIBERNATIONREQEVTEN           ,Hibernation Request Event Enable. DO NOT USE, HIBERNATION NOT IMPLEMENTED" "0,1"
bitfld.long 0x00 4. "                       WKUPEVTEN                        ,Resume/Remote Wakeup Detected Event Enable." "0,1"
textline "                             "
bitfld.long 0x00 3. " ULSTCNGEN                           ,USB/Link State Change event Enable" "0,1"
bitfld.long 0x00 2. "                    CONNECTDONEEN                 ,Connection Done event Enable" "0,1"
bitfld.long 0x00 1. "                       USBRSTEN                         ,USB Reset Enable" "0,1"
textline "                             "
bitfld.long 0x00 0. " DISCONNEVTEN                        ,Disconnct Event Enable" "0,1"
rgroup.long 0xC70C++0x3
line.long 0x00 "USB_DSTS,Device status"
bitfld.long 0x00 29. " DCNRD                               ,Device Controller Not Ready - wait. - rdy." "rdy,wait"
bitfld.long 0x00 28. "                 SRE                           ,Save/Restore Error. NOT SUPPORTED." "0,1"
bitfld.long 0x00 25. "                       RSS                              ,Restore State Status, triggered by writing 1 to RSS - restoring. - idle." "idle,restoring"
textline "                             "
bitfld.long 0x00 24. " SSS                                 ,Save State Status, triggered by writing 1 to SSS - saving. - idle." "idle,saving"
bitfld.long 0x00 23. "               COREIDLE                      ,Core Idle status. asserted when all RxFIFO data transferred to system memory, all completed descriptors are written, and all Event Counts are zero. Changes after reset, so that reset value may not match fir..." "active,idle"
bitfld.long 0x00 22. "                  DEVCTRLHLT                       ,Device Controller Halted. Cleared (0) when theUSB_DCTL[31] RUNSTOP is written to 1. Set (1) after USB_DCTL[31] RUNSTOP has been written to 0, core is idle and disconnect process is complete. When DEVC..." "0,1"
textline "                             "
bitfld.long 0x00 18.--21. " USBLNKST                            ,USB/Link State. Encoding depends on the connection speed (SS or HS/FS/LS) - 3. - 14. - 4. - 11. - 15. - 2. - 0. - 10. - 6. - 1. - 8. - 7. - 9. - 5." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 17. "                   RXFIFOEMPTY                   ,Rx FIFO Empty - empty. - notempty." "notempty,empty"
hexmask.long.word 0x00 3.--16. 1. "                SOFFN                            ,received Start Of Frame's Frame Number"
textline "                             "
bitfld.long 0x00 0.--2. " CONNECTSPD                          ,Connection Speed. USB speed at which the device has come up after speed detection through a chirp sequence. - fs_serial. - ls_serial. - fs. - hs. - ss." "hs,fs,ls_serial,fs_serial,ss,5,6,7"
group.long 0xC710++0x3
line.long 0x00 "USB_DGCMDPAR,Device generic command parameter: To be programmed before or along with the device command itself."
hexmask.long 0x00 0.--31. 1. " PARAMETER                           ,Parameter of the command; command-dependent."
group.long 0xC714++0x3
line.long 0x00 "USB_DGCMD,Device generic command: Generic command interface to send link management packets and notifications."
bitfld.long 0x00 15. " CMDSTATUS                           ,Command Status. - newEnum2. - none." "none,newEnum2"
bitfld.long 0x00 10. "             CMDACT                        ,Command active. Auto-cleared. - start. - active. - idle." "idle,start"
bitfld.long 0x00 8. "                   CMDIOC                           ,Command Interrupt On Complete. Event mapped to interrupt numberUSB_DCFG[16:12] INTNUM. Reads return 0. - ioc." "0,ioc"
textline "                             "
hexmask.long.byte 0x00 0.--7. 1. " CMDTYP                              ,Command Type. Reads return 0. - 12. - 3. - 6. - 10. - 2. - 1. - 9. - 16."
group.long 0xC720++0x3
line.long 0x00 "USB_DALEPENA,Device active USB endpoint enable. Set each bit (1) to enable the corresponding endpoint. Bits 0 and 1 are set after USB reset as they enable the control endpoint. All other bits are set according to enumeration, and cleared on a USB reset..."
bitfld.long 0x00 31. " USBACTEP15_IN                       ,USB Activate Endpoint 15 IN" "0,1"
bitfld.long 0x00 30. "                    USBACTEP15_OUT                ,USB Activate Endpoint 15 OUT" "0,1"
bitfld.long 0x00 29. "                       USBACTEP14_IN                    ,USB Activate Endpoint 14 IN" "0,1"
textline "                             "
bitfld.long 0x00 28. " USBACTEP14_OUT                      ,USB Activate Endpoint 14 OUT" "0,1"
bitfld.long 0x00 27. "                    USBACTEP13_IN                 ,USB Activate Endpoint 13 IN" "0,1"
bitfld.long 0x00 26. "                       USBACTEP13_OUT                   ,USB Activate Endpoint 13 OUT" "0,1"
textline "                             "
bitfld.long 0x00 25. " USBACTEP12_IN                       ,USB Activate Endpoint 12 IN" "0,1"
bitfld.long 0x00 24. "                    USBACTEP12_OUT                ,USB Activate Endpoint 12 OUT" "0,1"
bitfld.long 0x00 23. "                       USBACTEP11_IN                    ,USB Activate Endpoint 11 IN" "0,1"
textline "                             "
bitfld.long 0x00 22. " USBACTEP11_OUT                      ,USB Activate Endpoint 11 OUT" "0,1"
bitfld.long 0x00 21. "                    USBACTEP10_IN                 ,USB Activate Endpoint 10 IN" "0,1"
bitfld.long 0x00 20. "                       USBACTEP10_OUT                   ,USB Activate Endpoint 10 OUT" "0,1"
textline "                             "
bitfld.long 0x00 19. " USBACTEP9_IN                        ,USB Activate Endpoint 9 IN" "0,1"
bitfld.long 0x00 18. "                    USBACTEP9_OUT                 ,USB Activate Endpoint 9 OUT" "0,1"
bitfld.long 0x00 17. "                       USBACTEP8_IN                     ,USB Activate Endpoint 8 IN" "0,1"
textline "                             "
bitfld.long 0x00 16. " USBACTEP8_OUT                       ,USB Activate Endpoint 8 OUT" "0,1"
bitfld.long 0x00 15. "                    USBACTEP7_IN                  ,USB Activate Endpoint 7 IN" "0,1"
bitfld.long 0x00 14. "                       USBACTEP7_OUT                    ,USB Activate Endpoint 7 OUT" "0,1"
textline "                             "
bitfld.long 0x00 13. " USBACTEP6_IN                        ,USB Activate Endpoint 6 IN" "0,1"
bitfld.long 0x00 12. "                    USBACTEP6_OUT                 ,USB Activate Endpoint 6 OUT" "0,1"
bitfld.long 0x00 11. "                       USBACTEP5_IN                     ,USB Activate Endpoint 5 IN" "0,1"
textline "                             "
bitfld.long 0x00 10. " USBACTEP5_OUT                       ,USB Activate Endpoint 5 OUT" "0,1"
bitfld.long 0x00 9. "                    USBACTEP4_IN                  ,USB Activate Endpoint 4 IN" "0,1"
bitfld.long 0x00 8. "                       USBACTEP4_OUT                    ,USB Activate Endpoint 4 OUT" "0,1"
textline "                             "
bitfld.long 0x00 7. " USBACTEP3_IN                        ,USB Activate Endpoint 3 IN" "0,1"
bitfld.long 0x00 6. "                    USBACTEP3_OUT                 ,USB Activate Endpoint 3 OUT" "0,1"
bitfld.long 0x00 5. "                       USBACTEP2_IN                     ,USB Activate Endpoint 2 IN" "0,1"
textline "                             "
bitfld.long 0x00 4. " USBACTEP2_OUT                       ,USB Activate Endpoint 2 OUT" "0,1"
bitfld.long 0x00 3. "                    USBACTEP1_IN                  ,USB Activate Endpoint 1 IN" "0,1"
bitfld.long 0x00 2. "                       USBACTEP1_OUT                    ,USB Activate Endpoint 1 OUT" "0,1"
textline "                             "
bitfld.long 0x00 1. " USBACTEP0_IN                        ,USB Activate Endpoint 0 IN (control)" "0,1"
bitfld.long 0x00 0. "                    USBACTEP0_OUT                 ,USB Activate Endpoint 0 OUT (control)" "0,1"
group.long 0xCC00++0x3
line.long 0x00 "USB_OCFG,OTG configuration"
bitfld.long 0x00 3. " OTGSFTRSTMSK                        ,Protects OTG, PHY and VBUS filters from the following software resets: xHCIUSB_USBCMD[1] HCRST (host), USB_DCTL[30] CSFTRST (device). Note: In OTG2 applications, it is not recommended to program USB_USBCMD[1] HCRST..." "default,mask"
bitfld.long 0x00 2. "              OTGVERSION                    ,Debug, always write 0." "0,1"
bitfld.long 0x00 1. "                       HNPCAP                           ,HNP Capabilty Enable. - no. - yes." "no,yes"
textline "                             "
bitfld.long 0x00 0. " SRPCAP                              ,SRP Capability enable. For A-device, SRP detection. For B-device, SRP generation. - no. - yes." "no,yes"
group.long 0xCC04++0x3
line.long 0x00 "USB_OCTL,OTG control IMPORTANT NOTE: Register is reinitialized on ID change, but is not affected by a software reset."
bitfld.long 0x00 7. " OTG3_GOERR                          ,To be set upon TRSP_ACK_ERR, TRSP_CNF_ERR, or TRSP_WRST_ERR timeout. Auto-cleared. OTG3: NOT IMPLEMENTED, DO NOT SET. - noop. - pending. - go." "noop,pending"
bitfld.long 0x00 6. "              PERIMODE                      ,Peripheral Mode. Program the core to work as a peripheral or as a host. - yes. - no." "no,yes"
bitfld.long 0x00 5. "                     PRTPWRCTL                        ,Port Power Control. Set or cleared by software. Self-cleared in any of the following conditions: 1) transition to a_idle OTG state 2) aidl_bdis_tout event when in a_suspend OTG state 3) a_wait_bcon..." "swoff,req"
textline "                             "
bitfld.long 0x00 4. " HNPREQ                              ,HNP Request. Set (1) by software to initiate HNP request to the connected USB host. Clear (0) by software upon eitherUSB_OEVT[11] OTGBDEVHOSTENDEVNT or USB_OEVT[8] OTGBDEVVBUSCHNGEVNT. - done. - ongoing." "done,ongoing"
bitfld.long 0x00 3. "              SESREQ                        ,Session Request. In the absence ofUSB_OEVT[9] OTGBDEVSESSVLDDETEVNT after a request, the application must wait for at least TB_SRP_FAIL (6 secs) before another request. - noop. - srp. - zero." "noop,srp"
bitfld.long 0x00 2. "                    TERMSELDLPULSE                   ,TermSelect Data Line Pulse. Alternate SRP data line pulsing method on UTMI interface. - newEnum1. - newEnum2." "newEnum1,newEnum2"
textline "                             "
bitfld.long 0x00 1. " DEVSETHNPEN                         ,Device Set HNP Enable. To be set when HNP has been successfully enabled by the connected host, using the SetFeature.SetHNPEnable command. - dis. - en." "dis,en"
bitfld.long 0x00 0. "                  HSTSETHNPEN                   ,Host Set HNP Enable. To be set when HNP has been successfully enabled on the connected device, using the SetFeature.SetHNPEnable command. - dis. - en." "dis,en"
group.long 0xCC08++0x3
line.long 0x00 "USB_OEVT,OTG event: OTG interrupt status. All writable bits are cleared by writing a 1."
bitfld.long 0x00 31. " DEVICEMODE                          ,Dual-role device's mode, based on iddig input. - b. - a." "a,b"
eventfld.long 0x00 24. "                    OTGCONIDSTSCHNGEVNT           ,Connector ID status change event. Set in both A-device and B-device mode. - noop. - clr. - evt. - noevt." "noop,clr"
eventfld.long 0x00 23. "                    HRRCONFNOTIFEVNT                 ,Host Role Request Confirm Notifier Event. Set upon reception of HRR Device Notification TP with Confirm field set. Set in OTG3, SS, A-host or B-host mode only. OTG3: NOT IMPLEMENTED - noop. - clr. -..." "noop,clr"
textline "                             "
eventfld.long 0x00 22. " HRRINITNOTIFEVNT                    ,Host Role Request Initiate Notifier Event. Set upon reception of HRR Device Notification TP with Initiate field set. Set in OTG3, SS, A-host or B-host mode only. OTG3: NOT IMPLEMENTED - noop. - clr. - evt. - noevt." "noop,clr"
eventfld.long 0x00 21. "                 OTGADEVIDLEEVNT               ,A-device A-IDLE Event. Set when OTG FSM enters A-IDLE state from any other state. Set in A-device mode only. OTG3: NOT IMPLEMENTED - noop. - clr. - evt. - noevt." "noop,clr"
eventfld.long 0x00 20. "                    OTGADEVBHOSTENDEVNT              ,A-device B-host End Event. Set when connected B-device has completed its B-host role and returns to B-peripheral. Set in A-device mode only. - noop. - clr. - evt. - noevt." "noop,clr"
textline "                             "
eventfld.long 0x00 19. " OTGADEVHOSTEVNT                     ,A-device Host Event. Set when device enters host role, upon initial connect to B-device as well as upon HNP from A-peripheral to A-host. Set in A-device mode only. - noop. - clr. - evt. - noevt." "noop,clr"
eventfld.long 0x00 18. "                 OTGADEVHNPCHNGDETEVNT         ,A-device HNP change Detected Event. Set when there is an HNP event. Set in A-device mode only. - noop. - clr. - evt. - noevt." "noop,clr"
eventfld.long 0x00 17. "                    OTGADEVSRPDETEVNT                ,A-device SRP Detected Event. Set when SRP request from B-device is detected. Set in A-device mode only. - noop. - clr. - evt. - noevt." "noop,clr"
textline "                             "
eventfld.long 0x00 16. " OTGADEVSESSENDDETEVNT               ,A-device Session End Detected Event. Set when UTMI input 'a-vbus-valid' is deasserted (0). Set in A-device mode only. - noop. - clr. - evt. - noevt." "noop,clr"
eventfld.long 0x00 11. "                 OTGBDEVHOSTENDEVNT            ,B-device Host End Event. Set completing B-host role and returning to default B-peripheral role. Set in B-device mode only. - noop. - clr. - evt. - noevt." "noop,clr"
eventfld.long 0x00 10. "                    OTGBDEVHNPCHNGEVNT               ,B-device HNP Change Event. Set upon (success of failure of an) HNP attempt. Set in B-device mode only. - noop. - clr. - evt. - noevt." "noop,clr"
textline "                             "
eventfld.long 0x00 9. " OTGBDEVSESSVLDDETEVNT               ,B-device Session Valid Detected Event. Set when B-device succeeds in starting a session. Set in B-device mode only. - noop. - clr. - evt. - noevt." "noop,clr"
eventfld.long 0x00 8. "                 OTGBDEVVBUSCHNGEVNT           ,B-device VBUS Change Event. Set when UTMI input 'b-session-valid' transitions (to 0 or 1). Set in B-device mode only. - noop. - clr. - evt. - noevt." "noop,clr"
bitfld.long 0x00 3. "                    BSESVLD                          ,B-Session Valid. Updated when OTGBDevVBUSChngEvnt is set. - valid. - invalid." "invalid,valid"
textline "                             "
bitfld.long 0x00 2. " HSTNEGSTS                           ,Host Negotiation Status. Updated when OTGADevHNPChngEvnt or OTGBDevHNPChngEvnt is set. - success. - failure." "failure,success"
bitfld.long 0x00 1. "              SESREQSTS                     ,Session Request Status. Updated when OTGBDevSessVldDetEvnt is set. - SRP. - noSRP." "noSRP,SRP"
eventfld.long 0x00 0. "                   OEVTERROR                        ,No errors currently defined. - noop. - clr. - evt. - noevt." "noop,clr"
group.long 0xCC0C++0x3
line.long 0x00 "USB_OEVTEN,OTG event enable: OTG interrupt event enable."
bitfld.long 0x00 24. " OTGCONIDSTSCHNGEVNTEN               ,Connector ID Status Change Event Enable. - dis. - en." "dis,en"
bitfld.long 0x00 23. "                  HRRCONFNOTIFEVNTEN            ,Host Role Request Confirm Notifier Event Enable. OTG3: NOT IMPLEMENTED - dis. - en." "dis,en"
bitfld.long 0x00 22. "                     HRRINITNOTIFEVNTEN               ,Host Role Request Initiate Notifier Event Enable. OTG3: NOT IMPLEMENTED - dis. - en." "dis,en"
textline "                             "
bitfld.long 0x00 21. " OTGADEVIDLEEVNTEN                   ,A-device A-IDLE Event Enable. - dis. - en." "dis,en"
bitfld.long 0x00 20. "                  OTGADEVBHOSTENDEVNTEN         ,A-device B-host End Event Enable. - dis. - en." "dis,en"
bitfld.long 0x00 19. "                     OTGADEVHOSTEVNTEN                ,A-device Host Event Enable. - dis. - en." "dis,en"
textline "                             "
bitfld.long 0x00 18. " OTGADEVHNPCHNGDETEVNTEN             ,A-device HNP change Detected Event Enable. - dis. - en." "dis,en"
bitfld.long 0x00 17. "                  OTGADEVSRPDETEVNTEN           ,A-device SRP Detected Event Enable. - dis. - en." "dis,en"
bitfld.long 0x00 16. "                     OTGADEVSESSENDDETEVNTEN          ,A-device Session End Detected Event Enable. - dis. - en." "dis,en"
textline "                             "
bitfld.long 0x00 11. " OTGBDEVHOSTENDEVNTEN                ,B-device Host End Event Enable. - dis. - en." "dis,en"
bitfld.long 0x00 10. "                  OTGBDEVHNPCHNGEVNTEN          ,B-device HNP Change Event Enable. - dis. - en." "dis,en"
bitfld.long 0x00 9. "                     OTGBDEVSESSVLDDETEVNTEN          ,B-device Session Valid Detected Event Enable. - dis. - en." "dis,en"
textline "                             "
bitfld.long 0x00 8. " OTGBDEVVBUSCHNGEVNTEN               ,B-device VBUS Change Event Enable. - dis. - en." "dis,en"
rgroup.long 0xCC10++0x3
line.long 0x00 "USB_OSTS,OTG status"
bitfld.long 0x00 8.--11. " OTGSTATE                            ,[A-device and B-device] OTG state machine state, for debug. Default value can vary depending on integration. - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - ." "a_idle,a_wait_vrise,a_wait_bcon,a_wait_vfall,a_vbus_err,a_host,a_suspend,a_peripheral,a_wait_ppwr,b_idle,b_srp_init,b_peripheral,b_wait_acon,b_host,a_wait_switch,b_wait_switch"
bitfld.long 0x00 4. "        PERIPHERALSTATE               ,[A-device and B-device] Current role of the controller - . - ." "Host,Peripheral"
bitfld.long 0x00 3. "              XHCIPRTPOWER                     ,[A-device] xHCI host port power. Reflects host bit fieldUSB_PORTSC1/2[9] PP." "0,1"
textline "                             "
bitfld.long 0x00 2. " BSESVLD                             ,[B-device] VBUS B-session valid status - . - ." "0,B-session_is_valid."
bitfld.long 0x00 1. "  VBUSVLD                       ,[A-device] VBUS valid status - . - ." "0,VBUS_is_valid."
bitfld.long 0x00 0. "          CONIDSTS                         ,[A-device and B-device] Connector ID status. Default value can vary depending on integration. - . - ." "Core_is_A-device.,Core_is_B-device."
width 0x0B
tree.end
tree "USB_DWC2"
base ad:0x488D0000
tree "Channel_0"
width 20.
group.long 0x480++0x3
line.long 0x00 "USB_DB_j_0,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC808++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_0,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC804++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_0,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC800++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_0,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC80C++0x3
line.long 0x00 "USB_DEPCMD_i_0,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_1"
width 20.
group.long 0x484++0x3
line.long 0x00 "USB_DB_j_1,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC818++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_1,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC814++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_1,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC810++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_1,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC81C++0x3
line.long 0x00 "USB_DEPCMD_i_1,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_2"
width 20.
group.long 0x488++0x3
line.long 0x00 "USB_DB_j_2,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC828++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_2,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC824++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_2,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC820++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_2,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC82C++0x3
line.long 0x00 "USB_DEPCMD_i_2,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_3"
width 20.
group.long 0x48C++0x3
line.long 0x00 "USB_DB_j_3,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC838++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_3,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC834++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_3,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC830++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_3,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC83C++0x3
line.long 0x00 "USB_DEPCMD_i_3,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_4"
width 20.
group.long 0x490++0x3
line.long 0x00 "USB_DB_j_4,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC848++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_4,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC844++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_4,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC840++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_4,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC84C++0x3
line.long 0x00 "USB_DEPCMD_i_4,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_5"
width 20.
group.long 0x494++0x3
line.long 0x00 "USB_DB_j_5,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC858++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_5,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC854++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_5,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC850++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_5,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC85C++0x3
line.long 0x00 "USB_DEPCMD_i_5,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_6"
width 20.
group.long 0x498++0x3
line.long 0x00 "USB_DB_j_6,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC868++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_6,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC864++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_6,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC860++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_6,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC86C++0x3
line.long 0x00 "USB_DEPCMD_i_6,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_7"
width 20.
group.long 0x49C++0x3
line.long 0x00 "USB_DB_j_7,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC878++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_7,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC874++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_7,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC870++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_7,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC87C++0x3
line.long 0x00 "USB_DEPCMD_i_7,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_8"
width 20.
group.long 0x4A0++0x3
line.long 0x00 "USB_DB_j_8,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC888++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_8,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC884++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_8,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC880++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_8,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC88C++0x3
line.long 0x00 "USB_DEPCMD_i_8,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_9"
width 20.
group.long 0x4A4++0x3
line.long 0x00 "USB_DB_j_9,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC898++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_9,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC894++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_9,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC890++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_9,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC89C++0x3
line.long 0x00 "USB_DEPCMD_i_9,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_10"
width 21.
group.long 0x4A8++0x3
line.long 0x00 "USB_DB_j_10,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC8A8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_10,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC8A4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_10,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC8A0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_10,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC8AC++0x3
line.long 0x00 "USB_DEPCMD_i_10,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_11"
width 21.
group.long 0x4AC++0x3
line.long 0x00 "USB_DB_j_11,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC8B8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_11,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC8B4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_11,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC8B0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_11,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC8BC++0x3
line.long 0x00 "USB_DEPCMD_i_11,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_12"
width 21.
group.long 0x4B0++0x3
line.long 0x00 "USB_DB_j_12,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC8C8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_12,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC8C4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_12,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC8C0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_12,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC8CC++0x3
line.long 0x00 "USB_DEPCMD_i_12,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_13"
width 21.
group.long 0x4B4++0x3
line.long 0x00 "USB_DB_j_13,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC8D8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_13,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC8D4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_13,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC8D0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_13,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC8DC++0x3
line.long 0x00 "USB_DEPCMD_i_13,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_14"
width 21.
group.long 0x4B8++0x3
line.long 0x00 "USB_DB_j_14,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC8E8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_14,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC8E4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_14,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC8E0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_14,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC8EC++0x3
line.long 0x00 "USB_DEPCMD_i_14,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_15"
width 21.
group.long 0x4BC++0x3
line.long 0x00 "USB_DB_j_15,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC8F8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_15,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC8F4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_15,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC8F0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_15,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC8FC++0x3
line.long 0x00 "USB_DEPCMD_i_15,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_16"
width 21.
group.long 0x4C0++0x3
line.long 0x00 "USB_DB_j_16,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC908++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_16,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC904++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_16,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC900++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_16,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC90C++0x3
line.long 0x00 "USB_DEPCMD_i_16,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_17"
width 21.
group.long 0x4C4++0x3
line.long 0x00 "USB_DB_j_17,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC918++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_17,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC914++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_17,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC910++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_17,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC91C++0x3
line.long 0x00 "USB_DEPCMD_i_17,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_18"
width 21.
group.long 0x4C8++0x3
line.long 0x00 "USB_DB_j_18,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC928++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_18,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC924++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_18,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC920++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_18,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC92C++0x3
line.long 0x00 "USB_DEPCMD_i_18,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_19"
width 21.
group.long 0x4CC++0x3
line.long 0x00 "USB_DB_j_19,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC938++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_19,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC934++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_19,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC930++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_19,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC93C++0x3
line.long 0x00 "USB_DEPCMD_i_19,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_20"
width 21.
group.long 0x4D0++0x3
line.long 0x00 "USB_DB_j_20,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC948++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_20,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC944++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_20,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC940++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_20,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC94C++0x3
line.long 0x00 "USB_DEPCMD_i_20,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_21"
width 21.
group.long 0x4D4++0x3
line.long 0x00 "USB_DB_j_21,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC958++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_21,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC954++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_21,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC950++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_21,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC95C++0x3
line.long 0x00 "USB_DEPCMD_i_21,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_22"
width 21.
group.long 0x4D8++0x3
line.long 0x00 "USB_DB_j_22,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC968++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_22,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC964++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_22,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC960++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_22,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC96C++0x3
line.long 0x00 "USB_DEPCMD_i_22,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_23"
width 21.
group.long 0x4DC++0x3
line.long 0x00 "USB_DB_j_23,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC978++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_23,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC974++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_23,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC970++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_23,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC97C++0x3
line.long 0x00 "USB_DEPCMD_i_23,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_24"
width 21.
group.long 0x4E0++0x3
line.long 0x00 "USB_DB_j_24,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC988++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_24,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC984++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_24,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC980++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_24,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC98C++0x3
line.long 0x00 "USB_DEPCMD_i_24,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_25"
width 21.
group.long 0x4E4++0x3
line.long 0x00 "USB_DB_j_25,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC998++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_25,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC994++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_25,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC990++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_25,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC99C++0x3
line.long 0x00 "USB_DEPCMD_i_25,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_26"
width 21.
group.long 0x4E8++0x3
line.long 0x00 "USB_DB_j_26,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC9A8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_26,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC9A4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_26,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC9A0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_26,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC9AC++0x3
line.long 0x00 "USB_DEPCMD_i_26,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_27"
width 21.
group.long 0x4EC++0x3
line.long 0x00 "USB_DB_j_27,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC9B8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_27,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC9B4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_27,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC9B0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_27,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC9BC++0x3
line.long 0x00 "USB_DEPCMD_i_27,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_28"
width 21.
group.long 0x4F0++0x3
line.long 0x00 "USB_DB_j_28,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC9C8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_28,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC9C4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_28,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC9C0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_28,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC9CC++0x3
line.long 0x00 "USB_DEPCMD_i_28,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_29"
width 21.
group.long 0x4F4++0x3
line.long 0x00 "USB_DB_j_29,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC9D8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_29,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC9D4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_29,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC9D0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_29,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC9DC++0x3
line.long 0x00 "USB_DEPCMD_i_29,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_30"
width 21.
group.long 0x4F8++0x3
line.long 0x00 "USB_DB_j_30,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC9E8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_30,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC9E4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_30,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC9E0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_30,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC9EC++0x3
line.long 0x00 "USB_DEPCMD_i_30,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_31"
width 21.
group.long 0x4FC++0x3
line.long 0x00 "USB_DB_j_31,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC9F8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_31,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC9F4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_31,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC9F0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_31,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC9FC++0x3
line.long 0x00 "USB_DEPCMD_i_31,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x500++0x3
line.long 0x00 "USB_DB_j_32,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x504++0x3
line.long 0x00 "USB_DB_j_33,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x508++0x3
line.long 0x00 "USB_DB_j_34,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x50C++0x3
line.long 0x00 "USB_DB_j_35,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x510++0x3
line.long 0x00 "USB_DB_j_36,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x514++0x3
line.long 0x00 "USB_DB_j_37,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x518++0x3
line.long 0x00 "USB_DB_j_38,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x51C++0x3
line.long 0x00 "USB_DB_j_39,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x520++0x3
line.long 0x00 "USB_DB_j_40,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x524++0x3
line.long 0x00 "USB_DB_j_41,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x528++0x3
line.long 0x00 "USB_DB_j_42,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x52C++0x3
line.long 0x00 "USB_DB_j_43,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x530++0x3
line.long 0x00 "USB_DB_j_44,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x534++0x3
line.long 0x00 "USB_DB_j_45,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x538++0x3
line.long 0x00 "USB_DB_j_46,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x53C++0x3
line.long 0x00 "USB_DB_j_47,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x540++0x3
line.long 0x00 "USB_DB_j_48,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x544++0x3
line.long 0x00 "USB_DB_j_49,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x548++0x3
line.long 0x00 "USB_DB_j_50,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x54C++0x3
line.long 0x00 "USB_DB_j_51,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x550++0x3
line.long 0x00 "USB_DB_j_52,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x554++0x3
line.long 0x00 "USB_DB_j_53,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x558++0x3
line.long 0x00 "USB_DB_j_54,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x55C++0x3
line.long 0x00 "USB_DB_j_55,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x560++0x3
line.long 0x00 "USB_DB_j_56,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x564++0x3
line.long 0x00 "USB_DB_j_57,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x568++0x3
line.long 0x00 "USB_DB_j_58,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x56C++0x3
line.long 0x00 "USB_DB_j_59,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x570++0x3
line.long 0x00 "USB_DB_j_60,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x574++0x3
line.long 0x00 "USB_DB_j_61,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x578++0x3
line.long 0x00 "USB_DB_j_62,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x57C++0x3
line.long 0x00 "USB_DB_j_63,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
tree.end
textline ""
width 20.
rgroup.long 0x0++0x3
line.long 0x00 "USB_CAPLENGTH,Capability registers length + host controller interface (HCI) version number"
hexmask.long.word 0x00 16.--31. 1. " HCIVERSION                          ,Host Controller Interface Version (xHCI), in BCD. Set by USB_FLADJ[29] XHCI_REVISION field. - 0_96. - 1_00."
hexmask.long.byte 0x00 0.--7. 1. "                 CAPLENGTH                     ,Capability Register Length: length of the xHCI Capabilities registers bank, in bytes; also the offset of the xHCI Operational registers bank (starting withUSB_USBCMD), with respect to xHCI base (i.e. the ..."
rgroup.long 0x4++0x3
line.long 0x00 "USB_HCSPARAMS1,Host controller structural parameters 1 (xHCI)"
hexmask.long.byte 0x00 24.--31. 1. " MAXPORTS                            ,See xHCI specification."
hexmask.long.word 0x00 8.--18. 1. "                   MAXINTRS                      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "                    MAXSLOTS                         ,See xHCI specification."
rgroup.long 0x8++0x3
line.long 0x00 "USB_HCSPARAMS2,Host controller structural parameters 2 (xHCI)"
bitfld.long 0x00 27.--31. " MAXSCRATCHPADBUFS_LO                ,Max Scratchpad Buffers, lower bits: See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 26. "                   SPR                           ,Scratchpad Restore: See xHCI specification - yes. - no." "no,yes"
bitfld.long 0x00 21.--25. "                     MAXSCRATCHPADBUFS_HI             ,Max Scratchpad Buffers, higher bits: see xHCI 1.0 standard" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                             "
bitfld.long 0x00 4.--7. " ERSTMAX                             ,Event Ring Segment Table Max: See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "                   IST                           ,Isochronous Scheduling Threshold: See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0xC++0x3
line.long 0x00 "USB_HCSPARAMS3,Host controller structural parameters 3 (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " U2_DEVICE_EXIT_LAT                  ,U2 device exit latency: Worst-case latency to transition from U2 to U0, in ?s. Applies to all root hub ports. - . - . - . - ."
hexmask.long.byte 0x00 0.--7. 1. "                 U1_DEVICE_EXIT_LAT            ,U1 device exit latency: Worst-case latency to transition a root hub port link state (PLS) from U1 to U0, in ?s. - . - . - . - ."
rgroup.long 0x10++0x3
line.long 0x00 "USB_HCCPARAMS,Host controller capability parameters (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " XECP                                ,xHCI Extended Capabilties Pointer. 32-bit dword offset, with respect to xHCI base, of the first item of the capability list."
bitfld.long 0x00 12.--15. "                 MAXPSASIZE                    ,Maximum Primary Stream Array Size: See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8. "                      PAE                              ,Parse All Event data: see xHCI 1.0 standard w errata" "0,1"
textline "                             "
bitfld.long 0x00 7. " NSS                                 ,No Secondary SID Support See xHCI specification" "0,1"
bitfld.long 0x00 6. "                    LTC                           ,Latency Tolerance messaging Capability See xHCI specification" "0,1"
bitfld.long 0x00 5. "                       LHRC                             ,Light HC Reset Capability: See xHCI specification" "0,1"
textline "                             "
bitfld.long 0x00 4. " PIND                                ,Port Indicators: See xHCI specification" "0,1"
bitfld.long 0x00 3. "                    PPC                           ,Port Power Control: See xHCI specification" "0,1"
bitfld.long 0x00 2. "                       CSZ                              ,Context Size: See xHCI specification" "0,1"
textline "                             "
bitfld.long 0x00 1. " BNC                                 ,Bandwidth Negotiation Capability: See xHCI specification" "0,1"
bitfld.long 0x00 0. "                    AC64                          ,64-bit Address Capability: See xHCI specification" "0,1"
rgroup.long 0x14++0x3
line.long 0x00 "USB_DBOFF,Doorbell offset (xHCI): Byte offset of the doorbell register array (, with respect to the xHCI base (that is, register)"
hexmask.long 0x00 2.--31. 1. " DOORBELL_ARRAY_OFFSET               ,Byte address offset MSBs"
bitfld.long 0x00 0.--1. "             ZERO                          ,Byte address offset LSBs, always 0 (offset is 32-bit = 4-byte aligned)" "0,1,2,3"
rgroup.long 0x18++0x3
line.long 0x00 "USB_RTSOFF,RunTime space offset (xHCI): Byte offset of the runtime register bank (starting with), with respect to the xHCI base (that is, register)"
hexmask.long 0x00 5.--31. 1. " RUNTIME_REG_SPACE_OFFSET            ,Byte address offset MSBs"
bitfld.long 0x00 0.--4. "             ZERO                          ,Byte address offset LSBs, always 0 (offset is 32-byte aligned)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x20++0x3
line.long 0x00 "USB_USBCMD,USB command register (xHCI)"
bitfld.long 0x00 11. " EU3S                                ,Enable U3 MFINDEX Stop: See xHCI specification" "0,1"
bitfld.long 0x00 10. "                    EWE                           ,Enable Wrap Event: See xHCI specification" "0,1"
bitfld.long 0x00 9. "                       CRS                              ,Controller Restore State: See xHCI specification" "0,1"
textline "                             "
bitfld.long 0x00 8. " CSS                                 ,Controller Save State: See xHCI specification" "0,1"
bitfld.long 0x00 7. "                    LHCRST                        ,Light Host Controller Reset: See xHCI specification" "0,1"
bitfld.long 0x00 3. "                       HSEE                             ,Host System Error Enable: See xHCI specification" "0,1"
textline "                             "
bitfld.long 0x00 2. " INTE                                ,Interrupter Enable: See xHCI specification" "0,1"
bitfld.long 0x00 1. "                    HCRST                         ,Host Controller Reset: See xHCI specification" "0,1"
bitfld.long 0x00 0. "                       R_S                              ,Run/Stop: See xHCI specification" "0,1"
group.long 0x24++0x3
line.long 0x00 "USB_USBSTS,USB status register (xHCI)"
bitfld.long 0x00 12. " HCE                                 ,Host Controller Error: See xHCI specification." "0,1"
bitfld.long 0x00 11. "                    CNR                           ,Controller not ready (see xHCI specification). Runtime or other operational registers are not accessed until field is cleared. Beyond xHCI (that is, USB host mode) functionality, indicates when the res..." "ready,not_ready"
eventfld.long 0x00 10. "               SRE                              ,Save/Restore Error: See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 9. " RSS                                 ,Restore State Status: See xHCI specification." "0,1"
bitfld.long 0x00 8. "                    SSS                           ,Save State Status: See xHCI specification." "0,1"
eventfld.long 0x00 4. "                       PCD                              ,Port Change Detect: See xHCI specification." "0,1"
textline "                             "
eventfld.long 0x00 3. " EINT                                ,Event Interrupt: See xHCI specification." "0,1"
eventfld.long 0x00 2. "                    HSE                           ,Host System Error: See xHCI specification." "0,1"
bitfld.long 0x00 0. "                       HCH                              ,Host Controller Halted: See xHCI specification." "0,1"
rgroup.long 0x28++0x3
line.long 0x00 "USB_PAGESIZE,Page size register (xHCI)"
hexmask.long.word 0x00 0.--15. 1. " PAGE_SIZE                           ,Supported system memory page size. See xHCI specification. When bit n is set to 1, a page size of 2^(n+12) is supported. - ."
group.long 0x34++0x3
line.long 0x00 "USB_DNCTRL,Device notification control register (xHCI)"
bitfld.long 0x00 15. " N15                                 ,See xHCI specification." "0,1"
bitfld.long 0x00 14. "                    N14                           ,See xHCI specification." "0,1"
bitfld.long 0x00 13. "                       N13                              ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 12. " N12                                 ,See xHCI specification." "0,1"
bitfld.long 0x00 11. "                    N11                           ,See xHCI specification." "0,1"
bitfld.long 0x00 10. "                       N10                              ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 9. " N9                                  ,See xHCI specification." "0,1"
bitfld.long 0x00 8. "                    N8                            ,See xHCI specification." "0,1"
bitfld.long 0x00 7. "                       N7                               ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 6. " N6                                  ,See xHCI specification." "0,1"
bitfld.long 0x00 5. "                    N5                            ,See xHCI specification." "0,1"
bitfld.long 0x00 4. "                       N4                               ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 3. " N3                                  ,See xHCI specification." "0,1"
bitfld.long 0x00 2. "                    N2                            ,See xHCI specification." "0,1"
bitfld.long 0x00 1. "                       N1                               ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 0. " N0                                  ,See xHCI specification." "0,1"
group.long 0x38++0x3
line.long 0x00 "USB_CRCR_LO,Command ring control register, lower half (xHCI)"
hexmask.long 0x00 6.--31. 1. " CMD_RING_PNTR                       ,See xHCI specification."
bitfld.long 0x00 3. "             CRR                           ,See xHCI specification." "0,1"
bitfld.long 0x00 2. "                       CA                               ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 1. " CS                                  ,See xHCI specification." "0,1"
bitfld.long 0x00 0. "                    RCS                           ,See xHCI specification." "0,1"
group.long 0x3C++0x3
line.long 0x00 "USB_CRCR_HI,Command ring control register, upper half (xHCI)"
hexmask.long 0x00 0.--31. 1. " CMD_RING_PNTR                       ,See xHCI specification."
group.long 0x50++0x3
line.long 0x00 "USB_DCBAAP_LO,Device context base address array pointer, lower half (xHCI)"
hexmask.long 0x00 6.--31. 1. " DEVICE_CONTEXT_BAAP                 ,See xHCI specification."
group.long 0x54++0x3
line.long 0x00 "USB_DCBAAP_HI,Device context base address array pointer, upper half (xHCI)"
hexmask.long 0x00 0.--31. 1. " DEVICE_CONTEXT_BAAP                 ,See xHCI specification."
group.long 0x58++0x3
line.long 0x00 "USB_CONFIG,Configure (xHCI)"
hexmask.long.byte 0x00 0.--7. 1. " MAXSLOTSEN                          ,See xHCI specification."
group.long 0x420++0x3
line.long 0x00 "USB_PORTSC1,Port 1 (USB2.0) status and control (xHCI)"
bitfld.long 0x00 31. " WPR                                 ,See xHCI specification" "0,1"
bitfld.long 0x00 30. "                    DR                            ,See xHCI specification" "0,1"
bitfld.long 0x00 27. "                       WOE                              ,See xHCI specification" "0,1"
textline "                             "
bitfld.long 0x00 26. " WDE                                 ,See xHCI specification" "0,1"
bitfld.long 0x00 25. "                    WCE                           ,See xHCI specification" "0,1"
bitfld.long 0x00 24. "                       CAS                              ,See xHCI specification" "0,1"
textline "                             "
eventfld.long 0x00 23. " CEC                                 ,See xHCI specification" "0,1"
eventfld.long 0x00 22. "                    PLC                           ,See xHCI specification" "0,1"
eventfld.long 0x00 21. "                       PRC                              ,See xHCI specification" "0,1"
textline "                             "
eventfld.long 0x00 20. " OCC                                 ,See xHCI specification" "0,1"
eventfld.long 0x00 19. "                    WRC                           ,See xHCI specification" "0,1"
eventfld.long 0x00 18. "                       PEC                              ,See xHCI specification" "0,1"
textline "                             "
eventfld.long 0x00 17. " CSC                                 ,See xHCI specification" "0,1"
bitfld.long 0x00 16. "                    LWS                           ,See xHCI specification" "0,1"
bitfld.long 0x00 14.--15. "                       PIC                              ,See xHCI specification" "0,1,2,3"
textline "                             "
bitfld.long 0x00 10.--13. " PORTSPEED                           ,See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 9. "                   PP                            ,See xHCI specification" "0,1"
bitfld.long 0x00 5.--8. "                       PLS                              ,See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 4. " PR                                  ,See xHCI specification" "0,1"
bitfld.long 0x00 3. "                    OCA                           ,See xHCI specification" "0,1"
eventfld.long 0x00 1. "                       PED                              ,See xHCI specification" "0,1"
textline "                             "
bitfld.long 0x00 0. " CCS                                 ,See xHCI specification" "0,1"
group.long 0x424++0x3
line.long 0x00 "USB_PORTPMSC1,Port 1 (USB2.0) Power mManagement status and control (xHCI) Note that the PMSC register makeup is protocol-dependent (here: USB2.0)"
bitfld.long 0x00 28.--31. " PORT_TEST_CONTROL                   ,See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16. "                   HLE                           ,See xHCI specification" "0,1"
hexmask.long.byte 0x00 8.--15. 1. "                       L1_DEVICE_SLOT                   ,See xHCI specification"
textline "                             "
bitfld.long 0x00 4.--7. " BESL                                ,See xHCI 1.0 standard w. errata" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 3. "                   RWE                           ,See xHCI specification" "0,1"
bitfld.long 0x00 0.--2. "                       L1S                              ,See xHCI specification" "0,1,2,3,4,5,6,7"
rgroup.long 0x428++0x3
line.long 0x00 "USB_PORTLI1,Port 1 (USB2.0) link info (xHCI)"
hexmask.long.word 0x00 0.--15. 1. " LINK_ERROR_COUNT                    ,See xHCI specification."
group.long 0x42C++0x3
line.long 0x00 "USB_PORTHLPMC1,Port 1 (USB2.0) Hardware LPM Control (xHCI) Field structure is protocol-dependent (here: USB2.0)"
bitfld.long 0x00 10.--13. " BESLD                               ,See xHCI 1.0 standard w errata" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 2.--9. 1. "                   L1_TIMEOUT                    ,See xHCI 1.0 standard w errata"
bitfld.long 0x00 0.--1. "                      HIRDM                            ,See xHCI 1.0 standard w errata" "0,1,2,3"
group.long 0x430++0x3
line.long 0x00 "USB_PORTSC2,Port 2 (USB3.0) status and control (xHCI)"
bitfld.long 0x00 31. " WPR                                 ,See xHCI specification" "0,1"
bitfld.long 0x00 30. "                    DR                            ,See xHCI specification" "0,1"
bitfld.long 0x00 27. "                       WOE                              ,See xHCI specification" "0,1"
textline "                             "
bitfld.long 0x00 26. " WDE                                 ,See xHCI specification" "0,1"
bitfld.long 0x00 25. "                    WCE                           ,See xHCI specification" "0,1"
bitfld.long 0x00 24. "                       CAS                              ,See xHCI specification" "0,1"
textline "                             "
eventfld.long 0x00 23. " CEC                                 ,See xHCI specification" "0,1"
eventfld.long 0x00 22. "                    PLC                           ,See xHCI specification" "0,1"
eventfld.long 0x00 21. "                       PRC                              ,See xHCI specification" "0,1"
textline "                             "
eventfld.long 0x00 20. " OCC                                 ,See xHCI specification" "0,1"
eventfld.long 0x00 19. "                    WRC                           ,See xHCI specification" "0,1"
eventfld.long 0x00 18. "                       PEC                              ,See xHCI specification" "0,1"
textline "                             "
eventfld.long 0x00 17. " CSC                                 ,See xHCI specification" "0,1"
bitfld.long 0x00 16. "                    LWS                           ,See xHCI specification" "0,1"
bitfld.long 0x00 14.--15. "                       PIC                              ,See xHCI specification" "0,1,2,3"
textline "                             "
bitfld.long 0x00 10.--13. " PORTSPEED                           ,See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 9. "                   PP                            ,See xHCI specification" "0,1"
bitfld.long 0x00 5.--8. "                       PLS                              ,See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 4. " PR                                  ,See xHCI specification" "0,1"
bitfld.long 0x00 3. "                    OCA                           ,See xHCI specification" "0,1"
eventfld.long 0x00 1. "                       PED                              ,See xHCI specification" "0,1"
textline "                             "
bitfld.long 0x00 0. " CCS                                 ,See xHCI specification" "0,1"
group.long 0x434++0x3
line.long 0x00 "USB_PORTPMSC2,Port 2 (USB3.0) power management (LPM) status and control (xHCI) Note that the PMSC register makeup is protocol-dependent (here: USB3.0)"
bitfld.long 0x00 16. " FLA                                 ,See xHCI specification" "0,1"
hexmask.long.byte 0x00 8.--15. 1. "                    U2_TIMEOUT                    ,See xHCI specification"
hexmask.long.byte 0x00 0.--7. 1. "                      U1_TIMEOUT                       ,See xHCI specification"
rgroup.long 0x438++0x3
line.long 0x00 "USB_PORTLI2,Port 2 (USB3.0) link info (xHCI)"
hexmask.long.word 0x00 0.--15. 1. " LINK_ERROR_COUNT                    ,See xHCI specification."
group.long 0x43C++0x3
line.long 0x00 "USB_PORTHLPMC2,Port 2 (USB3.0) Hardware LPM Control (xHCI) Field structure is protocol-dependent (here: USB3.0)"
rgroup.long 0x440++0x3
line.long 0x00 "USB_MFINDEX,Microframe index (xHCI)"
hexmask.long.word 0x00 0.--13. 1. " MICROFRAME_INDEX                    ,See xHCI specification."
group.long 0x460++0x3
line.long 0x00 "USB_IMAN,Interrupter Management (xHCI)"
bitfld.long 0x00 1. " IE                                  ,Interrupt enable - DIS. - EN." "DIS,EN"
eventfld.long 0x00 0. "                  IP                            ,Interrupt pending. Set (to 1) when: IE = 1,USB_IMOD[31:16] IMODC = 0, the associated event ring is not empty, USB_ERDP_LO[3] EHB = 0. - IDLE. - PENDING." "IDLE,PENDING"
group.long 0x464++0x3
line.long 0x00 "USB_IMOD,Interrupter moderation (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " IMODC                               ,Interrupt moderation counter: Loaded to IMODI whenever IP is cleared to 0, counts down to 0, and stops. IRQ is generated when counter is 0, event ring is not empty, USB_IMAN[1] IE = 1, USB_IMAN[0] IP = 1, USB_ERDP_..."
hexmask.long.word 0x00 0.--15. 1. "                 IMODI                         ,Interrupt moderation interval: Minimum inter-IRQ interval, in 250-ns increments. - . - . - ."
group.long 0x468++0x3
line.long 0x00 "USB_ERSTSZ,Event ring segment table size (xHCI)"
hexmask.long.word 0x00 0.--15. 1. " ERS_TABLE_SIZE                      ,See xHCI specification."
group.long 0x470++0x3
line.long 0x00 "USB_ERSTBA_LO,Event ring segment table base address, lower half (xHCI)"
hexmask.long 0x00 6.--31. 1. " ERS_TABLE_BAR                       ,See xHCI specification."
group.long 0x474++0x3
line.long 0x00 "USB_ERSTBA_HI,Event ring segment table base address, upper half (xHCI)"
hexmask.long 0x00 0.--31. 1. " ERS_TABLE_BAR                       ,See xHCI specification."
group.long 0x478++0x3
line.long 0x00 "USB_ERDP_LO,Event ring dequeue pointer, lower half (xHCI)"
hexmask.long 0x00 4.--31. 1. " ERD_PNTR                            ,See xHCI specification."
eventfld.long 0x00 3. "             EHB                           ,See xHCI specification." "0,1"
bitfld.long 0x00 0.--2. "                       DESI                             ,See xHCI specification." "0,1,2,3,4,5,6,7"
group.long 0x47C++0x3
line.long 0x00 "USB_ERDP_HI,Event ring dequeue pointer, upper half (xHCI)"
hexmask.long 0x00 0.--31. 1. " ERD_PNTR                            ,See xHCI specification."
group.long 0x880++0x3
line.long 0x00 "USB_USBLEGSUP,USB legacy support capability"
bitfld.long 0x00 24. " HCOOS                               ,HC OS Owned Semaphore: See xHCI specification" "0,1"
bitfld.long 0x00 16. "                    HCBOS                         ,HC BIOS Owned Semaphore: See xHCI specification" "0,1"
hexmask.long.byte 0x00 8.--15. 1. "                       NCP                              ,Next Capability Pointer: 32-bit dword offset of the next capability. - eol."
textline "                             "
hexmask.long.byte 0x00 0.--7. 1. " ECID                                ,Extended Capability ID code (descriptor size, in bytes) - prot. - legacy. - dbc."
group.long 0x884++0x3
line.long 0x00 "USB_USBLEGCTLSTS,USB legacy control/status"
eventfld.long 0x00 31. " SB                                  ,See xHCI specification." "0,1"
eventfld.long 0x00 30. "                    SPC                           ,See xHCI specification." "0,1"
eventfld.long 0x00 29. "                       SOOC                             ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 20. " SHSE                                ,See xHCI specification." "0,1"
bitfld.long 0x00 16. "                    SEI                           ,See xHCI specification." "0,1"
bitfld.long 0x00 15. "                       SBE                              ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 14. " SPCE                                ,See xHCI specification." "0,1"
bitfld.long 0x00 13. "                    SOOE                          ,See xHCI specification." "0,1"
bitfld.long 0x00 4. "                       SHSEE                            ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 0. " USE                                 ,See xHCI specification." "0,1"
rgroup.long 0x890++0x3
line.long 0x00 "USB_SUPTPRT2_DW0,Supported protocol capability USB2.0, 32-bit dword 0"
hexmask.long.byte 0x00 24.--31. 1. " MAJREV                              ,Major Revision, BCD-encoded"
hexmask.long.byte 0x00 16.--23. 1. "                   MINREV                        ,Minor Revision, BCD-encoded"
hexmask.long.byte 0x00 8.--15. 1. "                      NCP                              ,Next Capability Pointer: 32-bit dword offset of the next capability. - eol."
textline "                             "
hexmask.long.byte 0x00 0.--7. 1. " ECID                                ,Extended Capability ID code (descriptor size, in bytes) - prot. - legacy. - dbc."
rgroup.long 0x894++0x3
line.long 0x00 "USB_SUPTPRT2_DW1,Supported protocol capability USB2.0, 32-bit dword 1: Name String 'USB '"
hexmask.long.byte 0x00 24.--31. 1. " CHAR3                               ,ASCII ' ' (space)"
hexmask.long.byte 0x00 16.--23. 1. "                   CHAR2                         ,ASCII 'B'"
hexmask.long.byte 0x00 8.--15. 1. "                      CHAR1                            ,ASCII 'S'"
textline "                             "
hexmask.long.byte 0x00 0.--7. 1. " CHAR0                               ,ASCII 'U'"
rgroup.long 0x898++0x3
line.long 0x00 "USB_SUPTPRT2_DW2,Supported protocol capability USB2.0, 32-bit dword 2"
bitfld.long 0x00 28.--31. " PSIC                                ,Port Speed ID Count. Reserved in xHCI 0.96 - all." "all,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 19. "                  HLC                           ,Hardware LPM Capability." "0,1"
bitfld.long 0x00 18. "                       IHI                              ,Integrated Hub Implemented." "0,1"
textline "                             "
bitfld.long 0x00 17. " HSO                                 ,High-Speed Only" "0,1"
hexmask.long.byte 0x00 8.--15. 1. "                    CPC                           ,Compatible Port Count: Number of consecutive ports of the root hub that support this protocol, from CPO to CPO+CPC-1"
hexmask.long.byte 0x00 0.--7. 1. "                      CPO                              ,Compatible Port Offset: Starting port number of root hub port(s) that support this protocol."
rgroup.long 0x89C++0x3
line.long 0x00 "USB_SUPTPRT2_DW3,Supported protocol capability USB2.0, 32-bit dword 3"
bitfld.long 0x00 0.--4. " PST                                 ,Protocol Slot Type, see xHCI 1.0 standard w errata" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rgroup.long 0x8A0++0x3
line.long 0x00 "USB_SUPTPRT3_DW0,Supported protocol capability USB3.0, 32-bit dword 0"
hexmask.long.byte 0x00 24.--31. 1. " MAJREV                              ,Major Revision, BCD-encoded"
hexmask.long.byte 0x00 16.--23. 1. "                   MINREV                        ,Minor Revision, BCD-encoded"
hexmask.long.byte 0x00 8.--15. 1. "                      NCP                              ,Next Capability Pointer: 32-bit dword offset of the next capability. - eol."
textline "                             "
hexmask.long.byte 0x00 0.--7. 1. " ECID                                ,Extended Capability ID code (descriptor size, in bytes) - prot. - legacy. - dbc."
rgroup.long 0x8A4++0x3
line.long 0x00 "USB_SUPTPRT3_DW1,Supported protocol capability USB3.0, 32-bit dword 1: Name String 'USB '"
hexmask.long.byte 0x00 24.--31. 1. " CHAR3                               ,ASCII ' ' (space)"
hexmask.long.byte 0x00 16.--23. 1. "                   CHAR2                         ,ASCII 'B'"
hexmask.long.byte 0x00 8.--15. 1. "                      CHAR1                            ,ASCII 'S'"
textline "                             "
hexmask.long.byte 0x00 0.--7. 1. " CHAR0                               ,ASCII 'U'"
rgroup.long 0x8A8++0x3
line.long 0x00 "USB_SUPTPRT3_DW2,Supported protocol capability USB3.0, 32-bit dword 2"
bitfld.long 0x00 28.--31. " PSIC                                ,Port Speed ID Count. Reserved in xHCI 0.96 - ss." "ss,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 8.--15. 1. "                   CPC                           ,Compatible Port Count: Number of consecutive ports of the root hub that support this protocol, from CPO to CPO+CPC-1"
hexmask.long.byte 0x00 0.--7. 1. "                      CPO                              ,Compatible Port Offset: Starting port number of root hub port(s) that support this protocol."
rgroup.long 0x8AC++0x3
line.long 0x00 "USB_SUPTPRT3_DW3,Supported protocol capability USB3.0, 32-bit dword 3"
bitfld.long 0x00 0.--4. " PST                                 ,Protocol Slot Type, see xHCI 1.0 standard with errata" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xC100++0x3
line.long 0x00 "USB_GSBUSCFG0,Global device Bus Configuration Register 0"
bitfld.long 0x00 12. " DESCBIGEND                          ,Endian mode for descriptor accesses. - little. - big." "little,big"
bitfld.long 0x00 11. "               DATBIGEND                     ,Endian mode for data accesses. - little. - big." "little,big"
bitfld.long 0x00 7. "                  INCR256BRSTENA                   ,INCR256 Burst Type Enable. 256?64/8= 2-kByte burst." "0,1"
textline "                             "
bitfld.long 0x00 6. " INCR128BRSTENA                      ,INCR128 Burst Type Enable. 128?64/8= 1-kByte burst." "0,1"
bitfld.long 0x00 5. "                    INCR64BRSTENA                 ,INCR64 Burst Type Enable. 64?64/8= 512-Byte burst." "0,1"
bitfld.long 0x00 4. "                       INCR32BRSTENA                    ,INCR32 Burst Type Enable. 32?64/8= 256-Byte burst." "0,1"
textline "                             "
bitfld.long 0x00 3. " INCR16BRSTENA                       ,INCR16 Burst Type Enable. 16?64/8= 128-Byte burst." "0,1"
bitfld.long 0x00 2. "                    INCR8BRSTENA                  ,INCR8 Burst Type Enable. 8?64/8= 64-Byte burst." "0,1"
bitfld.long 0x00 1. "                       INCR4BRSTENA                     ,INCR4 Burst Type Enable. 4?64/8= 32-Byte burst: RECOMMENDED Enables bursts of beat length 1, 2, 3, 4, and prevents (16-byte) descriptor accesses from being broken up: highly recommended." "0,1"
textline "                             "
bitfld.long 0x00 0. " INCRBRSTENA                         ,Undefined Length INCR Burst Type Enable: DO NOT ENABLE When enabled, this has higher priority than other burst types." "0,1"
group.long 0xC104++0x3
line.long 0x00 "USB_GSBUSCFG1,Global device bus configuration register 1"
bitfld.long 0x00 12. " EN1KPAGE                            ,1k-page boundary enable - DIS. - EN." "DIS,EN"
bitfld.long 0x00 8.--11. "                  PIPETRANSLIMIT                ,Maximum number of outstanding (read or write) pipelined sequential (i.e. in-order) transaction requests on the master interface (field value+1) - . - . - ." "Single_request_mode.,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xC108++0x3
line.long 0x00 "USB_GTXTHRCFG,Global TX threshold control register. Valid only in Host mode."
bitfld.long 0x00 29. " USBTXPKTCNTSEL                      ,USB Transmit Packet Count Enable: Enables/disables USB trasnmission multi-packet thresholding - dis. - en." "dis,en"
bitfld.long 0x00 24.--27. "                  USBTXPKTCNT                   ,USB Transmit Packet Count : Number of packets that must be in the TXFIFO before transmission for the corresponding USB transaction (burst) can start. Don't care if USBTXPKTCNTSEL=0. - max. - dis. - min." "dis,min,2,3,4,5,6,7,8,9,10,11,12,13,14,max"
hexmask.long.byte 0x00 16.--23. 1. "                     USBMAXTXBURSTSIZE                ,USB Maximum Transmit Burst Size. Max OUT burst size, when USBTXPKTCNTSEL=1. Avoids TX FIFO underrun when the system bus is slower than the USB. Only applies to SS Bulk / Iso / Int OUT endpoints in ..."
group.long 0xC10C++0x3
line.long 0x00 "USB_GRXTHRCFG,Global RX Threshold Control Register"
bitfld.long 0x00 29. " USBRXPKTCNTSEL                      ,USB ReceivePacket Count Enable Enables/disables USB reception multi-packet thresholding - dis. - en." "dis,en"
bitfld.long 0x00 24.--27. "                  USBRXPKTCNT                   ,USB Receive Packet Count: Number of packets that must be available in the RX FIFO before the core can start the corresponding USB RX transaction (burst). Don't care if USBRXPKTCNTSEL=0. - max. - dis. - m..." "dis,min,2,3,4,5,6,7,8,9,10,11,12,13,14,max"
bitfld.long 0x00 19.--23. "                     USBMAXRXBURSTSIZE                ,USB Maximum Receive Burst Size. Maxi IN burst size, when USBRXPKTCNTSEL = 1. When the system bus is slower than the USB, RX FIFO can overrun during a long burst. User can program a smaller value to..." "dis,min,2,3,4,5,6,7,8,9,10,11,12,13,14,15,max,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xC110++0x3
line.long 0x00 "USB_GCTL,Global control register"
hexmask.long.word 0x00 19.--31. 1. " PWRDNSCALE                          ,Power Down Scale: In P3 state, PIPE clock stops and is replaced internally by the suspend clock to create a 16kHz reference. Set field to Fs/16k, rounded up, with Fp suspend clock frequency. Required accuracy is 0-..."
bitfld.long 0x00 18. "                 MASTERFILTBYPASS              ,Master Filter Bypass. Bypasses the double-synchronizers and the 5 ms debounce filters on UTMI+ inputs (the latter are not implemented)." "0,1"
bitfld.long 0x00 17. "                       BYPSSETADDR                      ,Override of the device address, bypassing the SET ADDRESS control transfer. For simulation only. - func. - bypass." "func,bypass"
textline "                             "
bitfld.long 0x00 16. " U2RSTECN                            ,If the super speed connection fails during POLL or LMP exchange, the device connects at non-SS mode. If this bit is set, then device attempts three more times to connect at SS, even if it previously failed to opera..." "0,1"
bitfld.long 0x00 14.--15. "                    FRMSCLDWN                     ,Frame scale-down This field scales down device view of a SOF (FS/LS) / uSOF (HS) / ITP (SS) duration. - 0. - 1. - 3. - 2." "0,1,2,3"
bitfld.long 0x00 12.--13. "                       PRTCAPDIR                        ,Port Capability Direction - hst. - drd. - dev." "0,hst,dev,drd"
textline "                             "
bitfld.long 0x00 11. " CORESOFTRESET                       ,Core Soft Reset. When you reset PHYs (using USB_GUSB2PHYCFG or USB_GUSB3PIPECTL registers), you must keep the core in reset state until PHY clocks are stable. - no. - reset." "no,reset"
bitfld.long 0x00 8. "                DEBUGATTACH                   ,Debug Attach. When this bit is set: a) SS Link proceeds directly to the Polling link state (after RUN/STOP in the USB_DCTL register is asserted) without checking remote termination. b) Link LFPS polling ti..." "0,1"
bitfld.long 0x00 6.--7. "                       RAMCLKSEL                        ,RAM Clock Select. No action, hardware always uses bus clock (config 2'b00) - bus. - pipe. - mac. - pipe_50." "bus,pipe,pipe_50,mac"
textline "                             "
bitfld.long 0x00 4.--5. " SCALEDOWN                           ,Scale-Down Mode Enable Switches to shorter, non-standard protocol time intervals to speed up simulation. DO NOT MODIFY ON ACTUAL HARDWARE. - none. - 1. - 3. - 2." "none,1,2,3"
bitfld.long 0x00 3. "                 DISSCRAMBLE                   ,Disable Scrambling. Transmit request to Link Partner on next transition to Recovery or Polling." "0,1"
bitfld.long 0x00 0. "                       DSBLCLKGTNG                      ,Disable Clock Gating. When this bit is set to 1 and the core is in Low Power mode, internal clock gating is disabled." "0,1"
group.long 0xC118++0x3
line.long 0x00 "USB_GSTS,Global status register"
hexmask.long.word 0x00 20.--31. 1. " CBELT                               ,Current BELT Value In Host mode, this field indicates the minimum value of all received device BELT values and the BELT value that is set by the Set Latency Tolerance Value command."
bitfld.long 0x00 10. "                 OTG_IP                        ,OTG interrupt status - pend. - none." "none,pend"
bitfld.long 0x00 9. "                    BC_IP                            ,Battery Charger interrupt status: NOT IMPLEMENTED" "0,1"
textline "                             "
bitfld.long 0x00 8. " ADP_IP                              ,ADP interrupt status: NOT IMPLEMENTED" "0,1"
bitfld.long 0x00 7. "                    HOST_IP                       ,Host interrupt status - pend. - none." "none,pend"
bitfld.long 0x00 6. "                    DEVICE_IP                        ,Device interrupt status - pend. - none." "none,pend"
textline "                             "
bitfld.long 0x00 5. " CSRTIMEOUT                          ,Control/Status Register access Timeout status flag. - noaction. - clear. - set. - noevent." "noaction,clear"
bitfld.long 0x00 4. "             BUSERRADDRVLD                 ,Bus Error Address Valid status flag. Also flagged onUSB_USBSTS[2] HSE field (host mode) and DEPEVT[12] on XferComplete/XferInProgress event (device mode). - noaction. - clear. - set. - noevent." "noaction,clear"
bitfld.long 0x00 0.--1. "                CURMOD                           ,Current Mode of Operation. - drd. - host. - dev." "dev,host,drd,3"
rgroup.long 0xC120++0x3
line.long 0x00 "USB_GSNPSID,ID Core identification and release number. Software uses this register to configure release-specific features in the driver."
hexmask.long.word 0x00 16.--31. 1. " ID_CORE                             ,Core identifier - id."
hexmask.long.word 0x00 0.--15. 1. "                 ID_REL                        ,Version number For instance, version 1.00a => 0x100A - 1_83a. - 2_02a."
group.long 0xC124++0x3
line.long 0x00 "USB_GGPIO,Global general-purpose input/output register"
hexmask.long.word 0x00 16.--31. 1. " GPO                                 ,General-purpose output. DO NOT USE: NOT CONNECTED."
hexmask.long.word 0x00 0.--15. 1. "                 GPI                           ,General-purpose inputs. TIED LOW."
group.long 0xC128++0x3
line.long 0x00 "USB_GUID,Global user ID register"
hexmask.long 0x00 0.--31. 1. " USERID                              ,Application-programmable ID field"
group.long 0xC12C++0x3
line.long 0x00 "USB_GUCTL,Global user control register"
bitfld.long 0x00 21. " NOEXTRDL                            ,No Extra Delay between SOF and the 1st packet (when host) - dis. - en." "dis,en"
bitfld.long 0x00 18.--20. "                  PSQEXTRRESSP                  ,Protocol Status Queue Extra Reserved Space (Debug only). Additional space in the PSQ reserved before the USB3.0 protocol transaction layer (U3PTL) initiates a new USB transaction and burst beats. - dis. ..." "dis,en,2,3,4,5,6,7"
bitfld.long 0x00 17. "                     SPRSCTRLTRANSEN                  ,Sparse Control Transaction Enable. Valid in host mode only (any speed). - dis. - en." "dis,en"
textline "                             "
bitfld.long 0x00 16. " RESBWHSEPS                          ,Reserving (more) Bandwidth for HS Periodic EPs. Valid in host mode only. - 80. - 85." "80,85"
bitfld.long 0x00 15. "                   CMDEVADDR                     ,Compliance Mode for Device Address. Valid in host mode only. - eq. - diff." "eq,diff"
bitfld.long 0x00 14. "                    USBHSTINAUTORETRYEN              ,Host IN Auto Retry Enable: host core behaviour upon data packet CRC errors or internal overrun scenarios in non-isochronous IN transfers. - dis. - en." "dis,en"
textline "                             "
bitfld.long 0x00 9.--10. " DTCT                                ,Device Timeout Coarse Tuning: time the host waits for a response from device before timeout. Coarse setting. - fine. - 0m5. - 5ms. - 1m5." "fine,0m5,1m5,5ms"
hexmask.long.word 0x00 0.--8. 1. "                 DTFT                          ,Device Timeout Fine Tuning: time the host waits for a response from device before timeout. Fine setting. Timer runs on the 125 MHz clock (8 ns period), timeout is DTFT ? 256 ? 8 ns ~= DTFT ? 2 us Don't ca..."
rgroup.long 0xC130++0x3
line.long 0x00 "USB_GBUSERRADDRLO,Global Bus Error (non-precise) Address, LSbits: Base address of the first system bus DMA transfer that got a bus error. Note that each DMA transfer can contain several bursts, each spanning several addresses. Valid when the[4] BUSERRA..."
hexmask.long 0x00 0.--31. 1. " BUSERRADDRLO                        ,BUSERRADDR[31:0]"
rgroup.long 0xC134++0x3
line.long 0x00 "USB_GBUSERRADDRHI,Global Bus Error (non-precise) Address, MSbits: Base address of the first system bus DMA transfer that got a bus error. Note that each DMA transfer can contain several bursts, each spanning several addresses. Valid when the[4] BUSERRA..."
hexmask.long 0x00 0.--31. 1. " BUSERRADDRHI                        ,BUSERRADDR[63:32]"
group.long 0xC138++0x3
line.long 0x00 "USB_GPRTBIMAPLO,Global port-to-SS USB instance mapping, low bits [31:0]"
bitfld.long 0x00 0.--3. " BINUM1                              ,SS USB instance number for port number 1 Application-programmable ID field" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xC13C++0x3
line.long 0x00 "USB_GPRTBIMAPHI,Global Port-to-SS USB Instance Mapping, high bits [63:32]"
rgroup.long 0xC140++0x3
line.long 0x00 "USB_GHWPARAMS0,Global hardware parameters 0"
hexmask.long.byte 0x00 24.--31. 1. " DWC_USB3_AWIDTH                     ,Global hardware configuration parameter DWC_USB3_AWIDTH: (Master) Address Width (in bits)"
hexmask.long.byte 0x00 16.--23. 1. "                   DWC_USB3_SDWIDTH              ,Global hardware configuration parameter DWC_USB3_SDWIDTH: Slave Data Width (in bits)"
hexmask.long.byte 0x00 8.--15. 1. "                      DWC_USB3_MDWIDTH                 ,Global hardware configuration parameter DWC_USB3_MDWIDTH: Master Data Width (in bits)"
textline "                             "
bitfld.long 0x00 6.--7. " DWC_USB3_SBUS_TYPE                  ,Global hardware configuration parameter DWC_USB3_SBUS_TYPE: (System bus) Slave type - native." "native,1,2,3"
bitfld.long 0x00 3.--5. "               DWC_USB3_MBUS_TYPE            ,Global hardware configuration parameter DWC_USB3_MBUS_TYPE: (System bus) Master type - axi." "0,axi,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     DWC_USB3_MODE                    ,Global hardware configuration parameter DWC_USB3_MODE - drd. - hst. - dev." "dev,hst,drd,3,4,5,6,7"
rgroup.long 0xC144++0x3
line.long 0x00 "USB_GHWPARAMS1,Global hardware parameters 1"
bitfld.long 0x00 30. " DWC_USB3_RM_OPT_FEATURES            ,Global hardware configuration parameter DWC_USB3_RM_OPT_FEATURES: Remove Optional Features - yes. - no." "no,yes"
bitfld.long 0x00 28. "                  DWC_USB3_RAM_BUS_CLKS_SYNC    ,Global hardware configuration parameter DWC_USB3_RAM_BUS_CLKS_SYNC: RAM vs. BUS clocks synchronous ? - yes. - no." "no,yes"
bitfld.long 0x00 27. "                     DWC_USB3_MAC_RAM_CLKS_SYNC       ,Global hardware configuration parameter DWC_USB3_MAC_RAM_CLKS_SYNC: MAC vs. RAM clocks synchronous ? - yes. - no." "no,yes"
textline "                             "
bitfld.long 0x00 26. " DWC_USB3_MAC_PHY_CLKS_SYNC          ,Global hardware configuration parameter DWC_USB3_MAC_PHY_CLKS_SYNC: MAC vs. PHY clocks synchronous ? - yes. - no." "no,yes"
bitfld.long 0x00 24.--25. "                  DWC_USB3_EN_PWROPT            ,Global hardware configuration parameter DWC_USB3_EN_PWROPT: Power optimization - clock_hibernation. - clock. - none." "none,clock,clock_hibernation,3"
bitfld.long 0x00 23. "       DWC_USB3_SPRAM_TYP               ,Global hardware configuration parameter DWC_USB3_SPRAM_TYP - SP." "0,SP"
textline "                             "
bitfld.long 0x00 21.--22. " DWC_USB3_NUM_RAMS                   ,Global hardware configuration parameter DWC_USB3_NUM_RAMS: Number of internal RAMs - 3. - 2. - 1." "0,1,2,3"
bitfld.long 0x00 15.--20. "                    DWC_USB3_DEVICE_NUM_INT       ,Global hardware configuration parameter DWC_USB3_DEVICE_NUM_INT: Number of interrupts (and event buffers) in device mode" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 12.--14. "                      DWC_USB3_ASPACEWIDTH             ,Global hardware configuration parameter DWC_USB3_ASPACEWIDTH" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 9.--11. " DWC_USB3_REQINFOWIDTH               ,Global hardware configuration parameter DWC_USB3_REQINFOWIDTH" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6.--8. "                    DWC_USB3_DATAINFOWIDTH        ,Global hardware configuration parameter DWC_USB3_DATAINFOWIDTH" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3.--5. "                       DWC_USB3_BURSTWIDTH              ,Global hardware configuration parameter DWC_USB3_BURSTWIDTH minus one, fixed to 8-1=7" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 0.--2. " DWC_USB3_IDWIDTH                    ,Global hardware configuration parameter DWC_USB3_IDWIDTH minus 1 Note: Sets only the master port's ID width. Slave ID width is set by non-readable DWC_USB3_SIDWIDTH" "0,1,2,3,4,5,6,7"
rgroup.long 0xC148++0x3
line.long 0x00 "USB_GHWPARAMS2,Global hardware parameters 2"
hexmask.long 0x00 0.--31. 1. " DWC_USB3_USERID                     ,Global hardware configuration parameter DWC_USB3_USERID"
rgroup.long 0xC14C++0x3
line.long 0x00 "USB_GHWPARAMS3,Global hardware parameters 3"
hexmask.long.byte 0x00 23.--30. 1. " DWC_USB3_CACHE_TOTAL_XFER_RESOURCES ,Global hardware configuration parameter DWC_USB3_NUM_CACHE_TOTAL_XFER_RESOURCES: Cache total transfer resources"
bitfld.long 0x00 18.--22. "                   DWC_USB3_NUM_IN_EPS           ,Global hardware configuration parameter DWC_USB3_NUM_IN_EPS: Number of IN endpoints, with EP0 counting as one." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 12.--17. "                      DWC_USB3_NUM_EPS                 ,Global hardware configuration parameter DWC_USB3_NUM_EPS: Total number of endpoints (IN+OUT, with EP0 counting as 2 separate ones)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                             "
bitfld.long 0x00 11. " DWC_USB3_ULPI_CARKIT                ,Global hardware configuration parameter DWC_USB3_ULPI_CARKIT: ULPI (optional) car-kit mode implementation - vc. - no." "no,vc"
bitfld.long 0x00 10. "                   DWC_USB3_VENDOR_CTL_INTERFACE ,Global hardware configuration parameter DWC_USB3_VENDOR_CTL_INTERFACE: (UTMI) Vendor Control i/f implementation - vc. - no." "no,vc"
bitfld.long 0x00 6.--7. "                      DWC_USB3_HSPHY_DWIDTH            ,Global hardware configuration parameter DWC_USB3_HSPHY_DWIDTH: HS PHY data width - 8_16. - 16. - 8." "8,16,8_16,3"
textline "                             "
bitfld.long 0x00 4.--5. " DWC_USB3_FSPHY_INTERFACE            ,Global hardware configuration parameter DWC_USB3_FSPHY_INTERFACE: Full (/Low)-Speed (serial) PHY interface - none." "none,1,2,3"
bitfld.long 0x00 2.--3. "                 DWC_USB3_HSPHY_INTERFACE      ,Global hardware configuration parameter DWC_USB3_HSPHY_INTERFACE: High-speed PHY interface - both. - ulpi. - utmi. - none." "none,utmi,ulpi,both"
bitfld.long 0x00 0.--1. "                    DWC_USB3_SSPHY_INTERFACE         ,Global hardware configuration parameter DWC_USB3_SSPHY_INTERFACE: Super Speed PHY interface. - pipe. - none." "none,pipe,2,3"
rgroup.long 0xC150++0x3
line.long 0x00 "USB_GHWPARAMS4,Global hardware parameters 4"
bitfld.long 0x00 28.--31. " DWC_USB3_BMU_LSP_DEPTH              ,Global hardware configuration parameter DWC_USB3_BMU_LSP_DEPTH: Bus Management Unit / List Processor buffer depth" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "                   DWC_USB3_BMU_PTL_DEPTH        ,Global hardware configuration parameter DWC_USB3_BMU_PTL_DEPTH: Bus Management Unit / Protocol Transaction Layer buffer depth" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "                      DWC_USB3_EN_ISOC_SUPT            ,Global hardware configuration parameter DWC_USB3_EN_ISOC_SUPT: Enable Isochronous Support - iso. - none." "none,iso"
textline "                             "
bitfld.long 0x00 17.--20. " DWC_USB3_NUM_SS_USB_INSTANCES       ,Global hardware configuration parameter DWC_USB3_NUM_SS_USB_INSTANCES: Number of (independent) SS USB schedulers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 13.--16. "                   DWC_USB3_HIBER_SCRATCHBUFS    ,Global hardware configuration parameter DWC_USB3_HIBER_SCRATCHBUFS: Number of 4-kbyte buffers required in system memory to store context during hibernation. Don't care since hibernation is not enabled." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--5. "                      DWC_USB3_CACHE_TRBS_PER_TRANSFER ,Global hardware configuration parameter DWC_USB3_CACHE_TRBS_PER_TRANSFER" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0xC154++0x3
line.long 0x00 "USB_GHWPARAMS5,Global hardware parameters 5"
bitfld.long 0x00 22.--27. " DWC_USB3_DFQ_FIFO_DEPTH             ,Global hardware configuration parameter DWC_USB3_DFQ_FIFO_DEPTH" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 16.--21. "                   DWC_USB3_DWQ_FIFO_DEPTH       ,Global hardware configuration parameter DWC_USB3_DWQ_FIFO_DEPTH" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10.--15. "                      DWC_USB3_TXQ_FIFO_DEPTH          ,Global hardware configuration parameter DWC_USB3_TXQ_FIFO_DEPTH" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                             "
bitfld.long 0x00 4.--9. " DWC_USB3_RXQ_FIFO_DEPTH             ,Global hardware configuration parameter DWC_USB3_RXQ_FIFO_DEPTH" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--3. "                   DWC_USB3_BMU_BUSGM_DEPTH      ,Global hardware configuration parameter DWC_USB3_BMU_BUSGM_DEPTH" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0xC158++0x3
line.long 0x00 "USB_GHWPARAMS6,Global hardware parameters 6"
hexmask.long.word 0x00 16.--31. 1. " DWC_USB3_RAM0_DEPTH                 ,Depth of RAM 0, in 64-bit words. RAM0 contains data cache and Rx FIFOs."
bitfld.long 0x00 15. "                 BUSFLTRSSUPPORT               ,Filtering (debounce) on OTG UTMI+ inputs (iddig,vbusvalid,avalid,bvalid,sessend). Reflects DWC_USB3_EN_OTG_FILTERS. - imp. - no." "no,imp"
bitfld.long 0x00 14. "                     BCSUPPORT                        ,Battery Charger detection (ACA = Accessory Charger Adapter) support implemented internally. Reflects DWC_USB3_EN_BC. Note: Support can also be provided OUTSIDE the controller. - imp. - no." "no,imp"
textline "                             "
bitfld.long 0x00 13. " OTGSSSUPPORT                        ,OTG SuperSpeed support (aka OTG3.0) - yes. - no." "no,yes"
bitfld.long 0x00 12. "                  ADPSUPPORT                    ,OTG2.0 ADP (Attach Detection Protocol) support implemented internally. Reflects DWC_USB3_EN_ADP. Note: Support can also be provided OUTSIDE the controller. - imp. - no." "no,imp"
bitfld.long 0x00 11. "                     HNPSUPPORT                       ,OTG2.0 HNP (Host Negotiation Protocol) support. Set when in DRD mode. - support. - no." "no,support"
textline "                             "
bitfld.long 0x00 10. " SRPSUPPORT                          ,OTG2.0 SRP (Session Request Protocol) support. - support. - no." "no,support"
bitfld.long 0x00 7. "              DWC_USB3_EN_FPGA              ,Global hardware configuration parameter DWC_USB3_EN_FPGA" "0,1"
bitfld.long 0x00 0.--5. "                       DWC_USB3_PSQ_FIFO_DEPTH          ,Global hardware configuration parameter DWC_USB3_PSQ_FIFO_DEPTH" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0xC15C++0x3
line.long 0x00 "USB_GHWPARAMS7,Global hardware parameters 7"
hexmask.long.word 0x00 16.--31. 1. " DWC_USB3_RAM2_DEPTH                 ,Depth of RAM 2, in 64-bit words. RAM2 IS NOT IMPLEMENTED IN 2-RAM CONFIG: don't care"
hexmask.long.word 0x00 0.--15. 1. "                 DWC_USB3_RAM1_DEPTH           ,Depth of RAM 1, in 64-bit words. RAM1 contains Tx FIFOs."
group.long 0xC160++0x3
line.long 0x00 "USB_GDBGFIFOSPACE,Global debug FIFO/queue space available"
hexmask.long.word 0x00 16.--31. 1. " SPACE_AVAILABLE                     ,Space available (in the selected FIFO/queue), 64-bit words"
hexmask.long.byte 0x00 0.--7. 1. "                 FIFOQUEUESELECT_PORTSELECT    ,FIFO/queue select or port select. Default value, when indicated, is the space available when empty, that is, the size of the FIFO/queue. PORTSELECT[3:0] selects the port number when accessing the USB_GDBG..."
rgroup.long 0xC164++0x3
line.long 0x00 "USB_GDBGLTSSM,Global debug LTSSM Port number is defined by [3:0] PORTSELECT"
bitfld.long 0x00 29. " PORTSHUTDOWN                        ," "0,1"
bitfld.long 0x00 28. "                    PORTSWAPPING                  ," "0,1"
bitfld.long 0x00 27. "                       PORTDIRECTION                    ,Current direction of the port. - DS. - US." "US,DS"
textline "                             "
bitfld.long 0x00 26. " LTDBTIMEOUT                         ,LTSSM Debug Timeout" "0,1"
bitfld.long 0x00 22.--25. "                    LTDBLINKSTATE                 ,LTSSM Debug: Link State - U3. - SSdisabled. - Loopback. - U2. - U0. - Compliance. - SSinactive. - U1. - Recovery. - Polling. - HotReset. - RXdetect." "U0,U1,U2,U3,SSdisabled,RXdetect,SSinactive,Polling,Recovery,HotReset,Compliance,Loopback,12,13,14,15"
bitfld.long 0x00 18.--21. "              LTDBSUBSTATE                     ,LTSSM Debug: Link Sub-State. Note that the actual reset value (0x0) changes before the register can be read out." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 17. " ELASTICBUFFERMODE                   ,Debug PIPE Status: ElasticBufferMode" "0,1"
bitfld.long 0x00 16. "                    TXELECIDLE                    ,Debug PIPE Status: TxElecIdle" "0,1"
bitfld.long 0x00 15. "                       RXPOLARITY                       ,Debug PIPE Status: RxPolarity" "0,1"
textline "                             "
bitfld.long 0x00 14. " TXDETRXLOOPBACK                     ,Debug PIPE Status: TxDetRxLoopback" "0,1"
bitfld.long 0x00 11.--13. "                    LTDBPHYCMDSTATE               ,LTSSM Debug Phy Command State. - PHY_PWR_DLY. - PHY_PWR_A. - PHY_DET_3. - PHY_IDLE. - PHY_DET. - PHY_PWR_B." "PHY_IDLE,PHY_DET,PHY_DET_3,PHY_PWR_DLY,PHY_PWR_A,PHY_PWR_B,6,7"
bitfld.long 0x00 9.--10. "             POWERDOWN                        ,Debug PIPE Status: PowerDown" "0,1,2,3"
textline "                             "
bitfld.long 0x00 8. " RXEQTRAIN                           ,Debug PIPE Status: RxEqTrain" "0,1"
bitfld.long 0x00 6.--7. "                    TXDEEMPHASIS                  ,Debug PIPE Status: TxDeemphasis" "0,1,2,3"
bitfld.long 0x00 3.--5. "                       LTDBCLKSTATE                     ,LTSSM Debug Clock State - CLK_P3. - CLK_TO_P0. - CLK_WAIT1. - CLK_NORM. - CLK_TO_P3. - CLK_WAIT2." "CLK_NORM,CLK_TO_P3,CLK_WAIT1,CLK_P3,CLK_TO_P0,CLK_WAIT2,6,7"
textline "                             "
bitfld.long 0x00 2. " TXSWING                             ,Debug PIPE Status: TxSwing" "0,1"
bitfld.long 0x00 1. "                    RXTERMINATION                 ,Debug PIPE Status: RxTermination" "0,1"
bitfld.long 0x00 0. "                       TXONESZEROS                      ,Debug PIPE Status: TxOnesZeros" "0,1"
group.long 0xC170++0x3
line.long 0x00 "USB_GDBGLSPMUX,Global debug LSP MUX, for internal use only"
bitfld.long 0x00 16.--21. " TRACEPORTMUXSEL                     ,Select the 64-bit analyzer trace vector. Not sensitive to warm reset (i.e. including software reset), only to power-on reset. - zero." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,zero"
bitfld.long 0x00 8.--13. "                 HOSTSELECT                    ,Host LSP Select[13:8]. Valid only in Host mode." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 4.--7. "                      DEVSELECT                        ,Host LSP Select[7:4] in Host mode Device LSP Select in Device mode" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 0.--3. " EPSELECT                            ,Host LSP Select[3:0] in Host mode Device LSP Select in Device mode" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0xC174++0x3
line.long 0x00 "USB_GDBGLSP,Global debug LSP, for internal use only"
hexmask.long 0x00 0.--31. 1. " DEBUG                               ,LSP debug information"
rgroup.long 0xC178++0x3
line.long 0x00 "USB_GDBGEPINFO0,Global debug endpoint information register 0"
hexmask.long 0x00 0.--31. 1. " DEBUG                               ,EP debug information"
rgroup.long 0xC17C++0x3
line.long 0x00 "USB_GDBGEPINFO1,Global debug endpoint information register 1"
hexmask.long 0x00 0.--31. 1. " DEBUG                               ,EP debug information"
group.long 0xC180++0x3
line.long 0x00 "USB_GPRTBIMAP_HSLO,Global port to USB instance mapping register, high-speed, low bits [31:0]"
bitfld.long 0x00 0.--3. " BINUM1                              ,HS USB instance number for port number 1 Application-programmable ID field" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xC184++0x3
line.long 0x00 "USB_GPRTBIMAP_HSHI,Global port to USB instance mapping register, high-speed, high bits [63:32]"
group.long 0xC188++0x3
line.long 0x00 "USB_GPRTBIMAP_FSLO,Global port to USB instance mapping register, full/low-speed, low bits [31:0]"
bitfld.long 0x00 0.--3. " BINUM1                              ,FS USB instance number for port number 1 Application-programmable ID field" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xC18C++0x3
line.long 0x00 "USB_GPRTBIMAP_FSHI,Global port to USB instance mapping register, full/low-speed, high bits [63:32]"
group.long 0xC200++0x3
line.long 0x00 "USB_GUSB2PHYCFG,Global USB2.0 (UTMI/ULPI) PHY configuration"
bitfld.long 0x00 31. " PHYSOFTRST                          ,PHY Soft Reset. Active-high, fully static software reset for UTMI USB2.0 transceiver. - inactive. - active." "inactive,active"
bitfld.long 0x00 18. "             ULPIEXTVBUSINDICATOR          ,ULPI External VBUS Indicator Indicates the ULPI PHY VBUS over-current indicator. - int. - ext." "int,ext"
bitfld.long 0x00 17. "                     ULPIEXTVBUSDRV                   ,ULPI External VBUS Drive Selects supply source to drive 5V on VBUS, in the ULPI PHY. - int. - ext." "int,ext"
textline "                             "
bitfld.long 0x00 16. " ULPICLKSUSM                         ,Sets the ClockSuspendM bit in the Interface Control register on the ULPI PHY. Applicable only in serial FS/LS or Carkit modes. NOT APPLICABLE" "0,1"
bitfld.long 0x00 15. "                    ULPIAUTORES                   ,ULPI Auto Resume. Sets the AutoResume bit in Interface Control register on the ULPI PHY. - no. - auto." "no,auto"
bitfld.long 0x00 10.--13. "                    USBTRDTIM                        ,USB 2.0 Turnaround Time, in PHY clock cycles. Specifies the response time for a MAC request to the Packet FIFO Controller (PFC) to fetch data from the DFIFO (SPRAM)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 8. " ENBLSLPM                            ,Enable UTMI Sleep. Controls assertion of utmi_sleep_n, utmi_l1_suspend_n outputs to the PHY when in the L1 state. - no. - yes." "no,yes"
bitfld.long 0x00 7. "                  PHYSEL                        ,PHY Select. (HS vs. serial): Unused, since serial PHY is not supported." "0,1"
bitfld.long 0x00 6. "                       SUSPHY                           ,Suspend enable for USB2.0 HS/FS/LS PHY (ULPI or UTMI). Set to 1 only after core initialization is complete. - 0. - 1." "0,1"
textline "                             "
bitfld.long 0x00 5. " FSINTF                              ,Full-Speed Serial Interface Select. UNUSED." "0,1"
bitfld.long 0x00 4. "                    ULPI_UTMI_SEL                 ,ULPI or UTMI+ Select - utmi. - ulpi." "utmi,ulpi"
bitfld.long 0x00 3. "                    PHYIF                            ,PHY Interface. DO NOT USE. If UTMI+ is selected, configures 8- or 16-bit interface. If ULPI is selected, configures SDR or DDR mode. - zero. - one." "zero,one"
textline "                             "
bitfld.long 0x00 0.--2. " TOUTCAL                             ,HS/FS Timeout Calibration. The number of PHY clocks, as indicated by the application in this field, is multiplied by a bit-time factor; this factor is added to the high-speed/full-speed interpacket timeout duration..." "0,1,2,3,4,5,6,7"
group.long 0xC280++0x3
line.long 0x00 "USB_GUSB2PHYACC,Global USB2.0 PHY access"
bitfld.long 0x00 26. " DISULPIDRVR                         ,Disable ULPI drivers, for carkit mode. Auto-cleared. NOT USED." "0,1"
bitfld.long 0x00 25. "                    NEWREGREQ                     ,New register request. Auto-cleared. - . - . - . - ." "No_action,Access_request_pending"
bitfld.long 0x00 24. "  VSTSDONE                         ,VStatus Done - . - ." "0,access_is_done."
textline "                             "
bitfld.long 0x00 23. " VSTSBSY                             ,VStatus busy - . - ." "Access_is_done.,1"
bitfld.long 0x00 22. "      REGWR                         ,Register write - . - ." "Read,Write"
bitfld.long 0x00 16.--21. "                   REGADDR                          ,Register address ULPI PHY register address for immediate PHY register set access. Set to 6'h2F for extended PHY register set access." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                             "
bitfld.long 0x00 8.--13. " EXTREGADDR                          ,ULPI: PHY extended register address. UTMI+: Unused" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "                   REGDATA                       ,Register data (read and write data)"
group.long 0xC2C0++0x3
line.long 0x00 "USB_GUSB3PIPECTL,Global USB3.0 PIPE control"
bitfld.long 0x00 31. " PHYSOFTRST                          ,PHY Soft Reset. Active-high, fully static software reset for PIPE USB3.0 transceiver. - inactive. - active." "inactive,active"
bitfld.long 0x00 27. "             UX_EXIT_IN_PX                 ,Workaround for SS PHY injecting a glitch on RxElecIdle while receiving Ux exit LFPS, and PowerDown change is in progress. - default. - wa." "default,wa"
bitfld.long 0x00 26. "                 PING_ENHANCEMENT_EN              ,Ping Enhancement Enable: Extended downstream port U1 ping receive timeout. Invalid for Upstream port. - default. - 500." "default,500"
textline "                             "
bitfld.long 0x00 25. " U1U2EXITFAIL_TO_RECOV               ,Enhancement to prevent interoperability issue in case of incorrect LFPS handshake by the remote link. - default. - enhanced." "default,enhanced"
bitfld.long 0x00 24. "             REQUEST_P1P2P3                ,Control the systematic request of P1/P2/P3 for U1/U2/U3 - none. - always." "none,always"
bitfld.long 0x00 23. "                  STARTRXDETU3RXDET                ,Manual control for periodic Rx detection required in U3 and Rx.Detect, host mode. - noop. - detect." "noop,detect"
textline "                             "
bitfld.long 0x00 22. " DISRXDETU3RXDET                     ,Disable the HW-scheduled periodic Rx detection required in U3 and SS.Disabled, for host mode. - Auto. - Manual." "Auto,Manual"
bitfld.long 0x00 19.--21. "               P1P2P3DELAY                   ,If DelayP0toP1P2P3=1, delays the transition to P1/P2/P3 when entering U1/U2/U3 until P1P2P3Delay*8b10b errors occur, or RxValid=0 on PIPE." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 18. "                       DELAYP0TOP1P2P3                  ,Delay PHY change from P0 to P1/P2/P3 when link state changes from U0 to U1/U2/U3, respectively. - dis. - en." "dis,en"
textline "                             "
bitfld.long 0x00 17. " SUSPENDENABLE                       ,Suspend Enable for USB3.0 SS PHY. Set to 1 only after core initialization is complete. - 0. - 1." "0,1"
bitfld.long 0x00 15.--16. "                    DATWIDTH                      ,PIPE Data Width (input from phy: refer to PIPE standard) Field updated to the input's value immediately after reset. - 8. - 16. - 32." "32,16,8,3"
bitfld.long 0x00 14. "                      ABORTRXDETINU2                   ,Abort Rx Detect in U2. For Downstream port only. - no_abort. - abort." "no_abort,abort"
textline "                             "
bitfld.long 0x00 13. " SKIPRXDET                           ,Skip Rx Detect. When set, the core skips Rx Detection if PIPE signal 'RxElecIdle' is low. Skip is defined as waiting for the appropriate timeout, then repeating the operation." "0,1"
bitfld.long 0x00 12. "                    LFPSP0ALGN                    ,LFPS P0 Align. When set to 1: - The core deasserts LFPS transmission on the clock edge that it requests PHY power state 0 when exiting U1, U2, or U3 low power states. Otherwise, LFPS transmission is as..." "def,align"
bitfld.long 0x00 11. "                   P3P2TRANOK                       ,P3-to-P2 Transitions OK - notset. - set." "notset,set"
textline "                             "
bitfld.long 0x00 10. " P3EXSIGP2                           ,PHY power state behaviour upon U3 exit handshake. - default. - p2." "default,p2"
bitfld.long 0x00 9. "              LFPSFILT                      ,LFPS Filter. When set, filter LFPS reception with PIPE 'RxValid' signal in PHY power state P0, that is, ignore LFPS reception from the PHY unless both PIPE signals 'RxElecIdle' and 'RxValid' are deasserted." "0,1"
bitfld.long 0x00 6. "                       TXSWING                          ,Tx Swing (output to PHY: refer to PIPE standard)" "0,1"
textline "                             "
bitfld.long 0x00 3.--5. " TXMARGIN                            ,Tx Margin[2:0] (output to PHY: refer to PIPE standard)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 1.--2. "                    TXDEEMPHASIS                  ,Tx Deemphasis (output to PHY: refer to PIPE standard) The value driven to the PHY is controlled by the LTSSM during USB3.0 Compliance mode." "0,1,2,3"
bitfld.long 0x00 0. "                       ELASTICBUFFERMODE                ,Elastic Buffer Mode (output to PHY: refer to PIPE standard)" "0,1"
group.long 0xC300++0x3
line.long 0x00 "USB_GTXFIFOSIZ0,Global Transmit FIFO Size 0: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC304++0x3
line.long 0x00 "USB_GTXFIFOSIZ1,Global Transmit FIFO Size 1: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC308++0x3
line.long 0x00 "USB_GTXFIFOSIZ2,Global Transmit FIFO Size 2: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC30C++0x3
line.long 0x00 "USB_GTXFIFOSIZ3,Global Transmit FIFO Size 3: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC310++0x3
line.long 0x00 "USB_GTXFIFOSIZ4,Global Transmit FIFO Size 4: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC314++0x3
line.long 0x00 "USB_GTXFIFOSIZ5,Global Transmit FIFO Size 5: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC318++0x3
line.long 0x00 "USB_GTXFIFOSIZ6,Global Transmit FIFO Size 6: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC31C++0x3
line.long 0x00 "USB_GTXFIFOSIZ7,Global Transmit FIFO Size 7: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC320++0x3
line.long 0x00 "USB_GTXFIFOSIZ8,Global Transmit FIFO Size 8: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC324++0x3
line.long 0x00 "USB_GTXFIFOSIZ9,Global Transmit FIFO Size 9: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC328++0x3
line.long 0x00 "USB_GTXFIFOSIZ10,Global Transmit FIFO Size 10: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC32C++0x3
line.long 0x00 "USB_GTXFIFOSIZ11,Global Transmit FIFO Size 11: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC330++0x3
line.long 0x00 "USB_GTXFIFOSIZ12,Global Transmit FIFO Size 12: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC334++0x3
line.long 0x00 "USB_GTXFIFOSIZ13,Global Transmit FIFO Size 13: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC338++0x3
line.long 0x00 "USB_GTXFIFOSIZ14,Global Transmit FIFO Size 14: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC33C++0x3
line.long 0x00 "USB_GTXFIFOSIZ15,Global Transmit FIFO Size 15: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC380++0x3
line.long 0x00 "USB_GRXFIFOSIZ0,Global Receive FIFO Size 0: FIFO mapping in RAM0, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " RXFSTADDR                           ,Receive FIFO RAM Start Address, in 64-bit RAM words. - min. - max."
hexmask.long.word 0x00 0.--15. 1. "                 RXFDEP                        ,Receive FIFO Depth, in 64-bit RAM words - min. - max."
group.long 0xC384++0x3
line.long 0x00 "USB_GRXFIFOSIZ1,Global receive FIFO size 1: FIFO mapping in RAM0, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " RXFSTADDR                           ,Receive FIFO RAM Start Address, in 64-bit RAM words. - min. - max."
hexmask.long.word 0x00 0.--15. 1. "                 RXFDEP                        ,Receive FIFO Depth, in 64-bit RAM words - min. - max."
group.long 0xC388++0x3
line.long 0x00 "USB_GRXFIFOSIZ2,Global receive FIFO size 2: FIFO mapping in RAM0, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " RXFSTADDR                           ,Receive FIFO RAM Start Address, in 64-bit RAM words. - min. - max."
hexmask.long.word 0x00 0.--15. 1. "                 RXFDEP                        ,Receive FIFO Depth, in 64-bit RAM words - min. - max."
group.long 0xC400++0x3
line.long 0x00 "USB_GEVNTADRLO,Global event address: Lower 32 bits of start address of the external memory for the event buffer. During operation, hardware does not update this address."
hexmask.long 0x00 0.--31. 1. " EVNTADRLO                           ,EVNTADR[31:0]"
group.long 0xC404++0x3
line.long 0x00 "USB_GEVNTADRHI,Global event address: Upper 32 bits of start address of the external memory for the event buffer. During operation, hardware does not update this address."
hexmask.long 0x00 0.--31. 1. " EVNTADRHI                           ,EVNTADR[64:32]"
group.long 0xC408++0x3
line.long 0x00 "USB_GEVNTSIZ,Global event buffer size"
bitfld.long 0x00 31. " EVNTINTRPTMASK                      ,Event interrupt mask Prevents the interrupt from being generated when set to 1 The events are queued wven when the mask is set." "0,1"
hexmask.long.word 0x00 0.--15. 1. "                    EVENTSIZ                      ,Event buffer size Size of the event buffer in bytes; must be a multiple of 4. Programmed by software once during initialization."
group.long 0xC40C++0x3
line.long 0x00 "USB_GEVNTCOUNT,Global event buffer count"
hexmask.long.word 0x00 0.--15. 1. " EVNTCOUNT                           ,Event count When read, returns the number of valid events in the event buffer in bytes When written, hardware decrements the count by the value written. The interrupt remains active while count is not 0."
rgroup.long 0xC600++0x3
line.long 0x00 "USB_GHWPARAMS8,Global hardware parameters 8"
hexmask.long 0x00 0.--31. 1. " DWC_USB3_DCACHE_DEPTH_INFO          ,Depth of data cache, in 64-bit words (fixed). The cache occupies RAM0 from word 0 to DCACHE_DEPTH_INFO-1: Rx FIFOs shall be mapped from word DCACHE_DEPTH_INFO to RAM0_DEPTH-1."
rgroup.long 0xC604++0x3
line.long 0x00 "USB_GHWPARAMS9,Global hardware parameters 9"
hexmask.long 0x00 0.--31. 1. " GHWPARAMS9                          ,NOT USED"
group.long 0xC700++0x3
line.long 0x00 "USB_DCFG,Device configuration: Configures the core in device mode after power-on or after certain control commands or enumeration. Does not change after initial programming."
bitfld.long 0x00 23. " IGNORESTREAMPP                      ,Ignore Packet-Pending for Stream management. From stream-capable bulk endpoints only. - nochange. - ignore." "nochange,ignore"
bitfld.long 0x00 22. "             LPMCAP                        ,Link Power Management (LPM) Capability. - no. - yes." "no,yes"
bitfld.long 0x00 17.--21. "                     NUMP                             ,Number of Receive Buffers. Indicates number of receive buffers to be reported in ACK TP. Value based on RxFIFO size, buffer sizes programmed in descriptors, and system latency." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                             "
bitfld.long 0x00 12.--16. " INTRNUM                             ,Interrupt Number. Interrupt/EventQ number on which non-endpoint-specific device related interrupts (see DEVT) are generated." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--11. "                   PERFRINT                      ,Periodic Frame Interrupt. Time within a (micro)frame when the application must be notified using the End Of Periodic Frame Interrupt, which can be used to determine if all the periodic (isochronous, int..." "80,85,90,95"
hexmask.long.byte 0x00 3.--9. 1. "                      DEVADDR                          ,Device Address. Configure upon set-address USB command, clear to 0 upon USB reset. - def."
textline "                             "
bitfld.long 0x00 0.--2. " DEVSPD                              ,Device Speed: USB speed at which the core should connect. Actual bus speed is determined only after chirp completion, based on the speed of the attached USB host. - hs. - fs. - fs_serial. - ss. - ls_serial." "hs,fs,ls_serial,fs_serial,ss,5,6,7"
group.long 0xC704++0x3
line.long 0x00 "USB_DCTL,Device control"
bitfld.long 0x00 31. " RUNSTOP                             ,Run/Stop - stop. - start." "stop,start"
bitfld.long 0x00 30. "                CSFTRST                       ,Core Soft Reset. Auto-cleared. The reset has the following effect: - Interrupts are cleared. - Registers are cleared except: USB_GSTS, USB_GSNPSID, USB_GGPIO, USB_GUID, USB_GUSB2PHYCFG, USB_GUSB3PIPECTL, U..." "idle,reset"
bitfld.long 0x00 28. "                   HIRDTHRES_4                      ,Host Initiated Resume Duration (HIRD) Threshold, MSbit: See HIRDTHRES_TIME" "0,1"
textline "                             "
bitfld.long 0x00 24.--27. " HIRDTHRES_TIME                      ,Host Initiated Resume Duration (HIRD) Threshold, LSBits = timeout value. utmi_l1_suspend_n is asserted in L1 when : (HIRD value >= HIRDTHRES_TIME) and (HIRDTHRES_4=1) utmi_sleep_n is asserted in L1 when : (H..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "                   APPL1RES                      ,LPM Response Programmed by Application: Handshake response made to LPM token. Note that if USB_DCFG[22] LPMCAP = 0, the response is always timeout (no response). - can_nyet. - ack." "can_nyet,ack"
bitfld.long 0x00 19. "                KEEPCONNECT                      ,Used for Save-and-Restore operation. DO NOT USE, SAR NOT IMPLEMENTED - noaction. - keep." "noaction,keep"
textline "                             "
bitfld.long 0x00 18. " L1HIBERNATIONEN                     ,DO NOT USE, SAR NOT IMPLEMENTED" "0,1"
bitfld.long 0x00 17. "                    CRS                           ,Controller Restore State. DO NOT USE, SAR NOT IMPLEMENTED - restore. - noaction." "restore,noaction"
bitfld.long 0x00 16. "                CSS                              ,Controller Save State. DO NOT USE, SAR NOT IMPLEMENTED - save. - noaction." "save,noaction"
textline "                             "
bitfld.long 0x00 12. " INITU2ENA                           ,Initiate U2 Enable. Cleared to 0 by USB reset. - newEnum1. - newEnum2." "newEnum1,newEnum2"
bitfld.long 0x00 11. "             ACCEPTU2ENA                   ,Accept U2 Enable. Cleared to 0 by USB reset. - no. - yes." "no,yes"
bitfld.long 0x00 10. "                     INITU1ENA                        ,Initiate U1 Enable. Cleared to 0 by USB reset. - no. - yes." "no,yes"
textline "                             "
bitfld.long 0x00 9. " ACCEPTU1ENA                         ,Accept U1 Enable. Cleared to 0 by USB reset. - no. - yes." "no,yes"
bitfld.long 0x00 5.--8. "                  ULSTCHNGREQ                   ,USB/Link State Change Request. A new request is indicated by a change of value. To issue the same request back-to-back, a 0 shall be written between the two requests. State change request result is refle..." "noop,1,2,3,dis,rxdet,inact,7,rec,9,comp,loop,12,13,14,15"
bitfld.long 0x00 1.--4. "                   TSTCTL                           ,Test Control - 1. - 0. - 2. - 4. - 5. - 3." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xC708++0x3
line.long 0x00 "USB_DEVTEN,Device event enable: Enables the generation of device-specific events (see USB_DEVT)."
bitfld.long 0x00 13. " INACTTIMEOUTRCVEDEN                 ,U2 Inactive Timeout Received Event Enable" "0,1"
bitfld.long 0x00 12. "                    VNDRDEVTSTRCVEDEN             ,Vendor Device Test Received event Enable" "0,1"
bitfld.long 0x00 11. "                       EVNTOVERFLOWEN                   ,Event Overflow event Enable" "0,1"
textline "                             "
bitfld.long 0x00 10. " CMDCMPLTEN                          ,Command Complete event Enable" "0,1"
bitfld.long 0x00 9. "                    ERRTICERREN                   ,Erratic Error event Enable" "0,1"
bitfld.long 0x00 7. "                       SOFEN                            ,Start of (micro)Frame event Enable. For debug only." "0,1"
textline "                             "
bitfld.long 0x00 6. " EOPFEN                              ,End of Periodic Frame event Enable. For debug only." "0,1"
bitfld.long 0x00 5. "                    HIBERNATIONREQEVTEN           ,Hibernation Request Event Enable. DO NOT USE, HIBERNATION NOT IMPLEMENTED" "0,1"
bitfld.long 0x00 4. "                       WKUPEVTEN                        ,Resume/Remote Wakeup Detected Event Enable." "0,1"
textline "                             "
bitfld.long 0x00 3. " ULSTCNGEN                           ,USB/Link State Change event Enable" "0,1"
bitfld.long 0x00 2. "                    CONNECTDONEEN                 ,Connection Done event Enable" "0,1"
bitfld.long 0x00 1. "                       USBRSTEN                         ,USB Reset Enable" "0,1"
textline "                             "
bitfld.long 0x00 0. " DISCONNEVTEN                        ,Disconnct Event Enable" "0,1"
rgroup.long 0xC70C++0x3
line.long 0x00 "USB_DSTS,Device status"
bitfld.long 0x00 29. " DCNRD                               ,Device Controller Not Ready - wait. - rdy." "rdy,wait"
bitfld.long 0x00 28. "                 SRE                           ,Save/Restore Error. NOT SUPPORTED." "0,1"
bitfld.long 0x00 25. "                       RSS                              ,Restore State Status, triggered by writing 1 to RSS - restoring. - idle." "idle,restoring"
textline "                             "
bitfld.long 0x00 24. " SSS                                 ,Save State Status, triggered by writing 1 to SSS - saving. - idle." "idle,saving"
bitfld.long 0x00 23. "               COREIDLE                      ,Core Idle status. asserted when all RxFIFO data transferred to system memory, all completed descriptors are written, and all Event Counts are zero. Changes after reset, so that reset value may not match fir..." "active,idle"
bitfld.long 0x00 22. "                  DEVCTRLHLT                       ,Device Controller Halted. Cleared (0) when theUSB_DCTL[31] RUNSTOP is written to 1. Set (1) after USB_DCTL[31] RUNSTOP has been written to 0, core is idle and disconnect process is complete. When DEVC..." "0,1"
textline "                             "
bitfld.long 0x00 18.--21. " USBLNKST                            ,USB/Link State. Encoding depends on the connection speed (SS or HS/FS/LS) - 3. - 14. - 4. - 11. - 15. - 2. - 0. - 10. - 6. - 1. - 8. - 7. - 9. - 5." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 17. "                   RXFIFOEMPTY                   ,Rx FIFO Empty - empty. - notempty." "notempty,empty"
hexmask.long.word 0x00 3.--16. 1. "                SOFFN                            ,received Start Of Frame's Frame Number"
textline "                             "
bitfld.long 0x00 0.--2. " CONNECTSPD                          ,Connection Speed. USB speed at which the device has come up after speed detection through a chirp sequence. - fs_serial. - ls_serial. - fs. - hs. - ss." "hs,fs,ls_serial,fs_serial,ss,5,6,7"
group.long 0xC710++0x3
line.long 0x00 "USB_DGCMDPAR,Device generic command parameter: To be programmed before or along with the device command itself."
hexmask.long 0x00 0.--31. 1. " PARAMETER                           ,Parameter of the command; command-dependent."
group.long 0xC714++0x3
line.long 0x00 "USB_DGCMD,Device generic command: Generic command interface to send link management packets and notifications."
bitfld.long 0x00 15. " CMDSTATUS                           ,Command Status. - newEnum2. - none." "none,newEnum2"
bitfld.long 0x00 10. "             CMDACT                        ,Command active. Auto-cleared. - start. - active. - idle." "idle,start"
bitfld.long 0x00 8. "                   CMDIOC                           ,Command Interrupt On Complete. Event mapped to interrupt numberUSB_DCFG[16:12] INTNUM. Reads return 0. - ioc." "0,ioc"
textline "                             "
hexmask.long.byte 0x00 0.--7. 1. " CMDTYP                              ,Command Type. Reads return 0. - 12. - 3. - 6. - 10. - 2. - 1. - 9. - 16."
group.long 0xC720++0x3
line.long 0x00 "USB_DALEPENA,Device active USB endpoint enable. Set each bit (1) to enable the corresponding endpoint. Bits 0 and 1 are set after USB reset as they enable the control endpoint. All other bits are set according to enumeration, and cleared on a USB reset..."
bitfld.long 0x00 31. " USBACTEP15_IN                       ,USB Activate Endpoint 15 IN" "0,1"
bitfld.long 0x00 30. "                    USBACTEP15_OUT                ,USB Activate Endpoint 15 OUT" "0,1"
bitfld.long 0x00 29. "                       USBACTEP14_IN                    ,USB Activate Endpoint 14 IN" "0,1"
textline "                             "
bitfld.long 0x00 28. " USBACTEP14_OUT                      ,USB Activate Endpoint 14 OUT" "0,1"
bitfld.long 0x00 27. "                    USBACTEP13_IN                 ,USB Activate Endpoint 13 IN" "0,1"
bitfld.long 0x00 26. "                       USBACTEP13_OUT                   ,USB Activate Endpoint 13 OUT" "0,1"
textline "                             "
bitfld.long 0x00 25. " USBACTEP12_IN                       ,USB Activate Endpoint 12 IN" "0,1"
bitfld.long 0x00 24. "                    USBACTEP12_OUT                ,USB Activate Endpoint 12 OUT" "0,1"
bitfld.long 0x00 23. "                       USBACTEP11_IN                    ,USB Activate Endpoint 11 IN" "0,1"
textline "                             "
bitfld.long 0x00 22. " USBACTEP11_OUT                      ,USB Activate Endpoint 11 OUT" "0,1"
bitfld.long 0x00 21. "                    USBACTEP10_IN                 ,USB Activate Endpoint 10 IN" "0,1"
bitfld.long 0x00 20. "                       USBACTEP10_OUT                   ,USB Activate Endpoint 10 OUT" "0,1"
textline "                             "
bitfld.long 0x00 19. " USBACTEP9_IN                        ,USB Activate Endpoint 9 IN" "0,1"
bitfld.long 0x00 18. "                    USBACTEP9_OUT                 ,USB Activate Endpoint 9 OUT" "0,1"
bitfld.long 0x00 17. "                       USBACTEP8_IN                     ,USB Activate Endpoint 8 IN" "0,1"
textline "                             "
bitfld.long 0x00 16. " USBACTEP8_OUT                       ,USB Activate Endpoint 8 OUT" "0,1"
bitfld.long 0x00 15. "                    USBACTEP7_IN                  ,USB Activate Endpoint 7 IN" "0,1"
bitfld.long 0x00 14. "                       USBACTEP7_OUT                    ,USB Activate Endpoint 7 OUT" "0,1"
textline "                             "
bitfld.long 0x00 13. " USBACTEP6_IN                        ,USB Activate Endpoint 6 IN" "0,1"
bitfld.long 0x00 12. "                    USBACTEP6_OUT                 ,USB Activate Endpoint 6 OUT" "0,1"
bitfld.long 0x00 11. "                       USBACTEP5_IN                     ,USB Activate Endpoint 5 IN" "0,1"
textline "                             "
bitfld.long 0x00 10. " USBACTEP5_OUT                       ,USB Activate Endpoint 5 OUT" "0,1"
bitfld.long 0x00 9. "                    USBACTEP4_IN                  ,USB Activate Endpoint 4 IN" "0,1"
bitfld.long 0x00 8. "                       USBACTEP4_OUT                    ,USB Activate Endpoint 4 OUT" "0,1"
textline "                             "
bitfld.long 0x00 7. " USBACTEP3_IN                        ,USB Activate Endpoint 3 IN" "0,1"
bitfld.long 0x00 6. "                    USBACTEP3_OUT                 ,USB Activate Endpoint 3 OUT" "0,1"
bitfld.long 0x00 5. "                       USBACTEP2_IN                     ,USB Activate Endpoint 2 IN" "0,1"
textline "                             "
bitfld.long 0x00 4. " USBACTEP2_OUT                       ,USB Activate Endpoint 2 OUT" "0,1"
bitfld.long 0x00 3. "                    USBACTEP1_IN                  ,USB Activate Endpoint 1 IN" "0,1"
bitfld.long 0x00 2. "                       USBACTEP1_OUT                    ,USB Activate Endpoint 1 OUT" "0,1"
textline "                             "
bitfld.long 0x00 1. " USBACTEP0_IN                        ,USB Activate Endpoint 0 IN (control)" "0,1"
bitfld.long 0x00 0. "                    USBACTEP0_OUT                 ,USB Activate Endpoint 0 OUT (control)" "0,1"
group.long 0xCC00++0x3
line.long 0x00 "USB_OCFG,OTG configuration"
bitfld.long 0x00 3. " OTGSFTRSTMSK                        ,Protects OTG, PHY and VBUS filters from the following software resets: xHCIUSB_USBCMD[1] HCRST (host), USB_DCTL[30] CSFTRST (device). Note: In OTG2 applications, it is not recommended to program USB_USBCMD[1] HCRST..." "default,mask"
bitfld.long 0x00 2. "              OTGVERSION                    ,Debug, always write 0." "0,1"
bitfld.long 0x00 1. "                       HNPCAP                           ,HNP Capabilty Enable. - no. - yes." "no,yes"
textline "                             "
bitfld.long 0x00 0. " SRPCAP                              ,SRP Capability enable. For A-device, SRP detection. For B-device, SRP generation. - no. - yes." "no,yes"
group.long 0xCC04++0x3
line.long 0x00 "USB_OCTL,OTG control IMPORTANT NOTE: Register is reinitialized on ID change, but is not affected by a software reset."
bitfld.long 0x00 7. " OTG3_GOERR                          ,To be set upon TRSP_ACK_ERR, TRSP_CNF_ERR, or TRSP_WRST_ERR timeout. Auto-cleared. OTG3: NOT IMPLEMENTED, DO NOT SET. - noop. - pending. - go." "noop,pending"
bitfld.long 0x00 6. "              PERIMODE                      ,Peripheral Mode. Program the core to work as a peripheral or as a host. - yes. - no." "no,yes"
bitfld.long 0x00 5. "                     PRTPWRCTL                        ,Port Power Control. Set or cleared by software. Self-cleared in any of the following conditions: 1) transition to a_idle OTG state 2) aidl_bdis_tout event when in a_suspend OTG state 3) a_wait_bcon..." "swoff,req"
textline "                             "
bitfld.long 0x00 4. " HNPREQ                              ,HNP Request. Set (1) by software to initiate HNP request to the connected USB host. Clear (0) by software upon eitherUSB_OEVT[11] OTGBDEVHOSTENDEVNT or USB_OEVT[8] OTGBDEVVBUSCHNGEVNT. - done. - ongoing." "done,ongoing"
bitfld.long 0x00 3. "              SESREQ                        ,Session Request. In the absence ofUSB_OEVT[9] OTGBDEVSESSVLDDETEVNT after a request, the application must wait for at least TB_SRP_FAIL (6 secs) before another request. - noop. - srp. - zero." "noop,srp"
bitfld.long 0x00 2. "                    TERMSELDLPULSE                   ,TermSelect Data Line Pulse. Alternate SRP data line pulsing method on UTMI interface. - newEnum1. - newEnum2." "newEnum1,newEnum2"
textline "                             "
bitfld.long 0x00 1. " DEVSETHNPEN                         ,Device Set HNP Enable. To be set when HNP has been successfully enabled by the connected host, using the SetFeature.SetHNPEnable command. - dis. - en." "dis,en"
bitfld.long 0x00 0. "                  HSTSETHNPEN                   ,Host Set HNP Enable. To be set when HNP has been successfully enabled on the connected device, using the SetFeature.SetHNPEnable command. - dis. - en." "dis,en"
group.long 0xCC08++0x3
line.long 0x00 "USB_OEVT,OTG event: OTG interrupt status. All writable bits are cleared by writing a 1."
bitfld.long 0x00 31. " DEVICEMODE                          ,Dual-role device's mode, based on iddig input. - b. - a." "a,b"
eventfld.long 0x00 24. "                    OTGCONIDSTSCHNGEVNT           ,Connector ID status change event. Set in both A-device and B-device mode. - noop. - clr. - evt. - noevt." "noop,clr"
eventfld.long 0x00 23. "                    HRRCONFNOTIFEVNT                 ,Host Role Request Confirm Notifier Event. Set upon reception of HRR Device Notification TP with Confirm field set. Set in OTG3, SS, A-host or B-host mode only. OTG3: NOT IMPLEMENTED - noop. - clr. -..." "noop,clr"
textline "                             "
eventfld.long 0x00 22. " HRRINITNOTIFEVNT                    ,Host Role Request Initiate Notifier Event. Set upon reception of HRR Device Notification TP with Initiate field set. Set in OTG3, SS, A-host or B-host mode only. OTG3: NOT IMPLEMENTED - noop. - clr. - evt. - noevt." "noop,clr"
eventfld.long 0x00 21. "                 OTGADEVIDLEEVNT               ,A-device A-IDLE Event. Set when OTG FSM enters A-IDLE state from any other state. Set in A-device mode only. OTG3: NOT IMPLEMENTED - noop. - clr. - evt. - noevt." "noop,clr"
eventfld.long 0x00 20. "                    OTGADEVBHOSTENDEVNT              ,A-device B-host End Event. Set when connected B-device has completed its B-host role and returns to B-peripheral. Set in A-device mode only. - noop. - clr. - evt. - noevt." "noop,clr"
textline "                             "
eventfld.long 0x00 19. " OTGADEVHOSTEVNT                     ,A-device Host Event. Set when device enters host role, upon initial connect to B-device as well as upon HNP from A-peripheral to A-host. Set in A-device mode only. - noop. - clr. - evt. - noevt." "noop,clr"
eventfld.long 0x00 18. "                 OTGADEVHNPCHNGDETEVNT         ,A-device HNP change Detected Event. Set when there is an HNP event. Set in A-device mode only. - noop. - clr. - evt. - noevt." "noop,clr"
eventfld.long 0x00 17. "                    OTGADEVSRPDETEVNT                ,A-device SRP Detected Event. Set when SRP request from B-device is detected. Set in A-device mode only. - noop. - clr. - evt. - noevt." "noop,clr"
textline "                             "
eventfld.long 0x00 16. " OTGADEVSESSENDDETEVNT               ,A-device Session End Detected Event. Set when UTMI input 'a-vbus-valid' is deasserted (0). Set in A-device mode only. - noop. - clr. - evt. - noevt." "noop,clr"
eventfld.long 0x00 11. "                 OTGBDEVHOSTENDEVNT            ,B-device Host End Event. Set completing B-host role and returning to default B-peripheral role. Set in B-device mode only. - noop. - clr. - evt. - noevt." "noop,clr"
eventfld.long 0x00 10. "                    OTGBDEVHNPCHNGEVNT               ,B-device HNP Change Event. Set upon (success of failure of an) HNP attempt. Set in B-device mode only. - noop. - clr. - evt. - noevt." "noop,clr"
textline "                             "
eventfld.long 0x00 9. " OTGBDEVSESSVLDDETEVNT               ,B-device Session Valid Detected Event. Set when B-device succeeds in starting a session. Set in B-device mode only. - noop. - clr. - evt. - noevt." "noop,clr"
eventfld.long 0x00 8. "                 OTGBDEVVBUSCHNGEVNT           ,B-device VBUS Change Event. Set when UTMI input 'b-session-valid' transitions (to 0 or 1). Set in B-device mode only. - noop. - clr. - evt. - noevt." "noop,clr"
bitfld.long 0x00 3. "                    BSESVLD                          ,B-Session Valid. Updated when OTGBDevVBUSChngEvnt is set. - valid. - invalid." "invalid,valid"
textline "                             "
bitfld.long 0x00 2. " HSTNEGSTS                           ,Host Negotiation Status. Updated when OTGADevHNPChngEvnt or OTGBDevHNPChngEvnt is set. - success. - failure." "failure,success"
bitfld.long 0x00 1. "              SESREQSTS                     ,Session Request Status. Updated when OTGBDevSessVldDetEvnt is set. - SRP. - noSRP." "noSRP,SRP"
eventfld.long 0x00 0. "                   OEVTERROR                        ,No errors currently defined. - noop. - clr. - evt. - noevt." "noop,clr"
group.long 0xCC0C++0x3
line.long 0x00 "USB_OEVTEN,OTG event enable: OTG interrupt event enable."
bitfld.long 0x00 24. " OTGCONIDSTSCHNGEVNTEN               ,Connector ID Status Change Event Enable. - dis. - en." "dis,en"
bitfld.long 0x00 23. "                  HRRCONFNOTIFEVNTEN            ,Host Role Request Confirm Notifier Event Enable. OTG3: NOT IMPLEMENTED - dis. - en." "dis,en"
bitfld.long 0x00 22. "                     HRRINITNOTIFEVNTEN               ,Host Role Request Initiate Notifier Event Enable. OTG3: NOT IMPLEMENTED - dis. - en." "dis,en"
textline "                             "
bitfld.long 0x00 21. " OTGADEVIDLEEVNTEN                   ,A-device A-IDLE Event Enable. - dis. - en." "dis,en"
bitfld.long 0x00 20. "                  OTGADEVBHOSTENDEVNTEN         ,A-device B-host End Event Enable. - dis. - en." "dis,en"
bitfld.long 0x00 19. "                     OTGADEVHOSTEVNTEN                ,A-device Host Event Enable. - dis. - en." "dis,en"
textline "                             "
bitfld.long 0x00 18. " OTGADEVHNPCHNGDETEVNTEN             ,A-device HNP change Detected Event Enable. - dis. - en." "dis,en"
bitfld.long 0x00 17. "                  OTGADEVSRPDETEVNTEN           ,A-device SRP Detected Event Enable. - dis. - en." "dis,en"
bitfld.long 0x00 16. "                     OTGADEVSESSENDDETEVNTEN          ,A-device Session End Detected Event Enable. - dis. - en." "dis,en"
textline "                             "
bitfld.long 0x00 11. " OTGBDEVHOSTENDEVNTEN                ,B-device Host End Event Enable. - dis. - en." "dis,en"
bitfld.long 0x00 10. "                  OTGBDEVHNPCHNGEVNTEN          ,B-device HNP Change Event Enable. - dis. - en." "dis,en"
bitfld.long 0x00 9. "                     OTGBDEVSESSVLDDETEVNTEN          ,B-device Session Valid Detected Event Enable. - dis. - en." "dis,en"
textline "                             "
bitfld.long 0x00 8. " OTGBDEVVBUSCHNGEVNTEN               ,B-device VBUS Change Event Enable. - dis. - en." "dis,en"
rgroup.long 0xCC10++0x3
line.long 0x00 "USB_OSTS,OTG status"
bitfld.long 0x00 8.--11. " OTGSTATE                            ,[A-device and B-device] OTG state machine state, for debug. Default value can vary depending on integration. - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - ." "a_idle,a_wait_vrise,a_wait_bcon,a_wait_vfall,a_vbus_err,a_host,a_suspend,a_peripheral,a_wait_ppwr,b_idle,b_srp_init,b_peripheral,b_wait_acon,b_host,a_wait_switch,b_wait_switch"
bitfld.long 0x00 4. "        PERIPHERALSTATE               ,[A-device and B-device] Current role of the controller - . - ." "Host,Peripheral"
bitfld.long 0x00 3. "              XHCIPRTPOWER                     ,[A-device] xHCI host port power. Reflects host bit fieldUSB_PORTSC1/2[9] PP." "0,1"
textline "                             "
bitfld.long 0x00 2. " BSESVLD                             ,[B-device] VBUS B-session valid status - . - ." "0,B-session_is_valid."
bitfld.long 0x00 1. "  VBUSVLD                       ,[A-device] VBUS valid status - . - ." "0,VBUS_is_valid."
bitfld.long 0x00 0. "          CONIDSTS                         ,[A-device and B-device] Connector ID status. Default value can vary depending on integration. - . - ." "Core_is_A-device.,Core_is_B-device."
width 0x0B
tree.end
tree "USB_DWC3"
base ad:0x48910000
tree "Channel_0"
width 20.
group.long 0x480++0x3
line.long 0x00 "USB_DB_j_0,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC808++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_0,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC804++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_0,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC800++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_0,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC80C++0x3
line.long 0x00 "USB_DEPCMD_i_0,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_1"
width 20.
group.long 0x484++0x3
line.long 0x00 "USB_DB_j_1,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC818++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_1,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC814++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_1,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC810++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_1,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC81C++0x3
line.long 0x00 "USB_DEPCMD_i_1,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_2"
width 20.
group.long 0x488++0x3
line.long 0x00 "USB_DB_j_2,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC828++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_2,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC824++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_2,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC820++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_2,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC82C++0x3
line.long 0x00 "USB_DEPCMD_i_2,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_3"
width 20.
group.long 0x48C++0x3
line.long 0x00 "USB_DB_j_3,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC838++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_3,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC834++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_3,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC830++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_3,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC83C++0x3
line.long 0x00 "USB_DEPCMD_i_3,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_4"
width 20.
group.long 0x490++0x3
line.long 0x00 "USB_DB_j_4,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC848++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_4,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC844++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_4,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC840++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_4,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC84C++0x3
line.long 0x00 "USB_DEPCMD_i_4,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_5"
width 20.
group.long 0x494++0x3
line.long 0x00 "USB_DB_j_5,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC858++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_5,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC854++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_5,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC850++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_5,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC85C++0x3
line.long 0x00 "USB_DEPCMD_i_5,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_6"
width 20.
group.long 0x498++0x3
line.long 0x00 "USB_DB_j_6,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC868++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_6,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC864++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_6,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC860++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_6,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC86C++0x3
line.long 0x00 "USB_DEPCMD_i_6,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_7"
width 20.
group.long 0x49C++0x3
line.long 0x00 "USB_DB_j_7,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC878++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_7,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC874++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_7,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC870++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_7,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC87C++0x3
line.long 0x00 "USB_DEPCMD_i_7,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_8"
width 20.
group.long 0x4A0++0x3
line.long 0x00 "USB_DB_j_8,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC888++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_8,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC884++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_8,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC880++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_8,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC88C++0x3
line.long 0x00 "USB_DEPCMD_i_8,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_9"
width 20.
group.long 0x4A4++0x3
line.long 0x00 "USB_DB_j_9,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC898++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_9,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC894++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_9,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC890++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_9,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC89C++0x3
line.long 0x00 "USB_DEPCMD_i_9,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_10"
width 21.
group.long 0x4A8++0x3
line.long 0x00 "USB_DB_j_10,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC8A8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_10,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC8A4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_10,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC8A0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_10,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC8AC++0x3
line.long 0x00 "USB_DEPCMD_i_10,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_11"
width 21.
group.long 0x4AC++0x3
line.long 0x00 "USB_DB_j_11,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC8B8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_11,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC8B4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_11,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC8B0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_11,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC8BC++0x3
line.long 0x00 "USB_DEPCMD_i_11,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_12"
width 21.
group.long 0x4B0++0x3
line.long 0x00 "USB_DB_j_12,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC8C8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_12,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC8C4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_12,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC8C0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_12,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC8CC++0x3
line.long 0x00 "USB_DEPCMD_i_12,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_13"
width 21.
group.long 0x4B4++0x3
line.long 0x00 "USB_DB_j_13,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC8D8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_13,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC8D4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_13,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC8D0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_13,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC8DC++0x3
line.long 0x00 "USB_DEPCMD_i_13,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_14"
width 21.
group.long 0x4B8++0x3
line.long 0x00 "USB_DB_j_14,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC8E8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_14,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC8E4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_14,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC8E0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_14,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC8EC++0x3
line.long 0x00 "USB_DEPCMD_i_14,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_15"
width 21.
group.long 0x4BC++0x3
line.long 0x00 "USB_DB_j_15,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC8F8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_15,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC8F4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_15,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC8F0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_15,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC8FC++0x3
line.long 0x00 "USB_DEPCMD_i_15,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_16"
width 21.
group.long 0x4C0++0x3
line.long 0x00 "USB_DB_j_16,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC908++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_16,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC904++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_16,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC900++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_16,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC90C++0x3
line.long 0x00 "USB_DEPCMD_i_16,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_17"
width 21.
group.long 0x4C4++0x3
line.long 0x00 "USB_DB_j_17,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC918++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_17,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC914++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_17,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC910++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_17,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC91C++0x3
line.long 0x00 "USB_DEPCMD_i_17,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_18"
width 21.
group.long 0x4C8++0x3
line.long 0x00 "USB_DB_j_18,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC928++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_18,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC924++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_18,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC920++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_18,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC92C++0x3
line.long 0x00 "USB_DEPCMD_i_18,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_19"
width 21.
group.long 0x4CC++0x3
line.long 0x00 "USB_DB_j_19,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC938++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_19,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC934++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_19,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC930++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_19,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC93C++0x3
line.long 0x00 "USB_DEPCMD_i_19,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_20"
width 21.
group.long 0x4D0++0x3
line.long 0x00 "USB_DB_j_20,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC948++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_20,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC944++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_20,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC940++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_20,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC94C++0x3
line.long 0x00 "USB_DEPCMD_i_20,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_21"
width 21.
group.long 0x4D4++0x3
line.long 0x00 "USB_DB_j_21,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC958++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_21,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC954++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_21,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC950++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_21,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC95C++0x3
line.long 0x00 "USB_DEPCMD_i_21,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_22"
width 21.
group.long 0x4D8++0x3
line.long 0x00 "USB_DB_j_22,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC968++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_22,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC964++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_22,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC960++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_22,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC96C++0x3
line.long 0x00 "USB_DEPCMD_i_22,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_23"
width 21.
group.long 0x4DC++0x3
line.long 0x00 "USB_DB_j_23,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC978++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_23,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC974++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_23,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC970++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_23,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC97C++0x3
line.long 0x00 "USB_DEPCMD_i_23,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_24"
width 21.
group.long 0x4E0++0x3
line.long 0x00 "USB_DB_j_24,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC988++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_24,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC984++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_24,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC980++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_24,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC98C++0x3
line.long 0x00 "USB_DEPCMD_i_24,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_25"
width 21.
group.long 0x4E4++0x3
line.long 0x00 "USB_DB_j_25,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC998++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_25,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC994++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_25,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC990++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_25,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC99C++0x3
line.long 0x00 "USB_DEPCMD_i_25,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_26"
width 21.
group.long 0x4E8++0x3
line.long 0x00 "USB_DB_j_26,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC9A8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_26,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC9A4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_26,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC9A0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_26,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC9AC++0x3
line.long 0x00 "USB_DEPCMD_i_26,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_27"
width 21.
group.long 0x4EC++0x3
line.long 0x00 "USB_DB_j_27,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC9B8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_27,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC9B4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_27,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC9B0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_27,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC9BC++0x3
line.long 0x00 "USB_DEPCMD_i_27,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_28"
width 21.
group.long 0x4F0++0x3
line.long 0x00 "USB_DB_j_28,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC9C8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_28,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC9C4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_28,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC9C0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_28,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC9CC++0x3
line.long 0x00 "USB_DEPCMD_i_28,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_29"
width 21.
group.long 0x4F4++0x3
line.long 0x00 "USB_DB_j_29,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC9D8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_29,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC9D4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_29,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC9D0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_29,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC9DC++0x3
line.long 0x00 "USB_DEPCMD_i_29,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_30"
width 21.
group.long 0x4F8++0x3
line.long 0x00 "USB_DB_j_30,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC9E8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_30,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC9E4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_30,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC9E0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_30,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC9EC++0x3
line.long 0x00 "USB_DEPCMD_i_30,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_31"
width 21.
group.long 0x4FC++0x3
line.long 0x00 "USB_DB_j_31,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC9F8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_31,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC9F4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_31,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC9F0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_31,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC9FC++0x3
line.long 0x00 "USB_DEPCMD_i_31,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number for the first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID fo..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same format as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value - . - ." "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared. - . - . - ." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0. - . - ." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type. - . - . - . - . - . - . - . - . - ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x500++0x3
line.long 0x00 "USB_DB_j_32,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x504++0x3
line.long 0x00 "USB_DB_j_33,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x508++0x3
line.long 0x00 "USB_DB_j_34,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x50C++0x3
line.long 0x00 "USB_DB_j_35,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x510++0x3
line.long 0x00 "USB_DB_j_36,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x514++0x3
line.long 0x00 "USB_DB_j_37,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x518++0x3
line.long 0x00 "USB_DB_j_38,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x51C++0x3
line.long 0x00 "USB_DB_j_39,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x520++0x3
line.long 0x00 "USB_DB_j_40,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x524++0x3
line.long 0x00 "USB_DB_j_41,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x528++0x3
line.long 0x00 "USB_DB_j_42,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x52C++0x3
line.long 0x00 "USB_DB_j_43,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x530++0x3
line.long 0x00 "USB_DB_j_44,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x534++0x3
line.long 0x00 "USB_DB_j_45,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x538++0x3
line.long 0x00 "USB_DB_j_46,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x53C++0x3
line.long 0x00 "USB_DB_j_47,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x540++0x3
line.long 0x00 "USB_DB_j_48,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x544++0x3
line.long 0x00 "USB_DB_j_49,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x548++0x3
line.long 0x00 "USB_DB_j_50,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x54C++0x3
line.long 0x00 "USB_DB_j_51,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x550++0x3
line.long 0x00 "USB_DB_j_52,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x554++0x3
line.long 0x00 "USB_DB_j_53,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x558++0x3
line.long 0x00 "USB_DB_j_54,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x55C++0x3
line.long 0x00 "USB_DB_j_55,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x560++0x3
line.long 0x00 "USB_DB_j_56,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x564++0x3
line.long 0x00 "USB_DB_j_57,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x568++0x3
line.long 0x00 "USB_DB_j_58,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x56C++0x3
line.long 0x00 "USB_DB_j_59,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x570++0x3
line.long 0x00 "USB_DB_j_60,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x574++0x3
line.long 0x00 "USB_DB_j_61,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x578++0x3
line.long 0x00 "USB_DB_j_62,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x57C++0x3
line.long 0x00 "USB_DB_j_63,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
tree.end
textline ""
width 20.
rgroup.long 0x0++0x3
line.long 0x00 "USB_CAPLENGTH,Capability registers length + host controller interface (HCI) version number"
hexmask.long.word 0x00 16.--31. 1. " HCIVERSION                          ,Host Controller Interface Version (xHCI), in BCD. Set by USB_FLADJ[29] XHCI_REVISION field. - 0_96. - 1_00."
hexmask.long.byte 0x00 0.--7. 1. "                 CAPLENGTH                     ,Capability Register Length: length of the xHCI Capabilities registers bank, in bytes; also the offset of the xHCI Operational registers bank (starting withUSB_USBCMD), with respect to xHCI base (i.e. the ..."
rgroup.long 0x4++0x3
line.long 0x00 "USB_HCSPARAMS1,Host controller structural parameters 1 (xHCI)"
hexmask.long.byte 0x00 24.--31. 1. " MAXPORTS                            ,See xHCI specification."
hexmask.long.word 0x00 8.--18. 1. "                   MAXINTRS                      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "                    MAXSLOTS                         ,See xHCI specification."
rgroup.long 0x8++0x3
line.long 0x00 "USB_HCSPARAMS2,Host controller structural parameters 2 (xHCI)"
bitfld.long 0x00 27.--31. " MAXSCRATCHPADBUFS_LO                ,Max Scratchpad Buffers, lower bits: See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 26. "                   SPR                           ,Scratchpad Restore: See xHCI specification - yes. - no." "no,yes"
bitfld.long 0x00 21.--25. "                     MAXSCRATCHPADBUFS_HI             ,Max Scratchpad Buffers, higher bits: see xHCI 1.0 standard" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                             "
bitfld.long 0x00 4.--7. " ERSTMAX                             ,Event Ring Segment Table Max: See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "                   IST                           ,Isochronous Scheduling Threshold: See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0xC++0x3
line.long 0x00 "USB_HCSPARAMS3,Host controller structural parameters 3 (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " U2_DEVICE_EXIT_LAT                  ,U2 device exit latency: Worst-case latency to transition from U2 to U0, in ?s. Applies to all root hub ports. - . - . - . - ."
hexmask.long.byte 0x00 0.--7. 1. "                 U1_DEVICE_EXIT_LAT            ,U1 device exit latency: Worst-case latency to transition a root hub port link state (PLS) from U1 to U0, in ?s. - . - . - . - ."
rgroup.long 0x10++0x3
line.long 0x00 "USB_HCCPARAMS,Host controller capability parameters (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " XECP                                ,xHCI Extended Capabilties Pointer. 32-bit dword offset, with respect to xHCI base, of the first item of the capability list."
bitfld.long 0x00 12.--15. "                 MAXPSASIZE                    ,Maximum Primary Stream Array Size: See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8. "                      PAE                              ,Parse All Event data: see xHCI 1.0 standard w errata" "0,1"
textline "                             "
bitfld.long 0x00 7. " NSS                                 ,No Secondary SID Support See xHCI specification" "0,1"
bitfld.long 0x00 6. "                    LTC                           ,Latency Tolerance messaging Capability See xHCI specification" "0,1"
bitfld.long 0x00 5. "                       LHRC                             ,Light HC Reset Capability: See xHCI specification" "0,1"
textline "                             "
bitfld.long 0x00 4. " PIND                                ,Port Indicators: See xHCI specification" "0,1"
bitfld.long 0x00 3. "                    PPC                           ,Port Power Control: See xHCI specification" "0,1"
bitfld.long 0x00 2. "                       CSZ                              ,Context Size: See xHCI specification" "0,1"
textline "                             "
bitfld.long 0x00 1. " BNC                                 ,Bandwidth Negotiation Capability: See xHCI specification" "0,1"
bitfld.long 0x00 0. "                    AC64                          ,64-bit Address Capability: See xHCI specification" "0,1"
rgroup.long 0x14++0x3
line.long 0x00 "USB_DBOFF,Doorbell offset (xHCI): Byte offset of the doorbell register array (, with respect to the xHCI base (that is, register)"
hexmask.long 0x00 2.--31. 1. " DOORBELL_ARRAY_OFFSET               ,Byte address offset MSBs"
bitfld.long 0x00 0.--1. "             ZERO                          ,Byte address offset LSBs, always 0 (offset is 32-bit = 4-byte aligned)" "0,1,2,3"
rgroup.long 0x18++0x3
line.long 0x00 "USB_RTSOFF,RunTime space offset (xHCI): Byte offset of the runtime register bank (starting with), with respect to the xHCI base (that is, register)"
hexmask.long 0x00 5.--31. 1. " RUNTIME_REG_SPACE_OFFSET            ,Byte address offset MSBs"
bitfld.long 0x00 0.--4. "             ZERO                          ,Byte address offset LSBs, always 0 (offset is 32-byte aligned)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x20++0x3
line.long 0x00 "USB_USBCMD,USB command register (xHCI)"
bitfld.long 0x00 11. " EU3S                                ,Enable U3 MFINDEX Stop: See xHCI specification" "0,1"
bitfld.long 0x00 10. "                    EWE                           ,Enable Wrap Event: See xHCI specification" "0,1"
bitfld.long 0x00 9. "                       CRS                              ,Controller Restore State: See xHCI specification" "0,1"
textline "                             "
bitfld.long 0x00 8. " CSS                                 ,Controller Save State: See xHCI specification" "0,1"
bitfld.long 0x00 7. "                    LHCRST                        ,Light Host Controller Reset: See xHCI specification" "0,1"
bitfld.long 0x00 3. "                       HSEE                             ,Host System Error Enable: See xHCI specification" "0,1"
textline "                             "
bitfld.long 0x00 2. " INTE                                ,Interrupter Enable: See xHCI specification" "0,1"
bitfld.long 0x00 1. "                    HCRST                         ,Host Controller Reset: See xHCI specification" "0,1"
bitfld.long 0x00 0. "                       R_S                              ,Run/Stop: See xHCI specification" "0,1"
group.long 0x24++0x3
line.long 0x00 "USB_USBSTS,USB status register (xHCI)"
bitfld.long 0x00 12. " HCE                                 ,Host Controller Error: See xHCI specification." "0,1"
bitfld.long 0x00 11. "                    CNR                           ,Controller not ready (see xHCI specification). Runtime or other operational registers are not accessed until field is cleared. Beyond xHCI (that is, USB host mode) functionality, indicates when the res..." "ready,not_ready"
eventfld.long 0x00 10. "               SRE                              ,Save/Restore Error: See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 9. " RSS                                 ,Restore State Status: See xHCI specification." "0,1"
bitfld.long 0x00 8. "                    SSS                           ,Save State Status: See xHCI specification." "0,1"
eventfld.long 0x00 4. "                       PCD                              ,Port Change Detect: See xHCI specification." "0,1"
textline "                             "
eventfld.long 0x00 3. " EINT                                ,Event Interrupt: See xHCI specification." "0,1"
eventfld.long 0x00 2. "                    HSE                           ,Host System Error: See xHCI specification." "0,1"
bitfld.long 0x00 0. "                       HCH                              ,Host Controller Halted: See xHCI specification." "0,1"
rgroup.long 0x28++0x3
line.long 0x00 "USB_PAGESIZE,Page size register (xHCI)"
hexmask.long.word 0x00 0.--15. 1. " PAGE_SIZE                           ,Supported system memory page size. See xHCI specification. When bit n is set to 1, a page size of 2^(n+12) is supported. - ."
group.long 0x34++0x3
line.long 0x00 "USB_DNCTRL,Device notification control register (xHCI)"
bitfld.long 0x00 15. " N15                                 ,See xHCI specification." "0,1"
bitfld.long 0x00 14. "                    N14                           ,See xHCI specification." "0,1"
bitfld.long 0x00 13. "                       N13                              ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 12. " N12                                 ,See xHCI specification." "0,1"
bitfld.long 0x00 11. "                    N11                           ,See xHCI specification." "0,1"
bitfld.long 0x00 10. "                       N10                              ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 9. " N9                                  ,See xHCI specification." "0,1"
bitfld.long 0x00 8. "                    N8                            ,See xHCI specification." "0,1"
bitfld.long 0x00 7. "                       N7                               ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 6. " N6                                  ,See xHCI specification." "0,1"
bitfld.long 0x00 5. "                    N5                            ,See xHCI specification." "0,1"
bitfld.long 0x00 4. "                       N4                               ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 3. " N3                                  ,See xHCI specification." "0,1"
bitfld.long 0x00 2. "                    N2                            ,See xHCI specification." "0,1"
bitfld.long 0x00 1. "                       N1                               ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 0. " N0                                  ,See xHCI specification." "0,1"
group.long 0x38++0x3
line.long 0x00 "USB_CRCR_LO,Command ring control register, lower half (xHCI)"
hexmask.long 0x00 6.--31. 1. " CMD_RING_PNTR                       ,See xHCI specification."
bitfld.long 0x00 3. "             CRR                           ,See xHCI specification." "0,1"
bitfld.long 0x00 2. "                       CA                               ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 1. " CS                                  ,See xHCI specification." "0,1"
bitfld.long 0x00 0. "                    RCS                           ,See xHCI specification." "0,1"
group.long 0x3C++0x3
line.long 0x00 "USB_CRCR_HI,Command ring control register, upper half (xHCI)"
hexmask.long 0x00 0.--31. 1. " CMD_RING_PNTR                       ,See xHCI specification."
group.long 0x50++0x3
line.long 0x00 "USB_DCBAAP_LO,Device context base address array pointer, lower half (xHCI)"
hexmask.long 0x00 6.--31. 1. " DEVICE_CONTEXT_BAAP                 ,See xHCI specification."
group.long 0x54++0x3
line.long 0x00 "USB_DCBAAP_HI,Device context base address array pointer, upper half (xHCI)"
hexmask.long 0x00 0.--31. 1. " DEVICE_CONTEXT_BAAP                 ,See xHCI specification."
group.long 0x58++0x3
line.long 0x00 "USB_CONFIG,Configure (xHCI)"
hexmask.long.byte 0x00 0.--7. 1. " MAXSLOTSEN                          ,See xHCI specification."
group.long 0x420++0x3
line.long 0x00 "USB_PORTSC1,Port 1 (USB2.0) status and control (xHCI)"
bitfld.long 0x00 31. " WPR                                 ,See xHCI specification" "0,1"
bitfld.long 0x00 30. "                    DR                            ,See xHCI specification" "0,1"
bitfld.long 0x00 27. "                       WOE                              ,See xHCI specification" "0,1"
textline "                             "
bitfld.long 0x00 26. " WDE                                 ,See xHCI specification" "0,1"
bitfld.long 0x00 25. "                    WCE                           ,See xHCI specification" "0,1"
bitfld.long 0x00 24. "                       CAS                              ,See xHCI specification" "0,1"
textline "                             "
eventfld.long 0x00 23. " CEC                                 ,See xHCI specification" "0,1"
eventfld.long 0x00 22. "                    PLC                           ,See xHCI specification" "0,1"
eventfld.long 0x00 21. "                       PRC                              ,See xHCI specification" "0,1"
textline "                             "
eventfld.long 0x00 20. " OCC                                 ,See xHCI specification" "0,1"
eventfld.long 0x00 19. "                    WRC                           ,See xHCI specification" "0,1"
eventfld.long 0x00 18. "                       PEC                              ,See xHCI specification" "0,1"
textline "                             "
eventfld.long 0x00 17. " CSC                                 ,See xHCI specification" "0,1"
bitfld.long 0x00 16. "                    LWS                           ,See xHCI specification" "0,1"
bitfld.long 0x00 14.--15. "                       PIC                              ,See xHCI specification" "0,1,2,3"
textline "                             "
bitfld.long 0x00 10.--13. " PORTSPEED                           ,See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 9. "                   PP                            ,See xHCI specification" "0,1"
bitfld.long 0x00 5.--8. "                       PLS                              ,See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 4. " PR                                  ,See xHCI specification" "0,1"
bitfld.long 0x00 3. "                    OCA                           ,See xHCI specification" "0,1"
eventfld.long 0x00 1. "                       PED                              ,See xHCI specification" "0,1"
textline "                             "
bitfld.long 0x00 0. " CCS                                 ,See xHCI specification" "0,1"
group.long 0x424++0x3
line.long 0x00 "USB_PORTPMSC1,Port 1 (USB2.0) Power mManagement status and control (xHCI) Note that the PMSC register makeup is protocol-dependent (here: USB2.0)"
bitfld.long 0x00 28.--31. " PORT_TEST_CONTROL                   ,See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16. "                   HLE                           ,See xHCI specification" "0,1"
hexmask.long.byte 0x00 8.--15. 1. "                       L1_DEVICE_SLOT                   ,See xHCI specification"
textline "                             "
bitfld.long 0x00 4.--7. " BESL                                ,See xHCI 1.0 standard w. errata" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 3. "                   RWE                           ,See xHCI specification" "0,1"
bitfld.long 0x00 0.--2. "                       L1S                              ,See xHCI specification" "0,1,2,3,4,5,6,7"
rgroup.long 0x428++0x3
line.long 0x00 "USB_PORTLI1,Port 1 (USB2.0) link info (xHCI)"
hexmask.long.word 0x00 0.--15. 1. " LINK_ERROR_COUNT                    ,See xHCI specification."
group.long 0x42C++0x3
line.long 0x00 "USB_PORTHLPMC1,Port 1 (USB2.0) Hardware LPM Control (xHCI) Field structure is protocol-dependent (here: USB2.0)"
bitfld.long 0x00 10.--13. " BESLD                               ,See xHCI 1.0 standard w errata" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 2.--9. 1. "                   L1_TIMEOUT                    ,See xHCI 1.0 standard w errata"
bitfld.long 0x00 0.--1. "                      HIRDM                            ,See xHCI 1.0 standard w errata" "0,1,2,3"
group.long 0x430++0x3
line.long 0x00 "USB_PORTSC2,Port 2 (USB3.0) status and control (xHCI)"
bitfld.long 0x00 31. " WPR                                 ,See xHCI specification" "0,1"
bitfld.long 0x00 30. "                    DR                            ,See xHCI specification" "0,1"
bitfld.long 0x00 27. "                       WOE                              ,See xHCI specification" "0,1"
textline "                             "
bitfld.long 0x00 26. " WDE                                 ,See xHCI specification" "0,1"
bitfld.long 0x00 25. "                    WCE                           ,See xHCI specification" "0,1"
bitfld.long 0x00 24. "                       CAS                              ,See xHCI specification" "0,1"
textline "                             "
eventfld.long 0x00 23. " CEC                                 ,See xHCI specification" "0,1"
eventfld.long 0x00 22. "                    PLC                           ,See xHCI specification" "0,1"
eventfld.long 0x00 21. "                       PRC                              ,See xHCI specification" "0,1"
textline "                             "
eventfld.long 0x00 20. " OCC                                 ,See xHCI specification" "0,1"
eventfld.long 0x00 19. "                    WRC                           ,See xHCI specification" "0,1"
eventfld.long 0x00 18. "                       PEC                              ,See xHCI specification" "0,1"
textline "                             "
eventfld.long 0x00 17. " CSC                                 ,See xHCI specification" "0,1"
bitfld.long 0x00 16. "                    LWS                           ,See xHCI specification" "0,1"
bitfld.long 0x00 14.--15. "                       PIC                              ,See xHCI specification" "0,1,2,3"
textline "                             "
bitfld.long 0x00 10.--13. " PORTSPEED                           ,See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 9. "                   PP                            ,See xHCI specification" "0,1"
bitfld.long 0x00 5.--8. "                       PLS                              ,See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 4. " PR                                  ,See xHCI specification" "0,1"
bitfld.long 0x00 3. "                    OCA                           ,See xHCI specification" "0,1"
eventfld.long 0x00 1. "                       PED                              ,See xHCI specification" "0,1"
textline "                             "
bitfld.long 0x00 0. " CCS                                 ,See xHCI specification" "0,1"
group.long 0x434++0x3
line.long 0x00 "USB_PORTPMSC2,Port 2 (USB3.0) power management (LPM) status and control (xHCI) Note that the PMSC register makeup is protocol-dependent (here: USB3.0)"
bitfld.long 0x00 16. " FLA                                 ,See xHCI specification" "0,1"
hexmask.long.byte 0x00 8.--15. 1. "                    U2_TIMEOUT                    ,See xHCI specification"
hexmask.long.byte 0x00 0.--7. 1. "                      U1_TIMEOUT                       ,See xHCI specification"
rgroup.long 0x438++0x3
line.long 0x00 "USB_PORTLI2,Port 2 (USB3.0) link info (xHCI)"
hexmask.long.word 0x00 0.--15. 1. " LINK_ERROR_COUNT                    ,See xHCI specification."
group.long 0x43C++0x3
line.long 0x00 "USB_PORTHLPMC2,Port 2 (USB3.0) Hardware LPM Control (xHCI) Field structure is protocol-dependent (here: USB3.0)"
rgroup.long 0x440++0x3
line.long 0x00 "USB_MFINDEX,Microframe index (xHCI)"
hexmask.long.word 0x00 0.--13. 1. " MICROFRAME_INDEX                    ,See xHCI specification."
group.long 0x460++0x3
line.long 0x00 "USB_IMAN,Interrupter Management (xHCI)"
bitfld.long 0x00 1. " IE                                  ,Interrupt enable - DIS. - EN." "DIS,EN"
eventfld.long 0x00 0. "                  IP                            ,Interrupt pending. Set (to 1) when: IE = 1,USB_IMOD[31:16] IMODC = 0, the associated event ring is not empty, USB_ERDP_LO[3] EHB = 0. - IDLE. - PENDING." "IDLE,PENDING"
group.long 0x464++0x3
line.long 0x00 "USB_IMOD,Interrupter moderation (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " IMODC                               ,Interrupt moderation counter: Loaded to IMODI whenever IP is cleared to 0, counts down to 0, and stops. IRQ is generated when counter is 0, event ring is not empty, USB_IMAN[1] IE = 1, USB_IMAN[0] IP = 1, USB_ERDP_..."
hexmask.long.word 0x00 0.--15. 1. "                 IMODI                         ,Interrupt moderation interval: Minimum inter-IRQ interval, in 250-ns increments. - . - . - ."
group.long 0x468++0x3
line.long 0x00 "USB_ERSTSZ,Event ring segment table size (xHCI)"
hexmask.long.word 0x00 0.--15. 1. " ERS_TABLE_SIZE                      ,See xHCI specification."
group.long 0x470++0x3
line.long 0x00 "USB_ERSTBA_LO,Event ring segment table base address, lower half (xHCI)"
hexmask.long 0x00 6.--31. 1. " ERS_TABLE_BAR                       ,See xHCI specification."
group.long 0x474++0x3
line.long 0x00 "USB_ERSTBA_HI,Event ring segment table base address, upper half (xHCI)"
hexmask.long 0x00 0.--31. 1. " ERS_TABLE_BAR                       ,See xHCI specification."
group.long 0x478++0x3
line.long 0x00 "USB_ERDP_LO,Event ring dequeue pointer, lower half (xHCI)"
hexmask.long 0x00 4.--31. 1. " ERD_PNTR                            ,See xHCI specification."
eventfld.long 0x00 3. "             EHB                           ,See xHCI specification." "0,1"
bitfld.long 0x00 0.--2. "                       DESI                             ,See xHCI specification." "0,1,2,3,4,5,6,7"
group.long 0x47C++0x3
line.long 0x00 "USB_ERDP_HI,Event ring dequeue pointer, upper half (xHCI)"
hexmask.long 0x00 0.--31. 1. " ERD_PNTR                            ,See xHCI specification."
group.long 0x880++0x3
line.long 0x00 "USB_USBLEGSUP,USB legacy support capability"
bitfld.long 0x00 24. " HCOOS                               ,HC OS Owned Semaphore: See xHCI specification" "0,1"
bitfld.long 0x00 16. "                    HCBOS                         ,HC BIOS Owned Semaphore: See xHCI specification" "0,1"
hexmask.long.byte 0x00 8.--15. 1. "                       NCP                              ,Next Capability Pointer: 32-bit dword offset of the next capability. - eol."
textline "                             "
hexmask.long.byte 0x00 0.--7. 1. " ECID                                ,Extended Capability ID code (descriptor size, in bytes) - prot. - legacy. - dbc."
group.long 0x884++0x3
line.long 0x00 "USB_USBLEGCTLSTS,USB legacy control/status"
eventfld.long 0x00 31. " SB                                  ,See xHCI specification." "0,1"
eventfld.long 0x00 30. "                    SPC                           ,See xHCI specification." "0,1"
eventfld.long 0x00 29. "                       SOOC                             ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 20. " SHSE                                ,See xHCI specification." "0,1"
bitfld.long 0x00 16. "                    SEI                           ,See xHCI specification." "0,1"
bitfld.long 0x00 15. "                       SBE                              ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 14. " SPCE                                ,See xHCI specification." "0,1"
bitfld.long 0x00 13. "                    SOOE                          ,See xHCI specification." "0,1"
bitfld.long 0x00 4. "                       SHSEE                            ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 0. " USE                                 ,See xHCI specification." "0,1"
rgroup.long 0x890++0x3
line.long 0x00 "USB_SUPTPRT2_DW0,Supported protocol capability USB2.0, 32-bit dword 0"
hexmask.long.byte 0x00 24.--31. 1. " MAJREV                              ,Major Revision, BCD-encoded"
hexmask.long.byte 0x00 16.--23. 1. "                   MINREV                        ,Minor Revision, BCD-encoded"
hexmask.long.byte 0x00 8.--15. 1. "                      NCP                              ,Next Capability Pointer: 32-bit dword offset of the next capability. - eol."
textline "                             "
hexmask.long.byte 0x00 0.--7. 1. " ECID                                ,Extended Capability ID code (descriptor size, in bytes) - prot. - legacy. - dbc."
rgroup.long 0x894++0x3
line.long 0x00 "USB_SUPTPRT2_DW1,Supported protocol capability USB2.0, 32-bit dword 1: Name String 'USB '"
hexmask.long.byte 0x00 24.--31. 1. " CHAR3                               ,ASCII ' ' (space)"
hexmask.long.byte 0x00 16.--23. 1. "                   CHAR2                         ,ASCII 'B'"
hexmask.long.byte 0x00 8.--15. 1. "                      CHAR1                            ,ASCII 'S'"
textline "                             "
hexmask.long.byte 0x00 0.--7. 1. " CHAR0                               ,ASCII 'U'"
rgroup.long 0x898++0x3
line.long 0x00 "USB_SUPTPRT2_DW2,Supported protocol capability USB2.0, 32-bit dword 2"
bitfld.long 0x00 28.--31. " PSIC                                ,Port Speed ID Count. Reserved in xHCI 0.96 - all." "all,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 19. "                  HLC                           ,Hardware LPM Capability." "0,1"
bitfld.long 0x00 18. "                       IHI                              ,Integrated Hub Implemented." "0,1"
textline "                             "
bitfld.long 0x00 17. " HSO                                 ,High-Speed Only" "0,1"
hexmask.long.byte 0x00 8.--15. 1. "                    CPC                           ,Compatible Port Count: Number of consecutive ports of the root hub that support this protocol, from CPO to CPO+CPC-1"
hexmask.long.byte 0x00 0.--7. 1. "                      CPO                              ,Compatible Port Offset: Starting port number of root hub port(s) that support this protocol."
rgroup.long 0x89C++0x3
line.long 0x00 "USB_SUPTPRT2_DW3,Supported protocol capability USB2.0, 32-bit dword 3"
bitfld.long 0x00 0.--4. " PST                                 ,Protocol Slot Type, see xHCI 1.0 standard w errata" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rgroup.long 0x8A0++0x3
line.long 0x00 "USB_SUPTPRT3_DW0,Supported protocol capability USB3.0, 32-bit dword 0"
hexmask.long.byte 0x00 24.--31. 1. " MAJREV                              ,Major Revision, BCD-encoded"
hexmask.long.byte 0x00 16.--23. 1. "                   MINREV                        ,Minor Revision, BCD-encoded"
hexmask.long.byte 0x00 8.--15. 1. "                      NCP                              ,Next Capability Pointer: 32-bit dword offset of the next capability. - eol."
textline "                             "
hexmask.long.byte 0x00 0.--7. 1. " ECID                                ,Extended Capability ID code (descriptor size, in bytes) - prot. - legacy. - dbc."
rgroup.long 0x8A4++0x3
line.long 0x00 "USB_SUPTPRT3_DW1,Supported protocol capability USB3.0, 32-bit dword 1: Name String 'USB '"
hexmask.long.byte 0x00 24.--31. 1. " CHAR3                               ,ASCII ' ' (space)"
hexmask.long.byte 0x00 16.--23. 1. "                   CHAR2                         ,ASCII 'B'"
hexmask.long.byte 0x00 8.--15. 1. "                      CHAR1                            ,ASCII 'S'"
textline "                             "
hexmask.long.byte 0x00 0.--7. 1. " CHAR0                               ,ASCII 'U'"
rgroup.long 0x8A8++0x3
line.long 0x00 "USB_SUPTPRT3_DW2,Supported protocol capability USB3.0, 32-bit dword 2"
bitfld.long 0x00 28.--31. " PSIC                                ,Port Speed ID Count. Reserved in xHCI 0.96 - ss." "ss,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 8.--15. 1. "                   CPC                           ,Compatible Port Count: Number of consecutive ports of the root hub that support this protocol, from CPO to CPO+CPC-1"
hexmask.long.byte 0x00 0.--7. 1. "                      CPO                              ,Compatible Port Offset: Starting port number of root hub port(s) that support this protocol."
rgroup.long 0x8AC++0x3
line.long 0x00 "USB_SUPTPRT3_DW3,Supported protocol capability USB3.0, 32-bit dword 3"
bitfld.long 0x00 0.--4. " PST                                 ,Protocol Slot Type, see xHCI 1.0 standard with errata" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xC100++0x3
line.long 0x00 "USB_GSBUSCFG0,Global device Bus Configuration Register 0"
bitfld.long 0x00 12. " DESCBIGEND                          ,Endian mode for descriptor accesses. - little. - big." "little,big"
bitfld.long 0x00 11. "               DATBIGEND                     ,Endian mode for data accesses. - little. - big." "little,big"
bitfld.long 0x00 7. "                  INCR256BRSTENA                   ,INCR256 Burst Type Enable. 256?64/8= 2-kByte burst." "0,1"
textline "                             "
bitfld.long 0x00 6. " INCR128BRSTENA                      ,INCR128 Burst Type Enable. 128?64/8= 1-kByte burst." "0,1"
bitfld.long 0x00 5. "                    INCR64BRSTENA                 ,INCR64 Burst Type Enable. 64?64/8= 512-Byte burst." "0,1"
bitfld.long 0x00 4. "                       INCR32BRSTENA                    ,INCR32 Burst Type Enable. 32?64/8= 256-Byte burst." "0,1"
textline "                             "
bitfld.long 0x00 3. " INCR16BRSTENA                       ,INCR16 Burst Type Enable. 16?64/8= 128-Byte burst." "0,1"
bitfld.long 0x00 2. "                    INCR8BRSTENA                  ,INCR8 Burst Type Enable. 8?64/8= 64-Byte burst." "0,1"
bitfld.long 0x00 1. "                       INCR4BRSTENA                     ,INCR4 Burst Type Enable. 4?64/8= 32-Byte burst: RECOMMENDED Enables bursts of beat length 1, 2, 3, 4, and prevents (16-byte) descriptor accesses from being broken up: highly recommended." "0,1"
textline "                             "
bitfld.long 0x00 0. " INCRBRSTENA                         ,Undefined Length INCR Burst Type Enable: DO NOT ENABLE When enabled, this has higher priority than other burst types." "0,1"
group.long 0xC104++0x3
line.long 0x00 "USB_GSBUSCFG1,Global device bus configuration register 1"
bitfld.long 0x00 12. " EN1KPAGE                            ,1k-page boundary enable - DIS. - EN." "DIS,EN"
bitfld.long 0x00 8.--11. "                  PIPETRANSLIMIT                ,Maximum number of outstanding (read or write) pipelined sequential (i.e. in-order) transaction requests on the master interface (field value+1) - . - . - ." "Single_request_mode.,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xC108++0x3
line.long 0x00 "USB_GTXTHRCFG,Global TX threshold control register. Valid only in Host mode."
bitfld.long 0x00 29. " USBTXPKTCNTSEL                      ,USB Transmit Packet Count Enable: Enables/disables USB trasnmission multi-packet thresholding - dis. - en." "dis,en"
bitfld.long 0x00 24.--27. "                  USBTXPKTCNT                   ,USB Transmit Packet Count : Number of packets that must be in the TXFIFO before transmission for the corresponding USB transaction (burst) can start. Don't care if USBTXPKTCNTSEL=0. - max. - dis. - min." "dis,min,2,3,4,5,6,7,8,9,10,11,12,13,14,max"
hexmask.long.byte 0x00 16.--23. 1. "                     USBMAXTXBURSTSIZE                ,USB Maximum Transmit Burst Size. Max OUT burst size, when USBTXPKTCNTSEL=1. Avoids TX FIFO underrun when the system bus is slower than the USB. Only applies to SS Bulk / Iso / Int OUT endpoints in ..."
group.long 0xC10C++0x3
line.long 0x00 "USB_GRXTHRCFG,Global RX Threshold Control Register"
bitfld.long 0x00 29. " USBRXPKTCNTSEL                      ,USB ReceivePacket Count Enable Enables/disables USB reception multi-packet thresholding - dis. - en." "dis,en"
bitfld.long 0x00 24.--27. "                  USBRXPKTCNT                   ,USB Receive Packet Count: Number of packets that must be available in the RX FIFO before the core can start the corresponding USB RX transaction (burst). Don't care if USBRXPKTCNTSEL=0. - max. - dis. - m..." "dis,min,2,3,4,5,6,7,8,9,10,11,12,13,14,max"
bitfld.long 0x00 19.--23. "                     USBMAXRXBURSTSIZE                ,USB Maximum Receive Burst Size. Maxi IN burst size, when USBRXPKTCNTSEL = 1. When the system bus is slower than the USB, RX FIFO can overrun during a long burst. User can program a smaller value to..." "dis,min,2,3,4,5,6,7,8,9,10,11,12,13,14,15,max,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xC110++0x3
line.long 0x00 "USB_GCTL,Global control register"
hexmask.long.word 0x00 19.--31. 1. " PWRDNSCALE                          ,Power Down Scale: In P3 state, PIPE clock stops and is replaced internally by the suspend clock to create a 16kHz reference. Set field to Fs/16k, rounded up, with Fp suspend clock frequency. Required accuracy is 0-..."
bitfld.long 0x00 18. "                 MASTERFILTBYPASS              ,Master Filter Bypass. Bypasses the double-synchronizers and the 5 ms debounce filters on UTMI+ inputs (the latter are not implemented)." "0,1"
bitfld.long 0x00 17. "                       BYPSSETADDR                      ,Override of the device address, bypassing the SET ADDRESS control transfer. For simulation only. - func. - bypass." "func,bypass"
textline "                             "
bitfld.long 0x00 16. " U2RSTECN                            ,If the super speed connection fails during POLL or LMP exchange, the device connects at non-SS mode. If this bit is set, then device attempts three more times to connect at SS, even if it previously failed to opera..." "0,1"
bitfld.long 0x00 14.--15. "                    FRMSCLDWN                     ,Frame scale-down This field scales down device view of a SOF (FS/LS) / uSOF (HS) / ITP (SS) duration. - 0. - 1. - 3. - 2." "0,1,2,3"
bitfld.long 0x00 12.--13. "                       PRTCAPDIR                        ,Port Capability Direction - hst. - drd. - dev." "0,hst,dev,drd"
textline "                             "
bitfld.long 0x00 11. " CORESOFTRESET                       ,Core Soft Reset. When you reset PHYs (using USB_GUSB2PHYCFG or USB_GUSB3PIPECTL registers), you must keep the core in reset state until PHY clocks are stable. - no. - reset." "no,reset"
bitfld.long 0x00 8. "                DEBUGATTACH                   ,Debug Attach. When this bit is set: a) SS Link proceeds directly to the Polling link state (after RUN/STOP in the USB_DCTL register is asserted) without checking remote termination. b) Link LFPS polling ti..." "0,1"
bitfld.long 0x00 6.--7. "                       RAMCLKSEL                        ,RAM Clock Select. No action, hardware always uses bus clock (config 2'b00) - bus. - pipe. - mac. - pipe_50." "bus,pipe,pipe_50,mac"
textline "                             "
bitfld.long 0x00 4.--5. " SCALEDOWN                           ,Scale-Down Mode Enable Switches to shorter, non-standard protocol time intervals to speed up simulation. DO NOT MODIFY ON ACTUAL HARDWARE. - none. - 1. - 3. - 2." "none,1,2,3"
bitfld.long 0x00 3. "                 DISSCRAMBLE                   ,Disable Scrambling. Transmit request to Link Partner on next transition to Recovery or Polling." "0,1"
bitfld.long 0x00 0. "                       DSBLCLKGTNG                      ,Disable Clock Gating. When this bit is set to 1 and the core is in Low Power mode, internal clock gating is disabled." "0,1"
group.long 0xC118++0x3
line.long 0x00 "USB_GSTS,Global status register"
hexmask.long.word 0x00 20.--31. 1. " CBELT                               ,Current BELT Value In Host mode, this field indicates the minimum value of all received device BELT values and the BELT value that is set by the Set Latency Tolerance Value command."
bitfld.long 0x00 10. "                 OTG_IP                        ,OTG interrupt status - pend. - none." "none,pend"
bitfld.long 0x00 9. "                    BC_IP                            ,Battery Charger interrupt status: NOT IMPLEMENTED" "0,1"
textline "                             "
bitfld.long 0x00 8. " ADP_IP                              ,ADP interrupt status: NOT IMPLEMENTED" "0,1"
bitfld.long 0x00 7. "                    HOST_IP                       ,Host interrupt status - pend. - none." "none,pend"
bitfld.long 0x00 6. "                    DEVICE_IP                        ,Device interrupt status - pend. - none." "none,pend"
textline "                             "
bitfld.long 0x00 5. " CSRTIMEOUT                          ,Control/Status Register access Timeout status flag. - noaction. - clear. - set. - noevent." "noaction,clear"
bitfld.long 0x00 4. "             BUSERRADDRVLD                 ,Bus Error Address Valid status flag. Also flagged onUSB_USBSTS[2] HSE field (host mode) and DEPEVT[12] on XferComplete/XferInProgress event (device mode). - noaction. - clear. - set. - noevent." "noaction,clear"
bitfld.long 0x00 0.--1. "                CURMOD                           ,Current Mode of Operation. - drd. - host. - dev." "dev,host,drd,3"
rgroup.long 0xC120++0x3
line.long 0x00 "USB_GSNPSID,ID Core identification and release number. Software uses this register to configure release-specific features in the driver."
hexmask.long.word 0x00 16.--31. 1. " ID_CORE                             ,Core identifier - id."
hexmask.long.word 0x00 0.--15. 1. "                 ID_REL                        ,Version number For instance, version 1.00a => 0x100A - 1_83a. - 2_02a."
group.long 0xC124++0x3
line.long 0x00 "USB_GGPIO,Global general-purpose input/output register"
hexmask.long.word 0x00 16.--31. 1. " GPO                                 ,General-purpose output. DO NOT USE: NOT CONNECTED."
hexmask.long.word 0x00 0.--15. 1. "                 GPI                           ,General-purpose inputs. TIED LOW."
group.long 0xC128++0x3
line.long 0x00 "USB_GUID,Global user ID register"
hexmask.long 0x00 0.--31. 1. " USERID                              ,Application-programmable ID field"
group.long 0xC12C++0x3
line.long 0x00 "USB_GUCTL,Global user control register"
bitfld.long 0x00 21. " NOEXTRDL                            ,No Extra Delay between SOF and the 1st packet (when host) - dis. - en." "dis,en"
bitfld.long 0x00 18.--20. "                  PSQEXTRRESSP                  ,Protocol Status Queue Extra Reserved Space (Debug only). Additional space in the PSQ reserved before the USB3.0 protocol transaction layer (U3PTL) initiates a new USB transaction and burst beats. - dis. ..." "dis,en,2,3,4,5,6,7"
bitfld.long 0x00 17. "                     SPRSCTRLTRANSEN                  ,Sparse Control Transaction Enable. Valid in host mode only (any speed). - dis. - en." "dis,en"
textline "                             "
bitfld.long 0x00 16. " RESBWHSEPS                          ,Reserving (more) Bandwidth for HS Periodic EPs. Valid in host mode only. - 80. - 85." "80,85"
bitfld.long 0x00 15. "                   CMDEVADDR                     ,Compliance Mode for Device Address. Valid in host mode only. - eq. - diff." "eq,diff"
bitfld.long 0x00 14. "                    USBHSTINAUTORETRYEN              ,Host IN Auto Retry Enable: host core behaviour upon data packet CRC errors or internal overrun scenarios in non-isochronous IN transfers. - dis. - en." "dis,en"
textline "                             "
bitfld.long 0x00 9.--10. " DTCT                                ,Device Timeout Coarse Tuning: time the host waits for a response from device before timeout. Coarse setting. - fine. - 0m5. - 5ms. - 1m5." "fine,0m5,1m5,5ms"
hexmask.long.word 0x00 0.--8. 1. "                 DTFT                          ,Device Timeout Fine Tuning: time the host waits for a response from device before timeout. Fine setting. Timer runs on the 125 MHz clock (8 ns period), timeout is DTFT ? 256 ? 8 ns ~= DTFT ? 2 us Don't ca..."
rgroup.long 0xC130++0x3
line.long 0x00 "USB_GBUSERRADDRLO,Global Bus Error (non-precise) Address, LSbits: Base address of the first system bus DMA transfer that got a bus error. Note that each DMA transfer can contain several bursts, each spanning several addresses. Valid when the[4] BUSERRA..."
hexmask.long 0x00 0.--31. 1. " BUSERRADDRLO                        ,BUSERRADDR[31:0]"
rgroup.long 0xC134++0x3
line.long 0x00 "USB_GBUSERRADDRHI,Global Bus Error (non-precise) Address, MSbits: Base address of the first system bus DMA transfer that got a bus error. Note that each DMA transfer can contain several bursts, each spanning several addresses. Valid when the[4] BUSERRA..."
hexmask.long 0x00 0.--31. 1. " BUSERRADDRHI                        ,BUSERRADDR[63:32]"
group.long 0xC138++0x3
line.long 0x00 "USB_GPRTBIMAPLO,Global port-to-SS USB instance mapping, low bits [31:0]"
bitfld.long 0x00 0.--3. " BINUM1                              ,SS USB instance number for port number 1 Application-programmable ID field" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xC13C++0x3
line.long 0x00 "USB_GPRTBIMAPHI,Global Port-to-SS USB Instance Mapping, high bits [63:32]"
rgroup.long 0xC140++0x3
line.long 0x00 "USB_GHWPARAMS0,Global hardware parameters 0"
hexmask.long.byte 0x00 24.--31. 1. " DWC_USB3_AWIDTH                     ,Global hardware configuration parameter DWC_USB3_AWIDTH: (Master) Address Width (in bits)"
hexmask.long.byte 0x00 16.--23. 1. "                   DWC_USB3_SDWIDTH              ,Global hardware configuration parameter DWC_USB3_SDWIDTH: Slave Data Width (in bits)"
hexmask.long.byte 0x00 8.--15. 1. "                      DWC_USB3_MDWIDTH                 ,Global hardware configuration parameter DWC_USB3_MDWIDTH: Master Data Width (in bits)"
textline "                             "
bitfld.long 0x00 6.--7. " DWC_USB3_SBUS_TYPE                  ,Global hardware configuration parameter DWC_USB3_SBUS_TYPE: (System bus) Slave type - native." "native,1,2,3"
bitfld.long 0x00 3.--5. "               DWC_USB3_MBUS_TYPE            ,Global hardware configuration parameter DWC_USB3_MBUS_TYPE: (System bus) Master type - axi." "0,axi,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     DWC_USB3_MODE                    ,Global hardware configuration parameter DWC_USB3_MODE - drd. - hst. - dev." "dev,hst,drd,3,4,5,6,7"
rgroup.long 0xC144++0x3
line.long 0x00 "USB_GHWPARAMS1,Global hardware parameters 1"
bitfld.long 0x00 30. " DWC_USB3_RM_OPT_FEATURES            ,Global hardware configuration parameter DWC_USB3_RM_OPT_FEATURES: Remove Optional Features - yes. - no." "no,yes"
bitfld.long 0x00 28. "                  DWC_USB3_RAM_BUS_CLKS_SYNC    ,Global hardware configuration parameter DWC_USB3_RAM_BUS_CLKS_SYNC: RAM vs. BUS clocks synchronous ? - yes. - no." "no,yes"
bitfld.long 0x00 27. "                     DWC_USB3_MAC_RAM_CLKS_SYNC       ,Global hardware configuration parameter DWC_USB3_MAC_RAM_CLKS_SYNC: MAC vs. RAM clocks synchronous ? - yes. - no." "no,yes"
textline "                             "
bitfld.long 0x00 26. " DWC_USB3_MAC_PHY_CLKS_SYNC          ,Global hardware configuration parameter DWC_USB3_MAC_PHY_CLKS_SYNC: MAC vs. PHY clocks synchronous ? - yes. - no." "no,yes"
bitfld.long 0x00 24.--25. "                  DWC_USB3_EN_PWROPT            ,Global hardware configuration parameter DWC_USB3_EN_PWROPT: Power optimization - clock_hibernation. - clock. - none." "none,clock,clock_hibernation,3"
bitfld.long 0x00 23. "       DWC_USB3_SPRAM_TYP               ,Global hardware configuration parameter DWC_USB3_SPRAM_TYP - SP." "0,SP"
textline "                             "
bitfld.long 0x00 21.--22. " DWC_USB3_NUM_RAMS                   ,Global hardware configuration parameter DWC_USB3_NUM_RAMS: Number of internal RAMs - 3. - 2. - 1." "0,1,2,3"
bitfld.long 0x00 15.--20. "                    DWC_USB3_DEVICE_NUM_INT       ,Global hardware configuration parameter DWC_USB3_DEVICE_NUM_INT: Number of interrupts (and event buffers) in device mode" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 12.--14. "                      DWC_USB3_ASPACEWIDTH             ,Global hardware configuration parameter DWC_USB3_ASPACEWIDTH" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 9.--11. " DWC_USB3_REQINFOWIDTH               ,Global hardware configuration parameter DWC_USB3_REQINFOWIDTH" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6.--8. "                    DWC_USB3_DATAINFOWIDTH        ,Global hardware configuration parameter DWC_USB3_DATAINFOWIDTH" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3.--5. "                       DWC_USB3_BURSTWIDTH              ,Global hardware configuration parameter DWC_USB3_BURSTWIDTH minus one, fixed to 8-1=7" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 0.--2. " DWC_USB3_IDWIDTH                    ,Global hardware configuration parameter DWC_USB3_IDWIDTH minus 1 Note: Sets only the master port's ID width. Slave ID width is set by non-readable DWC_USB3_SIDWIDTH" "0,1,2,3,4,5,6,7"
rgroup.long 0xC148++0x3
line.long 0x00 "USB_GHWPARAMS2,Global hardware parameters 2"
hexmask.long 0x00 0.--31. 1. " DWC_USB3_USERID                     ,Global hardware configuration parameter DWC_USB3_USERID"
rgroup.long 0xC14C++0x3
line.long 0x00 "USB_GHWPARAMS3,Global hardware parameters 3"
hexmask.long.byte 0x00 23.--30. 1. " DWC_USB3_CACHE_TOTAL_XFER_RESOURCES ,Global hardware configuration parameter DWC_USB3_NUM_CACHE_TOTAL_XFER_RESOURCES: Cache total transfer resources"
bitfld.long 0x00 18.--22. "                   DWC_USB3_NUM_IN_EPS           ,Global hardware configuration parameter DWC_USB3_NUM_IN_EPS: Number of IN endpoints, with EP0 counting as one." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 12.--17. "                      DWC_USB3_NUM_EPS                 ,Global hardware configuration parameter DWC_USB3_NUM_EPS: Total number of endpoints (IN+OUT, with EP0 counting as 2 separate ones)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                             "
bitfld.long 0x00 11. " DWC_USB3_ULPI_CARKIT                ,Global hardware configuration parameter DWC_USB3_ULPI_CARKIT: ULPI (optional) car-kit mode implementation - vc. - no." "no,vc"
bitfld.long 0x00 10. "                   DWC_USB3_VENDOR_CTL_INTERFACE ,Global hardware configuration parameter DWC_USB3_VENDOR_CTL_INTERFACE: (UTMI) Vendor Control i/f implementation - vc. - no." "no,vc"
bitfld.long 0x00 6.--7. "                      DWC_USB3_HSPHY_DWIDTH            ,Global hardware configuration parameter DWC_USB3_HSPHY_DWIDTH: HS PHY data width - 8_16. - 16. - 8." "8,16,8_16,3"
textline "                             "
bitfld.long 0x00 4.--5. " DWC_USB3_FSPHY_INTERFACE            ,Global hardware configuration parameter DWC_USB3_FSPHY_INTERFACE: Full (/Low)-Speed (serial) PHY interface - none." "none,1,2,3"
bitfld.long 0x00 2.--3. "                 DWC_USB3_HSPHY_INTERFACE      ,Global hardware configuration parameter DWC_USB3_HSPHY_INTERFACE: High-speed PHY interface - both. - ulpi. - utmi. - none." "none,utmi,ulpi,both"
bitfld.long 0x00 0.--1. "                    DWC_USB3_SSPHY_INTERFACE         ,Global hardware configuration parameter DWC_USB3_SSPHY_INTERFACE: Super Speed PHY interface. - pipe. - none." "none,pipe,2,3"
rgroup.long 0xC150++0x3
line.long 0x00 "USB_GHWPARAMS4,Global hardware parameters 4"
bitfld.long 0x00 28.--31. " DWC_USB3_BMU_LSP_DEPTH              ,Global hardware configuration parameter DWC_USB3_BMU_LSP_DEPTH: Bus Management Unit / List Processor buffer depth" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "                   DWC_USB3_BMU_PTL_DEPTH        ,Global hardware configuration parameter DWC_USB3_BMU_PTL_DEPTH: Bus Management Unit / Protocol Transaction Layer buffer depth" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "                      DWC_USB3_EN_ISOC_SUPT            ,Global hardware configuration parameter DWC_USB3_EN_ISOC_SUPT: Enable Isochronous Support - iso. - none." "none,iso"
textline "                             "
bitfld.long 0x00 17.--20. " DWC_USB3_NUM_SS_USB_INSTANCES       ,Global hardware configuration parameter DWC_USB3_NUM_SS_USB_INSTANCES: Number of (independent) SS USB schedulers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 13.--16. "                   DWC_USB3_HIBER_SCRATCHBUFS    ,Global hardware configuration parameter DWC_USB3_HIBER_SCRATCHBUFS: Number of 4-kbyte buffers required in system memory to store context during hibernation. Don't care since hibernation is not enabled." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--5. "                      DWC_USB3_CACHE_TRBS_PER_TRANSFER ,Global hardware configuration parameter DWC_USB3_CACHE_TRBS_PER_TRANSFER" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0xC154++0x3
line.long 0x00 "USB_GHWPARAMS5,Global hardware parameters 5"
bitfld.long 0x00 22.--27. " DWC_USB3_DFQ_FIFO_DEPTH             ,Global hardware configuration parameter DWC_USB3_DFQ_FIFO_DEPTH" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 16.--21. "                   DWC_USB3_DWQ_FIFO_DEPTH       ,Global hardware configuration parameter DWC_USB3_DWQ_FIFO_DEPTH" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10.--15. "                      DWC_USB3_TXQ_FIFO_DEPTH          ,Global hardware configuration parameter DWC_USB3_TXQ_FIFO_DEPTH" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                             "
bitfld.long 0x00 4.--9. " DWC_USB3_RXQ_FIFO_DEPTH             ,Global hardware configuration parameter DWC_USB3_RXQ_FIFO_DEPTH" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--3. "                   DWC_USB3_BMU_BUSGM_DEPTH      ,Global hardware configuration parameter DWC_USB3_BMU_BUSGM_DEPTH" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0xC158++0x3
line.long 0x00 "USB_GHWPARAMS6,Global hardware parameters 6"
hexmask.long.word 0x00 16.--31. 1. " DWC_USB3_RAM0_DEPTH                 ,Depth of RAM 0, in 64-bit words. RAM0 contains data cache and Rx FIFOs."
bitfld.long 0x00 15. "                 BUSFLTRSSUPPORT               ,Filtering (debounce) on OTG UTMI+ inputs (iddig,vbusvalid,avalid,bvalid,sessend). Reflects DWC_USB3_EN_OTG_FILTERS. - imp. - no." "no,imp"
bitfld.long 0x00 14. "                     BCSUPPORT                        ,Battery Charger detection (ACA = Accessory Charger Adapter) support implemented internally. Reflects DWC_USB3_EN_BC. Note: Support can also be provided OUTSIDE the controller. - imp. - no." "no,imp"
textline "                             "
bitfld.long 0x00 13. " OTGSSSUPPORT                        ,OTG SuperSpeed support (aka OTG3.0) - yes. - no." "no,yes"
bitfld.long 0x00 12. "                  ADPSUPPORT                    ,OTG2.0 ADP (Attach Detection Protocol) support implemented internally. Reflects DWC_USB3_EN_ADP. Note: Support can also be provided OUTSIDE the controller. - imp. - no." "no,imp"
bitfld.long 0x00 11. "                     HNPSUPPORT                       ,OTG2.0 HNP (Host Negotiation Protocol) support. Set when in DRD mode. - support. - no." "no,support"
textline "                             "
bitfld.long 0x00 10. " SRPSUPPORT                          ,OTG2.0 SRP (Session Request Protocol) support. - support. - no." "no,support"
bitfld.long 0x00 7. "              DWC_USB3_EN_FPGA              ,Global hardware configuration parameter DWC_USB3_EN_FPGA" "0,1"
bitfld.long 0x00 0.--5. "                       DWC_USB3_PSQ_FIFO_DEPTH          ,Global hardware configuration parameter DWC_USB3_PSQ_FIFO_DEPTH" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0xC15C++0x3
line.long 0x00 "USB_GHWPARAMS7,Global hardware parameters 7"
hexmask.long.word 0x00 16.--31. 1. " DWC_USB3_RAM2_DEPTH                 ,Depth of RAM 2, in 64-bit words. RAM2 IS NOT IMPLEMENTED IN 2-RAM CONFIG: don't care"
hexmask.long.word 0x00 0.--15. 1. "                 DWC_USB3_RAM1_DEPTH           ,Depth of RAM 1, in 64-bit words. RAM1 contains Tx FIFOs."
group.long 0xC160++0x3
line.long 0x00 "USB_GDBGFIFOSPACE,Global debug FIFO/queue space available"
hexmask.long.word 0x00 16.--31. 1. " SPACE_AVAILABLE                     ,Space available (in the selected FIFO/queue), 64-bit words"
hexmask.long.byte 0x00 0.--7. 1. "                 FIFOQUEUESELECT_PORTSELECT    ,FIFO/queue select or port select. Default value, when indicated, is the space available when empty, that is, the size of the FIFO/queue. PORTSELECT[3:0] selects the port number when accessing the USB_GDBG..."
rgroup.long 0xC164++0x3
line.long 0x00 "USB_GDBGLTSSM,Global debug LTSSM Port number is defined by [3:0] PORTSELECT"
bitfld.long 0x00 29. " PORTSHUTDOWN                        ," "0,1"
bitfld.long 0x00 28. "                    PORTSWAPPING                  ," "0,1"
bitfld.long 0x00 27. "                       PORTDIRECTION                    ,Current direction of the port. - DS. - US." "US,DS"
textline "                             "
bitfld.long 0x00 26. " LTDBTIMEOUT                         ,LTSSM Debug Timeout" "0,1"
bitfld.long 0x00 22.--25. "                    LTDBLINKSTATE                 ,LTSSM Debug: Link State - U3. - SSdisabled. - Loopback. - U2. - U0. - Compliance. - SSinactive. - U1. - Recovery. - Polling. - HotReset. - RXdetect." "U0,U1,U2,U3,SSdisabled,RXdetect,SSinactive,Polling,Recovery,HotReset,Compliance,Loopback,12,13,14,15"
bitfld.long 0x00 18.--21. "              LTDBSUBSTATE                     ,LTSSM Debug: Link Sub-State. Note that the actual reset value (0x0) changes before the register can be read out." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 17. " ELASTICBUFFERMODE                   ,Debug PIPE Status: ElasticBufferMode" "0,1"
bitfld.long 0x00 16. "                    TXELECIDLE                    ,Debug PIPE Status: TxElecIdle" "0,1"
bitfld.long 0x00 15. "                       RXPOLARITY                       ,Debug PIPE Status: RxPolarity" "0,1"
textline "                             "
bitfld.long 0x00 14. " TXDETRXLOOPBACK                     ,Debug PIPE Status: TxDetRxLoopback" "0,1"
bitfld.long 0x00 11.--13. "                    LTDBPHYCMDSTATE               ,LTSSM Debug Phy Command State. - PHY_PWR_DLY. - PHY_PWR_A. - PHY_DET_3. - PHY_IDLE. - PHY_DET. - PHY_PWR_B." "PHY_IDLE,PHY_DET,PHY_DET_3,PHY_PWR_DLY,PHY_PWR_A,PHY_PWR_B,6,7"
bitfld.long 0x00 9.--10. "             POWERDOWN                        ,Debug PIPE Status: PowerDown" "0,1,2,3"
textline "                             "
bitfld.long 0x00 8. " RXEQTRAIN                           ,Debug PIPE Status: RxEqTrain" "0,1"
bitfld.long 0x00 6.--7. "                    TXDEEMPHASIS                  ,Debug PIPE Status: TxDeemphasis" "0,1,2,3"
bitfld.long 0x00 3.--5. "                       LTDBCLKSTATE                     ,LTSSM Debug Clock State - CLK_P3. - CLK_TO_P0. - CLK_WAIT1. - CLK_NORM. - CLK_TO_P3. - CLK_WAIT2." "CLK_NORM,CLK_TO_P3,CLK_WAIT1,CLK_P3,CLK_TO_P0,CLK_WAIT2,6,7"
textline "                             "
bitfld.long 0x00 2. " TXSWING                             ,Debug PIPE Status: TxSwing" "0,1"
bitfld.long 0x00 1. "                    RXTERMINATION                 ,Debug PIPE Status: RxTermination" "0,1"
bitfld.long 0x00 0. "                       TXONESZEROS                      ,Debug PIPE Status: TxOnesZeros" "0,1"
group.long 0xC170++0x3
line.long 0x00 "USB_GDBGLSPMUX,Global debug LSP MUX, for internal use only"
bitfld.long 0x00 16.--21. " TRACEPORTMUXSEL                     ,Select the 64-bit analyzer trace vector. Not sensitive to warm reset (i.e. including software reset), only to power-on reset. - zero." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,zero"
bitfld.long 0x00 8.--13. "                 HOSTSELECT                    ,Host LSP Select[13:8]. Valid only in Host mode." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 4.--7. "                      DEVSELECT                        ,Host LSP Select[7:4] in Host mode Device LSP Select in Device mode" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 0.--3. " EPSELECT                            ,Host LSP Select[3:0] in Host mode Device LSP Select in Device mode" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0xC174++0x3
line.long 0x00 "USB_GDBGLSP,Global debug LSP, for internal use only"
hexmask.long 0x00 0.--31. 1. " DEBUG                               ,LSP debug information"
rgroup.long 0xC178++0x3
line.long 0x00 "USB_GDBGEPINFO0,Global debug endpoint information register 0"
hexmask.long 0x00 0.--31. 1. " DEBUG                               ,EP debug information"
rgroup.long 0xC17C++0x3
line.long 0x00 "USB_GDBGEPINFO1,Global debug endpoint information register 1"
hexmask.long 0x00 0.--31. 1. " DEBUG                               ,EP debug information"
group.long 0xC180++0x3
line.long 0x00 "USB_GPRTBIMAP_HSLO,Global port to USB instance mapping register, high-speed, low bits [31:0]"
bitfld.long 0x00 0.--3. " BINUM1                              ,HS USB instance number for port number 1 Application-programmable ID field" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xC184++0x3
line.long 0x00 "USB_GPRTBIMAP_HSHI,Global port to USB instance mapping register, high-speed, high bits [63:32]"
group.long 0xC188++0x3
line.long 0x00 "USB_GPRTBIMAP_FSLO,Global port to USB instance mapping register, full/low-speed, low bits [31:0]"
bitfld.long 0x00 0.--3. " BINUM1                              ,FS USB instance number for port number 1 Application-programmable ID field" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xC18C++0x3
line.long 0x00 "USB_GPRTBIMAP_FSHI,Global port to USB instance mapping register, full/low-speed, high bits [63:32]"
group.long 0xC200++0x3
line.long 0x00 "USB_GUSB2PHYCFG,Global USB2.0 (UTMI/ULPI) PHY configuration"
bitfld.long 0x00 31. " PHYSOFTRST                          ,PHY Soft Reset. Active-high, fully static software reset for UTMI USB2.0 transceiver. - inactive. - active." "inactive,active"
bitfld.long 0x00 18. "             ULPIEXTVBUSINDICATOR          ,ULPI External VBUS Indicator Indicates the ULPI PHY VBUS over-current indicator. - int. - ext." "int,ext"
bitfld.long 0x00 17. "                     ULPIEXTVBUSDRV                   ,ULPI External VBUS Drive Selects supply source to drive 5V on VBUS, in the ULPI PHY. - int. - ext." "int,ext"
textline "                             "
bitfld.long 0x00 16. " ULPICLKSUSM                         ,Sets the ClockSuspendM bit in the Interface Control register on the ULPI PHY. Applicable only in serial FS/LS or Carkit modes. NOT APPLICABLE" "0,1"
bitfld.long 0x00 15. "                    ULPIAUTORES                   ,ULPI Auto Resume. Sets the AutoResume bit in Interface Control register on the ULPI PHY. - no. - auto." "no,auto"
bitfld.long 0x00 10.--13. "                    USBTRDTIM                        ,USB 2.0 Turnaround Time, in PHY clock cycles. Specifies the response time for a MAC request to the Packet FIFO Controller (PFC) to fetch data from the DFIFO (SPRAM)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 8. " ENBLSLPM                            ,Enable UTMI Sleep. Controls assertion of utmi_sleep_n, utmi_l1_suspend_n outputs to the PHY when in the L1 state. - no. - yes." "no,yes"
bitfld.long 0x00 7. "                  PHYSEL                        ,PHY Select. (HS vs. serial): Unused, since serial PHY is not supported." "0,1"
bitfld.long 0x00 6. "                       SUSPHY                           ,Suspend enable for USB2.0 HS/FS/LS PHY (ULPI or UTMI). Set to 1 only after core initialization is complete. - 0. - 1." "0,1"
textline "                             "
bitfld.long 0x00 5. " FSINTF                              ,Full-Speed Serial Interface Select. UNUSED." "0,1"
bitfld.long 0x00 4. "                    ULPI_UTMI_SEL                 ,ULPI or UTMI+ Select - utmi. - ulpi." "utmi,ulpi"
bitfld.long 0x00 3. "                    PHYIF                            ,PHY Interface. DO NOT USE. If UTMI+ is selected, configures 8- or 16-bit interface. If ULPI is selected, configures SDR or DDR mode. - zero. - one." "zero,one"
textline "                             "
bitfld.long 0x00 0.--2. " TOUTCAL                             ,HS/FS Timeout Calibration. The number of PHY clocks, as indicated by the application in this field, is multiplied by a bit-time factor; this factor is added to the high-speed/full-speed interpacket timeout duration..." "0,1,2,3,4,5,6,7"
group.long 0xC280++0x3
line.long 0x00 "USB_GUSB2PHYACC,Global USB2.0 PHY access"
bitfld.long 0x00 26. " DISULPIDRVR                         ,Disable ULPI drivers, for carkit mode. Auto-cleared. NOT USED." "0,1"
bitfld.long 0x00 25. "                    NEWREGREQ                     ,New register request. Auto-cleared. - . - . - . - ." "No_action,Access_request_pending"
bitfld.long 0x00 24. "  VSTSDONE                         ,VStatus Done - . - ." "0,access_is_done."
textline "                             "
bitfld.long 0x00 23. " VSTSBSY                             ,VStatus busy - . - ." "Access_is_done.,1"
bitfld.long 0x00 22. "      REGWR                         ,Register write - . - ." "Read,Write"
bitfld.long 0x00 16.--21. "                   REGADDR                          ,Register address ULPI PHY register address for immediate PHY register set access. Set to 6'h2F for extended PHY register set access." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                             "
bitfld.long 0x00 8.--13. " EXTREGADDR                          ,ULPI: PHY extended register address. UTMI+: Unused" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "                   REGDATA                       ,Register data (read and write data)"
group.long 0xC2C0++0x3
line.long 0x00 "USB_GUSB3PIPECTL,Global USB3.0 PIPE control"
bitfld.long 0x00 31. " PHYSOFTRST                          ,PHY Soft Reset. Active-high, fully static software reset for PIPE USB3.0 transceiver. - inactive. - active." "inactive,active"
bitfld.long 0x00 27. "             UX_EXIT_IN_PX                 ,Workaround for SS PHY injecting a glitch on RxElecIdle while receiving Ux exit LFPS, and PowerDown change is in progress. - default. - wa." "default,wa"
bitfld.long 0x00 26. "                 PING_ENHANCEMENT_EN              ,Ping Enhancement Enable: Extended downstream port U1 ping receive timeout. Invalid for Upstream port. - default. - 500." "default,500"
textline "                             "
bitfld.long 0x00 25. " U1U2EXITFAIL_TO_RECOV               ,Enhancement to prevent interoperability issue in case of incorrect LFPS handshake by the remote link. - default. - enhanced." "default,enhanced"
bitfld.long 0x00 24. "             REQUEST_P1P2P3                ,Control the systematic request of P1/P2/P3 for U1/U2/U3 - none. - always." "none,always"
bitfld.long 0x00 23. "                  STARTRXDETU3RXDET                ,Manual control for periodic Rx detection required in U3 and Rx.Detect, host mode. - noop. - detect." "noop,detect"
textline "                             "
bitfld.long 0x00 22. " DISRXDETU3RXDET                     ,Disable the HW-scheduled periodic Rx detection required in U3 and SS.Disabled, for host mode. - Auto. - Manual." "Auto,Manual"
bitfld.long 0x00 19.--21. "               P1P2P3DELAY                   ,If DelayP0toP1P2P3=1, delays the transition to P1/P2/P3 when entering U1/U2/U3 until P1P2P3Delay*8b10b errors occur, or RxValid=0 on PIPE." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 18. "                       DELAYP0TOP1P2P3                  ,Delay PHY change from P0 to P1/P2/P3 when link state changes from U0 to U1/U2/U3, respectively. - dis. - en." "dis,en"
textline "                             "
bitfld.long 0x00 17. " SUSPENDENABLE                       ,Suspend Enable for USB3.0 SS PHY. Set to 1 only after core initialization is complete. - 0. - 1." "0,1"
bitfld.long 0x00 15.--16. "                    DATWIDTH                      ,PIPE Data Width (input from phy: refer to PIPE standard) Field updated to the input's value immediately after reset. - 8. - 16. - 32." "32,16,8,3"
bitfld.long 0x00 14. "                      ABORTRXDETINU2                   ,Abort Rx Detect in U2. For Downstream port only. - no_abort. - abort." "no_abort,abort"
textline "                             "
bitfld.long 0x00 13. " SKIPRXDET                           ,Skip Rx Detect. When set, the core skips Rx Detection if PIPE signal 'RxElecIdle' is low. Skip is defined as waiting for the appropriate timeout, then repeating the operation." "0,1"
bitfld.long 0x00 12. "                    LFPSP0ALGN                    ,LFPS P0 Align. When set to 1: - The core deasserts LFPS transmission on the clock edge that it requests PHY power state 0 when exiting U1, U2, or U3 low power states. Otherwise, LFPS transmission is as..." "def,align"
bitfld.long 0x00 11. "                   P3P2TRANOK                       ,P3-to-P2 Transitions OK - notset. - set." "notset,set"
textline "                             "
bitfld.long 0x00 10. " P3EXSIGP2                           ,PHY power state behaviour upon U3 exit handshake. - default. - p2." "default,p2"
bitfld.long 0x00 9. "              LFPSFILT                      ,LFPS Filter. When set, filter LFPS reception with PIPE 'RxValid' signal in PHY power state P0, that is, ignore LFPS reception from the PHY unless both PIPE signals 'RxElecIdle' and 'RxValid' are deasserted." "0,1"
bitfld.long 0x00 6. "                       TXSWING                          ,Tx Swing (output to PHY: refer to PIPE standard)" "0,1"
textline "                             "
bitfld.long 0x00 3.--5. " TXMARGIN                            ,Tx Margin[2:0] (output to PHY: refer to PIPE standard)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 1.--2. "                    TXDEEMPHASIS                  ,Tx Deemphasis (output to PHY: refer to PIPE standard) The value driven to the PHY is controlled by the LTSSM during USB3.0 Compliance mode." "0,1,2,3"
bitfld.long 0x00 0. "                       ELASTICBUFFERMODE                ,Elastic Buffer Mode (output to PHY: refer to PIPE standard)" "0,1"
group.long 0xC300++0x3
line.long 0x00 "USB_GTXFIFOSIZ0,Global Transmit FIFO Size 0: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC304++0x3
line.long 0x00 "USB_GTXFIFOSIZ1,Global Transmit FIFO Size 1: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC308++0x3
line.long 0x00 "USB_GTXFIFOSIZ2,Global Transmit FIFO Size 2: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC30C++0x3
line.long 0x00 "USB_GTXFIFOSIZ3,Global Transmit FIFO Size 3: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC310++0x3
line.long 0x00 "USB_GTXFIFOSIZ4,Global Transmit FIFO Size 4: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC314++0x3
line.long 0x00 "USB_GTXFIFOSIZ5,Global Transmit FIFO Size 5: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC318++0x3
line.long 0x00 "USB_GTXFIFOSIZ6,Global Transmit FIFO Size 6: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC31C++0x3
line.long 0x00 "USB_GTXFIFOSIZ7,Global Transmit FIFO Size 7: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC320++0x3
line.long 0x00 "USB_GTXFIFOSIZ8,Global Transmit FIFO Size 8: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC324++0x3
line.long 0x00 "USB_GTXFIFOSIZ9,Global Transmit FIFO Size 9: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC328++0x3
line.long 0x00 "USB_GTXFIFOSIZ10,Global Transmit FIFO Size 10: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC32C++0x3
line.long 0x00 "USB_GTXFIFOSIZ11,Global Transmit FIFO Size 11: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC330++0x3
line.long 0x00 "USB_GTXFIFOSIZ12,Global Transmit FIFO Size 12: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC334++0x3
line.long 0x00 "USB_GTXFIFOSIZ13,Global Transmit FIFO Size 13: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC338++0x3
line.long 0x00 "USB_GTXFIFOSIZ14,Global Transmit FIFO Size 14: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC33C++0x3
line.long 0x00 "USB_GTXFIFOSIZ15,Global Transmit FIFO Size 15: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words. - . - ."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words. - . - ."
group.long 0xC380++0x3
line.long 0x00 "USB_GRXFIFOSIZ0,Global Receive FIFO Size 0: FIFO mapping in RAM0, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " RXFSTADDR                           ,Receive FIFO RAM Start Address, in 64-bit RAM words. - min. - max."
hexmask.long.word 0x00 0.--15. 1. "                 RXFDEP                        ,Receive FIFO Depth, in 64-bit RAM words - min. - max."
group.long 0xC384++0x3
line.long 0x00 "USB_GRXFIFOSIZ1,Global receive FIFO size 1: FIFO mapping in RAM0, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " RXFSTADDR                           ,Receive FIFO RAM Start Address, in 64-bit RAM words. - min. - max."
hexmask.long.word 0x00 0.--15. 1. "                 RXFDEP                        ,Receive FIFO Depth, in 64-bit RAM words - min. - max."
group.long 0xC388++0x3
line.long 0x00 "USB_GRXFIFOSIZ2,Global receive FIFO size 2: FIFO mapping in RAM0, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " RXFSTADDR                           ,Receive FIFO RAM Start Address, in 64-bit RAM words. - min. - max."
hexmask.long.word 0x00 0.--15. 1. "                 RXFDEP                        ,Receive FIFO Depth, in 64-bit RAM words - min. - max."
group.long 0xC400++0x3
line.long 0x00 "USB_GEVNTADRLO,Global event address: Lower 32 bits of start address of the external memory for the event buffer. During operation, hardware does not update this address."
hexmask.long 0x00 0.--31. 1. " EVNTADRLO                           ,EVNTADR[31:0]"
group.long 0xC404++0x3
line.long 0x00 "USB_GEVNTADRHI,Global event address: Upper 32 bits of start address of the external memory for the event buffer. During operation, hardware does not update this address."
hexmask.long 0x00 0.--31. 1. " EVNTADRHI                           ,EVNTADR[64:32]"
group.long 0xC408++0x3
line.long 0x00 "USB_GEVNTSIZ,Global event buffer size"
bitfld.long 0x00 31. " EVNTINTRPTMASK                      ,Event interrupt mask Prevents the interrupt from being generated when set to 1 The events are queued wven when the mask is set." "0,1"
hexmask.long.word 0x00 0.--15. 1. "                    EVENTSIZ                      ,Event buffer size Size of the event buffer in bytes; must be a multiple of 4. Programmed by software once during initialization."
group.long 0xC40C++0x3
line.long 0x00 "USB_GEVNTCOUNT,Global event buffer count"
hexmask.long.word 0x00 0.--15. 1. " EVNTCOUNT                           ,Event count When read, returns the number of valid events in the event buffer in bytes When written, hardware decrements the count by the value written. The interrupt remains active while count is not 0."
rgroup.long 0xC600++0x3
line.long 0x00 "USB_GHWPARAMS8,Global hardware parameters 8"
hexmask.long 0x00 0.--31. 1. " DWC_USB3_DCACHE_DEPTH_INFO          ,Depth of data cache, in 64-bit words (fixed). The cache occupies RAM0 from word 0 to DCACHE_DEPTH_INFO-1: Rx FIFOs shall be mapped from word DCACHE_DEPTH_INFO to RAM0_DEPTH-1."
rgroup.long 0xC604++0x3
line.long 0x00 "USB_GHWPARAMS9,Global hardware parameters 9"
hexmask.long 0x00 0.--31. 1. " GHWPARAMS9                          ,NOT USED"
group.long 0xC700++0x3
line.long 0x00 "USB_DCFG,Device configuration: Configures the core in device mode after power-on or after certain control commands or enumeration. Does not change after initial programming."
bitfld.long 0x00 23. " IGNORESTREAMPP                      ,Ignore Packet-Pending for Stream management. From stream-capable bulk endpoints only. - nochange. - ignore." "nochange,ignore"
bitfld.long 0x00 22. "             LPMCAP                        ,Link Power Management (LPM) Capability. - no. - yes." "no,yes"
bitfld.long 0x00 17.--21. "                     NUMP                             ,Number of Receive Buffers. Indicates number of receive buffers to be reported in ACK TP. Value based on RxFIFO size, buffer sizes programmed in descriptors, and system latency." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                             "
bitfld.long 0x00 12.--16. " INTRNUM                             ,Interrupt Number. Interrupt/EventQ number on which non-endpoint-specific device related interrupts (see DEVT) are generated." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--11. "                   PERFRINT                      ,Periodic Frame Interrupt. Time within a (micro)frame when the application must be notified using the End Of Periodic Frame Interrupt, which can be used to determine if all the periodic (isochronous, int..." "80,85,90,95"
hexmask.long.byte 0x00 3.--9. 1. "                      DEVADDR                          ,Device Address. Configure upon set-address USB command, clear to 0 upon USB reset. - def."
textline "                             "
bitfld.long 0x00 0.--2. " DEVSPD                              ,Device Speed: USB speed at which the core should connect. Actual bus speed is determined only after chirp completion, based on the speed of the attached USB host. - hs. - fs. - fs_serial. - ss. - ls_serial." "hs,fs,ls_serial,fs_serial,ss,5,6,7"
group.long 0xC704++0x3
line.long 0x00 "USB_DCTL,Device control"
bitfld.long 0x00 31. " RUNSTOP                             ,Run/Stop - stop. - start." "stop,start"
bitfld.long 0x00 30. "                CSFTRST                       ,Core Soft Reset. Auto-cleared. The reset has the following effect: - Interrupts are cleared. - Registers are cleared except: USB_GSTS, USB_GSNPSID, USB_GGPIO, USB_GUID, USB_GUSB2PHYCFG, USB_GUSB3PIPECTL, U..." "idle,reset"
bitfld.long 0x00 28. "                   HIRDTHRES_4                      ,Host Initiated Resume Duration (HIRD) Threshold, MSbit: See HIRDTHRES_TIME" "0,1"
textline "                             "
bitfld.long 0x00 24.--27. " HIRDTHRES_TIME                      ,Host Initiated Resume Duration (HIRD) Threshold, LSBits = timeout value. utmi_l1_suspend_n is asserted in L1 when : (HIRD value >= HIRDTHRES_TIME) and (HIRDTHRES_4=1) utmi_sleep_n is asserted in L1 when : (H..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "                   APPL1RES                      ,LPM Response Programmed by Application: Handshake response made to LPM token. Note that if USB_DCFG[22] LPMCAP = 0, the response is always timeout (no response). - can_nyet. - ack." "can_nyet,ack"
bitfld.long 0x00 19. "                KEEPCONNECT                      ,Used for Save-and-Restore operation. DO NOT USE, SAR NOT IMPLEMENTED - noaction. - keep." "noaction,keep"
textline "                             "
bitfld.long 0x00 18. " L1HIBERNATIONEN                     ,DO NOT USE, SAR NOT IMPLEMENTED" "0,1"
bitfld.long 0x00 17. "                    CRS                           ,Controller Restore State. DO NOT USE, SAR NOT IMPLEMENTED - restore. - noaction." "restore,noaction"
bitfld.long 0x00 16. "                CSS                              ,Controller Save State. DO NOT USE, SAR NOT IMPLEMENTED - save. - noaction." "save,noaction"
textline "                             "
bitfld.long 0x00 12. " INITU2ENA                           ,Initiate U2 Enable. Cleared to 0 by USB reset. - newEnum1. - newEnum2." "newEnum1,newEnum2"
bitfld.long 0x00 11. "             ACCEPTU2ENA                   ,Accept U2 Enable. Cleared to 0 by USB reset. - no. - yes." "no,yes"
bitfld.long 0x00 10. "                     INITU1ENA                        ,Initiate U1 Enable. Cleared to 0 by USB reset. - no. - yes." "no,yes"
textline "                             "
bitfld.long 0x00 9. " ACCEPTU1ENA                         ,Accept U1 Enable. Cleared to 0 by USB reset. - no. - yes." "no,yes"
bitfld.long 0x00 5.--8. "                  ULSTCHNGREQ                   ,USB/Link State Change Request. A new request is indicated by a change of value. To issue the same request back-to-back, a 0 shall be written between the two requests. State change request result is refle..." "noop,1,2,3,dis,rxdet,inact,7,rec,9,comp,loop,12,13,14,15"
bitfld.long 0x00 1.--4. "                   TSTCTL                           ,Test Control - 1. - 0. - 2. - 4. - 5. - 3." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xC708++0x3
line.long 0x00 "USB_DEVTEN,Device event enable: Enables the generation of device-specific events (see USB_DEVT)."
bitfld.long 0x00 13. " INACTTIMEOUTRCVEDEN                 ,U2 Inactive Timeout Received Event Enable" "0,1"
bitfld.long 0x00 12. "                    VNDRDEVTSTRCVEDEN             ,Vendor Device Test Received event Enable" "0,1"
bitfld.long 0x00 11. "                       EVNTOVERFLOWEN                   ,Event Overflow event Enable" "0,1"
textline "                             "
bitfld.long 0x00 10. " CMDCMPLTEN                          ,Command Complete event Enable" "0,1"
bitfld.long 0x00 9. "                    ERRTICERREN                   ,Erratic Error event Enable" "0,1"
bitfld.long 0x00 7. "                       SOFEN                            ,Start of (micro)Frame event Enable. For debug only." "0,1"
textline "                             "
bitfld.long 0x00 6. " EOPFEN                              ,End of Periodic Frame event Enable. For debug only." "0,1"
bitfld.long 0x00 5. "                    HIBERNATIONREQEVTEN           ,Hibernation Request Event Enable. DO NOT USE, HIBERNATION NOT IMPLEMENTED" "0,1"
bitfld.long 0x00 4. "                       WKUPEVTEN                        ,Resume/Remote Wakeup Detected Event Enable." "0,1"
textline "                             "
bitfld.long 0x00 3. " ULSTCNGEN                           ,USB/Link State Change event Enable" "0,1"
bitfld.long 0x00 2. "                    CONNECTDONEEN                 ,Connection Done event Enable" "0,1"
bitfld.long 0x00 1. "                       USBRSTEN                         ,USB Reset Enable" "0,1"
textline "                             "
bitfld.long 0x00 0. " DISCONNEVTEN                        ,Disconnct Event Enable" "0,1"
rgroup.long 0xC70C++0x3
line.long 0x00 "USB_DSTS,Device status"
bitfld.long 0x00 29. " DCNRD                               ,Device Controller Not Ready - wait. - rdy." "rdy,wait"
bitfld.long 0x00 28. "                 SRE                           ,Save/Restore Error. NOT SUPPORTED." "0,1"
bitfld.long 0x00 25. "                       RSS                              ,Restore State Status, triggered by writing 1 to RSS - restoring. - idle." "idle,restoring"
textline "                             "
bitfld.long 0x00 24. " SSS                                 ,Save State Status, triggered by writing 1 to SSS - saving. - idle." "idle,saving"
bitfld.long 0x00 23. "               COREIDLE                      ,Core Idle status. asserted when all RxFIFO data transferred to system memory, all completed descriptors are written, and all Event Counts are zero. Changes after reset, so that reset value may not match fir..." "active,idle"
bitfld.long 0x00 22. "                  DEVCTRLHLT                       ,Device Controller Halted. Cleared (0) when theUSB_DCTL[31] RUNSTOP is written to 1. Set (1) after USB_DCTL[31] RUNSTOP has been written to 0, core is idle and disconnect process is complete. When DEVC..." "0,1"
textline "                             "
bitfld.long 0x00 18.--21. " USBLNKST                            ,USB/Link State. Encoding depends on the connection speed (SS or HS/FS/LS) - 3. - 14. - 4. - 11. - 15. - 2. - 0. - 10. - 6. - 1. - 8. - 7. - 9. - 5." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 17. "                   RXFIFOEMPTY                   ,Rx FIFO Empty - empty. - notempty." "notempty,empty"
hexmask.long.word 0x00 3.--16. 1. "                SOFFN                            ,received Start Of Frame's Frame Number"
textline "                             "
bitfld.long 0x00 0.--2. " CONNECTSPD                          ,Connection Speed. USB speed at which the device has come up after speed detection through a chirp sequence. - fs_serial. - ls_serial. - fs. - hs. - ss." "hs,fs,ls_serial,fs_serial,ss,5,6,7"
group.long 0xC710++0x3
line.long 0x00 "USB_DGCMDPAR,Device generic command parameter: To be programmed before or along with the device command itself."
hexmask.long 0x00 0.--31. 1. " PARAMETER                           ,Parameter of the command; command-dependent."
group.long 0xC714++0x3
line.long 0x00 "USB_DGCMD,Device generic command: Generic command interface to send link management packets and notifications."
bitfld.long 0x00 15. " CMDSTATUS                           ,Command Status. - newEnum2. - none." "none,newEnum2"
bitfld.long 0x00 10. "             CMDACT                        ,Command active. Auto-cleared. - start. - active. - idle." "idle,start"
bitfld.long 0x00 8. "                   CMDIOC                           ,Command Interrupt On Complete. Event mapped to interrupt numberUSB_DCFG[16:12] INTNUM. Reads return 0. - ioc." "0,ioc"
textline "                             "
hexmask.long.byte 0x00 0.--7. 1. " CMDTYP                              ,Command Type. Reads return 0. - 12. - 3. - 6. - 10. - 2. - 1. - 9. - 16."
group.long 0xC720++0x3
line.long 0x00 "USB_DALEPENA,Device active USB endpoint enable. Set each bit (1) to enable the corresponding endpoint. Bits 0 and 1 are set after USB reset as they enable the control endpoint. All other bits are set according to enumeration, and cleared on a USB reset..."
bitfld.long 0x00 31. " USBACTEP15_IN                       ,USB Activate Endpoint 15 IN" "0,1"
bitfld.long 0x00 30. "                    USBACTEP15_OUT                ,USB Activate Endpoint 15 OUT" "0,1"
bitfld.long 0x00 29. "                       USBACTEP14_IN                    ,USB Activate Endpoint 14 IN" "0,1"
textline "                             "
bitfld.long 0x00 28. " USBACTEP14_OUT                      ,USB Activate Endpoint 14 OUT" "0,1"
bitfld.long 0x00 27. "                    USBACTEP13_IN                 ,USB Activate Endpoint 13 IN" "0,1"
bitfld.long 0x00 26. "                       USBACTEP13_OUT                   ,USB Activate Endpoint 13 OUT" "0,1"
textline "                             "
bitfld.long 0x00 25. " USBACTEP12_IN                       ,USB Activate Endpoint 12 IN" "0,1"
bitfld.long 0x00 24. "                    USBACTEP12_OUT                ,USB Activate Endpoint 12 OUT" "0,1"
bitfld.long 0x00 23. "                       USBACTEP11_IN                    ,USB Activate Endpoint 11 IN" "0,1"
textline "                             "
bitfld.long 0x00 22. " USBACTEP11_OUT                      ,USB Activate Endpoint 11 OUT" "0,1"
bitfld.long 0x00 21. "                    USBACTEP10_IN                 ,USB Activate Endpoint 10 IN" "0,1"
bitfld.long 0x00 20. "                       USBACTEP10_OUT                   ,USB Activate Endpoint 10 OUT" "0,1"
textline "                             "
bitfld.long 0x00 19. " USBACTEP9_IN                        ,USB Activate Endpoint 9 IN" "0,1"
bitfld.long 0x00 18. "                    USBACTEP9_OUT                 ,USB Activate Endpoint 9 OUT" "0,1"
bitfld.long 0x00 17. "                       USBACTEP8_IN                     ,USB Activate Endpoint 8 IN" "0,1"
textline "                             "
bitfld.long 0x00 16. " USBACTEP8_OUT                       ,USB Activate Endpoint 8 OUT" "0,1"
bitfld.long 0x00 15. "                    USBACTEP7_IN                  ,USB Activate Endpoint 7 IN" "0,1"
bitfld.long 0x00 14. "                       USBACTEP7_OUT                    ,USB Activate Endpoint 7 OUT" "0,1"
textline "                             "
bitfld.long 0x00 13. " USBACTEP6_IN                        ,USB Activate Endpoint 6 IN" "0,1"
bitfld.long 0x00 12. "                    USBACTEP6_OUT                 ,USB Activate Endpoint 6 OUT" "0,1"
bitfld.long 0x00 11. "                       USBACTEP5_IN                     ,USB Activate Endpoint 5 IN" "0,1"
textline "                             "
bitfld.long 0x00 10. " USBACTEP5_OUT                       ,USB Activate Endpoint 5 OUT" "0,1"
bitfld.long 0x00 9. "                    USBACTEP4_IN                  ,USB Activate Endpoint 4 IN" "0,1"
bitfld.long 0x00 8. "                       USBACTEP4_OUT                    ,USB Activate Endpoint 4 OUT" "0,1"
textline "                             "
bitfld.long 0x00 7. " USBACTEP3_IN                        ,USB Activate Endpoint 3 IN" "0,1"
bitfld.long 0x00 6. "                    USBACTEP3_OUT                 ,USB Activate Endpoint 3 OUT" "0,1"
bitfld.long 0x00 5. "                       USBACTEP2_IN                     ,USB Activate Endpoint 2 IN" "0,1"
textline "                             "
bitfld.long 0x00 4. " USBACTEP2_OUT                       ,USB Activate Endpoint 2 OUT" "0,1"
bitfld.long 0x00 3. "                    USBACTEP1_IN                  ,USB Activate Endpoint 1 IN" "0,1"
bitfld.long 0x00 2. "                       USBACTEP1_OUT                    ,USB Activate Endpoint 1 OUT" "0,1"
textline "                             "
bitfld.long 0x00 1. " USBACTEP0_IN                        ,USB Activate Endpoint 0 IN (control)" "0,1"
bitfld.long 0x00 0. "                    USBACTEP0_OUT                 ,USB Activate Endpoint 0 OUT (control)" "0,1"
group.long 0xCC00++0x3
line.long 0x00 "USB_OCFG,OTG configuration"
bitfld.long 0x00 3. " OTGSFTRSTMSK                        ,Protects OTG, PHY and VBUS filters from the following software resets: xHCIUSB_USBCMD[1] HCRST (host), USB_DCTL[30] CSFTRST (device). Note: In OTG2 applications, it is not recommended to program USB_USBCMD[1] HCRST..." "default,mask"
bitfld.long 0x00 2. "              OTGVERSION                    ,Debug, always write 0." "0,1"
bitfld.long 0x00 1. "                       HNPCAP                           ,HNP Capabilty Enable. - no. - yes." "no,yes"
textline "                             "
bitfld.long 0x00 0. " SRPCAP                              ,SRP Capability enable. For A-device, SRP detection. For B-device, SRP generation. - no. - yes." "no,yes"
group.long 0xCC04++0x3
line.long 0x00 "USB_OCTL,OTG control IMPORTANT NOTE: Register is reinitialized on ID change, but is not affected by a software reset."
bitfld.long 0x00 7. " OTG3_GOERR                          ,To be set upon TRSP_ACK_ERR, TRSP_CNF_ERR, or TRSP_WRST_ERR timeout. Auto-cleared. OTG3: NOT IMPLEMENTED, DO NOT SET. - noop. - pending. - go." "noop,pending"
bitfld.long 0x00 6. "              PERIMODE                      ,Peripheral Mode. Program the core to work as a peripheral or as a host. - yes. - no." "no,yes"
bitfld.long 0x00 5. "                     PRTPWRCTL                        ,Port Power Control. Set or cleared by software. Self-cleared in any of the following conditions: 1) transition to a_idle OTG state 2) aidl_bdis_tout event when in a_suspend OTG state 3) a_wait_bcon..." "swoff,req"
textline "                             "
bitfld.long 0x00 4. " HNPREQ                              ,HNP Request. Set (1) by software to initiate HNP request to the connected USB host. Clear (0) by software upon eitherUSB_OEVT[11] OTGBDEVHOSTENDEVNT or USB_OEVT[8] OTGBDEVVBUSCHNGEVNT. - done. - ongoing." "done,ongoing"
bitfld.long 0x00 3. "              SESREQ                        ,Session Request. In the absence ofUSB_OEVT[9] OTGBDEVSESSVLDDETEVNT after a request, the application must wait for at least TB_SRP_FAIL (6 secs) before another request. - noop. - srp. - zero." "noop,srp"
bitfld.long 0x00 2. "                    TERMSELDLPULSE                   ,TermSelect Data Line Pulse. Alternate SRP data line pulsing method on UTMI interface. - newEnum1. - newEnum2." "newEnum1,newEnum2"
textline "                             "
bitfld.long 0x00 1. " DEVSETHNPEN                         ,Device Set HNP Enable. To be set when HNP has been successfully enabled by the connected host, using the SetFeature.SetHNPEnable command. - dis. - en." "dis,en"
bitfld.long 0x00 0. "                  HSTSETHNPEN                   ,Host Set HNP Enable. To be set when HNP has been successfully enabled on the connected device, using the SetFeature.SetHNPEnable command. - dis. - en." "dis,en"
group.long 0xCC08++0x3
line.long 0x00 "USB_OEVT,OTG event: OTG interrupt status. All writable bits are cleared by writing a 1."
bitfld.long 0x00 31. " DEVICEMODE                          ,Dual-role device's mode, based on iddig input. - b. - a." "a,b"
eventfld.long 0x00 24. "                    OTGCONIDSTSCHNGEVNT           ,Connector ID status change event. Set in both A-device and B-device mode. - noop. - clr. - evt. - noevt." "noop,clr"
eventfld.long 0x00 23. "                    HRRCONFNOTIFEVNT                 ,Host Role Request Confirm Notifier Event. Set upon reception of HRR Device Notification TP with Confirm field set. Set in OTG3, SS, A-host or B-host mode only. OTG3: NOT IMPLEMENTED - noop. - clr. -..." "noop,clr"
textline "                             "
eventfld.long 0x00 22. " HRRINITNOTIFEVNT                    ,Host Role Request Initiate Notifier Event. Set upon reception of HRR Device Notification TP with Initiate field set. Set in OTG3, SS, A-host or B-host mode only. OTG3: NOT IMPLEMENTED - noop. - clr. - evt. - noevt." "noop,clr"
eventfld.long 0x00 21. "                 OTGADEVIDLEEVNT               ,A-device A-IDLE Event. Set when OTG FSM enters A-IDLE state from any other state. Set in A-device mode only. OTG3: NOT IMPLEMENTED - noop. - clr. - evt. - noevt." "noop,clr"
eventfld.long 0x00 20. "                    OTGADEVBHOSTENDEVNT              ,A-device B-host End Event. Set when connected B-device has completed its B-host role and returns to B-peripheral. Set in A-device mode only. - noop. - clr. - evt. - noevt." "noop,clr"
textline "                             "
eventfld.long 0x00 19. " OTGADEVHOSTEVNT                     ,A-device Host Event. Set when device enters host role, upon initial connect to B-device as well as upon HNP from A-peripheral to A-host. Set in A-device mode only. - noop. - clr. - evt. - noevt." "noop,clr"
eventfld.long 0x00 18. "                 OTGADEVHNPCHNGDETEVNT         ,A-device HNP change Detected Event. Set when there is an HNP event. Set in A-device mode only. - noop. - clr. - evt. - noevt." "noop,clr"
eventfld.long 0x00 17. "                    OTGADEVSRPDETEVNT                ,A-device SRP Detected Event. Set when SRP request from B-device is detected. Set in A-device mode only. - noop. - clr. - evt. - noevt." "noop,clr"
textline "                             "
eventfld.long 0x00 16. " OTGADEVSESSENDDETEVNT               ,A-device Session End Detected Event. Set when UTMI input 'a-vbus-valid' is deasserted (0). Set in A-device mode only. - noop. - clr. - evt. - noevt." "noop,clr"
eventfld.long 0x00 11. "                 OTGBDEVHOSTENDEVNT            ,B-device Host End Event. Set completing B-host role and returning to default B-peripheral role. Set in B-device mode only. - noop. - clr. - evt. - noevt." "noop,clr"
eventfld.long 0x00 10. "                    OTGBDEVHNPCHNGEVNT               ,B-device HNP Change Event. Set upon (success of failure of an) HNP attempt. Set in B-device mode only. - noop. - clr. - evt. - noevt." "noop,clr"
textline "                             "
eventfld.long 0x00 9. " OTGBDEVSESSVLDDETEVNT               ,B-device Session Valid Detected Event. Set when B-device succeeds in starting a session. Set in B-device mode only. - noop. - clr. - evt. - noevt." "noop,clr"
eventfld.long 0x00 8. "                 OTGBDEVVBUSCHNGEVNT           ,B-device VBUS Change Event. Set when UTMI input 'b-session-valid' transitions (to 0 or 1). Set in B-device mode only. - noop. - clr. - evt. - noevt." "noop,clr"
bitfld.long 0x00 3. "                    BSESVLD                          ,B-Session Valid. Updated when OTGBDevVBUSChngEvnt is set. - valid. - invalid." "invalid,valid"
textline "                             "
bitfld.long 0x00 2. " HSTNEGSTS                           ,Host Negotiation Status. Updated when OTGADevHNPChngEvnt or OTGBDevHNPChngEvnt is set. - success. - failure." "failure,success"
bitfld.long 0x00 1. "              SESREQSTS                     ,Session Request Status. Updated when OTGBDevSessVldDetEvnt is set. - SRP. - noSRP." "noSRP,SRP"
eventfld.long 0x00 0. "                   OEVTERROR                        ,No errors currently defined. - noop. - clr. - evt. - noevt." "noop,clr"
group.long 0xCC0C++0x3
line.long 0x00 "USB_OEVTEN,OTG event enable: OTG interrupt event enable."
bitfld.long 0x00 24. " OTGCONIDSTSCHNGEVNTEN               ,Connector ID Status Change Event Enable. - dis. - en." "dis,en"
bitfld.long 0x00 23. "                  HRRCONFNOTIFEVNTEN            ,Host Role Request Confirm Notifier Event Enable. OTG3: NOT IMPLEMENTED - dis. - en." "dis,en"
bitfld.long 0x00 22. "                     HRRINITNOTIFEVNTEN               ,Host Role Request Initiate Notifier Event Enable. OTG3: NOT IMPLEMENTED - dis. - en." "dis,en"
textline "                             "
bitfld.long 0x00 21. " OTGADEVIDLEEVNTEN                   ,A-device A-IDLE Event Enable. - dis. - en." "dis,en"
bitfld.long 0x00 20. "                  OTGADEVBHOSTENDEVNTEN         ,A-device B-host End Event Enable. - dis. - en." "dis,en"
bitfld.long 0x00 19. "                     OTGADEVHOSTEVNTEN                ,A-device Host Event Enable. - dis. - en." "dis,en"
textline "                             "
bitfld.long 0x00 18. " OTGADEVHNPCHNGDETEVNTEN             ,A-device HNP change Detected Event Enable. - dis. - en." "dis,en"
bitfld.long 0x00 17. "                  OTGADEVSRPDETEVNTEN           ,A-device SRP Detected Event Enable. - dis. - en." "dis,en"
bitfld.long 0x00 16. "                     OTGADEVSESSENDDETEVNTEN          ,A-device Session End Detected Event Enable. - dis. - en." "dis,en"
textline "                             "
bitfld.long 0x00 11. " OTGBDEVHOSTENDEVNTEN                ,B-device Host End Event Enable. - dis. - en." "dis,en"
bitfld.long 0x00 10. "                  OTGBDEVHNPCHNGEVNTEN          ,B-device HNP Change Event Enable. - dis. - en." "dis,en"
bitfld.long 0x00 9. "                     OTGBDEVSESSVLDDETEVNTEN          ,B-device Session Valid Detected Event Enable. - dis. - en." "dis,en"
textline "                             "
bitfld.long 0x00 8. " OTGBDEVVBUSCHNGEVNTEN               ,B-device VBUS Change Event Enable. - dis. - en." "dis,en"
rgroup.long 0xCC10++0x3
line.long 0x00 "USB_OSTS,OTG status"
bitfld.long 0x00 8.--11. " OTGSTATE                            ,[A-device and B-device] OTG state machine state, for debug. Default value can vary depending on integration. - . - . - . - . - . - . - . - . - . - . - . - . - . - . - . - ." "a_idle,a_wait_vrise,a_wait_bcon,a_wait_vfall,a_vbus_err,a_host,a_suspend,a_peripheral,a_wait_ppwr,b_idle,b_srp_init,b_peripheral,b_wait_acon,b_host,a_wait_switch,b_wait_switch"
bitfld.long 0x00 4. "        PERIPHERALSTATE               ,[A-device and B-device] Current role of the controller - . - ." "Host,Peripheral"
bitfld.long 0x00 3. "              XHCIPRTPOWER                     ,[A-device] xHCI host port power. Reflects host bit fieldUSB_PORTSC1/2[9] PP." "0,1"
textline "                             "
bitfld.long 0x00 2. " BSESVLD                             ,[B-device] VBUS B-session valid status - . - ." "0,B-session_is_valid."
bitfld.long 0x00 1. "  VBUSVLD                       ,[A-device] VBUS valid status - . - ." "0,VBUS_is_valid."
bitfld.long 0x00 0. "          CONIDSTS                         ,[A-device and B-device] Connector ID status. Default value can vary depending on integration. - . - ." "Core_is_A-device.,Core_is_B-device."
width 0x0B
tree.end
tree "USB_DWC4"
base ad:0x48950000
tree "Channel_0"
width 20.
group.long 0x480++0x3
line.long 0x00 "USB_DB_j_0,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC808++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_0,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC804++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_0,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC800++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_0,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC80C++0x3
line.long 0x00 "USB_DEPCMD_i_0,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number...he first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same...t as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value" "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_1"
width 20.
group.long 0x484++0x3
line.long 0x00 "USB_DB_j_1,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC818++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_1,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC814++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_1,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC810++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_1,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC81C++0x3
line.long 0x00 "USB_DEPCMD_i_1,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number...he first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same...t as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value" "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_2"
width 20.
group.long 0x488++0x3
line.long 0x00 "USB_DB_j_2,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC828++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_2,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC824++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_2,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC820++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_2,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC82C++0x3
line.long 0x00 "USB_DEPCMD_i_2,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number...he first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same...t as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value" "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_3"
width 20.
group.long 0x48C++0x3
line.long 0x00 "USB_DB_j_3,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC838++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_3,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC834++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_3,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC830++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_3,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC83C++0x3
line.long 0x00 "USB_DEPCMD_i_3,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number...he first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same...t as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value" "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_4"
width 20.
group.long 0x490++0x3
line.long 0x00 "USB_DB_j_4,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC848++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_4,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC844++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_4,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC840++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_4,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC84C++0x3
line.long 0x00 "USB_DEPCMD_i_4,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number...he first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same...t as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value" "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_5"
width 20.
group.long 0x494++0x3
line.long 0x00 "USB_DB_j_5,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC858++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_5,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC854++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_5,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC850++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_5,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC85C++0x3
line.long 0x00 "USB_DEPCMD_i_5,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number...he first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same...t as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value" "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_6"
width 20.
group.long 0x498++0x3
line.long 0x00 "USB_DB_j_6,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC868++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_6,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC864++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_6,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC860++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_6,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC86C++0x3
line.long 0x00 "USB_DEPCMD_i_6,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number...he first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same...t as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value" "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_7"
width 20.
group.long 0x49C++0x3
line.long 0x00 "USB_DB_j_7,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC878++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_7,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC874++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_7,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC870++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_7,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC87C++0x3
line.long 0x00 "USB_DEPCMD_i_7,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number...he first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same...t as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value" "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_8"
width 20.
group.long 0x4A0++0x3
line.long 0x00 "USB_DB_j_8,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC888++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_8,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC884++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_8,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC880++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_8,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC88C++0x3
line.long 0x00 "USB_DEPCMD_i_8,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number...he first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same...t as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value" "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_9"
width 20.
group.long 0x4A4++0x3
line.long 0x00 "USB_DB_j_9,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC898++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_9,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC894++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_9,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC890++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_9,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC89C++0x3
line.long 0x00 "USB_DEPCMD_i_9,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number...he first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same...t as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value" "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                             "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_10"
width 21.
group.long 0x4A8++0x3
line.long 0x00 "USB_DB_j_10,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC8A8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_10,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC8A4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_10,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC8A0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_10,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC8AC++0x3
line.long 0x00 "USB_DEPCMD_i_10,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number...he first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same...t as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value" "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_11"
width 21.
group.long 0x4AC++0x3
line.long 0x00 "USB_DB_j_11,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC8B8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_11,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC8B4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_11,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC8B0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_11,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC8BC++0x3
line.long 0x00 "USB_DEPCMD_i_11,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number...he first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same...t as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value" "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_12"
width 21.
group.long 0x4B0++0x3
line.long 0x00 "USB_DB_j_12,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC8C8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_12,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC8C4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_12,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC8C0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_12,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC8CC++0x3
line.long 0x00 "USB_DEPCMD_i_12,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number...he first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same...t as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value" "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_13"
width 21.
group.long 0x4B4++0x3
line.long 0x00 "USB_DB_j_13,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC8D8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_13,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC8D4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_13,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC8D0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_13,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC8DC++0x3
line.long 0x00 "USB_DEPCMD_i_13,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number...he first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same...t as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value" "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_14"
width 21.
group.long 0x4B8++0x3
line.long 0x00 "USB_DB_j_14,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC8E8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_14,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC8E4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_14,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC8E0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_14,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC8EC++0x3
line.long 0x00 "USB_DEPCMD_i_14,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number...he first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same...t as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value" "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_15"
width 21.
group.long 0x4BC++0x3
line.long 0x00 "USB_DB_j_15,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC8F8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_15,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC8F4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_15,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC8F0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_15,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC8FC++0x3
line.long 0x00 "USB_DEPCMD_i_15,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number...he first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same...t as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value" "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_16"
width 21.
group.long 0x4C0++0x3
line.long 0x00 "USB_DB_j_16,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC908++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_16,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC904++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_16,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC900++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_16,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC90C++0x3
line.long 0x00 "USB_DEPCMD_i_16,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number...he first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same...t as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value" "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_17"
width 21.
group.long 0x4C4++0x3
line.long 0x00 "USB_DB_j_17,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC918++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_17,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC914++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_17,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC910++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_17,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC91C++0x3
line.long 0x00 "USB_DEPCMD_i_17,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number...he first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same...t as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value" "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_18"
width 21.
group.long 0x4C8++0x3
line.long 0x00 "USB_DB_j_18,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC928++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_18,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC924++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_18,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC920++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_18,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC92C++0x3
line.long 0x00 "USB_DEPCMD_i_18,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number...he first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same...t as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value" "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_19"
width 21.
group.long 0x4CC++0x3
line.long 0x00 "USB_DB_j_19,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC938++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_19,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC934++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_19,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC930++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_19,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC93C++0x3
line.long 0x00 "USB_DEPCMD_i_19,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number...he first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same...t as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value" "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_20"
width 21.
group.long 0x4D0++0x3
line.long 0x00 "USB_DB_j_20,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC948++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_20,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC944++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_20,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC940++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_20,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC94C++0x3
line.long 0x00 "USB_DEPCMD_i_20,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number...he first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same...t as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value" "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_21"
width 21.
group.long 0x4D4++0x3
line.long 0x00 "USB_DB_j_21,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC958++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_21,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC954++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_21,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC950++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_21,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC95C++0x3
line.long 0x00 "USB_DEPCMD_i_21,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number...he first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same...t as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value" "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_22"
width 21.
group.long 0x4D8++0x3
line.long 0x00 "USB_DB_j_22,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC968++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_22,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC964++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_22,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC960++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_22,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC96C++0x3
line.long 0x00 "USB_DEPCMD_i_22,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number...he first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same...t as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value" "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_23"
width 21.
group.long 0x4DC++0x3
line.long 0x00 "USB_DB_j_23,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC978++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_23,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC974++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_23,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC970++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_23,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC97C++0x3
line.long 0x00 "USB_DEPCMD_i_23,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number...he first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same...t as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value" "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_24"
width 21.
group.long 0x4E0++0x3
line.long 0x00 "USB_DB_j_24,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC988++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_24,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC984++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_24,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC980++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_24,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC98C++0x3
line.long 0x00 "USB_DEPCMD_i_24,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number...he first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same...t as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value" "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_25"
width 21.
group.long 0x4E4++0x3
line.long 0x00 "USB_DB_j_25,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC998++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_25,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC994++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_25,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC990++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_25,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC99C++0x3
line.long 0x00 "USB_DEPCMD_i_25,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number...he first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same...t as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value" "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_26"
width 21.
group.long 0x4E8++0x3
line.long 0x00 "USB_DB_j_26,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC9A8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_26,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC9A4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_26,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC9A0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_26,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC9AC++0x3
line.long 0x00 "USB_DEPCMD_i_26,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number...he first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same...t as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value" "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_27"
width 21.
group.long 0x4EC++0x3
line.long 0x00 "USB_DB_j_27,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC9B8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_27,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC9B4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_27,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC9B0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_27,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC9BC++0x3
line.long 0x00 "USB_DEPCMD_i_27,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number...he first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same...t as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value" "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_28"
width 21.
group.long 0x4F0++0x3
line.long 0x00 "USB_DB_j_28,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC9C8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_28,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC9C4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_28,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC9C0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_28,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC9CC++0x3
line.long 0x00 "USB_DEPCMD_i_28,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number...he first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same...t as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value" "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_29"
width 21.
group.long 0x4F4++0x3
line.long 0x00 "USB_DB_j_29,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC9D8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_29,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC9D4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_29,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC9D0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_29,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC9DC++0x3
line.long 0x00 "USB_DEPCMD_i_29,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number...he first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same...t as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value" "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_30"
width 21.
group.long 0x4F8++0x3
line.long 0x00 "USB_DB_j_30,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC9E8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_30,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC9E4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_30,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC9E0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_30,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC9EC++0x3
line.long 0x00 "USB_DEPCMD_i_30,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number...he first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same...t as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value" "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "Channel_31"
width 21.
group.long 0x4FC++0x3
line.long 0x00 "USB_DB_j_31,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0xC9F8++0x3
line.long 0x00 "USB_DEPCMDPAR0_i_31,Device physical endpoint-n command parameter 0 Must be programmed before issuing the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER0        ,Command-dependent"
group.long 0xC9F4++0x3
line.long 0x00 "USB_DEPCMDPAR1_i_31,Device physical endpoint-n command parameter 1 Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER1        ,Command-dependent"
group.long 0xC9F0++0x3
line.long 0x00 "USB_DEPCMDPAR2_i_31,Device physical endpoint-n command parameter 2. Must be programmed before issuing the command, if required by the command."
hexmask.long 0x00 0.--31. 1. " PARAMETER2        ,Command-dependent"
group.long 0xC9FC++0x3
line.long 0x00 "USB_DEPCMD_i_31,Device physical endpoint-n command"
hexmask.long.word 0x00 16.--31. 1. " CMDPARAM_EVTPARAM ,Read: Event parameters (see, ). Write: Command parameters (see , ) command-dependent: DEPSTRTXFER on isoc EP: [31:16] microframe number...he first TRB (StartMicroFramNum) DEPSTRTXFER on stream-capable EP: [31:16] USB stream ID..."
bitfld.long 0x00 12.--15. "      CMDSTATUS ,Command Completion Status. Additional information about the command completion. Same...t as bits 15:12 of the Endpoint Command Complete event." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "  HIPRI_FORCERM ,HighPriority/ForceRM. Write-only field, reads return 0. Start Transfer command: HighPriority value End Transfer command: ForceRM value" "HighPriority/ForceRM=0,HighPriority/ForceRM=1"
textline "                              "
bitfld.long 0x00 10. " CMDACT            ,Command Active. Auto-cleared." "0,1"
bitfld.long 0x00 8. "         CMDIOC    ,Command Interrupt On Complete. Event mapped to interrupt number DEPCFG.IntNum (the command). Reads return 0." "0,1"
bitfld.long 0x00 0.--3. "   CMDTYP        ,Command Type." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x500++0x3
line.long 0x00 "USB_DB_j_32,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x504++0x3
line.long 0x00 "USB_DB_j_33,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x508++0x3
line.long 0x00 "USB_DB_j_34,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x50C++0x3
line.long 0x00 "USB_DB_j_35,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x510++0x3
line.long 0x00 "USB_DB_j_36,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x514++0x3
line.long 0x00 "USB_DB_j_37,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x518++0x3
line.long 0x00 "USB_DB_j_38,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x51C++0x3
line.long 0x00 "USB_DB_j_39,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x520++0x3
line.long 0x00 "USB_DB_j_40,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x524++0x3
line.long 0x00 "USB_DB_j_41,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x528++0x3
line.long 0x00 "USB_DB_j_42,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x52C++0x3
line.long 0x00 "USB_DB_j_43,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x530++0x3
line.long 0x00 "USB_DB_j_44,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x534++0x3
line.long 0x00 "USB_DB_j_45,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x538++0x3
line.long 0x00 "USB_DB_j_46,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x53C++0x3
line.long 0x00 "USB_DB_j_47,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x540++0x3
line.long 0x00 "USB_DB_j_48,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x544++0x3
line.long 0x00 "USB_DB_j_49,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x548++0x3
line.long 0x00 "USB_DB_j_50,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x54C++0x3
line.long 0x00 "USB_DB_j_51,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x550++0x3
line.long 0x00 "USB_DB_j_52,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x554++0x3
line.long 0x00 "USB_DB_j_53,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x558++0x3
line.long 0x00 "USB_DB_j_54,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x55C++0x3
line.long 0x00 "USB_DB_j_55,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x560++0x3
line.long 0x00 "USB_DB_j_56,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x564++0x3
line.long 0x00 "USB_DB_j_57,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x568++0x3
line.long 0x00 "USB_DB_j_58,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x56C++0x3
line.long 0x00 "USB_DB_j_59,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x570++0x3
line.long 0x00 "USB_DB_j_60,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x574++0x3
line.long 0x00 "USB_DB_j_61,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x578++0x3
line.long 0x00 "USB_DB_j_62,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
group.long 0x57C++0x3
line.long 0x00 "USB_DB_j_63,Doorbell (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " DB_STREAM_ID      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "      DB_TARGET ,See xHCI specification."
tree.end
textline ""
width 20.
rgroup.long 0x0++0x3
line.long 0x00 "USB_CAPLENGTH,Capability registers length + host controller interface (HCI) version number"
hexmask.long.word 0x00 16.--31. 1. " HCIVERSION                          ,Host Controller Interface Version (xHCI), in BCD. Set by USB_FLADJ[29] XHCI_REVISION field._96._00."
hexmask.long.byte 0x00 0.--7. 1. "                 CAPLENGTH                     ,Capability Register Length: length of the xHCI Capabilities registers bank, in bytes; also the offset of the xHCI Operational registers bank (starting withUSB_USBCMD), with respect to xHCI base (i.e. the ..."
rgroup.long 0x4++0x3
line.long 0x00 "USB_HCSPARAMS1,Host controller structural parameters 1 (xHCI)"
hexmask.long.byte 0x00 24.--31. 1. " MAXPORTS                            ,See xHCI specification."
hexmask.long.word 0x00 8.--18. 1. "                   MAXINTRS                      ,See xHCI specification."
hexmask.long.byte 0x00 0.--7. 1. "                    MAXSLOTS                         ,See xHCI specification."
rgroup.long 0x8++0x3
line.long 0x00 "USB_HCSPARAMS2,Host controller structural parameters 2 (xHCI)"
bitfld.long 0x00 27.--31. " MAXSCRATCHPADBUFS_LO                ,Max Scratchpad Buffers, lower bits: See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 26. "                   SPR                           ,Scratchpad Restore: See xHCI specificationes.o." "no,yes"
bitfld.long 0x00 21.--25. "                     MAXSCRATCHPADBUFS_HI             ,Max Scratchpad Buffers, higher bits: see xHCI 1.0 standard" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                             "
bitfld.long 0x00 4.--7. " ERSTMAX                             ,Event Ring Segment Table Max: See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "                   IST                           ,Isochronous Scheduling Threshold: See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0xC++0x3
line.long 0x00 "USB_HCSPARAMS3,Host controller structural parameters 3 (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " U2_DEVICE_EXIT_LAT                  ,U2 device exit latency: Worst-case latency to transition from U2 to U0, in ?s. Applies to all root hub ports."
hexmask.long.byte 0x00 0.--7. 1. "                 U1_DEVICE_EXIT_LAT            ,U1 device exit latency: Worst-case latency to transition a root hub port link state (PLS) from U1 to U0, in ?s."
rgroup.long 0x10++0x3
line.long 0x00 "USB_HCCPARAMS,Host controller capability parameters (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " XECP                                ,xHCI Extended Capabilties Pointer. 32-bit dword offset, with respect to xHCI base, of the first item of the capability list."
bitfld.long 0x00 12.--15. "                 MAXPSASIZE                    ,Maximum Primary Stream Array Size: See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8. "                      PAE                              ,Parse All Event data: see xHCI 1.0 standard w errata" "0,1"
textline "                             "
bitfld.long 0x00 7. " NSS                                 ,No Secondary SID Support See xHCI specification" "0,1"
bitfld.long 0x00 6. "                    LTC                           ,Latency Tolerance messaging Capability See xHCI specification" "0,1"
bitfld.long 0x00 5. "                       LHRC                             ,Light HC Reset Capability: See xHCI specification" "0,1"
textline "                             "
bitfld.long 0x00 4. " PIND                                ,Port Indicators: See xHCI specification" "0,1"
bitfld.long 0x00 3. "                    PPC                           ,Port Power Control: See xHCI specification" "0,1"
bitfld.long 0x00 2. "                       CSZ                              ,Context Size: See xHCI specification" "0,1"
textline "                             "
bitfld.long 0x00 1. " BNC                                 ,Bandwidth Negotiation Capability: See xHCI specification" "0,1"
bitfld.long 0x00 0. "                    AC64                          ,64-bit Address Capability: See xHCI specification" "0,1"
rgroup.long 0x14++0x3
line.long 0x00 "USB_DBOFF,Doorbell offset (xHCI): Byte offset of the doorbell register array (, with respect to the xHCI base (that is, register)"
hexmask.long 0x00 2.--31. 1. " DOORBELL_ARRAY_OFFSET               ,Byte address offset MSBs"
bitfld.long 0x00 0.--1. "             ZERO                          ,Byte address offset LSBs, always 0 (offset is 32-bit = 4-byte aligned)" "0,1,2,3"
rgroup.long 0x18++0x3
line.long 0x00 "USB_RTSOFF,RunTime space offset (xHCI): Byte offset of the runtime register bank (starting with), with respect to the xHCI base (that is, register)"
hexmask.long 0x00 5.--31. 1. " RUNTIME_REG_SPACE_OFFSET            ,Byte address offset MSBs"
bitfld.long 0x00 0.--4. "             ZERO                          ,Byte address offset LSBs, always 0 (offset is 32-byte aligned)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x20++0x3
line.long 0x00 "USB_USBCMD,USB command register (xHCI)"
bitfld.long 0x00 11. " EU3S                                ,Enable U3 MFINDEX Stop: See xHCI specification" "0,1"
bitfld.long 0x00 10. "                    EWE                           ,Enable Wrap Event: See xHCI specification" "0,1"
bitfld.long 0x00 9. "                       CRS                              ,Controller Restore State: See xHCI specification" "0,1"
textline "                             "
bitfld.long 0x00 8. " CSS                                 ,Controller Save State: See xHCI specification" "0,1"
bitfld.long 0x00 7. "                    LHCRST                        ,Light Host Controller Reset: See xHCI specification" "0,1"
bitfld.long 0x00 3. "                       HSEE                             ,Host System Error Enable: See xHCI specification" "0,1"
textline "                             "
bitfld.long 0x00 2. " INTE                                ,Interrupter Enable: See xHCI specification" "0,1"
bitfld.long 0x00 1. "                    HCRST                         ,Host Controller Reset: See xHCI specification" "0,1"
bitfld.long 0x00 0. "                       R_S                              ,Run/Stop: See xHCI specification" "0,1"
group.long 0x24++0x3
line.long 0x00 "USB_USBSTS,USB status register (xHCI)"
bitfld.long 0x00 12. " HCE                                 ,Host Controller Error: See xHCI specification." "0,1"
bitfld.long 0x00 11. "                    CNR                           ,Controller not ready (see xHCI specification). Runtime or other operational registers are not accessed until field is cleared. Beyond xHCI (that is, USB host mode) functionality, indicates when the res..." "ready,not_ready"
eventfld.long 0x00 10. "               SRE                              ,Save/Restore Error: See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 9. " RSS                                 ,Restore State Status: See xHCI specification." "0,1"
bitfld.long 0x00 8. "                    SSS                           ,Save State Status: See xHCI specification." "0,1"
eventfld.long 0x00 4. "                       PCD                              ,Port Change Detect: See xHCI specification." "0,1"
textline "                             "
eventfld.long 0x00 3. " EINT                                ,Event Interrupt: See xHCI specification." "0,1"
eventfld.long 0x00 2. "                    HSE                           ,Host System Error: See xHCI specification." "0,1"
bitfld.long 0x00 0. "                       HCH                              ,Host Controller Halted: See xHCI specification." "0,1"
rgroup.long 0x28++0x3
line.long 0x00 "USB_PAGESIZE,Page size register (xHCI)"
hexmask.long.word 0x00 0.--15. 1. " PAGE_SIZE                           ,Supported system memory page size. See xHCI specification. When bit n is set to 1, a page size of 2^(n+12) is supported."
group.long 0x34++0x3
line.long 0x00 "USB_DNCTRL,Device notification control register (xHCI)"
bitfld.long 0x00 15. " N15                                 ,See xHCI specification." "0,1"
bitfld.long 0x00 14. "                    N14                           ,See xHCI specification." "0,1"
bitfld.long 0x00 13. "                       N13                              ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 12. " N12                                 ,See xHCI specification." "0,1"
bitfld.long 0x00 11. "                    N11                           ,See xHCI specification." "0,1"
bitfld.long 0x00 10. "                       N10                              ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 9. " N9                                  ,See xHCI specification." "0,1"
bitfld.long 0x00 8. "                    N8                            ,See xHCI specification." "0,1"
bitfld.long 0x00 7. "                       N7                               ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 6. " N6                                  ,See xHCI specification." "0,1"
bitfld.long 0x00 5. "                    N5                            ,See xHCI specification." "0,1"
bitfld.long 0x00 4. "                       N4                               ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 3. " N3                                  ,See xHCI specification." "0,1"
bitfld.long 0x00 2. "                    N2                            ,See xHCI specification." "0,1"
bitfld.long 0x00 1. "                       N1                               ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 0. " N0                                  ,See xHCI specification." "0,1"
group.long 0x38++0x3
line.long 0x00 "USB_CRCR_LO,Command ring control register, lower half (xHCI)"
hexmask.long 0x00 6.--31. 1. " CMD_RING_PNTR                       ,See xHCI specification."
bitfld.long 0x00 3. "             CRR                           ,See xHCI specification." "0,1"
bitfld.long 0x00 2. "                       CA                               ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 1. " CS                                  ,See xHCI specification." "0,1"
bitfld.long 0x00 0. "                    RCS                           ,See xHCI specification." "0,1"
group.long 0x3C++0x3
line.long 0x00 "USB_CRCR_HI,Command ring control register, upper half (xHCI)"
hexmask.long 0x00 0.--31. 1. " CMD_RING_PNTR                       ,See xHCI specification."
group.long 0x50++0x3
line.long 0x00 "USB_DCBAAP_LO,Device context base address array pointer, lower half (xHCI)"
hexmask.long 0x00 6.--31. 1. " DEVICE_CONTEXT_BAAP                 ,See xHCI specification."
group.long 0x54++0x3
line.long 0x00 "USB_DCBAAP_HI,Device context base address array pointer, upper half (xHCI)"
hexmask.long 0x00 0.--31. 1. " DEVICE_CONTEXT_BAAP                 ,See xHCI specification."
group.long 0x58++0x3
line.long 0x00 "USB_CONFIG,Configure (xHCI)"
hexmask.long.byte 0x00 0.--7. 1. " MAXSLOTSEN                          ,See xHCI specification."
group.long 0x420++0x3
line.long 0x00 "USB_PORTSC1,Port 1 (USB2.0) status and control (xHCI)"
bitfld.long 0x00 31. " WPR                                 ,See xHCI specification" "0,1"
bitfld.long 0x00 30. "                    DR                            ,See xHCI specification" "0,1"
bitfld.long 0x00 27. "                       WOE                              ,See xHCI specification" "0,1"
textline "                             "
bitfld.long 0x00 26. " WDE                                 ,See xHCI specification" "0,1"
bitfld.long 0x00 25. "                    WCE                           ,See xHCI specification" "0,1"
bitfld.long 0x00 24. "                       CAS                              ,See xHCI specification" "0,1"
textline "                             "
eventfld.long 0x00 23. " CEC                                 ,See xHCI specification" "0,1"
eventfld.long 0x00 22. "                    PLC                           ,See xHCI specification" "0,1"
eventfld.long 0x00 21. "                       PRC                              ,See xHCI specification" "0,1"
textline "                             "
eventfld.long 0x00 20. " OCC                                 ,See xHCI specification" "0,1"
eventfld.long 0x00 19. "                    WRC                           ,See xHCI specification" "0,1"
eventfld.long 0x00 18. "                       PEC                              ,See xHCI specification" "0,1"
textline "                             "
eventfld.long 0x00 17. " CSC                                 ,See xHCI specification" "0,1"
bitfld.long 0x00 16. "                    LWS                           ,See xHCI specification" "0,1"
bitfld.long 0x00 14.--15. "                       PIC                              ,See xHCI specification" "0,1,2,3"
textline "                             "
bitfld.long 0x00 10.--13. " PORTSPEED                           ,See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 9. "                   PP                            ,See xHCI specification" "0,1"
bitfld.long 0x00 5.--8. "                       PLS                              ,See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 4. " PR                                  ,See xHCI specification" "0,1"
bitfld.long 0x00 3. "                    OCA                           ,See xHCI specification" "0,1"
eventfld.long 0x00 1. "                       PED                              ,See xHCI specification" "0,1"
textline "                             "
bitfld.long 0x00 0. " CCS                                 ,See xHCI specification" "0,1"
group.long 0x424++0x3
line.long 0x00 "USB_PORTPMSC1,Port 1 (USB2.0) Power mManagement status and control (xHCI) Note that the PMSC register makeup is protocol-dependent (here: USB2.0)"
bitfld.long 0x00 28.--31. " PORT_TEST_CONTROL                   ,See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16. "                   HLE                           ,See xHCI specification" "0,1"
hexmask.long.byte 0x00 8.--15. 1. "                       L1_DEVICE_SLOT                   ,See xHCI specification"
textline "                             "
bitfld.long 0x00 4.--7. " BESL                                ,See xHCI 1.0 standard w. errata" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 3. "                   RWE                           ,See xHCI specification" "0,1"
bitfld.long 0x00 0.--2. "                       L1S                              ,See xHCI specification" "0,1,2,3,4,5,6,7"
rgroup.long 0x428++0x3
line.long 0x00 "USB_PORTLI1,Port 1 (USB2.0) link info (xHCI)"
hexmask.long.word 0x00 0.--15. 1. " LINK_ERROR_COUNT                    ,See xHCI specification."
group.long 0x42C++0x3
line.long 0x00 "USB_PORTHLPMC1,Port 1 (USB2.0) Hardware LPM Control (xHCI) Field structure is protocol-dependent (here: USB2.0)"
bitfld.long 0x00 10.--13. " BESLD                               ,See xHCI 1.0 standard w errata" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 2.--9. 1. "                   L1_TIMEOUT                    ,See xHCI 1.0 standard w errata"
bitfld.long 0x00 0.--1. "                      HIRDM                            ,See xHCI 1.0 standard w errata" "0,1,2,3"
group.long 0x430++0x3
line.long 0x00 "USB_PORTSC2,Port 2 (USB3.0) status and control (xHCI)"
bitfld.long 0x00 31. " WPR                                 ,See xHCI specification" "0,1"
bitfld.long 0x00 30. "                    DR                            ,See xHCI specification" "0,1"
bitfld.long 0x00 27. "                       WOE                              ,See xHCI specification" "0,1"
textline "                             "
bitfld.long 0x00 26. " WDE                                 ,See xHCI specification" "0,1"
bitfld.long 0x00 25. "                    WCE                           ,See xHCI specification" "0,1"
bitfld.long 0x00 24. "                       CAS                              ,See xHCI specification" "0,1"
textline "                             "
eventfld.long 0x00 23. " CEC                                 ,See xHCI specification" "0,1"
eventfld.long 0x00 22. "                    PLC                           ,See xHCI specification" "0,1"
eventfld.long 0x00 21. "                       PRC                              ,See xHCI specification" "0,1"
textline "                             "
eventfld.long 0x00 20. " OCC                                 ,See xHCI specification" "0,1"
eventfld.long 0x00 19. "                    WRC                           ,See xHCI specification" "0,1"
eventfld.long 0x00 18. "                       PEC                              ,See xHCI specification" "0,1"
textline "                             "
eventfld.long 0x00 17. " CSC                                 ,See xHCI specification" "0,1"
bitfld.long 0x00 16. "                    LWS                           ,See xHCI specification" "0,1"
bitfld.long 0x00 14.--15. "                       PIC                              ,See xHCI specification" "0,1,2,3"
textline "                             "
bitfld.long 0x00 10.--13. " PORTSPEED                           ,See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 9. "                   PP                            ,See xHCI specification" "0,1"
bitfld.long 0x00 5.--8. "                       PLS                              ,See xHCI specification" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 4. " PR                                  ,See xHCI specification" "0,1"
bitfld.long 0x00 3. "                    OCA                           ,See xHCI specification" "0,1"
eventfld.long 0x00 1. "                       PED                              ,See xHCI specification" "0,1"
textline "                             "
bitfld.long 0x00 0. " CCS                                 ,See xHCI specification" "0,1"
group.long 0x434++0x3
line.long 0x00 "USB_PORTPMSC2,Port 2 (USB3.0) power management (LPM) status and control (xHCI) Note that the PMSC register makeup is protocol-dependent (here: USB3.0)"
bitfld.long 0x00 16. " FLA                                 ,See xHCI specification" "0,1"
hexmask.long.byte 0x00 8.--15. 1. "                    U2_TIMEOUT                    ,See xHCI specification"
hexmask.long.byte 0x00 0.--7. 1. "                      U1_TIMEOUT                       ,See xHCI specification"
rgroup.long 0x438++0x3
line.long 0x00 "USB_PORTLI2,Port 2 (USB3.0) link info (xHCI)"
hexmask.long.word 0x00 0.--15. 1. " LINK_ERROR_COUNT                    ,See xHCI specification."
group.long 0x43C++0x3
line.long 0x00 "USB_PORTHLPMC2,Port 2 (USB3.0) Hardware LPM Control (xHCI) Field structure is protocol-dependent (here: USB3.0)"
rgroup.long 0x440++0x3
line.long 0x00 "USB_MFINDEX,Microframe index (xHCI)"
hexmask.long.word 0x00 0.--13. 1. " MICROFRAME_INDEX                    ,See xHCI specification."
group.long 0x460++0x3
line.long 0x00 "USB_IMAN,Interrupter Management (xHCI)"
bitfld.long 0x00 1. " IE                                  ,Interrupt enableIS.N." "DIS,EN"
eventfld.long 0x00 0. "                  IP                            ,Interrupt pending. Set (to 1) when: IE = 1,USB_IMOD[31:16] IMODC = 0, the associated event ring is not empty, USB_ERDP_LO[3] EHB = 0.DLE.ENDING." "IDLE,PENDING"
group.long 0x464++0x3
line.long 0x00 "USB_IMOD,Interrupter moderation (xHCI)"
hexmask.long.word 0x00 16.--31. 1. " IMODC                               ,Interrupt moderation counter: Loaded to IMODI whenever IP is cleared to 0, counts down to 0, and stops. IRQ is generated when counter is 0, event ring is not empty, USB_IMAN[1] IE = 1, USB_IMAN[0] IP = 1, USB_ERDP_..."
hexmask.long.word 0x00 0.--15. 1. "                 IMODI                         ,Interrupt moderation interval: Minimum inter-IRQ interval, in 250-ns increments."
group.long 0x468++0x3
line.long 0x00 "USB_ERSTSZ,Event ring segment table size (xHCI)"
hexmask.long.word 0x00 0.--15. 1. " ERS_TABLE_SIZE                      ,See xHCI specification."
group.long 0x470++0x3
line.long 0x00 "USB_ERSTBA_LO,Event ring segment table base address, lower half (xHCI)"
hexmask.long 0x00 6.--31. 1. " ERS_TABLE_BAR                       ,See xHCI specification."
group.long 0x474++0x3
line.long 0x00 "USB_ERSTBA_HI,Event ring segment table base address, upper half (xHCI)"
hexmask.long 0x00 0.--31. 1. " ERS_TABLE_BAR                       ,See xHCI specification."
group.long 0x478++0x3
line.long 0x00 "USB_ERDP_LO,Event ring dequeue pointer, lower half (xHCI)"
hexmask.long 0x00 4.--31. 1. " ERD_PNTR                            ,See xHCI specification."
eventfld.long 0x00 3. "             EHB                           ,See xHCI specification." "0,1"
bitfld.long 0x00 0.--2. "                       DESI                             ,See xHCI specification." "0,1,2,3,4,5,6,7"
group.long 0x47C++0x3
line.long 0x00 "USB_ERDP_HI,Event ring dequeue pointer, upper half (xHCI)"
hexmask.long 0x00 0.--31. 1. " ERD_PNTR                            ,See xHCI specification."
group.long 0x880++0x3
line.long 0x00 "USB_USBLEGSUP,USB legacy support capability"
bitfld.long 0x00 24. " HCOOS                               ,HC OS Owned Semaphore: See xHCI specification" "0,1"
bitfld.long 0x00 16. "                    HCBOS                         ,HC BIOS Owned Semaphore: See xHCI specification" "0,1"
hexmask.long.byte 0x00 8.--15. 1. "                       NCP                              ,Next Capability Pointer: 32-bit dword offset of the next capability.ol."
textline "                             "
hexmask.long.byte 0x00 0.--7. 1. " ECID                                ,Extended Capability ID code (descriptor size, in bytes)rot.egacy.bc."
group.long 0x884++0x3
line.long 0x00 "USB_USBLEGCTLSTS,USB legacy control/status"
eventfld.long 0x00 31. " SB                                  ,See xHCI specification." "0,1"
eventfld.long 0x00 30. "                    SPC                           ,See xHCI specification." "0,1"
eventfld.long 0x00 29. "                       SOOC                             ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 20. " SHSE                                ,See xHCI specification." "0,1"
bitfld.long 0x00 16. "                    SEI                           ,See xHCI specification." "0,1"
bitfld.long 0x00 15. "                       SBE                              ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 14. " SPCE                                ,See xHCI specification." "0,1"
bitfld.long 0x00 13. "                    SOOE                          ,See xHCI specification." "0,1"
bitfld.long 0x00 4. "                       SHSEE                            ,See xHCI specification." "0,1"
textline "                             "
bitfld.long 0x00 0. " USE                                 ,See xHCI specification." "0,1"
rgroup.long 0x890++0x3
line.long 0x00 "USB_SUPTPRT2_DW0,Supported protocol capability USB2.0, 32-bit dword 0"
hexmask.long.byte 0x00 24.--31. 1. " MAJREV                              ,Major Revision, BCD-encoded"
hexmask.long.byte 0x00 16.--23. 1. "                   MINREV                        ,Minor Revision, BCD-encoded"
hexmask.long.byte 0x00 8.--15. 1. "                      NCP                              ,Next Capability Pointer: 32-bit dword offset of the next capability.ol."
textline "                             "
hexmask.long.byte 0x00 0.--7. 1. " ECID                                ,Extended Capability ID code (descriptor size, in bytes)rot.egacy.bc."
rgroup.long 0x894++0x3
line.long 0x00 "USB_SUPTPRT2_DW1,Supported protocol capability USB2.0, 32-bit dword 1: Name String 'USB '"
hexmask.long.byte 0x00 24.--31. 1. " CHAR3                               ,ASCII ' ' (space)"
hexmask.long.byte 0x00 16.--23. 1. "                   CHAR2                         ,ASCII 'B'"
hexmask.long.byte 0x00 8.--15. 1. "                      CHAR1                            ,ASCII 'S'"
textline "                             "
hexmask.long.byte 0x00 0.--7. 1. " CHAR0                               ,ASCII 'U'"
rgroup.long 0x898++0x3
line.long 0x00 "USB_SUPTPRT2_DW2,Supported protocol capability USB2.0, 32-bit dword 2"
bitfld.long 0x00 28.--31. " PSIC                                ,Port Speed ID Count. Reserved in xHCI 0.96ll." "all,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 19. "                  HLC                           ,Hardware LPM Capability." "0,1"
bitfld.long 0x00 18. "                       IHI                              ,Integrated Hub Implemented." "0,1"
textline "                             "
bitfld.long 0x00 17. " HSO                                 ,High-Speed Only" "0,1"
hexmask.long.byte 0x00 8.--15. 1. "                    CPC                           ,Compatible Port Count: Number of consecutive ports of the root hub that support this protocol, from CPO to CPO+CPC-1"
hexmask.long.byte 0x00 0.--7. 1. "                      CPO                              ,Compatible Port Offset: Starting port number of root hub port(s) that support this protocol."
rgroup.long 0x89C++0x3
line.long 0x00 "USB_SUPTPRT2_DW3,Supported protocol capability USB2.0, 32-bit dword 3"
bitfld.long 0x00 0.--4. " PST                                 ,Protocol Slot Type, see xHCI 1.0 standard w errata" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rgroup.long 0x8A0++0x3
line.long 0x00 "USB_SUPTPRT3_DW0,Supported protocol capability USB3.0, 32-bit dword 0"
hexmask.long.byte 0x00 24.--31. 1. " MAJREV                              ,Major Revision, BCD-encoded"
hexmask.long.byte 0x00 16.--23. 1. "                   MINREV                        ,Minor Revision, BCD-encoded"
hexmask.long.byte 0x00 8.--15. 1. "                      NCP                              ,Next Capability Pointer: 32-bit dword offset of the next capability.ol."
textline "                             "
hexmask.long.byte 0x00 0.--7. 1. " ECID                                ,Extended Capability ID code (descriptor size, in bytes)rot.egacy.bc."
rgroup.long 0x8A4++0x3
line.long 0x00 "USB_SUPTPRT3_DW1,Supported protocol capability USB3.0, 32-bit dword 1: Name String 'USB '"
hexmask.long.byte 0x00 24.--31. 1. " CHAR3                               ,ASCII ' ' (space)"
hexmask.long.byte 0x00 16.--23. 1. "                   CHAR2                         ,ASCII 'B'"
hexmask.long.byte 0x00 8.--15. 1. "                      CHAR1                            ,ASCII 'S'"
textline "                             "
hexmask.long.byte 0x00 0.--7. 1. " CHAR0                               ,ASCII 'U'"
rgroup.long 0x8A8++0x3
line.long 0x00 "USB_SUPTPRT3_DW2,Supported protocol capability USB3.0, 32-bit dword 2"
bitfld.long 0x00 28.--31. " PSIC                                ,Port Speed ID Count. Reserved in xHCI 0.96s." "ss,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 8.--15. 1. "                   CPC                           ,Compatible Port Count: Number of consecutive ports of the root hub that support this protocol, from CPO to CPO+CPC-1"
hexmask.long.byte 0x00 0.--7. 1. "                      CPO                              ,Compatible Port Offset: Starting port number of root hub port(s) that support this protocol."
rgroup.long 0x8AC++0x3
line.long 0x00 "USB_SUPTPRT3_DW3,Supported protocol capability USB3.0, 32-bit dword 3"
bitfld.long 0x00 0.--4. " PST                                 ,Protocol Slot Type, see xHCI 1.0 standard with errata" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xC100++0x3
line.long 0x00 "USB_GSBUSCFG0,Global device Bus Configuration Register 0"
bitfld.long 0x00 12. " DESCBIGEND                          ,Endian mode...escriptor accesses.ittle.ig." "little,big"
bitfld.long 0x00 11. "               DATBIGEND                     ,Endian mode...ata accesses.ittle.ig." "little,big"
bitfld.long 0x00 7. "                  INCR256BRSTENA                   ,INCR256 Burst Type Enable. 256?64/8= 2-kByte burst." "0,1"
textline "                             "
bitfld.long 0x00 6. " INCR128BRSTENA                      ,INCR128 Burst Type Enable. 128?64/8= 1-kByte burst." "0,1"
bitfld.long 0x00 5. "                    INCR64BRSTENA                 ,INCR64 Burst Type Enable. 64?64/8= 512-Byte burst." "0,1"
bitfld.long 0x00 4. "                       INCR32BRSTENA                    ,INCR32 Burst Type Enable. 32?64/8= 256-Byte burst." "0,1"
textline "                             "
bitfld.long 0x00 3. " INCR16BRSTENA                       ,INCR16 Burst Type Enable. 16?64/8= 128-Byte burst." "0,1"
bitfld.long 0x00 2. "                    INCR8BRSTENA                  ,INCR8 Burst Type Enable. 8?64/8= 64-Byte burst." "0,1"
bitfld.long 0x00 1. "                       INCR4BRSTENA                     ,INCR4 Burst Type Enable. 4?64/8= 32-Byte burst: RECOMMENDED Enables bursts of beat length 1, 2, 3, 4, and prevents (16-byte) descriptor accesses from being broken up: highly recommended." "0,1"
textline "                             "
bitfld.long 0x00 0. " INCRBRSTENA                         ,Undefined Length INCR Burst Type Enable: DO NOT ENABLE When enabled, this has higher priority than other burst types." "0,1"
group.long 0xC104++0x3
line.long 0x00 "USB_GSBUSCFG1,Global device bus configuration register 1"
bitfld.long 0x00 12. " EN1KPAGE                            ,1k-page boundary enableIS.N." "DIS,EN"
bitfld.long 0x00 8.--11. "                  PIPETRANSLIMIT                ,Maximum number of outstanding (read or write) pipelined sequential (i.e. in-order) transaction requests on the master interface (field value+1)" "Single_request_mode.,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xC108++0x3
line.long 0x00 "USB_GTXTHRCFG,Global TX threshold control register. Valid only in Host mode."
bitfld.long 0x00 29. " USBTXPKTCNTSEL                      ,USB Transmit Packet Count Enable: Enables/disables USB trasnmission multi-packet thresholdingis.n." "dis,en"
bitfld.long 0x00 24.--27. "                  USBTXPKTCNT                   ,USB Transmit Packet Count : Number of packets that must be in the TXFIFO before transmission...he corresponding USB transaction (burst) can start. Don't care if USBTXPKTCNTSEL=0.ax.is.in." "dis,min,2,3,4,5,6,7,8,9,10,11,12,13,14,max"
hexmask.long.byte 0x00 16.--23. 1. "                     USBMAXTXBURSTSIZE                ,USB Maximum Transmit Burst Size. Max OUT burst size, when USBTXPKTCNTSEL=1. Avoids TX FIFO underrun when the system bus is slower than the USB. Only applies to SS Bulk / Iso / Int OUT endpoints in..."
group.long 0xC10C++0x3
line.long 0x00 "USB_GRXTHRCFG,Global RX Threshold Control Register"
bitfld.long 0x00 29. " USBRXPKTCNTSEL                      ,USB ReceivePacket Count Enable Enables/disables USB reception multi-packet thresholdingis.n." "dis,en"
bitfld.long 0x00 24.--27. "                  USBRXPKTCNT                   ,USB Receive Packet Count: Number of packets that must be available in the RX FIFO before the core can start the corresponding USB RX transaction (burst). Don't care if USBRXPKTCNTSEL=0.ax.is.in." "dis,min,2,3,4,5,6,7,8,9,10,11,12,13,14,max"
bitfld.long 0x00 19.--23. "                     USBMAXRXBURSTSIZE                ,USB Maximum Receive Burst Size. Maxi IN burst size, when USBRXPKTCNTSEL = 1. When the system bus is slower than the USB, RX FIFO can overrun during a long burst. User can program a smaller value to..." "dis,min,2,3,4,5,6,7,8,9,10,11,12,13,14,15,max,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xC110++0x3
line.long 0x00 "USB_GCTL,Global control register"
hexmask.long.word 0x00 19.--31. 1. " PWRDNSCALE                          ,Power Down Scale: In P3 state, PIPE clock stops and is replaced internally by the suspend clock to create a 16kHz reference. Set field to Fs/16k, rounded up, with Fp suspend clock frequency. Required accuracy is..."
bitfld.long 0x00 18. "                 MASTERFILTBYPASS              ,Master Filter Bypass. Bypasses the double-synchronizers and the 5 ms debounce filters on UTMI+ inputs (the latter are not implemented)." "0,1"
bitfld.long 0x00 17. "                       BYPSSETADDR                      ,Override of the device address, bypassing the SET ADDRESS control transfer. For simulation only.unc.ypass." "func,bypass"
textline "                             "
bitfld.long 0x00 16. " U2RSTECN                            ,If the super speed connection fails during POLL or LMP exchange, the device connects at non-SS mode. If this bit is set, then device attempts three more times to connect at SS, even if it previously failed to..." "0,1"
bitfld.long 0x00 14.--15. "                    FRMSCLDWN                     ,Frame scale-down This field scales down device view of a SOF (FS/LS) / uSOF (HS) / ITP (SS) duration....." "0,1,2,3"
bitfld.long 0x00 12.--13. "                       PRTCAPDIR                        ,Port Capability Directionst.rd.ev." "0,hst,dev,drd"
textline "                             "
bitfld.long 0x00 11. " CORESOFTRESET                       ,Core Soft Reset. When you reset PHYs (using USB_GUSB2PHYCFG or USB_GUSB3PIPECTL registers), you must keep the core in reset state until PHY clocks are stable.o.eset." "no,reset"
bitfld.long 0x00 8. "                DEBUGATTACH                   ,Debug Attach. When this bit is set: a) SS Link proceeds directly to the Polling link state (after RUN/STOP in the USB_DCTL register is asserted) without checking remote termination. b) Link LFPS polling..." "0,1"
bitfld.long 0x00 6.--7. "                       RAMCLKSEL                        ,RAM Clock Select. No action, hardware always uses bus clock (config 2'b00)us.ipe.ac.ipe_50." "bus,pipe,pipe_50,mac"
textline "                             "
bitfld.long 0x00 4.--5. " SCALEDOWN                           ,Scale-Down Mode Enable Switches to shorter, non-standard protocol time intervals to speed up simulation. DO NOT MODIFY ON ACTUAL HARDWARE.one...." "none,1,2,3"
bitfld.long 0x00 3. "                 DISSCRAMBLE                   ,Disable Scrambling. Transmit request to Link Partner on next transition to Recovery or Polling." "0,1"
bitfld.long 0x00 0. "                       DSBLCLKGTNG                      ,Disable Clock Gating. When this bit is set to 1 and the core is in Low Power mode, internal clock gating is disabled." "0,1"
group.long 0xC118++0x3
line.long 0x00 "USB_GSTS,Global status register"
hexmask.long.word 0x00 20.--31. 1. " CBELT                               ,Current BELT Value In Host mode, this field indicates the minimum value of all received device BELT values and the BELT value that is set by the Set Latency Tolerance Value command."
bitfld.long 0x00 10. "                 OTG_IP                        ,OTG interrupt statusend.one." "none,pend"
bitfld.long 0x00 9. "                    BC_IP                            ,Battery Charger interrupt status: NOT IMPLEMENTED" "0,1"
textline "                             "
bitfld.long 0x00 8. " ADP_IP                              ,ADP interrupt status: NOT IMPLEMENTED" "0,1"
bitfld.long 0x00 7. "                    HOST_IP                       ,Host interrupt statusend.one." "none,pend"
bitfld.long 0x00 6. "                    DEVICE_IP                        ,Device interrupt statusend.one." "none,pend"
textline "                             "
bitfld.long 0x00 5. " CSRTIMEOUT                          ,Control/Status Register access Timeout status flag.oaction.lear.et.oevent." "noaction,clear"
bitfld.long 0x00 4. "             BUSERRADDRVLD                 ,Bus Error Address Valid status flag. Also flagged onUSB_USBSTS[2] HSE field (host mode) and DEPEVT[12] on XferComplete/XferInProgress event (device mode).oaction.lear.et.oevent." "noaction,clear"
bitfld.long 0x00 0.--1. "                CURMOD                           ,Current Mode of Operation.rd.ost.ev." "dev,host,drd,3"
rgroup.long 0xC120++0x3
line.long 0x00 "USB_GSNPSID,ID Core identification and release number. Software uses this register to configure release-specific features in the driver."
hexmask.long.word 0x00 16.--31. 1. " ID_CORE                             ,Core identifierd."
hexmask.long.word 0x00 0.--15. 1. "                 ID_REL                        ,Version number For instance, version 1.00a => 0x100A_83a._02a."
group.long 0xC124++0x3
line.long 0x00 "USB_GGPIO,Global general-purpose input/output register"
hexmask.long.word 0x00 16.--31. 1. " GPO                                 ,General-purpose output. DO NOT USE: NOT CONNECTED."
hexmask.long.word 0x00 0.--15. 1. "                 GPI                           ,General-purpose inputs. TIED LOW."
group.long 0xC128++0x3
line.long 0x00 "USB_GUID,Global user ID register"
hexmask.long 0x00 0.--31. 1. " USERID                              ,Application-programmable ID field"
group.long 0xC12C++0x3
line.long 0x00 "USB_GUCTL,Global user control register"
bitfld.long 0x00 21. " NOEXTRDL                            ,No Extra Delay between SOF and the 1st packet (when host)is.n." "dis,en"
bitfld.long 0x00 18.--20. "                  PSQEXTRRESSP                  ,Protocol Status Queue Extra Reserved Space (Debug only). Additional space in the PSQ reserved before the USB3.0 protocol transaction layer (U3PTL) initiates a new USB transaction and burst beats.is.n." "dis,en,2,3,4,5,6,7"
bitfld.long 0x00 17. "                     SPRSCTRLTRANSEN                  ,Sparse Control Transaction Enable. Valid in host mode only (any speed).is.n." "dis,en"
textline "                             "
bitfld.long 0x00 16. " RESBWHSEPS                          ,Reserving (more) Bandwidth...S Periodic EPs. Valid in host mode only.0.5." "80,85"
bitfld.long 0x00 15. "                   CMDEVADDR                     ,Compliance Mode...evice Address. Valid in host mode only.q.iff." "eq,diff"
bitfld.long 0x00 14. "                    USBHSTINAUTORETRYEN              ,Host IN Auto Retry Enable: host core behaviour upon data packet CRC errors or internal overrun scenarios in non-isochronous IN transfers.is.n." "dis,en"
textline "                             "
bitfld.long 0x00 9.--10. " DTCT                                ,Device Timeout Coarse Tuning: time the host waits... response from device before timeout. Coarse setting.ine.m5.ms.m5." "fine,0m5,1m5,5ms"
hexmask.long.word 0x00 0.--8. 1. "                 DTFT                          ,Device Timeout Fine Tuning: time the host waits... response from device before timeout. Fine setting. Timer runs on the 125 MHz clock (8 ns period), timeout is DTFT ? 256 ? 8 ns ~= DTFT ? 2 us Don't ca..."
rgroup.long 0xC130++0x3
line.long 0x00 "USB_GBUSERRADDRLO,Global Bus Error (non-precise) Address, LSbits: Base address of the first system bus DMA transfer that got a bus error. Note that each DMA transfer can contain several bursts, each spanning several addresses. Valid when the[4] BUSERRA..."
hexmask.long 0x00 0.--31. 1. " BUSERRADDRLO                        ,BUSERRADDR[31:0]"
rgroup.long 0xC134++0x3
line.long 0x00 "USB_GBUSERRADDRHI,Global Bus Error (non-precise) Address, MSbits: Base address of the first system bus DMA transfer that got a bus error. Note that each DMA transfer can contain several bursts, each spanning several addresses. Valid when the[4] BUSERRA..."
hexmask.long 0x00 0.--31. 1. " BUSERRADDRHI                        ,BUSERRADDR[63:32]"
group.long 0xC138++0x3
line.long 0x00 "USB_GPRTBIMAPLO,Global port-to-SS USB instance mapping, low bits [31:0]"
bitfld.long 0x00 0.--3. " BINUM1                              ,SS USB instance number...ort number 1 Application-programmable ID field" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xC13C++0x3
line.long 0x00 "USB_GPRTBIMAPHI,Global Port-to-SS USB Instance Mapping, high bits [63:32]"
rgroup.long 0xC140++0x3
line.long 0x00 "USB_GHWPARAMS0,Global hardware parameters 0"
hexmask.long.byte 0x00 24.--31. 1. " DWC_USB3_AWIDTH                     ,Global hardware configuration parameter DWC_USB3_AWIDTH: (Master) Address Width (in bits)"
hexmask.long.byte 0x00 16.--23. 1. "                   DWC_USB3_SDWIDTH              ,Global hardware configuration parameter DWC_USB3_SDWIDTH: Slave Data Width (in bits)"
hexmask.long.byte 0x00 8.--15. 1. "                      DWC_USB3_MDWIDTH                 ,Global hardware configuration parameter DWC_USB3_MDWIDTH: Master Data Width (in bits)"
textline "                             "
bitfld.long 0x00 6.--7. " DWC_USB3_SBUS_TYPE                  ,Global hardware configuration parameter DWC_USB3_SBUS_TYPE: (System bus) Slave typeative." "native,1,2,3"
bitfld.long 0x00 3.--5. "               DWC_USB3_MBUS_TYPE            ,Global hardware configuration parameter DWC_USB3_MBUS_TYPE: (System bus) Master typexi." "0,axi,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "                     DWC_USB3_MODE                    ,Global hardware configuration parameter DWC_USB3_MODErd.st.ev." "dev,hst,drd,3,4,5,6,7"
rgroup.long 0xC144++0x3
line.long 0x00 "USB_GHWPARAMS1,Global hardware parameters 1"
bitfld.long 0x00 30. " DWC_USB3_RM_OPT_FEATURES            ,Global hardware configuration parameter DWC_USB3_RM_OPT_FEATURES: Remove Optional Featureses.o." "no,yes"
bitfld.long 0x00 28. "                  DWC_USB3_RAM_BUS_CLKS_SYNC    ,Global hardware configuration parameter DWC_USB3_RAM_BUS_CLKS_SYNC: RAM vs. BUS clocks synchronous ?es.o." "no,yes"
bitfld.long 0x00 27. "                     DWC_USB3_MAC_RAM_CLKS_SYNC       ,Global hardware configuration parameter DWC_USB3_MAC_RAM_CLKS_SYNC: MAC vs. RAM clocks synchronous ?es.o." "no,yes"
textline "                             "
bitfld.long 0x00 26. " DWC_USB3_MAC_PHY_CLKS_SYNC          ,Global hardware configuration parameter DWC_USB3_MAC_PHY_CLKS_SYNC: MAC vs. PHY clocks synchronous ?es.o." "no,yes"
bitfld.long 0x00 24.--25. "                  DWC_USB3_EN_PWROPT            ,Global hardware configuration parameter DWC_USB3_EN_PWROPT: Power optimizationlock_hibernation.lock.one." "none,clock,clock_hibernation,3"
bitfld.long 0x00 23. "       DWC_USB3_SPRAM_TYP               ,Global hardware configuration parameter DWC_USB3_SPRAM_TYPP." "0,SP"
textline "                             "
bitfld.long 0x00 21.--22. " DWC_USB3_NUM_RAMS                   ,Global hardware configuration parameter DWC_USB3_NUM_RAMS: Number of internal RAMs..." "0,1,2,3"
bitfld.long 0x00 15.--20. "                    DWC_USB3_DEVICE_NUM_INT       ,Global hardware configuration parameter DWC_USB3_DEVICE_NUM_INT: Number of interrupts (and event buffers) in device mode" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 12.--14. "                      DWC_USB3_ASPACEWIDTH             ,Global hardware configuration parameter DWC_USB3_ASPACEWIDTH" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 9.--11. " DWC_USB3_REQINFOWIDTH               ,Global hardware configuration parameter DWC_USB3_REQINFOWIDTH" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6.--8. "                    DWC_USB3_DATAINFOWIDTH        ,Global hardware configuration parameter DWC_USB3_DATAINFOWIDTH" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3.--5. "                       DWC_USB3_BURSTWIDTH              ,Global hardware configuration parameter DWC_USB3_BURSTWIDTH minus one, fixed to 8-1=7" "0,1,2,3,4,5,6,7"
textline "                             "
bitfld.long 0x00 0.--2. " DWC_USB3_IDWIDTH                    ,Global hardware configuration parameter DWC_USB3_IDWIDTH minus 1 Note: Sets only the master port's ID width. Slave ID width is set by non-readable DWC_USB3_SIDWIDTH" "0,1,2,3,4,5,6,7"
rgroup.long 0xC148++0x3
line.long 0x00 "USB_GHWPARAMS2,Global hardware parameters 2"
hexmask.long 0x00 0.--31. 1. " DWC_USB3_USERID                     ,Global hardware configuration parameter DWC_USB3_USERID"
rgroup.long 0xC14C++0x3
line.long 0x00 "USB_GHWPARAMS3,Global hardware parameters 3"
hexmask.long.byte 0x00 23.--30. 1. " DWC_USB3_CACHE_TOTAL_XFER_RESOURCES ,Global hardware configuration parameter DWC_USB3_NUM_CACHE_TOTAL_XFER_RESOURCES: Cache total transfer resources"
bitfld.long 0x00 18.--22. "                   DWC_USB3_NUM_IN_EPS           ,Global hardware configuration parameter DWC_USB3_NUM_IN_EPS: Number of IN endpoints, with EP0 counting as one." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 12.--17. "                      DWC_USB3_NUM_EPS                 ,Global hardware configuration parameter DWC_USB3_NUM_EPS: Total number of endpoints (IN+OUT, with EP0 counting as 2 separate ones)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                             "
bitfld.long 0x00 11. " DWC_USB3_ULPI_CARKIT                ,Global hardware configuration parameter DWC_USB3_ULPI_CARKIT: ULPI (optional) car-kit mode implementationc.o." "no,vc"
bitfld.long 0x00 10. "                   DWC_USB3_VENDOR_CTL_INTERFACE ,Global hardware configuration parameter DWC_USB3_VENDOR_CTL_INTERFACE: (UTMI) Vendor Control i/f implementationc.o." "no,vc"
bitfld.long 0x00 6.--7. "                      DWC_USB3_HSPHY_DWIDTH            ,Global hardware configuration parameter DWC_USB3_HSPHY_DWIDTH: HS PHY data width_16.6.." "8,16,8_16,3"
textline "                             "
bitfld.long 0x00 4.--5. " DWC_USB3_FSPHY_INTERFACE            ,Global hardware configuration parameter DWC_USB3_FSPHY_INTERFACE: Full (/Low)-Speed (serial) PHY interfaceone." "none,1,2,3"
bitfld.long 0x00 2.--3. "                 DWC_USB3_HSPHY_INTERFACE      ,Global hardware configuration parameter DWC_USB3_HSPHY_INTERFACE: High-speed PHY interfaceoth.lpi.tmi.one." "none,utmi,ulpi,both"
bitfld.long 0x00 0.--1. "                    DWC_USB3_SSPHY_INTERFACE         ,Global hardware configuration parameter DWC_USB3_SSPHY_INTERFACE: Super Speed PHY interface.ipe.one." "none,pipe,2,3"
rgroup.long 0xC150++0x3
line.long 0x00 "USB_GHWPARAMS4,Global hardware parameters 4"
bitfld.long 0x00 28.--31. " DWC_USB3_BMU_LSP_DEPTH              ,Global hardware configuration parameter DWC_USB3_BMU_LSP_DEPTH: Bus Management Unit / List Processor buffer depth" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "                   DWC_USB3_BMU_PTL_DEPTH        ,Global hardware configuration parameter DWC_USB3_BMU_PTL_DEPTH: Bus Management Unit / Protocol Transaction Layer buffer depth" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "                      DWC_USB3_EN_ISOC_SUPT            ,Global hardware configuration parameter DWC_USB3_EN_ISOC_SUPT: Enable Isochronous Supportso.one." "none,iso"
textline "                             "
bitfld.long 0x00 17.--20. " DWC_USB3_NUM_SS_USB_INSTANCES       ,Global hardware configuration parameter DWC_USB3_NUM_SS_USB_INSTANCES: Number of (independent) SS USB schedulers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 13.--16. "                   DWC_USB3_HIBER_SCRATCHBUFS    ,Global hardware configuration parameter DWC_USB3_HIBER_SCRATCHBUFS: Number of 4-kbyte buffers required in system memory to store context during hibernation. Don't care since hibernation is not enabled." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--5. "                      DWC_USB3_CACHE_TRBS_PER_TRANSFER ,Global hardware configuration parameter DWC_USB3_CACHE_TRBS_PER_TRANSFER" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0xC154++0x3
line.long 0x00 "USB_GHWPARAMS5,Global hardware parameters 5"
bitfld.long 0x00 22.--27. " DWC_USB3_DFQ_FIFO_DEPTH             ,Global hardware configuration parameter DWC_USB3_DFQ_FIFO_DEPTH" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 16.--21. "                   DWC_USB3_DWQ_FIFO_DEPTH       ,Global hardware configuration parameter DWC_USB3_DWQ_FIFO_DEPTH" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 10.--15. "                      DWC_USB3_TXQ_FIFO_DEPTH          ,Global hardware configuration parameter DWC_USB3_TXQ_FIFO_DEPTH" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                             "
bitfld.long 0x00 4.--9. " DWC_USB3_RXQ_FIFO_DEPTH             ,Global hardware configuration parameter DWC_USB3_RXQ_FIFO_DEPTH" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--3. "                   DWC_USB3_BMU_BUSGM_DEPTH      ,Global hardware configuration parameter DWC_USB3_BMU_BUSGM_DEPTH" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0xC158++0x3
line.long 0x00 "USB_GHWPARAMS6,Global hardware parameters 6"
hexmask.long.word 0x00 16.--31. 1. " DWC_USB3_RAM0_DEPTH                 ,Depth of RAM 0, in 64-bit words. RAM0 contains data cache and Rx FIFOs."
bitfld.long 0x00 15. "                 BUSFLTRSSUPPORT               ,Filtering (debounce) on OTG UTMI+ inputs (iddig,vbusvalid,avalid,bvalid,sessend). Reflects DWC_USB3_EN_OTG_FILTERS.mp.o." "no,imp"
bitfld.long 0x00 14. "                     BCSUPPORT                        ,Battery Charger detection (ACA = Accessory Charger Adapter) support implemented internally. Reflects DWC_USB3_EN_BC. Note: Support can also be provided OUTSIDE the controller.mp.o." "no,imp"
textline "                             "
bitfld.long 0x00 13. " OTGSSSUPPORT                        ,OTG SuperSpeed support (aka OTG3.0)es.o." "no,yes"
bitfld.long 0x00 12. "                  ADPSUPPORT                    ,OTG2.0 ADP (Attach Detection Protocol) support implemented internally. Reflects DWC_USB3_EN_ADP. Note: Support can also be provided OUTSIDE the controller.mp.o." "no,imp"
bitfld.long 0x00 11. "                     HNPSUPPORT                       ,OTG2.0 HNP (Host Negotiation Protocol) support. Set when in DRD mode.upport.o." "no,support"
textline "                             "
bitfld.long 0x00 10. " SRPSUPPORT                          ,OTG2.0 SRP (Session Request Protocol) support.upport.o." "no,support"
bitfld.long 0x00 7. "              DWC_USB3_EN_FPGA              ,Global hardware configuration parameter DWC_USB3_EN_FPGA" "0,1"
bitfld.long 0x00 0.--5. "                       DWC_USB3_PSQ_FIFO_DEPTH          ,Global hardware configuration parameter DWC_USB3_PSQ_FIFO_DEPTH" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0xC15C++0x3
line.long 0x00 "USB_GHWPARAMS7,Global hardware parameters 7"
hexmask.long.word 0x00 16.--31. 1. " DWC_USB3_RAM2_DEPTH                 ,Depth of RAM 2, in 64-bit words. RAM2 IS NOT IMPLEMENTED IN 2-RAM CONFIG: don't care"
hexmask.long.word 0x00 0.--15. 1. "                 DWC_USB3_RAM1_DEPTH           ,Depth of RAM 1, in 64-bit words. RAM1 contains Tx FIFOs."
group.long 0xC160++0x3
line.long 0x00 "USB_GDBGFIFOSPACE,Global debug FIFO/queue space available"
hexmask.long.word 0x00 16.--31. 1. " SPACE_AVAILABLE                     ,Space available (in the selected FIFO/queue), 64-bit words"
hexmask.long.byte 0x00 0.--7. 1. "                 FIFOQUEUESELECT_PORTSELECT    ,FIFO/queue select or port select. Default value, when indicated, is the space available when empty, that is, the size of the FIFO/queue. PORTSELECT[3:0] selects the port number when accessing the USB_GDBG..."
rgroup.long 0xC164++0x3
line.long 0x00 "USB_GDBGLTSSM,Global debug LTSSM Port number is defined by [3:0] PORTSELECT"
bitfld.long 0x00 29. " PORTSHUTDOWN                        ," "0,1"
bitfld.long 0x00 28. "                    PORTSWAPPING                  ," "0,1"
bitfld.long 0x00 27. "                       PORTDIRECTION                    ,Current direction of the port.S.S." "US,DS"
textline "                             "
bitfld.long 0x00 26. " LTDBTIMEOUT                         ,LTSSM Debug Timeout" "0,1"
bitfld.long 0x00 22.--25. "                    LTDBLINKSTATE                 ,LTSSM Debug: Link State3.Sdisabled.oopback.2.0.ompliance.Sinactive.1.ecovery.olling.otReset.Xdetect." "U0,U1,U2,U3,SSdisabled,RXdetect,SSinactive,Polling,Recovery,HotReset,Compliance,Loopback,12,13,14,15"
bitfld.long 0x00 18.--21. "              LTDBSUBSTATE                     ,LTSSM Debug: Link Sub-State. Note that the actual reset value (0x0) changes before the register can be read out." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 17. " ELASTICBUFFERMODE                   ,Debug PIPE Status: ElasticBufferMode" "0,1"
bitfld.long 0x00 16. "                    TXELECIDLE                    ,Debug PIPE Status: TxElecIdle" "0,1"
bitfld.long 0x00 15. "                       RXPOLARITY                       ,Debug PIPE Status: RxPolarity" "0,1"
textline "                             "
bitfld.long 0x00 14. " TXDETRXLOOPBACK                     ,Debug PIPE Status: TxDetRxLoopback" "0,1"
bitfld.long 0x00 11.--13. "                    LTDBPHYCMDSTATE               ,LTSSM Debug Phy Command State.HY_PWR_DLY.HY_PWR_A.HY_DET_3.HY_IDLE.HY_DET.HY_PWR_B." "PHY_IDLE,PHY_DET,PHY_DET_3,PHY_PWR_DLY,PHY_PWR_A,PHY_PWR_B,6,7"
bitfld.long 0x00 9.--10. "             POWERDOWN                        ,Debug PIPE Status: PowerDown" "0,1,2,3"
textline "                             "
bitfld.long 0x00 8. " RXEQTRAIN                           ,Debug PIPE Status: RxEqTrain" "0,1"
bitfld.long 0x00 6.--7. "                    TXDEEMPHASIS                  ,Debug PIPE Status: TxDeemphasis" "0,1,2,3"
bitfld.long 0x00 3.--5. "                       LTDBCLKSTATE                     ,LTSSM Debug Clock StateLK_P3.LK_TO_P0.LK_WAIT1.LK_NORM.LK_TO_P3.LK_WAIT2." "CLK_NORM,CLK_TO_P3,CLK_WAIT1,CLK_P3,CLK_TO_P0,CLK_WAIT2,6,7"
textline "                             "
bitfld.long 0x00 2. " TXSWING                             ,Debug PIPE Status: TxSwing" "0,1"
bitfld.long 0x00 1. "                    RXTERMINATION                 ,Debug PIPE Status: RxTermination" "0,1"
bitfld.long 0x00 0. "                       TXONESZEROS                      ,Debug PIPE Status: TxOnesZeros" "0,1"
group.long 0xC170++0x3
line.long 0x00 "USB_GDBGLSPMUX,Global debug LSP MUX,...nternal use only"
bitfld.long 0x00 16.--21. " TRACEPORTMUXSEL                     ,Select the 64-bit analyzer trace vector. Not sensitive to warm reset (i.e. including software reset), only to power-on reset.ero." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,zero"
bitfld.long 0x00 8.--13. "                 HOSTSELECT                    ,Host LSP Select[13:8]. Valid only in Host mode." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 4.--7. "                      DEVSELECT                        ,Host LSP Select[7:4] in Host mode Device LSP Select in Device mode" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 0.--3. " EPSELECT                            ,Host LSP Select[3:0] in Host mode Device LSP Select in Device mode" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0xC174++0x3
line.long 0x00 "USB_GDBGLSP,Global debug LSP,...nternal use only"
hexmask.long 0x00 0.--31. 1. " DEBUG                               ,LSP debug information"
rgroup.long 0xC178++0x3
line.long 0x00 "USB_GDBGEPINFO0,Global debug endpoint information register 0"
hexmask.long 0x00 0.--31. 1. " DEBUG                               ,EP debug information"
rgroup.long 0xC17C++0x3
line.long 0x00 "USB_GDBGEPINFO1,Global debug endpoint information register 1"
hexmask.long 0x00 0.--31. 1. " DEBUG                               ,EP debug information"
group.long 0xC180++0x3
line.long 0x00 "USB_GPRTBIMAP_HSLO,Global port to USB instance mapping register, high-speed, low bits [31:0]"
bitfld.long 0x00 0.--3. " BINUM1                              ,HS USB instance number...ort number 1 Application-programmable ID field" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xC184++0x3
line.long 0x00 "USB_GPRTBIMAP_HSHI,Global port to USB instance mapping register, high-speed, high bits [63:32]"
group.long 0xC188++0x3
line.long 0x00 "USB_GPRTBIMAP_FSLO,Global port to USB instance mapping register, full/low-speed, low bits [31:0]"
bitfld.long 0x00 0.--3. " BINUM1                              ,FS USB instance number...ort number 1 Application-programmable ID field" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xC18C++0x3
line.long 0x00 "USB_GPRTBIMAP_FSHI,Global port to USB instance mapping register, full/low-speed, high bits [63:32]"
group.long 0xC200++0x3
line.long 0x00 "USB_GUSB2PHYCFG,Global USB2.0 (UTMI/ULPI) PHY configuration"
bitfld.long 0x00 31. " PHYSOFTRST                          ,PHY Soft Reset. Active-high, fully static software reset...TMI USB2.0 transceiver.nactive.ctive." "inactive,active"
bitfld.long 0x00 18. "             ULPIEXTVBUSINDICATOR          ,ULPI External VBUS Indicator Indicates the ULPI PHY VBUS over-current indicator.nt.xt." "int,ext"
bitfld.long 0x00 17. "                     ULPIEXTVBUSDRV                   ,ULPI External VBUS Drive Selects supply source to drive 5V on VBUS, in the ULPI PHY.nt.xt." "int,ext"
textline "                             "
bitfld.long 0x00 16. " ULPICLKSUSM                         ,Sets the ClockSuspendM bit in the Interface Control register on the ULPI PHY. Applicable only in serial FS/LS or Carkit modes. NOT APPLICABLE" "0,1"
bitfld.long 0x00 15. "                    ULPIAUTORES                   ,ULPI Auto Resume. Sets the AutoResume bit in Interface Control register on the ULPI PHY.o.uto." "no,auto"
bitfld.long 0x00 10.--13. "                    USBTRDTIM                        ,USB 2.0 Turnaround Time, in PHY clock cycles. Specifies the response time... MAC request to the Packet FIFO Controller (PFC) to fetch data from the DFIFO (SPRAM)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                             "
bitfld.long 0x00 8. " ENBLSLPM                            ,Enable UTMI Sleep. Controls assertion of utmi_sleep_n, utmi_l1_suspend_n outputs to the PHY when in the L1 state.o.es." "no,yes"
bitfld.long 0x00 7. "                  PHYSEL                        ,PHY Select. (HS vs. serial): Unused, since serial PHY is not supported." "0,1"
bitfld.long 0x00 6. "                       SUSPHY                           ,Suspend enable...SB2.0 HS/FS/LS PHY (ULPI or UTMI). Set to 1 only after core initialization is complete..." "0,1"
textline "                             "
bitfld.long 0x00 5. " FSINTF                              ,Full-Speed Serial Interface Select. UNUSED." "0,1"
bitfld.long 0x00 4. "                    ULPI_UTMI_SEL                 ,ULPI or UTMI+ Selecttmi.lpi." "utmi,ulpi"
bitfld.long 0x00 3. "                    PHYIF                            ,PHY Interface. DO NOT USE. If UTMI+ is selected, configures 8- or 16-bit interface. If ULPI is selected, configures SDR or DDR mode.ero.ne." "zero,one"
textline "                             "
bitfld.long 0x00 0.--2. " TOUTCAL                             ,HS/FS Timeout Calibration. The number of PHY clocks, as indicated by the application in this field, is multiplied by a bit-time factor; this factor is added to the high-speed/full-speed interpacket timeout duration..." "0,1,2,3,4,5,6,7"
group.long 0xC280++0x3
line.long 0x00 "USB_GUSB2PHYACC,Global USB2.0 PHY access"
bitfld.long 0x00 26. " DISULPIDRVR                         ,Disable ULPI drivers,...arkit mode. Auto-cleared. NOT USED." "0,1"
bitfld.long 0x00 25. "                    NEWREGREQ                     ,New register request. Auto-cleared." "No_action,Access_request_pending"
bitfld.long 0x00 24. "  VSTSDONE                         ,VStatus Done" "0,access_is_done."
textline "                             "
bitfld.long 0x00 23. " VSTSBSY                             ,VStatus busy" "Access_is_done.,1"
bitfld.long 0x00 22. "      REGWR                         ,Register write" "Read,Write"
bitfld.long 0x00 16.--21. "                   REGADDR                          ,Register address ULPI PHY register address...mmediate PHY register set access. Set to 6'h2F...xtended PHY register set access." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                             "
bitfld.long 0x00 8.--13. " EXTREGADDR                          ,ULPI: PHY extended register address. UTMI+: Unused" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "                   REGDATA                       ,Register data (read and write data)"
group.long 0xC2C0++0x3
line.long 0x00 "USB_GUSB3PIPECTL,Global USB3.0 PIPE control"
bitfld.long 0x00 31. " PHYSOFTRST                          ,PHY Soft Reset. Active-high, fully static software reset...IPE USB3.0 transceiver.nactive.ctive." "inactive,active"
bitfld.long 0x00 27. "             UX_EXIT_IN_PX                 ,Workaround...S PHY injecting a glitch on RxElecIdle while receiving Ux exit LFPS, and PowerDown change is in progress.efault.a." "default,wa"
bitfld.long 0x00 26. "                 PING_ENHANCEMENT_EN              ,Ping Enhancement Enable: Extended downstream port U1 ping receive timeout. Invalid...pstream port.efault.00." "default,500"
textline "                             "
bitfld.long 0x00 25. " U1U2EXITFAIL_TO_RECOV               ,Enhancement to prevent interoperability issue in case of incorrect LFPS handshake by the remote link.efault.nhanced." "default,enhanced"
bitfld.long 0x00 24. "             REQUEST_P1P2P3                ,Control the systematic request of P1/P2/P3...1/U2/U3one.lways." "none,always"
bitfld.long 0x00 23. "                  STARTRXDETU3RXDET                ,Manual control...eriodic Rx detection required in U3 and Rx.Detect, host mode.oop.etect." "noop,detect"
textline "                             "
bitfld.long 0x00 22. " DISRXDETU3RXDET                     ,Disable the HW-scheduled periodic Rx detection required in U3 and SS.Disabled,...ost mode.uto.anual." "Auto,Manual"
bitfld.long 0x00 19.--21. "               P1P2P3DELAY                   ,If DelayP0toP1P2P3=1, delays the transition to P1/P2/P3 when entering U1/U2/U3 until P1P2P3Delay*8b10b errors occur, or RxValid=0 on PIPE." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 18. "                       DELAYP0TOP1P2P3                  ,Delay PHY change from P0 to P1/P2/P3 when link state changes from U0 to U1/U2/U3, respectively.is.n." "dis,en"
textline "                             "
bitfld.long 0x00 17. " SUSPENDENABLE                       ,Suspend Enable...SB3.0 SS PHY. Set to 1 only after core initialization is complete..." "0,1"
bitfld.long 0x00 15.--16. "                    DATWIDTH                      ,PIPE Data Width (input from phy: refer to PIPE standard) Field updated to the input's value immediately after reset..6.2." "32,16,8,3"
bitfld.long 0x00 14. "                      ABORTRXDETINU2                   ,Abort Rx Detect in U2. For Downstream port only.o_abort.bort." "no_abort,abort"
textline "                             "
bitfld.long 0x00 13. " SKIPRXDET                           ,Skip Rx Detect. When set, the core skips Rx Detection if PIPE signal 'RxElecIdle' is low. Skip is defined as waiting...he appropriate timeout, then repeating the operation." "0,1"
bitfld.long 0x00 12. "                    LFPSP0ALGN                    ,LFPS P0 Align. When set to 1:he core deasserts LFPS transmission on the clock edge that it requests PHY power state 0 when exiting U1, U2, or U3 low power states. Otherwise, LFPS transmission is assert..." "def,align"
bitfld.long 0x00 11. "                   P3P2TRANOK                       ,P3-to-P2 Transitions OKotset.et." "notset,set"
textline "                             "
bitfld.long 0x00 10. " P3EXSIGP2                           ,PHY power state behaviour upon U3 exit handshake.efault.2." "default,p2"
bitfld.long 0x00 9. "              LFPSFILT                      ,LFPS Filter. When set, filter LFPS reception with PIPE 'RxValid' signal in PHY power state P0, that is, ignore LFPS reception from the PHY unless both PIPE signals 'RxElecIdle' and 'RxValid' are deasserted." "0,1"
bitfld.long 0x00 6. "                       TXSWING                          ,Tx Swing (output to PHY: refer to PIPE standard)" "0,1"
textline "                             "
bitfld.long 0x00 3.--5. " TXMARGIN                            ,Tx Margin[2:0] (output to PHY: refer to PIPE standard)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 1.--2. "                    TXDEEMPHASIS                  ,Tx Deemphasis (output to PHY: refer to PIPE standard) The value driven to the PHY is controlled by the LTSSM during USB3.0 Compliance mode." "0,1,2,3"
bitfld.long 0x00 0. "                       ELASTICBUFFERMODE                ,Elastic Buffer Mode (output to PHY: refer to PIPE standard)" "0,1"
group.long 0xC300++0x3
line.long 0x00 "USB_GTXFIFOSIZ0,Global Transmit FIFO Size 0: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words."
group.long 0xC304++0x3
line.long 0x00 "USB_GTXFIFOSIZ1,Global Transmit FIFO Size 1: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words."
group.long 0xC308++0x3
line.long 0x00 "USB_GTXFIFOSIZ2,Global Transmit FIFO Size 2: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words."
group.long 0xC30C++0x3
line.long 0x00 "USB_GTXFIFOSIZ3,Global Transmit FIFO Size 3: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words."
group.long 0xC310++0x3
line.long 0x00 "USB_GTXFIFOSIZ4,Global Transmit FIFO Size 4: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words."
group.long 0xC314++0x3
line.long 0x00 "USB_GTXFIFOSIZ5,Global Transmit FIFO Size 5: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words."
group.long 0xC318++0x3
line.long 0x00 "USB_GTXFIFOSIZ6,Global Transmit FIFO Size 6: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words."
group.long 0xC31C++0x3
line.long 0x00 "USB_GTXFIFOSIZ7,Global Transmit FIFO Size 7: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words."
group.long 0xC320++0x3
line.long 0x00 "USB_GTXFIFOSIZ8,Global Transmit FIFO Size 8: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words."
group.long 0xC324++0x3
line.long 0x00 "USB_GTXFIFOSIZ9,Global Transmit FIFO Size 9: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words."
group.long 0xC328++0x3
line.long 0x00 "USB_GTXFIFOSIZ10,Global Transmit FIFO Size 10: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words."
group.long 0xC32C++0x3
line.long 0x00 "USB_GTXFIFOSIZ11,Global Transmit FIFO Size 11: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words."
group.long 0xC330++0x3
line.long 0x00 "USB_GTXFIFOSIZ12,Global Transmit FIFO Size 12: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words."
group.long 0xC334++0x3
line.long 0x00 "USB_GTXFIFOSIZ13,Global Transmit FIFO Size 13: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words."
group.long 0xC338++0x3
line.long 0x00 "USB_GTXFIFOSIZ14,Global Transmit FIFO Size 14: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words."
group.long 0xC33C++0x3
line.long 0x00 "USB_GTXFIFOSIZ15,Global Transmit FIFO Size 15: FIFO mapping in RAM1, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " TXFSTADDR                           ,Transmit FIFO RAM start address, in 64-bit RAM words."
hexmask.long.word 0x00 0.--15. 1. "                 TXFDEP                        ,Transmit FIFO depth, in 64-bit RAM words."
group.long 0xC380++0x3
line.long 0x00 "USB_GRXFIFOSIZ0,Global Receive FIFO Size 0: FIFO mapping in RAM0, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " RXFSTADDR                           ,Receive FIFO RAM Start Address, in 64-bit RAM words.in.ax."
hexmask.long.word 0x00 0.--15. 1. "                 RXFDEP                        ,Receive FIFO Depth, in 64-bit RAM wordsin.ax."
group.long 0xC384++0x3
line.long 0x00 "USB_GRXFIFOSIZ1,Global receive FIFO size 1: FIFO mapping in RAM0, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " RXFSTADDR                           ,Receive FIFO RAM Start Address, in 64-bit RAM words.in.ax."
hexmask.long.word 0x00 0.--15. 1. "                 RXFDEP                        ,Receive FIFO Depth, in 64-bit RAM wordsin.ax."
group.long 0xC388++0x3
line.long 0x00 "USB_GRXFIFOSIZ2,Global receive FIFO size 2: FIFO mapping in RAM0, from staddr to (staddr+dep-1)"
hexmask.long.word 0x00 16.--31. 1. " RXFSTADDR                           ,Receive FIFO RAM Start Address, in 64-bit RAM words.in.ax."
hexmask.long.word 0x00 0.--15. 1. "                 RXFDEP                        ,Receive FIFO Depth, in 64-bit RAM wordsin.ax."
group.long 0xC400++0x3
line.long 0x00 "USB_GEVNTADRLO,Global event address: Lower 32 bits of start address of the external memory...he event buffer. During operation, hardware does not update this address."
hexmask.long 0x00 0.--31. 1. " EVNTADRLO                           ,EVNTADR[31:0]"
group.long 0xC404++0x3
line.long 0x00 "USB_GEVNTADRHI,Global event address: Upper 32 bits of start address of the external memory...he event buffer. During operation, hardware does not update this address."
hexmask.long 0x00 0.--31. 1. " EVNTADRHI                           ,EVNTADR[64:32]"
group.long 0xC408++0x3
line.long 0x00 "USB_GEVNTSIZ,Global event buffer size"
bitfld.long 0x00 31. " EVNTINTRPTMASK                      ,Event interrupt mask Prevents the interrupt from being generated when set to 1 The events are queued wven when the mask is set." "0,1"
hexmask.long.word 0x00 0.--15. 1. "                    EVENTSIZ                      ,Event buffer size Size of the event buffer in bytes; must be a multiple of 4. Programmed by software once during initialization."
group.long 0xC40C++0x3
line.long 0x00 "USB_GEVNTCOUNT,Global event buffer count"
hexmask.long.word 0x00 0.--15. 1. " EVNTCOUNT                           ,Event count When read, returns the number of valid events in the event buffer in bytes When written, hardware decrements the count by the value written. The interrupt remains active while count is not 0."
rgroup.long 0xC600++0x3
line.long 0x00 "USB_GHWPARAMS8,Global hardware parameters 8"
hexmask.long 0x00 0.--31. 1. " DWC_USB3_DCACHE_DEPTH_INFO          ,Depth of data cache, in 64-bit words (fixed). The cache occupies RAM0 from word 0 to DCACHE_DEPTH_INFO-1: Rx FIFOs shall be mapped from word DCACHE_DEPTH_INFO to RAM0_DEPTH-1."
rgroup.long 0xC604++0x3
line.long 0x00 "USB_GHWPARAMS9,Global hardware parameters 9"
hexmask.long 0x00 0.--31. 1. " GHWPARAMS9                          ,NOT USED"
group.long 0xC700++0x3
line.long 0x00 "USB_DCFG,Device configuration: Configures the core in device mode after power-on or after certain control commands or enumeration. Does not change after initial programming."
bitfld.long 0x00 23. " IGNORESTREAMPP                      ,Ignore Packet-Pending...tream management. From stream-capable bulk endpoints only.ochange.gnore." "nochange,ignore"
bitfld.long 0x00 22. "             LPMCAP                        ,Link Power Management (LPM) Capability.o.es." "no,yes"
bitfld.long 0x00 17.--21. "                     NUMP                             ,Number of Receive Buffers. Indicates number of receive buffers to be reported in ACK TP. Value based on RxFIFO size, buffer sizes programmed in descriptors, and system latency." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                             "
bitfld.long 0x00 12.--16. " INTRNUM                             ,Interrupt Number. Interrupt/EventQ number on which non-endpoint-specific device related interrupts (see DEVT) are generated." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10.--11. "                   PERFRINT                      ,Periodic Frame Interrupt. Time within a (micro)frame when the application must be notified using the End Of Periodic Frame Interrupt, which can be used to determine if all the periodic..." "80,85,90,95"
hexmask.long.byte 0x00 3.--9. 1. "                      DEVADDR                          ,Device Address. Configure upon set-address USB command, clear to 0 upon USB reset.ef."
textline "                             "
bitfld.long 0x00 0.--2. " DEVSPD                              ,Device Speed: USB speed at which the core should connect. Actual bus speed is determined only after chirp completion, based on the speed of the attached USB host.s.s.s_serial.s.s_serial." "hs,fs,ls_serial,fs_serial,ss,5,6,7"
group.long 0xC704++0x3
line.long 0x00 "USB_DCTL,Device control"
bitfld.long 0x00 31. " RUNSTOP                             ,Run/Stoptop.tart." "stop,start"
bitfld.long 0x00 30. "                CSFTRST                       ,Core Soft Reset. Auto-cleared. The reset has the...wing effect:nterrupts are cleared.egisters are cleared except: USB_GSTS, USB_GSNPSID, USB_GGPIO, USB_GUID, USB_GUSB2PHYCFG, USB_GUSB3PIPECTL, USB_DCFG,..." "idle,reset"
bitfld.long 0x00 28. "                   HIRDTHRES_4                      ,Host Initiated Resume Duration (HIRD) Threshold, MSbit: See HIRDTHRES_TIME" "0,1"
textline "                             "
bitfld.long 0x00 24.--27. " HIRDTHRES_TIME                      ,Host Initiated Resume Duration (HIRD) Threshold, LSBits = timeout value. utmi_l1_suspend_n is asserted in L1 when : (HIRD value >= HIRDTHRES_TIME) and (HIRDTHRES_4=1) utmi_sleep_n is asserted in L1 when : (H..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "                   APPL1RES                      ,LPM Response Programmed by Application: Handshake response made to LPM token. Note that if USB_DCFG[22] LPMCAP = 0, the response is always timeout (no response).an_nyet.ck." "can_nyet,ack"
bitfld.long 0x00 19. "                KEEPCONNECT                      ,Used...ave-and-Restore operation. DO NOT USE, SAR NOT IMPLEMENTEDoaction.eep." "noaction,keep"
textline "                             "
bitfld.long 0x00 18. " L1HIBERNATIONEN                     ,DO NOT USE, SAR NOT IMPLEMENTED" "0,1"
bitfld.long 0x00 17. "                    CRS                           ,Controller Restore State. DO NOT USE, SAR NOT IMPLEMENTEDestore.oaction." "restore,noaction"
bitfld.long 0x00 16. "                CSS                              ,Controller Save State. DO NOT USE, SAR NOT IMPLEMENTEDave.oaction." "save,noaction"
textline "                             "
bitfld.long 0x00 12. " INITU2ENA                           ,Initiate U2 Enable. Cleared to 0 by USB reset.ewEnum1.ewEnum2." "newEnum1,newEnum2"
bitfld.long 0x00 11. "             ACCEPTU2ENA                   ,Accept U2 Enable. Cleared to 0 by USB reset.o.es." "no,yes"
bitfld.long 0x00 10. "                     INITU1ENA                        ,Initiate U1 Enable. Cleared to 0 by USB reset.o.es." "no,yes"
textline "                             "
bitfld.long 0x00 9. " ACCEPTU1ENA                         ,Accept U1 Enable. Cleared to 0 by USB reset.o.es." "no,yes"
bitfld.long 0x00 5.--8. "                  ULSTCHNGREQ                   ,USB/Link State Change Request. A new request is indicated by a change of value. To issue the same request back-to-back, a 0 shall be written between the two requests. State change request result is..." "noop,1,2,3,dis,rxdet,inact,7,rec,9,comp,loop,12,13,14,15"
bitfld.long 0x00 1.--4. "                   TSTCTL                           ,Test Control......" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xC708++0x3
line.long 0x00 "USB_DEVTEN,Device event enable: Enables the generation of device-specific events (see USB_DEVT)."
bitfld.long 0x00 13. " INACTTIMEOUTRCVEDEN                 ,U2 Inactive Timeout Received Event Enable" "0,1"
bitfld.long 0x00 12. "                    VNDRDEVTSTRCVEDEN             ,Vendor Device Test Received event Enable" "0,1"
bitfld.long 0x00 11. "                       EVNTOVERFLOWEN                   ,Event Overflow event Enable" "0,1"
textline "                             "
bitfld.long 0x00 10. " CMDCMPLTEN                          ,Command Complete event Enable" "0,1"
bitfld.long 0x00 9. "                    ERRTICERREN                   ,Erratic Error event Enable" "0,1"
bitfld.long 0x00 7. "                       SOFEN                            ,Start of (micro)Frame event Enable. For debug only." "0,1"
textline "                             "
bitfld.long 0x00 6. " EOPFEN                              ,End of Periodic Frame event Enable. For debug only." "0,1"
bitfld.long 0x00 5. "                    HIBERNATIONREQEVTEN           ,Hibernation Request Event Enable. DO NOT USE, HIBERNATION NOT IMPLEMENTED" "0,1"
bitfld.long 0x00 4. "                       WKUPEVTEN                        ,Resume/Remote Wakeup Detected Event Enable." "0,1"
textline "                             "
bitfld.long 0x00 3. " ULSTCNGEN                           ,USB/Link State Change event Enable" "0,1"
bitfld.long 0x00 2. "                    CONNECTDONEEN                 ,Connection Done event Enable" "0,1"
bitfld.long 0x00 1. "                       USBRSTEN                         ,USB Reset Enable" "0,1"
textline "                             "
bitfld.long 0x00 0. " DISCONNEVTEN                        ,Disconnct Event Enable" "0,1"
rgroup.long 0xC70C++0x3
line.long 0x00 "USB_DSTS,Device status"
bitfld.long 0x00 29. " DCNRD                               ,Device Controller Not Readyait.dy." "rdy,wait"
bitfld.long 0x00 28. "                 SRE                           ,Save/Restore Error. NOT SUPPORTED." "0,1"
bitfld.long 0x00 25. "                       RSS                              ,Restore State Status, triggered by writing 1 to RSSestoring.dle." "idle,restoring"
textline "                             "
bitfld.long 0x00 24. " SSS                                 ,Save State Status, triggered by writing 1 to SSSaving.dle." "idle,saving"
bitfld.long 0x00 23. "               COREIDLE                      ,Core Idle status. asserted when all RxFIFO data transferred to system memory, all completed descriptors are written, and all Event Counts are zero. Changes after reset, so that reset value may not match..." "active,idle"
bitfld.long 0x00 22. "                  DEVCTRLHLT                       ,Device Controller Halted. Cleared (0) when theUSB_DCTL[31] RUNSTOP is written to 1. Set (1) after USB_DCTL[31] RUNSTOP has been written to 0, core is idle and disconnect process is complete. When DEVC..." "0,1"
textline "                             "
bitfld.long 0x00 18.--21. " USBLNKST                            ,USB/Link State. Encoding depends on the connection speed (SS or HS/FS/LS).4..1.5...0......." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 17. "                   RXFIFOEMPTY                   ,Rx FIFO Emptympty.otempty." "notempty,empty"
hexmask.long.word 0x00 3.--16. 1. "                SOFFN                            ,received Start Of Frame's Frame Number"
textline "                             "
bitfld.long 0x00 0.--2. " CONNECTSPD                          ,Connection Speed. USB speed at which the device has come up after speed detection through a chirp sequence.s_serial.s_serial.s.s.s." "hs,fs,ls_serial,fs_serial,ss,5,6,7"
group.long 0xC710++0x3
line.long 0x00 "USB_DGCMDPAR,Device generic command parameter: To be programmed before or along with the device command itself."
hexmask.long 0x00 0.--31. 1. " PARAMETER                           ,Parameter of the command; command-dependent."
group.long 0xC714++0x3
line.long 0x00 "USB_DGCMD,Device generic command: Generic command interface to send link management packets and notifications."
bitfld.long 0x00 15. " CMDSTATUS                           ,Command Status.ewEnum2.one." "none,newEnum2"
bitfld.long 0x00 10. "             CMDACT                        ,Command active. Auto-cleared.tart.ctive.dle." "idle,start"
bitfld.long 0x00 8. "                   CMDIOC                           ,Command Interrupt On Complete. Event mapped to interrupt numberUSB_DCFG[16:12] INTNUM. Reads return 0.oc." "0,ioc"
textline "                             "
hexmask.long.byte 0x00 0.--7. 1. " CMDTYP                              ,Command Type. Reads return 0.2...0....6."
group.long 0xC720++0x3
line.long 0x00 "USB_DALEPENA,Device active USB endpoint enable. Set each bit (1) to enable the corresponding endpoint. Bits 0 and 1 are set after USB reset as they enable the control endpoint. All other bits are set according to enumeration, and cleared on a USB reset..."
bitfld.long 0x00 31. " USBACTEP15_IN                       ,USB Activate Endpoint 15 IN" "0,1"
bitfld.long 0x00 30. "                    USBACTEP15_OUT                ,USB Activate Endpoint 15 OUT" "0,1"
bitfld.long 0x00 29. "                       USBACTEP14_IN                    ,USB Activate Endpoint 14 IN" "0,1"
textline "                             "
bitfld.long 0x00 28. " USBACTEP14_OUT                      ,USB Activate Endpoint 14 OUT" "0,1"
bitfld.long 0x00 27. "                    USBACTEP13_IN                 ,USB Activate Endpoint 13 IN" "0,1"
bitfld.long 0x00 26. "                       USBACTEP13_OUT                   ,USB Activate Endpoint 13 OUT" "0,1"
textline "                             "
bitfld.long 0x00 25. " USBACTEP12_IN                       ,USB Activate Endpoint 12 IN" "0,1"
bitfld.long 0x00 24. "                    USBACTEP12_OUT                ,USB Activate Endpoint 12 OUT" "0,1"
bitfld.long 0x00 23. "                       USBACTEP11_IN                    ,USB Activate Endpoint 11 IN" "0,1"
textline "                             "
bitfld.long 0x00 22. " USBACTEP11_OUT                      ,USB Activate Endpoint 11 OUT" "0,1"
bitfld.long 0x00 21. "                    USBACTEP10_IN                 ,USB Activate Endpoint 10 IN" "0,1"
bitfld.long 0x00 20. "                       USBACTEP10_OUT                   ,USB Activate Endpoint 10 OUT" "0,1"
textline "                             "
bitfld.long 0x00 19. " USBACTEP9_IN                        ,USB Activate Endpoint 9 IN" "0,1"
bitfld.long 0x00 18. "                    USBACTEP9_OUT                 ,USB Activate Endpoint 9 OUT" "0,1"
bitfld.long 0x00 17. "                       USBACTEP8_IN                     ,USB Activate Endpoint 8 IN" "0,1"
textline "                             "
bitfld.long 0x00 16. " USBACTEP8_OUT                       ,USB Activate Endpoint 8 OUT" "0,1"
bitfld.long 0x00 15. "                    USBACTEP7_IN                  ,USB Activate Endpoint 7 IN" "0,1"
bitfld.long 0x00 14. "                       USBACTEP7_OUT                    ,USB Activate Endpoint 7 OUT" "0,1"
textline "                             "
bitfld.long 0x00 13. " USBACTEP6_IN                        ,USB Activate Endpoint 6 IN" "0,1"
bitfld.long 0x00 12. "                    USBACTEP6_OUT                 ,USB Activate Endpoint 6 OUT" "0,1"
bitfld.long 0x00 11. "                       USBACTEP5_IN                     ,USB Activate Endpoint 5 IN" "0,1"
textline "                             "
bitfld.long 0x00 10. " USBACTEP5_OUT                       ,USB Activate Endpoint 5 OUT" "0,1"
bitfld.long 0x00 9. "                    USBACTEP4_IN                  ,USB Activate Endpoint 4 IN" "0,1"
bitfld.long 0x00 8. "                       USBACTEP4_OUT                    ,USB Activate Endpoint 4 OUT" "0,1"
textline "                             "
bitfld.long 0x00 7. " USBACTEP3_IN                        ,USB Activate Endpoint 3 IN" "0,1"
bitfld.long 0x00 6. "                    USBACTEP3_OUT                 ,USB Activate Endpoint 3 OUT" "0,1"
bitfld.long 0x00 5. "                       USBACTEP2_IN                     ,USB Activate Endpoint 2 IN" "0,1"
textline "                             "
bitfld.long 0x00 4. " USBACTEP2_OUT                       ,USB Activate Endpoint 2 OUT" "0,1"
bitfld.long 0x00 3. "                    USBACTEP1_IN                  ,USB Activate Endpoint 1 IN" "0,1"
bitfld.long 0x00 2. "                       USBACTEP1_OUT                    ,USB Activate Endpoint 1 OUT" "0,1"
textline "                             "
bitfld.long 0x00 1. " USBACTEP0_IN                        ,USB Activate Endpoint 0 IN (control)" "0,1"
bitfld.long 0x00 0. "                    USBACTEP0_OUT                 ,USB Activate Endpoint 0 OUT (control)" "0,1"
group.long 0xCC00++0x3
line.long 0x00 "USB_OCFG,OTG configuration"
bitfld.long 0x00 3. " OTGSFTRSTMSK                        ,Protects OTG, PHY and VBUS filters from the...wing software resets: xHCIUSB_USBCMD[1] HCRST (host), USB_DCTL[30] CSFTRST (device). Note: In OTG2 applications, it is not recommended to program USB_USBCMD[1] HCRST..." "default,mask"
bitfld.long 0x00 2. "              OTGVERSION                    ,Debug, always write 0." "0,1"
bitfld.long 0x00 1. "                       HNPCAP                           ,HNP Capabilty Enable.o.es." "no,yes"
textline "                             "
bitfld.long 0x00 0. " SRPCAP                              ,SRP Capability enable. For A-device, SRP detection. For B-device, SRP generation.o.es." "no,yes"
group.long 0xCC04++0x3
line.long 0x00 "USB_OCTL,OTG control IMPORTANT NOTE: Register is reinitialized on ID change, but is not affected by a software reset."
bitfld.long 0x00 7. " OTG3_GOERR                          ,To be set upon TRSP_ACK_ERR, TRSP_CNF_ERR, or TRSP_WRST_ERR timeout. Auto-cleared. OTG3: NOT IMPLEMENTED, DO NOT SET.oop.ending.o." "noop,pending"
bitfld.long 0x00 6. "              PERIMODE                      ,Peripheral Mode. Program the core to work as a peripheral or as a host.es.o." "no,yes"
bitfld.long 0x00 5. "                     PRTPWRCTL                        ,Port Power Control. Set or cleared by software. Self-cleared in any of the...wing conditions: 1) transition to a_idle OTG state 2) aidl_bdis_tout event when in a_suspend OTG state 3) a_wait_bcon..." "swoff,req"
textline "                             "
bitfld.long 0x00 4. " HNPREQ                              ,HNP Request. Set (1) by software to initiate HNP request to the connected USB host. Clear (0) by software upon eitherUSB_OEVT[11] OTGBDEVHOSTENDEVNT or USB_OEVT[8] OTGBDEVVBUSCHNGEVNT.one.ngoing." "done,ongoing"
bitfld.long 0x00 3. "              SESREQ                        ,Session Request. In the absence ofUSB_OEVT[9] OTGBDEVSESSVLDDETEVNT after a request, the application must wait...t least TB_SRP_FAIL (6 secs) before another request.oop.rp.ero." "noop,srp"
bitfld.long 0x00 2. "                    TERMSELDLPULSE                   ,TermSelect Data Line Pulse. Alternate SRP data line pulsing method on UTMI interface.ewEnum1.ewEnum2." "newEnum1,newEnum2"
textline "                             "
bitfld.long 0x00 1. " DEVSETHNPEN                         ,Device Set HNP Enable. To be set when HNP has been successfully enabled by the connected host, using the SetFeature.SetHNPEnable command.is.n." "dis,en"
bitfld.long 0x00 0. "                  HSTSETHNPEN                   ,Host Set HNP Enable. To be set when HNP has been successfully enabled on the connected device, using the SetFeature.SetHNPEnable command.is.n." "dis,en"
group.long 0xCC08++0x3
line.long 0x00 "USB_OEVT,OTG event: OTG interrupt status. All writable bits are cleared by writing a 1."
bitfld.long 0x00 31. " DEVICEMODE                          ,Dual-role device's mode, based on iddig input..." "a,b"
eventfld.long 0x00 24. "                    OTGCONIDSTSCHNGEVNT           ,Connector ID status change event. Set in both A-device and B-device mode.oop.lr.vt.oevt." "noop,clr"
eventfld.long 0x00 23. "                    HRRCONFNOTIFEVNT                 ,Host Role Request Confirm Notifier Event. Set upon reception of HRR Device Notification TP with Confirm field set. Set in OTG3, SS, A-host or B-host mode only. OTG3: NOT IMPLEMENTEDoop.lr.vt.oevt." "noop,clr"
textline "                             "
eventfld.long 0x00 22. " HRRINITNOTIFEVNT                    ,Host Role Request Initiate Notifier Event. Set upon reception of HRR Device Notification TP with Initiate field set. Set in OTG3, SS, A-host or B-host mode only. OTG3: NOT IMPLEMENTEDoop.lr.vt.oevt." "noop,clr"
eventfld.long 0x00 21. "                 OTGADEVIDLEEVNT               ,A-device A-IDLE Event. Set when OTG FSM enters A-IDLE state from any other state. Set in A-device mode only. OTG3: NOT IMPLEMENTEDoop.lr.vt.oevt." "noop,clr"
eventfld.long 0x00 20. "                    OTGADEVBHOSTENDEVNT              ,A-device B-host End Event. Set when connected B-device has completed its B-host role and returns to B-peripheral. Set in A-device mode only.oop.lr.vt.oevt." "noop,clr"
textline "                             "
eventfld.long 0x00 19. " OTGADEVHOSTEVNT                     ,A-device Host Event. Set when device enters host role, upon initial connect to B-device as well as upon HNP from A-peripheral to A-host. Set in A-device mode only.oop.lr.vt.oevt." "noop,clr"
eventfld.long 0x00 18. "                 OTGADEVHNPCHNGDETEVNT         ,A-device HNP change Detected Event. Set when there is an HNP event. Set in A-device mode only.oop.lr.vt.oevt." "noop,clr"
eventfld.long 0x00 17. "                    OTGADEVSRPDETEVNT                ,A-device SRP Detected Event. Set when SRP request from B-device is detected. Set in A-device mode only.oop.lr.vt.oevt." "noop,clr"
textline "                             "
eventfld.long 0x00 16. " OTGADEVSESSENDDETEVNT               ,A-device Session End Detected Event. Set when UTMI input 'a-vbus-valid' is deasserted (0). Set in A-device mode only.oop.lr.vt.oevt." "noop,clr"
eventfld.long 0x00 11. "                 OTGBDEVHOSTENDEVNT            ,B-device Host End Event. Set completing B-host role and returning to default B-peripheral role. Set in B-device mode only.oop.lr.vt.oevt." "noop,clr"
eventfld.long 0x00 10. "                    OTGBDEVHNPCHNGEVNT               ,B-device HNP Change Event. Set upon (success of failure of an) HNP attempt. Set in B-device mode only.oop.lr.vt.oevt." "noop,clr"
textline "                             "
eventfld.long 0x00 9. " OTGBDEVSESSVLDDETEVNT               ,B-device Session Valid Detected Event. Set when B-device succeeds in starting a session. Set in B-device mode only.oop.lr.vt.oevt." "noop,clr"
eventfld.long 0x00 8. "                 OTGBDEVVBUSCHNGEVNT           ,B-device VBUS Change Event. Set when UTMI input 'b-session-valid' transitions (to 0 or 1). Set in B-device mode only.oop.lr.vt.oevt." "noop,clr"
bitfld.long 0x00 3. "                    BSESVLD                          ,B-Session Valid. Updated when OTGBDevVBUSChngEvnt is set.alid.nvalid." "invalid,valid"
textline "                             "
bitfld.long 0x00 2. " HSTNEGSTS                           ,Host Negotiation Status. Updated when OTGADevHNPChngEvnt or OTGBDevHNPChngEvnt is set.uccess.ailure." "failure,success"
bitfld.long 0x00 1. "              SESREQSTS                     ,Session Request Status. Updated when OTGBDevSessVldDetEvnt is set.RP.oSRP." "noSRP,SRP"
eventfld.long 0x00 0. "                   OEVTERROR                        ,No errors currently defined.oop.lr.vt.oevt." "noop,clr"
group.long 0xCC0C++0x3
line.long 0x00 "USB_OEVTEN,OTG event enable: OTG interrupt event enable."
bitfld.long 0x00 24. " OTGCONIDSTSCHNGEVNTEN               ,Connector ID Status Change Event Enable.is.n." "dis,en"
bitfld.long 0x00 23. "                  HRRCONFNOTIFEVNTEN            ,Host Role Request Confirm Notifier Event Enable. OTG3: NOT IMPLEMENTEDis.n." "dis,en"
bitfld.long 0x00 22. "                     HRRINITNOTIFEVNTEN               ,Host Role Request Initiate Notifier Event Enable. OTG3: NOT IMPLEMENTEDis.n." "dis,en"
textline "                             "
bitfld.long 0x00 21. " OTGADEVIDLEEVNTEN                   ,A-device A-IDLE Event Enable.is.n." "dis,en"
bitfld.long 0x00 20. "                  OTGADEVBHOSTENDEVNTEN         ,A-device B-host End Event Enable.is.n." "dis,en"
bitfld.long 0x00 19. "                     OTGADEVHOSTEVNTEN                ,A-device Host Event Enable.is.n." "dis,en"
textline "                             "
bitfld.long 0x00 18. " OTGADEVHNPCHNGDETEVNTEN             ,A-device HNP change Detected Event Enable.is.n." "dis,en"
bitfld.long 0x00 17. "                  OTGADEVSRPDETEVNTEN           ,A-device SRP Detected Event Enable.is.n." "dis,en"
bitfld.long 0x00 16. "                     OTGADEVSESSENDDETEVNTEN          ,A-device Session End Detected Event Enable.is.n." "dis,en"
textline "                             "
bitfld.long 0x00 11. " OTGBDEVHOSTENDEVNTEN                ,B-device Host End Event Enable.is.n." "dis,en"
bitfld.long 0x00 10. "                  OTGBDEVHNPCHNGEVNTEN          ,B-device HNP Change Event Enable.is.n." "dis,en"
bitfld.long 0x00 9. "                     OTGBDEVSESSVLDDETEVNTEN          ,B-device Session Valid Detected Event Enable.is.n." "dis,en"
textline "                             "
bitfld.long 0x00 8. " OTGBDEVVBUSCHNGEVNTEN               ,B-device VBUS Change Event Enable.is.n." "dis,en"
rgroup.long 0xCC10++0x3
line.long 0x00 "USB_OSTS,OTG status"
bitfld.long 0x00 8.--11. " OTGSTATE                            ,[A-device and B-device] OTG state machine state,...ebug. Default value can vary depending on integration." "a_idle,a_wait_vrise,a_wait_bcon,a_wait_vfall,a_vbus_err,a_host,a_suspend,a_peripheral,a_wait_ppwr,b_idle,b_srp_init,b_peripheral,b_wait_acon,b_host,a_wait_switch,b_wait_switch"
bitfld.long 0x00 4. "        PERIPHERALSTATE               ,[A-device and B-device] Current role of the controller" "Host,Peripheral"
bitfld.long 0x00 3. "              XHCIPRTPOWER                     ,[A-device] xHCI host port power. Reflects host bit fieldUSB_PORTSC1/2[9] PP." "0,1"
textline "                             "
bitfld.long 0x00 2. " BSESVLD                             ,[B-device] VBUS B-session valid status" "0,B-session_is_valid."
bitfld.long 0x00 1. "  VBUSVLD                       ,[A-device] VBUS valid status" "0,VBUS_is_valid."
bitfld.long 0x00 0. "          CONIDSTS                         ,[A-device and B-device] Connector ID status. Default value can vary depending on integration." "Core_is_A-device.,Core_is_B-device."
width 0x0B
tree.end
tree.end
tree.open "USB_WRAPPER1"
tree "USB_WRAPPER1"
base ad:0x48880000
width 21.
rgroup.long 0x0++0x3
line.long 0x00 "USB_REVISION,USB_WRAPPER Revision Identifier"
hexmask.long 0x00 0.--31. 1. " REVISION             ,USB_WRAPPER Revision"
group.long 0x10++0x3
line.long 0x00 "USB_SYSCONFIG,Controls various parameters of the master and slave interfaces."
bitfld.long 0x00 17. " WRAPRESET            ,Software reset for the USB_WRAPPER register set. Self-clearing. Does not affect the core register set. - noop. - dorst. - active. - done." "noop,dorst"
bitfld.long 0x00 16. "              DMADISABLE          ,Disable/Enable control of the DMA master (initiator) to block read/write accesses. Bit is auto-cleared (to 0) by HW in case of outgoing access, but must be set (to 1) manually. - Enable. - Disable. - Disabled. - Enabled." "Enable,Disable"
bitfld.long 0x00 4.--5. "   STANDBYMODE          ,PM mode of local initiator (master). Initiator may generate read/write transaction as long as it is out of STANDBY state. - force. - no. - smart_wakeup. - smart." "force,no,smart,smart_wakeup"
textline "                              "
bitfld.long 0x00 2.--3. " IDLEMODE             ,PM mode of local target (slave). Target shall be capable of handling read/write transaction as long as it is out of IDLE state. - force. - no. - smart_wakeup. - smart." "force,no,smart,smart_wakeup"
group.long 0x20++0x3
line.long 0x00 "USB_IRQ_EOI,Software End-Of-Interrupt: Allows the generation of further pulses on the interrupt line, if an new interrupt event is pending, when using the pulsed output. Unused when using the level interrupt line (depending on module integration)."
bitfld.long 0x00 0.--4. " LINE_NUMBER          ,Write the IRQ line number to apply SW EOI to it." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x24++0x3
line.long 0x00 "USB_IRQSTATUS_RAW_0,Raw status of main core interrupt request. Set even if event is not enabled. Write 1 to set, used mostly for debug (regular status also gets set if enabled)."
bitfld.long 0x00 0. " COREIRQ_ST           ,IRQ status for core: see status registerUSB_IMAN[0] IP - . - . - . - ." "No_action,IRQ_event_pending"
group.long 0x28++0x3
line.long 0x00 "USB_IRQSTATUS_0,'regular' status of main core interrupt request. Set only when enabled, self-cleared unless it was set by writing to, for debug. Write 1 to clear (raw status also gets cleared)."
eventfld.long 0x00 0. " COREIRQ_ST           ,IRQ status for core: see status registerUSB_IMAN[0] IP - noaction. - clear. - pending. - none." "noaction,clear"
group.long 0x2C++0x3
line.long 0x00 "USB_IRQENABLE_SET_0,Enable of main core interrupt request. Write 1 to set (i.e. to enable interrupt). Readout is the same as corresponding _CLR register."
bitfld.long 0x00 0. " COREIRQ_EN           ,IRQ enable for main core interrupt - noaction. - set. - enabled. - disabled." "noaction,set"
group.long 0x30++0x3
line.long 0x00 "USB_IRQENABLE_CLR_0,Enable of main core interrupt request. Write 1 to clear (i.e. to disable interrupt). Readout is the same as corresponding _SET register."
eventfld.long 0x00 0. " COREIRQ_EN           ,IRQ enable for main core interrupt - noaction. - clear. - enabled. - disabled." "noaction,clear"
group.long 0x34++0x3
line.long 0x00 "USB_IRQSTATUS_RAW_1,Raw status of secondary interrupt requests. Set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug (regular status also gets set)."
bitfld.long 0x00 17. " DMADISABLECLR        ,DMA-disable self-clear IRQ status:USB_SYSCONFIG[17] DMADISABLE hardware-cleared (to 0) because of DMA access. Not triggered by a software clear. - noaction. - set. - pending. - none." "noaction,set"
bitfld.long 0x00 16. "           OEVT                ,OTG event in core, IRQ status: see status registerUSB_OEVT - noaction. - set. - pending. - none." "noaction,set"
bitfld.long 0x00 13. "  DRVVBUS_RISE         ,Drive VBUS control rise IRQ status - noaction. - set. - pending. - none." "noaction,set"
textline "                              "
bitfld.long 0x00 12. " CHRGVBUS_RISE        ,Charge VBUS control rise IRQ status - noaction. - set. - pending. - none." "noaction,set"
bitfld.long 0x00 11. "           DISCHRGVBUS_RISE    ,Discharge VBUS control rise IRQ status - noaction. - set. - pending. - none." "noaction,set"
bitfld.long 0x00 8. "  IDPULLUP_RISE        ,ID pullup control rise IRQ status - noaction. - set. - pending. - none." "noaction,set"
textline "                              "
bitfld.long 0x00 5. " DRVVBUS_FALL         ,Drive VBUS control fall IRQ status - noaction. - set. - pending. - none." "noaction,set"
bitfld.long 0x00 4. "           CHRGVBUS_FALL       ,Charge VBUS control fall IRQ status - noaction. - set. - pending. - none." "noaction,set"
bitfld.long 0x00 3. "  DISCHRGVBUS_FALL     ,Discharge VBUS control fall IRQ status - noaction. - set. - pending. - none." "noaction,set"
textline "                              "
bitfld.long 0x00 0. " IDPULLUP_FALL        ,ID pullup control fall IRQ status - noaction. - set. - pending. - none." "noaction,set"
group.long 0x38++0x3
line.long 0x00 "USB_IRQSTATUS_1,Regular status of secondary interrupt requests. Set only when enabled. Write 1 to clear after interrupt is serviced (raw status also gets cleared)."
eventfld.long 0x00 17. " DMADISABLECLR        ,DMA-disable self-clear IRQ status:USB_SYSCONFIG[17] DMADISABLE hardware-cleared (to 0) because of DMA access. Not triggered by a software clear. - noaction. - clear. - pending. - none." "noaction,clear"
eventfld.long 0x00 16. "           OEVT                ,OTG event in core, IRQ status: see status registerUSB_OEVT. - noaction. - clear. - pending. - none." "noaction,clear"
eventfld.long 0x00 13. "  DRVVBUS_RISE         ,Drive VBUS control rise IRQ status - noaction. - clear. - pending. - none." "noaction,clear"
textline "                              "
eventfld.long 0x00 12. " CHRGVBUS_RISE        ,Charge VBUS control rise IRQ status - noaction. - clear. - pending. - none." "noaction,clear"
eventfld.long 0x00 11. "           DISCHRGVBUS_RISE    ,Discharge VBUS control rise IRQ status - noaction. - clear. - pending. - none." "noaction,clear"
eventfld.long 0x00 8. "  IDPULLUP_RISE        ,ID pullup control rise IRQ status - noaction. - clear. - pending. - none." "noaction,clear"
textline "                              "
eventfld.long 0x00 5. " DRVVBUS_FALL         ,Drive VBUS control fall IRQ status - noaction. - clear. - pending. - none." "noaction,clear"
eventfld.long 0x00 4. "           CHRGVBUS_FALL       ,Charge VBUS control fall IRQ status - noaction. - clear. - pending. - none." "noaction,clear"
eventfld.long 0x00 3. "  DISCHRGVBUS_FALL     ,Discharge VBUS control fall IRQ status - noaction. - clear. - pending. - none." "noaction,clear"
textline "                              "
eventfld.long 0x00 0. " IDPULLUP_FALL        ,ID pullup control fall IRQ status - noaction. - clear. - pending. - none." "noaction,clear"
group.long 0x3C++0x3
line.long 0x00 "USB_IRQENABLE_SET_1,Enable secondary interrupt requests. Write 1 to set (that is, to enable interrupt). Readout is the same as corresponding _CLR register."
bitfld.long 0x00 17. " DMADISABLECLR_EN     ,DMA-disable self-clear, IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
bitfld.long 0x00 16. "           OEVT_EN             ,OTG event in core, IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
bitfld.long 0x00 13. "  DRVVBUS_RISE_EN      ,Drive VBUS control rise IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
textline "                              "
bitfld.long 0x00 12. " CHRGVBUS_RISE_EN     ,Charge VBUS control rise IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
bitfld.long 0x00 11. "           DISCHRGVBUS_RISE_EN ,Discharge VBUS control rise IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
bitfld.long 0x00 8. "  IDPULLUP_RISE_EN     ,ID pullup control rise IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
textline "                              "
bitfld.long 0x00 5. " DRVVBUS_FALL_EN      ,Drive VBUS control fall IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
bitfld.long 0x00 4. "           CHRGVBUS_FALL_EN    ,Charge VBUS control fall IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
bitfld.long 0x00 3. "  DISCHRGVBUS_FALL_EN  ,Discharge VBUS control fall IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
textline "                              "
bitfld.long 0x00 0. " IDPULLUP_FALL_EN     ,ID pullup control fall IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
group.long 0x40++0x3
line.long 0x00 "USB_IRQENABLE_CLR_1,Enable secondary interrupt requests. Write 1 to clear (that is, to disable interrupt). Readout is the same as corresponding _SET register."
eventfld.long 0x00 17. " DMADISABLECLR_EN     ,DMA-disable self-clear, IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
eventfld.long 0x00 16. "           OEVT_EN             ,OTG event in core, IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
eventfld.long 0x00 13. "  DRVVBUS_RISE_EN      ,Drive VBUS control rise IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
textline "                              "
eventfld.long 0x00 12. " CHRGVBUS_RISE_EN     ,Charge VBUS control rise IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
eventfld.long 0x00 11. "           DISCHRGVBUS_RISE_EN ,Discharge VBUS control rise IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
eventfld.long 0x00 8. "  IDPULLUP_RISE_EN     ,ID pullup control rise IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
textline "                              "
eventfld.long 0x00 5. " DRVVBUS_FALL_EN      ,Drive VBUS control fall IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
eventfld.long 0x00 4. "           CHRGVBUS_FALL_EN    ,Charge VBUS control fall IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
eventfld.long 0x00 3. "  DISCHRGVBUS_FALL_EN  ,Discharge VBUS control fall IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
textline "                              "
eventfld.long 0x00 0. " IDPULLUP_FALL_EN     ,ID pullup control fall IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
rgroup.long 0x80++0x3
line.long 0x00 "USB_UTMI_OTG_CTRL,"
bitfld.long 0x00 5. " DRVVBUS              ,Drive 5V on VBUS. Plays the role of 'hub_vbus_ctrl' in non-OTG host mode. - drive. - noaction." "noaction,drive"
bitfld.long 0x00 4. "           CHRGVBUS            ,Charge VBUS through a resistor for VBUS-pulsing SRP. - charge. - noaction." "noaction,charge"
bitfld.long 0x00 3. "  DISCHRGVBUS          ,Discharge VBUS through a resistor, until the session-end VBUS state is reached. - Discharge. - NoAction." "NoAction,Discharge"
textline "                              "
bitfld.long 0x00 0. " IDPULLUP             ,Pull-up to the (OTG) ID line to allow its sampling - Enable. - Disable." "Disable,Enable"
group.long 0x84++0x3
line.long 0x00 "USB_UTMI_OTG_STATUS,"
bitfld.long 0x00 31. " SW_MODE              ,Controls the source of UTMI / PIPE status for VBUS and OTG ID (vbusvalid, sessvalid, sessend, iddig, powerpresent) - io. - sw." "io,sw"
bitfld.long 0x00 10. "                 PORT_OVERCURRENT    ,Over-current status, for non-OTG host only. - none. - oc." "none,oc"
bitfld.long 0x00 9. "      POWERPRESENT         ,Software-programmed value of PIPE3.0 PowerPresent (VBUS status) seen by the core, alternative to HW input." "0,1"
textline "                              "
bitfld.long 0x00 8. " TXBITSTUFFENABLE     ,Software-programmed UTMI output txbitstuffenable[h] Note: as per UTMI+, used only in UTMI Opmode 0b11 (i.e. SYNC and EOP generation disabled) - nobs. - bs." "nobs,bs"
bitfld.long 0x00 4. "               IDDIG               ,Software-programmed value of UTMI+ IdDig (OTG ID status) seen by the core, alternative to hardware input. Don't care until IdPullup = 1 for at least 50 ms - IdA. - IdB." "IdA,IdB"
bitfld.long 0x00 3. "       SESSEND              ,Software-programmed value of UTMI+ SessEnd (VBUS status) seen by the core, alternative to HW input. - notended. - ended." "notended,ended"
textline "                              "
bitfld.long 0x00 2. " SESSVALID            ,Software-programmed value of UTMI+ SessValid (VBUS status) seen by the core, alternative to hardware inputs AValid and BValid. - notvalid. - valid." "notvalid,valid"
bitfld.long 0x00 1. "           VBUSVALID           ,Software-programmed value of UTMI+ VbusValid (VBUS status) seen by the core, alternative to hardware input. - notvalid. - valid." "notvalid,valid"
group.long 0x100++0x3
line.long 0x00 "USB_MMRAM_OFFSET,Offset of Memory-mapped RAM accesses. Page is remapped from 0x8000 to 0xFFFF (32 KiB)"
bitfld.long 0x00 15.--19. " OFFSET_MSB           ,Byte offset MSBits = page offset - core_bot. - core_top. - RAM2_base. - RAM1_base. - RAM0_base." "core_bot,core_top,2,3,4,5,6,7,RAM0_base,9,10,11,12,13,14,15,RAM1_base,17,18,19,20,21,22,23,RAM2_base,25,26,27,28,29,30,31"
hexmask.long.word 0x00 0.--14. 1. "          OFFSET_LSB          ,Byte offset LSBits, always 0"
group.long 0x104++0x3
line.long 0x00 "USB_FLADJ,Jitter adjustment and other pseudo-static parameters"
bitfld.long 0x00 31. " CORE_SW_RESET        ,Active-high core software reset. Static, i.e. not self-clearing. After clearing, wait for reset completion by polling USB_USBSTS[11] CNR bit. - noreset. - reset." "noreset,reset"
bitfld.long 0x00 29. "            XHCI_REVISION       ,Switches to the legacy xHCI 0.96 host SW API mode. Changes shall take place under core software reset: [31] CORE_SW_RESET = 1. - 0_96. - 1_0." "0_96,1_0"
bitfld.long 0x00 28. "      HOST_U3_PORT_DISABLE ,USB3.0 port disable, overriding xHCI driver. - en. - dis." "en,dis"
textline "                              "
bitfld.long 0x00 27. " HOST_U2_PORT_DISABLE ,USB2.0 port disable, overriding xHCI driver. - en. - dis." "en,dis"
bitfld.long 0x00 21.--26. "                FLADJ_30MHZ         ,HS Jitter Adjustment, in 30-MHz periods" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x108++0x3
line.long 0x00 "USB_DEBUG_CFG,Configuration of debug output (observability)"
bitfld.long 0x00 0.--2. " SEL                  ,selection of observed local signals - UTMI. - tielo. - PIPE. - Trace_lo. - Trace_hi. - Core." "tielo,UTMI,PIPE,Core,Trace_lo,Trace_hi,6,7"
rgroup.long 0x10C++0x3
line.long 0x00 "USB_DEBUG_DATA,Data currently visible on DEBUG output (observability) port See [2:0] SEL bit field."
bitfld.long 0x00 31. " DEBUG31              ,SEL = 1: utmi_sessend SEL = 2: pipe_rxstatus[2] SEL = 3: core_sm2bl_cur_mode" "0,1"
bitfld.long 0x00 30. "                  DEBUG30             ,SEL = 1: utmi_vbusvalid SEL = 2: pipe_rxstatus[1] SEL = 3: core_suspend_n" "0,1"
bitfld.long 0x00 29. "         DEBUG29              ,SEL = 1: utmi_bvalid SEL = 2: pipe_rxstatus[0] SEL = 3: core_suspend_com_n" "0,1"
textline "                              "
bitfld.long 0x00 28. " DEBUG28              ,SEL = 1: utmi_avalid SEL = 2: pipe_elecidle SEL = 3: core_u2_dssr_state[3]" "0,1"
bitfld.long 0x00 27. "                  DEBUG27             ,SEL = 1: utmi_iddig SEL = 2: pipe_phystatus SEL = 3: core_u2_dssr_state[2]" "0,1"
bitfld.long 0x00 26. "         DEBUG26              ,SEL = 1: utmi_hostdisconnect SEL = 2: pipe_rxvalid SEL = 3: core_u2_dssr_state[1]" "0,1"
textline "                              "
bitfld.long 0x00 25. " DEBUG25              ,SEL = 1: utmi_txbitstuffenableh SEL = 2: pipe_rxdatak[3] SEL = 3: core_u2_dssr_state[0]" "0,1"
bitfld.long 0x00 24. "                  DEBUG24             ,SEL = 1: utmi_txbitstuffenable SEL = 2: pipe_rxdatak[2] SEL = 3: core_u2mac_txrx_state_1[4]" "0,1"
bitfld.long 0x00 23. "         DEBUG23              ,SEL = 1: utmi_dischrgvbus SEL = 2: pipe_rxdatak[1] SEL = 3: core_u2mac_txrx_state_1[3]" "0,1"
textline "                              "
bitfld.long 0x00 22. " DEBUG22              ,SEL = 1: utmi_chrgvbus SEL = 2: pipe_rxdatak[0] SEL = 3: core_u2mac_txrx_state_1[2]" "0,1"
bitfld.long 0x00 21. "                  DEBUG21             ,SEL = 1: utmi_drvvbus SEL = 2: pipe_rxpclk SEL = 3: core_u2mac_txrx_state_1[1]" "0,1"
bitfld.long 0x00 20. "         DEBUG20              ,SEL = 1: utmi_dmpulldown SEL = 2: pipe_rxtermination SEL = 3: core_u2mac_txrx_state_1[0]" "0,1"
textline "                              "
bitfld.long 0x00 19. " DEBUG19              ,SEL = 1: utmi_dppulldown SEL = 2: pipe_txswing SEL = 3: core_u2mac_txrx_state_0[4]" "0,1"
bitfld.long 0x00 18. "                  DEBUG18             ,SEL = 1: utmi_idpullup SEL = 2: pipe_txmargin[2] SEL = 3: core_u2mac_txrx_state_0[3]" "0,1"
bitfld.long 0x00 17. "         DEBUG17              ,SEL = 1: utmi_linestate[1] SEL = 2: pipe_txmargin[1] SEL = 3: core_u2mac_txrx_state_0[2]" "0,1"
textline "                              "
bitfld.long 0x00 16. " DEBUG16              ,SEL = 1: utmi_linestate[0] SEL = 2: pipe_txmargin[0] SEL = 3: core_u2mac_txrx_state_0[1]" "0,1"
bitfld.long 0x00 15. "                  DEBUG15             ,SEL = 1: utmi_opmode[1] SEL = 2: pipe_txdeemph[1] SEL = 3: core_u2mac_txrx_state_0[0]" "0,1"
bitfld.long 0x00 14. "         DEBUG14              ,SEL = 1: utmi_opmode[0] SEL = 2: pipe_txdeemph[0] SEL = 3: core_u2_prt_state[4]" "0,1"
textline "                              "
bitfld.long 0x00 13. " DEBUG13              ,SEL = 1: utmi_termSELect SEL = 2: pipe_powerdown[1] SEL = 3: core_u2_prt_state[3]" "0,1"
bitfld.long 0x00 12. "                  DEBUG12             ,SEL = 1: utmi_xcvrselect[1] SEL = 2: pipe_powerdown[0] SEL = 3: core_u2_prt_state[2]" "0,1"
bitfld.long 0x00 11. "         DEBUG11              ,SEL = 1: utmi_xcvrselect[0] SEL = 2: pipe_reset_n SEL = 3: core_u2_prt_state[1]" "0,1"
textline "                              "
bitfld.long 0x00 10. " DEBUG10              ,SEL = 1: utmi_suspendm SEL = 2: pipe_rxeqtraining SEL = 3: core_u2_prt_state[0]" "0,1"
bitfld.long 0x00 9. "                  DEBUG9              ,SEL = 1: utmi_reset SEL = 2: pipe_rxpolarity SEL = 3: core_gsts_buserraddvld" "0,1"
bitfld.long 0x00 8. "         DEBUG8               ,SEL = 1: utmi_rxerror SEL = 2: pipe_txoneszeros SEL = 3: debug_mclk_usof_number[0]" "0,1"
textline "                              "
bitfld.long 0x00 7. " DEBUG7               ,SEL = 1: utmi_rxvalidh SEL = 2: pipe_txelecidle SEL = 3: core_ltdb_link_state[3]" "0,1"
bitfld.long 0x00 6. "                  DEBUG6              ,SEL = 1: utmi_rxvalid SEL = 2: pipe_txdetectrxloopback SEL = 3: core_ltdb_link_state[2]" "0,1"
bitfld.long 0x00 5. "         DEBUG5               ,SEL = 1: utmi_rxactive SEL = 2: pipe_elasticitybuffermode SEL = 3: core_ltdb_link_state[1]" "0,1"
textline "                              "
bitfld.long 0x00 4. " DEBUG4               ,SEL = 1: utmi_txready SEL = 2: pipe_txdatak[3] SEL = 3: core_ltdb_link_state[0]" "0,1"
bitfld.long 0x00 3. "                  DEBUG3              ,SEL = 1: utmi_txvalidh SEL = 2: pipe_txdatak[2] SEL = 3: core_ltdb_substate[3]" "0,1"
bitfld.long 0x00 2. "         DEBUG2               ,SEL = 1: utmi_txvalid SEL = 2: pipe_txdatak[1] SEL = 3: core_ltdb_substate[2]" "0,1"
textline "                              "
bitfld.long 0x00 1. " DEBUG1               ,SEL = 1: utmi_databus16_8 SEL = 2: pipe_txdatak[0] SEL = 3: core_ltdb_substate[1]" "0,1"
bitfld.long 0x00 0. "                  DEBUG0              ,SEL = 1: utmi_clk SEL = 2: pipe_txpclk SEL = 3: core_ltdb_substate[0]" "0,1"
group.long 0x110++0x3
line.long 0x00 "USB_DEV_EBC_EN,Enable External Buffer Control (EBC) for selected endpoints. Device mode only."
bitfld.long 0x00 31. " OUTEP15              ,Enable EBC HW throttling for OUT EP 15 (USB receive) - dis. - en." "dis,en"
bitfld.long 0x00 15. "                INEP15              ,Enable EBC HW throttling for IN EP 15 (USB transmit) - dis. - en." "dis,en"
width 0x0B
tree.end
tree "USB_WRAPPER2"
base ad:0x488C0000
width 21.
rgroup.long 0x0++0x3
line.long 0x00 "USB_REVISION,USB_WRAPPER Revision Identifier"
hexmask.long 0x00 0.--31. 1. " REVISION             ,USB_WRAPPER Revision"
group.long 0x10++0x3
line.long 0x00 "USB_SYSCONFIG,Controls various parameters of the master and slave interfaces."
bitfld.long 0x00 17. " WRAPRESET            ,Software reset for the USB_WRAPPER register set. Self-clearing. Does not affect the core register set. - noop. - dorst. - active. - done." "noop,dorst"
bitfld.long 0x00 16. "              DMADISABLE          ,Disable/Enable control of the DMA master (initiator) to block read/write accesses. Bit is auto-cleared (to 0) by HW in case of outgoing access, but must be set (to 1) manually. - Enable. - Disable. - Disabled. - Enabled." "Enable,Disable"
bitfld.long 0x00 4.--5. "   STANDBYMODE          ,PM mode of local initiator (master). Initiator may generate read/write transaction as long as it is out of STANDBY state. - force. - no. - smart_wakeup. - smart." "force,no,smart,smart_wakeup"
textline "                              "
bitfld.long 0x00 2.--3. " IDLEMODE             ,PM mode of local target (slave). Target shall be capable of handling read/write transaction as long as it is out of IDLE state. - force. - no. - smart_wakeup. - smart." "force,no,smart,smart_wakeup"
group.long 0x20++0x3
line.long 0x00 "USB_IRQ_EOI,Software End-Of-Interrupt: Allows the generation of further pulses on the interrupt line, if an new interrupt event is pending, when using the pulsed output. Unused when using the level interrupt line (depending on module integration)."
bitfld.long 0x00 0.--4. " LINE_NUMBER          ,Write the IRQ line number to apply SW EOI to it." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x24++0x3
line.long 0x00 "USB_IRQSTATUS_RAW_0,Raw status of main core interrupt request. Set even if event is not enabled. Write 1 to set, used mostly for debug (regular status also gets set if enabled)."
bitfld.long 0x00 0. " COREIRQ_ST           ,IRQ status for core: see status registerUSB_IMAN[0] IP - . - . - . - ." "No_action,IRQ_event_pending"
group.long 0x28++0x3
line.long 0x00 "USB_IRQSTATUS_0,'regular' status of main core interrupt request. Set only when enabled, self-cleared unless it was set by writing to, for debug. Write 1 to clear (raw status also gets cleared)."
eventfld.long 0x00 0. " COREIRQ_ST           ,IRQ status for core: see status registerUSB_IMAN[0] IP - noaction. - clear. - pending. - none." "noaction,clear"
group.long 0x2C++0x3
line.long 0x00 "USB_IRQENABLE_SET_0,Enable of main core interrupt request. Write 1 to set (i.e. to enable interrupt). Readout is the same as corresponding _CLR register."
bitfld.long 0x00 0. " COREIRQ_EN           ,IRQ enable for main core interrupt - noaction. - set. - enabled. - disabled." "noaction,set"
group.long 0x30++0x3
line.long 0x00 "USB_IRQENABLE_CLR_0,Enable of main core interrupt request. Write 1 to clear (i.e. to disable interrupt). Readout is the same as corresponding _SET register."
eventfld.long 0x00 0. " COREIRQ_EN           ,IRQ enable for main core interrupt - noaction. - clear. - enabled. - disabled." "noaction,clear"
group.long 0x34++0x3
line.long 0x00 "USB_IRQSTATUS_RAW_1,Raw status of secondary interrupt requests. Set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug (regular status also gets set)."
bitfld.long 0x00 17. " DMADISABLECLR        ,DMA-disable self-clear IRQ status:USB_SYSCONFIG[17] DMADISABLE hardware-cleared (to 0) because of DMA access. Not triggered by a software clear. - noaction. - set. - pending. - none." "noaction,set"
bitfld.long 0x00 16. "           OEVT                ,OTG event in core, IRQ status: see status registerUSB_OEVT - noaction. - set. - pending. - none." "noaction,set"
bitfld.long 0x00 13. "  DRVVBUS_RISE         ,Drive VBUS control rise IRQ status - noaction. - set. - pending. - none." "noaction,set"
textline "                              "
bitfld.long 0x00 12. " CHRGVBUS_RISE        ,Charge VBUS control rise IRQ status - noaction. - set. - pending. - none." "noaction,set"
bitfld.long 0x00 11. "           DISCHRGVBUS_RISE    ,Discharge VBUS control rise IRQ status - noaction. - set. - pending. - none." "noaction,set"
bitfld.long 0x00 8. "  IDPULLUP_RISE        ,ID pullup control rise IRQ status - noaction. - set. - pending. - none." "noaction,set"
textline "                              "
bitfld.long 0x00 5. " DRVVBUS_FALL         ,Drive VBUS control fall IRQ status - noaction. - set. - pending. - none." "noaction,set"
bitfld.long 0x00 4. "           CHRGVBUS_FALL       ,Charge VBUS control fall IRQ status - noaction. - set. - pending. - none." "noaction,set"
bitfld.long 0x00 3. "  DISCHRGVBUS_FALL     ,Discharge VBUS control fall IRQ status - noaction. - set. - pending. - none." "noaction,set"
textline "                              "
bitfld.long 0x00 0. " IDPULLUP_FALL        ,ID pullup control fall IRQ status - noaction. - set. - pending. - none." "noaction,set"
group.long 0x38++0x3
line.long 0x00 "USB_IRQSTATUS_1,Regular status of secondary interrupt requests. Set only when enabled. Write 1 to clear after interrupt is serviced (raw status also gets cleared)."
eventfld.long 0x00 17. " DMADISABLECLR        ,DMA-disable self-clear IRQ status:USB_SYSCONFIG[17] DMADISABLE hardware-cleared (to 0) because of DMA access. Not triggered by a software clear. - noaction. - clear. - pending. - none." "noaction,clear"
eventfld.long 0x00 16. "           OEVT                ,OTG event in core, IRQ status: see status registerUSB_OEVT. - noaction. - clear. - pending. - none." "noaction,clear"
eventfld.long 0x00 13. "  DRVVBUS_RISE         ,Drive VBUS control rise IRQ status - noaction. - clear. - pending. - none." "noaction,clear"
textline "                              "
eventfld.long 0x00 12. " CHRGVBUS_RISE        ,Charge VBUS control rise IRQ status - noaction. - clear. - pending. - none." "noaction,clear"
eventfld.long 0x00 11. "           DISCHRGVBUS_RISE    ,Discharge VBUS control rise IRQ status - noaction. - clear. - pending. - none." "noaction,clear"
eventfld.long 0x00 8. "  IDPULLUP_RISE        ,ID pullup control rise IRQ status - noaction. - clear. - pending. - none." "noaction,clear"
textline "                              "
eventfld.long 0x00 5. " DRVVBUS_FALL         ,Drive VBUS control fall IRQ status - noaction. - clear. - pending. - none." "noaction,clear"
eventfld.long 0x00 4. "           CHRGVBUS_FALL       ,Charge VBUS control fall IRQ status - noaction. - clear. - pending. - none." "noaction,clear"
eventfld.long 0x00 3. "  DISCHRGVBUS_FALL     ,Discharge VBUS control fall IRQ status - noaction. - clear. - pending. - none." "noaction,clear"
textline "                              "
eventfld.long 0x00 0. " IDPULLUP_FALL        ,ID pullup control fall IRQ status - noaction. - clear. - pending. - none." "noaction,clear"
group.long 0x3C++0x3
line.long 0x00 "USB_IRQENABLE_SET_1,Enable secondary interrupt requests. Write 1 to set (that is, to enable interrupt). Readout is the same as corresponding _CLR register."
bitfld.long 0x00 17. " DMADISABLECLR_EN     ,DMA-disable self-clear, IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
bitfld.long 0x00 16. "           OEVT_EN             ,OTG event in core, IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
bitfld.long 0x00 13. "  DRVVBUS_RISE_EN      ,Drive VBUS control rise IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
textline "                              "
bitfld.long 0x00 12. " CHRGVBUS_RISE_EN     ,Charge VBUS control rise IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
bitfld.long 0x00 11. "           DISCHRGVBUS_RISE_EN ,Discharge VBUS control rise IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
bitfld.long 0x00 8. "  IDPULLUP_RISE_EN     ,ID pullup control rise IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
textline "                              "
bitfld.long 0x00 5. " DRVVBUS_FALL_EN      ,Drive VBUS control fall IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
bitfld.long 0x00 4. "           CHRGVBUS_FALL_EN    ,Charge VBUS control fall IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
bitfld.long 0x00 3. "  DISCHRGVBUS_FALL_EN  ,Discharge VBUS control fall IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
textline "                              "
bitfld.long 0x00 0. " IDPULLUP_FALL_EN     ,ID pullup control fall IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
group.long 0x40++0x3
line.long 0x00 "USB_IRQENABLE_CLR_1,Enable secondary interrupt requests. Write 1 to clear (that is, to disable interrupt). Readout is the same as corresponding _SET register."
eventfld.long 0x00 17. " DMADISABLECLR_EN     ,DMA-disable self-clear, IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
eventfld.long 0x00 16. "           OEVT_EN             ,OTG event in core, IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
eventfld.long 0x00 13. "  DRVVBUS_RISE_EN      ,Drive VBUS control rise IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
textline "                              "
eventfld.long 0x00 12. " CHRGVBUS_RISE_EN     ,Charge VBUS control rise IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
eventfld.long 0x00 11. "           DISCHRGVBUS_RISE_EN ,Discharge VBUS control rise IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
eventfld.long 0x00 8. "  IDPULLUP_RISE_EN     ,ID pullup control rise IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
textline "                              "
eventfld.long 0x00 5. " DRVVBUS_FALL_EN      ,Drive VBUS control fall IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
eventfld.long 0x00 4. "           CHRGVBUS_FALL_EN    ,Charge VBUS control fall IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
eventfld.long 0x00 3. "  DISCHRGVBUS_FALL_EN  ,Discharge VBUS control fall IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
textline "                              "
eventfld.long 0x00 0. " IDPULLUP_FALL_EN     ,ID pullup control fall IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
rgroup.long 0x80++0x3
line.long 0x00 "USB_UTMI_OTG_CTRL,"
bitfld.long 0x00 5. " DRVVBUS              ,Drive 5V on VBUS. Plays the role of 'hub_vbus_ctrl' in non-OTG host mode. - drive. - noaction." "noaction,drive"
bitfld.long 0x00 4. "           CHRGVBUS            ,Charge VBUS through a resistor for VBUS-pulsing SRP. - charge. - noaction." "noaction,charge"
bitfld.long 0x00 3. "  DISCHRGVBUS          ,Discharge VBUS through a resistor, until the session-end VBUS state is reached. - Discharge. - NoAction." "NoAction,Discharge"
textline "                              "
bitfld.long 0x00 0. " IDPULLUP             ,Pull-up to the (OTG) ID line to allow its sampling - Enable. - Disable." "Disable,Enable"
group.long 0x84++0x3
line.long 0x00 "USB_UTMI_OTG_STATUS,"
bitfld.long 0x00 31. " SW_MODE              ,Controls the source of UTMI / PIPE status for VBUS and OTG ID (vbusvalid, sessvalid, sessend, iddig, powerpresent) - io. - sw." "io,sw"
bitfld.long 0x00 10. "                 PORT_OVERCURRENT    ,Over-current status, for non-OTG host only. - none. - oc." "none,oc"
bitfld.long 0x00 9. "      POWERPRESENT         ,Software-programmed value of PIPE3.0 PowerPresent (VBUS status) seen by the core, alternative to HW input." "0,1"
textline "                              "
bitfld.long 0x00 8. " TXBITSTUFFENABLE     ,Software-programmed UTMI output txbitstuffenable[h] Note: as per UTMI+, used only in UTMI Opmode 0b11 (i.e. SYNC and EOP generation disabled) - nobs. - bs." "nobs,bs"
bitfld.long 0x00 4. "               IDDIG               ,Software-programmed value of UTMI+ IdDig (OTG ID status) seen by the core, alternative to hardware input. Don't care until IdPullup = 1 for at least 50 ms - IdA. - IdB." "IdA,IdB"
bitfld.long 0x00 3. "       SESSEND              ,Software-programmed value of UTMI+ SessEnd (VBUS status) seen by the core, alternative to HW input. - notended. - ended." "notended,ended"
textline "                              "
bitfld.long 0x00 2. " SESSVALID            ,Software-programmed value of UTMI+ SessValid (VBUS status) seen by the core, alternative to hardware inputs AValid and BValid. - notvalid. - valid." "notvalid,valid"
bitfld.long 0x00 1. "           VBUSVALID           ,Software-programmed value of UTMI+ VbusValid (VBUS status) seen by the core, alternative to hardware input. - notvalid. - valid." "notvalid,valid"
group.long 0x100++0x3
line.long 0x00 "USB_MMRAM_OFFSET,Offset of Memory-mapped RAM accesses. Page is remapped from 0x8000 to 0xFFFF (32 KiB)"
bitfld.long 0x00 15.--19. " OFFSET_MSB           ,Byte offset MSBits = page offset - core_bot. - core_top. - RAM2_base. - RAM1_base. - RAM0_base." "core_bot,core_top,2,3,4,5,6,7,RAM0_base,9,10,11,12,13,14,15,RAM1_base,17,18,19,20,21,22,23,RAM2_base,25,26,27,28,29,30,31"
hexmask.long.word 0x00 0.--14. 1. "          OFFSET_LSB          ,Byte offset LSBits, always 0"
group.long 0x104++0x3
line.long 0x00 "USB_FLADJ,Jitter adjustment and other pseudo-static parameters"
bitfld.long 0x00 31. " CORE_SW_RESET        ,Active-high core software reset. Static, i.e. not self-clearing. After clearing, wait for reset completion by polling USB_USBSTS[11] CNR bit. - noreset. - reset." "noreset,reset"
bitfld.long 0x00 29. "            XHCI_REVISION       ,Switches to the legacy xHCI 0.96 host SW API mode. Changes shall take place under core software reset: [31] CORE_SW_RESET = 1. - 0_96. - 1_0." "0_96,1_0"
bitfld.long 0x00 28. "      HOST_U3_PORT_DISABLE ,USB3.0 port disable, overriding xHCI driver. - en. - dis." "en,dis"
textline "                              "
bitfld.long 0x00 27. " HOST_U2_PORT_DISABLE ,USB2.0 port disable, overriding xHCI driver. - en. - dis." "en,dis"
bitfld.long 0x00 21.--26. "                FLADJ_30MHZ         ,HS Jitter Adjustment, in 30-MHz periods" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x108++0x3
line.long 0x00 "USB_DEBUG_CFG,Configuration of debug output (observability)"
bitfld.long 0x00 0.--2. " SEL                  ,selection of observed local signals - UTMI. - tielo. - PIPE. - Trace_lo. - Trace_hi. - Core." "tielo,UTMI,PIPE,Core,Trace_lo,Trace_hi,6,7"
rgroup.long 0x10C++0x3
line.long 0x00 "USB_DEBUG_DATA,Data currently visible on DEBUG output (observability) port See [2:0] SEL bit field."
bitfld.long 0x00 31. " DEBUG31              ,SEL = 1: utmi_sessend SEL = 2: pipe_rxstatus[2] SEL = 3: core_sm2bl_cur_mode" "0,1"
bitfld.long 0x00 30. "                  DEBUG30             ,SEL = 1: utmi_vbusvalid SEL = 2: pipe_rxstatus[1] SEL = 3: core_suspend_n" "0,1"
bitfld.long 0x00 29. "         DEBUG29              ,SEL = 1: utmi_bvalid SEL = 2: pipe_rxstatus[0] SEL = 3: core_suspend_com_n" "0,1"
textline "                              "
bitfld.long 0x00 28. " DEBUG28              ,SEL = 1: utmi_avalid SEL = 2: pipe_elecidle SEL = 3: core_u2_dssr_state[3]" "0,1"
bitfld.long 0x00 27. "                  DEBUG27             ,SEL = 1: utmi_iddig SEL = 2: pipe_phystatus SEL = 3: core_u2_dssr_state[2]" "0,1"
bitfld.long 0x00 26. "         DEBUG26              ,SEL = 1: utmi_hostdisconnect SEL = 2: pipe_rxvalid SEL = 3: core_u2_dssr_state[1]" "0,1"
textline "                              "
bitfld.long 0x00 25. " DEBUG25              ,SEL = 1: utmi_txbitstuffenableh SEL = 2: pipe_rxdatak[3] SEL = 3: core_u2_dssr_state[0]" "0,1"
bitfld.long 0x00 24. "                  DEBUG24             ,SEL = 1: utmi_txbitstuffenable SEL = 2: pipe_rxdatak[2] SEL = 3: core_u2mac_txrx_state_1[4]" "0,1"
bitfld.long 0x00 23. "         DEBUG23              ,SEL = 1: utmi_dischrgvbus SEL = 2: pipe_rxdatak[1] SEL = 3: core_u2mac_txrx_state_1[3]" "0,1"
textline "                              "
bitfld.long 0x00 22. " DEBUG22              ,SEL = 1: utmi_chrgvbus SEL = 2: pipe_rxdatak[0] SEL = 3: core_u2mac_txrx_state_1[2]" "0,1"
bitfld.long 0x00 21. "                  DEBUG21             ,SEL = 1: utmi_drvvbus SEL = 2: pipe_rxpclk SEL = 3: core_u2mac_txrx_state_1[1]" "0,1"
bitfld.long 0x00 20. "         DEBUG20              ,SEL = 1: utmi_dmpulldown SEL = 2: pipe_rxtermination SEL = 3: core_u2mac_txrx_state_1[0]" "0,1"
textline "                              "
bitfld.long 0x00 19. " DEBUG19              ,SEL = 1: utmi_dppulldown SEL = 2: pipe_txswing SEL = 3: core_u2mac_txrx_state_0[4]" "0,1"
bitfld.long 0x00 18. "                  DEBUG18             ,SEL = 1: utmi_idpullup SEL = 2: pipe_txmargin[2] SEL = 3: core_u2mac_txrx_state_0[3]" "0,1"
bitfld.long 0x00 17. "         DEBUG17              ,SEL = 1: utmi_linestate[1] SEL = 2: pipe_txmargin[1] SEL = 3: core_u2mac_txrx_state_0[2]" "0,1"
textline "                              "
bitfld.long 0x00 16. " DEBUG16              ,SEL = 1: utmi_linestate[0] SEL = 2: pipe_txmargin[0] SEL = 3: core_u2mac_txrx_state_0[1]" "0,1"
bitfld.long 0x00 15. "                  DEBUG15             ,SEL = 1: utmi_opmode[1] SEL = 2: pipe_txdeemph[1] SEL = 3: core_u2mac_txrx_state_0[0]" "0,1"
bitfld.long 0x00 14. "         DEBUG14              ,SEL = 1: utmi_opmode[0] SEL = 2: pipe_txdeemph[0] SEL = 3: core_u2_prt_state[4]" "0,1"
textline "                              "
bitfld.long 0x00 13. " DEBUG13              ,SEL = 1: utmi_termSELect SEL = 2: pipe_powerdown[1] SEL = 3: core_u2_prt_state[3]" "0,1"
bitfld.long 0x00 12. "                  DEBUG12             ,SEL = 1: utmi_xcvrselect[1] SEL = 2: pipe_powerdown[0] SEL = 3: core_u2_prt_state[2]" "0,1"
bitfld.long 0x00 11. "         DEBUG11              ,SEL = 1: utmi_xcvrselect[0] SEL = 2: pipe_reset_n SEL = 3: core_u2_prt_state[1]" "0,1"
textline "                              "
bitfld.long 0x00 10. " DEBUG10              ,SEL = 1: utmi_suspendm SEL = 2: pipe_rxeqtraining SEL = 3: core_u2_prt_state[0]" "0,1"
bitfld.long 0x00 9. "                  DEBUG9              ,SEL = 1: utmi_reset SEL = 2: pipe_rxpolarity SEL = 3: core_gsts_buserraddvld" "0,1"
bitfld.long 0x00 8. "         DEBUG8               ,SEL = 1: utmi_rxerror SEL = 2: pipe_txoneszeros SEL = 3: debug_mclk_usof_number[0]" "0,1"
textline "                              "
bitfld.long 0x00 7. " DEBUG7               ,SEL = 1: utmi_rxvalidh SEL = 2: pipe_txelecidle SEL = 3: core_ltdb_link_state[3]" "0,1"
bitfld.long 0x00 6. "                  DEBUG6              ,SEL = 1: utmi_rxvalid SEL = 2: pipe_txdetectrxloopback SEL = 3: core_ltdb_link_state[2]" "0,1"
bitfld.long 0x00 5. "         DEBUG5               ,SEL = 1: utmi_rxactive SEL = 2: pipe_elasticitybuffermode SEL = 3: core_ltdb_link_state[1]" "0,1"
textline "                              "
bitfld.long 0x00 4. " DEBUG4               ,SEL = 1: utmi_txready SEL = 2: pipe_txdatak[3] SEL = 3: core_ltdb_link_state[0]" "0,1"
bitfld.long 0x00 3. "                  DEBUG3              ,SEL = 1: utmi_txvalidh SEL = 2: pipe_txdatak[2] SEL = 3: core_ltdb_substate[3]" "0,1"
bitfld.long 0x00 2. "         DEBUG2               ,SEL = 1: utmi_txvalid SEL = 2: pipe_txdatak[1] SEL = 3: core_ltdb_substate[2]" "0,1"
textline "                              "
bitfld.long 0x00 1. " DEBUG1               ,SEL = 1: utmi_databus16_8 SEL = 2: pipe_txdatak[0] SEL = 3: core_ltdb_substate[1]" "0,1"
bitfld.long 0x00 0. "                  DEBUG0              ,SEL = 1: utmi_clk SEL = 2: pipe_txpclk SEL = 3: core_ltdb_substate[0]" "0,1"
group.long 0x110++0x3
line.long 0x00 "USB_DEV_EBC_EN,Enable External Buffer Control (EBC) for selected endpoints. Device mode only."
bitfld.long 0x00 31. " OUTEP15              ,Enable EBC HW throttling for OUT EP 15 (USB receive) - dis. - en." "dis,en"
bitfld.long 0x00 15. "                INEP15              ,Enable EBC HW throttling for IN EP 15 (USB transmit) - dis. - en." "dis,en"
width 0x0B
tree.end
tree "USB_WRAPPER3"
base ad:0x48900000
width 21.
rgroup.long 0x0++0x3
line.long 0x00 "USB_REVISION,USB_WRAPPER Revision Identifier"
hexmask.long 0x00 0.--31. 1. " REVISION             ,USB_WRAPPER Revision"
group.long 0x10++0x3
line.long 0x00 "USB_SYSCONFIG,Controls various parameters of the master and slave interfaces."
bitfld.long 0x00 17. " WRAPRESET            ,Software reset for the USB_WRAPPER register set. Self-clearing. Does not affect the core register set. - noop. - dorst. - active. - done." "noop,dorst"
bitfld.long 0x00 16. "              DMADISABLE          ,Disable/Enable control of the DMA master (initiator) to block read/write accesses. Bit is auto-cleared (to 0) by HW in case of outgoing access, but must be set (to 1) manually. - Enable. - Disable. - Disabled. - Enabled." "Enable,Disable"
bitfld.long 0x00 4.--5. "   STANDBYMODE          ,PM mode of local initiator (master). Initiator may generate read/write transaction as long as it is out of STANDBY state. - force. - no. - smart_wakeup. - smart." "force,no,smart,smart_wakeup"
textline "                              "
bitfld.long 0x00 2.--3. " IDLEMODE             ,PM mode of local target (slave). Target shall be capable of handling read/write transaction as long as it is out of IDLE state. - force. - no. - smart_wakeup. - smart." "force,no,smart,smart_wakeup"
group.long 0x20++0x3
line.long 0x00 "USB_IRQ_EOI,Software End-Of-Interrupt: Allows the generation of further pulses on the interrupt line, if an new interrupt event is pending, when using the pulsed output. Unused when using the level interrupt line (depending on module integration)."
bitfld.long 0x00 0.--4. " LINE_NUMBER          ,Write the IRQ line number to apply SW EOI to it." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x24++0x3
line.long 0x00 "USB_IRQSTATUS_RAW_0,Raw status of main core interrupt request. Set even if event is not enabled. Write 1 to set, used mostly for debug (regular status also gets set if enabled)."
bitfld.long 0x00 0. " COREIRQ_ST           ,IRQ status for core: see status registerUSB_IMAN[0] IP - . - . - . - ." "No_action,IRQ_event_pending"
group.long 0x28++0x3
line.long 0x00 "USB_IRQSTATUS_0,'regular' status of main core interrupt request. Set only when enabled, self-cleared unless it was set by writing to, for debug. Write 1 to clear (raw status also gets cleared)."
eventfld.long 0x00 0. " COREIRQ_ST           ,IRQ status for core: see status registerUSB_IMAN[0] IP - noaction. - clear. - pending. - none." "noaction,clear"
group.long 0x2C++0x3
line.long 0x00 "USB_IRQENABLE_SET_0,Enable of main core interrupt request. Write 1 to set (i.e. to enable interrupt). Readout is the same as corresponding _CLR register."
bitfld.long 0x00 0. " COREIRQ_EN           ,IRQ enable for main core interrupt - noaction. - set. - enabled. - disabled." "noaction,set"
group.long 0x30++0x3
line.long 0x00 "USB_IRQENABLE_CLR_0,Enable of main core interrupt request. Write 1 to clear (i.e. to disable interrupt). Readout is the same as corresponding _SET register."
eventfld.long 0x00 0. " COREIRQ_EN           ,IRQ enable for main core interrupt - noaction. - clear. - enabled. - disabled." "noaction,clear"
group.long 0x34++0x3
line.long 0x00 "USB_IRQSTATUS_RAW_1,Raw status of secondary interrupt requests. Set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug (regular status also gets set)."
bitfld.long 0x00 17. " DMADISABLECLR        ,DMA-disable self-clear IRQ status:USB_SYSCONFIG[17] DMADISABLE hardware-cleared (to 0) because of DMA access. Not triggered by a software clear. - noaction. - set. - pending. - none." "noaction,set"
bitfld.long 0x00 16. "           OEVT                ,OTG event in core, IRQ status: see status registerUSB_OEVT - noaction. - set. - pending. - none." "noaction,set"
bitfld.long 0x00 13. "  DRVVBUS_RISE         ,Drive VBUS control rise IRQ status - noaction. - set. - pending. - none." "noaction,set"
textline "                              "
bitfld.long 0x00 12. " CHRGVBUS_RISE        ,Charge VBUS control rise IRQ status - noaction. - set. - pending. - none." "noaction,set"
bitfld.long 0x00 11. "           DISCHRGVBUS_RISE    ,Discharge VBUS control rise IRQ status - noaction. - set. - pending. - none." "noaction,set"
bitfld.long 0x00 8. "  IDPULLUP_RISE        ,ID pullup control rise IRQ status - noaction. - set. - pending. - none." "noaction,set"
textline "                              "
bitfld.long 0x00 5. " DRVVBUS_FALL         ,Drive VBUS control fall IRQ status - noaction. - set. - pending. - none." "noaction,set"
bitfld.long 0x00 4. "           CHRGVBUS_FALL       ,Charge VBUS control fall IRQ status - noaction. - set. - pending. - none." "noaction,set"
bitfld.long 0x00 3. "  DISCHRGVBUS_FALL     ,Discharge VBUS control fall IRQ status - noaction. - set. - pending. - none." "noaction,set"
textline "                              "
bitfld.long 0x00 0. " IDPULLUP_FALL        ,ID pullup control fall IRQ status - noaction. - set. - pending. - none." "noaction,set"
group.long 0x38++0x3
line.long 0x00 "USB_IRQSTATUS_1,Regular status of secondary interrupt requests. Set only when enabled. Write 1 to clear after interrupt is serviced (raw status also gets cleared)."
eventfld.long 0x00 17. " DMADISABLECLR        ,DMA-disable self-clear IRQ status:USB_SYSCONFIG[17] DMADISABLE hardware-cleared (to 0) because of DMA access. Not triggered by a software clear. - noaction. - clear. - pending. - none." "noaction,clear"
eventfld.long 0x00 16. "           OEVT                ,OTG event in core, IRQ status: see status registerUSB_OEVT. - noaction. - clear. - pending. - none." "noaction,clear"
eventfld.long 0x00 13. "  DRVVBUS_RISE         ,Drive VBUS control rise IRQ status - noaction. - clear. - pending. - none." "noaction,clear"
textline "                              "
eventfld.long 0x00 12. " CHRGVBUS_RISE        ,Charge VBUS control rise IRQ status - noaction. - clear. - pending. - none." "noaction,clear"
eventfld.long 0x00 11. "           DISCHRGVBUS_RISE    ,Discharge VBUS control rise IRQ status - noaction. - clear. - pending. - none." "noaction,clear"
eventfld.long 0x00 8. "  IDPULLUP_RISE        ,ID pullup control rise IRQ status - noaction. - clear. - pending. - none." "noaction,clear"
textline "                              "
eventfld.long 0x00 5. " DRVVBUS_FALL         ,Drive VBUS control fall IRQ status - noaction. - clear. - pending. - none." "noaction,clear"
eventfld.long 0x00 4. "           CHRGVBUS_FALL       ,Charge VBUS control fall IRQ status - noaction. - clear. - pending. - none." "noaction,clear"
eventfld.long 0x00 3. "  DISCHRGVBUS_FALL     ,Discharge VBUS control fall IRQ status - noaction. - clear. - pending. - none." "noaction,clear"
textline "                              "
eventfld.long 0x00 0. " IDPULLUP_FALL        ,ID pullup control fall IRQ status - noaction. - clear. - pending. - none." "noaction,clear"
group.long 0x3C++0x3
line.long 0x00 "USB_IRQENABLE_SET_1,Enable secondary interrupt requests. Write 1 to set (that is, to enable interrupt). Readout is the same as corresponding _CLR register."
bitfld.long 0x00 17. " DMADISABLECLR_EN     ,DMA-disable self-clear, IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
bitfld.long 0x00 16. "           OEVT_EN             ,OTG event in core, IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
bitfld.long 0x00 13. "  DRVVBUS_RISE_EN      ,Drive VBUS control rise IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
textline "                              "
bitfld.long 0x00 12. " CHRGVBUS_RISE_EN     ,Charge VBUS control rise IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
bitfld.long 0x00 11. "           DISCHRGVBUS_RISE_EN ,Discharge VBUS control rise IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
bitfld.long 0x00 8. "  IDPULLUP_RISE_EN     ,ID pullup control rise IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
textline "                              "
bitfld.long 0x00 5. " DRVVBUS_FALL_EN      ,Drive VBUS control fall IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
bitfld.long 0x00 4. "           CHRGVBUS_FALL_EN    ,Charge VBUS control fall IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
bitfld.long 0x00 3. "  DISCHRGVBUS_FALL_EN  ,Discharge VBUS control fall IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
textline "                              "
bitfld.long 0x00 0. " IDPULLUP_FALL_EN     ,ID pullup control fall IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
group.long 0x40++0x3
line.long 0x00 "USB_IRQENABLE_CLR_1,Enable secondary interrupt requests. Write 1 to clear (that is, to disable interrupt). Readout is the same as corresponding _SET register."
eventfld.long 0x00 17. " DMADISABLECLR_EN     ,DMA-disable self-clear, IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
eventfld.long 0x00 16. "           OEVT_EN             ,OTG event in core, IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
eventfld.long 0x00 13. "  DRVVBUS_RISE_EN      ,Drive VBUS control rise IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
textline "                              "
eventfld.long 0x00 12. " CHRGVBUS_RISE_EN     ,Charge VBUS control rise IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
eventfld.long 0x00 11. "           DISCHRGVBUS_RISE_EN ,Discharge VBUS control rise IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
eventfld.long 0x00 8. "  IDPULLUP_RISE_EN     ,ID pullup control rise IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
textline "                              "
eventfld.long 0x00 5. " DRVVBUS_FALL_EN      ,Drive VBUS control fall IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
eventfld.long 0x00 4. "           CHRGVBUS_FALL_EN    ,Charge VBUS control fall IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
eventfld.long 0x00 3. "  DISCHRGVBUS_FALL_EN  ,Discharge VBUS control fall IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
textline "                              "
eventfld.long 0x00 0. " IDPULLUP_FALL_EN     ,ID pullup control fall IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
rgroup.long 0x80++0x3
line.long 0x00 "USB_UTMI_OTG_CTRL,"
bitfld.long 0x00 5. " DRVVBUS              ,Drive 5V on VBUS. Plays the role of 'hub_vbus_ctrl' in non-OTG host mode. - drive. - noaction." "noaction,drive"
bitfld.long 0x00 4. "           CHRGVBUS            ,Charge VBUS through a resistor for VBUS-pulsing SRP. - charge. - noaction." "noaction,charge"
bitfld.long 0x00 3. "  DISCHRGVBUS          ,Discharge VBUS through a resistor, until the session-end VBUS state is reached. - Discharge. - NoAction." "NoAction,Discharge"
textline "                              "
bitfld.long 0x00 0. " IDPULLUP             ,Pull-up to the (OTG) ID line to allow its sampling - Enable. - Disable." "Disable,Enable"
group.long 0x84++0x3
line.long 0x00 "USB_UTMI_OTG_STATUS,"
bitfld.long 0x00 31. " SW_MODE              ,Controls the source of UTMI / PIPE status for VBUS and OTG ID (vbusvalid, sessvalid, sessend, iddig, powerpresent) - io. - sw." "io,sw"
bitfld.long 0x00 10. "                 PORT_OVERCURRENT    ,Over-current status, for non-OTG host only. - none. - oc." "none,oc"
bitfld.long 0x00 9. "      POWERPRESENT         ,Software-programmed value of PIPE3.0 PowerPresent (VBUS status) seen by the core, alternative to HW input." "0,1"
textline "                              "
bitfld.long 0x00 8. " TXBITSTUFFENABLE     ,Software-programmed UTMI output txbitstuffenable[h] Note: as per UTMI+, used only in UTMI Opmode 0b11 (i.e. SYNC and EOP generation disabled) - nobs. - bs." "nobs,bs"
bitfld.long 0x00 4. "               IDDIG               ,Software-programmed value of UTMI+ IdDig (OTG ID status) seen by the core, alternative to hardware input. Don't care until IdPullup = 1 for at least 50 ms - IdA. - IdB." "IdA,IdB"
bitfld.long 0x00 3. "       SESSEND              ,Software-programmed value of UTMI+ SessEnd (VBUS status) seen by the core, alternative to HW input. - notended. - ended." "notended,ended"
textline "                              "
bitfld.long 0x00 2. " SESSVALID            ,Software-programmed value of UTMI+ SessValid (VBUS status) seen by the core, alternative to hardware inputs AValid and BValid. - notvalid. - valid." "notvalid,valid"
bitfld.long 0x00 1. "           VBUSVALID           ,Software-programmed value of UTMI+ VbusValid (VBUS status) seen by the core, alternative to hardware input. - notvalid. - valid." "notvalid,valid"
group.long 0x100++0x3
line.long 0x00 "USB_MMRAM_OFFSET,Offset of Memory-mapped RAM accesses. Page is remapped from 0x8000 to 0xFFFF (32 KiB)"
bitfld.long 0x00 15.--19. " OFFSET_MSB           ,Byte offset MSBits = page offset - core_bot. - core_top. - RAM2_base. - RAM1_base. - RAM0_base." "core_bot,core_top,2,3,4,5,6,7,RAM0_base,9,10,11,12,13,14,15,RAM1_base,17,18,19,20,21,22,23,RAM2_base,25,26,27,28,29,30,31"
hexmask.long.word 0x00 0.--14. 1. "          OFFSET_LSB          ,Byte offset LSBits, always 0"
group.long 0x104++0x3
line.long 0x00 "USB_FLADJ,Jitter adjustment and other pseudo-static parameters"
bitfld.long 0x00 31. " CORE_SW_RESET        ,Active-high core software reset. Static, i.e. not self-clearing. After clearing, wait for reset completion by polling USB_USBSTS[11] CNR bit. - noreset. - reset." "noreset,reset"
bitfld.long 0x00 29. "            XHCI_REVISION       ,Switches to the legacy xHCI 0.96 host SW API mode. Changes shall take place under core software reset: [31] CORE_SW_RESET = 1. - 0_96. - 1_0." "0_96,1_0"
bitfld.long 0x00 28. "      HOST_U3_PORT_DISABLE ,USB3.0 port disable, overriding xHCI driver. - en. - dis." "en,dis"
textline "                              "
bitfld.long 0x00 27. " HOST_U2_PORT_DISABLE ,USB2.0 port disable, overriding xHCI driver. - en. - dis." "en,dis"
bitfld.long 0x00 21.--26. "                FLADJ_30MHZ         ,HS Jitter Adjustment, in 30-MHz periods" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x108++0x3
line.long 0x00 "USB_DEBUG_CFG,Configuration of debug output (observability)"
bitfld.long 0x00 0.--2. " SEL                  ,selection of observed local signals - UTMI. - tielo. - PIPE. - Trace_lo. - Trace_hi. - Core." "tielo,UTMI,PIPE,Core,Trace_lo,Trace_hi,6,7"
rgroup.long 0x10C++0x3
line.long 0x00 "USB_DEBUG_DATA,Data currently visible on DEBUG output (observability) port See [2:0] SEL bit field."
bitfld.long 0x00 31. " DEBUG31              ,SEL = 1: utmi_sessend SEL = 2: pipe_rxstatus[2] SEL = 3: core_sm2bl_cur_mode" "0,1"
bitfld.long 0x00 30. "                  DEBUG30             ,SEL = 1: utmi_vbusvalid SEL = 2: pipe_rxstatus[1] SEL = 3: core_suspend_n" "0,1"
bitfld.long 0x00 29. "         DEBUG29              ,SEL = 1: utmi_bvalid SEL = 2: pipe_rxstatus[0] SEL = 3: core_suspend_com_n" "0,1"
textline "                              "
bitfld.long 0x00 28. " DEBUG28              ,SEL = 1: utmi_avalid SEL = 2: pipe_elecidle SEL = 3: core_u2_dssr_state[3]" "0,1"
bitfld.long 0x00 27. "                  DEBUG27             ,SEL = 1: utmi_iddig SEL = 2: pipe_phystatus SEL = 3: core_u2_dssr_state[2]" "0,1"
bitfld.long 0x00 26. "         DEBUG26              ,SEL = 1: utmi_hostdisconnect SEL = 2: pipe_rxvalid SEL = 3: core_u2_dssr_state[1]" "0,1"
textline "                              "
bitfld.long 0x00 25. " DEBUG25              ,SEL = 1: utmi_txbitstuffenableh SEL = 2: pipe_rxdatak[3] SEL = 3: core_u2_dssr_state[0]" "0,1"
bitfld.long 0x00 24. "                  DEBUG24             ,SEL = 1: utmi_txbitstuffenable SEL = 2: pipe_rxdatak[2] SEL = 3: core_u2mac_txrx_state_1[4]" "0,1"
bitfld.long 0x00 23. "         DEBUG23              ,SEL = 1: utmi_dischrgvbus SEL = 2: pipe_rxdatak[1] SEL = 3: core_u2mac_txrx_state_1[3]" "0,1"
textline "                              "
bitfld.long 0x00 22. " DEBUG22              ,SEL = 1: utmi_chrgvbus SEL = 2: pipe_rxdatak[0] SEL = 3: core_u2mac_txrx_state_1[2]" "0,1"
bitfld.long 0x00 21. "                  DEBUG21             ,SEL = 1: utmi_drvvbus SEL = 2: pipe_rxpclk SEL = 3: core_u2mac_txrx_state_1[1]" "0,1"
bitfld.long 0x00 20. "         DEBUG20              ,SEL = 1: utmi_dmpulldown SEL = 2: pipe_rxtermination SEL = 3: core_u2mac_txrx_state_1[0]" "0,1"
textline "                              "
bitfld.long 0x00 19. " DEBUG19              ,SEL = 1: utmi_dppulldown SEL = 2: pipe_txswing SEL = 3: core_u2mac_txrx_state_0[4]" "0,1"
bitfld.long 0x00 18. "                  DEBUG18             ,SEL = 1: utmi_idpullup SEL = 2: pipe_txmargin[2] SEL = 3: core_u2mac_txrx_state_0[3]" "0,1"
bitfld.long 0x00 17. "         DEBUG17              ,SEL = 1: utmi_linestate[1] SEL = 2: pipe_txmargin[1] SEL = 3: core_u2mac_txrx_state_0[2]" "0,1"
textline "                              "
bitfld.long 0x00 16. " DEBUG16              ,SEL = 1: utmi_linestate[0] SEL = 2: pipe_txmargin[0] SEL = 3: core_u2mac_txrx_state_0[1]" "0,1"
bitfld.long 0x00 15. "                  DEBUG15             ,SEL = 1: utmi_opmode[1] SEL = 2: pipe_txdeemph[1] SEL = 3: core_u2mac_txrx_state_0[0]" "0,1"
bitfld.long 0x00 14. "         DEBUG14              ,SEL = 1: utmi_opmode[0] SEL = 2: pipe_txdeemph[0] SEL = 3: core_u2_prt_state[4]" "0,1"
textline "                              "
bitfld.long 0x00 13. " DEBUG13              ,SEL = 1: utmi_termSELect SEL = 2: pipe_powerdown[1] SEL = 3: core_u2_prt_state[3]" "0,1"
bitfld.long 0x00 12. "                  DEBUG12             ,SEL = 1: utmi_xcvrselect[1] SEL = 2: pipe_powerdown[0] SEL = 3: core_u2_prt_state[2]" "0,1"
bitfld.long 0x00 11. "         DEBUG11              ,SEL = 1: utmi_xcvrselect[0] SEL = 2: pipe_reset_n SEL = 3: core_u2_prt_state[1]" "0,1"
textline "                              "
bitfld.long 0x00 10. " DEBUG10              ,SEL = 1: utmi_suspendm SEL = 2: pipe_rxeqtraining SEL = 3: core_u2_prt_state[0]" "0,1"
bitfld.long 0x00 9. "                  DEBUG9              ,SEL = 1: utmi_reset SEL = 2: pipe_rxpolarity SEL = 3: core_gsts_buserraddvld" "0,1"
bitfld.long 0x00 8. "         DEBUG8               ,SEL = 1: utmi_rxerror SEL = 2: pipe_txoneszeros SEL = 3: debug_mclk_usof_number[0]" "0,1"
textline "                              "
bitfld.long 0x00 7. " DEBUG7               ,SEL = 1: utmi_rxvalidh SEL = 2: pipe_txelecidle SEL = 3: core_ltdb_link_state[3]" "0,1"
bitfld.long 0x00 6. "                  DEBUG6              ,SEL = 1: utmi_rxvalid SEL = 2: pipe_txdetectrxloopback SEL = 3: core_ltdb_link_state[2]" "0,1"
bitfld.long 0x00 5. "         DEBUG5               ,SEL = 1: utmi_rxactive SEL = 2: pipe_elasticitybuffermode SEL = 3: core_ltdb_link_state[1]" "0,1"
textline "                              "
bitfld.long 0x00 4. " DEBUG4               ,SEL = 1: utmi_txready SEL = 2: pipe_txdatak[3] SEL = 3: core_ltdb_link_state[0]" "0,1"
bitfld.long 0x00 3. "                  DEBUG3              ,SEL = 1: utmi_txvalidh SEL = 2: pipe_txdatak[2] SEL = 3: core_ltdb_substate[3]" "0,1"
bitfld.long 0x00 2. "         DEBUG2               ,SEL = 1: utmi_txvalid SEL = 2: pipe_txdatak[1] SEL = 3: core_ltdb_substate[2]" "0,1"
textline "                              "
bitfld.long 0x00 1. " DEBUG1               ,SEL = 1: utmi_databus16_8 SEL = 2: pipe_txdatak[0] SEL = 3: core_ltdb_substate[1]" "0,1"
bitfld.long 0x00 0. "                  DEBUG0              ,SEL = 1: utmi_clk SEL = 2: pipe_txpclk SEL = 3: core_ltdb_substate[0]" "0,1"
group.long 0x110++0x3
line.long 0x00 "USB_DEV_EBC_EN,Enable External Buffer Control (EBC) for selected endpoints. Device mode only."
bitfld.long 0x00 31. " OUTEP15              ,Enable EBC HW throttling for OUT EP 15 (USB receive) - dis. - en." "dis,en"
bitfld.long 0x00 15. "                INEP15              ,Enable EBC HW throttling for IN EP 15 (USB transmit) - dis. - en." "dis,en"
width 0x0B
tree.end
tree "USB_WRAPPER4"
base ad:0x48940000
width 21.
rgroup.long 0x0++0x3
line.long 0x00 "USB_REVISION,USB_WRAPPER Revision Identifier"
hexmask.long 0x00 0.--31. 1. " REVISION             ,USB_WRAPPER Revision"
group.long 0x10++0x3
line.long 0x00 "USB_SYSCONFIG,Controls various parameters of the master and slave interfaces."
bitfld.long 0x00 17. " WRAPRESET            ,Software reset for the USB_WRAPPER register set. Self-clearing. Does not affect the core register set. - noop. - dorst. - active. - done." "noop,dorst"
bitfld.long 0x00 16. "              DMADISABLE          ,Disable/Enable control of the DMA master (initiator) to block read/write accesses. Bit is auto-cleared (to 0) by HW in case of outgoing access, but must be set (to 1) manually. - Enable. - Disable. - Disabled. - Enabled." "Enable,Disable"
bitfld.long 0x00 4.--5. "   STANDBYMODE          ,PM mode of local initiator (master). Initiator may generate read/write transaction as long as it is out of STANDBY state. - force. - no. - smart_wakeup. - smart." "force,no,smart,smart_wakeup"
textline "                              "
bitfld.long 0x00 2.--3. " IDLEMODE             ,PM mode of local target (slave). Target shall be capable of handling read/write transaction as long as it is out of IDLE state. - force. - no. - smart_wakeup. - smart." "force,no,smart,smart_wakeup"
group.long 0x20++0x3
line.long 0x00 "USB_IRQ_EOI,Software End-Of-Interrupt: Allows the generation of further pulses on the interrupt line, if an new interrupt event is pending, when using the pulsed output. Unused when using the level interrupt line (depending on module integration)."
bitfld.long 0x00 0.--4. " LINE_NUMBER          ,Write the IRQ line number to apply SW EOI to it." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x24++0x3
line.long 0x00 "USB_IRQSTATUS_RAW_0,Raw status of main core interrupt request. Set even if event is not enabled. Write 1 to set, used mostly for debug (regular status also gets set if enabled)."
bitfld.long 0x00 0. " COREIRQ_ST           ,IRQ status for core: see status registerUSB_IMAN[0] IP - . - . - . - ." "No_action,IRQ_event_pending"
group.long 0x28++0x3
line.long 0x00 "USB_IRQSTATUS_0,'regular' status of main core interrupt request. Set only when enabled, self-cleared unless it was set by writing to, for debug. Write 1 to clear (raw status also gets cleared)."
eventfld.long 0x00 0. " COREIRQ_ST           ,IRQ status for core: see status registerUSB_IMAN[0] IP - noaction. - clear. - pending. - none." "noaction,clear"
group.long 0x2C++0x3
line.long 0x00 "USB_IRQENABLE_SET_0,Enable of main core interrupt request. Write 1 to set (i.e. to enable interrupt). Readout is the same as corresponding _CLR register."
bitfld.long 0x00 0. " COREIRQ_EN           ,IRQ enable for main core interrupt - noaction. - set. - enabled. - disabled." "noaction,set"
group.long 0x30++0x3
line.long 0x00 "USB_IRQENABLE_CLR_0,Enable of main core interrupt request. Write 1 to clear (i.e. to disable interrupt). Readout is the same as corresponding _SET register."
eventfld.long 0x00 0. " COREIRQ_EN           ,IRQ enable for main core interrupt - noaction. - clear. - enabled. - disabled." "noaction,clear"
group.long 0x34++0x3
line.long 0x00 "USB_IRQSTATUS_RAW_1,Raw status of secondary interrupt requests. Set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug (regular status also gets set)."
bitfld.long 0x00 17. " DMADISABLECLR        ,DMA-disable self-clear IRQ status:USB_SYSCONFIG[17] DMADISABLE hardware-cleared (to 0) because of DMA access. Not triggered by a software clear. - noaction. - set. - pending. - none." "noaction,set"
bitfld.long 0x00 16. "           OEVT                ,OTG event in core, IRQ status: see status registerUSB_OEVT - noaction. - set. - pending. - none." "noaction,set"
bitfld.long 0x00 13. "  DRVVBUS_RISE         ,Drive VBUS control rise IRQ status - noaction. - set. - pending. - none." "noaction,set"
textline "                              "
bitfld.long 0x00 12. " CHRGVBUS_RISE        ,Charge VBUS control rise IRQ status - noaction. - set. - pending. - none." "noaction,set"
bitfld.long 0x00 11. "           DISCHRGVBUS_RISE    ,Discharge VBUS control rise IRQ status - noaction. - set. - pending. - none." "noaction,set"
bitfld.long 0x00 8. "  IDPULLUP_RISE        ,ID pullup control rise IRQ status - noaction. - set. - pending. - none." "noaction,set"
textline "                              "
bitfld.long 0x00 5. " DRVVBUS_FALL         ,Drive VBUS control fall IRQ status - noaction. - set. - pending. - none." "noaction,set"
bitfld.long 0x00 4. "           CHRGVBUS_FALL       ,Charge VBUS control fall IRQ status - noaction. - set. - pending. - none." "noaction,set"
bitfld.long 0x00 3. "  DISCHRGVBUS_FALL     ,Discharge VBUS control fall IRQ status - noaction. - set. - pending. - none." "noaction,set"
textline "                              "
bitfld.long 0x00 0. " IDPULLUP_FALL        ,ID pullup control fall IRQ status - noaction. - set. - pending. - none." "noaction,set"
group.long 0x38++0x3
line.long 0x00 "USB_IRQSTATUS_1,Regular status of secondary interrupt requests. Set only when enabled. Write 1 to clear after interrupt is serviced (raw status also gets cleared)."
eventfld.long 0x00 17. " DMADISABLECLR        ,DMA-disable self-clear IRQ status:USB_SYSCONFIG[17] DMADISABLE hardware-cleared (to 0) because of DMA access. Not triggered by a software clear. - noaction. - clear. - pending. - none." "noaction,clear"
eventfld.long 0x00 16. "           OEVT                ,OTG event in core, IRQ status: see status registerUSB_OEVT. - noaction. - clear. - pending. - none." "noaction,clear"
eventfld.long 0x00 13. "  DRVVBUS_RISE         ,Drive VBUS control rise IRQ status - noaction. - clear. - pending. - none." "noaction,clear"
textline "                              "
eventfld.long 0x00 12. " CHRGVBUS_RISE        ,Charge VBUS control rise IRQ status - noaction. - clear. - pending. - none." "noaction,clear"
eventfld.long 0x00 11. "           DISCHRGVBUS_RISE    ,Discharge VBUS control rise IRQ status - noaction. - clear. - pending. - none." "noaction,clear"
eventfld.long 0x00 8. "  IDPULLUP_RISE        ,ID pullup control rise IRQ status - noaction. - clear. - pending. - none." "noaction,clear"
textline "                              "
eventfld.long 0x00 5. " DRVVBUS_FALL         ,Drive VBUS control fall IRQ status - noaction. - clear. - pending. - none." "noaction,clear"
eventfld.long 0x00 4. "           CHRGVBUS_FALL       ,Charge VBUS control fall IRQ status - noaction. - clear. - pending. - none." "noaction,clear"
eventfld.long 0x00 3. "  DISCHRGVBUS_FALL     ,Discharge VBUS control fall IRQ status - noaction. - clear. - pending. - none." "noaction,clear"
textline "                              "
eventfld.long 0x00 0. " IDPULLUP_FALL        ,ID pullup control fall IRQ status - noaction. - clear. - pending. - none." "noaction,clear"
group.long 0x3C++0x3
line.long 0x00 "USB_IRQENABLE_SET_1,Enable secondary interrupt requests. Write 1 to set (that is, to enable interrupt). Readout is the same as corresponding _CLR register."
bitfld.long 0x00 17. " DMADISABLECLR_EN     ,DMA-disable self-clear, IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
bitfld.long 0x00 16. "           OEVT_EN             ,OTG event in core, IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
bitfld.long 0x00 13. "  DRVVBUS_RISE_EN      ,Drive VBUS control rise IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
textline "                              "
bitfld.long 0x00 12. " CHRGVBUS_RISE_EN     ,Charge VBUS control rise IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
bitfld.long 0x00 11. "           DISCHRGVBUS_RISE_EN ,Discharge VBUS control rise IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
bitfld.long 0x00 8. "  IDPULLUP_RISE_EN     ,ID pullup control rise IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
textline "                              "
bitfld.long 0x00 5. " DRVVBUS_FALL_EN      ,Drive VBUS control fall IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
bitfld.long 0x00 4. "           CHRGVBUS_FALL_EN    ,Charge VBUS control fall IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
bitfld.long 0x00 3. "  DISCHRGVBUS_FALL_EN  ,Discharge VBUS control fall IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
textline "                              "
bitfld.long 0x00 0. " IDPULLUP_FALL_EN     ,ID pullup control fall IRQ enable - noaction. - set. - enabled. - disabled." "noaction,set"
group.long 0x40++0x3
line.long 0x00 "USB_IRQENABLE_CLR_1,Enable secondary interrupt requests. Write 1 to clear (that is, to disable interrupt). Readout is the same as corresponding _SET register."
eventfld.long 0x00 17. " DMADISABLECLR_EN     ,DMA-disable self-clear, IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
eventfld.long 0x00 16. "           OEVT_EN             ,OTG event in core, IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
eventfld.long 0x00 13. "  DRVVBUS_RISE_EN      ,Drive VBUS control rise IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
textline "                              "
eventfld.long 0x00 12. " CHRGVBUS_RISE_EN     ,Charge VBUS control rise IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
eventfld.long 0x00 11. "           DISCHRGVBUS_RISE_EN ,Discharge VBUS control rise IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
eventfld.long 0x00 8. "  IDPULLUP_RISE_EN     ,ID pullup control rise IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
textline "                              "
eventfld.long 0x00 5. " DRVVBUS_FALL_EN      ,Drive VBUS control fall IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
eventfld.long 0x00 4. "           CHRGVBUS_FALL_EN    ,Charge VBUS control fall IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
eventfld.long 0x00 3. "  DISCHRGVBUS_FALL_EN  ,Discharge VBUS control fall IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
textline "                              "
eventfld.long 0x00 0. " IDPULLUP_FALL_EN     ,ID pullup control fall IRQ enable - noaction. - clear. - enabled. - disabled." "noaction,clear"
rgroup.long 0x80++0x3
line.long 0x00 "USB_UTMI_OTG_CTRL,"
bitfld.long 0x00 5. " DRVVBUS              ,Drive 5V on VBUS. Plays the role of 'hub_vbus_ctrl' in non-OTG host mode. - drive. - noaction." "noaction,drive"
bitfld.long 0x00 4. "           CHRGVBUS            ,Charge VBUS through a resistor for VBUS-pulsing SRP. - charge. - noaction." "noaction,charge"
bitfld.long 0x00 3. "  DISCHRGVBUS          ,Discharge VBUS through a resistor, until the session-end VBUS state is reached. - Discharge. - NoAction." "NoAction,Discharge"
textline "                              "
bitfld.long 0x00 0. " IDPULLUP             ,Pull-up to the (OTG) ID line to allow its sampling - Enable. - Disable." "Disable,Enable"
group.long 0x84++0x3
line.long 0x00 "USB_UTMI_OTG_STATUS,"
bitfld.long 0x00 31. " SW_MODE              ,Controls the source of UTMI / PIPE status for VBUS and OTG ID (vbusvalid, sessvalid, sessend, iddig, powerpresent) - io. - sw." "io,sw"
bitfld.long 0x00 10. "                 PORT_OVERCURRENT    ,Over-current status, for non-OTG host only. - none. - oc." "none,oc"
bitfld.long 0x00 9. "      POWERPRESENT         ,Software-programmed value of PIPE3.0 PowerPresent (VBUS status) seen by the core, alternative to HW input." "0,1"
textline "                              "
bitfld.long 0x00 8. " TXBITSTUFFENABLE     ,Software-programmed UTMI output txbitstuffenable[h] Note: as per UTMI+, used only in UTMI Opmode 0b11 (i.e. SYNC and EOP generation disabled) - nobs. - bs." "nobs,bs"
bitfld.long 0x00 4. "               IDDIG               ,Software-programmed value of UTMI+ IdDig (OTG ID status) seen by the core, alternative to hardware input. Don't care until IdPullup = 1 for at least 50 ms - IdA. - IdB." "IdA,IdB"
bitfld.long 0x00 3. "       SESSEND              ,Software-programmed value of UTMI+ SessEnd (VBUS status) seen by the core, alternative to HW input. - notended. - ended." "notended,ended"
textline "                              "
bitfld.long 0x00 2. " SESSVALID            ,Software-programmed value of UTMI+ SessValid (VBUS status) seen by the core, alternative to hardware inputs AValid and BValid. - notvalid. - valid." "notvalid,valid"
bitfld.long 0x00 1. "           VBUSVALID           ,Software-programmed value of UTMI+ VbusValid (VBUS status) seen by the core, alternative to hardware input. - notvalid. - valid." "notvalid,valid"
group.long 0x100++0x3
line.long 0x00 "USB_MMRAM_OFFSET,Offset of Memory-mapped RAM accesses. Page is remapped from 0x8000 to 0xFFFF (32 KiB)"
bitfld.long 0x00 15.--19. " OFFSET_MSB           ,Byte offset MSBits = page offset - core_bot. - core_top. - RAM2_base. - RAM1_base. - RAM0_base." "core_bot,core_top,2,3,4,5,6,7,RAM0_base,9,10,11,12,13,14,15,RAM1_base,17,18,19,20,21,22,23,RAM2_base,25,26,27,28,29,30,31"
hexmask.long.word 0x00 0.--14. 1. "          OFFSET_LSB          ,Byte offset LSBits, always 0"
group.long 0x104++0x3
line.long 0x00 "USB_FLADJ,Jitter adjustment and other pseudo-static parameters"
bitfld.long 0x00 31. " CORE_SW_RESET        ,Active-high core software reset. Static, i.e. not self-clearing. After clearing, wait for reset completion by polling USB_USBSTS[11] CNR bit. - noreset. - reset." "noreset,reset"
bitfld.long 0x00 29. "            XHCI_REVISION       ,Switches to the legacy xHCI 0.96 host SW API mode. Changes shall take place under core software reset: [31] CORE_SW_RESET = 1. - 0_96. - 1_0." "0_96,1_0"
bitfld.long 0x00 28. "      HOST_U3_PORT_DISABLE ,USB3.0 port disable, overriding xHCI driver. - en. - dis." "en,dis"
textline "                              "
bitfld.long 0x00 27. " HOST_U2_PORT_DISABLE ,USB2.0 port disable, overriding xHCI driver. - en. - dis." "en,dis"
bitfld.long 0x00 21.--26. "                FLADJ_30MHZ         ,HS Jitter Adjustment, in 30-MHz periods" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x108++0x3
line.long 0x00 "USB_DEBUG_CFG,Configuration of debug output (observability)"
bitfld.long 0x00 0.--2. " SEL                  ,selection of observed local signals - UTMI. - tielo. - PIPE. - Trace_lo. - Trace_hi. - Core." "tielo,UTMI,PIPE,Core,Trace_lo,Trace_hi,6,7"
rgroup.long 0x10C++0x3
line.long 0x00 "USB_DEBUG_DATA,Data currently visible on DEBUG output (observability) port See [2:0] SEL bit field."
bitfld.long 0x00 31. " DEBUG31              ,SEL = 1: utmi_sessend SEL = 2: pipe_rxstatus[2] SEL = 3: core_sm2bl_cur_mode" "0,1"
bitfld.long 0x00 30. "                  DEBUG30             ,SEL = 1: utmi_vbusvalid SEL = 2: pipe_rxstatus[1] SEL = 3: core_suspend_n" "0,1"
bitfld.long 0x00 29. "         DEBUG29              ,SEL = 1: utmi_bvalid SEL = 2: pipe_rxstatus[0] SEL = 3: core_suspend_com_n" "0,1"
textline "                              "
bitfld.long 0x00 28. " DEBUG28              ,SEL = 1: utmi_avalid SEL = 2: pipe_elecidle SEL = 3: core_u2_dssr_state[3]" "0,1"
bitfld.long 0x00 27. "                  DEBUG27             ,SEL = 1: utmi_iddig SEL = 2: pipe_phystatus SEL = 3: core_u2_dssr_state[2]" "0,1"
bitfld.long 0x00 26. "         DEBUG26              ,SEL = 1: utmi_hostdisconnect SEL = 2: pipe_rxvalid SEL = 3: core_u2_dssr_state[1]" "0,1"
textline "                              "
bitfld.long 0x00 25. " DEBUG25              ,SEL = 1: utmi_txbitstuffenableh SEL = 2: pipe_rxdatak[3] SEL = 3: core_u2_dssr_state[0]" "0,1"
bitfld.long 0x00 24. "                  DEBUG24             ,SEL = 1: utmi_txbitstuffenable SEL = 2: pipe_rxdatak[2] SEL = 3: core_u2mac_txrx_state_1[4]" "0,1"
bitfld.long 0x00 23. "         DEBUG23              ,SEL = 1: utmi_dischrgvbus SEL = 2: pipe_rxdatak[1] SEL = 3: core_u2mac_txrx_state_1[3]" "0,1"
textline "                              "
bitfld.long 0x00 22. " DEBUG22              ,SEL = 1: utmi_chrgvbus SEL = 2: pipe_rxdatak[0] SEL = 3: core_u2mac_txrx_state_1[2]" "0,1"
bitfld.long 0x00 21. "                  DEBUG21             ,SEL = 1: utmi_drvvbus SEL = 2: pipe_rxpclk SEL = 3: core_u2mac_txrx_state_1[1]" "0,1"
bitfld.long 0x00 20. "         DEBUG20              ,SEL = 1: utmi_dmpulldown SEL = 2: pipe_rxtermination SEL = 3: core_u2mac_txrx_state_1[0]" "0,1"
textline "                              "
bitfld.long 0x00 19. " DEBUG19              ,SEL = 1: utmi_dppulldown SEL = 2: pipe_txswing SEL = 3: core_u2mac_txrx_state_0[4]" "0,1"
bitfld.long 0x00 18. "                  DEBUG18             ,SEL = 1: utmi_idpullup SEL = 2: pipe_txmargin[2] SEL = 3: core_u2mac_txrx_state_0[3]" "0,1"
bitfld.long 0x00 17. "         DEBUG17              ,SEL = 1: utmi_linestate[1] SEL = 2: pipe_txmargin[1] SEL = 3: core_u2mac_txrx_state_0[2]" "0,1"
textline "                              "
bitfld.long 0x00 16. " DEBUG16              ,SEL = 1: utmi_linestate[0] SEL = 2: pipe_txmargin[0] SEL = 3: core_u2mac_txrx_state_0[1]" "0,1"
bitfld.long 0x00 15. "                  DEBUG15             ,SEL = 1: utmi_opmode[1] SEL = 2: pipe_txdeemph[1] SEL = 3: core_u2mac_txrx_state_0[0]" "0,1"
bitfld.long 0x00 14. "         DEBUG14              ,SEL = 1: utmi_opmode[0] SEL = 2: pipe_txdeemph[0] SEL = 3: core_u2_prt_state[4]" "0,1"
textline "                              "
bitfld.long 0x00 13. " DEBUG13              ,SEL = 1: utmi_termSELect SEL = 2: pipe_powerdown[1] SEL = 3: core_u2_prt_state[3]" "0,1"
bitfld.long 0x00 12. "                  DEBUG12             ,SEL = 1: utmi_xcvrselect[1] SEL = 2: pipe_powerdown[0] SEL = 3: core_u2_prt_state[2]" "0,1"
bitfld.long 0x00 11. "         DEBUG11              ,SEL = 1: utmi_xcvrselect[0] SEL = 2: pipe_reset_n SEL = 3: core_u2_prt_state[1]" "0,1"
textline "                              "
bitfld.long 0x00 10. " DEBUG10              ,SEL = 1: utmi_suspendm SEL = 2: pipe_rxeqtraining SEL = 3: core_u2_prt_state[0]" "0,1"
bitfld.long 0x00 9. "                  DEBUG9              ,SEL = 1: utmi_reset SEL = 2: pipe_rxpolarity SEL = 3: core_gsts_buserraddvld" "0,1"
bitfld.long 0x00 8. "         DEBUG8               ,SEL = 1: utmi_rxerror SEL = 2: pipe_txoneszeros SEL = 3: debug_mclk_usof_number[0]" "0,1"
textline "                              "
bitfld.long 0x00 7. " DEBUG7               ,SEL = 1: utmi_rxvalidh SEL = 2: pipe_txelecidle SEL = 3: core_ltdb_link_state[3]" "0,1"
bitfld.long 0x00 6. "                  DEBUG6              ,SEL = 1: utmi_rxvalid SEL = 2: pipe_txdetectrxloopback SEL = 3: core_ltdb_link_state[2]" "0,1"
bitfld.long 0x00 5. "         DEBUG5               ,SEL = 1: utmi_rxactive SEL = 2: pipe_elasticitybuffermode SEL = 3: core_ltdb_link_state[1]" "0,1"
textline "                              "
bitfld.long 0x00 4. " DEBUG4               ,SEL = 1: utmi_txready SEL = 2: pipe_txdatak[3] SEL = 3: core_ltdb_link_state[0]" "0,1"
bitfld.long 0x00 3. "                  DEBUG3              ,SEL = 1: utmi_txvalidh SEL = 2: pipe_txdatak[2] SEL = 3: core_ltdb_substate[3]" "0,1"
bitfld.long 0x00 2. "         DEBUG2               ,SEL = 1: utmi_txvalid SEL = 2: pipe_txdatak[1] SEL = 3: core_ltdb_substate[2]" "0,1"
textline "                              "
bitfld.long 0x00 1. " DEBUG1               ,SEL = 1: utmi_databus16_8 SEL = 2: pipe_txdatak[0] SEL = 3: core_ltdb_substate[1]" "0,1"
bitfld.long 0x00 0. "                  DEBUG0              ,SEL = 1: utmi_clk SEL = 2: pipe_txpclk SEL = 3: core_ltdb_substate[0]" "0,1"
group.long 0x110++0x3
line.long 0x00 "USB_DEV_EBC_EN,Enable External Buffer Control (EBC) for selected endpoints. Device mode only."
bitfld.long 0x00 31. " OUTEP15              ,Enable EBC HW throttling for OUT EP 15 (USB receive) - dis. - en." "dis,en"
bitfld.long 0x00 15. "                INEP15              ,Enable EBC HW throttling for IN EP 15 (USB transmit) - dis. - en." "dis,en"
width 0x0B
tree.end
tree.end
tree.open "USB2PHY1"
tree "USB2PHY1"
base ad:0x4A084000
width 29.
group.long 0x0++0x3
line.long 0x00 "USB2PHY_TERMINATION_CONTROL,Contains bits related to control of terminations in USB2PHY"
bitfld.long 0x00 24.--27. " MEM_FS_CODE_SEL      ,FS Code selection control" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 21. "                       MEM_USE_RTERM_RMX_REG ,Override termination resistor trim code with MEM_RTERM_RMX bitfield value" "0,1"
bitfld.long 0x00 15.--20. "  MEM_RTERM_RMX       ,The value written to this field is used as termination resistor trim code if bit [21] MEM_USE_RTERM_RMX_REG is set to 1. Can be used to improve the HS eye diagram by reducing the termination resistance.Increase the value until ey..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                      "
bitfld.long 0x00 0.--5. " RTERM_RMX            ,Returns the current value of RTERM_RMX" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x14++0x3
line.long 0x00 "USB2PHY_CHRG_DET,This is the charger detect register. This register is not used in the dead battery case. CE IS NOT PINNED OUT IN THIS DEVICE!"
bitfld.long 0x00 29. " MEM_USE_CHG_DET_REG  ,Use bits 28:24 and 18:17 from this register." "0,1"
bitfld.long 0x00 28. "                        MEM_DIS_CHG_DET       ,When read, returns current value of charger detect input. When MEM_USE_CHG_DET_REG = 1, the value written to this field overrides the corresponding charger detect input." "0,1"
bitfld.long 0x00 27. "  MEM_SRC_ON_DM       ,When read, returns current value of charger detect input. When MEM_USE_CHG_DET_REG = 1, the value written to this field overrides the corresponding charger detect input." "0,1"
textline "                                      "
bitfld.long 0x00 26. " MEM_SINK_ON_DP       ,When read, returns current value of charger detect input. When MEM_USE_CHG_DET_REG = 1, the value written to this field overrides the corresponding charger detect input." "0,1"
bitfld.long 0x00 25. "                        MEM_CHG_DET_EXT_CTL   ,When read, returns current value of charger detect input. When MEM_USE_CHG_DET_REG = 1, the value written to this fileld overrides the corresponding charger detect input." "0,1"
bitfld.long 0x00 24. "  MEM_RESTART_CHG_DET ,Restart the charger detection protocol when this bit is set from 0 to 1" "0,1"
textline "                                      "
bitfld.long 0x00 23. " CHG_DET_DONE         ,Charger detect protocol has completed" "0,1"
bitfld.long 0x00 22. "                        CHG_DETECTED          ,Reflects charger-enable (CE) output pin" "0,1"
bitfld.long 0x00 21. "  DATA_DET            ,Output of the data detect comparator" "0,1"
textline "                                      "
bitfld.long 0x00 18. " MEM_CHG_ISINK_EN     ,When read, returns current value of charger detect input. When MEM_USE_CHG_DET_REG = 1, the value written to this field overrides the corresponding charger detect input." "0,1"
bitfld.long 0x00 17. "                        MEM_CHG_VSRC_EN       ,When read, returns current value of charger detect input. When MEM_USE_CHG_DET_REG = 1, the value written to this field overrides the corresponding charger detect input." "0,1"
bitfld.long 0x00 16. "  COMP_DP             ,Comparator on the DP line value" "0,1"
textline "                                      "
bitfld.long 0x00 15. " COMP_DM              ,Comparator on the DM line value" "0,1"
bitfld.long 0x00 0. "                        MEM_FOR_CE            ,Force output pin CE = 1, when this bit is set to 1." "0,1"
group.long 0x30++0x3
line.long 0x00 "USB2PHY_GPIO,GPIO mode configurations and read-only info fields"
bitfld.long 0x00 31. " MEM_USEGPIOMODEREG   ,When set to 1, use bits 30:24 from this register instead of primary inputs." "0,1"
bitfld.long 0x00 30. "                        MEM_GPIOMODE          ,Overrides the GPIO MODE primary input" "0,1"
bitfld.long 0x00 29. "  MEM_DPGPIOGZ        ,Overrides the DP GPIO GZ primary input" "0,1"
textline "                                      "
bitfld.long 0x00 28. " MEM_DMGPIOGZ         ,Overrides the DM GPIO GZ primary input" "0,1"
bitfld.long 0x00 27. "                        MEM_DPGPIOA           ,Overrides the DP GPIO A primary input" "0,1"
bitfld.long 0x00 26. "  MEM_DMGPIOA         ,Overrides the DM GPIO A primary input" "0,1"
textline "                                      "
bitfld.long 0x00 25. " DPGPIOY              ,DP GPIO Y output value status" "0,1"
bitfld.long 0x00 24. "                        DMGPIOY               ,DM GPIO Y output value status" "0,1"
bitfld.long 0x00 19. "  MEM_DMGPIOPIPD      ,GPIO mode DM pulldown enabled. Overrides the corresponding primary input." "0,1"
textline "                                      "
bitfld.long 0x00 18. " MEM_DPGPIOPIPD       ,GPIO mode DP pulldown enabled. Overrides the corresponding primary input." "0,1"
group.long 0x48++0x3
line.long 0x00 "USB2PHY_AD_INTERFACE_REG3,AD interface register 3"
hexmask.long.byte 0x00 10.--17. 1. " MEM_SPARE_IN_LDO     ,This bit field can be used to compensate for external Common Mode Filter (CMF) or series switch resistance. Depreciated. Use USB2PHY_TERMINATION_CONTROL instead."
group.long 0x4C++0x3
line.long 0x00 "USB2PHY_ANA_CONFIG1,Used to configure and debug the analog blocks"
bitfld.long 0x00 31. " DISCON_DETECT_BYPASS ,Disconnect detection window mode. 0x0: extends detection window for disconnect to the length of the SOF packet (not compliant with the USB2.0 spec). 0x1: limits the detection window for disconnect to last 8b of the SOF EOP (in co..." "0,1"
group.long 0x50++0x3
line.long 0x00 "USB2PHY_ANA_CONFIG2,Used to configure and debug the analog blocks"
bitfld.long 0x00 15.--19. " MEM_FSRX_TEST        ," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x78++0x3
line.long 0x00 "USB2PHY_CEGPIO_REG,This register contains bits for configuring functionality for CE pad. CE IS NOT PINNED OUT IN THIS DEVICE!"
bitfld.long 0x00 0.--5. " MEM_CE_SELECT        ,CE pin output mode: CE IS NOT PINNED OUT IN THIS DEVICE! - Charger detected. - GPIO mode. - Suspendm. - !Suspendm. - Bus_reset. - !Bus_reset. - Suspendm + Bus_res. - !(Suspendm + Bus_reset). 0x8 - 0xF: Reserved. - . 0x10 - 0x28: ..." "Charger_detected,GPIO_mode,Suspendm,!Suspendm,Bus_reset,!Bus_reset,Suspendm_+_Bus_res,!(Suspendm_+_Bus_reset),8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
width 0x0B
tree.end
tree "USB2PHY2"
base ad:0x4A085000
width 29.
group.long 0x0++0x3
line.long 0x00 "USB2PHY_TERMINATION_CONTROL,Contains bits related to control of terminations in USB2PHY"
bitfld.long 0x00 24.--27. " MEM_FS_CODE_SEL      ,FS Code selection control" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 21. "                       MEM_USE_RTERM_RMX_REG ,Override termination resistor trim code with MEM_RTERM_RMX bitfield value" "0,1"
bitfld.long 0x00 15.--20. "  MEM_RTERM_RMX       ,The value written to this field is used as termination resistor trim code if bit [21] MEM_USE_RTERM_RMX_REG is set to 1. Can be used to improve the HS eye diagram by reducing the termination resistance.Increase the value until ey..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                      "
bitfld.long 0x00 0.--5. " RTERM_RMX            ,Returns the current value of RTERM_RMX" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x14++0x3
line.long 0x00 "USB2PHY_CHRG_DET,This is the charger detect register. This register is not used in the dead battery case. CE IS NOT PINNED OUT IN THIS DEVICE!"
bitfld.long 0x00 29. " MEM_USE_CHG_DET_REG  ,Use bits 28:24 and 18:17 from this register." "0,1"
bitfld.long 0x00 28. "                        MEM_DIS_CHG_DET       ,When read, returns current value of charger detect input. When MEM_USE_CHG_DET_REG = 1, the value written to this field overrides the corresponding charger detect input." "0,1"
bitfld.long 0x00 27. "  MEM_SRC_ON_DM       ,When read, returns current value of charger detect input. When MEM_USE_CHG_DET_REG = 1, the value written to this field overrides the corresponding charger detect input." "0,1"
textline "                                      "
bitfld.long 0x00 26. " MEM_SINK_ON_DP       ,When read, returns current value of charger detect input. When MEM_USE_CHG_DET_REG = 1, the value written to this field overrides the corresponding charger detect input." "0,1"
bitfld.long 0x00 25. "                        MEM_CHG_DET_EXT_CTL   ,When read, returns current value of charger detect input. When MEM_USE_CHG_DET_REG = 1, the value written to this fileld overrides the corresponding charger detect input." "0,1"
bitfld.long 0x00 24. "  MEM_RESTART_CHG_DET ,Restart the charger detection protocol when this bit is set from 0 to 1" "0,1"
textline "                                      "
bitfld.long 0x00 23. " CHG_DET_DONE         ,Charger detect protocol has completed" "0,1"
bitfld.long 0x00 22. "                        CHG_DETECTED          ,Reflects charger-enable (CE) output pin" "0,1"
bitfld.long 0x00 21. "  DATA_DET            ,Output of the data detect comparator" "0,1"
textline "                                      "
bitfld.long 0x00 18. " MEM_CHG_ISINK_EN     ,When read, returns current value of charger detect input. When MEM_USE_CHG_DET_REG = 1, the value written to this field overrides the corresponding charger detect input." "0,1"
bitfld.long 0x00 17. "                        MEM_CHG_VSRC_EN       ,When read, returns current value of charger detect input. When MEM_USE_CHG_DET_REG = 1, the value written to this field overrides the corresponding charger detect input." "0,1"
bitfld.long 0x00 16. "  COMP_DP             ,Comparator on the DP line value" "0,1"
textline "                                      "
bitfld.long 0x00 15. " COMP_DM              ,Comparator on the DM line value" "0,1"
bitfld.long 0x00 0. "                        MEM_FOR_CE            ,Force output pin CE = 1, when this bit is set to 1." "0,1"
group.long 0x30++0x3
line.long 0x00 "USB2PHY_GPIO,GPIO mode configurations and read-only info fields"
bitfld.long 0x00 31. " MEM_USEGPIOMODEREG   ,When set to 1, use bits 30:24 from this register instead of primary inputs." "0,1"
bitfld.long 0x00 30. "                        MEM_GPIOMODE          ,Overrides the GPIO MODE primary input" "0,1"
bitfld.long 0x00 29. "  MEM_DPGPIOGZ        ,Overrides the DP GPIO GZ primary input" "0,1"
textline "                                      "
bitfld.long 0x00 28. " MEM_DMGPIOGZ         ,Overrides the DM GPIO GZ primary input" "0,1"
bitfld.long 0x00 27. "                        MEM_DPGPIOA           ,Overrides the DP GPIO A primary input" "0,1"
bitfld.long 0x00 26. "  MEM_DMGPIOA         ,Overrides the DM GPIO A primary input" "0,1"
textline "                                      "
bitfld.long 0x00 25. " DPGPIOY              ,DP GPIO Y output value status" "0,1"
bitfld.long 0x00 24. "                        DMGPIOY               ,DM GPIO Y output value status" "0,1"
bitfld.long 0x00 19. "  MEM_DMGPIOPIPD      ,GPIO mode DM pulldown enabled. Overrides the corresponding primary input." "0,1"
textline "                                      "
bitfld.long 0x00 18. " MEM_DPGPIOPIPD       ,GPIO mode DP pulldown enabled. Overrides the corresponding primary input." "0,1"
group.long 0x48++0x3
line.long 0x00 "USB2PHY_AD_INTERFACE_REG3,AD interface register 3"
hexmask.long.byte 0x00 10.--17. 1. " MEM_SPARE_IN_LDO     ,This bit field can be used to compensate for external Common Mode Filter (CMF) or series switch resistance. Depreciated. Use USB2PHY_TERMINATION_CONTROL instead."
group.long 0x4C++0x3
line.long 0x00 "USB2PHY_ANA_CONFIG1,Used to configure and debug the analog blocks"
bitfld.long 0x00 31. " DISCON_DETECT_BYPASS ,Disconnect detection window mode. 0x0: extends detection window for disconnect to the length of the SOF packet (not compliant with the USB2.0 spec). 0x1: limits the detection window for disconnect to last 8b of the SOF EOP (in co..." "0,1"
group.long 0x50++0x3
line.long 0x00 "USB2PHY_ANA_CONFIG2,Used to configure and debug the analog blocks"
bitfld.long 0x00 15.--19. " MEM_FSRX_TEST        ," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x78++0x3
line.long 0x00 "USB2PHY_CEGPIO_REG,This register contains bits for configuring functionality for CE pad. CE IS NOT PINNED OUT IN THIS DEVICE!"
bitfld.long 0x00 0.--5. " MEM_CE_SELECT        ,CE pin output mode: CE IS NOT PINNED OUT IN THIS DEVICE! - Charger detected. - GPIO mode. - Suspendm. - !Suspendm. - Bus_reset. - !Bus_reset. - Suspendm + Bus_res. - !(Suspendm + Bus_reset). 0x8 - 0xF: Reserved. - . 0x10 - 0x28: ..." "Charger_detected,GPIO_mode,Suspendm,!Suspendm,Bus_reset,!Bus_reset,Suspendm_+_Bus_res,!(Suspendm_+_Bus_reset),8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
width 0x0B
tree.end
tree.end
tree.end
tree.open "SATA_Controller"
tree "DWC_ahsata"
base ad:0x4A140000
width 16.
group.long 0x0++0x3
line.long 0x00 "SATA_CAP,Capabilities register: Basic capabilities of the SATA AHCI core. Some fields can be written once after reset, read-only."
bitfld.long 0x00 31. " S64A        ,Supports 64-bit addressing - 64bit. - 32bit." "32bit,64bit"
bitfld.long 0x00 30. "     SNCQ         ,Supports NCQ (Native Command Queuing) Controller supports SATA NCQ by handling DMA setup FIS natively. - YES. - NO." "NO,YES"
bitfld.long 0x00 29. "       SSNTF        ,Supports SNotification register Controller supports SATA_PxSNTF (SNotification) register and its associated functionality. - YES. - NO." "NO,YES"
textline "                         "
bitfld.long 0x00 28. " SMPS        ,Supports mechanical presence switch Support of a mechanical presence switch for hot plug operation, depending on integration Writable once after power up, read-only afterward - NO. - YES." "NO,YES"
bitfld.long 0x00 27. "       SSS          ,Supports staggered spin-up Controller can support this feature through SATA_PxCMD.SUD Writable once after power up, read-only afterward - NO. - YES." "NO,YES"
bitfld.long 0x00 26. "       SALP         ,Supports aggressive link power management - YES. - NO." "NO,YES"
textline "                         "
bitfld.long 0x00 25. " SAL         ,Supports Activity LED - YES. - NO." "NO,YES"
bitfld.long 0x00 24. "       SCLO         ,Supports command list override Supports the SATA_PxCMD.CLO bit functionality for enumeration of PM devices - YES. - NO." "NO,YES"
bitfld.long 0x00 20.--23. "       ISS          ,Interface speed support Maximum speed the HBA can support - 6G. - 3G. - 1G5." "0,1G5,3G,6G,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                         "
bitfld.long 0x00 19. " SNZO        ,Supports Non-zero DMA offsets - YES. - NO." "NO,YES"
bitfld.long 0x00 18. "       SAM          ,Supports AHCI mode only SATA controller supports AHCI mode only and does not support legacy, task file-based register interface. - YES. - NO." "NO,YES"
bitfld.long 0x00 17. "       SPM          ,Supports PM (Port Multiplier) SATA controller supports command-based switching PM on any port. - YES. - NO." "NO,YES"
textline "                         "
bitfld.long 0x00 16. " FBSS        ,FIS-based switching supported Support of PM FIS-based switching. - YES. - NO." "NO,YES"
bitfld.long 0x00 15. "       PMD          ,PIO Multiple DRQ Support of multiple DRQ block data transfers for the PIO command protocol - YES. - NO." "NO,YES"
bitfld.long 0x00 14. "       SSC          ,SLUMBER state capable Support of transitions to the interface SLUMBER power management state - YES. - NO." "NO,YES"
textline "                         "
bitfld.long 0x00 13. " PSC         ,PARTIAL state capable Support of transitions to the interface PARTIAL power management state - YES. - NO." "NO,YES"
bitfld.long 0x00 8.--12. "       NCS          ,Number of command slots: slots supported by the SATA controller, minus 1 - 32." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,32"
bitfld.long 0x00 7. "        CCCS         ,Command completion coalescing supported - YES. - NO." "NO,YES"
textline "                         "
bitfld.long 0x00 6. " EMS         ,Enclosure management supported - YES. - NO." "NO,YES"
bitfld.long 0x00 5. "       SXS          ,Supports external SATA - YES. - NO." "NO,YES"
bitfld.long 0x00 0.--4. "       NP           ,Number of ports: ports supported by the SATA controller, minus 1 - 2p. - 1p." "1p,2p,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x4++0x3
line.long 0x00 "SATA_GHC,Global HBA control"
bitfld.long 0x00 31. " AE          ,AHCI enable Always set because SATA controller supports AHCI mode only, as indicated by the SATA_CAP.SAM = 1" "0,1"
bitfld.long 0x00 1. "         IE           ,Interrupt enable Global enable of SATA controller interrupts. Reset on global reset (SATA_GHC.HR = 1). - dis. - en." "dis,en"
bitfld.long 0x00 0. "       HR           ,HBA reset Global reset control - noaction. - reset. - ongoing. - done." "noaction,reset"
group.long 0x8++0x3
line.long 0x00 "SATA_IS,Interrupt status Indicates which port has a pending interrupt"
eventfld.long 0x00 0. " IPS         ,Interrupt pending status. Bit-significant field. Bits are set by ports that have interrupt events pending in the SATA_PxIS bits and enabled in SATA_PxIE. Set bits are cleared by software writing 1 to them." "0,1"
group.long 0xC++0x3
line.long 0x00 "SATA_PI,Ports implemented Indicates which ports are exposed by the SATA controller and available for use"
bitfld.long 0x00 0. " PI          ,Ports implemented. Bit-significant field. Writable once after power up, read-only afterward. If a bit is set (1), the corresponding port is available; else (0) it is not. Only bits 0 to SATA_CAP.NP can be set to 1. At least one bit must b..." "0,1"
rgroup.long 0x10++0x3
line.long 0x00 "SATA_VS,AHCI version supported: 1.3 WARNING: Controller complies fully with AHCI version 1.10 and also complies with AHCI version 1.3 except for FIS-based switching, which is not currently supported."
hexmask.long.word 0x00 16.--31. 1. " MJR         ,Major Version Number: 1"
hexmask.long.word 0x00 0.--15. 1. "      MNR          ,Minor Version Number: 3.00"
group.long 0x14++0x3
line.long 0x00 "SATA_CCC_CTL,CCC (Command Completion Coalescing) control Used to configure the CCC feature for the SATA controller Reset on global reset"
hexmask.long.word 0x00 16.--31. 1. " TV          ,Time-out value. Specifies the CCC time-out value in 1-ms intervals Loaded prior to enabling CCC; becomes read-only when SATA_CCC_CTL.EN = 1 - no. 0x1 - 0xFFFF: timeout slectable between within the range (1 - 65535 ) ms.. - 1."
hexmask.long.byte 0x00 8.--15. 1. "      CC           ,Command completions Number of command completions necessary to cause a CCC interrupt Loaded prior to enabling CCC, becomes read-only when SATA_CCC_CTL.EN = 1 - nocount. 0x1 - 0xFF: specifies the number of commands upon which complet..."
bitfld.long 0x00 3.--7. "        INT          ,Interrupt Number of the interrupt used by the CCC feature, using the number of ports configured for the core When a CCC interrupt occurs, the SATA_IS.IPS[INT] bit is set to 1." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                         "
bitfld.long 0x00 0. " EN          ,Enable CCC enable - dis. - en." "dis,en"
group.long 0x18++0x3
line.long 0x00 "SATA_CCC_PORTS,CCC ports Specifies the ports that are coalesced as part of the CCC feature when .EN = 1 Reset on global reset"
bitfld.long 0x00 0. " PRT         ,Ports Bit-significant field Set a bit to 1 to make the corresponding port part of the CCC feature. Bits set to 1 in this register have the same bit set to 1 in register PI." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "SATA_CAP2,Extended capabilities"
bitfld.long 0x00 2. " APST        ,Automatic PARTIAL to SLUMBER transitions - YES. - NO." "NO,YES"
bitfld.long 0x00 1. "       NVMP         ,NVMHCI present - YES. - NO." "NO,YES"
bitfld.long 0x00 0. "       BOH          ,BIOS/OS Handoff - YES. - NO." "NO,YES"
rgroup.long 0xA0++0x3
line.long 0x00 "SATA_BISTAFR,Built-In, Self-Test (BIST) Activate FIS Register Reset on global reset or port reset"
hexmask.long.byte 0x00 8.--15. 1. " NCP         ,Noncompliant pattern Least significant byte of the received BIST Activate FIS second DWORD (bits [7:0]). This value defines the required pattern for far-end transmit-only mode (SATA_BISTAFR.PD =0x80 or 0xA0). If none of the listed values ..."
hexmask.long.byte 0x00 0.--7. 1. "        PD           ,Pattern definition Pattern definition field of the received BIST Activate FIS - bits [23:16] of the first DWORD. Puts the SATA controller in one of the listed BIST modes - fer. - feto. - fetowsb. - fea."
group.long 0xA4++0x3
line.long 0x00 "SATA_BISTCR,BIST control register Reset on global reset or port reset"
bitfld.long 0x00 20. " FERLB       ,Far-end retimed loopback - noaction. - action. - rr0." "noaction,action"
bitfld.long 0x00 18. "  TXO          ,Transmit only - noaction. - rr0." "noaction,rr0"
bitfld.long 0x00 17. "  CNTCLR       ,Counter clear Clears BIST error count registers - noaction. - action. - rr0." "noaction,action"
textline "                         "
bitfld.long 0x00 16. " NEALB       ,Near-end analog loopback This mode should be initiated in the PARTIAL or SLUMBER power state or with the device disconnected from the port PHY (link NOCOMM state). BIST Activate FIS is not sent to the device in this mode. - noaction. - ." "noaction,1"
bitfld.long 0x00 15. "  LLB          ,Lab Loopback Mode Masks out phy_sig_det from the OOB detector in BIST Loopback Mode. To exit BIST Loopback mode, clear the register bit then issue COMRESET / receive COMINIT." "0,1"
bitfld.long 0x00 13. "         ERRLOSSEN    ,Always keep this bit at default value." "0,1"
textline "                         "
bitfld.long 0x00 12. " SDFE        ,Signal detect feature enable Not affected by global reset or port reset - dis. - en." "dis,en"
bitfld.long 0x00 10. "       LLC_RPD      ,Link layer control, repeat primitive drop In normal mode, the function can be changed only during port reset (SATA_PxSCTL.DET = 0x1). - 0. - 1." "0,1"
bitfld.long 0x00 9. "         LLC_DESCRAM  ,Link layer control, descrambler In normal mode, the function can be changed only during port reset (SATA_PxSCTL.DET = 0x1). - 0. - 1." "0,1"
textline "                         "
bitfld.long 0x00 8. " LLC_SCRAM   ,Link layer control, scrambler In normal mode, the function can be changed only during port reset (SATA_PxSCTL.DET = 0x1). Hardware?cleared (enabled) when the port enters a responder far-end transmit BIST mode with scrambling enabled..." "0,1"
bitfld.long 0x00 6. "         ERREN        ,Error enable Allow or filter (disable) PHY internal errors outside the FIS boundary to set corresponding SATA_PxSERR bits - filter. - allow." "filter,allow"
bitfld.long 0x00 5. "    FLIP         ,Flip disparity Change disparity of the current test pattern to the opposite each time its state is changed by software." "0,1"
textline "                         "
bitfld.long 0x00 4. " PV          ,Pattern version Selects either short or long version of the SSOP, HTDP, LTDP, LFSCP, COMP pattern - short. - long." "short,long"
bitfld.long 0x00 0.--3. "     PATTERN      ,Pattern Defines one of the listed SATA-compliant patterns for far-end retimed/ far-end analog/ near-end analog initiator modes, or noncompliant patterns for transmit-only responder mode when initiated by software writing to the..." "mftp,mftp,htdp,hftp,ssop,ltdp,lftp,comp,lbp,9,10,11,12,13,14,15"
rgroup.long 0xA8++0x3
line.long 0x00 "SATA_BISTFCTR,BIST frame-information-structure CounT register Received BIST FIS count in the loopback initiator far-end retimed, far-end analog, and near-end analog modes. Updated each time a new BIST FIS is received. Reset by global reset, port reset ..."
hexmask.long 0x00 0.--31. 1. " COUNT       ,BIST FIS Count"
rgroup.long 0xAC++0x3
line.long 0x00 "SATA_BISTSR,BIST status register Errors detected in the received BIST FIS in the loopback initiator far-end retimed, far-end analog, and near-end analog modes Updated each time a new BIST FIS is received Reset on global reset, port reset (COMRESET), or..."
hexmask.long.byte 0x00 16.--23. 1. " BRSTERR     ,Burst error count. Accumulated each time a burst error condition is detected: DWORD error is detected in the received frame and 1.5 seconds (27,000 frames) passed since the previous burst error was detected. Value does not roll over and..."
hexmask.long.word 0x00 0.--15. 1. "        FRAMERR      ,Frame error count. New value is added to the old value each time a new BIST frame with a CRC error is received. Does not roll over and freezes at FFFFh - max. - zero."
rgroup.long 0xB0++0x3
line.long 0x00 "SATA_BISTDECR,BIST double-word error count register Number of DWORD errors detected in the received BIST frame in the loopback initiator far-end retimed, far-end analog, and near-end analog modes Updated each time a new BIST frame is received, when the..."
hexmask.long 0x00 0.--31. 1. " DWERR       ,DWORD error count. New value is added to the old value each time a new BIST frame is received. The DWERR value does not roll over, and freezes when it exceeds 0xFFFF_F000. - zero. - max."
group.long 0xBC++0x3
line.long 0x00 "SATA_OOBR,OOB (Out Of Band Register) register Controls the link layer OOB detection counters"
bitfld.long 0x00 31. " WE          ,WRITE_ENABLE - no. - yes." "no,yes"
hexmask.long.byte 0x00 24.--30. 1. "       CWMIN        ,COMWAKE_MIN, in OOB rx clock cycles Read-only when SATA_OOBR.WE = 0"
hexmask.long.byte 0x00 16.--23. 1. "        CWMAX        ,COMWAKE_MAX, in OOB rx clock cycles Read-only when SATA_OOBR.WE = 0"
textline "                         "
hexmask.long.byte 0x00 8.--15. 1. " CIMIN       ,COMINIT_MIN, in OOB rx clock cycles Read-only when SATA_OOBR.WE = 0"
hexmask.long.byte 0x00 0.--7. 1. "        CIMAX        ,COMINIT_MAX, in OOB rx clock cycles Read-only when SATA_OOBR.WE=0"
group.long 0xE0++0x3
line.long 0x00 "SATA_TIMER1MS,Timer 1 ms Configuration to generate the 1-ms tick for the CCC logic Must be initialized before using the CCC feature Reset on power up, not affected by global reset"
hexmask.long.tbyte 0x00 0.--19. 1. " TIMV        ,OCP bus clock frequency in kHz (for example, reset value is 100,000 = 100 MHz)"
rgroup.long 0xE8++0x3
line.long 0x00 "SATA_GPARAM1R,Global parameters register 1 Hardware configuration of the DWC AHCI SATA core"
bitfld.long 0x00 31. " ALIGN_M     ,RX data alignment - yes. - no." "no,yes"
bitfld.long 0x00 30. "       RX_BUFFER    ,RX data buffer implemented - yes. - no." "no,yes"
bitfld.long 0x00 28.--29. "       PHY_DATA     ,PHY data width (in 8- or 10-bit characters) - 4. - 2. - 1." "1,2,4,3"
textline "                         "
bitfld.long 0x00 27. " PHY_RST     ,PHY reset mode - hi. - lo." "lo,hi"
bitfld.long 0x00 21.--26. "        PHY_CTRL     ,PHY control width (in bits)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 15.--20. "        PHY_STAT     ,PHY status width (in bits)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                         "
bitfld.long 0x00 14. " LATCH_M     ,Test mode lock-up latches - yes. - no." "no,yes"
bitfld.long 0x00 13. "       BIST_M       ,BIST loopback checking depth - DWORD. - FIS." "FIS,DWORD"
bitfld.long 0x00 11.--12. "     PHY_TYPE     ,PHY interface type - snps. - config. 0x2, 0x3: Reserved. - config." "config,snps,2,3"
textline "                         "
bitfld.long 0x00 10. " RETURN_ERR  ,Error response on illegal access - yes. - no." "no,yes"
bitfld.long 0x00 8.--9. "       AHB_ENDIAN   ,Endianness of master and slave - conf. - big. - little." "little,big,conf,3"
bitfld.long 0x00 7. "    S_HADDR      ,Slave address bus width - 64bit. - 32bit." "32bit,64bit"
textline "                         "
bitfld.long 0x00 6. " M_HADDR     ,Master address bus width - 64bit. - 32bit." "32bit,64bit"
bitfld.long 0x00 3.--5. "     S_HDATA      ,Slave Data Bus Width - . - . - . - ." "32-bit,64-bit,128-bit,256-bit,4,5,6,7"
bitfld.long 0x00 0.--2. "   M_HDATA      ,Master Data Bus Width - . - . - . - ." "32-bit,64-bit,128-bit,256-bit,4,5,6,7"
rgroup.long 0xEC++0x3
line.long 0x00 "SATA_GPARAM2R,Global parameters register 2 Hardware configuration of the DWC AHCI SATA core, continued"
bitfld.long 0x00 14. " DEV_CP      ,Cold presence detection implemented in core - yes. - no." "no,yes"
bitfld.long 0x00 13. "       DEV_MP       ,Mechanical presence switch implemented in core - yes. - no." "no,yes"
bitfld.long 0x00 12. "       ENCODE_M     ,8b/10b Encoding/decoding implemented in core - yes. - no." "no,yes"
textline "                         "
bitfld.long 0x00 11. " RXOOB_CLK_M ,RX OOB clocking mode: - sep. - rx." "rx,sep"
bitfld.long 0x00 10. "       RX_OOB_M     ,RX OOB mode: sequence generation implemented - yes. - no." "no,yes"
bitfld.long 0x00 9. "       TX_OOB_M     ,TX OOB mode: sequence generation implemented - yes. - no." "no,yes"
textline "                         "
hexmask.long.word 0x00 0.--8. 1. " RXOOB_CLK   ,RX OOB clock frequency, in MHz"
rgroup.long 0xF0++0x3
line.long 0x00 "SATA_PPARAMR,Port parameter register Hardware configuration of the DWC AHCI SATA core port selected by .PSEL"
bitfld.long 0x00 11. " TX_MEM_M    ,TX FIFO memory mode: - sync. - async." "async,sync"
bitfld.long 0x00 10. "     TX_MEM_S     ,TX FIFO memory selection: - int. - ext." "ext,int"
bitfld.long 0x00 9. "       RX_MEM_M     ,RX FIFO memory mode: - sync. - async." "async,sync"
textline "                         "
bitfld.long 0x00 8. " RX_MEM_S    ,RX FIFO memory selection: - int. - ext." "ext,int"
bitfld.long 0x00 4.--7. "       TXFIFO_DEPTH ,Tx FIFO Depth, in dwords (log2) - 3. - 4. - 6. - 5." "0,1,2,3,4,6,5,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "        RXFIFO_DEPTH ,Rx FIFO Depth, in dwords (log2) - 3. - 4. - 6. - 5." "0,1,2,3,3,4,6,5,8,9,10,11,12,13,14,15"
group.long 0xF4++0x3
line.long 0x00 "SATA_TESTR,Test register Puts the SATA controller slave interface in a test mode and selects a port for BIST operation"
bitfld.long 0x00 16.--18. " PSEL        ,Port select: Selects the port for BIST operation - 0." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "         TEST_IF      ,Test interface - default. - test." "default,test"
rgroup.long 0xF8++0x3
line.long 0x00 "SATA_VERSIONR,Version register"
hexmask.long 0x00 0.--31. 1. " VERSION     ,Version of DWC SATA controller, ASCII. See."
rgroup.long 0xFC++0x3
line.long 0x00 "SATA_IDR,ID register, containing the 32-bit Highlander (HL) revision."
hexmask.long 0x00 0.--31. 1. " REVISION    ,See."
group.long 0x100++0x3
line.long 0x00 "SATA_PxCLB,Port command List base address 32-bit base physical address for the command list for this port. Used when fetching commands to execute. The structure pointed to by this address range is 1 KiB in length."
hexmask.long.tbyte 0x00 10.--31. 1. " CLB         ,Command list base address (bits 31:10)"
hexmask.long.word 0x00 0.--9. 1. "    ZERO         ,Always 0 as address is 1 KiB-aligned"
group.long 0x104++0x3
line.long 0x00 "SATA_PxCLBU,Port Command List Base Upper address Upper half of the 64-bit base physical address for the command list for this Port. Used when fetching commands to execute. Remains all 0 when in 32-bit mode. Reserved & read-only when CAP.S64A=0"
hexmask.long 0x00 0.--31. 1. " CLBU        ,Command List Base Upper Address (bits 63:32)"
group.long 0x108++0x3
line.long 0x00 "SATA_PxFB,Port Frame-information-structure Base address 32-bit base physical address for received FISes for this port. The structure pointed to by this address range is 256 bytes in length."
hexmask.long.tbyte 0x00 8.--31. 1. " FB          ,FIS base address (bits 31:8)"
hexmask.long.byte 0x00 0.--7. 1. "    ZERO         ,Always 0 as address is 256-bytes aligned"
group.long 0x10C++0x3
line.long 0x00 "SATA_PxFBU,FIS Base Upper Address Upper half of the 64-bit base physical address for received FISes for this port. Remains all 0 with a 32-bit SW driver. Reserved & read-only when CAP.S64A=0"
hexmask.long 0x00 0.--31. 1. " FBU         ,FIS Base Upper Address (bits 63:32)"
group.long 0x110++0x3
line.long 0x00 "SATA_PxIS,Port interrupt status Bits are set by internal conditions and cleared (when possible) by writing 1 to them. Reset on global reset."
eventfld.long 0x00 31. " CPDS        ,Cold port detect status Set when the pX_cp_det input changes its state due to the insertion or removal of a device Valid only if the port supports cold presence detection as indicated by the SATA_PxCMD.CPD bit set to 1. - noaction..." "noaction,clear"
eventfld.long 0x00 30. "  TFES         ,Task file error status Set whenever the SATA_PxTFD.STS register is updated by the device and the error bit (bit 0) is set. - noaction. - clear. - event. - noevent." "noaction,clear"
eventfld.long 0x00 29. "  HBFS         ,Host bus fatal error status Set when master (DMA) detects an ERROR response from the slave - noaction. - clear. - event. - noevent." "noaction,clear"
textline "                         "
eventfld.long 0x00 28. " HBDS        ,Host bus data error status This bit is always cleared to 0. - noaction. - clear. - event. - noevent." "noaction,clear"
eventfld.long 0x00 27. "  IFS          ,Interface fatal error status This bit is set when any of the following conditions is detected: 1) SYNC escape is received from the device during H2D register or data FIS transmission. 2) One or more of the following errors are detected..." "noaction,clear"
eventfld.long 0x00 26. "  INFS         ,Interface nonfatal error status Set when any of the following conditions is detected: 1) One or more of the following errors are detected during nondata FIS transfer: - 10b to 8b decode error (SATA_PxSERR.DIAG_B) - Protocol..." "noaction,clear"
textline "                         "
eventfld.long 0x00 24. " OFS         ,Overflow status Set when command list overflow is detected during read or write operation when the software builds command table that has fever total bytes than the transaction given to the device. Port DMA transitions to a fatal state..." "noaction,clear"
eventfld.long 0x00 23. "  IPMS         ,Incorrect PM status FIS received from a device in which the PM field did not match what was expected May be set during enumeration of devices on a PM due to the normal PM enumeration process Must be used only after enumeration is..." "noaction,clear"
bitfld.long 0x00 22. "  PRCS         ,PhyRdy change status Reflects the state of SATA_PxSERR.DIAG_N To clear this bit, clear the SATA_PxSERR.DIAG_N bit to 0. - change. - nochange." "nochange,change"
textline "                         "
eventfld.long 0x00 7. " DMPS        ,Device mechanical presence status Set when the pX_mp_switch input changes its state as a result of a mechanical switch attached to this port opening or closing Valid only when SATA_CAP.SMPS and SATA_PxCMD.MPSP are set - noaction. - clear...." "noaction,clear"
bitfld.long 0x00 6. "  PCS          ,Port connect change status This bit reflects the state of the SATA_PxSERR.DIAG_X bit. Cleared only when SATA_PxSERR.DIAG_X is cleared - change. - nochange." "nochange,change"
eventfld.long 0x00 5. "  DPS          ,Descriptor processed A PRD with the I bit set has transferred all of its data. Note. This is an opportunistic interrupt and must not be used to definitively indicate the end of a transfer. Two PRD interrupts could occur close enough..." "noaction,clear"
textline "                         "
bitfld.long 0x00 4. " UFS         ,Unknown FIS interrupt An unknown FIS was received and has been copied into system memory. Cleared to 0 by the software clearing the SATA_PxSERR.DIAG_F bit to 0. Note: The UFS bit does not directly reflect the SATA_PxSERR.DIAG_F bit..." "noevent,event"
eventfld.long 0x00 3. "   SDBS         ,Set device bits interrupt A Set Device Bits FIS is received with the I bit set and copied into system memory. - noaction. - clear. - event. - noevent." "noaction,clear"
eventfld.long 0x00 2. "  DSS          ,DMA setup FIS interrupt A DMA Setup FIS is received with the I bit set and copied into system memory. - noaction. - clear. - event. - noevent." "noaction,clear"
textline "                         "
eventfld.long 0x00 1. " PSS         ,PIO setup FIS interrupt A PIO Setup FIS is received with the I bit set, copied into system memory, and the data related to the FIS is transferred. Note: This bit is set even when the data transfer resulted in an error. - noaction. - clear..." "noaction,clear"
eventfld.long 0x00 0. "  DHRS         ,Device to host register FIS interrupt A D2H register FIS is received with the I bit set and copied into system memory. - noaction. - clear. - event. - noevent." "noaction,clear"
group.long 0x114++0x3
line.long 0x00 "SATA_PxIE,Port interrupt enable Enables and disables the reporting of the corresponding interrupt to system software When a bit is set (1), .IE = 1, and the corresponding interrupt condition in is active, then the SATA controller interrupt output is as..."
bitfld.long 0x00 31. " CPDE        ,Cold port detect enable - dis. - en." "dis,en"
bitfld.long 0x00 30. "       TFEE         ,Task file error enable - dis. - en." "dis,en"
bitfld.long 0x00 29. "       HBFE         ,Host bus fatal error enable - dis. - en." "dis,en"
textline "                         "
bitfld.long 0x00 28. " HBDE        ,Host bus data error enable - dis. - en." "dis,en"
bitfld.long 0x00 27. "       IFE          ,Interface fatal error enable - dis. - en." "dis,en"
bitfld.long 0x00 26. "       INFE         ,Interface non fatal error enable - dis. - en." "dis,en"
textline "                         "
bitfld.long 0x00 24. " OFE         ,Overflow enable - dis. - en." "dis,en"
bitfld.long 0x00 23. "       IPME         ,Incorrect PM enable - dis. - en." "dis,en"
bitfld.long 0x00 22. "       PRCE         ,PhyRdy change enable - dis. - en." "dis,en"
textline "                         "
bitfld.long 0x00 7. " DMPE        ,Device mechanical presence enable - dis. - en." "dis,en"
bitfld.long 0x00 6. "       PCE          ,Port connect change enable - dis. - en." "dis,en"
bitfld.long 0x00 5. "       DPE          ,Descriptor processed interrupt enable - dis. - en." "dis,en"
textline "                         "
bitfld.long 0x00 4. " UFE         ,Unknown FIS interrupt enable - dis. - en." "dis,en"
bitfld.long 0x00 3. "       SDBE         ,Set device bits interrupt enable - dis. - en." "dis,en"
bitfld.long 0x00 2. "       DSE          ,DMA setup FIS interrupt enable - dis. - en." "dis,en"
textline "                         "
bitfld.long 0x00 1. " PSE         ,PIO setup FIS interrupt enable - dis. - en." "dis,en"
bitfld.long 0x00 0. "       DHRE         ,Device to host register FIS interrupt enable - dis. - en." "dis,en"
group.long 0x118++0x3
line.long 0x00 "SATA_PxCMD,Port command"
bitfld.long 0x00 28.--31. " ICC         ,Interface communication control Control of power management states of the interface If the link layer is in the L_IDLE state, writes cause the port to request a transition to a given interface state. If the link layer is not in the L_IDLE..." "noop,active,idle,3,4,5,PARTIAL,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 27. "   ASP          ,Aggressive SLUMBER/PARTIAL - PARTIAL. - SLUMBER." "PARTIAL,SLUMBER"
bitfld.long 0x00 26. "   ALPE         ,Aggressive link power management enable - dis. - en." "dis,en"
textline "                         "
bitfld.long 0x00 25. " DLAE        ,Drive LED on ATAPI enable - dis. - en." "dis,en"
bitfld.long 0x00 24. "       ATAPI        ,Device is ATAPI Used by the port to determine whether or not to assert pX_act_led output when commands are active. - no. - yes." "no,yes"
bitfld.long 0x00 23. "       APSTE        ,Auto PARTIAL to SLUMBER transition enable - dis. - en." "dis,en"
textline "                         "
bitfld.long 0x00 22. " FBSCP       ,FIS-based Switching Capable Port May only be set to ?1? if CAP.SPM = CAP.FBSS = 1 (not the case). Writable once after power up, read-only afterwards. - en. - en." "en,en"
bitfld.long 0x00 21. "        ESP          ,External SATA port Writable once after power up, read-only afterward - int. - ext." "int,ext"
bitfld.long 0x00 20. "       CPD          ,Cold presence detect Writable once after power up, read-only afterward - no. - yes." "no,yes"
textline "                         "
bitfld.long 0x00 19. " MPSP        ,Mechanical presence switch attached to port Writable once after power up, read-only afterward - no. - yes." "no,yes"
bitfld.long 0x00 18. "       HPCP         ,Hot plug capable port Writable once after power up, read-only afterward - no. - yes." "no,yes"
bitfld.long 0x00 17. "       PMA          ,PM attached Software is responsible for detecting the presence of a PM. There is no autodetection. - no. - yes." "no,yes"
textline "                         "
bitfld.long 0x00 16. " CPS         ,Cold presence state Reports whether a device is currently detected on this port as indicated by the pX_cp_det input state (assuming SATA_PxCMD.CPD = 1). - yes. - no." "no,yes"
bitfld.long 0x00 15. "       CR           ,Command list running For details, see the AHCI state-machine in Section 5.3.2 of the AHCI specification. - running. - stopped." "stopped,running"
bitfld.long 0x00 14. "   FR           ,FIS receive running For details, see Section 10.3.2 of the AHCI specification. - running. - stopped." "stopped,running"
textline "                         "
bitfld.long 0x00 13. " MPSS        ,Mechanical presence switch state Reports the state of a mechanical presence switch attached to this port as indicated by the pX_mp_switch input state (assuming SATA_CAP.SMPS = 1 and SATA_PxCMD.MPSP = 1) Cleared to 0 when SATA_CAP.SMPS = 0..." "closed,open"
bitfld.long 0x00 8.--12. "    CCS          ,Current command slot This field is valid when SATA_PxCMD.ST is set to 1 and is set to the command slot value of the command currently issued by the port. When SATA_PxCMD.ST transitions from 1 to 0, this field is reset to 0x00. After S..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 4. "        FRE          ,FIS receive enable Must not be set until SATA_PxFB / SATA_PxFBU is programmed with a valid pointer to the FIS receive area Base can be moved after clearing FRE and waiting for FR to clear to 0. - dis. - en." "dis,en"
textline "                         "
bitfld.long 0x00 3. " CLO         ,Command list override - noaction. - override. - active. - idle." "noaction,override"
bitfld.long 0x00 2. "  POD          ,Power-on device Writable if SATA_PxCMD.CPD = 1 (cold presence detection enabled), otherwise read-only -1. - no. - yes." "no,yes"
bitfld.long 0x00 1. "       SUD          ,Spin-up device Writable if SATA_CAP.SSS = 1 (staggered spin-up supported), else read-only 1. Read-only-0 on power-up until SATA_CAP.SSS bit is written with the required value. - noaction. - newEnum2." "noaction,newEnum2"
textline "                         "
bitfld.long 0x00 0. " ST          ,Start - newEnum1. - start." "newEnum1,start"
rgroup.long 0x120++0x3
line.long 0x00 "SATA_PxTFD,Port Task File Data: copies specific fields of the task file when FISes are received"
hexmask.long.byte 0x00 8.--15. 1. " ERR         ,Err: Latest copy of the task file error register"
bitfld.long 0x00 7. "        STS_BSY      ,Status, busy Latest copy of the 8-bit task file status register, bit 7 STS_BSY = Interface is busy" "0,1"
bitfld.long 0x00 4.--6. "         STS_CS2      ,Status, command-specific Latest copy of the 8-bit task file status register, bits 6:4" "0,1,2,3,4,5,6,7"
textline "                         "
bitfld.long 0x00 3. " STS_DRQ     ,Status, data request Latest copy of the 8-bit task file status register, bit 3 STS_DRQ = Data transfer is requested" "0,1"
bitfld.long 0x00 1.--2. "         STS_CS       ,Status, command-specific Latest copy of the 8-bit task file status register, bits 2:1" "0,1,2,3"
bitfld.long 0x00 0. "         STS_ERR      ,Status, error Latest copy of the 8-bit task file status register, bit 0 STS_ERR = Error during the transfer" "0,1"
rgroup.long 0x124++0x3
line.long 0x00 "SATA_PxSIG,Port signature: Signature received from a device on the first D2H register FIS. Updated once after a reset sequence."
hexmask.long.byte 0x00 24.--31. 1. " SIG_LBAH    ,Signature, LBA high (cylinder high) register"
hexmask.long.byte 0x00 16.--23. 1. "        SIG_LBAM     ,Signature, LBA mid (cylinder low) register"
hexmask.long.byte 0x00 8.--15. 1. "        SIG_LBAL     ,Signature, LBA low (sector number) register"
textline "                         "
hexmask.long.byte 0x00 0.--7. 1. " SIG_SCR     ,Signature, sector count register"
rgroup.long 0x128++0x3
line.long 0x00 "SATA_PxSSTS,Port SATA status Current state of the interface and host, updated continuously and asynchronously. When the port transmits a COMRESET to the device, this register is updated to its reset values (that is, global reset, port reset, or..."
bitfld.long 0x00 8.--11. " IPM         ,Interface power management: Current interface state - 2. - 1. - 0. - 6." "2,1,0,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 4.--7. "        SPD          ,Current interface speed: Negotiated interface communication speed - 3. - 2. - 1. - 0." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "        DET          ,Device detection: Interface device detection and PHY state - 3. - 1. - 0. - 4." "3,1,2,0,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x12C++0x3
line.long 0x00 "SATA_PxSCTL,Port SATA control Control of SATA interface capabilities. Writes to this register result in action taken by the port PHY interface. Reads from the register return the last value written to it. Reset on global reset. Wait for at least seven..."
bitfld.long 0x00 16.--19. " PMP         ,PM port: This field is not used by the AHCI." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "        SPM          ,Select power management: This field is not used by the AHCI." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "        IPM          ,Interface power management transitions allowed: Indicates which power states the HBA is allowed to transition to. If an interface power management state is disabled, the HBA is not allowed to initiate that state and the HBA must..." "0,1,3,2,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                         "
bitfld.long 0x00 4.--7. " SPD         ,Speed allowed: Highest allowable speed of the interface The two MSBs are always 2'b00 (not writable), as for all unreserved field values. - 0. - 1. - 2." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "        DET          ,Device detection initialization: Controls the HBA device detection and interface initialization. Can be modified only when SATA_PxCMD.ST = 0. Must have a value of 0x0 when SATA_PxCMD.ST = 1. MSB is always 1'b0 (not writable), as..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x130++0x3
line.long 0x00 "SATA_PxSERR,Port SATA error Detected interface errors accumulated since the last time it cleared. When set, indicates that the corresponding error condition became true one or more times since the last time cleared. Write 1 to a bit to clear it. Cleare..."
eventfld.long 0x00 26. " DIAG_X      ,Exchanged: PHY COMINIT signal detected. Reflected inSATA_PxIS.PCS." "0,1"
eventfld.long 0x00 25. "         DIAG_F       ,Unknown FIS type: One or more FISes were received by the transport layer with good CRC, but had a type field that was not recognized/known and the length was = 64 bytes. Note: If the unknown FIS length exceeds 64 bytes, DIAG_F is..." "0,1"
eventfld.long 0x00 24. "         DIAG_T       ,Transport state transition error: Transport Layer protocol violation detected." "0,1"
textline "                         "
eventfld.long 0x00 23. " DIAG_S      ,Link sequence error: One or more Link state machine error conditions encountered, including device doing SYNC escape during FIS transmission." "0,1"
eventfld.long 0x00 22. "         DIAG_H       ,Handshake error: One or more R-ERRp received in response to frame transmission. May be the result of a CRC error detected by the device, a disparity or 8b/10b decoding error, or other error condition leading to a negative..." "0,1"
eventfld.long 0x00 21. "         DIAG_C       ,CRC error: One ore more CRC errors detected by the link layer during FIS reception." "0,1"
textline "                         "
bitfld.long 0x00 20. " DIAG_D      ,Disparity error: Not used by AHCI, always 0." "0,1"
eventfld.long 0x00 19. "         DIAG_B       ,10bit-to-8bit decode error: Errors detected by the 10b8b decoder. Note: Set only when an error is detected on the received FIS data word. Not set when an error is detected on the primitive, regardless of whether it is inside or..." "0,1"
eventfld.long 0x00 18. "         DIAG_W       ,Comm wake: Comm wake signal detected by the PHY." "0,1"
textline "                         "
eventfld.long 0x00 17. " DIAG_I      ,PHY internal error: Internal error detected by the PHY. Note: If the PHY does not support any errors, this bit is never set." "0,1"
eventfld.long 0x00 16. "         DIAG_N       ,PhyRdy change: Indicates that the PHY Ready signal changed state. Reflected inSATA_PxIS.PRCS." "0,1"
eventfld.long 0x00 11. "         ERR_E        ,Internal error: One or more errors detected on the master (DMA) or the slave (MMR access) interfaces." "0,1"
textline "                         "
eventfld.long 0x00 10. " ERR_P       ,Protocol error: Any of the following conditions: - Transport state transition error (DIAG_T) - Link sequence error (DIAG_S) - RxFIFO overflow - Link bad end error (WTRM instead of EOF received)" "0,1"
eventfld.long 0x00 9. "         ERR_C        ,Nonrecovered persistent communication error: PHY Ready signal is negated due to loss of communication with the device or problems with the interface, but not after transition from ACTIVE to PARTIAL or SLUMBER power management..." "0,1"
eventfld.long 0x00 8. "         ERR_T        ,Nonrecovered transient data integrity error: Any of the following conditions are set during data FIS transfer: - ERR_P (Protocol) - DIAG_C (CRC) - DIAG_H (Handshake) - ERR_C (PHY Ready negation)" "0,1"
textline "                         "
eventfld.long 0x00 1. " ERR_M       ,Recovered communication error: PHY Ready condition is detected after interface initialization, but not after transition from PARTIAL or SLUMBER power management state to ACTIVE state." "0,1"
eventfld.long 0x00 0. "         ERR_I        ,Recovered data integrity error: Any of the following conditions are set during non-data FIS transfer: - ERR_P (Protocol) - DIAG_C (CRC) - DIAG_H (Handshake) - ERR_C (PHY Ready negation)" "0,1"
group.long 0x134++0x3
line.long 0x00 "SATA_PxSACT,Port SATA active (SActive): Indicates which command slots contain commands."
hexmask.long 0x00 0.--31. 1. " DS          ,Device status: Field is bit-significant. Each bit corresponds to the TAG and command slot of a native queued command, where bit 0 corresponds to TAG 0 and command slot 0. Set by Software prior to issuing a native queued command for a part..."
group.long 0x138++0x3
line.long 0x00 "SATA_PxCI,Port command issue: Indicates that a command is constructed and may be carried out."
hexmask.long 0x00 0.--31. 1. " CI          ,Commands issue: Field is bit-significant. Each bit corresponds to a command slot, where bit 0 corresponds to command slot 0. This field is set by software to indicate to the port that a command is built in system memory for a command slot..."
group.long 0x13C++0x3
line.long 0x00 "SATA_PxSNTF,Port SATA notification: Used to determine if asynchronous notification events have occurred for directly connected devices and devices connected to a PM."
hexmask.long.word 0x00 0.--15. 1. " PMN         ,PM notify: Indicates whether a particular device with the corresponding PM port number issued a set device bits FIS to the SATA controller Port with the notification bit set: - PM Port 0h sets bit 0. - PM Port 0h sets bit 1. - etc. Write..."
group.long 0x170++0x3
line.long 0x00 "SATA_PxDMACR,Port DMA control register. Not AHCI-standard. Writable only when.ST = 0. Attempts to write a field value less than the minimum or more than the maximum cause the field to be set to the minimum or the maximum. Reset on global reset and port..."
bitfld.long 0x00 4.--7. " RXTS        ,Receive transaction size: DMA transaction size for receive operations (system bus write, device read). - 64. - 2. - 1. - 4. - 16. - 32. - 8." "64,2,1,4,16,32,8,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "        TXTS         ,Transmit transaction size: DMA transaction size for transmit operations (system bus read, device write). - 2. - 1. - 4. - 16. - 32. - 8." "2,1,4,16,32,8,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree "SATAMAC_wrapper"
base ad:0x4A141100
width 16.
group.long 0x0++0x3
line.long 0x00 "SATA_SYSCONFIG,This register controls the idle and standby modes of Highlander 08 modules."
bitfld.long 0x00 16. " OVERRIDE0      ,Override for clock stopping. Normally the functional clock can be stopped only if the link is put into PARTIAL or SLUMBER power state. However, if there is no device attached (such as in a removable media situation) or the device is no..." "normal,override"
bitfld.long 0x00 4.--5. "  STANDBYMODE ,Configuration of the local initiator-state management mode. By definition, the initiator can generate a read/write transaction as long as it is out of STANDBY state. - force. - no. - smart_wakeup. - smart." "force,no,smart_wakeup,smart"
bitfld.long 0x00 2.--3. "  IDLEMODE ,Configuration of the local target state management mode. By definition, the target can handle read/write transaction as long as it is out of IDLE state. - force. - no. - smartwakeup. - smart." "force,no,smartwakeup,smart"
group.long 0x4++0x3
line.long 0x00 "SATA_CDRLOCK,Programmable delay for CDR lock indication"
hexmask.long.word 0x00 0.--11. 1. " CDR_LOCK_DELAY ,CDR lock delay, in parallel (10-bit) serdes interface clock cycles. Parallel clock is 300 MHz (3.3 ns period) for SATA-3GT/s, 150 MHz (6.7 ns) for SATA-1.5GT/s. - off. - nominal."
width 0x0B
tree.end
tree.end
tree.open "PCIe_Controller"
tree.open "PCIe_SS1_EP_CFG_PCIe"
tree "PCIe_SS1_EP_CFG_PCIe"
base ad:0x20000000
width 46.
rgroup.long 0x0++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_DEVICE_VENDORID,Device and Vendor ID"
hexmask.long.word 0x00 16.--31. 1. " DEVICEID                     ,Device ID (CS)"
hexmask.long.word 0x00 0.--15. 1. "      VENDORID                  ,Vendor ID (CS)"
group.long 0x4++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_STATUS_COMMAND_REGISTER,Status and Command registers"
bitfld.long 0x00 31. " DETECT_PARERR                ,Detected Parity Error" "0,1"
bitfld.long 0x00 30. "         SIGNAL_SYSERR             ,Signaled System Error" "0,1"
bitfld.long 0x00 29. "     RCVD_MASTERABORT            ,Received Master Abort" "0,1"
textline "                                                       "
bitfld.long 0x00 28. " RCVD_TRGTABORT               ,Received Target Abort" "0,1"
bitfld.long 0x00 27. "         SIGNAL_TRGTABORT          ,Signaled Target Abort" "0,1"
bitfld.long 0x00 25.--26. "     DEVSEL_TIME                 ,DevSel Timing, Harsdwired to 0 for PCIExpress" "0,1,2,3"
textline "                                                       "
bitfld.long 0x00 24. " MASTERDATA_PARERR            ,Master Data Parity Error" "0,1"
bitfld.long 0x00 23. "         FAST_B2B                  ,Back to Back Capable, Harsdwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 21. "     C66MHZ_CAP                  ,66MHz Capable, Harsdwired to 0 for PCIExpress" "0,1"
textline "                                                       "
bitfld.long 0x00 20. " CAP_LIST                     ,Capabilities List Hardwired to 1" "0,1"
bitfld.long 0x00 19. "         INTX_STATUS               ,INTx Status" "0,1"
bitfld.long 0x00 10. "     INTX_ASSER_DIS              ,INTx Assertion Disable" "0,1"
textline "                                                       "
bitfld.long 0x00 9. " FAST_BBEN                    ,Bit hardwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 8. "         SERR_EN                   ,SERR Enable" "0,1"
bitfld.long 0x00 7. "     IDSEL_CTRL                  ,Bit hardwired to 0 for PCIExpress" "0,1"
textline "                                                       "
bitfld.long 0x00 6. " PARITYERRRESP                ,Parity Error Response" "0,1"
bitfld.long 0x00 5. "         VGA_SNOOP                 ,Not Applicable forPCI Express Bit hardwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 4. "     MEMWR_INVA                  ,Not Applicable for PCI Express Bit hardwired to 0 for PCIExpress" "0,1"
textline "                                                       "
bitfld.long 0x00 3. " SPEC_CYCLE_EN                ,Not Applicable for PCI Express Bit hardwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 2. "         BUSMASTER_EN              ,Bus Master Enable" "0,1"
bitfld.long 0x00 1. "     MEM_SPACE_EN                ,Memory Space Enable" "0,1"
textline "                                                       "
bitfld.long 0x00 0. " IO_SPACE_EN                  ,IO Space Enable" "0,1"
rgroup.long 0x8++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_CLASSCODE_REVISIONID,Class code and Revision ID"
hexmask.long.byte 0x00 24.--31. 1. " BASE_CLS_CD                  ,Base Class Code (CS)"
hexmask.long.byte 0x00 16.--23. 1. "        SUBCLS_CD                 ,Sub Class Code (CS)"
hexmask.long.byte 0x00 8.--15. 1. "    PROG_IF_CODE                ,Programming Interface Code (CS)"
textline "                                                       "
hexmask.long.byte 0x00 0.--7. 1. " REVID                        ,Revision ID (CS)"
group.long 0xC++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_BIST_HEAD_LAT_CACH,BIST, Header Type, Latency Timer, Cache Line Size"
hexmask.long.byte 0x00 24.--31. 1. " BIST                         ,BIST"
bitfld.long 0x00 23. "        MFD                       ,MultiFunction Device" "0,1"
hexmask.long.byte 0x00 16.--22. 1. "     HEAD_TYP                    ,Header Type 0x0 = EP header 0x1 = RC header"
textline "                                                       "
hexmask.long.byte 0x00 8.--15. 1. " MSTR_LAT_TIM                 ,Master Latency Timer, Not Applicable for PCIe hence hardwired to 0"
hexmask.long.byte 0x00 0.--7. 1. "        CACH_LN_SZE               ,Cache Line Size, No impact on write, write is allowed only for legacy purpose"
group.long 0x10++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_BAR0,Base Address Register 0 Bit #0 is also a WO BAR enable (CS2) BAR Mask is writable (CS2)"
hexmask.long.word 0x00 20.--31. 1. " BASE_ADDR_RW                 ,Base address bits (for a 64-bit BAR, upper base address bits are in BAR above) Unmasked MSBs, as set by BAR mask"
hexmask.long.word 0x00 4.--19. 1. "      BASE_ADDR_RO              ,Base address bits (for a 64-bit BAR, upper base address bits are in BAR above) Masked LSBs, as set by BAR mask"
bitfld.long 0x00 3. "  PREFETCHABLE                ,MEM BAR: Prefetchable (CS) I/O BAR: bit 1 is part of I/O address" "0,1"
textline "                                                       "
bitfld.long 0x00 1.--2. " AS                           ,MEM BAR: Address Size (CS) Read 0x0 = 32 Bit Read 0x2 = 64 Bit" "0,1,2,3"
bitfld.long 0x00 0. "         SPACE_INDICATOR           ,BAR I/O vs memory space indicator (CS) 0x0 = BAR type is Memory 0x1 = BAR type is I/O" "0,1"
group.long 0x14++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_BAR1,Base Address Register 1 If BAR0.AS = 64-bit: upper half of BAR0 base address If BAR0.AS = 32-bit: independent 32-bit BAR Bit #0 is also a WO BAR enable (CS2) BAR Mask is writable (CS2)"
hexmask.long.word 0x00 20.--31. 1. " BASE_ADDR_RW                 ,Base address bits (for a 64-bit BAR, lower base address bits are in BAR below) Unmasked MSBs, as set by BAR mask"
hexmask.long.word 0x00 4.--19. 1. "      BASE_ADDR_RO              ,Base address bits (for a 64-bit BAR, lower base address bits are in BAR below) Masked LSBs, as set by BAR mask"
bitfld.long 0x00 3. "  PREFETCHABLE                ,MEM BAR: Prefetchable (CS) I/O BAR: bit 1 is part of I/O address" "0,1"
textline "                                                       "
bitfld.long 0x00 1.--2. " AS                           ,MEM BAR: Address Size (CS) I/O BAR: bit 0 is always 0, bit 1 is LSBit of I/O address Read 0x0 = 32 Bit Read 0x2 = 64 Bit" "0,1,2,3"
bitfld.long 0x00 0. "         SPACE_INDICATOR           ,BAR I/O vs memory space indicator (CS) 0x0 = BAR type is Memory 0x1 = BAR type is I/O" "0,1"
group.long 0x18++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_BAR2,Base Address Register 2 Bit #0 is also a WO BAR enable (CS2) BAR Mask is writable (CS2)"
hexmask.long.word 0x00 20.--31. 1. " BASE_ADDR_RW                 ,Base address bits (for a 64-bit BAR, upper base address bits are in BAR above) Unmasked MSBs, as set by BAR mask"
hexmask.long.word 0x00 4.--19. 1. "      BASE_ADDR_RO              ,Base address bits (for a 64-bit BAR, upper base address bits are in BAR above) Masked LSBs, as set by BAR mask"
bitfld.long 0x00 3. "  PREFETCHABLE                ,MEM BAR: Prefetchable (CS) I/O BAR: bit 1 is part of I/O address" "0,1"
textline "                                                       "
bitfld.long 0x00 1.--2. " AS                           ,MEM BAR: Address Size (CS) I/O BAR: bit 0 is always 0, bit 1 is LSBit of I/O address Read 0x0 = 32 Bit Read 0x2 = 64 Bit" "0,1,2,3"
bitfld.long 0x00 0. "         SPACE_INDICATOR           ,BAR I/O vs memory space indicator (CS) 0x0 = BAR type is Memory 0x1 = BAR type is I/O" "0,1"
group.long 0x1C++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_BAR3,Base Address Register 3 If BAR2.AS = 64-bit: upper half of BAR2 base address If BAR2.AS = 32-bit: independent 32-bit BAR Bit #0 is also a WO BAR enable (CS2) BAR Mask is writable (CS2)"
hexmask.long.word 0x00 20.--31. 1. " BASE_ADDR_RW                 ,Base address bits (for a 64-bit BAR, lower base address bits are in BAR below) Unmasked MSBs, as set by BAR mask"
hexmask.long.word 0x00 4.--19. 1. "      BASE_ADDR_RO              ,Base address bits (for a 64-bit BAR, lower base address bits are in BAR below) Masked LSBs, as set by BAR mask"
bitfld.long 0x00 3. "  PREFETCHABLE                ,MEM BAR: Prefetchable (CS) I/O BAR: bit 1 is part of I/O address" "0,1"
textline "                                                       "
bitfld.long 0x00 1.--2. " AS                           ,MEM BAR: Address Size (CS) I/O BAR: bit 0 is always 0, bit 1 is LSBit of I/O address Read 0x0 = 32 Bit Read 0x2 = 64 Bit" "0,1,2,3"
bitfld.long 0x00 0. "         SPACE_INDICATOR           ,BAR I/O vs memory space indicator (CS) 0x0 = BAR type is Memory 0x1 = BAR type is I/O" "0,1"
group.long 0x20++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_BAR4,Base Address Register 4 Bit #0 is also a WO BAR enable (CS2) BAR Mask is writable (CS2)"
hexmask.long.tbyte 0x00 12.--31. 1. " BASE_ADDR_RW                 ,Base address bits (for a 64-bit BAR, upper base address bits are in BAR above) Unmasked MSBs, as set by BAR mask"
hexmask.long.byte 0x00 4.--11. 1. "    BASE_ADDR_RO              ,Base address bits (for a 64-bit BAR, upper base address bits are in BAR above) Masked LSBs, as set by BAR mask"
bitfld.long 0x00 3. "    PREFETCHABLE                ,MEM BAR: Prefetchable (CS) I/O BAR: bit 1 is part of I/O address" "0,1"
textline "                                                       "
bitfld.long 0x00 1.--2. " AS                           ,MEM BAR: Address Size (CS) I/O BAR: bit 0 is always 0, bit 1 is LSBit of I/O address Read 0x0 = 32 Bit Read 0x2 = 64 Bit" "0,1,2,3"
bitfld.long 0x00 0. "         SPACE_INDICATOR           ,BAR I/O vs memory space indicator (CS) 0x0 = BAR type is Memory 0x1 = BAR type is I/O" "0,1"
group.long 0x24++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_BAR5,Base Address Register 5 If BAR4.AS = 64-bit: upper half of BAR4 base address If BAR4.AS = 32-bit: independent 32-bit BAR Bit #0 is also a WO BAR enable (CS2) BAR Mask is writable (CS2)"
hexmask.long.word 0x00 20.--31. 1. " BASE_ADDR_RW                 ,Base address bits (for a 64-bit BAR, lower base address bits are in BAR below) Unmasked MSBs, as set by BAR mask"
hexmask.long.word 0x00 4.--19. 1. "      BASE_ADDR_RO              ,Base address bits (for a 64-bit BAR, lower base address bits are in BAR below) Masked LSBs, as set by BAR mask"
bitfld.long 0x00 3. "  PREFETCHABLE                ,MEM BAR: Prefetchable (CS) I/O BAR: bit 1 is part of I/O address" "0,1"
textline "                                                       "
bitfld.long 0x00 1.--2. " AS                           ,MEM BAR: Address Size (CS) I/O BAR: bit 0 is always 0, bit 1 is LSBit of I/O address Read 0x0 = 32 Bit Read 0x2 = 64 Bit" "0,1,2,3"
bitfld.long 0x00 0. "         SPACE_INDICATOR           ,BAR I/O vs memory space indicator (CS) 0x0 = BAR type is Memory 0x1 = BAR type is I/O" "0,1"
rgroup.long 0x28++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_CARDBUS_CIS_POINTER,"
hexmask.long 0x00 0.--31. 1. " CARDBUS_CIS_PTR_N            ,Cardbus CIS pointer (CS)"
rgroup.long 0x2C++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_SUBID_SUBVENDORID,"
hexmask.long.word 0x00 16.--31. 1. " SUBSYS_DEV_ID_N              ,Subsystem ID (CS)"
hexmask.long.word 0x00 0.--15. 1. "      SUBSYS_VENDOR_ID_N        ,Subsystem Vendor ID (CS)"
group.long 0x30++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_EXPANSION_ROM_BAR,Expansion ROM Base Address Register"
hexmask.long.word 0x00 16.--31. 1. " EXROM_ADDRESS                ,Expansion ROM address, unmasked (i.e. programmable)."
bitfld.long 0x00 11.--15. "      EXROM_ADDRESS_RO          ,Expansion ROM address, masked." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0. "    EXROM_EN                    ,Expansion ROM Enable" "0,1"
rgroup.long 0x34++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_CAPPTR,CapPtr"
hexmask.long.byte 0x00 0.--7. 1. " CAPTR                        ,First Capability Pointer (CS)"
group.long 0x3C++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_INTERRUPT,Int Pin and line"
hexmask.long.byte 0x00 8.--15. 1. " INT_PIN                      ,Interrupt Pin (CS)"
hexmask.long.byte 0x00 0.--7. 1. "        INT_LIN                   ,Interrupt Line"
rgroup.long 0x40++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_PM_CAP,Power Management Capability structure header"
bitfld.long 0x00 27.--31. " PME_SP                       ,PME Support (CS); Power states from which PME messages can be sent (active hi, one bit per state) Bit 0: from D0 Bit 1: from D1 Bit 2: from D2 Bit 3: from D3hot Bit 4: from D3cold (if Vaux present)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 26. "        D2_SP                     ,D2 Support (CS)" "0,1"
bitfld.long 0x00 25. "     D1_SP                       ,D1 Support (CS)" "0,1"
textline "                                                       "
bitfld.long 0x00 22.--24. " AUX_CUR                      ,AUX Current (CS)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 21. "         DSI                       ,Device Specific Initialization (CS)" "0,1"
bitfld.long 0x00 19. "     PME_CLK                     ,PME Clock, hardwired to 0 (CS)" "0,1"
textline "                                                       "
bitfld.long 0x00 16.--18. " PMC_VER                      ,Power Management specification version (CS)" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 8.--15. 1. "         PM_NX_PTR                 ,Next Capability Pointer (CS)"
hexmask.long.byte 0x00 0.--7. 1. "    CAP_ID                      ,Capability ID - ."
group.long 0x44++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_PM_CSR,Power Management Control and Status Register"
hexmask.long.byte 0x00 24.--31. 1. " DATA1                        ,Data register for additional information(not supported)"
bitfld.long 0x00 23. "        BP_CCE                    ,Bus Power/Clock Control Enable, hardwired to 0" "0,1"
bitfld.long 0x00 22. "     B2B3_SP                     ,B2/B3 Support, hardwired to 0" "0,1"
textline "                                                       "
eventfld.long 0x00 15. " PME_STATUS                   ,PME Status (Sticky bit)" "0,1"
bitfld.long 0x00 13.--14. "         DATA_SCALE                ,Data Scale (not supported)" "0,1,2,3"
bitfld.long 0x00 9.--12. "     DATA_SEL                    ,Data Select (not supported)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                                       "
bitfld.long 0x00 8. " PME_EN                       ,PME Enable (Sticky bit) - . - ." "0,1"
bitfld.long 0x00 3. "         NSR                       ,No Soft Reset (CS)" "0,1"
bitfld.long 0x00 0.--1. "     PWR_STATE                   ,Device Power State - . - . - . - ." "D0_state,D1_state,D2_state,D3_state"
rgroup.long 0x70++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_PCIE_CAP,PCIE cap structure"
bitfld.long 0x00 25.--29. " IM_NUM                       ,Interrupt Message Number (CS)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 24. "        SLOT                      ,Slot Implemented Must be 0 for an endpoint" "0,1"
bitfld.long 0x00 20.--23. "     DEV_TYPE                    ,Device/Port Type Value depends on assigned type 0x0 = PCIe endpoint 0x1 = Legacy PCIe endpoint" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                                       "
bitfld.long 0x00 16.--19. " PCIE_VER                     ,PCI Express Capability Version" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 8.--15. 1. "        PCIE_NX_PTR               ,Next Capability Pointer (CS)"
hexmask.long.byte 0x00 0.--7. 1. "    CAP_ID                      ,Capability ID"
rgroup.long 0x74++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_DEV_CAP,PCIE Device Capabilities"
bitfld.long 0x00 28. " FLR_EN                       ,Function Level Reset Capability (CS)" "0,1"
bitfld.long 0x00 26.--27. "         CAPT_SLOW_PWRLIMIT_SCALE  ,Captured Slow Power Scale Value (CS)" "0,1,2,3"
hexmask.long.byte 0x00 18.--25. 1. "     CAPT_SLOW_PWRLIMIT_VALUE    ,Captured Slow Power Limit Value (CS)"
textline "                                                       "
bitfld.long 0x00 15. " ROLEBASED_ERRRPT             ,Role Based Error Reporting (CS)" "0,1"
bitfld.long 0x00 12.--14. "         UNDEFINED                 ,Undefined from PCIe 1.1 onwards (CS)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 9.--11. "     DEFAULT_EP_L1_ACCPT_LATENCY ,Endpoint L1 Acceptable Latency (CS)" "0,1,2,3,4,5,6,7"
textline "                                                       "
bitfld.long 0x00 6.--8. " DEFAULT_EP_L0S_ACCPT_LATENCY ,Endpoint L0s Acceptable Latency (CS)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 5. "         EXTTAGFIELD_SUPPORT       ,Value derived from DEFAULT_EXT_TAG_FIELD_SUPPORTED" "0,1"
bitfld.long 0x00 3.--4. "     PHANTOMFUNC                 ,Phantom Function Support, NOT SUPPORTED (CS)" "0,1,2,3"
textline "                                                       "
bitfld.long 0x00 0.--2. " MAX_PAYLOAD_SIZE             ,Maximum Payload Size (CS) Read 0x1 = 256 Byte" "0,1,2,3,4,5,6,7"
group.long 0x78++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_DEV_CAS,PCIE Device Control and Status"
bitfld.long 0x00 21. " TRANS_PEND                   ,Transaction Pending" "0,1"
bitfld.long 0x00 20. "         AUXP_DET                  ,Aux Power Detected" "0,1"
bitfld.long 0x00 19. "     UR_DET                      ,Unsupported Request Detected" "0,1"
textline "                                                       "
bitfld.long 0x00 18. " FT_DET                       ,Fatal Error Detected" "0,1"
bitfld.long 0x00 17. "         NFT_DET                   ,Non-Fatal Error Detected" "0,1"
bitfld.long 0x00 16. "     COR_DET                     ,Correctable Error Detected" "0,1"
textline "                                                       "
bitfld.long 0x00 15. " INIT_FLR                     ,Reserved" "0,1"
bitfld.long 0x00 12.--14. "         MRRS                      ,Max_Read_Request_Size" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 11. "     NOSNP_EN                    ,Enable No Snoop" "0,1"
textline "                                                       "
bitfld.long 0x00 10. " AUXPM_EN                     ,AUX Power PM Enable" "0,1"
bitfld.long 0x00 9. "         PHFUN_EN                  ,Phantom Function Enable" "0,1"
bitfld.long 0x00 8. "     EXTAG_EN                    ,Extended Tag Field Enable" "0,1"
textline "                                                       "
bitfld.long 0x00 5.--7. " MPS                          ,Max_Payload_Size" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4. "         EN_RO                     ,Enable Relaxed Ordering" "0,1"
bitfld.long 0x00 3. "     UR_RE                       ,Unsupported Request Reporting Enable" "0,1"
textline "                                                       "
bitfld.long 0x00 2. " FT_RE                        ,Fatal Error Reporting Enable" "0,1"
bitfld.long 0x00 1. "         NFT_RE                    ,Non-Fatal Error Reporting Enable" "0,1"
bitfld.long 0x00 0. "     COR_RE                      ,Correctable Error Reporting Enable" "0,1"
rgroup.long 0x7C++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_LNK_CAP,PCIE Link Capabilities"
hexmask.long.byte 0x00 24.--31. 1. " PORT_NUM                     ,Port Number (CS)"
bitfld.long 0x00 22. "        ASPM_OPT_COMP             ,ASPM Optionality Compliance (CS)" "0,1"
bitfld.long 0x00 21. "     LNK_BW_NOT_CAP              ,Link Bandwidth Notification Capability (CS)" "0,1"
textline "                                                       "
bitfld.long 0x00 20. " DLL_ACTRPT_CAP               ,Data Link Layer Active Reporting Capable" "0,1"
bitfld.long 0x00 19. "         UNSUP                     ,Unsupported, Surprise Down Error Reporting Capable, Hardwired to 0" "0,1"
bitfld.long 0x00 18. "     CLK_PWR_MGMT                ,Clock Power Management (CS)" "0,1"
textline "                                                       "
bitfld.long 0x00 15.--17. " L1_EXIT_LAT                  ,L1 Exit Latency (CS2)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "         L0S_EXIT_LAT              ,L0s Exit Latency (CS2)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 10.--11. "     AS_LINK_PM_SUPPORT          ,Active State Link PM (ASPM) Support (CS)" "0,1,2,3"
textline "                                                       "
bitfld.long 0x00 4.--9. " MAX_LINK_WIDTH               ,Max Link Width (lanes) (CS)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--3. "        MAX_LINK_SPEEDS           ,Supported Max Link Speed (CS) 0x1 = 2.5 GT/s (GEN1) 0x2 = 5 GT/s (GEN2) 0x4 = 8 GT/s (GEN3)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_LNK_CAS,PCIE Link Control and Status"
bitfld.long 0x00 31. " LAB_STATUS                   ,Link Autonomous Bandwidth Status" "0,1"
bitfld.long 0x00 30. "         LBW_STATUS                ,Link Bandwidth Management Status" "0,1"
bitfld.long 0x00 29. "     DLL_ACT                     ,Data Link Layer Active" "0,1"
textline "                                                       "
bitfld.long 0x00 28. " SLOT_CLK_CONFIG              ,Slot Clock Configuration (CS)" "0,1"
bitfld.long 0x00 27. "         LINK_TRAIN                ,LINK training" "0,1"
bitfld.long 0x00 26. "     UNDEF                       ,Undefined" "0,1"
textline "                                                       "
bitfld.long 0x00 20.--25. " NEG_LW                       ,Negotiated Link Width UNDEFINED UNTIL LINK IS UP." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 16.--19. "        LINK_SPEED                ,Link Speed UNDEFINED UNTIL LINK IS UP." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "    LABIE                       ,Link Autonomous Bandwidth Interrupt Enable." "0,1"
textline "                                                       "
bitfld.long 0x00 10. " LBMIE                        ,Link Bandwidth Management Interrupt Enable" "0,1"
bitfld.long 0x00 9. "         HAWD                      ,Hardware Autonomous Width Disable" "0,1"
bitfld.long 0x00 8. "     EN_CPM                      ,Enable Clock Power Management" "0,1"
textline "                                                       "
bitfld.long 0x00 7. " EXT_SYN                      ,Extended Synch" "0,1"
bitfld.long 0x00 6. "         COM_CLK_CFG               ,Common Clock Configuration" "0,1"
bitfld.long 0x00 5. "     RETRAIN_LINK                ,Retrain Link" "0,1"
textline "                                                       "
bitfld.long 0x00 4. " LINK_DIS                     ,Link Disable" "0,1"
bitfld.long 0x00 3. "         RCB                       ,Read Completion Boundary (CS) 0x0 = 64 Byte 0x1 = 128 Byte" "0,1"
bitfld.long 0x00 0.--1. "     ASPM_CTRL                   ,Active State Link PM Control 0x0: DISABLED 0x1: L0S_ENABLED 0x2: L1_ENABLED 0x3: L0S_AND_L1_ENABLED" "0,1,2,3"
rgroup.long 0x94++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_DEV_CAP_2,Device Capabilities 2 Register"
bitfld.long 0x00 12.--13. " TPHC_SP                      ,TPH Completer Supported" "0,1,2,3"
bitfld.long 0x00 10. "         NOROPR                    ,No RO-enabled PR-PR Passing" "0,1"
bitfld.long 0x00 9. "     CASC128_SP                  ,128-bit CAS Completer Supported" "0,1"
textline "                                                       "
bitfld.long 0x00 8. " AOC64_SP                     ,64-bit AtomicOp Completer Supported" "0,1"
bitfld.long 0x00 7. "         AOC32_SP                  ,32-bit AtomicOp Completer Supported" "0,1"
bitfld.long 0x00 6. "     AOR_SP                      ,AtomicOp Routing Supported" "0,1"
textline "                                                       "
bitfld.long 0x00 5. " ARI_FWD_SP                   ,ARI Forwarding Supported" "0,1"
bitfld.long 0x00 4. "         CPL_TIMEOUT_DIS_SUPPORTED ,Completion Timeout Disable Supported" "0,1"
bitfld.long 0x00 0.--3. "     CPL_TIMEOUT_RNG_SUPPORTED   ,Completion Timeout Ranges Supported" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x98++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_DEV_CAS_2,Device Control 2 Register"
bitfld.long 0x00 13.--14. " OBFF_EN                      ,OBFF Enable" "0,1,2,3"
bitfld.long 0x00 10. "         LTR_EN                    ,LTR Mechanism Enable" "0,1"
bitfld.long 0x00 9. "     IDO_CPL_EN                  ,IDO Completion Enable" "0,1"
textline "                                                       "
bitfld.long 0x00 8. " IDO_REQ_EN                   ,IDO Request Enable" "0,1"
bitfld.long 0x00 7. "         AOP_EG_BLK                ,AtomicOp Egress Blocking" "0,1"
bitfld.long 0x00 6. "     AOP_REQ_EN                  ,AtomicOp Requester Enable" "0,1"
textline "                                                       "
bitfld.long 0x00 5. " ARI_FWD_SP                   ,ARI Forwarding Supported" "0,1"
bitfld.long 0x00 4. "         CPL_TIMEOUT_DIS           ,Completion Timeout Disable" "0,1"
bitfld.long 0x00 0.--3. "     CPL_TIMEOUT_VALUE           ,Completion Timeout Values" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x9C++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_LNK_CAP_2,PCIE Link Capabilities 2 Register"
bitfld.long 0x00 8. " CROSSLINK_SP                 ,Crosslink Supported" "0,1"
hexmask.long.byte 0x00 1.--7. 1. "         SP_LS_VEC                 ,Supported Link Speeds Vector"
group.long 0xA0++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_LNK_CAS_2,Link Control and Status 2 Register"
eventfld.long 0x00 21. " LINK_EQ_REQ                  ,Link Equilization Request" "0,1"
bitfld.long 0x00 20. "         EQ_PH3                    ,Equalization Ph3 Success, Gen3 Only" "0,1"
bitfld.long 0x00 19. "     EQ_PH2                      ,Equalization Ph2 Success, Gen3 Only" "0,1"
textline "                                                       "
bitfld.long 0x00 18. " EQ_PH1                       ,Equalization Ph1 Success, Gen3 Only" "0,1"
bitfld.long 0x00 17. "         EQ_COMPLETE               ,Equalization Complete, Gen3 Only" "0,1"
bitfld.long 0x00 16. "     DEEMPH_LEVEL                ,Current De-emphasis Level" "0,1"
textline "                                                       "
bitfld.long 0x00 12.--15. " COMPL_PRST_DEEPH             ,Compliance Pre-set/ De-emphasis" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "        COMPL_SOS                 ,Compliance SOS" "0,1"
bitfld.long 0x00 10. "     ENT_MOD_COMPL               ,Enter Modified Compliance" "0,1"
textline "                                                       "
bitfld.long 0x00 7.--9. " TX_MARGIN                    ,Transmit Margin" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6. "         SEL_DEEMP                 ,Selectable De-emphasize" "0,1"
bitfld.long 0x00 5. "     HW_AUTO_SP_DIS              ,Hardware Autonomous Speed Disable" "0,1"
textline "                                                       "
bitfld.long 0x00 4. " ENTR_COMPL                   ,Enter Compliance" "0,1"
bitfld.long 0x00 0.--3. "         TRGT_LINK_SPEED           ,Target Link Speed" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree "PCIe_SS2_EP_CFG_PCIe"
base ad:0x30000000
width 46.
rgroup.long 0x0++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_DEVICE_VENDORID,Device and Vendor ID"
hexmask.long.word 0x00 16.--31. 1. " DEVICEID                     ,Device ID (CS)"
hexmask.long.word 0x00 0.--15. 1. "      VENDORID                  ,Vendor ID (CS)"
group.long 0x4++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_STATUS_COMMAND_REGISTER,Status and Command registers"
bitfld.long 0x00 31. " DETECT_PARERR                ,Detected Parity Error" "0,1"
bitfld.long 0x00 30. "         SIGNAL_SYSERR             ,Signaled System Error" "0,1"
bitfld.long 0x00 29. "     RCVD_MASTERABORT            ,Received Master Abort" "0,1"
textline "                                                       "
bitfld.long 0x00 28. " RCVD_TRGTABORT               ,Received Target Abort" "0,1"
bitfld.long 0x00 27. "         SIGNAL_TRGTABORT          ,Signaled Target Abort" "0,1"
bitfld.long 0x00 25.--26. "     DEVSEL_TIME                 ,DevSel Timing, Harsdwired to 0 for PCIExpress" "0,1,2,3"
textline "                                                       "
bitfld.long 0x00 24. " MASTERDATA_PARERR            ,Master Data Parity Error" "0,1"
bitfld.long 0x00 23. "         FAST_B2B                  ,Back to Back Capable, Harsdwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 21. "     C66MHZ_CAP                  ,66MHz Capable, Harsdwired to 0 for PCIExpress" "0,1"
textline "                                                       "
bitfld.long 0x00 20. " CAP_LIST                     ,Capabilities List Hardwired to 1" "0,1"
bitfld.long 0x00 19. "         INTX_STATUS               ,INTx Status" "0,1"
bitfld.long 0x00 10. "     INTX_ASSER_DIS              ,INTx Assertion Disable" "0,1"
textline "                                                       "
bitfld.long 0x00 9. " FAST_BBEN                    ,Bit hardwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 8. "         SERR_EN                   ,SERR Enable" "0,1"
bitfld.long 0x00 7. "     IDSEL_CTRL                  ,Bit hardwired to 0 for PCIExpress" "0,1"
textline "                                                       "
bitfld.long 0x00 6. " PARITYERRRESP                ,Parity Error Response" "0,1"
bitfld.long 0x00 5. "         VGA_SNOOP                 ,Not Applicable forPCI Express Bit hardwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 4. "     MEMWR_INVA                  ,Not Applicable for PCI Express Bit hardwired to 0 for PCIExpress" "0,1"
textline "                                                       "
bitfld.long 0x00 3. " SPEC_CYCLE_EN                ,Not Applicable for PCI Express Bit hardwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 2. "         BUSMASTER_EN              ,Bus Master Enable" "0,1"
bitfld.long 0x00 1. "     MEM_SPACE_EN                ,Memory Space Enable" "0,1"
textline "                                                       "
bitfld.long 0x00 0. " IO_SPACE_EN                  ,IO Space Enable" "0,1"
rgroup.long 0x8++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_CLASSCODE_REVISIONID,Class code and Revision ID"
hexmask.long.byte 0x00 24.--31. 1. " BASE_CLS_CD                  ,Base Class Code (CS)"
hexmask.long.byte 0x00 16.--23. 1. "        SUBCLS_CD                 ,Sub Class Code (CS)"
hexmask.long.byte 0x00 8.--15. 1. "    PROG_IF_CODE                ,Programming Interface Code (CS)"
textline "                                                       "
hexmask.long.byte 0x00 0.--7. 1. " REVID                        ,Revision ID (CS)"
group.long 0xC++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_BIST_HEAD_LAT_CACH,BIST, Header Type, Latency Timer, Cache Line Size"
hexmask.long.byte 0x00 24.--31. 1. " BIST                         ,BIST"
bitfld.long 0x00 23. "        MFD                       ,MultiFunction Device" "0,1"
hexmask.long.byte 0x00 16.--22. 1. "     HEAD_TYP                    ,Header Type 0x0 = EP header 0x1 = RC header"
textline "                                                       "
hexmask.long.byte 0x00 8.--15. 1. " MSTR_LAT_TIM                 ,Master Latency Timer, Not Applicable for PCIe hence hardwired to 0"
hexmask.long.byte 0x00 0.--7. 1. "        CACH_LN_SZE               ,Cache Line Size, No impact on write, write is allowed only for legacy purpose"
group.long 0x10++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_BAR0,Base Address Register 0 Bit #0 is also a WO BAR enable (CS2) BAR Mask is writable (CS2)"
hexmask.long.word 0x00 20.--31. 1. " BASE_ADDR_RW                 ,Base address bits (for a 64-bit BAR, upper base address bits are in BAR above) Unmasked MSBs, as set by BAR mask"
hexmask.long.word 0x00 4.--19. 1. "      BASE_ADDR_RO              ,Base address bits (for a 64-bit BAR, upper base address bits are in BAR above) Masked LSBs, as set by BAR mask"
bitfld.long 0x00 3. "  PREFETCHABLE                ,MEM BAR: Prefetchable (CS) I/O BAR: bit 1 is part of I/O address" "0,1"
textline "                                                       "
bitfld.long 0x00 1.--2. " AS                           ,MEM BAR: Address Size (CS) Read 0x0 = 32 Bit Read 0x2 = 64 Bit" "0,1,2,3"
bitfld.long 0x00 0. "         SPACE_INDICATOR           ,BAR I/O vs memory space indicator (CS) 0x0 = BAR type is Memory 0x1 = BAR type is I/O" "0,1"
group.long 0x14++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_BAR1,Base Address Register 1 If BAR0.AS = 64-bit: upper half of BAR0 base address If BAR0.AS = 32-bit: independent 32-bit BAR Bit #0 is also a WO BAR enable (CS2) BAR Mask is writable (CS2)"
hexmask.long.word 0x00 20.--31. 1. " BASE_ADDR_RW                 ,Base address bits (for a 64-bit BAR, lower base address bits are in BAR below) Unmasked MSBs, as set by BAR mask"
hexmask.long.word 0x00 4.--19. 1. "      BASE_ADDR_RO              ,Base address bits (for a 64-bit BAR, lower base address bits are in BAR below) Masked LSBs, as set by BAR mask"
bitfld.long 0x00 3. "  PREFETCHABLE                ,MEM BAR: Prefetchable (CS) I/O BAR: bit 1 is part of I/O address" "0,1"
textline "                                                       "
bitfld.long 0x00 1.--2. " AS                           ,MEM BAR: Address Size (CS) I/O BAR: bit 0 is always 0, bit 1 is LSBit of I/O address Read 0x0 = 32 Bit Read 0x2 = 64 Bit" "0,1,2,3"
bitfld.long 0x00 0. "         SPACE_INDICATOR           ,BAR I/O vs memory space indicator (CS) 0x0 = BAR type is Memory 0x1 = BAR type is I/O" "0,1"
group.long 0x18++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_BAR2,Base Address Register 2 Bit #0 is also a WO BAR enable (CS2) BAR Mask is writable (CS2)"
hexmask.long.word 0x00 20.--31. 1. " BASE_ADDR_RW                 ,Base address bits (for a 64-bit BAR, upper base address bits are in BAR above) Unmasked MSBs, as set by BAR mask"
hexmask.long.word 0x00 4.--19. 1. "      BASE_ADDR_RO              ,Base address bits (for a 64-bit BAR, upper base address bits are in BAR above) Masked LSBs, as set by BAR mask"
bitfld.long 0x00 3. "  PREFETCHABLE                ,MEM BAR: Prefetchable (CS) I/O BAR: bit 1 is part of I/O address" "0,1"
textline "                                                       "
bitfld.long 0x00 1.--2. " AS                           ,MEM BAR: Address Size (CS) I/O BAR: bit 0 is always 0, bit 1 is LSBit of I/O address Read 0x0 = 32 Bit Read 0x2 = 64 Bit" "0,1,2,3"
bitfld.long 0x00 0. "         SPACE_INDICATOR           ,BAR I/O vs memory space indicator (CS) 0x0 = BAR type is Memory 0x1 = BAR type is I/O" "0,1"
group.long 0x1C++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_BAR3,Base Address Register 3 If BAR2.AS = 64-bit: upper half of BAR2 base address If BAR2.AS = 32-bit: independent 32-bit BAR Bit #0 is also a WO BAR enable (CS2) BAR Mask is writable (CS2)"
hexmask.long.word 0x00 20.--31. 1. " BASE_ADDR_RW                 ,Base address bits (for a 64-bit BAR, lower base address bits are in BAR below) Unmasked MSBs, as set by BAR mask"
hexmask.long.word 0x00 4.--19. 1. "      BASE_ADDR_RO              ,Base address bits (for a 64-bit BAR, lower base address bits are in BAR below) Masked LSBs, as set by BAR mask"
bitfld.long 0x00 3. "  PREFETCHABLE                ,MEM BAR: Prefetchable (CS) I/O BAR: bit 1 is part of I/O address" "0,1"
textline "                                                       "
bitfld.long 0x00 1.--2. " AS                           ,MEM BAR: Address Size (CS) I/O BAR: bit 0 is always 0, bit 1 is LSBit of I/O address Read 0x0 = 32 Bit Read 0x2 = 64 Bit" "0,1,2,3"
bitfld.long 0x00 0. "         SPACE_INDICATOR           ,BAR I/O vs memory space indicator (CS) 0x0 = BAR type is Memory 0x1 = BAR type is I/O" "0,1"
group.long 0x20++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_BAR4,Base Address Register 4 Bit #0 is also a WO BAR enable (CS2) BAR Mask is writable (CS2)"
hexmask.long.tbyte 0x00 12.--31. 1. " BASE_ADDR_RW                 ,Base address bits (for a 64-bit BAR, upper base address bits are in BAR above) Unmasked MSBs, as set by BAR mask"
hexmask.long.byte 0x00 4.--11. 1. "    BASE_ADDR_RO              ,Base address bits (for a 64-bit BAR, upper base address bits are in BAR above) Masked LSBs, as set by BAR mask"
bitfld.long 0x00 3. "    PREFETCHABLE                ,MEM BAR: Prefetchable (CS) I/O BAR: bit 1 is part of I/O address" "0,1"
textline "                                                       "
bitfld.long 0x00 1.--2. " AS                           ,MEM BAR: Address Size (CS) I/O BAR: bit 0 is always 0, bit 1 is LSBit of I/O address Read 0x0 = 32 Bit Read 0x2 = 64 Bit" "0,1,2,3"
bitfld.long 0x00 0. "         SPACE_INDICATOR           ,BAR I/O vs memory space indicator (CS) 0x0 = BAR type is Memory 0x1 = BAR type is I/O" "0,1"
group.long 0x24++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_BAR5,Base Address Register 5 If BAR4.AS = 64-bit: upper half of BAR4 base address If BAR4.AS = 32-bit: independent 32-bit BAR Bit #0 is also a WO BAR enable (CS2) BAR Mask is writable (CS2)"
hexmask.long.word 0x00 20.--31. 1. " BASE_ADDR_RW                 ,Base address bits (for a 64-bit BAR, lower base address bits are in BAR below) Unmasked MSBs, as set by BAR mask"
hexmask.long.word 0x00 4.--19. 1. "      BASE_ADDR_RO              ,Base address bits (for a 64-bit BAR, lower base address bits are in BAR below) Masked LSBs, as set by BAR mask"
bitfld.long 0x00 3. "  PREFETCHABLE                ,MEM BAR: Prefetchable (CS) I/O BAR: bit 1 is part of I/O address" "0,1"
textline "                                                       "
bitfld.long 0x00 1.--2. " AS                           ,MEM BAR: Address Size (CS) I/O BAR: bit 0 is always 0, bit 1 is LSBit of I/O address Read 0x0 = 32 Bit Read 0x2 = 64 Bit" "0,1,2,3"
bitfld.long 0x00 0. "         SPACE_INDICATOR           ,BAR I/O vs memory space indicator (CS) 0x0 = BAR type is Memory 0x1 = BAR type is I/O" "0,1"
rgroup.long 0x28++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_CARDBUS_CIS_POINTER,"
hexmask.long 0x00 0.--31. 1. " CARDBUS_CIS_PTR_N            ,Cardbus CIS pointer (CS)"
rgroup.long 0x2C++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_SUBID_SUBVENDORID,"
hexmask.long.word 0x00 16.--31. 1. " SUBSYS_DEV_ID_N              ,Subsystem ID (CS)"
hexmask.long.word 0x00 0.--15. 1. "      SUBSYS_VENDOR_ID_N        ,Subsystem Vendor ID (CS)"
group.long 0x30++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_EXPANSION_ROM_BAR,Expansion ROM Base Address Register"
hexmask.long.word 0x00 16.--31. 1. " EXROM_ADDRESS                ,Expansion ROM address, unmasked (i.e. programmable)."
bitfld.long 0x00 11.--15. "      EXROM_ADDRESS_RO          ,Expansion ROM address, masked." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0. "    EXROM_EN                    ,Expansion ROM Enable" "0,1"
rgroup.long 0x34++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_CAPPTR,CapPtr"
hexmask.long.byte 0x00 0.--7. 1. " CAPTR                        ,First Capability Pointer (CS)"
group.long 0x3C++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_INTERRUPT,Int Pin and line"
hexmask.long.byte 0x00 8.--15. 1. " INT_PIN                      ,Interrupt Pin (CS)"
hexmask.long.byte 0x00 0.--7. 1. "        INT_LIN                   ,Interrupt Line"
rgroup.long 0x40++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_PM_CAP,Power Management Capability structure header"
bitfld.long 0x00 27.--31. " PME_SP                       ,PME Support (CS); Power states from which PME messages can be sent (active hi, one bit per state) Bit 0: from D0 Bit 1: from D1 Bit 2: from D2 Bit 3: from D3hot Bit 4: from D3cold (if Vaux present)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 26. "        D2_SP                     ,D2 Support (CS)" "0,1"
bitfld.long 0x00 25. "     D1_SP                       ,D1 Support (CS)" "0,1"
textline "                                                       "
bitfld.long 0x00 22.--24. " AUX_CUR                      ,AUX Current (CS)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 21. "         DSI                       ,Device Specific Initialization (CS)" "0,1"
bitfld.long 0x00 19. "     PME_CLK                     ,PME Clock, hardwired to 0 (CS)" "0,1"
textline "                                                       "
bitfld.long 0x00 16.--18. " PMC_VER                      ,Power Management specification version (CS)" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 8.--15. 1. "         PM_NX_PTR                 ,Next Capability Pointer (CS)"
hexmask.long.byte 0x00 0.--7. 1. "    CAP_ID                      ,Capability ID - ."
group.long 0x44++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_PM_CSR,Power Management Control and Status Register"
hexmask.long.byte 0x00 24.--31. 1. " DATA1                        ,Data register for additional information(not supported)"
bitfld.long 0x00 23. "        BP_CCE                    ,Bus Power/Clock Control Enable, hardwired to 0" "0,1"
bitfld.long 0x00 22. "     B2B3_SP                     ,B2/B3 Support, hardwired to 0" "0,1"
textline "                                                       "
eventfld.long 0x00 15. " PME_STATUS                   ,PME Status (Sticky bit)" "0,1"
bitfld.long 0x00 13.--14. "         DATA_SCALE                ,Data Scale (not supported)" "0,1,2,3"
bitfld.long 0x00 9.--12. "     DATA_SEL                    ,Data Select (not supported)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                                       "
bitfld.long 0x00 8. " PME_EN                       ,PME Enable (Sticky bit) - . - ." "0,1"
bitfld.long 0x00 3. "         NSR                       ,No Soft Reset (CS)" "0,1"
bitfld.long 0x00 0.--1. "     PWR_STATE                   ,Device Power State - . - . - . - ." "D0_state,D1_state,D2_state,D3_state"
rgroup.long 0x70++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_PCIE_CAP,PCIE cap structure"
bitfld.long 0x00 25.--29. " IM_NUM                       ,Interrupt Message Number (CS)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 24. "        SLOT                      ,Slot Implemented Must be 0 for an endpoint" "0,1"
bitfld.long 0x00 20.--23. "     DEV_TYPE                    ,Device/Port Type Value depends on assigned type 0x0 = PCIe endpoint 0x1 = Legacy PCIe endpoint" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                                       "
bitfld.long 0x00 16.--19. " PCIE_VER                     ,PCI Express Capability Version" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 8.--15. 1. "        PCIE_NX_PTR               ,Next Capability Pointer (CS)"
hexmask.long.byte 0x00 0.--7. 1. "    CAP_ID                      ,Capability ID"
rgroup.long 0x74++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_DEV_CAP,PCIE Device Capabilities"
bitfld.long 0x00 28. " FLR_EN                       ,Function Level Reset Capability (CS)" "0,1"
bitfld.long 0x00 26.--27. "         CAPT_SLOW_PWRLIMIT_SCALE  ,Captured Slow Power Scale Value (CS)" "0,1,2,3"
hexmask.long.byte 0x00 18.--25. 1. "     CAPT_SLOW_PWRLIMIT_VALUE    ,Captured Slow Power Limit Value (CS)"
textline "                                                       "
bitfld.long 0x00 15. " ROLEBASED_ERRRPT             ,Role Based Error Reporting (CS)" "0,1"
bitfld.long 0x00 12.--14. "         UNDEFINED                 ,Undefined from PCIe 1.1 onwards (CS)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 9.--11. "     DEFAULT_EP_L1_ACCPT_LATENCY ,Endpoint L1 Acceptable Latency (CS)" "0,1,2,3,4,5,6,7"
textline "                                                       "
bitfld.long 0x00 6.--8. " DEFAULT_EP_L0S_ACCPT_LATENCY ,Endpoint L0s Acceptable Latency (CS)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 5. "         EXTTAGFIELD_SUPPORT       ,Value derived from DEFAULT_EXT_TAG_FIELD_SUPPORTED" "0,1"
bitfld.long 0x00 3.--4. "     PHANTOMFUNC                 ,Phantom Function Support, NOT SUPPORTED (CS)" "0,1,2,3"
textline "                                                       "
bitfld.long 0x00 0.--2. " MAX_PAYLOAD_SIZE             ,Maximum Payload Size (CS) Read 0x1 = 256 Byte" "0,1,2,3,4,5,6,7"
group.long 0x78++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_DEV_CAS,PCIE Device Control and Status"
bitfld.long 0x00 21. " TRANS_PEND                   ,Transaction Pending" "0,1"
bitfld.long 0x00 20. "         AUXP_DET                  ,Aux Power Detected" "0,1"
bitfld.long 0x00 19. "     UR_DET                      ,Unsupported Request Detected" "0,1"
textline "                                                       "
bitfld.long 0x00 18. " FT_DET                       ,Fatal Error Detected" "0,1"
bitfld.long 0x00 17. "         NFT_DET                   ,Non-Fatal Error Detected" "0,1"
bitfld.long 0x00 16. "     COR_DET                     ,Correctable Error Detected" "0,1"
textline "                                                       "
bitfld.long 0x00 15. " INIT_FLR                     ,Reserved" "0,1"
bitfld.long 0x00 12.--14. "         MRRS                      ,Max_Read_Request_Size" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 11. "     NOSNP_EN                    ,Enable No Snoop" "0,1"
textline "                                                       "
bitfld.long 0x00 10. " AUXPM_EN                     ,AUX Power PM Enable" "0,1"
bitfld.long 0x00 9. "         PHFUN_EN                  ,Phantom Function Enable" "0,1"
bitfld.long 0x00 8. "     EXTAG_EN                    ,Extended Tag Field Enable" "0,1"
textline "                                                       "
bitfld.long 0x00 5.--7. " MPS                          ,Max_Payload_Size" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4. "         EN_RO                     ,Enable Relaxed Ordering" "0,1"
bitfld.long 0x00 3. "     UR_RE                       ,Unsupported Request Reporting Enable" "0,1"
textline "                                                       "
bitfld.long 0x00 2. " FT_RE                        ,Fatal Error Reporting Enable" "0,1"
bitfld.long 0x00 1. "         NFT_RE                    ,Non-Fatal Error Reporting Enable" "0,1"
bitfld.long 0x00 0. "     COR_RE                      ,Correctable Error Reporting Enable" "0,1"
rgroup.long 0x7C++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_LNK_CAP,PCIE Link Capabilities"
hexmask.long.byte 0x00 24.--31. 1. " PORT_NUM                     ,Port Number (CS)"
bitfld.long 0x00 22. "        ASPM_OPT_COMP             ,ASPM Optionality Compliance (CS)" "0,1"
bitfld.long 0x00 21. "     LNK_BW_NOT_CAP              ,Link Bandwidth Notification Capability (CS)" "0,1"
textline "                                                       "
bitfld.long 0x00 20. " DLL_ACTRPT_CAP               ,Data Link Layer Active Reporting Capable" "0,1"
bitfld.long 0x00 19. "         UNSUP                     ,Unsupported, Surprise Down Error Reporting Capable, Hardwired to 0" "0,1"
bitfld.long 0x00 18. "     CLK_PWR_MGMT                ,Clock Power Management (CS)" "0,1"
textline "                                                       "
bitfld.long 0x00 15.--17. " L1_EXIT_LAT                  ,L1 Exit Latency (CS2)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "         L0S_EXIT_LAT              ,L0s Exit Latency (CS2)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 10.--11. "     AS_LINK_PM_SUPPORT          ,Active State Link PM (ASPM) Support (CS)" "0,1,2,3"
textline "                                                       "
bitfld.long 0x00 4.--9. " MAX_LINK_WIDTH               ,Max Link Width (lanes) (CS)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--3. "        MAX_LINK_SPEEDS           ,Supported Max Link Speed (CS) 0x1 = 2.5 GT/s (GEN1) 0x2 = 5 GT/s (GEN2) 0x4 = 8 GT/s (GEN3)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_LNK_CAS,PCIE Link Control and Status"
bitfld.long 0x00 31. " LAB_STATUS                   ,Link Autonomous Bandwidth Status" "0,1"
bitfld.long 0x00 30. "         LBW_STATUS                ,Link Bandwidth Management Status" "0,1"
bitfld.long 0x00 29. "     DLL_ACT                     ,Data Link Layer Active" "0,1"
textline "                                                       "
bitfld.long 0x00 28. " SLOT_CLK_CONFIG              ,Slot Clock Configuration (CS)" "0,1"
bitfld.long 0x00 27. "         LINK_TRAIN                ,LINK training" "0,1"
bitfld.long 0x00 26. "     UNDEF                       ,Undefined" "0,1"
textline "                                                       "
bitfld.long 0x00 20.--25. " NEG_LW                       ,Negotiated Link Width UNDEFINED UNTIL LINK IS UP." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 16.--19. "        LINK_SPEED                ,Link Speed UNDEFINED UNTIL LINK IS UP." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "    LABIE                       ,Link Autonomous Bandwidth Interrupt Enable." "0,1"
textline "                                                       "
bitfld.long 0x00 10. " LBMIE                        ,Link Bandwidth Management Interrupt Enable" "0,1"
bitfld.long 0x00 9. "         HAWD                      ,Hardware Autonomous Width Disable" "0,1"
bitfld.long 0x00 8. "     EN_CPM                      ,Enable Clock Power Management" "0,1"
textline "                                                       "
bitfld.long 0x00 7. " EXT_SYN                      ,Extended Synch" "0,1"
bitfld.long 0x00 6. "         COM_CLK_CFG               ,Common Clock Configuration" "0,1"
bitfld.long 0x00 5. "     RETRAIN_LINK                ,Retrain Link" "0,1"
textline "                                                       "
bitfld.long 0x00 4. " LINK_DIS                     ,Link Disable" "0,1"
bitfld.long 0x00 3. "         RCB                       ,Read Completion Boundary (CS) 0x0 = 64 Byte 0x1 = 128 Byte" "0,1"
bitfld.long 0x00 0.--1. "     ASPM_CTRL                   ,Active State Link PM Control 0x0: DISABLED 0x1: L0S_ENABLED 0x2: L1_ENABLED 0x3: L0S_AND_L1_ENABLED" "0,1,2,3"
rgroup.long 0x94++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_DEV_CAP_2,Device Capabilities 2 Register"
bitfld.long 0x00 12.--13. " TPHC_SP                      ,TPH Completer Supported" "0,1,2,3"
bitfld.long 0x00 10. "         NOROPR                    ,No RO-enabled PR-PR Passing" "0,1"
bitfld.long 0x00 9. "     CASC128_SP                  ,128-bit CAS Completer Supported" "0,1"
textline "                                                       "
bitfld.long 0x00 8. " AOC64_SP                     ,64-bit AtomicOp Completer Supported" "0,1"
bitfld.long 0x00 7. "         AOC32_SP                  ,32-bit AtomicOp Completer Supported" "0,1"
bitfld.long 0x00 6. "     AOR_SP                      ,AtomicOp Routing Supported" "0,1"
textline "                                                       "
bitfld.long 0x00 5. " ARI_FWD_SP                   ,ARI Forwarding Supported" "0,1"
bitfld.long 0x00 4. "         CPL_TIMEOUT_DIS_SUPPORTED ,Completion Timeout Disable Supported" "0,1"
bitfld.long 0x00 0.--3. "     CPL_TIMEOUT_RNG_SUPPORTED   ,Completion Timeout Ranges Supported" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x98++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_DEV_CAS_2,Device Control 2 Register"
bitfld.long 0x00 13.--14. " OBFF_EN                      ,OBFF Enable" "0,1,2,3"
bitfld.long 0x00 10. "         LTR_EN                    ,LTR Mechanism Enable" "0,1"
bitfld.long 0x00 9. "     IDO_CPL_EN                  ,IDO Completion Enable" "0,1"
textline "                                                       "
bitfld.long 0x00 8. " IDO_REQ_EN                   ,IDO Request Enable" "0,1"
bitfld.long 0x00 7. "         AOP_EG_BLK                ,AtomicOp Egress Blocking" "0,1"
bitfld.long 0x00 6. "     AOP_REQ_EN                  ,AtomicOp Requester Enable" "0,1"
textline "                                                       "
bitfld.long 0x00 5. " ARI_FWD_SP                   ,ARI Forwarding Supported" "0,1"
bitfld.long 0x00 4. "         CPL_TIMEOUT_DIS           ,Completion Timeout Disable" "0,1"
bitfld.long 0x00 0.--3. "     CPL_TIMEOUT_VALUE           ,Completion Timeout Values" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x9C++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_LNK_CAP_2,PCIE Link Capabilities 2 Register"
bitfld.long 0x00 8. " CROSSLINK_SP                 ,Crosslink Supported" "0,1"
hexmask.long.byte 0x00 1.--7. 1. "         SP_LS_VEC                 ,Supported Link Speeds Vector"
group.long 0xA0++0x3
line.long 0x00 "PCIECTRL_EP_PCIEWIRE_LNK_CAS_2,Link Control and Status 2 Register"
eventfld.long 0x00 21. " LINK_EQ_REQ                  ,Link Equilization Request" "0,1"
bitfld.long 0x00 20. "         EQ_PH3                    ,Equalization Ph3 Success, Gen3 Only" "0,1"
bitfld.long 0x00 19. "     EQ_PH2                      ,Equalization Ph2 Success, Gen3 Only" "0,1"
textline "                                                       "
bitfld.long 0x00 18. " EQ_PH1                       ,Equalization Ph1 Success, Gen3 Only" "0,1"
bitfld.long 0x00 17. "         EQ_COMPLETE               ,Equalization Complete, Gen3 Only" "0,1"
bitfld.long 0x00 16. "     DEEMPH_LEVEL                ,Current De-emphasis Level" "0,1"
textline "                                                       "
bitfld.long 0x00 12.--15. " COMPL_PRST_DEEPH             ,Compliance Pre-set/ De-emphasis" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "        COMPL_SOS                 ,Compliance SOS" "0,1"
bitfld.long 0x00 10. "     ENT_MOD_COMPL               ,Enter Modified Compliance" "0,1"
textline "                                                       "
bitfld.long 0x00 7.--9. " TX_MARGIN                    ,Transmit Margin" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6. "         SEL_DEEMP                 ,Selectable De-emphasize" "0,1"
bitfld.long 0x00 5. "     HW_AUTO_SP_DIS              ,Hardware Autonomous Speed Disable" "0,1"
textline "                                                       "
bitfld.long 0x00 4. " ENTR_COMPL                   ,Enter Compliance" "0,1"
bitfld.long 0x00 0.--3. "         TRGT_LINK_SPEED           ,Target Link Speed" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree.end
tree.open "PCIe_SS1_EP_CFG_DBICS2"
tree "PCIe_SS1_EP_CFG_DBICS2"
base ad:0x51001000
width 44.
group.long 0x0++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_DEVICE_VENDORID,Device and Vendor ID"
hexmask.long.word 0x00 16.--31. 1. " DEVICEID                     ,Device ID (CS)"
hexmask.long.word 0x00 0.--15. 1. "      VENDORID                  ,Vendor ID (CS)"
group.long 0x4++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_STATUS_COMMAND_REGISTER,Status and Command registers"
bitfld.long 0x00 31. " DETECT_PARERR                ,Detected Parity Error" "0,1"
bitfld.long 0x00 30. "         SIGNAL_SYSERR             ,Signaled System Error" "0,1"
bitfld.long 0x00 29. "     RCVD_MASTERABORT            ,Received Master Abort" "0,1"
textline "                                                     "
bitfld.long 0x00 28. " RCVD_TRGTABORT               ,Received Target Abort" "0,1"
bitfld.long 0x00 27. "         SIGNAL_TRGTABORT          ,Signaled Target Abort" "0,1"
bitfld.long 0x00 25.--26. "     DEVSEL_TIME                 ,DevSel Timing, Harsdwired to 0 for PCIExpress" "0,1,2,3"
textline "                                                     "
bitfld.long 0x00 24. " MASTERDATA_PARERR            ,Master Data Parity Error" "0,1"
bitfld.long 0x00 23. "         FAST_B2B                  ,Back to Back Capable, Harsdwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 21. "     C66MHZ_CAP                  ,66MHz Capable, Harsdwired to 0 for PCIExpress" "0,1"
textline "                                                     "
bitfld.long 0x00 20. " CAP_LIST                     ,Capabilities List Hardwired to 1" "0,1"
bitfld.long 0x00 19. "         INTX_STATUS               ,INTx Status" "0,1"
bitfld.long 0x00 10. "     INTX_ASSER_DIS              ,INTx Assertion Disable" "0,1"
textline "                                                     "
bitfld.long 0x00 9. " FAST_BBEN                    ,Bit hardwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 8. "         SERR_EN                   ,SERR Enable" "0,1"
bitfld.long 0x00 7. "     IDSEL_CTRL                  ,Bit hardwired to 0 for PCIExpress" "0,1"
textline "                                                     "
bitfld.long 0x00 6. " PARITYERRRESP                ,Parity Error Response" "0,1"
bitfld.long 0x00 5. "         VGA_SNOOP                 ,Not Applicable forPCI Express Bit hardwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 4. "     MEMWR_INVA                  ,Not Applicable for PCI Express Bit hardwired to 0 for PCIExpress" "0,1"
textline "                                                     "
bitfld.long 0x00 3. " SPEC_CYCLE_EN                ,Not Applicable for PCI Express Bit hardwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 2. "         BUSMASTER_EN              ,Bus Master Enable" "0,1"
bitfld.long 0x00 1. "     MEM_SPACE_EN                ,Memory Space Enable" "0,1"
textline "                                                     "
bitfld.long 0x00 0. " IO_SPACE_EN                  ,IO Space Enable" "0,1"
group.long 0x8++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_CLASSCODE_REVISIONID,Class code and Revision ID"
hexmask.long.byte 0x00 24.--31. 1. " BASE_CLS_CD                  ,Base Class Code (CS)"
hexmask.long.byte 0x00 16.--23. 1. "        SUBCLS_CD                 ,Sub Class Code (CS)"
hexmask.long.byte 0x00 8.--15. 1. "    PROG_IF_CODE                ,Programming Interface Code (CS)"
textline "                                                     "
hexmask.long.byte 0x00 0.--7. 1. " REVID                        ,Revision ID (CS)"
group.long 0xC++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_BIST_HEAD_LAT_CACH,BIST, Header Type, Latency Timer, Cache Line Size"
hexmask.long.byte 0x00 24.--31. 1. " BIST                         ,BIST"
bitfld.long 0x00 23. "        MFD                       ,MultiFunction Device" "0,1"
hexmask.long.byte 0x00 16.--22. 1. "     HEAD_TYP                    ,Header Type 0x0 = EP header 0x1 = RC header"
textline "                                                     "
hexmask.long.byte 0x00 8.--15. 1. " MSTR_LAT_TIM                 ,Master Latency Timer, Not Applicable for PCIe hence hardwired to 0"
hexmask.long.byte 0x00 0.--7. 1. "        CACH_LN_SZE               ,Cache Line Size, No impact on write, write is allowed only for legacy purpose"
group.long 0x10++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_BAR0_MASK,Base Address Register 0 Mask (CS2 mode only) Write ones to BAR[M-1:1] for a 2**M byte BAR"
hexmask.long 0x00 1.--31. 1. " BAR_MASK                     ,Write 1 to unmask/0 to mask the BAR address bit (CS2 only)"
bitfld.long 0x00 0. "  BAR_ENABLED               ,BAR enabled (CS2 only)" "0,1"
group.long 0x14++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_BAR1_MASK,Base Address Register 1 (CS2 mode only) Write ones to BAR[M-1:1] for a 2**M byte BAR If BAR0 is in 64-bit mode, contains the upper bits of BAR0 mask."
hexmask.long 0x00 1.--31. 1. " BAR_MASK                     ,Write 1 to unmask/0 to mask the BAR address bit (CS2 only)"
bitfld.long 0x00 0. "  BAR_ENABLED               ,BAR enabled (CS2 only)" "0,1"
group.long 0x18++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_BAR2_MASK,Base Address Register 2 Mask (CS2 mode only) Write ones to BAR[M-1:1] for a 2**M byte BAR"
hexmask.long 0x00 1.--31. 1. " BAR_MASK                     ,Write 1 to unmask/0 to mask the BAR address bit (CS2 only)"
bitfld.long 0x00 0. "  BAR_ENABLED               ,BAR enabled (CS2 only)" "0,1"
group.long 0x1C++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_BAR3_MASK,Base Address Register 3 (CS2 mode only) Write ones to BAR[M-1:1] for a 2**M byte BAR If BAR2 is in 64-bit mode, contains the upper bits of BAR2 mask."
hexmask.long 0x00 1.--31. 1. " BAR_MASK                     ,Write 1 to unmask/0 to mask the BAR address bit (CS2 only)"
bitfld.long 0x00 0. "  BAR_ENABLED               ,BAR enabled (CS2 only)" "0,1"
group.long 0x20++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_BAR4_MASK,Base Address Register 4 Mask (CS2 mode only) Write ones to BAR[M-1:1] for a 2**M byte BAR"
hexmask.long 0x00 1.--31. 1. " BAR_MASK                     ,Write 1 to unmask/0 to mask the BAR address bit (CS2 only)"
bitfld.long 0x00 0. "  BAR_ENABLED               ,BAR enabled (CS2 only)" "0,1"
group.long 0x24++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_BAR5_MASK,Base Address Register 5 (CS2 mode only) Write ones to BAR[M-1:1] for a 2**M byte BAR If BAR4 is in 64-bit mode, contains the upper bits of BAR4 mask."
hexmask.long 0x00 1.--31. 1. " BAR_MASK                     ,Write 1 to unmask/0 to mask the BAR address bit (CS2 only)"
bitfld.long 0x00 0. "  BAR_ENABLED               ,BAR enabled (CS2 only)" "0,1"
group.long 0x28++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_CARDBUS_CIS_POINTER,"
hexmask.long 0x00 0.--31. 1. " CARDBUS_CIS_PTR_N            ,Cardbus CIS pointer (CS)"
group.long 0x2C++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_SUBID_SUBVENDORID,"
hexmask.long.word 0x00 16.--31. 1. " SUBSYS_DEV_ID_N              ,Subsystem ID (CS)"
hexmask.long.word 0x00 0.--15. 1. "      SUBSYS_VENDOR_ID_N        ,Subsystem Vendor ID (CS)"
group.long 0x30++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_EXPANSION_ROM_BAR,Expansion ROM Base Address Register"
hexmask.long.word 0x00 16.--31. 1. " EXROM_ADDRESS                ,Expansion ROM address, unmasked (ie programmable)"
bitfld.long 0x00 11.--15. "      EXROM_ADDRESS_RO          ,Expansion ROM address, masked." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0. "    EXROM_EN                    ,Expansion ROM Enable" "0,1"
group.long 0x34++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_CAPPTR,CapPtr"
hexmask.long.byte 0x00 0.--7. 1. " CAPTR                        ,First Capability Pointer (CS)"
group.long 0x3C++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_INTERRUPT,Int Pin and line"
hexmask.long.byte 0x00 8.--15. 1. " INT_PIN                      ,Interrupt Pin (CS)"
hexmask.long.byte 0x00 0.--7. 1. "        INT_LIN                   ,Interrupt Line"
group.long 0x40++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_PM_CAP,Power Management Capability structure header"
bitfld.long 0x00 27.--31. " PME_SP                       ,PME Support (CS); Power states from which PME messages can be sent (active hi, one bit per state) Bit 0: from D0 Bit 1: from D1 Bit 2: from D2 Bit 3: from D3hot Bit 4: from D3cold (if Vaux present)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 26. "        D2_SP                     ,D2 Support (CS)" "0,1"
bitfld.long 0x00 25. "     D1_SP                       ,D1 Support (CS)" "0,1"
textline "                                                     "
bitfld.long 0x00 22.--24. " AUX_CUR                      ,AUX Current (CS)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 21. "         DSI                       ,Device Specific Initialization (CS)" "0,1"
bitfld.long 0x00 19. "     PME_CLK                     ,PME Clock, hardwired to 0 (CS)" "0,1"
textline "                                                     "
bitfld.long 0x00 16.--18. " PMC_VER                      ,Power Management specification version (CS)" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 8.--15. 1. "         PM_NX_PTR                 ,Next Capability Pointer (CS)"
hexmask.long.byte 0x00 0.--7. 1. "    CAP_ID                      ,Capability ID - ."
group.long 0x44++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_PM_CSR,Power Management Control and Status Register"
hexmask.long.byte 0x00 24.--31. 1. " DATA1                        ,Data register for additional information(not supported)"
bitfld.long 0x00 23. "        BP_CCE                    ,Bus Power/Clock Control Enable, hardwired to 0" "0,1"
bitfld.long 0x00 22. "     B2B3_SP                     ,B2/B3 Support, hardwired to 0" "0,1"
textline "                                                     "
eventfld.long 0x00 15. " PME_STATUS                   ,PME Status (Sticky bit)" "0,1"
bitfld.long 0x00 13.--14. "         DATA_SCALE                ,Data Scale (not supported)" "0,1,2,3"
bitfld.long 0x00 9.--12. "     DATA_SEL                    ,Data Select (not supported)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                                     "
bitfld.long 0x00 8. " PME_EN                       ,PME Enable (Sticky bit) - . - ." "0,1"
bitfld.long 0x00 3. "         NSR                       ,No Soft Reset (CS)" "0,1"
bitfld.long 0x00 0.--1. "     PWR_STATE                   ,Device Power State - . - . - . - ." "D0_state,D1_state,D2_state,D3_state"
group.long 0x70++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_PCIE_CAP,PCIE cap structure"
bitfld.long 0x00 25.--29. " IM_NUM                       ,Interrupt Message Number (CS)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 24. "        SLOT                      ,Slot Implemented Must be 0 for an endpoint" "0,1"
bitfld.long 0x00 20.--23. "     DEV_TYPE                    ,Device/Port Type Value depends on assigned type 0x0 = PCIe endpoint 0x1 = Legacy PCIe endpoint" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                                     "
bitfld.long 0x00 16.--19. " PCIE_VER                     ,PCI Express Capability Version" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 8.--15. 1. "        PCIE_NX_PTR               ,Next Capability Pointer (CS)"
hexmask.long.byte 0x00 0.--7. 1. "    CAP_ID                      ,Capability ID"
group.long 0x74++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_DEV_CAP,PCIE Device Capabilities"
bitfld.long 0x00 28. " FLR_EN                       ,Function Level Reset Capability (CS)" "0,1"
bitfld.long 0x00 26.--27. "         CAPT_SLOW_PWRLIMIT_SCALE  ,Captured Slow Power Scale Value (CS)" "0,1,2,3"
hexmask.long.byte 0x00 18.--25. 1. "     CAPT_SLOW_PWRLIMIT_VALUE    ,Captured Slow Power Limit Value (CS)"
textline "                                                     "
bitfld.long 0x00 15. " ROLEBASED_ERRRPT             ,Role Based Error Reporting (CS)" "0,1"
bitfld.long 0x00 12.--14. "         UNDEFINED                 ,Undefined from PCIe 1.1 onwards (CS)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 9.--11. "     DEFAULT_EP_L1_ACCPT_LATENCY ,Endpoint L1 Acceptable Latency (CS)" "0,1,2,3,4,5,6,7"
textline "                                                     "
bitfld.long 0x00 6.--8. " DEFAULT_EP_L0S_ACCPT_LATENCY ,Endpoint L0s Acceptable Latency (CS)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 5. "         EXTTAGFIELD_SUPPORT       ,Value derived from DEFAULT_EXT_TAG_FIELD_SUPPORTED" "0,1"
bitfld.long 0x00 3.--4. "     PHANTOMFUNC                 ,Phantom Function Support, NOT SUPPORTED (CS)" "0,1,2,3"
textline "                                                     "
bitfld.long 0x00 0.--2. " MAX_PAYLOAD_SIZE             ,Maximum Payload Size (CS) Read 0x1 = 256 Byte" "0,1,2,3,4,5,6,7"
group.long 0x78++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_DEV_CAS,PCIE Device Control and Status"
bitfld.long 0x00 21. " TRANS_PEND                   ,Transaction Pending" "0,1"
bitfld.long 0x00 20. "         AUXP_DET                  ,Aux Power Detected" "0,1"
bitfld.long 0x00 19. "     UR_DET                      ,Unsupported Request Detected" "0,1"
textline "                                                     "
bitfld.long 0x00 18. " FT_DET                       ,Fatal Error Detected" "0,1"
bitfld.long 0x00 17. "         NFT_DET                   ,Non-Fatal Error Detected" "0,1"
bitfld.long 0x00 16. "     COR_DET                     ,Correctable Error Detected" "0,1"
textline "                                                     "
bitfld.long 0x00 15. " INIT_FLR                     ,Reserved" "0,1"
bitfld.long 0x00 12.--14. "         MRRS                      ,Max_Read_Request_Size" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 11. "     NOSNP_EN                    ,Enable No Snoop" "0,1"
textline "                                                     "
bitfld.long 0x00 10. " AUXPM_EN                     ,AUX Power PM Enable" "0,1"
bitfld.long 0x00 9. "         PHFUN_EN                  ,Phantom Function Enable" "0,1"
bitfld.long 0x00 8. "     EXTAG_EN                    ,Extended Tag Field Enable" "0,1"
textline "                                                     "
bitfld.long 0x00 5.--7. " MPS                          ,Max_Payload_Size" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4. "         EN_RO                     ,Enable Relaxed Ordering" "0,1"
bitfld.long 0x00 3. "     UR_RE                       ,Unsupported Request Reporting Enable" "0,1"
textline "                                                     "
bitfld.long 0x00 2. " FT_RE                        ,Fatal Error Reporting Enable" "0,1"
bitfld.long 0x00 1. "         NFT_RE                    ,Non-Fatal Error Reporting Enable" "0,1"
bitfld.long 0x00 0. "     COR_RE                      ,Correctable Error Reporting Enable" "0,1"
group.long 0x7C++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_LNK_CAP,PCIE Link Capabilities"
hexmask.long.byte 0x00 24.--31. 1. " PORT_NUM                     ,Port Number (CS)"
bitfld.long 0x00 22. "        ASPM_OPT_COMP             ,ASPM Optionality Compliance (CS)" "0,1"
bitfld.long 0x00 21. "     LNK_BW_NOT_CAP              ,Link Bandwidth Notification Capability (CS)" "0,1"
textline "                                                     "
bitfld.long 0x00 20. " DLL_ACTRPT_CAP               ,Data Link Layer Active Reporting Capable" "0,1"
bitfld.long 0x00 19. "         UNSUP                     ,Unsupported, Surprise Down Error Reporting Capable, Hardwired to 0" "0,1"
bitfld.long 0x00 18. "     CLK_PWR_MGMT                ,Clock Power Management (CS)" "0,1"
textline "                                                     "
bitfld.long 0x00 15.--17. " L1_EXIT_LAT                  ,L1 Exit Latency (CS2)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "         L0S_EXIT_LAT              ,L0s Exit Latency (CS2)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 10.--11. "     AS_LINK_PM_SUPPORT          ,Active State Link PM (ASPM) Support (CS)" "0,1,2,3"
textline "                                                     "
bitfld.long 0x00 4.--9. " MAX_LINK_WIDTH               ,Max Link Width (lanes) (CS)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--3. "        MAX_LINK_SPEEDS           ,Supported Max Link Speed (CS) 0x1(R) = 2.5 GT/s (GEN1) 0x2(R) = 5 GT/s (GEN2) 0x4(R) = 8 GT/s (GEN3)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_LNK_CAS,PCIE Link Control and Status"
bitfld.long 0x00 31. " LAB_STATUS                   ,Link Autonomous Bandwidth Status" "0,1"
bitfld.long 0x00 30. "         LBW_STATUS                ,Link Bandwidth Management Status" "0,1"
bitfld.long 0x00 29. "     DLL_ACT                     ,Data Link Layer Active" "0,1"
textline "                                                     "
bitfld.long 0x00 28. " SLOT_CLK_CONFIG              ,Slot Clock Configuration (CS)" "0,1"
bitfld.long 0x00 27. "         LINK_TRAIN                ,LINK training" "0,1"
bitfld.long 0x00 26. "     UNDEF                       ,Undefined" "0,1"
textline "                                                     "
bitfld.long 0x00 20.--25. " NEG_LW                       ,Negotiated Link Width UNDEFINED UNTIL LINK IS UP." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 16.--19. "        LINK_SPEED                ,Link Speed UNDEFINED UNTIL LINK IS UP." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "    LABIE                       ,Link Autonomous Bandwidth Interrupt Enable." "0,1"
textline "                                                     "
bitfld.long 0x00 10. " LBMIE                        ,Link Bandwidth Management Interrupt Enable" "0,1"
bitfld.long 0x00 9. "         HAWD                      ,Hardware Autonomous Width Disable" "0,1"
bitfld.long 0x00 8. "     EN_CPM                      ,Enable Clock Power Management" "0,1"
textline "                                                     "
bitfld.long 0x00 7. " EXT_SYN                      ,Extended Synch" "0,1"
bitfld.long 0x00 6. "         COM_CLK_CFG               ,Common Clock Configuration" "0,1"
bitfld.long 0x00 5. "     RETRAIN_LINK                ,Retrain Link" "0,1"
textline "                                                     "
bitfld.long 0x00 4. " LINK_DIS                     ,Link Disable" "0,1"
bitfld.long 0x00 3. "         RCB                       ,Read Completion Boundary (CS) Read 0x0 = 64 Byte Read 0x1 = 128 Byte" "0,1"
bitfld.long 0x00 0.--1. "     ASPM_CTRL                   ,Active State Link PM Control 0x0: DISABLED 0x1: L0S_ENABLED 0x2: L1_ENABLED 0x3: L0S_AND_L1_ENABLED" "0,1,2,3"
rgroup.long 0x94++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_DEV_CAP_2,Device Capabilities 2 Register"
bitfld.long 0x00 12.--13. " TPHC_SP                      ,TPH Completer Supported" "0,1,2,3"
bitfld.long 0x00 10. "         NOROPR                    ,No RO-enabled PR-PR Passing" "0,1"
bitfld.long 0x00 9. "     CASC128_SP                  ,128-bit CAS Completer Supported" "0,1"
textline "                                                     "
bitfld.long 0x00 8. " AOC64_SP                     ,64-bit AtomicOp Completer Supported" "0,1"
bitfld.long 0x00 7. "         AOC32_SP                  ,32-bit AtomicOp Completer Supported" "0,1"
bitfld.long 0x00 6. "     AOR_SP                      ,AtomicOp Routing Supported" "0,1"
textline "                                                     "
bitfld.long 0x00 5. " ARI_FWD_SP                   ,ARI Forwarding Supported" "0,1"
bitfld.long 0x00 4. "         CPL_TIMEOUT_DIS_SUPPORTED ,Completion Timeout Disable Supported" "0,1"
bitfld.long 0x00 0.--3. "     CPL_TIMEOUT_RNG_SUPPORTED   ,Completion Timeout Ranges Supported" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x98++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_DEV_CAS_2,Device Control 2 Register"
bitfld.long 0x00 13.--14. " OBFF_EN                      ,OBFF Enable" "0,1,2,3"
bitfld.long 0x00 10. "         LTR_EN                    ,LTR Mechanism Enable" "0,1"
bitfld.long 0x00 9. "     IDO_CPL_EN                  ,IDO Completion Enable" "0,1"
textline "                                                     "
bitfld.long 0x00 8. " IDO_REQ_EN                   ,IDO Request Enable" "0,1"
bitfld.long 0x00 7. "         AOP_EG_BLK                ,AtomicOp Egress Blocking" "0,1"
bitfld.long 0x00 6. "     AOP_REQ_EN                  ,AtomicOp Requester Enable" "0,1"
textline "                                                     "
bitfld.long 0x00 5. " ARI_FWD_SP                   ,ARI Forwarding Supported" "0,1"
bitfld.long 0x00 4. "         CPL_TIMEOUT_DIS           ,Completion Timeout Disable" "0,1"
bitfld.long 0x00 0.--3. "     CPL_TIMEOUT_VALUE           ,Completion Timeout Values" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x9C++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_LNK_CAP_2,PCIE Link Capabilities 2 Register"
bitfld.long 0x00 8. " CROSSLINK_SP                 ,Crosslink Supported" "0,1"
hexmask.long.byte 0x00 1.--7. 1. "         SP_LS_VEC                 ,Supported Link Speeds Vector"
group.long 0xA0++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_LNK_CAS_2,Link Control and Status 2 Register"
eventfld.long 0x00 21. " LINK_EQ_REQ                  ,Link Equilization Request" "0,1"
bitfld.long 0x00 20. "         EQ_PH3                    ,Equalization Ph3 Success, Gen3 Only" "0,1"
bitfld.long 0x00 19. "     EQ_PH2                      ,Equalization Ph2 Success, Gen3 Only" "0,1"
textline "                                                     "
bitfld.long 0x00 18. " EQ_PH1                       ,Equalization Ph1 Success, Gen3 Only" "0,1"
bitfld.long 0x00 17. "         EQ_COMPLETE               ,Equalization Complete, Gen3 Only" "0,1"
bitfld.long 0x00 16. "     DEEMPH_LEVEL                ,Current De-emphasis Level" "0,1"
textline "                                                     "
bitfld.long 0x00 12.--15. " COMPL_PRST_DEEPH             ,Compliance Pre-set/ De-emphasis" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "        COMPL_SOS                 ,Compliance SOS" "0,1"
bitfld.long 0x00 10. "     ENT_MOD_COMPL               ,Enter Modified Compliance" "0,1"
textline "                                                     "
bitfld.long 0x00 7.--9. " TX_MARGIN                    ,Transmit Margin" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6. "         SEL_DEEMP                 ,Selectable De-emphasize" "0,1"
bitfld.long 0x00 5. "     HW_AUTO_SP_DIS              ,Hardware Autonomous Speed Disable" "0,1"
textline "                                                     "
bitfld.long 0x00 4. " ENTR_COMPL                   ,Enter Compliance" "0,1"
bitfld.long 0x00 0.--3. "         TRGT_LINK_SPEED           ,Target Link Speed" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree "PCIe_SS2_EP_CFG_DBICS2"
base ad:0x51801000
width 44.
group.long 0x0++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_DEVICE_VENDORID,Device and Vendor ID"
hexmask.long.word 0x00 16.--31. 1. " DEVICEID                     ,Device ID (CS)"
hexmask.long.word 0x00 0.--15. 1. "      VENDORID                  ,Vendor ID (CS)"
group.long 0x4++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_STATUS_COMMAND_REGISTER,Status and Command registers"
bitfld.long 0x00 31. " DETECT_PARERR                ,Detected Parity Error" "0,1"
bitfld.long 0x00 30. "         SIGNAL_SYSERR             ,Signaled System Error" "0,1"
bitfld.long 0x00 29. "     RCVD_MASTERABORT            ,Received Master Abort" "0,1"
textline "                                                     "
bitfld.long 0x00 28. " RCVD_TRGTABORT               ,Received Target Abort" "0,1"
bitfld.long 0x00 27. "         SIGNAL_TRGTABORT          ,Signaled Target Abort" "0,1"
bitfld.long 0x00 25.--26. "     DEVSEL_TIME                 ,DevSel Timing, Harsdwired to 0 for PCIExpress" "0,1,2,3"
textline "                                                     "
bitfld.long 0x00 24. " MASTERDATA_PARERR            ,Master Data Parity Error" "0,1"
bitfld.long 0x00 23. "         FAST_B2B                  ,Back to Back Capable, Harsdwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 21. "     C66MHZ_CAP                  ,66MHz Capable, Harsdwired to 0 for PCIExpress" "0,1"
textline "                                                     "
bitfld.long 0x00 20. " CAP_LIST                     ,Capabilities List Hardwired to 1" "0,1"
bitfld.long 0x00 19. "         INTX_STATUS               ,INTx Status" "0,1"
bitfld.long 0x00 10. "     INTX_ASSER_DIS              ,INTx Assertion Disable" "0,1"
textline "                                                     "
bitfld.long 0x00 9. " FAST_BBEN                    ,Bit hardwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 8. "         SERR_EN                   ,SERR Enable" "0,1"
bitfld.long 0x00 7. "     IDSEL_CTRL                  ,Bit hardwired to 0 for PCIExpress" "0,1"
textline "                                                     "
bitfld.long 0x00 6. " PARITYERRRESP                ,Parity Error Response" "0,1"
bitfld.long 0x00 5. "         VGA_SNOOP                 ,Not Applicable forPCI Express Bit hardwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 4. "     MEMWR_INVA                  ,Not Applicable for PCI Express Bit hardwired to 0 for PCIExpress" "0,1"
textline "                                                     "
bitfld.long 0x00 3. " SPEC_CYCLE_EN                ,Not Applicable for PCI Express Bit hardwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 2. "         BUSMASTER_EN              ,Bus Master Enable" "0,1"
bitfld.long 0x00 1. "     MEM_SPACE_EN                ,Memory Space Enable" "0,1"
textline "                                                     "
bitfld.long 0x00 0. " IO_SPACE_EN                  ,IO Space Enable" "0,1"
group.long 0x8++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_CLASSCODE_REVISIONID,Class code and Revision ID"
hexmask.long.byte 0x00 24.--31. 1. " BASE_CLS_CD                  ,Base Class Code (CS)"
hexmask.long.byte 0x00 16.--23. 1. "        SUBCLS_CD                 ,Sub Class Code (CS)"
hexmask.long.byte 0x00 8.--15. 1. "    PROG_IF_CODE                ,Programming Interface Code (CS)"
textline "                                                     "
hexmask.long.byte 0x00 0.--7. 1. " REVID                        ,Revision ID (CS)"
group.long 0xC++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_BIST_HEAD_LAT_CACH,BIST, Header Type, Latency Timer, Cache Line Size"
hexmask.long.byte 0x00 24.--31. 1. " BIST                         ,BIST"
bitfld.long 0x00 23. "        MFD                       ,MultiFunction Device" "0,1"
hexmask.long.byte 0x00 16.--22. 1. "     HEAD_TYP                    ,Header Type 0x0 = EP header 0x1 = RC header"
textline "                                                     "
hexmask.long.byte 0x00 8.--15. 1. " MSTR_LAT_TIM                 ,Master Latency Timer, Not Applicable for PCIe hence hardwired to 0"
hexmask.long.byte 0x00 0.--7. 1. "        CACH_LN_SZE               ,Cache Line Size, No impact on write, write is allowed only for legacy purpose"
group.long 0x10++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_BAR0_MASK,Base Address Register 0 Mask (CS2 mode only) Write ones to BAR[M-1:1] for a 2**M byte BAR"
hexmask.long 0x00 1.--31. 1. " BAR_MASK                     ,Write 1 to unmask/0 to mask the BAR address bit (CS2 only)"
bitfld.long 0x00 0. "  BAR_ENABLED               ,BAR enabled (CS2 only)" "0,1"
group.long 0x14++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_BAR1_MASK,Base Address Register 1 (CS2 mode only) Write ones to BAR[M-1:1] for a 2**M byte BAR If BAR0 is in 64-bit mode, contains the upper bits of BAR0 mask."
hexmask.long 0x00 1.--31. 1. " BAR_MASK                     ,Write 1 to unmask/0 to mask the BAR address bit (CS2 only)"
bitfld.long 0x00 0. "  BAR_ENABLED               ,BAR enabled (CS2 only)" "0,1"
group.long 0x18++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_BAR2_MASK,Base Address Register 2 Mask (CS2 mode only) Write ones to BAR[M-1:1] for a 2**M byte BAR"
hexmask.long 0x00 1.--31. 1. " BAR_MASK                     ,Write 1 to unmask/0 to mask the BAR address bit (CS2 only)"
bitfld.long 0x00 0. "  BAR_ENABLED               ,BAR enabled (CS2 only)" "0,1"
group.long 0x1C++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_BAR3_MASK,Base Address Register 3 (CS2 mode only) Write ones to BAR[M-1:1] for a 2**M byte BAR If BAR2 is in 64-bit mode, contains the upper bits of BAR2 mask."
hexmask.long 0x00 1.--31. 1. " BAR_MASK                     ,Write 1 to unmask/0 to mask the BAR address bit (CS2 only)"
bitfld.long 0x00 0. "  BAR_ENABLED               ,BAR enabled (CS2 only)" "0,1"
group.long 0x20++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_BAR4_MASK,Base Address Register 4 Mask (CS2 mode only) Write ones to BAR[M-1:1] for a 2**M byte BAR"
hexmask.long 0x00 1.--31. 1. " BAR_MASK                     ,Write 1 to unmask/0 to mask the BAR address bit (CS2 only)"
bitfld.long 0x00 0. "  BAR_ENABLED               ,BAR enabled (CS2 only)" "0,1"
group.long 0x24++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_BAR5_MASK,Base Address Register 5 (CS2 mode only) Write ones to BAR[M-1:1] for a 2**M byte BAR If BAR4 is in 64-bit mode, contains the upper bits of BAR4 mask."
hexmask.long 0x00 1.--31. 1. " BAR_MASK                     ,Write 1 to unmask/0 to mask the BAR address bit (CS2 only)"
bitfld.long 0x00 0. "  BAR_ENABLED               ,BAR enabled (CS2 only)" "0,1"
group.long 0x28++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_CARDBUS_CIS_POINTER,"
hexmask.long 0x00 0.--31. 1. " CARDBUS_CIS_PTR_N            ,Cardbus CIS pointer (CS)"
group.long 0x2C++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_SUBID_SUBVENDORID,"
hexmask.long.word 0x00 16.--31. 1. " SUBSYS_DEV_ID_N              ,Subsystem ID (CS)"
hexmask.long.word 0x00 0.--15. 1. "      SUBSYS_VENDOR_ID_N        ,Subsystem Vendor ID (CS)"
group.long 0x30++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_EXPANSION_ROM_BAR,Expansion ROM Base Address Register"
hexmask.long.word 0x00 16.--31. 1. " EXROM_ADDRESS                ,Expansion ROM address, unmasked (ie programmable)"
bitfld.long 0x00 11.--15. "      EXROM_ADDRESS_RO          ,Expansion ROM address, masked." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0. "    EXROM_EN                    ,Expansion ROM Enable" "0,1"
group.long 0x34++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_CAPPTR,CapPtr"
hexmask.long.byte 0x00 0.--7. 1. " CAPTR                        ,First Capability Pointer (CS)"
group.long 0x3C++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_INTERRUPT,Int Pin and line"
hexmask.long.byte 0x00 8.--15. 1. " INT_PIN                      ,Interrupt Pin (CS)"
hexmask.long.byte 0x00 0.--7. 1. "        INT_LIN                   ,Interrupt Line"
group.long 0x40++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_PM_CAP,Power Management Capability structure header"
bitfld.long 0x00 27.--31. " PME_SP                       ,PME Support (CS); Power states from which PME messages can be sent (active hi, one bit per state) Bit 0: from D0 Bit 1: from D1 Bit 2: from D2 Bit 3: from D3hot Bit 4: from D3cold (if Vaux present)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 26. "        D2_SP                     ,D2 Support (CS)" "0,1"
bitfld.long 0x00 25. "     D1_SP                       ,D1 Support (CS)" "0,1"
textline "                                                     "
bitfld.long 0x00 22.--24. " AUX_CUR                      ,AUX Current (CS)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 21. "         DSI                       ,Device Specific Initialization (CS)" "0,1"
bitfld.long 0x00 19. "     PME_CLK                     ,PME Clock, hardwired to 0 (CS)" "0,1"
textline "                                                     "
bitfld.long 0x00 16.--18. " PMC_VER                      ,Power Management specification version (CS)" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 8.--15. 1. "         PM_NX_PTR                 ,Next Capability Pointer (CS)"
hexmask.long.byte 0x00 0.--7. 1. "    CAP_ID                      ,Capability ID - ."
group.long 0x44++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_PM_CSR,Power Management Control and Status Register"
hexmask.long.byte 0x00 24.--31. 1. " DATA1                        ,Data register for additional information(not supported)"
bitfld.long 0x00 23. "        BP_CCE                    ,Bus Power/Clock Control Enable, hardwired to 0" "0,1"
bitfld.long 0x00 22. "     B2B3_SP                     ,B2/B3 Support, hardwired to 0" "0,1"
textline "                                                     "
eventfld.long 0x00 15. " PME_STATUS                   ,PME Status (Sticky bit)" "0,1"
bitfld.long 0x00 13.--14. "         DATA_SCALE                ,Data Scale (not supported)" "0,1,2,3"
bitfld.long 0x00 9.--12. "     DATA_SEL                    ,Data Select (not supported)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                                     "
bitfld.long 0x00 8. " PME_EN                       ,PME Enable (Sticky bit) - . - ." "0,1"
bitfld.long 0x00 3. "         NSR                       ,No Soft Reset (CS)" "0,1"
bitfld.long 0x00 0.--1. "     PWR_STATE                   ,Device Power State - . - . - . - ." "D0_state,D1_state,D2_state,D3_state"
group.long 0x70++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_PCIE_CAP,PCIE cap structure"
bitfld.long 0x00 25.--29. " IM_NUM                       ,Interrupt Message Number (CS)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 24. "        SLOT                      ,Slot Implemented Must be 0 for an endpoint" "0,1"
bitfld.long 0x00 20.--23. "     DEV_TYPE                    ,Device/Port Type Value depends on assigned type 0x0 = PCIe endpoint 0x1 = Legacy PCIe endpoint" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                                     "
bitfld.long 0x00 16.--19. " PCIE_VER                     ,PCI Express Capability Version" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 8.--15. 1. "        PCIE_NX_PTR               ,Next Capability Pointer (CS)"
hexmask.long.byte 0x00 0.--7. 1. "    CAP_ID                      ,Capability ID"
group.long 0x74++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_DEV_CAP,PCIE Device Capabilities"
bitfld.long 0x00 28. " FLR_EN                       ,Function Level Reset Capability (CS)" "0,1"
bitfld.long 0x00 26.--27. "         CAPT_SLOW_PWRLIMIT_SCALE  ,Captured Slow Power Scale Value (CS)" "0,1,2,3"
hexmask.long.byte 0x00 18.--25. 1. "     CAPT_SLOW_PWRLIMIT_VALUE    ,Captured Slow Power Limit Value (CS)"
textline "                                                     "
bitfld.long 0x00 15. " ROLEBASED_ERRRPT             ,Role Based Error Reporting (CS)" "0,1"
bitfld.long 0x00 12.--14. "         UNDEFINED                 ,Undefined from PCIe 1.1 onwards (CS)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 9.--11. "     DEFAULT_EP_L1_ACCPT_LATENCY ,Endpoint L1 Acceptable Latency (CS)" "0,1,2,3,4,5,6,7"
textline "                                                     "
bitfld.long 0x00 6.--8. " DEFAULT_EP_L0S_ACCPT_LATENCY ,Endpoint L0s Acceptable Latency (CS)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 5. "         EXTTAGFIELD_SUPPORT       ,Value derived from DEFAULT_EXT_TAG_FIELD_SUPPORTED" "0,1"
bitfld.long 0x00 3.--4. "     PHANTOMFUNC                 ,Phantom Function Support, NOT SUPPORTED (CS)" "0,1,2,3"
textline "                                                     "
bitfld.long 0x00 0.--2. " MAX_PAYLOAD_SIZE             ,Maximum Payload Size (CS) Read 0x1 = 256 Byte" "0,1,2,3,4,5,6,7"
group.long 0x78++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_DEV_CAS,PCIE Device Control and Status"
bitfld.long 0x00 21. " TRANS_PEND                   ,Transaction Pending" "0,1"
bitfld.long 0x00 20. "         AUXP_DET                  ,Aux Power Detected" "0,1"
bitfld.long 0x00 19. "     UR_DET                      ,Unsupported Request Detected" "0,1"
textline "                                                     "
bitfld.long 0x00 18. " FT_DET                       ,Fatal Error Detected" "0,1"
bitfld.long 0x00 17. "         NFT_DET                   ,Non-Fatal Error Detected" "0,1"
bitfld.long 0x00 16. "     COR_DET                     ,Correctable Error Detected" "0,1"
textline "                                                     "
bitfld.long 0x00 15. " INIT_FLR                     ,Reserved" "0,1"
bitfld.long 0x00 12.--14. "         MRRS                      ,Max_Read_Request_Size" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 11. "     NOSNP_EN                    ,Enable No Snoop" "0,1"
textline "                                                     "
bitfld.long 0x00 10. " AUXPM_EN                     ,AUX Power PM Enable" "0,1"
bitfld.long 0x00 9. "         PHFUN_EN                  ,Phantom Function Enable" "0,1"
bitfld.long 0x00 8. "     EXTAG_EN                    ,Extended Tag Field Enable" "0,1"
textline "                                                     "
bitfld.long 0x00 5.--7. " MPS                          ,Max_Payload_Size" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4. "         EN_RO                     ,Enable Relaxed Ordering" "0,1"
bitfld.long 0x00 3. "     UR_RE                       ,Unsupported Request Reporting Enable" "0,1"
textline "                                                     "
bitfld.long 0x00 2. " FT_RE                        ,Fatal Error Reporting Enable" "0,1"
bitfld.long 0x00 1. "         NFT_RE                    ,Non-Fatal Error Reporting Enable" "0,1"
bitfld.long 0x00 0. "     COR_RE                      ,Correctable Error Reporting Enable" "0,1"
group.long 0x7C++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_LNK_CAP,PCIE Link Capabilities"
hexmask.long.byte 0x00 24.--31. 1. " PORT_NUM                     ,Port Number (CS)"
bitfld.long 0x00 22. "        ASPM_OPT_COMP             ,ASPM Optionality Compliance (CS)" "0,1"
bitfld.long 0x00 21. "     LNK_BW_NOT_CAP              ,Link Bandwidth Notification Capability (CS)" "0,1"
textline "                                                     "
bitfld.long 0x00 20. " DLL_ACTRPT_CAP               ,Data Link Layer Active Reporting Capable" "0,1"
bitfld.long 0x00 19. "         UNSUP                     ,Unsupported, Surprise Down Error Reporting Capable, Hardwired to 0" "0,1"
bitfld.long 0x00 18. "     CLK_PWR_MGMT                ,Clock Power Management (CS)" "0,1"
textline "                                                     "
bitfld.long 0x00 15.--17. " L1_EXIT_LAT                  ,L1 Exit Latency (CS2)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "         L0S_EXIT_LAT              ,L0s Exit Latency (CS2)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 10.--11. "     AS_LINK_PM_SUPPORT          ,Active State Link PM (ASPM) Support (CS)" "0,1,2,3"
textline "                                                     "
bitfld.long 0x00 4.--9. " MAX_LINK_WIDTH               ,Max Link Width (lanes) (CS)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--3. "        MAX_LINK_SPEEDS           ,Supported Max Link Speed (CS) 0x1(R) = 2.5 GT/s (GEN1) 0x2(R) = 5 GT/s (GEN2) 0x4(R) = 8 GT/s (GEN3)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_LNK_CAS,PCIE Link Control and Status"
bitfld.long 0x00 31. " LAB_STATUS                   ,Link Autonomous Bandwidth Status" "0,1"
bitfld.long 0x00 30. "         LBW_STATUS                ,Link Bandwidth Management Status" "0,1"
bitfld.long 0x00 29. "     DLL_ACT                     ,Data Link Layer Active" "0,1"
textline "                                                     "
bitfld.long 0x00 28. " SLOT_CLK_CONFIG              ,Slot Clock Configuration (CS)" "0,1"
bitfld.long 0x00 27. "         LINK_TRAIN                ,LINK training" "0,1"
bitfld.long 0x00 26. "     UNDEF                       ,Undefined" "0,1"
textline "                                                     "
bitfld.long 0x00 20.--25. " NEG_LW                       ,Negotiated Link Width UNDEFINED UNTIL LINK IS UP." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 16.--19. "        LINK_SPEED                ,Link Speed UNDEFINED UNTIL LINK IS UP." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "    LABIE                       ,Link Autonomous Bandwidth Interrupt Enable." "0,1"
textline "                                                     "
bitfld.long 0x00 10. " LBMIE                        ,Link Bandwidth Management Interrupt Enable" "0,1"
bitfld.long 0x00 9. "         HAWD                      ,Hardware Autonomous Width Disable" "0,1"
bitfld.long 0x00 8. "     EN_CPM                      ,Enable Clock Power Management" "0,1"
textline "                                                     "
bitfld.long 0x00 7. " EXT_SYN                      ,Extended Synch" "0,1"
bitfld.long 0x00 6. "         COM_CLK_CFG               ,Common Clock Configuration" "0,1"
bitfld.long 0x00 5. "     RETRAIN_LINK                ,Retrain Link" "0,1"
textline "                                                     "
bitfld.long 0x00 4. " LINK_DIS                     ,Link Disable" "0,1"
bitfld.long 0x00 3. "         RCB                       ,Read Completion Boundary (CS) Read 0x0 = 64 Byte Read 0x1 = 128 Byte" "0,1"
bitfld.long 0x00 0.--1. "     ASPM_CTRL                   ,Active State Link PM Control 0x0: DISABLED 0x1: L0S_ENABLED 0x2: L1_ENABLED 0x3: L0S_AND_L1_ENABLED" "0,1,2,3"
rgroup.long 0x94++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_DEV_CAP_2,Device Capabilities 2 Register"
bitfld.long 0x00 12.--13. " TPHC_SP                      ,TPH Completer Supported" "0,1,2,3"
bitfld.long 0x00 10. "         NOROPR                    ,No RO-enabled PR-PR Passing" "0,1"
bitfld.long 0x00 9. "     CASC128_SP                  ,128-bit CAS Completer Supported" "0,1"
textline "                                                     "
bitfld.long 0x00 8. " AOC64_SP                     ,64-bit AtomicOp Completer Supported" "0,1"
bitfld.long 0x00 7. "         AOC32_SP                  ,32-bit AtomicOp Completer Supported" "0,1"
bitfld.long 0x00 6. "     AOR_SP                      ,AtomicOp Routing Supported" "0,1"
textline "                                                     "
bitfld.long 0x00 5. " ARI_FWD_SP                   ,ARI Forwarding Supported" "0,1"
bitfld.long 0x00 4. "         CPL_TIMEOUT_DIS_SUPPORTED ,Completion Timeout Disable Supported" "0,1"
bitfld.long 0x00 0.--3. "     CPL_TIMEOUT_RNG_SUPPORTED   ,Completion Timeout Ranges Supported" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x98++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_DEV_CAS_2,Device Control 2 Register"
bitfld.long 0x00 13.--14. " OBFF_EN                      ,OBFF Enable" "0,1,2,3"
bitfld.long 0x00 10. "         LTR_EN                    ,LTR Mechanism Enable" "0,1"
bitfld.long 0x00 9. "     IDO_CPL_EN                  ,IDO Completion Enable" "0,1"
textline "                                                     "
bitfld.long 0x00 8. " IDO_REQ_EN                   ,IDO Request Enable" "0,1"
bitfld.long 0x00 7. "         AOP_EG_BLK                ,AtomicOp Egress Blocking" "0,1"
bitfld.long 0x00 6. "     AOP_REQ_EN                  ,AtomicOp Requester Enable" "0,1"
textline "                                                     "
bitfld.long 0x00 5. " ARI_FWD_SP                   ,ARI Forwarding Supported" "0,1"
bitfld.long 0x00 4. "         CPL_TIMEOUT_DIS           ,Completion Timeout Disable" "0,1"
bitfld.long 0x00 0.--3. "     CPL_TIMEOUT_VALUE           ,Completion Timeout Values" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x9C++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_LNK_CAP_2,PCIE Link Capabilities 2 Register"
bitfld.long 0x00 8. " CROSSLINK_SP                 ,Crosslink Supported" "0,1"
hexmask.long.byte 0x00 1.--7. 1. "         SP_LS_VEC                 ,Supported Link Speeds Vector"
group.long 0xA0++0x3
line.long 0x00 "PCIECTRL_EP_DBICS2_LNK_CAS_2,Link Control and Status 2 Register"
eventfld.long 0x00 21. " LINK_EQ_REQ                  ,Link Equilization Request" "0,1"
bitfld.long 0x00 20. "         EQ_PH3                    ,Equalization Ph3 Success, Gen3 Only" "0,1"
bitfld.long 0x00 19. "     EQ_PH2                      ,Equalization Ph2 Success, Gen3 Only" "0,1"
textline "                                                     "
bitfld.long 0x00 18. " EQ_PH1                       ,Equalization Ph1 Success, Gen3 Only" "0,1"
bitfld.long 0x00 17. "         EQ_COMPLETE               ,Equalization Complete, Gen3 Only" "0,1"
bitfld.long 0x00 16. "     DEEMPH_LEVEL                ,Current De-emphasis Level" "0,1"
textline "                                                     "
bitfld.long 0x00 12.--15. " COMPL_PRST_DEEPH             ,Compliance Pre-set/ De-emphasis" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "        COMPL_SOS                 ,Compliance SOS" "0,1"
bitfld.long 0x00 10. "     ENT_MOD_COMPL               ,Enter Modified Compliance" "0,1"
textline "                                                     "
bitfld.long 0x00 7.--9. " TX_MARGIN                    ,Transmit Margin" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6. "         SEL_DEEMP                 ,Selectable De-emphasize" "0,1"
bitfld.long 0x00 5. "     HW_AUTO_SP_DIS              ,Hardware Autonomous Speed Disable" "0,1"
textline "                                                     "
bitfld.long 0x00 4. " ENTR_COMPL                   ,Enter Compliance" "0,1"
bitfld.long 0x00 0.--3. "         TRGT_LINK_SPEED           ,Target Link Speed" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree.end
tree.open "PCIe_SS1_TI_CONF"
tree "PCIe_SS1_TI_CONF"
base ad:0x51002000
width 37.
rgroup.long 0x0++0x3
line.long 0x00 "PCIECTRL_TI_CONF_REVISION,IP Revision Identifier"
hexmask.long 0x00 0.--31. 1. " REVISION         ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "PCIECTRL_TI_CONF_SYSCONFIG,Controls various parameters of the master and slave interfaces."
bitfld.long 0x00 16. " MCOHERENT_EN     ,Allows the no-snoop (NS) attribute of inbound PCIe TLPs to be passed to SoC system bus (AXI) master as a 'coherent' inband flag. - DIS. - EN." "DIS,EN"
bitfld.long 0x00 4.--5. "        STANDBYMODE     ,PM mode of local initiator (master); Initiator may generate read/write transaction as long as it is out of STANDBY state. 0x0: Force-standby mode = Initiator is unconditionally placed in standby state. 0x1: No-standby mode = in..." "0,1,2,3"
bitfld.long 0x00 2.--3. "         IDLEMODE       ,PM mode of local target (slave); Target shall be capable of handling read/write transaction as long as it is out of IDLE state. 0x0: Force-idle mode = local target's idle state follows (acknowledges) the system's idle requests ..." "0,1,2,3"
group.long 0x18++0x3
line.long 0x00 "PCIECTRL_TI_CONF_IRQ_EOI,Software End-Of-Interrupt: Allows the generation of further pulses on the interrupt line, if an new interrupt event is pending, when using the pulsed output. Unused when using the level interrupt line (depending on module integ..."
bitfld.long 0x00 0.--3. " LINE_NUMBER      ,Write the IRQ line number to apply SW EOI to it. Write 0x0: SW EOI on main interrupt line Read 0x0: Read always returns zeros Write 0x1: SW EOI on message-signalled (MSI) interrupt line" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x20++0x3
line.long 0x00 "PCIECTRL_TI_CONF_IRQSTATUS_RAW_MAIN,Raw status of 'main' interrupt requests; Set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug (regular status also gets set)."
bitfld.long 0x00 14. " CFG_MSE_EVT      ,CFG 'Memory Space Enable' change IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
bitfld.long 0x00 13. "          CFG_BME_EVT     ,CFG 'Bus Master Enable' change IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
bitfld.long 0x00 12. "         LINK_UP_EVT    ,Link-up state change IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
textline "                                              "
bitfld.long 0x00 11. " LINK_REQ_RST     ,Link Request Reset IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
bitfld.long 0x00 10. "          PM_PME          ,PM Power Management Event message received IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
bitfld.long 0x00 9. "         PME_TO_ACK     ,Power Management Event Turn-Off Ack message received IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
textline "                                              "
bitfld.long 0x00 8. " PME_TURN_OFF     ,Power Management Event Turn-Off message received IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
bitfld.long 0x00 5. "          ERR_ECRC        ,ECRC Error IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
bitfld.long 0x00 4. "         ERR_AXI        ,AXI tag lookup fatal Error IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
textline "                                              "
bitfld.long 0x00 3. " ERR_COR          ,Correctable Error message received IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
bitfld.long 0x00 2. "          ERR_NONFATAL    ,Non-Fatal Error message received IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
bitfld.long 0x00 1. "         ERR_FATAL      ,Fatal Error message received IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
textline "                                              "
bitfld.long 0x00 0. " ERR_SYS          ,System Error IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
group.long 0x24++0x3
line.long 0x00 "PCIECTRL_TI_CONF_IRQSTATUS_MAIN,Regular status of 'main' interrupt requests; Set only when enabled. Write 1 to clear after interrupt has been serviced (raw status also gets cleared)."
eventfld.long 0x00 14. " CFG_MSE_EVT      ,CFG 'Memory Space Enable' change IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any Read 1: IRQ event pending" "0,1"
eventfld.long 0x00 13. "          CFG_BME_EVT     ,CFG 'Bus Master Enable' change IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any Read 1: IRQ event pending" "0,1"
eventfld.long 0x00 12. "         LINK_UP_EVT    ,Link-up state change IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any Read 1: IRQ event pending" "0,1"
textline "                                              "
eventfld.long 0x00 11. " LINK_REQ_RST     ,Link Request Reset IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any Read 1: IRQ event pending" "0,1"
eventfld.long 0x00 10. "          PM_PME          ,PM Power Management Event message received IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any Read 1: IRQ event pending" "0,1"
eventfld.long 0x00 9. "         PME_TO_ACK     ,Power Management Event Turn-Off Ack message received IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any Read 1: IRQ event pending" "0,1"
textline "                                              "
eventfld.long 0x00 8. " PME_TURN_OFF     ,Power Management Event Turn-Off message received IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any Read 1: IRQ event pending" "0,1"
eventfld.long 0x00 5. "          ERR_ECRC        ,ECRC Error IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any Read 1: IRQ event pending" "0,1"
eventfld.long 0x00 4. "         ERR_AXI        ,AXI tag lookup fatal Error IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any Read 1: IRQ event pending" "0,1"
textline "                                              "
eventfld.long 0x00 3. " ERR_COR          ,Correctable Error message received IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any Read 1: IRQ event pending" "0,1"
eventfld.long 0x00 2. "          ERR_NONFATAL    ,Non-Fatal Error message received IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any Read 1: IRQ event pending" "0,1"
eventfld.long 0x00 1. "         ERR_FATAL      ,Fatal Error message received IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any Read 1: IRQ event pending" "0,1"
textline "                                              "
eventfld.long 0x00 0. " ERR_SYS          ,System Error IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any Read 1: IRQ event pending" "0,1"
group.long 0x28++0x3
line.long 0x00 "PCIECTRL_TI_CONF_IRQENABLE_SET_MAIN,Enable of 'main' interrupt requests; Write 1 to set (ie to enable interrupt). Readout is the same as corresponding _CLR register."
bitfld.long 0x00 14. " CFG_MSE_EVT_EN   ,CFG 'Memory Space Enable' change IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
bitfld.long 0x00 13. "          CFG_BME_EVT_EN  ,CFG 'Bus Master Enable' change IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
bitfld.long 0x00 12. "         LINK_UP_EVT_EN ,Link-up state change IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
textline "                                              "
bitfld.long 0x00 11. " LINK_REQ_RST_EN  ,Link Request Reset IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
bitfld.long 0x00 10. "          PM_PME_EN       ,PM Power Management Event message received IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
bitfld.long 0x00 9. "         PME_TO_ACK_EN  ,Power Management Event Turn-Off Ack message received IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
textline "                                              "
bitfld.long 0x00 8. " PME_TURN_OFF_EN  ,Power Management Event Turn-Off message received IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
bitfld.long 0x00 5. "          ERR_ECRC_EN     ,ECRC Error IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
bitfld.long 0x00 4. "         ERR_AXI_EN     ,AXI tag lookup fatal Error IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
textline "                                              "
bitfld.long 0x00 3. " ERR_COR_EN       ,Correctable Error message received IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
bitfld.long 0x00 2. "          ERR_NONFATAL_EN ,Non-Fatal Error message received IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
bitfld.long 0x00 1. "         ERR_FATAL_EN   ,Fatal Error message received IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
textline "                                              "
bitfld.long 0x00 0. " ERR_SYS_EN       ,System Error IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
group.long 0x2C++0x3
line.long 0x00 "PCIECTRL_TI_CONF_IRQENABLE_CLR_MAIN,Enable of 'main' interrupt requests; Write 1 to clear (ie to disable interrupt). Readout is the same as corresponding _SET register."
eventfld.long 0x00 14. " CFG_MSE_EVT_EN   ,CFG 'Memory Space Enable' change IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
eventfld.long 0x00 13. "          CFG_BME_EVT_EN  ,CFG 'Bus Master Enable' change IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
eventfld.long 0x00 12. "         LINK_UP_EVT_EN ,Link-up state change IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
textline "                                              "
eventfld.long 0x00 11. " LINK_REQ_RST_EN  ,Link Request Reset IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
eventfld.long 0x00 10. "          PM_PME_EN       ,PM Power Management Event message received IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
eventfld.long 0x00 9. "         PME_TO_ACK_EN  ,Power Management Event Turn-Off Ack message received IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
textline "                                              "
eventfld.long 0x00 8. " PME_TURN_OFF_EN  ,Power Management Event Turn-Off message received IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
eventfld.long 0x00 5. "          ERR_ECRC_EN     ,ECRC Error IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
eventfld.long 0x00 4. "         ERR_AXI_EN     ,AXI tag lookup fatal Error IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
textline "                                              "
eventfld.long 0x00 3. " ERR_COR_EN       ,Correctable Error message received IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
eventfld.long 0x00 2. "          ERR_NONFATAL_EN ,Non-Fatal Error message received IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
eventfld.long 0x00 1. "         ERR_FATAL_EN   ,Fatal Error message received IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
textline "                                              "
eventfld.long 0x00 0. " ERR_SYS_EN       ,System Error IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
group.long 0x30++0x3
line.long 0x00 "PCIECTRL_TI_CONF_IRQSTATUS_RAW_MSI,Raw status of legacy and MSI interrupt requests; Set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug (regular status also gets set)."
bitfld.long 0x00 4. " MSI              ,Message Signaled Interrupt IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
bitfld.long 0x00 3. "          INTD            ,INTD IRQ status (Legacy PCIe message interrupt D); RC mode only. Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
bitfld.long 0x00 2. "         INTC           ,INTC IRQ status (Legacy PCIe message interrupt C); RC mode only. Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
textline "                                              "
bitfld.long 0x00 1. " INTB             ,INTB IRQ status (Legacy PCIe message interrupt B); RC mode only. Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
bitfld.long 0x00 0. "          INTA            ,INTA IRQ status (Legacy PCIe message interrupt A); RC mode only. Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
group.long 0x34++0x3
line.long 0x00 "PCIECTRL_TI_CONF_IRQSTATUS_MSI,Regular status of legacy and MSI interrupt requests; Set only when enabled. Write 1 to clear after interrupt has been serviced (raw status also gets cleared). HW-generated events are self-clearing."
eventfld.long 0x00 4. " MSI              ,Message Signaled Interrupt IRQ status. Cleared by clearing all vectors in the MSI controller (PL) registers Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any. Read 1: IRQ event pending" "0,1"
eventfld.long 0x00 3. "          INTD            ,INTD IRQ status (Legacy PCIe message interrupt D); RC mode only. Typically set AND cleared by the remote EP, without local SW intervention. Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any. ..." "0,1"
eventfld.long 0x00 2. "         INTC           ,INTC IRQ status (Legacy PCIe message interrupt C); RC mode only. Typically set AND cleared by the remote EP, without local SW intervention. Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any. Re..." "0,1"
textline "                                              "
eventfld.long 0x00 1. " INTB             ,INTB IRQ status (Legacy PCIe message interrupt B); RC mode only. Typically set AND cleared by the remote EP, without local SW intervention. Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any. Read 1: ..." "0,1"
eventfld.long 0x00 0. "          INTA            ,INTA IRQ status (Legacy PCIe message interrupt A); RC mode only. Typically set AND cleared by the remote EP, without local SW intervention. Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any. ..." "0,1"
group.long 0x38++0x3
line.long 0x00 "PCIECTRL_TI_CONF_IRQENABLE_SET_MSI,Enable of legacy and MSI interrupt requests; Write 1 to set (ie to enable interrupt). Readout is the same as corresponding _CLR register."
bitfld.long 0x00 4. " MSI_EN           ,Message Signaled Interrupt IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
bitfld.long 0x00 3. "          INTD_EN         ,INTD IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
bitfld.long 0x00 2. "         INTC_EN        ,INTC IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
textline "                                              "
bitfld.long 0x00 1. " INTB_EN          ,INTB IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
bitfld.long 0x00 0. "          INTA_EN         ,INTA IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
group.long 0x3C++0x3
line.long 0x00 "PCIECTRL_TI_CONF_IRQENABLE_CLR_MSI,Enable of legacy and MSI interrupt requests; Write 1 to clear (ie to disable interrupt). Readout is the same as corresponding _SET register."
eventfld.long 0x00 4. " MSI_EN           ,Message Signaled Interrupt IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
eventfld.long 0x00 3. "          INTD_EN         ,INTD IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
eventfld.long 0x00 2. "         INTC_EN        ,INTC IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
textline "                                              "
eventfld.long 0x00 1. " INTB_EN          ,INTB IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
eventfld.long 0x00 0. "          INTA_EN         ,INTA IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
group.long 0x100++0x3
line.long 0x00 "PCIECTRL_TI_CONF_DEVICE_TYPE,Sets the Dual-Mode device's type"
bitfld.long 0x00 0.--3. " TYPE             ,PCIe device type including the contents of the PCI config space (Type-0 for EP, Type-1 for RC); Apply fundamental reset after change; Do not change during core operation; 0x0 : PCIe endpoint (EP) 0x1: Legacy PCIe endpoint (LEG_EP) 0x..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x104++0x3
line.long 0x00 "PCIECTRL_TI_CONF_DEVICE_CMD,Device command (startup control and status); WARNING: cleared by all reset conditions, including fundamental reset"
hexmask.long.byte 0x00 21.--28. 1. " BUS_NUM          ,PCIe bus number"
bitfld.long 0x00 16.--20. "         DEV_NUM         ,PCIe device number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 2.--7. "        LTSSM_STATE    ,LTSSM state /substate, implementation-specific, for debug Read 0x00: DETECT_QUIET Read 0x01: DETECT_ACT Read 0x02: POLL_ACTIVE Read 0x03: POLL_COMPLIANCE Read 0x04: POLL_CONFIG Read 0x05: PRE_DETECT_QUIET Read 0x06: DETECT_WAIT ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                              "
bitfld.long 0x00 1. " APP_REQ_RETRY_EN ,Application Request Retry Enable (This bit is CLEARED BY FUNDAMENTAL RESET) - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 0. "   LTSSM_EN        ,LTSSM enable: start the PCI link (This bit is CLEARED BY FUNDAMENTAL RESET) - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x108++0x3
line.long 0x00 "PCIECTRL_TI_CONF_PM_CTRL,Power Management Control"
bitfld.long 0x00 11. " AUX_PWR_DET      ,Auxilliary Power Detection; Status of Vaux detection for the PCIe controller; Determines transition to L2 vs L3 upon Vmain turn-off. - UNPOWERED. - POWERED." "UNPOWERED,POWERED"
bitfld.long 0x00 10. "  REQ_EXIT_L1     ,Request to exit L1 state (to L0) - INACTIVE. - ACTIVE." "INACTIVE,ACTIVE"
bitfld.long 0x00 9. "  REQ_ENTR_L1    ,Request to transition to L1 state - INACTIVE. - ACTIVE." "INACTIVE,ACTIVE"
textline "                                              "
bitfld.long 0x00 8. " L23_READY        ,Indicates system readiness for the link to enter L2/L3 ready state (EP mode only); Allows the transmission of PM_Enter_L23 following PM_Turn_OFF/PME_TO_Ack handshake. Self-cleared upon transition to L2/L3. - NOT_READY. - READY." "NOT_READY,READY"
bitfld.long 0x00 1. "  PM_PME          ,Transmits PM_PME wakeup message (EP mode only) - NOACTION. - TRANSMIT." "NOACTION,TRANSMIT"
bitfld.long 0x00 0. "  PME_TURN_OFF   ,Transmits PME_Turn_Off message downstream (RC mode only); Eventually sends all links of hierarchy domain to L2L/3_ready - NOACTION. - TRANSMIT." "NOACTION,TRANSMIT"
group.long 0x10C++0x3
line.long 0x00 "PCIECTRL_TI_CONF_PHY_CS,Physical Layer Control and Status"
bitfld.long 0x00 16. " LINK_UP          ,Link status, from LTSSM - DOWN. - UP." "DOWN,UP"
bitfld.long 0x00 0. "       REVERSE_LANES   ,Manual lane reversal control, allowing lane 0 and lane 1 to be swapped by default; Both Tx and Rx are reversed; Polarity of the individual lane is unchanged - STRAIGHT. - REVERSED." "STRAIGHT,REVERSED"
group.long 0x124++0x3
line.long 0x00 "PCIECTRL_TI_CONF_INTX_ASSERT,Legacy INTx ASSERT message control, with 'x' in (A,B,C,D) set by the 'Interrupt Pin' field. Write 1 to send message, read to get the status; EP mode only"
bitfld.long 0x00 0. " ASSERT_F0        ,INTx ASSERT for function 0 Write 0 : No action Read 0 : INTx is inactive (has been deasserted) Write 1: Transmit to RC Read 1: INTx is active (has been asserted)" "0,1"
group.long 0x128++0x3
line.long 0x00 "PCIECTRL_TI_CONF_INTX_DEASSERT,Legacy INTx DEASSERT message control, with 'x' in (A,B,C,D) set by the 'Interrupt Pin' field. Write 1 to send message, read to get the status; EP mode only"
bitfld.long 0x00 0. " DEASSERT_F0      ,INTx DEASSERT for function 0 Write 0 : No action Read 0 : INTx is inactive (has been deasserted) Write 1: Transmit to RC Read 1: INTx is active (has been asserted)" "0,1"
group.long 0x12C++0x3
line.long 0x00 "PCIECTRL_TI_CONF_MSI_XMT,MSI transmitter (EP mode); Specifies parameters of MSI, together with MSI capability descriptor already configured by remote RC."
bitfld.long 0x00 7.--11. " MSI_VECTOR       ,Vector number for transmitted MSI (as allowed by RC at enumeration)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 4.--6. "         MSI_TC          ,Traffic class (TC) for transmitted MSI" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 1.--3. "         MSI_FUNC_NUM   ,Function number for transmitted MSI; Always 0 for single-function EP" "0,1,2,3,4,5,6,7"
textline "                                              "
bitfld.long 0x00 0. " MSI_REQ_GRANT    ,MSI transmit request (and grant status) Write 0: No Action Read 0: MSI transmission request pending Read 1: No MSI request pending (last request granted) Write 1: Request MSI transmission" "0,1"
group.long 0x140++0x3
line.long 0x00 "PCIECTRL_TI_CONF_DEBUG_CFG,Configuration of debug_data output and register (observability)"
bitfld.long 0x00 0.--5. " SEL              ,Debug_data mode" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x144++0x3
line.long 0x00 "PCIECTRL_TI_CONF_DEBUG_DATA,Debug data vector, depending on DEBUG_CFG.sel value"
hexmask.long 0x00 0.--31. 1. " DEBUG            ,"
group.long 0x148++0x3
line.long 0x00 "PCIECTRL_TI_CONF_DIAG_CTRL,Diagnostic control"
bitfld.long 0x00 1. " INV_ECRC         ,Corrupt LSB of ECRC in the next packet, then self-clears. Read 0 : No CRC corruption pending Read 1: CRC corruption pending Write 1: Request CRC corruption" "0,1"
bitfld.long 0x00 0. "          INV_LCRC        ,Corrupts LSB of LCRC in the next packet, then self-clears. Read 0 : No CRC corruption pending Read 1: CRC corruption pending Write 1: Request CRC corruption" "0,1"
width 0x0B
tree.end
tree "PCIe_SS2_TI_CONF"
base ad:0x51802000
width 37.
rgroup.long 0x0++0x3
line.long 0x00 "PCIECTRL_TI_CONF_REVISION,IP Revision Identifier"
hexmask.long 0x00 0.--31. 1. " REVISION         ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "PCIECTRL_TI_CONF_SYSCONFIG,Controls various parameters of the master and slave interfaces."
bitfld.long 0x00 16. " MCOHERENT_EN     ,Allows the no-snoop (NS) attribute of inbound PCIe TLPs to be passed to SoC system bus (AXI) master as a 'coherent' inband flag. - DIS. - EN." "DIS,EN"
bitfld.long 0x00 4.--5. "        STANDBYMODE     ,PM mode of local initiator (master); Initiator may generate read/write transaction as long as it is out of STANDBY state. 0x0: Force-standby mode = Initiator is unconditionally placed in standby state. 0x1: No-standby mode = in..." "0,1,2,3"
bitfld.long 0x00 2.--3. "         IDLEMODE       ,PM mode of local target (slave); Target shall be capable of handling read/write transaction as long as it is out of IDLE state. 0x0: Force-idle mode = local target's idle state follows (acknowledges) the system's idle requests ..." "0,1,2,3"
group.long 0x18++0x3
line.long 0x00 "PCIECTRL_TI_CONF_IRQ_EOI,Software End-Of-Interrupt: Allows the generation of further pulses on the interrupt line, if an new interrupt event is pending, when using the pulsed output. Unused when using the level interrupt line (depending on module integ..."
bitfld.long 0x00 0.--3. " LINE_NUMBER      ,Write the IRQ line number to apply SW EOI to it. Write 0x0: SW EOI on main interrupt line Read 0x0: Read always returns zeros Write 0x1: SW EOI on message-signalled (MSI) interrupt line" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x20++0x3
line.long 0x00 "PCIECTRL_TI_CONF_IRQSTATUS_RAW_MAIN,Raw status of 'main' interrupt requests; Set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug (regular status also gets set)."
bitfld.long 0x00 14. " CFG_MSE_EVT      ,CFG 'Memory Space Enable' change IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
bitfld.long 0x00 13. "          CFG_BME_EVT     ,CFG 'Bus Master Enable' change IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
bitfld.long 0x00 12. "         LINK_UP_EVT    ,Link-up state change IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
textline "                                              "
bitfld.long 0x00 11. " LINK_REQ_RST     ,Link Request Reset IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
bitfld.long 0x00 10. "          PM_PME          ,PM Power Management Event message received IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
bitfld.long 0x00 9. "         PME_TO_ACK     ,Power Management Event Turn-Off Ack message received IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
textline "                                              "
bitfld.long 0x00 8. " PME_TURN_OFF     ,Power Management Event Turn-Off message received IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
bitfld.long 0x00 5. "          ERR_ECRC        ,ECRC Error IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
bitfld.long 0x00 4. "         ERR_AXI        ,AXI tag lookup fatal Error IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
textline "                                              "
bitfld.long 0x00 3. " ERR_COR          ,Correctable Error message received IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
bitfld.long 0x00 2. "          ERR_NONFATAL    ,Non-Fatal Error message received IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
bitfld.long 0x00 1. "         ERR_FATAL      ,Fatal Error message received IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
textline "                                              "
bitfld.long 0x00 0. " ERR_SYS          ,System Error IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
group.long 0x24++0x3
line.long 0x00 "PCIECTRL_TI_CONF_IRQSTATUS_MAIN,Regular status of 'main' interrupt requests; Set only when enabled. Write 1 to clear after interrupt has been serviced (raw status also gets cleared)."
eventfld.long 0x00 14. " CFG_MSE_EVT      ,CFG 'Memory Space Enable' change IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any Read 1: IRQ event pending" "0,1"
eventfld.long 0x00 13. "          CFG_BME_EVT     ,CFG 'Bus Master Enable' change IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any Read 1: IRQ event pending" "0,1"
eventfld.long 0x00 12. "         LINK_UP_EVT    ,Link-up state change IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any Read 1: IRQ event pending" "0,1"
textline "                                              "
eventfld.long 0x00 11. " LINK_REQ_RST     ,Link Request Reset IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any Read 1: IRQ event pending" "0,1"
eventfld.long 0x00 10. "          PM_PME          ,PM Power Management Event message received IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any Read 1: IRQ event pending" "0,1"
eventfld.long 0x00 9. "         PME_TO_ACK     ,Power Management Event Turn-Off Ack message received IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any Read 1: IRQ event pending" "0,1"
textline "                                              "
eventfld.long 0x00 8. " PME_TURN_OFF     ,Power Management Event Turn-Off message received IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any Read 1: IRQ event pending" "0,1"
eventfld.long 0x00 5. "          ERR_ECRC        ,ECRC Error IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any Read 1: IRQ event pending" "0,1"
eventfld.long 0x00 4. "         ERR_AXI        ,AXI tag lookup fatal Error IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any Read 1: IRQ event pending" "0,1"
textline "                                              "
eventfld.long 0x00 3. " ERR_COR          ,Correctable Error message received IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any Read 1: IRQ event pending" "0,1"
eventfld.long 0x00 2. "          ERR_NONFATAL    ,Non-Fatal Error message received IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any Read 1: IRQ event pending" "0,1"
eventfld.long 0x00 1. "         ERR_FATAL      ,Fatal Error message received IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any Read 1: IRQ event pending" "0,1"
textline "                                              "
eventfld.long 0x00 0. " ERR_SYS          ,System Error IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any Read 1: IRQ event pending" "0,1"
group.long 0x28++0x3
line.long 0x00 "PCIECTRL_TI_CONF_IRQENABLE_SET_MAIN,Enable of 'main' interrupt requests; Write 1 to set (ie to enable interrupt). Readout is the same as corresponding _CLR register."
bitfld.long 0x00 14. " CFG_MSE_EVT_EN   ,CFG 'Memory Space Enable' change IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
bitfld.long 0x00 13. "          CFG_BME_EVT_EN  ,CFG 'Bus Master Enable' change IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
bitfld.long 0x00 12. "         LINK_UP_EVT_EN ,Link-up state change IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
textline "                                              "
bitfld.long 0x00 11. " LINK_REQ_RST_EN  ,Link Request Reset IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
bitfld.long 0x00 10. "          PM_PME_EN       ,PM Power Management Event message received IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
bitfld.long 0x00 9. "         PME_TO_ACK_EN  ,Power Management Event Turn-Off Ack message received IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
textline "                                              "
bitfld.long 0x00 8. " PME_TURN_OFF_EN  ,Power Management Event Turn-Off message received IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
bitfld.long 0x00 5. "          ERR_ECRC_EN     ,ECRC Error IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
bitfld.long 0x00 4. "         ERR_AXI_EN     ,AXI tag lookup fatal Error IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
textline "                                              "
bitfld.long 0x00 3. " ERR_COR_EN       ,Correctable Error message received IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
bitfld.long 0x00 2. "          ERR_NONFATAL_EN ,Non-Fatal Error message received IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
bitfld.long 0x00 1. "         ERR_FATAL_EN   ,Fatal Error message received IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
textline "                                              "
bitfld.long 0x00 0. " ERR_SYS_EN       ,System Error IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
group.long 0x2C++0x3
line.long 0x00 "PCIECTRL_TI_CONF_IRQENABLE_CLR_MAIN,Enable of 'main' interrupt requests; Write 1 to clear (ie to disable interrupt). Readout is the same as corresponding _SET register."
eventfld.long 0x00 14. " CFG_MSE_EVT_EN   ,CFG 'Memory Space Enable' change IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
eventfld.long 0x00 13. "          CFG_BME_EVT_EN  ,CFG 'Bus Master Enable' change IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
eventfld.long 0x00 12. "         LINK_UP_EVT_EN ,Link-up state change IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
textline "                                              "
eventfld.long 0x00 11. " LINK_REQ_RST_EN  ,Link Request Reset IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
eventfld.long 0x00 10. "          PM_PME_EN       ,PM Power Management Event message received IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
eventfld.long 0x00 9. "         PME_TO_ACK_EN  ,Power Management Event Turn-Off Ack message received IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
textline "                                              "
eventfld.long 0x00 8. " PME_TURN_OFF_EN  ,Power Management Event Turn-Off message received IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
eventfld.long 0x00 5. "          ERR_ECRC_EN     ,ECRC Error IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
eventfld.long 0x00 4. "         ERR_AXI_EN     ,AXI tag lookup fatal Error IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
textline "                                              "
eventfld.long 0x00 3. " ERR_COR_EN       ,Correctable Error message received IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
eventfld.long 0x00 2. "          ERR_NONFATAL_EN ,Non-Fatal Error message received IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
eventfld.long 0x00 1. "         ERR_FATAL_EN   ,Fatal Error message received IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
textline "                                              "
eventfld.long 0x00 0. " ERR_SYS_EN       ,System Error IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
group.long 0x30++0x3
line.long 0x00 "PCIECTRL_TI_CONF_IRQSTATUS_RAW_MSI,Raw status of legacy and MSI interrupt requests; Set even if event is not enabled. Write 1 to set the (raw) status, mostly for debug (regular status also gets set)."
bitfld.long 0x00 4. " MSI              ,Message Signaled Interrupt IRQ status Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
bitfld.long 0x00 3. "          INTD            ,INTD IRQ status (Legacy PCIe message interrupt D); RC mode only. Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
bitfld.long 0x00 2. "         INTC           ,INTC IRQ status (Legacy PCIe message interrupt C); RC mode only. Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
textline "                                              "
bitfld.long 0x00 1. " INTB             ,INTB IRQ status (Legacy PCIe message interrupt B); RC mode only. Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
bitfld.long 0x00 0. "          INTA            ,INTA IRQ status (Legacy PCIe message interrupt A); RC mode only. Write 0 : No action Read 0 : No event pending Write 1 : Trigger IRQ event by software Read 1: IRQ event pending" "0,1"
group.long 0x34++0x3
line.long 0x00 "PCIECTRL_TI_CONF_IRQSTATUS_MSI,Regular status of legacy and MSI interrupt requests; Set only when enabled. Write 1 to clear after interrupt has been serviced (raw status also gets cleared). HW-generated events are self-clearing."
eventfld.long 0x00 4. " MSI              ,Message Signaled Interrupt IRQ status. Cleared by clearing all vectors in the MSI controller (PL) registers Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any. Read 1: IRQ event pending" "0,1"
eventfld.long 0x00 3. "          INTD            ,INTD IRQ status (Legacy PCIe message interrupt D); RC mode only. Typically set AND cleared by the remote EP, without local SW intervention. Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any. ..." "0,1"
eventfld.long 0x00 2. "         INTC           ,INTC IRQ status (Legacy PCIe message interrupt C); RC mode only. Typically set AND cleared by the remote EP, without local SW intervention. Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any. Re..." "0,1"
textline "                                              "
eventfld.long 0x00 1. " INTB             ,INTB IRQ status (Legacy PCIe message interrupt B); RC mode only. Typically set AND cleared by the remote EP, without local SW intervention. Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any. Read 1: ..." "0,1"
eventfld.long 0x00 0. "          INTA            ,INTA IRQ status (Legacy PCIe message interrupt A); RC mode only. Typically set AND cleared by the remote EP, without local SW intervention. Write 0 : No action Read 0 : No event pending Write 1 : Clear pending event, if any. ..." "0,1"
group.long 0x38++0x3
line.long 0x00 "PCIECTRL_TI_CONF_IRQENABLE_SET_MSI,Enable of legacy and MSI interrupt requests; Write 1 to set (ie to enable interrupt). Readout is the same as corresponding _CLR register."
bitfld.long 0x00 4. " MSI_EN           ,Message Signaled Interrupt IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
bitfld.long 0x00 3. "          INTD_EN         ,INTD IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
bitfld.long 0x00 2. "         INTC_EN        ,INTC IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
textline "                                              "
bitfld.long 0x00 1. " INTB_EN          ,INTB IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
bitfld.long 0x00 0. "          INTA_EN         ,INTA IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Set IRQ enable (i.e. enable event) Read 1: IRQ event is enabled" "0,1"
group.long 0x3C++0x3
line.long 0x00 "PCIECTRL_TI_CONF_IRQENABLE_CLR_MSI,Enable of legacy and MSI interrupt requests; Write 1 to clear (ie to disable interrupt). Readout is the same as corresponding _SET register."
eventfld.long 0x00 4. " MSI_EN           ,Message Signaled Interrupt IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
eventfld.long 0x00 3. "          INTD_EN         ,INTD IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
eventfld.long 0x00 2. "         INTC_EN        ,INTC IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
textline "                                              "
eventfld.long 0x00 1. " INTB_EN          ,INTB IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
eventfld.long 0x00 0. "          INTA_EN         ,INTA IRQ enable Write 0 : No action Read 0 : IRQ event is disabled Write 1 : Clear IRQ enable (i.e. disable event) Read 1: IRQ event is enabled" "0,1"
group.long 0x100++0x3
line.long 0x00 "PCIECTRL_TI_CONF_DEVICE_TYPE,Sets the Dual-Mode device's type"
bitfld.long 0x00 0.--3. " TYPE             ,PCIe device type including the contents of the PCI config space (Type-0 for EP, Type-1 for RC); Apply fundamental reset after change; Do not change during core operation; 0x0 : PCIe endpoint (EP) 0x1: Legacy PCIe endpoint (LEG_EP) 0x..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x104++0x3
line.long 0x00 "PCIECTRL_TI_CONF_DEVICE_CMD,Device command (startup control and status); WARNING: cleared by all reset conditions, including fundamental reset"
hexmask.long.byte 0x00 21.--28. 1. " BUS_NUM          ,PCIe bus number"
bitfld.long 0x00 16.--20. "         DEV_NUM         ,PCIe device number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 2.--7. "        LTSSM_STATE    ,LTSSM state /substate, implementation-specific, for debug Read 0x00: DETECT_QUIET Read 0x01: DETECT_ACT Read 0x02: POLL_ACTIVE Read 0x03: POLL_COMPLIANCE Read 0x04: POLL_CONFIG Read 0x05: PRE_DETECT_QUIET Read 0x06: DETECT_WAIT ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                              "
bitfld.long 0x00 1. " APP_REQ_RETRY_EN ,Application Request Retry Enable (This bit is CLEARED BY FUNDAMENTAL RESET) - DISABLED. - ENABLED." "DISABLED,ENABLED"
bitfld.long 0x00 0. "   LTSSM_EN        ,LTSSM enable: start the PCI link (This bit is CLEARED BY FUNDAMENTAL RESET) - DISABLED. - ENABLED." "DISABLED,ENABLED"
group.long 0x108++0x3
line.long 0x00 "PCIECTRL_TI_CONF_PM_CTRL,Power Management Control"
bitfld.long 0x00 11. " AUX_PWR_DET      ,Auxilliary Power Detection; Status of Vaux detection for the PCIe controller; Determines transition to L2 vs L3 upon Vmain turn-off. - UNPOWERED. - POWERED." "UNPOWERED,POWERED"
bitfld.long 0x00 10. "  REQ_EXIT_L1     ,Request to exit L1 state (to L0) - INACTIVE. - ACTIVE." "INACTIVE,ACTIVE"
bitfld.long 0x00 9. "  REQ_ENTR_L1    ,Request to transition to L1 state - INACTIVE. - ACTIVE." "INACTIVE,ACTIVE"
textline "                                              "
bitfld.long 0x00 8. " L23_READY        ,Indicates system readiness for the link to enter L2/L3 ready state (EP mode only); Allows the transmission of PM_Enter_L23 following PM_Turn_OFF/PME_TO_Ack handshake. Self-cleared upon transition to L2/L3. - NOT_READY. - READY." "NOT_READY,READY"
bitfld.long 0x00 1. "  PM_PME          ,Transmits PM_PME wakeup message (EP mode only) - NOACTION. - TRANSMIT." "NOACTION,TRANSMIT"
bitfld.long 0x00 0. "  PME_TURN_OFF   ,Transmits PME_Turn_Off message downstream (RC mode only); Eventually sends all links of hierarchy domain to L2L/3_ready - NOACTION. - TRANSMIT." "NOACTION,TRANSMIT"
group.long 0x10C++0x3
line.long 0x00 "PCIECTRL_TI_CONF_PHY_CS,Physical Layer Control and Status"
bitfld.long 0x00 16. " LINK_UP          ,Link status, from LTSSM - DOWN. - UP." "DOWN,UP"
bitfld.long 0x00 0. "       REVERSE_LANES   ,Manual lane reversal control, allowing lane 0 and lane 1 to be swapped by default; Both Tx and Rx are reversed; Polarity of the individual lane is unchanged - STRAIGHT. - REVERSED." "STRAIGHT,REVERSED"
group.long 0x124++0x3
line.long 0x00 "PCIECTRL_TI_CONF_INTX_ASSERT,Legacy INTx ASSERT message control, with 'x' in (A,B,C,D) set by the 'Interrupt Pin' field. Write 1 to send message, read to get the status; EP mode only"
bitfld.long 0x00 0. " ASSERT_F0        ,INTx ASSERT for function 0 Write 0 : No action Read 0 : INTx is inactive (has been deasserted) Write 1: Transmit to RC Read 1: INTx is active (has been asserted)" "0,1"
group.long 0x128++0x3
line.long 0x00 "PCIECTRL_TI_CONF_INTX_DEASSERT,Legacy INTx DEASSERT message control, with 'x' in (A,B,C,D) set by the 'Interrupt Pin' field. Write 1 to send message, read to get the status; EP mode only"
bitfld.long 0x00 0. " DEASSERT_F0      ,INTx DEASSERT for function 0 Write 0 : No action Read 0 : INTx is inactive (has been deasserted) Write 1: Transmit to RC Read 1: INTx is active (has been asserted)" "0,1"
group.long 0x12C++0x3
line.long 0x00 "PCIECTRL_TI_CONF_MSI_XMT,MSI transmitter (EP mode); Specifies parameters of MSI, together with MSI capability descriptor already configured by remote RC."
bitfld.long 0x00 7.--11. " MSI_VECTOR       ,Vector number for transmitted MSI (as allowed by RC at enumeration)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 4.--6. "         MSI_TC          ,Traffic class (TC) for transmitted MSI" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 1.--3. "         MSI_FUNC_NUM   ,Function number for transmitted MSI; Always 0 for single-function EP" "0,1,2,3,4,5,6,7"
textline "                                              "
bitfld.long 0x00 0. " MSI_REQ_GRANT    ,MSI transmit request (and grant status) Write 0: No Action Read 0: MSI transmission request pending Read 1: No MSI request pending (last request granted) Write 1: Request MSI transmission" "0,1"
group.long 0x140++0x3
line.long 0x00 "PCIECTRL_TI_CONF_DEBUG_CFG,Configuration of debug_data output and register (observability)"
bitfld.long 0x00 0.--5. " SEL              ,Debug_data mode" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x144++0x3
line.long 0x00 "PCIECTRL_TI_CONF_DEBUG_DATA,Debug data vector, depending on DEBUG_CFG.sel value"
hexmask.long 0x00 0.--31. 1. " DEBUG            ,"
group.long 0x148++0x3
line.long 0x00 "PCIECTRL_TI_CONF_DIAG_CTRL,Diagnostic control"
bitfld.long 0x00 1. " INV_ECRC         ,Corrupt LSB of ECRC in the next packet, then self-clears. Read 0 : No CRC corruption pending Read 1: CRC corruption pending Write 1: Request CRC corruption" "0,1"
bitfld.long 0x00 0. "          INV_LCRC        ,Corrupts LSB of LCRC in the next packet, then self-clears. Read 0 : No CRC corruption pending Read 1: CRC corruption pending Write 1: Request CRC corruption" "0,1"
width 0x0B
tree.end
tree.end
tree.open "PCIe_SS1_RC_CFG_DBICS2"
tree "PCIe_SS1_RC_CFG_DBICS2"
base ad:0x51001000
width 47.
group.long 0x0++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_DEVICE_VENDORID,Device and Vendor ID"
hexmask.long.word 0x00 16.--31. 1. " DEVICEID                 ,Device ID (CS)"
hexmask.long.word 0x00 0.--15. 1. "      VENDORID                    ,Vendor ID (CS)"
group.long 0x4++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_STATUS_COMMAND_REGISTER,Status and Command registers"
bitfld.long 0x00 31. " DETECT_PARERR            ,Detected Parity Error" "0,1"
bitfld.long 0x00 30. "         SIGNAL_SYSERR               ,Signaled System Error" "0,1"
bitfld.long 0x00 29. "          RCVD_MASTERABORT             ,Received Master Abort" "0,1"
textline "                                                        "
bitfld.long 0x00 28. " RCVD_TRGTABORT           ,Received Target Abort" "0,1"
bitfld.long 0x00 27. "         SIGNAL_TRGTABORT            ,Signaled Target Abort" "0,1"
bitfld.long 0x00 25.--26. "          DEVSEL_TIME                  ,DevSel Timing, Harsdwired to 0 for PCIExpress" "0,1,2,3"
textline "                                                        "
bitfld.long 0x00 24. " MASTERDATA_PARERR        ,Master Data Parity Error" "0,1"
bitfld.long 0x00 23. "         FAST_B2B                    ,Back to Back Capable, Harsdwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 21. "          C66MHZ_CAP                   ,66MHz Capable, Harsdwired to 0 for PCIExpress" "0,1"
textline "                                                        "
bitfld.long 0x00 20. " CAP_LIST                 ,Capabilities List Hardwired to 1" "0,1"
bitfld.long 0x00 19. "         INTX_STATUS                 ,INTx Status" "0,1"
bitfld.long 0x00 10. "          INTX_ASSER_DIS               ,INTx Assertion Disable" "0,1"
textline "                                                        "
bitfld.long 0x00 9. " FAST_BBEN                ,Bit hardwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 8. "         SERR_EN                     ,SERR Enable" "0,1"
bitfld.long 0x00 7. "          IDSEL_CTRL                   ,Bit hardwired to 0 for PCIExpress" "0,1"
textline "                                                        "
bitfld.long 0x00 6. " PARITYERRRESP            ,Parity Error Response" "0,1"
bitfld.long 0x00 5. "         VGA_SNOOP                   ,Not Applicable forPCI Express; Bit hardwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 4. "          MEMWR_INVA                   ,Not Applicable for PCI Express; Bit hardwired to 0 for PCIExpress" "0,1"
textline "                                                        "
bitfld.long 0x00 3. " SPEC_CYCLE_EN            ,Not Applicable for PCI Express; Bit hardwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 2. "         BUSMASTER_EN                ,Bus Master Enable (BME)" "0,1"
bitfld.long 0x00 1. "          MEM_SPACE_EN                 ,Memory Space Enable (MSE)" "0,1"
textline "                                                        "
bitfld.long 0x00 0. " IO_SPACE_EN              ,IO Space Enable (ISE)" "0,1"
group.long 0x8++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_CLASSCODE_REVISIONID,Class code and Revision ID"
hexmask.long.byte 0x00 24.--31. 1. " BASE_CLS_CD              ,Base Class Code (CS)"
hexmask.long.byte 0x00 16.--23. 1. "        SUBCLS_CD                   ,Sub Class Code (CS)"
hexmask.long.byte 0x00 8.--15. 1. "         PROG_IF_CODE                 ,Programming Interface Code (CS)"
textline "                                                        "
hexmask.long.byte 0x00 0.--7. 1. " REVID                    ,Revision ID (CS)"
group.long 0xC++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_BIST_HEAD_LAT_CACH,BIST, Header Type, Latency Timer, Cache Line Size"
hexmask.long.byte 0x00 24.--31. 1. " BIST                     ,BIST"
bitfld.long 0x00 23. "        MFD                         ,MultiFunction Device" "0,1"
hexmask.long.byte 0x00 16.--22. 1. "          HEAD_TYP                     ,Header Type - TYPE0. - TYPE1."
textline "                                                        "
hexmask.long.byte 0x00 8.--15. 1. " MSTR_LAT_TIM             ,Master Latency Timer, Not Applicable for PCIe hence hardwired to 0"
hexmask.long.byte 0x00 0.--7. 1. "        CACH_LN_SZE                 ,Cache Line Size, No impact on write, write is allowed only for legacy purpose"
group.long 0x10++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_BAR0_MASK,Base Address Register 0 Mask (CS2 mode only) Write 1 to BAR[0] to enable the BAR Write ones to BAR[M-1:1] for a 2**M byte BAR Reads like in CS mode"
hexmask.long 0x00 1.--31. 1. " BAR_MASK                 ,Write 1 to unmask/0 to mask the BAR address bit (CS2 only)"
bitfld.long 0x00 0. "  BAR_ENABLED                 ,BAR enabled (CS2 only)" "0,1"
group.long 0x14++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_BAR1_MASK,Base Address Register 1 Mask (CS2 mode only) Write 1 to BAR[0] to enable the BAR Write ones to BAR[M-1:1] for a 2**M byte BAR If BAR0 is in 64-bit mode, contains the upper bits of BAR0 mask Reads like in CS mode"
hexmask.long 0x00 1.--31. 1. " BAR_MASK                 ,Write 1 to unmask/0 to mask the BAR address bit (CS2 only)"
bitfld.long 0x00 0. "  BAR_ENABLED                 ,BAR enabled (CS2 only)" "0,1"
group.long 0x18++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_BUS_NUM_REG,Bus Number Registers"
hexmask.long.byte 0x00 24.--31. 1. " SEC_LAT_TIMER            ,Secondary Latency Timer, Not Applicable for PCI Express hence hardwired to 0"
hexmask.long.byte 0x00 16.--23. 1. "        SUBORD_BUS_NUM              ,Subordinate Bus Number"
hexmask.long.byte 0x00 8.--15. 1. "         SEC_BUS_NUM                  ,Secondary Bus Number"
textline "                                                        "
hexmask.long.byte 0x00 0.--7. 1. " PRIM_BUS_NUM             ,Primary Bus Number"
group.long 0x1C++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_IOBASE_LIMIT_SEC_STATUS,IO Base,Limit and Secondary Status Register"
bitfld.long 0x00 31. " DET_PAR_ERR              ,Detected Parity Error" "0,1"
bitfld.long 0x00 30. "         RCVD_SYS_ERR                ,Received System Error" "0,1"
bitfld.long 0x00 29. "          RCVD_MSTR_ABORT              ,Received Master Abort" "0,1"
textline "                                                        "
bitfld.long 0x00 28. " RCVD_TRGT_ABORT          ,Received Target Error" "0,1"
bitfld.long 0x00 27. "         SGNLD_TRGT_ABORT            ,Signaled Target Error" "0,1"
bitfld.long 0x00 25.--26. "          DEVSEL_TIMING                ,DEVSEL Timing, Not Applicable for PCI Express hence hardwired to 0" "0,1,2,3"
textline "                                                        "
bitfld.long 0x00 24. " MSTR_DATA_PRTY_ERR       ,Mastered Data Parity Error" "0,1"
bitfld.long 0x00 23. "         FAST_B2B_CAP                ,Fast Back to Back Capable, Not Applicable for PCI Express hence hardwired to 0" "0,1"
bitfld.long 0x00 21. "          C66MHZ_CAPA                  ,66MHz Capable, Not Applicable for PCI Express hence hardwired to 0" "0,1"
textline "                                                        "
bitfld.long 0x00 12.--15. " IO_SPACE_LIMIT           ,IO_Space_Limit" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8. "        IODECODE_32                 ,32 or 16 Bit IO Space" "0,1"
bitfld.long 0x00 4.--7. "          IO_SPACE_BASE                ,IO_Space_Limit" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                                        "
bitfld.long 0x00 0. " IODECODE_32_0            ,32 or 16 Bit IO Space (CS)" "0,1"
group.long 0x20++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_MEM_BASE_LIMIT,Memory Base and Limit Register"
hexmask.long.word 0x00 20.--31. 1. " MEM_LIMIT_ADDR           ,Memory Limit Address"
hexmask.long.word 0x00 4.--15. 1. "      MEM_BASE_ADDR               ,Memory Base Address"
group.long 0x24++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_PREF_MEM_BASE_LIMIT,Prefetchable Memory Base and Limit Register"
hexmask.long.word 0x00 20.--31. 1. " PREF_MEM_ADDR            ,Upper 12 bits of 32-bit Prefetchable Memory End Address"
bitfld.long 0x00 16. "      MEMDECODE_64                ,64-Bit Memory Addressing" "0,1"
hexmask.long.word 0x00 4.--15. 1. "          UPPPREF_MEM_ADDR             ,Upper 12 bits of 32-bit Prefetchable Memory start Address"
textline "                                                        "
bitfld.long 0x00 0. " MEMDECODE_64_0           ,64-Bit Memory Addressing" "0,1"
group.long 0x28++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_UPPER_32BIT_PREF_BASEADDR,Upper 32 Bit Prefetachable Base Address Register"
hexmask.long 0x00 0.--31. 1. " ADDRUPP                  ,Upper 32 Bits of Base Address of Prefetachable Memory Space, Used only if 64 Bit Prefetachable Addresing is enabled"
group.long 0x2C++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_UPPER_32BIT_PREF_LIMITADDR,Upper 32 Bit Prefetachable Limit Address Register"
hexmask.long 0x00 0.--31. 1. " ADDRUPP_LIMIT            ,Upper 32 Bits of Limit Address of Prefetachable Memory Space, Used only if 64 Bit Prefetachable Addresing is enabled"
group.long 0x30++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_IO_BASE_LIMIT,IO Base and Limit Register"
hexmask.long.word 0x00 16.--31. 1. " UPP16_IOLIMIT            ,Upper 16 IO Limit Address"
hexmask.long.word 0x00 0.--15. 1. "      UPP16_IOBASE                ,Upper 16 IO Base Address"
group.long 0x34++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_CAPPTR,CapPtr"
hexmask.long.byte 0x00 0.--7. 1. " CAPTR                    ,First Capability Pointer (CS)"
group.long 0x38++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_EXPANSION_ROM_BAR,Expansion ROM Base Address Register"
hexmask.long.word 0x00 16.--31. 1. " EXROM_ADDRESS            ,Expansion ROM address, unmasked (ie programmable)"
bitfld.long 0x00 11.--15. "      EXROM_ADDRESS_RO            ,Expansion ROM address, masked." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0. "         EXP_ROM_EN                   ,Expansion ROM Enable" "0,1"
group.long 0x3C++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_BRIDGE_INT,Bridge Control and Int Pin and line"
bitfld.long 0x00 27. " DT_SERR_EN               ,Discard Timer SERR Enable Status" "0,1"
bitfld.long 0x00 26. "         DT_STS                      ,Discard Timer Status" "0,1"
bitfld.long 0x00 25. "          SEC_DT                       ,Secondary Discard Timer" "0,1"
textline "                                                        "
bitfld.long 0x00 24. " PRI_DT                   ,Primary Discard Timer" "0,1"
bitfld.long 0x00 23. "         FAST_B2B_EN                 ,Fast Back-to-Back Transactions Enable" "0,1"
bitfld.long 0x00 22. "          SEC_BUS_RST                  ,Secondary Bus Reset (initiate hot reset)" "0,1"
textline "                                                        "
bitfld.long 0x00 21. " MST_ABT_MOD              ,Master Abort Mode" "0,1"
bitfld.long 0x00 20. "         VGA_16B_DEC                 ,VGA 16-Bit Decode" "0,1"
bitfld.long 0x00 19. "          VGA_EN                       ,VGA Enable" "0,1"
textline "                                                        "
bitfld.long 0x00 18. " ISA_EN                   ,ISA Enable" "0,1"
bitfld.long 0x00 17. "         SERR_EN                     ,SERR Enable" "0,1"
bitfld.long 0x00 16. "          PERR_RESP_EN                 ,Parity Error Response Enable" "0,1"
textline "                                                        "
hexmask.long.byte 0x00 8.--15. 1. " INT_PIN                  ,Interrupt Pin (CS)"
hexmask.long.byte 0x00 0.--7. 1. "        INT_LIN                     ,Interrupt Line"
group.long 0x70++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_PCIE_CAP,PCI Express Capability structure header"
bitfld.long 0x00 25.--29. " IM_NUM                   ,Interrupt Message Number (CS)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 24. "        SLOT                        ,Slot Implemented (CS)" "0,1"
bitfld.long 0x00 20.--23. "          DEV_TYPE                     ,Device/Port Type - RC." "0,1,2,3,RC,5,6,7,8,9,10,11,12,13,14,15"
textline "                                                        "
bitfld.long 0x00 16.--19. " PCIE_VER                 ,PCI Express Capability Version" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 8.--15. 1. "        PCIE_NX_PTR                 ,Next Capability Pointer (CS)"
hexmask.long.byte 0x00 0.--7. 1. "         CAP_ID                       ,Capability ID - PCIE."
group.long 0x74++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_DEV_CAP,PCIE Device Capabilities"
bitfld.long 0x00 26.--27. " CAPT_SLOW_PWRLIMIT_SCALE ,Captured Slow Power Scale Value, for Upstream Port Only (CS)" "0,1,2,3"
hexmask.long.byte 0x00 18.--25. 1. "         CAPT_SLOW_PWRLIMIT_VALUE    ,Captured Slow Power Limit Value, for Upstream Port Only (CS)"
bitfld.long 0x00 15. "         ROLEBASED_ERRRPT             ,Role Based Error Reporting (CS)" "0,1"
textline "                                                        "
bitfld.long 0x00 12.--14. " UNDEFINED                ,Undefined from PCIe 1.1 onwards" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 9.--11. "         DEFAULT_EP_L1_ACCPT_LATENCY ,Endpoint L1 Acceptable Latency; Must be 0 for RC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6.--8. "          DEFAULT_EP_L0S_ACCPT_LATENCY ,Endpoint L0s Acceptable Latency; Must be 0 for RC." "0,1,2,3,4,5,6,7"
textline "                                                        "
bitfld.long 0x00 5. " EXTTAGFIELD_SUPPORT      ,Extended Tag Field Support (CS)" "0,1"
bitfld.long 0x00 3.--4. "         PHANTOMFUNC                 ,Phantom Function Support, NOT SUPPORTED (CS)" "0,1,2,3"
bitfld.long 0x00 0.--2. "          MAX_PAYLOAD_SIZE             ,Maximum Payload Size (CS) - _256_BYTE." "0,_256_BYTE,2,3,4,5,6,7"
group.long 0x78++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_DEV_CAS,PCIE Device Control and Status"
bitfld.long 0x00 21. " TRANS_PEND               ,Transaction Pending" "0,1"
bitfld.long 0x00 20. "         AUXP_DET                    ,Aux Power Detected" "0,1"
bitfld.long 0x00 19. "          UR_DET                       ,Unsupported Request Detected" "0,1"
textline "                                                        "
bitfld.long 0x00 18. " FT_DET                   ,Fatal Error Detected" "0,1"
bitfld.long 0x00 17. "         NFT_DET                     ,Non-Fatal Error Detected" "0,1"
bitfld.long 0x00 16. "          COR_DET                      ,Correctable Error Detected" "0,1"
textline "                                                        "
bitfld.long 0x00 15. " INIT_FLR                 ,Reserved" "0,1"
bitfld.long 0x00 12.--14. "         MRRS                        ,Max_Read_Request_Size" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 11. "          NOSNP_EN                     ,Enable No Snoop" "0,1"
textline "                                                        "
bitfld.long 0x00 10. " AUXPM_EN                 ,AUX Power PM Enable (Sticky bit) - DIS. - EN." "DIS,EN"
bitfld.long 0x00 9. "       PHFUN_EN                    ,Phantom Function Enable" "0,1"
bitfld.long 0x00 8. "          EXTAG_EN                     ,Extended Tag Field Enable" "0,1"
textline "                                                        "
bitfld.long 0x00 5.--7. " MPS                      ,Max_Payload_Size" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4. "         EN_RO                       ,Enable Relaxed Ordering" "0,1"
bitfld.long 0x00 3. "          UR_RE                        ,Unsupported Request Reporting Enable" "0,1"
textline "                                                        "
bitfld.long 0x00 2. " FT_RE                    ,Fatal Error Reporting Enable" "0,1"
bitfld.long 0x00 1. "         NFT_RE                      ,Non-Fatal Error Reporting Enable" "0,1"
bitfld.long 0x00 0. "          COR_RE                       ,Correctable Error Reporting Enable" "0,1"
group.long 0x7C++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_LNK_CAP,PCIE Link Capabilities"
hexmask.long.byte 0x00 24.--31. 1. " PORT_NUM                 ,Port Number (CS)"
bitfld.long 0x00 22. "        ASPM_OPT_COMP               ,ASPM Optionality Compliance (CS)" "0,1"
bitfld.long 0x00 21. "          LNK_BW_NOT_CAP               ,Link Bandwidth Notification Capability (CS)" "0,1"
textline "                                                        "
bitfld.long 0x00 20. " DLL_ACTRPT_CAP           ,Data Link Layer Active Reporting Capable" "0,1"
bitfld.long 0x00 19. "         UNSUP                       ,Unsupported, Surprise Down Error Reporting Capable, Hardwired to 0" "0,1"
bitfld.long 0x00 18. "          CLK_PWR_MGMT                 ,Clock Power Management; Hardwired to 0 for DS port (RC); (CS)" "0,1"
textline "                                                        "
bitfld.long 0x00 15.--17. " COMM_L1_EXIT_LAT         ,Common-clock-mode L1 Exit Latency (CS2) Compare CS" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "         COMM_L0S_EXIT_LAT           ,Common-clock-mode L0s Exit Latency (CS2) Compare CS" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 10.--11. "          AS_LINK_PM_SUPPORT           ,Active State Link PM (ASPM) Support (CS)" "0,1,2,3"
textline "                                                        "
bitfld.long 0x00 4.--9. " MAX_LINK_WIDTH           ,Max Link Width (lanes) (CS)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--3. "        MAX_LINK_SPEEDS             ,Supported Max Link Speed (CS) Read 0x1: 2.5 GT/s (GEN1) Read 0x2: 5 GT/s (GEN2) Read 0x3: 8 GT/s (GEN3)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_LNK_CAS,PCIE Link Control and Status"
eventfld.long 0x00 31. " LAB_STATUS               ,Link Autonomous Bandwidth Status" "0,1"
eventfld.long 0x00 30. "         LBW_STATUS                  ,Link Bandwidth Management Status" "0,1"
bitfld.long 0x00 29. "          DLL_ACT                      ,Data Link Layer Active" "0,1"
textline "                                                        "
bitfld.long 0x00 28. " SLOT_CLK_CONFIG          ,Slot Clock Configuration (CS)" "0,1"
bitfld.long 0x00 27. "         LINK_TRAIN                  ,LINK training" "0,1"
bitfld.long 0x00 26. "          UNDEF                        ,Undefined" "0,1"
textline "                                                        "
bitfld.long 0x00 20.--25. " NEG_LW                   ,Negotiated Link Width; UNDEFINED UNTIL LINK IS UP." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 16.--19. "        LINK_SPEED                  ,Link Speed; UNDEFINED UNTIL LINK IS UP." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "         LABIE                        ,Link Autonomous Bandwidth Interrupt Enable" "0,1"
textline "                                                        "
bitfld.long 0x00 10. " LBMIE                    ,Link Bandwidth Management Interrupt Enable" "0,1"
bitfld.long 0x00 9. "         HAWD                        ,Hardware Autonomous Width Disable" "0,1"
bitfld.long 0x00 8. "          EN_CPM                       ,Enable Clock Power Management" "0,1"
textline "                                                        "
bitfld.long 0x00 7. " EXT_SYN                  ,Extended Synch" "0,1"
bitfld.long 0x00 6. "         COM_CLK_CFG                 ,Common Clock Configuration - ASYNC. - COMMON." "ASYNC,COMMON"
bitfld.long 0x00 5. "     RETRAIN_LINK                 ,Retrain Link" "0,1"
textline "                                                        "
bitfld.long 0x00 4. " LINK_DIS                 ,Link Disable" "0,1"
bitfld.long 0x00 3. "         RCB                         ,Read Completion Boundary (CS) - _64_BYTE. - _128_BYTE." "_64_BYTE,_128_BYTE"
bitfld.long 0x00 0.--1. "  ASPM_CTRL                    ,Active State Link PM Control 0x0: DISABLED 0x1: L0S_ENABLED 0x2: L1_ENABLED 0x3: L0S_AND_L1_ENABLED" "0,1,2,3"
group.long 0x84++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_SLOT_CAP,Slot Capabilities Register"
hexmask.long.word 0x00 19.--31. 1. " PSN                      ,Physical Slot Number (CS)"
bitfld.long 0x00 18. "      NCCS                        ,No Command Complete Support (CS)" "0,1"
bitfld.long 0x00 17. "          EIP                          ,Electromechanical Interlock Present (CS)" "0,1"
textline "                                                        "
bitfld.long 0x00 15.--16. " SPLS                     ,Slot Power Limit Scale (CS)" "0,1,2,3"
hexmask.long.byte 0x00 7.--14. 1. "         SPLV                        ,Slot Power Limit Value (CS)"
bitfld.long 0x00 6. "         HPC                          ,Hot-Plug Capable (CS)" "0,1"
textline "                                                        "
bitfld.long 0x00 5. " HPS                      ,Hot-Plug Surprise (CS)" "0,1"
bitfld.long 0x00 4. "         PIP                         ,Power Indicator Present (CS)" "0,1"
bitfld.long 0x00 3. "          AIP                          ,Attention Indicator Present (CS)" "0,1"
textline "                                                        "
bitfld.long 0x00 2. " MRLSP                    ,MRL Sensor Present (CS)" "0,1"
bitfld.long 0x00 1. "         PCP                         ,Power Controller Present (CS)" "0,1"
bitfld.long 0x00 0. "          ABP                          ,Attention Button Present (CS)" "0,1"
group.long 0x88++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_SLOT_CAS,Slot Control and Status Register"
bitfld.long 0x00 24. " DSC                      ,Data Link Layer State Changed" "0,1"
bitfld.long 0x00 23. "         EIS                         ,Electromechanical Interlock Status" "0,1"
bitfld.long 0x00 22. "          PDS                          ,Presence Detect State NO PRESENCE DETECTION IMPLEMENTED: TIED TO 1" "0,1"
textline "                                                        "
bitfld.long 0x00 21. " MRLSS                    ,MRL Sensor State" "0,1"
bitfld.long 0x00 20. "         CC                          ,Command Completed" "0,1"
bitfld.long 0x00 19. "          PDC                          ,Presence Detect Changed" "0,1"
textline "                                                        "
bitfld.long 0x00 18. " MRCSC                    ,MRL Sensor Changed" "0,1"
bitfld.long 0x00 17. "         PFD                         ,Power Fault Detected" "0,1"
bitfld.long 0x00 16. "          ABP                          ,Attention Button Pressed" "0,1"
textline "                                                        "
bitfld.long 0x00 12. " DSC_EN                   ,Data Link Layer State Changed Enable" "0,1"
bitfld.long 0x00 11. "         EIC                         ,Electromechanical Interlock Control" "0,1"
bitfld.long 0x00 10. "          PCC                          ,Power Controller Control" "0,1"
textline "                                                        "
bitfld.long 0x00 8.--9. " PIC                      ,Power Indicator Control" "0,1,2,3"
bitfld.long 0x00 6.--7. "         AIC                         ,Attention Indicator Control" "0,1,2,3"
bitfld.long 0x00 5. "          HPI_EN                       ,Hot-Plug Interrupt Enable" "0,1"
textline "                                                        "
bitfld.long 0x00 4. " CCI_EN                   ,Command Completed Interrupt Enable" "0,1"
bitfld.long 0x00 3. "         PDC_EN                      ,Presence Detect Changed Enable" "0,1"
bitfld.long 0x00 2. "          MRLSC_EN                     ,MRL Sensor Changed Enable" "0,1"
textline "                                                        "
bitfld.long 0x00 1. " PFD_EN                   ,Power Fault Detected Enable" "0,1"
bitfld.long 0x00 0. "         ABP_EN                      ,Attention Button Pressed Enable" "0,1"
group.long 0x8C++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_ROOT_CAC,Root Control and Capability Register"
bitfld.long 0x00 16. " CRSSV                    ,CRS Software Visibility" "0,1"
bitfld.long 0x00 4. "         CRSSV_EN                    ,CRS Software Visibility Enable" "0,1"
bitfld.long 0x00 3. "          PMEI_EN                      ,PME Interrupt Enable" "0,1"
textline "                                                        "
bitfld.long 0x00 2. " SEFE_EN                  ,System Error on Fatal Error Enable" "0,1"
bitfld.long 0x00 1. "         SENE_EN                     ,System Error on Non-fatal Error Enable" "0,1"
bitfld.long 0x00 0. "          SECE_EN                      ,System Error on Correctable Error Enable" "0,1"
group.long 0x90++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_ROOT_STS,Root Status Register"
bitfld.long 0x00 17. " PME_PND                  ,PME Pending" "0,1"
bitfld.long 0x00 16. "         PME_STS                     ,PME Status (Sticky bit)" "0,1"
hexmask.long.word 0x00 0.--15. 1. "          PME_RID                      ,PME Requester ID"
rgroup.long 0x94++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_DEV_CAP_2,Device Capabilities 2 Register"
bitfld.long 0x00 12.--13. " TPHC_SP                  ,TPH Completer Supported" "0,1,2,3"
bitfld.long 0x00 10. "         NOROPR                      ,No RO-enabled PR-PR Passing" "0,1"
bitfld.long 0x00 9. "          CASC128_SP                   ,128-bit CAS Completer Supported" "0,1"
textline "                                                        "
bitfld.long 0x00 8. " AOC64_SP                 ,64-bit AtomicOp Completer Supported" "0,1"
bitfld.long 0x00 7. "         AOC32_SP                    ,32-bit AtomicOp Completer Supported" "0,1"
bitfld.long 0x00 6. "          AOR_SP                       ,AtomicOp Routing Supported" "0,1"
textline "                                                        "
bitfld.long 0x00 5. " ARI_FWD_SP               ,ARI Forwarding Supported" "0,1"
bitfld.long 0x00 4. "         CPL_TIMEOUT_DIS_SUPPORTED   ,Completion Timeout Disable Supported" "0,1"
bitfld.long 0x00 0.--3. "          CPL_TIMEOUT_RNG_SUPPORTED    ,Completion Timeout Ranges Supported" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x98++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_DEV_CAS_2,Device Control 2 Register"
bitfld.long 0x00 13.--14. " OBFF_EN                  ,OBFF Enable" "0,1,2,3"
bitfld.long 0x00 10. "         LTR_EN                      ,LTR Mechanism Enable" "0,1"
bitfld.long 0x00 9. "          IDO_CPL_EN                   ,IDO Completion Enable" "0,1"
textline "                                                        "
bitfld.long 0x00 8. " IDO_REQ_EN               ,IDO Request Enable" "0,1"
bitfld.long 0x00 7. "         AOP_EG_BLK                  ,AtomicOp Egress Blocking" "0,1"
bitfld.long 0x00 6. "          AOP_REQ_EN                   ,AtomicOp Requester Enable" "0,1"
textline "                                                        "
bitfld.long 0x00 5. " ARI_FWD_SP               ,ARI Forwarding Supported" "0,1"
bitfld.long 0x00 4. "         CPL_TIMEOUT_DIS             ,Completion Timeout Disable" "0,1"
bitfld.long 0x00 0.--3. "          CPL_TIMEOUT_VALUE            ,Completion Timeout Values" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x9C++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_LNK_CAP_2,PCIE Link Capabilities 2 Register"
bitfld.long 0x00 8. " CROSSLINK_SP             ,Crosslink Supported" "0,1"
hexmask.long.byte 0x00 1.--7. 1. "         SP_LS_VEC                   ,Supported Link Speeds Vector"
group.long 0xA0++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_LNK_CAS_2,Link Control and Status 2 Register (Sticky)"
eventfld.long 0x00 21. " LINK_EQ_REQ              ,Link Equilization Request" "0,1"
bitfld.long 0x00 20. "         EQ_PH3                      ,Equalization Ph3 Success, Gen3 Only" "0,1"
bitfld.long 0x00 19. "          EQ_PH2                       ,Equalization Ph2 Success, Gen3 Only" "0,1"
textline "                                                        "
bitfld.long 0x00 18. " EQ_PH1                   ,Equalization Ph1 Success, Gen3 Only" "0,1"
bitfld.long 0x00 17. "         EQ_COMPLETE                 ,Equalization Complete, Gen3 Only" "0,1"
bitfld.long 0x00 16. "          DEEMPH_LEVEL                 ,Current De-emphasis Level" "0,1"
textline "                                                        "
bitfld.long 0x00 12.--15. " COMPL_PRST_DEEPH         ,Compliance Pre-set/ De-emphasis" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "        COMPL_SOS                   ,Compliance SOS" "0,1"
bitfld.long 0x00 10. "          ENT_MOD_COMPL                ,Enter Modified Compliance" "0,1"
textline "                                                        "
bitfld.long 0x00 7.--9. " TX_MARGIN                ,Transmit Margin" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6. "         SEL_DEEMP                   ,Selectable De-emphasis (CS)" "0,1"
bitfld.long 0x00 5. "          HW_AUTO_SP_DIS               ,Hardware Autonomous Speed Disable" "0,1"
textline "                                                        "
bitfld.long 0x00 4. " ENTR_COMPL               ,Enter Compliance" "0,1"
bitfld.long 0x00 0.--3. "         TRGT_LINK_SPEED             ,Target Link Speed: Read 0x1 : 2.5 GT/s (GEN1) Read 0x2: 5 GT/s (GEN2) Read 0x3: 8 GT/s (GEN3)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree "PCIe_SS2_RC_CFG_DBICS2"
base ad:0x51801000
width 47.
group.long 0x0++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_DEVICE_VENDORID,Device and Vendor ID"
hexmask.long.word 0x00 16.--31. 1. " DEVICEID                 ,Device ID (CS)"
hexmask.long.word 0x00 0.--15. 1. "      VENDORID                    ,Vendor ID (CS)"
group.long 0x4++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_STATUS_COMMAND_REGISTER,Status and Command registers"
bitfld.long 0x00 31. " DETECT_PARERR            ,Detected Parity Error" "0,1"
bitfld.long 0x00 30. "         SIGNAL_SYSERR               ,Signaled System Error" "0,1"
bitfld.long 0x00 29. "          RCVD_MASTERABORT             ,Received Master Abort" "0,1"
textline "                                                        "
bitfld.long 0x00 28. " RCVD_TRGTABORT           ,Received Target Abort" "0,1"
bitfld.long 0x00 27. "         SIGNAL_TRGTABORT            ,Signaled Target Abort" "0,1"
bitfld.long 0x00 25.--26. "          DEVSEL_TIME                  ,DevSel Timing, Harsdwired to 0 for PCIExpress" "0,1,2,3"
textline "                                                        "
bitfld.long 0x00 24. " MASTERDATA_PARERR        ,Master Data Parity Error" "0,1"
bitfld.long 0x00 23. "         FAST_B2B                    ,Back to Back Capable, Harsdwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 21. "          C66MHZ_CAP                   ,66MHz Capable, Harsdwired to 0 for PCIExpress" "0,1"
textline "                                                        "
bitfld.long 0x00 20. " CAP_LIST                 ,Capabilities List Hardwired to 1" "0,1"
bitfld.long 0x00 19. "         INTX_STATUS                 ,INTx Status" "0,1"
bitfld.long 0x00 10. "          INTX_ASSER_DIS               ,INTx Assertion Disable" "0,1"
textline "                                                        "
bitfld.long 0x00 9. " FAST_BBEN                ,Bit hardwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 8. "         SERR_EN                     ,SERR Enable" "0,1"
bitfld.long 0x00 7. "          IDSEL_CTRL                   ,Bit hardwired to 0 for PCIExpress" "0,1"
textline "                                                        "
bitfld.long 0x00 6. " PARITYERRRESP            ,Parity Error Response" "0,1"
bitfld.long 0x00 5. "         VGA_SNOOP                   ,Not Applicable forPCI Express; Bit hardwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 4. "          MEMWR_INVA                   ,Not Applicable for PCI Express; Bit hardwired to 0 for PCIExpress" "0,1"
textline "                                                        "
bitfld.long 0x00 3. " SPEC_CYCLE_EN            ,Not Applicable for PCI Express; Bit hardwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 2. "         BUSMASTER_EN                ,Bus Master Enable (BME)" "0,1"
bitfld.long 0x00 1. "          MEM_SPACE_EN                 ,Memory Space Enable (MSE)" "0,1"
textline "                                                        "
bitfld.long 0x00 0. " IO_SPACE_EN              ,IO Space Enable (ISE)" "0,1"
group.long 0x8++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_CLASSCODE_REVISIONID,Class code and Revision ID"
hexmask.long.byte 0x00 24.--31. 1. " BASE_CLS_CD              ,Base Class Code (CS)"
hexmask.long.byte 0x00 16.--23. 1. "        SUBCLS_CD                   ,Sub Class Code (CS)"
hexmask.long.byte 0x00 8.--15. 1. "         PROG_IF_CODE                 ,Programming Interface Code (CS)"
textline "                                                        "
hexmask.long.byte 0x00 0.--7. 1. " REVID                    ,Revision ID (CS)"
group.long 0xC++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_BIST_HEAD_LAT_CACH,BIST, Header Type, Latency Timer, Cache Line Size"
hexmask.long.byte 0x00 24.--31. 1. " BIST                     ,BIST"
bitfld.long 0x00 23. "        MFD                         ,MultiFunction Device" "0,1"
hexmask.long.byte 0x00 16.--22. 1. "          HEAD_TYP                     ,Header Type - TYPE0. - TYPE1."
textline "                                                        "
hexmask.long.byte 0x00 8.--15. 1. " MSTR_LAT_TIM             ,Master Latency Timer, Not Applicable for PCIe hence hardwired to 0"
hexmask.long.byte 0x00 0.--7. 1. "        CACH_LN_SZE                 ,Cache Line Size, No impact on write, write is allowed only for legacy purpose"
group.long 0x10++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_BAR0_MASK,Base Address Register 0 Mask (CS2 mode only) Write 1 to BAR[0] to enable the BAR Write ones to BAR[M-1:1] for a 2**M byte BAR Reads like in CS mode"
hexmask.long 0x00 1.--31. 1. " BAR_MASK                 ,Write 1 to unmask/0 to mask the BAR address bit (CS2 only)"
bitfld.long 0x00 0. "  BAR_ENABLED                 ,BAR enabled (CS2 only)" "0,1"
group.long 0x14++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_BAR1_MASK,Base Address Register 1 Mask (CS2 mode only) Write 1 to BAR[0] to enable the BAR Write ones to BAR[M-1:1] for a 2**M byte BAR If BAR0 is in 64-bit mode, contains the upper bits of BAR0 mask Reads like in CS mode"
hexmask.long 0x00 1.--31. 1. " BAR_MASK                 ,Write 1 to unmask/0 to mask the BAR address bit (CS2 only)"
bitfld.long 0x00 0. "  BAR_ENABLED                 ,BAR enabled (CS2 only)" "0,1"
group.long 0x18++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_BUS_NUM_REG,Bus Number Registers"
hexmask.long.byte 0x00 24.--31. 1. " SEC_LAT_TIMER            ,Secondary Latency Timer, Not Applicable for PCI Express hence hardwired to 0"
hexmask.long.byte 0x00 16.--23. 1. "        SUBORD_BUS_NUM              ,Subordinate Bus Number"
hexmask.long.byte 0x00 8.--15. 1. "         SEC_BUS_NUM                  ,Secondary Bus Number"
textline "                                                        "
hexmask.long.byte 0x00 0.--7. 1. " PRIM_BUS_NUM             ,Primary Bus Number"
group.long 0x1C++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_IOBASE_LIMIT_SEC_STATUS,IO Base,Limit and Secondary Status Register"
bitfld.long 0x00 31. " DET_PAR_ERR              ,Detected Parity Error" "0,1"
bitfld.long 0x00 30. "         RCVD_SYS_ERR                ,Received System Error" "0,1"
bitfld.long 0x00 29. "          RCVD_MSTR_ABORT              ,Received Master Abort" "0,1"
textline "                                                        "
bitfld.long 0x00 28. " RCVD_TRGT_ABORT          ,Received Target Error" "0,1"
bitfld.long 0x00 27. "         SGNLD_TRGT_ABORT            ,Signaled Target Error" "0,1"
bitfld.long 0x00 25.--26. "          DEVSEL_TIMING                ,DEVSEL Timing, Not Applicable for PCI Express hence hardwired to 0" "0,1,2,3"
textline "                                                        "
bitfld.long 0x00 24. " MSTR_DATA_PRTY_ERR       ,Mastered Data Parity Error" "0,1"
bitfld.long 0x00 23. "         FAST_B2B_CAP                ,Fast Back to Back Capable, Not Applicable for PCI Express hence hardwired to 0" "0,1"
bitfld.long 0x00 21. "          C66MHZ_CAPA                  ,66MHz Capable, Not Applicable for PCI Express hence hardwired to 0" "0,1"
textline "                                                        "
bitfld.long 0x00 12.--15. " IO_SPACE_LIMIT           ,IO_Space_Limit" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8. "        IODECODE_32                 ,32 or 16 Bit IO Space" "0,1"
bitfld.long 0x00 4.--7. "          IO_SPACE_BASE                ,IO_Space_Limit" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                                        "
bitfld.long 0x00 0. " IODECODE_32_0            ,32 or 16 Bit IO Space (CS)" "0,1"
group.long 0x20++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_MEM_BASE_LIMIT,Memory Base and Limit Register"
hexmask.long.word 0x00 20.--31. 1. " MEM_LIMIT_ADDR           ,Memory Limit Address"
hexmask.long.word 0x00 4.--15. 1. "      MEM_BASE_ADDR               ,Memory Base Address"
group.long 0x24++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_PREF_MEM_BASE_LIMIT,Prefetchable Memory Base and Limit Register"
hexmask.long.word 0x00 20.--31. 1. " PREF_MEM_ADDR            ,Upper 12 bits of 32-bit Prefetchable Memory End Address"
bitfld.long 0x00 16. "      MEMDECODE_64                ,64-Bit Memory Addressing" "0,1"
hexmask.long.word 0x00 4.--15. 1. "          UPPPREF_MEM_ADDR             ,Upper 12 bits of 32-bit Prefetchable Memory start Address"
textline "                                                        "
bitfld.long 0x00 0. " MEMDECODE_64_0           ,64-Bit Memory Addressing" "0,1"
group.long 0x28++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_UPPER_32BIT_PREF_BASEADDR,Upper 32 Bit Prefetachable Base Address Register"
hexmask.long 0x00 0.--31. 1. " ADDRUPP                  ,Upper 32 Bits of Base Address of Prefetachable Memory Space, Used only if 64 Bit Prefetachable Addresing is enabled"
group.long 0x2C++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_UPPER_32BIT_PREF_LIMITADDR,Upper 32 Bit Prefetachable Limit Address Register"
hexmask.long 0x00 0.--31. 1. " ADDRUPP_LIMIT            ,Upper 32 Bits of Limit Address of Prefetachable Memory Space, Used only if 64 Bit Prefetachable Addresing is enabled"
group.long 0x30++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_IO_BASE_LIMIT,IO Base and Limit Register"
hexmask.long.word 0x00 16.--31. 1. " UPP16_IOLIMIT            ,Upper 16 IO Limit Address"
hexmask.long.word 0x00 0.--15. 1. "      UPP16_IOBASE                ,Upper 16 IO Base Address"
group.long 0x34++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_CAPPTR,CapPtr"
hexmask.long.byte 0x00 0.--7. 1. " CAPTR                    ,First Capability Pointer (CS)"
group.long 0x38++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_EXPANSION_ROM_BAR,Expansion ROM Base Address Register"
hexmask.long.word 0x00 16.--31. 1. " EXROM_ADDRESS            ,Expansion ROM address, unmasked (ie programmable)"
bitfld.long 0x00 11.--15. "      EXROM_ADDRESS_RO            ,Expansion ROM address, masked." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0. "         EXP_ROM_EN                   ,Expansion ROM Enable" "0,1"
group.long 0x3C++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_BRIDGE_INT,Bridge Control and Int Pin and line"
bitfld.long 0x00 27. " DT_SERR_EN               ,Discard Timer SERR Enable Status" "0,1"
bitfld.long 0x00 26. "         DT_STS                      ,Discard Timer Status" "0,1"
bitfld.long 0x00 25. "          SEC_DT                       ,Secondary Discard Timer" "0,1"
textline "                                                        "
bitfld.long 0x00 24. " PRI_DT                   ,Primary Discard Timer" "0,1"
bitfld.long 0x00 23. "         FAST_B2B_EN                 ,Fast Back-to-Back Transactions Enable" "0,1"
bitfld.long 0x00 22. "          SEC_BUS_RST                  ,Secondary Bus Reset (initiate hot reset)" "0,1"
textline "                                                        "
bitfld.long 0x00 21. " MST_ABT_MOD              ,Master Abort Mode" "0,1"
bitfld.long 0x00 20. "         VGA_16B_DEC                 ,VGA 16-Bit Decode" "0,1"
bitfld.long 0x00 19. "          VGA_EN                       ,VGA Enable" "0,1"
textline "                                                        "
bitfld.long 0x00 18. " ISA_EN                   ,ISA Enable" "0,1"
bitfld.long 0x00 17. "         SERR_EN                     ,SERR Enable" "0,1"
bitfld.long 0x00 16. "          PERR_RESP_EN                 ,Parity Error Response Enable" "0,1"
textline "                                                        "
hexmask.long.byte 0x00 8.--15. 1. " INT_PIN                  ,Interrupt Pin (CS)"
hexmask.long.byte 0x00 0.--7. 1. "        INT_LIN                     ,Interrupt Line"
group.long 0x70++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_PCIE_CAP,PCI Express Capability structure header"
bitfld.long 0x00 25.--29. " IM_NUM                   ,Interrupt Message Number (CS)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 24. "        SLOT                        ,Slot Implemented (CS)" "0,1"
bitfld.long 0x00 20.--23. "          DEV_TYPE                     ,Device/Port Type - RC." "0,1,2,3,RC,5,6,7,8,9,10,11,12,13,14,15"
textline "                                                        "
bitfld.long 0x00 16.--19. " PCIE_VER                 ,PCI Express Capability Version" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 8.--15. 1. "        PCIE_NX_PTR                 ,Next Capability Pointer (CS)"
hexmask.long.byte 0x00 0.--7. 1. "         CAP_ID                       ,Capability ID - PCIE."
group.long 0x74++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_DEV_CAP,PCIE Device Capabilities"
bitfld.long 0x00 26.--27. " CAPT_SLOW_PWRLIMIT_SCALE ,Captured Slow Power Scale Value, for Upstream Port Only (CS)" "0,1,2,3"
hexmask.long.byte 0x00 18.--25. 1. "         CAPT_SLOW_PWRLIMIT_VALUE    ,Captured Slow Power Limit Value, for Upstream Port Only (CS)"
bitfld.long 0x00 15. "         ROLEBASED_ERRRPT             ,Role Based Error Reporting (CS)" "0,1"
textline "                                                        "
bitfld.long 0x00 12.--14. " UNDEFINED                ,Undefined from PCIe 1.1 onwards" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 9.--11. "         DEFAULT_EP_L1_ACCPT_LATENCY ,Endpoint L1 Acceptable Latency; Must be 0 for RC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6.--8. "          DEFAULT_EP_L0S_ACCPT_LATENCY ,Endpoint L0s Acceptable Latency; Must be 0 for RC." "0,1,2,3,4,5,6,7"
textline "                                                        "
bitfld.long 0x00 5. " EXTTAGFIELD_SUPPORT      ,Extended Tag Field Support (CS)" "0,1"
bitfld.long 0x00 3.--4. "         PHANTOMFUNC                 ,Phantom Function Support, NOT SUPPORTED (CS)" "0,1,2,3"
bitfld.long 0x00 0.--2. "          MAX_PAYLOAD_SIZE             ,Maximum Payload Size (CS) - _256_BYTE." "0,_256_BYTE,2,3,4,5,6,7"
group.long 0x78++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_DEV_CAS,PCIE Device Control and Status"
bitfld.long 0x00 21. " TRANS_PEND               ,Transaction Pending" "0,1"
bitfld.long 0x00 20. "         AUXP_DET                    ,Aux Power Detected" "0,1"
bitfld.long 0x00 19. "          UR_DET                       ,Unsupported Request Detected" "0,1"
textline "                                                        "
bitfld.long 0x00 18. " FT_DET                   ,Fatal Error Detected" "0,1"
bitfld.long 0x00 17. "         NFT_DET                     ,Non-Fatal Error Detected" "0,1"
bitfld.long 0x00 16. "          COR_DET                      ,Correctable Error Detected" "0,1"
textline "                                                        "
bitfld.long 0x00 15. " INIT_FLR                 ,Reserved" "0,1"
bitfld.long 0x00 12.--14. "         MRRS                        ,Max_Read_Request_Size" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 11. "          NOSNP_EN                     ,Enable No Snoop" "0,1"
textline "                                                        "
bitfld.long 0x00 10. " AUXPM_EN                 ,AUX Power PM Enable (Sticky bit) - DIS. - EN." "DIS,EN"
bitfld.long 0x00 9. "       PHFUN_EN                    ,Phantom Function Enable" "0,1"
bitfld.long 0x00 8. "          EXTAG_EN                     ,Extended Tag Field Enable" "0,1"
textline "                                                        "
bitfld.long 0x00 5.--7. " MPS                      ,Max_Payload_Size" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4. "         EN_RO                       ,Enable Relaxed Ordering" "0,1"
bitfld.long 0x00 3. "          UR_RE                        ,Unsupported Request Reporting Enable" "0,1"
textline "                                                        "
bitfld.long 0x00 2. " FT_RE                    ,Fatal Error Reporting Enable" "0,1"
bitfld.long 0x00 1. "         NFT_RE                      ,Non-Fatal Error Reporting Enable" "0,1"
bitfld.long 0x00 0. "          COR_RE                       ,Correctable Error Reporting Enable" "0,1"
group.long 0x7C++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_LNK_CAP,PCIE Link Capabilities"
hexmask.long.byte 0x00 24.--31. 1. " PORT_NUM                 ,Port Number (CS)"
bitfld.long 0x00 22. "        ASPM_OPT_COMP               ,ASPM Optionality Compliance (CS)" "0,1"
bitfld.long 0x00 21. "          LNK_BW_NOT_CAP               ,Link Bandwidth Notification Capability (CS)" "0,1"
textline "                                                        "
bitfld.long 0x00 20. " DLL_ACTRPT_CAP           ,Data Link Layer Active Reporting Capable" "0,1"
bitfld.long 0x00 19. "         UNSUP                       ,Unsupported, Surprise Down Error Reporting Capable, Hardwired to 0" "0,1"
bitfld.long 0x00 18. "          CLK_PWR_MGMT                 ,Clock Power Management; Hardwired to 0 for DS port (RC); (CS)" "0,1"
textline "                                                        "
bitfld.long 0x00 15.--17. " COMM_L1_EXIT_LAT         ,Common-clock-mode L1 Exit Latency (CS2) Compare CS" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "         COMM_L0S_EXIT_LAT           ,Common-clock-mode L0s Exit Latency (CS2) Compare CS" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 10.--11. "          AS_LINK_PM_SUPPORT           ,Active State Link PM (ASPM) Support (CS)" "0,1,2,3"
textline "                                                        "
bitfld.long 0x00 4.--9. " MAX_LINK_WIDTH           ,Max Link Width (lanes) (CS)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--3. "        MAX_LINK_SPEEDS             ,Supported Max Link Speed (CS) Read 0x1: 2.5 GT/s (GEN1) Read 0x2: 5 GT/s (GEN2) Read 0x3: 8 GT/s (GEN3)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_LNK_CAS,PCIE Link Control and Status"
eventfld.long 0x00 31. " LAB_STATUS               ,Link Autonomous Bandwidth Status" "0,1"
eventfld.long 0x00 30. "         LBW_STATUS                  ,Link Bandwidth Management Status" "0,1"
bitfld.long 0x00 29. "          DLL_ACT                      ,Data Link Layer Active" "0,1"
textline "                                                        "
bitfld.long 0x00 28. " SLOT_CLK_CONFIG          ,Slot Clock Configuration (CS)" "0,1"
bitfld.long 0x00 27. "         LINK_TRAIN                  ,LINK training" "0,1"
bitfld.long 0x00 26. "          UNDEF                        ,Undefined" "0,1"
textline "                                                        "
bitfld.long 0x00 20.--25. " NEG_LW                   ,Negotiated Link Width; UNDEFINED UNTIL LINK IS UP." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 16.--19. "        LINK_SPEED                  ,Link Speed; UNDEFINED UNTIL LINK IS UP." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "         LABIE                        ,Link Autonomous Bandwidth Interrupt Enable" "0,1"
textline "                                                        "
bitfld.long 0x00 10. " LBMIE                    ,Link Bandwidth Management Interrupt Enable" "0,1"
bitfld.long 0x00 9. "         HAWD                        ,Hardware Autonomous Width Disable" "0,1"
bitfld.long 0x00 8. "          EN_CPM                       ,Enable Clock Power Management" "0,1"
textline "                                                        "
bitfld.long 0x00 7. " EXT_SYN                  ,Extended Synch" "0,1"
bitfld.long 0x00 6. "         COM_CLK_CFG                 ,Common Clock Configuration - ASYNC. - COMMON." "ASYNC,COMMON"
bitfld.long 0x00 5. "     RETRAIN_LINK                 ,Retrain Link" "0,1"
textline "                                                        "
bitfld.long 0x00 4. " LINK_DIS                 ,Link Disable" "0,1"
bitfld.long 0x00 3. "         RCB                         ,Read Completion Boundary (CS) - _64_BYTE. - _128_BYTE." "_64_BYTE,_128_BYTE"
bitfld.long 0x00 0.--1. "  ASPM_CTRL                    ,Active State Link PM Control 0x0: DISABLED 0x1: L0S_ENABLED 0x2: L1_ENABLED 0x3: L0S_AND_L1_ENABLED" "0,1,2,3"
group.long 0x84++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_SLOT_CAP,Slot Capabilities Register"
hexmask.long.word 0x00 19.--31. 1. " PSN                      ,Physical Slot Number (CS)"
bitfld.long 0x00 18. "      NCCS                        ,No Command Complete Support (CS)" "0,1"
bitfld.long 0x00 17. "          EIP                          ,Electromechanical Interlock Present (CS)" "0,1"
textline "                                                        "
bitfld.long 0x00 15.--16. " SPLS                     ,Slot Power Limit Scale (CS)" "0,1,2,3"
hexmask.long.byte 0x00 7.--14. 1. "         SPLV                        ,Slot Power Limit Value (CS)"
bitfld.long 0x00 6. "         HPC                          ,Hot-Plug Capable (CS)" "0,1"
textline "                                                        "
bitfld.long 0x00 5. " HPS                      ,Hot-Plug Surprise (CS)" "0,1"
bitfld.long 0x00 4. "         PIP                         ,Power Indicator Present (CS)" "0,1"
bitfld.long 0x00 3. "          AIP                          ,Attention Indicator Present (CS)" "0,1"
textline "                                                        "
bitfld.long 0x00 2. " MRLSP                    ,MRL Sensor Present (CS)" "0,1"
bitfld.long 0x00 1. "         PCP                         ,Power Controller Present (CS)" "0,1"
bitfld.long 0x00 0. "          ABP                          ,Attention Button Present (CS)" "0,1"
group.long 0x88++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_SLOT_CAS,Slot Control and Status Register"
bitfld.long 0x00 24. " DSC                      ,Data Link Layer State Changed" "0,1"
bitfld.long 0x00 23. "         EIS                         ,Electromechanical Interlock Status" "0,1"
bitfld.long 0x00 22. "          PDS                          ,Presence Detect State NO PRESENCE DETECTION IMPLEMENTED: TIED TO 1" "0,1"
textline "                                                        "
bitfld.long 0x00 21. " MRLSS                    ,MRL Sensor State" "0,1"
bitfld.long 0x00 20. "         CC                          ,Command Completed" "0,1"
bitfld.long 0x00 19. "          PDC                          ,Presence Detect Changed" "0,1"
textline "                                                        "
bitfld.long 0x00 18. " MRCSC                    ,MRL Sensor Changed" "0,1"
bitfld.long 0x00 17. "         PFD                         ,Power Fault Detected" "0,1"
bitfld.long 0x00 16. "          ABP                          ,Attention Button Pressed" "0,1"
textline "                                                        "
bitfld.long 0x00 12. " DSC_EN                   ,Data Link Layer State Changed Enable" "0,1"
bitfld.long 0x00 11. "         EIC                         ,Electromechanical Interlock Control" "0,1"
bitfld.long 0x00 10. "          PCC                          ,Power Controller Control" "0,1"
textline "                                                        "
bitfld.long 0x00 8.--9. " PIC                      ,Power Indicator Control" "0,1,2,3"
bitfld.long 0x00 6.--7. "         AIC                         ,Attention Indicator Control" "0,1,2,3"
bitfld.long 0x00 5. "          HPI_EN                       ,Hot-Plug Interrupt Enable" "0,1"
textline "                                                        "
bitfld.long 0x00 4. " CCI_EN                   ,Command Completed Interrupt Enable" "0,1"
bitfld.long 0x00 3. "         PDC_EN                      ,Presence Detect Changed Enable" "0,1"
bitfld.long 0x00 2. "          MRLSC_EN                     ,MRL Sensor Changed Enable" "0,1"
textline "                                                        "
bitfld.long 0x00 1. " PFD_EN                   ,Power Fault Detected Enable" "0,1"
bitfld.long 0x00 0. "         ABP_EN                      ,Attention Button Pressed Enable" "0,1"
group.long 0x8C++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_ROOT_CAC,Root Control and Capability Register"
bitfld.long 0x00 16. " CRSSV                    ,CRS Software Visibility" "0,1"
bitfld.long 0x00 4. "         CRSSV_EN                    ,CRS Software Visibility Enable" "0,1"
bitfld.long 0x00 3. "          PMEI_EN                      ,PME Interrupt Enable" "0,1"
textline "                                                        "
bitfld.long 0x00 2. " SEFE_EN                  ,System Error on Fatal Error Enable" "0,1"
bitfld.long 0x00 1. "         SENE_EN                     ,System Error on Non-fatal Error Enable" "0,1"
bitfld.long 0x00 0. "          SECE_EN                      ,System Error on Correctable Error Enable" "0,1"
group.long 0x90++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_ROOT_STS,Root Status Register"
bitfld.long 0x00 17. " PME_PND                  ,PME Pending" "0,1"
bitfld.long 0x00 16. "         PME_STS                     ,PME Status (Sticky bit)" "0,1"
hexmask.long.word 0x00 0.--15. 1. "          PME_RID                      ,PME Requester ID"
rgroup.long 0x94++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_DEV_CAP_2,Device Capabilities 2 Register"
bitfld.long 0x00 12.--13. " TPHC_SP                  ,TPH Completer Supported" "0,1,2,3"
bitfld.long 0x00 10. "         NOROPR                      ,No RO-enabled PR-PR Passing" "0,1"
bitfld.long 0x00 9. "          CASC128_SP                   ,128-bit CAS Completer Supported" "0,1"
textline "                                                        "
bitfld.long 0x00 8. " AOC64_SP                 ,64-bit AtomicOp Completer Supported" "0,1"
bitfld.long 0x00 7. "         AOC32_SP                    ,32-bit AtomicOp Completer Supported" "0,1"
bitfld.long 0x00 6. "          AOR_SP                       ,AtomicOp Routing Supported" "0,1"
textline "                                                        "
bitfld.long 0x00 5. " ARI_FWD_SP               ,ARI Forwarding Supported" "0,1"
bitfld.long 0x00 4. "         CPL_TIMEOUT_DIS_SUPPORTED   ,Completion Timeout Disable Supported" "0,1"
bitfld.long 0x00 0.--3. "          CPL_TIMEOUT_RNG_SUPPORTED    ,Completion Timeout Ranges Supported" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x98++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_DEV_CAS_2,Device Control 2 Register"
bitfld.long 0x00 13.--14. " OBFF_EN                  ,OBFF Enable" "0,1,2,3"
bitfld.long 0x00 10. "         LTR_EN                      ,LTR Mechanism Enable" "0,1"
bitfld.long 0x00 9. "          IDO_CPL_EN                   ,IDO Completion Enable" "0,1"
textline "                                                        "
bitfld.long 0x00 8. " IDO_REQ_EN               ,IDO Request Enable" "0,1"
bitfld.long 0x00 7. "         AOP_EG_BLK                  ,AtomicOp Egress Blocking" "0,1"
bitfld.long 0x00 6. "          AOP_REQ_EN                   ,AtomicOp Requester Enable" "0,1"
textline "                                                        "
bitfld.long 0x00 5. " ARI_FWD_SP               ,ARI Forwarding Supported" "0,1"
bitfld.long 0x00 4. "         CPL_TIMEOUT_DIS             ,Completion Timeout Disable" "0,1"
bitfld.long 0x00 0.--3. "          CPL_TIMEOUT_VALUE            ,Completion Timeout Values" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x9C++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_LNK_CAP_2,PCIE Link Capabilities 2 Register"
bitfld.long 0x00 8. " CROSSLINK_SP             ,Crosslink Supported" "0,1"
hexmask.long.byte 0x00 1.--7. 1. "         SP_LS_VEC                   ,Supported Link Speeds Vector"
group.long 0xA0++0x3
line.long 0x00 "PCIECTRL_RC_DBICS2_LNK_CAS_2,Link Control and Status 2 Register (Sticky)"
eventfld.long 0x00 21. " LINK_EQ_REQ              ,Link Equilization Request" "0,1"
bitfld.long 0x00 20. "         EQ_PH3                      ,Equalization Ph3 Success, Gen3 Only" "0,1"
bitfld.long 0x00 19. "          EQ_PH2                       ,Equalization Ph2 Success, Gen3 Only" "0,1"
textline "                                                        "
bitfld.long 0x00 18. " EQ_PH1                   ,Equalization Ph1 Success, Gen3 Only" "0,1"
bitfld.long 0x00 17. "         EQ_COMPLETE                 ,Equalization Complete, Gen3 Only" "0,1"
bitfld.long 0x00 16. "          DEEMPH_LEVEL                 ,Current De-emphasis Level" "0,1"
textline "                                                        "
bitfld.long 0x00 12.--15. " COMPL_PRST_DEEPH         ,Compliance Pre-set/ De-emphasis" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "        COMPL_SOS                   ,Compliance SOS" "0,1"
bitfld.long 0x00 10. "          ENT_MOD_COMPL                ,Enter Modified Compliance" "0,1"
textline "                                                        "
bitfld.long 0x00 7.--9. " TX_MARGIN                ,Transmit Margin" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6. "         SEL_DEEMP                   ,Selectable De-emphasis (CS)" "0,1"
bitfld.long 0x00 5. "          HW_AUTO_SP_DIS               ,Hardware Autonomous Speed Disable" "0,1"
textline "                                                        "
bitfld.long 0x00 4. " ENTR_COMPL               ,Enter Compliance" "0,1"
bitfld.long 0x00 0.--3. "         TRGT_LINK_SPEED             ,Target Link Speed: Read 0x1 : 2.5 GT/s (GEN1) Read 0x2: 5 GT/s (GEN2) Read 0x3: 8 GT/s (GEN3)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree.end
tree.open "PCIe_SS1_RC_CFG_DBICS"
tree "PCIe_SS1_RC_CFG_DBICS"
base ad:0x51000000
width 46.
group.long 0x0++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_DEVICE_VENDORID,Device and Vendor ID"
hexmask.long.word 0x00 16.--31. 1. " DEVICEID                 ,Device ID (CS)"
hexmask.long.word 0x00 0.--15. 1. "      VENDORID                    ,Vendor ID (CS)"
group.long 0x4++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_STATUS_COMMAND_REGISTER,Status and Command registers"
bitfld.long 0x00 31. " DETECT_PARERR            ,Detected Parity Error" "0,1"
bitfld.long 0x00 30. "         SIGNAL_SYSERR               ,Signaled System Error" "0,1"
bitfld.long 0x00 29. "          RCVD_MASTERABORT             ,Received Master Abort" "0,1"
textline "                                                       "
bitfld.long 0x00 28. " RCVD_TRGTABORT           ,Received Target Abort" "0,1"
bitfld.long 0x00 27. "         SIGNAL_TRGTABORT            ,Signaled Target Abort" "0,1"
bitfld.long 0x00 25.--26. "          DEVSEL_TIME                  ,DevSel Timing, Harsdwired to 0 for PCIExpress" "0,1,2,3"
textline "                                                       "
bitfld.long 0x00 24. " MASTERDATA_PARERR        ,Master Data Parity Error" "0,1"
bitfld.long 0x00 23. "         FAST_B2B                    ,Back to Back Capable, Harsdwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 21. "          C66MHZ_CAP                   ,66MHz Capable, Harsdwired to 0 for PCIExpress" "0,1"
textline "                                                       "
bitfld.long 0x00 20. " CAP_LIST                 ,Capabilities List Hardwired to 1" "0,1"
bitfld.long 0x00 19. "         INTX_STATUS                 ,INTx Status" "0,1"
bitfld.long 0x00 10. "          INTX_ASSER_DIS               ,INTx Assertion Disable" "0,1"
textline "                                                       "
bitfld.long 0x00 9. " FAST_BBEN                ,Bit hardwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 8. "         SERR_EN                     ,SERR Enable" "0,1"
bitfld.long 0x00 7. "          IDSEL_CTRL                   ,Bit hardwired to 0 for PCIExpress" "0,1"
textline "                                                       "
bitfld.long 0x00 6. " PARITYERRRESP            ,Parity Error Response" "0,1"
bitfld.long 0x00 5. "         VGA_SNOOP                   ,Not Applicable forPCI Express; Bit hardwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 4. "          MEMWR_INVA                   ,Not Applicable for PCI Express; Bit hardwired to 0 for PCIExpress" "0,1"
textline "                                                       "
bitfld.long 0x00 3. " SPEC_CYCLE_EN            ,Not Applicable for PCI Express; Bit hardwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 2. "         BUSMASTER_EN                ,Bus Master Enable (BME)" "0,1"
bitfld.long 0x00 1. "          MEM_SPACE_EN                 ,Memory Space Enable (MSE)" "0,1"
textline "                                                       "
bitfld.long 0x00 0. " IO_SPACE_EN              ,IO Space Enable (ISE)" "0,1"
group.long 0x8++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_CLASSCODE_REVISIONID,Class code and Revision ID"
hexmask.long.byte 0x00 24.--31. 1. " BASE_CLS_CD              ,Base Class Code (CS)"
hexmask.long.byte 0x00 16.--23. 1. "        SUBCLS_CD                   ,Sub Class Code (CS)"
hexmask.long.byte 0x00 8.--15. 1. "         PROG_IF_CODE                 ,Programming Interface Code (CS)"
textline "                                                       "
hexmask.long.byte 0x00 0.--7. 1. " REVID                    ,Revision ID (CS)"
group.long 0xC++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_BIST_HEAD_LAT_CACH,BIST, Header Type, Latency Timer, Cache Line Size"
hexmask.long.byte 0x00 24.--31. 1. " BIST                     ,BIST"
bitfld.long 0x00 23. "        MFD                         ,MultiFunction Device" "0,1"
hexmask.long.byte 0x00 16.--22. 1. "          HEAD_TYP                     ,Header Type - TYPE0. - TYPE1."
textline "                                                       "
hexmask.long.byte 0x00 8.--15. 1. " MSTR_LAT_TIM             ,Master Latency Timer, Not Applicable for PCIe hence hardwired to 0"
hexmask.long.byte 0x00 0.--7. 1. "        CACH_LN_SZE                 ,Cache Line Size, No impact on write, write is allowed only for legacy purpose"
group.long 0x10++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_BAR0,Base Address Register 0 Bit #0 is also a WO BAR enable (CS2) BAR Mask is writable (CS2)"
hexmask.long.word 0x00 20.--31. 1. " BASE_ADDR_RW             ,Base address bits (for a 64-bit BAR, upper base address bits are in BAR above) Unmasked MSBs, as set by BAR mask"
hexmask.long.word 0x00 4.--19. 1. "      BASE_ADDR_RO                ,Base address bits (for a 64-bit BAR, upper base address bits are in BAR above) Masked LSBs, as set by BAR mask"
bitfld.long 0x00 3. "       PREFETCHABLE                 ,MEM BAR: Prefetchable (CS) I/O BAR: bit 1 is part of I/O address" "0,1"
textline "                                                       "
bitfld.long 0x00 1.--2. " AS                       ,MEM BAR: Address Size (CS) I/O BAR: bit 0 is always 0, bit 1 is LS Bit of I/O address - Read 0x0 = 32 bit . - _32BIT. - Read 0x2 = 64 bit . - _64BIT." "0,1,2,3"
bitfld.long 0x00 0. "         SPACE_INDICATOR             ,BAR I/O vs memory space indicator (CS) - MEM. - IO." "MEM,IO"
group.long 0x14++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_BAR1,Base Address Register 1 If BAR0.AS = 64-bit: upper half of BAR0 base address If BAR0.AS = 32-bit: independent 32-bit BAR Bit #0 is also a WO BAR enable (CS2) BAR Mask is writable (CS2)"
hexmask.long.word 0x00 20.--31. 1. " BASE_ADDR_RW             ,Base address bits (for a 64-bit BAR, lower base address bits are in BAR below) Unmasked MSBs, as set by BAR mask"
hexmask.long.word 0x00 4.--19. 1. "      BASE_ADDR_RO                ,Base address bits (for a 64-bit BAR, lower base address bits are in BAR below) Masked LSBs, as set by BAR mask"
bitfld.long 0x00 3. "       PREFETCHABLE                 ,MEM BAR: Prefetchable (CS) I/O BAR: bit 1 is part of I/O address" "0,1"
textline "                                                       "
bitfld.long 0x00 1.--2. " AS                       ,MEM BAR: Address Size (CS) I/O BAR: bit 0 is always 0, bit 1 is LSBit of I/O address - Read 0x0 = 32 bit . - _32BIT. - Read 0x2 = 64 bit . - _64BIT." "0,1,2,3"
bitfld.long 0x00 0. "         SPACE_INDICATOR             ,BAR I/O vs memory space indicator (CS) - MEM. - IO." "MEM,IO"
group.long 0x18++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_BUS_NUM_REG,Bus Number Registers"
hexmask.long.byte 0x00 24.--31. 1. " SEC_LAT_TIMER            ,Secondary Latency Timer, Not Applicable for PCI Express hence hardwired to 0"
hexmask.long.byte 0x00 16.--23. 1. "        SUBORD_BUS_NUM              ,Subordinate Bus Number"
hexmask.long.byte 0x00 8.--15. 1. "         SEC_BUS_NUM                  ,Secondary Bus Number"
textline "                                                       "
hexmask.long.byte 0x00 0.--7. 1. " PRIM_BUS_NUM             ,Primary Bus Number"
group.long 0x1C++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_IOBASE_LIMIT_SEC_STATUS,IO Base,Limit and Secondary Status Register"
bitfld.long 0x00 31. " DET_PAR_ERR              ,Detected Parity Error" "0,1"
bitfld.long 0x00 30. "         RCVD_SYS_ERR                ,Received System Error" "0,1"
bitfld.long 0x00 29. "          RCVD_MSTR_ABORT              ,Received Master Abort" "0,1"
textline "                                                       "
bitfld.long 0x00 28. " RCVD_TRGT_ABORT          ,Received Target Error" "0,1"
bitfld.long 0x00 27. "         SGNLD_TRGT_ABORT            ,Signaled Target Error" "0,1"
bitfld.long 0x00 25.--26. "          DEVSEL_TIMING                ,DEVSEL Timing, Not Applicable for PCI Express hence hardwired to 0" "0,1,2,3"
textline "                                                       "
bitfld.long 0x00 24. " MSTR_DATA_PRTY_ERR       ,Mastered Data Parity Error" "0,1"
bitfld.long 0x00 23. "         FAST_B2B_CAP                ,Fast Back to Back Capable, Not Applicable for PCI Express hence hardwired to 0" "0,1"
bitfld.long 0x00 21. "          C66MHZ_CAPA                  ,66MHz Capable, Not Applicable for PCI Express hence hardwired to 0" "0,1"
textline "                                                       "
bitfld.long 0x00 12.--15. " IO_SPACE_LIMIT           ,IO_Space_Limit" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8. "        IODECODE_32                 ,32 or 16 Bit IO Space" "0,1"
bitfld.long 0x00 4.--7. "          IO_SPACE_BASE                ,IO_Space_Limit" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                                       "
bitfld.long 0x00 0. " IODECODE_32_0            ,32 or 16 Bit IO Space (CS)" "0,1"
group.long 0x20++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_MEM_BASE_LIMIT,Memory Base and Limit Register"
hexmask.long.word 0x00 20.--31. 1. " MEM_LIMIT_ADDR           ,Memory Limit Address"
hexmask.long.word 0x00 4.--15. 1. "      MEM_BASE_ADDR               ,Memory Base Address"
group.long 0x24++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_PREF_MEM_BASE_LIMIT,Prefetchable Memory Base and Limit Register"
hexmask.long.word 0x00 20.--31. 1. " PREF_MEM_ADDR            ,Upper 12 bits of 32-bit Prefetchable Memory End Address"
bitfld.long 0x00 16. "      MEMDECODE_64                ,64-Bit Memory Addressing" "0,1"
hexmask.long.word 0x00 4.--15. 1. "          UPPPREF_MEM_ADDR             ,Upper 12 bits of 32-bit Prefetchable Memory start Address"
textline "                                                       "
bitfld.long 0x00 0. " MEMDECODE_64_0           ,64-Bit Memory Addressing" "0,1"
group.long 0x28++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_UPPER_32BIT_PREF_BASEADDR,Upper 32 Bit Prefetachable Base Address Register"
hexmask.long 0x00 0.--31. 1. " ADDRUPP                  ,Upper 32 Bits of Base Address of Prefetachable Memory Space, Used only if 64 Bit Prefetachable Addresing is enabled"
group.long 0x2C++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_UPPER_32BIT_PREF_LIMITADDR,Upper 32 Bit Prefetachable Limit Address Register"
hexmask.long 0x00 0.--31. 1. " ADDRUPP_LIMIT            ,Upper 32 Bits of Limit Address of Prefetachable Memory Space, Used only if 64 Bit Prefetachable Addresing is enabled"
group.long 0x30++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_IO_BASE_LIMIT,IO Base and Limit Register"
hexmask.long.word 0x00 16.--31. 1. " UPP16_IOLIMIT            ,Upper 16 IO Limit Address"
hexmask.long.word 0x00 0.--15. 1. "      UPP16_IOBASE                ,Upper 16 IO Base Address"
group.long 0x34++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_CAPPTR,CapPtr"
hexmask.long.byte 0x00 0.--7. 1. " CAPTR                    ,First Capability Pointer (CS)"
group.long 0x38++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_EXPANSION_ROM_BAR,Expansion ROM Base Address Register"
hexmask.long.word 0x00 16.--31. 1. " EXROM_ADDRESS            ,Expansion ROM address, unmasked (ie programmable)"
bitfld.long 0x00 11.--15. "      EXROM_ADDRESS_RO            ,Expansion ROM address, masked." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0. "         EXP_ROM_EN                   ,Expansion ROM Enable" "0,1"
group.long 0x3C++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_BRIDGE_INT,Bridge Control and Int Pin and line"
bitfld.long 0x00 27. " DT_SERR_EN               ,Discard Timer SERR Enable Status" "0,1"
bitfld.long 0x00 26. "         DT_STS                      ,Discard Timer Status" "0,1"
bitfld.long 0x00 25. "          SEC_DT                       ,Secondary Discard Timer" "0,1"
textline "                                                       "
bitfld.long 0x00 24. " PRI_DT                   ,Primary Discard Timer" "0,1"
bitfld.long 0x00 23. "         FAST_B2B_EN                 ,Fast Back-to-Back Transactions Enable" "0,1"
bitfld.long 0x00 22. "          SEC_BUS_RST                  ,Secondary Bus Reset (initiate hot reset)" "0,1"
textline "                                                       "
bitfld.long 0x00 21. " MST_ABT_MOD              ,Master Abort Mode" "0,1"
bitfld.long 0x00 20. "         VGA_16B_DEC                 ,VGA 16-Bit Decode" "0,1"
bitfld.long 0x00 19. "          VGA_EN                       ,VGA Enable" "0,1"
textline "                                                       "
bitfld.long 0x00 18. " ISA_EN                   ,ISA Enable" "0,1"
bitfld.long 0x00 17. "         SERR_EN                     ,SERR Enable" "0,1"
bitfld.long 0x00 16. "          PERR_RESP_EN                 ,Parity Error Response Enable" "0,1"
textline "                                                       "
hexmask.long.byte 0x00 8.--15. 1. " INT_PIN                  ,Interrupt Pin (CS)"
hexmask.long.byte 0x00 0.--7. 1. "        INT_LIN                     ,Interrupt Line"
group.long 0x70++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_PCIE_CAP,PCI Express Capability structure header"
bitfld.long 0x00 25.--29. " IM_NUM                   ,Interrupt Message Number (CS)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 24. "        SLOT                        ,Slot Implemented (CS)" "0,1"
bitfld.long 0x00 20.--23. "          DEV_TYPE                     ,Device/Port Type - RC." "0,1,2,3,RC,5,6,7,8,9,10,11,12,13,14,15"
textline "                                                       "
bitfld.long 0x00 16.--19. " PCIE_VER                 ,PCI Express Capability Version" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 8.--15. 1. "        PCIE_NX_PTR                 ,Next Capability Pointer (CS)"
hexmask.long.byte 0x00 0.--7. 1. "         CAP_ID                       ,Capability ID - PCIE."
group.long 0x74++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_DEV_CAP,PCIE Device Capabilities"
bitfld.long 0x00 26.--27. " CAPT_SLOW_PWRLIMIT_SCALE ,Captured Slow Power Scale Value, for Upstream Port Only (CS)" "0,1,2,3"
hexmask.long.byte 0x00 18.--25. 1. "         CAPT_SLOW_PWRLIMIT_VALUE    ,Captured Slow Power Limit Value, for Upstream Port Only (CS)"
bitfld.long 0x00 15. "         ROLEBASED_ERRRPT             ,Role Based Error Reporting (CS)" "0,1"
textline "                                                       "
bitfld.long 0x00 12.--14. " UNDEFINED                ,Undefined from PCIe 1.1 onwards" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 9.--11. "         DEFAULT_EP_L1_ACCPT_LATENCY ,Endpoint L1 Acceptable Latency; Must be 0 for RC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6.--8. "          DEFAULT_EP_L0S_ACCPT_LATENCY ,Endpoint L0s Acceptable Latency; Must be 0 for RC." "0,1,2,3,4,5,6,7"
textline "                                                       "
bitfld.long 0x00 5. " EXTTAGFIELD_SUPPORT      ,Extended Tag Field Support (CS)" "0,1"
bitfld.long 0x00 3.--4. "         PHANTOMFUNC                 ,Phantom Function Support, NOT SUPPORTED (CS)" "0,1,2,3"
bitfld.long 0x00 0.--2. "          MAX_PAYLOAD_SIZE             ,Maximum Payload Size (CS) - _256_BYTE." "0,_256_BYTE,2,3,4,5,6,7"
group.long 0x78++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_DEV_CAS,PCIE Device Control and Status"
bitfld.long 0x00 21. " TRANS_PEND               ,Transaction Pending" "0,1"
bitfld.long 0x00 20. "         AUXP_DET                    ,Aux Power Detected" "0,1"
bitfld.long 0x00 19. "          UR_DET                       ,Unsupported Request Detected" "0,1"
textline "                                                       "
bitfld.long 0x00 18. " FT_DET                   ,Fatal Error Detected" "0,1"
bitfld.long 0x00 17. "         NFT_DET                     ,Non-Fatal Error Detected" "0,1"
bitfld.long 0x00 16. "          COR_DET                      ,Correctable Error Detected" "0,1"
textline "                                                       "
bitfld.long 0x00 15. " INIT_FLR                 ,Reserved" "0,1"
bitfld.long 0x00 12.--14. "         MRRS                        ,Max_Read_Request_Size" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 11. "          NOSNP_EN                     ,Enable No Snoop" "0,1"
textline "                                                       "
bitfld.long 0x00 10. " AUXPM_EN                 ,AUX Power PM Enable (Sticky bit) - DIS. - EN." "DIS,EN"
bitfld.long 0x00 9. "       PHFUN_EN                    ,Phantom Function Enable" "0,1"
bitfld.long 0x00 8. "          EXTAG_EN                     ,Extended Tag Field Enable" "0,1"
textline "                                                       "
bitfld.long 0x00 5.--7. " MPS                      ,Max_Payload_Size" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4. "         EN_RO                       ,Enable Relaxed Ordering" "0,1"
bitfld.long 0x00 3. "          UR_RE                        ,Unsupported Request Reporting Enable" "0,1"
textline "                                                       "
bitfld.long 0x00 2. " FT_RE                    ,Fatal Error Reporting Enable" "0,1"
bitfld.long 0x00 1. "         NFT_RE                      ,Non-Fatal Error Reporting Enable" "0,1"
bitfld.long 0x00 0. "          COR_RE                       ,Correctable Error Reporting Enable" "0,1"
group.long 0x7C++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_LNK_CAP,PCIE Link Capabilities"
hexmask.long.byte 0x00 24.--31. 1. " PORT_NUM                 ,Port Number (CS)"
bitfld.long 0x00 22. "        ASPM_OPT_COMP               ,ASPM Optionality Compliance (CS)" "0,1"
bitfld.long 0x00 21. "          LNK_BW_NOT_CAP               ,Link Bandwidth Notification Capability (CS)" "0,1"
textline "                                                       "
bitfld.long 0x00 20. " DLL_ACTRPT_CAP           ,Data Link Layer Active Reporting Capable" "0,1"
bitfld.long 0x00 19. "         UNSUP                       ,Unsupported, Surprise Down Error Reporting Capable, Hardwired to 0" "0,1"
bitfld.long 0x00 18. "          CLK_PWR_MGMT                 ,Clock Power Management; Hardwired to 0 for DS port (RC); (CS)" "0,1"
textline "                                                       "
bitfld.long 0x00 15.--17. " L1_EXIT_LAT              ,L1 Exit Latency (CS) Compare CS2" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "         L0S_EXIT_LAT                ,L0s Exit Latency (CS) Compare CS2" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 10.--11. "          AS_LINK_PM_SUPPORT           ,Active State Link PM (ASPM) Support (CS)" "0,1,2,3"
textline "                                                       "
bitfld.long 0x00 4.--9. " MAX_LINK_WIDTH           ,Max Link Width (lanes) (CS)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--3. "        MAX_LINK_SPEEDS             ,Supported Max Link Speed (CS) Read 0x1: 2.5 GT/s (GEN1) Read 0x2: 5 GT/s (GEN2) Read 0x3: 8 GT/s (GEN3)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_LNK_CAS,PCIE Link Control and Status"
eventfld.long 0x00 31. " LAB_STATUS               ,Link Autonomous Bandwidth Status" "0,1"
eventfld.long 0x00 30. "         LBW_STATUS                  ,Link Bandwidth Management Status" "0,1"
bitfld.long 0x00 29. "          DLL_ACT                      ,Data Link Layer Active" "0,1"
textline "                                                       "
bitfld.long 0x00 28. " SLOT_CLK_CONFIG          ,Slot Clock Configuration (CS)" "0,1"
bitfld.long 0x00 27. "         LINK_TRAIN                  ,LINK training" "0,1"
bitfld.long 0x00 26. "          UNDEF                        ,Undefined" "0,1"
textline "                                                       "
bitfld.long 0x00 20.--25. " NEG_LW                   ,Negotiated Link Width; UNDEFINED UNTIL LINK IS UP." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 16.--19. "        LINK_SPEED                  ,Link Speed; UNDEFINED UNTIL LINK IS UP." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "         LABIE                        ,Link Autonomous Bandwidth Interrupt Enable" "0,1"
textline "                                                       "
bitfld.long 0x00 10. " LBMIE                    ,Link Bandwidth Management Interrupt Enable" "0,1"
bitfld.long 0x00 9. "         HAWD                        ,Hardware Autonomous Width Disable" "0,1"
bitfld.long 0x00 8. "          EN_CPM                       ,Enable Clock Power Management" "0,1"
textline "                                                       "
bitfld.long 0x00 7. " EXT_SYN                  ,Extended Synch" "0,1"
bitfld.long 0x00 6. "         COM_CLK_CFG                 ,Common Clock Configuration - ASYNC. - COMMON." "ASYNC,COMMON"
bitfld.long 0x00 5. "     RETRAIN_LINK                 ,Retrain Link" "0,1"
textline "                                                       "
bitfld.long 0x00 4. " LINK_DIS                 ,Link Disable" "0,1"
bitfld.long 0x00 3. "         RCB                         ,Read Completion Boundary (CS) - _64_BYTE. - _128_BYTE." "_64_BYTE,_128_BYTE"
bitfld.long 0x00 0.--1. "  ASPM_CTRL                    ,Active State Link PM Control 0x0: DISABLED 0x1: L0S_ENABLED 0x2: L1_ENABLED 0x3: L0S_AND_L1_ENABLED" "0,1,2,3"
group.long 0x84++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_SLOT_CAP,Slot Capabilities Register"
hexmask.long.word 0x00 19.--31. 1. " PSN                      ,Physical Slot Number (CS)"
bitfld.long 0x00 18. "      NCCS                        ,No Command Complete Support (CS)" "0,1"
bitfld.long 0x00 17. "          EIP                          ,Electromechanical Interlock Present (CS)" "0,1"
textline "                                                       "
bitfld.long 0x00 15.--16. " SPLS                     ,Slot Power Limit Scale (CS)" "0,1,2,3"
hexmask.long.byte 0x00 7.--14. 1. "         SPLV                        ,Slot Power Limit Value (CS)"
bitfld.long 0x00 6. "         HPC                          ,Hot-Plug Capable (CS)" "0,1"
textline "                                                       "
bitfld.long 0x00 5. " HPS                      ,Hot-Plug Surprise (CS)" "0,1"
bitfld.long 0x00 4. "         PIP                         ,Power Indicator Present (CS)" "0,1"
bitfld.long 0x00 3. "          AIP                          ,Attention Indicator Present (CS)" "0,1"
textline "                                                       "
bitfld.long 0x00 2. " MRLSP                    ,MRL Sensor Present (CS)" "0,1"
bitfld.long 0x00 1. "         PCP                         ,Power Controller Present (CS)" "0,1"
bitfld.long 0x00 0. "          ABP                          ,Attention Button Present (CS)" "0,1"
group.long 0x88++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_SLOT_CAS,Slot Control and Status Register"
bitfld.long 0x00 24. " DSC                      ,Data Link Layer State Changed" "0,1"
bitfld.long 0x00 23. "         EIS                         ,Electromechanical Interlock Status" "0,1"
bitfld.long 0x00 22. "          PDS                          ,Presence Detect State NO PRESENCE DETECTION IMPLEMENTED: TIED TO 1" "0,1"
textline "                                                       "
bitfld.long 0x00 21. " MRLSS                    ,MRL Sensor State" "0,1"
bitfld.long 0x00 20. "         CC                          ,Command Completed" "0,1"
bitfld.long 0x00 19. "          PDC                          ,Presence Detect Changed" "0,1"
textline "                                                       "
bitfld.long 0x00 18. " MRCSC                    ,MRL Sensor Changed" "0,1"
bitfld.long 0x00 17. "         PFD                         ,Power Fault Detected" "0,1"
bitfld.long 0x00 16. "          ABP                          ,Attention Button Pressed" "0,1"
textline "                                                       "
bitfld.long 0x00 12. " DSC_EN                   ,Data Link Layer State Changed Enable" "0,1"
bitfld.long 0x00 11. "         EIC                         ,Electromechanical Interlock Control" "0,1"
bitfld.long 0x00 10. "          PCC                          ,Power Controller Control" "0,1"
textline "                                                       "
bitfld.long 0x00 8.--9. " PIC                      ,Power Indicator Control" "0,1,2,3"
bitfld.long 0x00 6.--7. "         AIC                         ,Attention Indicator Control" "0,1,2,3"
bitfld.long 0x00 5. "          HPI_EN                       ,Hot-Plug Interrupt Enable" "0,1"
textline "                                                       "
bitfld.long 0x00 4. " CCI_EN                   ,Command Completed Interrupt Enable" "0,1"
bitfld.long 0x00 3. "         PDC_EN                      ,Presence Detect Changed Enable" "0,1"
bitfld.long 0x00 2. "          MRLSC_EN                     ,MRL Sensor Changed Enable" "0,1"
textline "                                                       "
bitfld.long 0x00 1. " PFD_EN                   ,Power Fault Detected Enable" "0,1"
bitfld.long 0x00 0. "         ABP_EN                      ,Attention Button Pressed Enable" "0,1"
group.long 0x8C++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_ROOT_CAC,Root Control and Capability Register"
bitfld.long 0x00 16. " CRSSV                    ,CRS Software Visibility" "0,1"
bitfld.long 0x00 4. "         CRSSV_EN                    ,CRS Software Visibility Enable" "0,1"
bitfld.long 0x00 3. "          PMEI_EN                      ,PME Interrupt Enable" "0,1"
textline "                                                       "
bitfld.long 0x00 2. " SEFE_EN                  ,System Error on Fatal Error Enable" "0,1"
bitfld.long 0x00 1. "         SENE_EN                     ,System Error on Non-fatal Error Enable" "0,1"
bitfld.long 0x00 0. "          SECE_EN                      ,System Error on Correctable Error Enable" "0,1"
group.long 0x90++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_ROOT_STS,Root Status Register"
bitfld.long 0x00 17. " PME_PND                  ,PME Pending" "0,1"
bitfld.long 0x00 16. "         PME_STS                     ,PME Status (Sticky bit)" "0,1"
hexmask.long.word 0x00 0.--15. 1. "          PME_RID                      ,PME Requester ID"
rgroup.long 0x94++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_DEV_CAP_2,Device Capabilities 2 Register"
bitfld.long 0x00 12.--13. " TPHC_SP                  ,TPH Completer Supported" "0,1,2,3"
bitfld.long 0x00 10. "         NOROPR                      ,No RO-enabled PR-PR Passing" "0,1"
bitfld.long 0x00 9. "          CASC128_SP                   ,128-bit CAS Completer Supported" "0,1"
textline "                                                       "
bitfld.long 0x00 8. " AOC64_SP                 ,64-bit AtomicOp Completer Supported" "0,1"
bitfld.long 0x00 7. "         AOC32_SP                    ,32-bit AtomicOp Completer Supported" "0,1"
bitfld.long 0x00 6. "          AOR_SP                       ,AtomicOp Routing Supported" "0,1"
textline "                                                       "
bitfld.long 0x00 5. " ARI_FWD_SP               ,ARI Forwarding Supported" "0,1"
bitfld.long 0x00 4. "         CPL_TIMEOUT_DIS_SUPPORTED   ,Completion Timeout Disable Supported" "0,1"
bitfld.long 0x00 0.--3. "          CPL_TIMEOUT_RNG_SUPPORTED    ,Completion Timeout Ranges Supported" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x98++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_DEV_CAS_2,Device Control 2 Register"
bitfld.long 0x00 13.--14. " OBFF_EN                  ,OBFF Enable" "0,1,2,3"
bitfld.long 0x00 10. "         LTR_EN                      ,LTR Mechanism Enable" "0,1"
bitfld.long 0x00 9. "          IDO_CPL_EN                   ,IDO Completion Enable" "0,1"
textline "                                                       "
bitfld.long 0x00 8. " IDO_REQ_EN               ,IDO Request Enable" "0,1"
bitfld.long 0x00 7. "         AOP_EG_BLK                  ,AtomicOp Egress Blocking" "0,1"
bitfld.long 0x00 6. "          AOP_REQ_EN                   ,AtomicOp Requester Enable" "0,1"
textline "                                                       "
bitfld.long 0x00 5. " ARI_FWD_SP               ,ARI Forwarding Supported" "0,1"
bitfld.long 0x00 4. "         CPL_TIMEOUT_DIS             ,Completion Timeout Disable" "0,1"
bitfld.long 0x00 0.--3. "          CPL_TIMEOUT_VALUE            ,Completion Timeout Values" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x9C++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_LNK_CAP_2,PCIE Link Capabilities 2 Register"
bitfld.long 0x00 8. " CROSSLINK_SP             ,Crosslink Supported" "0,1"
hexmask.long.byte 0x00 1.--7. 1. "         SP_LS_VEC                   ,Supported Link Speeds Vector"
group.long 0xA0++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_LNK_CAS_2,Link Control and Status 2 Register (Sticky)"
eventfld.long 0x00 21. " LINK_EQ_REQ              ,Link Equilization Request" "0,1"
bitfld.long 0x00 20. "         EQ_PH3                      ,Equalization Ph3 Success, Gen3 Only" "0,1"
bitfld.long 0x00 19. "          EQ_PH2                       ,Equalization Ph2 Success, Gen3 Only" "0,1"
textline "                                                       "
bitfld.long 0x00 18. " EQ_PH1                   ,Equalization Ph1 Success, Gen3 Only" "0,1"
bitfld.long 0x00 17. "         EQ_COMPLETE                 ,Equalization Complete, Gen3 Only" "0,1"
bitfld.long 0x00 16. "          DEEMPH_LEVEL                 ,Current De-emphasis Level" "0,1"
textline "                                                       "
bitfld.long 0x00 12.--15. " COMPL_PRST_DEEPH         ,Compliance Pre-set/ De-emphasis" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "        COMPL_SOS                   ,Compliance SOS" "0,1"
bitfld.long 0x00 10. "          ENT_MOD_COMPL                ,Enter Modified Compliance" "0,1"
textline "                                                       "
bitfld.long 0x00 7.--9. " TX_MARGIN                ,Transmit Margin" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6. "         SEL_DEEMP                   ,Selectable De-emphasis (CS)" "0,1"
bitfld.long 0x00 5. "          HW_AUTO_SP_DIS               ,Hardware Autonomous Speed Disable" "0,1"
textline "                                                       "
bitfld.long 0x00 4. " ENTR_COMPL               ,Enter Compliance" "0,1"
bitfld.long 0x00 0.--3. "         TRGT_LINK_SPEED             ,Target Link Speed Read 0x1 : 2.5 GT/s (GEN1) Read 0x2 : 5 GT/s (GEN2) Read 0x3 : 8 GT/s (GEN3)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree "PCIe_SS2_RC_CFG_DBICS"
base ad:0x51800000
width 46.
group.long 0x0++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_DEVICE_VENDORID,Device and Vendor ID"
hexmask.long.word 0x00 16.--31. 1. " DEVICEID                 ,Device ID (CS)"
hexmask.long.word 0x00 0.--15. 1. "      VENDORID                    ,Vendor ID (CS)"
group.long 0x4++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_STATUS_COMMAND_REGISTER,Status and Command registers"
bitfld.long 0x00 31. " DETECT_PARERR            ,Detected Parity Error" "0,1"
bitfld.long 0x00 30. "         SIGNAL_SYSERR               ,Signaled System Error" "0,1"
bitfld.long 0x00 29. "          RCVD_MASTERABORT             ,Received Master Abort" "0,1"
textline "                                                       "
bitfld.long 0x00 28. " RCVD_TRGTABORT           ,Received Target Abort" "0,1"
bitfld.long 0x00 27. "         SIGNAL_TRGTABORT            ,Signaled Target Abort" "0,1"
bitfld.long 0x00 25.--26. "          DEVSEL_TIME                  ,DevSel Timing, Harsdwired to 0 for PCIExpress" "0,1,2,3"
textline "                                                       "
bitfld.long 0x00 24. " MASTERDATA_PARERR        ,Master Data Parity Error" "0,1"
bitfld.long 0x00 23. "         FAST_B2B                    ,Back to Back Capable, Harsdwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 21. "          C66MHZ_CAP                   ,66MHz Capable, Harsdwired to 0 for PCIExpress" "0,1"
textline "                                                       "
bitfld.long 0x00 20. " CAP_LIST                 ,Capabilities List Hardwired to 1" "0,1"
bitfld.long 0x00 19. "         INTX_STATUS                 ,INTx Status" "0,1"
bitfld.long 0x00 10. "          INTX_ASSER_DIS               ,INTx Assertion Disable" "0,1"
textline "                                                       "
bitfld.long 0x00 9. " FAST_BBEN                ,Bit hardwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 8. "         SERR_EN                     ,SERR Enable" "0,1"
bitfld.long 0x00 7. "          IDSEL_CTRL                   ,Bit hardwired to 0 for PCIExpress" "0,1"
textline "                                                       "
bitfld.long 0x00 6. " PARITYERRRESP            ,Parity Error Response" "0,1"
bitfld.long 0x00 5. "         VGA_SNOOP                   ,Not Applicable forPCI Express; Bit hardwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 4. "          MEMWR_INVA                   ,Not Applicable for PCI Express; Bit hardwired to 0 for PCIExpress" "0,1"
textline "                                                       "
bitfld.long 0x00 3. " SPEC_CYCLE_EN            ,Not Applicable for PCI Express; Bit hardwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 2. "         BUSMASTER_EN                ,Bus Master Enable (BME)" "0,1"
bitfld.long 0x00 1. "          MEM_SPACE_EN                 ,Memory Space Enable (MSE)" "0,1"
textline "                                                       "
bitfld.long 0x00 0. " IO_SPACE_EN              ,IO Space Enable (ISE)" "0,1"
group.long 0x8++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_CLASSCODE_REVISIONID,Class code and Revision ID"
hexmask.long.byte 0x00 24.--31. 1. " BASE_CLS_CD              ,Base Class Code (CS)"
hexmask.long.byte 0x00 16.--23. 1. "        SUBCLS_CD                   ,Sub Class Code (CS)"
hexmask.long.byte 0x00 8.--15. 1. "         PROG_IF_CODE                 ,Programming Interface Code (CS)"
textline "                                                       "
hexmask.long.byte 0x00 0.--7. 1. " REVID                    ,Revision ID (CS)"
group.long 0xC++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_BIST_HEAD_LAT_CACH,BIST, Header Type, Latency Timer, Cache Line Size"
hexmask.long.byte 0x00 24.--31. 1. " BIST                     ,BIST"
bitfld.long 0x00 23. "        MFD                         ,MultiFunction Device" "0,1"
hexmask.long.byte 0x00 16.--22. 1. "          HEAD_TYP                     ,Header Type - TYPE0. - TYPE1."
textline "                                                       "
hexmask.long.byte 0x00 8.--15. 1. " MSTR_LAT_TIM             ,Master Latency Timer, Not Applicable for PCIe hence hardwired to 0"
hexmask.long.byte 0x00 0.--7. 1. "        CACH_LN_SZE                 ,Cache Line Size, No impact on write, write is allowed only for legacy purpose"
group.long 0x10++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_BAR0,Base Address Register 0 Bit #0 is also a WO BAR enable (CS2) BAR Mask is writable (CS2)"
hexmask.long.word 0x00 20.--31. 1. " BASE_ADDR_RW             ,Base address bits (for a 64-bit BAR, upper base address bits are in BAR above) Unmasked MSBs, as set by BAR mask"
hexmask.long.word 0x00 4.--19. 1. "      BASE_ADDR_RO                ,Base address bits (for a 64-bit BAR, upper base address bits are in BAR above) Masked LSBs, as set by BAR mask"
bitfld.long 0x00 3. "       PREFETCHABLE                 ,MEM BAR: Prefetchable (CS) I/O BAR: bit 1 is part of I/O address" "0,1"
textline "                                                       "
bitfld.long 0x00 1.--2. " AS                       ,MEM BAR: Address Size (CS) I/O BAR: bit 0 is always 0, bit 1 is LS Bit of I/O address - Read 0x0 = 32 bit . - _32BIT. - Read 0x2 = 64 bit . - _64BIT." "0,1,2,3"
bitfld.long 0x00 0. "         SPACE_INDICATOR             ,BAR I/O vs memory space indicator (CS) - MEM. - IO." "MEM,IO"
group.long 0x14++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_BAR1,Base Address Register 1 If BAR0.AS = 64-bit: upper half of BAR0 base address If BAR0.AS = 32-bit: independent 32-bit BAR Bit #0 is also a WO BAR enable (CS2) BAR Mask is writable (CS2)"
hexmask.long.word 0x00 20.--31. 1. " BASE_ADDR_RW             ,Base address bits (for a 64-bit BAR, lower base address bits are in BAR below) Unmasked MSBs, as set by BAR mask"
hexmask.long.word 0x00 4.--19. 1. "      BASE_ADDR_RO                ,Base address bits (for a 64-bit BAR, lower base address bits are in BAR below) Masked LSBs, as set by BAR mask"
bitfld.long 0x00 3. "       PREFETCHABLE                 ,MEM BAR: Prefetchable (CS) I/O BAR: bit 1 is part of I/O address" "0,1"
textline "                                                       "
bitfld.long 0x00 1.--2. " AS                       ,MEM BAR: Address Size (CS) I/O BAR: bit 0 is always 0, bit 1 is LSBit of I/O address - Read 0x0 = 32 bit . - _32BIT. - Read 0x2 = 64 bit . - _64BIT." "0,1,2,3"
bitfld.long 0x00 0. "         SPACE_INDICATOR             ,BAR I/O vs memory space indicator (CS) - MEM. - IO." "MEM,IO"
group.long 0x18++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_BUS_NUM_REG,Bus Number Registers"
hexmask.long.byte 0x00 24.--31. 1. " SEC_LAT_TIMER            ,Secondary Latency Timer, Not Applicable for PCI Express hence hardwired to 0"
hexmask.long.byte 0x00 16.--23. 1. "        SUBORD_BUS_NUM              ,Subordinate Bus Number"
hexmask.long.byte 0x00 8.--15. 1. "         SEC_BUS_NUM                  ,Secondary Bus Number"
textline "                                                       "
hexmask.long.byte 0x00 0.--7. 1. " PRIM_BUS_NUM             ,Primary Bus Number"
group.long 0x1C++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_IOBASE_LIMIT_SEC_STATUS,IO Base,Limit and Secondary Status Register"
bitfld.long 0x00 31. " DET_PAR_ERR              ,Detected Parity Error" "0,1"
bitfld.long 0x00 30. "         RCVD_SYS_ERR                ,Received System Error" "0,1"
bitfld.long 0x00 29. "          RCVD_MSTR_ABORT              ,Received Master Abort" "0,1"
textline "                                                       "
bitfld.long 0x00 28. " RCVD_TRGT_ABORT          ,Received Target Error" "0,1"
bitfld.long 0x00 27. "         SGNLD_TRGT_ABORT            ,Signaled Target Error" "0,1"
bitfld.long 0x00 25.--26. "          DEVSEL_TIMING                ,DEVSEL Timing, Not Applicable for PCI Express hence hardwired to 0" "0,1,2,3"
textline "                                                       "
bitfld.long 0x00 24. " MSTR_DATA_PRTY_ERR       ,Mastered Data Parity Error" "0,1"
bitfld.long 0x00 23. "         FAST_B2B_CAP                ,Fast Back to Back Capable, Not Applicable for PCI Express hence hardwired to 0" "0,1"
bitfld.long 0x00 21. "          C66MHZ_CAPA                  ,66MHz Capable, Not Applicable for PCI Express hence hardwired to 0" "0,1"
textline "                                                       "
bitfld.long 0x00 12.--15. " IO_SPACE_LIMIT           ,IO_Space_Limit" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8. "        IODECODE_32                 ,32 or 16 Bit IO Space" "0,1"
bitfld.long 0x00 4.--7. "          IO_SPACE_BASE                ,IO_Space_Limit" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                                       "
bitfld.long 0x00 0. " IODECODE_32_0            ,32 or 16 Bit IO Space (CS)" "0,1"
group.long 0x20++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_MEM_BASE_LIMIT,Memory Base and Limit Register"
hexmask.long.word 0x00 20.--31. 1. " MEM_LIMIT_ADDR           ,Memory Limit Address"
hexmask.long.word 0x00 4.--15. 1. "      MEM_BASE_ADDR               ,Memory Base Address"
group.long 0x24++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_PREF_MEM_BASE_LIMIT,Prefetchable Memory Base and Limit Register"
hexmask.long.word 0x00 20.--31. 1. " PREF_MEM_ADDR            ,Upper 12 bits of 32-bit Prefetchable Memory End Address"
bitfld.long 0x00 16. "      MEMDECODE_64                ,64-Bit Memory Addressing" "0,1"
hexmask.long.word 0x00 4.--15. 1. "          UPPPREF_MEM_ADDR             ,Upper 12 bits of 32-bit Prefetchable Memory start Address"
textline "                                                       "
bitfld.long 0x00 0. " MEMDECODE_64_0           ,64-Bit Memory Addressing" "0,1"
group.long 0x28++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_UPPER_32BIT_PREF_BASEADDR,Upper 32 Bit Prefetachable Base Address Register"
hexmask.long 0x00 0.--31. 1. " ADDRUPP                  ,Upper 32 Bits of Base Address of Prefetachable Memory Space, Used only if 64 Bit Prefetachable Addresing is enabled"
group.long 0x2C++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_UPPER_32BIT_PREF_LIMITADDR,Upper 32 Bit Prefetachable Limit Address Register"
hexmask.long 0x00 0.--31. 1. " ADDRUPP_LIMIT            ,Upper 32 Bits of Limit Address of Prefetachable Memory Space, Used only if 64 Bit Prefetachable Addresing is enabled"
group.long 0x30++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_IO_BASE_LIMIT,IO Base and Limit Register"
hexmask.long.word 0x00 16.--31. 1. " UPP16_IOLIMIT            ,Upper 16 IO Limit Address"
hexmask.long.word 0x00 0.--15. 1. "      UPP16_IOBASE                ,Upper 16 IO Base Address"
group.long 0x34++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_CAPPTR,CapPtr"
hexmask.long.byte 0x00 0.--7. 1. " CAPTR                    ,First Capability Pointer (CS)"
group.long 0x38++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_EXPANSION_ROM_BAR,Expansion ROM Base Address Register"
hexmask.long.word 0x00 16.--31. 1. " EXROM_ADDRESS            ,Expansion ROM address, unmasked (ie programmable)"
bitfld.long 0x00 11.--15. "      EXROM_ADDRESS_RO            ,Expansion ROM address, masked." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0. "         EXP_ROM_EN                   ,Expansion ROM Enable" "0,1"
group.long 0x3C++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_BRIDGE_INT,Bridge Control and Int Pin and line"
bitfld.long 0x00 27. " DT_SERR_EN               ,Discard Timer SERR Enable Status" "0,1"
bitfld.long 0x00 26. "         DT_STS                      ,Discard Timer Status" "0,1"
bitfld.long 0x00 25. "          SEC_DT                       ,Secondary Discard Timer" "0,1"
textline "                                                       "
bitfld.long 0x00 24. " PRI_DT                   ,Primary Discard Timer" "0,1"
bitfld.long 0x00 23. "         FAST_B2B_EN                 ,Fast Back-to-Back Transactions Enable" "0,1"
bitfld.long 0x00 22. "          SEC_BUS_RST                  ,Secondary Bus Reset (initiate hot reset)" "0,1"
textline "                                                       "
bitfld.long 0x00 21. " MST_ABT_MOD              ,Master Abort Mode" "0,1"
bitfld.long 0x00 20. "         VGA_16B_DEC                 ,VGA 16-Bit Decode" "0,1"
bitfld.long 0x00 19. "          VGA_EN                       ,VGA Enable" "0,1"
textline "                                                       "
bitfld.long 0x00 18. " ISA_EN                   ,ISA Enable" "0,1"
bitfld.long 0x00 17. "         SERR_EN                     ,SERR Enable" "0,1"
bitfld.long 0x00 16. "          PERR_RESP_EN                 ,Parity Error Response Enable" "0,1"
textline "                                                       "
hexmask.long.byte 0x00 8.--15. 1. " INT_PIN                  ,Interrupt Pin (CS)"
hexmask.long.byte 0x00 0.--7. 1. "        INT_LIN                     ,Interrupt Line"
group.long 0x70++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_PCIE_CAP,PCI Express Capability structure header"
bitfld.long 0x00 25.--29. " IM_NUM                   ,Interrupt Message Number (CS)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 24. "        SLOT                        ,Slot Implemented (CS)" "0,1"
bitfld.long 0x00 20.--23. "          DEV_TYPE                     ,Device/Port Type - RC." "0,1,2,3,RC,5,6,7,8,9,10,11,12,13,14,15"
textline "                                                       "
bitfld.long 0x00 16.--19. " PCIE_VER                 ,PCI Express Capability Version" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 8.--15. 1. "        PCIE_NX_PTR                 ,Next Capability Pointer (CS)"
hexmask.long.byte 0x00 0.--7. 1. "         CAP_ID                       ,Capability ID - PCIE."
group.long 0x74++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_DEV_CAP,PCIE Device Capabilities"
bitfld.long 0x00 26.--27. " CAPT_SLOW_PWRLIMIT_SCALE ,Captured Slow Power Scale Value, for Upstream Port Only (CS)" "0,1,2,3"
hexmask.long.byte 0x00 18.--25. 1. "         CAPT_SLOW_PWRLIMIT_VALUE    ,Captured Slow Power Limit Value, for Upstream Port Only (CS)"
bitfld.long 0x00 15. "         ROLEBASED_ERRRPT             ,Role Based Error Reporting (CS)" "0,1"
textline "                                                       "
bitfld.long 0x00 12.--14. " UNDEFINED                ,Undefined from PCIe 1.1 onwards" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 9.--11. "         DEFAULT_EP_L1_ACCPT_LATENCY ,Endpoint L1 Acceptable Latency; Must be 0 for RC." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6.--8. "          DEFAULT_EP_L0S_ACCPT_LATENCY ,Endpoint L0s Acceptable Latency; Must be 0 for RC." "0,1,2,3,4,5,6,7"
textline "                                                       "
bitfld.long 0x00 5. " EXTTAGFIELD_SUPPORT      ,Extended Tag Field Support (CS)" "0,1"
bitfld.long 0x00 3.--4. "         PHANTOMFUNC                 ,Phantom Function Support, NOT SUPPORTED (CS)" "0,1,2,3"
bitfld.long 0x00 0.--2. "          MAX_PAYLOAD_SIZE             ,Maximum Payload Size (CS) - _256_BYTE." "0,_256_BYTE,2,3,4,5,6,7"
group.long 0x78++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_DEV_CAS,PCIE Device Control and Status"
bitfld.long 0x00 21. " TRANS_PEND               ,Transaction Pending" "0,1"
bitfld.long 0x00 20. "         AUXP_DET                    ,Aux Power Detected" "0,1"
bitfld.long 0x00 19. "          UR_DET                       ,Unsupported Request Detected" "0,1"
textline "                                                       "
bitfld.long 0x00 18. " FT_DET                   ,Fatal Error Detected" "0,1"
bitfld.long 0x00 17. "         NFT_DET                     ,Non-Fatal Error Detected" "0,1"
bitfld.long 0x00 16. "          COR_DET                      ,Correctable Error Detected" "0,1"
textline "                                                       "
bitfld.long 0x00 15. " INIT_FLR                 ,Reserved" "0,1"
bitfld.long 0x00 12.--14. "         MRRS                        ,Max_Read_Request_Size" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 11. "          NOSNP_EN                     ,Enable No Snoop" "0,1"
textline "                                                       "
bitfld.long 0x00 10. " AUXPM_EN                 ,AUX Power PM Enable (Sticky bit) - DIS. - EN." "DIS,EN"
bitfld.long 0x00 9. "       PHFUN_EN                    ,Phantom Function Enable" "0,1"
bitfld.long 0x00 8. "          EXTAG_EN                     ,Extended Tag Field Enable" "0,1"
textline "                                                       "
bitfld.long 0x00 5.--7. " MPS                      ,Max_Payload_Size" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4. "         EN_RO                       ,Enable Relaxed Ordering" "0,1"
bitfld.long 0x00 3. "          UR_RE                        ,Unsupported Request Reporting Enable" "0,1"
textline "                                                       "
bitfld.long 0x00 2. " FT_RE                    ,Fatal Error Reporting Enable" "0,1"
bitfld.long 0x00 1. "         NFT_RE                      ,Non-Fatal Error Reporting Enable" "0,1"
bitfld.long 0x00 0. "          COR_RE                       ,Correctable Error Reporting Enable" "0,1"
group.long 0x7C++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_LNK_CAP,PCIE Link Capabilities"
hexmask.long.byte 0x00 24.--31. 1. " PORT_NUM                 ,Port Number (CS)"
bitfld.long 0x00 22. "        ASPM_OPT_COMP               ,ASPM Optionality Compliance (CS)" "0,1"
bitfld.long 0x00 21. "          LNK_BW_NOT_CAP               ,Link Bandwidth Notification Capability (CS)" "0,1"
textline "                                                       "
bitfld.long 0x00 20. " DLL_ACTRPT_CAP           ,Data Link Layer Active Reporting Capable" "0,1"
bitfld.long 0x00 19. "         UNSUP                       ,Unsupported, Surprise Down Error Reporting Capable, Hardwired to 0" "0,1"
bitfld.long 0x00 18. "          CLK_PWR_MGMT                 ,Clock Power Management; Hardwired to 0 for DS port (RC); (CS)" "0,1"
textline "                                                       "
bitfld.long 0x00 15.--17. " L1_EXIT_LAT              ,L1 Exit Latency (CS) Compare CS2" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "         L0S_EXIT_LAT                ,L0s Exit Latency (CS) Compare CS2" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 10.--11. "          AS_LINK_PM_SUPPORT           ,Active State Link PM (ASPM) Support (CS)" "0,1,2,3"
textline "                                                       "
bitfld.long 0x00 4.--9. " MAX_LINK_WIDTH           ,Max Link Width (lanes) (CS)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--3. "        MAX_LINK_SPEEDS             ,Supported Max Link Speed (CS) Read 0x1: 2.5 GT/s (GEN1) Read 0x2: 5 GT/s (GEN2) Read 0x3: 8 GT/s (GEN3)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_LNK_CAS,PCIE Link Control and Status"
eventfld.long 0x00 31. " LAB_STATUS               ,Link Autonomous Bandwidth Status" "0,1"
eventfld.long 0x00 30. "         LBW_STATUS                  ,Link Bandwidth Management Status" "0,1"
bitfld.long 0x00 29. "          DLL_ACT                      ,Data Link Layer Active" "0,1"
textline "                                                       "
bitfld.long 0x00 28. " SLOT_CLK_CONFIG          ,Slot Clock Configuration (CS)" "0,1"
bitfld.long 0x00 27. "         LINK_TRAIN                  ,LINK training" "0,1"
bitfld.long 0x00 26. "          UNDEF                        ,Undefined" "0,1"
textline "                                                       "
bitfld.long 0x00 20.--25. " NEG_LW                   ,Negotiated Link Width; UNDEFINED UNTIL LINK IS UP." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 16.--19. "        LINK_SPEED                  ,Link Speed; UNDEFINED UNTIL LINK IS UP." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "         LABIE                        ,Link Autonomous Bandwidth Interrupt Enable" "0,1"
textline "                                                       "
bitfld.long 0x00 10. " LBMIE                    ,Link Bandwidth Management Interrupt Enable" "0,1"
bitfld.long 0x00 9. "         HAWD                        ,Hardware Autonomous Width Disable" "0,1"
bitfld.long 0x00 8. "          EN_CPM                       ,Enable Clock Power Management" "0,1"
textline "                                                       "
bitfld.long 0x00 7. " EXT_SYN                  ,Extended Synch" "0,1"
bitfld.long 0x00 6. "         COM_CLK_CFG                 ,Common Clock Configuration - ASYNC. - COMMON." "ASYNC,COMMON"
bitfld.long 0x00 5. "     RETRAIN_LINK                 ,Retrain Link" "0,1"
textline "                                                       "
bitfld.long 0x00 4. " LINK_DIS                 ,Link Disable" "0,1"
bitfld.long 0x00 3. "         RCB                         ,Read Completion Boundary (CS) - _64_BYTE. - _128_BYTE." "_64_BYTE,_128_BYTE"
bitfld.long 0x00 0.--1. "  ASPM_CTRL                    ,Active State Link PM Control 0x0: DISABLED 0x1: L0S_ENABLED 0x2: L1_ENABLED 0x3: L0S_AND_L1_ENABLED" "0,1,2,3"
group.long 0x84++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_SLOT_CAP,Slot Capabilities Register"
hexmask.long.word 0x00 19.--31. 1. " PSN                      ,Physical Slot Number (CS)"
bitfld.long 0x00 18. "      NCCS                        ,No Command Complete Support (CS)" "0,1"
bitfld.long 0x00 17. "          EIP                          ,Electromechanical Interlock Present (CS)" "0,1"
textline "                                                       "
bitfld.long 0x00 15.--16. " SPLS                     ,Slot Power Limit Scale (CS)" "0,1,2,3"
hexmask.long.byte 0x00 7.--14. 1. "         SPLV                        ,Slot Power Limit Value (CS)"
bitfld.long 0x00 6. "         HPC                          ,Hot-Plug Capable (CS)" "0,1"
textline "                                                       "
bitfld.long 0x00 5. " HPS                      ,Hot-Plug Surprise (CS)" "0,1"
bitfld.long 0x00 4. "         PIP                         ,Power Indicator Present (CS)" "0,1"
bitfld.long 0x00 3. "          AIP                          ,Attention Indicator Present (CS)" "0,1"
textline "                                                       "
bitfld.long 0x00 2. " MRLSP                    ,MRL Sensor Present (CS)" "0,1"
bitfld.long 0x00 1. "         PCP                         ,Power Controller Present (CS)" "0,1"
bitfld.long 0x00 0. "          ABP                          ,Attention Button Present (CS)" "0,1"
group.long 0x88++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_SLOT_CAS,Slot Control and Status Register"
bitfld.long 0x00 24. " DSC                      ,Data Link Layer State Changed" "0,1"
bitfld.long 0x00 23. "         EIS                         ,Electromechanical Interlock Status" "0,1"
bitfld.long 0x00 22. "          PDS                          ,Presence Detect State NO PRESENCE DETECTION IMPLEMENTED: TIED TO 1" "0,1"
textline "                                                       "
bitfld.long 0x00 21. " MRLSS                    ,MRL Sensor State" "0,1"
bitfld.long 0x00 20. "         CC                          ,Command Completed" "0,1"
bitfld.long 0x00 19. "          PDC                          ,Presence Detect Changed" "0,1"
textline "                                                       "
bitfld.long 0x00 18. " MRCSC                    ,MRL Sensor Changed" "0,1"
bitfld.long 0x00 17. "         PFD                         ,Power Fault Detected" "0,1"
bitfld.long 0x00 16. "          ABP                          ,Attention Button Pressed" "0,1"
textline "                                                       "
bitfld.long 0x00 12. " DSC_EN                   ,Data Link Layer State Changed Enable" "0,1"
bitfld.long 0x00 11. "         EIC                         ,Electromechanical Interlock Control" "0,1"
bitfld.long 0x00 10. "          PCC                          ,Power Controller Control" "0,1"
textline "                                                       "
bitfld.long 0x00 8.--9. " PIC                      ,Power Indicator Control" "0,1,2,3"
bitfld.long 0x00 6.--7. "         AIC                         ,Attention Indicator Control" "0,1,2,3"
bitfld.long 0x00 5. "          HPI_EN                       ,Hot-Plug Interrupt Enable" "0,1"
textline "                                                       "
bitfld.long 0x00 4. " CCI_EN                   ,Command Completed Interrupt Enable" "0,1"
bitfld.long 0x00 3. "         PDC_EN                      ,Presence Detect Changed Enable" "0,1"
bitfld.long 0x00 2. "          MRLSC_EN                     ,MRL Sensor Changed Enable" "0,1"
textline "                                                       "
bitfld.long 0x00 1. " PFD_EN                   ,Power Fault Detected Enable" "0,1"
bitfld.long 0x00 0. "         ABP_EN                      ,Attention Button Pressed Enable" "0,1"
group.long 0x8C++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_ROOT_CAC,Root Control and Capability Register"
bitfld.long 0x00 16. " CRSSV                    ,CRS Software Visibility" "0,1"
bitfld.long 0x00 4. "         CRSSV_EN                    ,CRS Software Visibility Enable" "0,1"
bitfld.long 0x00 3. "          PMEI_EN                      ,PME Interrupt Enable" "0,1"
textline "                                                       "
bitfld.long 0x00 2. " SEFE_EN                  ,System Error on Fatal Error Enable" "0,1"
bitfld.long 0x00 1. "         SENE_EN                     ,System Error on Non-fatal Error Enable" "0,1"
bitfld.long 0x00 0. "          SECE_EN                      ,System Error on Correctable Error Enable" "0,1"
group.long 0x90++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_ROOT_STS,Root Status Register"
bitfld.long 0x00 17. " PME_PND                  ,PME Pending" "0,1"
bitfld.long 0x00 16. "         PME_STS                     ,PME Status (Sticky bit)" "0,1"
hexmask.long.word 0x00 0.--15. 1. "          PME_RID                      ,PME Requester ID"
rgroup.long 0x94++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_DEV_CAP_2,Device Capabilities 2 Register"
bitfld.long 0x00 12.--13. " TPHC_SP                  ,TPH Completer Supported" "0,1,2,3"
bitfld.long 0x00 10. "         NOROPR                      ,No RO-enabled PR-PR Passing" "0,1"
bitfld.long 0x00 9. "          CASC128_SP                   ,128-bit CAS Completer Supported" "0,1"
textline "                                                       "
bitfld.long 0x00 8. " AOC64_SP                 ,64-bit AtomicOp Completer Supported" "0,1"
bitfld.long 0x00 7. "         AOC32_SP                    ,32-bit AtomicOp Completer Supported" "0,1"
bitfld.long 0x00 6. "          AOR_SP                       ,AtomicOp Routing Supported" "0,1"
textline "                                                       "
bitfld.long 0x00 5. " ARI_FWD_SP               ,ARI Forwarding Supported" "0,1"
bitfld.long 0x00 4. "         CPL_TIMEOUT_DIS_SUPPORTED   ,Completion Timeout Disable Supported" "0,1"
bitfld.long 0x00 0.--3. "          CPL_TIMEOUT_RNG_SUPPORTED    ,Completion Timeout Ranges Supported" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x98++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_DEV_CAS_2,Device Control 2 Register"
bitfld.long 0x00 13.--14. " OBFF_EN                  ,OBFF Enable" "0,1,2,3"
bitfld.long 0x00 10. "         LTR_EN                      ,LTR Mechanism Enable" "0,1"
bitfld.long 0x00 9. "          IDO_CPL_EN                   ,IDO Completion Enable" "0,1"
textline "                                                       "
bitfld.long 0x00 8. " IDO_REQ_EN               ,IDO Request Enable" "0,1"
bitfld.long 0x00 7. "         AOP_EG_BLK                  ,AtomicOp Egress Blocking" "0,1"
bitfld.long 0x00 6. "          AOP_REQ_EN                   ,AtomicOp Requester Enable" "0,1"
textline "                                                       "
bitfld.long 0x00 5. " ARI_FWD_SP               ,ARI Forwarding Supported" "0,1"
bitfld.long 0x00 4. "         CPL_TIMEOUT_DIS             ,Completion Timeout Disable" "0,1"
bitfld.long 0x00 0.--3. "          CPL_TIMEOUT_VALUE            ,Completion Timeout Values" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x9C++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_LNK_CAP_2,PCIE Link Capabilities 2 Register"
bitfld.long 0x00 8. " CROSSLINK_SP             ,Crosslink Supported" "0,1"
hexmask.long.byte 0x00 1.--7. 1. "         SP_LS_VEC                   ,Supported Link Speeds Vector"
group.long 0xA0++0x3
line.long 0x00 "PCIECTRL_RC_DBICS_LNK_CAS_2,Link Control and Status 2 Register (Sticky)"
eventfld.long 0x00 21. " LINK_EQ_REQ              ,Link Equilization Request" "0,1"
bitfld.long 0x00 20. "         EQ_PH3                      ,Equalization Ph3 Success, Gen3 Only" "0,1"
bitfld.long 0x00 19. "          EQ_PH2                       ,Equalization Ph2 Success, Gen3 Only" "0,1"
textline "                                                       "
bitfld.long 0x00 18. " EQ_PH1                   ,Equalization Ph1 Success, Gen3 Only" "0,1"
bitfld.long 0x00 17. "         EQ_COMPLETE                 ,Equalization Complete, Gen3 Only" "0,1"
bitfld.long 0x00 16. "          DEEMPH_LEVEL                 ,Current De-emphasis Level" "0,1"
textline "                                                       "
bitfld.long 0x00 12.--15. " COMPL_PRST_DEEPH         ,Compliance Pre-set/ De-emphasis" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "        COMPL_SOS                   ,Compliance SOS" "0,1"
bitfld.long 0x00 10. "          ENT_MOD_COMPL                ,Enter Modified Compliance" "0,1"
textline "                                                       "
bitfld.long 0x00 7.--9. " TX_MARGIN                ,Transmit Margin" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6. "         SEL_DEEMP                   ,Selectable De-emphasis (CS)" "0,1"
bitfld.long 0x00 5. "          HW_AUTO_SP_DIS               ,Hardware Autonomous Speed Disable" "0,1"
textline "                                                       "
bitfld.long 0x00 4. " ENTR_COMPL               ,Enter Compliance" "0,1"
bitfld.long 0x00 0.--3. "         TRGT_LINK_SPEED             ,Target Link Speed Read 0x1 : 2.5 GT/s (GEN1) Read 0x2 : 5 GT/s (GEN2) Read 0x3 : 8 GT/s (GEN3)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree.end
tree.open "PCIe_SS1_EP_CFG_DBICS"
tree "PCIe_SS1_EP_CFG_DBICS"
base ad:0x51000000
width 43.
group.long 0x0++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_DEVICE_VENDORID,Device and Vendor ID"
hexmask.long.word 0x00 16.--31. 1. " DEVICEID                     ,Device ID (CS)"
hexmask.long.word 0x00 0.--15. 1. "      VENDORID                  ,Vendor ID (CS)"
group.long 0x4++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_STATUS_COMMAND_REGISTER,Status and Command registers"
bitfld.long 0x00 31. " DETECT_PARERR                ,Detected Parity Error" "0,1"
bitfld.long 0x00 30. "         SIGNAL_SYSERR             ,Signaled System Error" "0,1"
bitfld.long 0x00 29. "     RCVD_MASTERABORT            ,Received Master Abort" "0,1"
textline "                                                    "
bitfld.long 0x00 28. " RCVD_TRGTABORT               ,Received Target Abort" "0,1"
bitfld.long 0x00 27. "         SIGNAL_TRGTABORT          ,Signaled Target Abort" "0,1"
bitfld.long 0x00 25.--26. "     DEVSEL_TIME                 ,DevSel Timing, Harsdwired to 0 for PCIExpress" "0,1,2,3"
textline "                                                    "
bitfld.long 0x00 24. " MASTERDATA_PARERR            ,Master Data Parity Error" "0,1"
bitfld.long 0x00 23. "         FAST_B2B                  ,Back to Back Capable, Harsdwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 21. "     C66MHZ_CAP                  ,66MHz Capable, Harsdwired to 0 for PCIExpress" "0,1"
textline "                                                    "
bitfld.long 0x00 20. " CAP_LIST                     ,Capabilities List Hardwired to 1" "0,1"
bitfld.long 0x00 19. "         INTX_STATUS               ,INTx Status" "0,1"
bitfld.long 0x00 10. "     INTX_ASSER_DIS              ,INTx Assertion Disable" "0,1"
textline "                                                    "
bitfld.long 0x00 9. " FAST_BBEN                    ,Bit hardwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 8. "         SERR_EN                   ,SERR Enable" "0,1"
bitfld.long 0x00 7. "     IDSEL_CTRL                  ,Bit hardwired to 0 for PCIExpress" "0,1"
textline "                                                    "
bitfld.long 0x00 6. " PARITYERRRESP                ,Parity Error Response" "0,1"
bitfld.long 0x00 5. "         VGA_SNOOP                 ,Not Applicable forPCI Express Bit hardwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 4. "     MEMWR_INVA                  ,Not Applicable for PCI Express Bit hardwired to 0 for PCIExpress" "0,1"
textline "                                                    "
bitfld.long 0x00 3. " SPEC_CYCLE_EN                ,Not Applicable for PCI Express Bit hardwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 2. "         BUSMASTER_EN              ,Bus Master Enable" "0,1"
bitfld.long 0x00 1. "     MEM_SPACE_EN                ,Memory Space Enable" "0,1"
textline "                                                    "
bitfld.long 0x00 0. " IO_SPACE_EN                  ,IO Space Enable" "0,1"
group.long 0x8++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_CLASSCODE_REVISIONID,Class code and Revision ID"
hexmask.long.byte 0x00 24.--31. 1. " BASE_CLS_CD                  ,Base Class Code (CS)"
hexmask.long.byte 0x00 16.--23. 1. "        SUBCLS_CD                 ,Sub Class Code (CS)"
hexmask.long.byte 0x00 8.--15. 1. "    PROG_IF_CODE                ,Programming Interface Code (CS)"
textline "                                                    "
hexmask.long.byte 0x00 0.--7. 1. " REVID                        ,Revision ID (CS)"
group.long 0xC++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_BIST_HEAD_LAT_CACH,BIST, Header Type, Latency Timer, Cache Line Size"
hexmask.long.byte 0x00 24.--31. 1. " BIST                         ,BIST"
bitfld.long 0x00 23. "        MFD                       ,MultiFunction Device" "0,1"
hexmask.long.byte 0x00 16.--22. 1. "     HEAD_TYP                    ,Header Type 0x0 = EP header 0x1 = RC header"
textline "                                                    "
hexmask.long.byte 0x00 8.--15. 1. " MSTR_LAT_TIM                 ,Master Latency Timer, Not Applicable for PCIe hence hardwired to 0"
hexmask.long.byte 0x00 0.--7. 1. "        CACH_LN_SZE               ,Cache Line Size, No impact on write, write is allowed only for legacy purpose"
group.long 0x10++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_BAR0,Base Address Register 0 Bit #0 is also a WO BAR enable (CS2) BAR Mask is writable (CS2)"
hexmask.long.word 0x00 20.--31. 1. " BASE_ADDR_RW                 ,Base address bits (for a 64-bit BAR, upper base address bits are in BAR above) Unmasked MSBs, as set by BAR mask"
hexmask.long.word 0x00 4.--19. 1. "      BASE_ADDR_RO              ,Base address bits (for a 64-bit BAR, upper base address bits are in BAR above) Masked LSBs, as set by BAR mask"
bitfld.long 0x00 3. "  PREFETCHABLE                ,MEM BAR: Prefetchable (CS) I/O BAR: bit 1 is part of I/O address" "0,1"
textline "                                                    "
bitfld.long 0x00 1.--2. " AS                           ,MEM BAR: Address Size (CS) I/O BAR: bit 0 is always 0, bit 1 is LSBit of I/O address Read 0x0 = 32 Bit Read 0x2 = 64 Bit" "0,1,2,3"
bitfld.long 0x00 0. "         SPACE_INDICATOR           ,BAR I/O vs memory space indicator (CS) 0x0(R) = BAR type is Memory 0x1(R) = BAR type is I/O" "0,1"
group.long 0x14++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_BAR1,Base Address Register 1 If BAR0.AS = 64-bit: upper half of BAR0 base address If BAR0.AS = 32-bit: independent 32-bit BAR Bit #0 is also a WO BAR enable (CS2) BAR Mask is writable (CS2)"
hexmask.long.word 0x00 20.--31. 1. " BASE_ADDR_RW                 ,Base address bits (for a 64-bit BAR, lower base address bits are in BAR below) Unmasked MSBs, as set by BAR mask"
hexmask.long.word 0x00 4.--19. 1. "      BASE_ADDR_RO              ,Base address bits (for a 64-bit BAR, lower base address bits are in BAR below) Masked LSBs, as set by BAR mask"
bitfld.long 0x00 3. "  PREFETCHABLE                ,MEM BAR: Prefetchable (CS) I/O BAR: bit 1 is part of I/O address" "0,1"
textline "                                                    "
bitfld.long 0x00 1.--2. " AS                           ,MEM BAR: Address Size (CS) I/O BAR: bit 0 is always 0, bit 1 is LSBit of I/O address Read 0x0 = 32 Bit Read 0x2 = 64 Bit" "0,1,2,3"
bitfld.long 0x00 0. "         SPACE_INDICATOR           ,BAR I/O vs memory space indicator (CS) 0x0(R) = BAR type is Memory 0x1(R) = BAR type is I/O" "0,1"
group.long 0x18++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_BAR2,Base Address Register 2 Bit #0 is also a WO BAR enable (CS2) BAR Mask is writable (CS2)"
hexmask.long.word 0x00 20.--31. 1. " BASE_ADDR_RW                 ,Base address bits (for a 64-bit BAR, upper base address bits are in BAR above) Unmasked MSBs, as set by BAR mask"
hexmask.long.word 0x00 4.--19. 1. "      BASE_ADDR_RO              ,Base address bits (for a 64-bit BAR, upper base address bits are in BAR above) Masked LSBs, as set by BAR mask"
bitfld.long 0x00 3. "  PREFETCHABLE                ,MEM BAR: Prefetchable (CS) I/O BAR: bit 1 is part of I/O address" "0,1"
textline "                                                    "
bitfld.long 0x00 1.--2. " AS                           ,MEM BAR: Address Size (CS) I/O BAR: bit 0 is always 0, bit 1 is LSBit of I/O address Read 0x0 = 32 Bit Read 0x2 = 64 Bit" "0,1,2,3"
bitfld.long 0x00 0. "         SPACE_INDICATOR           ,BAR I/O vs memory space indicator (CS) 0x0(R) = BAR type is Memory 0x1(R) = BAR type is I/O" "0,1"
group.long 0x1C++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_BAR3,Base Address Register 3 If BAR2.AS = 64-bit: upper half of BAR2 base address If BAR2.AS = 32-bit: independent 32-bit BAR Bit #0 is also a WO BAR enable (CS2) BAR Mask is writable (CS2)"
hexmask.long.word 0x00 20.--31. 1. " BASE_ADDR_RW                 ,Base address bits (for a 64-bit BAR, lower base address bits are in BAR below) Unmasked MSBs, as set by BAR mask"
hexmask.long.word 0x00 4.--19. 1. "      BASE_ADDR_RO              ,Base address bits (for a 64-bit BAR, lower base address bits are in BAR below) Masked LSBs, as set by BAR mask"
bitfld.long 0x00 3. "  PREFETCHABLE                ,MEM BAR: Prefetchable (CS) I/O BAR: bit 1 is part of I/O address" "0,1"
textline "                                                    "
bitfld.long 0x00 1.--2. " AS                           ,MEM BAR: Address Size (CS) I/O BAR: bit 0 is always 0, bit 1 is LSBit of I/O address Read 0x0 = 32 Bit Read 0x2 = 64 Bit" "0,1,2,3"
bitfld.long 0x00 0. "         SPACE_INDICATOR           ,BAR I/O vs memory space indicator (CS) 0x0(R) = BAR type is Memory 0x1(R) = BAR type is I/O" "0,1"
group.long 0x20++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_BAR4,Base Address Register 4 Bit #0 is also a WO BAR enable (CS2) BAR Mask is writable (CS2)"
hexmask.long.tbyte 0x00 12.--31. 1. " BASE_ADDR_RW                 ,Base address bits (for a 64-bit BAR, upper base address bits are in BAR above) Unmasked MSBs, as set by BAR mask"
hexmask.long.byte 0x00 4.--11. 1. "    BASE_ADDR_RO              ,Base address bits (for a 64-bit BAR, upper base address bits are in BAR above) Masked LSBs, as set by BAR mask"
bitfld.long 0x00 3. "    PREFETCHABLE                ,MEM BAR: Prefetchable (CS) I/O BAR: bit 1 is part of I/O address" "0,1"
textline "                                                    "
bitfld.long 0x00 1.--2. " AS                           ,MEM BAR: Address Size (CS) I/O BAR: bit 0 is always 0, bit 1 is LSBit of I/O address Read 0x0 = 32 Bit Read 0x2 = 64 Bit" "0,1,2,3"
bitfld.long 0x00 0. "         SPACE_INDICATOR           ,BAR I/O vs memory space indicator (CS) 0x0(R) = BAR type is Memory 0x1(R) = BAR type is I/O" "0,1"
group.long 0x24++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_BAR5,Base Address Register 5 If BAR4.AS = 64-bit: upper half of BAR4 base address If BAR4.AS = 32-bit: independent 32-bit BAR Bit #0 is also a WO BAR enable (CS2) BAR Mask is writable (CS2)"
hexmask.long.word 0x00 20.--31. 1. " BASE_ADDR_RW                 ,Base address bits (for a 64-bit BAR, lower base address bits are in BAR below) Unmasked MSBs, as set by BAR mask"
hexmask.long.word 0x00 4.--19. 1. "      BASE_ADDR_RO              ,Base address bits (for a 64-bit BAR, lower base address bits are in BAR below) Masked LSBs, as set by BAR mask"
bitfld.long 0x00 3. "  PREFETCHABLE                ,MEM BAR: Prefetchable (CS) I/O BAR: bit 1 is part of I/O address" "0,1"
textline "                                                    "
bitfld.long 0x00 1.--2. " AS                           ,MEM BAR: Address Size (CS) I/O BAR: bit 0 is always 0, bit 1 is LSBit of I/O address Read 0x0 = 32 Bit Read 0x2 = 64 Bit" "0,1,2,3"
bitfld.long 0x00 0. "         SPACE_INDICATOR           ,BAR I/O vs memory space indicator (CS) 0x0(R) = BAR type is Memory 0x1(R) = BAR type is I/O" "0,1"
group.long 0x28++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_CARDBUS_CIS_POINTER,"
hexmask.long 0x00 0.--31. 1. " CARDBUS_CIS_PTR_N            ,Cardbus CIS pointer (CS)"
group.long 0x2C++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_SUBID_SUBVENDORID,"
hexmask.long.word 0x00 16.--31. 1. " SUBSYS_DEV_ID_N              ,Subsystem ID (CS)"
hexmask.long.word 0x00 0.--15. 1. "      SUBSYS_VENDOR_ID_N        ,Subsystem Vendor ID (CS)"
group.long 0x30++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_EXPANSION_ROM_BAR,Expansion ROM Base Address Register"
hexmask.long.word 0x00 16.--31. 1. " EXROM_ADDRESS                ,Expansion ROM address, unmasked (ie programmable)"
bitfld.long 0x00 11.--15. "      EXROM_ADDRESS_RO          ,Expansion ROM address, masked." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0. "    EXROM_EN                    ,Expansion ROM Enable" "0,1"
group.long 0x34++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_CAPPTR,CapPtr"
hexmask.long.byte 0x00 0.--7. 1. " CAPTR                        ,First Capability Pointer (CS)"
group.long 0x3C++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_INTERRUPT,Int Pin and line"
hexmask.long.byte 0x00 8.--15. 1. " INT_PIN                      ,Interrupt Pin (CS)"
hexmask.long.byte 0x00 0.--7. 1. "        INT_LIN                   ,Interrupt Line"
group.long 0x40++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_PM_CAP,Power Management Capability structure header"
bitfld.long 0x00 27.--31. " PME_SP                       ,PME Support (CS); Power states from which PME messages can be sent (active hi, one bit per state) Bit 0: from D0 Bit 1: from D1 Bit 2: from D2 Bit 3: from D3hot Bit 4: from D3cold (if Vaux present)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 26. "        D2_SP                     ,D2 Support (CS)" "0,1"
bitfld.long 0x00 25. "     D1_SP                       ,D1 Support (CS)" "0,1"
textline "                                                    "
bitfld.long 0x00 22.--24. " AUX_CUR                      ,AUX Current (CS)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 21. "         DSI                       ,Device Specific Initialization (CS)" "0,1"
bitfld.long 0x00 19. "     PME_CLK                     ,PME Clock, hardwired to 0 (CS)" "0,1"
textline "                                                    "
bitfld.long 0x00 16.--18. " PMC_VER                      ,Power Management specification version (CS)" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 8.--15. 1. "         PM_NX_PTR                 ,Next Capability Pointer (CS)"
hexmask.long.byte 0x00 0.--7. 1. "    CAP_ID                      ,Capability ID - ."
group.long 0x44++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_PM_CSR,Power Management Control and Status Register"
hexmask.long.byte 0x00 24.--31. 1. " DATA1                        ,Data register for additional information(not supported)"
bitfld.long 0x00 23. "        BP_CCE                    ,Bus Power/Clock Control Enable, hardwired to 0" "0,1"
bitfld.long 0x00 22. "     B2B3_SP                     ,B2/B3 Support, hardwired to 0" "0,1"
textline "                                                    "
eventfld.long 0x00 15. " PME_STATUS                   ,PME Status (Sticky bit)" "0,1"
bitfld.long 0x00 13.--14. "         DATA_SCALE                ,Data Scale (not supported)" "0,1,2,3"
bitfld.long 0x00 9.--12. "     DATA_SEL                    ,Data Select (not supported)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                                    "
bitfld.long 0x00 8. " PME_EN                       ,PME Enable (Sticky bit) - . - ." "0,1"
bitfld.long 0x00 3. "         NSR                       ,No Soft Reset (CS)" "0,1"
bitfld.long 0x00 0.--1. "     PM_STATE                    ,Power Management Control and Status Register - . - . - . - ." "D0_state,D1_state,D2_state,D3_state"
group.long 0x50++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_MSI_CAP,Message Signaled Interrupt Capability structure header"
bitfld.long 0x00 24. " PVM_EN                       ,MSI Per Vector Masking (PVM) supported" "0,1"
bitfld.long 0x00 23. "         MSI_64_EN                 ,64-bit Address Capable (CS)" "0,1"
bitfld.long 0x00 20.--22. "     MME                         ,Multiple Message Enable" "0,1,2,3,4,5,6,7"
textline "                                                    "
bitfld.long 0x00 17.--19. " MMC                          ,Multiple Message Capable (CS)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 16. "         MSI_EN                    ,MSI Enable" "0,1"
hexmask.long.byte 0x00 8.--15. 1. "     MSI_NX_PTR                  ,Next Capability Pointer (CS)"
textline "                                                    "
hexmask.long.byte 0x00 0.--7. 1. " CAP_ID                       ,MSI Capability ID Read 0x05 MSI"
group.long 0x54++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_MSI_ADD_L32,PCIe memory space address of MSI write TLP request, lower 32 bits."
hexmask.long 0x00 2.--31. 1. " ADDR                         ,Lower 32-bit address (DWORD aligned)"
group.long 0x58++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_MSI_ADD_U32,PCIe memory space address of MSI write TLP request, upper 32 bits (used if MSI_64_EN = 1)."
hexmask.long 0x00 0.--31. 1. " ADDR                         ,Upper 32-bit address"
group.long 0x5C++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_MSI_DATA,Data of MSI write TLP request (modified for multiple vectors)"
hexmask.long.word 0x00 0.--15. 1. " DATA                         ,MSI data"
group.long 0x70++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_PCIE_CAP,PCIE cap structure"
bitfld.long 0x00 25.--29. " IM_NUM                       ,Interrupt Message Number (CS)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 24. "        SLOT                      ,Slot Implemented Must be 0 for an endpoint" "0,1"
bitfld.long 0x00 20.--23. "     DEV_TYPE                    ,Device/Port Type Value depends on assigned type 0x0 = PCIe endpoint 0x1 = Legacy PCIe endpoint" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                                    "
bitfld.long 0x00 16.--19. " PCIE_VER                     ,PCI Express Capability Version" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 8.--15. 1. "        PCIE_NX_PTR               ,Next Capability Pointer (CS)"
hexmask.long.byte 0x00 0.--7. 1. "    CAP_ID                      ,Capability ID"
group.long 0x74++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_DEV_CAP,PCIE Device Capabilities"
bitfld.long 0x00 28. " FLR_EN                       ,Function Level Reset Capability (CS)" "0,1"
bitfld.long 0x00 26.--27. "         CAPT_SLOW_PWRLIMIT_SCALE  ,Captured Slow Power Scale Value (CS)" "0,1,2,3"
hexmask.long.byte 0x00 18.--25. 1. "     CAPT_SLOW_PWRLIMIT_VALUE    ,Captured Slow Power Limit Value (CS)"
textline "                                                    "
bitfld.long 0x00 15. " ROLEBASED_ERRRPT             ,Role Based Error Reporting (CS)" "0,1"
bitfld.long 0x00 12.--14. "         UNDEFINED                 ,Undefined from PCIe 1.1 onwards (CS)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 9.--11. "     DEFAULT_EP_L1_ACCPT_LATENCY ,Endpoint L1 Acceptable Latency (CS)" "0,1,2,3,4,5,6,7"
textline "                                                    "
bitfld.long 0x00 6.--8. " DEFAULT_EP_L0S_ACCPT_LATENCY ,Endpoint L0s Acceptable Latency (CS)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 5. "         EXTTAGFIELD_SUPPORT       ,Value derived from DEFAULT_EXT_TAG_FIELD_SUPPORTED" "0,1"
bitfld.long 0x00 3.--4. "     PHANTOMFUNC                 ,Phantom Function Support, NOT SUPPORTED (CS)" "0,1,2,3"
textline "                                                    "
bitfld.long 0x00 0.--2. " MAX_PAYLOAD_SIZE             ,Maximum Payload Size (CS) Read 0x1 = 256 Byte" "0,1,2,3,4,5,6,7"
group.long 0x78++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_DEV_CAS,PCIE Device Control and Status"
bitfld.long 0x00 21. " TRANS_PEND                   ,Transaction Pending" "0,1"
bitfld.long 0x00 20. "         AUXP_DET                  ,Aux Power Detected" "0,1"
bitfld.long 0x00 19. "     UR_DET                      ,Unsupported Request Detected" "0,1"
textline "                                                    "
bitfld.long 0x00 18. " FT_DET                       ,Fatal Error Detected" "0,1"
bitfld.long 0x00 17. "         NFT_DET                   ,Non-Fatal Error Detected" "0,1"
bitfld.long 0x00 16. "     COR_DET                     ,Correctable Error Detected" "0,1"
textline "                                                    "
bitfld.long 0x00 15. " INIT_FLR                     ,Reserved" "0,1"
bitfld.long 0x00 12.--14. "         MRRS                      ,Max_Read_Request_Size" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 11. "     NOSNP_EN                    ,Enable No Snoop" "0,1"
textline "                                                    "
bitfld.long 0x00 10. " AUXPM_EN                     ,AUX Power PM Enable" "0,1"
bitfld.long 0x00 9. "         PHFUN_EN                  ,Phantom Function Enable" "0,1"
bitfld.long 0x00 8. "     EXTAG_EN                    ,Extended Tag Field Enable" "0,1"
textline "                                                    "
bitfld.long 0x00 5.--7. " MPS                          ,Max_Payload_Size" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4. "         EN_RO                     ,Enable Relaxed Ordering" "0,1"
bitfld.long 0x00 3. "     UR_RE                       ,Unsupported Request Reporting Enable" "0,1"
textline "                                                    "
bitfld.long 0x00 2. " FT_RE                        ,Fatal Error Reporting Enable" "0,1"
bitfld.long 0x00 1. "         NFT_RE                    ,Non-Fatal Error Reporting Enable" "0,1"
bitfld.long 0x00 0. "     COR_RE                      ,Correctable Error Reporting Enable" "0,1"
group.long 0x7C++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_LNK_CAP,PCIE Link Capabilities"
hexmask.long.byte 0x00 24.--31. 1. " PORT_NUM                     ,Port Number (CS)"
bitfld.long 0x00 22. "        ASPM_OPT_COMP             ,ASPM Optionality Compliance (CS)" "0,1"
bitfld.long 0x00 21. "     LNK_BW_NOT_CAP              ,Link Bandwidth Notification Capability (CS)" "0,1"
textline "                                                    "
bitfld.long 0x00 20. " DLL_ACTRPT_CAP               ,Data Link Layer Active Reporting Capable" "0,1"
bitfld.long 0x00 19. "         UNSUP                     ,Unsupported, Surprise Down Error Reporting Capable, Hardwired to 0" "0,1"
bitfld.long 0x00 18. "     CLK_PWR_MGMT                ,Clock Power Management (CS)" "0,1"
textline "                                                    "
bitfld.long 0x00 15.--17. " L1_EXIT_LAT                  ,L1 Exit Latency (CS2)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "         L0S_EXIT_LAT              ,L0s Exit Latency (CS2)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 10.--11. "     AS_LINK_PM_SUPPORT          ,Active State Link PM (ASPM) Support (CS)" "0,1,2,3"
textline "                                                    "
bitfld.long 0x00 4.--9. " MAX_LINK_WIDTH               ,Max Link Width (lanes) (CS)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--3. "        MAX_LINK_SPEEDS           ,Supported Max Link Speed (CS) 0x1(R) = 2.5 GT/s (GEN1) 0x2(R) = 5 GT/s (GEN2) 0x4(R) = 8 GT/s (GEN3)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_LNK_CAS,PCIE Link Control and Status"
bitfld.long 0x00 31. " LAB_STATUS                   ,Link Autonomous Bandwidth Status" "0,1"
bitfld.long 0x00 30. "         LBW_STATUS                ,Link Bandwidth Management Status" "0,1"
bitfld.long 0x00 29. "     DLL_ACT                     ,Data Link Layer Active" "0,1"
textline "                                                    "
bitfld.long 0x00 28. " SLOT_CLK_CONFIG              ,Slot Clock Configuration (CS)" "0,1"
bitfld.long 0x00 27. "         LINK_TRAIN                ,LINK training" "0,1"
bitfld.long 0x00 26. "     UNDEF                       ,Undefined" "0,1"
textline "                                                    "
bitfld.long 0x00 20.--25. " NEG_LW                       ,Negotiated Link Width UNDEFINED UNTIL LINK IS UP." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 16.--19. "        LINK_SPEED                ,Link Speed UNDEFINED UNTIL LINK IS UP." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "    LABIE                       ,Link Autonomous Bandwidth Interrupt Enable." "0,1"
textline "                                                    "
bitfld.long 0x00 10. " LBMIE                        ,Link Bandwidth Management Interrupt Enable" "0,1"
bitfld.long 0x00 9. "         HAWD                      ,Hardware Autonomous Width Disable" "0,1"
bitfld.long 0x00 8. "     EN_CPM                      ,Enable Clock Power Management" "0,1"
textline "                                                    "
bitfld.long 0x00 7. " EXT_SYN                      ,Extended Synch" "0,1"
bitfld.long 0x00 6. "         COM_CLK_CFG               ,Common Clock Configuration" "0,1"
bitfld.long 0x00 5. "     RETRAIN_LINK                ,Retrain Link" "0,1"
textline "                                                    "
bitfld.long 0x00 4. " LINK_DIS                     ,Link Disable" "0,1"
bitfld.long 0x00 3. "         RCB                       ,Read Completion Boundary (CS) 0x0 = 64 Byte 0x1 = 128 Byte" "0,1"
bitfld.long 0x00 0.--1. "     ASPM_CTRL                   ,Active State Link PM Control 0x0: DISABLED 0x1: L0S_ENABLED 0x2: L1_ENABLED 0x3: L0S_AND_L1_ENABLED" "0,1,2,3"
rgroup.long 0x94++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_DEV_CAP_2,Device Capabilities 2 Register"
bitfld.long 0x00 12.--13. " TPHC_SP                      ,TPH Completer Supported" "0,1,2,3"
bitfld.long 0x00 10. "         NOROPR                    ,No RO-enabled PR-PR Passing" "0,1"
bitfld.long 0x00 9. "     CASC128_SP                  ,128-bit CAS Completer Supported" "0,1"
textline "                                                    "
bitfld.long 0x00 8. " AOC64_SP                     ,64-bit AtomicOp Completer Supported" "0,1"
bitfld.long 0x00 7. "         AOC32_SP                  ,32-bit AtomicOp Completer Supported" "0,1"
bitfld.long 0x00 6. "     AOR_SP                      ,AtomicOp Routing Supported" "0,1"
textline "                                                    "
bitfld.long 0x00 5. " ARI_FWD_SP                   ,ARI Forwarding Supported" "0,1"
bitfld.long 0x00 4. "         CPL_TIMEOUT_DIS_SUPPORTED ,Completion Timeout Disable Supported" "0,1"
bitfld.long 0x00 0.--3. "     CPL_TIMEOUT_RNG_SUPPORTED   ,Completion Timeout Ranges Supported" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x98++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_DEV_CAS_2,Device Control 2 Register"
bitfld.long 0x00 13.--14. " OBFF_EN                      ,OBFF Enable" "0,1,2,3"
bitfld.long 0x00 10. "         LTR_EN                    ,LTR Mechanism Enable" "0,1"
bitfld.long 0x00 9. "     IDO_CPL_EN                  ,IDO Completion Enable" "0,1"
textline "                                                    "
bitfld.long 0x00 8. " IDO_REQ_EN                   ,IDO Request Enable" "0,1"
bitfld.long 0x00 7. "         AOP_EG_BLK                ,AtomicOp Egress Blocking" "0,1"
bitfld.long 0x00 6. "     AOP_REQ_EN                  ,AtomicOp Requester Enable" "0,1"
textline "                                                    "
bitfld.long 0x00 5. " ARI_FWD_SP                   ,ARI Forwarding Supported" "0,1"
bitfld.long 0x00 4. "         CPL_TIMEOUT_DIS           ,Completion Timeout Disable" "0,1"
bitfld.long 0x00 0.--3. "     CPL_TIMEOUT_VALUE           ,Completion Timeout Values" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x9C++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_LNK_CAP_2,PCIE Link Capabilities 2 Register"
bitfld.long 0x00 8. " CROSSLINK_SP                 ,Crosslink Supported" "0,1"
hexmask.long.byte 0x00 1.--7. 1. "         SP_LS_VEC                 ,Supported Link Speeds Vector"
group.long 0xA0++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_LNK_CAS_2,Link Control and Status 2 Register"
eventfld.long 0x00 21. " LINK_EQ_REQ                  ,Link Equilization Request" "0,1"
bitfld.long 0x00 20. "         EQ_PH3                    ,Equalization Ph3 Success, Gen3 Only" "0,1"
bitfld.long 0x00 19. "     EQ_PH2                      ,Equalization Ph2 Success, Gen3 Only" "0,1"
textline "                                                    "
bitfld.long 0x00 18. " EQ_PH1                       ,Equalization Ph1 Success, Gen3 Only" "0,1"
bitfld.long 0x00 17. "         EQ_COMPLETE               ,Equalization Complete, Gen3 Only" "0,1"
bitfld.long 0x00 16. "     DEEMPH_LEVEL                ,Current De-emphasis Level" "0,1"
textline "                                                    "
bitfld.long 0x00 12.--15. " COMPL_PRST_DEEPH             ,Compliance Pre-set/ De-emphasis" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "        COMPL_SOS                 ,Compliance SOS" "0,1"
bitfld.long 0x00 10. "     ENT_MOD_COMPL               ,Enter Modified Compliance" "0,1"
textline "                                                    "
bitfld.long 0x00 7.--9. " TX_MARGIN                    ,Transmit Margin" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6. "         SEL_DEEMP                 ,Selectable De-emphasize" "0,1"
bitfld.long 0x00 5. "     HW_AUTO_SP_DIS              ,Hardware Autonomous Speed Disable" "0,1"
textline "                                                    "
bitfld.long 0x00 4. " ENTR_COMPL                   ,Enter Compliance" "0,1"
bitfld.long 0x00 0.--3. "         TRGT_LINK_SPEED           ,Target Link Speed" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree "PCIe_SS2_EP_CFG_DBICS"
base ad:0x51800000
width 43.
group.long 0x0++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_DEVICE_VENDORID,Device and Vendor ID"
hexmask.long.word 0x00 16.--31. 1. " DEVICEID                     ,Device ID (CS)"
hexmask.long.word 0x00 0.--15. 1. "      VENDORID                  ,Vendor ID (CS)"
group.long 0x4++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_STATUS_COMMAND_REGISTER,Status and Command registers"
bitfld.long 0x00 31. " DETECT_PARERR                ,Detected Parity Error" "0,1"
bitfld.long 0x00 30. "         SIGNAL_SYSERR             ,Signaled System Error" "0,1"
bitfld.long 0x00 29. "     RCVD_MASTERABORT            ,Received Master Abort" "0,1"
textline "                                                    "
bitfld.long 0x00 28. " RCVD_TRGTABORT               ,Received Target Abort" "0,1"
bitfld.long 0x00 27. "         SIGNAL_TRGTABORT          ,Signaled Target Abort" "0,1"
bitfld.long 0x00 25.--26. "     DEVSEL_TIME                 ,DevSel Timing, Harsdwired to 0 for PCIExpress" "0,1,2,3"
textline "                                                    "
bitfld.long 0x00 24. " MASTERDATA_PARERR            ,Master Data Parity Error" "0,1"
bitfld.long 0x00 23. "         FAST_B2B                  ,Back to Back Capable, Harsdwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 21. "     C66MHZ_CAP                  ,66MHz Capable, Harsdwired to 0 for PCIExpress" "0,1"
textline "                                                    "
bitfld.long 0x00 20. " CAP_LIST                     ,Capabilities List Hardwired to 1" "0,1"
bitfld.long 0x00 19. "         INTX_STATUS               ,INTx Status" "0,1"
bitfld.long 0x00 10. "     INTX_ASSER_DIS              ,INTx Assertion Disable" "0,1"
textline "                                                    "
bitfld.long 0x00 9. " FAST_BBEN                    ,Bit hardwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 8. "         SERR_EN                   ,SERR Enable" "0,1"
bitfld.long 0x00 7. "     IDSEL_CTRL                  ,Bit hardwired to 0 for PCIExpress" "0,1"
textline "                                                    "
bitfld.long 0x00 6. " PARITYERRRESP                ,Parity Error Response" "0,1"
bitfld.long 0x00 5. "         VGA_SNOOP                 ,Not Applicable forPCI Express Bit hardwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 4. "     MEMWR_INVA                  ,Not Applicable for PCI Express Bit hardwired to 0 for PCIExpress" "0,1"
textline "                                                    "
bitfld.long 0x00 3. " SPEC_CYCLE_EN                ,Not Applicable for PCI Express Bit hardwired to 0 for PCIExpress" "0,1"
bitfld.long 0x00 2. "         BUSMASTER_EN              ,Bus Master Enable" "0,1"
bitfld.long 0x00 1. "     MEM_SPACE_EN                ,Memory Space Enable" "0,1"
textline "                                                    "
bitfld.long 0x00 0. " IO_SPACE_EN                  ,IO Space Enable" "0,1"
group.long 0x8++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_CLASSCODE_REVISIONID,Class code and Revision ID"
hexmask.long.byte 0x00 24.--31. 1. " BASE_CLS_CD                  ,Base Class Code (CS)"
hexmask.long.byte 0x00 16.--23. 1. "        SUBCLS_CD                 ,Sub Class Code (CS)"
hexmask.long.byte 0x00 8.--15. 1. "    PROG_IF_CODE                ,Programming Interface Code (CS)"
textline "                                                    "
hexmask.long.byte 0x00 0.--7. 1. " REVID                        ,Revision ID (CS)"
group.long 0xC++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_BIST_HEAD_LAT_CACH,BIST, Header Type, Latency Timer, Cache Line Size"
hexmask.long.byte 0x00 24.--31. 1. " BIST                         ,BIST"
bitfld.long 0x00 23. "        MFD                       ,MultiFunction Device" "0,1"
hexmask.long.byte 0x00 16.--22. 1. "     HEAD_TYP                    ,Header Type 0x0 = EP header 0x1 = RC header"
textline "                                                    "
hexmask.long.byte 0x00 8.--15. 1. " MSTR_LAT_TIM                 ,Master Latency Timer, Not Applicable for PCIe hence hardwired to 0"
hexmask.long.byte 0x00 0.--7. 1. "        CACH_LN_SZE               ,Cache Line Size, No impact on write, write is allowed only for legacy purpose"
group.long 0x10++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_BAR0,Base Address Register 0 Bit #0 is also a WO BAR enable (CS2) BAR Mask is writable (CS2)"
hexmask.long.word 0x00 20.--31. 1. " BASE_ADDR_RW                 ,Base address bits (for a 64-bit BAR, upper base address bits are in BAR above) Unmasked MSBs, as set by BAR mask"
hexmask.long.word 0x00 4.--19. 1. "      BASE_ADDR_RO              ,Base address bits (for a 64-bit BAR, upper base address bits are in BAR above) Masked LSBs, as set by BAR mask"
bitfld.long 0x00 3. "  PREFETCHABLE                ,MEM BAR: Prefetchable (CS) I/O BAR: bit 1 is part of I/O address" "0,1"
textline "                                                    "
bitfld.long 0x00 1.--2. " AS                           ,MEM BAR: Address Size (CS) I/O BAR: bit 0 is always 0, bit 1 is LSBit of I/O address Read 0x0 = 32 Bit Read 0x2 = 64 Bit" "0,1,2,3"
bitfld.long 0x00 0. "         SPACE_INDICATOR           ,BAR I/O vs memory space indicator (CS) 0x0(R) = BAR type is Memory 0x1(R) = BAR type is I/O" "0,1"
group.long 0x14++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_BAR1,Base Address Register 1 If BAR0.AS = 64-bit: upper half of BAR0 base address If BAR0.AS = 32-bit: independent 32-bit BAR Bit #0 is also a WO BAR enable (CS2) BAR Mask is writable (CS2)"
hexmask.long.word 0x00 20.--31. 1. " BASE_ADDR_RW                 ,Base address bits (for a 64-bit BAR, lower base address bits are in BAR below) Unmasked MSBs, as set by BAR mask"
hexmask.long.word 0x00 4.--19. 1. "      BASE_ADDR_RO              ,Base address bits (for a 64-bit BAR, lower base address bits are in BAR below) Masked LSBs, as set by BAR mask"
bitfld.long 0x00 3. "  PREFETCHABLE                ,MEM BAR: Prefetchable (CS) I/O BAR: bit 1 is part of I/O address" "0,1"
textline "                                                    "
bitfld.long 0x00 1.--2. " AS                           ,MEM BAR: Address Size (CS) I/O BAR: bit 0 is always 0, bit 1 is LSBit of I/O address Read 0x0 = 32 Bit Read 0x2 = 64 Bit" "0,1,2,3"
bitfld.long 0x00 0. "         SPACE_INDICATOR           ,BAR I/O vs memory space indicator (CS) 0x0(R) = BAR type is Memory 0x1(R) = BAR type is I/O" "0,1"
group.long 0x18++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_BAR2,Base Address Register 2 Bit #0 is also a WO BAR enable (CS2) BAR Mask is writable (CS2)"
hexmask.long.word 0x00 20.--31. 1. " BASE_ADDR_RW                 ,Base address bits (for a 64-bit BAR, upper base address bits are in BAR above) Unmasked MSBs, as set by BAR mask"
hexmask.long.word 0x00 4.--19. 1. "      BASE_ADDR_RO              ,Base address bits (for a 64-bit BAR, upper base address bits are in BAR above) Masked LSBs, as set by BAR mask"
bitfld.long 0x00 3. "  PREFETCHABLE                ,MEM BAR: Prefetchable (CS) I/O BAR: bit 1 is part of I/O address" "0,1"
textline "                                                    "
bitfld.long 0x00 1.--2. " AS                           ,MEM BAR: Address Size (CS) I/O BAR: bit 0 is always 0, bit 1 is LSBit of I/O address Read 0x0 = 32 Bit Read 0x2 = 64 Bit" "0,1,2,3"
bitfld.long 0x00 0. "         SPACE_INDICATOR           ,BAR I/O vs memory space indicator (CS) 0x0(R) = BAR type is Memory 0x1(R) = BAR type is I/O" "0,1"
group.long 0x1C++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_BAR3,Base Address Register 3 If BAR2.AS = 64-bit: upper half of BAR2 base address If BAR2.AS = 32-bit: independent 32-bit BAR Bit #0 is also a WO BAR enable (CS2) BAR Mask is writable (CS2)"
hexmask.long.word 0x00 20.--31. 1. " BASE_ADDR_RW                 ,Base address bits (for a 64-bit BAR, lower base address bits are in BAR below) Unmasked MSBs, as set by BAR mask"
hexmask.long.word 0x00 4.--19. 1. "      BASE_ADDR_RO              ,Base address bits (for a 64-bit BAR, lower base address bits are in BAR below) Masked LSBs, as set by BAR mask"
bitfld.long 0x00 3. "  PREFETCHABLE                ,MEM BAR: Prefetchable (CS) I/O BAR: bit 1 is part of I/O address" "0,1"
textline "                                                    "
bitfld.long 0x00 1.--2. " AS                           ,MEM BAR: Address Size (CS) I/O BAR: bit 0 is always 0, bit 1 is LSBit of I/O address Read 0x0 = 32 Bit Read 0x2 = 64 Bit" "0,1,2,3"
bitfld.long 0x00 0. "         SPACE_INDICATOR           ,BAR I/O vs memory space indicator (CS) 0x0(R) = BAR type is Memory 0x1(R) = BAR type is I/O" "0,1"
group.long 0x20++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_BAR4,Base Address Register 4 Bit #0 is also a WO BAR enable (CS2) BAR Mask is writable (CS2)"
hexmask.long.tbyte 0x00 12.--31. 1. " BASE_ADDR_RW                 ,Base address bits (for a 64-bit BAR, upper base address bits are in BAR above) Unmasked MSBs, as set by BAR mask"
hexmask.long.byte 0x00 4.--11. 1. "    BASE_ADDR_RO              ,Base address bits (for a 64-bit BAR, upper base address bits are in BAR above) Masked LSBs, as set by BAR mask"
bitfld.long 0x00 3. "    PREFETCHABLE                ,MEM BAR: Prefetchable (CS) I/O BAR: bit 1 is part of I/O address" "0,1"
textline "                                                    "
bitfld.long 0x00 1.--2. " AS                           ,MEM BAR: Address Size (CS) I/O BAR: bit 0 is always 0, bit 1 is LSBit of I/O address Read 0x0 = 32 Bit Read 0x2 = 64 Bit" "0,1,2,3"
bitfld.long 0x00 0. "         SPACE_INDICATOR           ,BAR I/O vs memory space indicator (CS) 0x0(R) = BAR type is Memory 0x1(R) = BAR type is I/O" "0,1"
group.long 0x24++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_BAR5,Base Address Register 5 If BAR4.AS = 64-bit: upper half of BAR4 base address If BAR4.AS = 32-bit: independent 32-bit BAR Bit #0 is also a WO BAR enable (CS2) BAR Mask is writable (CS2)"
hexmask.long.word 0x00 20.--31. 1. " BASE_ADDR_RW                 ,Base address bits (for a 64-bit BAR, lower base address bits are in BAR below) Unmasked MSBs, as set by BAR mask"
hexmask.long.word 0x00 4.--19. 1. "      BASE_ADDR_RO              ,Base address bits (for a 64-bit BAR, lower base address bits are in BAR below) Masked LSBs, as set by BAR mask"
bitfld.long 0x00 3. "  PREFETCHABLE                ,MEM BAR: Prefetchable (CS) I/O BAR: bit 1 is part of I/O address" "0,1"
textline "                                                    "
bitfld.long 0x00 1.--2. " AS                           ,MEM BAR: Address Size (CS) I/O BAR: bit 0 is always 0, bit 1 is LSBit of I/O address Read 0x0 = 32 Bit Read 0x2 = 64 Bit" "0,1,2,3"
bitfld.long 0x00 0. "         SPACE_INDICATOR           ,BAR I/O vs memory space indicator (CS) 0x0(R) = BAR type is Memory 0x1(R) = BAR type is I/O" "0,1"
group.long 0x28++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_CARDBUS_CIS_POINTER,"
hexmask.long 0x00 0.--31. 1. " CARDBUS_CIS_PTR_N            ,Cardbus CIS pointer (CS)"
group.long 0x2C++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_SUBID_SUBVENDORID,"
hexmask.long.word 0x00 16.--31. 1. " SUBSYS_DEV_ID_N              ,Subsystem ID (CS)"
hexmask.long.word 0x00 0.--15. 1. "      SUBSYS_VENDOR_ID_N        ,Subsystem Vendor ID (CS)"
group.long 0x30++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_EXPANSION_ROM_BAR,Expansion ROM Base Address Register"
hexmask.long.word 0x00 16.--31. 1. " EXROM_ADDRESS                ,Expansion ROM address, unmasked (ie programmable)"
bitfld.long 0x00 11.--15. "      EXROM_ADDRESS_RO          ,Expansion ROM address, masked." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0. "    EXROM_EN                    ,Expansion ROM Enable" "0,1"
group.long 0x34++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_CAPPTR,CapPtr"
hexmask.long.byte 0x00 0.--7. 1. " CAPTR                        ,First Capability Pointer (CS)"
group.long 0x3C++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_INTERRUPT,Int Pin and line"
hexmask.long.byte 0x00 8.--15. 1. " INT_PIN                      ,Interrupt Pin (CS)"
hexmask.long.byte 0x00 0.--7. 1. "        INT_LIN                   ,Interrupt Line"
group.long 0x40++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_PM_CAP,Power Management Capability structure header"
bitfld.long 0x00 27.--31. " PME_SP                       ,PME Support (CS); Power states from which PME messages can be sent (active hi, one bit per state) Bit 0: from D0 Bit 1: from D1 Bit 2: from D2 Bit 3: from D3hot Bit 4: from D3cold (if Vaux present)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 26. "        D2_SP                     ,D2 Support (CS)" "0,1"
bitfld.long 0x00 25. "     D1_SP                       ,D1 Support (CS)" "0,1"
textline "                                                    "
bitfld.long 0x00 22.--24. " AUX_CUR                      ,AUX Current (CS)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 21. "         DSI                       ,Device Specific Initialization (CS)" "0,1"
bitfld.long 0x00 19. "     PME_CLK                     ,PME Clock, hardwired to 0 (CS)" "0,1"
textline "                                                    "
bitfld.long 0x00 16.--18. " PMC_VER                      ,Power Management specification version (CS)" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 8.--15. 1. "         PM_NX_PTR                 ,Next Capability Pointer (CS)"
hexmask.long.byte 0x00 0.--7. 1. "    CAP_ID                      ,Capability ID - ."
group.long 0x44++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_PM_CSR,Power Management Control and Status Register"
hexmask.long.byte 0x00 24.--31. 1. " DATA1                        ,Data register for additional information(not supported)"
bitfld.long 0x00 23. "        BP_CCE                    ,Bus Power/Clock Control Enable, hardwired to 0" "0,1"
bitfld.long 0x00 22. "     B2B3_SP                     ,B2/B3 Support, hardwired to 0" "0,1"
textline "                                                    "
eventfld.long 0x00 15. " PME_STATUS                   ,PME Status (Sticky bit)" "0,1"
bitfld.long 0x00 13.--14. "         DATA_SCALE                ,Data Scale (not supported)" "0,1,2,3"
bitfld.long 0x00 9.--12. "     DATA_SEL                    ,Data Select (not supported)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                                    "
bitfld.long 0x00 8. " PME_EN                       ,PME Enable (Sticky bit) - . - ." "0,1"
bitfld.long 0x00 3. "         NSR                       ,No Soft Reset (CS)" "0,1"
bitfld.long 0x00 0.--1. "     PM_STATE                    ,Power Management Control and Status Register - . - . - . - ." "D0_state,D1_state,D2_state,D3_state"
group.long 0x50++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_MSI_CAP,Message Signaled Interrupt Capability structure header"
bitfld.long 0x00 24. " PVM_EN                       ,MSI Per Vector Masking (PVM) supported" "0,1"
bitfld.long 0x00 23. "         MSI_64_EN                 ,64-bit Address Capable (CS)" "0,1"
bitfld.long 0x00 20.--22. "     MME                         ,Multiple Message Enable" "0,1,2,3,4,5,6,7"
textline "                                                    "
bitfld.long 0x00 17.--19. " MMC                          ,Multiple Message Capable (CS)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 16. "         MSI_EN                    ,MSI Enable" "0,1"
hexmask.long.byte 0x00 8.--15. 1. "     MSI_NX_PTR                  ,Next Capability Pointer (CS)"
textline "                                                    "
hexmask.long.byte 0x00 0.--7. 1. " CAP_ID                       ,MSI Capability ID Read 0x05 MSI"
group.long 0x54++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_MSI_ADD_L32,PCIe memory space address of MSI write TLP request, lower 32 bits."
hexmask.long 0x00 2.--31. 1. " ADDR                         ,Lower 32-bit address (DWORD aligned)"
group.long 0x58++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_MSI_ADD_U32,PCIe memory space address of MSI write TLP request, upper 32 bits (used if MSI_64_EN = 1)."
hexmask.long 0x00 0.--31. 1. " ADDR                         ,Upper 32-bit address"
group.long 0x5C++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_MSI_DATA,Data of MSI write TLP request (modified for multiple vectors)"
hexmask.long.word 0x00 0.--15. 1. " DATA                         ,MSI data"
group.long 0x70++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_PCIE_CAP,PCIE cap structure"
bitfld.long 0x00 25.--29. " IM_NUM                       ,Interrupt Message Number (CS)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 24. "        SLOT                      ,Slot Implemented Must be 0 for an endpoint" "0,1"
bitfld.long 0x00 20.--23. "     DEV_TYPE                    ,Device/Port Type Value depends on assigned type 0x0 = PCIe endpoint 0x1 = Legacy PCIe endpoint" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                                    "
bitfld.long 0x00 16.--19. " PCIE_VER                     ,PCI Express Capability Version" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 8.--15. 1. "        PCIE_NX_PTR               ,Next Capability Pointer (CS)"
hexmask.long.byte 0x00 0.--7. 1. "    CAP_ID                      ,Capability ID"
group.long 0x74++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_DEV_CAP,PCIE Device Capabilities"
bitfld.long 0x00 28. " FLR_EN                       ,Function Level Reset Capability (CS)" "0,1"
bitfld.long 0x00 26.--27. "         CAPT_SLOW_PWRLIMIT_SCALE  ,Captured Slow Power Scale Value (CS)" "0,1,2,3"
hexmask.long.byte 0x00 18.--25. 1. "     CAPT_SLOW_PWRLIMIT_VALUE    ,Captured Slow Power Limit Value (CS)"
textline "                                                    "
bitfld.long 0x00 15. " ROLEBASED_ERRRPT             ,Role Based Error Reporting (CS)" "0,1"
bitfld.long 0x00 12.--14. "         UNDEFINED                 ,Undefined from PCIe 1.1 onwards (CS)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 9.--11. "     DEFAULT_EP_L1_ACCPT_LATENCY ,Endpoint L1 Acceptable Latency (CS)" "0,1,2,3,4,5,6,7"
textline "                                                    "
bitfld.long 0x00 6.--8. " DEFAULT_EP_L0S_ACCPT_LATENCY ,Endpoint L0s Acceptable Latency (CS)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 5. "         EXTTAGFIELD_SUPPORT       ,Value derived from DEFAULT_EXT_TAG_FIELD_SUPPORTED" "0,1"
bitfld.long 0x00 3.--4. "     PHANTOMFUNC                 ,Phantom Function Support, NOT SUPPORTED (CS)" "0,1,2,3"
textline "                                                    "
bitfld.long 0x00 0.--2. " MAX_PAYLOAD_SIZE             ,Maximum Payload Size (CS) Read 0x1 = 256 Byte" "0,1,2,3,4,5,6,7"
group.long 0x78++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_DEV_CAS,PCIE Device Control and Status"
bitfld.long 0x00 21. " TRANS_PEND                   ,Transaction Pending" "0,1"
bitfld.long 0x00 20. "         AUXP_DET                  ,Aux Power Detected" "0,1"
bitfld.long 0x00 19. "     UR_DET                      ,Unsupported Request Detected" "0,1"
textline "                                                    "
bitfld.long 0x00 18. " FT_DET                       ,Fatal Error Detected" "0,1"
bitfld.long 0x00 17. "         NFT_DET                   ,Non-Fatal Error Detected" "0,1"
bitfld.long 0x00 16. "     COR_DET                     ,Correctable Error Detected" "0,1"
textline "                                                    "
bitfld.long 0x00 15. " INIT_FLR                     ,Reserved" "0,1"
bitfld.long 0x00 12.--14. "         MRRS                      ,Max_Read_Request_Size" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 11. "     NOSNP_EN                    ,Enable No Snoop" "0,1"
textline "                                                    "
bitfld.long 0x00 10. " AUXPM_EN                     ,AUX Power PM Enable" "0,1"
bitfld.long 0x00 9. "         PHFUN_EN                  ,Phantom Function Enable" "0,1"
bitfld.long 0x00 8. "     EXTAG_EN                    ,Extended Tag Field Enable" "0,1"
textline "                                                    "
bitfld.long 0x00 5.--7. " MPS                          ,Max_Payload_Size" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4. "         EN_RO                     ,Enable Relaxed Ordering" "0,1"
bitfld.long 0x00 3. "     UR_RE                       ,Unsupported Request Reporting Enable" "0,1"
textline "                                                    "
bitfld.long 0x00 2. " FT_RE                        ,Fatal Error Reporting Enable" "0,1"
bitfld.long 0x00 1. "         NFT_RE                    ,Non-Fatal Error Reporting Enable" "0,1"
bitfld.long 0x00 0. "     COR_RE                      ,Correctable Error Reporting Enable" "0,1"
group.long 0x7C++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_LNK_CAP,PCIE Link Capabilities"
hexmask.long.byte 0x00 24.--31. 1. " PORT_NUM                     ,Port Number (CS)"
bitfld.long 0x00 22. "        ASPM_OPT_COMP             ,ASPM Optionality Compliance (CS)" "0,1"
bitfld.long 0x00 21. "     LNK_BW_NOT_CAP              ,Link Bandwidth Notification Capability (CS)" "0,1"
textline "                                                    "
bitfld.long 0x00 20. " DLL_ACTRPT_CAP               ,Data Link Layer Active Reporting Capable" "0,1"
bitfld.long 0x00 19. "         UNSUP                     ,Unsupported, Surprise Down Error Reporting Capable, Hardwired to 0" "0,1"
bitfld.long 0x00 18. "     CLK_PWR_MGMT                ,Clock Power Management (CS)" "0,1"
textline "                                                    "
bitfld.long 0x00 15.--17. " L1_EXIT_LAT                  ,L1 Exit Latency (CS2)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "         L0S_EXIT_LAT              ,L0s Exit Latency (CS2)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 10.--11. "     AS_LINK_PM_SUPPORT          ,Active State Link PM (ASPM) Support (CS)" "0,1,2,3"
textline "                                                    "
bitfld.long 0x00 4.--9. " MAX_LINK_WIDTH               ,Max Link Width (lanes) (CS)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--3. "        MAX_LINK_SPEEDS           ,Supported Max Link Speed (CS) 0x1(R) = 2.5 GT/s (GEN1) 0x2(R) = 5 GT/s (GEN2) 0x4(R) = 8 GT/s (GEN3)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_LNK_CAS,PCIE Link Control and Status"
bitfld.long 0x00 31. " LAB_STATUS                   ,Link Autonomous Bandwidth Status" "0,1"
bitfld.long 0x00 30. "         LBW_STATUS                ,Link Bandwidth Management Status" "0,1"
bitfld.long 0x00 29. "     DLL_ACT                     ,Data Link Layer Active" "0,1"
textline "                                                    "
bitfld.long 0x00 28. " SLOT_CLK_CONFIG              ,Slot Clock Configuration (CS)" "0,1"
bitfld.long 0x00 27. "         LINK_TRAIN                ,LINK training" "0,1"
bitfld.long 0x00 26. "     UNDEF                       ,Undefined" "0,1"
textline "                                                    "
bitfld.long 0x00 20.--25. " NEG_LW                       ,Negotiated Link Width UNDEFINED UNTIL LINK IS UP." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 16.--19. "        LINK_SPEED                ,Link Speed UNDEFINED UNTIL LINK IS UP." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "    LABIE                       ,Link Autonomous Bandwidth Interrupt Enable." "0,1"
textline "                                                    "
bitfld.long 0x00 10. " LBMIE                        ,Link Bandwidth Management Interrupt Enable" "0,1"
bitfld.long 0x00 9. "         HAWD                      ,Hardware Autonomous Width Disable" "0,1"
bitfld.long 0x00 8. "     EN_CPM                      ,Enable Clock Power Management" "0,1"
textline "                                                    "
bitfld.long 0x00 7. " EXT_SYN                      ,Extended Synch" "0,1"
bitfld.long 0x00 6. "         COM_CLK_CFG               ,Common Clock Configuration" "0,1"
bitfld.long 0x00 5. "     RETRAIN_LINK                ,Retrain Link" "0,1"
textline "                                                    "
bitfld.long 0x00 4. " LINK_DIS                     ,Link Disable" "0,1"
bitfld.long 0x00 3. "         RCB                       ,Read Completion Boundary (CS) 0x0 = 64 Byte 0x1 = 128 Byte" "0,1"
bitfld.long 0x00 0.--1. "     ASPM_CTRL                   ,Active State Link PM Control 0x0: DISABLED 0x1: L0S_ENABLED 0x2: L1_ENABLED 0x3: L0S_AND_L1_ENABLED" "0,1,2,3"
rgroup.long 0x94++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_DEV_CAP_2,Device Capabilities 2 Register"
bitfld.long 0x00 12.--13. " TPHC_SP                      ,TPH Completer Supported" "0,1,2,3"
bitfld.long 0x00 10. "         NOROPR                    ,No RO-enabled PR-PR Passing" "0,1"
bitfld.long 0x00 9. "     CASC128_SP                  ,128-bit CAS Completer Supported" "0,1"
textline "                                                    "
bitfld.long 0x00 8. " AOC64_SP                     ,64-bit AtomicOp Completer Supported" "0,1"
bitfld.long 0x00 7. "         AOC32_SP                  ,32-bit AtomicOp Completer Supported" "0,1"
bitfld.long 0x00 6. "     AOR_SP                      ,AtomicOp Routing Supported" "0,1"
textline "                                                    "
bitfld.long 0x00 5. " ARI_FWD_SP                   ,ARI Forwarding Supported" "0,1"
bitfld.long 0x00 4. "         CPL_TIMEOUT_DIS_SUPPORTED ,Completion Timeout Disable Supported" "0,1"
bitfld.long 0x00 0.--3. "     CPL_TIMEOUT_RNG_SUPPORTED   ,Completion Timeout Ranges Supported" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x98++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_DEV_CAS_2,Device Control 2 Register"
bitfld.long 0x00 13.--14. " OBFF_EN                      ,OBFF Enable" "0,1,2,3"
bitfld.long 0x00 10. "         LTR_EN                    ,LTR Mechanism Enable" "0,1"
bitfld.long 0x00 9. "     IDO_CPL_EN                  ,IDO Completion Enable" "0,1"
textline "                                                    "
bitfld.long 0x00 8. " IDO_REQ_EN                   ,IDO Request Enable" "0,1"
bitfld.long 0x00 7. "         AOP_EG_BLK                ,AtomicOp Egress Blocking" "0,1"
bitfld.long 0x00 6. "     AOP_REQ_EN                  ,AtomicOp Requester Enable" "0,1"
textline "                                                    "
bitfld.long 0x00 5. " ARI_FWD_SP                   ,ARI Forwarding Supported" "0,1"
bitfld.long 0x00 4. "         CPL_TIMEOUT_DIS           ,Completion Timeout Disable" "0,1"
bitfld.long 0x00 0.--3. "     CPL_TIMEOUT_VALUE           ,Completion Timeout Values" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x9C++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_LNK_CAP_2,PCIE Link Capabilities 2 Register"
bitfld.long 0x00 8. " CROSSLINK_SP                 ,Crosslink Supported" "0,1"
hexmask.long.byte 0x00 1.--7. 1. "         SP_LS_VEC                 ,Supported Link Speeds Vector"
group.long 0xA0++0x3
line.long 0x00 "PCIECTRL_EP_DBICS_LNK_CAS_2,Link Control and Status 2 Register"
eventfld.long 0x00 21. " LINK_EQ_REQ                  ,Link Equilization Request" "0,1"
bitfld.long 0x00 20. "         EQ_PH3                    ,Equalization Ph3 Success, Gen3 Only" "0,1"
bitfld.long 0x00 19. "     EQ_PH2                      ,Equalization Ph2 Success, Gen3 Only" "0,1"
textline "                                                    "
bitfld.long 0x00 18. " EQ_PH1                       ,Equalization Ph1 Success, Gen3 Only" "0,1"
bitfld.long 0x00 17. "         EQ_COMPLETE               ,Equalization Complete, Gen3 Only" "0,1"
bitfld.long 0x00 16. "     DEEMPH_LEVEL                ,Current De-emphasis Level" "0,1"
textline "                                                    "
bitfld.long 0x00 12.--15. " COMPL_PRST_DEEPH             ,Compliance Pre-set/ De-emphasis" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 11. "        COMPL_SOS                 ,Compliance SOS" "0,1"
bitfld.long 0x00 10. "     ENT_MOD_COMPL               ,Enter Modified Compliance" "0,1"
textline "                                                    "
bitfld.long 0x00 7.--9. " TX_MARGIN                    ,Transmit Margin" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6. "         SEL_DEEMP                 ,Selectable De-emphasize" "0,1"
bitfld.long 0x00 5. "     HW_AUTO_SP_DIS              ,Hardware Autonomous Speed Disable" "0,1"
textline "                                                    "
bitfld.long 0x00 4. " ENTR_COMPL                   ,Enter Compliance" "0,1"
bitfld.long 0x00 0.--3. "         TRGT_LINK_SPEED           ,Target Link Speed" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree.end
tree.open "PCIe_SS1_PL_CONF"
tree "PCIe_SS1_PL_CONF"
base ad:0x51000700
tree "Channel_0"
width 37.
group.long 0x128++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_ENABLE_N_0,MSI Controller Interrupt #N Enable Register (RC-mode MSI receiver) with N = MSI data [7:5] and ENABLE[i] = enable MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_ENABLE ,Status of an enabled bit (vectors) is set upon incoming MSI."
group.long 0x12C++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_MASK_N_0,MSI Controller Interrupt #N Mask Register (RC-mode MSI receiver) with N = MSI data [7:5] and MASK[i] = mask of MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_MASK   ,Status of a masked bit (vector) triggers no IRQ to MPU when set."
group.long 0x130++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_STATUS_N_0,MSI Controller Interrupt #N Status Register (RC-mode MSI receiver) with N = MSI data [7:5] and STATUS[i] = status of MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_STATUS ,Status of an enabled bit (vectors) is set upon incoming MSI."
tree.end
tree "Channel_1"
width 37.
group.long 0x134++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_ENABLE_N_1,MSI Controller Interrupt #N Enable Register (RC-mode MSI receiver) with N = MSI data [7:5] and ENABLE[i] = enable MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_ENABLE ,Status of an enabled bit (vectors) is set upon incoming MSI."
group.long 0x138++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_MASK_N_1,MSI Controller Interrupt #N Mask Register (RC-mode MSI receiver) with N = MSI data [7:5] and MASK[i] = mask of MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_MASK   ,Status of a masked bit (vector) triggers no IRQ to MPU when set."
group.long 0x13C++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_STATUS_N_1,MSI Controller Interrupt #N Status Register (RC-mode MSI receiver) with N = MSI data [7:5] and STATUS[i] = status of MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_STATUS ,Status of an enabled bit (vectors) is set upon incoming MSI."
tree.end
tree "Channel_2"
width 37.
group.long 0x140++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_ENABLE_N_2,MSI Controller Interrupt #N Enable Register (RC-mode MSI receiver) with N = MSI data [7:5] and ENABLE[i] = enable MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_ENABLE ,Status of an enabled bit (vectors) is set upon incoming MSI."
group.long 0x144++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_MASK_N_2,MSI Controller Interrupt #N Mask Register (RC-mode MSI receiver) with N = MSI data [7:5] and MASK[i] = mask of MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_MASK   ,Status of a masked bit (vector) triggers no IRQ to MPU when set."
group.long 0x148++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_STATUS_N_2,MSI Controller Interrupt #N Status Register (RC-mode MSI receiver) with N = MSI data [7:5] and STATUS[i] = status of MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_STATUS ,Status of an enabled bit (vectors) is set upon incoming MSI."
tree.end
tree "Channel_3"
width 37.
group.long 0x14C++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_ENABLE_N_3,MSI Controller Interrupt #N Enable Register (RC-mode MSI receiver) with N = MSI data [7:5] and ENABLE[i] = enable MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_ENABLE ,Status of an enabled bit (vectors) is set upon incoming MSI."
group.long 0x150++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_MASK_N_3,MSI Controller Interrupt #N Mask Register (RC-mode MSI receiver) with N = MSI data [7:5] and MASK[i] = mask of MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_MASK   ,Status of a masked bit (vector) triggers no IRQ to MPU when set."
group.long 0x154++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_STATUS_N_3,MSI Controller Interrupt #N Status Register (RC-mode MSI receiver) with N = MSI data [7:5] and STATUS[i] = status of MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_STATUS ,Status of an enabled bit (vectors) is set upon incoming MSI."
tree.end
tree "Channel_4"
width 37.
group.long 0x158++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_ENABLE_N_4,MSI Controller Interrupt #N Enable Register (RC-mode MSI receiver) with N = MSI data [7:5] and ENABLE[i] = enable MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_ENABLE ,Status of an enabled bit (vectors) is set upon incoming MSI."
group.long 0x15C++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_MASK_N_4,MSI Controller Interrupt #N Mask Register (RC-mode MSI receiver) with N = MSI data [7:5] and MASK[i] = mask of MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_MASK   ,Status of a masked bit (vector) triggers no IRQ to MPU when set."
group.long 0x160++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_STATUS_N_4,MSI Controller Interrupt #N Status Register (RC-mode MSI receiver) with N = MSI data [7:5] and STATUS[i] = status of MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_STATUS ,Status of an enabled bit (vectors) is set upon incoming MSI."
tree.end
tree "Channel_5"
width 37.
group.long 0x164++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_ENABLE_N_5,MSI Controller Interrupt #N Enable Register (RC-mode MSI receiver) with N = MSI data [7:5] and ENABLE[i] = enable MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_ENABLE ,Status of an enabled bit (vectors) is set upon incoming MSI."
group.long 0x168++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_MASK_N_5,MSI Controller Interrupt #N Mask Register (RC-mode MSI receiver) with N = MSI data [7:5] and MASK[i] = mask of MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_MASK   ,Status of a masked bit (vector) triggers no IRQ to MPU when set."
group.long 0x16C++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_STATUS_N_5,MSI Controller Interrupt #N Status Register (RC-mode MSI receiver) with N = MSI data [7:5] and STATUS[i] = status of MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_STATUS ,Status of an enabled bit (vectors) is set upon incoming MSI."
tree.end
tree "Channel_6"
width 37.
group.long 0x170++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_ENABLE_N_6,MSI Controller Interrupt #N Enable Register (RC-mode MSI receiver) with N = MSI data [7:5] and ENABLE[i] = enable MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_ENABLE ,Status of an enabled bit (vectors) is set upon incoming MSI."
group.long 0x174++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_MASK_N_6,MSI Controller Interrupt #N Mask Register (RC-mode MSI receiver) with N = MSI data [7:5] and MASK[i] = mask of MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_MASK   ,Status of a masked bit (vector) triggers no IRQ to MPU when set."
group.long 0x178++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_STATUS_N_6,MSI Controller Interrupt #N Status Register (RC-mode MSI receiver) with N = MSI data [7:5] and STATUS[i] = status of MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_STATUS ,Status of an enabled bit (vectors) is set upon incoming MSI."
tree.end
tree "Channel_7"
width 37.
group.long 0x17C++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_ENABLE_N_7,MSI Controller Interrupt #N Enable Register (RC-mode MSI receiver) with N = MSI data [7:5] and ENABLE[i] = enable MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_ENABLE ,Status of an enabled bit (vectors) is set upon incoming MSI."
group.long 0x180++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_MASK_N_7,MSI Controller Interrupt #N Mask Register (RC-mode MSI receiver) with N = MSI data [7:5] and MASK[i] = mask of MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_MASK   ,Status of a masked bit (vector) triggers no IRQ to MPU when set."
group.long 0x184++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_STATUS_N_7,MSI Controller Interrupt #N Status Register (RC-mode MSI receiver) with N = MSI data [7:5] and STATUS[i] = status of MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_STATUS ,Status of an enabled bit (vectors) is set upon incoming MSI."
tree.end
textline ""
width 36.
group.long 0x0++0x3
line.long 0x00 "PCIECTRL_PL_LAT_REL_TIM,Ack Latency and Replay Timer Register"
hexmask.long.word 0x00 16.--31. 1. " REPLAY_TIME_LIMIT         ,The replay timer expires when it reaches this limit; The core initiates a replay upon reception of a Nak or when the replay timer expires; The default value depends on number of bytes (NB) per cycle, which is defined by the..."
hexmask.long.word 0x00 0.--15. 1. "         ACK_LATENCY_TIME_LIMIT               ,The Ack/Nak latency timer expires when it reaches this limit; The default value depends on number of bytes (NB) per cycle, which is defined by the maximum core base frequency of the device PCIe core..."
group.long 0x4++0x3
line.long 0x00 "PCIECTRL_PL_VENDOR_SPECIFIC_DLLP,Vendor Specific DLLP Register"
hexmask.long 0x00 0.--31. 1. " VEN_DLLP_REG              ,To send custom DLLP, write 8-bit DLLP Type and 24-bits of Payload data, then set PT_LNK_CTRL_R[0]"
group.long 0x8++0x3
line.long 0x00 "PCIECTRL_PL_PT_LNK_R,Port Force Link Register"
hexmask.long.byte 0x00 24.--31. 1. " LOW_POWER_ENTR_CNT        ,The Power Management state will wait for this many clock cycles for the associated completion of a CfgWr to D-state register to go low-power; This register is intended for applications that do not let the core handle a..."
bitfld.long 0x00 16.--21. "           FORCED_LINK_COMMAND                  ,Link command transmitted by setting Force_Link (bit 15);" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 15. "        FORCE_LINK                   ,Forces the LTSSM state and the Link command specified in this register; Self-clearing - FORCE." "0,FORCE"
textline "                                             "
bitfld.long 0x00 8.--11. " FORCED_LTSSM_STATE        ,LTSSM state forced by setting Force_Link (bit 15)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 0.--7. 1. "           LINK_NUM                             ,Link Number; Not used for Endpoint"
group.long 0xC++0x3
line.long 0x00 "PCIECTRL_PL_ACK_FREQ_ASPM,Ack Frequency and L0-L1 ASPM Control Register (Sticky)"
bitfld.long 0x00 30. " L1_ENTR_WO_L0S            ,Enter ASPM L1 without receive in L0s; Allow core to enter ASPM L1 even when link partner did not go to L0s (receive is not in L0s); When not set, core goes to ASPM L1 only after idle period during which both receive and..." "0,1"
bitfld.long 0x00 27.--29. "            L1_ENTR_LAT                          ,L1 Entrance Latency 0x0: 1 uS 0x1: 2 uS 0x2: 4 uS 0x3: 8 uS 0x4: 16 uS 0x5: 32 uS 0x6: 64 uS 0x7: 64 uS (alternate encoding)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "         L0S_ENTR_LAT                 ,L0s Entrance Latency; Values correspond to: 0b000: 1 us 0b001: 2 us 0b010: 3 us 0b011: 4 us 0b100: 5 us 0b101: 6 us 0b110: 7 us 0b111: 7 us (alternate encoding)" "0,1,2,3,4,5,6,7"
textline "                                             "
hexmask.long.byte 0x00 16.--23. 1. " COMMOM_CLK_N_FTS          ,Alternative N_FTS value, for common clock mode"
hexmask.long.byte 0x00 8.--15. 1. "           N_FTS                                ,Number of Fast Training Sequence (FTS) ordered sets to be transmitted when exiting L0s to L0; The maximum that can be requested is 255; Value 0 is not supported, and may cause LTSSM to go into Recovery..."
hexmask.long.byte 0x00 0.--7. 1. "        ACK_FREQ                     ,Ack Frequency; Number of pending ACKs accumulated before sending an ACK DLLP"
group.long 0x10++0x3
line.long 0x00 "PCIECTRL_PL_PT_LNK_CTRL_R,Port Link Control Register (Sticky)"
bitfld.long 0x00 23. " CROSSLINK_ACT             ,Crosslink Active" "0,1"
bitfld.long 0x00 22. "            CROSSLINK_EN                         ,Crosslink Enable" "0,1"
bitfld.long 0x00 16.--21. "         LINK_MODE                    ,Link Mode Enable; Write 1 to bit N to enable (2**N)-lane mode 0x01: _1x 0x03: _2x 0x07: _4x" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                             "
bitfld.long 0x00 7. " FAST_LINK                 ,Fast Link Mode" "0,1"
bitfld.long 0x00 5. "            DL_EN                                ,DLL Link Enable" "0,1"
bitfld.long 0x00 3. "         RESET_ASSERT                 ,Reset Assert" "0,1"
textline "                                             "
bitfld.long 0x00 2. " LB_EN                     ,Loopback Enable" "0,1"
bitfld.long 0x00 1. "            SCRAMBLE_DIS                         ,Scramble Disable" "0,1"
bitfld.long 0x00 0. "         VEN_DLLP_REQ                 ,Vendor Specific DLLP transmit Request" "0,1"
group.long 0x14++0x3
line.long 0x00 "PCIECTRL_PL_LN_SKW_R,Lane Skew Register (Sticky)"
bitfld.long 0x00 31. " DIS_L2L_SKEW              ,Disable Lane-to-Lane Deskew" "0,1"
bitfld.long 0x00 25. "            ACKNAK_DIS                           ,Ack/Nak Disable" "0,1"
bitfld.long 0x00 24. "         FC_DIS                       ,Flow Control Disable" "0,1"
textline "                                             "
hexmask.long.tbyte 0x00 0.--23. 1. " LANE_SKEW                 ,Insert Lane Skew for Transmit"
group.long 0x18++0x3
line.long 0x00 "PCIECTRL_PL_SYMB_N_R,Timer Control and Symbol Number Register (Sticky)"
bitfld.long 0x00 19.--23. " ACK_LATENCY_INC           ,Timer Modifier for Ack/Nak Latency Timer" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 14.--18. "           REPLAY_ADJ                           ,Timer Modifier for Replay Timer" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.byte 0x00 0.--7. 1. "        MAX_FUNC                     ,Configuration Requests targeted at function numbers above this value will be returned with UR (unsupported request)."
group.long 0x1C++0x3
line.long 0x00 "PCIECTRL_PL_SYMB_T_R,Symbol Timer Register and Filter Mask Register 1 (Sticky)"
hexmask.long.word 0x00 16.--31. 1. " FLT_MSK_1                 ,Mask RADM Filtering and Error Handling Rules: Mask 1"
bitfld.long 0x00 15. "         DIS_FC_TIM                           ,Disable FC Watchdog Timer" "0,1"
hexmask.long.word 0x00 0.--10. 1. "         SKP_INT                      ,SKP Interval Value minus one, PIPE clock cycles. (1 PIPE cycle = 2 symbols in 16-bit-per-lane PIPE)"
group.long 0x20++0x3
line.long 0x00 "PCIECTRL_PL_FL_MSK_R2,Filter Mask Register 2 (Sticky)"
hexmask.long 0x00 0.--31. 1. " FLT_MSK_2                 ,Mask RADM Filtering and Error Handling Rules: Mask 2"
group.long 0x24++0x3
line.long 0x00 "PCIECTRL_PL_OBNP_SUBREQ_CTRL,AXI Multiple Outbound Decomposed NP SubRequests Control Register (Sticky)"
bitfld.long 0x00 0. " EN_OBNP_SUBREQ            ,Enable AXI Multiple Outbound Decomposed NP Sub-Requests." "0,1"
rgroup.long 0x30++0x3
line.long 0x00 "PCIECTRL_PL_TR_P_STS_R,Transmit Posted FC Credit Status Register (Sticky)"
hexmask.long.byte 0x00 12.--19. 1. " PH_CRDT                   ,Transmit Posted Header FC Credits"
hexmask.long.word 0x00 0.--11. 1. "           PD_CRDT                              ,Transmit Posted Data FC Credits"
rgroup.long 0x34++0x3
line.long 0x00 "PCIECTRL_PL_TR_NP_STS_R,Transmit Non-Posted FC Credit Status Register (Sticky)"
hexmask.long.byte 0x00 12.--19. 1. " NPH_CRDT                  ,Transmit Non-Posted Header FC Credits"
hexmask.long.word 0x00 0.--11. 1. "           NPD_CRDT                             ,Transmit Non-Posted Data FC Credits"
rgroup.long 0x38++0x3
line.long 0x00 "PCIECTRL_PL_TR_C_STS_R,Transmit Completion FC Credit Status Register (Sticky)"
hexmask.long.byte 0x00 12.--19. 1. " CPLH_CRDT                 ,Transmit Completion Header FC Credits"
hexmask.long.word 0x00 0.--11. 1. "           CPLD_CRDT                            ,Transmit Completion Data FC Credits"
group.long 0x3C++0x3
line.long 0x00 "PCIECTRL_PL_Q_STS_R,Queue Status Register (Sticky)"
bitfld.long 0x00 31. " FC_LATENCY_OVR_EN         ,FC Latency Timer Override Enable" "0,1"
hexmask.long.word 0x00 16.--28. 1. "            FC_LATENCY_OVR                       ,FC Latency Timer Override Value"
bitfld.long 0x00 2. "      RCVQ_NOT_EMPTY               ,Received Queue Not Empty" "0,1"
textline "                                             "
bitfld.long 0x00 1. " RTYB_NOT_EMPTY            ,Transmit Retry Buffer Not Empty" "0,1"
bitfld.long 0x00 0. "            CRDT_NOT_RTRN                        ,Received TLP FC Credits Not Returned" "0,1"
rgroup.long 0x40++0x3
line.long 0x00 "PCIECTRL_PL_VC_TR_A_R1,VC Transmit Arbitration Register 1 (Sticky)"
hexmask.long.byte 0x00 24.--31. 1. " WRR_VC3                   ,WRR Weight for VC3"
hexmask.long.byte 0x00 16.--23. 1. "           WRR_VC2                              ,WRR Weight for VC2"
hexmask.long.byte 0x00 8.--15. 1. "        WRR_VC1                      ,WRR Weight for VC1"
textline "                                             "
hexmask.long.byte 0x00 0.--7. 1. " WRR_VC0                   ,WRR Weight for VC0"
rgroup.long 0x44++0x3
line.long 0x00 "PCIECTRL_PL_VC_TR_A_R2,VC Transmit Arbitration Register 2 (Sticky)"
hexmask.long.byte 0x00 24.--31. 1. " WRR_VC7                   ,WRR Weight for VC7"
hexmask.long.byte 0x00 16.--23. 1. "           WRR_VC6                              ,WRR Weight for VC6"
hexmask.long.byte 0x00 8.--15. 1. "        WRR_VC5                      ,WRR Weight for VC5"
textline "                                             "
hexmask.long.byte 0x00 0.--7. 1. " WRR_VC4                   ,WRR Weight for VC4"
group.long 0x48++0x3
line.long 0x00 "PCIECTRL_PL_VC0_PR_Q_C,VC0 Posted Receive Queue Control (Sticky)"
bitfld.long 0x00 31. " STRICT_VC_PRIORITY        ,VC Ordering for Receive Queues - ROUND_ROBIN. - STRICT." "ROUND_ROBIN,STRICT"
bitfld.long 0x00 30. "  ORDERING_RULES                       ,VC0 TLP Type Ordering Rules - STRICT. - STANDARD." "STRICT,STANDARD"
bitfld.long 0x00 21.--23. "  P_QMODE                      ,VC0 Poster TLP Queue Mode Read 0x1: STORE_AND_FORWARD Read 0x2: CUT_THROUGH Read 0x4: BYPASS Others: Reserved" "0,1,2,3,4,5,6,7"
textline "                                             "
hexmask.long.byte 0x00 12.--19. 1. " P_HCRD                    ,VC0 Posted Header Credits"
hexmask.long.word 0x00 0.--11. 1. "           P_DCRD                               ,VC0 Posted Data Credits"
group.long 0x4C++0x3
line.long 0x00 "PCIECTRL_PL_VC0_NPR_Q_C,VC0 Non-Posted Receive Queue Control (Sticky)"
bitfld.long 0x00 21.--23. " NP_QMODE                  ,VC0 Non-Poster TLP Queue Mode Read 0x1: STORE_AND_FORWARD Read 0x2: CUT_THROUGH Read 0x4: BYPASS Others: Reserved" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 12.--19. 1. "            NP_HCRD                              ,VC0 Non-Posted Header Credits"
hexmask.long.word 0x00 0.--11. 1. "        NP_DCRD                      ,VC0 Non-Posted Data Credits"
group.long 0x50++0x3
line.long 0x00 "PCIECTRL_PL_VC0_CR_Q_C,VC0 Completion Receive Queue Control (Sticky)"
bitfld.long 0x00 21.--23. " CPL_QMODE                 ,VC0 Completion TLP Queue Mode Read 0x1: STORE_AND_FORWARD Read 0x2: CUT_THROUGH Read 0x4: BYPASS" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 12.--19. 1. "            CPL_HCRD                             ,VC0 Completion Header Credits"
hexmask.long.word 0x00 0.--11. 1. "        CPL_DCRD                     ,VC0 Completion Data Credits"
group.long 0x10C++0x3
line.long 0x00 "PCIECTRL_PL_WIDTH_SPEED_CTL,Link Width and Speed Change Control Register (Sticky)"
bitfld.long 0x00 20. " CFG_UP_SEL_DEEMPH         ,Used to set the de-emphasis level for Upstream Ports" "0,1"
bitfld.long 0x00 19. "            CFG_TX_COMPLIANCE_RCV                ,Config Tx Compliance Receive Bit" "0,1"
bitfld.long 0x00 18. "         CFG_PHY_TXSWING              ,Config PHY Tx Swing" "0,1"
textline "                                             "
bitfld.long 0x00 17. " CFG_DIRECTED_SPEED_CHANGE ,Directed Speed Change" "0,1"
hexmask.long.word 0x00 8.--16. 1. "            CFG_LANE_EN                          ,Predetermined Number of Lanes"
hexmask.long.byte 0x00 0.--7. 1. "      CFG_GEN2_N_FTS               ,Number of Fast Training Sequences"
rgroup.long 0x110++0x3
line.long 0x00 "PCIECTRL_PL_PHY_STS_R,PHY Status Register (Sticky)"
hexmask.long 0x00 0.--31. 1. " PHY_STS                   ,PHY Status"
group.long 0x114++0x3
line.long 0x00 "PCIECTRL_PL_PHY_CTRL_R,PHY Control Register (Sticky)"
hexmask.long 0x00 0.--31. 1. " PHY_CTRL                  ,PHY Control"
group.long 0x120++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_ADDRESS,MSI Controller Address Register (RC-mode MSI receiver)"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_ADDRESS          ,"
group.long 0x124++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_UPPER_ADDRESS,MSI Controller Upper Address Register (RC-mode MSI receiver)"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_UPPER_ADDRESS    ,"
group.long 0x188++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_GPIO,MSI Controller General Purpose IO Register (RC-mode MSI receiver)"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_GPIO             ,"
group.long 0x1B8++0x3
line.long 0x00 "PCIECTRL_PL_PIPE_LOOPBACK,PIPE loopback control register (Sticky)"
bitfld.long 0x00 31. " LOOPBACK_EN               ,PIPE Loopback Enable" "0,1"
group.long 0x1BC++0x3
line.long 0x00 "PCIECTRL_PL_DBI_RO_WR_EN,DIF Read-Only register Write Enable (Sticky)"
bitfld.long 0x00 0. " CX_DBI_RO_WR_EN           ,Control the writability over DIF of certain configuration fields that are RO over the PCIe wire - WRDIS. - WREN." "WRDIS,WREN"
group.long 0x1D0++0x3
line.long 0x00 "PCIECTRL_PL_AXIS_SLV_ERR_RESP,AXI Slave Error Response Register (Sticky)"
bitfld.long 0x00 3. " RESET_TIMEOUT_ERR_MAP     ,Graceful Reset and Link Timeout Slave Error Response Mapping" "0,1"
bitfld.long 0x00 2. "            NO_VID_ERR_MAP                       ,Vendor ID Non-existent Slave Error Response Mapping" "0,1"
bitfld.long 0x00 1. "         DBI_ERR_MAP                  ,DIF Slave Error Response Mapping" "0,1"
textline "                                             "
bitfld.long 0x00 0. " SLAVE_ERR_MAP             ,Global Slave Error Response Mapping" "0,1"
group.long 0x1D4++0x3
line.long 0x00 "PCIECTRL_PL_AXIS_SLV_TIMEOUT,Link Down AXI Slave Timeout Register (Sticky)"
bitfld.long 0x00 8. " FLUSH_EN                  ,Enable flush" "0,1"
hexmask.long.byte 0x00 0.--7. 1. "            TIMEOUT_VALUE                        ,Timeout Value (ms)"
group.long 0x200++0x3
line.long 0x00 "PCIECTRL_PL_IATU_INDEX,iATU Viewport Register: makes the registers of the corresponding iATU region accessible."
bitfld.long 0x00 31. " REGION_DIRECTION          ,- OUTBOUND. - INBOUND." "OUTBOUND,INBOUND"
bitfld.long 0x00 0.--3. "     REGION_INDEX                         ,Outbound region, from 0 to 15. Inbound region, from 0 to 3." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x204++0x3
line.long 0x00 "PCIECTRL_PL_IATU_REG_CTRL_1,iATU Region Control 1 Register"
bitfld.long 0x00 20.--24. " FUNCTION_NUMBER           ,Outbound: F.N; applied to outgoing TLP (RID) with matching addess Inbound: F.N.-match criteria for incoming TLP (if Function_Number_match_enable=1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--17. "           AT                                   ,Outbound: AT applied to outgoing TLP with matching addess Inbound: AT-match criteria for matching TLP (if AT_match_enable=1)" "0,1,2,3"
bitfld.long 0x00 9.--10. "         ATTR                         ,Outbound: ATTR applied to outgoing TLP with matching addess Inbound: ATTR-match criteria (if ATTR_match_enable=1)" "0,1,2,3"
textline "                                             "
bitfld.long 0x00 8. " TD                        ,Outbound: TD applied to outgoing TLP with matching addess Inbound: TD-match criteria (if TD_match_enable=1)" "0,1"
bitfld.long 0x00 5.--7. "            TC                                   ,Outbound: TC applied to outgoing TLP with matching addess Inbound: TC-match criteria (if TC_match_enable=1)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--4. "         TYPE                         ,Outbound: TYPE applied to outgoing TLP with matching addess Inbound: TYPE-match criteria" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x208++0x3
line.long 0x00 "PCIECTRL_PL_IATU_REG_CTRL_2,iATU Region Control 2 Register"
bitfld.long 0x00 31. " REGION_ENABLE             ,Enable AT for this region" "0,1"
bitfld.long 0x00 30. "            MATCH_MODE                           ,Sets inbound TLP match mode, depending on TYPE - _0. - _1." "_0,_1"
bitfld.long 0x00 29. "        INVERT_MODE                  ,Redefine match criteria as outside the defined range (instead of inside)" "0,1"
textline "                                             "
bitfld.long 0x00 28. " CFG_SHIFT_MODE            ,Enable the shifting of CFG CID (BDF), incoming and outgoing TLP; CFG get mapped to a contiguous 2**28 = 256 MByte address space Untranslated CID = CFG_DW#3[31:16] Shifted CID = CFG_DW#3[27:12]" "0,1"
bitfld.long 0x00 27. "            FUZZY_TYPE_MATCH_MODE                ,Outbound: DMA Bypass Mode Inbound: Relax matching on inbound TLP TYPE: CfgRd0 == CfgRd1 CfgWr0 == CfgWr1 MRd == MRdLk routing field of Msg/MsgD ignored" "0,1"
bitfld.long 0x00 24.--25. "         RESPONSE_CODE                ,Override HW-generated completion status when responding inbound TLP 0x0: No override, use HW-generated CS 0x1: Unsupported Request: CS= 3'b001 0x2: Completer Abort: CS= 3'b100" "0,1,2,3"
textline "                                             "
bitfld.long 0x00 21. " MESSAGE_CODE_MATCH_ENABLE ,Enable MessageCode match criteria on inbound TLP" "0,1"
bitfld.long 0x00 20. "            VIRTUAL_FUNCTION_NUMBER_MATCH_ENABLE ,VIRTUAL FUNCTIONS NOT IMPLEMENTED: NOT USED" "0,1"
bitfld.long 0x00 19. "         FUNCTION_NUMBER_MATCH_ENABLE ,Outbound: Function Number Translation Bypass Inbound: Enable Function Number match criteria" "0,1"
textline "                                             "
bitfld.long 0x00 18. " AT_MATCH_ENABLE           ,Enable AT match criteria on inbound TLP ATS NOT SUPPORTED: DO NOT USE" "0,1"
bitfld.long 0x00 16. "            ATTR_MATCH_ENABLE                    ,Enable ATTR match criteria on inbound TLP" "0,1"
bitfld.long 0x00 15. "         TD_MATCH_ENABLE              ,Enable TD match criteria on inbound TLP" "0,1"
textline "                                             "
bitfld.long 0x00 14. " TC_MATCH_ENABLE           ,Enable TC match criteria on inbound TLP" "0,1"
bitfld.long 0x00 8.--10. "            BAR_NUMBER                           ,BAR number for mayching with incoming MEM, I/O TLP (if Match_Mode = 1) 0x0: BAR0 0x1: BAR1 0x2: BAR2 0x3: BAR3 0x4: BAR4 0x5: BAR5 0x6: ROM" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "         MESSAGECODE                  ,Outbound: MessageCode applied to outgoing message TLP with matching addess Inbound: MessageCode-match criteria for infoming message TLP (if Message_Code_match_enable=1)"
group.long 0x20C++0x3
line.long 0x00 "PCIECTRL_PL_IATU_REG_LOWER_BASE,iATU Region Lower Base Address Register (2**12 = 4kbyte - aligned)"
hexmask.long.tbyte 0x00 12.--31. 1. " IATU_REG_LOWER_BASE       ,"
hexmask.long.word 0x00 0.--11. 1. "       ZERO                                 ,"
group.long 0x210++0x3
line.long 0x00 "PCIECTRL_PL_IATU_REG_UPPER_BASE,iATU Region Upper Base Address Register"
hexmask.long 0x00 0.--31. 1. " IATU_REG_UPPER_BASE       ,"
group.long 0x214++0x3
line.long 0x00 "PCIECTRL_PL_IATU_REG_LIMIT,iATU Region Limit Address Register"
hexmask.long.tbyte 0x00 12.--31. 1. " IATU_REG_LIMIT            ,"
hexmask.long.word 0x00 0.--11. 1. "       ONES                                 ,"
group.long 0x218++0x3
line.long 0x00 "PCIECTRL_PL_IATU_REG_LOWER_TARGET,iATU Region Lower Target Address Register (2**12 = 4kbyte - aligned)"
hexmask.long.tbyte 0x00 12.--31. 1. " IATU_REG_LOWER_TARGET     ,"
hexmask.long.word 0x00 0.--11. 1. "       ZERO                                 ,"
group.long 0x21C++0x3
line.long 0x00 "PCIECTRL_PL_IATU_REG_UPPER_TARGET,iATU Region Upper Target Address Register"
hexmask.long 0x00 0.--31. 1. " IATU_REG_UPPER_TARGET     ,"
rgroup.long 0x220++0x3
line.long 0x00 "PCIECTRL_PL_IATU_REG_CTRL_3,iATU Region Control 3 Register; VIRTUAL FUNCTIONS NOT IMPLEMENTED: NOT USED"
hexmask.long 0x00 0.--31. 1. " IATU_REG_CTRL_3           ,"
width 0x0B
tree.end
tree "PCIe_SS2_PL_CONF"
base ad:0x51800700
tree "Channel_0"
width 37.
group.long 0x128++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_ENABLE_N_0,MSI Controller Interrupt #N Enable Register (RC-mode MSI receiver) with N = MSI data [7:5] and ENABLE[i] = enable MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_ENABLE ,Status of an enabled bit (vectors) is set upon incoming MSI."
group.long 0x12C++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_MASK_N_0,MSI Controller Interrupt #N Mask Register (RC-mode MSI receiver) with N = MSI data [7:5] and MASK[i] = mask of MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_MASK   ,Status of a masked bit (vector) triggers no IRQ to MPU when set."
group.long 0x130++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_STATUS_N_0,MSI Controller Interrupt #N Status Register (RC-mode MSI receiver) with N = MSI data [7:5] and STATUS[i] = status of MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_STATUS ,Status of an enabled bit (vectors) is set upon incoming MSI."
tree.end
tree "Channel_1"
width 37.
group.long 0x134++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_ENABLE_N_1,MSI Controller Interrupt #N Enable Register (RC-mode MSI receiver) with N = MSI data [7:5] and ENABLE[i] = enable MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_ENABLE ,Status of an enabled bit (vectors) is set upon incoming MSI."
group.long 0x138++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_MASK_N_1,MSI Controller Interrupt #N Mask Register (RC-mode MSI receiver) with N = MSI data [7:5] and MASK[i] = mask of MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_MASK   ,Status of a masked bit (vector) triggers no IRQ to MPU when set."
group.long 0x13C++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_STATUS_N_1,MSI Controller Interrupt #N Status Register (RC-mode MSI receiver) with N = MSI data [7:5] and STATUS[i] = status of MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_STATUS ,Status of an enabled bit (vectors) is set upon incoming MSI."
tree.end
tree "Channel_2"
width 37.
group.long 0x140++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_ENABLE_N_2,MSI Controller Interrupt #N Enable Register (RC-mode MSI receiver) with N = MSI data [7:5] and ENABLE[i] = enable MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_ENABLE ,Status of an enabled bit (vectors) is set upon incoming MSI."
group.long 0x144++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_MASK_N_2,MSI Controller Interrupt #N Mask Register (RC-mode MSI receiver) with N = MSI data [7:5] and MASK[i] = mask of MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_MASK   ,Status of a masked bit (vector) triggers no IRQ to MPU when set."
group.long 0x148++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_STATUS_N_2,MSI Controller Interrupt #N Status Register (RC-mode MSI receiver) with N = MSI data [7:5] and STATUS[i] = status of MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_STATUS ,Status of an enabled bit (vectors) is set upon incoming MSI."
tree.end
tree "Channel_3"
width 37.
group.long 0x14C++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_ENABLE_N_3,MSI Controller Interrupt #N Enable Register (RC-mode MSI receiver) with N = MSI data [7:5] and ENABLE[i] = enable MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_ENABLE ,Status of an enabled bit (vectors) is set upon incoming MSI."
group.long 0x150++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_MASK_N_3,MSI Controller Interrupt #N Mask Register (RC-mode MSI receiver) with N = MSI data [7:5] and MASK[i] = mask of MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_MASK   ,Status of a masked bit (vector) triggers no IRQ to MPU when set."
group.long 0x154++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_STATUS_N_3,MSI Controller Interrupt #N Status Register (RC-mode MSI receiver) with N = MSI data [7:5] and STATUS[i] = status of MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_STATUS ,Status of an enabled bit (vectors) is set upon incoming MSI."
tree.end
tree "Channel_4"
width 37.
group.long 0x158++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_ENABLE_N_4,MSI Controller Interrupt #N Enable Register (RC-mode MSI receiver) with N = MSI data [7:5] and ENABLE[i] = enable MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_ENABLE ,Status of an enabled bit (vectors) is set upon incoming MSI."
group.long 0x15C++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_MASK_N_4,MSI Controller Interrupt #N Mask Register (RC-mode MSI receiver) with N = MSI data [7:5] and MASK[i] = mask of MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_MASK   ,Status of a masked bit (vector) triggers no IRQ to MPU when set."
group.long 0x160++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_STATUS_N_4,MSI Controller Interrupt #N Status Register (RC-mode MSI receiver) with N = MSI data [7:5] and STATUS[i] = status of MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_STATUS ,Status of an enabled bit (vectors) is set upon incoming MSI."
tree.end
tree "Channel_5"
width 37.
group.long 0x164++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_ENABLE_N_5,MSI Controller Interrupt #N Enable Register (RC-mode MSI receiver) with N = MSI data [7:5] and ENABLE[i] = enable MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_ENABLE ,Status of an enabled bit (vectors) is set upon incoming MSI."
group.long 0x168++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_MASK_N_5,MSI Controller Interrupt #N Mask Register (RC-mode MSI receiver) with N = MSI data [7:5] and MASK[i] = mask of MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_MASK   ,Status of a masked bit (vector) triggers no IRQ to MPU when set."
group.long 0x16C++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_STATUS_N_5,MSI Controller Interrupt #N Status Register (RC-mode MSI receiver) with N = MSI data [7:5] and STATUS[i] = status of MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_STATUS ,Status of an enabled bit (vectors) is set upon incoming MSI."
tree.end
tree "Channel_6"
width 37.
group.long 0x170++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_ENABLE_N_6,MSI Controller Interrupt #N Enable Register (RC-mode MSI receiver) with N = MSI data [7:5] and ENABLE[i] = enable MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_ENABLE ,Status of an enabled bit (vectors) is set upon incoming MSI."
group.long 0x174++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_MASK_N_6,MSI Controller Interrupt #N Mask Register (RC-mode MSI receiver) with N = MSI data [7:5] and MASK[i] = mask of MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_MASK   ,Status of a masked bit (vector) triggers no IRQ to MPU when set."
group.long 0x178++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_STATUS_N_6,MSI Controller Interrupt #N Status Register (RC-mode MSI receiver) with N = MSI data [7:5] and STATUS[i] = status of MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_STATUS ,Status of an enabled bit (vectors) is set upon incoming MSI."
tree.end
tree "Channel_7"
width 37.
group.long 0x17C++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_ENABLE_N_7,MSI Controller Interrupt #N Enable Register (RC-mode MSI receiver) with N = MSI data [7:5] and ENABLE[i] = enable MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_ENABLE ,Status of an enabled bit (vectors) is set upon incoming MSI."
group.long 0x180++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_MASK_N_7,MSI Controller Interrupt #N Mask Register (RC-mode MSI receiver) with N = MSI data [7:5] and MASK[i] = mask of MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_MASK   ,Status of a masked bit (vector) triggers no IRQ to MPU when set."
group.long 0x184++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_INT_STATUS_N_7,MSI Controller Interrupt #N Status Register (RC-mode MSI receiver) with N = MSI data [7:5] and STATUS[i] = status of MSI vector #i, with i = MSI data [4:0]"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_INT_STATUS ,Status of an enabled bit (vectors) is set upon incoming MSI."
tree.end
textline ""
width 36.
group.long 0x0++0x3
line.long 0x00 "PCIECTRL_PL_LAT_REL_TIM,Ack Latency and Replay Timer Register"
hexmask.long.word 0x00 16.--31. 1. " REPLAY_TIME_LIMIT         ,The replay timer expires when it reaches this limit; The core initiates a replay upon reception of a Nak or when the replay timer expires; The default value depends on number of bytes (NB) per cycle, which is defined by the..."
hexmask.long.word 0x00 0.--15. 1. "         ACK_LATENCY_TIME_LIMIT               ,The Ack/Nak latency timer expires when it reaches this limit; The default value depends on number of bytes (NB) per cycle, which is defined by the maximum core base frequency of the device PCIe core,..."
group.long 0x4++0x3
line.long 0x00 "PCIECTRL_PL_VENDOR_SPECIFIC_DLLP,Vendor Specific DLLP Register"
hexmask.long 0x00 0.--31. 1. " VEN_DLLP_REG              ,To send custom DLLP, write 8-bit DLLP Type and 24-bits of Payload data, then set PT_LNK_CTRL_R[0]"
group.long 0x8++0x3
line.long 0x00 "PCIECTRL_PL_PT_LNK_R,Port Force Link Register"
hexmask.long.byte 0x00 24.--31. 1. " LOW_POWER_ENTR_CNT        ,The Power Management state will wait for this many clock cycles for the associated completion of a CfgWr to D-state register to go low-power; This register is intended for applications that do not let the core handle a..."
bitfld.long 0x00 16.--21. "           FORCED_LINK_COMMAND                  ,Link command transmitted by setting Force_Link (bit 15);" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 15. "        FORCE_LINK                   ,Forces the LTSSM state and the Link command specified in this register; Self-clearing - FORCE." "0,FORCE"
textline "                                             "
bitfld.long 0x00 8.--11. " FORCED_LTSSM_STATE        ,LTSSM state forced by setting Force_Link (bit 15)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 0.--7. 1. "           LINK_NUM                             ,Link Number; Not used for Endpoint"
group.long 0xC++0x3
line.long 0x00 "PCIECTRL_PL_ACK_FREQ_ASPM,Ack Frequency and L0-L1 ASPM Control Register (Sticky)"
bitfld.long 0x00 30. " L1_ENTR_WO_L0S            ,Enter ASPM L1 without receive in L0s; Allow core to enter ASPM L1 even when link partner did not go to L0s (receive is not in L0s); When not set, core goes to ASPM L1 only after idle period during which both receive and tran..." "0,1"
bitfld.long 0x00 27.--29. "            L1_ENTR_LAT                          ,L1 Entrance Latency 0x0: 1 uS 0x1: 2 uS 0x2: 4 uS 0x3: 8 uS 0x4: 16 uS 0x5: 32 uS 0x6: 64 uS 0x7: 64 uS (alternate encoding)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "         L0S_ENTR_LAT                 ,L0s Entrance Latency; Values correspond to: 0b000: 1 us 0b001: 2 us 0b010: 3 us 0b011: 4 us 0b100: 5 us 0b101: 6 us 0b110: 7 us 0b111: 7 us (alternate encoding)" "0,1,2,3,4,5,6,7"
textline "                                             "
hexmask.long.byte 0x00 16.--23. 1. " COMMOM_CLK_N_FTS          ,Alternative N_FTS value, for common clock mode"
hexmask.long.byte 0x00 8.--15. 1. "           N_FTS                                ,Number of Fast Training Sequence (FTS) ordered sets to be transmitted when exiting L0s to L0; The maximum that can be requested is 255; Value 0 is not supported, and may cause LTSSM to go into Recovery..."
hexmask.long.byte 0x00 0.--7. 1. "        ACK_FREQ                     ,Ack Frequency; Number of pending ACKs accumulated before sending an ACK DLLP"
group.long 0x10++0x3
line.long 0x00 "PCIECTRL_PL_PT_LNK_CTRL_R,Port Link Control Register (Sticky)"
bitfld.long 0x00 23. " CROSSLINK_ACT             ,Crosslink Active" "0,1"
bitfld.long 0x00 22. "            CROSSLINK_EN                         ,Crosslink Enable" "0,1"
bitfld.long 0x00 16.--21. "         LINK_MODE                    ,Link Mode Enable; Write 1 to bit N to enable (2**N)-lane mode 0x01: _1x 0x03: _2x 0x07: _4x" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                                             "
bitfld.long 0x00 7. " FAST_LINK                 ,Fast Link Mode" "0,1"
bitfld.long 0x00 5. "            DL_EN                                ,DLL Link Enable" "0,1"
bitfld.long 0x00 3. "         RESET_ASSERT                 ,Reset Assert" "0,1"
textline "                                             "
bitfld.long 0x00 2. " LB_EN                     ,Loopback Enable" "0,1"
bitfld.long 0x00 1. "            SCRAMBLE_DIS                         ,Scramble Disable" "0,1"
bitfld.long 0x00 0. "         VEN_DLLP_REQ                 ,Vendor Specific DLLP transmit Request" "0,1"
group.long 0x14++0x3
line.long 0x00 "PCIECTRL_PL_LN_SKW_R,Lane Skew Register (Sticky)"
bitfld.long 0x00 31. " DIS_L2L_SKEW              ,Disable Lane-to-Lane Deskew" "0,1"
bitfld.long 0x00 25. "            ACKNAK_DIS                           ,Ack/Nak Disable" "0,1"
bitfld.long 0x00 24. "         FC_DIS                       ,Flow Control Disable" "0,1"
textline "                                             "
hexmask.long.tbyte 0x00 0.--23. 1. " LANE_SKEW                 ,Insert Lane Skew for Transmit"
group.long 0x18++0x3
line.long 0x00 "PCIECTRL_PL_SYMB_N_R,Timer Control and Symbol Number Register (Sticky)"
bitfld.long 0x00 19.--23. " ACK_LATENCY_INC           ,Timer Modifier for Ack/Nak Latency Timer" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 14.--18. "           REPLAY_ADJ                           ,Timer Modifier for Replay Timer" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.byte 0x00 0.--7. 1. "        MAX_FUNC                     ,Configuration Requests targeted at function numbers above this value will be returned with UR (unsupported request)."
group.long 0x1C++0x3
line.long 0x00 "PCIECTRL_PL_SYMB_T_R,Symbol Timer Register and Filter Mask Register 1 (Sticky)"
hexmask.long.word 0x00 16.--31. 1. " FLT_MSK_1                 ,Mask RADM Filtering and Error Handling Rules: Mask 1"
bitfld.long 0x00 15. "         DIS_FC_TIM                           ,Disable FC Watchdog Timer" "0,1"
hexmask.long.word 0x00 0.--10. 1. "         SKP_INT                      ,SKP Interval Value minus one, PIPE clock cycles. (1 PIPE cycle = 2 symbols in 16-bit-per-lane PIPE)"
group.long 0x20++0x3
line.long 0x00 "PCIECTRL_PL_FL_MSK_R2,Filter Mask Register 2 (Sticky)"
hexmask.long 0x00 0.--31. 1. " FLT_MSK_2                 ,Mask RADM Filtering and Error Handling Rules: Mask 2"
group.long 0x24++0x3
line.long 0x00 "PCIECTRL_PL_OBNP_SUBREQ_CTRL,AXI Multiple Outbound Decomposed NP SubRequests Control Register (Sticky)"
bitfld.long 0x00 0. " EN_OBNP_SUBREQ            ,Enable AXI Multiple Outbound Decomposed NP Sub-Requests." "0,1"
rgroup.long 0x30++0x3
line.long 0x00 "PCIECTRL_PL_TR_P_STS_R,Transmit Posted FC Credit Status Register (Sticky)"
hexmask.long.byte 0x00 12.--19. 1. " PH_CRDT                   ,Transmit Posted Header FC Credits"
hexmask.long.word 0x00 0.--11. 1. "           PD_CRDT                              ,Transmit Posted Data FC Credits"
rgroup.long 0x34++0x3
line.long 0x00 "PCIECTRL_PL_TR_NP_STS_R,Transmit Non-Posted FC Credit Status Register (Sticky)"
hexmask.long.byte 0x00 12.--19. 1. " NPH_CRDT                  ,Transmit Non-Posted Header FC Credits"
hexmask.long.word 0x00 0.--11. 1. "           NPD_CRDT                             ,Transmit Non-Posted Data FC Credits"
rgroup.long 0x38++0x3
line.long 0x00 "PCIECTRL_PL_TR_C_STS_R,Transmit Completion FC Credit Status Register (Sticky)"
hexmask.long.byte 0x00 12.--19. 1. " CPLH_CRDT                 ,Transmit Completion Header FC Credits"
hexmask.long.word 0x00 0.--11. 1. "           CPLD_CRDT                            ,Transmit Completion Data FC Credits"
group.long 0x3C++0x3
line.long 0x00 "PCIECTRL_PL_Q_STS_R,Queue Status Register (Sticky)"
bitfld.long 0x00 31. " FC_LATENCY_OVR_EN         ,FC Latency Timer Override Enable" "0,1"
hexmask.long.word 0x00 16.--28. 1. "            FC_LATENCY_OVR                       ,FC Latency Timer Override Value"
bitfld.long 0x00 2. "      RCVQ_NOT_EMPTY               ,Received Queue Not Empty" "0,1"
textline "                                             "
bitfld.long 0x00 1. " RTYB_NOT_EMPTY            ,Transmit Retry Buffer Not Empty" "0,1"
bitfld.long 0x00 0. "            CRDT_NOT_RTRN                        ,Received TLP FC Credits Not Returned" "0,1"
rgroup.long 0x40++0x3
line.long 0x00 "PCIECTRL_PL_VC_TR_A_R1,VC Transmit Arbitration Register 1 (Sticky)"
hexmask.long.byte 0x00 24.--31. 1. " WRR_VC3                   ,WRR Weight for VC3"
hexmask.long.byte 0x00 16.--23. 1. "           WRR_VC2                              ,WRR Weight for VC2"
hexmask.long.byte 0x00 8.--15. 1. "        WRR_VC1                      ,WRR Weight for VC1"
textline "                                             "
hexmask.long.byte 0x00 0.--7. 1. " WRR_VC0                   ,WRR Weight for VC0"
rgroup.long 0x44++0x3
line.long 0x00 "PCIECTRL_PL_VC_TR_A_R2,VC Transmit Arbitration Register 2 (Sticky)"
hexmask.long.byte 0x00 24.--31. 1. " WRR_VC7                   ,WRR Weight for VC7"
hexmask.long.byte 0x00 16.--23. 1. "           WRR_VC6                              ,WRR Weight for VC6"
hexmask.long.byte 0x00 8.--15. 1. "        WRR_VC5                      ,WRR Weight for VC5"
textline "                                             "
hexmask.long.byte 0x00 0.--7. 1. " WRR_VC4                   ,WRR Weight for VC4"
group.long 0x48++0x3
line.long 0x00 "PCIECTRL_PL_VC0_PR_Q_C,VC0 Posted Receive Queue Control (Sticky)"
bitfld.long 0x00 31. " STRICT_VC_PRIORITY        ,VC Ordering for Receive Queues - ROUND_ROBIN. - STRICT." "ROUND_ROBIN,STRICT"
bitfld.long 0x00 30. "  ORDERING_RULES                       ,VC0 TLP Type Ordering Rules - STRICT. - STANDARD." "STRICT,STANDARD"
bitfld.long 0x00 21.--23. "  P_QMODE                      ,VC0 Poster TLP Queue Mode Read 0x1: STORE_AND_FORWARD Read 0x2: CUT_THROUGH Read 0x4: BYPASS Others: Reserved" "0,1,2,3,4,5,6,7"
textline "                                             "
hexmask.long.byte 0x00 12.--19. 1. " P_HCRD                    ,VC0 Posted Header Credits"
hexmask.long.word 0x00 0.--11. 1. "           P_DCRD                               ,VC0 Posted Data Credits"
group.long 0x4C++0x3
line.long 0x00 "PCIECTRL_PL_VC0_NPR_Q_C,VC0 Non-Posted Receive Queue Control (Sticky)"
bitfld.long 0x00 21.--23. " NP_QMODE                  ,VC0 Non-Poster TLP Queue Mode Read 0x1: STORE_AND_FORWARD Read 0x2: CUT_THROUGH Read 0x4: BYPASS Others: Reserved" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 12.--19. 1. "            NP_HCRD                              ,VC0 Non-Posted Header Credits"
hexmask.long.word 0x00 0.--11. 1. "        NP_DCRD                      ,VC0 Non-Posted Data Credits"
group.long 0x50++0x3
line.long 0x00 "PCIECTRL_PL_VC0_CR_Q_C,VC0 Completion Receive Queue Control (Sticky)"
bitfld.long 0x00 21.--23. " CPL_QMODE                 ,VC0 Completion TLP Queue Mode Read 0x1: STORE_AND_FORWARD Read 0x2: CUT_THROUGH Read 0x4: BYPASS" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 12.--19. 1. "            CPL_HCRD                             ,VC0 Completion Header Credits"
hexmask.long.word 0x00 0.--11. 1. "        CPL_DCRD                     ,VC0 Completion Data Credits"
group.long 0x10C++0x3
line.long 0x00 "PCIECTRL_PL_WIDTH_SPEED_CTL,Link Width and Speed Change Control Register (Sticky)"
bitfld.long 0x00 20. " CFG_UP_SEL_DEEMPH         ,Used to set the de-emphasis level for Upstream Ports" "0,1"
bitfld.long 0x00 19. "            CFG_TX_COMPLIANCE_RCV                ,Config Tx Compliance Receive Bit" "0,1"
bitfld.long 0x00 18. "         CFG_PHY_TXSWING              ,Config PHY Tx Swing" "0,1"
textline "                                             "
bitfld.long 0x00 17. " CFG_DIRECTED_SPEED_CHANGE ,Directed Speed Change" "0,1"
hexmask.long.word 0x00 8.--16. 1. "            CFG_LANE_EN                          ,Predetermined Number of Lanes"
hexmask.long.byte 0x00 0.--7. 1. "      CFG_GEN2_N_FTS               ,Number of Fast Training Sequences"
rgroup.long 0x110++0x3
line.long 0x00 "PCIECTRL_PL_PHY_STS_R,PHY Status Register (Sticky)"
hexmask.long 0x00 0.--31. 1. " PHY_STS                   ,PHY Status"
group.long 0x114++0x3
line.long 0x00 "PCIECTRL_PL_PHY_CTRL_R,PHY Control Register (Sticky)"
hexmask.long 0x00 0.--31. 1. " PHY_CTRL                  ,PHY Control"
group.long 0x120++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_ADDRESS,MSI Controller Address Register (RC-mode MSI receiver)"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_ADDRESS          ,"
group.long 0x124++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_UPPER_ADDRESS,MSI Controller Upper Address Register (RC-mode MSI receiver)"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_UPPER_ADDRESS    ,"
group.long 0x188++0x3
line.long 0x00 "PCIECTRL_PL_MSI_CTRL_GPIO,MSI Controller General Purpose IO Register (RC-mode MSI receiver)"
hexmask.long 0x00 0.--31. 1. " MSI_CTRL_GPIO             ,"
group.long 0x1B8++0x3
line.long 0x00 "PCIECTRL_PL_PIPE_LOOPBACK,PIPE loopback control register (Sticky)"
bitfld.long 0x00 31. " LOOPBACK_EN               ,PIPE Loopback Enable" "0,1"
group.long 0x1BC++0x3
line.long 0x00 "PCIECTRL_PL_DBI_RO_WR_EN,DIF Read-Only register Write Enable (Sticky)"
bitfld.long 0x00 0. " CX_DBI_RO_WR_EN           ,Control the writability over DIF of certain configuration fields that are RO over the PCIe wire - WRDIS. - WREN." "WRDIS,WREN"
group.long 0x1D0++0x3
line.long 0x00 "PCIECTRL_PL_AXIS_SLV_ERR_RESP,AXI Slave Error Response Register (Sticky)"
bitfld.long 0x00 3. " RESET_TIMEOUT_ERR_MAP     ,Graceful Reset and Link Timeout Slave Error Response Mapping" "0,1"
bitfld.long 0x00 2. "            NO_VID_ERR_MAP                       ,Vendor ID Non-existent Slave Error Response Mapping" "0,1"
bitfld.long 0x00 1. "         DBI_ERR_MAP                  ,DIF Slave Error Response Mapping" "0,1"
textline "                                             "
bitfld.long 0x00 0. " SLAVE_ERR_MAP             ,Global Slave Error Response Mapping" "0,1"
group.long 0x1D4++0x3
line.long 0x00 "PCIECTRL_PL_AXIS_SLV_TIMEOUT,Link Down AXI Slave Timeout Register (Sticky)"
bitfld.long 0x00 8. " FLUSH_EN                  ,Enable flush" "0,1"
hexmask.long.byte 0x00 0.--7. 1. "            TIMEOUT_VALUE                        ,Timeout Value (ms)"
group.long 0x200++0x3
line.long 0x00 "PCIECTRL_PL_IATU_INDEX,iATU Viewport Register: makes the registers of the corresponding iATU region accessible."
bitfld.long 0x00 31. " REGION_DIRECTION          ,- OUTBOUND. - INBOUND." "OUTBOUND,INBOUND"
bitfld.long 0x00 0.--3. "     REGION_INDEX                         ,Outbound region, from 0 to 15. Inbound region, from 0 to 3." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x204++0x3
line.long 0x00 "PCIECTRL_PL_IATU_REG_CTRL_1,iATU Region Control 1 Register"
bitfld.long 0x00 20.--24. " FUNCTION_NUMBER           ,Outbound: F.N; applied to outgoing TLP (RID) with matching addess Inbound: F.N.-match criteria for incoming TLP (if Function_Number_match_enable=1)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--17. "           AT                                   ,Outbound: AT applied to outgoing TLP with matching addess Inbound: AT-match criteria for matching TLP (if AT_match_enable=1)" "0,1,2,3"
bitfld.long 0x00 9.--10. "         ATTR                         ,Outbound: ATTR applied to outgoing TLP with matching addess Inbound: ATTR-match criteria (if ATTR_match_enable=1)" "0,1,2,3"
textline "                                             "
bitfld.long 0x00 8. " TD                        ,Outbound: TD applied to outgoing TLP with matching addess Inbound: TD-match criteria (if TD_match_enable=1)" "0,1"
bitfld.long 0x00 5.--7. "            TC                                   ,Outbound: TC applied to outgoing TLP with matching addess Inbound: TC-match criteria (if TC_match_enable=1)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--4. "         TYPE                         ,Outbound: TYPE applied to outgoing TLP with matching addess Inbound: TYPE-match criteria" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x208++0x3
line.long 0x00 "PCIECTRL_PL_IATU_REG_CTRL_2,iATU Region Control 2 Register"
bitfld.long 0x00 31. " REGION_ENABLE             ,Enable AT for this region" "0,1"
bitfld.long 0x00 30. "            MATCH_MODE                           ,Sets inbound TLP match mode, depending on TYPE - _0. - _1." "_0,_1"
bitfld.long 0x00 29. "        INVERT_MODE                  ,Redefine match criteria as outside the defined range (instead of inside)" "0,1"
textline "                                             "
bitfld.long 0x00 28. " CFG_SHIFT_MODE            ,Enable the shifting of CFG CID (BDF), incoming and outgoing TLP; CFG get mapped to a contiguous 2**28 = 256 MByte address space Untranslated CID = CFG_DW#3[31:16] Shifted CID = CFG_DW#3[27:12]" "0,1"
bitfld.long 0x00 27. "            FUZZY_TYPE_MATCH_MODE                ,Outbound: DMA Bypass Mode Inbound: Relax matching on inbound TLP TYPE: CfgRd0 == CfgRd1 CfgWr0 == CfgWr1 MRd == MRdLk routing field of Msg/MsgD ignored" "0,1"
bitfld.long 0x00 24.--25. "         RESPONSE_CODE                ,Override HW-generated completion status when responding inbound TLP 0x0: No override, use HW-generated CS 0x1: Unsupported Request: CS= 3'b001 0x2: Completer Abort: CS= 3'b100" "0,1,2,3"
textline "                                             "
bitfld.long 0x00 21. " MESSAGE_CODE_MATCH_ENABLE ,Enable MessageCode match criteria on inbound TLP" "0,1"
bitfld.long 0x00 20. "            VIRTUAL_FUNCTION_NUMBER_MATCH_ENABLE ,VIRTUAL FUNCTIONS NOT IMPLEMENTED: NOT USED" "0,1"
bitfld.long 0x00 19. "         FUNCTION_NUMBER_MATCH_ENABLE ,Outbound: Function Number Translation Bypass Inbound: Enable Function Number match criteria" "0,1"
textline "                                             "
bitfld.long 0x00 18. " AT_MATCH_ENABLE           ,Enable AT match criteria on inbound TLP ATS NOT SUPPORTED: DO NOT USE" "0,1"
bitfld.long 0x00 16. "            ATTR_MATCH_ENABLE                    ,Enable ATTR match criteria on inbound TLP" "0,1"
bitfld.long 0x00 15. "         TD_MATCH_ENABLE              ,Enable TD match criteria on inbound TLP" "0,1"
textline "                                             "
bitfld.long 0x00 14. " TC_MATCH_ENABLE           ,Enable TC match criteria on inbound TLP" "0,1"
bitfld.long 0x00 8.--10. "            BAR_NUMBER                           ,BAR number for mayching with incoming MEM, I/O TLP (if Match_Mode = 1) 0x0: BAR0 0x1: BAR1 0x2: BAR2 0x3: BAR3 0x4: BAR4 0x5: BAR5 0x6: ROM" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "         MESSAGECODE                  ,Outbound: MessageCode applied to outgoing message TLP with matching addess Inbound: MessageCode-match criteria for infoming message TLP (if Message_Code_match_enable=1)"
group.long 0x20C++0x3
line.long 0x00 "PCIECTRL_PL_IATU_REG_LOWER_BASE,iATU Region Lower Base Address Register (2**12 = 4kbyte - aligned)"
hexmask.long.tbyte 0x00 12.--31. 1. " IATU_REG_LOWER_BASE       ,"
hexmask.long.word 0x00 0.--11. 1. "       ZERO                                 ,"
group.long 0x210++0x3
line.long 0x00 "PCIECTRL_PL_IATU_REG_UPPER_BASE,iATU Region Upper Base Address Register"
hexmask.long 0x00 0.--31. 1. " IATU_REG_UPPER_BASE       ,"
group.long 0x214++0x3
line.long 0x00 "PCIECTRL_PL_IATU_REG_LIMIT,iATU Region Limit Address Register"
hexmask.long.tbyte 0x00 12.--31. 1. " IATU_REG_LIMIT            ,"
hexmask.long.word 0x00 0.--11. 1. "       ONES                                 ,"
group.long 0x218++0x3
line.long 0x00 "PCIECTRL_PL_IATU_REG_LOWER_TARGET,iATU Region Lower Target Address Register (2**12 = 4kbyte - aligned)"
hexmask.long.tbyte 0x00 12.--31. 1. " IATU_REG_LOWER_TARGET     ,"
hexmask.long.word 0x00 0.--11. 1. "       ZERO                                 ,"
group.long 0x21C++0x3
line.long 0x00 "PCIECTRL_PL_IATU_REG_UPPER_TARGET,iATU Region Upper Target Address Register"
hexmask.long 0x00 0.--31. 1. " IATU_REG_UPPER_TARGET     ,"
rgroup.long 0x220++0x3
line.long 0x00 "PCIECTRL_PL_IATU_REG_CTRL_3,iATU Region Control 3 Register; VIRTUAL FUNCTIONS NOT IMPLEMENTED: NOT USED"
hexmask.long 0x00 0.--31. 1. " IATU_REG_CTRL_3           ,"
width 0x0B
tree.end
tree.end
tree.end
tree.open "DCAN"
tree.open "DCAN2"
tree "DCAN2"
base ad:0x48480000
width 15.
group.long 0x0++0x3
line.long 0x00 "DCAN_CTL,DCAN control register NOTE: The Bus-Off recovery sequence (refer to CAN specification) cannot be shortened by setting or resetting INIT bit. If the module goes Bus-Off, it will automatically set the INIT bit and stop all bus activities. When..."
bitfld.long 0x00 25. " WUBA        ,Automatic wake up on bus activity when in local power-down mode. Note: The CAN message, which initiates the bus activity, cannot be received. This means that the first message received in power down and automatic wake-up mode, will be..." "0,1"
bitfld.long 0x00 24. "                 PDR            ,Request for local low power-down mode" "0,1"
bitfld.long 0x00 20. "                 DE3           ,Enable DMA request line for IF3. Note: A pending DMA request for IF3 remains active until first access to one of the IF3 registers." "Disabled,Enabled"
textline "                        "
bitfld.long 0x00 19. " DE2         ,Enable DMA request line for IF2. Note: A pending DMA request for IF2 remains active until first access to one of the IF2 registers." "Disabled,Enabled"
bitfld.long 0x00 18. "          DE1            ,Enable DMA request line for IF1. Note: A pending DMA request for IF1 remains active until first access to one of the IF1 registers." "Disabled,Enabled"
bitfld.long 0x00 17. "          IE1           ,Interrupt line 1 enable" "0,1"
textline "                        "
bitfld.long 0x00 16. " INITDBG     ,Internal init state while debug access" "0,1"
bitfld.long 0x00 15. "                 SWR            ,Software reset enable. Note: To execute software reset, the following procedure is necessary:" "Normal_Operation,1"
bitfld.long 0x00 10.--13. "  PMD           ,Parityon/off Others: function enabled." "0,1,2,3,4,function_disabled,6,7,8,9,10,11,12,13,14,15"
textline "                        "
bitfld.long 0x00 9. " ABO         ,Auto-Bus-On enable" "0,1"
bitfld.long 0x00 8. "                 IDS            ,Interruption debug support enable" "0,1"
bitfld.long 0x00 7. "                 TEST          ,Test mode enable" "Normal_Operation,Test_Mode"
textline "                        "
bitfld.long 0x00 6. " CCE         ,Configuration change enable" "0,1"
bitfld.long 0x00 5. "                 DAR            ,Disable automatic retransmission" "0,1"
bitfld.long 0x00 3. "                 EIE           ,Error interrupt enable" "0,1"
textline "                        "
bitfld.long 0x00 2. " SIE         ,Status change interrupt enable" "0,1"
bitfld.long 0x00 1. "                 IE0            ,Interrupt line 0 enable" "0,1"
bitfld.long 0x00 0. "                 INIT          ,Initialization" "Normal_operation,1"
group.long 0x4++0x3
line.long 0x00 "DCAN_ES,Error and Status Register Interrupts are generated by bits PER, BOFF and EWARN (if EIE bit in is 1) and by bits WAKEUPPND, RXOK, TXOK, and LEC (if SIE bit in is 1). A change of bit EPASS will not generate an interrupt. Reading the clears the..."
bitfld.long 0x00 10. " PDA         ,Local power-down mode acknowledge" "0,1"
bitfld.long 0x00 9. "                 WAKEUPPND      ,Wake up pending. This bit can be used by the software to identify the DCAN as the source to wake up the system. This bit will be reset ifDCAN_ES is read." "0,1"
bitfld.long 0x00 8. "                 PER           ,Parity error detected. This bit will be reset ifDCAN_ES register is read." "No_effect,1"
textline "                        "
bitfld.long 0x00 7. " BOFF        ,Bus-Off state" "0,1"
bitfld.long 0x00 6. "                 EWARN          ,Warning state" "0,1"
bitfld.long 0x00 5. "                 EPASS         ,Error passive state" "0,1"
textline "                        "
bitfld.long 0x00 4. " RXOK        ,Received a message successfully. This bit will be reset ifDCAN_ES register is read." "0,1"
bitfld.long 0x00 3. "                 TXOK           ,Transmitted a message successfully. This bit will be reset ifDCAN_ES register is read." "0,1"
bitfld.long 0x00 0.--2. "                 LEC           ,Last error code. The LEC field indicates the type of the last error on the CAN bus. This field will be cleared to '0' when a message has been transferred (reception or transmission) without error." "No_error,1,2,3,4,5,6,7"
rgroup.long 0x8++0x3
line.long 0x00 "DCAN_ERRC,Error Counter Register"
bitfld.long 0x00 15. " RP          ,Receive error passive" "0,1"
hexmask.long.byte 0x00 8.--14. 1. "                 REC            ,Receive error counter. Actual state of the receive error counter"
hexmask.long.byte 0x00 0.--7. 1. "                TEC           ,Transmit error counter. Actual state of the transmit error counter"
group.long 0xC++0x3
line.long 0x00 "DCAN_BTR,Bit timing register This register is only writable if CCE and INIT bits in the are set. The CAN bit time may be programmed in the range of 8 to 25 time quanta The CAN time quantum may be programmed in the range of 1 to 1024 CAN_CLK periods."
bitfld.long 0x00 16.--19. " BRPE        ,Baud rate prescaler extension.alid programmed values are 0 to 15. .y programming BRPE the baud rate prescaler can be extended to values up to 1024. ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--14. "                TSEG2          ,Time segment after the sample pointalid programmed values are 0 to 7. .he actual TSeg2 value which is interpreted for the bit timing will be the programmed TSeg2 value + 1. ." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--11. "                 TSEG1         ,Time segment before the sample pointalid programmed values are 1 to15. .he actual TSeg1 value interpreted for the bit timing will be the programmed TSeg1 value + 1. ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                        "
bitfld.long 0x00 6.--7. " SJW         ,Synchronization Jump Widthalid programmed values are 0 to 3. .he actual SJW value interpreted for the synchronization will be the programmed SJW value + 1. ." "0,1,2,3"
bitfld.long 0x00 0.--5. "                 BRP            ,Baud rate prescaleralue by which the CAN_CLK frequency is divided for generating the bit time quanta. The bit time is built up from a multiple of this quanta. .alid programmed values are 0 to 63. .he actual BRP value in..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x10++0x3
line.long 0x00 "DCAN_INT,Interrupt register"
hexmask.long.byte 0x00 16.--23. 1. " INT1ID      ,Interrupt 1 Identifier (indicates the message object with the highest pending interrupt) 0x01-0x80: Number of message object which caused the interrupt.. 0x81-0xFF: Unused.f several interrupts are pending, will point to the pending interr..."
hexmask.long.word 0x00 0.--15. 1. "                INT0ID         ,Interrupt Identifier (the number here indicates the source of the interrupt) 0x0001-0x0080: Number of message object which caused the interrupt.. 0x0081-0x7FFF: Unused. 0x8001-0xFFFF: Unused.f several interrupts are pend..."
group.long 0x14++0x3
line.long 0x00 "DCAN_TEST,Test Register For all test modes, the TEST bit in control register needs to be set to 1. If TEST bit is set, the RDA, EXL, TX1, TX0, LBACK and SILENT bits are writable. Bit RX monitors the state of pin CAN_RX and therefore is only readable..."
bitfld.long 0x00 9. " RDA         ,RAM direct access enable" "Normal_operation,1"
bitfld.long 0x00 8. "  EXL            ,External loopback mode. When the internal loop-back mode is active (bit LBACK is set), bit EXL will be ignored." "Disabled,Enabled"
bitfld.long 0x00 7. "          RX            ,Receive pin. Monitors the actual value of the CAN_RX pin" "0,1"
textline "                        "
bitfld.long 0x00 5.--6. " TX          ,Control of CAN_TX pin. Setting Tx[1:0] other than '00' will disturb message transfer." "0,1,2,3"
bitfld.long 0x00 4. "                 LBACK          ,Loopback mode. When the internal loop-back mode is active (bit LBACK is set), bit EXL will be ignored." "Disabled,Enabled"
bitfld.long 0x00 3. "          SILENT        ,Silent mode" "Disabled,Enabled"
rgroup.long 0x1C++0x3
line.long 0x00 "DCAN_PERR,Parity Error Code Register If a parity error is detected, the PER flag will be set in the . This bit is not reset by the parity check mechanism; it must be reset by reading . In addition to the PER flag, the parity error code register will..."
bitfld.long 0x00 8.--10. " WORD_NUMBER ,Word number where parity error has been detectedDA word number (1 to 5) of the message object (according to the message RAM representation in RDA mode). ." "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "                 MESSAGE_NUMBER ,Message object number where parity error has been detected (0x01-0x80)"
rgroup.long 0x20++0x3
line.long 0x00 "DCAN_REL,Core revision register"
hexmask.long 0x00 0.--31. 1. " REVISION    ,DCAN core revision number"
group.long 0x80++0x3
line.long 0x00 "DCAN_ABOTR,Auto-Bus-On Time Register On write access to the while Auto-Bus-On timer is running, the Auto-Bus-On procedure will be aborted. During Debug/Suspend mode, running Auto-Bus-On timer will be paused."
hexmask.long 0x00 0.--31. 1. " ABO_TIME    ,Number of OCP clock cycles before a Bus-Off recovery sequence is started by clearing the INIT bit. This function has to be enabled by setting bit ABO inDCAN_CTL. The Auto-Bus-On timer is realized by a 32-bit counter which starts to count..."
rgroup.long 0x84++0x3
line.long 0x00 "DCAN_TXRQ_X,Transmission Request X Register The software can detect if one or more bits in the different transmission request registers are set. Each register bit represents a group of eight message objects. If at least one of the TxRqst bits of these..."
bitfld.long 0x00 14.--15. " TXRQSTREG8  ,Transmission request bits (aggregate for 113-128 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 12.--13. "                 TXRQSTREG7     ,Transmission request bits (aggregate for 97-112 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 10.--11. "                 TXRQSTREG6    ,Transmission request bits (aggregate for 81-96 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
textline "                        "
bitfld.long 0x00 8.--9. " TXRQSTREG5  ,Transmission request bits (aggregate for 65-80 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 6.--7. "                 TXRQSTREG4     ,Transmission request bits (aggregate for 49-64 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 4.--5. "                 TXRQSTREG3    ,Transmission request bits (aggregate for 33-48 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
textline "                        "
bitfld.long 0x00 2.--3. " TXRQSTREG2  ,Transmission request bits (aggregate for 17-32 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 0.--1. "                 TXRQSTREG1     ,Transmission request bits (aggregate for 1-16 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
rgroup.long 0x88++0x3
line.long 0x00 "DCAN_TXRQ12,Transmission Request Register This register holds the TxRqst bits of the implemented message objects. By reading out these bits, the software can check for pending transmission requests. The TxRqst bit in a specific message object can be..."
hexmask.long 0x00 0.--31. 1. " TXRQS       ,Transmission request bits (for 1-32 message objects) 0: No transmission has been requested for this message object. 1: The transmission of this message object is requested and is not yet done."
rgroup.long 0x8C++0x3
line.long 0x00 "DCAN_TXRQ34,Transmission Request Register This register holds the TxRqst bits of the implemented message objects. By reading out these bits, the software can check for pending transmission requests. The TxRqst bit in a specific message object can be..."
hexmask.long 0x00 0.--31. 1. " TXRQS       ,Transmission request bits (for 33-64 message objects) 0: No transmission has been requested for this message object. 1: The transmission of this message object is requested and is not yet done."
rgroup.long 0x90++0x3
line.long 0x00 "DCAN_TXRQ56,Transmission Request Register This register holds the TxRqst bits of the implemented message objects. By reading out these bits, the software can check for pending transmission requests. The TxRqst bit in a specific message object can be..."
hexmask.long 0x00 0.--31. 1. " TXRQS       ,Transmission request bits (for 65-96 message objects) 0: No transmission has been requested for this message object. 1: The transmission of this message object is requested and is not yet done."
rgroup.long 0x94++0x3
line.long 0x00 "DCAN_TXRQ78,Transmission Request Register This register holds the TxRqst bits of the implemented message objects. By reading out these bits, the software can check for pending transmission requests. The TxRqst bit in a specific message object can be..."
hexmask.long 0x00 0.--31. 1. " TXRQS       ,Transmission request bits (for 97-128 message objects) 0: No transmission has been requested for this message object. 1: The transmission of this message object is requested and is not yet done."
rgroup.long 0x98++0x3
line.long 0x00 "DCAN_NWDAT_X,New Data X Register With the new data X register, the software can detect if one or more bits in the different new data registers are set. Each register bit represents a group of eight message objects. If at least on of the NewDat bits of..."
bitfld.long 0x00 14.--15. " NEWDATREG8  ,New data bits (aggregate for 113-128 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 12.--13. "                 NEWDATREG7     ,New data bits (aggregate for 97-112 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 10.--11. "                 NEWDATREG6    ,New data bits (aggregate for 81-96 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
textline "                        "
bitfld.long 0x00 8.--9. " NEWDATREG5  ,New data bits (aggregate for 65-80 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 6.--7. "                 NEWDATREG4     ,New data bits (aggregate for 49-64 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 4.--5. "                 NEWDATREG3    ,New data bits (aggregate for 33-48 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
textline "                        "
bitfld.long 0x00 2.--3. " NEWDATREG2  ,New data bits (aggregate for 17-32 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 0.--1. "                 NEWDATREG1     ,New data bits (aggregate for 1-16 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
rgroup.long 0x9C++0x3
line.long 0x00 "DCAN_NWDAT12,New Data Register This register hold the NewDat bits of the implemented message objects. By reading out these bits, the software can check for new data in the message objects. The NewDat bit of a specific message object can be set/reset by..."
hexmask.long 0x00 0.--31. 1. " NEWDAT      ,New Data Bits (for 1-32 message objects) 0: No new data has been written into the data portion of this message object by the Message Handler since the last time when this flag was cleared by the software. 1: The Message Handler or the..."
rgroup.long 0xA0++0x3
line.long 0x00 "DCAN_NWDAT34,New Data Register This register hold the NewDat bits of the implemented message objects. By reading out these bits, the software can check for new data in the message objects. The NewDat bit of a specific message object can be set/reset by..."
hexmask.long 0x00 0.--31. 1. " NEWDAT      ,New Data Bits (for 33-64 message objects) 0: No new data has been written into the data portion of this message object by the Message Handler since the last time when this flag was cleared by the software. 1: The Message Handler or the..."
rgroup.long 0xA4++0x3
line.long 0x00 "DCAN_NWDAT56,New Data Register This register hold the NewDat bits of the implemented message objects. By reading out these bits, the software can check for new data in the message objects. The NewDat bit of a specific message object can be set/reset by..."
hexmask.long 0x00 0.--31. 1. " NEWDAT      ,New Data Bits (for 65-96 message objects) 0: No new data has been written into the data portion of this message object by the Message Handler since the last time when this flag was cleared by the software. 1: The Message Handler or the..."
rgroup.long 0xA8++0x3
line.long 0x00 "DCAN_NWDAT78,New Data Register This register hold the NewDat bits of the implemented message objects. By reading out these bits, the software can check for new data in the message objects. The NewDat bit of a specific message object can be set/reset by..."
hexmask.long 0x00 0.--31. 1. " NEWDAT      ,New Data Bits (for 97-128 message objects) 0: No new data has been written into the data portion of this message object by the Message Handler since the last time when this flag was cleared by the software. 1: The Message Handler or the..."
rgroup.long 0xAC++0x3
line.long 0x00 "DCAN_INTPND_X,Interrupt Pending X Register With the interrupt pending X register, the software can detect if one or more bits in the different interrupt pending registers are set. Each bit of this register represents a group of eight message objects..."
bitfld.long 0x00 14.--15. " INTPNDREG8  ,Interrupt Pending bits (aggregate for 113-128 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 12.--13. "                 INTPNDREG7     ,Interrupt Pending bits (aggregate for 97-112 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 10.--11. "                 INTPNDREG6    ,Interrupt Pendingbits (aggregate for 81-96 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
textline "                        "
bitfld.long 0x00 8.--9. " INTPNDREG5  ,Interrupt Pending bits (aggregate for 65-80 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 6.--7. "                 INTPNDREG4     ,Interrupt Pending bits (aggregate for 49-64 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 4.--5. "                 INTPNDREG3    ,Interrupt Pending bits (aggregate for 33-48 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
textline "                        "
bitfld.long 0x00 2.--3. " INTPNDREG2  ,Interrupt Pending bits (aggregate for 17-32 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 0.--1. "                 INTPNDREG1     ,Interrupt Pending bits (aggregate for 1-16 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
rgroup.long 0xB0++0x3
line.long 0x00 "DCAN_INTPND12,Interrupt Pending Register This register holds the IntPnd bits of the implemented message objects. By reading out these bits, the software can check for pending interrupts in the message objects. The IntPnd bit of a specific message..."
hexmask.long 0x00 0.--31. 1. " INTPND      ,Interrupt Pending Bits (for 1-32 message objects)"
rgroup.long 0xB4++0x3
line.long 0x00 "DCAN_INTPND34,Interrupt Pending Register This register holds the IntPnd bits of the implemented message objects. By reading out these bits, the software can check for pending interrupts in the message objects. The IntPnd bit of a specific message..."
hexmask.long 0x00 0.--31. 1. " INTPND      ,Interrupt Pending Bits (for 33-64 message objects)"
rgroup.long 0xB8++0x3
line.long 0x00 "DCAN_INTPND56,Interrupt Pending Register This register holds the IntPnd bits of the implemented message objects. By reading out these bits, the software can check for pending interrupts in the message objects. The IntPnd bit of a specific message..."
hexmask.long 0x00 0.--31. 1. " INTPND      ,Interrupt Pending Bits (for 65-96 message objects)"
rgroup.long 0xBC++0x3
line.long 0x00 "DCAN_INTPND78,Interrupt Pending Register This register holds the IntPnd bits of the implemented message objects. By reading out these bits, the software can check for pending interrupts in the message objects. The IntPnd bit of a specific message..."
hexmask.long 0x00 0.--31. 1. " INTPND      ,Interrupt Pending Bits (for 97-128 message objects)"
rgroup.long 0xC0++0x3
line.long 0x00 "DCAN_MSGVAL_X,Message Valid X Register With the message valid X register, the software can detect if one or more bits in the different message valid registers are set. Each bit of this register represents a group of eight message objects. If at least..."
bitfld.long 0x00 14.--15. " MSGVALREG8  ,Message valid bits (aggregate for 113-128 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 12.--13. "                 MSGVALREG7     ,Message valid bits (aggregate for 97-112 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 10.--11. "                 MSGVALREG6    ,Message valid bits (aggregate for 81-96 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
textline "                        "
bitfld.long 0x00 8.--9. " MSGVALREG5  ,Message valid bits (aggregate for 65-80 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 6.--7. "                 MSGVALREG4     ,Message valid bits (aggregate for 49-64 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 4.--5. "                 MSGVALREG3    ,Message valid bits (aggregate for 33-48 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
textline "                        "
bitfld.long 0x00 2.--3. " MSGVALREG2  ,Message valid bits (aggregate for 17-32 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 0.--1. "                 MSGVALREG1     ,Message valid bits (aggregate for 1-16 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
rgroup.long 0xC4++0x3
line.long 0x00 "DCAN_MSGVAL12,Message Valid Register These registers hold the MsgVal bits of the implemented message objects. By reading out these bits, the software can check which message objects are valid. The MsgVal bit of a specific message object can be..."
hexmask.long 0x00 0.--31. 1. " MSGVAL      ,Message valid Bits (for 1-32 message objects)"
rgroup.long 0xC8++0x3
line.long 0x00 "DCAN_MSGVAL34,Message Valid Register These registers hold the MsgVal bits of the implemented message objects. By reading out these bits, the software can check which message objects are valid. The MsgVal bit of a specific message object can be..."
hexmask.long 0x00 0.--31. 1. " MSGVAL      ,Message valid Bits (for 33-64 message objects)"
rgroup.long 0xCC++0x3
line.long 0x00 "DCAN_MSGVAL56,Message Valid Register These registers hold the MsgVal bits of the implemented message objects. By reading out these bits, the software can check which message objects are valid. The MsgVal bit of a specific message object can be..."
hexmask.long 0x00 0.--31. 1. " MSGVAL      ,Message valid Bits (for 65-96 message objects)"
rgroup.long 0xD0++0x3
line.long 0x00 "DCAN_MSGVAL78,Message Valid Register These registers hold the MsgVal bits of the implemented message objects. By reading out these bits, the software can check which message objects are valid. The MsgVal bit of a specific message object can be..."
hexmask.long 0x00 0.--31. 1. " MSGVAL      ,Message valid Bits (for 97-128 message objects)"
group.long 0xD8++0x3
line.long 0x00 "DCAN_INTMUX12,Interrupt Multiplexer Register The IntMux flag determine for each message object, which of the two interrupt lines (INT0 or INT1) will be asserted when the IntPnd of this message object is set. Both interrupt lines can be globally enabled..."
hexmask.long 0x00 0.--31. 1. " INTMUX      ,Multiplexes IntPnd value to either INT0 or INT1 interrupt lines (bit 0 -> last implemented message object) ( bits 1:31 -> 1-31 message objects)"
group.long 0xDC++0x3
line.long 0x00 "DCAN_INTMUX34,Interrupt Multiplexer Register The IntMux flag determine for each message object, which of the two interrupt lines (INT0 or INT1) will be asserted when the IntPnd of this message object is set. Both interrupt lines can be globally enabled..."
hexmask.long 0x00 0.--31. 1. " INTMUX      ,Multiplexes IntPnd value to either INT0 or INT1 interrupt lines ( bits 0:31 -> 32-63 message objects)"
group.long 0xE0++0x3
line.long 0x00 "DCAN_INTMUX56,Interrupt Multiplexer Register The IntMux flag determine for each message object, which of the two interrupt lines (INT0 or INT1) will be asserted when the IntPnd of this message object is set. Both interrupt lines can be globally enabled..."
hexmask.long 0x00 0.--31. 1. " INTMUX      ,Multiplexes IntPnd value to either INT0 or INT1 interrupt lines ( bits 0:31 -> 64-95 message objects)"
group.long 0xE4++0x3
line.long 0x00 "DCAN_INTMUX78,Interrupt Multiplexer Register The IntMux flag determine for each message object, which of the two interrupt lines (INT0 or INT1) will be asserted when the IntPnd of this message object is set. Both interrupt lines can be globally enabled..."
hexmask.long 0x00 0.--31. 1. " INTMUX      ,Multiplexes IntPnd value to either INT0 or INT1 interrupt lines ( bits 0:31 -> 96-127 message objects)"
group.long 0x100++0x3
line.long 0x00 "DCAN_IF1CMD,IF1 Command Register The IF1 Command Register () configure and initiate the transfer between the IF1 register set and the message RAM. It is configurable which portions of the message object should be transferred. A transfer is started when..."
bitfld.long 0x00 23. " WR_RD       ,Write/Read" "0,1"
bitfld.long 0x00 22. "                 MASK           ,Access mask bits" "0,1"
bitfld.long 0x00 21. "                 ARB           ,Access arbitration bits" "0,1"
textline "                        "
bitfld.long 0x00 20. " CONTROL     ,Access control bitsf the TXRQST_NEWDAT bit in this register(Bit [18]) is set, the TXRQST/ NEWDAT bits in the will be ignored. ." "0,1"
bitfld.long 0x00 19. "                 CLRINTPND      ,Clear interrupt pending bit" "0,1"
bitfld.long 0x00 18. "                 TXRQST_NEWDAT ,Access transmission request bit Note: If a CAN transmission is requested by setting TXRQST_NEWDAT in this register, the TxRqst/NewDat bits in the message object will be set to one independent of the values in..." "0,1"
textline "                        "
bitfld.long 0x00 17. " DATA_A      ,Access Data Bytes 0-3 Note: The duration of the message transfer is independent of the number of bytes to be transferred.." "0,1"
bitfld.long 0x00 16. "                 DATA_B         ,Access Data Bytes 4-7 Note: The duration of the message transfer is independent of the number of bytes to be transferred.." "0,1"
bitfld.long 0x00 15. "                 BUSY          ,Busy flag This bit is set to one after the message number has been written to bits [7:0] MESSAGE_NUMBER. IF1 register set will be write protected. The bit is cleared after read/write action has been finished.." "0,1"
textline "                        "
bitfld.long 0x00 14. " DMAACTIVE   ,Activation of DMA feature for subsequent internal IF1 updatehe DMA request remains active until the first read or write to one of the IF1 registers; an exception is a write to MESSAGE_NUMBER when DMAACTIVE is one. . Note: Due to the auto..." "0,1"
hexmask.long.byte 0x00 0.--7. 1. "                 MESSAGE_NUMBER ,Number of message object in message RAM which is used for data transfer 0x01-0x80: Valid message numbers. 0x81-0xFF: Invalid message numbers."
group.long 0x104++0x3
line.long 0x00 "DCAN_IF1MSK,IF1 Mask Register The bits of the IF1/IF2 mask registers mirror the mask bits of a message object. The function of the relevant message objects bits is described in Structure of Message Objects. While BUSY bit of / register is one, IF1/IF2..."
bitfld.long 0x00 31. " MXTD        ,Mask Extended Identifier When 11-bit (?standard?) identifiers are used for a message object, the identifiers of received data frames are written into bits ID[28:18]. For acceptance filtering, only these bits together with mask bits..." "0,1"
bitfld.long 0x00 30. "                 MDIR           ,Mask Message Direction" "0,1"
hexmask.long 0x00 0.--28. 1. "                 MSK           ,Identifier Mask"
group.long 0x108++0x3
line.long 0x00 "DCAN_IF1ARB,IF1 arbitration register The Arbitration bits ID[28:0], XTD, and DIR are used to define the identifier and type of outgoing messages and (together with the mask bits MSK[28:0], MXTD, and MDIR) for acceptance filtering of incoming messages..."
bitfld.long 0x00 31. " MSGVAL      ,Message validhe software should reset the MsgVal bit of all unused Messages Objects during the initialization before it resets bit INIT in the. This bit must also be reset if the messages object is no longer required. ." "0,1"
bitfld.long 0x00 30. "                 XTD            ,Extended identifier" "0,1"
bitfld.long 0x00 29. "                 DIR           ,Message direction" "0,1"
textline "                        "
hexmask.long 0x00 0.--28. 1. " ID          ,Message identifierID[28:0]: 29-bit identifier (extended frame). ID[28:18]: 11-bit identifier (standard frame)."
group.long 0x10C++0x3
line.long 0x00 "DCAN_IF1MCTL,IF1 Message Control Register The bits of the IF1/IF2 message control registers mirror the message control bits of a message object. The function of the relevant message objects bits is described in Structure of Message Objects While BUSY..."
bitfld.long 0x00 15. " NEWDAT      ,New data" "0,1"
bitfld.long 0x00 14. "                 MSGLST         ,Message lost (only valid for message objects with direction = receive)" "0,1"
bitfld.long 0x00 13. "                 INTPND        ,Interrupt pending" "0,1"
textline "                        "
bitfld.long 0x00 12. " UMASK       ,Use acceptance maskf the UMASK bit is set to one, the message object's mask bits have to be programmed during initialization of the message object before MsgVal is set to one. ." "Mask_ignored,1"
bitfld.long 0x00 11. "      TXIE           ,Transmit interrupt enable" "0,1"
bitfld.long 0x00 10. "                 RXIE          ,Receive interrupt enable" "0,1"
textline "                        "
bitfld.long 0x00 9. " RMTEN       ,Remote enable" "0,1"
bitfld.long 0x00 8. "                 TXRQST         ,Transmit request" "0,1"
bitfld.long 0x00 7. "                 EOB           ,End of Block Note: This bit is used to concatenate multiple message objects to build a FIFO Buffer. For single message objects (not belonging to a FIFO Buffer), this bit must always be set to 1.." "0,1"
textline "                        "
bitfld.long 0x00 0.--3. " DLC         ,Data length code0-8: Data frame has 0-8 data bytes..-15 Data frame has 8 data bytes. . Note: The data length code of a message object must be defined the same as in all the corresponding objects with the same identifier at other nodes..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x110++0x3
line.long 0x00 "DCAN_IF1DATA,IF1 Data A Register The data bytes of CAN messages are stored in the IF1/IF2 registers in the following order: In a CAN data frame, Data 0 is the first, and Data 7 is the last byte to be transmitted or received. In CAN's serial bit stream..."
hexmask.long.byte 0x00 24.--31. 1. " DATA_3      ,Data byte 3"
hexmask.long.byte 0x00 16.--23. 1. "                DATA_2         ,Data byte 2"
hexmask.long.byte 0x00 8.--15. 1. "                DATA_1        ,Data byte 1"
textline "                        "
hexmask.long.byte 0x00 0.--7. 1. " DATA_0      ,Data byte 0"
group.long 0x114++0x3
line.long 0x00 "DCAN_IF1DATB,IF1 Data B Register The data bytes of CAN messages are stored in the IF1/IF2 registers in the following order: In a CAN data frame, Data 0 is the first, and Data 7 is the last byte to be transmitted or received. In CAN's serial bit stream..."
hexmask.long.byte 0x00 24.--31. 1. " DATA_7      ,Data byte 7"
hexmask.long.byte 0x00 16.--23. 1. "                DATA_6         ,Data byte 6"
hexmask.long.byte 0x00 8.--15. 1. "                DATA_5        ,Data byte 5"
textline "                        "
hexmask.long.byte 0x00 0.--7. 1. " DATA_4      ,Data byte 4"
group.long 0x120++0x3
line.long 0x00 "DCAN_IF2CMD,IF2 Command Register The IF2 Command Register () configure and initiate the transfer between the IF2 register set and the message RAM. It is configurable which portions of the message object should be transferred. A transfer is started when..."
bitfld.long 0x00 23. " WR_RD       ,Write/Read" "0,1"
bitfld.long 0x00 22. "                 MASK           ,Access mask bits" "0,1"
bitfld.long 0x00 21. "                 ARB           ,Access arbitration bits" "0,1"
textline "                        "
bitfld.long 0x00 20. " CONTROL     ,Access control bitsf the TXRQST_NEWDAT bit in this register(Bit [18]) is set, the TXRQST/ NEWDAT bits in the/ will be ignored. ." "0,1"
bitfld.long 0x00 19. "                 CLRINTPND      ,Clear interrupt pending bit" "0,1"
bitfld.long 0x00 18. "                 TXRQST_NEWDAT ,Access transmission request bit Note: If a CAN transmission is requested by setting TXRQST_NEWDAT in this register, the TxRqst/NewDat bits in the message object will be set to one independent of the values in/..." "0,1"
textline "                        "
bitfld.long 0x00 17. " DATA_A      ,Access Data Bytes 0-3 Note: The duration of the message transfer is independent of the number of bytes to be transferred.." "0,1"
bitfld.long 0x00 16. "                 DATA_B         ,Access Data Bytes 4-7 Note: The duration of the message transfer is independent of the number of bytes to be transferred.." "0,1"
bitfld.long 0x00 15. "                 BUSY          ,Busy flag This bit is set to one after the message number has been written to bits [7:0] MESSAGE_NUMBER. IF2 register set will be write protected. The bit is cleared after read/write action has been finished.." "0,1"
textline "                        "
bitfld.long 0x00 14. " DMAACTIVE   ,Activation of DMA feature for subsequent internal IF2 updatehe DMA request remains active until the first read or write to one of the IF2 registers; an exception is a write to MESSAGE_NUMBER when DMAACTIVE is one. . Note: Due to the auto..." "0,1"
hexmask.long.byte 0x00 0.--7. 1. "                 MESSAGE_NUMBER ,Number of message object in message RAM which is used for data transfer 0x01-0x80: Valid message numbers. 0x81-0xFF: Invalid message numbers."
group.long 0x124++0x3
line.long 0x00 "DCAN_IF2MSK,IF2 Mask Register The bits of the IF1/IF2 mask registers mirror the mask bits of a message object. The function of the relevant message objects bits is described in Structure of Message Objects. While BUSY bit of / register is one, IF1/IF2 ..."
bitfld.long 0x00 31. " MXTD        ,Mask Extended Identifier When 11-bit (?standard?) identifiers are used for a message object, the identifiers of received data frames are written into bits ID[28:18]. For acceptance filtering, only these bits together with mask bits..." "0,1"
bitfld.long 0x00 30. "                 MDIR           ,Mask Message Direction" "0,1"
hexmask.long 0x00 0.--28. 1. "                 MSK           ,Identifier Mask"
group.long 0x128++0x3
line.long 0x00 "DCAN_IF2ARB,IF2 arbitration register The Arbitration bits ID[28:0], XTD, and DIR are used to define the identifier and type of outgoing messages and (together with the mask bits MSK[28:0], MXTD, and MDIR) for acceptance filtering of incoming messages..."
bitfld.long 0x00 31. " MSGVAL      ,Message validhe software should reset the MsgVal bit of all unused Messages Objects during the initialization before it resets bit INIT in the. This bit must also be reset if the messages object is no longer required. ." "0,1"
bitfld.long 0x00 30. "                 XTD            ,Extended identifier" "0,1"
bitfld.long 0x00 29. "                 DIR           ,Message direction" "0,1"
textline "                        "
hexmask.long 0x00 0.--28. 1. " ID          ,Message identifierID[28:0]: 29-bit identifier (extended frame). ID[28:18]: 11-bit identifier (standard frame)."
group.long 0x12C++0x3
line.long 0x00 "DCAN_IF2MCTL,IF2 Message Control Register The bits of the IF1/IF2 message control registers mirror the message control bits of a message object. The function of the relevant message objects bits is described in Structure of Message Objects While BUSY..."
bitfld.long 0x00 15. " NEWDAT      ,New data" "0,1"
bitfld.long 0x00 14. "                 MSGLST         ,Message lost (only valid for message objects with direction = receive)" "0,1"
bitfld.long 0x00 13. "                 INTPND        ,Interrupt pending" "0,1"
textline "                        "
bitfld.long 0x00 12. " UMASK       ,Use acceptance maskf the UMask bit is set to one, the message object's mask bits have to be programmed during initialization of the message object before MsgVal is set to one. ." "Mask_ignored,1"
bitfld.long 0x00 11. "      TXIE           ,Transmit interrupt enable" "0,1"
bitfld.long 0x00 10. "                 RXIE          ,Receive interrupt enable" "0,1"
textline "                        "
bitfld.long 0x00 9. " RMTEN       ,Remote enable" "0,1"
bitfld.long 0x00 8. "                 TXRQST         ,Transmit request" "0,1"
bitfld.long 0x00 7. "                 EOB           ,End of Block Note: This bit is used to concatenate multiple message objects to build a FIFO Buffer. For single message objects (not belonging to a FIFO Buffer), this bit must always be set to one.." "0,1"
textline "                        "
bitfld.long 0x00 0.--3. " DLC         ,Data length code0-8: Data frame has 0-8 data bytes..-15 Data frame has 8 data bytes. . Note: The data length code of a message object must be defined the same as in all the corresponding objects with the same identifier at other nodes..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x130++0x3
line.long 0x00 "DCAN_IF2DATA,IF2 Data A Register The data bytes of CAN messages are stored in the IF1/IF2 registers in the following order: In a CAN data frame, Data 0 is the first, and Data 7 is the last byte to be transmitted or received. In CAN's serial bit stream..."
hexmask.long.byte 0x00 24.--31. 1. " DATA_3      ,Data byte 3"
hexmask.long.byte 0x00 16.--23. 1. "                DATA_2         ,Data byte 2"
hexmask.long.byte 0x00 8.--15. 1. "                DATA_1        ,Data byte 1"
textline "                        "
hexmask.long.byte 0x00 0.--7. 1. " DATA_0      ,Data byte 0"
group.long 0x134++0x3
line.long 0x00 "DCAN_IF2DATB,IF2 Data B Register The data bytes of CAN messages are stored in the IF1/IF2 registers in the following order: In a CAN data frame, Data 0 is the first, and Data 7 is the last byte to be transmitted or received. In CAN's serial bit stream..."
hexmask.long.byte 0x00 24.--31. 1. " DATA_7      ,Data byte 7"
hexmask.long.byte 0x00 16.--23. 1. "                DATA_6         ,Data byte 6"
hexmask.long.byte 0x00 8.--15. 1. "                DATA_5        ,Data byte 5"
textline "                        "
hexmask.long.byte 0x00 0.--7. 1. " DATA_4      ,Data byte 4"
group.long 0x140++0x3
line.long 0x00 "DCAN_IF3OBS,IF3 Observation Register The IF3 register set can automatically be updated with received message objects without the need to initiate the transfer from message RAM by software (Additional information can be found in NOTE: If IF3 Update..."
bitfld.long 0x00 15. " IF3_UPD     ,IF3 Update Data" "0,1"
bitfld.long 0x00 12. "                 IF3_SDB        ,IF3 Status of Data B read access" "0,1"
bitfld.long 0x00 11. "                 IF3_SDA       ,IF3 Status of Data A read access" "0,1"
textline "                        "
bitfld.long 0x00 10. " IF3_SC      ,IF3 Status of control bits read access" "0,1"
bitfld.long 0x00 9. "                 IF3_SA         ,IF3 Status of Arbitration data read access" "0,1"
bitfld.long 0x00 8. "                 IF3_SM        ,IF3 Status of Mask data read access" "0,1"
textline "                        "
bitfld.long 0x00 4. " DATAB       ,Data B read observation" "0,1"
bitfld.long 0x00 3. "                 DATAA          ,Data A read observation" "0,1"
bitfld.long 0x00 2. "                 CTRL          ,Ctrl read observation" "0,1"
textline "                        "
bitfld.long 0x00 1. " ARB         ,Arbitration data read observation" "0,1"
bitfld.long 0x00 0. "                 MASK           ,Mask data read observation" "0,1"
group.long 0x144++0x3
line.long 0x00 "DCAN_IF3MSK,IF3 Mask Register"
bitfld.long 0x00 31. " MXTD        ,Mask Extended Identifier When 11-bit (?standard?) identifiers are used for a message object, the identifiers of received data frames are written into bits ID[28:18]. For acceptance filtering, only these bits together with mask bits..." "0,1"
bitfld.long 0x00 30. "                 MDIR           ,Mask Message Direction" "0,1"
hexmask.long 0x00 0.--28. 1. "                 MSK           ,Identifier Mask"
rgroup.long 0x148++0x3
line.long 0x00 "DCAN_IF3ARB,IF3 Arbitration Register"
bitfld.long 0x00 31. " MSGVAL      ,Message Valid The software should reset the MsgVal bit of all unused Messages Objects during the initialization before it resets bit INIT in the. This bit must also be reset before the identifier ID[28:0], the control bits Xtd, Dir or DLC..." "0,1"
bitfld.long 0x00 30. "                 XTD            ,Extended Identifier" "0,1"
bitfld.long 0x00 29. "                 DIR           ,Message Direction" "0,1"
textline "                        "
hexmask.long 0x00 0.--28. 1. " ID          ,Message IdentifierID[28:0]: 29-bit Identifier (?extended frame?). ID[28:18]: 11-bit Identifier (?standard frame?)."
rgroup.long 0x14C++0x3
line.long 0x00 "DCAN_IF3MCTL,IF3 Message Control Register"
bitfld.long 0x00 15. " NEWDAT      ,New Data" "0,1"
bitfld.long 0x00 14. "                 MSGLST         ,Message Lost (only valid for message objects with direction = receive)" "0,1"
bitfld.long 0x00 13. "                 INTPND        ,Interrupt Pending" "0,1"
textline "                        "
bitfld.long 0x00 12. " UMASK       ,Use Acceptance Maskf the UMASK bit is set to one, the message object's mask bits have to be programmed during initialization of the message object before MsgVal is set to one. ." "Mask_ignored,1"
bitfld.long 0x00 11. "      TXIE           ,Transmit Interrupt enable" "0,1"
bitfld.long 0x00 10. "                 RXIE          ,Receive Interrupt enable" "0,1"
textline "                        "
bitfld.long 0x00 9. " RMTEN       ,Remote enable" "0,1"
bitfld.long 0x00 8. "                 TXRQST         ,Transmit Request" "0,1"
bitfld.long 0x00 7. "                 EOB           ,End of Block Note: This bit is used to concatenate multiple message objects to build a FIFO Buffer. For single message objects (not belonging to a FIFO Buffer), this bit must always be set to one." "0,1"
textline "                        "
bitfld.long 0x00 0.--3. " DLC         ,Data Length Code0-8: Data frame has 0-8 data bits.. 9-15: Data frame has 8 data bytes.. Note: The data length code of a message object must be defined the same as in all the corresponding objects with the same identifier at other nodes..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x150++0x3
line.long 0x00 "DCAN_IF3DATA,IF3 Data A The data bytes of CAN messages are stored in the IF3 registers in the following order: In a CAN data frame, Data 0 is the first, and Data 7 is the last byte to be transmitted or received. In CAN's serial bit stream, the MSB of..."
hexmask.long.byte 0x00 24.--31. 1. " DATA_3      ,Data byte 3"
hexmask.long.byte 0x00 16.--23. 1. "                DATA_2         ,Data byte 2"
hexmask.long.byte 0x00 8.--15. 1. "                DATA_1        ,Data byte 1"
textline "                        "
hexmask.long.byte 0x00 0.--7. 1. " DATA_0      ,Data byte 0"
rgroup.long 0x154++0x3
line.long 0x00 "DCAN_IF3DATB,IF3 Data B The data bytes of CAN messages are stored in the IF3 registers in the following order: In a CAN data frame, Data 0 is the first, and Data 7 is the last byte to be transmitted or received. In CAN's serial bit stream, the MSB of..."
hexmask.long.byte 0x00 24.--31. 1. " DATA_7      ,Data byte 7"
hexmask.long.byte 0x00 16.--23. 1. "                DATA_6         ,Data byte 6"
hexmask.long.byte 0x00 8.--15. 1. "                DATA_5        ,Data byte 5"
textline "                        "
hexmask.long.byte 0x00 0.--7. 1. " DATA_4      ,Data byte 4"
group.long 0x160++0x3
line.long 0x00 "DCAN_IF3UPD12,Update Enable Register The automatic update functionality of the IF3 register set can be configured for each message object. A message object is enabled for automatic IF3 update, if the dedicated IF3UPDEN flag is set. This means that an..."
hexmask.long 0x00 0.--31. 1. " IF3UPDEN    ,IF3 Update Enabled (for 1-32 message objects)"
group.long 0x164++0x3
line.long 0x00 "DCAN_IF3UPD34,Update Enable Register The automatic update functionality of the IF3 register set can be configured for each message object. A message object is enabled for automatic IF3 update, if the dedicated IF3UPDEN flag is set. This means that an..."
hexmask.long 0x00 0.--31. 1. " IF3UPDEN    ,IF3 Update Enabled (for 33-64 message objects)"
group.long 0x168++0x3
line.long 0x00 "DCAN_IF3UPD56,Update Enable Register The automatic update functionality of the IF3 register set can be configured for each message object. A message object is enabled for automatic IF3 update, if the dedicated IF3UPDEN flag is set. This means that an..."
hexmask.long 0x00 0.--31. 1. " IF3UPDEN    ,IF3 Update Enabled (for 65-96 message objects)"
group.long 0x16C++0x3
line.long 0x00 "DCAN_IF3UPD78,Update Enable Register The automatic update functionality of the IF3 register set can be configured for each message object. A message object is enabled for automatic IF3 update, if the dedicated IF3UPDEN flag is set. This means that an..."
hexmask.long 0x00 0.--31. 1. " IF3UPDEN    ,IF3 Update Enabled (for 97-128 message objects)"
group.long 0x1E0++0x3
line.long 0x00 "DCAN_TIOC,TX I/O Control Register The CAN_TX pin of the DCAN module can be used as general purpose IO pin if CAN function is not needed. The values of the IO control registers are only writable if INIT bit of the is set to 1."
bitfld.long 0x00 18. " PU          ,CAN_TX pull up/pull down select. This bit is only active when CAN_TX is configured to be an input." "0,1"
bitfld.long 0x00 17. "                 PD             ,CAN_TX pull disable. This bit is only active when CAN_TX is configured to be an input." "0,1"
bitfld.long 0x00 16. "                 OD            ,CAN_TX open drain enable. This bit is only active when CAN_TX is configured to be in GIO mode (FUNC=0).orced to '0' if INIT bit of is reset. ." "0,1"
textline "                        "
bitfld.long 0x00 3. " FUNC        ,CAN_TX function. This bit changes the function of the CAN_TX pinorced to Tx output of the CAN core, if INIT bit of is reset. ." "0,1"
bitfld.long 0x00 2. "                 DIR            ,CAN_TX data direction. This bit controls the direction of the CAN_TX pin when it is configured to be in GIO mode only (FUNC=0)orced to '1' if INIT bit of is reset. ." "0,1"
bitfld.long 0x00 1. "                 OUT           ,CAN_TX data out write. This bit is only active when CAN_TX pin is configured to be in GIO mode (FUNC = 0) and configured to be an output pin (DIR = 1). The value of this bit indicates the value to be output to the CAN_TX..." "0,1"
textline "                        "
bitfld.long 0x00 0. " IN          ,CAN_TX data in Note: When CAN_TX pin is connected to a CAN transceiver, an external pullup resistor has to be used to ensure that the CAN bus will not be disturbed (e.g. while reset of the DCAN module).." "0,1"
group.long 0x1E4++0x3
line.long 0x00 "DCAN_RIOC,RX I/O Control Register The CAN_RX pin of the DCAN_module can be used as general purpose IO pin if CAN function is not needed. The values of the IO control registers are only writable if INIT bit of the is set to 1."
bitfld.long 0x00 18. " PU          ,CAN_RX pull up/pull down select. This bit is only active when CAN_RX is configured to be an input." "0,1"
bitfld.long 0x00 17. "                 PD             ,CAN_RX pull disable. This bit is only active when CAN_TX is configured to be an input." "0,1"
bitfld.long 0x00 16. "                 OD            ,CAN_RX open drain enable. This bit is only active when CAN_RX is configured to be in GIO mode (FUNC=0).orced to '0' if INIT bit of is reset. ." "0,1"
textline "                        "
bitfld.long 0x00 3. " FUNC        ,CAN_RX function. This bit changes the function of the CAN_RX pinorced to '1' if INIT bit of is reset. ." "0,1"
bitfld.long 0x00 2. "                 DIR            ,CAN_RX data direction. This bit controls the direction of the CAN_RX pin when it is configured to be in GIO mode only (FUNC=0)orced to '0' if INIT bit is reset. ." "0,1"
bitfld.long 0x00 1. "                 OUT           ,CAN_RX data out write. This bit is only active when CAN_RX pin is configured to be in GIO mode (FUNC = 0) and configured to be an output pin (DIR = 1). The value of this bit indicates the value to be output to the CAN_RX..." "0,1"
textline "                        "
bitfld.long 0x00 0. " IN          ,CAN_RX data in" "0,1"
width 0x0B
tree.end
tree "DCAN1"
base ad:0x4AE3C000
width 15.
group.long 0x0++0x3
line.long 0x00 "DCAN_CTL,DCAN control register NOTE: The Bus-Off recovery sequence (refer to CAN specification) cannot be shortened by setting or resetting INIT bit. If the module goes Bus-Off, it will automatically set the INIT bit and stop all bus activities..."
bitfld.long 0x00 25. " WUBA        ,Automatic wake up on bus activity when in local power-down mode. Note: The CAN message, which initiates the bus activity, cannot be received. This means that the first message received in power down and automatic wake-upmode..." "0,1"
bitfld.long 0x00 24. "                 PDR            ,Request for local low power-down mode" "0,1"
bitfld.long 0x00 20. "                 DE3           ,Enable DMA request line for IF3. Note: A pending DMA request for IF3 remains active until first access to one of the IF3 registers." "Disabled,Enabled"
textline "                        "
bitfld.long 0x00 19. " DE2         ,Enable DMA request line for IF2. Note: A pending DMA request for IF2 remains active until first access to one of the IF2 registers." "Disabled,Enabled"
bitfld.long 0x00 18. "          DE1            ,Enable DMA request line for IF1. Note: A pending DMA request for IF1 remains active until first access to one of the IF1 registers." "Disabled,Enabled"
bitfld.long 0x00 17. "          IE1           ,Interrupt line 1 enable" "0,1"
textline "                        "
bitfld.long 0x00 16. " INITDBG     ,Internal init state while debug access" "0,1"
bitfld.long 0x00 15. "                 SWR            ,Software reset enable. Note: To execute software reset, the following procedure is necessary:" "Normal_Operation,1"
bitfld.long 0x00 10.--13. "  PMD           ,Parityon/off Others: function enabled." "0,1,2,3,4,function_disabled,6,7,8,9,10,11,12,13,14,15"
textline "                        "
bitfld.long 0x00 9. " ABO         ,Auto-Bus-On enable" "0,1"
bitfld.long 0x00 8. "                 IDS            ,Interruption debug support enable" "0,1"
bitfld.long 0x00 7. "                 TEST          ,Test mode enable" "Normal_Operation,Test_Mode"
textline "                        "
bitfld.long 0x00 6. " CCE         ,Configuration change enable" "0,1"
bitfld.long 0x00 5. "                 DAR            ,Disable automatic retransmission" "0,1"
bitfld.long 0x00 3. "                 EIE           ,Error interrupt enable" "0,1"
textline "                        "
bitfld.long 0x00 2. " SIE         ,Status change interrupt enable" "0,1"
bitfld.long 0x00 1. "                 IE0            ,Interrupt line 0 enable" "0,1"
bitfld.long 0x00 0. "                 INIT          ,Initialization" "Normal_operation,1"
group.long 0x4++0x3
line.long 0x00 "DCAN_ES,Error and Status Register Interrupts are generated by bits PER, BOFF and EWARN (if EIE bit in is 1) and by bits WAKEUPPND, RXOK, TXOK, and LEC (if SIE bit in is 1). A change of bit EPASS will not generate an interrupt. Reading the clears..."
bitfld.long 0x00 10. " PDA         ,Local power-down mode acknowledge" "0,1"
bitfld.long 0x00 9. "                 WAKEUPPND      ,Wake up pending. This bit can be used by the software to identify the DCAN as the source to wake up the system. This bit will be reset ifDCAN_ES is read." "0,1"
bitfld.long 0x00 8. "                 PER           ,Parity error detected. This bit will be reset ifDCAN_ES register is read." "No_effect,1"
textline "                        "
bitfld.long 0x00 7. " BOFF        ,Bus-Off state" "0,1"
bitfld.long 0x00 6. "                 EWARN          ,Warning state" "0,1"
bitfld.long 0x00 5. "                 EPASS         ,Error passive state" "0,1"
textline "                        "
bitfld.long 0x00 4. " RXOK        ,Received a message successfully. This bit will be reset ifDCAN_ES register is read." "0,1"
bitfld.long 0x00 3. "                 TXOK           ,Transmitted a message successfully. This bit will be reset ifDCAN_ES register is read." "0,1"
bitfld.long 0x00 0.--2. "                 LEC           ,Last error code. The LEC field indicates the type of the last error on the CAN bus. This field will be cleared to '0' when a message has been transferred (reception or transmission) without error" "No_error,1,2,3,4,5,6,7"
rgroup.long 0x8++0x3
line.long 0x00 "DCAN_ERRC,Error Counter Register"
bitfld.long 0x00 15. " RP          ,Receive error passive" "0,1"
hexmask.long.byte 0x00 8.--14. 1. "                 REC            ,Receive error counter. Actual state of the receive error counter"
hexmask.long.byte 0x00 0.--7. 1. "                TEC           ,Transmit error counter. Actual state of the transmit error counter"
group.long 0xC++0x3
line.long 0x00 "DCAN_BTR,Bit timing register This register is only writable if CCE and INIT bits in the are set. The CAN bit time may be programmed in the range of 8 to 25 time quanta The CAN time quantum may be programmed in the range of 1 to 1024 CAN_CLK periods."
bitfld.long 0x00 16.--19. " BRPE        ,Baud rate prescaler extension.alid programmed values are 0 to 15. .y programming BRPE the baud rate prescaler can be extended to values up to 1024. ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--14. "                TSEG2          ,Time segment after the sample pointalid programmed values are 0 to 7. .he actual TSeg2 value which is interpreted for the bit timing will be the programmed TSeg2 value + 1. ." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--11. "                 TSEG1         ,Time segment before the sample pointalid programmed values are 1 to15. .he actual TSeg1 value interpreted for the bit timing will be the programmed TSeg1 value + 1. ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                        "
bitfld.long 0x00 6.--7. " SJW         ,Synchronization Jump Widthalid programmed values are 0 to 3. .he actual SJW value interpreted for the synchronization will be the programmed SJW value + 1. ." "0,1,2,3"
bitfld.long 0x00 0.--5. "                 BRP            ,Baud rate prescaleralue by which the CAN_CLK frequency is divided for generating the bit time quanta. The bit time is built up from a multiple of this quanta. Valid programmed values are 0 to 63..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x10++0x3
line.long 0x00 "DCAN_INT,Interrupt register"
hexmask.long.byte 0x00 16.--23. 1. " INT1ID      ,Interrupt 1 Identifier (indicates the message object with the highest pending interrupt) 0x01-0x80: Number of message object which caused the interrupt. 0x81-0xFF: Unused.f several interrupts are..."
hexmask.long.word 0x00 0.--15. 1. "                INT0ID         ,Interrupt Identifier (the number here indicates the source of the interrupt) 0x0001-0x0080: Number of message object which caused the interrupt. If several interrupts are pending,DCAN_INTwill point to the pending int..."
group.long 0x14++0x3
line.long 0x00 "DCAN_TEST,Test Register For all test modes, the TEST bit in control register needs to be set to 1. If TEST bit is set, the RDA, EXL, TX1, TX0, LBACK and SILENT bits are writable. Bit RX monitors the state of pin CAN_RX and therefore is only readable. A..."
bitfld.long 0x00 9. " RDA         ,RAM direct access enable" "Normal_operation,1"
bitfld.long 0x00 8. "  EXL            ,External loopback mode. When the internal loop-back mode is active (bit LBACK is set), bit EXL will be ignored." "Disabled,Enabled"
bitfld.long 0x00 7. "          RX            ,Receive pin. Monitors the actual value of the CAN_RX pin" "0,1"
textline "                        "
bitfld.long 0x00 5.--6. " TX          ,Control of CAN_TX pin. Setting Tx[1:0] other than '00' will disturb message transfer." "0,1,2,3"
bitfld.long 0x00 4. "                 LBACK          ,Loopback mode. When the internal loop-back mode is active (bit LBACK is set), bit EXL will be ignored." "Disabled,Enabled"
bitfld.long 0x00 3. "          SILENT        ,Silent mode" "Disabled,Enabled"
rgroup.long 0x1C++0x3
line.long 0x00 "DCAN_PERR,Parity Error Code Register If a parity error is detected, the PER flag will be set in the . This bit is not reset by the parity check mechanism; it must be reset by reading . In addition to the PER flag, the parity error code register will in..."
bitfld.long 0x00 8.--10. " WORD_NUMBER ,Word number where parity error has been detectedDA word number (1 to 5) of the message object (according to the message RAM representation in RDA mode). ." "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x00 0.--7. 1. "                 MESSAGE_NUMBER ,Message object number where parity error has been detected (0x01-0x80)"
rgroup.long 0x20++0x3
line.long 0x00 "DCAN_REL,Core revision register"
hexmask.long 0x00 0.--31. 1. " REVISION    ,DCAN core revision number"
group.long 0x80++0x3
line.long 0x00 "DCAN_ABOTR,Auto-Bus-On Time Register On write access to the while Auto-Bus-On timer is running, the Auto-Bus-On procedure will be aborted. During Debug/Suspend mode, running Auto-Bus-On timer will be paused."
hexmask.long 0x00 0.--31. 1. " ABO_TIME    ,Number of OCP clock cycles before a Bus-Off recovery sequence is started by clearing the INIT bit. This function has to be enabled by setting bit ABO inDCAN_CTL. The Auto-Bus-On timer is realized by a 32-bit counter which starts to count ..."
rgroup.long 0x84++0x3
line.long 0x00 "DCAN_TXRQ_X,Transmission Request X Register The software can detect if one or more bits in the different transmission request registers are set. Each register bit represents a group of eight message objects. If at least one of the TxRqst bits of these ..."
bitfld.long 0x00 14.--15. " TXRQSTREG8  ,Transmission request bits (aggregate for 113-128 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 12.--13. "                 TXRQSTREG7     ,Transmission request bits (aggregate for 97-112 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 10.--11. "                 TXRQSTREG6    ,Transmission request bits (aggregate for 81-96 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
textline "                        "
bitfld.long 0x00 8.--9. " TXRQSTREG5  ,Transmission request bits (aggregate for 65-80 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 6.--7. "                 TXRQSTREG4     ,Transmission request bits (aggregate for 49-64 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 4.--5. "                 TXRQSTREG3    ,Transmission request bits (aggregate for 33-48 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
textline "                        "
bitfld.long 0x00 2.--3. " TXRQSTREG2  ,Transmission request bits (aggregate for 17-32 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 0.--1. "                 TXRQSTREG1     ,Transmission request bits (aggregate for 1-16 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
rgroup.long 0x88++0x3
line.long 0x00 "DCAN_TXRQ12,Transmission Request Register This register holds the TxRqst bits of the implemented message objects. By reading out these bits, the software can check for pending transmission requests. The TxRqst bit in a specific message object can be se..."
hexmask.long 0x00 0.--31. 1. " TXRQS       ,Transmission request bits (for 1-32 message objects) 0: No transmission has been requested for this message object. 1: The transmission of this message object is requested and is not yet done."
rgroup.long 0x8C++0x3
line.long 0x00 "DCAN_TXRQ34,Transmission Request Register This register holds the TxRqst bits of the implemented message objects. By reading out these bits, the software can check for pending transmission requests. The TxRqst bit in a specific message object can be se..."
hexmask.long 0x00 0.--31. 1. " TXRQS       ,Transmission request bits (for 33-64 message objects) 0: No transmission has been requested for this message object. 1: The transmission of this message object is requested and is not yet done."
rgroup.long 0x90++0x3
line.long 0x00 "DCAN_TXRQ56,Transmission Request Register This register holds the TxRqst bits of the implemented message objects. By reading out these bits, the software can check for pending transmission requests. The TxRqst bit in a specific message object can be se..."
hexmask.long 0x00 0.--31. 1. " TXRQS       ,Transmission request bits (for 65-96 message objects) 0: No transmission has been requested for this message object. 1: The transmission of this message object is requested and is not yet done."
rgroup.long 0x94++0x3
line.long 0x00 "DCAN_TXRQ78,Transmission Request Register This register holds the TxRqst bits of the implemented message objects. By reading out these bits, the software can check for pending transmission requests. The TxRqst bit in a specific message object can be se..."
hexmask.long 0x00 0.--31. 1. " TXRQS       ,Transmission request bits (for 97-128 message objects) 0: No transmission has been requested for this message object. 1: The transmission of this message object is requested and is not yet done."
rgroup.long 0x98++0x3
line.long 0x00 "DCAN_NWDAT_X,New Data X Register With the new data X register, the software can detect if one or more bits in the different new data registers are set. Each register bit represents a group of eight message objects. If at least on of the NewDat bits of ..."
bitfld.long 0x00 14.--15. " NEWDATREG8  ,New data bits (aggregate for 113-128 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 12.--13. "                 NEWDATREG7     ,New data bits (aggregate for 97-112 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 10.--11. "                 NEWDATREG6    ,New data bits (aggregate for 81-96 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
textline "                        "
bitfld.long 0x00 8.--9. " NEWDATREG5  ,New data bits (aggregate for 65-80 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 6.--7. "                 NEWDATREG4     ,New data bits (aggregate for 49-64 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 4.--5. "                 NEWDATREG3    ,New data bits (aggregate for 33-48 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
textline "                        "
bitfld.long 0x00 2.--3. " NEWDATREG2  ,New data bits (aggregate for 17-32 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 0.--1. "                 NEWDATREG1     ,New data bits (aggregate for 1-16 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
rgroup.long 0x9C++0x3
line.long 0x00 "DCAN_NWDAT12,New Data Register This register hold the NewDat bits of the implemented message objects. By reading out these bits, the software can check for new data in the message objects. The NewDat bit of a specific message object can be set/reset by..."
hexmask.long 0x00 0.--31. 1. " NEWDAT      ,New Data Bits (for 1-32 message objects) 0: No new data has been written into the data portion of this message object by the Message Handler since the last time when this flag was cleared by the software. 1: The Message Handler or the sof..."
rgroup.long 0xA0++0x3
line.long 0x00 "DCAN_NWDAT34,New Data Register This register hold the NewDat bits of the implemented message objects. By reading out these bits, the software can check for new data in the message objects. The NewDat bit of a specific message object can be set/reset by..."
hexmask.long 0x00 0.--31. 1. " NEWDAT      ,New Data Bits (for 33-64 message objects) 0: No new data has been written into the data portion of this message object by the Message Handler since the last time when this flag was cleared by the software. 1: The Message Handler or the so..."
rgroup.long 0xA4++0x3
line.long 0x00 "DCAN_NWDAT56,New Data Register This register hold the NewDat bits of the implemented message objects. By reading out these bits, the software can check for new data in the message objects. The NewDat bit of a specific message object can be set/reset by..."
hexmask.long 0x00 0.--31. 1. " NEWDAT      ,New Data Bits (for 65-96 message objects) 0: No new data has been written into the data portion of this message object by the Message Handler since the last time when this flag was cleared by the software. 1: The Message Handler or the so..."
rgroup.long 0xA8++0x3
line.long 0x00 "DCAN_NWDAT78,New Data Register This register hold the NewDat bits of the implemented message objects. By reading out these bits, the software can check for new data in the message objects. The NewDat bit of a specific message object can be set/reset by..."
hexmask.long 0x00 0.--31. 1. " NEWDAT      ,New Data Bits (for 97-128 message objects) 0: No new data has been written into the data portion of this message object by the Message Handler since the last time when this flag was cleared by the software. 1: The Message Handler or the s..."
rgroup.long 0xAC++0x3
line.long 0x00 "DCAN_INTPND_X,Interrupt Pending X Register With the interrupt pending X register, the software can detect if one or more bits in the different interrupt pending registers are set. Each bit of this register represents a group of eight message objects. I..."
bitfld.long 0x00 14.--15. " INTPNDREG8  ,Interrupt Pending bits (aggregate for 113-128 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 12.--13. "                 INTPNDREG7     ,Interrupt Pending bits (aggregate for 97-112 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 10.--11. "                 INTPNDREG6    ,Interrupt Pendingbits (aggregate for 81-96 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
textline "                        "
bitfld.long 0x00 8.--9. " INTPNDREG5  ,Interrupt Pending bits (aggregate for 65-80 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 6.--7. "                 INTPNDREG4     ,Interrupt Pending bits (aggregate for 49-64 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 4.--5. "                 INTPNDREG3    ,Interrupt Pending bits (aggregate for 33-48 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
textline "                        "
bitfld.long 0x00 2.--3. " INTPNDREG2  ,Interrupt Pending bits (aggregate for 17-32 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 0.--1. "                 INTPNDREG1     ,Interrupt Pending bits (aggregate for 1-16 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
rgroup.long 0xB0++0x3
line.long 0x00 "DCAN_INTPND12,Interrupt Pending Register This register holds the IntPnd bits of the implemented message objects. By reading out these bits, the software can check for pending interrupts in the message objects. The IntPnd bit of a specific message objec..."
hexmask.long 0x00 0.--31. 1. " INTPND      ,Interrupt Pending Bits (for 1-32 message objects)"
rgroup.long 0xB4++0x3
line.long 0x00 "DCAN_INTPND34,Interrupt Pending Register This register holds the IntPnd bits of the implemented message objects. By reading out these bits, the software can check for pending interrupts in the message objects. The IntPnd bit of a specific message objec..."
hexmask.long 0x00 0.--31. 1. " INTPND      ,Interrupt Pending Bits (for 33-64 message objects)"
rgroup.long 0xB8++0x3
line.long 0x00 "DCAN_INTPND56,Interrupt Pending Register This register holds the IntPnd bits of the implemented message objects. By reading out these bits, the software can check for pending interrupts in the message objects. The IntPnd bit of a specific message objec..."
hexmask.long 0x00 0.--31. 1. " INTPND      ,Interrupt Pending Bits (for 65-96 message objects)"
rgroup.long 0xBC++0x3
line.long 0x00 "DCAN_INTPND78,Interrupt Pending Register This register holds the IntPnd bits of the implemented message objects. By reading out these bits, the software can check for pending interrupts in the message objects. The IntPnd bit of a specific message objec..."
hexmask.long 0x00 0.--31. 1. " INTPND      ,Interrupt Pending Bits (for 97-128 message objects)"
rgroup.long 0xC0++0x3
line.long 0x00 "DCAN_MSGVAL_X,Message Valid X Register With the message valid X register, the software can detect if one or more bits in the different message valid registers are set. Each bit of this register represents a group of eight message objects. If at least o..."
bitfld.long 0x00 14.--15. " MSGVALREG8  ,Message valid bits (aggregate for 113-128 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 12.--13. "                 MSGVALREG7     ,Message valid bits (aggregate for 97-112 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 10.--11. "                 MSGVALREG6    ,Message valid bits (aggregate for 81-96 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
textline "                        "
bitfld.long 0x00 8.--9. " MSGVALREG5  ,Message valid bits (aggregate for 65-80 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 6.--7. "                 MSGVALREG4     ,Message valid bits (aggregate for 49-64 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 4.--5. "                 MSGVALREG3    ,Message valid bits (aggregate for 33-48 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
textline "                        "
bitfld.long 0x00 2.--3. " MSGVALREG2  ,Message valid bits (aggregate for 17-32 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
bitfld.long 0x00 0.--1. "                 MSGVALREG1     ,Message valid bits (aggregate for 1-16 message objects). Lower bit represents first 8 message objects. Higher bit represents second 8 message objects." "0,1,2,3"
rgroup.long 0xC4++0x3
line.long 0x00 "DCAN_MSGVAL12,Message Valid Register These registers hold the MsgVal bits of the implemented message objects. By reading out these bits, the software can check which message objects are valid. The MsgVal bit of a specific message object can be set/rese..."
hexmask.long 0x00 0.--31. 1. " MSGVAL      ,Message valid Bits (for 1-32 message objects)"
rgroup.long 0xC8++0x3
line.long 0x00 "DCAN_MSGVAL34,Message Valid Register These registers hold the MsgVal bits of the implemented message objects. By reading out these bits, the software can check which message objects are valid. The MsgVal bit of a specific message object can be set/rese..."
hexmask.long 0x00 0.--31. 1. " MSGVAL      ,Message valid Bits (for 33-64 message objects)"
rgroup.long 0xCC++0x3
line.long 0x00 "DCAN_MSGVAL56,Message Valid Register These registers hold the MsgVal bits of the implemented message objects. By reading out these bits, the software can check which message objects are valid. The MsgVal bit of a specific message object can be set/rese..."
hexmask.long 0x00 0.--31. 1. " MSGVAL      ,Message valid Bits (for 65-96 message objects)"
rgroup.long 0xD0++0x3
line.long 0x00 "DCAN_MSGVAL78,Message Valid Register These registers hold the MsgVal bits of the implemented message objects. By reading out these bits, the software can check which message objects are valid. The MsgVal bit of a specific message object can be set/rese..."
hexmask.long 0x00 0.--31. 1. " MSGVAL      ,Message valid Bits (for 97-128 message objects)"
group.long 0xD8++0x3
line.long 0x00 "DCAN_INTMUX12,Interrupt Multiplexer Register The IntMux flag determine for each message object, which of the two interrupt lines (INT0 or INT1) will be asserted when the IntPnd of this message object is set. Both interrupt lines can be globally enabled..."
hexmask.long 0x00 0.--31. 1. " INTMUX      ,Multiplexes IntPnd value to either INT0 or INT1 interrupt lines (bit 0 -> last implemented message object) ( bits 1:31 -> 1-31 message objects)"
group.long 0xDC++0x3
line.long 0x00 "DCAN_INTMUX34,Interrupt Multiplexer Register The IntMux flag determine for each message object, which of the two interrupt lines (INT0 or INT1) will be asserted when the IntPnd of this message object is set. Both interrupt lines can be globally enabled..."
hexmask.long 0x00 0.--31. 1. " INTMUX      ,Multiplexes IntPnd value to either INT0 or INT1 interrupt lines ( bits 0:31 -> 32-63 message objects)"
group.long 0xE0++0x3
line.long 0x00 "DCAN_INTMUX56,Interrupt Multiplexer Register The IntMux flag determine for each message object, which of the two interrupt lines (INT0 or INT1) will be asserted when the IntPnd of this message object is set. Both interrupt lines can be globally enabled..."
hexmask.long 0x00 0.--31. 1. " INTMUX      ,Multiplexes IntPnd value to either INT0 or INT1 interrupt lines ( bits 0:31 -> 64-95 message objects)"
group.long 0xE4++0x3
line.long 0x00 "DCAN_INTMUX78,Interrupt Multiplexer Register The IntMux flag determine for each message object, which of the two interrupt lines (INT0 or INT1) will be asserted when the IntPnd of this message object is set. Both interrupt lines can be globally enabled..."
hexmask.long 0x00 0.--31. 1. " INTMUX      ,Multiplexes IntPnd value to either INT0 or INT1 interrupt lines ( bits 0:31 -> 96-127 message objects)"
group.long 0x100++0x3
line.long 0x00 "DCAN_IF1CMD,IF1 Command Register The IF1 Command Register () configure and initiate the transfer between the IF1 register set and the message RAM. It is configurable which portions of the message object should be transferred. A transfer is started when..."
bitfld.long 0x00 23. " WR_RD       ,Write/Read" "0,1"
bitfld.long 0x00 22. "                 MASK           ,Access mask bits" "0,1"
bitfld.long 0x00 21. "                 ARB           ,Access arbitration bits" "0,1"
textline "                        "
bitfld.long 0x00 20. " CONTROL     ,Access control bitsf the TXRQST_NEWDAT bit in this register(Bit [18]) is set, the TXRQST/ NEWDAT bits in the will be ignored. ." "0,1"
bitfld.long 0x00 19. "                 CLRINTPND      ,Clear interrupt pending bit" "0,1"
bitfld.long 0x00 18. "                 TXRQST_NEWDAT ,Access transmission request bit Note: If a CAN transmission is requested by setting TXRQST_NEWDAT in this register, the TxRqst/NewDat bits in the message object will be set to one independent of the values in.. -..." "0,1"
textline "                        "
bitfld.long 0x00 17. " DATA_A      ,Access Data Bytes 0-3 Note: The duration of the message transfer is independent of the number of bytes to be transferred.." "0,1"
bitfld.long 0x00 16. "                 DATA_B         ,Access Data Bytes 4-7 Note: The duration of the message transfer is independent of the number of bytes to be transferred.." "0,1"
bitfld.long 0x00 15. "                 BUSY          ,Busy flag This bit is set to one after the message number has been written to bits [7:0] MESSAGE_NUMBER. IF1 register set will be write protected. The bit is cleared after read/write action has been finished...." "0,1"
textline "                        "
bitfld.long 0x00 14. " DMAACTIVE   ,Activation of DMA feature for subsequent internal IF1 updatehe DMA request remains active until the first read or write to one of the IF1 registers; an exception is a write to MESSAGE_NUMBER when DMAACTIVE is one. . Note: ..." "0,1"
hexmask.long.byte 0x00 0.--7. 1. "                 MESSAGE_NUMBER ,Number of message object in message RAM which is used for data transfer 0x01-0x80: Valid message numbers. 0x81-0xFF: Invalid message numbers."
group.long 0x104++0x3
line.long 0x00 "DCAN_IF1MSK,IF1 Mask Register The bits of the IF1/IF2 mask registers mirror the mask bits of a message object. The function of the relevant message objects bits is described in Structure of Message Objects. While BUSY bit of / register is one, IF1/IF2 ..."
bitfld.long 0x00 31. " MXTD        ,Mask Extended Identifier When 11-bit (?standard?) identifiers are used for a message object, the identifiers of received data frames are written into bits ID[28:18]. For acceptance filtering, only these bits together with mask bit..." "0,1"
bitfld.long 0x00 30. "                 MDIR           ,Mask Message Direction" "0,1"
hexmask.long 0x00 0.--28. 1. "                 MSK           ,Identifier Mask"
group.long 0x108++0x3
line.long 0x00 "DCAN_IF1ARB,IF1 arbitration register The Arbitration bits ID[28:0], XTD, and DIR are used to define the identifier and type of outgoing messages and (together with the mask bits MSK[28:0], MXTD, and MDIR) for acceptance filtering of incoming messages. ..."
bitfld.long 0x00 31. " MSGVAL      ,Message validhe software should reset the MsgVal bit of all unused Messages Objects during the initialization before it resets bit INIT in the. This bit must also be reset if the messages object is no longer required. ." "0,1"
bitfld.long 0x00 30. "                 XTD            ,Extended identifier" "0,1"
bitfld.long 0x00 29. "                 DIR           ,Message direction" "0,1"
textline "                        "
hexmask.long 0x00 0.--28. 1. " ID          ,Message identifierID[28:0]: 29-bit identifier (extended frame). ID[28:18]: 11-bit identifier (standard frame)."
group.long 0x10C++0x3
line.long 0x00 "DCAN_IF1MCTL,IF1 Message Control Register The bits of the IF1/IF2 message control registers mirror the message control bits of a message object. The function of the relevant message objects bits is described in Structure of Message Objects While BUSY b..."
bitfld.long 0x00 15. " NEWDAT      ,New data" "0,1"
bitfld.long 0x00 14. "                 MSGLST         ,Message lost (only valid for message objects with direction = receive)" "0,1"
bitfld.long 0x00 13. "                 INTPND        ,Interrupt pending" "0,1"
textline "                        "
bitfld.long 0x00 12. " UMASK       ,Use acceptance maskf the UMASK bit is set to one, the message object's mask bits have to be programmed during initialization of the message object before MsgVal is set to one. ." "Mask_ignored,1"
bitfld.long 0x00 11. "      TXIE           ,Transmit interrupt enable" "0,1"
bitfld.long 0x00 10. "                 RXIE          ,Receive interrupt enable" "0,1"
textline "                        "
bitfld.long 0x00 9. " RMTEN       ,Remote enable" "0,1"
bitfld.long 0x00 8. "                 TXRQST         ,Transmit request" "0,1"
bitfld.long 0x00 7. "                 EOB           ,End of Block Note: This bit is used to concatenate multiple message objects to build a FIFO Buffer. For single message objects (not belonging to a FIFO Buffer), this bit must always be set to 1.." "0,1"
textline "                        "
bitfld.long 0x00 0.--3. " DLC         ,Data length code0-8: Data frame has 0-8 data bytes..-15 Data frame has 8 data bytes. . Note: The data length code of a message object must be defined the same as in all the corresponding objects with the same identifier at oth..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x110++0x3
line.long 0x00 "DCAN_IF1DATA,IF1 Data A Register The data bytes of CAN messages are stored in the IF1/IF2 registers in the following order: In a CAN data frame, Data 0 is the first, and Data 7 is the last byte to be transmitted or received. In CAN's serial bit stream,..."
hexmask.long.byte 0x00 24.--31. 1. " DATA_3      ,Data byte 3"
hexmask.long.byte 0x00 16.--23. 1. "                DATA_2         ,Data byte 2"
hexmask.long.byte 0x00 8.--15. 1. "                DATA_1        ,Data byte 1"
textline "                        "
hexmask.long.byte 0x00 0.--7. 1. " DATA_0      ,Data byte 0"
group.long 0x114++0x3
line.long 0x00 "DCAN_IF1DATB,IF1 Data B Register The data bytes of CAN messages are stored in the IF1/IF2 registers in the following order: In a CAN data frame, Data 0 is the first, and Data 7 is the last byte to be transmitted or received. In CAN's serial bit stream,..."
hexmask.long.byte 0x00 24.--31. 1. " DATA_7      ,Data byte 7"
hexmask.long.byte 0x00 16.--23. 1. "                DATA_6         ,Data byte 6"
hexmask.long.byte 0x00 8.--15. 1. "                DATA_5        ,Data byte 5"
textline "                        "
hexmask.long.byte 0x00 0.--7. 1. " DATA_4      ,Data byte 4"
group.long 0x120++0x3
line.long 0x00 "DCAN_IF2CMD,IF2 Command Register The IF2 Command Register () configure and initiate the transfer between the IF2 register set and the message RAM. It is configurable which portions of the message object should be transferred. A transfer is started when..."
bitfld.long 0x00 23. " WR_RD       ,Write/Read" "0,1"
bitfld.long 0x00 22. "                 MASK           ,Access mask bits" "0,1"
bitfld.long 0x00 21. "                 ARB           ,Access arbitration bits" "0,1"
textline "                        "
bitfld.long 0x00 20. " CONTROL     ,Access control bitsf the TXRQST_NEWDAT bit in this register(Bit [18]) is set, the TXRQST/ NEWDAT bits in the/ will be ignored. ." "0,1"
bitfld.long 0x00 19. "                 CLRINTPND      ,Clear interrupt pending bit" "0,1"
bitfld.long 0x00 18. "                 TXRQST_NEWDAT ,Access transmission request bit Note: If a CAN transmission is requested by setting TXRQST_NEWDAT in this register, the TxRqst/NewDat bits in the message object will be set to one independent of the values in ..." "0,1"
textline "                        "
bitfld.long 0x00 17. " DATA_A      ,Access Data Bytes 0-3 Note: The duration of the message transfer is independent of the number of bytes to be transferred.." "0,1"
bitfld.long 0x00 16. "                 DATA_B         ,Access Data Bytes 4-7 Note: The duration of the message transfer is independent of the number of bytes to be transferred.." "0,1"
bitfld.long 0x00 15. "                 BUSY          ,Busy flag This bit is set to one after the message number has been written to bits [7:0] MESSAGE_NUMBER. IF2 register set will be write protected. The bit is cleared after read/write action has been finished..." "0,1"
textline "                        "
bitfld.long 0x00 14. " DMAACTIVE   ,Activation of DMA feature for subsequent internal IF2 updatehe DMA request remains active until the first read or write to one of the IF2 registers; an exception is a write to MESSAGE_NUMBER when DMAACTIVE is one..." "0,1"
hexmask.long.byte 0x00 0.--7. 1. "                 MESSAGE_NUMBER ,Number of message object in message RAM which is used for data transfer 0x01-0x80: Valid message numbers. 0x81-0xFF: Invalid message numbers."
group.long 0x124++0x3
line.long 0x00 "DCAN_IF2MSK,IF2 Mask Register The bits of the IF1/IF2 mask registers mirror the mask bits of a message object. The function of the relevant message objects bits is described in Structure of Message Objects. While BUSY bit of / register is one, IF1/IF2..."
bitfld.long 0x00 31. " MXTD        ,Mask Extended Identifier When 11-bit (?standard?) identifiers are used for a message object, the identifiers of received data frames are written into bits ID[28:18]. For acceptance filtering, only these bits together with mask bit..." "0,1"
bitfld.long 0x00 30. "                 MDIR           ,Mask Message Direction" "0,1"
hexmask.long 0x00 0.--28. 1. "                 MSK           ,Identifier Mask"
group.long 0x128++0x3
line.long 0x00 "DCAN_IF2ARB,IF2 arbitration register The Arbitration bits ID[28:0], XTD, and DIR are used to define the identifier and type of outgoing messages and (together with the mask bits MSK[28:0], MXTD, and MDIR) for acceptance filtering of incoming messages..."
bitfld.long 0x00 31. " MSGVAL      ,Message validhe software should reset the MsgVal bit of all unused Messages Objects during the initialization before it resets bit INIT in the. This bit must also be reset if the messages object is no longer required" "0,1"
bitfld.long 0x00 30. "                 XTD            ,Extended identifier" "0,1"
bitfld.long 0x00 29. "                 DIR           ,Message direction" "0,1"
textline "                        "
hexmask.long 0x00 0.--28. 1. " ID          ,Message identifierID[28:0]: 29-bit identifier (extended frame). ID[28:18]: 11-bit identifier (standard frame)."
group.long 0x12C++0x3
line.long 0x00 "DCAN_IF2MCTL,IF2 Message Control Register The bits of the IF1/IF2 message control registers mirror the message control bits of a message object. The function of the relevant message objects bits is described in Structure of Message Objects While BUSY..."
bitfld.long 0x00 15. " NEWDAT      ,New data" "0,1"
bitfld.long 0x00 14. "                 MSGLST         ,Message lost (only valid for message objects with direction = receive)" "0,1"
bitfld.long 0x00 13. "                 INTPND        ,Interrupt pending" "0,1"
textline "                        "
bitfld.long 0x00 12. " UMASK       ,Use acceptance maskf the UMask bit is set to one, the message object's mask bits have to be programmed during initialization of the message object before MsgVal is set to one." "Mask_ignored,1"
bitfld.long 0x00 11. "      TXIE           ,Transmit interrupt enable" "0,1"
bitfld.long 0x00 10. "                 RXIE          ,Receive interrupt enable" "0,1"
textline "                        "
bitfld.long 0x00 9. " RMTEN       ,Remote enable" "0,1"
bitfld.long 0x00 8. "                 TXRQST         ,Transmit request" "0,1"
bitfld.long 0x00 7. "                 EOB           ,End of Block Note: This bit is used to concatenate multiple message objects to build a FIFO Buffer. For single message objects (not belonging to a FIFO Buffer), this bit must always be set to one.." "0,1"
textline "                        "
bitfld.long 0x00 0.--3. " DLC         ,Data length code0-8: Data frame has 0-8 data bytes..-15 Data frame has 8 data bytes. . Note: The data length code of a message object must be defined the same as in all the corresponding objects with the same identifier at oth..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x130++0x3
line.long 0x00 "DCAN_IF2DATA,IF2 Data A Register The data bytes of CAN messages are stored in the IF1/IF2 registers in the following order: In a CAN data frame, Data 0 is the first, and Data 7 is the last byte to be transmitted or received. In CAN's serial bit stream..."
hexmask.long.byte 0x00 24.--31. 1. " DATA_3      ,Data byte 3"
hexmask.long.byte 0x00 16.--23. 1. "                DATA_2         ,Data byte 2"
hexmask.long.byte 0x00 8.--15. 1. "                DATA_1        ,Data byte 1"
textline "                        "
hexmask.long.byte 0x00 0.--7. 1. " DATA_0      ,Data byte 0"
group.long 0x134++0x3
line.long 0x00 "DCAN_IF2DATB,IF2 Data B Register The data bytes of CAN messages are stored in the IF1/IF2 registers in the following order: In a CAN data frame, Data 0 is the first, and Data 7 is the last byte to be transmitted or received. In CAN's serial bit stream..."
hexmask.long.byte 0x00 24.--31. 1. " DATA_7      ,Data byte 7"
hexmask.long.byte 0x00 16.--23. 1. "                DATA_6         ,Data byte 6"
hexmask.long.byte 0x00 8.--15. 1. "                DATA_5        ,Data byte 5"
textline "                        "
hexmask.long.byte 0x00 0.--7. 1. " DATA_4      ,Data byte 4"
group.long 0x140++0x3
line.long 0x00 "DCAN_IF3OBS,IF3 Observation Register The IF3 register set can automatically be updated with received message objects without the need to initiate the transfer from message RAM by software (Additional information can be found in NOTE: If IF3 Update..."
bitfld.long 0x00 15. " IF3_UPD     ,IF3 Update Data" "0,1"
bitfld.long 0x00 12. "                 IF3_SDB        ,IF3 Status of Data B read access" "0,1"
bitfld.long 0x00 11. "                 IF3_SDA       ,IF3 Status of Data A read access" "0,1"
textline "                        "
bitfld.long 0x00 10. " IF3_SC      ,IF3 Status of control bits read access" "0,1"
bitfld.long 0x00 9. "                 IF3_SA         ,IF3 Status of Arbitration data read access" "0,1"
bitfld.long 0x00 8. "                 IF3_SM        ,IF3 Status of Mask data read access" "0,1"
textline "                        "
bitfld.long 0x00 4. " DATAB       ,Data B read observation" "0,1"
bitfld.long 0x00 3. "                 DATAA          ,Data A read observation" "0,1"
bitfld.long 0x00 2. "                 CTRL          ,Ctrl read observation" "0,1"
textline "                        "
bitfld.long 0x00 1. " ARB         ,Arbitration data read observation" "0,1"
bitfld.long 0x00 0. "                 MASK           ,Mask data read observation" "0,1"
group.long 0x144++0x3
line.long 0x00 "DCAN_IF3MSK,IF3 Mask Register"
bitfld.long 0x00 31. " MXTD        ,Mask Extended Identifier When 11-bit (?standard?) identifiers are used for a message object, the identifiers of received data frames are written into bits ID[28:18]. For acceptance filtering, only these bits together with mask bit..." "0,1"
bitfld.long 0x00 30. "                 MDIR           ,Mask Message Direction" "0,1"
hexmask.long 0x00 0.--28. 1. "                 MSK           ,Identifier Mask"
rgroup.long 0x148++0x3
line.long 0x00 "DCAN_IF3ARB,IF3 Arbitration Register"
bitfld.long 0x00 31. " MSGVAL      ,Message Valid The software should reset the MsgVal bit of all unused Messages Objects during the initialization before it resets bit INIT in the. This bit must also be reset before the identifier ID[28:0], the control bits Xtd..." "0,1"
bitfld.long 0x00 30. "                 XTD            ,Extended Identifier" "0,1"
bitfld.long 0x00 29. "                 DIR           ,Message Direction" "0,1"
textline "                        "
hexmask.long 0x00 0.--28. 1. " ID          ,Message IdentifierID[28:0]: 29-bit Identifier (?extended frame?). ID[28:18]: 11-bit Identifier (?standard frame?)."
rgroup.long 0x14C++0x3
line.long 0x00 "DCAN_IF3MCTL,IF3 Message Control Register"
bitfld.long 0x00 15. " NEWDAT      ,New Data" "0,1"
bitfld.long 0x00 14. "                 MSGLST         ,Message Lost (only valid for message objects with direction = receive)" "0,1"
bitfld.long 0x00 13. "                 INTPND        ,Interrupt Pending" "0,1"
textline "                        "
bitfld.long 0x00 12. " UMASK       ,Use Acceptance Maskf the UMASK bit is set to one, the message object's mask bits have to be programmed during initialization of the message object before MsgVal is set to one." "Mask_ignored,1"
bitfld.long 0x00 11. "      TXIE           ,Transmit Interrupt enable" "0,1"
bitfld.long 0x00 10. "                 RXIE          ,Receive Interrupt enable" "0,1"
textline "                        "
bitfld.long 0x00 9. " RMTEN       ,Remote enable" "0,1"
bitfld.long 0x00 8. "                 TXRQST         ,Transmit Request" "0,1"
bitfld.long 0x00 7. "                 EOB           ,End of Block Note: This bit is used to concatenate multiple message objects to build a FIFO Buffer. For single message objects (not belonging to a FIFO Buffer), this bit must always be set to one.." "0,1"
textline "                        "
bitfld.long 0x00 0.--3. " DLC         ,Data Length Code0-8: Data frame has 0-8 data bits.. 9-15: Data frame has 8 data bytes.. Note: The data length code of a message object must be defined the same as in all the corresponding objects with the same identifier at other..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x150++0x3
line.long 0x00 "DCAN_IF3DATA,IF3 Data A The data bytes of CAN messages are stored in the IF3 registers in the following order: In a CAN data frame, Data 0 is the first, and Data 7 is the last byte to be transmitted or received. In CAN's serial bit stream, the MSB of..."
hexmask.long.byte 0x00 24.--31. 1. " DATA_3      ,Data byte 3"
hexmask.long.byte 0x00 16.--23. 1. "                DATA_2         ,Data byte 2"
hexmask.long.byte 0x00 8.--15. 1. "                DATA_1        ,Data byte 1"
textline "                        "
hexmask.long.byte 0x00 0.--7. 1. " DATA_0      ,Data byte 0"
rgroup.long 0x154++0x3
line.long 0x00 "DCAN_IF3DATB,IF3 Data B The data bytes of CAN messages are stored in the IF3 registers in the following order: In a CAN data frame, Data 0 is the first, and Data 7 is the last byte to be transmitted or received. In CAN's serial bit stream, the MSB of..."
hexmask.long.byte 0x00 24.--31. 1. " DATA_7      ,Data byte 7"
hexmask.long.byte 0x00 16.--23. 1. "                DATA_6         ,Data byte 6"
hexmask.long.byte 0x00 8.--15. 1. "                DATA_5        ,Data byte 5"
textline "                        "
hexmask.long.byte 0x00 0.--7. 1. " DATA_4      ,Data byte 4"
group.long 0x160++0x3
line.long 0x00 "DCAN_IF3UPD12,Update Enable Register The automatic update functionality of the IF3 register set can be configured for each message object. A message object is enabled for automatic IF3 update, if the dedicated IF3UPDEN flag is set. This means that an..."
hexmask.long 0x00 0.--31. 1. " IF3UPDEN    ,IF3 Update Enabled (for 1-32 message objects)"
group.long 0x164++0x3
line.long 0x00 "DCAN_IF3UPD34,Update Enable Register The automatic update functionality of the IF3 register set can be configured for each message object. A message object is enabled for automatic IF3 update, if the dedicated IF3UPDEN flag is set. This means that an..."
hexmask.long 0x00 0.--31. 1. " IF3UPDEN    ,IF3 Update Enabled (for 33-64 message objects)"
group.long 0x168++0x3
line.long 0x00 "DCAN_IF3UPD56,Update Enable Register The automatic update functionality of the IF3 register set can be configured for each message object. A message object is enabled for automatic IF3 update, if the dedicated IF3UPDEN flag is set. This means that an..."
hexmask.long 0x00 0.--31. 1. " IF3UPDEN    ,IF3 Update Enabled (for 65-96 message objects)"
group.long 0x16C++0x3
line.long 0x00 "DCAN_IF3UPD78,Update Enable Register The automatic update functionality of the IF3 register set can be configured for each message object. A message object is enabled for automatic IF3 update, if the dedicated IF3UPDEN flag is set. This means that an..."
hexmask.long 0x00 0.--31. 1. " IF3UPDEN    ,IF3 Update Enabled (for 97-128 message objects)"
group.long 0x1E0++0x3
line.long 0x00 "DCAN_TIOC,TX I/O Control Register The CAN_TX pin of the DCAN module can be used as general purpose IO pin if CAN function is not needed. The values of the IO control registers are only writable if INIT bit of the is set to 1."
bitfld.long 0x00 18. " PU          ,CAN_TX pull up/pull down select. This bit is only active when CAN_TX is configured to be an input." "0,1"
bitfld.long 0x00 17. "                 PD             ,CAN_TX pull disable. This bit is only active when CAN_TX is configured to be an input." "0,1"
bitfld.long 0x00 16. "                 OD            ,CAN_TX open drain enable. This bit is only active when CAN_TX is configured to be in GIO mode (FUNC=0). Forced to '0' if INIT bit of is reset." "0,1"
textline "                        "
bitfld.long 0x00 3. " FUNC        ,CAN_TX function. This bit changes the function of the CAN_TX pinorced to Tx output of the CAN core, if INIT bit of is reset. ." "0,1"
bitfld.long 0x00 2. "                 DIR            ,CAN_TX data direction. This bit controls the direction of the CAN_TX pin when it is configured to be in GIO mode only (FUNC=0)orced to '1' if INIT bit of is reset. ." "0,1"
bitfld.long 0x00 1. "                 OUT           ,CAN_TX data out write. This bit is only active when CAN_TX pin is configured to be in GIO mode (FUNC = 0) and configured to be an output pin (DIR = 1). The value of this bit indicates the value to be output to the CAN_TX..." "0,1"
textline "                        "
bitfld.long 0x00 0. " IN          ,CAN_TX data in Note: When CAN_TX pin is connected to a CAN transceiver, an external pullup resistor has to be used to ensure that the CAN bus will not be disturbed (e.g. while reset of the DCAN module)..." "0,1"
group.long 0x1E4++0x3
line.long 0x00 "DCAN_RIOC,RX I/O Control Register The CAN_RX pin of the DCAN_module can be used as general purpose IO pin if CAN function is not needed. The values of the IO control registers are only writable if INIT bit of the is set to 1."
bitfld.long 0x00 18. " PU          ,CAN_RX pull up/pull down select. This bit is only active when CAN_RX is configured to be an input." "0,1"
bitfld.long 0x00 17. "                 PD             ,CAN_RX pull disable. This bit is only active when CAN_TX is configured to be an input." "0,1"
bitfld.long 0x00 16. "                 OD            ,CAN_RX open drain enable. This bit is only active when CAN_RX is configured to be in GIO mode (FUNC=0). Forced to '0' if INIT bit of is reset." "0,1"
textline "                        "
bitfld.long 0x00 3. " FUNC        ,CAN_RX function. This bit changes the function of the CAN_RX pinorced to '1' if INIT bit of is reset. ." "0,1"
bitfld.long 0x00 2. "                 DIR            ,CAN_RX data direction. This bit controls the direction of the CAN_RX pin when it is configured to be in GIO mode only (FUNC=0)orced to '0' if INIT bit is reset. ." "0,1"
bitfld.long 0x00 1. "                 OUT           ,CAN_RX data out write. This bit is only active when CAN_RX pin is configured to be in GIO mode (FUNC = 0) and configured to be an output pin (DIR = 1). The value of this bit indicates the value to be output to the CAN_RX..." "0,1"
textline "                        "
bitfld.long 0x00 0. " IN          ,CAN_RX data in" "0,1"
width 0x0B
tree.end
tree.end
tree.end
tree.open "Gigabit_Ethernet_Switch_GMAC_SW"
tree.open "SPF1"
tree "SPF1"
base ad:0x48485C00
tree "Channel_0"
width 19.
group.long 0x1C++0x3
line.long 0x00 "SPF_CONSTj_0,Constant Register"
hexmask.long 0x00 0.--31. 1. " SPF_CONST   ,SPF Constant Register. The contents of this register are used as input to any instruction that references it."
group.long 0x78++0x3
line.long 0x00 "SPF_LOG_THRESHk_0,Log Threshold and Count Register"
hexmask.long.word 0x00 16.--31. 1. " SPF_COUNT   ,Number of packets dropped for drop code k (8 is default)"
hexmask.long.word 0x00 0.--15. 1. "      SPF_THRESH ,Number of packets to be dropped before logging starts"
group.long 0x18++0x3
line.long 0x00 "SPF_RATELIMi_0,Rate Limit Register"
hexmask.long.byte 0x00 0.--7. 1. " SPF_RATELIM ,SPF Rate Limit Register. The number of packets corresponding to a filter that will be allowed per unit time interval. The filters are programmed in the rule engine and time interval is determined by theSPF_PRESCALE register."
tree.end
tree "Channel_1"
width 19.
group.long 0x20++0x3
line.long 0x00 "SPF_CONSTj_1,Constant Register"
hexmask.long 0x00 0.--31. 1. " SPF_CONST   ,SPF Constant Register. The contents of this register are used as input to any instruction that references it."
group.long 0x7C++0x3
line.long 0x00 "SPF_LOG_THRESHk_1,Log Threshold and Count Register"
hexmask.long.word 0x00 16.--31. 1. " SPF_COUNT   ,Number of packets dropped for drop code k (8 is default)"
hexmask.long.word 0x00 0.--15. 1. "      SPF_THRESH ,Number of packets to be dropped before logging starts"
group.long 0x1C++0x3
line.long 0x00 "SPF_RATELIMi_1,Rate Limit Register"
hexmask.long.byte 0x00 0.--7. 1. " SPF_RATELIM ,SPF Rate Limit Register. The number of packets corresponding to a filter that will be allowed per unit time interval. The filters are programmed in the rule engine and time interval is determined by theSPF_PRESCALE register."
tree.end
tree "Channel_2"
width 19.
group.long 0x24++0x3
line.long 0x00 "SPF_CONSTj_2,Constant Register"
hexmask.long 0x00 0.--31. 1. " SPF_CONST   ,SPF Constant Register. The contents of this register are used as input to any instruction that references it."
group.long 0x80++0x3
line.long 0x00 "SPF_LOG_THRESHk_2,Log Threshold and Count Register"
hexmask.long.word 0x00 16.--31. 1. " SPF_COUNT   ,Number of packets dropped for drop code k (8 is default)"
hexmask.long.word 0x00 0.--15. 1. "      SPF_THRESH ,Number of packets to be dropped before logging starts"
group.long 0x20++0x3
line.long 0x00 "SPF_RATELIMi_2,Rate Limit Register"
hexmask.long.byte 0x00 0.--7. 1. " SPF_RATELIM ,SPF Rate Limit Register. The number of packets corresponding to a filter that will be allowed per unit time interval. The filters are programmed in the rule engine and time interval is determined by theSPF_PRESCALE register."
tree.end
tree "Channel_3"
width 19.
group.long 0x28++0x3
line.long 0x00 "SPF_CONSTj_3,Constant Register"
hexmask.long 0x00 0.--31. 1. " SPF_CONST   ,SPF Constant Register. The contents of this register are used as input to any instruction that references it."
group.long 0x84++0x3
line.long 0x00 "SPF_LOG_THRESHk_3,Log Threshold and Count Register"
hexmask.long.word 0x00 16.--31. 1. " SPF_COUNT   ,Number of packets dropped for drop code k (8 is default)"
hexmask.long.word 0x00 0.--15. 1. "      SPF_THRESH ,Number of packets to be dropped before logging starts"
group.long 0x24++0x3
line.long 0x00 "SPF_RATELIMi_3,Rate Limit Register"
hexmask.long.byte 0x00 0.--7. 1. " SPF_RATELIM ,SPF Rate Limit Register. The number of packets corresponding to a filter that will be allowed per unit time interval. The filters are programmed in the rule engine and time interval is determined by theSPF_PRESCALE register."
tree.end
tree "Channel_4"
width 19.
group.long 0x2C++0x3
line.long 0x00 "SPF_CONSTj_4,Constant Register"
hexmask.long 0x00 0.--31. 1. " SPF_CONST ,SPF Constant Register. The contents of this register are used as input to any instruction that references it."
group.long 0x88++0x3
line.long 0x00 "SPF_LOG_THRESHk_4,Log Threshold and Count Register"
hexmask.long.word 0x00 16.--31. 1. " SPF_COUNT ,Number of packets dropped for drop code k (8 is default)"
hexmask.long.word 0x00 0.--15. 1. "      SPF_THRESH ,Number of packets to be dropped before logging starts"
tree.end
tree "Channel_5"
width 19.
group.long 0x30++0x3
line.long 0x00 "SPF_CONSTj_5,Constant Register"
hexmask.long 0x00 0.--31. 1. " SPF_CONST ,SPF Constant Register. The contents of this register are used as input to any instruction that references it."
group.long 0x8C++0x3
line.long 0x00 "SPF_LOG_THRESHk_5,Log Threshold and Count Register"
hexmask.long.word 0x00 16.--31. 1. " SPF_COUNT ,Number of packets dropped for drop code k (8 is default)"
hexmask.long.word 0x00 0.--15. 1. "      SPF_THRESH ,Number of packets to be dropped before logging starts"
tree.end
tree "Channel_6"
width 19.
group.long 0x34++0x3
line.long 0x00 "SPF_CONSTj_6,Constant Register"
hexmask.long 0x00 0.--31. 1. " SPF_CONST ,SPF Constant Register. The contents of this register are used as input to any instruction that references it."
group.long 0x90++0x3
line.long 0x00 "SPF_LOG_THRESHk_6,Log Threshold and Count Register"
hexmask.long.word 0x00 16.--31. 1. " SPF_COUNT ,Number of packets dropped for drop code k (8 is default)"
hexmask.long.word 0x00 0.--15. 1. "      SPF_THRESH ,Number of packets to be dropped before logging starts"
tree.end
tree "Channel_7"
width 19.
group.long 0x38++0x3
line.long 0x00 "SPF_CONSTj_7,Constant Register"
hexmask.long 0x00 0.--31. 1. " SPF_CONST ,SPF Constant Register. The contents of this register are used as input to any instruction that references it."
group.long 0x94++0x3
line.long 0x00 "SPF_LOG_THRESHk_7,Log Threshold and Count Register"
hexmask.long.word 0x00 16.--31. 1. " SPF_COUNT ,Number of packets dropped for drop code k (8 is default)"
hexmask.long.word 0x00 0.--15. 1. "      SPF_THRESH ,Number of packets to be dropped before logging starts"
group.long 0x98++0x3
line.long 0x00 "SPF_LOG_THRESHk_8,Log Threshold and Count Register"
hexmask.long.word 0x00 16.--31. 1. " SPF_COUNT ,Number of packets dropped for drop code k (8 is default)"
hexmask.long.word 0x00 0.--15. 1. "      SPF_THRESH ,Number of packets to be dropped before logging starts"
tree.end
textline ""
width 16.
rgroup.long 0x0++0x3
line.long 0x00 "SPF_IDVER,SPF revision register"
hexmask.long 0x00 0.--31. 1. " REVISION       ,SPF revision value"
group.long 0x4++0x3
line.long 0x00 "SPF_STATUS,Status register"
bitfld.long 0x00 0. " SPF_BUSY       ,SPF is Busy/Idle, Busy Packet processing or logging in progress." "0,1"
group.long 0x8++0x3
line.long 0x00 "SPF_CONTROL,SPF control register"
bitfld.long 0x00 9. " SPF_LOGOW_EN   ,SPF Log Overwrite Enable. Setting this bit will cause SPF to overwrite previously logged data whether or not software has updated the software_working_pointer. Overwriting only occurs if there is new data but no space to write it in..." "0,1"
bitfld.long 0x00 8. "         SPF_LOG_EN    ,SPF Log Enable. Setting this bit will allow SPF to log information about dropped packets to memory." "0,1"
bitfld.long 0x00 3. "   SPF_RULE_LOG  ,SPF Rule Engine Log Enable. Setting this bit will allow SPF to log data from rule engine. The default is log data from extractor." "0,1"
textline "                         "
bitfld.long 0x00 2. " SPF_EXT_BYPASS ,SPF Extractor Bypass Enable. The extractor will not provide any offset information to rule engine if this bit is set. The rule engine must load each of the base registers it intends to use to determine if the packet should be discarded..." "0,1"
bitfld.long 0x00 1. "         SPF_DROP      ,SPF Drop Enable. This bit must be set to activate packet drops." "0,1"
bitfld.long 0x00 0. "   SPF_ENABLE    ,SPF Enable. This bit must be set to enable any operation in SPF. The SPF instruction memory can only be accessed by host processor when the spf_enable is deasserted. Once spf_enable is set, writing a zero to this bit will only take..." "0,1"
rgroup.long 0xC++0x3
line.long 0x00 "SPF_DROPCOUNT,Drop Count Register"
hexmask.long.tbyte 0x00 0.--23. 1. " SPF_DROPCNT    ,SPF Drop counter indicates the number of packets dropped so far. This counter does not roll over and must be cleared by writing 0x00FFFFFF."
group.long 0x10++0x3
line.long 0x00 "SPF_SWRESET,Software Reset Register"
bitfld.long 0x00 0. " SPF_SWRST      ,SPF Software reset bit can be set to initiate a software reset. It stays high until the reset has not completed, this reset clears all registers to default value." "0,1"
group.long 0x14++0x3
line.long 0x00 "SPF_PRESCALE,Rate Limit Prescale Register"
hexmask.long.tbyte 0x00 0.--19. 1. " SPF_PRESCALE   ,The MAIN clock is divided by this value for use in Rate Limiters. It is used to create rolling time intervals for use in rate limiting feature."
group.long 0x50++0x3
line.long 0x00 "SPF_INSTRW2,Instruction Word 2 Register"
hexmask.long.word 0x00 0.--13. 1. " SPF_INSTR_W2   ,SPF Rule Engine Instruction Word [75:64] is read from or written to this field."
group.long 0x54++0x3
line.long 0x00 "SPF_INSTRW1,Instruction Word 1 Register"
hexmask.long 0x00 0.--31. 1. " SPF_INSTR_W1   ,SPF Rule Engine Instruction Word [63:32] is read from or written to this field."
group.long 0x58++0x3
line.long 0x00 "SPF_INSTRW0,Instruction Word 0 Register"
hexmask.long 0x00 0.--31. 1. " SPF_INSTR_W0   ,SPF Rule Engine Instruction Word [31:0] is read from or written to this field."
group.long 0x5C++0x3
line.long 0x00 "SPF_INSTR_CTL,Instruction Control Register"
bitfld.long 0x00 31. " SPF_INSTR_WEN  ,SPF Write enable bit specifies whether a write operation is to be performed. To read or write instructions, spf processing must be stopped. When the rule engine is processing instructions, the instruction memory cannot be accessed..." "0,1"
bitfld.long 0x00 30. "         SPF_INSTR_REN ,SPF Read enable bit specifies whether a read operation is to be performed. This bit is set to perform a read and read data is available in the SPF_INSTR_W2, SPF_INSTR_W1 and SPF_INSTR_W0 registers once read operation has..." "0,1"
bitfld.long 0x00 0.--5. "   SPF_INSTR_PTR ,The address in the instruction memory that is to be accessed." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x60++0x3
line.long 0x00 "SPF_LOG_BEGIN,Log Begin Address Register"
hexmask.long 0x00 0.--31. 1. " SPF_LOG_BEGIN  ,SPF starts to write log data to memory starting from address given in this field."
group.long 0x64++0x3
line.long 0x00 "SPF_LOG_END,Log End Address Register"
hexmask.long 0x00 0.--31. 1. " SPF_LOG_END    ,This register along withSPF_LOG_BEGIN register defines the memory range for writing log data, the range(SPF_LOG_END SPF_LOG_BEGIN) should be multiple of 4 words(32 bits), as this is a look ahead register therefore the value progammed..."
group.long 0x68++0x3
line.long 0x00 "SPF_LOG_HWPTR,Log Hardware Pointer Register"
hexmask.long 0x00 0.--31. 1. " SPF_LOG_HWPTR  ,This register indicated the address of next location in memory that the SPF will log information to."
group.long 0x6C++0x3
line.long 0x00 "SPF_LOG_SWPTR,Log Software Pointer Register"
hexmask.long 0x00 0.--31. 1. " SPF_LOG_SWPTR  ,This register specifies the address where software shall do next read, software must inform SPF about memory roll over by writingSPF_LOG_END into this register."
group.long 0x70++0x3
line.long 0x00 "SPF_LOG_MAP0,Filter Code Map Register 0"
hexmask.long.byte 0x00 24.--31. 1. " SPF_LOGMAP3    ,Mapping of drop code 3 to log threshold 3"
hexmask.long.byte 0x00 16.--23. 1. "        SPF_LOGMAP2   ,Mapping of drop code 2 to log threshold 2"
hexmask.long.byte 0x00 8.--15. 1. "  SPF_LOGMAP1   ,Mapping of drop code 1 to log threshold 1"
textline "                         "
hexmask.long.byte 0x00 0.--7. 1. " SPF_LOGMAP0    ,Mapping of drop code 0 to log threshold 0"
group.long 0x74++0x3
line.long 0x00 "SPF_LOG_MAP1,Filter Code Map Register 1"
hexmask.long.byte 0x00 24.--31. 1. " SPF_LOGMAP7    ,Mapping of drop code 7 to log threshold 7"
hexmask.long.byte 0x00 16.--23. 1. "        SPF_LOGMAP6   ,Mapping of drop code 6 to log threshold 6"
hexmask.long.byte 0x00 8.--15. 1. "  SPF_LOGMAP5   ,Mapping of drop code 5 to log threshold 5"
textline "                         "
hexmask.long.byte 0x00 0.--7. 1. " SPF_LOGMAP4    ,Mapping of drop code 4 to log threshold 4"
group.long 0x9C++0x3
line.long 0x00 "SPF_INTCNT,Interrupt Frequency Control Register"
bitfld.long 0x00 0.--4. " SPF_INTCNT     ,Number of time thresholds must be met before a drop interrupt is triggered." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xA0++0x3
line.long 0x00 "SPF_INT_RAW,Raw Interrupt Status register"
bitfld.long 0x00 0. " SPF_INT_RAW    ,Status of Raw interrupt signal" "0,1"
group.long 0xA4++0x3
line.long 0x00 "SPF_INT_MASKED,Interrupt Status register"
bitfld.long 0x00 0. " SPF_INT_MASKED ,Status of interrupt signal with mask" "0,1"
group.long 0xA8++0x3
line.long 0x00 "SPF_MASK_SET,Interrupt Mask Set Register"
bitfld.long 0x00 0. " SPF_MASKSET    ,Write a 1 to this bit to enable the interrupt." "0,1"
group.long 0xAC++0x3
line.long 0x00 "SPF_MASK_CLR,Interrupt Mask Clear Register"
bitfld.long 0x00 0. " SPF_MASKCLR    ,Write a 1 to this bit to disable the interrupt." "0,1"
width 0x0B
tree.end
tree "SPF2"
base ad:0x48485E00
tree "Channel_0"
width 19.
group.long 0x1C++0x3
line.long 0x00 "SPF_CONSTj_0,Constant Register"
hexmask.long 0x00 0.--31. 1. " SPF_CONST   ,SPF Constant Register. The contents of this register are used as input to any instruction that references it."
group.long 0x78++0x3
line.long 0x00 "SPF_LOG_THRESHk_0,Log Threshold and Count Register"
hexmask.long.word 0x00 16.--31. 1. " SPF_COUNT   ,Number of packets dropped for drop code k (8 is default)"
hexmask.long.word 0x00 0.--15. 1. "      SPF_THRESH ,Number of packets to be dropped before logging starts"
group.long 0x18++0x3
line.long 0x00 "SPF_RATELIMi_0,Rate Limit Register"
hexmask.long.byte 0x00 0.--7. 1. " SPF_RATELIM ,SPF Rate Limit Register. The number of packets corresponding to a filter that will be allowed per unit time interval. The filters are programmed in the rule engine and time interval is determined by theSPF_PRESCALE register."
tree.end
tree "Channel_1"
width 19.
group.long 0x20++0x3
line.long 0x00 "SPF_CONSTj_1,Constant Register"
hexmask.long 0x00 0.--31. 1. " SPF_CONST   ,SPF Constant Register. The contents of this register are used as input to any instruction that references it."
group.long 0x7C++0x3
line.long 0x00 "SPF_LOG_THRESHk_1,Log Threshold and Count Register"
hexmask.long.word 0x00 16.--31. 1. " SPF_COUNT   ,Number of packets dropped for drop code k (8 is default)"
hexmask.long.word 0x00 0.--15. 1. "      SPF_THRESH ,Number of packets to be dropped before logging starts"
group.long 0x1C++0x3
line.long 0x00 "SPF_RATELIMi_1,Rate Limit Register"
hexmask.long.byte 0x00 0.--7. 1. " SPF_RATELIM ,SPF Rate Limit Register. The number of packets corresponding to a filter that will be allowed per unit time interval. The filters are programmed in the rule engine and time interval is determined by theSPF_PRESCALE register."
tree.end
tree "Channel_2"
width 19.
group.long 0x24++0x3
line.long 0x00 "SPF_CONSTj_2,Constant Register"
hexmask.long 0x00 0.--31. 1. " SPF_CONST   ,SPF Constant Register. The contents of this register are used as input to any instruction that references it."
group.long 0x80++0x3
line.long 0x00 "SPF_LOG_THRESHk_2,Log Threshold and Count Register"
hexmask.long.word 0x00 16.--31. 1. " SPF_COUNT   ,Number of packets dropped for drop code k (8 is default)"
hexmask.long.word 0x00 0.--15. 1. "      SPF_THRESH ,Number of packets to be dropped before logging starts"
group.long 0x20++0x3
line.long 0x00 "SPF_RATELIMi_2,Rate Limit Register"
hexmask.long.byte 0x00 0.--7. 1. " SPF_RATELIM ,SPF Rate Limit Register. The number of packets corresponding to a filter that will be allowed per unit time interval. The filters are programmed in the rule engine and time interval is determined by theSPF_PRESCALE register."
tree.end
tree "Channel_3"
width 19.
group.long 0x28++0x3
line.long 0x00 "SPF_CONSTj_3,Constant Register"
hexmask.long 0x00 0.--31. 1. " SPF_CONST   ,SPF Constant Register. The contents of this register are used as input to any instruction that references it."
group.long 0x84++0x3
line.long 0x00 "SPF_LOG_THRESHk_3,Log Threshold and Count Register"
hexmask.long.word 0x00 16.--31. 1. " SPF_COUNT   ,Number of packets dropped for drop code k (8 is default)"
hexmask.long.word 0x00 0.--15. 1. "      SPF_THRESH ,Number of packets to be dropped before logging starts"
group.long 0x24++0x3
line.long 0x00 "SPF_RATELIMi_3,Rate Limit Register"
hexmask.long.byte 0x00 0.--7. 1. " SPF_RATELIM ,SPF Rate Limit Register. The number of packets corresponding to a filter that will be allowed per unit time interval. The filters are programmed in the rule engine and time interval is determined by theSPF_PRESCALE register."
tree.end
tree "Channel_4"
width 19.
group.long 0x2C++0x3
line.long 0x00 "SPF_CONSTj_4,Constant Register"
hexmask.long 0x00 0.--31. 1. " SPF_CONST ,SPF Constant Register. The contents of this register are used as input to any instruction that references it."
group.long 0x88++0x3
line.long 0x00 "SPF_LOG_THRESHk_4,Log Threshold and Count Register"
hexmask.long.word 0x00 16.--31. 1. " SPF_COUNT ,Number of packets dropped for drop code k (8 is default)"
hexmask.long.word 0x00 0.--15. 1. "      SPF_THRESH ,Number of packets to be dropped before logging starts"
tree.end
tree "Channel_5"
width 19.
group.long 0x30++0x3
line.long 0x00 "SPF_CONSTj_5,Constant Register"
hexmask.long 0x00 0.--31. 1. " SPF_CONST ,SPF Constant Register. The contents of this register are used as input to any instruction that references it."
group.long 0x8C++0x3
line.long 0x00 "SPF_LOG_THRESHk_5,Log Threshold and Count Register"
hexmask.long.word 0x00 16.--31. 1. " SPF_COUNT ,Number of packets dropped for drop code k (8 is default)"
hexmask.long.word 0x00 0.--15. 1. "      SPF_THRESH ,Number of packets to be dropped before logging starts"
tree.end
tree "Channel_6"
width 19.
group.long 0x34++0x3
line.long 0x00 "SPF_CONSTj_6,Constant Register"
hexmask.long 0x00 0.--31. 1. " SPF_CONST ,SPF Constant Register. The contents of this register are used as input to any instruction that references it."
group.long 0x90++0x3
line.long 0x00 "SPF_LOG_THRESHk_6,Log Threshold and Count Register"
hexmask.long.word 0x00 16.--31. 1. " SPF_COUNT ,Number of packets dropped for drop code k (8 is default)"
hexmask.long.word 0x00 0.--15. 1. "      SPF_THRESH ,Number of packets to be dropped before logging starts"
tree.end
tree "Channel_7"
width 19.
group.long 0x38++0x3
line.long 0x00 "SPF_CONSTj_7,Constant Register"
hexmask.long 0x00 0.--31. 1. " SPF_CONST ,SPF Constant Register. The contents of this register are used as input to any instruction that references it."
group.long 0x94++0x3
line.long 0x00 "SPF_LOG_THRESHk_7,Log Threshold and Count Register"
hexmask.long.word 0x00 16.--31. 1. " SPF_COUNT ,Number of packets dropped for drop code k (8 is default)"
hexmask.long.word 0x00 0.--15. 1. "      SPF_THRESH ,Number of packets to be dropped before logging starts"
group.long 0x98++0x3
line.long 0x00 "SPF_LOG_THRESHk_8,Log Threshold and Count Register"
hexmask.long.word 0x00 16.--31. 1. " SPF_COUNT ,Number of packets dropped for drop code k (8 is default)"
hexmask.long.word 0x00 0.--15. 1. "      SPF_THRESH ,Number of packets to be dropped before logging starts"
tree.end
textline ""
width 16.
rgroup.long 0x0++0x3
line.long 0x00 "SPF_IDVER,SPF revision register"
hexmask.long 0x00 0.--31. 1. " REVISION       ,SPF revision value"
group.long 0x4++0x3
line.long 0x00 "SPF_STATUS,Status register"
bitfld.long 0x00 0. " SPF_BUSY       ,SPF is Busy/Idle, Busy Packet processing or logging in progress." "0,1"
group.long 0x8++0x3
line.long 0x00 "SPF_CONTROL,SPF control register"
bitfld.long 0x00 9. " SPF_LOGOW_EN   ,SPF Log Overwrite Enable. Setting this bit will cause SPF to overwrite previously logged data whether or not software has updated the software_working_pointer. Overwriting only occurs if there is new data but no space to write it in..." "0,1"
bitfld.long 0x00 8. "         SPF_LOG_EN    ,SPF Log Enable. Setting this bit will allow SPF to log information about dropped packets to memory." "0,1"
bitfld.long 0x00 3. "   SPF_RULE_LOG  ,SPF Rule Engine Log Enable. Setting this bit will allow SPF to log data from rule engine. The default is log data from extractor." "0,1"
textline "                         "
bitfld.long 0x00 2. " SPF_EXT_BYPASS ,SPF Extractor Bypass Enable. The extractor will not provide any offset information to rule engine if this bit is set. The rule engine must load each of the base registers it intends to use to determine if the packet should be discarded..." "0,1"
bitfld.long 0x00 1. "         SPF_DROP      ,SPF Drop Enable. This bit must be set to activate packet drops." "0,1"
bitfld.long 0x00 0. "   SPF_ENABLE    ,SPF Enable. This bit must be set to enable any operation in SPF. The SPF instruction memory can only be accessed by host processor when the spf_enable is deasserted. Once spf_enable is set, writing a zero to this bit will only take..." "0,1"
rgroup.long 0xC++0x3
line.long 0x00 "SPF_DROPCOUNT,Drop Count Register"
hexmask.long.tbyte 0x00 0.--23. 1. " SPF_DROPCNT    ,SPF Drop counter indicates the number of packets dropped so far. This counter does not roll over and must be cleared by writing 0x00FFFFFF."
group.long 0x10++0x3
line.long 0x00 "SPF_SWRESET,Software Reset Register"
bitfld.long 0x00 0. " SPF_SWRST      ,SPF Software reset bit can be set to initiate a software reset. It stays high until the reset has not completed, this reset clears all registers to default value." "0,1"
group.long 0x14++0x3
line.long 0x00 "SPF_PRESCALE,Rate Limit Prescale Register"
hexmask.long.tbyte 0x00 0.--19. 1. " SPF_PRESCALE   ,The MAIN clock is divided by this value for use in Rate Limiters. It is used to create rolling time intervals for use in rate limiting feature."
group.long 0x50++0x3
line.long 0x00 "SPF_INSTRW2,Instruction Word 2 Register"
hexmask.long.word 0x00 0.--13. 1. " SPF_INSTR_W2   ,SPF Rule Engine Instruction Word [75:64] is read from or written to this field."
group.long 0x54++0x3
line.long 0x00 "SPF_INSTRW1,Instruction Word 1 Register"
hexmask.long 0x00 0.--31. 1. " SPF_INSTR_W1   ,SPF Rule Engine Instruction Word [63:32] is read from or written to this field."
group.long 0x58++0x3
line.long 0x00 "SPF_INSTRW0,Instruction Word 0 Register"
hexmask.long 0x00 0.--31. 1. " SPF_INSTR_W0   ,SPF Rule Engine Instruction Word [31:0] is read from or written to this field."
group.long 0x5C++0x3
line.long 0x00 "SPF_INSTR_CTL,Instruction Control Register"
bitfld.long 0x00 31. " SPF_INSTR_WEN  ,SPF Write enable bit specifies whether a write operation is to be performed. To read or write instructions, spf processing must be stopped. When the rule engine is processing instructions, the instruction memory cannot be accessed..." "0,1"
bitfld.long 0x00 30. "         SPF_INSTR_REN ,SPF Read enable bit specifies whether a read operation is to be performed. This bit is set to perform a read and read data is available in the SPF_INSTR_W2, SPF_INSTR_W1 and SPF_INSTR_W0 registers once read operation has..." "0,1"
bitfld.long 0x00 0.--5. "   SPF_INSTR_PTR ,The address in the instruction memory that is to be accessed." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x60++0x3
line.long 0x00 "SPF_LOG_BEGIN,Log Begin Address Register"
hexmask.long 0x00 0.--31. 1. " SPF_LOG_BEGIN  ,SPF starts to write log data to memory starting from address given in this field."
group.long 0x64++0x3
line.long 0x00 "SPF_LOG_END,Log End Address Register"
hexmask.long 0x00 0.--31. 1. " SPF_LOG_END    ,This register along withSPF_LOG_BEGIN register defines the memory range for writing log data, the range(SPF_LOG_END SPF_LOG_BEGIN) should be multiple of 4 words(32 bits), as this is a look ahead register therefore the value progammed..."
group.long 0x68++0x3
line.long 0x00 "SPF_LOG_HWPTR,Log Hardware Pointer Register"
hexmask.long 0x00 0.--31. 1. " SPF_LOG_HWPTR  ,This register indicated the address of next location in memory that the SPF will log information to."
group.long 0x6C++0x3
line.long 0x00 "SPF_LOG_SWPTR,Log Software Pointer Register"
hexmask.long 0x00 0.--31. 1. " SPF_LOG_SWPTR  ,This register specifies the address where software shall do next read, software must inform SPF about memory roll over by writingSPF_LOG_END into this register."
group.long 0x70++0x3
line.long 0x00 "SPF_LOG_MAP0,Filter Code Map Register 0"
hexmask.long.byte 0x00 24.--31. 1. " SPF_LOGMAP3    ,Mapping of drop code 3 to log threshold 3"
hexmask.long.byte 0x00 16.--23. 1. "        SPF_LOGMAP2   ,Mapping of drop code 2 to log threshold 2"
hexmask.long.byte 0x00 8.--15. 1. "  SPF_LOGMAP1   ,Mapping of drop code 1 to log threshold 1"
textline "                         "
hexmask.long.byte 0x00 0.--7. 1. " SPF_LOGMAP0    ,Mapping of drop code 0 to log threshold 0"
group.long 0x74++0x3
line.long 0x00 "SPF_LOG_MAP1,Filter Code Map Register 1"
hexmask.long.byte 0x00 24.--31. 1. " SPF_LOGMAP7    ,Mapping of drop code 7 to log threshold 7"
hexmask.long.byte 0x00 16.--23. 1. "        SPF_LOGMAP6   ,Mapping of drop code 6 to log threshold 6"
hexmask.long.byte 0x00 8.--15. 1. "  SPF_LOGMAP5   ,Mapping of drop code 5 to log threshold 5"
textline "                         "
hexmask.long.byte 0x00 0.--7. 1. " SPF_LOGMAP4    ,Mapping of drop code 4 to log threshold 4"
group.long 0x9C++0x3
line.long 0x00 "SPF_INTCNT,Interrupt Frequency Control Register"
bitfld.long 0x00 0.--4. " SPF_INTCNT     ,Number of time thresholds must be met before a drop interrupt is triggered." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xA0++0x3
line.long 0x00 "SPF_INT_RAW,Raw Interrupt Status register"
bitfld.long 0x00 0. " SPF_INT_RAW    ,Status of Raw interrupt signal" "0,1"
group.long 0xA4++0x3
line.long 0x00 "SPF_INT_MASKED,Interrupt Status register"
bitfld.long 0x00 0. " SPF_INT_MASKED ,Status of interrupt signal with mask" "0,1"
group.long 0xA8++0x3
line.long 0x00 "SPF_MASK_SET,Interrupt Mask Set Register"
bitfld.long 0x00 0. " SPF_MASKSET    ,Write a 1 to this bit to enable the interrupt." "0,1"
group.long 0xAC++0x3
line.long 0x00 "SPF_MASK_CLR,Interrupt Mask Clear Register"
bitfld.long 0x00 0. " SPF_MASKCLR    ,Write a 1 to this bit to disable the interrupt." "0,1"
width 0x0B
tree.end
tree.end
tree "MDIO"
base ad:0x48485000
width 21.
group.long 0x0++0x3
line.long 0x00 "MDIO_VER,MDIO Revision"
hexmask.long 0x00 0.--31. 1. " REVISION         ,MDIO revision value"
group.long 0x4++0x3
line.long 0x00 "MDIO_CONTROL,MDIO Control register"
bitfld.long 0x00 31. " IDLE             ,MDIO state machine IDLE. Set to 1 when the state machine is in the idle state. 0: State machine is not in idle state. 1: State machine is in idle state." "0,1"
bitfld.long 0x00 30. "         ENABLE     ,Enable control. If the MDIO state machine is active at the time it is disabled, it will complete the current operation before halting and setting the IDLE bit. If using byte access, the ENABLE bit has to be the last bit written in ..." "0,1"
bitfld.long 0x00 24.--28. "     HIGHEST_USER_CHANNEL ,Highest user channel. This field specifies the highest user access channel that is available in the module and is currently set to 1. This implies that theMDIO_USERACCESS1 register is the highest available user access channel." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                              "
bitfld.long 0x00 20. " PREAMBLE         ,Preamble disable. 0: Standard MDIO preamble is used. 1: Disables this device from sending MDIO frame preambles." "0,1"
bitfld.long 0x00 19. "         FAULT      ,Fault indicator. This bit is set to 1 if the MDIO pins fail to read back what the device is driving onto them. This indicates a physical layer fault and the module state machine is reset. Writing a 1 to it clears this bit. 0: No fa..." "0,1"
bitfld.long 0x00 18. "     FAULTENB             ,Fault detect enable. This bit has to be set to 1 to enable the physical layer fault detection. 0: Disables the physical layer fault detection. 1: Enables the physical layer fault detection." "0,1"
textline "                              "
bitfld.long 0x00 17. " INTTESTENB       ,Interrupt test enable. This bit can be set to 1 to enable the host to set the USERINT and LINKINT bits for test purposes. 0: Interrupt bits are not set. 1: Enables the host to set the USERINT and LINKINT bits for test purposes." "0,1"
hexmask.long.word 0x00 0.--15. 1. "         CLKDIV     ,Clock divider. This field specifies the division ratio between ICLK and the frequency of MDCLK. MDCLK is disabled when CLKDIV is set to 0. MDCLK frequency = ICLK frequency/(CLKDIV+1)."
group.long 0x8++0x3
line.long 0x00 "MDIO_ALIVE,PHY Alive Status Register"
hexmask.long 0x00 0.--31. 1. " ALIVE            ,MDIO alive. Each of the 32 bits of this register is set if the most recent access to the PHY with address corresponding to the register bit number was acknowledged by the PHY, the bit is reset if the PHY fails to acknowledge the acce..."
rgroup.long 0xC++0x3
line.long 0x00 "MDIO_LINK,PHY Link Status"
hexmask.long 0x00 0.--31. 1. " LINK             ,MDIO link state. This register is updated after a read of the Generic Status Register of a PHY. The bit is set if the PHY with the corresponding address has link and the PHY acknowledges the read transaction. The bit is reset if the ..."
group.long 0x10++0x3
line.long 0x00 "MDIO_LINKINTRAW,"
bitfld.long 0x00 0.--1. " LINKINTRAW       ,MDIO link change event, raw value." "0,1,2,3"
group.long 0x14++0x3
line.long 0x00 "MDIO_LINKINTMASKED,MDIO Link Status Change Interrupt Register"
bitfld.long 0x00 0.--1. " LINKINTMASKED    ,MDIO link change interrupt, masked value. When asserted 1, a bit indicates that there was an MDIO link change event (i.e. change in the MDIO Link register) corresponding to the PHY address in the MDIO_USERPHYSEL register and the corr..." "0,1,2,3"
group.long 0x20++0x3
line.long 0x00 "MDIO_USERINTRAW,MDIO User Command Complete Interrupt"
bitfld.long 0x00 0.--1. " USERINTRAW       ,Raw value of MDIO user command complete event for theMDIO_USERACCESS1 and MDIO_USERACCESS0 register, respectively. When asserted 1, a bit indicates that the previously scheduled PHY read or write command using that particular MDIO_US..." "0,1,2,3"
group.long 0x24++0x3
line.long 0x00 "MDIO_USERINTMASKED,MDIO User Command Complete Interrupt"
bitfld.long 0x00 0.--1. " USERINTMASKED    ,Masked value of MDIO user command complete interrupt for theMDIO_USERACCESS1 and MDIO_USERACCESS0 register, respectively. When asserted 1, a bit indicates that the previously scheduled PHY read or write command using that particular ..." "0,1,2,3"
group.long 0x28++0x3
line.long 0x00 "MDIO_USERINTMASKSET,MDIO User Command Complete Interrupt Mask Set"
bitfld.long 0x00 0.--1. " USERINTMASKSET   ,MDIO user interrupt mask set for USERINTMASKED[1:0], respectively. Writing a bit to 1 will enable MDIO user command complete interrupts for that particular MDIO_USERACCESS register. MDIO user interrupt for a particular MDIO_USERACCES..." "0,1,2,3"
group.long 0x2C++0x3
line.long 0x00 "MDIO_USERINTMASKCLR,MDIO User Command Complete Interrupt Mask Clear"
bitfld.long 0x00 0.--1. " USERINTMASKCLEAR ,MDIO user command complete interrupt mask clear for USERINTMASKED[1:0], respectively. Writing a bit to 1 will disable further user command complete interrupts for that particular MDIO_USERACCESS register. Writing a 0 to this register..." "0,1,2,3"
group.long 0x80++0x3
line.long 0x00 "MDIO_USERACCESS0,MDIO_User_Access"
bitfld.long 0x00 31. " GO               ,Go. Writing a 1 to this bit causes the MDIO state machine to perform an MDIO access when it is convenient for it to do so, this is not an instantaneous process. Writing a 0 to this bit has no effect. This bit is write able only if th..." "0,1"
bitfld.long 0x00 30. "         WRITE      ,Write enable. Setting this bit to a 1 causes the MDIO transaction to be a register write, otherwise it is a register read." "0,1"
bitfld.long 0x00 29. "     ACK                  ,Acknowledge. This bit is set if the PHY acknowledged the read transaction." "0,1"
textline "                              "
bitfld.long 0x00 21.--25. " REGADR           ,Register address. Specifies the PHY register to be accessed for this transaction." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "        PHYADR     ,PHY address. Specifies the PHY to be accesses for this transaction." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.word 0x00 0.--15. 1. "    DATA                 ,User data. The data value read from or to be written to the specified PHY register."
group.long 0x84++0x3
line.long 0x00 "MDIO_USERPHYSEL0,MDIO User PHY Select"
bitfld.long 0x00 7. " LINKSEL          ,Link status determination select. Set to 1 to determine link status using the MLINK pin (NOT PINNED OUT). Default value is 0 which implies that the link status is determined by the MDIO state machine." "0,1"
bitfld.long 0x00 6. "         LINKINTENB ,Link change interrupt enable. Set to 1 to enable link change status interrupts for PHY address specified in PHYADDRMON. Link change interrupts are disabled if this bit is set to 0. 0: Link change interrupts are disabled. 1: Link ch..." "0,1"
bitfld.long 0x00 0.--4. "     PHYADDRMON           ,PHY address whose link status is to be monitored." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x88++0x3
line.long 0x00 "MDIO_USERACCESS1,MDIO User Access"
bitfld.long 0x00 31. " GO               ,Go. Writing a 1 to this bit causes the MDIO state machine to perform an MDIO access when it is convenient for it to do so, this is not an instantaneous process. Writing a 0 to this bit has no effect. This bit is write able only if th..." "0,1"
bitfld.long 0x00 30. "         WRITE      ,Write enable. Setting this bit to a 1 causes the MDIO transaction to be a register write, otherwise it is a register read." "0,1"
bitfld.long 0x00 29. "     ACK                  ,Acknowledge. This bit is set if the PHY acknowledged the read transaction." "0,1"
textline "                              "
bitfld.long 0x00 21.--25. " REGADR           ,Register address. Specifies the PHY register to be accessed for this transaction." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 16.--20. "        PHYADR     ,PHY address. Specifies the PHY to be accesses for this transaction." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.word 0x00 0.--15. 1. "    DATA                 ,User data. The data value read from or to be written to the specified PHY register."
group.long 0x8C++0x3
line.long 0x00 "MDIO_USERPHYSEL1,MDIO User PHY Select"
bitfld.long 0x00 7. " LINKSEL          ,Link status determination select. Set to 1 to determine link status using the MLINK pin (NOT PINNED OUT). Default value is 0 which implies that the link status is determined by the MDIO state machine." "0,1"
bitfld.long 0x00 6. "         LINKINTENB ,Link change interrupt enable. Set to 1 to enable link change status interrupts for PHY address specified in PHYADDRMON. Link change interrupts are disabled if this bit is set to 0. 0: Link change interrupts are disabled. 1: Link ch..." "0,1"
bitfld.long 0x00 0.--4. "     PHYADDRMON           ,PHY address whose link status is to be monitored." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
width 0x0B
tree.end
tree "STATS"
base ad:0x48484900
width 30.
group.long 0x0++0x3
line.long 0x00 "GOOD_RX_FRAMES,The total number of good frames received on the port. A good frame is defined to be: - Any data or MAC control frame which matched a unicast, broadcast or multicast address, or matched due to promiscuous mode - Had a length of 64 to..."
hexmask.long 0x00 0.--31. 1. " VALUE ,Statistic value"
group.long 0x4++0x3
line.long 0x00 "BROADCAST_RX_FRAMES,The total number of good broadcast frames received on the port. A good broadcast frame is defined to be: - Any data or MAC control frame which was destined for only address 0xFFFFFFFFFFFF - Had a length of [13:0] RX_MAXLEN..."
hexmask.long 0x00 0.--31. 1. " VALUE ,Statistic value"
group.long 0x8++0x3
line.long 0x00 "MULTICAST_RX_FRAMES,The total number of good multicast frames received on the port. A good multicast frame is defined to be: - Any data or MAC control frame which was destined for any multicast address other than 0xFFFFFFFFFFFF - Had a length of..."
hexmask.long 0x00 0.--31. 1. " VALUE ,Statistic value"
group.long 0xC++0x3
line.long 0x00 "PAUSE_RX_FRAMES,The total number of IEEE 802.3X pause frames received by the port (whether acted upon or not). Such a frame: - Contained any unicast, broadcast, or multicast address - Contained the length/type field value 88.08 (hex) and the opcode..."
hexmask.long 0x00 0.--31. 1. " VALUE ,Statistic value"
group.long 0x10++0x3
line.long 0x00 "RX_CRC_ERRORS,The total number of frames received on the port that experienced a CRC error. Such a frame: - Was any data or MAC control frame which matched a unicast, broadcast or multicast address, or matched due to promiscuous mode - Was of length..."
hexmask.long 0x00 0.--31. 1. " VALUE ,Statistic value"
group.long 0x14++0x3
line.long 0x00 "RX_ALIGN_CODE_ERRORS,The total number of frames received on the port that experienced an alignment error or code error. Such a frame: - Was any data or MAC control frame which matched a unicast, broadcast or multicast address, or matched due to..."
hexmask.long 0x00 0.--31. 1. " VALUE ,Statistic value"
group.long 0x18++0x3
line.long 0x00 "OVERSIZE_RX_FRAMES,The total number of oversized frames received on the port. An oversized frame is defined to be: - Was any data or MAC control frame which matched a unicast, broadcast or multicast address, or matched due to promiscuous mode..."
hexmask.long 0x00 0.--31. 1. " VALUE ,Statistic value"
group.long 0x1C++0x3
line.long 0x00 "RX_JABBERS,The total number of jabber frames received on the port. A jabber frame: - Was any data or MAC control frame which matched a unicast, broadcast or multicast address, or matched due to promiscuous mode - Was greater than [13:0] RX_MAXLEN..."
hexmask.long 0x00 0.--31. 1. " VALUE ,Statistic value"
group.long 0x20++0x3
line.long 0x00 "UNDERSIZE_RX_FRAMES,The total number of undersized frames received on the port. An undersized frame is defined to be: - Was any data frame which matched a unicast, broadcast or multicast address, or matched due to promiscuous mode - Was greater..."
hexmask.long 0x00 0.--31. 1. " VALUE ,Statistic value"
group.long 0x24++0x3
line.long 0x00 "RX_FRAGMENTS,The total number of frame fragments received on the port. A frame fragment is defined to be: - Any data frame (address matching does not matter) - Less than 64 bytes long - Having a CRC error, an alignment error, or a code error..."
hexmask.long 0x00 0.--31. 1. " VALUE ,Statistic value"
group.long 0x30++0x3
line.long 0x00 "RX_OCTETS,The total number of bytes in all good frames received on the port. A good frame is defined to be: - Any data or MAC control frame which matched a unicast, broadcast or multicast address, or matched due to promiscuous mode - Of length 64..."
hexmask.long 0x00 0.--31. 1. " VALUE ,Statistic value"
group.long 0x34++0x3
line.long 0x00 "GOOD_TX_FRAMES,The total number of good frames received on the port. A good frame is defined to be: - Any data or MAC control frame which matched a unicast, broadcast or multicast address, or matched due to promiscuous mode - Any length - Had no..."
hexmask.long 0x00 0.--31. 1. " VALUE ,Statistic value"
group.long 0x38++0x3
line.long 0x00 "BROADCAST_TX_FRAMES,The total number of good broadcast frames received on the port. A good broadcast frame is defined to be: - Any data or MAC control frame which was destined for only address 0xFFFFFFFFFFFF - Any length - Had no late or excessive..."
hexmask.long 0x00 0.--31. 1. " VALUE ,Statistic value"
group.long 0x3C++0x3
line.long 0x00 "MULTICAST_TX_FRAMES,The total number of good multicast frames received on the port. A good multicast frame is defined to be: - Any data or MAC control frame which was destined for any multicast address other than 0xFFFFFFFFFFFF - Any length - Had no..."
hexmask.long 0x00 0.--31. 1. " VALUE ,Statistic value"
group.long 0x40++0x3
line.long 0x00 "PAUSE_TX_FRAMES,This statistic indicates the number of IEEE 802.3X pause frames transmitted by the port. Pause frames cannot underrun or contain a CRC error because they are created in the transmitting MAC, so these error conditions have no effect..."
hexmask.long 0x00 0.--31. 1. " VALUE ,Statistic value"
group.long 0x44++0x3
line.long 0x00 "DEFERRED_TX_FRAMES,The total number of frames transmitted on the port that first experienced deferment. Such a frame: - Was any data or MAC control frame destined for any unicast, broadcast or multicast address - Was any size - Had no carrier loss..."
hexmask.long 0x00 0.--31. 1. " VALUE ,Statistic value"
group.long 0x48++0x3
line.long 0x00 "COLLISIONS,This statistic records the total number of times that the port experienced a collision. Collisions occur under two circumstances. 1. When a transmit data or MAC control frame: - Was destined for any unicast, broadcast or multicast address..."
hexmask.long 0x00 0.--31. 1. " VALUE ,Statistic value"
group.long 0x4C++0x3
line.long 0x00 "SINGLE_COLLISION_TX_FRAMES,The total number of frames transmitted on the port that experienced exactly one collision. Such a frame: - Was any data or MAC control frame destined for any unicast, broadcast or multicast address - Was any size - Had no..."
hexmask.long 0x00 0.--31. 1. " VALUE ,Statistic value"
group.long 0x50++0x3
line.long 0x00 "MULTIPLE_COLLISION_TX_FRAMES,The total number of frames transmitted on the port that experienced multiple collisions. Such a frame: - Was any data or MAC control frame destined for any unicast, broadcast or multicast address - Was any size - Had no..."
hexmask.long 0x00 0.--31. 1. " VALUE ,Statistic value"
group.long 0x54++0x3
line.long 0x00 "EXCESSIVE_COLLISIONS,The total number of frames for which transmission was abandoned due to excessive collisions. Such a frame: - Was any data or MAC control frame destined for any unicast, broadcast or multicast address - Was any size - Had no..."
hexmask.long 0x00 0.--31. 1. " VALUE ,Statistic value"
group.long 0x58++0x3
line.long 0x00 "LATE_COLLISIONS,The total number of frames on the port for which transmission was abandoned because they experienced a late collision. Such a frame: - Was any data or MAC control frame destined for any unicast, broadcast or multicast address - Was any ..."
hexmask.long 0x00 0.--31. 1. " VALUE ,Statistic value"
group.long 0x5C++0x3
line.long 0x00 "TX_UNDERRUN,There should be no transmitted frames that experience underrun."
hexmask.long 0x00 0.--31. 1. " VALUE ,Statistic value"
group.long 0x60++0x3
line.long 0x00 "CARRIER_SENSE_ERRORS,The total number of frames received on the port that had a CPDMA middle of frame (MOF) overrun. MOF overrun frame is defined to be: - Was any data or MAC control frame destined for any unicast, broadcast or multicast address..."
hexmask.long 0x00 0.--31. 1. " VALUE ,Statistic value"
group.long 0x64++0x3
line.long 0x00 "TX_OCTETS,The total number of bytes in all good frames transmitted on the port. A good frame is defined to be: - Any data or MAC control frame which was destined for any unicast, broadcast or multicast address - Was any size - Had no late or excessive..."
hexmask.long 0x00 0.--31. 1. " VALUE ,Statistic value"
group.long 0x68++0x3
line.long 0x00 "RX_TX_64_OCTET_FRAMES,The total number of 64-byte frames received and transmitted on the port. Such a frame is defined to be: - Any data or MAC control frame which was destined for any unicast, broadcast or multicast address - Did not experience..."
hexmask.long 0x00 0.--31. 1. " VALUE ,Statistic value"
group.long 0x6C++0x3
line.long 0x00 "RX_TX_65_127_OCTET_FRAMES,The total number of frames of size 65 to 127 bytes received and transmitted on the port. Such a frame is defined to be: - Any data or MAC control frame which was destined for any unicast, broadcast or multicast address..."
hexmask.long 0x00 0.--31. 1. " VALUE ,Statistic value"
group.long 0x70++0x3
line.long 0x00 "RX_TX_128_255_OCTET_FRAMES,The total number of frames of size 128 to 255 bytes received and transmitted on the port. Such a frame is defined to be: - Any data or MAC control frame which was destined for any unicast, broadcast or multicast address..."
hexmask.long 0x00 0.--31. 1. " VALUE ,Statistic value"
group.long 0x74++0x3
line.long 0x00 "RX_TX_256_511_OCTET_FRAMES,The total number of frames of size 256 to 511 bytes received and transmitted on the port. Such a frame is defined to be: - Any data or MAC control frame which was destined for any unicast, broadcast or multicast address..."
hexmask.long 0x00 0.--31. 1. " VALUE ,Statistic value"
group.long 0x78++0x3
line.long 0x00 "RX_TX_512_1023_OCTET_FRAMES,The total number of frames of size 512 to 1023 bytes received and transmitted on the port. Such a frame is defined to be: - Any data or MAC control frame which was destined for any unicast, broadcast or multicast address..."
hexmask.long 0x00 0.--31. 1. " VALUE ,Statistic value"
group.long 0x7C++0x3
line.long 0x00 "RX_TX_1024_UP_OCTET_FRAMES,The total number of frames of size 1024 to[13:0] RX_MAXLEN bytes for receive or 1024 up for transmit on the port. Such a frame is defined to be: - Any data or MAC control frame which was destined for any unicast, broadcast..."
hexmask.long 0x00 0.--31. 1. " VALUE ,Statistic value"
group.long 0x80++0x3
line.long 0x00 "NET_OCTETS,The total number of bytes of frame data received and transmitted on the port. Each frame counted: - was any data or MAC control frame destined for any unicast, broadcast or multicast address (address match does not matter) - Any length..."
hexmask.long 0x00 0.--31. 1. " VALUE ,Statistic value"
group.long 0x84++0x3
line.long 0x00 "RX_START_OF_FRAME_OVERRUNS,The total number of frames received on the port that had a CPDMA start of frame (SOF) overrun or were dropped by due to FIFO resource limitations, or were dropped by the SPF. SOF overrun frame is defined to be: - Any data..."
hexmask.long 0x00 0.--31. 1. " VALUE ,Statistic value"
group.long 0x88++0x3
line.long 0x00 "RX_MIDDLE_OF_FRAME_OVERRUNS,The total number of frames received on the port that had a CPDMA middle of frame (MOF) overrun. MOF overrun frame is defined to be: - Any data or MAC control frame which matched a unicast, broadcast or multicast address..."
hexmask.long 0x00 0.--31. 1. " VALUE ,Statistic value"
group.long 0x8C++0x3
line.long 0x00 "RX_DMA_OVERRUNS,The total number of frames received on the port that had either a DMA start of frame (SOF) overrun or a DMA MOF overrun. An Rx DMA overrun frame is defined to be: - Any data or MAC control frame which matched a unicast, broadcast..."
hexmask.long 0x00 0.--31. 1. " VALUE ,Statistic value"
width 0x0B
tree.end
tree "SS"
base ad:0x48484000
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "CPSW_ID_VER,CPSW_3G ID version register"
hexmask.long 0x00 0.--31. 1. " REVISION         ,CPSW_3G Revision Value"
group.long 0x4++0x3
line.long 0x00 "CPSW_CONTROL,Switch control register"
bitfld.long 0x00 4. " EEE_EN           ,EEE (Energy Efficient Ethernet) enable 0 ? EEE is disabled. 1 ? EEE is enabled" "0,1"
bitfld.long 0x00 3. "         DLR_EN           ,DLR enable 0 - DLR is disabled. DLR packets will not be moved to queue priority 3 and will not be separated out onto dlr_cpdma_ch. 1 - DLR is disabled. DLR packets be moved to destination port transmit queue priority 3 and wi..." "0,1"
bitfld.long 0x00 2. "     RX_VLAN_ENCAP    ,Port 0 VLAN Encapsulation (egress): 0 - Port 2 receive packets (from 3G) are not VLAN encapsulated. 1 - Port 2 receive packets (from 3G) are VLAN encapsulated." "0,1"
textline "                            "
bitfld.long 0x00 1. " VLAN_AWARE       ,VLAN Aware Mode: 0 - 3G is in the VLAN unaware mode. 1 - 3G is in the VLAN aware mode." "0,1"
bitfld.long 0x00 0. "         FIFO_LOOPBACK    ,FIFO Loopback Mode 0 - Loopback is disabled 1 - FIFO Loopback mode enabled. Each packet received is turned around and sent out on the same port's transmit path. Port 2 receive is fixed on channel zero. The RXSOFOVERRUN statis..." "0,1"
group.long 0x8++0x3
line.long 0x00 "CPSW_SOFT_RESET,Soft reset register"
bitfld.long 0x00 0. " SOFT_RESET       ,Software reset - Writing a one to this bit causes the 3G logic (INT, REGS, CPPI, and SPF modules) to be reset. After writing a one to this bit, it may be polled to determine if the reset has occurred. If a one is read, the reset has ..." "0,1"
group.long 0xC++0x3
line.long 0x00 "CPSW_STAT_PORT_EN,Statistics port enable register"
bitfld.long 0x00 2. " P2_STAT_EN       ,Port 2 (GMII2 and Port 2 FIFO) Statistics Enable 0 - Port 2 statistics are not enabled. 1 - Port 2 statistics are enabled." "0,1"
bitfld.long 0x00 1. "         P1_STAT_EN       ,Port 1 (GMII1 and Port 1 FIFO) Statistics Enable 0 - Port 1 statistics are not enabled. 1 - Port 1 statistics are enabled." "0,1"
bitfld.long 0x00 0. "     P0_STAT_EN       ,Port 0 Statistics Enable 0 - Port 0 statistics are not enabled 1 - Port 0 statistics are enabled. FIFO overruns (SOFOVERRUNS) are the only port 0 statistics that are enabled to be kept." "0,1"
group.long 0x10++0x3
line.long 0x00 "CPSW_PTYPE,Transmit priority type register"
bitfld.long 0x00 21. " P2_PRI3_SHAPE_EN ,Port 2 Queue Priority 3 Transmit Shape Enable - If there is only one shaping queue then it must be priority 3." "0,1"
bitfld.long 0x00 20. "         P2_PRI2_SHAPE_EN ,Port 2 Queue Priority 2 Transmit Shape Enable - If there are two shaping queues then they must be priorities 3 and 2." "0,1"
bitfld.long 0x00 19. "     P2_PRI1_SHAPE_EN ,Port 2 Queue Priority 1 Transmit Shape Enable - If there are three shaping queues all three bits should be set." "0,1"
textline "                            "
bitfld.long 0x00 18. " P1_PRI3_SHAPE_EN ,Port 1 Queue Priority 3 Transmit Shape Enable - If there is only one shaping queue then it must be priority 3." "0,1"
bitfld.long 0x00 17. "         P1_PRI2_SHAPE_EN ,Port 1 Queue Priority 2 Transmit Shape Enable- If there are two shaping queues then they must be priorities 3 and 2." "0,1"
bitfld.long 0x00 16. "     P1_PRI1_SHAPE_EN ,Port 1 Queue Priority 1 Transmit Shape Enable- If there are three shaping queues all three bits should be set." "0,1"
textline "                            "
bitfld.long 0x00 10. " P2_PTYPE_ESC     ,Port 2 Priority Type Escalate - 0 - Port 2 priority type fixed 1 - Port 2 priority type escalate Escalate should not be used with queue shaping." "0,1"
bitfld.long 0x00 9. "         P1_PTYPE_ESC     ,Port 1 Priority Type Escalate - 0 - Port 1 priority type fixed 1 - Port 1 priority type escalate Escalate should not be used with queue shaping." "0,1"
bitfld.long 0x00 8. "     P0_PTYPE_ESC     ,Port 0 Priority Type Escalate - 0 - Port 0 priority type fixed 1 - Port 0 priority type escalate Escalate should not be used with queue shaping." "0,1"
textline "                            "
bitfld.long 0x00 0.--4. " ESC_PRI_LD_VAL   ,Escalate Priority Load Value When a port is in escalate priority, this is the number of higher priority packets sent before the next lower priority is allowed to send a packet. Escalate priority allows lower priority packets to be se..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x14++0x3
line.long 0x00 "CPSW_SOFT_IDLE,Software idle"
bitfld.long 0x00 0. " SOFT_IDLE        ,Software Idle - Setting this bit causes the switch fabric to stop forwarding packets at the next start of packet." "0,1"
group.long 0x18++0x3
line.long 0x00 "CPSW_THRU_RATE,Throughput rate"
bitfld.long 0x00 12.--15. " SL_RX_THRU_RATE  ,CPGMAC_SL Switch FIFO receive through rate. This register value is the maximum throughput of the ethernet ports to the crossbar SCR. The default is one 8-byte word for every 3 MAIN_CLK periods maximum." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "        CPDMA_THRU_RATE  ,CPDMA Switch FIFO receive through rate. This register value is the maximum throughput of the CPDMA host port to the crossbar SCR. The default is one 8-byte word for every 3 MAIN_CLK periods maximum." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x1C++0x3
line.long 0x00 "CPSW_GAP_THRESH,CPGMAC_SL short gap threshold"
bitfld.long 0x00 0.--4. " GAP_THRESH       ,CPGMAC_SL Short Gap Threshold - This is the CPGMAC_SL associated FIFO transmit block usage value for triggering TX_SHORT_GAP." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x20++0x3
line.long 0x00 "CPSW_TX_START_WDS,Transmit start words"
hexmask.long.word 0x00 0.--10. 1. " TX_START_WDS     ,FIFO Packet Transmit (egress) Start Words. This value is the number of required packet words in the transmit FIFO before the packet egress will begin. This value is non-zero to preclude underrun. Decimal 32 is the recommended value. ..."
group.long 0x24++0x3
line.long 0x00 "CPSW_FLOW_CONTROL,Flow control"
bitfld.long 0x00 2. " P2_FLOW_EN       ,Port 2 Receive flow control enable" "0,1"
bitfld.long 0x00 1. "         P1_FLOW_EN       ,Port 1 Receive flow control enable" "0,1"
bitfld.long 0x00 0. "     P0_FLOW_EN       ,Port 0 Receive flow control enable" "0,1"
group.long 0x28++0x3
line.long 0x00 "CPSW_VLAN_LTYPE,LTYPE1 and LTYPE 2 Register"
hexmask.long.word 0x00 16.--31. 1. " VLAN_LTYPE2      ,Time Sync VLAN LTYPE2 This VLAN LTYPE value is used for tx and rx. This is the inner VLAN if both are present."
hexmask.long.word 0x00 0.--15. 1. "      VLAN_LTYPE1      ,Time Sync VLAN LTYPE1 This VLAN LTYPE value is used for tx and rx. This is the outer VLAN if both are present."
group.long 0x2C++0x3
line.long 0x00 "CPSW_TS_LTYPE,VLAN_LTYPE1 and VLAN_LTYPE2 Register"
hexmask.long.word 0x00 16.--31. 1. " TS_LTYPE2        ,Time Sync LTYPE2 This is an Ethertype value to match for tx and rx time sync packets."
hexmask.long.word 0x00 0.--15. 1. "      TS_LTYPE1        ,Time Sync LTYPE1 This is an ethertype value to match for tx and rx time sync packets."
group.long 0x30++0x3
line.long 0x00 "CPSW_DLR_LTYPE,DLR LTYPE register"
hexmask.long.word 0x00 0.--15. 1. " DLR_LTYPE        ,DLR LTYPE. This is the ethertype value to match for DLR packets."
group.long 0x34++0x3
line.long 0x00 "CPSW_EEE_PRESCALE,EEE Pre-scale Counter Load Value Register"
hexmask.long.word 0x00 0.--11. 1. " EEE_PRESCALE     ,Energy Efficient Ethernet Pre-scale count load value ? This value is loaded into the EEE pre-scale counter each time the pre-scale count decrements to zero. The EEE counters are enabled to decrement each time the pre-scale counter re..."
width 0x0B
tree.end
tree "STATERAM"
base ad:0x48484A00
width 9.
group.long 0x0++0x3
line.long 0x00 "TX0_HDP,CPDMA_STATERAM TX channel 0 head descriptor pointer"
hexmask.long 0x00 0.--31. 1. " TX_HDP ,TX Channel (0..7) DMA Head Descriptor Pointer - Writing a TX DMA Buffer Descriptor address to a head pointer location initiates TX DMA operations in the queue for the selected channel. Writing to these locations when they are non-zero is an..."
group.long 0x4++0x3
line.long 0x00 "TX1_HDP,CPDMA_STATERAM TX channel 1 head descriptor pointer"
hexmask.long 0x00 0.--31. 1. " TX_HDP ,TX Channel (0..7) DMA Head Descriptor Pointer - Writing a TX DMA Buffer Descriptor address to a head pointer location initiates TX DMA operations in the queue for the selected channel. Writing to these locations when they are non-zero is an..."
group.long 0x8++0x3
line.long 0x00 "TX2_HDP,CPDMA_STATERAM TX channel 2 head descriptor pointer"
hexmask.long 0x00 0.--31. 1. " TX_HDP ,TX Channel (0..7) DMA Head Descriptor Pointer - Writing a TX DMA Buffer Descriptor address to a head pointer location initiates TX DMA operations in the queue for the selected channel. Writing to these locations when they are non-zero is an..."
group.long 0xC++0x3
line.long 0x00 "TX3_HDP,CPDMA_STATERAM TX channel 3 head descriptor pointer"
hexmask.long 0x00 0.--31. 1. " TX_HDP ,TX Channel (0..7) DMA Head Descriptor Pointer - Writing a TX DMA Buffer Descriptor address to a head pointer location initiates TX DMA operations in the queue for the selected channel. Writing to these locations when they are non-zero is an..."
group.long 0x10++0x3
line.long 0x00 "TX4_HDP,CPDMA_STATERAM TX channel 4 head descriptor pointer"
hexmask.long 0x00 0.--31. 1. " TX_HDP ,TX Channel (0..7) DMA Head Descriptor Pointer - Writing a TX DMA Buffer Descriptor address to a head pointer location initiates TX DMA operations in the queue for the selected channel. Writing to these locations when they are non-zero is an..."
group.long 0x14++0x3
line.long 0x00 "TX5_HDP,CPDMA_STATERAM TX channel 5 head descriptor pointer"
hexmask.long 0x00 0.--31. 1. " TX_HDP ,TX Channel (0..7) DMA Head Descriptor Pointer - Writing a TX DMA Buffer Descriptor address to a head pointer location initiates TX DMA operations in the queue for the selected channel. Writing to these locations when they are non-zero is an..."
group.long 0x18++0x3
line.long 0x00 "TX6_HDP,CPDMA_STATERAM TX channel 6 head descriptor pointer"
hexmask.long 0x00 0.--31. 1. " TX_HDP ,TX Channel (0..7) DMA Head Descriptor Pointer - Writing a TX DMA Buffer Descriptor address to a head pointer location initiates TX DMA operations in the queue for the selected channel. Writing to these locations when they are non-zero is an..."
group.long 0x1C++0x3
line.long 0x00 "TX7_HDP,CPDMA_STATERAM TX channel 7 head descriptor pointer"
hexmask.long 0x00 0.--31. 1. " TX_HDP ,TX Channel (0..7) DMA Head Descriptor Pointer - Writing a TX DMA Buffer Descriptor address to a head pointer location initiates TX DMA operations in the queue for the selected channel. Writing to these locations when they are non-zero is an..."
group.long 0x20++0x3
line.long 0x00 "RX0_HDP,CPDMA_STATERAM RX 0 channel 0 head descriptor pointer"
hexmask.long 0x00 0.--31. 1. " RX_HDP ,RX DMA Head Descriptor Pointer - Writing an RX DMA Buffer Descriptor address to this location allows RX DMA operations in the selected channel when a channel frame is received. Writing to these locations when they are non-zero is an..."
group.long 0x24++0x3
line.long 0x00 "RX1_HDP,CPDMA_STATERAM RX 1 channel 1 head descriptor pointer"
hexmask.long 0x00 0.--31. 1. " RX_HDP ,RX DMA Head Descriptor Pointer - Writing an RX DMA Buffer Descriptor address to this location allows RX DMA operations in the selected channel when a channel frame is received. Writing to these locations when they are non-zero is an..."
group.long 0x28++0x3
line.long 0x00 "RX2_HDP,CPDMA_STATERAM RX 2 channel 2 head descriptor pointer"
hexmask.long 0x00 0.--31. 1. " RX_HDP ,RX DMA Head Descriptor Pointer - Writing an RX DMA Buffer Descriptor address to this location allows RX DMA operations in the selected channel when a channel frame is received. Writing to these locations when they are non-zero is an..."
group.long 0x2C++0x3
line.long 0x00 "RX3_HDP,CPDMA_STATERAM RX 3 channel 3 head descriptor pointer"
hexmask.long 0x00 0.--31. 1. " RX_HDP ,RX DMA Head Descriptor Pointer - Writing an RX DMA Buffer Descriptor address to this location allows RX DMA operations in the selected channel when a channel frame is received. Writing to these locations when they are non-zero is an..."
group.long 0x30++0x3
line.long 0x00 "RX4_HDP,CPDMA_STATERAM RX 4 channel 4 head descriptor pointer"
hexmask.long 0x00 0.--31. 1. " RX_HDP ,RX DMA Head Descriptor Pointer - Writing an RX DMA Buffer Descriptor address to this location allows RX DMA operations in the selected channel when a channel frame is received. Writing to these locations when they are non-zero is an..."
group.long 0x34++0x3
line.long 0x00 "RX5_HDP,CPDMA_STATERAM RX 5 channel 5 head descriptor pointer"
hexmask.long 0x00 0.--31. 1. " RX_HDP ,RX DMA Head Descriptor Pointer - Writing an RX DMA Buffer Descriptor address to this location allows RX DMA operations in the selected channel when a channel frame is received. Writing to these locations when they are non-zero is an..."
group.long 0x38++0x3
line.long 0x00 "RX6_HDP,CPDMA_STATERAM RX 6 channel 6 head desc pointer"
hexmask.long 0x00 0.--31. 1. " RX_HDP ,RX DMA Head Descriptor Pointer - Writing an RX DMA Buffer Descriptor address to this location allows RX DMA operations in the selected channel when a channel frame is received. Writing to these locations when they are non-zero is an..."
group.long 0x3C++0x3
line.long 0x00 "RX7_HDP,CPDMA_STATERAM RX 7 channel 7 head desc pointer"
hexmask.long 0x00 0.--31. 1. " RX_HDP ,RX DMA Head Descriptor Pointer - Writing an RX DMA Buffer Descriptor address to this location allows RX DMA operations in the selected channel when a channel frame is received. Writing to these locations when they are non-zero is an..."
group.long 0x40++0x3
line.long 0x00 "TX0_CP,CPDMA_STATERAM TX channel 0 completion pointer register"
hexmask.long 0x00 0.--31. 1. " TX_CP  ,Tx Completion Pointer Register - This register is written by the host with the buffer descriptor address for the last buffer processed by the host during interrupt processing. The port uses the value written to determine if the..."
group.long 0x44++0x3
line.long 0x00 "TX1_CP,CPDMA_STATERAM TX channel 1 completion pointer register"
hexmask.long 0x00 0.--31. 1. " TX_CP  ,Tx Completion Pointer Register - This register is written by the host with the buffer descriptor address for the last buffer processed by the host during interrupt processing. The port uses the value written to determine if the..."
group.long 0x48++0x3
line.long 0x00 "TX2_CP,CPDMA_STATERAM TX channel 2 completion pointer register"
hexmask.long 0x00 0.--31. 1. " TX_CP  ,Tx Completion Pointer Register - This register is written by the host with the buffer descriptor address for the last buffer processed by the host during interrupt processing. The port uses the value written to determine if the..."
group.long 0x4C++0x3
line.long 0x00 "TX3_CP,CPDMA_STATERAM TX channel 3 completion pointer register"
hexmask.long 0x00 0.--31. 1. " TX_CP  ,Tx Completion Pointer Register - This register is written by the host with the buffer descriptor address for the last buffer processed by the host during interrupt processing. The port uses the value written to determine if the..."
group.long 0x50++0x3
line.long 0x00 "TX4_CP,CPDMA_STATERAM TX channel 4 completion pointer register"
hexmask.long 0x00 0.--31. 1. " TX_CP  ,Tx Completion Pointer Register - This register is written by the host with the buffer descriptor address for the last buffer processed by the host during interrupt processing. The port uses the value written to determine if the..."
group.long 0x54++0x3
line.long 0x00 "TX5_CP,CPDMA_STATERAM TX channel 5 completion pointer register"
hexmask.long 0x00 0.--31. 1. " TX_CP  ,Tx Completion Pointer Register - This register is written by the host with the buffer descriptor address for the last buffer processed by the host during interrupt processing. The port uses the value written to determine if the..."
group.long 0x58++0x3
line.long 0x00 "TX6_CP,CPDMA_STATERAM TX channel 6 completion pointer register"
hexmask.long 0x00 0.--31. 1. " TX_CP  ,Tx Completion Pointer Register - This register is written by the host with the buffer descriptor address for the last buffer processed by the host during interrupt processing. The port uses the value written to determine if the..."
group.long 0x5C++0x3
line.long 0x00 "TX7_CP,CPDMA_STATERAM TX channel 7 completion pointer register"
hexmask.long 0x00 0.--31. 1. " TX_CP  ,Tx Completion Pointer Register - This register is written by the host with the buffer descriptor address for the last buffer processed by the host during interrupt processing. The port uses the value written to determine if the..."
group.long 0x60++0x3
line.long 0x00 "RX0_CP,CPDMA_STATERAM RX channel 0 completion pointer register"
hexmask.long 0x00 0.--31. 1. " RX_CP  ,Rx Completion Pointer Register - This register is written by the host with the buffer descriptor address for the last buffer processed by the host during interrupt processing. The port uses the value written to determine if the..."
group.long 0x64++0x3
line.long 0x00 "RX1_CP,CPDMA_STATERAM RX channel 1 completion pointer register"
hexmask.long 0x00 0.--31. 1. " RX_CP  ,Rx Completion Pointer Register - This register is written by the host with the buffer descriptor address for the last buffer processed by the host during interrupt processing. The port uses the value written to determine if the..."
group.long 0x68++0x3
line.long 0x00 "RX2_CP,CPDMA_STATERAM RX channel 2 completion pointer register"
hexmask.long 0x00 0.--31. 1. " RX_CP  ,Rx Completion Pointer Register - This register is written by the host with the buffer descriptor address for the last buffer processed by the host during interrupt processing. The port uses the value written to determine if the..."
group.long 0x6C++0x3
line.long 0x00 "RX3_CP,CPDMA_STATERAM RX channel 3 completion pointer register"
hexmask.long 0x00 0.--31. 1. " RX_CP  ,Rx Completion Pointer Register - This register is written by the host with the buffer descriptor address for the last buffer processed by the host during interrupt processing. The port uses the value written to determine if the..."
group.long 0x70++0x3
line.long 0x00 "RX4_CP,CPDMA_STATERAM RX channel 4 completion pointer register"
hexmask.long 0x00 0.--31. 1. " RX_CP  ,Rx Completion Pointer Register - This register is written by the host with the buffer descriptor address for the last buffer processed by the host during interrupt processing. The port uses the value written to determine if the..."
group.long 0x74++0x3
line.long 0x00 "RX5_CP,CPDMA_STATERAM RX channel 5 completion pointer register"
hexmask.long 0x00 0.--31. 1. " RX_CP  ,Rx Completion Pointer Register - This register is written by the host with the buffer descriptor address for the last buffer processed by the host during interrupt processing. The port uses the value written to determine if the..."
group.long 0x78++0x3
line.long 0x00 "RX6_CP,CPDMA_STATERAM RX channel 6 completion pointer register"
hexmask.long 0x00 0.--31. 1. " RX_CP  ,Rx Completion Pointer Register - This register is written by the host with the buffer descriptor address for the last buffer processed by the host during interrupt processing. The port uses the value written to determine if the..."
group.long 0x7C++0x3
line.long 0x00 "RX7_CP,CPDMA_STATERAM RX channel 7 completion pointer register"
hexmask.long 0x00 0.--31. 1. " RX_CP  ,Rx Completion Pointer Register - This register is written by the host with the buffer descriptor address for the last buffer processed by the host during interrupt processing. The port uses the value written to determine if the..."
width 0x0B
tree.end
tree "CPTS"
base ad:0x48484C00
width 21.
rgroup.long 0x0++0x3
line.long 0x00 "CPTS_IDVER,CPTS revision"
hexmask.long 0x00 0.--31. 1. " REVISION       ,CPTS revision value"
group.long 0x4++0x3
line.long 0x00 "CPTS_CONTROL,Time sync control register"
bitfld.long 0x00 11. " HW4_TS_PUSH_EN ,Hardware push 4 enable" "0,1"
bitfld.long 0x00 10. "         HW3_TS_PUSH_EN ,Hardware push 3 enable" "0,1"
bitfld.long 0x00 9. "   HW2_TS_PUSH_EN ,Hardware push 2 enable" "0,1"
textline "                              "
bitfld.long 0x00 8. " HW1_TS_PUSH_EN ,Hardware push 1 enable" "0,1"
bitfld.long 0x00 1. "         INT_TEST       ,Interrupt Test - When set, this bit allows the raw interrupt to be written to facilitate interrupt test." "0,1"
bitfld.long 0x00 0. "   CPTS_EN        ,Time Sync Enable - When disabled (cleared to zero), the RCLK domain is held in reset. 0 - Time Sync Disabled 1 - Time Sync Enabled" "0,1"
wgroup.long 0xC++0x3
line.long 0x00 "CPTS_TS_PUSH,Time stamp event push register"
bitfld.long 0x00 0. " TS_PUSH        ,Time stamp event push - When a logic high is written to this bit a time stamp event is pushed onto the event FIFO. The time stamp value is the time of the write of this register, not the time of the event read. The time stamp value can..." "0,1"
group.long 0x10++0x3
line.long 0x00 "CPTS_TS_LOAD_VAL,Time stamp load value register"
hexmask.long 0x00 0.--31. 1. " TS_LOAD_VAL    ,Time Stamp Load Value - Writing theCPTS_TS_LOAD_EN[0] TS_LOAD_EN bit causes the value contained in this register to be written into the time stamp. The time stamp value is read by initiating a time stamp push event, not by reading this..."
wgroup.long 0x14++0x3
line.long 0x00 "CPTS_TS_LOAD_EN,Time stamp load enable register"
bitfld.long 0x00 0. " TS_LOAD_EN     ,Time Stamp Load - Writing a one to this bit enables the time stamp value to be written via theCPTS_TS_LOAD_VAL register. This feature is included for test purposes. This bit is write only." "0,1"
group.long 0x20++0x3
line.long 0x00 "CPTS_INTSTAT_RAW,Time sync interrupt status raw register"
bitfld.long 0x00 0. " TS_PEND_RAW    ,TS_PEND_RAW int read (before enable). Writable whenCPTS_CONTROL[1] INT_TEST = 1. A one in this bit indicates that there is one or more events in the event FIFO." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "CPTS_INTSTAT_MASKED,Time sync interrupt status masked register"
bitfld.long 0x00 0. " TS_PEND        ,TS_PEND masked interrupt read (after enable)." "0,1"
group.long 0x28++0x3
line.long 0x00 "CPTS_INT_ENABLE,Time sync interrupt enable register"
bitfld.long 0x00 0. " TS_PEND_EN     ,TS_PEND masked interrupt enable." "0,1"
wgroup.long 0x30++0x3
line.long 0x00 "CPTS_EVENT_POP,Event interrupt pop register"
bitfld.long 0x00 0. " EVENT_POP      ,Event Pop - When a logic high is written to this bit an event is popped off the event FIFO. The event FIFO pop occurs as part of the interrupt process after the event has been read in theCPTS_EVENT_LOW and CPTS_EVENT_HIGH registers. Po..." "0,1"
rgroup.long 0x34++0x3
line.long 0x00 "CPTS_EVENT_LOW,Lower 32-bits of the event value"
hexmask.long 0x00 0.--31. 1. " TIME_STAMP     ,Time Stamp - The timestamp is valid for transmit, receive, and time stamp push event types. The timestamp value is not valid for counter roll event types."
rgroup.long 0x38++0x3
line.long 0x00 "CPTS_EVENT_HIGH,Upper 32-bits of the event value"
bitfld.long 0x00 24.--28. " PORT_NUMBER    ,Port Number - indicates the port number of an ethernet event or the hardware push pin number (1 to 4)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 20.--23. "        EVENT_TYPE     ,Time Sync Event Type 0x0 - Time Stamp Push Event 0x1 - Time Stamp Rollover Event 0x2 - Time Stamp Half Rollover Event 0x3 - Hardware Time Stamp Push Event 0x4 - Ethernet Receive Event 0x5 - Ethernet Transmit Event" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "  MESSAGE_TYPE   ,Message type - The message type value that was contained in an ethernet transmit or receive time sync packet. This field is valid only for ethernet transmit or receive events." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                              "
hexmask.long.word 0x00 0.--15. 1. " SEQUENCE_ID    ,Sequence ID - The 16-bit sequence id is the value that was contained in an ethernet transmit or receivetime sync packet. This field is valid only for ethernet transmit or receive events."
width 0x0B
tree.end
tree "ALE"
base ad:0x48484D00
width 18.
rgroup.long 0x0++0x3
line.long 0x00 "ALE_IDVER,ADDRESS LOOKUP ENGINE revision register"
hexmask.long 0x00 0.--31. 1. " REVISION                      ,ALE Revision Value"
group.long 0x8++0x3
line.long 0x00 "ALE_CONTROL,Address lookup engine control register"
bitfld.long 0x00 31. " ENABLE_ALE                    ,Enable ALE - 0 - Drop all packets 1 - Enable ALE packet processing" "0,1"
bitfld.long 0x00 30. "         CLEAR_TABLE                  ,Clear ALE address table - Setting this bit causes the ALE hardware to write all table bit values to zero. Software must perform a clear table operation as part of the ALE setup/configuration process. Setting this..." "0,1"
bitfld.long 0x00 29. "     AGE_OUT_NOW              ,Age Out Address Table Now - Setting this bit causes the ALE hardware to remove (free up) any ageable table entry that does not have a set touch bit. This bit is cleared when the age out process has completed. This bit..." "0,1"
textline "                           "
bitfld.long 0x00 8. " EN_P0_UNI_FLOOD               ,Enable Port 0 (Host Port) unicast flood 0 - do not flood unknown unicast packets to host port (p0) 1 - flood unknown unicast packets to host port (p0)" "0,1"
bitfld.long 0x00 7. "         LEARN_NO_VID                 ,Learn No VID - 0 - VID is learned with the source address 1 - VID is not learned with the source address (source address is not tied to VID)." "0,1"
bitfld.long 0x00 6. "     EN_VID0_MODE             ,Enable VLAN ID = 0 Mode 0 - Process the packet with VID = PORT_VLAN[11:0]. 1 - Process the packet with VID = 0." "0,1"
textline "                           "
bitfld.long 0x00 5. " ENABLE_OUI_DENY               ,Enable OUI Deny Mode - When set this bit indicates that a packet with a non OUI table entry matching source address will be dropped to the host unless the destination address matches a multicast table entry with the..." "0,1"
bitfld.long 0x00 4. "         BYPASS                       ,ALE Bypass - When set, all packets received on ports 0 and 1 are sent to the host (only to the host)." "0,1"
bitfld.long 0x00 3. "     RATE_LIMIT_TX            ,Rate Limit Transmit mode - 0 - Broadcast and multicast rate limit counters are received port based 1 - Broadcast and multicast rate limit counters are transmit port based." "0,1"
textline "                           "
bitfld.long 0x00 2. " VLAN_AWARE                    ,ALE VLAN Aware - Determines what is done if VLAN not found. 0 - Flood if VLAN not found 1 - Drop packet if VLAN not found" "0,1"
bitfld.long 0x00 1. "         ENABLE_AUTH_MODE             ,Enable MAC Authorization Mode - Mac authorization mode requires that all table entries be made by the host software. There are no learned address in authorization mode and the packet will be dropped if the..." "0,1"
bitfld.long 0x00 0. "     ENABLE_RATE_LIMIT        ,Enable Broadcast and Multicast Rate Limit 0 - Broadcast/Multicast rates not limited 1 - Broadcast/Multicast packet reception limited to the port control register rate limit fields." "0,1"
group.long 0x10++0x3
line.long 0x00 "ALE_PRESCALE,Address lookup engine prescale register"
hexmask.long.tbyte 0x00 0.--19. 1. " PRESCALE                      ,ALE Prescale Register - The input clock is divided by this value for use in the multicast/broadcast rate limiters. The minimum operating value is 0x10. The prescaler is off when the value is zero."
group.long 0x18++0x3
line.long 0x00 "ALE_UNKNOWN_VLAN,Address lookup engine unknown vlan register"
bitfld.long 0x00 24.--29. " UNKNOWN_FORCE_UNTAGGED_EGRESS ,Unknown VLAN Force Untagged Egress." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 16.--21. "        UNKNOWN_REG_MCAST_FLOOD_MASK ,Unknown VLAN Registered Multicast Flood Mask" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 8.--13. "    UNKNOWN_MCAST_FLOOD_MASK ,Unknown VLAN Multicast Flood Mask" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
textline "                           "
bitfld.long 0x00 0.--5. " UNKNOWN_VLAN_MEMBER_LIST      ,Unknown VLAN Member List" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x20++0x3
line.long 0x00 "ALE_TBLCTL,Address lookup engine table control"
bitfld.long 0x00 31. " WRITE_RDZ                     ,Write Bit - This bit is always read as zero. Writing a 1 to this bit causes the three table word register values to be written to the entry_pointer location in the address table. Writing a 0 to this bit causes the..." "0,1"
hexmask.long.word 0x00 0.--9. 1. "         ENTRY_POINTER                ,Table Entry Pointer - The entry_pointer contains the table entry value that will be read/written with accesses to the table word registers."
group.long 0x34++0x3
line.long 0x00 "ALE_TBLW2,Address lookup engine table word 2 register"
hexmask.long.byte 0x00 0.--7. 1. " ENTRY71_64                    ,Table entry bits 71:64"
group.long 0x38++0x3
line.long 0x00 "ALE_TBLW1,Address lookup engine table word 1 register"
hexmask.long 0x00 0.--31. 1. " ENTRY63_32                    ,Table entry bits 63:32"
group.long 0x3C++0x3
line.long 0x00 "ALE_TBLW0,Address lookup engine table word 0 register"
hexmask.long 0x00 0.--31. 1. " ENTRY31_0                     ,Table entry bits 31:0"
group.long 0x40++0x3
line.long 0x00 "ALE_PORTCTL0,Address lookup engine port 0 control register"
hexmask.long.byte 0x00 24.--31. 1. " BCAST_LIMIT                   ,Broadcast Packet Rate Limit - Each prescale pulse loads this field into the port broadcast rate limit counter. The port counters are decremented with each packet received or transmitted depending..."
hexmask.long.byte 0x00 16.--23. 1. "        MCAST_LIMIT                  ,Multicast Packet Rate Limit - Each prescale pulse loads this field into the port multicast rate limit counter. The port counters are decremented with each packet received or transmitted..."
bitfld.long 0x00 5. "    NO_SA_UPDATE             ,No Souce Address Update - When set the port is disabled from updating the source port number in an ALE table entry." "0,1"
textline "                           "
bitfld.long 0x00 4. " NO_LEARN                      ,No Learn Mode - When set the port is disabled from learning an address." "0,1"
bitfld.long 0x00 3. "         VID_INGRESS_CHECK            ,VLAN ID Ingress Check - If VLAN not found then drop the packet. Packets with an unknown (default) VLAN will be dropped." "0,1"
bitfld.long 0x00 2. "     DROP_UNTAGGED            ,Drop Untagged Packets - Drop non-VLAN tagged ingress packets." "0,1"
textline "                           "
bitfld.long 0x00 0.--1. " PORT_STATE                    ,Port State 0x0 - Disabled 0x1 - Blocked 0x2 - Learn 0x3 - Forward" "0,1,2,3"
group.long 0x44++0x3
line.long 0x00 "ALE_PORTCTL1,Address lookup engine port 1 control register"
hexmask.long.byte 0x00 24.--31. 1. " BCAST_LIMIT                   ,Broadcast Packet Rate Limit - Each prescale pulse loads this field into the port broadcast rate limit counter. The port counters are decremented with each packet received or transmitted..."
hexmask.long.byte 0x00 16.--23. 1. "        MCAST_LIMIT                  ,Multicast Packet Rate Limit - Each prescale pulse loads this field into the port multicast rate limit counter. The port counters are decremented with each packet received or..."
bitfld.long 0x00 5. "    NO_SA_UPDATE             ,No Souce Address Update - When set the port is disabled from updating the source port number in an ALE table entry." "0,1"
textline "                           "
bitfld.long 0x00 4. " NO_LEARN                      ,No Learn Mode - When set the port is disabled from learning an address." "0,1"
bitfld.long 0x00 3. "         VID_INGRESS_CHECK            ,VLAN ID Ingress Check - If VLAN not found then drop the packet. Packets with an unknown (default) VLAN will be dropped." "0,1"
bitfld.long 0x00 2. "     DROP_UNTAGGED            ,Drop Untagged Packets - Drop non-VLAN tagged ingress packets." "0,1"
textline "                           "
bitfld.long 0x00 0.--1. " PORT_STATE                    ,Port State 0x0 - Disabled 0x1 - Blocked 0x2 - Learn 0x3 - Forward" "0,1,2,3"
group.long 0x48++0x3
line.long 0x00 "ALE_PORTCTL2,Address lookup engine port 2 control register"
hexmask.long.byte 0x00 24.--31. 1. " BCAST_LIMIT                   ,Broadcast Packet Rate Limit - Each prescale pulse loads this field into the port broadcast rate limit counter. The port counters are decremented with each packet received or transmitted depending..."
hexmask.long.byte 0x00 16.--23. 1. "        MCAST_LIMIT                  ,Multicast Packet Rate Limit - Each prescale pulse loads this field into the port multicast rate limit counter. The port counters are decremented with each packet received or transmitted..."
bitfld.long 0x00 5. "    NO_SA_UPDATE             ,No Souce Address Update - When set the port is disabled from updating the source port number in an ALE table entry." "0,1"
textline "                           "
bitfld.long 0x00 4. " NO_LEARN                      ,No Learn Mode - When set the port is disabled from learning an address." "0,1"
bitfld.long 0x00 3. "         VID_INGRESS_CHECK            ,VLAN ID Ingress Check - If VLAN not found then drop the packet. Packets with an unknown (default) VLAN will be dropped." "0,1"
bitfld.long 0x00 2. "     DROP_UNTAGGED            ,Drop Untagged Packets - Drop non-VLAN tagged ingress packets." "0,1"
textline "                           "
bitfld.long 0x00 0.--1. " PORT_STATE                    ,Port State 0x0 - Disabled 0x1 - Blocked 0x2 - Learn 0x3 - Forward" "0,1,2,3"
group.long 0x4C++0x3
line.long 0x00 "ALE_PORTCTL3,Address lookup engine port 3 control register"
hexmask.long.byte 0x00 24.--31. 1. " BCAST_LIMIT                   ,Broadcast Packet Rate Limit - Each prescale pulse loads this field into the port broadcast rate limit counter. The port counters are decremented with each packet received or transmitted..."
hexmask.long.byte 0x00 16.--23. 1. "        MCAST_LIMIT                  ,Multicast Packet Rate Limit - Each prescale pulse loads this field into the port multicast rate limit counter. The port counters are decremented with each packet received or..."
bitfld.long 0x00 5. "    NO_SA_UPDATE             ,No Souce Address Update - When set the port is disabled from updating the source port number in an ALE table entry." "0,1"
textline "                           "
bitfld.long 0x00 4. " NO_LEARN                      ,No Learn Mode - When set the port is disabled from learning an address." "0,1"
bitfld.long 0x00 3. "         VID_INGRESS_CHECK            ,VLAN ID Ingress Check - If VLAN not found then drop the packet. Packets with an unknown (default) VLAN will be dropped." "0,1"
bitfld.long 0x00 2. "     DROP_UNTAGGED            ,Drop Untagged Packets - Drop non-VLAN tagged ingress packets." "0,1"
textline "                           "
bitfld.long 0x00 0.--1. " PORT_STATE                    ,Port State 0x0 - Disabled 0x1 - Blocked 0x2 - Learn 0x3 - Forward" "0,1,2,3"
group.long 0x50++0x3
line.long 0x00 "ALE_PORTCTL4,Address lookup engine port 4 control register"
hexmask.long.byte 0x00 24.--31. 1. " BCAST_LIMIT                   ,Broadcast Packet Rate Limit - Each prescale pulse loads this field into the port broadcast rate limit counter. The port counters are decremented with each packet received or transmitted..."
hexmask.long.byte 0x00 16.--23. 1. "        MCAST_LIMIT                  ,Multicast Packet Rate Limit - Each prescale pulse loads this field into the port multicast rate limit counter. The port counters are decremented with each packet received or..."
bitfld.long 0x00 5. "    NO_SA_UPDATE             ,No Souce Address Update - When set the port is disabled from updating the source port number in an ALE table entry." "0,1"
textline "                           "
bitfld.long 0x00 4. " NO_LEARN                      ,No Learn Mode - When set the port is disabled from learning an address." "0,1"
bitfld.long 0x00 3. "         VID_INGRESS_CHECK            ,VLAN ID Ingress Check - If VLAN not found then drop the packet. Packets with an unknown (default) VLAN will be dropped." "0,1"
bitfld.long 0x00 2. "     DROP_UNTAGGED            ,Drop Untagged Packets - Drop non-VLAN tagged ingress packets." "0,1"
textline "                           "
bitfld.long 0x00 0.--1. " PORT_STATE                    ,Port State 0x0 - Disabled 0x1 - Blocked 0x2 - Learn 0x3 - Forward" "0,1,2,3"
group.long 0x54++0x3
line.long 0x00 "ALE_PORTCTL5,Address lookup engine port 5 control register"
hexmask.long.byte 0x00 24.--31. 1. " BCAST_LIMIT                   ,Broadcast Packet Rate Limit - Each prescale pulse loads this field into the port broadcast rate limit counter. The port counters are decremented with each packet received or transmitted..."
hexmask.long.byte 0x00 16.--23. 1. "        MCAST_LIMIT                  ,Multicast Packet Rate Limit - Each prescale pulse loads this field into the port multicast rate limit counter. The port counters are decremented with each packet received or..."
bitfld.long 0x00 5. "    NO_SA_UPDATE             ,No Souce Address Update - When set the port is disabled from updating the source port number in an ALE table entry." "0,1"
textline "                           "
bitfld.long 0x00 4. " NO_LEARN                      ,No Learn Mode - When set the port is disabled from learning an address." "0,1"
bitfld.long 0x00 3. "         VID_INGRESS_CHECK            ,VLAN ID Ingress Check - If VLAN not found then drop the packet. Packets with an unknown (default) VLAN will be dropped." "0,1"
bitfld.long 0x00 2. "     DROP_UNTAGGED            ,Drop Untagged Packets - Drop non-VLAN tagged ingress packets." "0,1"
textline "                           "
bitfld.long 0x00 0.--1. " PORT_STATE                    ,Port State 0x0 - Disabled 0x1 - Blocked 0x2 - Learn 0x3 - Forward" "0,1,2,3"
width 0x0B
tree.end
tree.open "SL1"
tree "SL1"
base ad:0x48484D80
width 15.
rgroup.long 0x0++0x3
line.long 0x00 "SL_IDVER,CPGMAC_SL revision register"
hexmask.long 0x00 0.--31. 1. " REVISION            ,CPGMAC_SL revision Value"
group.long 0x4++0x3
line.long 0x00 "SL_MACCONTROL,CPGMAC_SL MAC control register"
bitfld.long 0x00 24. " RX_CMF_EN           ,RX Copy MAC Control Frames Enable - Enables MAC control frames to be transferred to memory. MAC control frames are normally acted upon (if enabled), but not copied to memory. MAC control frames that are pause frames will be acted ..." "0,1"
bitfld.long 0x00 23. "         RX_CSF_EN   ,RX Copy Short Frames Enable - Enables frames or fragments shorter than 64 bytes to be copied to memory. Frames transferred to memory due to RX_CSF_EN will have the fragment or undersized bit set in their receive footer. Fragments ..." "0,1"
bitfld.long 0x00 22. "     RX_CEF_EN      ,RX Copy Error Frames Enable - Enables frames containing errors to be transferred to memory. The appropriate error bit will be set in the frame receive footer. Frames containing errors will be filtered when RX_CEF _EN is not set. 0 ..." "0,1"
textline "                        "
bitfld.long 0x00 21. " TX_SHORT_GAP_LIM_EN ,Transmit Short Gap Limit Enable When set this bit limits the number of short gap packets transmitted to 100ppm. Each time a short gap packet is sent, a counter is loaded with 10,000 and decremented on each wireside clock. Another ..." "0,1"
bitfld.long 0x00 18. "         EXT_EN      ,Control Enable - Enables the fullduplex and gigabit mode to be selected from the FULLDUPLEX_IN and GIG_IN input signals and not from the FULLDUPLEX and GIG bits in this register. The FULLDUPLEX_MODE bit reflects the actual fulldup..." "0,1"
bitfld.long 0x00 17. "     GIG_FORCE      ,Gigabit Mode Force - This bit is used to force the CPGMAC_SL into gigabit mode if the input GMII_MTCLK has been stopped by the PHY." "0,1"
textline "                        "
bitfld.long 0x00 16. " IFCTL_B             ,Interface Control B (NOT FUNCTIONAL) 0 - 10Mbps operation 1 - 100Mbps operation" "0,1"
bitfld.long 0x00 15. "         IFCTL_A     ,Interface Control A 0 - 10Mbps operation 1 - 100Mbps operation" "0,1"
bitfld.long 0x00 11. "     CMD_IDLE       ,Command Idle 0 - Idle not commanded 1 - Idle Commanded (read IDLE in SL_MACSTATUS)" "0,1"
textline "                        "
bitfld.long 0x00 10. " TX_SHORT_GAP_EN     ,Transmit Short Gap Enable 0 - Transmit with a short IPG is disabled 1 - Transmit with a short IPG (when TX_SHORT_GAP input is asserted) is enabled." "0,1"
bitfld.long 0x00 7. "         GIG         ,Gigabit Mode - 0 - 10/100 mode 1 - Gigabit mode (full duplex only) The GIG_OUT output is the value of this bit." "0,1"
bitfld.long 0x00 6. "     TX_PACE        ,Transmit Pacing Enable 0 - Transmit Pacing Disabled 1 - Transmit Pacing Enabled" "0,1"
textline "                        "
bitfld.long 0x00 5. " GMII_EN             ,GMII Enable - 0 - GMII RX and TX held in reset. 1 - GMII RX and TX released from reset." "0,1"
bitfld.long 0x00 4. "         TX_FLOW_EN  ,Transmit Flow Control Enable - Determines if incoming pause frames are acted upon in full-duplex mode. Incoming pause frames are not acted upon in half-duplex mode regardless of this bit setting. The RX_MBP_Enable bits determine w..." "0,1"
bitfld.long 0x00 3. "     RX_FLOW_EN     ,Receive Flow Control Enable - 0 - Receive Flow Control Disabled Half-duplex mode - No flow control generated collisions are sent. Full-duplex mode - No outgoing pause frames are sent. 1 - Receive Flow Control Enabled Half-duplex mo..." "0,1"
textline "                        "
bitfld.long 0x00 2. " MTEST               ,Manufacturing Test mode - This bit must be set to allow writes to theSL_BOFFTEST and SL_RX_PAUSE/SL_TX_PAUSE registers." "0,1"
bitfld.long 0x00 1. "         LOOPBACK    ,Loop Back Mode - Loopback mode forces internal fullduplex mode regardless of whether the FULLDUPLEX bit is set or not. The LOOPBACK bit should be changed only when GMII_EN is deasserted. 0 - Not looped back 1 - Loop Back Mode enabled" "0,1"
bitfld.long 0x00 0. "     FULLDUPLEX     ,Full Duplex mode - Gigabit mode forces fullduplex mode regardless of whether the FULLDUPLEX bit is set or not. The FULLDUPLEX_OUT output is the value of this register bit 0 - half duplex mode 1 - full duplex mode" "0,1"
rgroup.long 0x8++0x3
line.long 0x00 "SL_MACSTATUS,CPGMAC_SL MAC status register"
bitfld.long 0x00 31. " IDLE                ,CPGMAC_SL IDLE - The CPGMAC_SL is in the idle state (valid after an idle command) 0 - The CPGMAC_SL is not in the idle state. 1 - The CPGMAC_SL is in the idle state." "0,1"
bitfld.long 0x00 4. "         EXT_GIG     ,External GIG - This is the value of the EXT_GIG input bit." "0,1"
bitfld.long 0x00 3. "     EXT_FULLDUPLEX ,External Fullduplex - This is the value of the EXT_FULLDUPLEX input bit." "0,1"
textline "                        "
bitfld.long 0x00 1. " RX_FLOW_ACT         ,Receive Flow Control Active - When asserted, indicates that receive flow control is enabled and triggered." "0,1"
bitfld.long 0x00 0. "         TX_FLOW_ACT ,Transmit Flow Control Active - When asserted, this bit indicates that the pause time period is being observed for a received pause frame. No new transmissions will begin while this bit is asserted except for the transmission of pa..." "0,1"
group.long 0xC++0x3
line.long 0x00 "SL_SOFT_RESET,CPGMAC_SL soft reset register"
bitfld.long 0x00 0. " SOFT_RESET          ,Software reset - Writing a one to this bit causes the CPGMAC_SL logic to be reset. After writing a one to this bit, it may be polled to determine if the reset has occurred. If a one is read, the reset has not yet occurred. If a ze..." "0,1"
group.long 0x10++0x3
line.long 0x00 "SL_RX_MAXLEN,CPGMAC_SL RX Maximum length register"
hexmask.long.word 0x00 0.--13. 1. " RX_MAXLEN           ,RX Maximum Frame Length - This field determines the maximum length of a received frame. The reset value is 1518 (dec). Frames with byte counts greater than rx_maxlen are long frames. Long frames with no errors are oversized frames..."
group.long 0x14++0x3
line.long 0x00 "SL_BOFFTEST,CPGMAC_SL backoff test register"
bitfld.long 0x00 26.--30. " PACEVAL             ,Pacing Register Current Value. A non-zero value in this field indicates that transmit pacing is active. A transmit frame collision or deferral causes PACEVAL to loaded with decimal 31, good frame transmissions (with no collisions ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.word 0x00 16.--25. 1. "        RNDNUM      ,Backoff Random Number Generator - This field allows the Backoff Random Number Generator to be read (or written in test mode only). This field can be written only when mtest has previously been set. Reading this field returns the ge..."
bitfld.long 0x00 12.--15. "  COLL_COUNT     ,Collision Count - The number of collisions the current frame has experienced." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                        "
hexmask.long.word 0x00 0.--9. 1. " TX_BACKOFF          ,Backoff Count - This field allows the current value of the backoff counter to be observed for test purposes. This field is loaded automatically according to the backoff algorithm, and is decremented by one for each slot time after..."
rgroup.long 0x18++0x3
line.long 0x00 "SL_RX_PAUSE,CPGMAC_SL receive pause timer register"
hexmask.long.word 0x00 0.--15. 1. " RX_PAUSETIMER       ,RX Pause Timer Value - This field allows the contents of the receive pause timer to be observed (and written in test mode). The receive pause timer is loaded with 0xFF00 when the CPGMAC_SL sends an outgoing pause frame (with pause..."
rgroup.long 0x1C++0x3
line.long 0x00 "SL_TX_PAUSE,CPGMAC_SL transmit pause timer register"
hexmask.long.word 0x00 0.--15. 1. " TX_PAUSETIMER       ,TX Pause Timer Value - This field allows the contents of the transmit pause timer to be observed (and written in test mode). The transmit pause timer is loaded by a received (incoming) pause frame, and then decremented, at slottim..."
group.long 0x20++0x3
line.long 0x00 "SL_EMCONTROL,CPGMAC_SL emulation control register"
bitfld.long 0x00 1. " SOFT                ,Emulation Soft Bit. Emulation soft bit. This bit is used in conjunction with FREE bit to determine the emulation suspend mode. This bit has no effect if FREE = 1." "0,1"
bitfld.long 0x00 0. "         FREE        ,Emulation Free Bit. Emulation free bit. This bit is used in conjunction with SOFT bit to determine the emulation suspend mode." "0,1"
group.long 0x24++0x3
line.long 0x00 "SL_RX_PRI_MAP,CPGMAC_SL RX packet priority to header priority mapping register"
bitfld.long 0x00 28.--30. " PRI7                ,Priority 7 - A packet priority of 0x7 is mapped (changed) to this value." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "         PRI6        ,Priority 6 - A packet priority of 0x6 is mapped (changed) to this value." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     PRI5           ,Priority 5 - A packet priority of 0x5 is mapped (changed) to this value." "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 16.--18. " PRI4                ,Priority 4 - A packet priority of 0x4 is mapped (changed) to this value." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "         PRI3        ,Priority 3 - A packet priority of 0x3 is mapped (changed) to this value." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     PRI2           ,Priority 2 - A packet priority of 0x2 is mapped (changed) to this value." "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 4.--6. " PRI1                ,Priority 1 - A packet priority of 0x1 is mapped (changed) to this value." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "         PRI0        ,Priority 0 - A packet priority of 0x0 is mapped (changed) to this value." "0,1,2,3,4,5,6,7"
group.long 0x28++0x3
line.long 0x00 "SL_TX_GAP,Transmit inter-packet gap register"
hexmask.long.word 0x00 0.--8. 1. " TX_GAP              ,Transmit Inter-Packet Gap"
width 0x0B
tree.end
tree "SL2"
base ad:0x48484DC0
width 15.
rgroup.long 0x0++0x3
line.long 0x00 "SL_IDVER,CPGMAC_SL revision register"
hexmask.long 0x00 0.--31. 1. " REVISION            ,CPGMAC_SL revision Value"
group.long 0x4++0x3
line.long 0x00 "SL_MACCONTROL,CPGMAC_SL MAC control register"
bitfld.long 0x00 24. " RX_CMF_EN           ,RX Copy MAC Control Frames Enable - Enables MAC control frames to be transferred to memory. MAC control frames are normally acted upon (if enabled), but not copied to memory. MAC control frames that are pause frames will be acted ..." "0,1"
bitfld.long 0x00 23. "         RX_CSF_EN   ,RX Copy Short Frames Enable - Enables frames or fragments shorter than 64 bytes to be copied to memory. Frames transferred to memory due to RX_CSF_EN will have the fragment or undersized bit set in their receive footer. Fragments ..." "0,1"
bitfld.long 0x00 22. "     RX_CEF_EN      ,RX Copy Error Frames Enable - Enables frames containing errors to be transferred to memory. The appropriate error bit will be set in the frame receive footer. Frames containing errors will be filtered when RX_CEF _EN is not set. 0 ..." "0,1"
textline "                        "
bitfld.long 0x00 21. " TX_SHORT_GAP_LIM_EN ,Transmit Short Gap Limit Enable When set this bit limits the number of short gap packets transmitted to 100ppm. Each time a short gap packet is sent, a counter is loaded with 10,000 and decremented on each wireside clock. Another ..." "0,1"
bitfld.long 0x00 18. "         EXT_EN      ,Control Enable - Enables the fullduplex and gigabit mode to be selected from the FULLDUPLEX_IN and GIG_IN input signals and not from the FULLDUPLEX and GIG bits in this register. The FULLDUPLEX_MODE bit reflects the actual fulldup..." "0,1"
bitfld.long 0x00 17. "     GIG_FORCE      ,Gigabit Mode Force - This bit is used to force the CPGMAC_SL into gigabit mode if the input GMII_MTCLK has been stopped by the PHY." "0,1"
textline "                        "
bitfld.long 0x00 16. " IFCTL_B             ,Interface Control B (NOT FUNCTIONAL) 0 - 10Mbps operation 1 - 100Mbps operation" "0,1"
bitfld.long 0x00 15. "         IFCTL_A     ,Interface Control A 0 - 10Mbps operation 1 - 100Mbps operation" "0,1"
bitfld.long 0x00 11. "     CMD_IDLE       ,Command Idle 0 - Idle not commanded 1 - Idle Commanded (read IDLE in SL_MACSTATUS)" "0,1"
textline "                        "
bitfld.long 0x00 10. " TX_SHORT_GAP_EN     ,Transmit Short Gap Enable 0 - Transmit with a short IPG is disabled 1 - Transmit with a short IPG (when TX_SHORT_GAP input is asserted) is enabled." "0,1"
bitfld.long 0x00 7. "         GIG         ,Gigabit Mode - 0 - 10/100 mode 1 - Gigabit mode (full duplex only) The GIG_OUT output is the value of this bit." "0,1"
bitfld.long 0x00 6. "     TX_PACE        ,Transmit Pacing Enable 0 - Transmit Pacing Disabled 1 - Transmit Pacing Enabled" "0,1"
textline "                        "
bitfld.long 0x00 5. " GMII_EN             ,GMII Enable - 0 - GMII RX and TX held in reset. 1 - GMII RX and TX released from reset." "0,1"
bitfld.long 0x00 4. "         TX_FLOW_EN  ,Transmit Flow Control Enable - Determines if incoming pause frames are acted upon in full-duplex mode. Incoming pause frames are not acted upon in half-duplex mode regardless of this bit setting. The RX_MBP_Enable bits determine w..." "0,1"
bitfld.long 0x00 3. "     RX_FLOW_EN     ,Receive Flow Control Enable - 0 - Receive Flow Control Disabled Half-duplex mode - No flow control generated collisions are sent. Full-duplex mode - No outgoing pause frames are sent. 1 - Receive Flow Control Enabled Half-duplex mo..." "0,1"
textline "                        "
bitfld.long 0x00 2. " MTEST               ,Manufacturing Test mode - This bit must be set to allow writes to theSL_BOFFTEST and SL_RX_PAUSE/SL_TX_PAUSE registers." "0,1"
bitfld.long 0x00 1. "         LOOPBACK    ,Loop Back Mode - Loopback mode forces internal fullduplex mode regardless of whether the FULLDUPLEX bit is set or not. The LOOPBACK bit should be changed only when GMII_EN is deasserted. 0 - Not looped back 1 - Loop Back Mode enabled" "0,1"
bitfld.long 0x00 0. "     FULLDUPLEX     ,Full Duplex mode - Gigabit mode forces fullduplex mode regardless of whether the FULLDUPLEX bit is set or not. The FULLDUPLEX_OUT output is the value of this register bit 0 - half duplex mode 1 - full duplex mode" "0,1"
rgroup.long 0x8++0x3
line.long 0x00 "SL_MACSTATUS,CPGMAC_SL MAC status register"
bitfld.long 0x00 31. " IDLE                ,CPGMAC_SL IDLE - The CPGMAC_SL is in the idle state (valid after an idle command) 0 - The CPGMAC_SL is not in the idle state. 1 - The CPGMAC_SL is in the idle state." "0,1"
bitfld.long 0x00 4. "         EXT_GIG     ,External GIG - This is the value of the EXT_GIG input bit." "0,1"
bitfld.long 0x00 3. "     EXT_FULLDUPLEX ,External Fullduplex - This is the value of the EXT_FULLDUPLEX input bit." "0,1"
textline "                        "
bitfld.long 0x00 1. " RX_FLOW_ACT         ,Receive Flow Control Active - When asserted, indicates that receive flow control is enabled and triggered." "0,1"
bitfld.long 0x00 0. "         TX_FLOW_ACT ,Transmit Flow Control Active - When asserted, this bit indicates that the pause time period is being observed for a received pause frame. No new transmissions will begin while this bit is asserted except for the transmission of pa..." "0,1"
group.long 0xC++0x3
line.long 0x00 "SL_SOFT_RESET,CPGMAC_SL soft reset register"
bitfld.long 0x00 0. " SOFT_RESET          ,Software reset - Writing a one to this bit causes the CPGMAC_SL logic to be reset. After writing a one to this bit, it may be polled to determine if the reset has occurred. If a one is read, the reset has not yet occurred. If a ze..." "0,1"
group.long 0x10++0x3
line.long 0x00 "SL_RX_MAXLEN,CPGMAC_SL RX Maximum length register"
hexmask.long.word 0x00 0.--13. 1. " RX_MAXLEN           ,RX Maximum Frame Length - This field determines the maximum length of a received frame. The reset value is 1518 (dec). Frames with byte counts greater than rx_maxlen are long frames. Long frames with no errors are oversized frames..."
group.long 0x14++0x3
line.long 0x00 "SL_BOFFTEST,CPGMAC_SL backoff test register"
bitfld.long 0x00 26.--30. " PACEVAL             ,Pacing Register Current Value. A non-zero value in this field indicates that transmit pacing is active. A transmit frame collision or deferral causes PACEVAL to loaded with decimal 31, good frame transmissions (with no collisions ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.word 0x00 16.--25. 1. "        RNDNUM      ,Backoff Random Number Generator - This field allows the Backoff Random Number Generator to be read (or written in test mode only). This field can be written only when mtest has previously been set. Reading this field returns the ge..."
bitfld.long 0x00 12.--15. "  COLL_COUNT     ,Collision Count - The number of collisions the current frame has experienced." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                        "
hexmask.long.word 0x00 0.--9. 1. " TX_BACKOFF          ,Backoff Count - This field allows the current value of the backoff counter to be observed for test purposes. This field is loaded automatically according to the backoff algorithm, and is decremented by one for each slot time after..."
rgroup.long 0x18++0x3
line.long 0x00 "SL_RX_PAUSE,CPGMAC_SL receive pause timer register"
hexmask.long.word 0x00 0.--15. 1. " RX_PAUSETIMER       ,RX Pause Timer Value - This field allows the contents of the receive pause timer to be observed (and written in test mode). The receive pause timer is loaded with 0xFF00 when the CPGMAC_SL sends an outgoing pause frame (with pause..."
rgroup.long 0x1C++0x3
line.long 0x00 "SL_TX_PAUSE,CPGMAC_SL transmit pause timer register"
hexmask.long.word 0x00 0.--15. 1. " TX_PAUSETIMER       ,TX Pause Timer Value - This field allows the contents of the transmit pause timer to be observed (and written in test mode). The transmit pause timer is loaded by a received (incoming) pause frame, and then decremented, at slottim..."
group.long 0x20++0x3
line.long 0x00 "SL_EMCONTROL,CPGMAC_SL emulation control register"
bitfld.long 0x00 1. " SOFT                ,Emulation Soft Bit. Emulation soft bit. This bit is used in conjunction with FREE bit to determine the emulation suspend mode. This bit has no effect if FREE = 1." "0,1"
bitfld.long 0x00 0. "         FREE        ,Emulation Free Bit. Emulation free bit. This bit is used in conjunction with SOFT bit to determine the emulation suspend mode." "0,1"
group.long 0x24++0x3
line.long 0x00 "SL_RX_PRI_MAP,CPGMAC_SL RX packet priority to header priority mapping register"
bitfld.long 0x00 28.--30. " PRI7                ,Priority 7 - A packet priority of 0x7 is mapped (changed) to this value." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "         PRI6        ,Priority 6 - A packet priority of 0x6 is mapped (changed) to this value." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     PRI5           ,Priority 5 - A packet priority of 0x5 is mapped (changed) to this value." "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 16.--18. " PRI4                ,Priority 4 - A packet priority of 0x4 is mapped (changed) to this value." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "         PRI3        ,Priority 3 - A packet priority of 0x3 is mapped (changed) to this value." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     PRI2           ,Priority 2 - A packet priority of 0x2 is mapped (changed) to this value." "0,1,2,3,4,5,6,7"
textline "                        "
bitfld.long 0x00 4.--6. " PRI1                ,Priority 1 - A packet priority of 0x1 is mapped (changed) to this value." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "         PRI0        ,Priority 0 - A packet priority of 0x0 is mapped (changed) to this value." "0,1,2,3,4,5,6,7"
group.long 0x28++0x3
line.long 0x00 "SL_TX_GAP,Transmit inter-packet gap register"
hexmask.long.word 0x00 0.--8. 1. " TX_GAP              ,Transmit Inter-Packet Gap"
width 0x0B
tree.end
tree.end
tree "WR"
base ad:0x48485200
width 22.
rgroup.long 0x0++0x3
line.long 0x00 "WR_IDVER,Subsystem wrapper revision register"
hexmask.long 0x00 0.--31. 1. " REVISION          ,Wrapper revision value"
group.long 0x4++0x3
line.long 0x00 "WR_SOFT_RESET,Subsystem soft reset register"
bitfld.long 0x00 0. " SOFT_RESET        ,Software reset - Writing a one to this bit causes the CPGMACSS_R logic to be reset (INT, REGS, CPPI). Software reset occurs on the clock following the register bit write." "0,1"
group.long 0x8++0x3
line.long 0x00 "WR_CONTROL,Subsystem control register"
bitfld.long 0x00 8. " SS_EEE_EN         ,Subsystem Energy Efficient Ethernet enable 0: EEE disabled 1: EEE enabled" "0,1"
bitfld.long 0x00 2.--3. "         MMR_STDBYMODE    ,Configuration of the local initiator state management mode. By definition, initiator may generate read/write transaction as long as it is out of STANDBY state. - EN_0X0. - EN_0X1. - EN_0X3. - EN_0X2." "EN_0X0,EN_0X1,EN_0X2,EN_0X3"
bitfld.long 0x00 0.--1. "  MMR_IDLEMODE    ,Configuration of the local initiator state management mode. By definition, initiator may generate read/write transaction as long as it is out of IDLE state. - EN_0X0. - EN_0X1. - EN_0X3. - EN_0X2." "EN_0X0,EN_0X1,EN_0X2,EN_0X3"
group.long 0xC++0x3
line.long 0x00 "WR_INT_CONTROL,Subsystem interrupt control"
bitfld.long 0x00 31. " INT_TEST          ,Interrupt Test - Test bit to the interrupt pacing blocks" "0,1"
bitfld.long 0x00 16.--21. "         INT_PACE_EN      ,Interrupt Pacing Enable INT_PACE_EN[0] ? Enables RX_PULSE Pacing (0 is pacing bypass) INT_PACE_EN[1] ? Enables TX_PULSE Pacing (0 is pacing bypass)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.word 0x00 0.--11. 1. "      INT_PRESCALE    ,Interrupt Counter Prescaler - The number of MAIN_CLK periods in 4us."
group.long 0x10++0x3
line.long 0x00 "WR_C0_RX_THRESH_EN,Subsystem core 0 receive threshold int enable register"
hexmask.long.byte 0x00 0.--7. 1. " C0_RX_THRESH_EN   ,Core 0 Receive Threshold Enable - Each bit in this register corresponds to the bit in the receive threshold interrupt that is enabled to generate an interrupt on RX_THRESH_PULSE."
group.long 0x14++0x3
line.long 0x00 "WR_C0_RX_EN,Subsystem core 0 receive interrupt enable register"
hexmask.long.byte 0x00 0.--7. 1. " C0_RX_EN          ,Core 0 Receive Enable - Each bit in this register corresponds to the bit in the rx interrupt that is enabled to generate an interrupt on RX_PULSE."
group.long 0x18++0x3
line.long 0x00 "WR_C0_TX_EN,Subsystem core 0 transmit interrupt enable register"
hexmask.long.byte 0x00 0.--7. 1. " C0_TX_EN          ,Core 0 Transmit Enable - Each bit in this register corresponds to the bit in the tx interrupt that is enabled to generate an interrupt on TX_PULSE."
group.long 0x1C++0x3
line.long 0x00 "WR_C0_MISC_EN,Subsystem core 0 misc interrupt enable register"
bitfld.long 0x00 0.--4. " C0_MISC_EN        ,Core 0 Misc Enable - Each bit in this register corresponds to the miscellaneous interrupt (SPF2_PEND, SPF1_PEND, EVNT_PEND, STAT_PEND, HOST_PEND, MDIO_LINKINT, MDIO_USERINT) that is enabled to generate an interrupt on MISC_PULSE." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rgroup.long 0x40++0x3
line.long 0x00 "WR_C0_RX_THRESH_STAT,Subsystem core 0 rx threshold masked int status register"
hexmask.long.byte 0x00 0.--7. 1. " C0_RX_THRESH_STAT ,Core 0 Receive Threshold Masked Interrupt Status - Each bit in this read only register corresponds to the bit in the receive threshold interrupt that is enabled and generating an interrupt on RX_THRESH_PULSE."
rgroup.long 0x44++0x3
line.long 0x00 "WR_C0_RX_STAT,Subsystem core 0 rx interrupt masked int status register"
hexmask.long.byte 0x00 0.--7. 1. " C0_RX_STAT        ,Core 0 Receive Masked Interrupt Status - Each bit in this read only register corresponds to the bit in the Rx interrupt that is enabled and generating an interrupt on RX_PULSE."
rgroup.long 0x48++0x3
line.long 0x00 "WR_C0_TX_STAT,Subsystem core 0 tx interrupt masked int status register"
hexmask.long.byte 0x00 0.--7. 1. " C0_TX_STAT        ,Core 0 Transmit Masked Interrupt Status - Each bit in this read only register corresponds to the bit in the Tx interrupt that is enabled and generating an interrupt on TX_PULSE ."
rgroup.long 0x4C++0x3
line.long 0x00 "WR_C0_MISC_STAT,Subsystem core 0 misc interrupt masked int status register"
bitfld.long 0x00 0.--4. " C0_MISC_STAT      ,Core 0 Misc Masked Interrupt Status - Each bit in this register corresponds to the miscellaneous interrupt (SPF2_PEND, SPF1_PEND, EVNT_PEND, STAT_PEND, HOST_PEND, MDIO_LINKINT, MDIO_USERINT) that is enabled and generating an interru..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x70++0x3
line.long 0x00 "WR_C0_RX_IMAX,Subsystem core 0 receive interrupts per millisecond"
bitfld.long 0x00 0.--5. " C0_RX_IMAX        ,Core 0 Receive Interrupts per Millisecond - The maximum number of interrupts per millisecond generated on RX_PULSE if pacing is enabled for this interrupt." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x74++0x3
line.long 0x00 "WR_C0_TX_IMAX,Subsystem core 0 transmit interrupts per millisecond"
bitfld.long 0x00 0.--5. " C0_TX_IMAX        ,Core 0 Transmit Interrupts per Millisecond - The maximum number of interrupts per millisecond generated on TX_PULSE if pacing is enabled for this interrupt." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x88++0x3
line.long 0x00 "WR_RGMII_CTL,RGMII control signal register"
bitfld.long 0x00 7. " RGMII2_FULLDUPLEX ,RGMII 2 Fullduplex - This is the CPRGMII fullduplex output signal. 0 - Half-duplex mode 1 - Full-duplex mode" "0,1"
bitfld.long 0x00 5.--6. "         RGMII2_SPEED     ,RGMII2 Speed - This is the CPRGMII speed output signal 0x0 - 10Mbps mode 0x1 - 100Mbps mode 0x2 - 1000Mbps (gig) mode 0x3 - reserved" "0,1,2,3"
bitfld.long 0x00 4. "       RGMII2_LINK     ,RGMII2 Link Indicator - This is the CPRGMII link output signal 0 - RGMII2 link is down 1 - RGMII2 link is up" "0,1"
textline "                               "
bitfld.long 0x00 3. " RGMII1_FULLDUPLEX ,RGMII1 Fullduplex - This is the CPRGMII fullduplex output signal. 0 - Half-duplex mode 1 - Full-duplex mode" "0,1"
bitfld.long 0x00 1.--2. "         RGMII1_SPEED     ,RGMII1 Speed - This is the CPRGMII speed output signal 0x0 - 10Mbps mode 0x1 - 100Mbps mode 0x2 - 1000Mbps (gig) mode 0x3 - reserved" "0,1,2,3"
bitfld.long 0x00 0. "       RGMII1_LINK     ,RGMII1 Link Indicator - This is the CPRGMII link output signal 0 - RGMII1 link is down 1 - RGMII1 link is up" "0,1"
rgroup.long 0x8C++0x3
line.long 0x00 "WR_STATUS,Subsystem Status register"
bitfld.long 0x00 2. " SPF2_CLKSTOP_ACK  ,SPF2 Clockstop Acknowledge ? When asserted the subsystem gated clock is not turned on due to SPF2." "0,1"
bitfld.long 0x00 1. "         SPF1_CLKSTOP_ACK ,SPF1 Clockstop Acknowledge ? When asserted the subsystem gated clock is not turned on due to SPF1." "0,1"
bitfld.long 0x00 0. "       EEE_CLKSTOP_ACK ,CPSW_3G Clockstop Acknowledge ? When asserted the subsystem gated clock is not turned on due to the CPSW_3G." "0,1"
width 0x0B
tree.end
tree "CPDMA"
base ad:0x48484800
width 26.
rgroup.long 0x0++0x3
line.long 0x00 "CPDMA_TX_IDVER,CPDMA_REGS TX revision register"
hexmask.long 0x00 0.--31. 1. " REVISION             ,CPDMA TX Revision Value"
group.long 0x4++0x3
line.long 0x00 "CPDMA_TX_CONTROL,CPDMA_REGS TX control register"
bitfld.long 0x00 0. " TX_EN                ,TX Enable 0 - Disabled 1 - Enabled" "0,1"
group.long 0x8++0x3
line.long 0x00 "CPDMA_TX_TEARDOWN,CPDMA_REGS TX teardown register"
bitfld.long 0x00 31. " TX_TDN_RDY           ,Tx Teardown Ready - read as zero, but is always assumed to be one (unused)." "0,1"
bitfld.long 0x00 0.--2. "         TX_TDN_CH            ,Tx Teardown Channel - Transmit channel teardown is commanded by writing the encoded value of the transmit channel to be torn down. The teardown register is read as zero." "0,1,2,3,4,5,6,7"
rgroup.long 0x10++0x3
line.long 0x00 "CPDMA_RX_IDVER,CPDMA_REGS RX revision register"
hexmask.long 0x00 0.--31. 1. " REVISION             ,RX Revision Value"
group.long 0x14++0x3
line.long 0x00 "CPDMA_RX_CONTROL,CPDMA_REGS RX control register"
bitfld.long 0x00 0. " RX_EN                ,RX DMA Enable 0 - Disabled 1 - Enabled" "0,1"
group.long 0x18++0x3
line.long 0x00 "CPDMA_RX_TEARDOWN,CPDMA_REGS RX teardown register"
bitfld.long 0x00 31. " RX_TDN_RDY           ,Teardown Ready - read as zero, but is always assumed to be one (unused)." "0,1"
bitfld.long 0x00 0.--2. "         RX_TDN_CH            ,Rx Teardown Channel -Receive channel teardown is commanded by writing the encoded value of the receive channel to be torn down. The teardown register is read as zero." "0,1,2,3,4,5,6,7"
group.long 0x1C++0x3
line.long 0x00 "CPDMA_SOFT_RESET,CPDMA_REGS soft reset register"
bitfld.long 0x00 0. " SOFT_RESET           ,Software reset - Writing a one to this bit causes the CPDMA logic to be reset. Software reset occurs when the RX and TX DMA Controllers are in an idle state to avoid locking up the VBUSP bus. After writing a one to this bit, it m..." "0,1"
group.long 0x20++0x3
line.long 0x00 "CPDMA_DMACONTROL,CPDMA_REGS CPDMA control register"
hexmask.long.byte 0x00 8.--15. 1. " TX_RLIM              ,Transmit Rate Limit Channel Bus 00000000 - no rate-limited channels 10000000 - channel 7 is rate-limited 11000000 - channels 7 downto 6 are rate-limited 11100000 - channels 7 downto 5 are rate-limited 11110000 - channels 7 downto..."
bitfld.long 0x00 4. "        RX_CEF               ,RX Copy Error Frames Enable - Enables DMA overrun frames to be transferred to memory (up to the point of overrun). The overrun error bit will be set in the frame EOP buffer descriptor. Overrun frame data will be filtered w..." "0,1"
bitfld.long 0x00 3. "     CMD_IDLE             ,Command Idle 0 - Idle not commanded 1 - Idle Commanded (read IDLE in CPDMA_DMASTATUS)" "0,1"
textline "                                   "
bitfld.long 0x00 2. " RX_OFFLEN_BLOCK      ,Receive Offset/Length word write block. 0 - Do not block the DMA writes to the receive buffer descriptor offset/buffer length word. The offset/buffer length word is written as specified in CPPI 3.0. 1 - Block all CPDMA DMA contro..." "0,1"
bitfld.long 0x00 1. "         RX_OWNERSHIP         ,Receive Ownership Write Bit Value. 0 - The CPDMA writes the receive ownership bit to zero at the end of packet processing as specified in CPPI 3.0. 1 - The CPDMA writes the receive ownership bit to one at the end of packe..." "0,1"
bitfld.long 0x00 0. "     TX_PTYPE             ,Transmit Queue Priority Type 0 - The queue uses a round robin scheme to select the next channel for transmission. 1 - The queue uses a fixed (channel 7 highest priority) priority scheme to select the next channel for transmis..." "0,1"
rgroup.long 0x24++0x3
line.long 0x00 "CPDMA_DMASTATUS,CPDMA_REGS CPDMA status register"
bitfld.long 0x00 31. " IDLE                 ,Idle Status Bit - Indicates when set that the CPDMA is not transferring a packet on transmit or receive." "0,1"
bitfld.long 0x00 20.--23. "         TX_HOST_ERR_CODE     ,TX Host Error Code - This field is set to indicate CPDMA detected TX DMA related host errors. The host should read this field after a HOST_ERR_INT to determine the error. Host error Interrupts require hardware reset in or..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--18. "    TX_ERR_CH            ,TX Host Error Channel - This field indicates which TX channel (if applicable) the host error occurred on. This field is cleared to zero on a host read." "0,1,2,3,4,5,6,7"
textline "                                   "
bitfld.long 0x00 12.--15. " RX_HOST_ERR_CODE     ,RX Host Error Code - This field is set to indicate CPDMA detected RX DMA related host errors. The host should read this field after a HOST_ERR_INT to determine the error. Host error Interrupts require hardware reset in order to r..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--10. "        RX_ERR_CH            ,RX Host Error Channel - This field indicates which RX channel the host error occurred on. This field is cleared to zero on a host read." "0,1,2,3,4,5,6,7"
group.long 0x28++0x3
line.long 0x00 "CPDMA_RX_BUFFER_OFFSET,CPDMA_REGS receive buffer offset"
hexmask.long.word 0x00 0.--15. 1. " RX_BUFFER_OFFSET     ,Receive Buffer Offset Value - The RX_BUFFER_OFFSET will be written by the port into each frame SOP buffer descriptor buffer_offset field. The frame data will begin after the rx_buffer_offset value of bytes. A value of 0x0000 indi..."
group.long 0x2C++0x3
line.long 0x00 "CPDMA_EMCONTROL,CPDMA_REGS emulation control"
bitfld.long 0x00 1. " SOFT                 ,Emulation Soft Bit" "0,1"
bitfld.long 0x00 0. "         FREE                 ,Emulation Free Bit" "0,1"
group.long 0x30++0x3
line.long 0x00 "CPDMA_TX_PRI0_RATE,CPDMA_REGS transmit (ingress) priority 0 rate"
hexmask.long.word 0x00 16.--29. 1. " PRIN_IDLE_CNT        ,Priority ( 7:0) idle count"
hexmask.long.word 0x00 0.--13. 1. "      PRIN_SEND_CNT        ,Priority ( 7:0) send count"
group.long 0x34++0x3
line.long 0x00 "CPDMA_TX_PRI1_RATE,CPDMA_REGS transmit (ingress) priority 1 rate"
hexmask.long.word 0x00 16.--29. 1. " PRIN_IDLE_CNT        ,Priority ( 7:0) idle count"
hexmask.long.word 0x00 0.--13. 1. "      PRIN_SEND_CNT        ,Priority ( 7:0) send count"
group.long 0x38++0x3
line.long 0x00 "CPDMA_TX_PRI2_RATE,CPDMA_REGS transmit (ingress) priority 2 rate"
hexmask.long.word 0x00 16.--29. 1. " PRIN_IDLE_CNT        ,Priority ( 7:0) idle count"
hexmask.long.word 0x00 0.--13. 1. "      PRIN_SEND_CNT        ,Priority ( 7:0) send count"
group.long 0x3C++0x3
line.long 0x00 "CPDMA_TX_PRI3_RATE,CPDMA_REGS transmit (ingress) priority 3 rate"
hexmask.long.word 0x00 16.--29. 1. " PRIN_IDLE_CNT        ,Priority ( 7:0) idle count"
hexmask.long.word 0x00 0.--13. 1. "      PRIN_SEND_CNT        ,Priority ( 7:0) send count"
group.long 0x40++0x3
line.long 0x00 "CPDMA_TX_PRI4_RATE,CPDMA_REGS transmit (ingress) priority 4 rate"
hexmask.long.word 0x00 16.--29. 1. " PRIN_IDLE_CNT        ,Priority ( 7:0) idle count"
hexmask.long.word 0x00 0.--13. 1. "      PRIN_SEND_CNT        ,Priority ( 7:0) send count"
group.long 0x44++0x3
line.long 0x00 "CPDMA_TX_PRI5_RATE,CPDMA_REGS transmit (ingress) priority 5 rate"
hexmask.long.word 0x00 16.--29. 1. " PRIN_IDLE_CNT        ,Priority ( 7:0) idle count"
hexmask.long.word 0x00 0.--13. 1. "      PRIN_SEND_CNT        ,Priority ( 7:0) send count"
group.long 0x48++0x3
line.long 0x00 "CPDMA_TX_PRI6_RATE,CPDMA_REGS TRANSMIT (INGRESS) PRIORITY 6 RATE"
hexmask.long.word 0x00 16.--29. 1. " PRIN_IDLE_CNT        ,Priority ( 7:0) idle count"
hexmask.long.word 0x00 0.--13. 1. "      PRIN_SEND_CNT        ,Priority ( 7:0) send count"
group.long 0x4C++0x3
line.long 0x00 "CPDMA_TX_PRI7_RATE,CPDMA_REGS transmit (ingress) priority 7 rate"
hexmask.long.word 0x00 16.--29. 1. " PRIN_IDLE_CNT        ,Priority ( 7:0) idle count"
hexmask.long.word 0x00 0.--13. 1. "      PRIN_SEND_CNT        ,Priority ( 7:0) send count"
rgroup.long 0x80++0x3
line.long 0x00 "CPDMA_TX_INTSTAT_RAW,CPDMA_INT TX interrupt status register (raw value)"
bitfld.long 0x00 7. " TX7_PEND             ,TX7_PEND raw int read (before mask)." "0,1"
bitfld.long 0x00 6. "         TX6_PEND             ,TX6_PEND raw int read (before mask)." "0,1"
bitfld.long 0x00 5. "     TX5_PEND             ,TX5_PEND raw int read (before mask)." "0,1"
textline "                                   "
bitfld.long 0x00 4. " TX4_PEND             ,TX4_PEND raw int read (before mask)." "0,1"
bitfld.long 0x00 3. "         TX3_PEND             ,TX3_PEND raw int read (before mask)." "0,1"
bitfld.long 0x00 2. "     TX2_PEND             ,TX2_PEND raw int read (before mask)." "0,1"
textline "                                   "
bitfld.long 0x00 1. " TX1_PEND             ,TX1_PEND raw int read (before mask)." "0,1"
bitfld.long 0x00 0. "         TX0_PEND             ,TX0_PEND raw int read (before mask)." "0,1"
rgroup.long 0x84++0x3
line.long 0x00 "CPDMA_TX_INTSTAT_MASKED,CPDMA_INT TX interrupt status register (masked value)"
bitfld.long 0x00 7. " TX7_PEND             ,TX7_PEND masked interrupt read." "0,1"
bitfld.long 0x00 6. "         TX6_PEND             ,TX6_PEND masked interrupt read." "0,1"
bitfld.long 0x00 5. "     TX5_PEND             ,TX5_PEND masked interrupt read." "0,1"
textline "                                   "
bitfld.long 0x00 4. " TX4_PEND             ,TX4_PEND masked interrupt read." "0,1"
bitfld.long 0x00 3. "         TX3_PEND             ,TX3_PEND masked interrupt read." "0,1"
bitfld.long 0x00 2. "     TX2_PEND             ,TX2_PEND masked interrupt read." "0,1"
textline "                                   "
bitfld.long 0x00 1. " TX1_PEND             ,TX1_PEND masked interrupt read." "0,1"
bitfld.long 0x00 0. "         TX0_PEND             ,TX0_PEND masked interrupt read." "0,1"
group.long 0x88++0x3
line.long 0x00 "CPDMA_TX_INTMASK_SET,CPDMA_INT TX interrupt mask set register"
bitfld.long 0x00 7. " TX7_MASK             ,TX Channel 7 Mask - Write one to enable interrupt." "0,1"
bitfld.long 0x00 6. "         TX6_MASK             ,TX Channel 6 Mask - Write one to enable interrupt." "0,1"
bitfld.long 0x00 5. "     TX5_MASK             ,TX Channel 5 Mask - Write one to enable interrupt." "0,1"
textline "                                   "
bitfld.long 0x00 4. " TX4_MASK             ,TX Channel 4 Mask - Write one to enable interrupt." "0,1"
bitfld.long 0x00 3. "         TX3_MASK             ,TX Channel 3 Mask - Write one to enable interrupt." "0,1"
bitfld.long 0x00 2. "     TX2_MASK             ,TX Channel 2 Mask - Write one to enable interrupt." "0,1"
textline "                                   "
bitfld.long 0x00 1. " TX1_MASK             ,TX Channel 1 Mask - Write one to enable interrupt." "0,1"
bitfld.long 0x00 0. "         TX0_MASK             ,TX Channel 0 Mask - Write one to enable interrupt." "0,1"
group.long 0x8C++0x3
line.long 0x00 "CPDMA_TX_INTMASK_CLEAR,CPDMA_INT TX Interrupt mask clear register"
bitfld.long 0x00 7. " TX7_MASK             ,TX Channel 7 Mask - Write one to disable interrupt." "0,1"
bitfld.long 0x00 6. "         TX6_MASK             ,TX Channel 6 Mask - Write one to disable interrupt." "0,1"
bitfld.long 0x00 5. "     TX5_MASK             ,TX Channel 5 Mask - Write one to disable interrupt." "0,1"
textline "                                   "
bitfld.long 0x00 4. " TX4_MASK             ,TX Channel 4 Mask - Write one to disable interrupt." "0,1"
bitfld.long 0x00 3. "         TX3_MASK             ,TX Channel 3 Mask - Write one to disable interrupt." "0,1"
bitfld.long 0x00 2. "     TX2_MASK             ,TX Channel 2 Mask - Write one to disable interrupt." "0,1"
textline "                                   "
bitfld.long 0x00 1. " TX1_MASK             ,TX Channel 1 Mask - Write one to disable interrupt." "0,1"
bitfld.long 0x00 0. "         TX0_MASK             ,TX Channel 0 Mask - Write one to disable interrupt." "0,1"
rgroup.long 0x90++0x3
line.long 0x00 "CPDMA_IN_VECTOR,CPDMA_INT input vector (read only)"
hexmask.long 0x00 0.--31. 1. " DMA_IN_VECTOR        ,DMA Input Vector - The value of DMA_IN_VECTOR is reset to zero, but will change to the IN_VECTOR bus value one clock after reset is deasserted. Thereafter, this value will change to a new IN_VECTOR value one clock after the IN_VE..."
group.long 0x94++0x3
line.long 0x00 "CPDMA_EOI_VECTOR,CPDMA_INT end of interrupt vector"
bitfld.long 0x00 0.--4. " DMA_EOI_VECTOR       ,DMA End of Interrupt Vector - The EOI_VECTOR( 4:0) pins reflect the value written to this location one MAIN_CLK cycle after a write to this location. The EOI_WR signal is asserted for a single clock cycle after a latency of two M..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rgroup.long 0xA0++0x3
line.long 0x00 "CPDMA_RX_INTSTAT_RAW,CPDMA_INT RX Interrupt status register (raw value)"
bitfld.long 0x00 15. " RX7_THRESH_PEND      ,RX7_THRESH_PEND raw int read (before mask)." "0,1"
bitfld.long 0x00 14. "         RX6_THRESH_PEND      ,RX6_THRESH_PEND raw int read (before mask)." "0,1"
bitfld.long 0x00 13. "     RX5_THRESH_PEND      ,RX5_THRESH_PEND raw int read (before mask)." "0,1"
textline "                                   "
bitfld.long 0x00 12. " RX4_THRESH_PEND      ,RX4_THRESH_PEND raw int read (before mask)." "0,1"
bitfld.long 0x00 11. "         RX3_THRESH_PEND      ,RX3_THRESH_PEND raw int read (before mask)." "0,1"
bitfld.long 0x00 10. "     RX2_THRESH_PEND      ,RX2_THRESH_PEND raw int read (before mask)." "0,1"
textline "                                   "
bitfld.long 0x00 9. " RX1_THRESH_PEND      ,RX1_THRESH_PEND raw int read (before mask)." "0,1"
bitfld.long 0x00 8. "         RX0_THRESH_PEND      ,RX0_THRESH_PEND raw int read (before mask)." "0,1"
bitfld.long 0x00 7. "     RX7_PEND             ,RX7_PEND raw int read (before mask)." "0,1"
textline "                                   "
bitfld.long 0x00 6. " RX6_PEND             ,RX6_PEND raw int read (before mask)." "0,1"
bitfld.long 0x00 5. "         RX5_PEND             ,RX5_PEND raw int read (before mask)." "0,1"
bitfld.long 0x00 4. "     RX4_PEND             ,RX4_PEND raw int read (before mask)." "0,1"
textline "                                   "
bitfld.long 0x00 3. " RX3_PEND             ,RX3_PEND raw int read (before mask)." "0,1"
bitfld.long 0x00 2. "         RX2_PEND             ,RX2_PEND raw int read (before mask)." "0,1"
bitfld.long 0x00 1. "     RX1_PEND             ,RX1_PEND raw int read (before mask)." "0,1"
textline "                                   "
bitfld.long 0x00 0. " RX0_PEND             ,RX0_PEND raw int read (before mask)." "0,1"
rgroup.long 0xA4++0x3
line.long 0x00 "CPDMA_RX_INTSTAT_MASKED,CPDMA_INT RX interrupt status register (masked value)"
bitfld.long 0x00 15. " RX7_THRESH_PEND      ,RX7_THRESH_PEND masked int read." "0,1"
bitfld.long 0x00 14. "         RX6_THRESH_PEND      ,RX6_THRESH_PEND masked int read." "0,1"
bitfld.long 0x00 13. "     RX5_THRESH_PEND      ,RX5_THRESH_PEND masked int read." "0,1"
textline "                                   "
bitfld.long 0x00 12. " RX4_THRESH_PEND      ,RX4_THRESH_PEND masked int read." "0,1"
bitfld.long 0x00 11. "         RX3_THRESH_PEND      ,RX3_THRESH_PEND masked int read." "0,1"
bitfld.long 0x00 10. "     RX2_THRESH_PEND      ,RX2_THRESH_PEND masked int read." "0,1"
textline "                                   "
bitfld.long 0x00 9. " RX1_THRESH_PEND      ,RX1_THRESH_PEND masked int read." "0,1"
bitfld.long 0x00 8. "         RX0_THRESH_PEND      ,RX0_THRESH_PEND masked int read." "0,1"
bitfld.long 0x00 7. "     RX7_PEND             ,RX7_PEND masked int read." "0,1"
textline "                                   "
bitfld.long 0x00 6. " RX6_PEND             ,RX6_PEND masked int read." "0,1"
bitfld.long 0x00 5. "         RX5_PEND             ,RX5_PEND masked int read." "0,1"
bitfld.long 0x00 4. "     RX4_PEND             ,RX4_PEND masked int read." "0,1"
textline "                                   "
bitfld.long 0x00 3. " RX3_PEND             ,RX3_PEND masked int read." "0,1"
bitfld.long 0x00 2. "         RX2_PEND             ,RX2_PEND masked int read." "0,1"
bitfld.long 0x00 1. "     RX1_PEND             ,RX1_PEND masked int read." "0,1"
textline "                                   "
bitfld.long 0x00 0. " RX0_PEND             ,RX0_PEND masked int read." "0,1"
group.long 0xA8++0x3
line.long 0x00 "CPDMA_RX_INTMASK_SET,CPDMA_INT RX interrupt mask set register"
bitfld.long 0x00 15. " RX7_THRESH_PEND_MASK ,RX Channel 7 Threshold Pending Int. Mask - Write one to enable Int." "0,1"
bitfld.long 0x00 14. "         RX6_THRESH_PEND_MASK ,RX Channel 6 Threshold Pending Int. Mask - Write one to enable Int." "0,1"
bitfld.long 0x00 13. "     RX5_THRESH_PEND_MASK ,RX Channel 5 Threshold Pending Int. Mask - Write one to enable Int." "0,1"
textline "                                   "
bitfld.long 0x00 12. " RX4_THRESH_PEND_MASK ,RX Channel 4 Threshold Pending Int. Mask - Write one to enable Int." "0,1"
bitfld.long 0x00 11. "         RX3_THRESH_PEND_MASK ,RX Channel 3 Threshold Pending Int. Mask - Write one to enable Int." "0,1"
bitfld.long 0x00 10. "     RX2_THRESH_PEND_MASK ,RX Channel 2 Threshold Pending Int. Mask - Write one to enable Int." "0,1"
textline "                                   "
bitfld.long 0x00 9. " RX1_THRESH_PEND_MASK ,RX Channel 1 Threshold Pending Int. Mask - Write one to enable Int." "0,1"
bitfld.long 0x00 8. "         RX0_THRESH_PEND_MASK ,RX Channel 0 Threshold Pending Int. Mask - Write one to enable Int." "0,1"
bitfld.long 0x00 7. "     RX7_PEND_MASK        ,RX Channel 7 Pending Int. Mask - Write one to enable Int." "0,1"
textline "                                   "
bitfld.long 0x00 6. " RX6_PEND_MASK        ,RX Channel 6 Pending Int. Mask - Write one to enable Int." "0,1"
bitfld.long 0x00 5. "         RX5_PEND_MASK        ,RX Channel 5 Pending Int. Mask - Write one to enable Int." "0,1"
bitfld.long 0x00 4. "     RX4_PEND_MASK        ,RX Channel 4 Pending Int. Mask - Write one to enable Int." "0,1"
textline "                                   "
bitfld.long 0x00 3. " RX3_PEND_MASK        ,RX Channel 3 Pending Int. Mask - Write one to enable Int." "0,1"
bitfld.long 0x00 2. "         RX2_PEND_MASK        ,RX Channel 2 Pending Int. Mask - Write one to enable Int." "0,1"
bitfld.long 0x00 1. "     RX1_PEND_MASK        ,RX Channel 1 Pending Int. Mask - Write one to enable Int." "0,1"
textline "                                   "
bitfld.long 0x00 0. " RX0_PEND_MASK        ,RX Channel 0 Pending Int. Mask - Write one to enable Int." "0,1"
group.long 0xAC++0x3
line.long 0x00 "CPDMA_RX_INTMASK_CLEAR,CPDMA_INT RX interrupt mask clear register"
bitfld.long 0x00 15. " RX7_THRESH_PEND_MASK ,RX Channel 7 Threshold Pending Int. Mask - Write one to disable Int." "0,1"
bitfld.long 0x00 14. "         RX6_THRESH_PEND_MASK ,RX Channel 6 Threshold Pending Int. Mask - Write one to disable Int." "0,1"
bitfld.long 0x00 13. "     RX5_THRESH_PEND_MASK ,RX Channel 5 Threshold Pending Int. Mask - Write one to disable Int." "0,1"
textline "                                   "
bitfld.long 0x00 12. " RX4_THRESH_PEND_MASK ,RX Channel 4 Threshold Pending Int. Mask - Write one to disable Int." "0,1"
bitfld.long 0x00 11. "         RX3_THRESH_PEND_MASK ,RX Channel 3 Threshold Pending Int. Mask - Write one to disable Int." "0,1"
bitfld.long 0x00 10. "     RX2_THRESH_PEND_MASK ,RX Channel 2 Threshold Pending Int. Mask - Write one to disable Int." "0,1"
textline "                                   "
bitfld.long 0x00 9. " RX1_THRESH_PEND_MASK ,RX Channel 1 Threshold Pending Int. Mask - Write one to disable Int." "0,1"
bitfld.long 0x00 8. "         RX0_THRESH_PEND_MASK ,RX Channel 0 Threshold Pending Int. Mask - Write one to disable Int." "0,1"
bitfld.long 0x00 7. "     RX7_PEND_MASK        ,RX Channel 7 Pending Int. Mask - Write one to disable Int." "0,1"
textline "                                   "
bitfld.long 0x00 6. " RX6_PEND_MASK        ,RX Channel 6 Pending Int. Mask - Write one to disable Int." "0,1"
bitfld.long 0x00 5. "         RX5_PEND_MASK        ,RX Channel 5 Pending Int. Mask - Write one to disable Int." "0,1"
bitfld.long 0x00 4. "     RX4_PEND_MASK        ,RX Channel 4 Pending Int. Mask - Write one to disable Int." "0,1"
textline "                                   "
bitfld.long 0x00 3. " RX3_PEND_MASK        ,RX Channel 3 Pending Int. Mask - Write one to disable Int." "0,1"
bitfld.long 0x00 2. "         RX2_PEND_MASK        ,RX Channel 2 Pending Int. Mask - Write one to disable Int." "0,1"
bitfld.long 0x00 1. "     RX1_PEND_MASK        ,RX Channel 1 Pending Int. Mask - Write one to disable Int." "0,1"
textline "                                   "
bitfld.long 0x00 0. " RX0_PEND_MASK        ,RX Channel 0 Pending Int. Mask - Write one to disable Int." "0,1"
rgroup.long 0xB0++0x3
line.long 0x00 "CPDMA_DMA_INTSTAT_RAW,CPDMA_INT DMA interrupt status register (raw value)"
bitfld.long 0x00 1. " HOST_PEND            ,Host Pending Interrupt - raw int read (before mask)." "0,1"
bitfld.long 0x00 0. "         STAT_PEND            ,Statistics Pending Interrupt - raw int read (before mask)." "0,1"
rgroup.long 0xB4++0x3
line.long 0x00 "CPDMA_DMA_INTSTAT_MASKED,CPDMA_INT DMA interrupt status register (masked value)"
bitfld.long 0x00 1. " HOST_PEND            ,Host Pending Interrupt - masked interrupt read." "0,1"
bitfld.long 0x00 0. "         STAT_PEND            ,Statistics Pending Interrupt - masked interrupt read." "0,1"
group.long 0xB8++0x3
line.long 0x00 "CPDMA_DMA_INTMASK_SET,CPDMA_INT DMA interrupt mask set register"
bitfld.long 0x00 1. " HOST_ERR_INT_MASK    ,Host Error Interrupt Mask - Write one to enable interrupt." "0,1"
bitfld.long 0x00 0. "         STAT_INT_MASK        ,Statistics Interrupt Mask - Write one to enable interrupt." "0,1"
group.long 0xBC++0x3
line.long 0x00 "CPDMA_DMA_INTMASK_CLEAR,CPDMA_INT DMA interrupt mask clear register"
bitfld.long 0x00 1. " HOST_ERR_INT_MASK    ,Host Error Interrupt Mask - Write one to disable interrupt." "0,1"
bitfld.long 0x00 0. "         STAT_INT_MASK        ,Statistics Interrupt Mask - Write one to disable interrupt." "0,1"
group.long 0xC0++0x3
line.long 0x00 "CPDMA_RX0_PENDTHRESH,CPDMA_INT receive threshold pending register channel 0"
hexmask.long.byte 0x00 0.--7. 1. " RX_PENDTHRESH        ,Rx Flow Threshold - This field contains the threshold value for issuing receive threshold pending interrupts (when enabled)."
group.long 0xC4++0x3
line.long 0x00 "CPDMA_RX1_PENDTHRESH,CPDMA_INT receive threshold pending register channel 1"
hexmask.long.byte 0x00 0.--7. 1. " RX_PENDTHRESH        ,Rx Flow Threshold - This field contains the threshold value for issuing receive threshold pending interrupts (when enabled)."
group.long 0xC8++0x3
line.long 0x00 "CPDMA_RX2_PENDTHRESH,CPDMA_INT receive threshold pending register channel 2"
hexmask.long.byte 0x00 0.--7. 1. " RX_PENDTHRESH        ,Rx Flow Threshold - This field contains the threshold value for issuing receive threshold pending interrupts (when enabled)."
group.long 0xCC++0x3
line.long 0x00 "CPDMA_RX3_PENDTHRESH,CPDMA_INT receive threshold pending register channel 3"
hexmask.long.byte 0x00 0.--7. 1. " RX_PENDTHRESH        ,Rx Flow Threshold - This field contains the threshold value for issuing receive threshold pending interrupts (when enabled)."
group.long 0xD0++0x3
line.long 0x00 "CPDMA_RX4_PENDTHRESH,CPDMA_INT receive threshold pending register channel 4"
hexmask.long.byte 0x00 0.--7. 1. " RX_PENDTHRESH        ,Rx Flow Threshold - This field contains the threshold value for issuing receive threshold pending interrupts (when enabled)."
group.long 0xD4++0x3
line.long 0x00 "CPDMA_RX5_PENDTHRESH,CPDMA_INT receive threshold pending register channel 5"
hexmask.long.byte 0x00 0.--7. 1. " RX_PENDTHRESH        ,Rx Flow Threshold - This field contains the threshold value for issuing receive threshold pending interrupts (when enabled)."
group.long 0xD8++0x3
line.long 0x00 "CPDMA_RX6_PENDTHRESH,CPDMA_INT receive threshold pending register channel 6"
hexmask.long.byte 0x00 0.--7. 1. " RX_PENDTHRESH        ,Rx Flow Threshold - This field contains the threshold value for issuing receive threshold pending interrupts (when enabled)."
group.long 0xDC++0x3
line.long 0x00 "CPDMA_RX7_PENDTHRESH,CPDMA_INT receive threshold pending register channel 7"
hexmask.long.byte 0x00 0.--7. 1. " RX_PENDTHRESH        ,Rx Flow Threshold - This field contains the threshold value for issuing receive threshold pending interrupts (when enabled)."
wgroup.long 0xE0++0x3
line.long 0x00 "CPDMA_RX0_FREEBUFFER,CPDMA_INT receive free buffer register channel 0"
hexmask.long.word 0x00 0.--15. 1. " RX_FREEBUFFER        ,Rx Free Buffer Count - This field contains the count of free buffers available. TheCPDMA_RX0_PENDTHRESH[7:0] RX_PENDTHRESH value is compared with this field to determine if the receive threshold pending interrupt should be assete..."
wgroup.long 0xE4++0x3
line.long 0x00 "CPDMA_RX1_FREEBUFFER,CPDMA_INT receive free buffer register channel 1"
hexmask.long.word 0x00 0.--15. 1. " RX_FREEBUFFER        ,Rx Free Buffer Count - This field contains the count of free buffers available. TheCPDMA_RX1_PENDTHRESH[7:0] RX_PENDTHRESH value is compared with this field to determine if the receive threshold pending interrupt should be assete..."
wgroup.long 0xE8++0x3
line.long 0x00 "CPDMA_RX2_FREEBUFFER,CPDMA_INT receive free buffer register channel 2"
hexmask.long.word 0x00 0.--15. 1. " RX_FREEBUFFER        ,Rx Free Buffer Count - This field contains the count of free buffers available. TheCPDMA_RX2_PENDTHRESH[7:0] RX_PENDTHRESH value is compared with this field to determine if the receive threshold pending interrupt should be assete..."
wgroup.long 0xEC++0x3
line.long 0x00 "CPDMA_RX3_FREEBUFFER,CPDMA_INT receive free buffer register channel 3"
hexmask.long.word 0x00 0.--15. 1. " RX_FREEBUFFER        ,Rx Free Buffer Count - This field contains the count of free buffers available. TheCPDMA_RX3_PENDTHRESH[7:0] RX_PENDTHRESH value is compared with this field to determine if the receive threshold pending interrupt should be assete..."
wgroup.long 0xF0++0x3
line.long 0x00 "CPDMA_RX4_FREEBUFFER,CPDMA_INT receive free buffer register channel 4"
hexmask.long.word 0x00 0.--15. 1. " RX_FREEBUFFER        ,Rx Free Buffer Count - This field contains the count of free buffers available. TheCPDMA_RX4_PENDTHRESH[7:0] RX_PENDTHRESH value is compared with this field to determine if the receive threshold pending interrupt should be assete..."
wgroup.long 0xF4++0x3
line.long 0x00 "CPDMA_RX5_FREEBUFFER,CPDMA_INT receive free buffer register channel 5"
hexmask.long.word 0x00 0.--15. 1. " RX_FREEBUFFER        ,Rx Free Buffer Count - This field contains the count of free buffers available. TheCPDMA_RX5_PENDTHRESH[7:0] RX_PENDTHRESH value is compared with this field to determine if the receive threshold pending interrupt should be assete..."
wgroup.long 0xF8++0x3
line.long 0x00 "CPDMA_RX6_FREEBUFFER,CPDMA_INT receive free buffer register channel 6"
hexmask.long.word 0x00 0.--15. 1. " RX_FREEBUFFER        ,Rx Free Buffer Count - This field contains the count of free buffers available. TheCPDMA_RX6_PENDTHRESH[7:0] RX_PENDTHRESH value is compared with this field to determine if the receive threshold pending interrupt should be assete..."
wgroup.long 0xFC++0x3
line.long 0x00 "CPDMA_RX7_FREEBUFFER,CPDMA_INT receive free buffer register channel 7"
hexmask.long.word 0x00 0.--15. 1. " RX_FREEBUFFER        ,Rx Free Buffer Count - This field contains the count of free buffers available. TheCPDMA_RX7_PENDTHRESH[7:0] RX_PENDTHRESH value is compared with this field to determine if the receive threshold pending interrupt should be assete..."
width 0x0B
tree.end
tree "PORT"
base ad:0x48484100
width 21.
group.long 0x0++0x3
line.long 0x00 "P0_CONTROL,CPSW PORT 0 control register"
bitfld.long 0x00 28.--30. " P0_DLR_CPDMA_CH     ,Port 0 DLR CPDMA Channel This field indicates the CPDMA channel that DLR packets will be received on." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24. "       P0_PASS_PRI_TAGGED ,Port 0 Pass Priority Tagged 0 - Priority tagged packets have the zero VID replaced with the input port P0_PORT_VLAN [11:0] 1 - Priority tagged packets are processed unchanged." "0,1"
bitfld.long 0x00 21. "     P0_VLAN_LTYPE2_EN ,Port 0 VLAN LTYPE 2 enable 0 - disabled 1 - enabled" "0,1"
textline "                              "
bitfld.long 0x00 20. " P0_VLAN_LTYPE1_EN   ,Port 0 VLAN LTYPE 1 enable 0 - disabled 1 - enabled" "0,1"
bitfld.long 0x00 16. "       P0_DSCP_PRI_EN     ,Port 0 DSCP Priority Enable 0 - DSCP priority disabled 1 - DSCP priority enabled. All non-tagged IPV4 packets have their received packet priority determined by mapping the 6 TOS bits through the port DSCP priority mapping reg..." "0,1"
group.long 0x8++0x3
line.long 0x00 "P0_MAX_BLKS,CPSW PORT 0 maximum FIFO blocks register"
bitfld.long 0x00 4.--8. " P0_TX_MAX_BLKS      ,Transmit FIFO Maximum Blocks - This value is the maximum number of 1k memory blocks that may be allocated to the FIFO's logical transmit priority queues. 0x10 is the recommended value of P0_TX_MAX_BLKS. Port 0 should remain in flo..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--3. "      P0_RX_MAX_BLKS     ,Receive FIFO Maximum Blocks - This value is the maximum number of 1k memory blocks that may be allocated to the FIFO's logical receive queue. 0x4 is the recommended value. 0x3 is the minimum value P0_RX_MAX_BLKS and 0x6 is the..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0xC++0x3
line.long 0x00 "P0_BLK_CNT,CPSW PORT 0 FIFO block usage count (read only)"
bitfld.long 0x00 4.--8. " P0_TX_BLK_CNT       ,Port 0 Transmit Block Count Usage - This value is the number of blocks allocated to the FIFO logical transmit queues." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--3. "      P0_RX_BLK_CNT      ,Port 0 Receive Block Count Usage - This value is the number of blocks allocated to the FIFO logical receive queues." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10++0x3
line.long 0x00 "P0_TX_IN_CTL,CPSW PORT 0 transmit FIFO control"
bitfld.long 0x00 20.--23. " TX_RATE_EN          ,Transmit FIFO Input Rate Enable" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--17. "      TX_IN_SEL          ,Transmit FIFO Input Queue Type Select 00 - Normal priority mode 01 - Dual MAC mode 10 - Rate Limit mode 11 - reserved Note that Dual MAC mode is not compatible with escalation or shaping because dual mac mode forces round robi..." "0,1,2,3"
bitfld.long 0x00 12.--15. "     TX_BLKS_REM       ,Transmit FIFO Input Blocks to subtract in dual mac mode" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                              "
hexmask.long.word 0x00 0.--9. 1. " TX_PRI_WDS          ,Transmit FIFO Words in queue"
group.long 0x14++0x3
line.long 0x00 "P0_PORT_VLAN,CPSW PORT 0 VLAN register"
bitfld.long 0x00 13.--15. " PORT_PRI            ,Port VLAN Priority (7 is highest priority)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12. "       PORT_CFI           ,Port CFI bit" "0,1"
hexmask.long.word 0x00 0.--11. 1. "     PORT_VID          ,Port VLAN ID"
group.long 0x18++0x3
line.long 0x00 "P0_TX_PRI_MAP,CPSW PORT 0 TX header priority to switch priority mapping register"
bitfld.long 0x00 28.--29. " PRI7                ,Priority 7 - A packet header priority of 0x7 is given this switch queue priority." "0,1,2,3"
bitfld.long 0x00 24.--25. "       PRI6               ,Priority 6 - A packet header priority of 0x6 is given this switch queue priority." "0,1,2,3"
bitfld.long 0x00 20.--21. "     PRI5              ,Priority 5 - A packet header priority of 0x5 is given this switch queue priority." "0,1,2,3"
textline "                              "
bitfld.long 0x00 16.--17. " PRI4                ,Priority 4 - A packet header priority of 0x4 is given this switch queue priority." "0,1,2,3"
bitfld.long 0x00 12.--13. "       PRI3               ,Priority 3 - A packet header priority of 0x3 is given this switch queue priority." "0,1,2,3"
bitfld.long 0x00 8.--9. "     PRI2              ,Priority 2 - A packet header priority of 0x2 is given this switch queue priority." "0,1,2,3"
textline "                              "
bitfld.long 0x00 4.--5. " PRI1                ,Priority 1 - A packet header priority of 0x1 is given this switch queue priority." "0,1,2,3"
bitfld.long 0x00 0.--1. "       PRI0               ,Priority 0 - A packet header priority of 0x0 is given this switch queue priority." "0,1,2,3"
group.long 0x1C++0x3
line.long 0x00 "P0_CPDMA_TX_PRI_MAP,CPSW CPDMA TX (PORT 0 RX) packet priority to header priority"
bitfld.long 0x00 28.--30. " PRI7                ,Priority 7 - A packet pri of 0x7 is mapped (changed) to this header packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "       PRI6               ,Priority 6 - A packet pri of 0x6 is mapped (changed) to this header packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     PRI5              ,Priority 5 - A packet pri of 0x5 is mapped (changed) to this header packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 16.--18. " PRI4                ,Priority 4 - A packet pri of 0x4 is mapped (changed) to this header packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "       PRI3               ,Priority 3 - A packet pri of 0x3 is mapped (changed) to this header packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     PRI2              ,Priority 2 - A packet pri of 0x2 is mapped (changed) to this header packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 4.--6. " PRI1                ,Priority 1 - A packet pri of 0x1 is mapped (changed) to this header packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "       PRI0               ,Priority 0 - A packet pri of 0x0 is mapped (changed) to this header packet priority." "0,1,2,3,4,5,6,7"
group.long 0x20++0x3
line.long 0x00 "P0_CPDMA_RX_CH_MAP,CPSW CPDMA RX (PORT 0 TX) switch priority to DMA channel"
bitfld.long 0x00 28.--30. " P2_PRI3             ,Port 2 Priority 3 packets go to this CPDMA Rx Channel" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "       P2_PRI2            ,Port 2 Priority 2 packets go to this CPDMA Rx Channel" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     P2_PRI1           ,Port 2 Priority 1 packets go to this CPDMA Rx Channel" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 16.--18. " P2_PRI0             ,Port 2 Priority 0 packets go to this CPDMA Rx Channel" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "       P1_PRI3            ,Port 1 Priority 3 packets go to this CPDMA Rx Channel" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     P1_PRI2           ,Port 1 Priority 2 packets go to this CPDMA Rx Channel" "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 4.--6. " P1_PRI1             ,Port 1 Priority 1 packets go to this CPDMA Rx Channel" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "       P1_PRI0            ,Port 1 Priority 0 packets go to this CPDMA Rx Channel" "0,1,2,3,4,5,6,7"
group.long 0x30++0x3
line.long 0x00 "P0_RX_DSCP_PRI_MAP0,CPSW PORT 0 RX DSCP priority to RX packet mapping reg 0"
bitfld.long 0x00 28.--30. " PRI7                ,Priority 7 - A packet TOS of 0d7 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "       PRI6               ,Priority 6 - A packet TOS of 0d6 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     PRI5              ,Priority 5 - A packet TOS of 0d5 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 16.--18. " PRI4                ,Priority 4 - A packet TOS of 0d4 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "       PRI3               ,Priority 3 - A packet TOS of 0d3 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     PRI2              ,Priority 2 - A packet TOS of 0d2 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 4.--6. " PRI1                ,Priority 1 - A packet TOS of 0d1 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "       PRI0               ,Priority 0 - A packet TOS of 0d0 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
group.long 0x34++0x3
line.long 0x00 "P0_RX_DSCP_PRI_MAP1,CPSW PORT 0 RX DSCP priority to RX packet mapping reg 1"
bitfld.long 0x00 28.--30. " PRI15               ,Priority 15 - A packet TOS of 0d15 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "       PRI14              ,Priority 14 - A packet TOS of 0d14 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     PRI13             ,Priority 13 - A packet TOS of 0d13 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 16.--18. " PRI12               ,Priority 12 - A packet TOS of 0d12 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "       PRI11              ,Priority 11 - A packet TOS of 0d11 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     PRI10             ,Priority 10 - A packet TOS of 0d10 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 4.--6. " PRI9                ,Priority 9 - A packet TOS of 0d9 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "       PRI8               ,Priority 8 - A packet TOS of 0d8 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
group.long 0x38++0x3
line.long 0x00 "P0_RX_DSCP_PRI_MAP2,CPSW PORT 0 RX DSCP priority to RX packet mapping reg 2"
bitfld.long 0x00 28.--30. " PRI23               ,Priority 23 - A packet TOS of 0d23 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "       PRI22              ,Priority 22 - A packet TOS of 0d22 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     PRI21             ,Priority 21 - A packet TOS of 0d21 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 16.--18. " PRI20               ,Priority 20 - A packet TOS of 0d20 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "       PRI19              ,Priority 19 - A packet TOS of 0d19 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     PRI18             ,Priority 18 - A packet TOS of 0d18 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 4.--6. " PRI17               ,Priority 17 - A packet TOS of 0d17 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "       PRI16              ,Priority 16 - A packet TOS of 0d16 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
group.long 0x3C++0x3
line.long 0x00 "P0_RX_DSCP_PRI_MAP3,CPSW PORT 0 RX DSCP priority to RX packet mapping reg 3"
bitfld.long 0x00 28.--30. " PRI31               ,Priority 31 - A packet TOS of 0d31 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "       PRI30              ,Priority 30 - A packet TOS of 0d30 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     PRI29             ,Priority 29 - A packet TOS of 0d39 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 16.--18. " PRI28               ,Priority 28 - A packet TOS of 0d28 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "       PRI27              ,Priority 27 - A packet TOS of 0d27 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     PRI26             ,Priority 26 - A packet TOS of 0d26 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 4.--6. " PRI25               ,Priority 25 - A packet TOS of 0d25 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "       PRI24              ,Priority 24 - A packet TOS of 0d24 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
group.long 0x40++0x3
line.long 0x00 "P0_RX_DSCP_PRI_MAP4,CPSW PORT 0 RX DSCP priority to RX packet mapping reg 4"
bitfld.long 0x00 28.--30. " PRI39               ,Priority 39 - A packet TOS of 0d39 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "       PRI38              ,Priority 38 - A packet TOS of 0d38 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     PRI37             ,Priority 37 - A packet TOS of 0d37 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 16.--18. " PRI36               ,Priority 36 - A packet TOS of 0d36 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "       PRI35              ,Priority 35 - A packet TOS of 0d35 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     PRI34             ,Priority 34 - A packet TOS of 0d34 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 4.--6. " PRI33               ,Priority 33 - A packet TOS of 0d33 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "       PRI32              ,Priority 32 - A packet TOS of 0d32 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
group.long 0x44++0x3
line.long 0x00 "P0_RX_DSCP_PRI_MAP5,CPSW PORT 0 RX DSCP priority to RX packet mapping reg 5"
bitfld.long 0x00 28.--30. " PRI47               ,Priority 47 - A packet TOS of 0d47 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "       PRI46              ,Priority 46 - A packet TOS of 0d46 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     PRI45             ,Priority 45 - A packet TOS of 0d45 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 16.--18. " PRI44               ,Priority 44 - A packet TOS of 0d44 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "       PRI43              ,Priority 43 - A packet TOS of 0d43 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     PRI42             ,Priority 42 - A packet TOS of 0d42 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 4.--6. " PRI41               ,Priority 41 - A packet TOS of 0d41 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "       PRI40              ,Priority 40 - A packet TOS of 0d40 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
group.long 0x48++0x3
line.long 0x00 "P0_RX_DSCP_PRI_MAP6,CPSW PORT 0 RX DSCP priority to RX packet mapping reg 6"
bitfld.long 0x00 28.--30. " PRI55               ,Priority 55 - A packet TOS of 0d55 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "       PRI54              ,Priority 54 - A packet TOS of 0d54 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     PRI53             ,Priority 53 - A packet TOS of 0d53 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 16.--18. " PRI52               ,Priority 52 - A packet TOS of 0d52 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "       PRI51              ,Priority 51 - A packet TOS of 0d51 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     PRI50             ,Priority 50 - A packet TOS of 0d50 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 4.--6. " PRI49               ,Priority 49 - A packet TOS of 0d49 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "       PRI48              ,Priority 48 - A packet TOS of 0d48 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
group.long 0x4C++0x3
line.long 0x00 "P0_RX_DSCP_PRI_MAP7,CPSW PORT 0 RX DSCP priority to RX packet mapping reg 7"
bitfld.long 0x00 28.--30. " PRI63               ,Priority 63 - A packet TOS of 0d63 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "       PRI62              ,Priority 62 - A packet TOS of 0d62 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     PRI61             ,Priority 61 - A packet TOS of 0d61 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 16.--18. " PRI60               ,Priority 60 - A packet TOS of 0d60 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "       PRI59              ,Priority 59 - A packet TOS of 0d59 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     PRI58             ,Priority 58 - A packet TOS of 0d58 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 4.--6. " PRI57               ,Priority 57 - A packet TOS of 0d57 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "       PRI56              ,Priority 56 - A packet TOS of 0d56 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
group.long 0x50++0x3
line.long 0x00 "P0_IDLE2LPI,Port 0 EEE Idle to LPI Counter Load Value Register"
hexmask.long.tbyte 0x00 0.--19. 1. " P0_IDLE2LPI         ,Port 0 EEE Idle to LPI counter load value - After CLKSTOP_REQ is asserted, this value is loaded into the port 0 idle to LPI counter on each clock that the port 0 transmit is not idle. Port 0 enters the transmit LPI state when this..."
group.long 0x54++0x3
line.long 0x00 "P0_LPI2WAKE,Port 0 EEE LPI to Wake Counter Load Value Register"
hexmask.long.tbyte 0x00 0.--19. 1. " P0_LPI2WAKE         ,Port 0 EEE LPI to wake counter load value ? When the port is in the transmit LPI state and the CLKSTOP_REQ signal is deasserted, this value is loaded into the port 0 LPI to wake counter. Transmit packet operations may begin (resum..."
group.long 0x100++0x3
line.long 0x00 "P1_CONTROL,CPSW PORT 1 control register"
bitfld.long 0x00 25. " P1_TX_CLKSTOP_EN    ,Port 1 Transmit clockstop enable 0 ? RGMII transmit clockstop not enabled 1 ? RGMII transmit clockstop enabled. The transmit clock will be stopped after the LPI state is entered (and indicated to the CPRGMII) and the P1_Idle2LPI t..." "0,1"
bitfld.long 0x00 24. "       P1_PASS_PRI_TAGGED ,Port 1 Pass Priority Tagged 0 - Priority tagged packets have the zero VID replaced with the input port P1_PORT_VLAN [11:0] 1 - Priority tagged packets are processed unchanged." "0,1"
bitfld.long 0x00 21. "     P1_VLAN_LTYPE2_EN ,Port 1 VLAN LTYPE 2 enable 0 - disabled 1 - VLAN LTYPE2 enabled on transmit and receive" "0,1"
textline "                              "
bitfld.long 0x00 20. " P1_VLAN_LTYPE1_EN   ,Port 1 VLAN LTYPE 1 enable 0 - disabled 1 - VLAN LTYPE1 enabled on transmit and receive" "0,1"
bitfld.long 0x00 16. "       P1_DSCP_PRI_EN     ,Port 1 DSCP Priority Enable 0 - DSCP priority disabled 1 - DSCP priority enabled. All non-tagged IPV4 packets have their received packet priority determined by mapping the 6 TOS bits through the port DSCP priority mapping reg..." "0,1"
bitfld.long 0x00 15. "     P1_TS_107         ,Port 1 Time Sync Destination IP Address 107 enable 0 ? disabled 1 ? destination IP address (dec) 224.0.0.107 is enabled." "0,1"
textline "                              "
bitfld.long 0x00 14. " P1_TS_320           ,Port 1 Time Sync Destination Port Number 320 enable 0 - disabled 1 - Annex D (UDP/IPv4) time sync packet destination port number 320 (decimal) is enabled." "0,1"
bitfld.long 0x00 13. "       P1_TS_319          ,Port 1 Time Sync Destination Port Number 319 enable 0 - disabled 1 - Annex D (UDP/IPv4) time sync packet destination port number 319 (decimal) is enabled." "0,1"
bitfld.long 0x00 12. "     P1_TS_132         ,Port 1 Time Sync Destination IP Address 132 enable 0 - disabled 1 - Annex D (UDP/IPv4) time sync packet destination IP address number 132 (decimal) is enabled." "0,1"
textline "                              "
bitfld.long 0x00 11. " P1_TS_131           ,Port 1 Time Sync Destination IP Address 131 enable 0 - disabled 1 - Annex D (UDP/IPv4) time sync packet destination IP address number 131 (decimal) is enabled." "0,1"
bitfld.long 0x00 10. "       P1_TS_130          ,Port 1 Time Sync Destination IP Address 130 enable 0 - disabled 1 - Annex D (UDP/IPv4) time sync packet destination IP address number 130 (decimal) is enabled." "0,1"
bitfld.long 0x00 9. "     P1_TS_129         ,Port 1 Time Sync Destination IP Address 129 enable 0 - disabled 1 - Annex D (UDP/IPv4) time sync packet destination IP address number 129 (decimal) is enabled." "0,1"
textline "                              "
bitfld.long 0x00 8. " P1_TS_TTL_NONZERO   ,Port 1 Time Sync Time To Live Non-zero enable. 0 = TTL must be zero. 1 = TTL may be any value." "0,1"
bitfld.long 0x00 7. "       P1_TS_UNI_EN       ,Port 1 Time Sync Unicast Enable 0 ? Unicast disabled 1 ? Unicast enabled" "0,1"
bitfld.long 0x00 6. "     P1_TS_ANNEX_F_EN  ,Port 1 Time Sync Annex F enable 0 ? Annex F disabled 1 ? Annex F enabled" "0,1"
textline "                              "
bitfld.long 0x00 5. " P1_TS_ANNEX_E_EN    ,Port 1 Time Sync Annex E enable 0 ? Annex E disabled 1 ? Annex E enabled" "0,1"
bitfld.long 0x00 4. "       P1_TS_ANNEX_D_EN   ,Port 1 Time Sync Annex D enable 0 - Annex D disabled 1 - Annex D enabled" "0,1"
bitfld.long 0x00 3. "     P1_TS_LTYPE2_EN   ,Port 1 Time Sync LTYPE 2 enable 0 - disabled 1 - enabled" "0,1"
textline "                              "
bitfld.long 0x00 2. " P1_TS_LTYPE1_EN     ,Port 1 Time Sync LTYPE 1 enable 0 - disabled 1 - enabled" "0,1"
bitfld.long 0x00 1. "       P1_TS_TX_EN        ,Port 1 Time Sync Transmit Enable 0 - disabled 1 - enabled" "0,1"
bitfld.long 0x00 0. "     P1_TS_RX_EN       ,Port 1 Time Sync Receive Enable 0 - Port 1 Receive Time Sync disabled 1 - Port 1 Receive Time Sync enabled" "0,1"
group.long 0x108++0x3
line.long 0x00 "P1_MAX_BLKS,CPSW PORT 1 maximum FIFO blocks register"
bitfld.long 0x00 4.--8. " P1_TX_MAX_BLKS      ,Transmit FIFO Maximum Blocks - This value is the maximum number of 1k memory blocks that may be allocated to the FIFO's logical transmit priority queues. 0x11 is the recommended value of P1_TX_MAX_BLKS unless the port is in fulldu..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--3. "      P1_RX_MAX_BLKS     ,Receive FIFO Maximum Blocks - This value is the maximum number of 1k memory blocks that may be allocated to the FIFO's logical receive queue. This value must be greater than or equal to 0x3. It should be increased In fullduple..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x10C++0x3
line.long 0x00 "P1_BLK_CNT,CPSW PORT 1 FIFO block usage count (read only)"
bitfld.long 0x00 4.--8. " P1_TX_BLK_CNT       ,Port 1 Transmit Block Count Usage - This value is the number of blocks allocated to the FIFO logical transmit queues." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--3. "      P1_RX_BLK_CNT      ,Port 1 Receive Block Count Usage - This value is the number of blocks allocated to the FIFO logical receive queues." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x110++0x3
line.long 0x00 "P1_TX_IN_CTL,CPSW PORT 1 transmit FIFO control"
bitfld.long 0x00 24.--27. " HOST_BLKS_REM       ,Transmit FIFO Blocks that must be free before a non rate-limited CPDMA channel can begin sending a packet to the FIFO." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "      TX_RATE_EN         ,Transmit FIFO Input Rate Enable" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--17. "    TX_IN_SEL         ,Transmit FIFO Input Queue Type Select 0x0 - Normal priority mode 0x1 - reserved 0x2 - Rate Limit mode 0x3 - reserved" "0,1,2,3"
textline "                              "
bitfld.long 0x00 12.--15. " TX_BLKS_REM         ,Transmit FIFO Input Blocks to subtract in dual mac mode and blocks to subtract on non rate-limited traffic in rate-limit mode." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 0.--9. 1. "      TX_PRI_WDS         ,Transmit FIFO Words in queue"
group.long 0x114++0x3
line.long 0x00 "P1_PORT_VLAN,CPSW PORT 1 VLAN register"
bitfld.long 0x00 13.--15. " PORT_PRI            ,Port VLAN Priority (7 is highest priority)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12. "       PORT_CFI           ,Port CFI bit" "0,1"
hexmask.long.word 0x00 0.--11. 1. "     PORT_VID          ,Port VLAN ID"
group.long 0x118++0x3
line.long 0x00 "P1_TX_PRI_MAP,CPSW PORT 1 TX header priority to switch priority mapping register"
bitfld.long 0x00 28.--29. " PRI7                ,Priority 7 - A packet header priority of 0x7 is given this switch queue priority" "0,1,2,3"
bitfld.long 0x00 24.--25. "       PRI6               ,Priority 6 - A packet header priority of 0x6 is given this switch queue priority" "0,1,2,3"
bitfld.long 0x00 20.--21. "     PRI5              ,Priority 5 - A packet header priority of 0x5 is given this switch queue priority" "0,1,2,3"
textline "                              "
bitfld.long 0x00 16.--17. " PRI4                ,Priority 4 - A packet header priority of 0x4 is given this switch queue priority" "0,1,2,3"
bitfld.long 0x00 12.--13. "       PRI3               ,Priority 3 - A packet header priority of 0x3 is given this switch queue priority" "0,1,2,3"
bitfld.long 0x00 8.--9. "     PRI2              ,Priority 2 - A packet header priority of 0x2 is given this switch queue priority" "0,1,2,3"
textline "                              "
bitfld.long 0x00 4.--5. " PRI1                ,Priority 1 - A packet header priority of 0x1 is given this switch queue priority" "0,1,2,3"
bitfld.long 0x00 0.--1. "       PRI0               ,Priority 0 - A packet header priority of 0x0 is given this switch queue priority" "0,1,2,3"
group.long 0x11C++0x3
line.long 0x00 "P1_TS_SEQ_MTYPE,CPSW PORT 1 time sync sequence ID offset and message type."
bitfld.long 0x00 16.--21. " P1_TS_SEQ_ID_OFFSET ,Port 1 Time Sync Sequence ID Offset This is the number of octets that the sequence ID is offset in the tx and rx time sync message header. The minimum value is 6." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.word 0x00 0.--15. 1. "      P1_TS_MSG_TYPE_EN  ,Port 1 Time Sync Message Type Enable - Each bit in this field enables the corresponding message type in receive and transmit time sync messages (Bit 0 enables message type 0 etc.)."
group.long 0x120++0x3
line.long 0x00 "P1_SA_LO,CPSW CPGMAC_SL1 source address low register"
hexmask.long.byte 0x00 8.--15. 1. " MACSRCADDR_7_0      ,Source Address Lower 8 bits (byte 0)"
hexmask.long.byte 0x00 0.--7. 1. "      MACSRCADDR_15_8    ,Source Address bits 15:8 (byte 1)"
group.long 0x124++0x3
line.long 0x00 "P1_SA_HI,CPSW CPGMAC_SL1 source address high register"
hexmask.long.byte 0x00 24.--31. 1. " MACSRCADDR_23_16    ,Source Address bits 23:16 (byte 2)"
hexmask.long.byte 0x00 16.--23. 1. "      MACSRCADDR_31_24   ,Source Address bits 31:24 (byte 3)"
hexmask.long.byte 0x00 8.--15. 1. "    MACSRCADDR_39_32  ,Source Address bits 39:32 (byte 4)"
textline "                              "
hexmask.long.byte 0x00 0.--7. 1. " MACSRCADDR_47_40    ,Source Address bits 47:40 (byte 5)"
group.long 0x128++0x3
line.long 0x00 "P1_SEND_PERCENT,CPSW PORT 1 transmit queue send percentages"
hexmask.long.byte 0x00 16.--22. 1. " PRI3_SEND_PERCENT   ,Priority 3 Transmit Percentage - This percentage value is sent from FIFO priority 3 (maximum) whenCPSW_PTYPE[18] P1_PRI3_SHAPE_EN is set (queue shaping enabled). This is the percentage of the wire that packets from priority 3 rece..."
hexmask.long.byte 0x00 8.--14. 1. "      PRI2_SEND_PERCENT  ,Priority 2 Transmit Percentage - This percentage value is sent from FIFO priority 2 (maximum) whenCPSW_PTYPE[17] P1_PRI2_SHAPE_EN is set (queue shaping enabled). This is the percentage of the wire that packets from priority 2 ..."
hexmask.long.byte 0x00 0.--6. 1. "    PRI1_SEND_PERCENT ,Priority 1 Transmit Percentage - This percentage value is sent from FIFO priority 1 (maximum) when theCPSW_PTYPE[16] P1_PRI1_SHAPE_EN is set (queue shaping enabled). This is the percentage of the wire that packets from priority 1..."
group.long 0x130++0x3
line.long 0x00 "P1_RX_DSCP_PRI_MAP0,CPSW PORT 1 RX DSCP priority to RX packet mapping reg 0"
bitfld.long 0x00 28.--30. " PRI7                ,Priority 7 - A packet TOS of 0d7 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "       PRI6               ,Priority 6 - A packet TOS of 0d6 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     PRI5              ,Priority 5 - A packet TOS of 0d5 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 16.--18. " PRI4                ,Priority 4 - A packet TOS of 0d4 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "       PRI3               ,Priority 3 - A packet TOS of 0d3 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     PRI2              ,Priority 2 - A packet TOS of 0d2 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 4.--6. " PRI1                ,Priority 1 - A packet TOS of 0d1 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "       PRI0               ,Priority 0 - A packet TOS of 0d0 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
group.long 0x134++0x3
line.long 0x00 "P1_RX_DSCP_PRI_MAP1,CPSW PORT 1 RX DSCP priority to RX packet mapping reg 1"
bitfld.long 0x00 28.--30. " PRI15               ,Priority 15 - A packet TOS of 0d15 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "       PRI14              ,Priority 14 - A packet TOS of 0d14 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     PRI13             ,Priority 13 - A packet TOS of 0d13 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 16.--18. " PRI12               ,Priority 12 - A packet TOS of 0d12 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "       PRI11              ,Priority 11 - A packet TOS of 0d11 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     PRI10             ,Priority 10 - A packet TOS of 0d10 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 4.--6. " PRI9                ,Priority 9 - A packet TOS of 0d9 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "       PRI8               ,Priority 8 - A packet TOS of 0d8 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
group.long 0x138++0x3
line.long 0x00 "P1_RX_DSCP_PRI_MAP2,CPSW PORT 1 RX DSCP priority to RX packet mapping reg 2"
bitfld.long 0x00 28.--30. " PRI23               ,Priority 23 - A packet TOS of 0d23 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "       PRI22              ,Priority 22 - A packet TOS of 0d22 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     PRI21             ,Priority 21 - A packet TOS of 0d21 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 16.--18. " PRI20               ,Priority 20 - A packet TOS of 0d20 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "       PRI19              ,Priority 19 - A packet TOS of 0d19 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     PRI18             ,Priority 18 - A packet TOS of 0d18 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 4.--6. " PRI17               ,Priority 17 - A packet TOS of 0d17 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "       PRI16              ,Priority 16 - A packet TOS of 0d16 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
group.long 0x13C++0x3
line.long 0x00 "P1_RX_DSCP_PRI_MAP3,CPSW PORT 1 RX DSCP priority to RX packet mapping reg 3"
bitfld.long 0x00 28.--30. " PRI31               ,Priority 31 - A packet TOS of 0d31 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "       PRI30              ,Priority 30 - A packet TOS of 0d30 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     PRI29             ,Priority 29 - A packet TOS of 0d39 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 16.--18. " PRI28               ,Priority 28 - A packet TOS of 0d28 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "       PRI27              ,Priority 27 - A packet TOS of 0d27 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     PRI26             ,Priority 26 - A packet TOS of 0d26 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 4.--6. " PRI25               ,Priority 25 - A packet TOS of 0d25 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "       PRI24              ,Priority 24 - A packet TOS of 0d24 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
group.long 0x140++0x3
line.long 0x00 "P1_RX_DSCP_PRI_MAP4,CPSW PORT 1 RX DSCP priority to RX packet mapping reg 4"
bitfld.long 0x00 28.--30. " PRI39               ,Priority 39 - A packet TOS of 0d39 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "       PRI38              ,Priority 38 - A packet TOS of 0d38 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     PRI37             ,Priority 37 - A packet TOS of 0d37 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 16.--18. " PRI36               ,Priority 36 - A packet TOS of 0d36 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "       PRI35              ,Priority 35 - A packet TOS of 0d35 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     PRI34             ,Priority 34 - A packet TOS of 0d34 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 4.--6. " PRI33               ,Priority 33 - A packet TOS of 0d33 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "       PRI32              ,Priority 32 - A packet TOS of 0d32 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
group.long 0x144++0x3
line.long 0x00 "P1_RX_DSCP_PRI_MAP5,CPSW PORT 1 RX DSCP priority to RX packet mapping reg 5"
bitfld.long 0x00 28.--30. " PRI47               ,Priority 47 - A packet TOS of 0d47 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "       PRI46              ,Priority 46 - A packet TOS of 0d46 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     PRI45             ,Priority 45 - A packet TOS of 0d45 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 16.--18. " PRI44               ,Priority 44 - A packet TOS of 0d44 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "       PRI43              ,Priority 43 - A packet TOS of 0d43 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     PRI42             ,Priority 42 - A packet TOS of 0d42 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 4.--6. " PRI41               ,Priority 41 - A packet TOS of 0d41 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "       PRI40              ,Priority 40 - A packet TOS of 0d40 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
group.long 0x148++0x3
line.long 0x00 "P1_RX_DSCP_PRI_MAP6,CPSW PORT 1 RX DSCP priority to RX packet mapping reg 6"
bitfld.long 0x00 28.--30. " PRI55               ,Priority 55 - A packet TOS of 0d55 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "       PRI54              ,Priority 54 - A packet TOS of 0d54 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     PRI53             ,Priority 53 - A packet TOS of 0d53 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 16.--18. " PRI52               ,Priority 52 - A packet TOS of 0d52 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "       PRI51              ,Priority 51 - A packet TOS of 0d51 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     PRI50             ,Priority 50 - A packet TOS of 0d50 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 4.--6. " PRI49               ,Priority 49 - A packet TOS of 0d49 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "       PRI48              ,Priority 48 - A packet TOS of 0d48 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
group.long 0x14C++0x3
line.long 0x00 "P1_RX_DSCP_PRI_MAP7,CPSW PORT 1 RX DSCP priority to RX packet mapping reg 7"
bitfld.long 0x00 28.--30. " PRI63               ,Priority 63 - A packet TOS of 0d63 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "       PRI62              ,Priority 62 - A packet TOS of 0d62 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     PRI61             ,Priority 61 - A packet TOS of 0d61 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 16.--18. " PRI60               ,Priority 60 - A packet TOS of 0d60 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "       PRI59              ,Priority 59 - A packet TOS of 0d59 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     PRI58             ,Priority 58 - A packet TOS of 0d58 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 4.--6. " PRI57               ,Priority 57 - A packet TOS of 0d57 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "       PRI56              ,Priority 56 - A packet TOS of 0d56 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
group.long 0x150++0x3
line.long 0x00 "P1_IDLE2LPI,Port 1 EEE Idle to LPI Counter Load Value Register"
hexmask.long.tbyte 0x00 0.--19. 1. " P1_IDLE2LPI         ,Port 1 EEE Idle to LPI counter load value - After CLKSTOP_REQ is asserted, this value is loaded into the port 1 idle to LPI counter on each clock that the port 1 transmit is not idle. Port 0 enters the transmit LPI state when this..."
group.long 0x154++0x3
line.long 0x00 "P1_LPI2WAKE,Port 1 EEE LPI to Wake Counter Load Value Register"
hexmask.long.tbyte 0x00 0.--19. 1. " P1_LPI2WAKE         ,Port 1 EEE LPI to wake counter load value ? When the port is in the transmit LPI state and the CLKSTOP_REQ signal is deasserted, this value is loaded into the port 1 LPI to wake counter. Transmit packet operations may begin (resum..."
group.long 0x200++0x3
line.long 0x00 "P2_CONTROL,CPSW_3GF PORT 2 control register"
bitfld.long 0x00 25. " P2_TX_CLKSTOP_EN    ,Port 2 Transmit clockstop enable 0 ? RGMII transmit clockstop not enabled 1 ? RGMII transmit clockstop enabled. The transmit clock will be stopped after the LPI state is entered (and indicated to the CPRGMII) and the P2_Idle2LPI t..." "0,1"
bitfld.long 0x00 24. "       P2_PASS_PRI_TAGGED ,Port 2 Pass Priority Tagged 0 - Priority tagged packets have the zero VID replaced with the input port P2_PORT_VLAN [11:0] 1 - Priority tagged packets are processed unchanged." "0,1"
bitfld.long 0x00 21. "     P2_VLAN_LTYPE2_EN ,Port 2 VLAN LTYPE 2 enable 0 - disabled 1 - VLAN LTYPE2 enabled on transmit and receive" "0,1"
textline "                              "
bitfld.long 0x00 20. " P2_VLAN_LTYPE1_EN   ,Port 2 VLAN LTYPE 1 enable 0 - disabled 1 - VLAN LTYPE1 enabled on transmit and receive" "0,1"
bitfld.long 0x00 16. "       P2_DSCP_PRI_EN     ,Port 0 DSCP Priority Enable 0 - DSCP priority disabled 1 - DSCP priority enabled. All non-tagged IPV4 packets have their received packet priority determined by mapping the 6 TOS bits through the port DSCP priority mapping reg..." "0,1"
bitfld.long 0x00 15. "     P2_TS_107         ,Port 2 Time Sync Destination IP Address 107 enable 0 ? disabled 1 ? destination IP address (dec) 224.0.0.107 is enabled." "0,1"
textline "                              "
bitfld.long 0x00 14. " P2_TS_320           ,Port 2 Time Sync Destination Port Number 320 enable 0 - disabled 1 - Annex D (UDP/IPv4) time sync packet destination port number 320 (decimal) is enabled." "0,1"
bitfld.long 0x00 13. "       P2_TS_319          ,Port 2 Time Sync Destination Port Number 319 enable 0 - disabled 1 - Annex D (UDP/IPv4) time sync packet destination port number 319 (decimal) is enabled." "0,1"
bitfld.long 0x00 12. "     P2_TS_132         ,Port 2 Time Sync Destination IP Address 132 enable 0 - disabled 1 - Annex D (UDP/IPv4) time sync packet destination IP address number 132 (decimal) is enabled." "0,1"
textline "                              "
bitfld.long 0x00 11. " P2_TS_131           ,Port 2 Time Sync Destination IP Address 131 enable 0 - disabled 1 - Annex D (UDP/IPv4) time sync packet destination IP address number 131 (decimal) is enabled." "0,1"
bitfld.long 0x00 10. "       P2_TS_130          ,Port 2 Time Sync Destination IP Address 130 enable 0 - disabled 1 - Annex D (UDP/IPv4) time sync packet destination IP address number 130 (decimal) is enabled." "0,1"
bitfld.long 0x00 9. "     P2_TS_129         ,Port 2 Time Sync Destination IP Address 129 enable 0 - disabled 1 - Annex D (UDP/IPv4) time sync packet destination IP address number 129 (decimal) is enabled." "0,1"
textline "                              "
bitfld.long 0x00 8. " P2_TS_TTL_NONZERO   ,Port 2 Time Sync Time To Live Non-zero enable. 0 = TTL must be zero. 1 = TTL may be any value." "0,1"
bitfld.long 0x00 7. "       P2_TS_UNI_EN       ,Port 2 Time Sync Unicast Enable 0 ? Unicast disabled 1 ? Unicast enabled" "0,1"
bitfld.long 0x00 6. "     P2_TS_ANNEX_F_EN  ,Port 2 Time Sync Annex F enable 0 ? Annex F disabled 1 ? Annex F enabled" "0,1"
textline "                              "
bitfld.long 0x00 5. " P2_TS_ANNEX_E_EN    ,Port 2 Time Sync Annex E enable 0 ? Annex E disabled 1 ? Annex E enabled" "0,1"
bitfld.long 0x00 4. "       P2_TS_ANNEX_D_EN   ,Port 2 Time Sync Annex D enable 0 - Annex D disabled 1 - Annex D enabled" "0,1"
bitfld.long 0x00 3. "     P2_TS_LTYPE2_EN   ,Port 2 Time Sync LTYPE 2 enable 0 - disabled 1 - enabled" "0,1"
textline "                              "
bitfld.long 0x00 2. " P2_TS_LTYPE1_EN     ,Port 2 Time Sync LTYPE 1 enable 0 - disabled 1 - enabled" "0,1"
bitfld.long 0x00 1. "       P2_TS_TX_EN        ,Port 2 Time Sync Transmit Enable 0 - disabled 1 - enabled" "0,1"
bitfld.long 0x00 0. "     P2_TS_RX_EN       ,Port 2 Time Sync Receive Enable 0 - Port 1 Receive Time Sync disabled 1 - Port 1 Receive Time Sync enabled" "0,1"
group.long 0x208++0x3
line.long 0x00 "P2_MAX_BLKS,CPSW PORT 2 maximum FIFO blocks register"
bitfld.long 0x00 4.--8. " P2_TX_MAX_BLKS      ,Transmit FIFO Maximum Blocks - This value is the maximum number of 1k memory blocks that may be allocated to the FIFO's logical transmit priority queues. 0x11 is the recommended value of P2_TX_MAX_BLKS unless the port is in fulldu..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--3. "      P2_RX_MAX_BLKS     ,Receive FIFO Maximum Blocks - This value is the maximum number of 1k memory blocks that may be allocated to the FIFO's logical receive queue. This value must be greater than or equal to 0x3. It should be increased In fullduple..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x20C++0x3
line.long 0x00 "P2_BLK_CNT,CPSW PORT 2 FIFO block usage count (read only)"
bitfld.long 0x00 4.--8. " P2_TX_BLK_CNT       ,Port 2 Transmit Block Count Usage - This value is the number of blocks allocated to the FIFO logical transmit queues." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--3. "      P2_RX_BLK_CNT      ,Port 2 Receive Block Count Usage - This value is the number of blocks allocated to the FIFO logical receive queues." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x210++0x3
line.long 0x00 "P2_TX_IN_CTL,CPSW PORT 2 transmit FIFO control"
bitfld.long 0x00 24.--27. " HOST_BLKS_REM       ,Transmit FIFO Blocks that must be free before a non rate-limited CPDMA channel can begin sending a packet to the FIFO." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "      TX_RATE_EN         ,Transmit FIFO Input Rate Enable" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--17. "    TX_IN_SEL         ,Transmit FIFO Input Queue Type Select 0x0 - Normal priority mode 0x1 - reserved 0x2 - Rate Limit mode 0x3 - reserved" "0,1,2,3"
textline "                              "
bitfld.long 0x00 12.--15. " TX_BLKS_REM         ,Transmit FIFO Input Blocks to subtract in dual mac mode and blocks to subtract on non rate-limited traffic in rate-limit mode." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 0.--9. 1. "      TX_PRI_WDS         ,Transmit FIFO Words in queue"
group.long 0x214++0x3
line.long 0x00 "P2_PORT_VLAN,CPSW PORT 2 VLAN register"
bitfld.long 0x00 13.--15. " PORT_PRI            ,Port VLAN Priority (7 is highest priority)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12. "       PORT_CFI           ,Port CFI bit" "0,1"
hexmask.long.word 0x00 0.--11. 1. "     PORT_VID          ,Port VLAN ID"
group.long 0x218++0x3
line.long 0x00 "P2_TX_PRI_MAP,CPSW PORT 2 TX header priority to switch priority mapping register"
bitfld.long 0x00 28.--29. " PRI7                ,Priority 7 - A packet header priority of 0x7 is given this switch queue priority." "0,1,2,3"
bitfld.long 0x00 24.--25. "       PRI6               ,Priority 6 - A packet header priority of 0x6 is given this switch queue priority." "0,1,2,3"
bitfld.long 0x00 20.--21. "     PRI5              ,Priority 5 - A packet header priority of 0x5 is given this switch queue priority." "0,1,2,3"
textline "                              "
bitfld.long 0x00 16.--17. " PRI4                ,Priority 4 - A packet header priority of 0x4 is given this switch queue priority." "0,1,2,3"
bitfld.long 0x00 12.--13. "       PRI3               ,Priority 3 - A packet header priority of 0x3 is given this switch queue priority." "0,1,2,3"
bitfld.long 0x00 8.--9. "     PRI2              ,Priority 2 - A packet header priority of 0x2 is given this switch queue priority." "0,1,2,3"
textline "                              "
bitfld.long 0x00 4.--5. " PRI1                ,Priority 1 - A packet header priority of 0x1 is given this switch queue priority." "0,1,2,3"
bitfld.long 0x00 0.--1. "       PRI0               ,Priority 0 - A packet header priority of 0x0 is given this switch queue priority." "0,1,2,3"
group.long 0x21C++0x3
line.long 0x00 "P2_TS_SEQ_MTYPE,CPSW_3GF PORT 2 time sync sequence ID offset and message type."
bitfld.long 0x00 16.--21. " P2_TS_SEQ_ID_OFFSET ,Port 2 Time Sync Sequence ID Offset This is the number of octets that the sequence ID is offset in the tx and rx time sync message header. The minimum value is 6." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.word 0x00 0.--15. 1. "      P2_TS_MSG_TYPE_EN  ,Port 2 Time Sync Message Type Enable - Each bit in this field enables the corresponding message type in receive and transmit time sync messages (Bit 0 enables message type 0 etc.)."
group.long 0x220++0x3
line.long 0x00 "P2_SA_LO,CPSW CPGMAC_SL2 source address low register"
hexmask.long.byte 0x00 8.--15. 1. " MACSRCADDR_7_0      ,Source Address Lower 8 bits (byte 0)"
hexmask.long.byte 0x00 0.--7. 1. "      MACSRCADDR_15_8    ,Source Address bits 15:8 (byte 1)"
group.long 0x224++0x3
line.long 0x00 "P2_SA_HI,CPSW CPGMAC_SL2 source address high register"
hexmask.long.byte 0x00 24.--31. 1. " MACSRCADDR_23_16    ,Source Address bits 23:16 (byte 2)"
hexmask.long.byte 0x00 16.--23. 1. "      MACSRCADDR_31_23   ,Source Address bits 31:23 (byte 3)"
hexmask.long.byte 0x00 8.--15. 1. "    MACSRCADDR_39_32  ,Source Address bits 39:32 (byte 4)"
textline "                              "
hexmask.long.byte 0x00 0.--7. 1. " MACSRCADDR_47_40    ,Source Address bits 47:40 (byte 5)"
group.long 0x228++0x3
line.long 0x00 "P2_SEND_PERCENT,CPSW PORT 2 transmit queue send percentages"
hexmask.long.byte 0x00 16.--22. 1. " PRI3_SEND_PERCENT   ,Priority 3 Transmit Percentage - This percentage value is sent from FIFO priority 3 (maximum) when theCPSW_PTYPE[21] P2_PRI3_SHAPE_EN is set (queue shaping enabled). This is the percentage of the wire that packets from priority 3 ..."
hexmask.long.byte 0x00 8.--14. 1. "      PRI2_SEND_PERCENT  ,Priority 2 Transmit Percentage - This percentage value is sent from FIFO priority 2 (maximum) when theCPSW_PTYPE[20] P2_PRI2_SHAPE_EN is set (queue shaping enabled). This is the percentage of the wire that packets from priorit..."
hexmask.long.byte 0x00 0.--6. 1. "    PRI1_SEND_PERCENT ,Priority 1 Transmit Percentage - This percentage value is sent from FIFO priority 1 (maximum) when theCPSW_PTYPE[19] P2_PRI1_SHAPE_EN is set (queue shaping enabled). This is the percentage of the wire that packets from priority 1..."
group.long 0x230++0x3
line.long 0x00 "P2_RX_DSCP_PRI_MAP0,CPSW PORT 2 RX DSCP priority to RX packet mapping reg 0"
bitfld.long 0x00 28.--30. " PRI7                ,Priority 7 - A packet TOS of 0d7 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "       PRI6               ,Priority 6 - A packet TOS of 0d6 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     PRI5              ,Priority 5 - A packet TOS of 0d5 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 16.--18. " PRI4                ,Priority 4 - A packet TOS of 0d4 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "       PRI3               ,Priority 3 - A packet TOS of 0d3 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     PRI2              ,Priority 2 - A packet TOS of 0d2 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 4.--6. " PRI1                ,Priority 1 - A packet TOS of 0d1 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "       PRI0               ,Priority 0 - A packet TOS of 0d0 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
group.long 0x234++0x3
line.long 0x00 "P2_RX_DSCP_PRI_MAP1,CPSW PORT 2 RX DSCP priority to RX packet mapping reg 1"
bitfld.long 0x00 28.--30. " PRI15               ,Priority 15 - A packet TOS of 0d15 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "       PRI14              ,Priority 14 - A packet TOS of 0d14 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     PRI13             ,Priority 13 - A packet TOS of 0d13 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 16.--18. " PRI12               ,Priority 12 - A packet TOS of 0d12 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "       PRI11              ,Priority 11 - A packet TOS of 0d11 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     PRI10             ,Priority 10 - A packet TOS of 0d10 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 4.--6. " PRI9                ,Priority 9 - A packet TOS of 0d9 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "       PRI8               ,Priority 8 - A packet TOS of 0d8 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
group.long 0x238++0x3
line.long 0x00 "P2_RX_DSCP_PRI_MAP2,CPSW PORT 2 RX DSCP priority to RX packet mapping reg 2"
bitfld.long 0x00 28.--30. " PRI23               ,Priority 23 - A packet TOS of 0d23 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "       PRI22              ,Priority 22 - A packet TOS of 0d22 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     PRI21             ,Priority 21 - A packet TOS of 0d21 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 16.--18. " PRI20               ,Priority 20 - A packet TOS of 0d20 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "       PRI19              ,Priority 19 - A packet TOS of 0d19 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     PRI18             ,Priority 18 - A packet TOS of 0d18 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 4.--6. " PRI17               ,Priority 17 - A packet TOS of 0d17 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "       PRI16              ,Priority 16 - A packet TOS of 0d16 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
group.long 0x23C++0x3
line.long 0x00 "P2_RX_DSCP_PRI_MAP3,CPSW PORT 2 RX DSCP priority to RX packet mapping reg 3"
bitfld.long 0x00 28.--30. " PRI31               ,Priority 31 - A packet TOS of 0d31 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "       PRI30              ,Priority 30 - A packet TOS of 0d30 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     PRI29             ,Priority 29 - A packet TOS of 0d39 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 16.--18. " PRI28               ,Priority 28 - A packet TOS of 0d28 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "       PRI27              ,Priority 27 - A packet TOS of 0d27 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     PRI26             ,Priority 26 - A packet TOS of 0d26 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 4.--6. " PRI25               ,Priority 25 - A packet TOS of 0d25 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "       PRI24              ,Priority 24 - A packet TOS of 0d24 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
group.long 0x240++0x3
line.long 0x00 "P2_RX_DSCP_PRI_MAP4,CPSW PORT 2 RX DSCP priority to RX packet mapping reg 4"
bitfld.long 0x00 28.--30. " PRI39               ,Priority 39 - A packet TOS of 0d39 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "       PRI38              ,Priority 38 - A packet TOS of 0d38 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     PRI37             ,Priority 37 - A packet TOS of 0d37 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 16.--18. " PRI36               ,Priority 36 - A packet TOS of 0d36 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "       PRI35              ,Priority 35 - A packet TOS of 0d35 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     PRI34             ,Priority 34 - A packet TOS of 0d34 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 4.--6. " PRI33               ,Priority 33 - A packet TOS of 0d33 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "       PRI32              ,Priority 32 - A packet TOS of 0d32 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
group.long 0x244++0x3
line.long 0x00 "P2_RX_DSCP_PRI_MAP5,CPSW PORT 2 RX DSCP priority to RX packet mapping reg 5"
bitfld.long 0x00 28.--30. " PRI47               ,Priority 47 - A packet TOS of 0d47 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "       PRI46              ,Priority 46 - A packet TOS of 0d46 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     PRI45             ,Priority 45 - A packet TOS of 0d45 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 16.--18. " PRI44               ,Priority 44 - A packet TOS of 0d44 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "       PRI43              ,Priority 43 - A packet TOS of 0d43 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     PRI42             ,Priority 42 - A packet TOS of 0d42 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 4.--6. " PRI41               ,Priority 41 - A packet TOS of 0d41 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "       PRI40              ,Priority 40 - A packet TOS of 0d40 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
group.long 0x248++0x3
line.long 0x00 "P2_RX_DSCP_PRI_MAP6,CPSW PORT 2 RX DSCP priority to RX packet mapping reg 6"
bitfld.long 0x00 28.--30. " PRI55               ,Priority 55 - A packet TOS of 0d55 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "       PRI54              ,Priority 54 - A packet TOS of 0d54 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     PRI53             ,Priority 53 - A packet TOS of 0d53 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 16.--18. " PRI52               ,Priority 52 - A packet TOS of 0d52 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "       PRI51              ,Priority 51 - A packet TOS of 0d51 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     PRI50             ,Priority 50 - A packet TOS of 0d50 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 4.--6. " PRI49               ,Priority 49 - A packet TOS of 0d49 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "       PRI48              ,Priority 48 - A packet TOS of 0d48 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
group.long 0x24C++0x3
line.long 0x00 "P2_RX_DSCP_PRI_MAP7,CPSW PORT 2 RX DSCP priority to RX packet mapping reg 7"
bitfld.long 0x00 28.--30. " PRI63               ,Priority 63 - A packet TOS of 0d63 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "       PRI62              ,Priority 62 - A packet TOS of 0d62 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 20.--22. "     PRI61             ,Priority 61 - A packet TOS of 0d61 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 16.--18. " PRI60               ,Priority 60 - A packet TOS of 0d60 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 12.--14. "       PRI59              ,Priority 59 - A packet TOS of 0d59 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--10. "     PRI58             ,Priority 58 - A packet TOS of 0d58 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
textline "                              "
bitfld.long 0x00 4.--6. " PRI57               ,Priority 57 - A packet TOS of 0d57 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "       PRI56              ,Priority 56 - A packet TOS of 0d56 is mapped to this received packet priority." "0,1,2,3,4,5,6,7"
group.long 0x250++0x3
line.long 0x00 "P2_IDLE2LPI,Port 2 EEE Idle to LPI Counter Load Value Register"
hexmask.long.tbyte 0x00 0.--19. 1. " P2_IDLE2LPI         ,Port 2 EEE Idle to LPI counter load value - After CLKSTOP_REQ is asserted, this value is loaded into the port 2 idle to LPI counter on each clock that the port 2 transmit is not idle. Port 2 enters the transmit LPI state when this..."
group.long 0x254++0x3
line.long 0x00 "P2_LPI2WAKE,Port 2 EEE LPI to Wake Counter Load Value Register"
hexmask.long.tbyte 0x00 0.--19. 1. " P2_LPI2WAKE         ,Port 2 EEE LPI to wake counter load value ? When the port is in the transmit LPI state and the CLKSTOP_REQ signal is deasserted, this value is loaded into the port 2 LPI to wake counter. Transmit packet operations may begin (resum..."
width 0x0B
tree.end
tree.end
tree.open "eMMC_SD_SDIO"
tree.open "MMC3"
tree "MMC3"
base ad:0x480AD000
width 21.
rgroup.long 0x0++0x3
line.long 0x00 "MMCHS_HL_REV,IP Revision Identifier (X.Y.R) Used by software to track features, bugs, and compatibility"
hexmask.long 0x00 0.--31. 1. " REVISION     ,IP Revision"
rgroup.long 0x4++0x3
line.long 0x00 "MMCHS_HL_HWINFO,Information about the IP module's hardware configuration."
bitfld.long 0x00 6. " RETMODE      ,Retention Mode generic parameter This bit field indicates whether the retention mode is supported using the pin PIRFFRET. - RetEnabled. - RetDisabled." "RetDisabled,RetEnabled"
bitfld.long 0x00 2.--5. "         MEM_SIZE         ,Memory size for FIFO buffer: - MEM_1024. - MEM_512. - MEM_4096. - MEM_2048." "0,MEM_512,MEM_1024,3,MEM_2048,5,6,7,MEM_4096,9,10,11,12,13,14,15"
bitfld.long 0x00 1. "         MERGE_MEM       ,Memory merged for FIFO buffer: This register defines the configuration of FIFO buffer architecture. If the bit is set STA and DFT shall support clock multiplexing and balancing. - SingleMemBuffer. - TwoMemBuffer." "TwoMemBuffer,SingleMemBuffer"
textline "                              "
bitfld.long 0x00 0. " MADMA_EN     ,Master DMA enabled generic parameter: This register defines the configuration of the controller to know if it supports the master DMA management called ADMA. - SupportADMA. - NoMasterDMA." "NoMasterDMA,SupportADMA"
group.long 0x10++0x3
line.long 0x00 "MMCHS_HL_SYSCONFIG,Clock Management Configuration Register"
bitfld.long 0x00 4.--5. " STANDBYMODE  ,Configuration of the local initiator state management mode. By definition, initiator may generate read/write transaction as long as it is out of STANDBY state. - ForceStandby. - NoStandby. - SmartStandbyWakeUp. - SmartStandby." "ForceStandby,NoStandby,SmartStandby,SmartStandbyWakeUp"
bitfld.long 0x00 2.--3. "  IDLEMODE         ,Configuration of the local target state management mode. By definition, target can handle read/write transaction as long as it is out of IDLE state. - ForceIdle. - NoIdle. - SmartIdleWakeUp. - SmartIdle." "ForceIdle,NoIdle,SmartIdle,SmartIdleWakeUp"
bitfld.long 0x00 1. "  FREEEMU         ,Sensitivity to emulation (debug) suspend input signal. Functionality NOT implemented in MMCHS. - EmuEn. - EmuDis." "EmuEn,EmuDis"
textline "                              "
bitfld.long 0x00 0. " SOFTRESET    ,Software reset. (Optional) - NoAction. - SoftReset. - ResetOnGoing. - ResetDone." "NoAction,SoftReset"
group.long 0x110++0x3
line.long 0x00 "MMCHS_SYSCONFIG,System Configuration Register This register allows controlling various parameters of the Interconnect interface."
bitfld.long 0x00 12.--13. " STANDBYMODE  ,Master interface power Management, standby/wait control. The bit field is only useful when generic parameter MMCHS_HL_HWINFO[0] MADMA_EN (Master ADMA enable) is set as active, otherwise it is a read only register read a '0'. - Force. - N..." "Force,NoIdle,Smart,3"
bitfld.long 0x00 8.--9. "              CLOCKACTIVITY    ,Clocks activity during wake up mode period. Bit8: Interface clock Bit9: Functional clock - None. - OCP. - Both. - Func." "None,OCP,Func,Both"
bitfld.long 0x00 3.--4. "             SIDLEMODE       ,Power management - Force. - NoIdle. - SmartWake. - Smart." "Force,NoIdle,Smart,SmartWake"
textline "                              "
bitfld.long 0x00 2. " ENAWAKEUP    ,Wakeup feature control - Disabled. - Enable." "Disabled,Enable"
bitfld.long 0x00 1. "            SOFTRESET        ,Software reset. The bit is automatically reset by the hardware. During reset, it always returns 0. - St_un_w. - St_rst_w. - OnReset_r. - NoReset_r." "St_un_w,St_rst_w"
bitfld.long 0x00 0. "         AUTOIDLE        ,Internal Clock gating strategy - Off. - On." "Off,On"
rgroup.long 0x114++0x3
line.long 0x00 "MMCHS_SYSSTATUS,System Status Register This register provides status information about the module excluding the interrupt status information"
bitfld.long 0x00 0. " RESETDONE    ,Internal Reset Monitoring Note: the debounce clock , the system clock (Interface) and the functional clock shall be provided to the MMC/SD/SDIO host controller to allow the internal reset monitoring. - Done. - OnGoing." "OnGoing,Done"
group.long 0x124++0x3
line.long 0x00 "MMCHS_CSRE,Card Status Response Error This register enables the host controller to detect card status errors of response type R1, R1b for all cards and of R5, R5b and R6 response for cards types SD or SDIO. When a bit [i] is set to 1, if the correspond..."
hexmask.long 0x00 0.--31. 1. " CSRE         ,Card status response error"
group.long 0x128++0x3
line.long 0x00 "MMCHS_SYSTEST,System Test Register This register is used to control the signals that connect to I/O pins when the module is configured in system test (SYSTEST) mode for boundary connectivity verification. Note: In SYSTEST mode, a write into register wi..."
bitfld.long 0x00 16. " OBI          ,Out-Of-Band Interrupt (OBI) data value - HighLevel. - LowLevel." "LowLevel,HighLevel"
bitfld.long 0x00 15. "           SDCD             ,Card detect input signal (mmci_sdcd) data value - DrivenHigh. - DrivenLow." "DrivenLow,DrivenHigh"
bitfld.long 0x00 14. "       SDWP            ,Write protect input signal (mmci_sdwp) data value - DrivenHigh. - DrivenLow." "DrivenLow,DrivenHigh"
textline "                              "
bitfld.long 0x00 13. " WAKD         ,Wake request output signal data value - DrivenLow_w. - DrivenHIgh_w. - One_r. - Zero_r." "DrivenLow_w,DrivenHIgh_w"
bitfld.long 0x00 12. "        SSB              ,Set status bit This bit must be cleared prior attempting to clear a status bit of the interrupt status register (MMCHS_STAT). - Clear_w. - SetThemAll_w. - One_r. - Zero_r." "Clear_w,SetThemAll_w"
bitfld.long 0x00 11. "     D7D             ,DAT7 input/output signal data value - DriveLow_w. - DriveHigh_w. - One_r. - Zero_r." "DriveLow_w,DriveHigh_w"
textline "                              "
bitfld.long 0x00 10. " D6D          ,DAT6 input/output signal data value - DriveLow_w. - DriveHigh_w. - One_r. - Zero_r." "DriveLow_w,DriveHigh_w"
bitfld.long 0x00 9. "         D5D              ,DAT5 input/output signal data value - DriveLow_w. - DriveHigh_w. - One_r. - Zero_r." "DriveLow_w,DriveHigh_w"
bitfld.long 0x00 8. "      D4D             ,DAT4 input/output signal data value - DriveLow_w. - DriveHigh_w. - One_r. - Zero_r." "DriveLow_w,DriveHigh_w"
textline "                              "
bitfld.long 0x00 7. " D3D          ,DAT3 input/output signal data value - DriveLow_w. - DriveHigh_w. - One_r. - Zero_r." "DriveLow_w,DriveHigh_w"
bitfld.long 0x00 6. "         D2D              ,DAT2 input/output signal data value - DriveLow_w. - DriveHigh_w. - One_r. - Zero_r." "DriveLow_w,DriveHigh_w"
bitfld.long 0x00 5. "      D1D             ,DAT1 input/output signal data value - DriveLow_w. - DriveHigh_w. - One_r. - Zero_r." "DriveLow_w,DriveHigh_w"
textline "                              "
bitfld.long 0x00 4. " D0D          ,DAT0 input/output signal data value - Zero_w. - DriveHigh_w. - One_r. - Zero_r." "Zero_w,DriveHigh_w"
bitfld.long 0x00 3. "         DDIR             ,Control of the DAT[7:0] pins direction. - Out_w. - In_w. - One_r. - Zero_r." "Out_w,In_w"
bitfld.long 0x00 2. "            CDAT            ,CMD input/output signal data value - DriveLow_w. - DriveHigh_w. - One_r. - Zero_r." "DriveLow_w,DriveHigh_w"
textline "                              "
bitfld.long 0x00 1. " CDIR         ,Control of the CMD pin direction. - Out_w. - In_w. - One_r. - Zero_r." "Out_w,In_w"
bitfld.long 0x00 0. "               MCKD             ,MMC clock output signal data value - DrivenLow_w. - DrivenHigh_w. - One_r. - Zero_r." "DrivenLow_w,DrivenHigh_w"
group.long 0x12C++0x3
line.long 0x00 "MMCHS_CON,Configuration Register This register is used: - to select the functional mode or the SYSTEST mode for any card. - to send an initialization sequence to any card. - to enable the detection on DAT[1] of a card interrupt for SDIO cards only. and..."
bitfld.long 0x00 21. " SDMA_LNE     ,Slave DMA Level/Edge Request: The waveform of the DMA request can be configured either edge sensitive with early de-assertion on first access to MMCHS_DATA register or late de-assertion, request remains active until last allowed data wri..." "EarlyDeAssert,LateDeAssert"
bitfld.long 0x00 20. "       DMA_MNS          ,DMA Master or Slave selection: When this bit is set and the controller is configured to use the DMA, Interconnect master interface is used to get datas from system using ADMA2 procedure (direct access to the memory).This option..." "MasterDMADis,MasterDMAEn"
bitfld.long 0x00 19. "     DDR             ,Dual Data Rate mode: When this register is set, the controller uses both clock edge to emit or receive data. Odd bytes are transmitted on falling edges and even bytes are transmitted on rise edges. It only applies on Data bytes an..." "NormalMode,DDRMode"
textline "                              "
bitfld.long 0x00 18. " BOOT_CF0     ,Boot status supported: This register is set when the CMD line need to be forced to '0' for a boot sequence. CMD line is driven to '0' after writing in MMCHS_CMD. The line is released when this bit field is de-asserted and abort data tran..." "CMDReleased,CMDForceReq"
bitfld.long 0x00 17. "         BOOT_ACK         ,Book acknowledge received: When this bit is set the controller should receive a boot status on DAT0 line after next command issued. If no status is received a data timeout will be generated. - BootNoAck. - BootAck." "BootNoAck,BootAck"
bitfld.long 0x00 16. "        CLKEXTFREE      ,External clock free running: This register is used to maintain card clock out of transfer transaction to enable slave module for example to generate a synchronous interrupt on DAT[1]. The Clock will be maintain only if MMCHS_SY..." "Autogating,FreeRunning"
textline "                              "
bitfld.long 0x00 15. " PADEN        ,Control Power for MMC Lines: This register is only useful when MMC PADs contain power saving mechanism to minimize its leakage power. It works as a GPIO that directly control the ACTIVE pin of PADs. Excepted for DAT[1], the signal is als..." "Disable,Enable"
bitfld.long 0x00 14. "             OBIE             ,Out-of-Band Interrupt Enable MMC cards only: This bit enables the detection of Out-of-Band Interrupt on MMCOBI input pin. The usage of the Out-of-Band signal (OBI) is optional and depends on the system integration. - Norm..." "NormalMode,OBintMode"
bitfld.long 0x00 13. "       OBIP            ,Out-of-Band Interrupt Polarity MMC cards only: This bit selects the active level of the out-of-band interrupt coming from MMC cards. The usage of the Out-of-Band signal (OBI) is optional and depends on the system integration. - ..." "ActiveHigh,ActiveLow"
textline "                              "
bitfld.long 0x00 12. " CEATA        ,CE-ATA control mode MMC cards compliant with CE-ATA:By default, this bit is set to 0. It is used to indicate that next commands are considered as specific CE-ATA commands that potentially use 'command completion' features. - NormalMode. ..." "NormalMode,CEATAMode"
bitfld.long 0x00 11. "          CTPL             ,Control Power for DAT[1] line MMC and SD cards: By default, this bit is set to 0 and the host controller automatically disables all the input buffers outside of a transaction to minimize the leakage current. SDIO cards: When..." "MMC_SD,SDIO"
bitfld.long 0x00 9.--10. "           DVAL            ,Debounce filter value All cards This register is used to define a debounce period to filter the card detect input signal (mmci_sdcd). The usage of the card detect input signal (mmci_sdcd) is optional and depends on the syste..." "FilterLevel0,FilterLevel1,FilterLevel2,FilterLevel3"
textline "                              "
bitfld.long 0x00 8. " WPP          ,Write protect polarity For SD and SDIO cards only This bit selects the active level of the write protect input signal (mmci_sdwp). The usage of the write protect input signal (mmci_sdwp) is optional and depends on the system integration ..." "ActiveHigh,ActiveLow"
bitfld.long 0x00 7. "          CDP              ,Card detect polarity All cards This bit selects the active level of the card detect input signal (mmci_sdcd). The usage of the card detect input signal (mmci_sdcd) is optional and depends on the system integration and the ty..." "ActiveHigh,ActiveLow"
bitfld.long 0x00 6. "       MIT             ,MMC interrupt command Only for MMC cards. This bit must be set to 1, when the next write access to the command register (MMCHS_CMD) is for writing a MMC interrupt command (CMD40) requiring the command timeout detection to be dis..." "CTO,No_CTO"
textline "                              "
bitfld.long 0x00 5. " DW8          ,8-bit mode MMC select For SD/SDIO cards, this bit must be set to 0. For MMC card, this bit must be set following a valid SWITCH command (CMD6) with the correct value and extend CSD index written in the argument. Prior to this command, th..." "1_4BitMode,8BitMode"
bitfld.long 0x00 4. "          MODE             ,Mode select All cards This bit select between Functional mode and SYSTEST mode. - FUNC. - SYSTEST." "FUNC,SYSTEST"
bitfld.long 0x00 3. "          STR             ,Stream command Only for MMC cards. This bit must be set to 1 only for the stream data transfers (read or write) of the adtc commands. Stream read is a class 1 command (CMD11: READ_DAT_UNTIL_STOP). Stream write is a class 3 co..." "Block,Stream"
textline "                              "
bitfld.long 0x00 2. " HR           ,Broadcast host response Only for MMC cards. This register is used to force the host to generate a 48-bit response for bc command type. It can be used to terminate the interrupt mode by generating a CMD40 response by the core (see section..." "NoHostResp,HostResp"
bitfld.long 0x00 1. "          INIT             ,Send initialization stream All cards. When this bit is set to 1, and the card is idle, an initialization sequence is sent to the card. An initialization sequence consists of setting the CMD line to 1 during 80 clock cycles. ..." "NoInit,InitStream"
bitfld.long 0x00 0. "       OD              ,Card open drain mode. Only for MMC cards. This bit must be set to 1 for MMC card commands 1, 2, 3 and 40, and if the MMC card bus is operating in open-drain mode during the response phase to the command sent. Typically, during c..." "NoOpenDrain,OpenDrain"
group.long 0x130++0x3
line.long 0x00 "MMCHS_PWCNT,Power Counter Register This register is used to program a mmc counter to delay command transfers after activating the PAD power, this value depends on PAD characteristics and voltage."
hexmask.long.word 0x00 0.--15. 1. " PWRCNT       ,Power counter register. This register is used to introduce a delay between the PAD ACTIVE pin assertion and the command issued. - 65535cycles. - nodelay. - 1cycles. - 65534cycles. - 2cycles."
group.long 0x200++0x3
line.long 0x00 "MMCHS_SDMASA,SDMA System Address / Argument 2 Register"
hexmask.long 0x00 0.--31. 1. " SDMA_ARG2    ,SDMA System Address / Argument 2 This register contains the physical system memory address used for DMA transfers or the second argument for the Auto CMD23. (1) SDMA System Address This register contains the system memory address for a S..."
group.long 0x204++0x3
line.long 0x00 "MMCHS_BLK,Transfer Length Configuration Register [BLEN] is the block size register. [NBLK] is the block count register. This register shall be used for any card."
hexmask.long.word 0x00 16.--31. 1. " NBLK         ,Blocks count for current transfer This register is enabled when Block count Enable (MMCHS_CMD[BCE]) is set to 1 and is valid only for multiple block transfers. Setting the block count to 0 results no data blocks being transferred. Note: ..."
hexmask.long.word 0x00 0.--11. 1. "                BLEN             ,Transfer Block Size. This register specifies the block size for block data transfers. Read operations during transfers may return an invalid value, and write operations are ignored. When a CMD12 command is issued to st..."
group.long 0x208++0x3
line.long 0x00 "MMCHS_ARG,Command Argument Register This register contains command argument specified as bit 39-8 of Command-Format These registers must be initialized prior to sending the command itself to the card (write action into the register register). Only exce..."
hexmask.long 0x00 0.--31. 1. " ARG          ,Command argument bits [31:0]"
group.long 0x20C++0x3
line.long 0x00 "MMCHS_CMD,Command and Transfer Mode Register [31:16] = the command register [15:0] = the transfer mode. This register configures the data and command transfers. A write into the most significant byte send the command. A write into [15:0] registers duri..."
bitfld.long 0x00 24.--29. " INDX         ,Command index - Binary encoded value from 0 to 63 specifying the command number send to card . - . - CMD13. - CMD33. - CMD59. - CMD15. - CMD30. - CMD8. - CMD5. - CMD2. - CMD27. - CMD44. - CMD36. - . - CMD62. - CMD4. - CMD39. - CMD32. - C..." "CMD0,CMD1_or_ACMD1,CMD2_or_ACMD2,CMD3_or_ACMD3,CMD4,CMD5,CMD6,CMD7,CMD8,CMD9,CMD10,CMD11,CMD12_or_ACMD12,CMD13,CMD14_or_ACMD14,CMD15_or_ACMD15,CMD16,CMD17_or_ACMD17,CMD12,CMD19,CMD14,CMD15,CMD22,CMD17,CMD24_or_ACMD24,CMD25_or_ACMD25,CMD26_or_ACMD26,CMD27,CMD28_or_ACMD28,CMD29,CMD30,CMD31_or_ACMD31,CMD20,CMD33_or_ACMD33,CMD34_or_ACMD34,CMD35,CMD24,CMD25,CMD26,CMD39_or_ACMD39,CMD28,CMD41,CMD42,CMD43,CMD44,CMD45,CMD2,CMD47,CMD48,CMD31,CMD32,CMD33,CMD34,CMD53,CMD36,CMD55,CMD38,CMD39,CMD58,CMD59,CMD60,CMD61,CMD62,CMD63"
bitfld.long 0x00 22.--23. "     CMD_TYPE         ,Command typeThis register specifies three types of special command: Suspend, Resume and Abort.. - . - These bits shall be set to 00b for all other commands. . - . - Normal. - Suspend. - Abort. - Resume." "Normal,Suspend,Resume,Abort"
bitfld.long 0x00 21. "          DP              ,Data present select - This register indicates that data is present and DAT line shall be used. . - . It must be set to 0 in the following conditions:. - . - - command using only CMD line . - . - - command with no data transfe..." "NoData,Data"
textline "                              "
bitfld.long 0x00 20. " CICE         ,Command Index check enable - This bit must be set to 1 to enable index check on command response to compare the index field in the response against the index of the command. . - . - If the index is not the same in the response as in the ..." "Nocheck,Check"
bitfld.long 0x00 19. "             CCCE             ,Command CRC check enable - This bit must be set to 1 to enable CRC7 check on command response to protect the response against transmission errors on the bus. . - . - If an error is detected, it is reported as a command CR..." "NoCheck,Check"
bitfld.long 0x00 16.--17. "          RSP_TYPE        ,Response type - This bits defines the response type of the command . - . - Norsp. - Lght36. - Lght48. - ." "Norsp,Lght36,Lght48,Lght48"
textline "                              "
bitfld.long 0x00 5. " MSBS         ,Multi/Single block select - This bit must be set to 1 for data transfer in case of multi block command. . - . - For any others command this bit shall be set to 0. . - . - sgleblk. - If this bit is 0, it is not necessary to set the regist..." "sgleblk,multiblk"
bitfld.long 0x00 4. "            DDIR             ,Data transfer Direction Select - This bit defines either data transfer will be a read or a write. . - . - Write. - Read." "Write,Read"
bitfld.long 0x00 2.--3. "            ACEN            ,Auto CMD Enable - SD card only. - This field determines use of auto command functions. . - . - There are two methods to stop Multiple-block read and write operation . - . - ? Auto CMD23 Supported (Host Controller Version is..." "Disable,EnableCMD12,EnableCMD23,Reserved"
textline "                              "
bitfld.long 0x00 1. " BCE          ,Block Count Enable - Multiple block transfers only. . - . - This bit is used to enable the block count register ([NBLK]). . - . - When Block Count is disabled ([BCE] is set to 0) in Multiple block transfers ([MSBS] is set to 1), the modu..." "Disable,Enable"
bitfld.long 0x00 0. "             DE               ,DMA Enable - This bit is used to enable DMA mode for host data access. . - . - Disable. - Enable." "Disable,Enable"
rgroup.long 0x210++0x3
line.long 0x00 "MMCHS_RSP10,Command Response[31:0] Register (bits [31:0] of the internal RSP register) This 32-bit register holds bits positions [31:0] of command response type R1/R1b/R2/R3/R4/R5/R5b/R6/R7"
hexmask.long.word 0x00 16.--31. 1. " RSP1         ,Command Response [31:16]"
hexmask.long.word 0x00 0.--15. 1. "                RSP0             ,Command Response [15:0]"
rgroup.long 0x214++0x3
line.long 0x00 "MMCHS_RSP32,Command Response[63:32] Register (bits [63:32] of the internal RSP register) This 32-bit register holds bits positions [63:32] of command response type R2"
hexmask.long.word 0x00 16.--31. 1. " RSP3         ,Command Response [63:48]"
hexmask.long.word 0x00 0.--15. 1. "                RSP2             ,Command Response [47:32]"
rgroup.long 0x218++0x3
line.long 0x00 "MMCHS_RSP54,Command Response[95:64] Register (bits [95:64] of the internal RSP register) This 32-bit register holds bits positions [95:64] of command response type R2"
hexmask.long.word 0x00 16.--31. 1. " RSP5         ,Command Response [95:80]"
hexmask.long.word 0x00 0.--15. 1. "                RSP4             ,Command Response [79:64]"
rgroup.long 0x21C++0x3
line.long 0x00 "MMCHS_RSP76,Command Response[127:96] Register (bits [127:96] of the internal RSP register) This 32-bit register holds bits positions [127:96] of command response type R1(Auto CMD23)/R1b(Auto CMD12)/R2"
hexmask.long.word 0x00 16.--31. 1. " RSP7         ,Command Response [127:112]"
hexmask.long.word 0x00 0.--15. 1. "                RSP6             ,Command Response [111:96]"
group.long 0x220++0x3
line.long 0x00 "MMCHS_DATA,Data Register This register is the 32-bit entry point of the buffer for read or write data transfers. The buffer size is 32bits x256(1024 bytes). Bytes within a word are stored and read in little endian format. This buffer can be used as two..."
hexmask.long 0x00 0.--31. 1. " DATA         ,Data Register [31:0] In functional mode (MMCHS_CON[MODE] set to the default value 0) , A read access to this register is allowed only when the buffer read enable status is set to 1 (MMCHS_PSTATE[BRE]), otherwise a bad access (MMCHS_STAT[..."
rgroup.long 0x224++0x3
line.long 0x00 "MMCHS_PSTATE,Present State Register The Host can get status of the Host Controller from this 32-bit read only register."
bitfld.long 0x00 24. " CLEV         ,CMD line signal level This status is used to check the CMD line level to recover from errors, and for debugging. The value of this register after reset depends on the CMD line level at that time. - One. - Zero." "Zero,One"
bitfld.long 0x00 20.--23. "                DLEV             ,DAT[3:0] line signal level DAT[3] => bit 23 DAT[2] => bit 22 DAT[1] => bit 21 DAT[0] => bit 20 This status is used to check DAT line level to recover from errors, and for debugging. This is ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 19. "               WP              ,Write protect switch pin level For SDIO cards only. This bit reflects the write protect input pin (mmci_sdwp) level. The value of this register after reset depends on the protect input pin (mmci_sdwp) level at that time...." "zero,one"
textline "                              "
bitfld.long 0x00 18. " CDPL         ,Card detect pin level This bit reflects the inverse value of the card detect input pin (mmci_sdcd), debouncing is not performed on this bit and bit is valid only when Card State Stable (MMCHS_PSTAE[CSS]) is set to 1. Use of this bit is l..." "zero,one"
bitfld.long 0x00 17. "                CSS              ,Card State Stable This bit is used for testing. It is set to 1 only when Card Detect Pin Level is stable (MMCHS_PSTATE[CDPL]). Debouncing is performed on the card detect input pin (mmci_sdcd) to detect card stability. ..." "Debouncing,Stable"
bitfld.long 0x00 16. "       CINS            ,Card inserted This bit is the debounced value of the card detect input pin (mmci_sdcd). An inactive to active transition of the card detect input pin (mmci_sdcd) will generate a card insertion interrupt (MMCHS_STAT[CINS]). A act..." "zero,one"
textline "                              "
bitfld.long 0x00 11. " BRE          ,Buffer read enable This bit is used for non-DMA read transfers. It indicates that a complete block specified by MMCHS_BLK[BLEN] has been written in the buffer and is ready to be read. It is set to 0 when the entire block is read from the..." "RdDisable,RdEnable"
bitfld.long 0x00 10. "           BWE              ,Buffer Write enable This status is used for non-DMA write transfers. It indicates if space is available for write data. - WrEnable. - WrDisable." "WrDisable,WrEnable"
bitfld.long 0x00 9. "        RTA             ,Read transfer active This status is used for detecting completion of a read transfer. It is set to 1 after the end bit of read command or by activating a continue request (MMCHS_HCTL[CR]) following a stop at block gap request. ..." "NoTransfer,Transfer"
textline "                              "
bitfld.long 0x00 8. " WTA          ,Write transfer active This status indicates a write transfer active. It is set to 1 after the end bit of write command or by activating a continue request (MMCHS_HCTL[CR]) following a stop at block gap request. This bit is set to 0 when ..." "NoTransfer,Transfer"
bitfld.long 0x00 3. "          RTR              ,Re-Tuning Request Host Controller may request Host Driver to execute re-tuning sequence by setting this bit when the data window is shifted by temperature drift and a tuned sampling point does not have a good margin to recei..." "NoTuning,Tuning"
bitfld.long 0x00 2. "         DLA             ,DAT line active This status bit indicates whether one of the DAT line is in use. In the case of read transactions (card to host): This bit is set to 1 after the end bit of read command or by activating continue request MMCHS_H..." "zero,one"
textline "                              "
bitfld.long 0x00 1. " DATI         ,Command inhibit(DAT) This status bit is generated if either DAT line is active (MMCHS_PSTATE[DLA]) or Read transfer is active (MMCHS_PSTATE[RTA]) or when a command with busy is issued. This bit prevents the local host to issue a command...." "Cmden,Cmddis"
bitfld.long 0x00 0. "              CMDI             ,Command inhibit(CMD) This status bit indicates that the CMD line is in use. This bit is set to 0 when the most significant byte is written into the command register. This bit is not set when Auto CMD12 is transmitted. Th..." "Cmden,Cmddis"
group.long 0x228++0x3
line.long 0x00 "MMCHS_HCTL,Host Control Register This register defines the host controls to set power, wakeup and transfer parameters. [31:24] = Wakeup control [23:16] = Block gap control [15:8] = Power control [7:0] = Host control"
bitfld.long 0x00 27. " OBWE         ,Wakeup event enable for 'Out-of-Band' Interrupt. This bit enables wakeup events for 'Out-of-Band' assertion. Wakeup is generated if the wakeup feature is enabled (MMCHS_SYSCONFIG[ENAWAKEUP]). The write to this register is ignored when MM..." "disable,enable"
bitfld.long 0x00 26. "             REM              ,Wakeup event enable on SD card removal This bit enables wakeup events for card removal assertion. Wakeup is generated if the wakeup feature is enabled (MMCHS_SYSCONFIG[ENAWAKEUP]). - disable. - enable." "disable,enable"
bitfld.long 0x00 25. "          INS             ,Wakeup event enable on SD card insertion This bit enables wakeup events for card insertion assertion. Wakeup is generated if the wakeup feature is enabled (MMCHS_SYSCONFIG[ENAWAKEUP]). - disable. - enable." "disable,enable"
textline "                              "
bitfld.long 0x00 24. " IWE          ,Wakeup event enable on SD card interrupt This bit enables wakeup events for card interrupt assertion. Wakeup is generated if the wakeup feature is enabled (MMCHS_SYSCONFIG[ENAWAKEUP]). - disable. - enable." "disable,enable"
bitfld.long 0x00 19. "             IBG              ,Interrupt block at gap This bit is valid only in 4-bit mode of SDIO card to enable interrupt detection in the interrupt cycle at block gap for a multiple block transfer. For MMC cards and for SD card this bit should be se..." "Itdiable,Itenable"
bitfld.long 0x00 18. "         RWC             ,Read wait control The read wait function is optional only for SDIO cards. If the card supports read wait, this bit must be enabled, then requesting a stop at block gap (MMCHS_HCTL[SBGR]) generates a read wait period after the ..." "NoRW,RW"
textline "                              "
bitfld.long 0x00 17. " CR           ,Continue request This bit is used to restart a transaction that was stopped by requesting a stop at block gap (MMCHS_HCTL[SBGR]). Set this bit to 1 restarts the transfer. The bit is automatically set to 0 by the host controller when tran..." "None,Restart"
bitfld.long 0x00 16. "             SBGR             ,Stop at block gap request This bit is used to stop executing a transaction at the next block gap. The transfer can restart with a continue request (MMCHS_HCTL[CR]) or during a suspend/resume sequence. In case of read tran..." "Transfer,Stpblk"
bitfld.long 0x00 9.--11. "         SDVS            ,SD bus voltage select All cards. The host driver should set to these bits to select the voltage level for the card according to the voltage supported by the system (MMCHS_CAPA[VS18,VS30,VS33]) before starting a transfer. - 3V0..." "0,1,2,3,4,1V8,3V0,3V3"
textline "                              "
bitfld.long 0x00 8. " SDBP         ,SD bus power Before setting this bit, the host driver shall select the SD bus voltage (MMCHS_HCTL[SDVS]). If the host controller detects the No card state, this bit is automatically set to 0. If the module is power off, a write in the co..." "Pwroff,Pwron"
bitfld.long 0x00 7. "              CDSS             ,Card Detect Signal Selection This bit selects source for the card detection.When the source for the card detection is switched, the interrupt should be disabled during the switching period by clearing the Interrupt Statu..." "SDCDSel,CDTLSel"
bitfld.long 0x00 6. "          CDTL            ,Card Detect Test Level: This bit is enabled while MMCHS_HCTL[7] CDSS is set to 1 and it indicates whether the card is inserted or not. - NoCard. - CardIns." "NoCard,CardIns"
textline "                              "
bitfld.long 0x00 3.--4. " DMAS         ,DMA Select Mode: One of supported DMA modes can be selected. The host driver shall check support of DMA modes by referring the Capabilities register MMCHS_CAPA . Use of selected DMA is determined by DMA Enable of the Transfer Mode regist..." "Reserved,Reserved1,ADMA2,Reserved2"
bitfld.long 0x00 2. "           HSPE             ,High Speed Enable: Before setting this bit, the Host Driver shall check the MMCHS_CAPA[21] HSS. If this bit is set to 0, the Host Controller outputs CMD line and DAT lines at the falling edge of the SD Clock. If this bit is..." "NormalSpeed,HighSpeed"
bitfld.long 0x00 1. "      DTW             ,Data transfer width For MMC card, this bit must be set following a valid SWITCH command (CMD6) with the correct value and extend CSD index written in the argument. Prior to this command, the MMC card configuration register (CSD a..." "1_BitMode,4_BitMode"
textline "                              "
bitfld.long 0x00 0. " LED          ,Reserved bit. LED control feature is not supported This bit is initialized to zero, and writes to it are ignored." "0,1"
group.long 0x22C++0x3
line.long 0x00 "MMCHS_SYSCTL,SD System Control Register This register defines the system controls to set software resets, clock frequency management and data timeout. [31:24] = Software resets [23:16] = Timeout control [15:0] = Clock control"
bitfld.long 0x00 26. " SRD          ,Software reset for DAT line This bit is set to 1 for reset and released to 0 when completed. For more information about SRD bit manipulation, see . DAT finite state machine in both clock domain are also reset. Here below are the register..." "Work,Reset"
bitfld.long 0x00 25. "               SRC              ,Software reset for CMD line For more information about SRC bit manipulation, see . This bit is set to 1 for reset and released to 0 when completed. CMD finite state machine in both clock domain are also reset. Here belo..." "Work,Reset"
bitfld.long 0x00 24. "            SRA             ,Software reset for all This bit is set to 1 for reset , and released to 0 when completed. This reset affects the entire host controller except for the capabilities registers (MMCHS_CAPA and MMCHS_CUR_CAPA). - Work. - Reset." "Work,Reset"
textline "                              "
bitfld.long 0x00 16.--19. " DTO          ,Data timeout counter value and busy timeout. This value determines the interval by which DAT lines timeouts are detected. The host driver needs to set this bitfield based on - the maximum read access time (NAC) (Refer to the SD Specifica..." "1stDTO,2ndDTO,2,3,4,5,6,7,8,9,10,11,12,13,15thDTO,Rsvd"
hexmask.long.word 0x00 6.--15. 1. "             CLKD             ,Clock frequency select These bits define the ratio between MMCi_FCLK and the output clock frequency on the CLK pin of either the memory card (MMC, SD or SDIO). - Div1023. - Bypass0. - Bypass1. - Div3. - Div2."
bitfld.long 0x00 5. "             CGS             ,Clock Generator Select - For SD cards Host Controller Version 3.00 supports this bit. This bit is used to select the clock generator mode in MMCHS_SYSCTL[15:6] CLKD. If the Programmable Clock Mode is supported (non-zero va..." "0,1"
textline "                              "
bitfld.long 0x00 2. " CEN          ,Clock enable This bit controls if the clock is provided to the card or not. - Disable. - Enable." "Disable,Enable"
bitfld.long 0x00 1. "             ICS              ,Internal clock stable (status) This bit indicates either the internal clock is stable or not. - Ready. - NotReady." "NotReady,Ready"
bitfld.long 0x00 0. "         ICE             ,Internal clock enable This register controls the internal clock activity. In very low power state, the internal clock is stopped. Note: The activity of the debounce clock (used for wakeup events) and the interface clock (used ..." "Stop,Oscillate"
group.long 0x230++0x3
line.long 0x00 "MMCHS_STAT,Interrupt Status Register The interrupt status regroups all the status of the module internal events that can generate an interrupt. [31:16] = Error Interrupt Status [15:0] = Normal Interrupt Status"
bitfld.long 0x00 29. " BADA         ,Bad access to data space This bit is set automatically to indicate a bad access to buffer when not allowed: -This bit is set during a read access to the data register (MMCHS_DATA) while buffer reads are not allowed (MMCHS_PSTATE[BRE] =0)..." "St_un_w,St_rst_w"
bitfld.long 0x00 28. "            CERR             ,Card error This bit is set automatically when there is at least one error in a response of type R1, R1b, R6, R5 or R5b. Only bits referenced as type E(error) in status field in the response can set a card status error. An ..." "St_un_w,St_rst_w"
bitfld.long 0x00 26. "         TE              ,Tuning Error This bit is set when an unrecoverable error is detected in a tuning circuit except during tuning procedure (Occurrence of an error during tuning procedure is indicated by Sampling Select). By detecting Tuning Erro..." "NoError,Error"
textline "                              "
bitfld.long 0x00 25. " ADMAE        ,ADMA Error: This bit is set when the Host Controller detects errors during ADMA based data transfer. The state of the ADMA at an error occurrence is saved in the ADMA Error Status Register.In addition, the Host Controller generates this ..." "St_un_w,St_rst_w"
bitfld.long 0x00 24. "            ACE              ,Auto CMD error Auto CMD12 and Auto CMD23 use this error status. This bit is set when detecting that one of the bits D00-D04 in Auto CMD Error Status register (MMCHS_AC12) has changed from 0 to 1. In case of Auto CMD12, thi..." "St_un_w,St_rst_w"
bitfld.long 0x00 22. "         DEB             ,Data End Bit error This bit is set automatically when detecting a 0 at the end bit position of read data on DAT line or at the end position of the CRC status in write mode. - St_un_w. - St_rst_w. - IRQ_tru_r. - IRQ_fal_r." "St_un_w,St_rst_w"
textline "                              "
bitfld.long 0x00 21. " DCRC         ,Data CRC Error This bit is set automatically when there is a CRC16 error in the data phase response following a block read command or if there is a 3-bit CRC status different of a position '010' token during a block write command. - St_u..." "St_un_w,St_rst_w"
bitfld.long 0x00 20. "            DTO              ,Data timeout error This bit is set automatically according to the following conditions: - busy timeout for R1b, R5b response type - busy timeout after write CRC status - write CRC status timeout - read data timeout - St_un..." "St_un_w,St_rst_w"
bitfld.long 0x00 19. "         CIE             ,Command index error This bit is set automatically when response index differs from corresponding command index previously emitted. It depends on the enable in MMCHS_CMD[CICE] register. - St_un_w. - St_rst_w. - IRQ_tru_r. - IRQ..." "St_un_w,St_rst_w"
textline "                              "
bitfld.long 0x00 18. " CEB          ,Command end bit error This bit is set automatically when detecting a 0 at the end bit position of a command response. - St_un_w. - St_rst_w. - IRQ_tru_r. - IRQ_fal_r." "St_un_w,St_rst_w"
bitfld.long 0x00 17. "            CCRC             ,Command CRC Error This bit is set automatically when there is a CRC7 error in the command response depending on the enable in MMCHS_CMD[CCCE] register. - St_un_w. - St_rst_w. - IRQ_tru_r. - IRQ_fal_r." "St_un_w,St_rst_w"
bitfld.long 0x00 16. "         CTO             ,Command Timeout Error This bit is set automatically when no response is received within 64 clock cycles from the end bit of the command. For commands that reply within 5 clock cycles - the timeout is still detected at 64 clock..." "St_un_w,St_rst_w"
textline "                              "
bitfld.long 0x00 15. " ERRI         ,Error Interrupt If any of the bits in the Error Interrupt Status register (MMCHS_STAT[31:16]) are set, then this bit is set to 1. Therefore the host driver can efficiently test for an error by checking this bit first. Writes to this bit ..." "IRQ_fal_r,IRQ_tru_r"
bitfld.long 0x00 10. "           BSR              ,Boot status received interrupt This bit is set automatically when MMCHS_CON[BOOT] is set 0x1 or 0x2 and a boot status is received on DAT[0] line. This interrupt is only useful for MMC card. - St_un_w. - St_rst_w. - IRQ_tru_..." "St_un_w,St_rst_w"
bitfld.long 0x00 9. "         OBI             ,Out-Of-Band interrupt This bit is set automatically when MMCHS_CON[OBIE] is set and an Out-of-Band interrupt occurs on OBI pin. The interrupt detection depends on polarity controlled by MMCHS_CON[OBIP]. This interrupt is only ..." "St_un_w,St_rst_w"
textline "                              "
bitfld.long 0x00 8. " CIRQ         ,Card interrupt This bit is only used for SD and SDIO and CE-ATA cards. In 1-bit mode, interrupt source is asynchronous (can be a source of asynchronous wakeup). In 4-bit mode, interrupt source is sampled during the interrupt cycle. In CE..." "IRQ_fal_r,IRQ_tru_r"
bitfld.long 0x00 7. "           CREM             ,Card removal This bit is set automatically when MMCHS_PSTATE[CINS] changes from 1 to 0. A clear of this bit doesn't affect Card inserted present state (MMCHS_PSTATE[CINS]). - St_un_w. - St_rst_w. - IRQ_tru_r. - IRQ_fal_r." "St_un_w,St_rst_w"
bitfld.long 0x00 6. "         CINS            ,Card insertion This bit is set automatically when MMCHS_PSTATE[CINS] changes from 0 to 1. A clear of this bit doesn't affect Card inserted present state (MMCHS_PSTATE[CINS]). - St_un_w. - St_rst_w. - IRQ_tru_r. - IRQ_fal_r." "St_un_w,St_rst_w"
textline "                              "
bitfld.long 0x00 5. " BRR          ,Buffer read ready This bit is set automatically during a read operation to the card (see class 2 - block oriented read commands) when one block specified by MMCHS_BLK[BLEN] is completely written in the buffer. It indicates that the memor..." "St_un_w,St_rst_w"
bitfld.long 0x00 4. "            BWR              ,Buffer write ready This bit is set automatically during a write operation to the card (see class 4 - block oriented write command) when the host can write a complete block as specified by MMCHS_BLK[BLEN]. It indicates that..." "St_un_w,St_rst_w"
bitfld.long 0x00 3. "         DMA             ,DMA interrupt : This status is set when an interrupt is required in the ADMA instruction and after the data transfer completion. - St_un_w. - St_rst_w. - IRQ_tru_r. - IRQ_fal_r." "St_un_w,St_rst_w"
textline "                              "
bitfld.long 0x00 2. " BGE          ,Block gap event When a stop at block gap is requested (MMCHS_HCTL[SBGR]), this bit is automatically set when transaction is stopped at the block gap during a read or write operation. This event does not occur when the stop at block gap i..." "St_un_w,St_rst_w"
bitfld.long 0x00 1. "            TC               ,Transfer completed This bit is always set when a read/write transfer is completed or between two blocks when the transfer is stopped due to a stop at block gap request (MMCHS_HCTL[SBGR]). In Read mode: This bit is automati..." "St_un_w,St_rst_w"
bitfld.long 0x00 0. "         CC              ,Command complete This bit is set when a 1-to-0 transition occurs in the register command inhibit (MMCHS_PSTATE[CMDI]) If the command is a type for which no response is expected, then the command complete interrupt is generated..." "St_un_w,St_rst_w"
group.long 0x234++0x3
line.long 0x00 "MMCHS_IE,Interrupt Status Enable Register This register allows to enable/disable the module to set status bits, on an event-by-event basis. [31:16] = Error Interrupt Status Enable [15:0] = Normal Interrupt Status Enable"
bitfld.long 0x00 29. " BADA_ENABLE  ,Bad access to data space Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 28. "             CERR_ENABLE      ,Card Error Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 26. "          TE_ENABLE       ,Tuning Error Status Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 25. " ADMAE_ENABLE ,ADMA Error Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 24. "             ACE_ENABLE       ,Auto CMD Error Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 22. "          DEB_ENABLE      ,Data End Bit Error Status Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 21. " DCRC_ENABLE  ,Data CRC Error Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 20. "             DTO_ENABLE       ,Data Timeout Error Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 19. "          CIE_ENABLE      ,Command Index Error Status Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 18. " CEB_ENABLE   ,Command End Bit Error Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 17. "             CCRC_ENABLE      ,Command CRC Error Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 16. "          CTO_ENABLE      ,Command Timeout Error Status Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 15. " NULL         ,Fixed to 0 The host driver shall control error interrupts using the Error Interrupt Signal Enable register. Writes to this bit are ignored" "0,1"
bitfld.long 0x00 10. "                   BSR_ENABLE       ,Boot Status Enable A write to this register when MMCHS_CON[BOOT_ACK] is set to 0x0 is ignored. - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 9. "          OBI_ENABLE      ,Out-of-Band Status Enable A write to this register when MMCHS_CON[OBIE] is set to '0' is ignored. - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 8. " CIRQ_ENABLE  ,Card Status Enable A clear of this bit also clears the corresponding status bit. During 1-bit mode, if the interrupt routine doesn't remove the source of a card interrupt in the SDIO card, the status bit is reasserted when this bit is se..." "Masked,Enabled"
bitfld.long 0x00 7. "             CREM_ENABLE      ,Card Removal Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 6. "          CINS_ENABLE     ,Card Insertion Status Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 5. " BRR_ENABLE   ,Buffer Read Ready Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 4. "             BWR_ENABLE       ,Buffer Write Ready Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 3. "          DMA_ENABLE      ,DMA Status Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 2. " BGE_ENABLE   ,Block Gap Event Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 1. "             TC_ENABLE        ,Transfer Complete Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 0. "          CC_ENABLE       ,Command Complete Status Enable - Masked. - Enabled." "Masked,Enabled"
group.long 0x238++0x3
line.long 0x00 "MMCHS_ISE,Interrupt Signal Enable Register This register allows to enable/disable the module internal sources of status, on an event-by-event basis. [31:16] = Error Interrupt Signal Enable [15:0] = Normal Interrupt Signal Enable"
bitfld.long 0x00 29. " BADA_SIGEN   ,Bad access to data space Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 28. "             CERR_SIGEN       ,Card Error Interrupt Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 26. "          TE_SIGEN        ,Tuning Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 25. " ADMAE_SIGEN  ,ADMA Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 24. "             ACE_SIGEN        ,Auto CMD Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 22. "          DEB_SIGEN       ,Data End Bit Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 21. " DCRC_SIGEN   ,Data CRC Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 20. "             DTO_SIGEN        ,Data Timeout Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 19. "          CIE_SIGEN       ,Command Index Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 18. " CEB_SIGEN    ,Command End Bit Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 17. "             CCRC_SIGEN       ,Command CRC Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 16. "          CTO_SIGEN       ,Command timeout Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 15. " NULL         ,Fixed to 0 The host driver shall control error interrupts using the Error Interrupt Signal Enable register. Writes to this bit are ignored" "0,1"
bitfld.long 0x00 10. "                   BSR_SIGEN        ,Boot Status Signal Enable A write to this register when MMCHS_CON[BOOT_ACK] is set to 0x0 is ignored. - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 9. "          OBI_SIGEN       ,Out-Of-Band Interrupt Signal Enable A write to this register when MMCHS_CON[OBIE] is set to '0' is ignored. - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 8. " CIRQ_SIGEN   ,Card Interrupt Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 7. "             CREM_SIGEN       ,Card Removal Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 6. "          CINS_SIGEN      ,Card Insertion Signal Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 5. " BRR_SIGEN    ,Buffer Read Ready Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 4. "             BWR_SIGEN        ,Buffer Write Ready Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 3. "          DMA_SIGEN       ,DMA Interrupt Signal Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 2. " BGE_SIGEN    ,Black Gap Event Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 1. "             TC_SIGEN         ,Transfer Completed Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 0. "          CC_SIGEN        ,Command Complete Status Enable - Masked. - Enabled." "Masked,Enabled"
group.long 0x23C++0x3
line.long 0x00 "MMCHS_AC12,Host Control 2 Register and Auto CMD Error Status Register This register is used to indicate CMD12 response error of Auto CMD12 and CMD23 response error of Auto CMD23. The Host driver can determine what kind of Auto CMD12 / CMD23 errors occu..."
bitfld.long 0x00 31. " PV_ENABLE    ,Preset Value Enable Host Controller Version 3.00 supports this bit. As the operating SDCLK frequency and I/O driver strength depend on the Host System implementation, it is difficult to determine these parameters in the Standard Host Dri..." "Disabled,Enabled"
bitfld.long 0x00 30. "            AI_ENABLE        ,Asynchronous Interrupt Enable This bit can be set to 1 if a card supports asynchronous interrupts and MMCHS_CAPA[29] AIS is set to 1. Asynchronous interrupt is effective when DAT[1] interrupt is used in 4-bit SD mode (and ..." "Disabled,Enabled"
bitfld.long 0x00 23. "         SCLK_SEL        ,Sampling Clock Select Host Controller uses this bit to select sampling clock to receive CMD and DAT. This bit is set by tuning procedure and valid after the completion of tuning (when MMCHS_AC12[22] ET is cleared). Setting 1 m..." "Fixed,Tuned"
textline "                              "
bitfld.long 0x00 22. " ET           ,Execute Tuning This bit is set to 1 to start tuning procedure and automatically cleared when tuning procedure is completed. The result of tuning is indicated to MMCHS_AC12[23] SCLK_SEL. Tuning procedure is aborted by writing 0. This is R..." "Completed,Execute"
bitfld.long 0x00 20.--21. "           DS_SEL           ,Driver Strength Select Host Controller output driver in 1.8V signaling is selected by this bit. In 3.3V signaling, this field is not effective. This field can be set depending on Driver Type A, C and D support bits (DTA, DT..." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 19. "              V1V8_SIGEN      ,1.8V Signaling Enable This bit controls voltage regulator for I/O cell. 3.3V is supplied to the card regardless of signaling voltage. Setting this bit from 0 to 1 starts changing signal voltage from 3.3V to 1.8V. 1.8V reg..." "3V3,1V8"
textline "                              "
bitfld.long 0x00 16.--18. " UHSMS        ,UHS Mode Select This field is used to select one of UHS-I modes and effective when 1.8V Signaling Enable is set to 1. If MMCHS_AC12[31] PV_ENABLE is set to 1, Host Controller sets MMCHS_SYSCTL[15:6] CLKD, MMCHS_SYSCTL[5] CGS and MMCHS_AC..." "SDR12,SDR25,SDR50,SDR104,DDR50,Reserved1,Reserved2,Reserved3"
bitfld.long 0x00 7. "           CNI              ,Command Not Issued By Auto CMD12 Error Setting this bit to 1 means CMD_wo_DAT is not executed due to an Auto CMD12 Error (D04-D01) in this register. This bit is set to 0 when Auto CMD Error is generated by Auto CMD23. - Cmd..." "NoErr,CmdNI"
bitfld.long 0x00 4. "            ACIE            ,Auto CMD Index Error - For Auto CMD12 and Auto CMD23 This bit is set if the Command Index error occurs in response to a command. - Err. - NoErr." "NoErr,Err"
textline "                              "
bitfld.long 0x00 3. " ACEB         ,Auto CMD End Bit Error - For Auto CMD12 and Auto CMD23 This bit is set when detecting that the end bit of command response is 0. - Err. - NoErr." "NoErr,Err"
bitfld.long 0x00 2. "               ACCE             ,Auto CMD CRC Error - For Auto CMD12 and Auto CMD23 This bit is set when detecting a CRC error in the command response. - Err. - NoErr." "NoErr,Err"
bitfld.long 0x00 1. "            ACTO            ,Auto CMD Timeout Error - For Auto CMD12 and Auto CMD23 This bit is set if no response is returned within 64 SDCLK cycles from the end bit of command. If this bit is set to1, the other error status bits (D04-D02) are meaning..." "NoErr,TimeOut"
textline "                              "
bitfld.long 0x00 0. " ACNE         ,Auto CMD12 Not Executed If memory multiple block data transfer is not started due to command error, this bit is not set because it is not necessary to issue Auto CMD12. Setting this bit to 1 means the Host Controller cannot issue Auto CM..." "Exe,NotExe"
group.long 0x240++0x3
line.long 0x00 "MMCHS_CAPA,Capabilities Register This register lists the capabilities of the MMC/SD/SDIO host controller."
bitfld.long 0x00 29. " AIS          ,Asynchronous Interrupt Support Refer to SDIO Specification Version 3.00 about asynchronous interrupt. - AIS_Sup. - AIS_NotSup." "AIS_NotSup,AIS_Sup"
bitfld.long 0x00 28. "          BIT64            ,64 Bit System Bus Support Setting 1 to this bit indicates that the Host Controller supports 64-bit address descriptor mode and is connected to 64-bit address system bus. - SysAddr64b. - SysAddr32b." "SysAddr32b,SysAddr64b"
bitfld.long 0x00 26. "       VS18            ,Voltage support 1.8V Initialization of this register (via a write access to this register) depends on the system capabilities. The host driver shall not modify this register after the initilaization. This register is only reinit..." "St_1V8NotSup_w,St_1V8Sup_w"
textline "                              "
bitfld.long 0x00 25. " VS30         ,Voltage support 3.0V Initialization of this register (via a write access to this register) depends on the system capabilities. The host driver shall not modify this register after the initilaization. This register is only reinitialized b..." "St_3V0NotSup_w,St_3V0Sup_w"
bitfld.long 0x00 24. "      VS33             ,Voltage support 3.3V Initialization of this register (via a write access to this register) depends on the system capabilities. The host driver shall not modify this register after the initilaization. This register is only reinit..." "St_3V3NotSup_w,St_3V3Sup_w"
bitfld.long 0x00 23. "   SRS             ,Suspend/Resume support (SDIO cards only) This bit indicates whether the host controller supports Suspend/Resume functionality. - Supported. - NotSupported." "NotSupported,Supported"
textline "                              "
bitfld.long 0x00 22. " DS           ,DMA support This bit indicates that the Host Controller is able to use DMA to transfer data between system memory and the Host Controller directly. - Supported. - NotSupported." "NotSupported,Supported"
bitfld.long 0x00 21. "        HSS              ,High speed support This bit indicates that the host controller supports high speed operations and can supply an up-to maximum card frequency. - Supported. - NotSupported." "NotSupported,Supported"
bitfld.long 0x00 19. "     AD2S            ,ADMA2 Support This bit indicates whether the Host Controller is capable of using ADMA2. It depends on setting of generic parameter MADMA_EN - ADMA2Supported. - ADMA2NotSupported." "ADMA2NotSupported,ADMA2Supported"
textline "                              "
bitfld.long 0x00 16.--17. " MBL          ,Maximum block length This value indicates the maximum block size that the host driver can read and write to the buffer in the host controller. This value depends on definition of generic parameter with a max value of 2048 bytes. The host..." "512,1024,2048,3"
hexmask.long.byte 0x00 8.--15. 1. "                BCF              ,Base Clock Frequency For SD Clock This value indicates the base (maximum) clock frequency for the SD Clock. 8-bit Base Clock Frequency This mode is supported by the Host Controller Version 3.00. Unit values are 1MHz. T..."
bitfld.long 0x00 7. "               TCU             ,Timeout clock unit This bit shows the unit of base clock frequency used to detect Data Timeout Error (MMCHS_STAT[DTO]). - KHz. - MHz." "MHz,KHz"
textline "                              "
bitfld.long 0x00 0.--5. " TCF          ,Timeout clock frequency The timeout clock frequency is used to detect Data Timeout Error (MMCHS_STAT[DTO]). - OMeth." "OMeth,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x244++0x3
line.long 0x00 "MMCHS_CAPA2,Capabilities 2 Register This register provides the Host Driver with information specific to the Host Controller implementation. The Host Controller may implement these values as fixed or loaded from flash memory during power on initializati..."
hexmask.long.byte 0x00 16.--23. 1. " CM           ,Clock Multiplier This field indicates clock multiplier value of programmable clock generator. Refer to MMCHS_SYSCTL [15:0]. Setting 00h means that Host Controller does not support programmable clock generator. 00h : Clock Multiplier is N..."
bitfld.long 0x00 14.--15. "                  RTM              ,Re-Tuning Modes This field selects re-tuning method and limits the maximum data length." "Mode1,Mode2,Mode3,Reserved"
bitfld.long 0x00 13. "         TSDR50          ,Use Tuning for SDR50 If this bit is set to 1, this Host Controller requires tuning to operate SDR50. (Tuning is always required to operate SDR104.) - Required. - NotRequired." "NotRequired,Required"
textline "                              "
bitfld.long 0x00 8.--11. " TCRT         ,Timer Count for Re-Tuning This field indicates an initial value of the Re-Tuning Timer for Re-Tuning Mode 1 to 3. Setting to 0 disables Re-Tuning Timer. - 3. - Reserved3. - Reserved1. - 4. - 11. - OtherSource. - 2. - Disabled. - 10. - 6...." "Disabled,1,2,3,4,5,6,7,8,9,10,11,Reserved1,Reserved2,Reserved3,OtherSource"
bitfld.long 0x00 6. "         DTD              ,Driver Type D Support This bit indicates support of Driver Type D for 1.8 Signaling. - Supported. - NotSupported." "NotSupported,Supported"
bitfld.long 0x00 5. "     DTC             ,Driver Type C Support This bit indicates support of Driver Type C for 1.8 Signaling. - Supported. - NotSupported." "NotSupported,Supported"
textline "                              "
bitfld.long 0x00 4. " DTA          ,Driver Type A Support This bit indicates support of Driver Type A for 1.8 Signaling. - Supported. - NotSupported." "NotSupported,Supported"
bitfld.long 0x00 2. "        DDR50            ,DDR50 Support - Supported. - NotSupported." "NotSupported,Supported"
bitfld.long 0x00 1. "     SDR104          ,SDR104 Support SDR104 requires tuning. - Supported. - NotSupported." "NotSupported,Supported"
textline "                              "
bitfld.long 0x00 0. " SDR50        ,SDR50 Support If SDR104 is supported, this bit shall be set to 1. Bit 13 indicates whether SDR50 requires tuning or not. - Supported. - NotSupported." "NotSupported,Supported"
group.long 0x248++0x3
line.long 0x00 "MMCHS_CUR_CAPA,Maximum Current Capabilities Register This register indicates the maximum current capability for each voltage. The value is meaningful if the voltage support is set in the capabilities register (). Initialization of this register (via a ..."
hexmask.long.byte 0x00 16.--23. 1. " CUR_1V8      ,Maximum current for 1.8V - OMeth."
hexmask.long.byte 0x00 8.--15. 1. "                  CUR_3V0          ,Maximum current for 3.0V - OMeth."
hexmask.long.byte 0x00 0.--7. 1. "               CUR_3V3         ,Maximum current for 3.3V - OMeth."
wgroup.long 0x250++0x3
line.long 0x00 "MMCHS_FE,Force Event Register for Auto CMD Error Status and Error Interrupt status The Force Event Register is not a physically implemented register. Rather, it is an address at which the Auto CMD Error Status Register () can be written. Writing 1 : se..."
bitfld.long 0x00 29. " FE_BADA      ,Force Event Bad access to data space. - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 28. "           FE_CERR          ,Force Event Card error. - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 25. "        FE_ADMAE        ,Force Event ADMA Error. - NoAction. - IntForced." "NoAction,IntForced"
textline "                              "
bitfld.long 0x00 24. " FE_ACE       ,Force Event for Auto CMD Error - For Auto CMD12 and Auto CMD23 - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 22. "           FE_DEB           ,Force Event Data End Bit error. - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 21. "        FE_DCRC         ,Force Event Data CRC Error. - NoAction. - IntForced." "NoAction,IntForced"
textline "                              "
bitfld.long 0x00 20. " FE_DTO       ,Force Event Data Timeout Error. - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 19. "           FE_CIE           ,Force Event Command Index Error. - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 18. "        FE_CEB          ,Force Event Command End Bit Error. - NoAction. - IntForced." "NoAction,IntForced"
textline "                              "
bitfld.long 0x00 17. " FE_CCRC      ,Force Event Command CRC Error. - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 16. "           FE_CTO           ,Command Timeout Error This bit is set automatically when no response is received within 64 clock cycles from the end bit of the command. For commands that reply within 5 clock cycles - the timeout is still detected at 64 cl..." "St_un_w,St_rst_w"
bitfld.long 0x00 7. "         FE_CNI          ,Force Event Command not issue by Auto CMD12 error - NoAction. - IntForced." "NoAction,IntForced"
textline "                              "
bitfld.long 0x00 4. " FE_ACIE      ,Force Event for Auto CMD Index Error - For Auto CMD12 and Auto CMD23 - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 3. "           FE_ACEB          ,Force Event Auto CMD End Bit Error - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 2. "        FE_ACCE         ,Force Event Auto CMD CRC Error - NoAction. - IntForced." "NoAction,IntForced"
textline "                              "
bitfld.long 0x00 1. " FE_ACTO      ,Force Event Auto CMD Timeout Error - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 0. "           FE_ACNE          ,Force Event Auto CMD12 Not Executed - NoAction. - IntForced." "NoAction,IntForced"
group.long 0x254++0x3
line.long 0x00 "MMCHS_ADMAES,ADMA Error Status Register When ADMA Error Interrupt is occurred, the ADMA Error States field in this register holds the ADMA state and the ADMA System Address Register holds the address around the error descriptor. For recovering the erro..."
bitfld.long 0x00 2. " LME          ,ADMA Length Mismatch Error: (1) While Block Count Enable being set, the total data length specified by the Descriptor table is different from that specified by the Block Count and Block Length. (2) Total data length can not be divided by..." "NoError,Error"
bitfld.long 0x00 0.--1. "             AES              ,ADMA Error State his field indicates the state of ADMA when error is occurred during ADMA data transfer. This field never indicates '10' because ADMA never stops in this state. - Syssdr. - linkDesc. - TransData. - Reserved." "Syssdr,linkDesc,Reserved,TransData"
group.long 0x258++0x3
line.long 0x00 "MMCHS_ADMASAL,ADMA System address Low bits"
hexmask.long 0x00 0.--31. 1. " ADMA_A32B    ,ADMA System address 32 bits.This register holds byte address of executing command of the Descriptor table. 32-bit Address Descriptor uses lower 32-bit of this register. At the start of ADMA, the Host Driver shall set start address of the..."
rgroup.long 0x260++0x3
line.long 0x00 "MMCHS_PVINITSD,Preset Value for Initialization and Default Speed modes"
bitfld.long 0x00 30.--31. " DSDS_SEL     ,Driver Strength Select Value - Default Speed mode Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling. - DTD. - DTC. - DTA. - DTB." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 26. "                 DSCLKGEN_SEL     ,Clock Generator Select Value - Default Speed mode This bit is effective when Host Controller supports programmable clock generator. - Prog. - Host." "Host,Prog"
hexmask.long.word 0x00 16.--25. 1. "             DSSDCLK_SEL     ,SDCLK Frequency Select Value - Default Speed mode 10-bit preset value to set MMCHS_SYSCTL[15:6] CLKD is described by a host system."
textline "                              "
bitfld.long 0x00 14.--15. " INITDS_SEL   ,Driver Strength Select Value - Initialization mode Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling. - DTD. - DTC. - DTA. - DTB." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 10. "                 INITCLKGEN_SEL   ,Clock Generator Select Value - Initialization mode This bit is effective when Host Controller supports programmable clock generator. - Prog. - Host." "Host,Prog"
hexmask.long.word 0x00 0.--9. 1. "             INITSDCLK_SEL   ,SDCLK Frequency Select Value - Initialization mode 10-bit preset value to set MMCHS_SYSCTL[15:6] CLKD is described by a host system."
rgroup.long 0x264++0x3
line.long 0x00 "MMCHS_PVHSSDR12,Preset Value for High Speed and SDR12 speed modes"
bitfld.long 0x00 30.--31. " SDR12DS_SEL  ,Driver Strength Select Value - SDR12 mode Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling. - DTD. - DTC. - DTA. - DTB." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 26. "                 SDR12CLKGEN_SEL  ,Clock Generator Select Value - SDR12 mode This bit is effective when Host Controller supports programmable clock generator. - Prog. - Host." "Host,Prog"
hexmask.long.word 0x00 16.--25. 1. "             SDR12SDCLK_SEL  ,SDCLK Frequency Select Value - SDR12 mode 10-bit preset value to set MMCHS_SYSCTL[15:6] CLKD is described by a host system."
textline "                              "
bitfld.long 0x00 14.--15. " HSDS_SEL     ,Driver Strength Select Value - High Speed mode Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling. - DTD. - DTC. - DTA. - DTB." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 10. "                 HSCLKGEN_SEL     ,Clock Generator Select Value - High Speed mode This bit is effective when Host Controller supports programmable clock generator. - Prog. - Host." "Host,Prog"
hexmask.long.word 0x00 0.--9. 1. "             HSSDCLK_SEL     ,SDCLK Frequency Select Value - High Speed mode 10-bit preset value to set MMCHS_SYSCTL[15:6] CLKD is described by a host system."
rgroup.long 0x268++0x3
line.long 0x00 "MMCHS_PVSDR25SDR50,Preset Value for SDR25 and SDR50 speed modes"
bitfld.long 0x00 30.--31. " SDR50DS_SEL  ,Driver Strength Select Value - SDR50 mode Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling. - DTD. - DTC. - DTA. - DTB." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 26. "                 SDR50CLKGEN_SEL  ,Clock Generator Select Value - SDR50 mode This bit is effective when Host Controller supports programmable clock generator. - Prog. - Host." "Host,Prog"
hexmask.long.word 0x00 16.--25. 1. "             SDR50SDCLK_SEL  ,SDCLK Frequency Select Value - SDR50 mode 10-bit preset value to set MMCHS_SYSCTL[15:6] CLKD is described by a host system."
textline "                              "
bitfld.long 0x00 14.--15. " SDR25DS_SEL  ,Driver Strength Select Value - SDR25 mode Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling. - DTD. - DTC. - DTA. - DTB." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 10. "                 SDR25CLKGEN_SEL  ,Clock Generator Select Value - SDR25 mode This bit is effective when Host Controller supports programmable clock generator. - Prog. - Host." "Host,Prog"
hexmask.long.word 0x00 0.--9. 1. "             SDR25SDCLK_SEL  ,SDCLK Frequency Select Value - SDR25 mode 10-bit preset value to set MMCHS_SYSCTL[15:6] CLKD is described by a host system."
rgroup.long 0x26C++0x3
line.long 0x00 "MMCHS_PVSDR104DDR50,Preset Value for SDR104 and DDR50 speed modes"
bitfld.long 0x00 30.--31. " DDR50DS_SEL  ,Driver Strength Select Value - DDR50 mode Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling. - DTD. - DTC. - DTA. - DTB." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 26. "                 DDR50CLKGEN_SEL  ,Clock Generator Select Value - DDR50 mode This bit is effective when Host Controller supports programmable clock generator. - Prog. - Host." "Host,Prog"
hexmask.long.word 0x00 16.--25. 1. "             DDR50SDCLK_SEL  ,SDCLK Frequency Select Value - DDR50 mode 10-bit preset value to set MMCHS_SYSCTL[15:6] CLKD is described by a host system."
textline "                              "
bitfld.long 0x00 14.--15. " SDR104DS_SEL ,Driver Strength Select Value - SDR104 mode Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling. - DTD. - DTC. - DTA. - DTB." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 10. "                 SDR104CLKGEN_SEL ,Clock Generator Select Value - SDR104 mode This bit is effective when Host Controller supports programmable clock generator. - Prog. - Host." "Host,Prog"
hexmask.long.word 0x00 0.--9. 1. "             SDR104SDCLK_SEL ,SDCLK Frequency Select Value - SDR104 mode 10-bit preset value to set MMCHS_SYSCTL[15:6] CLKD is described by a host system."
rgroup.long 0x2FC++0x3
line.long 0x00 "MMCHS_REV,Versions Register This register contains the hard coded RTL vendor revision number, the version number of SD specification compliancy and a slot status bit. [31:16] = Host controller version [15:0] = Slot Interrupt Status"
hexmask.long.byte 0x00 24.--31. 1. " VREV         ,Vendor Version Number: IP revision [7:4] Major revision [3:0] Minor revision Examples: 0x10 for 1.0 0x21 for 2.1"
hexmask.long.byte 0x00 16.--23. 1. "                  SREV             ,Specification Version Number This status indicates the Host Controller Spec. Version. The upper and lower 4-bits indicate the version. - Other. - Ver3. - Ver2. - Ver1."
bitfld.long 0x00 0. "               SIS             ,Slot Interrupt Status This status bit indicates the inverted state of interrupt signal for the module. By a power on reset or by setting a software reset for all (MMCHS_HCTL[SRA]), the interrupt signal shall be de-assert..." "0,1"
width 0x0B
tree.end
tree "MMC4"
base ad:0x480D1000
width 21.
rgroup.long 0x0++0x3
line.long 0x00 "MMCHS_HL_REV,IP Revision Identifier (X.Y.R) Used by software to track features, bugs, and compatibility"
hexmask.long 0x00 0.--31. 1. " REVISION     ,IP Revision"
rgroup.long 0x4++0x3
line.long 0x00 "MMCHS_HL_HWINFO,Information about the IP module's hardware configuration."
bitfld.long 0x00 6. " RETMODE      ,Retention Mode generic parameter This bit field indicates whether the retention mode is supported using the pin PIRFFRET. - RetEnabled. - RetDisabled." "RetDisabled,RetEnabled"
bitfld.long 0x00 2.--5. "         MEM_SIZE         ,Memory size for FIFO buffer: - MEM_1024. - MEM_512. - MEM_4096. - MEM_2048." "0,MEM_512,MEM_1024,3,MEM_2048,5,6,7,MEM_4096,9,10,11,12,13,14,15"
bitfld.long 0x00 1. "         MERGE_MEM       ,Memory merged for FIFO buffer: This register defines the configuration of FIFO buffer architecture. If the bit is set STA and DFT shall support clock multiplexing and balancing. - SingleMemBuffer. - TwoMemBuffer." "TwoMemBuffer,SingleMemBuffer"
textline "                              "
bitfld.long 0x00 0. " MADMA_EN     ,Master DMA enabled generic parameter: This register defines the configuration of the controller to know if it supports the master DMA management called ADMA. - SupportADMA. - NoMasterDMA." "NoMasterDMA,SupportADMA"
group.long 0x10++0x3
line.long 0x00 "MMCHS_HL_SYSCONFIG,Clock Management Configuration Register"
bitfld.long 0x00 4.--5. " STANDBYMODE  ,Configuration of the local initiator state management mode. By definition, initiator may generate read/write transaction as long as it is out of STANDBY state. - ForceStandby. - NoStandby. - SmartStandbyWakeUp. - SmartStandby." "ForceStandby,NoStandby,SmartStandby,SmartStandbyWakeUp"
bitfld.long 0x00 2.--3. "  IDLEMODE         ,Configuration of the local target state management mode. By definition, target can handle read/write transaction as long as it is out of IDLE state. - ForceIdle. - NoIdle. - SmartIdleWakeUp. - SmartIdle." "ForceIdle,NoIdle,SmartIdle,SmartIdleWakeUp"
bitfld.long 0x00 1. "  FREEEMU         ,Sensitivity to emulation (debug) suspend input signal. Functionality NOT implemented in MMCHS. - EmuEn. - EmuDis." "EmuEn,EmuDis"
textline "                              "
bitfld.long 0x00 0. " SOFTRESET    ,Software reset. (Optional) - NoAction. - SoftReset. - ResetOnGoing. - ResetDone." "NoAction,SoftReset"
group.long 0x110++0x3
line.long 0x00 "MMCHS_SYSCONFIG,System Configuration Register This register allows controlling various parameters of the Interconnect interface."
bitfld.long 0x00 12.--13. " STANDBYMODE  ,Master interface power Management, standby/wait control. The bit field is only useful when generic parameter MMCHS_HL_HWINFO[0] MADMA_EN (Master ADMA enable) is set as active, otherwise it is a read only register read a '0'. - Force. - N..." "Force,NoIdle,Smart,3"
bitfld.long 0x00 8.--9. "              CLOCKACTIVITY    ,Clocks activity during wake up mode period. Bit8: Interface clock Bit9: Functional clock - None. - OCP. - Both. - Func." "None,OCP,Func,Both"
bitfld.long 0x00 3.--4. "             SIDLEMODE       ,Power management - Force. - NoIdle. - SmartWake. - Smart." "Force,NoIdle,Smart,SmartWake"
textline "                              "
bitfld.long 0x00 2. " ENAWAKEUP    ,Wakeup feature control - Disabled. - Enable." "Disabled,Enable"
bitfld.long 0x00 1. "            SOFTRESET        ,Software reset. The bit is automatically reset by the hardware. During reset, it always returns 0. - St_un_w. - St_rst_w. - OnReset_r. - NoReset_r." "St_un_w,St_rst_w"
bitfld.long 0x00 0. "         AUTOIDLE        ,Internal Clock gating strategy - Off. - On." "Off,On"
rgroup.long 0x114++0x3
line.long 0x00 "MMCHS_SYSSTATUS,System Status Register This register provides status information about the module excluding the interrupt status information"
bitfld.long 0x00 0. " RESETDONE    ,Internal Reset Monitoring Note: the debounce clock , the system clock (Interface) and the functional clock shall be provided to the MMC/SD/SDIO host controller to allow the internal reset monitoring. - Done. - OnGoing." "OnGoing,Done"
group.long 0x124++0x3
line.long 0x00 "MMCHS_CSRE,Card Status Response Error This register enables the host controller to detect card status errors of response type R1, R1b for all cards and of R5, R5b and R6 response for cards types SD or SDIO. When a bit [i] is set to 1, if the correspond..."
hexmask.long 0x00 0.--31. 1. " CSRE         ,Card status response error"
group.long 0x128++0x3
line.long 0x00 "MMCHS_SYSTEST,System Test Register This register is used to control the signals that connect to I/O pins when the module is configured in system test (SYSTEST) mode for boundary connectivity verification. Note: In SYSTEST mode, a write into register wi..."
bitfld.long 0x00 16. " OBI          ,Out-Of-Band Interrupt (OBI) data value - HighLevel. - LowLevel." "LowLevel,HighLevel"
bitfld.long 0x00 15. "           SDCD             ,Card detect input signal (mmci_sdcd) data value - DrivenHigh. - DrivenLow." "DrivenLow,DrivenHigh"
bitfld.long 0x00 14. "       SDWP            ,Write protect input signal (mmci_sdwp) data value - DrivenHigh. - DrivenLow." "DrivenLow,DrivenHigh"
textline "                              "
bitfld.long 0x00 13. " WAKD         ,Wake request output signal data value - DrivenLow_w. - DrivenHIgh_w. - One_r. - Zero_r." "DrivenLow_w,DrivenHIgh_w"
bitfld.long 0x00 12. "        SSB              ,Set status bit This bit must be cleared prior attempting to clear a status bit of the interrupt status register (MMCHS_STAT). - Clear_w. - SetThemAll_w. - One_r. - Zero_r." "Clear_w,SetThemAll_w"
bitfld.long 0x00 11. "     D7D             ,DAT7 input/output signal data value - DriveLow_w. - DriveHigh_w. - One_r. - Zero_r." "DriveLow_w,DriveHigh_w"
textline "                              "
bitfld.long 0x00 10. " D6D          ,DAT6 input/output signal data value - DriveLow_w. - DriveHigh_w. - One_r. - Zero_r." "DriveLow_w,DriveHigh_w"
bitfld.long 0x00 9. "         D5D              ,DAT5 input/output signal data value - DriveLow_w. - DriveHigh_w. - One_r. - Zero_r." "DriveLow_w,DriveHigh_w"
bitfld.long 0x00 8. "      D4D             ,DAT4 input/output signal data value - DriveLow_w. - DriveHigh_w. - One_r. - Zero_r." "DriveLow_w,DriveHigh_w"
textline "                              "
bitfld.long 0x00 7. " D3D          ,DAT3 input/output signal data value - DriveLow_w. - DriveHigh_w. - One_r. - Zero_r." "DriveLow_w,DriveHigh_w"
bitfld.long 0x00 6. "         D2D              ,DAT2 input/output signal data value - DriveLow_w. - DriveHigh_w. - One_r. - Zero_r." "DriveLow_w,DriveHigh_w"
bitfld.long 0x00 5. "      D1D             ,DAT1 input/output signal data value - DriveLow_w. - DriveHigh_w. - One_r. - Zero_r." "DriveLow_w,DriveHigh_w"
textline "                              "
bitfld.long 0x00 4. " D0D          ,DAT0 input/output signal data value - Zero_w. - DriveHigh_w. - One_r. - Zero_r." "Zero_w,DriveHigh_w"
bitfld.long 0x00 3. "         DDIR             ,Control of the DAT[7:0] pins direction. - Out_w. - In_w. - One_r. - Zero_r." "Out_w,In_w"
bitfld.long 0x00 2. "            CDAT            ,CMD input/output signal data value - DriveLow_w. - DriveHigh_w. - One_r. - Zero_r." "DriveLow_w,DriveHigh_w"
textline "                              "
bitfld.long 0x00 1. " CDIR         ,Control of the CMD pin direction. - Out_w. - In_w. - One_r. - Zero_r." "Out_w,In_w"
bitfld.long 0x00 0. "               MCKD             ,MMC clock output signal data value - DrivenLow_w. - DrivenHigh_w. - One_r. - Zero_r." "DrivenLow_w,DrivenHigh_w"
group.long 0x12C++0x3
line.long 0x00 "MMCHS_CON,Configuration Register This register is used: - to select the functional mode or the SYSTEST mode for any card. - to send an initialization sequence to any card. - to enable the detection on DAT[1] of a card interrupt for SDIO cards only. and..."
bitfld.long 0x00 21. " SDMA_LNE     ,Slave DMA Level/Edge Request: The waveform of the DMA request can be configured either edge sensitive with early de-assertion on first access to MMCHS_DATA register or late de-assertion, request remains active until last allowed data wri..." "EarlyDeAssert,LateDeAssert"
bitfld.long 0x00 20. "       DMA_MNS          ,DMA Master or Slave selection: When this bit is set and the controller is configured to use the DMA, Interconnect master interface is used to get datas from system using ADMA2 procedure (direct access to the memory).This option..." "MasterDMADis,MasterDMAEn"
bitfld.long 0x00 19. "     DDR             ,Dual Data Rate mode: When this register is set, the controller uses both clock edge to emit or receive data. Odd bytes are transmitted on falling edges and even bytes are transmitted on rise edges. It only applies on Data bytes an..." "NormalMode,DDRMode"
textline "                              "
bitfld.long 0x00 18. " BOOT_CF0     ,Boot status supported: This register is set when the CMD line need to be forced to '0' for a boot sequence. CMD line is driven to '0' after writing in MMCHS_CMD. The line is released when this bit field is de-asserted and abort data tran..." "CMDReleased,CMDForceReq"
bitfld.long 0x00 17. "         BOOT_ACK         ,Book acknowledge received: When this bit is set the controller should receive a boot status on DAT0 line after next command issued. If no status is received a data timeout will be generated. - BootNoAck. - BootAck." "BootNoAck,BootAck"
bitfld.long 0x00 16. "        CLKEXTFREE      ,External clock free running: This register is used to maintain card clock out of transfer transaction to enable slave module for example to generate a synchronous interrupt on DAT[1]. The Clock will be maintain only if MMCHS_SY..." "Autogating,FreeRunning"
textline "                              "
bitfld.long 0x00 15. " PADEN        ,Control Power for MMC Lines: This register is only useful when MMC PADs contain power saving mechanism to minimize its leakage power. It works as a GPIO that directly control the ACTIVE pin of PADs. Excepted for DAT[1], the signal is als..." "Disable,Enable"
bitfld.long 0x00 14. "             OBIE             ,Out-of-Band Interrupt Enable MMC cards only: This bit enables the detection of Out-of-Band Interrupt on MMCOBI input pin. The usage of the Out-of-Band signal (OBI) is optional and depends on the system integration. - Norm..." "NormalMode,OBintMode"
bitfld.long 0x00 13. "       OBIP            ,Out-of-Band Interrupt Polarity MMC cards only: This bit selects the active level of the out-of-band interrupt coming from MMC cards. The usage of the Out-of-Band signal (OBI) is optional and depends on the system integration. - ..." "ActiveHigh,ActiveLow"
textline "                              "
bitfld.long 0x00 12. " CEATA        ,CE-ATA control mode MMC cards compliant with CE-ATA:By default, this bit is set to 0. It is used to indicate that next commands are considered as specific CE-ATA commands that potentially use 'command completion' features. - NormalMode. ..." "NormalMode,CEATAMode"
bitfld.long 0x00 11. "          CTPL             ,Control Power for DAT[1] line MMC and SD cards: By default, this bit is set to 0 and the host controller automatically disables all the input buffers outside of a transaction to minimize the leakage current. SDIO cards: When..." "MMC_SD,SDIO"
bitfld.long 0x00 9.--10. "           DVAL            ,Debounce filter value All cards This register is used to define a debounce period to filter the card detect input signal (mmci_sdcd). The usage of the card detect input signal (mmci_sdcd) is optional and depends on the syste..." "FilterLevel0,FilterLevel1,FilterLevel2,FilterLevel3"
textline "                              "
bitfld.long 0x00 8. " WPP          ,Write protect polarity For SD and SDIO cards only This bit selects the active level of the write protect input signal (mmci_sdwp). The usage of the write protect input signal (mmci_sdwp) is optional and depends on the system integration ..." "ActiveHigh,ActiveLow"
bitfld.long 0x00 7. "          CDP              ,Card detect polarity All cards This bit selects the active level of the card detect input signal (mmci_sdcd). The usage of the card detect input signal (mmci_sdcd) is optional and depends on the system integration and the ty..." "ActiveHigh,ActiveLow"
bitfld.long 0x00 6. "       MIT             ,MMC interrupt command Only for MMC cards. This bit must be set to 1, when the next write access to the command register (MMCHS_CMD) is for writing a MMC interrupt command (CMD40) requiring the command timeout detection to be dis..." "CTO,No_CTO"
textline "                              "
bitfld.long 0x00 5. " DW8          ,8-bit mode MMC select For SD/SDIO cards, this bit must be set to 0. For MMC card, this bit must be set following a valid SWITCH command (CMD6) with the correct value and extend CSD index written in the argument. Prior to this command, th..." "1_4BitMode,8BitMode"
bitfld.long 0x00 4. "          MODE             ,Mode select All cards This bit select between Functional mode and SYSTEST mode. - FUNC. - SYSTEST." "FUNC,SYSTEST"
bitfld.long 0x00 3. "          STR             ,Stream command Only for MMC cards. This bit must be set to 1 only for the stream data transfers (read or write) of the adtc commands. Stream read is a class 1 command (CMD11: READ_DAT_UNTIL_STOP). Stream write is a class 3 co..." "Block,Stream"
textline "                              "
bitfld.long 0x00 2. " HR           ,Broadcast host response Only for MMC cards. This register is used to force the host to generate a 48-bit response for bc command type. It can be used to terminate the interrupt mode by generating a CMD40 response by the core (see section..." "NoHostResp,HostResp"
bitfld.long 0x00 1. "          INIT             ,Send initialization stream All cards. When this bit is set to 1, and the card is idle, an initialization sequence is sent to the card. An initialization sequence consists of setting the CMD line to 1 during 80 clock cycles. ..." "NoInit,InitStream"
bitfld.long 0x00 0. "       OD              ,Card open drain mode. Only for MMC cards. This bit must be set to 1 for MMC card commands 1, 2, 3 and 40, and if the MMC card bus is operating in open-drain mode during the response phase to the command sent. Typically, during c..." "NoOpenDrain,OpenDrain"
group.long 0x130++0x3
line.long 0x00 "MMCHS_PWCNT,Power Counter Register This register is used to program a mmc counter to delay command transfers after activating the PAD power, this value depends on PAD characteristics and voltage."
hexmask.long.word 0x00 0.--15. 1. " PWRCNT       ,Power counter register. This register is used to introduce a delay between the PAD ACTIVE pin assertion and the command issued. - 65535cycles. - nodelay. - 1cycles. - 65534cycles. - 2cycles."
group.long 0x200++0x3
line.long 0x00 "MMCHS_SDMASA,SDMA System Address / Argument 2 Register"
hexmask.long 0x00 0.--31. 1. " SDMA_ARG2    ,SDMA System Address / Argument 2 This register contains the physical system memory address used for DMA transfers or the second argument for the Auto CMD23. (1) SDMA System Address This register contains the system memory address for a S..."
group.long 0x204++0x3
line.long 0x00 "MMCHS_BLK,Transfer Length Configuration Register [BLEN] is the block size register. [NBLK] is the block count register. This register shall be used for any card."
hexmask.long.word 0x00 16.--31. 1. " NBLK         ,Blocks count for current transfer This register is enabled when Block count Enable (MMCHS_CMD[BCE]) is set to 1 and is valid only for multiple block transfers. Setting the block count to 0 results no data blocks being transferred. Note: ..."
hexmask.long.word 0x00 0.--11. 1. "                BLEN             ,Transfer Block Size. This register specifies the block size for block data transfers. Read operations during transfers may return an invalid value, and write operations are ignored. When a CMD12 command is issued to st..."
group.long 0x208++0x3
line.long 0x00 "MMCHS_ARG,Command Argument Register This register contains command argument specified as bit 39-8 of Command-Format These registers must be initialized prior to sending the command itself to the card (write action into the register register). Only exce..."
hexmask.long 0x00 0.--31. 1. " ARG          ,Command argument bits [31:0]"
group.long 0x20C++0x3
line.long 0x00 "MMCHS_CMD,Command and Transfer Mode Register [31:16] = the command register [15:0] = the transfer mode. This register configures the data and command transfers. A write into the most significant byte send the command. A write into [15:0] registers duri..."
bitfld.long 0x00 24.--29. " INDX         ,Command index - Binary encoded value from 0 to 63 specifying the command number send to card . - . - CMD13. - CMD33. - CMD59. - CMD15. - CMD30. - CMD8. - CMD5. - CMD2. - CMD27. - CMD44. - CMD36. - . - CMD62. - CMD4. - CMD39. - CMD32. - C..." "CMD0,CMD1_or_ACMD1,CMD2_or_ACMD2,CMD3_or_ACMD3,CMD4,CMD5,CMD6,CMD7,CMD8,CMD9,CMD10,CMD11,CMD12_or_ACMD12,CMD13,CMD14_or_ACMD14,CMD15_or_ACMD15,CMD16,CMD17_or_ACMD17,CMD12,CMD19,CMD14,CMD15,CMD22,CMD17,CMD24_or_ACMD24,CMD25_or_ACMD25,CMD26_or_ACMD26,CMD27,CMD28_or_ACMD28,CMD29,CMD30,CMD31_or_ACMD31,CMD20,CMD33_or_ACMD33,CMD34_or_ACMD34,CMD35,CMD24,CMD25,CMD26,CMD39_or_ACMD39,CMD28,CMD41,CMD42,CMD43,CMD44,CMD45,CMD2,CMD47,CMD48,CMD31,CMD32,CMD33,CMD34,CMD53,CMD36,CMD55,CMD38,CMD39,CMD58,CMD59,CMD60,CMD61,CMD62,CMD63"
bitfld.long 0x00 22.--23. "     CMD_TYPE         ,Command typeThis register specifies three types of special command: Suspend, Resume and Abort.. - . - These bits shall be set to 00b for all other commands. . - . - Normal. - Suspend. - Abort. - Resume." "Normal,Suspend,Resume,Abort"
bitfld.long 0x00 21. "          DP              ,Data present select - This register indicates that data is present and DAT line shall be used. . - . It must be set to 0 in the following conditions:. - . - - command using only CMD line . - . - - command with no data transfe..." "NoData,Data"
textline "                              "
bitfld.long 0x00 20. " CICE         ,Command Index check enable - This bit must be set to 1 to enable index check on command response to compare the index field in the response against the index of the command. . - . - If the index is not the same in the response as in the ..." "Nocheck,Check"
bitfld.long 0x00 19. "             CCCE             ,Command CRC check enable - This bit must be set to 1 to enable CRC7 check on command response to protect the response against transmission errors on the bus. . - . - If an error is detected, it is reported as a command CR..." "NoCheck,Check"
bitfld.long 0x00 16.--17. "          RSP_TYPE        ,Response type - This bits defines the response type of the command . - . - Norsp. - Lght36. - Lght48. - ." "Norsp,Lght36,Lght48,Lght48"
textline "                              "
bitfld.long 0x00 5. " MSBS         ,Multi/Single block select - This bit must be set to 1 for data transfer in case of multi block command. . - . - For any others command this bit shall be set to 0. . - . - sgleblk. - If this bit is 0, it is not necessary to set the regist..." "sgleblk,multiblk"
bitfld.long 0x00 4. "            DDIR             ,Data transfer Direction Select - This bit defines either data transfer will be a read or a write. . - . - Write. - Read." "Write,Read"
bitfld.long 0x00 2.--3. "            ACEN            ,Auto CMD Enable - SD card only. - This field determines use of auto command functions. . - . - There are two methods to stop Multiple-block read and write operation . - . - ? Auto CMD23 Supported (Host Controller Version is..." "Disable,EnableCMD12,EnableCMD23,Reserved"
textline "                              "
bitfld.long 0x00 1. " BCE          ,Block Count Enable - Multiple block transfers only. . - . - This bit is used to enable the block count register ([NBLK]). . - . - When Block Count is disabled ([BCE] is set to 0) in Multiple block transfers ([MSBS] is set to 1), the modu..." "Disable,Enable"
bitfld.long 0x00 0. "             DE               ,DMA Enable - This bit is used to enable DMA mode for host data access. . - . - Disable. - Enable." "Disable,Enable"
rgroup.long 0x210++0x3
line.long 0x00 "MMCHS_RSP10,Command Response[31:0] Register (bits [31:0] of the internal RSP register) This 32-bit register holds bits positions [31:0] of command response type R1/R1b/R2/R3/R4/R5/R5b/R6/R7"
hexmask.long.word 0x00 16.--31. 1. " RSP1         ,Command Response [31:16]"
hexmask.long.word 0x00 0.--15. 1. "                RSP0             ,Command Response [15:0]"
rgroup.long 0x214++0x3
line.long 0x00 "MMCHS_RSP32,Command Response[63:32] Register (bits [63:32] of the internal RSP register) This 32-bit register holds bits positions [63:32] of command response type R2"
hexmask.long.word 0x00 16.--31. 1. " RSP3         ,Command Response [63:48]"
hexmask.long.word 0x00 0.--15. 1. "                RSP2             ,Command Response [47:32]"
rgroup.long 0x218++0x3
line.long 0x00 "MMCHS_RSP54,Command Response[95:64] Register (bits [95:64] of the internal RSP register) This 32-bit register holds bits positions [95:64] of command response type R2"
hexmask.long.word 0x00 16.--31. 1. " RSP5         ,Command Response [95:80]"
hexmask.long.word 0x00 0.--15. 1. "                RSP4             ,Command Response [79:64]"
rgroup.long 0x21C++0x3
line.long 0x00 "MMCHS_RSP76,Command Response[127:96] Register (bits [127:96] of the internal RSP register) This 32-bit register holds bits positions [127:96] of command response type R1(Auto CMD23)/R1b(Auto CMD12)/R2"
hexmask.long.word 0x00 16.--31. 1. " RSP7         ,Command Response [127:112]"
hexmask.long.word 0x00 0.--15. 1. "                RSP6             ,Command Response [111:96]"
group.long 0x220++0x3
line.long 0x00 "MMCHS_DATA,Data Register This register is the 32-bit entry point of the buffer for read or write data transfers. The buffer size is 32bits x256(1024 bytes). Bytes within a word are stored and read in little endian format. This buffer can be used as two..."
hexmask.long 0x00 0.--31. 1. " DATA         ,Data Register [31:0] In functional mode (MMCHS_CON[MODE] set to the default value 0) , A read access to this register is allowed only when the buffer read enable status is set to 1 (MMCHS_PSTATE[BRE]), otherwise a bad access (MMCHS_STAT[..."
rgroup.long 0x224++0x3
line.long 0x00 "MMCHS_PSTATE,Present State Register The Host can get status of the Host Controller from this 32-bit read only register."
bitfld.long 0x00 24. " CLEV         ,CMD line signal level This status is used to check the CMD line level to recover from errors, and for debugging. The value of this register after reset depends on the CMD line level at that time. - One. - Zero." "Zero,One"
bitfld.long 0x00 20.--23. "                DLEV             ,DAT[3:0] line signal level DAT[3] => bit 23 DAT[2] => bit 22 DAT[1] => bit 21 DAT[0] => bit 20 This status is used to check DAT line level to recover from errors, and for debugging. This is ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 19. "               WP              ,Write protect switch pin level For SDIO cards only. This bit reflects the write protect input pin (mmci_sdwp) level. The value of this register after reset depends on the protect input pin (mmci_sdwp) level at that time...." "zero,one"
textline "                              "
bitfld.long 0x00 18. " CDPL         ,Card detect pin level This bit reflects the inverse value of the card detect input pin (mmci_sdcd), debouncing is not performed on this bit and bit is valid only when Card State Stable (MMCHS_PSTAE[CSS]) is set to 1. Use of this bit is l..." "zero,one"
bitfld.long 0x00 17. "                CSS              ,Card State Stable This bit is used for testing. It is set to 1 only when Card Detect Pin Level is stable (MMCHS_PSTATE[CDPL]). Debouncing is performed on the card detect input pin (mmci_sdcd) to detect card stability. ..." "Debouncing,Stable"
bitfld.long 0x00 16. "       CINS            ,Card inserted This bit is the debounced value of the card detect input pin (mmci_sdcd). An inactive to active transition of the card detect input pin (mmci_sdcd) will generate a card insertion interrupt (MMCHS_STAT[CINS]). A act..." "zero,one"
textline "                              "
bitfld.long 0x00 11. " BRE          ,Buffer read enable This bit is used for non-DMA read transfers. It indicates that a complete block specified by MMCHS_BLK[BLEN] has been written in the buffer and is ready to be read. It is set to 0 when the entire block is read from the..." "RdDisable,RdEnable"
bitfld.long 0x00 10. "           BWE              ,Buffer Write enable This status is used for non-DMA write transfers. It indicates if space is available for write data. - WrEnable. - WrDisable." "WrDisable,WrEnable"
bitfld.long 0x00 9. "        RTA             ,Read transfer active This status is used for detecting completion of a read transfer. It is set to 1 after the end bit of read command or by activating a continue request (MMCHS_HCTL[CR]) following a stop at block gap request. ..." "NoTransfer,Transfer"
textline "                              "
bitfld.long 0x00 8. " WTA          ,Write transfer active This status indicates a write transfer active. It is set to 1 after the end bit of write command or by activating a continue request (MMCHS_HCTL[CR]) following a stop at block gap request. This bit is set to 0 when ..." "NoTransfer,Transfer"
bitfld.long 0x00 3. "          RTR              ,Re-Tuning Request Host Controller may request Host Driver to execute re-tuning sequence by setting this bit when the data window is shifted by temperature drift and a tuned sampling point does not have a good margin to recei..." "NoTuning,Tuning"
bitfld.long 0x00 2. "         DLA             ,DAT line active This status bit indicates whether one of the DAT line is in use. In the case of read transactions (card to host): This bit is set to 1 after the end bit of read command or by activating continue request MMCHS_H..." "zero,one"
textline "                              "
bitfld.long 0x00 1. " DATI         ,Command inhibit(DAT) This status bit is generated if either DAT line is active (MMCHS_PSTATE[DLA]) or Read transfer is active (MMCHS_PSTATE[RTA]) or when a command with busy is issued. This bit prevents the local host to issue a command...." "Cmden,Cmddis"
bitfld.long 0x00 0. "              CMDI             ,Command inhibit(CMD) This status bit indicates that the CMD line is in use. This bit is set to 0 when the most significant byte is written into the command register. This bit is not set when Auto CMD12 is transmitted. Th..." "Cmden,Cmddis"
group.long 0x228++0x3
line.long 0x00 "MMCHS_HCTL,Host Control Register This register defines the host controls to set power, wakeup and transfer parameters. [31:24] = Wakeup control [23:16] = Block gap control [15:8] = Power control [7:0] = Host control"
bitfld.long 0x00 27. " OBWE         ,Wakeup event enable for 'Out-of-Band' Interrupt. This bit enables wakeup events for 'Out-of-Band' assertion. Wakeup is generated if the wakeup feature is enabled (MMCHS_SYSCONFIG[ENAWAKEUP]). The write to this register is ignored when MM..." "disable,enable"
bitfld.long 0x00 26. "             REM              ,Wakeup event enable on SD card removal This bit enables wakeup events for card removal assertion. Wakeup is generated if the wakeup feature is enabled (MMCHS_SYSCONFIG[ENAWAKEUP]). - disable. - enable." "disable,enable"
bitfld.long 0x00 25. "          INS             ,Wakeup event enable on SD card insertion This bit enables wakeup events for card insertion assertion. Wakeup is generated if the wakeup feature is enabled (MMCHS_SYSCONFIG[ENAWAKEUP]). - disable. - enable." "disable,enable"
textline "                              "
bitfld.long 0x00 24. " IWE          ,Wakeup event enable on SD card interrupt This bit enables wakeup events for card interrupt assertion. Wakeup is generated if the wakeup feature is enabled (MMCHS_SYSCONFIG[ENAWAKEUP]). - disable. - enable." "disable,enable"
bitfld.long 0x00 19. "             IBG              ,Interrupt block at gap This bit is valid only in 4-bit mode of SDIO card to enable interrupt detection in the interrupt cycle at block gap for a multiple block transfer. For MMC cards and for SD card this bit should be se..." "Itdiable,Itenable"
bitfld.long 0x00 18. "         RWC             ,Read wait control The read wait function is optional only for SDIO cards. If the card supports read wait, this bit must be enabled, then requesting a stop at block gap (MMCHS_HCTL[SBGR]) generates a read wait period after the ..." "NoRW,RW"
textline "                              "
bitfld.long 0x00 17. " CR           ,Continue request This bit is used to restart a transaction that was stopped by requesting a stop at block gap (MMCHS_HCTL[SBGR]). Set this bit to 1 restarts the transfer. The bit is automatically set to 0 by the host controller when tran..." "None,Restart"
bitfld.long 0x00 16. "             SBGR             ,Stop at block gap request This bit is used to stop executing a transaction at the next block gap. The transfer can restart with a continue request (MMCHS_HCTL[CR]) or during a suspend/resume sequence. In case of read tran..." "Transfer,Stpblk"
bitfld.long 0x00 9.--11. "         SDVS            ,SD bus voltage select All cards. The host driver should set to these bits to select the voltage level for the card according to the voltage supported by the system (MMCHS_CAPA[VS18,VS30,VS33]) before starting a transfer. - 3V0..." "0,1,2,3,4,1V8,3V0,3V3"
textline "                              "
bitfld.long 0x00 8. " SDBP         ,SD bus power Before setting this bit, the host driver shall select the SD bus voltage (MMCHS_HCTL[SDVS]). If the host controller detects the No card state, this bit is automatically set to 0. If the module is power off, a write in the co..." "Pwroff,Pwron"
bitfld.long 0x00 7. "              CDSS             ,Card Detect Signal Selection This bit selects source for the card detection.When the source for the card detection is switched, the interrupt should be disabled during the switching period by clearing the Interrupt Statu..." "SDCDSel,CDTLSel"
bitfld.long 0x00 6. "          CDTL            ,Card Detect Test Level: This bit is enabled while MMCHS_HCTL[7] CDSS is set to 1 and it indicates whether the card is inserted or not. - NoCard. - CardIns." "NoCard,CardIns"
textline "                              "
bitfld.long 0x00 3.--4. " DMAS         ,DMA Select Mode: One of supported DMA modes can be selected. The host driver shall check support of DMA modes by referring the Capabilities register MMCHS_CAPA . Use of selected DMA is determined by DMA Enable of the Transfer Mode regist..." "Reserved,Reserved1,ADMA2,Reserved2"
bitfld.long 0x00 2. "           HSPE             ,High Speed Enable: Before setting this bit, the Host Driver shall check the MMCHS_CAPA[21] HSS. If this bit is set to 0, the Host Controller outputs CMD line and DAT lines at the falling edge of the SD Clock. If this bit is..." "NormalSpeed,HighSpeed"
bitfld.long 0x00 1. "      DTW             ,Data transfer width For MMC card, this bit must be set following a valid SWITCH command (CMD6) with the correct value and extend CSD index written in the argument. Prior to this command, the MMC card configuration register (CSD a..." "1_BitMode,4_BitMode"
textline "                              "
bitfld.long 0x00 0. " LED          ,Reserved bit. LED control feature is not supported This bit is initialized to zero, and writes to it are ignored." "0,1"
group.long 0x22C++0x3
line.long 0x00 "MMCHS_SYSCTL,SD System Control Register This register defines the system controls to set software resets, clock frequency management and data timeout. [31:24] = Software resets [23:16] = Timeout control [15:0] = Clock control"
bitfld.long 0x00 26. " SRD          ,Software reset for DAT line This bit is set to 1 for reset and released to 0 when completed. For more information about SRD bit manipulation, see . DAT finite state machine in both clock domain are also reset. Here below are the register..." "Work,Reset"
bitfld.long 0x00 25. "               SRC              ,Software reset for CMD line For more information about SRC bit manipulation, see . This bit is set to 1 for reset and released to 0 when completed. CMD finite state machine in both clock domain are also reset. Here belo..." "Work,Reset"
bitfld.long 0x00 24. "            SRA             ,Software reset for all This bit is set to 1 for reset , and released to 0 when completed. This reset affects the entire host controller except for the capabilities registers (MMCHS_CAPA and MMCHS_CUR_CAPA). - Work. - Reset." "Work,Reset"
textline "                              "
bitfld.long 0x00 16.--19. " DTO          ,Data timeout counter value and busy timeout. This value determines the interval by which DAT lines timeouts are detected. The host driver needs to set this bitfield based on - the maximum read access time (NAC) (Refer to the SD Specifica..." "1stDTO,2ndDTO,2,3,4,5,6,7,8,9,10,11,12,13,15thDTO,Rsvd"
hexmask.long.word 0x00 6.--15. 1. "             CLKD             ,Clock frequency select These bits define the ratio between MMCi_FCLK and the output clock frequency on the CLK pin of either the memory card (MMC, SD or SDIO). - Div1023. - Bypass0. - Bypass1. - Div3. - Div2."
bitfld.long 0x00 5. "             CGS             ,Clock Generator Select - For SD cards Host Controller Version 3.00 supports this bit. This bit is used to select the clock generator mode in MMCHS_SYSCTL[15:6] CLKD. If the Programmable Clock Mode is supported (non-zero va..." "0,1"
textline "                              "
bitfld.long 0x00 2. " CEN          ,Clock enable This bit controls if the clock is provided to the card or not. - Disable. - Enable." "Disable,Enable"
bitfld.long 0x00 1. "             ICS              ,Internal clock stable (status) This bit indicates either the internal clock is stable or not. - Ready. - NotReady." "NotReady,Ready"
bitfld.long 0x00 0. "         ICE             ,Internal clock enable This register controls the internal clock activity. In very low power state, the internal clock is stopped. Note: The activity of the debounce clock (used for wakeup events) and the interface clock (used ..." "Stop,Oscillate"
group.long 0x230++0x3
line.long 0x00 "MMCHS_STAT,Interrupt Status Register The interrupt status regroups all the status of the module internal events that can generate an interrupt. [31:16] = Error Interrupt Status [15:0] = Normal Interrupt Status"
bitfld.long 0x00 29. " BADA         ,Bad access to data space This bit is set automatically to indicate a bad access to buffer when not allowed: -This bit is set during a read access to the data register (MMCHS_DATA) while buffer reads are not allowed (MMCHS_PSTATE[BRE] =0)..." "St_un_w,St_rst_w"
bitfld.long 0x00 28. "            CERR             ,Card error This bit is set automatically when there is at least one error in a response of type R1, R1b, R6, R5 or R5b. Only bits referenced as type E(error) in status field in the response can set a card status error. An ..." "St_un_w,St_rst_w"
bitfld.long 0x00 26. "         TE              ,Tuning Error This bit is set when an unrecoverable error is detected in a tuning circuit except during tuning procedure (Occurrence of an error during tuning procedure is indicated by Sampling Select). By detecting Tuning Erro..." "NoError,Error"
textline "                              "
bitfld.long 0x00 25. " ADMAE        ,ADMA Error: This bit is set when the Host Controller detects errors during ADMA based data transfer. The state of the ADMA at an error occurrence is saved in the ADMA Error Status Register.In addition, the Host Controller generates this ..." "St_un_w,St_rst_w"
bitfld.long 0x00 24. "            ACE              ,Auto CMD error Auto CMD12 and Auto CMD23 use this error status. This bit is set when detecting that one of the bits D00-D04 in Auto CMD Error Status register (MMCHS_AC12) has changed from 0 to 1. In case of Auto CMD12, thi..." "St_un_w,St_rst_w"
bitfld.long 0x00 22. "         DEB             ,Data End Bit error This bit is set automatically when detecting a 0 at the end bit position of read data on DAT line or at the end position of the CRC status in write mode. - St_un_w. - St_rst_w. - IRQ_tru_r. - IRQ_fal_r." "St_un_w,St_rst_w"
textline "                              "
bitfld.long 0x00 21. " DCRC         ,Data CRC Error This bit is set automatically when there is a CRC16 error in the data phase response following a block read command or if there is a 3-bit CRC status different of a position '010' token during a block write command. - St_u..." "St_un_w,St_rst_w"
bitfld.long 0x00 20. "            DTO              ,Data timeout error This bit is set automatically according to the following conditions: - busy timeout for R1b, R5b response type - busy timeout after write CRC status - write CRC status timeout - read data timeout - St_un..." "St_un_w,St_rst_w"
bitfld.long 0x00 19. "         CIE             ,Command index error This bit is set automatically when response index differs from corresponding command index previously emitted. It depends on the enable in MMCHS_CMD[CICE] register. - St_un_w. - St_rst_w. - IRQ_tru_r. - IRQ..." "St_un_w,St_rst_w"
textline "                              "
bitfld.long 0x00 18. " CEB          ,Command end bit error This bit is set automatically when detecting a 0 at the end bit position of a command response. - St_un_w. - St_rst_w. - IRQ_tru_r. - IRQ_fal_r." "St_un_w,St_rst_w"
bitfld.long 0x00 17. "            CCRC             ,Command CRC Error This bit is set automatically when there is a CRC7 error in the command response depending on the enable in MMCHS_CMD[CCCE] register. - St_un_w. - St_rst_w. - IRQ_tru_r. - IRQ_fal_r." "St_un_w,St_rst_w"
bitfld.long 0x00 16. "         CTO             ,Command Timeout Error This bit is set automatically when no response is received within 64 clock cycles from the end bit of the command. For commands that reply within 5 clock cycles - the timeout is still detected at 64 clock..." "St_un_w,St_rst_w"
textline "                              "
bitfld.long 0x00 15. " ERRI         ,Error Interrupt If any of the bits in the Error Interrupt Status register (MMCHS_STAT[31:16]) are set, then this bit is set to 1. Therefore the host driver can efficiently test for an error by checking this bit first. Writes to this bit ..." "IRQ_fal_r,IRQ_tru_r"
bitfld.long 0x00 10. "           BSR              ,Boot status received interrupt This bit is set automatically when MMCHS_CON[BOOT] is set 0x1 or 0x2 and a boot status is received on DAT[0] line. This interrupt is only useful for MMC card. - St_un_w. - St_rst_w. - IRQ_tru_..." "St_un_w,St_rst_w"
bitfld.long 0x00 9. "         OBI             ,Out-Of-Band interrupt This bit is set automatically when MMCHS_CON[OBIE] is set and an Out-of-Band interrupt occurs on OBI pin. The interrupt detection depends on polarity controlled by MMCHS_CON[OBIP]. This interrupt is only ..." "St_un_w,St_rst_w"
textline "                              "
bitfld.long 0x00 8. " CIRQ         ,Card interrupt This bit is only used for SD and SDIO and CE-ATA cards. In 1-bit mode, interrupt source is asynchronous (can be a source of asynchronous wakeup). In 4-bit mode, interrupt source is sampled during the interrupt cycle. In CE..." "IRQ_fal_r,IRQ_tru_r"
bitfld.long 0x00 7. "           CREM             ,Card removal This bit is set automatically when MMCHS_PSTATE[CINS] changes from 1 to 0. A clear of this bit doesn't affect Card inserted present state (MMCHS_PSTATE[CINS]). - St_un_w. - St_rst_w. - IRQ_tru_r. - IRQ_fal_r." "St_un_w,St_rst_w"
bitfld.long 0x00 6. "         CINS            ,Card insertion This bit is set automatically when MMCHS_PSTATE[CINS] changes from 0 to 1. A clear of this bit doesn't affect Card inserted present state (MMCHS_PSTATE[CINS]). - St_un_w. - St_rst_w. - IRQ_tru_r. - IRQ_fal_r." "St_un_w,St_rst_w"
textline "                              "
bitfld.long 0x00 5. " BRR          ,Buffer read ready This bit is set automatically during a read operation to the card (see class 2 - block oriented read commands) when one block specified by MMCHS_BLK[BLEN] is completely written in the buffer. It indicates that the memor..." "St_un_w,St_rst_w"
bitfld.long 0x00 4. "            BWR              ,Buffer write ready This bit is set automatically during a write operation to the card (see class 4 - block oriented write command) when the host can write a complete block as specified by MMCHS_BLK[BLEN]. It indicates that..." "St_un_w,St_rst_w"
bitfld.long 0x00 3. "         DMA             ,DMA interrupt : This status is set when an interrupt is required in the ADMA instruction and after the data transfer completion. - St_un_w. - St_rst_w. - IRQ_tru_r. - IRQ_fal_r." "St_un_w,St_rst_w"
textline "                              "
bitfld.long 0x00 2. " BGE          ,Block gap event When a stop at block gap is requested (MMCHS_HCTL[SBGR]), this bit is automatically set when transaction is stopped at the block gap during a read or write operation. This event does not occur when the stop at block gap i..." "St_un_w,St_rst_w"
bitfld.long 0x00 1. "            TC               ,Transfer completed This bit is always set when a read/write transfer is completed or between two blocks when the transfer is stopped due to a stop at block gap request (MMCHS_HCTL[SBGR]). In Read mode: This bit is automati..." "St_un_w,St_rst_w"
bitfld.long 0x00 0. "         CC              ,Command complete This bit is set when a 1-to-0 transition occurs in the register command inhibit (MMCHS_PSTATE[CMDI]) If the command is a type for which no response is expected, then the command complete interrupt is generated..." "St_un_w,St_rst_w"
group.long 0x234++0x3
line.long 0x00 "MMCHS_IE,Interrupt Status Enable Register This register allows to enable/disable the module to set status bits, on an event-by-event basis. [31:16] = Error Interrupt Status Enable [15:0] = Normal Interrupt Status Enable"
bitfld.long 0x00 29. " BADA_ENABLE  ,Bad access to data space Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 28. "             CERR_ENABLE      ,Card Error Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 26. "          TE_ENABLE       ,Tuning Error Status Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 25. " ADMAE_ENABLE ,ADMA Error Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 24. "             ACE_ENABLE       ,Auto CMD Error Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 22. "          DEB_ENABLE      ,Data End Bit Error Status Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 21. " DCRC_ENABLE  ,Data CRC Error Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 20. "             DTO_ENABLE       ,Data Timeout Error Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 19. "          CIE_ENABLE      ,Command Index Error Status Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 18. " CEB_ENABLE   ,Command End Bit Error Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 17. "             CCRC_ENABLE      ,Command CRC Error Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 16. "          CTO_ENABLE      ,Command Timeout Error Status Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 15. " NULL         ,Fixed to 0 The host driver shall control error interrupts using the Error Interrupt Signal Enable register. Writes to this bit are ignored" "0,1"
bitfld.long 0x00 10. "                   BSR_ENABLE       ,Boot Status Enable A write to this register when MMCHS_CON[BOOT_ACK] is set to 0x0 is ignored. - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 9. "          OBI_ENABLE      ,Out-of-Band Status Enable A write to this register when MMCHS_CON[OBIE] is set to '0' is ignored. - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 8. " CIRQ_ENABLE  ,Card Status Enable A clear of this bit also clears the corresponding status bit. During 1-bit mode, if the interrupt routine doesn't remove the source of a card interrupt in the SDIO card, the status bit is reasserted when this bit is se..." "Masked,Enabled"
bitfld.long 0x00 7. "             CREM_ENABLE      ,Card Removal Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 6. "          CINS_ENABLE     ,Card Insertion Status Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 5. " BRR_ENABLE   ,Buffer Read Ready Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 4. "             BWR_ENABLE       ,Buffer Write Ready Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 3. "          DMA_ENABLE      ,DMA Status Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 2. " BGE_ENABLE   ,Block Gap Event Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 1. "             TC_ENABLE        ,Transfer Complete Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 0. "          CC_ENABLE       ,Command Complete Status Enable - Masked. - Enabled." "Masked,Enabled"
group.long 0x238++0x3
line.long 0x00 "MMCHS_ISE,Interrupt Signal Enable Register This register allows to enable/disable the module internal sources of status, on an event-by-event basis. [31:16] = Error Interrupt Signal Enable [15:0] = Normal Interrupt Signal Enable"
bitfld.long 0x00 29. " BADA_SIGEN   ,Bad access to data space Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 28. "             CERR_SIGEN       ,Card Error Interrupt Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 26. "          TE_SIGEN        ,Tuning Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 25. " ADMAE_SIGEN  ,ADMA Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 24. "             ACE_SIGEN        ,Auto CMD Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 22. "          DEB_SIGEN       ,Data End Bit Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 21. " DCRC_SIGEN   ,Data CRC Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 20. "             DTO_SIGEN        ,Data Timeout Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 19. "          CIE_SIGEN       ,Command Index Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 18. " CEB_SIGEN    ,Command End Bit Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 17. "             CCRC_SIGEN       ,Command CRC Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 16. "          CTO_SIGEN       ,Command timeout Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 15. " NULL         ,Fixed to 0 The host driver shall control error interrupts using the Error Interrupt Signal Enable register. Writes to this bit are ignored" "0,1"
bitfld.long 0x00 10. "                   BSR_SIGEN        ,Boot Status Signal Enable A write to this register when MMCHS_CON[BOOT_ACK] is set to 0x0 is ignored. - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 9. "          OBI_SIGEN       ,Out-Of-Band Interrupt Signal Enable A write to this register when MMCHS_CON[OBIE] is set to '0' is ignored. - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 8. " CIRQ_SIGEN   ,Card Interrupt Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 7. "             CREM_SIGEN       ,Card Removal Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 6. "          CINS_SIGEN      ,Card Insertion Signal Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 5. " BRR_SIGEN    ,Buffer Read Ready Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 4. "             BWR_SIGEN        ,Buffer Write Ready Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 3. "          DMA_SIGEN       ,DMA Interrupt Signal Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 2. " BGE_SIGEN    ,Black Gap Event Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 1. "             TC_SIGEN         ,Transfer Completed Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 0. "          CC_SIGEN        ,Command Complete Status Enable - Masked. - Enabled." "Masked,Enabled"
group.long 0x23C++0x3
line.long 0x00 "MMCHS_AC12,Host Control 2 Register and Auto CMD Error Status Register This register is used to indicate CMD12 response error of Auto CMD12 and CMD23 response error of Auto CMD23. The Host driver can determine what kind of Auto CMD12 / CMD23 errors occu..."
bitfld.long 0x00 31. " PV_ENABLE    ,Preset Value Enable Host Controller Version 3.00 supports this bit. As the operating SDCLK frequency and I/O driver strength depend on the Host System implementation, it is difficult to determine these parameters in the Standard Host Dri..." "Disabled,Enabled"
bitfld.long 0x00 30. "            AI_ENABLE        ,Asynchronous Interrupt Enable This bit can be set to 1 if a card supports asynchronous interrupts and MMCHS_CAPA[29] AIS is set to 1. Asynchronous interrupt is effective when DAT[1] interrupt is used in 4-bit SD mode (and ..." "Disabled,Enabled"
bitfld.long 0x00 23. "         SCLK_SEL        ,Sampling Clock Select Host Controller uses this bit to select sampling clock to receive CMD and DAT. This bit is set by tuning procedure and valid after the completion of tuning (when MMCHS_AC12[22] ET is cleared). Setting 1 m..." "Fixed,Tuned"
textline "                              "
bitfld.long 0x00 22. " ET           ,Execute Tuning This bit is set to 1 to start tuning procedure and automatically cleared when tuning procedure is completed. The result of tuning is indicated to MMCHS_AC12[23] SCLK_SEL. Tuning procedure is aborted by writing 0. This is R..." "Completed,Execute"
bitfld.long 0x00 20.--21. "           DS_SEL           ,Driver Strength Select Host Controller output driver in 1.8V signaling is selected by this bit. In 3.3V signaling, this field is not effective. This field can be set depending on Driver Type A, C and D support bits (DTA, DT..." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 19. "              V1V8_SIGEN      ,1.8V Signaling Enable This bit controls voltage regulator for I/O cell. 3.3V is supplied to the card regardless of signaling voltage. Setting this bit from 0 to 1 starts changing signal voltage from 3.3V to 1.8V. 1.8V reg..." "3V3,1V8"
textline "                              "
bitfld.long 0x00 16.--18. " UHSMS        ,UHS Mode Select This field is used to select one of UHS-I modes and effective when 1.8V Signaling Enable is set to 1. If MMCHS_AC12[31] PV_ENABLE is set to 1, Host Controller sets MMCHS_SYSCTL[15:6] CLKD, MMCHS_SYSCTL[5] CGS and MMCHS_AC..." "SDR12,SDR25,SDR50,SDR104,DDR50,Reserved1,Reserved2,Reserved3"
bitfld.long 0x00 7. "           CNI              ,Command Not Issued By Auto CMD12 Error Setting this bit to 1 means CMD_wo_DAT is not executed due to an Auto CMD12 Error (D04-D01) in this register. This bit is set to 0 when Auto CMD Error is generated by Auto CMD23. - Cmd..." "NoErr,CmdNI"
bitfld.long 0x00 4. "            ACIE            ,Auto CMD Index Error - For Auto CMD12 and Auto CMD23 This bit is set if the Command Index error occurs in response to a command. - Err. - NoErr." "NoErr,Err"
textline "                              "
bitfld.long 0x00 3. " ACEB         ,Auto CMD End Bit Error - For Auto CMD12 and Auto CMD23 This bit is set when detecting that the end bit of command response is 0. - Err. - NoErr." "NoErr,Err"
bitfld.long 0x00 2. "               ACCE             ,Auto CMD CRC Error - For Auto CMD12 and Auto CMD23 This bit is set when detecting a CRC error in the command response. - Err. - NoErr." "NoErr,Err"
bitfld.long 0x00 1. "            ACTO            ,Auto CMD Timeout Error - For Auto CMD12 and Auto CMD23 This bit is set if no response is returned within 64 SDCLK cycles from the end bit of command. If this bit is set to1, the other error status bits (D04-D02) are meaning..." "NoErr,TimeOut"
textline "                              "
bitfld.long 0x00 0. " ACNE         ,Auto CMD12 Not Executed If memory multiple block data transfer is not started due to command error, this bit is not set because it is not necessary to issue Auto CMD12. Setting this bit to 1 means the Host Controller cannot issue Auto CM..." "Exe,NotExe"
group.long 0x240++0x3
line.long 0x00 "MMCHS_CAPA,Capabilities Register This register lists the capabilities of the MMC/SD/SDIO host controller."
bitfld.long 0x00 29. " AIS          ,Asynchronous Interrupt Support Refer to SDIO Specification Version 3.00 about asynchronous interrupt. - AIS_Sup. - AIS_NotSup." "AIS_NotSup,AIS_Sup"
bitfld.long 0x00 28. "          BIT64            ,64 Bit System Bus Support Setting 1 to this bit indicates that the Host Controller supports 64-bit address descriptor mode and is connected to 64-bit address system bus. - SysAddr64b. - SysAddr32b." "SysAddr32b,SysAddr64b"
bitfld.long 0x00 26. "       VS18            ,Voltage support 1.8V Initialization of this register (via a write access to this register) depends on the system capabilities. The host driver shall not modify this register after the initilaization. This register is only reinit..." "St_1V8NotSup_w,St_1V8Sup_w"
textline "                              "
bitfld.long 0x00 25. " VS30         ,Voltage support 3.0V Initialization of this register (via a write access to this register) depends on the system capabilities. The host driver shall not modify this register after the initilaization. This register is only reinitialized b..." "St_3V0NotSup_w,St_3V0Sup_w"
bitfld.long 0x00 24. "      VS33             ,Voltage support 3.3V Initialization of this register (via a write access to this register) depends on the system capabilities. The host driver shall not modify this register after the initilaization. This register is only reinit..." "St_3V3NotSup_w,St_3V3Sup_w"
bitfld.long 0x00 23. "   SRS             ,Suspend/Resume support (SDIO cards only) This bit indicates whether the host controller supports Suspend/Resume functionality. - Supported. - NotSupported." "NotSupported,Supported"
textline "                              "
bitfld.long 0x00 22. " DS           ,DMA support This bit indicates that the Host Controller is able to use DMA to transfer data between system memory and the Host Controller directly. - Supported. - NotSupported." "NotSupported,Supported"
bitfld.long 0x00 21. "        HSS              ,High speed support This bit indicates that the host controller supports high speed operations and can supply an up-to maximum card frequency. - Supported. - NotSupported." "NotSupported,Supported"
bitfld.long 0x00 19. "     AD2S            ,ADMA2 Support This bit indicates whether the Host Controller is capable of using ADMA2. It depends on setting of generic parameter MADMA_EN - ADMA2Supported. - ADMA2NotSupported." "ADMA2NotSupported,ADMA2Supported"
textline "                              "
bitfld.long 0x00 16.--17. " MBL          ,Maximum block length This value indicates the maximum block size that the host driver can read and write to the buffer in the host controller. This value depends on definition of generic parameter with a max value of 2048 bytes. The host..." "512,1024,2048,3"
hexmask.long.byte 0x00 8.--15. 1. "                BCF              ,Base Clock Frequency For SD Clock This value indicates the base (maximum) clock frequency for the SD Clock. 8-bit Base Clock Frequency This mode is supported by the Host Controller Version 3.00. Unit values are 1MHz. T..."
bitfld.long 0x00 7. "               TCU             ,Timeout clock unit This bit shows the unit of base clock frequency used to detect Data Timeout Error (MMCHS_STAT[DTO]). - KHz. - MHz." "MHz,KHz"
textline "                              "
bitfld.long 0x00 0.--5. " TCF          ,Timeout clock frequency The timeout clock frequency is used to detect Data Timeout Error (MMCHS_STAT[DTO]). - OMeth." "OMeth,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x244++0x3
line.long 0x00 "MMCHS_CAPA2,Capabilities 2 Register This register provides the Host Driver with information specific to the Host Controller implementation. The Host Controller may implement these values as fixed or loaded from flash memory during power on initializati..."
hexmask.long.byte 0x00 16.--23. 1. " CM           ,Clock Multiplier This field indicates clock multiplier value of programmable clock generator. Refer to MMCHS_SYSCTL [15:0]. Setting 00h means that Host Controller does not support programmable clock generator. 00h : Clock Multiplier is..."
bitfld.long 0x00 14.--15. "                  RTM              ,Re-Tuning Modes This field selects re-tuning method and limits the maximum data length." "Mode1,Mode2,Mode3,Reserved"
bitfld.long 0x00 13. "         TSDR50          ,Use Tuning for SDR50 If this bit is set to 1, this Host Controller requires tuning to operate SDR50. (Tuning is always required to operate SDR104.) - Required. - NotRequired." "NotRequired,Required"
textline "                              "
bitfld.long 0x00 8.--11. " TCRT         ,Timer Count for Re-Tuning This field indicates an initial value of the Re-Tuning Timer for Re-Tuning Mode 1 to 3. Setting to 0 disables Re-Tuning Timer. - 3. - Reserved3. - Reserved1. - 4. - 11. - OtherSource. - 2. - Disabled. - 10. - 6...." "Disabled,1,2,3,4,5,6,7,8,9,10,11,Reserved1,Reserved2,Reserved3,OtherSource"
bitfld.long 0x00 6. "         DTD              ,Driver Type D Support This bit indicates support of Driver Type D for 1.8 Signaling. - Supported. - NotSupported." "NotSupported,Supported"
bitfld.long 0x00 5. "     DTC             ,Driver Type C Support This bit indicates support of Driver Type C for 1.8 Signaling. - Supported. - NotSupported." "NotSupported,Supported"
textline "                              "
bitfld.long 0x00 4. " DTA          ,Driver Type A Support This bit indicates support of Driver Type A for 1.8 Signaling. - Supported. - NotSupported." "NotSupported,Supported"
bitfld.long 0x00 2. "        DDR50            ,DDR50 Support - Supported. - NotSupported." "NotSupported,Supported"
bitfld.long 0x00 1. "     SDR104          ,SDR104 Support SDR104 requires tuning. - Supported. - NotSupported." "NotSupported,Supported"
textline "                              "
bitfld.long 0x00 0. " SDR50        ,SDR50 Support If SDR104 is supported, this bit shall be set to 1. Bit 13 indicates whether SDR50 requires tuning or not. - Supported. - NotSupported." "NotSupported,Supported"
group.long 0x248++0x3
line.long 0x00 "MMCHS_CUR_CAPA,Maximum Current Capabilities Register This register indicates the maximum current capability for each voltage. The value is meaningful if the voltage support is set in the capabilities register (). Initialization of this register (via a ..."
hexmask.long.byte 0x00 16.--23. 1. " CUR_1V8      ,Maximum current for 1.8V - OMeth."
hexmask.long.byte 0x00 8.--15. 1. "                  CUR_3V0          ,Maximum current for 3.0V - OMeth."
hexmask.long.byte 0x00 0.--7. 1. "               CUR_3V3         ,Maximum current for 3.3V - OMeth."
wgroup.long 0x250++0x3
line.long 0x00 "MMCHS_FE,Force Event Register for Auto CMD Error Status and Error Interrupt status The Force Event Register is not a physically implemented register. Rather, it is an address at which the Auto CMD Error Status Register () can be written. Writing 1 : se..."
bitfld.long 0x00 29. " FE_BADA      ,Force Event Bad access to data space. - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 28. "           FE_CERR          ,Force Event Card error. - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 25. "        FE_ADMAE        ,Force Event ADMA Error. - NoAction. - IntForced." "NoAction,IntForced"
textline "                              "
bitfld.long 0x00 24. " FE_ACE       ,Force Event for Auto CMD Error - For Auto CMD12 and Auto CMD23 - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 22. "           FE_DEB           ,Force Event Data End Bit error. - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 21. "        FE_DCRC         ,Force Event Data CRC Error. - NoAction. - IntForced." "NoAction,IntForced"
textline "                              "
bitfld.long 0x00 20. " FE_DTO       ,Force Event Data Timeout Error. - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 19. "           FE_CIE           ,Force Event Command Index Error. - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 18. "        FE_CEB          ,Force Event Command End Bit Error. - NoAction. - IntForced." "NoAction,IntForced"
textline "                              "
bitfld.long 0x00 17. " FE_CCRC      ,Force Event Command CRC Error. - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 16. "           FE_CTO           ,Command Timeout Error This bit is set automatically when no response is received within 64 clock cycles from the end bit of the command. For commands that reply within 5 clock cycles - the timeout is still detected at 64 cl..." "St_un_w,St_rst_w"
bitfld.long 0x00 7. "         FE_CNI          ,Force Event Command not issue by Auto CMD12 error - NoAction. - IntForced." "NoAction,IntForced"
textline "                              "
bitfld.long 0x00 4. " FE_ACIE      ,Force Event for Auto CMD Index Error - For Auto CMD12 and Auto CMD23 - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 3. "           FE_ACEB          ,Force Event Auto CMD End Bit Error - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 2. "        FE_ACCE         ,Force Event Auto CMD CRC Error - NoAction. - IntForced." "NoAction,IntForced"
textline "                              "
bitfld.long 0x00 1. " FE_ACTO      ,Force Event Auto CMD Timeout Error - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 0. "           FE_ACNE          ,Force Event Auto CMD12 Not Executed - NoAction. - IntForced." "NoAction,IntForced"
group.long 0x254++0x3
line.long 0x00 "MMCHS_ADMAES,ADMA Error Status Register When ADMA Error Interrupt is occurred, the ADMA Error States field in this register holds the ADMA state and the ADMA System Address Register holds the address around the error descriptor. For recovering the erro..."
bitfld.long 0x00 2. " LME          ,ADMA Length Mismatch Error: (1) While Block Count Enable being set, the total data length specified by the Descriptor table is different from that specified by the Block Count and Block Length. (2) Total data length can not be divided by..." "NoError,Error"
bitfld.long 0x00 0.--1. "             AES              ,ADMA Error State his field indicates the state of ADMA when error is occurred during ADMA data transfer. This field never indicates '10' because ADMA never stops in this state. - Syssdr. - linkDesc. - TransData. - Reserved." "Syssdr,linkDesc,Reserved,TransData"
group.long 0x258++0x3
line.long 0x00 "MMCHS_ADMASAL,ADMA System address Low bits"
hexmask.long 0x00 0.--31. 1. " ADMA_A32B    ,ADMA System address 32 bits.This register holds byte address of executing command of the Descriptor table. 32-bit Address Descriptor uses lower 32-bit of this register. At the start of ADMA, the Host Driver shall set start address of the..."
rgroup.long 0x260++0x3
line.long 0x00 "MMCHS_PVINITSD,Preset Value for Initialization and Default Speed modes"
bitfld.long 0x00 30.--31. " DSDS_SEL     ,Driver Strength Select Value - Default Speed mode Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling. - DTD. - DTC. - DTA. - DTB." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 26. "                 DSCLKGEN_SEL     ,Clock Generator Select Value - Default Speed mode This bit is effective when Host Controller supports programmable clock generator. - Prog. - Host." "Host,Prog"
hexmask.long.word 0x00 16.--25. 1. "             DSSDCLK_SEL     ,SDCLK Frequency Select Value - Default Speed mode 10-bit preset value to set MMCHS_SYSCTL[15:6] CLKD is described by a host system."
textline "                              "
bitfld.long 0x00 14.--15. " INITDS_SEL   ,Driver Strength Select Value - Initialization mode Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling. - DTD. - DTC. - DTA. - DTB." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 10. "                 INITCLKGEN_SEL   ,Clock Generator Select Value - Initialization mode This bit is effective when Host Controller supports programmable clock generator. - Prog. - Host." "Host,Prog"
hexmask.long.word 0x00 0.--9. 1. "             INITSDCLK_SEL   ,SDCLK Frequency Select Value - Initialization mode 10-bit preset value to set MMCHS_SYSCTL[15:6] CLKD is described by a host system."
rgroup.long 0x264++0x3
line.long 0x00 "MMCHS_PVHSSDR12,Preset Value for High Speed and SDR12 speed modes"
bitfld.long 0x00 30.--31. " SDR12DS_SEL  ,Driver Strength Select Value - SDR12 mode Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling. - DTD. - DTC. - DTA. - DTB." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 26. "                 SDR12CLKGEN_SEL  ,Clock Generator Select Value - SDR12 mode This bit is effective when Host Controller supports programmable clock generator. - Prog. - Host." "Host,Prog"
hexmask.long.word 0x00 16.--25. 1. "             SDR12SDCLK_SEL  ,SDCLK Frequency Select Value - SDR12 mode 10-bit preset value to set MMCHS_SYSCTL[15:6] CLKD is described by a host system."
textline "                              "
bitfld.long 0x00 14.--15. " HSDS_SEL     ,Driver Strength Select Value - High Speed mode Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling. - DTD. - DTC. - DTA. - DTB." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 10. "                 HSCLKGEN_SEL     ,Clock Generator Select Value - High Speed mode This bit is effective when Host Controller supports programmable clock generator. - Prog. - Host." "Host,Prog"
hexmask.long.word 0x00 0.--9. 1. "             HSSDCLK_SEL     ,SDCLK Frequency Select Value - High Speed mode 10-bit preset value to set MMCHS_SYSCTL[15:6] CLKD is described by a host system."
rgroup.long 0x268++0x3
line.long 0x00 "MMCHS_PVSDR25SDR50,Preset Value for SDR25 and SDR50 speed modes"
bitfld.long 0x00 30.--31. " SDR50DS_SEL  ,Driver Strength Select Value - SDR50 mode Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling. - DTD. - DTC. - DTA. - DTB." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 26. "                 SDR50CLKGEN_SEL  ,Clock Generator Select Value - SDR50 mode This bit is effective when Host Controller supports programmable clock generator. - Prog. - Host." "Host,Prog"
hexmask.long.word 0x00 16.--25. 1. "             SDR50SDCLK_SEL  ,SDCLK Frequency Select Value - SDR50 mode 10-bit preset value to set MMCHS_SYSCTL[15:6] CLKD is described by a host system."
textline "                              "
bitfld.long 0x00 14.--15. " SDR25DS_SEL  ,Driver Strength Select Value - SDR25 mode Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling. - DTD. - DTC. - DTA. - DTB." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 10. "                 SDR25CLKGEN_SEL  ,Clock Generator Select Value - SDR25 mode This bit is effective when Host Controller supports programmable clock generator. - Prog. - Host." "Host,Prog"
hexmask.long.word 0x00 0.--9. 1. "             SDR25SDCLK_SEL  ,SDCLK Frequency Select Value - SDR25 mode 10-bit preset value to set MMCHS_SYSCTL[15:6] CLKD is described by a host system."
rgroup.long 0x26C++0x3
line.long 0x00 "MMCHS_PVSDR104DDR50,Preset Value for SDR104 and DDR50 speed modes"
bitfld.long 0x00 30.--31. " DDR50DS_SEL  ,Driver Strength Select Value - DDR50 mode Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling. - DTD. - DTC. - DTA. - DTB." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 26. "                 DDR50CLKGEN_SEL  ,Clock Generator Select Value - DDR50 mode This bit is effective when Host Controller supports programmable clock generator. - Prog. - Host." "Host,Prog"
hexmask.long.word 0x00 16.--25. 1. "             DDR50SDCLK_SEL  ,SDCLK Frequency Select Value - DDR50 mode 10-bit preset value to set MMCHS_SYSCTL[15:6] CLKD is described by a host system."
textline "                              "
bitfld.long 0x00 14.--15. " SDR104DS_SEL ,Driver Strength Select Value - SDR104 mode Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling. - DTD. - DTC. - DTA. - DTB." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 10. "                 SDR104CLKGEN_SEL ,Clock Generator Select Value - SDR104 mode This bit is effective when Host Controller supports programmable clock generator. - Prog. - Host." "Host,Prog"
hexmask.long.word 0x00 0.--9. 1. "             SDR104SDCLK_SEL ,SDCLK Frequency Select Value - SDR104 mode 10-bit preset value to set MMCHS_SYSCTL[15:6] CLKD is described by a host system."
rgroup.long 0x2FC++0x3
line.long 0x00 "MMCHS_REV,Versions Register This register contains the hard coded RTL vendor revision number, the version number of SD specification compliancy and a slot status bit. [31:16] = Host controller version [15:0] = Slot Interrupt Status"
hexmask.long.byte 0x00 24.--31. 1. " VREV         ,Vendor Version Number: IP revision [7:4] Major revision [3:0] Minor revision Examples: 0x10 for 1.0 0x21 for 2.1"
hexmask.long.byte 0x00 16.--23. 1. "                  SREV             ,Specification Version Number This status indicates the Host Controller Spec. Version. The upper and lower 4-bits indicate the version. - Other. - Ver3. - Ver2. - Ver1."
bitfld.long 0x00 0. "               SIS             ,Slot Interrupt Status This status bit indicates the inverted state of interrupt signal for the module. By a power on reset or by setting a software reset for all (MMCHS_HCTL[SRA]), the interrupt signal shall be de-assert..." "0,1"
width 0x0B
tree.end
tree.end
tree.open "MMC1"
tree "MMC1"
base ad:0x4809C000
width 21.
rgroup.long 0x0++0x3
line.long 0x00 "MMCHS_HL_REV,IP Revision Identifier (X.Y.R) Used by software to track features, bugs, and compatibility"
hexmask.long 0x00 0.--31. 1. " REVISION          ,IP Revision"
rgroup.long 0x4++0x3
line.long 0x00 "MMCHS_HL_HWINFO,Information about the IP module's hardware configuration."
bitfld.long 0x00 6. " RETMODE           ,Retention Mode generic parameter This bit field indicates whether the retention mode is supported using the pin PIRFFRET. - RetEnabled. - RetDisabled." "RetDisabled,RetEnabled"
bitfld.long 0x00 2.--5. "         MEM_SIZE         ,Memory size for FIFO buffer: - MEM_1024. - MEM_512. - MEM_4096. - MEM_2048." "0,MEM_512,MEM_1024,3,MEM_2048,5,6,7,MEM_4096,9,10,11,12,13,14,15"
bitfld.long 0x00 1. "         MERGE_MEM        ,Memory merged for FIFO buffer: This register defines the configuration of FIFO buffer architecture. If the bit is set STA and DFT shall support clock multiplexing and balancing. - SingleMemBuffer. - TwoMemBuffer." "TwoMemBuffer,SingleMemBuffer"
textline "                              "
bitfld.long 0x00 0. " MADMA_EN          ,Master DMA enabled generic parameter: This register defines the configuration of the controller to know if it supports the master DMA management called ADMA. - SupportADMA. - NoMasterDMA." "NoMasterDMA,SupportADMA"
group.long 0x10++0x3
line.long 0x00 "MMCHS_HL_SYSCONFIG,Clock Management Configuration Register"
bitfld.long 0x00 4.--5. " STANDBYMODE       ,Configuration of the local initiator state management mode. By definition, initiator may generate read/write transaction as long as it is out of STANDBY state. - ForceStandby. - NoStandby. - SmartStandbyWakeUp. - SmartStandby." "ForceStandby,NoStandby,SmartStandby,SmartStandbyWakeUp"
bitfld.long 0x00 2.--3. "  IDLEMODE         ,Configuration of the local target state management mode. By definition, target can handle read/write transaction as long as it is out of IDLE state. - ForceIdle. - NoIdle. - SmartIdleWakeUp. - SmartIdle." "ForceIdle,NoIdle,SmartIdle,SmartIdleWakeUp"
bitfld.long 0x00 1. "  FREEEMU          ,Sensitivity to emulation (debug) suspend input signal. Functionality NOT implemented in MMCHS. - EmuEn. - EmuDis." "EmuEn,EmuDis"
textline "                              "
bitfld.long 0x00 0. " SOFTRESET         ,Software reset. (Optional) - NoAction. - SoftReset. - ResetOnGoing. - ResetDone." "NoAction,SoftReset"
group.long 0x110++0x3
line.long 0x00 "MMCHS_SYSCONFIG,System Configuration Register This register allows controlling various parameters of the Interconnect interface."
bitfld.long 0x00 12.--13. " STANDBYMODE       ,Master interface power Management, standby/wait control. The bit field is only useful when generic parameter MMCHS_HL_HWINFO[0] MADMA_EN (Master ADMA enable) is set as active, otherwise it is a read only register read a '0'. - Force..." "Force,NoIdle,Smart,3"
bitfld.long 0x00 8.--9. "              CLOCKACTIVITY    ,Clocks activity during wake up mode period. Bit8: Interface clock Bit9: Functional clock - None. - OCP. - Both. - Func." "None,OCP,Func,Both"
bitfld.long 0x00 3.--4. "             SIDLEMODE        ,Power management - Force. - NoIdle. - SmartWake. - Smart." "Force,NoIdle,Smart,SmartWake"
textline "                              "
bitfld.long 0x00 2. " ENAWAKEUP         ,Wakeup feature control - Disabled. - Enable." "Disabled,Enable"
bitfld.long 0x00 1. "            SOFTRESET        ,Software reset. The bit is automatically reset by the hardware. During reset, it always returns 0. - St_un_w. - St_rst_w. - OnReset_r. - NoReset_r." "St_un_w,St_rst_w"
bitfld.long 0x00 0. "         AUTOIDLE         ,Internal Clock gating strategy - Off. - On." "Off,On"
rgroup.long 0x114++0x3
line.long 0x00 "MMCHS_SYSSTATUS,System Status Register This register provides status information about the module excluding the interrupt status information"
bitfld.long 0x00 0. " RESETDONE         ,Internal Reset Monitoring Note: the debounce clock , the system clock (Interface) and the functional clock shall be provided to the MMC/SD/SDIO host controller to allow the internal reset monitoring. - Done. - OnGoing." "OnGoing,Done"
group.long 0x124++0x3
line.long 0x00 "MMCHS_CSRE,Card Status Response Error This register enables the host controller to detect card status errors of response type R1, R1b for all cards and of R5, R5b and R6 response for cards types SD or SDIO. When a bit [i] is set to 1, if the correspond..."
hexmask.long 0x00 0.--31. 1. " CSRE              ,Card status response error"
group.long 0x128++0x3
line.long 0x00 "MMCHS_SYSTEST,System Test Register This register is used to control the signals that connect to I/O pins when the module is configured in system test (SYSTEST) mode for boundary connectivity verification. Note: In SYSTEST mode, a write into register wi..."
bitfld.long 0x00 16. " OBI               ,Out-Of-Band Interrupt (OBI) data value - HighLevel. - LowLevel." "LowLevel,HighLevel"
bitfld.long 0x00 15. "           SDCD             ,Card detect input signal (mmci_sdcd) data value - DrivenHigh. - DrivenLow." "DrivenLow,DrivenHigh"
bitfld.long 0x00 14. "       SDWP             ,Write protect input signal (mmci_sdwp) data value - DrivenHigh. - DrivenLow." "DrivenLow,DrivenHigh"
textline "                              "
bitfld.long 0x00 13. " WAKD              ,Wake request output signal data value - DrivenLow_w. - DrivenHIgh_w. - One_r. - Zero_r." "DrivenLow_w,DrivenHIgh_w"
bitfld.long 0x00 12. "        SSB              ,Set status bit This bit must be cleared prior attempting to clear a status bit of the interrupt status register (MMCHS_STAT). - Clear_w. - SetThemAll_w. - One_r. - Zero_r." "Clear_w,SetThemAll_w"
bitfld.long 0x00 11. "     D7D              ,DAT7 input/output signal data value - DriveLow_w. - DriveHigh_w. - One_r. - Zero_r." "DriveLow_w,DriveHigh_w"
textline "                              "
bitfld.long 0x00 10. " D6D               ,DAT6 input/output signal data value - DriveLow_w. - DriveHigh_w. - One_r. - Zero_r." "DriveLow_w,DriveHigh_w"
bitfld.long 0x00 9. "         D5D              ,DAT5 input/output signal data value - DriveLow_w. - DriveHigh_w. - One_r. - Zero_r." "DriveLow_w,DriveHigh_w"
bitfld.long 0x00 8. "      D4D              ,DAT4 input/output signal data value - DriveLow_w. - DriveHigh_w. - One_r. - Zero_r." "DriveLow_w,DriveHigh_w"
textline "                              "
bitfld.long 0x00 7. " D3D               ,DAT3 input/output signal data value - DriveLow_w. - DriveHigh_w. - One_r. - Zero_r." "DriveLow_w,DriveHigh_w"
bitfld.long 0x00 6. "         D2D              ,DAT2 input/output signal data value - DriveLow_w. - DriveHigh_w. - One_r. - Zero_r." "DriveLow_w,DriveHigh_w"
bitfld.long 0x00 5. "      D1D              ,DAT1 input/output signal data value - DriveLow_w. - DriveHigh_w. - One_r. - Zero_r." "DriveLow_w,DriveHigh_w"
textline "                              "
bitfld.long 0x00 4. " D0D               ,DAT0 input/output signal data value - Zero_w. - DriveHigh_w. - One_r. - Zero_r." "Zero_w,DriveHigh_w"
bitfld.long 0x00 3. "         DDIR             ,Control of the DAT[7:0] pins direction. - Out_w. - In_w. - One_r. - Zero_r." "Out_w,In_w"
bitfld.long 0x00 2. "            CDAT             ,CMD input/output signal data value - DriveLow_w. - DriveHigh_w. - One_r. - Zero_r." "DriveLow_w,DriveHigh_w"
textline "                              "
bitfld.long 0x00 1. " CDIR              ,Control of the CMD pin direction. - Out_w. - In_w. - One_r. - Zero_r." "Out_w,In_w"
bitfld.long 0x00 0. "               MCKD             ,MMC clock output signal data value - DrivenLow_w. - DrivenHigh_w. - One_r. - Zero_r." "DrivenLow_w,DrivenHigh_w"
group.long 0x12C++0x3
line.long 0x00 "MMCHS_CON,Configuration Register This register is used: - to select the functional mode or the SYSTEST mode for any card. - to send an initialization sequence to any card. - to enable the detection on DAT[1] of a card interrupt for SDIO cards only. and..."
bitfld.long 0x00 21. " SDMA_LNE          ,Slave DMA Level/Edge Request: The waveform of the DMA request can be configured either edge sensitive with early de-assertion on first access to MMCHS_DATA register or late de-assertion, request remains active until last allowed dat..." "EarlyDeAssert,LateDeAssert"
bitfld.long 0x00 20. "       DMA_MNS          ,DMA Master or Slave selection: When this bit is set and the controller is configured to use the DMA, Interconnect master interface is used to get datas from system using ADMA2 procedure (direct access to the memory).This option..." "MasterDMADis,MasterDMAEn"
bitfld.long 0x00 19. "     DDR              ,Dual Data Rate mode: When this register is set, the controller uses both clock edge to emit or receive data. Odd bytes are transmitted on falling edges and even bytes are transmitted on rise edges. It only applies on Data bytes a..." "NormalMode,DDRMode"
textline "                              "
bitfld.long 0x00 18. " BOOT_CF0          ,Boot status supported: This register is set when the CMD line need to be forced to '0' for a boot sequence. CMD line is driven to '0' after writing in MMCHS_CMD. The line is released when this bit field is de-asserted and abort data..." "CMDReleased,CMDForceReq"
bitfld.long 0x00 17. "         BOOT_ACK         ,Book acknowledge received: When this bit is set the controller should receive a boot status on DAT0 line after next command issued. If no status is received a data timeout will be generated. - BootNoAck. - BootAck." "BootNoAck,BootAck"
bitfld.long 0x00 16. "        CLKEXTFREE       ,External clock free running: This register is used to maintain card clock out of transfer transaction to enable slave module for example to generate a synchronous interrupt on DAT[1]. The Clock will be maintain only if MMCHS_S..." "Autogating,FreeRunning"
textline "                              "
bitfld.long 0x00 15. " PADEN             ,Control Power for MMC Lines: This register is only useful when MMC PADs contain power saving mechanism to minimize its leakage power. It works as a GPIO that directly control the ACTIVE pin of PADs. Excepted for DAT[1], the signal i..." "Disable,Enable"
bitfld.long 0x00 14. "             OBIE             ,Out-of-Band Interrupt Enable MMC cards only: This bit enables the detection of Out-of-Band Interrupt on MMCOBI input pin. The usage of the Out-of-Band signal (OBI) is optional and depends on the system integration. - Norm..." "NormalMode,OBintMode"
bitfld.long 0x00 13. "       OBIP             ,Out-of-Band Interrupt Polarity MMC cards only: This bit selects the active level of the out-of-band interrupt coming from MMC cards. The usage of the Out-of-Band signal (OBI) is optional and depends on the system integration. -..." "ActiveHigh,ActiveLow"
textline "                              "
bitfld.long 0x00 12. " CEATA             ,CE-ATA control mode MMC cards compliant with CE-ATA:By default, this bit is set to 0. It is used to indicate that next commands are considered as specific CE-ATA commands that potentially use 'command completion' features. - NormalM..." "NormalMode,CEATAMode"
bitfld.long 0x00 11. "          CTPL             ,Control Power for DAT[1] line MMC and SD cards: By default, this bit is set to 0 and the host controller automatically disables all the input buffers outside of a transaction to minimize the leakage current. SDIO cards: When..." "MMC_SD,SDIO"
bitfld.long 0x00 9.--10. "           DVAL             ,Debounce filter value All cards This register is used to define a debounce period to filter the card detect input signal (mmci_sdcd). The usage of the card detect input signal (mmci_sdcd) is optional and depends on the syst..." "FilterLevel0,FilterLevel1,FilterLevel2,FilterLevel3"
textline "                              "
bitfld.long 0x00 8. " WPP               ,Write protect polarity For SD and SDIO cards only This bit selects the active level of the write protect input signal (mmci_sdwp). The usage of the write protect input signal (mmci_sdwp) is optional and depends on the system integra..." "ActiveHigh,ActiveLow"
bitfld.long 0x00 7. "          CDP              ,Card detect polarity All cards This bit selects the active level of the card detect input signal (mmci_sdcd). The usage of the card detect input signal (mmci_sdcd) is optional and depends on the system integration and the ty..." "ActiveHigh,ActiveLow"
bitfld.long 0x00 6. "       MIT              ,MMC interrupt command Only for MMC cards. This bit must be set to 1, when the next write access to the command register (MMCHS_CMD) is for writing a MMC interrupt command (CMD40) requiring the command timeout detection to be di..." "CTO,No_CTO"
textline "                              "
bitfld.long 0x00 5. " DW8               ,8-bit mode MMC select For SD/SDIO cards, this bit must be set to 0. For MMC card, this bit must be set following a valid SWITCH command (CMD6) with the correct value and extend CSD index written in the argument. Prior to this comman..." "1_4BitMode,8BitMode"
bitfld.long 0x00 4. "          MODE             ,Mode select All cards This bit select between Functional mode and SYSTEST mode. - FUNC. - SYSTEST." "FUNC,SYSTEST"
bitfld.long 0x00 3. "          STR              ,Stream command Only for MMC cards. This bit must be set to 1 only for the stream data transfers (read or write) of the adtc commands. Stream read is a class 1 command (CMD11: READ_DAT_UNTIL_STOP). Stream write is a class 3 c..." "Block,Stream"
textline "                              "
bitfld.long 0x00 2. " HR                ,Broadcast host response Only for MMC cards. This register is used to force the host to generate a 48-bit response for bc command type. It can be used to terminate the interrupt mode by generating a CMD40 response by the core (see se..." "NoHostResp,HostResp"
bitfld.long 0x00 1. "          INIT             ,Send initialization stream All cards. When this bit is set to 1, and the card is idle, an initialization sequence is sent to the card. An initialization sequence consists of setting the CMD line to 1 during 80 clock cycles. ..." "NoInit,InitStream"
bitfld.long 0x00 0. "       OD               ,Card open drain mode. Only for MMC cards. This bit must be set to 1 for MMC card commands 1, 2, 3 and 40, and if the MMC card bus is operating in open-drain mode during the response phase to the command sent. Typically, during ..." "NoOpenDrain,OpenDrain"
group.long 0x130++0x3
line.long 0x00 "MMCHS_PWCNT,Power Counter Register This register is used to program a mmc counter to delay command transfers after activating the PAD power, this value depends on PAD characteristics and voltage."
hexmask.long.word 0x00 0.--15. 1. " PWRCNT            ,Power counter register. This register is used to introduce a delay between the PAD ACTIVE pin assertion and the command issued. - 65535cycles. - nodelay. - 1cycles. - 65534cycles. - 2cycles."
group.long 0x134++0x3
line.long 0x00 "MMCHS_DLL,DLL control and status register This register is used for tuning procedure required for SDR104 speed mode. It gives visibility and control on the DLL"
bitfld.long 0x00 31. " DLL_SOFT_RESET    ,Soft reset for DLL, active HIGH. - Write_0. - Write_1. - Read_1. - Read_0." "Write_0,Write_1"
bitfld.long 0x00 30. "             LOCK_TIMER       ,Timer for the dll_lock signal to be asserted after reset. - DLL_FAST_MODE. - Other." "DLL_FAST_MODE,Other"
hexmask.long.byte 0x00 22.--29. 1. "    MAX_LOCK_DIFF    ,Maximum number of taps that the master DLL clock period measurement can deviate without resulting in the master DLL losing lock."
textline "                              "
bitfld.long 0x00 21. " FORCE_SR_F        ,Forced fine delay value." "0,1"
bitfld.long 0x00 20. "                   SWT              ,Software Tuning enable. The bit shall be set to manage the tuning sequence fully in software. NOTE: For proper operation when SDR104/HS200 mode is used this bit must be set to 0x1 which disables the Conflict Error (..." "0,1"
hexmask.long.byte 0x00 13.--19. 1. "                FORCE_SR_C       ,Forced coarse delay value"
textline "                              "
bitfld.long 0x00 12. " FORCE_VALUE       ,Put forced values to slave DLL, ignoring master DLL output and ratio value. - No_force. - Force." "No_force,Force"
bitfld.long 0x00 6.--11. "            SLAVE_RATIO      ,Fraction of a clock cycle for the shift to be implemented, in units of 256ths of a clock cycle. - plus135. - fourcycles. - plus180. - plus45. - plus225. - plus380. - plus0. - plus270. - plus90. - plus315." "plus0,1,plus45,3,plus90,5,plus135,7,plus180,9,plus225,11,plus270,13,plus315,15,plus380,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,fourcycles"
bitfld.long 0x00 3. "       DLL_UNLOCK_CLEAR ,Clears the phy_reg_status_mdll_unlock_sticky flags of the DLL. - 0. - 1." "0,1"
textline "                              "
bitfld.long 0x00 2. " DLL_UNLOCK_STICKY ,Asserted when any single period measurement exceeds MAX_LOCK_DIFF." "0,1"
bitfld.long 0x00 1. "                   DLL_CALIB        ,Enables Slave DLL to update new delay values. - Disabled. - Enabled." "Disabled,Enabled"
bitfld.long 0x00 0. "         DLL_LOCK         ,Master DLL lock status. - Locked. - NotLocked." "NotLocked,Locked"
group.long 0x200++0x3
line.long 0x00 "MMCHS_SDMASA,SDMA System Address / Argument 2 Register"
hexmask.long 0x00 0.--31. 1. " SDMA_ARG2         ,SDMA System Address / Argument 2 This register contains the physical system memory address used for DMA transfers or the second argument for the Auto CMD23. (1) SDMA System Address This register contains the system memory address fo..."
group.long 0x204++0x3
line.long 0x00 "MMCHS_BLK,Transfer Length Configuration Register [BLEN] is the block size register. [NBLK] is the block count register. This register shall be used for any card."
hexmask.long.word 0x00 16.--31. 1. " NBLK              ,Blocks count for current transfer This register is enabled when Block count Enable (MMCHS_CMD[BCE]) is set to 1 and is valid only for multiple block transfers. Setting the block count to 0 results no data blocks being transferred. N..."
hexmask.long.word 0x00 0.--11. 1. "                BLEN             ,Transfer Block Size. This register specifies the block size for block data transfers. Read operations during transfers may return an invalid value, and write operations are ignored. When a CMD12 command is issued to st..."
group.long 0x208++0x3
line.long 0x00 "MMCHS_ARG,Command Argument Register This register contains command argument specified as bit 39-8 of Command-Format These registers must be initialized prior to sending the command itself to the card (write action into the register register). Only exce..."
hexmask.long 0x00 0.--31. 1. " ARG               ,Command argument bits [31:0]"
group.long 0x20C++0x3
line.long 0x00 "MMCHS_CMD,Command and Transfer Mode Register [31:16] = the command register [15:0] = the transfer mode. This register configures the data and command transfers. A write into the most significant byte send the command. A write into [15:0] registers duri..."
bitfld.long 0x00 24.--29. " INDX              ,Command index - Binary encoded value from 0 to 63 specifying the command number send to card . - . - CMD13. - CMD33. - CMD59. - CMD15. - CMD30. - CMD8. - CMD5. - CMD2. - CMD27. - CMD44. - CMD36. - . - CMD62. - CMD4. - CMD39. - CMD32..." "CMD0,CMD1_or_ACMD1,CMD2_or_ACMD2,CMD3_or_ACMD3,CMD4,CMD5,CMD6,CMD7,CMD8,CMD9,CMD10,CMD11,CMD12_or_ACMD12,CMD13,CMD14_or_ACMD14,CMD15_or_ACMD15,CMD16,CMD17_or_ACMD17,CMD12,CMD19,CMD14,CMD15,CMD22,CMD17,CMD24_or_ACMD24,CMD25_or_ACMD25,CMD26_or_ACMD26,CMD27,CMD28_or_ACMD28,CMD29,CMD30,CMD31_or_ACMD31,CMD20,CMD33_or_ACMD33,CMD34_or_ACMD34,CMD35,CMD24,CMD25,CMD26,CMD39_or_ACMD39,CMD28,CMD41,CMD42,CMD43,CMD44,CMD45,CMD2,CMD47,CMD48,CMD31,CMD32,CMD33,CMD34,CMD53,CMD36,CMD55,CMD38,CMD39,CMD58,CMD59,CMD60,CMD61,CMD62,CMD63"
bitfld.long 0x00 22.--23. "     CMD_TYPE         ,Command typeThis register specifies three types of special command: Suspend, Resume and Abort.. - . - These bits shall be set to 00b for all other commands. . - . - Normal. - Suspend. - Abort. - Resume." "Normal,Suspend,Resume,Abort"
bitfld.long 0x00 21. "          DP               ,Data present select - This register indicates that data is present and DAT line shall be used. . - . It must be set to 0 in the following conditions:. - . - - command using only CMD line . - . - - command with no data transf..." "NoData,Data"
textline "                              "
bitfld.long 0x00 20. " CICE              ,Command Index check enable - This bit must be set to 1 to enable index check on command response to compare the index field in the response against the index of the command. . - . - If the index is not the same in the response as in..." "Nocheck,Check"
bitfld.long 0x00 19. "             CCCE             ,Command CRC check enable - This bit must be set to 1 to enable CRC7 check on command response to protect the response against transmission errors on the bus. . - . - If an error is detected, it is reported as a command CR..." "NoCheck,Check"
bitfld.long 0x00 16.--17. "          RSP_TYPE         ,Response type - This bits defines the response type of the command . - . - Norsp. - Lght36. - Lght48. - ." "Norsp,Lght36,Lght48,Lght48"
textline "                              "
bitfld.long 0x00 5. " MSBS              ,Multi/Single block select - This bit must be set to 1 for data transfer in case of multi block command. . - . - For any others command this bit shall be set to 0. . - . - sgleblk. - If this bit is 0, it is not necessary to set the r..." "sgleblk,multiblk"
bitfld.long 0x00 4. "            DDIR             ,Data transfer Direction Select - This bit defines either data transfer will be a read or a write. . - . - Write. - Read." "Write,Read"
bitfld.long 0x00 2.--3. "            ACEN             ,Auto CMD Enable - SD card only. - This field determines use of auto command functions. . - . - There are two methods to stop Multiple-block read and write operation . - . - ? Auto CMD23 Supported (Host Controller Version i..." "Disable,EnableCMD12,EnableCMD23,Reserved"
textline "                              "
bitfld.long 0x00 1. " BCE               ,Block Count Enable - Multiple block transfers only. . - . - This bit is used to enable the block count register ([NBLK]). . - . - When Block Count is disabled ([BCE] is set to 0) in Multiple block transfers ([MSBS] is set to 1), the..." "Disable,Enable"
bitfld.long 0x00 0. "             DE               ,DMA Enable - This bit is used to enable DMA mode for host data access. . - . - Disable. - Enable." "Disable,Enable"
rgroup.long 0x210++0x3
line.long 0x00 "MMCHS_RSP10,Command Response[31:0] Register (bits [31:0] of the internal RSP register) This 32-bit register holds bits positions [31:0] of command response type R1/R1b/R2/R3/R4/R5/R5b/R6/R7"
hexmask.long.word 0x00 16.--31. 1. " RSP1              ,Command Response [31:16]"
hexmask.long.word 0x00 0.--15. 1. "                RSP0             ,Command Response [15:0]"
rgroup.long 0x214++0x3
line.long 0x00 "MMCHS_RSP32,Command Response[63:32] Register (bits [63:32] of the internal RSP register) This 32-bit register holds bits positions [63:32] of command response type R2"
hexmask.long.word 0x00 16.--31. 1. " RSP3              ,Command Response [63:48]"
hexmask.long.word 0x00 0.--15. 1. "                RSP2             ,Command Response [47:32]"
rgroup.long 0x218++0x3
line.long 0x00 "MMCHS_RSP54,Command Response[95:64] Register (bits [95:64] of the internal RSP register) This 32-bit register holds bits positions [95:64] of command response type R2"
hexmask.long.word 0x00 16.--31. 1. " RSP5              ,Command Response [95:80]"
hexmask.long.word 0x00 0.--15. 1. "                RSP4             ,Command Response [79:64]"
rgroup.long 0x21C++0x3
line.long 0x00 "MMCHS_RSP76,Command Response[127:96] Register (bits [127:96] of the internal RSP register) This 32-bit register holds bits positions [127:96] of command response type R1(Auto CMD23)/R1b(Auto CMD12)/R2"
hexmask.long.word 0x00 16.--31. 1. " RSP7              ,Command Response [127:112]"
hexmask.long.word 0x00 0.--15. 1. "                RSP6             ,Command Response [111:96]"
group.long 0x220++0x3
line.long 0x00 "MMCHS_DATA,Data Register This register is the 32-bit entry point of the buffer for read or write data transfers. The buffer size is 32bits x256(1024 bytes). Bytes within a word are stored and read in little endian format. This buffer can be used as two..."
hexmask.long 0x00 0.--31. 1. " DATA              ,Data Register [31:0] In functional mode (MMCHS_CON[MODE] set to the default value 0) , A read access to this register is allowed only when the buffer read enable status is set to 1 (MMCHS_PSTATE[BRE]), otherwise a bad access (MMCHS_..."
rgroup.long 0x224++0x3
line.long 0x00 "MMCHS_PSTATE,Present State Register The Host can get status of the Host Controller from this 32-bit read only register."
bitfld.long 0x00 24. " CLEV              ,CMD line signal level This status is used to check the CMD line level to recover from errors, and for debugging. The value of this register after reset depends on the CMD line level at that time. - One. - Zero." "Zero,One"
bitfld.long 0x00 20.--23. "                DLEV             ,DAT[3:0] line signal level DAT[3] => bit 23 DAT[2] => bit 22 DAT[1] => bit 21 DAT[0] => bit 20 This status is used to check DAT line level to recover from errors, and for debugging. This is ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 19. "               WP               ,Write protect switch pin level For SDIO cards only. This bit reflects the write protect input pin (mmci_sdwp) level. The value of this register after reset depends on the protect input pin (mmci_sdwp) level at that time..." "zero,one"
textline "                              "
bitfld.long 0x00 18. " CDPL              ,Card detect pin level This bit reflects the inverse value of the card detect input pin (mmci_sdcd), debouncing is not performed on this bit and bit is valid only when Card State Stable (MMCHS_PSTAE[CSS]) is set to 1. Use of this bit..." "zero,one"
bitfld.long 0x00 17. "                CSS              ,Card State Stable This bit is used for testing. It is set to 1 only when Card Detect Pin Level is stable (MMCHS_PSTATE[CDPL]). Debouncing is performed on the card detect input pin (mmci_sdcd) to detect card stability. ..." "Debouncing,Stable"
bitfld.long 0x00 16. "       CINS             ,Card inserted This bit is the debounced value of the card detect input pin (mmci_sdcd). An inactive to active transition of the card detect input pin (mmci_sdcd) will generate a card insertion interrupt (MMCHS_STAT[CINS]). A ac..." "zero,one"
textline "                              "
bitfld.long 0x00 11. " BRE               ,Buffer read enable This bit is used for non-DMA read transfers. It indicates that a complete block specified by MMCHS_BLK[BLEN] has been written in the buffer and is ready to be read. It is set to 0 when the entire block is read fro..." "RdDisable,RdEnable"
bitfld.long 0x00 10. "           BWE              ,Buffer Write enable This status is used for non-DMA write transfers. It indicates if space is available for write data. - WrEnable. - WrDisable." "WrDisable,WrEnable"
bitfld.long 0x00 9. "        RTA              ,Read transfer active This status is used for detecting completion of a read transfer. It is set to 1 after the end bit of read command or by activating a continue request (MMCHS_HCTL[CR]) following a stop at block gap request...." "NoTransfer,Transfer"
textline "                              "
bitfld.long 0x00 8. " WTA               ,Write transfer active This status indicates a write transfer active. It is set to 1 after the end bit of write command or by activating a continue request (MMCHS_HCTL[CR]) following a stop at block gap request. This bit is set to 0 ..." "NoTransfer,Transfer"
bitfld.long 0x00 3. "          RTR              ,Re-Tuning Request Host Controller may request Host Driver to execute re-tuning sequence by setting this bit when the data window is shifted by temperature drift and a tuned sampling point does not have a good margin to recei..." "NoTuning,Tuning"
bitfld.long 0x00 2. "         DLA              ,DAT line active This status bit indicates whether one of the DAT line is in use. In the case of read transactions (card to host): This bit is set to 1 after the end bit of read command or by activating continue request MMCHS_..." "zero,one"
textline "                              "
bitfld.long 0x00 1. " DATI              ,Command inhibit(DAT) This status bit is generated if either DAT line is active (MMCHS_PSTATE[DLA]) or Read transfer is active (MMCHS_PSTATE[RTA]) or when a command with busy is issued. This bit prevents the local host to issue a com..." "Cmden,Cmddis"
bitfld.long 0x00 0. "              CMDI             ,Command inhibit(CMD) This status bit indicates that the CMD line is in use. This bit is set to 0 when the most significant byte is written into the command register. This bit is not set when Auto CMD12 is transmitted. Th..." "Cmden,Cmddis"
group.long 0x228++0x3
line.long 0x00 "MMCHS_HCTL,Host Control Register This register defines the host controls to set power, wakeup and transfer parameters. [31:24] = Wakeup control [23:16] = Block gap control [15:8] = Power control [7:0] = Host control"
bitfld.long 0x00 27. " OBWE              ,Wakeup event enable for 'Out-of-Band' Interrupt. This bit enables wakeup events for 'Out-of-Band' assertion. Wakeup is generated if the wakeup feature is enabled (MMCHS_SYSCONFIG[ENAWAKEUP]). The write to this register is ignored wh..." "disable,enable"
bitfld.long 0x00 26. "             REM              ,Wakeup event enable on SD card removal This bit enables wakeup events for card removal assertion. Wakeup is generated if the wakeup feature is enabled (MMCHS_SYSCONFIG[ENAWAKEUP]). - disable. - enable." "disable,enable"
bitfld.long 0x00 25. "          INS              ,Wakeup event enable on SD card insertion This bit enables wakeup events for card insertion assertion. Wakeup is generated if the wakeup feature is enabled (MMCHS_SYSCONFIG[ENAWAKEUP]). - disable. - enable." "disable,enable"
textline "                              "
bitfld.long 0x00 24. " IWE               ,Wakeup event enable on SD card interrupt This bit enables wakeup events for card interrupt assertion. Wakeup is generated if the wakeup feature is enabled (MMCHS_SYSCONFIG[ENAWAKEUP]). - disable. - enable." "disable,enable"
bitfld.long 0x00 19. "             IBG              ,Interrupt block at gap This bit is valid only in 4-bit mode of SDIO card to enable interrupt detection in the interrupt cycle at block gap for a multiple block transfer. For MMC cards and for SD card this bit should be se..." "Itdiable,Itenable"
bitfld.long 0x00 18. "         RWC              ,Read wait control The read wait function is optional only for SDIO cards. If the card supports read wait, this bit must be enabled, then requesting a stop at block gap (MMCHS_HCTL[SBGR]) generates a read wait period after the..." "NoRW,RW"
textline "                              "
bitfld.long 0x00 17. " CR                ,Continue request This bit is used to restart a transaction that was stopped by requesting a stop at block gap (MMCHS_HCTL[SBGR]). Set this bit to 1 restarts the transfer. The bit is automatically set to 0 by the host controller when..." "None,Restart"
bitfld.long 0x00 16. "             SBGR             ,Stop at block gap request This bit is used to stop executing a transaction at the next block gap. The transfer can restart with a continue request (MMCHS_HCTL[CR]) or during a suspend/resume sequence. In case of read tran..." "Transfer,Stpblk"
bitfld.long 0x00 9.--11. "         SDVS             ,SD bus voltage select All cards. The host driver should set to these bits to select the voltage level for the card according to the voltage supported by the system (MMCHS_CAPA[VS18,VS30,VS33]) before starting a transfer. - 3V..." "0,1,2,3,4,1V8,3V0,3V3"
textline "                              "
bitfld.long 0x00 8. " SDBP              ,SD bus power Before setting this bit, the host driver shall select the SD bus voltage (MMCHS_HCTL[SDVS]). If the host controller detects the No card state, this bit is automatically set to 0. If the module is power off, a write in t..." "Pwroff,Pwron"
bitfld.long 0x00 7. "              CDSS             ,Card Detect Signal Selection This bit selects source for the card detection.When the source for the card detection is switched, the interrupt should be disabled during the switching period by clearing the Interrupt Statu..." "SDCDSel,CDTLSel"
bitfld.long 0x00 6. "          CDTL             ,Card Detect Test Level: This bit is enabled while MMCHS_HCTL[7] CDSS is set to 1 and it indicates whether the card is inserted or not. - NoCard. - CardIns." "NoCard,CardIns"
textline "                              "
bitfld.long 0x00 3.--4. " DMAS              ,DMA Select Mode: One of supported DMA modes can be selected. The host driver shall check support of DMA modes by referring the Capabilities register MMCHS_CAPA . Use of selected DMA is determined by DMA Enable of the Transfer Mode r..." "Reserved,Reserved1,ADMA2,Reserved2"
bitfld.long 0x00 2. "           HSPE             ,High Speed Enable: Before setting this bit, the Host Driver shall check the MMCHS_CAPA[21] HSS. If this bit is set to 0, the Host Controller outputs CMD line and DAT lines at the falling edge of the SD Clock. If this bit is..." "NormalSpeed,HighSpeed"
bitfld.long 0x00 1. "      DTW              ,Data transfer width For MMC card, this bit must be set following a valid SWITCH command (CMD6) with the correct value and extend CSD index written in the argument. Prior to this command, the MMC card configuration register (CSD ..." "1_BitMode,4_BitMode"
textline "                              "
bitfld.long 0x00 0. " LED               ,Reserved bit. LED control feature is not supported This bit is initialized to zero, and writes to it are ignored." "0,1"
group.long 0x22C++0x3
line.long 0x00 "MMCHS_SYSCTL,SD System Control Register This register defines the system controls to set software resets, clock frequency management and data timeout. [31:24] = Software resets [23:16] = Timeout control [15:0] = Clock control"
bitfld.long 0x00 26. " SRD               ,Software reset for DAT line This bit is set to 1 for reset and released to 0 when completed. For more information about SRD bit manipulation, see . DAT finite state machine in both clock domain are also reset. Here below are the reg..." "Work,Reset"
bitfld.long 0x00 25. "               SRC              ,Software reset for CMD line For more information about SRC bit manipulation, see . This bit is set to 1 for reset and released to 0 when completed. CMD finite state machine in both clock domain are also reset. Here belo..." "Work,Reset"
bitfld.long 0x00 24. "            SRA              ,Software reset for all This bit is set to 1 for reset , and released to 0 when completed. This reset affects the entire host controller except for the capabilities registers (MMCHS_CAPA and MMCHS_CUR_CAPA). - Work. - Reset." "Work,Reset"
textline "                              "
bitfld.long 0x00 16.--19. " DTO               ,Data timeout counter value and busy timeout. This value determines the interval by which DAT lines timeouts are detected. The host driver needs to set this bitfield based on - the maximum read access time (NAC) (Refer to the SD Spec..." "1stDTO,2ndDTO,2,3,4,5,6,7,8,9,10,11,12,13,15thDTO,Rsvd"
hexmask.long.word 0x00 6.--15. 1. "             CLKD             ,Clock frequency select These bits define the ratio between MMCi_FCLK and the output clock frequency on the CLK pin of either the memory card (MMC, SD or SDIO). - Div1023. - Bypass0. - Bypass1. - Div3. - Div2."
bitfld.long 0x00 5. "             CGS              ,Clock Generator Select - For SD cards Host Controller Version 3.00 supports this bit. This bit is used to select the clock generator mode in MMCHS_SYSCTL[15:6] CLKD. If the Programmable Clock Mode is supported (non-zero v..." "0,1"
textline "                              "
bitfld.long 0x00 2. " CEN               ,Clock enable This bit controls if the clock is provided to the card or not. - Disable. - Enable." "Disable,Enable"
bitfld.long 0x00 1. "             ICS              ,Internal clock stable (status) This bit indicates either the internal clock is stable or not. - Ready. - NotReady." "NotReady,Ready"
bitfld.long 0x00 0. "         ICE              ,Internal clock enable This register controls the internal clock activity. In very low power state, the internal clock is stopped. Note: The activity of the debounce clock (used for wakeup events) and the interface clock (used..." "Stop,Oscillate"
group.long 0x230++0x3
line.long 0x00 "MMCHS_STAT,Interrupt Status Register The interrupt status regroups all the status of the module internal events that can generate an interrupt. [31:16] = Error Interrupt Status [15:0] = Normal Interrupt Status"
bitfld.long 0x00 29. " BADA              ,Bad access to data space This bit is set automatically to indicate a bad access to buffer when not allowed: -This bit is set during a read access to the data register (MMCHS_DATA) while buffer reads are not allowed (MMCHS_PSTATE[BRE..." "St_un_w,St_rst_w"
bitfld.long 0x00 28. "            CERR             ,Card error This bit is set automatically when there is at least one error in a response of type R1, R1b, R6, R5 or R5b. Only bits referenced as type E(error) in status field in the response can set a card status error. An ..." "St_un_w,St_rst_w"
bitfld.long 0x00 26. "         TE               ,Tuning Error This bit is set when an unrecoverable error is detected in a tuning circuit except during tuning procedure (Occurrence of an error during tuning procedure is indicated by Sampling Select). By detecting Tuning Err..." "NoError,Error"
textline "                              "
bitfld.long 0x00 25. " ADMAE             ,ADMA Error: This bit is set when the Host Controller detects errors during ADMA based data transfer. The state of the ADMA at an error occurrence is saved in the ADMA Error Status Register.In addition, the Host Controller generates ..." "St_un_w,St_rst_w"
bitfld.long 0x00 24. "            ACE              ,Auto CMD error Auto CMD12 and Auto CMD23 use this error status. This bit is set when detecting that one of the bits D00-D04 in Auto CMD Error Status register (MMCHS_AC12) has changed from 0 to 1. In case of Auto CMD12, thi..." "St_un_w,St_rst_w"
bitfld.long 0x00 22. "         DEB              ,Data End Bit error This bit is set automatically when detecting a 0 at the end bit position of read data on DAT line or at the end position of the CRC status in write mode. - St_un_w. - St_rst_w. - IRQ_tru_r. - IRQ_fal_r." "St_un_w,St_rst_w"
textline "                              "
bitfld.long 0x00 21. " DCRC              ,Data CRC Error This bit is set automatically when there is a CRC16 error in the data phase response following a block read command or if there is a 3-bit CRC status different of a position '010' token during a block write command. -..." "St_un_w,St_rst_w"
bitfld.long 0x00 20. "            DTO              ,Data timeout error This bit is set automatically according to the following conditions: - busy timeout for R1b, R5b response type - busy timeout after write CRC status - write CRC status timeout - read data timeout - St_un..." "St_un_w,St_rst_w"
bitfld.long 0x00 19. "         CIE              ,Command index error This bit is set automatically when response index differs from corresponding command index previously emitted. It depends on the enable in MMCHS_CMD[CICE] register. - St_un_w. - St_rst_w. - IRQ_tru_r. - IR..." "St_un_w,St_rst_w"
textline "                              "
bitfld.long 0x00 18. " CEB               ,Command end bit error This bit is set automatically when detecting a 0 at the end bit position of a command response. - St_un_w. - St_rst_w. - IRQ_tru_r. - IRQ_fal_r." "St_un_w,St_rst_w"
bitfld.long 0x00 17. "            CCRC             ,Command CRC Error This bit is set automatically when there is a CRC7 error in the command response depending on the enable in MMCHS_CMD[CCCE] register. - St_un_w. - St_rst_w. - IRQ_tru_r. - IRQ_fal_r." "St_un_w,St_rst_w"
bitfld.long 0x00 16. "         CTO              ,Command Timeout Error This bit is set automatically when no response is received within 64 clock cycles from the end bit of the command. For commands that reply within 5 clock cycles - the timeout is still detected at 64 cloc..." "St_un_w,St_rst_w"
textline "                              "
bitfld.long 0x00 15. " ERRI              ,Error Interrupt If any of the bits in the Error Interrupt Status register (MMCHS_STAT[31:16]) are set, then this bit is set to 1. Therefore the host driver can efficiently test for an error by checking this bit first. Writes to this..." "IRQ_fal_r,IRQ_tru_r"
bitfld.long 0x00 10. "           BSR              ,Boot status received interrupt This bit is set automatically when MMCHS_CON[BOOT] is set 0x1 or 0x2 and a boot status is received on DAT[0] line. This interrupt is only useful for MMC card. - St_un_w. - St_rst_w. - IRQ_tru_..." "St_un_w,St_rst_w"
bitfld.long 0x00 9. "         OBI              ,Out-Of-Band interrupt This bit is set automatically when MMCHS_CON[OBIE] is set and an Out-of-Band interrupt occurs on OBI pin. The interrupt detection depends on polarity controlled by MMCHS_CON[OBIP]. This interrupt is only..." "St_un_w,St_rst_w"
textline "                              "
bitfld.long 0x00 8. " CIRQ              ,Card interrupt This bit is only used for SD and SDIO and CE-ATA cards. In 1-bit mode, interrupt source is asynchronous (can be a source of asynchronous wakeup). In 4-bit mode, interrupt source is sampled during the interrupt cycle. ..." "IRQ_fal_r,IRQ_tru_r"
bitfld.long 0x00 7. "           CREM             ,Card removal This bit is set automatically when MMCHS_PSTATE[CINS] changes from 1 to 0. A clear of this bit doesn't affect Card inserted present state (MMCHS_PSTATE[CINS]). - St_un_w. - St_rst_w. - IRQ_tru_r. - IRQ_fal_r." "St_un_w,St_rst_w"
bitfld.long 0x00 6. "         CINS             ,Card insertion This bit is set automatically when MMCHS_PSTATE[CINS] changes from 0 to 1. A clear of this bit doesn't affect Card inserted present state (MMCHS_PSTATE[CINS]). - St_un_w. - St_rst_w. - IRQ_tru_r. - IRQ_fal_r." "St_un_w,St_rst_w"
textline "                              "
bitfld.long 0x00 5. " BRR               ,Buffer read ready This bit is set automatically during a read operation to the card (see class 2 - block oriented read commands) when one block specified by MMCHS_BLK[BLEN] is completely written in the buffer. It indicates that the ..." "St_un_w,St_rst_w"
bitfld.long 0x00 4. "            BWR              ,Buffer write ready This bit is set automatically during a write operation to the card (see class 4 - block oriented write command) when the host can write a complete block as specified by MMCHS_BLK[BLEN]. It indicates that..." "St_un_w,St_rst_w"
bitfld.long 0x00 3. "         DMA              ,DMA interrupt : This status is set when an interrupt is required in the ADMA instruction and after the data transfer completion. - St_un_w. - St_rst_w. - IRQ_tru_r. - IRQ_fal_r." "St_un_w,St_rst_w"
textline "                              "
bitfld.long 0x00 2. " BGE               ,Block gap event When a stop at block gap is requested (MMCHS_HCTL[SBGR]), this bit is automatically set when transaction is stopped at the block gap during a read or write operation. This event does not occur when the stop at block ..." "St_un_w,St_rst_w"
bitfld.long 0x00 1. "            TC               ,Transfer completed This bit is always set when a read/write transfer is completed or between two blocks when the transfer is stopped due to a stop at block gap request (MMCHS_HCTL[SBGR]). In Read mode: This bit is automati..." "St_un_w,St_rst_w"
bitfld.long 0x00 0. "         CC               ,Command complete This bit is set when a 1-to-0 transition occurs in the register command inhibit (MMCHS_PSTATE[CMDI]) If the command is a type for which no response is expected, then the command complete interrupt is generate..." "St_un_w,St_rst_w"
group.long 0x234++0x3
line.long 0x00 "MMCHS_IE,Interrupt Status Enable Register This register allows to enable/disable the module to set status bits, on an event-by-event basis. [31:16] = Error Interrupt Status Enable [15:0] = Normal Interrupt Status Enable"
bitfld.long 0x00 29. " BADA_ENABLE       ,Bad access to data space Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 28. "             CERR_ENABLE      ,Card Error Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 26. "          TE_ENABLE        ,Tuning Error Status Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 25. " ADMAE_ENABLE      ,ADMA Error Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 24. "             ACE_ENABLE       ,Auto CMD Error Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 22. "          DEB_ENABLE       ,Data End Bit Error Status Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 21. " DCRC_ENABLE       ,Data CRC Error Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 20. "             DTO_ENABLE       ,Data Timeout Error Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 19. "          CIE_ENABLE       ,Command Index Error Status Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 18. " CEB_ENABLE        ,Command End Bit Error Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 17. "             CCRC_ENABLE      ,Command CRC Error Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 16. "          CTO_ENABLE       ,Command Timeout Error Status Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 15. " NULL              ,Fixed to 0 The host driver shall control error interrupts using the Error Interrupt Signal Enable register. Writes to this bit are ignored" "0,1"
bitfld.long 0x00 10. "                   BSR_ENABLE       ,Boot Status Enable A write to this register when MMCHS_CON[BOOT_ACK] is set to 0x0 is ignored. - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 9. "          OBI_ENABLE       ,Out-of-Band Status Enable A write to this register when MMCHS_CON[OBIE] is set to '0' is ignored. - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 8. " CIRQ_ENABLE       ,Card Status Enable A clear of this bit also clears the corresponding status bit. During 1-bit mode, if the interrupt routine doesn't remove the source of a card interrupt in the SDIO card, the status bit is reasserted when this bit ..." "Masked,Enabled"
bitfld.long 0x00 7. "             CREM_ENABLE      ,Card Removal Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 6. "          CINS_ENABLE      ,Card Insertion Status Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 5. " BRR_ENABLE        ,Buffer Read Ready Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 4. "             BWR_ENABLE       ,Buffer Write Ready Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 3. "          DMA_ENABLE       ,DMA Status Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 2. " BGE_ENABLE        ,Block Gap Event Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 1. "             TC_ENABLE        ,Transfer Complete Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 0. "          CC_ENABLE        ,Command Complete Status Enable - Masked. - Enabled." "Masked,Enabled"
group.long 0x238++0x3
line.long 0x00 "MMCHS_ISE,Interrupt Signal Enable Register This register allows to enable/disable the module internal sources of status, on an event-by-event basis. [31:16] = Error Interrupt Signal Enable [15:0] = Normal Interrupt Signal Enable"
bitfld.long 0x00 29. " BADA_SIGEN        ,Bad access to data space Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 28. "             CERR_SIGEN       ,Card Error Interrupt Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 26. "          TE_SIGEN         ,Tuning Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 25. " ADMAE_SIGEN       ,ADMA Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 24. "             ACE_SIGEN        ,Auto CMD Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 22. "          DEB_SIGEN        ,Data End Bit Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 21. " DCRC_SIGEN        ,Data CRC Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 20. "             DTO_SIGEN        ,Data Timeout Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 19. "          CIE_SIGEN        ,Command Index Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 18. " CEB_SIGEN         ,Command End Bit Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 17. "             CCRC_SIGEN       ,Command CRC Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 16. "          CTO_SIGEN        ,Command timeout Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 15. " NULL              ,Fixed to 0 The host driver shall control error interrupts using the Error Interrupt Signal Enable register. Writes to this bit are ignored" "0,1"
bitfld.long 0x00 10. "                   BSR_SIGEN        ,Boot Status Signal Enable A write to this register when MMCHS_CON[BOOT_ACK] is set to 0x0 is ignored. - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 9. "          OBI_SIGEN        ,Out-Of-Band Interrupt Signal Enable A write to this register when MMCHS_CON[OBIE] is set to '0' is ignored. - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 8. " CIRQ_SIGEN        ,Card Interrupt Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 7. "             CREM_SIGEN       ,Card Removal Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 6. "          CINS_SIGEN       ,Card Insertion Signal Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 5. " BRR_SIGEN         ,Buffer Read Ready Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 4. "             BWR_SIGEN        ,Buffer Write Ready Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 3. "          DMA_SIGEN        ,DMA Interrupt Signal Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 2. " BGE_SIGEN         ,Black Gap Event Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 1. "             TC_SIGEN         ,Transfer Completed Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 0. "          CC_SIGEN         ,Command Complete Status Enable - Masked. - Enabled." "Masked,Enabled"
group.long 0x23C++0x3
line.long 0x00 "MMCHS_AC12,Host Control 2 Register and Auto CMD Error Status Register This register is used to indicate CMD12 response error of Auto CMD12 and CMD23 response error of Auto CMD23. The Host driver can determine what kind of Auto CMD12 / CMD23 errors occu..."
bitfld.long 0x00 31. " PV_ENABLE         ,Preset Value Enable Host Controller Version 3.00 supports this bit. As the operating SDCLK frequency and I/O driver strength depend on the Host System implementation, it is difficult to determine these parameters in the Standard Hos..." "Disabled,Enabled"
bitfld.long 0x00 30. "            AI_ENABLE        ,Asynchronous Interrupt Enable This bit can be set to 1 if a card supports asynchronous interrupts and MMCHS_CAPA[29] AIS is set to 1. Asynchronous interrupt is effective when DAT[1] interrupt is used in 4-bit SD mode (and ..." "Disabled,Enabled"
bitfld.long 0x00 23. "         SCLK_SEL         ,Sampling Clock Select Host Controller uses this bit to select sampling clock to receive CMD and DAT. This bit is set by tuning procedure and valid after the completion of tuning (when MMCHS_AC12[22] ET is cleared). Setting 1 ..." "Fixed,Tuned"
textline "                              "
bitfld.long 0x00 22. " ET                ,Execute Tuning This bit is set to 1 to start tuning procedure and automatically cleared when tuning procedure is completed. The result of tuning is indicated to MMCHS_AC12[23] SCLK_SEL. Tuning procedure is aborted by writing 0. This..." "Completed,Execute"
bitfld.long 0x00 20.--21. "           DS_SEL           ,Driver Strength Select Host Controller output driver in 1.8V signaling is selected by this bit. In 3.3V signaling, this field is not effective. This field can be set depending on Driver Type A, C and D support bits (DTA, DT..." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 19. "              V1V8_SIGEN       ,1.8V Signaling Enable This bit controls voltage regulator for I/O cell. 3.3V is supplied to the card regardless of signaling voltage. Setting this bit from 0 to 1 starts changing signal voltage from 3.3V to 1.8V. 1.8V re..." "3V3,1V8"
textline "                              "
bitfld.long 0x00 16.--18. " UHSMS             ,UHS Mode Select This field is used to select one of UHS-I modes and effective when 1.8V Signaling Enable is set to 1. If MMCHS_AC12[31] PV_ENABLE is set to 1, Host Controller sets MMCHS_SYSCTL[15:6] CLKD, MMCHS_SYSCTL[5] CGS and MMC..." "SDR12,SDR25,SDR50,SDR104,DDR50,Reserved1,Reserved2,Reserved3"
bitfld.long 0x00 7. "           CNI              ,Command Not Issued By Auto CMD12 Error Setting this bit to 1 means CMD_wo_DAT is not executed due to an Auto CMD12 Error (D04-D01) in this register. This bit is set to 0 when Auto CMD Error is generated by Auto CMD23. - Cmd..." "NoErr,CmdNI"
bitfld.long 0x00 4. "            ACIE             ,Auto CMD Index Error - For Auto CMD12 and Auto CMD23 This bit is set if the Command Index error occurs in response to a command. - Err. - NoErr." "NoErr,Err"
textline "                              "
bitfld.long 0x00 3. " ACEB              ,Auto CMD End Bit Error - For Auto CMD12 and Auto CMD23 This bit is set when detecting that the end bit of command response is 0. - Err. - NoErr." "NoErr,Err"
bitfld.long 0x00 2. "               ACCE             ,Auto CMD CRC Error - For Auto CMD12 and Auto CMD23 This bit is set when detecting a CRC error in the command response. - Err. - NoErr." "NoErr,Err"
bitfld.long 0x00 1. "            ACTO             ,Auto CMD Timeout Error - For Auto CMD12 and Auto CMD23 This bit is set if no response is returned within 64 SDCLK cycles from the end bit of command. If this bit is set to1, the other error status bits (D04-D02) are meanin..." "NoErr,TimeOut"
textline "                              "
bitfld.long 0x00 0. " ACNE              ,Auto CMD12 Not Executed If memory multiple block data transfer is not started due to command error, this bit is not set because it is not necessary to issue Auto CMD12. Setting this bit to 1 means the Host Controller cannot issue Au..." "Exe,NotExe"
group.long 0x240++0x3
line.long 0x00 "MMCHS_CAPA,Capabilities Register This register lists the capabilities of the MMC/SD/SDIO host controller."
bitfld.long 0x00 29. " AIS               ,Asynchronous Interrupt Support Refer to SDIO Specification Version 3.00 about asynchronous interrupt. - AIS_Sup. - AIS_NotSup." "AIS_NotSup,AIS_Sup"
bitfld.long 0x00 28. "          BIT64            ,64 Bit System Bus Support Setting 1 to this bit indicates that the Host Controller supports 64-bit address descriptor mode and is connected to 64-bit address system bus. - SysAddr64b. - SysAddr32b." "SysAddr32b,SysAddr64b"
bitfld.long 0x00 26. "       VS18             ,Voltage support 1.8V Initialization of this register (via a write access to this register) depends on the system capabilities. The host driver shall not modify this register after the initilaization. This register is only reini..." "St_1V8NotSup_w,St_1V8Sup_w"
textline "                              "
bitfld.long 0x00 25. " VS30              ,Voltage support 3.0V Initialization of this register (via a write access to this register) depends on the system capabilities. The host driver shall not modify this register after the initilaization. This register is only reinitiali..." "St_3V0NotSup_w,St_3V0Sup_w"
bitfld.long 0x00 24. "      VS33             ,Voltage support 3.3V Initialization of this register (via a write access to this register) depends on the system capabilities. The host driver shall not modify this register after the initilaization. This register is only reinit..." "St_3V3NotSup_w,St_3V3Sup_w"
bitfld.long 0x00 23. "   SRS              ,Suspend/Resume support (SDIO cards only) This bit indicates whether the host controller supports Suspend/Resume functionality. - Supported. - NotSupported." "NotSupported,Supported"
textline "                              "
bitfld.long 0x00 22. " DS                ,DMA support This bit indicates that the Host Controller is able to use DMA to transfer data between system memory and the Host Controller directly. - Supported. - NotSupported." "NotSupported,Supported"
bitfld.long 0x00 21. "        HSS              ,High speed support This bit indicates that the host controller supports high speed operations and can supply an up-to maximum card frequency. - Supported. - NotSupported." "NotSupported,Supported"
bitfld.long 0x00 19. "     AD2S             ,ADMA2 Support This bit indicates whether the Host Controller is capable of using ADMA2. It depends on setting of generic parameter MADMA_EN - ADMA2Supported. - ADMA2NotSupported." "ADMA2NotSupported,ADMA2Supported"
textline "                              "
bitfld.long 0x00 16.--17. " MBL               ,Maximum block length This value indicates the maximum block size that the host driver can read and write to the buffer in the host controller. This value depends on definition of generic parameter with a max value of 2048 bytes. The..." "512,1024,2048,3"
hexmask.long.byte 0x00 8.--15. 1. "                BCF              ,Base Clock Frequency For SD Clock This value indicates the base (maximum) clock frequency for the SD Clock. 8-bit Base Clock Frequency This mode is supported by the Host Controller Version 3.00. Unit values are 1MHz. T..."
bitfld.long 0x00 7. "               TCU              ,Timeout clock unit This bit shows the unit of base clock frequency used to detect Data Timeout Error (MMCHS_STAT[DTO]). - KHz. - MHz." "MHz,KHz"
textline "                              "
bitfld.long 0x00 0.--5. " TCF               ,Timeout clock frequency The timeout clock frequency is used to detect Data Timeout Error (MMCHS_STAT[DTO]). - OMeth." "OMeth,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x244++0x3
line.long 0x00 "MMCHS_CAPA2,Capabilities 2 Register This register provides the Host Driver with information specific to the Host Controller implementation. The Host Controller may implement these values as fixed or loaded from flash memory during power on initializati..."
hexmask.long.byte 0x00 16.--23. 1. " CM                ,Clock Multiplier This field indicates clock multiplier value of programmable clock generator. Refer to MMCHS_SYSCTL [15:0]. Setting 00h means that Host Controller does not support programmable clock generator. 00h : Clock Multiplier..."
bitfld.long 0x00 14.--15. "                  RTM              ,Re-Tuning Modes This field selects re-tuning method and limits the maximum data length." "Mode1,Mode2,Mode3,Reserved"
bitfld.long 0x00 13. "         TSDR50           ,Use Tuning for SDR50 If this bit is set to 1, this Host Controller requires tuning to operate SDR50. (Tuning is always required to operate SDR104.) - Required. - NotRequired." "NotRequired,Required"
textline "                              "
bitfld.long 0x00 8.--11. " TCRT              ,Timer Count for Re-Tuning This field indicates an initial value of the Re-Tuning Timer for Re-Tuning Mode 1 to 3. Setting to 0 disables Re-Tuning Timer. - 3. - Reserved3. - Reserved1. - 4. - 11. - OtherSource. - 2. - Disabled. - 10...." "Disabled,1,2,3,4,5,6,7,8,9,10,11,Reserved1,Reserved2,Reserved3,OtherSource"
bitfld.long 0x00 6. "         DTD              ,Driver Type D Support This bit indicates support of Driver Type D for 1.8 Signaling. - Supported. - NotSupported." "NotSupported,Supported"
bitfld.long 0x00 5. "     DTC              ,Driver Type C Support This bit indicates support of Driver Type C for 1.8 Signaling. - Supported. - NotSupported." "NotSupported,Supported"
textline "                              "
bitfld.long 0x00 4. " DTA               ,Driver Type A Support This bit indicates support of Driver Type A for 1.8 Signaling. - Supported. - NotSupported." "NotSupported,Supported"
bitfld.long 0x00 2. "        DDR50            ,DDR50 Support - Supported. - NotSupported." "NotSupported,Supported"
bitfld.long 0x00 1. "     SDR104           ,SDR104 Support SDR104 requires tuning. - Supported. - NotSupported." "NotSupported,Supported"
textline "                              "
bitfld.long 0x00 0. " SDR50             ,SDR50 Support If SDR104 is supported, this bit shall be set to 1. Bit 13 indicates whether SDR50 requires tuning or not. - Supported. - NotSupported." "NotSupported,Supported"
group.long 0x248++0x3
line.long 0x00 "MMCHS_CUR_CAPA,Maximum Current Capabilities Register This register indicates the maximum current capability for each voltage. The value is meaningful if the voltage support is set in the capabilities register (). Initialization of this register (via a ..."
hexmask.long.byte 0x00 16.--23. 1. " CUR_1V8           ,Maximum current for 1.8V - OMeth."
hexmask.long.byte 0x00 8.--15. 1. "                  CUR_3V0          ,Maximum current for 3.0V - OMeth."
hexmask.long.byte 0x00 0.--7. 1. "               CUR_3V3          ,Maximum current for 3.3V - OMeth."
wgroup.long 0x250++0x3
line.long 0x00 "MMCHS_FE,Force Event Register for Auto CMD Error Status and Error Interrupt status The Force Event Register is not a physically implemented register. Rather, it is an address at which the Auto CMD Error Status Register () can be written. Writing 1 : se..."
bitfld.long 0x00 29. " FE_BADA           ,Force Event Bad access to data space. - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 28. "           FE_CERR          ,Force Event Card error. - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 25. "        FE_ADMAE         ,Force Event ADMA Error. - NoAction. - IntForced." "NoAction,IntForced"
textline "                              "
bitfld.long 0x00 24. " FE_ACE            ,Force Event for Auto CMD Error - For Auto CMD12 and Auto CMD23 - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 22. "           FE_DEB           ,Force Event Data End Bit error. - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 21. "        FE_DCRC          ,Force Event Data CRC Error. - NoAction. - IntForced." "NoAction,IntForced"
textline "                              "
bitfld.long 0x00 20. " FE_DTO            ,Force Event Data Timeout Error. - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 19. "           FE_CIE           ,Force Event Command Index Error. - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 18. "        FE_CEB           ,Force Event Command End Bit Error. - NoAction. - IntForced." "NoAction,IntForced"
textline "                              "
bitfld.long 0x00 17. " FE_CCRC           ,Force Event Command CRC Error. - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 16. "           FE_CTO           ,Command Timeout Error This bit is set automatically when no response is received within 64 clock cycles from the end bit of the command. For commands that reply within 5 clock cycles - the timeout is still detected at 64 cl..." "St_un_w,St_rst_w"
bitfld.long 0x00 7. "         FE_CNI           ,Force Event Command not issue by Auto CMD12 error - NoAction. - IntForced." "NoAction,IntForced"
textline "                              "
bitfld.long 0x00 4. " FE_ACIE           ,Force Event for Auto CMD Index Error - For Auto CMD12 and Auto CMD23 - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 3. "           FE_ACEB          ,Force Event Auto CMD End Bit Error - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 2. "        FE_ACCE          ,Force Event Auto CMD CRC Error - NoAction. - IntForced." "NoAction,IntForced"
textline "                              "
bitfld.long 0x00 1. " FE_ACTO           ,Force Event Auto CMD Timeout Error - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 0. "           FE_ACNE          ,Force Event Auto CMD12 Not Executed - NoAction. - IntForced." "NoAction,IntForced"
group.long 0x254++0x3
line.long 0x00 "MMCHS_ADMAES,ADMA Error Status Register When ADMA Error Interrupt is occurred, the ADMA Error States field in this register holds the ADMA state and the ADMA System Address Register holds the address around the error descriptor. For recovering the erro..."
bitfld.long 0x00 2. " LME               ,ADMA Length Mismatch Error: (1) While Block Count Enable being set, the total data length specified by the Descriptor table is different from that specified by the Block Count and Block Length. (2) Total data length can not be divid..." "NoError,Error"
bitfld.long 0x00 0.--1. "             AES              ,ADMA Error State his field indicates the state of ADMA when error is occurred during ADMA data transfer. This field never indicates '10' because ADMA never stops in this state. - Syssdr. - linkDesc. - TransData. - Reserved." "Syssdr,linkDesc,Reserved,TransData"
group.long 0x258++0x3
line.long 0x00 "MMCHS_ADMASAL,ADMA System address Low bits"
hexmask.long 0x00 0.--31. 1. " ADMA_A32B         ,ADMA System address 32 bits.This register holds byte address of executing command of the Descriptor table. 32-bit Address Descriptor uses lower 32-bit of this register. At the start of ADMA, the Host Driver shall set start address o..."
rgroup.long 0x260++0x3
line.long 0x00 "MMCHS_PVINITSD,Preset Value for Initialization and Default Speed modes"
bitfld.long 0x00 30.--31. " DSDS_SEL          ,Driver Strength Select Value - Default Speed mode Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling. - DTD. - DTC. - DTA. - DTB." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 26. "                 DSCLKGEN_SEL     ,Clock Generator Select Value - Default Speed mode This bit is effective when Host Controller supports programmable clock generator. - Prog. - Host." "Host,Prog"
hexmask.long.word 0x00 16.--25. 1. "             DSSDCLK_SEL      ,SDCLK Frequency Select Value - Default Speed mode 10-bit preset value to set MMCHS_SYSCTL[15:6] CLKD is described by a host system."
textline "                              "
bitfld.long 0x00 14.--15. " INITDS_SEL        ,Driver Strength Select Value - Initialization mode Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling. - DTD. - DTC. - DTA. - DTB." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 10. "                 INITCLKGEN_SEL   ,Clock Generator Select Value - Initialization mode This bit is effective when Host Controller supports programmable clock generator. - Prog. - Host." "Host,Prog"
hexmask.long.word 0x00 0.--9. 1. "             INITSDCLK_SEL    ,SDCLK Frequency Select Value - Initialization mode 10-bit preset value to set MMCHS_SYSCTL[15:6] CLKD is described by a host system."
rgroup.long 0x264++0x3
line.long 0x00 "MMCHS_PVHSSDR12,Preset Value for High Speed and SDR12 speed modes"
bitfld.long 0x00 30.--31. " SDR12DS_SEL       ,Driver Strength Select Value - SDR12 mode Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling. - DTD. - DTC. - DTA. - DTB." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 26. "                 SDR12CLKGEN_SEL  ,Clock Generator Select Value - SDR12 mode This bit is effective when Host Controller supports programmable clock generator. - Prog. - Host." "Host,Prog"
hexmask.long.word 0x00 16.--25. 1. "             SDR12SDCLK_SEL   ,SDCLK Frequency Select Value - SDR12 mode 10-bit preset value to set MMCHS_SYSCTL[15:6] CLKD is described by a host system."
textline "                              "
bitfld.long 0x00 14.--15. " HSDS_SEL          ,Driver Strength Select Value - High Speed mode Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling. - DTD. - DTC. - DTA. - DTB." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 10. "                 HSCLKGEN_SEL     ,Clock Generator Select Value - High Speed mode This bit is effective when Host Controller supports programmable clock generator. - Prog. - Host." "Host,Prog"
hexmask.long.word 0x00 0.--9. 1. "             HSSDCLK_SEL      ,SDCLK Frequency Select Value - High Speed mode 10-bit preset value to set MMCHS_SYSCTL[15:6] CLKD is described by a host system."
rgroup.long 0x268++0x3
line.long 0x00 "MMCHS_PVSDR25SDR50,Preset Value for SDR25 and SDR50 speed modes"
bitfld.long 0x00 30.--31. " SDR50DS_SEL       ,Driver Strength Select Value - SDR50 mode Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling. - DTD. - DTC. - DTA. - DTB." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 26. "                 SDR50CLKGEN_SEL  ,Clock Generator Select Value - SDR50 mode This bit is effective when Host Controller supports programmable clock generator. - Prog. - Host." "Host,Prog"
hexmask.long.word 0x00 16.--25. 1. "             SDR50SDCLK_SEL   ,SDCLK Frequency Select Value - SDR50 mode 10-bit preset value to set MMCHS_SYSCTL[15:6] CLKD is described by a host system."
textline "                              "
bitfld.long 0x00 14.--15. " SDR25DS_SEL       ,Driver Strength Select Value - SDR25 mode Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling. - DTD. - DTC. - DTA. - DTB." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 10. "                 SDR25CLKGEN_SEL  ,Clock Generator Select Value - SDR25 mode This bit is effective when Host Controller supports programmable clock generator. - Prog. - Host." "Host,Prog"
hexmask.long.word 0x00 0.--9. 1. "             SDR25SDCLK_SEL   ,SDCLK Frequency Select Value - SDR25 mode 10-bit preset value to set MMCHS_SYSCTL[15:6] CLKD is described by a host system."
rgroup.long 0x26C++0x3
line.long 0x00 "MMCHS_PVSDR104DDR50,Preset Value for SDR104 and DDR50 speed modes"
bitfld.long 0x00 30.--31. " DDR50DS_SEL       ,Driver Strength Select Value - DDR50 mode Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling. - DTD. - DTC. - DTA. - DTB." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 26. "                 DDR50CLKGEN_SEL  ,Clock Generator Select Value - DDR50 mode This bit is effective when Host Controller supports programmable clock generator. - Prog. - Host." "Host,Prog"
hexmask.long.word 0x00 16.--25. 1. "             DDR50SDCLK_SEL   ,SDCLK Frequency Select Value - DDR50 mode 10-bit preset value to set MMCHS_SYSCTL[15:6] CLKD is described by a host system."
textline "                              "
bitfld.long 0x00 14.--15. " SDR104DS_SEL      ,Driver Strength Select Value - SDR104 mode Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling. - DTD. - DTC. - DTA. - DTB." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 10. "                 SDR104CLKGEN_SEL ,Clock Generator Select Value - SDR104 mode This bit is effective when Host Controller supports programmable clock generator. - Prog. - Host." "Host,Prog"
hexmask.long.word 0x00 0.--9. 1. "             SDR104SDCLK_SEL  ,SDCLK Frequency Select Value - SDR104 mode 10-bit preset value to set MMCHS_SYSCTL[15:6] CLKD is described by a host system."
rgroup.long 0x2FC++0x3
line.long 0x00 "MMCHS_REV,Versions Register This register contains the hard coded RTL vendor revision number, the version number of SD specification compliancy and a slot status bit. [31:16] = Host controller version [15:0] = Slot Interrupt Status"
hexmask.long.byte 0x00 24.--31. 1. " VREV              ,Vendor Version Number: IP revision [7:4] Major revision [3:0] Minor revision Examples: 0x10 for 1.0 0x21 for 2.1"
hexmask.long.byte 0x00 16.--23. 1. "                  SREV             ,Specification Version Number This status indicates the Host Controller Spec. Version. The upper and lower 4-bits indicate the version. - Other. - Ver3. - Ver2. - Ver1."
bitfld.long 0x00 0. "               SIS              ,Slot Interrupt Status This status bit indicates the inverted state of interrupt signal for the module. By a power on reset or by setting a software reset for all (MMCHS_HCTL[SRA]), the interrupt signal shall be de-asser..." "0,1"
width 0x0B
tree.end
tree "MMC2"
base ad:0x480B4000
width 21.
rgroup.long 0x0++0x3
line.long 0x00 "MMCHS_HL_REV,IP Revision Identifier (X.Y.R) Used by software to track features, bugs, and compatibility"
hexmask.long 0x00 0.--31. 1. " REVISION          ,IP Revision"
rgroup.long 0x4++0x3
line.long 0x00 "MMCHS_HL_HWINFO,Information about the IP module's hardware configuration."
bitfld.long 0x00 6. " RETMODE           ,Retention Mode generic parameter This bit field indicates whether the retention mode is supported using the pin PIRFFRET. - RetEnabled. - RetDisabled." "RetDisabled,RetEnabled"
bitfld.long 0x00 2.--5. "         MEM_SIZE         ,Memory size for FIFO buffer: - MEM_1024. - MEM_512. - MEM_4096. - MEM_2048." "0,MEM_512,MEM_1024,3,MEM_2048,5,6,7,MEM_4096,9,10,11,12,13,14,15"
bitfld.long 0x00 1. "         MERGE_MEM        ,Memory merged for FIFO buffer: This register defines the configuration of FIFO buffer architecture. If the bit is set STA and DFT shall support clock multiplexing and balancing. - SingleMemBuffer. - TwoMemBuffer." "TwoMemBuffer,SingleMemBuffer"
textline "                              "
bitfld.long 0x00 0. " MADMA_EN          ,Master DMA enabled generic parameter: This register defines the configuration of the controller to know if it supports the master DMA management called ADMA. - SupportADMA. - NoMasterDMA." "NoMasterDMA,SupportADMA"
group.long 0x10++0x3
line.long 0x00 "MMCHS_HL_SYSCONFIG,Clock Management Configuration Register"
bitfld.long 0x00 4.--5. " STANDBYMODE       ,Configuration of the local initiator state management mode. By definition, initiator may generate read/write transaction as long as it is out of STANDBY state. - ForceStandby. - NoStandby. - SmartStandbyWakeUp. - SmartStandby." "ForceStandby,NoStandby,SmartStandby,SmartStandbyWakeUp"
bitfld.long 0x00 2.--3. "  IDLEMODE         ,Configuration of the local target state management mode. By definition, target can handle read/write transaction as long as it is out of IDLE state. - ForceIdle. - NoIdle. - SmartIdleWakeUp. - SmartIdle." "ForceIdle,NoIdle,SmartIdle,SmartIdleWakeUp"
bitfld.long 0x00 1. "  FREEEMU          ,Sensitivity to emulation (debug) suspend input signal. Functionality NOT implemented in MMCHS. - EmuEn. - EmuDis." "EmuEn,EmuDis"
textline "                              "
bitfld.long 0x00 0. " SOFTRESET         ,Software reset. (Optional) - NoAction. - SoftReset. - ResetOnGoing. - ResetDone." "NoAction,SoftReset"
group.long 0x110++0x3
line.long 0x00 "MMCHS_SYSCONFIG,System Configuration Register This register allows controlling various parameters of the Interconnect interface."
bitfld.long 0x00 12.--13. " STANDBYMODE       ,Master interface power Management, standby/wait control. The bit field is only useful when generic parameter MMCHS_HL_HWINFO[0] MADMA_EN (Master ADMA enable) is set as active, otherwise it is a read only register read a '0'. - Force..." "Force,NoIdle,Smart,3"
bitfld.long 0x00 8.--9. "              CLOCKACTIVITY    ,Clocks activity during wake up mode period. Bit8: Interface clock Bit9: Functional clock - None. - OCP. - Both. - Func." "None,OCP,Func,Both"
bitfld.long 0x00 3.--4. "             SIDLEMODE        ,Power management - Force. - NoIdle. - SmartWake. - Smart." "Force,NoIdle,Smart,SmartWake"
textline "                              "
bitfld.long 0x00 2. " ENAWAKEUP         ,Wakeup feature control - Disabled. - Enable." "Disabled,Enable"
bitfld.long 0x00 1. "            SOFTRESET        ,Software reset. The bit is automatically reset by the hardware. During reset, it always returns 0. - St_un_w. - St_rst_w. - OnReset_r. - NoReset_r." "St_un_w,St_rst_w"
bitfld.long 0x00 0. "         AUTOIDLE         ,Internal Clock gating strategy - Off. - On." "Off,On"
rgroup.long 0x114++0x3
line.long 0x00 "MMCHS_SYSSTATUS,System Status Register This register provides status information about the module excluding the interrupt status information"
bitfld.long 0x00 0. " RESETDONE         ,Internal Reset Monitoring Note: the debounce clock , the system clock (Interface) and the functional clock shall be provided to the MMC/SD/SDIO host controller to allow the internal reset monitoring. - Done. - OnGoing." "OnGoing,Done"
group.long 0x124++0x3
line.long 0x00 "MMCHS_CSRE,Card Status Response Error This register enables the host controller to detect card status errors of response type R1, R1b for all cards and of R5, R5b and R6 response for cards types SD or SDIO. When a bit [i] is set to 1, if the correspond..."
hexmask.long 0x00 0.--31. 1. " CSRE              ,Card status response error"
group.long 0x128++0x3
line.long 0x00 "MMCHS_SYSTEST,System Test Register This register is used to control the signals that connect to I/O pins when the module is configured in system test (SYSTEST) mode for boundary connectivity verification. Note: In SYSTEST mode, a write into register wi..."
bitfld.long 0x00 16. " OBI               ,Out-Of-Band Interrupt (OBI) data value - HighLevel. - LowLevel." "LowLevel,HighLevel"
bitfld.long 0x00 15. "           SDCD             ,Card detect input signal (mmci_sdcd) data value - DrivenHigh. - DrivenLow." "DrivenLow,DrivenHigh"
bitfld.long 0x00 14. "       SDWP             ,Write protect input signal (mmci_sdwp) data value - DrivenHigh. - DrivenLow." "DrivenLow,DrivenHigh"
textline "                              "
bitfld.long 0x00 13. " WAKD              ,Wake request output signal data value - DrivenLow_w. - DrivenHIgh_w. - One_r. - Zero_r." "DrivenLow_w,DrivenHIgh_w"
bitfld.long 0x00 12. "        SSB              ,Set status bit This bit must be cleared prior attempting to clear a status bit of the interrupt status register (MMCHS_STAT). - Clear_w. - SetThemAll_w. - One_r. - Zero_r." "Clear_w,SetThemAll_w"
bitfld.long 0x00 11. "     D7D              ,DAT7 input/output signal data value - DriveLow_w. - DriveHigh_w. - One_r. - Zero_r." "DriveLow_w,DriveHigh_w"
textline "                              "
bitfld.long 0x00 10. " D6D               ,DAT6 input/output signal data value - DriveLow_w. - DriveHigh_w. - One_r. - Zero_r." "DriveLow_w,DriveHigh_w"
bitfld.long 0x00 9. "         D5D              ,DAT5 input/output signal data value - DriveLow_w. - DriveHigh_w. - One_r. - Zero_r." "DriveLow_w,DriveHigh_w"
bitfld.long 0x00 8. "      D4D              ,DAT4 input/output signal data value - DriveLow_w. - DriveHigh_w. - One_r. - Zero_r." "DriveLow_w,DriveHigh_w"
textline "                              "
bitfld.long 0x00 7. " D3D               ,DAT3 input/output signal data value - DriveLow_w. - DriveHigh_w. - One_r. - Zero_r." "DriveLow_w,DriveHigh_w"
bitfld.long 0x00 6. "         D2D              ,DAT2 input/output signal data value - DriveLow_w. - DriveHigh_w. - One_r. - Zero_r." "DriveLow_w,DriveHigh_w"
bitfld.long 0x00 5. "      D1D              ,DAT1 input/output signal data value - DriveLow_w. - DriveHigh_w. - One_r. - Zero_r." "DriveLow_w,DriveHigh_w"
textline "                              "
bitfld.long 0x00 4. " D0D               ,DAT0 input/output signal data value - Zero_w. - DriveHigh_w. - One_r. - Zero_r." "Zero_w,DriveHigh_w"
bitfld.long 0x00 3. "         DDIR             ,Control of the DAT[7:0] pins direction. - Out_w. - In_w. - One_r. - Zero_r." "Out_w,In_w"
bitfld.long 0x00 2. "            CDAT             ,CMD input/output signal data value - DriveLow_w. - DriveHigh_w. - One_r. - Zero_r." "DriveLow_w,DriveHigh_w"
textline "                              "
bitfld.long 0x00 1. " CDIR              ,Control of the CMD pin direction. - Out_w. - In_w. - One_r. - Zero_r." "Out_w,In_w"
bitfld.long 0x00 0. "               MCKD             ,MMC clock output signal data value - DrivenLow_w. - DrivenHigh_w. - One_r. - Zero_r." "DrivenLow_w,DrivenHigh_w"
group.long 0x12C++0x3
line.long 0x00 "MMCHS_CON,Configuration Register This register is used: - to select the functional mode or the SYSTEST mode for any card. - to send an initialization sequence to any card. - to enable the detection on DAT[1] of a card interrupt for SDIO cards only. and..."
bitfld.long 0x00 21. " SDMA_LNE          ,Slave DMA Level/Edge Request: The waveform of the DMA request can be configured either edge sensitive with early de-assertion on first access to MMCHS_DATA register or late de-assertion, request remains active until last allowed dat..." "EarlyDeAssert,LateDeAssert"
bitfld.long 0x00 20. "       DMA_MNS          ,DMA Master or Slave selection: When this bit is set and the controller is configured to use the DMA, Interconnect master interface is used to get datas from system using ADMA2 procedure (direct access to the memory).This option..." "MasterDMADis,MasterDMAEn"
bitfld.long 0x00 19. "     DDR              ,Dual Data Rate mode: When this register is set, the controller uses both clock edge to emit or receive data. Odd bytes are transmitted on falling edges and even bytes are transmitted on rise edges. It only applies on Data bytes a..." "NormalMode,DDRMode"
textline "                              "
bitfld.long 0x00 18. " BOOT_CF0          ,Boot status supported: This register is set when the CMD line need to be forced to '0' for a boot sequence. CMD line is driven to '0' after writing in MMCHS_CMD. The line is released when this bit field is de-asserted and abort data..." "CMDReleased,CMDForceReq"
bitfld.long 0x00 17. "         BOOT_ACK         ,Book acknowledge received: When this bit is set the controller should receive a boot status on DAT0 line after next command issued. If no status is received a data timeout will be generated. - BootNoAck. - BootAck." "BootNoAck,BootAck"
bitfld.long 0x00 16. "        CLKEXTFREE       ,External clock free running: This register is used to maintain card clock out of transfer transaction to enable slave module for example to generate a synchronous interrupt on DAT[1]. The Clock will be maintain only if MMCHS_S..." "Autogating,FreeRunning"
textline "                              "
bitfld.long 0x00 15. " PADEN             ,Control Power for MMC Lines: This register is only useful when MMC PADs contain power saving mechanism to minimize its leakage power. It works as a GPIO that directly control the ACTIVE pin of PADs. Excepted for DAT[1], the signal i..." "Disable,Enable"
bitfld.long 0x00 14. "             OBIE             ,Out-of-Band Interrupt Enable MMC cards only: This bit enables the detection of Out-of-Band Interrupt on MMCOBI input pin. The usage of the Out-of-Band signal (OBI) is optional and depends on the system integration. - Norm..." "NormalMode,OBintMode"
bitfld.long 0x00 13. "       OBIP             ,Out-of-Band Interrupt Polarity MMC cards only: This bit selects the active level of the out-of-band interrupt coming from MMC cards. The usage of the Out-of-Band signal (OBI) is optional and depends on the system integration. -..." "ActiveHigh,ActiveLow"
textline "                              "
bitfld.long 0x00 12. " CEATA             ,CE-ATA control mode MMC cards compliant with CE-ATA:By default, this bit is set to 0. It is used to indicate that next commands are considered as specific CE-ATA commands that potentially use 'command completion' features. - NormalM..." "NormalMode,CEATAMode"
bitfld.long 0x00 11. "          CTPL             ,Control Power for DAT[1] line MMC and SD cards: By default, this bit is set to 0 and the host controller automatically disables all the input buffers outside of a transaction to minimize the leakage current. SDIO cards: When..." "MMC_SD,SDIO"
bitfld.long 0x00 9.--10. "           DVAL             ,Debounce filter value All cards This register is used to define a debounce period to filter the card detect input signal (mmci_sdcd). The usage of the card detect input signal (mmci_sdcd) is optional and depends on the syst..." "FilterLevel0,FilterLevel1,FilterLevel2,FilterLevel3"
textline "                              "
bitfld.long 0x00 8. " WPP               ,Write protect polarity For SD and SDIO cards only This bit selects the active level of the write protect input signal (mmci_sdwp). The usage of the write protect input signal (mmci_sdwp) is optional and depends on the system integra..." "ActiveHigh,ActiveLow"
bitfld.long 0x00 7. "          CDP              ,Card detect polarity All cards This bit selects the active level of the card detect input signal (mmci_sdcd). The usage of the card detect input signal (mmci_sdcd) is optional and depends on the system integration and the ty..." "ActiveHigh,ActiveLow"
bitfld.long 0x00 6. "       MIT              ,MMC interrupt command Only for MMC cards. This bit must be set to 1, when the next write access to the command register (MMCHS_CMD) is for writing a MMC interrupt command (CMD40) requiring the command timeout detection to be di..." "CTO,No_CTO"
textline "                              "
bitfld.long 0x00 5. " DW8               ,8-bit mode MMC select For SD/SDIO cards, this bit must be set to 0. For MMC card, this bit must be set following a valid SWITCH command (CMD6) with the correct value and extend CSD index written in the argument. Prior to this comman..." "1_4BitMode,8BitMode"
bitfld.long 0x00 4. "          MODE             ,Mode select All cards This bit select between Functional mode and SYSTEST mode. - FUNC. - SYSTEST." "FUNC,SYSTEST"
bitfld.long 0x00 3. "          STR              ,Stream command Only for MMC cards. This bit must be set to 1 only for the stream data transfers (read or write) of the adtc commands. Stream read is a class 1 command (CMD11: READ_DAT_UNTIL_STOP). Stream write is a class 3 c..." "Block,Stream"
textline "                              "
bitfld.long 0x00 2. " HR                ,Broadcast host response Only for MMC cards. This register is used to force the host to generate a 48-bit response for bc command type. It can be used to terminate the interrupt mode by generating a CMD40 response by the core (see se..." "NoHostResp,HostResp"
bitfld.long 0x00 1. "          INIT             ,Send initialization stream All cards. When this bit is set to 1, and the card is idle, an initialization sequence is sent to the card. An initialization sequence consists of setting the CMD line to 1 during 80 clock cycles. ..." "NoInit,InitStream"
bitfld.long 0x00 0. "       OD               ,Card open drain mode. Only for MMC cards. This bit must be set to 1 for MMC card commands 1, 2, 3 and 40, and if the MMC card bus is operating in open-drain mode during the response phase to the command sent. Typically, during ..." "NoOpenDrain,OpenDrain"
group.long 0x130++0x3
line.long 0x00 "MMCHS_PWCNT,Power Counter Register This register is used to program a mmc counter to delay command transfers after activating the PAD power, this value depends on PAD characteristics and voltage."
hexmask.long.word 0x00 0.--15. 1. " PWRCNT            ,Power counter register. This register is used to introduce a delay between the PAD ACTIVE pin assertion and the command issued. - 65535cycles. - nodelay. - 1cycles. - 65534cycles. - 2cycles."
group.long 0x134++0x3
line.long 0x00 "MMCHS_DLL,DLL control and status register This register is used for tuning procedure required for SDR104 speed mode. It gives visibility and control on the DLL"
bitfld.long 0x00 31. " DLL_SOFT_RESET    ,Soft reset for DLL, active HIGH. - Write_0. - Write_1. - Read_1. - Read_0." "Write_0,Write_1"
bitfld.long 0x00 30. "             LOCK_TIMER       ,Timer for the dll_lock signal to be asserted after reset. - DLL_FAST_MODE. - Other." "DLL_FAST_MODE,Other"
hexmask.long.byte 0x00 22.--29. 1. "    MAX_LOCK_DIFF    ,Maximum number of taps that the master DLL clock period measurement can deviate without resulting in the master DLL losing lock."
textline "                              "
bitfld.long 0x00 21. " FORCE_SR_F        ,Forced fine delay value." "0,1"
bitfld.long 0x00 20. "                   SWT              ,Software Tuning enable. The bit shall be set to manage the tuning sequence fully in software. NOTE: For proper operation when SDR104/HS200 mode is used this bit must be set to 0x1 which disables the Conflict Error (..." "0,1"
hexmask.long.byte 0x00 13.--19. 1. "                FORCE_SR_C       ,Forced coarse delay value"
textline "                              "
bitfld.long 0x00 12. " FORCE_VALUE       ,Put forced values to slave DLL, ignoring master DLL output and ratio value. - No_force. - Force." "No_force,Force"
bitfld.long 0x00 6.--11. "            SLAVE_RATIO      ,Fraction of a clock cycle for the shift to be implemented, in units of 256ths of a clock cycle. - plus135. - fourcycles. - plus180. - plus45. - plus225. - plus380. - plus0. - plus270. - plus90. - plus315." "plus0,1,plus45,3,plus90,5,plus135,7,plus180,9,plus225,11,plus270,13,plus315,15,plus380,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,fourcycles"
bitfld.long 0x00 3. "       DLL_UNLOCK_CLEAR ,Clears the phy_reg_status_mdll_unlock_sticky flags of the DLL. - 0. - 1." "0,1"
textline "                              "
bitfld.long 0x00 2. " DLL_UNLOCK_STICKY ,Asserted when any single period measurement exceeds MAX_LOCK_DIFF." "0,1"
bitfld.long 0x00 1. "                   DLL_CALIB        ,Enables Slave DLL to update new delay values. - Disabled. - Enabled." "Disabled,Enabled"
bitfld.long 0x00 0. "         DLL_LOCK         ,Master DLL lock status. - Locked. - NotLocked." "NotLocked,Locked"
group.long 0x200++0x3
line.long 0x00 "MMCHS_SDMASA,SDMA System Address / Argument 2 Register"
hexmask.long 0x00 0.--31. 1. " SDMA_ARG2         ,SDMA System Address / Argument 2 This register contains the physical system memory address used for DMA transfers or the second argument for the Auto CMD23. (1) SDMA System Address This register contains the system memory address fo..."
group.long 0x204++0x3
line.long 0x00 "MMCHS_BLK,Transfer Length Configuration Register [BLEN] is the block size register. [NBLK] is the block count register. This register shall be used for any card."
hexmask.long.word 0x00 16.--31. 1. " NBLK              ,Blocks count for current transfer This register is enabled when Block count Enable (MMCHS_CMD[BCE]) is set to 1 and is valid only for multiple block transfers. Setting the block count to 0 results no data blocks being transferred. N..."
hexmask.long.word 0x00 0.--11. 1. "                BLEN             ,Transfer Block Size. This register specifies the block size for block data transfers. Read operations during transfers may return an invalid value, and write operations are ignored. When a CMD12 command is issued to st..."
group.long 0x208++0x3
line.long 0x00 "MMCHS_ARG,Command Argument Register This register contains command argument specified as bit 39-8 of Command-Format These registers must be initialized prior to sending the command itself to the card (write action into the register register). Only exce..."
hexmask.long 0x00 0.--31. 1. " ARG               ,Command argument bits [31:0]"
group.long 0x20C++0x3
line.long 0x00 "MMCHS_CMD,Command and Transfer Mode Register [31:16] = the command register [15:0] = the transfer mode. This register configures the data and command transfers. A write into the most significant byte send the command. A write into [15:0] registers duri..."
bitfld.long 0x00 24.--29. " INDX              ,Command index - Binary encoded value from 0 to 63 specifying the command number send to card . - . - CMD13. - CMD33. - CMD59. - CMD15. - CMD30. - CMD8. - CMD5. - CMD2. - CMD27. - CMD44. - CMD36. - . - CMD62. - CMD4. - CMD39. - CMD32..." "CMD0,CMD1_or_ACMD1,CMD2_or_ACMD2,CMD3_or_ACMD3,CMD4,CMD5,CMD6,CMD7,CMD8,CMD9,CMD10,CMD11,CMD12_or_ACMD12,CMD13,CMD14_or_ACMD14,CMD15_or_ACMD15,CMD16,CMD17_or_ACMD17,CMD12,CMD19,CMD14,CMD15,CMD22,CMD17,CMD24_or_ACMD24,CMD25_or_ACMD25,CMD26_or_ACMD26,CMD27,CMD28_or_ACMD28,CMD29,CMD30,CMD31_or_ACMD31,CMD20,CMD33_or_ACMD33,CMD34_or_ACMD34,CMD35,CMD24,CMD25,CMD26,CMD39_or_ACMD39,CMD28,CMD41,CMD42,CMD43,CMD44,CMD45,CMD2,CMD47,CMD48,CMD31,CMD32,CMD33,CMD34,CMD53,CMD36,CMD55,CMD38,CMD39,CMD58,CMD59,CMD60,CMD61,CMD62,CMD63"
bitfld.long 0x00 22.--23. "     CMD_TYPE         ,Command typeThis register specifies three types of special command: Suspend, Resume and Abort.. - . - These bits shall be set to 00b for all other commands. . - . - Normal. - Suspend. - Abort. - Resume." "Normal,Suspend,Resume,Abort"
bitfld.long 0x00 21. "          DP               ,Data present select - This register indicates that data is present and DAT line shall be used. . - . It must be set to 0 in the following conditions:. - . - - command using only CMD line . - . - - command with no data transf..." "NoData,Data"
textline "                              "
bitfld.long 0x00 20. " CICE              ,Command Index check enable - This bit must be set to 1 to enable index check on command response to compare the index field in the response against the index of the command. . - . - If the index is not the same in the response as in..." "Nocheck,Check"
bitfld.long 0x00 19. "             CCCE             ,Command CRC check enable - This bit must be set to 1 to enable CRC7 check on command response to protect the response against transmission errors on the bus. . - . - If an error is detected, it is reported as a command CR..." "NoCheck,Check"
bitfld.long 0x00 16.--17. "          RSP_TYPE         ,Response type - This bits defines the response type of the command . - . - Norsp. - Lght36. - Lght48. - ." "Norsp,Lght36,Lght48,Lght48"
textline "                              "
bitfld.long 0x00 5. " MSBS              ,Multi/Single block select - This bit must be set to 1 for data transfer in case of multi block command. . - . - For any others command this bit shall be set to 0. . - . - sgleblk. - If this bit is 0, it is not necessary to set the r..." "sgleblk,multiblk"
bitfld.long 0x00 4. "            DDIR             ,Data transfer Direction Select - This bit defines either data transfer will be a read or a write. . - . - Write. - Read." "Write,Read"
bitfld.long 0x00 2.--3. "            ACEN             ,Auto CMD Enable - SD card only. - This field determines use of auto command functions. . - . - There are two methods to stop Multiple-block read and write operation . - . - ? Auto CMD23 Supported (Host Controller Version i..." "Disable,EnableCMD12,EnableCMD23,Reserved"
textline "                              "
bitfld.long 0x00 1. " BCE               ,Block Count Enable - Multiple block transfers only. . - . - This bit is used to enable the block count register ([NBLK]). . - . - When Block Count is disabled ([BCE] is set to 0) in Multiple block transfers ([MSBS] is set to 1), the..." "Disable,Enable"
bitfld.long 0x00 0. "             DE               ,DMA Enable - This bit is used to enable DMA mode for host data access. . - . - Disable. - Enable." "Disable,Enable"
rgroup.long 0x210++0x3
line.long 0x00 "MMCHS_RSP10,Command Response[31:0] Register (bits [31:0] of the internal RSP register) This 32-bit register holds bits positions [31:0] of command response type R1/R1b/R2/R3/R4/R5/R5b/R6/R7"
hexmask.long.word 0x00 16.--31. 1. " RSP1              ,Command Response [31:16]"
hexmask.long.word 0x00 0.--15. 1. "                RSP0             ,Command Response [15:0]"
rgroup.long 0x214++0x3
line.long 0x00 "MMCHS_RSP32,Command Response[63:32] Register (bits [63:32] of the internal RSP register) This 32-bit register holds bits positions [63:32] of command response type R2"
hexmask.long.word 0x00 16.--31. 1. " RSP3              ,Command Response [63:48]"
hexmask.long.word 0x00 0.--15. 1. "                RSP2             ,Command Response [47:32]"
rgroup.long 0x218++0x3
line.long 0x00 "MMCHS_RSP54,Command Response[95:64] Register (bits [95:64] of the internal RSP register) This 32-bit register holds bits positions [95:64] of command response type R2"
hexmask.long.word 0x00 16.--31. 1. " RSP5              ,Command Response [95:80]"
hexmask.long.word 0x00 0.--15. 1. "                RSP4             ,Command Response [79:64]"
rgroup.long 0x21C++0x3
line.long 0x00 "MMCHS_RSP76,Command Response[127:96] Register (bits [127:96] of the internal RSP register) This 32-bit register holds bits positions [127:96] of command response type R1(Auto CMD23)/R1b(Auto CMD12)/R2"
hexmask.long.word 0x00 16.--31. 1. " RSP7              ,Command Response [127:112]"
hexmask.long.word 0x00 0.--15. 1. "                RSP6             ,Command Response [111:96]"
group.long 0x220++0x3
line.long 0x00 "MMCHS_DATA,Data Register This register is the 32-bit entry point of the buffer for read or write data transfers. The buffer size is 32bits x256(1024 bytes). Bytes within a word are stored and read in little endian format. This buffer can be used as two..."
hexmask.long 0x00 0.--31. 1. " DATA              ,Data Register [31:0] In functional mode (MMCHS_CON[MODE] set to the default value 0) , A read access to this register is allowed only when the buffer read enable status is set to 1 (MMCHS_PSTATE[BRE]), otherwise a bad access (MMCHS_..."
rgroup.long 0x224++0x3
line.long 0x00 "MMCHS_PSTATE,Present State Register The Host can get status of the Host Controller from this 32-bit read only register."
bitfld.long 0x00 24. " CLEV              ,CMD line signal level This status is used to check the CMD line level to recover from errors, and for debugging. The value of this register after reset depends on the CMD line level at that time. - One. - Zero." "Zero,One"
bitfld.long 0x00 20.--23. "                DLEV             ,DAT[3:0] line signal level DAT[3] => bit 23 DAT[2] => bit 22 DAT[1] => bit 21 DAT[0] => bit 20 This status is used to check DAT line level to recover from errors, and for debugging. This is ..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 19. "               WP               ,Write protect switch pin level For SDIO cards only. This bit reflects the write protect input pin (mmci_sdwp) level. The value of this register after reset depends on the protect input pin (mmci_sdwp) level at that time..." "zero,one"
textline "                              "
bitfld.long 0x00 18. " CDPL              ,Card detect pin level This bit reflects the inverse value of the card detect input pin (mmci_sdcd), debouncing is not performed on this bit and bit is valid only when Card State Stable (MMCHS_PSTAE[CSS]) is set to 1. Use of this bit..." "zero,one"
bitfld.long 0x00 17. "                CSS              ,Card State Stable This bit is used for testing. It is set to 1 only when Card Detect Pin Level is stable (MMCHS_PSTATE[CDPL]). Debouncing is performed on the card detect input pin (mmci_sdcd) to detect card stability. ..." "Debouncing,Stable"
bitfld.long 0x00 16. "       CINS             ,Card inserted This bit is the debounced value of the card detect input pin (mmci_sdcd). An inactive to active transition of the card detect input pin (mmci_sdcd) will generate a card insertion interrupt (MMCHS_STAT[CINS]). A ac..." "zero,one"
textline "                              "
bitfld.long 0x00 11. " BRE               ,Buffer read enable This bit is used for non-DMA read transfers. It indicates that a complete block specified by MMCHS_BLK[BLEN] has been written in the buffer and is ready to be read. It is set to 0 when the entire block is read fro..." "RdDisable,RdEnable"
bitfld.long 0x00 10. "           BWE              ,Buffer Write enable This status is used for non-DMA write transfers. It indicates if space is available for write data. - WrEnable. - WrDisable." "WrDisable,WrEnable"
bitfld.long 0x00 9. "        RTA              ,Read transfer active This status is used for detecting completion of a read transfer. It is set to 1 after the end bit of read command or by activating a continue request (MMCHS_HCTL[CR]) following a stop at block gap request...." "NoTransfer,Transfer"
textline "                              "
bitfld.long 0x00 8. " WTA               ,Write transfer active This status indicates a write transfer active. It is set to 1 after the end bit of write command or by activating a continue request (MMCHS_HCTL[CR]) following a stop at block gap request. This bit is set to 0 ..." "NoTransfer,Transfer"
bitfld.long 0x00 3. "          RTR              ,Re-Tuning Request Host Controller may request Host Driver to execute re-tuning sequence by setting this bit when the data window is shifted by temperature drift and a tuned sampling point does not have a good margin to recei..." "NoTuning,Tuning"
bitfld.long 0x00 2. "         DLA              ,DAT line active This status bit indicates whether one of the DAT line is in use. In the case of read transactions (card to host): This bit is set to 1 after the end bit of read command or by activating continue request MMCHS_..." "zero,one"
textline "                              "
bitfld.long 0x00 1. " DATI              ,Command inhibit(DAT) This status bit is generated if either DAT line is active (MMCHS_PSTATE[DLA]) or Read transfer is active (MMCHS_PSTATE[RTA]) or when a command with busy is issued. This bit prevents the local host to issue a com..." "Cmden,Cmddis"
bitfld.long 0x00 0. "              CMDI             ,Command inhibit(CMD) This status bit indicates that the CMD line is in use. This bit is set to 0 when the most significant byte is written into the command register. This bit is not set when Auto CMD12 is transmitted. Th..." "Cmden,Cmddis"
group.long 0x228++0x3
line.long 0x00 "MMCHS_HCTL,Host Control Register This register defines the host controls to set power, wakeup and transfer parameters. [31:24] = Wakeup control [23:16] = Block gap control [15:8] = Power control [7:0] = Host control"
bitfld.long 0x00 27. " OBWE              ,Wakeup event enable for 'Out-of-Band' Interrupt. This bit enables wakeup events for 'Out-of-Band' assertion. Wakeup is generated if the wakeup feature is enabled (MMCHS_SYSCONFIG[ENAWAKEUP]). The write to this register is ignored wh..." "disable,enable"
bitfld.long 0x00 26. "             REM              ,Wakeup event enable on SD card removal This bit enables wakeup events for card removal assertion. Wakeup is generated if the wakeup feature is enabled (MMCHS_SYSCONFIG[ENAWAKEUP]). - disable. - enable." "disable,enable"
bitfld.long 0x00 25. "          INS              ,Wakeup event enable on SD card insertion This bit enables wakeup events for card insertion assertion. Wakeup is generated if the wakeup feature is enabled (MMCHS_SYSCONFIG[ENAWAKEUP]). - disable. - enable." "disable,enable"
textline "                              "
bitfld.long 0x00 24. " IWE               ,Wakeup event enable on SD card interrupt This bit enables wakeup events for card interrupt assertion. Wakeup is generated if the wakeup feature is enabled (MMCHS_SYSCONFIG[ENAWAKEUP]). - disable. - enable." "disable,enable"
bitfld.long 0x00 19. "             IBG              ,Interrupt block at gap This bit is valid only in 4-bit mode of SDIO card to enable interrupt detection in the interrupt cycle at block gap for a multiple block transfer. For MMC cards and for SD card this bit should be se..." "Itdiable,Itenable"
bitfld.long 0x00 18. "         RWC              ,Read wait control The read wait function is optional only for SDIO cards. If the card supports read wait, this bit must be enabled, then requesting a stop at block gap (MMCHS_HCTL[SBGR]) generates a read wait period after the..." "NoRW,RW"
textline "                              "
bitfld.long 0x00 17. " CR                ,Continue request This bit is used to restart a transaction that was stopped by requesting a stop at block gap (MMCHS_HCTL[SBGR]). Set this bit to 1 restarts the transfer. The bit is automatically set to 0 by the host controller when..." "None,Restart"
bitfld.long 0x00 16. "             SBGR             ,Stop at block gap request This bit is used to stop executing a transaction at the next block gap. The transfer can restart with a continue request (MMCHS_HCTL[CR]) or during a suspend/resume sequence. In case of read tran..." "Transfer,Stpblk"
bitfld.long 0x00 9.--11. "         SDVS             ,SD bus voltage select All cards. The host driver should set to these bits to select the voltage level for the card according to the voltage supported by the system (MMCHS_CAPA[VS18,VS30,VS33]) before starting a transfer. - 3V..." "0,1,2,3,4,1V8,3V0,3V3"
textline "                              "
bitfld.long 0x00 8. " SDBP              ,SD bus power Before setting this bit, the host driver shall select the SD bus voltage (MMCHS_HCTL[SDVS]). If the host controller detects the No card state, this bit is automatically set to 0. If the module is power off, a write in t..." "Pwroff,Pwron"
bitfld.long 0x00 7. "              CDSS             ,Card Detect Signal Selection This bit selects source for the card detection.When the source for the card detection is switched, the interrupt should be disabled during the switching period by clearing the Interrupt Statu..." "SDCDSel,CDTLSel"
bitfld.long 0x00 6. "          CDTL             ,Card Detect Test Level: This bit is enabled while MMCHS_HCTL[7] CDSS is set to 1 and it indicates whether the card is inserted or not. - NoCard. - CardIns." "NoCard,CardIns"
textline "                              "
bitfld.long 0x00 3.--4. " DMAS              ,DMA Select Mode: One of supported DMA modes can be selected. The host driver shall check support of DMA modes by referring the Capabilities register MMCHS_CAPA . Use of selected DMA is determined by DMA Enable of the Transfer Mode r..." "Reserved,Reserved1,ADMA2,Reserved2"
bitfld.long 0x00 2. "           HSPE             ,High Speed Enable: Before setting this bit, the Host Driver shall check the MMCHS_CAPA[21] HSS. If this bit is set to 0, the Host Controller outputs CMD line and DAT lines at the falling edge of the SD Clock. If this bit is..." "NormalSpeed,HighSpeed"
bitfld.long 0x00 1. "      DTW              ,Data transfer width For MMC card, this bit must be set following a valid SWITCH command (CMD6) with the correct value and extend CSD index written in the argument. Prior to this command, the MMC card configuration register (CSD ..." "1_BitMode,4_BitMode"
textline "                              "
bitfld.long 0x00 0. " LED               ,Reserved bit. LED control feature is not supported This bit is initialized to zero, and writes to it are ignored." "0,1"
group.long 0x22C++0x3
line.long 0x00 "MMCHS_SYSCTL,SD System Control Register This register defines the system controls to set software resets, clock frequency management and data timeout. [31:24] = Software resets [23:16] = Timeout control [15:0] = Clock control"
bitfld.long 0x00 26. " SRD               ,Software reset for DAT line This bit is set to 1 for reset and released to 0 when completed. For more information about SRD bit manipulation, see . DAT finite state machine in both clock domain are also reset. Here below are the reg..." "Work,Reset"
bitfld.long 0x00 25. "               SRC              ,Software reset for CMD line For more information about SRC bit manipulation, see . This bit is set to 1 for reset and released to 0 when completed. CMD finite state machine in both clock domain are also reset. Here belo..." "Work,Reset"
bitfld.long 0x00 24. "            SRA              ,Software reset for all This bit is set to 1 for reset , and released to 0 when completed. This reset affects the entire host controller except for the capabilities registers (MMCHS_CAPA and MMCHS_CUR_CAPA). - Work. - Reset." "Work,Reset"
textline "                              "
bitfld.long 0x00 16.--19. " DTO               ,Data timeout counter value and busy timeout. This value determines the interval by which DAT lines timeouts are detected. The host driver needs to set this bitfield based on - the maximum read access time (NAC) (Refer to the SD Spec..." "1stDTO,2ndDTO,2,3,4,5,6,7,8,9,10,11,12,13,15thDTO,Rsvd"
hexmask.long.word 0x00 6.--15. 1. "             CLKD             ,Clock frequency select These bits define the ratio between MMCi_FCLK and the output clock frequency on the CLK pin of either the memory card (MMC, SD or SDIO). - Div1023. - Bypass0. - Bypass1. - Div3. - Div2."
bitfld.long 0x00 5. "             CGS              ,Clock Generator Select - For SD cards Host Controller Version 3.00 supports this bit. This bit is used to select the clock generator mode in MMCHS_SYSCTL[15:6] CLKD. If the Programmable Clock Mode is supported (non-zero v..." "0,1"
textline "                              "
bitfld.long 0x00 2. " CEN               ,Clock enable This bit controls if the clock is provided to the card or not. - Disable. - Enable." "Disable,Enable"
bitfld.long 0x00 1. "             ICS              ,Internal clock stable (status) This bit indicates either the internal clock is stable or not. - Ready. - NotReady." "NotReady,Ready"
bitfld.long 0x00 0. "         ICE              ,Internal clock enable This register controls the internal clock activity. In very low power state, the internal clock is stopped. Note: The activity of the debounce clock (used for wakeup events) and the interface clock (used..." "Stop,Oscillate"
group.long 0x230++0x3
line.long 0x00 "MMCHS_STAT,Interrupt Status Register The interrupt status regroups all the status of the module internal events that can generate an interrupt. [31:16] = Error Interrupt Status [15:0] = Normal Interrupt Status"
bitfld.long 0x00 29. " BADA              ,Bad access to data space This bit is set automatically to indicate a bad access to buffer when not allowed: -This bit is set during a read access to the data register (MMCHS_DATA) while buffer reads are not allowed (MMCHS_PSTATE[BRE..." "St_un_w,St_rst_w"
bitfld.long 0x00 28. "            CERR             ,Card error This bit is set automatically when there is at least one error in a response of type R1, R1b, R6, R5 or R5b. Only bits referenced as type E(error) in status field in the response can set a card status error. An ..." "St_un_w,St_rst_w"
bitfld.long 0x00 26. "         TE               ,Tuning Error This bit is set when an unrecoverable error is detected in a tuning circuit except during tuning procedure (Occurrence of an error during tuning procedure is indicated by Sampling Select). By detecting Tuning Err..." "NoError,Error"
textline "                              "
bitfld.long 0x00 25. " ADMAE             ,ADMA Error: This bit is set when the Host Controller detects errors during ADMA based data transfer. The state of the ADMA at an error occurrence is saved in the ADMA Error Status Register.In addition, the Host Controller generates ..." "St_un_w,St_rst_w"
bitfld.long 0x00 24. "            ACE              ,Auto CMD error Auto CMD12 and Auto CMD23 use this error status. This bit is set when detecting that one of the bits D00-D04 in Auto CMD Error Status register (MMCHS_AC12) has changed from 0 to 1. In case of Auto CMD12, thi..." "St_un_w,St_rst_w"
bitfld.long 0x00 22. "         DEB              ,Data End Bit error This bit is set automatically when detecting a 0 at the end bit position of read data on DAT line or at the end position of the CRC status in write mode. - St_un_w. - St_rst_w. - IRQ_tru_r. - IRQ_fal_r." "St_un_w,St_rst_w"
textline "                              "
bitfld.long 0x00 21. " DCRC              ,Data CRC Error This bit is set automatically when there is a CRC16 error in the data phase response following a block read command or if there is a 3-bit CRC status different of a position '010' token during a block write command. -..." "St_un_w,St_rst_w"
bitfld.long 0x00 20. "            DTO              ,Data timeout error This bit is set automatically according to the following conditions: - busy timeout for R1b, R5b response type - busy timeout after write CRC status - write CRC status timeout - read data timeout - St_un..." "St_un_w,St_rst_w"
bitfld.long 0x00 19. "         CIE              ,Command index error This bit is set automatically when response index differs from corresponding command index previously emitted. It depends on the enable in MMCHS_CMD[CICE] register. - St_un_w. - St_rst_w. - IRQ_tru_r. - IR..." "St_un_w,St_rst_w"
textline "                              "
bitfld.long 0x00 18. " CEB               ,Command end bit error This bit is set automatically when detecting a 0 at the end bit position of a command response. - St_un_w. - St_rst_w. - IRQ_tru_r. - IRQ_fal_r." "St_un_w,St_rst_w"
bitfld.long 0x00 17. "            CCRC             ,Command CRC Error This bit is set automatically when there is a CRC7 error in the command response depending on the enable in MMCHS_CMD[CCCE] register. - St_un_w. - St_rst_w. - IRQ_tru_r. - IRQ_fal_r." "St_un_w,St_rst_w"
bitfld.long 0x00 16. "         CTO              ,Command Timeout Error This bit is set automatically when no response is received within 64 clock cycles from the end bit of the command. For commands that reply within 5 clock cycles - the timeout is still detected at 64 cloc..." "St_un_w,St_rst_w"
textline "                              "
bitfld.long 0x00 15. " ERRI              ,Error Interrupt If any of the bits in the Error Interrupt Status register (MMCHS_STAT[31:16]) are set, then this bit is set to 1. Therefore the host driver can efficiently test for an error by checking this bit first. Writes to this..." "IRQ_fal_r,IRQ_tru_r"
bitfld.long 0x00 10. "           BSR              ,Boot status received interrupt This bit is set automatically when MMCHS_CON[BOOT] is set 0x1 or 0x2 and a boot status is received on DAT[0] line. This interrupt is only useful for MMC card. - St_un_w. - St_rst_w. - IRQ_tru_..." "St_un_w,St_rst_w"
bitfld.long 0x00 9. "         OBI              ,Out-Of-Band interrupt This bit is set automatically when MMCHS_CON[OBIE] is set and an Out-of-Band interrupt occurs on OBI pin. The interrupt detection depends on polarity controlled by MMCHS_CON[OBIP]. This interrupt is only..." "St_un_w,St_rst_w"
textline "                              "
bitfld.long 0x00 8. " CIRQ              ,Card interrupt This bit is only used for SD and SDIO and CE-ATA cards. In 1-bit mode, interrupt source is asynchronous (can be a source of asynchronous wakeup). In 4-bit mode, interrupt source is sampled during the interrupt cycle. ..." "IRQ_fal_r,IRQ_tru_r"
bitfld.long 0x00 7. "           CREM             ,Card removal This bit is set automatically when MMCHS_PSTATE[CINS] changes from 1 to 0. A clear of this bit doesn't affect Card inserted present state (MMCHS_PSTATE[CINS]). - St_un_w. - St_rst_w. - IRQ_tru_r. - IRQ_fal_r." "St_un_w,St_rst_w"
bitfld.long 0x00 6. "         CINS             ,Card insertion This bit is set automatically when MMCHS_PSTATE[CINS] changes from 0 to 1. A clear of this bit doesn't affect Card inserted present state (MMCHS_PSTATE[CINS]). - St_un_w. - St_rst_w. - IRQ_tru_r. - IRQ_fal_r." "St_un_w,St_rst_w"
textline "                              "
bitfld.long 0x00 5. " BRR               ,Buffer read ready This bit is set automatically during a read operation to the card (see class 2 - block oriented read commands) when one block specified by MMCHS_BLK[BLEN] is completely written in the buffer. It indicates that the ..." "St_un_w,St_rst_w"
bitfld.long 0x00 4. "            BWR              ,Buffer write ready This bit is set automatically during a write operation to the card (see class 4 - block oriented write command) when the host can write a complete block as specified by MMCHS_BLK[BLEN]. It indicates that..." "St_un_w,St_rst_w"
bitfld.long 0x00 3. "         DMA              ,DMA interrupt : This status is set when an interrupt is required in the ADMA instruction and after the data transfer completion. - St_un_w. - St_rst_w. - IRQ_tru_r. - IRQ_fal_r." "St_un_w,St_rst_w"
textline "                              "
bitfld.long 0x00 2. " BGE               ,Block gap event When a stop at block gap is requested (MMCHS_HCTL[SBGR]), this bit is automatically set when transaction is stopped at the block gap during a read or write operation. This event does not occur when the stop at block ..." "St_un_w,St_rst_w"
bitfld.long 0x00 1. "            TC               ,Transfer completed This bit is always set when a read/write transfer is completed or between two blocks when the transfer is stopped due to a stop at block gap request (MMCHS_HCTL[SBGR]). In Read mode: This bit is automati..." "St_un_w,St_rst_w"
bitfld.long 0x00 0. "         CC               ,Command complete This bit is set when a 1-to-0 transition occurs in the register command inhibit (MMCHS_PSTATE[CMDI]) If the command is a type for which no response is expected, then the command complete interrupt is generate..." "St_un_w,St_rst_w"
group.long 0x234++0x3
line.long 0x00 "MMCHS_IE,Interrupt Status Enable Register This register allows to enable/disable the module to set status bits, on an event-by-event basis. [31:16] = Error Interrupt Status Enable [15:0] = Normal Interrupt Status Enable"
bitfld.long 0x00 29. " BADA_ENABLE       ,Bad access to data space Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 28. "             CERR_ENABLE      ,Card Error Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 26. "          TE_ENABLE        ,Tuning Error Status Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 25. " ADMAE_ENABLE      ,ADMA Error Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 24. "             ACE_ENABLE       ,Auto CMD Error Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 22. "          DEB_ENABLE       ,Data End Bit Error Status Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 21. " DCRC_ENABLE       ,Data CRC Error Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 20. "             DTO_ENABLE       ,Data Timeout Error Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 19. "          CIE_ENABLE       ,Command Index Error Status Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 18. " CEB_ENABLE        ,Command End Bit Error Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 17. "             CCRC_ENABLE      ,Command CRC Error Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 16. "          CTO_ENABLE       ,Command Timeout Error Status Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 15. " NULL              ,Fixed to 0 The host driver shall control error interrupts using the Error Interrupt Signal Enable register. Writes to this bit are ignored" "0,1"
bitfld.long 0x00 10. "                   BSR_ENABLE       ,Boot Status Enable A write to this register when MMCHS_CON[BOOT_ACK] is set to 0x0 is ignored. - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 9. "          OBI_ENABLE       ,Out-of-Band Status Enable A write to this register when MMCHS_CON[OBIE] is set to '0' is ignored. - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 8. " CIRQ_ENABLE       ,Card Status Enable A clear of this bit also clears the corresponding status bit. During 1-bit mode, if the interrupt routine doesn't remove the source of a card interrupt in the SDIO card, the status bit is reasserted when this bit ..." "Masked,Enabled"
bitfld.long 0x00 7. "             CREM_ENABLE      ,Card Removal Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 6. "          CINS_ENABLE      ,Card Insertion Status Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 5. " BRR_ENABLE        ,Buffer Read Ready Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 4. "             BWR_ENABLE       ,Buffer Write Ready Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 3. "          DMA_ENABLE       ,DMA Status Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 2. " BGE_ENABLE        ,Block Gap Event Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 1. "             TC_ENABLE        ,Transfer Complete Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 0. "          CC_ENABLE        ,Command Complete Status Enable - Masked. - Enabled." "Masked,Enabled"
group.long 0x238++0x3
line.long 0x00 "MMCHS_ISE,Interrupt Signal Enable Register This register allows to enable/disable the module internal sources of status, on an event-by-event basis. [31:16] = Error Interrupt Signal Enable [15:0] = Normal Interrupt Signal Enable"
bitfld.long 0x00 29. " BADA_SIGEN        ,Bad access to data space Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 28. "             CERR_SIGEN       ,Card Error Interrupt Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 26. "          TE_SIGEN         ,Tuning Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 25. " ADMAE_SIGEN       ,ADMA Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 24. "             ACE_SIGEN        ,Auto CMD Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 22. "          DEB_SIGEN        ,Data End Bit Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 21. " DCRC_SIGEN        ,Data CRC Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 20. "             DTO_SIGEN        ,Data Timeout Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 19. "          CIE_SIGEN        ,Command Index Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 18. " CEB_SIGEN         ,Command End Bit Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 17. "             CCRC_SIGEN       ,Command CRC Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 16. "          CTO_SIGEN        ,Command timeout Error Signal Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 15. " NULL              ,Fixed to 0 The host driver shall control error interrupts using the Error Interrupt Signal Enable register. Writes to this bit are ignored" "0,1"
bitfld.long 0x00 10. "                   BSR_SIGEN        ,Boot Status Signal Enable A write to this register when MMCHS_CON[BOOT_ACK] is set to 0x0 is ignored. - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 9. "          OBI_SIGEN        ,Out-Of-Band Interrupt Signal Enable A write to this register when MMCHS_CON[OBIE] is set to '0' is ignored. - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 8. " CIRQ_SIGEN        ,Card Interrupt Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 7. "             CREM_SIGEN       ,Card Removal Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 6. "          CINS_SIGEN       ,Card Insertion Signal Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 5. " BRR_SIGEN         ,Buffer Read Ready Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 4. "             BWR_SIGEN        ,Buffer Write Ready Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 3. "          DMA_SIGEN        ,DMA Interrupt Signal Enable - Masked. - Enabled." "Masked,Enabled"
textline "                              "
bitfld.long 0x00 2. " BGE_SIGEN         ,Black Gap Event Signal Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 1. "             TC_SIGEN         ,Transfer Completed Status Enable - Masked. - Enabled." "Masked,Enabled"
bitfld.long 0x00 0. "          CC_SIGEN         ,Command Complete Status Enable - Masked. - Enabled." "Masked,Enabled"
group.long 0x23C++0x3
line.long 0x00 "MMCHS_AC12,Host Control 2 Register and Auto CMD Error Status Register This register is used to indicate CMD12 response error of Auto CMD12 and CMD23 response error of Auto CMD23. The Host driver can determine what kind of Auto CMD12 / CMD23 errors occu..."
bitfld.long 0x00 31. " PV_ENABLE         ,Preset Value Enable Host Controller Version 3.00 supports this bit. As the operating SDCLK frequency and I/O driver strength depend on the Host System implementation, it is difficult to determine these parameters in the Standard Hos..." "Disabled,Enabled"
bitfld.long 0x00 30. "            AI_ENABLE        ,Asynchronous Interrupt Enable This bit can be set to 1 if a card supports asynchronous interrupts and MMCHS_CAPA[29] AIS is set to 1. Asynchronous interrupt is effective when DAT[1] interrupt is used in 4-bit SD mode (and ..." "Disabled,Enabled"
bitfld.long 0x00 23. "         SCLK_SEL         ,Sampling Clock Select Host Controller uses this bit to select sampling clock to receive CMD and DAT. This bit is set by tuning procedure and valid after the completion of tuning (when MMCHS_AC12[22] ET is cleared). Setting 1 ..." "Fixed,Tuned"
textline "                              "
bitfld.long 0x00 22. " ET                ,Execute Tuning This bit is set to 1 to start tuning procedure and automatically cleared when tuning procedure is completed. The result of tuning is indicated to MMCHS_AC12[23] SCLK_SEL. Tuning procedure is aborted by writing 0. This..." "Completed,Execute"
bitfld.long 0x00 20.--21. "           DS_SEL           ,Driver Strength Select Host Controller output driver in 1.8V signaling is selected by this bit. In 3.3V signaling, this field is not effective. This field can be set depending on Driver Type A, C and D support bits (DTA, DT..." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 19. "              V1V8_SIGEN       ,1.8V Signaling Enable This bit controls voltage regulator for I/O cell. 3.3V is supplied to the card regardless of signaling voltage. Setting this bit from 0 to 1 starts changing signal voltage from 3.3V to 1.8V. 1.8V re..." "3V3,1V8"
textline "                              "
bitfld.long 0x00 16.--18. " UHSMS             ,UHS Mode Select This field is used to select one of UHS-I modes and effective when 1.8V Signaling Enable is set to 1. If MMCHS_AC12[31] PV_ENABLE is set to 1, Host Controller sets MMCHS_SYSCTL[15:6] CLKD, MMCHS_SYSCTL[5] CGS and MMC..." "SDR12,SDR25,SDR50,SDR104,DDR50,Reserved1,Reserved2,Reserved3"
bitfld.long 0x00 7. "           CNI              ,Command Not Issued By Auto CMD12 Error Setting this bit to 1 means CMD_wo_DAT is not executed due to an Auto CMD12 Error (D04-D01) in this register. This bit is set to 0 when Auto CMD Error is generated by Auto CMD23. - Cmd..." "NoErr,CmdNI"
bitfld.long 0x00 4. "            ACIE             ,Auto CMD Index Error - For Auto CMD12 and Auto CMD23 This bit is set if the Command Index error occurs in response to a command. - Err. - NoErr." "NoErr,Err"
textline "                              "
bitfld.long 0x00 3. " ACEB              ,Auto CMD End Bit Error - For Auto CMD12 and Auto CMD23 This bit is set when detecting that the end bit of command response is 0. - Err. - NoErr." "NoErr,Err"
bitfld.long 0x00 2. "               ACCE             ,Auto CMD CRC Error - For Auto CMD12 and Auto CMD23 This bit is set when detecting a CRC error in the command response. - Err. - NoErr." "NoErr,Err"
bitfld.long 0x00 1. "            ACTO             ,Auto CMD Timeout Error - For Auto CMD12 and Auto CMD23 This bit is set if no response is returned within 64 SDCLK cycles from the end bit of command. If this bit is set to1, the other error status bits (D04-D02) are meanin..." "NoErr,TimeOut"
textline "                              "
bitfld.long 0x00 0. " ACNE              ,Auto CMD12 Not Executed If memory multiple block data transfer is not started due to command error, this bit is not set because it is not necessary to issue Auto CMD12. Setting this bit to 1 means the Host Controller cannot issue Au..." "Exe,NotExe"
group.long 0x240++0x3
line.long 0x00 "MMCHS_CAPA,Capabilities Register This register lists the capabilities of the MMC/SD/SDIO host controller."
bitfld.long 0x00 29. " AIS               ,Asynchronous Interrupt Support Refer to SDIO Specification Version 3.00 about asynchronous interrupt. - AIS_Sup. - AIS_NotSup." "AIS_NotSup,AIS_Sup"
bitfld.long 0x00 28. "          BIT64            ,64 Bit System Bus Support Setting 1 to this bit indicates that the Host Controller supports 64-bit address descriptor mode and is connected to 64-bit address system bus. - SysAddr64b. - SysAddr32b." "SysAddr32b,SysAddr64b"
bitfld.long 0x00 26. "       VS18             ,Voltage support 1.8V Initialization of this register (via a write access to this register) depends on the system capabilities. The host driver shall not modify this register after the initilaization. This register is only reini..." "St_1V8NotSup_w,St_1V8Sup_w"
textline "                              "
bitfld.long 0x00 25. " VS30              ,Voltage support 3.0V Initialization of this register (via a write access to this register) depends on the system capabilities. The host driver shall not modify this register after the initilaization. This register is only reinitiali..." "St_3V0NotSup_w,St_3V0Sup_w"
bitfld.long 0x00 24. "      VS33             ,Voltage support 3.3V Initialization of this register (via a write access to this register) depends on the system capabilities. The host driver shall not modify this register after the initilaization. This register is only reinit..." "St_3V3NotSup_w,St_3V3Sup_w"
bitfld.long 0x00 23. "   SRS              ,Suspend/Resume support (SDIO cards only) This bit indicates whether the host controller supports Suspend/Resume functionality. - Supported. - NotSupported." "NotSupported,Supported"
textline "                              "
bitfld.long 0x00 22. " DS                ,DMA support This bit indicates that the Host Controller is able to use DMA to transfer data between system memory and the Host Controller directly. - Supported. - NotSupported." "NotSupported,Supported"
bitfld.long 0x00 21. "        HSS              ,High speed support This bit indicates that the host controller supports high speed operations and can supply an up-to maximum card frequency. - Supported. - NotSupported." "NotSupported,Supported"
bitfld.long 0x00 19. "     AD2S             ,ADMA2 Support This bit indicates whether the Host Controller is capable of using ADMA2. It depends on setting of generic parameter MADMA_EN - ADMA2Supported. - ADMA2NotSupported." "ADMA2NotSupported,ADMA2Supported"
textline "                              "
bitfld.long 0x00 16.--17. " MBL               ,Maximum block length This value indicates the maximum block size that the host driver can read and write to the buffer in the host controller. This value depends on definition of generic parameter with a max value of 2048 bytes. The..." "512,1024,2048,3"
hexmask.long.byte 0x00 8.--15. 1. "                BCF              ,Base Clock Frequency For SD Clock This value indicates the base (maximum) clock frequency for the SD Clock. 8-bit Base Clock Frequency This mode is supported by the Host Controller Version 3.00. Unit values are 1MHz. T..."
bitfld.long 0x00 7. "               TCU              ,Timeout clock unit This bit shows the unit of base clock frequency used to detect Data Timeout Error (MMCHS_STAT[DTO]). - KHz. - MHz." "MHz,KHz"
textline "                              "
bitfld.long 0x00 0.--5. " TCF               ,Timeout clock frequency The timeout clock frequency is used to detect Data Timeout Error (MMCHS_STAT[DTO]). - OMeth." "OMeth,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x244++0x3
line.long 0x00 "MMCHS_CAPA2,Capabilities 2 Register This register provides the Host Driver with information specific to the Host Controller implementation. The Host Controller may implement these values as fixed or loaded from flash memory during power on initializati..."
hexmask.long.byte 0x00 16.--23. 1. " CM                ,Clock Multiplier This field indicates clock multiplier value of programmable clock generator. Refer to MMCHS_SYSCTL [15:0]. Setting 00h means that Host Controller does not support programmable clock generator. 00h : Clock Multiplier..."
bitfld.long 0x00 14.--15. "                  RTM              ,Re-Tuning Modes This field selects re-tuning method and limits the maximum data length." "Mode1,Mode2,Mode3,Reserved"
bitfld.long 0x00 13. "         TSDR50           ,Use Tuning for SDR50 If this bit is set to 1, this Host Controller requires tuning to operate SDR50. (Tuning is always required to operate SDR104.) - Required. - NotRequired." "NotRequired,Required"
textline "                              "
bitfld.long 0x00 8.--11. " TCRT              ,Timer Count for Re-Tuning This field indicates an initial value of the Re-Tuning Timer for Re-Tuning Mode 1 to 3. Setting to 0 disables Re-Tuning Timer. - 3. - Reserved3. - Reserved1. - 4. - 11. - OtherSource. - 2. - Disabled. - 10...." "Disabled,1,2,3,4,5,6,7,8,9,10,11,Reserved1,Reserved2,Reserved3,OtherSource"
bitfld.long 0x00 6. "         DTD              ,Driver Type D Support This bit indicates support of Driver Type D for 1.8 Signaling. - Supported. - NotSupported." "NotSupported,Supported"
bitfld.long 0x00 5. "     DTC              ,Driver Type C Support This bit indicates support of Driver Type C for 1.8 Signaling. - Supported. - NotSupported." "NotSupported,Supported"
textline "                              "
bitfld.long 0x00 4. " DTA               ,Driver Type A Support This bit indicates support of Driver Type A for 1.8 Signaling. - Supported. - NotSupported." "NotSupported,Supported"
bitfld.long 0x00 2. "        DDR50            ,DDR50 Support - Supported. - NotSupported." "NotSupported,Supported"
bitfld.long 0x00 1. "     SDR104           ,SDR104 Support SDR104 requires tuning. - Supported. - NotSupported." "NotSupported,Supported"
textline "                              "
bitfld.long 0x00 0. " SDR50             ,SDR50 Support If SDR104 is supported, this bit shall be set to 1. Bit 13 indicates whether SDR50 requires tuning or not. - Supported. - NotSupported." "NotSupported,Supported"
group.long 0x248++0x3
line.long 0x00 "MMCHS_CUR_CAPA,Maximum Current Capabilities Register This register indicates the maximum current capability for each voltage. The value is meaningful if the voltage support is set in the capabilities register (). Initialization of this register (via a ..."
hexmask.long.byte 0x00 16.--23. 1. " CUR_1V8           ,Maximum current for 1.8V - OMeth."
hexmask.long.byte 0x00 8.--15. 1. "                  CUR_3V0          ,Maximum current for 3.0V - OMeth."
hexmask.long.byte 0x00 0.--7. 1. "               CUR_3V3          ,Maximum current for 3.3V - OMeth."
wgroup.long 0x250++0x3
line.long 0x00 "MMCHS_FE,Force Event Register for Auto CMD Error Status and Error Interrupt status The Force Event Register is not a physically implemented register. Rather, it is an address at which the Auto CMD Error Status Register () can be written. Writing 1 : se..."
bitfld.long 0x00 29. " FE_BADA           ,Force Event Bad access to data space. - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 28. "           FE_CERR          ,Force Event Card error. - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 25. "        FE_ADMAE         ,Force Event ADMA Error. - NoAction. - IntForced." "NoAction,IntForced"
textline "                              "
bitfld.long 0x00 24. " FE_ACE            ,Force Event for Auto CMD Error - For Auto CMD12 and Auto CMD23 - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 22. "           FE_DEB           ,Force Event Data End Bit error. - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 21. "        FE_DCRC          ,Force Event Data CRC Error. - NoAction. - IntForced." "NoAction,IntForced"
textline "                              "
bitfld.long 0x00 20. " FE_DTO            ,Force Event Data Timeout Error. - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 19. "           FE_CIE           ,Force Event Command Index Error. - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 18. "        FE_CEB           ,Force Event Command End Bit Error. - NoAction. - IntForced." "NoAction,IntForced"
textline "                              "
bitfld.long 0x00 17. " FE_CCRC           ,Force Event Command CRC Error. - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 16. "           FE_CTO           ,Command Timeout Error This bit is set automatically when no response is received within 64 clock cycles from the end bit of the command. For commands that reply within 5 clock cycles - the timeout is still detected at 64 cl..." "St_un_w,St_rst_w"
bitfld.long 0x00 7. "         FE_CNI           ,Force Event Command not issue by Auto CMD12 error - NoAction. - IntForced." "NoAction,IntForced"
textline "                              "
bitfld.long 0x00 4. " FE_ACIE           ,Force Event for Auto CMD Index Error - For Auto CMD12 and Auto CMD23 - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 3. "           FE_ACEB          ,Force Event Auto CMD End Bit Error - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 2. "        FE_ACCE          ,Force Event Auto CMD CRC Error - NoAction. - IntForced." "NoAction,IntForced"
textline "                              "
bitfld.long 0x00 1. " FE_ACTO           ,Force Event Auto CMD Timeout Error - NoAction. - IntForced." "NoAction,IntForced"
bitfld.long 0x00 0. "           FE_ACNE          ,Force Event Auto CMD12 Not Executed - NoAction. - IntForced." "NoAction,IntForced"
group.long 0x254++0x3
line.long 0x00 "MMCHS_ADMAES,ADMA Error Status Register When ADMA Error Interrupt is occurred, the ADMA Error States field in this register holds the ADMA state and the ADMA System Address Register holds the address around the error descriptor. For recovering the erro..."
bitfld.long 0x00 2. " LME               ,ADMA Length Mismatch Error: (1) While Block Count Enable being set, the total data length specified by the Descriptor table is different from that specified by the Block Count and Block Length. (2) Total data length can not be divid..." "NoError,Error"
bitfld.long 0x00 0.--1. "             AES              ,ADMA Error State his field indicates the state of ADMA when error is occurred during ADMA data transfer. This field never indicates '10' because ADMA never stops in this state. - Syssdr. - linkDesc. - TransData. - Reserved." "Syssdr,linkDesc,Reserved,TransData"
group.long 0x258++0x3
line.long 0x00 "MMCHS_ADMASAL,ADMA System address Low bits"
hexmask.long 0x00 0.--31. 1. " ADMA_A32B         ,ADMA System address 32 bits.This register holds byte address of executing command of the Descriptor table. 32-bit Address Descriptor uses lower 32-bit of this register. At the start of ADMA, the Host Driver shall set start address o..."
rgroup.long 0x260++0x3
line.long 0x00 "MMCHS_PVINITSD,Preset Value for Initialization and Default Speed modes"
bitfld.long 0x00 30.--31. " DSDS_SEL          ,Driver Strength Select Value - Default Speed mode Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling. - DTD. - DTC. - DTA. - DTB." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 26. "                 DSCLKGEN_SEL     ,Clock Generator Select Value - Default Speed mode This bit is effective when Host Controller supports programmable clock generator. - Prog. - Host." "Host,Prog"
hexmask.long.word 0x00 16.--25. 1. "             DSSDCLK_SEL      ,SDCLK Frequency Select Value - Default Speed mode 10-bit preset value to set MMCHS_SYSCTL[15:6] CLKD is described by a host system."
textline "                              "
bitfld.long 0x00 14.--15. " INITDS_SEL        ,Driver Strength Select Value - Initialization mode Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling. - DTD. - DTC. - DTA. - DTB." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 10. "                 INITCLKGEN_SEL   ,Clock Generator Select Value - Initialization mode This bit is effective when Host Controller supports programmable clock generator. - Prog. - Host." "Host,Prog"
hexmask.long.word 0x00 0.--9. 1. "             INITSDCLK_SEL    ,SDCLK Frequency Select Value - Initialization mode 10-bit preset value to set MMCHS_SYSCTL[15:6] CLKD is described by a host system."
rgroup.long 0x264++0x3
line.long 0x00 "MMCHS_PVHSSDR12,Preset Value for High Speed and SDR12 speed modes"
bitfld.long 0x00 30.--31. " SDR12DS_SEL       ,Driver Strength Select Value - SDR12 mode Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling. - DTD. - DTC. - DTA. - DTB." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 26. "                 SDR12CLKGEN_SEL  ,Clock Generator Select Value - SDR12 mode This bit is effective when Host Controller supports programmable clock generator. - Prog. - Host." "Host,Prog"
hexmask.long.word 0x00 16.--25. 1. "             SDR12SDCLK_SEL   ,SDCLK Frequency Select Value - SDR12 mode 10-bit preset value to set MMCHS_SYSCTL[15:6] CLKD is described by a host system."
textline "                              "
bitfld.long 0x00 14.--15. " HSDS_SEL          ,Driver Strength Select Value - High Speed mode Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling. - DTD. - DTC. - DTA. - DTB." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 10. "                 HSCLKGEN_SEL     ,Clock Generator Select Value - High Speed mode This bit is effective when Host Controller supports programmable clock generator. - Prog. - Host." "Host,Prog"
hexmask.long.word 0x00 0.--9. 1. "             HSSDCLK_SEL      ,SDCLK Frequency Select Value - High Speed mode 10-bit preset value to set MMCHS_SYSCTL[15:6] CLKD is described by a host system."
rgroup.long 0x268++0x3
line.long 0x00 "MMCHS_PVSDR25SDR50,Preset Value for SDR25 and SDR50 speed modes"
bitfld.long 0x00 30.--31. " SDR50DS_SEL       ,Driver Strength Select Value - SDR50 mode Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling. - DTD. - DTC. - DTA. - DTB." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 26. "                 SDR50CLKGEN_SEL  ,Clock Generator Select Value - SDR50 mode This bit is effective when Host Controller supports programmable clock generator. - Prog. - Host." "Host,Prog"
hexmask.long.word 0x00 16.--25. 1. "             SDR50SDCLK_SEL   ,SDCLK Frequency Select Value - SDR50 mode 10-bit preset value to set MMCHS_SYSCTL[15:6] CLKD is described by a host system."
textline "                              "
bitfld.long 0x00 14.--15. " SDR25DS_SEL       ,Driver Strength Select Value - SDR25 mode Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling. - DTD. - DTC. - DTA. - DTB." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 10. "                 SDR25CLKGEN_SEL  ,Clock Generator Select Value - SDR25 mode This bit is effective when Host Controller supports programmable clock generator. - Prog. - Host." "Host,Prog"
hexmask.long.word 0x00 0.--9. 1. "             SDR25SDCLK_SEL   ,SDCLK Frequency Select Value - SDR25 mode 10-bit preset value to set MMCHS_SYSCTL[15:6] CLKD is described by a host system."
rgroup.long 0x26C++0x3
line.long 0x00 "MMCHS_PVSDR104DDR50,Preset Value for SDR104 and DDR50 speed modes"
bitfld.long 0x00 30.--31. " DDR50DS_SEL       ,Driver Strength Select Value - DDR50 mode Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling. - DTD. - DTC. - DTA. - DTB." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 26. "                 DDR50CLKGEN_SEL  ,Clock Generator Select Value - DDR50 mode This bit is effective when Host Controller supports programmable clock generator. - Prog. - Host." "Host,Prog"
hexmask.long.word 0x00 16.--25. 1. "             DDR50SDCLK_SEL   ,SDCLK Frequency Select Value - DDR50 mode 10-bit preset value to set MMCHS_SYSCTL[15:6] CLKD is described by a host system."
textline "                              "
bitfld.long 0x00 14.--15. " SDR104DS_SEL      ,Driver Strength Select Value - SDR104 mode Driver Strength is supported by 1.8V signaling bus speed modes. This field is meaningless for 3.3V signaling. - DTD. - DTC. - DTA. - DTB." "DTB,DTA,DTC,DTD"
bitfld.long 0x00 10. "                 SDR104CLKGEN_SEL ,Clock Generator Select Value - SDR104 mode This bit is effective when Host Controller supports programmable clock generator. - Prog. - Host." "Host,Prog"
hexmask.long.word 0x00 0.--9. 1. "             SDR104SDCLK_SEL  ,SDCLK Frequency Select Value - SDR104 mode 10-bit preset value to set MMCHS_SYSCTL[15:6] CLKD is described by a host system."
rgroup.long 0x2FC++0x3
line.long 0x00 "MMCHS_REV,Versions Register This register contains the hard coded RTL vendor revision number, the version number of SD specification compliancy and a slot status bit. [31:16] = Host controller version [15:0] = Slot Interrupt Status"
hexmask.long.byte 0x00 24.--31. 1. " VREV              ,Vendor Version Number: IP revision [7:4] Major revision [3:0] Minor revision Examples: 0x10 for 1.0 0x21 for 2.1"
hexmask.long.byte 0x00 16.--23. 1. "                  SREV             ,Specification Version Number This status indicates the Host Controller Spec. Version. The upper and lower 4-bits indicate the version. - Other. - Ver3. - Ver2. - Ver1."
bitfld.long 0x00 0. "               SIS              ,Slot Interrupt Status This status bit indicates the inverted state of interrupt signal for the module. By a power on reset or by setting a software reset for all (MMCHS_HCTL[SRA]), the interrupt signal shall be de-asser..." "0,1"
width 0x0B
tree.end
tree.end
tree.end
tree.open "USB3_PHY_and_SATA_PHY_Subsystems__Manual"
tree "SATA_PHY_TX"
base ad:0x4A096400
width 27.
group.long 0xC++0x3
line.long 0x00 "SATAPHYTX_FUNC_CONFIG_REG,Functional Configuration registers"
bitfld.long 0x00 31. " MEM_INVPAIR             ,Invert polarity of TXP/TXN" "0,1"
group.long 0x2C++0x3
line.long 0x00 "SATAPHYTX_TEST_CONFIG_REG,Test related configuration registers"
bitfld.long 0x00 30. " MEM_EN_LPBK             ,Loopback enable for test" "0,1"
bitfld.long 0x00 29. "         MEM_ENTXPATT ,Enable Test pattern to input of the serializer instead of TD" "0,1"
bitfld.long 0x00 26.--28. "  MEM_TESTPATT ,Select the LFSR mode to generate the required pattern 000=> 31 bit LFSR mode 011 => 23 bit LFSR mode 010 => 7 bit LFSR mode 001=> generate 1010 pattern 100=> Fixed 31 bit value from pattgen_preload_val" "0,1,2,3,4,5,6,7"
group.long 0x30++0x3
line.long 0x00 "SATAPHYTX_PATTGEN_PRELOAD,Pattern generator (31 bit) LFSR Seed or preload value"
hexmask.long 0x00 1.--31. 1. " MEM_PATTGEN_PRELOAD_VAL ,Preload value to the LFSR pattern generator"
width 0x0B
tree.end
tree "USB3_PHY_RX"
base ad:0x4A084400
width 36.
group.long 0xC++0x3
line.long 0x00 "USB3PHYRX_ANA_PROGRAMMABILITY_REG1,Some programmability for different analog circuits in the IP."
hexmask.long.tbyte 0x00 8.--31. 1. " MEM_ANAMODE        ,Programmability for Analog circuits in the IP. The top 5 bits - MEM_ANAMODE[31:27] indicate the serial Interface using this PHY module. To select USB Super-Speed interface mode, user must set bit MEM_ANAMODE [31] to '0b1', and the ..."
bitfld.long 0x00 5.--6. "  MEM_PLLDIV             ,This is a test mode. SoC Users are requested to leave this at default value. The input pll_clk (after being muxed with pllbypclk) is divided by the following factors indicated by this register. 00=1 01=2 10=4 11=RESERVED. All ..." "0,1,2,3"
group.long 0x1C++0x3
line.long 0x00 "USB3PHYRX_TRIM_REG4,The IP requires some values to be remembered in EFUSE. This register provides an alternative to EFUSE."
bitfld.long 0x00 30.--31. " MEM_DLL_TRIM_SEL   ,Determines which of the 4 EFUSE registers EFUSE_dll_rateN_coarsetrim should be used as the trim code by the DLL. This feature is so that the user may find and store the trim codes corresponding to different (at most 4) DLL frequenc..." "0,1,2,3"
group.long 0x24++0x3
line.long 0x00 "USB3PHYRX_DLL_REG1,This register is used to program DLL settings."
bitfld.long 0x00 30.--31. " MEM_DLL_PHINT_RATE ,Programs the DLL and the Phase Interpolator analog circuits to work with different clock frequencies. The frequency of pll_clk (after the bypassing by MEM_en_pllbyp and the division by MEM_plldiv) should be indicated by this regist..." "0,1,2,3"
group.long 0x28++0x3
line.long 0x00 "USB3PHYRX_DIGITAL_MODES_REG1,This register contains control bits which affect different circuits in digital section of the IP."
bitfld.long 0x00 31. " MEM_INV_RXPN_PAIR  ,If '1', interchanges RXP and RXN effectively by inverting the received data samples." "0,1"
bitfld.long 0x00 30. "       MEM_OVRD_INV_RXPN_PAIR ,Pin override control. See register bit MEM_inv_rxpn_pair." "0,1"
bitfld.long 0x00 27.--28. "   MEM_HS_RATE ,Determines the ratio of pll_clk (after the bypassing by MEM_en_pllbyp and the division by MEM_plldiv) frequency and the output data rate. Full Rate means pll_clk (after the bypassing by MEM_en_pllbyp and the division by MEM_plldiv) freq..." "0,1,2,3"
textline "                                             "
bitfld.long 0x00 26. " MEM_OVRD_HS_RATE   ,Pin override control. See register bit MEM_hs_rate." "0,1"
bitfld.long 0x00 23. "       MEM_CDR_FASTLOCK       ,'1' to reduce lock time of CDR (clock-data-recovery circuit)." "0,1"
bitfld.long 0x00 21.--22. "   MEM_CDR_LBW ,CDR band-width control." "0,1,2,3"
textline "                                             "
bitfld.long 0x00 19.--20. " MEM_CDR_STEPCNT    ,CDR 2nd order setting." "0,1,2,3"
bitfld.long 0x00 16.--18. "       MEM_CDR_STL            ,CDR settling time. Determines the number of vote clocks to blank ELV (Early-Late-Voter circuit) after update of phase." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 13.--15. "   MEM_CDR_THR ,CDR 1st order threshold. Determines how much early/late votes should differ by before a phase change in the receiver sampling clock is triggered." "0,1,2,3,4,5,6,7"
textline "                                             "
bitfld.long 0x00 12. " MEM_CDR_THR_MODE   ,CDR 1st order threshold." "0,1"
bitfld.long 0x00 11. "       MEM_CDR_2NDO_SDM_MODE  ,If '1', the 2nd Order CDR block uses a 1st order Sigma Delta Modulator to accomplish frequency offset If '0', a simple rate transformer is used for the same purpose." "0,1"
group.long 0x38++0x3
line.long 0x00 "USB3PHYRX_EQUALIZER_REG1,The IP has an Equalizer (with analog and digital parts) which addresses Inter Symbol Interference (ISI). This register is for its controllability. The equalizer can be con?gured via the EQCTL bits which are part of the SCP regi..."
hexmask.long.word 0x00 16.--31. 1. " MEM_EQLEV          ,Equalizer level control."
bitfld.long 0x00 11.--15. "    MEM_EQFTC              ,Equalizer zero freq control." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7.--10. "  MEM_EQCTL   ,0000 - Equalizer disabled 0001 - Fully adaptive; FTC normal 0010 - Fully adaptive; FTC inverted 0011 - Hold eq state 01xx - Init eq to fully adaptive start/midpoint 1000 - Partially adaptive; zero=1084 MHz 1001 - Partially adaptive; zero..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                             "
bitfld.long 0x00 2. " MEM_OVRD_EQLEV     ,Continuosly forces the Equalizer output with the eqlev[15:0]." "0,1"
bitfld.long 0x00 1. "       MEM_OVRD_EQFTC         ,Continuosly forces the Equalizer output with the eqftc[4:0]." "0,1"
width 0x0B
tree.end
tree "USB3_PHY_TX"
base ad:0x4A084800
width 27.
group.long 0xC++0x3
line.long 0x00 "USB3PHYTX_FUNC_CONFIG_REG,Functional Configuration registers"
bitfld.long 0x00 31. " MEM_INVPAIR             ,Invert polarity of TXP/TXN" "0,1"
group.long 0x2C++0x3
line.long 0x00 "USB3PHYTX_TEST_CONFIG_REG,Test related configuration registers"
bitfld.long 0x00 30. " MEM_EN_LPBK             ,Loopback enable for test" "0,1"
bitfld.long 0x00 29. "         MEM_ENTXPATT ,Enable Test pattern to input of the serializer instead of TD" "0,1"
bitfld.long 0x00 26.--28. "  MEM_TESTPATT ,Select the LFSR mode to generate the required pattern 000=> 31 bit LFSR mode 011 => 23 bit LFSR mode 010 => 7 bit LFSR mode 001=> generate 1010 pattern 100=> Fixed 31 bit value from pattgen_preload_val" "0,1,2,3,4,5,6,7"
group.long 0x30++0x3
line.long 0x00 "USB3PHYTX_PATTGEN_PRELOAD,Pattern generator (31 bit) LFSR Seed or preload value"
hexmask.long 0x00 1.--31. 1. " MEM_PATTGEN_PRELOAD_VAL ,Preload value to the LFSR pattern generator"
width 0x0B
tree.end
tree "SATA_PHY_RX"
base ad:0x4A096000
width 37.
group.long 0xC++0x3
line.long 0x00 "SATAPHYRX_ANA_PROGRAMMABILITY_REG1,Some programmability for different analog circuits in the IP."
hexmask.long.tbyte 0x00 8.--31. 1. " MEM_ANAMODE        ,Programmability for Analog circuits in the IP. The top 5 bits -MEM_ANAMODE[31:27] indicate the Serial Interface using this PHY module. The bits MEM_ANAMODE [30:29] correspond to SATA 1.5 Gbps and SATA 3 Gbps modes, respectively. Th..."
bitfld.long 0x00 5.--6. "  MEM_PLLDIV             ,This is a test mode. SoC Users are requested to leave this at default value. The input pll_clk (after being muxed with pllbypclk) is divided by the following factors indicated by this register. 00=1 01=2 10=4 11=RESERVED. All ..." "0,1,2,3"
group.long 0x1C++0x3
line.long 0x00 "SATAPHYRX_TRIM_REG4,The IP requires some values to be remembered in EFUSE. This register provides an alternative to EFUSE."
bitfld.long 0x00 30.--31. " MEM_DLL_TRIM_SEL   ,Determines which of the 4 EFUSE registers EFUSE_dll_rateN_coarsetrim should be used as the trim code by the DLL. This feature is so that the user may find and store the trim codes corresponding to different (at most 4) DLL frequenc..." "0,1,2,3"
group.long 0x24++0x3
line.long 0x00 "SATAPHYRX_DLL_REG1,This register is used to program DLL settings."
bitfld.long 0x00 30.--31. " MEM_DLL_PHINT_RATE ,Programs the DLL and the Phase Interpolator analog circuits to work with different clock frequencies. The frequency of pll_clk (after the bypassing by MEM_en_pllbyp and the division by MEM_plldiv) should be indicated by this regist..." "0,1,2,3"
group.long 0x28++0x3
line.long 0x00 "SATAPHYRX_DIGITAL_MODES_REG1,This register contains control bits which affect different circuits in digital section of the IP."
bitfld.long 0x00 31. " MEM_INV_RXPN_PAIR  ,If '1', interchanges RXP and RXN effectively by inverting the received data samples." "0,1"
bitfld.long 0x00 30. "       MEM_OVRD_INV_RXPN_PAIR ,Pin override control. See register bit MEM_inv_rxpn_pair." "0,1"
bitfld.long 0x00 27.--28. "   MEM_HS_RATE ,Determines the ratio of pll_clk (after the bypassing by MEM_en_pllbyp and the division by MEM_plldiv) frequency and the output data rate. Full Rate means pll_clk (after the bypassing by MEM_en_pllbyp and the division by MEM_plldiv) freq..." "0,1,2,3"
textline "                                              "
bitfld.long 0x00 26. " MEM_OVRD_HS_RATE   ,Pin override control. See register bit MEM_hs_rate." "0,1"
bitfld.long 0x00 23. "       MEM_CDR_FASTLOCK       ,'1' to reduce lock time of CDR (clock-data-recovery circuit)." "0,1"
bitfld.long 0x00 21.--22. "   MEM_CDR_LBW ,CDR band-width control." "0,1,2,3"
textline "                                              "
bitfld.long 0x00 19.--20. " MEM_CDR_STEPCNT    ,CDR 2nd order setting." "0,1,2,3"
bitfld.long 0x00 16.--18. "       MEM_CDR_STL            ,CDR settling time. Determines the number of vote clocks to blank ELV (Early-Late-Voter circuit) after update of phase." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 13.--15. "   MEM_CDR_THR ,CDR 1st order threshold. Determines how much early/late votes should differ by before a phase change in the receiver sampling clock is triggered." "0,1,2,3,4,5,6,7"
textline "                                              "
bitfld.long 0x00 12. " MEM_CDR_THR_MODE   ,CDR 1st order threshold." "0,1"
bitfld.long 0x00 11. "       MEM_CDR_2NDO_SDM_MODE  ,If '1', the 2nd Order CDR block uses a 1st order Sigma Delta Modulator to accomplish frequency offset If '0', a simple rate transformer is used for the same purpose." "0,1"
group.long 0x38++0x3
line.long 0x00 "SATAPHYRX_EQUALIZER_REG1,The IP has an Equalizer (with analog and digital parts) which addresses Inter Symbol Interference (ISI). This register is for its controllability."
hexmask.long.word 0x00 16.--31. 1. " MEM_EQLEV          ,Equalizer level control."
bitfld.long 0x00 11.--15. "    MEM_EQFTC              ,Equalizer zero freq control." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7.--10. "  MEM_EQCTL   ,0000 - Equalizer disabled 0001 - Fully adaptive; FTC normal 0010 - Fully adaptive; FTC inverted 0011 - Hold eq state 01xx - Init eq to fully adaptive start/midpoint 1000 - Partially adaptive; zero=1084 MHz 1001 - Partially adaptive; zero..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                              "
bitfld.long 0x00 2. " MEM_OVRD_EQLEV     ,Continuosly forces the Equalizer output with the eqlev[15:0]." "0,1"
bitfld.long 0x00 1. "       MEM_OVRD_EQFTC         ,Continuosly forces the Equalizer output with the eqftc[4:0]." "0,1"
group.long 0x44++0x3
line.long 0x00 "SATAPHYRX_IO_AND_A2D_OVERRIDES_REG1,This register has controls for SATA PHY RX tunning"
bitfld.long 0x00 9.--10. " MEM_CDR_LOS_SOURCE ,0x0: the Analog's los_sts (analog's loss of signal detector output) is used by the CDR algorithm to stop the CDR loop. 0x1: the input pin los_in is used by the CDR algorithm for the same purpose. 0x2: the SCP register MEM_los_to_cd..." "0,1,2,3"
width 0x0B
tree.end
tree.open "DPLLCTRL_USB_OTG_SS"
tree "DPLLCTRL_USB_OTG_SS"
base ad:0x4A084C00
width 24.
rgroup.long 0x4++0x3
line.long 0x00 "PLL_STATUS,This register contains the status information"
bitfld.long 0x00 16. " PLL_TICOPWDN   ,PLL TICOPWDN status. - . - ." "0,1"
bitfld.long 0x00 15. "               PLL_LDOPWDN        ,PLL LDOPWDN status. - . - ." "0,1"
bitfld.long 0x00 12. "              SSC_EN_ACK ,Spread Spectrum Clocking acknowledge - SSC_act. - SSC_inact." "SSC_inact,SSC_act"
textline "                                 "
bitfld.long 0x00 5. " PLL_HIGHJITTER ,PLL High Jitter status - High_Jiitter. - Normal_Jitter." "Normal_Jitter,High_Jiitter"
bitfld.long 0x00 3. "   PLL_LOSSREF        ,PLL Reference Loss status - Ref_Inp_Inact. - Ref_Inp_Act." "Ref_Inp_Act,Ref_Inp_Inact"
bitfld.long 0x00 2. "  PLL_RECAL  ,PLL re-calibration status If this bit is active, the PLL needs to be re-calibrated - Recal_required. - Recal_not_required." "Recal_not_required,Recal_required"
textline "                                 "
bitfld.long 0x00 1. " PLL_LOCK       ,PLL Lock status See the programming guide for the use of this bit - DSI_PLL_Lock. - DSI_PLL_NoLock." "DSI_PLL_NoLock,DSI_PLL_Lock"
bitfld.long 0x00 0. "  PLLCTRL_RESET_DONE ,PLLCTRL reset done status - RDone. - NotRD." "NotRD,RDone"
group.long 0x8++0x3
line.long 0x00 "PLL_GO,This register contains the GO bit"
bitfld.long 0x00 0. " PLL_GO         ,Request (re-)locking sequence of the PLL. - Done. - Go." "Done,Go"
group.long 0xC++0x3
line.long 0x00 "PLL_CONFIGURATION1,This register contains the latched PLL and HSDIVDER configuration bits"
hexmask.long.word 0x00 9.--20. 1. " PLL_REGM       ,M Divider for PLL"
hexmask.long.byte 0x00 1.--8. 1. "            PLL_REGN           ,N Divider for PLL (Reference)"
group.long 0x10++0x3
line.long 0x00 "PLL_CONFIGURATION2,This register contains the unlatched PLL and HSDIVDER configuration bits These bits are 'shadowed' when automatic mode is selected"
bitfld.long 0x00 9.--10. " PLL_LOCKSEL    ,Selects the lock criteria for the PLL - PHASELOCK. - FREQLOCK. Other values: Reserved. - SPARE." "PHASELOCK,FREQLOCK,2,3"
bitfld.long 0x00 1.--3. "       PLL_SELFREQDCO     ,DCO frequency range selector for DPLL_USB_OTG_SS 0x2 Set if DCO frequency is between 500MHz and 1000MHz 0x4 Set if DCO frequency is between 1000MHz and 2000MHz Other values: Reserved" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "              PLL_IDLE   ,PLL IDLE: - IDLE_notsel. - IDLE_sel." "IDLE_notsel,IDLE_sel"
group.long 0x14++0x3
line.long 0x00 "PLL_CONFIGURATION3,HSDIVIDER configuration bits for the M5 and M6 dividers"
hexmask.long.byte 0x00 10.--17. 1. " PLL_SD         ,Sigma delta divider setting for DPLL_USB_OTG_SS based on the PLL lock configuration."
group.long 0x18++0x3
line.long 0x00 "PLL_SSC_CONFIGURATION1,Configuration for PLL Spread Spectrum Clocking modulation"
bitfld.long 0x00 2. " DOWNSPREAD     ,Forces the clock spreading only in the down spectrum. - NotForced. - ForceDown." "NotForced,ForceDown"
bitfld.long 0x00 0. "       EN_SSC             ,Spread Spectrum Clocking enable - SSC_Off. - SSC_On." "SSC_Off,SSC_On"
group.long 0x1C++0x3
line.long 0x00 "PLL_SSC_CONFIGURATION2,"
bitfld.long 0x00 30. " DELTAM2        ,MSB of DeltaM control bus." "0,1"
hexmask.long.word 0x00 20.--29. 1. "               MODFREQDIVIDER     ,Modulation Frequency Divider control for SSC."
hexmask.long.tbyte 0x00 0.--19. 1. "           DELTAM     ,DeltaM control for SSC."
group.long 0x20++0x3
line.long 0x00 "PLL_CONFIGURATION4,Allows setting the fractional M divider and M2 divider for PLL."
hexmask.long.tbyte 0x00 0.--17. 1. " PLL_REGM_F     ,Fractional part of M divider."
width 0x0B
tree.end
tree "DPLLCTRL_SATA"
base ad:0x4A096800
width 24.
rgroup.long 0x4++0x3
line.long 0x00 "PLL_STATUS,This register contains the status information"
bitfld.long 0x00 16. " PLL_TICOPWDN   ,PLL TICOPWDN status. - . - ." "0,1"
bitfld.long 0x00 15. "               PLL_LDOPWDN        ,PLL LDOPWDN status. - . - ." "0,1"
bitfld.long 0x00 12. "              SSC_EN_ACK ,Spread Spectrum Clocking acknowledge - SSC_act. - SSC_inact." "SSC_inact,SSC_act"
textline "                                 "
bitfld.long 0x00 5. " PLL_HIGHJITTER ,PLL High Jitter status - High_Jiitter. - Normal_Jitter." "Normal_Jitter,High_Jiitter"
bitfld.long 0x00 3. "   PLL_LOSSREF        ,PLL Reference Loss status - Ref_Inp_Inact. - Ref_Inp_Act." "Ref_Inp_Act,Ref_Inp_Inact"
bitfld.long 0x00 2. "  PLL_RECAL  ,PLL re-calibration status If this bit is active, the PLL needs to be re-calibrated - Recal_required. - Recal_not_required." "Recal_not_required,Recal_required"
textline "                                 "
bitfld.long 0x00 1. " PLL_LOCK       ,PLL Lock status See the programming guide for the use of this bit - DSI_PLL_Lock. - DSI_PLL_NoLock." "DSI_PLL_NoLock,DSI_PLL_Lock"
bitfld.long 0x00 0. "  PLLCTRL_RESET_DONE ,PLLCTRL reset done status - RDone. - NotRD." "NotRD,RDone"
group.long 0x8++0x3
line.long 0x00 "PLL_GO,This register contains the GO bit"
bitfld.long 0x00 0. " PLL_GO         ,Request (re-)locking sequence of the PLL. - Done. - Go." "Done,Go"
group.long 0xC++0x3
line.long 0x00 "PLL_CONFIGURATION1,This register contains the latched PLL and HSDIVDER configuration bits"
hexmask.long.word 0x00 9.--20. 1. " PLL_REGM       ,M Divider for PLL"
hexmask.long.byte 0x00 1.--8. 1. "            PLL_REGN           ,N Divider for PLL (Reference)"
group.long 0x10++0x3
line.long 0x00 "PLL_CONFIGURATION2,This register contains the unlatched PLL and HSDIVDER configuration bits These bits are 'shadowed' when automatic mode is selected"
bitfld.long 0x00 9.--10. " PLL_LOCKSEL    ,Selects the lock criteria for the PLL - PHASELOCK. - FREQLOCK. Other values: Reserved. - SPARE." "PHASELOCK,FREQLOCK,2,3"
bitfld.long 0x00 1.--3. "       PLL_SELFREQDCO     ,DCO frequency range selector for DPLL_USB_OTG_SS 0x2 Set if DCO frequency is between 500MHz and 1000MHz 0x4 Set if DCO frequency is between 1000MHz and 2000MHz Other values: Reserved" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "              PLL_IDLE   ,PLL IDLE: - IDLE_notsel. - IDLE_sel." "IDLE_notsel,IDLE_sel"
group.long 0x14++0x3
line.long 0x00 "PLL_CONFIGURATION3,HSDIVIDER configuration bits for the M5 and M6 dividers"
hexmask.long.byte 0x00 10.--17. 1. " PLL_SD         ,Sigma delta divider setting for DPLL_USB_OTG_SS based on the PLL lock configuration."
group.long 0x18++0x3
line.long 0x00 "PLL_SSC_CONFIGURATION1,Configuration for PLL Spread Spectrum Clocking modulation"
bitfld.long 0x00 2. " DOWNSPREAD     ,Forces the clock spreading only in the down spectrum. - NotForced. - ForceDown." "NotForced,ForceDown"
bitfld.long 0x00 0. "       EN_SSC             ,Spread Spectrum Clocking enable - SSC_Off. - SSC_On." "SSC_Off,SSC_On"
group.long 0x1C++0x3
line.long 0x00 "PLL_SSC_CONFIGURATION2,"
bitfld.long 0x00 30. " DELTAM2        ,MSB of DeltaM control bus." "0,1"
hexmask.long.word 0x00 20.--29. 1. "               MODFREQDIVIDER     ,Modulation Frequency Divider control for SSC."
hexmask.long.tbyte 0x00 0.--19. 1. "           DELTAM     ,DeltaM control for SSC."
group.long 0x20++0x3
line.long 0x00 "PLL_CONFIGURATION4,Allows setting the fractional M divider and M2 divider for PLL."
hexmask.long.tbyte 0x00 0.--17. 1. " PLL_REGM_F     ,Fractional part of M divider."
width 0x0B
tree.end
tree.end
tree.open "OCP2SCP1"
tree "OCP2SCP1"
base ad:0x4A080000
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "OCP2SCP_REVISION,IP Revision Identifier (X.Y.R)"
hexmask.long 0x00 0.--31. 1. " REVISION      ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "OCP2SCP_SYSCONFIG,SYSTEM CONFIGURATION REGISTER"
bitfld.long 0x00 3.--4. " IDLEMODE      ,- ForceIdle. - NoIdle. - Reserved. - SmartIdle." "ForceIdle,NoIdle,Reserved,SmartIdle"
bitfld.long 0x00 1. "   SOFTRESET ,Software Reset. Set this bit to 1 to trigger a module reset. The bit is automatically reset by the hardware. During reads, it always returns 0. - Normal. - Reset." "Normal,Reset"
bitfld.long 0x00 0. "  AUTOIDLE ,L4-interconnect interface clock gating control. - FreeRun. - Automatic." "FreeRun,Automatic"
rgroup.long 0x14++0x3
line.long 0x00 "OCP2SCP_SYSSTATUS,System Status register."
bitfld.long 0x00 0. " RESETDONE     ,- Complete. - InProgress." "InProgress,Complete"
group.long 0x18++0x3
line.long 0x00 "OCP2SCP_TIMING,Interrupt Status Register (legacy) for first line of interrupt."
bitfld.long 0x00 7.--9. " DIVISIONRATIO ,Division Ration of the SCP clock in relation to OCP input clock." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "           SYNC1     ,Number of SCPclock cycles defining SYNC1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--3. "       SYNC2    ,Number of SCPclock cycles defining SYNC2" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree "OCP2SCP3"
base ad:0x4A090000
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "OCP2SCP_REVISION,IP Revision Identifier (X.Y.R)"
hexmask.long 0x00 0.--31. 1. " REVISION      ,IP Revision"
group.long 0x10++0x3
line.long 0x00 "OCP2SCP_SYSCONFIG,SYSTEM CONFIGURATION REGISTER"
bitfld.long 0x00 3.--4. " IDLEMODE      ,- ForceIdle. - NoIdle. - Reserved. - SmartIdle." "ForceIdle,NoIdle,Reserved,SmartIdle"
bitfld.long 0x00 1. "   SOFTRESET ,Software Reset. Set this bit to 1 to trigger a module reset. The bit is automatically reset by the hardware. During reads, it always returns 0. - Normal. - Reset." "Normal,Reset"
bitfld.long 0x00 0. "  AUTOIDLE ,L4-interconnect interface clock gating control. - FreeRun. - Automatic." "FreeRun,Automatic"
rgroup.long 0x14++0x3
line.long 0x00 "OCP2SCP_SYSSTATUS,System Status register."
bitfld.long 0x00 0. " RESETDONE     ,- Complete. - InProgress." "InProgress,Complete"
group.long 0x18++0x3
line.long 0x00 "OCP2SCP_TIMING,Interrupt Status Register (legacy) for first line of interrupt."
bitfld.long 0x00 7.--9. " DIVISIONRATIO ,Division Ration of the SCP clock in relation to OCP input clock." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "           SYNC1     ,Number of SCPclock cycles defining SYNC1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--3. "       SYNC2    ,Number of SCPclock cycles defining SYNC2" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree.end
tree.end
tree.open "PCIe_PHY_Subsystem"
tree "PCIe1_PHY_RX"
base ad:0x4A094000
width 36.
group.long 0xC++0x3
line.long 0x00 "PCIEPHYRX_ANA_PROGRAMMABILITY_REG1,Some programmability for different analog circuits in the IP."
hexmask.long.tbyte 0x00 8.--31. 1. " MEM_ANATESTMODE    ,Programmability for Analog circuits in the IP. The top 5 bits - MEM_ANATESTMODE[31:27] indicate the serial Interface using this PHY module. To select USB Super-Speed interface mode, user must set bit MEM_ANAMODE [31] to '0b1', and ..."
bitfld.long 0x00 5.--6. "  MEM_PLLDIV             ,This is a test mode. SoC Users are requested to leave this at default value. The input pll_clk (after being muxed with pllbypclk) is divided by the following factors indicated by this register. 00=1 01=2 10=4 11=RESERVED. All ..." "0,1,2,3"
group.long 0x1C++0x3
line.long 0x00 "PCIEPHYRX_TRIM_REG4,The IP requires some values to be remembered in EFUSE. This register provides an alternative to EFUSE."
bitfld.long 0x00 30.--31. " MEM_DLL_TRIM_SEL   ,Determines which of the 4 EFUSE registers EFUSE_dll_rateN_coarsetrim should be used as the trim code by the DLL. This feature is so that the user may find and store the trim codes corresponding to different (at most 4) DLL frequenc..." "0,1,2,3"
group.long 0x24++0x3
line.long 0x00 "PCIEPHYRX_DLL_REG1,This register is used to program DLL settings."
bitfld.long 0x00 30.--31. " MEM_DLL_PHINT_RATE ,Programs the DLL and the Phase Interpolator analog circuits to work with different clock frequencies. The frequency of pll_clk (after the bypassing by MEM_en_pllbyp and the division by MEM_plldiv) should be indicated by this regist..." "0,1,2,3"
group.long 0x28++0x3
line.long 0x00 "PCIEPHYRX_DIGITAL_MODES_REG1,This register contains control bits which affect different circuits in digital section of the IP."
bitfld.long 0x00 31. " MEM_INV_RXPN_PAIR  ,If '1', interchanges RXP and RXN effectively by inverting the received data samples." "0,1"
bitfld.long 0x00 30. "       MEM_OVRD_INV_RXPN_PAIR ,Pin override control. See register bit MEM_inv_rxpn_pair." "0,1"
bitfld.long 0x00 27.--28. "   MEM_HS_RATE ,Determines the ratio of pll_clk (after the bypassing by MEM_en_pllbyp and the division by MEM_plldiv) frequency and the output data rate. Full Rate means pll_clk (after the bypassing by MEM_en_pllbyp and the division by MEM_plldiv) freq..." "0,1,2,3"
textline "                                             "
bitfld.long 0x00 26. " MEM_OVRD_HS_RATE   ,Pin override control. See register bit MEM_hs_rate." "0,1"
bitfld.long 0x00 23. "       MEM_CDR_FASTLOCK       ,'1' to reduce lock time of CDR (clock-data-recovery circuit)." "0,1"
bitfld.long 0x00 21.--22. "   MEM_CDR_LBW ,CDR band-width control." "0,1,2,3"
textline "                                             "
bitfld.long 0x00 19.--20. " MEM_CDR_STEPCNT    ,CDR 2nd order setting." "0,1,2,3"
bitfld.long 0x00 16.--18. "       MEM_CDR_STL            ,CDR settling time. Determines the number of vote clocks to blank ELV (Early-Late-Voter circuit) after update of phase." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 13.--15. "   MEM_CDR_THR ,CDR 1st order threshold. Determines how much early/late votes should differ by before a phase change in the receiver sampling clock is triggered." "0,1,2,3,4,5,6,7"
textline "                                             "
bitfld.long 0x00 12. " MEM_CDR_THR_MODE   ,CDR 1st order threshold." "0,1"
bitfld.long 0x00 11. "       MEM_CDR_2NDO_SDM_MODE  ,If '1', the 2nd Order CDR block uses a 1st order Sigma Delta Modulator to accomplish frequency offset If '0', a simple rate transformer is used for the same purpose." "0,1"
group.long 0x38++0x3
line.long 0x00 "PCIEPHYRX_EQUALIZER_REG1,The IP has an Equalizer (with analog and digital parts) which addresses Inter Symbol Interference (ISI). This register is for its controllability. The equalizer can be con?gured via the EQCTL bits which are part of the SCP regi..."
hexmask.long.word 0x00 16.--31. 1. " MEM_EQLEV          ,Equalizer level control."
bitfld.long 0x00 11.--15. "    MEM_EQFTC              ,Equalizer zero freq control." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 7.--10. "  MEM_EQCTL   ,0000 - Equalizer disabled 0001 - Fully adaptive; FTC normal 0010 - Fully adaptive; FTC inverted 0011 - Hold eq state 01xx - Init eq to fully adaptive start/midpoint 1000 - Partially adaptive; zero=1084 MHz 1001 - Partially adaptive; zero..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                             "
bitfld.long 0x00 2. " MEM_OVRD_EQLEV     ,Continuosly forces the Equalizer output with the eqlev[15:0]." "0,1"
bitfld.long 0x00 1. "       MEM_OVRD_EQFTC         ,Continuosly forces the Equalizer output with the eqftc[4:0]." "0,1"
width 0x0B
tree.end
tree "OCP2SCP3"
base ad:0x4A090000
width 19.
rgroup.long 0x0++0x3
line.long 0x00 "OCP2SCP_REVISION,IP Revision Identifier (X.Y.R)"
bitfld.long 0x00 30.--31. " SCHEME        ,Used to distinguish between old Scheme and current. Spare bit to encode future schemes." "0,1,2,3"
hexmask.long.word 0x00 16.--27. 1. "           FUNC      ,Function: Indicates a software compatible module family"
bitfld.long 0x00 11.--15. "    RTL      ,RTL version This field changes on bug fix, and resets to" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                            "
bitfld.long 0x00 8.--10. " MAJOR         ,ajor Revision This field changes when there is a major feature change. This field does not change due to bug fix, or minor feature change." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 6.--7. "           CUSTOM    ,Indicates a special version for a particular device. Consequence of use may avoid use of standard Chip Support Library (CSL)/Drivers. 0 if non-custom." "0,1,2,3"
bitfld.long 0x00 0.--5. "       MINOR    ,inor Revision This field changes when features are scaled up or down. This field does not change due to bug fix, or major feature change." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x10++0x3
line.long 0x00 "OCP2SCP_SYSCONFIG,SYSTEM CONFIGURATION REGISTER"
bitfld.long 0x00 3.--4. " IDLEMODE      ,- ForceIdle. - NoIdle. - Reserved. - SmartIdle." "ForceIdle,NoIdle,Reserved,SmartIdle"
bitfld.long 0x00 1. "   SOFTRESET ,Software Reset. Set this bit to 1 to trigger a module reset. The bit is automatically reset by the hardware. During reads, it always returns 0. - Normal. - Reset." "Normal,Reset"
bitfld.long 0x00 0. "  AUTOIDLE ,OCP interface clock gating control. - FreeRun. - Automatic." "FreeRun,Automatic"
rgroup.long 0x14++0x3
line.long 0x00 "OCP2SCP_SYSSTATUS,System Status register."
bitfld.long 0x00 0. " RESETDONE     ,- Complete. - InProgress." "InProgress,Complete"
group.long 0x18++0x3
line.long 0x00 "OCP2SCP_TIMING,Interrupt Status Register (legacy) for first line of interrupt."
bitfld.long 0x00 7.--9. " DIVISIONRATIO ,Division Ration of the SCP clock in relation to OCP input clock." "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "           SYNC1     ,Number of SCPclock cycles defining SYNC1" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--3. "       SYNC2    ,Number of SCPclock cycles defining SYNC2" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x0B
tree.end
tree "PCIe1_PHY_TX"
base ad:0x4A094400
width 31.
group.long 0xC++0x3
line.long 0x00 "PCIEPHYTX_FUNC_CONFIG_REG,Functional Configuration registers"
bitfld.long 0x00 31. " MEM_INVPAIR             ,Invert polarity of TXP/TXN" "0,1"
group.long 0x10++0x3
line.long 0x00 "PCIEPHYTX_DRIVER_DATA_CONFIG1,Configures the Driver data pattern"
hexmask.long.byte 0x00 25.--31. 1. " MEM_EVEN_OUT_CONFIG0    ,Overriding the even TX data driver - to AFE"
hexmask.long.byte 0x00 18.--24. 1. "        MEM_ODD_OUT_CONFIG0      ,Overriding the odd TX data driver - to AFE"
hexmask.long.byte 0x00 11.--17. 1. "  MEM_EVEN_OUT_CONFIG1          ,Overriding the even TX data driver - to AFE"
textline "                                        "
hexmask.long.byte 0x00 4.--10. 1. " MEM_ODD_OUT_CONFIG1     ,Overriding the odd TX data driver - to AFE"
bitfld.long 0x00 2.--3. "        MEM_HS_RATE_ANA_OVERRIDE ,Override for the HS rate signal going to the AFE" "0,1,2,3"
bitfld.long 0x00 1. "   MEM_OVRD_HS_RATE_ANA_OVERRIDE ,Pin override for the hs_rate_ana_override" "0,1"
group.long 0x2C++0x3
line.long 0x00 "PCIEPHYTX_TEST_CONFIG_REG,Test related configuration registers"
bitfld.long 0x00 30. " MEM_EN_LPBK             ,Loopback enable for test" "0,1"
bitfld.long 0x00 29. "         MEM_ENTXPATT             ,Enable Test pattern to input of the serializer instead of TD" "0,1"
bitfld.long 0x00 26.--28. "   MEM_TESTPATT                  ,Select the LFSR mode to generate the required pattern 000=> 31 bit LFSR mode 011 => 23 bit LFSR mode 010 => 7 bit LFSR mode 001=> generate 1010 pattern 100=> Fixed 31 bit value from p..." "0,1,2,3,4,5,6,7"
group.long 0x30++0x3
line.long 0x00 "PCIEPHYTX_PATTGEN_PRELOAD,Pattern generator (31 bit) LFSR Seed or preload value"
hexmask.long 0x00 1.--31. 1. " MEM_PATTGEN_PRELOAD_VAL ,Preload value to the LFSR pattern generator"
width 0x0B
tree.end
tree.end
tree.open "General_Purpose_Interface_Overview"
tree.open "GPIO7"
tree "GPIO7"
base ad:0x48051000
width 22.
rgroup.long 0x0++0x3
line.long 0x00 "GPIO_REVISION,IP revision identifier (X.Y.R)"
hexmask.long 0x00 0.--31. 1. " REVISION       ,IP revision"
group.long 0x10++0x3
line.long 0x00 "GPIO_SYSCONFIG,System configuration register"
bitfld.long 0x00 3.--4. " IDLEMODE       ,0x0: Force-idle: An IDLE request is acknowledged unconditionally. - NoIdle. - SmartIdle. - SmartIdleWakeup." "0,NoIdle,SmartIdle,SmartIdleWakeup"
bitfld.long 0x00 2. "  ENAWAKEUP     ,Wake-up control. - Disable. - Enable." "Disable,Enable"
bitfld.long 0x00 1. "   SOFTRESET ,Software reset. Set this bit to 1 to trigger a module reset. The bit is automatically reset by the hardware. During reads, it always returns 0. - Normal. - Reset." "Normal,Reset"
textline "                               "
bitfld.long 0x00 0. " AUTOIDLE       ,OCP clock gating control. - FreeRun. - Automatic." "FreeRun,Automatic"
wgroup.long 0x20++0x3
line.long 0x00 "GPIO_EOI,Software end of interrupt."
bitfld.long 0x00 0. " LINE_NUMBER    ,Software End Of Interrupt (EOI) control. - EOI_0. - EOI_1." "EOI_0,EOI_1"
group.long 0x24++0x3
line.long 0x00 "GPIO_IRQSTATUS_RAW_0,Per-event raw interrupt status vector, showing all active events (enabled and not enabled), (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status raw for interrupt line. Writing '1' to a bit will set it to '1.' Writing '0' has no effect"
group.long 0x28++0x3
line.long 0x00 "GPIO_IRQSTATUS_RAW_1,Per-event raw interrupt status vector, showing all active events (enabled and not enabled), (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status raw for interrupt line Writing '1' to a bit will set it to '1.' Writing '0' has no effect"
group.long 0x2C++0x3
line.long 0x00 "GPIO_IRQSTATUS_0,Per-event interrupt status vector, showing all active and enabled events (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status for interrupt line Writing 1 to a bit will clear it to 0. Writing 0 has no effect."
group.long 0x30++0x3
line.long 0x00 "GPIO_IRQSTATUS_1,Per-event enabled interrupt status vector, showing all active and enabled events (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status for interrupt line Writing 1 to a bit will clear it to 0. Writing 0 has no effect."
group.long 0x34++0x3
line.long 0x00 "GPIO_IRQSTATUS_SET_0,Per-event interrupt-enable set vector (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status set for interrupt line Writing 1 to a bit enables the corresponding interrupt event. Writing 0 has no effect."
group.long 0x38++0x3
line.long 0x00 "GPIO_IRQSTATUS_SET_1,Per-event enable set interrupt vector (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status set for interrupt line Writing 1 to a bit enables the corresponding interrupt event. Writing 0 has no effect."
group.long 0x3C++0x3
line.long 0x00 "GPIO_IRQSTATUS_CLR_0,Per-event interrupt-enable clear vector (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status clear for interrupt line Writing 1 to a bit disables the corresponding interrupt event. Writing 0 has no effect."
group.long 0x40++0x3
line.long 0x00 "GPIO_IRQSTATUS_CLR_1,Per-event enable clear interrupt vector (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status clear for interrupt line Writing 1 to a bit disables the corresponding interrupt event. Writing 0 has no effect."
group.long 0x44++0x3
line.long 0x00 "GPIO_IRQWAKEN_0,Per-event wake-up enable set vector (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Wakeup set for interrupt line Setting a bit to 1 will enable wakeup for the corresponding event. Setting a bit to 0 will disable wakeup for the corresponding event."
group.long 0x48++0x3
line.long 0x00 "GPIO_IRQWAKEN_1,Per-event wake-up enable set vector (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Wakeup set for interrupt line Setting a bit to 1 will enable wakeup for the corresponding event. Setting a bit to 0 will disable wakeup for the corresponding event."
rgroup.long 0x114++0x3
line.long 0x00 "GPIO_SYSSTATUS,System status register"
bitfld.long 0x00 0. " RESETDONE      ,- InProgress. - Complete." "InProgress,Complete"
group.long 0x130++0x3
line.long 0x00 "GPIO_CTRL,GPIO control register"
bitfld.long 0x00 1.--2. " GATINGRATIO    ,Clock gating ratio for event detection - N_1. - N_2. - N_4. - N_8." "N_1,N_2,N_4,N_8"
bitfld.long 0x00 0. "              DISABLEMODULE ,- Enabled. - Disabled." "Enabled,Disabled"
group.long 0x134++0x3
line.long 0x00 "GPIO_OE,Output enable register. 0 = Output enabled ; 1 = Output disabled"
hexmask.long 0x00 0.--31. 1. " OUTPUTEN       ,Output enable - Enabled. - Disabled."
rgroup.long 0x138++0x3
line.long 0x00 "GPIO_DATAIN,Data input register (with sampled input data)"
hexmask.long 0x00 0.--31. 1. " DATAIN         ,Sampled input data"
group.long 0x13C++0x3
line.long 0x00 "GPIO_DATAOUT,Data-output register (data to set on output pins)"
hexmask.long 0x00 0.--31. 1. " DATAOUT        ,Data to set on output pins"
group.long 0x140++0x3
line.long 0x00 "GPIO_LEVELDETECT0,Detect low-level register. 0 = Low-level detection disabled; 1 = Low-level detection enabled"
hexmask.long 0x00 0.--31. 1. " LEVELDETECT0   ,Low-level detection - Disabled. - Enabled."
group.long 0x144++0x3
line.long 0x00 "GPIO_LEVELDETECT1,Detect high-level register"
hexmask.long 0x00 0.--31. 1. " LEVELDETECT1   ,- Disabled. - Enabled."
group.long 0x148++0x3
line.long 0x00 "GPIO_RISINGDETECT,Detect rising edge register"
hexmask.long 0x00 0.--31. 1. " RISINGDETECT   ,- Disabled. - Enabled."
group.long 0x14C++0x3
line.long 0x00 "GPIO_FALLINGDETECT,Detect falling edge register"
hexmask.long 0x00 0.--31. 1. " FALLINGDETECT  ,- Disabled. - Enabled."
group.long 0x150++0x3
line.long 0x00 "GPIO_DEBOUNCENABLE,Debouncing enable register"
hexmask.long 0x00 0.--31. 1. " DEBOUNCEENABLE ,- NoDebounce. - Debounce."
group.long 0x154++0x3
line.long 0x00 "GPIO_DEBOUNCINGTIME,Debouncing value register"
hexmask.long.byte 0x00 0.--7. 1. " DEBOUNCETIME   ,8-bit values specifying the debouncing time. It is n-periods of the muxed clock, which can come from either a true 32k oscillator/pad of from the system clock. It depends on which boot mode is selected. For more information see, ."
group.long 0x190++0x3
line.long 0x00 "GPIO_CLEARDATAOUT,Clear data-output register"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,- . - ."
group.long 0x194++0x3
line.long 0x00 "GPIO_SETDATAOUT,Set data-output register"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,- . - ."
width 0x0B
tree.end
tree "GPIO8"
base ad:0x48053000
width 22.
rgroup.long 0x0++0x3
line.long 0x00 "GPIO_REVISION,IP revision identifier (X.Y.R)"
hexmask.long 0x00 0.--31. 1. " REVISION       ,IP revision"
group.long 0x10++0x3
line.long 0x00 "GPIO_SYSCONFIG,System configuration register"
bitfld.long 0x00 3.--4. " IDLEMODE       ,0x0: Force-idle: An IDLE request is acknowledged unconditionally. - NoIdle. - SmartIdle. - SmartIdleWakeup." "0,NoIdle,SmartIdle,SmartIdleWakeup"
bitfld.long 0x00 2. "  ENAWAKEUP     ,Wake-up control. - Disable. - Enable." "Disable,Enable"
bitfld.long 0x00 1. "   SOFTRESET ,Software reset. Set this bit to 1 to trigger a module reset. The bit is automatically reset by the hardware. During reads, it always returns 0. - Normal. - Reset." "Normal,Reset"
textline "                               "
bitfld.long 0x00 0. " AUTOIDLE       ,OCP clock gating control. - FreeRun. - Automatic." "FreeRun,Automatic"
wgroup.long 0x20++0x3
line.long 0x00 "GPIO_EOI,Software end of interrupt."
bitfld.long 0x00 0. " LINE_NUMBER    ,Software End Of Interrupt (EOI) control. - EOI_0. - EOI_1." "EOI_0,EOI_1"
group.long 0x24++0x3
line.long 0x00 "GPIO_IRQSTATUS_RAW_0,Per-event raw interrupt status vector, showing all active events (enabled and not enabled), (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status raw for interrupt line. Writing '1' to a bit will set it to '1.' Writing '0' has no effect"
group.long 0x28++0x3
line.long 0x00 "GPIO_IRQSTATUS_RAW_1,Per-event raw interrupt status vector, showing all active events (enabled and not enabled), (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status raw for interrupt line Writing '1' to a bit will set it to '1.' Writing '0' has no effect"
group.long 0x2C++0x3
line.long 0x00 "GPIO_IRQSTATUS_0,Per-event interrupt status vector, showing all active and enabled events (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status for interrupt line Writing 1 to a bit will clear it to 0. Writing 0 has no effect."
group.long 0x30++0x3
line.long 0x00 "GPIO_IRQSTATUS_1,Per-event enabled interrupt status vector, showing all active and enabled events (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status for interrupt line Writing 1 to a bit will clear it to 0. Writing 0 has no effect."
group.long 0x34++0x3
line.long 0x00 "GPIO_IRQSTATUS_SET_0,Per-event interrupt-enable set vector (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status set for interrupt line Writing 1 to a bit enables the corresponding interrupt event. Writing 0 has no effect."
group.long 0x38++0x3
line.long 0x00 "GPIO_IRQSTATUS_SET_1,Per-event enable set interrupt vector (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status set for interrupt line Writing 1 to a bit enables the corresponding interrupt event. Writing 0 has no effect."
group.long 0x3C++0x3
line.long 0x00 "GPIO_IRQSTATUS_CLR_0,Per-event interrupt-enable clear vector (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status clear for interrupt line Writing 1 to a bit disables the corresponding interrupt event. Writing 0 has no effect."
group.long 0x40++0x3
line.long 0x00 "GPIO_IRQSTATUS_CLR_1,Per-event enable clear interrupt vector (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status clear for interrupt line Writing 1 to a bit disables the corresponding interrupt event. Writing 0 has no effect."
group.long 0x44++0x3
line.long 0x00 "GPIO_IRQWAKEN_0,Per-event wake-up enable set vector (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Wakeup set for interrupt line Setting a bit to 1 will enable wakeup for the corresponding event. Setting a bit to 0 will disable wakeup for the corresponding event."
group.long 0x48++0x3
line.long 0x00 "GPIO_IRQWAKEN_1,Per-event wake-up enable set vector (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Wakeup set for interrupt line Setting a bit to 1 will enable wakeup for the corresponding event. Setting a bit to 0 will disable wakeup for the corresponding event."
rgroup.long 0x114++0x3
line.long 0x00 "GPIO_SYSSTATUS,System status register"
bitfld.long 0x00 0. " RESETDONE      ,- InProgress. - Complete." "InProgress,Complete"
group.long 0x130++0x3
line.long 0x00 "GPIO_CTRL,GPIO control register"
bitfld.long 0x00 1.--2. " GATINGRATIO    ,Clock gating ratio for event detection - N_1. - N_2. - N_4. - N_8." "N_1,N_2,N_4,N_8"
bitfld.long 0x00 0. "              DISABLEMODULE ,- Enabled. - Disabled." "Enabled,Disabled"
group.long 0x134++0x3
line.long 0x00 "GPIO_OE,Output enable register. 0 = Output enabled ; 1 = Output disabled"
hexmask.long 0x00 0.--31. 1. " OUTPUTEN       ,Output enable - Enabled. - Disabled."
rgroup.long 0x138++0x3
line.long 0x00 "GPIO_DATAIN,Data input register (with sampled input data)"
hexmask.long 0x00 0.--31. 1. " DATAIN         ,Sampled input data"
group.long 0x13C++0x3
line.long 0x00 "GPIO_DATAOUT,Data-output register (data to set on output pins)"
hexmask.long 0x00 0.--31. 1. " DATAOUT        ,Data to set on output pins"
group.long 0x140++0x3
line.long 0x00 "GPIO_LEVELDETECT0,Detect low-level register. 0 = Low-level detection disabled; 1 = Low-level detection enabled"
hexmask.long 0x00 0.--31. 1. " LEVELDETECT0   ,Low-level detection - Disabled. - Enabled."
group.long 0x144++0x3
line.long 0x00 "GPIO_LEVELDETECT1,Detect high-level register"
hexmask.long 0x00 0.--31. 1. " LEVELDETECT1   ,- Disabled. - Enabled."
group.long 0x148++0x3
line.long 0x00 "GPIO_RISINGDETECT,Detect rising edge register"
hexmask.long 0x00 0.--31. 1. " RISINGDETECT   ,- Disabled. - Enabled."
group.long 0x14C++0x3
line.long 0x00 "GPIO_FALLINGDETECT,Detect falling edge register"
hexmask.long 0x00 0.--31. 1. " FALLINGDETECT  ,- Disabled. - Enabled."
group.long 0x150++0x3
line.long 0x00 "GPIO_DEBOUNCENABLE,Debouncing enable register"
hexmask.long 0x00 0.--31. 1. " DEBOUNCEENABLE ,- NoDebounce. - Debounce."
group.long 0x154++0x3
line.long 0x00 "GPIO_DEBOUNCINGTIME,Debouncing value register"
hexmask.long.byte 0x00 0.--7. 1. " DEBOUNCETIME   ,8-bit values specifying the debouncing time. It is n-periods of the muxed clock, which can come from either a true 32k oscillator/pad of from the system clock. It depends on which boot mode is selected. For more information see, ."
group.long 0x190++0x3
line.long 0x00 "GPIO_CLEARDATAOUT,Clear data-output register"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,- . - ."
group.long 0x194++0x3
line.long 0x00 "GPIO_SETDATAOUT,Set data-output register"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,- . - ."
width 0x0B
tree.end
tree "GPIO2"
base ad:0x48055000
width 22.
rgroup.long 0x0++0x3
line.long 0x00 "GPIO_REVISION,IP revision identifier (X.Y.R)"
hexmask.long 0x00 0.--31. 1. " REVISION       ,IP revision"
group.long 0x10++0x3
line.long 0x00 "GPIO_SYSCONFIG,System configuration register"
bitfld.long 0x00 3.--4. " IDLEMODE       ,0x0: Force-idle: An IDLE request is acknowledged unconditionally. - NoIdle. - SmartIdle. - SmartIdleWakeup." "0,NoIdle,SmartIdle,SmartIdleWakeup"
bitfld.long 0x00 2. "  ENAWAKEUP     ,Wake-up control. - Disable. - Enable." "Disable,Enable"
bitfld.long 0x00 1. "   SOFTRESET ,Software reset. Set this bit to 1 to trigger a module reset. The bit is automatically reset by the hardware. During reads, it always returns 0. - Normal. - Reset." "Normal,Reset"
textline "                               "
bitfld.long 0x00 0. " AUTOIDLE       ,OCP clock gating control. - FreeRun. - Automatic." "FreeRun,Automatic"
wgroup.long 0x20++0x3
line.long 0x00 "GPIO_EOI,Software end of interrupt."
bitfld.long 0x00 0. " LINE_NUMBER    ,Software End Of Interrupt (EOI) control. - EOI_0. - EOI_1." "EOI_0,EOI_1"
group.long 0x24++0x3
line.long 0x00 "GPIO_IRQSTATUS_RAW_0,Per-event raw interrupt status vector, showing all active events (enabled and not enabled), (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status raw for interrupt line. Writing '1' to a bit will set it to '1.' Writing '0' has no effect"
group.long 0x28++0x3
line.long 0x00 "GPIO_IRQSTATUS_RAW_1,Per-event raw interrupt status vector, showing all active events (enabled and not enabled), (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status raw for interrupt line Writing '1' to a bit will set it to '1.' Writing '0' has no effect"
group.long 0x2C++0x3
line.long 0x00 "GPIO_IRQSTATUS_0,Per-event interrupt status vector, showing all active and enabled events (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status for interrupt line Writing 1 to a bit will clear it to 0. Writing 0 has no effect."
group.long 0x30++0x3
line.long 0x00 "GPIO_IRQSTATUS_1,Per-event enabled interrupt status vector, showing all active and enabled events (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status for interrupt line Writing 1 to a bit will clear it to 0. Writing 0 has no effect."
group.long 0x34++0x3
line.long 0x00 "GPIO_IRQSTATUS_SET_0,Per-event interrupt-enable set vector (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status set for interrupt line Writing 1 to a bit enables the corresponding interrupt event. Writing 0 has no effect."
group.long 0x38++0x3
line.long 0x00 "GPIO_IRQSTATUS_SET_1,Per-event enable set interrupt vector (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status set for interrupt line Writing 1 to a bit enables the corresponding interrupt event. Writing 0 has no effect."
group.long 0x3C++0x3
line.long 0x00 "GPIO_IRQSTATUS_CLR_0,Per-event interrupt-enable clear vector (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status clear for interrupt line Writing 1 to a bit disables the corresponding interrupt event. Writing 0 has no effect."
group.long 0x40++0x3
line.long 0x00 "GPIO_IRQSTATUS_CLR_1,Per-event enable clear interrupt vector (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status clear for interrupt line Writing 1 to a bit disables the corresponding interrupt event. Writing 0 has no effect."
group.long 0x44++0x3
line.long 0x00 "GPIO_IRQWAKEN_0,Per-event wake-up enable set vector (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Wakeup set for interrupt line Setting a bit to 1 will enable wakeup for the corresponding event. Setting a bit to 0 will disable wakeup for the corresponding event."
group.long 0x48++0x3
line.long 0x00 "GPIO_IRQWAKEN_1,Per-event wake-up enable set vector (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Wakeup set for interrupt line Setting a bit to 1 will enable wakeup for the corresponding event. Setting a bit to 0 will disable wakeup for the corresponding event."
rgroup.long 0x114++0x3
line.long 0x00 "GPIO_SYSSTATUS,System status register"
bitfld.long 0x00 0. " RESETDONE      ,- InProgress. - Complete." "InProgress,Complete"
group.long 0x130++0x3
line.long 0x00 "GPIO_CTRL,GPIO control register"
bitfld.long 0x00 1.--2. " GATINGRATIO    ,Clock gating ratio for event detection - N_1. - N_2. - N_4. - N_8." "N_1,N_2,N_4,N_8"
bitfld.long 0x00 0. "              DISABLEMODULE ,- Enabled. - Disabled." "Enabled,Disabled"
group.long 0x134++0x3
line.long 0x00 "GPIO_OE,Output enable register. 0 = Output enabled ; 1 = Output disabled"
hexmask.long 0x00 0.--31. 1. " OUTPUTEN       ,Output enable - Enabled. - Disabled."
rgroup.long 0x138++0x3
line.long 0x00 "GPIO_DATAIN,Data input register (with sampled input data)"
hexmask.long 0x00 0.--31. 1. " DATAIN         ,Sampled input data"
group.long 0x13C++0x3
line.long 0x00 "GPIO_DATAOUT,Data-output register (data to set on output pins)"
hexmask.long 0x00 0.--31. 1. " DATAOUT        ,Data to set on output pins"
group.long 0x140++0x3
line.long 0x00 "GPIO_LEVELDETECT0,Detect low-level register. 0 = Low-level detection disabled; 1 = Low-level detection enabled"
hexmask.long 0x00 0.--31. 1. " LEVELDETECT0   ,Low-level detection - Disabled. - Enabled."
group.long 0x144++0x3
line.long 0x00 "GPIO_LEVELDETECT1,Detect high-level register"
hexmask.long 0x00 0.--31. 1. " LEVELDETECT1   ,- Disabled. - Enabled."
group.long 0x148++0x3
line.long 0x00 "GPIO_RISINGDETECT,Detect rising edge register"
hexmask.long 0x00 0.--31. 1. " RISINGDETECT   ,- Disabled. - Enabled."
group.long 0x14C++0x3
line.long 0x00 "GPIO_FALLINGDETECT,Detect falling edge register"
hexmask.long 0x00 0.--31. 1. " FALLINGDETECT  ,- Disabled. - Enabled."
group.long 0x150++0x3
line.long 0x00 "GPIO_DEBOUNCENABLE,Debouncing enable register"
hexmask.long 0x00 0.--31. 1. " DEBOUNCEENABLE ,- NoDebounce. - Debounce."
group.long 0x154++0x3
line.long 0x00 "GPIO_DEBOUNCINGTIME,Debouncing value register"
hexmask.long.byte 0x00 0.--7. 1. " DEBOUNCETIME   ,8-bit values specifying the debouncing time. It is n-periods of the muxed clock, which can come from either a true 32k oscillator/pad of from the system clock. It depends on which boot mode is selected. For more information see, ."
group.long 0x190++0x3
line.long 0x00 "GPIO_CLEARDATAOUT,Clear data-output register"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,- . - ."
group.long 0x194++0x3
line.long 0x00 "GPIO_SETDATAOUT,Set data-output register"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,- . - ."
width 0x0B
tree.end
tree "GPIO3"
base ad:0x48057000
width 22.
rgroup.long 0x0++0x3
line.long 0x00 "GPIO_REVISION,IP revision identifier (X.Y.R)"
hexmask.long 0x00 0.--31. 1. " REVISION       ,IP revision"
group.long 0x10++0x3
line.long 0x00 "GPIO_SYSCONFIG,System configuration register"
bitfld.long 0x00 3.--4. " IDLEMODE       ,0x0: Force-idle: An IDLE request is acknowledged unconditionally. - NoIdle. - SmartIdle. - SmartIdleWakeup." "0,NoIdle,SmartIdle,SmartIdleWakeup"
bitfld.long 0x00 2. "  ENAWAKEUP     ,Wake-up control. - Disable. - Enable." "Disable,Enable"
bitfld.long 0x00 1. "   SOFTRESET ,Software reset. Set this bit to 1 to trigger a module reset. The bit is automatically reset by the hardware. During reads, it always returns 0. - Normal. - Reset." "Normal,Reset"
textline "                               "
bitfld.long 0x00 0. " AUTOIDLE       ,OCP clock gating control. - FreeRun. - Automatic." "FreeRun,Automatic"
wgroup.long 0x20++0x3
line.long 0x00 "GPIO_EOI,Software end of interrupt."
bitfld.long 0x00 0. " LINE_NUMBER    ,Software End Of Interrupt (EOI) control. - EOI_0. - EOI_1." "EOI_0,EOI_1"
group.long 0x24++0x3
line.long 0x00 "GPIO_IRQSTATUS_RAW_0,Per-event raw interrupt status vector, showing all active events (enabled and not enabled), (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status raw for interrupt line. Writing '1' to a bit will set it to '1.' Writing '0' has no effect"
group.long 0x28++0x3
line.long 0x00 "GPIO_IRQSTATUS_RAW_1,Per-event raw interrupt status vector, showing all active events (enabled and not enabled), (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status raw for interrupt line Writing '1' to a bit will set it to '1.' Writing '0' has no effect"
group.long 0x2C++0x3
line.long 0x00 "GPIO_IRQSTATUS_0,Per-event interrupt status vector, showing all active and enabled events (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status for interrupt line Writing 1 to a bit will clear it to 0. Writing 0 has no effect."
group.long 0x30++0x3
line.long 0x00 "GPIO_IRQSTATUS_1,Per-event enabled interrupt status vector, showing all active and enabled events (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status for interrupt line Writing 1 to a bit will clear it to 0. Writing 0 has no effect."
group.long 0x34++0x3
line.long 0x00 "GPIO_IRQSTATUS_SET_0,Per-event interrupt-enable set vector (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status set for interrupt line Writing 1 to a bit enables the corresponding interrupt event. Writing 0 has no effect."
group.long 0x38++0x3
line.long 0x00 "GPIO_IRQSTATUS_SET_1,Per-event enable set interrupt vector (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status set for interrupt line Writing 1 to a bit enables the corresponding interrupt event. Writing 0 has no effect."
group.long 0x3C++0x3
line.long 0x00 "GPIO_IRQSTATUS_CLR_0,Per-event interrupt-enable clear vector (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status clear for interrupt line Writing 1 to a bit disables the corresponding interrupt event. Writing 0 has no effect."
group.long 0x40++0x3
line.long 0x00 "GPIO_IRQSTATUS_CLR_1,Per-event enable clear interrupt vector (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status clear for interrupt line Writing 1 to a bit disables the corresponding interrupt event. Writing 0 has no effect."
group.long 0x44++0x3
line.long 0x00 "GPIO_IRQWAKEN_0,Per-event wake-up enable set vector (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Wakeup set for interrupt line Setting a bit to 1 will enable wakeup for the corresponding event. Setting a bit to 0 will disable wakeup for the corresponding event."
group.long 0x48++0x3
line.long 0x00 "GPIO_IRQWAKEN_1,Per-event wake-up enable set vector (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Wakeup set for interrupt line Setting a bit to 1 will enable wakeup for the corresponding event. Setting a bit to 0 will disable wakeup for the corresponding event."
rgroup.long 0x114++0x3
line.long 0x00 "GPIO_SYSSTATUS,System status register"
bitfld.long 0x00 0. " RESETDONE      ,- InProgress. - Complete." "InProgress,Complete"
group.long 0x130++0x3
line.long 0x00 "GPIO_CTRL,GPIO control register"
bitfld.long 0x00 1.--2. " GATINGRATIO    ,Clock gating ratio for event detection - N_1. - N_2. - N_4. - N_8." "N_1,N_2,N_4,N_8"
bitfld.long 0x00 0. "              DISABLEMODULE ,- Enabled. - Disabled." "Enabled,Disabled"
group.long 0x134++0x3
line.long 0x00 "GPIO_OE,Output enable register. 0 = Output enabled ; 1 = Output disabled"
hexmask.long 0x00 0.--31. 1. " OUTPUTEN       ,Output enable - Enabled. - Disabled."
rgroup.long 0x138++0x3
line.long 0x00 "GPIO_DATAIN,Data input register (with sampled input data)"
hexmask.long 0x00 0.--31. 1. " DATAIN         ,Sampled input data"
group.long 0x13C++0x3
line.long 0x00 "GPIO_DATAOUT,Data-output register (data to set on output pins)"
hexmask.long 0x00 0.--31. 1. " DATAOUT        ,Data to set on output pins"
group.long 0x140++0x3
line.long 0x00 "GPIO_LEVELDETECT0,Detect low-level register. 0 = Low-level detection disabled; 1 = Low-level detection enabled"
hexmask.long 0x00 0.--31. 1. " LEVELDETECT0   ,Low-level detection - Disabled. - Enabled."
group.long 0x144++0x3
line.long 0x00 "GPIO_LEVELDETECT1,Detect high-level register"
hexmask.long 0x00 0.--31. 1. " LEVELDETECT1   ,- Disabled. - Enabled."
group.long 0x148++0x3
line.long 0x00 "GPIO_RISINGDETECT,Detect rising edge register"
hexmask.long 0x00 0.--31. 1. " RISINGDETECT   ,- Disabled. - Enabled."
group.long 0x14C++0x3
line.long 0x00 "GPIO_FALLINGDETECT,Detect falling edge register"
hexmask.long 0x00 0.--31. 1. " FALLINGDETECT  ,- Disabled. - Enabled."
group.long 0x150++0x3
line.long 0x00 "GPIO_DEBOUNCENABLE,Debouncing enable register"
hexmask.long 0x00 0.--31. 1. " DEBOUNCEENABLE ,- NoDebounce. - Debounce."
group.long 0x154++0x3
line.long 0x00 "GPIO_DEBOUNCINGTIME,Debouncing value register"
hexmask.long.byte 0x00 0.--7. 1. " DEBOUNCETIME   ,8-bit values specifying the debouncing time. It is n-periods of the muxed clock, which can come from either a true 32k oscillator/pad of from the system clock. It depends on which boot mode is selected. For more information see, ."
group.long 0x190++0x3
line.long 0x00 "GPIO_CLEARDATAOUT,Clear data-output register"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,- . - ."
group.long 0x194++0x3
line.long 0x00 "GPIO_SETDATAOUT,Set data-output register"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,- . - ."
width 0x0B
tree.end
tree "GPIO4"
base ad:0x48059000
width 22.
rgroup.long 0x0++0x3
line.long 0x00 "GPIO_REVISION,IP revision identifier (X.Y.R)"
hexmask.long 0x00 0.--31. 1. " REVISION       ,IP revision"
group.long 0x10++0x3
line.long 0x00 "GPIO_SYSCONFIG,System configuration register"
bitfld.long 0x00 3.--4. " IDLEMODE       ,0x0: Force-idle: An IDLE request is acknowledged unconditionally. - NoIdle. - SmartIdle. - SmartIdleWakeup." "0,NoIdle,SmartIdle,SmartIdleWakeup"
bitfld.long 0x00 2. "  ENAWAKEUP     ,Wake-up control. - Disable. - Enable." "Disable,Enable"
bitfld.long 0x00 1. "   SOFTRESET ,Software reset. Set this bit to 1 to trigger a module reset. The bit is automatically reset by the hardware. During reads, it always returns 0. - Normal. - Reset." "Normal,Reset"
textline "                               "
bitfld.long 0x00 0. " AUTOIDLE       ,OCP clock gating control. - FreeRun. - Automatic." "FreeRun,Automatic"
wgroup.long 0x20++0x3
line.long 0x00 "GPIO_EOI,Software end of interrupt."
bitfld.long 0x00 0. " LINE_NUMBER    ,Software End Of Interrupt (EOI) control. - EOI_0. - EOI_1." "EOI_0,EOI_1"
group.long 0x24++0x3
line.long 0x00 "GPIO_IRQSTATUS_RAW_0,Per-event raw interrupt status vector, showing all active events (enabled and not enabled), (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status raw for interrupt line. Writing '1' to a bit will set it to '1.' Writing '0' has no effect"
group.long 0x28++0x3
line.long 0x00 "GPIO_IRQSTATUS_RAW_1,Per-event raw interrupt status vector, showing all active events (enabled and not enabled), (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status raw for interrupt line Writing '1' to a bit will set it to '1.' Writing '0' has no effect"
group.long 0x2C++0x3
line.long 0x00 "GPIO_IRQSTATUS_0,Per-event interrupt status vector, showing all active and enabled events (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status for interrupt line Writing 1 to a bit will clear it to 0. Writing 0 has no effect."
group.long 0x30++0x3
line.long 0x00 "GPIO_IRQSTATUS_1,Per-event enabled interrupt status vector, showing all active and enabled events (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status for interrupt line Writing 1 to a bit will clear it to 0. Writing 0 has no effect."
group.long 0x34++0x3
line.long 0x00 "GPIO_IRQSTATUS_SET_0,Per-event interrupt-enable set vector (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status set for interrupt line Writing 1 to a bit enables the corresponding interrupt event. Writing 0 has no effect."
group.long 0x38++0x3
line.long 0x00 "GPIO_IRQSTATUS_SET_1,Per-event enable set interrupt vector (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status set for interrupt line Writing 1 to a bit enables the corresponding interrupt event. Writing 0 has no effect."
group.long 0x3C++0x3
line.long 0x00 "GPIO_IRQSTATUS_CLR_0,Per-event interrupt-enable clear vector (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status clear for interrupt line Writing 1 to a bit disables the corresponding interrupt event. Writing 0 has no effect."
group.long 0x40++0x3
line.long 0x00 "GPIO_IRQSTATUS_CLR_1,Per-event enable clear interrupt vector (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status clear for interrupt line Writing 1 to a bit disables the corresponding interrupt event. Writing 0 has no effect."
group.long 0x44++0x3
line.long 0x00 "GPIO_IRQWAKEN_0,Per-event wake-up enable set vector (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Wakeup set for interrupt line Setting a bit to 1 will enable wakeup for the corresponding event. Setting a bit to 0 will disable wakeup for the corresponding event."
group.long 0x48++0x3
line.long 0x00 "GPIO_IRQWAKEN_1,Per-event wake-up enable set vector (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Wakeup set for interrupt line Setting a bit to 1 will enable wakeup for the corresponding event. Setting a bit to 0 will disable wakeup for the corresponding event."
rgroup.long 0x114++0x3
line.long 0x00 "GPIO_SYSSTATUS,System status register"
bitfld.long 0x00 0. " RESETDONE      ,- InProgress. - Complete." "InProgress,Complete"
group.long 0x130++0x3
line.long 0x00 "GPIO_CTRL,GPIO control register"
bitfld.long 0x00 1.--2. " GATINGRATIO    ,Clock gating ratio for event detection - N_1. - N_2. - N_4. - N_8." "N_1,N_2,N_4,N_8"
bitfld.long 0x00 0. "              DISABLEMODULE ,- Enabled. - Disabled." "Enabled,Disabled"
group.long 0x134++0x3
line.long 0x00 "GPIO_OE,Output enable register. 0 = Output enabled ; 1 = Output disabled"
hexmask.long 0x00 0.--31. 1. " OUTPUTEN       ,Output enable - Enabled. - Disabled."
rgroup.long 0x138++0x3
line.long 0x00 "GPIO_DATAIN,Data input register (with sampled input data)"
hexmask.long 0x00 0.--31. 1. " DATAIN         ,Sampled input data"
group.long 0x13C++0x3
line.long 0x00 "GPIO_DATAOUT,Data-output register (data to set on output pins)"
hexmask.long 0x00 0.--31. 1. " DATAOUT        ,Data to set on output pins"
group.long 0x140++0x3
line.long 0x00 "GPIO_LEVELDETECT0,Detect low-level register. 0 = Low-level detection disabled; 1 = Low-level detection enabled"
hexmask.long 0x00 0.--31. 1. " LEVELDETECT0   ,Low-level detection - Disabled. - Enabled."
group.long 0x144++0x3
line.long 0x00 "GPIO_LEVELDETECT1,Detect high-level register"
hexmask.long 0x00 0.--31. 1. " LEVELDETECT1   ,- Disabled. - Enabled."
group.long 0x148++0x3
line.long 0x00 "GPIO_RISINGDETECT,Detect rising edge register"
hexmask.long 0x00 0.--31. 1. " RISINGDETECT   ,- Disabled. - Enabled."
group.long 0x14C++0x3
line.long 0x00 "GPIO_FALLINGDETECT,Detect falling edge register"
hexmask.long 0x00 0.--31. 1. " FALLINGDETECT  ,- Disabled. - Enabled."
group.long 0x150++0x3
line.long 0x00 "GPIO_DEBOUNCENABLE,Debouncing enable register"
hexmask.long 0x00 0.--31. 1. " DEBOUNCEENABLE ,- NoDebounce. - Debounce."
group.long 0x154++0x3
line.long 0x00 "GPIO_DEBOUNCINGTIME,Debouncing value register"
hexmask.long.byte 0x00 0.--7. 1. " DEBOUNCETIME   ,8-bit values specifying the debouncing time. It is n-periods of the muxed clock, which can come from either a true 32k oscillator/pad of from the system clock. It depends on which boot mode is selected. For more information see, ."
group.long 0x190++0x3
line.long 0x00 "GPIO_CLEARDATAOUT,Clear data-output register"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,- . - ."
group.long 0x194++0x3
line.long 0x00 "GPIO_SETDATAOUT,Set data-output register"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,- . - ."
width 0x0B
tree.end
tree "GPIO5"
base ad:0x4805B000
width 22.
rgroup.long 0x0++0x3
line.long 0x00 "GPIO_REVISION,IP revision identifier (X.Y.R)"
hexmask.long 0x00 0.--31. 1. " REVISION       ,IP revision"
group.long 0x10++0x3
line.long 0x00 "GPIO_SYSCONFIG,System configuration register"
bitfld.long 0x00 3.--4. " IDLEMODE       ,0x0: Force-idle: An IDLE request is acknowledged unconditionally. - NoIdle. - SmartIdle. - SmartIdleWakeup." "0,NoIdle,SmartIdle,SmartIdleWakeup"
bitfld.long 0x00 2. "  ENAWAKEUP     ,Wake-up control. - Disable. - Enable." "Disable,Enable"
bitfld.long 0x00 1. "   SOFTRESET ,Software reset. Set this bit to 1 to trigger a module reset. The bit is automatically reset by the hardware. During reads, it always returns 0. - Normal. - Reset." "Normal,Reset"
textline "                               "
bitfld.long 0x00 0. " AUTOIDLE       ,OCP clock gating control. - FreeRun. - Automatic." "FreeRun,Automatic"
wgroup.long 0x20++0x3
line.long 0x00 "GPIO_EOI,Software end of interrupt."
bitfld.long 0x00 0. " LINE_NUMBER    ,Software End Of Interrupt (EOI) control. - EOI_0. - EOI_1." "EOI_0,EOI_1"
group.long 0x24++0x3
line.long 0x00 "GPIO_IRQSTATUS_RAW_0,Per-event raw interrupt status vector, showing all active events (enabled and not enabled), (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status raw for interrupt line. Writing '1' to a bit will set it to '1.' Writing '0' has no effect"
group.long 0x28++0x3
line.long 0x00 "GPIO_IRQSTATUS_RAW_1,Per-event raw interrupt status vector, showing all active events (enabled and not enabled), (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status raw for interrupt line Writing '1' to a bit will set it to '1.' Writing '0' has no effect"
group.long 0x2C++0x3
line.long 0x00 "GPIO_IRQSTATUS_0,Per-event interrupt status vector, showing all active and enabled events (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status for interrupt line Writing 1 to a bit will clear it to 0. Writing 0 has no effect."
group.long 0x30++0x3
line.long 0x00 "GPIO_IRQSTATUS_1,Per-event enabled interrupt status vector, showing all active and enabled events (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status for interrupt line Writing 1 to a bit will clear it to 0. Writing 0 has no effect."
group.long 0x34++0x3
line.long 0x00 "GPIO_IRQSTATUS_SET_0,Per-event interrupt-enable set vector (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status set for interrupt line Writing 1 to a bit enables the corresponding interrupt event. Writing 0 has no effect."
group.long 0x38++0x3
line.long 0x00 "GPIO_IRQSTATUS_SET_1,Per-event enable set interrupt vector (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status set for interrupt line Writing 1 to a bit enables the corresponding interrupt event. Writing 0 has no effect."
group.long 0x3C++0x3
line.long 0x00 "GPIO_IRQSTATUS_CLR_0,Per-event interrupt-enable clear vector (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status clear for interrupt line Writing 1 to a bit disables the corresponding interrupt event. Writing 0 has no effect."
group.long 0x40++0x3
line.long 0x00 "GPIO_IRQSTATUS_CLR_1,Per-event enable clear interrupt vector (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status clear for interrupt line Writing 1 to a bit disables the corresponding interrupt event. Writing 0 has no effect."
group.long 0x44++0x3
line.long 0x00 "GPIO_IRQWAKEN_0,Per-event wake-up enable set vector (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Wakeup set for interrupt line Setting a bit to 1 will enable wakeup for the corresponding event. Setting a bit to 0 will disable wakeup for the corresponding event."
group.long 0x48++0x3
line.long 0x00 "GPIO_IRQWAKEN_1,Per-event wake-up enable set vector (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Wakeup set for interrupt line Setting a bit to 1 will enable wakeup for the corresponding event. Setting a bit to 0 will disable wakeup for the corresponding event."
rgroup.long 0x114++0x3
line.long 0x00 "GPIO_SYSSTATUS,System status register"
bitfld.long 0x00 0. " RESETDONE      ,- InProgress. - Complete." "InProgress,Complete"
group.long 0x130++0x3
line.long 0x00 "GPIO_CTRL,GPIO control register"
bitfld.long 0x00 1.--2. " GATINGRATIO    ,Clock gating ratio for event detection - N_1. - N_2. - N_4. - N_8." "N_1,N_2,N_4,N_8"
bitfld.long 0x00 0. "              DISABLEMODULE ,- Enabled. - Disabled." "Enabled,Disabled"
group.long 0x134++0x3
line.long 0x00 "GPIO_OE,Output enable register. 0 = Output enabled ; 1 = Output disabled"
hexmask.long 0x00 0.--31. 1. " OUTPUTEN       ,Output enable - Enabled. - Disabled."
rgroup.long 0x138++0x3
line.long 0x00 "GPIO_DATAIN,Data input register (with sampled input data)"
hexmask.long 0x00 0.--31. 1. " DATAIN         ,Sampled input data"
group.long 0x13C++0x3
line.long 0x00 "GPIO_DATAOUT,Data-output register (data to set on output pins)"
hexmask.long 0x00 0.--31. 1. " DATAOUT        ,Data to set on output pins"
group.long 0x140++0x3
line.long 0x00 "GPIO_LEVELDETECT0,Detect low-level register. 0 = Low-level detection disabled; 1 = Low-level detection enabled"
hexmask.long 0x00 0.--31. 1. " LEVELDETECT0   ,Low-level detection - Disabled. - Enabled."
group.long 0x144++0x3
line.long 0x00 "GPIO_LEVELDETECT1,Detect high-level register"
hexmask.long 0x00 0.--31. 1. " LEVELDETECT1   ,- Disabled. - Enabled."
group.long 0x148++0x3
line.long 0x00 "GPIO_RISINGDETECT,Detect rising edge register"
hexmask.long 0x00 0.--31. 1. " RISINGDETECT   ,- Disabled. - Enabled."
group.long 0x14C++0x3
line.long 0x00 "GPIO_FALLINGDETECT,Detect falling edge register"
hexmask.long 0x00 0.--31. 1. " FALLINGDETECT  ,- Disabled. - Enabled."
group.long 0x150++0x3
line.long 0x00 "GPIO_DEBOUNCENABLE,Debouncing enable register"
hexmask.long 0x00 0.--31. 1. " DEBOUNCEENABLE ,- NoDebounce. - Debounce."
group.long 0x154++0x3
line.long 0x00 "GPIO_DEBOUNCINGTIME,Debouncing value register"
hexmask.long.byte 0x00 0.--7. 1. " DEBOUNCETIME   ,8-bit values specifying the debouncing time. It is n-periods of the muxed clock, which can come from either a true 32k oscillator/pad of from the system clock. It depends on which boot mode is selected. For more information see, ."
group.long 0x190++0x3
line.long 0x00 "GPIO_CLEARDATAOUT,Clear data-output register"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,- . - ."
group.long 0x194++0x3
line.long 0x00 "GPIO_SETDATAOUT,Set data-output register"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,- . - ."
width 0x0B
tree.end
tree "GPIO6"
base ad:0x4805D000
width 22.
rgroup.long 0x0++0x3
line.long 0x00 "GPIO_REVISION,IP revision identifier (X.Y.R)"
hexmask.long 0x00 0.--31. 1. " REVISION       ,IP revision"
group.long 0x10++0x3
line.long 0x00 "GPIO_SYSCONFIG,System configuration register"
bitfld.long 0x00 3.--4. " IDLEMODE       ,0x0: Force-idle: An IDLE request is acknowledged unconditionally. - NoIdle. - SmartIdle. - SmartIdleWakeup." "0,NoIdle,SmartIdle,SmartIdleWakeup"
bitfld.long 0x00 2. "  ENAWAKEUP     ,Wake-up control. - Disable. - Enable." "Disable,Enable"
bitfld.long 0x00 1. "   SOFTRESET ,Software reset. Set this bit to 1 to trigger a module reset. The bit is automatically reset by the hardware. During reads, it always returns 0. - Normal. - Reset." "Normal,Reset"
textline "                               "
bitfld.long 0x00 0. " AUTOIDLE       ,OCP clock gating control. - FreeRun. - Automatic." "FreeRun,Automatic"
wgroup.long 0x20++0x3
line.long 0x00 "GPIO_EOI,Software end of interrupt."
bitfld.long 0x00 0. " LINE_NUMBER    ,Software End Of Interrupt (EOI) control. - EOI_0. - EOI_1." "EOI_0,EOI_1"
group.long 0x24++0x3
line.long 0x00 "GPIO_IRQSTATUS_RAW_0,Per-event raw interrupt status vector, showing all active events (enabled and not enabled), (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status raw for interrupt line. Writing '1' to a bit will set it to '1.' Writing '0' has no effect"
group.long 0x28++0x3
line.long 0x00 "GPIO_IRQSTATUS_RAW_1,Per-event raw interrupt status vector, showing all active events (enabled and not enabled), (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status raw for interrupt line Writing '1' to a bit will set it to '1.' Writing '0' has no effect"
group.long 0x2C++0x3
line.long 0x00 "GPIO_IRQSTATUS_0,Per-event interrupt status vector, showing all active and enabled events (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status for interrupt line Writing 1 to a bit will clear it to 0. Writing 0 has no effect."
group.long 0x30++0x3
line.long 0x00 "GPIO_IRQSTATUS_1,Per-event enabled interrupt status vector, showing all active and enabled events (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status for interrupt line Writing 1 to a bit will clear it to 0. Writing 0 has no effect."
group.long 0x34++0x3
line.long 0x00 "GPIO_IRQSTATUS_SET_0,Per-event interrupt-enable set vector (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status set for interrupt line Writing 1 to a bit enables the corresponding interrupt event. Writing 0 has no effect."
group.long 0x38++0x3
line.long 0x00 "GPIO_IRQSTATUS_SET_1,Per-event enable set interrupt vector (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status set for interrupt line Writing 1 to a bit enables the corresponding interrupt event. Writing 0 has no effect."
group.long 0x3C++0x3
line.long 0x00 "GPIO_IRQSTATUS_CLR_0,Per-event interrupt-enable clear vector (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status clear for interrupt line Writing 1 to a bit disables the corresponding interrupt event. Writing 0 has no effect."
group.long 0x40++0x3
line.long 0x00 "GPIO_IRQSTATUS_CLR_1,Per-event enable clear interrupt vector (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status clear for interrupt line Writing 1 to a bit disables the corresponding interrupt event. Writing 0 has no effect."
group.long 0x44++0x3
line.long 0x00 "GPIO_IRQWAKEN_0,Per-event wake-up enable set vector (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Wakeup set for interrupt line Setting a bit to 1 will enable wakeup for the corresponding event. Setting a bit to 0 will disable wakeup for the corresponding event."
group.long 0x48++0x3
line.long 0x00 "GPIO_IRQWAKEN_1,Per-event wake-up enable set vector (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Wakeup set for interrupt line Setting a bit to 1 will enable wakeup for the corresponding event. Setting a bit to 0 will disable wakeup for the corresponding event."
rgroup.long 0x114++0x3
line.long 0x00 "GPIO_SYSSTATUS,System status register"
bitfld.long 0x00 0. " RESETDONE      ,- InProgress. - Complete." "InProgress,Complete"
group.long 0x130++0x3
line.long 0x00 "GPIO_CTRL,GPIO control register"
bitfld.long 0x00 1.--2. " GATINGRATIO    ,Clock gating ratio for event detection - N_1. - N_2. - N_4. - N_8." "N_1,N_2,N_4,N_8"
bitfld.long 0x00 0. "              DISABLEMODULE ,- Enabled. - Disabled." "Enabled,Disabled"
group.long 0x134++0x3
line.long 0x00 "GPIO_OE,Output enable register. 0 = Output enabled ; 1 = Output disabled"
hexmask.long 0x00 0.--31. 1. " OUTPUTEN       ,Output enable - Enabled. - Disabled."
rgroup.long 0x138++0x3
line.long 0x00 "GPIO_DATAIN,Data input register (with sampled input data)"
hexmask.long 0x00 0.--31. 1. " DATAIN         ,Sampled input data"
group.long 0x13C++0x3
line.long 0x00 "GPIO_DATAOUT,Data-output register (data to set on output pins)"
hexmask.long 0x00 0.--31. 1. " DATAOUT        ,Data to set on output pins"
group.long 0x140++0x3
line.long 0x00 "GPIO_LEVELDETECT0,Detect low-level register. 0 = Low-level detection disabled; 1 = Low-level detection enabled"
hexmask.long 0x00 0.--31. 1. " LEVELDETECT0   ,Low-level detection - Disabled. - Enabled."
group.long 0x144++0x3
line.long 0x00 "GPIO_LEVELDETECT1,Detect high-level register"
hexmask.long 0x00 0.--31. 1. " LEVELDETECT1   ,- Disabled. - Enabled."
group.long 0x148++0x3
line.long 0x00 "GPIO_RISINGDETECT,Detect rising edge register"
hexmask.long 0x00 0.--31. 1. " RISINGDETECT   ,- Disabled. - Enabled."
group.long 0x14C++0x3
line.long 0x00 "GPIO_FALLINGDETECT,Detect falling edge register"
hexmask.long 0x00 0.--31. 1. " FALLINGDETECT  ,- Disabled. - Enabled."
group.long 0x150++0x3
line.long 0x00 "GPIO_DEBOUNCENABLE,Debouncing enable register"
hexmask.long 0x00 0.--31. 1. " DEBOUNCEENABLE ,- NoDebounce. - Debounce."
group.long 0x154++0x3
line.long 0x00 "GPIO_DEBOUNCINGTIME,Debouncing value register"
hexmask.long.byte 0x00 0.--7. 1. " DEBOUNCETIME   ,8-bit values specifying the debouncing time. It is n-periods of the muxed clock, which can come from either a true 32k oscillator/pad of from the system clock. It depends on which boot mode is selected. For more information see, ."
group.long 0x190++0x3
line.long 0x00 "GPIO_CLEARDATAOUT,Clear data-output register"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,- . - ."
group.long 0x194++0x3
line.long 0x00 "GPIO_SETDATAOUT,Set data-output register"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,- . - ."
width 0x0B
tree.end
tree "GPIO1"
base ad:0x4AE10000
width 22.
rgroup.long 0x0++0x3
line.long 0x00 "GPIO_REVISION,IP revision identifier (X.Y.R)"
hexmask.long 0x00 0.--31. 1. " REVISION       ,IP revision"
group.long 0x10++0x3
line.long 0x00 "GPIO_SYSCONFIG,System configuration register"
bitfld.long 0x00 3.--4. " IDLEMODE       ,0x0: Force-idle: An IDLE request is acknowledged unconditionally. - NoIdle. - SmartIdle. - SmartIdleWakeup." "0,NoIdle,SmartIdle,SmartIdleWakeup"
bitfld.long 0x00 2. "  ENAWAKEUP     ,Wake-up control. - Disable. - Enable." "Disable,Enable"
bitfld.long 0x00 1. "   SOFTRESET ,Software reset. Set this bit to 1 to trigger a module reset. The bit is automatically reset by the hardware. During reads, it always returns 0. - Normal. - Reset." "Normal,Reset"
textline "                               "
bitfld.long 0x00 0. " AUTOIDLE       ,OCP clock gating control. - FreeRun. - Automatic." "FreeRun,Automatic"
wgroup.long 0x20++0x3
line.long 0x00 "GPIO_EOI,Software end of interrupt."
bitfld.long 0x00 0. " LINE_NUMBER    ,Software End Of Interrupt (EOI) control. - EOI_0. - EOI_1." "EOI_0,EOI_1"
group.long 0x24++0x3
line.long 0x00 "GPIO_IRQSTATUS_RAW_0,Per-event raw interrupt status vector, showing all active events (enabled and not enabled), (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status raw for interrupt line. Writing '1' to a bit will set it to '1.' Writing '0' has no effect"
group.long 0x28++0x3
line.long 0x00 "GPIO_IRQSTATUS_RAW_1,Per-event raw interrupt status vector, showing all active events (enabled and not enabled), (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status raw for interrupt line Writing '1' to a bit will set it to '1.' Writing '0' has no effect"
group.long 0x2C++0x3
line.long 0x00 "GPIO_IRQSTATUS_0,Per-event interrupt status vector, showing all active and enabled events (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status for interrupt line Writing 1 to a bit will clear it to 0. Writing 0 has no effect."
group.long 0x30++0x3
line.long 0x00 "GPIO_IRQSTATUS_1,Per-event enabled interrupt status vector, showing all active and enabled events (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status for interrupt line Writing 1 to a bit will clear it to 0. Writing 0 has no effect."
group.long 0x34++0x3
line.long 0x00 "GPIO_IRQSTATUS_SET_0,Per-event interrupt-enable set vector (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status set for interrupt line Writing 1 to a bit enables the corresponding interrupt event. Writing 0 has no effect."
group.long 0x38++0x3
line.long 0x00 "GPIO_IRQSTATUS_SET_1,Per-event enable set interrupt vector (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status set for interrupt line Writing 1 to a bit enables the corresponding interrupt event. Writing 0 has no effect."
group.long 0x3C++0x3
line.long 0x00 "GPIO_IRQSTATUS_CLR_0,Per-event interrupt-enable clear vector (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status clear for interrupt line Writing 1 to a bit disables the corresponding interrupt event. Writing 0 has no effect."
group.long 0x40++0x3
line.long 0x00 "GPIO_IRQSTATUS_CLR_1,Per-event enable clear interrupt vector (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Status clear for interrupt line Writing 1 to a bit disables the corresponding interrupt event. Writing 0 has no effect."
group.long 0x44++0x3
line.long 0x00 "GPIO_IRQWAKEN_0,Per-event wake-up enable set vector (corresponding to first line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Wakeup set for interrupt line Setting a bit to 1 will enable wakeup for the corresponding event. Setting a bit to 0 will disable wakeup for the corresponding event."
group.long 0x48++0x3
line.long 0x00 "GPIO_IRQWAKEN_1,Per-event wake-up enable set vector (corresponding to second line of interrupt)"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,Wakeup set for interrupt line Setting a bit to 1 will enable wakeup for the corresponding event. Setting a bit to 0 will disable wakeup for the corresponding event."
rgroup.long 0x114++0x3
line.long 0x00 "GPIO_SYSSTATUS,System status register"
bitfld.long 0x00 0. " RESETDONE      ,- InProgress. - Complete." "InProgress,Complete"
group.long 0x130++0x3
line.long 0x00 "GPIO_CTRL,GPIO control register"
bitfld.long 0x00 1.--2. " GATINGRATIO    ,Clock gating ratio for event detection - N_1. - N_2. - N_4. - N_8." "N_1,N_2,N_4,N_8"
bitfld.long 0x00 0. "              DISABLEMODULE ,- Enabled. - Disabled." "Enabled,Disabled"
group.long 0x134++0x3
line.long 0x00 "GPIO_OE,Output enable register. 0 = Output enabled ; 1 = Output disabled"
hexmask.long 0x00 0.--31. 1. " OUTPUTEN       ,Output enable - Enabled. - Disabled."
rgroup.long 0x138++0x3
line.long 0x00 "GPIO_DATAIN,Data input register (with sampled input data)"
hexmask.long 0x00 0.--31. 1. " DATAIN         ,Sampled input data"
group.long 0x13C++0x3
line.long 0x00 "GPIO_DATAOUT,Data-output register (data to set on output pins)"
hexmask.long 0x00 0.--31. 1. " DATAOUT        ,Data to set on output pins"
group.long 0x140++0x3
line.long 0x00 "GPIO_LEVELDETECT0,Detect low-level register. 0 = Low-level detection disabled; 1 = Low-level detection enabled"
hexmask.long 0x00 0.--31. 1. " LEVELDETECT0   ,Low-level detection - Disabled. - Enabled."
group.long 0x144++0x3
line.long 0x00 "GPIO_LEVELDETECT1,Detect high-level register"
hexmask.long 0x00 0.--31. 1. " LEVELDETECT1   ,- Disabled. - Enabled."
group.long 0x148++0x3
line.long 0x00 "GPIO_RISINGDETECT,Detect rising edge register"
hexmask.long 0x00 0.--31. 1. " RISINGDETECT   ,- Disabled. - Enabled."
group.long 0x14C++0x3
line.long 0x00 "GPIO_FALLINGDETECT,Detect falling edge register"
hexmask.long 0x00 0.--31. 1. " FALLINGDETECT  ,- Disabled. - Enabled."
group.long 0x150++0x3
line.long 0x00 "GPIO_DEBOUNCENABLE,Debouncing enable register"
hexmask.long 0x00 0.--31. 1. " DEBOUNCEENABLE ,- NoDebounce. - Debounce."
group.long 0x154++0x3
line.long 0x00 "GPIO_DEBOUNCINGTIME,Debouncing value register"
hexmask.long.byte 0x00 0.--7. 1. " DEBOUNCETIME   ,8-bit values specifying the debouncing time. It is n-periods of the muxed clock, which can come from either a true 32k oscillator/pad of from the system clock. It depends on which boot mode is selected. For more information see, ."
group.long 0x190++0x3
line.long 0x00 "GPIO_CLEARDATAOUT,Clear data-output register"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,- . - ."
group.long 0x194++0x3
line.long 0x00 "GPIO_SETDATAOUT,Set data-output register"
hexmask.long 0x00 0.--31. 1. " INTLINE        ,- . - ."
width 0x0B
tree.end
tree.end
tree.end
tree.open "PWM_Subsystem_Resources"
tree.open "PWMSS1_CFG"
tree "PWMSS1_CFG"
base ad:0x4843E000
width 17.
rgroup.long 0x0++0x3
line.long 0x00 "PWMSS_IDVER,IP Revision Register"
hexmask.long 0x00 0.--31. 1. " REVISION         ,IP Revision value"
group.long 0x4++0x3
line.long 0x00 "PWMSS_SYSCONFIG,This register controls the PWMSSn (where n= 1 to 3) local Idle mode clock management and software reset"
bitfld.long 0x00 2.--3. " IDLEMODE         ,Configuration of the local target state management mode. By definition, the target can handle read/write transaction as long as it is out of IDLE state. - force. - no. - smart. - smart." "force,no,smart,smart"
bitfld.long 0x00 0. "     SOFTRESET        ,Software reset : 0x0 : Software reset is completed 0x1: Software reset assertion" "0,1"
group.long 0x8++0x3
line.long 0x00 "PWMSS_CLKCONFIG,The clock configuration register is used in the PWMSSn (where n = 1 to 3) for clkstop req and clk_en control to the ePWM/ eHRPWM, eCAP and eQEP submodules within the PWMSSn subsystem.Note: PWMSS Modules Local Clock Gating feature is not..."
bitfld.long 0x00 9. " EPWM_CLKSTOP_REQ ,This bit controls the clock stop input to the ePWM / eHRPWM module : 0: No effect 1: A request to stop interface clock to the module is asserted" "0,1"
bitfld.long 0x00 8. "         EPWM_CLK_EN      ,This bit controls the interface clock enable (clk_en) input to the ePWM / eHRPWM module: 0: No effect 1: Enables the interface clock to the module" "0,1"
bitfld.long 0x00 5. "  EQEP_CLKSTOP_REQ ,This bit controls the clock stop input to the eQEP module : 0: No effect 1: A request to stop interface clock to the module is asserted" "0,1"
textline "                          "
bitfld.long 0x00 4. " EQEP_CLK_EN      ,This bit controls the interface clock enable (clk_en) input to the eQEP module : 0: No effect 1: Enables the interface clock to the module" "0,1"
bitfld.long 0x00 1. "         ECAP_CLKSTOP_REQ ,This bit controls the clock stop input to the eCAP module : 0: No effect 1: A request to stop interface clock to the module is asserted" "0,1"
bitfld.long 0x00 0. "  ECAP_CLK_EN      ,This bit controls the interface clock enable (clk_en) input to the eCAP module : 0: No effect 1: Enables the interface clock to the module" "0,1"
rgroup.long 0xC++0x3
line.long 0x00 "PWMSS_CLKSTATUS,The clock status register is used in the PWMSSn (where n = 1 to 3) to indicate clock stop acknowledge (clkstop_ack) and clock enable (clk_en) acknowledge status for the ePWM/ eHRPWM, eCAP and eQEP submodules within the PWMSSn subsystem...."
bitfld.long 0x00 9. " EPWM_CLKSTOP_ACK ,This bit is the clkstop_req_ack status output of the ePWM / eHRPWM module : 0: No interface clock stop acknowledged 1: Interface clock stop request is acknowledged for the module" "0,1"
bitfld.long 0x00 8. "         EPWM_CLK_EN_ACK  ,This bit is the clk_en status output of the ePWM / eHRPWM module : 0: No clock enable request acknowledged 1: Interface clock enable request is acknowledged for the module" "0,1"
bitfld.long 0x00 5. "  EQEP_CLKSTOP_ACK ,This bit is the clkstop_req_ack status output of the eQEP module : 0: No interface clock stop acknowledged 1: Interface clock stop request is acknowledged for the module" "0,1"
textline "                          "
bitfld.long 0x00 4. " EQEP_CLK_EN_ACK  ,This bit is the clk_en status output of the eQEP module : 0: No clock enable request acknowledged 1: Interface clock enable request is acknowledged for the module" "0,1"
bitfld.long 0x00 1. "         ECAP_CLKSTOP_ACK ,TThis bit is the clkstop_req_ack status output of the eCAP module : 0: No interface clock stop acknowledged 1: Interface clock stop request is acknowledged for the module" "0,1"
bitfld.long 0x00 0. "  ECAP_CLK_EN_ACK  ,TThis bit is the clk_en status output of the eCAP module : 0: No clock enable request acknowledged 1: Interface clock enable request is acknowledged for the module" "0,1"
width 0x0B
tree.end
tree "PWMSS2_CFG"
base ad:0x48440000
width 17.
rgroup.long 0x0++0x3
line.long 0x00 "PWMSS_IDVER,IP Revision Register"
hexmask.long 0x00 0.--31. 1. " REVISION         ,IP Revision value"
group.long 0x4++0x3
line.long 0x00 "PWMSS_SYSCONFIG,This register controls the PWMSSn (where n= 1 to 3) local Idle mode clock management and software reset"
bitfld.long 0x00 2.--3. " IDLEMODE         ,Configuration of the local target state management mode. By definition, the target can handle read/write transaction as long as it is out of IDLE state. - force. - no. - smart. - smart." "force,no,smart,smart"
bitfld.long 0x00 0. "     SOFTRESET        ,Software reset : 0x0 : Software reset is completed 0x1: Software reset assertion" "0,1"
group.long 0x8++0x3
line.long 0x00 "PWMSS_CLKCONFIG,The clock configuration register is used in the PWMSSn (where n = 1 to 3) for clkstop req and clk_en control to the ePWM/ eHRPWM, eCAP and eQEP submodules within the PWMSSn subsystem.Note: PWMSS Modules Local Clock Gating feature is not..."
bitfld.long 0x00 9. " EPWM_CLKSTOP_REQ ,This bit controls the clock stop input to the ePWM / eHRPWM module : 0: No effect 1: A request to stop interface clock to the module is asserted" "0,1"
bitfld.long 0x00 8. "         EPWM_CLK_EN      ,This bit controls the interface clock enable (clk_en) input to the ePWM / eHRPWM module: 0: No effect 1: Enables the interface clock to the module" "0,1"
bitfld.long 0x00 5. "  EQEP_CLKSTOP_REQ ,This bit controls the clock stop input to the eQEP module : 0: No effect 1: A request to stop interface clock to the module is asserted" "0,1"
textline "                          "
bitfld.long 0x00 4. " EQEP_CLK_EN      ,This bit controls the interface clock enable (clk_en) input to the eQEP module : 0: No effect 1: Enables the interface clock to the module" "0,1"
bitfld.long 0x00 1. "         ECAP_CLKSTOP_REQ ,This bit controls the clock stop input to the eCAP module : 0: No effect 1: A request to stop interface clock to the module is asserted" "0,1"
bitfld.long 0x00 0. "  ECAP_CLK_EN      ,This bit controls the interface clock enable (clk_en) input to the eCAP module : 0: No effect 1: Enables the interface clock to the module" "0,1"
rgroup.long 0xC++0x3
line.long 0x00 "PWMSS_CLKSTATUS,The clock status register is used in the PWMSSn (where n = 1 to 3) to indicate clock stop acknowledge (clkstop_ack) and clock enable (clk_en) acknowledge status for the ePWM/ eHRPWM, eCAP and eQEP submodules within the PWMSSn subsystem...."
bitfld.long 0x00 9. " EPWM_CLKSTOP_ACK ,This bit is the clkstop_req_ack status output of the ePWM / eHRPWM module : 0: No interface clock stop acknowledged 1: Interface clock stop request is acknowledged for the module" "0,1"
bitfld.long 0x00 8. "         EPWM_CLK_EN_ACK  ,This bit is the clk_en status output of the ePWM / eHRPWM module : 0: No clock enable request acknowledged 1: Interface clock enable request is acknowledged for the module" "0,1"
bitfld.long 0x00 5. "  EQEP_CLKSTOP_ACK ,This bit is the clkstop_req_ack status output of the eQEP module : 0: No interface clock stop acknowledged 1: Interface clock stop request is acknowledged for the module" "0,1"
textline "                          "
bitfld.long 0x00 4. " EQEP_CLK_EN_ACK  ,This bit is the clk_en status output of the eQEP module : 0: No clock enable request acknowledged 1: Interface clock enable request is acknowledged for the module" "0,1"
bitfld.long 0x00 1. "         ECAP_CLKSTOP_ACK ,TThis bit is the clkstop_req_ack status output of the eCAP module : 0: No interface clock stop acknowledged 1: Interface clock stop request is acknowledged for the module" "0,1"
bitfld.long 0x00 0. "  ECAP_CLK_EN_ACK  ,TThis bit is the clk_en status output of the eCAP module : 0: No clock enable request acknowledged 1: Interface clock enable request is acknowledged for the module" "0,1"
width 0x0B
tree.end
tree "PWMSS3_CFG"
base ad:0x48442000
width 17.
rgroup.long 0x0++0x3
line.long 0x00 "PWMSS_IDVER,IP Revision Register"
hexmask.long 0x00 0.--31. 1. " REVISION         ,IP Revision value"
group.long 0x4++0x3
line.long 0x00 "PWMSS_SYSCONFIG,This register controls the PWMSSn (where n= 1 to 3) local Idle mode clock management and software reset"
bitfld.long 0x00 2.--3. " IDLEMODE         ,Configuration of the local target state management mode. By definition, the target can handle read/write transaction as long as it is out of IDLE state. - force. - no. - smart. - smart." "force,no,smart,smart"
bitfld.long 0x00 0. "     SOFTRESET        ,Software reset : 0x0 : Software reset is completed 0x1: Software reset assertion" "0,1"
group.long 0x8++0x3
line.long 0x00 "PWMSS_CLKCONFIG,The clock configuration register is used in the PWMSSn (where n = 1 to 3) for clkstop req and clk_en control to the ePWM/ eHRPWM, eCAP and eQEP submodules within the PWMSSn subsystem.Note: PWMSS Modules Local Clock Gating feature is not..."
bitfld.long 0x00 9. " EPWM_CLKSTOP_REQ ,This bit controls the clock stop input to the ePWM / eHRPWM module : 0: No effect 1: A request to stop interface clock to the module is asserted" "0,1"
bitfld.long 0x00 8. "         EPWM_CLK_EN      ,This bit controls the interface clock enable (clk_en) input to the ePWM / eHRPWM module: 0: No effect 1: Enables the interface clock to the module" "0,1"
bitfld.long 0x00 5. "  EQEP_CLKSTOP_REQ ,This bit controls the clock stop input to the eQEP module : 0: No effect 1: A request to stop interface clock to the module is asserted" "0,1"
textline "                          "
bitfld.long 0x00 4. " EQEP_CLK_EN      ,This bit controls the interface clock enable (clk_en) input to the eQEP module : 0: No effect 1: Enables the interface clock to the module" "0,1"
bitfld.long 0x00 1. "         ECAP_CLKSTOP_REQ ,This bit controls the clock stop input to the eCAP module : 0: No effect 1: A request to stop interface clock to the module is asserted" "0,1"
bitfld.long 0x00 0. "  ECAP_CLK_EN      ,This bit controls the interface clock enable (clk_en) input to the eCAP module : 0: No effect 1: Enables the interface clock to the module" "0,1"
rgroup.long 0xC++0x3
line.long 0x00 "PWMSS_CLKSTATUS,The clock status register is used in the PWMSSn (where n = 1 to 3) to indicate clock stop acknowledge (clkstop_ack) and clock enable (clk_en) acknowledge status for the ePWM/ eHRPWM, eCAP and eQEP submodules within the PWMSSn subsystem...."
bitfld.long 0x00 9. " EPWM_CLKSTOP_ACK ,This bit is the clkstop_req_ack status output of the ePWM / eHRPWM module : 0: No interface clock stop acknowledged 1: Interface clock stop request is acknowledged for the module" "0,1"
bitfld.long 0x00 8. "         EPWM_CLK_EN_ACK  ,This bit is the clk_en status output of the ePWM / eHRPWM module : 0: No clock enable request acknowledged 1: Interface clock enable request is acknowledged for the module" "0,1"
bitfld.long 0x00 5. "  EQEP_CLKSTOP_ACK ,This bit is the clkstop_req_ack status output of the eQEP module : 0: No interface clock stop acknowledged 1: Interface clock stop request is acknowledged for the module" "0,1"
textline "                          "
bitfld.long 0x00 4. " EQEP_CLK_EN_ACK  ,This bit is the clk_en status output of the eQEP module : 0: No clock enable request acknowledged 1: Interface clock enable request is acknowledged for the module" "0,1"
bitfld.long 0x00 1. "         ECAP_CLKSTOP_ACK ,TThis bit is the clkstop_req_ack status output of the eCAP module : 0: No interface clock stop acknowledged 1: Interface clock stop request is acknowledged for the module" "0,1"
bitfld.long 0x00 0. "  ECAP_CLK_EN_ACK  ,TThis bit is the clk_en status output of the eCAP module : 0: No clock enable request acknowledged 1: Interface clock enable request is acknowledged for the module" "0,1"
width 0x0B
tree.end
tree.end
tree.open "PWMSS1_EPWM"
tree "PWMSS1_EPWM"
base ad:0x4843E200
width 15.
group.word 0x0++0x1
line.word 0x00 "EPWM_TBCTL,"
bitfld.word 0x00 14.--15. " FREE_SOFT ,Emulation Mode Bits. These bits select the behavior of the ePWM time-base counter during emulation events: 0x0 = Stop after the next time-base counter increment or decrement 0x1 = Stop when counter completes a whole cycle. (a) Up-count mode..." "0,1,2,3"
bitfld.word 0x00 13. "     PHSDIR    ,Phase Direction Bit. This bit is only used when the time-base counter is configured in the up-down-count mode. The PHSDIR bit indicates the direction the time-base counter ( 0x0 = Count down after the synchronization event. 0x1 = Count ..." "0,1"
bitfld.word 0x00 10.--12. "  CLKDIV    ,Time-base Clock Prescale Bits. These bits determine part of the time-base clock prescale value. 0x0 = /1 (default on reset) 0x1 = /2 0x2 = /4 0x3 = /8 0x4 = /16 0x5 = /32 0x6 = /64 0x7 = /128" "0,1,2,3,4,5,6,7"
textline "                    "
bitfld.word 0x00 7.--9. " HSPCLKDIV ,High-Speed Time-base Clock Prescale Bits. These bits determine part of the time-base clock prescale value. 0x0 = /1 0x1 = /2 (default on reset) 0x2 = /4 0x3 = /6 0x4 = /8 0x5 = /10 0x6 = /12 0x7 = /14" "0,1,2,3,4,5,6,7"
bitfld.word 0x00 6. "     SWFSYNC   ,Software Forced Synchronization Pulse. 0x0 = Writing a 0 has no effect and reads always return a 0. 0x1 = Writing a 1 forces a one-time synchronization pulse to be generated. This event is ORed with the EPWMxSYNCI input of the ePWM modu..." "0,1"
bitfld.word 0x00 4.--5. "  SYNCOSEL  ,Synchronization Output Select. These bits select the source of the EPWMxSYNCO signal. 0x0 = EPWMxSYNC: 0x1 = TBCNT = 0: Time-base counter equal to zero ( 0x2 = TBCNT = CMPB : Time-base counter equal to counter-compare B ( 0x3 = Disable EPW..." "0,1,2,3"
textline "                    "
bitfld.word 0x00 3. " PRDLD     ,Active Period Register Load From Shadow Register Select 0x0 = The period register ( 0x1 = Load the" "0,1"
bitfld.word 0x00 2. "     PHSEN     ,Counter Register Load From Phase Register Enable 0x0 = Do not load the time-base counter ( 0x1 = Load the time-base counter with the phase register when an EPWMxSYNCI input signal occurs or when a software synchronization is forced by t..." "0,1"
bitfld.word 0x00 0.--1. "  CTRMODE   ,Counter Mode. The time-base counter mode is normally configured once and not changed during normal operation. If you change the mode of the counter, the change will take effect at the next TBCLK edge and the current counter value shall inc..." "0,1,2,3"
hgroup.word 0x2++0x1
hide.word 0x00 "EPWM_TBSTS,"
in
group.word 0x4++0x1
line.word 0x00 "HRPWM_TBPHSHR,"
hexmask.word.byte 0x00 8.--15. 1. " TBPHSH    ,Time-base phase high-resolution bits"
group.word 0x6++0x1
line.word 0x00 "EPWM_TBPHS,"
hexmask.word 0x00 0.--15. 1. " TBPHS    ,These bits set time-base counter phase of the selected ePWM relative to the time-base that is supplying the synchronization input signal. (a) If"
group.word 0x8++0x1
line.word 0x00 "EPWM_TBCNT,"
hexmask.word 0x00 0.--15. 1. " TBCNT     ,Reading these bits gives the current time-base counter value. Writing to these bits sets the current time-base counter value. The update happens as soon as the write occurs. The write is NOT synchronized to the time-base clock (TBCLK) and t..."
group.word 0xA++0x1
line.word 0x00 "EPWM_TBPRD,"
hexmask.word 0x00 0.--15. 1. " TBPRD     ,These bits determine the period of the time-base counter. This sets the PWM frequency. Shadowing of this register is enabled and disabled by the"
group.word 0xE++0x1
line.word 0x00 "EPWM_CMPCTL,"
bitfld.word 0x00 9. " SHDWBFULL     ,Counter-compare B ( 0x0 = CMPB shadow FIFO not full yet 0x1 = Indicates the CMPB shadow FIFO is full. A CPU write will overwrite current shadow value." "0,1"
bitfld.word 0x00 8. "  SHDWAFULL          ,Counter-compare A ( 0x0 = CMPA shadow FIFO not full yet 0x1 = Indicates the CMPA shadow FIFO is full, a CPU write will overwrite the current shadow value." "0,1"
bitfld.word 0x00 6. "   SHDWBMODE          ,Counter-compare B ( 0x0 = Shadow mode. Operates as a double buffer. All writes via the CPU access the shadow register. 0x1 = Immediate mode. Only the active compare B register is used. All writes and reads directly access the act..." "0,1"
textline "                    "
bitfld.word 0x00 4. " SHDWAMODE ,Counter-compare A ( 0x0 = Shadow mode. Operates as a double buffer. All writes via the CPU access the shadow register. 0x1 = Immediate mode. Only the active compare register is used. All writes and reads directly access the active register ..." "0,1"
bitfld.word 0x00 2.--3. "     LOADBMODE ,Active Counter-Compare B (CMPB) Load From Shadow Select Mode. This bit has no effect in immediate mode ( 0x0 = Load on TBCNT = 0: Time-base counter equal to zero ( 0x1 = Load on TBCNT = PRD: Time-base counter equal to period ( 0x2 = Loa..." "0,1,2,3"
bitfld.word 0x00 0.--1. "  LOADAMODE ,Active Counter-Compare A ( 0x0 = Load on TBCNT = 0: Time-base counter equal to zero ( 0x1 = Load on TBCNT = PRD: Time-base counter equal to period ( 0x2 = Load on either TBCNT = 0 or TBCNT = PRD 0x3 = Freeze (no loads possible)" "0,1,2,3"
group.word 0x10++0x1
line.word 0x00 "HRPWM_CMPAHR,"
hexmask.word.byte 0x00 8.--15. 1. " CMPAHR ,Compare A High-Resolution register bits for MEP step control. A minimum value of 1h is needed to enable HRPWM capabilities. Valid MEP range of operation 1-255h."
group.word 0x12++0x1
line.word 0x00 "EPWM_CMPA,"
hexmask.word 0x00 0.--15. 1. " CMPA    ,The value in the active"
group.word 0x14++0x1
line.word 0x00 "EPWM_CMPB,"
hexmask.word 0x00 0.--15. 1. " CMPB      ,The value in the active"
group.word 0x16++0x1
line.word 0x00 "EPWM_AQCTLA,"
bitfld.word 0x00 10.--11. " CBD      ,Action when the time-base counter equals the active 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxA output low. 0x2 = Set: force EPWMxA output high. 0x3 = Toggle EPWMxA output: low output signal will be forced high, and a high s..." "0,1,2,3"
bitfld.word 0x00 8.--9. "  CBU          ,Action when the counter equals the active 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxA output low. 0x2 = Set: force EPWMxA output high. 0x3 = Toggle EPWMxA output: low output signal will be forced high, and a high signal..." "0,1,2,3"
bitfld.word 0x00 6.--7. "   CAD          ,Action when the counter equals the active 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxA output low. 0x2 = Set: force EPWMxA output high. 0x3 = Toggle EPWMxA output: low output signal will be forced high, and a high signa..." "0,1,2,3"
textline "                    "
bitfld.word 0x00 4.--5. " CAU       ,Action when the counter equals the active 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxA output low. 0x2 = Set: force EPWMxA output high. 0x3 = Toggle EPWMxA output: low output signal will be forced high, and a high signal wil..." "0,1,2,3"
bitfld.word 0x00 2.--3. "     PRD       ,Action when the counter equals the period. Note: By definition, in count up-down mode when the counter equals period the direction is defined as 0 or counting down. 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxA output low..." "0,1,2,3"
bitfld.word 0x00 0.--1. "  ZRO       ,Action when counter equals zero. Note: By definition, in count up-down mode when the counter equals 0 the direction is defined as 1 or counting up. 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxA output low. 0x2 = Set: force E..." "0,1,2,3"
group.word 0x18++0x1
line.word 0x00 "EPWM_AQCTLB,"
bitfld.word 0x00 10.--11. " CBD       ,Action when the counter equals the active 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxB output low. 0x2 = Set: force EPWMxB output high. 0x3 = Toggle EPWMxB output: low output signal will be forced high, and a high signal wil..." "0,1,2,3"
bitfld.word 0x00 8.--9. "     CBU       ,Action when the counter equals the active 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxB output low. 0x2 = Set: force EPWMxB output high. 0x3 = Toggle EPWMxB output: low output signal will be forced high, and a high signal..." "0,1,2,3"
bitfld.word 0x00 6.--7. "  CAD       ,Action when the counter equals the active 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxB output low. 0x2 = Set: force EPWMxB output high. 0x3 = Toggle EPWMxB output: low output signal will be forced high, and a high signal wi..." "0,1,2,3"
textline "                    "
bitfld.word 0x00 4.--5. " CAU       ,Action when the counter equals the active 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxB output low. 0x2 = Set: force EPWMxB output high. 0x3 = Toggle EPWMxB output: low output signal will be forced high, and a high signal wil..." "0,1,2,3"
bitfld.word 0x00 2.--3. "     PRD       ,Action when the counter equals the period. Note: By definition, in count up-down mode when the counter equals period the direction is defined as 0 or counting down. 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxB output low..." "0,1,2,3"
bitfld.word 0x00 0.--1. "  ZRO       ,Action when counter equals zero. Note: By definition, in count up-down mode when the counter equals 0 the direction is defined as 1 or counting up. 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxB output low. 0x2 = Set: force E..." "0,1,2,3"
group.word 0x1A++0x1
line.word 0x00 "EPWM_AQSFRC,"
bitfld.word 0x00 6.--7. " RLDCSF       ,0x0 = Load on event counter equals zero 0x1 = Load on event counter equals period 0x2 = Load on event counter equals zero or counter equals period 0x3 = Load immediately (the active register is directly accessed by the CPU and is not loa..." "0,1,2,3"
bitfld.word 0x00 5. "     OTSFB       ,One-Time Software Forced Event on Output B. 0x0 = Writing a 0 (zero) has no effect. Always reads back a 0. This bit is auto cleared once a write to this register is complete, that is, a forced event is initiated. This is a one-shot fo..." "0,1"
bitfld.word 0x00 3.--4. "  ACTSFB       ,Action when One-Time Software Force B Is invoked 0x0 = Does nothing (action disabled) 0x1 = Clear (low) 0x2 = Set (high) 0x3 = Toggle (Low -> High, High -> Low). Note: This action is not qualified by counter direction (CNT..." "0,1,2,3"
textline "                    "
bitfld.word 0x00 2. " OTSFA    ,One-Time Software Forced Event on Output A. 0x0 = Writing a 0 (zero) has no effect. Always reads back a 0. This bit is auto cleared once a write to this register is complete (that is, a forced event is initiated). 0x1 = Initiates a single so..." "0,1"
bitfld.word 0x00 0.--1. "     ACTSFA     ,Action When One-Time Software Force A Is Invoked. 0x0 = Does nothing (action disabled). 0x1 = Clear (low). 0x2 = Set (high). 0x3 = Toggle (Low -> High, High -> Low). Note: This action is not qualified by counter direction..." "0,1,2,3"
group.word 0x1C++0x1
line.word 0x00 "EPWM_AQCSFRC,"
bitfld.word 0x00 2.--3. " CSFB     ,Continuous Software Force on Output B. In immediate mode, a continuous force takes effect on the next TBCLK edge. In shadow mode, a continuous force takes effect on the next TBCLK edge after a shadow load into the active register. To configu..." "0,1,2,3"
bitfld.word 0x00 0.--1. "     CSFA    ,Continuous Software Force on Output A In immediate mode, a continuous force takes effect on the next TBCLK edge. In shadow mode, a continuous force takes effect on the next TBCLK edge after a shadow load into the active register. 0x0 = Fo..." "0,1,2,3"
group.word 0x1E++0x1
line.word 0x00 "EPWM_DBCTL,"
bitfld.word 0x00 4.--5. " IN_MODE      ,Dead Band Input Mode Control. Bit 5 controls the S5 switch and bit 4 controls the S4 switch. This allows you to select the input source to the falling-edge and rising-edge delay. To produce classical dead-band waveforms, the default is E..." "0,1,2,3"
bitfld.word 0x00 2.--3. "     POLSEL      ,Polarity Select Control. Bit 3 controls the S3 switch and bit 2 controls the S2 switch. This allows you to selectively invert one of the delayed signals before it is sent out of the dead-band submodule. The following descriptions corr..." "0,1,2,3"
bitfld.word 0x00 0.--1. "  OUT_MODE          ,Dead-band Output Mode Control. Bit 1 controls the S1 switch and bit 0 controls the S0 switch. This allows you to selectively enable or bypass the dead-band generation for the falling-edge and rising-edge delay. 0x0 = Dead-band gene..." "0,1,2,3"
group.word 0x20++0x1
line.word 0x00 "EPWM_DBRED,"
hexmask.word 0x00 0.--9. 1. " DEL   ,Rising Edge Delay Count. 10 bit counter."
group.word 0x22++0x1
line.word 0x00 "EPWM_DBFED,"
hexmask.word 0x00 0.--9. 1. " DEL       ,Falling Edge Delay Count. 10 bit counter"
group.word 0x24++0x1
line.word 0x00 "EPWM_TZSEL,"
hexmask.word.byte 0x00 8.--15. 1. " OSHTN       ,Trip-zone n (TZn) select. One-Shot (OSHT) trip-zone enable/disable. When any of the enabled pins go low, a one-shot trip event occurs for this ePWM module. When the event occurs, the action defined in the 0x0 = Disable TZn as a one-shot t..."
bitfld.word 0x00 0. "  CBC0          ,Trip-zone 0 (TZ0) select. Cycle-by-Cycle (CBC) trip-zone enable/disable. When any of the enabled pins go low, a cycle-by-cycle trip event occurs for this ePWM module. When the event occurs, the action defined in the 0x0 = Disable TZ0 a..." "0,1"
group.word 0x28++0x1
line.word 0x00 "EPWM_TZCTL,"
bitfld.word 0x00 2.--3. " TZB     ,When a trip event occurs the following action is taken on output EPWMxB. Which trip-zone pins can cause an event is defined in the 0x0 = High impedance (EPWMxB = High-impedance state) 0x1 = Force EPWMxB to a high state 0x2 = Force EPWMxB to a..." "0,1,2,3"
bitfld.word 0x00 0.--1. "    TZA      ,When a trip event occurs the following action is taken on output EPWMxA. Which trip-zone pins can cause an event is defined in the 0x0 = High impedance (EPWMxA = High-impedance state) 0x1 = Force EPWMxA to a high state 0x2 = Force EPWMxA ..." "0,1,2,3"
group.word 0x2A++0x1
line.word 0x00 "EPWM_TZEINT,"
bitfld.word 0x00 2. " OST       ,Trip-zone One-Shot Interrupt Enable 0x0 = Disable one-shot interrupt generation 0x1 = Enable Interrupt generation; a one-shot trip event will cause a EPWMxTZINT interrupt." "0,1"
bitfld.word 0x00 1. "     CBC       ,Trip-zone Cycle-by-Cycle Interrupt Enable 0x0 = Disable cycle-by-cycle interrupt generation. 0x1 = Enable interrupt generation; a cycle-by-cycle trip event will cause an EPWMxTZINT interrupt." "0,1"
rgroup.word 0x2C++0x1
line.word 0x00 "EPWM_TZFLG,"
bitfld.word 0x00 2. " OST       ,Latched Status Flag for A One-Shot Trip Event. 0x0 = No one-shot trip event has occurred. 0x1 = Indicates a trip event has occurred on a pin selected as a one-shot trip source. This bit is cleared by writing the appropriate value to the" "0,1"
bitfld.word 0x00 1. "     CBC       ,Latched Status Flag for Cycle-By-Cycle Trip Event 0x0 = No cycle-by-cycle trip event has occurred. 0x1 = Indicates a trip event has occurred on a pin selected as a cycle-by-cycle trip source. The" "0,1"
bitfld.word 0x00 0. "  INT          ,Latched Trip Interrupt Status Flag 0x0 = Indicates no interrupt has been generated. 0x1 = Indicates an EPWMxTZINT interrupt was generated because of a trip condition. No further EPWMxTZINT interrupts will be generated until this flag is..." "0,1"
group.word 0x2E++0x1
line.word 0x00 "EPWM_TZCLR,"
bitfld.word 0x00 2. " OST       ,Clear Flag for One-Shot Trip (OST) Latch 0x0 = Has no effect. Always reads back a 0. 0x1 = Clears this Trip (set) condition." "0,1"
bitfld.word 0x00 1. "     CBC       ,Clear Flag for Cycle-By-Cycle (CBC) Trip Latch 0x0 = Has no effect. Always reads back a 0. 0x1 = Clears this Trip (set) condition." "0,1"
bitfld.word 0x00 0. "  INT       ,Global Interrupt Clear Flag 0x0 = Has no effect. Always reads back a 0. 0x1 = Clears the trip-interrupt flag for this ePWM module (" "0,1"
group.word 0x30++0x1
line.word 0x00 "EPWM_TZFRC,"
bitfld.word 0x00 2. " OST       ,Force a One-Shot Trip Event via Software 0x0 = Writing of 0 is ignored. Always reads back a 0. 0x1 = Forces a one-shot trip event and sets the" "0,1"
bitfld.word 0x00 1. "     CBC       ,Force a Cycle-by-Cycle Trip Event via Software 0x0 = Writing of 0 is ignored. Always reads back a 0. 0x1 = Forces a cycle-by-cycle trip event and sets the" "0,1"
group.word 0x32++0x1
line.word 0x00 "EPWM_ETSEL,"
bitfld.word 0x00 3. " INTEN       ,Enable ePWM Interrupt (EPWMx_INT) Generation 0x0 = Disable EPWMx_INT generation 0x1 = Enable EPWMx_INT generation" "0,1"
bitfld.word 0x00 0.--2. "     INTSEL       ,ePWM Interrupt (EPWMx_INT) Selection Options 0x0 = Reserved 0x1 = Enable event time-base counter equal to zero. (TBCNT = 0000h) 0x2 = Enable event time-base counter equal to period (TBCNT = TBPRD) 0x3 = Reserved 0x4 = Enable event ti..." "0,1,2,3,4,5,6,7"
group.word 0x34++0x1
line.word 0x00 "EPWM_ETPS,"
bitfld.word 0x00 2.--3. " INTCNT     ,ePWM Interrupt Event (EPWMx_INT) Counter Register. These bits indicate how many selected 0x0 = No events have occurred. 0x1 = 1 event has occurred. 0x2 = 2 events have occurred. 0x3 = 3 events have occurred." "0,1,2,3"
bitfld.word 0x00 0.--1. "     INTPRD    ,ePWM Interrupt (EPWMx_INT) Period Select. These bits determine how many selected 0x0 = Disable the interrupt event counter. No interrupt will be generated and 0x1 = Generate an interrupt on the first event INTCNT = 01 (first event) 0x2 ..." "0,1,2,3"
rgroup.word 0x36++0x1
line.word 0x00 "EPWM_ETFLG,"
bitfld.word 0x00 0. " INT    ,Latched ePWM Interrupt (EPWMx_INT) Status Flag 0x0 = Indicates no event occurred 0x1 = Indicates that an ePWMx interrupt (EWPMx_INT) was generated. No further interrupts will be generated until the flag bit is cleared. Up to one interrupt can ..." "0,1"
group.word 0x38++0x1
line.word 0x00 "EPWM_ETCLR,"
bitfld.word 0x00 0. " INT       ,ePWM Interrupt (EPWMx_INT) Flag Clear Bit 0x0 = Writing a 0 has no effect. Always reads back a 0. 0x1 = Writing 1 clears the" "0,1"
group.word 0x3A++0x1
line.word 0x00 "EPWM_ETFRC,"
bitfld.word 0x00 0. " INT       ,INT Force Bit. The interrupt will only be generated if the event is enabled in the 0x0 = Writing 0 to this bit will be ignored. Always reads back a 0. 0x1 = Writing 1 generates an interrupt on EPWMxINT and set the INT flag bit. This bit is ..." "0,1"
group.word 0x3C++0x1
line.word 0x00 "EPWM_PCCTL,"
bitfld.word 0x00 8.--10. " CHPDUTY       ,Chopping Clock Duty Cycle 0x0 = Duty = 1/8 (12.5%) 0x1 = Duty = 2/8 (25.0%) 0x2 = Duty = 3/8 (37.5%) 0x3 = Duty = 4/8 (50.0%) 0x4 = Duty = 5/8 (62.5%) 0x5 = Duty = 6/8 (75.0%) 0x6 = Duty = 7/8 (87.5%) 0x7 = Reserved." "0,1,2,3,4,5,6,7"
bitfld.word 0x00 5.--7. "     CHPFREQ          ,Chopping Clock Frequency 0x0 = Divide by 1 (no prescale). 0x1 = Divide by 2. 0x2 = Divide by 3. 0x3 = Divide by 4. 0x4 = Divide by 5. 0x5 = Divide by 6. 0x6 = Divide by 7. 0x7 = Divide by 8." "0,1,2,3,4,5,6,7"
bitfld.word 0x00 1.--4. "   OSHTWTH          ,One-Shot Pulse Width 0x0 = 1 - SYSCLKOUT/8 wide 0x1 = 2 - SYSCLKOUT/8 wide 0x2 = 3 - SYSCLKOUT/8 wide 0x3 = 4 - SYSCLKOUT/8 wide 0xF = 16 - SYSCLKOUT/8 wide" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                    "
bitfld.word 0x00 0. " CHPEN   ,PWM-chopping Enable 0x0 = Disable (bypass) PWM chopping function 0x1 = Enable chopping function" "0,1"
group.word 0xC0++0x1
line.word 0x00 "HRPWM_HRCTL,"
bitfld.word 0x00 3. " PULSESEL     ,Pulse select bits. Selects which pulse to use for timing events in the HRPWM module. Note: The user needs to select the pulse to match the selection in the EPWM module. If TBPHSHR bus is selected, then CNT_zero pulse should be used. If C..." "0,1"
bitfld.word 0x00 2. "     DELBUSSEL          ,Delay Bus Select Bit: Selects which bus is used to select the delay for the PWM pulse. 0x0 = Select CMPAHR(8) bus from compare module of EPWM (default on reset). 0x1 = Select TBPHSHR(8) bus from time base module." "0,1"
bitfld.word 0x00 0.--1. "   DELMODE          ,Delay Mode Bits: Selects which edge of the PWM pulse the delay is inserted. Note: When DELMODE = 0b00, the HRCALM[CALMODE] bits are ignored and the delay line is in by-pass mode. Additionally, DLYIN is connected to CALIN and a cont..." "0,1,2,3"
width 0x0B
tree.end
tree "PWMSS2_EPWM"
base ad:0x48440200
width 15.
group.word 0x0++0x1
line.word 0x00 "EPWM_TBCTL,"
bitfld.word 0x00 14.--15. " FREE_SOFT ,Emulation Mode Bits. These bits select the behavior of the ePWM time-base counter during emulation events: 0x0 = Stop after the next time-base counter increment or decrement 0x1 = Stop when counter completes a whole cycle. (a) Up-count mode..." "0,1,2,3"
bitfld.word 0x00 13. "     PHSDIR    ,Phase Direction Bit. This bit is only used when the time-base counter is configured in the up-down-count mode. The PHSDIR bit indicates the direction the time-base counter ( 0x0 = Count down after the synchronization event. 0x1 = Count ..." "0,1"
bitfld.word 0x00 10.--12. "  CLKDIV    ,Time-base Clock Prescale Bits. These bits determine part of the time-base clock prescale value. 0x0 = /1 (default on reset) 0x1 = /2 0x2 = /4 0x3 = /8 0x4 = /16 0x5 = /32 0x6 = /64 0x7 = /128" "0,1,2,3,4,5,6,7"
textline "                    "
bitfld.word 0x00 7.--9. " HSPCLKDIV ,High-Speed Time-base Clock Prescale Bits. These bits determine part of the time-base clock prescale value. 0x0 = /1 0x1 = /2 (default on reset) 0x2 = /4 0x3 = /6 0x4 = /8 0x5 = /10 0x6 = /12 0x7 = /14" "0,1,2,3,4,5,6,7"
bitfld.word 0x00 6. "     SWFSYNC   ,Software Forced Synchronization Pulse. 0x0 = Writing a 0 has no effect and reads always return a 0. 0x1 = Writing a 1 forces a one-time synchronization pulse to be generated. This event is ORed with the EPWMxSYNCI input of the ePWM modu..." "0,1"
bitfld.word 0x00 4.--5. "  SYNCOSEL  ,Synchronization Output Select. These bits select the source of the EPWMxSYNCO signal. 0x0 = EPWMxSYNC: 0x1 = TBCNT = 0: Time-base counter equal to zero ( 0x2 = TBCNT = CMPB : Time-base counter equal to counter-compare B ( 0x3 = Disable EPW..." "0,1,2,3"
textline "                    "
bitfld.word 0x00 3. " PRDLD     ,Active Period Register Load From Shadow Register Select 0x0 = The period register ( 0x1 = Load the" "0,1"
bitfld.word 0x00 2. "     PHSEN     ,Counter Register Load From Phase Register Enable 0x0 = Do not load the time-base counter ( 0x1 = Load the time-base counter with the phase register when an EPWMxSYNCI input signal occurs or when a software synchronization is forced by t..." "0,1"
bitfld.word 0x00 0.--1. "  CTRMODE   ,Counter Mode. The time-base counter mode is normally configured once and not changed during normal operation. If you change the mode of the counter, the change will take effect at the next TBCLK edge and the current counter value shall inc..." "0,1,2,3"
hgroup.word 0x2++0x1
hide.word 0x00 "EPWM_TBSTS,"
in
group.word 0x4++0x1
line.word 0x00 "HRPWM_TBPHSHR,"
hexmask.word.byte 0x00 8.--15. 1. " TBPHSH    ,Time-base phase high-resolution bits"
group.word 0x6++0x1
line.word 0x00 "EPWM_TBPHS,"
hexmask.word 0x00 0.--15. 1. " TBPHS    ,These bits set time-base counter phase of the selected ePWM relative to the time-base that is supplying the synchronization input signal. (a) If"
group.word 0x8++0x1
line.word 0x00 "EPWM_TBCNT,"
hexmask.word 0x00 0.--15. 1. " TBCNT     ,Reading these bits gives the current time-base counter value. Writing to these bits sets the current time-base counter value. The update happens as soon as the write occurs. The write is NOT synchronized to the time-base clock (TBCLK) and t..."
group.word 0xA++0x1
line.word 0x00 "EPWM_TBPRD,"
hexmask.word 0x00 0.--15. 1. " TBPRD     ,These bits determine the period of the time-base counter. This sets the PWM frequency. Shadowing of this register is enabled and disabled by the"
group.word 0xE++0x1
line.word 0x00 "EPWM_CMPCTL,"
bitfld.word 0x00 9. " SHDWBFULL     ,Counter-compare B ( 0x0 = CMPB shadow FIFO not full yet 0x1 = Indicates the CMPB shadow FIFO is full. A CPU write will overwrite current shadow value." "0,1"
bitfld.word 0x00 8. "  SHDWAFULL          ,Counter-compare A ( 0x0 = CMPA shadow FIFO not full yet 0x1 = Indicates the CMPA shadow FIFO is full, a CPU write will overwrite the current shadow value." "0,1"
bitfld.word 0x00 6. "   SHDWBMODE          ,Counter-compare B ( 0x0 = Shadow mode. Operates as a double buffer. All writes via the CPU access the shadow register. 0x1 = Immediate mode. Only the active compare B register is used. All writes and reads directly access the act..." "0,1"
textline "                    "
bitfld.word 0x00 4. " SHDWAMODE ,Counter-compare A ( 0x0 = Shadow mode. Operates as a double buffer. All writes via the CPU access the shadow register. 0x1 = Immediate mode. Only the active compare register is used. All writes and reads directly access the active register ..." "0,1"
bitfld.word 0x00 2.--3. "     LOADBMODE ,Active Counter-Compare B (CMPB) Load From Shadow Select Mode. This bit has no effect in immediate mode ( 0x0 = Load on TBCNT = 0: Time-base counter equal to zero ( 0x1 = Load on TBCNT = PRD: Time-base counter equal to period ( 0x2 = Loa..." "0,1,2,3"
bitfld.word 0x00 0.--1. "  LOADAMODE ,Active Counter-Compare A ( 0x0 = Load on TBCNT = 0: Time-base counter equal to zero ( 0x1 = Load on TBCNT = PRD: Time-base counter equal to period ( 0x2 = Load on either TBCNT = 0 or TBCNT = PRD 0x3 = Freeze (no loads possible)" "0,1,2,3"
group.word 0x10++0x1
line.word 0x00 "HRPWM_CMPAHR,"
hexmask.word.byte 0x00 8.--15. 1. " CMPAHR ,Compare A High-Resolution register bits for MEP step control. A minimum value of 1h is needed to enable HRPWM capabilities. Valid MEP range of operation 1-255h."
group.word 0x12++0x1
line.word 0x00 "EPWM_CMPA,"
hexmask.word 0x00 0.--15. 1. " CMPA    ,The value in the active"
group.word 0x14++0x1
line.word 0x00 "EPWM_CMPB,"
hexmask.word 0x00 0.--15. 1. " CMPB      ,The value in the active"
group.word 0x16++0x1
line.word 0x00 "EPWM_AQCTLA,"
bitfld.word 0x00 10.--11. " CBD      ,Action when the time-base counter equals the active 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxA output low. 0x2 = Set: force EPWMxA output high. 0x3 = Toggle EPWMxA output: low output signal will be forced high, and a high s..." "0,1,2,3"
bitfld.word 0x00 8.--9. "  CBU          ,Action when the counter equals the active 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxA output low. 0x2 = Set: force EPWMxA output high. 0x3 = Toggle EPWMxA output: low output signal will be forced high, and a high signal..." "0,1,2,3"
bitfld.word 0x00 6.--7. "   CAD          ,Action when the counter equals the active 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxA output low. 0x2 = Set: force EPWMxA output high. 0x3 = Toggle EPWMxA output: low output signal will be forced high, and a high signa..." "0,1,2,3"
textline "                    "
bitfld.word 0x00 4.--5. " CAU       ,Action when the counter equals the active 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxA output low. 0x2 = Set: force EPWMxA output high. 0x3 = Toggle EPWMxA output: low output signal will be forced high, and a high signal wil..." "0,1,2,3"
bitfld.word 0x00 2.--3. "     PRD       ,Action when the counter equals the period. Note: By definition, in count up-down mode when the counter equals period the direction is defined as 0 or counting down. 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxA output low..." "0,1,2,3"
bitfld.word 0x00 0.--1. "  ZRO       ,Action when counter equals zero. Note: By definition, in count up-down mode when the counter equals 0 the direction is defined as 1 or counting up. 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxA output low. 0x2 = Set: force E..." "0,1,2,3"
group.word 0x18++0x1
line.word 0x00 "EPWM_AQCTLB,"
bitfld.word 0x00 10.--11. " CBD       ,Action when the counter equals the active 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxB output low. 0x2 = Set: force EPWMxB output high. 0x3 = Toggle EPWMxB output: low output signal will be forced high, and a high signal wil..." "0,1,2,3"
bitfld.word 0x00 8.--9. "     CBU       ,Action when the counter equals the active 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxB output low. 0x2 = Set: force EPWMxB output high. 0x3 = Toggle EPWMxB output: low output signal will be forced high, and a high signal..." "0,1,2,3"
bitfld.word 0x00 6.--7. "  CAD       ,Action when the counter equals the active 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxB output low. 0x2 = Set: force EPWMxB output high. 0x3 = Toggle EPWMxB output: low output signal will be forced high, and a high signal wi..." "0,1,2,3"
textline "                    "
bitfld.word 0x00 4.--5. " CAU       ,Action when the counter equals the active 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxB output low. 0x2 = Set: force EPWMxB output high. 0x3 = Toggle EPWMxB output: low output signal will be forced high, and a high signal wil..." "0,1,2,3"
bitfld.word 0x00 2.--3. "     PRD       ,Action when the counter equals the period. Note: By definition, in count up-down mode when the counter equals period the direction is defined as 0 or counting down. 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxB output low..." "0,1,2,3"
bitfld.word 0x00 0.--1. "  ZRO       ,Action when counter equals zero. Note: By definition, in count up-down mode when the counter equals 0 the direction is defined as 1 or counting up. 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxB output low. 0x2 = Set: force E..." "0,1,2,3"
group.word 0x1A++0x1
line.word 0x00 "EPWM_AQSFRC,"
bitfld.word 0x00 6.--7. " RLDCSF       ,0x0 = Load on event counter equals zero 0x1 = Load on event counter equals period 0x2 = Load on event counter equals zero or counter equals period 0x3 = Load immediately (the active register is directly accessed by the CPU and is not loa..." "0,1,2,3"
bitfld.word 0x00 5. "     OTSFB       ,One-Time Software Forced Event on Output B. 0x0 = Writing a 0 (zero) has no effect. Always reads back a 0. This bit is auto cleared once a write to this register is complete, that is, a forced event is initiated. This is a one-shot fo..." "0,1"
bitfld.word 0x00 3.--4. "  ACTSFB       ,Action when One-Time Software Force B Is invoked 0x0 = Does nothing (action disabled) 0x1 = Clear (low) 0x2 = Set (high) 0x3 = Toggle (Low -> High, High -> Low). Note: This action is not qualified by counter direction (CNT..." "0,1,2,3"
textline "                    "
bitfld.word 0x00 2. " OTSFA    ,One-Time Software Forced Event on Output A. 0x0 = Writing a 0 (zero) has no effect. Always reads back a 0. This bit is auto cleared once a write to this register is complete (that is, a forced event is initiated). 0x1 = Initiates a single so..." "0,1"
bitfld.word 0x00 0.--1. "     ACTSFA     ,Action When One-Time Software Force A Is Invoked. 0x0 = Does nothing (action disabled). 0x1 = Clear (low). 0x2 = Set (high). 0x3 = Toggle (Low -> High, High -> Low). Note: This action is not qualified by counter direction..." "0,1,2,3"
group.word 0x1C++0x1
line.word 0x00 "EPWM_AQCSFRC,"
bitfld.word 0x00 2.--3. " CSFB     ,Continuous Software Force on Output B. In immediate mode, a continuous force takes effect on the next TBCLK edge. In shadow mode, a continuous force takes effect on the next TBCLK edge after a shadow load into the active register. To configu..." "0,1,2,3"
bitfld.word 0x00 0.--1. "     CSFA    ,Continuous Software Force on Output A In immediate mode, a continuous force takes effect on the next TBCLK edge. In shadow mode, a continuous force takes effect on the next TBCLK edge after a shadow load into the active register. 0x0 = Fo..." "0,1,2,3"
group.word 0x1E++0x1
line.word 0x00 "EPWM_DBCTL,"
bitfld.word 0x00 4.--5. " IN_MODE      ,Dead Band Input Mode Control. Bit 5 controls the S5 switch and bit 4 controls the S4 switch. This allows you to select the input source to the falling-edge and rising-edge delay. To produce classical dead-band waveforms, the default is E..." "0,1,2,3"
bitfld.word 0x00 2.--3. "     POLSEL      ,Polarity Select Control. Bit 3 controls the S3 switch and bit 2 controls the S2 switch. This allows you to selectively invert one of the delayed signals before it is sent out of the dead-band submodule. The following descriptions corr..." "0,1,2,3"
bitfld.word 0x00 0.--1. "  OUT_MODE          ,Dead-band Output Mode Control. Bit 1 controls the S1 switch and bit 0 controls the S0 switch. This allows you to selectively enable or bypass the dead-band generation for the falling-edge and rising-edge delay. 0x0 = Dead-band gene..." "0,1,2,3"
group.word 0x20++0x1
line.word 0x00 "EPWM_DBRED,"
hexmask.word 0x00 0.--9. 1. " DEL   ,Rising Edge Delay Count. 10 bit counter."
group.word 0x22++0x1
line.word 0x00 "EPWM_DBFED,"
hexmask.word 0x00 0.--9. 1. " DEL       ,Falling Edge Delay Count. 10 bit counter"
group.word 0x24++0x1
line.word 0x00 "EPWM_TZSEL,"
hexmask.word.byte 0x00 8.--15. 1. " OSHTN       ,Trip-zone n (TZn) select. One-Shot (OSHT) trip-zone enable/disable. When any of the enabled pins go low, a one-shot trip event occurs for this ePWM module. When the event occurs, the action defined in the 0x0 = Disable TZn as a one-shot t..."
bitfld.word 0x00 0. "  CBC0          ,Trip-zone 0 (TZ0) select. Cycle-by-Cycle (CBC) trip-zone enable/disable. When any of the enabled pins go low, a cycle-by-cycle trip event occurs for this ePWM module. When the event occurs, the action defined in the 0x0 = Disable TZ0 a..." "0,1"
group.word 0x28++0x1
line.word 0x00 "EPWM_TZCTL,"
bitfld.word 0x00 2.--3. " TZB     ,When a trip event occurs the following action is taken on output EPWMxB. Which trip-zone pins can cause an event is defined in the 0x0 = High impedance (EPWMxB = High-impedance state) 0x1 = Force EPWMxB to a high state 0x2 = Force EPWMxB to a..." "0,1,2,3"
bitfld.word 0x00 0.--1. "    TZA      ,When a trip event occurs the following action is taken on output EPWMxA. Which trip-zone pins can cause an event is defined in the 0x0 = High impedance (EPWMxA = High-impedance state) 0x1 = Force EPWMxA to a high state 0x2 = Force EPWMxA ..." "0,1,2,3"
group.word 0x2A++0x1
line.word 0x00 "EPWM_TZEINT,"
bitfld.word 0x00 2. " OST       ,Trip-zone One-Shot Interrupt Enable 0x0 = Disable one-shot interrupt generation 0x1 = Enable Interrupt generation; a one-shot trip event will cause a EPWMxTZINT interrupt." "0,1"
bitfld.word 0x00 1. "     CBC       ,Trip-zone Cycle-by-Cycle Interrupt Enable 0x0 = Disable cycle-by-cycle interrupt generation. 0x1 = Enable interrupt generation; a cycle-by-cycle trip event will cause an EPWMxTZINT interrupt." "0,1"
rgroup.word 0x2C++0x1
line.word 0x00 "EPWM_TZFLG,"
bitfld.word 0x00 2. " OST       ,Latched Status Flag for A One-Shot Trip Event. 0x0 = No one-shot trip event has occurred. 0x1 = Indicates a trip event has occurred on a pin selected as a one-shot trip source. This bit is cleared by writing the appropriate value to the" "0,1"
bitfld.word 0x00 1. "     CBC       ,Latched Status Flag for Cycle-By-Cycle Trip Event 0x0 = No cycle-by-cycle trip event has occurred. 0x1 = Indicates a trip event has occurred on a pin selected as a cycle-by-cycle trip source. The" "0,1"
bitfld.word 0x00 0. "  INT          ,Latched Trip Interrupt Status Flag 0x0 = Indicates no interrupt has been generated. 0x1 = Indicates an EPWMxTZINT interrupt was generated because of a trip condition. No further EPWMxTZINT interrupts will be generated until this flag is..." "0,1"
group.word 0x2E++0x1
line.word 0x00 "EPWM_TZCLR,"
bitfld.word 0x00 2. " OST       ,Clear Flag for One-Shot Trip (OST) Latch 0x0 = Has no effect. Always reads back a 0. 0x1 = Clears this Trip (set) condition." "0,1"
bitfld.word 0x00 1. "     CBC       ,Clear Flag for Cycle-By-Cycle (CBC) Trip Latch 0x0 = Has no effect. Always reads back a 0. 0x1 = Clears this Trip (set) condition." "0,1"
bitfld.word 0x00 0. "  INT       ,Global Interrupt Clear Flag 0x0 = Has no effect. Always reads back a 0. 0x1 = Clears the trip-interrupt flag for this ePWM module (" "0,1"
group.word 0x30++0x1
line.word 0x00 "EPWM_TZFRC,"
bitfld.word 0x00 2. " OST       ,Force a One-Shot Trip Event via Software 0x0 = Writing of 0 is ignored. Always reads back a 0. 0x1 = Forces a one-shot trip event and sets the" "0,1"
bitfld.word 0x00 1. "     CBC       ,Force a Cycle-by-Cycle Trip Event via Software 0x0 = Writing of 0 is ignored. Always reads back a 0. 0x1 = Forces a cycle-by-cycle trip event and sets the" "0,1"
group.word 0x32++0x1
line.word 0x00 "EPWM_ETSEL,"
bitfld.word 0x00 3. " INTEN       ,Enable ePWM Interrupt (EPWMx_INT) Generation 0x0 = Disable EPWMx_INT generation 0x1 = Enable EPWMx_INT generation" "0,1"
bitfld.word 0x00 0.--2. "     INTSEL       ,ePWM Interrupt (EPWMx_INT) Selection Options 0x0 = Reserved 0x1 = Enable event time-base counter equal to zero. (TBCNT = 0000h) 0x2 = Enable event time-base counter equal to period (TBCNT = TBPRD) 0x3 = Reserved 0x4 = Enable event ti..." "0,1,2,3,4,5,6,7"
group.word 0x34++0x1
line.word 0x00 "EPWM_ETPS,"
bitfld.word 0x00 2.--3. " INTCNT     ,ePWM Interrupt Event (EPWMx_INT) Counter Register. These bits indicate how many selected 0x0 = No events have occurred. 0x1 = 1 event has occurred. 0x2 = 2 events have occurred. 0x3 = 3 events have occurred." "0,1,2,3"
bitfld.word 0x00 0.--1. "     INTPRD    ,ePWM Interrupt (EPWMx_INT) Period Select. These bits determine how many selected 0x0 = Disable the interrupt event counter. No interrupt will be generated and 0x1 = Generate an interrupt on the first event INTCNT = 01 (first event) 0x2 ..." "0,1,2,3"
rgroup.word 0x36++0x1
line.word 0x00 "EPWM_ETFLG,"
bitfld.word 0x00 0. " INT    ,Latched ePWM Interrupt (EPWMx_INT) Status Flag 0x0 = Indicates no event occurred 0x1 = Indicates that an ePWMx interrupt (EWPMx_INT) was generated. No further interrupts will be generated until the flag bit is cleared. Up to one interrupt can ..." "0,1"
group.word 0x38++0x1
line.word 0x00 "EPWM_ETCLR,"
bitfld.word 0x00 0. " INT       ,ePWM Interrupt (EPWMx_INT) Flag Clear Bit 0x0 = Writing a 0 has no effect. Always reads back a 0. 0x1 = Writing 1 clears the" "0,1"
group.word 0x3A++0x1
line.word 0x00 "EPWM_ETFRC,"
bitfld.word 0x00 0. " INT       ,INT Force Bit. The interrupt will only be generated if the event is enabled in the 0x0 = Writing 0 to this bit will be ignored. Always reads back a 0. 0x1 = Writing 1 generates an interrupt on EPWMxINT and set the INT flag bit. This bit is ..." "0,1"
group.word 0x3C++0x1
line.word 0x00 "EPWM_PCCTL,"
bitfld.word 0x00 8.--10. " CHPDUTY       ,Chopping Clock Duty Cycle 0x0 = Duty = 1/8 (12.5%) 0x1 = Duty = 2/8 (25.0%) 0x2 = Duty = 3/8 (37.5%) 0x3 = Duty = 4/8 (50.0%) 0x4 = Duty = 5/8 (62.5%) 0x5 = Duty = 6/8 (75.0%) 0x6 = Duty = 7/8 (87.5%) 0x7 = Reserved." "0,1,2,3,4,5,6,7"
bitfld.word 0x00 5.--7. "     CHPFREQ          ,Chopping Clock Frequency 0x0 = Divide by 1 (no prescale). 0x1 = Divide by 2. 0x2 = Divide by 3. 0x3 = Divide by 4. 0x4 = Divide by 5. 0x5 = Divide by 6. 0x6 = Divide by 7. 0x7 = Divide by 8." "0,1,2,3,4,5,6,7"
bitfld.word 0x00 1.--4. "   OSHTWTH          ,One-Shot Pulse Width 0x0 = 1 - SYSCLKOUT/8 wide 0x1 = 2 - SYSCLKOUT/8 wide 0x2 = 3 - SYSCLKOUT/8 wide 0x3 = 4 - SYSCLKOUT/8 wide 0xF = 16 - SYSCLKOUT/8 wide" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                    "
bitfld.word 0x00 0. " CHPEN   ,PWM-chopping Enable 0x0 = Disable (bypass) PWM chopping function 0x1 = Enable chopping function" "0,1"
group.word 0xC0++0x1
line.word 0x00 "HRPWM_HRCTL,"
bitfld.word 0x00 3. " PULSESEL     ,Pulse select bits. Selects which pulse to use for timing events in the HRPWM module. Note: The user needs to select the pulse to match the selection in the EPWM module. If TBPHSHR bus is selected, then CNT_zero pulse should be used. If C..." "0,1"
bitfld.word 0x00 2. "     DELBUSSEL          ,Delay Bus Select Bit: Selects which bus is used to select the delay for the PWM pulse. 0x0 = Select CMPAHR(8) bus from compare module of EPWM (default on reset). 0x1 = Select TBPHSHR(8) bus from time base module." "0,1"
bitfld.word 0x00 0.--1. "   DELMODE          ,Delay Mode Bits: Selects which edge of the PWM pulse the delay is inserted. Note: When DELMODE = 0b00, the HRCALM[CALMODE] bits are ignored and the delay line is in by-pass mode. Additionally, DLYIN is connected to CALIN and a cont..." "0,1,2,3"
width 0x0B
tree.end
tree "PWMSS3_EPWM"
base ad:0x48442200
width 15.
group.word 0x0++0x1
line.word 0x00 "EPWM_TBCTL,"
bitfld.word 0x00 14.--15. " FREE_SOFT ,Emulation Mode Bits. These bits select the behavior of the ePWM time-base counter during emulation events: 0x0 = Stop after the next time-base counter increment or decrement 0x1 = Stop when counter completes a whole cycle. (a) Up-count mode..." "0,1,2,3"
bitfld.word 0x00 13. "     PHSDIR    ,Phase Direction Bit. This bit is only used when the time-base counter is configured in the up-down-count mode. The PHSDIR bit indicates the direction the time-base counter ( 0x0 = Count down after the synchronization event. 0x1 = Count ..." "0,1"
bitfld.word 0x00 10.--12. "  CLKDIV    ,Time-base Clock Prescale Bits. These bits determine part of the time-base clock prescale value. 0x0 = /1 (default on reset) 0x1 = /2 0x2 = /4 0x3 = /8 0x4 = /16 0x5 = /32 0x6 = /64 0x7 = /128" "0,1,2,3,4,5,6,7"
textline "                    "
bitfld.word 0x00 7.--9. " HSPCLKDIV ,High-Speed Time-base Clock Prescale Bits. These bits determine part of the time-base clock prescale value. 0x0 = /1 0x1 = /2 (default on reset) 0x2 = /4 0x3 = /6 0x4 = /8 0x5 = /10 0x6 = /12 0x7 = /14" "0,1,2,3,4,5,6,7"
bitfld.word 0x00 6. "     SWFSYNC   ,Software Forced Synchronization Pulse. 0x0 = Writing a 0 has no effect and reads always return a 0. 0x1 = Writing a 1 forces a one-time synchronization pulse to be generated. This event is ORed with the EPWMxSYNCI input of the ePWM modu..." "0,1"
bitfld.word 0x00 4.--5. "  SYNCOSEL  ,Synchronization Output Select. These bits select the source of the EPWMxSYNCO signal. 0x0 = EPWMxSYNC: 0x1 = TBCNT = 0: Time-base counter equal to zero ( 0x2 = TBCNT = CMPB : Time-base counter equal to counter-compare B ( 0x3 = Disable EPW..." "0,1,2,3"
textline "                    "
bitfld.word 0x00 3. " PRDLD     ,Active Period Register Load From Shadow Register Select 0x0 = The period register ( 0x1 = Load the" "0,1"
bitfld.word 0x00 2. "     PHSEN     ,Counter Register Load From Phase Register Enable 0x0 = Do not load the time-base counter ( 0x1 = Load the time-base counter with the phase register when an EPWMxSYNCI input signal occurs or when a software synchronization is forced by t..." "0,1"
bitfld.word 0x00 0.--1. "  CTRMODE   ,Counter Mode. The time-base counter mode is normally configured once and not changed during normal operation. If you change the mode of the counter, the change will take effect at the next TBCLK edge and the current counter value shall inc..." "0,1,2,3"
hgroup.word 0x2++0x1
hide.word 0x00 "EPWM_TBSTS,"
in
group.word 0x4++0x1
line.word 0x00 "HRPWM_TBPHSHR,"
hexmask.word.byte 0x00 8.--15. 1. " TBPHSH    ,Time-base phase high-resolution bits"
group.word 0x6++0x1
line.word 0x00 "EPWM_TBPHS,"
hexmask.word 0x00 0.--15. 1. " TBPHS    ,These bits set time-base counter phase of the selected ePWM relative to the time-base that is supplying the synchronization input signal. (a) If"
group.word 0x8++0x1
line.word 0x00 "EPWM_TBCNT,"
hexmask.word 0x00 0.--15. 1. " TBCNT     ,Reading these bits gives the current time-base counter value. Writing to these bits sets the current time-base counter value. The update happens as soon as the write occurs. The write is NOT synchronized to the time-base clock (TBCLK) and t..."
group.word 0xA++0x1
line.word 0x00 "EPWM_TBPRD,"
hexmask.word 0x00 0.--15. 1. " TBPRD     ,These bits determine the period of the time-base counter. This sets the PWM frequency. Shadowing of this register is enabled and disabled by the"
group.word 0xE++0x1
line.word 0x00 "EPWM_CMPCTL,"
bitfld.word 0x00 9. " SHDWBFULL     ,Counter-compare B ( 0x0 = CMPB shadow FIFO not full yet 0x1 = Indicates the CMPB shadow FIFO is full. A CPU write will overwrite current shadow value." "0,1"
bitfld.word 0x00 8. "  SHDWAFULL          ,Counter-compare A ( 0x0 = CMPA shadow FIFO not full yet 0x1 = Indicates the CMPA shadow FIFO is full, a CPU write will overwrite the current shadow value." "0,1"
bitfld.word 0x00 6. "   SHDWBMODE          ,Counter-compare B ( 0x0 = Shadow mode. Operates as a double buffer. All writes via the CPU access the shadow register. 0x1 = Immediate mode. Only the active compare B register is used. All writes and reads directly access the act..." "0,1"
textline "                    "
bitfld.word 0x00 4. " SHDWAMODE ,Counter-compare A ( 0x0 = Shadow mode. Operates as a double buffer. All writes via the CPU access the shadow register. 0x1 = Immediate mode. Only the active compare register is used. All writes and reads directly access the active register ..." "0,1"
bitfld.word 0x00 2.--3. "     LOADBMODE ,Active Counter-Compare B (CMPB) Load From Shadow Select Mode. This bit has no effect in immediate mode ( 0x0 = Load on TBCNT = 0: Time-base counter equal to zero ( 0x1 = Load on TBCNT = PRD: Time-base counter equal to period ( 0x2 = Loa..." "0,1,2,3"
bitfld.word 0x00 0.--1. "  LOADAMODE ,Active Counter-Compare A ( 0x0 = Load on TBCNT = 0: Time-base counter equal to zero ( 0x1 = Load on TBCNT = PRD: Time-base counter equal to period ( 0x2 = Load on either TBCNT = 0 or TBCNT = PRD 0x3 = Freeze (no loads possible)" "0,1,2,3"
group.word 0x10++0x1
line.word 0x00 "HRPWM_CMPAHR,"
hexmask.word.byte 0x00 8.--15. 1. " CMPAHR ,Compare A High-Resolution register bits for MEP step control. A minimum value of 1h is needed to enable HRPWM capabilities. Valid MEP range of operation 1-255h."
group.word 0x12++0x1
line.word 0x00 "EPWM_CMPA,"
hexmask.word 0x00 0.--15. 1. " CMPA    ,The value in the active"
group.word 0x14++0x1
line.word 0x00 "EPWM_CMPB,"
hexmask.word 0x00 0.--15. 1. " CMPB      ,The value in the active"
group.word 0x16++0x1
line.word 0x00 "EPWM_AQCTLA,"
bitfld.word 0x00 10.--11. " CBD      ,Action when the time-base counter equals the active 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxA output low. 0x2 = Set: force EPWMxA output high. 0x3 = Toggle EPWMxA output: low output signal will be forced high, and a high s..." "0,1,2,3"
bitfld.word 0x00 8.--9. "  CBU          ,Action when the counter equals the active 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxA output low. 0x2 = Set: force EPWMxA output high. 0x3 = Toggle EPWMxA output: low output signal will be forced high, and a high signal..." "0,1,2,3"
bitfld.word 0x00 6.--7. "   CAD          ,Action when the counter equals the active 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxA output low. 0x2 = Set: force EPWMxA output high. 0x3 = Toggle EPWMxA output: low output signal will be forced high, and a high signa..." "0,1,2,3"
textline "                    "
bitfld.word 0x00 4.--5. " CAU       ,Action when the counter equals the active 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxA output low. 0x2 = Set: force EPWMxA output high. 0x3 = Toggle EPWMxA output: low output signal will be forced high, and a high signal wil..." "0,1,2,3"
bitfld.word 0x00 2.--3. "     PRD       ,Action when the counter equals the period. Note: By definition, in count up-down mode when the counter equals period the direction is defined as 0 or counting down. 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxA output low..." "0,1,2,3"
bitfld.word 0x00 0.--1. "  ZRO       ,Action when counter equals zero. Note: By definition, in count up-down mode when the counter equals 0 the direction is defined as 1 or counting up. 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxA output low. 0x2 = Set: force E..." "0,1,2,3"
group.word 0x18++0x1
line.word 0x00 "EPWM_AQCTLB,"
bitfld.word 0x00 10.--11. " CBD       ,Action when the counter equals the active 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxB output low. 0x2 = Set: force EPWMxB output high. 0x3 = Toggle EPWMxB output: low output signal will be forced high, and a high signal wil..." "0,1,2,3"
bitfld.word 0x00 8.--9. "     CBU       ,Action when the counter equals the active 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxB output low. 0x2 = Set: force EPWMxB output high. 0x3 = Toggle EPWMxB output: low output signal will be forced high, and a high signal..." "0,1,2,3"
bitfld.word 0x00 6.--7. "  CAD       ,Action when the counter equals the active 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxB output low. 0x2 = Set: force EPWMxB output high. 0x3 = Toggle EPWMxB output: low output signal will be forced high, and a high signal wi..." "0,1,2,3"
textline "                    "
bitfld.word 0x00 4.--5. " CAU       ,Action when the counter equals the active 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxB output low. 0x2 = Set: force EPWMxB output high. 0x3 = Toggle EPWMxB output: low output signal will be forced high, and a high signal wil..." "0,1,2,3"
bitfld.word 0x00 2.--3. "     PRD       ,Action when the counter equals the period. Note: By definition, in count up-down mode when the counter equals period the direction is defined as 0 or counting down. 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxB output low..." "0,1,2,3"
bitfld.word 0x00 0.--1. "  ZRO       ,Action when counter equals zero. Note: By definition, in count up-down mode when the counter equals 0 the direction is defined as 1 or counting up. 0x0 = Do nothing (action disabled) 0x1 = Clear: force EPWMxB output low. 0x2 = Set: force E..." "0,1,2,3"
group.word 0x1A++0x1
line.word 0x00 "EPWM_AQSFRC,"
bitfld.word 0x00 6.--7. " RLDCSF       ,0x0 = Load on event counter equals zero 0x1 = Load on event counter equals period 0x2 = Load on event counter equals zero or counter equals period 0x3 = Load immediately (the active register is directly accessed by the CPU and is not loa..." "0,1,2,3"
bitfld.word 0x00 5. "     OTSFB       ,One-Time Software Forced Event on Output B. 0x0 = Writing a 0 (zero) has no effect. Always reads back a 0. This bit is auto cleared once a write to this register is complete, that is, a forced event is initiated. This is a one-shot fo..." "0,1"
bitfld.word 0x00 3.--4. "  ACTSFB       ,Action when One-Time Software Force B Is invoked 0x0 = Does nothing (action disabled) 0x1 = Clear (low) 0x2 = Set (high) 0x3 = Toggle (Low -> High, High -> Low). Note: This action is not qualified by counter direction (CNT..." "0,1,2,3"
textline "                    "
bitfld.word 0x00 2. " OTSFA    ,One-Time Software Forced Event on Output A. 0x0 = Writing a 0 (zero) has no effect. Always reads back a 0. This bit is auto cleared once a write to this register is complete (that is, a forced event is initiated). 0x1 = Initiates a single so..." "0,1"
bitfld.word 0x00 0.--1. "     ACTSFA     ,Action When One-Time Software Force A Is Invoked. 0x0 = Does nothing (action disabled). 0x1 = Clear (low). 0x2 = Set (high). 0x3 = Toggle (Low -> High, High -> Low). Note: This action is not qualified by counter direction..." "0,1,2,3"
group.word 0x1C++0x1
line.word 0x00 "EPWM_AQCSFRC,"
bitfld.word 0x00 2.--3. " CSFB     ,Continuous Software Force on Output B. In immediate mode, a continuous force takes effect on the next TBCLK edge. In shadow mode, a continuous force takes effect on the next TBCLK edge after a shadow load into the active register. To configu..." "0,1,2,3"
bitfld.word 0x00 0.--1. "     CSFA    ,Continuous Software Force on Output A In immediate mode, a continuous force takes effect on the next TBCLK edge. In shadow mode, a continuous force takes effect on the next TBCLK edge after a shadow load into the active register. 0x0 = Fo..." "0,1,2,3"
group.word 0x1E++0x1
line.word 0x00 "EPWM_DBCTL,"
bitfld.word 0x00 4.--5. " IN_MODE      ,Dead Band Input Mode Control. Bit 5 controls the S5 switch and bit 4 controls the S4 switch. This allows you to select the input source to the falling-edge and rising-edge delay. To produce classical dead-band waveforms, the default is E..." "0,1,2,3"
bitfld.word 0x00 2.--3. "     POLSEL      ,Polarity Select Control. Bit 3 controls the S3 switch and bit 2 controls the S2 switch. This allows you to selectively invert one of the delayed signals before it is sent out of the dead-band submodule. The following descriptions corr..." "0,1,2,3"
bitfld.word 0x00 0.--1. "  OUT_MODE          ,Dead-band Output Mode Control. Bit 1 controls the S1 switch and bit 0 controls the S0 switch. This allows you to selectively enable or bypass the dead-band generation for the falling-edge and rising-edge delay. 0x0 = Dead-band gene..." "0,1,2,3"
group.word 0x20++0x1
line.word 0x00 "EPWM_DBRED,"
hexmask.word 0x00 0.--9. 1. " DEL   ,Rising Edge Delay Count. 10 bit counter."
group.word 0x22++0x1
line.word 0x00 "EPWM_DBFED,"
hexmask.word 0x00 0.--9. 1. " DEL       ,Falling Edge Delay Count. 10 bit counter"
group.word 0x24++0x1
line.word 0x00 "EPWM_TZSEL,"
hexmask.word.byte 0x00 8.--15. 1. " OSHTN       ,Trip-zone n (TZn) select. One-Shot (OSHT) trip-zone enable/disable. When any of the enabled pins go low, a one-shot trip event occurs for this ePWM module. When the event occurs, the action defined in the 0x0 = Disable TZn as a one-shot t..."
bitfld.word 0x00 0. "  CBC0          ,Trip-zone 0 (TZ0) select. Cycle-by-Cycle (CBC) trip-zone enable/disable. When any of the enabled pins go low, a cycle-by-cycle trip event occurs for this ePWM module. When the event occurs, the action defined in the 0x0 = Disable TZ0 a..." "0,1"
group.word 0x28++0x1
line.word 0x00 "EPWM_TZCTL,"
bitfld.word 0x00 2.--3. " TZB     ,When a trip event occurs the following action is taken on output EPWMxB. Which trip-zone pins can cause an event is defined in the 0x0 = High impedance (EPWMxB = High-impedance state) 0x1 = Force EPWMxB to a high state 0x2 = Force EPWMxB to a..." "0,1,2,3"
bitfld.word 0x00 0.--1. "    TZA      ,When a trip event occurs the following action is taken on output EPWMxA. Which trip-zone pins can cause an event is defined in the 0x0 = High impedance (EPWMxA = High-impedance state) 0x1 = Force EPWMxA to a high state 0x2 = Force EPWMxA ..." "0,1,2,3"
group.word 0x2A++0x1
line.word 0x00 "EPWM_TZEINT,"
bitfld.word 0x00 2. " OST       ,Trip-zone One-Shot Interrupt Enable 0x0 = Disable one-shot interrupt generation 0x1 = Enable Interrupt generation; a one-shot trip event will cause a EPWMxTZINT interrupt." "0,1"
bitfld.word 0x00 1. "     CBC       ,Trip-zone Cycle-by-Cycle Interrupt Enable 0x0 = Disable cycle-by-cycle interrupt generation. 0x1 = Enable interrupt generation; a cycle-by-cycle trip event will cause an EPWMxTZINT interrupt." "0,1"
rgroup.word 0x2C++0x1
line.word 0x00 "EPWM_TZFLG,"
bitfld.word 0x00 2. " OST       ,Latched Status Flag for A One-Shot Trip Event. 0x0 = No one-shot trip event has occurred. 0x1 = Indicates a trip event has occurred on a pin selected as a one-shot trip source. This bit is cleared by writing the appropriate value to the" "0,1"
bitfld.word 0x00 1. "     CBC       ,Latched Status Flag for Cycle-By-Cycle Trip Event 0x0 = No cycle-by-cycle trip event has occurred. 0x1 = Indicates a trip event has occurred on a pin selected as a cycle-by-cycle trip source. The" "0,1"
bitfld.word 0x00 0. "  INT          ,Latched Trip Interrupt Status Flag 0x0 = Indicates no interrupt has been generated. 0x1 = Indicates an EPWMxTZINT interrupt was generated because of a trip condition. No further EPWMxTZINT interrupts will be generated until this flag is..." "0,1"
group.word 0x2E++0x1
line.word 0x00 "EPWM_TZCLR,"
bitfld.word 0x00 2. " OST       ,Clear Flag for One-Shot Trip (OST) Latch 0x0 = Has no effect. Always reads back a 0. 0x1 = Clears this Trip (set) condition." "0,1"
bitfld.word 0x00 1. "     CBC       ,Clear Flag for Cycle-By-Cycle (CBC) Trip Latch 0x0 = Has no effect. Always reads back a 0. 0x1 = Clears this Trip (set) condition." "0,1"
bitfld.word 0x00 0. "  INT       ,Global Interrupt Clear Flag 0x0 = Has no effect. Always reads back a 0. 0x1 = Clears the trip-interrupt flag for this ePWM module (" "0,1"
group.word 0x30++0x1
line.word 0x00 "EPWM_TZFRC,"
bitfld.word 0x00 2. " OST       ,Force a One-Shot Trip Event via Software 0x0 = Writing of 0 is ignored. Always reads back a 0. 0x1 = Forces a one-shot trip event and sets the" "0,1"
bitfld.word 0x00 1. "     CBC       ,Force a Cycle-by-Cycle Trip Event via Software 0x0 = Writing of 0 is ignored. Always reads back a 0. 0x1 = Forces a cycle-by-cycle trip event and sets the" "0,1"
group.word 0x32++0x1
line.word 0x00 "EPWM_ETSEL,"
bitfld.word 0x00 3. " INTEN       ,Enable ePWM Interrupt (EPWMx_INT) Generation 0x0 = Disable EPWMx_INT generation 0x1 = Enable EPWMx_INT generation" "0,1"
bitfld.word 0x00 0.--2. "     INTSEL       ,ePWM Interrupt (EPWMx_INT) Selection Options 0x0 = Reserved 0x1 = Enable event time-base counter equal to zero. (TBCNT = 0000h) 0x2 = Enable event time-base counter equal to period (TBCNT = TBPRD) 0x3 = Reserved 0x4 = Enable event ti..." "0,1,2,3,4,5,6,7"
group.word 0x34++0x1
line.word 0x00 "EPWM_ETPS,"
bitfld.word 0x00 2.--3. " INTCNT     ,ePWM Interrupt Event (EPWMx_INT) Counter Register. These bits indicate how many selected 0x0 = No events have occurred. 0x1 = 1 event has occurred. 0x2 = 2 events have occurred. 0x3 = 3 events have occurred." "0,1,2,3"
bitfld.word 0x00 0.--1. "     INTPRD    ,ePWM Interrupt (EPWMx_INT) Period Select. These bits determine how many selected 0x0 = Disable the interrupt event counter. No interrupt will be generated and 0x1 = Generate an interrupt on the first event INTCNT = 01 (first event) 0x2 ..." "0,1,2,3"
rgroup.word 0x36++0x1
line.word 0x00 "EPWM_ETFLG,"
bitfld.word 0x00 0. " INT    ,Latched ePWM Interrupt (EPWMx_INT) Status Flag 0x0 = Indicates no event occurred 0x1 = Indicates that an ePWMx interrupt (EWPMx_INT) was generated. No further interrupts will be generated until the flag bit is cleared. Up to one interrupt can ..." "0,1"
group.word 0x38++0x1
line.word 0x00 "EPWM_ETCLR,"
bitfld.word 0x00 0. " INT       ,ePWM Interrupt (EPWMx_INT) Flag Clear Bit 0x0 = Writing a 0 has no effect. Always reads back a 0. 0x1 = Writing 1 clears the" "0,1"
group.word 0x3A++0x1
line.word 0x00 "EPWM_ETFRC,"
bitfld.word 0x00 0. " INT       ,INT Force Bit. The interrupt will only be generated if the event is enabled in the 0x0 = Writing 0 to this bit will be ignored. Always reads back a 0. 0x1 = Writing 1 generates an interrupt on EPWMxINT and set the INT flag bit. This bit is ..." "0,1"
group.word 0x3C++0x1
line.word 0x00 "EPWM_PCCTL,"
bitfld.word 0x00 8.--10. " CHPDUTY       ,Chopping Clock Duty Cycle 0x0 = Duty = 1/8 (12.5%) 0x1 = Duty = 2/8 (25.0%) 0x2 = Duty = 3/8 (37.5%) 0x3 = Duty = 4/8 (50.0%) 0x4 = Duty = 5/8 (62.5%) 0x5 = Duty = 6/8 (75.0%) 0x6 = Duty = 7/8 (87.5%) 0x7 = Reserved." "0,1,2,3,4,5,6,7"
bitfld.word 0x00 5.--7. "     CHPFREQ          ,Chopping Clock Frequency 0x0 = Divide by 1 (no prescale). 0x1 = Divide by 2. 0x2 = Divide by 3. 0x3 = Divide by 4. 0x4 = Divide by 5. 0x5 = Divide by 6. 0x6 = Divide by 7. 0x7 = Divide by 8." "0,1,2,3,4,5,6,7"
bitfld.word 0x00 1.--4. "   OSHTWTH          ,One-Shot Pulse Width 0x0 = 1 - SYSCLKOUT/8 wide 0x1 = 2 - SYSCLKOUT/8 wide 0x2 = 3 - SYSCLKOUT/8 wide 0x3 = 4 - SYSCLKOUT/8 wide 0xF = 16 - SYSCLKOUT/8 wide" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                    "
bitfld.word 0x00 0. " CHPEN   ,PWM-chopping Enable 0x0 = Disable (bypass) PWM chopping function 0x1 = Enable chopping function" "0,1"
group.word 0xC0++0x1
line.word 0x00 "HRPWM_HRCTL,"
bitfld.word 0x00 3. " PULSESEL     ,Pulse select bits. Selects which pulse to use for timing events in the HRPWM module. Note: The user needs to select the pulse to match the selection in the EPWM module. If TBPHSHR bus is selected, then CNT_zero pulse should be used. If C..." "0,1"
bitfld.word 0x00 2. "     DELBUSSEL          ,Delay Bus Select Bit: Selects which bus is used to select the delay for the PWM pulse. 0x0 = Select CMPAHR(8) bus from compare module of EPWM (default on reset). 0x1 = Select TBPHSHR(8) bus from time base module." "0,1"
bitfld.word 0x00 0.--1. "   DELMODE          ,Delay Mode Bits: Selects which edge of the PWM pulse the delay is inserted. Note: When DELMODE = 0b00, the HRCALM[CALMODE] bits are ignored and the delay line is in by-pass mode. Additionally, DLYIN is connected to CALIN and a cont..." "0,1,2,3"
width 0x0B
tree.end
tree.end
tree.open "PWMSS1_ECAP"
tree "PWMSS1_ECAP"
base ad:0x4843E100
width 19.
group.long 0x0++0x3
line.long 0x00 "PWMSS_ECAP_TSCNT,Time Stamp Counter Register"
hexmask.long 0x00 0.--31. 1. " TSCNT      ,Active 32 bit-counter register that is used as the capture time-base"
group.long 0x4++0x3
line.long 0x00 "PWMSS_ECAP_CNTPHS,Counter Phase Control Register"
hexmask.long 0x00 0.--31. 1. " CNTPHS     ,Counter phase value register that can be programmed for phase lag/lead. This register shadows TSCNT and is loaded intoPWMSS_ECAP_TSCNT upon either a SYNCI event or S/W force via a control bit. Used to achieve phase control synchronization ..."
group.long 0x8++0x3
line.long 0x00 "PWMSS_ECAP_CAP1,Capture-1 Register"
hexmask.long 0x00 0.--31. 1. " CAP1       ,This register can be loaded (written) by the following. (a) Time-Stamp (that is, counter value) during a capture event. (b) Software may be useful for test purposes. (c) APRD active register when used in APWM mode."
group.long 0xC++0x3
line.long 0x00 "PWMSS_ECAP_CAP2,Capture-2 Register"
hexmask.long 0x00 0.--31. 1. " CAP2       ,This register can be loaded (written) by the following. (a) Time- Stamp (that is, counter value) during a capture event. (b) Software may be useful for test purposes. (c) APRD active register when used in APWM mode."
group.long 0x10++0x3
line.long 0x00 "PWMSS_ECAP_CAP3,Capture-3 Register"
hexmask.long 0x00 0.--31. 1. " CAP3       ,In CMP mode, this is a time-stamp capture register. In APWM mode, this is the period shadow (APRD) register. User SW updates the PWM period value through this register. In this mode, CAP3 shadows CAP1."
group.long 0x14++0x3
line.long 0x00 "PWMSS_ECAP_CAP4,Capture-4 Register"
hexmask.long 0x00 0.--31. 1. " CAP4       ,In CMP mode, this is a time-stamp capture register. In APWM mode, this is the compare shadow (ACMP) register. User SW updates the PWM compare value through this register. In this mode, CAP4 shadows CAP2."
group.word 0x28++0x1
line.word 0x00 "PWMSS_ECAP_ECCTL1,ECAP Control Register1"
bitfld.word 0x00 14.--15. "     FREE_SOFT  ,Emulation Control 0x0 = TSCNT counter stops immediately on emulation suspend. 0x1 = TSCNT counter runs until = 0. 0x2 = TSCNT counter is unaffected by emulation suspend (Run Free). 0x3 = TSCNT counter is unaffected by emulation suspend..." "0,1,2,3"
bitfld.word 0x00 9.--13. "         EVTFLTPS  ,Event Filter prescale select: 0x0 = Divide by 1 (i.e,. no prescale, by-pass the prescaler) 0x1 = Divide by 2 0x2 = Divide by 4 0x3 = Divide by 6 0x4 = Divide by 8 0x5 = Divide by 10... 0x1E = Divide by 60 0x1F = Divide by 62" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.word 0x00 8. "  CAPLDEN    ,Enable Loading ofPWMSS_ECAP_CAP1 to PWMSS_ECAP_CAP4 registers on a capture event 0x0 = Disable PWMSS_ECAP_CAP1-PWMSS_ECAP_CAP4 register loads at capture event time. 0x1 = Enable PWMSS_ECAP_CAP1-PWMSS_ECAP_CAP4 register loads at capture ev..." "0,1"
textline "                            "
bitfld.word 0x00 7. " CTRRST4    ,Counter Reset on Capture Event 4 0x0 = Do not reset counter on Capture Event 4 (absolute time stamp operation) 0x1 = Reset counter after Capture Event 4 time-stamp has been captured (used in difference mode operation)" "0,1"
bitfld.word 0x00 6. "         CAP4POL   ,Capture Event 4 Polarity select 0x0 = Capture Event 4 triggered on a rising edge (RE) 0x1 = Capture Event 4 triggered on a falling edge (FE)" "0,1"
bitfld.word 0x00 5. "   CTRRST3    ,Counter Reset on Capture Event 3 0x0 = Do not reset counter on Capture Event 3 (absolute time stamp) 0x1 = Reset counter after Event 3 time-stamp has been captured (used in difference mode operation)" "0,1"
textline "                            "
bitfld.word 0x00 4. " CAP3POL    ,Capture Event 3 Polarity select 0x0 = Capture Event 3 triggered on a rising edge (RE) 0x1 = Capture Event 3 triggered on a falling edge (FE)" "0,1"
bitfld.word 0x00 3. "         CTRRST2   ,Counter Reset on Capture Event 2 0x0 = Do not reset counter on Capture Event 2 (absolute time stamp) 0x1 = Reset counter after Event 2 time-stamp has been captured (used in difference mode operation)" "0,1"
bitfld.word 0x00 2. "   CAP2POL    ,Capture Event 2 Polarity select 0x0 = Capture Event 2 triggered on a rising edge (RE) 0x1 = Capture Event 2 triggered on a falling edge (FE)" "0,1"
textline "                            "
bitfld.word 0x00 1. " CTRRST1    ,Counter Reset on Capture Event 1 0x0 = Do not reset counter on Capture Event 1 (absolute time stamp) 0x1 = Reset counter after Event 1 time-stamp has been captured (used in difference mode operation)" "0,1"
bitfld.word 0x00 0. "         CAP1POL   ,Capture Event 1 Polarity select 0x0 = Capture Event 1 triggered on a rising edge (RE) 0x1 = Capture Event 1 triggered on a falling edge (FE)" "0,1"
group.word 0x2A++0x1
line.word 0x00 "PWMSS_ECAP_ECCTL2,ECAP Control Register 2"
bitfld.word 0x00 10. "     APWMPOL    ,APWM output polarity select. This is applicable only in APWM operating mode 0x0 = Output is active high (Compare value defines high time) 0x1 = Output is active low (Compare value defines low time)" "0,1"
bitfld.word 0x00 9. "         CAPAPWM   ,CAP/APWM operating mode select" "0,1"
bitfld.word 0x00 8. "   SWSYNC     ,Software-forced Counter (TSCNT) Synchronizing. This provides a convenient software method to synchronize some or all ECAP time bases. In APWM mode, the synchronizing can also be done via the TSCNT = PRD event. Note: Selection TSCNT = PRD..." "0,1"
textline "                            "
bitfld.word 0x00 6.--7. " SYNCO_SEL  ,Sync-Out Select 0x0 = Select sync-in event to be the sync-out signal (pass through) 0x1 = Select TSCNT = PRD event to be the sync-out signal 0x2 = Disable sync out signal 0x3 = Disable sync out signal" "0,1,2,3"
bitfld.word 0x00 5. "         SYNCI_EN  ,Counter (TSCNT) Sync-In select mode 0x0 = Disable sync-in option 0x1 = Enable counter (TSCNT) to be loaded from" "0,1"
bitfld.word 0x00 4. "   TSCNTSTP   ,Time Stamp (TSCNT) Counter Stop (freeze) Control 0x0 = TSCNT stopped 0x1 = TSCNT free-running" "0,1"
textline "                            "
bitfld.word 0x00 3. " REARMRESET ,One-Shot Re-Arming Control, that is, wait for stop trigger. Note: The re-arm function is valid in one shot or continuous mode. 0x0 = Has no effect (reading always returns a 0) 0x1 = Arms the one-shot sequence as follows: 1) Resets the Mod4..." "0,1"
bitfld.word 0x00 1.--2. "         STOPVALUE ,Stop value for one-shot mode. This is the number (between 1 and 4) of captures allowed to occur before the CAP (1 through 4) registers are frozen, that is, capture sequence is stopped. Wrap value for continuous mode. This is the num..." "0,1,2,3"
bitfld.word 0x00 0. "   CONTONESHT ,Continuous or one-shot mode control (applicable only in capture mode) 0x0 = Operate in continuous mode 0x1 = Operate in one-shot mode" "0,1"
group.word 0x2C++0x1
line.word 0x00 "PWMSS_ECAP_ECEINT,ECAP Interrupt Enable Register"
bitfld.word 0x00 7. "     CMPEQ      ,Counter Equal 0x0 = Disable Compare Equal as an Interrupt source. 0x1 = Enable Compare Equal as an Interrupt source." "0,1"
bitfld.word 0x00 6. "         PRDEQ     ,Counter Equal 0x0 = Disable Period Equal as an Interrupt source. 0x1 = Enable Period Equal as an Interrupt source." "0,1"
bitfld.word 0x00 5. "   CNTOVF     ,Counter Overflow Interrupt Enable. 0x0 = Disable counter Overflow as an Interrupt source. 0x1 = Enable counter Overflow as an Interrupt source." "0,1"
textline "                            "
bitfld.word 0x00 4. " CEVT4      ,Capture Event 4 Interrupt Enable. 0x0 = Disable Capture Event 4 as an Interrupt source. 0x1 = Enable Capture Event 4 as an Interrupt source." "0,1"
bitfld.word 0x00 3. "         CEVT3     ,Capture Event 3 Interrupt Enable. 0x0 = Disable Capture Event 3 as an Interrupt source. 0x1 = Enable Capture Event 3 as an Interrupt source." "0,1"
bitfld.word 0x00 2. "   CEVT2      ,Capture Event 2 Interrupt Enable. 0x0 = Disable Capture Event 2 as an Interrupt source. 0x1 = Enable Capture Event 2 as an Interrupt source." "0,1"
textline "                            "
bitfld.word 0x00 1. " CEVT1      ,Capture Event 1 Interrupt Enable . 0x0 = Disable Capture Event 1 as an Interrupt source. 0x1 = Enable Capture Event 1 as an Interrupt source." "0,1"
rgroup.word 0x2E++0x1
line.word 0x00 "PWMSS_ECAP_ECFLG,ECAP Interrupt Flag Register"
bitfld.word 0x00 7. "     CMPEQ      ,Compare Equal Compare Status Flag. This flag is only active in APWM mode. 0x0 = Indicates no event occurred 0x1 = Indicates the counter (TSCNT) reached the compare register value (ACMP)" "0,1"
bitfld.word 0x00 6. "         PRDEQ     ,Counter Equal Period Status Flag. This flag is only active in APWM mode. 0x0 = Indicates no event occurred 0x1 = Indicates the counter (TSCNT) reached the period register value (APRD) and was reset." "0,1"
bitfld.word 0x00 5. "   CNTOVF     ,Counter Overflow Status Flag. This flag is active in CAP and APWM mode. 0x0 = Indicates no event occurred. 0x1 = Indicates the counter (TSCNT) has made the transition from 0xFFFFFFFF to 0x00000000" "0,1"
textline "                            "
bitfld.word 0x00 4. " CEVT4      ,Capture Event 4 Status Flag This flag is only active in CAP mode. 0x0 = Indicates no event occurred 0x1 = Indicates the fourth event occurred at ECAPn pin" "0,1"
bitfld.word 0x00 3. "         CEVT3     ,Capture Event 3 Status Flag. This flag is active only in CAP mode. 0x0 = Indicates no event occurred. 0x1 = Indicates the third event occurred at ECAPn pin." "0,1"
bitfld.word 0x00 2. "   CEVT2      ,Capture Event 2 Status Flag. This flag is only active in CAP mode. 0x0 = Indicates no event occurred. 0x1 = Indicates the second event occurred at ECAPn pin." "0,1"
textline "                            "
bitfld.word 0x00 1. " CEVT1      ,Capture Event 1 Status Flag. This flag is only active in CAP mode. 0x0 = Indicates no event occurred. 0x1 = Indicates the first event occurred at ECAPn pin." "0,1"
bitfld.word 0x00 0. "         INT       ,Global Interrupt Status Flag 0x0 = Indicates no interrupt generated. 0x1 = Indicates that an interrupt was generated." "0,1"
group.word 0x30++0x1
line.word 0x00 "PWMSS_ECAP_ECCLR,ECAP Interrupt Clear Register"
bitfld.word 0x00 7. "     CMPEQ      ,Counter Equal Compare Status Flag 0x0 = Writing a 0 has no effect. Always reads back a 0 0x1 = Writing a 1 clears the TSCNT=CMP flag condition" "0,1"
bitfld.word 0x00 6. "         PRDEQ     ,Counter Equal Period Status Flag 0x0 = Writing a 0 has no effect. Always reads back a 0 0x1 = Writing a 1 clears the TSCNT=PRD flag condition" "0,1"
bitfld.word 0x00 5. "   CNTOVF     ,Counter Overflow Status Flag 0x0 = Writing a 0 has no effect. Always reads back a 0 0x1 = Writing a 1 clears the CNTOVF flag condition" "0,1"
textline "                            "
bitfld.word 0x00 4. " CEVT4      ,Capture Event 4 Status Flag 0x0 = Writing a 0 has no effect. Always reads back a 0. 0x1 = Writing a 1 clears the CEVT3 flag condition." "0,1"
bitfld.word 0x00 3. "         CEVT3     ,Capture Event 3 Status Flag 0x0 = Writing a 0 has no effect. Always reads back a 0. 0x1 = Writing a 1 clears the CEVT3 flag condition." "0,1"
bitfld.word 0x00 2. "   CEVT2      ,Capture Event 2 Status Flag 0x0 = Writing a 0 has no effect. Always reads back a 0. 0x1 = Writing a 1 clears the CEVT2 flag condition." "0,1"
textline "                            "
bitfld.word 0x00 1. " CEVT1      ,Capture Event 1 Status Flag 0x0 = Writing a 0 has no effect. Always reads back a 0. 0x1 = Writing a 1 clears the CEVT1 flag condition." "0,1"
bitfld.word 0x00 0. "         INT       ,Global Interrupt Clear Flag 0x0 = Writing a 0 has no effect. Always reads back a 0. 0x1 = Writing a 1 clears the INT flag and enable further interrupts to be generated if any of the event flags are set to 1." "0,1"
group.word 0x32++0x1
line.word 0x00 "PWMSS_ECAP_ECFRC,ECAP Interrupt Forcing Register"
bitfld.word 0x00 7. "     CMPEQ      ,Force Counter Equal Compare Interrupt 0x0 = No effect. Always reads back a 0. 0x1 = Writing a 1 sets the TSCNT=CMP flag bit." "0,1"
bitfld.word 0x00 6. "         PRDEQ     ,Force Counter Equal Period Interrupt 0x0 = No effect. Always reads back a 0. 0x1 = Writing a 1 sets the TSCNT=PRD flag bit." "0,1"
bitfld.word 0x00 5. "   CNTOVF     ,Force Counter Overflow 0x0 = No effect. Always reads back a 0. 0x1 = Writing a 1 to this bit sets the CNTOVF flag bit." "0,1"
textline "                            "
bitfld.word 0x00 4. " CEVT4      ,Force Capture Event 4 0x0 = No effect. Always reads back a 0. 0x1 = Writing a 1 sets the CEVT4 flag bit" "0,1"
bitfld.word 0x00 3. "         CEVT3     ,Force Capture Event 3 0x0 = No effect. Always reads back a 0. 0x1 = Writing a 1 sets the CEVT3 flag bit" "0,1"
bitfld.word 0x00 2. "   CEVT2      ,Force Capture Event 2 0x0 = No effect. Always reads back a 0. 0x1 = Writing a 1 sets the CEVT2 flag bit." "0,1"
textline "                            "
bitfld.word 0x00 1. " CEVT1      ,Always reads back a 0. Force Capture Event 1 0x0 = No effect. 0x1 = Writing a 1 sets the CEVT1 flag bit." "0,1"
rgroup.long 0x5C++0x3
line.long 0x00 "PWMSS_ECAP_PID,ECAP Revision ID"
hexmask.long 0x00 0.--31. 1. " REVISION   ,IP Revision"
width 0x0B
tree.end
tree "PWMSS2_ECAP"
base ad:0x48440100
width 19.
group.long 0x0++0x3
line.long 0x00 "PWMSS_ECAP_TSCNT,Time Stamp Counter Register"
hexmask.long 0x00 0.--31. 1. " TSCNT      ,Active 32 bit-counter register that is used as the capture time-base"
group.long 0x4++0x3
line.long 0x00 "PWMSS_ECAP_CNTPHS,Counter Phase Control Register"
hexmask.long 0x00 0.--31. 1. " CNTPHS     ,Counter phase value register that can be programmed for phase lag/lead. This register shadows TSCNT and is loaded intoPWMSS_ECAP_TSCNT upon either a SYNCI event or S/W force via a control bit. Used to achieve phase control synchronization ..."
group.long 0x8++0x3
line.long 0x00 "PWMSS_ECAP_CAP1,Capture-1 Register"
hexmask.long 0x00 0.--31. 1. " CAP1       ,This register can be loaded (written) by the following. (a) Time-Stamp (that is, counter value) during a capture event. (b) Software may be useful for test purposes. (c) APRD active register when used in APWM mode."
group.long 0xC++0x3
line.long 0x00 "PWMSS_ECAP_CAP2,Capture-2 Register"
hexmask.long 0x00 0.--31. 1. " CAP2       ,This register can be loaded (written) by the following. (a) Time- Stamp (that is, counter value) during a capture event. (b) Software may be useful for test purposes. (c) APRD active register when used in APWM mode."
group.long 0x10++0x3
line.long 0x00 "PWMSS_ECAP_CAP3,Capture-3 Register"
hexmask.long 0x00 0.--31. 1. " CAP3       ,In CMP mode, this is a time-stamp capture register. In APWM mode, this is the period shadow (APRD) register. User SW updates the PWM period value through this register. In this mode, CAP3 shadows CAP1."
group.long 0x14++0x3
line.long 0x00 "PWMSS_ECAP_CAP4,Capture-4 Register"
hexmask.long 0x00 0.--31. 1. " CAP4       ,In CMP mode, this is a time-stamp capture register. In APWM mode, this is the compare shadow (ACMP) register. User SW updates the PWM compare value through this register. In this mode, CAP4 shadows CAP2."
group.word 0x28++0x1
line.word 0x00 "PWMSS_ECAP_ECCTL1,ECAP Control Register1"
bitfld.word 0x00 14.--15. "     FREE_SOFT  ,Emulation Control 0x0 = TSCNT counter stops immediately on emulation suspend. 0x1 = TSCNT counter runs until = 0. 0x2 = TSCNT counter is unaffected by emulation suspend (Run Free). 0x3 = TSCNT counter is unaffected by emulation suspend..." "0,1,2,3"
bitfld.word 0x00 9.--13. "         EVTFLTPS  ,Event Filter prescale select: 0x0 = Divide by 1 (i.e,. no prescale, by-pass the prescaler) 0x1 = Divide by 2 0x2 = Divide by 4 0x3 = Divide by 6 0x4 = Divide by 8 0x5 = Divide by 10... 0x1E = Divide by 60 0x1F = Divide by 62" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.word 0x00 8. "  CAPLDEN    ,Enable Loading ofPWMSS_ECAP_CAP1 to PWMSS_ECAP_CAP4 registers on a capture event 0x0 = Disable PWMSS_ECAP_CAP1-PWMSS_ECAP_CAP4 register loads at capture event time. 0x1 = Enable PWMSS_ECAP_CAP1-PWMSS_ECAP_CAP4 register loads at capture ev..." "0,1"
textline "                            "
bitfld.word 0x00 7. " CTRRST4    ,Counter Reset on Capture Event 4 0x0 = Do not reset counter on Capture Event 4 (absolute time stamp operation) 0x1 = Reset counter after Capture Event 4 time-stamp has been captured (used in difference mode operation)" "0,1"
bitfld.word 0x00 6. "         CAP4POL   ,Capture Event 4 Polarity select 0x0 = Capture Event 4 triggered on a rising edge (RE) 0x1 = Capture Event 4 triggered on a falling edge (FE)" "0,1"
bitfld.word 0x00 5. "   CTRRST3    ,Counter Reset on Capture Event 3 0x0 = Do not reset counter on Capture Event 3 (absolute time stamp) 0x1 = Reset counter after Event 3 time-stamp has been captured (used in difference mode operation)" "0,1"
textline "                            "
bitfld.word 0x00 4. " CAP3POL    ,Capture Event 3 Polarity select 0x0 = Capture Event 3 triggered on a rising edge (RE) 0x1 = Capture Event 3 triggered on a falling edge (FE)" "0,1"
bitfld.word 0x00 3. "         CTRRST2   ,Counter Reset on Capture Event 2 0x0 = Do not reset counter on Capture Event 2 (absolute time stamp) 0x1 = Reset counter after Event 2 time-stamp has been captured (used in difference mode operation)" "0,1"
bitfld.word 0x00 2. "   CAP2POL    ,Capture Event 2 Polarity select 0x0 = Capture Event 2 triggered on a rising edge (RE) 0x1 = Capture Event 2 triggered on a falling edge (FE)" "0,1"
textline "                            "
bitfld.word 0x00 1. " CTRRST1    ,Counter Reset on Capture Event 1 0x0 = Do not reset counter on Capture Event 1 (absolute time stamp) 0x1 = Reset counter after Event 1 time-stamp has been captured (used in difference mode operation)" "0,1"
bitfld.word 0x00 0. "         CAP1POL   ,Capture Event 1 Polarity select 0x0 = Capture Event 1 triggered on a rising edge (RE) 0x1 = Capture Event 1 triggered on a falling edge (FE)" "0,1"
group.word 0x2A++0x1
line.word 0x00 "PWMSS_ECAP_ECCTL2,ECAP Control Register 2"
bitfld.word 0x00 10. "     APWMPOL    ,APWM output polarity select. This is applicable only in APWM operating mode 0x0 = Output is active high (Compare value defines high time) 0x1 = Output is active low (Compare value defines low time)" "0,1"
bitfld.word 0x00 9. "         CAPAPWM   ,CAP/APWM operating mode select" "0,1"
bitfld.word 0x00 8. "   SWSYNC     ,Software-forced Counter (TSCNT) Synchronizing. This provides a convenient software method to synchronize some or all ECAP time bases. In APWM mode, the synchronizing can also be done via the TSCNT = PRD event. Note: Selection TSCNT = PRD..." "0,1"
textline "                            "
bitfld.word 0x00 6.--7. " SYNCO_SEL  ,Sync-Out Select 0x0 = Select sync-in event to be the sync-out signal (pass through) 0x1 = Select TSCNT = PRD event to be the sync-out signal 0x2 = Disable sync out signal 0x3 = Disable sync out signal" "0,1,2,3"
bitfld.word 0x00 5. "         SYNCI_EN  ,Counter (TSCNT) Sync-In select mode 0x0 = Disable sync-in option 0x1 = Enable counter (TSCNT) to be loaded from" "0,1"
bitfld.word 0x00 4. "   TSCNTSTP   ,Time Stamp (TSCNT) Counter Stop (freeze) Control 0x0 = TSCNT stopped 0x1 = TSCNT free-running" "0,1"
textline "                            "
bitfld.word 0x00 3. " REARMRESET ,One-Shot Re-Arming Control, that is, wait for stop trigger. Note: The re-arm function is valid in one shot or continuous mode. 0x0 = Has no effect (reading always returns a 0) 0x1 = Arms the one-shot sequence as follows: 1) Resets the Mod4..." "0,1"
bitfld.word 0x00 1.--2. "         STOPVALUE ,Stop value for one-shot mode. This is the number (between 1 and 4) of captures allowed to occur before the CAP (1 through 4) registers are frozen, that is, capture sequence is stopped. Wrap value for continuous mode. This is the num..." "0,1,2,3"
bitfld.word 0x00 0. "   CONTONESHT ,Continuous or one-shot mode control (applicable only in capture mode) 0x0 = Operate in continuous mode 0x1 = Operate in one-shot mode" "0,1"
group.word 0x2C++0x1
line.word 0x00 "PWMSS_ECAP_ECEINT,ECAP Interrupt Enable Register"
bitfld.word 0x00 7. "     CMPEQ      ,Counter Equal 0x0 = Disable Compare Equal as an Interrupt source. 0x1 = Enable Compare Equal as an Interrupt source." "0,1"
bitfld.word 0x00 6. "         PRDEQ     ,Counter Equal 0x0 = Disable Period Equal as an Interrupt source. 0x1 = Enable Period Equal as an Interrupt source." "0,1"
bitfld.word 0x00 5. "   CNTOVF     ,Counter Overflow Interrupt Enable. 0x0 = Disable counter Overflow as an Interrupt source. 0x1 = Enable counter Overflow as an Interrupt source." "0,1"
textline "                            "
bitfld.word 0x00 4. " CEVT4      ,Capture Event 4 Interrupt Enable. 0x0 = Disable Capture Event 4 as an Interrupt source. 0x1 = Enable Capture Event 4 as an Interrupt source." "0,1"
bitfld.word 0x00 3. "         CEVT3     ,Capture Event 3 Interrupt Enable. 0x0 = Disable Capture Event 3 as an Interrupt source. 0x1 = Enable Capture Event 3 as an Interrupt source." "0,1"
bitfld.word 0x00 2. "   CEVT2      ,Capture Event 2 Interrupt Enable. 0x0 = Disable Capture Event 2 as an Interrupt source. 0x1 = Enable Capture Event 2 as an Interrupt source." "0,1"
textline "                            "
bitfld.word 0x00 1. " CEVT1      ,Capture Event 1 Interrupt Enable . 0x0 = Disable Capture Event 1 as an Interrupt source. 0x1 = Enable Capture Event 1 as an Interrupt source." "0,1"
rgroup.word 0x2E++0x1
line.word 0x00 "PWMSS_ECAP_ECFLG,ECAP Interrupt Flag Register"
bitfld.word 0x00 7. "     CMPEQ      ,Compare Equal Compare Status Flag. This flag is only active in APWM mode. 0x0 = Indicates no event occurred 0x1 = Indicates the counter (TSCNT) reached the compare register value (ACMP)" "0,1"
bitfld.word 0x00 6. "         PRDEQ     ,Counter Equal Period Status Flag. This flag is only active in APWM mode. 0x0 = Indicates no event occurred 0x1 = Indicates the counter (TSCNT) reached the period register value (APRD) and was reset." "0,1"
bitfld.word 0x00 5. "   CNTOVF     ,Counter Overflow Status Flag. This flag is active in CAP and APWM mode. 0x0 = Indicates no event occurred. 0x1 = Indicates the counter (TSCNT) has made the transition from 0xFFFFFFFF to 0x00000000" "0,1"
textline "                            "
bitfld.word 0x00 4. " CEVT4      ,Capture Event 4 Status Flag This flag is only active in CAP mode. 0x0 = Indicates no event occurred 0x1 = Indicates the fourth event occurred at ECAPn pin" "0,1"
bitfld.word 0x00 3. "         CEVT3     ,Capture Event 3 Status Flag. This flag is active only in CAP mode. 0x0 = Indicates no event occurred. 0x1 = Indicates the third event occurred at ECAPn pin." "0,1"
bitfld.word 0x00 2. "   CEVT2      ,Capture Event 2 Status Flag. This flag is only active in CAP mode. 0x0 = Indicates no event occurred. 0x1 = Indicates the second event occurred at ECAPn pin." "0,1"
textline "                            "
bitfld.word 0x00 1. " CEVT1      ,Capture Event 1 Status Flag. This flag is only active in CAP mode. 0x0 = Indicates no event occurred. 0x1 = Indicates the first event occurred at ECAPn pin." "0,1"
bitfld.word 0x00 0. "         INT       ,Global Interrupt Status Flag 0x0 = Indicates no interrupt generated. 0x1 = Indicates that an interrupt was generated." "0,1"
group.word 0x30++0x1
line.word 0x00 "PWMSS_ECAP_ECCLR,ECAP Interrupt Clear Register"
bitfld.word 0x00 7. "     CMPEQ      ,Counter Equal Compare Status Flag 0x0 = Writing a 0 has no effect. Always reads back a 0 0x1 = Writing a 1 clears the TSCNT=CMP flag condition" "0,1"
bitfld.word 0x00 6. "         PRDEQ     ,Counter Equal Period Status Flag 0x0 = Writing a 0 has no effect. Always reads back a 0 0x1 = Writing a 1 clears the TSCNT=PRD flag condition" "0,1"
bitfld.word 0x00 5. "   CNTOVF     ,Counter Overflow Status Flag 0x0 = Writing a 0 has no effect. Always reads back a 0 0x1 = Writing a 1 clears the CNTOVF flag condition" "0,1"
textline "                            "
bitfld.word 0x00 4. " CEVT4      ,Capture Event 4 Status Flag 0x0 = Writing a 0 has no effect. Always reads back a 0. 0x1 = Writing a 1 clears the CEVT3 flag condition." "0,1"
bitfld.word 0x00 3. "         CEVT3     ,Capture Event 3 Status Flag 0x0 = Writing a 0 has no effect. Always reads back a 0. 0x1 = Writing a 1 clears the CEVT3 flag condition." "0,1"
bitfld.word 0x00 2. "   CEVT2      ,Capture Event 2 Status Flag 0x0 = Writing a 0 has no effect. Always reads back a 0. 0x1 = Writing a 1 clears the CEVT2 flag condition." "0,1"
textline "                            "
bitfld.word 0x00 1. " CEVT1      ,Capture Event 1 Status Flag 0x0 = Writing a 0 has no effect. Always reads back a 0. 0x1 = Writing a 1 clears the CEVT1 flag condition." "0,1"
bitfld.word 0x00 0. "         INT       ,Global Interrupt Clear Flag 0x0 = Writing a 0 has no effect. Always reads back a 0. 0x1 = Writing a 1 clears the INT flag and enable further interrupts to be generated if any of the event flags are set to 1." "0,1"
group.word 0x32++0x1
line.word 0x00 "PWMSS_ECAP_ECFRC,ECAP Interrupt Forcing Register"
bitfld.word 0x00 7. "     CMPEQ      ,Force Counter Equal Compare Interrupt 0x0 = No effect. Always reads back a 0. 0x1 = Writing a 1 sets the TSCNT=CMP flag bit." "0,1"
bitfld.word 0x00 6. "         PRDEQ     ,Force Counter Equal Period Interrupt 0x0 = No effect. Always reads back a 0. 0x1 = Writing a 1 sets the TSCNT=PRD flag bit." "0,1"
bitfld.word 0x00 5. "   CNTOVF     ,Force Counter Overflow 0x0 = No effect. Always reads back a 0. 0x1 = Writing a 1 to this bit sets the CNTOVF flag bit." "0,1"
textline "                            "
bitfld.word 0x00 4. " CEVT4      ,Force Capture Event 4 0x0 = No effect. Always reads back a 0. 0x1 = Writing a 1 sets the CEVT4 flag bit" "0,1"
bitfld.word 0x00 3. "         CEVT3     ,Force Capture Event 3 0x0 = No effect. Always reads back a 0. 0x1 = Writing a 1 sets the CEVT3 flag bit" "0,1"
bitfld.word 0x00 2. "   CEVT2      ,Force Capture Event 2 0x0 = No effect. Always reads back a 0. 0x1 = Writing a 1 sets the CEVT2 flag bit." "0,1"
textline "                            "
bitfld.word 0x00 1. " CEVT1      ,Always reads back a 0. Force Capture Event 1 0x0 = No effect. 0x1 = Writing a 1 sets the CEVT1 flag bit." "0,1"
rgroup.long 0x5C++0x3
line.long 0x00 "PWMSS_ECAP_PID,ECAP Revision ID"
hexmask.long 0x00 0.--31. 1. " REVISION   ,IP Revision"
width 0x0B
tree.end
tree "PWMSS3_ECAP"
base ad:0x48442100
width 19.
group.long 0x0++0x3
line.long 0x00 "PWMSS_ECAP_TSCNT,Time Stamp Counter Register"
hexmask.long 0x00 0.--31. 1. " TSCNT      ,Active 32 bit-counter register that is used as the capture time-base"
group.long 0x4++0x3
line.long 0x00 "PWMSS_ECAP_CNTPHS,Counter Phase Control Register"
hexmask.long 0x00 0.--31. 1. " CNTPHS     ,Counter phase value register that can be programmed for phase lag/lead. This register shadows TSCNT and is loaded intoPWMSS_ECAP_TSCNT upon either a SYNCI event or S/W force via a control bit. Used to achieve phase control synchronization ..."
group.long 0x8++0x3
line.long 0x00 "PWMSS_ECAP_CAP1,Capture-1 Register"
hexmask.long 0x00 0.--31. 1. " CAP1       ,This register can be loaded (written) by the following. (a) Time-Stamp (that is, counter value) during a capture event. (b) Software may be useful for test purposes. (c) APRD active register when used in APWM mode."
group.long 0xC++0x3
line.long 0x00 "PWMSS_ECAP_CAP2,Capture-2 Register"
hexmask.long 0x00 0.--31. 1. " CAP2       ,This register can be loaded (written) by the following. (a) Time- Stamp (that is, counter value) during a capture event. (b) Software may be useful for test purposes. (c) APRD active register when used in APWM mode."
group.long 0x10++0x3
line.long 0x00 "PWMSS_ECAP_CAP3,Capture-3 Register"
hexmask.long 0x00 0.--31. 1. " CAP3       ,In CMP mode, this is a time-stamp capture register. In APWM mode, this is the period shadow (APRD) register. User SW updates the PWM period value through this register. In this mode, CAP3 shadows CAP1."
group.long 0x14++0x3
line.long 0x00 "PWMSS_ECAP_CAP4,Capture-4 Register"
hexmask.long 0x00 0.--31. 1. " CAP4       ,In CMP mode, this is a time-stamp capture register. In APWM mode, this is the compare shadow (ACMP) register. User SW updates the PWM compare value through this register. In this mode, CAP4 shadows CAP2."
group.word 0x28++0x1
line.word 0x00 "PWMSS_ECAP_ECCTL1,ECAP Control Register1"
bitfld.word 0x00 14.--15. "     FREE_SOFT  ,Emulation Control 0x0 = TSCNT counter stops immediately on emulation suspend. 0x1 = TSCNT counter runs until = 0. 0x2 = TSCNT counter is unaffected by emulation suspend (Run Free). 0x3 = TSCNT counter is unaffected by emulation suspend..." "0,1,2,3"
bitfld.word 0x00 9.--13. "         EVTFLTPS  ,Event Filter prescale select: 0x0 = Divide by 1 (i.e,. no prescale, by-pass the prescaler) 0x1 = Divide by 2 0x2 = Divide by 4 0x3 = Divide by 6 0x4 = Divide by 8 0x5 = Divide by 10... 0x1E = Divide by 60 0x1F = Divide by 62" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.word 0x00 8. "  CAPLDEN    ,Enable Loading ofPWMSS_ECAP_CAP1 to PWMSS_ECAP_CAP4 registers on a capture event 0x0 = Disable PWMSS_ECAP_CAP1-PWMSS_ECAP_CAP4 register loads at capture event time. 0x1 = Enable PWMSS_ECAP_CAP1-PWMSS_ECAP_CAP4 register loads at capture ev..." "0,1"
textline "                            "
bitfld.word 0x00 7. " CTRRST4    ,Counter Reset on Capture Event 4 0x0 = Do not reset counter on Capture Event 4 (absolute time stamp operation) 0x1 = Reset counter after Capture Event 4 time-stamp has been captured (used in difference mode operation)" "0,1"
bitfld.word 0x00 6. "         CAP4POL   ,Capture Event 4 Polarity select 0x0 = Capture Event 4 triggered on a rising edge (RE) 0x1 = Capture Event 4 triggered on a falling edge (FE)" "0,1"
bitfld.word 0x00 5. "   CTRRST3    ,Counter Reset on Capture Event 3 0x0 = Do not reset counter on Capture Event 3 (absolute time stamp) 0x1 = Reset counter after Event 3 time-stamp has been captured (used in difference mode operation)" "0,1"
textline "                            "
bitfld.word 0x00 4. " CAP3POL    ,Capture Event 3 Polarity select 0x0 = Capture Event 3 triggered on a rising edge (RE) 0x1 = Capture Event 3 triggered on a falling edge (FE)" "0,1"
bitfld.word 0x00 3. "         CTRRST2   ,Counter Reset on Capture Event 2 0x0 = Do not reset counter on Capture Event 2 (absolute time stamp) 0x1 = Reset counter after Event 2 time-stamp has been captured (used in difference mode operation)" "0,1"
bitfld.word 0x00 2. "   CAP2POL    ,Capture Event 2 Polarity select 0x0 = Capture Event 2 triggered on a rising edge (RE) 0x1 = Capture Event 2 triggered on a falling edge (FE)" "0,1"
textline "                            "
bitfld.word 0x00 1. " CTRRST1    ,Counter Reset on Capture Event 1 0x0 = Do not reset counter on Capture Event 1 (absolute time stamp) 0x1 = Reset counter after Event 1 time-stamp has been captured (used in difference mode operation)" "0,1"
bitfld.word 0x00 0. "         CAP1POL   ,Capture Event 1 Polarity select 0x0 = Capture Event 1 triggered on a rising edge (RE) 0x1 = Capture Event 1 triggered on a falling edge (FE)" "0,1"
group.word 0x2A++0x1
line.word 0x00 "PWMSS_ECAP_ECCTL2,ECAP Control Register 2"
bitfld.word 0x00 10. "     APWMPOL    ,APWM output polarity select. This is applicable only in APWM operating mode 0x0 = Output is active high (Compare value defines high time) 0x1 = Output is active low (Compare value defines low time)" "0,1"
bitfld.word 0x00 9. "         CAPAPWM   ,CAP/APWM operating mode select" "0,1"
bitfld.word 0x00 8. "   SWSYNC     ,Software-forced Counter (TSCNT) Synchronizing. This provides a convenient software method to synchronize some or all ECAP time bases. In APWM mode, the synchronizing can also be done via the TSCNT = PRD event. Note: Selection TSCNT = PRD..." "0,1"
textline "                            "
bitfld.word 0x00 6.--7. " SYNCO_SEL  ,Sync-Out Select 0x0 = Select sync-in event to be the sync-out signal (pass through) 0x1 = Select TSCNT = PRD event to be the sync-out signal 0x2 = Disable sync out signal 0x3 = Disable sync out signal" "0,1,2,3"
bitfld.word 0x00 5. "         SYNCI_EN  ,Counter (TSCNT) Sync-In select mode 0x0 = Disable sync-in option 0x1 = Enable counter (TSCNT) to be loaded from" "0,1"
bitfld.word 0x00 4. "   TSCNTSTP   ,Time Stamp (TSCNT) Counter Stop (freeze) Control 0x0 = TSCNT stopped 0x1 = TSCNT free-running" "0,1"
textline "                            "
bitfld.word 0x00 3. " REARMRESET ,One-Shot Re-Arming Control, that is, wait for stop trigger. Note: The re-arm function is valid in one shot or continuous mode. 0x0 = Has no effect (reading always returns a 0) 0x1 = Arms the one-shot sequence as follows: 1) Resets the Mod4..." "0,1"
bitfld.word 0x00 1.--2. "         STOPVALUE ,Stop value for one-shot mode. This is the number (between 1 and 4) of captures allowed to occur before the CAP (1 through 4) registers are frozen, that is, capture sequence is stopped. Wrap value for continuous mode. This is the num..." "0,1,2,3"
bitfld.word 0x00 0. "   CONTONESHT ,Continuous or one-shot mode control (applicable only in capture mode) 0x0 = Operate in continuous mode 0x1 = Operate in one-shot mode" "0,1"
group.word 0x2C++0x1
line.word 0x00 "PWMSS_ECAP_ECEINT,ECAP Interrupt Enable Register"
bitfld.word 0x00 7. "     CMPEQ      ,Counter Equal 0x0 = Disable Compare Equal as an Interrupt source. 0x1 = Enable Compare Equal as an Interrupt source." "0,1"
bitfld.word 0x00 6. "         PRDEQ     ,Counter Equal 0x0 = Disable Period Equal as an Interrupt source. 0x1 = Enable Period Equal as an Interrupt source." "0,1"
bitfld.word 0x00 5. "   CNTOVF     ,Counter Overflow Interrupt Enable. 0x0 = Disable counter Overflow as an Interrupt source. 0x1 = Enable counter Overflow as an Interrupt source." "0,1"
textline "                            "
bitfld.word 0x00 4. " CEVT4      ,Capture Event 4 Interrupt Enable. 0x0 = Disable Capture Event 4 as an Interrupt source. 0x1 = Enable Capture Event 4 as an Interrupt source." "0,1"
bitfld.word 0x00 3. "         CEVT3     ,Capture Event 3 Interrupt Enable. 0x0 = Disable Capture Event 3 as an Interrupt source. 0x1 = Enable Capture Event 3 as an Interrupt source." "0,1"
bitfld.word 0x00 2. "   CEVT2      ,Capture Event 2 Interrupt Enable. 0x0 = Disable Capture Event 2 as an Interrupt source. 0x1 = Enable Capture Event 2 as an Interrupt source." "0,1"
textline "                            "
bitfld.word 0x00 1. " CEVT1      ,Capture Event 1 Interrupt Enable . 0x0 = Disable Capture Event 1 as an Interrupt source. 0x1 = Enable Capture Event 1 as an Interrupt source." "0,1"
rgroup.word 0x2E++0x1
line.word 0x00 "PWMSS_ECAP_ECFLG,ECAP Interrupt Flag Register"
bitfld.word 0x00 7. "     CMPEQ      ,Compare Equal Compare Status Flag. This flag is only active in APWM mode. 0x0 = Indicates no event occurred 0x1 = Indicates the counter (TSCNT) reached the compare register value (ACMP)" "0,1"
bitfld.word 0x00 6. "         PRDEQ     ,Counter Equal Period Status Flag. This flag is only active in APWM mode. 0x0 = Indicates no event occurred 0x1 = Indicates the counter (TSCNT) reached the period register value (APRD) and was reset." "0,1"
bitfld.word 0x00 5. "   CNTOVF     ,Counter Overflow Status Flag. This flag is active in CAP and APWM mode. 0x0 = Indicates no event occurred. 0x1 = Indicates the counter (TSCNT) has made the transition from 0xFFFFFFFF to 0x00000000" "0,1"
textline "                            "
bitfld.word 0x00 4. " CEVT4      ,Capture Event 4 Status Flag This flag is only active in CAP mode. 0x0 = Indicates no event occurred 0x1 = Indicates the fourth event occurred at ECAPn pin" "0,1"
bitfld.word 0x00 3. "         CEVT3     ,Capture Event 3 Status Flag. This flag is active only in CAP mode. 0x0 = Indicates no event occurred. 0x1 = Indicates the third event occurred at ECAPn pin." "0,1"
bitfld.word 0x00 2. "   CEVT2      ,Capture Event 2 Status Flag. This flag is only active in CAP mode. 0x0 = Indicates no event occurred. 0x1 = Indicates the second event occurred at ECAPn pin." "0,1"
textline "                            "
bitfld.word 0x00 1. " CEVT1      ,Capture Event 1 Status Flag. This flag is only active in CAP mode. 0x0 = Indicates no event occurred. 0x1 = Indicates the first event occurred at ECAPn pin." "0,1"
bitfld.word 0x00 0. "         INT       ,Global Interrupt Status Flag 0x0 = Indicates no interrupt generated. 0x1 = Indicates that an interrupt was generated." "0,1"
group.word 0x30++0x1
line.word 0x00 "PWMSS_ECAP_ECCLR,ECAP Interrupt Clear Register"
bitfld.word 0x00 7. "     CMPEQ      ,Counter Equal Compare Status Flag 0x0 = Writing a 0 has no effect. Always reads back a 0 0x1 = Writing a 1 clears the TSCNT=CMP flag condition" "0,1"
bitfld.word 0x00 6. "         PRDEQ     ,Counter Equal Period Status Flag 0x0 = Writing a 0 has no effect. Always reads back a 0 0x1 = Writing a 1 clears the TSCNT=PRD flag condition" "0,1"
bitfld.word 0x00 5. "   CNTOVF     ,Counter Overflow Status Flag 0x0 = Writing a 0 has no effect. Always reads back a 0 0x1 = Writing a 1 clears the CNTOVF flag condition" "0,1"
textline "                            "
bitfld.word 0x00 4. " CEVT4      ,Capture Event 4 Status Flag 0x0 = Writing a 0 has no effect. Always reads back a 0. 0x1 = Writing a 1 clears the CEVT3 flag condition." "0,1"
bitfld.word 0x00 3. "         CEVT3     ,Capture Event 3 Status Flag 0x0 = Writing a 0 has no effect. Always reads back a 0. 0x1 = Writing a 1 clears the CEVT3 flag condition." "0,1"
bitfld.word 0x00 2. "   CEVT2      ,Capture Event 2 Status Flag 0x0 = Writing a 0 has no effect. Always reads back a 0. 0x1 = Writing a 1 clears the CEVT2 flag condition." "0,1"
textline "                            "
bitfld.word 0x00 1. " CEVT1      ,Capture Event 1 Status Flag 0x0 = Writing a 0 has no effect. Always reads back a 0. 0x1 = Writing a 1 clears the CEVT1 flag condition." "0,1"
bitfld.word 0x00 0. "         INT       ,Global Interrupt Clear Flag 0x0 = Writing a 0 has no effect. Always reads back a 0. 0x1 = Writing a 1 clears the INT flag and enable further interrupts to be generated if any of the event flags are set to 1." "0,1"
group.word 0x32++0x1
line.word 0x00 "PWMSS_ECAP_ECFRC,ECAP Interrupt Forcing Register"
bitfld.word 0x00 7. "     CMPEQ      ,Force Counter Equal Compare Interrupt 0x0 = No effect. Always reads back a 0. 0x1 = Writing a 1 sets the TSCNT=CMP flag bit." "0,1"
bitfld.word 0x00 6. "         PRDEQ     ,Force Counter Equal Period Interrupt 0x0 = No effect. Always reads back a 0. 0x1 = Writing a 1 sets the TSCNT=PRD flag bit." "0,1"
bitfld.word 0x00 5. "   CNTOVF     ,Force Counter Overflow 0x0 = No effect. Always reads back a 0. 0x1 = Writing a 1 to this bit sets the CNTOVF flag bit." "0,1"
textline "                            "
bitfld.word 0x00 4. " CEVT4      ,Force Capture Event 4 0x0 = No effect. Always reads back a 0. 0x1 = Writing a 1 sets the CEVT4 flag bit" "0,1"
bitfld.word 0x00 3. "         CEVT3     ,Force Capture Event 3 0x0 = No effect. Always reads back a 0. 0x1 = Writing a 1 sets the CEVT3 flag bit" "0,1"
bitfld.word 0x00 2. "   CEVT2      ,Force Capture Event 2 0x0 = No effect. Always reads back a 0. 0x1 = Writing a 1 sets the CEVT2 flag bit." "0,1"
textline "                            "
bitfld.word 0x00 1. " CEVT1      ,Always reads back a 0. Force Capture Event 1 0x0 = No effect. 0x1 = Writing a 1 sets the CEVT1 flag bit." "0,1"
rgroup.long 0x5C++0x3
line.long 0x00 "PWMSS_ECAP_PID,ECAP Revision ID"
hexmask.long 0x00 0.--31. 1. " REVISION   ,IP Revision"
width 0x0B
tree.end
tree.end
tree.open "PWMSS1_EQEP"
tree "PWMSS1_EQEP"
base ad:0x4843E180
width 15.
group.long 0x0++0x3
line.long 0x00 "EQEP_QPOSCNT,"
hexmask.long 0x00 0.--31. 1. " QPOSCNT   ,This 32 bit position counter register counts up/down on every eQEP pulse based on direction input. This counter acts as a position integrator whose count value is proportional to position from a give reference point."
group.long 0x4++0x3
line.long 0x00 "EQEP_QPOSINIT,"
hexmask.long 0x00 0.--31. 1. " QPOSINIT  ,This register contains the position value that is used to initialize the position counter based on external strobe or index event. The position counter can be initialized through software."
group.long 0x8++0x3
line.long 0x00 "EQEP_QPOSMAX,"
hexmask.long 0x00 0.--31. 1. " QPOSMAX   ,This register contains the maximum position counter value."
group.long 0xC++0x3
line.long 0x00 "EQEP_QPOSCMP,"
hexmask.long 0x00 0.--31. 1. " QPOSCMP   ,The position-compare value in this register is compared with the position counter (QPOSCNT field in"
rgroup.long 0x10++0x3
line.long 0x00 "EQEP_QPOSILAT,"
hexmask.long 0x00 0.--31. 1. " QPOSILAT  ,The position-counter value is latched into this register on an index event as defined by the QEPCTL[IEL] bits."
rgroup.long 0x14++0x3
line.long 0x00 "EQEP_QPOSSLAT,"
hexmask.long 0x00 0.--31. 1. " QPOSSLAT  ,The position-counter value is latched into this register on strobe event as defined by the QEPCTL[SEL] bits."
rgroup.long 0x18++0x3
line.long 0x00 "EQEP_QPOSLAT,"
hexmask.long 0x00 0.--31. 1. " QPOSLAT   ,The position-counter value is latched into this register on unit time out event."
group.long 0x1C++0x3
line.long 0x00 "EQEP_QUTMR,"
hexmask.long 0x00 0.--31. 1. " QUTMR     ,This register acts as time base for unit time event generation. When this timer value matches with unit time period value, unit time event is generated."
group.long 0x20++0x3
line.long 0x00 "EQEP_QUPRD,"
hexmask.long 0x00 0.--31. 1. " QUPRD     ,This register contains the period count for unit timer to generate periodic unit time events to latch the eQEP position information at periodic interval and optionally to generate interrupt."
group.word 0x24++0x1
line.word 0x00 "EQEP_QWDTMR,"
hexmask.word 0x00 0.--15. 1. "     QWDTMR    ,This register acts as time base for watch dog to detect motor stalls. When this timer value matches with watch dog period value, watch dog timeout interrupt is generated. This register is reset upon edge transition in quadrature-clock i..."
group.word 0x26++0x1
line.word 0x00 "EQEP_QWDPRD,"
hexmask.word 0x00 0.--15. 1. "     QWDPRD    ,This register contains the time-out count for the eQEP peripheral watch dog timer. When the watchdog timer value matches the watchdog period value, a watchdog timeout interrupt is generated."
group.word 0x28++0x1
line.word 0x00 "EQEP_QDECCTL,"
bitfld.word 0x00 14.--15. "     QSRC      ,Position-counter source selection. 0x0 = Quadrature count mode (QCLK = iCLK, QDIR = iDIR) 0x1 = Direction-count mode (QCLK = xCLK, QDIR = xDIR) 0x2 = UP count mode for frequency measurement (QCLK = xCLK, QDIR = 1) 0x3 = DOWN count mode ..." "0,1,2,3"
bitfld.word 0x00 13. "         SOEN   ,Sync output-enable 0x0 = Disable position-compare sync output 0x1 = Enable position-compare sync output" "0,1"
bitfld.word 0x00 12. "     SPSEL ,Sync output pin selection 0x0 = Index pin is used for sync output 0x1 = Strobe pin is used for sync output" "0,1"
textline "                        "
bitfld.word 0x00 11. " XCR       ,External clock rate 0x0 = 2x resolution: Count the rising/falling edge 0x1 = 1x resolution: Count the rising edge only" "0,1"
bitfld.word 0x00 10. "         SWAP   ,Swap quadrature clock inputs. This swaps the input to the quadrature decoder, reversing the counting direction. 0x0 = Quadrature-clock inputs are not swapped 0x1 = Quadrature-clock inputs are swapped" "0,1"
bitfld.word 0x00 9. "     IGATE ,Index pulse gating option 0x0 = Disable gating of Index pulse 0x1 = Gate the index pin with strobe" "0,1"
textline "                        "
bitfld.word 0x00 8. " QAP       ,QEPA input polarity 0x0 = No effect 0x1 = Negates QEPA input" "0,1"
bitfld.word 0x00 7. "         QBP    ,QEPB input polarity 0x0 = No effect 0x1 = Negates QEPB input" "0,1"
bitfld.word 0x00 6. "     QIP   ,QEPI input polarity 0x0 = No effect 0x1 = Negates QEPI input" "0,1"
textline "                        "
bitfld.word 0x00 5. " QSP       ,QEPS input polarity 0x0 = No effect 0x1 = Negates QEPS input" "0,1"
group.word 0x2A++0x1
line.word 0x00 "EQEP_QEPCTL,"
bitfld.word 0x00 14.--15. "     FREE_SOFT ,Emulation Control Bits. In the values 0 through 3 listed below, x is different for the four following behaviors. 0x0 = x stops immediately. For QPOSCNT behavior, the stop is on emulation suspend. 0x1 = x continues to count until the rol..." "0,1,2,3"
bitfld.word 0x00 12.--13. "         PCRM   ,Position counter reset mode 0x0 = Position counter reset on an index event 0x1 = Position counter reset on the maximum position 0x2 = Position counter reset on the first index event 0x3 = Position counter reset on a unit time event" "0,1,2,3"
bitfld.word 0x00 10.--11. "     SEI   ,Strobe event initialization of position counter 0x0 = Does nothing (action disabled) 0x1 = Does nothing (action disabled) 0x2 = Initializes the position counter on rising edge of the QEPS signal 0x3 = Clockwise Direction: Initializes the po..." "0,1,2,3"
textline "                        "
bitfld.word 0x00 8.--9. " IEI       ,Index event initialization of position counter 0x0 = Do nothing (action disabled) 0x1 = Do nothing (action disabled) 0x2 = Initializes the position counter on the rising edge of the QEPI signal (QPOSCNT = QPOSINIT) 0x3 = Initializes the pos..." "0,1,2,3"
bitfld.word 0x00 7. "         SWI    ,Software initialization of position counter 0x0 = Do nothing (action disabled) 0x1 = Initialize position counter, this bit is cleared automatically" "0,1"
bitfld.word 0x00 6. "     SEL   ,Strobe event latch of position counter 0x0 = The position counter is latched on the rising edge of QEPS strobe (QPOSSLAT = POSCCNT). Latching on the falling edge can be done by inverting the strobe input using the QSP bit in the 0x1 = Clock..." "0,1"
textline "                        "
bitfld.word 0x00 4.--5. " IEL       ,Index event latch of position counter (software index marker) 0x0 = Reserved 0x1 = Latches position counter on rising edge of the index signal 0x2 = Latches position counter on falling edge of the index signal 0x3 = Software index marker. L..." "0,1,2,3"
bitfld.word 0x00 3. "         PHEN   ,Quadrature position counter enable/software reset 0x0 = Reset the eQEP peripheral internal operating flags/read-only registers. Control/configuration registers are not disturbed by a software reset. 0x1 = eQEP position counter is enabled" "0,1"
bitfld.word 0x00 2. "     QCLM  ,eQEP capture latch mode 0x0 = Latch on position counter read by CPU. Capture timer and capture period values are latched into 0x1 = Latch on unit time out. Position counter, capture timer and capture period values are latched into" "0,1"
textline "                        "
bitfld.word 0x00 1. " UTE       ,eQEP unit timer enable 0x0 = Disable eQEP unit timer 0x1 = Enable unit timer" "0,1"
bitfld.word 0x00 0. "         WDE    ,eQEP watchdog enable 0x0 = Disable the eQEP watchdog timer 0x1 = Enable the eQEP watchdog timer" "0,1"
group.word 0x2C++0x1
line.word 0x00 "EQEP_QCAPCTL,"
bitfld.word 0x00 15. "     CEN       ,Enable eQEP capture 0x0 = eQEP capture unit is disabled 0x1 = eQEP capture unit is enabled" "0,1"
bitfld.word 0x00 4.--6. "         CCPS   ,eQEP capture timer clock prescaler 0x0 = CAPCLK = SYSCLKOUT/1 0x1 = CAPCLK = SYSCLKOUT/2 0x2 = CAPCLK = SYSCLKOUT/4 0x3 = CAPCLK = SYSCLKOUT/8 0x4 = CAPCLK = SYSCLKOUT/16 0x5 = CAPCLK = SYSCLKOUT/32 0x6 = CAPCLK = SYSCLKOUT/64 0x7 = CA..." "0,1,2,3,4,5,6,7"
bitfld.word 0x00 0.--3. "     UPPS  ,Unit position event prescaler 0x0 = UPEVNT = QCLK/1 0x1 = UPEVNT = QCLK/2 0x2 = UPEVNT = QCLK/4 0x3 = UPEVNT = QCLK/8 0x4 = UPEVNT = QCLK/16 0x5 = UPEVNT = QCLK/32 0x6 = UPEVNT = QCLK/64 0x7 = UPEVNT = QCLK/128 0x8 = UPEVNT = QCLK/256 0x9 =..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.word 0x2E++0x1
line.word 0x00 "EQEP_QPOSCTL,"
bitfld.word 0x00 15. "     PCSHDW    ,Position-compare shadow enable 0x0 = Shadow disabled, load Immediate 0x1 = Shadow enabled" "0,1"
bitfld.word 0x00 14. "         PCLOAD ,Position-compare shadow load mode 0x0 = Load on QPOSCNT = 0 0x1 = Load when QPOSCNT = QPOSCMP" "0,1"
bitfld.word 0x00 13. "     PCPOL ,Polarity of sync output 0x0 = Active HIGH pulse output 0x1 = Active LOW pulse output" "0,1"
textline "                        "
bitfld.word 0x00 12. " PCE       ,Position-compare enable/disable 0x0 = Disable position compare unit 0x1 = Enable position compare unit" "0,1"
hexmask.word 0x00 0.--11. 1. "         PCSPW  ,Select-position-compare sync output pulse width ... 0x0 = 1 x 4 x SYSCLKOUT cycles 0x1 = 2 x 4 x SYSCLKOUT cycles 0x2 = 3 x 4 x SYSCLKOUT cycles to 4096 x 4 x SYSCLKOUT cycles 0xFFF = 3 x 4 x SYSCLKOUT cycles to 4096 x 4 x SYSCLKOUT cy..."
group.word 0x30++0x1
line.word 0x00 "EQEP_QEINT,"
bitfld.word 0x00 11. "     UTO       ,Unit time out interrupt enable 0x0 = Interrupt is disabled 0x1 = Interrupt is enabled" "0,1"
bitfld.word 0x00 10. "         IEL    ,Index event latch interrupt enable 0x0 = Interrupt is disabled 0x1 = Interrupt is enabled" "0,1"
bitfld.word 0x00 9. "     SEL   ,Strobe event latch interrupt enable 0x0 = Interrupt is disabled 0x1 = Interrupt is enabled" "0,1"
textline "                        "
bitfld.word 0x00 8. " PCM       ,Position-compare match interrupt enable 0x0 = Interrupt is disabled 0x1 = Interrupt is enabled" "0,1"
bitfld.word 0x00 7. "         PCR    ,Position-compare ready interrupt enable 0x0 = Interrupt is disabled 0x1 = Interrupt is enabled" "0,1"
bitfld.word 0x00 6. "     PCO   ,Position counter overflow interrupt enable 0x0 = Interrupt is disabled 0x1 = Interrupt is enabled" "0,1"
textline "                        "
bitfld.word 0x00 5. " PCU       ,Position counter underflow interrupt enable 0x0 = Interrupt is disabled 0x1 = Interrupt is enabled" "0,1"
bitfld.word 0x00 4. "         WTO    ,Watchdog time out interrupt enable 0x0 = Interrupt is disabled 0x1 = Interrupt is enabled" "0,1"
bitfld.word 0x00 3. "     QDC   ,Quadrature direction change interrupt enable 0x0 = Interrupt is disabled 0x1 = Interrupt is enabled" "0,1"
textline "                        "
bitfld.word 0x00 2. " PHE       ,Quadrature phase error interrupt enable 0x0 = Interrupt is disabled 0x1 = Interrupt is enabled" "0,1"
bitfld.word 0x00 1. "         PCE    ,Position counter error interrupt enable 0x0 = Interrupt is disabled 0x1 = Interrupt is enabled" "0,1"
rgroup.word 0x32++0x1
line.word 0x00 "EQEP_QFLG,"
bitfld.word 0x00 11. "     UTO       ,Unit time out interrupt flag 0x0 = No interrupt generated 0x1 = Set by eQEP unit timer period match" "0,1"
bitfld.word 0x00 10. "         IEL    ,Index event latch interrupt flag 0x0 = No interrupt generated 0x1 = This bit is set after latching the QPOSCNT to QPOSILAT" "0,1"
bitfld.word 0x00 9. "     SEL   ,Strobe event latch interrupt flag 0x0 = No interrupt generated 0x1 = This bit is set after latching the QPOSCNT to" "0,1"
textline "                        "
bitfld.word 0x00 8. " PCM       ,eQEP compare match event interrupt flag 0x0 = No interrupt generated 0x1 = This bit is set on position-compare match" "0,1"
bitfld.word 0x00 7. "         PCR    ,Position-compare ready interrupt flag 0x0 = No interrupt generated 0x1 = This bit is set after transferring the shadow register value to the active position compare register." "0,1"
bitfld.word 0x00 6. "     PCO   ,Position counter overflow interrupt flag 0x0 = No interrupt generated 0x1 = This bit is set on position counter overflow." "0,1"
textline "                        "
bitfld.word 0x00 5. " PCU       ,Position counter underflow interrupt flag 0x0 = No interrupt generated 0x1 = This bit is set on position counter underflow." "0,1"
bitfld.word 0x00 4. "         WTO    ,Watchdog timeout interrupt flag 0x0 = No interrupt generated 0x1 = Set by watch dog timeout" "0,1"
bitfld.word 0x00 3. "     QDC   ,Quadrature direction change interrupt flag 0x0 = No interrupt generated 0x1 = This bit is set during change of direction" "0,1"
textline "                        "
bitfld.word 0x00 2. " PHE       ,Quadrature phase error interrupt flag 0x0 = No interrupt generated 0x1 = Set on simultaneous transition of QEPA and QEPB" "0,1"
bitfld.word 0x00 1. "         PCE    ,Position counter error interrupt flag 0x0 = No interrupt generated 0x1 = Position counter error" "0,1"
bitfld.word 0x00 0. "     INT   ,Global interrupt status flag 0x0 = No interrupt generated 0x1 = Interrupt was generated" "0,1"
group.word 0x34++0x1
line.word 0x00 "EQEP_QCLR,"
bitfld.word 0x00 11. "     UTO       ,Clear unit time out interrupt flag 0x0 = No effect 0x1 = Clears the interrupt flag" "0,1"
bitfld.word 0x00 10. "         IEL    ,Clear index event latch interrupt flag 0x0 = No effect 0x1 = Clears the interrupt flag" "0,1"
bitfld.word 0x00 9. "     SEL   ,Clear strobe event latch interrupt flag 0x0 = No effect 0x1 = Clears the interrupt flag" "0,1"
textline "                        "
bitfld.word 0x00 8. " PCM       ,Clear eQEP compare match event interrupt flag 0x0 = No effect 0x1 = Clears the interrupt flag" "0,1"
bitfld.word 0x00 7. "         PCR    ,Clear position-compare ready interrupt flag 0x0 = No effect 0x1 = Clears the interrupt flag" "0,1"
bitfld.word 0x00 6. "     PCO   ,Clear position counter overflow interrupt flag 0x0 = No effect 0x1 = Clears the interrupt flag" "0,1"
textline "                        "
bitfld.word 0x00 5. " PCU       ,Clear position counter underflow interrupt flag 0x0 = No effect 0x1 = Clears the interrupt flag" "0,1"
bitfld.word 0x00 4. "         WTO    ,Clear watchdog timeout interrupt flag 0x0 = No effect 0x1 = Clears the interrupt flag" "0,1"
bitfld.word 0x00 3. "     QDC   ,Clear quadrature direction change interrupt flag 0x0 = No effect 0x1 = Clears the interrupt flag" "0,1"
textline "                        "
bitfld.word 0x00 2. " PHE       ,Clear quadrature phase error interrupt flag 0x0 = No effect 0x1 = Clears the interrupt flag" "0,1"
bitfld.word 0x00 1. "         PCE    ,Clear position counter error interrupt flag 0x0 = No effect 0x1 = Clears the interrupt flag" "0,1"
bitfld.word 0x00 0. "     INT   ,Global interrupt clear flag 0x0 = No effect 0x1 = Clears the interrupt flag and enables further interrupts to be generated if an event flags is set to 1." "0,1"
group.word 0x36++0x1
line.word 0x00 "EQEP_QFRC,"
bitfld.word 0x00 11. "     UTO       ,Force unit time out interrupt 0x0 = No effect 0x1 = Force the interrupt" "0,1"
bitfld.word 0x00 10. "         IEL    ,Force index event latch interrupt 0x0 = No effect 0x1 = Force the interrupt" "0,1"
bitfld.word 0x00 9. "     SEL   ,Force strobe event latch interrupt 0x0 = No effect 0x1 = Force the interrupt" "0,1"
textline "                        "
bitfld.word 0x00 8. " PCM       ,Force position-compare match interrupt 0x0 = No effect 0x1 = Force the interrupt" "0,1"
bitfld.word 0x00 7. "         PCR    ,Force position-compare ready interrupt 0x0 = No effect 0x1 = Force the interrupt" "0,1"
bitfld.word 0x00 6. "     PCO   ,Force position counter overflow interrupt 0x0 = No effect 0x1 = Force the interrupt" "0,1"
textline "                        "
bitfld.word 0x00 5. " PCU       ,Force position counter underflow interrupt 0x0 = No effect 0x1 = Force the interrupt" "0,1"
bitfld.word 0x00 4. "         WTO    ,Force watchdog time out interrupt 0x0 = No effect 0x1 = Force the interrupt" "0,1"
bitfld.word 0x00 3. "     QDC   ,Force quadrature direction change interrupt 0x0 = No effect 0x1 = Force the interrupt" "0,1"
textline "                        "
bitfld.word 0x00 2. " PHE       ,Force quadrature phase error interrupt 0x0 = No effect 0x1 = Force the interrupt" "0,1"
bitfld.word 0x00 1. "         PCE    ,Force position counter error interrupt 0x0 = No effect 0x1 = Force the interrupt" "0,1"
group.word 0x38++0x1
line.word 0x00 "EQEP_QEPSTS,"
bitfld.word 0x00 7. "     UPEVNT    ,Unit position event flag 0x0 = No unit position event detected 0x1 = Unit position event detected. Write 1 to clear." "0,1"
bitfld.word 0x00 6. "         FDF    ,Direction on the first index marker. Status of the direction is latched on the first index event marker. 0x0 = Counter-clockwise rotation (or reverse movement) on the first index event 0x1 = Clockwise rotation (or forward movement) on ..." "0,1"
bitfld.word 0x00 5. "     QDF   ,Quadrature direction flag 0x0 = Counter-clockwise rotation (or reverse movement) 0x1 = Clockwise rotation (or forward movement)" "0,1"
textline "                        "
bitfld.word 0x00 4. " QDLF      ,eQEP direction latch flag. Status of direction is latched on every index event marker. 0x0 = Counter-clockwise rotation (or reverse movement) on index event marker 0x1 = Clockwise rotation (or forward movement) on index event marker" "0,1"
bitfld.word 0x00 3. "         COEF   ,Capture overflow error flag 0x0 = Sticky bit, cleared by writing 1 0x1 = Overflow occurred in eQEP Capture timer (QEPCTMR)" "0,1"
bitfld.word 0x00 2. "     CDEF  ,Capture direction error flag 0x0 = Sticky bit, cleared by writing 1 0x1 = Direction change occurred between the capture position event." "0,1"
textline "                        "
bitfld.word 0x00 1. " FIMF      ,First index marker flag 0x0 = Sticky bit, cleared by writing 1 0x1 = Set by first occurrence of index pulse" "0,1"
bitfld.word 0x00 0. "         PCEF   ,Position counter error flag. This bit is not sticky and it is updated for every index event. 0x0 = No error occurred during the last index transition. 0x1 = Position counter error" "0,1"
group.word 0x3A++0x1
line.word 0x00 "EQEP_QCTMR,"
hexmask.word 0x00 0.--15. 1. "     QCTMR     ,This register provides time base for edge capture unit."
group.word 0x3C++0x1
line.word 0x00 "EQEP_QCPRD,"
hexmask.word 0x00 0.--15. 1. "     QCPRD     ,This register holds the period count value between the last successive eQEP position events"
rgroup.word 0x3E++0x1
line.word 0x00 "EQEP_QCTMRLAT,"
hexmask.word 0x00 0.--15. 1. "     QCTMRLAT  ,The eQEP capture timer value can be latched into this register on two events, that is, unit timeout event, reading the eQEP position counter."
group.word 0x40++0x1
line.word 0x00 "EQEP_QCPRDLAT,"
hexmask.word 0x00 0.--15. 1. "     QCPRDLAT  ,eQEP capture period value can be latched into this register on two events, that is, unit timeout event, reading the eQEP position counter."
rgroup.long 0x5C++0x3
line.long 0x00 "EQEP_REVID,"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
width 0x0B
tree.end
tree "PWMSS2_EQEP"
base ad:0x48440180
width 15.
group.long 0x0++0x3
line.long 0x00 "EQEP_QPOSCNT,"
hexmask.long 0x00 0.--31. 1. " QPOSCNT   ,This 32 bit position counter register counts up/down on every eQEP pulse based on direction input. This counter acts as a position integrator whose count value is proportional to position from a give reference point."
group.long 0x4++0x3
line.long 0x00 "EQEP_QPOSINIT,"
hexmask.long 0x00 0.--31. 1. " QPOSINIT  ,This register contains the position value that is used to initialize the position counter based on external strobe or index event. The position counter can be initialized through software."
group.long 0x8++0x3
line.long 0x00 "EQEP_QPOSMAX,"
hexmask.long 0x00 0.--31. 1. " QPOSMAX   ,This register contains the maximum position counter value."
group.long 0xC++0x3
line.long 0x00 "EQEP_QPOSCMP,"
hexmask.long 0x00 0.--31. 1. " QPOSCMP   ,The position-compare value in this register is compared with the position counter (QPOSCNT field in"
rgroup.long 0x10++0x3
line.long 0x00 "EQEP_QPOSILAT,"
hexmask.long 0x00 0.--31. 1. " QPOSILAT  ,The position-counter value is latched into this register on an index event as defined by the QEPCTL[IEL] bits."
rgroup.long 0x14++0x3
line.long 0x00 "EQEP_QPOSSLAT,"
hexmask.long 0x00 0.--31. 1. " QPOSSLAT  ,The position-counter value is latched into this register on strobe event as defined by the QEPCTL[SEL] bits."
rgroup.long 0x18++0x3
line.long 0x00 "EQEP_QPOSLAT,"
hexmask.long 0x00 0.--31. 1. " QPOSLAT   ,The position-counter value is latched into this register on unit time out event."
group.long 0x1C++0x3
line.long 0x00 "EQEP_QUTMR,"
hexmask.long 0x00 0.--31. 1. " QUTMR     ,This register acts as time base for unit time event generation. When this timer value matches with unit time period value, unit time event is generated."
group.long 0x20++0x3
line.long 0x00 "EQEP_QUPRD,"
hexmask.long 0x00 0.--31. 1. " QUPRD     ,This register contains the period count for unit timer to generate periodic unit time events to latch the eQEP position information at periodic interval and optionally to generate interrupt."
group.word 0x24++0x1
line.word 0x00 "EQEP_QWDTMR,"
hexmask.word 0x00 0.--15. 1. "     QWDTMR    ,This register acts as time base for watch dog to detect motor stalls. When this timer value matches with watch dog period value, watch dog timeout interrupt is generated. This register is reset upon edge transition in quadrature-clock i..."
group.word 0x26++0x1
line.word 0x00 "EQEP_QWDPRD,"
hexmask.word 0x00 0.--15. 1. "     QWDPRD    ,This register contains the time-out count for the eQEP peripheral watch dog timer. When the watchdog timer value matches the watchdog period value, a watchdog timeout interrupt is generated."
group.word 0x28++0x1
line.word 0x00 "EQEP_QDECCTL,"
bitfld.word 0x00 14.--15. "     QSRC      ,Position-counter source selection. 0x0 = Quadrature count mode (QCLK = iCLK, QDIR = iDIR) 0x1 = Direction-count mode (QCLK = xCLK, QDIR = xDIR) 0x2 = UP count mode for frequency measurement (QCLK = xCLK, QDIR = 1) 0x3 = DOWN count mode ..." "0,1,2,3"
bitfld.word 0x00 13. "         SOEN   ,Sync output-enable 0x0 = Disable position-compare sync output 0x1 = Enable position-compare sync output" "0,1"
bitfld.word 0x00 12. "     SPSEL ,Sync output pin selection 0x0 = Index pin is used for sync output 0x1 = Strobe pin is used for sync output" "0,1"
textline "                        "
bitfld.word 0x00 11. " XCR       ,External clock rate 0x0 = 2x resolution: Count the rising/falling edge 0x1 = 1x resolution: Count the rising edge only" "0,1"
bitfld.word 0x00 10. "         SWAP   ,Swap quadrature clock inputs. This swaps the input to the quadrature decoder, reversing the counting direction. 0x0 = Quadrature-clock inputs are not swapped 0x1 = Quadrature-clock inputs are swapped" "0,1"
bitfld.word 0x00 9. "     IGATE ,Index pulse gating option 0x0 = Disable gating of Index pulse 0x1 = Gate the index pin with strobe" "0,1"
textline "                        "
bitfld.word 0x00 8. " QAP       ,QEPA input polarity 0x0 = No effect 0x1 = Negates QEPA input" "0,1"
bitfld.word 0x00 7. "         QBP    ,QEPB input polarity 0x0 = No effect 0x1 = Negates QEPB input" "0,1"
bitfld.word 0x00 6. "     QIP   ,QEPI input polarity 0x0 = No effect 0x1 = Negates QEPI input" "0,1"
textline "                        "
bitfld.word 0x00 5. " QSP       ,QEPS input polarity 0x0 = No effect 0x1 = Negates QEPS input" "0,1"
group.word 0x2A++0x1
line.word 0x00 "EQEP_QEPCTL,"
bitfld.word 0x00 14.--15. "     FREE_SOFT ,Emulation Control Bits. In the values 0 through 3 listed below, x is different for the four following behaviors. 0x0 = x stops immediately. For QPOSCNT behavior, the stop is on emulation suspend. 0x1 = x continues to count until the rol..." "0,1,2,3"
bitfld.word 0x00 12.--13. "         PCRM   ,Position counter reset mode 0x0 = Position counter reset on an index event 0x1 = Position counter reset on the maximum position 0x2 = Position counter reset on the first index event 0x3 = Position counter reset on a unit time event" "0,1,2,3"
bitfld.word 0x00 10.--11. "     SEI   ,Strobe event initialization of position counter 0x0 = Does nothing (action disabled) 0x1 = Does nothing (action disabled) 0x2 = Initializes the position counter on rising edge of the QEPS signal 0x3 = Clockwise Direction: Initializes the po..." "0,1,2,3"
textline "                        "
bitfld.word 0x00 8.--9. " IEI       ,Index event initialization of position counter 0x0 = Do nothing (action disabled) 0x1 = Do nothing (action disabled) 0x2 = Initializes the position counter on the rising edge of the QEPI signal (QPOSCNT = QPOSINIT) 0x3 = Initializes the pos..." "0,1,2,3"
bitfld.word 0x00 7. "         SWI    ,Software initialization of position counter 0x0 = Do nothing (action disabled) 0x1 = Initialize position counter, this bit is cleared automatically" "0,1"
bitfld.word 0x00 6. "     SEL   ,Strobe event latch of position counter 0x0 = The position counter is latched on the rising edge of QEPS strobe (QPOSSLAT = POSCCNT). Latching on the falling edge can be done by inverting the strobe input using the QSP bit in the 0x1 = Clock..." "0,1"
textline "                        "
bitfld.word 0x00 4.--5. " IEL       ,Index event latch of position counter (software index marker) 0x0 = Reserved 0x1 = Latches position counter on rising edge of the index signal 0x2 = Latches position counter on falling edge of the index signal 0x3 = Software index marker. L..." "0,1,2,3"
bitfld.word 0x00 3. "         PHEN   ,Quadrature position counter enable/software reset 0x0 = Reset the eQEP peripheral internal operating flags/read-only registers. Control/configuration registers are not disturbed by a software reset. 0x1 = eQEP position counter is enabled" "0,1"
bitfld.word 0x00 2. "     QCLM  ,eQEP capture latch mode 0x0 = Latch on position counter read by CPU. Capture timer and capture period values are latched into 0x1 = Latch on unit time out. Position counter, capture timer and capture period values are latched into" "0,1"
textline "                        "
bitfld.word 0x00 1. " UTE       ,eQEP unit timer enable 0x0 = Disable eQEP unit timer 0x1 = Enable unit timer" "0,1"
bitfld.word 0x00 0. "         WDE    ,eQEP watchdog enable 0x0 = Disable the eQEP watchdog timer 0x1 = Enable the eQEP watchdog timer" "0,1"
group.word 0x2C++0x1
line.word 0x00 "EQEP_QCAPCTL,"
bitfld.word 0x00 15. "     CEN       ,Enable eQEP capture 0x0 = eQEP capture unit is disabled 0x1 = eQEP capture unit is enabled" "0,1"
bitfld.word 0x00 4.--6. "         CCPS   ,eQEP capture timer clock prescaler 0x0 = CAPCLK = SYSCLKOUT/1 0x1 = CAPCLK = SYSCLKOUT/2 0x2 = CAPCLK = SYSCLKOUT/4 0x3 = CAPCLK = SYSCLKOUT/8 0x4 = CAPCLK = SYSCLKOUT/16 0x5 = CAPCLK = SYSCLKOUT/32 0x6 = CAPCLK = SYSCLKOUT/64 0x7 = CA..." "0,1,2,3,4,5,6,7"
bitfld.word 0x00 0.--3. "     UPPS  ,Unit position event prescaler 0x0 = UPEVNT = QCLK/1 0x1 = UPEVNT = QCLK/2 0x2 = UPEVNT = QCLK/4 0x3 = UPEVNT = QCLK/8 0x4 = UPEVNT = QCLK/16 0x5 = UPEVNT = QCLK/32 0x6 = UPEVNT = QCLK/64 0x7 = UPEVNT = QCLK/128 0x8 = UPEVNT = QCLK/256 0x9 =..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.word 0x2E++0x1
line.word 0x00 "EQEP_QPOSCTL,"
bitfld.word 0x00 15. "     PCSHDW    ,Position-compare shadow enable 0x0 = Shadow disabled, load Immediate 0x1 = Shadow enabled" "0,1"
bitfld.word 0x00 14. "         PCLOAD ,Position-compare shadow load mode 0x0 = Load on QPOSCNT = 0 0x1 = Load when QPOSCNT = QPOSCMP" "0,1"
bitfld.word 0x00 13. "     PCPOL ,Polarity of sync output 0x0 = Active HIGH pulse output 0x1 = Active LOW pulse output" "0,1"
textline "                        "
bitfld.word 0x00 12. " PCE       ,Position-compare enable/disable 0x0 = Disable position compare unit 0x1 = Enable position compare unit" "0,1"
hexmask.word 0x00 0.--11. 1. "         PCSPW  ,Select-position-compare sync output pulse width ... 0x0 = 1 x 4 x SYSCLKOUT cycles 0x1 = 2 x 4 x SYSCLKOUT cycles 0x2 = 3 x 4 x SYSCLKOUT cycles to 4096 x 4 x SYSCLKOUT cycles 0xFFF = 3 x 4 x SYSCLKOUT cycles to 4096 x 4 x SYSCLKOUT cy..."
group.word 0x30++0x1
line.word 0x00 "EQEP_QEINT,"
bitfld.word 0x00 11. "     UTO       ,Unit time out interrupt enable 0x0 = Interrupt is disabled 0x1 = Interrupt is enabled" "0,1"
bitfld.word 0x00 10. "         IEL    ,Index event latch interrupt enable 0x0 = Interrupt is disabled 0x1 = Interrupt is enabled" "0,1"
bitfld.word 0x00 9. "     SEL   ,Strobe event latch interrupt enable 0x0 = Interrupt is disabled 0x1 = Interrupt is enabled" "0,1"
textline "                        "
bitfld.word 0x00 8. " PCM       ,Position-compare match interrupt enable 0x0 = Interrupt is disabled 0x1 = Interrupt is enabled" "0,1"
bitfld.word 0x00 7. "         PCR    ,Position-compare ready interrupt enable 0x0 = Interrupt is disabled 0x1 = Interrupt is enabled" "0,1"
bitfld.word 0x00 6. "     PCO   ,Position counter overflow interrupt enable 0x0 = Interrupt is disabled 0x1 = Interrupt is enabled" "0,1"
textline "                        "
bitfld.word 0x00 5. " PCU       ,Position counter underflow interrupt enable 0x0 = Interrupt is disabled 0x1 = Interrupt is enabled" "0,1"
bitfld.word 0x00 4. "         WTO    ,Watchdog time out interrupt enable 0x0 = Interrupt is disabled 0x1 = Interrupt is enabled" "0,1"
bitfld.word 0x00 3. "     QDC   ,Quadrature direction change interrupt enable 0x0 = Interrupt is disabled 0x1 = Interrupt is enabled" "0,1"
textline "                        "
bitfld.word 0x00 2. " PHE       ,Quadrature phase error interrupt enable 0x0 = Interrupt is disabled 0x1 = Interrupt is enabled" "0,1"
bitfld.word 0x00 1. "         PCE    ,Position counter error interrupt enable 0x0 = Interrupt is disabled 0x1 = Interrupt is enabled" "0,1"
rgroup.word 0x32++0x1
line.word 0x00 "EQEP_QFLG,"
bitfld.word 0x00 11. "     UTO       ,Unit time out interrupt flag 0x0 = No interrupt generated 0x1 = Set by eQEP unit timer period match" "0,1"
bitfld.word 0x00 10. "         IEL    ,Index event latch interrupt flag 0x0 = No interrupt generated 0x1 = This bit is set after latching the QPOSCNT to QPOSILAT" "0,1"
bitfld.word 0x00 9. "     SEL   ,Strobe event latch interrupt flag 0x0 = No interrupt generated 0x1 = This bit is set after latching the QPOSCNT to" "0,1"
textline "                        "
bitfld.word 0x00 8. " PCM       ,eQEP compare match event interrupt flag 0x0 = No interrupt generated 0x1 = This bit is set on position-compare match" "0,1"
bitfld.word 0x00 7. "         PCR    ,Position-compare ready interrupt flag 0x0 = No interrupt generated 0x1 = This bit is set after transferring the shadow register value to the active position compare register." "0,1"
bitfld.word 0x00 6. "     PCO   ,Position counter overflow interrupt flag 0x0 = No interrupt generated 0x1 = This bit is set on position counter overflow." "0,1"
textline "                        "
bitfld.word 0x00 5. " PCU       ,Position counter underflow interrupt flag 0x0 = No interrupt generated 0x1 = This bit is set on position counter underflow." "0,1"
bitfld.word 0x00 4. "         WTO    ,Watchdog timeout interrupt flag 0x0 = No interrupt generated 0x1 = Set by watch dog timeout" "0,1"
bitfld.word 0x00 3. "     QDC   ,Quadrature direction change interrupt flag 0x0 = No interrupt generated 0x1 = This bit is set during change of direction" "0,1"
textline "                        "
bitfld.word 0x00 2. " PHE       ,Quadrature phase error interrupt flag 0x0 = No interrupt generated 0x1 = Set on simultaneous transition of QEPA and QEPB" "0,1"
bitfld.word 0x00 1. "         PCE    ,Position counter error interrupt flag 0x0 = No interrupt generated 0x1 = Position counter error" "0,1"
bitfld.word 0x00 0. "     INT   ,Global interrupt status flag 0x0 = No interrupt generated 0x1 = Interrupt was generated" "0,1"
group.word 0x34++0x1
line.word 0x00 "EQEP_QCLR,"
bitfld.word 0x00 11. "     UTO       ,Clear unit time out interrupt flag 0x0 = No effect 0x1 = Clears the interrupt flag" "0,1"
bitfld.word 0x00 10. "         IEL    ,Clear index event latch interrupt flag 0x0 = No effect 0x1 = Clears the interrupt flag" "0,1"
bitfld.word 0x00 9. "     SEL   ,Clear strobe event latch interrupt flag 0x0 = No effect 0x1 = Clears the interrupt flag" "0,1"
textline "                        "
bitfld.word 0x00 8. " PCM       ,Clear eQEP compare match event interrupt flag 0x0 = No effect 0x1 = Clears the interrupt flag" "0,1"
bitfld.word 0x00 7. "         PCR    ,Clear position-compare ready interrupt flag 0x0 = No effect 0x1 = Clears the interrupt flag" "0,1"
bitfld.word 0x00 6. "     PCO   ,Clear position counter overflow interrupt flag 0x0 = No effect 0x1 = Clears the interrupt flag" "0,1"
textline "                        "
bitfld.word 0x00 5. " PCU       ,Clear position counter underflow interrupt flag 0x0 = No effect 0x1 = Clears the interrupt flag" "0,1"
bitfld.word 0x00 4. "         WTO    ,Clear watchdog timeout interrupt flag 0x0 = No effect 0x1 = Clears the interrupt flag" "0,1"
bitfld.word 0x00 3. "     QDC   ,Clear quadrature direction change interrupt flag 0x0 = No effect 0x1 = Clears the interrupt flag" "0,1"
textline "                        "
bitfld.word 0x00 2. " PHE       ,Clear quadrature phase error interrupt flag 0x0 = No effect 0x1 = Clears the interrupt flag" "0,1"
bitfld.word 0x00 1. "         PCE    ,Clear position counter error interrupt flag 0x0 = No effect 0x1 = Clears the interrupt flag" "0,1"
bitfld.word 0x00 0. "     INT   ,Global interrupt clear flag 0x0 = No effect 0x1 = Clears the interrupt flag and enables further interrupts to be generated if an event flags is set to 1." "0,1"
group.word 0x36++0x1
line.word 0x00 "EQEP_QFRC,"
bitfld.word 0x00 11. "     UTO       ,Force unit time out interrupt 0x0 = No effect 0x1 = Force the interrupt" "0,1"
bitfld.word 0x00 10. "         IEL    ,Force index event latch interrupt 0x0 = No effect 0x1 = Force the interrupt" "0,1"
bitfld.word 0x00 9. "     SEL   ,Force strobe event latch interrupt 0x0 = No effect 0x1 = Force the interrupt" "0,1"
textline "                        "
bitfld.word 0x00 8. " PCM       ,Force position-compare match interrupt 0x0 = No effect 0x1 = Force the interrupt" "0,1"
bitfld.word 0x00 7. "         PCR    ,Force position-compare ready interrupt 0x0 = No effect 0x1 = Force the interrupt" "0,1"
bitfld.word 0x00 6. "     PCO   ,Force position counter overflow interrupt 0x0 = No effect 0x1 = Force the interrupt" "0,1"
textline "                        "
bitfld.word 0x00 5. " PCU       ,Force position counter underflow interrupt 0x0 = No effect 0x1 = Force the interrupt" "0,1"
bitfld.word 0x00 4. "         WTO    ,Force watchdog time out interrupt 0x0 = No effect 0x1 = Force the interrupt" "0,1"
bitfld.word 0x00 3. "     QDC   ,Force quadrature direction change interrupt 0x0 = No effect 0x1 = Force the interrupt" "0,1"
textline "                        "
bitfld.word 0x00 2. " PHE       ,Force quadrature phase error interrupt 0x0 = No effect 0x1 = Force the interrupt" "0,1"
bitfld.word 0x00 1. "         PCE    ,Force position counter error interrupt 0x0 = No effect 0x1 = Force the interrupt" "0,1"
group.word 0x38++0x1
line.word 0x00 "EQEP_QEPSTS,"
bitfld.word 0x00 7. "     UPEVNT    ,Unit position event flag 0x0 = No unit position event detected 0x1 = Unit position event detected. Write 1 to clear." "0,1"
bitfld.word 0x00 6. "         FDF    ,Direction on the first index marker. Status of the direction is latched on the first index event marker. 0x0 = Counter-clockwise rotation (or reverse movement) on the first index event 0x1 = Clockwise rotation (or forward movement) on ..." "0,1"
bitfld.word 0x00 5. "     QDF   ,Quadrature direction flag 0x0 = Counter-clockwise rotation (or reverse movement) 0x1 = Clockwise rotation (or forward movement)" "0,1"
textline "                        "
bitfld.word 0x00 4. " QDLF      ,eQEP direction latch flag. Status of direction is latched on every index event marker. 0x0 = Counter-clockwise rotation (or reverse movement) on index event marker 0x1 = Clockwise rotation (or forward movement) on index event marker" "0,1"
bitfld.word 0x00 3. "         COEF   ,Capture overflow error flag 0x0 = Sticky bit, cleared by writing 1 0x1 = Overflow occurred in eQEP Capture timer (QEPCTMR)" "0,1"
bitfld.word 0x00 2. "     CDEF  ,Capture direction error flag 0x0 = Sticky bit, cleared by writing 1 0x1 = Direction change occurred between the capture position event." "0,1"
textline "                        "
bitfld.word 0x00 1. " FIMF      ,First index marker flag 0x0 = Sticky bit, cleared by writing 1 0x1 = Set by first occurrence of index pulse" "0,1"
bitfld.word 0x00 0. "         PCEF   ,Position counter error flag. This bit is not sticky and it is updated for every index event. 0x0 = No error occurred during the last index transition. 0x1 = Position counter error" "0,1"
group.word 0x3A++0x1
line.word 0x00 "EQEP_QCTMR,"
hexmask.word 0x00 0.--15. 1. "     QCTMR     ,This register provides time base for edge capture unit."
group.word 0x3C++0x1
line.word 0x00 "EQEP_QCPRD,"
hexmask.word 0x00 0.--15. 1. "     QCPRD     ,This register holds the period count value between the last successive eQEP position events"
rgroup.word 0x3E++0x1
line.word 0x00 "EQEP_QCTMRLAT,"
hexmask.word 0x00 0.--15. 1. "     QCTMRLAT  ,The eQEP capture timer value can be latched into this register on two events, that is, unit timeout event, reading the eQEP position counter."
group.word 0x40++0x1
line.word 0x00 "EQEP_QCPRDLAT,"
hexmask.word 0x00 0.--15. 1. "     QCPRDLAT  ,eQEP capture period value can be latched into this register on two events, that is, unit timeout event, reading the eQEP position counter."
rgroup.long 0x5C++0x3
line.long 0x00 "EQEP_REVID,"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
width 0x0B
tree.end
tree "PWMSS3_EQEP"
base ad:0x48442180
width 15.
group.long 0x0++0x3
line.long 0x00 "EQEP_QPOSCNT,"
hexmask.long 0x00 0.--31. 1. " QPOSCNT   ,This 32 bit position counter register counts up/down on every eQEP pulse based on direction input. This counter acts as a position integrator whose count value is proportional to position from a give reference point."
group.long 0x4++0x3
line.long 0x00 "EQEP_QPOSINIT,"
hexmask.long 0x00 0.--31. 1. " QPOSINIT  ,This register contains the position value that is used to initialize the position counter based on external strobe or index event. The position counter can be initialized through software."
group.long 0x8++0x3
line.long 0x00 "EQEP_QPOSMAX,"
hexmask.long 0x00 0.--31. 1. " QPOSMAX   ,This register contains the maximum position counter value."
group.long 0xC++0x3
line.long 0x00 "EQEP_QPOSCMP,"
hexmask.long 0x00 0.--31. 1. " QPOSCMP   ,The position-compare value in this register is compared with the position counter (QPOSCNT field in"
rgroup.long 0x10++0x3
line.long 0x00 "EQEP_QPOSILAT,"
hexmask.long 0x00 0.--31. 1. " QPOSILAT  ,The position-counter value is latched into this register on an index event as defined by the QEPCTL[IEL] bits."
rgroup.long 0x14++0x3
line.long 0x00 "EQEP_QPOSSLAT,"
hexmask.long 0x00 0.--31. 1. " QPOSSLAT  ,The position-counter value is latched into this register on strobe event as defined by the QEPCTL[SEL] bits."
rgroup.long 0x18++0x3
line.long 0x00 "EQEP_QPOSLAT,"
hexmask.long 0x00 0.--31. 1. " QPOSLAT   ,The position-counter value is latched into this register on unit time out event."
group.long 0x1C++0x3
line.long 0x00 "EQEP_QUTMR,"
hexmask.long 0x00 0.--31. 1. " QUTMR     ,This register acts as time base for unit time event generation. When this timer value matches with unit time period value, unit time event is generated."
group.long 0x20++0x3
line.long 0x00 "EQEP_QUPRD,"
hexmask.long 0x00 0.--31. 1. " QUPRD     ,This register contains the period count for unit timer to generate periodic unit time events to latch the eQEP position information at periodic interval and optionally to generate interrupt."
group.word 0x24++0x1
line.word 0x00 "EQEP_QWDTMR,"
hexmask.word 0x00 0.--15. 1. "     QWDTMR    ,This register acts as time base for watch dog to detect motor stalls. When this timer value matches with watch dog period value, watch dog timeout interrupt is generated. This register is reset upon edge transition in quadrature-clock i..."
group.word 0x26++0x1
line.word 0x00 "EQEP_QWDPRD,"
hexmask.word 0x00 0.--15. 1. "     QWDPRD    ,This register contains the time-out count for the eQEP peripheral watch dog timer. When the watchdog timer value matches the watchdog period value, a watchdog timeout interrupt is generated."
group.word 0x28++0x1
line.word 0x00 "EQEP_QDECCTL,"
bitfld.word 0x00 14.--15. "     QSRC      ,Position-counter source selection. 0x0 = Quadrature count mode (QCLK = iCLK, QDIR = iDIR) 0x1 = Direction-count mode (QCLK = xCLK, QDIR = xDIR) 0x2 = UP count mode for frequency measurement (QCLK = xCLK, QDIR = 1) 0x3 = DOWN count mode ..." "0,1,2,3"
bitfld.word 0x00 13. "         SOEN   ,Sync output-enable 0x0 = Disable position-compare sync output 0x1 = Enable position-compare sync output" "0,1"
bitfld.word 0x00 12. "     SPSEL ,Sync output pin selection 0x0 = Index pin is used for sync output 0x1 = Strobe pin is used for sync output" "0,1"
textline "                        "
bitfld.word 0x00 11. " XCR       ,External clock rate 0x0 = 2x resolution: Count the rising/falling edge 0x1 = 1x resolution: Count the rising edge only" "0,1"
bitfld.word 0x00 10. "         SWAP   ,Swap quadrature clock inputs. This swaps the input to the quadrature decoder, reversing the counting direction. 0x0 = Quadrature-clock inputs are not swapped 0x1 = Quadrature-clock inputs are swapped" "0,1"
bitfld.word 0x00 9. "     IGATE ,Index pulse gating option 0x0 = Disable gating of Index pulse 0x1 = Gate the index pin with strobe" "0,1"
textline "                        "
bitfld.word 0x00 8. " QAP       ,QEPA input polarity 0x0 = No effect 0x1 = Negates QEPA input" "0,1"
bitfld.word 0x00 7. "         QBP    ,QEPB input polarity 0x0 = No effect 0x1 = Negates QEPB input" "0,1"
bitfld.word 0x00 6. "     QIP   ,QEPI input polarity 0x0 = No effect 0x1 = Negates QEPI input" "0,1"
textline "                        "
bitfld.word 0x00 5. " QSP       ,QEPS input polarity 0x0 = No effect 0x1 = Negates QEPS input" "0,1"
group.word 0x2A++0x1
line.word 0x00 "EQEP_QEPCTL,"
bitfld.word 0x00 14.--15. "     FREE_SOFT ,Emulation Control Bits. In the values 0 through 3 listed below, x is different for the four following behaviors. 0x0 = x stops immediately. For QPOSCNT behavior, the stop is on emulation suspend. 0x1 = x continues to count until the rol..." "0,1,2,3"
bitfld.word 0x00 12.--13. "         PCRM   ,Position counter reset mode 0x0 = Position counter reset on an index event 0x1 = Position counter reset on the maximum position 0x2 = Position counter reset on the first index event 0x3 = Position counter reset on a unit time event" "0,1,2,3"
bitfld.word 0x00 10.--11. "     SEI   ,Strobe event initialization of position counter 0x0 = Does nothing (action disabled) 0x1 = Does nothing (action disabled) 0x2 = Initializes the position counter on rising edge of the QEPS signal 0x3 = Clockwise Direction: Initializes the po..." "0,1,2,3"
textline "                        "
bitfld.word 0x00 8.--9. " IEI       ,Index event initialization of position counter 0x0 = Do nothing (action disabled) 0x1 = Do nothing (action disabled) 0x2 = Initializes the position counter on the rising edge of the QEPI signal (QPOSCNT = QPOSINIT) 0x3 = Initializes the pos..." "0,1,2,3"
bitfld.word 0x00 7. "         SWI    ,Software initialization of position counter 0x0 = Do nothing (action disabled) 0x1 = Initialize position counter, this bit is cleared automatically" "0,1"
bitfld.word 0x00 6. "     SEL   ,Strobe event latch of position counter 0x0 = The position counter is latched on the rising edge of QEPS strobe (QPOSSLAT = POSCCNT). Latching on the falling edge can be done by inverting the strobe input using the QSP bit in the 0x1 = Clock..." "0,1"
textline "                        "
bitfld.word 0x00 4.--5. " IEL       ,Index event latch of position counter (software index marker) 0x0 = Reserved 0x1 = Latches position counter on rising edge of the index signal 0x2 = Latches position counter on falling edge of the index signal 0x3 = Software index marker. L..." "0,1,2,3"
bitfld.word 0x00 3. "         PHEN   ,Quadrature position counter enable/software reset 0x0 = Reset the eQEP peripheral internal operating flags/read-only registers. Control/configuration registers are not disturbed by a software reset. 0x1 = eQEP position counter is enabled" "0,1"
bitfld.word 0x00 2. "     QCLM  ,eQEP capture latch mode 0x0 = Latch on position counter read by CPU. Capture timer and capture period values are latched into 0x1 = Latch on unit time out. Position counter, capture timer and capture period values are latched into" "0,1"
textline "                        "
bitfld.word 0x00 1. " UTE       ,eQEP unit timer enable 0x0 = Disable eQEP unit timer 0x1 = Enable unit timer" "0,1"
bitfld.word 0x00 0. "         WDE    ,eQEP watchdog enable 0x0 = Disable the eQEP watchdog timer 0x1 = Enable the eQEP watchdog timer" "0,1"
group.word 0x2C++0x1
line.word 0x00 "EQEP_QCAPCTL,"
bitfld.word 0x00 15. "     CEN       ,Enable eQEP capture 0x0 = eQEP capture unit is disabled 0x1 = eQEP capture unit is enabled" "0,1"
bitfld.word 0x00 4.--6. "         CCPS   ,eQEP capture timer clock prescaler 0x0 = CAPCLK = SYSCLKOUT/1 0x1 = CAPCLK = SYSCLKOUT/2 0x2 = CAPCLK = SYSCLKOUT/4 0x3 = CAPCLK = SYSCLKOUT/8 0x4 = CAPCLK = SYSCLKOUT/16 0x5 = CAPCLK = SYSCLKOUT/32 0x6 = CAPCLK = SYSCLKOUT/64 0x7 = CA..." "0,1,2,3,4,5,6,7"
bitfld.word 0x00 0.--3. "     UPPS  ,Unit position event prescaler 0x0 = UPEVNT = QCLK/1 0x1 = UPEVNT = QCLK/2 0x2 = UPEVNT = QCLK/4 0x3 = UPEVNT = QCLK/8 0x4 = UPEVNT = QCLK/16 0x5 = UPEVNT = QCLK/32 0x6 = UPEVNT = QCLK/64 0x7 = UPEVNT = QCLK/128 0x8 = UPEVNT = QCLK/256 0x9 =..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.word 0x2E++0x1
line.word 0x00 "EQEP_QPOSCTL,"
bitfld.word 0x00 15. "     PCSHDW    ,Position-compare shadow enable 0x0 = Shadow disabled, load Immediate 0x1 = Shadow enabled" "0,1"
bitfld.word 0x00 14. "         PCLOAD ,Position-compare shadow load mode 0x0 = Load on QPOSCNT = 0 0x1 = Load when QPOSCNT = QPOSCMP" "0,1"
bitfld.word 0x00 13. "     PCPOL ,Polarity of sync output 0x0 = Active HIGH pulse output 0x1 = Active LOW pulse output" "0,1"
textline "                        "
bitfld.word 0x00 12. " PCE       ,Position-compare enable/disable 0x0 = Disable position compare unit 0x1 = Enable position compare unit" "0,1"
hexmask.word 0x00 0.--11. 1. "         PCSPW  ,Select-position-compare sync output pulse width ... 0x0 = 1 x 4 x SYSCLKOUT cycles 0x1 = 2 x 4 x SYSCLKOUT cycles 0x2 = 3 x 4 x SYSCLKOUT cycles to 4096 x 4 x SYSCLKOUT cycles 0xFFF = 3 x 4 x SYSCLKOUT cycles to 4096 x 4 x SYSCLKOUT cy..."
group.word 0x30++0x1
line.word 0x00 "EQEP_QEINT,"
bitfld.word 0x00 11. "     UTO       ,Unit time out interrupt enable 0x0 = Interrupt is disabled 0x1 = Interrupt is enabled" "0,1"
bitfld.word 0x00 10. "         IEL    ,Index event latch interrupt enable 0x0 = Interrupt is disabled 0x1 = Interrupt is enabled" "0,1"
bitfld.word 0x00 9. "     SEL   ,Strobe event latch interrupt enable 0x0 = Interrupt is disabled 0x1 = Interrupt is enabled" "0,1"
textline "                        "
bitfld.word 0x00 8. " PCM       ,Position-compare match interrupt enable 0x0 = Interrupt is disabled 0x1 = Interrupt is enabled" "0,1"
bitfld.word 0x00 7. "         PCR    ,Position-compare ready interrupt enable 0x0 = Interrupt is disabled 0x1 = Interrupt is enabled" "0,1"
bitfld.word 0x00 6. "     PCO   ,Position counter overflow interrupt enable 0x0 = Interrupt is disabled 0x1 = Interrupt is enabled" "0,1"
textline "                        "
bitfld.word 0x00 5. " PCU       ,Position counter underflow interrupt enable 0x0 = Interrupt is disabled 0x1 = Interrupt is enabled" "0,1"
bitfld.word 0x00 4. "         WTO    ,Watchdog time out interrupt enable 0x0 = Interrupt is disabled 0x1 = Interrupt is enabled" "0,1"
bitfld.word 0x00 3. "     QDC   ,Quadrature direction change interrupt enable 0x0 = Interrupt is disabled 0x1 = Interrupt is enabled" "0,1"
textline "                        "
bitfld.word 0x00 2. " PHE       ,Quadrature phase error interrupt enable 0x0 = Interrupt is disabled 0x1 = Interrupt is enabled" "0,1"
bitfld.word 0x00 1. "         PCE    ,Position counter error interrupt enable 0x0 = Interrupt is disabled 0x1 = Interrupt is enabled" "0,1"
rgroup.word 0x32++0x1
line.word 0x00 "EQEP_QFLG,"
bitfld.word 0x00 11. "     UTO       ,Unit time out interrupt flag 0x0 = No interrupt generated 0x1 = Set by eQEP unit timer period match" "0,1"
bitfld.word 0x00 10. "         IEL    ,Index event latch interrupt flag 0x0 = No interrupt generated 0x1 = This bit is set after latching the QPOSCNT to QPOSILAT" "0,1"
bitfld.word 0x00 9. "     SEL   ,Strobe event latch interrupt flag 0x0 = No interrupt generated 0x1 = This bit is set after latching the QPOSCNT to" "0,1"
textline "                        "
bitfld.word 0x00 8. " PCM       ,eQEP compare match event interrupt flag 0x0 = No interrupt generated 0x1 = This bit is set on position-compare match" "0,1"
bitfld.word 0x00 7. "         PCR    ,Position-compare ready interrupt flag 0x0 = No interrupt generated 0x1 = This bit is set after transferring the shadow register value to the active position compare register." "0,1"
bitfld.word 0x00 6. "     PCO   ,Position counter overflow interrupt flag 0x0 = No interrupt generated 0x1 = This bit is set on position counter overflow." "0,1"
textline "                        "
bitfld.word 0x00 5. " PCU       ,Position counter underflow interrupt flag 0x0 = No interrupt generated 0x1 = This bit is set on position counter underflow." "0,1"
bitfld.word 0x00 4. "         WTO    ,Watchdog timeout interrupt flag 0x0 = No interrupt generated 0x1 = Set by watch dog timeout" "0,1"
bitfld.word 0x00 3. "     QDC   ,Quadrature direction change interrupt flag 0x0 = No interrupt generated 0x1 = This bit is set during change of direction" "0,1"
textline "                        "
bitfld.word 0x00 2. " PHE       ,Quadrature phase error interrupt flag 0x0 = No interrupt generated 0x1 = Set on simultaneous transition of QEPA and QEPB" "0,1"
bitfld.word 0x00 1. "         PCE    ,Position counter error interrupt flag 0x0 = No interrupt generated 0x1 = Position counter error" "0,1"
bitfld.word 0x00 0. "     INT   ,Global interrupt status flag 0x0 = No interrupt generated 0x1 = Interrupt was generated" "0,1"
group.word 0x34++0x1
line.word 0x00 "EQEP_QCLR,"
bitfld.word 0x00 11. "     UTO       ,Clear unit time out interrupt flag 0x0 = No effect 0x1 = Clears the interrupt flag" "0,1"
bitfld.word 0x00 10. "         IEL    ,Clear index event latch interrupt flag 0x0 = No effect 0x1 = Clears the interrupt flag" "0,1"
bitfld.word 0x00 9. "     SEL   ,Clear strobe event latch interrupt flag 0x0 = No effect 0x1 = Clears the interrupt flag" "0,1"
textline "                        "
bitfld.word 0x00 8. " PCM       ,Clear eQEP compare match event interrupt flag 0x0 = No effect 0x1 = Clears the interrupt flag" "0,1"
bitfld.word 0x00 7. "         PCR    ,Clear position-compare ready interrupt flag 0x0 = No effect 0x1 = Clears the interrupt flag" "0,1"
bitfld.word 0x00 6. "     PCO   ,Clear position counter overflow interrupt flag 0x0 = No effect 0x1 = Clears the interrupt flag" "0,1"
textline "                        "
bitfld.word 0x00 5. " PCU       ,Clear position counter underflow interrupt flag 0x0 = No effect 0x1 = Clears the interrupt flag" "0,1"
bitfld.word 0x00 4. "         WTO    ,Clear watchdog timeout interrupt flag 0x0 = No effect 0x1 = Clears the interrupt flag" "0,1"
bitfld.word 0x00 3. "     QDC   ,Clear quadrature direction change interrupt flag 0x0 = No effect 0x1 = Clears the interrupt flag" "0,1"
textline "                        "
bitfld.word 0x00 2. " PHE       ,Clear quadrature phase error interrupt flag 0x0 = No effect 0x1 = Clears the interrupt flag" "0,1"
bitfld.word 0x00 1. "         PCE    ,Clear position counter error interrupt flag 0x0 = No effect 0x1 = Clears the interrupt flag" "0,1"
bitfld.word 0x00 0. "     INT   ,Global interrupt clear flag 0x0 = No effect 0x1 = Clears the interrupt flag and enables further interrupts to be generated if an event flags is set to 1." "0,1"
group.word 0x36++0x1
line.word 0x00 "EQEP_QFRC,"
bitfld.word 0x00 11. "     UTO       ,Force unit time out interrupt 0x0 = No effect 0x1 = Force the interrupt" "0,1"
bitfld.word 0x00 10. "         IEL    ,Force index event latch interrupt 0x0 = No effect 0x1 = Force the interrupt" "0,1"
bitfld.word 0x00 9. "     SEL   ,Force strobe event latch interrupt 0x0 = No effect 0x1 = Force the interrupt" "0,1"
textline "                        "
bitfld.word 0x00 8. " PCM       ,Force position-compare match interrupt 0x0 = No effect 0x1 = Force the interrupt" "0,1"
bitfld.word 0x00 7. "         PCR    ,Force position-compare ready interrupt 0x0 = No effect 0x1 = Force the interrupt" "0,1"
bitfld.word 0x00 6. "     PCO   ,Force position counter overflow interrupt 0x0 = No effect 0x1 = Force the interrupt" "0,1"
textline "                        "
bitfld.word 0x00 5. " PCU       ,Force position counter underflow interrupt 0x0 = No effect 0x1 = Force the interrupt" "0,1"
bitfld.word 0x00 4. "         WTO    ,Force watchdog time out interrupt 0x0 = No effect 0x1 = Force the interrupt" "0,1"
bitfld.word 0x00 3. "     QDC   ,Force quadrature direction change interrupt 0x0 = No effect 0x1 = Force the interrupt" "0,1"
textline "                        "
bitfld.word 0x00 2. " PHE       ,Force quadrature phase error interrupt 0x0 = No effect 0x1 = Force the interrupt" "0,1"
bitfld.word 0x00 1. "         PCE    ,Force position counter error interrupt 0x0 = No effect 0x1 = Force the interrupt" "0,1"
group.word 0x38++0x1
line.word 0x00 "EQEP_QEPSTS,"
bitfld.word 0x00 7. "     UPEVNT    ,Unit position event flag 0x0 = No unit position event detected 0x1 = Unit position event detected. Write 1 to clear." "0,1"
bitfld.word 0x00 6. "         FDF    ,Direction on the first index marker. Status of the direction is latched on the first index event marker. 0x0 = Counter-clockwise rotation (or reverse movement) on the first index event 0x1 = Clockwise rotation (or forward movement) on ..." "0,1"
bitfld.word 0x00 5. "     QDF   ,Quadrature direction flag 0x0 = Counter-clockwise rotation (or reverse movement) 0x1 = Clockwise rotation (or forward movement)" "0,1"
textline "                        "
bitfld.word 0x00 4. " QDLF      ,eQEP direction latch flag. Status of direction is latched on every index event marker. 0x0 = Counter-clockwise rotation (or reverse movement) on index event marker 0x1 = Clockwise rotation (or forward movement) on index event marker" "0,1"
bitfld.word 0x00 3. "         COEF   ,Capture overflow error flag 0x0 = Sticky bit, cleared by writing 1 0x1 = Overflow occurred in eQEP Capture timer (QEPCTMR)" "0,1"
bitfld.word 0x00 2. "     CDEF  ,Capture direction error flag 0x0 = Sticky bit, cleared by writing 1 0x1 = Direction change occurred between the capture position event." "0,1"
textline "                        "
bitfld.word 0x00 1. " FIMF      ,First index marker flag 0x0 = Sticky bit, cleared by writing 1 0x1 = Set by first occurrence of index pulse" "0,1"
bitfld.word 0x00 0. "         PCEF   ,Position counter error flag. This bit is not sticky and it is updated for every index event. 0x0 = No error occurred during the last index transition. 0x1 = Position counter error" "0,1"
group.word 0x3A++0x1
line.word 0x00 "EQEP_QCTMR,"
hexmask.word 0x00 0.--15. 1. "     QCTMR     ,This register provides time base for edge capture unit."
group.word 0x3C++0x1
line.word 0x00 "EQEP_QCPRD,"
hexmask.word 0x00 0.--15. 1. "     QCPRD     ,This register holds the period count value between the last successive eQEP position events"
rgroup.word 0x3E++0x1
line.word 0x00 "EQEP_QCTMRLAT,"
hexmask.word 0x00 0.--15. 1. "     QCTMRLAT  ,The eQEP capture timer value can be latched into this register on two events, that is, unit timeout event, reading the eQEP position counter."
group.word 0x40++0x1
line.word 0x00 "EQEP_QCPRDLAT,"
hexmask.word 0x00 0.--15. 1. "     QCPRDLAT  ,eQEP capture period value can be latched into this register on two events, that is, unit timeout event, reading the eQEP position counter."
rgroup.long 0x5C++0x3
line.long 0x00 "EQEP_REVID,"
hexmask.long 0x00 0.--31. 1. " REVISION  ,IP Revision"
width 0x0B
tree.end
tree.end
tree.end
tree.open "On_Chip_Debug_Support"
tree "DRM"
base ad:0x54160000
width 20.
group.long 0x200++0x3
line.long 0x00 "DRM_SUSPEND_CTRL0,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x204++0x3
line.long 0x00 "DRM_SUSPEND_CTRL1,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x208++0x3
line.long 0x00 "DRM_SUSPEND_CTRL2,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x20C++0x3
line.long 0x00 "DRM_SUSPEND_CTRL3,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x210++0x3
line.long 0x00 "DRM_SUSPEND_CTRL4,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x214++0x3
line.long 0x00 "DRM_SUSPEND_CTRL5,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x218++0x3
line.long 0x00 "DRM_SUSPEND_CTRL6,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x21C++0x3
line.long 0x00 "DRM_SUSPEND_CTRL7,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x220++0x3
line.long 0x00 "DRM_SUSPEND_CTRL8,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x224++0x3
line.long 0x00 "DRM_SUSPEND_CTRL9,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x228++0x3
line.long 0x00 "DRM_SUSPEND_CTRL10,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x22C++0x3
line.long 0x00 "DRM_SUSPEND_CTRL11,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x230++0x3
line.long 0x00 "DRM_SUSPEND_CTRL12,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x234++0x3
line.long 0x00 "DRM_SUSPEND_CTRL13,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x238++0x3
line.long 0x00 "DRM_SUSPEND_CTRL14,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x23C++0x3
line.long 0x00 "DRM_SUSPEND_CTRL15,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x240++0x3
line.long 0x00 "DRM_SUSPEND_CTRL16,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x244++0x3
line.long 0x00 "DRM_SUSPEND_CTRL17,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x248++0x3
line.long 0x00 "DRM_SUSPEND_CTRL18,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x24C++0x3
line.long 0x00 "DRM_SUSPEND_CTRL19,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x250++0x3
line.long 0x00 "DRM_SUSPEND_CTRL20,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x254++0x3
line.long 0x00 "DRM_SUSPEND_CTRL21,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x258++0x3
line.long 0x00 "DRM_SUSPEND_CTRL22,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x25C++0x3
line.long 0x00 "DRM_SUSPEND_CTRL23,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x260++0x3
line.long 0x00 "DRM_SUSPEND_CTRL24,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x264++0x3
line.long 0x00 "DRM_SUSPEND_CTRL25,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x268++0x3
line.long 0x00 "DRM_SUSPEND_CTRL26,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x26C++0x3
line.long 0x00 "DRM_SUSPEND_CTRL27,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x270++0x3
line.long 0x00 "DRM_SUSPEND_CTRL28,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x274++0x3
line.long 0x00 "DRM_SUSPEND_CTRL29,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x278++0x3
line.long 0x00 "DRM_SUSPEND_CTRL30,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x27C++0x3
line.long 0x00 "DRM_SUSPEND_CTRL31,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x280++0x3
line.long 0x00 "DRM_SUSPEND_CTRL32,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x284++0x3
line.long 0x00 "DRM_SUSPEND_CTRL33,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x288++0x3
line.long 0x00 "DRM_SUSPEND_CTRL34,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x28C++0x3
line.long 0x00 "DRM_SUSPEND_CTRL35,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x290++0x3
line.long 0x00 "DRM_SUSPEND_CTRL36,"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
group.long 0x294++0x3
line.long 0x00 "DRM_SUSPEND_CTRL37,susp"
bitfld.long 0x00 4.--8. " SUSPEND_SEL ,Suspend signal selection.Selects which suspend signal affects the peripheral. Only valid when SUSPEND_DEFAULT_OVERRIDE=0 and SENSCTRL=1. When read, these bits reflect the default suspend signal. 0000b: CPU suspend signal. All other values..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 3. "  SUSPEND_DEFAULT_OVERRIDE ,Enable or disable the override value in SUSPEND_SEL.0: SUSPEND_SEL field will select which suspend signal reaches the peripheral.1: SUSPEND_SEL field ignored.Default suspend signal will reach the peripheral." "0,1"
bitfld.long 0x00 0. "  SENSCTRL ,Sensitivity Control for suspend signals.When SUSPEND_DEFAULT_OVERRIDE=1, this bit is ignored and read as a 1. When SUSPEND_DEFAULT_OVERRIDE=0, 0: Suspend signal will not reach the peripheral. Peripheral will act as normal even during a debu..." "0,1"
width 0x0B
tree.end
tree.end
tree.open "Embedded_Vision_Engine_EVE_Subsystem"
tree.open "EVE1_DSP"
tree "EVE1_DSP"
base ad:0x2000000
tree "Channel_0"
width 30.
group.long 0x80700++0x3
line.long 0x00 "EVE_GPOUTm_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: Drive GP Output #n low/1 Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x80708++0x3
line.long 0x00 "EVE_GPOUTm_CLR_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: Drive GP Output #n low/1 Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x8070C++0x3
line.long 0x00 "EVE_GPOUTm_PULSE_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: No action Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1 for four cycles / then drive low/0. Read 1: GP Output #n is high/1. Note: Writing to GPOUT registers when the four cycles for the previous wri..."
group.long 0x80704++0x3
line.long 0x00 "EVE_GPOUTm_SET_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: No action Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x8052C++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_CLR_0,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80528++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_SET_0,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80524++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event."
group.long 0x80520++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_RAW_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80420++0x3
line.long 0x00 "MISR2_Dk_0,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80300++0x3
line.long 0x00 "MMR_LOCKi_0,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK  ,Lock/Unlock register for corresponding region"
tree.end
tree "Channel_1"
width 30.
group.long 0x80710++0x3
line.long 0x00 "EVE_GPOUTm_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: Drive GP Output #n low/1 Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x80718++0x3
line.long 0x00 "EVE_GPOUTm_CLR_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: Drive GP Output #n low/1 Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x8071C++0x3
line.long 0x00 "EVE_GPOUTm_PULSE_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: No action Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1 for four cycles / then drive low/0. Read 1: GP Output #n is high/1. Note: Writing to GPOUT registers when the four cycles for the previous wri..."
group.long 0x80714++0x3
line.long 0x00 "EVE_GPOUTm_SET_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: No action Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x8053C++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_CLR_1,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80538++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_SET_1,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80534++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event."
group.long 0x80530++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_RAW_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80424++0x3
line.long 0x00 "MISR2_Dk_1,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80304++0x3
line.long 0x00 "MMR_LOCKi_1,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK  ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_2"
width 30.
group.long 0x8054C++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_CLR_2,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80548++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_SET_2,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80544++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_2,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event."
group.long 0x80540++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_RAW_2,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80428++0x3
line.long 0x00 "MISR2_Dk_2,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80308++0x3
line.long 0x00 "MMR_LOCKi_2,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK  ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_3"
width 30.
group.long 0x8055C++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_CLR_3,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80558++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_SET_3,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80554++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_3,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event."
group.long 0x80550++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_RAW_3,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x8042C++0x3
line.long 0x00 "MISR2_Dk_3,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x8030C++0x3
line.long 0x00 "MMR_LOCKi_3,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK  ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_4"
width 28.
group.long 0x8021C++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_CLR_4,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80218++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_SET_4,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80214++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_4,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80210++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_RAW_4,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80310++0x3
line.long 0x00 "MMR_LOCKi_4,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_5"
width 28.
group.long 0x8022C++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_CLR_5,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80228++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_SET_5,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80224++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_5,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80220++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_RAW_5,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80314++0x3
line.long 0x00 "MMR_LOCKi_5,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_6"
width 28.
group.long 0x8023C++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_CLR_6,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80238++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_SET_6,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80234++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_6,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80230++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_RAW_6,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80318++0x3
line.long 0x00 "MMR_LOCKi_6,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_7"
width 28.
group.long 0x8024C++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_CLR_7,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80248++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_SET_7,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80244++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_7,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80240++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_RAW_7,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x8031C++0x3
line.long 0x00 "MMR_LOCKi_7,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_8"
width 28.
group.long 0x8060C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_8,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80608++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_8,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80604++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_8,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80600++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_8,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80320++0x3
line.long 0x00 "MMR_LOCKi_8,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_9"
width 28.
group.long 0x8061C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_9,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80618++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_9,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80614++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_9,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80610++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_9,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80324++0x3
line.long 0x00 "MMR_LOCKi_9,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_10"
width 29.
group.long 0x8062C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_10,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80628++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_10,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80624++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_10,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80620++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_10,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
tree.end
tree "IRQ_Line_11"
width 29.
group.long 0x8063C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_11,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80638++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_11,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80634++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_11,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80630++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_11,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
tree.end
tree "IRQ_Line_12"
width 29.
group.long 0x8064C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_12,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80648++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_12,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80644++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_12,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80640++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_12,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
tree.end
tree "IRQ_Line_13"
width 29.
group.long 0x8065C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_13,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80658++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_13,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80654++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_13,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80650++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_13,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
tree.end
textline ""
width 27.
rgroup.long 0x80000++0x3
line.long 0x00 "EVE_REVISION,"
hexmask.long 0x00 0.--31. 1. " REVISION              ,Revision"
rgroup.long 0x80004++0x3
line.long 0x00 "EVE_HWINFO,"
hexmask.long 0x00 4.--31. 1. " INFO                  ,0x0: No configurable options in EVE"
bitfld.long 0x00 0.--3. "      EVENUM               ,EVE instance number set by eve_num inputs. In a multi-EVE system must be set to unique/incrementing values for each EVE." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80008++0x3
line.long 0x00 "EVE_SYSCONFIG,"
bitfld.long 0x00 4.--5. " STANDBYMODE           ,00: Force-Standby mode: This mode is a backup mode intended to be used only if the smart-idle mode is bugged. When in this mode / the SAF asserts with minimal hardware condition the status saying :I am in standby:. It is the res..." "0,1,2,3"
bitfld.long 0x00 2.--3. "             IDLEMODE             ,00: Force-idle: This mode is a backup mode intended to be used only if the smart-idle mode is bugged. When in this mode the IAF acknowledges a request to go idle from the power manager with minimal hardware condition...." "0,1,2,3"
bitfld.long 0x00 1. "             FREEEMU              ,Resered. Note that SCTM has free control bit to define the timer operation during ARP32 debug halt mode" "0,1"
textline "                                    "
bitfld.long 0x00 0. " SOFTRESET             ,Reserved" "0,1"
rgroup.long 0x8000C++0x3
line.long 0x00 "EVE_STAT,"
bitfld.long 0x00 20.--21. " OCPI_DISC_STAT        ,OCP Initiator(s) Disconnect status2: - . - ." "0,1,2,3"
bitfld.long 0x00 16.--17. "             ARP32_DISC_STATUS    ,ARP32 Program/Data Bus Disconnect Status 2: - . - ." "0,1,2,3"
bitfld.long 0x00 8. "             INT_OUT_STAT         ,Interrupt Output status: - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " ARP_INTC_STAT         ,Interrupt Controller Status: - . - ." "0,1"
bitfld.long 0x00 5. "             TC1_STAT             ,Transfer Controller1 Status: - . - ." "Idle,Active"
bitfld.long 0x00 4. "        TC0_STAT             ,Transfer Controller0 Status: - . - ." "Idle,Active"
textline "                                    "
bitfld.long 0x00 2. " PC_STAT               ,Program Cache Status: - . - ." "Idle,1"
bitfld.long 0x00 1. "          VCOP_STAT            ,VCOP Status : - . - ." "Idle,1"
bitfld.long 0x00 0. "          ARP32_STAT           ,Program Cache Status: - . - ." "Idle,1"
group.long 0x80010++0x3
line.long 0x00 "EVE_DISC_CONFIG,Color 0 noise threshold"
bitfld.long 0x00 4. " OCPI_DISC             ,OCP Initiator Disconnect request: - . - ." "0,1"
bitfld.long 0x00 0. "             ARP32_DISC           ,ARP32 Initiator Disconnect request. - . - ." "0,1"
group.long 0x80014++0x3
line.long 0x00 "EVE_BUS_CONFIG,Color 0 noise threshold"
bitfld.long 0x00 12.--13. " TC1_DBS               ,TC1 default burst size. 00: 16 byte, 01: 32 byte, 10: 64 byte, 11: 128 byte (recommended)" "0,1,2,3"
bitfld.long 0x00 8.--9. "             TC0_DBS              ,TC0 default burst size. 00: 16 byte, 01: 32 byte, 10: 64 byte, 11: 128 byte (recommended)" "0,1,2,3"
bitfld.long 0x00 4. "             DBP_ENABLE           ,Program Cache Demand Based Prefetch enable: - . - ." "DBP_disabled,DBP_enabled"
textline "                                    "
bitfld.long 0x00 0.--3. " MAX_IN_FLIGHT         ,Defines maximum number of OCP requests in flight. Can be reduced to limit the peak bandwidth for software direct preload, which in turn may provide advantage to other EVE level (e.g. EDMA) or system-level initiators. 0: Reserved..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80018++0x3
line.long 0x00 "EVE_VCOP_HALT_CONFIG,"
bitfld.long 0x00 2. " FORCE_ABORT           ,VCOP Force Abort Write: Read always returns 0s - Write 0 has no effect. . - . - ." "0,1"
bitfld.long 0x00 1. "             MSW_EN               ,VCOP Memory Seitch Error Halt Enable: - . - ." "Disabled,1"
bitfld.long 0x00 0. "      ED_EN                ,VCOP Parity Error Detect Halt Enable: - . - ." "Disabled,1"
group.long 0x8001C++0x3
line.long 0x00 "EVE_MMU_CONFIG,"
bitfld.long 0x00 12. " MMU1_ABORT            ,Causes the MMU to abort the current operation in case of lockup" "0,1"
bitfld.long 0x00 8. "             MMU0_ABORT           ,Causes the MMU to abort the current operation in case of lockup" "0,1"
bitfld.long 0x00 4. "             MMU1_EN              ,Clearing this bit disables MMU table lookup and causes accesses to use the non-translated address. This bit defaults to enabled but an identical bit within an MMU configuration register defaults to disabled and must b..." "0,1"
textline "                                    "
bitfld.long 0x00 0. " MMU0_EN               ,Clearing this bit disables MMU table lookup and causes accesses to use the non-translated address. This bit defaults to enabled but an identical bit within an MMU configuration register defaults to disabled and must be set after..." "0,1"
group.long 0x80020++0x3
line.long 0x00 "EVE_MEMMAP,"
bitfld.long 0x00 4. " LCL_EDMA_ALIAS        ,0: Local EDMA views full memory map - ." "0,1"
bitfld.long 0x00 0. "             VCOP_ALIAS           ,0: VCOP views full memory map - ." "0,1"
group.long 0x80024++0x3
line.long 0x00 "EVE_MSW_CTL,Memory switch control register"
bitfld.long 0x00 16. " WBUF                  ,Working buffer onwership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20). - . - ." "System_owned,VCOP_owned"
bitfld.long 0x00 12. "  IBUFHB               ,Image buffer high B ownership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20).: - . - ." "System_owned,VCOP_owned"
bitfld.long 0x00 8. "  IBUFLB               ,Image buffer low B ownership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20).: - . - ." "System_owned,VCOP_owned"
textline "                                    "
bitfld.long 0x00 4. " IBUFHA                ,Image buffer high A ownership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20).: - . - ." "System_owned,VCOP_owned"
bitfld.long 0x00 0. "  IBUFLA               ,Image buffer low A ownership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20).: - . - ." "System_owned,VCOP_owned"
group.long 0x80028++0x3
line.long 0x00 "EVE_MSW_ERR,Memory Switch Error register"
hexmask.long.word 0x00 16.--24. 1. " CONNID                ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated buffer ownership error not recorded 1 - System initiated buffer ownership error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated buffer ownership error not recorded 1 : EDMA buffer ownership error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated buffer ownership error not recorded 1 : VCOP initiated buffer ownership error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated buffer ownership error not recorded 1 : ARP32 initiated buffer ownership error detected/recorded Write 1 to clear." "0,1"
rgroup.long 0x8002C++0x3
line.long 0x00 "EVE_MSW_ERRADDR,Memory switch error address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of memory switch error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address. Va..."
group.long 0x80040++0x3
line.long 0x00 "EVE_PC_INV,Invalidate all register"
bitfld.long 0x00 0. " I                     ,Invalidate all: - . Read: 0 : Invalidate operation complete / or not in progress 1 : Invalidate operation still in progress. - ." "0,1"
group.long 0x80050++0x3
line.long 0x00 "EVE_PC_IBAR,Invalidate Base Address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Invalidate Base Address register. Defines system byte address base to be invalidated from L1P. The entire range to be invalidated is (loosely speaking) from the base address to the base address + byte count. The actual range is ..."
group.long 0x80054++0x3
line.long 0x00 "EVE_PC_IBC,Invalidate byte count register"
hexmask.long.word 0x00 0.--15. 1. " BC                    ,Invalidate Byte Count register. Defines number of bytes relative to Invalidate Base Address (IBAR.ADDR) to be invalidated from L1P. Maximum of 32k (0x8000). Reads return 0x0 when invalidate range operation is complete."
group.long 0x80058++0x3
line.long 0x00 "EVE_PC_ISAR,Invalidate single address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Invalidate Single Address register. Defines system byte address (1 line only) to be invalidated from L1P. Reads return 0x0 when the invalidate operation is complete."
rgroup.long 0x8005C++0x3
line.long 0x00 "EVE_PC_ISAR_DONE,Invalidate single address done register"
bitfld.long 0x00 0. " DONE                  ,Reads return 0x1 when the invalidate operation is complete. Cleared on the next write to theEVE_PC_ISAR register" "0,1"
group.long 0x80060++0x3
line.long 0x00 "EVE_PC_PBAR,Program cache preload base address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Preload Base Address register. Defines system byte address base to be Preloaded into L1P. The entire range to be Preloaded is (loosely speaking) from the base address to the base address + byte count. The actual range is inclusi..."
group.long 0x80064++0x3
line.long 0x00 "EVE_PC_PBC,"
hexmask.long.word 0x00 0.--15. 1. " BC                    ,Preload Byte Count register. Defines number of bytes relative to Preload Base Address (PBAR.ADDR) to be Preloaded into L1P. Maximum of 32k (0x8000). Reads return 0x0 when Preload range operation is complete"
group.long 0x80080++0x3
line.long 0x00 "EVE_PMEM_ED_CTL,Program Memory Error Detection Control register"
bitfld.long 0x00 1. " INV                   ,Read 0: Error detection logic is not inverted. Read 1: Error detection logic is inverted. Writes to memory set parity as normal. Reds from meory return inverse of parity bit. - Write 0 to clear, write 1 to set. Must be set when ..." "0,1"
bitfld.long 0x00 0. "             EN                   ,Error detection logic enable. Writes update parity, reads check parity - . - ." "Disabled,Enabled"
group.long 0x80084++0x3
line.long 0x00 "EVE_PMEM_ED_STAT,Error detection status register"
hexmask.long.word 0x00 16.--24. 1. " SYSCONNID             ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated parity error not recorded 1 - System initiated parity error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated parity error not recorded 1 : EDMA parity error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated parity error not recorded 1 : VCOP initiated parity error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated parity error not recorded 1 : ARP32 initiated parity error detected/recorded Write 1 to clear" "0,1"
rgroup.long 0x80088++0x3
line.long 0x00 "EVE_PMEM_EDADDR,Program memory error detection address"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of parity error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address."
group.long 0x80090++0x3
line.long 0x00 "EVE_DMEM_ED_CTL,DMEM error detection control"
bitfld.long 0x00 1. " INV                   ,Read 0: Error detection logic is not inverted. Read 1: Error detection logic is inverted. Writes to memory set parity as normal. Reads from meory return inverse of parity bit. - Write 0 to clear, write 1 to set. Must be set when..." "0,1"
bitfld.long 0x00 0. "             EN                   ,Error detection logic enable. Writes update parity, reads check parity - . - ." "Disabled,Enabled"
group.long 0x80094++0x3
line.long 0x00 "EVE_DMEM_ED_STAT,DMEM error detection status register"
hexmask.long.word 0x00 16.--24. 1. " SYSCONNID             ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated parity error not recorded 1 - System initiated parity error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated parity error not recorded 1 : EDMA parity error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated parity error not recorded 1 : VCOP initiated parity error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated parity error not recorded 1 : ARP32 initiated parity error detected/recorded Write 1 to clear" "0,1"
rgroup.long 0x80098++0x3
line.long 0x00 "EVE_DMEM_EDADDR,DMEM error detection address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of parity error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address."
rgroup.long 0x8009C++0x3
line.long 0x00 "EVE_DMEM_EDADDR_BO,DMEM error detection address byte offset register"
hexmask.long 0x00 0.--31. 1. " BO                    ,Address byte offset for parity error. Indicates that an error has occured in byte offset #n. 0: No error occuredin byte offset #n; 1: Error occured in byte offset #n. Write to clear any of MEM.SYSERR/DMARR/ARP32/or VERR."
group.long 0x800A0++0x3
line.long 0x00 "EVE_WBUF_ED_CTL,WBUF error detection control"
bitfld.long 0x00 1. " INV                   ,Read 0: Error detection logic is not inverted. Read 1: Error detection logic is inverted. Writes to memory set parity as normal. Reads from meory return inverse of parity bit. - Write 0 to clea Write 1 to set. Must be set when E..." "0,1"
bitfld.long 0x00 0. "             EN                   ,Error detection logic enable. Writes update parity, reads check parity - . - ." "Disabled,Enabled"
group.long 0x800A4++0x3
line.long 0x00 "EVE_WBUF_ED_STAT,WBUF error detection status register"
hexmask.long.word 0x00 16.--24. 1. " SYSCONNID             ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated parity error not recorded 1 - System initiated parity error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated parity error not recorded 1 : EDMA parity error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated parity error not recorded 1 : VCOP initiated parity error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated parity error not recorded 1 : ARP32 initiated parity error detected/recorded Write 1 to clear" "0,1"
rgroup.long 0x800A8++0x3
line.long 0x00 "EVE_WBUF_EDADDR,WBUF error detection address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of parity error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address."
rgroup.long 0x800AC++0x3
line.long 0x00 "EVE_WBUF_EDADDR_BO,WBUF error detection address byte offset register"
hexmask.long 0x00 0.--31. 1. " BO                    ,Address byte offset for parity error. Indicates that an error has occured in byte offset #n. 0: No error occuredin byte offset #n; 1: Error occured in byte offset #n. Write to clear any of MEM.SYSERR/DMARR/ARP32/or VERR."
group.long 0x800B0++0x3
line.long 0x00 "EVE_IBUF_ED_CTL,IBUF error detection control"
bitfld.long 0x00 1. " INV                   ,Read 0: Error detection logic is not inverted. Read 1: Error detection logic is inverted. Writes to memory set parity as normal. Reads from meory return inverse of parity bit. - Write 0 to clear, write 1 to set. Must be set when..." "0,1"
bitfld.long 0x00 0. "             EN                   ,Error detection logic enable. Writes update parity, reads check parity - . - ." "Disabled,Enabled"
group.long 0x800B4++0x3
line.long 0x00 "EVE_IBUF_ED_STAT,IBUF error detection status register"
hexmask.long.word 0x00 16.--24. 1. " SYSCONNID             ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated parity error not recorded 1 - System initiated parity error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated parity error not recorded 1 : EDMA parity error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated parity error not recorded 1 : VCOP initiated parity error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated parity error not recorded 1 : ARP32 initiated parity error detected/recorded Write 1 to clear" "0,1"
rgroup.long 0x800B8++0x3
line.long 0x00 "EVE_IBUF_EDADDR,IBUF error detection address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of parity error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address."
rgroup.long 0x800BC++0x3
line.long 0x00 "EVE_IBUF_EDADDR_BO,IBUF error detection address byte offset register"
hexmask.long 0x00 0.--31. 1. " BO                    ,Address byte offset for parity error. Indicates that an error has occured in byte offset #n. 0: No error occuredin byte offset #n; 1: Error occured in byte offset #n. Write to clear any of MEM.SYSERR/DMARR/ARP32/or VERR."
group.long 0x800F8++0x3
line.long 0x00 "EVE_ED_ARP32_DISC_EN,ARP32 disconnect enable register"
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Disconnect Enable for Event #n 0: Disconnect disabled 1: Disconnect enabled"
group.long 0x800FC++0x3
line.long 0x00 "EVE_ED_OCPI_DISC_EN,OCP interface disconnect enable register"
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Disconnect Enable for Event #n. 0: Disconnect disabled 1: Disconnect enabled"
group.long 0x80110++0x3
line.long 0x00 "EVE_MSW_ERR_IRQSTATUS_RAW,Per event memory switch error interrupt status register."
bitfld.long 0x00 0.--3. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80114++0x3
line.long 0x00 "EVE_MSW_ERR_IRQSTATUS,Memory switch error interrupt status register."
bitfld.long 0x00 0.--3. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80118++0x3
line.long 0x00 "EVE_MSW_ERR_IRQENABLE_SET,Memory switch error interrupt enable register."
bitfld.long 0x00 0.--3. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x8011C++0x3
line.long 0x00 "EVE_MSW_ERR_IRQENABLE_CLR,Memory switch error interrupt clear register."
bitfld.long 0x00 0.--3. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80120++0x3
line.long 0x00 "EVE_ED_LCL_IRQSTATUS_RAW,Per event error detection local interrupt status register."
hexmask.long.word 0x00 0.--15. 1. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80124++0x3
line.long 0x00 "EVE_ED_LCL_IRQSTATUS,Error detection local interrupt status register."
hexmask.long.word 0x00 0.--15. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80128++0x3
line.long 0x00 "EVE_ED_LCL_IRQENABLE_SET,Error detection local interrupt enable register."
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8012C++0x3
line.long 0x00 "EVE_ED_LCL_IRQENABLE_CLR,Error detection local interrupt clear register."
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80200++0x3
line.long 0x00 "ARP32_NMI_IRQSTATUS_RAW,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80204++0x3
line.long 0x00 "ARP32_NMI_IRQSTATUS,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80208++0x3
line.long 0x00 "ARP32_NMI_IRQENABLE_SET,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8020C++0x3
line.long 0x00 "ARP32_NMI_IRQENABLE_CLR,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x802FC++0x3
line.long 0x00 "ARP32_IRQWAKEEN,Wake enable register"
hexmask.long.tbyte 0x00 0.--23. 1. " ENABLE                ,Wakeup Enable for event EVE_EVT_INT #n 0: Interrupt #n disabled for wakeup 1: Interrupt #n enabled for wakeup"
group.long 0x80400++0x3
line.long 0x00 "MISR_CTL,"
bitfld.long 0x00 0.--2. " ENABLE                ,MISR Enable #N 0: MISR #n disabled 1: MISR #n enabled Bit 0: MISR 0 - ARP32 PMEM path Bit 1: MISR 1 - ARP32 DMEM path Bit 2: MISR 2 - INTC WBUF path" "0,1,2,3,4,5,6,7"
group.long 0x80404++0x3
line.long 0x00 "MISR_CLEAR,"
bitfld.long 0x00 0.--2. " CLEAR                 ,MISR Clear #N Write 0: no effect Write 1: Clear MISR #n Read 0: Previous MISR clear command has completed. Read 1: MISR Clear in progress (this state may never actually be readable)" "0,1,2,3,4,5,6,7"
group.long 0x80410++0x3
line.long 0x00 "MISR0_A,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE             ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80414++0x3
line.long 0x00 "MISR0_D,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE             ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80418++0x3
line.long 0x00 "MISR1_A,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE             ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x8041C++0x3
line.long 0x00 "MISR1_D,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE             ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80500++0x3
line.long 0x00 "EVE_IRQ_EOI,"
bitfld.long 0x00 0.--2. " LINE_NUMBER           ,Software End Of Interrupt (EOI) control. Write number of interrupt output to force re-evaluation of associated pending interrupts. Refer to Section Error: Reference source not found for EOI mapping. Reads always return 0x0. Writ..." "0,1,2,3,4,5,6,7"
group.long 0x80510++0x3
line.long 0x00 "EVE_ED_OUT_IRQSTATUS_RAW,"
hexmask.long.word 0x00 0.--15. 1. " EVENT                 ,Settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80514++0x3
line.long 0x00 "EVE_ED_OUT_IRQSTATUS,"
hexmask.long.word 0x00 0.--15. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80518++0x3
line.long 0x00 "EVE_ED_OUT_IRQENABLE_SET,"
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8051C++0x3
line.long 0x00 "EVE_ED_OUT_IRQENABLE_CLR,"
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
rgroup.long 0x80680++0x3
line.long 0x00 "ARP32_INT14_IRQSTATUS_RAW,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80684++0x3
line.long 0x00 "ARP32_INT14_IRQSTATUS,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80688++0x3
line.long 0x00 "ARP32_INT14_IRQENABLE_SET,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8068C++0x3
line.long 0x00 "ARP32_INT14_IRQENABLE_CLR,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
rgroup.long 0x80690++0x3
line.long 0x00 "ARP32_INT15_IRQSTATUS_RAW,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80694++0x3
line.long 0x00 "ARP32_INT15_IRQSTATUS,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80698++0x3
line.long 0x00 "ARP32_INT15_IRQENABLE_SET,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8069C++0x3
line.long 0x00 "ARP32_INT15_IRQENABLE_CLR,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
rgroup.long 0x80740++0x3
line.long 0x00 "EVE_GPIN0,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,GP Input #n Read 0: GP Input #n is low/0. Read 1: GP Input is high/1."
rgroup.long 0x80744++0x3
line.long 0x00 "EVE_GPIN1,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,GP Input #n Read 0: GP Input #n is low/0. Read 1: GP Input is high/1."
group.long 0x80780++0x3
line.long 0x00 "EVE_CME_DONE_GPOUT,"
hexmask.long.byte 0x00 0.--7. 1. " EVENT                 ,Internal CME Done Output #n. Write 0: Drive Internal CME Done #n low/1 Read 0: Drive Internal CME Done #n is low/0. Write 1: Drive Internal CME Done #n high/1. Read 1: Internal CME Done is high/1."
group.long 0x80784++0x3
line.long 0x00 "EVE_CME_DONE_GPOUT_SET,"
hexmask.long.byte 0x00 0.--7. 1. " EVENT                 ,Internal CME Done #n Write 0: No action Read 0: Internal CME Done #n is low/0. Write 1: Drive Internal CME Done #n high/1. Read 1: Internal CME Done is high/1."
group.long 0x80788++0x3
line.long 0x00 "EVE_CME_DONE_GPOUT_CLR,"
hexmask.long.byte 0x00 0.--7. 1. " EVENT                 ,Internal CME Done #n Write 0: No action Read 0: Internal CME Done #n is low/0. Write 1: Drive Internal CME Done #n low/0. Read 1: Internal CME Done #n is high/1."
group.long 0x8078C++0x3
line.long 0x00 "EVE_CME_DONE_GPOUT_PULSE,"
hexmask.long.byte 0x00 0.--7. 1. " EVENT                 ,Internal CME Done #n Write 0: No action Read 0: Internal CME Done #n is low/0. Write 1: Drive Internal CME Done #n high/1 for four cycles / then drive low/0. Read 1: Internal CME Done #n is high/1. Note: Writing to GPOUT registe..."
group.long 0x80790++0x3
line.long 0x00 "EVE_CME_DONE_SEL,"
bitfld.long 0x00 28.--31. " SEL7                  ,CME Done Output select for Bit #7 (n=7) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "            SEL6                 ,CME Done Output select for Bit #6 (n=6) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "            SEL5                 ,CME Done Output select for Bit #5 (n=5)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                    "
bitfld.long 0x00 16.--19. " SEL4                  ,CME Done Output select for Bit #4 (n=4) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "            SEL3                 ,CME Done Output select for Bit #3 (n=3) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "            SEL2                 ,CME Done Output select for Bit #2 (n=2) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                    "
bitfld.long 0x00 4.--7. " SEL1                  ,CME Done Output select for Bit #1 (n=1) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "            SEL0                 ,CME Done Output select for Bit #0 (n=0) 0: Driven by EDMA cc_int0 1: Driven by EDMA cc_int1 2: Driven by EDMA cc_int2 3: Driven by EDMA cc_int3 4: Driven by EDMA cc_int4 5: Driven by EDMA cc_int5 6: Driven by EDMA cc_i..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80794++0x3
line.long 0x00 "EVE_CME_DONE_EN,"
hexmask.long.byte 0x00 0.--7. 1. " EN                    ,EVE CME Done EN #n Write 0: No action Read 0: EVE CME Done #n is disabled. Write 1: Enable EVE CME Done #n event. This allows the status of the CME Done #n to propagate to the output. Read 1: EVE CME Done #n is enabled."
rgroup.long 0x80FE0++0x3
line.long 0x00 "EVE_PM_STAT0,"
bitfld.long 0x00 28.--30. " OCPM1_SCONNECT        ,Readable state of OCP Power management handshake" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--25. "             OCPM1_MCONNECT       ,Readable state of OCP Power management handshake" "0,1,2,3"
bitfld.long 0x00 20.--22. "             OCPM0_SCONNECT       ,Readable state of OCP Power management handshake" "0,1,2,3,4,5,6,7"
textline "                                    "
bitfld.long 0x00 16.--17. " OCPM0_MCONNECT        ,Readable state of OCP Power management handshake" "0,1,2,3"
bitfld.long 0x00 12.--14. "             OCPS_SCONNECT        ,Readable state of OCP Power management handshake" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--9. "             OCPS_MCONNECT        ,Readable state of OCP Power management handshake" "0,1,2,3"
textline "                                    "
bitfld.long 0x00 5. " MWAIT                 ,Readable state of OCP Power management handshake" "0,1"
bitfld.long 0x00 4. "             MSTANDBY             ,Readable state of OCP Power management handshake" "0,1"
bitfld.long 0x00 3. "             SWAKEUP              ,Readable state of OCP Power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 1.--2. " SIDLEACK              ,Readable state of OCP Power management handshake" "0,1,2,3"
bitfld.long 0x00 0. "             SIDLEREQ             ,Readable state of OCP Power management handshake" "0,1"
group.long 0x80FE4++0x3
line.long 0x00 "EVE_PM_STAT1,"
bitfld.long 0x00 22.--23. " STBY_MDISCACK_OCPM1   ,Readable state of internal power management handshake" "0,1,2,3"
bitfld.long 0x00 20.--21. "             STBY_MDISCACK_OCPM0  ,Readable state of internal power management handshake" "0,1,2,3"
bitfld.long 0x00 19. "             STBY_MDISCREQ_OCPM1  ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 18. " STBY_MDISCREQ_OCPM0   ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 17. "             IDLE_SDISCONNECT_ACK ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 16. "             IDLE_SDISCONNECT_REQ ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 15. " EVE_IDLE_INTR_DISABLE ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 14. "             TPTC1_MWAIT          ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 13. "             TPTC0_MWAIT          ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 12. " EVE_PCACHE_OCP_BUSY   ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 11. "             EVE_CONTROL_SIDLEACK ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 10. "             SMSET_SIDLEACK       ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 9. " L2_EVE_SIDLEACK       ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 8. "             MMU1_CONFIG_SIDLEACK ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 7. "             MMU1_SIDLEACK        ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 6. " MMU0_CONFIG_SIDLEACK  ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 5. "             MMU0_SIDLEACK        ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 4. "             SCTM_SIDLEACK        ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 3. " TPCC_SIDLEACK         ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 2. "             TPTC1_SIDLEACK       ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 1. "             TPTC0_SIDLEACK       ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 0. " SUBMODULE_IDLE_REQ    ," "0,1"
group.long 0x80FE8++0x3
line.long 0x00 "EVE_DBGOUT,"
hexmask.long.tbyte 0x00 8.--31. 1. " VALUE                 ,Read returns state of eve_dbgout bus."
bitfld.long 0x00 0.--3. "        GROUP                ,Debug Group Output control : mux select 0x0 : disabled / all debug outputs driven to 0x0. 0x1 : select output group1 0x2 : select output group2 : 0xN : select output groupN Others - reserved" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80FF4++0x3
line.long 0x00 "EVE_RSVD0,"
hexmask.long 0x00 0.--31. 1. " VAL                   ,Value; This register is reserved for any necessary ECOs that may be required later in the design cycle."
group.long 0x80FF8++0x3
line.long 0x00 "EVE_RSVD1,"
hexmask.long 0x00 0.--31. 1. " VAL                   ,Value; This register is reserved for any necessary ECOs that may be required later in the design cycle."
group.long 0x80FFC++0x3
line.long 0x00 "EVE_TEST,"
hexmask.long 0x00 0.--31. 1. " VAL                   ,Value; This register is reserved for any necessary ECOs that may be required later in the design cycle."
width 0x0B
tree.end
tree "EVE2_DSP"
base ad:0x2100000
tree "Channel_0"
width 30.
group.long 0x80700++0x3
line.long 0x00 "EVE_GPOUTm_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: Drive GP Output #n low/1 Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x80708++0x3
line.long 0x00 "EVE_GPOUTm_CLR_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: Drive GP Output #n low/1 Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x8070C++0x3
line.long 0x00 "EVE_GPOUTm_PULSE_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: No action Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1 for four cycles / then drive low/0. Read 1: GP Output #n is high/1. Note: Writing to GPOUT registers when the four cycles for the previous wri..."
group.long 0x80704++0x3
line.long 0x00 "EVE_GPOUTm_SET_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: No action Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x8052C++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_CLR_0,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80528++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_SET_0,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80524++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event."
group.long 0x80520++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_RAW_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80420++0x3
line.long 0x00 "MISR2_Dk_0,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80300++0x3
line.long 0x00 "MMR_LOCKi_0,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK  ,Lock/Unlock register for corresponding region"
tree.end
tree "Channel_1"
width 30.
group.long 0x80710++0x3
line.long 0x00 "EVE_GPOUTm_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: Drive GP Output #n low/1 Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x80718++0x3
line.long 0x00 "EVE_GPOUTm_CLR_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: Drive GP Output #n low/1 Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x8071C++0x3
line.long 0x00 "EVE_GPOUTm_PULSE_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: No action Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1 for four cycles / then drive low/0. Read 1: GP Output #n is high/1. Note: Writing to GPOUT registers when the four cycles for the previous wri..."
group.long 0x80714++0x3
line.long 0x00 "EVE_GPOUTm_SET_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: No action Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x8053C++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_CLR_1,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80538++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_SET_1,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80534++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event."
group.long 0x80530++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_RAW_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80424++0x3
line.long 0x00 "MISR2_Dk_1,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80304++0x3
line.long 0x00 "MMR_LOCKi_1,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK  ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_2"
width 30.
group.long 0x8054C++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_CLR_2,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80548++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_SET_2,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80544++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_2,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event."
group.long 0x80540++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_RAW_2,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80428++0x3
line.long 0x00 "MISR2_Dk_2,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80308++0x3
line.long 0x00 "MMR_LOCKi_2,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK  ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_3"
width 30.
group.long 0x8055C++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_CLR_3,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80558++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_SET_3,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80554++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_3,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event."
group.long 0x80550++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_RAW_3,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x8042C++0x3
line.long 0x00 "MISR2_Dk_3,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x8030C++0x3
line.long 0x00 "MMR_LOCKi_3,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK  ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_4"
width 28.
group.long 0x8021C++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_CLR_4,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80218++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_SET_4,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80214++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_4,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80210++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_RAW_4,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80310++0x3
line.long 0x00 "MMR_LOCKi_4,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_5"
width 28.
group.long 0x8022C++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_CLR_5,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80228++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_SET_5,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80224++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_5,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80220++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_RAW_5,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80314++0x3
line.long 0x00 "MMR_LOCKi_5,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_6"
width 28.
group.long 0x8023C++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_CLR_6,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80238++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_SET_6,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80234++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_6,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80230++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_RAW_6,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80318++0x3
line.long 0x00 "MMR_LOCKi_6,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_7"
width 28.
group.long 0x8024C++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_CLR_7,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80248++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_SET_7,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80244++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_7,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80240++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_RAW_7,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x8031C++0x3
line.long 0x00 "MMR_LOCKi_7,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_8"
width 28.
group.long 0x8060C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_8,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80608++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_8,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80604++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_8,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80600++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_8,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80320++0x3
line.long 0x00 "MMR_LOCKi_8,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_9"
width 28.
group.long 0x8061C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_9,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80618++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_9,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80614++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_9,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80610++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_9,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80324++0x3
line.long 0x00 "MMR_LOCKi_9,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_10"
width 29.
group.long 0x8062C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_10,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80628++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_10,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80624++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_10,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80620++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_10,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
tree.end
tree "IRQ_Line_11"
width 29.
group.long 0x8063C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_11,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80638++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_11,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80634++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_11,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80630++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_11,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
tree.end
tree "IRQ_Line_12"
width 29.
group.long 0x8064C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_12,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80648++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_12,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80644++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_12,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80640++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_12,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
tree.end
tree "IRQ_Line_13"
width 29.
group.long 0x8065C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_13,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80658++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_13,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80654++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_13,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80650++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_13,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
tree.end
textline ""
width 27.
rgroup.long 0x80000++0x3
line.long 0x00 "EVE_REVISION,"
hexmask.long 0x00 0.--31. 1. " REVISION              ,Revision"
rgroup.long 0x80004++0x3
line.long 0x00 "EVE_HWINFO,"
hexmask.long 0x00 4.--31. 1. " INFO                  ,0x0: No configurable options in EVE"
bitfld.long 0x00 0.--3. "      EVENUM               ,EVE instance number set by eve_num inputs. In a multi-EVE system must be set to unique/incrementing values for each EVE." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80008++0x3
line.long 0x00 "EVE_SYSCONFIG,"
bitfld.long 0x00 4.--5. " STANDBYMODE           ,00: Force-Standby mode: This mode is a backup mode intended to be used only if the smart-idle mode is bugged. When in this mode / the SAF asserts with minimal hardware condition the status saying :I am in standby:. It is the res..." "0,1,2,3"
bitfld.long 0x00 2.--3. "             IDLEMODE             ,00: Force-idle: This mode is a backup mode intended to be used only if the smart-idle mode is bugged. When in this mode the IAF acknowledges a request to go idle from the power manager with minimal hardware condition...." "0,1,2,3"
bitfld.long 0x00 1. "             FREEEMU              ,Resered. Note that SCTM has free control bit to define the timer operation during ARP32 debug halt mode" "0,1"
textline "                                    "
bitfld.long 0x00 0. " SOFTRESET             ,Reserved" "0,1"
rgroup.long 0x8000C++0x3
line.long 0x00 "EVE_STAT,"
bitfld.long 0x00 20.--21. " OCPI_DISC_STAT        ,OCP Initiator(s) Disconnect status2: - . - ." "0,1,2,3"
bitfld.long 0x00 16.--17. "             ARP32_DISC_STATUS    ,ARP32 Program/Data Bus Disconnect Status 2: - . - ." "0,1,2,3"
bitfld.long 0x00 8. "             INT_OUT_STAT         ,Interrupt Output status: - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " ARP_INTC_STAT         ,Interrupt Controller Status: - . - ." "0,1"
bitfld.long 0x00 5. "             TC1_STAT             ,Transfer Controller1 Status: - . - ." "Idle,Active"
bitfld.long 0x00 4. "        TC0_STAT             ,Transfer Controller0 Status: - . - ." "Idle,Active"
textline "                                    "
bitfld.long 0x00 2. " PC_STAT               ,Program Cache Status: - . - ." "Idle,1"
bitfld.long 0x00 1. "          VCOP_STAT            ,VCOP Status : - . - ." "Idle,1"
bitfld.long 0x00 0. "          ARP32_STAT           ,Program Cache Status: - . - ." "Idle,1"
group.long 0x80010++0x3
line.long 0x00 "EVE_DISC_CONFIG,Color 0 noise threshold"
bitfld.long 0x00 4. " OCPI_DISC             ,OCP Initiator Disconnect request: - . - ." "0,1"
bitfld.long 0x00 0. "             ARP32_DISC           ,ARP32 Initiator Disconnect request. - . - ." "0,1"
group.long 0x80014++0x3
line.long 0x00 "EVE_BUS_CONFIG,Color 0 noise threshold"
bitfld.long 0x00 12.--13. " TC1_DBS               ,TC1 default burst size. 00: 16 byte, 01: 32 byte, 10: 64 byte, 11: 128 byte (recommended)" "0,1,2,3"
bitfld.long 0x00 8.--9. "             TC0_DBS              ,TC0 default burst size. 00: 16 byte, 01: 32 byte, 10: 64 byte, 11: 128 byte (recommended)" "0,1,2,3"
bitfld.long 0x00 4. "             DBP_ENABLE           ,Program Cache Demand Based Prefetch enable: - . - ." "DBP_disabled,DBP_enabled"
textline "                                    "
bitfld.long 0x00 0.--3. " MAX_IN_FLIGHT         ,Defines maximum number of OCP requests in flight. Can be reduced to limit the peak bandwidth for software direct preload, which in turn may provide advantage to other EVE level (e.g. EDMA) or system-level initiators. 0: Reserved..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80018++0x3
line.long 0x00 "EVE_VCOP_HALT_CONFIG,"
bitfld.long 0x00 2. " FORCE_ABORT           ,VCOP Force Abort Write: Read always returns 0s - Write 0 has no effect. . - . - ." "0,1"
bitfld.long 0x00 1. "             MSW_EN               ,VCOP Memory Seitch Error Halt Enable: - . - ." "Disabled,1"
bitfld.long 0x00 0. "      ED_EN                ,VCOP Parity Error Detect Halt Enable: - . - ." "Disabled,1"
group.long 0x8001C++0x3
line.long 0x00 "EVE_MMU_CONFIG,"
bitfld.long 0x00 12. " MMU1_ABORT            ,Causes the MMU to abort the current operation in case of lockup" "0,1"
bitfld.long 0x00 8. "             MMU0_ABORT           ,Causes the MMU to abort the current operation in case of lockup" "0,1"
bitfld.long 0x00 4. "             MMU1_EN              ,Clearing this bit disables MMU table lookup and causes accesses to use the non-translated address. This bit defaults to enabled but an identical bit within an MMU configuration register defaults to disabled and must b..." "0,1"
textline "                                    "
bitfld.long 0x00 0. " MMU0_EN               ,Clearing this bit disables MMU table lookup and causes accesses to use the non-translated address. This bit defaults to enabled but an identical bit within an MMU configuration register defaults to disabled and must be set after..." "0,1"
group.long 0x80020++0x3
line.long 0x00 "EVE_MEMMAP,"
bitfld.long 0x00 4. " LCL_EDMA_ALIAS        ,0: Local EDMA views full memory map - ." "0,1"
bitfld.long 0x00 0. "             VCOP_ALIAS           ,0: VCOP views full memory map - ." "0,1"
group.long 0x80024++0x3
line.long 0x00 "EVE_MSW_CTL,Memory switch control register"
bitfld.long 0x00 16. " WBUF                  ,Working buffer onwership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20). - . - ." "System_owned,VCOP_owned"
bitfld.long 0x00 12. "  IBUFHB               ,Image buffer high B ownership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20).: - . - ." "System_owned,VCOP_owned"
bitfld.long 0x00 8. "  IBUFLB               ,Image buffer low B ownership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20).: - . - ." "System_owned,VCOP_owned"
textline "                                    "
bitfld.long 0x00 4. " IBUFHA                ,Image buffer high A ownership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20).: - . - ." "System_owned,VCOP_owned"
bitfld.long 0x00 0. "  IBUFLA               ,Image buffer low A ownership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20).: - . - ." "System_owned,VCOP_owned"
group.long 0x80028++0x3
line.long 0x00 "EVE_MSW_ERR,Memory Switch Error register"
hexmask.long.word 0x00 16.--24. 1. " CONNID                ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated buffer ownership error not recorded 1 - System initiated buffer ownership error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated buffer ownership error not recorded 1 : EDMA buffer ownership error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated buffer ownership error not recorded 1 : VCOP initiated buffer ownership error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated buffer ownership error not recorded 1 : ARP32 initiated buffer ownership error detected/recorded Write 1 to clear." "0,1"
rgroup.long 0x8002C++0x3
line.long 0x00 "EVE_MSW_ERRADDR,Memory switch error address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of memory switch error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address. Va..."
group.long 0x80040++0x3
line.long 0x00 "EVE_PC_INV,Invalidate all register"
bitfld.long 0x00 0. " I                     ,Invalidate all: - . Read: 0 : Invalidate operation complete / or not in progress 1 : Invalidate operation still in progress. - ." "0,1"
group.long 0x80050++0x3
line.long 0x00 "EVE_PC_IBAR,Invalidate Base Address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Invalidate Base Address register. Defines system byte address base to be invalidated from L1P. The entire range to be invalidated is (loosely speaking) from the base address to the base address + byte count. The actual range is ..."
group.long 0x80054++0x3
line.long 0x00 "EVE_PC_IBC,Invalidate byte count register"
hexmask.long.word 0x00 0.--15. 1. " BC                    ,Invalidate Byte Count register. Defines number of bytes relative to Invalidate Base Address (IBAR.ADDR) to be invalidated from L1P. Maximum of 32k (0x8000). Reads return 0x0 when invalidate range operation is complete."
group.long 0x80058++0x3
line.long 0x00 "EVE_PC_ISAR,Invalidate single address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Invalidate Single Address register. Defines system byte address (1 line only) to be invalidated from L1P. Reads return 0x0 when the invalidate operation is complete."
rgroup.long 0x8005C++0x3
line.long 0x00 "EVE_PC_ISAR_DONE,Invalidate single address done register"
bitfld.long 0x00 0. " DONE                  ,Reads return 0x1 when the invalidate operation is complete. Cleared on the next write to theEVE_PC_ISAR register" "0,1"
group.long 0x80060++0x3
line.long 0x00 "EVE_PC_PBAR,Program cache preload base address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Preload Base Address register. Defines system byte address base to be Preloaded into L1P. The entire range to be Preloaded is (loosely speaking) from the base address to the base address + byte count. The actual range is inclusi..."
group.long 0x80064++0x3
line.long 0x00 "EVE_PC_PBC,"
hexmask.long.word 0x00 0.--15. 1. " BC                    ,Preload Byte Count register. Defines number of bytes relative to Preload Base Address (PBAR.ADDR) to be Preloaded into L1P. Maximum of 32k (0x8000). Reads return 0x0 when Preload range operation is complete"
group.long 0x80080++0x3
line.long 0x00 "EVE_PMEM_ED_CTL,Program Memory Error Detection Control register"
bitfld.long 0x00 1. " INV                   ,Read 0: Error detection logic is not inverted. Read 1: Error detection logic is inverted. Writes to memory set parity as normal. Reds from meory return inverse of parity bit. - Write 0 to clear, write 1 to set. Must be set when ..." "0,1"
bitfld.long 0x00 0. "             EN                   ,Error detection logic enable. Writes update parity, reads check parity - . - ." "Disabled,Enabled"
group.long 0x80084++0x3
line.long 0x00 "EVE_PMEM_ED_STAT,Error detection status register"
hexmask.long.word 0x00 16.--24. 1. " SYSCONNID             ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated parity error not recorded 1 - System initiated parity error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated parity error not recorded 1 : EDMA parity error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated parity error not recorded 1 : VCOP initiated parity error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated parity error not recorded 1 : ARP32 initiated parity error detected/recorded Write 1 to clear" "0,1"
rgroup.long 0x80088++0x3
line.long 0x00 "EVE_PMEM_EDADDR,Program memory error detection address"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of parity error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address."
group.long 0x80090++0x3
line.long 0x00 "EVE_DMEM_ED_CTL,DMEM error detection control"
bitfld.long 0x00 1. " INV                   ,Read 0: Error detection logic is not inverted. Read 1: Error detection logic is inverted. Writes to memory set parity as normal. Reads from meory return inverse of parity bit. - Write 0 to clear, write 1 to set. Must be set when..." "0,1"
bitfld.long 0x00 0. "             EN                   ,Error detection logic enable. Writes update parity, reads check parity - . - ." "Disabled,Enabled"
group.long 0x80094++0x3
line.long 0x00 "EVE_DMEM_ED_STAT,DMEM error detection status register"
hexmask.long.word 0x00 16.--24. 1. " SYSCONNID             ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated parity error not recorded 1 - System initiated parity error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated parity error not recorded 1 : EDMA parity error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated parity error not recorded 1 : VCOP initiated parity error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated parity error not recorded 1 : ARP32 initiated parity error detected/recorded Write 1 to clear" "0,1"
rgroup.long 0x80098++0x3
line.long 0x00 "EVE_DMEM_EDADDR,DMEM error detection address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of parity error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address."
rgroup.long 0x8009C++0x3
line.long 0x00 "EVE_DMEM_EDADDR_BO,DMEM error detection address byte offset register"
hexmask.long 0x00 0.--31. 1. " BO                    ,Address byte offset for parity error. Indicates that an error has occured in byte offset #n. 0: No error occuredin byte offset #n; 1: Error occured in byte offset #n. Write to clear any of MEM.SYSERR/DMARR/ARP32/or VERR."
group.long 0x800A0++0x3
line.long 0x00 "EVE_WBUF_ED_CTL,WBUF error detection control"
bitfld.long 0x00 1. " INV                   ,Read 0: Error detection logic is not inverted. Read 1: Error detection logic is inverted. Writes to memory set parity as normal. Reads from meory return inverse of parity bit. - Write 0 to clea Write 1 to set. Must be set when E..." "0,1"
bitfld.long 0x00 0. "             EN                   ,Error detection logic enable. Writes update parity, reads check parity - . - ." "Disabled,Enabled"
group.long 0x800A4++0x3
line.long 0x00 "EVE_WBUF_ED_STAT,WBUF error detection status register"
hexmask.long.word 0x00 16.--24. 1. " SYSCONNID             ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated parity error not recorded 1 - System initiated parity error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated parity error not recorded 1 : EDMA parity error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated parity error not recorded 1 : VCOP initiated parity error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated parity error not recorded 1 : ARP32 initiated parity error detected/recorded Write 1 to clear" "0,1"
rgroup.long 0x800A8++0x3
line.long 0x00 "EVE_WBUF_EDADDR,WBUF error detection address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of parity error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address."
rgroup.long 0x800AC++0x3
line.long 0x00 "EVE_WBUF_EDADDR_BO,WBUF error detection address byte offset register"
hexmask.long 0x00 0.--31. 1. " BO                    ,Address byte offset for parity error. Indicates that an error has occured in byte offset #n. 0: No error occuredin byte offset #n; 1: Error occured in byte offset #n. Write to clear any of MEM.SYSERR/DMARR/ARP32/or VERR."
group.long 0x800B0++0x3
line.long 0x00 "EVE_IBUF_ED_CTL,IBUF error detection control"
bitfld.long 0x00 1. " INV                   ,Read 0: Error detection logic is not inverted. Read 1: Error detection logic is inverted. Writes to memory set parity as normal. Reads from meory return inverse of parity bit. - Write 0 to clear, write 1 to set. Must be set when..." "0,1"
bitfld.long 0x00 0. "             EN                   ,Error detection logic enable. Writes update parity, reads check parity - . - ." "Disabled,Enabled"
group.long 0x800B4++0x3
line.long 0x00 "EVE_IBUF_ED_STAT,IBUF error detection status register"
hexmask.long.word 0x00 16.--24. 1. " SYSCONNID             ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated parity error not recorded 1 - System initiated parity error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated parity error not recorded 1 : EDMA parity error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated parity error not recorded 1 : VCOP initiated parity error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated parity error not recorded 1 : ARP32 initiated parity error detected/recorded Write 1 to clear" "0,1"
rgroup.long 0x800B8++0x3
line.long 0x00 "EVE_IBUF_EDADDR,IBUF error detection address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of parity error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address."
rgroup.long 0x800BC++0x3
line.long 0x00 "EVE_IBUF_EDADDR_BO,IBUF error detection address byte offset register"
hexmask.long 0x00 0.--31. 1. " BO                    ,Address byte offset for parity error. Indicates that an error has occured in byte offset #n. 0: No error occuredin byte offset #n; 1: Error occured in byte offset #n. Write to clear any of MEM.SYSERR/DMARR/ARP32/or VERR."
group.long 0x800F8++0x3
line.long 0x00 "EVE_ED_ARP32_DISC_EN,ARP32 disconnect enable register"
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Disconnect Enable for Event #n 0: Disconnect disabled 1: Disconnect enabled"
group.long 0x800FC++0x3
line.long 0x00 "EVE_ED_OCPI_DISC_EN,OCP interface disconnect enable register"
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Disconnect Enable for Event #n. 0: Disconnect disabled 1: Disconnect enabled"
group.long 0x80110++0x3
line.long 0x00 "EVE_MSW_ERR_IRQSTATUS_RAW,Per event memory switch error interrupt status register."
bitfld.long 0x00 0.--3. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80114++0x3
line.long 0x00 "EVE_MSW_ERR_IRQSTATUS,Memory switch error interrupt status register."
bitfld.long 0x00 0.--3. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80118++0x3
line.long 0x00 "EVE_MSW_ERR_IRQENABLE_SET,Memory switch error interrupt enable register."
bitfld.long 0x00 0.--3. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x8011C++0x3
line.long 0x00 "EVE_MSW_ERR_IRQENABLE_CLR,Memory switch error interrupt clear register."
bitfld.long 0x00 0.--3. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80120++0x3
line.long 0x00 "EVE_ED_LCL_IRQSTATUS_RAW,Per event error detection local interrupt status register."
hexmask.long.word 0x00 0.--15. 1. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80124++0x3
line.long 0x00 "EVE_ED_LCL_IRQSTATUS,Error detection local interrupt status register."
hexmask.long.word 0x00 0.--15. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80128++0x3
line.long 0x00 "EVE_ED_LCL_IRQENABLE_SET,Error detection local interrupt enable register."
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8012C++0x3
line.long 0x00 "EVE_ED_LCL_IRQENABLE_CLR,Error detection local interrupt clear register."
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80200++0x3
line.long 0x00 "ARP32_NMI_IRQSTATUS_RAW,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80204++0x3
line.long 0x00 "ARP32_NMI_IRQSTATUS,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80208++0x3
line.long 0x00 "ARP32_NMI_IRQENABLE_SET,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8020C++0x3
line.long 0x00 "ARP32_NMI_IRQENABLE_CLR,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x802FC++0x3
line.long 0x00 "ARP32_IRQWAKEEN,Wake enable register"
hexmask.long.tbyte 0x00 0.--23. 1. " ENABLE                ,Wakeup Enable for event EVE_EVT_INT #n 0: Interrupt #n disabled for wakeup 1: Interrupt #n enabled for wakeup"
group.long 0x80400++0x3
line.long 0x00 "MISR_CTL,"
bitfld.long 0x00 0.--2. " ENABLE                ,MISR Enable #N 0: MISR #n disabled 1: MISR #n enabled Bit 0: MISR 0 - ARP32 PMEM path Bit 1: MISR 1 - ARP32 DMEM path Bit 2: MISR 2 - INTC WBUF path" "0,1,2,3,4,5,6,7"
group.long 0x80404++0x3
line.long 0x00 "MISR_CLEAR,"
bitfld.long 0x00 0.--2. " CLEAR                 ,MISR Clear #N Write 0: no effect Write 1: Clear MISR #n Read 0: Previous MISR clear command has completed. Read 1: MISR Clear in progress (this state may never actually be readable)" "0,1,2,3,4,5,6,7"
group.long 0x80410++0x3
line.long 0x00 "MISR0_A,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE             ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80414++0x3
line.long 0x00 "MISR0_D,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE             ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80418++0x3
line.long 0x00 "MISR1_A,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE             ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x8041C++0x3
line.long 0x00 "MISR1_D,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE             ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80500++0x3
line.long 0x00 "EVE_IRQ_EOI,"
bitfld.long 0x00 0.--2. " LINE_NUMBER           ,Software End Of Interrupt (EOI) control. Write number of interrupt output to force re-evaluation of associated pending interrupts. Refer to Section Error: Reference source not found for EOI mapping. Reads always return 0x0. Writ..." "0,1,2,3,4,5,6,7"
group.long 0x80510++0x3
line.long 0x00 "EVE_ED_OUT_IRQSTATUS_RAW,"
hexmask.long.word 0x00 0.--15. 1. " EVENT                 ,Settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80514++0x3
line.long 0x00 "EVE_ED_OUT_IRQSTATUS,"
hexmask.long.word 0x00 0.--15. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80518++0x3
line.long 0x00 "EVE_ED_OUT_IRQENABLE_SET,"
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8051C++0x3
line.long 0x00 "EVE_ED_OUT_IRQENABLE_CLR,"
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
rgroup.long 0x80680++0x3
line.long 0x00 "ARP32_INT14_IRQSTATUS_RAW,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80684++0x3
line.long 0x00 "ARP32_INT14_IRQSTATUS,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80688++0x3
line.long 0x00 "ARP32_INT14_IRQENABLE_SET,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8068C++0x3
line.long 0x00 "ARP32_INT14_IRQENABLE_CLR,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
rgroup.long 0x80690++0x3
line.long 0x00 "ARP32_INT15_IRQSTATUS_RAW,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80694++0x3
line.long 0x00 "ARP32_INT15_IRQSTATUS,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80698++0x3
line.long 0x00 "ARP32_INT15_IRQENABLE_SET,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8069C++0x3
line.long 0x00 "ARP32_INT15_IRQENABLE_CLR,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
rgroup.long 0x80740++0x3
line.long 0x00 "EVE_GPIN0,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,GP Input #n Read 0: GP Input #n is low/0. Read 1: GP Input is high/1."
rgroup.long 0x80744++0x3
line.long 0x00 "EVE_GPIN1,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,GP Input #n Read 0: GP Input #n is low/0. Read 1: GP Input is high/1."
group.long 0x80780++0x3
line.long 0x00 "EVE_CME_DONE_GPOUT,"
hexmask.long.byte 0x00 0.--7. 1. " EVENT                 ,Internal CME Done Output #n. Write 0: Drive Internal CME Done #n low/1 Read 0: Drive Internal CME Done #n is low/0. Write 1: Drive Internal CME Done #n high/1. Read 1: Internal CME Done is high/1."
group.long 0x80784++0x3
line.long 0x00 "EVE_CME_DONE_GPOUT_SET,"
hexmask.long.byte 0x00 0.--7. 1. " EVENT                 ,Internal CME Done #n Write 0: No action Read 0: Internal CME Done #n is low/0. Write 1: Drive Internal CME Done #n high/1. Read 1: Internal CME Done is high/1."
group.long 0x80788++0x3
line.long 0x00 "EVE_CME_DONE_GPOUT_CLR,"
hexmask.long.byte 0x00 0.--7. 1. " EVENT                 ,Internal CME Done #n Write 0: No action Read 0: Internal CME Done #n is low/0. Write 1: Drive Internal CME Done #n low/0. Read 1: Internal CME Done #n is high/1."
group.long 0x8078C++0x3
line.long 0x00 "EVE_CME_DONE_GPOUT_PULSE,"
hexmask.long.byte 0x00 0.--7. 1. " EVENT                 ,Internal CME Done #n Write 0: No action Read 0: Internal CME Done #n is low/0. Write 1: Drive Internal CME Done #n high/1 for four cycles / then drive low/0. Read 1: Internal CME Done #n is high/1. Note: Writing to GPOUT registe..."
group.long 0x80790++0x3
line.long 0x00 "EVE_CME_DONE_SEL,"
bitfld.long 0x00 28.--31. " SEL7                  ,CME Done Output select for Bit #7 (n=7) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "            SEL6                 ,CME Done Output select for Bit #6 (n=6) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "            SEL5                 ,CME Done Output select for Bit #5 (n=5)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                    "
bitfld.long 0x00 16.--19. " SEL4                  ,CME Done Output select for Bit #4 (n=4) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "            SEL3                 ,CME Done Output select for Bit #3 (n=3) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "            SEL2                 ,CME Done Output select for Bit #2 (n=2) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                    "
bitfld.long 0x00 4.--7. " SEL1                  ,CME Done Output select for Bit #1 (n=1) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "            SEL0                 ,CME Done Output select for Bit #0 (n=0) 0: Driven by EDMA cc_int0 1: Driven by EDMA cc_int1 2: Driven by EDMA cc_int2 3: Driven by EDMA cc_int3 4: Driven by EDMA cc_int4 5: Driven by EDMA cc_int5 6: Driven by EDMA cc_i..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80794++0x3
line.long 0x00 "EVE_CME_DONE_EN,"
hexmask.long.byte 0x00 0.--7. 1. " EN                    ,EVE CME Done EN #n Write 0: No action Read 0: EVE CME Done #n is disabled. Write 1: Enable EVE CME Done #n event. This allows the status of the CME Done #n to propagate to the output. Read 1: EVE CME Done #n is enabled."
rgroup.long 0x80FE0++0x3
line.long 0x00 "EVE_PM_STAT0,"
bitfld.long 0x00 28.--30. " OCPM1_SCONNECT        ,Readable state of OCP Power management handshake" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--25. "             OCPM1_MCONNECT       ,Readable state of OCP Power management handshake" "0,1,2,3"
bitfld.long 0x00 20.--22. "             OCPM0_SCONNECT       ,Readable state of OCP Power management handshake" "0,1,2,3,4,5,6,7"
textline "                                    "
bitfld.long 0x00 16.--17. " OCPM0_MCONNECT        ,Readable state of OCP Power management handshake" "0,1,2,3"
bitfld.long 0x00 12.--14. "             OCPS_SCONNECT        ,Readable state of OCP Power management handshake" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--9. "             OCPS_MCONNECT        ,Readable state of OCP Power management handshake" "0,1,2,3"
textline "                                    "
bitfld.long 0x00 5. " MWAIT                 ,Readable state of OCP Power management handshake" "0,1"
bitfld.long 0x00 4. "             MSTANDBY             ,Readable state of OCP Power management handshake" "0,1"
bitfld.long 0x00 3. "             SWAKEUP              ,Readable state of OCP Power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 1.--2. " SIDLEACK              ,Readable state of OCP Power management handshake" "0,1,2,3"
bitfld.long 0x00 0. "             SIDLEREQ             ,Readable state of OCP Power management handshake" "0,1"
group.long 0x80FE4++0x3
line.long 0x00 "EVE_PM_STAT1,"
bitfld.long 0x00 22.--23. " STBY_MDISCACK_OCPM1   ,Readable state of internal power management handshake" "0,1,2,3"
bitfld.long 0x00 20.--21. "             STBY_MDISCACK_OCPM0  ,Readable state of internal power management handshake" "0,1,2,3"
bitfld.long 0x00 19. "             STBY_MDISCREQ_OCPM1  ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 18. " STBY_MDISCREQ_OCPM0   ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 17. "             IDLE_SDISCONNECT_ACK ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 16. "             IDLE_SDISCONNECT_REQ ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 15. " EVE_IDLE_INTR_DISABLE ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 14. "             TPTC1_MWAIT          ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 13. "             TPTC0_MWAIT          ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 12. " EVE_PCACHE_OCP_BUSY   ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 11. "             EVE_CONTROL_SIDLEACK ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 10. "             SMSET_SIDLEACK       ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 9. " L2_EVE_SIDLEACK       ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 8. "             MMU1_CONFIG_SIDLEACK ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 7. "             MMU1_SIDLEACK        ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 6. " MMU0_CONFIG_SIDLEACK  ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 5. "             MMU0_SIDLEACK        ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 4. "             SCTM_SIDLEACK        ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 3. " TPCC_SIDLEACK         ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 2. "             TPTC1_SIDLEACK       ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 1. "             TPTC0_SIDLEACK       ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 0. " SUBMODULE_IDLE_REQ    ," "0,1"
group.long 0x80FE8++0x3
line.long 0x00 "EVE_DBGOUT,"
hexmask.long.tbyte 0x00 8.--31. 1. " VALUE                 ,Read returns state of eve_dbgout bus."
bitfld.long 0x00 0.--3. "        GROUP                ,Debug Group Output control : mux select 0x0 : disabled / all debug outputs driven to 0x0. 0x1 : select output group1 0x2 : select output group2 : 0xN : select output groupN Others - reserved" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80FF4++0x3
line.long 0x00 "EVE_RSVD0,"
hexmask.long 0x00 0.--31. 1. " VAL                   ,Value; This register is reserved for any necessary ECOs that may be required later in the design cycle."
group.long 0x80FF8++0x3
line.long 0x00 "EVE_RSVD1,"
hexmask.long 0x00 0.--31. 1. " VAL                   ,Value; This register is reserved for any necessary ECOs that may be required later in the design cycle."
group.long 0x80FFC++0x3
line.long 0x00 "EVE_TEST,"
hexmask.long 0x00 0.--31. 1. " VAL                   ,Value; This register is reserved for any necessary ECOs that may be required later in the design cycle."
width 0x0B
tree.end
tree "EVE3_DSP"
base ad:0x2200000
tree "Channel_0"
width 30.
group.long 0x80700++0x3
line.long 0x00 "EVE_GPOUTm_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: Drive GP Output #n low/1 Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x80708++0x3
line.long 0x00 "EVE_GPOUTm_CLR_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: Drive GP Output #n low/1 Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x8070C++0x3
line.long 0x00 "EVE_GPOUTm_PULSE_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: No action Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1 for four cycles / then drive low/0. Read 1: GP Output #n is high/1. Note: Writing to GPOUT registers when the four cycles for the previous wri..."
group.long 0x80704++0x3
line.long 0x00 "EVE_GPOUTm_SET_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: No action Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x8052C++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_CLR_0,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80528++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_SET_0,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80524++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event."
group.long 0x80520++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_RAW_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80420++0x3
line.long 0x00 "MISR2_Dk_0,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80300++0x3
line.long 0x00 "MMR_LOCKi_0,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK  ,Lock/Unlock register for corresponding region"
tree.end
tree "Channel_1"
width 30.
group.long 0x80710++0x3
line.long 0x00 "EVE_GPOUTm_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: Drive GP Output #n low/1 Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x80718++0x3
line.long 0x00 "EVE_GPOUTm_CLR_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: Drive GP Output #n low/1 Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x8071C++0x3
line.long 0x00 "EVE_GPOUTm_PULSE_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: No action Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1 for four cycles / then drive low/0. Read 1: GP Output #n is high/1. Note: Writing to GPOUT registers when the four cycles for the previous wri..."
group.long 0x80714++0x3
line.long 0x00 "EVE_GPOUTm_SET_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: No action Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x8053C++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_CLR_1,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80538++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_SET_1,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80534++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event."
group.long 0x80530++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_RAW_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80424++0x3
line.long 0x00 "MISR2_Dk_1,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80304++0x3
line.long 0x00 "MMR_LOCKi_1,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK  ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_2"
width 30.
group.long 0x8054C++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_CLR_2,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80548++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_SET_2,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80544++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_2,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event."
group.long 0x80540++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_RAW_2,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80428++0x3
line.long 0x00 "MISR2_Dk_2,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80308++0x3
line.long 0x00 "MMR_LOCKi_2,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK  ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_3"
width 30.
group.long 0x8055C++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_CLR_3,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80558++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_SET_3,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80554++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_3,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event."
group.long 0x80550++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_RAW_3,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x8042C++0x3
line.long 0x00 "MISR2_Dk_3,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x8030C++0x3
line.long 0x00 "MMR_LOCKi_3,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK  ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_4"
width 28.
group.long 0x8021C++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_CLR_4,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80218++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_SET_4,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80214++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_4,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80210++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_RAW_4,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80310++0x3
line.long 0x00 "MMR_LOCKi_4,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_5"
width 28.
group.long 0x8022C++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_CLR_5,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80228++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_SET_5,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80224++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_5,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80220++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_RAW_5,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80314++0x3
line.long 0x00 "MMR_LOCKi_5,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_6"
width 28.
group.long 0x8023C++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_CLR_6,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80238++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_SET_6,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80234++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_6,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80230++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_RAW_6,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80318++0x3
line.long 0x00 "MMR_LOCKi_6,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_7"
width 28.
group.long 0x8024C++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_CLR_7,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80248++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_SET_7,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80244++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_7,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80240++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_RAW_7,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x8031C++0x3
line.long 0x00 "MMR_LOCKi_7,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_8"
width 28.
group.long 0x8060C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_8,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80608++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_8,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80604++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_8,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80600++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_8,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80320++0x3
line.long 0x00 "MMR_LOCKi_8,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_9"
width 28.
group.long 0x8061C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_9,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80618++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_9,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80614++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_9,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80610++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_9,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80324++0x3
line.long 0x00 "MMR_LOCKi_9,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_10"
width 29.
group.long 0x8062C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_10,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80628++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_10,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80624++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_10,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80620++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_10,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
tree.end
tree "IRQ_Line_11"
width 29.
group.long 0x8063C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_11,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80638++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_11,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80634++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_11,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80630++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_11,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
tree.end
tree "IRQ_Line_12"
width 29.
group.long 0x8064C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_12,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80648++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_12,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80644++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_12,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80640++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_12,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
tree.end
tree "IRQ_Line_13"
width 29.
group.long 0x8065C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_13,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80658++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_13,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80654++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_13,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80650++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_13,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
tree.end
textline ""
width 27.
rgroup.long 0x80000++0x3
line.long 0x00 "EVE_REVISION,"
hexmask.long 0x00 0.--31. 1. " REVISION              ,Revision"
rgroup.long 0x80004++0x3
line.long 0x00 "EVE_HWINFO,"
hexmask.long 0x00 4.--31. 1. " INFO                  ,0x0: No configurable options in EVE"
bitfld.long 0x00 0.--3. "      EVENUM               ,EVE instance number set by eve_num inputs. In a multi-EVE system must be set to unique/incrementing values for each EVE." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80008++0x3
line.long 0x00 "EVE_SYSCONFIG,"
bitfld.long 0x00 4.--5. " STANDBYMODE           ,00: Force-Standby mode: This mode is a backup mode intended to be used only if the smart-idle mode is bugged. When in this mode / the SAF asserts with minimal hardware condition the status saying :I am in standby:. It is the res..." "0,1,2,3"
bitfld.long 0x00 2.--3. "             IDLEMODE             ,00: Force-idle: This mode is a backup mode intended to be used only if the smart-idle mode is bugged. When in this mode the IAF acknowledges a request to go idle from the power manager with minimal hardware condition...." "0,1,2,3"
bitfld.long 0x00 1. "             FREEEMU              ,Resered. Note that SCTM has free control bit to define the timer operation during ARP32 debug halt mode" "0,1"
textline "                                    "
bitfld.long 0x00 0. " SOFTRESET             ,Reserved" "0,1"
rgroup.long 0x8000C++0x3
line.long 0x00 "EVE_STAT,"
bitfld.long 0x00 20.--21. " OCPI_DISC_STAT        ,OCP Initiator(s) Disconnect status2: - . - ." "0,1,2,3"
bitfld.long 0x00 16.--17. "             ARP32_DISC_STATUS    ,ARP32 Program/Data Bus Disconnect Status 2: - . - ." "0,1,2,3"
bitfld.long 0x00 8. "             INT_OUT_STAT         ,Interrupt Output status: - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " ARP_INTC_STAT         ,Interrupt Controller Status: - . - ." "0,1"
bitfld.long 0x00 5. "             TC1_STAT             ,Transfer Controller1 Status: - . - ." "Idle,Active"
bitfld.long 0x00 4. "        TC0_STAT             ,Transfer Controller0 Status: - . - ." "Idle,Active"
textline "                                    "
bitfld.long 0x00 2. " PC_STAT               ,Program Cache Status: - . - ." "Idle,1"
bitfld.long 0x00 1. "          VCOP_STAT            ,VCOP Status : - . - ." "Idle,1"
bitfld.long 0x00 0. "          ARP32_STAT           ,Program Cache Status: - . - ." "Idle,1"
group.long 0x80010++0x3
line.long 0x00 "EVE_DISC_CONFIG,Color 0 noise threshold"
bitfld.long 0x00 4. " OCPI_DISC             ,OCP Initiator Disconnect request: - . - ." "0,1"
bitfld.long 0x00 0. "             ARP32_DISC           ,ARP32 Initiator Disconnect request. - . - ." "0,1"
group.long 0x80014++0x3
line.long 0x00 "EVE_BUS_CONFIG,Color 0 noise threshold"
bitfld.long 0x00 12.--13. " TC1_DBS               ,TC1 default burst size. 00: 16 byte, 01: 32 byte, 10: 64 byte, 11: 128 byte (recommended)" "0,1,2,3"
bitfld.long 0x00 8.--9. "             TC0_DBS              ,TC0 default burst size. 00: 16 byte, 01: 32 byte, 10: 64 byte, 11: 128 byte (recommended)" "0,1,2,3"
bitfld.long 0x00 4. "             DBP_ENABLE           ,Program Cache Demand Based Prefetch enable: - . - ." "DBP_disabled,DBP_enabled"
textline "                                    "
bitfld.long 0x00 0.--3. " MAX_IN_FLIGHT         ,Defines maximum number of OCP requests in flight. Can be reduced to limit the peak bandwidth for software direct preload, which in turn may provide advantage to other EVE level (e.g. EDMA) or system-level initiators. 0: Reserved..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80018++0x3
line.long 0x00 "EVE_VCOP_HALT_CONFIG,"
bitfld.long 0x00 2. " FORCE_ABORT           ,VCOP Force Abort Write: Read always returns 0s - Write 0 has no effect. . - . - ." "0,1"
bitfld.long 0x00 1. "             MSW_EN               ,VCOP Memory Seitch Error Halt Enable: - . - ." "Disabled,1"
bitfld.long 0x00 0. "      ED_EN                ,VCOP Parity Error Detect Halt Enable: - . - ." "Disabled,1"
group.long 0x8001C++0x3
line.long 0x00 "EVE_MMU_CONFIG,"
bitfld.long 0x00 12. " MMU1_ABORT            ,Causes the MMU to abort the current operation in case of lockup" "0,1"
bitfld.long 0x00 8. "             MMU0_ABORT           ,Causes the MMU to abort the current operation in case of lockup" "0,1"
bitfld.long 0x00 4. "             MMU1_EN              ,Clearing this bit disables MMU table lookup and causes accesses to use the non-translated address. This bit defaults to enabled but an identical bit within an MMU configuration register defaults to disabled and must b..." "0,1"
textline "                                    "
bitfld.long 0x00 0. " MMU0_EN               ,Clearing this bit disables MMU table lookup and causes accesses to use the non-translated address. This bit defaults to enabled but an identical bit within an MMU configuration register defaults to disabled and must be set after..." "0,1"
group.long 0x80020++0x3
line.long 0x00 "EVE_MEMMAP,"
bitfld.long 0x00 4. " LCL_EDMA_ALIAS        ,0: Local EDMA views full memory map - ." "0,1"
bitfld.long 0x00 0. "             VCOP_ALIAS           ,0: VCOP views full memory map - ." "0,1"
group.long 0x80024++0x3
line.long 0x00 "EVE_MSW_CTL,Memory switch control register"
bitfld.long 0x00 16. " WBUF                  ,Working buffer onwership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20). - . - ." "System_owned,VCOP_owned"
bitfld.long 0x00 12. "  IBUFHB               ,Image buffer high B ownership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20).: - . - ." "System_owned,VCOP_owned"
bitfld.long 0x00 8. "  IBUFLB               ,Image buffer low B ownership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20).: - . - ." "System_owned,VCOP_owned"
textline "                                    "
bitfld.long 0x00 4. " IBUFHA                ,Image buffer high A ownership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20).: - . - ." "System_owned,VCOP_owned"
bitfld.long 0x00 0. "  IBUFLA               ,Image buffer low A ownership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20).: - . - ." "System_owned,VCOP_owned"
group.long 0x80028++0x3
line.long 0x00 "EVE_MSW_ERR,Memory Switch Error register"
hexmask.long.word 0x00 16.--24. 1. " CONNID                ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated buffer ownership error not recorded 1 - System initiated buffer ownership error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated buffer ownership error not recorded 1 : EDMA buffer ownership error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated buffer ownership error not recorded 1 : VCOP initiated buffer ownership error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated buffer ownership error not recorded 1 : ARP32 initiated buffer ownership error detected/recorded Write 1 to clear." "0,1"
rgroup.long 0x8002C++0x3
line.long 0x00 "EVE_MSW_ERRADDR,Memory switch error address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of memory switch error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address. Va..."
group.long 0x80040++0x3
line.long 0x00 "EVE_PC_INV,Invalidate all register"
bitfld.long 0x00 0. " I                     ,Invalidate all: - . Read: 0 : Invalidate operation complete / or not in progress 1 : Invalidate operation still in progress. - ." "0,1"
group.long 0x80050++0x3
line.long 0x00 "EVE_PC_IBAR,Invalidate Base Address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Invalidate Base Address register. Defines system byte address base to be invalidated from L1P. The entire range to be invalidated is (loosely speaking) from the base address to the base address + byte count. The actual range is ..."
group.long 0x80054++0x3
line.long 0x00 "EVE_PC_IBC,Invalidate byte count register"
hexmask.long.word 0x00 0.--15. 1. " BC                    ,Invalidate Byte Count register. Defines number of bytes relative to Invalidate Base Address (IBAR.ADDR) to be invalidated from L1P. Maximum of 32k (0x8000). Reads return 0x0 when invalidate range operation is complete."
group.long 0x80058++0x3
line.long 0x00 "EVE_PC_ISAR,Invalidate single address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Invalidate Single Address register. Defines system byte address (1 line only) to be invalidated from L1P. Reads return 0x0 when the invalidate operation is complete."
rgroup.long 0x8005C++0x3
line.long 0x00 "EVE_PC_ISAR_DONE,Invalidate single address done register"
bitfld.long 0x00 0. " DONE                  ,Reads return 0x1 when the invalidate operation is complete. Cleared on the next write to theEVE_PC_ISAR register" "0,1"
group.long 0x80060++0x3
line.long 0x00 "EVE_PC_PBAR,Program cache preload base address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Preload Base Address register. Defines system byte address base to be Preloaded into L1P. The entire range to be Preloaded is (loosely speaking) from the base address to the base address + byte count. The actual range is inclusi..."
group.long 0x80064++0x3
line.long 0x00 "EVE_PC_PBC,"
hexmask.long.word 0x00 0.--15. 1. " BC                    ,Preload Byte Count register. Defines number of bytes relative to Preload Base Address (PBAR.ADDR) to be Preloaded into L1P. Maximum of 32k (0x8000). Reads return 0x0 when Preload range operation is complete"
group.long 0x80080++0x3
line.long 0x00 "EVE_PMEM_ED_CTL,Program Memory Error Detection Control register"
bitfld.long 0x00 1. " INV                   ,Read 0: Error detection logic is not inverted. Read 1: Error detection logic is inverted. Writes to memory set parity as normal. Reds from meory return inverse of parity bit. - Write 0 to clear, write 1 to set. Must be set when ..." "0,1"
bitfld.long 0x00 0. "             EN                   ,Error detection logic enable. Writes update parity, reads check parity - . - ." "Disabled,Enabled"
group.long 0x80084++0x3
line.long 0x00 "EVE_PMEM_ED_STAT,Error detection status register"
hexmask.long.word 0x00 16.--24. 1. " SYSCONNID             ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated parity error not recorded 1 - System initiated parity error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated parity error not recorded 1 : EDMA parity error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated parity error not recorded 1 : VCOP initiated parity error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated parity error not recorded 1 : ARP32 initiated parity error detected/recorded Write 1 to clear" "0,1"
rgroup.long 0x80088++0x3
line.long 0x00 "EVE_PMEM_EDADDR,Program memory error detection address"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of parity error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address."
group.long 0x80090++0x3
line.long 0x00 "EVE_DMEM_ED_CTL,DMEM error detection control"
bitfld.long 0x00 1. " INV                   ,Read 0: Error detection logic is not inverted. Read 1: Error detection logic is inverted. Writes to memory set parity as normal. Reads from meory return inverse of parity bit. - Write 0 to clear, write 1 to set. Must be set when..." "0,1"
bitfld.long 0x00 0. "             EN                   ,Error detection logic enable. Writes update parity, reads check parity - . - ." "Disabled,Enabled"
group.long 0x80094++0x3
line.long 0x00 "EVE_DMEM_ED_STAT,DMEM error detection status register"
hexmask.long.word 0x00 16.--24. 1. " SYSCONNID             ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated parity error not recorded 1 - System initiated parity error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated parity error not recorded 1 : EDMA parity error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated parity error not recorded 1 : VCOP initiated parity error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated parity error not recorded 1 : ARP32 initiated parity error detected/recorded Write 1 to clear" "0,1"
rgroup.long 0x80098++0x3
line.long 0x00 "EVE_DMEM_EDADDR,DMEM error detection address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of parity error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address."
rgroup.long 0x8009C++0x3
line.long 0x00 "EVE_DMEM_EDADDR_BO,DMEM error detection address byte offset register"
hexmask.long 0x00 0.--31. 1. " BO                    ,Address byte offset for parity error. Indicates that an error has occured in byte offset #n. 0: No error occuredin byte offset #n; 1: Error occured in byte offset #n. Write to clear any of MEM.SYSERR/DMARR/ARP32/or VERR."
group.long 0x800A0++0x3
line.long 0x00 "EVE_WBUF_ED_CTL,WBUF error detection control"
bitfld.long 0x00 1. " INV                   ,Read 0: Error detection logic is not inverted. Read 1: Error detection logic is inverted. Writes to memory set parity as normal. Reads from meory return inverse of parity bit. - Write 0 to clea Write 1 to set. Must be set when E..." "0,1"
bitfld.long 0x00 0. "             EN                   ,Error detection logic enable. Writes update parity, reads check parity - . - ." "Disabled,Enabled"
group.long 0x800A4++0x3
line.long 0x00 "EVE_WBUF_ED_STAT,WBUF error detection status register"
hexmask.long.word 0x00 16.--24. 1. " SYSCONNID             ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated parity error not recorded 1 - System initiated parity error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated parity error not recorded 1 : EDMA parity error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated parity error not recorded 1 : VCOP initiated parity error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated parity error not recorded 1 : ARP32 initiated parity error detected/recorded Write 1 to clear" "0,1"
rgroup.long 0x800A8++0x3
line.long 0x00 "EVE_WBUF_EDADDR,WBUF error detection address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of parity error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address."
rgroup.long 0x800AC++0x3
line.long 0x00 "EVE_WBUF_EDADDR_BO,WBUF error detection address byte offset register"
hexmask.long 0x00 0.--31. 1. " BO                    ,Address byte offset for parity error. Indicates that an error has occured in byte offset #n. 0: No error occuredin byte offset #n; 1: Error occured in byte offset #n. Write to clear any of MEM.SYSERR/DMARR/ARP32/or VERR."
group.long 0x800B0++0x3
line.long 0x00 "EVE_IBUF_ED_CTL,IBUF error detection control"
bitfld.long 0x00 1. " INV                   ,Read 0: Error detection logic is not inverted. Read 1: Error detection logic is inverted. Writes to memory set parity as normal. Reads from meory return inverse of parity bit. - Write 0 to clear, write 1 to set. Must be set when..." "0,1"
bitfld.long 0x00 0. "             EN                   ,Error detection logic enable. Writes update parity, reads check parity - . - ." "Disabled,Enabled"
group.long 0x800B4++0x3
line.long 0x00 "EVE_IBUF_ED_STAT,IBUF error detection status register"
hexmask.long.word 0x00 16.--24. 1. " SYSCONNID             ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated parity error not recorded 1 - System initiated parity error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated parity error not recorded 1 : EDMA parity error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated parity error not recorded 1 : VCOP initiated parity error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated parity error not recorded 1 : ARP32 initiated parity error detected/recorded Write 1 to clear" "0,1"
rgroup.long 0x800B8++0x3
line.long 0x00 "EVE_IBUF_EDADDR,IBUF error detection address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of parity error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address."
rgroup.long 0x800BC++0x3
line.long 0x00 "EVE_IBUF_EDADDR_BO,IBUF error detection address byte offset register"
hexmask.long 0x00 0.--31. 1. " BO                    ,Address byte offset for parity error. Indicates that an error has occured in byte offset #n. 0: No error occuredin byte offset #n; 1: Error occured in byte offset #n. Write to clear any of MEM.SYSERR/DMARR/ARP32/or VERR."
group.long 0x800F8++0x3
line.long 0x00 "EVE_ED_ARP32_DISC_EN,ARP32 disconnect enable register"
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Disconnect Enable for Event #n 0: Disconnect disabled 1: Disconnect enabled"
group.long 0x800FC++0x3
line.long 0x00 "EVE_ED_OCPI_DISC_EN,OCP interface disconnect enable register"
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Disconnect Enable for Event #n. 0: Disconnect disabled 1: Disconnect enabled"
group.long 0x80110++0x3
line.long 0x00 "EVE_MSW_ERR_IRQSTATUS_RAW,Per event memory switch error interrupt status register."
bitfld.long 0x00 0.--3. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80114++0x3
line.long 0x00 "EVE_MSW_ERR_IRQSTATUS,Memory switch error interrupt status register."
bitfld.long 0x00 0.--3. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80118++0x3
line.long 0x00 "EVE_MSW_ERR_IRQENABLE_SET,Memory switch error interrupt enable register."
bitfld.long 0x00 0.--3. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x8011C++0x3
line.long 0x00 "EVE_MSW_ERR_IRQENABLE_CLR,Memory switch error interrupt clear register."
bitfld.long 0x00 0.--3. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80120++0x3
line.long 0x00 "EVE_ED_LCL_IRQSTATUS_RAW,Per event error detection local interrupt status register."
hexmask.long.word 0x00 0.--15. 1. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80124++0x3
line.long 0x00 "EVE_ED_LCL_IRQSTATUS,Error detection local interrupt status register."
hexmask.long.word 0x00 0.--15. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80128++0x3
line.long 0x00 "EVE_ED_LCL_IRQENABLE_SET,Error detection local interrupt enable register."
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8012C++0x3
line.long 0x00 "EVE_ED_LCL_IRQENABLE_CLR,Error detection local interrupt clear register."
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80200++0x3
line.long 0x00 "ARP32_NMI_IRQSTATUS_RAW,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80204++0x3
line.long 0x00 "ARP32_NMI_IRQSTATUS,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80208++0x3
line.long 0x00 "ARP32_NMI_IRQENABLE_SET,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8020C++0x3
line.long 0x00 "ARP32_NMI_IRQENABLE_CLR,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x802FC++0x3
line.long 0x00 "ARP32_IRQWAKEEN,Wake enable register"
hexmask.long.tbyte 0x00 0.--23. 1. " ENABLE                ,Wakeup Enable for event EVE_EVT_INT #n 0: Interrupt #n disabled for wakeup 1: Interrupt #n enabled for wakeup"
group.long 0x80400++0x3
line.long 0x00 "MISR_CTL,"
bitfld.long 0x00 0.--2. " ENABLE                ,MISR Enable #N 0: MISR #n disabled 1: MISR #n enabled Bit 0: MISR 0 - ARP32 PMEM path Bit 1: MISR 1 - ARP32 DMEM path Bit 2: MISR 2 - INTC WBUF path" "0,1,2,3,4,5,6,7"
group.long 0x80404++0x3
line.long 0x00 "MISR_CLEAR,"
bitfld.long 0x00 0.--2. " CLEAR                 ,MISR Clear #N Write 0: no effect Write 1: Clear MISR #n Read 0: Previous MISR clear command has completed. Read 1: MISR Clear in progress (this state may never actually be readable)" "0,1,2,3,4,5,6,7"
group.long 0x80410++0x3
line.long 0x00 "MISR0_A,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE             ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80414++0x3
line.long 0x00 "MISR0_D,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE             ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80418++0x3
line.long 0x00 "MISR1_A,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE             ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x8041C++0x3
line.long 0x00 "MISR1_D,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE             ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80500++0x3
line.long 0x00 "EVE_IRQ_EOI,"
bitfld.long 0x00 0.--2. " LINE_NUMBER           ,Software End Of Interrupt (EOI) control. Write number of interrupt output to force re-evaluation of associated pending interrupts. Refer to Section Error: Reference source not found for EOI mapping. Reads always return 0x0. Writ..." "0,1,2,3,4,5,6,7"
group.long 0x80510++0x3
line.long 0x00 "EVE_ED_OUT_IRQSTATUS_RAW,"
hexmask.long.word 0x00 0.--15. 1. " EVENT                 ,Settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80514++0x3
line.long 0x00 "EVE_ED_OUT_IRQSTATUS,"
hexmask.long.word 0x00 0.--15. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80518++0x3
line.long 0x00 "EVE_ED_OUT_IRQENABLE_SET,"
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8051C++0x3
line.long 0x00 "EVE_ED_OUT_IRQENABLE_CLR,"
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
rgroup.long 0x80680++0x3
line.long 0x00 "ARP32_INT14_IRQSTATUS_RAW,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80684++0x3
line.long 0x00 "ARP32_INT14_IRQSTATUS,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80688++0x3
line.long 0x00 "ARP32_INT14_IRQENABLE_SET,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8068C++0x3
line.long 0x00 "ARP32_INT14_IRQENABLE_CLR,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
rgroup.long 0x80690++0x3
line.long 0x00 "ARP32_INT15_IRQSTATUS_RAW,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80694++0x3
line.long 0x00 "ARP32_INT15_IRQSTATUS,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80698++0x3
line.long 0x00 "ARP32_INT15_IRQENABLE_SET,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8069C++0x3
line.long 0x00 "ARP32_INT15_IRQENABLE_CLR,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
rgroup.long 0x80740++0x3
line.long 0x00 "EVE_GPIN0,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,GP Input #n Read 0: GP Input #n is low/0. Read 1: GP Input is high/1."
rgroup.long 0x80744++0x3
line.long 0x00 "EVE_GPIN1,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,GP Input #n Read 0: GP Input #n is low/0. Read 1: GP Input is high/1."
group.long 0x80780++0x3
line.long 0x00 "EVE_CME_DONE_GPOUT,"
hexmask.long.byte 0x00 0.--7. 1. " EVENT                 ,Internal CME Done Output #n. Write 0: Drive Internal CME Done #n low/1 Read 0: Drive Internal CME Done #n is low/0. Write 1: Drive Internal CME Done #n high/1. Read 1: Internal CME Done is high/1."
group.long 0x80784++0x3
line.long 0x00 "EVE_CME_DONE_GPOUT_SET,"
hexmask.long.byte 0x00 0.--7. 1. " EVENT                 ,Internal CME Done #n Write 0: No action Read 0: Internal CME Done #n is low/0. Write 1: Drive Internal CME Done #n high/1. Read 1: Internal CME Done is high/1."
group.long 0x80788++0x3
line.long 0x00 "EVE_CME_DONE_GPOUT_CLR,"
hexmask.long.byte 0x00 0.--7. 1. " EVENT                 ,Internal CME Done #n Write 0: No action Read 0: Internal CME Done #n is low/0. Write 1: Drive Internal CME Done #n low/0. Read 1: Internal CME Done #n is high/1."
group.long 0x8078C++0x3
line.long 0x00 "EVE_CME_DONE_GPOUT_PULSE,"
hexmask.long.byte 0x00 0.--7. 1. " EVENT                 ,Internal CME Done #n Write 0: No action Read 0: Internal CME Done #n is low/0. Write 1: Drive Internal CME Done #n high/1 for four cycles / then drive low/0. Read 1: Internal CME Done #n is high/1. Note: Writing to GPOUT registe..."
group.long 0x80790++0x3
line.long 0x00 "EVE_CME_DONE_SEL,"
bitfld.long 0x00 28.--31. " SEL7                  ,CME Done Output select for Bit #7 (n=7) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "            SEL6                 ,CME Done Output select for Bit #6 (n=6) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "            SEL5                 ,CME Done Output select for Bit #5 (n=5)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                    "
bitfld.long 0x00 16.--19. " SEL4                  ,CME Done Output select for Bit #4 (n=4) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "            SEL3                 ,CME Done Output select for Bit #3 (n=3) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "            SEL2                 ,CME Done Output select for Bit #2 (n=2) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                    "
bitfld.long 0x00 4.--7. " SEL1                  ,CME Done Output select for Bit #1 (n=1) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "            SEL0                 ,CME Done Output select for Bit #0 (n=0) 0: Driven by EDMA cc_int0 1: Driven by EDMA cc_int1 2: Driven by EDMA cc_int2 3: Driven by EDMA cc_int3 4: Driven by EDMA cc_int4 5: Driven by EDMA cc_int5 6: Driven by EDMA cc_i..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80794++0x3
line.long 0x00 "EVE_CME_DONE_EN,"
hexmask.long.byte 0x00 0.--7. 1. " EN                    ,EVE CME Done EN #n Write 0: No action Read 0: EVE CME Done #n is disabled. Write 1: Enable EVE CME Done #n event. This allows the status of the CME Done #n to propagate to the output. Read 1: EVE CME Done #n is enabled."
rgroup.long 0x80FE0++0x3
line.long 0x00 "EVE_PM_STAT0,"
bitfld.long 0x00 28.--30. " OCPM1_SCONNECT        ,Readable state of OCP Power management handshake" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--25. "             OCPM1_MCONNECT       ,Readable state of OCP Power management handshake" "0,1,2,3"
bitfld.long 0x00 20.--22. "             OCPM0_SCONNECT       ,Readable state of OCP Power management handshake" "0,1,2,3,4,5,6,7"
textline "                                    "
bitfld.long 0x00 16.--17. " OCPM0_MCONNECT        ,Readable state of OCP Power management handshake" "0,1,2,3"
bitfld.long 0x00 12.--14. "             OCPS_SCONNECT        ,Readable state of OCP Power management handshake" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--9. "             OCPS_MCONNECT        ,Readable state of OCP Power management handshake" "0,1,2,3"
textline "                                    "
bitfld.long 0x00 5. " MWAIT                 ,Readable state of OCP Power management handshake" "0,1"
bitfld.long 0x00 4. "             MSTANDBY             ,Readable state of OCP Power management handshake" "0,1"
bitfld.long 0x00 3. "             SWAKEUP              ,Readable state of OCP Power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 1.--2. " SIDLEACK              ,Readable state of OCP Power management handshake" "0,1,2,3"
bitfld.long 0x00 0. "             SIDLEREQ             ,Readable state of OCP Power management handshake" "0,1"
group.long 0x80FE4++0x3
line.long 0x00 "EVE_PM_STAT1,"
bitfld.long 0x00 22.--23. " STBY_MDISCACK_OCPM1   ,Readable state of internal power management handshake" "0,1,2,3"
bitfld.long 0x00 20.--21. "             STBY_MDISCACK_OCPM0  ,Readable state of internal power management handshake" "0,1,2,3"
bitfld.long 0x00 19. "             STBY_MDISCREQ_OCPM1  ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 18. " STBY_MDISCREQ_OCPM0   ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 17. "             IDLE_SDISCONNECT_ACK ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 16. "             IDLE_SDISCONNECT_REQ ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 15. " EVE_IDLE_INTR_DISABLE ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 14. "             TPTC1_MWAIT          ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 13. "             TPTC0_MWAIT          ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 12. " EVE_PCACHE_OCP_BUSY   ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 11. "             EVE_CONTROL_SIDLEACK ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 10. "             SMSET_SIDLEACK       ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 9. " L2_EVE_SIDLEACK       ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 8. "             MMU1_CONFIG_SIDLEACK ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 7. "             MMU1_SIDLEACK        ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 6. " MMU0_CONFIG_SIDLEACK  ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 5. "             MMU0_SIDLEACK        ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 4. "             SCTM_SIDLEACK        ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 3. " TPCC_SIDLEACK         ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 2. "             TPTC1_SIDLEACK       ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 1. "             TPTC0_SIDLEACK       ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 0. " SUBMODULE_IDLE_REQ    ," "0,1"
group.long 0x80FE8++0x3
line.long 0x00 "EVE_DBGOUT,"
hexmask.long.tbyte 0x00 8.--31. 1. " VALUE                 ,Read returns state of eve_dbgout bus."
bitfld.long 0x00 0.--3. "        GROUP                ,Debug Group Output control : mux select 0x0 : disabled / all debug outputs driven to 0x0. 0x1 : select output group1 0x2 : select output group2 : 0xN : select output groupN Others - reserved" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80FF4++0x3
line.long 0x00 "EVE_RSVD0,"
hexmask.long 0x00 0.--31. 1. " VAL                   ,Value; This register is reserved for any necessary ECOs that may be required later in the design cycle."
group.long 0x80FF8++0x3
line.long 0x00 "EVE_RSVD1,"
hexmask.long 0x00 0.--31. 1. " VAL                   ,Value; This register is reserved for any necessary ECOs that may be required later in the design cycle."
group.long 0x80FFC++0x3
line.long 0x00 "EVE_TEST,"
hexmask.long 0x00 0.--31. 1. " VAL                   ,Value; This register is reserved for any necessary ECOs that may be required later in the design cycle."
width 0x0B
tree.end
tree "EVE4_DSP"
base ad:0x2300000
tree "Channel_0"
width 30.
group.long 0x80700++0x3
line.long 0x00 "EVE_GPOUTm_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: Drive GP Output #n low/1 Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x80708++0x3
line.long 0x00 "EVE_GPOUTm_CLR_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: Drive GP Output #n low/1 Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x8070C++0x3
line.long 0x00 "EVE_GPOUTm_PULSE_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: No action Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1 for four cycles / then drive low/0. Read 1: GP Output #n is high/1. Note: Writing to GPOUT registers when the four cycles for the previous wri..."
group.long 0x80704++0x3
line.long 0x00 "EVE_GPOUTm_SET_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: No action Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x8052C++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_CLR_0,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80528++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_SET_0,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80524++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event."
group.long 0x80520++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_RAW_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80420++0x3
line.long 0x00 "MISR2_Dk_0,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80300++0x3
line.long 0x00 "MMR_LOCKi_0,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK  ,Lock/Unlock register for corresponding region"
tree.end
tree "Channel_1"
width 30.
group.long 0x80710++0x3
line.long 0x00 "EVE_GPOUTm_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: Drive GP Output #n low/1 Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x80718++0x3
line.long 0x00 "EVE_GPOUTm_CLR_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: Drive GP Output #n low/1 Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x8071C++0x3
line.long 0x00 "EVE_GPOUTm_PULSE_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: No action Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1 for four cycles / then drive low/0. Read 1: GP Output #n is high/1. Note: Writing to GPOUT registers when the four cycles for the previous wri..."
group.long 0x80714++0x3
line.long 0x00 "EVE_GPOUTm_SET_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: No action Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x8053C++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_CLR_1,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80538++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_SET_1,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80534++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event."
group.long 0x80530++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_RAW_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80424++0x3
line.long 0x00 "MISR2_Dk_1,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80304++0x3
line.long 0x00 "MMR_LOCKi_1,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK  ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_2"
width 30.
group.long 0x8054C++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_CLR_2,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80548++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_SET_2,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80544++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_2,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event."
group.long 0x80540++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_RAW_2,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80428++0x3
line.long 0x00 "MISR2_Dk_2,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80308++0x3
line.long 0x00 "MMR_LOCKi_2,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK  ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_3"
width 30.
group.long 0x8055C++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_CLR_3,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80558++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_SET_3,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80554++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_3,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event."
group.long 0x80550++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_RAW_3,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x8042C++0x3
line.long 0x00 "MISR2_Dk_3,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x8030C++0x3
line.long 0x00 "MMR_LOCKi_3,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK  ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_4"
width 28.
group.long 0x8021C++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_CLR_4,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80218++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_SET_4,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80214++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_4,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80210++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_RAW_4,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80310++0x3
line.long 0x00 "MMR_LOCKi_4,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_5"
width 28.
group.long 0x8022C++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_CLR_5,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80228++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_SET_5,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80224++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_5,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80220++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_RAW_5,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80314++0x3
line.long 0x00 "MMR_LOCKi_5,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_6"
width 28.
group.long 0x8023C++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_CLR_6,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80238++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_SET_6,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80234++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_6,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80230++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_RAW_6,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80318++0x3
line.long 0x00 "MMR_LOCKi_6,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_7"
width 28.
group.long 0x8024C++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_CLR_7,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80248++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_SET_7,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80244++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_7,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80240++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_RAW_7,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x8031C++0x3
line.long 0x00 "MMR_LOCKi_7,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_8"
width 28.
group.long 0x8060C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_8,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80608++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_8,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80604++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_8,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80600++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_8,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80320++0x3
line.long 0x00 "MMR_LOCKi_8,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_9"
width 28.
group.long 0x8061C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_9,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80618++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_9,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80614++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_9,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80610++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_9,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80324++0x3
line.long 0x00 "MMR_LOCKi_9,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_10"
width 29.
group.long 0x8062C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_10,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80628++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_10,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80624++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_10,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80620++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_10,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
tree.end
tree "IRQ_Line_11"
width 29.
group.long 0x8063C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_11,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80638++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_11,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80634++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_11,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80630++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_11,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
tree.end
tree "IRQ_Line_12"
width 29.
group.long 0x8064C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_12,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80648++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_12,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80644++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_12,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80640++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_12,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
tree.end
tree "IRQ_Line_13"
width 29.
group.long 0x8065C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_13,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80658++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_13,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80654++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_13,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80650++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_13,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
tree.end
textline ""
width 27.
rgroup.long 0x80000++0x3
line.long 0x00 "EVE_REVISION,"
hexmask.long 0x00 0.--31. 1. " REVISION              ,Revision"
rgroup.long 0x80004++0x3
line.long 0x00 "EVE_HWINFO,"
hexmask.long 0x00 4.--31. 1. " INFO                  ,0x0: No configurable options in EVE"
bitfld.long 0x00 0.--3. "      EVENUM               ,EVE instance number set by eve_num inputs. In a multi-EVE system must be set to unique/incrementing values for each EVE." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80008++0x3
line.long 0x00 "EVE_SYSCONFIG,"
bitfld.long 0x00 4.--5. " STANDBYMODE           ,00: Force-Standby mode: This mode is a backup mode intended to be used only if the smart-idle mode is bugged. When in this mode / the SAF asserts with minimal hardware condition the status saying :I am in standby:. It is the res..." "0,1,2,3"
bitfld.long 0x00 2.--3. "             IDLEMODE             ,00: Force-idle: This mode is a backup mode intended to be used only if the smart-idle mode is bugged. When in this mode the IAF acknowledges a request to go idle from the power manager with minimal hardware condition...." "0,1,2,3"
bitfld.long 0x00 1. "             FREEEMU              ,Resered. Note that SCTM has free control bit to define the timer operation during ARP32 debug halt mode" "0,1"
textline "                                    "
bitfld.long 0x00 0. " SOFTRESET             ,Reserved" "0,1"
rgroup.long 0x8000C++0x3
line.long 0x00 "EVE_STAT,"
bitfld.long 0x00 20.--21. " OCPI_DISC_STAT        ,OCP Initiator(s) Disconnect status2: - . - ." "0,1,2,3"
bitfld.long 0x00 16.--17. "             ARP32_DISC_STATUS    ,ARP32 Program/Data Bus Disconnect Status 2: - . - ." "0,1,2,3"
bitfld.long 0x00 8. "             INT_OUT_STAT         ,Interrupt Output status: - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " ARP_INTC_STAT         ,Interrupt Controller Status: - . - ." "0,1"
bitfld.long 0x00 5. "             TC1_STAT             ,Transfer Controller1 Status: - . - ." "Idle,Active"
bitfld.long 0x00 4. "        TC0_STAT             ,Transfer Controller0 Status: - . - ." "Idle,Active"
textline "                                    "
bitfld.long 0x00 2. " PC_STAT               ,Program Cache Status: - . - ." "Idle,1"
bitfld.long 0x00 1. "          VCOP_STAT            ,VCOP Status : - . - ." "Idle,1"
bitfld.long 0x00 0. "          ARP32_STAT           ,Program Cache Status: - . - ." "Idle,1"
group.long 0x80010++0x3
line.long 0x00 "EVE_DISC_CONFIG,Color 0 noise threshold"
bitfld.long 0x00 4. " OCPI_DISC             ,OCP Initiator Disconnect request: - . - ." "0,1"
bitfld.long 0x00 0. "             ARP32_DISC           ,ARP32 Initiator Disconnect request. - . - ." "0,1"
group.long 0x80014++0x3
line.long 0x00 "EVE_BUS_CONFIG,Color 0 noise threshold"
bitfld.long 0x00 12.--13. " TC1_DBS               ,TC1 default burst size. 00: 16 byte, 01: 32 byte, 10: 64 byte, 11: 128 byte (recommended)" "0,1,2,3"
bitfld.long 0x00 8.--9. "             TC0_DBS              ,TC0 default burst size. 00: 16 byte, 01: 32 byte, 10: 64 byte, 11: 128 byte (recommended)" "0,1,2,3"
bitfld.long 0x00 4. "             DBP_ENABLE           ,Program Cache Demand Based Prefetch enable: - . - ." "DBP_disabled,DBP_enabled"
textline "                                    "
bitfld.long 0x00 0.--3. " MAX_IN_FLIGHT         ,Defines maximum number of OCP requests in flight. Can be reduced to limit the peak bandwidth for software direct preload, which in turn may provide advantage to other EVE level (e.g. EDMA) or system-level initiators. 0: Reserved..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80018++0x3
line.long 0x00 "EVE_VCOP_HALT_CONFIG,"
bitfld.long 0x00 2. " FORCE_ABORT           ,VCOP Force Abort Write: Read always returns 0s - Write 0 has no effect. . - . - ." "0,1"
bitfld.long 0x00 1. "             MSW_EN               ,VCOP Memory Seitch Error Halt Enable: - . - ." "Disabled,1"
bitfld.long 0x00 0. "      ED_EN                ,VCOP Parity Error Detect Halt Enable: - . - ." "Disabled,1"
group.long 0x8001C++0x3
line.long 0x00 "EVE_MMU_CONFIG,"
bitfld.long 0x00 12. " MMU1_ABORT            ,Causes the MMU to abort the current operation in case of lockup" "0,1"
bitfld.long 0x00 8. "             MMU0_ABORT           ,Causes the MMU to abort the current operation in case of lockup" "0,1"
bitfld.long 0x00 4. "             MMU1_EN              ,Clearing this bit disables MMU table lookup and causes accesses to use the non-translated address. This bit defaults to enabled but an identical bit within an MMU configuration register defaults to disabled and must b..." "0,1"
textline "                                    "
bitfld.long 0x00 0. " MMU0_EN               ,Clearing this bit disables MMU table lookup and causes accesses to use the non-translated address. This bit defaults to enabled but an identical bit within an MMU configuration register defaults to disabled and must be set after..." "0,1"
group.long 0x80020++0x3
line.long 0x00 "EVE_MEMMAP,"
bitfld.long 0x00 4. " LCL_EDMA_ALIAS        ,0: Local EDMA views full memory map - ." "0,1"
bitfld.long 0x00 0. "             VCOP_ALIAS           ,0: VCOP views full memory map - ." "0,1"
group.long 0x80024++0x3
line.long 0x00 "EVE_MSW_CTL,Memory switch control register"
bitfld.long 0x00 16. " WBUF                  ,Working buffer onwership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20). - . - ." "System_owned,VCOP_owned"
bitfld.long 0x00 12. "  IBUFHB               ,Image buffer high B ownership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20).: - . - ." "System_owned,VCOP_owned"
bitfld.long 0x00 8. "  IBUFLB               ,Image buffer low B ownership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20).: - . - ." "System_owned,VCOP_owned"
textline "                                    "
bitfld.long 0x00 4. " IBUFHA                ,Image buffer high A ownership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20).: - . - ." "System_owned,VCOP_owned"
bitfld.long 0x00 0. "  IBUFLA               ,Image buffer low A ownership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20).: - . - ." "System_owned,VCOP_owned"
group.long 0x80028++0x3
line.long 0x00 "EVE_MSW_ERR,Memory Switch Error register"
hexmask.long.word 0x00 16.--24. 1. " CONNID                ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated buffer ownership error not recorded 1 - System initiated buffer ownership error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated buffer ownership error not recorded 1 : EDMA buffer ownership error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated buffer ownership error not recorded 1 : VCOP initiated buffer ownership error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated buffer ownership error not recorded 1 : ARP32 initiated buffer ownership error detected/recorded Write 1 to clear." "0,1"
rgroup.long 0x8002C++0x3
line.long 0x00 "EVE_MSW_ERRADDR,Memory switch error address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of memory switch error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address. Va..."
group.long 0x80040++0x3
line.long 0x00 "EVE_PC_INV,Invalidate all register"
bitfld.long 0x00 0. " I                     ,Invalidate all: - . Read: 0 : Invalidate operation complete / or not in progress 1 : Invalidate operation still in progress. - ." "0,1"
group.long 0x80050++0x3
line.long 0x00 "EVE_PC_IBAR,Invalidate Base Address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Invalidate Base Address register. Defines system byte address base to be invalidated from L1P. The entire range to be invalidated is (loosely speaking) from the base address to the base address + byte count. The actual range is ..."
group.long 0x80054++0x3
line.long 0x00 "EVE_PC_IBC,Invalidate byte count register"
hexmask.long.word 0x00 0.--15. 1. " BC                    ,Invalidate Byte Count register. Defines number of bytes relative to Invalidate Base Address (IBAR.ADDR) to be invalidated from L1P. Maximum of 32k (0x8000). Reads return 0x0 when invalidate range operation is complete."
group.long 0x80058++0x3
line.long 0x00 "EVE_PC_ISAR,Invalidate single address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Invalidate Single Address register. Defines system byte address (1 line only) to be invalidated from L1P. Reads return 0x0 when the invalidate operation is complete."
rgroup.long 0x8005C++0x3
line.long 0x00 "EVE_PC_ISAR_DONE,Invalidate single address done register"
bitfld.long 0x00 0. " DONE                  ,Reads return 0x1 when the invalidate operation is complete. Cleared on the next write to theEVE_PC_ISAR register" "0,1"
group.long 0x80060++0x3
line.long 0x00 "EVE_PC_PBAR,Program cache preload base address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Preload Base Address register. Defines system byte address base to be Preloaded into L1P. The entire range to be Preloaded is (loosely speaking) from the base address to the base address + byte count. The actual range is inclusi..."
group.long 0x80064++0x3
line.long 0x00 "EVE_PC_PBC,"
hexmask.long.word 0x00 0.--15. 1. " BC                    ,Preload Byte Count register. Defines number of bytes relative to Preload Base Address (PBAR.ADDR) to be Preloaded into L1P. Maximum of 32k (0x8000). Reads return 0x0 when Preload range operation is complete"
group.long 0x80080++0x3
line.long 0x00 "EVE_PMEM_ED_CTL,Program Memory Error Detection Control register"
bitfld.long 0x00 1. " INV                   ,Read 0: Error detection logic is not inverted. Read 1: Error detection logic is inverted. Writes to memory set parity as normal. Reds from meory return inverse of parity bit. - Write 0 to clear, write 1 to set. Must be set when ..." "0,1"
bitfld.long 0x00 0. "             EN                   ,Error detection logic enable. Writes update parity, reads check parity - . - ." "Disabled,Enabled"
group.long 0x80084++0x3
line.long 0x00 "EVE_PMEM_ED_STAT,Error detection status register"
hexmask.long.word 0x00 16.--24. 1. " SYSCONNID             ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated parity error not recorded 1 - System initiated parity error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated parity error not recorded 1 : EDMA parity error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated parity error not recorded 1 : VCOP initiated parity error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated parity error not recorded 1 : ARP32 initiated parity error detected/recorded Write 1 to clear" "0,1"
rgroup.long 0x80088++0x3
line.long 0x00 "EVE_PMEM_EDADDR,Program memory error detection address"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of parity error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address."
group.long 0x80090++0x3
line.long 0x00 "EVE_DMEM_ED_CTL,DMEM error detection control"
bitfld.long 0x00 1. " INV                   ,Read 0: Error detection logic is not inverted. Read 1: Error detection logic is inverted. Writes to memory set parity as normal. Reads from meory return inverse of parity bit. - Write 0 to clear, write 1 to set. Must be set when..." "0,1"
bitfld.long 0x00 0. "             EN                   ,Error detection logic enable. Writes update parity, reads check parity - . - ." "Disabled,Enabled"
group.long 0x80094++0x3
line.long 0x00 "EVE_DMEM_ED_STAT,DMEM error detection status register"
hexmask.long.word 0x00 16.--24. 1. " SYSCONNID             ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated parity error not recorded 1 - System initiated parity error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated parity error not recorded 1 : EDMA parity error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated parity error not recorded 1 : VCOP initiated parity error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated parity error not recorded 1 : ARP32 initiated parity error detected/recorded Write 1 to clear" "0,1"
rgroup.long 0x80098++0x3
line.long 0x00 "EVE_DMEM_EDADDR,DMEM error detection address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of parity error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address."
rgroup.long 0x8009C++0x3
line.long 0x00 "EVE_DMEM_EDADDR_BO,DMEM error detection address byte offset register"
hexmask.long 0x00 0.--31. 1. " BO                    ,Address byte offset for parity error. Indicates that an error has occured in byte offset #n. 0: No error occuredin byte offset #n; 1: Error occured in byte offset #n. Write to clear any of MEM.SYSERR/DMARR/ARP32/or VERR."
group.long 0x800A0++0x3
line.long 0x00 "EVE_WBUF_ED_CTL,WBUF error detection control"
bitfld.long 0x00 1. " INV                   ,Read 0: Error detection logic is not inverted. Read 1: Error detection logic is inverted. Writes to memory set parity as normal. Reads from meory return inverse of parity bit. - Write 0 to clea Write 1 to set. Must be set when E..." "0,1"
bitfld.long 0x00 0. "             EN                   ,Error detection logic enable. Writes update parity, reads check parity - . - ." "Disabled,Enabled"
group.long 0x800A4++0x3
line.long 0x00 "EVE_WBUF_ED_STAT,WBUF error detection status register"
hexmask.long.word 0x00 16.--24. 1. " SYSCONNID             ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated parity error not recorded 1 - System initiated parity error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated parity error not recorded 1 : EDMA parity error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated parity error not recorded 1 : VCOP initiated parity error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated parity error not recorded 1 : ARP32 initiated parity error detected/recorded Write 1 to clear" "0,1"
rgroup.long 0x800A8++0x3
line.long 0x00 "EVE_WBUF_EDADDR,WBUF error detection address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of parity error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address."
rgroup.long 0x800AC++0x3
line.long 0x00 "EVE_WBUF_EDADDR_BO,WBUF error detection address byte offset register"
hexmask.long 0x00 0.--31. 1. " BO                    ,Address byte offset for parity error. Indicates that an error has occured in byte offset #n. 0: No error occuredin byte offset #n; 1: Error occured in byte offset #n. Write to clear any of MEM.SYSERR/DMARR/ARP32/or VERR."
group.long 0x800B0++0x3
line.long 0x00 "EVE_IBUF_ED_CTL,IBUF error detection control"
bitfld.long 0x00 1. " INV                   ,Read 0: Error detection logic is not inverted. Read 1: Error detection logic is inverted. Writes to memory set parity as normal. Reads from meory return inverse of parity bit. - Write 0 to clear, write 1 to set. Must be set when..." "0,1"
bitfld.long 0x00 0. "             EN                   ,Error detection logic enable. Writes update parity, reads check parity - . - ." "Disabled,Enabled"
group.long 0x800B4++0x3
line.long 0x00 "EVE_IBUF_ED_STAT,IBUF error detection status register"
hexmask.long.word 0x00 16.--24. 1. " SYSCONNID             ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated parity error not recorded 1 - System initiated parity error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated parity error not recorded 1 : EDMA parity error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated parity error not recorded 1 : VCOP initiated parity error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated parity error not recorded 1 : ARP32 initiated parity error detected/recorded Write 1 to clear" "0,1"
rgroup.long 0x800B8++0x3
line.long 0x00 "EVE_IBUF_EDADDR,IBUF error detection address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of parity error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address."
rgroup.long 0x800BC++0x3
line.long 0x00 "EVE_IBUF_EDADDR_BO,IBUF error detection address byte offset register"
hexmask.long 0x00 0.--31. 1. " BO                    ,Address byte offset for parity error. Indicates that an error has occured in byte offset #n. 0: No error occuredin byte offset #n; 1: Error occured in byte offset #n. Write to clear any of MEM.SYSERR/DMARR/ARP32/or VERR."
group.long 0x800F8++0x3
line.long 0x00 "EVE_ED_ARP32_DISC_EN,ARP32 disconnect enable register"
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Disconnect Enable for Event #n 0: Disconnect disabled 1: Disconnect enabled"
group.long 0x800FC++0x3
line.long 0x00 "EVE_ED_OCPI_DISC_EN,OCP interface disconnect enable register"
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Disconnect Enable for Event #n. 0: Disconnect disabled 1: Disconnect enabled"
group.long 0x80110++0x3
line.long 0x00 "EVE_MSW_ERR_IRQSTATUS_RAW,Per event memory switch error interrupt status register."
bitfld.long 0x00 0.--3. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80114++0x3
line.long 0x00 "EVE_MSW_ERR_IRQSTATUS,Memory switch error interrupt status register."
bitfld.long 0x00 0.--3. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80118++0x3
line.long 0x00 "EVE_MSW_ERR_IRQENABLE_SET,Memory switch error interrupt enable register."
bitfld.long 0x00 0.--3. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x8011C++0x3
line.long 0x00 "EVE_MSW_ERR_IRQENABLE_CLR,Memory switch error interrupt clear register."
bitfld.long 0x00 0.--3. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80120++0x3
line.long 0x00 "EVE_ED_LCL_IRQSTATUS_RAW,Per event error detection local interrupt status register."
hexmask.long.word 0x00 0.--15. 1. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80124++0x3
line.long 0x00 "EVE_ED_LCL_IRQSTATUS,Error detection local interrupt status register."
hexmask.long.word 0x00 0.--15. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80128++0x3
line.long 0x00 "EVE_ED_LCL_IRQENABLE_SET,Error detection local interrupt enable register."
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8012C++0x3
line.long 0x00 "EVE_ED_LCL_IRQENABLE_CLR,Error detection local interrupt clear register."
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80200++0x3
line.long 0x00 "ARP32_NMI_IRQSTATUS_RAW,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80204++0x3
line.long 0x00 "ARP32_NMI_IRQSTATUS,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80208++0x3
line.long 0x00 "ARP32_NMI_IRQENABLE_SET,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8020C++0x3
line.long 0x00 "ARP32_NMI_IRQENABLE_CLR,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x802FC++0x3
line.long 0x00 "ARP32_IRQWAKEEN,Wake enable register"
hexmask.long.tbyte 0x00 0.--23. 1. " ENABLE                ,Wakeup Enable for event EVE_EVT_INT #n 0: Interrupt #n disabled for wakeup 1: Interrupt #n enabled for wakeup"
group.long 0x80400++0x3
line.long 0x00 "MISR_CTL,"
bitfld.long 0x00 0.--2. " ENABLE                ,MISR Enable #N 0: MISR #n disabled 1: MISR #n enabled Bit 0: MISR 0 - ARP32 PMEM path Bit 1: MISR 1 - ARP32 DMEM path Bit 2: MISR 2 - INTC WBUF path" "0,1,2,3,4,5,6,7"
group.long 0x80404++0x3
line.long 0x00 "MISR_CLEAR,"
bitfld.long 0x00 0.--2. " CLEAR                 ,MISR Clear #N Write 0: no effect Write 1: Clear MISR #n Read 0: Previous MISR clear command has completed. Read 1: MISR Clear in progress (this state may never actually be readable)" "0,1,2,3,4,5,6,7"
group.long 0x80410++0x3
line.long 0x00 "MISR0_A,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE             ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80414++0x3
line.long 0x00 "MISR0_D,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE             ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80418++0x3
line.long 0x00 "MISR1_A,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE             ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x8041C++0x3
line.long 0x00 "MISR1_D,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE             ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80500++0x3
line.long 0x00 "EVE_IRQ_EOI,"
bitfld.long 0x00 0.--2. " LINE_NUMBER           ,Software End Of Interrupt (EOI) control. Write number of interrupt output to force re-evaluation of associated pending interrupts. Refer to Section Error: Reference source not found for EOI mapping. Reads always return 0x0. Writ..." "0,1,2,3,4,5,6,7"
group.long 0x80510++0x3
line.long 0x00 "EVE_ED_OUT_IRQSTATUS_RAW,"
hexmask.long.word 0x00 0.--15. 1. " EVENT                 ,Settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80514++0x3
line.long 0x00 "EVE_ED_OUT_IRQSTATUS,"
hexmask.long.word 0x00 0.--15. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80518++0x3
line.long 0x00 "EVE_ED_OUT_IRQENABLE_SET,"
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8051C++0x3
line.long 0x00 "EVE_ED_OUT_IRQENABLE_CLR,"
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
rgroup.long 0x80680++0x3
line.long 0x00 "ARP32_INT14_IRQSTATUS_RAW,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80684++0x3
line.long 0x00 "ARP32_INT14_IRQSTATUS,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80688++0x3
line.long 0x00 "ARP32_INT14_IRQENABLE_SET,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8068C++0x3
line.long 0x00 "ARP32_INT14_IRQENABLE_CLR,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
rgroup.long 0x80690++0x3
line.long 0x00 "ARP32_INT15_IRQSTATUS_RAW,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80694++0x3
line.long 0x00 "ARP32_INT15_IRQSTATUS,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80698++0x3
line.long 0x00 "ARP32_INT15_IRQENABLE_SET,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8069C++0x3
line.long 0x00 "ARP32_INT15_IRQENABLE_CLR,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
rgroup.long 0x80740++0x3
line.long 0x00 "EVE_GPIN0,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,GP Input #n Read 0: GP Input #n is low/0. Read 1: GP Input is high/1."
rgroup.long 0x80744++0x3
line.long 0x00 "EVE_GPIN1,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,GP Input #n Read 0: GP Input #n is low/0. Read 1: GP Input is high/1."
group.long 0x80780++0x3
line.long 0x00 "EVE_CME_DONE_GPOUT,"
hexmask.long.byte 0x00 0.--7. 1. " EVENT                 ,Internal CME Done Output #n. Write 0: Drive Internal CME Done #n low/1 Read 0: Drive Internal CME Done #n is low/0. Write 1: Drive Internal CME Done #n high/1. Read 1: Internal CME Done is high/1."
group.long 0x80784++0x3
line.long 0x00 "EVE_CME_DONE_GPOUT_SET,"
hexmask.long.byte 0x00 0.--7. 1. " EVENT                 ,Internal CME Done #n Write 0: No action Read 0: Internal CME Done #n is low/0. Write 1: Drive Internal CME Done #n high/1. Read 1: Internal CME Done is high/1."
group.long 0x80788++0x3
line.long 0x00 "EVE_CME_DONE_GPOUT_CLR,"
hexmask.long.byte 0x00 0.--7. 1. " EVENT                 ,Internal CME Done #n Write 0: No action Read 0: Internal CME Done #n is low/0. Write 1: Drive Internal CME Done #n low/0. Read 1: Internal CME Done #n is high/1."
group.long 0x8078C++0x3
line.long 0x00 "EVE_CME_DONE_GPOUT_PULSE,"
hexmask.long.byte 0x00 0.--7. 1. " EVENT                 ,Internal CME Done #n Write 0: No action Read 0: Internal CME Done #n is low/0. Write 1: Drive Internal CME Done #n high/1 for four cycles / then drive low/0. Read 1: Internal CME Done #n is high/1. Note: Writing to GPOUT registe..."
group.long 0x80790++0x3
line.long 0x00 "EVE_CME_DONE_SEL,"
bitfld.long 0x00 28.--31. " SEL7                  ,CME Done Output select for Bit #7 (n=7) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "            SEL6                 ,CME Done Output select for Bit #6 (n=6) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "            SEL5                 ,CME Done Output select for Bit #5 (n=5)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                    "
bitfld.long 0x00 16.--19. " SEL4                  ,CME Done Output select for Bit #4 (n=4) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "            SEL3                 ,CME Done Output select for Bit #3 (n=3) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "            SEL2                 ,CME Done Output select for Bit #2 (n=2) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                    "
bitfld.long 0x00 4.--7. " SEL1                  ,CME Done Output select for Bit #1 (n=1) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "            SEL0                 ,CME Done Output select for Bit #0 (n=0) 0: Driven by EDMA cc_int0 1: Driven by EDMA cc_int1 2: Driven by EDMA cc_int2 3: Driven by EDMA cc_int3 4: Driven by EDMA cc_int4 5: Driven by EDMA cc_int5 6: Driven by EDMA cc_i..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80794++0x3
line.long 0x00 "EVE_CME_DONE_EN,"
hexmask.long.byte 0x00 0.--7. 1. " EN                    ,EVE CME Done EN #n Write 0: No action Read 0: EVE CME Done #n is disabled. Write 1: Enable EVE CME Done #n event. This allows the status of the CME Done #n to propagate to the output. Read 1: EVE CME Done #n is enabled."
rgroup.long 0x80FE0++0x3
line.long 0x00 "EVE_PM_STAT0,"
bitfld.long 0x00 28.--30. " OCPM1_SCONNECT        ,Readable state of OCP Power management handshake" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--25. "             OCPM1_MCONNECT       ,Readable state of OCP Power management handshake" "0,1,2,3"
bitfld.long 0x00 20.--22. "             OCPM0_SCONNECT       ,Readable state of OCP Power management handshake" "0,1,2,3,4,5,6,7"
textline "                                    "
bitfld.long 0x00 16.--17. " OCPM0_MCONNECT        ,Readable state of OCP Power management handshake" "0,1,2,3"
bitfld.long 0x00 12.--14. "             OCPS_SCONNECT        ,Readable state of OCP Power management handshake" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--9. "             OCPS_MCONNECT        ,Readable state of OCP Power management handshake" "0,1,2,3"
textline "                                    "
bitfld.long 0x00 5. " MWAIT                 ,Readable state of OCP Power management handshake" "0,1"
bitfld.long 0x00 4. "             MSTANDBY             ,Readable state of OCP Power management handshake" "0,1"
bitfld.long 0x00 3. "             SWAKEUP              ,Readable state of OCP Power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 1.--2. " SIDLEACK              ,Readable state of OCP Power management handshake" "0,1,2,3"
bitfld.long 0x00 0. "             SIDLEREQ             ,Readable state of OCP Power management handshake" "0,1"
group.long 0x80FE4++0x3
line.long 0x00 "EVE_PM_STAT1,"
bitfld.long 0x00 22.--23. " STBY_MDISCACK_OCPM1   ,Readable state of internal power management handshake" "0,1,2,3"
bitfld.long 0x00 20.--21. "             STBY_MDISCACK_OCPM0  ,Readable state of internal power management handshake" "0,1,2,3"
bitfld.long 0x00 19. "             STBY_MDISCREQ_OCPM1  ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 18. " STBY_MDISCREQ_OCPM0   ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 17. "             IDLE_SDISCONNECT_ACK ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 16. "             IDLE_SDISCONNECT_REQ ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 15. " EVE_IDLE_INTR_DISABLE ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 14. "             TPTC1_MWAIT          ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 13. "             TPTC0_MWAIT          ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 12. " EVE_PCACHE_OCP_BUSY   ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 11. "             EVE_CONTROL_SIDLEACK ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 10. "             SMSET_SIDLEACK       ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 9. " L2_EVE_SIDLEACK       ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 8. "             MMU1_CONFIG_SIDLEACK ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 7. "             MMU1_SIDLEACK        ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 6. " MMU0_CONFIG_SIDLEACK  ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 5. "             MMU0_SIDLEACK        ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 4. "             SCTM_SIDLEACK        ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 3. " TPCC_SIDLEACK         ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 2. "             TPTC1_SIDLEACK       ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 1. "             TPTC0_SIDLEACK       ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 0. " SUBMODULE_IDLE_REQ    ," "0,1"
group.long 0x80FE8++0x3
line.long 0x00 "EVE_DBGOUT,"
hexmask.long.tbyte 0x00 8.--31. 1. " VALUE                 ,Read returns state of eve_dbgout bus."
bitfld.long 0x00 0.--3. "        GROUP                ,Debug Group Output control : mux select 0x0 : disabled / all debug outputs driven to 0x0. 0x1 : select output group1 0x2 : select output group2 : 0xN : select output groupN Others - reserved" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80FF4++0x3
line.long 0x00 "EVE_RSVD0,"
hexmask.long 0x00 0.--31. 1. " VAL                   ,Value; This register is reserved for any necessary ECOs that may be required later in the design cycle."
group.long 0x80FF8++0x3
line.long 0x00 "EVE_RSVD1,"
hexmask.long 0x00 0.--31. 1. " VAL                   ,Value; This register is reserved for any necessary ECOs that may be required later in the design cycle."
group.long 0x80FFC++0x3
line.long 0x00 "EVE_TEST,"
hexmask.long 0x00 0.--31. 1. " VAL                   ,Value; This register is reserved for any necessary ECOs that may be required later in the design cycle."
width 0x0B
tree.end
tree "EVE1"
base ad:0x42000000
tree "Channel_0"
width 30.
group.long 0x80700++0x3
line.long 0x00 "EVE_GPOUTm_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: Drive GP Output #n low/1 Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x80708++0x3
line.long 0x00 "EVE_GPOUTm_CLR_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: Drive GP Output #n low/1 Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x8070C++0x3
line.long 0x00 "EVE_GPOUTm_PULSE_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: No action Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1 for four cycles / then drive low/0. Read 1: GP Output #n is high/1. Note: Writing to GPOUT registers when the four cycles for the previous wri..."
group.long 0x80704++0x3
line.long 0x00 "EVE_GPOUTm_SET_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: No action Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x8052C++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_CLR_0,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80528++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_SET_0,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80524++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event."
group.long 0x80520++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_RAW_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80420++0x3
line.long 0x00 "MISR2_Dk_0,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80300++0x3
line.long 0x00 "MMR_LOCKi_0,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK  ,Lock/Unlock register for corresponding region"
tree.end
tree "Channel_1"
width 30.
group.long 0x80710++0x3
line.long 0x00 "EVE_GPOUTm_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: Drive GP Output #n low/1 Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x80718++0x3
line.long 0x00 "EVE_GPOUTm_CLR_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: Drive GP Output #n low/1 Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x8071C++0x3
line.long 0x00 "EVE_GPOUTm_PULSE_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: No action Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1 for four cycles / then drive low/0. Read 1: GP Output #n is high/1. Note: Writing to GPOUT registers when the four cycles for the previous wri..."
group.long 0x80714++0x3
line.long 0x00 "EVE_GPOUTm_SET_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: No action Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x8053C++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_CLR_1,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80538++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_SET_1,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80534++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event."
group.long 0x80530++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_RAW_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80424++0x3
line.long 0x00 "MISR2_Dk_1,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80304++0x3
line.long 0x00 "MMR_LOCKi_1,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK  ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_2"
width 30.
group.long 0x8054C++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_CLR_2,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80548++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_SET_2,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80544++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_2,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event."
group.long 0x80540++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_RAW_2,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80428++0x3
line.long 0x00 "MISR2_Dk_2,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80308++0x3
line.long 0x00 "MMR_LOCKi_2,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK  ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_3"
width 30.
group.long 0x8055C++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_CLR_3,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80558++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_SET_3,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80554++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_3,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event."
group.long 0x80550++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_RAW_3,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x8042C++0x3
line.long 0x00 "MISR2_Dk_3,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x8030C++0x3
line.long 0x00 "MMR_LOCKi_3,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK  ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_4"
width 28.
group.long 0x8021C++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_CLR_4,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80218++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_SET_4,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80214++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_4,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80210++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_RAW_4,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80310++0x3
line.long 0x00 "MMR_LOCKi_4,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_5"
width 28.
group.long 0x8022C++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_CLR_5,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80228++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_SET_5,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80224++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_5,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80220++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_RAW_5,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80314++0x3
line.long 0x00 "MMR_LOCKi_5,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_6"
width 28.
group.long 0x8023C++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_CLR_6,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80238++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_SET_6,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80234++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_6,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80230++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_RAW_6,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80318++0x3
line.long 0x00 "MMR_LOCKi_6,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_7"
width 28.
group.long 0x8024C++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_CLR_7,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80248++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_SET_7,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80244++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_7,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80240++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_RAW_7,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x8031C++0x3
line.long 0x00 "MMR_LOCKi_7,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_8"
width 28.
group.long 0x8060C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_8,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80608++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_8,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80604++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_8,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80600++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_8,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80320++0x3
line.long 0x00 "MMR_LOCKi_8,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_9"
width 28.
group.long 0x8061C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_9,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80618++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_9,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80614++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_9,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80610++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_9,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80324++0x3
line.long 0x00 "MMR_LOCKi_9,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_10"
width 29.
group.long 0x8062C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_10,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80628++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_10,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80624++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_10,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80620++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_10,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
tree.end
tree "IRQ_Line_11"
width 29.
group.long 0x8063C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_11,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80638++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_11,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80634++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_11,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80630++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_11,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
tree.end
tree "IRQ_Line_12"
width 29.
group.long 0x8064C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_12,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80648++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_12,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80644++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_12,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80640++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_12,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
tree.end
tree "IRQ_Line_13"
width 29.
group.long 0x8065C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_13,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80658++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_13,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80654++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_13,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80650++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_13,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
tree.end
textline ""
width 27.
rgroup.long 0x80000++0x3
line.long 0x00 "EVE_REVISION,"
hexmask.long 0x00 0.--31. 1. " REVISION              ,Revision"
rgroup.long 0x80004++0x3
line.long 0x00 "EVE_HWINFO,"
hexmask.long 0x00 4.--31. 1. " INFO                  ,0x0: No configurable options in EVE"
bitfld.long 0x00 0.--3. "      EVENUM               ,EVE instance number set by eve_num inputs. In a multi-EVE system must be set to unique/incrementing values for each EVE." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80008++0x3
line.long 0x00 "EVE_SYSCONFIG,"
bitfld.long 0x00 4.--5. " STANDBYMODE           ,00: Force-Standby mode: This mode is a backup mode intended to be used only if the smart-idle mode is bugged. When in this mode / the SAF asserts with minimal hardware condition the status saying :I am in standby:. It is the res..." "0,1,2,3"
bitfld.long 0x00 2.--3. "             IDLEMODE             ,00: Force-idle: This mode is a backup mode intended to be used only if the smart-idle mode is bugged. When in this mode the IAF acknowledges a request to go idle from the power manager with minimal hardware condition...." "0,1,2,3"
bitfld.long 0x00 1. "             FREEEMU              ,Resered. Note that SCTM has free control bit to define the timer operation during ARP32 debug halt mode" "0,1"
textline "                                    "
bitfld.long 0x00 0. " SOFTRESET             ,Reserved" "0,1"
rgroup.long 0x8000C++0x3
line.long 0x00 "EVE_STAT,"
bitfld.long 0x00 20.--21. " OCPI_DISC_STAT        ,OCP Initiator(s) Disconnect status2: - . - ." "0,1,2,3"
bitfld.long 0x00 16.--17. "             ARP32_DISC_STATUS    ,ARP32 Program/Data Bus Disconnect Status 2: - . - ." "0,1,2,3"
bitfld.long 0x00 8. "             INT_OUT_STAT         ,Interrupt Output status: - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " ARP_INTC_STAT         ,Interrupt Controller Status: - . - ." "0,1"
bitfld.long 0x00 5. "             TC1_STAT             ,Transfer Controller1 Status: - . - ." "Idle,Active"
bitfld.long 0x00 4. "        TC0_STAT             ,Transfer Controller0 Status: - . - ." "Idle,Active"
textline "                                    "
bitfld.long 0x00 2. " PC_STAT               ,Program Cache Status: - . - ." "Idle,1"
bitfld.long 0x00 1. "          VCOP_STAT            ,VCOP Status : - . - ." "Idle,1"
bitfld.long 0x00 0. "          ARP32_STAT           ,Program Cache Status: - . - ." "Idle,1"
group.long 0x80010++0x3
line.long 0x00 "EVE_DISC_CONFIG,Color 0 noise threshold"
bitfld.long 0x00 4. " OCPI_DISC             ,OCP Initiator Disconnect request: - . - ." "0,1"
bitfld.long 0x00 0. "             ARP32_DISC           ,ARP32 Initiator Disconnect request. - . - ." "0,1"
group.long 0x80014++0x3
line.long 0x00 "EVE_BUS_CONFIG,Color 0 noise threshold"
bitfld.long 0x00 12.--13. " TC1_DBS               ,TC1 default burst size. 00: 16 byte, 01: 32 byte, 10: 64 byte, 11: 128 byte (recommended)" "0,1,2,3"
bitfld.long 0x00 8.--9. "             TC0_DBS              ,TC0 default burst size. 00: 16 byte, 01: 32 byte, 10: 64 byte, 11: 128 byte (recommended)" "0,1,2,3"
bitfld.long 0x00 4. "             DBP_ENABLE           ,Program Cache Demand Based Prefetch enable: - . - ." "DBP_disabled,DBP_enabled"
textline "                                    "
bitfld.long 0x00 0.--3. " MAX_IN_FLIGHT         ,Defines maximum number of OCP requests in flight. Can be reduced to limit the peak bandwidth for software direct preload, which in turn may provide advantage to other EVE level (e.g. EDMA) or system-level initiators. 0: Reserved..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80018++0x3
line.long 0x00 "EVE_VCOP_HALT_CONFIG,"
bitfld.long 0x00 2. " FORCE_ABORT           ,VCOP Force Abort Write: Read always returns 0s - Write 0 has no effect. . - . - ." "0,1"
bitfld.long 0x00 1. "             MSW_EN               ,VCOP Memory Seitch Error Halt Enable: - . - ." "Disabled,1"
bitfld.long 0x00 0. "      ED_EN                ,VCOP Parity Error Detect Halt Enable: - . - ." "Disabled,1"
group.long 0x8001C++0x3
line.long 0x00 "EVE_MMU_CONFIG,"
bitfld.long 0x00 12. " MMU1_ABORT            ,Causes the MMU to abort the current operation in case of lockup" "0,1"
bitfld.long 0x00 8. "             MMU0_ABORT           ,Causes the MMU to abort the current operation in case of lockup" "0,1"
bitfld.long 0x00 4. "             MMU1_EN              ,Clearing this bit disables MMU table lookup and causes accesses to use the non-translated address. This bit defaults to enabled but an identical bit within an MMU configuration register defaults to disabled and must b..." "0,1"
textline "                                    "
bitfld.long 0x00 0. " MMU0_EN               ,Clearing this bit disables MMU table lookup and causes accesses to use the non-translated address. This bit defaults to enabled but an identical bit within an MMU configuration register defaults to disabled and must be set after..." "0,1"
group.long 0x80020++0x3
line.long 0x00 "EVE_MEMMAP,"
bitfld.long 0x00 4. " LCL_EDMA_ALIAS        ,0: Local EDMA views full memory map - ." "0,1"
bitfld.long 0x00 0. "             VCOP_ALIAS           ,0: VCOP views full memory map - ." "0,1"
group.long 0x80024++0x3
line.long 0x00 "EVE_MSW_CTL,Memory switch control register"
bitfld.long 0x00 16. " WBUF                  ,Working buffer onwership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20). - . - ." "System_owned,VCOP_owned"
bitfld.long 0x00 12. "  IBUFHB               ,Image buffer high B ownership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20).: - . - ." "System_owned,VCOP_owned"
bitfld.long 0x00 8. "  IBUFLB               ,Image buffer low B ownership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20).: - . - ." "System_owned,VCOP_owned"
textline "                                    "
bitfld.long 0x00 4. " IBUFHA                ,Image buffer high A ownership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20).: - . - ." "System_owned,VCOP_owned"
bitfld.long 0x00 0. "  IBUFLA               ,Image buffer low A ownership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20).: - . - ." "System_owned,VCOP_owned"
group.long 0x80028++0x3
line.long 0x00 "EVE_MSW_ERR,Memory Switch Error register"
hexmask.long.word 0x00 16.--24. 1. " CONNID                ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated buffer ownership error not recorded 1 - System initiated buffer ownership error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated buffer ownership error not recorded 1 : EDMA buffer ownership error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated buffer ownership error not recorded 1 : VCOP initiated buffer ownership error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated buffer ownership error not recorded 1 : ARP32 initiated buffer ownership error detected/recorded Write 1 to clear." "0,1"
rgroup.long 0x8002C++0x3
line.long 0x00 "EVE_MSW_ERRADDR,Memory switch error address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of memory switch error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address. Va..."
group.long 0x80040++0x3
line.long 0x00 "EVE_PC_INV,Invalidate all register"
bitfld.long 0x00 0. " I                     ,Invalidate all: - . Read: 0 : Invalidate operation complete / or not in progress 1 : Invalidate operation still in progress. - ." "0,1"
group.long 0x80050++0x3
line.long 0x00 "EVE_PC_IBAR,Invalidate Base Address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Invalidate Base Address register. Defines system byte address base to be invalidated from L1P. The entire range to be invalidated is (loosely speaking) from the base address to the base address + byte count. The actual range is ..."
group.long 0x80054++0x3
line.long 0x00 "EVE_PC_IBC,Invalidate byte count register"
hexmask.long.word 0x00 0.--15. 1. " BC                    ,Invalidate Byte Count register. Defines number of bytes relative to Invalidate Base Address (IBAR.ADDR) to be invalidated from L1P. Maximum of 32k (0x8000). Reads return 0x0 when invalidate range operation is complete."
group.long 0x80058++0x3
line.long 0x00 "EVE_PC_ISAR,Invalidate single address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Invalidate Single Address register. Defines system byte address (1 line only) to be invalidated from L1P. Reads return 0x0 when the invalidate operation is complete."
rgroup.long 0x8005C++0x3
line.long 0x00 "EVE_PC_ISAR_DONE,Invalidate single address done register"
bitfld.long 0x00 0. " DONE                  ,Reads return 0x1 when the invalidate operation is complete. Cleared on the next write to theEVE_PC_ISAR register" "0,1"
group.long 0x80060++0x3
line.long 0x00 "EVE_PC_PBAR,Program cache preload base address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Preload Base Address register. Defines system byte address base to be Preloaded into L1P. The entire range to be Preloaded is (loosely speaking) from the base address to the base address + byte count. The actual range is inclusi..."
group.long 0x80064++0x3
line.long 0x00 "EVE_PC_PBC,"
hexmask.long.word 0x00 0.--15. 1. " BC                    ,Preload Byte Count register. Defines number of bytes relative to Preload Base Address (PBAR.ADDR) to be Preloaded into L1P. Maximum of 32k (0x8000). Reads return 0x0 when Preload range operation is complete"
group.long 0x80080++0x3
line.long 0x00 "EVE_PMEM_ED_CTL,Program Memory Error Detection Control register"
bitfld.long 0x00 1. " INV                   ,Read 0: Error detection logic is not inverted. Read 1: Error detection logic is inverted. Writes to memory set parity as normal. Reds from meory return inverse of parity bit. - Write 0 to clear, write 1 to set. Must be set when ..." "0,1"
bitfld.long 0x00 0. "             EN                   ,Error detection logic enable. Writes update parity, reads check parity - . - ." "Disabled,Enabled"
group.long 0x80084++0x3
line.long 0x00 "EVE_PMEM_ED_STAT,Error detection status register"
hexmask.long.word 0x00 16.--24. 1. " SYSCONNID             ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated parity error not recorded 1 - System initiated parity error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated parity error not recorded 1 : EDMA parity error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated parity error not recorded 1 : VCOP initiated parity error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated parity error not recorded 1 : ARP32 initiated parity error detected/recorded Write 1 to clear" "0,1"
rgroup.long 0x80088++0x3
line.long 0x00 "EVE_PMEM_EDADDR,Program memory error detection address"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of parity error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address."
group.long 0x80090++0x3
line.long 0x00 "EVE_DMEM_ED_CTL,DMEM error detection control"
bitfld.long 0x00 1. " INV                   ,Read 0: Error detection logic is not inverted. Read 1: Error detection logic is inverted. Writes to memory set parity as normal. Reads from meory return inverse of parity bit. - Write 0 to clear, write 1 to set. Must be set when..." "0,1"
bitfld.long 0x00 0. "             EN                   ,Error detection logic enable. Writes update parity, reads check parity - . - ." "Disabled,Enabled"
group.long 0x80094++0x3
line.long 0x00 "EVE_DMEM_ED_STAT,DMEM error detection status register"
hexmask.long.word 0x00 16.--24. 1. " SYSCONNID             ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated parity error not recorded 1 - System initiated parity error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated parity error not recorded 1 : EDMA parity error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated parity error not recorded 1 : VCOP initiated parity error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated parity error not recorded 1 : ARP32 initiated parity error detected/recorded Write 1 to clear" "0,1"
rgroup.long 0x80098++0x3
line.long 0x00 "EVE_DMEM_EDADDR,DMEM error detection address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of parity error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address."
rgroup.long 0x8009C++0x3
line.long 0x00 "EVE_DMEM_EDADDR_BO,DMEM error detection address byte offset register"
hexmask.long 0x00 0.--31. 1. " BO                    ,Address byte offset for parity error. Indicates that an error has occured in byte offset #n. 0: No error occuredin byte offset #n; 1: Error occured in byte offset #n. Write to clear any of MEM.SYSERR/DMARR/ARP32/or VERR."
group.long 0x800A0++0x3
line.long 0x00 "EVE_WBUF_ED_CTL,WBUF error detection control"
bitfld.long 0x00 1. " INV                   ,Read 0: Error detection logic is not inverted. Read 1: Error detection logic is inverted. Writes to memory set parity as normal. Reads from meory return inverse of parity bit. - Write 0 to clea Write 1 to set. Must be set when E..." "0,1"
bitfld.long 0x00 0. "             EN                   ,Error detection logic enable. Writes update parity, reads check parity - . - ." "Disabled,Enabled"
group.long 0x800A4++0x3
line.long 0x00 "EVE_WBUF_ED_STAT,WBUF error detection status register"
hexmask.long.word 0x00 16.--24. 1. " SYSCONNID             ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated parity error not recorded 1 - System initiated parity error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated parity error not recorded 1 : EDMA parity error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated parity error not recorded 1 : VCOP initiated parity error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated parity error not recorded 1 : ARP32 initiated parity error detected/recorded Write 1 to clear" "0,1"
rgroup.long 0x800A8++0x3
line.long 0x00 "EVE_WBUF_EDADDR,WBUF error detection address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of parity error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address."
rgroup.long 0x800AC++0x3
line.long 0x00 "EVE_WBUF_EDADDR_BO,WBUF error detection address byte offset register"
hexmask.long 0x00 0.--31. 1. " BO                    ,Address byte offset for parity error. Indicates that an error has occured in byte offset #n. 0: No error occuredin byte offset #n; 1: Error occured in byte offset #n. Write to clear any of MEM.SYSERR/DMARR/ARP32/or VERR."
group.long 0x800B0++0x3
line.long 0x00 "EVE_IBUF_ED_CTL,IBUF error detection control"
bitfld.long 0x00 1. " INV                   ,Read 0: Error detection logic is not inverted. Read 1: Error detection logic is inverted. Writes to memory set parity as normal. Reads from meory return inverse of parity bit. - Write 0 to clear, write 1 to set. Must be set when..." "0,1"
bitfld.long 0x00 0. "             EN                   ,Error detection logic enable. Writes update parity, reads check parity - . - ." "Disabled,Enabled"
group.long 0x800B4++0x3
line.long 0x00 "EVE_IBUF_ED_STAT,IBUF error detection status register"
hexmask.long.word 0x00 16.--24. 1. " SYSCONNID             ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated parity error not recorded 1 - System initiated parity error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated parity error not recorded 1 : EDMA parity error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated parity error not recorded 1 : VCOP initiated parity error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated parity error not recorded 1 : ARP32 initiated parity error detected/recorded Write 1 to clear" "0,1"
rgroup.long 0x800B8++0x3
line.long 0x00 "EVE_IBUF_EDADDR,IBUF error detection address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of parity error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address."
rgroup.long 0x800BC++0x3
line.long 0x00 "EVE_IBUF_EDADDR_BO,IBUF error detection address byte offset register"
hexmask.long 0x00 0.--31. 1. " BO                    ,Address byte offset for parity error. Indicates that an error has occured in byte offset #n. 0: No error occuredin byte offset #n; 1: Error occured in byte offset #n. Write to clear any of MEM.SYSERR/DMARR/ARP32/or VERR."
group.long 0x800F8++0x3
line.long 0x00 "EVE_ED_ARP32_DISC_EN,ARP32 disconnect enable register"
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Disconnect Enable for Event #n 0: Disconnect disabled 1: Disconnect enabled"
group.long 0x800FC++0x3
line.long 0x00 "EVE_ED_OCPI_DISC_EN,OCP interface disconnect enable register"
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Disconnect Enable for Event #n. 0: Disconnect disabled 1: Disconnect enabled"
group.long 0x80110++0x3
line.long 0x00 "EVE_MSW_ERR_IRQSTATUS_RAW,Per event memory switch error interrupt status register."
bitfld.long 0x00 0.--3. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80114++0x3
line.long 0x00 "EVE_MSW_ERR_IRQSTATUS,Memory switch error interrupt status register."
bitfld.long 0x00 0.--3. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80118++0x3
line.long 0x00 "EVE_MSW_ERR_IRQENABLE_SET,Memory switch error interrupt enable register."
bitfld.long 0x00 0.--3. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x8011C++0x3
line.long 0x00 "EVE_MSW_ERR_IRQENABLE_CLR,Memory switch error interrupt clear register."
bitfld.long 0x00 0.--3. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80120++0x3
line.long 0x00 "EVE_ED_LCL_IRQSTATUS_RAW,Per event error detection local interrupt status register."
hexmask.long.word 0x00 0.--15. 1. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80124++0x3
line.long 0x00 "EVE_ED_LCL_IRQSTATUS,Error detection local interrupt status register."
hexmask.long.word 0x00 0.--15. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80128++0x3
line.long 0x00 "EVE_ED_LCL_IRQENABLE_SET,Error detection local interrupt enable register."
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8012C++0x3
line.long 0x00 "EVE_ED_LCL_IRQENABLE_CLR,Error detection local interrupt clear register."
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80200++0x3
line.long 0x00 "ARP32_NMI_IRQSTATUS_RAW,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80204++0x3
line.long 0x00 "ARP32_NMI_IRQSTATUS,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80208++0x3
line.long 0x00 "ARP32_NMI_IRQENABLE_SET,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8020C++0x3
line.long 0x00 "ARP32_NMI_IRQENABLE_CLR,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x802FC++0x3
line.long 0x00 "ARP32_IRQWAKEEN,Wake enable register"
hexmask.long.tbyte 0x00 0.--23. 1. " ENABLE                ,Wakeup Enable for event EVE_EVT_INT #n 0: Interrupt #n disabled for wakeup 1: Interrupt #n enabled for wakeup"
group.long 0x80400++0x3
line.long 0x00 "MISR_CTL,"
bitfld.long 0x00 0.--2. " ENABLE                ,MISR Enable #N 0: MISR #n disabled 1: MISR #n enabled Bit 0: MISR 0 - ARP32 PMEM path Bit 1: MISR 1 - ARP32 DMEM path Bit 2: MISR 2 - INTC WBUF path" "0,1,2,3,4,5,6,7"
group.long 0x80404++0x3
line.long 0x00 "MISR_CLEAR,"
bitfld.long 0x00 0.--2. " CLEAR                 ,MISR Clear #N Write 0: no effect Write 1: Clear MISR #n Read 0: Previous MISR clear command has completed. Read 1: MISR Clear in progress (this state may never actually be readable)" "0,1,2,3,4,5,6,7"
group.long 0x80410++0x3
line.long 0x00 "MISR0_A,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE             ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80414++0x3
line.long 0x00 "MISR0_D,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE             ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80418++0x3
line.long 0x00 "MISR1_A,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE             ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x8041C++0x3
line.long 0x00 "MISR1_D,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE             ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80500++0x3
line.long 0x00 "EVE_IRQ_EOI,"
bitfld.long 0x00 0.--2. " LINE_NUMBER           ,Software End Of Interrupt (EOI) control. Write number of interrupt output to force re-evaluation of associated pending interrupts. Refer to Section Error: Reference source not found for EOI mapping. Reads always return 0x0. Writ..." "0,1,2,3,4,5,6,7"
group.long 0x80510++0x3
line.long 0x00 "EVE_ED_OUT_IRQSTATUS_RAW,"
hexmask.long.word 0x00 0.--15. 1. " EVENT                 ,Settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80514++0x3
line.long 0x00 "EVE_ED_OUT_IRQSTATUS,"
hexmask.long.word 0x00 0.--15. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80518++0x3
line.long 0x00 "EVE_ED_OUT_IRQENABLE_SET,"
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8051C++0x3
line.long 0x00 "EVE_ED_OUT_IRQENABLE_CLR,"
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
rgroup.long 0x80680++0x3
line.long 0x00 "ARP32_INT14_IRQSTATUS_RAW,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80684++0x3
line.long 0x00 "ARP32_INT14_IRQSTATUS,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80688++0x3
line.long 0x00 "ARP32_INT14_IRQENABLE_SET,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8068C++0x3
line.long 0x00 "ARP32_INT14_IRQENABLE_CLR,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
rgroup.long 0x80690++0x3
line.long 0x00 "ARP32_INT15_IRQSTATUS_RAW,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80694++0x3
line.long 0x00 "ARP32_INT15_IRQSTATUS,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80698++0x3
line.long 0x00 "ARP32_INT15_IRQENABLE_SET,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8069C++0x3
line.long 0x00 "ARP32_INT15_IRQENABLE_CLR,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
rgroup.long 0x80740++0x3
line.long 0x00 "EVE_GPIN0,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,GP Input #n Read 0: GP Input #n is low/0. Read 1: GP Input is high/1."
rgroup.long 0x80744++0x3
line.long 0x00 "EVE_GPIN1,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,GP Input #n Read 0: GP Input #n is low/0. Read 1: GP Input is high/1."
group.long 0x80780++0x3
line.long 0x00 "EVE_CME_DONE_GPOUT,"
hexmask.long.byte 0x00 0.--7. 1. " EVENT                 ,Internal CME Done Output #n. Write 0: Drive Internal CME Done #n low/1 Read 0: Drive Internal CME Done #n is low/0. Write 1: Drive Internal CME Done #n high/1. Read 1: Internal CME Done is high/1."
group.long 0x80784++0x3
line.long 0x00 "EVE_CME_DONE_GPOUT_SET,"
hexmask.long.byte 0x00 0.--7. 1. " EVENT                 ,Internal CME Done #n Write 0: No action Read 0: Internal CME Done #n is low/0. Write 1: Drive Internal CME Done #n high/1. Read 1: Internal CME Done is high/1."
group.long 0x80788++0x3
line.long 0x00 "EVE_CME_DONE_GPOUT_CLR,"
hexmask.long.byte 0x00 0.--7. 1. " EVENT                 ,Internal CME Done #n Write 0: No action Read 0: Internal CME Done #n is low/0. Write 1: Drive Internal CME Done #n low/0. Read 1: Internal CME Done #n is high/1."
group.long 0x8078C++0x3
line.long 0x00 "EVE_CME_DONE_GPOUT_PULSE,"
hexmask.long.byte 0x00 0.--7. 1. " EVENT                 ,Internal CME Done #n Write 0: No action Read 0: Internal CME Done #n is low/0. Write 1: Drive Internal CME Done #n high/1 for four cycles / then drive low/0. Read 1: Internal CME Done #n is high/1. Note: Writing to GPOUT registe..."
group.long 0x80790++0x3
line.long 0x00 "EVE_CME_DONE_SEL,"
bitfld.long 0x00 28.--31. " SEL7                  ,CME Done Output select for Bit #7 (n=7) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "            SEL6                 ,CME Done Output select for Bit #6 (n=6) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "            SEL5                 ,CME Done Output select for Bit #5 (n=5)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                    "
bitfld.long 0x00 16.--19. " SEL4                  ,CME Done Output select for Bit #4 (n=4) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "            SEL3                 ,CME Done Output select for Bit #3 (n=3) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "            SEL2                 ,CME Done Output select for Bit #2 (n=2) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                    "
bitfld.long 0x00 4.--7. " SEL1                  ,CME Done Output select for Bit #1 (n=1) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "            SEL0                 ,CME Done Output select for Bit #0 (n=0) 0: Driven by EDMA cc_int0 1: Driven by EDMA cc_int1 2: Driven by EDMA cc_int2 3: Driven by EDMA cc_int3 4: Driven by EDMA cc_int4 5: Driven by EDMA cc_int5 6: Driven by EDMA cc_i..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80794++0x3
line.long 0x00 "EVE_CME_DONE_EN,"
hexmask.long.byte 0x00 0.--7. 1. " EN                    ,EVE CME Done EN #n Write 0: No action Read 0: EVE CME Done #n is disabled. Write 1: Enable EVE CME Done #n event. This allows the status of the CME Done #n to propagate to the output. Read 1: EVE CME Done #n is enabled."
rgroup.long 0x80FE0++0x3
line.long 0x00 "EVE_PM_STAT0,"
bitfld.long 0x00 28.--30. " OCPM1_SCONNECT        ,Readable state of OCP Power management handshake" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--25. "             OCPM1_MCONNECT       ,Readable state of OCP Power management handshake" "0,1,2,3"
bitfld.long 0x00 20.--22. "             OCPM0_SCONNECT       ,Readable state of OCP Power management handshake" "0,1,2,3,4,5,6,7"
textline "                                    "
bitfld.long 0x00 16.--17. " OCPM0_MCONNECT        ,Readable state of OCP Power management handshake" "0,1,2,3"
bitfld.long 0x00 12.--14. "             OCPS_SCONNECT        ,Readable state of OCP Power management handshake" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--9. "             OCPS_MCONNECT        ,Readable state of OCP Power management handshake" "0,1,2,3"
textline "                                    "
bitfld.long 0x00 5. " MWAIT                 ,Readable state of OCP Power management handshake" "0,1"
bitfld.long 0x00 4. "             MSTANDBY             ,Readable state of OCP Power management handshake" "0,1"
bitfld.long 0x00 3. "             SWAKEUP              ,Readable state of OCP Power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 1.--2. " SIDLEACK              ,Readable state of OCP Power management handshake" "0,1,2,3"
bitfld.long 0x00 0. "             SIDLEREQ             ,Readable state of OCP Power management handshake" "0,1"
group.long 0x80FE4++0x3
line.long 0x00 "EVE_PM_STAT1,"
bitfld.long 0x00 22.--23. " STBY_MDISCACK_OCPM1   ,Readable state of internal power management handshake" "0,1,2,3"
bitfld.long 0x00 20.--21. "             STBY_MDISCACK_OCPM0  ,Readable state of internal power management handshake" "0,1,2,3"
bitfld.long 0x00 19. "             STBY_MDISCREQ_OCPM1  ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 18. " STBY_MDISCREQ_OCPM0   ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 17. "             IDLE_SDISCONNECT_ACK ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 16. "             IDLE_SDISCONNECT_REQ ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 15. " EVE_IDLE_INTR_DISABLE ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 14. "             TPTC1_MWAIT          ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 13. "             TPTC0_MWAIT          ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 12. " EVE_PCACHE_OCP_BUSY   ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 11. "             EVE_CONTROL_SIDLEACK ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 10. "             SMSET_SIDLEACK       ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 9. " L2_EVE_SIDLEACK       ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 8. "             MMU1_CONFIG_SIDLEACK ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 7. "             MMU1_SIDLEACK        ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 6. " MMU0_CONFIG_SIDLEACK  ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 5. "             MMU0_SIDLEACK        ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 4. "             SCTM_SIDLEACK        ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 3. " TPCC_SIDLEACK         ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 2. "             TPTC1_SIDLEACK       ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 1. "             TPTC0_SIDLEACK       ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 0. " SUBMODULE_IDLE_REQ    ," "0,1"
group.long 0x80FE8++0x3
line.long 0x00 "EVE_DBGOUT,"
hexmask.long.tbyte 0x00 8.--31. 1. " VALUE                 ,Read returns state of eve_dbgout bus."
bitfld.long 0x00 0.--3. "        GROUP                ,Debug Group Output control : mux select 0x0 : disabled / all debug outputs driven to 0x0. 0x1 : select output group1 0x2 : select output group2 : 0xN : select output groupN Others - reserved" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80FF4++0x3
line.long 0x00 "EVE_RSVD0,"
hexmask.long 0x00 0.--31. 1. " VAL                   ,Value; This register is reserved for any necessary ECOs that may be required later in the design cycle."
group.long 0x80FF8++0x3
line.long 0x00 "EVE_RSVD1,"
hexmask.long 0x00 0.--31. 1. " VAL                   ,Value; This register is reserved for any necessary ECOs that may be required later in the design cycle."
group.long 0x80FFC++0x3
line.long 0x00 "EVE_TEST,"
hexmask.long 0x00 0.--31. 1. " VAL                   ,Value; This register is reserved for any necessary ECOs that may be required later in the design cycle."
width 0x0B
tree.end
tree "EVE3"
base ad:0x42200000
tree "Channel_0"
width 30.
group.long 0x80700++0x3
line.long 0x00 "EVE_GPOUTm_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: Drive GP Output #n low/1 Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x80708++0x3
line.long 0x00 "EVE_GPOUTm_CLR_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: Drive GP Output #n low/1 Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x8070C++0x3
line.long 0x00 "EVE_GPOUTm_PULSE_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: No action Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1 for four cycles / then drive low/0. Read 1: GP Output #n is high/1. Note: Writing to GPOUT registers when the four cycles for the previous wri..."
group.long 0x80704++0x3
line.long 0x00 "EVE_GPOUTm_SET_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: No action Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x8052C++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_CLR_0,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80528++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_SET_0,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80524++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event."
group.long 0x80520++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_RAW_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80420++0x3
line.long 0x00 "MISR2_Dk_0,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80300++0x3
line.long 0x00 "MMR_LOCKi_0,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK  ,Lock/Unlock register for corresponding region"
tree.end
tree "Channel_1"
width 30.
group.long 0x80710++0x3
line.long 0x00 "EVE_GPOUTm_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: Drive GP Output #n low/1 Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x80718++0x3
line.long 0x00 "EVE_GPOUTm_CLR_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: Drive GP Output #n low/1 Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x8071C++0x3
line.long 0x00 "EVE_GPOUTm_PULSE_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: No action Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1 for four cycles / then drive low/0. Read 1: GP Output #n is high/1. Note: Writing to GPOUT registers when the four cycles for the previous wri..."
group.long 0x80714++0x3
line.long 0x00 "EVE_GPOUTm_SET_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: No action Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x8053C++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_CLR_1,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80538++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_SET_1,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80534++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event."
group.long 0x80530++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_RAW_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80424++0x3
line.long 0x00 "MISR2_Dk_1,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80304++0x3
line.long 0x00 "MMR_LOCKi_1,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK  ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_2"
width 30.
group.long 0x8054C++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_CLR_2,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80548++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_SET_2,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80544++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_2,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event."
group.long 0x80540++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_RAW_2,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80428++0x3
line.long 0x00 "MISR2_Dk_2,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80308++0x3
line.long 0x00 "MMR_LOCKi_2,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK  ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_3"
width 30.
group.long 0x8055C++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_CLR_3,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80558++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_SET_3,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80554++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_3,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event."
group.long 0x80550++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_RAW_3,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x8042C++0x3
line.long 0x00 "MISR2_Dk_3,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x8030C++0x3
line.long 0x00 "MMR_LOCKi_3,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK  ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_4"
width 28.
group.long 0x8021C++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_CLR_4,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80218++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_SET_4,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80214++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_4,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80210++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_RAW_4,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80310++0x3
line.long 0x00 "MMR_LOCKi_4,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_5"
width 28.
group.long 0x8022C++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_CLR_5,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80228++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_SET_5,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80224++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_5,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80220++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_RAW_5,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80314++0x3
line.long 0x00 "MMR_LOCKi_5,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_6"
width 28.
group.long 0x8023C++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_CLR_6,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80238++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_SET_6,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80234++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_6,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80230++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_RAW_6,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80318++0x3
line.long 0x00 "MMR_LOCKi_6,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_7"
width 28.
group.long 0x8024C++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_CLR_7,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80248++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_SET_7,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80244++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_7,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80240++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_RAW_7,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x8031C++0x3
line.long 0x00 "MMR_LOCKi_7,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_8"
width 28.
group.long 0x8060C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_8,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80608++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_8,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80604++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_8,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80600++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_8,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80320++0x3
line.long 0x00 "MMR_LOCKi_8,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_9"
width 28.
group.long 0x8061C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_9,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80618++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_9,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80614++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_9,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80610++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_9,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80324++0x3
line.long 0x00 "MMR_LOCKi_9,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_10"
width 29.
group.long 0x8062C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_10,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80628++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_10,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80624++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_10,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80620++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_10,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
tree.end
tree "IRQ_Line_11"
width 29.
group.long 0x8063C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_11,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80638++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_11,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80634++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_11,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80630++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_11,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
tree.end
tree "IRQ_Line_12"
width 29.
group.long 0x8064C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_12,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80648++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_12,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80644++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_12,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80640++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_12,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
tree.end
tree "IRQ_Line_13"
width 29.
group.long 0x8065C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_13,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80658++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_13,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80654++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_13,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80650++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_13,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
tree.end
textline ""
width 27.
rgroup.long 0x80000++0x3
line.long 0x00 "EVE_REVISION,"
hexmask.long 0x00 0.--31. 1. " REVISION              ,Revision"
rgroup.long 0x80004++0x3
line.long 0x00 "EVE_HWINFO,"
hexmask.long 0x00 4.--31. 1. " INFO                  ,0x0: No configurable options in EVE"
bitfld.long 0x00 0.--3. "      EVENUM               ,EVE instance number set by eve_num inputs. In a multi-EVE system must be set to unique/incrementing values for each EVE." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80008++0x3
line.long 0x00 "EVE_SYSCONFIG,"
bitfld.long 0x00 4.--5. " STANDBYMODE           ,00: Force-Standby mode: This mode is a backup mode intended to be used only if the smart-idle mode is bugged. When in this mode / the SAF asserts with minimal hardware condition the status saying :I am in standby:. It is the res..." "0,1,2,3"
bitfld.long 0x00 2.--3. "             IDLEMODE             ,00: Force-idle: This mode is a backup mode intended to be used only if the smart-idle mode is bugged. When in this mode the IAF acknowledges a request to go idle from the power manager with minimal hardware condition...." "0,1,2,3"
bitfld.long 0x00 1. "             FREEEMU              ,Resered. Note that SCTM has free control bit to define the timer operation during ARP32 debug halt mode" "0,1"
textline "                                    "
bitfld.long 0x00 0. " SOFTRESET             ,Reserved" "0,1"
rgroup.long 0x8000C++0x3
line.long 0x00 "EVE_STAT,"
bitfld.long 0x00 20.--21. " OCPI_DISC_STAT        ,OCP Initiator(s) Disconnect status2: - . - ." "0,1,2,3"
bitfld.long 0x00 16.--17. "             ARP32_DISC_STATUS    ,ARP32 Program/Data Bus Disconnect Status 2: - . - ." "0,1,2,3"
bitfld.long 0x00 8. "             INT_OUT_STAT         ,Interrupt Output status: - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " ARP_INTC_STAT         ,Interrupt Controller Status: - . - ." "0,1"
bitfld.long 0x00 5. "             TC1_STAT             ,Transfer Controller1 Status: - . - ." "Idle,Active"
bitfld.long 0x00 4. "        TC0_STAT             ,Transfer Controller0 Status: - . - ." "Idle,Active"
textline "                                    "
bitfld.long 0x00 2. " PC_STAT               ,Program Cache Status: - . - ." "Idle,1"
bitfld.long 0x00 1. "          VCOP_STAT            ,VCOP Status : - . - ." "Idle,1"
bitfld.long 0x00 0. "          ARP32_STAT           ,Program Cache Status: - . - ." "Idle,1"
group.long 0x80010++0x3
line.long 0x00 "EVE_DISC_CONFIG,Color 0 noise threshold"
bitfld.long 0x00 4. " OCPI_DISC             ,OCP Initiator Disconnect request: - . - ." "0,1"
bitfld.long 0x00 0. "             ARP32_DISC           ,ARP32 Initiator Disconnect request. - . - ." "0,1"
group.long 0x80014++0x3
line.long 0x00 "EVE_BUS_CONFIG,Color 0 noise threshold"
bitfld.long 0x00 12.--13. " TC1_DBS               ,TC1 default burst size. 00: 16 byte, 01: 32 byte, 10: 64 byte, 11: 128 byte (recommended)" "0,1,2,3"
bitfld.long 0x00 8.--9. "             TC0_DBS              ,TC0 default burst size. 00: 16 byte, 01: 32 byte, 10: 64 byte, 11: 128 byte (recommended)" "0,1,2,3"
bitfld.long 0x00 4. "             DBP_ENABLE           ,Program Cache Demand Based Prefetch enable: - . - ." "DBP_disabled,DBP_enabled"
textline "                                    "
bitfld.long 0x00 0.--3. " MAX_IN_FLIGHT         ,Defines maximum number of OCP requests in flight. Can be reduced to limit the peak bandwidth for software direct preload, which in turn may provide advantage to other EVE level (e.g. EDMA) or system-level initiators. 0: Reserved..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80018++0x3
line.long 0x00 "EVE_VCOP_HALT_CONFIG,"
bitfld.long 0x00 2. " FORCE_ABORT           ,VCOP Force Abort Write: Read always returns 0s - Write 0 has no effect. . - . - ." "0,1"
bitfld.long 0x00 1. "             MSW_EN               ,VCOP Memory Seitch Error Halt Enable: - . - ." "Disabled,1"
bitfld.long 0x00 0. "      ED_EN                ,VCOP Parity Error Detect Halt Enable: - . - ." "Disabled,1"
group.long 0x8001C++0x3
line.long 0x00 "EVE_MMU_CONFIG,"
bitfld.long 0x00 12. " MMU1_ABORT            ,Causes the MMU to abort the current operation in case of lockup" "0,1"
bitfld.long 0x00 8. "             MMU0_ABORT           ,Causes the MMU to abort the current operation in case of lockup" "0,1"
bitfld.long 0x00 4. "             MMU1_EN              ,Clearing this bit disables MMU table lookup and causes accesses to use the non-translated address. This bit defaults to enabled but an identical bit within an MMU configuration register defaults to disabled and must b..." "0,1"
textline "                                    "
bitfld.long 0x00 0. " MMU0_EN               ,Clearing this bit disables MMU table lookup and causes accesses to use the non-translated address. This bit defaults to enabled but an identical bit within an MMU configuration register defaults to disabled and must be set after..." "0,1"
group.long 0x80020++0x3
line.long 0x00 "EVE_MEMMAP,"
bitfld.long 0x00 4. " LCL_EDMA_ALIAS        ,0: Local EDMA views full memory map - ." "0,1"
bitfld.long 0x00 0. "             VCOP_ALIAS           ,0: VCOP views full memory map - ." "0,1"
group.long 0x80024++0x3
line.long 0x00 "EVE_MSW_CTL,Memory switch control register"
bitfld.long 0x00 16. " WBUF                  ,Working buffer onwership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20). - . - ." "System_owned,VCOP_owned"
bitfld.long 0x00 12. "  IBUFHB               ,Image buffer high B ownership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20).: - . - ." "System_owned,VCOP_owned"
bitfld.long 0x00 8. "  IBUFLB               ,Image buffer low B ownership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20).: - . - ." "System_owned,VCOP_owned"
textline "                                    "
bitfld.long 0x00 4. " IBUFHA                ,Image buffer high A ownership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20).: - . - ." "System_owned,VCOP_owned"
bitfld.long 0x00 0. "  IBUFLA               ,Image buffer low A ownership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20).: - . - ." "System_owned,VCOP_owned"
group.long 0x80028++0x3
line.long 0x00 "EVE_MSW_ERR,Memory Switch Error register"
hexmask.long.word 0x00 16.--24. 1. " CONNID                ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated buffer ownership error not recorded 1 - System initiated buffer ownership error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated buffer ownership error not recorded 1 : EDMA buffer ownership error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated buffer ownership error not recorded 1 : VCOP initiated buffer ownership error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated buffer ownership error not recorded 1 : ARP32 initiated buffer ownership error detected/recorded Write 1 to clear." "0,1"
rgroup.long 0x8002C++0x3
line.long 0x00 "EVE_MSW_ERRADDR,Memory switch error address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of memory switch error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address. Va..."
group.long 0x80040++0x3
line.long 0x00 "EVE_PC_INV,Invalidate all register"
bitfld.long 0x00 0. " I                     ,Invalidate all: - . Read: 0 : Invalidate operation complete / or not in progress 1 : Invalidate operation still in progress. - ." "0,1"
group.long 0x80050++0x3
line.long 0x00 "EVE_PC_IBAR,Invalidate Base Address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Invalidate Base Address register. Defines system byte address base to be invalidated from L1P. The entire range to be invalidated is (loosely speaking) from the base address to the base address + byte count. The actual range is ..."
group.long 0x80054++0x3
line.long 0x00 "EVE_PC_IBC,Invalidate byte count register"
hexmask.long.word 0x00 0.--15. 1. " BC                    ,Invalidate Byte Count register. Defines number of bytes relative to Invalidate Base Address (IBAR.ADDR) to be invalidated from L1P. Maximum of 32k (0x8000). Reads return 0x0 when invalidate range operation is complete."
group.long 0x80058++0x3
line.long 0x00 "EVE_PC_ISAR,Invalidate single address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Invalidate Single Address register. Defines system byte address (1 line only) to be invalidated from L1P. Reads return 0x0 when the invalidate operation is complete."
rgroup.long 0x8005C++0x3
line.long 0x00 "EVE_PC_ISAR_DONE,Invalidate single address done register"
bitfld.long 0x00 0. " DONE                  ,Reads return 0x1 when the invalidate operation is complete. Cleared on the next write to theEVE_PC_ISAR register" "0,1"
group.long 0x80060++0x3
line.long 0x00 "EVE_PC_PBAR,Program cache preload base address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Preload Base Address register. Defines system byte address base to be Preloaded into L1P. The entire range to be Preloaded is (loosely speaking) from the base address to the base address + byte count. The actual range is inclusi..."
group.long 0x80064++0x3
line.long 0x00 "EVE_PC_PBC,"
hexmask.long.word 0x00 0.--15. 1. " BC                    ,Preload Byte Count register. Defines number of bytes relative to Preload Base Address (PBAR.ADDR) to be Preloaded into L1P. Maximum of 32k (0x8000). Reads return 0x0 when Preload range operation is complete"
group.long 0x80080++0x3
line.long 0x00 "EVE_PMEM_ED_CTL,Program Memory Error Detection Control register"
bitfld.long 0x00 1. " INV                   ,Read 0: Error detection logic is not inverted. Read 1: Error detection logic is inverted. Writes to memory set parity as normal. Reds from meory return inverse of parity bit. - Write 0 to clear, write 1 to set. Must be set when ..." "0,1"
bitfld.long 0x00 0. "             EN                   ,Error detection logic enable. Writes update parity, reads check parity - . - ." "Disabled,Enabled"
group.long 0x80084++0x3
line.long 0x00 "EVE_PMEM_ED_STAT,Error detection status register"
hexmask.long.word 0x00 16.--24. 1. " SYSCONNID             ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated parity error not recorded 1 - System initiated parity error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated parity error not recorded 1 : EDMA parity error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated parity error not recorded 1 : VCOP initiated parity error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated parity error not recorded 1 : ARP32 initiated parity error detected/recorded Write 1 to clear" "0,1"
rgroup.long 0x80088++0x3
line.long 0x00 "EVE_PMEM_EDADDR,Program memory error detection address"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of parity error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address."
group.long 0x80090++0x3
line.long 0x00 "EVE_DMEM_ED_CTL,DMEM error detection control"
bitfld.long 0x00 1. " INV                   ,Read 0: Error detection logic is not inverted. Read 1: Error detection logic is inverted. Writes to memory set parity as normal. Reads from meory return inverse of parity bit. - Write 0 to clear, write 1 to set. Must be set when..." "0,1"
bitfld.long 0x00 0. "             EN                   ,Error detection logic enable. Writes update parity, reads check parity - . - ." "Disabled,Enabled"
group.long 0x80094++0x3
line.long 0x00 "EVE_DMEM_ED_STAT,DMEM error detection status register"
hexmask.long.word 0x00 16.--24. 1. " SYSCONNID             ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated parity error not recorded 1 - System initiated parity error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated parity error not recorded 1 : EDMA parity error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated parity error not recorded 1 : VCOP initiated parity error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated parity error not recorded 1 : ARP32 initiated parity error detected/recorded Write 1 to clear" "0,1"
rgroup.long 0x80098++0x3
line.long 0x00 "EVE_DMEM_EDADDR,DMEM error detection address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of parity error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address."
rgroup.long 0x8009C++0x3
line.long 0x00 "EVE_DMEM_EDADDR_BO,DMEM error detection address byte offset register"
hexmask.long 0x00 0.--31. 1. " BO                    ,Address byte offset for parity error. Indicates that an error has occured in byte offset #n. 0: No error occuredin byte offset #n; 1: Error occured in byte offset #n. Write to clear any of MEM.SYSERR/DMARR/ARP32/or VERR."
group.long 0x800A0++0x3
line.long 0x00 "EVE_WBUF_ED_CTL,WBUF error detection control"
bitfld.long 0x00 1. " INV                   ,Read 0: Error detection logic is not inverted. Read 1: Error detection logic is inverted. Writes to memory set parity as normal. Reads from meory return inverse of parity bit. - Write 0 to clea Write 1 to set. Must be set when E..." "0,1"
bitfld.long 0x00 0. "             EN                   ,Error detection logic enable. Writes update parity, reads check parity - . - ." "Disabled,Enabled"
group.long 0x800A4++0x3
line.long 0x00 "EVE_WBUF_ED_STAT,WBUF error detection status register"
hexmask.long.word 0x00 16.--24. 1. " SYSCONNID             ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated parity error not recorded 1 - System initiated parity error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated parity error not recorded 1 : EDMA parity error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated parity error not recorded 1 : VCOP initiated parity error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated parity error not recorded 1 : ARP32 initiated parity error detected/recorded Write 1 to clear" "0,1"
rgroup.long 0x800A8++0x3
line.long 0x00 "EVE_WBUF_EDADDR,WBUF error detection address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of parity error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address."
rgroup.long 0x800AC++0x3
line.long 0x00 "EVE_WBUF_EDADDR_BO,WBUF error detection address byte offset register"
hexmask.long 0x00 0.--31. 1. " BO                    ,Address byte offset for parity error. Indicates that an error has occured in byte offset #n. 0: No error occuredin byte offset #n; 1: Error occured in byte offset #n. Write to clear any of MEM.SYSERR/DMARR/ARP32/or VERR."
group.long 0x800B0++0x3
line.long 0x00 "EVE_IBUF_ED_CTL,IBUF error detection control"
bitfld.long 0x00 1. " INV                   ,Read 0: Error detection logic is not inverted. Read 1: Error detection logic is inverted. Writes to memory set parity as normal. Reads from meory return inverse of parity bit. - Write 0 to clear, write 1 to set. Must be set when..." "0,1"
bitfld.long 0x00 0. "             EN                   ,Error detection logic enable. Writes update parity, reads check parity - . - ." "Disabled,Enabled"
group.long 0x800B4++0x3
line.long 0x00 "EVE_IBUF_ED_STAT,IBUF error detection status register"
hexmask.long.word 0x00 16.--24. 1. " SYSCONNID             ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated parity error not recorded 1 - System initiated parity error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated parity error not recorded 1 : EDMA parity error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated parity error not recorded 1 : VCOP initiated parity error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated parity error not recorded 1 : ARP32 initiated parity error detected/recorded Write 1 to clear" "0,1"
rgroup.long 0x800B8++0x3
line.long 0x00 "EVE_IBUF_EDADDR,IBUF error detection address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of parity error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address."
rgroup.long 0x800BC++0x3
line.long 0x00 "EVE_IBUF_EDADDR_BO,IBUF error detection address byte offset register"
hexmask.long 0x00 0.--31. 1. " BO                    ,Address byte offset for parity error. Indicates that an error has occured in byte offset #n. 0: No error occuredin byte offset #n; 1: Error occured in byte offset #n. Write to clear any of MEM.SYSERR/DMARR/ARP32/or VERR."
group.long 0x800F8++0x3
line.long 0x00 "EVE_ED_ARP32_DISC_EN,ARP32 disconnect enable register"
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Disconnect Enable for Event #n 0: Disconnect disabled 1: Disconnect enabled"
group.long 0x800FC++0x3
line.long 0x00 "EVE_ED_OCPI_DISC_EN,OCP interface disconnect enable register"
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Disconnect Enable for Event #n. 0: Disconnect disabled 1: Disconnect enabled"
group.long 0x80110++0x3
line.long 0x00 "EVE_MSW_ERR_IRQSTATUS_RAW,Per event memory switch error interrupt status register."
bitfld.long 0x00 0.--3. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80114++0x3
line.long 0x00 "EVE_MSW_ERR_IRQSTATUS,Memory switch error interrupt status register."
bitfld.long 0x00 0.--3. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80118++0x3
line.long 0x00 "EVE_MSW_ERR_IRQENABLE_SET,Memory switch error interrupt enable register."
bitfld.long 0x00 0.--3. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x8011C++0x3
line.long 0x00 "EVE_MSW_ERR_IRQENABLE_CLR,Memory switch error interrupt clear register."
bitfld.long 0x00 0.--3. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80120++0x3
line.long 0x00 "EVE_ED_LCL_IRQSTATUS_RAW,Per event error detection local interrupt status register."
hexmask.long.word 0x00 0.--15. 1. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80124++0x3
line.long 0x00 "EVE_ED_LCL_IRQSTATUS,Error detection local interrupt status register."
hexmask.long.word 0x00 0.--15. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80128++0x3
line.long 0x00 "EVE_ED_LCL_IRQENABLE_SET,Error detection local interrupt enable register."
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8012C++0x3
line.long 0x00 "EVE_ED_LCL_IRQENABLE_CLR,Error detection local interrupt clear register."
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80200++0x3
line.long 0x00 "ARP32_NMI_IRQSTATUS_RAW,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80204++0x3
line.long 0x00 "ARP32_NMI_IRQSTATUS,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80208++0x3
line.long 0x00 "ARP32_NMI_IRQENABLE_SET,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8020C++0x3
line.long 0x00 "ARP32_NMI_IRQENABLE_CLR,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x802FC++0x3
line.long 0x00 "ARP32_IRQWAKEEN,Wake enable register"
hexmask.long.tbyte 0x00 0.--23. 1. " ENABLE                ,Wakeup Enable for event EVE_EVT_INT #n 0: Interrupt #n disabled for wakeup 1: Interrupt #n enabled for wakeup"
group.long 0x80400++0x3
line.long 0x00 "MISR_CTL,"
bitfld.long 0x00 0.--2. " ENABLE                ,MISR Enable #N 0: MISR #n disabled 1: MISR #n enabled Bit 0: MISR 0 - ARP32 PMEM path Bit 1: MISR 1 - ARP32 DMEM path Bit 2: MISR 2 - INTC WBUF path" "0,1,2,3,4,5,6,7"
group.long 0x80404++0x3
line.long 0x00 "MISR_CLEAR,"
bitfld.long 0x00 0.--2. " CLEAR                 ,MISR Clear #N Write 0: no effect Write 1: Clear MISR #n Read 0: Previous MISR clear command has completed. Read 1: MISR Clear in progress (this state may never actually be readable)" "0,1,2,3,4,5,6,7"
group.long 0x80410++0x3
line.long 0x00 "MISR0_A,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE             ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80414++0x3
line.long 0x00 "MISR0_D,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE             ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80418++0x3
line.long 0x00 "MISR1_A,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE             ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x8041C++0x3
line.long 0x00 "MISR1_D,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE             ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80500++0x3
line.long 0x00 "EVE_IRQ_EOI,"
bitfld.long 0x00 0.--2. " LINE_NUMBER           ,Software End Of Interrupt (EOI) control. Write number of interrupt output to force re-evaluation of associated pending interrupts. Refer to Section Error: Reference source not found for EOI mapping. Reads always return 0x0. Writ..." "0,1,2,3,4,5,6,7"
group.long 0x80510++0x3
line.long 0x00 "EVE_ED_OUT_IRQSTATUS_RAW,"
hexmask.long.word 0x00 0.--15. 1. " EVENT                 ,Settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80514++0x3
line.long 0x00 "EVE_ED_OUT_IRQSTATUS,"
hexmask.long.word 0x00 0.--15. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80518++0x3
line.long 0x00 "EVE_ED_OUT_IRQENABLE_SET,"
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8051C++0x3
line.long 0x00 "EVE_ED_OUT_IRQENABLE_CLR,"
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
rgroup.long 0x80680++0x3
line.long 0x00 "ARP32_INT14_IRQSTATUS_RAW,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80684++0x3
line.long 0x00 "ARP32_INT14_IRQSTATUS,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80688++0x3
line.long 0x00 "ARP32_INT14_IRQENABLE_SET,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8068C++0x3
line.long 0x00 "ARP32_INT14_IRQENABLE_CLR,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
rgroup.long 0x80690++0x3
line.long 0x00 "ARP32_INT15_IRQSTATUS_RAW,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80694++0x3
line.long 0x00 "ARP32_INT15_IRQSTATUS,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80698++0x3
line.long 0x00 "ARP32_INT15_IRQENABLE_SET,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8069C++0x3
line.long 0x00 "ARP32_INT15_IRQENABLE_CLR,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
rgroup.long 0x80740++0x3
line.long 0x00 "EVE_GPIN0,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,GP Input #n Read 0: GP Input #n is low/0. Read 1: GP Input is high/1."
rgroup.long 0x80744++0x3
line.long 0x00 "EVE_GPIN1,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,GP Input #n Read 0: GP Input #n is low/0. Read 1: GP Input is high/1."
group.long 0x80780++0x3
line.long 0x00 "EVE_CME_DONE_GPOUT,"
hexmask.long.byte 0x00 0.--7. 1. " EVENT                 ,Internal CME Done Output #n. Write 0: Drive Internal CME Done #n low/1 Read 0: Drive Internal CME Done #n is low/0. Write 1: Drive Internal CME Done #n high/1. Read 1: Internal CME Done is high/1."
group.long 0x80784++0x3
line.long 0x00 "EVE_CME_DONE_GPOUT_SET,"
hexmask.long.byte 0x00 0.--7. 1. " EVENT                 ,Internal CME Done #n Write 0: No action Read 0: Internal CME Done #n is low/0. Write 1: Drive Internal CME Done #n high/1. Read 1: Internal CME Done is high/1."
group.long 0x80788++0x3
line.long 0x00 "EVE_CME_DONE_GPOUT_CLR,"
hexmask.long.byte 0x00 0.--7. 1. " EVENT                 ,Internal CME Done #n Write 0: No action Read 0: Internal CME Done #n is low/0. Write 1: Drive Internal CME Done #n low/0. Read 1: Internal CME Done #n is high/1."
group.long 0x8078C++0x3
line.long 0x00 "EVE_CME_DONE_GPOUT_PULSE,"
hexmask.long.byte 0x00 0.--7. 1. " EVENT                 ,Internal CME Done #n Write 0: No action Read 0: Internal CME Done #n is low/0. Write 1: Drive Internal CME Done #n high/1 for four cycles / then drive low/0. Read 1: Internal CME Done #n is high/1. Note: Writing to GPOUT registe..."
group.long 0x80790++0x3
line.long 0x00 "EVE_CME_DONE_SEL,"
bitfld.long 0x00 28.--31. " SEL7                  ,CME Done Output select for Bit #7 (n=7) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "            SEL6                 ,CME Done Output select for Bit #6 (n=6) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "            SEL5                 ,CME Done Output select for Bit #5 (n=5)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                    "
bitfld.long 0x00 16.--19. " SEL4                  ,CME Done Output select for Bit #4 (n=4) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "            SEL3                 ,CME Done Output select for Bit #3 (n=3) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "            SEL2                 ,CME Done Output select for Bit #2 (n=2) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                    "
bitfld.long 0x00 4.--7. " SEL1                  ,CME Done Output select for Bit #1 (n=1) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "            SEL0                 ,CME Done Output select for Bit #0 (n=0) 0: Driven by EDMA cc_int0 1: Driven by EDMA cc_int1 2: Driven by EDMA cc_int2 3: Driven by EDMA cc_int3 4: Driven by EDMA cc_int4 5: Driven by EDMA cc_int5 6: Driven by EDMA cc_i..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80794++0x3
line.long 0x00 "EVE_CME_DONE_EN,"
hexmask.long.byte 0x00 0.--7. 1. " EN                    ,EVE CME Done EN #n Write 0: No action Read 0: EVE CME Done #n is disabled. Write 1: Enable EVE CME Done #n event. This allows the status of the CME Done #n to propagate to the output. Read 1: EVE CME Done #n is enabled."
rgroup.long 0x80FE0++0x3
line.long 0x00 "EVE_PM_STAT0,"
bitfld.long 0x00 28.--30. " OCPM1_SCONNECT        ,Readable state of OCP Power management handshake" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--25. "             OCPM1_MCONNECT       ,Readable state of OCP Power management handshake" "0,1,2,3"
bitfld.long 0x00 20.--22. "             OCPM0_SCONNECT       ,Readable state of OCP Power management handshake" "0,1,2,3,4,5,6,7"
textline "                                    "
bitfld.long 0x00 16.--17. " OCPM0_MCONNECT        ,Readable state of OCP Power management handshake" "0,1,2,3"
bitfld.long 0x00 12.--14. "             OCPS_SCONNECT        ,Readable state of OCP Power management handshake" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--9. "             OCPS_MCONNECT        ,Readable state of OCP Power management handshake" "0,1,2,3"
textline "                                    "
bitfld.long 0x00 5. " MWAIT                 ,Readable state of OCP Power management handshake" "0,1"
bitfld.long 0x00 4. "             MSTANDBY             ,Readable state of OCP Power management handshake" "0,1"
bitfld.long 0x00 3. "             SWAKEUP              ,Readable state of OCP Power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 1.--2. " SIDLEACK              ,Readable state of OCP Power management handshake" "0,1,2,3"
bitfld.long 0x00 0. "             SIDLEREQ             ,Readable state of OCP Power management handshake" "0,1"
group.long 0x80FE4++0x3
line.long 0x00 "EVE_PM_STAT1,"
bitfld.long 0x00 22.--23. " STBY_MDISCACK_OCPM1   ,Readable state of internal power management handshake" "0,1,2,3"
bitfld.long 0x00 20.--21. "             STBY_MDISCACK_OCPM0  ,Readable state of internal power management handshake" "0,1,2,3"
bitfld.long 0x00 19. "             STBY_MDISCREQ_OCPM1  ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 18. " STBY_MDISCREQ_OCPM0   ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 17. "             IDLE_SDISCONNECT_ACK ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 16. "             IDLE_SDISCONNECT_REQ ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 15. " EVE_IDLE_INTR_DISABLE ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 14. "             TPTC1_MWAIT          ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 13. "             TPTC0_MWAIT          ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 12. " EVE_PCACHE_OCP_BUSY   ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 11. "             EVE_CONTROL_SIDLEACK ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 10. "             SMSET_SIDLEACK       ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 9. " L2_EVE_SIDLEACK       ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 8. "             MMU1_CONFIG_SIDLEACK ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 7. "             MMU1_SIDLEACK        ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 6. " MMU0_CONFIG_SIDLEACK  ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 5. "             MMU0_SIDLEACK        ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 4. "             SCTM_SIDLEACK        ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 3. " TPCC_SIDLEACK         ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 2. "             TPTC1_SIDLEACK       ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 1. "             TPTC0_SIDLEACK       ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 0. " SUBMODULE_IDLE_REQ    ," "0,1"
group.long 0x80FE8++0x3
line.long 0x00 "EVE_DBGOUT,"
hexmask.long.tbyte 0x00 8.--31. 1. " VALUE                 ,Read returns state of eve_dbgout bus."
bitfld.long 0x00 0.--3. "        GROUP                ,Debug Group Output control : mux select 0x0 : disabled / all debug outputs driven to 0x0. 0x1 : select output group1 0x2 : select output group2 : 0xN : select output groupN Others - reserved" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80FF4++0x3
line.long 0x00 "EVE_RSVD0,"
hexmask.long 0x00 0.--31. 1. " VAL                   ,Value; This register is reserved for any necessary ECOs that may be required later in the design cycle."
group.long 0x80FF8++0x3
line.long 0x00 "EVE_RSVD1,"
hexmask.long 0x00 0.--31. 1. " VAL                   ,Value; This register is reserved for any necessary ECOs that may be required later in the design cycle."
group.long 0x80FFC++0x3
line.long 0x00 "EVE_TEST,"
hexmask.long 0x00 0.--31. 1. " VAL                   ,Value; This register is reserved for any necessary ECOs that may be required later in the design cycle."
width 0x0B
tree.end
tree.end
tree "EVE2"
base ad:0x42100000
tree "Channel_0"
width 30.
group.long 0x80700++0x3
line.long 0x00 "EVE_GPOUTm_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: Drive GP Output #n low/1 Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x80708++0x3
line.long 0x00 "EVE_GPOUTm_CLR_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: Drive GP Output #n low/1 Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x8070C++0x3
line.long 0x00 "EVE_GPOUTm_PULSE_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: No action Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1 for four cycles / then drive low/0. Read 1: GP Output #n is high/1. Note: Writing to GPOUT registers when the four cycles for the previous wri..."
group.long 0x80704++0x3
line.long 0x00 "EVE_GPOUTm_SET_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: No action Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x8052C++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_CLR_0,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80528++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_SET_0,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80524++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event."
group.long 0x80520++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_RAW_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80420++0x3
line.long 0x00 "MISR2_Dk_0,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80300++0x3
line.long 0x00 "MMR_LOCKi_0,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK  ,Lock/Unlock register for corresponding region"
tree.end
tree "Channel_1"
width 30.
group.long 0x80710++0x3
line.long 0x00 "EVE_GPOUTm_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: Drive GP Output #n low/1 Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x80718++0x3
line.long 0x00 "EVE_GPOUTm_CLR_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: Drive GP Output #n low/1 Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x8071C++0x3
line.long 0x00 "EVE_GPOUTm_PULSE_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: No action Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1 for four cycles / then drive low/0. Read 1: GP Output #n is high/1. Note: Writing to GPOUT registers when the four cycles for the previous wri..."
group.long 0x80714++0x3
line.long 0x00 "EVE_GPOUTm_SET_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: No action Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x8053C++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_CLR_1,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80538++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_SET_1,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80534++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event."
group.long 0x80530++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_RAW_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80424++0x3
line.long 0x00 "MISR2_Dk_1,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80304++0x3
line.long 0x00 "MMR_LOCKi_1,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK  ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_2"
width 30.
group.long 0x8054C++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_CLR_2,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80548++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_SET_2,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80544++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_2,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event."
group.long 0x80540++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_RAW_2,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80428++0x3
line.long 0x00 "MISR2_Dk_2,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80308++0x3
line.long 0x00 "MMR_LOCKi_2,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK  ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_3"
width 30.
group.long 0x8055C++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_CLR_3,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80558++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_SET_3,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80554++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_3,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event."
group.long 0x80550++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_RAW_3,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x8042C++0x3
line.long 0x00 "MISR2_Dk_3,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x8030C++0x3
line.long 0x00 "MMR_LOCKi_3,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK  ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_4"
width 28.
group.long 0x8021C++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_CLR_4,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80218++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_SET_4,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80214++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_4,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80210++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_RAW_4,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80310++0x3
line.long 0x00 "MMR_LOCKi_4,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_5"
width 28.
group.long 0x8022C++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_CLR_5,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80228++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_SET_5,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80224++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_5,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80220++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_RAW_5,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80314++0x3
line.long 0x00 "MMR_LOCKi_5,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_6"
width 28.
group.long 0x8023C++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_CLR_6,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80238++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_SET_6,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80234++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_6,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80230++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_RAW_6,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80318++0x3
line.long 0x00 "MMR_LOCKi_6,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_7"
width 28.
group.long 0x8024C++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_CLR_7,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80248++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_SET_7,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80244++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_7,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80240++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_RAW_7,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x8031C++0x3
line.long 0x00 "MMR_LOCKi_7,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_8"
width 28.
group.long 0x8060C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_8,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80608++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_8,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80604++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_8,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80600++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_8,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80320++0x3
line.long 0x00 "MMR_LOCKi_8,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_9"
width 28.
group.long 0x8061C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_9,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80618++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_9,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80614++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_9,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80610++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_9,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80324++0x3
line.long 0x00 "MMR_LOCKi_9,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_10"
width 29.
group.long 0x8062C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_10,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80628++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_10,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80624++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_10,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80620++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_10,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
tree.end
tree "IRQ_Line_11"
width 29.
group.long 0x8063C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_11,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80638++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_11,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80634++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_11,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80630++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_11,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
tree.end
tree "IRQ_Line_12"
width 29.
group.long 0x8064C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_12,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80648++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_12,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80644++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_12,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80640++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_12,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
tree.end
tree "IRQ_Line_13"
width 29.
group.long 0x8065C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_13,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80658++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_13,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80654++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_13,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80650++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_13,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
tree.end
textline ""
width 27.
rgroup.long 0x80000++0x3
line.long 0x00 "EVE_REVISION,"
hexmask.long 0x00 0.--31. 1. " REVISION              ,Revision"
rgroup.long 0x80004++0x3
line.long 0x00 "EVE_HWINFO,"
hexmask.long 0x00 4.--31. 1. " INFO                  ,0x0: No configurable options in EVE"
bitfld.long 0x00 0.--3. "      EVENUM               ,EVE instance number set by eve_num inputs. In a multi-EVE system must be set to unique/incrementing values for each EVE." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80008++0x3
line.long 0x00 "EVE_SYSCONFIG,"
bitfld.long 0x00 4.--5. " STANDBYMODE           ,00: Force-Standby mode: This mode is a backup mode intended to be used only if the smart-idle mode is bugged. When in this mode / the SAF asserts with minimal hardware condition the status saying :I am in standby:. It is the res..." "0,1,2,3"
bitfld.long 0x00 2.--3. "             IDLEMODE             ,00: Force-idle: This mode is a backup mode intended to be used only if the smart-idle mode is bugged. When in this mode the IAF acknowledges a request to go idle from the power manager with minimal hardware condition...." "0,1,2,3"
bitfld.long 0x00 1. "             FREEEMU              ,Resered. Note that SCTM has free control bit to define the timer operation during ARP32 debug halt mode" "0,1"
textline "                                    "
bitfld.long 0x00 0. " SOFTRESET             ,Reserved" "0,1"
rgroup.long 0x8000C++0x3
line.long 0x00 "EVE_STAT,"
bitfld.long 0x00 20.--21. " OCPI_DISC_STAT        ,OCP Initiator(s) Disconnect status2: - . - ." "0,1,2,3"
bitfld.long 0x00 16.--17. "             ARP32_DISC_STATUS    ,ARP32 Program/Data Bus Disconnect Status 2: - . - ." "0,1,2,3"
bitfld.long 0x00 8. "             INT_OUT_STAT         ,Interrupt Output status: - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " ARP_INTC_STAT         ,Interrupt Controller Status: - . - ." "0,1"
bitfld.long 0x00 5. "             TC1_STAT             ,Transfer Controller1 Status: - . - ." "Idle,Active"
bitfld.long 0x00 4. "        TC0_STAT             ,Transfer Controller0 Status: - . - ." "Idle,Active"
textline "                                    "
bitfld.long 0x00 2. " PC_STAT               ,Program Cache Status: - . - ." "Idle,1"
bitfld.long 0x00 1. "          VCOP_STAT            ,VCOP Status : - . - ." "Idle,1"
bitfld.long 0x00 0. "          ARP32_STAT           ,Program Cache Status: - . - ." "Idle,1"
group.long 0x80010++0x3
line.long 0x00 "EVE_DISC_CONFIG,Color 0 noise threshold"
bitfld.long 0x00 4. " OCPI_DISC             ,OCP Initiator Disconnect request: - . - ." "0,1"
bitfld.long 0x00 0. "             ARP32_DISC           ,ARP32 Initiator Disconnect request. - . - ." "0,1"
group.long 0x80014++0x3
line.long 0x00 "EVE_BUS_CONFIG,Color 0 noise threshold"
bitfld.long 0x00 12.--13. " TC1_DBS               ,TC1 default burst size. 00: 16 byte, 01: 32 byte, 10: 64 byte, 11: 128 byte (recommended)" "0,1,2,3"
bitfld.long 0x00 8.--9. "             TC0_DBS              ,TC0 default burst size. 00: 16 byte, 01: 32 byte, 10: 64 byte, 11: 128 byte (recommended)" "0,1,2,3"
bitfld.long 0x00 4. "             DBP_ENABLE           ,Program Cache Demand Based Prefetch enable: - . - ." "DBP_disabled,DBP_enabled"
textline "                                    "
bitfld.long 0x00 0.--3. " MAX_IN_FLIGHT         ,Defines maximum number of OCP requests in flight. Can be reduced to limit the peak bandwidth for software direct preload, which in turn may provide advantage to other EVE level (e.g. EDMA) or system-level initiators. 0: Reserved..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80018++0x3
line.long 0x00 "EVE_VCOP_HALT_CONFIG,"
bitfld.long 0x00 2. " FORCE_ABORT           ,VCOP Force Abort Write: Read always returns 0s - Write 0 has no effect. . - . - ." "0,1"
bitfld.long 0x00 1. "             MSW_EN               ,VCOP Memory Seitch Error Halt Enable: - . - ." "Disabled,1"
bitfld.long 0x00 0. "      ED_EN                ,VCOP Parity Error Detect Halt Enable: - . - ." "Disabled,1"
group.long 0x8001C++0x3
line.long 0x00 "EVE_MMU_CONFIG,"
bitfld.long 0x00 12. " MMU1_ABORT            ,Causes the MMU to abort the current operation in case of lockup" "0,1"
bitfld.long 0x00 8. "             MMU0_ABORT           ,Causes the MMU to abort the current operation in case of lockup" "0,1"
bitfld.long 0x00 4. "             MMU1_EN              ,Clearing this bit disables MMU table lookup and causes accesses to use the non-translated address. This bit defaults to enabled but an identical bit within an MMU configuration register defaults to disabled and must b..." "0,1"
textline "                                    "
bitfld.long 0x00 0. " MMU0_EN               ,Clearing this bit disables MMU table lookup and causes accesses to use the non-translated address. This bit defaults to enabled but an identical bit within an MMU configuration register defaults to disabled and must be set after..." "0,1"
group.long 0x80020++0x3
line.long 0x00 "EVE_MEMMAP,"
bitfld.long 0x00 4. " LCL_EDMA_ALIAS        ,0: Local EDMA views full memory map - ." "0,1"
bitfld.long 0x00 0. "             VCOP_ALIAS           ,0: VCOP views full memory map - ." "0,1"
group.long 0x80024++0x3
line.long 0x00 "EVE_MSW_CTL,Memory switch control register"
bitfld.long 0x00 16. " WBUF                  ,Working buffer onwership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20). - . - ." "System_owned,VCOP_owned"
bitfld.long 0x00 12. "  IBUFHB               ,Image buffer high B ownership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20).: - . - ." "System_owned,VCOP_owned"
bitfld.long 0x00 8. "  IBUFLB               ,Image buffer low B ownership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20).: - . - ." "System_owned,VCOP_owned"
textline "                                    "
bitfld.long 0x00 4. " IBUFHA                ,Image buffer high A ownership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20).: - . - ." "System_owned,VCOP_owned"
bitfld.long 0x00 0. "  IBUFLA               ,Image buffer low A ownership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20).: - . - ." "System_owned,VCOP_owned"
group.long 0x80028++0x3
line.long 0x00 "EVE_MSW_ERR,Memory Switch Error register"
hexmask.long.word 0x00 16.--24. 1. " CONNID                ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated buffer ownership error not recorded 1 - System initiated buffer ownership error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated buffer ownership error not recorded 1 : EDMA buffer ownership error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated buffer ownership error not recorded 1 : VCOP initiated buffer ownership error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated buffer ownership error not recorded 1 : ARP32 initiated buffer ownership error detected/recorded Write 1 to clear." "0,1"
rgroup.long 0x8002C++0x3
line.long 0x00 "EVE_MSW_ERRADDR,Memory switch error address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of memory switch error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address. Va..."
group.long 0x80040++0x3
line.long 0x00 "EVE_PC_INV,Invalidate all register"
bitfld.long 0x00 0. " I                     ,Invalidate all: - . Read: 0 : Invalidate operation complete / or not in progress 1 : Invalidate operation still in progress. - ." "0,1"
group.long 0x80050++0x3
line.long 0x00 "EVE_PC_IBAR,Invalidate Base Address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Invalidate Base Address register. Defines system byte address base to be invalidated from L1P. The entire range to be invalidated is (loosely speaking) from the base address to the base address + byte count. The actual range is ..."
group.long 0x80054++0x3
line.long 0x00 "EVE_PC_IBC,Invalidate byte count register"
hexmask.long.word 0x00 0.--15. 1. " BC                    ,Invalidate Byte Count register. Defines number of bytes relative to Invalidate Base Address (IBAR.ADDR) to be invalidated from L1P. Maximum of 32k (0x8000). Reads return 0x0 when invalidate range operation is complete."
group.long 0x80058++0x3
line.long 0x00 "EVE_PC_ISAR,Invalidate single address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Invalidate Single Address register. Defines system byte address (1 line only) to be invalidated from L1P. Reads return 0x0 when the invalidate operation is complete."
rgroup.long 0x8005C++0x3
line.long 0x00 "EVE_PC_ISAR_DONE,Invalidate single address done register"
bitfld.long 0x00 0. " DONE                  ,Reads return 0x1 when the invalidate operation is complete. Cleared on the next write to theEVE_PC_ISAR register" "0,1"
group.long 0x80060++0x3
line.long 0x00 "EVE_PC_PBAR,Program cache preload base address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Preload Base Address register. Defines system byte address base to be Preloaded into L1P. The entire range to be Preloaded is (loosely speaking) from the base address to the base address + byte count. The actual range is inclusi..."
group.long 0x80064++0x3
line.long 0x00 "EVE_PC_PBC,"
hexmask.long.word 0x00 0.--15. 1. " BC                    ,Preload Byte Count register. Defines number of bytes relative to Preload Base Address (PBAR.ADDR) to be Preloaded into L1P. Maximum of 32k (0x8000). Reads return 0x0 when Preload range operation is complete"
group.long 0x80080++0x3
line.long 0x00 "EVE_PMEM_ED_CTL,Program Memory Error Detection Control register"
bitfld.long 0x00 1. " INV                   ,Read 0: Error detection logic is not inverted. Read 1: Error detection logic is inverted. Writes to memory set parity as normal. Reds from meory return inverse of parity bit. - Write 0 to clear, write 1 to set. Must be set when ..." "0,1"
bitfld.long 0x00 0. "             EN                   ,Error detection logic enable. Writes update parity, reads check parity - . - ." "Disabled,Enabled"
group.long 0x80084++0x3
line.long 0x00 "EVE_PMEM_ED_STAT,Error detection status register"
hexmask.long.word 0x00 16.--24. 1. " SYSCONNID             ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated parity error not recorded 1 - System initiated parity error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated parity error not recorded 1 : EDMA parity error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated parity error not recorded 1 : VCOP initiated parity error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated parity error not recorded 1 : ARP32 initiated parity error detected/recorded Write 1 to clear" "0,1"
rgroup.long 0x80088++0x3
line.long 0x00 "EVE_PMEM_EDADDR,Program memory error detection address"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of parity error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address."
group.long 0x80090++0x3
line.long 0x00 "EVE_DMEM_ED_CTL,DMEM error detection control"
bitfld.long 0x00 1. " INV                   ,Read 0: Error detection logic is not inverted. Read 1: Error detection logic is inverted. Writes to memory set parity as normal. Reads from meory return inverse of parity bit. - Write 0 to clear, write 1 to set. Must be set when..." "0,1"
bitfld.long 0x00 0. "             EN                   ,Error detection logic enable. Writes update parity, reads check parity - . - ." "Disabled,Enabled"
group.long 0x80094++0x3
line.long 0x00 "EVE_DMEM_ED_STAT,DMEM error detection status register"
hexmask.long.word 0x00 16.--24. 1. " SYSCONNID             ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated parity error not recorded 1 - System initiated parity error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated parity error not recorded 1 : EDMA parity error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated parity error not recorded 1 : VCOP initiated parity error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated parity error not recorded 1 : ARP32 initiated parity error detected/recorded Write 1 to clear" "0,1"
rgroup.long 0x80098++0x3
line.long 0x00 "EVE_DMEM_EDADDR,DMEM error detection address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of parity error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address."
rgroup.long 0x8009C++0x3
line.long 0x00 "EVE_DMEM_EDADDR_BO,DMEM error detection address byte offset register"
hexmask.long 0x00 0.--31. 1. " BO                    ,Address byte offset for parity error. Indicates that an error has occured in byte offset #n. 0: No error occuredin byte offset #n; 1: Error occured in byte offset #n. Write to clear any of MEM.SYSERR/DMARR/ARP32/or VERR."
group.long 0x800A0++0x3
line.long 0x00 "EVE_WBUF_ED_CTL,WBUF error detection control"
bitfld.long 0x00 1. " INV                   ,Read 0: Error detection logic is not inverted. Read 1: Error detection logic is inverted. Writes to memory set parity as normal. Reads from meory return inverse of parity bit. - Write 0 to clea Write 1 to set. Must be set when E..." "0,1"
bitfld.long 0x00 0. "             EN                   ,Error detection logic enable. Writes update parity, reads check parity - . - ." "Disabled,Enabled"
group.long 0x800A4++0x3
line.long 0x00 "EVE_WBUF_ED_STAT,WBUF error detection status register"
hexmask.long.word 0x00 16.--24. 1. " SYSCONNID             ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated parity error not recorded 1 - System initiated parity error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated parity error not recorded 1 : EDMA parity error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated parity error not recorded 1 : VCOP initiated parity error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated parity error not recorded 1 : ARP32 initiated parity error detected/recorded Write 1 to clear" "0,1"
rgroup.long 0x800A8++0x3
line.long 0x00 "EVE_WBUF_EDADDR,WBUF error detection address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of parity error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address."
rgroup.long 0x800AC++0x3
line.long 0x00 "EVE_WBUF_EDADDR_BO,WBUF error detection address byte offset register"
hexmask.long 0x00 0.--31. 1. " BO                    ,Address byte offset for parity error. Indicates that an error has occured in byte offset #n. 0: No error occuredin byte offset #n; 1: Error occured in byte offset #n. Write to clear any of MEM.SYSERR/DMARR/ARP32/or VERR."
group.long 0x800B0++0x3
line.long 0x00 "EVE_IBUF_ED_CTL,IBUF error detection control"
bitfld.long 0x00 1. " INV                   ,Read 0: Error detection logic is not inverted. Read 1: Error detection logic is inverted. Writes to memory set parity as normal. Reads from meory return inverse of parity bit. - Write 0 to clear, write 1 to set. Must be set when..." "0,1"
bitfld.long 0x00 0. "             EN                   ,Error detection logic enable. Writes update parity, reads check parity - . - ." "Disabled,Enabled"
group.long 0x800B4++0x3
line.long 0x00 "EVE_IBUF_ED_STAT,IBUF error detection status register"
hexmask.long.word 0x00 16.--24. 1. " SYSCONNID             ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated parity error not recorded 1 - System initiated parity error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated parity error not recorded 1 : EDMA parity error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated parity error not recorded 1 : VCOP initiated parity error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated parity error not recorded 1 : ARP32 initiated parity error detected/recorded Write 1 to clear" "0,1"
rgroup.long 0x800B8++0x3
line.long 0x00 "EVE_IBUF_EDADDR,IBUF error detection address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of parity error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address."
rgroup.long 0x800BC++0x3
line.long 0x00 "EVE_IBUF_EDADDR_BO,IBUF error detection address byte offset register"
hexmask.long 0x00 0.--31. 1. " BO                    ,Address byte offset for parity error. Indicates that an error has occured in byte offset #n. 0: No error occuredin byte offset #n; 1: Error occured in byte offset #n. Write to clear any of MEM.SYSERR/DMARR/ARP32/or VERR."
group.long 0x800F8++0x3
line.long 0x00 "EVE_ED_ARP32_DISC_EN,ARP32 disconnect enable register"
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Disconnect Enable for Event #n 0: Disconnect disabled 1: Disconnect enabled"
group.long 0x800FC++0x3
line.long 0x00 "EVE_ED_OCPI_DISC_EN,OCP interface disconnect enable register"
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Disconnect Enable for Event #n. 0: Disconnect disabled 1: Disconnect enabled"
group.long 0x80110++0x3
line.long 0x00 "EVE_MSW_ERR_IRQSTATUS_RAW,Per event memory switch error interrupt status register."
bitfld.long 0x00 0.--3. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80114++0x3
line.long 0x00 "EVE_MSW_ERR_IRQSTATUS,Memory switch error interrupt status register."
bitfld.long 0x00 0.--3. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80118++0x3
line.long 0x00 "EVE_MSW_ERR_IRQENABLE_SET,Memory switch error interrupt enable register."
bitfld.long 0x00 0.--3. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x8011C++0x3
line.long 0x00 "EVE_MSW_ERR_IRQENABLE_CLR,Memory switch error interrupt clear register."
bitfld.long 0x00 0.--3. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80120++0x3
line.long 0x00 "EVE_ED_LCL_IRQSTATUS_RAW,Per event error detection local interrupt status register."
hexmask.long.word 0x00 0.--15. 1. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80124++0x3
line.long 0x00 "EVE_ED_LCL_IRQSTATUS,Error detection local interrupt status register."
hexmask.long.word 0x00 0.--15. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80128++0x3
line.long 0x00 "EVE_ED_LCL_IRQENABLE_SET,Error detection local interrupt enable register."
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8012C++0x3
line.long 0x00 "EVE_ED_LCL_IRQENABLE_CLR,Error detection local interrupt clear register."
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80200++0x3
line.long 0x00 "ARP32_NMI_IRQSTATUS_RAW,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80204++0x3
line.long 0x00 "ARP32_NMI_IRQSTATUS,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80208++0x3
line.long 0x00 "ARP32_NMI_IRQENABLE_SET,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8020C++0x3
line.long 0x00 "ARP32_NMI_IRQENABLE_CLR,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x802FC++0x3
line.long 0x00 "ARP32_IRQWAKEEN,Wake enable register"
hexmask.long.tbyte 0x00 0.--23. 1. " ENABLE                ,Wakeup Enable for event EVE_EVT_INT #n 0: Interrupt #n disabled for wakeup 1: Interrupt #n enabled for wakeup"
group.long 0x80400++0x3
line.long 0x00 "MISR_CTL,"
bitfld.long 0x00 0.--2. " ENABLE                ,MISR Enable #N 0: MISR #n disabled 1: MISR #n enabled Bit 0: MISR 0 - ARP32 PMEM path Bit 1: MISR 1 - ARP32 DMEM path Bit 2: MISR 2 - INTC WBUF path" "0,1,2,3,4,5,6,7"
group.long 0x80404++0x3
line.long 0x00 "MISR_CLEAR,"
bitfld.long 0x00 0.--2. " CLEAR                 ,MISR Clear #N Write 0: no effect Write 1: Clear MISR #n Read 0: Previous MISR clear command has completed. Read 1: MISR Clear in progress (this state may never actually be readable)" "0,1,2,3,4,5,6,7"
group.long 0x80410++0x3
line.long 0x00 "MISR0_A,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE             ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80414++0x3
line.long 0x00 "MISR0_D,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE             ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80418++0x3
line.long 0x00 "MISR1_A,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE             ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x8041C++0x3
line.long 0x00 "MISR1_D,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE             ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80500++0x3
line.long 0x00 "EVE_IRQ_EOI,"
bitfld.long 0x00 0.--2. " LINE_NUMBER           ,Software End Of Interrupt (EOI) control. Write number of interrupt output to force re-evaluation of associated pending interrupts. Refer to Section Error: Reference source not found for EOI mapping. Reads always return 0x0. Writ..." "0,1,2,3,4,5,6,7"
group.long 0x80510++0x3
line.long 0x00 "EVE_ED_OUT_IRQSTATUS_RAW,"
hexmask.long.word 0x00 0.--15. 1. " EVENT                 ,Settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80514++0x3
line.long 0x00 "EVE_ED_OUT_IRQSTATUS,"
hexmask.long.word 0x00 0.--15. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80518++0x3
line.long 0x00 "EVE_ED_OUT_IRQENABLE_SET,"
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8051C++0x3
line.long 0x00 "EVE_ED_OUT_IRQENABLE_CLR,"
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
rgroup.long 0x80680++0x3
line.long 0x00 "ARP32_INT14_IRQSTATUS_RAW,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80684++0x3
line.long 0x00 "ARP32_INT14_IRQSTATUS,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80688++0x3
line.long 0x00 "ARP32_INT14_IRQENABLE_SET,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8068C++0x3
line.long 0x00 "ARP32_INT14_IRQENABLE_CLR,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
rgroup.long 0x80690++0x3
line.long 0x00 "ARP32_INT15_IRQSTATUS_RAW,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80694++0x3
line.long 0x00 "ARP32_INT15_IRQSTATUS,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80698++0x3
line.long 0x00 "ARP32_INT15_IRQENABLE_SET,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8069C++0x3
line.long 0x00 "ARP32_INT15_IRQENABLE_CLR,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
rgroup.long 0x80740++0x3
line.long 0x00 "EVE_GPIN0,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,GP Input #n Read 0: GP Input #n is low/0. Read 1: GP Input is high/1."
rgroup.long 0x80744++0x3
line.long 0x00 "EVE_GPIN1,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,GP Input #n Read 0: GP Input #n is low/0. Read 1: GP Input is high/1."
group.long 0x80780++0x3
line.long 0x00 "EVE_CME_DONE_GPOUT,"
hexmask.long.byte 0x00 0.--7. 1. " EVENT                 ,Internal CME Done Output #n. Write 0: Drive Internal CME Done #n low/1 Read 0: Drive Internal CME Done #n is low/0. Write 1: Drive Internal CME Done #n high/1. Read 1: Internal CME Done is high/1."
group.long 0x80784++0x3
line.long 0x00 "EVE_CME_DONE_GPOUT_SET,"
hexmask.long.byte 0x00 0.--7. 1. " EVENT                 ,Internal CME Done #n Write 0: No action Read 0: Internal CME Done #n is low/0. Write 1: Drive Internal CME Done #n high/1. Read 1: Internal CME Done is high/1."
group.long 0x8078C++0x3
line.long 0x00 "EVE_CME_DONE_GPOUT_PULSE,"
hexmask.long.byte 0x00 0.--7. 1. " EVENT                 ,Internal CME Done #n Write 0: No action Read 0: Internal CME Done #n is low/0. Write 1: Drive Internal CME Done #n high/1 for four cycles / then drive low/0. Read 1: Internal CME Done #n is high/1. Note: Writing to GPOUT registe..."
group.long 0x80790++0x3
line.long 0x00 "EVE_CME_DONE_SEL,"
bitfld.long 0x00 28.--31. " SEL7                  ,CME Done Output select for Bit #7 (n=7) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "            SEL6                 ,CME Done Output select for Bit #6 (n=6) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "            SEL5                 ,CME Done Output select for Bit #5 (n=5)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                    "
bitfld.long 0x00 16.--19. " SEL4                  ,CME Done Output select for Bit #4 (n=4) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "            SEL3                 ,CME Done Output select for Bit #3 (n=3) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "            SEL2                 ,CME Done Output select for Bit #2 (n=2) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                    "
bitfld.long 0x00 4.--7. " SEL1                  ,CME Done Output select for Bit #1 (n=1) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "            SEL0                 ,CME Done Output select for Bit #0 (n=0) 0: Driven by EDMA cc_int0 1: Driven by EDMA cc_int1 2: Driven by EDMA cc_int2 3: Driven by EDMA cc_int3 4: Driven by EDMA cc_int4 5: Driven by EDMA cc_int5 6: Driven by EDMA cc_i..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80794++0x3
line.long 0x00 "EVE_CME_DONE_EN,"
hexmask.long.byte 0x00 0.--7. 1. " EN                    ,EVE CME Done EN #n Write 0: No action Read 0: EVE CME Done #n is disabled. Write 1: Enable EVE CME Done #n event. This allows the status of the CME Done #n to propagate to the output. Read 1: EVE CME Done #n is enabled."
rgroup.long 0x80FE0++0x3
line.long 0x00 "EVE_PM_STAT0,"
bitfld.long 0x00 28.--30. " OCPM1_SCONNECT        ,Readable state of OCP Power management handshake" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--25. "             OCPM1_MCONNECT       ,Readable state of OCP Power management handshake" "0,1,2,3"
bitfld.long 0x00 20.--22. "             OCPM0_SCONNECT       ,Readable state of OCP Power management handshake" "0,1,2,3,4,5,6,7"
textline "                                    "
bitfld.long 0x00 16.--17. " OCPM0_MCONNECT        ,Readable state of OCP Power management handshake" "0,1,2,3"
bitfld.long 0x00 12.--14. "             OCPS_SCONNECT        ,Readable state of OCP Power management handshake" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--9. "             OCPS_MCONNECT        ,Readable state of OCP Power management handshake" "0,1,2,3"
textline "                                    "
bitfld.long 0x00 5. " MWAIT                 ,Readable state of OCP Power management handshake" "0,1"
bitfld.long 0x00 4. "             MSTANDBY             ,Readable state of OCP Power management handshake" "0,1"
bitfld.long 0x00 3. "             SWAKEUP              ,Readable state of OCP Power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 1.--2. " SIDLEACK              ,Readable state of OCP Power management handshake" "0,1,2,3"
bitfld.long 0x00 0. "             SIDLEREQ             ,Readable state of OCP Power management handshake" "0,1"
group.long 0x80FE4++0x3
line.long 0x00 "EVE_PM_STAT1,"
bitfld.long 0x00 22.--23. " STBY_MDISCACK_OCPM1   ,Readable state of internal power management handshake" "0,1,2,3"
bitfld.long 0x00 20.--21. "             STBY_MDISCACK_OCPM0  ,Readable state of internal power management handshake" "0,1,2,3"
bitfld.long 0x00 19. "             STBY_MDISCREQ_OCPM1  ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 18. " STBY_MDISCREQ_OCPM0   ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 17. "             IDLE_SDISCONNECT_ACK ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 16. "             IDLE_SDISCONNECT_REQ ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 15. " EVE_IDLE_INTR_DISABLE ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 14. "             TPTC1_MWAIT          ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 13. "             TPTC0_MWAIT          ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 12. " EVE_PCACHE_OCP_BUSY   ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 11. "             EVE_CONTROL_SIDLEACK ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 10. "             SMSET_SIDLEACK       ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 9. " L2_EVE_SIDLEACK       ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 8. "             MMU1_CONFIG_SIDLEACK ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 7. "             MMU1_SIDLEACK        ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 6. " MMU0_CONFIG_SIDLEACK  ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 5. "             MMU0_SIDLEACK        ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 4. "             SCTM_SIDLEACK        ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 3. " TPCC_SIDLEACK         ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 2. "             TPTC1_SIDLEACK       ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 1. "             TPTC0_SIDLEACK       ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 0. " SUBMODULE_IDLE_REQ    ," "0,1"
group.long 0x80FE8++0x3
line.long 0x00 "EVE_DBGOUT,"
hexmask.long.tbyte 0x00 8.--31. 1. " VALUE                 ,Read returns state of eve_dbgout bus."
bitfld.long 0x00 0.--3. "        GROUP                ,Debug Group Output control : mux select 0x0 : disabled / all debug outputs driven to 0x0. 0x1 : select output group1 0x2 : select output group2 : 0xN : select output groupN Others - reserved" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80FF4++0x3
line.long 0x00 "EVE_RSVD0,"
hexmask.long 0x00 0.--31. 1. " VAL                   ,Value; This register is reserved for any necessary ECOs that may be required later in the design cycle."
group.long 0x80FF8++0x3
line.long 0x00 "EVE_RSVD1,"
hexmask.long 0x00 0.--31. 1. " VAL                   ,Value; This register is reserved for any necessary ECOs that may be required later in the design cycle."
group.long 0x80FFC++0x3
line.long 0x00 "EVE_TEST,"
hexmask.long 0x00 0.--31. 1. " VAL                   ,Value; This register is reserved for any necessary ECOs that may be required later in the design cycle."
group.long 0x3DF780788++0x3
line.long 0x00 "EVE_CME_DONE_GPOUT_CLR,"
hexmask.long.byte 0x00 0.--7. 1. " EVENT                 ,Internal CME Done #n Write 0: No action Read 0: Internal CME Done #n is low/0. Write 1: Drive Internal CME Done #n low/0. Read 1: Internal CME Done #n is high/1."
width 0x0B
tree.end
tree "EVE3_L2_FNOC"
base ad:0x228A000
tree "Channel_0"
width 29.
group.long 0x20616100++0x3
line.long 0x00 "ERRLOGGER_i_ERRCLR_0,"
bitfld.long 0x00 0. " ERRCLR        ,Clr ErrVld status" "0,1"
rgroup.long 0x20616140++0x3
line.long 0x00 "ERRLOGGER_i_ERRLOG0_0,Header: Lock, Opcode, Len1, ErrCode values"
bitfld.long 0x00 31. " FORMAT        ,Format of ErrLog0 register" "0,1"
hexmask.long.word 0x00 16.--25. 1. "         LEN1       ,Header: Len1 value"
bitfld.long 0x00 8.--10. "  ERRCODE ,Header: Error Code value" "0,1,2,3,4,5,6,7"
textline "                                      "
bitfld.long 0x00 1.--4. " OPC           ,Header: Opcode value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0. "        LOCK       ,Header: Lock bit value" "0,1"
rgroup.long 0x20616180++0x3
line.long 0x00 "ERRLOGGER_i_ERRLOG1_0,"
hexmask.long.word 0x00 0.--13. 1. " ERRLOG1       ,Header: RouteId lsb value"
rgroup.long 0x20616200++0x3
line.long 0x00 "ERRLOGGER_i_ERRLOG3_0,"
hexmask.long 0x00 0.--31. 1. " ERRLOG3       ,Header: Addr lsb value"
rgroup.long 0x20616280++0x3
line.long 0x00 "ERRLOGGER_i_ERRLOG5_0,"
hexmask.long.tbyte 0x00 0.--16. 1. " ERRLOG5       ,Header: User lsb value"
rgroup.long 0x206160C0++0x3
line.long 0x00 "ERRLOGGER_i_ERRVLD_0,"
bitfld.long 0x00 0. " ERRVLD        ,Error logged Valid" "0,1"
group.long 0x20616080++0x3
line.long 0x00 "ERRLOGGER_i_FAULTEN_0,"
bitfld.long 0x00 0. " FAULTEN       ,Enable Fault output" "0,1"
rgroup.long 0x20616000++0x3
line.long 0x00 "ERRLOGGER_i_ID_COREID_0,"
hexmask.long.tbyte 0x00 8.--31. 1. " CORECHECKSUM  ,Field containing a checksum of the parameters of the IP."
hexmask.long.byte 0x00 0.--7. 1. "    CORETYPEID ,Field identifying the type of IP."
rgroup.long 0x20616040++0x3
line.long 0x00 "ERRLOGGER_i_ID_REVISIONID_0,"
hexmask.long.tbyte 0x00 8.--31. 1. " FLEXNOCID     ,Field containing the build revision of the software used to generate the IP HDL code."
hexmask.long.byte 0x00 0.--7. 1. "    USERID     ,Field containing a user defined value, not used anywhere inside the IP itself."
group.long 0x20617080++0x3
line.long 0x00 "FLAGMUX_i_FAULTEN_0,"
bitfld.long 0x00 0. " FAULTEN       ,Global Fault Enable register" "0,1"
rgroup.long 0x206170C0++0x3
line.long 0x00 "FLAGMUX_i_FAULTSTATUS_0,"
bitfld.long 0x00 0. " FAULTSTATUS   ,Global Fault Status register" "0,1"
group.long 0x20617100++0x3
line.long 0x00 "FLAGMUX_i_FLAGINEN0_0,"
bitfld.long 0x00 0. " FLAGINEN0     ,FlagIn Enable register #0" "0,1"
rgroup.long 0x20617140++0x3
line.long 0x00 "FLAGMUX_i_FLAGINSTATUS0_0,"
bitfld.long 0x00 0. " FLAGINSTATUS0 ,FlagIn Status register #0" "0,1"
rgroup.long 0x20617000++0x3
line.long 0x00 "FLAGMUX_i_ID_COREID_0,"
hexmask.long.tbyte 0x00 8.--31. 1. " CORECHECKSUM  ,Field containing a checksum of the parameters of the IP."
hexmask.long.byte 0x00 0.--7. 1. "    CORETYPEID ,Field identifying the type of IP."
rgroup.long 0x20617040++0x3
line.long 0x00 "FLAGMUX_i_ID_REVISIONID_0,"
hexmask.long.tbyte 0x00 8.--31. 1. " FLEXNOCID     ,Field containing the build revision of the software used to generate the IP HDL code."
hexmask.long.byte 0x00 0.--7. 1. "    USERID     ,Field containing a user defined value, not used anywhere inside the IP itself."
tree.end
tree "Channel_1"
width 29.
group.long 0x20616300++0x3
line.long 0x00 "ERRLOGGER_i_ERRCLR_1,"
bitfld.long 0x00 0. " ERRCLR        ,Clr ErrVld status" "0,1"
rgroup.long 0x20616340++0x3
line.long 0x00 "ERRLOGGER_i_ERRLOG0_1,Header: Lock, Opcode, Len1, ErrCode values"
bitfld.long 0x00 31. " FORMAT        ,Format of ErrLog0 register" "0,1"
hexmask.long.word 0x00 16.--25. 1. "         LEN1       ,Header: Len1 value"
bitfld.long 0x00 8.--10. "  ERRCODE ,Header: Error Code value" "0,1,2,3,4,5,6,7"
textline "                                      "
bitfld.long 0x00 1.--4. " OPC           ,Header: Opcode value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0. "        LOCK       ,Header: Lock bit value" "0,1"
rgroup.long 0x20616380++0x3
line.long 0x00 "ERRLOGGER_i_ERRLOG1_1,"
hexmask.long.word 0x00 0.--13. 1. " ERRLOG1       ,Header: RouteId lsb value"
rgroup.long 0x20616400++0x3
line.long 0x00 "ERRLOGGER_i_ERRLOG3_1,"
hexmask.long 0x00 0.--31. 1. " ERRLOG3       ,Header: Addr lsb value"
rgroup.long 0x20616480++0x3
line.long 0x00 "ERRLOGGER_i_ERRLOG5_1,"
hexmask.long.tbyte 0x00 0.--16. 1. " ERRLOG5       ,Header: User lsb value"
rgroup.long 0x206162C0++0x3
line.long 0x00 "ERRLOGGER_i_ERRVLD_1,"
bitfld.long 0x00 0. " ERRVLD        ,Error logged Valid" "0,1"
group.long 0x20616280++0x3
line.long 0x00 "ERRLOGGER_i_FAULTEN_1,"
bitfld.long 0x00 0. " FAULTEN       ,Enable Fault output" "0,1"
rgroup.long 0x20616200++0x3
line.long 0x00 "ERRLOGGER_i_ID_COREID_1,"
hexmask.long.tbyte 0x00 8.--31. 1. " CORECHECKSUM  ,Field containing a checksum of the parameters of the IP."
hexmask.long.byte 0x00 0.--7. 1. "    CORETYPEID ,Field identifying the type of IP."
rgroup.long 0x20616240++0x3
line.long 0x00 "ERRLOGGER_i_ID_REVISIONID_1,"
hexmask.long.tbyte 0x00 8.--31. 1. " FLEXNOCID     ,Field containing the build revision of the software used to generate the IP HDL code."
hexmask.long.byte 0x00 0.--7. 1. "    USERID     ,Field containing a user defined value, not used anywhere inside the IP itself."
group.long 0x20617280++0x3
line.long 0x00 "FLAGMUX_i_FAULTEN_1,"
bitfld.long 0x00 0. " FAULTEN       ,Global Fault Enable register" "0,1"
rgroup.long 0x206172C0++0x3
line.long 0x00 "FLAGMUX_i_FAULTSTATUS_1,"
bitfld.long 0x00 0. " FAULTSTATUS   ,Global Fault Status register" "0,1"
group.long 0x20617300++0x3
line.long 0x00 "FLAGMUX_i_FLAGINEN0_1,"
bitfld.long 0x00 0. " FLAGINEN0     ,FlagIn Enable register #0" "0,1"
rgroup.long 0x20617340++0x3
line.long 0x00 "FLAGMUX_i_FLAGINSTATUS0_1,"
bitfld.long 0x00 0. " FLAGINSTATUS0 ,FlagIn Status register #0" "0,1"
rgroup.long 0x20617200++0x3
line.long 0x00 "FLAGMUX_i_ID_COREID_1,"
hexmask.long.tbyte 0x00 8.--31. 1. " CORECHECKSUM  ,Field containing a checksum of the parameters of the IP."
hexmask.long.byte 0x00 0.--7. 1. "    CORETYPEID ,Field identifying the type of IP."
rgroup.long 0x20617240++0x3
line.long 0x00 "FLAGMUX_i_ID_REVISIONID_1,"
hexmask.long.tbyte 0x00 8.--31. 1. " FLEXNOCID     ,Field containing the build revision of the software used to generate the IP HDL code."
hexmask.long.byte 0x00 0.--7. 1. "    USERID     ,Field containing a user defined value, not used anywhere inside the IP itself."
tree.end
width 0x0B
tree.end
tree.open "EVE1_L2_FNOC"
tree "EVE1_L2_FNOC"
base ad:0x208A000
tree "Channel_0"
width 29.
group.long 0x10++0x3
line.long 0x00 "ERRLOGGER_i_ERRCLR_0,"
bitfld.long 0x00 0. " ERRCLR        ,Clr ErrVld status" "0,1"
rgroup.long 0x14++0x3
line.long 0x00 "ERRLOGGER_i_ERRLOG0_0,Header: Lock, Opcode, Len1, ErrCode values"
bitfld.long 0x00 31. " FORMAT        ,Format of ErrLog0 register" "0,1"
hexmask.long.word 0x00 16.--25. 1. "         LEN1       ,Header: Len1 value"
bitfld.long 0x00 8.--10. "  ERRCODE ,Header: Error Code value" "0,1,2,3,4,5,6,7"
textline "                                      "
bitfld.long 0x00 1.--4. " OPC           ,Header: Opcode value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0. "        LOCK       ,Header: Lock bit value" "0,1"
rgroup.long 0x18++0x3
line.long 0x00 "ERRLOGGER_i_ERRLOG1_0,"
hexmask.long.word 0x00 0.--13. 1. " ERRLOG1       ,Header: RouteId lsb value"
rgroup.long 0x20++0x3
line.long 0x00 "ERRLOGGER_i_ERRLOG3_0,"
hexmask.long 0x00 0.--31. 1. " ERRLOG3       ,Header: Addr lsb value"
rgroup.long 0x28++0x3
line.long 0x00 "ERRLOGGER_i_ERRLOG5_0,"
hexmask.long.tbyte 0x00 0.--16. 1. " ERRLOG5       ,Header: User lsb value"
rgroup.long 0xC++0x3
line.long 0x00 "ERRLOGGER_i_ERRVLD_0,"
bitfld.long 0x00 0. " ERRVLD        ,Error logged Valid" "0,1"
group.long 0x8++0x3
line.long 0x00 "ERRLOGGER_i_FAULTEN_0,"
bitfld.long 0x00 0. " FAULTEN       ,Enable Fault output" "0,1"
rgroup.long 0x0++0x3
line.long 0x00 "ERRLOGGER_i_ID_COREID_0,"
hexmask.long.tbyte 0x00 8.--31. 1. " CORECHECKSUM  ,Field containing a checksum of the parameters of the IP."
hexmask.long.byte 0x00 0.--7. 1. "    CORETYPEID ,Field identifying the type of IP."
rgroup.long 0x4++0x3
line.long 0x00 "ERRLOGGER_i_ID_REVISIONID_0,"
hexmask.long.tbyte 0x00 8.--31. 1. " FLEXNOCID     ,Field containing the build revision of the software used to generate the IP HDL code."
hexmask.long.byte 0x00 0.--7. 1. "    USERID     ,Field containing a user defined value, not used anywhere inside the IP itself."
group.long 0x108++0x3
line.long 0x00 "FLAGMUX_i_FAULTEN_0,"
bitfld.long 0x00 0. " FAULTEN       ,Global Fault Enable register" "0,1"
rgroup.long 0x10C++0x3
line.long 0x00 "FLAGMUX_i_FAULTSTATUS_0,"
bitfld.long 0x00 0. " FAULTSTATUS   ,Global Fault Status register" "0,1"
group.long 0x110++0x3
line.long 0x00 "FLAGMUX_i_FLAGINEN0_0,"
bitfld.long 0x00 0. " FLAGINEN0     ,FlagIn Enable register #0" "0,1"
rgroup.long 0x114++0x3
line.long 0x00 "FLAGMUX_i_FLAGINSTATUS0_0,"
bitfld.long 0x00 0. " FLAGINSTATUS0 ,FlagIn Status register #0" "0,1"
rgroup.long 0x100++0x3
line.long 0x00 "FLAGMUX_i_ID_COREID_0,"
hexmask.long.tbyte 0x00 8.--31. 1. " CORECHECKSUM  ,Field containing a checksum of the parameters of the IP."
hexmask.long.byte 0x00 0.--7. 1. "    CORETYPEID ,Field identifying the type of IP."
rgroup.long 0x104++0x3
line.long 0x00 "FLAGMUX_i_ID_REVISIONID_0,"
hexmask.long.tbyte 0x00 8.--31. 1. " FLEXNOCID     ,Field containing the build revision of the software used to generate the IP HDL code."
hexmask.long.byte 0x00 0.--7. 1. "    USERID     ,Field containing a user defined value, not used anywhere inside the IP itself."
tree.end
tree "Channel_1"
width 29.
group.long 0x210++0x3
line.long 0x00 "ERRLOGGER_i_ERRCLR_1,"
bitfld.long 0x00 0. " ERRCLR        ,Clr ErrVld status" "0,1"
rgroup.long 0x214++0x3
line.long 0x00 "ERRLOGGER_i_ERRLOG0_1,Header: Lock, Opcode, Len1, ErrCode values"
bitfld.long 0x00 31. " FORMAT        ,Format of ErrLog0 register" "0,1"
hexmask.long.word 0x00 16.--25. 1. "         LEN1       ,Header: Len1 value"
bitfld.long 0x00 8.--10. "  ERRCODE ,Header: Error Code value" "0,1,2,3,4,5,6,7"
textline "                                      "
bitfld.long 0x00 1.--4. " OPC           ,Header: Opcode value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0. "        LOCK       ,Header: Lock bit value" "0,1"
rgroup.long 0x218++0x3
line.long 0x00 "ERRLOGGER_i_ERRLOG1_1,"
hexmask.long.word 0x00 0.--13. 1. " ERRLOG1       ,Header: RouteId lsb value"
rgroup.long 0x220++0x3
line.long 0x00 "ERRLOGGER_i_ERRLOG3_1,"
hexmask.long 0x00 0.--31. 1. " ERRLOG3       ,Header: Addr lsb value"
rgroup.long 0x228++0x3
line.long 0x00 "ERRLOGGER_i_ERRLOG5_1,"
hexmask.long.tbyte 0x00 0.--16. 1. " ERRLOG5       ,Header: User lsb value"
rgroup.long 0x20C++0x3
line.long 0x00 "ERRLOGGER_i_ERRVLD_1,"
bitfld.long 0x00 0. " ERRVLD        ,Error logged Valid" "0,1"
group.long 0x208++0x3
line.long 0x00 "ERRLOGGER_i_FAULTEN_1,"
bitfld.long 0x00 0. " FAULTEN       ,Enable Fault output" "0,1"
rgroup.long 0x200++0x3
line.long 0x00 "ERRLOGGER_i_ID_COREID_1,"
hexmask.long.tbyte 0x00 8.--31. 1. " CORECHECKSUM  ,Field containing a checksum of the parameters of the IP."
hexmask.long.byte 0x00 0.--7. 1. "    CORETYPEID ,Field identifying the type of IP."
rgroup.long 0x204++0x3
line.long 0x00 "ERRLOGGER_i_ID_REVISIONID_1,"
hexmask.long.tbyte 0x00 8.--31. 1. " FLEXNOCID     ,Field containing the build revision of the software used to generate the IP HDL code."
hexmask.long.byte 0x00 0.--7. 1. "    USERID     ,Field containing a user defined value, not used anywhere inside the IP itself."
group.long 0x308++0x3
line.long 0x00 "FLAGMUX_i_FAULTEN_1,"
bitfld.long 0x00 0. " FAULTEN       ,Global Fault Enable register" "0,1"
rgroup.long 0x30C++0x3
line.long 0x00 "FLAGMUX_i_FAULTSTATUS_1,"
bitfld.long 0x00 0. " FAULTSTATUS   ,Global Fault Status register" "0,1"
group.long 0x310++0x3
line.long 0x00 "FLAGMUX_i_FLAGINEN0_1,"
bitfld.long 0x00 0. " FLAGINEN0     ,FlagIn Enable register #0" "0,1"
rgroup.long 0x314++0x3
line.long 0x00 "FLAGMUX_i_FLAGINSTATUS0_1,"
bitfld.long 0x00 0. " FLAGINSTATUS0 ,FlagIn Status register #0" "0,1"
rgroup.long 0x300++0x3
line.long 0x00 "FLAGMUX_i_ID_COREID_1,"
hexmask.long.tbyte 0x00 8.--31. 1. " CORECHECKSUM  ,Field containing a checksum of the parameters of the IP."
hexmask.long.byte 0x00 0.--7. 1. "    CORETYPEID ,Field identifying the type of IP."
rgroup.long 0x304++0x3
line.long 0x00 "FLAGMUX_i_ID_REVISIONID_1,"
hexmask.long.tbyte 0x00 8.--31. 1. " FLEXNOCID     ,Field containing the build revision of the software used to generate the IP HDL code."
hexmask.long.byte 0x00 0.--7. 1. "    USERID     ,Field containing a user defined value, not used anywhere inside the IP itself."
tree.end
width 0x0B
tree.end
tree "EVE2_L2_FNOC"
base ad:0x4218A000
tree "Channel_0"
width 29.
group.long 0x10++0x3
line.long 0x00 "ERRLOGGER_i_ERRCLR_0,"
bitfld.long 0x00 0. " ERRCLR        ,Clr ErrVld status" "0,1"
rgroup.long 0x14++0x3
line.long 0x00 "ERRLOGGER_i_ERRLOG0_0,Header: Lock, Opcode, Len1, ErrCode values"
bitfld.long 0x00 31. " FORMAT        ,Format of ErrLog0 register" "0,1"
hexmask.long.word 0x00 16.--25. 1. "         LEN1       ,Header: Len1 value"
bitfld.long 0x00 8.--10. "  ERRCODE ,Header: Error Code value" "0,1,2,3,4,5,6,7"
textline "                                      "
bitfld.long 0x00 1.--4. " OPC           ,Header: Opcode value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0. "        LOCK       ,Header: Lock bit value" "0,1"
rgroup.long 0x18++0x3
line.long 0x00 "ERRLOGGER_i_ERRLOG1_0,"
hexmask.long.word 0x00 0.--13. 1. " ERRLOG1       ,Header: RouteId lsb value"
rgroup.long 0x20++0x3
line.long 0x00 "ERRLOGGER_i_ERRLOG3_0,"
hexmask.long 0x00 0.--31. 1. " ERRLOG3       ,Header: Addr lsb value"
rgroup.long 0x28++0x3
line.long 0x00 "ERRLOGGER_i_ERRLOG5_0,"
hexmask.long.tbyte 0x00 0.--16. 1. " ERRLOG5       ,Header: User lsb value"
rgroup.long 0xC++0x3
line.long 0x00 "ERRLOGGER_i_ERRVLD_0,"
bitfld.long 0x00 0. " ERRVLD        ,Error logged Valid" "0,1"
group.long 0x8++0x3
line.long 0x00 "ERRLOGGER_i_FAULTEN_0,"
bitfld.long 0x00 0. " FAULTEN       ,Enable Fault output" "0,1"
rgroup.long 0x0++0x3
line.long 0x00 "ERRLOGGER_i_ID_COREID_0,"
hexmask.long.tbyte 0x00 8.--31. 1. " CORECHECKSUM  ,Field containing a checksum of the parameters of the IP."
hexmask.long.byte 0x00 0.--7. 1. "    CORETYPEID ,Field identifying the type of IP."
rgroup.long 0x4++0x3
line.long 0x00 "ERRLOGGER_i_ID_REVISIONID_0,"
hexmask.long.tbyte 0x00 8.--31. 1. " FLEXNOCID     ,Field containing the build revision of the software used to generate the IP HDL code."
hexmask.long.byte 0x00 0.--7. 1. "    USERID     ,Field containing a user defined value, not used anywhere inside the IP itself."
group.long 0x108++0x3
line.long 0x00 "FLAGMUX_i_FAULTEN_0,"
bitfld.long 0x00 0. " FAULTEN       ,Global Fault Enable register" "0,1"
rgroup.long 0x10C++0x3
line.long 0x00 "FLAGMUX_i_FAULTSTATUS_0,"
bitfld.long 0x00 0. " FAULTSTATUS   ,Global Fault Status register" "0,1"
group.long 0x110++0x3
line.long 0x00 "FLAGMUX_i_FLAGINEN0_0,"
bitfld.long 0x00 0. " FLAGINEN0     ,FlagIn Enable register #0" "0,1"
rgroup.long 0x114++0x3
line.long 0x00 "FLAGMUX_i_FLAGINSTATUS0_0,"
bitfld.long 0x00 0. " FLAGINSTATUS0 ,FlagIn Status register #0" "0,1"
rgroup.long 0x100++0x3
line.long 0x00 "FLAGMUX_i_ID_COREID_0,"
hexmask.long.tbyte 0x00 8.--31. 1. " CORECHECKSUM  ,Field containing a checksum of the parameters of the IP."
hexmask.long.byte 0x00 0.--7. 1. "    CORETYPEID ,Field identifying the type of IP."
rgroup.long 0x104++0x3
line.long 0x00 "FLAGMUX_i_ID_REVISIONID_0,"
hexmask.long.tbyte 0x00 8.--31. 1. " FLEXNOCID     ,Field containing the build revision of the software used to generate the IP HDL code."
hexmask.long.byte 0x00 0.--7. 1. "    USERID     ,Field containing a user defined value, not used anywhere inside the IP itself."
tree.end
tree "Channel_1"
width 29.
group.long 0x210++0x3
line.long 0x00 "ERRLOGGER_i_ERRCLR_1,"
bitfld.long 0x00 0. " ERRCLR        ,Clr ErrVld status" "0,1"
rgroup.long 0x214++0x3
line.long 0x00 "ERRLOGGER_i_ERRLOG0_1,Header: Lock, Opcode, Len1, ErrCode values"
bitfld.long 0x00 31. " FORMAT        ,Format of ErrLog0 register" "0,1"
hexmask.long.word 0x00 16.--25. 1. "         LEN1       ,Header: Len1 value"
bitfld.long 0x00 8.--10. "  ERRCODE ,Header: Error Code value" "0,1,2,3,4,5,6,7"
textline "                                      "
bitfld.long 0x00 1.--4. " OPC           ,Header: Opcode value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0. "        LOCK       ,Header: Lock bit value" "0,1"
rgroup.long 0x218++0x3
line.long 0x00 "ERRLOGGER_i_ERRLOG1_1,"
hexmask.long.word 0x00 0.--13. 1. " ERRLOG1       ,Header: RouteId lsb value"
rgroup.long 0x220++0x3
line.long 0x00 "ERRLOGGER_i_ERRLOG3_1,"
hexmask.long 0x00 0.--31. 1. " ERRLOG3       ,Header: Addr lsb value"
rgroup.long 0x228++0x3
line.long 0x00 "ERRLOGGER_i_ERRLOG5_1,"
hexmask.long.tbyte 0x00 0.--16. 1. " ERRLOG5       ,Header: User lsb value"
rgroup.long 0x20C++0x3
line.long 0x00 "ERRLOGGER_i_ERRVLD_1,"
bitfld.long 0x00 0. " ERRVLD        ,Error logged Valid" "0,1"
group.long 0x208++0x3
line.long 0x00 "ERRLOGGER_i_FAULTEN_1,"
bitfld.long 0x00 0. " FAULTEN       ,Enable Fault output" "0,1"
rgroup.long 0x200++0x3
line.long 0x00 "ERRLOGGER_i_ID_COREID_1,"
hexmask.long.tbyte 0x00 8.--31. 1. " CORECHECKSUM  ,Field containing a checksum of the parameters of the IP."
hexmask.long.byte 0x00 0.--7. 1. "    CORETYPEID ,Field identifying the type of IP."
rgroup.long 0x204++0x3
line.long 0x00 "ERRLOGGER_i_ID_REVISIONID_1,"
hexmask.long.tbyte 0x00 8.--31. 1. " FLEXNOCID     ,Field containing the build revision of the software used to generate the IP HDL code."
hexmask.long.byte 0x00 0.--7. 1. "    USERID     ,Field containing a user defined value, not used anywhere inside the IP itself."
group.long 0x308++0x3
line.long 0x00 "FLAGMUX_i_FAULTEN_1,"
bitfld.long 0x00 0. " FAULTEN       ,Global Fault Enable register" "0,1"
rgroup.long 0x30C++0x3
line.long 0x00 "FLAGMUX_i_FAULTSTATUS_1,"
bitfld.long 0x00 0. " FAULTSTATUS   ,Global Fault Status register" "0,1"
group.long 0x310++0x3
line.long 0x00 "FLAGMUX_i_FLAGINEN0_1,"
bitfld.long 0x00 0. " FLAGINEN0     ,FlagIn Enable register #0" "0,1"
rgroup.long 0x314++0x3
line.long 0x00 "FLAGMUX_i_FLAGINSTATUS0_1,"
bitfld.long 0x00 0. " FLAGINSTATUS0 ,FlagIn Status register #0" "0,1"
rgroup.long 0x300++0x3
line.long 0x00 "FLAGMUX_i_ID_COREID_1,"
hexmask.long.tbyte 0x00 8.--31. 1. " CORECHECKSUM  ,Field containing a checksum of the parameters of the IP."
hexmask.long.byte 0x00 0.--7. 1. "    CORETYPEID ,Field identifying the type of IP."
rgroup.long 0x304++0x3
line.long 0x00 "FLAGMUX_i_ID_REVISIONID_1,"
hexmask.long.tbyte 0x00 8.--31. 1. " FLEXNOCID     ,Field containing the build revision of the software used to generate the IP HDL code."
hexmask.long.byte 0x00 0.--7. 1. "    USERID     ,Field containing a user defined value, not used anywhere inside the IP itself."
tree.end
width 0x0B
tree.end
tree.end
tree "EVE4"
base ad:0x42300000
tree "Channel_0"
width 30.
group.long 0x80700++0x3
line.long 0x00 "EVE_GPOUTm_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: Drive GP Output #n low/1 Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x80708++0x3
line.long 0x00 "EVE_GPOUTm_CLR_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: Drive GP Output #n low/1 Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x8070C++0x3
line.long 0x00 "EVE_GPOUTm_PULSE_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: No action Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1 for four cycles / then drive low/0. Read 1: GP Output #n is high/1. Note: Writing to GPOUT registers when the four cycles for the previous wri..."
group.long 0x80704++0x3
line.long 0x00 "EVE_GPOUTm_SET_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: No action Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x8052C++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_CLR_0,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80528++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_SET_0,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80524++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event."
group.long 0x80520++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_RAW_0,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80420++0x3
line.long 0x00 "MISR2_Dk_0,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80300++0x3
line.long 0x00 "MMR_LOCKi_0,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK  ,Lock/Unlock register for corresponding region"
tree.end
tree "Channel_1"
width 30.
group.long 0x80710++0x3
line.long 0x00 "EVE_GPOUTm_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: Drive GP Output #n low/1 Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x80718++0x3
line.long 0x00 "EVE_GPOUTm_CLR_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: Drive GP Output #n low/1 Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x8071C++0x3
line.long 0x00 "EVE_GPOUTm_PULSE_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: No action Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1 for four cycles / then drive low/0. Read 1: GP Output #n is high/1. Note: Writing to GPOUT registers when the four cycles for the previous wri..."
group.long 0x80714++0x3
line.long 0x00 "EVE_GPOUTm_SET_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,GP Output #n Write 0: No action Read 0: GP Output #n is low/0. Write 1: Drive GP Output #n high/1. Read 1: GP Output is high/1."
group.long 0x8053C++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_CLR_1,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80538++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_SET_1,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80534++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event."
group.long 0x80530++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_RAW_1,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80424++0x3
line.long 0x00 "MISR2_Dk_1,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80304++0x3
line.long 0x00 "MMR_LOCKi_1,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK  ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_2"
width 30.
group.long 0x8054C++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_CLR_2,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80548++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_SET_2,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80544++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_2,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event."
group.long 0x80540++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_RAW_2,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80428++0x3
line.long 0x00 "MISR2_Dk_2,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80308++0x3
line.long 0x00 "MMR_LOCKi_2,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK  ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_3"
width 30.
group.long 0x8055C++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_CLR_3,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80558++0x3
line.long 0x00 "EVE_INTk_OUT_IRQENABLE_SET_3,"
hexmask.long 0x00 0.--31. 1. " ENABLE    ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80554++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_3,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event."
group.long 0x80550++0x3
line.long 0x00 "EVE_INTk_OUT_IRQSTATUS_RAW_3,"
hexmask.long 0x00 0.--31. 1. " EVENT     ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x8042C++0x3
line.long 0x00 "MISR2_Dk_3,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x8030C++0x3
line.long 0x00 "MMR_LOCKi_3,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK  ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_4"
width 28.
group.long 0x8021C++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_CLR_4,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80218++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_SET_4,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80214++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_4,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80210++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_RAW_4,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80310++0x3
line.long 0x00 "MMR_LOCKi_4,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_5"
width 28.
group.long 0x8022C++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_CLR_5,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80228++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_SET_5,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80224++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_5,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80220++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_RAW_5,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80314++0x3
line.long 0x00 "MMR_LOCKi_5,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_6"
width 28.
group.long 0x8023C++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_CLR_6,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80238++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_SET_6,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80234++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_6,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80230++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_RAW_6,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80318++0x3
line.long 0x00 "MMR_LOCKi_6,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_7"
width 28.
group.long 0x8024C++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_CLR_7,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80248++0x3
line.long 0x00 "ARP32_INTn_IRQENABLE_SET_7,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80244++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_7,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80240++0x3
line.long 0x00 "ARP32_INTn_IRQSTATUS_RAW_7,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x8031C++0x3
line.long 0x00 "MMR_LOCKi_7,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_8"
width 28.
group.long 0x8060C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_8,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80608++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_8,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80604++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_8,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80600++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_8,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80320++0x3
line.long 0x00 "MMR_LOCKi_8,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_9"
width 28.
group.long 0x8061C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_9,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80618++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_9,"
hexmask.long 0x00 0.--31. 1. " ENABLE   ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80614++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_9,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80610++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_9,"
hexmask.long 0x00 0.--31. 1. " EVENT    ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80324++0x3
line.long 0x00 "MMR_LOCKi_9,MMR Lock/Unlock register"
hexmask.long 0x00 0.--31. 1. " MMR_LOCK ,Lock/Unlock register for corresponding region"
tree.end
tree "IRQ_Line_10"
width 29.
group.long 0x8062C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_10,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80628++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_10,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80624++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_10,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80620++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_10,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
tree.end
tree "IRQ_Line_11"
width 29.
group.long 0x8063C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_11,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80638++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_11,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80634++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_11,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80630++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_11,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
tree.end
tree "IRQ_Line_12"
width 29.
group.long 0x8064C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_12,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80648++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_12,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80644++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_12,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80640++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_12,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
tree.end
tree "IRQ_Line_13"
width 29.
group.long 0x8065C++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_CLR_13,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80658++0x3
line.long 0x00 "ARP32_INTj_IRQENABLE_SET_13,"
hexmask.long 0x00 0.--31. 1. " ENABLE ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x80654++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_13,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
rgroup.long 0x80650++0x3
line.long 0x00 "ARP32_INTj_IRQSTATUS_RAW_13,"
hexmask.long 0x00 0.--31. 1. " EVENT  ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
tree.end
textline ""
width 27.
rgroup.long 0x80000++0x3
line.long 0x00 "EVE_REVISION,"
hexmask.long 0x00 0.--31. 1. " REVISION              ,Revision"
rgroup.long 0x80004++0x3
line.long 0x00 "EVE_HWINFO,"
hexmask.long 0x00 4.--31. 1. " INFO                  ,0x0: No configurable options in EVE"
bitfld.long 0x00 0.--3. "      EVENUM               ,EVE instance number set by eve_num inputs. In a multi-EVE system must be set to unique/incrementing values for each EVE." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80008++0x3
line.long 0x00 "EVE_SYSCONFIG,"
bitfld.long 0x00 4.--5. " STANDBYMODE           ,00: Force-Standby mode: This mode is a backup mode intended to be used only if the smart-idle mode is bugged. When in this mode / the SAF asserts with minimal hardware condition the status saying :I am in standby:. It is the res..." "0,1,2,3"
bitfld.long 0x00 2.--3. "             IDLEMODE             ,00: Force-idle: This mode is a backup mode intended to be used only if the smart-idle mode is bugged. When in this mode the IAF acknowledges a request to go idle from the power manager with minimal hardware condition...." "0,1,2,3"
bitfld.long 0x00 1. "             FREEEMU              ,Resered. Note that SCTM has free control bit to define the timer operation during ARP32 debug halt mode" "0,1"
textline "                                    "
bitfld.long 0x00 0. " SOFTRESET             ,Reserved" "0,1"
rgroup.long 0x8000C++0x3
line.long 0x00 "EVE_STAT,"
bitfld.long 0x00 20.--21. " OCPI_DISC_STAT        ,OCP Initiator(s) Disconnect status2: - . - ." "0,1,2,3"
bitfld.long 0x00 16.--17. "             ARP32_DISC_STATUS    ,ARP32 Program/Data Bus Disconnect Status 2: - . - ." "0,1,2,3"
bitfld.long 0x00 8. "             INT_OUT_STAT         ,Interrupt Output status: - . - ." "0,1"
textline "                                    "
bitfld.long 0x00 7. " ARP_INTC_STAT         ,Interrupt Controller Status: - . - ." "0,1"
bitfld.long 0x00 5. "             TC1_STAT             ,Transfer Controller1 Status: - . - ." "Idle,Active"
bitfld.long 0x00 4. "        TC0_STAT             ,Transfer Controller0 Status: - . - ." "Idle,Active"
textline "                                    "
bitfld.long 0x00 2. " PC_STAT               ,Program Cache Status: - . - ." "Idle,1"
bitfld.long 0x00 1. "          VCOP_STAT            ,VCOP Status : - . - ." "Idle,1"
bitfld.long 0x00 0. "          ARP32_STAT           ,Program Cache Status: - . - ." "Idle,1"
group.long 0x80010++0x3
line.long 0x00 "EVE_DISC_CONFIG,Color 0 noise threshold"
bitfld.long 0x00 4. " OCPI_DISC             ,OCP Initiator Disconnect request: - . - ." "0,1"
bitfld.long 0x00 0. "             ARP32_DISC           ,ARP32 Initiator Disconnect request. - . - ." "0,1"
group.long 0x80014++0x3
line.long 0x00 "EVE_BUS_CONFIG,Color 0 noise threshold"
bitfld.long 0x00 12.--13. " TC1_DBS               ,TC1 default burst size. 00: 16 byte, 01: 32 byte, 10: 64 byte, 11: 128 byte (recommended)" "0,1,2,3"
bitfld.long 0x00 8.--9. "             TC0_DBS              ,TC0 default burst size. 00: 16 byte, 01: 32 byte, 10: 64 byte, 11: 128 byte (recommended)" "0,1,2,3"
bitfld.long 0x00 4. "             DBP_ENABLE           ,Program Cache Demand Based Prefetch enable: - . - ." "DBP_disabled,DBP_enabled"
textline "                                    "
bitfld.long 0x00 0.--3. " MAX_IN_FLIGHT         ,Defines maximum number of OCP requests in flight. Can be reduced to limit the peak bandwidth for software direct preload, which in turn may provide advantage to other EVE level (e.g. EDMA) or system-level initiators. 0: Reserved..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80018++0x3
line.long 0x00 "EVE_VCOP_HALT_CONFIG,"
bitfld.long 0x00 2. " FORCE_ABORT           ,VCOP Force Abort Write: Read always returns 0s - Write 0 has no effect. . - . - ." "0,1"
bitfld.long 0x00 1. "             MSW_EN               ,VCOP Memory Seitch Error Halt Enable: - . - ." "Disabled,1"
bitfld.long 0x00 0. "      ED_EN                ,VCOP Parity Error Detect Halt Enable: - . - ." "Disabled,1"
group.long 0x8001C++0x3
line.long 0x00 "EVE_MMU_CONFIG,"
bitfld.long 0x00 12. " MMU1_ABORT            ,Causes the MMU to abort the current operation in case of lockup" "0,1"
bitfld.long 0x00 8. "             MMU0_ABORT           ,Causes the MMU to abort the current operation in case of lockup" "0,1"
bitfld.long 0x00 4. "             MMU1_EN              ,Clearing this bit disables MMU table lookup and causes accesses to use the non-translated address. This bit defaults to enabled but an identical bit within an MMU configuration register defaults to disabled and must b..." "0,1"
textline "                                    "
bitfld.long 0x00 0. " MMU0_EN               ,Clearing this bit disables MMU table lookup and causes accesses to use the non-translated address. This bit defaults to enabled but an identical bit within an MMU configuration register defaults to disabled and must be set after..." "0,1"
group.long 0x80020++0x3
line.long 0x00 "EVE_MEMMAP,"
bitfld.long 0x00 4. " LCL_EDMA_ALIAS        ,0: Local EDMA views full memory map - ." "0,1"
bitfld.long 0x00 0. "             VCOP_ALIAS           ,0: VCOP views full memory map - ." "0,1"
group.long 0x80024++0x3
line.long 0x00 "EVE_MSW_CTL,Memory switch control register"
bitfld.long 0x00 16. " WBUF                  ,Working buffer onwership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20). - . - ." "System_owned,VCOP_owned"
bitfld.long 0x00 12. "  IBUFHB               ,Image buffer high B ownership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20).: - . - ." "System_owned,VCOP_owned"
bitfld.long 0x00 8. "  IBUFLB               ,Image buffer low B ownership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20).: - . - ." "System_owned,VCOP_owned"
textline "                                    "
bitfld.long 0x00 4. " IBUFHA                ,Image buffer high A ownership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20).: - . - ." "System_owned,VCOP_owned"
bitfld.long 0x00 0. "  IBUFLA               ,Image buffer low A ownership. Value can be modified through direct writes to the memory mapped register address or through ARP32 executing custom instruction __SwitchBuffer(ucst20).: - . - ." "System_owned,VCOP_owned"
group.long 0x80028++0x3
line.long 0x00 "EVE_MSW_ERR,Memory Switch Error register"
hexmask.long.word 0x00 16.--24. 1. " CONNID                ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated buffer ownership error not recorded 1 - System initiated buffer ownership error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated buffer ownership error not recorded 1 : EDMA buffer ownership error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated buffer ownership error not recorded 1 : VCOP initiated buffer ownership error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated buffer ownership error not recorded 1 : ARP32 initiated buffer ownership error detected/recorded Write 1 to clear." "0,1"
rgroup.long 0x8002C++0x3
line.long 0x00 "EVE_MSW_ERRADDR,Memory switch error address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of memory switch error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address. Va..."
group.long 0x80040++0x3
line.long 0x00 "EVE_PC_INV,Invalidate all register"
bitfld.long 0x00 0. " I                     ,Invalidate all: - . Read: 0 : Invalidate operation complete / or not in progress 1 : Invalidate operation still in progress. - ." "0,1"
group.long 0x80050++0x3
line.long 0x00 "EVE_PC_IBAR,Invalidate Base Address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Invalidate Base Address register. Defines system byte address base to be invalidated from L1P. The entire range to be invalidated is (loosely speaking) from the base address to the base address + byte count. The actual range is ..."
group.long 0x80054++0x3
line.long 0x00 "EVE_PC_IBC,Invalidate byte count register"
hexmask.long.word 0x00 0.--15. 1. " BC                    ,Invalidate Byte Count register. Defines number of bytes relative to Invalidate Base Address (IBAR.ADDR) to be invalidated from L1P. Maximum of 32k (0x8000). Reads return 0x0 when invalidate range operation is complete."
group.long 0x80058++0x3
line.long 0x00 "EVE_PC_ISAR,Invalidate single address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Invalidate Single Address register. Defines system byte address (1 line only) to be invalidated from L1P. Reads return 0x0 when the invalidate operation is complete."
rgroup.long 0x8005C++0x3
line.long 0x00 "EVE_PC_ISAR_DONE,Invalidate single address done register"
bitfld.long 0x00 0. " DONE                  ,Reads return 0x1 when the invalidate operation is complete. Cleared on the next write to theEVE_PC_ISAR register" "0,1"
group.long 0x80060++0x3
line.long 0x00 "EVE_PC_PBAR,Program cache preload base address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Preload Base Address register. Defines system byte address base to be Preloaded into L1P. The entire range to be Preloaded is (loosely speaking) from the base address to the base address + byte count. The actual range is inclusi..."
group.long 0x80064++0x3
line.long 0x00 "EVE_PC_PBC,"
hexmask.long.word 0x00 0.--15. 1. " BC                    ,Preload Byte Count register. Defines number of bytes relative to Preload Base Address (PBAR.ADDR) to be Preloaded into L1P. Maximum of 32k (0x8000). Reads return 0x0 when Preload range operation is complete"
group.long 0x80080++0x3
line.long 0x00 "EVE_PMEM_ED_CTL,Program Memory Error Detection Control register"
bitfld.long 0x00 1. " INV                   ,Read 0: Error detection logic is not inverted. Read 1: Error detection logic is inverted. Writes to memory set parity as normal. Reds from meory return inverse of parity bit. - Write 0 to clear, write 1 to set. Must be set when ..." "0,1"
bitfld.long 0x00 0. "             EN                   ,Error detection logic enable. Writes update parity, reads check parity - . - ." "Disabled,Enabled"
group.long 0x80084++0x3
line.long 0x00 "EVE_PMEM_ED_STAT,Error detection status register"
hexmask.long.word 0x00 16.--24. 1. " SYSCONNID             ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated parity error not recorded 1 - System initiated parity error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated parity error not recorded 1 : EDMA parity error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated parity error not recorded 1 : VCOP initiated parity error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated parity error not recorded 1 : ARP32 initiated parity error detected/recorded Write 1 to clear" "0,1"
rgroup.long 0x80088++0x3
line.long 0x00 "EVE_PMEM_EDADDR,Program memory error detection address"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of parity error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address."
group.long 0x80090++0x3
line.long 0x00 "EVE_DMEM_ED_CTL,DMEM error detection control"
bitfld.long 0x00 1. " INV                   ,Read 0: Error detection logic is not inverted. Read 1: Error detection logic is inverted. Writes to memory set parity as normal. Reads from meory return inverse of parity bit. - Write 0 to clear, write 1 to set. Must be set when..." "0,1"
bitfld.long 0x00 0. "             EN                   ,Error detection logic enable. Writes update parity, reads check parity - . - ." "Disabled,Enabled"
group.long 0x80094++0x3
line.long 0x00 "EVE_DMEM_ED_STAT,DMEM error detection status register"
hexmask.long.word 0x00 16.--24. 1. " SYSCONNID             ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated parity error not recorded 1 - System initiated parity error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated parity error not recorded 1 : EDMA parity error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated parity error not recorded 1 : VCOP initiated parity error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated parity error not recorded 1 : ARP32 initiated parity error detected/recorded Write 1 to clear" "0,1"
rgroup.long 0x80098++0x3
line.long 0x00 "EVE_DMEM_EDADDR,DMEM error detection address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of parity error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address."
rgroup.long 0x8009C++0x3
line.long 0x00 "EVE_DMEM_EDADDR_BO,DMEM error detection address byte offset register"
hexmask.long 0x00 0.--31. 1. " BO                    ,Address byte offset for parity error. Indicates that an error has occured in byte offset #n. 0: No error occuredin byte offset #n; 1: Error occured in byte offset #n. Write to clear any of MEM.SYSERR/DMARR/ARP32/or VERR."
group.long 0x800A0++0x3
line.long 0x00 "EVE_WBUF_ED_CTL,WBUF error detection control"
bitfld.long 0x00 1. " INV                   ,Read 0: Error detection logic is not inverted. Read 1: Error detection logic is inverted. Writes to memory set parity as normal. Reads from meory return inverse of parity bit. - Write 0 to clea Write 1 to set. Must be set when E..." "0,1"
bitfld.long 0x00 0. "             EN                   ,Error detection logic enable. Writes update parity, reads check parity - . - ." "Disabled,Enabled"
group.long 0x800A4++0x3
line.long 0x00 "EVE_WBUF_ED_STAT,WBUF error detection status register"
hexmask.long.word 0x00 16.--24. 1. " SYSCONNID             ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated parity error not recorded 1 - System initiated parity error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated parity error not recorded 1 : EDMA parity error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated parity error not recorded 1 : VCOP initiated parity error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated parity error not recorded 1 : ARP32 initiated parity error detected/recorded Write 1 to clear" "0,1"
rgroup.long 0x800A8++0x3
line.long 0x00 "EVE_WBUF_EDADDR,WBUF error detection address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of parity error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address."
rgroup.long 0x800AC++0x3
line.long 0x00 "EVE_WBUF_EDADDR_BO,WBUF error detection address byte offset register"
hexmask.long 0x00 0.--31. 1. " BO                    ,Address byte offset for parity error. Indicates that an error has occured in byte offset #n. 0: No error occuredin byte offset #n; 1: Error occured in byte offset #n. Write to clear any of MEM.SYSERR/DMARR/ARP32/or VERR."
group.long 0x800B0++0x3
line.long 0x00 "EVE_IBUF_ED_CTL,IBUF error detection control"
bitfld.long 0x00 1. " INV                   ,Read 0: Error detection logic is not inverted. Read 1: Error detection logic is inverted. Writes to memory set parity as normal. Reads from meory return inverse of parity bit. - Write 0 to clear, write 1 to set. Must be set when..." "0,1"
bitfld.long 0x00 0. "             EN                   ,Error detection logic enable. Writes update parity, reads check parity - . - ." "Disabled,Enabled"
group.long 0x800B4++0x3
line.long 0x00 "EVE_IBUF_ED_STAT,IBUF error detection status register"
hexmask.long.word 0x00 16.--24. 1. " SYSCONNID             ,Reads: OCP CONNID value for OCP request that results in buffer ownership error. CONNID[8] = 0 indicates system initiated request. CONNID[8] = 1 indicates internally initiated request. Valid only when SYSERR is set to 1 otherwise..."
bitfld.long 0x00 3. "          SYSERR               ,0 - System initiated parity error not recorded 1 - System initiated parity error detected/recorded. Write 1 to clear." "0,1"
bitfld.long 0x00 2. "             DMAERR               ,0 : EDMA initiated parity error not recorded 1 : EDMA parity error detected/recorded Write 1 to clear." "0,1"
textline "                                    "
bitfld.long 0x00 1. " VERR                  ,0 : VCOP initiated parity error not recorded 1 : VCOP initiated parity error detected/recorded Write 1 to clear." "0,1"
bitfld.long 0x00 0. "             ARP32ERR             ,0 : ARP32 initiated parity error not recorded 1 : ARP32 initiated parity error detected/recorded Write 1 to clear" "0,1"
rgroup.long 0x800B8++0x3
line.long 0x00 "EVE_IBUF_EDADDR,IBUF error detection address register"
hexmask.long 0x00 0.--31. 1. " ADDR                  ,Physical Address (i.e. / not aliased address) of parity error. For VCOP accesses / indicates 32-B aligned address. For EDMA or System accesses / indicates 16-B aligned access. For ARP32 / indicates 4-B aligned address."
rgroup.long 0x800BC++0x3
line.long 0x00 "EVE_IBUF_EDADDR_BO,IBUF error detection address byte offset register"
hexmask.long 0x00 0.--31. 1. " BO                    ,Address byte offset for parity error. Indicates that an error has occured in byte offset #n. 0: No error occuredin byte offset #n; 1: Error occured in byte offset #n. Write to clear any of MEM.SYSERR/DMARR/ARP32/or VERR."
group.long 0x800F8++0x3
line.long 0x00 "EVE_ED_ARP32_DISC_EN,ARP32 disconnect enable register"
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Disconnect Enable for Event #n 0: Disconnect disabled 1: Disconnect enabled"
group.long 0x800FC++0x3
line.long 0x00 "EVE_ED_OCPI_DISC_EN,OCP interface disconnect enable register"
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Disconnect Enable for Event #n. 0: Disconnect disabled 1: Disconnect enabled"
group.long 0x80110++0x3
line.long 0x00 "EVE_MSW_ERR_IRQSTATUS_RAW,Per event memory switch error interrupt status register."
bitfld.long 0x00 0.--3. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80114++0x3
line.long 0x00 "EVE_MSW_ERR_IRQSTATUS,Memory switch error interrupt status register."
bitfld.long 0x00 0.--3. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80118++0x3
line.long 0x00 "EVE_MSW_ERR_IRQENABLE_SET,Memory switch error interrupt enable register."
bitfld.long 0x00 0.--3. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x8011C++0x3
line.long 0x00 "EVE_MSW_ERR_IRQENABLE_CLR,Memory switch error interrupt clear register."
bitfld.long 0x00 0.--3. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80120++0x3
line.long 0x00 "EVE_ED_LCL_IRQSTATUS_RAW,Per event error detection local interrupt status register."
hexmask.long.word 0x00 0.--15. 1. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80124++0x3
line.long 0x00 "EVE_ED_LCL_IRQSTATUS,Error detection local interrupt status register."
hexmask.long.word 0x00 0.--15. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80128++0x3
line.long 0x00 "EVE_ED_LCL_IRQENABLE_SET,Error detection local interrupt enable register."
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8012C++0x3
line.long 0x00 "EVE_ED_LCL_IRQENABLE_CLR,Error detection local interrupt clear register."
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x80200++0x3
line.long 0x00 "ARP32_NMI_IRQSTATUS_RAW,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80204++0x3
line.long 0x00 "ARP32_NMI_IRQSTATUS,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80208++0x3
line.long 0x00 "ARP32_NMI_IRQENABLE_SET,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8020C++0x3
line.long 0x00 "ARP32_NMI_IRQENABLE_CLR,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
group.long 0x802FC++0x3
line.long 0x00 "ARP32_IRQWAKEEN,Wake enable register"
hexmask.long.tbyte 0x00 0.--23. 1. " ENABLE                ,Wakeup Enable for event EVE_EVT_INT #n 0: Interrupt #n disabled for wakeup 1: Interrupt #n enabled for wakeup"
group.long 0x80400++0x3
line.long 0x00 "MISR_CTL,"
bitfld.long 0x00 0.--2. " ENABLE                ,MISR Enable #N 0: MISR #n disabled 1: MISR #n enabled Bit 0: MISR 0 - ARP32 PMEM path Bit 1: MISR 1 - ARP32 DMEM path Bit 2: MISR 2 - INTC WBUF path" "0,1,2,3,4,5,6,7"
group.long 0x80404++0x3
line.long 0x00 "MISR_CLEAR,"
bitfld.long 0x00 0.--2. " CLEAR                 ,MISR Clear #N Write 0: no effect Write 1: Clear MISR #n Read 0: Previous MISR clear command has completed. Read 1: MISR Clear in progress (this state may never actually be readable)" "0,1,2,3,4,5,6,7"
group.long 0x80410++0x3
line.long 0x00 "MISR0_A,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE             ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80414++0x3
line.long 0x00 "MISR0_D,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE             ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80418++0x3
line.long 0x00 "MISR1_A,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE             ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x8041C++0x3
line.long 0x00 "MISR1_D,"
hexmask.long 0x00 0.--31. 1. " SIGNATURE             ,MISR Signature Value Write value to initialize to a desired seed. (only valid when disabled / undefined when enabled). Must be written as a 32-b write w/ all byte enable signals active. Read value returns current signature value."
group.long 0x80500++0x3
line.long 0x00 "EVE_IRQ_EOI,"
bitfld.long 0x00 0.--2. " LINE_NUMBER           ,Software End Of Interrupt (EOI) control. Write number of interrupt output to force re-evaluation of associated pending interrupts. Refer to Section Error: Reference source not found for EOI mapping. Reads always return 0x0. Writ..." "0,1,2,3,4,5,6,7"
group.long 0x80510++0x3
line.long 0x00 "EVE_ED_OUT_IRQSTATUS_RAW,"
hexmask.long.word 0x00 0.--15. 1. " EVENT                 ,Settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80514++0x3
line.long 0x00 "EVE_ED_OUT_IRQSTATUS,"
hexmask.long.word 0x00 0.--15. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80518++0x3
line.long 0x00 "EVE_ED_OUT_IRQENABLE_SET,"
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8051C++0x3
line.long 0x00 "EVE_ED_OUT_IRQENABLE_CLR,"
hexmask.long.word 0x00 0.--15. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
rgroup.long 0x80680++0x3
line.long 0x00 "ARP32_INT14_IRQSTATUS_RAW,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80684++0x3
line.long 0x00 "ARP32_INT14_IRQSTATUS,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80688++0x3
line.long 0x00 "ARP32_INT14_IRQENABLE_SET,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8068C++0x3
line.long 0x00 "ARP32_INT14_IRQENABLE_CLR,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
rgroup.long 0x80690++0x3
line.long 0x00 "ARP32_INT15_IRQSTATUS_RAW,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,settable raw status for event #n Write 0: No action Read 0: No event pending Read 1: Event pending Write 1: Set event (for debug)"
group.long 0x80694++0x3
line.long 0x00 "ARP32_INT15_IRQSTATUS,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,Clearable / enabled status for event #N Write 0: No action Read 0: No (enabled) event pending Read 1: Enabled Event pending Write 1: Clear raw event"
group.long 0x80698++0x3
line.long 0x00 "ARP32_INT15_IRQENABLE_SET,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Enable interrupt"
group.long 0x8069C++0x3
line.long 0x00 "ARP32_INT15_IRQENABLE_CLR,"
hexmask.long 0x00 0.--31. 1. " ENABLE                ,Enable for event #n Write 0: No action Read 0: Interrupt disabled Read 1: Interrupt enabled Write 1: Disable interrupt (i.e. / clear ENABLEn bit)"
rgroup.long 0x80740++0x3
line.long 0x00 "EVE_GPIN0,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,GP Input #n Read 0: GP Input #n is low/0. Read 1: GP Input is high/1."
rgroup.long 0x80744++0x3
line.long 0x00 "EVE_GPIN1,"
hexmask.long 0x00 0.--31. 1. " EVENT                 ,GP Input #n Read 0: GP Input #n is low/0. Read 1: GP Input is high/1."
group.long 0x80780++0x3
line.long 0x00 "EVE_CME_DONE_GPOUT,"
hexmask.long.byte 0x00 0.--7. 1. " EVENT                 ,Internal CME Done Output #n. Write 0: Drive Internal CME Done #n low/1 Read 0: Drive Internal CME Done #n is low/0. Write 1: Drive Internal CME Done #n high/1. Read 1: Internal CME Done is high/1."
group.long 0x80784++0x3
line.long 0x00 "EVE_CME_DONE_GPOUT_SET,"
hexmask.long.byte 0x00 0.--7. 1. " EVENT                 ,Internal CME Done #n Write 0: No action Read 0: Internal CME Done #n is low/0. Write 1: Drive Internal CME Done #n high/1. Read 1: Internal CME Done is high/1."
group.long 0x8078C++0x3
line.long 0x00 "EVE_CME_DONE_GPOUT_PULSE,"
hexmask.long.byte 0x00 0.--7. 1. " EVENT                 ,Internal CME Done #n Write 0: No action Read 0: Internal CME Done #n is low/0. Write 1: Drive Internal CME Done #n high/1 for four cycles / then drive low/0. Read 1: Internal CME Done #n is high/1. Note: Writing to GPOUT registe..."
group.long 0x80790++0x3
line.long 0x00 "EVE_CME_DONE_SEL,"
bitfld.long 0x00 28.--31. " SEL7                  ,CME Done Output select for Bit #7 (n=7) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "            SEL6                 ,CME Done Output select for Bit #6 (n=6) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "            SEL5                 ,CME Done Output select for Bit #5 (n=5)." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                    "
bitfld.long 0x00 16.--19. " SEL4                  ,CME Done Output select for Bit #4 (n=4) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "            SEL3                 ,CME Done Output select for Bit #3 (n=3) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "            SEL2                 ,CME Done Output select for Bit #2 (n=2) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                                    "
bitfld.long 0x00 4.--7. " SEL1                  ,CME Done Output select for Bit #1 (n=1) ." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "            SEL0                 ,CME Done Output select for Bit #0 (n=0) 0: Driven by EDMA cc_int0 1: Driven by EDMA cc_int1 2: Driven by EDMA cc_int2 3: Driven by EDMA cc_int3 4: Driven by EDMA cc_int4 5: Driven by EDMA cc_int5 6: Driven by EDMA cc_i..." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80794++0x3
line.long 0x00 "EVE_CME_DONE_EN,"
hexmask.long.byte 0x00 0.--7. 1. " EN                    ,EVE CME Done EN #n Write 0: No action Read 0: EVE CME Done #n is disabled. Write 1: Enable EVE CME Done #n event. This allows the status of the CME Done #n to propagate to the output. Read 1: EVE CME Done #n is enabled."
rgroup.long 0x80FE0++0x3
line.long 0x00 "EVE_PM_STAT0,"
bitfld.long 0x00 28.--30. " OCPM1_SCONNECT        ,Readable state of OCP Power management handshake" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--25. "             OCPM1_MCONNECT       ,Readable state of OCP Power management handshake" "0,1,2,3"
bitfld.long 0x00 20.--22. "             OCPM0_SCONNECT       ,Readable state of OCP Power management handshake" "0,1,2,3,4,5,6,7"
textline "                                    "
bitfld.long 0x00 16.--17. " OCPM0_MCONNECT        ,Readable state of OCP Power management handshake" "0,1,2,3"
bitfld.long 0x00 12.--14. "             OCPS_SCONNECT        ,Readable state of OCP Power management handshake" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--9. "             OCPS_MCONNECT        ,Readable state of OCP Power management handshake" "0,1,2,3"
textline "                                    "
bitfld.long 0x00 5. " MWAIT                 ,Readable state of OCP Power management handshake" "0,1"
bitfld.long 0x00 4. "             MSTANDBY             ,Readable state of OCP Power management handshake" "0,1"
bitfld.long 0x00 3. "             SWAKEUP              ,Readable state of OCP Power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 1.--2. " SIDLEACK              ,Readable state of OCP Power management handshake" "0,1,2,3"
bitfld.long 0x00 0. "             SIDLEREQ             ,Readable state of OCP Power management handshake" "0,1"
group.long 0x80FE4++0x3
line.long 0x00 "EVE_PM_STAT1,"
bitfld.long 0x00 22.--23. " STBY_MDISCACK_OCPM1   ,Readable state of internal power management handshake" "0,1,2,3"
bitfld.long 0x00 20.--21. "             STBY_MDISCACK_OCPM0  ,Readable state of internal power management handshake" "0,1,2,3"
bitfld.long 0x00 19. "             STBY_MDISCREQ_OCPM1  ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 18. " STBY_MDISCREQ_OCPM0   ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 17. "             IDLE_SDISCONNECT_ACK ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 16. "             IDLE_SDISCONNECT_REQ ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 15. " EVE_IDLE_INTR_DISABLE ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 14. "             TPTC1_MWAIT          ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 13. "             TPTC0_MWAIT          ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 12. " EVE_PCACHE_OCP_BUSY   ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 11. "             EVE_CONTROL_SIDLEACK ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 10. "             SMSET_SIDLEACK       ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 9. " L2_EVE_SIDLEACK       ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 8. "             MMU1_CONFIG_SIDLEACK ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 7. "             MMU1_SIDLEACK        ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 6. " MMU0_CONFIG_SIDLEACK  ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 5. "             MMU0_SIDLEACK        ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 4. "             SCTM_SIDLEACK        ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 3. " TPCC_SIDLEACK         ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 2. "             TPTC1_SIDLEACK       ,Readable state of internal power management handshake" "0,1"
bitfld.long 0x00 1. "             TPTC0_SIDLEACK       ,Readable state of internal power management handshake" "0,1"
textline "                                    "
bitfld.long 0x00 0. " SUBMODULE_IDLE_REQ    ," "0,1"
group.long 0x80FE8++0x3
line.long 0x00 "EVE_DBGOUT,"
hexmask.long.tbyte 0x00 8.--31. 1. " VALUE                 ,Read returns state of eve_dbgout bus."
bitfld.long 0x00 0.--3. "        GROUP                ,Debug Group Output control : mux select 0x0 : disabled / all debug outputs driven to 0x0. 0x1 : select output group1 0x2 : select output group2 : 0xN : select output groupN Others - reserved" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80FF4++0x3
line.long 0x00 "EVE_RSVD0,"
hexmask.long 0x00 0.--31. 1. " VAL                   ,Value; This register is reserved for any necessary ECOs that may be required later in the design cycle."
group.long 0x80FF8++0x3
line.long 0x00 "EVE_RSVD1,"
hexmask.long 0x00 0.--31. 1. " VAL                   ,Value; This register is reserved for any necessary ECOs that may be required later in the design cycle."
group.long 0x80FFC++0x3
line.long 0x00 "EVE_TEST,"
hexmask.long 0x00 0.--31. 1. " VAL                   ,Value; This register is reserved for any necessary ECOs that may be required later in the design cycle."
group.long 0x3E1580788++0x3
line.long 0x00 "EVE_CME_DONE_GPOUT_CLR,"
hexmask.long.byte 0x00 0.--7. 1. " EVENT                 ,Internal CME Done #n Write 0: No action Read 0: Internal CME Done #n is low/0. Write 1: Drive Internal CME Done #n low/0. Read 1: Internal CME Done #n is high/1."
width 0x0B
tree.end
tree "EVE4_L2_FNOC"
base ad:0x4238A000
tree "Channel_0"
width 29.
group.long 0x3E1516100++0x3
line.long 0x00 "ERRLOGGER_i_ERRCLR_0,"
bitfld.long 0x00 0. " ERRCLR        ,Clr ErrVld status" "0,1"
rgroup.long 0x3E1516140++0x3
line.long 0x00 "ERRLOGGER_i_ERRLOG0_0,Header: Lock, Opcode, Len1, ErrCode values"
bitfld.long 0x00 31. " FORMAT        ,Format of ErrLog0 register" "0,1"
hexmask.long.word 0x00 16.--25. 1. "         LEN1       ,Header: Len1 value"
bitfld.long 0x00 8.--10. "  ERRCODE ,Header: Error Code value" "0,1,2,3,4,5,6,7"
textline "                                      "
bitfld.long 0x00 1.--4. " OPC           ,Header: Opcode value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0. "        LOCK       ,Header: Lock bit value" "0,1"
rgroup.long 0x3E1516180++0x3
line.long 0x00 "ERRLOGGER_i_ERRLOG1_0,"
hexmask.long.word 0x00 0.--13. 1. " ERRLOG1       ,Header: RouteId lsb value"
rgroup.long 0x3E1516200++0x3
line.long 0x00 "ERRLOGGER_i_ERRLOG3_0,"
hexmask.long 0x00 0.--31. 1. " ERRLOG3       ,Header: Addr lsb value"
rgroup.long 0x3E1516280++0x3
line.long 0x00 "ERRLOGGER_i_ERRLOG5_0,"
hexmask.long.tbyte 0x00 0.--16. 1. " ERRLOG5       ,Header: User lsb value"
rgroup.long 0x3E15160C0++0x3
line.long 0x00 "ERRLOGGER_i_ERRVLD_0,"
bitfld.long 0x00 0. " ERRVLD        ,Error logged Valid" "0,1"
group.long 0x3E1516080++0x3
line.long 0x00 "ERRLOGGER_i_FAULTEN_0,"
bitfld.long 0x00 0. " FAULTEN       ,Enable Fault output" "0,1"
rgroup.long 0x3E1516000++0x3
line.long 0x00 "ERRLOGGER_i_ID_COREID_0,"
hexmask.long.tbyte 0x00 8.--31. 1. " CORECHECKSUM  ,Field containing a checksum of the parameters of the IP."
hexmask.long.byte 0x00 0.--7. 1. "    CORETYPEID ,Field identifying the type of IP."
rgroup.long 0x3E1516040++0x3
line.long 0x00 "ERRLOGGER_i_ID_REVISIONID_0,"
hexmask.long.tbyte 0x00 8.--31. 1. " FLEXNOCID     ,Field containing the build revision of the software used to generate the IP HDL code."
hexmask.long.byte 0x00 0.--7. 1. "    USERID     ,Field containing a user defined value, not used anywhere inside the IP itself."
group.long 0x3E1517080++0x3
line.long 0x00 "FLAGMUX_i_FAULTEN_0,"
bitfld.long 0x00 0. " FAULTEN       ,Global Fault Enable register" "0,1"
rgroup.long 0x3E15170C0++0x3
line.long 0x00 "FLAGMUX_i_FAULTSTATUS_0,"
bitfld.long 0x00 0. " FAULTSTATUS   ,Global Fault Status register" "0,1"
group.long 0x3E1517100++0x3
line.long 0x00 "FLAGMUX_i_FLAGINEN0_0,"
bitfld.long 0x00 0. " FLAGINEN0     ,FlagIn Enable register #0" "0,1"
rgroup.long 0x3E1517140++0x3
line.long 0x00 "FLAGMUX_i_FLAGINSTATUS0_0,"
bitfld.long 0x00 0. " FLAGINSTATUS0 ,FlagIn Status register #0" "0,1"
rgroup.long 0x3E1517000++0x3
line.long 0x00 "FLAGMUX_i_ID_COREID_0,"
hexmask.long.tbyte 0x00 8.--31. 1. " CORECHECKSUM  ,Field containing a checksum of the parameters of the IP."
hexmask.long.byte 0x00 0.--7. 1. "    CORETYPEID ,Field identifying the type of IP."
rgroup.long 0x3E1517040++0x3
line.long 0x00 "FLAGMUX_i_ID_REVISIONID_0,"
hexmask.long.tbyte 0x00 8.--31. 1. " FLEXNOCID     ,Field containing the build revision of the software used to generate the IP HDL code."
hexmask.long.byte 0x00 0.--7. 1. "    USERID     ,Field containing a user defined value, not used anywhere inside the IP itself."
tree.end
tree "Channel_1"
width 29.
group.long 0x3E1516300++0x3
line.long 0x00 "ERRLOGGER_i_ERRCLR_1,"
bitfld.long 0x00 0. " ERRCLR        ,Clr ErrVld status" "0,1"
rgroup.long 0x3E1516340++0x3
line.long 0x00 "ERRLOGGER_i_ERRLOG0_1,Header: Lock, Opcode, Len1, ErrCode values"
bitfld.long 0x00 31. " FORMAT        ,Format of ErrLog0 register" "0,1"
hexmask.long.word 0x00 16.--25. 1. "         LEN1       ,Header: Len1 value"
bitfld.long 0x00 8.--10. "  ERRCODE ,Header: Error Code value" "0,1,2,3,4,5,6,7"
textline "                                      "
bitfld.long 0x00 1.--4. " OPC           ,Header: Opcode value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0. "        LOCK       ,Header: Lock bit value" "0,1"
rgroup.long 0x3E1516380++0x3
line.long 0x00 "ERRLOGGER_i_ERRLOG1_1,"
hexmask.long.word 0x00 0.--13. 1. " ERRLOG1       ,Header: RouteId lsb value"
rgroup.long 0x3E1516400++0x3
line.long 0x00 "ERRLOGGER_i_ERRLOG3_1,"
hexmask.long 0x00 0.--31. 1. " ERRLOG3       ,Header: Addr lsb value"
rgroup.long 0x3E1516480++0x3
line.long 0x00 "ERRLOGGER_i_ERRLOG5_1,"
hexmask.long.tbyte 0x00 0.--16. 1. " ERRLOG5       ,Header: User lsb value"
rgroup.long 0x3E15162C0++0x3
line.long 0x00 "ERRLOGGER_i_ERRVLD_1,"
bitfld.long 0x00 0. " ERRVLD        ,Error logged Valid" "0,1"
group.long 0x3E1516280++0x3
line.long 0x00 "ERRLOGGER_i_FAULTEN_1,"
bitfld.long 0x00 0. " FAULTEN       ,Enable Fault output" "0,1"
rgroup.long 0x3E1516200++0x3
line.long 0x00 "ERRLOGGER_i_ID_COREID_1,"
hexmask.long.tbyte 0x00 8.--31. 1. " CORECHECKSUM  ,Field containing a checksum of the parameters of the IP."
hexmask.long.byte 0x00 0.--7. 1. "    CORETYPEID ,Field identifying the type of IP."
rgroup.long 0x3E1516240++0x3
line.long 0x00 "ERRLOGGER_i_ID_REVISIONID_1,"
hexmask.long.tbyte 0x00 8.--31. 1. " FLEXNOCID     ,Field containing the build revision of the software used to generate the IP HDL code."
hexmask.long.byte 0x00 0.--7. 1. "    USERID     ,Field containing a user defined value, not used anywhere inside the IP itself."
group.long 0x3E1517280++0x3
line.long 0x00 "FLAGMUX_i_FAULTEN_1,"
bitfld.long 0x00 0. " FAULTEN       ,Global Fault Enable register" "0,1"
rgroup.long 0x3E15172C0++0x3
line.long 0x00 "FLAGMUX_i_FAULTSTATUS_1,"
bitfld.long 0x00 0. " FAULTSTATUS   ,Global Fault Status register" "0,1"
group.long 0x3E1517300++0x3
line.long 0x00 "FLAGMUX_i_FLAGINEN0_1,"
bitfld.long 0x00 0. " FLAGINEN0     ,FlagIn Enable register #0" "0,1"
rgroup.long 0x3E1517340++0x3
line.long 0x00 "FLAGMUX_i_FLAGINSTATUS0_1,"
bitfld.long 0x00 0. " FLAGINSTATUS0 ,FlagIn Status register #0" "0,1"
rgroup.long 0x3E1517200++0x3
line.long 0x00 "FLAGMUX_i_ID_COREID_1,"
hexmask.long.tbyte 0x00 8.--31. 1. " CORECHECKSUM  ,Field containing a checksum of the parameters of the IP."
hexmask.long.byte 0x00 0.--7. 1. "    CORETYPEID ,Field identifying the type of IP."
rgroup.long 0x3E1517240++0x3
line.long 0x00 "FLAGMUX_i_ID_REVISIONID_1,"
hexmask.long.tbyte 0x00 8.--31. 1. " FLEXNOCID     ,Field containing the build revision of the software used to generate the IP HDL code."
hexmask.long.byte 0x00 0.--7. 1. "    USERID     ,Field containing a user defined value, not used anywhere inside the IP itself."
tree.end
width 0x0B
tree.end
tree.open "EVE1_SCTM"
tree "EVE1_SCTM"
base ad:0x42085000
tree "Channel_0"
width 19.
rgroup.long 0x180++0x3
line.long 0x00 "SCTM_CTCNTR_k_0,These registers contain the value of an individual counter in the moduel. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x108++0x3
line.long 0x00 "SCTM_CTCR_WOT_n_0,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match" "0,1"
bitfld.long 0x00 9. "  DBG   ,Signal debug logic on interval match" "0,1"
textline "                            "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match" "0,1"
bitfld.long 0x00 6. "         OVRFLW  ,Counter has wrapped since it was last read" "0,1"
bitfld.long 0x00 5. "  IDLE  ,Counter ignores processor IDLE state" "0,1"
textline "                            "
bitfld.long 0x00 4. " FREE     ,Counter ignores processor debug halt state" "0,1"
bitfld.long 0x00 3. "         DURMODE ,Counter is in duration or occurrence mode" "0,1"
bitfld.long 0x00 2. "  CHAIN ,Counter is chained to an adjacent counter" "0,1"
textline "                            "
bitfld.long 0x00 1. " RESET    ,Counter reset control" "0,1"
bitfld.long 0x00 0. "         ENBL    ,Counter enable control" "0,1"
group.long 0x100++0x3
line.long 0x00 "SCTM_CTCR_WT_m_0,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WT: with timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match" "0,1"
bitfld.long 0x00 9. "  DBG   ,Signal debug logic on interval match" "0,1"
textline "                            "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match" "0,1"
bitfld.long 0x00 6. "         OVRFLW  ,Counter has wrapped since it was last read" "0,1"
bitfld.long 0x00 5. "  IDLE  ,Counter ignores processor IDLE state" "0,1"
textline "                            "
bitfld.long 0x00 4. " FREE     ,Counter ignores processor debug halt state" "0,1"
bitfld.long 0x00 3. "         DURMODE ,Counter is in duration or occurrence mode" "0,1"
bitfld.long 0x00 2. "  CHAIN ,Counter is chained to an adjacent counter" "0,1"
textline "                            "
bitfld.long 0x00 1. " RESET    ,Counter reset control" "0,1"
bitfld.long 0x00 0. "         ENBL    ,Counter enable control" "0,1"
group.long 0x40++0x3
line.long 0x00 "SCTM_TINTVLR_i_0,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
tree "Channel_1"
width 19.
rgroup.long 0x184++0x3
line.long 0x00 "SCTM_CTCNTR_k_1,These registers contain the value of an individual counter in the moduel. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x10C++0x3
line.long 0x00 "SCTM_CTCR_WOT_n_1,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match" "0,1"
bitfld.long 0x00 9. "  DBG   ,Signal debug logic on interval match" "0,1"
textline "                            "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match" "0,1"
bitfld.long 0x00 6. "         OVRFLW  ,Counter has wrapped since it was last read" "0,1"
bitfld.long 0x00 5. "  IDLE  ,Counter ignores processor IDLE state" "0,1"
textline "                            "
bitfld.long 0x00 4. " FREE     ,Counter ignores processor debug halt state" "0,1"
bitfld.long 0x00 3. "         DURMODE ,Counter is in duration or occurrence mode" "0,1"
bitfld.long 0x00 2. "  CHAIN ,Counter is chained to an adjacent counter" "0,1"
textline "                            "
bitfld.long 0x00 1. " RESET    ,Counter reset control" "0,1"
bitfld.long 0x00 0. "         ENBL    ,Counter enable control" "0,1"
group.long 0x104++0x3
line.long 0x00 "SCTM_CTCR_WT_m_1,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WT: with timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match" "0,1"
bitfld.long 0x00 9. "  DBG   ,Signal debug logic on interval match" "0,1"
textline "                            "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match" "0,1"
bitfld.long 0x00 6. "         OVRFLW  ,Counter has wrapped since it was last read" "0,1"
bitfld.long 0x00 5. "  IDLE  ,Counter ignores processor IDLE state" "0,1"
textline "                            "
bitfld.long 0x00 4. " FREE     ,Counter ignores processor debug halt state" "0,1"
bitfld.long 0x00 3. "         DURMODE ,Counter is in duration or occurrence mode" "0,1"
bitfld.long 0x00 2. "  CHAIN ,Counter is chained to an adjacent counter" "0,1"
textline "                            "
bitfld.long 0x00 1. " RESET    ,Counter reset control" "0,1"
bitfld.long 0x00 0. "         ENBL    ,Counter enable control" "0,1"
group.long 0x44++0x3
line.long 0x00 "SCTM_TINTVLR_i_1,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
tree "Channel_2"
width 19.
rgroup.long 0x188++0x3
line.long 0x00 "SCTM_CTCNTR_k_2,These registers contain the value of an individual counter in the moduel. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x110++0x3
line.long 0x00 "SCTM_CTCR_WOT_n_2,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match" "0,1"
bitfld.long 0x00 9. "  DBG   ,Signal debug logic on interval match" "0,1"
textline "                            "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match" "0,1"
bitfld.long 0x00 6. "         OVRFLW  ,Counter has wrapped since it was last read" "0,1"
bitfld.long 0x00 5. "  IDLE  ,Counter ignores processor IDLE state" "0,1"
textline "                            "
bitfld.long 0x00 4. " FREE     ,Counter ignores processor debug halt state" "0,1"
bitfld.long 0x00 3. "         DURMODE ,Counter is in duration or occurrence mode" "0,1"
bitfld.long 0x00 2. "  CHAIN ,Counter is chained to an adjacent counter" "0,1"
textline "                            "
bitfld.long 0x00 1. " RESET    ,Counter reset control" "0,1"
bitfld.long 0x00 0. "         ENBL    ,Counter enable control" "0,1"
group.long 0x48++0x3
line.long 0x00 "SCTM_TINTVLR_i_2,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
tree "Channel_3"
width 19.
rgroup.long 0x18C++0x3
line.long 0x00 "SCTM_CTCNTR_k_3,These registers contain the value of an individual counter in the moduel. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x114++0x3
line.long 0x00 "SCTM_CTCR_WOT_n_3,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match" "0,1"
bitfld.long 0x00 9. "  DBG   ,Signal debug logic on interval match" "0,1"
textline "                            "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match" "0,1"
bitfld.long 0x00 6. "         OVRFLW  ,Counter has wrapped since it was last read" "0,1"
bitfld.long 0x00 5. "  IDLE  ,Counter ignores processor IDLE state" "0,1"
textline "                            "
bitfld.long 0x00 4. " FREE     ,Counter ignores processor debug halt state" "0,1"
bitfld.long 0x00 3. "         DURMODE ,Counter is in duration or occurrence mode" "0,1"
bitfld.long 0x00 2. "  CHAIN ,Counter is chained to an adjacent counter" "0,1"
textline "                            "
bitfld.long 0x00 1. " RESET    ,Counter reset control" "0,1"
bitfld.long 0x00 0. "         ENBL    ,Counter enable control" "0,1"
group.long 0x4C++0x3
line.long 0x00 "SCTM_TINTVLR_i_3,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
tree "Channel_4"
width 19.
rgroup.long 0x190++0x3
line.long 0x00 "SCTM_CTCNTR_k_4,These registers contain the value of an individual counter in the moduel. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x118++0x3
line.long 0x00 "SCTM_CTCR_WOT_n_4,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match" "0,1"
bitfld.long 0x00 9. "  DBG   ,Signal debug logic on interval match" "0,1"
textline "                            "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match" "0,1"
bitfld.long 0x00 6. "         OVRFLW  ,Counter has wrapped since it was last read" "0,1"
bitfld.long 0x00 5. "  IDLE  ,Counter ignores processor IDLE state" "0,1"
textline "                            "
bitfld.long 0x00 4. " FREE     ,Counter ignores processor debug halt state" "0,1"
bitfld.long 0x00 3. "         DURMODE ,Counter is in duration or occurrence mode" "0,1"
bitfld.long 0x00 2. "  CHAIN ,Counter is chained to an adjacent counter" "0,1"
textline "                            "
bitfld.long 0x00 1. " RESET    ,Counter reset control" "0,1"
bitfld.long 0x00 0. "         ENBL    ,Counter enable control" "0,1"
group.long 0x50++0x3
line.long 0x00 "SCTM_TINTVLR_i_4,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
tree "Channel_5"
width 19.
rgroup.long 0x194++0x3
line.long 0x00 "SCTM_CTCNTR_k_5,These registers contain the value of an individual counter in the moduel. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x11C++0x3
line.long 0x00 "SCTM_CTCR_WOT_n_5,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match" "0,1"
bitfld.long 0x00 9. "  DBG   ,Signal debug logic on interval match" "0,1"
textline "                            "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match" "0,1"
bitfld.long 0x00 6. "         OVRFLW  ,Counter has wrapped since it was last read" "0,1"
bitfld.long 0x00 5. "  IDLE  ,Counter ignores processor IDLE state" "0,1"
textline "                            "
bitfld.long 0x00 4. " FREE     ,Counter ignores processor debug halt state" "0,1"
bitfld.long 0x00 3. "         DURMODE ,Counter is in duration or occurrence mode" "0,1"
bitfld.long 0x00 2. "  CHAIN ,Counter is chained to an adjacent counter" "0,1"
textline "                            "
bitfld.long 0x00 1. " RESET    ,Counter reset control" "0,1"
bitfld.long 0x00 0. "         ENBL    ,Counter enable control" "0,1"
group.long 0x54++0x3
line.long 0x00 "SCTM_TINTVLR_i_5,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
tree "Channel_6"
width 18.
rgroup.long 0x198++0x3
line.long 0x00 "SCTM_CTCNTR_k_6,These registers contain the value of an individual counter in the moduel. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x58++0x3
line.long 0x00 "SCTM_TINTVLR_i_6,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
tree "Channel_7"
width 18.
rgroup.long 0x19C++0x3
line.long 0x00 "SCTM_CTCNTR_k_7,These registers contain the value of an individual counter in the moduel. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x5C++0x3
line.long 0x00 "SCTM_TINTVLR_i_7,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
textline ""
width 17.
group.long 0x0++0x3
line.long 0x00 "SCTM_CTCNTL,"
bitfld.long 0x00 26.--31. " NUMSTM   ,Number of timers that can export through STM" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 18.--25. 1. "        NUMINPT  ,Number of event input signals"
bitfld.long 0x00 13.--17. "  NUMTIMR  ,Number of timers in the module" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                          "
bitfld.long 0x00 7.--12. " NUMCNTR  ,Number of counters in the module" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 3.--6. "        REVID    ,Revision ID of SCTM" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 1.--2. "  IDLEMODE ,Idle mode control 0x0: Force Idle mode 0x1: Ths SCTM will acknoledge the idle request, but never transition to the idle state 0x3: Since the SCTM does not support internal wakeup, this mode is identical to smart_idle 0x2: Ths SCTM uses the ..." "0,1,2,3"
textline "                          "
bitfld.long 0x00 0. " ENBL     ,SCTM global enable - DISABLE. - ENABLE." "DISABLE,ENABLE"
group.long 0x20++0x3
line.long 0x00 "SCTM_CTSTMCNTL,This register contains the control and status settings for STM export"
bitfld.long 0x00 10. " XPORTACT ,Indicates if a frame is currently being written to the STM" "0,1"
bitfld.long 0x00 5.--9. "         NUMXPORT ,The total number of counters designated for export. this will be used as the count in the CSM and CCM headers. The value written should be the total number of counters designated for export -1" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 4. "  CCMXPORT ,SW control of CCM message export" "0,1"
textline "                          "
bitfld.long 0x00 3. " CCMVAIL  ,SCTM supports CCM export" "0,1"
bitfld.long 0x00 2. "         CSMXPORT ,SW control of CSM message export" "0,1"
bitfld.long 0x00 1. "   SENDOVR  ,Send overflow data in CSM frame" "0,1"
textline "                          "
bitfld.long 0x00 0. " ENBL     ,STM global enable - DISABLE. - ENABLE." "DISABLE,ENABLE"
group.long 0x24++0x3
line.long 0x00 "SCTM_CTSTMMSTID,"
hexmask.long.byte 0x00 0.--6. 1. " MASTID   ,HW Master ID for this module."
group.long 0x28++0x3
line.long 0x00 "SCTM_CTSTMINTVL,"
hexmask.long.word 0x00 0.--15. 1. " INTERVAL ,Periodic export interval"
group.long 0x2C++0x3
line.long 0x00 "SCTM_CTSTMSEL,These registers mark the counters selected for export in the CSM"
hexmask.long 0x00 0.--31. 1. " COUNTSEL ,The counter selection bit field"
rgroup.long 0x7C++0x3
line.long 0x00 "SCTM_CTDBGNUM,Counter Timer Number Debug Event Register"
bitfld.long 0x00 0.--2. " NUMEVT   ,Number of input selectors for debug events" "0,1,2,3,4,5,6,7"
group.long 0x80++0x3
line.long 0x00 "SCTM_CTDBGEVT,Counter Timer Debug Event Register"
hexmask.long.byte 0x00 0.--7. 1. " INPSEL   ,Index of event input signal on the module boundary"
group.long 0xF0++0x3
line.long 0x00 "SCTM_CTGNBL,These registers provide for simultaneous enable/disable of 32 counters"
hexmask.long.byte 0x00 0.--7. 1. " ENABLE   ,The counter enable bit field"
group.long 0xF8++0x3
line.long 0x00 "SCTM_CTGRST,These registers provide for simultaneous reset of 32 counters"
hexmask.long.byte 0x00 0.--7. 1. " RESET    ,The counter reset bit field"
width 0x0B
tree.end
tree "EVE2_SCTM"
base ad:0x42185000
tree "Channel_0"
width 19.
rgroup.long 0x180++0x3
line.long 0x00 "SCTM_CTCNTR_k_0,These registers contain the value of an individual counter in the moduel. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x108++0x3
line.long 0x00 "SCTM_CTCR_WOT_n_0,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match" "0,1"
bitfld.long 0x00 9. "  DBG   ,Signal debug logic on interval match" "0,1"
textline "                            "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match" "0,1"
bitfld.long 0x00 6. "         OVRFLW  ,Counter has wrapped since it was last read" "0,1"
bitfld.long 0x00 5. "  IDLE  ,Counter ignores processor IDLE state" "0,1"
textline "                            "
bitfld.long 0x00 4. " FREE     ,Counter ignores processor debug halt state" "0,1"
bitfld.long 0x00 3. "         DURMODE ,Counter is in duration or occurrence mode" "0,1"
bitfld.long 0x00 2. "  CHAIN ,Counter is chained to an adjacent counter" "0,1"
textline "                            "
bitfld.long 0x00 1. " RESET    ,Counter reset control" "0,1"
bitfld.long 0x00 0. "         ENBL    ,Counter enable control" "0,1"
group.long 0x100++0x3
line.long 0x00 "SCTM_CTCR_WT_m_0,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WT: with timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match" "0,1"
bitfld.long 0x00 9. "  DBG   ,Signal debug logic on interval match" "0,1"
textline "                            "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match" "0,1"
bitfld.long 0x00 6. "         OVRFLW  ,Counter has wrapped since it was last read" "0,1"
bitfld.long 0x00 5. "  IDLE  ,Counter ignores processor IDLE state" "0,1"
textline "                            "
bitfld.long 0x00 4. " FREE     ,Counter ignores processor debug halt state" "0,1"
bitfld.long 0x00 3. "         DURMODE ,Counter is in duration or occurrence mode" "0,1"
bitfld.long 0x00 2. "  CHAIN ,Counter is chained to an adjacent counter" "0,1"
textline "                            "
bitfld.long 0x00 1. " RESET    ,Counter reset control" "0,1"
bitfld.long 0x00 0. "         ENBL    ,Counter enable control" "0,1"
group.long 0x40++0x3
line.long 0x00 "SCTM_TINTVLR_i_0,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
tree "Channel_1"
width 19.
rgroup.long 0x184++0x3
line.long 0x00 "SCTM_CTCNTR_k_1,These registers contain the value of an individual counter in the moduel. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x10C++0x3
line.long 0x00 "SCTM_CTCR_WOT_n_1,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match" "0,1"
bitfld.long 0x00 9. "  DBG   ,Signal debug logic on interval match" "0,1"
textline "                            "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match" "0,1"
bitfld.long 0x00 6. "         OVRFLW  ,Counter has wrapped since it was last read" "0,1"
bitfld.long 0x00 5. "  IDLE  ,Counter ignores processor IDLE state" "0,1"
textline "                            "
bitfld.long 0x00 4. " FREE     ,Counter ignores processor debug halt state" "0,1"
bitfld.long 0x00 3. "         DURMODE ,Counter is in duration or occurrence mode" "0,1"
bitfld.long 0x00 2. "  CHAIN ,Counter is chained to an adjacent counter" "0,1"
textline "                            "
bitfld.long 0x00 1. " RESET    ,Counter reset control" "0,1"
bitfld.long 0x00 0. "         ENBL    ,Counter enable control" "0,1"
group.long 0x104++0x3
line.long 0x00 "SCTM_CTCR_WT_m_1,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WT: with timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match" "0,1"
bitfld.long 0x00 9. "  DBG   ,Signal debug logic on interval match" "0,1"
textline "                            "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match" "0,1"
bitfld.long 0x00 6. "         OVRFLW  ,Counter has wrapped since it was last read" "0,1"
bitfld.long 0x00 5. "  IDLE  ,Counter ignores processor IDLE state" "0,1"
textline "                            "
bitfld.long 0x00 4. " FREE     ,Counter ignores processor debug halt state" "0,1"
bitfld.long 0x00 3. "         DURMODE ,Counter is in duration or occurrence mode" "0,1"
bitfld.long 0x00 2. "  CHAIN ,Counter is chained to an adjacent counter" "0,1"
textline "                            "
bitfld.long 0x00 1. " RESET    ,Counter reset control" "0,1"
bitfld.long 0x00 0. "         ENBL    ,Counter enable control" "0,1"
group.long 0x44++0x3
line.long 0x00 "SCTM_TINTVLR_i_1,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
tree "Channel_2"
width 19.
rgroup.long 0x188++0x3
line.long 0x00 "SCTM_CTCNTR_k_2,These registers contain the value of an individual counter in the moduel. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x110++0x3
line.long 0x00 "SCTM_CTCR_WOT_n_2,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match" "0,1"
bitfld.long 0x00 9. "  DBG   ,Signal debug logic on interval match" "0,1"
textline "                            "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match" "0,1"
bitfld.long 0x00 6. "         OVRFLW  ,Counter has wrapped since it was last read" "0,1"
bitfld.long 0x00 5. "  IDLE  ,Counter ignores processor IDLE state" "0,1"
textline "                            "
bitfld.long 0x00 4. " FREE     ,Counter ignores processor debug halt state" "0,1"
bitfld.long 0x00 3. "         DURMODE ,Counter is in duration or occurrence mode" "0,1"
bitfld.long 0x00 2. "  CHAIN ,Counter is chained to an adjacent counter" "0,1"
textline "                            "
bitfld.long 0x00 1. " RESET    ,Counter reset control" "0,1"
bitfld.long 0x00 0. "         ENBL    ,Counter enable control" "0,1"
group.long 0x48++0x3
line.long 0x00 "SCTM_TINTVLR_i_2,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
tree "Channel_3"
width 19.
rgroup.long 0x18C++0x3
line.long 0x00 "SCTM_CTCNTR_k_3,These registers contain the value of an individual counter in the moduel. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x114++0x3
line.long 0x00 "SCTM_CTCR_WOT_n_3,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match" "0,1"
bitfld.long 0x00 9. "  DBG   ,Signal debug logic on interval match" "0,1"
textline "                            "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match" "0,1"
bitfld.long 0x00 6. "         OVRFLW  ,Counter has wrapped since it was last read" "0,1"
bitfld.long 0x00 5. "  IDLE  ,Counter ignores processor IDLE state" "0,1"
textline "                            "
bitfld.long 0x00 4. " FREE     ,Counter ignores processor debug halt state" "0,1"
bitfld.long 0x00 3. "         DURMODE ,Counter is in duration or occurrence mode" "0,1"
bitfld.long 0x00 2. "  CHAIN ,Counter is chained to an adjacent counter" "0,1"
textline "                            "
bitfld.long 0x00 1. " RESET    ,Counter reset control" "0,1"
bitfld.long 0x00 0. "         ENBL    ,Counter enable control" "0,1"
group.long 0x4C++0x3
line.long 0x00 "SCTM_TINTVLR_i_3,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
tree "Channel_4"
width 19.
rgroup.long 0x190++0x3
line.long 0x00 "SCTM_CTCNTR_k_4,These registers contain the value of an individual counter in the moduel. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x118++0x3
line.long 0x00 "SCTM_CTCR_WOT_n_4,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match" "0,1"
bitfld.long 0x00 9. "  DBG   ,Signal debug logic on interval match" "0,1"
textline "                            "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match" "0,1"
bitfld.long 0x00 6. "         OVRFLW  ,Counter has wrapped since it was last read" "0,1"
bitfld.long 0x00 5. "  IDLE  ,Counter ignores processor IDLE state" "0,1"
textline "                            "
bitfld.long 0x00 4. " FREE     ,Counter ignores processor debug halt state" "0,1"
bitfld.long 0x00 3. "         DURMODE ,Counter is in duration or occurrence mode" "0,1"
bitfld.long 0x00 2. "  CHAIN ,Counter is chained to an adjacent counter" "0,1"
textline "                            "
bitfld.long 0x00 1. " RESET    ,Counter reset control" "0,1"
bitfld.long 0x00 0. "         ENBL    ,Counter enable control" "0,1"
group.long 0x50++0x3
line.long 0x00 "SCTM_TINTVLR_i_4,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
tree "Channel_5"
width 19.
rgroup.long 0x194++0x3
line.long 0x00 "SCTM_CTCNTR_k_5,These registers contain the value of an individual counter in the moduel. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x11C++0x3
line.long 0x00 "SCTM_CTCR_WOT_n_5,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match" "0,1"
bitfld.long 0x00 9. "  DBG   ,Signal debug logic on interval match" "0,1"
textline "                            "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match" "0,1"
bitfld.long 0x00 6. "         OVRFLW  ,Counter has wrapped since it was last read" "0,1"
bitfld.long 0x00 5. "  IDLE  ,Counter ignores processor IDLE state" "0,1"
textline "                            "
bitfld.long 0x00 4. " FREE     ,Counter ignores processor debug halt state" "0,1"
bitfld.long 0x00 3. "         DURMODE ,Counter is in duration or occurrence mode" "0,1"
bitfld.long 0x00 2. "  CHAIN ,Counter is chained to an adjacent counter" "0,1"
textline "                            "
bitfld.long 0x00 1. " RESET    ,Counter reset control" "0,1"
bitfld.long 0x00 0. "         ENBL    ,Counter enable control" "0,1"
group.long 0x54++0x3
line.long 0x00 "SCTM_TINTVLR_i_5,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
tree "Channel_6"
width 18.
rgroup.long 0x198++0x3
line.long 0x00 "SCTM_CTCNTR_k_6,These registers contain the value of an individual counter in the moduel. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x58++0x3
line.long 0x00 "SCTM_TINTVLR_i_6,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
tree "Channel_7"
width 18.
rgroup.long 0x19C++0x3
line.long 0x00 "SCTM_CTCNTR_k_7,These registers contain the value of an individual counter in the moduel. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x5C++0x3
line.long 0x00 "SCTM_TINTVLR_i_7,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
textline ""
width 17.
group.long 0x0++0x3
line.long 0x00 "SCTM_CTCNTL,"
bitfld.long 0x00 26.--31. " NUMSTM   ,Number of timers that can export through STM" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 18.--25. 1. "        NUMINPT  ,Number of event input signals"
bitfld.long 0x00 13.--17. "  NUMTIMR  ,Number of timers in the module" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                          "
bitfld.long 0x00 7.--12. " NUMCNTR  ,Number of counters in the module" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 3.--6. "        REVID    ,Revision ID of SCTM" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 1.--2. "  IDLEMODE ,Idle mode control 0x0: Force Idle mode 0x1: Ths SCTM will acknoledge the idle request, but never transition to the idle state 0x3: Since the SCTM does not support internal wakeup, this mode is identical to smart_idle 0x2: Ths SCTM uses the ..." "0,1,2,3"
textline "                          "
bitfld.long 0x00 0. " ENBL     ,SCTM global enable - DISABLE. - ENABLE." "DISABLE,ENABLE"
group.long 0x20++0x3
line.long 0x00 "SCTM_CTSTMCNTL,This register contains the control and status settings for STM export"
bitfld.long 0x00 10. " XPORTACT ,Indicates if a frame is currently being written to the STM" "0,1"
bitfld.long 0x00 5.--9. "         NUMXPORT ,The total number of counters designated for export. this will be used as the count in the CSM and CCM headers. The value written should be the total number of counters designated for export -1" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 4. "  CCMXPORT ,SW control of CCM message export" "0,1"
textline "                          "
bitfld.long 0x00 3. " CCMVAIL  ,SCTM supports CCM export" "0,1"
bitfld.long 0x00 2. "         CSMXPORT ,SW control of CSM message export" "0,1"
bitfld.long 0x00 1. "   SENDOVR  ,Send overflow data in CSM frame" "0,1"
textline "                          "
bitfld.long 0x00 0. " ENBL     ,STM global enable - DISABLE. - ENABLE." "DISABLE,ENABLE"
group.long 0x24++0x3
line.long 0x00 "SCTM_CTSTMMSTID,"
hexmask.long.byte 0x00 0.--6. 1. " MASTID   ,HW Master ID for this module."
group.long 0x28++0x3
line.long 0x00 "SCTM_CTSTMINTVL,"
hexmask.long.word 0x00 0.--15. 1. " INTERVAL ,Periodic export interval"
group.long 0x2C++0x3
line.long 0x00 "SCTM_CTSTMSEL,These registers mark the counters selected for export in the CSM"
hexmask.long 0x00 0.--31. 1. " COUNTSEL ,The counter selection bit field"
rgroup.long 0x7C++0x3
line.long 0x00 "SCTM_CTDBGNUM,Counter Timer Number Debug Event Register"
bitfld.long 0x00 0.--2. " NUMEVT   ,Number of input selectors for debug events" "0,1,2,3,4,5,6,7"
group.long 0x80++0x3
line.long 0x00 "SCTM_CTDBGEVT,Counter Timer Debug Event Register"
hexmask.long.byte 0x00 0.--7. 1. " INPSEL   ,Index of event input signal on the module boundary"
group.long 0xF0++0x3
line.long 0x00 "SCTM_CTGNBL,These registers provide for simultaneous enable/disable of 32 counters"
hexmask.long.byte 0x00 0.--7. 1. " ENABLE   ,The counter enable bit field"
group.long 0xF8++0x3
line.long 0x00 "SCTM_CTGRST,These registers provide for simultaneous reset of 32 counters"
hexmask.long.byte 0x00 0.--7. 1. " RESET    ,The counter reset bit field"
width 0x0B
tree.end
tree "EVE3_SCTM"
base ad:0x42285000
tree "Channel_0"
width 19.
rgroup.long 0x180++0x3
line.long 0x00 "SCTM_CTCNTR_k_0,These registers contain the value of an individual counter in the moduel. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x108++0x3
line.long 0x00 "SCTM_CTCR_WOT_n_0,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match" "0,1"
bitfld.long 0x00 9. "  DBG   ,Signal debug logic on interval match" "0,1"
textline "                            "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match" "0,1"
bitfld.long 0x00 6. "         OVRFLW  ,Counter has wrapped since it was last read" "0,1"
bitfld.long 0x00 5. "  IDLE  ,Counter ignores processor IDLE state" "0,1"
textline "                            "
bitfld.long 0x00 4. " FREE     ,Counter ignores processor debug halt state" "0,1"
bitfld.long 0x00 3. "         DURMODE ,Counter is in duration or occurrence mode" "0,1"
bitfld.long 0x00 2. "  CHAIN ,Counter is chained to an adjacent counter" "0,1"
textline "                            "
bitfld.long 0x00 1. " RESET    ,Counter reset control" "0,1"
bitfld.long 0x00 0. "         ENBL    ,Counter enable control" "0,1"
group.long 0x100++0x3
line.long 0x00 "SCTM_CTCR_WT_m_0,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WT: with timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match" "0,1"
bitfld.long 0x00 9. "  DBG   ,Signal debug logic on interval match" "0,1"
textline "                            "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match" "0,1"
bitfld.long 0x00 6. "         OVRFLW  ,Counter has wrapped since it was last read" "0,1"
bitfld.long 0x00 5. "  IDLE  ,Counter ignores processor IDLE state" "0,1"
textline "                            "
bitfld.long 0x00 4. " FREE     ,Counter ignores processor debug halt state" "0,1"
bitfld.long 0x00 3. "         DURMODE ,Counter is in duration or occurrence mode" "0,1"
bitfld.long 0x00 2. "  CHAIN ,Counter is chained to an adjacent counter" "0,1"
textline "                            "
bitfld.long 0x00 1. " RESET    ,Counter reset control" "0,1"
bitfld.long 0x00 0. "         ENBL    ,Counter enable control" "0,1"
group.long 0x40++0x3
line.long 0x00 "SCTM_TINTVLR_i_0,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
tree "Channel_1"
width 19.
rgroup.long 0x184++0x3
line.long 0x00 "SCTM_CTCNTR_k_1,These registers contain the value of an individual counter in the moduel. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x10C++0x3
line.long 0x00 "SCTM_CTCR_WOT_n_1,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match" "0,1"
bitfld.long 0x00 9. "  DBG   ,Signal debug logic on interval match" "0,1"
textline "                            "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match" "0,1"
bitfld.long 0x00 6. "         OVRFLW  ,Counter has wrapped since it was last read" "0,1"
bitfld.long 0x00 5. "  IDLE  ,Counter ignores processor IDLE state" "0,1"
textline "                            "
bitfld.long 0x00 4. " FREE     ,Counter ignores processor debug halt state" "0,1"
bitfld.long 0x00 3. "         DURMODE ,Counter is in duration or occurrence mode" "0,1"
bitfld.long 0x00 2. "  CHAIN ,Counter is chained to an adjacent counter" "0,1"
textline "                            "
bitfld.long 0x00 1. " RESET    ,Counter reset control" "0,1"
bitfld.long 0x00 0. "         ENBL    ,Counter enable control" "0,1"
group.long 0x104++0x3
line.long 0x00 "SCTM_CTCR_WT_m_1,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WT: with timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match" "0,1"
bitfld.long 0x00 9. "  DBG   ,Signal debug logic on interval match" "0,1"
textline "                            "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match" "0,1"
bitfld.long 0x00 6. "         OVRFLW  ,Counter has wrapped since it was last read" "0,1"
bitfld.long 0x00 5. "  IDLE  ,Counter ignores processor IDLE state" "0,1"
textline "                            "
bitfld.long 0x00 4. " FREE     ,Counter ignores processor debug halt state" "0,1"
bitfld.long 0x00 3. "         DURMODE ,Counter is in duration or occurrence mode" "0,1"
bitfld.long 0x00 2. "  CHAIN ,Counter is chained to an adjacent counter" "0,1"
textline "                            "
bitfld.long 0x00 1. " RESET    ,Counter reset control" "0,1"
bitfld.long 0x00 0. "         ENBL    ,Counter enable control" "0,1"
group.long 0x44++0x3
line.long 0x00 "SCTM_TINTVLR_i_1,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
tree "Channel_2"
width 19.
rgroup.long 0x188++0x3
line.long 0x00 "SCTM_CTCNTR_k_2,These registers contain the value of an individual counter in the moduel. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x110++0x3
line.long 0x00 "SCTM_CTCR_WOT_n_2,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match" "0,1"
bitfld.long 0x00 9. "  DBG   ,Signal debug logic on interval match" "0,1"
textline "                            "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match" "0,1"
bitfld.long 0x00 6. "         OVRFLW  ,Counter has wrapped since it was last read" "0,1"
bitfld.long 0x00 5. "  IDLE  ,Counter ignores processor IDLE state" "0,1"
textline "                            "
bitfld.long 0x00 4. " FREE     ,Counter ignores processor debug halt state" "0,1"
bitfld.long 0x00 3. "         DURMODE ,Counter is in duration or occurrence mode" "0,1"
bitfld.long 0x00 2. "  CHAIN ,Counter is chained to an adjacent counter" "0,1"
textline "                            "
bitfld.long 0x00 1. " RESET    ,Counter reset control" "0,1"
bitfld.long 0x00 0. "         ENBL    ,Counter enable control" "0,1"
group.long 0x48++0x3
line.long 0x00 "SCTM_TINTVLR_i_2,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
tree "Channel_3"
width 19.
rgroup.long 0x18C++0x3
line.long 0x00 "SCTM_CTCNTR_k_3,These registers contain the value of an individual counter in the moduel. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x114++0x3
line.long 0x00 "SCTM_CTCR_WOT_n_3,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match" "0,1"
bitfld.long 0x00 9. "  DBG   ,Signal debug logic on interval match" "0,1"
textline "                            "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match" "0,1"
bitfld.long 0x00 6. "         OVRFLW  ,Counter has wrapped since it was last read" "0,1"
bitfld.long 0x00 5. "  IDLE  ,Counter ignores processor IDLE state" "0,1"
textline "                            "
bitfld.long 0x00 4. " FREE     ,Counter ignores processor debug halt state" "0,1"
bitfld.long 0x00 3. "         DURMODE ,Counter is in duration or occurrence mode" "0,1"
bitfld.long 0x00 2. "  CHAIN ,Counter is chained to an adjacent counter" "0,1"
textline "                            "
bitfld.long 0x00 1. " RESET    ,Counter reset control" "0,1"
bitfld.long 0x00 0. "         ENBL    ,Counter enable control" "0,1"
group.long 0x4C++0x3
line.long 0x00 "SCTM_TINTVLR_i_3,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
tree "Channel_4"
width 19.
rgroup.long 0x190++0x3
line.long 0x00 "SCTM_CTCNTR_k_4,These registers contain the value of an individual counter in the moduel. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x118++0x3
line.long 0x00 "SCTM_CTCR_WOT_n_4,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match" "0,1"
bitfld.long 0x00 9. "  DBG   ,Signal debug logic on interval match" "0,1"
textline "                            "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match" "0,1"
bitfld.long 0x00 6. "         OVRFLW  ,Counter has wrapped since it was last read" "0,1"
bitfld.long 0x00 5. "  IDLE  ,Counter ignores processor IDLE state" "0,1"
textline "                            "
bitfld.long 0x00 4. " FREE     ,Counter ignores processor debug halt state" "0,1"
bitfld.long 0x00 3. "         DURMODE ,Counter is in duration or occurrence mode" "0,1"
bitfld.long 0x00 2. "  CHAIN ,Counter is chained to an adjacent counter" "0,1"
textline "                            "
bitfld.long 0x00 1. " RESET    ,Counter reset control" "0,1"
bitfld.long 0x00 0. "         ENBL    ,Counter enable control" "0,1"
group.long 0x50++0x3
line.long 0x00 "SCTM_TINTVLR_i_4,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
tree "Channel_5"
width 19.
rgroup.long 0x194++0x3
line.long 0x00 "SCTM_CTCNTR_k_5,These registers contain the value of an individual counter in the moduel. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x11C++0x3
line.long 0x00 "SCTM_CTCR_WOT_n_5,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match" "0,1"
bitfld.long 0x00 9. "  DBG   ,Signal debug logic on interval match" "0,1"
textline "                            "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match" "0,1"
bitfld.long 0x00 6. "         OVRFLW  ,Counter has wrapped since it was last read" "0,1"
bitfld.long 0x00 5. "  IDLE  ,Counter ignores processor IDLE state" "0,1"
textline "                            "
bitfld.long 0x00 4. " FREE     ,Counter ignores processor debug halt state" "0,1"
bitfld.long 0x00 3. "         DURMODE ,Counter is in duration or occurrence mode" "0,1"
bitfld.long 0x00 2. "  CHAIN ,Counter is chained to an adjacent counter" "0,1"
textline "                            "
bitfld.long 0x00 1. " RESET    ,Counter reset control" "0,1"
bitfld.long 0x00 0. "         ENBL    ,Counter enable control" "0,1"
group.long 0x54++0x3
line.long 0x00 "SCTM_TINTVLR_i_5,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
tree "Channel_6"
width 18.
rgroup.long 0x198++0x3
line.long 0x00 "SCTM_CTCNTR_k_6,These registers contain the value of an individual counter in the moduel. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x58++0x3
line.long 0x00 "SCTM_TINTVLR_i_6,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
tree "Channel_7"
width 18.
rgroup.long 0x19C++0x3
line.long 0x00 "SCTM_CTCNTR_k_7,These registers contain the value of an individual counter in the moduel. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x5C++0x3
line.long 0x00 "SCTM_TINTVLR_i_7,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
textline ""
width 17.
group.long 0x0++0x3
line.long 0x00 "SCTM_CTCNTL,"
bitfld.long 0x00 26.--31. " NUMSTM   ,Number of timers that can export through STM" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 18.--25. 1. "        NUMINPT  ,Number of event input signals"
bitfld.long 0x00 13.--17. "  NUMTIMR  ,Number of timers in the module" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                          "
bitfld.long 0x00 7.--12. " NUMCNTR  ,Number of counters in the module" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 3.--6. "        REVID    ,Revision ID of SCTM" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 1.--2. "  IDLEMODE ,Idle mode control 0x0: Force Idle mode 0x1: Ths SCTM will acknoledge the idle request, but never transition to the idle state 0x3: Since the SCTM does not support internal wakeup, this mode is identical to smart_idle 0x2: Ths SCTM uses the ..." "0,1,2,3"
textline "                          "
bitfld.long 0x00 0. " ENBL     ,SCTM global enable - DISABLE. - ENABLE." "DISABLE,ENABLE"
group.long 0x20++0x3
line.long 0x00 "SCTM_CTSTMCNTL,This register contains the control and status settings for STM export"
bitfld.long 0x00 10. " XPORTACT ,Indicates if a frame is currently being written to the STM" "0,1"
bitfld.long 0x00 5.--9. "         NUMXPORT ,The total number of counters designated for export. this will be used as the count in the CSM and CCM headers. The value written should be the total number of counters designated for export -1" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 4. "  CCMXPORT ,SW control of CCM message export" "0,1"
textline "                          "
bitfld.long 0x00 3. " CCMVAIL  ,SCTM supports CCM export" "0,1"
bitfld.long 0x00 2. "         CSMXPORT ,SW control of CSM message export" "0,1"
bitfld.long 0x00 1. "   SENDOVR  ,Send overflow data in CSM frame" "0,1"
textline "                          "
bitfld.long 0x00 0. " ENBL     ,STM global enable - DISABLE. - ENABLE." "DISABLE,ENABLE"
group.long 0x24++0x3
line.long 0x00 "SCTM_CTSTMMSTID,"
hexmask.long.byte 0x00 0.--6. 1. " MASTID   ,HW Master ID for this module."
group.long 0x28++0x3
line.long 0x00 "SCTM_CTSTMINTVL,"
hexmask.long.word 0x00 0.--15. 1. " INTERVAL ,Periodic export interval"
group.long 0x2C++0x3
line.long 0x00 "SCTM_CTSTMSEL,These registers mark the counters selected for export in the CSM"
hexmask.long 0x00 0.--31. 1. " COUNTSEL ,The counter selection bit field"
rgroup.long 0x7C++0x3
line.long 0x00 "SCTM_CTDBGNUM,Counter Timer Number Debug Event Register"
bitfld.long 0x00 0.--2. " NUMEVT   ,Number of input selectors for debug events" "0,1,2,3,4,5,6,7"
group.long 0x80++0x3
line.long 0x00 "SCTM_CTDBGEVT,Counter Timer Debug Event Register"
hexmask.long.byte 0x00 0.--7. 1. " INPSEL   ,Index of event input signal on the module boundary"
group.long 0xF0++0x3
line.long 0x00 "SCTM_CTGNBL,These registers provide for simultaneous enable/disable of 32 counters"
hexmask.long.byte 0x00 0.--7. 1. " ENABLE   ,The counter enable bit field"
group.long 0xF8++0x3
line.long 0x00 "SCTM_CTGRST,These registers provide for simultaneous reset of 32 counters"
hexmask.long.byte 0x00 0.--7. 1. " RESET    ,The counter reset bit field"
width 0x0B
tree.end
tree "EVE4_SCTM"
base ad:0x42385000
tree "Channel_0"
width 19.
rgroup.long 0x180++0x3
line.long 0x00 "SCTM_CTCNTR_k_0,These registers contain the value of an individual counter in the moduel. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x108++0x3
line.long 0x00 "SCTM_CTCR_WOT_n_0,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match" "0,1"
bitfld.long 0x00 9. "  DBG   ,Signal debug logic on interval match" "0,1"
textline "                            "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match" "0,1"
bitfld.long 0x00 6. "         OVRFLW  ,Counter has wrapped since it was last read" "0,1"
bitfld.long 0x00 5. "  IDLE  ,Counter ignores processor IDLE state" "0,1"
textline "                            "
bitfld.long 0x00 4. " FREE     ,Counter ignores processor debug halt state" "0,1"
bitfld.long 0x00 3. "         DURMODE ,Counter is in duration or occurrence mode" "0,1"
bitfld.long 0x00 2. "  CHAIN ,Counter is chained to an adjacent counter" "0,1"
textline "                            "
bitfld.long 0x00 1. " RESET    ,Counter reset control" "0,1"
bitfld.long 0x00 0. "         ENBL    ,Counter enable control" "0,1"
group.long 0x100++0x3
line.long 0x00 "SCTM_CTCR_WT_m_0,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WT: with timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match" "0,1"
bitfld.long 0x00 9. "  DBG   ,Signal debug logic on interval match" "0,1"
textline "                            "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match" "0,1"
bitfld.long 0x00 6. "         OVRFLW  ,Counter has wrapped since it was last read" "0,1"
bitfld.long 0x00 5. "  IDLE  ,Counter ignores processor IDLE state" "0,1"
textline "                            "
bitfld.long 0x00 4. " FREE     ,Counter ignores processor debug halt state" "0,1"
bitfld.long 0x00 3. "         DURMODE ,Counter is in duration or occurrence mode" "0,1"
bitfld.long 0x00 2. "  CHAIN ,Counter is chained to an adjacent counter" "0,1"
textline "                            "
bitfld.long 0x00 1. " RESET    ,Counter reset control" "0,1"
bitfld.long 0x00 0. "         ENBL    ,Counter enable control" "0,1"
group.long 0x40++0x3
line.long 0x00 "SCTM_TINTVLR_i_0,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
tree "Channel_1"
width 19.
rgroup.long 0x184++0x3
line.long 0x00 "SCTM_CTCNTR_k_1,These registers contain the value of an individual counter in the moduel. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x10C++0x3
line.long 0x00 "SCTM_CTCR_WOT_n_1,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match" "0,1"
bitfld.long 0x00 9. "  DBG   ,Signal debug logic on interval match" "0,1"
textline "                            "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match" "0,1"
bitfld.long 0x00 6. "         OVRFLW  ,Counter has wrapped since it was last read" "0,1"
bitfld.long 0x00 5. "  IDLE  ,Counter ignores processor IDLE state" "0,1"
textline "                            "
bitfld.long 0x00 4. " FREE     ,Counter ignores processor debug halt state" "0,1"
bitfld.long 0x00 3. "         DURMODE ,Counter is in duration or occurrence mode" "0,1"
bitfld.long 0x00 2. "  CHAIN ,Counter is chained to an adjacent counter" "0,1"
textline "                            "
bitfld.long 0x00 1. " RESET    ,Counter reset control" "0,1"
bitfld.long 0x00 0. "         ENBL    ,Counter enable control" "0,1"
group.long 0x104++0x3
line.long 0x00 "SCTM_CTCR_WT_m_1,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WT: with timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match" "0,1"
bitfld.long 0x00 9. "  DBG   ,Signal debug logic on interval match" "0,1"
textline "                            "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match" "0,1"
bitfld.long 0x00 6. "         OVRFLW  ,Counter has wrapped since it was last read" "0,1"
bitfld.long 0x00 5. "  IDLE  ,Counter ignores processor IDLE state" "0,1"
textline "                            "
bitfld.long 0x00 4. " FREE     ,Counter ignores processor debug halt state" "0,1"
bitfld.long 0x00 3. "         DURMODE ,Counter is in duration or occurrence mode" "0,1"
bitfld.long 0x00 2. "  CHAIN ,Counter is chained to an adjacent counter" "0,1"
textline "                            "
bitfld.long 0x00 1. " RESET    ,Counter reset control" "0,1"
bitfld.long 0x00 0. "         ENBL    ,Counter enable control" "0,1"
group.long 0x44++0x3
line.long 0x00 "SCTM_TINTVLR_i_1,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
tree "Channel_2"
width 19.
rgroup.long 0x188++0x3
line.long 0x00 "SCTM_CTCNTR_k_2,These registers contain the value of an individual counter in the moduel. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x110++0x3
line.long 0x00 "SCTM_CTCR_WOT_n_2,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match" "0,1"
bitfld.long 0x00 9. "  DBG   ,Signal debug logic on interval match" "0,1"
textline "                            "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match" "0,1"
bitfld.long 0x00 6. "         OVRFLW  ,Counter has wrapped since it was last read" "0,1"
bitfld.long 0x00 5. "  IDLE  ,Counter ignores processor IDLE state" "0,1"
textline "                            "
bitfld.long 0x00 4. " FREE     ,Counter ignores processor debug halt state" "0,1"
bitfld.long 0x00 3. "         DURMODE ,Counter is in duration or occurrence mode" "0,1"
bitfld.long 0x00 2. "  CHAIN ,Counter is chained to an adjacent counter" "0,1"
textline "                            "
bitfld.long 0x00 1. " RESET    ,Counter reset control" "0,1"
bitfld.long 0x00 0. "         ENBL    ,Counter enable control" "0,1"
group.long 0x48++0x3
line.long 0x00 "SCTM_TINTVLR_i_2,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
tree "Channel_3"
width 19.
rgroup.long 0x18C++0x3
line.long 0x00 "SCTM_CTCNTR_k_3,These registers contain the value of an individual counter in the moduel. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x114++0x3
line.long 0x00 "SCTM_CTCR_WOT_n_3,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match" "0,1"
bitfld.long 0x00 9. "  DBG   ,Signal debug logic on interval match" "0,1"
textline "                            "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match" "0,1"
bitfld.long 0x00 6. "         OVRFLW  ,Counter has wrapped since it was last read" "0,1"
bitfld.long 0x00 5. "  IDLE  ,Counter ignores processor IDLE state" "0,1"
textline "                            "
bitfld.long 0x00 4. " FREE     ,Counter ignores processor debug halt state" "0,1"
bitfld.long 0x00 3. "         DURMODE ,Counter is in duration or occurrence mode" "0,1"
bitfld.long 0x00 2. "  CHAIN ,Counter is chained to an adjacent counter" "0,1"
textline "                            "
bitfld.long 0x00 1. " RESET    ,Counter reset control" "0,1"
bitfld.long 0x00 0. "         ENBL    ,Counter enable control" "0,1"
group.long 0x4C++0x3
line.long 0x00 "SCTM_TINTVLR_i_3,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
tree "Channel_4"
width 19.
rgroup.long 0x190++0x3
line.long 0x00 "SCTM_CTCNTR_k_4,These registers contain the value of an individual counter in the moduel. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x118++0x3
line.long 0x00 "SCTM_CTCR_WOT_n_4,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match" "0,1"
bitfld.long 0x00 9. "  DBG   ,Signal debug logic on interval match" "0,1"
textline "                            "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match" "0,1"
bitfld.long 0x00 6. "         OVRFLW  ,Counter has wrapped since it was last read" "0,1"
bitfld.long 0x00 5. "  IDLE  ,Counter ignores processor IDLE state" "0,1"
textline "                            "
bitfld.long 0x00 4. " FREE     ,Counter ignores processor debug halt state" "0,1"
bitfld.long 0x00 3. "         DURMODE ,Counter is in duration or occurrence mode" "0,1"
bitfld.long 0x00 2. "  CHAIN ,Counter is chained to an adjacent counter" "0,1"
textline "                            "
bitfld.long 0x00 1. " RESET    ,Counter reset control" "0,1"
bitfld.long 0x00 0. "         ENBL    ,Counter enable control" "0,1"
group.long 0x50++0x3
line.long 0x00 "SCTM_TINTVLR_i_4,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
tree "Channel_5"
width 19.
rgroup.long 0x194++0x3
line.long 0x00 "SCTM_CTCNTR_k_5,These registers contain the value of an individual counter in the moduel. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x11C++0x3
line.long 0x00 "SCTM_CTCR_WOT_n_5,These registers contain the control and status settings for a single counter in the module. There will be a CTCR for every counter in the module (WOT: without timer)"
bitfld.long 0x00 16.--20. " INPSEL   ,Counter Timer input selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "        RESTART ,Restart the timer after an interval match" "0,1"
bitfld.long 0x00 9. "  DBG   ,Signal debug logic on interval match" "0,1"
textline "                            "
bitfld.long 0x00 8. " INT      ,Generate interrupt on interval match" "0,1"
bitfld.long 0x00 6. "         OVRFLW  ,Counter has wrapped since it was last read" "0,1"
bitfld.long 0x00 5. "  IDLE  ,Counter ignores processor IDLE state" "0,1"
textline "                            "
bitfld.long 0x00 4. " FREE     ,Counter ignores processor debug halt state" "0,1"
bitfld.long 0x00 3. "         DURMODE ,Counter is in duration or occurrence mode" "0,1"
bitfld.long 0x00 2. "  CHAIN ,Counter is chained to an adjacent counter" "0,1"
textline "                            "
bitfld.long 0x00 1. " RESET    ,Counter reset control" "0,1"
bitfld.long 0x00 0. "         ENBL    ,Counter enable control" "0,1"
group.long 0x54++0x3
line.long 0x00 "SCTM_TINTVLR_i_5,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
tree "Channel_6"
width 18.
rgroup.long 0x198++0x3
line.long 0x00 "SCTM_CTCNTR_k_6,These registers contain the value of an individual counter in the moduel. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x58++0x3
line.long 0x00 "SCTM_TINTVLR_i_6,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
tree "Channel_7"
width 18.
rgroup.long 0x19C++0x3
line.long 0x00 "SCTM_CTCNTR_k_7,These registers contain the value of an individual counter in the moduel. There will be a CTCNTR for every counter in the module"
hexmask.long 0x00 0.--31. 1. " COUNT    ,Counter value"
group.long 0x5C++0x3
line.long 0x00 "SCTM_TINTVLR_i_7,These registers contain the interval match value for the corresponding timers in the SCTM"
hexmask.long 0x00 0.--31. 1. " INTERVAL ,Interval match value for the timers in the SCTM"
tree.end
textline ""
width 17.
group.long 0x0++0x3
line.long 0x00 "SCTM_CTCNTL,"
bitfld.long 0x00 26.--31. " NUMSTM   ,Number of timers that can export through STM" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 18.--25. 1. "        NUMINPT  ,Number of event input signals"
bitfld.long 0x00 13.--17. "  NUMTIMR  ,Number of timers in the module" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
textline "                          "
bitfld.long 0x00 7.--12. " NUMCNTR  ,Number of counters in the module" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 3.--6. "        REVID    ,Revision ID of SCTM" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 1.--2. "  IDLEMODE ,Idle mode control 0x0: Force Idle mode 0x1: Ths SCTM will acknoledge the idle request, but never transition to the idle state 0x3: Since the SCTM does not support internal wakeup, this mode is identical to smart_idle 0x2: Ths SCTM uses the ..." "0,1,2,3"
textline "                          "
bitfld.long 0x00 0. " ENBL     ,SCTM global enable - DISABLE. - ENABLE." "DISABLE,ENABLE"
group.long 0x20++0x3
line.long 0x00 "SCTM_CTSTMCNTL,This register contains the control and status settings for STM export"
bitfld.long 0x00 10. " XPORTACT ,Indicates if a frame is currently being written to the STM" "0,1"
bitfld.long 0x00 5.--9. "         NUMXPORT ,The total number of counters designated for export. this will be used as the count in the CSM and CCM headers. The value written should be the total number of counters designated for export -1" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 4. "  CCMXPORT ,SW control of CCM message export" "0,1"
textline "                          "
bitfld.long 0x00 3. " CCMVAIL  ,SCTM supports CCM export" "0,1"
bitfld.long 0x00 2. "         CSMXPORT ,SW control of CSM message export" "0,1"
bitfld.long 0x00 1. "   SENDOVR  ,Send overflow data in CSM frame" "0,1"
textline "                          "
bitfld.long 0x00 0. " ENBL     ,STM global enable - DISABLE. - ENABLE." "DISABLE,ENABLE"
group.long 0x24++0x3
line.long 0x00 "SCTM_CTSTMMSTID,"
hexmask.long.byte 0x00 0.--6. 1. " MASTID   ,HW Master ID for this module."
group.long 0x28++0x3
line.long 0x00 "SCTM_CTSTMINTVL,"
hexmask.long.word 0x00 0.--15. 1. " INTERVAL ,Periodic export interval"
group.long 0x2C++0x3
line.long 0x00 "SCTM_CTSTMSEL,These registers mark the counters selected for export in the CSM"
hexmask.long 0x00 0.--31. 1. " COUNTSEL ,The counter selection bit field"
rgroup.long 0x7C++0x3
line.long 0x00 "SCTM_CTDBGNUM,Counter Timer Number Debug Event Register"
bitfld.long 0x00 0.--2. " NUMEVT   ,Number of input selectors for debug events" "0,1,2,3,4,5,6,7"
group.long 0x80++0x3
line.long 0x00 "SCTM_CTDBGEVT,Counter Timer Debug Event Register"
hexmask.long.byte 0x00 0.--7. 1. " INPSEL   ,Index of event input signal on the module boundary"
group.long 0xF0++0x3
line.long 0x00 "SCTM_CTGNBL,These registers provide for simultaneous enable/disable of 32 counters"
hexmask.long.byte 0x00 0.--7. 1. " ENABLE   ,The counter enable bit field"
group.long 0xF8++0x3
line.long 0x00 "SCTM_CTGRST,These registers provide for simultaneous reset of 32 counters"
hexmask.long.byte 0x00 0.--7. 1. " RESET    ,The counter reset bit field"
width 0x0B
tree.end
tree.end
tree.open "EVE1_SMSET"
tree "EVE1_SMSET"
base ad:0x42088000
tree "Channel_1"
width 17.
group.long 0x30++0x3
line.long 0x00 "SMSET_SEDEN_i_1,System Event Detection Enable register 1"
bitfld.long 0x00 31. " EVENT32EN ,Event 32 detection enable" "0,1"
bitfld.long 0x00 30. "  EVENT31EN ,Event 31 detection enable" "0,1"
bitfld.long 0x00 29. "  EVENT30EN ,Event 30 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 28. " EVENT29EN ,Event 29 detection enable" "0,1"
bitfld.long 0x00 27. "  EVENT28EN ,Event 28 detection enable" "0,1"
bitfld.long 0x00 26. "  EVENT27EN ,Event 27 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 25. " EVENT26EN ,Event 26 detection enable" "0,1"
bitfld.long 0x00 24. "  EVENT25EN ,Event 25 detection enable" "0,1"
bitfld.long 0x00 23. "  EVENT24EN ,Event 24 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 22. " EVENT23EN ,Event 23 detection enable" "0,1"
bitfld.long 0x00 21. "  EVENT22EN ,Event 22 detection enable" "0,1"
bitfld.long 0x00 20. "  EVENT21EN ,Event 21 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 19. " EVENT20EN ,Event 20 detection enable" "0,1"
bitfld.long 0x00 18. "  EVENT19EN ,Event 19 detection enable" "0,1"
bitfld.long 0x00 17. "  EVENT18EN ,Event 18 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 16. " EVENT17EN ,Event 17 detection enable" "0,1"
bitfld.long 0x00 15. "  EVENT16EN ,Event 16 detection enable" "0,1"
bitfld.long 0x00 14. "  EVENT15EN ,Event 15 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 13. " EVENT14EN ,Event 14 detection enable" "0,1"
bitfld.long 0x00 12. "  EVENT13EN ,Event 13 detection enable" "0,1"
bitfld.long 0x00 11. "  EVENT12EN ,Event 12 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 10. " EVENT11EN ,Event 11 detection enable" "0,1"
bitfld.long 0x00 9. "  EVENT10EN ,Event 10 detection enable" "0,1"
bitfld.long 0x00 8. "  EVENT9EN  ,Event 9 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 7. " EVENT8EN  ,Event 8 detection enable" "0,1"
bitfld.long 0x00 6. "  EVENT7EN  ,Event 7 detection enable" "0,1"
bitfld.long 0x00 5. "  EVENT6EN  ,Event 6 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 4. " EVENT5EN  ,Event 5 detection enable" "0,1"
bitfld.long 0x00 3. "  EVENT4EN  ,Event 4 detection enable" "0,1"
bitfld.long 0x00 2. "  EVENT3EN  ,Event 3 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 1. " EVENT2EN  ,Event 2 detection enable" "0,1"
bitfld.long 0x00 0. "  EVENT1EN  ,Event 1 detection enable" "0,1"
group.long 0x34++0x3
line.long 0x00 "SMSET_SEDEN_i_2,System Event Detection Enable register 1"
bitfld.long 0x00 31. " EVENT32EN ,Event 32 detection enable" "0,1"
bitfld.long 0x00 30. "  EVENT31EN ,Event 31 detection enable" "0,1"
bitfld.long 0x00 29. "  EVENT30EN ,Event 30 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 28. " EVENT29EN ,Event 29 detection enable" "0,1"
bitfld.long 0x00 27. "  EVENT28EN ,Event 28 detection enable" "0,1"
bitfld.long 0x00 26. "  EVENT27EN ,Event 27 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 25. " EVENT26EN ,Event 26 detection enable" "0,1"
bitfld.long 0x00 24. "  EVENT25EN ,Event 25 detection enable" "0,1"
bitfld.long 0x00 23. "  EVENT24EN ,Event 24 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 22. " EVENT23EN ,Event 23 detection enable" "0,1"
bitfld.long 0x00 21. "  EVENT22EN ,Event 22 detection enable" "0,1"
bitfld.long 0x00 20. "  EVENT21EN ,Event 21 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 19. " EVENT20EN ,Event 20 detection enable" "0,1"
bitfld.long 0x00 18. "  EVENT19EN ,Event 19 detection enable" "0,1"
bitfld.long 0x00 17. "  EVENT18EN ,Event 18 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 16. " EVENT17EN ,Event 17 detection enable" "0,1"
bitfld.long 0x00 15. "  EVENT16EN ,Event 16 detection enable" "0,1"
bitfld.long 0x00 14. "  EVENT15EN ,Event 15 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 13. " EVENT14EN ,Event 14 detection enable" "0,1"
bitfld.long 0x00 12. "  EVENT13EN ,Event 13 detection enable" "0,1"
bitfld.long 0x00 11. "  EVENT12EN ,Event 12 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 10. " EVENT11EN ,Event 11 detection enable" "0,1"
bitfld.long 0x00 9. "  EVENT10EN ,Event 10 detection enable" "0,1"
bitfld.long 0x00 8. "  EVENT9EN  ,Event 9 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 7. " EVENT8EN  ,Event 8 detection enable" "0,1"
bitfld.long 0x00 6. "  EVENT7EN  ,Event 7 detection enable" "0,1"
bitfld.long 0x00 5. "  EVENT6EN  ,Event 6 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 4. " EVENT5EN  ,Event 5 detection enable" "0,1"
bitfld.long 0x00 3. "  EVENT4EN  ,Event 4 detection enable" "0,1"
bitfld.long 0x00 2. "  EVENT3EN  ,Event 3 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 1. " EVENT2EN  ,Event 2 detection enable" "0,1"
bitfld.long 0x00 0. "  EVENT1EN  ,Event 1 detection enable" "0,1"
group.long 0x38++0x3
line.long 0x00 "SMSET_SEDEN_i_3,System Event Detection Enable register 1"
bitfld.long 0x00 31. " EVENT32EN ,Event 32 detection enable" "0,1"
bitfld.long 0x00 30. "  EVENT31EN ,Event 31 detection enable" "0,1"
bitfld.long 0x00 29. "  EVENT30EN ,Event 30 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 28. " EVENT29EN ,Event 29 detection enable" "0,1"
bitfld.long 0x00 27. "  EVENT28EN ,Event 28 detection enable" "0,1"
bitfld.long 0x00 26. "  EVENT27EN ,Event 27 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 25. " EVENT26EN ,Event 26 detection enable" "0,1"
bitfld.long 0x00 24. "  EVENT25EN ,Event 25 detection enable" "0,1"
bitfld.long 0x00 23. "  EVENT24EN ,Event 24 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 22. " EVENT23EN ,Event 23 detection enable" "0,1"
bitfld.long 0x00 21. "  EVENT22EN ,Event 22 detection enable" "0,1"
bitfld.long 0x00 20. "  EVENT21EN ,Event 21 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 19. " EVENT20EN ,Event 20 detection enable" "0,1"
bitfld.long 0x00 18. "  EVENT19EN ,Event 19 detection enable" "0,1"
bitfld.long 0x00 17. "  EVENT18EN ,Event 18 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 16. " EVENT17EN ,Event 17 detection enable" "0,1"
bitfld.long 0x00 15. "  EVENT16EN ,Event 16 detection enable" "0,1"
bitfld.long 0x00 14. "  EVENT15EN ,Event 15 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 13. " EVENT14EN ,Event 14 detection enable" "0,1"
bitfld.long 0x00 12. "  EVENT13EN ,Event 13 detection enable" "0,1"
bitfld.long 0x00 11. "  EVENT12EN ,Event 12 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 10. " EVENT11EN ,Event 11 detection enable" "0,1"
bitfld.long 0x00 9. "  EVENT10EN ,Event 10 detection enable" "0,1"
bitfld.long 0x00 8. "  EVENT9EN  ,Event 9 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 7. " EVENT8EN  ,Event 8 detection enable" "0,1"
bitfld.long 0x00 6. "  EVENT7EN  ,Event 7 detection enable" "0,1"
bitfld.long 0x00 5. "  EVENT6EN  ,Event 6 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 4. " EVENT5EN  ,Event 5 detection enable" "0,1"
bitfld.long 0x00 3. "  EVENT4EN  ,Event 4 detection enable" "0,1"
bitfld.long 0x00 2. "  EVENT3EN  ,Event 3 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 1. " EVENT2EN  ,Event 2 detection enable" "0,1"
bitfld.long 0x00 0. "  EVENT1EN  ,Event 1 detection enable" "0,1"
group.long 0x3C++0x3
line.long 0x00 "SMSET_SEDEN_i_4,System Event Detection Enable register 1"
bitfld.long 0x00 31. " EVENT32EN ,Event 32 detection enable" "0,1"
bitfld.long 0x00 30. "  EVENT31EN ,Event 31 detection enable" "0,1"
bitfld.long 0x00 29. "  EVENT30EN ,Event 30 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 28. " EVENT29EN ,Event 29 detection enable" "0,1"
bitfld.long 0x00 27. "  EVENT28EN ,Event 28 detection enable" "0,1"
bitfld.long 0x00 26. "  EVENT27EN ,Event 27 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 25. " EVENT26EN ,Event 26 detection enable" "0,1"
bitfld.long 0x00 24. "  EVENT25EN ,Event 25 detection enable" "0,1"
bitfld.long 0x00 23. "  EVENT24EN ,Event 24 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 22. " EVENT23EN ,Event 23 detection enable" "0,1"
bitfld.long 0x00 21. "  EVENT22EN ,Event 22 detection enable" "0,1"
bitfld.long 0x00 20. "  EVENT21EN ,Event 21 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 19. " EVENT20EN ,Event 20 detection enable" "0,1"
bitfld.long 0x00 18. "  EVENT19EN ,Event 19 detection enable" "0,1"
bitfld.long 0x00 17. "  EVENT18EN ,Event 18 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 16. " EVENT17EN ,Event 17 detection enable" "0,1"
bitfld.long 0x00 15. "  EVENT16EN ,Event 16 detection enable" "0,1"
bitfld.long 0x00 14. "  EVENT15EN ,Event 15 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 13. " EVENT14EN ,Event 14 detection enable" "0,1"
bitfld.long 0x00 12. "  EVENT13EN ,Event 13 detection enable" "0,1"
bitfld.long 0x00 11. "  EVENT12EN ,Event 12 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 10. " EVENT11EN ,Event 11 detection enable" "0,1"
bitfld.long 0x00 9. "  EVENT10EN ,Event 10 detection enable" "0,1"
bitfld.long 0x00 8. "  EVENT9EN  ,Event 9 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 7. " EVENT8EN  ,Event 8 detection enable" "0,1"
bitfld.long 0x00 6. "  EVENT7EN  ,Event 7 detection enable" "0,1"
bitfld.long 0x00 5. "  EVENT6EN  ,Event 6 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 4. " EVENT5EN  ,Event 5 detection enable" "0,1"
bitfld.long 0x00 3. "  EVENT4EN  ,Event 4 detection enable" "0,1"
bitfld.long 0x00 2. "  EVENT3EN  ,Event 3 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 1. " EVENT2EN  ,Event 2 detection enable" "0,1"
bitfld.long 0x00 0. "  EVENT1EN  ,Event 1 detection enable" "0,1"
group.long 0x40++0x3
line.long 0x00 "SMSET_SEDEN_i_5,System Event Detection Enable register 1"
bitfld.long 0x00 31. " EVENT32EN ,Event 32 detection enable" "0,1"
bitfld.long 0x00 30. "  EVENT31EN ,Event 31 detection enable" "0,1"
bitfld.long 0x00 29. "  EVENT30EN ,Event 30 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 28. " EVENT29EN ,Event 29 detection enable" "0,1"
bitfld.long 0x00 27. "  EVENT28EN ,Event 28 detection enable" "0,1"
bitfld.long 0x00 26. "  EVENT27EN ,Event 27 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 25. " EVENT26EN ,Event 26 detection enable" "0,1"
bitfld.long 0x00 24. "  EVENT25EN ,Event 25 detection enable" "0,1"
bitfld.long 0x00 23. "  EVENT24EN ,Event 24 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 22. " EVENT23EN ,Event 23 detection enable" "0,1"
bitfld.long 0x00 21. "  EVENT22EN ,Event 22 detection enable" "0,1"
bitfld.long 0x00 20. "  EVENT21EN ,Event 21 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 19. " EVENT20EN ,Event 20 detection enable" "0,1"
bitfld.long 0x00 18. "  EVENT19EN ,Event 19 detection enable" "0,1"
bitfld.long 0x00 17. "  EVENT18EN ,Event 18 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 16. " EVENT17EN ,Event 17 detection enable" "0,1"
bitfld.long 0x00 15. "  EVENT16EN ,Event 16 detection enable" "0,1"
bitfld.long 0x00 14. "  EVENT15EN ,Event 15 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 13. " EVENT14EN ,Event 14 detection enable" "0,1"
bitfld.long 0x00 12. "  EVENT13EN ,Event 13 detection enable" "0,1"
bitfld.long 0x00 11. "  EVENT12EN ,Event 12 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 10. " EVENT11EN ,Event 11 detection enable" "0,1"
bitfld.long 0x00 9. "  EVENT10EN ,Event 10 detection enable" "0,1"
bitfld.long 0x00 8. "  EVENT9EN  ,Event 9 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 7. " EVENT8EN  ,Event 8 detection enable" "0,1"
bitfld.long 0x00 6. "  EVENT7EN  ,Event 7 detection enable" "0,1"
bitfld.long 0x00 5. "  EVENT6EN  ,Event 6 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 4. " EVENT5EN  ,Event 5 detection enable" "0,1"
bitfld.long 0x00 3. "  EVENT4EN  ,Event 4 detection enable" "0,1"
bitfld.long 0x00 2. "  EVENT3EN  ,Event 3 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 1. " EVENT2EN  ,Event 2 detection enable" "0,1"
bitfld.long 0x00 0. "  EVENT1EN  ,Event 1 detection enable" "0,1"
group.long 0x44++0x3
line.long 0x00 "SMSET_SEDEN_i_6,System Event Detection Enable register 1"
bitfld.long 0x00 31. " EVENT32EN ,Event 32 detection enable" "0,1"
bitfld.long 0x00 30. "  EVENT31EN ,Event 31 detection enable" "0,1"
bitfld.long 0x00 29. "  EVENT30EN ,Event 30 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 28. " EVENT29EN ,Event 29 detection enable" "0,1"
bitfld.long 0x00 27. "  EVENT28EN ,Event 28 detection enable" "0,1"
bitfld.long 0x00 26. "  EVENT27EN ,Event 27 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 25. " EVENT26EN ,Event 26 detection enable" "0,1"
bitfld.long 0x00 24. "  EVENT25EN ,Event 25 detection enable" "0,1"
bitfld.long 0x00 23. "  EVENT24EN ,Event 24 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 22. " EVENT23EN ,Event 23 detection enable" "0,1"
bitfld.long 0x00 21. "  EVENT22EN ,Event 22 detection enable" "0,1"
bitfld.long 0x00 20. "  EVENT21EN ,Event 21 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 19. " EVENT20EN ,Event 20 detection enable" "0,1"
bitfld.long 0x00 18. "  EVENT19EN ,Event 19 detection enable" "0,1"
bitfld.long 0x00 17. "  EVENT18EN ,Event 18 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 16. " EVENT17EN ,Event 17 detection enable" "0,1"
bitfld.long 0x00 15. "  EVENT16EN ,Event 16 detection enable" "0,1"
bitfld.long 0x00 14. "  EVENT15EN ,Event 15 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 13. " EVENT14EN ,Event 14 detection enable" "0,1"
bitfld.long 0x00 12. "  EVENT13EN ,Event 13 detection enable" "0,1"
bitfld.long 0x00 11. "  EVENT12EN ,Event 12 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 10. " EVENT11EN ,Event 11 detection enable" "0,1"
bitfld.long 0x00 9. "  EVENT10EN ,Event 10 detection enable" "0,1"
bitfld.long 0x00 8. "  EVENT9EN  ,Event 9 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 7. " EVENT8EN  ,Event 8 detection enable" "0,1"
bitfld.long 0x00 6. "  EVENT7EN  ,Event 7 detection enable" "0,1"
bitfld.long 0x00 5. "  EVENT6EN  ,Event 6 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 4. " EVENT5EN  ,Event 5 detection enable" "0,1"
bitfld.long 0x00 3. "  EVENT4EN  ,Event 4 detection enable" "0,1"
bitfld.long 0x00 2. "  EVENT3EN  ,Event 3 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 1. " EVENT2EN  ,Event 2 detection enable" "0,1"
bitfld.long 0x00 0. "  EVENT1EN  ,Event 1 detection enable" "0,1"
group.long 0x48++0x3
line.long 0x00 "SMSET_SEDEN_i_7,System Event Detection Enable register 1"
bitfld.long 0x00 31. " EVENT32EN ,Event 32 detection enable" "0,1"
bitfld.long 0x00 30. "  EVENT31EN ,Event 31 detection enable" "0,1"
bitfld.long 0x00 29. "  EVENT30EN ,Event 30 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 28. " EVENT29EN ,Event 29 detection enable" "0,1"
bitfld.long 0x00 27. "  EVENT28EN ,Event 28 detection enable" "0,1"
bitfld.long 0x00 26. "  EVENT27EN ,Event 27 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 25. " EVENT26EN ,Event 26 detection enable" "0,1"
bitfld.long 0x00 24. "  EVENT25EN ,Event 25 detection enable" "0,1"
bitfld.long 0x00 23. "  EVENT24EN ,Event 24 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 22. " EVENT23EN ,Event 23 detection enable" "0,1"
bitfld.long 0x00 21. "  EVENT22EN ,Event 22 detection enable" "0,1"
bitfld.long 0x00 20. "  EVENT21EN ,Event 21 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 19. " EVENT20EN ,Event 20 detection enable" "0,1"
bitfld.long 0x00 18. "  EVENT19EN ,Event 19 detection enable" "0,1"
bitfld.long 0x00 17. "  EVENT18EN ,Event 18 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 16. " EVENT17EN ,Event 17 detection enable" "0,1"
bitfld.long 0x00 15. "  EVENT16EN ,Event 16 detection enable" "0,1"
bitfld.long 0x00 14. "  EVENT15EN ,Event 15 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 13. " EVENT14EN ,Event 14 detection enable" "0,1"
bitfld.long 0x00 12. "  EVENT13EN ,Event 13 detection enable" "0,1"
bitfld.long 0x00 11. "  EVENT12EN ,Event 12 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 10. " EVENT11EN ,Event 11 detection enable" "0,1"
bitfld.long 0x00 9. "  EVENT10EN ,Event 10 detection enable" "0,1"
bitfld.long 0x00 8. "  EVENT9EN  ,Event 9 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 7. " EVENT8EN  ,Event 8 detection enable" "0,1"
bitfld.long 0x00 6. "  EVENT7EN  ,Event 7 detection enable" "0,1"
bitfld.long 0x00 5. "  EVENT6EN  ,Event 6 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 4. " EVENT5EN  ,Event 5 detection enable" "0,1"
bitfld.long 0x00 3. "  EVENT4EN  ,Event 4 detection enable" "0,1"
bitfld.long 0x00 2. "  EVENT3EN  ,Event 3 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 1. " EVENT2EN  ,Event 2 detection enable" "0,1"
bitfld.long 0x00 0. "  EVENT1EN  ,Event 1 detection enable" "0,1"
group.long 0x4C++0x3
line.long 0x00 "SMSET_SEDEN_i_8,System Event Detection Enable register 1"
bitfld.long 0x00 31. " EVENT32EN ,Event 32 detection enable" "0,1"
bitfld.long 0x00 30. "  EVENT31EN ,Event 31 detection enable" "0,1"
bitfld.long 0x00 29. "  EVENT30EN ,Event 30 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 28. " EVENT29EN ,Event 29 detection enable" "0,1"
bitfld.long 0x00 27. "  EVENT28EN ,Event 28 detection enable" "0,1"
bitfld.long 0x00 26. "  EVENT27EN ,Event 27 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 25. " EVENT26EN ,Event 26 detection enable" "0,1"
bitfld.long 0x00 24. "  EVENT25EN ,Event 25 detection enable" "0,1"
bitfld.long 0x00 23. "  EVENT24EN ,Event 24 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 22. " EVENT23EN ,Event 23 detection enable" "0,1"
bitfld.long 0x00 21. "  EVENT22EN ,Event 22 detection enable" "0,1"
bitfld.long 0x00 20. "  EVENT21EN ,Event 21 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 19. " EVENT20EN ,Event 20 detection enable" "0,1"
bitfld.long 0x00 18. "  EVENT19EN ,Event 19 detection enable" "0,1"
bitfld.long 0x00 17. "  EVENT18EN ,Event 18 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 16. " EVENT17EN ,Event 17 detection enable" "0,1"
bitfld.long 0x00 15. "  EVENT16EN ,Event 16 detection enable" "0,1"
bitfld.long 0x00 14. "  EVENT15EN ,Event 15 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 13. " EVENT14EN ,Event 14 detection enable" "0,1"
bitfld.long 0x00 12. "  EVENT13EN ,Event 13 detection enable" "0,1"
bitfld.long 0x00 11. "  EVENT12EN ,Event 12 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 10. " EVENT11EN ,Event 11 detection enable" "0,1"
bitfld.long 0x00 9. "  EVENT10EN ,Event 10 detection enable" "0,1"
bitfld.long 0x00 8. "  EVENT9EN  ,Event 9 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 7. " EVENT8EN  ,Event 8 detection enable" "0,1"
bitfld.long 0x00 6. "  EVENT7EN  ,Event 7 detection enable" "0,1"
bitfld.long 0x00 5. "  EVENT6EN  ,Event 6 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 4. " EVENT5EN  ,Event 5 detection enable" "0,1"
bitfld.long 0x00 3. "  EVENT4EN  ,Event 4 detection enable" "0,1"
bitfld.long 0x00 2. "  EVENT3EN  ,Event 3 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 1. " EVENT2EN  ,Event 2 detection enable" "0,1"
bitfld.long 0x00 0. "  EVENT1EN  ,Event 1 detection enable" "0,1"
tree.end
textline ""
width 12.
rgroup.long 0x0++0x3
line.long 0x00 "SMSET_ID,SMSET identification register"
hexmask.long 0x00 0.--31. 1. " REVISION           ,Revision"
group.long 0x10++0x3
line.long 0x00 "SMSET_SCFG,SMSET system configuration register"
bitfld.long 0x00 2.--3. " IDLEMODE           ,Configuration of the local target state management mode. 0x0: Force-idle; 0x1No-idle; 0x2 Smart-idle; 0x3 Smart-Idle wakeup-capable" "0,1,2,3"
bitfld.long 0x00 0. "         SOFTRESET        ,Triggers System Event Trace module reset. This bit is automatically cleared by hardware" "0,1"
rgroup.long 0x14++0x3
line.long 0x00 "SMSET_SR,SMSET Status Register"
bitfld.long 0x00 9. " SWFIFOEMPTY        ,SW message FIFO empty" "0,1"
bitfld.long 0x00 8. "         HWFIFOEMPTY      ,System event trace FIFO empty" "0,1"
bitfld.long 0x00 0. "  RESETDONE    ,Reset completed" "0,1"
group.long 0x24++0x3
line.long 0x00 "SMSET_CFG,SMSET Configuration register"
bitfld.long 0x00 30.--31. " OWNERSHIP          ,Read to get current ownership status. The claim status encoding is (0=Available, 1=Claimed, 2=Enabled, 3=Reserved);Send command to modify ownership state: 00= Release ownership, 01 = Claim ownership, 10 = Enable unit, 11 = No opera..." "0,1,2,3"
bitfld.long 0x00 29. "         DEBUGGEROVERRIDE ,Reading from the DebuggerOverride bit returns a 1." "0,1"
bitfld.long 0x00 28. "  CURRENTOWNER ,This value reflects the SMSET ownership when the register is in a non-Available state." "0,1"
textline "                     "
bitfld.long 0x00 7. " CAPTUREEN          ,When high the sytem event capture is enabled" "0,1"
bitfld.long 0x00 4. "         EVENTLEVEL       ,This applies to all selected events: 0x0: low level event detection 0x1: high level evnet detection" "0,1"
bitfld.long 0x00 3. "  EVENTMSG     ,essage generated based on: 0x0: sampling window 0x1: event detection" "0,1"
textline "                     "
bitfld.long 0x00 2. " STOP               ,Stop capturing system events from external trigger detection [EMU1 HIGH to LOW]" "0,1"
bitfld.long 0x00 1. "         START            ,Start capturing system events from external trigger detection [EMU0 HIGH to LOW]" "0,1"
group.long 0x28++0x3
line.long 0x00 "SMSET_SESW,System Event Sampling Window register"
hexmask.long.byte 0x00 0.--7. 1. " SAMPLINGWINDOWSIZE ,System events sampling window size expressed as SMSET cycles"
width 0x0B
tree.end
tree "EVE2_SMSET"
base ad:0x42188000
tree "Channel_1"
width 17.
group.long 0x30++0x3
line.long 0x00 "SMSET_SEDEN_i_1,System Event Detection Enable register 1"
bitfld.long 0x00 31. " EVENT32EN ,Event 32 detection enable" "0,1"
bitfld.long 0x00 30. "  EVENT31EN ,Event 31 detection enable" "0,1"
bitfld.long 0x00 29. "  EVENT30EN ,Event 30 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 28. " EVENT29EN ,Event 29 detection enable" "0,1"
bitfld.long 0x00 27. "  EVENT28EN ,Event 28 detection enable" "0,1"
bitfld.long 0x00 26. "  EVENT27EN ,Event 27 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 25. " EVENT26EN ,Event 26 detection enable" "0,1"
bitfld.long 0x00 24. "  EVENT25EN ,Event 25 detection enable" "0,1"
bitfld.long 0x00 23. "  EVENT24EN ,Event 24 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 22. " EVENT23EN ,Event 23 detection enable" "0,1"
bitfld.long 0x00 21. "  EVENT22EN ,Event 22 detection enable" "0,1"
bitfld.long 0x00 20. "  EVENT21EN ,Event 21 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 19. " EVENT20EN ,Event 20 detection enable" "0,1"
bitfld.long 0x00 18. "  EVENT19EN ,Event 19 detection enable" "0,1"
bitfld.long 0x00 17. "  EVENT18EN ,Event 18 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 16. " EVENT17EN ,Event 17 detection enable" "0,1"
bitfld.long 0x00 15. "  EVENT16EN ,Event 16 detection enable" "0,1"
bitfld.long 0x00 14. "  EVENT15EN ,Event 15 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 13. " EVENT14EN ,Event 14 detection enable" "0,1"
bitfld.long 0x00 12. "  EVENT13EN ,Event 13 detection enable" "0,1"
bitfld.long 0x00 11. "  EVENT12EN ,Event 12 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 10. " EVENT11EN ,Event 11 detection enable" "0,1"
bitfld.long 0x00 9. "  EVENT10EN ,Event 10 detection enable" "0,1"
bitfld.long 0x00 8. "  EVENT9EN  ,Event 9 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 7. " EVENT8EN  ,Event 8 detection enable" "0,1"
bitfld.long 0x00 6. "  EVENT7EN  ,Event 7 detection enable" "0,1"
bitfld.long 0x00 5. "  EVENT6EN  ,Event 6 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 4. " EVENT5EN  ,Event 5 detection enable" "0,1"
bitfld.long 0x00 3. "  EVENT4EN  ,Event 4 detection enable" "0,1"
bitfld.long 0x00 2. "  EVENT3EN  ,Event 3 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 1. " EVENT2EN  ,Event 2 detection enable" "0,1"
bitfld.long 0x00 0. "  EVENT1EN  ,Event 1 detection enable" "0,1"
group.long 0x34++0x3
line.long 0x00 "SMSET_SEDEN_i_2,System Event Detection Enable register 1"
bitfld.long 0x00 31. " EVENT32EN ,Event 32 detection enable" "0,1"
bitfld.long 0x00 30. "  EVENT31EN ,Event 31 detection enable" "0,1"
bitfld.long 0x00 29. "  EVENT30EN ,Event 30 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 28. " EVENT29EN ,Event 29 detection enable" "0,1"
bitfld.long 0x00 27. "  EVENT28EN ,Event 28 detection enable" "0,1"
bitfld.long 0x00 26. "  EVENT27EN ,Event 27 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 25. " EVENT26EN ,Event 26 detection enable" "0,1"
bitfld.long 0x00 24. "  EVENT25EN ,Event 25 detection enable" "0,1"
bitfld.long 0x00 23. "  EVENT24EN ,Event 24 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 22. " EVENT23EN ,Event 23 detection enable" "0,1"
bitfld.long 0x00 21. "  EVENT22EN ,Event 22 detection enable" "0,1"
bitfld.long 0x00 20. "  EVENT21EN ,Event 21 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 19. " EVENT20EN ,Event 20 detection enable" "0,1"
bitfld.long 0x00 18. "  EVENT19EN ,Event 19 detection enable" "0,1"
bitfld.long 0x00 17. "  EVENT18EN ,Event 18 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 16. " EVENT17EN ,Event 17 detection enable" "0,1"
bitfld.long 0x00 15. "  EVENT16EN ,Event 16 detection enable" "0,1"
bitfld.long 0x00 14. "  EVENT15EN ,Event 15 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 13. " EVENT14EN ,Event 14 detection enable" "0,1"
bitfld.long 0x00 12. "  EVENT13EN ,Event 13 detection enable" "0,1"
bitfld.long 0x00 11. "  EVENT12EN ,Event 12 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 10. " EVENT11EN ,Event 11 detection enable" "0,1"
bitfld.long 0x00 9. "  EVENT10EN ,Event 10 detection enable" "0,1"
bitfld.long 0x00 8. "  EVENT9EN  ,Event 9 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 7. " EVENT8EN  ,Event 8 detection enable" "0,1"
bitfld.long 0x00 6. "  EVENT7EN  ,Event 7 detection enable" "0,1"
bitfld.long 0x00 5. "  EVENT6EN  ,Event 6 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 4. " EVENT5EN  ,Event 5 detection enable" "0,1"
bitfld.long 0x00 3. "  EVENT4EN  ,Event 4 detection enable" "0,1"
bitfld.long 0x00 2. "  EVENT3EN  ,Event 3 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 1. " EVENT2EN  ,Event 2 detection enable" "0,1"
bitfld.long 0x00 0. "  EVENT1EN  ,Event 1 detection enable" "0,1"
group.long 0x38++0x3
line.long 0x00 "SMSET_SEDEN_i_3,System Event Detection Enable register 1"
bitfld.long 0x00 31. " EVENT32EN ,Event 32 detection enable" "0,1"
bitfld.long 0x00 30. "  EVENT31EN ,Event 31 detection enable" "0,1"
bitfld.long 0x00 29. "  EVENT30EN ,Event 30 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 28. " EVENT29EN ,Event 29 detection enable" "0,1"
bitfld.long 0x00 27. "  EVENT28EN ,Event 28 detection enable" "0,1"
bitfld.long 0x00 26. "  EVENT27EN ,Event 27 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 25. " EVENT26EN ,Event 26 detection enable" "0,1"
bitfld.long 0x00 24. "  EVENT25EN ,Event 25 detection enable" "0,1"
bitfld.long 0x00 23. "  EVENT24EN ,Event 24 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 22. " EVENT23EN ,Event 23 detection enable" "0,1"
bitfld.long 0x00 21. "  EVENT22EN ,Event 22 detection enable" "0,1"
bitfld.long 0x00 20. "  EVENT21EN ,Event 21 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 19. " EVENT20EN ,Event 20 detection enable" "0,1"
bitfld.long 0x00 18. "  EVENT19EN ,Event 19 detection enable" "0,1"
bitfld.long 0x00 17. "  EVENT18EN ,Event 18 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 16. " EVENT17EN ,Event 17 detection enable" "0,1"
bitfld.long 0x00 15. "  EVENT16EN ,Event 16 detection enable" "0,1"
bitfld.long 0x00 14. "  EVENT15EN ,Event 15 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 13. " EVENT14EN ,Event 14 detection enable" "0,1"
bitfld.long 0x00 12. "  EVENT13EN ,Event 13 detection enable" "0,1"
bitfld.long 0x00 11. "  EVENT12EN ,Event 12 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 10. " EVENT11EN ,Event 11 detection enable" "0,1"
bitfld.long 0x00 9. "  EVENT10EN ,Event 10 detection enable" "0,1"
bitfld.long 0x00 8. "  EVENT9EN  ,Event 9 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 7. " EVENT8EN  ,Event 8 detection enable" "0,1"
bitfld.long 0x00 6. "  EVENT7EN  ,Event 7 detection enable" "0,1"
bitfld.long 0x00 5. "  EVENT6EN  ,Event 6 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 4. " EVENT5EN  ,Event 5 detection enable" "0,1"
bitfld.long 0x00 3. "  EVENT4EN  ,Event 4 detection enable" "0,1"
bitfld.long 0x00 2. "  EVENT3EN  ,Event 3 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 1. " EVENT2EN  ,Event 2 detection enable" "0,1"
bitfld.long 0x00 0. "  EVENT1EN  ,Event 1 detection enable" "0,1"
group.long 0x3C++0x3
line.long 0x00 "SMSET_SEDEN_i_4,System Event Detection Enable register 1"
bitfld.long 0x00 31. " EVENT32EN ,Event 32 detection enable" "0,1"
bitfld.long 0x00 30. "  EVENT31EN ,Event 31 detection enable" "0,1"
bitfld.long 0x00 29. "  EVENT30EN ,Event 30 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 28. " EVENT29EN ,Event 29 detection enable" "0,1"
bitfld.long 0x00 27. "  EVENT28EN ,Event 28 detection enable" "0,1"
bitfld.long 0x00 26. "  EVENT27EN ,Event 27 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 25. " EVENT26EN ,Event 26 detection enable" "0,1"
bitfld.long 0x00 24. "  EVENT25EN ,Event 25 detection enable" "0,1"
bitfld.long 0x00 23. "  EVENT24EN ,Event 24 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 22. " EVENT23EN ,Event 23 detection enable" "0,1"
bitfld.long 0x00 21. "  EVENT22EN ,Event 22 detection enable" "0,1"
bitfld.long 0x00 20. "  EVENT21EN ,Event 21 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 19. " EVENT20EN ,Event 20 detection enable" "0,1"
bitfld.long 0x00 18. "  EVENT19EN ,Event 19 detection enable" "0,1"
bitfld.long 0x00 17. "  EVENT18EN ,Event 18 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 16. " EVENT17EN ,Event 17 detection enable" "0,1"
bitfld.long 0x00 15. "  EVENT16EN ,Event 16 detection enable" "0,1"
bitfld.long 0x00 14. "  EVENT15EN ,Event 15 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 13. " EVENT14EN ,Event 14 detection enable" "0,1"
bitfld.long 0x00 12. "  EVENT13EN ,Event 13 detection enable" "0,1"
bitfld.long 0x00 11. "  EVENT12EN ,Event 12 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 10. " EVENT11EN ,Event 11 detection enable" "0,1"
bitfld.long 0x00 9. "  EVENT10EN ,Event 10 detection enable" "0,1"
bitfld.long 0x00 8. "  EVENT9EN  ,Event 9 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 7. " EVENT8EN  ,Event 8 detection enable" "0,1"
bitfld.long 0x00 6. "  EVENT7EN  ,Event 7 detection enable" "0,1"
bitfld.long 0x00 5. "  EVENT6EN  ,Event 6 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 4. " EVENT5EN  ,Event 5 detection enable" "0,1"
bitfld.long 0x00 3. "  EVENT4EN  ,Event 4 detection enable" "0,1"
bitfld.long 0x00 2. "  EVENT3EN  ,Event 3 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 1. " EVENT2EN  ,Event 2 detection enable" "0,1"
bitfld.long 0x00 0. "  EVENT1EN  ,Event 1 detection enable" "0,1"
group.long 0x40++0x3
line.long 0x00 "SMSET_SEDEN_i_5,System Event Detection Enable register 1"
bitfld.long 0x00 31. " EVENT32EN ,Event 32 detection enable" "0,1"
bitfld.long 0x00 30. "  EVENT31EN ,Event 31 detection enable" "0,1"
bitfld.long 0x00 29. "  EVENT30EN ,Event 30 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 28. " EVENT29EN ,Event 29 detection enable" "0,1"
bitfld.long 0x00 27. "  EVENT28EN ,Event 28 detection enable" "0,1"
bitfld.long 0x00 26. "  EVENT27EN ,Event 27 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 25. " EVENT26EN ,Event 26 detection enable" "0,1"
bitfld.long 0x00 24. "  EVENT25EN ,Event 25 detection enable" "0,1"
bitfld.long 0x00 23. "  EVENT24EN ,Event 24 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 22. " EVENT23EN ,Event 23 detection enable" "0,1"
bitfld.long 0x00 21. "  EVENT22EN ,Event 22 detection enable" "0,1"
bitfld.long 0x00 20. "  EVENT21EN ,Event 21 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 19. " EVENT20EN ,Event 20 detection enable" "0,1"
bitfld.long 0x00 18. "  EVENT19EN ,Event 19 detection enable" "0,1"
bitfld.long 0x00 17. "  EVENT18EN ,Event 18 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 16. " EVENT17EN ,Event 17 detection enable" "0,1"
bitfld.long 0x00 15. "  EVENT16EN ,Event 16 detection enable" "0,1"
bitfld.long 0x00 14. "  EVENT15EN ,Event 15 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 13. " EVENT14EN ,Event 14 detection enable" "0,1"
bitfld.long 0x00 12. "  EVENT13EN ,Event 13 detection enable" "0,1"
bitfld.long 0x00 11. "  EVENT12EN ,Event 12 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 10. " EVENT11EN ,Event 11 detection enable" "0,1"
bitfld.long 0x00 9. "  EVENT10EN ,Event 10 detection enable" "0,1"
bitfld.long 0x00 8. "  EVENT9EN  ,Event 9 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 7. " EVENT8EN  ,Event 8 detection enable" "0,1"
bitfld.long 0x00 6. "  EVENT7EN  ,Event 7 detection enable" "0,1"
bitfld.long 0x00 5. "  EVENT6EN  ,Event 6 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 4. " EVENT5EN  ,Event 5 detection enable" "0,1"
bitfld.long 0x00 3. "  EVENT4EN  ,Event 4 detection enable" "0,1"
bitfld.long 0x00 2. "  EVENT3EN  ,Event 3 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 1. " EVENT2EN  ,Event 2 detection enable" "0,1"
bitfld.long 0x00 0. "  EVENT1EN  ,Event 1 detection enable" "0,1"
group.long 0x44++0x3
line.long 0x00 "SMSET_SEDEN_i_6,System Event Detection Enable register 1"
bitfld.long 0x00 31. " EVENT32EN ,Event 32 detection enable" "0,1"
bitfld.long 0x00 30. "  EVENT31EN ,Event 31 detection enable" "0,1"
bitfld.long 0x00 29. "  EVENT30EN ,Event 30 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 28. " EVENT29EN ,Event 29 detection enable" "0,1"
bitfld.long 0x00 27. "  EVENT28EN ,Event 28 detection enable" "0,1"
bitfld.long 0x00 26. "  EVENT27EN ,Event 27 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 25. " EVENT26EN ,Event 26 detection enable" "0,1"
bitfld.long 0x00 24. "  EVENT25EN ,Event 25 detection enable" "0,1"
bitfld.long 0x00 23. "  EVENT24EN ,Event 24 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 22. " EVENT23EN ,Event 23 detection enable" "0,1"
bitfld.long 0x00 21. "  EVENT22EN ,Event 22 detection enable" "0,1"
bitfld.long 0x00 20. "  EVENT21EN ,Event 21 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 19. " EVENT20EN ,Event 20 detection enable" "0,1"
bitfld.long 0x00 18. "  EVENT19EN ,Event 19 detection enable" "0,1"
bitfld.long 0x00 17. "  EVENT18EN ,Event 18 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 16. " EVENT17EN ,Event 17 detection enable" "0,1"
bitfld.long 0x00 15. "  EVENT16EN ,Event 16 detection enable" "0,1"
bitfld.long 0x00 14. "  EVENT15EN ,Event 15 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 13. " EVENT14EN ,Event 14 detection enable" "0,1"
bitfld.long 0x00 12. "  EVENT13EN ,Event 13 detection enable" "0,1"
bitfld.long 0x00 11. "  EVENT12EN ,Event 12 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 10. " EVENT11EN ,Event 11 detection enable" "0,1"
bitfld.long 0x00 9. "  EVENT10EN ,Event 10 detection enable" "0,1"
bitfld.long 0x00 8. "  EVENT9EN  ,Event 9 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 7. " EVENT8EN  ,Event 8 detection enable" "0,1"
bitfld.long 0x00 6. "  EVENT7EN  ,Event 7 detection enable" "0,1"
bitfld.long 0x00 5. "  EVENT6EN  ,Event 6 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 4. " EVENT5EN  ,Event 5 detection enable" "0,1"
bitfld.long 0x00 3. "  EVENT4EN  ,Event 4 detection enable" "0,1"
bitfld.long 0x00 2. "  EVENT3EN  ,Event 3 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 1. " EVENT2EN  ,Event 2 detection enable" "0,1"
bitfld.long 0x00 0. "  EVENT1EN  ,Event 1 detection enable" "0,1"
group.long 0x48++0x3
line.long 0x00 "SMSET_SEDEN_i_7,System Event Detection Enable register 1"
bitfld.long 0x00 31. " EVENT32EN ,Event 32 detection enable" "0,1"
bitfld.long 0x00 30. "  EVENT31EN ,Event 31 detection enable" "0,1"
bitfld.long 0x00 29. "  EVENT30EN ,Event 30 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 28. " EVENT29EN ,Event 29 detection enable" "0,1"
bitfld.long 0x00 27. "  EVENT28EN ,Event 28 detection enable" "0,1"
bitfld.long 0x00 26. "  EVENT27EN ,Event 27 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 25. " EVENT26EN ,Event 26 detection enable" "0,1"
bitfld.long 0x00 24. "  EVENT25EN ,Event 25 detection enable" "0,1"
bitfld.long 0x00 23. "  EVENT24EN ,Event 24 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 22. " EVENT23EN ,Event 23 detection enable" "0,1"
bitfld.long 0x00 21. "  EVENT22EN ,Event 22 detection enable" "0,1"
bitfld.long 0x00 20. "  EVENT21EN ,Event 21 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 19. " EVENT20EN ,Event 20 detection enable" "0,1"
bitfld.long 0x00 18. "  EVENT19EN ,Event 19 detection enable" "0,1"
bitfld.long 0x00 17. "  EVENT18EN ,Event 18 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 16. " EVENT17EN ,Event 17 detection enable" "0,1"
bitfld.long 0x00 15. "  EVENT16EN ,Event 16 detection enable" "0,1"
bitfld.long 0x00 14. "  EVENT15EN ,Event 15 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 13. " EVENT14EN ,Event 14 detection enable" "0,1"
bitfld.long 0x00 12. "  EVENT13EN ,Event 13 detection enable" "0,1"
bitfld.long 0x00 11. "  EVENT12EN ,Event 12 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 10. " EVENT11EN ,Event 11 detection enable" "0,1"
bitfld.long 0x00 9. "  EVENT10EN ,Event 10 detection enable" "0,1"
bitfld.long 0x00 8. "  EVENT9EN  ,Event 9 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 7. " EVENT8EN  ,Event 8 detection enable" "0,1"
bitfld.long 0x00 6. "  EVENT7EN  ,Event 7 detection enable" "0,1"
bitfld.long 0x00 5. "  EVENT6EN  ,Event 6 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 4. " EVENT5EN  ,Event 5 detection enable" "0,1"
bitfld.long 0x00 3. "  EVENT4EN  ,Event 4 detection enable" "0,1"
bitfld.long 0x00 2. "  EVENT3EN  ,Event 3 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 1. " EVENT2EN  ,Event 2 detection enable" "0,1"
bitfld.long 0x00 0. "  EVENT1EN  ,Event 1 detection enable" "0,1"
group.long 0x4C++0x3
line.long 0x00 "SMSET_SEDEN_i_8,System Event Detection Enable register 1"
bitfld.long 0x00 31. " EVENT32EN ,Event 32 detection enable" "0,1"
bitfld.long 0x00 30. "  EVENT31EN ,Event 31 detection enable" "0,1"
bitfld.long 0x00 29. "  EVENT30EN ,Event 30 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 28. " EVENT29EN ,Event 29 detection enable" "0,1"
bitfld.long 0x00 27. "  EVENT28EN ,Event 28 detection enable" "0,1"
bitfld.long 0x00 26. "  EVENT27EN ,Event 27 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 25. " EVENT26EN ,Event 26 detection enable" "0,1"
bitfld.long 0x00 24. "  EVENT25EN ,Event 25 detection enable" "0,1"
bitfld.long 0x00 23. "  EVENT24EN ,Event 24 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 22. " EVENT23EN ,Event 23 detection enable" "0,1"
bitfld.long 0x00 21. "  EVENT22EN ,Event 22 detection enable" "0,1"
bitfld.long 0x00 20. "  EVENT21EN ,Event 21 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 19. " EVENT20EN ,Event 20 detection enable" "0,1"
bitfld.long 0x00 18. "  EVENT19EN ,Event 19 detection enable" "0,1"
bitfld.long 0x00 17. "  EVENT18EN ,Event 18 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 16. " EVENT17EN ,Event 17 detection enable" "0,1"
bitfld.long 0x00 15. "  EVENT16EN ,Event 16 detection enable" "0,1"
bitfld.long 0x00 14. "  EVENT15EN ,Event 15 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 13. " EVENT14EN ,Event 14 detection enable" "0,1"
bitfld.long 0x00 12. "  EVENT13EN ,Event 13 detection enable" "0,1"
bitfld.long 0x00 11. "  EVENT12EN ,Event 12 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 10. " EVENT11EN ,Event 11 detection enable" "0,1"
bitfld.long 0x00 9. "  EVENT10EN ,Event 10 detection enable" "0,1"
bitfld.long 0x00 8. "  EVENT9EN  ,Event 9 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 7. " EVENT8EN  ,Event 8 detection enable" "0,1"
bitfld.long 0x00 6. "  EVENT7EN  ,Event 7 detection enable" "0,1"
bitfld.long 0x00 5. "  EVENT6EN  ,Event 6 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 4. " EVENT5EN  ,Event 5 detection enable" "0,1"
bitfld.long 0x00 3. "  EVENT4EN  ,Event 4 detection enable" "0,1"
bitfld.long 0x00 2. "  EVENT3EN  ,Event 3 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 1. " EVENT2EN  ,Event 2 detection enable" "0,1"
bitfld.long 0x00 0. "  EVENT1EN  ,Event 1 detection enable" "0,1"
tree.end
textline ""
width 12.
rgroup.long 0x0++0x3
line.long 0x00 "SMSET_ID,SMSET identification register"
hexmask.long 0x00 0.--31. 1. " REVISION           ,Revision"
group.long 0x10++0x3
line.long 0x00 "SMSET_SCFG,SMSET system configuration register"
bitfld.long 0x00 2.--3. " IDLEMODE           ,Configuration of the local target state management mode. 0x0: Force-idle; 0x1No-idle; 0x2 Smart-idle; 0x3 Smart-Idle wakeup-capable" "0,1,2,3"
bitfld.long 0x00 0. "         SOFTRESET        ,Triggers System Event Trace module reset. This bit is automatically cleared by hardware" "0,1"
rgroup.long 0x14++0x3
line.long 0x00 "SMSET_SR,SMSET Status Register"
bitfld.long 0x00 9. " SWFIFOEMPTY        ,SW message FIFO empty" "0,1"
bitfld.long 0x00 8. "         HWFIFOEMPTY      ,System event trace FIFO empty" "0,1"
bitfld.long 0x00 0. "  RESETDONE    ,Reset completed" "0,1"
group.long 0x24++0x3
line.long 0x00 "SMSET_CFG,SMSET Configuration register"
bitfld.long 0x00 30.--31. " OWNERSHIP          ,Read to get current ownership status. The claim status encoding is (0=Available, 1=Claimed, 2=Enabled, 3=Reserved);Send command to modify ownership state: 00= Release ownership, 01 = Claim ownership, 10 = Enable unit, 11 = No opera..." "0,1,2,3"
bitfld.long 0x00 29. "         DEBUGGEROVERRIDE ,Reading from the DebuggerOverride bit returns a 1." "0,1"
bitfld.long 0x00 28. "  CURRENTOWNER ,This value reflects the SMSET ownership when the register is in a non-Available state." "0,1"
textline "                     "
bitfld.long 0x00 7. " CAPTUREEN          ,When high the sytem event capture is enabled" "0,1"
bitfld.long 0x00 4. "         EVENTLEVEL       ,This applies to all selected events: 0x0: low level event detection 0x1: high level evnet detection" "0,1"
bitfld.long 0x00 3. "  EVENTMSG     ,essage generated based on: 0x0: sampling window 0x1: event detection" "0,1"
textline "                     "
bitfld.long 0x00 2. " STOP               ,Stop capturing system events from external trigger detection [EMU1 HIGH to LOW]" "0,1"
bitfld.long 0x00 1. "         START            ,Start capturing system events from external trigger detection [EMU0 HIGH to LOW]" "0,1"
group.long 0x28++0x3
line.long 0x00 "SMSET_SESW,System Event Sampling Window register"
hexmask.long.byte 0x00 0.--7. 1. " SAMPLINGWINDOWSIZE ,System events sampling window size expressed as SMSET cycles"
width 0x0B
tree.end
tree "EVE3_SMSET"
base ad:0x42288000
tree "Channel_1"
width 17.
group.long 0x30++0x3
line.long 0x00 "SMSET_SEDEN_i_1,System Event Detection Enable register 1"
bitfld.long 0x00 31. " EVENT32EN ,Event 32 detection enable" "0,1"
bitfld.long 0x00 30. "  EVENT31EN ,Event 31 detection enable" "0,1"
bitfld.long 0x00 29. "  EVENT30EN ,Event 30 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 28. " EVENT29EN ,Event 29 detection enable" "0,1"
bitfld.long 0x00 27. "  EVENT28EN ,Event 28 detection enable" "0,1"
bitfld.long 0x00 26. "  EVENT27EN ,Event 27 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 25. " EVENT26EN ,Event 26 detection enable" "0,1"
bitfld.long 0x00 24. "  EVENT25EN ,Event 25 detection enable" "0,1"
bitfld.long 0x00 23. "  EVENT24EN ,Event 24 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 22. " EVENT23EN ,Event 23 detection enable" "0,1"
bitfld.long 0x00 21. "  EVENT22EN ,Event 22 detection enable" "0,1"
bitfld.long 0x00 20. "  EVENT21EN ,Event 21 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 19. " EVENT20EN ,Event 20 detection enable" "0,1"
bitfld.long 0x00 18. "  EVENT19EN ,Event 19 detection enable" "0,1"
bitfld.long 0x00 17. "  EVENT18EN ,Event 18 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 16. " EVENT17EN ,Event 17 detection enable" "0,1"
bitfld.long 0x00 15. "  EVENT16EN ,Event 16 detection enable" "0,1"
bitfld.long 0x00 14. "  EVENT15EN ,Event 15 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 13. " EVENT14EN ,Event 14 detection enable" "0,1"
bitfld.long 0x00 12. "  EVENT13EN ,Event 13 detection enable" "0,1"
bitfld.long 0x00 11. "  EVENT12EN ,Event 12 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 10. " EVENT11EN ,Event 11 detection enable" "0,1"
bitfld.long 0x00 9. "  EVENT10EN ,Event 10 detection enable" "0,1"
bitfld.long 0x00 8. "  EVENT9EN  ,Event 9 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 7. " EVENT8EN  ,Event 8 detection enable" "0,1"
bitfld.long 0x00 6. "  EVENT7EN  ,Event 7 detection enable" "0,1"
bitfld.long 0x00 5. "  EVENT6EN  ,Event 6 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 4. " EVENT5EN  ,Event 5 detection enable" "0,1"
bitfld.long 0x00 3. "  EVENT4EN  ,Event 4 detection enable" "0,1"
bitfld.long 0x00 2. "  EVENT3EN  ,Event 3 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 1. " EVENT2EN  ,Event 2 detection enable" "0,1"
bitfld.long 0x00 0. "  EVENT1EN  ,Event 1 detection enable" "0,1"
group.long 0x34++0x3
line.long 0x00 "SMSET_SEDEN_i_2,System Event Detection Enable register 1"
bitfld.long 0x00 31. " EVENT32EN ,Event 32 detection enable" "0,1"
bitfld.long 0x00 30. "  EVENT31EN ,Event 31 detection enable" "0,1"
bitfld.long 0x00 29. "  EVENT30EN ,Event 30 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 28. " EVENT29EN ,Event 29 detection enable" "0,1"
bitfld.long 0x00 27. "  EVENT28EN ,Event 28 detection enable" "0,1"
bitfld.long 0x00 26. "  EVENT27EN ,Event 27 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 25. " EVENT26EN ,Event 26 detection enable" "0,1"
bitfld.long 0x00 24. "  EVENT25EN ,Event 25 detection enable" "0,1"
bitfld.long 0x00 23. "  EVENT24EN ,Event 24 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 22. " EVENT23EN ,Event 23 detection enable" "0,1"
bitfld.long 0x00 21. "  EVENT22EN ,Event 22 detection enable" "0,1"
bitfld.long 0x00 20. "  EVENT21EN ,Event 21 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 19. " EVENT20EN ,Event 20 detection enable" "0,1"
bitfld.long 0x00 18. "  EVENT19EN ,Event 19 detection enable" "0,1"
bitfld.long 0x00 17. "  EVENT18EN ,Event 18 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 16. " EVENT17EN ,Event 17 detection enable" "0,1"
bitfld.long 0x00 15. "  EVENT16EN ,Event 16 detection enable" "0,1"
bitfld.long 0x00 14. "  EVENT15EN ,Event 15 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 13. " EVENT14EN ,Event 14 detection enable" "0,1"
bitfld.long 0x00 12. "  EVENT13EN ,Event 13 detection enable" "0,1"
bitfld.long 0x00 11. "  EVENT12EN ,Event 12 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 10. " EVENT11EN ,Event 11 detection enable" "0,1"
bitfld.long 0x00 9. "  EVENT10EN ,Event 10 detection enable" "0,1"
bitfld.long 0x00 8. "  EVENT9EN  ,Event 9 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 7. " EVENT8EN  ,Event 8 detection enable" "0,1"
bitfld.long 0x00 6. "  EVENT7EN  ,Event 7 detection enable" "0,1"
bitfld.long 0x00 5. "  EVENT6EN  ,Event 6 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 4. " EVENT5EN  ,Event 5 detection enable" "0,1"
bitfld.long 0x00 3. "  EVENT4EN  ,Event 4 detection enable" "0,1"
bitfld.long 0x00 2. "  EVENT3EN  ,Event 3 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 1. " EVENT2EN  ,Event 2 detection enable" "0,1"
bitfld.long 0x00 0. "  EVENT1EN  ,Event 1 detection enable" "0,1"
group.long 0x38++0x3
line.long 0x00 "SMSET_SEDEN_i_3,System Event Detection Enable register 1"
bitfld.long 0x00 31. " EVENT32EN ,Event 32 detection enable" "0,1"
bitfld.long 0x00 30. "  EVENT31EN ,Event 31 detection enable" "0,1"
bitfld.long 0x00 29. "  EVENT30EN ,Event 30 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 28. " EVENT29EN ,Event 29 detection enable" "0,1"
bitfld.long 0x00 27. "  EVENT28EN ,Event 28 detection enable" "0,1"
bitfld.long 0x00 26. "  EVENT27EN ,Event 27 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 25. " EVENT26EN ,Event 26 detection enable" "0,1"
bitfld.long 0x00 24. "  EVENT25EN ,Event 25 detection enable" "0,1"
bitfld.long 0x00 23. "  EVENT24EN ,Event 24 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 22. " EVENT23EN ,Event 23 detection enable" "0,1"
bitfld.long 0x00 21. "  EVENT22EN ,Event 22 detection enable" "0,1"
bitfld.long 0x00 20. "  EVENT21EN ,Event 21 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 19. " EVENT20EN ,Event 20 detection enable" "0,1"
bitfld.long 0x00 18. "  EVENT19EN ,Event 19 detection enable" "0,1"
bitfld.long 0x00 17. "  EVENT18EN ,Event 18 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 16. " EVENT17EN ,Event 17 detection enable" "0,1"
bitfld.long 0x00 15. "  EVENT16EN ,Event 16 detection enable" "0,1"
bitfld.long 0x00 14. "  EVENT15EN ,Event 15 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 13. " EVENT14EN ,Event 14 detection enable" "0,1"
bitfld.long 0x00 12. "  EVENT13EN ,Event 13 detection enable" "0,1"
bitfld.long 0x00 11. "  EVENT12EN ,Event 12 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 10. " EVENT11EN ,Event 11 detection enable" "0,1"
bitfld.long 0x00 9. "  EVENT10EN ,Event 10 detection enable" "0,1"
bitfld.long 0x00 8. "  EVENT9EN  ,Event 9 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 7. " EVENT8EN  ,Event 8 detection enable" "0,1"
bitfld.long 0x00 6. "  EVENT7EN  ,Event 7 detection enable" "0,1"
bitfld.long 0x00 5. "  EVENT6EN  ,Event 6 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 4. " EVENT5EN  ,Event 5 detection enable" "0,1"
bitfld.long 0x00 3. "  EVENT4EN  ,Event 4 detection enable" "0,1"
bitfld.long 0x00 2. "  EVENT3EN  ,Event 3 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 1. " EVENT2EN  ,Event 2 detection enable" "0,1"
bitfld.long 0x00 0. "  EVENT1EN  ,Event 1 detection enable" "0,1"
group.long 0x3C++0x3
line.long 0x00 "SMSET_SEDEN_i_4,System Event Detection Enable register 1"
bitfld.long 0x00 31. " EVENT32EN ,Event 32 detection enable" "0,1"
bitfld.long 0x00 30. "  EVENT31EN ,Event 31 detection enable" "0,1"
bitfld.long 0x00 29. "  EVENT30EN ,Event 30 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 28. " EVENT29EN ,Event 29 detection enable" "0,1"
bitfld.long 0x00 27. "  EVENT28EN ,Event 28 detection enable" "0,1"
bitfld.long 0x00 26. "  EVENT27EN ,Event 27 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 25. " EVENT26EN ,Event 26 detection enable" "0,1"
bitfld.long 0x00 24. "  EVENT25EN ,Event 25 detection enable" "0,1"
bitfld.long 0x00 23. "  EVENT24EN ,Event 24 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 22. " EVENT23EN ,Event 23 detection enable" "0,1"
bitfld.long 0x00 21. "  EVENT22EN ,Event 22 detection enable" "0,1"
bitfld.long 0x00 20. "  EVENT21EN ,Event 21 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 19. " EVENT20EN ,Event 20 detection enable" "0,1"
bitfld.long 0x00 18. "  EVENT19EN ,Event 19 detection enable" "0,1"
bitfld.long 0x00 17. "  EVENT18EN ,Event 18 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 16. " EVENT17EN ,Event 17 detection enable" "0,1"
bitfld.long 0x00 15. "  EVENT16EN ,Event 16 detection enable" "0,1"
bitfld.long 0x00 14. "  EVENT15EN ,Event 15 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 13. " EVENT14EN ,Event 14 detection enable" "0,1"
bitfld.long 0x00 12. "  EVENT13EN ,Event 13 detection enable" "0,1"
bitfld.long 0x00 11. "  EVENT12EN ,Event 12 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 10. " EVENT11EN ,Event 11 detection enable" "0,1"
bitfld.long 0x00 9. "  EVENT10EN ,Event 10 detection enable" "0,1"
bitfld.long 0x00 8. "  EVENT9EN  ,Event 9 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 7. " EVENT8EN  ,Event 8 detection enable" "0,1"
bitfld.long 0x00 6. "  EVENT7EN  ,Event 7 detection enable" "0,1"
bitfld.long 0x00 5. "  EVENT6EN  ,Event 6 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 4. " EVENT5EN  ,Event 5 detection enable" "0,1"
bitfld.long 0x00 3. "  EVENT4EN  ,Event 4 detection enable" "0,1"
bitfld.long 0x00 2. "  EVENT3EN  ,Event 3 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 1. " EVENT2EN  ,Event 2 detection enable" "0,1"
bitfld.long 0x00 0. "  EVENT1EN  ,Event 1 detection enable" "0,1"
group.long 0x40++0x3
line.long 0x00 "SMSET_SEDEN_i_5,System Event Detection Enable register 1"
bitfld.long 0x00 31. " EVENT32EN ,Event 32 detection enable" "0,1"
bitfld.long 0x00 30. "  EVENT31EN ,Event 31 detection enable" "0,1"
bitfld.long 0x00 29. "  EVENT30EN ,Event 30 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 28. " EVENT29EN ,Event 29 detection enable" "0,1"
bitfld.long 0x00 27. "  EVENT28EN ,Event 28 detection enable" "0,1"
bitfld.long 0x00 26. "  EVENT27EN ,Event 27 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 25. " EVENT26EN ,Event 26 detection enable" "0,1"
bitfld.long 0x00 24. "  EVENT25EN ,Event 25 detection enable" "0,1"
bitfld.long 0x00 23. "  EVENT24EN ,Event 24 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 22. " EVENT23EN ,Event 23 detection enable" "0,1"
bitfld.long 0x00 21. "  EVENT22EN ,Event 22 detection enable" "0,1"
bitfld.long 0x00 20. "  EVENT21EN ,Event 21 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 19. " EVENT20EN ,Event 20 detection enable" "0,1"
bitfld.long 0x00 18. "  EVENT19EN ,Event 19 detection enable" "0,1"
bitfld.long 0x00 17. "  EVENT18EN ,Event 18 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 16. " EVENT17EN ,Event 17 detection enable" "0,1"
bitfld.long 0x00 15. "  EVENT16EN ,Event 16 detection enable" "0,1"
bitfld.long 0x00 14. "  EVENT15EN ,Event 15 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 13. " EVENT14EN ,Event 14 detection enable" "0,1"
bitfld.long 0x00 12. "  EVENT13EN ,Event 13 detection enable" "0,1"
bitfld.long 0x00 11. "  EVENT12EN ,Event 12 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 10. " EVENT11EN ,Event 11 detection enable" "0,1"
bitfld.long 0x00 9. "  EVENT10EN ,Event 10 detection enable" "0,1"
bitfld.long 0x00 8. "  EVENT9EN  ,Event 9 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 7. " EVENT8EN  ,Event 8 detection enable" "0,1"
bitfld.long 0x00 6. "  EVENT7EN  ,Event 7 detection enable" "0,1"
bitfld.long 0x00 5. "  EVENT6EN  ,Event 6 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 4. " EVENT5EN  ,Event 5 detection enable" "0,1"
bitfld.long 0x00 3. "  EVENT4EN  ,Event 4 detection enable" "0,1"
bitfld.long 0x00 2. "  EVENT3EN  ,Event 3 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 1. " EVENT2EN  ,Event 2 detection enable" "0,1"
bitfld.long 0x00 0. "  EVENT1EN  ,Event 1 detection enable" "0,1"
group.long 0x44++0x3
line.long 0x00 "SMSET_SEDEN_i_6,System Event Detection Enable register 1"
bitfld.long 0x00 31. " EVENT32EN ,Event 32 detection enable" "0,1"
bitfld.long 0x00 30. "  EVENT31EN ,Event 31 detection enable" "0,1"
bitfld.long 0x00 29. "  EVENT30EN ,Event 30 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 28. " EVENT29EN ,Event 29 detection enable" "0,1"
bitfld.long 0x00 27. "  EVENT28EN ,Event 28 detection enable" "0,1"
bitfld.long 0x00 26. "  EVENT27EN ,Event 27 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 25. " EVENT26EN ,Event 26 detection enable" "0,1"
bitfld.long 0x00 24. "  EVENT25EN ,Event 25 detection enable" "0,1"
bitfld.long 0x00 23. "  EVENT24EN ,Event 24 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 22. " EVENT23EN ,Event 23 detection enable" "0,1"
bitfld.long 0x00 21. "  EVENT22EN ,Event 22 detection enable" "0,1"
bitfld.long 0x00 20. "  EVENT21EN ,Event 21 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 19. " EVENT20EN ,Event 20 detection enable" "0,1"
bitfld.long 0x00 18. "  EVENT19EN ,Event 19 detection enable" "0,1"
bitfld.long 0x00 17. "  EVENT18EN ,Event 18 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 16. " EVENT17EN ,Event 17 detection enable" "0,1"
bitfld.long 0x00 15. "  EVENT16EN ,Event 16 detection enable" "0,1"
bitfld.long 0x00 14. "  EVENT15EN ,Event 15 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 13. " EVENT14EN ,Event 14 detection enable" "0,1"
bitfld.long 0x00 12. "  EVENT13EN ,Event 13 detection enable" "0,1"
bitfld.long 0x00 11. "  EVENT12EN ,Event 12 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 10. " EVENT11EN ,Event 11 detection enable" "0,1"
bitfld.long 0x00 9. "  EVENT10EN ,Event 10 detection enable" "0,1"
bitfld.long 0x00 8. "  EVENT9EN  ,Event 9 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 7. " EVENT8EN  ,Event 8 detection enable" "0,1"
bitfld.long 0x00 6. "  EVENT7EN  ,Event 7 detection enable" "0,1"
bitfld.long 0x00 5. "  EVENT6EN  ,Event 6 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 4. " EVENT5EN  ,Event 5 detection enable" "0,1"
bitfld.long 0x00 3. "  EVENT4EN  ,Event 4 detection enable" "0,1"
bitfld.long 0x00 2. "  EVENT3EN  ,Event 3 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 1. " EVENT2EN  ,Event 2 detection enable" "0,1"
bitfld.long 0x00 0. "  EVENT1EN  ,Event 1 detection enable" "0,1"
group.long 0x48++0x3
line.long 0x00 "SMSET_SEDEN_i_7,System Event Detection Enable register 1"
bitfld.long 0x00 31. " EVENT32EN ,Event 32 detection enable" "0,1"
bitfld.long 0x00 30. "  EVENT31EN ,Event 31 detection enable" "0,1"
bitfld.long 0x00 29. "  EVENT30EN ,Event 30 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 28. " EVENT29EN ,Event 29 detection enable" "0,1"
bitfld.long 0x00 27. "  EVENT28EN ,Event 28 detection enable" "0,1"
bitfld.long 0x00 26. "  EVENT27EN ,Event 27 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 25. " EVENT26EN ,Event 26 detection enable" "0,1"
bitfld.long 0x00 24. "  EVENT25EN ,Event 25 detection enable" "0,1"
bitfld.long 0x00 23. "  EVENT24EN ,Event 24 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 22. " EVENT23EN ,Event 23 detection enable" "0,1"
bitfld.long 0x00 21. "  EVENT22EN ,Event 22 detection enable" "0,1"
bitfld.long 0x00 20. "  EVENT21EN ,Event 21 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 19. " EVENT20EN ,Event 20 detection enable" "0,1"
bitfld.long 0x00 18. "  EVENT19EN ,Event 19 detection enable" "0,1"
bitfld.long 0x00 17. "  EVENT18EN ,Event 18 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 16. " EVENT17EN ,Event 17 detection enable" "0,1"
bitfld.long 0x00 15. "  EVENT16EN ,Event 16 detection enable" "0,1"
bitfld.long 0x00 14. "  EVENT15EN ,Event 15 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 13. " EVENT14EN ,Event 14 detection enable" "0,1"
bitfld.long 0x00 12. "  EVENT13EN ,Event 13 detection enable" "0,1"
bitfld.long 0x00 11. "  EVENT12EN ,Event 12 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 10. " EVENT11EN ,Event 11 detection enable" "0,1"
bitfld.long 0x00 9. "  EVENT10EN ,Event 10 detection enable" "0,1"
bitfld.long 0x00 8. "  EVENT9EN  ,Event 9 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 7. " EVENT8EN  ,Event 8 detection enable" "0,1"
bitfld.long 0x00 6. "  EVENT7EN  ,Event 7 detection enable" "0,1"
bitfld.long 0x00 5. "  EVENT6EN  ,Event 6 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 4. " EVENT5EN  ,Event 5 detection enable" "0,1"
bitfld.long 0x00 3. "  EVENT4EN  ,Event 4 detection enable" "0,1"
bitfld.long 0x00 2. "  EVENT3EN  ,Event 3 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 1. " EVENT2EN  ,Event 2 detection enable" "0,1"
bitfld.long 0x00 0. "  EVENT1EN  ,Event 1 detection enable" "0,1"
group.long 0x4C++0x3
line.long 0x00 "SMSET_SEDEN_i_8,System Event Detection Enable register 1"
bitfld.long 0x00 31. " EVENT32EN ,Event 32 detection enable" "0,1"
bitfld.long 0x00 30. "  EVENT31EN ,Event 31 detection enable" "0,1"
bitfld.long 0x00 29. "  EVENT30EN ,Event 30 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 28. " EVENT29EN ,Event 29 detection enable" "0,1"
bitfld.long 0x00 27. "  EVENT28EN ,Event 28 detection enable" "0,1"
bitfld.long 0x00 26. "  EVENT27EN ,Event 27 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 25. " EVENT26EN ,Event 26 detection enable" "0,1"
bitfld.long 0x00 24. "  EVENT25EN ,Event 25 detection enable" "0,1"
bitfld.long 0x00 23. "  EVENT24EN ,Event 24 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 22. " EVENT23EN ,Event 23 detection enable" "0,1"
bitfld.long 0x00 21. "  EVENT22EN ,Event 22 detection enable" "0,1"
bitfld.long 0x00 20. "  EVENT21EN ,Event 21 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 19. " EVENT20EN ,Event 20 detection enable" "0,1"
bitfld.long 0x00 18. "  EVENT19EN ,Event 19 detection enable" "0,1"
bitfld.long 0x00 17. "  EVENT18EN ,Event 18 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 16. " EVENT17EN ,Event 17 detection enable" "0,1"
bitfld.long 0x00 15. "  EVENT16EN ,Event 16 detection enable" "0,1"
bitfld.long 0x00 14. "  EVENT15EN ,Event 15 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 13. " EVENT14EN ,Event 14 detection enable" "0,1"
bitfld.long 0x00 12. "  EVENT13EN ,Event 13 detection enable" "0,1"
bitfld.long 0x00 11. "  EVENT12EN ,Event 12 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 10. " EVENT11EN ,Event 11 detection enable" "0,1"
bitfld.long 0x00 9. "  EVENT10EN ,Event 10 detection enable" "0,1"
bitfld.long 0x00 8. "  EVENT9EN  ,Event 9 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 7. " EVENT8EN  ,Event 8 detection enable" "0,1"
bitfld.long 0x00 6. "  EVENT7EN  ,Event 7 detection enable" "0,1"
bitfld.long 0x00 5. "  EVENT6EN  ,Event 6 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 4. " EVENT5EN  ,Event 5 detection enable" "0,1"
bitfld.long 0x00 3. "  EVENT4EN  ,Event 4 detection enable" "0,1"
bitfld.long 0x00 2. "  EVENT3EN  ,Event 3 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 1. " EVENT2EN  ,Event 2 detection enable" "0,1"
bitfld.long 0x00 0. "  EVENT1EN  ,Event 1 detection enable" "0,1"
tree.end
textline ""
width 12.
rgroup.long 0x0++0x3
line.long 0x00 "SMSET_ID,SMSET identification register"
hexmask.long 0x00 0.--31. 1. " REVISION           ,Revision"
group.long 0x10++0x3
line.long 0x00 "SMSET_SCFG,SMSET system configuration register"
bitfld.long 0x00 2.--3. " IDLEMODE           ,Configuration of the local target state management mode. 0x0: Force-idle; 0x1No-idle; 0x2 Smart-idle; 0x3 Smart-Idle wakeup-capable" "0,1,2,3"
bitfld.long 0x00 0. "         SOFTRESET        ,Triggers System Event Trace module reset. This bit is automatically cleared by hardware" "0,1"
rgroup.long 0x14++0x3
line.long 0x00 "SMSET_SR,SMSET Status Register"
bitfld.long 0x00 9. " SWFIFOEMPTY        ,SW message FIFO empty" "0,1"
bitfld.long 0x00 8. "         HWFIFOEMPTY      ,System event trace FIFO empty" "0,1"
bitfld.long 0x00 0. "  RESETDONE    ,Reset completed" "0,1"
group.long 0x24++0x3
line.long 0x00 "SMSET_CFG,SMSET Configuration register"
bitfld.long 0x00 30.--31. " OWNERSHIP          ,Read to get current ownership status. The claim status encoding is (0=Available, 1=Claimed, 2=Enabled, 3=Reserved);Send command to modify ownership state: 00= Release ownership, 01 = Claim ownership, 10 = Enable unit, 11 = No opera..." "0,1,2,3"
bitfld.long 0x00 29. "         DEBUGGEROVERRIDE ,Reading from the DebuggerOverride bit returns a 1." "0,1"
bitfld.long 0x00 28. "  CURRENTOWNER ,This value reflects the SMSET ownership when the register is in a non-Available state." "0,1"
textline "                     "
bitfld.long 0x00 7. " CAPTUREEN          ,When high the sytem event capture is enabled" "0,1"
bitfld.long 0x00 4. "         EVENTLEVEL       ,This applies to all selected events: 0x0: low level event detection 0x1: high level evnet detection" "0,1"
bitfld.long 0x00 3. "  EVENTMSG     ,essage generated based on: 0x0: sampling window 0x1: event detection" "0,1"
textline "                     "
bitfld.long 0x00 2. " STOP               ,Stop capturing system events from external trigger detection [EMU1 HIGH to LOW]" "0,1"
bitfld.long 0x00 1. "         START            ,Start capturing system events from external trigger detection [EMU0 HIGH to LOW]" "0,1"
group.long 0x28++0x3
line.long 0x00 "SMSET_SESW,System Event Sampling Window register"
hexmask.long.byte 0x00 0.--7. 1. " SAMPLINGWINDOWSIZE ,System events sampling window size expressed as SMSET cycles"
width 0x0B
tree.end
tree "EVE4_SMSET"
base ad:0x42388000
tree "Channel_1"
width 17.
group.long 0x30++0x3
line.long 0x00 "SMSET_SEDEN_i_1,System Event Detection Enable register 1"
bitfld.long 0x00 31. " EVENT32EN ,Event 32 detection enable" "0,1"
bitfld.long 0x00 30. "  EVENT31EN ,Event 31 detection enable" "0,1"
bitfld.long 0x00 29. "  EVENT30EN ,Event 30 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 28. " EVENT29EN ,Event 29 detection enable" "0,1"
bitfld.long 0x00 27. "  EVENT28EN ,Event 28 detection enable" "0,1"
bitfld.long 0x00 26. "  EVENT27EN ,Event 27 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 25. " EVENT26EN ,Event 26 detection enable" "0,1"
bitfld.long 0x00 24. "  EVENT25EN ,Event 25 detection enable" "0,1"
bitfld.long 0x00 23. "  EVENT24EN ,Event 24 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 22. " EVENT23EN ,Event 23 detection enable" "0,1"
bitfld.long 0x00 21. "  EVENT22EN ,Event 22 detection enable" "0,1"
bitfld.long 0x00 20. "  EVENT21EN ,Event 21 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 19. " EVENT20EN ,Event 20 detection enable" "0,1"
bitfld.long 0x00 18. "  EVENT19EN ,Event 19 detection enable" "0,1"
bitfld.long 0x00 17. "  EVENT18EN ,Event 18 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 16. " EVENT17EN ,Event 17 detection enable" "0,1"
bitfld.long 0x00 15. "  EVENT16EN ,Event 16 detection enable" "0,1"
bitfld.long 0x00 14. "  EVENT15EN ,Event 15 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 13. " EVENT14EN ,Event 14 detection enable" "0,1"
bitfld.long 0x00 12. "  EVENT13EN ,Event 13 detection enable" "0,1"
bitfld.long 0x00 11. "  EVENT12EN ,Event 12 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 10. " EVENT11EN ,Event 11 detection enable" "0,1"
bitfld.long 0x00 9. "  EVENT10EN ,Event 10 detection enable" "0,1"
bitfld.long 0x00 8. "  EVENT9EN  ,Event 9 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 7. " EVENT8EN  ,Event 8 detection enable" "0,1"
bitfld.long 0x00 6. "  EVENT7EN  ,Event 7 detection enable" "0,1"
bitfld.long 0x00 5. "  EVENT6EN  ,Event 6 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 4. " EVENT5EN  ,Event 5 detection enable" "0,1"
bitfld.long 0x00 3. "  EVENT4EN  ,Event 4 detection enable" "0,1"
bitfld.long 0x00 2. "  EVENT3EN  ,Event 3 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 1. " EVENT2EN  ,Event 2 detection enable" "0,1"
bitfld.long 0x00 0. "  EVENT1EN  ,Event 1 detection enable" "0,1"
group.long 0x34++0x3
line.long 0x00 "SMSET_SEDEN_i_2,System Event Detection Enable register 1"
bitfld.long 0x00 31. " EVENT32EN ,Event 32 detection enable" "0,1"
bitfld.long 0x00 30. "  EVENT31EN ,Event 31 detection enable" "0,1"
bitfld.long 0x00 29. "  EVENT30EN ,Event 30 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 28. " EVENT29EN ,Event 29 detection enable" "0,1"
bitfld.long 0x00 27. "  EVENT28EN ,Event 28 detection enable" "0,1"
bitfld.long 0x00 26. "  EVENT27EN ,Event 27 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 25. " EVENT26EN ,Event 26 detection enable" "0,1"
bitfld.long 0x00 24. "  EVENT25EN ,Event 25 detection enable" "0,1"
bitfld.long 0x00 23. "  EVENT24EN ,Event 24 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 22. " EVENT23EN ,Event 23 detection enable" "0,1"
bitfld.long 0x00 21. "  EVENT22EN ,Event 22 detection enable" "0,1"
bitfld.long 0x00 20. "  EVENT21EN ,Event 21 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 19. " EVENT20EN ,Event 20 detection enable" "0,1"
bitfld.long 0x00 18. "  EVENT19EN ,Event 19 detection enable" "0,1"
bitfld.long 0x00 17. "  EVENT18EN ,Event 18 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 16. " EVENT17EN ,Event 17 detection enable" "0,1"
bitfld.long 0x00 15. "  EVENT16EN ,Event 16 detection enable" "0,1"
bitfld.long 0x00 14. "  EVENT15EN ,Event 15 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 13. " EVENT14EN ,Event 14 detection enable" "0,1"
bitfld.long 0x00 12. "  EVENT13EN ,Event 13 detection enable" "0,1"
bitfld.long 0x00 11. "  EVENT12EN ,Event 12 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 10. " EVENT11EN ,Event 11 detection enable" "0,1"
bitfld.long 0x00 9. "  EVENT10EN ,Event 10 detection enable" "0,1"
bitfld.long 0x00 8. "  EVENT9EN  ,Event 9 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 7. " EVENT8EN  ,Event 8 detection enable" "0,1"
bitfld.long 0x00 6. "  EVENT7EN  ,Event 7 detection enable" "0,1"
bitfld.long 0x00 5. "  EVENT6EN  ,Event 6 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 4. " EVENT5EN  ,Event 5 detection enable" "0,1"
bitfld.long 0x00 3. "  EVENT4EN  ,Event 4 detection enable" "0,1"
bitfld.long 0x00 2. "  EVENT3EN  ,Event 3 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 1. " EVENT2EN  ,Event 2 detection enable" "0,1"
bitfld.long 0x00 0. "  EVENT1EN  ,Event 1 detection enable" "0,1"
group.long 0x38++0x3
line.long 0x00 "SMSET_SEDEN_i_3,System Event Detection Enable register 1"
bitfld.long 0x00 31. " EVENT32EN ,Event 32 detection enable" "0,1"
bitfld.long 0x00 30. "  EVENT31EN ,Event 31 detection enable" "0,1"
bitfld.long 0x00 29. "  EVENT30EN ,Event 30 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 28. " EVENT29EN ,Event 29 detection enable" "0,1"
bitfld.long 0x00 27. "  EVENT28EN ,Event 28 detection enable" "0,1"
bitfld.long 0x00 26. "  EVENT27EN ,Event 27 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 25. " EVENT26EN ,Event 26 detection enable" "0,1"
bitfld.long 0x00 24. "  EVENT25EN ,Event 25 detection enable" "0,1"
bitfld.long 0x00 23. "  EVENT24EN ,Event 24 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 22. " EVENT23EN ,Event 23 detection enable" "0,1"
bitfld.long 0x00 21. "  EVENT22EN ,Event 22 detection enable" "0,1"
bitfld.long 0x00 20. "  EVENT21EN ,Event 21 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 19. " EVENT20EN ,Event 20 detection enable" "0,1"
bitfld.long 0x00 18. "  EVENT19EN ,Event 19 detection enable" "0,1"
bitfld.long 0x00 17. "  EVENT18EN ,Event 18 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 16. " EVENT17EN ,Event 17 detection enable" "0,1"
bitfld.long 0x00 15. "  EVENT16EN ,Event 16 detection enable" "0,1"
bitfld.long 0x00 14. "  EVENT15EN ,Event 15 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 13. " EVENT14EN ,Event 14 detection enable" "0,1"
bitfld.long 0x00 12. "  EVENT13EN ,Event 13 detection enable" "0,1"
bitfld.long 0x00 11. "  EVENT12EN ,Event 12 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 10. " EVENT11EN ,Event 11 detection enable" "0,1"
bitfld.long 0x00 9. "  EVENT10EN ,Event 10 detection enable" "0,1"
bitfld.long 0x00 8. "  EVENT9EN  ,Event 9 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 7. " EVENT8EN  ,Event 8 detection enable" "0,1"
bitfld.long 0x00 6. "  EVENT7EN  ,Event 7 detection enable" "0,1"
bitfld.long 0x00 5. "  EVENT6EN  ,Event 6 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 4. " EVENT5EN  ,Event 5 detection enable" "0,1"
bitfld.long 0x00 3. "  EVENT4EN  ,Event 4 detection enable" "0,1"
bitfld.long 0x00 2. "  EVENT3EN  ,Event 3 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 1. " EVENT2EN  ,Event 2 detection enable" "0,1"
bitfld.long 0x00 0. "  EVENT1EN  ,Event 1 detection enable" "0,1"
group.long 0x3C++0x3
line.long 0x00 "SMSET_SEDEN_i_4,System Event Detection Enable register 1"
bitfld.long 0x00 31. " EVENT32EN ,Event 32 detection enable" "0,1"
bitfld.long 0x00 30. "  EVENT31EN ,Event 31 detection enable" "0,1"
bitfld.long 0x00 29. "  EVENT30EN ,Event 30 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 28. " EVENT29EN ,Event 29 detection enable" "0,1"
bitfld.long 0x00 27. "  EVENT28EN ,Event 28 detection enable" "0,1"
bitfld.long 0x00 26. "  EVENT27EN ,Event 27 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 25. " EVENT26EN ,Event 26 detection enable" "0,1"
bitfld.long 0x00 24. "  EVENT25EN ,Event 25 detection enable" "0,1"
bitfld.long 0x00 23. "  EVENT24EN ,Event 24 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 22. " EVENT23EN ,Event 23 detection enable" "0,1"
bitfld.long 0x00 21. "  EVENT22EN ,Event 22 detection enable" "0,1"
bitfld.long 0x00 20. "  EVENT21EN ,Event 21 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 19. " EVENT20EN ,Event 20 detection enable" "0,1"
bitfld.long 0x00 18. "  EVENT19EN ,Event 19 detection enable" "0,1"
bitfld.long 0x00 17. "  EVENT18EN ,Event 18 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 16. " EVENT17EN ,Event 17 detection enable" "0,1"
bitfld.long 0x00 15. "  EVENT16EN ,Event 16 detection enable" "0,1"
bitfld.long 0x00 14. "  EVENT15EN ,Event 15 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 13. " EVENT14EN ,Event 14 detection enable" "0,1"
bitfld.long 0x00 12. "  EVENT13EN ,Event 13 detection enable" "0,1"
bitfld.long 0x00 11. "  EVENT12EN ,Event 12 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 10. " EVENT11EN ,Event 11 detection enable" "0,1"
bitfld.long 0x00 9. "  EVENT10EN ,Event 10 detection enable" "0,1"
bitfld.long 0x00 8. "  EVENT9EN  ,Event 9 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 7. " EVENT8EN  ,Event 8 detection enable" "0,1"
bitfld.long 0x00 6. "  EVENT7EN  ,Event 7 detection enable" "0,1"
bitfld.long 0x00 5. "  EVENT6EN  ,Event 6 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 4. " EVENT5EN  ,Event 5 detection enable" "0,1"
bitfld.long 0x00 3. "  EVENT4EN  ,Event 4 detection enable" "0,1"
bitfld.long 0x00 2. "  EVENT3EN  ,Event 3 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 1. " EVENT2EN  ,Event 2 detection enable" "0,1"
bitfld.long 0x00 0. "  EVENT1EN  ,Event 1 detection enable" "0,1"
group.long 0x40++0x3
line.long 0x00 "SMSET_SEDEN_i_5,System Event Detection Enable register 1"
bitfld.long 0x00 31. " EVENT32EN ,Event 32 detection enable" "0,1"
bitfld.long 0x00 30. "  EVENT31EN ,Event 31 detection enable" "0,1"
bitfld.long 0x00 29. "  EVENT30EN ,Event 30 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 28. " EVENT29EN ,Event 29 detection enable" "0,1"
bitfld.long 0x00 27. "  EVENT28EN ,Event 28 detection enable" "0,1"
bitfld.long 0x00 26. "  EVENT27EN ,Event 27 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 25. " EVENT26EN ,Event 26 detection enable" "0,1"
bitfld.long 0x00 24. "  EVENT25EN ,Event 25 detection enable" "0,1"
bitfld.long 0x00 23. "  EVENT24EN ,Event 24 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 22. " EVENT23EN ,Event 23 detection enable" "0,1"
bitfld.long 0x00 21. "  EVENT22EN ,Event 22 detection enable" "0,1"
bitfld.long 0x00 20. "  EVENT21EN ,Event 21 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 19. " EVENT20EN ,Event 20 detection enable" "0,1"
bitfld.long 0x00 18. "  EVENT19EN ,Event 19 detection enable" "0,1"
bitfld.long 0x00 17. "  EVENT18EN ,Event 18 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 16. " EVENT17EN ,Event 17 detection enable" "0,1"
bitfld.long 0x00 15. "  EVENT16EN ,Event 16 detection enable" "0,1"
bitfld.long 0x00 14. "  EVENT15EN ,Event 15 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 13. " EVENT14EN ,Event 14 detection enable" "0,1"
bitfld.long 0x00 12. "  EVENT13EN ,Event 13 detection enable" "0,1"
bitfld.long 0x00 11. "  EVENT12EN ,Event 12 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 10. " EVENT11EN ,Event 11 detection enable" "0,1"
bitfld.long 0x00 9. "  EVENT10EN ,Event 10 detection enable" "0,1"
bitfld.long 0x00 8. "  EVENT9EN  ,Event 9 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 7. " EVENT8EN  ,Event 8 detection enable" "0,1"
bitfld.long 0x00 6. "  EVENT7EN  ,Event 7 detection enable" "0,1"
bitfld.long 0x00 5. "  EVENT6EN  ,Event 6 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 4. " EVENT5EN  ,Event 5 detection enable" "0,1"
bitfld.long 0x00 3. "  EVENT4EN  ,Event 4 detection enable" "0,1"
bitfld.long 0x00 2. "  EVENT3EN  ,Event 3 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 1. " EVENT2EN  ,Event 2 detection enable" "0,1"
bitfld.long 0x00 0. "  EVENT1EN  ,Event 1 detection enable" "0,1"
group.long 0x44++0x3
line.long 0x00 "SMSET_SEDEN_i_6,System Event Detection Enable register 1"
bitfld.long 0x00 31. " EVENT32EN ,Event 32 detection enable" "0,1"
bitfld.long 0x00 30. "  EVENT31EN ,Event 31 detection enable" "0,1"
bitfld.long 0x00 29. "  EVENT30EN ,Event 30 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 28. " EVENT29EN ,Event 29 detection enable" "0,1"
bitfld.long 0x00 27. "  EVENT28EN ,Event 28 detection enable" "0,1"
bitfld.long 0x00 26. "  EVENT27EN ,Event 27 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 25. " EVENT26EN ,Event 26 detection enable" "0,1"
bitfld.long 0x00 24. "  EVENT25EN ,Event 25 detection enable" "0,1"
bitfld.long 0x00 23. "  EVENT24EN ,Event 24 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 22. " EVENT23EN ,Event 23 detection enable" "0,1"
bitfld.long 0x00 21. "  EVENT22EN ,Event 22 detection enable" "0,1"
bitfld.long 0x00 20. "  EVENT21EN ,Event 21 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 19. " EVENT20EN ,Event 20 detection enable" "0,1"
bitfld.long 0x00 18. "  EVENT19EN ,Event 19 detection enable" "0,1"
bitfld.long 0x00 17. "  EVENT18EN ,Event 18 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 16. " EVENT17EN ,Event 17 detection enable" "0,1"
bitfld.long 0x00 15. "  EVENT16EN ,Event 16 detection enable" "0,1"
bitfld.long 0x00 14. "  EVENT15EN ,Event 15 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 13. " EVENT14EN ,Event 14 detection enable" "0,1"
bitfld.long 0x00 12. "  EVENT13EN ,Event 13 detection enable" "0,1"
bitfld.long 0x00 11. "  EVENT12EN ,Event 12 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 10. " EVENT11EN ,Event 11 detection enable" "0,1"
bitfld.long 0x00 9. "  EVENT10EN ,Event 10 detection enable" "0,1"
bitfld.long 0x00 8. "  EVENT9EN  ,Event 9 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 7. " EVENT8EN  ,Event 8 detection enable" "0,1"
bitfld.long 0x00 6. "  EVENT7EN  ,Event 7 detection enable" "0,1"
bitfld.long 0x00 5. "  EVENT6EN  ,Event 6 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 4. " EVENT5EN  ,Event 5 detection enable" "0,1"
bitfld.long 0x00 3. "  EVENT4EN  ,Event 4 detection enable" "0,1"
bitfld.long 0x00 2. "  EVENT3EN  ,Event 3 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 1. " EVENT2EN  ,Event 2 detection enable" "0,1"
bitfld.long 0x00 0. "  EVENT1EN  ,Event 1 detection enable" "0,1"
group.long 0x48++0x3
line.long 0x00 "SMSET_SEDEN_i_7,System Event Detection Enable register 1"
bitfld.long 0x00 31. " EVENT32EN ,Event 32 detection enable" "0,1"
bitfld.long 0x00 30. "  EVENT31EN ,Event 31 detection enable" "0,1"
bitfld.long 0x00 29. "  EVENT30EN ,Event 30 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 28. " EVENT29EN ,Event 29 detection enable" "0,1"
bitfld.long 0x00 27. "  EVENT28EN ,Event 28 detection enable" "0,1"
bitfld.long 0x00 26. "  EVENT27EN ,Event 27 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 25. " EVENT26EN ,Event 26 detection enable" "0,1"
bitfld.long 0x00 24. "  EVENT25EN ,Event 25 detection enable" "0,1"
bitfld.long 0x00 23. "  EVENT24EN ,Event 24 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 22. " EVENT23EN ,Event 23 detection enable" "0,1"
bitfld.long 0x00 21. "  EVENT22EN ,Event 22 detection enable" "0,1"
bitfld.long 0x00 20. "  EVENT21EN ,Event 21 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 19. " EVENT20EN ,Event 20 detection enable" "0,1"
bitfld.long 0x00 18. "  EVENT19EN ,Event 19 detection enable" "0,1"
bitfld.long 0x00 17. "  EVENT18EN ,Event 18 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 16. " EVENT17EN ,Event 17 detection enable" "0,1"
bitfld.long 0x00 15. "  EVENT16EN ,Event 16 detection enable" "0,1"
bitfld.long 0x00 14. "  EVENT15EN ,Event 15 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 13. " EVENT14EN ,Event 14 detection enable" "0,1"
bitfld.long 0x00 12. "  EVENT13EN ,Event 13 detection enable" "0,1"
bitfld.long 0x00 11. "  EVENT12EN ,Event 12 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 10. " EVENT11EN ,Event 11 detection enable" "0,1"
bitfld.long 0x00 9. "  EVENT10EN ,Event 10 detection enable" "0,1"
bitfld.long 0x00 8. "  EVENT9EN  ,Event 9 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 7. " EVENT8EN  ,Event 8 detection enable" "0,1"
bitfld.long 0x00 6. "  EVENT7EN  ,Event 7 detection enable" "0,1"
bitfld.long 0x00 5. "  EVENT6EN  ,Event 6 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 4. " EVENT5EN  ,Event 5 detection enable" "0,1"
bitfld.long 0x00 3. "  EVENT4EN  ,Event 4 detection enable" "0,1"
bitfld.long 0x00 2. "  EVENT3EN  ,Event 3 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 1. " EVENT2EN  ,Event 2 detection enable" "0,1"
bitfld.long 0x00 0. "  EVENT1EN  ,Event 1 detection enable" "0,1"
group.long 0x4C++0x3
line.long 0x00 "SMSET_SEDEN_i_8,System Event Detection Enable register 1"
bitfld.long 0x00 31. " EVENT32EN ,Event 32 detection enable" "0,1"
bitfld.long 0x00 30. "  EVENT31EN ,Event 31 detection enable" "0,1"
bitfld.long 0x00 29. "  EVENT30EN ,Event 30 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 28. " EVENT29EN ,Event 29 detection enable" "0,1"
bitfld.long 0x00 27. "  EVENT28EN ,Event 28 detection enable" "0,1"
bitfld.long 0x00 26. "  EVENT27EN ,Event 27 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 25. " EVENT26EN ,Event 26 detection enable" "0,1"
bitfld.long 0x00 24. "  EVENT25EN ,Event 25 detection enable" "0,1"
bitfld.long 0x00 23. "  EVENT24EN ,Event 24 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 22. " EVENT23EN ,Event 23 detection enable" "0,1"
bitfld.long 0x00 21. "  EVENT22EN ,Event 22 detection enable" "0,1"
bitfld.long 0x00 20. "  EVENT21EN ,Event 21 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 19. " EVENT20EN ,Event 20 detection enable" "0,1"
bitfld.long 0x00 18. "  EVENT19EN ,Event 19 detection enable" "0,1"
bitfld.long 0x00 17. "  EVENT18EN ,Event 18 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 16. " EVENT17EN ,Event 17 detection enable" "0,1"
bitfld.long 0x00 15. "  EVENT16EN ,Event 16 detection enable" "0,1"
bitfld.long 0x00 14. "  EVENT15EN ,Event 15 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 13. " EVENT14EN ,Event 14 detection enable" "0,1"
bitfld.long 0x00 12. "  EVENT13EN ,Event 13 detection enable" "0,1"
bitfld.long 0x00 11. "  EVENT12EN ,Event 12 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 10. " EVENT11EN ,Event 11 detection enable" "0,1"
bitfld.long 0x00 9. "  EVENT10EN ,Event 10 detection enable" "0,1"
bitfld.long 0x00 8. "  EVENT9EN  ,Event 9 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 7. " EVENT8EN  ,Event 8 detection enable" "0,1"
bitfld.long 0x00 6. "  EVENT7EN  ,Event 7 detection enable" "0,1"
bitfld.long 0x00 5. "  EVENT6EN  ,Event 6 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 4. " EVENT5EN  ,Event 5 detection enable" "0,1"
bitfld.long 0x00 3. "  EVENT4EN  ,Event 4 detection enable" "0,1"
bitfld.long 0x00 2. "  EVENT3EN  ,Event 3 detection enable" "0,1"
textline "                          "
bitfld.long 0x00 1. " EVENT2EN  ,Event 2 detection enable" "0,1"
bitfld.long 0x00 0. "  EVENT1EN  ,Event 1 detection enable" "0,1"
tree.end
textline ""
width 12.
rgroup.long 0x0++0x3
line.long 0x00 "SMSET_ID,SMSET identification register"
hexmask.long 0x00 0.--31. 1. " REVISION           ,Revision"
group.long 0x10++0x3
line.long 0x00 "SMSET_SCFG,SMSET system configuration register"
bitfld.long 0x00 2.--3. " IDLEMODE           ,Configuration of the local target state management mode. 0x0: Force-idle; 0x1No-idle; 0x2 Smart-idle; 0x3 Smart-Idle wakeup-capable" "0,1,2,3"
bitfld.long 0x00 0. "         SOFTRESET        ,Triggers System Event Trace module reset. This bit is automatically cleared by hardware" "0,1"
rgroup.long 0x14++0x3
line.long 0x00 "SMSET_SR,SMSET Status Register"
bitfld.long 0x00 9. " SWFIFOEMPTY        ,SW message FIFO empty" "0,1"
bitfld.long 0x00 8. "         HWFIFOEMPTY      ,System event trace FIFO empty" "0,1"
bitfld.long 0x00 0. "  RESETDONE    ,Reset completed" "0,1"
group.long 0x24++0x3
line.long 0x00 "SMSET_CFG,SMSET Configuration register"
bitfld.long 0x00 30.--31. " OWNERSHIP          ,Read to get current ownership status. The claim status encoding is (0=Available, 1=Claimed, 2=Enabled, 3=Reserved);Send command to modify ownership state: 00= Release ownership, 01 = Claim ownership, 10 = Enable unit, 11 = No opera..." "0,1,2,3"
bitfld.long 0x00 29. "         DEBUGGEROVERRIDE ,Reading from the DebuggerOverride bit returns a 1." "0,1"
bitfld.long 0x00 28. "  CURRENTOWNER ,This value reflects the SMSET ownership when the register is in a non-Available state." "0,1"
textline "                     "
bitfld.long 0x00 7. " CAPTUREEN          ,When high the sytem event capture is enabled" "0,1"
bitfld.long 0x00 4. "         EVENTLEVEL       ,This applies to all selected events: 0x0: low level event detection 0x1: high level evnet detection" "0,1"
bitfld.long 0x00 3. "  EVENTMSG     ,essage generated based on: 0x0: sampling window 0x1: event detection" "0,1"
textline "                     "
bitfld.long 0x00 2. " STOP               ,Stop capturing system events from external trigger detection [EMU1 HIGH to LOW]" "0,1"
bitfld.long 0x00 1. "         START            ,Start capturing system events from external trigger detection [EMU0 HIGH to LOW]" "0,1"
group.long 0x28++0x3
line.long 0x00 "SMSET_SESW,System Event Sampling Window register"
hexmask.long.byte 0x00 0.--7. 1. " SAMPLINGWINDOWSIZE ,System events sampling window size expressed as SMSET cycles"
width 0x0B
tree.end
tree.end
tree.end
tree.open "VCOP_CPU_and_Instruction_Set"
tree.open "EVE1_VCOP"
tree "EVE1_VCOP"
base ad:0x42084000
tree "Channel_0"
width 17.
rgroup.long 0x40++0x3
line.long 0x00 "VCOP_LD_PTR_i_0,The LD pointer registers 0 to 7 or (VCOP_LD_PTR(0..7)) is a snapshot of the LD memory address. The LD unit is identified by the destination vector register V0..V7"
hexmask.long 0x00 0.--31. 1. " LD_PTRi ,LD pointer i (i = 0 to 7)."
rgroup.long 0x60++0x3
line.long 0x00 "VCOP_ST_PTR_j_0,The ST pointer registers 0 to 7 (VCOP_VLOOP_ST_PTR(0..7)) is a snapshot of the ST memory address. The ST unit is identified by the order ST appears in program."
hexmask.long 0x00 0.--31. 1. " ST_PTR0 ,ST pointer j (j=0 to 7)."
tree.end
tree "Channel_1"
width 17.
rgroup.long 0x44++0x3
line.long 0x00 "VCOP_LD_PTR_i_1,The LD pointer registers 0 to 7 or (VCOP_LD_PTR(0..7)) is a snapshot of the LD memory address. The LD unit is identified by the destination vector register V0..V7"
hexmask.long 0x00 0.--31. 1. " LD_PTRi ,LD pointer i (i = 0 to 7)."
rgroup.long 0x64++0x3
line.long 0x00 "VCOP_ST_PTR_j_1,The ST pointer registers 0 to 7 (VCOP_VLOOP_ST_PTR(0..7)) is a snapshot of the ST memory address. The ST unit is identified by the order ST appears in program."
hexmask.long 0x00 0.--31. 1. " ST_PTR0 ,ST pointer j (j=0 to 7)."
tree.end
tree "Channel_2"
width 17.
rgroup.long 0x48++0x3
line.long 0x00 "VCOP_LD_PTR_i_2,The LD pointer registers 0 to 7 or (VCOP_LD_PTR(0..7)) is a snapshot of the LD memory address. The LD unit is identified by the destination vector register V0..V7"
hexmask.long 0x00 0.--31. 1. " LD_PTRi ,LD pointer i (i = 0 to 7)."
rgroup.long 0x68++0x3
line.long 0x00 "VCOP_ST_PTR_j_2,The ST pointer registers 0 to 7 (VCOP_VLOOP_ST_PTR(0..7)) is a snapshot of the ST memory address. The ST unit is identified by the order ST appears in program."
hexmask.long 0x00 0.--31. 1. " ST_PTR0 ,ST pointer j (j=0 to 7)."
tree.end
tree "Channel_3"
width 17.
rgroup.long 0x4C++0x3
line.long 0x00 "VCOP_LD_PTR_i_3,The LD pointer registers 0 to 7 or (VCOP_LD_PTR(0..7)) is a snapshot of the LD memory address. The LD unit is identified by the destination vector register V0..V7"
hexmask.long 0x00 0.--31. 1. " LD_PTRi ,LD pointer i (i = 0 to 7)."
rgroup.long 0x6C++0x3
line.long 0x00 "VCOP_ST_PTR_j_3,The ST pointer registers 0 to 7 (VCOP_VLOOP_ST_PTR(0..7)) is a snapshot of the ST memory address. The ST unit is identified by the order ST appears in program."
hexmask.long 0x00 0.--31. 1. " ST_PTR0 ,ST pointer j (j=0 to 7)."
tree.end
tree "Channel_4"
width 17.
rgroup.long 0x50++0x3
line.long 0x00 "VCOP_LD_PTR_i_4,The LD pointer registers 0 to 7 or (VCOP_LD_PTR(0..7)) is a snapshot of the LD memory address. The LD unit is identified by the destination vector register V0..V7"
hexmask.long 0x00 0.--31. 1. " LD_PTRi ,LD pointer i (i = 0 to 7)."
rgroup.long 0x70++0x3
line.long 0x00 "VCOP_ST_PTR_j_4,The ST pointer registers 0 to 7 (VCOP_VLOOP_ST_PTR(0..7)) is a snapshot of the ST memory address. The ST unit is identified by the order ST appears in program."
hexmask.long 0x00 0.--31. 1. " ST_PTR0 ,ST pointer j (j=0 to 7)."
tree.end
tree "Channel_5"
width 17.
rgroup.long 0x54++0x3
line.long 0x00 "VCOP_LD_PTR_i_5,The LD pointer registers 0 to 7 or (VCOP_LD_PTR(0..7)) is a snapshot of the LD memory address. The LD unit is identified by the destination vector register V0..V7"
hexmask.long 0x00 0.--31. 1. " LD_PTRi ,LD pointer i (i = 0 to 7)."
rgroup.long 0x74++0x3
line.long 0x00 "VCOP_ST_PTR_j_5,The ST pointer registers 0 to 7 (VCOP_VLOOP_ST_PTR(0..7)) is a snapshot of the ST memory address. The ST unit is identified by the order ST appears in program."
hexmask.long 0x00 0.--31. 1. " ST_PTR0 ,ST pointer j (j=0 to 7)."
tree.end
tree "Channel_6"
width 17.
rgroup.long 0x58++0x3
line.long 0x00 "VCOP_LD_PTR_i_6,The LD pointer registers 0 to 7 or (VCOP_LD_PTR(0..7)) is a snapshot of the LD memory address. The LD unit is identified by the destination vector register V0..V7"
hexmask.long 0x00 0.--31. 1. " LD_PTRi ,LD pointer i (i = 0 to 7)."
rgroup.long 0x78++0x3
line.long 0x00 "VCOP_ST_PTR_j_6,The ST pointer registers 0 to 7 (VCOP_VLOOP_ST_PTR(0..7)) is a snapshot of the ST memory address. The ST unit is identified by the order ST appears in program."
hexmask.long 0x00 0.--31. 1. " ST_PTR0 ,ST pointer j (j=0 to 7)."
tree.end
tree "Channel_7"
width 17.
rgroup.long 0x5C++0x3
line.long 0x00 "VCOP_LD_PTR_i_7,The LD pointer registers 0 to 7 or (VCOP_LD_PTR(0..7)) is a snapshot of the LD memory address. The LD unit is identified by the destination vector register V0..V7"
hexmask.long 0x00 0.--31. 1. " LD_PTRi ,LD pointer i (i = 0 to 7)."
rgroup.long 0x7C++0x3
line.long 0x00 "VCOP_ST_PTR_j_7,The ST pointer registers 0 to 7 (VCOP_VLOOP_ST_PTR(0..7)) is a snapshot of the ST memory address. The ST unit is identified by the order ST appears in program."
hexmask.long 0x00 0.--31. 1. " ST_PTR0 ,ST pointer j (j=0 to 7)."
tree.end
textline ""
width 16.
rgroup.long 0x0++0x3
line.long 0x00 "VCOP_PID,"
hexmask.long 0x00 0.--31. 1. " PID        ,IP Revision"
group.long 0x4++0x3
line.long 0x00 "VCOP_CTRL,VCOP Control Register"
bitfld.long 0x00 1. " STEP_GO    ,Starts executing a single i4 iteration - . - ." "NOP,START"
bitfld.long 0x00 0. "     STEP_EN   ,Enable Single Step mode - . - ." "Disable,Enable"
rgroup.long 0x8++0x3
line.long 0x00 "VCOP_STATUS,VCOP status register."
bitfld.long 0x00 2. " VEC_RDY    ,Vector core ready to accept next vector instruction" "0,1"
bitfld.long 0x00 1. "         VEC_DONE  ,Vector core has completed execution of submitted vector loops." "0,1"
bitfld.long 0x00 0. "         STEP_RDY ,Ready for next step (single step) - . - ." "Busy,1"
group.long 0xC++0x3
line.long 0x00 "VCOP_MAX_ITERS,"
hexmask.long.word 0x00 16.--31. 1. " RESESERVED ,Reserved. Read returns 0s"
hexmask.long.word 0x00 0.--15. 1. "      MAX_ITERS ,Maximum iteration count. Send interrupt when a loop in execution exceeds the programmed max iteration count. This is to guard against VCOP hangs due to run-away program. - . - ."
group.long 0x10++0x3
line.long 0x00 "VCOP_ERROR,Error interrupt enalbe and status register. Writing 1 to the ERR_STi bits clears the interrupt status."
bitfld.long 0x00 23. " ERR_DIS7   ,Error Interrupt disable. - . - ." "Enable,1"
bitfld.long 0x00 22. "    ERR_DIS6  ,Error Interrupt disable. - . - ." "Enable,1"
bitfld.long 0x00 21. "    ERR_DIS5 ,Error Interrupt disable. - . - ." "Enable,1"
textline "                         "
bitfld.long 0x00 20. " ERR_DIS4   ,Error Interrupt disable. - . - ." "Enable,1"
bitfld.long 0x00 19. "    ERR_DIS3  ,Error Interrupt disable. - . - ." "Enable,1"
bitfld.long 0x00 18. "    ERR_DIS2 ,Error Interrupt disable. - . - ." "Enable,1"
textline "                         "
bitfld.long 0x00 17. " ERR_DIS1   ,Error Interrupt disable. - . - ." "Enable,1"
bitfld.long 0x00 16. "    ERR_DIS0  ,Error Interrupt disable. - . - ." "Enable,1"
bitfld.long 0x00 7. "    ERR_ST7  ,ST_PDDA bank conflict error status: - . - ." "No_error,Error"
textline "                         "
bitfld.long 0x00 6. " ERR_ST6    ,ST WBUF out-of-bound error status: - . - ." "No_error,Error"
bitfld.long 0x00 5. "  ERR_ST5   ,ST IBUF out-of-bound error status: - . - ." "No_error,Error"
bitfld.long 0x00 4. "  ERR_ST4  ,LD WBUF out-of-bound error status: - . - ." "No_error,Error"
textline "                         "
bitfld.long 0x00 3. " ERR_ST3    ,LD IBUF out-of-bound error status: - . - ." "No_error,Error"
bitfld.long 0x00 2. "  ERR_ST2   ,Illegal parameter error status. Effected when pointer is not 32-bit aligned, pointer is outof- bound, or exceed max repeat count. - . - ." "No_error,Error"
bitfld.long 0x00 1. "  ERR_ST1  ,Illegal instruction error status. Effected by all other causes than inside-loop instructions detected outside loop. - . - ." "No_error,Error"
textline "                         "
bitfld.long 0x00 0. " ERR_ST0    ,Illegal instruction error status. Effected by inside-loop instructions (eg, VADD) detected outside loop. When this occurs, VCOP_VLOOP_PTR_DEC value is indeterminate, since VCOP expects valid PC on vec_paddr bus, and ARP32 only sends PC wit..." "No_error,Error"
rgroup.long 0x20++0x3
line.long 0x00 "VCOP_VLOOP_PTR,The VLOOP pointer"
hexmask.long 0x00 0.--31. 1. " VLOOP_PTR  ,VLOOP pointer."
rgroup.long 0x24++0x3
line.long 0x00 "VCOP_PARAM_PTR,"
hexmask.long 0x00 0.--31. 1. " PARAM_PTR  ,Points to the beginning of parameter block for the loop in execution."
rgroup.long 0x30++0x3
line.long 0x00 "VCOP_I0_I1,I0, I1 loop variables register provides a snapshot of i0 and i1"
hexmask.long.word 0x00 16.--31. 1. " I1         ,Snapshot of I1 loop variable."
hexmask.long.word 0x00 0.--15. 1. "      I0        ,Snapshot of I0 loop variable."
rgroup.long 0x34++0x3
line.long 0x00 "VCOP_I2_I3,I2, I3 loop variables register provides a snapshot of i2 and i3"
hexmask.long.word 0x00 16.--31. 1. " I3         ,Snapshot of I2 loop variable."
hexmask.long.word 0x00 0.--15. 1. "      I2        ,Snapshot of I3 loop variable."
rgroup.long 0x38++0x3
line.long 0x00 "VCOP_I4,I4 loop variables register provides a snapshot of i4"
hexmask.long.word 0x00 0.--15. 1. " I4         ,Snapshot of I4 loop variable."
width 0x0B
tree.end
tree "EVE2_VCOP"
base ad:0x42184000
tree "Channel_0"
width 17.
rgroup.long 0x40++0x3
line.long 0x00 "VCOP_LD_PTR_i_0,The LD pointer registers 0 to 7 or (VCOP_LD_PTR(0..7)) is a snapshot of the LD memory address. The LD unit is identified by the destination vector register V0..V7"
hexmask.long 0x00 0.--31. 1. " LD_PTRi ,LD pointer i (i = 0 to 7)."
rgroup.long 0x60++0x3
line.long 0x00 "VCOP_ST_PTR_j_0,The ST pointer registers 0 to 7 (VCOP_VLOOP_ST_PTR(0..7)) is a snapshot of the ST memory address. The ST unit is identified by the order ST appears in program."
hexmask.long 0x00 0.--31. 1. " ST_PTR0 ,ST pointer j (j=0 to 7)."
tree.end
tree "Channel_1"
width 17.
rgroup.long 0x44++0x3
line.long 0x00 "VCOP_LD_PTR_i_1,The LD pointer registers 0 to 7 or (VCOP_LD_PTR(0..7)) is a snapshot of the LD memory address. The LD unit is identified by the destination vector register V0..V7"
hexmask.long 0x00 0.--31. 1. " LD_PTRi ,LD pointer i (i = 0 to 7)."
rgroup.long 0x64++0x3
line.long 0x00 "VCOP_ST_PTR_j_1,The ST pointer registers 0 to 7 (VCOP_VLOOP_ST_PTR(0..7)) is a snapshot of the ST memory address. The ST unit is identified by the order ST appears in program."
hexmask.long 0x00 0.--31. 1. " ST_PTR0 ,ST pointer j (j=0 to 7)."
tree.end
tree "Channel_2"
width 17.
rgroup.long 0x48++0x3
line.long 0x00 "VCOP_LD_PTR_i_2,The LD pointer registers 0 to 7 or (VCOP_LD_PTR(0..7)) is a snapshot of the LD memory address. The LD unit is identified by the destination vector register V0..V7"
hexmask.long 0x00 0.--31. 1. " LD_PTRi ,LD pointer i (i = 0 to 7)."
rgroup.long 0x68++0x3
line.long 0x00 "VCOP_ST_PTR_j_2,The ST pointer registers 0 to 7 (VCOP_VLOOP_ST_PTR(0..7)) is a snapshot of the ST memory address. The ST unit is identified by the order ST appears in program."
hexmask.long 0x00 0.--31. 1. " ST_PTR0 ,ST pointer j (j=0 to 7)."
tree.end
tree "Channel_3"
width 17.
rgroup.long 0x4C++0x3
line.long 0x00 "VCOP_LD_PTR_i_3,The LD pointer registers 0 to 7 or (VCOP_LD_PTR(0..7)) is a snapshot of the LD memory address. The LD unit is identified by the destination vector register V0..V7"
hexmask.long 0x00 0.--31. 1. " LD_PTRi ,LD pointer i (i = 0 to 7)."
rgroup.long 0x6C++0x3
line.long 0x00 "VCOP_ST_PTR_j_3,The ST pointer registers 0 to 7 (VCOP_VLOOP_ST_PTR(0..7)) is a snapshot of the ST memory address. The ST unit is identified by the order ST appears in program."
hexmask.long 0x00 0.--31. 1. " ST_PTR0 ,ST pointer j (j=0 to 7)."
tree.end
tree "Channel_4"
width 17.
rgroup.long 0x50++0x3
line.long 0x00 "VCOP_LD_PTR_i_4,The LD pointer registers 0 to 7 or (VCOP_LD_PTR(0..7)) is a snapshot of the LD memory address. The LD unit is identified by the destination vector register V0..V7"
hexmask.long 0x00 0.--31. 1. " LD_PTRi ,LD pointer i (i = 0 to 7)."
rgroup.long 0x70++0x3
line.long 0x00 "VCOP_ST_PTR_j_4,The ST pointer registers 0 to 7 (VCOP_VLOOP_ST_PTR(0..7)) is a snapshot of the ST memory address. The ST unit is identified by the order ST appears in program."
hexmask.long 0x00 0.--31. 1. " ST_PTR0 ,ST pointer j (j=0 to 7)."
tree.end
tree "Channel_5"
width 17.
rgroup.long 0x54++0x3
line.long 0x00 "VCOP_LD_PTR_i_5,The LD pointer registers 0 to 7 or (VCOP_LD_PTR(0..7)) is a snapshot of the LD memory address. The LD unit is identified by the destination vector register V0..V7"
hexmask.long 0x00 0.--31. 1. " LD_PTRi ,LD pointer i (i = 0 to 7)."
rgroup.long 0x74++0x3
line.long 0x00 "VCOP_ST_PTR_j_5,The ST pointer registers 0 to 7 (VCOP_VLOOP_ST_PTR(0..7)) is a snapshot of the ST memory address. The ST unit is identified by the order ST appears in program."
hexmask.long 0x00 0.--31. 1. " ST_PTR0 ,ST pointer j (j=0 to 7)."
tree.end
tree "Channel_6"
width 17.
rgroup.long 0x58++0x3
line.long 0x00 "VCOP_LD_PTR_i_6,The LD pointer registers 0 to 7 or (VCOP_LD_PTR(0..7)) is a snapshot of the LD memory address. The LD unit is identified by the destination vector register V0..V7"
hexmask.long 0x00 0.--31. 1. " LD_PTRi ,LD pointer i (i = 0 to 7)."
rgroup.long 0x78++0x3
line.long 0x00 "VCOP_ST_PTR_j_6,The ST pointer registers 0 to 7 (VCOP_VLOOP_ST_PTR(0..7)) is a snapshot of the ST memory address. The ST unit is identified by the order ST appears in program."
hexmask.long 0x00 0.--31. 1. " ST_PTR0 ,ST pointer j (j=0 to 7)."
tree.end
tree "Channel_7"
width 17.
rgroup.long 0x5C++0x3
line.long 0x00 "VCOP_LD_PTR_i_7,The LD pointer registers 0 to 7 or (VCOP_LD_PTR(0..7)) is a snapshot of the LD memory address. The LD unit is identified by the destination vector register V0..V7"
hexmask.long 0x00 0.--31. 1. " LD_PTRi ,LD pointer i (i = 0 to 7)."
rgroup.long 0x7C++0x3
line.long 0x00 "VCOP_ST_PTR_j_7,The ST pointer registers 0 to 7 (VCOP_VLOOP_ST_PTR(0..7)) is a snapshot of the ST memory address. The ST unit is identified by the order ST appears in program."
hexmask.long 0x00 0.--31. 1. " ST_PTR0 ,ST pointer j (j=0 to 7)."
tree.end
textline ""
width 16.
rgroup.long 0x0++0x3
line.long 0x00 "VCOP_PID,"
hexmask.long 0x00 0.--31. 1. " PID        ,IP Revision"
group.long 0x4++0x3
line.long 0x00 "VCOP_CTRL,VCOP Control Register"
bitfld.long 0x00 1. " STEP_GO    ,Starts executing a single i4 iteration - . - ." "NOP,START"
bitfld.long 0x00 0. "     STEP_EN   ,Enable Single Step mode - . - ." "Disable,Enable"
rgroup.long 0x8++0x3
line.long 0x00 "VCOP_STATUS,VCOP status register."
bitfld.long 0x00 2. " VEC_RDY    ,Vector core ready to accept next vector instruction" "0,1"
bitfld.long 0x00 1. "         VEC_DONE  ,Vector core has completed execution of submitted vector loops." "0,1"
bitfld.long 0x00 0. "         STEP_RDY ,Ready for next step (single step) - . - ." "Busy,1"
group.long 0xC++0x3
line.long 0x00 "VCOP_MAX_ITERS,"
hexmask.long.word 0x00 16.--31. 1. " RESESERVED ,Reserved. Read returns 0s"
hexmask.long.word 0x00 0.--15. 1. "      MAX_ITERS ,Maximum iteration count. Send interrupt when a loop in execution exceeds the programmed max iteration count. This is to guard against VCOP hangs due to run-away program. - . - ."
group.long 0x10++0x3
line.long 0x00 "VCOP_ERROR,Error interrupt enalbe and status register. Writing 1 to the ERR_STi bits clears the interrupt status."
bitfld.long 0x00 23. " ERR_DIS7   ,Error Interrupt disable. - . - ." "Enable,1"
bitfld.long 0x00 22. "    ERR_DIS6  ,Error Interrupt disable. - . - ." "Enable,1"
bitfld.long 0x00 21. "    ERR_DIS5 ,Error Interrupt disable. - . - ." "Enable,1"
textline "                         "
bitfld.long 0x00 20. " ERR_DIS4   ,Error Interrupt disable. - . - ." "Enable,1"
bitfld.long 0x00 19. "    ERR_DIS3  ,Error Interrupt disable. - . - ." "Enable,1"
bitfld.long 0x00 18. "    ERR_DIS2 ,Error Interrupt disable. - . - ." "Enable,1"
textline "                         "
bitfld.long 0x00 17. " ERR_DIS1   ,Error Interrupt disable. - . - ." "Enable,1"
bitfld.long 0x00 16. "    ERR_DIS0  ,Error Interrupt disable. - . - ." "Enable,1"
bitfld.long 0x00 7. "    ERR_ST7  ,ST_PDDA bank conflict error status: - . - ." "No_error,Error"
textline "                         "
bitfld.long 0x00 6. " ERR_ST6    ,ST WBUF out-of-bound error status: - . - ." "No_error,Error"
bitfld.long 0x00 5. "  ERR_ST5   ,ST IBUF out-of-bound error status: - . - ." "No_error,Error"
bitfld.long 0x00 4. "  ERR_ST4  ,LD WBUF out-of-bound error status: - . - ." "No_error,Error"
textline "                         "
bitfld.long 0x00 3. " ERR_ST3    ,LD IBUF out-of-bound error status: - . - ." "No_error,Error"
bitfld.long 0x00 2. "  ERR_ST2   ,Illegal parameter error status. Effected when pointer is not 32-bit aligned, pointer is outof- bound, or exceed max repeat count. - . - ." "No_error,Error"
bitfld.long 0x00 1. "  ERR_ST1  ,Illegal instruction error status. Effected by all other causes than inside-loop instructions detected outside loop. - . - ." "No_error,Error"
textline "                         "
bitfld.long 0x00 0. " ERR_ST0    ,Illegal instruction error status. Effected by inside-loop instructions (eg, VADD) detected outside loop. When this occurs, VCOP_VLOOP_PTR_DEC value is indeterminate, since VCOP expects valid PC on vec_paddr bus, and ARP32 only sends PC wit..." "No_error,Error"
rgroup.long 0x20++0x3
line.long 0x00 "VCOP_VLOOP_PTR,The VLOOP pointer"
hexmask.long 0x00 0.--31. 1. " VLOOP_PTR  ,VLOOP pointer."
rgroup.long 0x24++0x3
line.long 0x00 "VCOP_PARAM_PTR,"
hexmask.long 0x00 0.--31. 1. " PARAM_PTR  ,Points to the beginning of parameter block for the loop in execution."
rgroup.long 0x30++0x3
line.long 0x00 "VCOP_I0_I1,I0, I1 loop variables register provides a snapshot of i0 and i1"
hexmask.long.word 0x00 16.--31. 1. " I1         ,Snapshot of I1 loop variable."
hexmask.long.word 0x00 0.--15. 1. "      I0        ,Snapshot of I0 loop variable."
rgroup.long 0x34++0x3
line.long 0x00 "VCOP_I2_I3,I2, I3 loop variables register provides a snapshot of i2 and i3"
hexmask.long.word 0x00 16.--31. 1. " I3         ,Snapshot of I2 loop variable."
hexmask.long.word 0x00 0.--15. 1. "      I2        ,Snapshot of I3 loop variable."
rgroup.long 0x38++0x3
line.long 0x00 "VCOP_I4,I4 loop variables register provides a snapshot of i4"
hexmask.long.word 0x00 0.--15. 1. " I4         ,Snapshot of I4 loop variable."
width 0x0B
tree.end
tree "EVE3_VCOP"
base ad:0x42284000
tree "Channel_0"
width 17.
rgroup.long 0x40++0x3
line.long 0x00 "VCOP_LD_PTR_i_0,The LD pointer registers 0 to 7 or (VCOP_LD_PTR(0..7)) is a snapshot of the LD memory address. The LD unit is identified by the destination vector register V0..V7"
hexmask.long 0x00 0.--31. 1. " LD_PTRi ,LD pointer i (i = 0 to 7)."
rgroup.long 0x60++0x3
line.long 0x00 "VCOP_ST_PTR_j_0,The ST pointer registers 0 to 7 (VCOP_VLOOP_ST_PTR(0..7)) is a snapshot of the ST memory address. The ST unit is identified by the order ST appears in program."
hexmask.long 0x00 0.--31. 1. " ST_PTR0 ,ST pointer j (j=0 to 7)."
tree.end
tree "Channel_1"
width 17.
rgroup.long 0x44++0x3
line.long 0x00 "VCOP_LD_PTR_i_1,The LD pointer registers 0 to 7 or (VCOP_LD_PTR(0..7)) is a snapshot of the LD memory address. The LD unit is identified by the destination vector register V0..V7"
hexmask.long 0x00 0.--31. 1. " LD_PTRi ,LD pointer i (i = 0 to 7)."
rgroup.long 0x64++0x3
line.long 0x00 "VCOP_ST_PTR_j_1,The ST pointer registers 0 to 7 (VCOP_VLOOP_ST_PTR(0..7)) is a snapshot of the ST memory address. The ST unit is identified by the order ST appears in program."
hexmask.long 0x00 0.--31. 1. " ST_PTR0 ,ST pointer j (j=0 to 7)."
tree.end
tree "Channel_2"
width 17.
rgroup.long 0x48++0x3
line.long 0x00 "VCOP_LD_PTR_i_2,The LD pointer registers 0 to 7 or (VCOP_LD_PTR(0..7)) is a snapshot of the LD memory address. The LD unit is identified by the destination vector register V0..V7"
hexmask.long 0x00 0.--31. 1. " LD_PTRi ,LD pointer i (i = 0 to 7)."
rgroup.long 0x68++0x3
line.long 0x00 "VCOP_ST_PTR_j_2,The ST pointer registers 0 to 7 (VCOP_VLOOP_ST_PTR(0..7)) is a snapshot of the ST memory address. The ST unit is identified by the order ST appears in program."
hexmask.long 0x00 0.--31. 1. " ST_PTR0 ,ST pointer j (j=0 to 7)."
tree.end
tree "Channel_3"
width 17.
rgroup.long 0x4C++0x3
line.long 0x00 "VCOP_LD_PTR_i_3,The LD pointer registers 0 to 7 or (VCOP_LD_PTR(0..7)) is a snapshot of the LD memory address. The LD unit is identified by the destination vector register V0..V7"
hexmask.long 0x00 0.--31. 1. " LD_PTRi ,LD pointer i (i = 0 to 7)."
rgroup.long 0x6C++0x3
line.long 0x00 "VCOP_ST_PTR_j_3,The ST pointer registers 0 to 7 (VCOP_VLOOP_ST_PTR(0..7)) is a snapshot of the ST memory address. The ST unit is identified by the order ST appears in program."
hexmask.long 0x00 0.--31. 1. " ST_PTR0 ,ST pointer j (j=0 to 7)."
tree.end
tree "Channel_4"
width 17.
rgroup.long 0x50++0x3
line.long 0x00 "VCOP_LD_PTR_i_4,The LD pointer registers 0 to 7 or (VCOP_LD_PTR(0..7)) is a snapshot of the LD memory address. The LD unit is identified by the destination vector register V0..V7"
hexmask.long 0x00 0.--31. 1. " LD_PTRi ,LD pointer i (i = 0 to 7)."
rgroup.long 0x70++0x3
line.long 0x00 "VCOP_ST_PTR_j_4,The ST pointer registers 0 to 7 (VCOP_VLOOP_ST_PTR(0..7)) is a snapshot of the ST memory address. The ST unit is identified by the order ST appears in program."
hexmask.long 0x00 0.--31. 1. " ST_PTR0 ,ST pointer j (j=0 to 7)."
tree.end
tree "Channel_5"
width 17.
rgroup.long 0x54++0x3
line.long 0x00 "VCOP_LD_PTR_i_5,The LD pointer registers 0 to 7 or (VCOP_LD_PTR(0..7)) is a snapshot of the LD memory address. The LD unit is identified by the destination vector register V0..V7"
hexmask.long 0x00 0.--31. 1. " LD_PTRi ,LD pointer i (i = 0 to 7)."
rgroup.long 0x74++0x3
line.long 0x00 "VCOP_ST_PTR_j_5,The ST pointer registers 0 to 7 (VCOP_VLOOP_ST_PTR(0..7)) is a snapshot of the ST memory address. The ST unit is identified by the order ST appears in program."
hexmask.long 0x00 0.--31. 1. " ST_PTR0 ,ST pointer j (j=0 to 7)."
tree.end
tree "Channel_6"
width 17.
rgroup.long 0x58++0x3
line.long 0x00 "VCOP_LD_PTR_i_6,The LD pointer registers 0 to 7 or (VCOP_LD_PTR(0..7)) is a snapshot of the LD memory address. The LD unit is identified by the destination vector register V0..V7"
hexmask.long 0x00 0.--31. 1. " LD_PTRi ,LD pointer i (i = 0 to 7)."
rgroup.long 0x78++0x3
line.long 0x00 "VCOP_ST_PTR_j_6,The ST pointer registers 0 to 7 (VCOP_VLOOP_ST_PTR(0..7)) is a snapshot of the ST memory address. The ST unit is identified by the order ST appears in program."
hexmask.long 0x00 0.--31. 1. " ST_PTR0 ,ST pointer j (j=0 to 7)."
tree.end
tree "Channel_7"
width 17.
rgroup.long 0x5C++0x3
line.long 0x00 "VCOP_LD_PTR_i_7,The LD pointer registers 0 to 7 or (VCOP_LD_PTR(0..7)) is a snapshot of the LD memory address. The LD unit is identified by the destination vector register V0..V7"
hexmask.long 0x00 0.--31. 1. " LD_PTRi ,LD pointer i (i = 0 to 7)."
rgroup.long 0x7C++0x3
line.long 0x00 "VCOP_ST_PTR_j_7,The ST pointer registers 0 to 7 (VCOP_VLOOP_ST_PTR(0..7)) is a snapshot of the ST memory address. The ST unit is identified by the order ST appears in program."
hexmask.long 0x00 0.--31. 1. " ST_PTR0 ,ST pointer j (j=0 to 7)."
tree.end
textline ""
width 16.
rgroup.long 0x0++0x3
line.long 0x00 "VCOP_PID,"
hexmask.long 0x00 0.--31. 1. " PID        ,IP Revision"
group.long 0x4++0x3
line.long 0x00 "VCOP_CTRL,VCOP Control Register"
bitfld.long 0x00 1. " STEP_GO    ,Starts executing a single i4 iteration - . - ." "NOP,START"
bitfld.long 0x00 0. "     STEP_EN   ,Enable Single Step mode - . - ." "Disable,Enable"
rgroup.long 0x8++0x3
line.long 0x00 "VCOP_STATUS,VCOP status register."
bitfld.long 0x00 2. " VEC_RDY    ,Vector core ready to accept next vector instruction" "0,1"
bitfld.long 0x00 1. "         VEC_DONE  ,Vector core has completed execution of submitted vector loops." "0,1"
bitfld.long 0x00 0. "         STEP_RDY ,Ready for next step (single step) - . - ." "Busy,1"
group.long 0xC++0x3
line.long 0x00 "VCOP_MAX_ITERS,"
hexmask.long.word 0x00 16.--31. 1. " RESESERVED ,Reserved. Read returns 0s"
hexmask.long.word 0x00 0.--15. 1. "      MAX_ITERS ,Maximum iteration count. Send interrupt when a loop in execution exceeds the programmed max iteration count. This is to guard against VCOP hangs due to run-away program. - . - ."
group.long 0x10++0x3
line.long 0x00 "VCOP_ERROR,Error interrupt enalbe and status register. Writing 1 to the ERR_STi bits clears the interrupt status."
bitfld.long 0x00 23. " ERR_DIS7   ,Error Interrupt disable. - . - ." "Enable,1"
bitfld.long 0x00 22. "    ERR_DIS6  ,Error Interrupt disable. - . - ." "Enable,1"
bitfld.long 0x00 21. "    ERR_DIS5 ,Error Interrupt disable. - . - ." "Enable,1"
textline "                         "
bitfld.long 0x00 20. " ERR_DIS4   ,Error Interrupt disable. - . - ." "Enable,1"
bitfld.long 0x00 19. "    ERR_DIS3  ,Error Interrupt disable. - . - ." "Enable,1"
bitfld.long 0x00 18. "    ERR_DIS2 ,Error Interrupt disable. - . - ." "Enable,1"
textline "                         "
bitfld.long 0x00 17. " ERR_DIS1   ,Error Interrupt disable. - . - ." "Enable,1"
bitfld.long 0x00 16. "    ERR_DIS0  ,Error Interrupt disable. - . - ." "Enable,1"
bitfld.long 0x00 7. "    ERR_ST7  ,ST_PDDA bank conflict error status: - . - ." "No_error,Error"
textline "                         "
bitfld.long 0x00 6. " ERR_ST6    ,ST WBUF out-of-bound error status: - . - ." "No_error,Error"
bitfld.long 0x00 5. "  ERR_ST5   ,ST IBUF out-of-bound error status: - . - ." "No_error,Error"
bitfld.long 0x00 4. "  ERR_ST4  ,LD WBUF out-of-bound error status: - . - ." "No_error,Error"
textline "                         "
bitfld.long 0x00 3. " ERR_ST3    ,LD IBUF out-of-bound error status: - . - ." "No_error,Error"
bitfld.long 0x00 2. "  ERR_ST2   ,Illegal parameter error status. Effected when pointer is not 32-bit aligned, pointer is outof- bound, or exceed max repeat count. - . - ." "No_error,Error"
bitfld.long 0x00 1. "  ERR_ST1  ,Illegal instruction error status. Effected by all other causes than inside-loop instructions detected outside loop. - . - ." "No_error,Error"
textline "                         "
bitfld.long 0x00 0. " ERR_ST0    ,Illegal instruction error status. Effected by inside-loop instructions (eg, VADD) detected outside loop. When this occurs, VCOP_VLOOP_PTR_DEC value is indeterminate, since VCOP expects valid PC on vec_paddr bus, and ARP32 only sends PC wit..." "No_error,Error"
rgroup.long 0x20++0x3
line.long 0x00 "VCOP_VLOOP_PTR,The VLOOP pointer"
hexmask.long 0x00 0.--31. 1. " VLOOP_PTR  ,VLOOP pointer."
rgroup.long 0x24++0x3
line.long 0x00 "VCOP_PARAM_PTR,"
hexmask.long 0x00 0.--31. 1. " PARAM_PTR  ,Points to the beginning of parameter block for the loop in execution."
rgroup.long 0x30++0x3
line.long 0x00 "VCOP_I0_I1,I0, I1 loop variables register provides a snapshot of i0 and i1"
hexmask.long.word 0x00 16.--31. 1. " I1         ,Snapshot of I1 loop variable."
hexmask.long.word 0x00 0.--15. 1. "      I0        ,Snapshot of I0 loop variable."
rgroup.long 0x34++0x3
line.long 0x00 "VCOP_I2_I3,I2, I3 loop variables register provides a snapshot of i2 and i3"
hexmask.long.word 0x00 16.--31. 1. " I3         ,Snapshot of I2 loop variable."
hexmask.long.word 0x00 0.--15. 1. "      I2        ,Snapshot of I3 loop variable."
rgroup.long 0x38++0x3
line.long 0x00 "VCOP_I4,I4 loop variables register provides a snapshot of i4"
hexmask.long.word 0x00 0.--15. 1. " I4         ,Snapshot of I4 loop variable."
width 0x0B
tree.end
tree "EVE4_VCOP"
base ad:0x42384000
tree "Channel_0"
width 17.
rgroup.long 0x40++0x3
line.long 0x00 "VCOP_LD_PTR_i_0,The LD pointer registers 0 to 7 or (VCOP_LD_PTR(0..7)) is a snapshot of the LD memory address. The LD unit is identified by the destination vector register V0..V7"
hexmask.long 0x00 0.--31. 1. " LD_PTRi ,LD pointer i (i = 0 to 7)."
rgroup.long 0x60++0x3
line.long 0x00 "VCOP_ST_PTR_j_0,The ST pointer registers 0 to 7 (VCOP_VLOOP_ST_PTR(0..7)) is a snapshot of the ST memory address. The ST unit is identified by the order ST appears in program."
hexmask.long 0x00 0.--31. 1. " ST_PTR0 ,ST pointer j (j=0 to 7)."
tree.end
tree "Channel_1"
width 17.
rgroup.long 0x44++0x3
line.long 0x00 "VCOP_LD_PTR_i_1,The LD pointer registers 0 to 7 or (VCOP_LD_PTR(0..7)) is a snapshot of the LD memory address. The LD unit is identified by the destination vector register V0..V7"
hexmask.long 0x00 0.--31. 1. " LD_PTRi ,LD pointer i (i = 0 to 7)."
rgroup.long 0x64++0x3
line.long 0x00 "VCOP_ST_PTR_j_1,The ST pointer registers 0 to 7 (VCOP_VLOOP_ST_PTR(0..7)) is a snapshot of the ST memory address. The ST unit is identified by the order ST appears in program."
hexmask.long 0x00 0.--31. 1. " ST_PTR0 ,ST pointer j (j=0 to 7)."
tree.end
tree "Channel_2"
width 17.
rgroup.long 0x48++0x3
line.long 0x00 "VCOP_LD_PTR_i_2,The LD pointer registers 0 to 7 or (VCOP_LD_PTR(0..7)) is a snapshot of the LD memory address. The LD unit is identified by the destination vector register V0..V7"
hexmask.long 0x00 0.--31. 1. " LD_PTRi ,LD pointer i (i = 0 to 7)."
rgroup.long 0x68++0x3
line.long 0x00 "VCOP_ST_PTR_j_2,The ST pointer registers 0 to 7 (VCOP_VLOOP_ST_PTR(0..7)) is a snapshot of the ST memory address. The ST unit is identified by the order ST appears in program."
hexmask.long 0x00 0.--31. 1. " ST_PTR0 ,ST pointer j (j=0 to 7)."
tree.end
tree "Channel_3"
width 17.
rgroup.long 0x4C++0x3
line.long 0x00 "VCOP_LD_PTR_i_3,The LD pointer registers 0 to 7 or (VCOP_LD_PTR(0..7)) is a snapshot of the LD memory address. The LD unit is identified by the destination vector register V0..V7"
hexmask.long 0x00 0.--31. 1. " LD_PTRi ,LD pointer i (i = 0 to 7)."
rgroup.long 0x6C++0x3
line.long 0x00 "VCOP_ST_PTR_j_3,The ST pointer registers 0 to 7 (VCOP_VLOOP_ST_PTR(0..7)) is a snapshot of the ST memory address. The ST unit is identified by the order ST appears in program."
hexmask.long 0x00 0.--31. 1. " ST_PTR0 ,ST pointer j (j=0 to 7)."
tree.end
tree "Channel_4"
width 17.
rgroup.long 0x50++0x3
line.long 0x00 "VCOP_LD_PTR_i_4,The LD pointer registers 0 to 7 or (VCOP_LD_PTR(0..7)) is a snapshot of the LD memory address. The LD unit is identified by the destination vector register V0..V7"
hexmask.long 0x00 0.--31. 1. " LD_PTRi ,LD pointer i (i = 0 to 7)."
rgroup.long 0x70++0x3
line.long 0x00 "VCOP_ST_PTR_j_4,The ST pointer registers 0 to 7 (VCOP_VLOOP_ST_PTR(0..7)) is a snapshot of the ST memory address. The ST unit is identified by the order ST appears in program."
hexmask.long 0x00 0.--31. 1. " ST_PTR0 ,ST pointer j (j=0 to 7)."
tree.end
tree "Channel_5"
width 17.
rgroup.long 0x54++0x3
line.long 0x00 "VCOP_LD_PTR_i_5,The LD pointer registers 0 to 7 or (VCOP_LD_PTR(0..7)) is a snapshot of the LD memory address. The LD unit is identified by the destination vector register V0..V7"
hexmask.long 0x00 0.--31. 1. " LD_PTRi ,LD pointer i (i = 0 to 7)."
rgroup.long 0x74++0x3
line.long 0x00 "VCOP_ST_PTR_j_5,The ST pointer registers 0 to 7 (VCOP_VLOOP_ST_PTR(0..7)) is a snapshot of the ST memory address. The ST unit is identified by the order ST appears in program."
hexmask.long 0x00 0.--31. 1. " ST_PTR0 ,ST pointer j (j=0 to 7)."
tree.end
tree "Channel_6"
width 17.
rgroup.long 0x58++0x3
line.long 0x00 "VCOP_LD_PTR_i_6,The LD pointer registers 0 to 7 or (VCOP_LD_PTR(0..7)) is a snapshot of the LD memory address. The LD unit is identified by the destination vector register V0..V7"
hexmask.long 0x00 0.--31. 1. " LD_PTRi ,LD pointer i (i = 0 to 7)."
rgroup.long 0x78++0x3
line.long 0x00 "VCOP_ST_PTR_j_6,The ST pointer registers 0 to 7 (VCOP_VLOOP_ST_PTR(0..7)) is a snapshot of the ST memory address. The ST unit is identified by the order ST appears in program."
hexmask.long 0x00 0.--31. 1. " ST_PTR0 ,ST pointer j (j=0 to 7)."
tree.end
tree "Channel_7"
width 17.
rgroup.long 0x5C++0x3
line.long 0x00 "VCOP_LD_PTR_i_7,The LD pointer registers 0 to 7 or (VCOP_LD_PTR(0..7)) is a snapshot of the LD memory address. The LD unit is identified by the destination vector register V0..V7"
hexmask.long 0x00 0.--31. 1. " LD_PTRi ,LD pointer i (i = 0 to 7)."
rgroup.long 0x7C++0x3
line.long 0x00 "VCOP_ST_PTR_j_7,The ST pointer registers 0 to 7 (VCOP_VLOOP_ST_PTR(0..7)) is a snapshot of the ST memory address. The ST unit is identified by the order ST appears in program."
hexmask.long 0x00 0.--31. 1. " ST_PTR0 ,ST pointer j (j=0 to 7)."
tree.end
textline ""
width 16.
rgroup.long 0x0++0x3
line.long 0x00 "VCOP_PID,"
hexmask.long 0x00 0.--31. 1. " PID        ,IP Revision"
group.long 0x4++0x3
line.long 0x00 "VCOP_CTRL,VCOP Control Register"
bitfld.long 0x00 1. " STEP_GO    ,Starts executing a single i4 iteration - . - ." "NOP,START"
bitfld.long 0x00 0. "     STEP_EN   ,Enable Single Step mode - . - ." "Disable,Enable"
rgroup.long 0x8++0x3
line.long 0x00 "VCOP_STATUS,VCOP status register."
bitfld.long 0x00 2. " VEC_RDY    ,Vector core ready to accept next vector instruction" "0,1"
bitfld.long 0x00 1. "         VEC_DONE  ,Vector core has completed execution of submitted vector loops." "0,1"
bitfld.long 0x00 0. "         STEP_RDY ,Ready for next step (single step) - . - ." "Busy,1"
group.long 0xC++0x3
line.long 0x00 "VCOP_MAX_ITERS,"
hexmask.long.word 0x00 16.--31. 1. " RESESERVED ,Reserved. Read returns 0s"
hexmask.long.word 0x00 0.--15. 1. "      MAX_ITERS ,Maximum iteration count. Send interrupt when a loop in execution exceeds the programmed max iteration count. This is to guard against VCOP hangs due to run-away program. - . - ."
group.long 0x10++0x3
line.long 0x00 "VCOP_ERROR,Error interrupt enalbe and status register. Writing 1 to the ERR_STi bits clears the interrupt status."
bitfld.long 0x00 23. " ERR_DIS7   ,Error Interrupt disable. - . - ." "Enable,1"
bitfld.long 0x00 22. "    ERR_DIS6  ,Error Interrupt disable. - . - ." "Enable,1"
bitfld.long 0x00 21. "    ERR_DIS5 ,Error Interrupt disable. - . - ." "Enable,1"
textline "                         "
bitfld.long 0x00 20. " ERR_DIS4   ,Error Interrupt disable. - . - ." "Enable,1"
bitfld.long 0x00 19. "    ERR_DIS3  ,Error Interrupt disable. - . - ." "Enable,1"
bitfld.long 0x00 18. "    ERR_DIS2 ,Error Interrupt disable. - . - ." "Enable,1"
textline "                         "
bitfld.long 0x00 17. " ERR_DIS1   ,Error Interrupt disable. - . - ." "Enable,1"
bitfld.long 0x00 16. "    ERR_DIS0  ,Error Interrupt disable. - . - ." "Enable,1"
bitfld.long 0x00 7. "    ERR_ST7  ,ST_PDDA bank conflict error status: - . - ." "No_error,Error"
textline "                         "
bitfld.long 0x00 6. " ERR_ST6    ,ST WBUF out-of-bound error status: - . - ." "No_error,Error"
bitfld.long 0x00 5. "  ERR_ST5   ,ST IBUF out-of-bound error status: - . - ." "No_error,Error"
bitfld.long 0x00 4. "  ERR_ST4  ,LD WBUF out-of-bound error status: - . - ." "No_error,Error"
textline "                         "
bitfld.long 0x00 3. " ERR_ST3    ,LD IBUF out-of-bound error status: - . - ." "No_error,Error"
bitfld.long 0x00 2. "  ERR_ST2   ,Illegal parameter error status. Effected when pointer is not 32-bit aligned, pointer is outof- bound, or exceed max repeat count. - . - ." "No_error,Error"
bitfld.long 0x00 1. "  ERR_ST1  ,Illegal instruction error status. Effected by all other causes than inside-loop instructions detected outside loop. - . - ." "No_error,Error"
textline "                         "
bitfld.long 0x00 0. " ERR_ST0    ,Illegal instruction error status. Effected by inside-loop instructions (eg, VADD) detected outside loop. When this occurs, VCOP_VLOOP_PTR_DEC value is indeterminate, since VCOP expects valid PC on vec_paddr bus, and ARP32 only sends PC wit..." "No_error,Error"
rgroup.long 0x20++0x3
line.long 0x00 "VCOP_VLOOP_PTR,The VLOOP pointer"
hexmask.long 0x00 0.--31. 1. " VLOOP_PTR  ,VLOOP pointer."
rgroup.long 0x24++0x3
line.long 0x00 "VCOP_PARAM_PTR,"
hexmask.long 0x00 0.--31. 1. " PARAM_PTR  ,Points to the beginning of parameter block for the loop in execution."
rgroup.long 0x30++0x3
line.long 0x00 "VCOP_I0_I1,I0, I1 loop variables register provides a snapshot of i0 and i1"
hexmask.long.word 0x00 16.--31. 1. " I1         ,Snapshot of I1 loop variable."
hexmask.long.word 0x00 0.--15. 1. "      I0        ,Snapshot of I0 loop variable."
rgroup.long 0x34++0x3
line.long 0x00 "VCOP_I2_I3,I2, I3 loop variables register provides a snapshot of i2 and i3"
hexmask.long.word 0x00 16.--31. 1. " I3         ,Snapshot of I2 loop variable."
hexmask.long.word 0x00 0.--15. 1. "      I2        ,Snapshot of I3 loop variable."
rgroup.long 0x38++0x3
line.long 0x00 "VCOP_I4,I4 loop variables register provides a snapshot of i4"
hexmask.long.word 0x00 0.--15. 1. " I4         ,Snapshot of I4 loop variable."
width 0x0B
tree.end
tree.end
tree.end
textline ""